diff --git a/dist/assets/oldWorker-Braq5_-n.js.map b/dist/assets/oldWorker-Braq5_-n.js.map new file mode 100644 index 00000000..a829b1d3 --- /dev/null +++ b/dist/assets/oldWorker-Braq5_-n.js.map @@ -0,0 +1 @@ +{"version":3,"file":"oldWorker-Braq5_-n.js","sources":["../rust/spark-worker-rs/pkg/spark_worker_rs.js","../node_modules/fflate/esm/browser.js","../node_modules/three/build/three.core.js","../src/defines.ts","../src/dyno/base.ts","../src/utils.ts","../src/antisplat.ts","../src/ksplat.ts","../src/ply.ts","../src/spz.ts","../src/SplatLoader.ts","../src/pcsogs.ts","../src/oldWorker.ts"],"sourcesContent":["/* @ts-self-types=\"./spark_worker_rs.d.ts\" */\n\nexport class ChunkDecoder {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(ChunkDecoder.prototype);\n obj.__wbg_ptr = ptr;\n ChunkDecoderFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n ChunkDecoderFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_chunkdecoder_free(ptr, 0);\n }\n /**\n * @returns {any}\n */\n finish() {\n const ptr = this.__destroy_into_raw();\n const ret = wasm.chunkdecoder_finish(ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {Uint8Array} bytes\n */\n push(bytes) {\n const ret = wasm.chunkdecoder_push(this.__wbg_ptr, bytes);\n if (ret[1]) {\n throw takeFromExternrefTable0(ret[0]);\n }\n }\n}\nif (Symbol.dispose) ChunkDecoder.prototype[Symbol.dispose] = ChunkDecoder.prototype.free;\n\nexport class CsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(CsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n CsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n CsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_csplatarray_free(ptr, 0);\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.csplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.csplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.csplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.csplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.csplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.csplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.csplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats() {\n const ret = wasm.csplatarray_to_packedsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats_lod() {\n const ret = wasm.csplatarray_to_packedsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_csplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_csplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_csplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_csplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n}\nif (Symbol.dispose) CsplatArray.prototype[Symbol.dispose] = CsplatArray.prototype.free;\n\nexport class GsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(GsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n GsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n GsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_gsplatarray_free(ptr, 0);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_gsplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_gsplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.gsplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.gsplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.gsplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.gsplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.gsplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.gsplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.gsplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats_lod(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats_lod(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_gsplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_gsplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n}\nif (Symbol.dispose) GsplatArray.prototype[Symbol.dispose] = GsplatArray.prototype.free;\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function bhatt_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, rgba) {\n const ret = wasm.bhatt_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function bhatt_lod_packedsplats(num_splats, packed, extra, lod_base, rgba, encoding) {\n const ret = wasm.bhatt_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @returns {ChunkDecoder}\n */\nexport function decode_to_csplatarray(file_type, path_name, encoding) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_csplatarray(ptr0, len0, ptr1, len1, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_extsplats(file_type, path_name, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_extsplats(ptr0, len0, ptr1, len1, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_gsplatarray(file_type, path_name) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_gsplatarray(ptr0, len0, ptr1, len1);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Uint32Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_packedsplats(file_type, path_name, encoding, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_packedsplats(ptr0, len0, ptr1, len1, encoding, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n */\nexport function dispose_lod_tree(lod_id) {\n wasm.dispose_lod_tree(lod_id);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null} [extra]\n * @returns {GsplatArray}\n */\nexport function extsplats_to_gsplatarray(num_splats, ext1, ext2, extra) {\n const ret = wasm.extsplats_to_gsplatarray(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n * @param {number} level\n * @returns {object}\n */\nexport function get_lod_tree_level(lod_id, level) {\n const ret = wasm.get_lod_tree_level(lod_id, level);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} lod_tree\n * @returns {object}\n */\nexport function init_lod_tree(num_splats, lod_tree) {\n const ret = wasm.init_lod_tree(num_splats, lod_tree);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} capacity\n * @returns {object}\n */\nexport function new_lod_tree(capacity) {\n const ret = wasm.new_lod_tree(capacity);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} orig_lod_id\n * @returns {object}\n */\nexport function new_shared_lod_tree(orig_lod_id) {\n const ret = wasm.new_shared_lod_tree(orig_lod_id);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {CsplatArray}\n */\nexport function packedsplats_to_csplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_csplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return CsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {GsplatArray}\n */\nexport function packedsplats_to_gsplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_gsplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @returns {boolean}\n */\nexport function simd_enabled() {\n const ret = wasm.simd_enabled();\n return ret !== 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort32_splats(num_splats, readback, ordering) {\n const ret = wasm.sort32_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint16Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort_splats(num_splats, readback, ordering) {\n const ret = wasm.sort_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function tiny_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, merge_filter, rgba) {\n const ret = wasm.tiny_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function tiny_lod_packedsplats(num_splats, packed, extra, lod_base, merge_filter, rgba, encoding) {\n const ret = wasm.tiny_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} max_splats\n * @param {number} pixel_scale_limit\n * @param {number | null | undefined} _last_pixel_limit\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} root_pages\n * @param {Float32Array} view_to_objects\n * @param {Float32Array} lod_scales\n * @param {Float32Array} behind_foveates\n * @param {Float32Array} cone_foveates\n * @param {Float32Array} cone_fov0s\n * @param {Float32Array} cone_fovs\n * @returns {object}\n */\nexport function traverse_lod_trees(max_splats, pixel_scale_limit, _last_pixel_limit, lod_ids, root_pages, view_to_objects, lod_scales, behind_foveates, cone_foveates, cone_fov0s, cone_fovs) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(root_pages, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArrayF32ToWasm0(view_to_objects, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArrayF32ToWasm0(lod_scales, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ptr4 = passArrayF32ToWasm0(behind_foveates, wasm.__wbindgen_malloc);\n const len4 = WASM_VECTOR_LEN;\n const ptr5 = passArrayF32ToWasm0(cone_foveates, wasm.__wbindgen_malloc);\n const len5 = WASM_VECTOR_LEN;\n const ptr6 = passArrayF32ToWasm0(cone_fov0s, wasm.__wbindgen_malloc);\n const len6 = WASM_VECTOR_LEN;\n const ptr7 = passArrayF32ToWasm0(cone_fovs, wasm.__wbindgen_malloc);\n const len7 = WASM_VECTOR_LEN;\n const ret = wasm.traverse_lod_trees(max_splats, pixel_scale_limit, isLikeNone(_last_pixel_limit) ? 0x100000001 : Math.fround(_last_pixel_limit), ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, ptr4, len4, ptr5, len5, ptr6, len6, ptr7, len7);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} page_bases\n * @param {Uint32Array} chunk_bases\n * @param {Uint32Array} counts\n * @param {Array} lod_trees\n * @returns {object}\n */\nexport function update_lod_trees(lod_ids, page_bases, chunk_bases, counts, lod_trees) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(page_bases, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArray32ToWasm0(chunk_bases, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArray32ToWasm0(counts, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ret = wasm.update_lod_trees(ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, lod_trees);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\nexport function wasm_start() {\n wasm.wasm_start();\n}\n\nfunction __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_boolean_get_a86c216575a75c30: function(arg0) {\n const v = arg0;\n const ret = typeof(v) === 'boolean' ? v : undefined;\n return isLikeNone(ret) ? 0xFFFFFF : ret ? 1 : 0;\n },\n __wbg___wbindgen_debug_string_dd5d2d07ce9e6c57: function(arg0, arg1) {\n const ret = debugString(arg1);\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_in_4bd7a57e54337366: function(arg0, arg1) {\n const ret = arg0 in arg1;\n return ret;\n },\n __wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof(val) === 'object' && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === undefined;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'number' ? obj : undefined;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'string' ? obj : undefined;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() { return handleError(function (arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments); },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() { return handleError(function (arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments); },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n // Cast intrinsic for `F64 -> Externref`.\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n // Cast intrinsic for `Ref(String) -> Externref`.\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, undefined);\n table.set(offset + 0, undefined);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n },\n };\n return {\n __proto__: null,\n \"./spark_worker_rs_bg.js\": import0,\n };\n}\n\nconst ChunkDecoderFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\nconst CsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\nconst GsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n\nfunction addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n}\n\nfunction debugString(val) {\n // primitive types\n const type = typeof val;\n if (type == 'number' || type == 'boolean' || val == null) {\n return `${val}`;\n }\n if (type == 'string') {\n return `\"${val}\"`;\n }\n if (type == 'symbol') {\n const description = val.description;\n if (description == null) {\n return 'Symbol';\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == 'function') {\n const name = val.name;\n if (typeof name == 'string' && name.length > 0) {\n return `Function(${name})`;\n } else {\n return 'Function';\n }\n }\n // objects\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = '[';\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for(let i = 1; i < length; i++) {\n debug += ', ' + debugString(val[i]);\n }\n debug += ']';\n return debug;\n }\n // Test for built-in\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n // Failed to match the standard '[object ClassName]'\n return toString.call(val);\n }\n if (className == 'Object') {\n // we're a user defined class or Object\n // JSON.stringify avoids problems with cycles, and is generally much\n // easier than looping through ownProperties of `val`.\n try {\n return 'Object(' + JSON.stringify(val) + ')';\n } catch (_) {\n return 'Object';\n }\n }\n // errors\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\\n${val.stack}`;\n }\n // TODO we could test for more things here, like `Set`s and `Map`s.\n return className;\n}\n\nfunction getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n}\n\nfunction getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n}\n\nlet cachedDataViewMemory0 = null;\nfunction getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || (cachedDataViewMemory0.buffer.detached === undefined && cachedDataViewMemory0.buffer !== wasm.memory.buffer)) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n}\n\nlet cachedFloat32ArrayMemory0 = null;\nfunction getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n}\n\nfunction getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n}\n\nlet cachedUint16ArrayMemory0 = null;\nfunction getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n}\n\nlet cachedUint32ArrayMemory0 = null;\nfunction getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n}\n\nlet cachedUint8ArrayMemory0 = null;\nfunction getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n}\n\nfunction handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n}\n\nfunction isLikeNone(x) {\n return x === undefined || x === null;\n}\n\nfunction passArray32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getUint32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passArrayF32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getFloat32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passStringToWasm0(arg, malloc, realloc) {\n if (realloc === undefined) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr, ptr + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr;\n }\n\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n\n const mem = getUint8ArrayMemory0();\n\n let offset = 0;\n\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 0x7F) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n\n WASM_VECTOR_LEN = offset;\n return ptr;\n}\n\nfunction takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n}\n\nlet cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\ncachedTextDecoder.decode();\nconst MAX_SAFARI_DECODE_BYTES = 2146435072;\nlet numBytesDecoded = 0;\nfunction decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n}\n\nconst cachedTextEncoder = new TextEncoder();\n\nif (!('encodeInto' in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function (arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n}\n\nlet WASM_VECTOR_LEN = 0;\n\nlet wasmModule, wasm;\nfunction __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n wasmModule = module;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n}\n\nasync function __wbg_load(module, imports) {\n if (typeof Response === 'function' && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === 'function') {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n\n if (validResponse && module.headers.get('Content-Type') !== 'application/wasm') {\n console.warn(\"`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n\", e);\n\n } else { throw e; }\n }\n }\n\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n\n function expectedResponseType(type) {\n switch (type) {\n case 'basic': case 'cors': case 'default': return true;\n }\n return false;\n }\n}\n\nfunction initSync(module) {\n if (wasm !== undefined) return wasm;\n\n\n if (module !== undefined) {\n if (Object.getPrototypeOf(module) === Object.prototype) {\n ({module} = module)\n } else {\n console.warn('using deprecated parameters for `initSync()`; pass a single object instead')\n }\n }\n\n const imports = __wbg_get_imports();\n if (!(module instanceof WebAssembly.Module)) {\n module = new WebAssembly.Module(module);\n }\n const instance = new WebAssembly.Instance(module, imports);\n return __wbg_finalize_init(instance, module);\n}\n\nasync function __wbg_init(module_or_path) {\n if (wasm !== undefined) return wasm;\n\n\n if (module_or_path !== undefined) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({module_or_path} = module_or_path)\n } else {\n console.warn('using deprecated parameters for the initialization function; pass a single object instead')\n }\n }\n\n if (module_or_path === undefined) {\n module_or_path = new URL('spark_worker_rs_bg.wasm', import.meta.url);\n }\n const imports = __wbg_get_imports();\n\n if (typeof module_or_path === 'string' || (typeof Request === 'function' && module_or_path instanceof Request) || (typeof URL === 'function' && module_or_path instanceof URL)) {\n module_or_path = fetch(module_or_path);\n }\n\n const { instance, module } = await __wbg_load(await module_or_path, imports);\n\n return __wbg_finalize_init(instance, module);\n}\n\nexport { initSync, __wbg_init as default };\n","// DEFLATE is a complex format; to read this code, you should probably check the RFC first:\n// https://tools.ietf.org/html/rfc1951\n// You may also wish to take a look at the guide I made about this program:\n// https://gist.github.com/101arrowz/253f31eb5abc3d9275ab943003ffecad\n// Some of the following code is similar to that of UZIP.js:\n// https://github.com/photopea/UZIP.js\n// However, the vast majority of the codebase has diverged from UZIP.js to increase performance and reduce bundle size.\n// Sometimes 0 will appear where -1 would be more appropriate. This is because using a uint\n// is better for memory in most engines (I *think*).\nvar ch2 = {};\nvar wk = (function (c, id, msg, transfer, cb) {\n var w = new Worker(ch2[id] || (ch2[id] = URL.createObjectURL(new Blob([\n c + ';addEventListener(\"error\",function(e){e=e.error;postMessage({$e$:[e.message,e.code,e.stack]})})'\n ], { type: 'text/javascript' }))));\n w.onmessage = function (e) {\n var d = e.data, ed = d.$e$;\n if (ed) {\n var err = new Error(ed[0]);\n err['code'] = ed[1];\n err.stack = ed[2];\n cb(err, null);\n }\n else\n cb(null, d);\n };\n w.postMessage(msg, transfer);\n return w;\n});\n\n// aliases for shorter compressed code (most minifers don't do this)\nvar u8 = Uint8Array, u16 = Uint16Array, i32 = Int32Array;\n// fixed length extra bits\nvar fleb = new u8([0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0, /* unused */ 0, 0, /* impossible */ 0]);\n// fixed distance extra bits\nvar fdeb = new u8([0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, /* unused */ 0, 0]);\n// code length index map\nvar clim = new u8([16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15]);\n// get base, reverse index map from extra bits\nvar freb = function (eb, start) {\n var b = new u16(31);\n for (var i = 0; i < 31; ++i) {\n b[i] = start += 1 << eb[i - 1];\n }\n // numbers here are at max 18 bits\n var r = new i32(b[30]);\n for (var i = 1; i < 30; ++i) {\n for (var j = b[i]; j < b[i + 1]; ++j) {\n r[j] = ((j - b[i]) << 5) | i;\n }\n }\n return { b: b, r: r };\n};\nvar _a = freb(fleb, 2), fl = _a.b, revfl = _a.r;\n// we can ignore the fact that the other numbers are wrong; they never happen anyway\nfl[28] = 258, revfl[258] = 28;\nvar _b = freb(fdeb, 0), fd = _b.b, revfd = _b.r;\n// map of value to reverse (assuming 16 bits)\nvar rev = new u16(32768);\nfor (var i = 0; i < 32768; ++i) {\n // reverse table algorithm from SO\n var x = ((i & 0xAAAA) >> 1) | ((i & 0x5555) << 1);\n x = ((x & 0xCCCC) >> 2) | ((x & 0x3333) << 2);\n x = ((x & 0xF0F0) >> 4) | ((x & 0x0F0F) << 4);\n rev[i] = (((x & 0xFF00) >> 8) | ((x & 0x00FF) << 8)) >> 1;\n}\n// create huffman tree from u8 \"map\": index -> code length for code index\n// mb (max bits) must be at most 15\n// TODO: optimize/split up?\nvar hMap = (function (cd, mb, r) {\n var s = cd.length;\n // index\n var i = 0;\n // u16 \"map\": index -> # of codes with bit length = index\n var l = new u16(mb);\n // length of cd must be 288 (total # of codes)\n for (; i < s; ++i) {\n if (cd[i])\n ++l[cd[i] - 1];\n }\n // u16 \"map\": index -> minimum code for bit length = index\n var le = new u16(mb);\n for (i = 1; i < mb; ++i) {\n le[i] = (le[i - 1] + l[i - 1]) << 1;\n }\n var co;\n if (r) {\n // u16 \"map\": index -> number of actual bits, symbol for code\n co = new u16(1 << mb);\n // bits to remove for reverser\n var rvb = 15 - mb;\n for (i = 0; i < s; ++i) {\n // ignore 0 lengths\n if (cd[i]) {\n // num encoding both symbol and bits read\n var sv = (i << 4) | cd[i];\n // free bits\n var r_1 = mb - cd[i];\n // start value\n var v = le[cd[i] - 1]++ << r_1;\n // m is end value\n for (var m = v | ((1 << r_1) - 1); v <= m; ++v) {\n // every 16 bit value starting with the code yields the same result\n co[rev[v] >> rvb] = sv;\n }\n }\n }\n }\n else {\n co = new u16(s);\n for (i = 0; i < s; ++i) {\n if (cd[i]) {\n co[i] = rev[le[cd[i] - 1]++] >> (15 - cd[i]);\n }\n }\n }\n return co;\n});\n// fixed length tree\nvar flt = new u8(288);\nfor (var i = 0; i < 144; ++i)\n flt[i] = 8;\nfor (var i = 144; i < 256; ++i)\n flt[i] = 9;\nfor (var i = 256; i < 280; ++i)\n flt[i] = 7;\nfor (var i = 280; i < 288; ++i)\n flt[i] = 8;\n// fixed distance tree\nvar fdt = new u8(32);\nfor (var i = 0; i < 32; ++i)\n fdt[i] = 5;\n// fixed length map\nvar flm = /*#__PURE__*/ hMap(flt, 9, 0), flrm = /*#__PURE__*/ hMap(flt, 9, 1);\n// fixed distance map\nvar fdm = /*#__PURE__*/ hMap(fdt, 5, 0), fdrm = /*#__PURE__*/ hMap(fdt, 5, 1);\n// find max of array\nvar max = function (a) {\n var m = a[0];\n for (var i = 1; i < a.length; ++i) {\n if (a[i] > m)\n m = a[i];\n }\n return m;\n};\n// read d, starting at bit p and mask with m\nvar bits = function (d, p, m) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8)) >> (p & 7)) & m;\n};\n// read d, starting at bit p continuing for at least 16 bits\nvar bits16 = function (d, p) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8) | (d[o + 2] << 16)) >> (p & 7));\n};\n// get end of byte\nvar shft = function (p) { return ((p + 7) / 8) | 0; };\n// typed array slice - allows garbage collector to free original reference,\n// while being more compatible than .slice\nvar slc = function (v, s, e) {\n if (s == null || s < 0)\n s = 0;\n if (e == null || e > v.length)\n e = v.length;\n // can't use .constructor in case user-supplied\n return new u8(v.subarray(s, e));\n};\n/**\n * Codes for errors generated within this library\n */\nexport var FlateErrorCode = {\n UnexpectedEOF: 0,\n InvalidBlockType: 1,\n InvalidLengthLiteral: 2,\n InvalidDistance: 3,\n StreamFinished: 4,\n NoStreamHandler: 5,\n InvalidHeader: 6,\n NoCallback: 7,\n InvalidUTF8: 8,\n ExtraFieldTooLong: 9,\n InvalidDate: 10,\n FilenameTooLong: 11,\n StreamFinishing: 12,\n InvalidZipData: 13,\n UnknownCompressionMethod: 14\n};\n// error codes\nvar ec = [\n 'unexpected EOF',\n 'invalid block type',\n 'invalid length/literal',\n 'invalid distance',\n 'stream finished',\n 'no stream handler',\n ,\n 'no callback',\n 'invalid UTF-8 data',\n 'extra field too long',\n 'date not in range 1980-2099',\n 'filename too long',\n 'stream finishing',\n 'invalid zip data'\n // determined by unknown compression method\n];\n;\nvar err = function (ind, msg, nt) {\n var e = new Error(msg || ec[ind]);\n e.code = ind;\n if (Error.captureStackTrace)\n Error.captureStackTrace(e, err);\n if (!nt)\n throw e;\n return e;\n};\n// expands raw DEFLATE data\nvar inflt = function (dat, st, buf, dict) {\n // source length dict length\n var sl = dat.length, dl = dict ? dict.length : 0;\n if (!sl || st.f && !st.l)\n return buf || new u8(0);\n var noBuf = !buf;\n // have to estimate size\n var resize = noBuf || st.i != 2;\n // no state\n var noSt = st.i;\n // Assumes roughly 33% compression ratio average\n if (noBuf)\n buf = new u8(sl * 3);\n // ensure buffer can fit at least l elements\n var cbuf = function (l) {\n var bl = buf.length;\n // need to increase size to fit\n if (l > bl) {\n // Double or set to necessary, whichever is greater\n var nbuf = new u8(Math.max(bl * 2, l));\n nbuf.set(buf);\n buf = nbuf;\n }\n };\n // last chunk bitpos bytes\n var final = st.f || 0, pos = st.p || 0, bt = st.b || 0, lm = st.l, dm = st.d, lbt = st.m, dbt = st.n;\n // total bits\n var tbts = sl * 8;\n do {\n if (!lm) {\n // BFINAL - this is only 1 when last chunk is next\n final = bits(dat, pos, 1);\n // type: 0 = no compression, 1 = fixed huffman, 2 = dynamic huffman\n var type = bits(dat, pos + 1, 3);\n pos += 3;\n if (!type) {\n // go to end of byte boundary\n var s = shft(pos) + 4, l = dat[s - 4] | (dat[s - 3] << 8), t = s + l;\n if (t > sl) {\n if (noSt)\n err(0);\n break;\n }\n // ensure size\n if (resize)\n cbuf(bt + l);\n // Copy over uncompressed data\n buf.set(dat.subarray(s, t), bt);\n // Get new bitpos, update byte count\n st.b = bt += l, st.p = pos = t * 8, st.f = final;\n continue;\n }\n else if (type == 1)\n lm = flrm, dm = fdrm, lbt = 9, dbt = 5;\n else if (type == 2) {\n // literal lengths\n var hLit = bits(dat, pos, 31) + 257, hcLen = bits(dat, pos + 10, 15) + 4;\n var tl = hLit + bits(dat, pos + 5, 31) + 1;\n pos += 14;\n // length+distance tree\n var ldt = new u8(tl);\n // code length tree\n var clt = new u8(19);\n for (var i = 0; i < hcLen; ++i) {\n // use index map to get real code\n clt[clim[i]] = bits(dat, pos + i * 3, 7);\n }\n pos += hcLen * 3;\n // code lengths bits\n var clb = max(clt), clbmsk = (1 << clb) - 1;\n // code lengths map\n var clm = hMap(clt, clb, 1);\n for (var i = 0; i < tl;) {\n var r = clm[bits(dat, pos, clbmsk)];\n // bits read\n pos += r & 15;\n // symbol\n var s = r >> 4;\n // code length to copy\n if (s < 16) {\n ldt[i++] = s;\n }\n else {\n // copy count\n var c = 0, n = 0;\n if (s == 16)\n n = 3 + bits(dat, pos, 3), pos += 2, c = ldt[i - 1];\n else if (s == 17)\n n = 3 + bits(dat, pos, 7), pos += 3;\n else if (s == 18)\n n = 11 + bits(dat, pos, 127), pos += 7;\n while (n--)\n ldt[i++] = c;\n }\n }\n // length tree distance tree\n var lt = ldt.subarray(0, hLit), dt = ldt.subarray(hLit);\n // max length bits\n lbt = max(lt);\n // max dist bits\n dbt = max(dt);\n lm = hMap(lt, lbt, 1);\n dm = hMap(dt, dbt, 1);\n }\n else\n err(1);\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n }\n // Make sure the buffer can hold this + the largest possible addition\n // Maximum chunk size (practically, theoretically infinite) is 2^17\n if (resize)\n cbuf(bt + 131072);\n var lms = (1 << lbt) - 1, dms = (1 << dbt) - 1;\n var lpos = pos;\n for (;; lpos = pos) {\n // bits read, code\n var c = lm[bits16(dat, pos) & lms], sym = c >> 4;\n pos += c & 15;\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (!c)\n err(2);\n if (sym < 256)\n buf[bt++] = sym;\n else if (sym == 256) {\n lpos = pos, lm = null;\n break;\n }\n else {\n var add = sym - 254;\n // no extra bits needed if less\n if (sym > 264) {\n // index\n var i = sym - 257, b = fleb[i];\n add = bits(dat, pos, (1 << b) - 1) + fl[i];\n pos += b;\n }\n // dist\n var d = dm[bits16(dat, pos) & dms], dsym = d >> 4;\n if (!d)\n err(3);\n pos += d & 15;\n var dt = fd[dsym];\n if (dsym > 3) {\n var b = fdeb[dsym];\n dt += bits16(dat, pos) & (1 << b) - 1, pos += b;\n }\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + 131072);\n var end = bt + add;\n if (bt < dt) {\n var shift = dl - dt, dend = Math.min(dt, end);\n if (shift + bt < 0)\n err(3);\n for (; bt < dend; ++bt)\n buf[bt] = dict[shift + bt];\n }\n for (; bt < end; ++bt)\n buf[bt] = buf[bt - dt];\n }\n }\n st.l = lm, st.p = lpos, st.b = bt, st.f = final;\n if (lm)\n final = 1, st.m = lbt, st.d = dm, st.n = dbt;\n } while (!final);\n // don't reallocate for streams or user buffers\n return bt != buf.length && noBuf ? slc(buf, 0, bt) : buf.subarray(0, bt);\n};\n// starting at p, write the minimum number of bits that can hold v to d\nvar wbits = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n};\n// starting at p, write the minimum number of bits (>8) that can hold v to d\nvar wbits16 = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n d[o + 2] |= v >> 16;\n};\n// creates code lengths from a frequency table\nvar hTree = function (d, mb) {\n // Need extra info to make a tree\n var t = [];\n for (var i = 0; i < d.length; ++i) {\n if (d[i])\n t.push({ s: i, f: d[i] });\n }\n var s = t.length;\n var t2 = t.slice();\n if (!s)\n return { t: et, l: 0 };\n if (s == 1) {\n var v = new u8(t[0].s + 1);\n v[t[0].s] = 1;\n return { t: v, l: 1 };\n }\n t.sort(function (a, b) { return a.f - b.f; });\n // after i2 reaches last ind, will be stopped\n // freq must be greater than largest possible number of symbols\n t.push({ s: -1, f: 25001 });\n var l = t[0], r = t[1], i0 = 0, i1 = 1, i2 = 2;\n t[0] = { s: -1, f: l.f + r.f, l: l, r: r };\n // efficient algorithm from UZIP.js\n // i0 is lookbehind, i2 is lookahead - after processing two low-freq\n // symbols that combined have high freq, will start processing i2 (high-freq,\n // non-composite) symbols instead\n // see https://reddit.com/r/photopea/comments/ikekht/uzipjs_questions/\n while (i1 != s - 1) {\n l = t[t[i0].f < t[i2].f ? i0++ : i2++];\n r = t[i0 != i1 && t[i0].f < t[i2].f ? i0++ : i2++];\n t[i1++] = { s: -1, f: l.f + r.f, l: l, r: r };\n }\n var maxSym = t2[0].s;\n for (var i = 1; i < s; ++i) {\n if (t2[i].s > maxSym)\n maxSym = t2[i].s;\n }\n // code lengths\n var tr = new u16(maxSym + 1);\n // max bits in tree\n var mbt = ln(t[i1 - 1], tr, 0);\n if (mbt > mb) {\n // more algorithms from UZIP.js\n // TODO: find out how this code works (debt)\n // ind debt\n var i = 0, dt = 0;\n // left cost\n var lft = mbt - mb, cst = 1 << lft;\n t2.sort(function (a, b) { return tr[b.s] - tr[a.s] || a.f - b.f; });\n for (; i < s; ++i) {\n var i2_1 = t2[i].s;\n if (tr[i2_1] > mb) {\n dt += cst - (1 << (mbt - tr[i2_1]));\n tr[i2_1] = mb;\n }\n else\n break;\n }\n dt >>= lft;\n while (dt > 0) {\n var i2_2 = t2[i].s;\n if (tr[i2_2] < mb)\n dt -= 1 << (mb - tr[i2_2]++ - 1);\n else\n ++i;\n }\n for (; i >= 0 && dt; --i) {\n var i2_3 = t2[i].s;\n if (tr[i2_3] == mb) {\n --tr[i2_3];\n ++dt;\n }\n }\n mbt = mb;\n }\n return { t: new u8(tr), l: mbt };\n};\n// get the max length and assign length codes\nvar ln = function (n, l, d) {\n return n.s == -1\n ? Math.max(ln(n.l, l, d + 1), ln(n.r, l, d + 1))\n : (l[n.s] = d);\n};\n// length codes generation\nvar lc = function (c) {\n var s = c.length;\n // Note that the semicolon was intentional\n while (s && !c[--s])\n ;\n var cl = new u16(++s);\n // ind num streak\n var cli = 0, cln = c[0], cls = 1;\n var w = function (v) { cl[cli++] = v; };\n for (var i = 1; i <= s; ++i) {\n if (c[i] == cln && i != s)\n ++cls;\n else {\n if (!cln && cls > 2) {\n for (; cls > 138; cls -= 138)\n w(32754);\n if (cls > 2) {\n w(cls > 10 ? ((cls - 11) << 5) | 28690 : ((cls - 3) << 5) | 12305);\n cls = 0;\n }\n }\n else if (cls > 3) {\n w(cln), --cls;\n for (; cls > 6; cls -= 6)\n w(8304);\n if (cls > 2)\n w(((cls - 3) << 5) | 8208), cls = 0;\n }\n while (cls--)\n w(cln);\n cls = 1;\n cln = c[i];\n }\n }\n return { c: cl.subarray(0, cli), n: s };\n};\n// calculate the length of output from tree, code lengths\nvar clen = function (cf, cl) {\n var l = 0;\n for (var i = 0; i < cl.length; ++i)\n l += cf[i] * cl[i];\n return l;\n};\n// writes a fixed block\n// returns the new bit pos\nvar wfblk = function (out, pos, dat) {\n // no need to write 00 as type: TypedArray defaults to 0\n var s = dat.length;\n var o = shft(pos + 2);\n out[o] = s & 255;\n out[o + 1] = s >> 8;\n out[o + 2] = out[o] ^ 255;\n out[o + 3] = out[o + 1] ^ 255;\n for (var i = 0; i < s; ++i)\n out[o + i + 4] = dat[i];\n return (o + 4 + s) * 8;\n};\n// writes a block\nvar wblk = function (dat, out, final, syms, lf, df, eb, li, bs, bl, p) {\n wbits(out, p++, final);\n ++lf[256];\n var _a = hTree(lf, 15), dlt = _a.t, mlb = _a.l;\n var _b = hTree(df, 15), ddt = _b.t, mdb = _b.l;\n var _c = lc(dlt), lclt = _c.c, nlc = _c.n;\n var _d = lc(ddt), lcdt = _d.c, ndc = _d.n;\n var lcfreq = new u16(19);\n for (var i = 0; i < lclt.length; ++i)\n ++lcfreq[lclt[i] & 31];\n for (var i = 0; i < lcdt.length; ++i)\n ++lcfreq[lcdt[i] & 31];\n var _e = hTree(lcfreq, 7), lct = _e.t, mlcb = _e.l;\n var nlcc = 19;\n for (; nlcc > 4 && !lct[clim[nlcc - 1]]; --nlcc)\n ;\n var flen = (bl + 5) << 3;\n var ftlen = clen(lf, flt) + clen(df, fdt) + eb;\n var dtlen = clen(lf, dlt) + clen(df, ddt) + eb + 14 + 3 * nlcc + clen(lcfreq, lct) + 2 * lcfreq[16] + 3 * lcfreq[17] + 7 * lcfreq[18];\n if (bs >= 0 && flen <= ftlen && flen <= dtlen)\n return wfblk(out, p, dat.subarray(bs, bs + bl));\n var lm, ll, dm, dl;\n wbits(out, p, 1 + (dtlen < ftlen)), p += 2;\n if (dtlen < ftlen) {\n lm = hMap(dlt, mlb, 0), ll = dlt, dm = hMap(ddt, mdb, 0), dl = ddt;\n var llm = hMap(lct, mlcb, 0);\n wbits(out, p, nlc - 257);\n wbits(out, p + 5, ndc - 1);\n wbits(out, p + 10, nlcc - 4);\n p += 14;\n for (var i = 0; i < nlcc; ++i)\n wbits(out, p + 3 * i, lct[clim[i]]);\n p += 3 * nlcc;\n var lcts = [lclt, lcdt];\n for (var it = 0; it < 2; ++it) {\n var clct = lcts[it];\n for (var i = 0; i < clct.length; ++i) {\n var len = clct[i] & 31;\n wbits(out, p, llm[len]), p += lct[len];\n if (len > 15)\n wbits(out, p, (clct[i] >> 5) & 127), p += clct[i] >> 12;\n }\n }\n }\n else {\n lm = flm, ll = flt, dm = fdm, dl = fdt;\n }\n for (var i = 0; i < li; ++i) {\n var sym = syms[i];\n if (sym > 255) {\n var len = (sym >> 18) & 31;\n wbits16(out, p, lm[len + 257]), p += ll[len + 257];\n if (len > 7)\n wbits(out, p, (sym >> 23) & 31), p += fleb[len];\n var dst = sym & 31;\n wbits16(out, p, dm[dst]), p += dl[dst];\n if (dst > 3)\n wbits16(out, p, (sym >> 5) & 8191), p += fdeb[dst];\n }\n else {\n wbits16(out, p, lm[sym]), p += ll[sym];\n }\n }\n wbits16(out, p, lm[256]);\n return p + ll[256];\n};\n// deflate options (nice << 13) | chain\nvar deo = /*#__PURE__*/ new i32([65540, 131080, 131088, 131104, 262176, 1048704, 1048832, 2114560, 2117632]);\n// empty\nvar et = /*#__PURE__*/ new u8(0);\n// compresses data into a raw DEFLATE buffer\nvar dflt = function (dat, lvl, plvl, pre, post, st) {\n var s = st.z || dat.length;\n var o = new u8(pre + s + 5 * (1 + Math.ceil(s / 7000)) + post);\n // writing to this writes to the output buffer\n var w = o.subarray(pre, o.length - post);\n var lst = st.l;\n var pos = (st.r || 0) & 7;\n if (lvl) {\n if (pos)\n w[0] = st.r >> 3;\n var opt = deo[lvl - 1];\n var n = opt >> 13, c = opt & 8191;\n var msk_1 = (1 << plvl) - 1;\n // prev 2-byte val map curr 2-byte val map\n var prev = st.p || new u16(32768), head = st.h || new u16(msk_1 + 1);\n var bs1_1 = Math.ceil(plvl / 3), bs2_1 = 2 * bs1_1;\n var hsh = function (i) { return (dat[i] ^ (dat[i + 1] << bs1_1) ^ (dat[i + 2] << bs2_1)) & msk_1; };\n // 24576 is an arbitrary number of maximum symbols per block\n // 424 buffer for last block\n var syms = new i32(25000);\n // length/literal freq distance freq\n var lf = new u16(288), df = new u16(32);\n // l/lcnt exbits index l/lind waitdx blkpos\n var lc_1 = 0, eb = 0, i = st.i || 0, li = 0, wi = st.w || 0, bs = 0;\n for (; i + 2 < s; ++i) {\n // hash value\n var hv = hsh(i);\n // index mod 32768 previous index mod\n var imod = i & 32767, pimod = head[hv];\n prev[imod] = pimod;\n head[hv] = imod;\n // We always should modify head and prev, but only add symbols if\n // this data is not yet processed (\"wait\" for wait index)\n if (wi <= i) {\n // bytes remaining\n var rem = s - i;\n if ((lc_1 > 7000 || li > 24576) && (rem > 423 || !lst)) {\n pos = wblk(dat, w, 0, syms, lf, df, eb, li, bs, i - bs, pos);\n li = lc_1 = eb = 0, bs = i;\n for (var j = 0; j < 286; ++j)\n lf[j] = 0;\n for (var j = 0; j < 30; ++j)\n df[j] = 0;\n }\n // len dist chain\n var l = 2, d = 0, ch_1 = c, dif = imod - pimod & 32767;\n if (rem > 2 && hv == hsh(i - dif)) {\n var maxn = Math.min(n, rem) - 1;\n var maxd = Math.min(32767, i);\n // max possible length\n // not capped at dif because decompressors implement \"rolling\" index population\n var ml = Math.min(258, rem);\n while (dif <= maxd && --ch_1 && imod != pimod) {\n if (dat[i + l] == dat[i + l - dif]) {\n var nl = 0;\n for (; nl < ml && dat[i + nl] == dat[i + nl - dif]; ++nl)\n ;\n if (nl > l) {\n l = nl, d = dif;\n // break out early when we reach \"nice\" (we are satisfied enough)\n if (nl > maxn)\n break;\n // now, find the rarest 2-byte sequence within this\n // length of literals and search for that instead.\n // Much faster than just using the start\n var mmd = Math.min(dif, nl - 2);\n var md = 0;\n for (var j = 0; j < mmd; ++j) {\n var ti = i - dif + j & 32767;\n var pti = prev[ti];\n var cd = ti - pti & 32767;\n if (cd > md)\n md = cd, pimod = ti;\n }\n }\n }\n // check the previous match\n imod = pimod, pimod = prev[imod];\n dif += imod - pimod & 32767;\n }\n }\n // d will be nonzero only when a match was found\n if (d) {\n // store both dist and len data in one int32\n // Make sure this is recognized as a len/dist with 28th bit (2^28)\n syms[li++] = 268435456 | (revfl[l] << 18) | revfd[d];\n var lin = revfl[l] & 31, din = revfd[d] & 31;\n eb += fleb[lin] + fdeb[din];\n ++lf[257 + lin];\n ++df[din];\n wi = i + l;\n ++lc_1;\n }\n else {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n }\n }\n for (i = Math.max(i, wi); i < s; ++i) {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n pos = wblk(dat, w, lst, syms, lf, df, eb, li, bs, i - bs, pos);\n if (!lst) {\n st.r = (pos & 7) | w[(pos / 8) | 0] << 3;\n // shft(pos) now 1 less if pos & 7 != 0\n pos -= 7;\n st.h = head, st.p = prev, st.i = i, st.w = wi;\n }\n }\n else {\n for (var i = st.w || 0; i < s + lst; i += 65535) {\n // end\n var e = i + 65535;\n if (e >= s) {\n // write final block\n w[(pos / 8) | 0] = lst;\n e = s;\n }\n pos = wfblk(w, pos + 1, dat.subarray(i, e));\n }\n st.i = s;\n }\n return slc(o, 0, pre + shft(pos) + post);\n};\n// CRC32 table\nvar crct = /*#__PURE__*/ (function () {\n var t = new Int32Array(256);\n for (var i = 0; i < 256; ++i) {\n var c = i, k = 9;\n while (--k)\n c = ((c & 1) && -306674912) ^ (c >>> 1);\n t[i] = c;\n }\n return t;\n})();\n// CRC32\nvar crc = function () {\n var c = -1;\n return {\n p: function (d) {\n // closures have awful performance\n var cr = c;\n for (var i = 0; i < d.length; ++i)\n cr = crct[(cr & 255) ^ d[i]] ^ (cr >>> 8);\n c = cr;\n },\n d: function () { return ~c; }\n };\n};\n// Adler32\nvar adler = function () {\n var a = 1, b = 0;\n return {\n p: function (d) {\n // closures have awful performance\n var n = a, m = b;\n var l = d.length | 0;\n for (var i = 0; i != l;) {\n var e = Math.min(i + 2655, l);\n for (; i < e; ++i)\n m += n += d[i];\n n = (n & 65535) + 15 * (n >> 16), m = (m & 65535) + 15 * (m >> 16);\n }\n a = n, b = m;\n },\n d: function () {\n a %= 65521, b %= 65521;\n return (a & 255) << 24 | (a & 0xFF00) << 8 | (b & 255) << 8 | (b >> 8);\n }\n };\n};\n;\n// deflate with opts\nvar dopt = function (dat, opt, pre, post, st) {\n if (!st) {\n st = { l: 1 };\n if (opt.dictionary) {\n var dict = opt.dictionary.subarray(-32768);\n var newDat = new u8(dict.length + dat.length);\n newDat.set(dict);\n newDat.set(dat, dict.length);\n dat = newDat;\n st.w = dict.length;\n }\n }\n return dflt(dat, opt.level == null ? 6 : opt.level, opt.mem == null ? (st.l ? Math.ceil(Math.max(8, Math.min(13, Math.log(dat.length))) * 1.5) : 20) : (12 + opt.mem), pre, post, st);\n};\n// Walmart object spread\nvar mrg = function (a, b) {\n var o = {};\n for (var k in a)\n o[k] = a[k];\n for (var k in b)\n o[k] = b[k];\n return o;\n};\n// worker clone\n// This is possibly the craziest part of the entire codebase, despite how simple it may seem.\n// The only parameter to this function is a closure that returns an array of variables outside of the function scope.\n// We're going to try to figure out the variable names used in the closure as strings because that is crucial for workerization.\n// We will return an object mapping of true variable name to value (basically, the current scope as a JS object).\n// The reason we can't just use the original variable names is minifiers mangling the toplevel scope.\n// This took me three weeks to figure out how to do.\nvar wcln = function (fn, fnStr, td) {\n var dt = fn();\n var st = fn.toString();\n var ks = st.slice(st.indexOf('[') + 1, st.lastIndexOf(']')).replace(/\\s+/g, '').split(',');\n for (var i = 0; i < dt.length; ++i) {\n var v = dt[i], k = ks[i];\n if (typeof v == 'function') {\n fnStr += ';' + k + '=';\n var st_1 = v.toString();\n if (v.prototype) {\n // for global objects\n if (st_1.indexOf('[native code]') != -1) {\n var spInd = st_1.indexOf(' ', 8) + 1;\n fnStr += st_1.slice(spInd, st_1.indexOf('(', spInd));\n }\n else {\n fnStr += st_1;\n for (var t in v.prototype)\n fnStr += ';' + k + '.prototype.' + t + '=' + v.prototype[t].toString();\n }\n }\n else\n fnStr += st_1;\n }\n else\n td[k] = v;\n }\n return fnStr;\n};\nvar ch = [];\n// clone bufs\nvar cbfs = function (v) {\n var tl = [];\n for (var k in v) {\n if (v[k].buffer) {\n tl.push((v[k] = new v[k].constructor(v[k])).buffer);\n }\n }\n return tl;\n};\n// use a worker to execute code\nvar wrkr = function (fns, init, id, cb) {\n if (!ch[id]) {\n var fnStr = '', td_1 = {}, m = fns.length - 1;\n for (var i = 0; i < m; ++i)\n fnStr = wcln(fns[i], fnStr, td_1);\n ch[id] = { c: wcln(fns[m], fnStr, td_1), e: td_1 };\n }\n var td = mrg({}, ch[id].e);\n return wk(ch[id].c + ';onmessage=function(e){for(var k in e.data)self[k]=e.data[k];onmessage=' + init.toString() + '}', id, td, cbfs(td), cb);\n};\n// base async inflate fn\nvar bInflt = function () { return [u8, u16, i32, fleb, fdeb, clim, fl, fd, flrm, fdrm, rev, ec, hMap, max, bits, bits16, shft, slc, err, inflt, inflateSync, pbf, gopt]; };\nvar bDflt = function () { return [u8, u16, i32, fleb, fdeb, clim, revfl, revfd, flm, flt, fdm, fdt, rev, deo, et, hMap, wbits, wbits16, hTree, ln, lc, clen, wfblk, wblk, shft, slc, dflt, dopt, deflateSync, pbf]; };\n// gzip extra\nvar gze = function () { return [gzh, gzhl, wbytes, crc, crct]; };\n// gunzip extra\nvar guze = function () { return [gzs, gzl]; };\n// zlib extra\nvar zle = function () { return [zlh, wbytes, adler]; };\n// unzlib extra\nvar zule = function () { return [zls]; };\n// post buf\nvar pbf = function (msg) { return postMessage(msg, [msg.buffer]); };\n// get opts\nvar gopt = function (o) { return o && {\n out: o.size && new u8(o.size),\n dictionary: o.dictionary\n}; };\n// async helper\nvar cbify = function (dat, opts, fns, init, id, cb) {\n var w = wrkr(fns, init, id, function (err, dat) {\n w.terminate();\n cb(err, dat);\n });\n w.postMessage([dat, opts], opts.consume ? [dat.buffer] : []);\n return function () { w.terminate(); };\n};\n// auto stream\nvar astrm = function (strm) {\n strm.ondata = function (dat, final) { return postMessage([dat, final], [dat.buffer]); };\n return function (ev) {\n if (ev.data.length) {\n strm.push(ev.data[0], ev.data[1]);\n postMessage([ev.data[0].length]);\n }\n else\n strm.flush();\n };\n};\n// async stream attach\nvar astrmify = function (fns, strm, opts, init, id, flush, ext) {\n var t;\n var w = wrkr(fns, init, id, function (err, dat) {\n if (err)\n w.terminate(), strm.ondata.call(strm, err);\n else if (!Array.isArray(dat))\n ext(dat);\n else if (dat.length == 1) {\n strm.queuedSize -= dat[0];\n if (strm.ondrain)\n strm.ondrain(dat[0]);\n }\n else {\n if (dat[1])\n w.terminate();\n strm.ondata.call(strm, err, dat[0], dat[1]);\n }\n });\n w.postMessage(opts);\n strm.queuedSize = 0;\n strm.push = function (d, f) {\n if (!strm.ondata)\n err(5);\n if (t)\n strm.ondata(err(4, 0, 1), null, !!f);\n strm.queuedSize += d.length;\n w.postMessage([d, t = f], [d.buffer]);\n };\n strm.terminate = function () { w.terminate(); };\n if (flush) {\n strm.flush = function () { w.postMessage([]); };\n }\n};\n// read 2 bytes\nvar b2 = function (d, b) { return d[b] | (d[b + 1] << 8); };\n// read 4 bytes\nvar b4 = function (d, b) { return (d[b] | (d[b + 1] << 8) | (d[b + 2] << 16) | (d[b + 3] << 24)) >>> 0; };\nvar b8 = function (d, b) { return b4(d, b) + (b4(d, b + 4) * 4294967296); };\n// write bytes\nvar wbytes = function (d, b, v) {\n for (; v; ++b)\n d[b] = v, v >>>= 8;\n};\n// gzip header\nvar gzh = function (c, o) {\n var fn = o.filename;\n c[0] = 31, c[1] = 139, c[2] = 8, c[8] = o.level < 2 ? 4 : o.level == 9 ? 2 : 0, c[9] = 3; // assume Unix\n if (o.mtime != 0)\n wbytes(c, 4, Math.floor(new Date(o.mtime || Date.now()) / 1000));\n if (fn) {\n c[3] = 8;\n for (var i = 0; i <= fn.length; ++i)\n c[i + 10] = fn.charCodeAt(i);\n }\n};\n// gzip footer: -8 to -4 = CRC, -4 to -0 is length\n// gzip start\nvar gzs = function (d) {\n if (d[0] != 31 || d[1] != 139 || d[2] != 8)\n err(6, 'invalid gzip data');\n var flg = d[3];\n var st = 10;\n if (flg & 4)\n st += (d[10] | d[11] << 8) + 2;\n for (var zs = (flg >> 3 & 1) + (flg >> 4 & 1); zs > 0; zs -= !d[st++])\n ;\n return st + (flg & 2);\n};\n// gzip length\nvar gzl = function (d) {\n var l = d.length;\n return (d[l - 4] | d[l - 3] << 8 | d[l - 2] << 16 | d[l - 1] << 24) >>> 0;\n};\n// gzip header length\nvar gzhl = function (o) { return 10 + (o.filename ? o.filename.length + 1 : 0); };\n// zlib header\nvar zlh = function (c, o) {\n var lv = o.level, fl = lv == 0 ? 0 : lv < 6 ? 1 : lv == 9 ? 3 : 2;\n c[0] = 120, c[1] = (fl << 6) | (o.dictionary && 32);\n c[1] |= 31 - ((c[0] << 8) | c[1]) % 31;\n if (o.dictionary) {\n var h = adler();\n h.p(o.dictionary);\n wbytes(c, 2, h.d());\n }\n};\n// zlib start\nvar zls = function (d, dict) {\n if ((d[0] & 15) != 8 || (d[0] >> 4) > 7 || ((d[0] << 8 | d[1]) % 31))\n err(6, 'invalid zlib data');\n if ((d[1] >> 5 & 1) == +!dict)\n err(6, 'invalid zlib data: ' + (d[1] & 32 ? 'need' : 'unexpected') + ' dictionary');\n return (d[1] >> 3 & 4) + 2;\n};\nfunction StrmOpt(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n return opts;\n}\n/**\n * Streaming DEFLATE compression\n */\nvar Deflate = /*#__PURE__*/ (function () {\n function Deflate(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n this.o = opts || {};\n this.s = { l: 0, i: 32768, w: 32768, z: 32768 };\n // Buffer length must always be 0 mod 32768 for index calculations to be correct when modifying head and prev\n // 98304 = 32768 (lookback) + 65536 (common chunk size)\n this.b = new u8(98304);\n if (this.o.dictionary) {\n var dict = this.o.dictionary.subarray(-32768);\n this.b.set(dict, 32768 - dict.length);\n this.s.i = 32768 - dict.length;\n }\n }\n Deflate.prototype.p = function (c, f) {\n this.ondata(dopt(c, this.o, 0, 0, this.s), f);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Deflate.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n var endLen = chunk.length + this.s.z;\n if (endLen > this.b.length) {\n if (endLen > 2 * this.b.length - 32768) {\n var newBuf = new u8(endLen & -32768);\n newBuf.set(this.b.subarray(0, this.s.z));\n this.b = newBuf;\n }\n var split = this.b.length - this.s.z;\n this.b.set(chunk.subarray(0, split), this.s.z);\n this.s.z = this.b.length;\n this.p(this.b, false);\n this.b.set(this.b.subarray(-32768));\n this.b.set(chunk.subarray(split), 32768);\n this.s.z = chunk.length - split + 32768;\n this.s.i = 32766, this.s.w = 32768;\n }\n else {\n this.b.set(chunk, this.s.z);\n this.s.z += chunk.length;\n }\n this.s.l = final & 1;\n if (this.s.z > this.s.w + 8191 || final) {\n this.p(this.b, final || false);\n this.s.w = this.s.i, this.s.i -= 2;\n }\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * deflated output for small inputs.\n */\n Deflate.prototype.flush = function () {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n this.p(this.b, false);\n this.s.w = this.s.i, this.s.i -= 2;\n };\n return Deflate;\n}());\nexport { Deflate };\n/**\n * Asynchronous streaming DEFLATE compression\n */\nvar AsyncDeflate = /*#__PURE__*/ (function () {\n function AsyncDeflate(opts, cb) {\n astrmify([\n bDflt,\n function () { return [astrm, Deflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Deflate(ev.data);\n onmessage = astrm(strm);\n }, 6, 1);\n }\n return AsyncDeflate;\n}());\nexport { AsyncDeflate };\nexport function deflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n ], function (ev) { return pbf(deflateSync(ev.data[0], ev.data[1])); }, 0, cb);\n}\n/**\n * Compresses data with DEFLATE without any wrapper\n * @param data The data to compress\n * @param opts The compression options\n * @returns The deflated version of the data\n */\nexport function deflateSync(data, opts) {\n return dopt(data, opts || {}, 0, 0);\n}\n/**\n * Streaming DEFLATE decompression\n */\nvar Inflate = /*#__PURE__*/ (function () {\n function Inflate(opts, cb) {\n // no StrmOpt here to avoid adding to workerizer\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n var dict = opts && opts.dictionary && opts.dictionary.subarray(-32768);\n this.s = { i: 0, b: dict ? dict.length : 0 };\n this.o = new u8(32768);\n this.p = new u8(0);\n if (dict)\n this.o.set(dict);\n }\n Inflate.prototype.e = function (c) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n if (!this.p.length)\n this.p = c;\n else if (c.length) {\n var n = new u8(this.p.length + c.length);\n n.set(this.p), n.set(c, this.p.length), this.p = n;\n }\n };\n Inflate.prototype.c = function (final) {\n this.s.i = +(this.d = final || false);\n var bts = this.s.b;\n var dt = inflt(this.p, this.s, this.o);\n this.ondata(slc(dt, bts, this.s.b), this.d);\n this.o = slc(dt, this.s.b - 32768), this.s.b = this.o.length;\n this.p = slc(this.p, (this.s.p / 8) | 0), this.s.p &= 7;\n };\n /**\n * Pushes a chunk to be inflated\n * @param chunk The chunk to push\n * @param final Whether this is the final chunk\n */\n Inflate.prototype.push = function (chunk, final) {\n this.e(chunk), this.c(final);\n };\n return Inflate;\n}());\nexport { Inflate };\n/**\n * Asynchronous streaming DEFLATE decompression\n */\nvar AsyncInflate = /*#__PURE__*/ (function () {\n function AsyncInflate(opts, cb) {\n astrmify([\n bInflt,\n function () { return [astrm, Inflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Inflate(ev.data);\n onmessage = astrm(strm);\n }, 7, 0);\n }\n return AsyncInflate;\n}());\nexport { AsyncInflate };\nexport function inflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt\n ], function (ev) { return pbf(inflateSync(ev.data[0], gopt(ev.data[1]))); }, 1, cb);\n}\n/**\n * Expands DEFLATE data with no wrapper\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function inflateSync(data, opts) {\n return inflt(data, { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// before you yell at me for not just using extends, my reason is that TS inheritance is hard to workerize.\n/**\n * Streaming GZIP compression\n */\nvar Gzip = /*#__PURE__*/ (function () {\n function Gzip(opts, cb) {\n this.c = crc();\n this.l = 0;\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gzip.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n this.l += chunk.length;\n Deflate.prototype.push.call(this, chunk, final);\n };\n Gzip.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && gzhl(this.o), f && 8, this.s);\n if (this.v)\n gzh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 8, this.c.d()), wbytes(raw, raw.length - 4, this.l);\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * GZIPped output for small inputs.\n */\n Gzip.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Gzip;\n}());\nexport { Gzip };\n/**\n * Asynchronous streaming GZIP compression\n */\nvar AsyncGzip = /*#__PURE__*/ (function () {\n function AsyncGzip(opts, cb) {\n astrmify([\n bDflt,\n gze,\n function () { return [astrm, Deflate, Gzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gzip(ev.data);\n onmessage = astrm(strm);\n }, 8, 1);\n }\n return AsyncGzip;\n}());\nexport { AsyncGzip };\nexport function gzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n gze,\n function () { return [gzipSync]; }\n ], function (ev) { return pbf(gzipSync(ev.data[0], ev.data[1])); }, 2, cb);\n}\n/**\n * Compresses data with GZIP\n * @param data The data to compress\n * @param opts The compression options\n * @returns The gzipped version of the data\n */\nexport function gzipSync(data, opts) {\n if (!opts)\n opts = {};\n var c = crc(), l = data.length;\n c.p(data);\n var d = dopt(data, opts, gzhl(opts), 8), s = d.length;\n return gzh(d, opts), wbytes(d, s - 8, c.d()), wbytes(d, s - 4, l), d;\n}\n/**\n * Streaming single or multi-member GZIP decompression\n */\nvar Gunzip = /*#__PURE__*/ (function () {\n function Gunzip(opts, cb) {\n this.v = 1;\n this.r = 0;\n Inflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GUNZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gunzip.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n this.r += chunk.length;\n if (this.v) {\n var p = this.p.subarray(this.v - 1);\n var s = p.length > 3 ? gzs(p) : 4;\n if (s > p.length) {\n if (!final)\n return;\n }\n else if (this.v > 1 && this.onmember) {\n this.onmember(this.r - p.length);\n }\n this.p = p.subarray(s), this.v = 0;\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n // process concatenated GZIP\n if (this.s.f && !this.s.l && !final) {\n this.v = shft(this.s.p) + 9;\n this.s = { i: 0 };\n this.o = new u8(0);\n this.push(new u8(0), final);\n }\n };\n return Gunzip;\n}());\nexport { Gunzip };\n/**\n * Asynchronous streaming single or multi-member GZIP decompression\n */\nvar AsyncGunzip = /*#__PURE__*/ (function () {\n function AsyncGunzip(opts, cb) {\n var _this = this;\n astrmify([\n bInflt,\n guze,\n function () { return [astrm, Inflate, Gunzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gunzip(ev.data);\n strm.onmember = function (offset) { return postMessage(offset); };\n onmessage = astrm(strm);\n }, 9, 0, function (offset) { return _this.onmember && _this.onmember(offset); });\n }\n return AsyncGunzip;\n}());\nexport { AsyncGunzip };\nexport function gunzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n guze,\n function () { return [gunzipSync]; }\n ], function (ev) { return pbf(gunzipSync(ev.data[0], ev.data[1])); }, 3, cb);\n}\n/**\n * Expands GZIP data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function gunzipSync(data, opts) {\n var st = gzs(data);\n if (st + 8 > data.length)\n err(6, 'invalid gzip data');\n return inflt(data.subarray(st, -8), { i: 2 }, opts && opts.out || new u8(gzl(data)), opts && opts.dictionary);\n}\n/**\n * Streaming Zlib compression\n */\nvar Zlib = /*#__PURE__*/ (function () {\n function Zlib(opts, cb) {\n this.c = adler();\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be zlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Zlib.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n Deflate.prototype.push.call(this, chunk, final);\n };\n Zlib.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && (this.o.dictionary ? 6 : 2), f && 4, this.s);\n if (this.v)\n zlh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 4, this.c.d());\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * zlibbed output for small inputs.\n */\n Zlib.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Zlib;\n}());\nexport { Zlib };\n/**\n * Asynchronous streaming Zlib compression\n */\nvar AsyncZlib = /*#__PURE__*/ (function () {\n function AsyncZlib(opts, cb) {\n astrmify([\n bDflt,\n zle,\n function () { return [astrm, Deflate, Zlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Zlib(ev.data);\n onmessage = astrm(strm);\n }, 10, 1);\n }\n return AsyncZlib;\n}());\nexport { AsyncZlib };\nexport function zlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n zle,\n function () { return [zlibSync]; }\n ], function (ev) { return pbf(zlibSync(ev.data[0], ev.data[1])); }, 4, cb);\n}\n/**\n * Compress data with Zlib\n * @param data The data to compress\n * @param opts The compression options\n * @returns The zlib-compressed version of the data\n */\nexport function zlibSync(data, opts) {\n if (!opts)\n opts = {};\n var a = adler();\n a.p(data);\n var d = dopt(data, opts, opts.dictionary ? 6 : 2, 4);\n return zlh(d, opts), wbytes(d, d.length - 4, a.d()), d;\n}\n/**\n * Streaming Zlib decompression\n */\nvar Unzlib = /*#__PURE__*/ (function () {\n function Unzlib(opts, cb) {\n Inflate.call(this, opts, cb);\n this.v = opts && opts.dictionary ? 2 : 1;\n }\n /**\n * Pushes a chunk to be unzlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzlib.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n if (this.v) {\n if (this.p.length < 6 && !final)\n return;\n this.p = this.p.subarray(zls(this.p, this.v - 1)), this.v = 0;\n }\n if (final) {\n if (this.p.length < 4)\n err(6, 'invalid zlib data');\n this.p = this.p.subarray(0, -4);\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n };\n return Unzlib;\n}());\nexport { Unzlib };\n/**\n * Asynchronous streaming Zlib decompression\n */\nvar AsyncUnzlib = /*#__PURE__*/ (function () {\n function AsyncUnzlib(opts, cb) {\n astrmify([\n bInflt,\n zule,\n function () { return [astrm, Inflate, Unzlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Unzlib(ev.data);\n onmessage = astrm(strm);\n }, 11, 0);\n }\n return AsyncUnzlib;\n}());\nexport { AsyncUnzlib };\nexport function unzlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n zule,\n function () { return [unzlibSync]; }\n ], function (ev) { return pbf(unzlibSync(ev.data[0], gopt(ev.data[1]))); }, 5, cb);\n}\n/**\n * Expands Zlib data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function unzlibSync(data, opts) {\n return inflt(data.subarray(zls(data, opts && opts.dictionary), -4), { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// Default algorithm for compression (used because having a known output size allows faster decompression)\nexport { gzip as compress, AsyncGzip as AsyncCompress };\nexport { gzipSync as compressSync, Gzip as Compress };\n/**\n * Streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar Decompress = /*#__PURE__*/ (function () {\n function Decompress(opts, cb) {\n this.o = StrmOpt.call(this, opts, cb) || {};\n this.G = Gunzip;\n this.I = Inflate;\n this.Z = Unzlib;\n }\n // init substream\n // overriden by AsyncDecompress\n Decompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (dat, final) {\n _this.ondata(dat, final);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Decompress.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (!this.s) {\n if (this.p && this.p.length) {\n var n = new u8(this.p.length + chunk.length);\n n.set(this.p), n.set(chunk, this.p.length);\n }\n else\n this.p = chunk;\n if (this.p.length > 2) {\n this.s = (this.p[0] == 31 && this.p[1] == 139 && this.p[2] == 8)\n ? new this.G(this.o)\n : ((this.p[0] & 15) != 8 || (this.p[0] >> 4) > 7 || ((this.p[0] << 8 | this.p[1]) % 31))\n ? new this.I(this.o)\n : new this.Z(this.o);\n this.i();\n this.s.push(this.p, final);\n this.p = null;\n }\n }\n else\n this.s.push(chunk, final);\n };\n return Decompress;\n}());\nexport { Decompress };\n/**\n * Asynchronous streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar AsyncDecompress = /*#__PURE__*/ (function () {\n function AsyncDecompress(opts, cb) {\n Decompress.call(this, opts, cb);\n this.queuedSize = 0;\n this.G = AsyncGunzip;\n this.I = AsyncInflate;\n this.Z = AsyncUnzlib;\n }\n AsyncDecompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (err, dat, final) {\n _this.ondata(err, dat, final);\n };\n this.s.ondrain = function (size) {\n _this.queuedSize -= size;\n if (_this.ondrain)\n _this.ondrain(size);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncDecompress.prototype.push = function (chunk, final) {\n this.queuedSize += chunk.length;\n Decompress.prototype.push.call(this, chunk, final);\n };\n return AsyncDecompress;\n}());\nexport { AsyncDecompress };\nexport function decompress(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzip(data, opts, cb)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflate(data, opts, cb)\n : unzlib(data, opts, cb);\n}\n/**\n * Expands compressed GZIP, Zlib, or raw DEFLATE data, automatically detecting the format\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function decompressSync(data, opts) {\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzipSync(data, opts)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflateSync(data, opts)\n : unzlibSync(data, opts);\n}\n// flatten a directory structure\nvar fltn = function (d, p, t, o) {\n for (var k in d) {\n var val = d[k], n = p + k, op = o;\n if (Array.isArray(val))\n op = mrg(o, val[1]), val = val[0];\n if (val instanceof u8)\n t[n] = [val, op];\n else {\n t[n += '/'] = [new u8(0), op];\n fltn(val, n, t, o);\n }\n }\n};\n// text encoder\nvar te = typeof TextEncoder != 'undefined' && /*#__PURE__*/ new TextEncoder();\n// text decoder\nvar td = typeof TextDecoder != 'undefined' && /*#__PURE__*/ new TextDecoder();\n// text decoder stream\nvar tds = 0;\ntry {\n td.decode(et, { stream: true });\n tds = 1;\n}\ncatch (e) { }\n// decode UTF8\nvar dutf8 = function (d) {\n for (var r = '', i = 0;;) {\n var c = d[i++];\n var eb = (c > 127) + (c > 223) + (c > 239);\n if (i + eb > d.length)\n return { s: r, r: slc(d, i - 1) };\n if (!eb)\n r += String.fromCharCode(c);\n else if (eb == 3) {\n c = ((c & 15) << 18 | (d[i++] & 63) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63)) - 65536,\n r += String.fromCharCode(55296 | (c >> 10), 56320 | (c & 1023));\n }\n else if (eb & 1)\n r += String.fromCharCode((c & 31) << 6 | (d[i++] & 63));\n else\n r += String.fromCharCode((c & 15) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63));\n }\n};\n/**\n * Streaming UTF-8 decoding\n */\nvar DecodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is decoded\n */\n function DecodeUTF8(cb) {\n this.ondata = cb;\n if (tds)\n this.t = new TextDecoder();\n else\n this.p = et;\n }\n /**\n * Pushes a chunk to be decoded from UTF-8 binary\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n DecodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n final = !!final;\n if (this.t) {\n this.ondata(this.t.decode(chunk, { stream: true }), final);\n if (final) {\n if (this.t.decode().length)\n err(8);\n this.t = null;\n }\n return;\n }\n if (!this.p)\n err(4);\n var dat = new u8(this.p.length + chunk.length);\n dat.set(this.p);\n dat.set(chunk, this.p.length);\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (final) {\n if (r.length)\n err(8);\n this.p = null;\n }\n else\n this.p = r;\n this.ondata(s, final);\n };\n return DecodeUTF8;\n}());\nexport { DecodeUTF8 };\n/**\n * Streaming UTF-8 encoding\n */\nvar EncodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is encoded\n */\n function EncodeUTF8(cb) {\n this.ondata = cb;\n }\n /**\n * Pushes a chunk to be encoded to UTF-8\n * @param chunk The string data to push\n * @param final Whether this is the last chunk\n */\n EncodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n this.ondata(strToU8(chunk), this.d = final || false);\n };\n return EncodeUTF8;\n}());\nexport { EncodeUTF8 };\n/**\n * Converts a string into a Uint8Array for use with compression/decompression methods\n * @param str The string to encode\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless decoding a binary string.\n * @returns The string encoded in UTF-8/Latin-1 binary\n */\nexport function strToU8(str, latin1) {\n if (latin1) {\n var ar_1 = new u8(str.length);\n for (var i = 0; i < str.length; ++i)\n ar_1[i] = str.charCodeAt(i);\n return ar_1;\n }\n if (te)\n return te.encode(str);\n var l = str.length;\n var ar = new u8(str.length + (str.length >> 1));\n var ai = 0;\n var w = function (v) { ar[ai++] = v; };\n for (var i = 0; i < l; ++i) {\n if (ai + 5 > ar.length) {\n var n = new u8(ai + 8 + ((l - i) << 1));\n n.set(ar);\n ar = n;\n }\n var c = str.charCodeAt(i);\n if (c < 128 || latin1)\n w(c);\n else if (c < 2048)\n w(192 | (c >> 6)), w(128 | (c & 63));\n else if (c > 55295 && c < 57344)\n c = 65536 + (c & 1023 << 10) | (str.charCodeAt(++i) & 1023),\n w(240 | (c >> 18)), w(128 | ((c >> 12) & 63)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n else\n w(224 | (c >> 12)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n }\n return slc(ar, 0, ai);\n}\n/**\n * Converts a Uint8Array to a string\n * @param dat The data to decode to string\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless encoding to binary string.\n * @returns The original UTF-8/Latin-1 string\n */\nexport function strFromU8(dat, latin1) {\n if (latin1) {\n var r = '';\n for (var i = 0; i < dat.length; i += 16384)\n r += String.fromCharCode.apply(null, dat.subarray(i, i + 16384));\n return r;\n }\n else if (td) {\n return td.decode(dat);\n }\n else {\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (r.length)\n err(8);\n return s;\n }\n}\n;\n// deflate bit flag\nvar dbf = function (l) { return l == 1 ? 3 : l < 6 ? 2 : l == 9 ? 1 : 0; };\n// skip local zip header\nvar slzh = function (d, b) { return b + 30 + b2(d, b + 26) + b2(d, b + 28); };\n// read zip header\nvar zh = function (d, b, z) {\n var fnl = b2(d, b + 28), fn = strFromU8(d.subarray(b + 46, b + 46 + fnl), !(b2(d, b + 8) & 2048)), es = b + 46 + fnl, bs = b4(d, b + 20);\n var _a = z && bs == 4294967295 ? z64e(d, es) : [bs, b4(d, b + 24), b4(d, b + 42)], sc = _a[0], su = _a[1], off = _a[2];\n return [b2(d, b + 10), sc, su, fn, es + b2(d, b + 30) + b2(d, b + 32), off];\n};\n// read zip64 extra field\nvar z64e = function (d, b) {\n for (; b2(d, b) != 1; b += 4 + b2(d, b + 2))\n ;\n return [b8(d, b + 12), b8(d, b + 4), b8(d, b + 20)];\n};\n// extra field length\nvar exfl = function (ex) {\n var le = 0;\n if (ex) {\n for (var k in ex) {\n var l = ex[k].length;\n if (l > 65535)\n err(9);\n le += l + 4;\n }\n }\n return le;\n};\n// write zip header\nvar wzh = function (d, b, f, fn, u, c, ce, co) {\n var fl = fn.length, ex = f.extra, col = co && co.length;\n var exl = exfl(ex);\n wbytes(d, b, ce != null ? 0x2014B50 : 0x4034B50), b += 4;\n if (ce != null)\n d[b++] = 20, d[b++] = f.os;\n d[b] = 20, b += 2; // spec compliance? what's that?\n d[b++] = (f.flag << 1) | (c < 0 && 8), d[b++] = u && 8;\n d[b++] = f.compression & 255, d[b++] = f.compression >> 8;\n var dt = new Date(f.mtime == null ? Date.now() : f.mtime), y = dt.getFullYear() - 1980;\n if (y < 0 || y > 119)\n err(10);\n wbytes(d, b, (y << 25) | ((dt.getMonth() + 1) << 21) | (dt.getDate() << 16) | (dt.getHours() << 11) | (dt.getMinutes() << 5) | (dt.getSeconds() >> 1)), b += 4;\n if (c != -1) {\n wbytes(d, b, f.crc);\n wbytes(d, b + 4, c < 0 ? -c - 2 : c);\n wbytes(d, b + 8, f.size);\n }\n wbytes(d, b + 12, fl);\n wbytes(d, b + 14, exl), b += 16;\n if (ce != null) {\n wbytes(d, b, col);\n wbytes(d, b + 6, f.attrs);\n wbytes(d, b + 10, ce), b += 14;\n }\n d.set(fn, b);\n b += fl;\n if (exl) {\n for (var k in ex) {\n var exf = ex[k], l = exf.length;\n wbytes(d, b, +k);\n wbytes(d, b + 2, l);\n d.set(exf, b + 4), b += 4 + l;\n }\n }\n if (col)\n d.set(co, b), b += col;\n return b;\n};\n// write zip footer (end of central directory)\nvar wzf = function (o, b, c, d, e) {\n wbytes(o, b, 0x6054B50); // skip disk\n wbytes(o, b + 8, c);\n wbytes(o, b + 10, c);\n wbytes(o, b + 12, d);\n wbytes(o, b + 16, e);\n};\n/**\n * A pass-through stream to keep data uncompressed in a ZIP archive.\n */\nvar ZipPassThrough = /*#__PURE__*/ (function () {\n /**\n * Creates a pass-through stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n */\n function ZipPassThrough(filename) {\n this.filename = filename;\n this.c = crc();\n this.size = 0;\n this.compression = 0;\n }\n /**\n * Processes a chunk and pushes to the output stream. You can override this\n * method in a subclass for custom behavior, but by default this passes\n * the data through. You must call this.ondata(err, chunk, final) at some\n * point in this method.\n * @param chunk The chunk to process\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.process = function (chunk, final) {\n this.ondata(null, chunk, final);\n };\n /**\n * Pushes a chunk to be added. If you are subclassing this with a custom\n * compression algorithm, note that you must push data from the source\n * file only, pre-compression.\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n this.c.p(chunk);\n this.size += chunk.length;\n if (final)\n this.crc = this.c.d();\n this.process(chunk, final || false);\n };\n return ZipPassThrough;\n}());\nexport { ZipPassThrough };\n// I don't extend because TypeScript extension adds 1kB of runtime bloat\n/**\n * Streaming DEFLATE compression for ZIP archives. Prefer using AsyncZipDeflate\n * for better performance\n */\nvar ZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function ZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new Deflate(opts, function (dat, final) {\n _this.ondata(null, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n }\n ZipDeflate.prototype.process = function (chunk, final) {\n try {\n this.d.push(chunk, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return ZipDeflate;\n}());\nexport { ZipDeflate };\n/**\n * Asynchronous streaming DEFLATE compression for ZIP archives\n */\nvar AsyncZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates an asynchronous DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function AsyncZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new AsyncDeflate(opts, function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n this.terminate = this.d.terminate;\n }\n AsyncZipDeflate.prototype.process = function (chunk, final) {\n this.d.push(chunk, final);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return AsyncZipDeflate;\n}());\nexport { AsyncZipDeflate };\n// TODO: Better tree shaking\n/**\n * A zippable archive to which files can incrementally be added\n */\nvar Zip = /*#__PURE__*/ (function () {\n /**\n * Creates an empty ZIP archive to which files can be added\n * @param cb The callback to call whenever data for the generated ZIP archive\n * is available\n */\n function Zip(cb) {\n this.ondata = cb;\n this.u = [];\n this.d = 1;\n }\n /**\n * Adds a file to the ZIP archive\n * @param file The file stream to add\n */\n Zip.prototype.add = function (file) {\n var _this = this;\n if (!this.ondata)\n err(5);\n // finishing or finished\n if (this.d & 2)\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, false);\n else {\n var f = strToU8(file.filename), fl_1 = f.length;\n var com = file.comment, o = com && strToU8(com);\n var u = fl_1 != file.filename.length || (o && (com.length != o.length));\n var hl_1 = fl_1 + exfl(file.extra) + 30;\n if (fl_1 > 65535)\n this.ondata(err(11, 0, 1), null, false);\n var header = new u8(hl_1);\n wzh(header, 0, file, f, u, -1);\n var chks_1 = [header];\n var pAll_1 = function () {\n for (var _i = 0, chks_2 = chks_1; _i < chks_2.length; _i++) {\n var chk = chks_2[_i];\n _this.ondata(null, chk, false);\n }\n chks_1 = [];\n };\n var tr_1 = this.d;\n this.d = 0;\n var ind_1 = this.u.length;\n var uf_1 = mrg(file, {\n f: f,\n u: u,\n o: o,\n t: function () {\n if (file.terminate)\n file.terminate();\n },\n r: function () {\n pAll_1();\n if (tr_1) {\n var nxt = _this.u[ind_1 + 1];\n if (nxt)\n nxt.r();\n else\n _this.d = 1;\n }\n tr_1 = 1;\n }\n });\n var cl_1 = 0;\n file.ondata = function (err, dat, final) {\n if (err) {\n _this.ondata(err, dat, final);\n _this.terminate();\n }\n else {\n cl_1 += dat.length;\n chks_1.push(dat);\n if (final) {\n var dd = new u8(16);\n wbytes(dd, 0, 0x8074B50);\n wbytes(dd, 4, file.crc);\n wbytes(dd, 8, cl_1);\n wbytes(dd, 12, file.size);\n chks_1.push(dd);\n uf_1.c = cl_1, uf_1.b = hl_1 + cl_1 + 16, uf_1.crc = file.crc, uf_1.size = file.size;\n if (tr_1)\n uf_1.r();\n tr_1 = 1;\n }\n else if (tr_1)\n pAll_1();\n }\n };\n this.u.push(uf_1);\n }\n };\n /**\n * Ends the process of adding files and prepares to emit the final chunks.\n * This *must* be called after adding all desired files for the resulting\n * ZIP file to work properly.\n */\n Zip.prototype.end = function () {\n var _this = this;\n if (this.d & 2) {\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, true);\n return;\n }\n if (this.d)\n this.e();\n else\n this.u.push({\n r: function () {\n if (!(_this.d & 1))\n return;\n _this.u.splice(-1, 1);\n _this.e();\n },\n t: function () { }\n });\n this.d = 3;\n };\n Zip.prototype.e = function () {\n var bt = 0, l = 0, tl = 0;\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n tl += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0);\n }\n var out = new u8(tl + 22);\n for (var _b = 0, _c = this.u; _b < _c.length; _b++) {\n var f = _c[_b];\n wzh(out, bt, f, f.f, f.u, -f.c - 2, l, f.o);\n bt += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0), l += f.b;\n }\n wzf(out, bt, this.u.length, tl, l);\n this.ondata(null, out, true);\n this.d = 2;\n };\n /**\n * A method to terminate any internal workers used by the stream. Subsequent\n * calls to add() will fail.\n */\n Zip.prototype.terminate = function () {\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n f.t();\n }\n this.d = 2;\n };\n return Zip;\n}());\nexport { Zip };\nexport function zip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var r = {};\n fltn(data, '', r, opts);\n var k = Object.keys(r);\n var lft = k.length, o = 0, tot = 0;\n var slft = lft, files = new Array(lft);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var cbf = function () {\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n tot = 0;\n for (var i = 0; i < slft; ++i) {\n var f = files[i];\n try {\n var l = f.c.length;\n wzh(out, tot, f, f.f, f.u, l);\n var badd = 30 + f.f.length + exfl(f.extra);\n var loc = tot + badd;\n out.set(f.c, loc);\n wzh(out, o, f, f.f, f.u, l, tot, f.m), o += 16 + badd + (f.m ? f.m.length : 0), tot = loc + l;\n }\n catch (e) {\n return cbd(e, null);\n }\n }\n wzf(out, o, files.length, cdl, oe);\n cbd(null, out);\n };\n if (!lft)\n cbf();\n var _loop_1 = function (i) {\n var fn = k[i];\n var _a = r[fn], file = _a[0], p = _a[1];\n var c = crc(), size = file.length;\n c.p(file);\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n var compression = p.level == 0 ? 0 : 8;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n var l = d.length;\n files[i] = mrg(p, {\n size: size,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n compression: compression\n });\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n if (!--lft)\n cbf();\n }\n };\n if (s > 65535)\n cbl(err(11, 0, 1), null);\n if (!compression)\n cbl(null, file);\n else if (size < 160000) {\n try {\n cbl(null, deflateSync(file, p));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(deflate(file, p, cbl));\n };\n // Cannot use lft because it can decrease\n for (var i = 0; i < slft; ++i) {\n _loop_1(i);\n }\n return tAll;\n}\n/**\n * Synchronously creates a ZIP file. Prefer using `zip` for better performance\n * with more than one file.\n * @param data The directory structure for the ZIP archive\n * @param opts The main options, merged with per-file options\n * @returns The generated ZIP archive\n */\nexport function zipSync(data, opts) {\n if (!opts)\n opts = {};\n var r = {};\n var files = [];\n fltn(data, '', r, opts);\n var o = 0;\n var tot = 0;\n for (var fn in r) {\n var _a = r[fn], file = _a[0], p = _a[1];\n var compression = p.level == 0 ? 0 : 8;\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n if (s > 65535)\n err(11);\n var d = compression ? deflateSync(file, p) : file, l = d.length;\n var c = crc();\n c.p(file);\n files.push(mrg(p, {\n size: file.length,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n o: o,\n compression: compression\n }));\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n }\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n for (var i = 0; i < files.length; ++i) {\n var f = files[i];\n wzh(out, f.o, f, f.f, f.u, f.c.length);\n var badd = 30 + f.f.length + exfl(f.extra);\n out.set(f.c, f.o + badd);\n wzh(out, o, f, f.f, f.u, f.c.length, f.o, f.m), o += 16 + badd + (f.m ? f.m.length : 0);\n }\n wzf(out, o, files.length, cdl, oe);\n return out;\n}\n/**\n * Streaming pass-through decompression for ZIP archives\n */\nvar UnzipPassThrough = /*#__PURE__*/ (function () {\n function UnzipPassThrough() {\n }\n UnzipPassThrough.prototype.push = function (data, final) {\n this.ondata(null, data, final);\n };\n UnzipPassThrough.compression = 0;\n return UnzipPassThrough;\n}());\nexport { UnzipPassThrough };\n/**\n * Streaming DEFLATE decompression for ZIP archives. Prefer AsyncZipInflate for\n * better performance.\n */\nvar UnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function UnzipInflate() {\n var _this = this;\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n UnzipInflate.prototype.push = function (data, final) {\n try {\n this.i.push(data, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n UnzipInflate.compression = 8;\n return UnzipInflate;\n}());\nexport { UnzipInflate };\n/**\n * Asynchronous streaming DEFLATE decompression for ZIP archives\n */\nvar AsyncUnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function AsyncUnzipInflate(_, sz) {\n var _this = this;\n if (sz < 320000) {\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n else {\n this.i = new AsyncInflate(function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.terminate = this.i.terminate;\n }\n }\n AsyncUnzipInflate.prototype.push = function (data, final) {\n if (this.i.terminate)\n data = slc(data, 0);\n this.i.push(data, final);\n };\n AsyncUnzipInflate.compression = 8;\n return AsyncUnzipInflate;\n}());\nexport { AsyncUnzipInflate };\n/**\n * A ZIP archive decompression stream that emits files as they are discovered\n */\nvar Unzip = /*#__PURE__*/ (function () {\n /**\n * Creates a ZIP decompression stream\n * @param cb The callback to call whenever a file in the ZIP archive is found\n */\n function Unzip(cb) {\n this.onfile = cb;\n this.k = [];\n this.o = {\n 0: UnzipPassThrough\n };\n this.p = et;\n }\n /**\n * Pushes a chunk to be unzipped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzip.prototype.push = function (chunk, final) {\n var _this = this;\n if (!this.onfile)\n err(5);\n if (!this.p)\n err(4);\n if (this.c > 0) {\n var len = Math.min(this.c, chunk.length);\n var toAdd = chunk.subarray(0, len);\n this.c -= len;\n if (this.d)\n this.d.push(toAdd, !this.c);\n else\n this.k[0].push(toAdd);\n chunk = chunk.subarray(len);\n if (chunk.length)\n return this.push(chunk, final);\n }\n else {\n var f = 0, i = 0, is = void 0, buf = void 0;\n if (!this.p.length)\n buf = chunk;\n else if (!chunk.length)\n buf = this.p;\n else {\n buf = new u8(this.p.length + chunk.length);\n buf.set(this.p), buf.set(chunk, this.p.length);\n }\n var l = buf.length, oc = this.c, add = oc && this.d;\n var _loop_2 = function () {\n var _a;\n var sig = b4(buf, i);\n if (sig == 0x4034B50) {\n f = 1, is = i;\n this_1.d = null;\n this_1.c = 0;\n var bf = b2(buf, i + 6), cmp_1 = b2(buf, i + 8), u = bf & 2048, dd = bf & 8, fnl = b2(buf, i + 26), es = b2(buf, i + 28);\n if (l > i + 30 + fnl + es) {\n var chks_3 = [];\n this_1.k.unshift(chks_3);\n f = 2;\n var sc_1 = b4(buf, i + 18), su_1 = b4(buf, i + 22);\n var fn_1 = strFromU8(buf.subarray(i + 30, i += 30 + fnl), !u);\n if (sc_1 == 4294967295) {\n _a = dd ? [-2] : z64e(buf, i), sc_1 = _a[0], su_1 = _a[1];\n }\n else if (dd)\n sc_1 = -1;\n i += es;\n this_1.c = sc_1;\n var d_1;\n var file_1 = {\n name: fn_1,\n compression: cmp_1,\n start: function () {\n if (!file_1.ondata)\n err(5);\n if (!sc_1)\n file_1.ondata(null, et, true);\n else {\n var ctr = _this.o[cmp_1];\n if (!ctr)\n file_1.ondata(err(14, 'unknown compression type ' + cmp_1, 1), null, false);\n d_1 = sc_1 < 0 ? new ctr(fn_1) : new ctr(fn_1, sc_1, su_1);\n d_1.ondata = function (err, dat, final) { file_1.ondata(err, dat, final); };\n for (var _i = 0, chks_4 = chks_3; _i < chks_4.length; _i++) {\n var dat = chks_4[_i];\n d_1.push(dat, false);\n }\n if (_this.k[0] == chks_3 && _this.c)\n _this.d = d_1;\n else\n d_1.push(et, true);\n }\n },\n terminate: function () {\n if (d_1 && d_1.terminate)\n d_1.terminate();\n }\n };\n if (sc_1 >= 0)\n file_1.size = sc_1, file_1.originalSize = su_1;\n this_1.onfile(file_1);\n }\n return \"break\";\n }\n else if (oc) {\n if (sig == 0x8074B50) {\n is = i += 12 + (oc == -2 && 8), f = 3, this_1.c = 0;\n return \"break\";\n }\n else if (sig == 0x2014B50) {\n is = i -= 4, f = 3, this_1.c = 0;\n return \"break\";\n }\n }\n };\n var this_1 = this;\n for (; i < l - 4; ++i) {\n var state_1 = _loop_2();\n if (state_1 === \"break\")\n break;\n }\n this.p = et;\n if (oc < 0) {\n var dat = f ? buf.subarray(0, is - 12 - (oc == -2 && 8) - (b4(buf, is - 16) == 0x8074B50 && 4)) : buf.subarray(0, i);\n if (add)\n add.push(dat, !!f);\n else\n this.k[+(f == 2)].push(dat);\n }\n if (f & 2)\n return this.push(buf.subarray(i), final);\n this.p = buf.subarray(i);\n }\n if (final) {\n if (this.c)\n err(13);\n this.p = null;\n }\n };\n /**\n * Registers a decoder with the stream, allowing for files compressed with\n * the compression type provided to be expanded correctly\n * @param decoder The decoder constructor\n */\n Unzip.prototype.register = function (decoder) {\n this.o[decoder.compression] = decoder;\n };\n return Unzip;\n}());\nexport { Unzip };\nvar mt = typeof queueMicrotask == 'function' ? queueMicrotask : typeof setTimeout == 'function' ? setTimeout : function (fn) { fn(); };\nexport function unzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var files = {};\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558) {\n cbd(err(13, 0, 1), null);\n return tAll;\n }\n }\n ;\n var lft = b2(data, e + 8);\n if (lft) {\n var c = lft;\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = lft = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n var _loop_3 = function (i) {\n var _a = zh(data, o, z), c_1 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n if (d)\n files[fn] = d;\n if (!--lft)\n cbd(null, files);\n }\n };\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_1\n })) {\n if (!c_1)\n cbl(null, slc(data, b, b + sc));\n else if (c_1 == 8) {\n var infl = data.subarray(b, b + sc);\n // Synchronously decompress under 512KB, or barely-compressed data\n if (su < 524288 || sc > 0.8 * su) {\n try {\n cbl(null, inflateSync(infl, { out: new u8(su) }));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(inflate(infl, { size: su }, cbl));\n }\n else\n cbl(err(14, 'unknown compression type ' + c_1, 1), null);\n }\n else\n cbl(null, null);\n };\n for (var i = 0; i < c; ++i) {\n _loop_3(i);\n }\n }\n else\n cbd(null, {});\n return tAll;\n}\n/**\n * Synchronously decompresses a ZIP archive. Prefer using `unzip` for better\n * performance with more than one file.\n * @param data The raw compressed ZIP file\n * @param opts The ZIP extraction options\n * @returns The decompressed files\n */\nexport function unzipSync(data, opts) {\n var files = {};\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558)\n err(13);\n }\n ;\n var c = b2(data, e + 8);\n if (!c)\n return {};\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n for (var i = 0; i < c; ++i) {\n var _a = zh(data, o, z), c_2 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_2\n })) {\n if (!c_2)\n files[fn] = slc(data, b, b + sc);\n else if (c_2 == 8)\n files[fn] = inflateSync(data.subarray(b, b + sc), { out: new u8(su) });\n else\n err(14, 'unknown compression type ' + c_2);\n }\n }\n return files;\n}\n","/**\n * @license\n * Copyright 2010-2025 Three.js Authors\n * SPDX-License-Identifier: MIT\n */\nconst REVISION = '180';\n\n/**\n * Represents mouse buttons and interaction types in context of controls.\n *\n * @type {ConstantsMouse}\n * @constant\n */\nconst MOUSE = { LEFT: 0, MIDDLE: 1, RIGHT: 2, ROTATE: 0, DOLLY: 1, PAN: 2 };\n\n/**\n * Represents touch interaction types in context of controls.\n *\n * @type {ConstantsTouch}\n * @constant\n */\nconst TOUCH = { ROTATE: 0, PAN: 1, DOLLY_PAN: 2, DOLLY_ROTATE: 3 };\n\n/**\n * Disables face culling.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceNone = 0;\n\n/**\n * Culls back faces.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceBack = 1;\n\n/**\n * Culls front faces.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceFront = 2;\n\n/**\n * Culls both front and back faces.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceFrontBack = 3;\n\n/**\n * Gives unfiltered shadow maps - fastest, but lowest quality.\n *\n * @type {number}\n * @constant\n */\nconst BasicShadowMap = 0;\n\n/**\n * Filters shadow maps using the Percentage-Closer Filtering (PCF) algorithm.\n *\n * @type {number}\n * @constant\n */\nconst PCFShadowMap = 1;\n\n/**\n * Filters shadow maps using the Percentage-Closer Filtering (PCF) algorithm with\n * better soft shadows especially when using low-resolution shadow maps.\n *\n * @type {number}\n * @constant\n */\nconst PCFSoftShadowMap = 2;\n\n/**\n * Filters shadow maps using the Variance Shadow Map (VSM) algorithm.\n * When using VSMShadowMap all shadow receivers will also cast shadows.\n *\n * @type {number}\n * @constant\n */\nconst VSMShadowMap = 3;\n\n/**\n * Only front faces are rendered.\n *\n * @type {number}\n * @constant\n */\nconst FrontSide = 0;\n\n/**\n * Only back faces are rendered.\n *\n * @type {number}\n * @constant\n */\nconst BackSide = 1;\n\n/**\n * Both front and back faces are rendered.\n *\n * @type {number}\n * @constant\n */\nconst DoubleSide = 2;\n\n/**\n * No blending is performed which effectively disables\n * alpha transparency.\n *\n * @type {number}\n * @constant\n */\nconst NoBlending = 0;\n\n/**\n * The default blending.\n *\n * @type {number}\n * @constant\n */\nconst NormalBlending = 1;\n\n/**\n * Represents additive blending.\n *\n * @type {number}\n * @constant\n */\nconst AdditiveBlending = 2;\n\n/**\n * Represents subtractive blending.\n *\n * @type {number}\n * @constant\n */\nconst SubtractiveBlending = 3;\n\n/**\n * Represents multiply blending.\n *\n * @type {number}\n * @constant\n */\nconst MultiplyBlending = 4;\n\n/**\n * Represents custom blending.\n *\n * @type {number}\n * @constant\n */\nconst CustomBlending = 5;\n\n/**\n * A `source + destination` blending equation.\n *\n * @type {number}\n * @constant\n */\nconst AddEquation = 100;\n\n/**\n * A `source - destination` blending equation.\n *\n * @type {number}\n * @constant\n */\nconst SubtractEquation = 101;\n\n/**\n * A `destination - source` blending equation.\n *\n * @type {number}\n * @constant\n */\nconst ReverseSubtractEquation = 102;\n\n/**\n * A blend equation that uses the minimum of source and destination.\n *\n * @type {number}\n * @constant\n */\nconst MinEquation = 103;\n\n/**\n * A blend equation that uses the maximum of source and destination.\n *\n * @type {number}\n * @constant\n */\nconst MaxEquation = 104;\n\n/**\n * Multiplies all colors by `0`.\n *\n * @type {number}\n * @constant\n */\nconst ZeroFactor = 200;\n\n/**\n * Multiplies all colors by `1`.\n *\n * @type {number}\n * @constant\n */\nconst OneFactor = 201;\n\n/**\n * Multiplies all colors by the source colors.\n *\n * @type {number}\n * @constant\n */\nconst SrcColorFactor = 202;\n\n/**\n * Multiplies all colors by `1` minus each source color.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusSrcColorFactor = 203;\n\n/**\n * Multiplies all colors by the source alpha value.\n *\n * @type {number}\n * @constant\n */\nconst SrcAlphaFactor = 204;\n\n/**\n * Multiplies all colors by 1 minus the source alpha value.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusSrcAlphaFactor = 205;\n\n/**\n * Multiplies all colors by the destination alpha value.\n *\n * @type {number}\n * @constant\n */\nconst DstAlphaFactor = 206;\n\n/**\n * Multiplies all colors by `1` minus the destination alpha value.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusDstAlphaFactor = 207;\n\n/**\n * Multiplies all colors by the destination color.\n *\n * @type {number}\n * @constant\n */\nconst DstColorFactor = 208;\n\n/**\n * Multiplies all colors by `1` minus each destination color.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusDstColorFactor = 209;\n\n/**\n * Multiplies the RGB colors by the smaller of either the source alpha\n * value or the value of `1` minus the destination alpha value. The alpha\n * value is multiplied by `1`.\n *\n * @type {number}\n * @constant\n */\nconst SrcAlphaSaturateFactor = 210;\n\n/**\n * Multiplies all colors by a constant color.\n *\n * @type {number}\n * @constant\n */\nconst ConstantColorFactor = 211;\n\n/**\n * Multiplies all colors by `1` minus a constant color.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusConstantColorFactor = 212;\n\n/**\n * Multiplies all colors by a constant alpha value.\n *\n * @type {number}\n * @constant\n */\nconst ConstantAlphaFactor = 213;\n\n/**\n * Multiplies all colors by 1 minus a constant alpha value.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusConstantAlphaFactor = 214;\n\n/**\n * Never pass.\n *\n * @type {number}\n * @constant\n */\nconst NeverDepth = 0;\n\n/**\n * Always pass.\n *\n * @type {number}\n * @constant\n */\nconst AlwaysDepth = 1;\n\n/**\n * Pass if the incoming value is less than the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst LessDepth = 2;\n\n/**\n * Pass if the incoming value is less than or equal to the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst LessEqualDepth = 3;\n\n/**\n * Pass if the incoming value equals the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst EqualDepth = 4;\n\n/**\n * Pass if the incoming value is greater than or equal to the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterEqualDepth = 5;\n\n/**\n * Pass if the incoming value is greater than the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterDepth = 6;\n\n/**\n * Pass if the incoming value is not equal to the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst NotEqualDepth = 7;\n\n/**\n * Multiplies the environment map color with the surface color.\n *\n * @type {number}\n * @constant\n */\nconst MultiplyOperation = 0;\n\n/**\n * Uses reflectivity to blend between the two colors.\n *\n * @type {number}\n * @constant\n */\nconst MixOperation = 1;\n\n/**\n * Adds the two colors.\n *\n * @type {number}\n * @constant\n */\nconst AddOperation = 2;\n\n/**\n * No tone mapping is applied.\n *\n * @type {number}\n * @constant\n */\nconst NoToneMapping = 0;\n\n/**\n * Linear tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst LinearToneMapping = 1;\n\n/**\n * Reinhard tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst ReinhardToneMapping = 2;\n\n/**\n * Cineon tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst CineonToneMapping = 3;\n\n/**\n * ACES Filmic tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst ACESFilmicToneMapping = 4;\n\n/**\n * Custom tone mapping.\n *\n * Expects a custom implementation by modifying shader code of the material's fragment shader.\n *\n * @type {number}\n * @constant\n */\nconst CustomToneMapping = 5;\n\n/**\n * AgX tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst AgXToneMapping = 6;\n\n/**\n * Neutral tone mapping.\n *\n * Implementation based on the Khronos 3D Commerce Group standard tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst NeutralToneMapping = 7;\n\n/**\n * The skinned mesh shares the same world space as the skeleton.\n *\n * @type {string}\n * @constant\n */\nconst AttachedBindMode = 'attached';\n\n/**\n * The skinned mesh does not share the same world space as the skeleton.\n * This is useful when a skeleton is shared across multiple skinned meshes.\n *\n * @type {string}\n * @constant\n */\nconst DetachedBindMode = 'detached';\n\n/**\n * Maps textures using the geometry's UV coordinates.\n *\n * @type {number}\n * @constant\n */\nconst UVMapping = 300;\n\n/**\n * Reflection mapping for cube textures.\n *\n * @type {number}\n * @constant\n */\nconst CubeReflectionMapping = 301;\n\n/**\n * Refraction mapping for cube textures.\n *\n * @type {number}\n * @constant\n */\nconst CubeRefractionMapping = 302;\n\n/**\n * Reflection mapping for equirectangular textures.\n *\n * @type {number}\n * @constant\n */\nconst EquirectangularReflectionMapping = 303;\n\n/**\n * Refraction mapping for equirectangular textures.\n *\n * @type {number}\n * @constant\n */\nconst EquirectangularRefractionMapping = 304;\n\n/**\n * Reflection mapping for PMREM textures.\n *\n * @type {number}\n * @constant\n */\nconst CubeUVReflectionMapping = 306;\n\n/**\n * The texture will simply repeat to infinity.\n *\n * @type {number}\n * @constant\n */\nconst RepeatWrapping = 1000;\n\n/**\n * The last pixel of the texture stretches to the edge of the mesh.\n *\n * @type {number}\n * @constant\n */\nconst ClampToEdgeWrapping = 1001;\n\n/**\n * The texture will repeats to infinity, mirroring on each repeat.\n *\n * @type {number}\n * @constant\n */\nconst MirroredRepeatWrapping = 1002;\n\n/**\n * Returns the value of the texture element that is nearest (in Manhattan distance)\n * to the specified texture coordinates.\n *\n * @type {number}\n * @constant\n */\nconst NearestFilter = 1003;\n\n/**\n * Chooses the mipmap that most closely matches the size of the pixel being textured\n * and uses the `NearestFilter` criterion (the texel nearest to the center of the pixel)\n * to produce a texture value.\n *\n * @type {number}\n * @constant\n */\nconst NearestMipmapNearestFilter = 1004;\nconst NearestMipMapNearestFilter = 1004; // legacy\n\n/**\n * Chooses the two mipmaps that most closely match the size of the pixel being textured and\n * uses the `NearestFilter` criterion to produce a texture value from each mipmap.\n * The final texture value is a weighted average of those two values.\n *\n * @type {number}\n * @constant\n */\nconst NearestMipmapLinearFilter = 1005;\nconst NearestMipMapLinearFilter = 1005; // legacy\n\n/**\n * Returns the weighted average of the four texture elements that are closest to the specified\n * texture coordinates, and can include items wrapped or repeated from other parts of a texture,\n * depending on the values of `wrapS` and `wrapT`, and on the exact mapping.\n *\n * @type {number}\n * @constant\n */\nconst LinearFilter = 1006;\n\n/**\n * Chooses the mipmap that most closely matches the size of the pixel being textured and uses\n * the `LinearFilter` criterion (a weighted average of the four texels that are closest to the\n * center of the pixel) to produce a texture value.\n *\n * @type {number}\n * @constant\n */\nconst LinearMipmapNearestFilter = 1007;\nconst LinearMipMapNearestFilter = 1007; // legacy\n\n/**\n * Chooses the two mipmaps that most closely match the size of the pixel being textured and uses\n * the `LinearFilter` criterion to produce a texture value from each mipmap. The final texture value\n * is a weighted average of those two values.\n *\n * @type {number}\n * @constant\n */\nconst LinearMipmapLinearFilter = 1008;\nconst LinearMipMapLinearFilter = 1008; // legacy\n\n/**\n * An unsigned byte data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedByteType = 1009;\n\n/**\n * A byte data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst ByteType = 1010;\n\n/**\n * A short data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst ShortType = 1011;\n\n/**\n * An unsigned short data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedShortType = 1012;\n\n/**\n * An int data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst IntType = 1013;\n\n/**\n * An unsigned int data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedIntType = 1014;\n\n/**\n * A float data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst FloatType = 1015;\n\n/**\n * A half float data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst HalfFloatType = 1016;\n\n/**\n * An unsigned short 4_4_4_4 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedShort4444Type = 1017;\n\n/**\n * An unsigned short 5_5_5_1 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedShort5551Type = 1018;\n\n/**\n * An unsigned int 24_8 data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedInt248Type = 1020;\n\n/**\n * An unsigned int 5_9_9_9 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedInt5999Type = 35902;\n\n/**\n * An unsigned int 10_11_11 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedInt101111Type = 35899;\n\n/**\n * Discards the red, green and blue components and reads just the alpha component.\n *\n * @type {number}\n * @constant\n */\nconst AlphaFormat = 1021;\n\n/**\n * Discards the alpha component and reads the red, green and blue component.\n *\n * @type {number}\n * @constant\n */\nconst RGBFormat = 1022;\n\n/**\n * Reads the red, green, blue and alpha components.\n *\n * @type {number}\n * @constant\n */\nconst RGBAFormat = 1023;\n\n/**\n * Reads each element as a single depth value, converts it to floating point, and clamps to the range `[0,1]`.\n *\n * @type {number}\n * @constant\n */\nconst DepthFormat = 1026;\n\n/**\n * Reads each element is a pair of depth and stencil values. The depth component of the pair is interpreted as\n * in `DepthFormat`. The stencil component is interpreted based on the depth + stencil internal format.\n *\n * @type {number}\n * @constant\n */\nconst DepthStencilFormat = 1027;\n\n/**\n * Discards the green, blue and alpha components and reads just the red component.\n *\n * @type {number}\n * @constant\n */\nconst RedFormat = 1028;\n\n/**\n * Discards the green, blue and alpha components and reads just the red component. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RedIntegerFormat = 1029;\n\n/**\n * Discards the alpha, and blue components and reads the red, and green components.\n *\n * @type {number}\n * @constant\n */\nconst RGFormat = 1030;\n\n/**\n * Discards the alpha, and blue components and reads the red, and green components. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RGIntegerFormat = 1031;\n\n/**\n * Discards the alpha component and reads the red, green and blue component. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RGBIntegerFormat = 1032;\n\n/**\n * Reads the red, green, blue and alpha components. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RGBAIntegerFormat = 1033;\n\n/**\n * A DXT1-compressed image in an RGB image format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_S3TC_DXT1_Format = 33776;\n\n/**\n * A DXT1-compressed image in an RGB image format with a simple on/off alpha value.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_S3TC_DXT1_Format = 33777;\n\n/**\n * A DXT3-compressed image in an RGBA image format. Compared to a 32-bit RGBA texture, it offers 4:1 compression.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_S3TC_DXT3_Format = 33778;\n\n/**\n * A DXT5-compressed image in an RGBA image format. It also provides a 4:1 compression, but differs to the DXT3\n * compression in how the alpha compression is done.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_S3TC_DXT5_Format = 33779;\n\n/**\n * PVRTC RGB compression in 4-bit mode. One block for each 4×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGB_PVRTC_4BPPV1_Format = 35840;\n\n/**\n * PVRTC RGB compression in 2-bit mode. One block for each 8×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGB_PVRTC_2BPPV1_Format = 35841;\n\n/**\n * PVRTC RGBA compression in 4-bit mode. One block for each 4×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_PVRTC_4BPPV1_Format = 35842;\n\n/**\n * PVRTC RGBA compression in 2-bit mode. One block for each 8×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_PVRTC_2BPPV1_Format = 35843;\n\n/**\n * ETC1 RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_ETC1_Format = 36196;\n\n/**\n * ETC2 RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_ETC2_Format = 37492;\n\n/**\n * ETC2 RGBA format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ETC2_EAC_Format = 37496;\n\n/**\n * ASTC RGBA 4x4 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_4x4_Format = 37808;\n\n/**\n * ASTC RGBA 5x4 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_5x4_Format = 37809;\n\n/**\n * ASTC RGBA 5x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_5x5_Format = 37810;\n\n/**\n * ASTC RGBA 6x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_6x5_Format = 37811;\n\n/**\n * ASTC RGBA 6x6 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_6x6_Format = 37812;\n\n/**\n * ASTC RGBA 8x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_8x5_Format = 37813;\n\n/**\n * ASTC RGBA 8x6 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_8x6_Format = 37814;\n\n/**\n * ASTC RGBA 8x8 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_8x8_Format = 37815;\n\n/**\n * ASTC RGBA 10x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x5_Format = 37816;\n\n/**\n * ASTC RGBA 10x6 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x6_Format = 37817;\n\n/**\n * ASTC RGBA 10x8 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x8_Format = 37818;\n\n/**\n * ASTC RGBA 10x10 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x10_Format = 37819;\n\n/**\n * ASTC RGBA 12x10 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_12x10_Format = 37820;\n\n/**\n * ASTC RGBA 12x12 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_12x12_Format = 37821;\n\n/**\n * BPTC RGBA format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_BPTC_Format = 36492;\n\n/**\n * BPTC Signed RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_BPTC_SIGNED_Format = 36494;\n\n/**\n * BPTC Unsigned RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_BPTC_UNSIGNED_Format = 36495;\n\n/**\n * RGTC1 Red format.\n *\n * @type {number}\n * @constant\n */\nconst RED_RGTC1_Format = 36283;\n\n/**\n * RGTC1 Signed Red format.\n *\n * @type {number}\n * @constant\n */\nconst SIGNED_RED_RGTC1_Format = 36284;\n\n/**\n * RGTC2 Red Green format.\n *\n * @type {number}\n * @constant\n */\nconst RED_GREEN_RGTC2_Format = 36285;\n\n/**\n * RGTC2 Signed Red Green format.\n *\n * @type {number}\n * @constant\n */\nconst SIGNED_RED_GREEN_RGTC2_Format = 36286;\n\n/**\n * Animations are played once.\n *\n * @type {number}\n * @constant\n */\nconst LoopOnce = 2200;\n\n/**\n * Animations are played with a chosen number of repetitions, each time jumping from\n * the end of the clip directly to its beginning.\n *\n * @type {number}\n * @constant\n */\nconst LoopRepeat = 2201;\n\n/**\n * Animations are played with a chosen number of repetitions, alternately playing forward\n * and backward.\n *\n * @type {number}\n * @constant\n */\nconst LoopPingPong = 2202;\n\n/**\n * Discrete interpolation mode for keyframe tracks.\n *\n * @type {number}\n * @constant\n */\nconst InterpolateDiscrete = 2300;\n\n/**\n * Linear interpolation mode for keyframe tracks.\n *\n * @type {number}\n * @constant\n */\nconst InterpolateLinear = 2301;\n\n/**\n * Smooth interpolation mode for keyframe tracks.\n *\n * @type {number}\n * @constant\n */\nconst InterpolateSmooth = 2302;\n\n/**\n * Zero curvature ending for animations.\n *\n * @type {number}\n * @constant\n */\nconst ZeroCurvatureEnding = 2400;\n\n/**\n * Zero slope ending for animations.\n *\n * @type {number}\n * @constant\n */\nconst ZeroSlopeEnding = 2401;\n\n/**\n * Wrap around ending for animations.\n *\n * @type {number}\n * @constant\n */\nconst WrapAroundEnding = 2402;\n\n/**\n * Default animation blend mode.\n *\n * @type {number}\n * @constant\n */\nconst NormalAnimationBlendMode = 2500;\n\n/**\n * Additive animation blend mode. Can be used to layer motions on top of\n * each other to build complex performances from smaller re-usable assets.\n *\n * @type {number}\n * @constant\n */\nconst AdditiveAnimationBlendMode = 2501;\n\n/**\n * For every three vertices draw a single triangle.\n *\n * @type {number}\n * @constant\n */\nconst TrianglesDrawMode = 0;\n\n/**\n * For each vertex draw a triangle from the last three vertices.\n *\n * @type {number}\n * @constant\n */\nconst TriangleStripDrawMode = 1;\n\n/**\n * For each vertex draw a triangle from the first vertex and the last two vertices.\n *\n * @type {number}\n * @constant\n */\nconst TriangleFanDrawMode = 2;\n\n/**\n * Basic depth packing.\n *\n * @type {number}\n * @constant\n */\nconst BasicDepthPacking = 3200;\n\n/**\n * A depth value is packed into 32 bit RGBA.\n *\n * @type {number}\n * @constant\n */\nconst RGBADepthPacking = 3201;\n\n/**\n * A depth value is packed into 24 bit RGB.\n *\n * @type {number}\n * @constant\n */\nconst RGBDepthPacking = 3202;\n\n/**\n * A depth value is packed into 16 bit RG.\n *\n * @type {number}\n * @constant\n */\nconst RGDepthPacking = 3203;\n\n/**\n * Normal information is relative to the underlying surface.\n *\n * @type {number}\n * @constant\n */\nconst TangentSpaceNormalMap = 0;\n\n/**\n * Normal information is relative to the object orientation.\n *\n * @type {number}\n * @constant\n */\nconst ObjectSpaceNormalMap = 1;\n\n// Color space string identifiers, matching CSS Color Module Level 4 and WebGPU names where available.\n\n/**\n * No color space.\n *\n * @type {string}\n * @constant\n */\nconst NoColorSpace = '';\n\n/**\n * sRGB color space.\n *\n * @type {string}\n * @constant\n */\nconst SRGBColorSpace = 'srgb';\n\n/**\n * sRGB-linear color space.\n *\n * @type {string}\n * @constant\n */\nconst LinearSRGBColorSpace = 'srgb-linear';\n\n/**\n * Linear transfer function.\n *\n * @type {string}\n * @constant\n */\nconst LinearTransfer = 'linear';\n\n/**\n * sRGB transfer function.\n *\n * @type {string}\n * @constant\n */\nconst SRGBTransfer = 'srgb';\n\n/**\n * Sets the stencil buffer value to `0`.\n *\n * @type {number}\n * @constant\n */\nconst ZeroStencilOp = 0;\n\n/**\n * Keeps the current value.\n *\n * @type {number}\n * @constant\n */\nconst KeepStencilOp = 7680;\n\n/**\n * Sets the stencil buffer value to the specified reference value.\n *\n * @type {number}\n * @constant\n */\nconst ReplaceStencilOp = 7681;\n\n/**\n * Increments the current stencil buffer value. Clamps to the maximum representable unsigned value.\n *\n * @type {number}\n * @constant\n */\nconst IncrementStencilOp = 7682;\n\n/**\n * Decrements the current stencil buffer value. Clamps to `0`.\n *\n * @type {number}\n * @constant\n */\nconst DecrementStencilOp = 7683;\n\n/**\n * Increments the current stencil buffer value. Wraps stencil buffer value to zero when incrementing\n * the maximum representable unsigned value.\n *\n * @type {number}\n * @constant\n */\nconst IncrementWrapStencilOp = 34055;\n\n/**\n * Decrements the current stencil buffer value. Wraps stencil buffer value to the maximum representable\n * unsigned value when decrementing a stencil buffer value of `0`.\n *\n * @type {number}\n * @constant\n */\nconst DecrementWrapStencilOp = 34056;\n\n/**\n * Inverts the current stencil buffer value bitwise.\n *\n * @type {number}\n * @constant\n */\nconst InvertStencilOp = 5386;\n\n/**\n * Will never return true.\n *\n * @type {number}\n * @constant\n */\nconst NeverStencilFunc = 512;\n\n/**\n * Will return true if the stencil reference value is less than the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst LessStencilFunc = 513;\n\n/**\n * Will return true if the stencil reference value is equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst EqualStencilFunc = 514;\n\n/**\n * Will return true if the stencil reference value is less than or equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst LessEqualStencilFunc = 515;\n\n/**\n * Will return true if the stencil reference value is greater than the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterStencilFunc = 516;\n\n/**\n * Will return true if the stencil reference value is not equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst NotEqualStencilFunc = 517;\n\n/**\n * Will return true if the stencil reference value is greater than or equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterEqualStencilFunc = 518;\n\n/**\n * Will always return true.\n *\n * @type {number}\n * @constant\n */\nconst AlwaysStencilFunc = 519;\n\n/**\n * Never pass.\n *\n * @type {number}\n * @constant\n */\nconst NeverCompare = 512;\n\n/**\n * Pass if the incoming value is less than the texture value.\n *\n * @type {number}\n * @constant\n */\nconst LessCompare = 513;\n\n/**\n * Pass if the incoming value equals the texture value.\n *\n * @type {number}\n * @constant\n */\nconst EqualCompare = 514;\n\n/**\n * Pass if the incoming value is less than or equal to the texture value.\n *\n * @type {number}\n * @constant\n */\nconst LessEqualCompare = 515;\n\n/**\n * Pass if the incoming value is greater than the texture value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterCompare = 516;\n\n/**\n * Pass if the incoming value is not equal to the texture value.\n *\n * @type {number}\n * @constant\n */\nconst NotEqualCompare = 517;\n\n/**\n * Pass if the incoming value is greater than or equal to the texture value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterEqualCompare = 518;\n\n/**\n * Always pass.\n *\n * @type {number}\n * @constant\n */\nconst AlwaysCompare = 519;\n\n/**\n * The contents are intended to be specified once by the application, and used many\n * times as the source for drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StaticDrawUsage = 35044;\n\n/**\n * The contents are intended to be respecified repeatedly by the application, and\n * used many times as the source for drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst DynamicDrawUsage = 35048;\n\n/**\n * The contents are intended to be specified once by the application, and used at most\n * a few times as the source for drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StreamDrawUsage = 35040;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and queried\n * many times by the application.\n *\n * @type {number}\n * @constant\n */\nconst StaticReadUsage = 35045;\n\n/**\n * The contents are intended to be respecified repeatedly by reading data from the 3D API, and queried\n * many times by the application.\n *\n * @type {number}\n * @constant\n */\nconst DynamicReadUsage = 35049;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and queried at most\n * a few times by the application\n *\n * @type {number}\n * @constant\n */\nconst StreamReadUsage = 35041;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and used many times as\n * the source for WebGL drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StaticCopyUsage = 35046;\n\n/**\n * The contents are intended to be respecified repeatedly by reading data from the 3D API, and used many times\n * as the source for WebGL drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst DynamicCopyUsage = 35050;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and used at most a few times\n * as the source for WebGL drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StreamCopyUsage = 35042;\n\n/**\n * GLSL 1 shader code.\n *\n * @type {string}\n * @constant\n */\nconst GLSL1 = '100';\n\n/**\n * GLSL 3 shader code.\n *\n * @type {string}\n * @constant\n */\nconst GLSL3 = '300 es';\n\n/**\n * WebGL coordinate system.\n *\n * @type {number}\n * @constant\n */\nconst WebGLCoordinateSystem = 2000;\n\n/**\n * WebGPU coordinate system.\n *\n * @type {number}\n * @constant\n */\nconst WebGPUCoordinateSystem = 2001;\n\n/**\n * Represents the different timestamp query types.\n *\n * @type {ConstantsTimestampQuery}\n * @constant\n */\nconst TimestampQuery = {\n\tCOMPUTE: 'compute',\n\tRENDER: 'render'\n};\n\n/**\n * Represents mouse buttons and interaction types in context of controls.\n *\n * @type {ConstantsInterpolationSamplingType}\n * @constant\n */\nconst InterpolationSamplingType = {\n\tPERSPECTIVE: 'perspective',\n\tLINEAR: 'linear',\n\tFLAT: 'flat'\n};\n\n/**\n * Represents the different interpolation sampling modes.\n *\n * @type {ConstantsInterpolationSamplingMode}\n * @constant\n */\nconst InterpolationSamplingMode = {\n\tNORMAL: 'normal',\n\tCENTROID: 'centroid',\n\tSAMPLE: 'sample',\n\tFIRST: 'first',\n\tEITHER: 'either'\n};\n\n/**\n * This type represents mouse buttons and interaction types in context of controls.\n *\n * @typedef {Object} ConstantsMouse\n * @property {number} MIDDLE - The left mouse button.\n * @property {number} LEFT - The middle mouse button.\n * @property {number} RIGHT - The right mouse button.\n * @property {number} ROTATE - A rotate interaction.\n * @property {number} DOLLY - A dolly interaction.\n * @property {number} PAN - A pan interaction.\n **/\n\n/**\n * This type represents touch interaction types in context of controls.\n *\n * @typedef {Object} ConstantsTouch\n * @property {number} ROTATE - A rotate interaction.\n * @property {number} PAN - A pan interaction.\n * @property {number} DOLLY_PAN - The dolly-pan interaction.\n * @property {number} DOLLY_ROTATE - A dolly-rotate interaction.\n **/\n\n/**\n * This type represents the different timestamp query types.\n *\n * @typedef {Object} ConstantsTimestampQuery\n * @property {string} COMPUTE - A `compute` timestamp query.\n * @property {string} RENDER - A `render` timestamp query.\n **/\n\n/**\n * Represents the different interpolation sampling types.\n *\n * @typedef {Object} ConstantsInterpolationSamplingType\n * @property {string} PERSPECTIVE - Perspective-correct interpolation.\n * @property {string} LINEAR - Linear interpolation.\n * @property {string} FLAT - Flat interpolation.\n */\n\n/**\n * Represents the different interpolation sampling modes.\n *\n * @typedef {Object} ConstantsInterpolationSamplingMode\n * @property {string} NORMAL - Normal sampling mode.\n * @property {string} CENTROID - Centroid sampling mode.\n * @property {string} SAMPLE - Sample-specific sampling mode.\n * @property {string} FIRST - Flat interpolation using the first vertex.\n * @property {string} EITHER - Flat interpolation using either vertex.\n */\n\n/**\n * This modules allows to dispatch event objects on custom JavaScript objects.\n *\n * Main repository: [eventdispatcher.js]{@link https://github.com/mrdoob/eventdispatcher.js/}\n *\n * Code Example:\n * ```js\n * class Car extends EventDispatcher {\n * \tstart() {\n *\t\tthis.dispatchEvent( { type: 'start', message: 'vroom vroom!' } );\n *\t}\n *};\n *\n * // Using events with the custom object\n * const car = new Car();\n * car.addEventListener( 'start', function ( event ) {\n * \talert( event.message );\n * } );\n *\n * car.start();\n * ```\n */\nclass EventDispatcher {\n\n\t/**\n\t * Adds the given event listener to the given event type.\n\t *\n\t * @param {string} type - The type of event to listen to.\n\t * @param {Function} listener - The function that gets called when the event is fired.\n\t */\n\taddEventListener( type, listener ) {\n\n\t\tif ( this._listeners === undefined ) this._listeners = {};\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners[ type ] === undefined ) {\n\n\t\t\tlisteners[ type ] = [];\n\n\t\t}\n\n\t\tif ( listeners[ type ].indexOf( listener ) === -1 ) {\n\n\t\t\tlisteners[ type ].push( listener );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns `true` if the given event listener has been added to the given event type.\n\t *\n\t * @param {string} type - The type of event.\n\t * @param {Function} listener - The listener to check.\n\t * @return {boolean} Whether the given event listener has been added to the given event type.\n\t */\n\thasEventListener( type, listener ) {\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners === undefined ) return false;\n\n\t\treturn listeners[ type ] !== undefined && listeners[ type ].indexOf( listener ) !== -1;\n\n\t}\n\n\t/**\n\t * Removes the given event listener from the given event type.\n\t *\n\t * @param {string} type - The type of event.\n\t * @param {Function} listener - The listener to remove.\n\t */\n\tremoveEventListener( type, listener ) {\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners === undefined ) return;\n\n\t\tconst listenerArray = listeners[ type ];\n\n\t\tif ( listenerArray !== undefined ) {\n\n\t\t\tconst index = listenerArray.indexOf( listener );\n\n\t\t\tif ( index !== -1 ) {\n\n\t\t\t\tlistenerArray.splice( index, 1 );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Dispatches an event object.\n\t *\n\t * @param {Object} event - The event that gets fired.\n\t */\n\tdispatchEvent( event ) {\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners === undefined ) return;\n\n\t\tconst listenerArray = listeners[ event.type ];\n\n\t\tif ( listenerArray !== undefined ) {\n\n\t\t\tevent.target = this;\n\n\t\t\t// Make a copy, in case listeners are removed while iterating.\n\t\t\tconst array = listenerArray.slice( 0 );\n\n\t\t\tfor ( let i = 0, l = array.length; i < l; i ++ ) {\n\n\t\t\t\tarray[ i ].call( this, event );\n\n\t\t\t}\n\n\t\t\tevent.target = null;\n\n\t\t}\n\n\t}\n\n}\n\nconst _lut = [ '00', '01', '02', '03', '04', '05', '06', '07', '08', '09', '0a', '0b', '0c', '0d', '0e', '0f', '10', '11', '12', '13', '14', '15', '16', '17', '18', '19', '1a', '1b', '1c', '1d', '1e', '1f', '20', '21', '22', '23', '24', '25', '26', '27', '28', '29', '2a', '2b', '2c', '2d', '2e', '2f', '30', '31', '32', '33', '34', '35', '36', '37', '38', '39', '3a', '3b', '3c', '3d', '3e', '3f', '40', '41', '42', '43', '44', '45', '46', '47', '48', '49', '4a', '4b', '4c', '4d', '4e', '4f', '50', '51', '52', '53', '54', '55', '56', '57', '58', '59', '5a', '5b', '5c', '5d', '5e', '5f', '60', '61', '62', '63', '64', '65', '66', '67', '68', '69', '6a', '6b', '6c', '6d', '6e', '6f', '70', '71', '72', '73', '74', '75', '76', '77', '78', '79', '7a', '7b', '7c', '7d', '7e', '7f', '80', '81', '82', '83', '84', '85', '86', '87', '88', '89', '8a', '8b', '8c', '8d', '8e', '8f', '90', '91', '92', '93', '94', '95', '96', '97', '98', '99', '9a', '9b', '9c', '9d', '9e', '9f', 'a0', 'a1', 'a2', 'a3', 'a4', 'a5', 'a6', 'a7', 'a8', 'a9', 'aa', 'ab', 'ac', 'ad', 'ae', 'af', 'b0', 'b1', 'b2', 'b3', 'b4', 'b5', 'b6', 'b7', 'b8', 'b9', 'ba', 'bb', 'bc', 'bd', 'be', 'bf', 'c0', 'c1', 'c2', 'c3', 'c4', 'c5', 'c6', 'c7', 'c8', 'c9', 'ca', 'cb', 'cc', 'cd', 'ce', 'cf', 'd0', 'd1', 'd2', 'd3', 'd4', 'd5', 'd6', 'd7', 'd8', 'd9', 'da', 'db', 'dc', 'dd', 'de', 'df', 'e0', 'e1', 'e2', 'e3', 'e4', 'e5', 'e6', 'e7', 'e8', 'e9', 'ea', 'eb', 'ec', 'ed', 'ee', 'ef', 'f0', 'f1', 'f2', 'f3', 'f4', 'f5', 'f6', 'f7', 'f8', 'f9', 'fa', 'fb', 'fc', 'fd', 'fe', 'ff' ];\n\nlet _seed = 1234567;\n\n\nconst DEG2RAD = Math.PI / 180;\nconst RAD2DEG = 180 / Math.PI;\n\n/**\n * Generate a [UUID]{@link https://en.wikipedia.org/wiki/Universally_unique_identifier}\n * (universally unique identifier).\n *\n * @return {string} The UUID.\n */\nfunction generateUUID() {\n\n\t// http://stackoverflow.com/questions/105034/how-to-create-a-guid-uuid-in-javascript/21963136#21963136\n\n\tconst d0 = Math.random() * 0xffffffff | 0;\n\tconst d1 = Math.random() * 0xffffffff | 0;\n\tconst d2 = Math.random() * 0xffffffff | 0;\n\tconst d3 = Math.random() * 0xffffffff | 0;\n\tconst uuid = _lut[ d0 & 0xff ] + _lut[ d0 >> 8 & 0xff ] + _lut[ d0 >> 16 & 0xff ] + _lut[ d0 >> 24 & 0xff ] + '-' +\n\t\t\t_lut[ d1 & 0xff ] + _lut[ d1 >> 8 & 0xff ] + '-' + _lut[ d1 >> 16 & 0x0f | 0x40 ] + _lut[ d1 >> 24 & 0xff ] + '-' +\n\t\t\t_lut[ d2 & 0x3f | 0x80 ] + _lut[ d2 >> 8 & 0xff ] + '-' + _lut[ d2 >> 16 & 0xff ] + _lut[ d2 >> 24 & 0xff ] +\n\t\t\t_lut[ d3 & 0xff ] + _lut[ d3 >> 8 & 0xff ] + _lut[ d3 >> 16 & 0xff ] + _lut[ d3 >> 24 & 0xff ];\n\n\t// .toLowerCase() here flattens concatenated strings to save heap memory space.\n\treturn uuid.toLowerCase();\n\n}\n\n/**\n * Clamps the given value between min and max.\n *\n * @param {number} value - The value to clamp.\n * @param {number} min - The min value.\n * @param {number} max - The max value.\n * @return {number} The clamped value.\n */\nfunction clamp( value, min, max ) {\n\n\treturn Math.max( min, Math.min( max, value ) );\n\n}\n\n/**\n * Computes the Euclidean modulo of the given parameters that\n * is `( ( n % m ) + m ) % m`.\n *\n * @param {number} n - The first parameter.\n * @param {number} m - The second parameter.\n * @return {number} The Euclidean modulo.\n */\nfunction euclideanModulo( n, m ) {\n\n\t// https://en.wikipedia.org/wiki/Modulo_operation\n\n\treturn ( ( n % m ) + m ) % m;\n\n}\n\n/**\n * Performs a linear mapping from range `` to range ``\n * for the given value.\n *\n * @param {number} x - The value to be mapped.\n * @param {number} a1 - Minimum value for range A.\n * @param {number} a2 - Maximum value for range A.\n * @param {number} b1 - Minimum value for range B.\n * @param {number} b2 - Maximum value for range B.\n * @return {number} The mapped value.\n */\nfunction mapLinear( x, a1, a2, b1, b2 ) {\n\n\treturn b1 + ( x - a1 ) * ( b2 - b1 ) / ( a2 - a1 );\n\n}\n\n/**\n * Returns the percentage in the closed interval `[0, 1]` of the given value\n * between the start and end point.\n *\n * @param {number} x - The start point\n * @param {number} y - The end point.\n * @param {number} value - A value between start and end.\n * @return {number} The interpolation factor.\n */\nfunction inverseLerp( x, y, value ) {\n\n\t// https://www.gamedev.net/tutorials/programming/general-and-gameplay-programming/inverse-lerp-a-super-useful-yet-often-overlooked-function-r5230/\n\n\tif ( x !== y ) {\n\n\t\treturn ( value - x ) / ( y - x );\n\n\t} else {\n\n\t\treturn 0;\n\n\t}\n\n}\n\n/**\n * Returns a value linearly interpolated from two known points based on the given interval -\n * `t = 0` will return `x` and `t = 1` will return `y`.\n *\n * @param {number} x - The start point\n * @param {number} y - The end point.\n * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n * @return {number} The interpolated value.\n */\nfunction lerp( x, y, t ) {\n\n\treturn ( 1 - t ) * x + t * y;\n\n}\n\n/**\n * Smoothly interpolate a number from `x` to `y` in a spring-like manner using a delta\n * time to maintain frame rate independent movement. For details, see\n * [Frame rate independent damping using lerp]{@link http://www.rorydriscoll.com/2016/03/07/frame-rate-independent-damping-using-lerp/}.\n *\n * @param {number} x - The current point.\n * @param {number} y - The target point.\n * @param {number} lambda - A higher lambda value will make the movement more sudden,\n * and a lower value will make the movement more gradual.\n * @param {number} dt - Delta time in seconds.\n * @return {number} The interpolated value.\n */\nfunction damp( x, y, lambda, dt ) {\n\n\treturn lerp( x, y, 1 - Math.exp( - lambda * dt ) );\n\n}\n\n/**\n * Returns a value that alternates between `0` and the given `length` parameter.\n *\n * @param {number} x - The value to pingpong.\n * @param {number} [length=1] - The positive value the function will pingpong to.\n * @return {number} The alternated value.\n */\nfunction pingpong( x, length = 1 ) {\n\n\t// https://www.desmos.com/calculator/vcsjnyz7x4\n\n\treturn length - Math.abs( euclideanModulo( x, length * 2 ) - length );\n\n}\n\n/**\n * Returns a value in the range `[0,1]` that represents the percentage that `x` has\n * moved between `min` and `max`, but smoothed or slowed down the closer `x` is to\n * the `min` and `max`.\n *\n * See [Smoothstep]{@link http://en.wikipedia.org/wiki/Smoothstep} for more details.\n *\n * @param {number} x - The value to evaluate based on its position between min and max.\n * @param {number} min - The min value. Any x value below min will be `0`.\n * @param {number} max - The max value. Any x value above max will be `1`.\n * @return {number} The alternated value.\n */\nfunction smoothstep( x, min, max ) {\n\n\tif ( x <= min ) return 0;\n\tif ( x >= max ) return 1;\n\n\tx = ( x - min ) / ( max - min );\n\n\treturn x * x * ( 3 - 2 * x );\n\n}\n\n/**\n * A [variation on smoothstep]{@link https://en.wikipedia.org/wiki/Smoothstep#Variations}\n * that has zero 1st and 2nd order derivatives at x=0 and x=1.\n *\n * @param {number} x - The value to evaluate based on its position between min and max.\n * @param {number} min - The min value. Any x value below min will be `0`.\n * @param {number} max - The max value. Any x value above max will be `1`.\n * @return {number} The alternated value.\n */\nfunction smootherstep( x, min, max ) {\n\n\tif ( x <= min ) return 0;\n\tif ( x >= max ) return 1;\n\n\tx = ( x - min ) / ( max - min );\n\n\treturn x * x * x * ( x * ( x * 6 - 15 ) + 10 );\n\n}\n\n/**\n * Returns a random integer from `` interval.\n *\n * @param {number} low - The lower value boundary.\n * @param {number} high - The upper value boundary\n * @return {number} A random integer.\n */\nfunction randInt( low, high ) {\n\n\treturn low + Math.floor( Math.random() * ( high - low + 1 ) );\n\n}\n\n/**\n * Returns a random float from `` interval.\n *\n * @param {number} low - The lower value boundary.\n * @param {number} high - The upper value boundary\n * @return {number} A random float.\n */\nfunction randFloat( low, high ) {\n\n\treturn low + Math.random() * ( high - low );\n\n}\n\n/**\n * Returns a random integer from `<-range/2, range/2>` interval.\n *\n * @param {number} range - Defines the value range.\n * @return {number} A random float.\n */\nfunction randFloatSpread( range ) {\n\n\treturn range * ( 0.5 - Math.random() );\n\n}\n\n/**\n * Returns a deterministic pseudo-random float in the interval `[0, 1]`.\n *\n * @param {number} [s] - The integer seed.\n * @return {number} A random float.\n */\nfunction seededRandom( s ) {\n\n\tif ( s !== undefined ) _seed = s;\n\n\t// Mulberry32 generator\n\n\tlet t = _seed += 0x6D2B79F5;\n\n\tt = Math.imul( t ^ t >>> 15, t | 1 );\n\n\tt ^= t + Math.imul( t ^ t >>> 7, t | 61 );\n\n\treturn ( ( t ^ t >>> 14 ) >>> 0 ) / 4294967296;\n\n}\n\n/**\n * Converts degrees to radians.\n *\n * @param {number} degrees - A value in degrees.\n * @return {number} The converted value in radians.\n */\nfunction degToRad( degrees ) {\n\n\treturn degrees * DEG2RAD;\n\n}\n\n/**\n * Converts radians to degrees.\n *\n * @param {number} radians - A value in radians.\n * @return {number} The converted value in degrees.\n */\nfunction radToDeg( radians ) {\n\n\treturn radians * RAD2DEG;\n\n}\n\n/**\n * Returns `true` if the given number is a power of two.\n *\n * @param {number} value - The value to check.\n * @return {boolean} Whether the given number is a power of two or not.\n */\nfunction isPowerOfTwo( value ) {\n\n\treturn ( value & ( value - 1 ) ) === 0 && value !== 0;\n\n}\n\n/**\n * Returns the smallest power of two that is greater than or equal to the given number.\n *\n * @param {number} value - The value to find a POT for.\n * @return {number} The smallest power of two that is greater than or equal to the given number.\n */\nfunction ceilPowerOfTwo( value ) {\n\n\treturn Math.pow( 2, Math.ceil( Math.log( value ) / Math.LN2 ) );\n\n}\n\n/**\n * Returns the largest power of two that is less than or equal to the given number.\n *\n * @param {number} value - The value to find a POT for.\n * @return {number} The largest power of two that is less than or equal to the given number.\n */\nfunction floorPowerOfTwo( value ) {\n\n\treturn Math.pow( 2, Math.floor( Math.log( value ) / Math.LN2 ) );\n\n}\n\n/**\n * Sets the given quaternion from the [Intrinsic Proper Euler Angles]{@link https://en.wikipedia.org/wiki/Euler_angles}\n * defined by the given angles and order.\n *\n * Rotations are applied to the axes in the order specified by order:\n * rotation by angle `a` is applied first, then by angle `b`, then by angle `c`.\n *\n * @param {Quaternion} q - The quaternion to set.\n * @param {number} a - The rotation applied to the first axis, in radians.\n * @param {number} b - The rotation applied to the second axis, in radians.\n * @param {number} c - The rotation applied to the third axis, in radians.\n * @param {('XYX'|'XZX'|'YXY'|'YZY'|'ZXZ'|'ZYZ')} order - A string specifying the axes order.\n */\nfunction setQuaternionFromProperEuler( q, a, b, c, order ) {\n\n\tconst cos = Math.cos;\n\tconst sin = Math.sin;\n\n\tconst c2 = cos( b / 2 );\n\tconst s2 = sin( b / 2 );\n\n\tconst c13 = cos( ( a + c ) / 2 );\n\tconst s13 = sin( ( a + c ) / 2 );\n\n\tconst c1_3 = cos( ( a - c ) / 2 );\n\tconst s1_3 = sin( ( a - c ) / 2 );\n\n\tconst c3_1 = cos( ( c - a ) / 2 );\n\tconst s3_1 = sin( ( c - a ) / 2 );\n\n\tswitch ( order ) {\n\n\t\tcase 'XYX':\n\t\t\tq.set( c2 * s13, s2 * c1_3, s2 * s1_3, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'YZY':\n\t\t\tq.set( s2 * s1_3, c2 * s13, s2 * c1_3, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'ZXZ':\n\t\t\tq.set( s2 * c1_3, s2 * s1_3, c2 * s13, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'XZX':\n\t\t\tq.set( c2 * s13, s2 * s3_1, s2 * c3_1, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'YXY':\n\t\t\tq.set( s2 * c3_1, c2 * s13, s2 * s3_1, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'ZYZ':\n\t\t\tq.set( s2 * s3_1, s2 * c3_1, c2 * s13, c2 * c13 );\n\t\t\tbreak;\n\n\t\tdefault:\n\t\t\tconsole.warn( 'THREE.MathUtils: .setQuaternionFromProperEuler() encountered an unknown order: ' + order );\n\n\t}\n\n}\n\n/**\n * Denormalizes the given value according to the given typed array.\n *\n * @param {number} value - The value to denormalize.\n * @param {TypedArray} array - The typed array that defines the data type of the value.\n * @return {number} The denormalize (float) value in the range `[0,1]`.\n */\nfunction denormalize( value, array ) {\n\n\tswitch ( array.constructor ) {\n\n\t\tcase Float32Array:\n\n\t\t\treturn value;\n\n\t\tcase Uint32Array:\n\n\t\t\treturn value / 4294967295.0;\n\n\t\tcase Uint16Array:\n\n\t\t\treturn value / 65535.0;\n\n\t\tcase Uint8Array:\n\n\t\t\treturn value / 255.0;\n\n\t\tcase Int32Array:\n\n\t\t\treturn Math.max( value / 2147483647.0, -1 );\n\n\t\tcase Int16Array:\n\n\t\t\treturn Math.max( value / 32767.0, -1 );\n\n\t\tcase Int8Array:\n\n\t\t\treturn Math.max( value / 127.0, -1 );\n\n\t\tdefault:\n\n\t\t\tthrow new Error( 'Invalid component type.' );\n\n\t}\n\n}\n\n/**\n * Normalizes the given value according to the given typed array.\n *\n * @param {number} value - The float value in the range `[0,1]` to normalize.\n * @param {TypedArray} array - The typed array that defines the data type of the value.\n * @return {number} The normalize value.\n */\nfunction normalize( value, array ) {\n\n\tswitch ( array.constructor ) {\n\n\t\tcase Float32Array:\n\n\t\t\treturn value;\n\n\t\tcase Uint32Array:\n\n\t\t\treturn Math.round( value * 4294967295.0 );\n\n\t\tcase Uint16Array:\n\n\t\t\treturn Math.round( value * 65535.0 );\n\n\t\tcase Uint8Array:\n\n\t\t\treturn Math.round( value * 255.0 );\n\n\t\tcase Int32Array:\n\n\t\t\treturn Math.round( value * 2147483647.0 );\n\n\t\tcase Int16Array:\n\n\t\t\treturn Math.round( value * 32767.0 );\n\n\t\tcase Int8Array:\n\n\t\t\treturn Math.round( value * 127.0 );\n\n\t\tdefault:\n\n\t\t\tthrow new Error( 'Invalid component type.' );\n\n\t}\n\n}\n\n/**\n * @class\n * @classdesc A collection of math utility functions.\n * @hideconstructor\n */\nconst MathUtils = {\n\tDEG2RAD: DEG2RAD,\n\tRAD2DEG: RAD2DEG,\n\t/**\n\t * Generate a [UUID]{@link https://en.wikipedia.org/wiki/Universally_unique_identifier}\n\t * (universally unique identifier).\n\t *\n\t * @static\n\t * @method\n\t * @return {string} The UUID.\n\t */\n\tgenerateUUID: generateUUID,\n\t/**\n\t * Clamps the given value between min and max.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to clamp.\n\t * @param {number} min - The min value.\n\t * @param {number} max - The max value.\n\t * @return {number} The clamped value.\n\t */\n\tclamp: clamp,\n\t/**\n\t * Computes the Euclidean modulo of the given parameters that\n\t * is `( ( n % m ) + m ) % m`.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} n - The first parameter.\n\t * @param {number} m - The second parameter.\n\t * @return {number} The Euclidean modulo.\n\t */\n\teuclideanModulo: euclideanModulo,\n\t/**\n\t * Performs a linear mapping from range `` to range ``\n\t * for the given value.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to be mapped.\n\t * @param {number} a1 - Minimum value for range A.\n\t * @param {number} a2 - Maximum value for range A.\n\t * @param {number} b1 - Minimum value for range B.\n\t * @param {number} b2 - Maximum value for range B.\n\t * @return {number} The mapped value.\n\t */\n\tmapLinear: mapLinear,\n\t/**\n\t * Returns the percentage in the closed interval `[0, 1]` of the given value\n\t * between the start and end point.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The start point\n\t * @param {number} y - The end point.\n\t * @param {number} value - A value between start and end.\n\t * @return {number} The interpolation factor.\n\t */\n\tinverseLerp: inverseLerp,\n\t/**\n\t * Returns a value linearly interpolated from two known points based on the given interval -\n\t * `t = 0` will return `x` and `t = 1` will return `y`.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The start point\n\t * @param {number} y - The end point.\n\t * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n\t * @return {number} The interpolated value.\n\t */\n\tlerp: lerp,\n\t/**\n\t * Smoothly interpolate a number from `x` to `y` in a spring-like manner using a delta\n\t * time to maintain frame rate independent movement. For details, see\n\t * [Frame rate independent damping using lerp]{@link http://www.rorydriscoll.com/2016/03/07/frame-rate-independent-damping-using-lerp/}.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The current point.\n\t * @param {number} y - The target point.\n\t * @param {number} lambda - A higher lambda value will make the movement more sudden,\n\t * and a lower value will make the movement more gradual.\n\t * @param {number} dt - Delta time in seconds.\n\t * @return {number} The interpolated value.\n\t */\n\tdamp: damp,\n\t/**\n\t * Returns a value that alternates between `0` and the given `length` parameter.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to pingpong.\n\t * @param {number} [length=1] - The positive value the function will pingpong to.\n\t * @return {number} The alternated value.\n\t */\n\tpingpong: pingpong,\n\t/**\n\t * Returns a value in the range `[0,1]` that represents the percentage that `x` has\n\t * moved between `min` and `max`, but smoothed or slowed down the closer `x` is to\n\t * the `min` and `max`.\n\t *\n\t * See [Smoothstep]{@link http://en.wikipedia.org/wiki/Smoothstep} for more details.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to evaluate based on its position between min and max.\n\t * @param {number} min - The min value. Any x value below min will be `0`.\n\t * @param {number} max - The max value. Any x value above max will be `1`.\n\t * @return {number} The alternated value.\n\t */\n\tsmoothstep: smoothstep,\n\t/**\n\t * A [variation on smoothstep]{@link https://en.wikipedia.org/wiki/Smoothstep#Variations}\n\t * that has zero 1st and 2nd order derivatives at x=0 and x=1.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to evaluate based on its position between min and max.\n\t * @param {number} min - The min value. Any x value below min will be `0`.\n\t * @param {number} max - The max value. Any x value above max will be `1`.\n\t * @return {number} The alternated value.\n\t */\n\tsmootherstep: smootherstep,\n\t/**\n\t * Returns a random integer from `` interval.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} low - The lower value boundary.\n\t * @param {number} high - The upper value boundary\n\t * @return {number} A random integer.\n\t */\n\trandInt: randInt,\n\t/**\n\t * Returns a random float from `` interval.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} low - The lower value boundary.\n\t * @param {number} high - The upper value boundary\n\t * @return {number} A random float.\n\t */\n\trandFloat: randFloat,\n\t/**\n\t * Returns a random integer from `<-range/2, range/2>` interval.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} range - Defines the value range.\n\t * @return {number} A random float.\n\t */\n\trandFloatSpread: randFloatSpread,\n\t/**\n\t * Returns a deterministic pseudo-random float in the interval `[0, 1]`.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} [s] - The integer seed.\n\t * @return {number} A random float.\n\t */\n\tseededRandom: seededRandom,\n\t/**\n\t * Converts degrees to radians.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} degrees - A value in degrees.\n\t * @return {number} The converted value in radians.\n\t */\n\tdegToRad: degToRad,\n\t/**\n\t * Converts radians to degrees.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} radians - A value in radians.\n\t * @return {number} The converted value in degrees.\n\t */\n\tradToDeg: radToDeg,\n\t/**\n\t * Returns `true` if the given number is a power of two.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to check.\n\t * @return {boolean} Whether the given number is a power of two or not.\n\t */\n\tisPowerOfTwo: isPowerOfTwo,\n\t/**\n\t * Returns the smallest power of two that is greater than or equal to the given number.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to find a POT for.\n\t * @return {number} The smallest power of two that is greater than or equal to the given number.\n\t */\n\tceilPowerOfTwo: ceilPowerOfTwo,\n\t/**\n\t * Returns the largest power of two that is less than or equal to the given number.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to find a POT for.\n\t * @return {number} The largest power of two that is less than or equal to the given number.\n\t */\n\tfloorPowerOfTwo: floorPowerOfTwo,\n\t/**\n\t * Sets the given quaternion from the [Intrinsic Proper Euler Angles]{@link https://en.wikipedia.org/wiki/Euler_angles}\n\t * defined by the given angles and order.\n\t *\n\t * Rotations are applied to the axes in the order specified by order:\n\t * rotation by angle `a` is applied first, then by angle `b`, then by angle `c`.\n\t *\n\t * @static\n\t * @method\n\t * @param {Quaternion} q - The quaternion to set.\n\t * @param {number} a - The rotation applied to the first axis, in radians.\n\t * @param {number} b - The rotation applied to the second axis, in radians.\n\t * @param {number} c - The rotation applied to the third axis, in radians.\n\t * @param {('XYX'|'XZX'|'YXY'|'YZY'|'ZXZ'|'ZYZ')} order - A string specifying the axes order.\n\t */\n\tsetQuaternionFromProperEuler: setQuaternionFromProperEuler,\n\t/**\n\t * Normalizes the given value according to the given typed array.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The float value in the range `[0,1]` to normalize.\n\t * @param {TypedArray} array - The typed array that defines the data type of the value.\n\t * @return {number} The normalize value.\n\t */\n\tnormalize: normalize,\n\t/**\n\t * Denormalizes the given value according to the given typed array.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to denormalize.\n\t * @param {TypedArray} array - The typed array that defines the data type of the value.\n\t * @return {number} The denormalize (float) value in the range `[0,1]`.\n\t */\n\tdenormalize: denormalize\n};\n\n/**\n * Class representing a 2D vector. A 2D vector is an ordered pair of numbers\n * (labeled x and y), which can be used to represent a number of things, such as:\n *\n * - A point in 2D space (i.e. a position on a plane).\n * - A direction and length across a plane. In three.js the length will\n * always be the Euclidean distance(straight-line distance) from `(0, 0)` to `(x, y)`\n * and the direction is also measured from `(0, 0)` towards `(x, y)`.\n * - Any arbitrary ordered pair of numbers.\n *\n * There are other things a 2D vector can be used to represent, such as\n * momentum vectors, complex numbers and so on, however these are the most\n * common uses in three.js.\n *\n * Iterating through a vector instance will yield its components `(x, y)` in\n * the corresponding order.\n * ```js\n * const a = new THREE.Vector2( 0, 1 );\n *\n * //no arguments; will be initialised to (0, 0)\n * const b = new THREE.Vector2( );\n *\n * const d = a.distanceTo( b );\n * ```\n */\nclass Vector2 {\n\n\t/**\n\t * Constructs a new 2D vector.\n\t *\n\t * @param {number} [x=0] - The x value of this vector.\n\t * @param {number} [y=0] - The y value of this vector.\n\t */\n\tconstructor( x = 0, y = 0 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tVector2.prototype.isVector2 = true;\n\n\t\t/**\n\t\t * The x value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.x = x;\n\n\t\t/**\n\t\t * The y value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.y = y;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector2#x}.\n\t *\n\t * @type {number}\n\t */\n\tget width() {\n\n\t\treturn this.x;\n\n\t}\n\n\tset width( value ) {\n\n\t\tthis.x = value;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector2#y}.\n\t *\n\t * @type {number}\n\t */\n\tget height() {\n\n\t\treturn this.y;\n\n\t}\n\n\tset height( value ) {\n\n\t\tthis.y = value;\n\n\t}\n\n\t/**\n\t * Sets the vector components.\n\t *\n\t * @param {number} x - The value of the x component.\n\t * @param {number} y - The value of the y component.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tset( x, y ) {\n\n\t\tthis.x = x;\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the same value.\n\t *\n\t * @param {number} scalar - The value to set for all vector components.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.x = scalar;\n\t\tthis.y = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's x component to the given value\n\t *\n\t * @param {number} x - The value to set.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetX( x ) {\n\n\t\tthis.x = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's y component to the given value\n\t *\n\t * @param {number} y - The value to set.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetY( y ) {\n\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Allows to set a vector component with an index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y.\n\t * @param {number} value - The value to set.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetComponent( index, value ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: this.x = value; break;\n\t\t\tcase 1: this.y = value; break;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the value of the vector component which matches the given index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y.\n\t * @return {number} A vector component value.\n\t */\n\tgetComponent( index ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: return this.x;\n\t\t\tcase 1: return this.y;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new vector with copied values from this instance.\n\t *\n\t * @return {Vector2} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.x, this.y );\n\n\t}\n\n\t/**\n\t * Copies the values of the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to copy.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tcopy( v ) {\n\n\t\tthis.x = v.x;\n\t\tthis.y = v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to add.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tadd( v ) {\n\n\t\tthis.x += v.x;\n\t\tthis.y += v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to all components of this instance.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.x += s;\n\t\tthis.y += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector2} a - The first vector.\n\t * @param {Vector2} b - The second vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\taddVectors( a, b ) {\n\n\t\tthis.x = a.x + b.x;\n\t\tthis.y = a.y + b.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector scaled by the given factor to this instance.\n\t *\n\t * @param {Vector2} v - The vector.\n\t * @param {number} s - The factor that scales `v`.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\taddScaledVector( v, s ) {\n\n\t\tthis.x += v.x * s;\n\t\tthis.y += v.y * s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vector from this instance.\n\t *\n\t * @param {Vector2} v - The vector to subtract.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsub( v ) {\n\n\t\tthis.x -= v.x;\n\t\tthis.y -= v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given scalar value from all components of this instance.\n\t *\n\t * @param {number} s - The scalar to subtract.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsubScalar( s ) {\n\n\t\tthis.x -= s;\n\t\tthis.y -= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector2} a - The first vector.\n\t * @param {Vector2} b - The second vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsubVectors( a, b ) {\n\n\t\tthis.x = a.x - b.x;\n\t\tthis.y = a.y - b.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vector with this instance.\n\t *\n\t * @param {Vector2} v - The vector to multiply.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmultiply( v ) {\n\n\t\tthis.x *= v.x;\n\t\tthis.y *= v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with all components of this instance.\n\t *\n\t * @param {number} scalar - The scalar to multiply.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmultiplyScalar( scalar ) {\n\n\t\tthis.x *= scalar;\n\t\tthis.y *= scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this instance by the given vector.\n\t *\n\t * @param {Vector2} v - The vector to divide.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tdivide( v ) {\n\n\t\tthis.x /= v.x;\n\t\tthis.y /= v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this vector by the given scalar.\n\t *\n\t * @param {number} scalar - The scalar to divide.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tdivideScalar( scalar ) {\n\n\t\treturn this.multiplyScalar( 1 / scalar );\n\n\t}\n\n\t/**\n\t * Multiplies this vector (with an implicit 1 as the 3rd component) by\n\t * the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix to apply.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tconst x = this.x, y = this.y;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 3 ] * y + e[ 6 ];\n\t\tthis.y = e[ 1 ] * x + e[ 4 ] * y + e[ 7 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y value is greater than the given vector's x or y\n\t * value, replace that value with the corresponding min value.\n\t *\n\t * @param {Vector2} v - The vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmin( v ) {\n\n\t\tthis.x = Math.min( this.x, v.x );\n\t\tthis.y = Math.min( this.y, v.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y value is less than the given vector's x or y\n\t * value, replace that value with the corresponding max value.\n\t *\n\t * @param {Vector2} v - The vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmax( v ) {\n\n\t\tthis.x = Math.max( this.x, v.x );\n\t\tthis.y = Math.max( this.y, v.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y value is greater than the max vector's x or y\n\t * value, it is replaced by the corresponding value.\n\t * If this vector's x or y value is less than the min vector's x or y value,\n\t * it is replaced by the corresponding value.\n\t *\n\t * @param {Vector2} min - The minimum x and y values.\n\t * @param {Vector2} max - The maximum x and y values in the desired range.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tclamp( min, max ) {\n\n\t\t// assumes min < max, componentwise\n\n\t\tthis.x = clamp( this.x, min.x, max.x );\n\t\tthis.y = clamp( this.y, min.y, max.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y values are greater than the max value, they are\n\t * replaced by the max value.\n\t * If this vector's x or y values are less than the min value, they are\n\t * replaced by the min value.\n\t *\n\t * @param {number} minVal - The minimum value the components will be clamped to.\n\t * @param {number} maxVal - The maximum value the components will be clamped to.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tclampScalar( minVal, maxVal ) {\n\n\t\tthis.x = clamp( this.x, minVal, maxVal );\n\t\tthis.y = clamp( this.y, minVal, maxVal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's length is greater than the max value, it is replaced by\n\t * the max value.\n\t * If this vector's length is less than the min value, it is replaced by the\n\t * min value.\n\t *\n\t * @param {number} min - The minimum value the vector length will be clamped to.\n\t * @param {number} max - The maximum value the vector length will be clamped to.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tclampLength( min, max ) {\n\n\t\tconst length = this.length();\n\n\t\treturn this.divideScalar( length || 1 ).multiplyScalar( clamp( length, min, max ) );\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded down to the nearest integer value.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tfloor() {\n\n\t\tthis.x = Math.floor( this.x );\n\t\tthis.y = Math.floor( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded up to the nearest integer value.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tceil() {\n\n\t\tthis.x = Math.ceil( this.x );\n\t\tthis.y = Math.ceil( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded to the nearest integer value\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tround() {\n\n\t\tthis.x = Math.round( this.x );\n\t\tthis.y = Math.round( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded towards zero (up if negative,\n\t * down if positive) to an integer value.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\troundToZero() {\n\n\t\tthis.x = Math.trunc( this.x );\n\t\tthis.y = Math.trunc( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this vector - i.e. sets x = -x and y = -y.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tnegate() {\n\n\t\tthis.x = - this.x;\n\t\tthis.y = - this.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of the given vector with this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this.x * v.x + this.y * v.y;\n\n\t}\n\n\t/**\n\t * Calculates the cross product of the given vector with this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the cross product with.\n\t * @return {number} The result of the cross product.\n\t */\n\tcross( v ) {\n\n\t\treturn this.x * v.y - this.y * v.x;\n\n\t}\n\n\t/**\n\t * Computes the square of the Euclidean length (straight-line length) from\n\t * (0, 0) to (x, y). If you are comparing the lengths of vectors, you should\n\t * compare the length squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @return {number} The square length of this vector.\n\t */\n\tlengthSq() {\n\n\t\treturn this.x * this.x + this.y * this.y;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) from (0, 0) to (x, y).\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this.x * this.x + this.y * this.y );\n\n\t}\n\n\t/**\n\t * Computes the Manhattan length of this vector.\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tmanhattanLength() {\n\n\t\treturn Math.abs( this.x ) + Math.abs( this.y );\n\n\t}\n\n\t/**\n\t * Converts this vector to a unit vector - that is, sets it equal to a vector\n\t * with the same direction as this one, but with a vector length of `1`.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tnormalize() {\n\n\t\treturn this.divideScalar( this.length() || 1 );\n\n\t}\n\n\t/**\n\t * Computes the angle in radians of this vector with respect to the positive x-axis.\n\t *\n\t * @return {number} The angle in radians.\n\t */\n\tangle() {\n\n\t\tconst angle = Math.atan2( - this.y, - this.x ) + Math.PI;\n\n\t\treturn angle;\n\n\t}\n\n\t/**\n\t * Returns the angle between the given vector and this instance in radians.\n\t *\n\t * @param {Vector2} v - The vector to compute the angle with.\n\t * @return {number} The angle in radians.\n\t */\n\tangleTo( v ) {\n\n\t\tconst denominator = Math.sqrt( this.lengthSq() * v.lengthSq() );\n\n\t\tif ( denominator === 0 ) return Math.PI / 2;\n\n\t\tconst theta = this.dot( v ) / denominator;\n\n\t\t// clamp, to handle numerical problems\n\n\t\treturn Math.acos( clamp( theta, -1, 1 ) );\n\n\t}\n\n\t/**\n\t * Computes the distance from the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the distance to.\n\t * @return {number} The distance.\n\t */\n\tdistanceTo( v ) {\n\n\t\treturn Math.sqrt( this.distanceToSquared( v ) );\n\n\t}\n\n\t/**\n\t * Computes the squared distance from the given vector to this instance.\n\t * If you are just comparing the distance with another distance, you should compare\n\t * the distance squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @param {Vector2} v - The vector to compute the squared distance to.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceToSquared( v ) {\n\n\t\tconst dx = this.x - v.x, dy = this.y - v.y;\n\t\treturn dx * dx + dy * dy;\n\n\t}\n\n\t/**\n\t * Computes the Manhattan distance from the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the Manhattan distance to.\n\t * @return {number} The Manhattan distance.\n\t */\n\tmanhattanDistanceTo( v ) {\n\n\t\treturn Math.abs( this.x - v.x ) + Math.abs( this.y - v.y );\n\n\t}\n\n\t/**\n\t * Sets this vector to a vector with the same direction as this one, but\n\t * with the specified length.\n\t *\n\t * @param {number} length - The new length of this vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetLength( length ) {\n\n\t\treturn this.normalize().multiplyScalar( length );\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vector and this instance, where\n\t * alpha is the percent distance along the line - alpha = 0 will be this\n\t * vector, and alpha = 1 will be the given one.\n\t *\n\t * @param {Vector2} v - The vector to interpolate towards.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tlerp( v, alpha ) {\n\n\t\tthis.x += ( v.x - this.x ) * alpha;\n\t\tthis.y += ( v.y - this.y ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vectors, where alpha is the percent\n\t * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n\t * be the second one. The result is stored in this instance.\n\t *\n\t * @param {Vector2} v1 - The first vector.\n\t * @param {Vector2} v2 - The second vector.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tlerpVectors( v1, v2, alpha ) {\n\n\t\tthis.x = v1.x + ( v2.x - v1.x ) * alpha;\n\t\tthis.y = v1.y + ( v2.y - v1.y ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this vector is equal with the given one.\n\t *\n\t * @param {Vector2} v - The vector to test for equality.\n\t * @return {boolean} Whether this vector is equal with the given one.\n\t */\n\tequals( v ) {\n\n\t\treturn ( ( v.x === this.x ) && ( v.y === this.y ) );\n\n\t}\n\n\t/**\n\t * Sets this vector's x value to be `array[ offset ]` and y\n\t * value to be `array[ offset + 1 ]`.\n\t *\n\t * @param {Array} array - An array holding the vector component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.x = array[ offset ];\n\t\tthis.y = array[ offset + 1 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this vector to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the vector components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The vector components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.x;\n\t\tarray[ offset + 1 ] = this.y;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this vector from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.x = attribute.getX( index );\n\t\tthis.y = attribute.getY( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates this vector around the given center by the given angle.\n\t *\n\t * @param {Vector2} center - The point around which to rotate.\n\t * @param {number} angle - The angle to rotate, in radians.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\trotateAround( center, angle ) {\n\n\t\tconst c = Math.cos( angle ), s = Math.sin( angle );\n\n\t\tconst x = this.x - center.x;\n\t\tconst y = this.y - center.y;\n\n\t\tthis.x = x * c - y * s + center.x;\n\t\tthis.y = x * s + y * c + center.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets each component of this vector to a pseudo-random value between `0` and\n\t * `1`, excluding `1`.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\trandom() {\n\n\t\tthis.x = Math.random();\n\t\tthis.y = Math.random();\n\n\t\treturn this;\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.x;\n\t\tyield this.y;\n\n\t}\n\n}\n\n/**\n * Class for representing a Quaternion. Quaternions are used in three.js to represent rotations.\n *\n * Iterating through a vector instance will yield its components `(x, y, z, w)` in\n * the corresponding order.\n *\n * Note that three.js expects Quaternions to be normalized.\n * ```js\n * const quaternion = new THREE.Quaternion();\n * quaternion.setFromAxisAngle( new THREE.Vector3( 0, 1, 0 ), Math.PI / 2 );\n *\n * const vector = new THREE.Vector3( 1, 0, 0 );\n * vector.applyQuaternion( quaternion );\n * ```\n */\nclass Quaternion {\n\n\t/**\n\t * Constructs a new quaternion.\n\t *\n\t * @param {number} [x=0] - The x value of this quaternion.\n\t * @param {number} [y=0] - The y value of this quaternion.\n\t * @param {number} [z=0] - The z value of this quaternion.\n\t * @param {number} [w=1] - The w value of this quaternion.\n\t */\n\tconstructor( x = 0, y = 0, z = 0, w = 1 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isQuaternion = true;\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._w = w;\n\n\t}\n\n\t/**\n\t * Interpolates between two quaternions via SLERP. This implementation assumes the\n\t * quaternion data are managed in flat arrays.\n\t *\n\t * @param {Array} dst - The destination array.\n\t * @param {number} dstOffset - An offset into the destination array.\n\t * @param {Array} src0 - The source array of the first quaternion.\n\t * @param {number} srcOffset0 - An offset into the first source array.\n\t * @param {Array} src1 - The source array of the second quaternion.\n\t * @param {number} srcOffset1 - An offset into the second source array.\n\t * @param {number} t - The interpolation factor in the range `[0,1]`.\n\t * @see {@link Quaternion#slerp}\n\t */\n\tstatic slerpFlat( dst, dstOffset, src0, srcOffset0, src1, srcOffset1, t ) {\n\n\t\t// fuzz-free, array-based Quaternion SLERP operation\n\n\t\tlet x0 = src0[ srcOffset0 + 0 ],\n\t\t\ty0 = src0[ srcOffset0 + 1 ],\n\t\t\tz0 = src0[ srcOffset0 + 2 ],\n\t\t\tw0 = src0[ srcOffset0 + 3 ];\n\n\t\tconst x1 = src1[ srcOffset1 + 0 ],\n\t\t\ty1 = src1[ srcOffset1 + 1 ],\n\t\t\tz1 = src1[ srcOffset1 + 2 ],\n\t\t\tw1 = src1[ srcOffset1 + 3 ];\n\n\t\tif ( t === 0 ) {\n\n\t\t\tdst[ dstOffset + 0 ] = x0;\n\t\t\tdst[ dstOffset + 1 ] = y0;\n\t\t\tdst[ dstOffset + 2 ] = z0;\n\t\t\tdst[ dstOffset + 3 ] = w0;\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( t === 1 ) {\n\n\t\t\tdst[ dstOffset + 0 ] = x1;\n\t\t\tdst[ dstOffset + 1 ] = y1;\n\t\t\tdst[ dstOffset + 2 ] = z1;\n\t\t\tdst[ dstOffset + 3 ] = w1;\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( w0 !== w1 || x0 !== x1 || y0 !== y1 || z0 !== z1 ) {\n\n\t\t\tlet s = 1 - t;\n\t\t\tconst cos = x0 * x1 + y0 * y1 + z0 * z1 + w0 * w1,\n\t\t\t\tdir = ( cos >= 0 ? 1 : -1 ),\n\t\t\t\tsqrSin = 1 - cos * cos;\n\n\t\t\t// Skip the Slerp for tiny steps to avoid numeric problems:\n\t\t\tif ( sqrSin > Number.EPSILON ) {\n\n\t\t\t\tconst sin = Math.sqrt( sqrSin ),\n\t\t\t\t\tlen = Math.atan2( sin, cos * dir );\n\n\t\t\t\ts = Math.sin( s * len ) / sin;\n\t\t\t\tt = Math.sin( t * len ) / sin;\n\n\t\t\t}\n\n\t\t\tconst tDir = t * dir;\n\n\t\t\tx0 = x0 * s + x1 * tDir;\n\t\t\ty0 = y0 * s + y1 * tDir;\n\t\t\tz0 = z0 * s + z1 * tDir;\n\t\t\tw0 = w0 * s + w1 * tDir;\n\n\t\t\t// Normalize in case we just did a lerp:\n\t\t\tif ( s === 1 - t ) {\n\n\t\t\t\tconst f = 1 / Math.sqrt( x0 * x0 + y0 * y0 + z0 * z0 + w0 * w0 );\n\n\t\t\t\tx0 *= f;\n\t\t\t\ty0 *= f;\n\t\t\t\tz0 *= f;\n\t\t\t\tw0 *= f;\n\n\t\t\t}\n\n\t\t}\n\n\t\tdst[ dstOffset ] = x0;\n\t\tdst[ dstOffset + 1 ] = y0;\n\t\tdst[ dstOffset + 2 ] = z0;\n\t\tdst[ dstOffset + 3 ] = w0;\n\n\t}\n\n\t/**\n\t * Multiplies two quaternions. This implementation assumes the quaternion data are managed\n\t * in flat arrays.\n\t *\n\t * @param {Array} dst - The destination array.\n\t * @param {number} dstOffset - An offset into the destination array.\n\t * @param {Array} src0 - The source array of the first quaternion.\n\t * @param {number} srcOffset0 - An offset into the first source array.\n\t * @param {Array} src1 - The source array of the second quaternion.\n\t * @param {number} srcOffset1 - An offset into the second source array.\n\t * @return {Array} The destination array.\n\t * @see {@link Quaternion#multiplyQuaternions}.\n\t */\n\tstatic multiplyQuaternionsFlat( dst, dstOffset, src0, srcOffset0, src1, srcOffset1 ) {\n\n\t\tconst x0 = src0[ srcOffset0 ];\n\t\tconst y0 = src0[ srcOffset0 + 1 ];\n\t\tconst z0 = src0[ srcOffset0 + 2 ];\n\t\tconst w0 = src0[ srcOffset0 + 3 ];\n\n\t\tconst x1 = src1[ srcOffset1 ];\n\t\tconst y1 = src1[ srcOffset1 + 1 ];\n\t\tconst z1 = src1[ srcOffset1 + 2 ];\n\t\tconst w1 = src1[ srcOffset1 + 3 ];\n\n\t\tdst[ dstOffset ] = x0 * w1 + w0 * x1 + y0 * z1 - z0 * y1;\n\t\tdst[ dstOffset + 1 ] = y0 * w1 + w0 * y1 + z0 * x1 - x0 * z1;\n\t\tdst[ dstOffset + 2 ] = z0 * w1 + w0 * z1 + x0 * y1 - y0 * x1;\n\t\tdst[ dstOffset + 3 ] = w0 * w1 - x0 * x1 - y0 * y1 - z0 * z1;\n\n\t\treturn dst;\n\n\t}\n\n\t/**\n\t * The x value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget x() {\n\n\t\treturn this._x;\n\n\t}\n\n\tset x( value ) {\n\n\t\tthis._x = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The y value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget y() {\n\n\t\treturn this._y;\n\n\t}\n\n\tset y( value ) {\n\n\t\tthis._y = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The z value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget z() {\n\n\t\treturn this._z;\n\n\t}\n\n\tset z( value ) {\n\n\t\tthis._z = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The w value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 1\n\t */\n\tget w() {\n\n\t\treturn this._w;\n\n\t}\n\n\tset w( value ) {\n\n\t\tthis._w = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * Sets the quaternion components.\n\t *\n\t * @param {number} x - The x value of this quaternion.\n\t * @param {number} y - The y value of this quaternion.\n\t * @param {number} z - The z value of this quaternion.\n\t * @param {number} w - The w value of this quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tset( x, y, z, w ) {\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._w = w;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new quaternion with copied values from this instance.\n\t *\n\t * @return {Quaternion} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this._x, this._y, this._z, this._w );\n\n\t}\n\n\t/**\n\t * Copies the values of the given quaternion to this instance.\n\t *\n\t * @param {Quaternion} quaternion - The quaternion to copy.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tcopy( quaternion ) {\n\n\t\tthis._x = quaternion.x;\n\t\tthis._y = quaternion.y;\n\t\tthis._z = quaternion.z;\n\t\tthis._w = quaternion.w;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion from the rotation specified by the given\n\t * Euler angles.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromEuler( euler, update = true ) {\n\n\t\tconst x = euler._x, y = euler._y, z = euler._z, order = euler._order;\n\n\t\t// http://www.mathworks.com/matlabcentral/fileexchange/\n\t\t// \t20696-function-to-convert-between-dcm-euler-angles-quaternions-and-euler-vectors/\n\t\t//\tcontent/SpinCalc.m\n\n\t\tconst cos = Math.cos;\n\t\tconst sin = Math.sin;\n\n\t\tconst c1 = cos( x / 2 );\n\t\tconst c2 = cos( y / 2 );\n\t\tconst c3 = cos( z / 2 );\n\n\t\tconst s1 = sin( x / 2 );\n\t\tconst s2 = sin( y / 2 );\n\t\tconst s3 = sin( z / 2 );\n\n\t\tswitch ( order ) {\n\n\t\t\tcase 'XYZ':\n\t\t\t\tthis._x = s1 * c2 * c3 + c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 - s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 + s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 - s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'YXZ':\n\t\t\t\tthis._x = s1 * c2 * c3 + c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 - s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 - s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 + s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZXY':\n\t\t\t\tthis._x = s1 * c2 * c3 - c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 + s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 + s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 - s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZYX':\n\t\t\t\tthis._x = s1 * c2 * c3 - c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 + s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 - s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 + s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'YZX':\n\t\t\t\tthis._x = s1 * c2 * c3 + c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 + s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 - s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 - s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'XZY':\n\t\t\t\tthis._x = s1 * c2 * c3 - c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 - s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 + s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 + s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\t\t\t\tconsole.warn( 'THREE.Quaternion: .setFromEuler() encountered an unknown order: ' + order );\n\n\t\t}\n\n\t\tif ( update === true ) this._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion from the given axis and angle.\n\t *\n\t * @param {Vector3} axis - The normalized axis.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromAxisAngle( axis, angle ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/angleToQuaternion/index.htm\n\n\t\tconst halfAngle = angle / 2, s = Math.sin( halfAngle );\n\n\t\tthis._x = axis.x * s;\n\t\tthis._y = axis.y * s;\n\t\tthis._z = axis.z * s;\n\t\tthis._w = Math.cos( halfAngle );\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion from the given rotation matrix.\n\t *\n\t * @param {Matrix4} m - A 4x4 matrix of which the upper 3x3 of matrix is a pure rotation matrix (i.e. unscaled).\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromRotationMatrix( m ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/matrixToQuaternion/index.htm\n\n\t\t// assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled)\n\n\t\tconst te = m.elements,\n\n\t\t\tm11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ],\n\t\t\tm21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ],\n\t\t\tm31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ],\n\n\t\t\ttrace = m11 + m22 + m33;\n\n\t\tif ( trace > 0 ) {\n\n\t\t\tconst s = 0.5 / Math.sqrt( trace + 1.0 );\n\n\t\t\tthis._w = 0.25 / s;\n\t\t\tthis._x = ( m32 - m23 ) * s;\n\t\t\tthis._y = ( m13 - m31 ) * s;\n\t\t\tthis._z = ( m21 - m12 ) * s;\n\n\t\t} else if ( m11 > m22 && m11 > m33 ) {\n\n\t\t\tconst s = 2.0 * Math.sqrt( 1.0 + m11 - m22 - m33 );\n\n\t\t\tthis._w = ( m32 - m23 ) / s;\n\t\t\tthis._x = 0.25 * s;\n\t\t\tthis._y = ( m12 + m21 ) / s;\n\t\t\tthis._z = ( m13 + m31 ) / s;\n\n\t\t} else if ( m22 > m33 ) {\n\n\t\t\tconst s = 2.0 * Math.sqrt( 1.0 + m22 - m11 - m33 );\n\n\t\t\tthis._w = ( m13 - m31 ) / s;\n\t\t\tthis._x = ( m12 + m21 ) / s;\n\t\t\tthis._y = 0.25 * s;\n\t\t\tthis._z = ( m23 + m32 ) / s;\n\n\t\t} else {\n\n\t\t\tconst s = 2.0 * Math.sqrt( 1.0 + m33 - m11 - m22 );\n\n\t\t\tthis._w = ( m21 - m12 ) / s;\n\t\t\tthis._x = ( m13 + m31 ) / s;\n\t\t\tthis._y = ( m23 + m32 ) / s;\n\t\t\tthis._z = 0.25 * s;\n\n\t\t}\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion to the rotation required to rotate the direction vector\n\t * `vFrom` to the direction vector `vTo`.\n\t *\n\t * @param {Vector3} vFrom - The first (normalized) direction vector.\n\t * @param {Vector3} vTo - The second (normalized) direction vector.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromUnitVectors( vFrom, vTo ) {\n\n\t\t// assumes direction vectors vFrom and vTo are normalized\n\n\t\tlet r = vFrom.dot( vTo ) + 1;\n\n\t\tif ( r < 1e-8 ) { // the epsilon value has been discussed in #31286\n\n\t\t\t// vFrom and vTo point in opposite directions\n\n\t\t\tr = 0;\n\n\t\t\tif ( Math.abs( vFrom.x ) > Math.abs( vFrom.z ) ) {\n\n\t\t\t\tthis._x = - vFrom.y;\n\t\t\t\tthis._y = vFrom.x;\n\t\t\t\tthis._z = 0;\n\t\t\t\tthis._w = r;\n\n\t\t\t} else {\n\n\t\t\t\tthis._x = 0;\n\t\t\t\tthis._y = - vFrom.z;\n\t\t\t\tthis._z = vFrom.y;\n\t\t\t\tthis._w = r;\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\t// crossVectors( vFrom, vTo ); // inlined to avoid cyclic dependency on Vector3\n\n\t\t\tthis._x = vFrom.y * vTo.z - vFrom.z * vTo.y;\n\t\t\tthis._y = vFrom.z * vTo.x - vFrom.x * vTo.z;\n\t\t\tthis._z = vFrom.x * vTo.y - vFrom.y * vTo.x;\n\t\t\tthis._w = r;\n\n\t\t}\n\n\t\treturn this.normalize();\n\n\t}\n\n\t/**\n\t * Returns the angle between this quaternion and the given one in radians.\n\t *\n\t * @param {Quaternion} q - The quaternion to compute the angle with.\n\t * @return {number} The angle in radians.\n\t */\n\tangleTo( q ) {\n\n\t\treturn 2 * Math.acos( Math.abs( clamp( this.dot( q ), -1, 1 ) ) );\n\n\t}\n\n\t/**\n\t * Rotates this quaternion by a given angular step to the given quaternion.\n\t * The method ensures that the final quaternion will not overshoot `q`.\n\t *\n\t * @param {Quaternion} q - The target quaternion.\n\t * @param {number} step - The angular step in radians.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\trotateTowards( q, step ) {\n\n\t\tconst angle = this.angleTo( q );\n\n\t\tif ( angle === 0 ) return this;\n\n\t\tconst t = Math.min( 1, step / angle );\n\n\t\tthis.slerp( q, t );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion to the identity quaternion; that is, to the\n\t * quaternion that represents \"no rotation\".\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tidentity() {\n\n\t\treturn this.set( 0, 0, 0, 1 );\n\n\t}\n\n\t/**\n\t * Inverts this quaternion via {@link Quaternion#conjugate}. The\n\t * quaternion is assumed to have unit length.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tinvert() {\n\n\t\treturn this.conjugate();\n\n\t}\n\n\t/**\n\t * Returns the rotational conjugate of this quaternion. The conjugate of a\n\t * quaternion represents the same rotation in the opposite direction about\n\t * the rotational axis.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tconjugate() {\n\n\t\tthis._x *= -1;\n\t\tthis._y *= -1;\n\t\tthis._z *= -1;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of this quaternion and the given one.\n\t *\n\t * @param {Quaternion} v - The quaternion to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this._x * v._x + this._y * v._y + this._z * v._z + this._w * v._w;\n\n\t}\n\n\t/**\n\t * Computes the squared Euclidean length (straight-line length) of this quaternion,\n\t * considered as a 4 dimensional vector. This can be useful if you are comparing the\n\t * lengths of two quaternions, as this is a slightly more efficient calculation than\n\t * {@link Quaternion#length}.\n\t *\n\t * @return {number} The squared Euclidean length.\n\t */\n\tlengthSq() {\n\n\t\treturn this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) of this quaternion,\n\t * considered as a 4 dimensional vector.\n\t *\n\t * @return {number} The Euclidean length.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w );\n\n\t}\n\n\t/**\n\t * Normalizes this quaternion - that is, calculated the quaternion that performs\n\t * the same rotation as this one, but has a length equal to `1`.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tnormalize() {\n\n\t\tlet l = this.length();\n\n\t\tif ( l === 0 ) {\n\n\t\t\tthis._x = 0;\n\t\t\tthis._y = 0;\n\t\t\tthis._z = 0;\n\t\t\tthis._w = 1;\n\n\t\t} else {\n\n\t\t\tl = 1 / l;\n\n\t\t\tthis._x = this._x * l;\n\t\t\tthis._y = this._y * l;\n\t\t\tthis._z = this._z * l;\n\t\t\tthis._w = this._w * l;\n\n\t\t}\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies this quaternion by the given one.\n\t *\n\t * @param {Quaternion} q - The quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tmultiply( q ) {\n\n\t\treturn this.multiplyQuaternions( this, q );\n\n\t}\n\n\t/**\n\t * Pre-multiplies this quaternion by the given one.\n\t *\n\t * @param {Quaternion} q - The quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tpremultiply( q ) {\n\n\t\treturn this.multiplyQuaternions( q, this );\n\n\t}\n\n\t/**\n\t * Multiplies the given quaternions and stores the result in this instance.\n\t *\n\t * @param {Quaternion} a - The first quaternion.\n\t * @param {Quaternion} b - The second quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tmultiplyQuaternions( a, b ) {\n\n\t\t// from http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/code/index.htm\n\n\t\tconst qax = a._x, qay = a._y, qaz = a._z, qaw = a._w;\n\t\tconst qbx = b._x, qby = b._y, qbz = b._z, qbw = b._w;\n\n\t\tthis._x = qax * qbw + qaw * qbx + qay * qbz - qaz * qby;\n\t\tthis._y = qay * qbw + qaw * qby + qaz * qbx - qax * qbz;\n\t\tthis._z = qaz * qbw + qaw * qbz + qax * qby - qay * qbx;\n\t\tthis._w = qaw * qbw - qax * qbx - qay * qby - qaz * qbz;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs a spherical linear interpolation between quaternions.\n\t *\n\t * @param {Quaternion} qb - The target quaternion.\n\t * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tslerp( qb, t ) {\n\n\t\tif ( t === 0 ) return this;\n\t\tif ( t === 1 ) return this.copy( qb );\n\n\t\tconst x = this._x, y = this._y, z = this._z, w = this._w;\n\n\t\t// http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/slerp/\n\n\t\tlet cosHalfTheta = w * qb._w + x * qb._x + y * qb._y + z * qb._z;\n\n\t\tif ( cosHalfTheta < 0 ) {\n\n\t\t\tthis._w = - qb._w;\n\t\t\tthis._x = - qb._x;\n\t\t\tthis._y = - qb._y;\n\t\t\tthis._z = - qb._z;\n\n\t\t\tcosHalfTheta = - cosHalfTheta;\n\n\t\t} else {\n\n\t\t\tthis.copy( qb );\n\n\t\t}\n\n\t\tif ( cosHalfTheta >= 1.0 ) {\n\n\t\t\tthis._w = w;\n\t\t\tthis._x = x;\n\t\t\tthis._y = y;\n\t\t\tthis._z = z;\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst sqrSinHalfTheta = 1.0 - cosHalfTheta * cosHalfTheta;\n\n\t\tif ( sqrSinHalfTheta <= Number.EPSILON ) {\n\n\t\t\tconst s = 1 - t;\n\t\t\tthis._w = s * w + t * this._w;\n\t\t\tthis._x = s * x + t * this._x;\n\t\t\tthis._y = s * y + t * this._y;\n\t\t\tthis._z = s * z + t * this._z;\n\n\t\t\tthis.normalize(); // normalize calls _onChangeCallback()\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst sinHalfTheta = Math.sqrt( sqrSinHalfTheta );\n\t\tconst halfTheta = Math.atan2( sinHalfTheta, cosHalfTheta );\n\t\tconst ratioA = Math.sin( ( 1 - t ) * halfTheta ) / sinHalfTheta,\n\t\t\tratioB = Math.sin( t * halfTheta ) / sinHalfTheta;\n\n\t\tthis._w = ( w * ratioA + this._w * ratioB );\n\t\tthis._x = ( x * ratioA + this._x * ratioB );\n\t\tthis._y = ( y * ratioA + this._y * ratioB );\n\t\tthis._z = ( z * ratioA + this._z * ratioB );\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs a spherical linear interpolation between the given quaternions\n\t * and stores the result in this quaternion.\n\t *\n\t * @param {Quaternion} qa - The source quaternion.\n\t * @param {Quaternion} qb - The target quaternion.\n\t * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tslerpQuaternions( qa, qb, t ) {\n\n\t\treturn this.copy( qa ).slerp( qb, t );\n\n\t}\n\n\t/**\n\t * Sets this quaternion to a uniformly random, normalized quaternion.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\trandom() {\n\n\t\t// Ken Shoemake\n\t\t// Uniform random rotations\n\t\t// D. Kirk, editor, Graphics Gems III, pages 124-132. Academic Press, New York, 1992.\n\n\t\tconst theta1 = 2 * Math.PI * Math.random();\n\t\tconst theta2 = 2 * Math.PI * Math.random();\n\n\t\tconst x0 = Math.random();\n\t\tconst r1 = Math.sqrt( 1 - x0 );\n\t\tconst r2 = Math.sqrt( x0 );\n\n\t\treturn this.set(\n\t\t\tr1 * Math.sin( theta1 ),\n\t\t\tr1 * Math.cos( theta1 ),\n\t\t\tr2 * Math.sin( theta2 ),\n\t\t\tr2 * Math.cos( theta2 ),\n\t\t);\n\n\t}\n\n\t/**\n\t * Returns `true` if this quaternion is equal with the given one.\n\t *\n\t * @param {Quaternion} quaternion - The quaternion to test for equality.\n\t * @return {boolean} Whether this quaternion is equal with the given one.\n\t */\n\tequals( quaternion ) {\n\n\t\treturn ( quaternion._x === this._x ) && ( quaternion._y === this._y ) && ( quaternion._z === this._z ) && ( quaternion._w === this._w );\n\n\t}\n\n\t/**\n\t * Sets this quaternion's components from the given array.\n\t *\n\t * @param {Array} array - An array holding the quaternion component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis._x = array[ offset ];\n\t\tthis._y = array[ offset + 1 ];\n\t\tthis._z = array[ offset + 2 ];\n\t\tthis._w = array[ offset + 3 ];\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this quaternion to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the quaternion components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The quaternion components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this._x;\n\t\tarray[ offset + 1 ] = this._y;\n\t\tarray[ offset + 2 ] = this._z;\n\t\tarray[ offset + 3 ] = this._w;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this quaternion from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding quaternion data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis._x = attribute.getX( index );\n\t\tthis._y = attribute.getY( index );\n\t\tthis._z = attribute.getZ( index );\n\t\tthis._w = attribute.getW( index );\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This methods defines the serialization result of this class. Returns the\n\t * numerical elements of this quaternion in an array of format `[x, y, z, w]`.\n\t *\n\t * @return {Array} The serialized quaternion.\n\t */\n\ttoJSON() {\n\n\t\treturn this.toArray();\n\n\t}\n\n\t_onChange( callback ) {\n\n\t\tthis._onChangeCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t_onChangeCallback() {}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this._x;\n\t\tyield this._y;\n\t\tyield this._z;\n\t\tyield this._w;\n\n\t}\n\n}\n\n/**\n * Class representing a 3D vector. A 3D vector is an ordered triplet of numbers\n * (labeled x, y and z), which can be used to represent a number of things, such as:\n *\n * - A point in 3D space.\n * - A direction and length in 3D space. In three.js the length will\n * always be the Euclidean distance(straight-line distance) from `(0, 0, 0)` to `(x, y, z)`\n * and the direction is also measured from `(0, 0, 0)` towards `(x, y, z)`.\n * - Any arbitrary ordered triplet of numbers.\n *\n * There are other things a 3D vector can be used to represent, such as\n * momentum vectors and so on, however these are the most\n * common uses in three.js.\n *\n * Iterating through a vector instance will yield its components `(x, y, z)` in\n * the corresponding order.\n * ```js\n * const a = new THREE.Vector3( 0, 1, 0 );\n *\n * //no arguments; will be initialised to (0, 0, 0)\n * const b = new THREE.Vector3( );\n *\n * const d = a.distanceTo( b );\n * ```\n */\nclass Vector3 {\n\n\t/**\n\t * Constructs a new 3D vector.\n\t *\n\t * @param {number} [x=0] - The x value of this vector.\n\t * @param {number} [y=0] - The y value of this vector.\n\t * @param {number} [z=0] - The z value of this vector.\n\t */\n\tconstructor( x = 0, y = 0, z = 0 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tVector3.prototype.isVector3 = true;\n\n\t\t/**\n\t\t * The x value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.x = x;\n\n\t\t/**\n\t\t * The y value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.y = y;\n\n\t\t/**\n\t\t * The z value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.z = z;\n\n\t}\n\n\t/**\n\t * Sets the vector components.\n\t *\n\t * @param {number} x - The value of the x component.\n\t * @param {number} y - The value of the y component.\n\t * @param {number} z - The value of the z component.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tset( x, y, z ) {\n\n\t\tif ( z === undefined ) z = this.z; // sprite.scale.set(x,y)\n\n\t\tthis.x = x;\n\t\tthis.y = y;\n\t\tthis.z = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the same value.\n\t *\n\t * @param {number} scalar - The value to set for all vector components.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.x = scalar;\n\t\tthis.y = scalar;\n\t\tthis.z = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's x component to the given value\n\t *\n\t * @param {number} x - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetX( x ) {\n\n\t\tthis.x = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's y component to the given value\n\t *\n\t * @param {number} y - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetY( y ) {\n\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's z component to the given value\n\t *\n\t * @param {number} z - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetZ( z ) {\n\n\t\tthis.z = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Allows to set a vector component with an index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n\t * @param {number} value - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetComponent( index, value ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: this.x = value; break;\n\t\t\tcase 1: this.y = value; break;\n\t\t\tcase 2: this.z = value; break;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the value of the vector component which matches the given index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n\t * @return {number} A vector component value.\n\t */\n\tgetComponent( index ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: return this.x;\n\t\t\tcase 1: return this.y;\n\t\t\tcase 2: return this.z;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new vector with copied values from this instance.\n\t *\n\t * @return {Vector3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.x, this.y, this.z );\n\n\t}\n\n\t/**\n\t * Copies the values of the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to copy.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tcopy( v ) {\n\n\t\tthis.x = v.x;\n\t\tthis.y = v.y;\n\t\tthis.z = v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to add.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tadd( v ) {\n\n\t\tthis.x += v.x;\n\t\tthis.y += v.y;\n\t\tthis.z += v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to all components of this instance.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.x += s;\n\t\tthis.y += s;\n\t\tthis.z += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\taddVectors( a, b ) {\n\n\t\tthis.x = a.x + b.x;\n\t\tthis.y = a.y + b.y;\n\t\tthis.z = a.z + b.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector scaled by the given factor to this instance.\n\t *\n\t * @param {Vector3|Vector4} v - The vector.\n\t * @param {number} s - The factor that scales `v`.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\taddScaledVector( v, s ) {\n\n\t\tthis.x += v.x * s;\n\t\tthis.y += v.y * s;\n\t\tthis.z += v.z * s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vector from this instance.\n\t *\n\t * @param {Vector3} v - The vector to subtract.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsub( v ) {\n\n\t\tthis.x -= v.x;\n\t\tthis.y -= v.y;\n\t\tthis.z -= v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given scalar value from all components of this instance.\n\t *\n\t * @param {number} s - The scalar to subtract.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsubScalar( s ) {\n\n\t\tthis.x -= s;\n\t\tthis.y -= s;\n\t\tthis.z -= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsubVectors( a, b ) {\n\n\t\tthis.x = a.x - b.x;\n\t\tthis.y = a.y - b.y;\n\t\tthis.z = a.z - b.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vector with this instance.\n\t *\n\t * @param {Vector3} v - The vector to multiply.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmultiply( v ) {\n\n\t\tthis.x *= v.x;\n\t\tthis.y *= v.y;\n\t\tthis.z *= v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with all components of this instance.\n\t *\n\t * @param {number} scalar - The scalar to multiply.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmultiplyScalar( scalar ) {\n\n\t\tthis.x *= scalar;\n\t\tthis.y *= scalar;\n\t\tthis.z *= scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmultiplyVectors( a, b ) {\n\n\t\tthis.x = a.x * b.x;\n\t\tthis.y = a.y * b.y;\n\t\tthis.z = a.z * b.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given Euler rotation to this vector.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyEuler( euler ) {\n\n\t\treturn this.applyQuaternion( _quaternion$4.setFromEuler( euler ) );\n\n\t}\n\n\t/**\n\t * Applies a rotation specified by an axis and an angle to this vector.\n\t *\n\t * @param {Vector3} axis - A normalized vector representing the rotation axis.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyAxisAngle( axis, angle ) {\n\n\t\treturn this.applyQuaternion( _quaternion$4.setFromAxisAngle( axis, angle ) );\n\n\t}\n\n\t/**\n\t * Multiplies this vector with the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The 3x3 matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tconst x = this.x, y = this.y, z = this.z;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 3 ] * y + e[ 6 ] * z;\n\t\tthis.y = e[ 1 ] * x + e[ 4 ] * y + e[ 7 ] * z;\n\t\tthis.z = e[ 2 ] * x + e[ 5 ] * y + e[ 8 ] * z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies this vector by the given normal matrix and normalizes\n\t * the result.\n\t *\n\t * @param {Matrix3} m - The normal matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyNormalMatrix( m ) {\n\n\t\treturn this.applyMatrix3( m ).normalize();\n\n\t}\n\n\t/**\n\t * Multiplies this vector (with an implicit 1 in the 4th dimension) by m, and\n\t * divides by perspective.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tconst x = this.x, y = this.y, z = this.z;\n\t\tconst e = m.elements;\n\n\t\tconst w = 1 / ( e[ 3 ] * x + e[ 7 ] * y + e[ 11 ] * z + e[ 15 ] );\n\n\t\tthis.x = ( e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z + e[ 12 ] ) * w;\n\t\tthis.y = ( e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z + e[ 13 ] ) * w;\n\t\tthis.z = ( e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z + e[ 14 ] ) * w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given Quaternion to this vector.\n\t *\n\t * @param {Quaternion} q - The Quaternion.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyQuaternion( q ) {\n\n\t\t// quaternion q is assumed to have unit length\n\n\t\tconst vx = this.x, vy = this.y, vz = this.z;\n\t\tconst qx = q.x, qy = q.y, qz = q.z, qw = q.w;\n\n\t\t// t = 2 * cross( q.xyz, v );\n\t\tconst tx = 2 * ( qy * vz - qz * vy );\n\t\tconst ty = 2 * ( qz * vx - qx * vz );\n\t\tconst tz = 2 * ( qx * vy - qy * vx );\n\n\t\t// v + q.w * t + cross( q.xyz, t );\n\t\tthis.x = vx + qw * tx + qy * tz - qz * ty;\n\t\tthis.y = vy + qw * ty + qz * tx - qx * tz;\n\t\tthis.z = vz + qw * tz + qx * ty - qy * tx;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Projects this vector from world space into the camera's normalized\n\t * device coordinate (NDC) space.\n\t *\n\t * @param {Camera} camera - The camera.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tproject( camera ) {\n\n\t\treturn this.applyMatrix4( camera.matrixWorldInverse ).applyMatrix4( camera.projectionMatrix );\n\n\t}\n\n\t/**\n\t * Unprojects this vector from the camera's normalized device coordinate (NDC)\n\t * space into world space.\n\t *\n\t * @param {Camera} camera - The camera.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tunproject( camera ) {\n\n\t\treturn this.applyMatrix4( camera.projectionMatrixInverse ).applyMatrix4( camera.matrixWorld );\n\n\t}\n\n\t/**\n\t * Transforms the direction of this vector by a matrix (the upper left 3 x 3\n\t * subset of the given 4x4 matrix and then normalizes the result.\n\t *\n\t * @param {Matrix4} m - The matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\ttransformDirection( m ) {\n\n\t\t// input: THREE.Matrix4 affine matrix\n\t\t// vector interpreted as a direction\n\n\t\tconst x = this.x, y = this.y, z = this.z;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z;\n\t\tthis.y = e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z;\n\t\tthis.z = e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z;\n\n\t\treturn this.normalize();\n\n\t}\n\n\t/**\n\t * Divides this instance by the given vector.\n\t *\n\t * @param {Vector3} v - The vector to divide.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tdivide( v ) {\n\n\t\tthis.x /= v.x;\n\t\tthis.y /= v.y;\n\t\tthis.z /= v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this vector by the given scalar.\n\t *\n\t * @param {number} scalar - The scalar to divide.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tdivideScalar( scalar ) {\n\n\t\treturn this.multiplyScalar( 1 / scalar );\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z value is greater than the given vector's x, y or z\n\t * value, replace that value with the corresponding min value.\n\t *\n\t * @param {Vector3} v - The vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmin( v ) {\n\n\t\tthis.x = Math.min( this.x, v.x );\n\t\tthis.y = Math.min( this.y, v.y );\n\t\tthis.z = Math.min( this.z, v.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z value is less than the given vector's x, y or z\n\t * value, replace that value with the corresponding max value.\n\t *\n\t * @param {Vector3} v - The vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmax( v ) {\n\n\t\tthis.x = Math.max( this.x, v.x );\n\t\tthis.y = Math.max( this.y, v.y );\n\t\tthis.z = Math.max( this.z, v.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z value is greater than the max vector's x, y or z\n\t * value, it is replaced by the corresponding value.\n\t * If this vector's x, y or z value is less than the min vector's x, y or z value,\n\t * it is replaced by the corresponding value.\n\t *\n\t * @param {Vector3} min - The minimum x, y and z values.\n\t * @param {Vector3} max - The maximum x, y and z values in the desired range.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tclamp( min, max ) {\n\n\t\t// assumes min < max, componentwise\n\n\t\tthis.x = clamp( this.x, min.x, max.x );\n\t\tthis.y = clamp( this.y, min.y, max.y );\n\t\tthis.z = clamp( this.z, min.z, max.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z values are greater than the max value, they are\n\t * replaced by the max value.\n\t * If this vector's x, y or z values are less than the min value, they are\n\t * replaced by the min value.\n\t *\n\t * @param {number} minVal - The minimum value the components will be clamped to.\n\t * @param {number} maxVal - The maximum value the components will be clamped to.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tclampScalar( minVal, maxVal ) {\n\n\t\tthis.x = clamp( this.x, minVal, maxVal );\n\t\tthis.y = clamp( this.y, minVal, maxVal );\n\t\tthis.z = clamp( this.z, minVal, maxVal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's length is greater than the max value, it is replaced by\n\t * the max value.\n\t * If this vector's length is less than the min value, it is replaced by the\n\t * min value.\n\t *\n\t * @param {number} min - The minimum value the vector length will be clamped to.\n\t * @param {number} max - The maximum value the vector length will be clamped to.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tclampLength( min, max ) {\n\n\t\tconst length = this.length();\n\n\t\treturn this.divideScalar( length || 1 ).multiplyScalar( clamp( length, min, max ) );\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded down to the nearest integer value.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tfloor() {\n\n\t\tthis.x = Math.floor( this.x );\n\t\tthis.y = Math.floor( this.y );\n\t\tthis.z = Math.floor( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded up to the nearest integer value.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tceil() {\n\n\t\tthis.x = Math.ceil( this.x );\n\t\tthis.y = Math.ceil( this.y );\n\t\tthis.z = Math.ceil( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded to the nearest integer value\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tround() {\n\n\t\tthis.x = Math.round( this.x );\n\t\tthis.y = Math.round( this.y );\n\t\tthis.z = Math.round( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded towards zero (up if negative,\n\t * down if positive) to an integer value.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\troundToZero() {\n\n\t\tthis.x = Math.trunc( this.x );\n\t\tthis.y = Math.trunc( this.y );\n\t\tthis.z = Math.trunc( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this vector - i.e. sets x = -x, y = -y and z = -z.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tnegate() {\n\n\t\tthis.x = - this.x;\n\t\tthis.y = - this.y;\n\t\tthis.z = - this.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of the given vector with this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this.x * v.x + this.y * v.y + this.z * v.z;\n\n\t}\n\n\t// TODO lengthSquared?\n\n\t/**\n\t * Computes the square of the Euclidean length (straight-line length) from\n\t * (0, 0, 0) to (x, y, z). If you are comparing the lengths of vectors, you should\n\t * compare the length squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @return {number} The square length of this vector.\n\t */\n\tlengthSq() {\n\n\t\treturn this.x * this.x + this.y * this.y + this.z * this.z;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) from (0, 0, 0) to (x, y, z).\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this.x * this.x + this.y * this.y + this.z * this.z );\n\n\t}\n\n\t/**\n\t * Computes the Manhattan length of this vector.\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tmanhattanLength() {\n\n\t\treturn Math.abs( this.x ) + Math.abs( this.y ) + Math.abs( this.z );\n\n\t}\n\n\t/**\n\t * Converts this vector to a unit vector - that is, sets it equal to a vector\n\t * with the same direction as this one, but with a vector length of `1`.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tnormalize() {\n\n\t\treturn this.divideScalar( this.length() || 1 );\n\n\t}\n\n\t/**\n\t * Sets this vector to a vector with the same direction as this one, but\n\t * with the specified length.\n\t *\n\t * @param {number} length - The new length of this vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetLength( length ) {\n\n\t\treturn this.normalize().multiplyScalar( length );\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vector and this instance, where\n\t * alpha is the percent distance along the line - alpha = 0 will be this\n\t * vector, and alpha = 1 will be the given one.\n\t *\n\t * @param {Vector3} v - The vector to interpolate towards.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tlerp( v, alpha ) {\n\n\t\tthis.x += ( v.x - this.x ) * alpha;\n\t\tthis.y += ( v.y - this.y ) * alpha;\n\t\tthis.z += ( v.z - this.z ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vectors, where alpha is the percent\n\t * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n\t * be the second one. The result is stored in this instance.\n\t *\n\t * @param {Vector3} v1 - The first vector.\n\t * @param {Vector3} v2 - The second vector.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tlerpVectors( v1, v2, alpha ) {\n\n\t\tthis.x = v1.x + ( v2.x - v1.x ) * alpha;\n\t\tthis.y = v1.y + ( v2.y - v1.y ) * alpha;\n\t\tthis.z = v1.z + ( v2.z - v1.z ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the cross product of the given vector with this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the cross product with.\n\t * @return {Vector3} The result of the cross product.\n\t */\n\tcross( v ) {\n\n\t\treturn this.crossVectors( this, v );\n\n\t}\n\n\t/**\n\t * Calculates the cross product of the given vectors and stores the result\n\t * in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tcrossVectors( a, b ) {\n\n\t\tconst ax = a.x, ay = a.y, az = a.z;\n\t\tconst bx = b.x, by = b.y, bz = b.z;\n\n\t\tthis.x = ay * bz - az * by;\n\t\tthis.y = az * bx - ax * bz;\n\t\tthis.z = ax * by - ay * bx;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Projects this vector onto the given one.\n\t *\n\t * @param {Vector3} v - The vector to project to.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tprojectOnVector( v ) {\n\n\t\tconst denominator = v.lengthSq();\n\n\t\tif ( denominator === 0 ) return this.set( 0, 0, 0 );\n\n\t\tconst scalar = v.dot( this ) / denominator;\n\n\t\treturn this.copy( v ).multiplyScalar( scalar );\n\n\t}\n\n\t/**\n\t * Projects this vector onto a plane by subtracting this\n\t * vector projected onto the plane's normal from this vector.\n\t *\n\t * @param {Vector3} planeNormal - The plane normal.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tprojectOnPlane( planeNormal ) {\n\n\t\t_vector$c.copy( this ).projectOnVector( planeNormal );\n\n\t\treturn this.sub( _vector$c );\n\n\t}\n\n\t/**\n\t * Reflects this vector off a plane orthogonal to the given normal vector.\n\t *\n\t * @param {Vector3} normal - The (normalized) normal vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\treflect( normal ) {\n\n\t\treturn this.sub( _vector$c.copy( normal ).multiplyScalar( 2 * this.dot( normal ) ) );\n\n\t}\n\t/**\n\t * Returns the angle between the given vector and this instance in radians.\n\t *\n\t * @param {Vector3} v - The vector to compute the angle with.\n\t * @return {number} The angle in radians.\n\t */\n\tangleTo( v ) {\n\n\t\tconst denominator = Math.sqrt( this.lengthSq() * v.lengthSq() );\n\n\t\tif ( denominator === 0 ) return Math.PI / 2;\n\n\t\tconst theta = this.dot( v ) / denominator;\n\n\t\t// clamp, to handle numerical problems\n\n\t\treturn Math.acos( clamp( theta, -1, 1 ) );\n\n\t}\n\n\t/**\n\t * Computes the distance from the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the distance to.\n\t * @return {number} The distance.\n\t */\n\tdistanceTo( v ) {\n\n\t\treturn Math.sqrt( this.distanceToSquared( v ) );\n\n\t}\n\n\t/**\n\t * Computes the squared distance from the given vector to this instance.\n\t * If you are just comparing the distance with another distance, you should compare\n\t * the distance squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @param {Vector3} v - The vector to compute the squared distance to.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceToSquared( v ) {\n\n\t\tconst dx = this.x - v.x, dy = this.y - v.y, dz = this.z - v.z;\n\n\t\treturn dx * dx + dy * dy + dz * dz;\n\n\t}\n\n\t/**\n\t * Computes the Manhattan distance from the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the Manhattan distance to.\n\t * @return {number} The Manhattan distance.\n\t */\n\tmanhattanDistanceTo( v ) {\n\n\t\treturn Math.abs( this.x - v.x ) + Math.abs( this.y - v.y ) + Math.abs( this.z - v.z );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given spherical coordinates.\n\t *\n\t * @param {Spherical} s - The spherical coordinates.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromSpherical( s ) {\n\n\t\treturn this.setFromSphericalCoords( s.radius, s.phi, s.theta );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given spherical coordinates.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} phi - The phi angle in radians.\n\t * @param {number} theta - The theta angle in radians.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromSphericalCoords( radius, phi, theta ) {\n\n\t\tconst sinPhiRadius = Math.sin( phi ) * radius;\n\n\t\tthis.x = sinPhiRadius * Math.sin( theta );\n\t\tthis.y = Math.cos( phi ) * radius;\n\t\tthis.z = sinPhiRadius * Math.cos( theta );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given cylindrical coordinates.\n\t *\n\t * @param {Cylindrical} c - The cylindrical coordinates.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromCylindrical( c ) {\n\n\t\treturn this.setFromCylindricalCoords( c.radius, c.theta, c.y );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given cylindrical coordinates.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} theta - The theta angle in radians.\n\t * @param {number} y - The y value.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromCylindricalCoords( radius, theta, y ) {\n\n\t\tthis.x = radius * Math.sin( theta );\n\t\tthis.y = y;\n\t\tthis.z = radius * Math.cos( theta );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the position elements of the\n\t * given transformation matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrixPosition( m ) {\n\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 12 ];\n\t\tthis.y = e[ 13 ];\n\t\tthis.z = e[ 14 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the scale elements of the\n\t * given transformation matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrixScale( m ) {\n\n\t\tconst sx = this.setFromMatrixColumn( m, 0 ).length();\n\t\tconst sy = this.setFromMatrixColumn( m, 1 ).length();\n\t\tconst sz = this.setFromMatrixColumn( m, 2 ).length();\n\n\t\tthis.x = sx;\n\t\tthis.y = sy;\n\t\tthis.z = sz;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components from the specified matrix column.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @param {number} index - The column index.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrixColumn( m, index ) {\n\n\t\treturn this.fromArray( m.elements, index * 4 );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the specified matrix column.\n\t *\n\t * @param {Matrix3} m - The 3x3 matrix.\n\t * @param {number} index - The column index.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrix3Column( m, index ) {\n\n\t\treturn this.fromArray( m.elements, index * 3 );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given Euler angles.\n\t *\n\t * @param {Euler} e - The Euler angles to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromEuler( e ) {\n\n\t\tthis.x = e._x;\n\t\tthis.y = e._y;\n\t\tthis.z = e._z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components from the RGB components of the\n\t * given color.\n\t *\n\t * @param {Color} c - The color to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromColor( c ) {\n\n\t\tthis.x = c.r;\n\t\tthis.y = c.g;\n\t\tthis.z = c.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this vector is equal with the given one.\n\t *\n\t * @param {Vector3} v - The vector to test for equality.\n\t * @return {boolean} Whether this vector is equal with the given one.\n\t */\n\tequals( v ) {\n\n\t\treturn ( ( v.x === this.x ) && ( v.y === this.y ) && ( v.z === this.z ) );\n\n\t}\n\n\t/**\n\t * Sets this vector's x value to be `array[ offset ]`, y value to be `array[ offset + 1 ]`\n\t * and z value to be `array[ offset + 2 ]`.\n\t *\n\t * @param {Array} array - An array holding the vector component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.x = array[ offset ];\n\t\tthis.y = array[ offset + 1 ];\n\t\tthis.z = array[ offset + 2 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this vector to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the vector components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The vector components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.x;\n\t\tarray[ offset + 1 ] = this.y;\n\t\tarray[ offset + 2 ] = this.z;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this vector from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.x = attribute.getX( index );\n\t\tthis.y = attribute.getY( index );\n\t\tthis.z = attribute.getZ( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets each component of this vector to a pseudo-random value between `0` and\n\t * `1`, excluding `1`.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\trandom() {\n\n\t\tthis.x = Math.random();\n\t\tthis.y = Math.random();\n\t\tthis.z = Math.random();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this vector to a uniformly random point on a unit sphere.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\trandomDirection() {\n\n\t\t// https://mathworld.wolfram.com/SpherePointPicking.html\n\n\t\tconst theta = Math.random() * Math.PI * 2;\n\t\tconst u = Math.random() * 2 - 1;\n\t\tconst c = Math.sqrt( 1 - u * u );\n\n\t\tthis.x = c * Math.cos( theta );\n\t\tthis.y = u;\n\t\tthis.z = c * Math.sin( theta );\n\n\t\treturn this;\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.x;\n\t\tyield this.y;\n\t\tyield this.z;\n\n\t}\n\n}\n\nconst _vector$c = /*@__PURE__*/ new Vector3();\nconst _quaternion$4 = /*@__PURE__*/ new Quaternion();\n\n/**\n * Represents a 3x3 matrix.\n *\n * A Note on Row-Major and Column-Major Ordering:\n *\n * The constructor and {@link Matrix3#set} method take arguments in\n * [row-major]{@link https://en.wikipedia.org/wiki/Row-_and_column-major_order#Column-major_order}\n * order, while internally they are stored in the {@link Matrix3#elements} array in column-major order.\n * This means that calling:\n * ```js\n * const m = new THREE.Matrix();\n * m.set( 11, 12, 13,\n * 21, 22, 23,\n * 31, 32, 33 );\n * ```\n * will result in the elements array containing:\n * ```js\n * m.elements = [ 11, 21, 31,\n * 12, 22, 32,\n * 13, 23, 33 ];\n * ```\n * and internally all calculations are performed using column-major ordering.\n * However, as the actual ordering makes no difference mathematically and\n * most people are used to thinking about matrices in row-major order, the\n * three.js documentation shows matrices in row-major order. Just bear in\n * mind that if you are reading the source code, you'll have to take the\n * transpose of any matrices outlined here to make sense of the calculations.\n */\nclass Matrix3 {\n\n\t/**\n\t * Constructs a new 3x3 matrix. The arguments are supposed to be\n\t * in row-major order. If no arguments are provided, the constructor\n\t * initializes the matrix as an identity matrix.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t */\n\tconstructor( n11, n12, n13, n21, n22, n23, n31, n32, n33 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tMatrix3.prototype.isMatrix3 = true;\n\n\t\t/**\n\t\t * A column-major list of matrix values.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.elements = [\n\n\t\t\t1, 0, 0,\n\t\t\t0, 1, 0,\n\t\t\t0, 0, 1\n\n\t\t];\n\n\t\tif ( n11 !== undefined ) {\n\n\t\t\tthis.set( n11, n12, n13, n21, n22, n23, n31, n32, n33 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix.The arguments are supposed to be\n\t * in row-major order.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tset( n11, n12, n13, n21, n22, n23, n31, n32, n33 ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] = n11; te[ 1 ] = n21; te[ 2 ] = n31;\n\t\tte[ 3 ] = n12; te[ 4 ] = n22; te[ 5 ] = n32;\n\t\tte[ 6 ] = n13; te[ 7 ] = n23; te[ 8 ] = n33;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix to the 3x3 identity matrix.\n\t *\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tidentity() {\n\n\t\tthis.set(\n\n\t\t\t1, 0, 0,\n\t\t\t0, 1, 0,\n\t\t\t0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given matrix to this instance.\n\t *\n\t * @param {Matrix3} m - The matrix to copy.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tcopy( m ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = m.elements;\n\n\t\tte[ 0 ] = me[ 0 ]; te[ 1 ] = me[ 1 ]; te[ 2 ] = me[ 2 ];\n\t\tte[ 3 ] = me[ 3 ]; te[ 4 ] = me[ 4 ]; te[ 5 ] = me[ 5 ];\n\t\tte[ 6 ] = me[ 6 ]; te[ 7 ] = me[ 7 ]; te[ 8 ] = me[ 8 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Extracts the basis of this matrix into the three axis vectors provided.\n\t *\n\t * @param {Vector3} xAxis - The basis's x axis.\n\t * @param {Vector3} yAxis - The basis's y axis.\n\t * @param {Vector3} zAxis - The basis's z axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\textractBasis( xAxis, yAxis, zAxis ) {\n\n\t\txAxis.setFromMatrix3Column( this, 0 );\n\t\tyAxis.setFromMatrix3Column( this, 1 );\n\t\tzAxis.setFromMatrix3Column( this, 2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Set this matrix to the upper 3x3 matrix of the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tsetFromMatrix4( m ) {\n\n\t\tconst me = m.elements;\n\n\t\tthis.set(\n\n\t\t\tme[ 0 ], me[ 4 ], me[ 8 ],\n\t\t\tme[ 1 ], me[ 5 ], me[ 9 ],\n\t\t\tme[ 2 ], me[ 6 ], me[ 10 ]\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Post-multiplies this matrix by the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix to multiply with.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmultiply( m ) {\n\n\t\treturn this.multiplyMatrices( this, m );\n\n\t}\n\n\t/**\n\t * Pre-multiplies this matrix by the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix to multiply with.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tpremultiply( m ) {\n\n\t\treturn this.multiplyMatrices( m, this );\n\n\t}\n\n\t/**\n\t * Multiples the given 3x3 matrices and stores the result\n\t * in this matrix.\n\t *\n\t * @param {Matrix3} a - The first matrix.\n\t * @param {Matrix3} b - The second matrix.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmultiplyMatrices( a, b ) {\n\n\t\tconst ae = a.elements;\n\t\tconst be = b.elements;\n\t\tconst te = this.elements;\n\n\t\tconst a11 = ae[ 0 ], a12 = ae[ 3 ], a13 = ae[ 6 ];\n\t\tconst a21 = ae[ 1 ], a22 = ae[ 4 ], a23 = ae[ 7 ];\n\t\tconst a31 = ae[ 2 ], a32 = ae[ 5 ], a33 = ae[ 8 ];\n\n\t\tconst b11 = be[ 0 ], b12 = be[ 3 ], b13 = be[ 6 ];\n\t\tconst b21 = be[ 1 ], b22 = be[ 4 ], b23 = be[ 7 ];\n\t\tconst b31 = be[ 2 ], b32 = be[ 5 ], b33 = be[ 8 ];\n\n\t\tte[ 0 ] = a11 * b11 + a12 * b21 + a13 * b31;\n\t\tte[ 3 ] = a11 * b12 + a12 * b22 + a13 * b32;\n\t\tte[ 6 ] = a11 * b13 + a12 * b23 + a13 * b33;\n\n\t\tte[ 1 ] = a21 * b11 + a22 * b21 + a23 * b31;\n\t\tte[ 4 ] = a21 * b12 + a22 * b22 + a23 * b32;\n\t\tte[ 7 ] = a21 * b13 + a22 * b23 + a23 * b33;\n\n\t\tte[ 2 ] = a31 * b11 + a32 * b21 + a33 * b31;\n\t\tte[ 5 ] = a31 * b12 + a32 * b22 + a33 * b32;\n\t\tte[ 8 ] = a31 * b13 + a32 * b23 + a33 * b33;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies every component of the matrix by the given scalar.\n\t *\n\t * @param {number} s - The scalar.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmultiplyScalar( s ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] *= s; te[ 3 ] *= s; te[ 6 ] *= s;\n\t\tte[ 1 ] *= s; te[ 4 ] *= s; te[ 7 ] *= s;\n\t\tte[ 2 ] *= s; te[ 5 ] *= s; te[ 8 ] *= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes and returns the determinant of this matrix.\n\t *\n\t * @return {number} The determinant.\n\t */\n\tdeterminant() {\n\n\t\tconst te = this.elements;\n\n\t\tconst a = te[ 0 ], b = te[ 1 ], c = te[ 2 ],\n\t\t\td = te[ 3 ], e = te[ 4 ], f = te[ 5 ],\n\t\t\tg = te[ 6 ], h = te[ 7 ], i = te[ 8 ];\n\n\t\treturn a * e * i - a * f * h - b * d * i + b * f * g + c * d * h - c * e * g;\n\n\t}\n\n\t/**\n\t * Inverts this matrix, using the [analytic method]{@link https://en.wikipedia.org/wiki/Invertible_matrix#Analytic_solution}.\n\t * You can not invert with a determinant of zero. If you attempt this, the method produces\n\t * a zero matrix instead.\n\t *\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tinvert() {\n\n\t\tconst te = this.elements,\n\n\t\t\tn11 = te[ 0 ], n21 = te[ 1 ], n31 = te[ 2 ],\n\t\t\tn12 = te[ 3 ], n22 = te[ 4 ], n32 = te[ 5 ],\n\t\t\tn13 = te[ 6 ], n23 = te[ 7 ], n33 = te[ 8 ],\n\n\t\t\tt11 = n33 * n22 - n32 * n23,\n\t\t\tt12 = n32 * n13 - n33 * n12,\n\t\t\tt13 = n23 * n12 - n22 * n13,\n\n\t\t\tdet = n11 * t11 + n21 * t12 + n31 * t13;\n\n\t\tif ( det === 0 ) return this.set( 0, 0, 0, 0, 0, 0, 0, 0, 0 );\n\n\t\tconst detInv = 1 / det;\n\n\t\tte[ 0 ] = t11 * detInv;\n\t\tte[ 1 ] = ( n31 * n23 - n33 * n21 ) * detInv;\n\t\tte[ 2 ] = ( n32 * n21 - n31 * n22 ) * detInv;\n\n\t\tte[ 3 ] = t12 * detInv;\n\t\tte[ 4 ] = ( n33 * n11 - n31 * n13 ) * detInv;\n\t\tte[ 5 ] = ( n31 * n12 - n32 * n11 ) * detInv;\n\n\t\tte[ 6 ] = t13 * detInv;\n\t\tte[ 7 ] = ( n21 * n13 - n23 * n11 ) * detInv;\n\t\tte[ 8 ] = ( n22 * n11 - n21 * n12 ) * detInv;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Transposes this matrix in place.\n\t *\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\ttranspose() {\n\n\t\tlet tmp;\n\t\tconst m = this.elements;\n\n\t\ttmp = m[ 1 ]; m[ 1 ] = m[ 3 ]; m[ 3 ] = tmp;\n\t\ttmp = m[ 2 ]; m[ 2 ] = m[ 6 ]; m[ 6 ] = tmp;\n\t\ttmp = m[ 5 ]; m[ 5 ] = m[ 7 ]; m[ 7 ] = tmp;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the normal matrix which is the inverse transpose of the upper\n\t * left 3x3 portion of the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} matrix4 - The 4x4 matrix.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tgetNormalMatrix( matrix4 ) {\n\n\t\treturn this.setFromMatrix4( matrix4 ).invert().transpose();\n\n\t}\n\n\t/**\n\t * Transposes this matrix into the supplied array, and returns itself unchanged.\n\t *\n\t * @param {Array} r - An array to store the transposed matrix elements.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\ttransposeIntoArray( r ) {\n\n\t\tconst m = this.elements;\n\n\t\tr[ 0 ] = m[ 0 ];\n\t\tr[ 1 ] = m[ 3 ];\n\t\tr[ 2 ] = m[ 6 ];\n\t\tr[ 3 ] = m[ 1 ];\n\t\tr[ 4 ] = m[ 4 ];\n\t\tr[ 5 ] = m[ 7 ];\n\t\tr[ 6 ] = m[ 2 ];\n\t\tr[ 7 ] = m[ 5 ];\n\t\tr[ 8 ] = m[ 8 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the UV transform matrix from offset, repeat, rotation, and center.\n\t *\n\t * @param {number} tx - Offset x.\n\t * @param {number} ty - Offset y.\n\t * @param {number} sx - Repeat x.\n\t * @param {number} sy - Repeat y.\n\t * @param {number} rotation - Rotation, in radians. Positive values rotate counterclockwise.\n\t * @param {number} cx - Center x of rotation.\n\t * @param {number} cy - Center y of rotation\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tsetUvTransform( tx, ty, sx, sy, rotation, cx, cy ) {\n\n\t\tconst c = Math.cos( rotation );\n\t\tconst s = Math.sin( rotation );\n\n\t\tthis.set(\n\t\t\tsx * c, sx * s, - sx * ( c * cx + s * cy ) + cx + tx,\n\t\t\t- sy * s, sy * c, - sy * ( - s * cx + c * cy ) + cy + ty,\n\t\t\t0, 0, 1\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scales this matrix with the given scalar values.\n\t *\n\t * @param {number} sx - The amount to scale in the X axis.\n\t * @param {number} sy - The amount to scale in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tscale( sx, sy ) {\n\n\t\tthis.premultiply( _m3.makeScale( sx, sy ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates this matrix by the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\trotate( theta ) {\n\n\t\tthis.premultiply( _m3.makeRotation( - theta ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates this matrix by the given scalar values.\n\t *\n\t * @param {number} tx - The amount to translate in the X axis.\n\t * @param {number} ty - The amount to translate in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\ttranslate( tx, ty ) {\n\n\t\tthis.premultiply( _m3.makeTranslation( tx, ty ) );\n\n\t\treturn this;\n\n\t}\n\n\t// for 2D Transforms\n\n\t/**\n\t * Sets this matrix as a 2D translation transform.\n\t *\n\t * @param {number|Vector2} x - The amount to translate in the X axis or alternatively a translation vector.\n\t * @param {number} y - The amount to translate in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmakeTranslation( x, y ) {\n\n\t\tif ( x.isVector2 ) {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, x.x,\n\t\t\t\t0, 1, x.y,\n\t\t\t\t0, 0, 1\n\n\t\t\t);\n\n\t\t} else {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, x,\n\t\t\t\t0, 1, y,\n\t\t\t\t0, 0, 1\n\n\t\t\t);\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a 2D rotational transformation.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmakeRotation( theta ) {\n\n\t\t// counterclockwise\n\n\t\tconst c = Math.cos( theta );\n\t\tconst s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\tc, - s, 0,\n\t\t\ts, c, 0,\n\t\t\t0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a 2D scale transform.\n\t *\n\t * @param {number} x - The amount to scale in the X axis.\n\t * @param {number} y - The amount to scale in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmakeScale( x, y ) {\n\n\t\tthis.set(\n\n\t\t\tx, 0, 0,\n\t\t\t0, y, 0,\n\t\t\t0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this matrix is equal with the given one.\n\t *\n\t * @param {Matrix3} matrix - The matrix to test for equality.\n\t * @return {boolean} Whether this matrix is equal with the given one.\n\t */\n\tequals( matrix ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = matrix.elements;\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tif ( te[ i ] !== me[ i ] ) return false;\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix from the given array.\n\t *\n\t * @param {Array} array - The matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.elements[ i ] = array[ i + offset ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the elements of this matrix to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The matrix elements in column-major order.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tconst te = this.elements;\n\n\t\tarray[ offset ] = te[ 0 ];\n\t\tarray[ offset + 1 ] = te[ 1 ];\n\t\tarray[ offset + 2 ] = te[ 2 ];\n\n\t\tarray[ offset + 3 ] = te[ 3 ];\n\t\tarray[ offset + 4 ] = te[ 4 ];\n\t\tarray[ offset + 5 ] = te[ 5 ];\n\n\t\tarray[ offset + 6 ] = te[ 6 ];\n\t\tarray[ offset + 7 ] = te[ 7 ];\n\t\tarray[ offset + 8 ] = te[ 8 ];\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Returns a matrix with copied values from this instance.\n\t *\n\t * @return {Matrix3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().fromArray( this.elements );\n\n\t}\n\n}\n\nconst _m3 = /*@__PURE__*/ new Matrix3();\n\nfunction arrayNeedsUint32( array ) {\n\n\t// assumes larger values usually on last\n\n\tfor ( let i = array.length - 1; i >= 0; -- i ) {\n\n\t\tif ( array[ i ] >= 65535 ) return true; // account for PRIMITIVE_RESTART_FIXED_INDEX, #24565\n\n\t}\n\n\treturn false;\n\n}\n\nconst TYPED_ARRAYS = {\n\tInt8Array: Int8Array,\n\tUint8Array: Uint8Array,\n\tUint8ClampedArray: Uint8ClampedArray,\n\tInt16Array: Int16Array,\n\tUint16Array: Uint16Array,\n\tInt32Array: Int32Array,\n\tUint32Array: Uint32Array,\n\tFloat32Array: Float32Array,\n\tFloat64Array: Float64Array\n};\n\nfunction getTypedArray( type, buffer ) {\n\n\treturn new TYPED_ARRAYS[ type ]( buffer );\n\n}\n\nfunction createElementNS( name ) {\n\n\treturn document.createElementNS( 'http://www.w3.org/1999/xhtml', name );\n\n}\n\nfunction createCanvasElement() {\n\n\tconst canvas = createElementNS( 'canvas' );\n\tcanvas.style.display = 'block';\n\treturn canvas;\n\n}\n\nconst _cache = {};\n\nfunction warnOnce( message ) {\n\n\tif ( message in _cache ) return;\n\n\t_cache[ message ] = true;\n\n\tconsole.warn( message );\n\n}\n\nfunction probeAsync( gl, sync, interval ) {\n\n\treturn new Promise( function ( resolve, reject ) {\n\n\t\tfunction probe() {\n\n\t\t\tswitch ( gl.clientWaitSync( sync, gl.SYNC_FLUSH_COMMANDS_BIT, 0 ) ) {\n\n\t\t\t\tcase gl.WAIT_FAILED:\n\t\t\t\t\treject();\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase gl.TIMEOUT_EXPIRED:\n\t\t\t\t\tsetTimeout( probe, interval );\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\n\t\t\t\t\tresolve();\n\n\t\t\t}\n\n\t\t}\n\n\t\tsetTimeout( probe, interval );\n\n\t} );\n\n}\n\nconst LINEAR_REC709_TO_XYZ = /*@__PURE__*/ new Matrix3().set(\n\t0.4123908, 0.3575843, 0.1804808,\n\t0.2126390, 0.7151687, 0.0721923,\n\t0.0193308, 0.1191948, 0.9505322\n);\n\nconst XYZ_TO_LINEAR_REC709 = /*@__PURE__*/ new Matrix3().set(\n\t3.2409699, -1.5373832, -0.4986108,\n\t-0.9692436, 1.8759675, 0.0415551,\n\t0.0556301, -0.203977, 1.0569715\n);\n\nfunction createColorManagement() {\n\n\tconst ColorManagement = {\n\n\t\tenabled: true,\n\n\t\tworkingColorSpace: LinearSRGBColorSpace,\n\n\t\t/**\n\t\t * Implementations of supported color spaces.\n\t\t *\n\t\t * Required:\n\t\t *\t- primaries: chromaticity coordinates [ rx ry gx gy bx by ]\n\t\t *\t- whitePoint: reference white [ x y ]\n\t\t *\t- transfer: transfer function (pre-defined)\n\t\t *\t- toXYZ: Matrix3 RGB to XYZ transform\n\t\t *\t- fromXYZ: Matrix3 XYZ to RGB transform\n\t\t *\t- luminanceCoefficients: RGB luminance coefficients\n\t\t *\n\t\t * Optional:\n\t\t * - outputColorSpaceConfig: { drawingBufferColorSpace: ColorSpace, toneMappingMode: 'extended' | 'standard' }\n\t\t * - workingColorSpaceConfig: { unpackColorSpace: ColorSpace }\n\t\t *\n\t\t * Reference:\n\t\t * - https://www.russellcottrell.com/photo/matrixCalculator.htm\n\t\t */\n\t\tspaces: {},\n\n\t\tconvert: function ( color, sourceColorSpace, targetColorSpace ) {\n\n\t\t\tif ( this.enabled === false || sourceColorSpace === targetColorSpace || ! sourceColorSpace || ! targetColorSpace ) {\n\n\t\t\t\treturn color;\n\n\t\t\t}\n\n\t\t\tif ( this.spaces[ sourceColorSpace ].transfer === SRGBTransfer ) {\n\n\t\t\t\tcolor.r = SRGBToLinear( color.r );\n\t\t\t\tcolor.g = SRGBToLinear( color.g );\n\t\t\t\tcolor.b = SRGBToLinear( color.b );\n\n\t\t\t}\n\n\t\t\tif ( this.spaces[ sourceColorSpace ].primaries !== this.spaces[ targetColorSpace ].primaries ) {\n\n\t\t\t\tcolor.applyMatrix3( this.spaces[ sourceColorSpace ].toXYZ );\n\t\t\t\tcolor.applyMatrix3( this.spaces[ targetColorSpace ].fromXYZ );\n\n\t\t\t}\n\n\t\t\tif ( this.spaces[ targetColorSpace ].transfer === SRGBTransfer ) {\n\n\t\t\t\tcolor.r = LinearToSRGB( color.r );\n\t\t\t\tcolor.g = LinearToSRGB( color.g );\n\t\t\t\tcolor.b = LinearToSRGB( color.b );\n\n\t\t\t}\n\n\t\t\treturn color;\n\n\t\t},\n\n\t\tworkingToColorSpace: function ( color, targetColorSpace ) {\n\n\t\t\treturn this.convert( color, this.workingColorSpace, targetColorSpace );\n\n\t\t},\n\n\t\tcolorSpaceToWorking: function ( color, sourceColorSpace ) {\n\n\t\t\treturn this.convert( color, sourceColorSpace, this.workingColorSpace );\n\n\t\t},\n\n\t\tgetPrimaries: function ( colorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].primaries;\n\n\t\t},\n\n\t\tgetTransfer: function ( colorSpace ) {\n\n\t\t\tif ( colorSpace === NoColorSpace ) return LinearTransfer;\n\n\t\t\treturn this.spaces[ colorSpace ].transfer;\n\n\t\t},\n\n\t\tgetToneMappingMode: function ( colorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].outputColorSpaceConfig.toneMappingMode || 'standard';\n\n\t\t},\n\n\t\tgetLuminanceCoefficients: function ( target, colorSpace = this.workingColorSpace ) {\n\n\t\t\treturn target.fromArray( this.spaces[ colorSpace ].luminanceCoefficients );\n\n\t\t},\n\n\t\tdefine: function ( colorSpaces ) {\n\n\t\t\tObject.assign( this.spaces, colorSpaces );\n\n\t\t},\n\n\t\t// Internal APIs\n\n\t\t_getMatrix: function ( targetMatrix, sourceColorSpace, targetColorSpace ) {\n\n\t\t\treturn targetMatrix\n\t\t\t\t.copy( this.spaces[ sourceColorSpace ].toXYZ )\n\t\t\t\t.multiply( this.spaces[ targetColorSpace ].fromXYZ );\n\n\t\t},\n\n\t\t_getDrawingBufferColorSpace: function ( colorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].outputColorSpaceConfig.drawingBufferColorSpace;\n\n\t\t},\n\n\t\t_getUnpackColorSpace: function ( colorSpace = this.workingColorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].workingColorSpaceConfig.unpackColorSpace;\n\n\t\t},\n\n\t\t// Deprecated\n\n\t\tfromWorkingColorSpace: function ( color, targetColorSpace ) {\n\n\t\t\twarnOnce( 'THREE.ColorManagement: .fromWorkingColorSpace() has been renamed to .workingToColorSpace().' ); // @deprecated, r177\n\n\t\t\treturn ColorManagement.workingToColorSpace( color, targetColorSpace );\n\n\t\t},\n\n\t\ttoWorkingColorSpace: function ( color, sourceColorSpace ) {\n\n\t\t\twarnOnce( 'THREE.ColorManagement: .toWorkingColorSpace() has been renamed to .colorSpaceToWorking().' ); // @deprecated, r177\n\n\t\t\treturn ColorManagement.colorSpaceToWorking( color, sourceColorSpace );\n\n\t\t},\n\n\t};\n\n\t/******************************************************************************\n\t * sRGB definitions\n\t */\n\n\tconst REC709_PRIMARIES = [ 0.640, 0.330, 0.300, 0.600, 0.150, 0.060 ];\n\tconst REC709_LUMINANCE_COEFFICIENTS = [ 0.2126, 0.7152, 0.0722 ];\n\tconst D65 = [ 0.3127, 0.3290 ];\n\n\tColorManagement.define( {\n\n\t\t[ LinearSRGBColorSpace ]: {\n\t\t\tprimaries: REC709_PRIMARIES,\n\t\t\twhitePoint: D65,\n\t\t\ttransfer: LinearTransfer,\n\t\t\ttoXYZ: LINEAR_REC709_TO_XYZ,\n\t\t\tfromXYZ: XYZ_TO_LINEAR_REC709,\n\t\t\tluminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n\t\t\tworkingColorSpaceConfig: { unpackColorSpace: SRGBColorSpace },\n\t\t\toutputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n\t\t},\n\n\t\t[ SRGBColorSpace ]: {\n\t\t\tprimaries: REC709_PRIMARIES,\n\t\t\twhitePoint: D65,\n\t\t\ttransfer: SRGBTransfer,\n\t\t\ttoXYZ: LINEAR_REC709_TO_XYZ,\n\t\t\tfromXYZ: XYZ_TO_LINEAR_REC709,\n\t\t\tluminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n\t\t\toutputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n\t\t},\n\n\t} );\n\n\treturn ColorManagement;\n\n}\n\nconst ColorManagement = /*@__PURE__*/ createColorManagement();\n\nfunction SRGBToLinear( c ) {\n\n\treturn ( c < 0.04045 ) ? c * 0.0773993808 : Math.pow( c * 0.9478672986 + 0.0521327014, 2.4 );\n\n}\n\nfunction LinearToSRGB( c ) {\n\n\treturn ( c < 0.0031308 ) ? c * 12.92 : 1.055 * ( Math.pow( c, 0.41666 ) ) - 0.055;\n\n}\n\nlet _canvas;\n\n/**\n * A class containing utility functions for images.\n *\n * @hideconstructor\n */\nclass ImageUtils {\n\n\t/**\n\t * Returns a data URI containing a representation of the given image.\n\t *\n\t * @param {(HTMLImageElement|HTMLCanvasElement)} image - The image object.\n\t * @param {string} [type='image/png'] - Indicates the image format.\n\t * @return {string} The data URI.\n\t */\n\tstatic getDataURL( image, type = 'image/png' ) {\n\n\t\tif ( /^data:/i.test( image.src ) ) {\n\n\t\t\treturn image.src;\n\n\t\t}\n\n\t\tif ( typeof HTMLCanvasElement === 'undefined' ) {\n\n\t\t\treturn image.src;\n\n\t\t}\n\n\t\tlet canvas;\n\n\t\tif ( image instanceof HTMLCanvasElement ) {\n\n\t\t\tcanvas = image;\n\n\t\t} else {\n\n\t\t\tif ( _canvas === undefined ) _canvas = createElementNS( 'canvas' );\n\n\t\t\t_canvas.width = image.width;\n\t\t\t_canvas.height = image.height;\n\n\t\t\tconst context = _canvas.getContext( '2d' );\n\n\t\t\tif ( image instanceof ImageData ) {\n\n\t\t\t\tcontext.putImageData( image, 0, 0 );\n\n\t\t\t} else {\n\n\t\t\t\tcontext.drawImage( image, 0, 0, image.width, image.height );\n\n\t\t\t}\n\n\t\t\tcanvas = _canvas;\n\n\t\t}\n\n\t\treturn canvas.toDataURL( type );\n\n\t}\n\n\t/**\n\t * Converts the given sRGB image data to linear color space.\n\t *\n\t * @param {(HTMLImageElement|HTMLCanvasElement|ImageBitmap|Object)} image - The image object.\n\t * @return {HTMLCanvasElement|Object} The converted image.\n\t */\n\tstatic sRGBToLinear( image ) {\n\n\t\tif ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) ||\n\t\t\t( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) ||\n\t\t\t( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) ) {\n\n\t\t\tconst canvas = createElementNS( 'canvas' );\n\n\t\t\tcanvas.width = image.width;\n\t\t\tcanvas.height = image.height;\n\n\t\t\tconst context = canvas.getContext( '2d' );\n\t\t\tcontext.drawImage( image, 0, 0, image.width, image.height );\n\n\t\t\tconst imageData = context.getImageData( 0, 0, image.width, image.height );\n\t\t\tconst data = imageData.data;\n\n\t\t\tfor ( let i = 0; i < data.length; i ++ ) {\n\n\t\t\t\tdata[ i ] = SRGBToLinear( data[ i ] / 255 ) * 255;\n\n\t\t\t}\n\n\t\t\tcontext.putImageData( imageData, 0, 0 );\n\n\t\t\treturn canvas;\n\n\t\t} else if ( image.data ) {\n\n\t\t\tconst data = image.data.slice( 0 );\n\n\t\t\tfor ( let i = 0; i < data.length; i ++ ) {\n\n\t\t\t\tif ( data instanceof Uint8Array || data instanceof Uint8ClampedArray ) {\n\n\t\t\t\t\tdata[ i ] = Math.floor( SRGBToLinear( data[ i ] / 255 ) * 255 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// assuming float\n\n\t\t\t\t\tdata[ i ] = SRGBToLinear( data[ i ] );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn {\n\t\t\t\tdata: data,\n\t\t\t\twidth: image.width,\n\t\t\t\theight: image.height\n\t\t\t};\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.ImageUtils.sRGBToLinear(): Unsupported image type. No color space conversion applied.' );\n\t\t\treturn image;\n\n\t\t}\n\n\t}\n\n}\n\nlet _sourceId = 0;\n\n/**\n * Represents the data source of a texture.\n *\n * The main purpose of this class is to decouple the data definition from the texture\n * definition so the same data can be used with multiple texture instances.\n */\nclass Source {\n\n\t/**\n\t * Constructs a new video texture.\n\t *\n\t * @param {any} [data=null] - The data definition of a texture.\n\t */\n\tconstructor( data = null ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSource = true;\n\n\t\t/**\n\t\t * The ID of the source.\n\t\t *\n\t\t * @name Source#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _sourceId ++ } );\n\n\t\t/**\n\t\t * The UUID of the source.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The data definition of a texture.\n\t\t *\n\t\t * @type {any}\n\t\t */\n\t\tthis.data = data;\n\n\t\t/**\n\t\t * This property is only relevant when {@link Source#needsUpdate} is set to `true` and\n\t\t * provides more control on how texture data should be processed. When `dataReady` is set\n\t\t * to `false`, the engine performs the memory allocation (if necessary) but does not transfer\n\t\t * the data into the GPU memory.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.dataReady = true;\n\n\t\t/**\n\t\t * This starts at `0` and counts how many times {@link Source#needsUpdate} is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.version = 0;\n\n\t}\n\n\t/**\n\t * Returns the dimensions of the source into the given target vector.\n\t *\n\t * @param {(Vector2|Vector3)} target - The target object the result is written into.\n\t * @return {(Vector2|Vector3)} The dimensions of the source.\n\t */\n\tgetSize( target ) {\n\n\t\tconst data = this.data;\n\n\t\tif ( ( typeof HTMLVideoElement !== 'undefined' ) && ( data instanceof HTMLVideoElement ) ) {\n\n\t\t\ttarget.set( data.videoWidth, data.videoHeight, 0 );\n\n\t\t} else if ( data instanceof VideoFrame ) {\n\n\t\t\ttarget.set( data.displayHeight, data.displayWidth, 0 );\n\n\t\t} else if ( data !== null ) {\n\n\t\t\ttarget.set( data.width, data.height, data.depth || 0 );\n\n\t\t} else {\n\n\t\t\ttarget.set( 0, 0, 0 );\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * When the property is set to `true`, the engine allocates the memory\n\t * for the texture (if necessary) and triggers the actual texture upload\n\t * to the GPU next time the source is used.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Serializes the source into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized source.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tif ( ! isRootObject && meta.images[ this.uuid ] !== undefined ) {\n\n\t\t\treturn meta.images[ this.uuid ];\n\n\t\t}\n\n\t\tconst output = {\n\t\t\tuuid: this.uuid,\n\t\t\turl: ''\n\t\t};\n\n\t\tconst data = this.data;\n\n\t\tif ( data !== null ) {\n\n\t\t\tlet url;\n\n\t\t\tif ( Array.isArray( data ) ) {\n\n\t\t\t\t// cube texture\n\n\t\t\t\turl = [];\n\n\t\t\t\tfor ( let i = 0, l = data.length; i < l; i ++ ) {\n\n\t\t\t\t\tif ( data[ i ].isDataTexture ) {\n\n\t\t\t\t\t\turl.push( serializeImage( data[ i ].image ) );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\turl.push( serializeImage( data[ i ] ) );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// texture\n\n\t\t\t\turl = serializeImage( data );\n\n\t\t\t}\n\n\t\t\toutput.url = url;\n\n\t\t}\n\n\t\tif ( ! isRootObject ) {\n\n\t\t\tmeta.images[ this.uuid ] = output;\n\n\t\t}\n\n\t\treturn output;\n\n\t}\n\n}\n\nfunction serializeImage( image ) {\n\n\tif ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) ||\n\t\t( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) ||\n\t\t( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) ) {\n\n\t\t// default images\n\n\t\treturn ImageUtils.getDataURL( image );\n\n\t} else {\n\n\t\tif ( image.data ) {\n\n\t\t\t// images of DataTexture\n\n\t\t\treturn {\n\t\t\t\tdata: Array.from( image.data ),\n\t\t\t\twidth: image.width,\n\t\t\t\theight: image.height,\n\t\t\t\ttype: image.data.constructor.name\n\t\t\t};\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.Texture: Unable to serialize Texture.' );\n\t\t\treturn {};\n\n\t\t}\n\n\t}\n\n}\n\nlet _textureId = 0;\n\nconst _tempVec3 = /*@__PURE__*/ new Vector3();\n\n/**\n * Base class for all textures.\n *\n * Note: After the initial use of a texture, its dimensions, format, and type\n * cannot be changed. Instead, call {@link Texture#dispose} on the texture and instantiate a new one.\n *\n * @augments EventDispatcher\n */\nclass Texture extends EventDispatcher {\n\n\t/**\n\t * Constructs a new texture.\n\t *\n\t * @param {?Object} [image=Texture.DEFAULT_IMAGE] - The image holding the texture data.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space.\n\t */\n\tconstructor( image = Texture.DEFAULT_IMAGE, mapping = Texture.DEFAULT_MAPPING, wrapS = ClampToEdgeWrapping, wrapT = ClampToEdgeWrapping, magFilter = LinearFilter, minFilter = LinearMipmapLinearFilter, format = RGBAFormat, type = UnsignedByteType, anisotropy = Texture.DEFAULT_ANISOTROPY, colorSpace = NoColorSpace ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isTexture = true;\n\n\t\t/**\n\t\t * The ID of the texture.\n\t\t *\n\t\t * @name Texture#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _textureId ++ } );\n\n\t\t/**\n\t\t * The UUID of the material.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the material.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The data definition of a texture. A reference to the data source can be\n\t\t * shared across textures. This is often useful in context of spritesheets\n\t\t * where multiple textures render the same data but with different texture\n\t\t * transformations.\n\t\t *\n\t\t * @type {Source}\n\t\t */\n\t\tthis.source = new Source( image );\n\n\t\t/**\n\t\t * An array holding user-defined mipmaps.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.mipmaps = [];\n\n\t\t/**\n\t\t * How the texture is applied to the object. The value `UVMapping`\n\t\t * is the default, where texture or uv coordinates are used to apply the map.\n\t\t *\n\t\t * @type {(UVMapping|CubeReflectionMapping|CubeRefractionMapping|EquirectangularReflectionMapping|EquirectangularRefractionMapping|CubeUVReflectionMapping)}\n\t\t * @default UVMapping\n\t\t*/\n\t\tthis.mapping = mapping;\n\n\t\t/**\n\t\t * Lets you select the uv attribute to map the texture to. `0` for `uv`,\n\t\t * `1` for `uv1`, `2` for `uv2` and `3` for `uv3`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.channel = 0;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped horizontally and corresponds to\n\t\t * *U* in UV mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapS = wrapS;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped horizontally and corresponds to\n\t\t * *V* in UV mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapT = wrapT;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default LinearFilter\n\t\t */\n\t\tthis.magFilter = magFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default LinearMipmapLinearFilter\n\t\t */\n\t\tthis.minFilter = minFilter;\n\n\t\t/**\n\t\t * The number of samples taken along the axis through the pixel that has the\n\t\t * highest density of texels. By default, this value is `1`. A higher value\n\t\t * gives a less blurry result than a basic mipmap, at the cost of more\n\t\t * texture samples being used.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.anisotropy = anisotropy;\n\n\t\t/**\n\t\t * The format of the texture.\n\t\t *\n\t\t * @type {number}\n\t\t * @default RGBAFormat\n\t\t */\n\t\tthis.format = format;\n\n\t\t/**\n\t\t * The default internal format is derived from {@link Texture#format} and {@link Texture#type} and\n\t\t * defines how the texture data is going to be stored on the GPU.\n\t\t *\n\t\t * This property allows to overwrite the default format.\n\t\t *\n\t\t * @type {?string}\n\t\t * @default null\n\t\t */\n\t\tthis.internalFormat = null;\n\n\t\t/**\n\t\t * The data type of the texture.\n\t\t *\n\t\t * @type {number}\n\t\t * @default UnsignedByteType\n\t\t */\n\t\tthis.type = type;\n\n\t\t/**\n\t\t * How much a single repetition of the texture is offset from the beginning,\n\t\t * in each direction U and V. Typical range is `0.0` to `1.0`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (0,0)\n\t\t */\n\t\tthis.offset = new Vector2( 0, 0 );\n\n\t\t/**\n\t\t * How many times the texture is repeated across the surface, in each\n\t\t * direction U and V. If repeat is set greater than `1` in either direction,\n\t\t * the corresponding wrap parameter should also be set to `RepeatWrapping`\n\t\t * or `MirroredRepeatWrapping` to achieve the desired tiling effect.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.repeat = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The point around which rotation occurs. A value of `(0.5, 0.5)` corresponds\n\t\t * to the center of the texture. Default is `(0, 0)`, the lower left.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (0,0)\n\t\t */\n\t\tthis.center = new Vector2( 0, 0 );\n\n\t\t/**\n\t\t * How much the texture is rotated around the center point, in radians.\n\t\t * Positive values are counter-clockwise.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.rotation = 0;\n\n\t\t/**\n\t\t * Whether to update the texture's uv-transformation {@link Texture#matrix}\n\t\t * from the properties {@link Texture#offset}, {@link Texture#repeat},\n\t\t * {@link Texture#rotation}, and {@link Texture#center}.\n\t\t *\n\t\t * Set this to `false` if you are specifying the uv-transform matrix directly.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.matrixAutoUpdate = true;\n\n\t\t/**\n\t\t * The uv-transformation matrix of the texture.\n\t\t *\n\t\t * @type {Matrix3}\n\t\t */\n\t\tthis.matrix = new Matrix3();\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Set this to `false` if you are creating mipmaps manually.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.generateMipmaps = true;\n\n\t\t/**\n\t\t * If set to `true`, the alpha channel, if present, is multiplied into the\n\t\t * color channels when the texture is uploaded to the GPU.\n\t\t *\n\t\t * Note that this property has no effect when using `ImageBitmap`. You need to\n\t\t * configure premultiply alpha on bitmap creation instead.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.premultiplyAlpha = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Note that this property has no effect when using `ImageBitmap`. You need to\n\t\t * configure the flip on bitmap creation instead.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.flipY = true;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t * The allowable values are `1` (byte-alignment), `2` (rows aligned to even-numbered bytes),\n\t\t * `4` (word-alignment), and `8` (rows start on double-word boundaries).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 4\n\t\t */\n\t\tthis.unpackAlignment = 4;\t// valid values: 1, 2, 4, 8 (see http://www.khronos.org/opengles/sdk/docs/man/xhtml/glPixelStorei.xml)\n\n\t\t/**\n\t\t * Textures containing color data should be annotated with `SRGBColorSpace` or `LinearSRGBColorSpace`.\n\t\t *\n\t\t * @type {string}\n\t\t * @default NoColorSpace\n\t\t */\n\t\tthis.colorSpace = colorSpace;\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the texture. It\n\t\t * should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t\t/**\n\t\t * This can be used to only update a subregion or specific rows of the texture (for example, just the\n\t\t * first 3 rows). Use the `addUpdateRange()` function to add ranges to this array.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.updateRanges = [];\n\n\t\t/**\n\t\t * This starts at `0` and counts how many times {@link Texture#needsUpdate} is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.version = 0;\n\n\t\t/**\n\t\t * A callback function, called when the texture is updated (e.g., when\n\t\t * {@link Texture#needsUpdate} has been set to true and then the texture is used).\n\t\t *\n\t\t * @type {?Function}\n\t\t * @default null\n\t\t */\n\t\tthis.onUpdate = null;\n\n\t\t/**\n\t\t * An optional back reference to the textures render target.\n\t\t *\n\t\t * @type {?(RenderTarget|WebGLRenderTarget)}\n\t\t * @default null\n\t\t */\n\t\tthis.renderTarget = null;\n\n\t\t/**\n\t\t * Indicates whether a texture belongs to a render target or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isRenderTargetTexture = false;\n\n\t\t/**\n\t\t * Indicates if a texture should be handled like a texture array.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isArrayTexture = image && image.depth && image.depth > 1 ? true : false;\n\n\t\t/**\n\t\t * Indicates whether this texture should be processed by `PMREMGenerator` or not\n\t\t * (only relevant for render target textures).\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.pmremVersion = 0;\n\n\t}\n\n\t/**\n\t * The width of the texture in pixels.\n\t */\n\tget width() {\n\n\t\treturn this.source.getSize( _tempVec3 ).x;\n\n\t}\n\n\t/**\n\t * The height of the texture in pixels.\n\t */\n\tget height() {\n\n\t\treturn this.source.getSize( _tempVec3 ).y;\n\n\t}\n\n\t/**\n\t * The depth of the texture in pixels.\n\t */\n\tget depth() {\n\n\t\treturn this.source.getSize( _tempVec3 ).z;\n\n\t}\n\n\t/**\n\t * The image object holding the texture data.\n\t *\n\t * @type {?Object}\n\t */\n\tget image() {\n\n\t\treturn this.source.data;\n\n\t}\n\n\tset image( value = null ) {\n\n\t\tthis.source.data = value;\n\n\t}\n\n\t/**\n\t * Updates the texture transformation matrix from the from the properties {@link Texture#offset},\n\t * {@link Texture#repeat}, {@link Texture#rotation}, and {@link Texture#center}.\n\t */\n\tupdateMatrix() {\n\n\t\tthis.matrix.setUvTransform( this.offset.x, this.offset.y, this.repeat.x, this.repeat.y, this.rotation, this.center.x, this.center.y );\n\n\t}\n\n\t/**\n\t * Adds a range of data in the data texture to be updated on the GPU.\n\t *\n\t * @param {number} start - Position at which to start update.\n\t * @param {number} count - The number of components to update.\n\t */\n\taddUpdateRange( start, count ) {\n\n\t\tthis.updateRanges.push( { start, count } );\n\n\t}\n\n\t/**\n\t * Clears the update ranges.\n\t */\n\tclearUpdateRanges() {\n\n\t\tthis.updateRanges.length = 0;\n\n\t}\n\n\t/**\n\t * Returns a new texture with copied values from this instance.\n\t *\n\t * @return {Texture} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given texture to this instance.\n\t *\n\t * @param {Texture} source - The texture to copy.\n\t * @return {Texture} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\n\t\tthis.source = source.source;\n\t\tthis.mipmaps = source.mipmaps.slice( 0 );\n\n\t\tthis.mapping = source.mapping;\n\t\tthis.channel = source.channel;\n\n\t\tthis.wrapS = source.wrapS;\n\t\tthis.wrapT = source.wrapT;\n\n\t\tthis.magFilter = source.magFilter;\n\t\tthis.minFilter = source.minFilter;\n\n\t\tthis.anisotropy = source.anisotropy;\n\n\t\tthis.format = source.format;\n\t\tthis.internalFormat = source.internalFormat;\n\t\tthis.type = source.type;\n\n\t\tthis.offset.copy( source.offset );\n\t\tthis.repeat.copy( source.repeat );\n\t\tthis.center.copy( source.center );\n\t\tthis.rotation = source.rotation;\n\n\t\tthis.matrixAutoUpdate = source.matrixAutoUpdate;\n\t\tthis.matrix.copy( source.matrix );\n\n\t\tthis.generateMipmaps = source.generateMipmaps;\n\t\tthis.premultiplyAlpha = source.premultiplyAlpha;\n\t\tthis.flipY = source.flipY;\n\t\tthis.unpackAlignment = source.unpackAlignment;\n\t\tthis.colorSpace = source.colorSpace;\n\n\t\tthis.renderTarget = source.renderTarget;\n\t\tthis.isRenderTargetTexture = source.isRenderTargetTexture;\n\t\tthis.isArrayTexture = source.isArrayTexture;\n\n\t\tthis.userData = JSON.parse( JSON.stringify( source.userData ) );\n\n\t\tthis.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this texture's properties based on `values`.\n\t * @param {Object} values - A container with texture parameters.\n\t */\n\tsetValues( values ) {\n\n\t\tfor ( const key in values ) {\n\n\t\t\tconst newValue = values[ key ];\n\n\t\t\tif ( newValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Texture.setValues(): parameter '${ key }' has value of undefined.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tconst currentValue = this[ key ];\n\n\t\t\tif ( currentValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Texture.setValues(): property '${ key }' does not exist.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tif ( ( currentValue && newValue ) && ( currentValue.isVector2 && newValue.isVector2 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else if ( ( currentValue && newValue ) && ( currentValue.isVector3 && newValue.isVector3 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else if ( ( currentValue && newValue ) && ( currentValue.isMatrix3 && newValue.isMatrix3 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else {\n\n\t\t\t\tthis[ key ] = newValue;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the texture into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized texture.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tif ( ! isRootObject && meta.textures[ this.uuid ] !== undefined ) {\n\n\t\t\treturn meta.textures[ this.uuid ];\n\n\t\t}\n\n\t\tconst output = {\n\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Texture',\n\t\t\t\tgenerator: 'Texture.toJSON'\n\t\t\t},\n\n\t\t\tuuid: this.uuid,\n\t\t\tname: this.name,\n\n\t\t\timage: this.source.toJSON( meta ).uuid,\n\n\t\t\tmapping: this.mapping,\n\t\t\tchannel: this.channel,\n\n\t\t\trepeat: [ this.repeat.x, this.repeat.y ],\n\t\t\toffset: [ this.offset.x, this.offset.y ],\n\t\t\tcenter: [ this.center.x, this.center.y ],\n\t\t\trotation: this.rotation,\n\n\t\t\twrap: [ this.wrapS, this.wrapT ],\n\n\t\t\tformat: this.format,\n\t\t\tinternalFormat: this.internalFormat,\n\t\t\ttype: this.type,\n\t\t\tcolorSpace: this.colorSpace,\n\n\t\t\tminFilter: this.minFilter,\n\t\t\tmagFilter: this.magFilter,\n\t\t\tanisotropy: this.anisotropy,\n\n\t\t\tflipY: this.flipY,\n\n\t\t\tgenerateMipmaps: this.generateMipmaps,\n\t\t\tpremultiplyAlpha: this.premultiplyAlpha,\n\t\t\tunpackAlignment: this.unpackAlignment\n\n\t\t};\n\n\t\tif ( Object.keys( this.userData ).length > 0 ) output.userData = this.userData;\n\n\t\tif ( ! isRootObject ) {\n\n\t\t\tmeta.textures[ this.uuid ] = output;\n\n\t\t}\n\n\t\treturn output;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires Texture#dispose\n\t */\n\tdispose() {\n\n\t\t/**\n\t\t * Fires when the texture has been disposed of.\n\t\t *\n\t\t * @event Texture#dispose\n\t\t * @type {Object}\n\t\t */\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n\t/**\n\t * Transforms the given uv vector with the textures uv transformation matrix.\n\t *\n\t * @param {Vector2} uv - The uv vector.\n\t * @return {Vector2} The transformed uv vector.\n\t */\n\ttransformUv( uv ) {\n\n\t\tif ( this.mapping !== UVMapping ) return uv;\n\n\t\tuv.applyMatrix3( this.matrix );\n\n\t\tif ( uv.x < 0 || uv.x > 1 ) {\n\n\t\t\tswitch ( this.wrapS ) {\n\n\t\t\t\tcase RepeatWrapping:\n\n\t\t\t\t\tuv.x = uv.x - Math.floor( uv.x );\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase ClampToEdgeWrapping:\n\n\t\t\t\t\tuv.x = uv.x < 0 ? 0 : 1;\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase MirroredRepeatWrapping:\n\n\t\t\t\t\tif ( Math.abs( Math.floor( uv.x ) % 2 ) === 1 ) {\n\n\t\t\t\t\t\tuv.x = Math.ceil( uv.x ) - uv.x;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tuv.x = uv.x - Math.floor( uv.x );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( uv.y < 0 || uv.y > 1 ) {\n\n\t\t\tswitch ( this.wrapT ) {\n\n\t\t\t\tcase RepeatWrapping:\n\n\t\t\t\t\tuv.y = uv.y - Math.floor( uv.y );\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase ClampToEdgeWrapping:\n\n\t\t\t\t\tuv.y = uv.y < 0 ? 0 : 1;\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase MirroredRepeatWrapping:\n\n\t\t\t\t\tif ( Math.abs( Math.floor( uv.y ) % 2 ) === 1 ) {\n\n\t\t\t\t\t\tuv.y = Math.ceil( uv.y ) - uv.y;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tuv.y = uv.y - Math.floor( uv.y );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.flipY ) {\n\n\t\t\tuv.y = 1 - uv.y;\n\n\t\t}\n\n\t\treturn uv;\n\n\t}\n\n\t/**\n\t * Setting this property to `true` indicates the engine the texture\n\t * must be updated in the next render. This triggers a texture upload\n\t * to the GPU and ensures correct texture parameter configuration.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) {\n\n\t\t\tthis.version ++;\n\t\t\tthis.source.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Setting this property to `true` indicates the engine the PMREM\n\t * must be regenerated.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsPMREMUpdate( value ) {\n\n\t\tif ( value === true ) {\n\n\t\t\tthis.pmremVersion ++;\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * The default image for all textures.\n *\n * @static\n * @type {?Image}\n * @default null\n */\nTexture.DEFAULT_IMAGE = null;\n\n/**\n * The default mapping for all textures.\n *\n * @static\n * @type {number}\n * @default UVMapping\n */\nTexture.DEFAULT_MAPPING = UVMapping;\n\n/**\n * The default anisotropy value for all textures.\n *\n * @static\n * @type {number}\n * @default 1\n */\nTexture.DEFAULT_ANISOTROPY = 1;\n\n/**\n * Class representing a 4D vector. A 4D vector is an ordered quadruplet of numbers\n * (labeled x, y, z and w), which can be used to represent a number of things, such as:\n *\n * - A point in 4D space.\n * - A direction and length in 4D space. In three.js the length will\n * always be the Euclidean distance(straight-line distance) from `(0, 0, 0, 0)` to `(x, y, z, w)`\n * and the direction is also measured from `(0, 0, 0, 0)` towards `(x, y, z, w)`.\n * - Any arbitrary ordered quadruplet of numbers.\n *\n * There are other things a 4D vector can be used to represent, however these\n * are the most common uses in *three.js*.\n *\n * Iterating through a vector instance will yield its components `(x, y, z, w)` in\n * the corresponding order.\n * ```js\n * const a = new THREE.Vector4( 0, 1, 0, 0 );\n *\n * //no arguments; will be initialised to (0, 0, 0, 1)\n * const b = new THREE.Vector4( );\n *\n * const d = a.dot( b );\n * ```\n */\nclass Vector4 {\n\n\t/**\n\t * Constructs a new 4D vector.\n\t *\n\t * @param {number} [x=0] - The x value of this vector.\n\t * @param {number} [y=0] - The y value of this vector.\n\t * @param {number} [z=0] - The z value of this vector.\n\t * @param {number} [w=1] - The w value of this vector.\n\t */\n\tconstructor( x = 0, y = 0, z = 0, w = 1 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tVector4.prototype.isVector4 = true;\n\n\t\t/**\n\t\t * The x value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.x = x;\n\n\t\t/**\n\t\t * The y value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.y = y;\n\n\t\t/**\n\t\t * The z value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.z = z;\n\n\t\t/**\n\t\t * The w value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.w = w;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector4#z}.\n\t *\n\t * @type {number}\n\t */\n\tget width() {\n\n\t\treturn this.z;\n\n\t}\n\n\tset width( value ) {\n\n\t\tthis.z = value;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector4#w}.\n\t *\n\t * @type {number}\n\t */\n\tget height() {\n\n\t\treturn this.w;\n\n\t}\n\n\tset height( value ) {\n\n\t\tthis.w = value;\n\n\t}\n\n\t/**\n\t * Sets the vector components.\n\t *\n\t * @param {number} x - The value of the x component.\n\t * @param {number} y - The value of the y component.\n\t * @param {number} z - The value of the z component.\n\t * @param {number} w - The value of the w component.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tset( x, y, z, w ) {\n\n\t\tthis.x = x;\n\t\tthis.y = y;\n\t\tthis.z = z;\n\t\tthis.w = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the same value.\n\t *\n\t * @param {number} scalar - The value to set for all vector components.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.x = scalar;\n\t\tthis.y = scalar;\n\t\tthis.z = scalar;\n\t\tthis.w = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's x component to the given value\n\t *\n\t * @param {number} x - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetX( x ) {\n\n\t\tthis.x = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's y component to the given value\n\t *\n\t * @param {number} y - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetY( y ) {\n\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's z component to the given value\n\t *\n\t * @param {number} z - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetZ( z ) {\n\n\t\tthis.z = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's w component to the given value\n\t *\n\t * @param {number} w - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetW( w ) {\n\n\t\tthis.w = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Allows to set a vector component with an index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y,\n\t * `2` equals to z, `3` equals to w.\n\t * @param {number} value - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetComponent( index, value ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: this.x = value; break;\n\t\t\tcase 1: this.y = value; break;\n\t\t\tcase 2: this.z = value; break;\n\t\t\tcase 3: this.w = value; break;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the value of the vector component which matches the given index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y,\n\t * `2` equals to z, `3` equals to w.\n\t * @return {number} A vector component value.\n\t */\n\tgetComponent( index ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: return this.x;\n\t\t\tcase 1: return this.y;\n\t\t\tcase 2: return this.z;\n\t\t\tcase 3: return this.w;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new vector with copied values from this instance.\n\t *\n\t * @return {Vector4} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.x, this.y, this.z, this.w );\n\n\t}\n\n\t/**\n\t * Copies the values of the given vector to this instance.\n\t *\n\t * @param {Vector3|Vector4} v - The vector to copy.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tcopy( v ) {\n\n\t\tthis.x = v.x;\n\t\tthis.y = v.y;\n\t\tthis.z = v.z;\n\t\tthis.w = ( v.w !== undefined ) ? v.w : 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector to this instance.\n\t *\n\t * @param {Vector4} v - The vector to add.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tadd( v ) {\n\n\t\tthis.x += v.x;\n\t\tthis.y += v.y;\n\t\tthis.z += v.z;\n\t\tthis.w += v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to all components of this instance.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.x += s;\n\t\tthis.y += s;\n\t\tthis.z += s;\n\t\tthis.w += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector4} a - The first vector.\n\t * @param {Vector4} b - The second vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\taddVectors( a, b ) {\n\n\t\tthis.x = a.x + b.x;\n\t\tthis.y = a.y + b.y;\n\t\tthis.z = a.z + b.z;\n\t\tthis.w = a.w + b.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector scaled by the given factor to this instance.\n\t *\n\t * @param {Vector4} v - The vector.\n\t * @param {number} s - The factor that scales `v`.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\taddScaledVector( v, s ) {\n\n\t\tthis.x += v.x * s;\n\t\tthis.y += v.y * s;\n\t\tthis.z += v.z * s;\n\t\tthis.w += v.w * s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vector from this instance.\n\t *\n\t * @param {Vector4} v - The vector to subtract.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsub( v ) {\n\n\t\tthis.x -= v.x;\n\t\tthis.y -= v.y;\n\t\tthis.z -= v.z;\n\t\tthis.w -= v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given scalar value from all components of this instance.\n\t *\n\t * @param {number} s - The scalar to subtract.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsubScalar( s ) {\n\n\t\tthis.x -= s;\n\t\tthis.y -= s;\n\t\tthis.z -= s;\n\t\tthis.w -= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector4} a - The first vector.\n\t * @param {Vector4} b - The second vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsubVectors( a, b ) {\n\n\t\tthis.x = a.x - b.x;\n\t\tthis.y = a.y - b.y;\n\t\tthis.z = a.z - b.z;\n\t\tthis.w = a.w - b.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vector with this instance.\n\t *\n\t * @param {Vector4} v - The vector to multiply.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmultiply( v ) {\n\n\t\tthis.x *= v.x;\n\t\tthis.y *= v.y;\n\t\tthis.z *= v.z;\n\t\tthis.w *= v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with all components of this instance.\n\t *\n\t * @param {number} scalar - The scalar to multiply.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmultiplyScalar( scalar ) {\n\n\t\tthis.x *= scalar;\n\t\tthis.y *= scalar;\n\t\tthis.z *= scalar;\n\t\tthis.w *= scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies this vector with the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tconst x = this.x, y = this.y, z = this.z, w = this.w;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z + e[ 12 ] * w;\n\t\tthis.y = e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z + e[ 13 ] * w;\n\t\tthis.z = e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z + e[ 14 ] * w;\n\t\tthis.w = e[ 3 ] * x + e[ 7 ] * y + e[ 11 ] * z + e[ 15 ] * w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this instance by the given vector.\n\t *\n\t * @param {Vector4} v - The vector to divide.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tdivide( v ) {\n\n\t\tthis.x /= v.x;\n\t\tthis.y /= v.y;\n\t\tthis.z /= v.z;\n\t\tthis.w /= v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this vector by the given scalar.\n\t *\n\t * @param {number} scalar - The scalar to divide.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tdivideScalar( scalar ) {\n\n\t\treturn this.multiplyScalar( 1 / scalar );\n\n\t}\n\n\t/**\n\t * Sets the x, y and z components of this\n\t * vector to the quaternion's axis and w to the angle.\n\t *\n\t * @param {Quaternion} q - The Quaternion to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetAxisAngleFromQuaternion( q ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/quaternionToAngle/index.htm\n\n\t\t// q is assumed to be normalized\n\n\t\tthis.w = 2 * Math.acos( q.w );\n\n\t\tconst s = Math.sqrt( 1 - q.w * q.w );\n\n\t\tif ( s < 0.0001 ) {\n\n\t\t\tthis.x = 1;\n\t\t\tthis.y = 0;\n\t\t\tthis.z = 0;\n\n\t\t} else {\n\n\t\t\tthis.x = q.x / s;\n\t\t\tthis.y = q.y / s;\n\t\t\tthis.z = q.z / s;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y and z components of this\n\t * vector to the axis of rotation and w to the angle.\n\t *\n\t * @param {Matrix4} m - A 4x4 matrix of which the upper left 3x3 matrix is a pure rotation matrix.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetAxisAngleFromRotationMatrix( m ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/matrixToAngle/index.htm\n\n\t\t// assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled)\n\n\t\tlet angle, x, y, z; // variables for result\n\t\tconst epsilon = 0.01,\t\t// margin to allow for rounding errors\n\t\t\tepsilon2 = 0.1,\t\t// margin to distinguish between 0 and 180 degrees\n\n\t\t\tte = m.elements,\n\n\t\t\tm11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ],\n\t\t\tm21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ],\n\t\t\tm31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ];\n\n\t\tif ( ( Math.abs( m12 - m21 ) < epsilon ) &&\n\t\t ( Math.abs( m13 - m31 ) < epsilon ) &&\n\t\t ( Math.abs( m23 - m32 ) < epsilon ) ) {\n\n\t\t\t// singularity found\n\t\t\t// first check for identity matrix which must have +1 for all terms\n\t\t\t// in leading diagonal and zero in other terms\n\n\t\t\tif ( ( Math.abs( m12 + m21 ) < epsilon2 ) &&\n\t\t\t ( Math.abs( m13 + m31 ) < epsilon2 ) &&\n\t\t\t ( Math.abs( m23 + m32 ) < epsilon2 ) &&\n\t\t\t ( Math.abs( m11 + m22 + m33 - 3 ) < epsilon2 ) ) {\n\n\t\t\t\t// this singularity is identity matrix so angle = 0\n\n\t\t\t\tthis.set( 1, 0, 0, 0 );\n\n\t\t\t\treturn this; // zero angle, arbitrary axis\n\n\t\t\t}\n\n\t\t\t// otherwise this singularity is angle = 180\n\n\t\t\tangle = Math.PI;\n\n\t\t\tconst xx = ( m11 + 1 ) / 2;\n\t\t\tconst yy = ( m22 + 1 ) / 2;\n\t\t\tconst zz = ( m33 + 1 ) / 2;\n\t\t\tconst xy = ( m12 + m21 ) / 4;\n\t\t\tconst xz = ( m13 + m31 ) / 4;\n\t\t\tconst yz = ( m23 + m32 ) / 4;\n\n\t\t\tif ( ( xx > yy ) && ( xx > zz ) ) {\n\n\t\t\t\t// m11 is the largest diagonal term\n\n\t\t\t\tif ( xx < epsilon ) {\n\n\t\t\t\t\tx = 0;\n\t\t\t\t\ty = 0.707106781;\n\t\t\t\t\tz = 0.707106781;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tx = Math.sqrt( xx );\n\t\t\t\t\ty = xy / x;\n\t\t\t\t\tz = xz / x;\n\n\t\t\t\t}\n\n\t\t\t} else if ( yy > zz ) {\n\n\t\t\t\t// m22 is the largest diagonal term\n\n\t\t\t\tif ( yy < epsilon ) {\n\n\t\t\t\t\tx = 0.707106781;\n\t\t\t\t\ty = 0;\n\t\t\t\t\tz = 0.707106781;\n\n\t\t\t\t} else {\n\n\t\t\t\t\ty = Math.sqrt( yy );\n\t\t\t\t\tx = xy / y;\n\t\t\t\t\tz = yz / y;\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// m33 is the largest diagonal term so base result on this\n\n\t\t\t\tif ( zz < epsilon ) {\n\n\t\t\t\t\tx = 0.707106781;\n\t\t\t\t\ty = 0.707106781;\n\t\t\t\t\tz = 0;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tz = Math.sqrt( zz );\n\t\t\t\t\tx = xz / z;\n\t\t\t\t\ty = yz / z;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.set( x, y, z, angle );\n\n\t\t\treturn this; // return 180 deg rotation\n\n\t\t}\n\n\t\t// as we have reached here there are no singularities so we can handle normally\n\n\t\tlet s = Math.sqrt( ( m32 - m23 ) * ( m32 - m23 ) +\n\t\t\t( m13 - m31 ) * ( m13 - m31 ) +\n\t\t\t( m21 - m12 ) * ( m21 - m12 ) ); // used to normalize\n\n\t\tif ( Math.abs( s ) < 0.001 ) s = 1;\n\n\t\t// prevent divide by zero, should not happen if matrix is orthogonal and should be\n\t\t// caught by singularity test above, but I've left it in just in case\n\n\t\tthis.x = ( m32 - m23 ) / s;\n\t\tthis.y = ( m13 - m31 ) / s;\n\t\tthis.z = ( m21 - m12 ) / s;\n\t\tthis.w = Math.acos( ( m11 + m22 + m33 - 1 ) / 2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the position elements of the\n\t * given transformation matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetFromMatrixPosition( m ) {\n\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 12 ];\n\t\tthis.y = e[ 13 ];\n\t\tthis.z = e[ 14 ];\n\t\tthis.w = e[ 15 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w value is greater than the given vector's x, y, z or w\n\t * value, replace that value with the corresponding min value.\n\t *\n\t * @param {Vector4} v - The vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmin( v ) {\n\n\t\tthis.x = Math.min( this.x, v.x );\n\t\tthis.y = Math.min( this.y, v.y );\n\t\tthis.z = Math.min( this.z, v.z );\n\t\tthis.w = Math.min( this.w, v.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w value is less than the given vector's x, y, z or w\n\t * value, replace that value with the corresponding max value.\n\t *\n\t * @param {Vector4} v - The vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmax( v ) {\n\n\t\tthis.x = Math.max( this.x, v.x );\n\t\tthis.y = Math.max( this.y, v.y );\n\t\tthis.z = Math.max( this.z, v.z );\n\t\tthis.w = Math.max( this.w, v.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w value is greater than the max vector's x, y, z or w\n\t * value, it is replaced by the corresponding value.\n\t * If this vector's x, y, z or w value is less than the min vector's x, y, z or w value,\n\t * it is replaced by the corresponding value.\n\t *\n\t * @param {Vector4} min - The minimum x, y and z values.\n\t * @param {Vector4} max - The maximum x, y and z values in the desired range.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tclamp( min, max ) {\n\n\t\t// assumes min < max, componentwise\n\n\t\tthis.x = clamp( this.x, min.x, max.x );\n\t\tthis.y = clamp( this.y, min.y, max.y );\n\t\tthis.z = clamp( this.z, min.z, max.z );\n\t\tthis.w = clamp( this.w, min.w, max.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w values are greater than the max value, they are\n\t * replaced by the max value.\n\t * If this vector's x, y, z or w values are less than the min value, they are\n\t * replaced by the min value.\n\t *\n\t * @param {number} minVal - The minimum value the components will be clamped to.\n\t * @param {number} maxVal - The maximum value the components will be clamped to.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tclampScalar( minVal, maxVal ) {\n\n\t\tthis.x = clamp( this.x, minVal, maxVal );\n\t\tthis.y = clamp( this.y, minVal, maxVal );\n\t\tthis.z = clamp( this.z, minVal, maxVal );\n\t\tthis.w = clamp( this.w, minVal, maxVal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's length is greater than the max value, it is replaced by\n\t * the max value.\n\t * If this vector's length is less than the min value, it is replaced by the\n\t * min value.\n\t *\n\t * @param {number} min - The minimum value the vector length will be clamped to.\n\t * @param {number} max - The maximum value the vector length will be clamped to.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tclampLength( min, max ) {\n\n\t\tconst length = this.length();\n\n\t\treturn this.divideScalar( length || 1 ).multiplyScalar( clamp( length, min, max ) );\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded down to the nearest integer value.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tfloor() {\n\n\t\tthis.x = Math.floor( this.x );\n\t\tthis.y = Math.floor( this.y );\n\t\tthis.z = Math.floor( this.z );\n\t\tthis.w = Math.floor( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded up to the nearest integer value.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tceil() {\n\n\t\tthis.x = Math.ceil( this.x );\n\t\tthis.y = Math.ceil( this.y );\n\t\tthis.z = Math.ceil( this.z );\n\t\tthis.w = Math.ceil( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded to the nearest integer value\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tround() {\n\n\t\tthis.x = Math.round( this.x );\n\t\tthis.y = Math.round( this.y );\n\t\tthis.z = Math.round( this.z );\n\t\tthis.w = Math.round( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded towards zero (up if negative,\n\t * down if positive) to an integer value.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\troundToZero() {\n\n\t\tthis.x = Math.trunc( this.x );\n\t\tthis.y = Math.trunc( this.y );\n\t\tthis.z = Math.trunc( this.z );\n\t\tthis.w = Math.trunc( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this vector - i.e. sets x = -x, y = -y, z = -z, w = -w.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tnegate() {\n\n\t\tthis.x = - this.x;\n\t\tthis.y = - this.y;\n\t\tthis.z = - this.z;\n\t\tthis.w = - this.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of the given vector with this instance.\n\t *\n\t * @param {Vector4} v - The vector to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this.x * v.x + this.y * v.y + this.z * v.z + this.w * v.w;\n\n\t}\n\n\t/**\n\t * Computes the square of the Euclidean length (straight-line length) from\n\t * (0, 0, 0, 0) to (x, y, z, w). If you are comparing the lengths of vectors, you should\n\t * compare the length squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @return {number} The square length of this vector.\n\t */\n\tlengthSq() {\n\n\t\treturn this.x * this.x + this.y * this.y + this.z * this.z + this.w * this.w;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) from (0, 0, 0, 0) to (x, y, z, w).\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this.x * this.x + this.y * this.y + this.z * this.z + this.w * this.w );\n\n\t}\n\n\t/**\n\t * Computes the Manhattan length of this vector.\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tmanhattanLength() {\n\n\t\treturn Math.abs( this.x ) + Math.abs( this.y ) + Math.abs( this.z ) + Math.abs( this.w );\n\n\t}\n\n\t/**\n\t * Converts this vector to a unit vector - that is, sets it equal to a vector\n\t * with the same direction as this one, but with a vector length of `1`.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tnormalize() {\n\n\t\treturn this.divideScalar( this.length() || 1 );\n\n\t}\n\n\t/**\n\t * Sets this vector to a vector with the same direction as this one, but\n\t * with the specified length.\n\t *\n\t * @param {number} length - The new length of this vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetLength( length ) {\n\n\t\treturn this.normalize().multiplyScalar( length );\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vector and this instance, where\n\t * alpha is the percent distance along the line - alpha = 0 will be this\n\t * vector, and alpha = 1 will be the given one.\n\t *\n\t * @param {Vector4} v - The vector to interpolate towards.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tlerp( v, alpha ) {\n\n\t\tthis.x += ( v.x - this.x ) * alpha;\n\t\tthis.y += ( v.y - this.y ) * alpha;\n\t\tthis.z += ( v.z - this.z ) * alpha;\n\t\tthis.w += ( v.w - this.w ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vectors, where alpha is the percent\n\t * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n\t * be the second one. The result is stored in this instance.\n\t *\n\t * @param {Vector4} v1 - The first vector.\n\t * @param {Vector4} v2 - The second vector.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tlerpVectors( v1, v2, alpha ) {\n\n\t\tthis.x = v1.x + ( v2.x - v1.x ) * alpha;\n\t\tthis.y = v1.y + ( v2.y - v1.y ) * alpha;\n\t\tthis.z = v1.z + ( v2.z - v1.z ) * alpha;\n\t\tthis.w = v1.w + ( v2.w - v1.w ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this vector is equal with the given one.\n\t *\n\t * @param {Vector4} v - The vector to test for equality.\n\t * @return {boolean} Whether this vector is equal with the given one.\n\t */\n\tequals( v ) {\n\n\t\treturn ( ( v.x === this.x ) && ( v.y === this.y ) && ( v.z === this.z ) && ( v.w === this.w ) );\n\n\t}\n\n\t/**\n\t * Sets this vector's x value to be `array[ offset ]`, y value to be `array[ offset + 1 ]`,\n\t * z value to be `array[ offset + 2 ]`, w value to be `array[ offset + 3 ]`.\n\t *\n\t * @param {Array} array - An array holding the vector component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.x = array[ offset ];\n\t\tthis.y = array[ offset + 1 ];\n\t\tthis.z = array[ offset + 2 ];\n\t\tthis.w = array[ offset + 3 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this vector to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the vector components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The vector components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.x;\n\t\tarray[ offset + 1 ] = this.y;\n\t\tarray[ offset + 2 ] = this.z;\n\t\tarray[ offset + 3 ] = this.w;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this vector from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.x = attribute.getX( index );\n\t\tthis.y = attribute.getY( index );\n\t\tthis.z = attribute.getZ( index );\n\t\tthis.w = attribute.getW( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets each component of this vector to a pseudo-random value between `0` and\n\t * `1`, excluding `1`.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\trandom() {\n\n\t\tthis.x = Math.random();\n\t\tthis.y = Math.random();\n\t\tthis.z = Math.random();\n\t\tthis.w = Math.random();\n\n\t\treturn this;\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.x;\n\t\tyield this.y;\n\t\tyield this.z;\n\t\tyield this.w;\n\n\t}\n\n}\n\n/**\n * A render target is a buffer where the video card draws pixels for a scene\n * that is being rendered in the background. It is used in different effects,\n * such as applying postprocessing to a rendered image before displaying it\n * on the screen.\n *\n * @augments EventDispatcher\n */\nclass RenderTarget extends EventDispatcher {\n\n\t/**\n\t * Render target options.\n\t *\n\t * @typedef {Object} RenderTarget~Options\n\t * @property {boolean} [generateMipmaps=false] - Whether to generate mipmaps or not.\n\t * @property {number} [magFilter=LinearFilter] - The mag filter.\n\t * @property {number} [minFilter=LinearFilter] - The min filter.\n\t * @property {number} [format=RGBAFormat] - The texture format.\n\t * @property {number} [type=UnsignedByteType] - The texture type.\n\t * @property {?string} [internalFormat=null] - The texture's internal format.\n\t * @property {number} [wrapS=ClampToEdgeWrapping] - The texture's uv wrapping mode.\n\t * @property {number} [wrapT=ClampToEdgeWrapping] - The texture's uv wrapping mode.\n\t * @property {number} [anisotropy=1] - The texture's anisotropy value.\n\t * @property {string} [colorSpace=NoColorSpace] - The texture's color space.\n\t * @property {boolean} [depthBuffer=true] - Whether to allocate a depth buffer or not.\n\t * @property {boolean} [stencilBuffer=false] - Whether to allocate a stencil buffer or not.\n\t * @property {boolean} [resolveDepthBuffer=true] - Whether to resolve the depth buffer or not.\n\t * @property {boolean} [resolveStencilBuffer=true] - Whether to resolve the stencil buffer or not.\n\t * @property {?Texture} [depthTexture=null] - Reference to a depth texture.\n\t * @property {number} [samples=0] - The MSAA samples count.\n\t * @property {number} [count=1] - Defines the number of color attachments . Must be at least `1`.\n\t * @property {number} [depth=1] - The texture depth.\n\t * @property {boolean} [multiview=false] - Whether this target is used for multiview rendering.\n\t */\n\n\t/**\n\t * Constructs a new render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, options = {} ) {\n\n\t\tsuper();\n\n\t\toptions = Object.assign( {\n\t\t\tgenerateMipmaps: false,\n\t\t\tinternalFormat: null,\n\t\t\tminFilter: LinearFilter,\n\t\t\tdepthBuffer: true,\n\t\t\tstencilBuffer: false,\n\t\t\tresolveDepthBuffer: true,\n\t\t\tresolveStencilBuffer: true,\n\t\t\tdepthTexture: null,\n\t\t\tsamples: 0,\n\t\t\tcount: 1,\n\t\t\tdepth: 1,\n\t\t\tmultiview: false\n\t\t}, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRenderTarget = true;\n\n\t\t/**\n\t\t * The width of the render target.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.width = width;\n\n\t\t/**\n\t\t * The height of the render target.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.height = height;\n\n\t\t/**\n\t\t * The depth of the render target.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.depth = options.depth;\n\n\t\t/**\n\t\t * A rectangular area inside the render target's viewport. Fragments that are\n\t\t * outside the area will be discarded.\n\t\t *\n\t\t * @type {Vector4}\n\t\t * @default (0,0,width,height)\n\t\t */\n\t\tthis.scissor = new Vector4( 0, 0, width, height );\n\n\t\t/**\n\t\t * Indicates whether the scissor test should be enabled when rendering into\n\t\t * this render target or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.scissorTest = false;\n\n\t\t/**\n\t\t * A rectangular area representing the render target's viewport.\n\t\t *\n\t\t * @type {Vector4}\n\t\t * @default (0,0,width,height)\n\t\t */\n\t\tthis.viewport = new Vector4( 0, 0, width, height );\n\n\t\tconst image = { width: width, height: height, depth: options.depth };\n\n\t\tconst texture = new Texture( image );\n\n\t\t/**\n\t\t * An array of textures. Each color attachment is represented as a separate texture.\n\t\t * Has at least a single entry for the default color attachment.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.textures = [];\n\n\t\tconst count = options.count;\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.textures[ i ] = texture.clone();\n\t\t\tthis.textures[ i ].isRenderTargetTexture = true;\n\t\t\tthis.textures[ i ].renderTarget = this;\n\n\t\t}\n\n\t\tthis._setTextureOptions( options );\n\n\t\t/**\n\t\t * Whether to allocate a depth buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.depthBuffer = options.depthBuffer;\n\n\t\t/**\n\t\t * Whether to allocate a stencil buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.stencilBuffer = options.stencilBuffer;\n\n\t\t/**\n\t\t * Whether to resolve the depth buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.resolveDepthBuffer = options.resolveDepthBuffer;\n\n\t\t/**\n\t\t * Whether to resolve the stencil buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.resolveStencilBuffer = options.resolveStencilBuffer;\n\n\t\tthis._depthTexture = null;\n\t\tthis.depthTexture = options.depthTexture;\n\n\t\t/**\n\t\t * The number of MSAA samples.\n\t\t *\n\t\t * A value of `0` disables MSAA.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.samples = options.samples;\n\n\t\t/**\n\t\t * Whether to this target is used in multiview rendering.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.multiview = options.multiview;\n\n\t}\n\n\t_setTextureOptions( options = {} ) {\n\n\t\tconst values = {\n\t\t\tminFilter: LinearFilter,\n\t\t\tgenerateMipmaps: false,\n\t\t\tflipY: false,\n\t\t\tinternalFormat: null\n\t\t};\n\n\t\tif ( options.mapping !== undefined ) values.mapping = options.mapping;\n\t\tif ( options.wrapS !== undefined ) values.wrapS = options.wrapS;\n\t\tif ( options.wrapT !== undefined ) values.wrapT = options.wrapT;\n\t\tif ( options.wrapR !== undefined ) values.wrapR = options.wrapR;\n\t\tif ( options.magFilter !== undefined ) values.magFilter = options.magFilter;\n\t\tif ( options.minFilter !== undefined ) values.minFilter = options.minFilter;\n\t\tif ( options.format !== undefined ) values.format = options.format;\n\t\tif ( options.type !== undefined ) values.type = options.type;\n\t\tif ( options.anisotropy !== undefined ) values.anisotropy = options.anisotropy;\n\t\tif ( options.colorSpace !== undefined ) values.colorSpace = options.colorSpace;\n\t\tif ( options.flipY !== undefined ) values.flipY = options.flipY;\n\t\tif ( options.generateMipmaps !== undefined ) values.generateMipmaps = options.generateMipmaps;\n\t\tif ( options.internalFormat !== undefined ) values.internalFormat = options.internalFormat;\n\n\t\tfor ( let i = 0; i < this.textures.length; i ++ ) {\n\n\t\t\tconst texture = this.textures[ i ];\n\t\t\ttexture.setValues( values );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * The texture representing the default color attachment.\n\t *\n\t * @type {Texture}\n\t */\n\tget texture() {\n\n\t\treturn this.textures[ 0 ];\n\n\t}\n\n\tset texture( value ) {\n\n\t\tthis.textures[ 0 ] = value;\n\n\t}\n\n\tset depthTexture( current ) {\n\n\t\tif ( this._depthTexture !== null ) this._depthTexture.renderTarget = null;\n\t\tif ( current !== null ) current.renderTarget = this;\n\n\t\tthis._depthTexture = current;\n\n\t}\n\n\t/**\n\t * Instead of saving the depth in a renderbuffer, a texture\n\t * can be used instead which is useful for further processing\n\t * e.g. in context of post-processing.\n\t *\n\t * @type {?DepthTexture}\n\t * @default null\n\t */\n\tget depthTexture() {\n\n\t\treturn this._depthTexture;\n\n\t}\n\n\t/**\n\t * Sets the size of this render target.\n\t *\n\t * @param {number} width - The width.\n\t * @param {number} height - The height.\n\t * @param {number} [depth=1] - The depth.\n\t */\n\tsetSize( width, height, depth = 1 ) {\n\n\t\tif ( this.width !== width || this.height !== height || this.depth !== depth ) {\n\n\t\t\tthis.width = width;\n\t\t\tthis.height = height;\n\t\t\tthis.depth = depth;\n\n\t\t\tfor ( let i = 0, il = this.textures.length; i < il; i ++ ) {\n\n\t\t\t\tthis.textures[ i ].image.width = width;\n\t\t\t\tthis.textures[ i ].image.height = height;\n\t\t\t\tthis.textures[ i ].image.depth = depth;\n\t\t\t\tthis.textures[ i ].isArrayTexture = this.textures[ i ].image.depth > 1;\n\n\t\t\t}\n\n\t\t\tthis.dispose();\n\n\t\t}\n\n\t\tthis.viewport.set( 0, 0, width, height );\n\t\tthis.scissor.set( 0, 0, width, height );\n\n\t}\n\n\t/**\n\t * Returns a new render target with copied values from this instance.\n\t *\n\t * @return {RenderTarget} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the settings of the given render target. This is a structural copy so\n\t * no resources are shared between render targets after the copy. That includes\n\t * all MRT textures and the depth texture.\n\t *\n\t * @param {RenderTarget} source - The render target to copy.\n\t * @return {RenderTarget} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.width = source.width;\n\t\tthis.height = source.height;\n\t\tthis.depth = source.depth;\n\n\t\tthis.scissor.copy( source.scissor );\n\t\tthis.scissorTest = source.scissorTest;\n\n\t\tthis.viewport.copy( source.viewport );\n\n\t\tthis.textures.length = 0;\n\n\t\tfor ( let i = 0, il = source.textures.length; i < il; i ++ ) {\n\n\t\t\tthis.textures[ i ] = source.textures[ i ].clone();\n\t\t\tthis.textures[ i ].isRenderTargetTexture = true;\n\t\t\tthis.textures[ i ].renderTarget = this;\n\n\t\t\t// ensure image object is not shared, see #20328\n\n\t\t\tconst image = Object.assign( {}, source.textures[ i ].image );\n\t\t\tthis.textures[ i ].source = new Source( image );\n\n\t\t}\n\n\t\tthis.depthBuffer = source.depthBuffer;\n\t\tthis.stencilBuffer = source.stencilBuffer;\n\n\t\tthis.resolveDepthBuffer = source.resolveDepthBuffer;\n\t\tthis.resolveStencilBuffer = source.resolveStencilBuffer;\n\n\t\tif ( source.depthTexture !== null ) this.depthTexture = source.depthTexture.clone();\n\n\t\tthis.samples = source.samples;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires RenderTarget#dispose\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n}\n\n/**\n * A render target used in context of {@link WebGLRenderer}.\n *\n * @augments RenderTarget\n */\nclass WebGLRenderTarget extends RenderTarget {\n\n\t/**\n\t * Constructs a new 3D render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGLRenderTarget = true;\n\n\t}\n\n}\n\n/**\n * Creates an array of textures directly from raw buffer data.\n *\n * @augments Texture\n */\nclass DataArrayTexture extends Texture {\n\n\t/**\n\t * Constructs a new data array texture.\n\t *\n\t * @param {?TypedArray} [data=null] - The buffer data.\n\t * @param {number} [width=1] - The width of the texture.\n\t * @param {number} [height=1] - The height of the texture.\n\t * @param {number} [depth=1] - The depth of the texture.\n\t */\n\tconstructor( data = null, width = 1, height = 1, depth = 1 ) {\n\n\t\tsuper( null );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDataArrayTexture = true;\n\n\t\t/**\n\t\t * The image definition of a data texture.\n\t\t *\n\t\t * @type {{data:TypedArray,width:number,height:number,depth:number}}\n\t\t */\n\t\tthis.image = { data, width, height, depth };\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.magFilter = NearestFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.minFilter = NearestFilter;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped in the depth and corresponds to\n\t\t * *W* in UVW mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapR = ClampToEdgeWrapping;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t *\n\t\t * Overwritten and set to `1` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default 1\n\t\t */\n\t\tthis.unpackAlignment = 1;\n\n\t\t/**\n\t\t * A set of all layers which need to be updated in the texture.\n\t\t *\n\t\t * @type {Set}\n\t\t */\n\t\tthis.layerUpdates = new Set();\n\n\t}\n\n\t/**\n\t * Describes that a specific layer of the texture needs to be updated.\n\t * Normally when {@link Texture#needsUpdate} is set to `true`, the\n\t * entire data texture array is sent to the GPU. Marking specific\n\t * layers will only transmit subsets of all mipmaps associated with a\n\t * specific depth in the array which is often much more performant.\n\t *\n\t * @param {number} layerIndex - The layer index that should be updated.\n\t */\n\taddLayerUpdate( layerIndex ) {\n\n\t\tthis.layerUpdates.add( layerIndex );\n\n\t}\n\n\t/**\n\t * Resets the layer updates registry.\n\t */\n\tclearLayerUpdates() {\n\n\t\tthis.layerUpdates.clear();\n\n\t}\n\n}\n\n/**\n * An array render target used in context of {@link WebGLRenderer}.\n *\n * @augments WebGLRenderTarget\n */\nclass WebGLArrayRenderTarget extends WebGLRenderTarget {\n\n\t/**\n\t * Constructs a new array render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {number} [depth=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGLArrayRenderTarget = true;\n\n\t\tthis.depth = depth;\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {DataArrayTexture}\n\t\t */\n\t\tthis.texture = new DataArrayTexture( null, width, height, depth );\n\t\tthis._setTextureOptions( options );\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n}\n\n/**\n * Creates a three-dimensional texture from raw data, with parameters to\n * divide it into width, height, and depth.\n *\n * @augments Texture\n */\nclass Data3DTexture extends Texture {\n\n\t/**\n\t * Constructs a new data array texture.\n\t *\n\t * @param {?TypedArray} [data=null] - The buffer data.\n\t * @param {number} [width=1] - The width of the texture.\n\t * @param {number} [height=1] - The height of the texture.\n\t * @param {number} [depth=1] - The depth of the texture.\n\t */\n\tconstructor( data = null, width = 1, height = 1, depth = 1 ) {\n\n\t\t// We're going to add .setXXX() methods for setting properties later.\n\t\t// Users can still set in Data3DTexture directly.\n\t\t//\n\t\t//\tconst texture = new THREE.Data3DTexture( data, width, height, depth );\n\t\t// \ttexture.anisotropy = 16;\n\t\t//\n\t\t// See #14839\n\n\t\tsuper( null );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isData3DTexture = true;\n\n\t\t/**\n\t\t * The image definition of a data texture.\n\t\t *\n\t\t * @type {{data:TypedArray,width:number,height:number,depth:number}}\n\t\t */\n\t\tthis.image = { data, width, height, depth };\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.magFilter = NearestFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.minFilter = NearestFilter;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped in the depth and corresponds to\n\t\t * *W* in UVW mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapR = ClampToEdgeWrapping;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t *\n\t\t * Overwritten and set to `1` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default 1\n\t\t */\n\t\tthis.unpackAlignment = 1;\n\n\t}\n\n}\n\n/**\n * A 3D render target used in context of {@link WebGLRenderer}.\n *\n * @augments WebGLRenderTarget\n */\nclass WebGL3DRenderTarget extends WebGLRenderTarget {\n\n\t/**\n\t * Constructs a new 3D render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {number} [depth=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGL3DRenderTarget = true;\n\n\t\tthis.depth = depth;\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {Data3DTexture}\n\t\t */\n\t\tthis.texture = new Data3DTexture( null, width, height, depth );\n\t\tthis._setTextureOptions( options );\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n}\n\n/**\n * Represents an axis-aligned bounding box (AABB) in 3D space.\n */\nclass Box3 {\n\n\t/**\n\t * Constructs a new bounding box.\n\t *\n\t * @param {Vector3} [min=(Infinity,Infinity,Infinity)] - A vector representing the lower boundary of the box.\n\t * @param {Vector3} [max=(-Infinity,-Infinity,-Infinity)] - A vector representing the upper boundary of the box.\n\t */\n\tconstructor( min = new Vector3( + Infinity, + Infinity, + Infinity ), max = new Vector3( - Infinity, - Infinity, - Infinity ) ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBox3 = true;\n\n\t\t/**\n\t\t * The lower boundary of the box.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.min = min;\n\n\t\t/**\n\t\t * The upper boundary of the box.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.max = max;\n\n\t}\n\n\t/**\n\t * Sets the lower and upper boundaries of this box.\n\t * Please note that this method only copies the values from the given objects.\n\t *\n\t * @param {Vector3} min - The lower boundary of the box.\n\t * @param {Vector3} max - The upper boundary of the box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tset( min, max ) {\n\n\t\tthis.min.copy( min );\n\t\tthis.max.copy( max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given array.\n\t *\n\t * @param {Array} array - An array holding 3D position data.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromArray( array ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = array.length; i < il; i += 3 ) {\n\n\t\t\tthis.expandByPoint( _vector$b.fromArray( array, i ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - A buffer attribute holding 3D position data.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromBufferAttribute( attribute ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = attribute.count; i < il; i ++ ) {\n\n\t\t\tthis.expandByPoint( _vector$b.fromBufferAttribute( attribute, i ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given array.\n\t *\n\t * @param {Array} points - An array holding 3D position data as instances of {@link Vector3}.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = points.length; i < il; i ++ ) {\n\n\t\t\tthis.expandByPoint( points[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Centers this box on the given center vector and sets this box's width, height and\n\t * depth to the given size values.\n\t *\n\t * @param {Vector3} center - The center of the box.\n\t * @param {Vector3} size - The x, y and z dimensions of the box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromCenterAndSize( center, size ) {\n\n\t\tconst halfSize = _vector$b.copy( size ).multiplyScalar( 0.5 );\n\n\t\tthis.min.copy( center ).sub( halfSize );\n\t\tthis.max.copy( center ).add( halfSize );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the world-axis-aligned bounding box for the given 3D object\n\t * (including its children), accounting for the object's, and children's,\n\t * world transforms. The function may result in a larger box than strictly necessary.\n\t *\n\t * @param {Object3D} object - The 3D object to compute the bounding box for.\n\t * @param {boolean} [precise=false] - If set to `true`, the method computes the smallest\n\t * world-axis-aligned bounding box at the expense of more computation.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromObject( object, precise = false ) {\n\n\t\tthis.makeEmpty();\n\n\t\treturn this.expandByObject( object, precise );\n\n\t}\n\n\t/**\n\t * Returns a new box with copied values from this instance.\n\t *\n\t * @return {Box3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given box to this instance.\n\t *\n\t * @param {Box3} box - The box to copy.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tcopy( box ) {\n\n\t\tthis.min.copy( box.min );\n\t\tthis.max.copy( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Makes this box empty which means in encloses a zero space in 3D.\n\t *\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tmakeEmpty() {\n\n\t\tthis.min.x = this.min.y = this.min.z = + Infinity;\n\t\tthis.max.x = this.max.y = this.max.z = - Infinity;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns true if this box includes zero points within its bounds.\n\t * Note that a box with equal lower and upper bounds still includes one\n\t * point, the one both bounds share.\n\t *\n\t * @return {boolean} Whether this box is empty or not.\n\t */\n\tisEmpty() {\n\n\t\t// this is a more robust check for empty than ( volume <= 0 ) because volume can get positive with two negative axes\n\n\t\treturn ( this.max.x < this.min.x ) || ( this.max.y < this.min.y ) || ( this.max.z < this.min.z );\n\n\t}\n\n\t/**\n\t * Returns the center point of this box.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The center point.\n\t */\n\tgetCenter( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0, 0 ) : target.addVectors( this.min, this.max ).multiplyScalar( 0.5 );\n\n\t}\n\n\t/**\n\t * Returns the dimensions of this box.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The size.\n\t */\n\tgetSize( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0, 0 ) : target.subVectors( this.max, this.min );\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this box to include the given point.\n\t *\n\t * @param {Vector3} point - The point that should be included by the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByPoint( point ) {\n\n\t\tthis.min.min( point );\n\t\tthis.max.max( point );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands this box equilaterally by the given vector. The width of this\n\t * box will be expanded by the x component of the vector in both\n\t * directions. The height of this box will be expanded by the y component of\n\t * the vector in both directions. The depth of this box will be\n\t * expanded by the z component of the vector in both directions.\n\t *\n\t * @param {Vector3} vector - The vector that should expand the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByVector( vector ) {\n\n\t\tthis.min.sub( vector );\n\t\tthis.max.add( vector );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands each dimension of the box by the given scalar. If negative, the\n\t * dimensions of the box will be contracted.\n\t *\n\t * @param {number} scalar - The scalar value that should expand the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByScalar( scalar ) {\n\n\t\tthis.min.addScalar( - scalar );\n\t\tthis.max.addScalar( scalar );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this box to include the given 3D object and\n\t * its children, accounting for the object's, and children's, world\n\t * transforms. The function may result in a larger box than strictly\n\t * necessary (unless the precise parameter is set to true).\n\t *\n\t * @param {Object3D} object - The 3D object that should expand the bounding box.\n\t * @param {boolean} precise - If set to `true`, the method expands the bounding box\n\t * as little as necessary at the expense of more computation.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByObject( object, precise = false ) {\n\n\t\t// Computes the world-axis-aligned bounding box of an object (including its children),\n\t\t// accounting for both the object's, and children's, world transforms\n\n\t\tobject.updateWorldMatrix( false, false );\n\n\t\tconst geometry = object.geometry;\n\n\t\tif ( geometry !== undefined ) {\n\n\t\t\tconst positionAttribute = geometry.getAttribute( 'position' );\n\n\t\t\t// precise AABB computation based on vertex data requires at least a position attribute.\n\t\t\t// instancing isn't supported so far and uses the normal (conservative) code path.\n\n\t\t\tif ( precise === true && positionAttribute !== undefined && object.isInstancedMesh !== true ) {\n\n\t\t\t\tfor ( let i = 0, l = positionAttribute.count; i < l; i ++ ) {\n\n\t\t\t\t\tif ( object.isMesh === true ) {\n\n\t\t\t\t\t\tobject.getVertexPosition( i, _vector$b );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t_vector$b.fromBufferAttribute( positionAttribute, i );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t_vector$b.applyMatrix4( object.matrixWorld );\n\t\t\t\t\tthis.expandByPoint( _vector$b );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tif ( object.boundingBox !== undefined ) {\n\n\t\t\t\t\t// object-level bounding box\n\n\t\t\t\t\tif ( object.boundingBox === null ) {\n\n\t\t\t\t\t\tobject.computeBoundingBox();\n\n\t\t\t\t\t}\n\n\t\t\t\t\t_box$4.copy( object.boundingBox );\n\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// geometry-level bounding box\n\n\t\t\t\t\tif ( geometry.boundingBox === null ) {\n\n\t\t\t\t\t\tgeometry.computeBoundingBox();\n\n\t\t\t\t\t}\n\n\t\t\t\t\t_box$4.copy( geometry.boundingBox );\n\n\t\t\t\t}\n\n\t\t\t\t_box$4.applyMatrix4( object.matrixWorld );\n\n\t\t\t\tthis.union( _box$4 );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst children = object.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tthis.expandByObject( children[ i ], precise );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within or on the boundaries of this box.\n\t *\n\t * @param {Vector3} point - The point to test.\n\t * @return {boolean} Whether the bounding box contains the given point or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn point.x >= this.min.x && point.x <= this.max.x &&\n\t\t\tpoint.y >= this.min.y && point.y <= this.max.y &&\n\t\t\tpoint.z >= this.min.z && point.z <= this.max.z;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box includes the entirety of the given bounding box.\n\t * If this box and the given one are identical, this function also returns `true`.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the bounding box contains the given bounding box or not.\n\t */\n\tcontainsBox( box ) {\n\n\t\treturn this.min.x <= box.min.x && box.max.x <= this.max.x &&\n\t\t\tthis.min.y <= box.min.y && box.max.y <= this.max.y &&\n\t\t\tthis.min.z <= box.min.z && box.max.z <= this.max.z;\n\n\t}\n\n\t/**\n\t * Returns a point as a proportion of this box's width, height and depth.\n\t *\n\t * @param {Vector3} point - A point in 3D space.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} A point as a proportion of this box's width, height and depth.\n\t */\n\tgetParameter( point, target ) {\n\n\t\t// This can potentially have a divide by zero if the box\n\t\t// has a size dimension of 0.\n\n\t\treturn target.set(\n\t\t\t( point.x - this.min.x ) / ( this.max.x - this.min.x ),\n\t\t\t( point.y - this.min.y ) / ( this.max.y - this.min.y ),\n\t\t\t( point.z - this.min.z ) / ( this.max.z - this.min.z )\n\t\t);\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box intersects with this bounding box.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the given bounding box intersects with this bounding box.\n\t */\n\tintersectsBox( box ) {\n\n\t\t// using 6 splitting planes to rule out intersections.\n\t\treturn box.max.x >= this.min.x && box.min.x <= this.max.x &&\n\t\t\tbox.max.y >= this.min.y && box.min.y <= this.max.y &&\n\t\t\tbox.max.z >= this.min.z && box.min.z <= this.max.z;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere intersects with this bounding box.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @return {boolean} Whether the given bounding sphere intersects with this bounding box.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\t// Find the point on the AABB closest to the sphere center.\n\t\tthis.clampPoint( sphere.center, _vector$b );\n\n\t\t// If that point is inside the sphere, the AABB and sphere intersect.\n\t\treturn _vector$b.distanceToSquared( sphere.center ) <= ( sphere.radius * sphere.radius );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given plane intersects with this bounding box.\n\t *\n\t * @param {Plane} plane - The plane to test.\n\t * @return {boolean} Whether the given plane intersects with this bounding box.\n\t */\n\tintersectsPlane( plane ) {\n\n\t\t// We compute the minimum and maximum dot product values. If those values\n\t\t// are on the same side (back or front) of the plane, then there is no intersection.\n\n\t\tlet min, max;\n\n\t\tif ( plane.normal.x > 0 ) {\n\n\t\t\tmin = plane.normal.x * this.min.x;\n\t\t\tmax = plane.normal.x * this.max.x;\n\n\t\t} else {\n\n\t\t\tmin = plane.normal.x * this.max.x;\n\t\t\tmax = plane.normal.x * this.min.x;\n\n\t\t}\n\n\t\tif ( plane.normal.y > 0 ) {\n\n\t\t\tmin += plane.normal.y * this.min.y;\n\t\t\tmax += plane.normal.y * this.max.y;\n\n\t\t} else {\n\n\t\t\tmin += plane.normal.y * this.max.y;\n\t\t\tmax += plane.normal.y * this.min.y;\n\n\t\t}\n\n\t\tif ( plane.normal.z > 0 ) {\n\n\t\t\tmin += plane.normal.z * this.min.z;\n\t\t\tmax += plane.normal.z * this.max.z;\n\n\t\t} else {\n\n\t\t\tmin += plane.normal.z * this.max.z;\n\t\t\tmax += plane.normal.z * this.min.z;\n\n\t\t}\n\n\t\treturn ( min <= - plane.constant && max >= - plane.constant );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given triangle intersects with this bounding box.\n\t *\n\t * @param {Triangle} triangle - The triangle to test.\n\t * @return {boolean} Whether the given triangle intersects with this bounding box.\n\t */\n\tintersectsTriangle( triangle ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\t// compute box center and extents\n\t\tthis.getCenter( _center );\n\t\t_extents.subVectors( this.max, _center );\n\n\t\t// translate triangle to aabb origin\n\t\t_v0$2.subVectors( triangle.a, _center );\n\t\t_v1$7.subVectors( triangle.b, _center );\n\t\t_v2$4.subVectors( triangle.c, _center );\n\n\t\t// compute edge vectors for triangle\n\t\t_f0.subVectors( _v1$7, _v0$2 );\n\t\t_f1.subVectors( _v2$4, _v1$7 );\n\t\t_f2.subVectors( _v0$2, _v2$4 );\n\n\t\t// test against axes that are given by cross product combinations of the edges of the triangle and the edges of the aabb\n\t\t// make an axis testing of each of the 3 sides of the aabb against each of the 3 sides of the triangle = 9 axis of separation\n\t\t// axis_ij = u_i x f_j (u0, u1, u2 = face normals of aabb = x,y,z axes vectors since aabb is axis aligned)\n\t\tlet axes = [\n\t\t\t0, - _f0.z, _f0.y, 0, - _f1.z, _f1.y, 0, - _f2.z, _f2.y,\n\t\t\t_f0.z, 0, - _f0.x, _f1.z, 0, - _f1.x, _f2.z, 0, - _f2.x,\n\t\t\t- _f0.y, _f0.x, 0, - _f1.y, _f1.x, 0, - _f2.y, _f2.x, 0\n\t\t];\n\t\tif ( ! satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents ) ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\t// test 3 face normals from the aabb\n\t\taxes = [ 1, 0, 0, 0, 1, 0, 0, 0, 1 ];\n\t\tif ( ! satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents ) ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\t// finally testing the face normal of the triangle\n\t\t// use already existing triangle edge vectors here\n\t\t_triangleNormal.crossVectors( _f0, _f1 );\n\t\taxes = [ _triangleNormal.x, _triangleNormal.y, _triangleNormal.z ];\n\n\t\treturn satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents );\n\n\t}\n\n\t/**\n\t * Clamps the given point within the bounds of this box.\n\t *\n\t * @param {Vector3} point - The point to clamp.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The clamped point.\n\t */\n\tclampPoint( point, target ) {\n\n\t\treturn target.copy( point ).clamp( this.min, this.max );\n\n\t}\n\n\t/**\n\t * Returns the euclidean distance from any edge of this box to the specified point. If\n\t * the given point lies inside of this box, the distance will be `0`.\n\t *\n\t * @param {Vector3} point - The point to compute the distance to.\n\t * @return {number} The euclidean distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn this.clampPoint( point, _vector$b ).distanceTo( point );\n\n\t}\n\n\t/**\n\t * Returns a bounding sphere that encloses this bounding box.\n\t *\n\t * @param {Sphere} target - The target sphere that is used to store the method's result.\n\t * @return {Sphere} The bounding sphere that encloses this bounding box.\n\t */\n\tgetBoundingSphere( target ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\ttarget.makeEmpty();\n\n\t\t} else {\n\n\t\t\tthis.getCenter( target.center );\n\n\t\t\ttarget.radius = this.getSize( _vector$b ).length() * 0.5;\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Computes the intersection of this bounding box and the given one, setting the upper\n\t * bound of this box to the lesser of the two boxes' upper bounds and the\n\t * lower bound of this box to the greater of the two boxes' lower bounds. If\n\t * there's no overlap, makes this box empty.\n\t *\n\t * @param {Box3} box - The bounding box to intersect with.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tintersect( box ) {\n\n\t\tthis.min.max( box.min );\n\t\tthis.max.min( box.max );\n\n\t\t// ensure that if there is no overlap, the result is fully empty, not slightly empty with non-inf/+inf values that will cause subsequence intersects to erroneously return valid values.\n\t\tif ( this.isEmpty() ) this.makeEmpty();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the union of this box and another and the given one, setting the upper\n\t * bound of this box to the greater of the two boxes' upper bounds and the\n\t * lower bound of this box to the lesser of the two boxes' lower bounds.\n\t *\n\t * @param {Box3} box - The bounding box that will be unioned with this instance.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tunion( box ) {\n\n\t\tthis.min.min( box.min );\n\t\tthis.max.max( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Transforms this bounding box by the given 4x4 transformation matrix.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\t// transform of empty box is an empty box.\n\t\tif ( this.isEmpty() ) return this;\n\n\t\t// NOTE: I am using a binary pattern to specify all 2^3 combinations below\n\t\t_points[ 0 ].set( this.min.x, this.min.y, this.min.z ).applyMatrix4( matrix ); // 000\n\t\t_points[ 1 ].set( this.min.x, this.min.y, this.max.z ).applyMatrix4( matrix ); // 001\n\t\t_points[ 2 ].set( this.min.x, this.max.y, this.min.z ).applyMatrix4( matrix ); // 010\n\t\t_points[ 3 ].set( this.min.x, this.max.y, this.max.z ).applyMatrix4( matrix ); // 011\n\t\t_points[ 4 ].set( this.max.x, this.min.y, this.min.z ).applyMatrix4( matrix ); // 100\n\t\t_points[ 5 ].set( this.max.x, this.min.y, this.max.z ).applyMatrix4( matrix ); // 101\n\t\t_points[ 6 ].set( this.max.x, this.max.y, this.min.z ).applyMatrix4( matrix ); // 110\n\t\t_points[ 7 ].set( this.max.x, this.max.y, this.max.z ).applyMatrix4( matrix ); // 111\n\n\t\tthis.setFromPoints( _points );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given offset to both the upper and lower bounds of this bounding box,\n\t * effectively moving it in 3D space.\n\t *\n\t * @param {Vector3} offset - The offset that should be used to translate the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.min.add( offset );\n\t\tthis.max.add( offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box is equal with the given one.\n\t *\n\t * @param {Box3} box - The box to test for equality.\n\t * @return {boolean} Whether this bounding box is equal with the given one.\n\t */\n\tequals( box ) {\n\n\t\treturn box.min.equals( this.min ) && box.max.equals( this.max );\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding box.\n\t *\n\t * @return {Object} Serialized structure with fields representing the object state.\n\t */\n\ttoJSON() {\n\n\t\treturn {\n\t\t\tmin: this.min.toArray(),\n\t\t\tmax: this.max.toArray()\n\t\t};\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding box.\n\t *\n\t * @param {Object} json - The serialized json to set the box from.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.min.fromArray( json.min );\n\t\tthis.max.fromArray( json.max );\n\t\treturn this;\n\n\t}\n\n}\n\nconst _points = [\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3()\n];\n\nconst _vector$b = /*@__PURE__*/ new Vector3();\n\nconst _box$4 = /*@__PURE__*/ new Box3();\n\n// triangle centered vertices\n\nconst _v0$2 = /*@__PURE__*/ new Vector3();\nconst _v1$7 = /*@__PURE__*/ new Vector3();\nconst _v2$4 = /*@__PURE__*/ new Vector3();\n\n// triangle edge vectors\n\nconst _f0 = /*@__PURE__*/ new Vector3();\nconst _f1 = /*@__PURE__*/ new Vector3();\nconst _f2 = /*@__PURE__*/ new Vector3();\n\nconst _center = /*@__PURE__*/ new Vector3();\nconst _extents = /*@__PURE__*/ new Vector3();\nconst _triangleNormal = /*@__PURE__*/ new Vector3();\nconst _testAxis = /*@__PURE__*/ new Vector3();\n\nfunction satForAxes( axes, v0, v1, v2, extents ) {\n\n\tfor ( let i = 0, j = axes.length - 3; i <= j; i += 3 ) {\n\n\t\t_testAxis.fromArray( axes, i );\n\t\t// project the aabb onto the separating axis\n\t\tconst r = extents.x * Math.abs( _testAxis.x ) + extents.y * Math.abs( _testAxis.y ) + extents.z * Math.abs( _testAxis.z );\n\t\t// project all 3 vertices of the triangle onto the separating axis\n\t\tconst p0 = v0.dot( _testAxis );\n\t\tconst p1 = v1.dot( _testAxis );\n\t\tconst p2 = v2.dot( _testAxis );\n\t\t// actual test, basically see if either of the most extreme of the triangle points intersects r\n\t\tif ( Math.max( - Math.max( p0, p1, p2 ), Math.min( p0, p1, p2 ) ) > r ) {\n\n\t\t\t// points of the projected triangle are outside the projected half-length of the aabb\n\t\t\t// the axis is separating and we can exit\n\t\t\treturn false;\n\n\t\t}\n\n\t}\n\n\treturn true;\n\n}\n\nconst _box$3 = /*@__PURE__*/ new Box3();\nconst _v1$6 = /*@__PURE__*/ new Vector3();\nconst _v2$3 = /*@__PURE__*/ new Vector3();\n\n/**\n * An analytical 3D sphere defined by a center and radius. This class is mainly\n * used as a Bounding Sphere for 3D objects.\n */\nclass Sphere {\n\n\t/**\n\t * Constructs a new sphere.\n\t *\n\t * @param {Vector3} [center=(0,0,0)] - The center of the sphere\n\t * @param {number} [radius=-1] - The radius of the sphere.\n\t */\n\tconstructor( center = new Vector3(), radius = -1 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSphere = true;\n\n\t\t/**\n\t\t * The center of the sphere\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.center = center;\n\n\t\t/**\n\t\t * The radius of the sphere.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.radius = radius;\n\n\t}\n\n\t/**\n\t * Sets the sphere's components by copying the given values.\n\t *\n\t * @param {Vector3} center - The center.\n\t * @param {number} radius - The radius.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tset( center, radius ) {\n\n\t\tthis.center.copy( center );\n\t\tthis.radius = radius;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the minimum bounding sphere for list of points.\n\t * If the optional center point is given, it is used as the sphere's\n\t * center. Otherwise, the center of the axis-aligned bounding box\n\t * encompassing the points is calculated.\n\t *\n\t * @param {Array} points - A list of points in 3D space.\n\t * @param {Vector3} [optionalCenter] - The center of the sphere.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tsetFromPoints( points, optionalCenter ) {\n\n\t\tconst center = this.center;\n\n\t\tif ( optionalCenter !== undefined ) {\n\n\t\t\tcenter.copy( optionalCenter );\n\n\t\t} else {\n\n\t\t\t_box$3.setFromPoints( points ).getCenter( center );\n\n\t\t}\n\n\t\tlet maxRadiusSq = 0;\n\n\t\tfor ( let i = 0, il = points.length; i < il; i ++ ) {\n\n\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( points[ i ] ) );\n\n\t\t}\n\n\t\tthis.radius = Math.sqrt( maxRadiusSq );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given sphere to this instance.\n\t *\n\t * @param {Sphere} sphere - The sphere to copy.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tcopy( sphere ) {\n\n\t\tthis.center.copy( sphere.center );\n\t\tthis.radius = sphere.radius;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the sphere is empty (the radius set to a negative number).\n\t *\n\t * Spheres with a radius of `0` contain only their center point and are not\n\t * considered to be empty.\n\t *\n\t * @return {boolean} Whether this sphere is empty or not.\n\t */\n\tisEmpty() {\n\n\t\treturn ( this.radius < 0 );\n\n\t}\n\n\t/**\n\t * Makes this sphere empty which means in encloses a zero space in 3D.\n\t *\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tmakeEmpty() {\n\n\t\tthis.center.set( 0, 0, 0 );\n\t\tthis.radius = -1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere contains the given point inclusive of\n\t * the surface of the sphere.\n\t *\n\t * @param {Vector3} point - The point to check.\n\t * @return {boolean} Whether this sphere contains the given point or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn ( point.distanceToSquared( this.center ) <= ( this.radius * this.radius ) );\n\n\t}\n\n\t/**\n\t * Returns the closest distance from the boundary of the sphere to the\n\t * given point. If the sphere contains the point, the distance will\n\t * be negative.\n\t *\n\t * @param {Vector3} point - The point to compute the distance to.\n\t * @return {number} The distance to the point.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn ( point.distanceTo( this.center ) - this.radius );\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere intersects with the given one.\n\t *\n\t * @param {Sphere} sphere - The sphere to test.\n\t * @return {boolean} Whether this sphere intersects with the given one or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\tconst radiusSum = this.radius + sphere.radius;\n\n\t\treturn sphere.center.distanceToSquared( this.center ) <= ( radiusSum * radiusSum );\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere intersects with the given box.\n\t *\n\t * @param {Box3} box - The box to test.\n\t * @return {boolean} Whether this sphere intersects with the given box or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn box.intersectsSphere( this );\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere intersects with the given plane.\n\t *\n\t * @param {Plane} plane - The plane to test.\n\t * @return {boolean} Whether this sphere intersects with the given plane or not.\n\t */\n\tintersectsPlane( plane ) {\n\n\t\treturn Math.abs( plane.distanceToPoint( this.center ) ) <= this.radius;\n\n\t}\n\n\t/**\n\t * Clamps a point within the sphere. If the point is outside the sphere, it\n\t * will clamp it to the closest point on the edge of the sphere. Points\n\t * already inside the sphere will not be affected.\n\t *\n\t * @param {Vector3} point - The plane to clamp.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The clamped point.\n\t */\n\tclampPoint( point, target ) {\n\n\t\tconst deltaLengthSq = this.center.distanceToSquared( point );\n\n\t\ttarget.copy( point );\n\n\t\tif ( deltaLengthSq > ( this.radius * this.radius ) ) {\n\n\t\t\ttarget.sub( this.center ).normalize();\n\t\t\ttarget.multiplyScalar( this.radius ).add( this.center );\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns a bounding box that encloses this sphere.\n\t *\n\t * @param {Box3} target - The target box that is used to store the method's result.\n\t * @return {Box3} The bounding box that encloses this sphere.\n\t */\n\tgetBoundingBox( target ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\t// Empty sphere produces empty bounding box\n\t\t\ttarget.makeEmpty();\n\t\t\treturn target;\n\n\t\t}\n\n\t\ttarget.set( this.center, this.center );\n\t\ttarget.expandByScalar( this.radius );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Transforms this sphere with the given 4x4 transformation matrix.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tthis.center.applyMatrix4( matrix );\n\t\tthis.radius = this.radius * matrix.getMaxScaleOnAxis();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates the sphere's center by the given offset.\n\t *\n\t * @param {Vector3} offset - The offset.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.center.add( offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this sphere to include the given point.\n\t *\n\t * @param {Vector3} point - The point to include.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\texpandByPoint( point ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\tthis.center.copy( point );\n\n\t\t\tthis.radius = 0;\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\t_v1$6.subVectors( point, this.center );\n\n\t\tconst lengthSq = _v1$6.lengthSq();\n\n\t\tif ( lengthSq > ( this.radius * this.radius ) ) {\n\n\t\t\t// calculate the minimal sphere\n\n\t\t\tconst length = Math.sqrt( lengthSq );\n\n\t\t\tconst delta = ( length - this.radius ) * 0.5;\n\n\t\t\tthis.center.addScaledVector( _v1$6, delta / length );\n\n\t\t\tthis.radius += delta;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands this sphere to enclose both the original sphere and the given sphere.\n\t *\n\t * @param {Sphere} sphere - The sphere to include.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tunion( sphere ) {\n\n\t\tif ( sphere.isEmpty() ) {\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\tthis.copy( sphere );\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( this.center.equals( sphere.center ) === true ) {\n\n\t\t\t this.radius = Math.max( this.radius, sphere.radius );\n\n\t\t} else {\n\n\t\t\t_v2$3.subVectors( sphere.center, this.center ).setLength( sphere.radius );\n\n\t\t\tthis.expandByPoint( _v1$6.copy( sphere.center ).add( _v2$3 ) );\n\n\t\t\tthis.expandByPoint( _v1$6.copy( sphere.center ).sub( _v2$3 ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere is equal with the given one.\n\t *\n\t * @param {Sphere} sphere - The sphere to test for equality.\n\t * @return {boolean} Whether this bounding sphere is equal with the given one.\n\t */\n\tequals( sphere ) {\n\n\t\treturn sphere.center.equals( this.center ) && ( sphere.radius === this.radius );\n\n\t}\n\n\t/**\n\t * Returns a new sphere with copied values from this instance.\n\t *\n\t * @return {Sphere} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding sphere.\n\t *\n\t * @return {Object} Serialized structure with fields representing the object state.\n\t */\n\ttoJSON() {\n\n\t\treturn {\n\t\t\tradius: this.radius,\n\t\t\tcenter: this.center.toArray()\n\t\t};\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding sphere.\n\t *\n\t * @param {Object} json - The serialized json to set the sphere from.\n\t * @return {Box3} A reference to this bounding sphere.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.radius = json.radius;\n\t\tthis.center.fromArray( json.center );\n\t\treturn this;\n\n\t}\n\n}\n\nconst _vector$a = /*@__PURE__*/ new Vector3();\nconst _segCenter = /*@__PURE__*/ new Vector3();\nconst _segDir = /*@__PURE__*/ new Vector3();\nconst _diff = /*@__PURE__*/ new Vector3();\n\nconst _edge1 = /*@__PURE__*/ new Vector3();\nconst _edge2 = /*@__PURE__*/ new Vector3();\nconst _normal$1 = /*@__PURE__*/ new Vector3();\n\n/**\n * A ray that emits from an origin in a certain direction. The class is used by\n * {@link Raycaster} to assist with raycasting. Raycasting is used for\n * mouse picking (working out what objects in the 3D space the mouse is over)\n * amongst other things.\n */\nclass Ray {\n\n\t/**\n\t * Constructs a new ray.\n\t *\n\t * @param {Vector3} [origin=(0,0,0)] - The origin of the ray.\n\t * @param {Vector3} [direction=(0,0,-1)] - The (normalized) direction of the ray.\n\t */\n\tconstructor( origin = new Vector3(), direction = new Vector3( 0, 0, -1 ) ) {\n\n\t\t/**\n\t\t * The origin of the ray.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.origin = origin;\n\n\t\t/**\n\t\t * The (normalized) direction of the ray.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.direction = direction;\n\n\t}\n\n\t/**\n\t * Sets the ray's components by copying the given values.\n\t *\n\t * @param {Vector3} origin - The origin.\n\t * @param {Vector3} direction - The direction.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tset( origin, direction ) {\n\n\t\tthis.origin.copy( origin );\n\t\tthis.direction.copy( direction );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given ray to this instance.\n\t *\n\t * @param {Ray} ray - The ray to copy.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tcopy( ray ) {\n\n\t\tthis.origin.copy( ray.origin );\n\t\tthis.direction.copy( ray.direction );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a vector that is located at a given distance along this ray.\n\t *\n\t * @param {number} t - The distance along the ray to retrieve a position for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} A position on the ray.\n\t */\n\tat( t, target ) {\n\n\t\treturn target.copy( this.origin ).addScaledVector( this.direction, t );\n\n\t}\n\n\t/**\n\t * Adjusts the direction of the ray to point at the given vector in world space.\n\t *\n\t * @param {Vector3} v - The target position.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tlookAt( v ) {\n\n\t\tthis.direction.copy( v ).sub( this.origin ).normalize();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Shift the origin of this ray along its direction by the given distance.\n\t *\n\t * @param {number} t - The distance along the ray to interpolate.\n\t * @return {Ray} A reference to this ray.\n\t */\n\trecast( t ) {\n\n\t\tthis.origin.copy( this.at( t, _vector$a ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the point along this ray that is closest to the given point.\n\t *\n\t * @param {Vector3} point - A point in 3D space to get the closet location on the ray for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The closest point on this ray.\n\t */\n\tclosestPointToPoint( point, target ) {\n\n\t\ttarget.subVectors( point, this.origin );\n\n\t\tconst directionDistance = target.dot( this.direction );\n\n\t\tif ( directionDistance < 0 ) {\n\n\t\t\treturn target.copy( this.origin );\n\n\t\t}\n\n\t\treturn target.copy( this.origin ).addScaledVector( this.direction, directionDistance );\n\n\t}\n\n\t/**\n\t * Returns the distance of the closest approach between this ray and the given point.\n\t *\n\t * @param {Vector3} point - A point in 3D space to compute the distance to.\n\t * @return {number} The distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn Math.sqrt( this.distanceSqToPoint( point ) );\n\n\t}\n\n\t/**\n\t * Returns the squared distance of the closest approach between this ray and the given point.\n\t *\n\t * @param {Vector3} point - A point in 3D space to compute the distance to.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceSqToPoint( point ) {\n\n\t\tconst directionDistance = _vector$a.subVectors( point, this.origin ).dot( this.direction );\n\n\t\t// point behind the ray\n\n\t\tif ( directionDistance < 0 ) {\n\n\t\t\treturn this.origin.distanceToSquared( point );\n\n\t\t}\n\n\t\t_vector$a.copy( this.origin ).addScaledVector( this.direction, directionDistance );\n\n\t\treturn _vector$a.distanceToSquared( point );\n\n\t}\n\n\t/**\n\t * Returns the squared distance between this ray and the given line segment.\n\t *\n\t * @param {Vector3} v0 - The start point of the line segment.\n\t * @param {Vector3} v1 - The end point of the line segment.\n\t * @param {Vector3} [optionalPointOnRay] - When provided, it receives the point on this ray that is closest to the segment.\n\t * @param {Vector3} [optionalPointOnSegment] - When provided, it receives the point on the line segment that is closest to this ray.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceSqToSegment( v0, v1, optionalPointOnRay, optionalPointOnSegment ) {\n\n\t\t// from https://github.com/pmjoniak/GeometricTools/blob/master/GTEngine/Include/Mathematics/GteDistRaySegment.h\n\t\t// It returns the min distance between the ray and the segment\n\t\t// defined by v0 and v1\n\t\t// It can also set two optional targets :\n\t\t// - The closest point on the ray\n\t\t// - The closest point on the segment\n\n\t\t_segCenter.copy( v0 ).add( v1 ).multiplyScalar( 0.5 );\n\t\t_segDir.copy( v1 ).sub( v0 ).normalize();\n\t\t_diff.copy( this.origin ).sub( _segCenter );\n\n\t\tconst segExtent = v0.distanceTo( v1 ) * 0.5;\n\t\tconst a01 = - this.direction.dot( _segDir );\n\t\tconst b0 = _diff.dot( this.direction );\n\t\tconst b1 = - _diff.dot( _segDir );\n\t\tconst c = _diff.lengthSq();\n\t\tconst det = Math.abs( 1 - a01 * a01 );\n\t\tlet s0, s1, sqrDist, extDet;\n\n\t\tif ( det > 0 ) {\n\n\t\t\t// The ray and segment are not parallel.\n\n\t\t\ts0 = a01 * b1 - b0;\n\t\t\ts1 = a01 * b0 - b1;\n\t\t\textDet = segExtent * det;\n\n\t\t\tif ( s0 >= 0 ) {\n\n\t\t\t\tif ( s1 >= - extDet ) {\n\n\t\t\t\t\tif ( s1 <= extDet ) {\n\n\t\t\t\t\t\t// region 0\n\t\t\t\t\t\t// Minimum at interior points of ray and segment.\n\n\t\t\t\t\t\tconst invDet = 1 / det;\n\t\t\t\t\t\ts0 *= invDet;\n\t\t\t\t\t\ts1 *= invDet;\n\t\t\t\t\t\tsqrDist = s0 * ( s0 + a01 * s1 + 2 * b0 ) + s1 * ( a01 * s0 + s1 + 2 * b1 ) + c;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// region 1\n\n\t\t\t\t\t\ts1 = segExtent;\n\t\t\t\t\t\ts0 = Math.max( 0, - ( a01 * s1 + b0 ) );\n\t\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// region 5\n\n\t\t\t\t\ts1 = - segExtent;\n\t\t\t\t\ts0 = Math.max( 0, - ( a01 * s1 + b0 ) );\n\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tif ( s1 <= - extDet ) {\n\n\t\t\t\t\t// region 4\n\n\t\t\t\t\ts0 = Math.max( 0, - ( - a01 * segExtent + b0 ) );\n\t\t\t\t\ts1 = ( s0 > 0 ) ? - segExtent : Math.min( Math.max( - segExtent, - b1 ), segExtent );\n\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t} else if ( s1 <= extDet ) {\n\n\t\t\t\t\t// region 3\n\n\t\t\t\t\ts0 = 0;\n\t\t\t\t\ts1 = Math.min( Math.max( - segExtent, - b1 ), segExtent );\n\t\t\t\t\tsqrDist = s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// region 2\n\n\t\t\t\t\ts0 = Math.max( 0, - ( a01 * segExtent + b0 ) );\n\t\t\t\t\ts1 = ( s0 > 0 ) ? segExtent : Math.min( Math.max( - segExtent, - b1 ), segExtent );\n\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\t// Ray and segment are parallel.\n\n\t\t\ts1 = ( a01 > 0 ) ? - segExtent : segExtent;\n\t\t\ts0 = Math.max( 0, - ( a01 * s1 + b0 ) );\n\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t}\n\n\t\tif ( optionalPointOnRay ) {\n\n\t\t\toptionalPointOnRay.copy( this.origin ).addScaledVector( this.direction, s0 );\n\n\t\t}\n\n\t\tif ( optionalPointOnSegment ) {\n\n\t\t\toptionalPointOnSegment.copy( _segCenter ).addScaledVector( _segDir, s1 );\n\n\t\t}\n\n\t\treturn sqrDist;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given sphere, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Sphere} sphere - The sphere to intersect.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectSphere( sphere, target ) {\n\n\t\t_vector$a.subVectors( sphere.center, this.origin );\n\t\tconst tca = _vector$a.dot( this.direction );\n\t\tconst d2 = _vector$a.dot( _vector$a ) - tca * tca;\n\t\tconst radius2 = sphere.radius * sphere.radius;\n\n\t\tif ( d2 > radius2 ) return null;\n\n\t\tconst thc = Math.sqrt( radius2 - d2 );\n\n\t\t// t0 = first intersect point - entrance on front of sphere\n\t\tconst t0 = tca - thc;\n\n\t\t// t1 = second intersect point - exit point on back of sphere\n\t\tconst t1 = tca + thc;\n\n\t\t// test to see if t1 is behind the ray - if so, return null\n\t\tif ( t1 < 0 ) return null;\n\n\t\t// test to see if t0 is behind the ray:\n\t\t// if it is, the ray is inside the sphere, so return the second exit point scaled by t1,\n\t\t// in order to always return an intersect point that is in front of the ray.\n\t\tif ( t0 < 0 ) return this.at( t1, target );\n\n\t\t// else t0 is in front of the ray, so return the first collision point scaled by t0\n\t\treturn this.at( t0, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray intersects with the given sphere.\n\t *\n\t * @param {Sphere} sphere - The sphere to intersect.\n\t * @return {boolean} Whether this ray intersects with the given sphere or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\tif ( sphere.radius < 0 ) return false; // handle empty spheres, see #31187\n\n\t\treturn this.distanceSqToPoint( sphere.center ) <= ( sphere.radius * sphere.radius );\n\n\t}\n\n\t/**\n\t * Computes the distance from the ray's origin to the given plane. Returns `null` if the ray\n\t * does not intersect with the plane.\n\t *\n\t * @param {Plane} plane - The plane to compute the distance to.\n\t * @return {?number} Whether this ray intersects with the given sphere or not.\n\t */\n\tdistanceToPlane( plane ) {\n\n\t\tconst denominator = plane.normal.dot( this.direction );\n\n\t\tif ( denominator === 0 ) {\n\n\t\t\t// line is coplanar, return origin\n\t\t\tif ( plane.distanceToPoint( this.origin ) === 0 ) {\n\n\t\t\t\treturn 0;\n\n\t\t\t}\n\n\t\t\t// Null is preferable to undefined since undefined means.... it is undefined\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst t = - ( this.origin.dot( plane.normal ) + plane.constant ) / denominator;\n\n\t\t// Return if the ray never intersects the plane\n\n\t\treturn t >= 0 ? t : null;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given plane, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Plane} plane - The plane to intersect.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectPlane( plane, target ) {\n\n\t\tconst t = this.distanceToPlane( plane );\n\n\t\tif ( t === null ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\treturn this.at( t, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray intersects with the given plane.\n\t *\n\t * @param {Plane} plane - The plane to intersect.\n\t * @return {boolean} Whether this ray intersects with the given plane or not.\n\t */\n\tintersectsPlane( plane ) {\n\n\t\t// check if the ray lies on the plane first\n\n\t\tconst distToPoint = plane.distanceToPoint( this.origin );\n\n\t\tif ( distToPoint === 0 ) {\n\n\t\t\treturn true;\n\n\t\t}\n\n\t\tconst denominator = plane.normal.dot( this.direction );\n\n\t\tif ( denominator * distToPoint < 0 ) {\n\n\t\t\treturn true;\n\n\t\t}\n\n\t\t// ray origin is behind the plane (and is pointing behind it)\n\n\t\treturn false;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given bounding box, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Box3} box - The box to intersect.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectBox( box, target ) {\n\n\t\tlet tmin, tmax, tymin, tymax, tzmin, tzmax;\n\n\t\tconst invdirx = 1 / this.direction.x,\n\t\t\tinvdiry = 1 / this.direction.y,\n\t\t\tinvdirz = 1 / this.direction.z;\n\n\t\tconst origin = this.origin;\n\n\t\tif ( invdirx >= 0 ) {\n\n\t\t\ttmin = ( box.min.x - origin.x ) * invdirx;\n\t\t\ttmax = ( box.max.x - origin.x ) * invdirx;\n\n\t\t} else {\n\n\t\t\ttmin = ( box.max.x - origin.x ) * invdirx;\n\t\t\ttmax = ( box.min.x - origin.x ) * invdirx;\n\n\t\t}\n\n\t\tif ( invdiry >= 0 ) {\n\n\t\t\ttymin = ( box.min.y - origin.y ) * invdiry;\n\t\t\ttymax = ( box.max.y - origin.y ) * invdiry;\n\n\t\t} else {\n\n\t\t\ttymin = ( box.max.y - origin.y ) * invdiry;\n\t\t\ttymax = ( box.min.y - origin.y ) * invdiry;\n\n\t\t}\n\n\t\tif ( ( tmin > tymax ) || ( tymin > tmax ) ) return null;\n\n\t\tif ( tymin > tmin || isNaN( tmin ) ) tmin = tymin;\n\n\t\tif ( tymax < tmax || isNaN( tmax ) ) tmax = tymax;\n\n\t\tif ( invdirz >= 0 ) {\n\n\t\t\ttzmin = ( box.min.z - origin.z ) * invdirz;\n\t\t\ttzmax = ( box.max.z - origin.z ) * invdirz;\n\n\t\t} else {\n\n\t\t\ttzmin = ( box.max.z - origin.z ) * invdirz;\n\t\t\ttzmax = ( box.min.z - origin.z ) * invdirz;\n\n\t\t}\n\n\t\tif ( ( tmin > tzmax ) || ( tzmin > tmax ) ) return null;\n\n\t\tif ( tzmin > tmin || tmin !== tmin ) tmin = tzmin;\n\n\t\tif ( tzmax < tmax || tmax !== tmax ) tmax = tzmax;\n\n\t\t//return point closest to the ray (positive side)\n\n\t\tif ( tmax < 0 ) return null;\n\n\t\treturn this.at( tmin >= 0 ? tmin : tmax, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray intersects with the given box.\n\t *\n\t * @param {Box3} box - The box to intersect.\n\t * @return {boolean} Whether this ray intersects with the given box or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn this.intersectBox( box, _vector$a ) !== null;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given triangle, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Vector3} a - The first vertex of the triangle.\n\t * @param {Vector3} b - The second vertex of the triangle.\n\t * @param {Vector3} c - The third vertex of the triangle.\n\t * @param {boolean} backfaceCulling - Whether to use backface culling or not.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectTriangle( a, b, c, backfaceCulling, target ) {\n\n\t\t// Compute the offset origin, edges, and normal.\n\n\t\t// from https://github.com/pmjoniak/GeometricTools/blob/master/GTEngine/Include/Mathematics/GteIntrRay3Triangle3.h\n\n\t\t_edge1.subVectors( b, a );\n\t\t_edge2.subVectors( c, a );\n\t\t_normal$1.crossVectors( _edge1, _edge2 );\n\n\t\t// Solve Q + t*D = b1*E1 + b2*E2 (Q = kDiff, D = ray direction,\n\t\t// E1 = kEdge1, E2 = kEdge2, N = Cross(E1,E2)) by\n\t\t// |Dot(D,N)|*b1 = sign(Dot(D,N))*Dot(D,Cross(Q,E2))\n\t\t// |Dot(D,N)|*b2 = sign(Dot(D,N))*Dot(D,Cross(E1,Q))\n\t\t// |Dot(D,N)|*t = -sign(Dot(D,N))*Dot(Q,N)\n\t\tlet DdN = this.direction.dot( _normal$1 );\n\t\tlet sign;\n\n\t\tif ( DdN > 0 ) {\n\n\t\t\tif ( backfaceCulling ) return null;\n\t\t\tsign = 1;\n\n\t\t} else if ( DdN < 0 ) {\n\n\t\t\tsign = -1;\n\t\t\tDdN = - DdN;\n\n\t\t} else {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t_diff.subVectors( this.origin, a );\n\t\tconst DdQxE2 = sign * this.direction.dot( _edge2.crossVectors( _diff, _edge2 ) );\n\n\t\t// b1 < 0, no intersection\n\t\tif ( DdQxE2 < 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst DdE1xQ = sign * this.direction.dot( _edge1.cross( _diff ) );\n\n\t\t// b2 < 0, no intersection\n\t\tif ( DdE1xQ < 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// b1+b2 > 1, no intersection\n\t\tif ( DdQxE2 + DdE1xQ > DdN ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// Line intersects triangle, check if ray does.\n\t\tconst QdN = - sign * _diff.dot( _normal$1 );\n\n\t\t// t < 0, no intersection\n\t\tif ( QdN < 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// Ray intersects triangle.\n\t\treturn this.at( QdN / DdN, target );\n\n\t}\n\n\t/**\n\t * Transforms this ray with the given 4x4 transformation matrix.\n\t *\n\t * @param {Matrix4} matrix4 - The transformation matrix.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tapplyMatrix4( matrix4 ) {\n\n\t\tthis.origin.applyMatrix4( matrix4 );\n\t\tthis.direction.transformDirection( matrix4 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray is equal with the given one.\n\t *\n\t * @param {Ray} ray - The ray to test for equality.\n\t * @return {boolean} Whether this ray is equal with the given one.\n\t */\n\tequals( ray ) {\n\n\t\treturn ray.origin.equals( this.origin ) && ray.direction.equals( this.direction );\n\n\t}\n\n\t/**\n\t * Returns a new ray with copied values from this instance.\n\t *\n\t * @return {Ray} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * Represents a 4x4 matrix.\n *\n * The most common use of a 4x4 matrix in 3D computer graphics is as a transformation matrix.\n * For an introduction to transformation matrices as used in WebGL, check out [this tutorial]{@link https://www.opengl-tutorial.org/beginners-tutorials/tutorial-3-matrices}\n *\n * This allows a 3D vector representing a point in 3D space to undergo\n * transformations such as translation, rotation, shear, scale, reflection,\n * orthogonal or perspective projection and so on, by being multiplied by the\n * matrix. This is known as `applying` the matrix to the vector.\n *\n * A Note on Row-Major and Column-Major Ordering:\n *\n * The constructor and {@link Matrix3#set} method take arguments in\n * [row-major]{@link https://en.wikipedia.org/wiki/Row-_and_column-major_order#Column-major_order}\n * order, while internally they are stored in the {@link Matrix3#elements} array in column-major order.\n * This means that calling:\n * ```js\n * const m = new THREE.Matrix4();\n * m.set( 11, 12, 13, 14,\n * 21, 22, 23, 24,\n * 31, 32, 33, 34,\n * 41, 42, 43, 44 );\n * ```\n * will result in the elements array containing:\n * ```js\n * m.elements = [ 11, 21, 31, 41,\n * 12, 22, 32, 42,\n * 13, 23, 33, 43,\n * 14, 24, 34, 44 ];\n * ```\n * and internally all calculations are performed using column-major ordering.\n * However, as the actual ordering makes no difference mathematically and\n * most people are used to thinking about matrices in row-major order, the\n * three.js documentation shows matrices in row-major order. Just bear in\n * mind that if you are reading the source code, you'll have to take the\n * transpose of any matrices outlined here to make sense of the calculations.\n */\nclass Matrix4 {\n\n\t/**\n\t * Constructs a new 4x4 matrix. The arguments are supposed to be\n\t * in row-major order. If no arguments are provided, the constructor\n\t * initializes the matrix as an identity matrix.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n14] - 1-4 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n24] - 2-4 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t * @param {number} [n34] - 3-4 matrix element.\n\t * @param {number} [n41] - 4-1 matrix element.\n\t * @param {number} [n42] - 4-2 matrix element.\n\t * @param {number} [n43] - 4-3 matrix element.\n\t * @param {number} [n44] - 4-4 matrix element.\n\t */\n\tconstructor( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tMatrix4.prototype.isMatrix4 = true;\n\n\t\t/**\n\t\t * A column-major list of matrix values.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.elements = [\n\n\t\t\t1, 0, 0, 0,\n\t\t\t0, 1, 0, 0,\n\t\t\t0, 0, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t];\n\n\t\tif ( n11 !== undefined ) {\n\n\t\t\tthis.set( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix.The arguments are supposed to be\n\t * in row-major order.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n14] - 1-4 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n24] - 2-4 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t * @param {number} [n34] - 3-4 matrix element.\n\t * @param {number} [n41] - 4-1 matrix element.\n\t * @param {number} [n42] - 4-2 matrix element.\n\t * @param {number} [n43] - 4-3 matrix element.\n\t * @param {number} [n44] - 4-4 matrix element.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tset( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] = n11; te[ 4 ] = n12; te[ 8 ] = n13; te[ 12 ] = n14;\n\t\tte[ 1 ] = n21; te[ 5 ] = n22; te[ 9 ] = n23; te[ 13 ] = n24;\n\t\tte[ 2 ] = n31; te[ 6 ] = n32; te[ 10 ] = n33; te[ 14 ] = n34;\n\t\tte[ 3 ] = n41; te[ 7 ] = n42; te[ 11 ] = n43; te[ 15 ] = n44;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix to the 4x4 identity matrix.\n\t *\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tidentity() {\n\n\t\tthis.set(\n\n\t\t\t1, 0, 0, 0,\n\t\t\t0, 1, 0, 0,\n\t\t\t0, 0, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a matrix with copied values from this instance.\n\t *\n\t * @return {Matrix4} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Matrix4().fromArray( this.elements );\n\n\t}\n\n\t/**\n\t * Copies the values of the given matrix to this instance.\n\t *\n\t * @param {Matrix4} m - The matrix to copy.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tcopy( m ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = m.elements;\n\n\t\tte[ 0 ] = me[ 0 ]; te[ 1 ] = me[ 1 ]; te[ 2 ] = me[ 2 ]; te[ 3 ] = me[ 3 ];\n\t\tte[ 4 ] = me[ 4 ]; te[ 5 ] = me[ 5 ]; te[ 6 ] = me[ 6 ]; te[ 7 ] = me[ 7 ];\n\t\tte[ 8 ] = me[ 8 ]; te[ 9 ] = me[ 9 ]; te[ 10 ] = me[ 10 ]; te[ 11 ] = me[ 11 ];\n\t\tte[ 12 ] = me[ 12 ]; te[ 13 ] = me[ 13 ]; te[ 14 ] = me[ 14 ]; te[ 15 ] = me[ 15 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the translation component of the given matrix\n\t * into this matrix's translation component.\n\t *\n\t * @param {Matrix4} m - The matrix to copy the translation component.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tcopyPosition( m ) {\n\n\t\tconst te = this.elements, me = m.elements;\n\n\t\tte[ 12 ] = me[ 12 ];\n\t\tte[ 13 ] = me[ 13 ];\n\t\tte[ 14 ] = me[ 14 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Set the upper 3x3 elements of this matrix to the values of given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The 3x3 matrix.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tsetFromMatrix3( m ) {\n\n\t\tconst me = m.elements;\n\n\t\tthis.set(\n\n\t\t\tme[ 0 ], me[ 3 ], me[ 6 ], 0,\n\t\t\tme[ 1 ], me[ 4 ], me[ 7 ], 0,\n\t\t\tme[ 2 ], me[ 5 ], me[ 8 ], 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Extracts the basis of this matrix into the three axis vectors provided.\n\t *\n\t * @param {Vector3} xAxis - The basis's x axis.\n\t * @param {Vector3} yAxis - The basis's y axis.\n\t * @param {Vector3} zAxis - The basis's z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\textractBasis( xAxis, yAxis, zAxis ) {\n\n\t\txAxis.setFromMatrixColumn( this, 0 );\n\t\tyAxis.setFromMatrixColumn( this, 1 );\n\t\tzAxis.setFromMatrixColumn( this, 2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given basis vectors to this matrix.\n\t *\n\t * @param {Vector3} xAxis - The basis's x axis.\n\t * @param {Vector3} yAxis - The basis's y axis.\n\t * @param {Vector3} zAxis - The basis's z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeBasis( xAxis, yAxis, zAxis ) {\n\n\t\tthis.set(\n\t\t\txAxis.x, yAxis.x, zAxis.x, 0,\n\t\t\txAxis.y, yAxis.y, zAxis.y, 0,\n\t\t\txAxis.z, yAxis.z, zAxis.z, 0,\n\t\t\t0, 0, 0, 1\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Extracts the rotation component of the given matrix\n\t * into this matrix's rotation component.\n\t *\n\t * Note: This method does not support reflection matrices.\n\t *\n\t * @param {Matrix4} m - The matrix.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\textractRotation( m ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = m.elements;\n\n\t\tconst scaleX = 1 / _v1$5.setFromMatrixColumn( m, 0 ).length();\n\t\tconst scaleY = 1 / _v1$5.setFromMatrixColumn( m, 1 ).length();\n\t\tconst scaleZ = 1 / _v1$5.setFromMatrixColumn( m, 2 ).length();\n\n\t\tte[ 0 ] = me[ 0 ] * scaleX;\n\t\tte[ 1 ] = me[ 1 ] * scaleX;\n\t\tte[ 2 ] = me[ 2 ] * scaleX;\n\t\tte[ 3 ] = 0;\n\n\t\tte[ 4 ] = me[ 4 ] * scaleY;\n\t\tte[ 5 ] = me[ 5 ] * scaleY;\n\t\tte[ 6 ] = me[ 6 ] * scaleY;\n\t\tte[ 7 ] = 0;\n\n\t\tte[ 8 ] = me[ 8 ] * scaleZ;\n\t\tte[ 9 ] = me[ 9 ] * scaleZ;\n\t\tte[ 10 ] = me[ 10 ] * scaleZ;\n\t\tte[ 11 ] = 0;\n\n\t\tte[ 12 ] = 0;\n\t\tte[ 13 ] = 0;\n\t\tte[ 14 ] = 0;\n\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the rotation component (the upper left 3x3 matrix) of this matrix to\n\t * the rotation specified by the given Euler angles. The rest of\n\t * the matrix is set to the identity. Depending on the {@link Euler#order},\n\t * there are six possible outcomes. See [this page]{@link https://en.wikipedia.org/wiki/Euler_angles#Rotation_matrix}\n\t * for a complete list.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationFromEuler( euler ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = euler.x, y = euler.y, z = euler.z;\n\t\tconst a = Math.cos( x ), b = Math.sin( x );\n\t\tconst c = Math.cos( y ), d = Math.sin( y );\n\t\tconst e = Math.cos( z ), f = Math.sin( z );\n\n\t\tif ( euler.order === 'XYZ' ) {\n\n\t\t\tconst ae = a * e, af = a * f, be = b * e, bf = b * f;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = - c * f;\n\t\t\tte[ 8 ] = d;\n\n\t\t\tte[ 1 ] = af + be * d;\n\t\t\tte[ 5 ] = ae - bf * d;\n\t\t\tte[ 9 ] = - b * c;\n\n\t\t\tte[ 2 ] = bf - ae * d;\n\t\t\tte[ 6 ] = be + af * d;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'YXZ' ) {\n\n\t\t\tconst ce = c * e, cf = c * f, de = d * e, df = d * f;\n\n\t\t\tte[ 0 ] = ce + df * b;\n\t\t\tte[ 4 ] = de * b - cf;\n\t\t\tte[ 8 ] = a * d;\n\n\t\t\tte[ 1 ] = a * f;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = - b;\n\n\t\t\tte[ 2 ] = cf * b - de;\n\t\t\tte[ 6 ] = df + ce * b;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'ZXY' ) {\n\n\t\t\tconst ce = c * e, cf = c * f, de = d * e, df = d * f;\n\n\t\t\tte[ 0 ] = ce - df * b;\n\t\t\tte[ 4 ] = - a * f;\n\t\t\tte[ 8 ] = de + cf * b;\n\n\t\t\tte[ 1 ] = cf + de * b;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = df - ce * b;\n\n\t\t\tte[ 2 ] = - a * d;\n\t\t\tte[ 6 ] = b;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'ZYX' ) {\n\n\t\t\tconst ae = a * e, af = a * f, be = b * e, bf = b * f;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = be * d - af;\n\t\t\tte[ 8 ] = ae * d + bf;\n\n\t\t\tte[ 1 ] = c * f;\n\t\t\tte[ 5 ] = bf * d + ae;\n\t\t\tte[ 9 ] = af * d - be;\n\n\t\t\tte[ 2 ] = - d;\n\t\t\tte[ 6 ] = b * c;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'YZX' ) {\n\n\t\t\tconst ac = a * c, ad = a * d, bc = b * c, bd = b * d;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = bd - ac * f;\n\t\t\tte[ 8 ] = bc * f + ad;\n\n\t\t\tte[ 1 ] = f;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = - b * e;\n\n\t\t\tte[ 2 ] = - d * e;\n\t\t\tte[ 6 ] = ad * f + bc;\n\t\t\tte[ 10 ] = ac - bd * f;\n\n\t\t} else if ( euler.order === 'XZY' ) {\n\n\t\t\tconst ac = a * c, ad = a * d, bc = b * c, bd = b * d;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = - f;\n\t\t\tte[ 8 ] = d * e;\n\n\t\t\tte[ 1 ] = ac * f + bd;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = ad * f - bc;\n\n\t\t\tte[ 2 ] = bc * f - ad;\n\t\t\tte[ 6 ] = b * e;\n\t\t\tte[ 10 ] = bd * f + ac;\n\n\t\t}\n\n\t\t// bottom row\n\t\tte[ 3 ] = 0;\n\t\tte[ 7 ] = 0;\n\t\tte[ 11 ] = 0;\n\n\t\t// last column\n\t\tte[ 12 ] = 0;\n\t\tte[ 13 ] = 0;\n\t\tte[ 14 ] = 0;\n\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the rotation component of this matrix to the rotation specified by\n\t * the given Quaternion as outlined [here]{@link https://en.wikipedia.org/wiki/Rotation_matrix#Quaternion}\n\t * The rest of the matrix is set to the identity.\n\t *\n\t * @param {Quaternion} q - The Quaternion.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationFromQuaternion( q ) {\n\n\t\treturn this.compose( _zero, q, _one );\n\n\t}\n\n\t/**\n\t * Sets the rotation component of the transformation matrix, looking from `eye` towards\n\t * `target`, and oriented by the up-direction.\n\t *\n\t * @param {Vector3} eye - The eye vector.\n\t * @param {Vector3} target - The target vector.\n\t * @param {Vector3} up - The up vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tlookAt( eye, target, up ) {\n\n\t\tconst te = this.elements;\n\n\t\t_z.subVectors( eye, target );\n\n\t\tif ( _z.lengthSq() === 0 ) {\n\n\t\t\t// eye and target are in the same position\n\n\t\t\t_z.z = 1;\n\n\t\t}\n\n\t\t_z.normalize();\n\t\t_x.crossVectors( up, _z );\n\n\t\tif ( _x.lengthSq() === 0 ) {\n\n\t\t\t// up and z are parallel\n\n\t\t\tif ( Math.abs( up.z ) === 1 ) {\n\n\t\t\t\t_z.x += 0.0001;\n\n\t\t\t} else {\n\n\t\t\t\t_z.z += 0.0001;\n\n\t\t\t}\n\n\t\t\t_z.normalize();\n\t\t\t_x.crossVectors( up, _z );\n\n\t\t}\n\n\t\t_x.normalize();\n\t\t_y.crossVectors( _z, _x );\n\n\t\tte[ 0 ] = _x.x; te[ 4 ] = _y.x; te[ 8 ] = _z.x;\n\t\tte[ 1 ] = _x.y; te[ 5 ] = _y.y; te[ 9 ] = _z.y;\n\t\tte[ 2 ] = _x.z; te[ 6 ] = _y.z; te[ 10 ] = _z.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Post-multiplies this matrix by the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The matrix to multiply with.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmultiply( m ) {\n\n\t\treturn this.multiplyMatrices( this, m );\n\n\t}\n\n\t/**\n\t * Pre-multiplies this matrix by the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The matrix to multiply with.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tpremultiply( m ) {\n\n\t\treturn this.multiplyMatrices( m, this );\n\n\t}\n\n\t/**\n\t * Multiples the given 4x4 matrices and stores the result\n\t * in this matrix.\n\t *\n\t * @param {Matrix4} a - The first matrix.\n\t * @param {Matrix4} b - The second matrix.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmultiplyMatrices( a, b ) {\n\n\t\tconst ae = a.elements;\n\t\tconst be = b.elements;\n\t\tconst te = this.elements;\n\n\t\tconst a11 = ae[ 0 ], a12 = ae[ 4 ], a13 = ae[ 8 ], a14 = ae[ 12 ];\n\t\tconst a21 = ae[ 1 ], a22 = ae[ 5 ], a23 = ae[ 9 ], a24 = ae[ 13 ];\n\t\tconst a31 = ae[ 2 ], a32 = ae[ 6 ], a33 = ae[ 10 ], a34 = ae[ 14 ];\n\t\tconst a41 = ae[ 3 ], a42 = ae[ 7 ], a43 = ae[ 11 ], a44 = ae[ 15 ];\n\n\t\tconst b11 = be[ 0 ], b12 = be[ 4 ], b13 = be[ 8 ], b14 = be[ 12 ];\n\t\tconst b21 = be[ 1 ], b22 = be[ 5 ], b23 = be[ 9 ], b24 = be[ 13 ];\n\t\tconst b31 = be[ 2 ], b32 = be[ 6 ], b33 = be[ 10 ], b34 = be[ 14 ];\n\t\tconst b41 = be[ 3 ], b42 = be[ 7 ], b43 = be[ 11 ], b44 = be[ 15 ];\n\n\t\tte[ 0 ] = a11 * b11 + a12 * b21 + a13 * b31 + a14 * b41;\n\t\tte[ 4 ] = a11 * b12 + a12 * b22 + a13 * b32 + a14 * b42;\n\t\tte[ 8 ] = a11 * b13 + a12 * b23 + a13 * b33 + a14 * b43;\n\t\tte[ 12 ] = a11 * b14 + a12 * b24 + a13 * b34 + a14 * b44;\n\n\t\tte[ 1 ] = a21 * b11 + a22 * b21 + a23 * b31 + a24 * b41;\n\t\tte[ 5 ] = a21 * b12 + a22 * b22 + a23 * b32 + a24 * b42;\n\t\tte[ 9 ] = a21 * b13 + a22 * b23 + a23 * b33 + a24 * b43;\n\t\tte[ 13 ] = a21 * b14 + a22 * b24 + a23 * b34 + a24 * b44;\n\n\t\tte[ 2 ] = a31 * b11 + a32 * b21 + a33 * b31 + a34 * b41;\n\t\tte[ 6 ] = a31 * b12 + a32 * b22 + a33 * b32 + a34 * b42;\n\t\tte[ 10 ] = a31 * b13 + a32 * b23 + a33 * b33 + a34 * b43;\n\t\tte[ 14 ] = a31 * b14 + a32 * b24 + a33 * b34 + a34 * b44;\n\n\t\tte[ 3 ] = a41 * b11 + a42 * b21 + a43 * b31 + a44 * b41;\n\t\tte[ 7 ] = a41 * b12 + a42 * b22 + a43 * b32 + a44 * b42;\n\t\tte[ 11 ] = a41 * b13 + a42 * b23 + a43 * b33 + a44 * b43;\n\t\tte[ 15 ] = a41 * b14 + a42 * b24 + a43 * b34 + a44 * b44;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies every component of the matrix by the given scalar.\n\t *\n\t * @param {number} s - The scalar.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmultiplyScalar( s ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] *= s; te[ 4 ] *= s; te[ 8 ] *= s; te[ 12 ] *= s;\n\t\tte[ 1 ] *= s; te[ 5 ] *= s; te[ 9 ] *= s; te[ 13 ] *= s;\n\t\tte[ 2 ] *= s; te[ 6 ] *= s; te[ 10 ] *= s; te[ 14 ] *= s;\n\t\tte[ 3 ] *= s; te[ 7 ] *= s; te[ 11 ] *= s; te[ 15 ] *= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes and returns the determinant of this matrix.\n\t *\n\t * Based on the method outlined [here]{@link http://www.euclideanspace.com/maths/algebra/matrix/functions/inverse/fourD/index.html}.\n\t *\n\t * @return {number} The determinant.\n\t */\n\tdeterminant() {\n\n\t\tconst te = this.elements;\n\n\t\tconst n11 = te[ 0 ], n12 = te[ 4 ], n13 = te[ 8 ], n14 = te[ 12 ];\n\t\tconst n21 = te[ 1 ], n22 = te[ 5 ], n23 = te[ 9 ], n24 = te[ 13 ];\n\t\tconst n31 = te[ 2 ], n32 = te[ 6 ], n33 = te[ 10 ], n34 = te[ 14 ];\n\t\tconst n41 = te[ 3 ], n42 = te[ 7 ], n43 = te[ 11 ], n44 = te[ 15 ];\n\n\t\t//TODO: make this more efficient\n\n\t\treturn (\n\t\t\tn41 * (\n\t\t\t\t+ n14 * n23 * n32\n\t\t\t\t - n13 * n24 * n32\n\t\t\t\t - n14 * n22 * n33\n\t\t\t\t + n12 * n24 * n33\n\t\t\t\t + n13 * n22 * n34\n\t\t\t\t - n12 * n23 * n34\n\t\t\t) +\n\t\t\tn42 * (\n\t\t\t\t+ n11 * n23 * n34\n\t\t\t\t - n11 * n24 * n33\n\t\t\t\t + n14 * n21 * n33\n\t\t\t\t - n13 * n21 * n34\n\t\t\t\t + n13 * n24 * n31\n\t\t\t\t - n14 * n23 * n31\n\t\t\t) +\n\t\t\tn43 * (\n\t\t\t\t+ n11 * n24 * n32\n\t\t\t\t - n11 * n22 * n34\n\t\t\t\t - n14 * n21 * n32\n\t\t\t\t + n12 * n21 * n34\n\t\t\t\t + n14 * n22 * n31\n\t\t\t\t - n12 * n24 * n31\n\t\t\t) +\n\t\t\tn44 * (\n\t\t\t\t- n13 * n22 * n31\n\t\t\t\t - n11 * n23 * n32\n\t\t\t\t + n11 * n22 * n33\n\t\t\t\t + n13 * n21 * n32\n\t\t\t\t - n12 * n21 * n33\n\t\t\t\t + n12 * n23 * n31\n\t\t\t)\n\n\t\t);\n\n\t}\n\n\t/**\n\t * Transposes this matrix in place.\n\t *\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\ttranspose() {\n\n\t\tconst te = this.elements;\n\t\tlet tmp;\n\n\t\ttmp = te[ 1 ]; te[ 1 ] = te[ 4 ]; te[ 4 ] = tmp;\n\t\ttmp = te[ 2 ]; te[ 2 ] = te[ 8 ]; te[ 8 ] = tmp;\n\t\ttmp = te[ 6 ]; te[ 6 ] = te[ 9 ]; te[ 9 ] = tmp;\n\n\t\ttmp = te[ 3 ]; te[ 3 ] = te[ 12 ]; te[ 12 ] = tmp;\n\t\ttmp = te[ 7 ]; te[ 7 ] = te[ 13 ]; te[ 13 ] = tmp;\n\t\ttmp = te[ 11 ]; te[ 11 ] = te[ 14 ]; te[ 14 ] = tmp;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the position component for this matrix from the given vector,\n\t * without affecting the rest of the matrix.\n\t *\n\t * @param {number|Vector3} x - The x component of the vector or alternatively the vector object.\n\t * @param {number} y - The y component of the vector.\n\t * @param {number} z - The z component of the vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tsetPosition( x, y, z ) {\n\n\t\tconst te = this.elements;\n\n\t\tif ( x.isVector3 ) {\n\n\t\t\tte[ 12 ] = x.x;\n\t\t\tte[ 13 ] = x.y;\n\t\t\tte[ 14 ] = x.z;\n\n\t\t} else {\n\n\t\t\tte[ 12 ] = x;\n\t\t\tte[ 13 ] = y;\n\t\t\tte[ 14 ] = z;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this matrix, using the [analytic method]{@link https://en.wikipedia.org/wiki/Invertible_matrix#Analytic_solution}.\n\t * You can not invert with a determinant of zero. If you attempt this, the method produces\n\t * a zero matrix instead.\n\t *\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tinvert() {\n\n\t\t// based on http://www.euclideanspace.com/maths/algebra/matrix/functions/inverse/fourD/index.htm\n\t\tconst te = this.elements,\n\n\t\t\tn11 = te[ 0 ], n21 = te[ 1 ], n31 = te[ 2 ], n41 = te[ 3 ],\n\t\t\tn12 = te[ 4 ], n22 = te[ 5 ], n32 = te[ 6 ], n42 = te[ 7 ],\n\t\t\tn13 = te[ 8 ], n23 = te[ 9 ], n33 = te[ 10 ], n43 = te[ 11 ],\n\t\t\tn14 = te[ 12 ], n24 = te[ 13 ], n34 = te[ 14 ], n44 = te[ 15 ],\n\n\t\t\tt11 = n23 * n34 * n42 - n24 * n33 * n42 + n24 * n32 * n43 - n22 * n34 * n43 - n23 * n32 * n44 + n22 * n33 * n44,\n\t\t\tt12 = n14 * n33 * n42 - n13 * n34 * n42 - n14 * n32 * n43 + n12 * n34 * n43 + n13 * n32 * n44 - n12 * n33 * n44,\n\t\t\tt13 = n13 * n24 * n42 - n14 * n23 * n42 + n14 * n22 * n43 - n12 * n24 * n43 - n13 * n22 * n44 + n12 * n23 * n44,\n\t\t\tt14 = n14 * n23 * n32 - n13 * n24 * n32 - n14 * n22 * n33 + n12 * n24 * n33 + n13 * n22 * n34 - n12 * n23 * n34;\n\n\t\tconst det = n11 * t11 + n21 * t12 + n31 * t13 + n41 * t14;\n\n\t\tif ( det === 0 ) return this.set( 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 );\n\n\t\tconst detInv = 1 / det;\n\n\t\tte[ 0 ] = t11 * detInv;\n\t\tte[ 1 ] = ( n24 * n33 * n41 - n23 * n34 * n41 - n24 * n31 * n43 + n21 * n34 * n43 + n23 * n31 * n44 - n21 * n33 * n44 ) * detInv;\n\t\tte[ 2 ] = ( n22 * n34 * n41 - n24 * n32 * n41 + n24 * n31 * n42 - n21 * n34 * n42 - n22 * n31 * n44 + n21 * n32 * n44 ) * detInv;\n\t\tte[ 3 ] = ( n23 * n32 * n41 - n22 * n33 * n41 - n23 * n31 * n42 + n21 * n33 * n42 + n22 * n31 * n43 - n21 * n32 * n43 ) * detInv;\n\n\t\tte[ 4 ] = t12 * detInv;\n\t\tte[ 5 ] = ( n13 * n34 * n41 - n14 * n33 * n41 + n14 * n31 * n43 - n11 * n34 * n43 - n13 * n31 * n44 + n11 * n33 * n44 ) * detInv;\n\t\tte[ 6 ] = ( n14 * n32 * n41 - n12 * n34 * n41 - n14 * n31 * n42 + n11 * n34 * n42 + n12 * n31 * n44 - n11 * n32 * n44 ) * detInv;\n\t\tte[ 7 ] = ( n12 * n33 * n41 - n13 * n32 * n41 + n13 * n31 * n42 - n11 * n33 * n42 - n12 * n31 * n43 + n11 * n32 * n43 ) * detInv;\n\n\t\tte[ 8 ] = t13 * detInv;\n\t\tte[ 9 ] = ( n14 * n23 * n41 - n13 * n24 * n41 - n14 * n21 * n43 + n11 * n24 * n43 + n13 * n21 * n44 - n11 * n23 * n44 ) * detInv;\n\t\tte[ 10 ] = ( n12 * n24 * n41 - n14 * n22 * n41 + n14 * n21 * n42 - n11 * n24 * n42 - n12 * n21 * n44 + n11 * n22 * n44 ) * detInv;\n\t\tte[ 11 ] = ( n13 * n22 * n41 - n12 * n23 * n41 - n13 * n21 * n42 + n11 * n23 * n42 + n12 * n21 * n43 - n11 * n22 * n43 ) * detInv;\n\n\t\tte[ 12 ] = t14 * detInv;\n\t\tte[ 13 ] = ( n13 * n24 * n31 - n14 * n23 * n31 + n14 * n21 * n33 - n11 * n24 * n33 - n13 * n21 * n34 + n11 * n23 * n34 ) * detInv;\n\t\tte[ 14 ] = ( n14 * n22 * n31 - n12 * n24 * n31 - n14 * n21 * n32 + n11 * n24 * n32 + n12 * n21 * n34 - n11 * n22 * n34 ) * detInv;\n\t\tte[ 15 ] = ( n12 * n23 * n31 - n13 * n22 * n31 + n13 * n21 * n32 - n11 * n23 * n32 - n12 * n21 * n33 + n11 * n22 * n33 ) * detInv;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the columns of this matrix by the given vector.\n\t *\n\t * @param {Vector3} v - The scale vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tscale( v ) {\n\n\t\tconst te = this.elements;\n\t\tconst x = v.x, y = v.y, z = v.z;\n\n\t\tte[ 0 ] *= x; te[ 4 ] *= y; te[ 8 ] *= z;\n\t\tte[ 1 ] *= x; te[ 5 ] *= y; te[ 9 ] *= z;\n\t\tte[ 2 ] *= x; te[ 6 ] *= y; te[ 10 ] *= z;\n\t\tte[ 3 ] *= x; te[ 7 ] *= y; te[ 11 ] *= z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Gets the maximum scale value of the three axes.\n\t *\n\t * @return {number} The maximum scale.\n\t */\n\tgetMaxScaleOnAxis() {\n\n\t\tconst te = this.elements;\n\n\t\tconst scaleXSq = te[ 0 ] * te[ 0 ] + te[ 1 ] * te[ 1 ] + te[ 2 ] * te[ 2 ];\n\t\tconst scaleYSq = te[ 4 ] * te[ 4 ] + te[ 5 ] * te[ 5 ] + te[ 6 ] * te[ 6 ];\n\t\tconst scaleZSq = te[ 8 ] * te[ 8 ] + te[ 9 ] * te[ 9 ] + te[ 10 ] * te[ 10 ];\n\n\t\treturn Math.sqrt( Math.max( scaleXSq, scaleYSq, scaleZSq ) );\n\n\t}\n\n\t/**\n\t * Sets this matrix as a translation transform from the given vector.\n\t *\n\t * @param {number|Vector3} x - The amount to translate in the X axis or alternatively a translation vector.\n\t * @param {number} y - The amount to translate in the Y axis.\n\t * @param {number} z - The amount to translate in the z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeTranslation( x, y, z ) {\n\n\t\tif ( x.isVector3 ) {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, 0, x.x,\n\t\t\t\t0, 1, 0, x.y,\n\t\t\t\t0, 0, 1, x.z,\n\t\t\t\t0, 0, 0, 1\n\n\t\t\t);\n\n\t\t} else {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, 0, x,\n\t\t\t\t0, 1, 0, y,\n\t\t\t\t0, 0, 1, z,\n\t\t\t\t0, 0, 0, 1\n\n\t\t\t);\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the X axis by\n\t * the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationX( theta ) {\n\n\t\tconst c = Math.cos( theta ), s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\t1, 0, 0, 0,\n\t\t\t0, c, - s, 0,\n\t\t\t0, s, c, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the Y axis by\n\t * the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationY( theta ) {\n\n\t\tconst c = Math.cos( theta ), s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\t c, 0, s, 0,\n\t\t\t 0, 1, 0, 0,\n\t\t\t- s, 0, c, 0,\n\t\t\t 0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the Z axis by\n\t * the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationZ( theta ) {\n\n\t\tconst c = Math.cos( theta ), s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\tc, - s, 0, 0,\n\t\t\ts, c, 0, 0,\n\t\t\t0, 0, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the given axis by\n\t * the given angle.\n\t *\n\t * This is a somewhat controversial but mathematically sound alternative to\n\t * rotating via Quaternions. See the discussion [here]{@link https://www.gamedev.net/articles/programming/math-and-physics/do-we-really-need-quaternions-r1199}.\n\t *\n\t * @param {Vector3} axis - The normalized rotation axis.\n\t * @param {number} angle - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationAxis( axis, angle ) {\n\n\t\t// Based on http://www.gamedev.net/reference/articles/article1199.asp\n\n\t\tconst c = Math.cos( angle );\n\t\tconst s = Math.sin( angle );\n\t\tconst t = 1 - c;\n\t\tconst x = axis.x, y = axis.y, z = axis.z;\n\t\tconst tx = t * x, ty = t * y;\n\n\t\tthis.set(\n\n\t\t\ttx * x + c, tx * y - s * z, tx * z + s * y, 0,\n\t\t\ttx * y + s * z, ty * y + c, ty * z - s * x, 0,\n\t\t\ttx * z - s * y, ty * z + s * x, t * z * z + c, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a scale transformation.\n\t *\n\t * @param {number} x - The amount to scale in the X axis.\n\t * @param {number} y - The amount to scale in the Y axis.\n\t * @param {number} z - The amount to scale in the Z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeScale( x, y, z ) {\n\n\t\tthis.set(\n\n\t\t\tx, 0, 0, 0,\n\t\t\t0, y, 0, 0,\n\t\t\t0, 0, z, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a shear transformation.\n\t *\n\t * @param {number} xy - The amount to shear X by Y.\n\t * @param {number} xz - The amount to shear X by Z.\n\t * @param {number} yx - The amount to shear Y by X.\n\t * @param {number} yz - The amount to shear Y by Z.\n\t * @param {number} zx - The amount to shear Z by X.\n\t * @param {number} zy - The amount to shear Z by Y.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeShear( xy, xz, yx, yz, zx, zy ) {\n\n\t\tthis.set(\n\n\t\t\t1, yx, zx, 0,\n\t\t\txy, 1, zy, 0,\n\t\t\txz, yz, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix to the transformation composed of the given position,\n\t * rotation (Quaternion) and scale.\n\t *\n\t * @param {Vector3} position - The position vector.\n\t * @param {Quaternion} quaternion - The rotation as a Quaternion.\n\t * @param {Vector3} scale - The scale vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tcompose( position, quaternion, scale ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = quaternion._x, y = quaternion._y, z = quaternion._z, w = quaternion._w;\n\t\tconst x2 = x + x,\ty2 = y + y, z2 = z + z;\n\t\tconst xx = x * x2, xy = x * y2, xz = x * z2;\n\t\tconst yy = y * y2, yz = y * z2, zz = z * z2;\n\t\tconst wx = w * x2, wy = w * y2, wz = w * z2;\n\n\t\tconst sx = scale.x, sy = scale.y, sz = scale.z;\n\n\t\tte[ 0 ] = ( 1 - ( yy + zz ) ) * sx;\n\t\tte[ 1 ] = ( xy + wz ) * sx;\n\t\tte[ 2 ] = ( xz - wy ) * sx;\n\t\tte[ 3 ] = 0;\n\n\t\tte[ 4 ] = ( xy - wz ) * sy;\n\t\tte[ 5 ] = ( 1 - ( xx + zz ) ) * sy;\n\t\tte[ 6 ] = ( yz + wx ) * sy;\n\t\tte[ 7 ] = 0;\n\n\t\tte[ 8 ] = ( xz + wy ) * sz;\n\t\tte[ 9 ] = ( yz - wx ) * sz;\n\t\tte[ 10 ] = ( 1 - ( xx + yy ) ) * sz;\n\t\tte[ 11 ] = 0;\n\n\t\tte[ 12 ] = position.x;\n\t\tte[ 13 ] = position.y;\n\t\tte[ 14 ] = position.z;\n\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Decomposes this matrix into its position, rotation and scale components\n\t * and provides the result in the given objects.\n\t *\n\t * Note: Not all matrices are decomposable in this way. For example, if an\n\t * object has a non-uniformly scaled parent, then the object's world matrix\n\t * may not be decomposable, and this method may not be appropriate.\n\t *\n\t * @param {Vector3} position - The position vector.\n\t * @param {Quaternion} quaternion - The rotation as a Quaternion.\n\t * @param {Vector3} scale - The scale vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tdecompose( position, quaternion, scale ) {\n\n\t\tconst te = this.elements;\n\n\t\tlet sx = _v1$5.set( te[ 0 ], te[ 1 ], te[ 2 ] ).length();\n\t\tconst sy = _v1$5.set( te[ 4 ], te[ 5 ], te[ 6 ] ).length();\n\t\tconst sz = _v1$5.set( te[ 8 ], te[ 9 ], te[ 10 ] ).length();\n\n\t\t// if determine is negative, we need to invert one scale\n\t\tconst det = this.determinant();\n\t\tif ( det < 0 ) sx = - sx;\n\n\t\tposition.x = te[ 12 ];\n\t\tposition.y = te[ 13 ];\n\t\tposition.z = te[ 14 ];\n\n\t\t// scale the rotation part\n\t\t_m1$2.copy( this );\n\n\t\tconst invSX = 1 / sx;\n\t\tconst invSY = 1 / sy;\n\t\tconst invSZ = 1 / sz;\n\n\t\t_m1$2.elements[ 0 ] *= invSX;\n\t\t_m1$2.elements[ 1 ] *= invSX;\n\t\t_m1$2.elements[ 2 ] *= invSX;\n\n\t\t_m1$2.elements[ 4 ] *= invSY;\n\t\t_m1$2.elements[ 5 ] *= invSY;\n\t\t_m1$2.elements[ 6 ] *= invSY;\n\n\t\t_m1$2.elements[ 8 ] *= invSZ;\n\t\t_m1$2.elements[ 9 ] *= invSZ;\n\t\t_m1$2.elements[ 10 ] *= invSZ;\n\n\t\tquaternion.setFromRotationMatrix( _m1$2 );\n\n\t\tscale.x = sx;\n\t\tscale.y = sy;\n\t\tscale.z = sz;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Creates a perspective projection matrix. This is used internally by\n\t * {@link PerspectiveCamera#updateProjectionMatrix}.\n\n\t * @param {number} left - Left boundary of the viewing frustum at the near plane.\n\t * @param {number} right - Right boundary of the viewing frustum at the near plane.\n\t * @param {number} top - Top boundary of the viewing frustum at the near plane.\n\t * @param {number} bottom - Bottom boundary of the viewing frustum at the near plane.\n\t * @param {number} near - The distance from the camera to the near plane.\n\t * @param {number} far - The distance from the camera to the far plane.\n\t * @param {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} [coordinateSystem=WebGLCoordinateSystem] - The coordinate system.\n\t * @param {boolean} [reversedDepth=false] - Whether to use a reversed depth.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakePerspective( left, right, top, bottom, near, far, coordinateSystem = WebGLCoordinateSystem, reversedDepth = false ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = 2 * near / ( right - left );\n\t\tconst y = 2 * near / ( top - bottom );\n\n\t\tconst a = ( right + left ) / ( right - left );\n\t\tconst b = ( top + bottom ) / ( top - bottom );\n\n\t\tlet c, d;\n\n\t\tif ( reversedDepth ) {\n\n\t\t\tc = near / ( far - near );\n\t\t\td = ( far * near ) / ( far - near );\n\n\t\t} else {\n\n\t\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tc = - ( far + near ) / ( far - near );\n\t\t\t\td = ( -2 * far * near ) / ( far - near );\n\n\t\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tc = - far / ( far - near );\n\t\t\t\td = ( - far * near ) / ( far - near );\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.Matrix4.makePerspective(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\t\tte[ 0 ] = x;\tte[ 4 ] = 0;\tte[ 8 ] = a; \tte[ 12 ] = 0;\n\t\tte[ 1 ] = 0;\tte[ 5 ] = y;\tte[ 9 ] = b; \tte[ 13 ] = 0;\n\t\tte[ 2 ] = 0;\tte[ 6 ] = 0;\tte[ 10 ] = c; \tte[ 14 ] = d;\n\t\tte[ 3 ] = 0;\tte[ 7 ] = 0;\tte[ 11 ] = -1;\tte[ 15 ] = 0;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Creates a orthographic projection matrix. This is used internally by\n\t * {@link OrthographicCamera#updateProjectionMatrix}.\n\n\t * @param {number} left - Left boundary of the viewing frustum at the near plane.\n\t * @param {number} right - Right boundary of the viewing frustum at the near plane.\n\t * @param {number} top - Top boundary of the viewing frustum at the near plane.\n\t * @param {number} bottom - Bottom boundary of the viewing frustum at the near plane.\n\t * @param {number} near - The distance from the camera to the near plane.\n\t * @param {number} far - The distance from the camera to the far plane.\n\t * @param {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} [coordinateSystem=WebGLCoordinateSystem] - The coordinate system.\n\t * @param {boolean} [reversedDepth=false] - Whether to use a reversed depth.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeOrthographic( left, right, top, bottom, near, far, coordinateSystem = WebGLCoordinateSystem, reversedDepth = false ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = 2 / ( right - left );\n\t\tconst y = 2 / ( top - bottom );\n\n\t\tconst a = - ( right + left ) / ( right - left );\n\t\tconst b = - ( top + bottom ) / ( top - bottom );\n\n\t\tlet c, d;\n\n\t\tif ( reversedDepth ) {\n\n\t\t\tc = 1 / ( far - near );\n\t\t\td = far / ( far - near );\n\n\t\t} else {\n\n\t\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tc = -2 / ( far - near );\n\t\t\t\td = - ( far + near ) / ( far - near );\n\n\t\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tc = -1 / ( far - near );\n\t\t\t\td = - near / ( far - near );\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.Matrix4.makeOrthographic(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\t\tte[ 0 ] = x;\t\tte[ 4 ] = 0;\t\tte[ 8 ] = 0; \t\tte[ 12 ] = a;\n\t\tte[ 1 ] = 0; \t\tte[ 5 ] = y;\t\tte[ 9 ] = 0; \t\tte[ 13 ] = b;\n\t\tte[ 2 ] = 0; \t\tte[ 6 ] = 0;\t\tte[ 10 ] = c;\t\tte[ 14 ] = d;\n\t\tte[ 3 ] = 0; \t\tte[ 7 ] = 0;\t\tte[ 11 ] = 0;\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this matrix is equal with the given one.\n\t *\n\t * @param {Matrix4} matrix - The matrix to test for equality.\n\t * @return {boolean} Whether this matrix is equal with the given one.\n\t */\n\tequals( matrix ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = matrix.elements;\n\n\t\tfor ( let i = 0; i < 16; i ++ ) {\n\n\t\t\tif ( te[ i ] !== me[ i ] ) return false;\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix from the given array.\n\t *\n\t * @param {Array} array - The matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tfor ( let i = 0; i < 16; i ++ ) {\n\n\t\t\tthis.elements[ i ] = array[ i + offset ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the elements of this matrix to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The matrix elements in column-major order.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tconst te = this.elements;\n\n\t\tarray[ offset ] = te[ 0 ];\n\t\tarray[ offset + 1 ] = te[ 1 ];\n\t\tarray[ offset + 2 ] = te[ 2 ];\n\t\tarray[ offset + 3 ] = te[ 3 ];\n\n\t\tarray[ offset + 4 ] = te[ 4 ];\n\t\tarray[ offset + 5 ] = te[ 5 ];\n\t\tarray[ offset + 6 ] = te[ 6 ];\n\t\tarray[ offset + 7 ] = te[ 7 ];\n\n\t\tarray[ offset + 8 ] = te[ 8 ];\n\t\tarray[ offset + 9 ] = te[ 9 ];\n\t\tarray[ offset + 10 ] = te[ 10 ];\n\t\tarray[ offset + 11 ] = te[ 11 ];\n\n\t\tarray[ offset + 12 ] = te[ 12 ];\n\t\tarray[ offset + 13 ] = te[ 13 ];\n\t\tarray[ offset + 14 ] = te[ 14 ];\n\t\tarray[ offset + 15 ] = te[ 15 ];\n\n\t\treturn array;\n\n\t}\n\n}\n\nconst _v1$5 = /*@__PURE__*/ new Vector3();\nconst _m1$2 = /*@__PURE__*/ new Matrix4();\nconst _zero = /*@__PURE__*/ new Vector3( 0, 0, 0 );\nconst _one = /*@__PURE__*/ new Vector3( 1, 1, 1 );\nconst _x = /*@__PURE__*/ new Vector3();\nconst _y = /*@__PURE__*/ new Vector3();\nconst _z = /*@__PURE__*/ new Vector3();\n\nconst _matrix$2 = /*@__PURE__*/ new Matrix4();\nconst _quaternion$3 = /*@__PURE__*/ new Quaternion();\n\n/**\n * A class representing Euler angles.\n *\n * Euler angles describe a rotational transformation by rotating an object on\n * its various axes in specified amounts per axis, and a specified axis\n * order.\n *\n * Iterating through an instance will yield its components (x, y, z,\n * order) in the corresponding order.\n *\n * ```js\n * const a = new THREE.Euler( 0, 1, 1.57, 'XYZ' );\n * const b = new THREE.Vector3( 1, 0, 1 );\n * b.applyEuler(a);\n * ```\n */\nclass Euler {\n\n\t/**\n\t * Constructs a new euler instance.\n\t *\n\t * @param {number} [x=0] - The angle of the x axis in radians.\n\t * @param {number} [y=0] - The angle of the y axis in radians.\n\t * @param {number} [z=0] - The angle of the z axis in radians.\n\t * @param {string} [order=Euler.DEFAULT_ORDER] - A string representing the order that the rotations are applied.\n\t */\n\tconstructor( x = 0, y = 0, z = 0, order = Euler.DEFAULT_ORDER ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isEuler = true;\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._order = order;\n\n\t}\n\n\t/**\n\t * The angle of the x axis in radians.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget x() {\n\n\t\treturn this._x;\n\n\t}\n\n\tset x( value ) {\n\n\t\tthis._x = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The angle of the y axis in radians.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget y() {\n\n\t\treturn this._y;\n\n\t}\n\n\tset y( value ) {\n\n\t\tthis._y = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The angle of the z axis in radians.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget z() {\n\n\t\treturn this._z;\n\n\t}\n\n\tset z( value ) {\n\n\t\tthis._z = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * A string representing the order that the rotations are applied.\n\t *\n\t * @type {string}\n\t * @default 'XYZ'\n\t */\n\tget order() {\n\n\t\treturn this._order;\n\n\t}\n\n\tset order( value ) {\n\n\t\tthis._order = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * Sets the Euler components.\n\t *\n\t * @param {number} x - The angle of the x axis in radians.\n\t * @param {number} y - The angle of the y axis in radians.\n\t * @param {number} z - The angle of the z axis in radians.\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tset( x, y, z, order = this._order ) {\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._order = order;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new Euler instance with copied values from this instance.\n\t *\n\t * @return {Euler} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this._x, this._y, this._z, this._order );\n\n\t}\n\n\t/**\n\t * Copies the values of the given Euler instance to this instance.\n\t *\n\t * @param {Euler} euler - The Euler instance to copy.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tcopy( euler ) {\n\n\t\tthis._x = euler._x;\n\t\tthis._y = euler._y;\n\t\tthis._z = euler._z;\n\t\tthis._order = euler._order;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the angles of this Euler instance from a pure rotation matrix.\n\t *\n\t * @param {Matrix4} m - A 4x4 matrix of which the upper 3x3 of matrix is a pure rotation matrix (i.e. unscaled).\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tsetFromRotationMatrix( m, order = this._order, update = true ) {\n\n\t\tconst te = m.elements;\n\t\tconst m11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ];\n\t\tconst m21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ];\n\t\tconst m31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ];\n\n\t\tswitch ( order ) {\n\n\t\t\tcase 'XYZ':\n\n\t\t\t\tthis._y = Math.asin( clamp( m13, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m13 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( - m23, m33 );\n\t\t\t\t\tthis._z = Math.atan2( - m12, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = Math.atan2( m32, m22 );\n\t\t\t\t\tthis._z = 0;\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'YXZ':\n\n\t\t\t\tthis._x = Math.asin( - clamp( m23, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m23 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._y = Math.atan2( m13, m33 );\n\t\t\t\t\tthis._z = Math.atan2( m21, m22 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._y = Math.atan2( - m31, m11 );\n\t\t\t\t\tthis._z = 0;\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZXY':\n\n\t\t\t\tthis._x = Math.asin( clamp( m32, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m32 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._y = Math.atan2( - m31, m33 );\n\t\t\t\t\tthis._z = Math.atan2( - m12, m22 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._y = 0;\n\t\t\t\t\tthis._z = Math.atan2( m21, m11 );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZYX':\n\n\t\t\t\tthis._y = Math.asin( - clamp( m31, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m31 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( m32, m33 );\n\t\t\t\t\tthis._z = Math.atan2( m21, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = 0;\n\t\t\t\t\tthis._z = Math.atan2( - m12, m22 );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'YZX':\n\n\t\t\t\tthis._z = Math.asin( clamp( m21, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m21 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( - m23, m22 );\n\t\t\t\t\tthis._y = Math.atan2( - m31, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = 0;\n\t\t\t\t\tthis._y = Math.atan2( m13, m33 );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'XZY':\n\n\t\t\t\tthis._z = Math.asin( - clamp( m12, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m12 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( m32, m22 );\n\t\t\t\t\tthis._y = Math.atan2( m13, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = Math.atan2( - m23, m33 );\n\t\t\t\t\tthis._y = 0;\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\n\t\t\t\tconsole.warn( 'THREE.Euler: .setFromRotationMatrix() encountered an unknown order: ' + order );\n\n\t\t}\n\n\t\tthis._order = order;\n\n\t\tif ( update === true ) this._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the angles of this Euler instance from a normalized quaternion.\n\t *\n\t * @param {Quaternion} q - A normalized Quaternion.\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tsetFromQuaternion( q, order, update ) {\n\n\t\t_matrix$2.makeRotationFromQuaternion( q );\n\n\t\treturn this.setFromRotationMatrix( _matrix$2, order, update );\n\n\t}\n\n\t/**\n\t * Sets the angles of this Euler instance from the given vector.\n\t *\n\t * @param {Vector3} v - The vector.\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tsetFromVector3( v, order = this._order ) {\n\n\t\treturn this.set( v.x, v.y, v.z, order );\n\n\t}\n\n\t/**\n\t * Resets the euler angle with a new order by creating a quaternion from this\n\t * euler angle and then setting this euler angle with the quaternion and the\n\t * new order.\n\t *\n\t * Warning: This discards revolution information.\n\t *\n\t * @param {string} [newOrder] - A string representing the new order that the rotations are applied.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\treorder( newOrder ) {\n\n\t\t_quaternion$3.setFromEuler( this );\n\n\t\treturn this.setFromQuaternion( _quaternion$3, newOrder );\n\n\t}\n\n\t/**\n\t * Returns `true` if this Euler instance is equal with the given one.\n\t *\n\t * @param {Euler} euler - The Euler instance to test for equality.\n\t * @return {boolean} Whether this Euler instance is equal with the given one.\n\t */\n\tequals( euler ) {\n\n\t\treturn ( euler._x === this._x ) && ( euler._y === this._y ) && ( euler._z === this._z ) && ( euler._order === this._order );\n\n\t}\n\n\t/**\n\t * Sets this Euler instance's components to values from the given array. The first three\n\t * entries of the array are assign to the x,y and z components. An optional fourth entry\n\t * defines the Euler order.\n\t *\n\t * @param {Array} array - An array holding the Euler component values.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tfromArray( array ) {\n\n\t\tthis._x = array[ 0 ];\n\t\tthis._y = array[ 1 ];\n\t\tthis._z = array[ 2 ];\n\t\tif ( array[ 3 ] !== undefined ) this._order = array[ 3 ];\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this Euler instance to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the Euler components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The Euler components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this._x;\n\t\tarray[ offset + 1 ] = this._y;\n\t\tarray[ offset + 2 ] = this._z;\n\t\tarray[ offset + 3 ] = this._order;\n\n\t\treturn array;\n\n\t}\n\n\t_onChange( callback ) {\n\n\t\tthis._onChangeCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t_onChangeCallback() {}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this._x;\n\t\tyield this._y;\n\t\tyield this._z;\n\t\tyield this._order;\n\n\t}\n\n}\n\n/**\n * The default Euler angle order.\n *\n * @static\n * @type {string}\n * @default 'XYZ'\n */\nEuler.DEFAULT_ORDER = 'XYZ';\n\n/**\n * A layers object assigns an 3D object to 1 or more of 32\n * layers numbered `0` to `31` - internally the layers are stored as a\n * bit mask], and by default all 3D objects are a member of layer `0`.\n *\n * This can be used to control visibility - an object must share a layer with\n * a camera to be visible when that camera's view is\n * rendered.\n *\n * All classes that inherit from {@link Object3D} have an `layers` property which\n * is an instance of this class.\n */\nclass Layers {\n\n\t/**\n\t * Constructs a new layers instance, with membership\n\t * initially set to layer `0`.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * A bit mask storing which of the 32 layers this layers object is currently\n\t\t * a member of.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.mask = 1 | 0;\n\n\t}\n\n\t/**\n\t * Sets membership to the given layer, and remove membership all other layers.\n\t *\n\t * @param {number} layer - The layer to set.\n\t */\n\tset( layer ) {\n\n\t\tthis.mask = ( 1 << layer | 0 ) >>> 0;\n\n\t}\n\n\t/**\n\t * Adds membership of the given layer.\n\t *\n\t * @param {number} layer - The layer to enable.\n\t */\n\tenable( layer ) {\n\n\t\tthis.mask |= 1 << layer | 0;\n\n\t}\n\n\t/**\n\t * Adds membership to all layers.\n\t */\n\tenableAll() {\n\n\t\tthis.mask = 0xffffffff | 0;\n\n\t}\n\n\t/**\n\t * Toggles the membership of the given layer.\n\t *\n\t * @param {number} layer - The layer to toggle.\n\t */\n\ttoggle( layer ) {\n\n\t\tthis.mask ^= 1 << layer | 0;\n\n\t}\n\n\t/**\n\t * Removes membership of the given layer.\n\t *\n\t * @param {number} layer - The layer to enable.\n\t */\n\tdisable( layer ) {\n\n\t\tthis.mask &= ~ ( 1 << layer | 0 );\n\n\t}\n\n\t/**\n\t * Removes the membership from all layers.\n\t */\n\tdisableAll() {\n\n\t\tthis.mask = 0;\n\n\t}\n\n\t/**\n\t * Returns `true` if this and the given layers object have at least one\n\t * layer in common.\n\t *\n\t * @param {Layers} layers - The layers to test.\n\t * @return {boolean } Whether this and the given layers object have at least one layer in common or not.\n\t */\n\ttest( layers ) {\n\n\t\treturn ( this.mask & layers.mask ) !== 0;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given layer is enabled.\n\t *\n\t * @param {number} layer - The layer to test.\n\t * @return {boolean } Whether the given layer is enabled or not.\n\t */\n\tisEnabled( layer ) {\n\n\t\treturn ( this.mask & ( 1 << layer | 0 ) ) !== 0;\n\n\t}\n\n}\n\nlet _object3DId = 0;\n\nconst _v1$4 = /*@__PURE__*/ new Vector3();\nconst _q1 = /*@__PURE__*/ new Quaternion();\nconst _m1$1 = /*@__PURE__*/ new Matrix4();\nconst _target = /*@__PURE__*/ new Vector3();\n\nconst _position$3 = /*@__PURE__*/ new Vector3();\nconst _scale$2 = /*@__PURE__*/ new Vector3();\nconst _quaternion$2 = /*@__PURE__*/ new Quaternion();\n\nconst _xAxis = /*@__PURE__*/ new Vector3( 1, 0, 0 );\nconst _yAxis = /*@__PURE__*/ new Vector3( 0, 1, 0 );\nconst _zAxis = /*@__PURE__*/ new Vector3( 0, 0, 1 );\n\n/**\n * Fires when the object has been added to its parent object.\n *\n * @event Object3D#added\n * @type {Object}\n */\nconst _addedEvent = { type: 'added' };\n\n/**\n * Fires when the object has been removed from its parent object.\n *\n * @event Object3D#removed\n * @type {Object}\n */\nconst _removedEvent = { type: 'removed' };\n\n/**\n * Fires when a new child object has been added.\n *\n * @event Object3D#childadded\n * @type {Object}\n */\nconst _childaddedEvent = { type: 'childadded', child: null };\n\n/**\n * Fires when a child object has been removed.\n *\n * @event Object3D#childremoved\n * @type {Object}\n */\nconst _childremovedEvent = { type: 'childremoved', child: null };\n\n/**\n * This is the base class for most objects in three.js and provides a set of\n * properties and methods for manipulating objects in 3D space.\n *\n * @augments EventDispatcher\n */\nclass Object3D extends EventDispatcher {\n\n\t/**\n\t * Constructs a new 3D object.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isObject3D = true;\n\n\t\t/**\n\t\t * The ID of the 3D object.\n\t\t *\n\t\t * @name Object3D#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _object3DId ++ } );\n\n\t\t/**\n\t\t * The UUID of the 3D object.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the 3D object.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'Object3D';\n\n\t\t/**\n\t\t * A reference to the parent object.\n\t\t *\n\t\t * @type {?Object3D}\n\t\t * @default null\n\t\t */\n\t\tthis.parent = null;\n\n\t\t/**\n\t\t * An array holding the child 3D objects of this instance.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.children = [];\n\n\t\t/**\n\t\t * Defines the `up` direction of the 3D object which influences\n\t\t * the orientation via methods like {@link Object3D#lookAt}.\n\t\t *\n\t\t * The default values for all 3D objects is defined by `Object3D.DEFAULT_UP`.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.up = Object3D.DEFAULT_UP.clone();\n\n\t\tconst position = new Vector3();\n\t\tconst rotation = new Euler();\n\t\tconst quaternion = new Quaternion();\n\t\tconst scale = new Vector3( 1, 1, 1 );\n\n\t\tfunction onRotationChange() {\n\n\t\t\tquaternion.setFromEuler( rotation, false );\n\n\t\t}\n\n\t\tfunction onQuaternionChange() {\n\n\t\t\trotation.setFromQuaternion( quaternion, undefined, false );\n\n\t\t}\n\n\t\trotation._onChange( onRotationChange );\n\t\tquaternion._onChange( onQuaternionChange );\n\n\t\tObject.defineProperties( this, {\n\t\t\t/**\n\t\t\t * Represents the object's local position.\n\t\t\t *\n\t\t\t * @name Object3D#position\n\t\t\t * @type {Vector3}\n\t\t\t * @default (0,0,0)\n\t\t\t */\n\t\t\tposition: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: position\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's local rotation as Euler angles, in radians.\n\t\t\t *\n\t\t\t * @name Object3D#rotation\n\t\t\t * @type {Euler}\n\t\t\t * @default (0,0,0)\n\t\t\t */\n\t\t\trotation: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: rotation\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's local rotation as Quaternions.\n\t\t\t *\n\t\t\t * @name Object3D#quaternion\n\t\t\t * @type {Quaternion}\n\t\t\t */\n\t\t\tquaternion: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: quaternion\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's local scale.\n\t\t\t *\n\t\t\t * @name Object3D#scale\n\t\t\t * @type {Vector3}\n\t\t\t * @default (1,1,1)\n\t\t\t */\n\t\t\tscale: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: scale\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's model-view matrix.\n\t\t\t *\n\t\t\t * @name Object3D#modelViewMatrix\n\t\t\t * @type {Matrix4}\n\t\t\t */\n\t\t\tmodelViewMatrix: {\n\t\t\t\tvalue: new Matrix4()\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's normal matrix.\n\t\t\t *\n\t\t\t * @name Object3D#normalMatrix\n\t\t\t * @type {Matrix3}\n\t\t\t */\n\t\t\tnormalMatrix: {\n\t\t\t\tvalue: new Matrix3()\n\t\t\t}\n\t\t} );\n\n\t\t/**\n\t\t * Represents the object's transformation matrix in local space.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrix = new Matrix4();\n\n\t\t/**\n\t\t * Represents the object's transformation matrix in world space.\n\t\t * If the 3D object has no parent, then it's identical to the local transformation matrix\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrixWorld = new Matrix4();\n\n\t\t/**\n\t\t * When set to `true`, the engine automatically computes the local matrix from position,\n\t\t * rotation and scale every frame.\n\t\t *\n\t\t * The default values for all 3D objects is defined by `Object3D.DEFAULT_MATRIX_AUTO_UPDATE`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.matrixAutoUpdate = Object3D.DEFAULT_MATRIX_AUTO_UPDATE;\n\n\t\t/**\n\t\t * When set to `true`, the engine automatically computes the world matrix from the current local\n\t\t * matrix and the object's transformation hierarchy.\n\t\t *\n\t\t * The default values for all 3D objects is defined by `Object3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.matrixWorldAutoUpdate = Object3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE; // checked by the renderer\n\n\t\t/**\n\t\t * When set to `true`, it calculates the world matrix in that frame and resets this property\n\t\t * to `false`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.matrixWorldNeedsUpdate = false;\n\n\t\t/**\n\t\t * The layer membership of the 3D object. The 3D object is only visible if it has\n\t\t * at least one layer in common with the camera in use. This property can also be\n\t\t * used to filter out unwanted objects in ray-intersection tests when using {@link Raycaster}.\n\t\t *\n\t\t * @type {Layers}\n\t\t */\n\t\tthis.layers = new Layers();\n\n\t\t/**\n\t\t * When set to `true`, the 3D object gets rendered.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.visible = true;\n\n\t\t/**\n\t\t * When set to `true`, the 3D object gets rendered into shadow maps.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.castShadow = false;\n\n\t\t/**\n\t\t * When set to `true`, the 3D object is affected by shadows in the scene.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.receiveShadow = false;\n\n\t\t/**\n\t\t * When set to `true`, the 3D object is honored by view frustum culling.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.frustumCulled = true;\n\n\t\t/**\n\t\t * This value allows the default rendering order of scene graph objects to be\n\t\t * overridden although opaque and transparent objects remain sorted independently.\n\t\t * When this property is set for an instance of {@link Group},all descendants\n\t\t * objects will be sorted and rendered together. Sorting is from lowest to highest\n\t\t * render order.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.renderOrder = 0;\n\n\t\t/**\n\t\t * An array holding the animation clips of the 3D object.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.animations = [];\n\n\t\t/**\n\t\t * Custom depth material to be used when rendering to the depth map. Can only be used\n\t\t * in context of meshes. When shadow-casting with a {@link DirectionalLight} or {@link SpotLight},\n\t\t * if you are modifying vertex positions in the vertex shader you must specify a custom depth\n\t\t * material for proper shadows.\n\t\t *\n\t\t * Only relevant in context of {@link WebGLRenderer}.\n\t\t *\n\t\t * @type {(Material|undefined)}\n\t\t * @default undefined\n\t\t */\n\t\tthis.customDepthMaterial = undefined;\n\n\t\t/**\n\t\t * Same as {@link Object3D#customDepthMaterial}, but used with {@link PointLight}.\n\t\t *\n\t\t * Only relevant in context of {@link WebGLRenderer}.\n\t\t *\n\t\t * @type {(Material|undefined)}\n\t\t * @default undefined\n\t\t */\n\t\tthis.customDistanceMaterial = undefined;\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the 3D object. It\n\t\t * should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t}\n\n\t/**\n\t * A callback that is executed immediately before a 3D object is rendered to a shadow map.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {Camera} shadowCamera - The shadow camera.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} depthMaterial - The depth material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonBeforeShadow( /* renderer, object, camera, shadowCamera, geometry, depthMaterial, group */ ) {}\n\n\t/**\n\t * A callback that is executed immediately after a 3D object is rendered to a shadow map.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {Camera} shadowCamera - The shadow camera.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} depthMaterial - The depth material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonAfterShadow( /* renderer, object, camera, shadowCamera, geometry, depthMaterial, group */ ) {}\n\n\t/**\n\t * A callback that is executed immediately before a 3D object is rendered.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} material - The 3D object's material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonBeforeRender( /* renderer, scene, camera, geometry, material, group */ ) {}\n\n\t/**\n\t * A callback that is executed immediately after a 3D object is rendered.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} material - The 3D object's material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonAfterRender( /* renderer, scene, camera, geometry, material, group */ ) {}\n\n\t/**\n\t * Applies the given transformation matrix to the object and updates the object's position,\n\t * rotation and scale.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tif ( this.matrixAutoUpdate ) this.updateMatrix();\n\n\t\tthis.matrix.premultiply( matrix );\n\n\t\tthis.matrix.decompose( this.position, this.quaternion, this.scale );\n\n\t}\n\n\t/**\n\t * Applies a rotation represented by given the quaternion to the 3D object.\n\t *\n\t * @param {Quaternion} q - The quaternion.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tapplyQuaternion( q ) {\n\n\t\tthis.quaternion.premultiply( q );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as an axis/angle couple to the 3D object.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} angle - The angle in radians.\n\t */\n\tsetRotationFromAxisAngle( axis, angle ) {\n\n\t\t// assumes axis is normalized\n\n\t\tthis.quaternion.setFromAxisAngle( axis, angle );\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as Euler angles to the 3D object.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t */\n\tsetRotationFromEuler( euler ) {\n\n\t\tthis.quaternion.setFromEuler( euler, true );\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as rotation matrix to the 3D object.\n\t *\n\t * @param {Matrix4} m - Although a 4x4 matrix is expected, the upper 3x3 portion must be\n\t * a pure rotation matrix (i.e, unscaled).\n\t */\n\tsetRotationFromMatrix( m ) {\n\n\t\t// assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled)\n\n\t\tthis.quaternion.setFromRotationMatrix( m );\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as a Quaternion to the 3D object.\n\t *\n\t * @param {Quaternion} q - The Quaternion\n\t */\n\tsetRotationFromQuaternion( q ) {\n\n\t\t// assumes q is normalized\n\n\t\tthis.quaternion.copy( q );\n\n\t}\n\n\t/**\n\t * Rotates the 3D object along an axis in local space.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateOnAxis( axis, angle ) {\n\n\t\t// rotate object on axis in object space\n\t\t// axis is assumed to be normalized\n\n\t\t_q1.setFromAxisAngle( axis, angle );\n\n\t\tthis.quaternion.multiply( _q1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the 3D object along an axis in world space.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateOnWorldAxis( axis, angle ) {\n\n\t\t// rotate object on axis in world space\n\t\t// axis is assumed to be normalized\n\t\t// method assumes no rotated parent\n\n\t\t_q1.setFromAxisAngle( axis, angle );\n\n\t\tthis.quaternion.premultiply( _q1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the 3D object around its X axis in local space.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateX( angle ) {\n\n\t\treturn this.rotateOnAxis( _xAxis, angle );\n\n\t}\n\n\t/**\n\t * Rotates the 3D object around its Y axis in local space.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateY( angle ) {\n\n\t\treturn this.rotateOnAxis( _yAxis, angle );\n\n\t}\n\n\t/**\n\t * Rotates the 3D object around its Z axis in local space.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateZ( angle ) {\n\n\t\treturn this.rotateOnAxis( _zAxis, angle );\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along the given axis in local space.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateOnAxis( axis, distance ) {\n\n\t\t// translate object by distance along axis in object space\n\t\t// axis is assumed to be normalized\n\n\t\t_v1$4.copy( axis ).applyQuaternion( this.quaternion );\n\n\t\tthis.position.add( _v1$4.multiplyScalar( distance ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along its X-axis in local space.\n\t *\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateX( distance ) {\n\n\t\treturn this.translateOnAxis( _xAxis, distance );\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along its Y-axis in local space.\n\t *\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateY( distance ) {\n\n\t\treturn this.translateOnAxis( _yAxis, distance );\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along its Z-axis in local space.\n\t *\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateZ( distance ) {\n\n\t\treturn this.translateOnAxis( _zAxis, distance );\n\n\t}\n\n\t/**\n\t * Converts the given vector from this 3D object's local space to world space.\n\t *\n\t * @param {Vector3} vector - The vector to convert.\n\t * @return {Vector3} The converted vector.\n\t */\n\tlocalToWorld( vector ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\treturn vector.applyMatrix4( this.matrixWorld );\n\n\t}\n\n\t/**\n\t * Converts the given vector from this 3D object's word space to local space.\n\t *\n\t * @param {Vector3} vector - The vector to convert.\n\t * @return {Vector3} The converted vector.\n\t */\n\tworldToLocal( vector ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\treturn vector.applyMatrix4( _m1$1.copy( this.matrixWorld ).invert() );\n\n\t}\n\n\t/**\n\t * Rotates the object to face a point in world space.\n\t *\n\t * This method does not support objects having non-uniformly-scaled parent(s).\n\t *\n\t * @param {number|Vector3} x - The x coordinate in world space. Alternatively, a vector representing a position in world space\n\t * @param {number} [y] - The y coordinate in world space.\n\t * @param {number} [z] - The z coordinate in world space.\n\t */\n\tlookAt( x, y, z ) {\n\n\t\t// This method does not support objects having non-uniformly-scaled parent(s)\n\n\t\tif ( x.isVector3 ) {\n\n\t\t\t_target.copy( x );\n\n\t\t} else {\n\n\t\t\t_target.set( x, y, z );\n\n\t\t}\n\n\t\tconst parent = this.parent;\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\t_position$3.setFromMatrixPosition( this.matrixWorld );\n\n\t\tif ( this.isCamera || this.isLight ) {\n\n\t\t\t_m1$1.lookAt( _position$3, _target, this.up );\n\n\t\t} else {\n\n\t\t\t_m1$1.lookAt( _target, _position$3, this.up );\n\n\t\t}\n\n\t\tthis.quaternion.setFromRotationMatrix( _m1$1 );\n\n\t\tif ( parent ) {\n\n\t\t\t_m1$1.extractRotation( parent.matrixWorld );\n\t\t\t_q1.setFromRotationMatrix( _m1$1 );\n\t\t\tthis.quaternion.premultiply( _q1.invert() );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Adds the given 3D object as a child to this 3D object. An arbitrary number of\n\t * objects may be added. Any current parent on an object passed in here will be\n\t * removed, since an object can have at most one parent.\n\t *\n\t * @fires Object3D#added\n\t * @fires Object3D#childadded\n\t * @param {Object3D} object - The 3D object to add.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tadd( object ) {\n\n\t\tif ( arguments.length > 1 ) {\n\n\t\t\tfor ( let i = 0; i < arguments.length; i ++ ) {\n\n\t\t\t\tthis.add( arguments[ i ] );\n\n\t\t\t}\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( object === this ) {\n\n\t\t\tconsole.error( 'THREE.Object3D.add: object can\\'t be added as a child of itself.', object );\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( object && object.isObject3D ) {\n\n\t\t\tobject.removeFromParent();\n\t\t\tobject.parent = this;\n\t\t\tthis.children.push( object );\n\n\t\t\tobject.dispatchEvent( _addedEvent );\n\n\t\t\t_childaddedEvent.child = object;\n\t\t\tthis.dispatchEvent( _childaddedEvent );\n\t\t\t_childaddedEvent.child = null;\n\n\t\t} else {\n\n\t\t\tconsole.error( 'THREE.Object3D.add: object not an instance of THREE.Object3D.', object );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes the given 3D object as child from this 3D object.\n\t * An arbitrary number of objects may be removed.\n\t *\n\t * @fires Object3D#removed\n\t * @fires Object3D#childremoved\n\t * @param {Object3D} object - The 3D object to remove.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tremove( object ) {\n\n\t\tif ( arguments.length > 1 ) {\n\n\t\t\tfor ( let i = 0; i < arguments.length; i ++ ) {\n\n\t\t\t\tthis.remove( arguments[ i ] );\n\n\t\t\t}\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst index = this.children.indexOf( object );\n\n\t\tif ( index !== -1 ) {\n\n\t\t\tobject.parent = null;\n\t\t\tthis.children.splice( index, 1 );\n\n\t\t\tobject.dispatchEvent( _removedEvent );\n\n\t\t\t_childremovedEvent.child = object;\n\t\t\tthis.dispatchEvent( _childremovedEvent );\n\t\t\t_childremovedEvent.child = null;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes this 3D object from its current parent.\n\t *\n\t * @fires Object3D#removed\n\t * @fires Object3D#childremoved\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tremoveFromParent() {\n\n\t\tconst parent = this.parent;\n\n\t\tif ( parent !== null ) {\n\n\t\t\tparent.remove( this );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes all child objects.\n\t *\n\t * @fires Object3D#removed\n\t * @fires Object3D#childremoved\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tclear() {\n\n\t\treturn this.remove( ... this.children );\n\n\t}\n\n\t/**\n\t * Adds the given 3D object as a child of this 3D object, while maintaining the object's world\n\t * transform. This method does not support scene graphs having non-uniformly-scaled nodes(s).\n\t *\n\t * @fires Object3D#added\n\t * @fires Object3D#childadded\n\t * @param {Object3D} object - The 3D object to attach.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tattach( object ) {\n\n\t\t// adds object as a child of this, while maintaining the object's world transform\n\n\t\t// Note: This method does not support scene graphs having non-uniformly-scaled nodes(s)\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\t_m1$1.copy( this.matrixWorld ).invert();\n\n\t\tif ( object.parent !== null ) {\n\n\t\t\tobject.parent.updateWorldMatrix( true, false );\n\n\t\t\t_m1$1.multiply( object.parent.matrixWorld );\n\n\t\t}\n\n\t\tobject.applyMatrix4( _m1$1 );\n\n\t\tobject.removeFromParent();\n\t\tobject.parent = this;\n\t\tthis.children.push( object );\n\n\t\tobject.updateWorldMatrix( false, true );\n\n\t\tobject.dispatchEvent( _addedEvent );\n\n\t\t_childaddedEvent.child = object;\n\t\tthis.dispatchEvent( _childaddedEvent );\n\t\t_childaddedEvent.child = null;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns the first with a matching ID.\n\t *\n\t * @param {number} id - The id.\n\t * @return {Object3D|undefined} The found 3D object. Returns `undefined` if no 3D object has been found.\n\t */\n\tgetObjectById( id ) {\n\n\t\treturn this.getObjectByProperty( 'id', id );\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns the first with a matching name.\n\t *\n\t * @param {string} name - The name.\n\t * @return {Object3D|undefined} The found 3D object. Returns `undefined` if no 3D object has been found.\n\t */\n\tgetObjectByName( name ) {\n\n\t\treturn this.getObjectByProperty( 'name', name );\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns the first with a matching property value.\n\t *\n\t * @param {string} name - The name of the property.\n\t * @param {any} value - The value.\n\t * @return {Object3D|undefined} The found 3D object. Returns `undefined` if no 3D object has been found.\n\t */\n\tgetObjectByProperty( name, value ) {\n\n\t\tif ( this[ name ] === value ) return this;\n\n\t\tfor ( let i = 0, l = this.children.length; i < l; i ++ ) {\n\n\t\t\tconst child = this.children[ i ];\n\t\t\tconst object = child.getObjectByProperty( name, value );\n\n\t\t\tif ( object !== undefined ) {\n\n\t\t\t\treturn object;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn undefined;\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns all 3D objects with a matching property value.\n\t *\n\t * @param {string} name - The name of the property.\n\t * @param {any} value - The value.\n\t * @param {Array} result - The method stores the result in this array.\n\t * @return {Array} The found 3D objects.\n\t */\n\tgetObjectsByProperty( name, value, result = [] ) {\n\n\t\tif ( this[ name ] === value ) result.push( this );\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tchildren[ i ].getObjectsByProperty( name, value, result );\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the position of the 3D object in world space.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's position in world space.\n\t */\n\tgetWorldPosition( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\treturn target.setFromMatrixPosition( this.matrixWorld );\n\n\t}\n\n\t/**\n\t * Returns a Quaternion representing the position of the 3D object in world space.\n\t *\n\t * @param {Quaternion} target - The target Quaternion the result is stored to.\n\t * @return {Quaternion} The 3D object's rotation in world space.\n\t */\n\tgetWorldQuaternion( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\tthis.matrixWorld.decompose( _position$3, target, _scale$2 );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the scale of the 3D object in world space.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's scale in world space.\n\t */\n\tgetWorldScale( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\tthis.matrixWorld.decompose( _position$3, _quaternion$2, target );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the (\"look\") direction of the 3D object in world space.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's direction in world space.\n\t */\n\tgetWorldDirection( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\tconst e = this.matrixWorld.elements;\n\n\t\treturn target.set( e[ 8 ], e[ 9 ], e[ 10 ] ).normalize();\n\n\t}\n\n\t/**\n\t * Abstract method to get intersections between a casted ray and this\n\t * 3D object. Renderable 3D objects such as {@link Mesh}, {@link Line} or {@link Points}\n\t * implement this method in order to use raycasting.\n\t *\n\t * @abstract\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - An array holding the result of the method.\n\t */\n\traycast( /* raycaster, intersects */ ) {}\n\n\t/**\n\t * Executes the callback on this 3D object and all descendants.\n\t *\n\t * Note: Modifying the scene graph inside the callback is discouraged.\n\t *\n\t * @param {Function} callback - A callback function that allows to process the current 3D object.\n\t */\n\ttraverse( callback ) {\n\n\t\tcallback( this );\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tchildren[ i ].traverse( callback );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Like {@link Object3D#traverse}, but the callback will only be executed for visible 3D objects.\n\t * Descendants of invisible 3D objects are not traversed.\n\t *\n\t * Note: Modifying the scene graph inside the callback is discouraged.\n\t *\n\t * @param {Function} callback - A callback function that allows to process the current 3D object.\n\t */\n\ttraverseVisible( callback ) {\n\n\t\tif ( this.visible === false ) return;\n\n\t\tcallback( this );\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tchildren[ i ].traverseVisible( callback );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Like {@link Object3D#traverse}, but the callback will only be executed for all ancestors.\n\t *\n\t * Note: Modifying the scene graph inside the callback is discouraged.\n\t *\n\t * @param {Function} callback - A callback function that allows to process the current 3D object.\n\t */\n\ttraverseAncestors( callback ) {\n\n\t\tconst parent = this.parent;\n\n\t\tif ( parent !== null ) {\n\n\t\t\tcallback( parent );\n\n\t\t\tparent.traverseAncestors( callback );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Updates the transformation matrix in local space by computing it from the current\n\t * position, rotation and scale values.\n\t */\n\tupdateMatrix() {\n\n\t\tthis.matrix.compose( this.position, this.quaternion, this.scale );\n\n\t\tthis.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t/**\n\t * Updates the transformation matrix in world space of this 3D objects and its descendants.\n\t *\n\t * To ensure correct results, this method also recomputes the 3D object's transformation matrix in\n\t * local space. The computation of the local and world matrix can be controlled with the\n\t * {@link Object3D#matrixAutoUpdate} and {@link Object3D#matrixWorldAutoUpdate} flags which are both\n\t * `true` by default. Set these flags to `false` if you need more control over the update matrix process.\n\t *\n\t * @param {boolean} [force=false] - When set to `true`, a recomputation of world matrices is forced even\n\t * when {@link Object3D#matrixWorldAutoUpdate} is set to `false`.\n\t */\n\tupdateMatrixWorld( force ) {\n\n\t\tif ( this.matrixAutoUpdate ) this.updateMatrix();\n\n\t\tif ( this.matrixWorldNeedsUpdate || force ) {\n\n\t\t\tif ( this.matrixWorldAutoUpdate === true ) {\n\n\t\t\t\tif ( this.parent === null ) {\n\n\t\t\t\t\tthis.matrixWorld.copy( this.matrix );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis.matrixWorld.multiplyMatrices( this.parent.matrixWorld, this.matrix );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.matrixWorldNeedsUpdate = false;\n\n\t\t\tforce = true;\n\n\t\t}\n\n\t\t// make sure descendants are updated if required\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tconst child = children[ i ];\n\n\t\t\tchild.updateMatrixWorld( force );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * An alternative version of {@link Object3D#updateMatrixWorld} with more control over the\n\t * update of ancestor and descendant nodes.\n\t *\n\t * @param {boolean} [updateParents=false] Whether ancestor nodes should be updated or not.\n\t * @param {boolean} [updateChildren=false] Whether descendant nodes should be updated or not.\n\t */\n\tupdateWorldMatrix( updateParents, updateChildren ) {\n\n\t\tconst parent = this.parent;\n\n\t\tif ( updateParents === true && parent !== null ) {\n\n\t\t\tparent.updateWorldMatrix( true, false );\n\n\t\t}\n\n\t\tif ( this.matrixAutoUpdate ) this.updateMatrix();\n\n\t\tif ( this.matrixWorldAutoUpdate === true ) {\n\n\t\t\tif ( this.parent === null ) {\n\n\t\t\t\tthis.matrixWorld.copy( this.matrix );\n\n\t\t\t} else {\n\n\t\t\t\tthis.matrixWorld.multiplyMatrices( this.parent.matrixWorld, this.matrix );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// make sure descendants are updated\n\n\t\tif ( updateChildren === true ) {\n\n\t\t\tconst children = this.children;\n\n\t\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\t\tconst child = children[ i ];\n\n\t\t\t\tchild.updateWorldMatrix( false, true );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the 3D object into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized 3D object.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\t// meta is a string when called from JSON.stringify\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tconst output = {};\n\n\t\t// meta is a hash used to collect geometries, materials.\n\t\t// not providing it implies that this is the root object\n\t\t// being serialized.\n\t\tif ( isRootObject ) {\n\n\t\t\t// initialize meta obj\n\t\t\tmeta = {\n\t\t\t\tgeometries: {},\n\t\t\t\tmaterials: {},\n\t\t\t\ttextures: {},\n\t\t\t\timages: {},\n\t\t\t\tshapes: {},\n\t\t\t\tskeletons: {},\n\t\t\t\tanimations: {},\n\t\t\t\tnodes: {}\n\t\t\t};\n\n\t\t\toutput.metadata = {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Object',\n\t\t\t\tgenerator: 'Object3D.toJSON'\n\t\t\t};\n\n\t\t}\n\n\t\t// standard Object3D serialization\n\n\t\tconst object = {};\n\n\t\tobject.uuid = this.uuid;\n\t\tobject.type = this.type;\n\n\t\tif ( this.name !== '' ) object.name = this.name;\n\t\tif ( this.castShadow === true ) object.castShadow = true;\n\t\tif ( this.receiveShadow === true ) object.receiveShadow = true;\n\t\tif ( this.visible === false ) object.visible = false;\n\t\tif ( this.frustumCulled === false ) object.frustumCulled = false;\n\t\tif ( this.renderOrder !== 0 ) object.renderOrder = this.renderOrder;\n\t\tif ( Object.keys( this.userData ).length > 0 ) object.userData = this.userData;\n\n\t\tobject.layers = this.layers.mask;\n\t\tobject.matrix = this.matrix.toArray();\n\t\tobject.up = this.up.toArray();\n\n\t\tif ( this.matrixAutoUpdate === false ) object.matrixAutoUpdate = false;\n\n\t\t// object specific properties\n\n\t\tif ( this.isInstancedMesh ) {\n\n\t\t\tobject.type = 'InstancedMesh';\n\t\t\tobject.count = this.count;\n\t\t\tobject.instanceMatrix = this.instanceMatrix.toJSON();\n\t\t\tif ( this.instanceColor !== null ) object.instanceColor = this.instanceColor.toJSON();\n\n\t\t}\n\n\t\tif ( this.isBatchedMesh ) {\n\n\t\t\tobject.type = 'BatchedMesh';\n\t\t\tobject.perObjectFrustumCulled = this.perObjectFrustumCulled;\n\t\t\tobject.sortObjects = this.sortObjects;\n\n\t\t\tobject.drawRanges = this._drawRanges;\n\t\t\tobject.reservedRanges = this._reservedRanges;\n\n\t\t\tobject.geometryInfo = this._geometryInfo.map( info => ( {\n\t\t\t\t...info,\n\t\t\t\tboundingBox: info.boundingBox ? info.boundingBox.toJSON() : undefined,\n\t\t\t\tboundingSphere: info.boundingSphere ? info.boundingSphere.toJSON() : undefined\n\t\t\t} ) );\n\t\t\tobject.instanceInfo = this._instanceInfo.map( info => ( { ...info } ) );\n\n\t\t\tobject.availableInstanceIds = this._availableInstanceIds.slice();\n\t\t\tobject.availableGeometryIds = this._availableGeometryIds.slice();\n\n\t\t\tobject.nextIndexStart = this._nextIndexStart;\n\t\t\tobject.nextVertexStart = this._nextVertexStart;\n\t\t\tobject.geometryCount = this._geometryCount;\n\n\t\t\tobject.maxInstanceCount = this._maxInstanceCount;\n\t\t\tobject.maxVertexCount = this._maxVertexCount;\n\t\t\tobject.maxIndexCount = this._maxIndexCount;\n\n\t\t\tobject.geometryInitialized = this._geometryInitialized;\n\n\t\t\tobject.matricesTexture = this._matricesTexture.toJSON( meta );\n\n\t\t\tobject.indirectTexture = this._indirectTexture.toJSON( meta );\n\n\t\t\tif ( this._colorsTexture !== null ) {\n\n\t\t\t\tobject.colorsTexture = this._colorsTexture.toJSON( meta );\n\n\t\t\t}\n\n\t\t\tif ( this.boundingSphere !== null ) {\n\n\t\t\t\tobject.boundingSphere = this.boundingSphere.toJSON();\n\n\t\t\t}\n\n\t\t\tif ( this.boundingBox !== null ) {\n\n\t\t\t\tobject.boundingBox = this.boundingBox.toJSON();\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\tfunction serialize( library, element ) {\n\n\t\t\tif ( library[ element.uuid ] === undefined ) {\n\n\t\t\t\tlibrary[ element.uuid ] = element.toJSON( meta );\n\n\t\t\t}\n\n\t\t\treturn element.uuid;\n\n\t\t}\n\n\t\tif ( this.isScene ) {\n\n\t\t\tif ( this.background ) {\n\n\t\t\t\tif ( this.background.isColor ) {\n\n\t\t\t\t\tobject.background = this.background.toJSON();\n\n\t\t\t\t} else if ( this.background.isTexture ) {\n\n\t\t\t\t\tobject.background = this.background.toJSON( meta ).uuid;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( this.environment && this.environment.isTexture && this.environment.isRenderTargetTexture !== true ) {\n\n\t\t\t\tobject.environment = this.environment.toJSON( meta ).uuid;\n\n\t\t\t}\n\n\t\t} else if ( this.isMesh || this.isLine || this.isPoints ) {\n\n\t\t\tobject.geometry = serialize( meta.geometries, this.geometry );\n\n\t\t\tconst parameters = this.geometry.parameters;\n\n\t\t\tif ( parameters !== undefined && parameters.shapes !== undefined ) {\n\n\t\t\t\tconst shapes = parameters.shapes;\n\n\t\t\t\tif ( Array.isArray( shapes ) ) {\n\n\t\t\t\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\t\t\t\tconst shape = shapes[ i ];\n\n\t\t\t\t\t\tserialize( meta.shapes, shape );\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\tserialize( meta.shapes, shapes );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.isSkinnedMesh ) {\n\n\t\t\tobject.bindMode = this.bindMode;\n\t\t\tobject.bindMatrix = this.bindMatrix.toArray();\n\n\t\t\tif ( this.skeleton !== undefined ) {\n\n\t\t\t\tserialize( meta.skeletons, this.skeleton );\n\n\t\t\t\tobject.skeleton = this.skeleton.uuid;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.material !== undefined ) {\n\n\t\t\tif ( Array.isArray( this.material ) ) {\n\n\t\t\t\tconst uuids = [];\n\n\t\t\t\tfor ( let i = 0, l = this.material.length; i < l; i ++ ) {\n\n\t\t\t\t\tuuids.push( serialize( meta.materials, this.material[ i ] ) );\n\n\t\t\t\t}\n\n\t\t\t\tobject.material = uuids;\n\n\t\t\t} else {\n\n\t\t\t\tobject.material = serialize( meta.materials, this.material );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\tif ( this.children.length > 0 ) {\n\n\t\t\tobject.children = [];\n\n\t\t\tfor ( let i = 0; i < this.children.length; i ++ ) {\n\n\t\t\t\tobject.children.push( this.children[ i ].toJSON( meta ).object );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\tif ( this.animations.length > 0 ) {\n\n\t\t\tobject.animations = [];\n\n\t\t\tfor ( let i = 0; i < this.animations.length; i ++ ) {\n\n\t\t\t\tconst animation = this.animations[ i ];\n\n\t\t\t\tobject.animations.push( serialize( meta.animations, animation ) );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( isRootObject ) {\n\n\t\t\tconst geometries = extractFromCache( meta.geometries );\n\t\t\tconst materials = extractFromCache( meta.materials );\n\t\t\tconst textures = extractFromCache( meta.textures );\n\t\t\tconst images = extractFromCache( meta.images );\n\t\t\tconst shapes = extractFromCache( meta.shapes );\n\t\t\tconst skeletons = extractFromCache( meta.skeletons );\n\t\t\tconst animations = extractFromCache( meta.animations );\n\t\t\tconst nodes = extractFromCache( meta.nodes );\n\n\t\t\tif ( geometries.length > 0 ) output.geometries = geometries;\n\t\t\tif ( materials.length > 0 ) output.materials = materials;\n\t\t\tif ( textures.length > 0 ) output.textures = textures;\n\t\t\tif ( images.length > 0 ) output.images = images;\n\t\t\tif ( shapes.length > 0 ) output.shapes = shapes;\n\t\t\tif ( skeletons.length > 0 ) output.skeletons = skeletons;\n\t\t\tif ( animations.length > 0 ) output.animations = animations;\n\t\t\tif ( nodes.length > 0 ) output.nodes = nodes;\n\n\t\t}\n\n\t\toutput.object = object;\n\n\t\treturn output;\n\n\t\t// extract data from the cache hash\n\t\t// remove metadata on each item\n\t\t// and return as array\n\t\tfunction extractFromCache( cache ) {\n\n\t\t\tconst values = [];\n\t\t\tfor ( const key in cache ) {\n\n\t\t\t\tconst data = cache[ key ];\n\t\t\t\tdelete data.metadata;\n\t\t\t\tvalues.push( data );\n\n\t\t\t}\n\n\t\t\treturn values;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new 3D object with copied values from this instance.\n\t *\n\t * @param {boolean} [recursive=true] - When set to `true`, descendants of the 3D object are also cloned.\n\t * @return {Object3D} A clone of this instance.\n\t */\n\tclone( recursive ) {\n\n\t\treturn new this.constructor().copy( this, recursive );\n\n\t}\n\n\t/**\n\t * Copies the values of the given 3D object to this instance.\n\t *\n\t * @param {Object3D} source - The 3D object to copy.\n\t * @param {boolean} [recursive=true] - When set to `true`, descendants of the 3D object are cloned.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tcopy( source, recursive = true ) {\n\n\t\tthis.name = source.name;\n\n\t\tthis.up.copy( source.up );\n\n\t\tthis.position.copy( source.position );\n\t\tthis.rotation.order = source.rotation.order;\n\t\tthis.quaternion.copy( source.quaternion );\n\t\tthis.scale.copy( source.scale );\n\n\t\tthis.matrix.copy( source.matrix );\n\t\tthis.matrixWorld.copy( source.matrixWorld );\n\n\t\tthis.matrixAutoUpdate = source.matrixAutoUpdate;\n\n\t\tthis.matrixWorldAutoUpdate = source.matrixWorldAutoUpdate;\n\t\tthis.matrixWorldNeedsUpdate = source.matrixWorldNeedsUpdate;\n\n\t\tthis.layers.mask = source.layers.mask;\n\t\tthis.visible = source.visible;\n\n\t\tthis.castShadow = source.castShadow;\n\t\tthis.receiveShadow = source.receiveShadow;\n\n\t\tthis.frustumCulled = source.frustumCulled;\n\t\tthis.renderOrder = source.renderOrder;\n\n\t\tthis.animations = source.animations.slice();\n\n\t\tthis.userData = JSON.parse( JSON.stringify( source.userData ) );\n\n\t\tif ( recursive === true ) {\n\n\t\t\tfor ( let i = 0; i < source.children.length; i ++ ) {\n\n\t\t\t\tconst child = source.children[ i ];\n\t\t\t\tthis.add( child.clone() );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * The default up direction for objects, also used as the default\n * position for {@link DirectionalLight} and {@link HemisphereLight}.\n *\n * @static\n * @type {Vector3}\n * @default (0,1,0)\n */\nObject3D.DEFAULT_UP = /*@__PURE__*/ new Vector3( 0, 1, 0 );\n\n/**\n * The default setting for {@link Object3D#matrixAutoUpdate} for\n * newly created 3D objects.\n *\n * @static\n * @type {boolean}\n * @default true\n */\nObject3D.DEFAULT_MATRIX_AUTO_UPDATE = true;\n\n/**\n * The default setting for {@link Object3D#matrixWorldAutoUpdate} for\n * newly created 3D objects.\n *\n * @static\n * @type {boolean}\n * @default true\n */\nObject3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE = true;\n\nconst _v0$1 = /*@__PURE__*/ new Vector3();\nconst _v1$3 = /*@__PURE__*/ new Vector3();\nconst _v2$2 = /*@__PURE__*/ new Vector3();\nconst _v3$2 = /*@__PURE__*/ new Vector3();\n\nconst _vab = /*@__PURE__*/ new Vector3();\nconst _vac = /*@__PURE__*/ new Vector3();\nconst _vbc = /*@__PURE__*/ new Vector3();\nconst _vap = /*@__PURE__*/ new Vector3();\nconst _vbp = /*@__PURE__*/ new Vector3();\nconst _vcp = /*@__PURE__*/ new Vector3();\n\nconst _v40 = /*@__PURE__*/ new Vector4();\nconst _v41 = /*@__PURE__*/ new Vector4();\nconst _v42 = /*@__PURE__*/ new Vector4();\n\n/**\n * A geometric triangle as defined by three vectors representing its three corners.\n */\nclass Triangle {\n\n\t/**\n\t * Constructs a new triangle.\n\t *\n\t * @param {Vector3} [a=(0,0,0)] - The first corner of the triangle.\n\t * @param {Vector3} [b=(0,0,0)] - The second corner of the triangle.\n\t * @param {Vector3} [c=(0,0,0)] - The third corner of the triangle.\n\t */\n\tconstructor( a = new Vector3(), b = new Vector3(), c = new Vector3() ) {\n\n\t\t/**\n\t\t * The first corner of the triangle.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.a = a;\n\n\t\t/**\n\t\t * The second corner of the triangle.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.b = b;\n\n\t\t/**\n\t\t * The third corner of the triangle.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.c = c;\n\n\t}\n\n\t/**\n\t * Computes the normal vector of a triangle.\n\t *\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The triangle's normal.\n\t */\n\tstatic getNormal( a, b, c, target ) {\n\n\t\ttarget.subVectors( c, b );\n\t\t_v0$1.subVectors( a, b );\n\t\ttarget.cross( _v0$1 );\n\n\t\tconst targetLengthSq = target.lengthSq();\n\t\tif ( targetLengthSq > 0 ) {\n\n\t\t\treturn target.multiplyScalar( 1 / Math.sqrt( targetLengthSq ) );\n\n\t\t}\n\n\t\treturn target.set( 0, 0, 0 );\n\n\t}\n\n\t/**\n\t * Computes a barycentric coordinates from the given vector.\n\t * Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - A point in 3D space.\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The barycentric coordinates for the given point\n\t */\n\tstatic getBarycoord( point, a, b, c, target ) {\n\n\t\t// based on: http://www.blackpawn.com/texts/pointinpoly/default.html\n\n\t\t_v0$1.subVectors( c, a );\n\t\t_v1$3.subVectors( b, a );\n\t\t_v2$2.subVectors( point, a );\n\n\t\tconst dot00 = _v0$1.dot( _v0$1 );\n\t\tconst dot01 = _v0$1.dot( _v1$3 );\n\t\tconst dot02 = _v0$1.dot( _v2$2 );\n\t\tconst dot11 = _v1$3.dot( _v1$3 );\n\t\tconst dot12 = _v1$3.dot( _v2$2 );\n\n\t\tconst denom = ( dot00 * dot11 - dot01 * dot01 );\n\n\t\t// collinear or singular triangle\n\t\tif ( denom === 0 ) {\n\n\t\t\ttarget.set( 0, 0, 0 );\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst invDenom = 1 / denom;\n\t\tconst u = ( dot11 * dot02 - dot01 * dot12 ) * invDenom;\n\t\tconst v = ( dot00 * dot12 - dot01 * dot02 ) * invDenom;\n\n\t\t// barycentric coordinates must always sum to 1\n\t\treturn target.set( 1 - u - v, v, u );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle.\n\t *\n\t * @param {Vector3} point - The point in 3D space to test.\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @return {boolean} Whether the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle or not.\n\t */\n\tstatic containsPoint( point, a, b, c ) {\n\n\t\t// if the triangle is degenerate then we can't contain a point\n\t\tif ( this.getBarycoord( point, a, b, c, _v3$2 ) === null ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\treturn ( _v3$2.x >= 0 ) && ( _v3$2.y >= 0 ) && ( ( _v3$2.x + _v3$2.y ) <= 1 );\n\n\t}\n\n\t/**\n\t * Computes the value barycentrically interpolated for the given point on the\n\t * triangle. Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - Position of interpolated point.\n\t * @param {Vector3} p1 - The first corner of the triangle.\n\t * @param {Vector3} p2 - The second corner of the triangle.\n\t * @param {Vector3} p3 - The third corner of the triangle.\n\t * @param {Vector3} v1 - Value to interpolate of first vertex.\n\t * @param {Vector3} v2 - Value to interpolate of second vertex.\n\t * @param {Vector3} v3 - Value to interpolate of third vertex.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The interpolated value.\n\t */\n\tstatic getInterpolation( point, p1, p2, p3, v1, v2, v3, target ) {\n\n\t\tif ( this.getBarycoord( point, p1, p2, p3, _v3$2 ) === null ) {\n\n\t\t\ttarget.x = 0;\n\t\t\ttarget.y = 0;\n\t\t\tif ( 'z' in target ) target.z = 0;\n\t\t\tif ( 'w' in target ) target.w = 0;\n\t\t\treturn null;\n\n\t\t}\n\n\t\ttarget.setScalar( 0 );\n\t\ttarget.addScaledVector( v1, _v3$2.x );\n\t\ttarget.addScaledVector( v2, _v3$2.y );\n\t\ttarget.addScaledVector( v3, _v3$2.z );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Computes the value barycentrically interpolated for the given attribute and indices.\n\t *\n\t * @param {BufferAttribute} attr - The attribute to interpolate.\n\t * @param {number} i1 - Index of first vertex.\n\t * @param {number} i2 - Index of second vertex.\n\t * @param {number} i3 - Index of third vertex.\n\t * @param {Vector3} barycoord - The barycoordinate value to use to interpolate.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The interpolated attribute value.\n\t */\n\tstatic getInterpolatedAttribute( attr, i1, i2, i3, barycoord, target ) {\n\n\t\t_v40.setScalar( 0 );\n\t\t_v41.setScalar( 0 );\n\t\t_v42.setScalar( 0 );\n\n\t\t_v40.fromBufferAttribute( attr, i1 );\n\t\t_v41.fromBufferAttribute( attr, i2 );\n\t\t_v42.fromBufferAttribute( attr, i3 );\n\n\t\ttarget.setScalar( 0 );\n\t\ttarget.addScaledVector( _v40, barycoord.x );\n\t\ttarget.addScaledVector( _v41, barycoord.y );\n\t\ttarget.addScaledVector( _v42, barycoord.z );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns `true` if the triangle is oriented towards the given direction.\n\t *\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @param {Vector3} direction - The (normalized) direction vector.\n\t * @return {boolean} Whether the triangle is oriented towards the given direction or not.\n\t */\n\tstatic isFrontFacing( a, b, c, direction ) {\n\n\t\t_v0$1.subVectors( c, b );\n\t\t_v1$3.subVectors( a, b );\n\n\t\t// strictly front facing\n\t\treturn ( _v0$1.cross( _v1$3 ).dot( direction ) < 0 ) ? true : false;\n\n\t}\n\n\t/**\n\t * Sets the triangle's vertices by copying the given values.\n\t *\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tset( a, b, c ) {\n\n\t\tthis.a.copy( a );\n\t\tthis.b.copy( b );\n\t\tthis.c.copy( c );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the triangle's vertices by copying the given array values.\n\t *\n\t * @param {Array} points - An array with 3D points.\n\t * @param {number} i0 - The array index representing the first corner of the triangle.\n\t * @param {number} i1 - The array index representing the second corner of the triangle.\n\t * @param {number} i2 - The array index representing the third corner of the triangle.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tsetFromPointsAndIndices( points, i0, i1, i2 ) {\n\n\t\tthis.a.copy( points[ i0 ] );\n\t\tthis.b.copy( points[ i1 ] );\n\t\tthis.c.copy( points[ i2 ] );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the triangle's vertices by copying the given attribute values.\n\t *\n\t * @param {BufferAttribute} attribute - A buffer attribute with 3D points data.\n\t * @param {number} i0 - The attribute index representing the first corner of the triangle.\n\t * @param {number} i1 - The attribute index representing the second corner of the triangle.\n\t * @param {number} i2 - The attribute index representing the third corner of the triangle.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tsetFromAttributeAndIndices( attribute, i0, i1, i2 ) {\n\n\t\tthis.a.fromBufferAttribute( attribute, i0 );\n\t\tthis.b.fromBufferAttribute( attribute, i1 );\n\t\tthis.c.fromBufferAttribute( attribute, i2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new triangle with copied values from this instance.\n\t *\n\t * @return {Triangle} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given triangle to this instance.\n\t *\n\t * @param {Triangle} triangle - The triangle to copy.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tcopy( triangle ) {\n\n\t\tthis.a.copy( triangle.a );\n\t\tthis.b.copy( triangle.b );\n\t\tthis.c.copy( triangle.c );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the area of the triangle.\n\t *\n\t * @return {number} The triangle's area.\n\t */\n\tgetArea() {\n\n\t\t_v0$1.subVectors( this.c, this.b );\n\t\t_v1$3.subVectors( this.a, this.b );\n\n\t\treturn _v0$1.cross( _v1$3 ).length() * 0.5;\n\n\t}\n\n\t/**\n\t * Computes the midpoint of the triangle.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The triangle's midpoint.\n\t */\n\tgetMidpoint( target ) {\n\n\t\treturn target.addVectors( this.a, this.b ).add( this.c ).multiplyScalar( 1 / 3 );\n\n\t}\n\n\t/**\n\t * Computes the normal of the triangle.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The triangle's normal.\n\t */\n\tgetNormal( target ) {\n\n\t\treturn Triangle.getNormal( this.a, this.b, this.c, target );\n\n\t}\n\n\t/**\n\t * Computes a plane the triangle lies within.\n\t *\n\t * @param {Plane} target - The target vector that is used to store the method's result.\n\t * @return {Plane} The plane the triangle lies within.\n\t */\n\tgetPlane( target ) {\n\n\t\treturn target.setFromCoplanarPoints( this.a, this.b, this.c );\n\n\t}\n\n\t/**\n\t * Computes a barycentric coordinates from the given vector.\n\t * Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - A point in 3D space.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The barycentric coordinates for the given point\n\t */\n\tgetBarycoord( point, target ) {\n\n\t\treturn Triangle.getBarycoord( point, this.a, this.b, this.c, target );\n\n\t}\n\n\t/**\n\t * Computes the value barycentrically interpolated for the given point on the\n\t * triangle. Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - Position of interpolated point.\n\t * @param {Vector3} v1 - Value to interpolate of first vertex.\n\t * @param {Vector3} v2 - Value to interpolate of second vertex.\n\t * @param {Vector3} v3 - Value to interpolate of third vertex.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The interpolated value.\n\t */\n\tgetInterpolation( point, v1, v2, v3, target ) {\n\n\t\treturn Triangle.getInterpolation( point, this.a, this.b, this.c, v1, v2, v3, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle.\n\t *\n\t * @param {Vector3} point - The point in 3D space to test.\n\t * @return {boolean} Whether the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn Triangle.containsPoint( point, this.a, this.b, this.c );\n\n\t}\n\n\t/**\n\t * Returns `true` if the triangle is oriented towards the given direction.\n\t *\n\t * @param {Vector3} direction - The (normalized) direction vector.\n\t * @return {boolean} Whether the triangle is oriented towards the given direction or not.\n\t */\n\tisFrontFacing( direction ) {\n\n\t\treturn Triangle.isFrontFacing( this.a, this.b, this.c, direction );\n\n\t}\n\n\t/**\n\t * Returns `true` if this triangle intersects with the given box.\n\t *\n\t * @param {Box3} box - The box to intersect.\n\t * @return {boolean} Whether this triangle intersects with the given box or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn box.intersectsTriangle( this );\n\n\t}\n\n\t/**\n\t * Returns the closest point on the triangle to the given point.\n\t *\n\t * @param {Vector3} p - The point to compute the closest point for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The closest point on the triangle.\n\t */\n\tclosestPointToPoint( p, target ) {\n\n\t\tconst a = this.a, b = this.b, c = this.c;\n\t\tlet v, w;\n\n\t\t// algorithm thanks to Real-Time Collision Detection by Christer Ericson,\n\t\t// published by Morgan Kaufmann Publishers, (c) 2005 Elsevier Inc.,\n\t\t// under the accompanying license; see chapter 5.1.5 for detailed explanation.\n\t\t// basically, we're distinguishing which of the voronoi regions of the triangle\n\t\t// the point lies in with the minimum amount of redundant computation.\n\n\t\t_vab.subVectors( b, a );\n\t\t_vac.subVectors( c, a );\n\t\t_vap.subVectors( p, a );\n\t\tconst d1 = _vab.dot( _vap );\n\t\tconst d2 = _vac.dot( _vap );\n\t\tif ( d1 <= 0 && d2 <= 0 ) {\n\n\t\t\t// vertex region of A; barycentric coords (1, 0, 0)\n\t\t\treturn target.copy( a );\n\n\t\t}\n\n\t\t_vbp.subVectors( p, b );\n\t\tconst d3 = _vab.dot( _vbp );\n\t\tconst d4 = _vac.dot( _vbp );\n\t\tif ( d3 >= 0 && d4 <= d3 ) {\n\n\t\t\t// vertex region of B; barycentric coords (0, 1, 0)\n\t\t\treturn target.copy( b );\n\n\t\t}\n\n\t\tconst vc = d1 * d4 - d3 * d2;\n\t\tif ( vc <= 0 && d1 >= 0 && d3 <= 0 ) {\n\n\t\t\tv = d1 / ( d1 - d3 );\n\t\t\t// edge region of AB; barycentric coords (1-v, v, 0)\n\t\t\treturn target.copy( a ).addScaledVector( _vab, v );\n\n\t\t}\n\n\t\t_vcp.subVectors( p, c );\n\t\tconst d5 = _vab.dot( _vcp );\n\t\tconst d6 = _vac.dot( _vcp );\n\t\tif ( d6 >= 0 && d5 <= d6 ) {\n\n\t\t\t// vertex region of C; barycentric coords (0, 0, 1)\n\t\t\treturn target.copy( c );\n\n\t\t}\n\n\t\tconst vb = d5 * d2 - d1 * d6;\n\t\tif ( vb <= 0 && d2 >= 0 && d6 <= 0 ) {\n\n\t\t\tw = d2 / ( d2 - d6 );\n\t\t\t// edge region of AC; barycentric coords (1-w, 0, w)\n\t\t\treturn target.copy( a ).addScaledVector( _vac, w );\n\n\t\t}\n\n\t\tconst va = d3 * d6 - d5 * d4;\n\t\tif ( va <= 0 && ( d4 - d3 ) >= 0 && ( d5 - d6 ) >= 0 ) {\n\n\t\t\t_vbc.subVectors( c, b );\n\t\t\tw = ( d4 - d3 ) / ( ( d4 - d3 ) + ( d5 - d6 ) );\n\t\t\t// edge region of BC; barycentric coords (0, 1-w, w)\n\t\t\treturn target.copy( b ).addScaledVector( _vbc, w ); // edge region of BC\n\n\t\t}\n\n\t\t// face region\n\t\tconst denom = 1 / ( va + vb + vc );\n\t\t// u = va * denom\n\t\tv = vb * denom;\n\t\tw = vc * denom;\n\n\t\treturn target.copy( a ).addScaledVector( _vab, v ).addScaledVector( _vac, w );\n\n\t}\n\n\t/**\n\t * Returns `true` if this triangle is equal with the given one.\n\t *\n\t * @param {Triangle} triangle - The triangle to test for equality.\n\t * @return {boolean} Whether this triangle is equal with the given one.\n\t */\n\tequals( triangle ) {\n\n\t\treturn triangle.a.equals( this.a ) && triangle.b.equals( this.b ) && triangle.c.equals( this.c );\n\n\t}\n\n}\n\nconst _colorKeywords = { 'aliceblue': 0xF0F8FF, 'antiquewhite': 0xFAEBD7, 'aqua': 0x00FFFF, 'aquamarine': 0x7FFFD4, 'azure': 0xF0FFFF,\n\t'beige': 0xF5F5DC, 'bisque': 0xFFE4C4, 'black': 0x000000, 'blanchedalmond': 0xFFEBCD, 'blue': 0x0000FF, 'blueviolet': 0x8A2BE2,\n\t'brown': 0xA52A2A, 'burlywood': 0xDEB887, 'cadetblue': 0x5F9EA0, 'chartreuse': 0x7FFF00, 'chocolate': 0xD2691E, 'coral': 0xFF7F50,\n\t'cornflowerblue': 0x6495ED, 'cornsilk': 0xFFF8DC, 'crimson': 0xDC143C, 'cyan': 0x00FFFF, 'darkblue': 0x00008B, 'darkcyan': 0x008B8B,\n\t'darkgoldenrod': 0xB8860B, 'darkgray': 0xA9A9A9, 'darkgreen': 0x006400, 'darkgrey': 0xA9A9A9, 'darkkhaki': 0xBDB76B, 'darkmagenta': 0x8B008B,\n\t'darkolivegreen': 0x556B2F, 'darkorange': 0xFF8C00, 'darkorchid': 0x9932CC, 'darkred': 0x8B0000, 'darksalmon': 0xE9967A, 'darkseagreen': 0x8FBC8F,\n\t'darkslateblue': 0x483D8B, 'darkslategray': 0x2F4F4F, 'darkslategrey': 0x2F4F4F, 'darkturquoise': 0x00CED1, 'darkviolet': 0x9400D3,\n\t'deeppink': 0xFF1493, 'deepskyblue': 0x00BFFF, 'dimgray': 0x696969, 'dimgrey': 0x696969, 'dodgerblue': 0x1E90FF, 'firebrick': 0xB22222,\n\t'floralwhite': 0xFFFAF0, 'forestgreen': 0x228B22, 'fuchsia': 0xFF00FF, 'gainsboro': 0xDCDCDC, 'ghostwhite': 0xF8F8FF, 'gold': 0xFFD700,\n\t'goldenrod': 0xDAA520, 'gray': 0x808080, 'green': 0x008000, 'greenyellow': 0xADFF2F, 'grey': 0x808080, 'honeydew': 0xF0FFF0, 'hotpink': 0xFF69B4,\n\t'indianred': 0xCD5C5C, 'indigo': 0x4B0082, 'ivory': 0xFFFFF0, 'khaki': 0xF0E68C, 'lavender': 0xE6E6FA, 'lavenderblush': 0xFFF0F5, 'lawngreen': 0x7CFC00,\n\t'lemonchiffon': 0xFFFACD, 'lightblue': 0xADD8E6, 'lightcoral': 0xF08080, 'lightcyan': 0xE0FFFF, 'lightgoldenrodyellow': 0xFAFAD2, 'lightgray': 0xD3D3D3,\n\t'lightgreen': 0x90EE90, 'lightgrey': 0xD3D3D3, 'lightpink': 0xFFB6C1, 'lightsalmon': 0xFFA07A, 'lightseagreen': 0x20B2AA, 'lightskyblue': 0x87CEFA,\n\t'lightslategray': 0x778899, 'lightslategrey': 0x778899, 'lightsteelblue': 0xB0C4DE, 'lightyellow': 0xFFFFE0, 'lime': 0x00FF00, 'limegreen': 0x32CD32,\n\t'linen': 0xFAF0E6, 'magenta': 0xFF00FF, 'maroon': 0x800000, 'mediumaquamarine': 0x66CDAA, 'mediumblue': 0x0000CD, 'mediumorchid': 0xBA55D3,\n\t'mediumpurple': 0x9370DB, 'mediumseagreen': 0x3CB371, 'mediumslateblue': 0x7B68EE, 'mediumspringgreen': 0x00FA9A, 'mediumturquoise': 0x48D1CC,\n\t'mediumvioletred': 0xC71585, 'midnightblue': 0x191970, 'mintcream': 0xF5FFFA, 'mistyrose': 0xFFE4E1, 'moccasin': 0xFFE4B5, 'navajowhite': 0xFFDEAD,\n\t'navy': 0x000080, 'oldlace': 0xFDF5E6, 'olive': 0x808000, 'olivedrab': 0x6B8E23, 'orange': 0xFFA500, 'orangered': 0xFF4500, 'orchid': 0xDA70D6,\n\t'palegoldenrod': 0xEEE8AA, 'palegreen': 0x98FB98, 'paleturquoise': 0xAFEEEE, 'palevioletred': 0xDB7093, 'papayawhip': 0xFFEFD5, 'peachpuff': 0xFFDAB9,\n\t'peru': 0xCD853F, 'pink': 0xFFC0CB, 'plum': 0xDDA0DD, 'powderblue': 0xB0E0E6, 'purple': 0x800080, 'rebeccapurple': 0x663399, 'red': 0xFF0000, 'rosybrown': 0xBC8F8F,\n\t'royalblue': 0x4169E1, 'saddlebrown': 0x8B4513, 'salmon': 0xFA8072, 'sandybrown': 0xF4A460, 'seagreen': 0x2E8B57, 'seashell': 0xFFF5EE,\n\t'sienna': 0xA0522D, 'silver': 0xC0C0C0, 'skyblue': 0x87CEEB, 'slateblue': 0x6A5ACD, 'slategray': 0x708090, 'slategrey': 0x708090, 'snow': 0xFFFAFA,\n\t'springgreen': 0x00FF7F, 'steelblue': 0x4682B4, 'tan': 0xD2B48C, 'teal': 0x008080, 'thistle': 0xD8BFD8, 'tomato': 0xFF6347, 'turquoise': 0x40E0D0,\n\t'violet': 0xEE82EE, 'wheat': 0xF5DEB3, 'white': 0xFFFFFF, 'whitesmoke': 0xF5F5F5, 'yellow': 0xFFFF00, 'yellowgreen': 0x9ACD32 };\n\nconst _hslA = { h: 0, s: 0, l: 0 };\nconst _hslB = { h: 0, s: 0, l: 0 };\n\nfunction hue2rgb( p, q, t ) {\n\n\tif ( t < 0 ) t += 1;\n\tif ( t > 1 ) t -= 1;\n\tif ( t < 1 / 6 ) return p + ( q - p ) * 6 * t;\n\tif ( t < 1 / 2 ) return q;\n\tif ( t < 2 / 3 ) return p + ( q - p ) * 6 * ( 2 / 3 - t );\n\treturn p;\n\n}\n\n/**\n * A Color instance is represented by RGB components in the linear working\n * color space, which defaults to `LinearSRGBColorSpace`. Inputs\n * conventionally using `SRGBColorSpace` (such as hexadecimals and CSS\n * strings) are converted to the working color space automatically.\n *\n * ```js\n * // converted automatically from SRGBColorSpace to LinearSRGBColorSpace\n * const color = new THREE.Color().setHex( 0x112233 );\n * ```\n * Source color spaces may be specified explicitly, to ensure correct conversions.\n * ```js\n * // assumed already LinearSRGBColorSpace; no conversion\n * const color = new THREE.Color().setRGB( 0.5, 0.5, 0.5 );\n *\n * // converted explicitly from SRGBColorSpace to LinearSRGBColorSpace\n * const color = new THREE.Color().setRGB( 0.5, 0.5, 0.5, SRGBColorSpace );\n * ```\n * If THREE.ColorManagement is disabled, no conversions occur. For details,\n * see Color management. Iterating through a Color instance will yield\n * its components (r, g, b) in the corresponding order. A Color can be initialised\n * in any of the following ways:\n * ```js\n * //empty constructor - will default white\n * const color1 = new THREE.Color();\n *\n * //Hexadecimal color (recommended)\n * const color2 = new THREE.Color( 0xff0000 );\n *\n * //RGB string\n * const color3 = new THREE.Color(\"rgb(255, 0, 0)\");\n * const color4 = new THREE.Color(\"rgb(100%, 0%, 0%)\");\n *\n * //X11 color name - all 140 color names are supported.\n * //Note the lack of CamelCase in the name\n * const color5 = new THREE.Color( 'skyblue' );\n * //HSL string\n * const color6 = new THREE.Color(\"hsl(0, 100%, 50%)\");\n *\n * //Separate RGB values between 0 and 1\n * const color7 = new THREE.Color( 1, 0, 0 );\n * ```\n */\nclass Color {\n\n\t/**\n\t * Constructs a new color.\n\t *\n\t * Note that standard method of specifying color in three.js is with a hexadecimal triplet,\n\t * and that method is used throughout the rest of the documentation.\n\t *\n\t * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n\t * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n\t * @param {number} [g] - The green component.\n\t * @param {number} [b] - The blue component.\n\t */\n\tconstructor( r, g, b ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isColor = true;\n\n\t\t/**\n\t\t * The red component.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.r = 1;\n\n\t\t/**\n\t\t * The green component.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.g = 1;\n\n\t\t/**\n\t\t * The blue component.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.b = 1;\n\n\t\treturn this.set( r, g, b );\n\n\t}\n\n\t/**\n\t * Sets the colors's components from the given values.\n\t *\n\t * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n\t * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n\t * @param {number} [g] - The green component.\n\t * @param {number} [b] - The blue component.\n\t * @return {Color} A reference to this color.\n\t */\n\tset( r, g, b ) {\n\n\t\tif ( g === undefined && b === undefined ) {\n\n\t\t\t// r is THREE.Color, hex or string\n\n\t\t\tconst value = r;\n\n\t\t\tif ( value && value.isColor ) {\n\n\t\t\t\tthis.copy( value );\n\n\t\t\t} else if ( typeof value === 'number' ) {\n\n\t\t\t\tthis.setHex( value );\n\n\t\t\t} else if ( typeof value === 'string' ) {\n\n\t\t\t\tthis.setStyle( value );\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tthis.setRGB( r, g, b );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the colors's components to the given scalar value.\n\t *\n\t * @param {number} scalar - The scalar value.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.r = scalar;\n\t\tthis.g = scalar;\n\t\tthis.b = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from a hexadecimal value.\n\t *\n\t * @param {number} hex - The hexadecimal value.\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetHex( hex, colorSpace = SRGBColorSpace ) {\n\n\t\thex = Math.floor( hex );\n\n\t\tthis.r = ( hex >> 16 & 255 ) / 255;\n\t\tthis.g = ( hex >> 8 & 255 ) / 255;\n\t\tthis.b = ( hex & 255 ) / 255;\n\n\t\tColorManagement.colorSpaceToWorking( this, colorSpace );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from RGB values.\n\t *\n\t * @param {number} r - Red channel value between `0.0` and `1.0`.\n\t * @param {number} g - Green channel value between `0.0` and `1.0`.\n\t * @param {number} b - Blue channel value between `0.0` and `1.0`.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetRGB( r, g, b, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\tthis.r = r;\n\t\tthis.g = g;\n\t\tthis.b = b;\n\n\t\tColorManagement.colorSpaceToWorking( this, colorSpace );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from RGB values.\n\t *\n\t * @param {number} h - Hue value between `0.0` and `1.0`.\n\t * @param {number} s - Saturation value between `0.0` and `1.0`.\n\t * @param {number} l - Lightness value between `0.0` and `1.0`.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetHSL( h, s, l, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\t// h,s,l ranges are in 0.0 - 1.0\n\t\th = euclideanModulo( h, 1 );\n\t\ts = clamp( s, 0, 1 );\n\t\tl = clamp( l, 0, 1 );\n\n\t\tif ( s === 0 ) {\n\n\t\t\tthis.r = this.g = this.b = l;\n\n\t\t} else {\n\n\t\t\tconst p = l <= 0.5 ? l * ( 1 + s ) : l + s - ( l * s );\n\t\t\tconst q = ( 2 * l ) - p;\n\n\t\t\tthis.r = hue2rgb( q, p, h + 1 / 3 );\n\t\t\tthis.g = hue2rgb( q, p, h );\n\t\t\tthis.b = hue2rgb( q, p, h - 1 / 3 );\n\n\t\t}\n\n\t\tColorManagement.colorSpaceToWorking( this, colorSpace );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from a CSS-style string. For example, `rgb(250, 0,0)`,\n\t * `rgb(100%, 0%, 0%)`, `hsl(0, 100%, 50%)`, `#ff0000`, `#f00`, or `red` ( or\n\t * any [X11 color name]{@link https://en.wikipedia.org/wiki/X11_color_names#Color_name_chart} -\n\t * all 140 color names are supported).\n\t *\n\t * @param {string} style - Color as a CSS-style string.\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetStyle( style, colorSpace = SRGBColorSpace ) {\n\n\t\tfunction handleAlpha( string ) {\n\n\t\t\tif ( string === undefined ) return;\n\n\t\t\tif ( parseFloat( string ) < 1 ) {\n\n\t\t\t\tconsole.warn( 'THREE.Color: Alpha component of ' + style + ' will be ignored.' );\n\n\t\t\t}\n\n\t\t}\n\n\n\t\tlet m;\n\n\t\tif ( m = /^(\\w+)\\(([^\\)]*)\\)/.exec( style ) ) {\n\n\t\t\t// rgb / hsl\n\n\t\t\tlet color;\n\t\t\tconst name = m[ 1 ];\n\t\t\tconst components = m[ 2 ];\n\n\t\t\tswitch ( name ) {\n\n\t\t\t\tcase 'rgb':\n\t\t\t\tcase 'rgba':\n\n\t\t\t\t\tif ( color = /^\\s*(\\d+)\\s*,\\s*(\\d+)\\s*,\\s*(\\d+)\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec( components ) ) {\n\n\t\t\t\t\t\t// rgb(255,0,0) rgba(255,0,0,0.5)\n\n\t\t\t\t\t\thandleAlpha( color[ 4 ] );\n\n\t\t\t\t\t\treturn this.setRGB(\n\t\t\t\t\t\t\tMath.min( 255, parseInt( color[ 1 ], 10 ) ) / 255,\n\t\t\t\t\t\t\tMath.min( 255, parseInt( color[ 2 ], 10 ) ) / 255,\n\t\t\t\t\t\t\tMath.min( 255, parseInt( color[ 3 ], 10 ) ) / 255,\n\t\t\t\t\t\t\tcolorSpace\n\t\t\t\t\t\t);\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( color = /^\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec( components ) ) {\n\n\t\t\t\t\t\t// rgb(100%,0%,0%) rgba(100%,0%,0%,0.5)\n\n\t\t\t\t\t\thandleAlpha( color[ 4 ] );\n\n\t\t\t\t\t\treturn this.setRGB(\n\t\t\t\t\t\t\tMath.min( 100, parseInt( color[ 1 ], 10 ) ) / 100,\n\t\t\t\t\t\t\tMath.min( 100, parseInt( color[ 2 ], 10 ) ) / 100,\n\t\t\t\t\t\t\tMath.min( 100, parseInt( color[ 3 ], 10 ) ) / 100,\n\t\t\t\t\t\t\tcolorSpace\n\t\t\t\t\t\t);\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase 'hsl':\n\t\t\t\tcase 'hsla':\n\n\t\t\t\t\tif ( color = /^\\s*(\\d*\\.?\\d+)\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec( components ) ) {\n\n\t\t\t\t\t\t// hsl(120,50%,50%) hsla(120,50%,50%,0.5)\n\n\t\t\t\t\t\thandleAlpha( color[ 4 ] );\n\n\t\t\t\t\t\treturn this.setHSL(\n\t\t\t\t\t\t\tparseFloat( color[ 1 ] ) / 360,\n\t\t\t\t\t\t\tparseFloat( color[ 2 ] ) / 100,\n\t\t\t\t\t\t\tparseFloat( color[ 3 ] ) / 100,\n\t\t\t\t\t\t\tcolorSpace\n\t\t\t\t\t\t);\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\n\n\t\t\t\t\tconsole.warn( 'THREE.Color: Unknown color model ' + style );\n\n\t\t\t}\n\n\t\t} else if ( m = /^\\#([A-Fa-f\\d]+)$/.exec( style ) ) {\n\n\t\t\t// hex color\n\n\t\t\tconst hex = m[ 1 ];\n\t\t\tconst size = hex.length;\n\n\t\t\tif ( size === 3 ) {\n\n\t\t\t\t// #ff0\n\t\t\t\treturn this.setRGB(\n\t\t\t\t\tparseInt( hex.charAt( 0 ), 16 ) / 15,\n\t\t\t\t\tparseInt( hex.charAt( 1 ), 16 ) / 15,\n\t\t\t\t\tparseInt( hex.charAt( 2 ), 16 ) / 15,\n\t\t\t\t\tcolorSpace\n\t\t\t\t);\n\n\t\t\t} else if ( size === 6 ) {\n\n\t\t\t\t// #ff0000\n\t\t\t\treturn this.setHex( parseInt( hex, 16 ), colorSpace );\n\n\t\t\t} else {\n\n\t\t\t\tconsole.warn( 'THREE.Color: Invalid hex color ' + style );\n\n\t\t\t}\n\n\t\t} else if ( style && style.length > 0 ) {\n\n\t\t\treturn this.setColorName( style, colorSpace );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from a color name. Faster than {@link Color#setStyle} if\n\t * you don't need the other CSS-style formats.\n\t *\n\t * For convenience, the list of names is exposed in `Color.NAMES` as a hash.\n\t * ```js\n\t * Color.NAMES.aliceblue // returns 0xF0F8FF\n\t * ```\n\t *\n\t * @param {string} style - The color name.\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetColorName( style, colorSpace = SRGBColorSpace ) {\n\n\t\t// color keywords\n\t\tconst hex = _colorKeywords[ style.toLowerCase() ];\n\n\t\tif ( hex !== undefined ) {\n\n\t\t\t// red\n\t\t\tthis.setHex( hex, colorSpace );\n\n\t\t} else {\n\n\t\t\t// unknown color\n\t\t\tconsole.warn( 'THREE.Color: Unknown color ' + style );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new color with copied values from this instance.\n\t *\n\t * @return {Color} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.r, this.g, this.b );\n\n\t}\n\n\t/**\n\t * Copies the values of the given color to this instance.\n\t *\n\t * @param {Color} color - The color to copy.\n\t * @return {Color} A reference to this color.\n\t */\n\tcopy( color ) {\n\n\t\tthis.r = color.r;\n\t\tthis.g = color.g;\n\t\tthis.b = color.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the given color into this color, and then converts this color from\n\t * `SRGBColorSpace` to `LinearSRGBColorSpace`.\n\t *\n\t * @param {Color} color - The color to copy/convert.\n\t * @return {Color} A reference to this color.\n\t */\n\tcopySRGBToLinear( color ) {\n\n\t\tthis.r = SRGBToLinear( color.r );\n\t\tthis.g = SRGBToLinear( color.g );\n\t\tthis.b = SRGBToLinear( color.b );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the given color into this color, and then converts this color from\n\t * `LinearSRGBColorSpace` to `SRGBColorSpace`.\n\t *\n\t * @param {Color} color - The color to copy/convert.\n\t * @return {Color} A reference to this color.\n\t */\n\tcopyLinearToSRGB( color ) {\n\n\t\tthis.r = LinearToSRGB( color.r );\n\t\tthis.g = LinearToSRGB( color.g );\n\t\tthis.b = LinearToSRGB( color.b );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Converts this color from `SRGBColorSpace` to `LinearSRGBColorSpace`.\n\t *\n\t * @return {Color} A reference to this color.\n\t */\n\tconvertSRGBToLinear() {\n\n\t\tthis.copySRGBToLinear( this );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Converts this color from `LinearSRGBColorSpace` to `SRGBColorSpace`.\n\t *\n\t * @return {Color} A reference to this color.\n\t */\n\tconvertLinearToSRGB() {\n\n\t\tthis.copyLinearToSRGB( this );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the hexadecimal value of this color.\n\t *\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {number} The hexadecimal value.\n\t */\n\tgetHex( colorSpace = SRGBColorSpace ) {\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\treturn Math.round( clamp( _color.r * 255, 0, 255 ) ) * 65536 + Math.round( clamp( _color.g * 255, 0, 255 ) ) * 256 + Math.round( clamp( _color.b * 255, 0, 255 ) );\n\n\t}\n\n\t/**\n\t * Returns the hexadecimal value of this color as a string (for example, 'FFFFFF').\n\t *\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {string} The hexadecimal value as a string.\n\t */\n\tgetHexString( colorSpace = SRGBColorSpace ) {\n\n\t\treturn ( '000000' + this.getHex( colorSpace ).toString( 16 ) ).slice( -6 );\n\n\t}\n\n\t/**\n\t * Converts the colors RGB values into the HSL format and stores them into the\n\t * given target object.\n\t *\n\t * @param {{h:number,s:number,l:number}} target - The target object that is used to store the method's result.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {{h:number,s:number,l:number}} The HSL representation of this color.\n\t */\n\tgetHSL( target, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\t// h,s,l ranges are in 0.0 - 1.0\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\tconst r = _color.r, g = _color.g, b = _color.b;\n\n\t\tconst max = Math.max( r, g, b );\n\t\tconst min = Math.min( r, g, b );\n\n\t\tlet hue, saturation;\n\t\tconst lightness = ( min + max ) / 2.0;\n\n\t\tif ( min === max ) {\n\n\t\t\thue = 0;\n\t\t\tsaturation = 0;\n\n\t\t} else {\n\n\t\t\tconst delta = max - min;\n\n\t\t\tsaturation = lightness <= 0.5 ? delta / ( max + min ) : delta / ( 2 - max - min );\n\n\t\t\tswitch ( max ) {\n\n\t\t\t\tcase r: hue = ( g - b ) / delta + ( g < b ? 6 : 0 ); break;\n\t\t\t\tcase g: hue = ( b - r ) / delta + 2; break;\n\t\t\t\tcase b: hue = ( r - g ) / delta + 4; break;\n\n\t\t\t}\n\n\t\t\thue /= 6;\n\n\t\t}\n\n\t\ttarget.h = hue;\n\t\ttarget.s = saturation;\n\t\ttarget.l = lightness;\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the RGB values of this color and stores them into the given target object.\n\t *\n\t * @param {Color} target - The target color that is used to store the method's result.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {Color} The RGB representation of this color.\n\t */\n\tgetRGB( target, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\ttarget.r = _color.r;\n\t\ttarget.g = _color.g;\n\t\ttarget.b = _color.b;\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the value of this color as a CSS style string. Example: `rgb(255,0,0)`.\n\t *\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {string} The CSS representation of this color.\n\t */\n\tgetStyle( colorSpace = SRGBColorSpace ) {\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\tconst r = _color.r, g = _color.g, b = _color.b;\n\n\t\tif ( colorSpace !== SRGBColorSpace ) {\n\n\t\t\t// Requires CSS Color Module Level 4 (https://www.w3.org/TR/css-color-4/).\n\t\t\treturn `color(${ colorSpace } ${ r.toFixed( 3 ) } ${ g.toFixed( 3 ) } ${ b.toFixed( 3 ) })`;\n\n\t\t}\n\n\t\treturn `rgb(${ Math.round( r * 255 ) },${ Math.round( g * 255 ) },${ Math.round( b * 255 ) })`;\n\n\t}\n\n\t/**\n\t * Adds the given HSL values to this color's values.\n\t * Internally, this converts the color's RGB values to HSL, adds HSL\n\t * and then converts the color back to RGB.\n\t *\n\t * @param {number} h - Hue value between `0.0` and `1.0`.\n\t * @param {number} s - Saturation value between `0.0` and `1.0`.\n\t * @param {number} l - Lightness value between `0.0` and `1.0`.\n\t * @return {Color} A reference to this color.\n\t */\n\toffsetHSL( h, s, l ) {\n\n\t\tthis.getHSL( _hslA );\n\n\t\treturn this.setHSL( _hslA.h + h, _hslA.s + s, _hslA.l + l );\n\n\t}\n\n\t/**\n\t * Adds the RGB values of the given color to the RGB values of this color.\n\t *\n\t * @param {Color} color - The color to add.\n\t * @return {Color} A reference to this color.\n\t */\n\tadd( color ) {\n\n\t\tthis.r += color.r;\n\t\tthis.g += color.g;\n\t\tthis.b += color.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the RGB values of the given colors and stores the result in this instance.\n\t *\n\t * @param {Color} color1 - The first color.\n\t * @param {Color} color2 - The second color.\n\t * @return {Color} A reference to this color.\n\t */\n\taddColors( color1, color2 ) {\n\n\t\tthis.r = color1.r + color2.r;\n\t\tthis.g = color1.g + color2.g;\n\t\tthis.b = color1.b + color2.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to the RGB values of this color.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Color} A reference to this color.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.r += s;\n\t\tthis.g += s;\n\t\tthis.b += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the RGB values of the given color from the RGB values of this color.\n\t *\n\t * @param {Color} color - The color to subtract.\n\t * @return {Color} A reference to this color.\n\t */\n\tsub( color ) {\n\n\t\tthis.r = Math.max( 0, this.r - color.r );\n\t\tthis.g = Math.max( 0, this.g - color.g );\n\t\tthis.b = Math.max( 0, this.b - color.b );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the RGB values of the given color with the RGB values of this color.\n\t *\n\t * @param {Color} color - The color to multiply.\n\t * @return {Color} A reference to this color.\n\t */\n\tmultiply( color ) {\n\n\t\tthis.r *= color.r;\n\t\tthis.g *= color.g;\n\t\tthis.b *= color.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with the RGB values of this color.\n\t *\n\t * @param {number} s - The scalar to multiply.\n\t * @return {Color} A reference to this color.\n\t */\n\tmultiplyScalar( s ) {\n\n\t\tthis.r *= s;\n\t\tthis.g *= s;\n\t\tthis.b *= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates this color's RGB values toward the RGB values of the\n\t * given color. The alpha argument can be thought of as the ratio between\n\t * the two colors, where `0.0` is this color and `1.0` is the first argument.\n\t *\n\t * @param {Color} color - The color to converge on.\n\t * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n\t * @return {Color} A reference to this color.\n\t */\n\tlerp( color, alpha ) {\n\n\t\tthis.r += ( color.r - this.r ) * alpha;\n\t\tthis.g += ( color.g - this.g ) * alpha;\n\t\tthis.b += ( color.b - this.b ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given colors and stores the result in this instance.\n\t * The alpha argument can be thought of as the ratio between the two colors, where `0.0`\n\t * is the first and `1.0` is the second color.\n\t *\n\t * @param {Color} color1 - The first color.\n\t * @param {Color} color2 - The second color.\n\t * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n\t * @return {Color} A reference to this color.\n\t */\n\tlerpColors( color1, color2, alpha ) {\n\n\t\tthis.r = color1.r + ( color2.r - color1.r ) * alpha;\n\t\tthis.g = color1.g + ( color2.g - color1.g ) * alpha;\n\t\tthis.b = color1.b + ( color2.b - color1.b ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates this color's HSL values toward the HSL values of the\n\t * given color. It differs from {@link Color#lerp} by not interpolating straight\n\t * from one color to the other, but instead going through all the hues in between\n\t * those two colors. The alpha argument can be thought of as the ratio between\n\t * the two colors, where 0.0 is this color and 1.0 is the first argument.\n\t *\n\t * @param {Color} color - The color to converge on.\n\t * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n\t * @return {Color} A reference to this color.\n\t */\n\tlerpHSL( color, alpha ) {\n\n\t\tthis.getHSL( _hslA );\n\t\tcolor.getHSL( _hslB );\n\n\t\tconst h = lerp( _hslA.h, _hslB.h, alpha );\n\t\tconst s = lerp( _hslA.s, _hslB.s, alpha );\n\t\tconst l = lerp( _hslA.l, _hslB.l, alpha );\n\n\t\tthis.setHSL( h, s, l );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the color's RGB components from the given 3D vector.\n\t *\n\t * @param {Vector3} v - The vector to set.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetFromVector3( v ) {\n\n\t\tthis.r = v.x;\n\t\tthis.g = v.y;\n\t\tthis.b = v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Transforms this color with the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix.\n\t * @return {Color} A reference to this color.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tconst r = this.r, g = this.g, b = this.b;\n\t\tconst e = m.elements;\n\n\t\tthis.r = e[ 0 ] * r + e[ 3 ] * g + e[ 6 ] * b;\n\t\tthis.g = e[ 1 ] * r + e[ 4 ] * g + e[ 7 ] * b;\n\t\tthis.b = e[ 2 ] * r + e[ 5 ] * g + e[ 8 ] * b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this color is equal with the given one.\n\t *\n\t * @param {Color} c - The color to test for equality.\n\t * @return {boolean} Whether this bounding color is equal with the given one.\n\t */\n\tequals( c ) {\n\n\t\treturn ( c.r === this.r ) && ( c.g === this.g ) && ( c.b === this.b );\n\n\t}\n\n\t/**\n\t * Sets this color's RGB components from the given array.\n\t *\n\t * @param {Array} array - An array holding the RGB values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Color} A reference to this color.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.r = array[ offset ];\n\t\tthis.g = array[ offset + 1 ];\n\t\tthis.b = array[ offset + 2 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the RGB components of this color to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the color components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The color components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.r;\n\t\tarray[ offset + 1 ] = this.g;\n\t\tarray[ offset + 2 ] = this.b;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this color from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding color data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Color} A reference to this color.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.r = attribute.getX( index );\n\t\tthis.g = attribute.getY( index );\n\t\tthis.b = attribute.getZ( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This methods defines the serialization result of this class. Returns the color\n\t * as a hexadecimal value.\n\t *\n\t * @return {number} The hexadecimal value.\n\t */\n\ttoJSON() {\n\n\t\treturn this.getHex();\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.r;\n\t\tyield this.g;\n\t\tyield this.b;\n\n\t}\n\n}\n\nconst _color = /*@__PURE__*/ new Color();\n\n/**\n * A dictionary with X11 color names.\n *\n * Note that multiple words such as Dark Orange become the string 'darkorange'.\n *\n * @static\n * @type {Object}\n */\nColor.NAMES = _colorKeywords;\n\nlet _materialId = 0;\n\n/**\n * Abstract base class for materials.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * @abstract\n * @augments EventDispatcher\n */\nclass Material extends EventDispatcher {\n\n\t/**\n\t * Constructs a new material.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMaterial = true;\n\n\t\t/**\n\t\t * The ID of the material.\n\t\t *\n\t\t * @name Material#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _materialId ++ } );\n\n\t\t/**\n\t\t * The UUID of the material.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the material.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'Material';\n\n\t\t/**\n\t\t * Defines the blending type of the material.\n\t\t *\n\t\t * It must be set to `CustomBlending` if custom blending properties like\n\t\t * {@link Material#blendSrc}, {@link Material#blendDst} or {@link Material#blendEquation}\n\t\t * should have any effect.\n\t\t *\n\t\t * @type {(NoBlending|NormalBlending|AdditiveBlending|SubtractiveBlending|MultiplyBlending|CustomBlending)}\n\t\t * @default NormalBlending\n\t\t */\n\t\tthis.blending = NormalBlending;\n\n\t\t/**\n\t\t * Defines which side of faces will be rendered - front, back or both.\n\t\t *\n\t\t * @type {(FrontSide|BackSide|DoubleSide)}\n\t\t * @default FrontSide\n\t\t */\n\t\tthis.side = FrontSide;\n\n\t\t/**\n\t\t * If set to `true`, vertex colors should be used.\n\t\t *\n\t\t * The engine supports RGB and RGBA vertex colors depending on whether a three (RGB) or\n\t\t * four (RGBA) component color buffer attribute is used.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.vertexColors = false;\n\n\t\t/**\n\t\t * Defines how transparent the material is.\n\t\t * A value of `0.0` indicates fully transparent, `1.0` is fully opaque.\n\t\t *\n\t\t * If the {@link Material#transparent} is not set to `true`,\n\t\t * the material will remain fully opaque and this value will only affect its color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.opacity = 1;\n\n\t\t/**\n\t\t * Defines whether this material is transparent. This has an effect on\n\t\t * rendering as transparent objects need special treatment and are rendered\n\t\t * after non-transparent objects.\n\t\t *\n\t\t * When set to true, the extent to which the material is transparent is\n\t\t * controlled by {@link Material#opacity}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.transparent = false;\n\n\t\t/**\n\t\t * Enables alpha hashed transparency, an alternative to {@link Material#transparent} or\n\t\t * {@link Material#alphaTest}. The material will not be rendered if opacity is lower than\n\t\t * a random threshold. Randomization introduces some grain or noise, but approximates alpha\n\t\t * blending without the associated problems of sorting. Using TAA can reduce the resulting noise.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.alphaHash = false;\n\n\t\t/**\n\t\t * Defines the blending source factor.\n\t\t *\n\t\t * @type {(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default SrcAlphaFactor\n\t\t */\n\t\tthis.blendSrc = SrcAlphaFactor;\n\n\t\t/**\n\t\t * Defines the blending destination factor.\n\t\t *\n\t\t * @type {(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default OneMinusSrcAlphaFactor\n\t\t */\n\t\tthis.blendDst = OneMinusSrcAlphaFactor;\n\n\t\t/**\n\t\t * Defines the blending equation.\n\t\t *\n\t\t * @type {(AddEquation|SubtractEquation|ReverseSubtractEquation|MinEquation|MaxEquation)}\n\t\t * @default AddEquation\n\t\t */\n\t\tthis.blendEquation = AddEquation;\n\n\t\t/**\n\t\t * Defines the blending source alpha factor.\n\t\t *\n\t\t * @type {?(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default null\n\t\t */\n\t\tthis.blendSrcAlpha = null;\n\n\t\t/**\n\t\t * Defines the blending destination alpha factor.\n\t\t *\n\t\t * @type {?(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default null\n\t\t */\n\t\tthis.blendDstAlpha = null;\n\n\t\t/**\n\t\t * Defines the blending equation of the alpha channel.\n\t\t *\n\t\t * @type {?(AddEquation|SubtractEquation|ReverseSubtractEquation|MinEquation|MaxEquation)}\n\t\t * @default null\n\t\t */\n\t\tthis.blendEquationAlpha = null;\n\n\t\t/**\n\t\t * Represents the RGB values of the constant blend color.\n\t\t *\n\t\t * This property has only an effect when using custom blending with `ConstantColor` or `OneMinusConstantColor`.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.blendColor = new Color( 0, 0, 0 );\n\n\t\t/**\n\t\t * Represents the alpha value of the constant blend color.\n\t\t *\n\t\t * This property has only an effect when using custom blending with `ConstantAlpha` or `OneMinusConstantAlpha`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.blendAlpha = 0;\n\n\t\t/**\n\t\t * Defines the depth function.\n\t\t *\n\t\t * @type {(NeverDepth|AlwaysDepth|LessDepth|LessEqualDepth|EqualDepth|GreaterEqualDepth|GreaterDepth|NotEqualDepth)}\n\t\t * @default LessEqualDepth\n\t\t */\n\t\tthis.depthFunc = LessEqualDepth;\n\n\t\t/**\n\t\t * Whether to have depth test enabled when rendering this material.\n\t\t * When the depth test is disabled, the depth write will also be implicitly disabled.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.depthTest = true;\n\n\t\t/**\n\t\t * Whether rendering this material has any effect on the depth buffer.\n\t\t *\n\t\t * When drawing 2D overlays it can be useful to disable the depth writing in\n\t\t * order to layer several things together without creating z-index artifacts.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.depthWrite = true;\n\n\t\t/**\n\t\t * The bit mask to use when writing to the stencil buffer.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0xff\n\t\t */\n\t\tthis.stencilWriteMask = 0xff;\n\n\t\t/**\n\t\t * The stencil comparison function to use.\n\t\t *\n\t\t * @type {NeverStencilFunc|LessStencilFunc|EqualStencilFunc|LessEqualStencilFunc|GreaterStencilFunc|NotEqualStencilFunc|GreaterEqualStencilFunc|AlwaysStencilFunc}\n\t\t * @default AlwaysStencilFunc\n\t\t */\n\t\tthis.stencilFunc = AlwaysStencilFunc;\n\n\t\t/**\n\t\t * The value to use when performing stencil comparisons or stencil operations.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.stencilRef = 0;\n\n\t\t/**\n\t\t * The bit mask to use when comparing against the stencil buffer.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0xff\n\t\t */\n\t\tthis.stencilFuncMask = 0xff;\n\n\t\t/**\n\t\t * Which stencil operation to perform when the comparison function returns `false`.\n\t\t *\n\t\t * @type {ZeroStencilOp|KeepStencilOp|ReplaceStencilOp|IncrementStencilOp|DecrementStencilOp|IncrementWrapStencilOp|DecrementWrapStencilOp|InvertStencilOp}\n\t\t * @default KeepStencilOp\n\t\t */\n\t\tthis.stencilFail = KeepStencilOp;\n\n\t\t/**\n\t\t * Which stencil operation to perform when the comparison function returns\n\t\t * `true` but the depth test fails.\n\t\t *\n\t\t * @type {ZeroStencilOp|KeepStencilOp|ReplaceStencilOp|IncrementStencilOp|DecrementStencilOp|IncrementWrapStencilOp|DecrementWrapStencilOp|InvertStencilOp}\n\t\t * @default KeepStencilOp\n\t\t */\n\t\tthis.stencilZFail = KeepStencilOp;\n\n\t\t/**\n\t\t * Which stencil operation to perform when the comparison function returns\n\t\t * `true` and the depth test passes.\n\t\t *\n\t\t * @type {ZeroStencilOp|KeepStencilOp|ReplaceStencilOp|IncrementStencilOp|DecrementStencilOp|IncrementWrapStencilOp|DecrementWrapStencilOp|InvertStencilOp}\n\t\t * @default KeepStencilOp\n\t\t */\n\t\tthis.stencilZPass = KeepStencilOp;\n\n\t\t/**\n\t\t * Whether stencil operations are performed against the stencil buffer. In\n\t\t * order to perform writes or comparisons against the stencil buffer this\n\t\t * value must be `true`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.stencilWrite = false;\n\n\t\t/**\n\t\t * User-defined clipping planes specified as THREE.Plane objects in world\n\t\t * space. These planes apply to the objects this material is attached to.\n\t\t * Points in space whose signed distance to the plane is negative are clipped\n\t\t * (not rendered). This requires {@link WebGLRenderer#localClippingEnabled} to\n\t\t * be `true`.\n\t\t *\n\t\t * @type {?Array}\n\t\t * @default null\n\t\t */\n\t\tthis.clippingPlanes = null;\n\n\t\t/**\n\t\t * Changes the behavior of clipping planes so that only their intersection is\n\t\t * clipped, rather than their union.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clipIntersection = false;\n\n\t\t/**\n\t\t * Defines whether to clip shadows according to the clipping planes specified\n\t\t * on this material.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clipShadows = false;\n\n\t\t/**\n\t\t * Defines which side of faces cast shadows. If `null`, the side casting shadows\n\t\t * is determined as follows:\n\t\t *\n\t\t * - When {@link Material#side} is set to `FrontSide`, the back side cast shadows.\n\t\t * - When {@link Material#side} is set to `BackSide`, the front side cast shadows.\n\t\t * - When {@link Material#side} is set to `DoubleSide`, both sides cast shadows.\n\t\t *\n\t\t * @type {?(FrontSide|BackSide|DoubleSide)}\n\t\t * @default null\n\t\t */\n\t\tthis.shadowSide = null;\n\n\t\t/**\n\t\t * Whether to render the material's color.\n\t\t *\n\t\t * This can be used in conjunction with {@link Object3D#renderOder} to create invisible\n\t\t * objects that occlude other objects.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.colorWrite = true;\n\n\t\t/**\n\t\t * Override the renderer's default precision for this material.\n\t\t *\n\t\t * @type {?('highp'|'mediump'|'lowp')}\n\t\t * @default null\n\t\t */\n\t\tthis.precision = null;\n\n\t\t/**\n\t\t * Whether to use polygon offset or not. When enabled, each fragment's depth value will\n\t\t * be offset after it is interpolated from the depth values of the appropriate vertices.\n\t\t * The offset is added before the depth test is performed and before the value is written\n\t\t * into the depth buffer.\n\t\t *\n\t\t * Can be useful for rendering hidden-line images, for applying decals to surfaces, and for\n\t\t * rendering solids with highlighted edges.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.polygonOffset = false;\n\n\t\t/**\n\t\t * Specifies a scale factor that is used to create a variable depth offset for each polygon.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.polygonOffsetFactor = 0;\n\n\t\t/**\n\t\t * Is multiplied by an implementation-specific value to create a constant depth offset.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.polygonOffsetUnits = 0;\n\n\t\t/**\n\t\t * Whether to apply dithering to the color to remove the appearance of banding.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.dithering = false;\n\n\t\t/**\n\t\t * Whether alpha to coverage should be enabled or not. Can only be used with MSAA-enabled contexts\n\t\t * (meaning when the renderer was created with *antialias* parameter set to `true`). Enabling this\n\t\t * will smooth aliasing on clip plane edges and alphaTest-clipped edges.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.alphaToCoverage = false;\n\n\t\t/**\n\t\t * Whether to premultiply the alpha (transparency) value.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.premultipliedAlpha = false;\n\n\t\t/**\n\t\t * Whether double-sided, transparent objects should be rendered with a single pass or not.\n\t\t *\n\t\t * The engine renders double-sided, transparent objects with two draw calls (back faces first,\n\t\t * then front faces) to mitigate transparency artifacts. There are scenarios however where this\n\t\t * approach produces no quality gains but still doubles draw calls e.g. when rendering flat\n\t\t * vegetation like grass sprites. In these cases, set the `forceSinglePass` flag to `true` to\n\t\t * disable the two pass rendering to avoid performance issues.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.forceSinglePass = false;\n\n\t\t/**\n\t\t * Whether it's possible to override the material with {@link Scene#overrideMaterial} or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.allowOverride = true;\n\n\t\t/**\n\t\t * Defines whether 3D objects using this material are visible.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.visible = true;\n\n\t\t/**\n\t\t * Defines whether this material is tone mapped according to the renderer's tone mapping setting.\n\t\t *\n\t\t * It is ignored when rendering to a render target or using post processing or when using\n\t\t * `WebGPURenderer`. In all these cases, all materials are honored by tone mapping.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.toneMapped = true;\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the Material. It\n\t\t * should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t\t/**\n\t\t * This starts at `0` and counts how many times {@link Material#needsUpdate} is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.version = 0;\n\n\t\tthis._alphaTest = 0;\n\n\t}\n\n\t/**\n\t * Sets the alpha value to be used when running an alpha test. The material\n\t * will not be rendered if the opacity is lower than this value.\n\t *\n\t * @type {number}\n\t * @readonly\n\t * @default 0\n\t */\n\tget alphaTest() {\n\n\t\treturn this._alphaTest;\n\n\t}\n\n\tset alphaTest( value ) {\n\n\t\tif ( this._alphaTest > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._alphaTest = value;\n\n\t}\n\n\t/**\n\t * An optional callback that is executed immediately before the material is used to render a 3D object.\n\t *\n\t * This method can only be used when rendering with {@link WebGLRenderer}.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {Scene} scene - The scene.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonBeforeRender( /* renderer, scene, camera, geometry, object, group */ ) {}\n\n\t/**\n\t * An optional callback that is executed immediately before the shader\n\t * program is compiled. This function is called with the shader source code\n\t * as a parameter. Useful for the modification of built-in materials.\n\t *\n\t * This method can only be used when rendering with {@link WebGLRenderer}. The\n\t * recommended approach when customizing materials is to use `WebGPURenderer` with the new\n\t * Node Material system and [TSL]{@link https://github.com/mrdoob/three.js/wiki/Three.js-Shading-Language}.\n\t *\n\t * @param {{vertexShader:string,fragmentShader:string,uniforms:Object}} shaderobject - The object holds the uniforms and the vertex and fragment shader source.\n\t * @param {WebGLRenderer} renderer - A reference to the renderer.\n\t */\n\tonBeforeCompile( /* shaderobject, renderer */ ) {}\n\n\t/**\n\t * In case {@link Material#onBeforeCompile} is used, this callback can be used to identify\n\t * values of settings used in `onBeforeCompile()`, so three.js can reuse a cached\n\t * shader or recompile the shader for this material as needed.\n\t *\n\t * This method can only be used when rendering with {@link WebGLRenderer}.\n\t *\n\t * @return {string} The custom program cache key.\n\t */\n\tcustomProgramCacheKey() {\n\n\t\treturn this.onBeforeCompile.toString();\n\n\t}\n\n\t/**\n\t * This method can be used to set default values from parameter objects.\n\t * It is a generic implementation so it can be used with different types\n\t * of materials.\n\t *\n\t * @param {Object} [values] - The material values to set.\n\t */\n\tsetValues( values ) {\n\n\t\tif ( values === undefined ) return;\n\n\t\tfor ( const key in values ) {\n\n\t\t\tconst newValue = values[ key ];\n\n\t\t\tif ( newValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Material: parameter '${ key }' has value of undefined.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tconst currentValue = this[ key ];\n\n\t\t\tif ( currentValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Material: '${ key }' is not a property of THREE.${ this.type }.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tif ( currentValue && currentValue.isColor ) {\n\n\t\t\t\tcurrentValue.set( newValue );\n\n\t\t\t} else if ( ( currentValue && currentValue.isVector3 ) && ( newValue && newValue.isVector3 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else {\n\n\t\t\t\tthis[ key ] = newValue;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the material into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized material.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tif ( isRootObject ) {\n\n\t\t\tmeta = {\n\t\t\t\ttextures: {},\n\t\t\t\timages: {}\n\t\t\t};\n\n\t\t}\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Material',\n\t\t\t\tgenerator: 'Material.toJSON'\n\t\t\t}\n\t\t};\n\n\t\t// standard Material serialization\n\t\tdata.uuid = this.uuid;\n\t\tdata.type = this.type;\n\n\t\tif ( this.name !== '' ) data.name = this.name;\n\n\t\tif ( this.color && this.color.isColor ) data.color = this.color.getHex();\n\n\t\tif ( this.roughness !== undefined ) data.roughness = this.roughness;\n\t\tif ( this.metalness !== undefined ) data.metalness = this.metalness;\n\n\t\tif ( this.sheen !== undefined ) data.sheen = this.sheen;\n\t\tif ( this.sheenColor && this.sheenColor.isColor ) data.sheenColor = this.sheenColor.getHex();\n\t\tif ( this.sheenRoughness !== undefined ) data.sheenRoughness = this.sheenRoughness;\n\t\tif ( this.emissive && this.emissive.isColor ) data.emissive = this.emissive.getHex();\n\t\tif ( this.emissiveIntensity !== undefined && this.emissiveIntensity !== 1 ) data.emissiveIntensity = this.emissiveIntensity;\n\n\t\tif ( this.specular && this.specular.isColor ) data.specular = this.specular.getHex();\n\t\tif ( this.specularIntensity !== undefined ) data.specularIntensity = this.specularIntensity;\n\t\tif ( this.specularColor && this.specularColor.isColor ) data.specularColor = this.specularColor.getHex();\n\t\tif ( this.shininess !== undefined ) data.shininess = this.shininess;\n\t\tif ( this.clearcoat !== undefined ) data.clearcoat = this.clearcoat;\n\t\tif ( this.clearcoatRoughness !== undefined ) data.clearcoatRoughness = this.clearcoatRoughness;\n\n\t\tif ( this.clearcoatMap && this.clearcoatMap.isTexture ) {\n\n\t\t\tdata.clearcoatMap = this.clearcoatMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.clearcoatRoughnessMap && this.clearcoatRoughnessMap.isTexture ) {\n\n\t\t\tdata.clearcoatRoughnessMap = this.clearcoatRoughnessMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.clearcoatNormalMap && this.clearcoatNormalMap.isTexture ) {\n\n\t\t\tdata.clearcoatNormalMap = this.clearcoatNormalMap.toJSON( meta ).uuid;\n\t\t\tdata.clearcoatNormalScale = this.clearcoatNormalScale.toArray();\n\n\t\t}\n\n\t\tif ( this.sheenColorMap && this.sheenColorMap.isTexture ) {\n\n\t\t\tdata.sheenColorMap = this.sheenColorMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.sheenRoughnessMap && this.sheenRoughnessMap.isTexture ) {\n\n\t\t\tdata.sheenRoughnessMap = this.sheenRoughnessMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.dispersion !== undefined ) data.dispersion = this.dispersion;\n\n\t\tif ( this.iridescence !== undefined ) data.iridescence = this.iridescence;\n\t\tif ( this.iridescenceIOR !== undefined ) data.iridescenceIOR = this.iridescenceIOR;\n\t\tif ( this.iridescenceThicknessRange !== undefined ) data.iridescenceThicknessRange = this.iridescenceThicknessRange;\n\n\t\tif ( this.iridescenceMap && this.iridescenceMap.isTexture ) {\n\n\t\t\tdata.iridescenceMap = this.iridescenceMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.iridescenceThicknessMap && this.iridescenceThicknessMap.isTexture ) {\n\n\t\t\tdata.iridescenceThicknessMap = this.iridescenceThicknessMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.anisotropy !== undefined ) data.anisotropy = this.anisotropy;\n\t\tif ( this.anisotropyRotation !== undefined ) data.anisotropyRotation = this.anisotropyRotation;\n\n\t\tif ( this.anisotropyMap && this.anisotropyMap.isTexture ) {\n\n\t\t\tdata.anisotropyMap = this.anisotropyMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.map && this.map.isTexture ) data.map = this.map.toJSON( meta ).uuid;\n\t\tif ( this.matcap && this.matcap.isTexture ) data.matcap = this.matcap.toJSON( meta ).uuid;\n\t\tif ( this.alphaMap && this.alphaMap.isTexture ) data.alphaMap = this.alphaMap.toJSON( meta ).uuid;\n\n\t\tif ( this.lightMap && this.lightMap.isTexture ) {\n\n\t\t\tdata.lightMap = this.lightMap.toJSON( meta ).uuid;\n\t\t\tdata.lightMapIntensity = this.lightMapIntensity;\n\n\t\t}\n\n\t\tif ( this.aoMap && this.aoMap.isTexture ) {\n\n\t\t\tdata.aoMap = this.aoMap.toJSON( meta ).uuid;\n\t\t\tdata.aoMapIntensity = this.aoMapIntensity;\n\n\t\t}\n\n\t\tif ( this.bumpMap && this.bumpMap.isTexture ) {\n\n\t\t\tdata.bumpMap = this.bumpMap.toJSON( meta ).uuid;\n\t\t\tdata.bumpScale = this.bumpScale;\n\n\t\t}\n\n\t\tif ( this.normalMap && this.normalMap.isTexture ) {\n\n\t\t\tdata.normalMap = this.normalMap.toJSON( meta ).uuid;\n\t\t\tdata.normalMapType = this.normalMapType;\n\t\t\tdata.normalScale = this.normalScale.toArray();\n\n\t\t}\n\n\t\tif ( this.displacementMap && this.displacementMap.isTexture ) {\n\n\t\t\tdata.displacementMap = this.displacementMap.toJSON( meta ).uuid;\n\t\t\tdata.displacementScale = this.displacementScale;\n\t\t\tdata.displacementBias = this.displacementBias;\n\n\t\t}\n\n\t\tif ( this.roughnessMap && this.roughnessMap.isTexture ) data.roughnessMap = this.roughnessMap.toJSON( meta ).uuid;\n\t\tif ( this.metalnessMap && this.metalnessMap.isTexture ) data.metalnessMap = this.metalnessMap.toJSON( meta ).uuid;\n\n\t\tif ( this.emissiveMap && this.emissiveMap.isTexture ) data.emissiveMap = this.emissiveMap.toJSON( meta ).uuid;\n\t\tif ( this.specularMap && this.specularMap.isTexture ) data.specularMap = this.specularMap.toJSON( meta ).uuid;\n\t\tif ( this.specularIntensityMap && this.specularIntensityMap.isTexture ) data.specularIntensityMap = this.specularIntensityMap.toJSON( meta ).uuid;\n\t\tif ( this.specularColorMap && this.specularColorMap.isTexture ) data.specularColorMap = this.specularColorMap.toJSON( meta ).uuid;\n\n\t\tif ( this.envMap && this.envMap.isTexture ) {\n\n\t\t\tdata.envMap = this.envMap.toJSON( meta ).uuid;\n\n\t\t\tif ( this.combine !== undefined ) data.combine = this.combine;\n\n\t\t}\n\n\t\tif ( this.envMapRotation !== undefined ) data.envMapRotation = this.envMapRotation.toArray();\n\t\tif ( this.envMapIntensity !== undefined ) data.envMapIntensity = this.envMapIntensity;\n\t\tif ( this.reflectivity !== undefined ) data.reflectivity = this.reflectivity;\n\t\tif ( this.refractionRatio !== undefined ) data.refractionRatio = this.refractionRatio;\n\n\t\tif ( this.gradientMap && this.gradientMap.isTexture ) {\n\n\t\t\tdata.gradientMap = this.gradientMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.transmission !== undefined ) data.transmission = this.transmission;\n\t\tif ( this.transmissionMap && this.transmissionMap.isTexture ) data.transmissionMap = this.transmissionMap.toJSON( meta ).uuid;\n\t\tif ( this.thickness !== undefined ) data.thickness = this.thickness;\n\t\tif ( this.thicknessMap && this.thicknessMap.isTexture ) data.thicknessMap = this.thicknessMap.toJSON( meta ).uuid;\n\t\tif ( this.attenuationDistance !== undefined && this.attenuationDistance !== Infinity ) data.attenuationDistance = this.attenuationDistance;\n\t\tif ( this.attenuationColor !== undefined ) data.attenuationColor = this.attenuationColor.getHex();\n\n\t\tif ( this.size !== undefined ) data.size = this.size;\n\t\tif ( this.shadowSide !== null ) data.shadowSide = this.shadowSide;\n\t\tif ( this.sizeAttenuation !== undefined ) data.sizeAttenuation = this.sizeAttenuation;\n\n\t\tif ( this.blending !== NormalBlending ) data.blending = this.blending;\n\t\tif ( this.side !== FrontSide ) data.side = this.side;\n\t\tif ( this.vertexColors === true ) data.vertexColors = true;\n\n\t\tif ( this.opacity < 1 ) data.opacity = this.opacity;\n\t\tif ( this.transparent === true ) data.transparent = true;\n\n\t\tif ( this.blendSrc !== SrcAlphaFactor ) data.blendSrc = this.blendSrc;\n\t\tif ( this.blendDst !== OneMinusSrcAlphaFactor ) data.blendDst = this.blendDst;\n\t\tif ( this.blendEquation !== AddEquation ) data.blendEquation = this.blendEquation;\n\t\tif ( this.blendSrcAlpha !== null ) data.blendSrcAlpha = this.blendSrcAlpha;\n\t\tif ( this.blendDstAlpha !== null ) data.blendDstAlpha = this.blendDstAlpha;\n\t\tif ( this.blendEquationAlpha !== null ) data.blendEquationAlpha = this.blendEquationAlpha;\n\t\tif ( this.blendColor && this.blendColor.isColor ) data.blendColor = this.blendColor.getHex();\n\t\tif ( this.blendAlpha !== 0 ) data.blendAlpha = this.blendAlpha;\n\n\t\tif ( this.depthFunc !== LessEqualDepth ) data.depthFunc = this.depthFunc;\n\t\tif ( this.depthTest === false ) data.depthTest = this.depthTest;\n\t\tif ( this.depthWrite === false ) data.depthWrite = this.depthWrite;\n\t\tif ( this.colorWrite === false ) data.colorWrite = this.colorWrite;\n\n\t\tif ( this.stencilWriteMask !== 0xff ) data.stencilWriteMask = this.stencilWriteMask;\n\t\tif ( this.stencilFunc !== AlwaysStencilFunc ) data.stencilFunc = this.stencilFunc;\n\t\tif ( this.stencilRef !== 0 ) data.stencilRef = this.stencilRef;\n\t\tif ( this.stencilFuncMask !== 0xff ) data.stencilFuncMask = this.stencilFuncMask;\n\t\tif ( this.stencilFail !== KeepStencilOp ) data.stencilFail = this.stencilFail;\n\t\tif ( this.stencilZFail !== KeepStencilOp ) data.stencilZFail = this.stencilZFail;\n\t\tif ( this.stencilZPass !== KeepStencilOp ) data.stencilZPass = this.stencilZPass;\n\t\tif ( this.stencilWrite === true ) data.stencilWrite = this.stencilWrite;\n\n\t\t// rotation (SpriteMaterial)\n\t\tif ( this.rotation !== undefined && this.rotation !== 0 ) data.rotation = this.rotation;\n\n\t\tif ( this.polygonOffset === true ) data.polygonOffset = true;\n\t\tif ( this.polygonOffsetFactor !== 0 ) data.polygonOffsetFactor = this.polygonOffsetFactor;\n\t\tif ( this.polygonOffsetUnits !== 0 ) data.polygonOffsetUnits = this.polygonOffsetUnits;\n\n\t\tif ( this.linewidth !== undefined && this.linewidth !== 1 ) data.linewidth = this.linewidth;\n\t\tif ( this.dashSize !== undefined ) data.dashSize = this.dashSize;\n\t\tif ( this.gapSize !== undefined ) data.gapSize = this.gapSize;\n\t\tif ( this.scale !== undefined ) data.scale = this.scale;\n\n\t\tif ( this.dithering === true ) data.dithering = true;\n\n\t\tif ( this.alphaTest > 0 ) data.alphaTest = this.alphaTest;\n\t\tif ( this.alphaHash === true ) data.alphaHash = true;\n\t\tif ( this.alphaToCoverage === true ) data.alphaToCoverage = true;\n\t\tif ( this.premultipliedAlpha === true ) data.premultipliedAlpha = true;\n\t\tif ( this.forceSinglePass === true ) data.forceSinglePass = true;\n\n\t\tif ( this.wireframe === true ) data.wireframe = true;\n\t\tif ( this.wireframeLinewidth > 1 ) data.wireframeLinewidth = this.wireframeLinewidth;\n\t\tif ( this.wireframeLinecap !== 'round' ) data.wireframeLinecap = this.wireframeLinecap;\n\t\tif ( this.wireframeLinejoin !== 'round' ) data.wireframeLinejoin = this.wireframeLinejoin;\n\n\t\tif ( this.flatShading === true ) data.flatShading = true;\n\n\t\tif ( this.visible === false ) data.visible = false;\n\n\t\tif ( this.toneMapped === false ) data.toneMapped = false;\n\n\t\tif ( this.fog === false ) data.fog = false;\n\n\t\tif ( Object.keys( this.userData ).length > 0 ) data.userData = this.userData;\n\n\t\t// TODO: Copied from Object3D.toJSON\n\n\t\tfunction extractFromCache( cache ) {\n\n\t\t\tconst values = [];\n\n\t\t\tfor ( const key in cache ) {\n\n\t\t\t\tconst data = cache[ key ];\n\t\t\t\tdelete data.metadata;\n\t\t\t\tvalues.push( data );\n\n\t\t\t}\n\n\t\t\treturn values;\n\n\t\t}\n\n\t\tif ( isRootObject ) {\n\n\t\t\tconst textures = extractFromCache( meta.textures );\n\t\t\tconst images = extractFromCache( meta.images );\n\n\t\t\tif ( textures.length > 0 ) data.textures = textures;\n\t\t\tif ( images.length > 0 ) data.images = images;\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Returns a new material with copied values from this instance.\n\t *\n\t * @return {Material} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given material to this instance.\n\t *\n\t * @param {Material} source - The material to copy.\n\t * @return {Material} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\n\t\tthis.blending = source.blending;\n\t\tthis.side = source.side;\n\t\tthis.vertexColors = source.vertexColors;\n\n\t\tthis.opacity = source.opacity;\n\t\tthis.transparent = source.transparent;\n\n\t\tthis.blendSrc = source.blendSrc;\n\t\tthis.blendDst = source.blendDst;\n\t\tthis.blendEquation = source.blendEquation;\n\t\tthis.blendSrcAlpha = source.blendSrcAlpha;\n\t\tthis.blendDstAlpha = source.blendDstAlpha;\n\t\tthis.blendEquationAlpha = source.blendEquationAlpha;\n\t\tthis.blendColor.copy( source.blendColor );\n\t\tthis.blendAlpha = source.blendAlpha;\n\n\t\tthis.depthFunc = source.depthFunc;\n\t\tthis.depthTest = source.depthTest;\n\t\tthis.depthWrite = source.depthWrite;\n\n\t\tthis.stencilWriteMask = source.stencilWriteMask;\n\t\tthis.stencilFunc = source.stencilFunc;\n\t\tthis.stencilRef = source.stencilRef;\n\t\tthis.stencilFuncMask = source.stencilFuncMask;\n\t\tthis.stencilFail = source.stencilFail;\n\t\tthis.stencilZFail = source.stencilZFail;\n\t\tthis.stencilZPass = source.stencilZPass;\n\t\tthis.stencilWrite = source.stencilWrite;\n\n\t\tconst srcPlanes = source.clippingPlanes;\n\t\tlet dstPlanes = null;\n\n\t\tif ( srcPlanes !== null ) {\n\n\t\t\tconst n = srcPlanes.length;\n\t\t\tdstPlanes = new Array( n );\n\n\t\t\tfor ( let i = 0; i !== n; ++ i ) {\n\n\t\t\t\tdstPlanes[ i ] = srcPlanes[ i ].clone();\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.clippingPlanes = dstPlanes;\n\t\tthis.clipIntersection = source.clipIntersection;\n\t\tthis.clipShadows = source.clipShadows;\n\n\t\tthis.shadowSide = source.shadowSide;\n\n\t\tthis.colorWrite = source.colorWrite;\n\n\t\tthis.precision = source.precision;\n\n\t\tthis.polygonOffset = source.polygonOffset;\n\t\tthis.polygonOffsetFactor = source.polygonOffsetFactor;\n\t\tthis.polygonOffsetUnits = source.polygonOffsetUnits;\n\n\t\tthis.dithering = source.dithering;\n\n\t\tthis.alphaTest = source.alphaTest;\n\t\tthis.alphaHash = source.alphaHash;\n\t\tthis.alphaToCoverage = source.alphaToCoverage;\n\t\tthis.premultipliedAlpha = source.premultipliedAlpha;\n\t\tthis.forceSinglePass = source.forceSinglePass;\n\n\t\tthis.visible = source.visible;\n\n\t\tthis.toneMapped = source.toneMapped;\n\n\t\tthis.userData = JSON.parse( JSON.stringify( source.userData ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires Material#dispose\n\t */\n\tdispose() {\n\n\t\t/**\n\t\t * Fires when the material has been disposed of.\n\t\t *\n\t\t * @event Material#dispose\n\t\t * @type {Object}\n\t\t */\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n\t/**\n\t * Setting this property to `true` indicates the engine the material\n\t * needs to be recompiled.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n}\n\n/**\n * A material for drawing geometries in a simple shaded (flat or wireframe) way.\n *\n * This material is not affected by lights.\n *\n * @augments Material\n */\nclass MeshBasicMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh basic material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshBasicMaterial = true;\n\n\t\tthis.type = 'MeshBasicMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Specular map used by the material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * How to combine the result of the surface's color with the environment map, if any.\n\t\t *\n\t\t * When set to `MixOperation`, the {@link MeshBasicMaterial#reflectivity} is used to\n\t\t * blend between the two colors.\n\t\t *\n\t\t * @type {(MultiplyOperation|MixOperation|AddOperation)}\n\t\t * @default MultiplyOperation\n\t\t */\n\t\tthis.combine = MultiplyOperation;\n\n\t\t/**\n\t\t * How much the environment map affects the surface.\n\t\t * The valid range is between `0` (no reflections) and `1` (full reflections).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.reflectivity = 1;\n\n\t\t/**\n\t\t * The index of refraction (IOR) of air (approximately 1) divided by the\n\t\t * index of refraction of the material. It is used with environment mapping\n\t\t * modes {@link CubeRefractionMapping} and {@link EquirectangularRefractionMapping}.\n\t\t * The refraction ratio should not exceed `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.98\n\t\t */\n\t\tthis.refractionRatio = 0.98;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.specularMap = source.specularMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.combine = source.combine;\n\t\tthis.reflectivity = source.reflectivity;\n\t\tthis.refractionRatio = source.refractionRatio;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n// Fast Half Float Conversions, http://www.fox-toolkit.org/ftp/fasthalffloatconversion.pdf\n\nconst _tables = /*@__PURE__*/ _generateTables();\n\nfunction _generateTables() {\n\n\t// float32 to float16 helpers\n\n\tconst buffer = new ArrayBuffer( 4 );\n\tconst floatView = new Float32Array( buffer );\n\tconst uint32View = new Uint32Array( buffer );\n\n\tconst baseTable = new Uint32Array( 512 );\n\tconst shiftTable = new Uint32Array( 512 );\n\n\tfor ( let i = 0; i < 256; ++ i ) {\n\n\t\tconst e = i - 127;\n\n\t\t// very small number (0, -0)\n\n\t\tif ( e < -27 ) {\n\n\t\t\tbaseTable[ i ] = 0x0000;\n\t\t\tbaseTable[ i | 0x100 ] = 0x8000;\n\t\t\tshiftTable[ i ] = 24;\n\t\t\tshiftTable[ i | 0x100 ] = 24;\n\n\t\t\t// small number (denorm)\n\n\t\t} else if ( e < -14 ) {\n\n\t\t\tbaseTable[ i ] = 0x0400 >> ( - e - 14 );\n\t\t\tbaseTable[ i | 0x100 ] = ( 0x0400 >> ( - e - 14 ) ) | 0x8000;\n\t\t\tshiftTable[ i ] = - e - 1;\n\t\t\tshiftTable[ i | 0x100 ] = - e - 1;\n\n\t\t\t// normal number\n\n\t\t} else if ( e <= 15 ) {\n\n\t\t\tbaseTable[ i ] = ( e + 15 ) << 10;\n\t\t\tbaseTable[ i | 0x100 ] = ( ( e + 15 ) << 10 ) | 0x8000;\n\t\t\tshiftTable[ i ] = 13;\n\t\t\tshiftTable[ i | 0x100 ] = 13;\n\n\t\t\t// large number (Infinity, -Infinity)\n\n\t\t} else if ( e < 128 ) {\n\n\t\t\tbaseTable[ i ] = 0x7c00;\n\t\t\tbaseTable[ i | 0x100 ] = 0xfc00;\n\t\t\tshiftTable[ i ] = 24;\n\t\t\tshiftTable[ i | 0x100 ] = 24;\n\n\t\t\t// stay (NaN, Infinity, -Infinity)\n\n\t\t} else {\n\n\t\t\tbaseTable[ i ] = 0x7c00;\n\t\t\tbaseTable[ i | 0x100 ] = 0xfc00;\n\t\t\tshiftTable[ i ] = 13;\n\t\t\tshiftTable[ i | 0x100 ] = 13;\n\n\t\t}\n\n\t}\n\n\t// float16 to float32 helpers\n\n\tconst mantissaTable = new Uint32Array( 2048 );\n\tconst exponentTable = new Uint32Array( 64 );\n\tconst offsetTable = new Uint32Array( 64 );\n\n\tfor ( let i = 1; i < 1024; ++ i ) {\n\n\t\tlet m = i << 13; // zero pad mantissa bits\n\t\tlet e = 0; // zero exponent\n\n\t\t// normalized\n\t\twhile ( ( m & 0x00800000 ) === 0 ) {\n\n\t\t\tm <<= 1;\n\t\t\te -= 0x00800000; // decrement exponent\n\n\t\t}\n\n\t\tm &= -8388609; // clear leading 1 bit\n\t\te += 0x38800000; // adjust bias\n\n\t\tmantissaTable[ i ] = m | e;\n\n\t}\n\n\tfor ( let i = 1024; i < 2048; ++ i ) {\n\n\t\tmantissaTable[ i ] = 0x38000000 + ( ( i - 1024 ) << 13 );\n\n\t}\n\n\tfor ( let i = 1; i < 31; ++ i ) {\n\n\t\texponentTable[ i ] = i << 23;\n\n\t}\n\n\texponentTable[ 31 ] = 0x47800000;\n\texponentTable[ 32 ] = 0x80000000;\n\n\tfor ( let i = 33; i < 63; ++ i ) {\n\n\t\texponentTable[ i ] = 0x80000000 + ( ( i - 32 ) << 23 );\n\n\t}\n\n\texponentTable[ 63 ] = 0xc7800000;\n\n\tfor ( let i = 1; i < 64; ++ i ) {\n\n\t\tif ( i !== 32 ) {\n\n\t\t\toffsetTable[ i ] = 1024;\n\n\t\t}\n\n\t}\n\n\treturn {\n\t\tfloatView: floatView,\n\t\tuint32View: uint32View,\n\t\tbaseTable: baseTable,\n\t\tshiftTable: shiftTable,\n\t\tmantissaTable: mantissaTable,\n\t\texponentTable: exponentTable,\n\t\toffsetTable: offsetTable\n\t};\n\n}\n\n/**\n * Returns a half precision floating point value (FP16) from the given single\n * precision floating point value (FP32).\n *\n * @param {number} val - A single precision floating point value.\n * @return {number} The FP16 value.\n */\nfunction toHalfFloat( val ) {\n\n\tif ( Math.abs( val ) > 65504 ) console.warn( 'THREE.DataUtils.toHalfFloat(): Value out of range.' );\n\n\tval = clamp( val, -65504, 65504 );\n\n\t_tables.floatView[ 0 ] = val;\n\tconst f = _tables.uint32View[ 0 ];\n\tconst e = ( f >> 23 ) & 0x1ff;\n\treturn _tables.baseTable[ e ] + ( ( f & 0x007fffff ) >> _tables.shiftTable[ e ] );\n\n}\n\n/**\n * Returns a single precision floating point value (FP32) from the given half\n * precision floating point value (FP16).\n *\n * @param {number} val - A half precision floating point value.\n * @return {number} The FP32 value.\n */\nfunction fromHalfFloat( val ) {\n\n\tconst m = val >> 10;\n\t_tables.uint32View[ 0 ] = _tables.mantissaTable[ _tables.offsetTable[ m ] + ( val & 0x3ff ) ] + _tables.exponentTable[ m ];\n\treturn _tables.floatView[ 0 ];\n\n}\n\n/**\n * A class containing utility functions for data.\n *\n * @hideconstructor\n */\nclass DataUtils {\n\n\t/**\n\t * Returns a half precision floating point value (FP16) from the given single\n\t * precision floating point value (FP32).\n\t *\n\t * @param {number} val - A single precision floating point value.\n\t * @return {number} The FP16 value.\n\t */\n\tstatic toHalfFloat( val ) {\n\n\t\treturn toHalfFloat( val );\n\n\t}\n\n\t/**\n\t * Returns a single precision floating point value (FP32) from the given half\n\t * precision floating point value (FP16).\n\t *\n\t * @param {number} val - A half precision floating point value.\n\t * @return {number} The FP32 value.\n\t */\n\tstatic fromHalfFloat( val ) {\n\n\t\treturn fromHalfFloat( val );\n\n\t}\n\n}\n\nconst _vector$9 = /*@__PURE__*/ new Vector3();\nconst _vector2$1 = /*@__PURE__*/ new Vector2();\n\nlet _id$2 = 0;\n\n/**\n * This class stores data for an attribute (such as vertex positions, face\n * indices, normals, colors, UVs, and any custom attributes ) associated with\n * a geometry, which allows for more efficient passing of data to the GPU.\n *\n * When working with vector-like data, the `fromBufferAttribute( attribute, index )`\n * helper methods on vector and color class might be helpful. E.g. {@link Vector3#fromBufferAttribute}.\n */\nclass BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {TypedArray} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized = false ) {\n\n\t\tif ( Array.isArray( array ) ) {\n\n\t\t\tthrow new TypeError( 'THREE.BufferAttribute: array should be a Typed Array.' );\n\n\t\t}\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBufferAttribute = true;\n\n\t\t/**\n\t\t * The ID of the buffer attribute.\n\t\t *\n\t\t * @name BufferAttribute#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _id$2 ++ } );\n\n\t\t/**\n\t\t * The name of the buffer attribute.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The array holding the attribute data. It should have `itemSize * numVertices`\n\t\t * elements, where `numVertices` is the number of vertices in the associated geometry.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.array = array;\n\n\t\t/**\n\t\t * The number of values of the array that should be associated with a particular vertex.\n\t\t * For instance, if this attribute is storing a 3-component vector (such as a position,\n\t\t * normal, or color), then the value should be `3`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.itemSize = itemSize;\n\n\t\t/**\n\t\t * Represents the number of items this buffer attribute stores. It is internally computed\n\t\t * by dividing the `array` length by the `itemSize`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tthis.count = array !== undefined ? array.length / itemSize : 0;\n\n\t\t/**\n\t\t * Applies to integer data only. Indicates how the underlying data in the buffer maps to\n\t\t * the values in the GLSL code. For instance, if `array` is an instance of `UInt16Array`,\n\t\t * and `normalized` is `true`, the values `0 - +65535` in the array data will be mapped to\n\t\t * `0.0f - +1.0f` in the GLSL attribute. If `normalized` is `false`, the values will be converted\n\t\t * to floats unmodified, i.e. `65535` becomes `65535.0f`.\n\t\t *\n\t\t * @type {boolean}\n\t\t */\n\t\tthis.normalized = normalized;\n\n\t\t/**\n\t\t * Defines the intended usage pattern of the data store for optimization purposes.\n\t\t *\n\t\t * Note: After the initial use of a buffer, its usage cannot be changed. Instead,\n\t\t * instantiate a new one and set the desired usage before the next render.\n\t\t *\n\t\t * @type {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)}\n\t\t * @default StaticDrawUsage\n\t\t */\n\t\tthis.usage = StaticDrawUsage;\n\n\t\t/**\n\t\t * This can be used to only update some components of stored vectors (for example, just the\n\t\t * component related to color). Use the `addUpdateRange()` function to add ranges to this array.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.updateRanges = [];\n\n\t\t/**\n\t\t * Configures the bound GPU type for use in shaders.\n\t\t *\n\t\t * Note: this only has an effect for integer arrays and is not configurable for float arrays.\n\t\t * For lower precision float types, use `Float16BufferAttribute`.\n\t\t *\n\t\t * @type {(FloatType|IntType)}\n\t\t * @default FloatType\n\t\t */\n\t\tthis.gpuType = FloatType;\n\n\t\t/**\n\t\t * A version number, incremented every time the `needsUpdate` is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.version = 0;\n\n\t}\n\n\t/**\n\t * A callback function that is executed after the renderer has transferred the attribute\n\t * array data to the GPU.\n\t */\n\tonUploadCallback() {}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Sets the usage of this buffer attribute.\n\t *\n\t * @param {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)} value - The usage to set.\n\t * @return {BufferAttribute} A reference to this buffer attribute.\n\t */\n\tsetUsage( value ) {\n\n\t\tthis.usage = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds a range of data in the data array to be updated on the GPU.\n\t *\n\t * @param {number} start - Position at which to start update.\n\t * @param {number} count - The number of components to update.\n\t */\n\taddUpdateRange( start, count ) {\n\n\t\tthis.updateRanges.push( { start, count } );\n\n\t}\n\n\t/**\n\t * Clears the update ranges.\n\t */\n\tclearUpdateRanges() {\n\n\t\tthis.updateRanges.length = 0;\n\n\t}\n\n\t/**\n\t * Copies the values of the given buffer attribute to this instance.\n\t *\n\t * @param {BufferAttribute} source - The buffer attribute to copy.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\t\tthis.array = new source.array.constructor( source.array );\n\t\tthis.itemSize = source.itemSize;\n\t\tthis.count = source.count;\n\t\tthis.normalized = source.normalized;\n\n\t\tthis.usage = source.usage;\n\t\tthis.gpuType = source.gpuType;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies a vector from the given buffer attribute to this one. The start\n\t * and destination position in the attribute buffers are represented by the\n\t * given indices.\n\t *\n\t * @param {number} index1 - The destination index into this buffer attribute.\n\t * @param {BufferAttribute} attribute - The buffer attribute to copy from.\n\t * @param {number} index2 - The source index into the given buffer attribute.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tcopyAt( index1, attribute, index2 ) {\n\n\t\tindex1 *= this.itemSize;\n\t\tindex2 *= attribute.itemSize;\n\n\t\tfor ( let i = 0, l = this.itemSize; i < l; i ++ ) {\n\n\t\t\tthis.array[ index1 + i ] = attribute.array[ index2 + i ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the given array data into this buffer attribute.\n\t *\n\t * @param {(TypedArray|Array)} array - The array to copy.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tcopyArray( array ) {\n\n\t\tthis.array.set( array );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 3x3 matrix to the given attribute. Works with\n\t * item size `2` and `3`.\n\t *\n\t * @param {Matrix3} m - The matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tif ( this.itemSize === 2 ) {\n\n\t\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t\t_vector2$1.fromBufferAttribute( this, i );\n\t\t\t\t_vector2$1.applyMatrix3( m );\n\n\t\t\t\tthis.setXY( i, _vector2$1.x, _vector2$1.y );\n\n\t\t\t}\n\n\t\t} else if ( this.itemSize === 3 ) {\n\n\t\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t\t_vector$9.fromBufferAttribute( this, i );\n\t\t\t\t_vector$9.applyMatrix3( m );\n\n\t\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$9.fromBufferAttribute( this, i );\n\n\t\t\t_vector$9.applyMatrix4( m );\n\n\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 3x3 normal matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix3} m - The normal matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tapplyNormalMatrix( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$9.fromBufferAttribute( this, i );\n\n\t\t\t_vector$9.applyNormalMatrix( m );\n\n\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3` and with direction vectors.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\ttransformDirection( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$9.fromBufferAttribute( this, i );\n\n\t\t\t_vector$9.transformDirection( m );\n\n\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given array data in the buffer attribute.\n\t *\n\t * @param {(TypedArray|Array)} value - The array data to set.\n\t * @param {number} [offset=0] - The offset in this buffer attribute's array.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tset( value, offset = 0 ) {\n\n\t\t// Matching BufferAttribute constructor, do not normalize the array.\n\t\tthis.array.set( value, offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @return {number} The returned value.\n\t */\n\tgetComponent( index, component ) {\n\n\t\tlet value = this.array[ index * this.itemSize + component ];\n\n\t\tif ( this.normalized ) value = denormalize( value, this.array );\n\n\t\treturn value;\n\n\t}\n\n\t/**\n\t * Sets the given value to the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @param {number} value - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetComponent( index, component, value ) {\n\n\t\tif ( this.normalized ) value = normalize( value, this.array );\n\n\t\tthis.array[ index * this.itemSize + component ] = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The x component.\n\t */\n\tgetX( index ) {\n\n\t\tlet x = this.array[ index * this.itemSize ];\n\n\t\tif ( this.normalized ) x = denormalize( x, this.array );\n\n\t\treturn x;\n\n\t}\n\n\t/**\n\t * Sets the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetX( index, x ) {\n\n\t\tif ( this.normalized ) x = normalize( x, this.array );\n\n\t\tthis.array[ index * this.itemSize ] = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The y component.\n\t */\n\tgetY( index ) {\n\n\t\tlet y = this.array[ index * this.itemSize + 1 ];\n\n\t\tif ( this.normalized ) y = denormalize( y, this.array );\n\n\t\treturn y;\n\n\t}\n\n\t/**\n\t * Sets the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} y - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetY( index, y ) {\n\n\t\tif ( this.normalized ) y = normalize( y, this.array );\n\n\t\tthis.array[ index * this.itemSize + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The z component.\n\t */\n\tgetZ( index ) {\n\n\t\tlet z = this.array[ index * this.itemSize + 2 ];\n\n\t\tif ( this.normalized ) z = denormalize( z, this.array );\n\n\t\treturn z;\n\n\t}\n\n\t/**\n\t * Sets the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} z - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetZ( index, z ) {\n\n\t\tif ( this.normalized ) z = normalize( z, this.array );\n\n\t\tthis.array[ index * this.itemSize + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The w component.\n\t */\n\tgetW( index ) {\n\n\t\tlet w = this.array[ index * this.itemSize + 3 ];\n\n\t\tif ( this.normalized ) w = denormalize( w, this.array );\n\n\t\treturn w;\n\n\t}\n\n\t/**\n\t * Sets the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} w - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetW( index, w ) {\n\n\t\tif ( this.normalized ) w = normalize( w, this.array );\n\n\t\tthis.array[ index * this.itemSize + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x and y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetXY( index, x, y ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = x;\n\t\tthis.array[ index + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y and z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetXYZ( index, x, y, z ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = x;\n\t\tthis.array[ index + 1 ] = y;\n\t\tthis.array[ index + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y, z and w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @param {number} w - The value for the w component to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetXYZW( index, x, y, z, w ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\t\t\tw = normalize( w, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = x;\n\t\tthis.array[ index + 1 ] = y;\n\t\tthis.array[ index + 2 ] = z;\n\t\tthis.array[ index + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given callback function that is executed after the Renderer has transferred\n\t * the attribute array data to the GPU. Can be used to perform clean-up operations after\n\t * the upload when attribute data are not needed anymore on the CPU side.\n\t *\n\t * @param {Function} callback - The `onUpload()` callback.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tonUpload( callback ) {\n\n\t\tthis.onUploadCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new buffer attribute with copied values from this instance.\n\t *\n\t * @return {BufferAttribute} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.array, this.itemSize ).copy( this );\n\n\t}\n\n\t/**\n\t * Serializes the buffer attribute into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized buffer attribute.\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\titemSize: this.itemSize,\n\t\t\ttype: this.array.constructor.name,\n\t\t\tarray: Array.from( this.array ),\n\t\t\tnormalized: this.normalized\n\t\t};\n\n\t\tif ( this.name !== '' ) data.name = this.name;\n\t\tif ( this.usage !== StaticDrawUsage ) data.usage = this.usage;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Int8` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Int8BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Int8Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Int8Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt8` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint8BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint8Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint8Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt8Clamped` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint8ClampedBufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint8ClampedArray)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint8ClampedArray( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Int16` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Int16BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Int16Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Int16Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt16` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint16BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint16Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint16Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Int32` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Int32BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Int32Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Int32Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt32` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint32BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint32Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint32Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Float16` buffer attribute with\n * a plain `Array` instance.\n *\n * This class automatically converts to and from FP16 via `Uint16Array` since `Float16Array`\n * browser support is still problematic.\n *\n * @augments BufferAttribute\n */\nclass Float16BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint16Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint16Array( array ), itemSize, normalized );\n\n\t\tthis.isFloat16BufferAttribute = true;\n\n\t}\n\n\tgetX( index ) {\n\n\t\tlet x = fromHalfFloat( this.array[ index * this.itemSize ] );\n\n\t\tif ( this.normalized ) x = denormalize( x, this.array );\n\n\t\treturn x;\n\n\t}\n\n\tsetX( index, x ) {\n\n\t\tif ( this.normalized ) x = normalize( x, this.array );\n\n\t\tthis.array[ index * this.itemSize ] = toHalfFloat( x );\n\n\t\treturn this;\n\n\t}\n\n\tgetY( index ) {\n\n\t\tlet y = fromHalfFloat( this.array[ index * this.itemSize + 1 ] );\n\n\t\tif ( this.normalized ) y = denormalize( y, this.array );\n\n\t\treturn y;\n\n\t}\n\n\tsetY( index, y ) {\n\n\t\tif ( this.normalized ) y = normalize( y, this.array );\n\n\t\tthis.array[ index * this.itemSize + 1 ] = toHalfFloat( y );\n\n\t\treturn this;\n\n\t}\n\n\tgetZ( index ) {\n\n\t\tlet z = fromHalfFloat( this.array[ index * this.itemSize + 2 ] );\n\n\t\tif ( this.normalized ) z = denormalize( z, this.array );\n\n\t\treturn z;\n\n\t}\n\n\tsetZ( index, z ) {\n\n\t\tif ( this.normalized ) z = normalize( z, this.array );\n\n\t\tthis.array[ index * this.itemSize + 2 ] = toHalfFloat( z );\n\n\t\treturn this;\n\n\t}\n\n\tgetW( index ) {\n\n\t\tlet w = fromHalfFloat( this.array[ index * this.itemSize + 3 ] );\n\n\t\tif ( this.normalized ) w = denormalize( w, this.array );\n\n\t\treturn w;\n\n\t}\n\n\tsetW( index, w ) {\n\n\t\tif ( this.normalized ) w = normalize( w, this.array );\n\n\t\tthis.array[ index * this.itemSize + 3 ] = toHalfFloat( w );\n\n\t\treturn this;\n\n\t}\n\n\tsetXY( index, x, y ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = toHalfFloat( x );\n\t\tthis.array[ index + 1 ] = toHalfFloat( y );\n\n\t\treturn this;\n\n\t}\n\n\tsetXYZ( index, x, y, z ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = toHalfFloat( x );\n\t\tthis.array[ index + 1 ] = toHalfFloat( y );\n\t\tthis.array[ index + 2 ] = toHalfFloat( z );\n\n\t\treturn this;\n\n\t}\n\n\tsetXYZW( index, x, y, z, w ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\t\t\tw = normalize( w, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = toHalfFloat( x );\n\t\tthis.array[ index + 1 ] = toHalfFloat( y );\n\t\tthis.array[ index + 2 ] = toHalfFloat( z );\n\t\tthis.array[ index + 3 ] = toHalfFloat( w );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Float32` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Float32BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Float32Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Float32Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\nlet _id$1 = 0;\n\nconst _m1 = /*@__PURE__*/ new Matrix4();\nconst _obj = /*@__PURE__*/ new Object3D();\nconst _offset = /*@__PURE__*/ new Vector3();\nconst _box$2 = /*@__PURE__*/ new Box3();\nconst _boxMorphTargets = /*@__PURE__*/ new Box3();\nconst _vector$8 = /*@__PURE__*/ new Vector3();\n\n/**\n * A representation of mesh, line, or point geometry. Includes vertex\n * positions, face indices, normals, colors, UVs, and custom attributes\n * within buffers, reducing the cost of passing all this data to the GPU.\n *\n * ```js\n * const geometry = new THREE.BufferGeometry();\n * // create a simple square shape. We duplicate the top left and bottom right\n * // vertices because each vertex needs to appear once per triangle.\n * const vertices = new Float32Array( [\n * \t-1.0, -1.0, 1.0, // v0\n * \t 1.0, -1.0, 1.0, // v1\n * \t 1.0, 1.0, 1.0, // v2\n *\n * \t 1.0, 1.0, 1.0, // v3\n * \t-1.0, 1.0, 1.0, // v4\n * \t-1.0, -1.0, 1.0 // v5\n * ] );\n * // itemSize = 3 because there are 3 values (components) per vertex\n * geometry.setAttribute( 'position', new THREE.BufferAttribute( vertices, 3 ) );\n * const material = new THREE.MeshBasicMaterial( { color: 0xff0000 } );\n * const mesh = new THREE.Mesh( geometry, material );\n * ```\n *\n * @augments EventDispatcher\n */\nclass BufferGeometry extends EventDispatcher {\n\n\t/**\n\t * Constructs a new geometry.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBufferGeometry = true;\n\n\t\t/**\n\t\t * The ID of the geometry.\n\t\t *\n\t\t * @name BufferGeometry#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _id$1 ++ } );\n\n\t\t/**\n\t\t * The UUID of the geometry.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the geometry.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\t\tthis.type = 'BufferGeometry';\n\n\t\t/**\n\t\t * Allows for vertices to be re-used across multiple triangles; this is\n\t\t * called using \"indexed triangles\". Each triangle is associated with the\n\t\t * indices of three vertices. This attribute therefore stores the index of\n\t\t * each vertex for each triangular face. If this attribute is not set, the\n\t\t * renderer assumes that each three contiguous positions represent a single triangle.\n\t\t *\n\t\t * @type {?BufferAttribute}\n\t\t * @default null\n\t\t */\n\t\tthis.index = null;\n\n\t\t/**\n\t\t * A (storage) buffer attribute which was generated with a compute shader and\n\t\t * now defines indirect draw calls.\n\t\t *\n\t\t * Can only be used with {@link WebGPURenderer} and a WebGPU backend.\n\t\t *\n\t\t * @type {?BufferAttribute}\n\t\t * @default null\n\t\t */\n\t\tthis.indirect = null;\n\n\t\t/**\n\t\t * This dictionary has as id the name of the attribute to be set and as value\n\t\t * the buffer attribute to set it to. Rather than accessing this property directly,\n\t\t * use `setAttribute()` and `getAttribute()` to access attributes of this geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.attributes = {};\n\n\t\t/**\n\t\t * This dictionary holds the morph targets of the geometry.\n\t\t *\n\t\t * Note: Once the geometry has been rendered, the morph attribute data cannot\n\t\t * be changed. You will have to call `dispose()?, and create a new geometry instance.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.morphAttributes = {};\n\n\t\t/**\n\t\t * Used to control the morph target behavior; when set to `true`, the morph\n\t\t * target data is treated as relative offsets, rather than as absolute\n\t\t * positions/normals.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.morphTargetsRelative = false;\n\n\t\t/**\n\t\t * Split the geometry into groups, each of which will be rendered in a\n\t\t * separate draw call. This allows an array of materials to be used with the geometry.\n\t\t *\n\t\t * Use `addGroup()` and `clearGroups()` to edit groups, rather than modifying this array directly.\n\t\t *\n\t\t * Every vertex and index must belong to exactly one group — groups must not share vertices or\n\t\t * indices, and must not leave vertices or indices unused.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.groups = [];\n\n\t\t/**\n\t\t * Bounding box for the geometry which can be calculated with `computeBoundingBox()`.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * Bounding sphere for the geometry which can be calculated with `computeBoundingSphere()`.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t\t/**\n\t\t * Determines the part of the geometry to render. This should not be set directly,\n\t\t * instead use `setDrawRange()`.\n\t\t *\n\t\t * @type {{start:number,count:number}}\n\t\t */\n\t\tthis.drawRange = { start: 0, count: Infinity };\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the geometry.\n\t\t * It should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t}\n\n\t/**\n\t * Returns the index of this geometry.\n\t *\n\t * @return {?BufferAttribute} The index. Returns `null` if no index is defined.\n\t */\n\tgetIndex() {\n\n\t\treturn this.index;\n\n\t}\n\n\t/**\n\t * Sets the given index to this geometry.\n\t *\n\t * @param {Array|BufferAttribute} index - The index to set.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetIndex( index ) {\n\n\t\tif ( Array.isArray( index ) ) {\n\n\t\t\tthis.index = new ( arrayNeedsUint32( index ) ? Uint32BufferAttribute : Uint16BufferAttribute )( index, 1 );\n\n\t\t} else {\n\n\t\t\tthis.index = index;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given indirect attribute to this geometry.\n\t *\n\t * @param {BufferAttribute} indirect - The attribute holding indirect draw calls.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetIndirect( indirect ) {\n\n\t\tthis.indirect = indirect;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the indirect attribute of this geometry.\n\t *\n\t * @return {?BufferAttribute} The indirect attribute. Returns `null` if no indirect attribute is defined.\n\t */\n\tgetIndirect() {\n\n\t\treturn this.indirect;\n\n\t}\n\n\t/**\n\t * Returns the buffer attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name.\n\t * @return {BufferAttribute|InterleavedBufferAttribute|undefined} The buffer attribute.\n\t * Returns `undefined` if not attribute has been found.\n\t */\n\tgetAttribute( name ) {\n\n\t\treturn this.attributes[ name ];\n\n\t}\n\n\t/**\n\t * Sets the given attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name.\n\t * @param {BufferAttribute|InterleavedBufferAttribute} attribute - The attribute to set.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetAttribute( name, attribute ) {\n\n\t\tthis.attributes[ name ] = attribute;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Deletes the attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name to delete.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tdeleteAttribute( name ) {\n\n\t\tdelete this.attributes[ name ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this geometry has an attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name.\n\t * @return {boolean} Whether this geometry has an attribute for the given name or not.\n\t */\n\thasAttribute( name ) {\n\n\t\treturn this.attributes[ name ] !== undefined;\n\n\t}\n\n\t/**\n\t * Adds a group to this geometry.\n\t *\n\t * @param {number} start - The first element in this draw call. That is the first\n\t * vertex for non-indexed geometry, otherwise the first triangle index.\n\t * @param {number} count - Specifies how many vertices (or indices) are part of this group.\n\t * @param {number} [materialIndex=0] - The material array index to use.\n\t */\n\taddGroup( start, count, materialIndex = 0 ) {\n\n\t\tthis.groups.push( {\n\n\t\t\tstart: start,\n\t\t\tcount: count,\n\t\t\tmaterialIndex: materialIndex\n\n\t\t} );\n\n\t}\n\n\t/**\n\t * Clears all groups.\n\t */\n\tclearGroups() {\n\n\t\tthis.groups = [];\n\n\t}\n\n\t/**\n\t * Sets the draw range for this geometry.\n\t *\n\t * @param {number} start - The first vertex for non-indexed geometry, otherwise the first triangle index.\n\t * @param {number} count - For non-indexed BufferGeometry, `count` is the number of vertices to render.\n\t * For indexed BufferGeometry, `count` is the number of indices to render.\n\t */\n\tsetDrawRange( start, count ) {\n\n\t\tthis.drawRange.start = start;\n\t\tthis.drawRange.count = count;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 transformation matrix to the geometry.\n\t *\n\t * @param {Matrix4} matrix - The matrix to apply.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tconst position = this.attributes.position;\n\n\t\tif ( position !== undefined ) {\n\n\t\t\tposition.applyMatrix4( matrix );\n\n\t\t\tposition.needsUpdate = true;\n\n\t\t}\n\n\t\tconst normal = this.attributes.normal;\n\n\t\tif ( normal !== undefined ) {\n\n\t\t\tconst normalMatrix = new Matrix3().getNormalMatrix( matrix );\n\n\t\t\tnormal.applyNormalMatrix( normalMatrix );\n\n\t\t\tnormal.needsUpdate = true;\n\n\t\t}\n\n\t\tconst tangent = this.attributes.tangent;\n\n\t\tif ( tangent !== undefined ) {\n\n\t\t\ttangent.transformDirection( matrix );\n\n\t\t\ttangent.needsUpdate = true;\n\n\t\t}\n\n\t\tif ( this.boundingBox !== null ) {\n\n\t\t\tthis.computeBoundingBox();\n\n\t\t}\n\n\t\tif ( this.boundingSphere !== null ) {\n\n\t\t\tthis.computeBoundingSphere();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the rotation represented by the Quaternion to the geometry.\n\t *\n\t * @param {Quaternion} q - The Quaternion to apply.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tapplyQuaternion( q ) {\n\n\t\t_m1.makeRotationFromQuaternion( q );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry about the X axis. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#rotation} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\trotateX( angle ) {\n\n\t\t// rotate geometry around world x-axis\n\n\t\t_m1.makeRotationX( angle );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry about the Y axis. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#rotation} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\trotateY( angle ) {\n\n\t\t// rotate geometry around world y-axis\n\n\t\t_m1.makeRotationY( angle );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry about the Z axis. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#rotation} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\trotateZ( angle ) {\n\n\t\t// rotate geometry around world z-axis\n\n\t\t_m1.makeRotationZ( angle );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates the geometry. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#position} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} x - The x offset.\n\t * @param {number} y - The y offset.\n\t * @param {number} z - The z offset.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\ttranslate( x, y, z ) {\n\n\t\t// translate geometry\n\n\t\t_m1.makeTranslation( x, y, z );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scales the geometry. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#scale} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} x - The x scale.\n\t * @param {number} y - The y scale.\n\t * @param {number} z - The z scale.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tscale( x, y, z ) {\n\n\t\t// scale geometry\n\n\t\t_m1.makeScale( x, y, z );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry to face a point in 3D space. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#lookAt} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {Vector3} vector - The target point.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tlookAt( vector ) {\n\n\t\t_obj.lookAt( vector );\n\n\t\t_obj.updateMatrix();\n\n\t\tthis.applyMatrix4( _obj.matrix );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Center the geometry based on its bounding box.\n\t *\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tcenter() {\n\n\t\tthis.computeBoundingBox();\n\n\t\tthis.boundingBox.getCenter( _offset ).negate();\n\n\t\tthis.translate( _offset.x, _offset.y, _offset.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Defines a geometry by creating a `position` attribute based on the given array of points. The array\n\t * can hold 2D or 3D vectors. When using two-dimensional data, the `z` coordinate for all vertices is\n\t * set to `0`.\n\t *\n\t * If the method is used with an existing `position` attribute, the vertex data are overwritten with the\n\t * data from the array. The length of the array must match the vertex count.\n\t *\n\t * @param {Array|Array} points - The points.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tconst positionAttribute = this.getAttribute( 'position' );\n\n\t\tif ( positionAttribute === undefined ) {\n\n\t\t\tconst position = [];\n\n\t\t\tfor ( let i = 0, l = points.length; i < l; i ++ ) {\n\n\t\t\t\tconst point = points[ i ];\n\t\t\t\tposition.push( point.x, point.y, point.z || 0 );\n\n\t\t\t}\n\n\t\t\tthis.setAttribute( 'position', new Float32BufferAttribute( position, 3 ) );\n\n\t\t} else {\n\n\t\t\tconst l = Math.min( points.length, positionAttribute.count ); // make sure data do not exceed buffer size\n\n\t\t\tfor ( let i = 0; i < l; i ++ ) {\n\n\t\t\t\tconst point = points[ i ];\n\t\t\t\tpositionAttribute.setXYZ( i, point.x, point.y, point.z || 0 );\n\n\t\t\t}\n\n\t\t\tif ( points.length > positionAttribute.count ) {\n\n\t\t\t\tconsole.warn( 'THREE.BufferGeometry: Buffer size too small for points data. Use .dispose() and create a new geometry.' );\n\n\t\t\t}\n\n\t\t\tpositionAttribute.needsUpdate = true;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the bounding box of the geometry, and updates the `boundingBox` member.\n\t * The bounding box is not computed by the engine; it must be computed by your app.\n\t * You may need to recompute the bounding box if the geometry vertices are modified.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tconst position = this.attributes.position;\n\t\tconst morphAttributesPosition = this.morphAttributes.position;\n\n\t\tif ( position && position.isGLBufferAttribute ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingBox(): GLBufferAttribute requires a manual bounding box.', this );\n\n\t\t\tthis.boundingBox.set(\n\t\t\t\tnew Vector3( - Infinity, - Infinity, - Infinity ),\n\t\t\t\tnew Vector3( + Infinity, + Infinity, + Infinity )\n\t\t\t);\n\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( position !== undefined ) {\n\n\t\t\tthis.boundingBox.setFromBufferAttribute( position );\n\n\t\t\t// process morph attributes if present\n\n\t\t\tif ( morphAttributesPosition ) {\n\n\t\t\t\tfor ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst morphAttribute = morphAttributesPosition[ i ];\n\t\t\t\t\t_box$2.setFromBufferAttribute( morphAttribute );\n\n\t\t\t\t\tif ( this.morphTargetsRelative ) {\n\n\t\t\t\t\t\t_vector$8.addVectors( this.boundingBox.min, _box$2.min );\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _vector$8 );\n\n\t\t\t\t\t\t_vector$8.addVectors( this.boundingBox.max, _box$2.max );\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _vector$8 );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _box$2.min );\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _box$2.max );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tthis.boundingBox.makeEmpty();\n\n\t\t}\n\n\t\tif ( isNaN( this.boundingBox.min.x ) || isNaN( this.boundingBox.min.y ) || isNaN( this.boundingBox.min.z ) ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingBox(): Computed min/max have NaN values. The \"position\" attribute is likely to have NaN values.', this );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere of the geometry, and updates the `boundingSphere` member.\n\t * The engine automatically computes the bounding sphere when it is needed, e.g., for ray casting or view frustum culling.\n\t * You may need to recompute the bounding sphere if the geometry vertices are modified.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tconst position = this.attributes.position;\n\t\tconst morphAttributesPosition = this.morphAttributes.position;\n\n\t\tif ( position && position.isGLBufferAttribute ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingSphere(): GLBufferAttribute requires a manual bounding sphere.', this );\n\n\t\t\tthis.boundingSphere.set( new Vector3(), Infinity );\n\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( position ) {\n\n\t\t\t// first, find the center of the bounding sphere\n\n\t\t\tconst center = this.boundingSphere.center;\n\n\t\t\t_box$2.setFromBufferAttribute( position );\n\n\t\t\t// process morph attributes if present\n\n\t\t\tif ( morphAttributesPosition ) {\n\n\t\t\t\tfor ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst morphAttribute = morphAttributesPosition[ i ];\n\t\t\t\t\t_boxMorphTargets.setFromBufferAttribute( morphAttribute );\n\n\t\t\t\t\tif ( this.morphTargetsRelative ) {\n\n\t\t\t\t\t\t_vector$8.addVectors( _box$2.min, _boxMorphTargets.min );\n\t\t\t\t\t\t_box$2.expandByPoint( _vector$8 );\n\n\t\t\t\t\t\t_vector$8.addVectors( _box$2.max, _boxMorphTargets.max );\n\t\t\t\t\t\t_box$2.expandByPoint( _vector$8 );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t_box$2.expandByPoint( _boxMorphTargets.min );\n\t\t\t\t\t\t_box$2.expandByPoint( _boxMorphTargets.max );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t_box$2.getCenter( center );\n\n\t\t\t// second, try to find a boundingSphere with a radius smaller than the\n\t\t\t// boundingSphere of the boundingBox: sqrt(3) smaller in the best case\n\n\t\t\tlet maxRadiusSq = 0;\n\n\t\t\tfor ( let i = 0, il = position.count; i < il; i ++ ) {\n\n\t\t\t\t_vector$8.fromBufferAttribute( position, i );\n\n\t\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( _vector$8 ) );\n\n\t\t\t}\n\n\t\t\t// process morph attributes if present\n\n\t\t\tif ( morphAttributesPosition ) {\n\n\t\t\t\tfor ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst morphAttribute = morphAttributesPosition[ i ];\n\t\t\t\t\tconst morphTargetsRelative = this.morphTargetsRelative;\n\n\t\t\t\t\tfor ( let j = 0, jl = morphAttribute.count; j < jl; j ++ ) {\n\n\t\t\t\t\t\t_vector$8.fromBufferAttribute( morphAttribute, j );\n\n\t\t\t\t\t\tif ( morphTargetsRelative ) {\n\n\t\t\t\t\t\t\t_offset.fromBufferAttribute( position, j );\n\t\t\t\t\t\t\t_vector$8.add( _offset );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( _vector$8 ) );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.boundingSphere.radius = Math.sqrt( maxRadiusSq );\n\n\t\t\tif ( isNaN( this.boundingSphere.radius ) ) {\n\n\t\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingSphere(): Computed radius is NaN. The \"position\" attribute is likely to have NaN values.', this );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Calculates and adds a tangent attribute to this geometry.\n\t *\n\t * The computation is only supported for indexed geometries and if position, normal, and uv attributes\n\t * are defined. When using a tangent space normal map, prefer the MikkTSpace algorithm provided by\n\t * {@link BufferGeometryUtils#computeMikkTSpaceTangents} instead.\n\t */\n\tcomputeTangents() {\n\n\t\tconst index = this.index;\n\t\tconst attributes = this.attributes;\n\n\t\t// based on http://www.terathon.com/code/tangent.html\n\t\t// (per vertex tangents)\n\n\t\tif ( index === null ||\n\t\t\t attributes.position === undefined ||\n\t\t\t attributes.normal === undefined ||\n\t\t\t attributes.uv === undefined ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry: .computeTangents() failed. Missing required attributes (index, position, normal or uv)' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tconst positionAttribute = attributes.position;\n\t\tconst normalAttribute = attributes.normal;\n\t\tconst uvAttribute = attributes.uv;\n\n\t\tif ( this.hasAttribute( 'tangent' ) === false ) {\n\n\t\t\tthis.setAttribute( 'tangent', new BufferAttribute( new Float32Array( 4 * positionAttribute.count ), 4 ) );\n\n\t\t}\n\n\t\tconst tangentAttribute = this.getAttribute( 'tangent' );\n\n\t\tconst tan1 = [], tan2 = [];\n\n\t\tfor ( let i = 0; i < positionAttribute.count; i ++ ) {\n\n\t\t\ttan1[ i ] = new Vector3();\n\t\t\ttan2[ i ] = new Vector3();\n\n\t\t}\n\n\t\tconst vA = new Vector3(),\n\t\t\tvB = new Vector3(),\n\t\t\tvC = new Vector3(),\n\n\t\t\tuvA = new Vector2(),\n\t\t\tuvB = new Vector2(),\n\t\t\tuvC = new Vector2(),\n\n\t\t\tsdir = new Vector3(),\n\t\t\ttdir = new Vector3();\n\n\t\tfunction handleTriangle( a, b, c ) {\n\n\t\t\tvA.fromBufferAttribute( positionAttribute, a );\n\t\t\tvB.fromBufferAttribute( positionAttribute, b );\n\t\t\tvC.fromBufferAttribute( positionAttribute, c );\n\n\t\t\tuvA.fromBufferAttribute( uvAttribute, a );\n\t\t\tuvB.fromBufferAttribute( uvAttribute, b );\n\t\t\tuvC.fromBufferAttribute( uvAttribute, c );\n\n\t\t\tvB.sub( vA );\n\t\t\tvC.sub( vA );\n\n\t\t\tuvB.sub( uvA );\n\t\t\tuvC.sub( uvA );\n\n\t\t\tconst r = 1.0 / ( uvB.x * uvC.y - uvC.x * uvB.y );\n\n\t\t\t// silently ignore degenerate uv triangles having coincident or colinear vertices\n\n\t\t\tif ( ! isFinite( r ) ) return;\n\n\t\t\tsdir.copy( vB ).multiplyScalar( uvC.y ).addScaledVector( vC, - uvB.y ).multiplyScalar( r );\n\t\t\ttdir.copy( vC ).multiplyScalar( uvB.x ).addScaledVector( vB, - uvC.x ).multiplyScalar( r );\n\n\t\t\ttan1[ a ].add( sdir );\n\t\t\ttan1[ b ].add( sdir );\n\t\t\ttan1[ c ].add( sdir );\n\n\t\t\ttan2[ a ].add( tdir );\n\t\t\ttan2[ b ].add( tdir );\n\t\t\ttan2[ c ].add( tdir );\n\n\t\t}\n\n\t\tlet groups = this.groups;\n\n\t\tif ( groups.length === 0 ) {\n\n\t\t\tgroups = [ {\n\t\t\t\tstart: 0,\n\t\t\t\tcount: index.count\n\t\t\t} ];\n\n\t\t}\n\n\t\tfor ( let i = 0, il = groups.length; i < il; ++ i ) {\n\n\t\t\tconst group = groups[ i ];\n\n\t\t\tconst start = group.start;\n\t\t\tconst count = group.count;\n\n\t\t\tfor ( let j = start, jl = start + count; j < jl; j += 3 ) {\n\n\t\t\t\thandleTriangle(\n\t\t\t\t\tindex.getX( j + 0 ),\n\t\t\t\t\tindex.getX( j + 1 ),\n\t\t\t\t\tindex.getX( j + 2 )\n\t\t\t\t);\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst tmp = new Vector3(), tmp2 = new Vector3();\n\t\tconst n = new Vector3(), n2 = new Vector3();\n\n\t\tfunction handleVertex( v ) {\n\n\t\t\tn.fromBufferAttribute( normalAttribute, v );\n\t\t\tn2.copy( n );\n\n\t\t\tconst t = tan1[ v ];\n\n\t\t\t// Gram-Schmidt orthogonalize\n\n\t\t\ttmp.copy( t );\n\t\t\ttmp.sub( n.multiplyScalar( n.dot( t ) ) ).normalize();\n\n\t\t\t// Calculate handedness\n\n\t\t\ttmp2.crossVectors( n2, t );\n\t\t\tconst test = tmp2.dot( tan2[ v ] );\n\t\t\tconst w = ( test < 0.0 ) ? -1 : 1.0;\n\n\t\t\ttangentAttribute.setXYZW( v, tmp.x, tmp.y, tmp.z, w );\n\n\t\t}\n\n\t\tfor ( let i = 0, il = groups.length; i < il; ++ i ) {\n\n\t\t\tconst group = groups[ i ];\n\n\t\t\tconst start = group.start;\n\t\t\tconst count = group.count;\n\n\t\t\tfor ( let j = start, jl = start + count; j < jl; j += 3 ) {\n\n\t\t\t\thandleVertex( index.getX( j + 0 ) );\n\t\t\t\thandleVertex( index.getX( j + 1 ) );\n\t\t\t\thandleVertex( index.getX( j + 2 ) );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes vertex normals for the given vertex data. For indexed geometries, the method sets\n\t * each vertex normal to be the average of the face normals of the faces that share that vertex.\n\t * For non-indexed geometries, vertices are not shared, and the method sets each vertex normal\n\t * to be the same as the face normal.\n\t */\n\tcomputeVertexNormals() {\n\n\t\tconst index = this.index;\n\t\tconst positionAttribute = this.getAttribute( 'position' );\n\n\t\tif ( positionAttribute !== undefined ) {\n\n\t\t\tlet normalAttribute = this.getAttribute( 'normal' );\n\n\t\t\tif ( normalAttribute === undefined ) {\n\n\t\t\t\tnormalAttribute = new BufferAttribute( new Float32Array( positionAttribute.count * 3 ), 3 );\n\t\t\t\tthis.setAttribute( 'normal', normalAttribute );\n\n\t\t\t} else {\n\n\t\t\t\t// reset existing normals to zero\n\n\t\t\t\tfor ( let i = 0, il = normalAttribute.count; i < il; i ++ ) {\n\n\t\t\t\t\tnormalAttribute.setXYZ( i, 0, 0, 0 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tconst pA = new Vector3(), pB = new Vector3(), pC = new Vector3();\n\t\t\tconst nA = new Vector3(), nB = new Vector3(), nC = new Vector3();\n\t\t\tconst cb = new Vector3(), ab = new Vector3();\n\n\t\t\t// indexed elements\n\n\t\t\tif ( index ) {\n\n\t\t\t\tfor ( let i = 0, il = index.count; i < il; i += 3 ) {\n\n\t\t\t\t\tconst vA = index.getX( i + 0 );\n\t\t\t\t\tconst vB = index.getX( i + 1 );\n\t\t\t\t\tconst vC = index.getX( i + 2 );\n\n\t\t\t\t\tpA.fromBufferAttribute( positionAttribute, vA );\n\t\t\t\t\tpB.fromBufferAttribute( positionAttribute, vB );\n\t\t\t\t\tpC.fromBufferAttribute( positionAttribute, vC );\n\n\t\t\t\t\tcb.subVectors( pC, pB );\n\t\t\t\t\tab.subVectors( pA, pB );\n\t\t\t\t\tcb.cross( ab );\n\n\t\t\t\t\tnA.fromBufferAttribute( normalAttribute, vA );\n\t\t\t\t\tnB.fromBufferAttribute( normalAttribute, vB );\n\t\t\t\t\tnC.fromBufferAttribute( normalAttribute, vC );\n\n\t\t\t\t\tnA.add( cb );\n\t\t\t\t\tnB.add( cb );\n\t\t\t\t\tnC.add( cb );\n\n\t\t\t\t\tnormalAttribute.setXYZ( vA, nA.x, nA.y, nA.z );\n\t\t\t\t\tnormalAttribute.setXYZ( vB, nB.x, nB.y, nB.z );\n\t\t\t\t\tnormalAttribute.setXYZ( vC, nC.x, nC.y, nC.z );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// non-indexed elements (unconnected triangle soup)\n\n\t\t\t\tfor ( let i = 0, il = positionAttribute.count; i < il; i += 3 ) {\n\n\t\t\t\t\tpA.fromBufferAttribute( positionAttribute, i + 0 );\n\t\t\t\t\tpB.fromBufferAttribute( positionAttribute, i + 1 );\n\t\t\t\t\tpC.fromBufferAttribute( positionAttribute, i + 2 );\n\n\t\t\t\t\tcb.subVectors( pC, pB );\n\t\t\t\t\tab.subVectors( pA, pB );\n\t\t\t\t\tcb.cross( ab );\n\n\t\t\t\t\tnormalAttribute.setXYZ( i + 0, cb.x, cb.y, cb.z );\n\t\t\t\t\tnormalAttribute.setXYZ( i + 1, cb.x, cb.y, cb.z );\n\t\t\t\t\tnormalAttribute.setXYZ( i + 2, cb.x, cb.y, cb.z );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.normalizeNormals();\n\n\t\t\tnormalAttribute.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Ensures every normal vector in a geometry will have a magnitude of `1`. This will\n\t * correct lighting on the geometry surfaces.\n\t */\n\tnormalizeNormals() {\n\n\t\tconst normals = this.attributes.normal;\n\n\t\tfor ( let i = 0, il = normals.count; i < il; i ++ ) {\n\n\t\t\t_vector$8.fromBufferAttribute( normals, i );\n\n\t\t\t_vector$8.normalize();\n\n\t\t\tnormals.setXYZ( i, _vector$8.x, _vector$8.y, _vector$8.z );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Return a new non-index version of this indexed geometry. If the geometry\n\t * is already non-indexed, the method is a NOOP.\n\t *\n\t * @return {BufferGeometry} The non-indexed version of this indexed geometry.\n\t */\n\ttoNonIndexed() {\n\n\t\tfunction convertBufferAttribute( attribute, indices ) {\n\n\t\t\tconst array = attribute.array;\n\t\t\tconst itemSize = attribute.itemSize;\n\t\t\tconst normalized = attribute.normalized;\n\n\t\t\tconst array2 = new array.constructor( indices.length * itemSize );\n\n\t\t\tlet index = 0, index2 = 0;\n\n\t\t\tfor ( let i = 0, l = indices.length; i < l; i ++ ) {\n\n\t\t\t\tif ( attribute.isInterleavedBufferAttribute ) {\n\n\t\t\t\t\tindex = indices[ i ] * attribute.data.stride + attribute.offset;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tindex = indices[ i ] * itemSize;\n\n\t\t\t\t}\n\n\t\t\t\tfor ( let j = 0; j < itemSize; j ++ ) {\n\n\t\t\t\t\tarray2[ index2 ++ ] = array[ index ++ ];\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn new BufferAttribute( array2, itemSize, normalized );\n\n\t\t}\n\n\t\t//\n\n\t\tif ( this.index === null ) {\n\n\t\t\tconsole.warn( 'THREE.BufferGeometry.toNonIndexed(): BufferGeometry is already non-indexed.' );\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst geometry2 = new BufferGeometry();\n\n\t\tconst indices = this.index.array;\n\t\tconst attributes = this.attributes;\n\n\t\t// attributes\n\n\t\tfor ( const name in attributes ) {\n\n\t\t\tconst attribute = attributes[ name ];\n\n\t\t\tconst newAttribute = convertBufferAttribute( attribute, indices );\n\n\t\t\tgeometry2.setAttribute( name, newAttribute );\n\n\t\t}\n\n\t\t// morph attributes\n\n\t\tconst morphAttributes = this.morphAttributes;\n\n\t\tfor ( const name in morphAttributes ) {\n\n\t\t\tconst morphArray = [];\n\t\t\tconst morphAttribute = morphAttributes[ name ]; // morphAttribute: array of Float32BufferAttributes\n\n\t\t\tfor ( let i = 0, il = morphAttribute.length; i < il; i ++ ) {\n\n\t\t\t\tconst attribute = morphAttribute[ i ];\n\n\t\t\t\tconst newAttribute = convertBufferAttribute( attribute, indices );\n\n\t\t\t\tmorphArray.push( newAttribute );\n\n\t\t\t}\n\n\t\t\tgeometry2.morphAttributes[ name ] = morphArray;\n\n\t\t}\n\n\t\tgeometry2.morphTargetsRelative = this.morphTargetsRelative;\n\n\t\t// groups\n\n\t\tconst groups = this.groups;\n\n\t\tfor ( let i = 0, l = groups.length; i < l; i ++ ) {\n\n\t\t\tconst group = groups[ i ];\n\t\t\tgeometry2.addGroup( group.start, group.count, group.materialIndex );\n\n\t\t}\n\n\t\treturn geometry2;\n\n\t}\n\n\t/**\n\t * Serializes the geometry into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized geometry.\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'BufferGeometry',\n\t\t\t\tgenerator: 'BufferGeometry.toJSON'\n\t\t\t}\n\t\t};\n\n\t\t// standard BufferGeometry serialization\n\n\t\tdata.uuid = this.uuid;\n\t\tdata.type = this.type;\n\t\tif ( this.name !== '' ) data.name = this.name;\n\t\tif ( Object.keys( this.userData ).length > 0 ) data.userData = this.userData;\n\n\t\tif ( this.parameters !== undefined ) {\n\n\t\t\tconst parameters = this.parameters;\n\n\t\t\tfor ( const key in parameters ) {\n\n\t\t\t\tif ( parameters[ key ] !== undefined ) data[ key ] = parameters[ key ];\n\n\t\t\t}\n\n\t\t\treturn data;\n\n\t\t}\n\n\t\t// for simplicity the code assumes attributes are not shared across geometries, see #15811\n\n\t\tdata.data = { attributes: {} };\n\n\t\tconst index = this.index;\n\n\t\tif ( index !== null ) {\n\n\t\t\tdata.data.index = {\n\t\t\t\ttype: index.array.constructor.name,\n\t\t\t\tarray: Array.prototype.slice.call( index.array )\n\t\t\t};\n\n\t\t}\n\n\t\tconst attributes = this.attributes;\n\n\t\tfor ( const key in attributes ) {\n\n\t\t\tconst attribute = attributes[ key ];\n\n\t\t\tdata.data.attributes[ key ] = attribute.toJSON( data.data );\n\n\t\t}\n\n\t\tconst morphAttributes = {};\n\t\tlet hasMorphAttributes = false;\n\n\t\tfor ( const key in this.morphAttributes ) {\n\n\t\t\tconst attributeArray = this.morphAttributes[ key ];\n\n\t\t\tconst array = [];\n\n\t\t\tfor ( let i = 0, il = attributeArray.length; i < il; i ++ ) {\n\n\t\t\t\tconst attribute = attributeArray[ i ];\n\n\t\t\t\tarray.push( attribute.toJSON( data.data ) );\n\n\t\t\t}\n\n\t\t\tif ( array.length > 0 ) {\n\n\t\t\t\tmorphAttributes[ key ] = array;\n\n\t\t\t\thasMorphAttributes = true;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( hasMorphAttributes ) {\n\n\t\t\tdata.data.morphAttributes = morphAttributes;\n\t\t\tdata.data.morphTargetsRelative = this.morphTargetsRelative;\n\n\t\t}\n\n\t\tconst groups = this.groups;\n\n\t\tif ( groups.length > 0 ) {\n\n\t\t\tdata.data.groups = JSON.parse( JSON.stringify( groups ) );\n\n\t\t}\n\n\t\tconst boundingSphere = this.boundingSphere;\n\n\t\tif ( boundingSphere !== null ) {\n\n\t\t\tdata.data.boundingSphere = boundingSphere.toJSON();\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Returns a new geometry with copied values from this instance.\n\t *\n\t * @return {BufferGeometry} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given geometry to this instance.\n\t *\n\t * @param {BufferGeometry} source - The geometry to copy.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\t// reset\n\n\t\tthis.index = null;\n\t\tthis.attributes = {};\n\t\tthis.morphAttributes = {};\n\t\tthis.groups = [];\n\t\tthis.boundingBox = null;\n\t\tthis.boundingSphere = null;\n\n\t\t// used for storing cloned, shared data\n\n\t\tconst data = {};\n\n\t\t// name\n\n\t\tthis.name = source.name;\n\n\t\t// index\n\n\t\tconst index = source.index;\n\n\t\tif ( index !== null ) {\n\n\t\t\tthis.setIndex( index.clone() );\n\n\t\t}\n\n\t\t// attributes\n\n\t\tconst attributes = source.attributes;\n\n\t\tfor ( const name in attributes ) {\n\n\t\t\tconst attribute = attributes[ name ];\n\t\t\tthis.setAttribute( name, attribute.clone( data ) );\n\n\t\t}\n\n\t\t// morph attributes\n\n\t\tconst morphAttributes = source.morphAttributes;\n\n\t\tfor ( const name in morphAttributes ) {\n\n\t\t\tconst array = [];\n\t\t\tconst morphAttribute = morphAttributes[ name ]; // morphAttribute: array of Float32BufferAttributes\n\n\t\t\tfor ( let i = 0, l = morphAttribute.length; i < l; i ++ ) {\n\n\t\t\t\tarray.push( morphAttribute[ i ].clone( data ) );\n\n\t\t\t}\n\n\t\t\tthis.morphAttributes[ name ] = array;\n\n\t\t}\n\n\t\tthis.morphTargetsRelative = source.morphTargetsRelative;\n\n\t\t// groups\n\n\t\tconst groups = source.groups;\n\n\t\tfor ( let i = 0, l = groups.length; i < l; i ++ ) {\n\n\t\t\tconst group = groups[ i ];\n\t\t\tthis.addGroup( group.start, group.count, group.materialIndex );\n\n\t\t}\n\n\t\t// bounding box\n\n\t\tconst boundingBox = source.boundingBox;\n\n\t\tif ( boundingBox !== null ) {\n\n\t\t\tthis.boundingBox = boundingBox.clone();\n\n\t\t}\n\n\t\t// bounding sphere\n\n\t\tconst boundingSphere = source.boundingSphere;\n\n\t\tif ( boundingSphere !== null ) {\n\n\t\t\tthis.boundingSphere = boundingSphere.clone();\n\n\t\t}\n\n\t\t// draw range\n\n\t\tthis.drawRange.start = source.drawRange.start;\n\t\tthis.drawRange.count = source.drawRange.count;\n\n\t\t// user data\n\n\t\tthis.userData = source.userData;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires BufferGeometry#dispose\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n}\n\nconst _inverseMatrix$3 = /*@__PURE__*/ new Matrix4();\nconst _ray$3 = /*@__PURE__*/ new Ray();\nconst _sphere$6 = /*@__PURE__*/ new Sphere();\nconst _sphereHitAt = /*@__PURE__*/ new Vector3();\n\nconst _vA$1 = /*@__PURE__*/ new Vector3();\nconst _vB$1 = /*@__PURE__*/ new Vector3();\nconst _vC$1 = /*@__PURE__*/ new Vector3();\n\nconst _tempA = /*@__PURE__*/ new Vector3();\nconst _morphA = /*@__PURE__*/ new Vector3();\n\nconst _intersectionPoint = /*@__PURE__*/ new Vector3();\nconst _intersectionPointWorld = /*@__PURE__*/ new Vector3();\n\n/**\n * Class representing triangular polygon mesh based objects.\n *\n * ```js\n * const geometry = new THREE.BoxGeometry( 1, 1, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const mesh = new THREE.Mesh( geometry, material );\n * scene.add( mesh );\n * ```\n *\n * @augments Object3D\n */\nclass Mesh extends Object3D {\n\n\t/**\n\t * Constructs a new mesh.\n\t *\n\t * @param {BufferGeometry} [geometry] - The mesh geometry.\n\t * @param {Material|Array} [material] - The mesh material.\n\t */\n\tconstructor( geometry = new BufferGeometry(), material = new MeshBasicMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMesh = true;\n\n\t\tthis.type = 'Mesh';\n\n\t\t/**\n\t\t * The mesh geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = geometry;\n\n\t\t/**\n\t\t * The mesh material.\n\t\t *\n\t\t * @type {Material|Array}\n\t\t * @default MeshBasicMaterial\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * A dictionary representing the morph targets in the geometry. The key is the\n\t\t * morph targets name, the value its attribute index. This member is `undefined`\n\t\t * by default and only set when morph targets are detected in the geometry.\n\t\t *\n\t\t * @type {Object|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetDictionary = undefined;\n\n\t\t/**\n\t\t * An array of weights typically in the range `[0,1]` that specify how much of the morph\n\t\t * is applied. This member is `undefined` by default and only set when morph targets are\n\t\t * detected in the geometry.\n\t\t *\n\t\t * @type {Array|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetInfluences = undefined;\n\n\t\t/**\n\t\t * The number of instances of this mesh.\n\t\t * Can only be used with {@link WebGPURenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.count = 1;\n\n\t\tthis.updateMorphTargets();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.morphTargetInfluences !== undefined ) {\n\n\t\t\tthis.morphTargetInfluences = source.morphTargetInfluences.slice();\n\n\t\t}\n\n\t\tif ( source.morphTargetDictionary !== undefined ) {\n\n\t\t\tthis.morphTargetDictionary = Object.assign( {}, source.morphTargetDictionary );\n\n\t\t}\n\n\t\tthis.material = Array.isArray( source.material ) ? source.material.slice() : source.material;\n\t\tthis.geometry = source.geometry;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the values of {@link Mesh#morphTargetDictionary} and {@link Mesh#morphTargetInfluences}\n\t * to make sure existing morph targets can influence this 3D object.\n\t */\n\tupdateMorphTargets() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst morphAttributes = geometry.morphAttributes;\n\t\tconst keys = Object.keys( morphAttributes );\n\n\t\tif ( keys.length > 0 ) {\n\n\t\t\tconst morphAttribute = morphAttributes[ keys[ 0 ] ];\n\n\t\t\tif ( morphAttribute !== undefined ) {\n\n\t\t\t\tthis.morphTargetInfluences = [];\n\t\t\t\tthis.morphTargetDictionary = {};\n\n\t\t\t\tfor ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) {\n\n\t\t\t\t\tconst name = morphAttribute[ m ].name || String( m );\n\n\t\t\t\t\tthis.morphTargetInfluences.push( 0 );\n\t\t\t\t\tthis.morphTargetDictionary[ name ] = m;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns the local-space position of the vertex at the given index, taking into\n\t * account the current animation state of both morph targets and skinning.\n\t *\n\t * @param {number} index - The vertex index.\n\t * @param {Vector3} target - The target object that is used to store the method's result.\n\t * @return {Vector3} The vertex position in local space.\n\t */\n\tgetVertexPosition( index, target ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst position = geometry.attributes.position;\n\t\tconst morphPosition = geometry.morphAttributes.position;\n\t\tconst morphTargetsRelative = geometry.morphTargetsRelative;\n\n\t\ttarget.fromBufferAttribute( position, index );\n\n\t\tconst morphInfluences = this.morphTargetInfluences;\n\n\t\tif ( morphPosition && morphInfluences ) {\n\n\t\t\t_morphA.set( 0, 0, 0 );\n\n\t\t\tfor ( let i = 0, il = morphPosition.length; i < il; i ++ ) {\n\n\t\t\t\tconst influence = morphInfluences[ i ];\n\t\t\t\tconst morphAttribute = morphPosition[ i ];\n\n\t\t\t\tif ( influence === 0 ) continue;\n\n\t\t\t\t_tempA.fromBufferAttribute( morphAttribute, index );\n\n\t\t\t\tif ( morphTargetsRelative ) {\n\n\t\t\t\t\t_morphA.addScaledVector( _tempA, influence );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t_morphA.addScaledVector( _tempA.sub( target ), influence );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\ttarget.add( _morphA );\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this line.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst material = this.material;\n\t\tconst matrixWorld = this.matrixWorld;\n\n\t\tif ( material === undefined ) return;\n\n\t\t// test with bounding sphere in world space\n\n\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t_sphere$6.copy( geometry.boundingSphere );\n\t\t_sphere$6.applyMatrix4( matrixWorld );\n\n\t\t// check distance from ray origin to bounding sphere\n\n\t\t_ray$3.copy( raycaster.ray ).recast( raycaster.near );\n\n\t\tif ( _sphere$6.containsPoint( _ray$3.origin ) === false ) {\n\n\t\t\tif ( _ray$3.intersectSphere( _sphere$6, _sphereHitAt ) === null ) return;\n\n\t\t\tif ( _ray$3.origin.distanceToSquared( _sphereHitAt ) > ( raycaster.far - raycaster.near ) ** 2 ) return;\n\n\t\t}\n\n\t\t// convert ray to local space of mesh\n\n\t\t_inverseMatrix$3.copy( matrixWorld ).invert();\n\t\t_ray$3.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$3 );\n\n\t\t// test with bounding box in local space\n\n\t\tif ( geometry.boundingBox !== null ) {\n\n\t\t\tif ( _ray$3.intersectsBox( geometry.boundingBox ) === false ) return;\n\n\t\t}\n\n\t\t// test for intersections with geometry\n\n\t\tthis._computeIntersections( raycaster, intersects, _ray$3 );\n\n\t}\n\n\t_computeIntersections( raycaster, intersects, rayLocalSpace ) {\n\n\t\tlet intersection;\n\n\t\tconst geometry = this.geometry;\n\t\tconst material = this.material;\n\n\t\tconst index = geometry.index;\n\t\tconst position = geometry.attributes.position;\n\t\tconst uv = geometry.attributes.uv;\n\t\tconst uv1 = geometry.attributes.uv1;\n\t\tconst normal = geometry.attributes.normal;\n\t\tconst groups = geometry.groups;\n\t\tconst drawRange = geometry.drawRange;\n\n\t\tif ( index !== null ) {\n\n\t\t\t// indexed buffer geometry\n\n\t\t\tif ( Array.isArray( material ) ) {\n\n\t\t\t\tfor ( let i = 0, il = groups.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst group = groups[ i ];\n\t\t\t\t\tconst groupMaterial = material[ group.materialIndex ];\n\n\t\t\t\t\tconst start = Math.max( group.start, drawRange.start );\n\t\t\t\t\tconst end = Math.min( index.count, Math.min( ( group.start + group.count ), ( drawRange.start + drawRange.count ) ) );\n\n\t\t\t\t\tfor ( let j = start, jl = end; j < jl; j += 3 ) {\n\n\t\t\t\t\t\tconst a = index.getX( j );\n\t\t\t\t\t\tconst b = index.getX( j + 1 );\n\t\t\t\t\t\tconst c = index.getX( j + 2 );\n\n\t\t\t\t\t\tintersection = checkGeometryIntersection( this, groupMaterial, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\t\tintersection.faceIndex = Math.floor( j / 3 ); // triangle number in indexed buffer semantics\n\t\t\t\t\t\t\tintersection.face.materialIndex = group.materialIndex;\n\t\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\t\tconst end = Math.min( index.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\t\tfor ( let i = start, il = end; i < il; i += 3 ) {\n\n\t\t\t\t\tconst a = index.getX( i );\n\t\t\t\t\tconst b = index.getX( i + 1 );\n\t\t\t\t\tconst c = index.getX( i + 2 );\n\n\t\t\t\t\tintersection = checkGeometryIntersection( this, material, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\tintersection.faceIndex = Math.floor( i / 3 ); // triangle number in indexed buffer semantics\n\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else if ( position !== undefined ) {\n\n\t\t\t// non-indexed buffer geometry\n\n\t\t\tif ( Array.isArray( material ) ) {\n\n\t\t\t\tfor ( let i = 0, il = groups.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst group = groups[ i ];\n\t\t\t\t\tconst groupMaterial = material[ group.materialIndex ];\n\n\t\t\t\t\tconst start = Math.max( group.start, drawRange.start );\n\t\t\t\t\tconst end = Math.min( position.count, Math.min( ( group.start + group.count ), ( drawRange.start + drawRange.count ) ) );\n\n\t\t\t\t\tfor ( let j = start, jl = end; j < jl; j += 3 ) {\n\n\t\t\t\t\t\tconst a = j;\n\t\t\t\t\t\tconst b = j + 1;\n\t\t\t\t\t\tconst c = j + 2;\n\n\t\t\t\t\t\tintersection = checkGeometryIntersection( this, groupMaterial, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\t\tintersection.faceIndex = Math.floor( j / 3 ); // triangle number in non-indexed buffer semantics\n\t\t\t\t\t\t\tintersection.face.materialIndex = group.materialIndex;\n\t\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\t\tconst end = Math.min( position.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\t\tfor ( let i = start, il = end; i < il; i += 3 ) {\n\n\t\t\t\t\tconst a = i;\n\t\t\t\t\tconst b = i + 1;\n\t\t\t\t\tconst c = i + 2;\n\n\t\t\t\t\tintersection = checkGeometryIntersection( this, material, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\tintersection.faceIndex = Math.floor( i / 3 ); // triangle number in non-indexed buffer semantics\n\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n}\n\nfunction checkIntersection$1( object, material, raycaster, ray, pA, pB, pC, point ) {\n\n\tlet intersect;\n\n\tif ( material.side === BackSide ) {\n\n\t\tintersect = ray.intersectTriangle( pC, pB, pA, true, point );\n\n\t} else {\n\n\t\tintersect = ray.intersectTriangle( pA, pB, pC, ( material.side === FrontSide ), point );\n\n\t}\n\n\tif ( intersect === null ) return null;\n\n\t_intersectionPointWorld.copy( point );\n\t_intersectionPointWorld.applyMatrix4( object.matrixWorld );\n\n\tconst distance = raycaster.ray.origin.distanceTo( _intersectionPointWorld );\n\n\tif ( distance < raycaster.near || distance > raycaster.far ) return null;\n\n\treturn {\n\t\tdistance: distance,\n\t\tpoint: _intersectionPointWorld.clone(),\n\t\tobject: object\n\t};\n\n}\n\nfunction checkGeometryIntersection( object, material, raycaster, ray, uv, uv1, normal, a, b, c ) {\n\n\tobject.getVertexPosition( a, _vA$1 );\n\tobject.getVertexPosition( b, _vB$1 );\n\tobject.getVertexPosition( c, _vC$1 );\n\n\tconst intersection = checkIntersection$1( object, material, raycaster, ray, _vA$1, _vB$1, _vC$1, _intersectionPoint );\n\n\tif ( intersection ) {\n\n\t\tconst barycoord = new Vector3();\n\t\tTriangle.getBarycoord( _intersectionPoint, _vA$1, _vB$1, _vC$1, barycoord );\n\n\t\tif ( uv ) {\n\n\t\t\tintersection.uv = Triangle.getInterpolatedAttribute( uv, a, b, c, barycoord, new Vector2() );\n\n\t\t}\n\n\t\tif ( uv1 ) {\n\n\t\t\tintersection.uv1 = Triangle.getInterpolatedAttribute( uv1, a, b, c, barycoord, new Vector2() );\n\n\t\t}\n\n\t\tif ( normal ) {\n\n\t\t\tintersection.normal = Triangle.getInterpolatedAttribute( normal, a, b, c, barycoord, new Vector3() );\n\n\t\t\tif ( intersection.normal.dot( ray.direction ) > 0 ) {\n\n\t\t\t\tintersection.normal.multiplyScalar( -1 );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst face = {\n\t\t\ta: a,\n\t\t\tb: b,\n\t\t\tc: c,\n\t\t\tnormal: new Vector3(),\n\t\t\tmaterialIndex: 0\n\t\t};\n\n\t\tTriangle.getNormal( _vA$1, _vB$1, _vC$1, face.normal );\n\n\t\tintersection.face = face;\n\t\tintersection.barycoord = barycoord;\n\n\t}\n\n\treturn intersection;\n\n}\n\n/**\n * A geometry class for a rectangular cuboid with a given width, height, and depth.\n * On creation, the cuboid is centred on the origin, with each edge parallel to one\n * of the axes.\n *\n * ```js\n * const geometry = new THREE.BoxGeometry( 1, 1, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const cube = new THREE.Mesh( geometry, material );\n * scene.add( cube );\n * ```\n *\n * @augments BufferGeometry\n */\nclass BoxGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new box geometry.\n\t *\n\t * @param {number} [width=1] - The width. That is, the length of the edges parallel to the X axis.\n\t * @param {number} [height=1] - The height. That is, the length of the edges parallel to the Y axis.\n\t * @param {number} [depth=1] - The depth. That is, the length of the edges parallel to the Z axis.\n\t * @param {number} [widthSegments=1] - Number of segmented rectangular faces along the width of the sides.\n\t * @param {number} [heightSegments=1] - Number of segmented rectangular faces along the height of the sides.\n\t * @param {number} [depthSegments=1] - Number of segmented rectangular faces along the depth of the sides.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, widthSegments = 1, heightSegments = 1, depthSegments = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'BoxGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\twidth: width,\n\t\t\theight: height,\n\t\t\tdepth: depth,\n\t\t\twidthSegments: widthSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\tdepthSegments: depthSegments\n\t\t};\n\n\t\tconst scope = this;\n\n\t\t// segments\n\n\t\twidthSegments = Math.floor( widthSegments );\n\t\theightSegments = Math.floor( heightSegments );\n\t\tdepthSegments = Math.floor( depthSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tlet numberOfVertices = 0;\n\t\tlet groupStart = 0;\n\n\t\t// build each side of the box geometry\n\n\t\tbuildPlane( 'z', 'y', 'x', -1, -1, depth, height, width, depthSegments, heightSegments, 0 ); // px\n\t\tbuildPlane( 'z', 'y', 'x', 1, -1, depth, height, - width, depthSegments, heightSegments, 1 ); // nx\n\t\tbuildPlane( 'x', 'z', 'y', 1, 1, width, depth, height, widthSegments, depthSegments, 2 ); // py\n\t\tbuildPlane( 'x', 'z', 'y', 1, -1, width, depth, - height, widthSegments, depthSegments, 3 ); // ny\n\t\tbuildPlane( 'x', 'y', 'z', 1, -1, width, height, depth, widthSegments, heightSegments, 4 ); // pz\n\t\tbuildPlane( 'x', 'y', 'z', -1, -1, width, height, - depth, widthSegments, heightSegments, 5 ); // nz\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\tfunction buildPlane( u, v, w, udir, vdir, width, height, depth, gridX, gridY, materialIndex ) {\n\n\t\t\tconst segmentWidth = width / gridX;\n\t\t\tconst segmentHeight = height / gridY;\n\n\t\t\tconst widthHalf = width / 2;\n\t\t\tconst heightHalf = height / 2;\n\t\t\tconst depthHalf = depth / 2;\n\n\t\t\tconst gridX1 = gridX + 1;\n\t\t\tconst gridY1 = gridY + 1;\n\n\t\t\tlet vertexCounter = 0;\n\t\t\tlet groupCount = 0;\n\n\t\t\tconst vector = new Vector3();\n\n\t\t\t// generate vertices, normals and uvs\n\n\t\t\tfor ( let iy = 0; iy < gridY1; iy ++ ) {\n\n\t\t\t\tconst y = iy * segmentHeight - heightHalf;\n\n\t\t\t\tfor ( let ix = 0; ix < gridX1; ix ++ ) {\n\n\t\t\t\t\tconst x = ix * segmentWidth - widthHalf;\n\n\t\t\t\t\t// set values to correct vector component\n\n\t\t\t\t\tvector[ u ] = x * udir;\n\t\t\t\t\tvector[ v ] = y * vdir;\n\t\t\t\t\tvector[ w ] = depthHalf;\n\n\t\t\t\t\t// now apply vector to vertex buffer\n\n\t\t\t\t\tvertices.push( vector.x, vector.y, vector.z );\n\n\t\t\t\t\t// set values to correct vector component\n\n\t\t\t\t\tvector[ u ] = 0;\n\t\t\t\t\tvector[ v ] = 0;\n\t\t\t\t\tvector[ w ] = depth > 0 ? 1 : -1;\n\n\t\t\t\t\t// now apply vector to normal buffer\n\n\t\t\t\t\tnormals.push( vector.x, vector.y, vector.z );\n\n\t\t\t\t\t// uvs\n\n\t\t\t\t\tuvs.push( ix / gridX );\n\t\t\t\t\tuvs.push( 1 - ( iy / gridY ) );\n\n\t\t\t\t\t// counters\n\n\t\t\t\t\tvertexCounter += 1;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// indices\n\n\t\t\t// 1. you need three indices to draw a single face\n\t\t\t// 2. a single segment consists of two faces\n\t\t\t// 3. so we need to generate six (2*3) indices per segment\n\n\t\t\tfor ( let iy = 0; iy < gridY; iy ++ ) {\n\n\t\t\t\tfor ( let ix = 0; ix < gridX; ix ++ ) {\n\n\t\t\t\t\tconst a = numberOfVertices + ix + gridX1 * iy;\n\t\t\t\t\tconst b = numberOfVertices + ix + gridX1 * ( iy + 1 );\n\t\t\t\t\tconst c = numberOfVertices + ( ix + 1 ) + gridX1 * ( iy + 1 );\n\t\t\t\t\tconst d = numberOfVertices + ( ix + 1 ) + gridX1 * iy;\n\n\t\t\t\t\t// faces\n\n\t\t\t\t\tindices.push( a, b, d );\n\t\t\t\t\tindices.push( b, c, d );\n\n\t\t\t\t\t// increase counter\n\n\t\t\t\t\tgroupCount += 6;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// add a group to the geometry. this will ensure multi material support\n\n\t\t\tscope.addGroup( groupStart, groupCount, materialIndex );\n\n\t\t\t// calculate new start value for groups\n\n\t\t\tgroupStart += groupCount;\n\n\t\t\t// update total number of vertices\n\n\t\t\tnumberOfVertices += vertexCounter;\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {BoxGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new BoxGeometry( data.width, data.height, data.depth, data.widthSegments, data.heightSegments, data.depthSegments );\n\n\t}\n\n}\n\n// Uniform Utilities\n\nfunction cloneUniforms( src ) {\n\n\tconst dst = {};\n\n\tfor ( const u in src ) {\n\n\t\tdst[ u ] = {};\n\n\t\tfor ( const p in src[ u ] ) {\n\n\t\t\tconst property = src[ u ][ p ];\n\n\t\t\tif ( property && ( property.isColor ||\n\t\t\t\tproperty.isMatrix3 || property.isMatrix4 ||\n\t\t\t\tproperty.isVector2 || property.isVector3 || property.isVector4 ||\n\t\t\t\tproperty.isTexture || property.isQuaternion ) ) {\n\n\t\t\t\tif ( property.isRenderTargetTexture ) {\n\n\t\t\t\t\tconsole.warn( 'UniformsUtils: Textures of render targets cannot be cloned via cloneUniforms() or mergeUniforms().' );\n\t\t\t\t\tdst[ u ][ p ] = null;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tdst[ u ][ p ] = property.clone();\n\n\t\t\t\t}\n\n\t\t\t} else if ( Array.isArray( property ) ) {\n\n\t\t\t\tdst[ u ][ p ] = property.slice();\n\n\t\t\t} else {\n\n\t\t\t\tdst[ u ][ p ] = property;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\treturn dst;\n\n}\n\nfunction mergeUniforms( uniforms ) {\n\n\tconst merged = {};\n\n\tfor ( let u = 0; u < uniforms.length; u ++ ) {\n\n\t\tconst tmp = cloneUniforms( uniforms[ u ] );\n\n\t\tfor ( const p in tmp ) {\n\n\t\t\tmerged[ p ] = tmp[ p ];\n\n\t\t}\n\n\t}\n\n\treturn merged;\n\n}\n\nfunction cloneUniformsGroups( src ) {\n\n\tconst dst = [];\n\n\tfor ( let u = 0; u < src.length; u ++ ) {\n\n\t\tdst.push( src[ u ].clone() );\n\n\t}\n\n\treturn dst;\n\n}\n\nfunction getUnlitUniformColorSpace( renderer ) {\n\n\tconst currentRenderTarget = renderer.getRenderTarget();\n\n\tif ( currentRenderTarget === null ) {\n\n\t\t// https://github.com/mrdoob/three.js/pull/23937#issuecomment-1111067398\n\t\treturn renderer.outputColorSpace;\n\n\t}\n\n\t// https://github.com/mrdoob/three.js/issues/27868\n\tif ( currentRenderTarget.isXRRenderTarget === true ) {\n\n\t\treturn currentRenderTarget.texture.colorSpace;\n\n\t}\n\n\treturn ColorManagement.workingColorSpace;\n\n}\n\n// Legacy\n\nconst UniformsUtils = { clone: cloneUniforms, merge: mergeUniforms };\n\nvar default_vertex = \"void main() {\\n\\tgl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );\\n}\";\n\nvar default_fragment = \"void main() {\\n\\tgl_FragColor = vec4( 1.0, 0.0, 0.0, 1.0 );\\n}\";\n\n/**\n * A material rendered with custom shaders. A shader is a small program written in GLSL.\n * that runs on the GPU. You may want to use a custom shader if you need to implement an\n * effect not included with any of the built-in materials.\n *\n * There are the following notes to bear in mind when using a `ShaderMaterial`:\n *\n * - `ShaderMaterial` can only be used with {@link WebGLRenderer}.\n * - Built in attributes and uniforms are passed to the shaders along with your code. If\n * you don't want that, use {@link RawShaderMaterial} instead.\n * - You can use the directive `#pragma unroll_loop_start` and `#pragma unroll_loop_end`\n * in order to unroll a `for` loop in GLSL by the shader preprocessor. The directive has\n * to be placed right above the loop. The loop formatting has to correspond to a defined standard.\n * - The loop has to be [normalized]{@link https://en.wikipedia.org/wiki/Normalized_loop}.\n * - The loop variable has to be *i*.\n * - The value `UNROLLED_LOOP_INDEX` will be replaced with the explicitly\n * value of *i* for the given iteration and can be used in preprocessor\n * statements.\n *\n * ```js\n * const material = new THREE.ShaderMaterial( {\n * \tuniforms: {\n * \t\ttime: { value: 1.0 },\n * \t\tresolution: { value: new THREE.Vector2() }\n * \t},\n * \tvertexShader: document.getElementById( 'vertexShader' ).textContent,\n * \tfragmentShader: document.getElementById( 'fragmentShader' ).textContent\n * } );\n * ```\n *\n * @augments Material\n */\nclass ShaderMaterial extends Material {\n\n\t/**\n\t * Constructs a new shader material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isShaderMaterial = true;\n\n\t\tthis.type = 'ShaderMaterial';\n\n\t\t/**\n\t\t * Defines custom constants using `#define` directives within the GLSL code\n\t\t * for both the vertex shader and the fragment shader; each key/value pair\n\t\t * yields another directive.\n\t\t * ```js\n\t\t * defines: {\n\t\t * \tFOO: 15,\n\t\t * \tBAR: true\n\t\t * }\n\t\t * ```\n\t\t * Yields the lines:\n\t\t * ```\n\t\t * #define FOO 15\n\t\t * #define BAR true\n\t\t * ```\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.defines = {};\n\n\t\t/**\n\t\t * An object of the form:\n\t\t * ```js\n\t\t * {\n\t\t * \t\"uniform1\": { value: 1.0 },\n\t\t * \t\"uniform2\": { value: 2 }\n\t\t * }\n\t\t * ```\n\t\t * specifying the uniforms to be passed to the shader code; keys are uniform\n\t\t * names, values are definitions of the form\n\t\t * ```\n\t\t * {\n\t\t * \tvalue: 1.0\n\t\t * }\n\t\t * ```\n\t\t * where `value` is the value of the uniform. Names must match the name of\n\t\t * the uniform, as defined in the GLSL code. Note that uniforms are refreshed\n\t\t * on every frame, so updating the value of the uniform will immediately\n\t\t * update the value available to the GLSL code.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.uniforms = {};\n\n\t\t/**\n\t\t * An array holding uniforms groups for configuring UBOs.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.uniformsGroups = [];\n\n\t\t/**\n\t\t * Vertex shader GLSL code. This is the actual code for the shader.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.vertexShader = default_vertex;\n\n\t\t/**\n\t\t * Fragment shader GLSL code. This is the actual code for the shader.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.fragmentShader = default_fragment;\n\n\t\t/**\n\t\t * Controls line thickness or lines.\n\t\t *\n\t\t * WebGL and WebGPU ignore this setting and always render line primitives with a\n\t\t * width of one pixel.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.linewidth = 1;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * WebGL and WebGPU ignore this property and always render\n\t\t * 1 pixel wide lines.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Define whether the material color is affected by global fog settings; `true`\n\t\t * to pass fog uniforms to the shader.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.fog = false;\n\n\t\t/**\n\t\t * Defines whether this material uses lighting; `true` to pass uniform data\n\t\t * related to lighting to this shader.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.lights = false;\n\n\t\t/**\n\t\t * Defines whether this material supports clipping; `true` to let the renderer\n\t\t * pass the clippingPlanes uniform.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clipping = false;\n\n\t\t/**\n\t\t * Overwritten and set to `true` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.forceSinglePass = true;\n\n\t\t/**\n\t\t * This object allows to enable certain WebGL 2 extensions.\n\t\t *\n\t\t * - clipCullDistance: set to `true` to use vertex shader clipping\n\t\t * - multiDraw: set to `true` to use vertex shader multi_draw / enable gl_DrawID\n\t\t *\n\t\t * @type {{clipCullDistance:false,multiDraw:false}}\n\t\t */\n\t\tthis.extensions = {\n\t\t\tclipCullDistance: false, // set to use vertex shader clipping\n\t\t\tmultiDraw: false // set to use vertex shader multi_draw / enable gl_DrawID\n\t\t};\n\n\t\t/**\n\t\t * When the rendered geometry doesn't include these attributes but the\n\t\t * material does, these default values will be passed to the shaders. This\n\t\t * avoids errors when buffer data is missing.\n\t\t *\n\t\t * - color: [ 1, 1, 1 ]\n\t\t * - uv: [ 0, 0 ]\n\t\t * - uv1: [ 0, 0 ]\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.defaultAttributeValues = {\n\t\t\t'color': [ 1, 1, 1 ],\n\t\t\t'uv': [ 0, 0 ],\n\t\t\t'uv1': [ 0, 0 ]\n\t\t};\n\n\t\t/**\n\t\t * If set, this calls [gl.bindAttribLocation]{@link https://developer.mozilla.org/en-US/docs/Web/API/WebGLRenderingContext/bindAttribLocation}\n\t\t * to bind a generic vertex index to an attribute variable.\n\t\t *\n\t\t * @type {string|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.index0AttributeName = undefined;\n\n\t\t/**\n\t\t * Can be used to force a uniform update while changing uniforms in\n\t\t * {@link Object3D#onBeforeRender}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.uniformsNeedUpdate = false;\n\n\t\t/**\n\t\t * Defines the GLSL version of custom shader code.\n\t\t *\n\t\t * @type {?(GLSL1|GLSL3)}\n\t\t * @default null\n\t\t */\n\t\tthis.glslVersion = null;\n\n\t\tif ( parameters !== undefined ) {\n\n\t\t\tthis.setValues( parameters );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.fragmentShader = source.fragmentShader;\n\t\tthis.vertexShader = source.vertexShader;\n\n\t\tthis.uniforms = cloneUniforms( source.uniforms );\n\t\tthis.uniformsGroups = cloneUniformsGroups( source.uniformsGroups );\n\n\t\tthis.defines = Object.assign( {}, source.defines );\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\n\t\tthis.fog = source.fog;\n\t\tthis.lights = source.lights;\n\t\tthis.clipping = source.clipping;\n\n\t\tthis.extensions = Object.assign( {}, source.extensions );\n\n\t\tthis.glslVersion = source.glslVersion;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.glslVersion = this.glslVersion;\n\t\tdata.uniforms = {};\n\n\t\tfor ( const name in this.uniforms ) {\n\n\t\t\tconst uniform = this.uniforms[ name ];\n\t\t\tconst value = uniform.value;\n\n\t\t\tif ( value && value.isTexture ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 't',\n\t\t\t\t\tvalue: value.toJSON( meta ).uuid\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isColor ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'c',\n\t\t\t\t\tvalue: value.getHex()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isVector2 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'v2',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isVector3 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'v3',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isVector4 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'v4',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isMatrix3 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'm3',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isMatrix4 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'm4',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\tvalue: value\n\t\t\t\t};\n\n\t\t\t\t// note: the array variants v2v, v3v, v4v, m4v and tv are not supported so far\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( Object.keys( this.defines ).length > 0 ) data.defines = this.defines;\n\n\t\tdata.vertexShader = this.vertexShader;\n\t\tdata.fragmentShader = this.fragmentShader;\n\n\t\tdata.lights = this.lights;\n\t\tdata.clipping = this.clipping;\n\n\t\tconst extensions = {};\n\n\t\tfor ( const key in this.extensions ) {\n\n\t\t\tif ( this.extensions[ key ] === true ) extensions[ key ] = true;\n\n\t\t}\n\n\t\tif ( Object.keys( extensions ).length > 0 ) data.extensions = extensions;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Abstract base class for cameras. This class should always be inherited\n * when you build a new camera.\n *\n * @abstract\n * @augments Object3D\n */\nclass Camera extends Object3D {\n\n\t/**\n\t * Constructs a new camera.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCamera = true;\n\n\t\tthis.type = 'Camera';\n\n\t\t/**\n\t\t * The inverse of the camera's world matrix.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrixWorldInverse = new Matrix4();\n\n\t\t/**\n\t\t * The camera's projection matrix.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.projectionMatrix = new Matrix4();\n\n\t\t/**\n\t\t * The inverse of the camera's projection matrix.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.projectionMatrixInverse = new Matrix4();\n\n\t\t/**\n\t\t * The coordinate system in which the camera is used.\n\t\t *\n\t\t * @type {(WebGLCoordinateSystem|WebGPUCoordinateSystem)}\n\t\t */\n\t\tthis.coordinateSystem = WebGLCoordinateSystem;\n\n\t\tthis._reversedDepth = false;\n\n\t}\n\n\t/**\n\t * The flag that indicates whether the camera uses a reversed depth buffer.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t */\n\tget reversedDepth() {\n\n\t\treturn this._reversedDepth;\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.matrixWorldInverse.copy( source.matrixWorldInverse );\n\n\t\tthis.projectionMatrix.copy( source.projectionMatrix );\n\t\tthis.projectionMatrixInverse.copy( source.projectionMatrixInverse );\n\n\t\tthis.coordinateSystem = source.coordinateSystem;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the (\"look\") direction of the 3D object in world space.\n\t *\n\t * This method is overwritten since cameras have a different forward vector compared to other\n\t * 3D objects. A camera looks down its local, negative z-axis by default.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's direction in world space.\n\t */\n\tgetWorldDirection( target ) {\n\n\t\treturn super.getWorldDirection( target ).negate();\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tthis.matrixWorldInverse.copy( this.matrixWorld ).invert();\n\n\t}\n\n\tupdateWorldMatrix( updateParents, updateChildren ) {\n\n\t\tsuper.updateWorldMatrix( updateParents, updateChildren );\n\n\t\tthis.matrixWorldInverse.copy( this.matrixWorld ).invert();\n\n\t}\n\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _v3$1 = /*@__PURE__*/ new Vector3();\nconst _minTarget = /*@__PURE__*/ new Vector2();\nconst _maxTarget = /*@__PURE__*/ new Vector2();\n\n/**\n * Camera that uses [perspective projection]{@link https://en.wikipedia.org/wiki/Perspective_(graphical)}.\n *\n * This projection mode is designed to mimic the way the human eye sees. It\n * is the most common projection mode used for rendering a 3D scene.\n *\n * ```js\n * const camera = new THREE.PerspectiveCamera( 45, width / height, 1, 1000 );\n * scene.add( camera );\n * ```\n *\n * @augments Camera\n */\nclass PerspectiveCamera extends Camera {\n\n\t/**\n\t * Constructs a new perspective camera.\n\t *\n\t * @param {number} [fov=50] - The vertical field of view.\n\t * @param {number} [aspect=1] - The aspect ratio.\n\t * @param {number} [near=0.1] - The camera's near plane.\n\t * @param {number} [far=2000] - The camera's far plane.\n\t */\n\tconstructor( fov = 50, aspect = 1, near = 0.1, far = 2000 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPerspectiveCamera = true;\n\n\t\tthis.type = 'PerspectiveCamera';\n\n\t\t/**\n\t\t * The vertical field of view, from bottom to top of view,\n\t\t * in degrees.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 50\n\t\t */\n\t\tthis.fov = fov;\n\n\t\t/**\n\t\t * The zoom factor of the camera.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.zoom = 1;\n\n\t\t/**\n\t\t * The camera's near plane. The valid range is greater than `0`\n\t\t * and less than the current value of {@link PerspectiveCamera#far}.\n\t\t *\n\t\t * Note that, unlike for the {@link OrthographicCamera}, `0` is not a\n\t\t * valid value for a perspective camera's near plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.1\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * The camera's far plane. Must be greater than the\n\t\t * current value of {@link PerspectiveCamera#near}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2000\n\t\t */\n\t\tthis.far = far;\n\n\t\t/**\n\t\t * Object distance used for stereoscopy and depth-of-field effects. This\n\t\t * parameter does not influence the projection matrix unless a\n\t\t * {@link StereoCamera} is being used.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 10\n\t\t */\n\t\tthis.focus = 10;\n\n\t\t/**\n\t\t * The aspect ratio, usually the canvas width / canvas height.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aspect = aspect;\n\n\t\t/**\n\t\t * Represents the frustum window specification. This property should not be edited\n\t\t * directly but via {@link PerspectiveCamera#setViewOffset} and {@link PerspectiveCamera#clearViewOffset}.\n\t\t *\n\t\t * @type {?Object}\n\t\t * @default null\n\t\t */\n\t\tthis.view = null;\n\n\t\t/**\n\t\t * Film size used for the larger axis. Default is `35` (millimeters). This\n\t\t * parameter does not influence the projection matrix unless {@link PerspectiveCamera#filmOffset}\n\t\t * is set to a nonzero value.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 35\n\t\t */\n\t\tthis.filmGauge = 35;\n\n\t\t/**\n\t\t * Horizontal off-center offset in the same unit as {@link PerspectiveCamera#filmGauge}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.filmOffset = 0;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.fov = source.fov;\n\t\tthis.zoom = source.zoom;\n\n\t\tthis.near = source.near;\n\t\tthis.far = source.far;\n\t\tthis.focus = source.focus;\n\n\t\tthis.aspect = source.aspect;\n\t\tthis.view = source.view === null ? null : Object.assign( {}, source.view );\n\n\t\tthis.filmGauge = source.filmGauge;\n\t\tthis.filmOffset = source.filmOffset;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the FOV by focal length in respect to the current {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * The default film gauge is 35, so that the focal length can be specified for\n\t * a 35mm (full frame) camera.\n\t *\n\t * @param {number} focalLength - Values for focal length and film gauge must have the same unit.\n\t */\n\tsetFocalLength( focalLength ) {\n\n\t\t/** see {@link http://www.bobatkins.com/photography/technical/field_of_view.html} */\n\t\tconst vExtentSlope = 0.5 * this.getFilmHeight() / focalLength;\n\n\t\tthis.fov = RAD2DEG * 2 * Math.atan( vExtentSlope );\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Returns the focal length from the current {@link PerspectiveCamera#fov} and\n\t * {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * @return {number} The computed focal length.\n\t */\n\tgetFocalLength() {\n\n\t\tconst vExtentSlope = Math.tan( DEG2RAD * 0.5 * this.fov );\n\n\t\treturn 0.5 * this.getFilmHeight() / vExtentSlope;\n\n\t}\n\n\t/**\n\t * Returns the current vertical field of view angle in degrees considering {@link PerspectiveCamera#zoom}.\n\t *\n\t * @return {number} The effective FOV.\n\t */\n\tgetEffectiveFOV() {\n\n\t\treturn RAD2DEG * 2 * Math.atan(\n\t\t\tMath.tan( DEG2RAD * 0.5 * this.fov ) / this.zoom );\n\n\t}\n\n\t/**\n\t * Returns the width of the image on the film. If {@link PerspectiveCamera#aspect} is greater than or\n\t * equal to one (landscape format), the result equals {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * @return {number} The film width.\n\t */\n\tgetFilmWidth() {\n\n\t\t// film not completely covered in portrait format (aspect < 1)\n\t\treturn this.filmGauge * Math.min( this.aspect, 1 );\n\n\t}\n\n\t/**\n\t * Returns the height of the image on the film. If {@link PerspectiveCamera#aspect} is greater than or\n\t * equal to one (landscape format), the result equals {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * @return {number} The film width.\n\t */\n\tgetFilmHeight() {\n\n\t\t// film not completely covered in landscape format (aspect > 1)\n\t\treturn this.filmGauge / Math.max( this.aspect, 1 );\n\n\t}\n\n\t/**\n\t * Computes the 2D bounds of the camera's viewable rectangle at a given distance along the viewing direction.\n\t * Sets `minTarget` and `maxTarget` to the coordinates of the lower-left and upper-right corners of the view rectangle.\n\t *\n\t * @param {number} distance - The viewing distance.\n\t * @param {Vector2} minTarget - The lower-left corner of the view rectangle is written into this vector.\n\t * @param {Vector2} maxTarget - The upper-right corner of the view rectangle is written into this vector.\n\t */\n\tgetViewBounds( distance, minTarget, maxTarget ) {\n\n\t\t_v3$1.set( -1, -1, 0.5 ).applyMatrix4( this.projectionMatrixInverse );\n\n\t\tminTarget.set( _v3$1.x, _v3$1.y ).multiplyScalar( - distance / _v3$1.z );\n\n\t\t_v3$1.set( 1, 1, 0.5 ).applyMatrix4( this.projectionMatrixInverse );\n\n\t\tmaxTarget.set( _v3$1.x, _v3$1.y ).multiplyScalar( - distance / _v3$1.z );\n\n\t}\n\n\t/**\n\t * Computes the width and height of the camera's viewable rectangle at a given distance along the viewing direction.\n\t *\n\t * @param {number} distance - The viewing distance.\n\t * @param {Vector2} target - The target vector that is used to store result where x is width and y is height.\n\t * @returns {Vector2} The view size.\n\t */\n\tgetViewSize( distance, target ) {\n\n\t\tthis.getViewBounds( distance, _minTarget, _maxTarget );\n\n\t\treturn target.subVectors( _maxTarget, _minTarget );\n\n\t}\n\n\t/**\n\t * Sets an offset in a larger frustum. This is useful for multi-window or\n\t * multi-monitor/multi-machine setups.\n\t *\n\t * For example, if you have 3x2 monitors and each monitor is 1920x1080 and\n\t * the monitors are in grid like this\n\t *```\n\t * +---+---+---+\n\t * | A | B | C |\n\t * +---+---+---+\n\t * | D | E | F |\n\t * +---+---+---+\n\t *```\n\t * then for each monitor you would call it like this:\n\t *```js\n\t * const w = 1920;\n\t * const h = 1080;\n\t * const fullWidth = w * 3;\n\t * const fullHeight = h * 2;\n\t *\n\t * // --A--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 0, h * 0, w, h );\n\t * // --B--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 1, h * 0, w, h );\n\t * // --C--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 2, h * 0, w, h );\n\t * // --D--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 0, h * 1, w, h );\n\t * // --E--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 1, h * 1, w, h );\n\t * // --F--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 2, h * 1, w, h );\n\t * ```\n\t *\n\t * Note there is no reason monitors have to be the same size or in a grid.\n\t *\n\t * @param {number} fullWidth - The full width of multiview setup.\n\t * @param {number} fullHeight - The full height of multiview setup.\n\t * @param {number} x - The horizontal offset of the subcamera.\n\t * @param {number} y - The vertical offset of the subcamera.\n\t * @param {number} width - The width of subcamera.\n\t * @param {number} height - The height of subcamera.\n\t */\n\tsetViewOffset( fullWidth, fullHeight, x, y, width, height ) {\n\n\t\tthis.aspect = fullWidth / fullHeight;\n\n\t\tif ( this.view === null ) {\n\n\t\t\tthis.view = {\n\t\t\t\tenabled: true,\n\t\t\t\tfullWidth: 1,\n\t\t\t\tfullHeight: 1,\n\t\t\t\toffsetX: 0,\n\t\t\t\toffsetY: 0,\n\t\t\t\twidth: 1,\n\t\t\t\theight: 1\n\t\t\t};\n\n\t\t}\n\n\t\tthis.view.enabled = true;\n\t\tthis.view.fullWidth = fullWidth;\n\t\tthis.view.fullHeight = fullHeight;\n\t\tthis.view.offsetX = x;\n\t\tthis.view.offsetY = y;\n\t\tthis.view.width = width;\n\t\tthis.view.height = height;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Removes the view offset from the projection matrix.\n\t */\n\tclearViewOffset() {\n\n\t\tif ( this.view !== null ) {\n\n\t\t\tthis.view.enabled = false;\n\n\t\t}\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Updates the camera's projection matrix. Must be called after any change of\n\t * camera properties.\n\t */\n\tupdateProjectionMatrix() {\n\n\t\tconst near = this.near;\n\t\tlet top = near * Math.tan( DEG2RAD * 0.5 * this.fov ) / this.zoom;\n\t\tlet height = 2 * top;\n\t\tlet width = this.aspect * height;\n\t\tlet left = -0.5 * width;\n\t\tconst view = this.view;\n\n\t\tif ( this.view !== null && this.view.enabled ) {\n\n\t\t\tconst fullWidth = view.fullWidth,\n\t\t\t\tfullHeight = view.fullHeight;\n\n\t\t\tleft += view.offsetX * width / fullWidth;\n\t\t\ttop -= view.offsetY * height / fullHeight;\n\t\t\twidth *= view.width / fullWidth;\n\t\t\theight *= view.height / fullHeight;\n\n\t\t}\n\n\t\tconst skew = this.filmOffset;\n\t\tif ( skew !== 0 ) left += near * skew / this.getFilmWidth();\n\n\t\tthis.projectionMatrix.makePerspective( left, left + width, top, top - height, near, this.far, this.coordinateSystem, this.reversedDepth );\n\n\t\tthis.projectionMatrixInverse.copy( this.projectionMatrix ).invert();\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.fov = this.fov;\n\t\tdata.object.zoom = this.zoom;\n\n\t\tdata.object.near = this.near;\n\t\tdata.object.far = this.far;\n\t\tdata.object.focus = this.focus;\n\n\t\tdata.object.aspect = this.aspect;\n\n\t\tif ( this.view !== null ) data.object.view = Object.assign( {}, this.view );\n\n\t\tdata.object.filmGauge = this.filmGauge;\n\t\tdata.object.filmOffset = this.filmOffset;\n\n\t\treturn data;\n\n\t}\n\n}\n\nconst fov = -90; // negative fov is not an error\nconst aspect = 1;\n\n/**\n * A special type of camera that is positioned in 3D space to render its surroundings into a\n * cube render target. The render target can then be used as an environment map for rendering\n * realtime reflections in your scene.\n *\n * ```js\n * // Create cube render target\n * const cubeRenderTarget = new THREE.WebGLCubeRenderTarget( 256, { generateMipmaps: true, minFilter: THREE.LinearMipmapLinearFilter } );\n *\n * // Create cube camera\n * const cubeCamera = new THREE.CubeCamera( 1, 100000, cubeRenderTarget );\n * scene.add( cubeCamera );\n *\n * // Create car\n * const chromeMaterial = new THREE.MeshLambertMaterial( { color: 0xffffff, envMap: cubeRenderTarget.texture } );\n * const car = new THREE.Mesh( carGeometry, chromeMaterial );\n * scene.add( car );\n *\n * // Update the render target cube\n * car.visible = false;\n * cubeCamera.position.copy( car.position );\n * cubeCamera.update( renderer, scene );\n *\n * // Render the scene\n * car.visible = true;\n * renderer.render( scene, camera );\n * ```\n *\n * @augments Object3D\n */\nclass CubeCamera extends Object3D {\n\n\t/**\n\t * Constructs a new cube camera.\n\t *\n\t * @param {number} near - The camera's near plane.\n\t * @param {number} far - The camera's far plane.\n\t * @param {WebGLCubeRenderTarget} renderTarget - The cube render target.\n\t */\n\tconstructor( near, far, renderTarget ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CubeCamera';\n\n\t\t/**\n\t\t * A reference to the cube render target.\n\t\t *\n\t\t * @type {WebGLCubeRenderTarget}\n\t\t */\n\t\tthis.renderTarget = renderTarget;\n\n\t\t/**\n\t\t * The current active coordinate system.\n\t\t *\n\t\t * @type {?(WebGLCoordinateSystem|WebGPUCoordinateSystem)}\n\t\t * @default null\n\t\t */\n\t\tthis.coordinateSystem = null;\n\n\t\t/**\n\t\t * The current active mipmap level\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.activeMipmapLevel = 0;\n\n\t\tconst cameraPX = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraPX.layers = this.layers;\n\t\tthis.add( cameraPX );\n\n\t\tconst cameraNX = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraNX.layers = this.layers;\n\t\tthis.add( cameraNX );\n\n\t\tconst cameraPY = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraPY.layers = this.layers;\n\t\tthis.add( cameraPY );\n\n\t\tconst cameraNY = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraNY.layers = this.layers;\n\t\tthis.add( cameraNY );\n\n\t\tconst cameraPZ = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraPZ.layers = this.layers;\n\t\tthis.add( cameraPZ );\n\n\t\tconst cameraNZ = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraNZ.layers = this.layers;\n\t\tthis.add( cameraNZ );\n\n\t}\n\n\t/**\n\t * Must be called when the coordinate system of the cube camera is changed.\n\t */\n\tupdateCoordinateSystem() {\n\n\t\tconst coordinateSystem = this.coordinateSystem;\n\n\t\tconst cameras = this.children.concat();\n\n\t\tconst [ cameraPX, cameraNX, cameraPY, cameraNY, cameraPZ, cameraNZ ] = cameras;\n\n\t\tfor ( const camera of cameras ) this.remove( camera );\n\n\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\tcameraPX.up.set( 0, 1, 0 );\n\t\t\tcameraPX.lookAt( 1, 0, 0 );\n\n\t\t\tcameraNX.up.set( 0, 1, 0 );\n\t\t\tcameraNX.lookAt( -1, 0, 0 );\n\n\t\t\tcameraPY.up.set( 0, 0, -1 );\n\t\t\tcameraPY.lookAt( 0, 1, 0 );\n\n\t\t\tcameraNY.up.set( 0, 0, 1 );\n\t\t\tcameraNY.lookAt( 0, -1, 0 );\n\n\t\t\tcameraPZ.up.set( 0, 1, 0 );\n\t\t\tcameraPZ.lookAt( 0, 0, 1 );\n\n\t\t\tcameraNZ.up.set( 0, 1, 0 );\n\t\t\tcameraNZ.lookAt( 0, 0, -1 );\n\n\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\tcameraPX.up.set( 0, -1, 0 );\n\t\t\tcameraPX.lookAt( -1, 0, 0 );\n\n\t\t\tcameraNX.up.set( 0, -1, 0 );\n\t\t\tcameraNX.lookAt( 1, 0, 0 );\n\n\t\t\tcameraPY.up.set( 0, 0, 1 );\n\t\t\tcameraPY.lookAt( 0, 1, 0 );\n\n\t\t\tcameraNY.up.set( 0, 0, -1 );\n\t\t\tcameraNY.lookAt( 0, -1, 0 );\n\n\t\t\tcameraPZ.up.set( 0, -1, 0 );\n\t\t\tcameraPZ.lookAt( 0, 0, 1 );\n\n\t\t\tcameraNZ.up.set( 0, -1, 0 );\n\t\t\tcameraNZ.lookAt( 0, 0, -1 );\n\n\t\t} else {\n\n\t\t\tthrow new Error( 'THREE.CubeCamera.updateCoordinateSystem(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t}\n\n\t\tfor ( const camera of cameras ) {\n\n\t\t\tthis.add( camera );\n\n\t\t\tcamera.updateMatrixWorld();\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Calling this method will render the given scene with the given renderer\n\t * into the cube render target of the camera.\n\t *\n\t * @param {(Renderer|WebGLRenderer)} renderer - The renderer.\n\t * @param {Scene} scene - The scene to render.\n\t */\n\tupdate( renderer, scene ) {\n\n\t\tif ( this.parent === null ) this.updateMatrixWorld();\n\n\t\tconst { renderTarget, activeMipmapLevel } = this;\n\n\t\tif ( this.coordinateSystem !== renderer.coordinateSystem ) {\n\n\t\t\tthis.coordinateSystem = renderer.coordinateSystem;\n\n\t\t\tthis.updateCoordinateSystem();\n\n\t\t}\n\n\t\tconst [ cameraPX, cameraNX, cameraPY, cameraNY, cameraPZ, cameraNZ ] = this.children;\n\n\t\tconst currentRenderTarget = renderer.getRenderTarget();\n\t\tconst currentActiveCubeFace = renderer.getActiveCubeFace();\n\t\tconst currentActiveMipmapLevel = renderer.getActiveMipmapLevel();\n\n\t\tconst currentXrEnabled = renderer.xr.enabled;\n\n\t\trenderer.xr.enabled = false;\n\n\t\tconst generateMipmaps = renderTarget.texture.generateMipmaps;\n\n\t\trenderTarget.texture.generateMipmaps = false;\n\n\t\trenderer.setRenderTarget( renderTarget, 0, activeMipmapLevel );\n\t\trenderer.render( scene, cameraPX );\n\n\t\trenderer.setRenderTarget( renderTarget, 1, activeMipmapLevel );\n\t\trenderer.render( scene, cameraNX );\n\n\t\trenderer.setRenderTarget( renderTarget, 2, activeMipmapLevel );\n\t\trenderer.render( scene, cameraPY );\n\n\t\trenderer.setRenderTarget( renderTarget, 3, activeMipmapLevel );\n\t\trenderer.render( scene, cameraNY );\n\n\t\trenderer.setRenderTarget( renderTarget, 4, activeMipmapLevel );\n\t\trenderer.render( scene, cameraPZ );\n\n\t\t// mipmaps are generated during the last call of render()\n\t\t// at this point, all sides of the cube render target are defined\n\n\t\trenderTarget.texture.generateMipmaps = generateMipmaps;\n\n\t\trenderer.setRenderTarget( renderTarget, 5, activeMipmapLevel );\n\t\trenderer.render( scene, cameraNZ );\n\n\t\trenderer.setRenderTarget( currentRenderTarget, currentActiveCubeFace, currentActiveMipmapLevel );\n\n\t\trenderer.xr.enabled = currentXrEnabled;\n\n\t\trenderTarget.texture.needsPMREMUpdate = true;\n\n\t}\n\n}\n\n/**\n * Creates a cube texture made up of six images.\n *\n * ```js\n * const loader = new THREE.CubeTextureLoader();\n * loader.setPath( 'textures/cube/pisa/' );\n *\n * const textureCube = loader.load( [\n * \t'px.png', 'nx.png', 'py.png', 'ny.png', 'pz.png', 'nz.png'\n * ] );\n *\n * const material = new THREE.MeshBasicMaterial( { color: 0xffffff, envMap: textureCube } );\n * ```\n *\n * @augments Texture\n */\nclass CubeTexture extends Texture {\n\n\t/**\n\t * Constructs a new cube texture.\n\t *\n\t * @param {Array} [images=[]] - An array holding a image for each side of a cube.\n\t * @param {number} [mapping=CubeReflectionMapping] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space value.\n\t */\n\tconstructor( images = [], mapping = CubeReflectionMapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace ) {\n\n\t\tsuper( images, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubeTexture = true;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t}\n\n\t/**\n\t * Alias for {@link CubeTexture#image}.\n\t *\n\t * @type {Array}\n\t */\n\tget images() {\n\n\t\treturn this.image;\n\n\t}\n\n\tset images( value ) {\n\n\t\tthis.image = value;\n\n\t}\n\n}\n\n/**\n * A cube render target used in context of {@link WebGLRenderer}.\n *\n * @augments WebGLRenderTarget\n */\nclass WebGLCubeRenderTarget extends WebGLRenderTarget {\n\n\t/**\n\t * Constructs a new cube render target.\n\t *\n\t * @param {number} [size=1] - The size of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( size = 1, options = {} ) {\n\n\t\tsuper( size, size, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGLCubeRenderTarget = true;\n\n\t\tconst image = { width: size, height: size, depth: 1 };\n\t\tconst images = [ image, image, image, image, image, image ];\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {DataArrayTexture}\n\t\t */\n\t\tthis.texture = new CubeTexture( images );\n\t\tthis._setTextureOptions( options );\n\n\t\t// By convention -- likely based on the RenderMan spec from the 1990's -- cube maps are specified by WebGL (and three.js)\n\t\t// in a coordinate system in which positive-x is to the right when looking up the positive-z axis -- in other words,\n\t\t// in a left-handed coordinate system. By continuing this convention, preexisting cube maps continued to render correctly.\n\n\t\t// three.js uses a right-handed coordinate system. So environment maps used in three.js appear to have px and nx swapped\n\t\t// and the flag isRenderTargetTexture controls this conversion. The flip is not required when using WebGLCubeRenderTarget.texture\n\t\t// as a cube texture (this is detected when isRenderTargetTexture is set to true for cube textures).\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n\t/**\n\t * Converts the given equirectangular texture to a cube map.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {Texture} texture - The equirectangular texture.\n\t * @return {WebGLCubeRenderTarget} A reference to this cube render target.\n\t */\n\tfromEquirectangularTexture( renderer, texture ) {\n\n\t\tthis.texture.type = texture.type;\n\t\tthis.texture.colorSpace = texture.colorSpace;\n\n\t\tthis.texture.generateMipmaps = texture.generateMipmaps;\n\t\tthis.texture.minFilter = texture.minFilter;\n\t\tthis.texture.magFilter = texture.magFilter;\n\n\t\tconst shader = {\n\n\t\t\tuniforms: {\n\t\t\t\ttEquirect: { value: null },\n\t\t\t},\n\n\t\t\tvertexShader: /* glsl */`\n\n\t\t\t\tvarying vec3 vWorldDirection;\n\n\t\t\t\tvec3 transformDirection( in vec3 dir, in mat4 matrix ) {\n\n\t\t\t\t\treturn normalize( ( matrix * vec4( dir, 0.0 ) ).xyz );\n\n\t\t\t\t}\n\n\t\t\t\tvoid main() {\n\n\t\t\t\t\tvWorldDirection = transformDirection( position, modelMatrix );\n\n\t\t\t\t\t#include \n\t\t\t\t\t#include \n\n\t\t\t\t}\n\t\t\t`,\n\n\t\t\tfragmentShader: /* glsl */`\n\n\t\t\t\tuniform sampler2D tEquirect;\n\n\t\t\t\tvarying vec3 vWorldDirection;\n\n\t\t\t\t#include \n\n\t\t\t\tvoid main() {\n\n\t\t\t\t\tvec3 direction = normalize( vWorldDirection );\n\n\t\t\t\t\tvec2 sampleUV = equirectUv( direction );\n\n\t\t\t\t\tgl_FragColor = texture2D( tEquirect, sampleUV );\n\n\t\t\t\t}\n\t\t\t`\n\t\t};\n\n\t\tconst geometry = new BoxGeometry( 5, 5, 5 );\n\n\t\tconst material = new ShaderMaterial( {\n\n\t\t\tname: 'CubemapFromEquirect',\n\n\t\t\tuniforms: cloneUniforms( shader.uniforms ),\n\t\t\tvertexShader: shader.vertexShader,\n\t\t\tfragmentShader: shader.fragmentShader,\n\t\t\tside: BackSide,\n\t\t\tblending: NoBlending\n\n\t\t} );\n\n\t\tmaterial.uniforms.tEquirect.value = texture;\n\n\t\tconst mesh = new Mesh( geometry, material );\n\n\t\tconst currentMinFilter = texture.minFilter;\n\n\t\t// Avoid blurred poles\n\t\tif ( texture.minFilter === LinearMipmapLinearFilter ) texture.minFilter = LinearFilter;\n\n\t\tconst camera = new CubeCamera( 1, 10, this );\n\t\tcamera.update( renderer, mesh );\n\n\t\ttexture.minFilter = currentMinFilter;\n\n\t\tmesh.geometry.dispose();\n\t\tmesh.material.dispose();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Clears this cube render target.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {boolean} [color=true] - Whether the color buffer should be cleared or not.\n\t * @param {boolean} [depth=true] - Whether the depth buffer should be cleared or not.\n\t * @param {boolean} [stencil=true] - Whether the stencil buffer should be cleared or not.\n\t */\n\tclear( renderer, color = true, depth = true, stencil = true ) {\n\n\t\tconst currentRenderTarget = renderer.getRenderTarget();\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\trenderer.setRenderTarget( this, i );\n\n\t\t\trenderer.clear( color, depth, stencil );\n\n\t\t}\n\n\t\trenderer.setRenderTarget( currentRenderTarget );\n\n\t}\n\n}\n\n/**\n * This is almost identical to an {@link Object3D}. Its purpose is to\n * make working with groups of objects syntactically clearer.\n *\n * ```js\n * // Create a group and add the two cubes.\n * // These cubes can now be rotated / scaled etc as a group.\n * const group = new THREE.Group();\n *\n * group.add( meshA );\n * group.add( meshB );\n *\n * scene.add( group );\n * ```\n *\n * @augments Object3D\n */\nclass Group extends Object3D {\n\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isGroup = true;\n\n\t\tthis.type = 'Group';\n\n\t}\n\n}\n\nconst _moveEvent = { type: 'move' };\n\n/**\n * Class for representing a XR controller with its\n * different coordinate systems.\n *\n * @private\n */\nclass WebXRController {\n\n\t/**\n\t * Constructs a new XR controller.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * A group representing the target ray space\n\t\t * of the XR controller.\n\t\t *\n\t\t * @private\n\t\t * @type {?Group}\n\t\t * @default null\n\t\t */\n\t\tthis._targetRay = null;\n\n\t\t/**\n\t\t * A group representing the grip space\n\t\t * of the XR controller.\n\t\t *\n\t\t * @private\n\t\t * @type {?Group}\n\t\t * @default null\n\t\t */\n\t\tthis._grip = null;\n\n\t\t/**\n\t\t * A group representing the hand space\n\t\t * of the XR controller.\n\t\t *\n\t\t * @private\n\t\t * @type {?Group}\n\t\t * @default null\n\t\t */\n\t\tthis._hand = null;\n\n\t}\n\n\t/**\n\t * Returns a group representing the hand space of the XR controller.\n\t *\n\t * @return {Group} A group representing the hand space of the XR controller.\n\t */\n\tgetHandSpace() {\n\n\t\tif ( this._hand === null ) {\n\n\t\t\tthis._hand = new Group();\n\t\t\tthis._hand.matrixAutoUpdate = false;\n\t\t\tthis._hand.visible = false;\n\n\t\t\tthis._hand.joints = {};\n\t\t\tthis._hand.inputState = { pinching: false };\n\n\t\t}\n\n\t\treturn this._hand;\n\n\t}\n\n\t/**\n\t * Returns a group representing the target ray space of the XR controller.\n\t *\n\t * @return {Group} A group representing the target ray space of the XR controller.\n\t */\n\tgetTargetRaySpace() {\n\n\t\tif ( this._targetRay === null ) {\n\n\t\t\tthis._targetRay = new Group();\n\t\t\tthis._targetRay.matrixAutoUpdate = false;\n\t\t\tthis._targetRay.visible = false;\n\t\t\tthis._targetRay.hasLinearVelocity = false;\n\t\t\tthis._targetRay.linearVelocity = new Vector3();\n\t\t\tthis._targetRay.hasAngularVelocity = false;\n\t\t\tthis._targetRay.angularVelocity = new Vector3();\n\n\t\t}\n\n\t\treturn this._targetRay;\n\n\t}\n\n\t/**\n\t * Returns a group representing the grip space of the XR controller.\n\t *\n\t * @return {Group} A group representing the grip space of the XR controller.\n\t */\n\tgetGripSpace() {\n\n\t\tif ( this._grip === null ) {\n\n\t\t\tthis._grip = new Group();\n\t\t\tthis._grip.matrixAutoUpdate = false;\n\t\t\tthis._grip.visible = false;\n\t\t\tthis._grip.hasLinearVelocity = false;\n\t\t\tthis._grip.linearVelocity = new Vector3();\n\t\t\tthis._grip.hasAngularVelocity = false;\n\t\t\tthis._grip.angularVelocity = new Vector3();\n\n\t\t}\n\n\t\treturn this._grip;\n\n\t}\n\n\t/**\n\t * Dispatches the given event to the groups representing\n\t * the different coordinate spaces of the XR controller.\n\t *\n\t * @param {Object} event - The event to dispatch.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tdispatchEvent( event ) {\n\n\t\tif ( this._targetRay !== null ) {\n\n\t\t\tthis._targetRay.dispatchEvent( event );\n\n\t\t}\n\n\t\tif ( this._grip !== null ) {\n\n\t\t\tthis._grip.dispatchEvent( event );\n\n\t\t}\n\n\t\tif ( this._hand !== null ) {\n\n\t\t\tthis._hand.dispatchEvent( event );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Connects the controller with the given XR input source.\n\t *\n\t * @param {XRInputSource} inputSource - The input source.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tconnect( inputSource ) {\n\n\t\tif ( inputSource && inputSource.hand ) {\n\n\t\t\tconst hand = this._hand;\n\n\t\t\tif ( hand ) {\n\n\t\t\t\tfor ( const inputjoint of inputSource.hand.values() ) {\n\n\t\t\t\t\t// Initialize hand with joints when connected\n\t\t\t\t\tthis._getHandJoint( hand, inputjoint );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.dispatchEvent( { type: 'connected', data: inputSource } );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Disconnects the controller from the given XR input source.\n\t *\n\t * @param {XRInputSource} inputSource - The input source.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tdisconnect( inputSource ) {\n\n\t\tthis.dispatchEvent( { type: 'disconnected', data: inputSource } );\n\n\t\tif ( this._targetRay !== null ) {\n\n\t\t\tthis._targetRay.visible = false;\n\n\t\t}\n\n\t\tif ( this._grip !== null ) {\n\n\t\t\tthis._grip.visible = false;\n\n\t\t}\n\n\t\tif ( this._hand !== null ) {\n\n\t\t\tthis._hand.visible = false;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Updates the controller with the given input source, XR frame and reference space.\n\t * This updates the transformations of the groups that represent the different\n\t * coordinate systems of the controller.\n\t *\n\t * @param {XRInputSource} inputSource - The input source.\n\t * @param {XRFrame} frame - The XR frame.\n\t * @param {XRReferenceSpace} referenceSpace - The reference space.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tupdate( inputSource, frame, referenceSpace ) {\n\n\t\tlet inputPose = null;\n\t\tlet gripPose = null;\n\t\tlet handPose = null;\n\n\t\tconst targetRay = this._targetRay;\n\t\tconst grip = this._grip;\n\t\tconst hand = this._hand;\n\n\t\tif ( inputSource && frame.session.visibilityState !== 'visible-blurred' ) {\n\n\t\t\tif ( hand && inputSource.hand ) {\n\n\t\t\t\thandPose = true;\n\n\t\t\t\tfor ( const inputjoint of inputSource.hand.values() ) {\n\n\t\t\t\t\t// Update the joints groups with the XRJoint poses\n\t\t\t\t\tconst jointPose = frame.getJointPose( inputjoint, referenceSpace );\n\n\t\t\t\t\t// The transform of this joint will be updated with the joint pose on each frame\n\t\t\t\t\tconst joint = this._getHandJoint( hand, inputjoint );\n\n\t\t\t\t\tif ( jointPose !== null ) {\n\n\t\t\t\t\t\tjoint.matrix.fromArray( jointPose.transform.matrix );\n\t\t\t\t\t\tjoint.matrix.decompose( joint.position, joint.rotation, joint.scale );\n\t\t\t\t\t\tjoint.matrixWorldNeedsUpdate = true;\n\t\t\t\t\t\tjoint.jointRadius = jointPose.radius;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tjoint.visible = jointPose !== null;\n\n\t\t\t\t}\n\n\t\t\t\t// Custom events\n\n\t\t\t\t// Check pinchz\n\t\t\t\tconst indexTip = hand.joints[ 'index-finger-tip' ];\n\t\t\t\tconst thumbTip = hand.joints[ 'thumb-tip' ];\n\t\t\t\tconst distance = indexTip.position.distanceTo( thumbTip.position );\n\n\t\t\t\tconst distanceToPinch = 0.02;\n\t\t\t\tconst threshold = 0.005;\n\n\t\t\t\tif ( hand.inputState.pinching && distance > distanceToPinch + threshold ) {\n\n\t\t\t\t\thand.inputState.pinching = false;\n\t\t\t\t\tthis.dispatchEvent( {\n\t\t\t\t\t\ttype: 'pinchend',\n\t\t\t\t\t\thandedness: inputSource.handedness,\n\t\t\t\t\t\ttarget: this\n\t\t\t\t\t} );\n\n\t\t\t\t} else if ( ! hand.inputState.pinching && distance <= distanceToPinch - threshold ) {\n\n\t\t\t\t\thand.inputState.pinching = true;\n\t\t\t\t\tthis.dispatchEvent( {\n\t\t\t\t\t\ttype: 'pinchstart',\n\t\t\t\t\t\thandedness: inputSource.handedness,\n\t\t\t\t\t\ttarget: this\n\t\t\t\t\t} );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tif ( grip !== null && inputSource.gripSpace ) {\n\n\t\t\t\t\tgripPose = frame.getPose( inputSource.gripSpace, referenceSpace );\n\n\t\t\t\t\tif ( gripPose !== null ) {\n\n\t\t\t\t\t\tgrip.matrix.fromArray( gripPose.transform.matrix );\n\t\t\t\t\t\tgrip.matrix.decompose( grip.position, grip.rotation, grip.scale );\n\t\t\t\t\t\tgrip.matrixWorldNeedsUpdate = true;\n\n\t\t\t\t\t\tif ( gripPose.linearVelocity ) {\n\n\t\t\t\t\t\t\tgrip.hasLinearVelocity = true;\n\t\t\t\t\t\t\tgrip.linearVelocity.copy( gripPose.linearVelocity );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tgrip.hasLinearVelocity = false;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tif ( gripPose.angularVelocity ) {\n\n\t\t\t\t\t\t\tgrip.hasAngularVelocity = true;\n\t\t\t\t\t\t\tgrip.angularVelocity.copy( gripPose.angularVelocity );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tgrip.hasAngularVelocity = false;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( targetRay !== null ) {\n\n\t\t\t\tinputPose = frame.getPose( inputSource.targetRaySpace, referenceSpace );\n\n\t\t\t\t// Some runtimes (namely Vive Cosmos with Vive OpenXR Runtime) have only grip space and ray space is equal to it\n\t\t\t\tif ( inputPose === null && gripPose !== null ) {\n\n\t\t\t\t\tinputPose = gripPose;\n\n\t\t\t\t}\n\n\t\t\t\tif ( inputPose !== null ) {\n\n\t\t\t\t\ttargetRay.matrix.fromArray( inputPose.transform.matrix );\n\t\t\t\t\ttargetRay.matrix.decompose( targetRay.position, targetRay.rotation, targetRay.scale );\n\t\t\t\t\ttargetRay.matrixWorldNeedsUpdate = true;\n\n\t\t\t\t\tif ( inputPose.linearVelocity ) {\n\n\t\t\t\t\t\ttargetRay.hasLinearVelocity = true;\n\t\t\t\t\t\ttargetRay.linearVelocity.copy( inputPose.linearVelocity );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ttargetRay.hasLinearVelocity = false;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( inputPose.angularVelocity ) {\n\n\t\t\t\t\t\ttargetRay.hasAngularVelocity = true;\n\t\t\t\t\t\ttargetRay.angularVelocity.copy( inputPose.angularVelocity );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ttargetRay.hasAngularVelocity = false;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tthis.dispatchEvent( _moveEvent );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\n\t\t}\n\n\t\tif ( targetRay !== null ) {\n\n\t\t\ttargetRay.visible = ( inputPose !== null );\n\n\t\t}\n\n\t\tif ( grip !== null ) {\n\n\t\t\tgrip.visible = ( gripPose !== null );\n\n\t\t}\n\n\t\tif ( hand !== null ) {\n\n\t\t\thand.visible = ( handPose !== null );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a group representing the hand joint for the given input joint.\n\t *\n\t * @private\n\t * @param {Group} hand - The group representing the hand space.\n\t * @param {XRJointSpace} inputjoint - The hand joint data.\n\t * @return {Group} A group representing the hand joint for the given input joint.\n\t */\n\t_getHandJoint( hand, inputjoint ) {\n\n\t\tif ( hand.joints[ inputjoint.jointName ] === undefined ) {\n\n\t\t\tconst joint = new Group();\n\t\t\tjoint.matrixAutoUpdate = false;\n\t\t\tjoint.visible = false;\n\t\t\thand.joints[ inputjoint.jointName ] = joint;\n\n\t\t\thand.add( joint );\n\n\t\t}\n\n\t\treturn hand.joints[ inputjoint.jointName ];\n\n\t}\n\n}\n\n/**\n * This class can be used to define an exponential squared fog,\n * which gives a clear view near the camera and a faster than exponentially\n * densening fog farther from the camera.\n *\n * ```js\n * const scene = new THREE.Scene();\n * scene.fog = new THREE.FogExp2( 0xcccccc, 0.002 );\n * ```\n */\nclass FogExp2 {\n\n\t/**\n\t * Constructs a new fog.\n\t *\n\t * @param {number|Color} color - The fog's color.\n\t * @param {number} [density=0.00025] - Defines how fast the fog will grow dense.\n\t */\n\tconstructor( color, density = 0.00025 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isFogExp2 = true;\n\n\t\t/**\n\t\t * The name of the fog.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The fog's color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color( color );\n\n\t\t/**\n\t\t * Defines how fast the fog will grow dense.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.00025\n\t\t */\n\t\tthis.density = density;\n\n\t}\n\n\t/**\n\t * Returns a new fog with copied values from this instance.\n\t *\n\t * @return {FogExp2} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new FogExp2( this.color, this.density );\n\n\t}\n\n\t/**\n\t * Serializes the fog into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized fog\n\t */\n\ttoJSON( /* meta */ ) {\n\n\t\treturn {\n\t\t\ttype: 'FogExp2',\n\t\t\tname: this.name,\n\t\t\tcolor: this.color.getHex(),\n\t\t\tdensity: this.density\n\t\t};\n\n\t}\n\n}\n\n/**\n * This class can be used to define a linear fog that grows linearly denser\n * with the distance.\n *\n * ```js\n * const scene = new THREE.Scene();\n * scene.fog = new THREE.Fog( 0xcccccc, 10, 15 );\n * ```\n */\nclass Fog {\n\n\t/**\n\t * Constructs a new fog.\n\t *\n\t * @param {number|Color} color - The fog's color.\n\t * @param {number} [near=1] - The minimum distance to start applying fog.\n\t * @param {number} [far=1000] - The maximum distance at which fog stops being calculated and applied.\n\t */\n\tconstructor( color, near = 1, far = 1000 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isFog = true;\n\n\t\t/**\n\t\t * The name of the fog.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The fog's color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color( color );\n\n\t\t/**\n\t\t * The minimum distance to start applying fog. Objects that are less than\n\t\t * `near` units from the active camera won't be affected by fog.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * The maximum distance at which fog stops being calculated and applied.\n\t\t * Objects that are more than `far` units away from the active camera won't\n\t\t * be affected by fog.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1000\n\t\t */\n\t\tthis.far = far;\n\n\t}\n\n\t/**\n\t * Returns a new fog with copied values from this instance.\n\t *\n\t * @return {Fog} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Fog( this.color, this.near, this.far );\n\n\t}\n\n\t/**\n\t * Serializes the fog into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized fog\n\t */\n\ttoJSON( /* meta */ ) {\n\n\t\treturn {\n\t\t\ttype: 'Fog',\n\t\t\tname: this.name,\n\t\t\tcolor: this.color.getHex(),\n\t\t\tnear: this.near,\n\t\t\tfar: this.far\n\t\t};\n\n\t}\n\n}\n\n/**\n * Scenes allow you to set up what is to be rendered and where by three.js.\n * This is where you place 3D objects like meshes, lines or lights.\n *\n * @augments Object3D\n */\nclass Scene extends Object3D {\n\n\t/**\n\t * Constructs a new scene.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isScene = true;\n\n\t\tthis.type = 'Scene';\n\n\t\t/**\n\t\t * Defines the background of the scene. Valid inputs are:\n\t\t *\n\t\t * - A color for defining a uniform colored background.\n\t\t * - A texture for defining a (flat) textured background.\n\t\t * - Cube textures or equirectangular textures for defining a skybox.\n\t\t *\n\t\t * @type {?(Color|Texture)}\n\t\t * @default null\n\t\t */\n\t\tthis.background = null;\n\n\t\t/**\n\t\t * Sets the environment map for all physical materials in the scene. However,\n\t\t * it's not possible to overwrite an existing texture assigned to the `envMap`\n\t\t * material property.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.environment = null;\n\n\t\t/**\n\t\t * A fog instance defining the type of fog that affects everything\n\t\t * rendered in the scene.\n\t\t *\n\t\t * @type {?(Fog|FogExp2)}\n\t\t * @default null\n\t\t */\n\t\tthis.fog = null;\n\n\t\t/**\n\t\t * Sets the blurriness of the background. Only influences environment maps\n\t\t * assigned to {@link Scene#background}. Valid input is a float between `0`\n\t\t * and `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.backgroundBlurriness = 0;\n\n\t\t/**\n\t\t * Attenuates the color of the background. Only applies to background textures.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.backgroundIntensity = 1;\n\n\t\t/**\n\t\t * The rotation of the background in radians. Only influences environment maps\n\t\t * assigned to {@link Scene#background}.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.backgroundRotation = new Euler();\n\n\t\t/**\n\t\t * Attenuates the color of the environment. Only influences environment maps\n\t\t * assigned to {@link Scene#environment}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.environmentIntensity = 1;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians. Only influences physical materials\n\t\t * in the scene when {@link Scene#environment} is used.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.environmentRotation = new Euler();\n\n\t\t/**\n\t\t * Forces everything in the scene to be rendered with the defined material. It is possible\n\t\t * to exclude materials from override by setting {@link Material#allowOverride} to `false`.\n\t\t *\n\t\t * @type {?Material}\n\t\t * @default null\n\t\t */\n\t\tthis.overrideMaterial = null;\n\n\t\tif ( typeof __THREE_DEVTOOLS__ !== 'undefined' ) {\n\n\t\t\t__THREE_DEVTOOLS__.dispatchEvent( new CustomEvent( 'observe', { detail: this } ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.background !== null ) this.background = source.background.clone();\n\t\tif ( source.environment !== null ) this.environment = source.environment.clone();\n\t\tif ( source.fog !== null ) this.fog = source.fog.clone();\n\n\t\tthis.backgroundBlurriness = source.backgroundBlurriness;\n\t\tthis.backgroundIntensity = source.backgroundIntensity;\n\t\tthis.backgroundRotation.copy( source.backgroundRotation );\n\n\t\tthis.environmentIntensity = source.environmentIntensity;\n\t\tthis.environmentRotation.copy( source.environmentRotation );\n\n\t\tif ( source.overrideMaterial !== null ) this.overrideMaterial = source.overrideMaterial.clone();\n\n\t\tthis.matrixAutoUpdate = source.matrixAutoUpdate;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tif ( this.fog !== null ) data.object.fog = this.fog.toJSON();\n\n\t\tif ( this.backgroundBlurriness > 0 ) data.object.backgroundBlurriness = this.backgroundBlurriness;\n\t\tif ( this.backgroundIntensity !== 1 ) data.object.backgroundIntensity = this.backgroundIntensity;\n\t\tdata.object.backgroundRotation = this.backgroundRotation.toArray();\n\n\t\tif ( this.environmentIntensity !== 1 ) data.object.environmentIntensity = this.environmentIntensity;\n\t\tdata.object.environmentRotation = this.environmentRotation.toArray();\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * \"Interleaved\" means that multiple attributes, possibly of different types,\n * (e.g., position, normal, uv, color) are packed into a single array buffer.\n *\n * An introduction into interleaved arrays can be found here: [Interleaved array basics]{@link https://blog.tojicode.com/2011/05/interleaved-array-basics.html}\n */\nclass InterleavedBuffer {\n\n\t/**\n\t * Constructs a new interleaved buffer.\n\t *\n\t * @param {TypedArray} array - A typed array with a shared buffer storing attribute data.\n\t * @param {number} stride - The number of typed-array elements per vertex.\n\t */\n\tconstructor( array, stride ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInterleavedBuffer = true;\n\n\t\t/**\n\t\t * A typed array with a shared buffer storing attribute data.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.array = array;\n\n\t\t/**\n\t\t * The number of typed-array elements per vertex.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.stride = stride;\n\n\t\t/**\n\t\t * The total number of elements in the array\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tthis.count = array !== undefined ? array.length / stride : 0;\n\n\t\t/**\n\t\t * Defines the intended usage pattern of the data store for optimization purposes.\n\t\t *\n\t\t * Note: After the initial use of a buffer, its usage cannot be changed. Instead,\n\t\t * instantiate a new one and set the desired usage before the next render.\n\t\t *\n\t\t * @type {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)}\n\t\t * @default StaticDrawUsage\n\t\t */\n\t\tthis.usage = StaticDrawUsage;\n\n\t\t/**\n\t\t * This can be used to only update some components of stored vectors (for example, just the\n\t\t * component related to color). Use the `addUpdateRange()` function to add ranges to this array.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.updateRanges = [];\n\n\t\t/**\n\t\t * A version number, incremented every time the `needsUpdate` is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.version = 0;\n\n\t\t/**\n\t\t * The UUID of the interleaved buffer.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t}\n\n\t/**\n\t * A callback function that is executed after the renderer has transferred the attribute array\n\t * data to the GPU.\n\t */\n\tonUploadCallback() {}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Sets the usage of this interleaved buffer.\n\t *\n\t * @param {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)} value - The usage to set.\n\t * @return {InterleavedBuffer} A reference to this interleaved buffer.\n\t */\n\tsetUsage( value ) {\n\n\t\tthis.usage = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds a range of data in the data array to be updated on the GPU.\n\t *\n\t * @param {number} start - Position at which to start update.\n\t * @param {number} count - The number of components to update.\n\t */\n\taddUpdateRange( start, count ) {\n\n\t\tthis.updateRanges.push( { start, count } );\n\n\t}\n\n\t/**\n\t * Clears the update ranges.\n\t */\n\tclearUpdateRanges() {\n\n\t\tthis.updateRanges.length = 0;\n\n\t}\n\n\t/**\n\t * Copies the values of the given interleaved buffer to this instance.\n\t *\n\t * @param {InterleavedBuffer} source - The interleaved buffer to copy.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.array = new source.array.constructor( source.array );\n\t\tthis.count = source.count;\n\t\tthis.stride = source.stride;\n\t\tthis.usage = source.usage;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies a vector from the given interleaved buffer to this one. The start\n\t * and destination position in the attribute buffers are represented by the\n\t * given indices.\n\t *\n\t * @param {number} index1 - The destination index into this interleaved buffer.\n\t * @param {InterleavedBuffer} interleavedBuffer - The interleaved buffer to copy from.\n\t * @param {number} index2 - The source index into the given interleaved buffer.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tcopyAt( index1, interleavedBuffer, index2 ) {\n\n\t\tindex1 *= this.stride;\n\t\tindex2 *= interleavedBuffer.stride;\n\n\t\tfor ( let i = 0, l = this.stride; i < l; i ++ ) {\n\n\t\t\tthis.array[ index1 + i ] = interleavedBuffer.array[ index2 + i ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given array data in the interleaved buffer.\n\t *\n\t * @param {(TypedArray|Array)} value - The array data to set.\n\t * @param {number} [offset=0] - The offset in this interleaved buffer's array.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tset( value, offset = 0 ) {\n\n\t\tthis.array.set( value, offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new interleaved buffer with copied values from this instance.\n\t *\n\t * @param {Object} [data] - An object with shared array buffers that allows to retain shared structures.\n\t * @return {InterleavedBuffer} A clone of this instance.\n\t */\n\tclone( data ) {\n\n\t\tif ( data.arrayBuffers === undefined ) {\n\n\t\t\tdata.arrayBuffers = {};\n\n\t\t}\n\n\t\tif ( this.array.buffer._uuid === undefined ) {\n\n\t\t\tthis.array.buffer._uuid = generateUUID();\n\n\t\t}\n\n\t\tif ( data.arrayBuffers[ this.array.buffer._uuid ] === undefined ) {\n\n\t\t\tdata.arrayBuffers[ this.array.buffer._uuid ] = this.array.slice( 0 ).buffer;\n\n\t\t}\n\n\t\tconst array = new this.array.constructor( data.arrayBuffers[ this.array.buffer._uuid ] );\n\n\t\tconst ib = new this.constructor( array, this.stride );\n\t\tib.setUsage( this.usage );\n\n\t\treturn ib;\n\n\t}\n\n\t/**\n\t * Sets the given callback function that is executed after the Renderer has transferred\n\t * the array data to the GPU. Can be used to perform clean-up operations after\n\t * the upload when data are not needed anymore on the CPU side.\n\t *\n\t * @param {Function} callback - The `onUpload()` callback.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tonUpload( callback ) {\n\n\t\tthis.onUploadCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Serializes the interleaved buffer into JSON.\n\t *\n\t * @param {Object} [data] - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized interleaved buffer.\n\t */\n\ttoJSON( data ) {\n\n\t\tif ( data.arrayBuffers === undefined ) {\n\n\t\t\tdata.arrayBuffers = {};\n\n\t\t}\n\n\t\t// generate UUID for array buffer if necessary\n\n\t\tif ( this.array.buffer._uuid === undefined ) {\n\n\t\t\tthis.array.buffer._uuid = generateUUID();\n\n\t\t}\n\n\t\tif ( data.arrayBuffers[ this.array.buffer._uuid ] === undefined ) {\n\n\t\t\tdata.arrayBuffers[ this.array.buffer._uuid ] = Array.from( new Uint32Array( this.array.buffer ) );\n\n\t\t}\n\n\t\t//\n\n\t\treturn {\n\t\t\tuuid: this.uuid,\n\t\t\tbuffer: this.array.buffer._uuid,\n\t\t\ttype: this.array.constructor.name,\n\t\t\tstride: this.stride\n\t\t};\n\n\t}\n\n}\n\nconst _vector$7 = /*@__PURE__*/ new Vector3();\n\n/**\n * An alternative version of a buffer attribute with interleaved data. Interleaved\n * attributes share a common interleaved data storage ({@link InterleavedBuffer}) and refer with\n * different offsets into the buffer.\n */\nclass InterleavedBufferAttribute {\n\n\t/**\n\t * Constructs a new interleaved buffer attribute.\n\t *\n\t * @param {InterleavedBuffer} interleavedBuffer - The buffer holding the interleaved data.\n\t * @param {number} itemSize - The item size.\n\t * @param {number} offset - The attribute offset into the buffer.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( interleavedBuffer, itemSize, offset, normalized = false ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInterleavedBufferAttribute = true;\n\n\t\t/**\n\t\t * The name of the buffer attribute.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The buffer holding the interleaved data.\n\t\t *\n\t\t * @type {InterleavedBuffer}\n\t\t */\n\t\tthis.data = interleavedBuffer;\n\n\t\t/**\n\t\t * The item size, see {@link BufferAttribute#itemSize}.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.itemSize = itemSize;\n\n\t\t/**\n\t\t * The attribute offset into the buffer.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.offset = offset;\n\n\t\t/**\n\t\t * Whether the data are normalized or not, see {@link BufferAttribute#normalized}\n\t\t *\n\t\t * @type {InterleavedBuffer}\n\t\t */\n\t\tthis.normalized = normalized;\n\n\t}\n\n\t/**\n\t * The item count of this buffer attribute.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget count() {\n\n\t\treturn this.data.count;\n\n\t}\n\n\t/**\n\t * The array holding the interleaved buffer attribute data.\n\t *\n\t * @type {TypedArray}\n\t */\n\tget array() {\n\n\t\treturn this.data.array;\n\n\t}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tthis.data.needsUpdate = value;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tfor ( let i = 0, l = this.data.count; i < l; i ++ ) {\n\n\t\t\t_vector$7.fromBufferAttribute( this, i );\n\n\t\t\t_vector$7.applyMatrix4( m );\n\n\t\t\tthis.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 3x3 normal matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix3} m - The normal matrix to apply.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tapplyNormalMatrix( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$7.fromBufferAttribute( this, i );\n\n\t\t\t_vector$7.applyNormalMatrix( m );\n\n\t\t\tthis.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3` and with direction vectors.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\ttransformDirection( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$7.fromBufferAttribute( this, i );\n\n\t\t\t_vector$7.transformDirection( m );\n\n\t\t\tthis.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @return {number} The returned value.\n\t */\n\tgetComponent( index, component ) {\n\n\t\tlet value = this.array[ index * this.data.stride + this.offset + component ];\n\n\t\tif ( this.normalized ) value = denormalize( value, this.array );\n\n\t\treturn value;\n\n\t}\n\n\t/**\n\t * Sets the given value to the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @param {number} value - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetComponent( index, component, value ) {\n\n\t\tif ( this.normalized ) value = normalize( value, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + component ] = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetX( index, x ) {\n\n\t\tif ( this.normalized ) x = normalize( x, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset ] = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} y - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetY( index, y ) {\n\n\t\tif ( this.normalized ) y = normalize( y, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} z - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetZ( index, z ) {\n\n\t\tif ( this.normalized ) z = normalize( z, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} w - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetW( index, w ) {\n\n\t\tif ( this.normalized ) w = normalize( w, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The x component.\n\t */\n\tgetX( index ) {\n\n\t\tlet x = this.data.array[ index * this.data.stride + this.offset ];\n\n\t\tif ( this.normalized ) x = denormalize( x, this.array );\n\n\t\treturn x;\n\n\t}\n\n\t/**\n\t * Returns the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The y component.\n\t */\n\tgetY( index ) {\n\n\t\tlet y = this.data.array[ index * this.data.stride + this.offset + 1 ];\n\n\t\tif ( this.normalized ) y = denormalize( y, this.array );\n\n\t\treturn y;\n\n\t}\n\n\t/**\n\t * Returns the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The z component.\n\t */\n\tgetZ( index ) {\n\n\t\tlet z = this.data.array[ index * this.data.stride + this.offset + 2 ];\n\n\t\tif ( this.normalized ) z = denormalize( z, this.array );\n\n\t\treturn z;\n\n\t}\n\n\t/**\n\t * Returns the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The w component.\n\t */\n\tgetW( index ) {\n\n\t\tlet w = this.data.array[ index * this.data.stride + this.offset + 3 ];\n\n\t\tif ( this.normalized ) w = denormalize( w, this.array );\n\n\t\treturn w;\n\n\t}\n\n\t/**\n\t * Sets the x and y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetXY( index, x, y ) {\n\n\t\tindex = index * this.data.stride + this.offset;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\n\t\t}\n\n\t\tthis.data.array[ index + 0 ] = x;\n\t\tthis.data.array[ index + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y and z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetXYZ( index, x, y, z ) {\n\n\t\tindex = index * this.data.stride + this.offset;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\n\t\t}\n\n\t\tthis.data.array[ index + 0 ] = x;\n\t\tthis.data.array[ index + 1 ] = y;\n\t\tthis.data.array[ index + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y, z and w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @param {number} w - The value for the w component to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetXYZW( index, x, y, z, w ) {\n\n\t\tindex = index * this.data.stride + this.offset;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\t\t\tw = normalize( w, this.array );\n\n\t\t}\n\n\t\tthis.data.array[ index + 0 ] = x;\n\t\tthis.data.array[ index + 1 ] = y;\n\t\tthis.data.array[ index + 2 ] = z;\n\t\tthis.data.array[ index + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new buffer attribute with copied values from this instance.\n\t *\n\t * If no parameter is provided, cloning an interleaved buffer attribute will de-interleave buffer data.\n\t *\n\t * @param {Object} [data] - An object with interleaved buffers that allows to retain the interleaved property.\n\t * @return {BufferAttribute|InterleavedBufferAttribute} A clone of this instance.\n\t */\n\tclone( data ) {\n\n\t\tif ( data === undefined ) {\n\n\t\t\tconsole.log( 'THREE.InterleavedBufferAttribute.clone(): Cloning an interleaved buffer attribute will de-interleave buffer data.' );\n\n\t\t\tconst array = [];\n\n\t\t\tfor ( let i = 0; i < this.count; i ++ ) {\n\n\t\t\t\tconst index = i * this.data.stride + this.offset;\n\n\t\t\t\tfor ( let j = 0; j < this.itemSize; j ++ ) {\n\n\t\t\t\t\tarray.push( this.data.array[ index + j ] );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn new BufferAttribute( new this.array.constructor( array ), this.itemSize, this.normalized );\n\n\t\t} else {\n\n\t\t\tif ( data.interleavedBuffers === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers = {};\n\n\t\t\t}\n\n\t\t\tif ( data.interleavedBuffers[ this.data.uuid ] === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers[ this.data.uuid ] = this.data.clone( data );\n\n\t\t\t}\n\n\t\t\treturn new InterleavedBufferAttribute( data.interleavedBuffers[ this.data.uuid ], this.itemSize, this.offset, this.normalized );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the buffer attribute into JSON.\n\t *\n\t * If no parameter is provided, cloning an interleaved buffer attribute will de-interleave buffer data.\n\t *\n\t * @param {Object} [data] - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized buffer attribute.\n\t */\n\ttoJSON( data ) {\n\n\t\tif ( data === undefined ) {\n\n\t\t\tconsole.log( 'THREE.InterleavedBufferAttribute.toJSON(): Serializing an interleaved buffer attribute will de-interleave buffer data.' );\n\n\t\t\tconst array = [];\n\n\t\t\tfor ( let i = 0; i < this.count; i ++ ) {\n\n\t\t\t\tconst index = i * this.data.stride + this.offset;\n\n\t\t\t\tfor ( let j = 0; j < this.itemSize; j ++ ) {\n\n\t\t\t\t\tarray.push( this.data.array[ index + j ] );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// de-interleave data and save it as an ordinary buffer attribute for now\n\n\t\t\treturn {\n\t\t\t\titemSize: this.itemSize,\n\t\t\t\ttype: this.array.constructor.name,\n\t\t\t\tarray: array,\n\t\t\t\tnormalized: this.normalized\n\t\t\t};\n\n\t\t} else {\n\n\t\t\t// save as true interleaved attribute\n\n\t\t\tif ( data.interleavedBuffers === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers = {};\n\n\t\t\t}\n\n\t\t\tif ( data.interleavedBuffers[ this.data.uuid ] === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers[ this.data.uuid ] = this.data.toJSON( data );\n\n\t\t\t}\n\n\t\t\treturn {\n\t\t\t\tisInterleavedBufferAttribute: true,\n\t\t\t\titemSize: this.itemSize,\n\t\t\t\tdata: this.data.uuid,\n\t\t\t\toffset: this.offset,\n\t\t\t\tnormalized: this.normalized\n\t\t\t};\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * A material for rendering instances of {@link Sprite}.\n *\n * ```js\n * const map = new THREE.TextureLoader().load( 'textures/sprite.png' );\n * const material = new THREE.SpriteMaterial( { map: map, color: 0xffffff } );\n *\n * const sprite = new THREE.Sprite( material );\n * sprite.scale.set(200, 200, 1)\n * scene.add( sprite );\n * ```\n *\n * @augments Material\n */\nclass SpriteMaterial extends Material {\n\n\t/**\n\t * Constructs a new sprite material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSpriteMaterial = true;\n\n\t\tthis.type = 'SpriteMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The rotation of the sprite in radians.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.rotation = 0;\n\n\t\t/**\n\t\t * Specifies whether size of the sprite is attenuated by the camera depth (perspective camera only).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.sizeAttenuation = true;\n\n\t\t/**\n\t\t * Overwritten since sprite materials are transparent\n\t\t * by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.transparent = true;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.rotation = source.rotation;\n\n\t\tthis.sizeAttenuation = source.sizeAttenuation;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\nlet _geometry;\n\nconst _intersectPoint = /*@__PURE__*/ new Vector3();\nconst _worldScale = /*@__PURE__*/ new Vector3();\nconst _mvPosition = /*@__PURE__*/ new Vector3();\n\nconst _alignedPosition = /*@__PURE__*/ new Vector2();\nconst _rotatedPosition = /*@__PURE__*/ new Vector2();\nconst _viewWorldMatrix = /*@__PURE__*/ new Matrix4();\n\nconst _vA = /*@__PURE__*/ new Vector3();\nconst _vB = /*@__PURE__*/ new Vector3();\nconst _vC = /*@__PURE__*/ new Vector3();\n\nconst _uvA = /*@__PURE__*/ new Vector2();\nconst _uvB = /*@__PURE__*/ new Vector2();\nconst _uvC = /*@__PURE__*/ new Vector2();\n\n/**\n * A sprite is a plane that always faces towards the camera, generally with a\n * partially transparent texture applied.\n *\n * Sprites do not cast shadows, setting {@link Object3D#castShadow} to `true` will\n * have no effect.\n *\n * ```js\n * const map = new THREE.TextureLoader().load( 'sprite.png' );\n * const material = new THREE.SpriteMaterial( { map: map } );\n *\n * const sprite = new THREE.Sprite( material );\n * scene.add( sprite );\n * ```\n *\n * @augments Object3D\n */\nclass Sprite extends Object3D {\n\n\t/**\n\t * Constructs a new sprite.\n\t *\n\t * @param {(SpriteMaterial|SpriteNodeMaterial)} [material] - The sprite material.\n\t */\n\tconstructor( material = new SpriteMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSprite = true;\n\n\t\tthis.type = 'Sprite';\n\n\t\tif ( _geometry === undefined ) {\n\n\t\t\t_geometry = new BufferGeometry();\n\n\t\t\tconst float32Array = new Float32Array( [\n\t\t\t\t-0.5, -0.5, 0, 0, 0,\n\t\t\t\t0.5, -0.5, 0, 1, 0,\n\t\t\t\t0.5, 0.5, 0, 1, 1,\n\t\t\t\t-0.5, 0.5, 0, 0, 1\n\t\t\t] );\n\n\t\t\tconst interleavedBuffer = new InterleavedBuffer( float32Array, 5 );\n\n\t\t\t_geometry.setIndex( [ 0, 1, 2,\t0, 2, 3 ] );\n\t\t\t_geometry.setAttribute( 'position', new InterleavedBufferAttribute( interleavedBuffer, 3, 0, false ) );\n\t\t\t_geometry.setAttribute( 'uv', new InterleavedBufferAttribute( interleavedBuffer, 2, 3, false ) );\n\n\t\t}\n\n\t\t/**\n\t\t * The sprite geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = _geometry;\n\n\t\t/**\n\t\t * The sprite material.\n\t\t *\n\t\t * @type {(SpriteMaterial|SpriteNodeMaterial)}\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * The sprite's anchor point, and the point around which the sprite rotates.\n\t\t * A value of `(0.5, 0.5)` corresponds to the midpoint of the sprite. A value\n\t\t * of `(0, 0)` corresponds to the lower left corner of the sprite.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (0.5,0.5)\n\t\t */\n\t\tthis.center = new Vector2( 0.5, 0.5 );\n\n\t\t/**\n\t\t * The number of instances of this sprite.\n\t\t * Can only be used with {@link WebGPURenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.count = 1;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this sprite.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tif ( raycaster.camera === null ) {\n\n\t\t\tconsole.error( 'THREE.Sprite: \"Raycaster.camera\" needs to be set in order to raycast against sprites.' );\n\n\t\t}\n\n\t\t_worldScale.setFromMatrixScale( this.matrixWorld );\n\n\t\t_viewWorldMatrix.copy( raycaster.camera.matrixWorld );\n\t\tthis.modelViewMatrix.multiplyMatrices( raycaster.camera.matrixWorldInverse, this.matrixWorld );\n\n\t\t_mvPosition.setFromMatrixPosition( this.modelViewMatrix );\n\n\t\tif ( raycaster.camera.isPerspectiveCamera && this.material.sizeAttenuation === false ) {\n\n\t\t\t_worldScale.multiplyScalar( - _mvPosition.z );\n\n\t\t}\n\n\t\tconst rotation = this.material.rotation;\n\t\tlet sin, cos;\n\n\t\tif ( rotation !== 0 ) {\n\n\t\t\tcos = Math.cos( rotation );\n\t\t\tsin = Math.sin( rotation );\n\n\t\t}\n\n\t\tconst center = this.center;\n\n\t\ttransformVertex( _vA.set( -0.5, -0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\t\ttransformVertex( _vB.set( 0.5, -0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\t\ttransformVertex( _vC.set( 0.5, 0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\n\t\t_uvA.set( 0, 0 );\n\t\t_uvB.set( 1, 0 );\n\t\t_uvC.set( 1, 1 );\n\n\t\t// check first triangle\n\t\tlet intersect = raycaster.ray.intersectTriangle( _vA, _vB, _vC, false, _intersectPoint );\n\n\t\tif ( intersect === null ) {\n\n\t\t\t// check second triangle\n\t\t\ttransformVertex( _vB.set( -0.5, 0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\t\t\t_uvB.set( 0, 1 );\n\n\t\t\tintersect = raycaster.ray.intersectTriangle( _vA, _vC, _vB, false, _intersectPoint );\n\t\t\tif ( intersect === null ) {\n\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst distance = raycaster.ray.origin.distanceTo( _intersectPoint );\n\n\t\tif ( distance < raycaster.near || distance > raycaster.far ) return;\n\n\t\tintersects.push( {\n\n\t\t\tdistance: distance,\n\t\t\tpoint: _intersectPoint.clone(),\n\t\t\tuv: Triangle.getInterpolation( _intersectPoint, _vA, _vB, _vC, _uvA, _uvB, _uvC, new Vector2() ),\n\t\t\tface: null,\n\t\t\tobject: this\n\n\t\t} );\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.center !== undefined ) this.center.copy( source.center );\n\n\t\tthis.material = source.material;\n\n\t\treturn this;\n\n\t}\n\n}\n\nfunction transformVertex( vertexPosition, mvPosition, center, scale, sin, cos ) {\n\n\t// compute position in camera space\n\t_alignedPosition.subVectors( vertexPosition, center ).addScalar( 0.5 ).multiply( scale );\n\n\t// to check if rotation is not zero\n\tif ( sin !== undefined ) {\n\n\t\t_rotatedPosition.x = ( cos * _alignedPosition.x ) - ( sin * _alignedPosition.y );\n\t\t_rotatedPosition.y = ( sin * _alignedPosition.x ) + ( cos * _alignedPosition.y );\n\n\t} else {\n\n\t\t_rotatedPosition.copy( _alignedPosition );\n\n\t}\n\n\n\tvertexPosition.copy( mvPosition );\n\tvertexPosition.x += _rotatedPosition.x;\n\tvertexPosition.y += _rotatedPosition.y;\n\n\t// transform to world space\n\tvertexPosition.applyMatrix4( _viewWorldMatrix );\n\n}\n\nconst _v1$2 = /*@__PURE__*/ new Vector3();\nconst _v2$1 = /*@__PURE__*/ new Vector3();\n\n/**\n * A component for providing a basic Level of Detail (LOD) mechanism.\n *\n * Every LOD level is associated with an object, and rendering can be switched\n * between them at the distances specified. Typically you would create, say,\n * three meshes, one for far away (low detail), one for mid range (medium\n * detail) and one for close up (high detail).\n *\n * ```js\n * const lod = new THREE.LOD();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n *\n * //Create spheres with 3 levels of detail and create new LOD levels for them\n * for( let i = 0; i < 3; i++ ) {\n *\n * \tconst geometry = new THREE.IcosahedronGeometry( 10, 3 - i );\n * \tconst mesh = new THREE.Mesh( geometry, material );\n * \tlod.addLevel( mesh, i * 75 );\n *\n * }\n *\n * scene.add( lod );\n * ```\n *\n * @augments Object3D\n */\nclass LOD extends Object3D {\n\n\t/**\n\t * Constructs a new LOD.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLOD = true;\n\n\t\t/**\n\t\t * The current LOD index.\n\t\t *\n\t\t * @private\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis._currentLevel = 0;\n\n\t\tthis.type = 'LOD';\n\n\t\tObject.defineProperties( this, {\n\t\t\t/**\n\t\t\t * This array holds the LOD levels.\n\t\t\t *\n\t\t\t * @name LOD#levels\n\t\t\t * @type {Array<{object:Object3D,distance:number,hysteresis:number}>}\n\t\t\t */\n\t\t\tlevels: {\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: []\n\t\t\t}\n\t\t} );\n\n\t\t/**\n\t\t * Whether the LOD object is updated automatically by the renderer per frame\n\t\t * or not. If set to `false`, you have to call {@link LOD#update} in the\n\t\t * render loop by yourself.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.autoUpdate = true;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source, false );\n\n\t\tconst levels = source.levels;\n\n\t\tfor ( let i = 0, l = levels.length; i < l; i ++ ) {\n\n\t\t\tconst level = levels[ i ];\n\n\t\t\tthis.addLevel( level.object.clone(), level.distance, level.hysteresis );\n\n\t\t}\n\n\t\tthis.autoUpdate = source.autoUpdate;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds a mesh that will display at a certain distance and greater. Typically\n\t * the further away the distance, the lower the detail on the mesh.\n\t *\n\t * @param {Object3D} object - The 3D object to display at this level.\n\t * @param {number} [distance=0] - The distance at which to display this level of detail.\n\t * @param {number} [hysteresis=0] - Threshold used to avoid flickering at LOD boundaries, as a fraction of distance.\n\t * @return {LOD} A reference to this instance.\n\t */\n\taddLevel( object, distance = 0, hysteresis = 0 ) {\n\n\t\tdistance = Math.abs( distance );\n\n\t\tconst levels = this.levels;\n\n\t\tlet l;\n\n\t\tfor ( l = 0; l < levels.length; l ++ ) {\n\n\t\t\tif ( distance < levels[ l ].distance ) {\n\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t\tlevels.splice( l, 0, { distance: distance, hysteresis: hysteresis, object: object } );\n\n\t\tthis.add( object );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes an existing level, based on the distance from the camera.\n\t * Returns `true` when the level has been removed. Otherwise `false`.\n\t *\n\t * @param {number} distance - Distance of the level to remove.\n\t * @return {boolean} Whether the level has been removed or not.\n\t */\n\tremoveLevel( distance ) {\n\n\t\tconst levels = this.levels;\n\n\t\tfor ( let i = 0; i < levels.length; i ++ ) {\n\n\t\t\tif ( levels[ i ].distance === distance ) {\n\n\t\t\t\tconst removedElements = levels.splice( i, 1 );\n\t\t\t\tthis.remove( removedElements[ 0 ].object );\n\n\t\t\t\treturn true;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false;\n\n\t}\n\n\t/**\n\t * Returns the currently active LOD level index.\n\t *\n\t * @return {number} The current active LOD level index.\n\t */\n\tgetCurrentLevel() {\n\n\t\treturn this._currentLevel;\n\n\t}\n\n\t/**\n\t * Returns a reference to the first 3D object that is greater than\n\t * the given distance.\n\t *\n\t * @param {number} distance - The LOD distance.\n\t * @return {?Object3D} The found 3D object. `null` if no 3D object has been found.\n\t */\n\tgetObjectForDistance( distance ) {\n\n\t\tconst levels = this.levels;\n\n\t\tif ( levels.length > 0 ) {\n\n\t\t\tlet i, l;\n\n\t\t\tfor ( i = 1, l = levels.length; i < l; i ++ ) {\n\n\t\t\t\tlet levelDistance = levels[ i ].distance;\n\n\t\t\t\tif ( levels[ i ].object.visible ) {\n\n\t\t\t\t\tlevelDistance -= levelDistance * levels[ i ].hysteresis;\n\n\t\t\t\t}\n\n\t\t\t\tif ( distance < levelDistance ) {\n\n\t\t\t\t\tbreak;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn levels[ i - 1 ].object;\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this LOD.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst levels = this.levels;\n\n\t\tif ( levels.length > 0 ) {\n\n\t\t\t_v1$2.setFromMatrixPosition( this.matrixWorld );\n\n\t\t\tconst distance = raycaster.ray.origin.distanceTo( _v1$2 );\n\n\t\t\tthis.getObjectForDistance( distance ).raycast( raycaster, intersects );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Updates the LOD by computing which LOD level should be visible according\n\t * to the current distance of the given camera.\n\t *\n\t * @param {Camera} camera - The camera the scene is rendered with.\n\t */\n\tupdate( camera ) {\n\n\t\tconst levels = this.levels;\n\n\t\tif ( levels.length > 1 ) {\n\n\t\t\t_v1$2.setFromMatrixPosition( camera.matrixWorld );\n\t\t\t_v2$1.setFromMatrixPosition( this.matrixWorld );\n\n\t\t\tconst distance = _v1$2.distanceTo( _v2$1 ) / camera.zoom;\n\n\t\t\tlevels[ 0 ].object.visible = true;\n\n\t\t\tlet i, l;\n\n\t\t\tfor ( i = 1, l = levels.length; i < l; i ++ ) {\n\n\t\t\t\tlet levelDistance = levels[ i ].distance;\n\n\t\t\t\tif ( levels[ i ].object.visible ) {\n\n\t\t\t\t\tlevelDistance -= levelDistance * levels[ i ].hysteresis;\n\n\t\t\t\t}\n\n\t\t\t\tif ( distance >= levelDistance ) {\n\n\t\t\t\t\tlevels[ i - 1 ].object.visible = false;\n\t\t\t\t\tlevels[ i ].object.visible = true;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tbreak;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis._currentLevel = i - 1;\n\n\t\t\tfor ( ; i < l; i ++ ) {\n\n\t\t\t\tlevels[ i ].object.visible = false;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tif ( this.autoUpdate === false ) data.object.autoUpdate = false;\n\n\t\tdata.object.levels = [];\n\n\t\tconst levels = this.levels;\n\n\t\tfor ( let i = 0, l = levels.length; i < l; i ++ ) {\n\n\t\t\tconst level = levels[ i ];\n\n\t\t\tdata.object.levels.push( {\n\t\t\t\tobject: level.object.uuid,\n\t\t\t\tdistance: level.distance,\n\t\t\t\thysteresis: level.hysteresis\n\t\t\t} );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n}\n\nconst _basePosition = /*@__PURE__*/ new Vector3();\n\nconst _skinIndex = /*@__PURE__*/ new Vector4();\nconst _skinWeight = /*@__PURE__*/ new Vector4();\n\nconst _vector3 = /*@__PURE__*/ new Vector3();\nconst _matrix4 = /*@__PURE__*/ new Matrix4();\nconst _vertex = /*@__PURE__*/ new Vector3();\n\nconst _sphere$5 = /*@__PURE__*/ new Sphere();\nconst _inverseMatrix$2 = /*@__PURE__*/ new Matrix4();\nconst _ray$2 = /*@__PURE__*/ new Ray();\n\n/**\n * A mesh that has a {@link Skeleton} that can then be used to animate the\n * vertices of the geometry with skinning/skeleton animation.\n *\n * Next to a valid skeleton, the skinned mesh requires skin indices and weights\n * as buffer attributes in its geometry. These attribute define which bones affect a single\n * vertex to a certain extend.\n *\n * Typically skinned meshes are not created manually but loaders like {@link GLTFLoader}\n * or {@link FBXLoader } import respective models.\n *\n * @augments Mesh\n */\nclass SkinnedMesh extends Mesh {\n\n\t/**\n\t * Constructs a new skinned mesh.\n\t *\n\t * @param {BufferGeometry} [geometry] - The mesh geometry.\n\t * @param {Material|Array} [material] - The mesh material.\n\t */\n\tconstructor( geometry, material ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSkinnedMesh = true;\n\n\t\tthis.type = 'SkinnedMesh';\n\n\t\t/**\n\t\t * `AttachedBindMode` means the skinned mesh shares the same world space as the skeleton.\n\t\t * This is not true when using `DetachedBindMode` which is useful when sharing a skeleton\n\t\t * across multiple skinned meshes.\n\t\t *\n\t\t * @type {(AttachedBindMode|DetachedBindMode)}\n\t\t * @default AttachedBindMode\n\t\t */\n\t\tthis.bindMode = AttachedBindMode;\n\n\t\t/**\n\t\t * The base matrix that is used for the bound bone transforms.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.bindMatrix = new Matrix4();\n\n\t\t/**\n\t\t * The base matrix that is used for resetting the bound bone transforms.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.bindMatrixInverse = new Matrix4();\n\n\t\t/**\n\t\t * The bounding box of the skinned mesh. Can be computed via {@link SkinnedMesh#computeBoundingBox}.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * The bounding sphere of the skinned mesh. Can be computed via {@link SkinnedMesh#computeBoundingSphere}.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t}\n\n\t/**\n\t * Computes the bounding box of the skinned mesh, and updates {@link SkinnedMesh#boundingBox}.\n\t * The bounding box is not automatically computed by the engine; this method must be called by your app.\n\t * If the skinned mesh is animated, the bounding box should be recomputed per frame in order to reflect\n\t * the current animation state.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tthis.boundingBox.makeEmpty();\n\n\t\tconst positionAttribute = geometry.getAttribute( 'position' );\n\n\t\tfor ( let i = 0; i < positionAttribute.count; i ++ ) {\n\n\t\t\tthis.getVertexPosition( i, _vertex );\n\t\t\tthis.boundingBox.expandByPoint( _vertex );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere of the skinned mesh, and updates {@link SkinnedMesh#boundingSphere}.\n\t * The bounding sphere is automatically computed by the engine once when it is needed, e.g., for ray casting\n\t * and view frustum culling. If the skinned mesh is animated, the bounding sphere should be recomputed\n\t * per frame in order to reflect the current animation state.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tthis.boundingSphere.makeEmpty();\n\n\t\tconst positionAttribute = geometry.getAttribute( 'position' );\n\n\t\tfor ( let i = 0; i < positionAttribute.count; i ++ ) {\n\n\t\t\tthis.getVertexPosition( i, _vertex );\n\t\t\tthis.boundingSphere.expandByPoint( _vertex );\n\n\t\t}\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.bindMode = source.bindMode;\n\t\tthis.bindMatrix.copy( source.bindMatrix );\n\t\tthis.bindMatrixInverse.copy( source.bindMatrixInverse );\n\n\t\tthis.skeleton = source.skeleton;\n\n\t\tif ( source.boundingBox !== null ) this.boundingBox = source.boundingBox.clone();\n\t\tif ( source.boundingSphere !== null ) this.boundingSphere = source.boundingSphere.clone();\n\n\t\treturn this;\n\n\t}\n\n\traycast( raycaster, intersects ) {\n\n\t\tconst material = this.material;\n\t\tconst matrixWorld = this.matrixWorld;\n\n\t\tif ( material === undefined ) return;\n\n\t\t// test with bounding sphere in world space\n\n\t\tif ( this.boundingSphere === null ) this.computeBoundingSphere();\n\n\t\t_sphere$5.copy( this.boundingSphere );\n\t\t_sphere$5.applyMatrix4( matrixWorld );\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere$5 ) === false ) return;\n\n\t\t// convert ray to local space of skinned mesh\n\n\t\t_inverseMatrix$2.copy( matrixWorld ).invert();\n\t\t_ray$2.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$2 );\n\n\t\t// test with bounding box in local space\n\n\t\tif ( this.boundingBox !== null ) {\n\n\t\t\tif ( _ray$2.intersectsBox( this.boundingBox ) === false ) return;\n\n\t\t}\n\n\t\t// test for intersections with geometry\n\n\t\tthis._computeIntersections( raycaster, intersects, _ray$2 );\n\n\t}\n\n\tgetVertexPosition( index, target ) {\n\n\t\tsuper.getVertexPosition( index, target );\n\n\t\tthis.applyBoneTransform( index, target );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Binds the given skeleton to the skinned mesh.\n\t *\n\t * @param {Skeleton} skeleton - The skeleton to bind.\n\t * @param {Matrix4} [bindMatrix] - The bind matrix. If no bind matrix is provided,\n\t * the skinned mesh's world matrix will be used instead.\n\t */\n\tbind( skeleton, bindMatrix ) {\n\n\t\tthis.skeleton = skeleton;\n\n\t\tif ( bindMatrix === undefined ) {\n\n\t\t\tthis.updateMatrixWorld( true );\n\n\t\t\tthis.skeleton.calculateInverses();\n\n\t\t\tbindMatrix = this.matrixWorld;\n\n\t\t}\n\n\t\tthis.bindMatrix.copy( bindMatrix );\n\t\tthis.bindMatrixInverse.copy( bindMatrix ).invert();\n\n\t}\n\n\t/**\n\t * This method sets the skinned mesh in the rest pose).\n\t */\n\tpose() {\n\n\t\tthis.skeleton.pose();\n\n\t}\n\n\t/**\n\t * Normalizes the skin weights which are defined as a buffer attribute\n\t * in the skinned mesh's geometry.\n\t */\n\tnormalizeSkinWeights() {\n\n\t\tconst vector = new Vector4();\n\n\t\tconst skinWeight = this.geometry.attributes.skinWeight;\n\n\t\tfor ( let i = 0, l = skinWeight.count; i < l; i ++ ) {\n\n\t\t\tvector.fromBufferAttribute( skinWeight, i );\n\n\t\t\tconst scale = 1.0 / vector.manhattanLength();\n\n\t\t\tif ( scale !== Infinity ) {\n\n\t\t\t\tvector.multiplyScalar( scale );\n\n\t\t\t} else {\n\n\t\t\t\tvector.set( 1, 0, 0, 0 ); // do something reasonable\n\n\t\t\t}\n\n\t\t\tskinWeight.setXYZW( i, vector.x, vector.y, vector.z, vector.w );\n\n\t\t}\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tif ( this.bindMode === AttachedBindMode ) {\n\n\t\t\tthis.bindMatrixInverse.copy( this.matrixWorld ).invert();\n\n\t\t} else if ( this.bindMode === DetachedBindMode ) {\n\n\t\t\tthis.bindMatrixInverse.copy( this.bindMatrix ).invert();\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.SkinnedMesh: Unrecognized bindMode: ' + this.bindMode );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Applies the bone transform associated with the given index to the given\n\t * vertex position. Returns the updated vector.\n\t *\n\t * @param {number} index - The vertex index.\n\t * @param {Vector3} target - The target object that is used to store the method's result.\n\t * the skinned mesh's world matrix will be used instead.\n\t * @return {Vector3} The updated vertex position.\n\t */\n\tapplyBoneTransform( index, target ) {\n\n\t\tconst skeleton = this.skeleton;\n\t\tconst geometry = this.geometry;\n\n\t\t_skinIndex.fromBufferAttribute( geometry.attributes.skinIndex, index );\n\t\t_skinWeight.fromBufferAttribute( geometry.attributes.skinWeight, index );\n\n\t\t_basePosition.copy( target ).applyMatrix4( this.bindMatrix );\n\n\t\ttarget.set( 0, 0, 0 );\n\n\t\tfor ( let i = 0; i < 4; i ++ ) {\n\n\t\t\tconst weight = _skinWeight.getComponent( i );\n\n\t\t\tif ( weight !== 0 ) {\n\n\t\t\t\tconst boneIndex = _skinIndex.getComponent( i );\n\n\t\t\t\t_matrix4.multiplyMatrices( skeleton.bones[ boneIndex ].matrixWorld, skeleton.boneInverses[ boneIndex ] );\n\n\t\t\t\ttarget.addScaledVector( _vector3.copy( _basePosition ).applyMatrix4( _matrix4 ), weight );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn target.applyMatrix4( this.bindMatrixInverse );\n\n\t}\n\n}\n\n/**\n * A bone which is part of a {@link Skeleton}. The skeleton in turn is used by\n * the {@link SkinnedMesh}.\n *\n * ```js\n * const root = new THREE.Bone();\n * const child = new THREE.Bone();\n *\n * root.add( child );\n * child.position.y = 5;\n * ```\n *\n * @augments Object3D\n */\nclass Bone extends Object3D {\n\n\t/**\n\t * Constructs a new bone.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBone = true;\n\n\t\tthis.type = 'Bone';\n\n\t}\n\n}\n\n/**\n * Creates a texture directly from raw buffer data.\n *\n * The interpretation of the data depends on type and format: If the type is\n * `UnsignedByteType`, a `Uint8Array` will be useful for addressing the\n * texel data. If the format is `RGBAFormat`, data needs four values for\n * one texel; Red, Green, Blue and Alpha (typically the opacity).\n *\n * @augments Texture\n */\nclass DataTexture extends Texture {\n\n\t/**\n\t * Constructs a new data texture.\n\t *\n\t * @param {?TypedArray} [data=null] - The buffer data.\n\t * @param {number} [width=1] - The width of the texture.\n\t * @param {number} [height=1] - The height of the texture.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=NearestFilter] - The mag filter value.\n\t * @param {number} [minFilter=NearestFilter] - The min filter value.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space.\n\t */\n\tconstructor( data = null, width = 1, height = 1, format, type, mapping, wrapS, wrapT, magFilter = NearestFilter, minFilter = NearestFilter, anisotropy, colorSpace ) {\n\n\t\tsuper( null, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDataTexture = true;\n\n\t\t/**\n\t\t * The image definition of a data texture.\n\t\t *\n\t\t * @type {{data:TypedArray,width:number,height:number}}\n\t\t */\n\t\tthis.image = { data: data, width: width, height: height };\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t *\n\t\t * Overwritten and set to `1` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default 1\n\t\t */\n\t\tthis.unpackAlignment = 1;\n\n\t}\n\n}\n\nconst _offsetMatrix = /*@__PURE__*/ new Matrix4();\nconst _identityMatrix = /*@__PURE__*/ new Matrix4();\n\n/**\n * Class for representing the armatures in `three.js`. The skeleton\n * is defined by a hierarchy of bones.\n *\n * ```js\n * const bones = [];\n *\n * const shoulder = new THREE.Bone();\n * const elbow = new THREE.Bone();\n * const hand = new THREE.Bone();\n *\n * shoulder.add( elbow );\n * elbow.add( hand );\n *\n * bones.push( shoulder , elbow, hand);\n *\n * shoulder.position.y = -5;\n * elbow.position.y = 0;\n * hand.position.y = 5;\n *\n * const armSkeleton = new THREE.Skeleton( bones );\n * ```\n */\nclass Skeleton {\n\n\t/**\n\t * Constructs a new skeleton.\n\t *\n\t * @param {Array} [bones] - An array of bones.\n\t * @param {Array} [boneInverses] - An array of bone inverse matrices.\n\t * If not provided, these matrices will be computed automatically via {@link Skeleton#calculateInverses}.\n\t */\n\tconstructor( bones = [], boneInverses = [] ) {\n\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * An array of bones defining the skeleton.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.bones = bones.slice( 0 );\n\n\t\t/**\n\t\t * An array of bone inverse matrices.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.boneInverses = boneInverses;\n\n\t\t/**\n\t\t * An array buffer holding the bone data.\n\t\t * Input data for {@link Skeleton#boneTexture}.\n\t\t *\n\t\t * @type {?Float32Array}\n\t\t * @default null\n\t\t */\n\t\tthis.boneMatrices = null;\n\n\t\t/**\n\t\t * A texture holding the bone data for use\n\t\t * in the vertex shader.\n\t\t *\n\t\t * @type {?DataTexture}\n\t\t * @default null\n\t\t */\n\t\tthis.boneTexture = null;\n\n\t\tthis.init();\n\n\t}\n\n\t/**\n\t * Initializes the skeleton. This method gets automatically called by the constructor\n\t * but depending on how the skeleton is created it might be necessary to call this method\n\t * manually.\n\t */\n\tinit() {\n\n\t\tconst bones = this.bones;\n\t\tconst boneInverses = this.boneInverses;\n\n\t\tthis.boneMatrices = new Float32Array( bones.length * 16 );\n\n\t\t// calculate inverse bone matrices if necessary\n\n\t\tif ( boneInverses.length === 0 ) {\n\n\t\t\tthis.calculateInverses();\n\n\t\t} else {\n\n\t\t\t// handle special case\n\n\t\t\tif ( bones.length !== boneInverses.length ) {\n\n\t\t\t\tconsole.warn( 'THREE.Skeleton: Number of inverse bone matrices does not match amount of bones.' );\n\n\t\t\t\tthis.boneInverses = [];\n\n\t\t\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\t\t\tthis.boneInverses.push( new Matrix4() );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bone inverse matrices. This method resets {@link Skeleton#boneInverses}\n\t * and fills it with new matrices.\n\t */\n\tcalculateInverses() {\n\n\t\tthis.boneInverses.length = 0;\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst inverse = new Matrix4();\n\n\t\t\tif ( this.bones[ i ] ) {\n\n\t\t\t\tinverse.copy( this.bones[ i ].matrixWorld ).invert();\n\n\t\t\t}\n\n\t\t\tthis.boneInverses.push( inverse );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Resets the skeleton to the base pose.\n\t */\n\tpose() {\n\n\t\t// recover the bind-time world matrices\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst bone = this.bones[ i ];\n\n\t\t\tif ( bone ) {\n\n\t\t\t\tbone.matrixWorld.copy( this.boneInverses[ i ] ).invert();\n\n\t\t\t}\n\n\t\t}\n\n\t\t// compute the local matrices, positions, rotations and scales\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst bone = this.bones[ i ];\n\n\t\t\tif ( bone ) {\n\n\t\t\t\tif ( bone.parent && bone.parent.isBone ) {\n\n\t\t\t\t\tbone.matrix.copy( bone.parent.matrixWorld ).invert();\n\t\t\t\t\tbone.matrix.multiply( bone.matrixWorld );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tbone.matrix.copy( bone.matrixWorld );\n\n\t\t\t\t}\n\n\t\t\t\tbone.matrix.decompose( bone.position, bone.quaternion, bone.scale );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Resets the skeleton to the base pose.\n\t */\n\tupdate() {\n\n\t\tconst bones = this.bones;\n\t\tconst boneInverses = this.boneInverses;\n\t\tconst boneMatrices = this.boneMatrices;\n\t\tconst boneTexture = this.boneTexture;\n\n\t\t// flatten bone matrices to array\n\n\t\tfor ( let i = 0, il = bones.length; i < il; i ++ ) {\n\n\t\t\t// compute the offset between the current and the original transform\n\n\t\t\tconst matrix = bones[ i ] ? bones[ i ].matrixWorld : _identityMatrix;\n\n\t\t\t_offsetMatrix.multiplyMatrices( matrix, boneInverses[ i ] );\n\t\t\t_offsetMatrix.toArray( boneMatrices, i * 16 );\n\n\t\t}\n\n\t\tif ( boneTexture !== null ) {\n\n\t\t\tboneTexture.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new skeleton with copied values from this instance.\n\t *\n\t * @return {Skeleton} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Skeleton( this.bones, this.boneInverses );\n\n\t}\n\n\t/**\n\t * Computes a data texture for passing bone data to the vertex shader.\n\t *\n\t * @return {Skeleton} A reference of this instance.\n\t */\n\tcomputeBoneTexture() {\n\n\t\t// layout (1 matrix = 4 pixels)\n\t\t// RGBA RGBA RGBA RGBA (=> column1, column2, column3, column4)\n\t\t// with 8x8 pixel texture max 16 bones * 4 pixels = (8 * 8)\n\t\t// 16x16 pixel texture max 64 bones * 4 pixels = (16 * 16)\n\t\t// 32x32 pixel texture max 256 bones * 4 pixels = (32 * 32)\n\t\t// 64x64 pixel texture max 1024 bones * 4 pixels = (64 * 64)\n\n\t\tlet size = Math.sqrt( this.bones.length * 4 ); // 4 pixels needed for 1 matrix\n\t\tsize = Math.ceil( size / 4 ) * 4;\n\t\tsize = Math.max( size, 4 );\n\n\t\tconst boneMatrices = new Float32Array( size * size * 4 ); // 4 floats per RGBA pixel\n\t\tboneMatrices.set( this.boneMatrices ); // copy current values\n\n\t\tconst boneTexture = new DataTexture( boneMatrices, size, size, RGBAFormat, FloatType );\n\t\tboneTexture.needsUpdate = true;\n\n\t\tthis.boneMatrices = boneMatrices;\n\t\tthis.boneTexture = boneTexture;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Searches through the skeleton's bone array and returns the first with a\n\t * matching name.\n\t *\n\t * @param {string} name - The name of the bone.\n\t * @return {Bone|undefined} The found bone. `undefined` if no bone has been found.\n\t */\n\tgetBoneByName( name ) {\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst bone = this.bones[ i ];\n\n\t\t\tif ( bone.name === name ) {\n\n\t\t\t\treturn bone;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn undefined;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose( ) {\n\n\t\tif ( this.boneTexture !== null ) {\n\n\t\t\tthis.boneTexture.dispose();\n\n\t\t\tthis.boneTexture = null;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Setups the skeleton by the given JSON and bones.\n\t *\n\t * @param {Object} json - The skeleton as serialized JSON.\n\t * @param {Object} bones - An array of bones.\n\t * @return {Skeleton} A reference of this instance.\n\t */\n\tfromJSON( json, bones ) {\n\n\t\tthis.uuid = json.uuid;\n\n\t\tfor ( let i = 0, l = json.bones.length; i < l; i ++ ) {\n\n\t\t\tconst uuid = json.bones[ i ];\n\t\t\tlet bone = bones[ uuid ];\n\n\t\t\tif ( bone === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.Skeleton: No bone found with UUID:', uuid );\n\t\t\t\tbone = new Bone();\n\n\t\t\t}\n\n\t\t\tthis.bones.push( bone );\n\t\t\tthis.boneInverses.push( new Matrix4().fromArray( json.boneInverses[ i ] ) );\n\n\t\t}\n\n\t\tthis.init();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Serializes the skeleton into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized skeleton.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Skeleton',\n\t\t\t\tgenerator: 'Skeleton.toJSON'\n\t\t\t},\n\t\t\tbones: [],\n\t\t\tboneInverses: []\n\t\t};\n\n\t\tdata.uuid = this.uuid;\n\n\t\tconst bones = this.bones;\n\t\tconst boneInverses = this.boneInverses;\n\n\t\tfor ( let i = 0, l = bones.length; i < l; i ++ ) {\n\n\t\t\tconst bone = bones[ i ];\n\t\t\tdata.bones.push( bone.uuid );\n\n\t\t\tconst boneInverse = boneInverses[ i ];\n\t\t\tdata.boneInverses.push( boneInverse.toArray() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * An instanced version of a buffer attribute.\n *\n * @augments BufferAttribute\n */\nclass InstancedBufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new instanced buffer attribute.\n\t *\n\t * @param {TypedArray} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t * @param {number} [meshPerAttribute=1] - How often a value of this buffer attribute should be repeated.\n\t */\n\tconstructor( array, itemSize, normalized, meshPerAttribute = 1 ) {\n\n\t\tsuper( array, itemSize, normalized );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedBufferAttribute = true;\n\n\t\t/**\n\t\t * Defines how often a value of this buffer attribute should be repeated. A\n\t\t * value of one means that each value of the instanced attribute is used for\n\t\t * a single instance. A value of two means that each value is used for two\n\t\t * consecutive instances (and so on).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.meshPerAttribute = meshPerAttribute;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.meshPerAttribute = source.meshPerAttribute;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.meshPerAttribute = this.meshPerAttribute;\n\n\t\tdata.isInstancedBufferAttribute = true;\n\n\t\treturn data;\n\n\t}\n\n}\n\nconst _instanceLocalMatrix = /*@__PURE__*/ new Matrix4();\nconst _instanceWorldMatrix = /*@__PURE__*/ new Matrix4();\n\nconst _instanceIntersects = [];\n\nconst _box3 = /*@__PURE__*/ new Box3();\nconst _identity = /*@__PURE__*/ new Matrix4();\nconst _mesh$1 = /*@__PURE__*/ new Mesh();\nconst _sphere$4 = /*@__PURE__*/ new Sphere();\n\n/**\n * A special version of a mesh with instanced rendering support. Use\n * this class if you have to render a large number of objects with the same\n * geometry and material(s) but with different world transformations. The usage\n * of 'InstancedMesh' will help you to reduce the number of draw calls and thus\n * improve the overall rendering performance in your application.\n *\n * @augments Mesh\n */\nclass InstancedMesh extends Mesh {\n\n\t/**\n\t * Constructs a new instanced mesh.\n\t *\n\t * @param {BufferGeometry} [geometry] - The mesh geometry.\n\t * @param {Material|Array} [material] - The mesh material.\n\t * @param {number} count - The number of instances.\n\t */\n\tconstructor( geometry, material, count ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedMesh = true;\n\n\t\t/**\n\t\t * Represents the local transformation of all instances. You have to set its\n\t\t * {@link BufferAttribute#needsUpdate} flag to true if you modify instanced data\n\t\t * via {@link InstancedMesh#setMatrixAt}.\n\t\t *\n\t\t * @type {InstancedBufferAttribute}\n\t\t */\n\t\tthis.instanceMatrix = new InstancedBufferAttribute( new Float32Array( count * 16 ), 16 );\n\n\t\t/**\n\t\t * Represents the color of all instances. You have to set its\n\t\t * {@link BufferAttribute#needsUpdate} flag to true if you modify instanced data\n\t\t * via {@link InstancedMesh#setColorAt}.\n\t\t *\n\t\t * @type {?InstancedBufferAttribute}\n\t\t * @default null\n\t\t */\n\t\tthis.instanceColor = null;\n\n\t\t/**\n\t\t * Represents the morph target weights of all instances. You have to set its\n\t\t * {@link Texture#needsUpdate} flag to true if you modify instanced data\n\t\t * via {@link InstancedMesh#setMorphAt}.\n\t\t *\n\t\t * @type {?DataTexture}\n\t\t * @default null\n\t\t */\n\t\tthis.morphTexture = null;\n\n\t\t/**\n\t\t * The number of instances.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.count = count;\n\n\t\t/**\n\t\t * The bounding box of the instanced mesh. Can be computed via {@link InstancedMesh#computeBoundingBox}.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * The bounding sphere of the instanced mesh. Can be computed via {@link InstancedMesh#computeBoundingSphere}.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.setMatrixAt( i, _identity );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding box of the instanced mesh, and updates {@link InstancedMesh#boundingBox}.\n\t * The bounding box is not automatically computed by the engine; this method must be called by your app.\n\t * You may need to recompute the bounding box if an instance is transformed via {@link InstancedMesh#setMatrixAt}.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tconst geometry = this.geometry;\n\t\tconst count = this.count;\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tif ( geometry.boundingBox === null ) {\n\n\t\t\tgeometry.computeBoundingBox();\n\n\t\t}\n\n\t\tthis.boundingBox.makeEmpty();\n\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.getMatrixAt( i, _instanceLocalMatrix );\n\n\t\t\t_box3.copy( geometry.boundingBox ).applyMatrix4( _instanceLocalMatrix );\n\n\t\t\tthis.boundingBox.union( _box3 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere of the instanced mesh, and updates {@link InstancedMesh#boundingSphere}\n\t * The engine automatically computes the bounding sphere when it is needed, e.g., for ray casting or view frustum culling.\n\t * You may need to recompute the bounding sphere if an instance is transformed via {@link InstancedMesh#setMatrixAt}.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tconst geometry = this.geometry;\n\t\tconst count = this.count;\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tif ( geometry.boundingSphere === null ) {\n\n\t\t\tgeometry.computeBoundingSphere();\n\n\t\t}\n\n\t\tthis.boundingSphere.makeEmpty();\n\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.getMatrixAt( i, _instanceLocalMatrix );\n\n\t\t\t_sphere$4.copy( geometry.boundingSphere ).applyMatrix4( _instanceLocalMatrix );\n\n\t\t\tthis.boundingSphere.union( _sphere$4 );\n\n\t\t}\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.instanceMatrix.copy( source.instanceMatrix );\n\n\t\tif ( source.morphTexture !== null ) this.morphTexture = source.morphTexture.clone();\n\t\tif ( source.instanceColor !== null ) this.instanceColor = source.instanceColor.clone();\n\n\t\tthis.count = source.count;\n\n\t\tif ( source.boundingBox !== null ) this.boundingBox = source.boundingBox.clone();\n\t\tif ( source.boundingSphere !== null ) this.boundingSphere = source.boundingSphere.clone();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Gets the color of the defined instance.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Color} color - The target object that is used to store the method's result.\n\t */\n\tgetColorAt( index, color ) {\n\n\t\tcolor.fromArray( this.instanceColor.array, index * 3 );\n\n\t}\n\n\t/**\n\t * Gets the local transformation matrix of the defined instance.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Matrix4} matrix - The target object that is used to store the method's result.\n\t */\n\tgetMatrixAt( index, matrix ) {\n\n\t\tmatrix.fromArray( this.instanceMatrix.array, index * 16 );\n\n\t}\n\n\t/**\n\t * Gets the morph target weights of the defined instance.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Mesh} object - The target object that is used to store the method's result.\n\t */\n\tgetMorphAt( index, object ) {\n\n\t\tconst objectInfluences = object.morphTargetInfluences;\n\n\t\tconst array = this.morphTexture.source.data.data;\n\n\t\tconst len = objectInfluences.length + 1; // All influences + the baseInfluenceSum\n\n\t\tconst dataIndex = index * len + 1; // Skip the baseInfluenceSum at the beginning\n\n\t\tfor ( let i = 0; i < objectInfluences.length; i ++ ) {\n\n\t\t\tobjectInfluences[ i ] = array[ dataIndex + i ];\n\n\t\t}\n\n\t}\n\n\traycast( raycaster, intersects ) {\n\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst raycastTimes = this.count;\n\n\t\t_mesh$1.geometry = this.geometry;\n\t\t_mesh$1.material = this.material;\n\n\t\tif ( _mesh$1.material === undefined ) return;\n\n\t\t// test with bounding sphere first\n\n\t\tif ( this.boundingSphere === null ) this.computeBoundingSphere();\n\n\t\t_sphere$4.copy( this.boundingSphere );\n\t\t_sphere$4.applyMatrix4( matrixWorld );\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere$4 ) === false ) return;\n\n\t\t// now test each instance\n\n\t\tfor ( let instanceId = 0; instanceId < raycastTimes; instanceId ++ ) {\n\n\t\t\t// calculate the world matrix for each instance\n\n\t\t\tthis.getMatrixAt( instanceId, _instanceLocalMatrix );\n\n\t\t\t_instanceWorldMatrix.multiplyMatrices( matrixWorld, _instanceLocalMatrix );\n\n\t\t\t// the mesh represents this single instance\n\n\t\t\t_mesh$1.matrixWorld = _instanceWorldMatrix;\n\n\t\t\t_mesh$1.raycast( raycaster, _instanceIntersects );\n\n\t\t\t// process the result of raycast\n\n\t\t\tfor ( let i = 0, l = _instanceIntersects.length; i < l; i ++ ) {\n\n\t\t\t\tconst intersect = _instanceIntersects[ i ];\n\t\t\t\tintersect.instanceId = instanceId;\n\t\t\t\tintersect.object = this;\n\t\t\t\tintersects.push( intersect );\n\n\t\t\t}\n\n\t\t\t_instanceIntersects.length = 0;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the given color to the defined instance. Make sure you set the `needsUpdate` flag of\n\t * {@link InstancedMesh#instanceColor} to `true` after updating all the colors.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Color} color - The instance color.\n\t */\n\tsetColorAt( index, color ) {\n\n\t\tif ( this.instanceColor === null ) {\n\n\t\t\tthis.instanceColor = new InstancedBufferAttribute( new Float32Array( this.instanceMatrix.count * 3 ).fill( 1 ), 3 );\n\n\t\t}\n\n\t\tcolor.toArray( this.instanceColor.array, index * 3 );\n\n\t}\n\n\t/**\n\t * Sets the given local transformation matrix to the defined instance. Make sure you set the `needsUpdate` flag of\n\t * {@link InstancedMesh#instanceMatrix} to `true` after updating all the colors.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Matrix4} matrix - The local transformation.\n\t */\n\tsetMatrixAt( index, matrix ) {\n\n\t\tmatrix.toArray( this.instanceMatrix.array, index * 16 );\n\n\t}\n\n\t/**\n\t * Sets the morph target weights to the defined instance. Make sure you set the `needsUpdate` flag of\n\t * {@link InstancedMesh#morphTexture} to `true` after updating all the influences.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Mesh} object - A mesh which `morphTargetInfluences` property containing the morph target weights\n\t * of a single instance.\n\t */\n\tsetMorphAt( index, object ) {\n\n\t\tconst objectInfluences = object.morphTargetInfluences;\n\n\t\tconst len = objectInfluences.length + 1; // morphBaseInfluence + all influences\n\n\t\tif ( this.morphTexture === null ) {\n\n\t\t\tthis.morphTexture = new DataTexture( new Float32Array( len * this.count ), len, this.count, RedFormat, FloatType );\n\n\t\t}\n\n\t\tconst array = this.morphTexture.source.data.data;\n\n\t\tlet morphInfluencesSum = 0;\n\n\t\tfor ( let i = 0; i < objectInfluences.length; i ++ ) {\n\n\t\t\tmorphInfluencesSum += objectInfluences[ i ];\n\n\t\t}\n\n\t\tconst morphBaseInfluence = this.geometry.morphTargetsRelative ? 1 : 1 - morphInfluencesSum;\n\n\t\tconst dataIndex = len * index;\n\n\t\tarray[ dataIndex ] = morphBaseInfluence;\n\n\t\tarray.set( objectInfluences, dataIndex + 1 );\n\n\t}\n\n\tupdateMorphTargets() {\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t\tif ( this.morphTexture !== null ) {\n\n\t\t\tthis.morphTexture.dispose();\n\t\t\tthis.morphTexture = null;\n\n\t\t}\n\n\t}\n\n}\n\nconst _vector1 = /*@__PURE__*/ new Vector3();\nconst _vector2 = /*@__PURE__*/ new Vector3();\nconst _normalMatrix = /*@__PURE__*/ new Matrix3();\n\n/**\n * A two dimensional surface that extends infinitely in 3D space, represented\n * in [Hessian normal form]{@link http://mathworld.wolfram.com/HessianNormalForm.html}\n * by a unit length normal vector and a constant.\n */\nclass Plane {\n\n\t/**\n\t * Constructs a new plane.\n\t *\n\t * @param {Vector3} [normal=(1,0,0)] - A unit length vector defining the normal of the plane.\n\t * @param {number} [constant=0] - The signed distance from the origin to the plane.\n\t */\n\tconstructor( normal = new Vector3( 1, 0, 0 ), constant = 0 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPlane = true;\n\n\t\t/**\n\t\t * A unit length vector defining the normal of the plane.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.normal = normal;\n\n\t\t/**\n\t\t * The signed distance from the origin to the plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.constant = constant;\n\n\t}\n\n\t/**\n\t * Sets the plane components by copying the given values.\n\t *\n\t * @param {Vector3} normal - The normal.\n\t * @param {number} constant - The constant.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tset( normal, constant ) {\n\n\t\tthis.normal.copy( normal );\n\t\tthis.constant = constant;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the plane components by defining `x`, `y`, `z` as the\n\t * plane normal and `w` as the constant.\n\t *\n\t * @param {number} x - The value for the normal's x component.\n\t * @param {number} y - The value for the normal's y component.\n\t * @param {number} z - The value for the normal's z component.\n\t * @param {number} w - The constant value.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tsetComponents( x, y, z, w ) {\n\n\t\tthis.normal.set( x, y, z );\n\t\tthis.constant = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the plane from the given normal and coplanar point (that is a point\n\t * that lies onto the plane).\n\t *\n\t * @param {Vector3} normal - The normal.\n\t * @param {Vector3} point - A coplanar point.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tsetFromNormalAndCoplanarPoint( normal, point ) {\n\n\t\tthis.normal.copy( normal );\n\t\tthis.constant = - point.dot( this.normal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the plane from three coplanar points. The winding order is\n\t * assumed to be counter-clockwise, and determines the direction of\n\t * the plane normal.\n\t *\n\t * @param {Vector3} a - The first coplanar point.\n\t * @param {Vector3} b - The second coplanar point.\n\t * @param {Vector3} c - The third coplanar point.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tsetFromCoplanarPoints( a, b, c ) {\n\n\t\tconst normal = _vector1.subVectors( c, b ).cross( _vector2.subVectors( a, b ) ).normalize();\n\n\t\t// Q: should an error be thrown if normal is zero (e.g. degenerate plane)?\n\n\t\tthis.setFromNormalAndCoplanarPoint( normal, a );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given plane to this instance.\n\t *\n\t * @param {Plane} plane - The plane to copy.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tcopy( plane ) {\n\n\t\tthis.normal.copy( plane.normal );\n\t\tthis.constant = plane.constant;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Normalizes the plane normal and adjusts the constant accordingly.\n\t *\n\t * @return {Plane} A reference to this plane.\n\t */\n\tnormalize() {\n\n\t\t// Note: will lead to a divide by zero if the plane is invalid.\n\n\t\tconst inverseNormalLength = 1.0 / this.normal.length();\n\t\tthis.normal.multiplyScalar( inverseNormalLength );\n\t\tthis.constant *= inverseNormalLength;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Negates both the plane normal and the constant.\n\t *\n\t * @return {Plane} A reference to this plane.\n\t */\n\tnegate() {\n\n\t\tthis.constant *= -1;\n\t\tthis.normal.negate();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the signed distance from the given point to this plane.\n\t *\n\t * @param {Vector3} point - The point to compute the distance for.\n\t * @return {number} The signed distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn this.normal.dot( point ) + this.constant;\n\n\t}\n\n\t/**\n\t * Returns the signed distance from the given sphere to this plane.\n\t *\n\t * @param {Sphere} sphere - The sphere to compute the distance for.\n\t * @return {number} The signed distance.\n\t */\n\tdistanceToSphere( sphere ) {\n\n\t\treturn this.distanceToPoint( sphere.center ) - sphere.radius;\n\n\t}\n\n\t/**\n\t * Projects a the given point onto the plane.\n\t *\n\t * @param {Vector3} point - The point to project.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The projected point on the plane.\n\t */\n\tprojectPoint( point, target ) {\n\n\t\treturn target.copy( point ).addScaledVector( this.normal, - this.distanceToPoint( point ) );\n\n\t}\n\n\t/**\n\t * Returns the intersection point of the passed line and the plane. Returns\n\t * `null` if the line does not intersect. Returns the line's starting point if\n\t * the line is coplanar with the plane.\n\t *\n\t * @param {Line3} line - The line to compute the intersection for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectLine( line, target ) {\n\n\t\tconst direction = line.delta( _vector1 );\n\n\t\tconst denominator = this.normal.dot( direction );\n\n\t\tif ( denominator === 0 ) {\n\n\t\t\t// line is coplanar, return origin\n\t\t\tif ( this.distanceToPoint( line.start ) === 0 ) {\n\n\t\t\t\treturn target.copy( line.start );\n\n\t\t\t}\n\n\t\t\t// Unsure if this is the correct method to handle this case.\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst t = - ( line.start.dot( this.normal ) + this.constant ) / denominator;\n\n\t\tif ( t < 0 || t > 1 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\treturn target.copy( line.start ).addScaledVector( direction, t );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given line segment intersects with (passes through) the plane.\n\t *\n\t * @param {Line3} line - The line to test.\n\t * @return {boolean} Whether the given line segment intersects with the plane or not.\n\t */\n\tintersectsLine( line ) {\n\n\t\t// Note: this tests if a line intersects the plane, not whether it (or its end-points) are coplanar with it.\n\n\t\tconst startSign = this.distanceToPoint( line.start );\n\t\tconst endSign = this.distanceToPoint( line.end );\n\n\t\treturn ( startSign < 0 && endSign > 0 ) || ( endSign < 0 && startSign > 0 );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box intersects with the plane.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the given bounding box intersects with the plane or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn box.intersectsPlane( this );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere intersects with the plane.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @return {boolean} Whether the given bounding sphere intersects with the plane or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\treturn sphere.intersectsPlane( this );\n\n\t}\n\n\t/**\n\t * Returns a coplanar vector to the plane, by calculating the\n\t * projection of the normal at the origin onto the plane.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The coplanar point.\n\t */\n\tcoplanarPoint( target ) {\n\n\t\treturn target.copy( this.normal ).multiplyScalar( - this.constant );\n\n\t}\n\n\t/**\n\t * Apply a 4x4 matrix to the plane. The matrix must be an affine, homogeneous transform.\n\t *\n\t * The optional normal matrix can be pre-computed like so:\n\t * ```js\n\t * const optionalNormalMatrix = new THREE.Matrix3().getNormalMatrix( matrix );\n\t * ```\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @param {Matrix4} [optionalNormalMatrix] - A pre-computed normal matrix.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tapplyMatrix4( matrix, optionalNormalMatrix ) {\n\n\t\tconst normalMatrix = optionalNormalMatrix || _normalMatrix.getNormalMatrix( matrix );\n\n\t\tconst referencePoint = this.coplanarPoint( _vector1 ).applyMatrix4( matrix );\n\n\t\tconst normal = this.normal.applyMatrix3( normalMatrix ).normalize();\n\n\t\tthis.constant = - referencePoint.dot( normal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates the plane by the distance defined by the given offset vector.\n\t * Note that this only affects the plane constant and will not affect the normal vector.\n\t *\n\t * @param {Vector3} offset - The offset vector.\n\t * @return {Plane} A reference to this plane.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.constant -= offset.dot( this.normal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this plane is equal with the given one.\n\t *\n\t * @param {Plane} plane - The plane to test for equality.\n\t * @return {boolean} Whether this plane is equal with the given one.\n\t */\n\tequals( plane ) {\n\n\t\treturn plane.normal.equals( this.normal ) && ( plane.constant === this.constant );\n\n\t}\n\n\t/**\n\t * Returns a new plane with copied values from this instance.\n\t *\n\t * @return {Plane} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _sphere$3 = /*@__PURE__*/ new Sphere();\nconst _defaultSpriteCenter = /*@__PURE__*/ new Vector2( 0.5, 0.5 );\nconst _vector$6 = /*@__PURE__*/ new Vector3();\n\n/**\n * Frustums are used to determine what is inside the camera's field of view.\n * They help speed up the rendering process - objects which lie outside a camera's\n * frustum can safely be excluded from rendering.\n *\n * This class is mainly intended for use internally by a renderer.\n */\nclass Frustum {\n\n\t/**\n\t * Constructs a new frustum.\n\t *\n\t * @param {Plane} [p0] - The first plane that encloses the frustum.\n\t * @param {Plane} [p1] - The second plane that encloses the frustum.\n\t * @param {Plane} [p2] - The third plane that encloses the frustum.\n\t * @param {Plane} [p3] - The fourth plane that encloses the frustum.\n\t * @param {Plane} [p4] - The fifth plane that encloses the frustum.\n\t * @param {Plane} [p5] - The sixth plane that encloses the frustum.\n\t */\n\tconstructor( p0 = new Plane(), p1 = new Plane(), p2 = new Plane(), p3 = new Plane(), p4 = new Plane(), p5 = new Plane() ) {\n\n\t\t/**\n\t\t * This array holds the planes that enclose the frustum.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.planes = [ p0, p1, p2, p3, p4, p5 ];\n\n\t}\n\n\t/**\n\t * Sets the frustum planes by copying the given planes.\n\t *\n\t * @param {Plane} [p0] - The first plane that encloses the frustum.\n\t * @param {Plane} [p1] - The second plane that encloses the frustum.\n\t * @param {Plane} [p2] - The third plane that encloses the frustum.\n\t * @param {Plane} [p3] - The fourth plane that encloses the frustum.\n\t * @param {Plane} [p4] - The fifth plane that encloses the frustum.\n\t * @param {Plane} [p5] - The sixth plane that encloses the frustum.\n\t * @return {Frustum} A reference to this frustum.\n\t */\n\tset( p0, p1, p2, p3, p4, p5 ) {\n\n\t\tconst planes = this.planes;\n\n\t\tplanes[ 0 ].copy( p0 );\n\t\tplanes[ 1 ].copy( p1 );\n\t\tplanes[ 2 ].copy( p2 );\n\t\tplanes[ 3 ].copy( p3 );\n\t\tplanes[ 4 ].copy( p4 );\n\t\tplanes[ 5 ].copy( p5 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given frustum to this instance.\n\t *\n\t * @param {Frustum} frustum - The frustum to copy.\n\t * @return {Frustum} A reference to this frustum.\n\t */\n\tcopy( frustum ) {\n\n\t\tconst planes = this.planes;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tplanes[ i ].copy( frustum.planes[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the frustum planes from the given projection matrix.\n\t *\n\t * @param {Matrix4} m - The projection matrix.\n\t * @param {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} coordinateSystem - The coordinate system.\n\t * @param {boolean} [reversedDepth=false] - Whether to use a reversed depth.\n\t * @return {Frustum} A reference to this frustum.\n\t */\n\tsetFromProjectionMatrix( m, coordinateSystem = WebGLCoordinateSystem, reversedDepth = false ) {\n\n\t\tconst planes = this.planes;\n\t\tconst me = m.elements;\n\t\tconst me0 = me[ 0 ], me1 = me[ 1 ], me2 = me[ 2 ], me3 = me[ 3 ];\n\t\tconst me4 = me[ 4 ], me5 = me[ 5 ], me6 = me[ 6 ], me7 = me[ 7 ];\n\t\tconst me8 = me[ 8 ], me9 = me[ 9 ], me10 = me[ 10 ], me11 = me[ 11 ];\n\t\tconst me12 = me[ 12 ], me13 = me[ 13 ], me14 = me[ 14 ], me15 = me[ 15 ];\n\n\t\tplanes[ 0 ].setComponents( me3 - me0, me7 - me4, me11 - me8, me15 - me12 ).normalize();\n\t\tplanes[ 1 ].setComponents( me3 + me0, me7 + me4, me11 + me8, me15 + me12 ).normalize();\n\t\tplanes[ 2 ].setComponents( me3 + me1, me7 + me5, me11 + me9, me15 + me13 ).normalize();\n\t\tplanes[ 3 ].setComponents( me3 - me1, me7 - me5, me11 - me9, me15 - me13 ).normalize();\n\n\t\tif ( reversedDepth ) {\n\n\t\t\tplanes[ 4 ].setComponents( me2, me6, me10, me14 ).normalize(); // far\n\t\t\tplanes[ 5 ].setComponents( me3 - me2, me7 - me6, me11 - me10, me15 - me14 ).normalize(); // near\n\n\t\t} else {\n\n\t\t\tplanes[ 4 ].setComponents( me3 - me2, me7 - me6, me11 - me10, me15 - me14 ).normalize(); // far\n\n\t\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tplanes[ 5 ].setComponents( me3 + me2, me7 + me6, me11 + me10, me15 + me14 ).normalize(); // near\n\n\t\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tplanes[ 5 ].setComponents( me2, me6, me10, me14 ).normalize(); // near\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.Frustum.setFromProjectionMatrix(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the 3D object's bounding sphere is intersecting this frustum.\n\t *\n\t * Note that the 3D object must have a geometry so that the bounding sphere can be calculated.\n\t *\n\t * @param {Object3D} object - The 3D object to test.\n\t * @return {boolean} Whether the 3D object's bounding sphere is intersecting this frustum or not.\n\t */\n\tintersectsObject( object ) {\n\n\t\tif ( object.boundingSphere !== undefined ) {\n\n\t\t\tif ( object.boundingSphere === null ) object.computeBoundingSphere();\n\n\t\t\t_sphere$3.copy( object.boundingSphere ).applyMatrix4( object.matrixWorld );\n\n\t\t} else {\n\n\t\t\tconst geometry = object.geometry;\n\n\t\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t\t_sphere$3.copy( geometry.boundingSphere ).applyMatrix4( object.matrixWorld );\n\n\t\t}\n\n\t\treturn this.intersectsSphere( _sphere$3 );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given sprite is intersecting this frustum.\n\t *\n\t * @param {Sprite} sprite - The sprite to test.\n\t * @return {boolean} Whether the sprite is intersecting this frustum or not.\n\t */\n\tintersectsSprite( sprite ) {\n\n\t\t_sphere$3.center.set( 0, 0, 0 );\n\n\t\tconst offset = _defaultSpriteCenter.distanceTo( sprite.center );\n\n\t\t_sphere$3.radius = 0.7071067811865476 + offset;\n\t\t_sphere$3.applyMatrix4( sprite.matrixWorld );\n\n\t\treturn this.intersectsSphere( _sphere$3 );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere is intersecting this frustum.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @return {boolean} Whether the bounding sphere is intersecting this frustum or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\tconst planes = this.planes;\n\t\tconst center = sphere.center;\n\t\tconst negRadius = - sphere.radius;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tconst distance = planes[ i ].distanceToPoint( center );\n\n\t\t\tif ( distance < negRadius ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box is intersecting this frustum.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the bounding box is intersecting this frustum or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\tconst planes = this.planes;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tconst plane = planes[ i ];\n\n\t\t\t// corner at max distance\n\n\t\t\t_vector$6.x = plane.normal.x > 0 ? box.max.x : box.min.x;\n\t\t\t_vector$6.y = plane.normal.y > 0 ? box.max.y : box.min.y;\n\t\t\t_vector$6.z = plane.normal.z > 0 ? box.max.z : box.min.z;\n\n\t\t\tif ( plane.distanceToPoint( _vector$6 ) < 0 ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within the frustum.\n\t *\n\t * @param {Vector3} point - The point to test.\n\t * @return {boolean} Whether the point lies within this frustum or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\tconst planes = this.planes;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tif ( planes[ i ].distanceToPoint( point ) < 0 ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Returns a new frustum with copied values from this instance.\n\t *\n\t * @return {Frustum} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _projScreenMatrix$2 = /*@__PURE__*/ new Matrix4();\nconst _frustum$1 = /*@__PURE__*/ new Frustum();\n\n/**\n * FrustumArray is used to determine if an object is visible in at least one camera\n * from an array of cameras. This is particularly useful for multi-view renderers.\n*/\nclass FrustumArray {\n\n\t/**\n\t * Constructs a new frustum array.\n\t *\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * The coordinate system to use.\n\t\t *\n\t\t * @type {WebGLCoordinateSystem|WebGPUCoordinateSystem}\n\t\t * @default WebGLCoordinateSystem\n\t\t */\n\t\tthis.coordinateSystem = WebGLCoordinateSystem;\n\n\t}\n\n\t/**\n\t * Returns `true` if the 3D object's bounding sphere is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Object3D} object - The 3D object to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the 3D object is visible in any camera.\n\t */\n\tintersectsObject( object, cameraArray ) {\n\n\t\tif ( ! cameraArray.isArrayCamera || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsObject( object ) ) {\n\n\t\t\t\treturn true; // Object is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given sprite is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Sprite} sprite - The sprite to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the sprite is visible in any camera.\n\t */\n\tintersectsSprite( sprite, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsSprite( sprite ) ) {\n\n\t\t\t\treturn true; // Sprite is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the sphere is visible in any camera.\n\t */\n\tintersectsSphere( sphere, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsSphere( sphere ) ) {\n\n\t\t\t\treturn true; // Sphere is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the box is visible in any camera.\n\t */\n\tintersectsBox( box, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsBox( box ) ) {\n\n\t\t\t\treturn true; // Box is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within any frustum\n\t * from the camera array.\n\t *\n\t * @param {Vector3} point - The point to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the point is visible in any camera.\n\t */\n\tcontainsPoint( point, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.containsPoint( point ) ) {\n\n\t\t\t\treturn true; // Point is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns a new frustum array with copied values from this instance.\n\t *\n\t * @return {FrustumArray} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new FrustumArray();\n\n\t}\n\n}\n\nfunction ascIdSort( a, b ) {\n\n\treturn a - b;\n\n}\n\nfunction sortOpaque( a, b ) {\n\n\treturn a.z - b.z;\n\n}\n\nfunction sortTransparent( a, b ) {\n\n\treturn b.z - a.z;\n\n}\n\nclass MultiDrawRenderList {\n\n\tconstructor() {\n\n\t\tthis.index = 0;\n\t\tthis.pool = [];\n\t\tthis.list = [];\n\n\t}\n\n\tpush( start, count, z, index ) {\n\n\t\tconst pool = this.pool;\n\t\tconst list = this.list;\n\t\tif ( this.index >= pool.length ) {\n\n\t\t\tpool.push( {\n\n\t\t\t\tstart: -1,\n\t\t\t\tcount: -1,\n\t\t\t\tz: -1,\n\t\t\t\tindex: -1,\n\n\t\t\t} );\n\n\t\t}\n\n\t\tconst item = pool[ this.index ];\n\t\tlist.push( item );\n\t\tthis.index ++;\n\n\t\titem.start = start;\n\t\titem.count = count;\n\t\titem.z = z;\n\t\titem.index = index;\n\n\t}\n\n\treset() {\n\n\t\tthis.list.length = 0;\n\t\tthis.index = 0;\n\n\t}\n\n}\n\nconst _matrix$1 = /*@__PURE__*/ new Matrix4();\nconst _whiteColor = /*@__PURE__*/ new Color( 1, 1, 1 );\nconst _frustum = /*@__PURE__*/ new Frustum();\nconst _frustumArray = /*@__PURE__*/ new FrustumArray();\nconst _box$1 = /*@__PURE__*/ new Box3();\nconst _sphere$2 = /*@__PURE__*/ new Sphere();\nconst _vector$5 = /*@__PURE__*/ new Vector3();\nconst _forward$1 = /*@__PURE__*/ new Vector3();\nconst _temp = /*@__PURE__*/ new Vector3();\nconst _renderList = /*@__PURE__*/ new MultiDrawRenderList();\nconst _mesh = /*@__PURE__*/ new Mesh();\nconst _batchIntersects = [];\n\n// copies data from attribute \"src\" into \"target\" starting at \"targetOffset\"\nfunction copyAttributeData( src, target, targetOffset = 0 ) {\n\n\tconst itemSize = target.itemSize;\n\tif ( src.isInterleavedBufferAttribute || src.array.constructor !== target.array.constructor ) {\n\n\t\t// use the component getters and setters if the array data cannot\n\t\t// be copied directly\n\t\tconst vertexCount = src.count;\n\t\tfor ( let i = 0; i < vertexCount; i ++ ) {\n\n\t\t\tfor ( let c = 0; c < itemSize; c ++ ) {\n\n\t\t\t\ttarget.setComponent( i + targetOffset, c, src.getComponent( i, c ) );\n\n\t\t\t}\n\n\t\t}\n\n\t} else {\n\n\t\t// faster copy approach using typed array set function\n\t\ttarget.array.set( src.array, targetOffset * itemSize );\n\n\t}\n\n\ttarget.needsUpdate = true;\n\n}\n\n// safely copies array contents to a potentially smaller array\nfunction copyArrayContents( src, target ) {\n\n\tif ( src.constructor !== target.constructor ) {\n\n\t\t// if arrays are of a different type (eg due to index size increasing) then data must be per-element copied\n\t\tconst len = Math.min( src.length, target.length );\n\t\tfor ( let i = 0; i < len; i ++ ) {\n\n\t\t\ttarget[ i ] = src[ i ];\n\n\t\t}\n\n\t} else {\n\n\t\t// if the arrays use the same data layout we can use a fast block copy\n\t\tconst len = Math.min( src.length, target.length );\n\t\ttarget.set( new src.constructor( src.buffer, 0, len ) );\n\n\t}\n\n}\n\n/**\n * A special version of a mesh with multi draw batch rendering support. Use\n * this class if you have to render a large number of objects with the same\n * material but with different geometries or world transformations. The usage of\n * `BatchedMesh` will help you to reduce the number of draw calls and thus improve the overall\n * rendering performance in your application.\n *\n * ```js\n * const box = new THREE.BoxGeometry( 1, 1, 1 );\n * const sphere = new THREE.SphereGeometry( 1, 12, 12 );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n *\n * // initialize and add geometries into the batched mesh\n * const batchedMesh = new BatchedMesh( 10, 5000, 10000, material );\n * const boxGeometryId = batchedMesh.addGeometry( box );\n * const sphereGeometryId = batchedMesh.addGeometry( sphere );\n *\n * // create instances of those geometries\n * const boxInstancedId1 = batchedMesh.addInstance( boxGeometryId );\n * const boxInstancedId2 = batchedMesh.addInstance( boxGeometryId );\n *\n * const sphereInstancedId1 = batchedMesh.addInstance( sphereGeometryId );\n * const sphereInstancedId2 = batchedMesh.addInstance( sphereGeometryId );\n *\n * // position the geometries\n * batchedMesh.setMatrixAt( boxInstancedId1, boxMatrix1 );\n * batchedMesh.setMatrixAt( boxInstancedId2, boxMatrix2 );\n *\n * batchedMesh.setMatrixAt( sphereInstancedId1, sphereMatrix1 );\n * batchedMesh.setMatrixAt( sphereInstancedId2, sphereMatrix2 );\n *\n * scene.add( batchedMesh );\n * ```\n *\n * @augments Mesh\n */\nclass BatchedMesh extends Mesh {\n\n\t/**\n\t * Constructs a new batched mesh.\n\t *\n\t * @param {number} maxInstanceCount - The maximum number of individual instances planned to be added and rendered.\n\t * @param {number} maxVertexCount - The maximum number of vertices to be used by all unique geometries.\n\t * @param {number} [maxIndexCount=maxVertexCount*2] - The maximum number of indices to be used by all unique geometries\n\t * @param {Material|Array} [material] - The mesh material.\n\t */\n\tconstructor( maxInstanceCount, maxVertexCount, maxIndexCount = maxVertexCount * 2, material ) {\n\n\t\tsuper( new BufferGeometry(), material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBatchedMesh = true;\n\n\t\t/**\n\t\t * When set ot `true`, the individual objects of a batch are frustum culled.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.perObjectFrustumCulled = true;\n\n\t\t/**\n\t\t * When set to `true`, the individual objects of a batch are sorted to improve overdraw-related artifacts.\n\t\t * If the material is marked as \"transparent\" objects are rendered back to front and if not then they are\n\t\t * rendered front to back.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.sortObjects = true;\n\n\t\t/**\n\t\t * The bounding box of the batched mesh. Can be computed via {@link BatchedMesh#computeBoundingBox}.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * The bounding sphere of the batched mesh. Can be computed via {@link BatchedMesh#computeBoundingSphere}.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t\t/**\n\t\t * Takes a sort a function that is run before render. The function takes a list of instances to\n\t\t * sort and a camera. The objects in the list include a \"z\" field to perform a depth-ordered\n\t\t * sort with.\n\t\t *\n\t\t * @type {?Function}\n\t\t * @default null\n\t\t */\n\t\tthis.customSort = null;\n\n\t\t// stores visible, active, and geometry id per instance and reserved buffer ranges for geometries\n\t\tthis._instanceInfo = [];\n\t\tthis._geometryInfo = [];\n\n\t\t// instance, geometry ids that have been set as inactive, and are available to be overwritten\n\t\tthis._availableInstanceIds = [];\n\t\tthis._availableGeometryIds = [];\n\n\t\t// used to track where the next point is that geometry should be inserted\n\t\tthis._nextIndexStart = 0;\n\t\tthis._nextVertexStart = 0;\n\t\tthis._geometryCount = 0;\n\n\t\t// flags\n\t\tthis._visibilityChanged = true;\n\t\tthis._geometryInitialized = false;\n\n\t\t// cached user options\n\t\tthis._maxInstanceCount = maxInstanceCount;\n\t\tthis._maxVertexCount = maxVertexCount;\n\t\tthis._maxIndexCount = maxIndexCount;\n\n\t\t// buffers for multi draw\n\t\tthis._multiDrawCounts = new Int32Array( maxInstanceCount );\n\t\tthis._multiDrawStarts = new Int32Array( maxInstanceCount );\n\t\tthis._multiDrawCount = 0;\n\t\tthis._multiDrawInstances = null;\n\n\t\t// Local matrix per geometry by using data texture\n\t\tthis._matricesTexture = null;\n\t\tthis._indirectTexture = null;\n\t\tthis._colorsTexture = null;\n\n\t\tthis._initMatricesTexture();\n\t\tthis._initIndirectTexture();\n\n\t}\n\n\t/**\n\t * The maximum number of individual instances that can be stored in the batch.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget maxInstanceCount() {\n\n\t\treturn this._maxInstanceCount;\n\n\t}\n\n\t/**\n\t * The instance count.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget instanceCount() {\n\n\t\treturn this._instanceInfo.length - this._availableInstanceIds.length;\n\n\t}\n\n\t/**\n\t * The number of unused vertices.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget unusedVertexCount() {\n\n\t\treturn this._maxVertexCount - this._nextVertexStart;\n\n\t}\n\n\t/**\n\t * The number of unused indices.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget unusedIndexCount() {\n\n\t\treturn this._maxIndexCount - this._nextIndexStart;\n\n\t}\n\n\t_initMatricesTexture() {\n\n\t\t// layout (1 matrix = 4 pixels)\n\t\t// RGBA RGBA RGBA RGBA (=> column1, column2, column3, column4)\n\t\t// with 8x8 pixel texture max 16 matrices * 4 pixels = (8 * 8)\n\t\t// 16x16 pixel texture max 64 matrices * 4 pixels = (16 * 16)\n\t\t// 32x32 pixel texture max 256 matrices * 4 pixels = (32 * 32)\n\t\t// 64x64 pixel texture max 1024 matrices * 4 pixels = (64 * 64)\n\n\t\tlet size = Math.sqrt( this._maxInstanceCount * 4 ); // 4 pixels needed for 1 matrix\n\t\tsize = Math.ceil( size / 4 ) * 4;\n\t\tsize = Math.max( size, 4 );\n\n\t\tconst matricesArray = new Float32Array( size * size * 4 ); // 4 floats per RGBA pixel\n\t\tconst matricesTexture = new DataTexture( matricesArray, size, size, RGBAFormat, FloatType );\n\n\t\tthis._matricesTexture = matricesTexture;\n\n\t}\n\n\t_initIndirectTexture() {\n\n\t\tlet size = Math.sqrt( this._maxInstanceCount );\n\t\tsize = Math.ceil( size );\n\n\t\tconst indirectArray = new Uint32Array( size * size );\n\t\tconst indirectTexture = new DataTexture( indirectArray, size, size, RedIntegerFormat, UnsignedIntType );\n\n\t\tthis._indirectTexture = indirectTexture;\n\n\t}\n\n\t_initColorsTexture() {\n\n\t\tlet size = Math.sqrt( this._maxInstanceCount );\n\t\tsize = Math.ceil( size );\n\n\t\t// 4 floats per RGBA pixel initialized to white\n\t\tconst colorsArray = new Float32Array( size * size * 4 ).fill( 1 );\n\t\tconst colorsTexture = new DataTexture( colorsArray, size, size, RGBAFormat, FloatType );\n\t\tcolorsTexture.colorSpace = ColorManagement.workingColorSpace;\n\n\t\tthis._colorsTexture = colorsTexture;\n\n\t}\n\n\t_initializeGeometry( reference ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst maxVertexCount = this._maxVertexCount;\n\t\tconst maxIndexCount = this._maxIndexCount;\n\t\tif ( this._geometryInitialized === false ) {\n\n\t\t\tfor ( const attributeName in reference.attributes ) {\n\n\t\t\t\tconst srcAttribute = reference.getAttribute( attributeName );\n\t\t\t\tconst { array, itemSize, normalized } = srcAttribute;\n\n\t\t\t\tconst dstArray = new array.constructor( maxVertexCount * itemSize );\n\t\t\t\tconst dstAttribute = new BufferAttribute( dstArray, itemSize, normalized );\n\n\t\t\t\tgeometry.setAttribute( attributeName, dstAttribute );\n\n\t\t\t}\n\n\t\t\tif ( reference.getIndex() !== null ) {\n\n\t\t\t\t// Reserve last u16 index for primitive restart.\n\t\t\t\tconst indexArray = maxVertexCount > 65535\n\t\t\t\t\t? new Uint32Array( maxIndexCount )\n\t\t\t\t\t: new Uint16Array( maxIndexCount );\n\n\t\t\t\tgeometry.setIndex( new BufferAttribute( indexArray, 1 ) );\n\n\t\t\t}\n\n\t\t\tthis._geometryInitialized = true;\n\n\t\t}\n\n\t}\n\n\t// Make sure the geometry is compatible with the existing combined geometry attributes\n\t_validateGeometry( geometry ) {\n\n\t\t// check to ensure the geometries are using consistent attributes and indices\n\t\tconst batchGeometry = this.geometry;\n\t\tif ( Boolean( geometry.getIndex() ) !== Boolean( batchGeometry.getIndex() ) ) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: All geometries must consistently have \"index\".' );\n\n\t\t}\n\n\t\tfor ( const attributeName in batchGeometry.attributes ) {\n\n\t\t\tif ( ! geometry.hasAttribute( attributeName ) ) {\n\n\t\t\t\tthrow new Error( `THREE.BatchedMesh: Added geometry missing \"${ attributeName }\". All geometries must have consistent attributes.` );\n\n\t\t\t}\n\n\t\t\tconst srcAttribute = geometry.getAttribute( attributeName );\n\t\t\tconst dstAttribute = batchGeometry.getAttribute( attributeName );\n\t\t\tif ( srcAttribute.itemSize !== dstAttribute.itemSize || srcAttribute.normalized !== dstAttribute.normalized ) {\n\n\t\t\t\tthrow new Error( 'THREE.BatchedMesh: All attributes must have a consistent itemSize and normalized value.' );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Validates the instance defined by the given ID.\n\t *\n\t * @param {number} instanceId - The instance to validate.\n\t */\n\tvalidateInstanceId( instanceId ) {\n\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tif ( instanceId < 0 || instanceId >= instanceInfo.length || instanceInfo[ instanceId ].active === false ) {\n\n\t\t\tthrow new Error( `THREE.BatchedMesh: Invalid instanceId ${instanceId}. Instance is either out of range or has been deleted.` );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Validates the geometry defined by the given ID.\n\t *\n\t * @param {number} geometryId - The geometry to validate.\n\t */\n\tvalidateGeometryId( geometryId ) {\n\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tif ( geometryId < 0 || geometryId >= geometryInfoList.length || geometryInfoList[ geometryId ].active === false ) {\n\n\t\t\tthrow new Error( `THREE.BatchedMesh: Invalid geometryId ${geometryId}. Geometry is either out of range or has been deleted.` );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Takes a sort a function that is run before render. The function takes a list of instances to\n\t * sort and a camera. The objects in the list include a \"z\" field to perform a depth-ordered sort with.\n\t *\n\t * @param {Function} func - The custom sort function.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetCustomSort( func ) {\n\n\t\tthis.customSort = func;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the bounding box, updating {@link BatchedMesh#boundingBox}.\n\t * Bounding boxes aren't computed by default. They need to be explicitly computed,\n\t * otherwise they are `null`.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tconst boundingBox = this.boundingBox;\n\t\tconst instanceInfo = this._instanceInfo;\n\n\t\tboundingBox.makeEmpty();\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( instanceInfo[ i ].active === false ) continue;\n\n\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\tthis.getBoundingBoxAt( geometryId, _box$1 ).applyMatrix4( _matrix$1 );\n\t\t\tboundingBox.union( _box$1 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere, updating {@link BatchedMesh#boundingSphere}.\n\t * Bounding spheres aren't computed by default. They need to be explicitly computed,\n\t * otherwise they are `null`.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tconst boundingSphere = this.boundingSphere;\n\t\tconst instanceInfo = this._instanceInfo;\n\n\t\tboundingSphere.makeEmpty();\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( instanceInfo[ i ].active === false ) continue;\n\n\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\tthis.getBoundingSphereAt( geometryId, _sphere$2 ).applyMatrix4( _matrix$1 );\n\t\t\tboundingSphere.union( _sphere$2 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Adds a new instance to the batch using the geometry of the given ID and returns\n\t * a new id referring to the new instance to be used by other functions.\n\t *\n\t * @param {number} geometryId - The ID of a previously added geometry via {@link BatchedMesh#addGeometry}.\n\t * @return {number} The instance ID.\n\t */\n\taddInstance( geometryId ) {\n\n\t\tconst atCapacity = this._instanceInfo.length >= this.maxInstanceCount;\n\n\t\t// ensure we're not over geometry\n\t\tif ( atCapacity && this._availableInstanceIds.length === 0 ) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Maximum item count reached.' );\n\n\t\t}\n\n\t\tconst instanceInfo = {\n\t\t\tvisible: true,\n\t\t\tactive: true,\n\t\t\tgeometryIndex: geometryId,\n\t\t};\n\n\t\tlet drawId = null;\n\n\t\t// Prioritize using previously freed instance ids\n\t\tif ( this._availableInstanceIds.length > 0 ) {\n\n\t\t\tthis._availableInstanceIds.sort( ascIdSort );\n\n\t\t\tdrawId = this._availableInstanceIds.shift();\n\t\t\tthis._instanceInfo[ drawId ] = instanceInfo;\n\n\t\t} else {\n\n\t\t\tdrawId = this._instanceInfo.length;\n\t\t\tthis._instanceInfo.push( instanceInfo );\n\n\t\t}\n\n\t\tconst matricesTexture = this._matricesTexture;\n\t\t_matrix$1.identity().toArray( matricesTexture.image.data, drawId * 16 );\n\t\tmatricesTexture.needsUpdate = true;\n\n\t\tconst colorsTexture = this._colorsTexture;\n\t\tif ( colorsTexture ) {\n\n\t\t\t_whiteColor.toArray( colorsTexture.image.data, drawId * 4 );\n\t\t\tcolorsTexture.needsUpdate = true;\n\n\t\t}\n\n\t\tthis._visibilityChanged = true;\n\t\treturn drawId;\n\n\t}\n\n\t/**\n\t * Adds the given geometry to the batch and returns the associated\n\t * geometry id referring to it to be used in other functions.\n\t *\n\t * @param {BufferGeometry} geometry - The geometry to add.\n\t * @param {number} [reservedVertexCount=-1] - Optional parameter specifying the amount of\n\t * vertex buffer space to reserve for the added geometry. This is necessary if it is planned\n\t * to set a new geometry at this index at a later time that is larger than the original geometry.\n\t * Defaults to the length of the given geometry vertex buffer.\n\t * @param {number} [reservedIndexCount=-1] - Optional parameter specifying the amount of index\n\t * buffer space to reserve for the added geometry. This is necessary if it is planned to set a\n\t * new geometry at this index at a later time that is larger than the original geometry. Defaults to\n\t * the length of the given geometry index buffer.\n\t * @return {number} The geometry ID.\n\t */\n\taddGeometry( geometry, reservedVertexCount = -1, reservedIndexCount = -1 ) {\n\n\t\tthis._initializeGeometry( geometry );\n\n\t\tthis._validateGeometry( geometry );\n\n\t\tconst geometryInfo = {\n\t\t\t// geometry information\n\t\t\tvertexStart: -1,\n\t\t\tvertexCount: -1,\n\t\t\treservedVertexCount: -1,\n\n\t\t\tindexStart: -1,\n\t\t\tindexCount: -1,\n\t\t\treservedIndexCount: -1,\n\n\t\t\t// draw range information\n\t\t\tstart: -1,\n\t\t\tcount: -1,\n\n\t\t\t// state\n\t\t\tboundingBox: null,\n\t\t\tboundingSphere: null,\n\t\t\tactive: true,\n\t\t};\n\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tgeometryInfo.vertexStart = this._nextVertexStart;\n\t\tgeometryInfo.reservedVertexCount = reservedVertexCount === -1 ? geometry.getAttribute( 'position' ).count : reservedVertexCount;\n\n\t\tconst index = geometry.getIndex();\n\t\tconst hasIndex = index !== null;\n\t\tif ( hasIndex ) {\n\n\t\t\tgeometryInfo.indexStart = this._nextIndexStart;\n\t\t\tgeometryInfo.reservedIndexCount = reservedIndexCount === -1 ? index.count : reservedIndexCount;\n\n\t\t}\n\n\t\tif (\n\t\t\tgeometryInfo.indexStart !== -1 &&\n\t\t\tgeometryInfo.indexStart + geometryInfo.reservedIndexCount > this._maxIndexCount ||\n\t\t\tgeometryInfo.vertexStart + geometryInfo.reservedVertexCount > this._maxVertexCount\n\t\t) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Reserved space request exceeds the maximum buffer size.' );\n\n\t\t}\n\n\t\t// update id\n\t\tlet geometryId;\n\t\tif ( this._availableGeometryIds.length > 0 ) {\n\n\t\t\tthis._availableGeometryIds.sort( ascIdSort );\n\n\t\t\tgeometryId = this._availableGeometryIds.shift();\n\t\t\tgeometryInfoList[ geometryId ] = geometryInfo;\n\n\n\t\t} else {\n\n\t\t\tgeometryId = this._geometryCount;\n\t\t\tthis._geometryCount ++;\n\t\t\tgeometryInfoList.push( geometryInfo );\n\n\t\t}\n\n\t\t// update the geometry\n\t\tthis.setGeometryAt( geometryId, geometry );\n\n\t\t// increment the next geometry position\n\t\tthis._nextIndexStart = geometryInfo.indexStart + geometryInfo.reservedIndexCount;\n\t\tthis._nextVertexStart = geometryInfo.vertexStart + geometryInfo.reservedVertexCount;\n\n\t\treturn geometryId;\n\n\t}\n\n\t/**\n\t * Replaces the geometry at the given ID with the provided geometry. Throws an error if there\n\t * is not enough space reserved for geometry. Calling this will change all instances that are\n\t * rendering that geometry.\n\t *\n\t * @param {number} geometryId - The ID of the geometry that should be replaced with the given geometry.\n\t * @param {BufferGeometry} geometry - The new geometry.\n\t * @return {number} The geometry ID.\n\t */\n\tsetGeometryAt( geometryId, geometry ) {\n\n\t\tif ( geometryId >= this._geometryCount ) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Maximum geometry count reached.' );\n\n\t\t}\n\n\t\tthis._validateGeometry( geometry );\n\n\t\tconst batchGeometry = this.geometry;\n\t\tconst hasIndex = batchGeometry.getIndex() !== null;\n\t\tconst dstIndex = batchGeometry.getIndex();\n\t\tconst srcIndex = geometry.getIndex();\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\tif (\n\t\t\thasIndex &&\n\t\t\tsrcIndex.count > geometryInfo.reservedIndexCount ||\n\t\t\tgeometry.attributes.position.count > geometryInfo.reservedVertexCount\n\t\t) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Reserved space not large enough for provided geometry.' );\n\n\t\t}\n\n\t\t// copy geometry buffer data over\n\t\tconst vertexStart = geometryInfo.vertexStart;\n\t\tconst reservedVertexCount = geometryInfo.reservedVertexCount;\n\t\tgeometryInfo.vertexCount = geometry.getAttribute( 'position' ).count;\n\n\t\tfor ( const attributeName in batchGeometry.attributes ) {\n\n\t\t\t// copy attribute data\n\t\t\tconst srcAttribute = geometry.getAttribute( attributeName );\n\t\t\tconst dstAttribute = batchGeometry.getAttribute( attributeName );\n\t\t\tcopyAttributeData( srcAttribute, dstAttribute, vertexStart );\n\n\t\t\t// fill the rest in with zeroes\n\t\t\tconst itemSize = srcAttribute.itemSize;\n\t\t\tfor ( let i = srcAttribute.count, l = reservedVertexCount; i < l; i ++ ) {\n\n\t\t\t\tconst index = vertexStart + i;\n\t\t\t\tfor ( let c = 0; c < itemSize; c ++ ) {\n\n\t\t\t\t\tdstAttribute.setComponent( index, c, 0 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tdstAttribute.needsUpdate = true;\n\t\t\tdstAttribute.addUpdateRange( vertexStart * itemSize, reservedVertexCount * itemSize );\n\n\t\t}\n\n\t\t// copy index\n\t\tif ( hasIndex ) {\n\n\t\t\tconst indexStart = geometryInfo.indexStart;\n\t\t\tconst reservedIndexCount = geometryInfo.reservedIndexCount;\n\t\t\tgeometryInfo.indexCount = geometry.getIndex().count;\n\n\t\t\t// copy index data over\n\t\t\tfor ( let i = 0; i < srcIndex.count; i ++ ) {\n\n\t\t\t\tdstIndex.setX( indexStart + i, vertexStart + srcIndex.getX( i ) );\n\n\t\t\t}\n\n\t\t\t// fill the rest in with zeroes\n\t\t\tfor ( let i = srcIndex.count, l = reservedIndexCount; i < l; i ++ ) {\n\n\t\t\t\tdstIndex.setX( indexStart + i, vertexStart );\n\n\t\t\t}\n\n\t\t\tdstIndex.needsUpdate = true;\n\t\t\tdstIndex.addUpdateRange( indexStart, geometryInfo.reservedIndexCount );\n\n\t\t}\n\n\t\t// update the draw range\n\t\tgeometryInfo.start = hasIndex ? geometryInfo.indexStart : geometryInfo.vertexStart;\n\t\tgeometryInfo.count = hasIndex ? geometryInfo.indexCount : geometryInfo.vertexCount;\n\n\t\t// store the bounding boxes\n\t\tgeometryInfo.boundingBox = null;\n\t\tif ( geometry.boundingBox !== null ) {\n\n\t\t\tgeometryInfo.boundingBox = geometry.boundingBox.clone();\n\n\t\t}\n\n\t\tgeometryInfo.boundingSphere = null;\n\t\tif ( geometry.boundingSphere !== null ) {\n\n\t\t\tgeometryInfo.boundingSphere = geometry.boundingSphere.clone();\n\n\t\t}\n\n\t\tthis._visibilityChanged = true;\n\t\treturn geometryId;\n\n\t}\n\n\t/**\n\t * Deletes the geometry defined by the given ID from this batch. Any instances referencing\n\t * this geometry will also be removed as a side effect.\n\t *\n\t * @param {number} geometryId - The ID of the geometry to remove from the batch.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tdeleteGeometry( geometryId ) {\n\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tif ( geometryId >= geometryInfoList.length || geometryInfoList[ geometryId ].active === false ) {\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\t// delete any instances associated with this geometry\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( instanceInfo[ i ].active && instanceInfo[ i ].geometryIndex === geometryId ) {\n\n\t\t\t\tthis.deleteInstance( i );\n\n\t\t\t}\n\n\t\t}\n\n\t\tgeometryInfoList[ geometryId ].active = false;\n\t\tthis._availableGeometryIds.push( geometryId );\n\t\tthis._visibilityChanged = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Deletes an existing instance from the batch using the given ID.\n\t *\n\t * @param {number} instanceId - The ID of the instance to remove from the batch.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tdeleteInstance( instanceId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tthis._instanceInfo[ instanceId ].active = false;\n\t\tthis._availableInstanceIds.push( instanceId );\n\t\tthis._visibilityChanged = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Repacks the sub geometries in [name] to remove any unused space remaining from\n\t * previously deleted geometry, freeing up space to add new geometry.\n\t *\n\t * @param {number} instanceId - The ID of the instance to remove from the batch.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\toptimize() {\n\n\t\t// track the next indices to copy data to\n\t\tlet nextVertexStart = 0;\n\t\tlet nextIndexStart = 0;\n\n\t\t// Iterate over all geometry ranges in order sorted from earliest in the geometry buffer to latest\n\t\t// in the geometry buffer. Because draw range objects can be reused there is no guarantee of their order.\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tconst indices = geometryInfoList\n\t\t\t.map( ( e, i ) => i )\n\t\t\t.sort( ( a, b ) => {\n\n\t\t\t\treturn geometryInfoList[ a ].vertexStart - geometryInfoList[ b ].vertexStart;\n\n\t\t\t} );\n\n\t\tconst geometry = this.geometry;\n\t\tfor ( let i = 0, l = geometryInfoList.length; i < l; i ++ ) {\n\n\t\t\t// if a geometry range is inactive then don't copy anything\n\t\t\tconst index = indices[ i ];\n\t\t\tconst geometryInfo = geometryInfoList[ index ];\n\t\t\tif ( geometryInfo.active === false ) {\n\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\t// if a geometry contains an index buffer then shift it, as well\n\t\t\tif ( geometry.index !== null ) {\n\n\t\t\t\tif ( geometryInfo.indexStart !== nextIndexStart ) {\n\n\t\t\t\t\tconst { indexStart, vertexStart, reservedIndexCount } = geometryInfo;\n\t\t\t\t\tconst index = geometry.index;\n\t\t\t\t\tconst array = index.array;\n\n\t\t\t\t\t// shift the index pointers based on how the vertex data will shift\n\t\t\t\t\t// adjusting the index must happen first so the original vertex start value is available\n\t\t\t\t\tconst elementDelta = nextVertexStart - vertexStart;\n\t\t\t\t\tfor ( let j = indexStart; j < indexStart + reservedIndexCount; j ++ ) {\n\n\t\t\t\t\t\tarray[ j ] = array[ j ] + elementDelta;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tindex.array.copyWithin( nextIndexStart, indexStart, indexStart + reservedIndexCount );\n\t\t\t\t\tindex.addUpdateRange( nextIndexStart, reservedIndexCount );\n\n\t\t\t\t\tgeometryInfo.indexStart = nextIndexStart;\n\n\t\t\t\t}\n\n\t\t\t\tnextIndexStart += geometryInfo.reservedIndexCount;\n\n\t\t\t}\n\n\t\t\t// if a geometry needs to be moved then copy attribute data to overwrite unused space\n\t\t\tif ( geometryInfo.vertexStart !== nextVertexStart ) {\n\n\t\t\t\tconst { vertexStart, reservedVertexCount } = geometryInfo;\n\t\t\t\tconst attributes = geometry.attributes;\n\t\t\t\tfor ( const key in attributes ) {\n\n\t\t\t\t\tconst attribute = attributes[ key ];\n\t\t\t\t\tconst { array, itemSize } = attribute;\n\t\t\t\t\tarray.copyWithin( nextVertexStart * itemSize, vertexStart * itemSize, ( vertexStart + reservedVertexCount ) * itemSize );\n\t\t\t\t\tattribute.addUpdateRange( nextVertexStart * itemSize, reservedVertexCount * itemSize );\n\n\t\t\t\t}\n\n\t\t\t\tgeometryInfo.vertexStart = nextVertexStart;\n\n\t\t\t}\n\n\t\t\tnextVertexStart += geometryInfo.reservedVertexCount;\n\t\t\tgeometryInfo.start = geometry.index ? geometryInfo.indexStart : geometryInfo.vertexStart;\n\n\t\t\t// step the next geometry points to the shifted position\n\t\t\tthis._nextIndexStart = geometry.index ? geometryInfo.indexStart + geometryInfo.reservedIndexCount : 0;\n\t\t\tthis._nextVertexStart = geometryInfo.vertexStart + geometryInfo.reservedVertexCount;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the bounding box for the given geometry.\n\t *\n\t * @param {number} geometryId - The ID of the geometry to return the bounding box for.\n\t * @param {Box3} target - The target object that is used to store the method's result.\n\t * @return {?Box3} The geometry's bounding box. Returns `null` if no geometry has been found for the given ID.\n\t */\n\tgetBoundingBoxAt( geometryId, target ) {\n\n\t\tif ( geometryId >= this._geometryCount ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// compute bounding box\n\t\tconst geometry = this.geometry;\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\tif ( geometryInfo.boundingBox === null ) {\n\n\t\t\tconst box = new Box3();\n\t\t\tconst index = geometry.index;\n\t\t\tconst position = geometry.attributes.position;\n\t\t\tfor ( let i = geometryInfo.start, l = geometryInfo.start + geometryInfo.count; i < l; i ++ ) {\n\n\t\t\t\tlet iv = i;\n\t\t\t\tif ( index ) {\n\n\t\t\t\t\tiv = index.getX( iv );\n\n\t\t\t\t}\n\n\t\t\t\tbox.expandByPoint( _vector$5.fromBufferAttribute( position, iv ) );\n\n\t\t\t}\n\n\t\t\tgeometryInfo.boundingBox = box;\n\n\t\t}\n\n\t\ttarget.copy( geometryInfo.boundingBox );\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the bounding sphere for the given geometry.\n\t *\n\t * @param {number} geometryId - The ID of the geometry to return the bounding sphere for.\n\t * @param {Sphere} target - The target object that is used to store the method's result.\n\t * @return {?Sphere} The geometry's bounding sphere. Returns `null` if no geometry has been found for the given ID.\n\t */\n\tgetBoundingSphereAt( geometryId, target ) {\n\n\t\tif ( geometryId >= this._geometryCount ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// compute bounding sphere\n\t\tconst geometry = this.geometry;\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\tif ( geometryInfo.boundingSphere === null ) {\n\n\t\t\tconst sphere = new Sphere();\n\t\t\tthis.getBoundingBoxAt( geometryId, _box$1 );\n\t\t\t_box$1.getCenter( sphere.center );\n\n\t\t\tconst index = geometry.index;\n\t\t\tconst position = geometry.attributes.position;\n\n\t\t\tlet maxRadiusSq = 0;\n\t\t\tfor ( let i = geometryInfo.start, l = geometryInfo.start + geometryInfo.count; i < l; i ++ ) {\n\n\t\t\t\tlet iv = i;\n\t\t\t\tif ( index ) {\n\n\t\t\t\t\tiv = index.getX( iv );\n\n\t\t\t\t}\n\n\t\t\t\t_vector$5.fromBufferAttribute( position, iv );\n\t\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, sphere.center.distanceToSquared( _vector$5 ) );\n\n\t\t\t}\n\n\t\t\tsphere.radius = Math.sqrt( maxRadiusSq );\n\t\t\tgeometryInfo.boundingSphere = sphere;\n\n\t\t}\n\n\t\ttarget.copy( geometryInfo.boundingSphere );\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Sets the given local transformation matrix to the defined instance.\n\t * Negatively scaled matrices are not supported.\n\t *\n\t * @param {number} instanceId - The ID of an instance to set the matrix of.\n\t * @param {Matrix4} matrix - A 4x4 matrix representing the local transformation of a single instance.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetMatrixAt( instanceId, matrix ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tconst matricesTexture = this._matricesTexture;\n\t\tconst matricesArray = this._matricesTexture.image.data;\n\t\tmatrix.toArray( matricesArray, instanceId * 16 );\n\t\tmatricesTexture.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the local transformation matrix of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the matrix of.\n\t * @param {Matrix4} matrix - The target object that is used to store the method's result.\n\t * @return {Matrix4} The instance's local transformation matrix.\n\t */\n\tgetMatrixAt( instanceId, matrix ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\t\treturn matrix.fromArray( this._matricesTexture.image.data, instanceId * 16 );\n\n\t}\n\n\t/**\n\t * Sets the given color to the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to set the color of.\n\t * @param {Color} color - The color to set the instance to.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetColorAt( instanceId, color ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tif ( this._colorsTexture === null ) {\n\n\t\t\tthis._initColorsTexture();\n\n\t\t}\n\n\t\tcolor.toArray( this._colorsTexture.image.data, instanceId * 4 );\n\t\tthis._colorsTexture.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the color of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the color of.\n\t * @param {Color} color - The target object that is used to store the method's result.\n\t * @return {Color} The instance's color.\n\t */\n\tgetColorAt( instanceId, color ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\t\treturn color.fromArray( this._colorsTexture.image.data, instanceId * 4 );\n\n\t}\n\n\t/**\n\t * Sets the visibility of the instance.\n\t *\n\t * @param {number} instanceId - The id of the instance to set the visibility of.\n\t * @param {boolean} visible - Whether the instance is visible or not.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetVisibleAt( instanceId, visible ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tif ( this._instanceInfo[ instanceId ].visible === visible ) {\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tthis._instanceInfo[ instanceId ].visible = visible;\n\t\tthis._visibilityChanged = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the visibility state of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the visibility state of.\n\t * @return {boolean} Whether the instance is visible or not.\n\t */\n\tgetVisibleAt( instanceId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\treturn this._instanceInfo[ instanceId ].visible;\n\n\t}\n\n\t/**\n\t * Sets the geometry ID of the instance at the given index.\n\t *\n\t * @param {number} instanceId - The ID of the instance to set the geometry ID of.\n\t * @param {number} geometryId - The geometry ID to be use by the instance.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetGeometryIdAt( instanceId, geometryId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\t\tthis.validateGeometryId( geometryId );\n\n\t\tthis._instanceInfo[ instanceId ].geometryIndex = geometryId;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the geometry ID of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the geometry ID of.\n\t * @return {number} The instance's geometry ID.\n\t */\n\tgetGeometryIdAt( instanceId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\treturn this._instanceInfo[ instanceId ].geometryIndex;\n\n\t}\n\n\t/**\n\t * Get the range representing the subset of triangles related to the attached geometry,\n\t * indicating the starting offset and count, or `null` if invalid.\n\t *\n\t * @param {number} geometryId - The id of the geometry to get the range of.\n\t * @param {Object} [target] - The target object that is used to store the method's result.\n\t * @return {{\n\t * \tvertexStart:number,vertexCount:number,reservedVertexCount:number,\n\t * \tindexStart:number,indexCount:number,reservedIndexCount:number,\n\t * \tstart:number,count:number\n\t * }} The result object with range data.\n\t */\n\tgetGeometryRangeAt( geometryId, target = {} ) {\n\n\t\tthis.validateGeometryId( geometryId );\n\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\ttarget.vertexStart = geometryInfo.vertexStart;\n\t\ttarget.vertexCount = geometryInfo.vertexCount;\n\t\ttarget.reservedVertexCount = geometryInfo.reservedVertexCount;\n\n\t\ttarget.indexStart = geometryInfo.indexStart;\n\t\ttarget.indexCount = geometryInfo.indexCount;\n\t\ttarget.reservedIndexCount = geometryInfo.reservedIndexCount;\n\n\t\ttarget.start = geometryInfo.start;\n\t\ttarget.count = geometryInfo.count;\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Resizes the necessary buffers to support the provided number of instances.\n\t * If the provided arguments shrink the number of instances but there are not enough\n\t * unused Ids at the end of the list then an error is thrown.\n\t *\n\t * @param {number} maxInstanceCount - The max number of individual instances that can be added and rendered by the batch.\n\t*/\n\tsetInstanceCount( maxInstanceCount ) {\n\n\t\t// shrink the available instances as much as possible\n\t\tconst availableInstanceIds = this._availableInstanceIds;\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tavailableInstanceIds.sort( ascIdSort );\n\t\twhile ( availableInstanceIds[ availableInstanceIds.length - 1 ] === instanceInfo.length - 1 ) {\n\n\t\t\tinstanceInfo.pop();\n\t\t\tavailableInstanceIds.pop();\n\n\t\t}\n\n\t\t// throw an error if it can't be shrunk to the desired size\n\t\tif ( maxInstanceCount < instanceInfo.length ) {\n\n\t\t\tthrow new Error( `BatchedMesh: Instance ids outside the range ${ maxInstanceCount } are being used. Cannot shrink instance count.` );\n\n\t\t}\n\n\t\t// copy the multi draw counts\n\t\tconst multiDrawCounts = new Int32Array( maxInstanceCount );\n\t\tconst multiDrawStarts = new Int32Array( maxInstanceCount );\n\t\tcopyArrayContents( this._multiDrawCounts, multiDrawCounts );\n\t\tcopyArrayContents( this._multiDrawStarts, multiDrawStarts );\n\n\t\tthis._multiDrawCounts = multiDrawCounts;\n\t\tthis._multiDrawStarts = multiDrawStarts;\n\t\tthis._maxInstanceCount = maxInstanceCount;\n\n\t\t// update texture data for instance sampling\n\t\tconst indirectTexture = this._indirectTexture;\n\t\tconst matricesTexture = this._matricesTexture;\n\t\tconst colorsTexture = this._colorsTexture;\n\n\t\tindirectTexture.dispose();\n\t\tthis._initIndirectTexture();\n\t\tcopyArrayContents( indirectTexture.image.data, this._indirectTexture.image.data );\n\n\t\tmatricesTexture.dispose();\n\t\tthis._initMatricesTexture();\n\t\tcopyArrayContents( matricesTexture.image.data, this._matricesTexture.image.data );\n\n\t\tif ( colorsTexture ) {\n\n\t\t\tcolorsTexture.dispose();\n\t\t\tthis._initColorsTexture();\n\t\t\tcopyArrayContents( colorsTexture.image.data, this._colorsTexture.image.data );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Resizes the available space in the batch's vertex and index buffer attributes to the provided sizes.\n\t * If the provided arguments shrink the geometry buffers but there is not enough unused space at the\n\t * end of the geometry attributes then an error is thrown.\n\t *\n\t * @param {number} maxVertexCount - The maximum number of vertices to be used by all unique geometries to resize to.\n\t * @param {number} maxIndexCount - The maximum number of indices to be used by all unique geometries to resize to.\n\t*/\n\tsetGeometrySize( maxVertexCount, maxIndexCount ) {\n\n\t\t// Check if we can shrink to the requested vertex attribute size\n\t\tconst validRanges = [ ...this._geometryInfo ].filter( info => info.active );\n\t\tconst requiredVertexLength = Math.max( ...validRanges.map( range => range.vertexStart + range.reservedVertexCount ) );\n\t\tif ( requiredVertexLength > maxVertexCount ) {\n\n\t\t\tthrow new Error( `BatchedMesh: Geometry vertex values are being used outside the range ${ maxIndexCount }. Cannot shrink further.` );\n\n\t\t}\n\n\t\t// Check if we can shrink to the requested index attribute size\n\t\tif ( this.geometry.index ) {\n\n\t\t\tconst requiredIndexLength = Math.max( ...validRanges.map( range => range.indexStart + range.reservedIndexCount ) );\n\t\t\tif ( requiredIndexLength > maxIndexCount ) {\n\n\t\t\t\tthrow new Error( `BatchedMesh: Geometry index values are being used outside the range ${ maxIndexCount }. Cannot shrink further.` );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\t// dispose of the previous geometry\n\t\tconst oldGeometry = this.geometry;\n\t\toldGeometry.dispose();\n\n\t\t// recreate the geometry needed based on the previous variant\n\t\tthis._maxVertexCount = maxVertexCount;\n\t\tthis._maxIndexCount = maxIndexCount;\n\n\t\tif ( this._geometryInitialized ) {\n\n\t\t\tthis._geometryInitialized = false;\n\t\t\tthis.geometry = new BufferGeometry();\n\t\t\tthis._initializeGeometry( oldGeometry );\n\n\t\t}\n\n\t\t// copy data from the previous geometry\n\t\tconst geometry = this.geometry;\n\t\tif ( oldGeometry.index ) {\n\n\t\t\tcopyArrayContents( oldGeometry.index.array, geometry.index.array );\n\n\t\t}\n\n\t\tfor ( const key in oldGeometry.attributes ) {\n\n\t\t\tcopyArrayContents( oldGeometry.attributes[ key ].array, geometry.attributes[ key ].array );\n\n\t\t}\n\n\t}\n\n\traycast( raycaster, intersects ) {\n\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst batchGeometry = this.geometry;\n\n\t\t// iterate over each geometry\n\t\t_mesh.material = this.material;\n\t\t_mesh.geometry.index = batchGeometry.index;\n\t\t_mesh.geometry.attributes = batchGeometry.attributes;\n\t\tif ( _mesh.geometry.boundingBox === null ) {\n\n\t\t\t_mesh.geometry.boundingBox = new Box3();\n\n\t\t}\n\n\t\tif ( _mesh.geometry.boundingSphere === null ) {\n\n\t\t\t_mesh.geometry.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( ! instanceInfo[ i ].visible || ! instanceInfo[ i ].active ) {\n\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\t\t\tconst geometryInfo = geometryInfoList[ geometryId ];\n\t\t\t_mesh.geometry.setDrawRange( geometryInfo.start, geometryInfo.count );\n\n\t\t\t// get the intersects\n\t\t\tthis.getMatrixAt( i, _mesh.matrixWorld ).premultiply( matrixWorld );\n\t\t\tthis.getBoundingBoxAt( geometryId, _mesh.geometry.boundingBox );\n\t\t\tthis.getBoundingSphereAt( geometryId, _mesh.geometry.boundingSphere );\n\t\t\t_mesh.raycast( raycaster, _batchIntersects );\n\n\t\t\t// add batch id to the intersects\n\t\t\tfor ( let j = 0, l = _batchIntersects.length; j < l; j ++ ) {\n\n\t\t\t\tconst intersect = _batchIntersects[ j ];\n\t\t\t\tintersect.object = this;\n\t\t\t\tintersect.batchId = i;\n\t\t\t\tintersects.push( intersect );\n\n\t\t\t}\n\n\t\t\t_batchIntersects.length = 0;\n\n\t\t}\n\n\t\t_mesh.material = null;\n\t\t_mesh.geometry.index = null;\n\t\t_mesh.geometry.attributes = {};\n\t\t_mesh.geometry.setDrawRange( 0, Infinity );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.geometry = source.geometry.clone();\n\t\tthis.perObjectFrustumCulled = source.perObjectFrustumCulled;\n\t\tthis.sortObjects = source.sortObjects;\n\t\tthis.boundingBox = source.boundingBox !== null ? source.boundingBox.clone() : null;\n\t\tthis.boundingSphere = source.boundingSphere !== null ? source.boundingSphere.clone() : null;\n\n\t\tthis._geometryInfo = source._geometryInfo.map( info => ( {\n\t\t\t...info,\n\n\t\t\tboundingBox: info.boundingBox !== null ? info.boundingBox.clone() : null,\n\t\t\tboundingSphere: info.boundingSphere !== null ? info.boundingSphere.clone() : null,\n\t\t} ) );\n\t\tthis._instanceInfo = source._instanceInfo.map( info => ( { ...info } ) );\n\n\t\tthis._availableInstanceIds = source._availableInstanceIds.slice();\n\t\tthis._availableGeometryIds = source._availableGeometryIds.slice();\n\n\t\tthis._nextIndexStart = source._nextIndexStart;\n\t\tthis._nextVertexStart = source._nextVertexStart;\n\t\tthis._geometryCount = source._geometryCount;\n\n\t\tthis._maxInstanceCount = source._maxInstanceCount;\n\t\tthis._maxVertexCount = source._maxVertexCount;\n\t\tthis._maxIndexCount = source._maxIndexCount;\n\n\t\tthis._geometryInitialized = source._geometryInitialized;\n\t\tthis._multiDrawCounts = source._multiDrawCounts.slice();\n\t\tthis._multiDrawStarts = source._multiDrawStarts.slice();\n\n\t\tthis._indirectTexture = source._indirectTexture.clone();\n\t\tthis._indirectTexture.image.data = this._indirectTexture.image.data.slice();\n\n\t\tthis._matricesTexture = source._matricesTexture.clone();\n\t\tthis._matricesTexture.image.data = this._matricesTexture.image.data.slice();\n\n\t\tif ( this._colorsTexture !== null ) {\n\n\t\t\tthis._colorsTexture = source._colorsTexture.clone();\n\t\t\tthis._colorsTexture.image.data = this._colorsTexture.image.data.slice();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\t// Assuming the geometry is not shared with other meshes\n\t\tthis.geometry.dispose();\n\n\t\tthis._matricesTexture.dispose();\n\t\tthis._matricesTexture = null;\n\n\t\tthis._indirectTexture.dispose();\n\t\tthis._indirectTexture = null;\n\n\t\tif ( this._colorsTexture !== null ) {\n\n\t\t\tthis._colorsTexture.dispose();\n\t\t\tthis._colorsTexture = null;\n\n\t\t}\n\n\t}\n\n\tonBeforeRender( renderer, scene, camera, geometry, material/*, _group*/ ) {\n\n\t\t// if visibility has not changed and frustum culling and object sorting is not required\n\t\t// then skip iterating over all items\n\t\tif ( ! this._visibilityChanged && ! this.perObjectFrustumCulled && ! this.sortObjects ) {\n\n\t\t\treturn;\n\n\t\t}\n\n\t\t// the indexed version of the multi draw function requires specifying the start\n\t\t// offset in bytes.\n\t\tconst index = geometry.getIndex();\n\t\tconst bytesPerElement = index === null ? 1 : index.array.BYTES_PER_ELEMENT;\n\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tconst multiDrawStarts = this._multiDrawStarts;\n\t\tconst multiDrawCounts = this._multiDrawCounts;\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tconst perObjectFrustumCulled = this.perObjectFrustumCulled;\n\t\tconst indirectTexture = this._indirectTexture;\n\t\tconst indirectArray = indirectTexture.image.data;\n\n\t\tconst frustum = camera.isArrayCamera ? _frustumArray : _frustum;\n\t\t// prepare the frustum in the local frame\n\t\tif ( perObjectFrustumCulled && ! camera.isArrayCamera ) {\n\n\t\t\t_matrix$1\n\t\t\t\t.multiplyMatrices( camera.projectionMatrix, camera.matrixWorldInverse )\n\t\t\t\t.multiply( this.matrixWorld );\n\n\t\t\t_frustum.setFromProjectionMatrix(\n\t\t\t\t_matrix$1,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t}\n\n\t\tlet multiDrawCount = 0;\n\t\tif ( this.sortObjects ) {\n\n\t\t\t// get the camera position in the local frame\n\t\t\t_matrix$1.copy( this.matrixWorld ).invert();\n\t\t\t_vector$5.setFromMatrixPosition( camera.matrixWorld ).applyMatrix4( _matrix$1 );\n\t\t\t_forward$1.set( 0, 0, -1 ).transformDirection( camera.matrixWorld ).transformDirection( _matrix$1 );\n\n\t\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\t\tif ( instanceInfo[ i ].visible && instanceInfo[ i ].active ) {\n\n\t\t\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\n\t\t\t\t\t// get the bounds in world space\n\t\t\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\t\t\tthis.getBoundingSphereAt( geometryId, _sphere$2 ).applyMatrix4( _matrix$1 );\n\n\t\t\t\t\t// determine whether the batched geometry is within the frustum\n\t\t\t\t\tlet culled = false;\n\t\t\t\t\tif ( perObjectFrustumCulled ) {\n\n\t\t\t\t\t\tculled = ! frustum.intersectsSphere( _sphere$2, camera );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! culled ) {\n\n\t\t\t\t\t\t// get the distance from camera used for sorting\n\t\t\t\t\t\tconst geometryInfo = geometryInfoList[ geometryId ];\n\t\t\t\t\t\tconst z = _temp.subVectors( _sphere$2.center, _vector$5 ).dot( _forward$1 );\n\t\t\t\t\t\t_renderList.push( geometryInfo.start, geometryInfo.count, z, i );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// Sort the draw ranges and prep for rendering\n\t\t\tconst list = _renderList.list;\n\t\t\tconst customSort = this.customSort;\n\t\t\tif ( customSort === null ) {\n\n\t\t\t\tlist.sort( material.transparent ? sortTransparent : sortOpaque );\n\n\t\t\t} else {\n\n\t\t\t\tcustomSort.call( this, list, camera );\n\n\t\t\t}\n\n\t\t\tfor ( let i = 0, l = list.length; i < l; i ++ ) {\n\n\t\t\t\tconst item = list[ i ];\n\t\t\t\tmultiDrawStarts[ multiDrawCount ] = item.start * bytesPerElement;\n\t\t\t\tmultiDrawCounts[ multiDrawCount ] = item.count;\n\t\t\t\tindirectArray[ multiDrawCount ] = item.index;\n\t\t\t\tmultiDrawCount ++;\n\n\t\t\t}\n\n\t\t\t_renderList.reset();\n\n\t\t} else {\n\n\t\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\t\tif ( instanceInfo[ i ].visible && instanceInfo[ i ].active ) {\n\n\t\t\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\n\t\t\t\t\t// determine whether the batched geometry is within the frustum\n\t\t\t\t\tlet culled = false;\n\t\t\t\t\tif ( perObjectFrustumCulled ) {\n\n\t\t\t\t\t\t// get the bounds in world space\n\t\t\t\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\t\t\t\tthis.getBoundingSphereAt( geometryId, _sphere$2 ).applyMatrix4( _matrix$1 );\n\t\t\t\t\t\tculled = ! frustum.intersectsSphere( _sphere$2, camera );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! culled ) {\n\n\t\t\t\t\t\tconst geometryInfo = geometryInfoList[ geometryId ];\n\t\t\t\t\t\tmultiDrawStarts[ multiDrawCount ] = geometryInfo.start * bytesPerElement;\n\t\t\t\t\t\tmultiDrawCounts[ multiDrawCount ] = geometryInfo.count;\n\t\t\t\t\t\tindirectArray[ multiDrawCount ] = i;\n\t\t\t\t\t\tmultiDrawCount ++;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tindirectTexture.needsUpdate = true;\n\t\tthis._multiDrawCount = multiDrawCount;\n\t\tthis._visibilityChanged = false;\n\n\t}\n\n\tonBeforeShadow( renderer, object, camera, shadowCamera, geometry, depthMaterial/* , group */ ) {\n\n\t\tthis.onBeforeRender( renderer, null, shadowCamera, geometry, depthMaterial );\n\n\t}\n\n}\n\n/**\n * A material for rendering line primitives.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * ```js\n * const material = new THREE.LineBasicMaterial( { color: 0xffffff } );\n * ```\n *\n * @augments Material\n */\nclass LineBasicMaterial extends Material {\n\n\t/**\n\t * Constructs a new line basic material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineBasicMaterial = true;\n\n\t\tthis.type = 'LineBasicMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * Sets the color of the lines using data from a texture. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * Controls line thickness or lines.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}. WebGL and WebGPU\n\t\t * ignore this setting and always render line primitives with a\n\t\t * width of one pixel.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.linewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of line ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('butt'|'round'|'square')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.linecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of line joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.linejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.linewidth = source.linewidth;\n\t\tthis.linecap = source.linecap;\n\t\tthis.linejoin = source.linejoin;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _vStart = /*@__PURE__*/ new Vector3();\nconst _vEnd = /*@__PURE__*/ new Vector3();\n\nconst _inverseMatrix$1 = /*@__PURE__*/ new Matrix4();\nconst _ray$1 = /*@__PURE__*/ new Ray();\nconst _sphere$1 = /*@__PURE__*/ new Sphere();\n\nconst _intersectPointOnRay = /*@__PURE__*/ new Vector3();\nconst _intersectPointOnSegment = /*@__PURE__*/ new Vector3();\n\n/**\n * A continuous line. The line are rendered by connecting consecutive\n * vertices with straight lines.\n *\n * ```js\n * const material = new THREE.LineBasicMaterial( { color: 0x0000ff } );\n *\n * const points = [];\n * points.push( new THREE.Vector3( - 10, 0, 0 ) );\n * points.push( new THREE.Vector3( 0, 10, 0 ) );\n * points.push( new THREE.Vector3( 10, 0, 0 ) );\n *\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const line = new THREE.Line( geometry, material );\n * scene.add( line );\n * ```\n *\n * @augments Object3D\n */\nclass Line extends Object3D {\n\n\t/**\n\t * Constructs a new line.\n\t *\n\t * @param {BufferGeometry} [geometry] - The line geometry.\n\t * @param {Material|Array} [material] - The line material.\n\t */\n\tconstructor( geometry = new BufferGeometry(), material = new LineBasicMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLine = true;\n\n\t\tthis.type = 'Line';\n\n\t\t/**\n\t\t * The line geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = geometry;\n\n\t\t/**\n\t\t * The line material.\n\t\t *\n\t\t * @type {Material|Array}\n\t\t * @default LineBasicMaterial\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * A dictionary representing the morph targets in the geometry. The key is the\n\t\t * morph targets name, the value its attribute index. This member is `undefined`\n\t\t * by default and only set when morph targets are detected in the geometry.\n\t\t *\n\t\t * @type {Object|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetDictionary = undefined;\n\n\t\t/**\n\t\t * An array of weights typically in the range `[0,1]` that specify how much of the morph\n\t\t * is applied. This member is `undefined` by default and only set when morph targets are\n\t\t * detected in the geometry.\n\t\t *\n\t\t * @type {Array|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetInfluences = undefined;\n\n\t\tthis.updateMorphTargets();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.material = Array.isArray( source.material ) ? source.material.slice() : source.material;\n\t\tthis.geometry = source.geometry;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes an array of distance values which are necessary for rendering dashed lines.\n\t * For each vertex in the geometry, the method calculates the cumulative length from the\n\t * current point to the very beginning of the line.\n\t *\n\t * @return {Line} A reference to this line.\n\t */\n\tcomputeLineDistances() {\n\n\t\tconst geometry = this.geometry;\n\n\t\t// we assume non-indexed geometry\n\n\t\tif ( geometry.index === null ) {\n\n\t\t\tconst positionAttribute = geometry.attributes.position;\n\t\t\tconst lineDistances = [ 0 ];\n\n\t\t\tfor ( let i = 1, l = positionAttribute.count; i < l; i ++ ) {\n\n\t\t\t\t_vStart.fromBufferAttribute( positionAttribute, i - 1 );\n\t\t\t\t_vEnd.fromBufferAttribute( positionAttribute, i );\n\n\t\t\t\tlineDistances[ i ] = lineDistances[ i - 1 ];\n\t\t\t\tlineDistances[ i ] += _vStart.distanceTo( _vEnd );\n\n\t\t\t}\n\n\t\t\tgeometry.setAttribute( 'lineDistance', new Float32BufferAttribute( lineDistances, 1 ) );\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.Line.computeLineDistances(): Computation only possible with non-indexed BufferGeometry.' );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this line.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst threshold = raycaster.params.Line.threshold;\n\t\tconst drawRange = geometry.drawRange;\n\n\t\t// Checking boundingSphere distance to ray\n\n\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t_sphere$1.copy( geometry.boundingSphere );\n\t\t_sphere$1.applyMatrix4( matrixWorld );\n\t\t_sphere$1.radius += threshold;\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere$1 ) === false ) return;\n\n\t\t//\n\n\t\t_inverseMatrix$1.copy( matrixWorld ).invert();\n\t\t_ray$1.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$1 );\n\n\t\tconst localThreshold = threshold / ( ( this.scale.x + this.scale.y + this.scale.z ) / 3 );\n\t\tconst localThresholdSq = localThreshold * localThreshold;\n\n\t\tconst step = this.isLineSegments ? 2 : 1;\n\n\t\tconst index = geometry.index;\n\t\tconst attributes = geometry.attributes;\n\t\tconst positionAttribute = attributes.position;\n\n\t\tif ( index !== null ) {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( index.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, l = end - 1; i < l; i += step ) {\n\n\t\t\t\tconst a = index.getX( i );\n\t\t\t\tconst b = index.getX( i + 1 );\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, a, b, i );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( this.isLineLoop ) {\n\n\t\t\t\tconst a = index.getX( end - 1 );\n\t\t\t\tconst b = index.getX( start );\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, a, b, end - 1 );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( positionAttribute.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, l = end - 1; i < l; i += step ) {\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, i, i + 1, i );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( this.isLineLoop ) {\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, end - 1, start, end - 1 );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the values of {@link Line#morphTargetDictionary} and {@link Line#morphTargetInfluences}\n\t * to make sure existing morph targets can influence this 3D object.\n\t */\n\tupdateMorphTargets() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst morphAttributes = geometry.morphAttributes;\n\t\tconst keys = Object.keys( morphAttributes );\n\n\t\tif ( keys.length > 0 ) {\n\n\t\t\tconst morphAttribute = morphAttributes[ keys[ 0 ] ];\n\n\t\t\tif ( morphAttribute !== undefined ) {\n\n\t\t\t\tthis.morphTargetInfluences = [];\n\t\t\t\tthis.morphTargetDictionary = {};\n\n\t\t\t\tfor ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) {\n\n\t\t\t\t\tconst name = morphAttribute[ m ].name || String( m );\n\n\t\t\t\t\tthis.morphTargetInfluences.push( 0 );\n\t\t\t\t\tthis.morphTargetDictionary[ name ] = m;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n}\n\nfunction checkIntersection( object, raycaster, ray, thresholdSq, a, b, i ) {\n\n\tconst positionAttribute = object.geometry.attributes.position;\n\n\t_vStart.fromBufferAttribute( positionAttribute, a );\n\t_vEnd.fromBufferAttribute( positionAttribute, b );\n\n\tconst distSq = ray.distanceSqToSegment( _vStart, _vEnd, _intersectPointOnRay, _intersectPointOnSegment );\n\n\tif ( distSq > thresholdSq ) return;\n\n\t_intersectPointOnRay.applyMatrix4( object.matrixWorld ); // Move back to world space for distance calculation\n\n\tconst distance = raycaster.ray.origin.distanceTo( _intersectPointOnRay );\n\n\tif ( distance < raycaster.near || distance > raycaster.far ) return;\n\n\treturn {\n\n\t\tdistance: distance,\n\t\t// What do we want? intersection point on the ray or on the segment??\n\t\t// point: raycaster.ray.at( distance ),\n\t\tpoint: _intersectPointOnSegment.clone().applyMatrix4( object.matrixWorld ),\n\t\tindex: i,\n\t\tface: null,\n\t\tfaceIndex: null,\n\t\tbarycoord: null,\n\t\tobject: object\n\n\t};\n\n}\n\nconst _start = /*@__PURE__*/ new Vector3();\nconst _end = /*@__PURE__*/ new Vector3();\n\n/**\n * A series of lines drawn between pairs of vertices.\n *\n * @augments Line\n */\nclass LineSegments extends Line {\n\n\t/**\n\t * Constructs a new line segments.\n\t *\n\t * @param {BufferGeometry} [geometry] - The line geometry.\n\t * @param {Material|Array} [material] - The line material.\n\t */\n\tconstructor( geometry, material ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineSegments = true;\n\n\t\tthis.type = 'LineSegments';\n\n\t}\n\n\tcomputeLineDistances() {\n\n\t\tconst geometry = this.geometry;\n\n\t\t// we assume non-indexed geometry\n\n\t\tif ( geometry.index === null ) {\n\n\t\t\tconst positionAttribute = geometry.attributes.position;\n\t\t\tconst lineDistances = [];\n\n\t\t\tfor ( let i = 0, l = positionAttribute.count; i < l; i += 2 ) {\n\n\t\t\t\t_start.fromBufferAttribute( positionAttribute, i );\n\t\t\t\t_end.fromBufferAttribute( positionAttribute, i + 1 );\n\n\t\t\t\tlineDistances[ i ] = ( i === 0 ) ? 0 : lineDistances[ i - 1 ];\n\t\t\t\tlineDistances[ i + 1 ] = lineDistances[ i ] + _start.distanceTo( _end );\n\n\t\t\t}\n\n\t\t\tgeometry.setAttribute( 'lineDistance', new Float32BufferAttribute( lineDistances, 1 ) );\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.LineSegments.computeLineDistances(): Computation only possible with non-indexed BufferGeometry.' );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A continuous line. This is nearly the same as {@link Line} the only difference\n * is that the last vertex is connected with the first vertex in order to close\n * the line to form a loop.\n *\n * @augments Line\n */\nclass LineLoop extends Line {\n\n\t/**\n\t * Constructs a new line loop.\n\t *\n\t * @param {BufferGeometry} [geometry] - The line geometry.\n\t * @param {Material|Array} [material] - The line material.\n\t */\n\tconstructor( geometry, material ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineLoop = true;\n\n\t\tthis.type = 'LineLoop';\n\n\t}\n\n}\n\n/**\n * A material for rendering point primitives.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * ```js\n * const vertices = [];\n *\n * for ( let i = 0; i < 10000; i ++ ) {\n * \tconst x = THREE.MathUtils.randFloatSpread( 2000 );\n * \tconst y = THREE.MathUtils.randFloatSpread( 2000 );\n * \tconst z = THREE.MathUtils.randFloatSpread( 2000 );\n *\n * \tvertices.push( x, y, z );\n * }\n *\n * const geometry = new THREE.BufferGeometry();\n * geometry.setAttribute( 'position', new THREE.Float32BufferAttribute( vertices, 3 ) );\n * const material = new THREE.PointsMaterial( { color: 0x888888 } );\n * const points = new THREE.Points( geometry, material );\n * scene.add( points );\n * ```\n *\n * @augments Material\n */\nclass PointsMaterial extends Material {\n\n\t/**\n\t * Constructs a new points material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPointsMaterial = true;\n\n\t\tthis.type = 'PointsMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * Defines the size of the points in pixels.\n\t\t *\n\t\t * Might be capped if the value exceeds hardware dependent parameters like [gl.ALIASED_POINT_SIZE_RANGE]{@link https://developer.mozilla.org/en-US/docs/Web/API/WebGLRenderingContext/getParamete}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.size = 1;\n\n\t\t/**\n\t\t * Specifies whether size of individual points is attenuated by the camera depth (perspective camera only).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.sizeAttenuation = true;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.size = source.size;\n\t\tthis.sizeAttenuation = source.sizeAttenuation;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _inverseMatrix = /*@__PURE__*/ new Matrix4();\nconst _ray = /*@__PURE__*/ new Ray();\nconst _sphere = /*@__PURE__*/ new Sphere();\nconst _position$2 = /*@__PURE__*/ new Vector3();\n\n/**\n * A class for displaying points or point clouds.\n *\n * @augments Object3D\n */\nclass Points extends Object3D {\n\n\t/**\n\t * Constructs a new point cloud.\n\t *\n\t * @param {BufferGeometry} [geometry] - The points geometry.\n\t * @param {Material|Array} [material] - The points material.\n\t */\n\tconstructor( geometry = new BufferGeometry(), material = new PointsMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPoints = true;\n\n\t\tthis.type = 'Points';\n\n\t\t/**\n\t\t * The points geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = geometry;\n\n\t\t/**\n\t\t * The line material.\n\t\t *\n\t\t * @type {Material|Array}\n\t\t * @default PointsMaterial\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * A dictionary representing the morph targets in the geometry. The key is the\n\t\t * morph targets name, the value its attribute index. This member is `undefined`\n\t\t * by default and only set when morph targets are detected in the geometry.\n\t\t *\n\t\t * @type {Object|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetDictionary = undefined;\n\n\t\t/**\n\t\t * An array of weights typically in the range `[0,1]` that specify how much of the morph\n\t\t * is applied. This member is `undefined` by default and only set when morph targets are\n\t\t * detected in the geometry.\n\t\t *\n\t\t * @type {Array|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetInfluences = undefined;\n\n\t\tthis.updateMorphTargets();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.material = Array.isArray( source.material ) ? source.material.slice() : source.material;\n\t\tthis.geometry = source.geometry;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this point cloud.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst threshold = raycaster.params.Points.threshold;\n\t\tconst drawRange = geometry.drawRange;\n\n\t\t// Checking boundingSphere distance to ray\n\n\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t_sphere.copy( geometry.boundingSphere );\n\t\t_sphere.applyMatrix4( matrixWorld );\n\t\t_sphere.radius += threshold;\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere ) === false ) return;\n\n\t\t//\n\n\t\t_inverseMatrix.copy( matrixWorld ).invert();\n\t\t_ray.copy( raycaster.ray ).applyMatrix4( _inverseMatrix );\n\n\t\tconst localThreshold = threshold / ( ( this.scale.x + this.scale.y + this.scale.z ) / 3 );\n\t\tconst localThresholdSq = localThreshold * localThreshold;\n\n\t\tconst index = geometry.index;\n\t\tconst attributes = geometry.attributes;\n\t\tconst positionAttribute = attributes.position;\n\n\t\tif ( index !== null ) {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( index.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, il = end; i < il; i ++ ) {\n\n\t\t\t\tconst a = index.getX( i );\n\n\t\t\t\t_position$2.fromBufferAttribute( positionAttribute, a );\n\n\t\t\t\ttestPoint( _position$2, a, localThresholdSq, matrixWorld, raycaster, intersects, this );\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( positionAttribute.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, l = end; i < l; i ++ ) {\n\n\t\t\t\t_position$2.fromBufferAttribute( positionAttribute, i );\n\n\t\t\t\ttestPoint( _position$2, i, localThresholdSq, matrixWorld, raycaster, intersects, this );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the values of {@link Points#morphTargetDictionary} and {@link Points#morphTargetInfluences}\n\t * to make sure existing morph targets can influence this 3D object.\n\t */\n\tupdateMorphTargets() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst morphAttributes = geometry.morphAttributes;\n\t\tconst keys = Object.keys( morphAttributes );\n\n\t\tif ( keys.length > 0 ) {\n\n\t\t\tconst morphAttribute = morphAttributes[ keys[ 0 ] ];\n\n\t\t\tif ( morphAttribute !== undefined ) {\n\n\t\t\t\tthis.morphTargetInfluences = [];\n\t\t\t\tthis.morphTargetDictionary = {};\n\n\t\t\t\tfor ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) {\n\n\t\t\t\t\tconst name = morphAttribute[ m ].name || String( m );\n\n\t\t\t\t\tthis.morphTargetInfluences.push( 0 );\n\t\t\t\t\tthis.morphTargetDictionary[ name ] = m;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n}\n\nfunction testPoint( point, index, localThresholdSq, matrixWorld, raycaster, intersects, object ) {\n\n\tconst rayPointDistanceSq = _ray.distanceSqToPoint( point );\n\n\tif ( rayPointDistanceSq < localThresholdSq ) {\n\n\t\tconst intersectPoint = new Vector3();\n\n\t\t_ray.closestPointToPoint( point, intersectPoint );\n\t\tintersectPoint.applyMatrix4( matrixWorld );\n\n\t\tconst distance = raycaster.ray.origin.distanceTo( intersectPoint );\n\n\t\tif ( distance < raycaster.near || distance > raycaster.far ) return;\n\n\t\tintersects.push( {\n\n\t\t\tdistance: distance,\n\t\t\tdistanceToRay: Math.sqrt( rayPointDistanceSq ),\n\t\t\tpoint: intersectPoint,\n\t\t\tindex: index,\n\t\t\tface: null,\n\t\t\tfaceIndex: null,\n\t\t\tbarycoord: null,\n\t\t\tobject: object\n\n\t\t} );\n\n\t}\n\n}\n\n/**\n * A texture for use with a video.\n *\n * ```js\n * // assuming you have created a HTML video element with id=\"video\"\n * const video = document.getElementById( 'video' );\n * const texture = new THREE.VideoTexture( video );\n * ```\n *\n * Note: When using video textures with {@link WebGPURenderer}, {@link Texture#colorSpace} must be\n * set to THREE.SRGBColorSpace.\n *\n * Note: After the initial use of a texture, its dimensions, format, and type\n * cannot be changed. Instead, call {@link Texture#dispose} on the texture and instantiate a new one.\n *\n * @augments Texture\n */\nclass VideoTexture extends Texture {\n\n\t/**\n\t * Constructs a new video texture.\n\t *\n\t * @param {HTMLVideoElement} video - The video element to use as a data source for the texture.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t */\n\tconstructor( video, mapping, wrapS, wrapT, magFilter = LinearFilter, minFilter = LinearFilter, format, type, anisotropy ) {\n\n\t\tsuper( video, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isVideoTexture = true;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * The video frame request callback identifier, which is a positive integer.\n\t\t *\n\t\t * Value of 0 represents no scheduled rVFC.\n\t\t *\n\t\t * @private\n\t\t * @type {number}\n\t\t */\n\t\tthis._requestVideoFrameCallbackId = 0;\n\n\t\tconst scope = this;\n\n\t\tfunction updateVideo() {\n\n\t\t\tscope.needsUpdate = true;\n\t\t\tscope._requestVideoFrameCallbackId = video.requestVideoFrameCallback( updateVideo );\n\n\t\t}\n\n\t\tif ( 'requestVideoFrameCallback' in video ) {\n\n\t\t\tthis._requestVideoFrameCallbackId = video.requestVideoFrameCallback( updateVideo );\n\n\t\t}\n\n\t}\n\n\tclone() {\n\n\t\treturn new this.constructor( this.image ).copy( this );\n\n\t}\n\n\t/**\n\t * This method is called automatically by the renderer and sets {@link Texture#needsUpdate}\n\t * to `true` every time a new frame is available.\n\t *\n\t * Only relevant if `requestVideoFrameCallback` is not supported in the browser.\n\t */\n\tupdate() {\n\n\t\tconst video = this.image;\n\t\tconst hasVideoFrameCallback = 'requestVideoFrameCallback' in video;\n\n\t\tif ( hasVideoFrameCallback === false && video.readyState >= video.HAVE_CURRENT_DATA ) {\n\n\t\t\tthis.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\tdispose() {\n\n\t\tif ( this._requestVideoFrameCallbackId !== 0 ) {\n\n\t\t\tthis.source.data.cancelVideoFrameCallback( this._requestVideoFrameCallbackId );\n\n\t\t}\n\n\t\tsuper.dispose();\n\n\t}\n\n}\n\n/**\n * This class can be used as an alternative way to define video data. Instead of using\n * an instance of `HTMLVideoElement` like with `VideoTexture`, `VideoFrameTexture` expects each frame is\n * defined manually via {@link VideoFrameTexture#setFrame}. A typical use case for this module is when\n * video frames are decoded with the WebCodecs API.\n *\n * ```js\n * const texture = new THREE.VideoFrameTexture();\n * texture.setFrame( frame );\n * ```\n *\n * @augments VideoTexture\n */\nclass VideoFrameTexture extends VideoTexture {\n\n\t/**\n\t * Constructs a new video frame texture.\n\t *\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t */\n\tconstructor( mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ) {\n\n\t\tsuper( {}, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isVideoFrameTexture = true;\n\n\t}\n\n\t/**\n\t * This method overwritten with an empty implementation since\n\t * this type of texture is updated via `setFrame()`.\n\t */\n\tupdate() {}\n\n\tclone() {\n\n\t\treturn new this.constructor().copy( this ); // restoring Texture.clone()\n\n\t}\n\n\t/**\n\t * Sets the current frame of the video. This will automatically update the texture\n\t * so the data can be used for rendering.\n\t *\n\t * @param {VideoFrame} frame - The video frame.\n\t */\n\tsetFrame( frame ) {\n\n\t\tthis.image = frame;\n\t\tthis.needsUpdate = true;\n\n\t}\n\n}\n\n/**\n * This class can only be used in combination with `copyFramebufferToTexture()` methods\n * of renderers. It extracts the contents of the current bound framebuffer and provides it\n * as a texture for further usage.\n *\n * ```js\n * const pixelRatio = window.devicePixelRatio;\n * const textureSize = 128 * pixelRatio;\n *\n * const frameTexture = new FramebufferTexture( textureSize, textureSize );\n *\n * // calculate start position for copying part of the frame data\n * const vector = new Vector2();\n * vector.x = ( window.innerWidth * pixelRatio / 2 ) - ( textureSize / 2 );\n * vector.y = ( window.innerHeight * pixelRatio / 2 ) - ( textureSize / 2 );\n *\n * renderer.render( scene, camera );\n *\n * // copy part of the rendered frame into the framebuffer texture\n * renderer.copyFramebufferToTexture( frameTexture, vector );\n * ```\n *\n * @augments Texture\n */\nclass FramebufferTexture extends Texture {\n\n\t/**\n\t * Constructs a new framebuffer texture.\n\t *\n\t * @param {number} [width] - The width of the texture.\n\t * @param {number} [height] - The height of the texture.\n\t */\n\tconstructor( width, height ) {\n\n\t\tsuper( { width, height } );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isFramebufferTexture = true;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default to disable filtering.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.magFilter = NearestFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default to disable filtering.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.minFilter = NearestFilter;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\tthis.needsUpdate = true;\n\n\t}\n\n}\n\n/**\n * Creates a texture based on data in compressed form.\n *\n * These texture are usually loaded with {@link CompressedTextureLoader}.\n *\n * @augments Texture\n */\nclass CompressedTexture extends Texture {\n\n\t/**\n\t * Constructs a new compressed texture.\n\t *\n\t * @param {Array} mipmaps - This array holds for all mipmaps (including the bases mip)\n\t * the data and dimensions.\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space.\n\t */\n\tconstructor( mipmaps, width, height, format, type, mapping, wrapS, wrapT, magFilter, minFilter, anisotropy, colorSpace ) {\n\n\t\tsuper( null, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCompressedTexture = true;\n\n\t\t/**\n\t\t * The image property of a compressed texture just defines its dimensions.\n\t\t *\n\t\t * @type {{width:number,height:number}}\n\t\t */\n\t\tthis.image = { width: width, height: height };\n\n\t\t/**\n\t\t * This array holds for all mipmaps (including the bases mip) the data and dimensions.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.mipmaps = mipmaps;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default since it is not possible to\n\t\t * flip compressed textures.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t * @readonly\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default since it is not\n\t\t * possible to generate mipmaps for compressed data. Mipmaps\n\t\t * must be embedded in the compressed texture file.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t * @readonly\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t}\n\n}\n\n/**\n * Creates a texture 2D array based on data in compressed form.\n *\n * These texture are usually loaded with {@link CompressedTextureLoader}.\n *\n * @augments CompressedTexture\n */\nclass CompressedArrayTexture extends CompressedTexture {\n\n\t/**\n\t * Constructs a new compressed array texture.\n\t *\n\t * @param {Array} mipmaps - This array holds for all mipmaps (including the bases mip)\n\t * the data and dimensions.\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} depth - The depth of the texture.\n\t * @param {number} [format=RGBAFormat] - The min filter value.\n\t * @param {number} [type=UnsignedByteType] - The min filter value.\n\t */\n\tconstructor( mipmaps, width, height, depth, format, type ) {\n\n\t\tsuper( mipmaps, width, height, format, type );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCompressedArrayTexture = true;\n\n\t\t/**\n\t\t * The image property of a compressed texture just defines its dimensions.\n\t\t *\n\t\t * @name CompressedArrayTexture#image\n\t\t * @type {{width:number,height:number,depth:number}}\n\t\t */\n\t\tthis.image.depth = depth;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped in the depth and corresponds to\n\t\t * *W* in UVW mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapR = ClampToEdgeWrapping;\n\n\t\t/**\n\t\t * A set of all layers which need to be updated in the texture.\n\t\t *\n\t\t * @type {Set}\n\t\t */\n\t\tthis.layerUpdates = new Set();\n\n\t}\n\n\t/**\n\t * Describes that a specific layer of the texture needs to be updated.\n\t * Normally when {@link Texture#needsUpdate} is set to `true`, the\n\t * entire compressed texture array is sent to the GPU. Marking specific\n\t * layers will only transmit subsets of all mipmaps associated with a\n\t * specific depth in the array which is often much more performant.\n\t *\n\t * @param {number} layerIndex - The layer index that should be updated.\n\t */\n\taddLayerUpdate( layerIndex ) {\n\n\t\tthis.layerUpdates.add( layerIndex );\n\n\t}\n\n\t/**\n\t * Resets the layer updates registry.\n\t */\n\tclearLayerUpdates() {\n\n\t\tthis.layerUpdates.clear();\n\n\t}\n\n}\n\n/**\n * Creates a cube texture based on data in compressed form.\n *\n * These texture are usually loaded with {@link CompressedTextureLoader}.\n *\n * @augments CompressedTexture\n */\nclass CompressedCubeTexture extends CompressedTexture {\n\n\t/**\n\t * Constructs a new compressed texture.\n\t *\n\t * @param {Array} images - An array of compressed textures.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t */\n\tconstructor( images, format, type ) {\n\n\t\tsuper( undefined, images[ 0 ].width, images[ 0 ].height, format, type, CubeReflectionMapping );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCompressedCubeTexture = true;\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubeTexture = true;\n\n\t\tthis.image = images;\n\n\t}\n\n}\n\n/**\n * Creates a texture from a canvas element.\n *\n * This is almost the same as the base texture class, except that it sets {@link Texture#needsUpdate}\n * to `true` immediately since a canvas can directly be used for rendering.\n *\n * @augments Texture\n */\nclass CanvasTexture extends Texture {\n\n\t/**\n\t * Constructs a new texture.\n\t *\n\t * @param {HTMLCanvasElement} [canvas] - The HTML canvas element.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t */\n\tconstructor( canvas, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ) {\n\n\t\tsuper( canvas, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCanvasTexture = true;\n\n\t\tthis.needsUpdate = true;\n\n\t}\n\n}\n\n/**\n * This class can be used to automatically save the depth information of a\n * rendering into a texture.\n *\n * @augments Texture\n */\nclass DepthTexture extends Texture {\n\n\t/**\n\t * Constructs a new depth texture.\n\t *\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} [type=UnsignedIntType] - The texture type.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearFilter] - The min filter value.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {number} [format=DepthFormat] - The texture format.\n\t * @param {number} [depth=1] - The depth of the texture.\n\t */\n\tconstructor( width, height, type = UnsignedIntType, mapping, wrapS, wrapT, magFilter = NearestFilter, minFilter = NearestFilter, anisotropy, format = DepthFormat, depth = 1 ) {\n\n\t\tif ( format !== DepthFormat && format !== DepthStencilFormat ) {\n\n\t\t\tthrow new Error( 'DepthTexture format must be either THREE.DepthFormat or THREE.DepthStencilFormat' );\n\n\t\t}\n\n\t\tconst image = { width: width, height: height, depth: depth };\n\n\t\tsuper( image, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDepthTexture = true;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * Code corresponding to the depth compare function.\n\t\t *\n\t\t * @type {?(NeverCompare|LessCompare|EqualCompare|LessEqualCompare|GreaterCompare|NotEqualCompare|GreaterEqualCompare|AlwaysCompare)}\n\t\t * @default null\n\t\t */\n\t\tthis.compareFunction = null;\n\n\t}\n\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.source = new Source( Object.assign( {}, source.image ) ); // see #30540\n\t\tthis.compareFunction = source.compareFunction;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tif ( this.compareFunction !== null ) data.compareFunction = this.compareFunction;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Represents a texture created externally with the same renderer context.\n *\n * This may be a texture from a protected media stream, device camera feed,\n * or other data feeds like a depth sensor.\n *\n * Note that this class is only supported in {@link WebGLRenderer}, and in\n * the {@link WebGPURenderer} WebGPU backend.\n *\n * @augments Texture\n */\nclass ExternalTexture extends Texture {\n\n\t/**\n\t * Creates a new raw texture.\n\t *\n\t * @param {?(WebGLTexture|GPUTexture)} [sourceTexture=null] - The external texture.\n\t */\n\tconstructor( sourceTexture = null ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The external source texture.\n\t\t *\n\t\t * @type {?(WebGLTexture|GPUTexture)}\n\t\t * @default null\n\t\t */\n\t\tthis.sourceTexture = sourceTexture;\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isExternalTexture = true;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.sourceTexture = source.sourceTexture;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a capsule.\n *\n * ```js\n * const geometry = new THREE.CapsuleGeometry( 1, 1, 4, 8, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const capsule = new THREE.Mesh( geometry, material );\n * scene.add( capsule );\n * ```\n *\n * @augments BufferGeometry\n */\nclass CapsuleGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new capsule geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the capsule.\n\t * @param {number} [height=1] - Height of the middle section.\n\t * @param {number} [capSegments=4] - Number of curve segments used to build each cap.\n\t * @param {number} [radialSegments=8] - Number of segmented faces around the circumference of the capsule. Must be an integer >= 3.\n\t * @param {number} [heightSegments=1] - Number of rows of faces along the height of the middle section. Must be an integer >= 1.\n\t */\n\tconstructor( radius = 1, height = 1, capSegments = 4, radialSegments = 8, heightSegments = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CapsuleGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\theight: height,\n\t\t\tcapSegments: capSegments,\n\t\t\tradialSegments: radialSegments,\n\t\t\theightSegments: heightSegments,\n\t\t};\n\n\t\theight = Math.max( 0, height );\n\t\tcapSegments = Math.max( 1, Math.floor( capSegments ) );\n\t\tradialSegments = Math.max( 3, Math.floor( radialSegments ) );\n\t\theightSegments = Math.max( 1, Math.floor( heightSegments ) );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst halfHeight = height / 2;\n\t\tconst capArcLength = ( Math.PI / 2 ) * radius;\n\t\tconst cylinderPartLength = height;\n\t\tconst totalArcLength = 2 * capArcLength + cylinderPartLength;\n\n\t\tconst numVerticalSegments = capSegments * 2 + heightSegments;\n\t\tconst verticesPerRow = radialSegments + 1;\n\n\t\tconst normal = new Vector3();\n\t\tconst vertex = new Vector3();\n\n\t\t// generate vertices, normals, and uvs\n\n\t\tfor ( let iy = 0; iy <= numVerticalSegments; iy ++ ) {\n\n\t\t\tlet currentArcLength = 0;\n\t\t\tlet profileY = 0;\n\t\t\tlet profileRadius = 0;\n\t\t\tlet normalYComponent = 0;\n\n\t\t\tif ( iy <= capSegments ) {\n\n\t\t\t\t// bottom cap\n\t\t\t\tconst segmentProgress = iy / capSegments;\n\t\t\t\tconst angle = ( segmentProgress * Math.PI ) / 2;\n\t\t\t\tprofileY = - halfHeight - radius * Math.cos( angle );\n\t\t\t\tprofileRadius = radius * Math.sin( angle );\n\t\t\t\tnormalYComponent = - radius * Math.cos( angle );\n\t\t\t\tcurrentArcLength = segmentProgress * capArcLength;\n\n\t\t\t} else if ( iy <= capSegments + heightSegments ) {\n\n\t\t\t\t// middle section\n\t\t\t\tconst segmentProgress = ( iy - capSegments ) / heightSegments;\n\t\t\t\tprofileY = - halfHeight + segmentProgress * height;\n\t\t\t\tprofileRadius = radius;\n\t\t\t\tnormalYComponent = 0;\n\t\t\t\tcurrentArcLength = capArcLength + segmentProgress * cylinderPartLength;\n\n\t\t\t} else {\n\n\t\t\t\t// top cap\n\t\t\t\tconst segmentProgress =\n\t\t\t\t\t( iy - capSegments - heightSegments ) / capSegments;\n\t\t\t\tconst angle = ( segmentProgress * Math.PI ) / 2;\n\t\t\t\tprofileY = halfHeight + radius * Math.sin( angle );\n\t\t\t\tprofileRadius = radius * Math.cos( angle );\n\t\t\t\tnormalYComponent = radius * Math.sin( angle );\n\t\t\t\tcurrentArcLength =\n\t\t\t\t\tcapArcLength + cylinderPartLength + segmentProgress * capArcLength;\n\n\t\t\t}\n\n\t\t\tconst v = Math.max( 0, Math.min( 1, currentArcLength / totalArcLength ) );\n\n\n\t\t\t// special case for the poles\n\n\t\t\tlet uOffset = 0;\n\n\t\t\tif ( iy === 0 ) {\n\n\t\t\t\tuOffset = 0.5 / radialSegments;\n\n\t\t\t} else if ( iy === numVerticalSegments ) {\n\n\t\t\t\tuOffset = -0.5 / radialSegments;\n\n\t\t\t}\n\n\t\t\tfor ( let ix = 0; ix <= radialSegments; ix ++ ) {\n\n\t\t\t\tconst u = ix / radialSegments;\n\t\t\t\tconst theta = u * Math.PI * 2;\n\n\t\t\t\tconst sinTheta = Math.sin( theta );\n\t\t\t\tconst cosTheta = Math.cos( theta );\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = - profileRadius * cosTheta;\n\t\t\t\tvertex.y = profileY;\n\t\t\t\tvertex.z = profileRadius * sinTheta;\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormal.set(\n\t\t\t\t\t- profileRadius * cosTheta,\n\t\t\t\t\tnormalYComponent,\n\t\t\t\t\tprofileRadius * sinTheta\n\t\t\t\t);\n\t\t\t\tnormal.normalize();\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( u + uOffset, v );\n\n\t\t\t}\n\n\t\t\tif ( iy > 0 ) {\n\n\t\t\t\tconst prevIndexRow = ( iy - 1 ) * verticesPerRow;\n\t\t\t\tfor ( let ix = 0; ix < radialSegments; ix ++ ) {\n\n\t\t\t\t\tconst i1 = prevIndexRow + ix;\n\t\t\t\t\tconst i2 = prevIndexRow + ix + 1;\n\t\t\t\t\tconst i3 = iy * verticesPerRow + ix;\n\t\t\t\t\tconst i4 = iy * verticesPerRow + ix + 1;\n\n\t\t\t\t\tindices.push( i1, i2, i3 );\n\t\t\t\t\tindices.push( i2, i4, i3 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {CapsuleGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new CapsuleGeometry( data.radius, data.height, data.capSegments, data.radialSegments, data.heightSegments );\n\n\t}\n\n}\n\n/**\n * A simple shape of Euclidean geometry. It is constructed from a\n * number of triangular segments that are oriented around a central point and\n * extend as far out as a given radius. It is built counter-clockwise from a\n * start angle and a given central angle. It can also be used to create\n * regular polygons, where the number of segments determines the number of\n * sides.\n *\n * ```js\n * const geometry = new THREE.CircleGeometry( 5, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const circle = new THREE.Mesh( geometry, material );\n * scene.add( circle )\n * ```\n *\n * @augments BufferGeometry\n */\nclass CircleGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new circle geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the circle.\n\t * @param {number} [segments=32] - Number of segments (triangles), minimum = `3`.\n\t * @param {number} [thetaStart=0] - Start angle for first segment in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - The central angle, often called theta,\n\t * of the circular sector in radians. The default value results in a complete circle.\n\t */\n\tconstructor( radius = 1, segments = 32, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CircleGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tsegments: segments,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\tsegments = Math.max( 3, segments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst vertex = new Vector3();\n\t\tconst uv = new Vector2();\n\n\t\t// center point\n\n\t\tvertices.push( 0, 0, 0 );\n\t\tnormals.push( 0, 0, 1 );\n\t\tuvs.push( 0.5, 0.5 );\n\n\t\tfor ( let s = 0, i = 3; s <= segments; s ++, i += 3 ) {\n\n\t\t\tconst segment = thetaStart + s / segments * thetaLength;\n\n\t\t\t// vertex\n\n\t\t\tvertex.x = radius * Math.cos( segment );\n\t\t\tvertex.y = radius * Math.sin( segment );\n\n\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t// normal\n\n\t\t\tnormals.push( 0, 0, 1 );\n\n\t\t\t// uvs\n\n\t\t\tuv.x = ( vertices[ i ] / radius + 1 ) / 2;\n\t\t\tuv.y = ( vertices[ i + 1 ] / radius + 1 ) / 2;\n\n\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let i = 1; i <= segments; i ++ ) {\n\n\t\t\tindices.push( i, i + 1, 0 );\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {CircleGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new CircleGeometry( data.radius, data.segments, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a cylinder.\n *\n * ```js\n * const geometry = new THREE.CylinderGeometry( 5, 5, 20, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const cylinder = new THREE.Mesh( geometry, material );\n * scene.add( cylinder );\n * ```\n *\n * @augments BufferGeometry\n */\nclass CylinderGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new cylinder geometry.\n\t *\n\t * @param {number} [radiusTop=1] - Radius of the cylinder at the top.\n\t * @param {number} [radiusBottom=1] - Radius of the cylinder at the bottom.\n\t * @param {number} [height=1] - Height of the cylinder.\n\t * @param {number} [radialSegments=32] - Number of segmented faces around the circumference of the cylinder.\n\t * @param {number} [heightSegments=1] - Number of rows of faces along the height of the cylinder.\n\t * @param {boolean} [openEnded=false] - Whether the base of the cylinder is open or capped.\n\t * @param {number} [thetaStart=0] - Start angle for first segment, in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - The central angle, often called theta, of the circular sector, in radians.\n\t * The default value results in a complete cylinder.\n\t */\n\tconstructor( radiusTop = 1, radiusBottom = 1, height = 1, radialSegments = 32, heightSegments = 1, openEnded = false, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CylinderGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradiusTop: radiusTop,\n\t\t\tradiusBottom: radiusBottom,\n\t\t\theight: height,\n\t\t\tradialSegments: radialSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\topenEnded: openEnded,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\tconst scope = this;\n\n\t\tradialSegments = Math.floor( radialSegments );\n\t\theightSegments = Math.floor( heightSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tlet index = 0;\n\t\tconst indexArray = [];\n\t\tconst halfHeight = height / 2;\n\t\tlet groupStart = 0;\n\n\t\t// generate geometry\n\n\t\tgenerateTorso();\n\n\t\tif ( openEnded === false ) {\n\n\t\t\tif ( radiusTop > 0 ) generateCap( true );\n\t\t\tif ( radiusBottom > 0 ) generateCap( false );\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\tfunction generateTorso() {\n\n\t\t\tconst normal = new Vector3();\n\t\t\tconst vertex = new Vector3();\n\n\t\t\tlet groupCount = 0;\n\n\t\t\t// this will be used to calculate the normal\n\t\t\tconst slope = ( radiusBottom - radiusTop ) / height;\n\n\t\t\t// generate vertices, normals and uvs\n\n\t\t\tfor ( let y = 0; y <= heightSegments; y ++ ) {\n\n\t\t\t\tconst indexRow = [];\n\n\t\t\t\tconst v = y / heightSegments;\n\n\t\t\t\t// calculate the radius of the current row\n\n\t\t\t\tconst radius = v * ( radiusBottom - radiusTop ) + radiusTop;\n\n\t\t\t\tfor ( let x = 0; x <= radialSegments; x ++ ) {\n\n\t\t\t\t\tconst u = x / radialSegments;\n\n\t\t\t\t\tconst theta = u * thetaLength + thetaStart;\n\n\t\t\t\t\tconst sinTheta = Math.sin( theta );\n\t\t\t\t\tconst cosTheta = Math.cos( theta );\n\n\t\t\t\t\t// vertex\n\n\t\t\t\t\tvertex.x = radius * sinTheta;\n\t\t\t\t\tvertex.y = - v * height + halfHeight;\n\t\t\t\t\tvertex.z = radius * cosTheta;\n\t\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t\t// normal\n\n\t\t\t\t\tnormal.set( sinTheta, slope, cosTheta ).normalize();\n\t\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t\t// uv\n\n\t\t\t\t\tuvs.push( u, 1 - v );\n\n\t\t\t\t\t// save index of vertex in respective row\n\n\t\t\t\t\tindexRow.push( index ++ );\n\n\t\t\t\t}\n\n\t\t\t\t// now save vertices of the row in our index array\n\n\t\t\t\tindexArray.push( indexRow );\n\n\t\t\t}\n\n\t\t\t// generate indices\n\n\t\t\tfor ( let x = 0; x < radialSegments; x ++ ) {\n\n\t\t\t\tfor ( let y = 0; y < heightSegments; y ++ ) {\n\n\t\t\t\t\t// we use the index array to access the correct indices\n\n\t\t\t\t\tconst a = indexArray[ y ][ x ];\n\t\t\t\t\tconst b = indexArray[ y + 1 ][ x ];\n\t\t\t\t\tconst c = indexArray[ y + 1 ][ x + 1 ];\n\t\t\t\t\tconst d = indexArray[ y ][ x + 1 ];\n\n\t\t\t\t\t// faces\n\n\t\t\t\t\tif ( radiusTop > 0 || y !== 0 ) {\n\n\t\t\t\t\t\tindices.push( a, b, d );\n\t\t\t\t\t\tgroupCount += 3;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( radiusBottom > 0 || y !== heightSegments - 1 ) {\n\n\t\t\t\t\t\tindices.push( b, c, d );\n\t\t\t\t\t\tgroupCount += 3;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// add a group to the geometry. this will ensure multi material support\n\n\t\t\tscope.addGroup( groupStart, groupCount, 0 );\n\n\t\t\t// calculate new start value for groups\n\n\t\t\tgroupStart += groupCount;\n\n\t\t}\n\n\t\tfunction generateCap( top ) {\n\n\t\t\t// save the index of the first center vertex\n\t\t\tconst centerIndexStart = index;\n\n\t\t\tconst uv = new Vector2();\n\t\t\tconst vertex = new Vector3();\n\n\t\t\tlet groupCount = 0;\n\n\t\t\tconst radius = ( top === true ) ? radiusTop : radiusBottom;\n\t\t\tconst sign = ( top === true ) ? 1 : -1;\n\n\t\t\t// first we generate the center vertex data of the cap.\n\t\t\t// because the geometry needs one set of uvs per face,\n\t\t\t// we must generate a center vertex per face/segment\n\n\t\t\tfor ( let x = 1; x <= radialSegments; x ++ ) {\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertices.push( 0, halfHeight * sign, 0 );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormals.push( 0, sign, 0 );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( 0.5, 0.5 );\n\n\t\t\t\t// increase index\n\n\t\t\t\tindex ++;\n\n\t\t\t}\n\n\t\t\t// save the index of the last center vertex\n\t\t\tconst centerIndexEnd = index;\n\n\t\t\t// now we generate the surrounding vertices, normals and uvs\n\n\t\t\tfor ( let x = 0; x <= radialSegments; x ++ ) {\n\n\t\t\t\tconst u = x / radialSegments;\n\t\t\t\tconst theta = u * thetaLength + thetaStart;\n\n\t\t\t\tconst cosTheta = Math.cos( theta );\n\t\t\t\tconst sinTheta = Math.sin( theta );\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = radius * sinTheta;\n\t\t\t\tvertex.y = halfHeight * sign;\n\t\t\t\tvertex.z = radius * cosTheta;\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormals.push( 0, sign, 0 );\n\n\t\t\t\t// uv\n\n\t\t\t\tuv.x = ( cosTheta * 0.5 ) + 0.5;\n\t\t\t\tuv.y = ( sinTheta * 0.5 * sign ) + 0.5;\n\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t\t// increase index\n\n\t\t\t\tindex ++;\n\n\t\t\t}\n\n\t\t\t// generate indices\n\n\t\t\tfor ( let x = 0; x < radialSegments; x ++ ) {\n\n\t\t\t\tconst c = centerIndexStart + x;\n\t\t\t\tconst i = centerIndexEnd + x;\n\n\t\t\t\tif ( top === true ) {\n\n\t\t\t\t\t// face top\n\n\t\t\t\t\tindices.push( i, i + 1, c );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// face bottom\n\n\t\t\t\t\tindices.push( i + 1, i, c );\n\n\t\t\t\t}\n\n\t\t\t\tgroupCount += 3;\n\n\t\t\t}\n\n\t\t\t// add a group to the geometry. this will ensure multi material support\n\n\t\t\tscope.addGroup( groupStart, groupCount, top === true ? 1 : 2 );\n\n\t\t\t// calculate new start value for groups\n\n\t\t\tgroupStart += groupCount;\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {CylinderGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new CylinderGeometry( data.radiusTop, data.radiusBottom, data.height, data.radialSegments, data.heightSegments, data.openEnded, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a cone.\n *\n * ```js\n * const geometry = new THREE.ConeGeometry( 5, 20, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const cone = new THREE.Mesh(geometry, material );\n * scene.add( cone );\n * ```\n *\n * @augments CylinderGeometry\n */\nclass ConeGeometry extends CylinderGeometry {\n\n\t/**\n\t * Constructs a new cone geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the cone base.\n\t * @param {number} [height=1] - Height of the cone.\n\t * @param {number} [radialSegments=32] - Number of segmented faces around the circumference of the cone.\n\t * @param {number} [heightSegments=1] - Number of rows of faces along the height of the cone.\n\t * @param {boolean} [openEnded=false] - Whether the base of the cone is open or capped.\n\t * @param {number} [thetaStart=0] - Start angle for first segment, in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - The central angle, often called theta, of the circular sector, in radians.\n\t * The default value results in a complete cone.\n\t */\n\tconstructor( radius = 1, height = 1, radialSegments = 32, heightSegments = 1, openEnded = false, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper( 0, radius, height, radialSegments, heightSegments, openEnded, thetaStart, thetaLength );\n\n\t\tthis.type = 'ConeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\theight: height,\n\t\t\tradialSegments: radialSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\topenEnded: openEnded,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {ConeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new ConeGeometry( data.radius, data.height, data.radialSegments, data.heightSegments, data.openEnded, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A polyhedron is a solid in three dimensions with flat faces. This class\n * will take an array of vertices, project them onto a sphere, and then\n * divide them up to the desired level of detail.\n *\n * @augments BufferGeometry\n */\nclass PolyhedronGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new polyhedron geometry.\n\t *\n\t * @param {Array} [vertices] - A flat array of vertices describing the base shape.\n\t * @param {Array} [indices] - A flat array of indices describing the base shape.\n\t * @param {number} [radius=1] - The radius of the shape.\n\t * @param {number} [detail=0] - How many levels to subdivide the geometry. The more detail, the smoother the shape.\n\t */\n\tconstructor( vertices = [], indices = [], radius = 1, detail = 0 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'PolyhedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tvertices: vertices,\n\t\t\tindices: indices,\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t\t// default buffer data\n\n\t\tconst vertexBuffer = [];\n\t\tconst uvBuffer = [];\n\n\t\t// the subdivision creates the vertex buffer data\n\n\t\tsubdivide( detail );\n\n\t\t// all vertices should lie on a conceptual sphere with a given radius\n\n\t\tapplyRadius( radius );\n\n\t\t// finally, create the uv data\n\n\t\tgenerateUVs();\n\n\t\t// build non-indexed geometry\n\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertexBuffer, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( vertexBuffer.slice(), 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvBuffer, 2 ) );\n\n\t\tif ( detail === 0 ) {\n\n\t\t\tthis.computeVertexNormals(); // flat normals\n\n\t\t} else {\n\n\t\t\tthis.normalizeNormals(); // smooth normals\n\n\t\t}\n\n\t\t// helper functions\n\n\t\tfunction subdivide( detail ) {\n\n\t\t\tconst a = new Vector3();\n\t\t\tconst b = new Vector3();\n\t\t\tconst c = new Vector3();\n\n\t\t\t// iterate over all faces and apply a subdivision with the given detail value\n\n\t\t\tfor ( let i = 0; i < indices.length; i += 3 ) {\n\n\t\t\t\t// get the vertices of the face\n\n\t\t\t\tgetVertexByIndex( indices[ i + 0 ], a );\n\t\t\t\tgetVertexByIndex( indices[ i + 1 ], b );\n\t\t\t\tgetVertexByIndex( indices[ i + 2 ], c );\n\n\t\t\t\t// perform subdivision\n\n\t\t\t\tsubdivideFace( a, b, c, detail );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction subdivideFace( a, b, c, detail ) {\n\n\t\t\tconst cols = detail + 1;\n\n\t\t\t// we use this multidimensional array as a data structure for creating the subdivision\n\n\t\t\tconst v = [];\n\n\t\t\t// construct all of the vertices for this subdivision\n\n\t\t\tfor ( let i = 0; i <= cols; i ++ ) {\n\n\t\t\t\tv[ i ] = [];\n\n\t\t\t\tconst aj = a.clone().lerp( c, i / cols );\n\t\t\t\tconst bj = b.clone().lerp( c, i / cols );\n\n\t\t\t\tconst rows = cols - i;\n\n\t\t\t\tfor ( let j = 0; j <= rows; j ++ ) {\n\n\t\t\t\t\tif ( j === 0 && i === cols ) {\n\n\t\t\t\t\t\tv[ i ][ j ] = aj;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tv[ i ][ j ] = aj.clone().lerp( bj, j / rows );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// construct all of the faces\n\n\t\t\tfor ( let i = 0; i < cols; i ++ ) {\n\n\t\t\t\tfor ( let j = 0; j < 2 * ( cols - i ) - 1; j ++ ) {\n\n\t\t\t\t\tconst k = Math.floor( j / 2 );\n\n\t\t\t\t\tif ( j % 2 === 0 ) {\n\n\t\t\t\t\t\tpushVertex( v[ i ][ k + 1 ] );\n\t\t\t\t\t\tpushVertex( v[ i + 1 ][ k ] );\n\t\t\t\t\t\tpushVertex( v[ i ][ k ] );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tpushVertex( v[ i ][ k + 1 ] );\n\t\t\t\t\t\tpushVertex( v[ i + 1 ][ k + 1 ] );\n\t\t\t\t\t\tpushVertex( v[ i + 1 ][ k ] );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction applyRadius( radius ) {\n\n\t\t\tconst vertex = new Vector3();\n\n\t\t\t// iterate over the entire buffer and apply the radius to each vertex\n\n\t\t\tfor ( let i = 0; i < vertexBuffer.length; i += 3 ) {\n\n\t\t\t\tvertex.x = vertexBuffer[ i + 0 ];\n\t\t\t\tvertex.y = vertexBuffer[ i + 1 ];\n\t\t\t\tvertex.z = vertexBuffer[ i + 2 ];\n\n\t\t\t\tvertex.normalize().multiplyScalar( radius );\n\n\t\t\t\tvertexBuffer[ i + 0 ] = vertex.x;\n\t\t\t\tvertexBuffer[ i + 1 ] = vertex.y;\n\t\t\t\tvertexBuffer[ i + 2 ] = vertex.z;\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction generateUVs() {\n\n\t\t\tconst vertex = new Vector3();\n\n\t\t\tfor ( let i = 0; i < vertexBuffer.length; i += 3 ) {\n\n\t\t\t\tvertex.x = vertexBuffer[ i + 0 ];\n\t\t\t\tvertex.y = vertexBuffer[ i + 1 ];\n\t\t\t\tvertex.z = vertexBuffer[ i + 2 ];\n\n\t\t\t\tconst u = azimuth( vertex ) / 2 / Math.PI + 0.5;\n\t\t\t\tconst v = inclination( vertex ) / Math.PI + 0.5;\n\t\t\t\tuvBuffer.push( u, 1 - v );\n\n\t\t\t}\n\n\t\t\tcorrectUVs();\n\n\t\t\tcorrectSeam();\n\n\t\t}\n\n\t\tfunction correctSeam() {\n\n\t\t\t// handle case when face straddles the seam, see #3269\n\n\t\t\tfor ( let i = 0; i < uvBuffer.length; i += 6 ) {\n\n\t\t\t\t// uv data of a single face\n\n\t\t\t\tconst x0 = uvBuffer[ i + 0 ];\n\t\t\t\tconst x1 = uvBuffer[ i + 2 ];\n\t\t\t\tconst x2 = uvBuffer[ i + 4 ];\n\n\t\t\t\tconst max = Math.max( x0, x1, x2 );\n\t\t\t\tconst min = Math.min( x0, x1, x2 );\n\n\t\t\t\t// 0.9 is somewhat arbitrary\n\n\t\t\t\tif ( max > 0.9 && min < 0.1 ) {\n\n\t\t\t\t\tif ( x0 < 0.2 ) uvBuffer[ i + 0 ] += 1;\n\t\t\t\t\tif ( x1 < 0.2 ) uvBuffer[ i + 2 ] += 1;\n\t\t\t\t\tif ( x2 < 0.2 ) uvBuffer[ i + 4 ] += 1;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction pushVertex( vertex ) {\n\n\t\t\tvertexBuffer.push( vertex.x, vertex.y, vertex.z );\n\n\t\t}\n\n\t\tfunction getVertexByIndex( index, vertex ) {\n\n\t\t\tconst stride = index * 3;\n\n\t\t\tvertex.x = vertices[ stride + 0 ];\n\t\t\tvertex.y = vertices[ stride + 1 ];\n\t\t\tvertex.z = vertices[ stride + 2 ];\n\n\t\t}\n\n\t\tfunction correctUVs() {\n\n\t\t\tconst a = new Vector3();\n\t\t\tconst b = new Vector3();\n\t\t\tconst c = new Vector3();\n\n\t\t\tconst centroid = new Vector3();\n\n\t\t\tconst uvA = new Vector2();\n\t\t\tconst uvB = new Vector2();\n\t\t\tconst uvC = new Vector2();\n\n\t\t\tfor ( let i = 0, j = 0; i < vertexBuffer.length; i += 9, j += 6 ) {\n\n\t\t\t\ta.set( vertexBuffer[ i + 0 ], vertexBuffer[ i + 1 ], vertexBuffer[ i + 2 ] );\n\t\t\t\tb.set( vertexBuffer[ i + 3 ], vertexBuffer[ i + 4 ], vertexBuffer[ i + 5 ] );\n\t\t\t\tc.set( vertexBuffer[ i + 6 ], vertexBuffer[ i + 7 ], vertexBuffer[ i + 8 ] );\n\n\t\t\t\tuvA.set( uvBuffer[ j + 0 ], uvBuffer[ j + 1 ] );\n\t\t\t\tuvB.set( uvBuffer[ j + 2 ], uvBuffer[ j + 3 ] );\n\t\t\t\tuvC.set( uvBuffer[ j + 4 ], uvBuffer[ j + 5 ] );\n\n\t\t\t\tcentroid.copy( a ).add( b ).add( c ).divideScalar( 3 );\n\n\t\t\t\tconst azi = azimuth( centroid );\n\n\t\t\t\tcorrectUV( uvA, j + 0, a, azi );\n\t\t\t\tcorrectUV( uvB, j + 2, b, azi );\n\t\t\t\tcorrectUV( uvC, j + 4, c, azi );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction correctUV( uv, stride, vector, azimuth ) {\n\n\t\t\tif ( ( azimuth < 0 ) && ( uv.x === 1 ) ) {\n\n\t\t\t\tuvBuffer[ stride ] = uv.x - 1;\n\n\t\t\t}\n\n\t\t\tif ( ( vector.x === 0 ) && ( vector.z === 0 ) ) {\n\n\t\t\t\tuvBuffer[ stride ] = azimuth / 2 / Math.PI + 0.5;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// Angle around the Y axis, counter-clockwise when looking from above.\n\n\t\tfunction azimuth( vector ) {\n\n\t\t\treturn Math.atan2( vector.z, - vector.x );\n\n\t\t}\n\n\n\t\t// Angle above the XZ plane.\n\n\t\tfunction inclination( vector ) {\n\n\t\t\treturn Math.atan2( - vector.y, Math.sqrt( ( vector.x * vector.x ) + ( vector.z * vector.z ) ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {PolyhedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new PolyhedronGeometry( data.vertices, data.indices, data.radius, data.details );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a dodecahedron.\n *\n * ```js\n * const geometry = new THREE.DodecahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const dodecahedron = new THREE.Mesh( geometry, material );\n * scene.add( dodecahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass DodecahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new dodecahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the dodecahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a dodecahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst t = ( 1 + Math.sqrt( 5 ) ) / 2;\n\t\tconst r = 1 / t;\n\n\t\tconst vertices = [\n\n\t\t\t// (±1, ±1, ±1)\n\t\t\t-1, -1, -1,\t-1, -1, 1,\n\t\t\t-1, 1, -1, -1, 1, 1,\n\t\t\t1, -1, -1, 1, -1, 1,\n\t\t\t1, 1, -1, 1, 1, 1,\n\n\t\t\t// (0, ±1/φ, ±φ)\n\t\t\t0, - r, - t, 0, - r, t,\n\t\t\t0, r, - t, 0, r, t,\n\n\t\t\t// (±1/φ, ±φ, 0)\n\t\t\t- r, - t, 0, - r, t, 0,\n\t\t\tr, - t, 0, r, t, 0,\n\n\t\t\t// (±φ, 0, ±1/φ)\n\t\t\t- t, 0, - r, t, 0, - r,\n\t\t\t- t, 0, r, t, 0, r\n\t\t];\n\n\t\tconst indices = [\n\t\t\t3, 11, 7, \t3, 7, 15, \t3, 15, 13,\n\t\t\t7, 19, 17, \t7, 17, 6, \t7, 6, 15,\n\t\t\t17, 4, 8, \t17, 8, 10, \t17, 10, 6,\n\t\t\t8, 0, 16, \t8, 16, 2, \t8, 2, 10,\n\t\t\t0, 12, 1, \t0, 1, 18, \t0, 18, 16,\n\t\t\t6, 10, 2, \t6, 2, 13, \t6, 13, 15,\n\t\t\t2, 16, 18, \t2, 18, 3, \t2, 3, 13,\n\t\t\t18, 1, 9, \t18, 9, 11, \t18, 11, 3,\n\t\t\t4, 14, 12, \t4, 12, 0, \t4, 0, 8,\n\t\t\t11, 9, 5, \t11, 5, 19, \t11, 19, 7,\n\t\t\t19, 5, 14, \t19, 14, 4, \t19, 4, 17,\n\t\t\t1, 12, 14, \t1, 14, 5, \t1, 5, 9\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'DodecahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {DodecahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new DodecahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\nconst _v0 = /*@__PURE__*/ new Vector3();\nconst _v1$1 = /*@__PURE__*/ new Vector3();\nconst _normal = /*@__PURE__*/ new Vector3();\nconst _triangle = /*@__PURE__*/ new Triangle();\n\n/**\n * Can be used as a helper object to view the edges of a geometry.\n *\n * ```js\n * const geometry = new THREE.BoxGeometry();\n * const edges = new THREE.EdgesGeometry( geometry );\n * const line = new THREE.LineSegments( edges );\n * scene.add( line );\n * ```\n *\n * Note: It is not yet possible to serialize/deserialize instances of this class.\n *\n * @augments BufferGeometry\n */\nclass EdgesGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new edges geometry.\n\t *\n\t * @param {?BufferGeometry} [geometry=null] - The geometry.\n\t * @param {number} [thresholdAngle=1] - An edge is only rendered if the angle (in degrees)\n\t * between the face normals of the adjoining faces exceeds this value.\n\t */\n\tconstructor( geometry = null, thresholdAngle = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'EdgesGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tgeometry: geometry,\n\t\t\tthresholdAngle: thresholdAngle\n\t\t};\n\n\t\tif ( geometry !== null ) {\n\n\t\t\tconst precisionPoints = 4;\n\t\t\tconst precision = Math.pow( 10, precisionPoints );\n\t\t\tconst thresholdDot = Math.cos( DEG2RAD * thresholdAngle );\n\n\t\t\tconst indexAttr = geometry.getIndex();\n\t\t\tconst positionAttr = geometry.getAttribute( 'position' );\n\t\t\tconst indexCount = indexAttr ? indexAttr.count : positionAttr.count;\n\n\t\t\tconst indexArr = [ 0, 0, 0 ];\n\t\t\tconst vertKeys = [ 'a', 'b', 'c' ];\n\t\t\tconst hashes = new Array( 3 );\n\n\t\t\tconst edgeData = {};\n\t\t\tconst vertices = [];\n\t\t\tfor ( let i = 0; i < indexCount; i += 3 ) {\n\n\t\t\t\tif ( indexAttr ) {\n\n\t\t\t\t\tindexArr[ 0 ] = indexAttr.getX( i );\n\t\t\t\t\tindexArr[ 1 ] = indexAttr.getX( i + 1 );\n\t\t\t\t\tindexArr[ 2 ] = indexAttr.getX( i + 2 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tindexArr[ 0 ] = i;\n\t\t\t\t\tindexArr[ 1 ] = i + 1;\n\t\t\t\t\tindexArr[ 2 ] = i + 2;\n\n\t\t\t\t}\n\n\t\t\t\tconst { a, b, c } = _triangle;\n\t\t\t\ta.fromBufferAttribute( positionAttr, indexArr[ 0 ] );\n\t\t\t\tb.fromBufferAttribute( positionAttr, indexArr[ 1 ] );\n\t\t\t\tc.fromBufferAttribute( positionAttr, indexArr[ 2 ] );\n\t\t\t\t_triangle.getNormal( _normal );\n\n\t\t\t\t// create hashes for the edge from the vertices\n\t\t\t\thashes[ 0 ] = `${ Math.round( a.x * precision ) },${ Math.round( a.y * precision ) },${ Math.round( a.z * precision ) }`;\n\t\t\t\thashes[ 1 ] = `${ Math.round( b.x * precision ) },${ Math.round( b.y * precision ) },${ Math.round( b.z * precision ) }`;\n\t\t\t\thashes[ 2 ] = `${ Math.round( c.x * precision ) },${ Math.round( c.y * precision ) },${ Math.round( c.z * precision ) }`;\n\n\t\t\t\t// skip degenerate triangles\n\t\t\t\tif ( hashes[ 0 ] === hashes[ 1 ] || hashes[ 1 ] === hashes[ 2 ] || hashes[ 2 ] === hashes[ 0 ] ) {\n\n\t\t\t\t\tcontinue;\n\n\t\t\t\t}\n\n\t\t\t\t// iterate over every edge\n\t\t\t\tfor ( let j = 0; j < 3; j ++ ) {\n\n\t\t\t\t\t// get the first and next vertex making up the edge\n\t\t\t\t\tconst jNext = ( j + 1 ) % 3;\n\t\t\t\t\tconst vecHash0 = hashes[ j ];\n\t\t\t\t\tconst vecHash1 = hashes[ jNext ];\n\t\t\t\t\tconst v0 = _triangle[ vertKeys[ j ] ];\n\t\t\t\t\tconst v1 = _triangle[ vertKeys[ jNext ] ];\n\n\t\t\t\t\tconst hash = `${ vecHash0 }_${ vecHash1 }`;\n\t\t\t\t\tconst reverseHash = `${ vecHash1 }_${ vecHash0 }`;\n\n\t\t\t\t\tif ( reverseHash in edgeData && edgeData[ reverseHash ] ) {\n\n\t\t\t\t\t\t// if we found a sibling edge add it into the vertex array if\n\t\t\t\t\t\t// it meets the angle threshold and delete the edge from the map.\n\t\t\t\t\t\tif ( _normal.dot( edgeData[ reverseHash ].normal ) <= thresholdDot ) {\n\n\t\t\t\t\t\t\tvertices.push( v0.x, v0.y, v0.z );\n\t\t\t\t\t\t\tvertices.push( v1.x, v1.y, v1.z );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tedgeData[ reverseHash ] = null;\n\n\t\t\t\t\t} else if ( ! ( hash in edgeData ) ) {\n\n\t\t\t\t\t\t// if we've already got an edge here then skip adding a new one\n\t\t\t\t\t\tedgeData[ hash ] = {\n\n\t\t\t\t\t\t\tindex0: indexArr[ j ],\n\t\t\t\t\t\t\tindex1: indexArr[ jNext ],\n\t\t\t\t\t\t\tnormal: _normal.clone(),\n\n\t\t\t\t\t\t};\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// iterate over all remaining, unmatched edges and add them to the vertex array\n\t\t\tfor ( const key in edgeData ) {\n\n\t\t\t\tif ( edgeData[ key ] ) {\n\n\t\t\t\t\tconst { index0, index1 } = edgeData[ key ];\n\t\t\t\t\t_v0.fromBufferAttribute( positionAttr, index0 );\n\t\t\t\t\t_v1$1.fromBufferAttribute( positionAttr, index1 );\n\n\t\t\t\t\tvertices.push( _v0.x, _v0.y, _v0.z );\n\t\t\t\t\tvertices.push( _v1$1.x, _v1$1.y, _v1$1.z );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * An abstract base class for creating an analytic curve object that contains methods\n * for interpolation.\n *\n * @abstract\n */\nclass Curve {\n\n\t/**\n\t * Constructs a new curve.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'Curve';\n\n\t\t/**\n\t\t * This value determines the amount of divisions when calculating the\n\t\t * cumulative segment lengths of a curve via {@link Curve#getLengths}. To ensure\n\t\t * precision when using methods like {@link Curve#getSpacedPoints}, it is\n\t\t * recommended to increase the value of this property if the curve is very large.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 200\n\t\t */\n\t\tthis.arcLengthDivisions = 200;\n\n\t\t/**\n\t\t * Must be set to `true` if the curve parameters have changed.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.needsUpdate = false;\n\n\t\t/**\n\t\t * An internal cache that holds precomputed curve length values.\n\t\t *\n\t\t * @private\n\t\t * @type {?Array}\n\t\t * @default null\n\t\t */\n\t\tthis.cacheArcLengths = null;\n\n\t}\n\n\t/**\n\t * This method returns a vector in 2D or 3D space (depending on the curve definition)\n\t * for the given interpolation factor.\n\t *\n\t * @abstract\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The position on the curve. It can be a 2D or 3D vector depending on the curve definition.\n\t */\n\tgetPoint( /* t, optionalTarget */ ) {\n\n\t\tconsole.warn( 'THREE.Curve: .getPoint() not implemented.' );\n\n\t}\n\n\t/**\n\t * This method returns a vector in 2D or 3D space (depending on the curve definition)\n\t * for the given interpolation factor. Unlike {@link Curve#getPoint}, this method honors the length\n\t * of the curve which equidistant samples.\n\t *\n\t * @param {number} u - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The position on the curve. It can be a 2D or 3D vector depending on the curve definition.\n\t */\n\tgetPointAt( u, optionalTarget ) {\n\n\t\tconst t = this.getUtoTmapping( u );\n\t\treturn this.getPoint( t, optionalTarget );\n\n\t}\n\n\t/**\n\t * This method samples the curve via {@link Curve#getPoint} and returns an array of points representing\n\t * the curve shape.\n\t *\n\t * @param {number} [divisions=5] - The number of divisions.\n\t * @return {Array<(Vector2|Vector3)>} An array holding the sampled curve values. The number of points is `divisions + 1`.\n\t */\n\tgetPoints( divisions = 5 ) {\n\n\t\tconst points = [];\n\n\t\tfor ( let d = 0; d <= divisions; d ++ ) {\n\n\t\t\tpoints.push( this.getPoint( d / divisions ) );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\t// Get sequence of points using getPointAt( u )\n\n\t/**\n\t * This method samples the curve via {@link Curve#getPointAt} and returns an array of points representing\n\t * the curve shape. Unlike {@link Curve#getPoints}, this method returns equi-spaced points across the entire\n\t * curve.\n\t *\n\t * @param {number} [divisions=5] - The number of divisions.\n\t * @return {Array<(Vector2|Vector3)>} An array holding the sampled curve values. The number of points is `divisions + 1`.\n\t */\n\tgetSpacedPoints( divisions = 5 ) {\n\n\t\tconst points = [];\n\n\t\tfor ( let d = 0; d <= divisions; d ++ ) {\n\n\t\t\tpoints.push( this.getPointAt( d / divisions ) );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\t/**\n\t * Returns the total arc length of the curve.\n\t *\n\t * @return {number} The length of the curve.\n\t */\n\tgetLength() {\n\n\t\tconst lengths = this.getLengths();\n\t\treturn lengths[ lengths.length - 1 ];\n\n\t}\n\n\t/**\n\t * Returns an array of cumulative segment lengths of the curve.\n\t *\n\t * @param {number} [divisions=this.arcLengthDivisions] - The number of divisions.\n\t * @return {Array} An array holding the cumulative segment lengths.\n\t */\n\tgetLengths( divisions = this.arcLengthDivisions ) {\n\n\t\tif ( this.cacheArcLengths &&\n\t\t\t( this.cacheArcLengths.length === divisions + 1 ) &&\n\t\t\t! this.needsUpdate ) {\n\n\t\t\treturn this.cacheArcLengths;\n\n\t\t}\n\n\t\tthis.needsUpdate = false;\n\n\t\tconst cache = [];\n\t\tlet current, last = this.getPoint( 0 );\n\t\tlet sum = 0;\n\n\t\tcache.push( 0 );\n\n\t\tfor ( let p = 1; p <= divisions; p ++ ) {\n\n\t\t\tcurrent = this.getPoint( p / divisions );\n\t\t\tsum += current.distanceTo( last );\n\t\t\tcache.push( sum );\n\t\t\tlast = current;\n\n\t\t}\n\n\t\tthis.cacheArcLengths = cache;\n\n\t\treturn cache; // { sums: cache, sum: sum }; Sum is in the last element.\n\n\t}\n\n\t/**\n\t * Update the cumulative segment distance cache. The method must be called\n\t * every time curve parameters are changed. If an updated curve is part of a\n\t * composed curve like {@link CurvePath}, this method must be called on the\n\t * composed curve, too.\n\t */\n\tupdateArcLengths() {\n\n\t\tthis.needsUpdate = true;\n\t\tthis.getLengths();\n\n\t}\n\n\t/**\n\t * Given an interpolation factor in the range `[0,1]`, this method returns an updated\n\t * interpolation factor in the same range that can be ued to sample equidistant points\n\t * from a curve.\n\t *\n\t * @param {number} u - The interpolation factor.\n\t * @param {?number} distance - An optional distance on the curve.\n\t * @return {number} The updated interpolation factor.\n\t */\n\tgetUtoTmapping( u, distance = null ) {\n\n\t\tconst arcLengths = this.getLengths();\n\n\t\tlet i = 0;\n\t\tconst il = arcLengths.length;\n\n\t\tlet targetArcLength; // The targeted u distance value to get\n\n\t\tif ( distance ) {\n\n\t\t\ttargetArcLength = distance;\n\n\t\t} else {\n\n\t\t\ttargetArcLength = u * arcLengths[ il - 1 ];\n\n\t\t}\n\n\t\t// binary search for the index with largest value smaller than target u distance\n\n\t\tlet low = 0, high = il - 1, comparison;\n\n\t\twhile ( low <= high ) {\n\n\t\t\ti = Math.floor( low + ( high - low ) / 2 ); // less likely to overflow, though probably not issue here, JS doesn't really have integers, all numbers are floats\n\n\t\t\tcomparison = arcLengths[ i ] - targetArcLength;\n\n\t\t\tif ( comparison < 0 ) {\n\n\t\t\t\tlow = i + 1;\n\n\t\t\t} else if ( comparison > 0 ) {\n\n\t\t\t\thigh = i - 1;\n\n\t\t\t} else {\n\n\t\t\t\thigh = i;\n\t\t\t\tbreak;\n\n\t\t\t\t// DONE\n\n\t\t\t}\n\n\t\t}\n\n\t\ti = high;\n\n\t\tif ( arcLengths[ i ] === targetArcLength ) {\n\n\t\t\treturn i / ( il - 1 );\n\n\t\t}\n\n\t\t// we could get finer grain at lengths, or use simple interpolation between two points\n\n\t\tconst lengthBefore = arcLengths[ i ];\n\t\tconst lengthAfter = arcLengths[ i + 1 ];\n\n\t\tconst segmentLength = lengthAfter - lengthBefore;\n\n\t\t// determine where we are between the 'before' and 'after' points\n\n\t\tconst segmentFraction = ( targetArcLength - lengthBefore ) / segmentLength;\n\n\t\t// add that fractional amount to t\n\n\t\tconst t = ( i + segmentFraction ) / ( il - 1 );\n\n\t\treturn t;\n\n\t}\n\n\t/**\n\t * Returns a unit vector tangent for the given interpolation factor.\n\t * If the derived curve does not implement its tangent derivation,\n\t * two points a small delta apart will be used to find its gradient\n\t * which seems to give a reasonable approximation.\n\t *\n\t * @param {number} t - The interpolation factor.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The tangent vector.\n\t */\n\tgetTangent( t, optionalTarget ) {\n\n\t\tconst delta = 0.0001;\n\t\tlet t1 = t - delta;\n\t\tlet t2 = t + delta;\n\n\t\t// Capping in case of danger\n\n\t\tif ( t1 < 0 ) t1 = 0;\n\t\tif ( t2 > 1 ) t2 = 1;\n\n\t\tconst pt1 = this.getPoint( t1 );\n\t\tconst pt2 = this.getPoint( t2 );\n\n\t\tconst tangent = optionalTarget || ( ( pt1.isVector2 ) ? new Vector2() : new Vector3() );\n\n\t\ttangent.copy( pt2 ).sub( pt1 ).normalize();\n\n\t\treturn tangent;\n\n\t}\n\n\t/**\n\t * Same as {@link Curve#getTangent} but with equidistant samples.\n\t *\n\t * @param {number} u - The interpolation factor.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The tangent vector.\n\t * @see {@link Curve#getPointAt}\n\t */\n\tgetTangentAt( u, optionalTarget ) {\n\n\t\tconst t = this.getUtoTmapping( u );\n\t\treturn this.getTangent( t, optionalTarget );\n\n\t}\n\n\t/**\n\t * Generates the Frenet Frames. Requires a curve definition in 3D space. Used\n\t * in geometries like {@link TubeGeometry} or {@link ExtrudeGeometry}.\n\t *\n\t * @param {number} segments - The number of segments.\n\t * @param {boolean} [closed=false] - Whether the curve is closed or not.\n\t * @return {{tangents: Array, normals: Array, binormals: Array}} The Frenet Frames.\n\t */\n\tcomputeFrenetFrames( segments, closed = false ) {\n\n\t\t// see http://www.cs.indiana.edu/pub/techreports/TR425.pdf\n\n\t\tconst normal = new Vector3();\n\n\t\tconst tangents = [];\n\t\tconst normals = [];\n\t\tconst binormals = [];\n\n\t\tconst vec = new Vector3();\n\t\tconst mat = new Matrix4();\n\n\t\t// compute the tangent vectors for each segment on the curve\n\n\t\tfor ( let i = 0; i <= segments; i ++ ) {\n\n\t\t\tconst u = i / segments;\n\n\t\t\ttangents[ i ] = this.getTangentAt( u, new Vector3() );\n\n\t\t}\n\n\t\t// select an initial normal vector perpendicular to the first tangent vector,\n\t\t// and in the direction of the minimum tangent xyz component\n\n\t\tnormals[ 0 ] = new Vector3();\n\t\tbinormals[ 0 ] = new Vector3();\n\t\tlet min = Number.MAX_VALUE;\n\t\tconst tx = Math.abs( tangents[ 0 ].x );\n\t\tconst ty = Math.abs( tangents[ 0 ].y );\n\t\tconst tz = Math.abs( tangents[ 0 ].z );\n\n\t\tif ( tx <= min ) {\n\n\t\t\tmin = tx;\n\t\t\tnormal.set( 1, 0, 0 );\n\n\t\t}\n\n\t\tif ( ty <= min ) {\n\n\t\t\tmin = ty;\n\t\t\tnormal.set( 0, 1, 0 );\n\n\t\t}\n\n\t\tif ( tz <= min ) {\n\n\t\t\tnormal.set( 0, 0, 1 );\n\n\t\t}\n\n\t\tvec.crossVectors( tangents[ 0 ], normal ).normalize();\n\n\t\tnormals[ 0 ].crossVectors( tangents[ 0 ], vec );\n\t\tbinormals[ 0 ].crossVectors( tangents[ 0 ], normals[ 0 ] );\n\n\n\t\t// compute the slowly-varying normal and binormal vectors for each segment on the curve\n\n\t\tfor ( let i = 1; i <= segments; i ++ ) {\n\n\t\t\tnormals[ i ] = normals[ i - 1 ].clone();\n\n\t\t\tbinormals[ i ] = binormals[ i - 1 ].clone();\n\n\t\t\tvec.crossVectors( tangents[ i - 1 ], tangents[ i ] );\n\n\t\t\tif ( vec.length() > Number.EPSILON ) {\n\n\t\t\t\tvec.normalize();\n\n\t\t\t\tconst theta = Math.acos( clamp( tangents[ i - 1 ].dot( tangents[ i ] ), -1, 1 ) ); // clamp for floating pt errors\n\n\t\t\t\tnormals[ i ].applyMatrix4( mat.makeRotationAxis( vec, theta ) );\n\n\t\t\t}\n\n\t\t\tbinormals[ i ].crossVectors( tangents[ i ], normals[ i ] );\n\n\t\t}\n\n\t\t// if the curve is closed, postprocess the vectors so the first and last normal vectors are the same\n\n\t\tif ( closed === true ) {\n\n\t\t\tlet theta = Math.acos( clamp( normals[ 0 ].dot( normals[ segments ] ), -1, 1 ) );\n\t\t\ttheta /= segments;\n\n\t\t\tif ( tangents[ 0 ].dot( vec.crossVectors( normals[ 0 ], normals[ segments ] ) ) > 0 ) {\n\n\t\t\t\ttheta = - theta;\n\n\t\t\t}\n\n\t\t\tfor ( let i = 1; i <= segments; i ++ ) {\n\n\t\t\t\t// twist a little...\n\t\t\t\tnormals[ i ].applyMatrix4( mat.makeRotationAxis( tangents[ i ], theta * i ) );\n\t\t\t\tbinormals[ i ].crossVectors( tangents[ i ], normals[ i ] );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn {\n\t\t\ttangents: tangents,\n\t\t\tnormals: normals,\n\t\t\tbinormals: binormals\n\t\t};\n\n\t}\n\n\t/**\n\t * Returns a new curve with copied values from this instance.\n\t *\n\t * @return {Curve} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given curve to this instance.\n\t *\n\t * @param {Curve} source - The curve to copy.\n\t * @return {Curve} A reference to this curve.\n\t */\n\tcopy( source ) {\n\n\t\tthis.arcLengthDivisions = source.arcLengthDivisions;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Serializes the curve into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized curve.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Curve',\n\t\t\t\tgenerator: 'Curve.toJSON'\n\t\t\t}\n\t\t};\n\n\t\tdata.arcLengthDivisions = this.arcLengthDivisions;\n\t\tdata.type = this.type;\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Deserializes the curve from the given JSON.\n\t *\n\t * @param {Object} json - The JSON holding the serialized curve.\n\t * @return {Curve} A reference to this curve.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.arcLengthDivisions = json.arcLengthDivisions;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing an ellipse.\n *\n * ```js\n * const curve = new THREE.EllipseCurve(\n * \t0, 0,\n * \t10, 10,\n * \t0, 2 * Math.PI,\n * \tfalse,\n * \t0\n * );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const ellipse = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass EllipseCurve extends Curve {\n\n\t/**\n\t * Constructs a new ellipse curve.\n\t *\n\t * @param {number} [aX=0] - The X center of the ellipse.\n\t * @param {number} [aY=0] - The Y center of the ellipse.\n\t * @param {number} [xRadius=1] - The radius of the ellipse in the x direction.\n\t * @param {number} [yRadius=1] - The radius of the ellipse in the y direction.\n\t * @param {number} [aStartAngle=0] - The start angle of the curve in radians starting from the positive X axis.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle of the curve in radians starting from the positive X axis.\n\t * @param {boolean} [aClockwise=false] - Whether the ellipse is drawn clockwise or not.\n\t * @param {number} [aRotation=0] - The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t */\n\tconstructor( aX = 0, aY = 0, xRadius = 1, yRadius = 1, aStartAngle = 0, aEndAngle = Math.PI * 2, aClockwise = false, aRotation = 0 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isEllipseCurve = true;\n\n\t\tthis.type = 'EllipseCurve';\n\n\t\t/**\n\t\t * The X center of the ellipse.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aX = aX;\n\n\t\t/**\n\t\t * The Y center of the ellipse.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aY = aY;\n\n\t\t/**\n\t\t * The radius of the ellipse in the x direction.\n\t\t * Setting the this value equal to the {@link EllipseCurve#yRadius} will result in a circle.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.xRadius = xRadius;\n\n\t\t/**\n\t\t * The radius of the ellipse in the y direction.\n\t\t * Setting the this value equal to the {@link EllipseCurve#xRadius} will result in a circle.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.yRadius = yRadius;\n\n\t\t/**\n\t\t * The start angle of the curve in radians starting from the positive X axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aStartAngle = aStartAngle;\n\n\t\t/**\n\t\t * The end angle of the curve in radians starting from the positive X axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Math.PI*2\n\t\t */\n\t\tthis.aEndAngle = aEndAngle;\n\n\t\t/**\n\t\t * Whether the ellipse is drawn clockwise or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.aClockwise = aClockwise;\n\n\t\t/**\n\t\t * The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aRotation = aRotation;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst twoPi = Math.PI * 2;\n\t\tlet deltaAngle = this.aEndAngle - this.aStartAngle;\n\t\tconst samePoints = Math.abs( deltaAngle ) < Number.EPSILON;\n\n\t\t// ensures that deltaAngle is 0 .. 2 PI\n\t\twhile ( deltaAngle < 0 ) deltaAngle += twoPi;\n\t\twhile ( deltaAngle > twoPi ) deltaAngle -= twoPi;\n\n\t\tif ( deltaAngle < Number.EPSILON ) {\n\n\t\t\tif ( samePoints ) {\n\n\t\t\t\tdeltaAngle = 0;\n\n\t\t\t} else {\n\n\t\t\t\tdeltaAngle = twoPi;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.aClockwise === true && ! samePoints ) {\n\n\t\t\tif ( deltaAngle === twoPi ) {\n\n\t\t\t\tdeltaAngle = - twoPi;\n\n\t\t\t} else {\n\n\t\t\t\tdeltaAngle = deltaAngle - twoPi;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst angle = this.aStartAngle + t * deltaAngle;\n\t\tlet x = this.aX + this.xRadius * Math.cos( angle );\n\t\tlet y = this.aY + this.yRadius * Math.sin( angle );\n\n\t\tif ( this.aRotation !== 0 ) {\n\n\t\t\tconst cos = Math.cos( this.aRotation );\n\t\t\tconst sin = Math.sin( this.aRotation );\n\n\t\t\tconst tx = x - this.aX;\n\t\t\tconst ty = y - this.aY;\n\n\t\t\t// Rotate the point about the center of the ellipse.\n\t\t\tx = tx * cos - ty * sin + this.aX;\n\t\t\ty = tx * sin + ty * cos + this.aY;\n\n\t\t}\n\n\t\treturn point.set( x, y );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.aX = source.aX;\n\t\tthis.aY = source.aY;\n\n\t\tthis.xRadius = source.xRadius;\n\t\tthis.yRadius = source.yRadius;\n\n\t\tthis.aStartAngle = source.aStartAngle;\n\t\tthis.aEndAngle = source.aEndAngle;\n\n\t\tthis.aClockwise = source.aClockwise;\n\n\t\tthis.aRotation = source.aRotation;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.aX = this.aX;\n\t\tdata.aY = this.aY;\n\n\t\tdata.xRadius = this.xRadius;\n\t\tdata.yRadius = this.yRadius;\n\n\t\tdata.aStartAngle = this.aStartAngle;\n\t\tdata.aEndAngle = this.aEndAngle;\n\n\t\tdata.aClockwise = this.aClockwise;\n\n\t\tdata.aRotation = this.aRotation;\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.aX = json.aX;\n\t\tthis.aY = json.aY;\n\n\t\tthis.xRadius = json.xRadius;\n\t\tthis.yRadius = json.yRadius;\n\n\t\tthis.aStartAngle = json.aStartAngle;\n\t\tthis.aEndAngle = json.aEndAngle;\n\n\t\tthis.aClockwise = json.aClockwise;\n\n\t\tthis.aRotation = json.aRotation;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing an arc.\n *\n * @augments EllipseCurve\n */\nclass ArcCurve extends EllipseCurve {\n\n\t/**\n\t * Constructs a new arc curve.\n\t *\n\t * @param {number} [aX=0] - The X center of the ellipse.\n\t * @param {number} [aY=0] - The Y center of the ellipse.\n\t * @param {number} [aRadius=1] - The radius of the ellipse in the x direction.\n\t * @param {number} [aStartAngle=0] - The start angle of the curve in radians starting from the positive X axis.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle of the curve in radians starting from the positive X axis.\n\t * @param {boolean} [aClockwise=false] - Whether the ellipse is drawn clockwise or not.\n\t */\n\tconstructor( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) {\n\n\t\tsuper( aX, aY, aRadius, aRadius, aStartAngle, aEndAngle, aClockwise );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isArcCurve = true;\n\n\t\tthis.type = 'ArcCurve';\n\n\t}\n\n}\n\nfunction CubicPoly() {\n\n\t/**\n\t * Centripetal CatmullRom Curve - which is useful for avoiding\n\t* cusps and self-intersections in non-uniform catmull rom curves.\n\t* http://www.cemyuksel.com/research/catmullrom_param/catmullrom.pdf\n\t*\n\t* curve.type accepts centripetal(default), chordal and catmullrom\n\t* curve.tension is used for catmullrom which defaults to 0.5\n\t*/\n\n\t/*\n\tBased on an optimized c++ solution in\n\t- http://stackoverflow.com/questions/9489736/catmull-rom-curve-with-no-cusps-and-no-self-intersections/\n\t- http://ideone.com/NoEbVM\n\n\tThis CubicPoly class could be used for reusing some variables and calculations,\n\tbut for three.js curve use, it could be possible inlined and flatten into a single function call\n\twhich can be placed in CurveUtils.\n\t*/\n\n\tlet c0 = 0, c1 = 0, c2 = 0, c3 = 0;\n\n\t/*\n\t * Compute coefficients for a cubic polynomial\n\t * p(s) = c0 + c1*s + c2*s^2 + c3*s^3\n\t * such that\n\t * p(0) = x0, p(1) = x1\n\t * and\n\t * p'(0) = t0, p'(1) = t1.\n\t */\n\tfunction init( x0, x1, t0, t1 ) {\n\n\t\tc0 = x0;\n\t\tc1 = t0;\n\t\tc2 = -3 * x0 + 3 * x1 - 2 * t0 - t1;\n\t\tc3 = 2 * x0 - 2 * x1 + t0 + t1;\n\n\t}\n\n\treturn {\n\n\t\tinitCatmullRom: function ( x0, x1, x2, x3, tension ) {\n\n\t\t\tinit( x1, x2, tension * ( x2 - x0 ), tension * ( x3 - x1 ) );\n\n\t\t},\n\n\t\tinitNonuniformCatmullRom: function ( x0, x1, x2, x3, dt0, dt1, dt2 ) {\n\n\t\t\t// compute tangents when parameterized in [t1,t2]\n\t\t\tlet t1 = ( x1 - x0 ) / dt0 - ( x2 - x0 ) / ( dt0 + dt1 ) + ( x2 - x1 ) / dt1;\n\t\t\tlet t2 = ( x2 - x1 ) / dt1 - ( x3 - x1 ) / ( dt1 + dt2 ) + ( x3 - x2 ) / dt2;\n\n\t\t\t// rescale tangents for parametrization in [0,1]\n\t\t\tt1 *= dt1;\n\t\t\tt2 *= dt1;\n\n\t\t\tinit( x1, x2, t1, t2 );\n\n\t\t},\n\n\t\tcalc: function ( t ) {\n\n\t\t\tconst t2 = t * t;\n\t\t\tconst t3 = t2 * t;\n\t\t\treturn c0 + c1 * t + c2 * t2 + c3 * t3;\n\n\t\t}\n\n\t};\n\n}\n\n//\n\nconst tmp = /*@__PURE__*/ new Vector3();\nconst px = /*@__PURE__*/ new CubicPoly();\nconst py = /*@__PURE__*/ new CubicPoly();\nconst pz = /*@__PURE__*/ new CubicPoly();\n\n/**\n * A curve representing a Catmull-Rom spline.\n *\n * ```js\n * //Create a closed wavey loop\n * const curve = new THREE.CatmullRomCurve3( [\n * \tnew THREE.Vector3( -10, 0, 10 ),\n * \tnew THREE.Vector3( -5, 5, 5 ),\n * \tnew THREE.Vector3( 0, 0, 0 ),\n * \tnew THREE.Vector3( 5, -5, 5 ),\n * \tnew THREE.Vector3( 10, 0, 10 )\n * ] );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const curveObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass CatmullRomCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new Catmull-Rom curve.\n\t *\n\t * @param {Array} [points] - An array of 3D points defining the curve.\n\t * @param {boolean} [closed=false] - Whether the curve is closed or not.\n\t * @param {('centripetal'|'chordal'|'catmullrom')} [curveType='centripetal'] - The curve type.\n\t * @param {number} [tension=0.5] - Tension of the curve.\n\t */\n\tconstructor( points = [], closed = false, curveType = 'centripetal', tension = 0.5 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCatmullRomCurve3 = true;\n\n\t\tthis.type = 'CatmullRomCurve3';\n\n\t\t/**\n\t\t * An array of 3D points defining the curve.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.points = points;\n\n\t\t/**\n\t\t * Whether the curve is closed or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.closed = closed;\n\n\t\t/**\n\t\t * The curve type.\n\t\t *\n\t\t * @type {('centripetal'|'chordal'|'catmullrom')}\n\t\t * @default 'centripetal'\n\t\t */\n\t\tthis.curveType = curveType;\n\n\t\t/**\n\t\t * Tension of the curve.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.5\n\t\t */\n\t\tthis.tension = tension;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst points = this.points;\n\t\tconst l = points.length;\n\n\t\tconst p = ( l - ( this.closed ? 0 : 1 ) ) * t;\n\t\tlet intPoint = Math.floor( p );\n\t\tlet weight = p - intPoint;\n\n\t\tif ( this.closed ) {\n\n\t\t\tintPoint += intPoint > 0 ? 0 : ( Math.floor( Math.abs( intPoint ) / l ) + 1 ) * l;\n\n\t\t} else if ( weight === 0 && intPoint === l - 1 ) {\n\n\t\t\tintPoint = l - 2;\n\t\t\tweight = 1;\n\n\t\t}\n\n\t\tlet p0, p3; // 4 points (p1 & p2 defined below)\n\n\t\tif ( this.closed || intPoint > 0 ) {\n\n\t\t\tp0 = points[ ( intPoint - 1 ) % l ];\n\n\t\t} else {\n\n\t\t\t// extrapolate first point\n\t\t\ttmp.subVectors( points[ 0 ], points[ 1 ] ).add( points[ 0 ] );\n\t\t\tp0 = tmp;\n\n\t\t}\n\n\t\tconst p1 = points[ intPoint % l ];\n\t\tconst p2 = points[ ( intPoint + 1 ) % l ];\n\n\t\tif ( this.closed || intPoint + 2 < l ) {\n\n\t\t\tp3 = points[ ( intPoint + 2 ) % l ];\n\n\t\t} else {\n\n\t\t\t// extrapolate last point\n\t\t\ttmp.subVectors( points[ l - 1 ], points[ l - 2 ] ).add( points[ l - 1 ] );\n\t\t\tp3 = tmp;\n\n\t\t}\n\n\t\tif ( this.curveType === 'centripetal' || this.curveType === 'chordal' ) {\n\n\t\t\t// init Centripetal / Chordal Catmull-Rom\n\t\t\tconst pow = this.curveType === 'chordal' ? 0.5 : 0.25;\n\t\t\tlet dt0 = Math.pow( p0.distanceToSquared( p1 ), pow );\n\t\t\tlet dt1 = Math.pow( p1.distanceToSquared( p2 ), pow );\n\t\t\tlet dt2 = Math.pow( p2.distanceToSquared( p3 ), pow );\n\n\t\t\t// safety check for repeated points\n\t\t\tif ( dt1 < 1e-4 ) dt1 = 1.0;\n\t\t\tif ( dt0 < 1e-4 ) dt0 = dt1;\n\t\t\tif ( dt2 < 1e-4 ) dt2 = dt1;\n\n\t\t\tpx.initNonuniformCatmullRom( p0.x, p1.x, p2.x, p3.x, dt0, dt1, dt2 );\n\t\t\tpy.initNonuniformCatmullRom( p0.y, p1.y, p2.y, p3.y, dt0, dt1, dt2 );\n\t\t\tpz.initNonuniformCatmullRom( p0.z, p1.z, p2.z, p3.z, dt0, dt1, dt2 );\n\n\t\t} else if ( this.curveType === 'catmullrom' ) {\n\n\t\t\tpx.initCatmullRom( p0.x, p1.x, p2.x, p3.x, this.tension );\n\t\t\tpy.initCatmullRom( p0.y, p1.y, p2.y, p3.y, this.tension );\n\t\t\tpz.initCatmullRom( p0.z, p1.z, p2.z, p3.z, this.tension );\n\n\t\t}\n\n\t\tpoint.set(\n\t\t\tpx.calc( weight ),\n\t\t\tpy.calc( weight ),\n\t\t\tpz.calc( weight )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = source.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = source.points[ i ];\n\n\t\t\tthis.points.push( point.clone() );\n\n\t\t}\n\n\t\tthis.closed = source.closed;\n\t\tthis.curveType = source.curveType;\n\t\tthis.tension = source.tension;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.points = [];\n\n\t\tfor ( let i = 0, l = this.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = this.points[ i ];\n\t\t\tdata.points.push( point.toArray() );\n\n\t\t}\n\n\t\tdata.closed = this.closed;\n\t\tdata.curveType = this.curveType;\n\t\tdata.tension = this.tension;\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = json.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = json.points[ i ];\n\t\t\tthis.points.push( new Vector3().fromArray( point ) );\n\n\t\t}\n\n\t\tthis.closed = json.closed;\n\t\tthis.curveType = json.curveType;\n\t\tthis.tension = json.tension;\n\n\t\treturn this;\n\n\t}\n\n}\n\n// Bezier Curves formulas obtained from: https://en.wikipedia.org/wiki/B%C3%A9zier_curve\n\n/**\n * Computes a point on a Catmull-Rom spline.\n *\n * @param {number} t - The interpolation factor.\n * @param {number} p0 - The first control point.\n * @param {number} p1 - The second control point.\n * @param {number} p2 - The third control point.\n * @param {number} p3 - The fourth control point.\n * @return {number} The calculated point on a Catmull-Rom spline.\n */\nfunction CatmullRom( t, p0, p1, p2, p3 ) {\n\n\tconst v0 = ( p2 - p0 ) * 0.5;\n\tconst v1 = ( p3 - p1 ) * 0.5;\n\tconst t2 = t * t;\n\tconst t3 = t * t2;\n\treturn ( 2 * p1 - 2 * p2 + v0 + v1 ) * t3 + ( -3 * p1 + 3 * p2 - 2 * v0 - v1 ) * t2 + v0 * t + p1;\n\n}\n\n//\n\nfunction QuadraticBezierP0( t, p ) {\n\n\tconst k = 1 - t;\n\treturn k * k * p;\n\n}\n\nfunction QuadraticBezierP1( t, p ) {\n\n\treturn 2 * ( 1 - t ) * t * p;\n\n}\n\nfunction QuadraticBezierP2( t, p ) {\n\n\treturn t * t * p;\n\n}\n\n/**\n * Computes a point on a Quadratic Bezier curve.\n *\n * @param {number} t - The interpolation factor.\n * @param {number} p0 - The first control point.\n * @param {number} p1 - The second control point.\n * @param {number} p2 - The third control point.\n * @return {number} The calculated point on a Quadratic Bezier curve.\n */\nfunction QuadraticBezier( t, p0, p1, p2 ) {\n\n\treturn QuadraticBezierP0( t, p0 ) + QuadraticBezierP1( t, p1 ) +\n\t\tQuadraticBezierP2( t, p2 );\n\n}\n\n//\n\nfunction CubicBezierP0( t, p ) {\n\n\tconst k = 1 - t;\n\treturn k * k * k * p;\n\n}\n\nfunction CubicBezierP1( t, p ) {\n\n\tconst k = 1 - t;\n\treturn 3 * k * k * t * p;\n\n}\n\nfunction CubicBezierP2( t, p ) {\n\n\treturn 3 * ( 1 - t ) * t * t * p;\n\n}\n\nfunction CubicBezierP3( t, p ) {\n\n\treturn t * t * t * p;\n\n}\n\n/**\n * Computes a point on a Cubic Bezier curve.\n *\n * @param {number} t - The interpolation factor.\n * @param {number} p0 - The first control point.\n * @param {number} p1 - The second control point.\n * @param {number} p2 - The third control point.\n * @param {number} p3 - The fourth control point.\n * @return {number} The calculated point on a Cubic Bezier curve.\n */\nfunction CubicBezier( t, p0, p1, p2, p3 ) {\n\n\treturn CubicBezierP0( t, p0 ) + CubicBezierP1( t, p1 ) + CubicBezierP2( t, p2 ) +\n\t\tCubicBezierP3( t, p3 );\n\n}\n\n/**\n * A curve representing a 2D Cubic Bezier curve.\n *\n * ```js\n * const curve = new THREE.CubicBezierCurve(\n * \tnew THREE.Vector2( - 0, 0 ),\n * \tnew THREE.Vector2( - 5, 15 ),\n * \tnew THREE.Vector2( 20, 15 ),\n * \tnew THREE.Vector2( 10, 0 )\n * );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const curveObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass CubicBezierCurve extends Curve {\n\n\t/**\n\t * Constructs a new Cubic Bezier curve.\n\t *\n\t * @param {Vector2} [v0] - The start point.\n\t * @param {Vector2} [v1] - The first control point.\n\t * @param {Vector2} [v2] - The second control point.\n\t * @param {Vector2} [v3] - The end point.\n\t */\n\tconstructor( v0 = new Vector2(), v1 = new Vector2(), v2 = new Vector2(), v3 = new Vector2() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubicBezierCurve = true;\n\n\t\tthis.type = 'CubicBezierCurve';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The first control point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The second control point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v3 = v3;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2, v3 = this.v3;\n\n\t\tpoint.set(\n\t\t\tCubicBezier( t, v0.x, v1.x, v2.x, v3.x ),\n\t\t\tCubicBezier( t, v0.y, v1.y, v2.y, v3.y )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\t\tthis.v3.copy( source.v3 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\t\tdata.v3 = this.v3.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\t\tthis.v3.fromArray( json.v3 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 3D Cubic Bezier curve.\n *\n * @augments Curve\n */\nclass CubicBezierCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new Cubic Bezier curve.\n\t *\n\t * @param {Vector3} [v0] - The start point.\n\t * @param {Vector3} [v1] - The first control point.\n\t * @param {Vector3} [v2] - The second control point.\n\t * @param {Vector3} [v3] - The end point.\n\t */\n\tconstructor( v0 = new Vector3(), v1 = new Vector3(), v2 = new Vector3(), v3 = new Vector3() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubicBezierCurve3 = true;\n\n\t\tthis.type = 'CubicBezierCurve3';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The first control point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The second control point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v3 = v3;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2, v3 = this.v3;\n\n\t\tpoint.set(\n\t\t\tCubicBezier( t, v0.x, v1.x, v2.x, v3.x ),\n\t\t\tCubicBezier( t, v0.y, v1.y, v2.y, v3.y ),\n\t\t\tCubicBezier( t, v0.z, v1.z, v2.z, v3.z )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\t\tthis.v3.copy( source.v3 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\t\tdata.v3 = this.v3.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\t\tthis.v3.fromArray( json.v3 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 2D line segment.\n *\n * @augments Curve\n */\nclass LineCurve extends Curve {\n\n\t/**\n\t * Constructs a new line curve.\n\t *\n\t * @param {Vector2} [v1] - The start point.\n\t * @param {Vector2} [v2] - The end point.\n\t */\n\tconstructor( v1 = new Vector2(), v2 = new Vector2() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineCurve = true;\n\n\t\tthis.type = 'LineCurve';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the line.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the line. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the line.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tif ( t === 1 ) {\n\n\t\t\tpoint.copy( this.v2 );\n\n\t\t} else {\n\n\t\t\tpoint.copy( this.v2 ).sub( this.v1 );\n\t\t\tpoint.multiplyScalar( t ).add( this.v1 );\n\n\t\t}\n\n\t\treturn point;\n\n\t}\n\n\t// Line curve is linear, so we can overwrite default getPointAt\n\tgetPointAt( u, optionalTarget ) {\n\n\t\treturn this.getPoint( u, optionalTarget );\n\n\t}\n\n\tgetTangent( t, optionalTarget = new Vector2() ) {\n\n\t\treturn optionalTarget.subVectors( this.v2, this.v1 ).normalize();\n\n\t}\n\n\tgetTangentAt( u, optionalTarget ) {\n\n\t\treturn this.getTangent( u, optionalTarget );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 3D line segment.\n *\n * @augments Curve\n */\nclass LineCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new line curve.\n\t *\n\t * @param {Vector3} [v1] - The start point.\n\t * @param {Vector3} [v2] - The end point.\n\t */\n\tconstructor( v1 = new Vector3(), v2 = new Vector3() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineCurve3 = true;\n\n\t\tthis.type = 'LineCurve3';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the line.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the line. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the line.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tif ( t === 1 ) {\n\n\t\t\tpoint.copy( this.v2 );\n\n\t\t} else {\n\n\t\t\tpoint.copy( this.v2 ).sub( this.v1 );\n\t\t\tpoint.multiplyScalar( t ).add( this.v1 );\n\n\t\t}\n\n\t\treturn point;\n\n\t}\n\n\t// Line curve is linear, so we can overwrite default getPointAt\n\tgetPointAt( u, optionalTarget ) {\n\n\t\treturn this.getPoint( u, optionalTarget );\n\n\t}\n\n\tgetTangent( t, optionalTarget = new Vector3() ) {\n\n\t\treturn optionalTarget.subVectors( this.v2, this.v1 ).normalize();\n\n\t}\n\n\tgetTangentAt( u, optionalTarget ) {\n\n\t\treturn this.getTangent( u, optionalTarget );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 2D Quadratic Bezier curve.\n *\n * ```js\n * const curve = new THREE.QuadraticBezierCurve(\n * \tnew THREE.Vector2( - 10, 0 ),\n * \tnew THREE.Vector2( 20, 15 ),\n * \tnew THREE.Vector2( 10, 0 )\n * )\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const curveObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass QuadraticBezierCurve extends Curve {\n\n\t/**\n\t * Constructs a new Quadratic Bezier curve.\n\t *\n\t * @param {Vector2} [v0] - The start point.\n\t * @param {Vector2} [v1] - The control point.\n\t * @param {Vector2} [v2] - The end point.\n\t */\n\tconstructor( v0 = new Vector2(), v1 = new Vector2(), v2 = new Vector2() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isQuadraticBezierCurve = true;\n\n\t\tthis.type = 'QuadraticBezierCurve';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The control point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2;\n\n\t\tpoint.set(\n\t\t\tQuadraticBezier( t, v0.x, v1.x, v2.x ),\n\t\t\tQuadraticBezier( t, v0.y, v1.y, v2.y )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 3D Quadratic Bezier curve.\n *\n * @augments Curve\n */\nclass QuadraticBezierCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new Quadratic Bezier curve.\n\t *\n\t * @param {Vector3} [v0] - The start point.\n\t * @param {Vector3} [v1] - The control point.\n\t * @param {Vector3} [v2] - The end point.\n\t */\n\tconstructor( v0 = new Vector3(), v1 = new Vector3(), v2 = new Vector3() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isQuadraticBezierCurve3 = true;\n\n\t\tthis.type = 'QuadraticBezierCurve3';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The control point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2;\n\n\t\tpoint.set(\n\t\t\tQuadraticBezier( t, v0.x, v1.x, v2.x ),\n\t\t\tQuadraticBezier( t, v0.y, v1.y, v2.y ),\n\t\t\tQuadraticBezier( t, v0.z, v1.z, v2.z )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 2D spline curve.\n *\n * ```js\n * // Create a sine-like wave\n * const curve = new THREE.SplineCurve( [\n * \tnew THREE.Vector2( -10, 0 ),\n * \tnew THREE.Vector2( -5, 5 ),\n * \tnew THREE.Vector2( 0, 0 ),\n * \tnew THREE.Vector2( 5, -5 ),\n * \tnew THREE.Vector2( 10, 0 )\n * ] );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const splineObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass SplineCurve extends Curve {\n\n\t/**\n\t * Constructs a new 2D spline curve.\n\t *\n\t * @param {Array} [points] - An array of 2D points defining the curve.\n\t */\n\tconstructor( points = [] ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSplineCurve = true;\n\n\t\tthis.type = 'SplineCurve';\n\n\t\t/**\n\t\t * An array of 2D points defining the curve.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.points = points;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst points = this.points;\n\t\tconst p = ( points.length - 1 ) * t;\n\n\t\tconst intPoint = Math.floor( p );\n\t\tconst weight = p - intPoint;\n\n\t\tconst p0 = points[ intPoint === 0 ? intPoint : intPoint - 1 ];\n\t\tconst p1 = points[ intPoint ];\n\t\tconst p2 = points[ intPoint > points.length - 2 ? points.length - 1 : intPoint + 1 ];\n\t\tconst p3 = points[ intPoint > points.length - 3 ? points.length - 1 : intPoint + 2 ];\n\n\t\tpoint.set(\n\t\t\tCatmullRom( weight, p0.x, p1.x, p2.x, p3.x ),\n\t\t\tCatmullRom( weight, p0.y, p1.y, p2.y, p3.y )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = source.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = source.points[ i ];\n\n\t\t\tthis.points.push( point.clone() );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.points = [];\n\n\t\tfor ( let i = 0, l = this.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = this.points[ i ];\n\t\t\tdata.points.push( point.toArray() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = json.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = json.points[ i ];\n\t\t\tthis.points.push( new Vector2().fromArray( point ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\nvar Curves = /*#__PURE__*/Object.freeze({\n\t__proto__: null,\n\tArcCurve: ArcCurve,\n\tCatmullRomCurve3: CatmullRomCurve3,\n\tCubicBezierCurve: CubicBezierCurve,\n\tCubicBezierCurve3: CubicBezierCurve3,\n\tEllipseCurve: EllipseCurve,\n\tLineCurve: LineCurve,\n\tLineCurve3: LineCurve3,\n\tQuadraticBezierCurve: QuadraticBezierCurve,\n\tQuadraticBezierCurve3: QuadraticBezierCurve3,\n\tSplineCurve: SplineCurve\n});\n\n/**\n * A base class extending {@link Curve}. `CurvePath` is simply an\n * array of connected curves, but retains the API of a curve.\n *\n * @augments Curve\n */\nclass CurvePath extends Curve {\n\n\t/**\n\t * Constructs a new curve path.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\tthis.type = 'CurvePath';\n\n\t\t/**\n\t\t * An array of curves defining the\n\t\t * path.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.curves = [];\n\n\t\t/**\n\t\t * Whether the path should automatically be closed\n\t\t * by a line curve.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.autoClose = false;\n\n\t}\n\n\t/**\n\t * Adds a curve to this curve path.\n\t *\n\t * @param {Curve} curve - The curve to add.\n\t */\n\tadd( curve ) {\n\n\t\tthis.curves.push( curve );\n\n\t}\n\n\t/**\n\t * Adds a line curve to close the path.\n\t *\n\t * @return {CurvePath} A reference to this curve path.\n\t */\n\tclosePath() {\n\n\t\t// Add a line curve if start and end of lines are not connected\n\t\tconst startPoint = this.curves[ 0 ].getPoint( 0 );\n\t\tconst endPoint = this.curves[ this.curves.length - 1 ].getPoint( 1 );\n\n\t\tif ( ! startPoint.equals( endPoint ) ) {\n\n\t\t\tconst lineType = ( startPoint.isVector2 === true ) ? 'LineCurve' : 'LineCurve3';\n\t\t\tthis.curves.push( new Curves[ lineType ]( endPoint, startPoint ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This method returns a vector in 2D or 3D space (depending on the curve definitions)\n\t * for the given interpolation factor.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {?(Vector2|Vector3)} The position on the curve. It can be a 2D or 3D vector depending on the curve definition.\n\t */\n\tgetPoint( t, optionalTarget ) {\n\n\t\t// To get accurate point with reference to\n\t\t// entire path distance at time t,\n\t\t// following has to be done:\n\n\t\t// 1. Length of each sub path have to be known\n\t\t// 2. Locate and identify type of curve\n\t\t// 3. Get t for the curve\n\t\t// 4. Return curve.getPointAt(t')\n\n\t\tconst d = t * this.getLength();\n\t\tconst curveLengths = this.getCurveLengths();\n\t\tlet i = 0;\n\n\t\t// To think about boundaries points.\n\n\t\twhile ( i < curveLengths.length ) {\n\n\t\t\tif ( curveLengths[ i ] >= d ) {\n\n\t\t\t\tconst diff = curveLengths[ i ] - d;\n\t\t\t\tconst curve = this.curves[ i ];\n\n\t\t\t\tconst segmentLength = curve.getLength();\n\t\t\t\tconst u = segmentLength === 0 ? 0 : 1 - diff / segmentLength;\n\n\t\t\t\treturn curve.getPointAt( u, optionalTarget );\n\n\t\t\t}\n\n\t\t\ti ++;\n\n\t\t}\n\n\t\treturn null;\n\n\t\t// loop where sum != 0, sum > d , sum+1 } The curve lengths.\n\t */\n\tgetCurveLengths() {\n\n\t\t// Compute lengths and cache them\n\t\t// We cannot overwrite getLengths() because UtoT mapping uses it.\n\t\t// We use cache values if curves and cache array are same length\n\n\t\tif ( this.cacheLengths && this.cacheLengths.length === this.curves.length ) {\n\n\t\t\treturn this.cacheLengths;\n\n\t\t}\n\n\t\t// Get length of sub-curve\n\t\t// Push sums into cached array\n\n\t\tconst lengths = [];\n\t\tlet sums = 0;\n\n\t\tfor ( let i = 0, l = this.curves.length; i < l; i ++ ) {\n\n\t\t\tsums += this.curves[ i ].getLength();\n\t\t\tlengths.push( sums );\n\n\t\t}\n\n\t\tthis.cacheLengths = lengths;\n\n\t\treturn lengths;\n\n\t}\n\n\tgetSpacedPoints( divisions = 40 ) {\n\n\t\tconst points = [];\n\n\t\tfor ( let i = 0; i <= divisions; i ++ ) {\n\n\t\t\tpoints.push( this.getPoint( i / divisions ) );\n\n\t\t}\n\n\t\tif ( this.autoClose ) {\n\n\t\t\tpoints.push( points[ 0 ] );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\tgetPoints( divisions = 12 ) {\n\n\t\tconst points = [];\n\t\tlet last;\n\n\t\tfor ( let i = 0, curves = this.curves; i < curves.length; i ++ ) {\n\n\t\t\tconst curve = curves[ i ];\n\t\t\tconst resolution = curve.isEllipseCurve ? divisions * 2\n\t\t\t\t: ( curve.isLineCurve || curve.isLineCurve3 ) ? 1\n\t\t\t\t\t: curve.isSplineCurve ? divisions * curve.points.length\n\t\t\t\t\t\t: divisions;\n\n\t\t\tconst pts = curve.getPoints( resolution );\n\n\t\t\tfor ( let j = 0; j < pts.length; j ++ ) {\n\n\t\t\t\tconst point = pts[ j ];\n\n\t\t\t\tif ( last && last.equals( point ) ) continue; // ensures no consecutive points are duplicates\n\n\t\t\t\tpoints.push( point );\n\t\t\t\tlast = point;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.autoClose && points.length > 1 && ! points[ points.length - 1 ].equals( points[ 0 ] ) ) {\n\n\t\t\tpoints.push( points[ 0 ] );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.curves = [];\n\n\t\tfor ( let i = 0, l = source.curves.length; i < l; i ++ ) {\n\n\t\t\tconst curve = source.curves[ i ];\n\n\t\t\tthis.curves.push( curve.clone() );\n\n\t\t}\n\n\t\tthis.autoClose = source.autoClose;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.autoClose = this.autoClose;\n\t\tdata.curves = [];\n\n\t\tfor ( let i = 0, l = this.curves.length; i < l; i ++ ) {\n\n\t\t\tconst curve = this.curves[ i ];\n\t\t\tdata.curves.push( curve.toJSON() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.autoClose = json.autoClose;\n\t\tthis.curves = [];\n\n\t\tfor ( let i = 0, l = json.curves.length; i < l; i ++ ) {\n\n\t\t\tconst curve = json.curves[ i ];\n\t\t\tthis.curves.push( new Curves[ curve.type ]().fromJSON( curve ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A 2D path representation. The class provides methods for creating paths\n * and contours of 2D shapes similar to the 2D Canvas API.\n *\n * ```js\n * const path = new THREE.Path();\n *\n * path.lineTo( 0, 0.8 );\n * path.quadraticCurveTo( 0, 1, 0.2, 1 );\n * path.lineTo( 1, 1 );\n *\n * const points = path.getPoints();\n *\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n * const material = new THREE.LineBasicMaterial( { color: 0xffffff } );\n *\n * const line = new THREE.Line( geometry, material );\n * scene.add( line );\n * ```\n *\n * @augments CurvePath\n */\nclass Path extends CurvePath {\n\n\t/**\n\t * Constructs a new path.\n\t *\n\t * @param {Array} [points] - An array of 2D points defining the path.\n\t */\n\tconstructor( points ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'Path';\n\n\t\t/**\n\t\t * The current offset of the path. Any new curve added will start here.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.currentPoint = new Vector2();\n\n\t\tif ( points ) {\n\n\t\t\tthis.setFromPoints( points );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Creates a path from the given list of points. The points are added\n\t * to the path as instances of {@link LineCurve}.\n\t *\n\t * @param {Array} points - An array of 2D points.\n\t * @return {Path} A reference to this path.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tthis.moveTo( points[ 0 ].x, points[ 0 ].y );\n\n\t\tfor ( let i = 1, l = points.length; i < l; i ++ ) {\n\n\t\t\tthis.lineTo( points[ i ].x, points[ i ].y );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Moves {@link Path#currentPoint} to the given point.\n\t *\n\t * @param {number} x - The x coordinate.\n\t * @param {number} y - The y coordinate.\n\t * @return {Path} A reference to this path.\n\t */\n\tmoveTo( x, y ) {\n\n\t\tthis.currentPoint.set( x, y ); // TODO consider referencing vectors instead of copying?\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link LineCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} x - The x coordinate of the end point.\n\t * @param {number} y - The y coordinate of the end point.\n\t * @return {Path} A reference to this path.\n\t */\n\tlineTo( x, y ) {\n\n\t\tconst curve = new LineCurve( this.currentPoint.clone(), new Vector2( x, y ) );\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.set( x, y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link QuadraticBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCPx - The x coordinate of the control point.\n\t * @param {number} aCPy - The y coordinate of the control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {Path} A reference to this path.\n\t */\n\tquadraticCurveTo( aCPx, aCPy, aX, aY ) {\n\n\t\tconst curve = new QuadraticBezierCurve(\n\t\t\tthis.currentPoint.clone(),\n\t\t\tnew Vector2( aCPx, aCPy ),\n\t\t\tnew Vector2( aX, aY )\n\t\t);\n\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.set( aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link CubicBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCP1x - The x coordinate of the first control point.\n\t * @param {number} aCP1y - The y coordinate of the first control point.\n\t * @param {number} aCP2x - The x coordinate of the second control point.\n\t * @param {number} aCP2y - The y coordinate of the second control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {Path} A reference to this path.\n\t */\n\tbezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY ) {\n\n\t\tconst curve = new CubicBezierCurve(\n\t\t\tthis.currentPoint.clone(),\n\t\t\tnew Vector2( aCP1x, aCP1y ),\n\t\t\tnew Vector2( aCP2x, aCP2y ),\n\t\t\tnew Vector2( aX, aY )\n\t\t);\n\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.set( aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link SplineCurve} to the path by connecting\n\t * the current point with the given list of points.\n\t *\n\t * @param {Array} pts - An array of points in 2D space.\n\t * @return {Path} A reference to this path.\n\t */\n\tsplineThru( pts ) {\n\n\t\tconst npts = [ this.currentPoint.clone() ].concat( pts );\n\n\t\tconst curve = new SplineCurve( npts );\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.copy( pts[ pts.length - 1 ] );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an arc as an instance of {@link EllipseCurve} to the path, positioned relative\n\t * to the current point.\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the center of the arc offsetted from the previous curve.\n\t * @param {number} [aY=0] - The y coordinate of the center of the arc offsetted from the previous curve.\n\t * @param {number} [aRadius=1] - The radius of the arc.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the arc clockwise or not.\n\t * @return {Path} A reference to this path.\n\t */\n\tarc( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) {\n\n\t\tconst x0 = this.currentPoint.x;\n\t\tconst y0 = this.currentPoint.y;\n\n\t\tthis.absarc( aX + x0, aY + y0, aRadius,\n\t\t\taStartAngle, aEndAngle, aClockwise );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an absolutely positioned arc as an instance of {@link EllipseCurve} to the path.\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the center of the arc.\n\t * @param {number} [aY=0] - The y coordinate of the center of the arc.\n\t * @param {number} [aRadius=1] - The radius of the arc.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the arc clockwise or not.\n\t * @return {Path} A reference to this path.\n\t */\n\tabsarc( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) {\n\n\t\tthis.absellipse( aX, aY, aRadius, aRadius, aStartAngle, aEndAngle, aClockwise );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an ellipse as an instance of {@link EllipseCurve} to the path, positioned relative\n\t * to the current point\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the center of the ellipse offsetted from the previous curve.\n\t * @param {number} [aY=0] - The y coordinate of the center of the ellipse offsetted from the previous curve.\n\t * @param {number} [xRadius=1] - The radius of the ellipse in the x axis.\n\t * @param {number} [yRadius=1] - The radius of the ellipse in the y axis.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the ellipse clockwise or not.\n\t * @param {number} [aRotation=0] - The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t * @return {Path} A reference to this path.\n\t */\n\tellipse( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ) {\n\n\t\tconst x0 = this.currentPoint.x;\n\t\tconst y0 = this.currentPoint.y;\n\n\t\tthis.absellipse( aX + x0, aY + y0, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an absolutely positioned ellipse as an instance of {@link EllipseCurve} to the path.\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the absolute center of the ellipse.\n\t * @param {number} [aY=0] - The y coordinate of the absolute center of the ellipse.\n\t * @param {number} [xRadius=1] - The radius of the ellipse in the x axis.\n\t * @param {number} [yRadius=1] - The radius of the ellipse in the y axis.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the ellipse clockwise or not.\n\t * @param {number} [aRotation=0] - The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t * @return {Path} A reference to this path.\n\t */\n\tabsellipse( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ) {\n\n\t\tconst curve = new EllipseCurve( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation );\n\n\t\tif ( this.curves.length > 0 ) {\n\n\t\t\t// if a previous curve is present, attempt to join\n\t\t\tconst firstPoint = curve.getPoint( 0 );\n\n\t\t\tif ( ! firstPoint.equals( this.currentPoint ) ) {\n\n\t\t\t\tthis.lineTo( firstPoint.x, firstPoint.y );\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.curves.push( curve );\n\n\t\tconst lastPoint = curve.getPoint( 1 );\n\t\tthis.currentPoint.copy( lastPoint );\n\n\t\treturn this;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.currentPoint.copy( source.currentPoint );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.currentPoint = this.currentPoint.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.currentPoint.fromArray( json.currentPoint );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Defines an arbitrary 2d shape plane using paths with optional holes. It\n * can be used with {@link ExtrudeGeometry}, {@link ShapeGeometry}, to get\n * points, or to get triangulated faces.\n *\n * ```js\n * const heartShape = new THREE.Shape();\n *\n * heartShape.moveTo( 25, 25 );\n * heartShape.bezierCurveTo( 25, 25, 20, 0, 0, 0 );\n * heartShape.bezierCurveTo( - 30, 0, - 30, 35, - 30, 35 );\n * heartShape.bezierCurveTo( - 30, 55, - 10, 77, 25, 95 );\n * heartShape.bezierCurveTo( 60, 77, 80, 55, 80, 35 );\n * heartShape.bezierCurveTo( 80, 35, 80, 0, 50, 0 );\n * heartShape.bezierCurveTo( 35, 0, 25, 25, 25, 25 );\n *\n * const extrudeSettings = {\n * \tdepth: 8,\n * \tbevelEnabled: true,\n * \tbevelSegments: 2,\n * \tsteps: 2,\n * \tbevelSize: 1,\n * \tbevelThickness: 1\n * };\n *\n * const geometry = new THREE.ExtrudeGeometry( heartShape, extrudeSettings );\n * const mesh = new THREE.Mesh( geometry, new THREE.MeshBasicMaterial() );\n * ```\n *\n * @augments Path\n */\nclass Shape extends Path {\n\n\t/**\n\t * Constructs a new shape.\n\t *\n\t * @param {Array} [points] - An array of 2D points defining the shape.\n\t */\n\tconstructor( points ) {\n\n\t\tsuper( points );\n\n\t\t/**\n\t\t * The UUID of the shape.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\tthis.type = 'Shape';\n\n\t\t/**\n\t\t * Defines the holes in the shape. Hole definitions must use the\n\t\t * opposite winding order (CW/CCW) than the outer shape.\n\t\t *\n\t\t * @type {Array}\n\t\t * @readonly\n\t\t */\n\t\tthis.holes = [];\n\n\t}\n\n\t/**\n\t * Returns an array representing each contour of the holes\n\t * as a list of 2D points.\n\t *\n\t * @param {number} divisions - The fineness of the result.\n\t * @return {Array>} The holes as a series of 2D points.\n\t */\n\tgetPointsHoles( divisions ) {\n\n\t\tconst holesPts = [];\n\n\t\tfor ( let i = 0, l = this.holes.length; i < l; i ++ ) {\n\n\t\t\tholesPts[ i ] = this.holes[ i ].getPoints( divisions );\n\n\t\t}\n\n\t\treturn holesPts;\n\n\t}\n\n\t// get points of shape and holes (keypoints based on segments parameter)\n\n\t/**\n\t * Returns an object that holds contour data for the shape and its holes as\n\t * arrays of 2D points.\n\t *\n\t * @param {number} divisions - The fineness of the result.\n\t * @return {{shape:Array,holes:Array>}} An object with contour data.\n\t */\n\textractPoints( divisions ) {\n\n\t\treturn {\n\n\t\t\tshape: this.getPoints( divisions ),\n\t\t\tholes: this.getPointsHoles( divisions )\n\n\t\t};\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.holes = [];\n\n\t\tfor ( let i = 0, l = source.holes.length; i < l; i ++ ) {\n\n\t\t\tconst hole = source.holes[ i ];\n\n\t\t\tthis.holes.push( hole.clone() );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.uuid = this.uuid;\n\t\tdata.holes = [];\n\n\t\tfor ( let i = 0, l = this.holes.length; i < l; i ++ ) {\n\n\t\t\tconst hole = this.holes[ i ];\n\t\t\tdata.holes.push( hole.toJSON() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.uuid = json.uuid;\n\t\tthis.holes = [];\n\n\t\tfor ( let i = 0, l = json.holes.length; i < l; i ++ ) {\n\n\t\t\tconst hole = json.holes[ i ];\n\t\t\tthis.holes.push( new Path().fromJSON( hole ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/* eslint-disable */\n// copy of mapbox/earcut version 3.0.1\n// https://github.com/mapbox/earcut/tree/v3.0.1\n\nfunction earcut(data, holeIndices, dim = 2) {\n\n const hasHoles = holeIndices && holeIndices.length;\n const outerLen = hasHoles ? holeIndices[0] * dim : data.length;\n let outerNode = linkedList(data, 0, outerLen, dim, true);\n const triangles = [];\n\n if (!outerNode || outerNode.next === outerNode.prev) return triangles;\n\n let minX, minY, invSize;\n\n if (hasHoles) outerNode = eliminateHoles(data, holeIndices, outerNode, dim);\n\n // if the shape is not too simple, we'll use z-order curve hash later; calculate polygon bbox\n if (data.length > 80 * dim) {\n minX = Infinity;\n minY = Infinity;\n let maxX = -Infinity;\n let maxY = -Infinity;\n\n for (let i = dim; i < outerLen; i += dim) {\n const x = data[i];\n const y = data[i + 1];\n if (x < minX) minX = x;\n if (y < minY) minY = y;\n if (x > maxX) maxX = x;\n if (y > maxY) maxY = y;\n }\n\n // minX, minY and invSize are later used to transform coords into integers for z-order calculation\n invSize = Math.max(maxX - minX, maxY - minY);\n invSize = invSize !== 0 ? 32767 / invSize : 0;\n }\n\n earcutLinked(outerNode, triangles, dim, minX, minY, invSize, 0);\n\n return triangles;\n}\n\n// create a circular doubly linked list from polygon points in the specified winding order\nfunction linkedList(data, start, end, dim, clockwise) {\n let last;\n\n if (clockwise === (signedArea(data, start, end, dim) > 0)) {\n for (let i = start; i < end; i += dim) last = insertNode(i / dim | 0, data[i], data[i + 1], last);\n } else {\n for (let i = end - dim; i >= start; i -= dim) last = insertNode(i / dim | 0, data[i], data[i + 1], last);\n }\n\n if (last && equals(last, last.next)) {\n removeNode(last);\n last = last.next;\n }\n\n return last;\n}\n\n// eliminate colinear or duplicate points\nfunction filterPoints(start, end) {\n if (!start) return start;\n if (!end) end = start;\n\n let p = start,\n again;\n do {\n again = false;\n\n if (!p.steiner && (equals(p, p.next) || area(p.prev, p, p.next) === 0)) {\n removeNode(p);\n p = end = p.prev;\n if (p === p.next) break;\n again = true;\n\n } else {\n p = p.next;\n }\n } while (again || p !== end);\n\n return end;\n}\n\n// main ear slicing loop which triangulates a polygon (given as a linked list)\nfunction earcutLinked(ear, triangles, dim, minX, minY, invSize, pass) {\n if (!ear) return;\n\n // interlink polygon nodes in z-order\n if (!pass && invSize) indexCurve(ear, minX, minY, invSize);\n\n let stop = ear;\n\n // iterate through ears, slicing them one by one\n while (ear.prev !== ear.next) {\n const prev = ear.prev;\n const next = ear.next;\n\n if (invSize ? isEarHashed(ear, minX, minY, invSize) : isEar(ear)) {\n triangles.push(prev.i, ear.i, next.i); // cut off the triangle\n\n removeNode(ear);\n\n // skipping the next vertex leads to less sliver triangles\n ear = next.next;\n stop = next.next;\n\n continue;\n }\n\n ear = next;\n\n // if we looped through the whole remaining polygon and can't find any more ears\n if (ear === stop) {\n // try filtering points and slicing again\n if (!pass) {\n earcutLinked(filterPoints(ear), triangles, dim, minX, minY, invSize, 1);\n\n // if this didn't work, try curing all small self-intersections locally\n } else if (pass === 1) {\n ear = cureLocalIntersections(filterPoints(ear), triangles);\n earcutLinked(ear, triangles, dim, minX, minY, invSize, 2);\n\n // as a last resort, try splitting the remaining polygon into two\n } else if (pass === 2) {\n splitEarcut(ear, triangles, dim, minX, minY, invSize);\n }\n\n break;\n }\n }\n}\n\n// check whether a polygon node forms a valid ear with adjacent nodes\nfunction isEar(ear) {\n const a = ear.prev,\n b = ear,\n c = ear.next;\n\n if (area(a, b, c) >= 0) return false; // reflex, can't be an ear\n\n // now make sure we don't have other points inside the potential ear\n const ax = a.x, bx = b.x, cx = c.x, ay = a.y, by = b.y, cy = c.y;\n\n // triangle bbox\n const x0 = Math.min(ax, bx, cx),\n y0 = Math.min(ay, by, cy),\n x1 = Math.max(ax, bx, cx),\n y1 = Math.max(ay, by, cy);\n\n let p = c.next;\n while (p !== a) {\n if (p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, p.x, p.y) &&\n area(p.prev, p, p.next) >= 0) return false;\n p = p.next;\n }\n\n return true;\n}\n\nfunction isEarHashed(ear, minX, minY, invSize) {\n const a = ear.prev,\n b = ear,\n c = ear.next;\n\n if (area(a, b, c) >= 0) return false; // reflex, can't be an ear\n\n const ax = a.x, bx = b.x, cx = c.x, ay = a.y, by = b.y, cy = c.y;\n\n // triangle bbox\n const x0 = Math.min(ax, bx, cx),\n y0 = Math.min(ay, by, cy),\n x1 = Math.max(ax, bx, cx),\n y1 = Math.max(ay, by, cy);\n\n // z-order range for the current triangle bbox;\n const minZ = zOrder(x0, y0, minX, minY, invSize),\n maxZ = zOrder(x1, y1, minX, minY, invSize);\n\n let p = ear.prevZ,\n n = ear.nextZ;\n\n // look for points inside the triangle in both directions\n while (p && p.z >= minZ && n && n.z <= maxZ) {\n if (p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 && p !== a && p !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, p.x, p.y) && area(p.prev, p, p.next) >= 0) return false;\n p = p.prevZ;\n\n if (n.x >= x0 && n.x <= x1 && n.y >= y0 && n.y <= y1 && n !== a && n !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, n.x, n.y) && area(n.prev, n, n.next) >= 0) return false;\n n = n.nextZ;\n }\n\n // look for remaining points in decreasing z-order\n while (p && p.z >= minZ) {\n if (p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 && p !== a && p !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, p.x, p.y) && area(p.prev, p, p.next) >= 0) return false;\n p = p.prevZ;\n }\n\n // look for remaining points in increasing z-order\n while (n && n.z <= maxZ) {\n if (n.x >= x0 && n.x <= x1 && n.y >= y0 && n.y <= y1 && n !== a && n !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, n.x, n.y) && area(n.prev, n, n.next) >= 0) return false;\n n = n.nextZ;\n }\n\n return true;\n}\n\n// go through all polygon nodes and cure small local self-intersections\nfunction cureLocalIntersections(start, triangles) {\n let p = start;\n do {\n const a = p.prev,\n b = p.next.next;\n\n if (!equals(a, b) && intersects(a, p, p.next, b) && locallyInside(a, b) && locallyInside(b, a)) {\n\n triangles.push(a.i, p.i, b.i);\n\n // remove two nodes involved\n removeNode(p);\n removeNode(p.next);\n\n p = start = b;\n }\n p = p.next;\n } while (p !== start);\n\n return filterPoints(p);\n}\n\n// try splitting polygon into two and triangulate them independently\nfunction splitEarcut(start, triangles, dim, minX, minY, invSize) {\n // look for a valid diagonal that divides the polygon into two\n let a = start;\n do {\n let b = a.next.next;\n while (b !== a.prev) {\n if (a.i !== b.i && isValidDiagonal(a, b)) {\n // split the polygon in two by the diagonal\n let c = splitPolygon(a, b);\n\n // filter colinear points around the cuts\n a = filterPoints(a, a.next);\n c = filterPoints(c, c.next);\n\n // run earcut on each half\n earcutLinked(a, triangles, dim, minX, minY, invSize, 0);\n earcutLinked(c, triangles, dim, minX, minY, invSize, 0);\n return;\n }\n b = b.next;\n }\n a = a.next;\n } while (a !== start);\n}\n\n// link every hole into the outer loop, producing a single-ring polygon without holes\nfunction eliminateHoles(data, holeIndices, outerNode, dim) {\n const queue = [];\n\n for (let i = 0, len = holeIndices.length; i < len; i++) {\n const start = holeIndices[i] * dim;\n const end = i < len - 1 ? holeIndices[i + 1] * dim : data.length;\n const list = linkedList(data, start, end, dim, false);\n if (list === list.next) list.steiner = true;\n queue.push(getLeftmost(list));\n }\n\n queue.sort(compareXYSlope);\n\n // process holes from left to right\n for (let i = 0; i < queue.length; i++) {\n outerNode = eliminateHole(queue[i], outerNode);\n }\n\n return outerNode;\n}\n\nfunction compareXYSlope(a, b) {\n let result = a.x - b.x;\n // when the left-most point of 2 holes meet at a vertex, sort the holes counterclockwise so that when we find\n // the bridge to the outer shell is always the point that they meet at.\n if (result === 0) {\n result = a.y - b.y;\n if (result === 0) {\n const aSlope = (a.next.y - a.y) / (a.next.x - a.x);\n const bSlope = (b.next.y - b.y) / (b.next.x - b.x);\n result = aSlope - bSlope;\n }\n }\n return result;\n}\n\n// find a bridge between vertices that connects hole with an outer ring and and link it\nfunction eliminateHole(hole, outerNode) {\n const bridge = findHoleBridge(hole, outerNode);\n if (!bridge) {\n return outerNode;\n }\n\n const bridgeReverse = splitPolygon(bridge, hole);\n\n // filter collinear points around the cuts\n filterPoints(bridgeReverse, bridgeReverse.next);\n return filterPoints(bridge, bridge.next);\n}\n\n// David Eberly's algorithm for finding a bridge between hole and outer polygon\nfunction findHoleBridge(hole, outerNode) {\n let p = outerNode;\n const hx = hole.x;\n const hy = hole.y;\n let qx = -Infinity;\n let m;\n\n // find a segment intersected by a ray from the hole's leftmost point to the left;\n // segment's endpoint with lesser x will be potential connection point\n // unless they intersect at a vertex, then choose the vertex\n if (equals(hole, p)) return p;\n do {\n if (equals(hole, p.next)) return p.next;\n else if (hy <= p.y && hy >= p.next.y && p.next.y !== p.y) {\n const x = p.x + (hy - p.y) * (p.next.x - p.x) / (p.next.y - p.y);\n if (x <= hx && x > qx) {\n qx = x;\n m = p.x < p.next.x ? p : p.next;\n if (x === hx) return m; // hole touches outer segment; pick leftmost endpoint\n }\n }\n p = p.next;\n } while (p !== outerNode);\n\n if (!m) return null;\n\n // look for points inside the triangle of hole point, segment intersection and endpoint;\n // if there are no points found, we have a valid connection;\n // otherwise choose the point of the minimum angle with the ray as connection point\n\n const stop = m;\n const mx = m.x;\n const my = m.y;\n let tanMin = Infinity;\n\n p = m;\n\n do {\n if (hx >= p.x && p.x >= mx && hx !== p.x &&\n pointInTriangle(hy < my ? hx : qx, hy, mx, my, hy < my ? qx : hx, hy, p.x, p.y)) {\n\n const tan = Math.abs(hy - p.y) / (hx - p.x); // tangential\n\n if (locallyInside(p, hole) &&\n (tan < tanMin || (tan === tanMin && (p.x > m.x || (p.x === m.x && sectorContainsSector(m, p)))))) {\n m = p;\n tanMin = tan;\n }\n }\n\n p = p.next;\n } while (p !== stop);\n\n return m;\n}\n\n// whether sector in vertex m contains sector in vertex p in the same coordinates\nfunction sectorContainsSector(m, p) {\n return area(m.prev, m, p.prev) < 0 && area(p.next, m, m.next) < 0;\n}\n\n// interlink polygon nodes in z-order\nfunction indexCurve(start, minX, minY, invSize) {\n let p = start;\n do {\n if (p.z === 0) p.z = zOrder(p.x, p.y, minX, minY, invSize);\n p.prevZ = p.prev;\n p.nextZ = p.next;\n p = p.next;\n } while (p !== start);\n\n p.prevZ.nextZ = null;\n p.prevZ = null;\n\n sortLinked(p);\n}\n\n// Simon Tatham's linked list merge sort algorithm\n// http://www.chiark.greenend.org.uk/~sgtatham/algorithms/listsort.html\nfunction sortLinked(list) {\n let numMerges;\n let inSize = 1;\n\n do {\n let p = list;\n let e;\n list = null;\n let tail = null;\n numMerges = 0;\n\n while (p) {\n numMerges++;\n let q = p;\n let pSize = 0;\n for (let i = 0; i < inSize; i++) {\n pSize++;\n q = q.nextZ;\n if (!q) break;\n }\n let qSize = inSize;\n\n while (pSize > 0 || (qSize > 0 && q)) {\n\n if (pSize !== 0 && (qSize === 0 || !q || p.z <= q.z)) {\n e = p;\n p = p.nextZ;\n pSize--;\n } else {\n e = q;\n q = q.nextZ;\n qSize--;\n }\n\n if (tail) tail.nextZ = e;\n else list = e;\n\n e.prevZ = tail;\n tail = e;\n }\n\n p = q;\n }\n\n tail.nextZ = null;\n inSize *= 2;\n\n } while (numMerges > 1);\n\n return list;\n}\n\n// z-order of a point given coords and inverse of the longer side of data bbox\nfunction zOrder(x, y, minX, minY, invSize) {\n // coords are transformed into non-negative 15-bit integer range\n x = (x - minX) * invSize | 0;\n y = (y - minY) * invSize | 0;\n\n x = (x | (x << 8)) & 0x00FF00FF;\n x = (x | (x << 4)) & 0x0F0F0F0F;\n x = (x | (x << 2)) & 0x33333333;\n x = (x | (x << 1)) & 0x55555555;\n\n y = (y | (y << 8)) & 0x00FF00FF;\n y = (y | (y << 4)) & 0x0F0F0F0F;\n y = (y | (y << 2)) & 0x33333333;\n y = (y | (y << 1)) & 0x55555555;\n\n return x | (y << 1);\n}\n\n// find the leftmost node of a polygon ring\nfunction getLeftmost(start) {\n let p = start,\n leftmost = start;\n do {\n if (p.x < leftmost.x || (p.x === leftmost.x && p.y < leftmost.y)) leftmost = p;\n p = p.next;\n } while (p !== start);\n\n return leftmost;\n}\n\n// check if a point lies within a convex triangle\nfunction pointInTriangle(ax, ay, bx, by, cx, cy, px, py) {\n return (cx - px) * (ay - py) >= (ax - px) * (cy - py) &&\n (ax - px) * (by - py) >= (bx - px) * (ay - py) &&\n (bx - px) * (cy - py) >= (cx - px) * (by - py);\n}\n\n// check if a point lies within a convex triangle but false if its equal to the first point of the triangle\nfunction pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, px, py) {\n return !(ax === px && ay === py) && pointInTriangle(ax, ay, bx, by, cx, cy, px, py);\n}\n\n// check if a diagonal between two polygon nodes is valid (lies in polygon interior)\nfunction isValidDiagonal(a, b) {\n return a.next.i !== b.i && a.prev.i !== b.i && !intersectsPolygon(a, b) && // doesn't intersect other edges\n (locallyInside(a, b) && locallyInside(b, a) && middleInside(a, b) && // locally visible\n (area(a.prev, a, b.prev) || area(a, b.prev, b)) || // does not create opposite-facing sectors\n equals(a, b) && area(a.prev, a, a.next) > 0 && area(b.prev, b, b.next) > 0); // special zero-length case\n}\n\n// signed area of a triangle\nfunction area(p, q, r) {\n return (q.y - p.y) * (r.x - q.x) - (q.x - p.x) * (r.y - q.y);\n}\n\n// check if two points are equal\nfunction equals(p1, p2) {\n return p1.x === p2.x && p1.y === p2.y;\n}\n\n// check if two segments intersect\nfunction intersects(p1, q1, p2, q2) {\n const o1 = sign(area(p1, q1, p2));\n const o2 = sign(area(p1, q1, q2));\n const o3 = sign(area(p2, q2, p1));\n const o4 = sign(area(p2, q2, q1));\n\n if (o1 !== o2 && o3 !== o4) return true; // general case\n\n if (o1 === 0 && onSegment(p1, p2, q1)) return true; // p1, q1 and p2 are collinear and p2 lies on p1q1\n if (o2 === 0 && onSegment(p1, q2, q1)) return true; // p1, q1 and q2 are collinear and q2 lies on p1q1\n if (o3 === 0 && onSegment(p2, p1, q2)) return true; // p2, q2 and p1 are collinear and p1 lies on p2q2\n if (o4 === 0 && onSegment(p2, q1, q2)) return true; // p2, q2 and q1 are collinear and q1 lies on p2q2\n\n return false;\n}\n\n// for collinear points p, q, r, check if point q lies on segment pr\nfunction onSegment(p, q, r) {\n return q.x <= Math.max(p.x, r.x) && q.x >= Math.min(p.x, r.x) && q.y <= Math.max(p.y, r.y) && q.y >= Math.min(p.y, r.y);\n}\n\nfunction sign(num) {\n return num > 0 ? 1 : num < 0 ? -1 : 0;\n}\n\n// check if a polygon diagonal intersects any polygon segments\nfunction intersectsPolygon(a, b) {\n let p = a;\n do {\n if (p.i !== a.i && p.next.i !== a.i && p.i !== b.i && p.next.i !== b.i &&\n intersects(p, p.next, a, b)) return true;\n p = p.next;\n } while (p !== a);\n\n return false;\n}\n\n// check if a polygon diagonal is locally inside the polygon\nfunction locallyInside(a, b) {\n return area(a.prev, a, a.next) < 0 ?\n area(a, b, a.next) >= 0 && area(a, a.prev, b) >= 0 :\n area(a, b, a.prev) < 0 || area(a, a.next, b) < 0;\n}\n\n// check if the middle point of a polygon diagonal is inside the polygon\nfunction middleInside(a, b) {\n let p = a;\n let inside = false;\n const px = (a.x + b.x) / 2;\n const py = (a.y + b.y) / 2;\n do {\n if (((p.y > py) !== (p.next.y > py)) && p.next.y !== p.y &&\n (px < (p.next.x - p.x) * (py - p.y) / (p.next.y - p.y) + p.x))\n inside = !inside;\n p = p.next;\n } while (p !== a);\n\n return inside;\n}\n\n// link two polygon vertices with a bridge; if the vertices belong to the same ring, it splits polygon into two;\n// if one belongs to the outer ring and another to a hole, it merges it into a single ring\nfunction splitPolygon(a, b) {\n const a2 = createNode(a.i, a.x, a.y),\n b2 = createNode(b.i, b.x, b.y),\n an = a.next,\n bp = b.prev;\n\n a.next = b;\n b.prev = a;\n\n a2.next = an;\n an.prev = a2;\n\n b2.next = a2;\n a2.prev = b2;\n\n bp.next = b2;\n b2.prev = bp;\n\n return b2;\n}\n\n// create a node and optionally link it with previous one (in a circular doubly linked list)\nfunction insertNode(i, x, y, last) {\n const p = createNode(i, x, y);\n\n if (!last) {\n p.prev = p;\n p.next = p;\n\n } else {\n p.next = last.next;\n p.prev = last;\n last.next.prev = p;\n last.next = p;\n }\n return p;\n}\n\nfunction removeNode(p) {\n p.next.prev = p.prev;\n p.prev.next = p.next;\n\n if (p.prevZ) p.prevZ.nextZ = p.nextZ;\n if (p.nextZ) p.nextZ.prevZ = p.prevZ;\n}\n\nfunction createNode(i, x, y) {\n return {\n i, // vertex index in coordinates array\n x, y, // vertex coordinates\n prev: null, // previous and next vertex nodes in a polygon ring\n next: null,\n z: 0, // z-order curve value\n prevZ: null, // previous and next nodes in z-order\n nextZ: null,\n steiner: false // indicates whether this is a steiner point\n };\n}\n\nfunction signedArea(data, start, end, dim) {\n let sum = 0;\n for (let i = start, j = end - dim; i < end; i += dim) {\n sum += (data[j] - data[i]) * (data[i + 1] + data[j + 1]);\n j = i;\n }\n return sum;\n}\n\nclass Earcut {\n\n\t/**\n\t * Triangulates the given shape definition by returning an array of triangles.\n\t *\n\t * @param {Array} data - An array with 2D points.\n\t * @param {Array} holeIndices - An array with indices defining holes.\n\t * @param {number} [dim=2] - The number of coordinates per vertex in the input array.\n\t * @return {Array} An array representing the triangulated faces. Each face is defined by three consecutive numbers\n\t * representing vertex indices.\n\t */\n\tstatic triangulate( data, holeIndices, dim = 2 ) {\n\n\t\treturn earcut( data, holeIndices, dim );\n\n\t}\n\n}\n\n/**\n * A class containing utility functions for shapes.\n *\n * @hideconstructor\n */\nclass ShapeUtils {\n\n\t/**\n\t * Calculate area of a ( 2D ) contour polygon.\n\t *\n\t * @param {Array} contour - An array of 2D points.\n\t * @return {number} The area.\n\t */\n\tstatic area( contour ) {\n\n\t\tconst n = contour.length;\n\t\tlet a = 0.0;\n\n\t\tfor ( let p = n - 1, q = 0; q < n; p = q ++ ) {\n\n\t\t\ta += contour[ p ].x * contour[ q ].y - contour[ q ].x * contour[ p ].y;\n\n\t\t}\n\n\t\treturn a * 0.5;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given contour uses a clockwise winding order.\n\t *\n\t * @param {Array} pts - An array of 2D points defining a polygon.\n\t * @return {boolean} Whether the given contour uses a clockwise winding order or not.\n\t */\n\tstatic isClockWise( pts ) {\n\n\t\treturn ShapeUtils.area( pts ) < 0;\n\n\t}\n\n\t/**\n\t * Triangulates the given shape definition.\n\t *\n\t * @param {Array} contour - An array of 2D points defining the contour.\n\t * @param {Array>} holes - An array that holds arrays of 2D points defining the holes.\n\t * @return {Array>} An array that holds for each face definition an array with three indices.\n\t */\n\tstatic triangulateShape( contour, holes ) {\n\n\t\tconst vertices = []; // flat array of vertices like [ x0,y0, x1,y1, x2,y2, ... ]\n\t\tconst holeIndices = []; // array of hole indices\n\t\tconst faces = []; // final array of vertex indices like [ [ a,b,d ], [ b,c,d ] ]\n\n\t\tremoveDupEndPts( contour );\n\t\taddContour( vertices, contour );\n\n\t\t//\n\n\t\tlet holeIndex = contour.length;\n\n\t\tholes.forEach( removeDupEndPts );\n\n\t\tfor ( let i = 0; i < holes.length; i ++ ) {\n\n\t\t\tholeIndices.push( holeIndex );\n\t\t\tholeIndex += holes[ i ].length;\n\t\t\taddContour( vertices, holes[ i ] );\n\n\t\t}\n\n\t\t//\n\n\t\tconst triangles = Earcut.triangulate( vertices, holeIndices );\n\n\t\t//\n\n\t\tfor ( let i = 0; i < triangles.length; i += 3 ) {\n\n\t\t\tfaces.push( triangles.slice( i, i + 3 ) );\n\n\t\t}\n\n\t\treturn faces;\n\n\t}\n\n}\n\nfunction removeDupEndPts( points ) {\n\n\tconst l = points.length;\n\n\tif ( l > 2 && points[ l - 1 ].equals( points[ 0 ] ) ) {\n\n\t\tpoints.pop();\n\n\t}\n\n}\n\nfunction addContour( vertices, contour ) {\n\n\tfor ( let i = 0; i < contour.length; i ++ ) {\n\n\t\tvertices.push( contour[ i ].x );\n\t\tvertices.push( contour[ i ].y );\n\n\t}\n\n}\n\n/**\n * Creates extruded geometry from a path shape.\n *\n * ```js\n * const length = 12, width = 8;\n *\n * const shape = new THREE.Shape();\n * shape.moveTo( 0,0 );\n * shape.lineTo( 0, width );\n * shape.lineTo( length, width );\n * shape.lineTo( length, 0 );\n * shape.lineTo( 0, 0 );\n *\n * const geometry = new THREE.ExtrudeGeometry( shape );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const mesh = new THREE.Mesh( geometry, material ) ;\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass ExtrudeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new extrude geometry.\n\t *\n\t * @param {Shape|Array} [shapes] - A shape or an array of shapes.\n\t * @param {ExtrudeGeometry~Options} [options] - The extrude settings.\n\t */\n\tconstructor( shapes = new Shape( [ new Vector2( 0.5, 0.5 ), new Vector2( -0.5, 0.5 ), new Vector2( -0.5, -0.5 ), new Vector2( 0.5, -0.5 ) ] ), options = {} ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'ExtrudeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tshapes: shapes,\n\t\t\toptions: options\n\t\t};\n\n\t\tshapes = Array.isArray( shapes ) ? shapes : [ shapes ];\n\n\t\tconst scope = this;\n\n\t\tconst verticesArray = [];\n\t\tconst uvArray = [];\n\n\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\tconst shape = shapes[ i ];\n\t\t\taddShape( shape );\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( verticesArray, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvArray, 2 ) );\n\n\t\tthis.computeVertexNormals();\n\n\t\t// functions\n\n\t\tfunction addShape( shape ) {\n\n\t\t\tconst placeholder = [];\n\n\t\t\t// options\n\n\t\t\tconst curveSegments = options.curveSegments !== undefined ? options.curveSegments : 12;\n\t\t\tconst steps = options.steps !== undefined ? options.steps : 1;\n\t\t\tconst depth = options.depth !== undefined ? options.depth : 1;\n\n\t\t\tlet bevelEnabled = options.bevelEnabled !== undefined ? options.bevelEnabled : true;\n\t\t\tlet bevelThickness = options.bevelThickness !== undefined ? options.bevelThickness : 0.2;\n\t\t\tlet bevelSize = options.bevelSize !== undefined ? options.bevelSize : bevelThickness - 0.1;\n\t\t\tlet bevelOffset = options.bevelOffset !== undefined ? options.bevelOffset : 0;\n\t\t\tlet bevelSegments = options.bevelSegments !== undefined ? options.bevelSegments : 3;\n\n\t\t\tconst extrudePath = options.extrudePath;\n\n\t\t\tconst uvgen = options.UVGenerator !== undefined ? options.UVGenerator : WorldUVGenerator;\n\n\t\t\t//\n\n\t\t\tlet extrudePts, extrudeByPath = false;\n\t\t\tlet splineTube, binormal, normal, position2;\n\n\t\t\tif ( extrudePath ) {\n\n\t\t\t\textrudePts = extrudePath.getSpacedPoints( steps );\n\n\t\t\t\textrudeByPath = true;\n\t\t\t\tbevelEnabled = false; // bevels not supported for path extrusion\n\n\t\t\t\t// SETUP TNB variables\n\n\t\t\t\t// TODO1 - have a .isClosed in spline?\n\n\t\t\t\tsplineTube = extrudePath.computeFrenetFrames( steps, false );\n\n\t\t\t\t// console.log(splineTube, 'splineTube', splineTube.normals.length, 'steps', steps, 'extrudePts', extrudePts.length);\n\n\t\t\t\tbinormal = new Vector3();\n\t\t\t\tnormal = new Vector3();\n\t\t\t\tposition2 = new Vector3();\n\n\t\t\t}\n\n\t\t\t// Safeguards if bevels are not enabled\n\n\t\t\tif ( ! bevelEnabled ) {\n\n\t\t\t\tbevelSegments = 0;\n\t\t\t\tbevelThickness = 0;\n\t\t\t\tbevelSize = 0;\n\t\t\t\tbevelOffset = 0;\n\n\t\t\t}\n\n\t\t\t// Variables initialization\n\n\t\t\tconst shapePoints = shape.extractPoints( curveSegments );\n\n\t\t\tlet vertices = shapePoints.shape;\n\t\t\tconst holes = shapePoints.holes;\n\n\t\t\tconst reverse = ! ShapeUtils.isClockWise( vertices );\n\n\t\t\tif ( reverse ) {\n\n\t\t\t\tvertices = vertices.reverse();\n\n\t\t\t\t// Maybe we should also check if holes are in the opposite direction, just to be safe ...\n\n\t\t\t\tfor ( let h = 0, hl = holes.length; h < hl; h ++ ) {\n\n\t\t\t\t\tconst ahole = holes[ h ];\n\n\t\t\t\t\tif ( ShapeUtils.isClockWise( ahole ) ) {\n\n\t\t\t\t\t\tholes[ h ] = ahole.reverse();\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t/**Merges index-adjacent points that are within a threshold distance of each other. Array is modified in-place. Threshold distance is empirical, and scaled based on the magnitude of point coordinates.\n\t\t\t * @param {Array} points\n\t\t\t*/\n\t\t\tfunction mergeOverlappingPoints( points ) {\n\n\t\t\t\tconst THRESHOLD = 1e-10;\n\t\t\t\tconst THRESHOLD_SQ = THRESHOLD * THRESHOLD;\n\t\t\t\tlet prevPos = points[ 0 ];\n\t\t\t\tfor ( let i = 1; i <= points.length; i ++ ) {\n\n\t\t\t\t\tconst currentIndex = i % points.length;\n\t\t\t\t\tconst currentPos = points[ currentIndex ];\n\t\t\t\t\tconst dx = currentPos.x - prevPos.x;\n\t\t\t\t\tconst dy = currentPos.y - prevPos.y;\n\t\t\t\t\tconst distSq = dx * dx + dy * dy;\n\n\t\t\t\t\tconst scalingFactorSqrt = Math.max(\n\t\t\t\t\t\tMath.abs( currentPos.x ),\n\t\t\t\t\t\tMath.abs( currentPos.y ),\n\t\t\t\t\t\tMath.abs( prevPos.x ),\n\t\t\t\t\t\tMath.abs( prevPos.y )\n\t\t\t\t\t);\n\t\t\t\t\tconst thresholdSqScaled = THRESHOLD_SQ * scalingFactorSqrt * scalingFactorSqrt;\n\t\t\t\t\tif ( distSq <= thresholdSqScaled ) {\n\n\t\t\t\t\t\tpoints.splice( currentIndex, 1 );\n\t\t\t\t\t\ti --;\n\t\t\t\t\t\tcontinue;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tprevPos = currentPos;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tmergeOverlappingPoints( vertices );\n\t\t\tholes.forEach( mergeOverlappingPoints );\n\n\t\t\tconst numHoles = holes.length;\n\n\t\t\t/* Vertices */\n\n\t\t\tconst contour = vertices; // vertices has all points but contour has only points of circumference\n\n\t\t\tfor ( let h = 0; h < numHoles; h ++ ) {\n\n\t\t\t\tconst ahole = holes[ h ];\n\n\t\t\t\tvertices = vertices.concat( ahole );\n\n\t\t\t}\n\n\n\t\t\tfunction scalePt2( pt, vec, size ) {\n\n\t\t\t\tif ( ! vec ) console.error( 'THREE.ExtrudeGeometry: vec does not exist' );\n\n\t\t\t\treturn pt.clone().addScaledVector( vec, size );\n\n\t\t\t}\n\n\t\t\tconst vlen = vertices.length;\n\n\n\t\t\t// Find directions for point movement\n\n\n\t\t\tfunction getBevelVec( inPt, inPrev, inNext ) {\n\n\t\t\t\t// computes for inPt the corresponding point inPt' on a new contour\n\t\t\t\t// shifted by 1 unit (length of normalized vector) to the left\n\t\t\t\t// if we walk along contour clockwise, this new contour is outside the old one\n\t\t\t\t//\n\t\t\t\t// inPt' is the intersection of the two lines parallel to the two\n\t\t\t\t// adjacent edges of inPt at a distance of 1 unit on the left side.\n\n\t\t\t\tlet v_trans_x, v_trans_y, shrink_by; // resulting translation vector for inPt\n\n\t\t\t\t// good reading for geometry algorithms (here: line-line intersection)\n\t\t\t\t// http://geomalgorithms.com/a05-_intersect-1.html\n\n\t\t\t\tconst v_prev_x = inPt.x - inPrev.x,\n\t\t\t\t\tv_prev_y = inPt.y - inPrev.y;\n\t\t\t\tconst v_next_x = inNext.x - inPt.x,\n\t\t\t\t\tv_next_y = inNext.y - inPt.y;\n\n\t\t\t\tconst v_prev_lensq = ( v_prev_x * v_prev_x + v_prev_y * v_prev_y );\n\n\t\t\t\t// check for collinear edges\n\t\t\t\tconst collinear0 = ( v_prev_x * v_next_y - v_prev_y * v_next_x );\n\n\t\t\t\tif ( Math.abs( collinear0 ) > Number.EPSILON ) {\n\n\t\t\t\t\t// not collinear\n\n\t\t\t\t\t// length of vectors for normalizing\n\n\t\t\t\t\tconst v_prev_len = Math.sqrt( v_prev_lensq );\n\t\t\t\t\tconst v_next_len = Math.sqrt( v_next_x * v_next_x + v_next_y * v_next_y );\n\n\t\t\t\t\t// shift adjacent points by unit vectors to the left\n\n\t\t\t\t\tconst ptPrevShift_x = ( inPrev.x - v_prev_y / v_prev_len );\n\t\t\t\t\tconst ptPrevShift_y = ( inPrev.y + v_prev_x / v_prev_len );\n\n\t\t\t\t\tconst ptNextShift_x = ( inNext.x - v_next_y / v_next_len );\n\t\t\t\t\tconst ptNextShift_y = ( inNext.y + v_next_x / v_next_len );\n\n\t\t\t\t\t// scaling factor for v_prev to intersection point\n\n\t\t\t\t\tconst sf = ( ( ptNextShift_x - ptPrevShift_x ) * v_next_y -\n\t\t\t\t\t\t\t( ptNextShift_y - ptPrevShift_y ) * v_next_x ) /\n\t\t\t\t\t\t( v_prev_x * v_next_y - v_prev_y * v_next_x );\n\n\t\t\t\t\t// vector from inPt to intersection point\n\n\t\t\t\t\tv_trans_x = ( ptPrevShift_x + v_prev_x * sf - inPt.x );\n\t\t\t\t\tv_trans_y = ( ptPrevShift_y + v_prev_y * sf - inPt.y );\n\n\t\t\t\t\t// Don't normalize!, otherwise sharp corners become ugly\n\t\t\t\t\t// but prevent crazy spikes\n\t\t\t\t\tconst v_trans_lensq = ( v_trans_x * v_trans_x + v_trans_y * v_trans_y );\n\t\t\t\t\tif ( v_trans_lensq <= 2 ) {\n\n\t\t\t\t\t\treturn new Vector2( v_trans_x, v_trans_y );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tshrink_by = Math.sqrt( v_trans_lensq / 2 );\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// handle special case of collinear edges\n\n\t\t\t\t\tlet direction_eq = false; // assumes: opposite\n\n\t\t\t\t\tif ( v_prev_x > Number.EPSILON ) {\n\n\t\t\t\t\t\tif ( v_next_x > Number.EPSILON ) {\n\n\t\t\t\t\t\t\tdirection_eq = true;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tif ( v_prev_x < - Number.EPSILON ) {\n\n\t\t\t\t\t\t\tif ( v_next_x < - Number.EPSILON ) {\n\n\t\t\t\t\t\t\t\tdirection_eq = true;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tif ( Math.sign( v_prev_y ) === Math.sign( v_next_y ) ) {\n\n\t\t\t\t\t\t\t\tdirection_eq = true;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( direction_eq ) {\n\n\t\t\t\t\t\t// console.log(\"Warning: lines are a straight sequence\");\n\t\t\t\t\t\tv_trans_x = - v_prev_y;\n\t\t\t\t\t\tv_trans_y = v_prev_x;\n\t\t\t\t\t\tshrink_by = Math.sqrt( v_prev_lensq );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// console.log(\"Warning: lines are a straight spike\");\n\t\t\t\t\t\tv_trans_x = v_prev_x;\n\t\t\t\t\t\tv_trans_y = v_prev_y;\n\t\t\t\t\t\tshrink_by = Math.sqrt( v_prev_lensq / 2 );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\treturn new Vector2( v_trans_x / shrink_by, v_trans_y / shrink_by );\n\n\t\t\t}\n\n\n\t\t\tconst contourMovements = [];\n\n\t\t\tfor ( let i = 0, il = contour.length, j = il - 1, k = i + 1; i < il; i ++, j ++, k ++ ) {\n\n\t\t\t\tif ( j === il ) j = 0;\n\t\t\t\tif ( k === il ) k = 0;\n\n\t\t\t\t// (j)---(i)---(k)\n\t\t\t\t// console.log('i,j,k', i, j , k)\n\n\t\t\t\tcontourMovements[ i ] = getBevelVec( contour[ i ], contour[ j ], contour[ k ] );\n\n\t\t\t}\n\n\t\t\tconst holesMovements = [];\n\t\t\tlet oneHoleMovements, verticesMovements = contourMovements.concat();\n\n\t\t\tfor ( let h = 0, hl = numHoles; h < hl; h ++ ) {\n\n\t\t\t\tconst ahole = holes[ h ];\n\n\t\t\t\toneHoleMovements = [];\n\n\t\t\t\tfor ( let i = 0, il = ahole.length, j = il - 1, k = i + 1; i < il; i ++, j ++, k ++ ) {\n\n\t\t\t\t\tif ( j === il ) j = 0;\n\t\t\t\t\tif ( k === il ) k = 0;\n\n\t\t\t\t\t// (j)---(i)---(k)\n\t\t\t\t\toneHoleMovements[ i ] = getBevelVec( ahole[ i ], ahole[ j ], ahole[ k ] );\n\n\t\t\t\t}\n\n\t\t\t\tholesMovements.push( oneHoleMovements );\n\t\t\t\tverticesMovements = verticesMovements.concat( oneHoleMovements );\n\n\t\t\t}\n\n\t\t\tlet faces;\n\n\t\t\tif ( bevelSegments === 0 ) {\n\n\t\t\t\tfaces = ShapeUtils.triangulateShape( contour, holes );\n\n\t\t\t} else {\n\n\t\t\t\tconst contractedContourVertices = [];\n\t\t\t\tconst expandedHoleVertices = [];\n\n\t\t\t\t// Loop bevelSegments, 1 for the front, 1 for the back\n\n\t\t\t\tfor ( let b = 0; b < bevelSegments; b ++ ) {\n\n\t\t\t\t\t//for ( b = bevelSegments; b > 0; b -- ) {\n\n\t\t\t\t\tconst t = b / bevelSegments;\n\t\t\t\t\tconst z = bevelThickness * Math.cos( t * Math.PI / 2 );\n\t\t\t\t\tconst bs = bevelSize * Math.sin( t * Math.PI / 2 ) + bevelOffset;\n\n\t\t\t\t\t// contract shape\n\n\t\t\t\t\tfor ( let i = 0, il = contour.length; i < il; i ++ ) {\n\n\t\t\t\t\t\tconst vert = scalePt2( contour[ i ], contourMovements[ i ], bs );\n\n\t\t\t\t\t\tv( vert.x, vert.y, - z );\n\t\t\t\t\t\tif ( t === 0 ) contractedContourVertices.push( vert );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// expand holes\n\n\t\t\t\t\tfor ( let h = 0, hl = numHoles; h < hl; h ++ ) {\n\n\t\t\t\t\t\tconst ahole = holes[ h ];\n\t\t\t\t\t\toneHoleMovements = holesMovements[ h ];\n\t\t\t\t\t\tconst oneHoleVertices = [];\n\t\t\t\t\t\tfor ( let i = 0, il = ahole.length; i < il; i ++ ) {\n\n\t\t\t\t\t\t\tconst vert = scalePt2( ahole[ i ], oneHoleMovements[ i ], bs );\n\n\t\t\t\t\t\t\tv( vert.x, vert.y, - z );\n\t\t\t\t\t\t\tif ( t === 0 ) oneHoleVertices.push( vert );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tif ( t === 0 ) expandedHoleVertices.push( oneHoleVertices );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tfaces = ShapeUtils.triangulateShape( contractedContourVertices, expandedHoleVertices );\n\n\t\t\t}\n\n\t\t\tconst flen = faces.length;\n\n\t\t\tconst bs = bevelSize + bevelOffset;\n\n\t\t\t// Back facing vertices\n\n\t\t\tfor ( let i = 0; i < vlen; i ++ ) {\n\n\t\t\t\tconst vert = bevelEnabled ? scalePt2( vertices[ i ], verticesMovements[ i ], bs ) : vertices[ i ];\n\n\t\t\t\tif ( ! extrudeByPath ) {\n\n\t\t\t\t\tv( vert.x, vert.y, 0 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// v( vert.x, vert.y + extrudePts[ 0 ].y, extrudePts[ 0 ].x );\n\n\t\t\t\t\tnormal.copy( splineTube.normals[ 0 ] ).multiplyScalar( vert.x );\n\t\t\t\t\tbinormal.copy( splineTube.binormals[ 0 ] ).multiplyScalar( vert.y );\n\n\t\t\t\t\tposition2.copy( extrudePts[ 0 ] ).add( normal ).add( binormal );\n\n\t\t\t\t\tv( position2.x, position2.y, position2.z );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// Add stepped vertices...\n\t\t\t// Including front facing vertices\n\n\t\t\tfor ( let s = 1; s <= steps; s ++ ) {\n\n\t\t\t\tfor ( let i = 0; i < vlen; i ++ ) {\n\n\t\t\t\t\tconst vert = bevelEnabled ? scalePt2( vertices[ i ], verticesMovements[ i ], bs ) : vertices[ i ];\n\n\t\t\t\t\tif ( ! extrudeByPath ) {\n\n\t\t\t\t\t\tv( vert.x, vert.y, depth / steps * s );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// v( vert.x, vert.y + extrudePts[ s - 1 ].y, extrudePts[ s - 1 ].x );\n\n\t\t\t\t\t\tnormal.copy( splineTube.normals[ s ] ).multiplyScalar( vert.x );\n\t\t\t\t\t\tbinormal.copy( splineTube.binormals[ s ] ).multiplyScalar( vert.y );\n\n\t\t\t\t\t\tposition2.copy( extrudePts[ s ] ).add( normal ).add( binormal );\n\n\t\t\t\t\t\tv( position2.x, position2.y, position2.z );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\n\t\t\t// Add bevel segments planes\n\n\t\t\t//for ( b = 1; b <= bevelSegments; b ++ ) {\n\t\t\tfor ( let b = bevelSegments - 1; b >= 0; b -- ) {\n\n\t\t\t\tconst t = b / bevelSegments;\n\t\t\t\tconst z = bevelThickness * Math.cos( t * Math.PI / 2 );\n\t\t\t\tconst bs = bevelSize * Math.sin( t * Math.PI / 2 ) + bevelOffset;\n\n\t\t\t\t// contract shape\n\n\t\t\t\tfor ( let i = 0, il = contour.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst vert = scalePt2( contour[ i ], contourMovements[ i ], bs );\n\t\t\t\t\tv( vert.x, vert.y, depth + z );\n\n\t\t\t\t}\n\n\t\t\t\t// expand holes\n\n\t\t\t\tfor ( let h = 0, hl = holes.length; h < hl; h ++ ) {\n\n\t\t\t\t\tconst ahole = holes[ h ];\n\t\t\t\t\toneHoleMovements = holesMovements[ h ];\n\n\t\t\t\t\tfor ( let i = 0, il = ahole.length; i < il; i ++ ) {\n\n\t\t\t\t\t\tconst vert = scalePt2( ahole[ i ], oneHoleMovements[ i ], bs );\n\n\t\t\t\t\t\tif ( ! extrudeByPath ) {\n\n\t\t\t\t\t\t\tv( vert.x, vert.y, depth + z );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tv( vert.x, vert.y + extrudePts[ steps - 1 ].y, extrudePts[ steps - 1 ].x + z );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t/* Faces */\n\n\t\t\t// Top and bottom faces\n\n\t\t\tbuildLidFaces();\n\n\t\t\t// Sides faces\n\n\t\t\tbuildSideFaces();\n\n\n\t\t\t///// Internal functions\n\n\t\t\tfunction buildLidFaces() {\n\n\t\t\t\tconst start = verticesArray.length / 3;\n\n\t\t\t\tif ( bevelEnabled ) {\n\n\t\t\t\t\tlet layer = 0; // steps + 1\n\t\t\t\t\tlet offset = vlen * layer;\n\n\t\t\t\t\t// Bottom faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 2 ] + offset, face[ 1 ] + offset, face[ 0 ] + offset );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tlayer = steps + bevelSegments * 2;\n\t\t\t\t\toffset = vlen * layer;\n\n\t\t\t\t\t// Top faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 0 ] + offset, face[ 1 ] + offset, face[ 2 ] + offset );\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// Bottom faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 2 ], face[ 1 ], face[ 0 ] );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// Top faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 0 ] + vlen * steps, face[ 1 ] + vlen * steps, face[ 2 ] + vlen * steps );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tscope.addGroup( start, verticesArray.length / 3 - start, 0 );\n\n\t\t\t}\n\n\t\t\t// Create faces for the z-sides of the shape\n\n\t\t\tfunction buildSideFaces() {\n\n\t\t\t\tconst start = verticesArray.length / 3;\n\t\t\t\tlet layeroffset = 0;\n\t\t\t\tsidewalls( contour, layeroffset );\n\t\t\t\tlayeroffset += contour.length;\n\n\t\t\t\tfor ( let h = 0, hl = holes.length; h < hl; h ++ ) {\n\n\t\t\t\t\tconst ahole = holes[ h ];\n\t\t\t\t\tsidewalls( ahole, layeroffset );\n\n\t\t\t\t\t//, true\n\t\t\t\t\tlayeroffset += ahole.length;\n\n\t\t\t\t}\n\n\n\t\t\t\tscope.addGroup( start, verticesArray.length / 3 - start, 1 );\n\n\n\t\t\t}\n\n\t\t\tfunction sidewalls( contour, layeroffset ) {\n\n\t\t\t\tlet i = contour.length;\n\n\t\t\t\twhile ( -- i >= 0 ) {\n\n\t\t\t\t\tconst j = i;\n\t\t\t\t\tlet k = i - 1;\n\t\t\t\t\tif ( k < 0 ) k = contour.length - 1;\n\n\t\t\t\t\t//console.log('b', i,j, i-1, k,vertices.length);\n\n\t\t\t\t\tfor ( let s = 0, sl = ( steps + bevelSegments * 2 ); s < sl; s ++ ) {\n\n\t\t\t\t\t\tconst slen1 = vlen * s;\n\t\t\t\t\t\tconst slen2 = vlen * ( s + 1 );\n\n\t\t\t\t\t\tconst a = layeroffset + j + slen1,\n\t\t\t\t\t\t\tb = layeroffset + k + slen1,\n\t\t\t\t\t\t\tc = layeroffset + k + slen2,\n\t\t\t\t\t\t\td = layeroffset + j + slen2;\n\n\t\t\t\t\t\tf4( a, b, c, d );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tfunction v( x, y, z ) {\n\n\t\t\t\tplaceholder.push( x );\n\t\t\t\tplaceholder.push( y );\n\t\t\t\tplaceholder.push( z );\n\n\t\t\t}\n\n\n\t\t\tfunction f3( a, b, c ) {\n\n\t\t\t\taddVertex( a );\n\t\t\t\taddVertex( b );\n\t\t\t\taddVertex( c );\n\n\t\t\t\tconst nextIndex = verticesArray.length / 3;\n\t\t\t\tconst uvs = uvgen.generateTopUV( scope, verticesArray, nextIndex - 3, nextIndex - 2, nextIndex - 1 );\n\n\t\t\t\taddUV( uvs[ 0 ] );\n\t\t\t\taddUV( uvs[ 1 ] );\n\t\t\t\taddUV( uvs[ 2 ] );\n\n\t\t\t}\n\n\t\t\tfunction f4( a, b, c, d ) {\n\n\t\t\t\taddVertex( a );\n\t\t\t\taddVertex( b );\n\t\t\t\taddVertex( d );\n\n\t\t\t\taddVertex( b );\n\t\t\t\taddVertex( c );\n\t\t\t\taddVertex( d );\n\n\n\t\t\t\tconst nextIndex = verticesArray.length / 3;\n\t\t\t\tconst uvs = uvgen.generateSideWallUV( scope, verticesArray, nextIndex - 6, nextIndex - 3, nextIndex - 2, nextIndex - 1 );\n\n\t\t\t\taddUV( uvs[ 0 ] );\n\t\t\t\taddUV( uvs[ 1 ] );\n\t\t\t\taddUV( uvs[ 3 ] );\n\n\t\t\t\taddUV( uvs[ 1 ] );\n\t\t\t\taddUV( uvs[ 2 ] );\n\t\t\t\taddUV( uvs[ 3 ] );\n\n\t\t\t}\n\n\t\t\tfunction addVertex( index ) {\n\n\t\t\t\tverticesArray.push( placeholder[ index * 3 + 0 ] );\n\t\t\t\tverticesArray.push( placeholder[ index * 3 + 1 ] );\n\t\t\t\tverticesArray.push( placeholder[ index * 3 + 2 ] );\n\n\t\t\t}\n\n\n\t\t\tfunction addUV( vector2 ) {\n\n\t\t\t\tuvArray.push( vector2.x );\n\t\t\t\tuvArray.push( vector2.y );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tconst shapes = this.parameters.shapes;\n\t\tconst options = this.parameters.options;\n\n\t\treturn toJSON$1( shapes, options, data );\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @param {Array} shapes - An array of shapes.\n\t * @return {ExtrudeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data, shapes ) {\n\n\t\tconst geometryShapes = [];\n\n\t\tfor ( let j = 0, jl = data.shapes.length; j < jl; j ++ ) {\n\n\t\t\tconst shape = shapes[ data.shapes[ j ] ];\n\n\t\t\tgeometryShapes.push( shape );\n\n\t\t}\n\n\t\tconst extrudePath = data.options.extrudePath;\n\n\t\tif ( extrudePath !== undefined ) {\n\n\t\t\tdata.options.extrudePath = new Curves[ extrudePath.type ]().fromJSON( extrudePath );\n\n\t\t}\n\n\t\treturn new ExtrudeGeometry( geometryShapes, data.options );\n\n\t}\n\n}\n\nconst WorldUVGenerator = {\n\n\tgenerateTopUV: function ( geometry, vertices, indexA, indexB, indexC ) {\n\n\t\tconst a_x = vertices[ indexA * 3 ];\n\t\tconst a_y = vertices[ indexA * 3 + 1 ];\n\t\tconst b_x = vertices[ indexB * 3 ];\n\t\tconst b_y = vertices[ indexB * 3 + 1 ];\n\t\tconst c_x = vertices[ indexC * 3 ];\n\t\tconst c_y = vertices[ indexC * 3 + 1 ];\n\n\t\treturn [\n\t\t\tnew Vector2( a_x, a_y ),\n\t\t\tnew Vector2( b_x, b_y ),\n\t\t\tnew Vector2( c_x, c_y )\n\t\t];\n\n\t},\n\n\tgenerateSideWallUV: function ( geometry, vertices, indexA, indexB, indexC, indexD ) {\n\n\t\tconst a_x = vertices[ indexA * 3 ];\n\t\tconst a_y = vertices[ indexA * 3 + 1 ];\n\t\tconst a_z = vertices[ indexA * 3 + 2 ];\n\t\tconst b_x = vertices[ indexB * 3 ];\n\t\tconst b_y = vertices[ indexB * 3 + 1 ];\n\t\tconst b_z = vertices[ indexB * 3 + 2 ];\n\t\tconst c_x = vertices[ indexC * 3 ];\n\t\tconst c_y = vertices[ indexC * 3 + 1 ];\n\t\tconst c_z = vertices[ indexC * 3 + 2 ];\n\t\tconst d_x = vertices[ indexD * 3 ];\n\t\tconst d_y = vertices[ indexD * 3 + 1 ];\n\t\tconst d_z = vertices[ indexD * 3 + 2 ];\n\n\t\tif ( Math.abs( a_y - b_y ) < Math.abs( a_x - b_x ) ) {\n\n\t\t\treturn [\n\t\t\t\tnew Vector2( a_x, 1 - a_z ),\n\t\t\t\tnew Vector2( b_x, 1 - b_z ),\n\t\t\t\tnew Vector2( c_x, 1 - c_z ),\n\t\t\t\tnew Vector2( d_x, 1 - d_z )\n\t\t\t];\n\n\t\t} else {\n\n\t\t\treturn [\n\t\t\t\tnew Vector2( a_y, 1 - a_z ),\n\t\t\t\tnew Vector2( b_y, 1 - b_z ),\n\t\t\t\tnew Vector2( c_y, 1 - c_z ),\n\t\t\t\tnew Vector2( d_y, 1 - d_z )\n\t\t\t];\n\n\t\t}\n\n\t}\n\n};\n\nfunction toJSON$1( shapes, options, data ) {\n\n\tdata.shapes = [];\n\n\tif ( Array.isArray( shapes ) ) {\n\n\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\tconst shape = shapes[ i ];\n\n\t\t\tdata.shapes.push( shape.uuid );\n\n\t\t}\n\n\t} else {\n\n\t\tdata.shapes.push( shapes.uuid );\n\n\t}\n\n\tdata.options = Object.assign( {}, options );\n\n\tif ( options.extrudePath !== undefined ) data.options.extrudePath = options.extrudePath.toJSON();\n\n\treturn data;\n\n}\n\n/**\n * A geometry class for representing an icosahedron.\n *\n * ```js\n * const geometry = new THREE.IcosahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const icosahedron = new THREE.Mesh( geometry, material );\n * scene.add( icosahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass IcosahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new icosahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the icosahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a icosahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst t = ( 1 + Math.sqrt( 5 ) ) / 2;\n\n\t\tconst vertices = [\n\t\t\t-1, t, 0, \t1, t, 0, \t-1, - t, 0, \t1, - t, 0,\n\t\t\t0, -1, t, \t0, 1, t,\t0, -1, - t, \t0, 1, - t,\n\t\t\tt, 0, -1, \tt, 0, 1, \t- t, 0, -1, \t- t, 0, 1\n\t\t];\n\n\t\tconst indices = [\n\t\t\t0, 11, 5, \t0, 5, 1, \t0, 1, 7, \t0, 7, 10, \t0, 10, 11,\n\t\t\t1, 5, 9, \t5, 11, 4,\t11, 10, 2,\t10, 7, 6,\t7, 1, 8,\n\t\t\t3, 9, 4, \t3, 4, 2,\t3, 2, 6,\t3, 6, 8,\t3, 8, 9,\n\t\t\t4, 9, 5, \t2, 4, 11,\t6, 2, 10,\t8, 6, 7,\t9, 8, 1\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'IcosahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {IcosahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new IcosahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\n/**\n * Creates meshes with axial symmetry like vases. The lathe rotates around the Y axis.\n *\n * ```js\n * const points = [];\n * for ( let i = 0; i < 10; i ++ ) {\n * \tpoints.push( new THREE.Vector2( Math.sin( i * 0.2 ) * 10 + 5, ( i - 5 ) * 2 ) );\n * }\n * const geometry = new THREE.LatheGeometry( points );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const lathe = new THREE.Mesh( geometry, material );\n * scene.add( lathe );\n * ```\n *\n * @augments BufferGeometry\n */\nclass LatheGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new lathe geometry.\n\t *\n\t * @param {Array} [points] - An array of points in 2D space. The x-coordinate of each point\n\t * must be greater than zero.\n\t * @param {number} [segments=12] - The number of circumference segments to generate.\n\t * @param {number} [phiStart=0] - The starting angle in radians.\n\t * @param {number} [phiLength=Math.PI*2] - The radian (0 to 2PI) range of the lathed section 2PI is a\n\t * closed lathe, less than 2PI is a portion.\n\t */\n\tconstructor( points = [ new Vector2( 0, -0.5 ), new Vector2( 0.5, 0 ), new Vector2( 0, 0.5 ) ], segments = 12, phiStart = 0, phiLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'LatheGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tpoints: points,\n\t\t\tsegments: segments,\n\t\t\tphiStart: phiStart,\n\t\t\tphiLength: phiLength\n\t\t};\n\n\t\tsegments = Math.floor( segments );\n\n\t\t// clamp phiLength so it's in range of [ 0, 2PI ]\n\n\t\tphiLength = clamp( phiLength, 0, Math.PI * 2 );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst uvs = [];\n\t\tconst initNormals = [];\n\t\tconst normals = [];\n\n\t\t// helper variables\n\n\t\tconst inverseSegments = 1.0 / segments;\n\t\tconst vertex = new Vector3();\n\t\tconst uv = new Vector2();\n\t\tconst normal = new Vector3();\n\t\tconst curNormal = new Vector3();\n\t\tconst prevNormal = new Vector3();\n\t\tlet dx = 0;\n\t\tlet dy = 0;\n\n\t\t// pre-compute normals for initial \"meridian\"\n\n\t\tfor ( let j = 0; j <= ( points.length - 1 ); j ++ ) {\n\n\t\t\tswitch ( j ) {\n\n\t\t\t\tcase 0:\t\t\t\t// special handling for 1st vertex on path\n\n\t\t\t\t\tdx = points[ j + 1 ].x - points[ j ].x;\n\t\t\t\t\tdy = points[ j + 1 ].y - points[ j ].y;\n\n\t\t\t\t\tnormal.x = dy * 1.0;\n\t\t\t\t\tnormal.y = - dx;\n\t\t\t\t\tnormal.z = dy * 0.0;\n\n\t\t\t\t\tprevNormal.copy( normal );\n\n\t\t\t\t\tnormal.normalize();\n\n\t\t\t\t\tinitNormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase ( points.length - 1 ):\t// special handling for last Vertex on path\n\n\t\t\t\t\tinitNormals.push( prevNormal.x, prevNormal.y, prevNormal.z );\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\t\t\t// default handling for all vertices in between\n\n\t\t\t\t\tdx = points[ j + 1 ].x - points[ j ].x;\n\t\t\t\t\tdy = points[ j + 1 ].y - points[ j ].y;\n\n\t\t\t\t\tnormal.x = dy * 1.0;\n\t\t\t\t\tnormal.y = - dx;\n\t\t\t\t\tnormal.z = dy * 0.0;\n\n\t\t\t\t\tcurNormal.copy( normal );\n\n\t\t\t\t\tnormal.x += prevNormal.x;\n\t\t\t\t\tnormal.y += prevNormal.y;\n\t\t\t\t\tnormal.z += prevNormal.z;\n\n\t\t\t\t\tnormal.normalize();\n\n\t\t\t\t\tinitNormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t\tprevNormal.copy( curNormal );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// generate vertices, uvs and normals\n\n\t\tfor ( let i = 0; i <= segments; i ++ ) {\n\n\t\t\tconst phi = phiStart + i * inverseSegments * phiLength;\n\n\t\t\tconst sin = Math.sin( phi );\n\t\t\tconst cos = Math.cos( phi );\n\n\t\t\tfor ( let j = 0; j <= ( points.length - 1 ); j ++ ) {\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = points[ j ].x * sin;\n\t\t\t\tvertex.y = points[ j ].y;\n\t\t\t\tvertex.z = points[ j ].x * cos;\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuv.x = i / segments;\n\t\t\t\tuv.y = j / ( points.length - 1 );\n\n\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t\t// normal\n\n\t\t\t\tconst x = initNormals[ 3 * j + 0 ] * sin;\n\t\t\t\tconst y = initNormals[ 3 * j + 1 ];\n\t\t\t\tconst z = initNormals[ 3 * j + 0 ] * cos;\n\n\t\t\t\tnormals.push( x, y, z );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let i = 0; i < segments; i ++ ) {\n\n\t\t\tfor ( let j = 0; j < ( points.length - 1 ); j ++ ) {\n\n\t\t\t\tconst base = j + i * points.length;\n\n\t\t\t\tconst a = base;\n\t\t\t\tconst b = base + points.length;\n\t\t\t\tconst c = base + points.length + 1;\n\t\t\t\tconst d = base + 1;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( c, d, b );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {LatheGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new LatheGeometry( data.points, data.segments, data.phiStart, data.phiLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing an octahedron.\n *\n * ```js\n * const geometry = new THREE.OctahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const octahedron = new THREE.Mesh( geometry, material );\n * scene.add( octahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass OctahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new octahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the octahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a octahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst vertices = [\n\t\t\t1, 0, 0, \t-1, 0, 0,\t0, 1, 0,\n\t\t\t0, -1, 0, \t0, 0, 1,\t0, 0, -1\n\t\t];\n\n\t\tconst indices = [\n\t\t\t0, 2, 4,\t0, 4, 3,\t0, 3, 5,\n\t\t\t0, 5, 2,\t1, 2, 5,\t1, 5, 3,\n\t\t\t1, 3, 4,\t1, 4, 2\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'OctahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {OctahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new OctahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a plane.\n *\n * ```js\n * const geometry = new THREE.PlaneGeometry( 1, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00, side: THREE.DoubleSide } );\n * const plane = new THREE.Mesh( geometry, material );\n * scene.add( plane );\n * ```\n *\n * @augments BufferGeometry\n */\nclass PlaneGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new plane geometry.\n\t *\n\t * @param {number} [width=1] - The width along the X axis.\n\t * @param {number} [height=1] - The height along the Y axis\n\t * @param {number} [widthSegments=1] - The number of segments along the X axis.\n\t * @param {number} [heightSegments=1] - The number of segments along the Y axis.\n\t */\n\tconstructor( width = 1, height = 1, widthSegments = 1, heightSegments = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'PlaneGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\twidth: width,\n\t\t\theight: height,\n\t\t\twidthSegments: widthSegments,\n\t\t\theightSegments: heightSegments\n\t\t};\n\n\t\tconst width_half = width / 2;\n\t\tconst height_half = height / 2;\n\n\t\tconst gridX = Math.floor( widthSegments );\n\t\tconst gridY = Math.floor( heightSegments );\n\n\t\tconst gridX1 = gridX + 1;\n\t\tconst gridY1 = gridY + 1;\n\n\t\tconst segment_width = width / gridX;\n\t\tconst segment_height = height / gridY;\n\n\t\t//\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\tfor ( let iy = 0; iy < gridY1; iy ++ ) {\n\n\t\t\tconst y = iy * segment_height - height_half;\n\n\t\t\tfor ( let ix = 0; ix < gridX1; ix ++ ) {\n\n\t\t\t\tconst x = ix * segment_width - width_half;\n\n\t\t\t\tvertices.push( x, - y, 0 );\n\n\t\t\t\tnormals.push( 0, 0, 1 );\n\n\t\t\t\tuvs.push( ix / gridX );\n\t\t\t\tuvs.push( 1 - ( iy / gridY ) );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfor ( let iy = 0; iy < gridY; iy ++ ) {\n\n\t\t\tfor ( let ix = 0; ix < gridX; ix ++ ) {\n\n\t\t\t\tconst a = ix + gridX1 * iy;\n\t\t\t\tconst b = ix + gridX1 * ( iy + 1 );\n\t\t\t\tconst c = ( ix + 1 ) + gridX1 * ( iy + 1 );\n\t\t\t\tconst d = ( ix + 1 ) + gridX1 * iy;\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {PlaneGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new PlaneGeometry( data.width, data.height, data.widthSegments, data.heightSegments );\n\n\t}\n\n}\n\n/**\n * A class for generating a two-dimensional ring geometry.\n *\n * ```js\n * const geometry = new THREE.RingGeometry( 1, 5, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00, side: THREE.DoubleSide } );\n * const mesh = new THREE.Mesh( geometry, material );\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass RingGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new ring geometry.\n\t *\n\t * @param {number} [innerRadius=0.5] - The inner radius of the ring.\n\t * @param {number} [outerRadius=1] - The outer radius of the ring.\n\t * @param {number} [thetaSegments=32] - Number of segments. A higher number means the ring will be more round. Minimum is `3`.\n\t * @param {number} [phiSegments=1] - Number of segments per ring segment. Minimum is `1`.\n\t * @param {number} [thetaStart=0] - Starting angle in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - Central angle in radians.\n\t */\n\tconstructor( innerRadius = 0.5, outerRadius = 1, thetaSegments = 32, phiSegments = 1, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'RingGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tinnerRadius: innerRadius,\n\t\t\touterRadius: outerRadius,\n\t\t\tthetaSegments: thetaSegments,\n\t\t\tphiSegments: phiSegments,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\tthetaSegments = Math.max( 3, thetaSegments );\n\t\tphiSegments = Math.max( 1, phiSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// some helper variables\n\n\t\tlet radius = innerRadius;\n\t\tconst radiusStep = ( ( outerRadius - innerRadius ) / phiSegments );\n\t\tconst vertex = new Vector3();\n\t\tconst uv = new Vector2();\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let j = 0; j <= phiSegments; j ++ ) {\n\n\t\t\tfor ( let i = 0; i <= thetaSegments; i ++ ) {\n\n\t\t\t\t// values are generate from the inside of the ring to the outside\n\n\t\t\t\tconst segment = thetaStart + i / thetaSegments * thetaLength;\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = radius * Math.cos( segment );\n\t\t\t\tvertex.y = radius * Math.sin( segment );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormals.push( 0, 0, 1 );\n\n\t\t\t\t// uv\n\n\t\t\t\tuv.x = ( vertex.x / outerRadius + 1 ) / 2;\n\t\t\t\tuv.y = ( vertex.y / outerRadius + 1 ) / 2;\n\n\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t}\n\n\t\t\t// increase the radius for next row of vertices\n\n\t\t\tradius += radiusStep;\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let j = 0; j < phiSegments; j ++ ) {\n\n\t\t\tconst thetaSegmentLevel = j * ( thetaSegments + 1 );\n\n\t\t\tfor ( let i = 0; i < thetaSegments; i ++ ) {\n\n\t\t\t\tconst segment = i + thetaSegmentLevel;\n\n\t\t\t\tconst a = segment;\n\t\t\t\tconst b = segment + thetaSegments + 1;\n\t\t\t\tconst c = segment + thetaSegments + 2;\n\t\t\t\tconst d = segment + 1;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {RingGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new RingGeometry( data.innerRadius, data.outerRadius, data.thetaSegments, data.phiSegments, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * Creates an one-sided polygonal geometry from one or more path shapes.\n *\n * ```js\n * const arcShape = new THREE.Shape()\n *\t.moveTo( 5, 1 )\n *\t.absarc( 1, 1, 4, 0, Math.PI * 2, false );\n *\n * const geometry = new THREE.ShapeGeometry( arcShape );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00, side: THREE.DoubleSide } );\n * const mesh = new THREE.Mesh( geometry, material ) ;\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass ShapeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new shape geometry.\n\t *\n\t * @param {Shape|Array} [shapes] - A shape or an array of shapes.\n\t * @param {number} [curveSegments=12] - Number of segments per shape.\n\t */\n\tconstructor( shapes = new Shape( [ new Vector2( 0, 0.5 ), new Vector2( -0.5, -0.5 ), new Vector2( 0.5, -0.5 ) ] ), curveSegments = 12 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'ShapeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tshapes: shapes,\n\t\t\tcurveSegments: curveSegments\n\t\t};\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tlet groupStart = 0;\n\t\tlet groupCount = 0;\n\n\t\t// allow single and array values for \"shapes\" parameter\n\n\t\tif ( Array.isArray( shapes ) === false ) {\n\n\t\t\taddShape( shapes );\n\n\t\t} else {\n\n\t\t\tfor ( let i = 0; i < shapes.length; i ++ ) {\n\n\t\t\t\taddShape( shapes[ i ] );\n\n\t\t\t\tthis.addGroup( groupStart, groupCount, i ); // enables MultiMaterial support\n\n\t\t\t\tgroupStart += groupCount;\n\t\t\t\tgroupCount = 0;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\n\t\t// helper functions\n\n\t\tfunction addShape( shape ) {\n\n\t\t\tconst indexOffset = vertices.length / 3;\n\t\t\tconst points = shape.extractPoints( curveSegments );\n\n\t\t\tlet shapeVertices = points.shape;\n\t\t\tconst shapeHoles = points.holes;\n\n\t\t\t// check direction of vertices\n\n\t\t\tif ( ShapeUtils.isClockWise( shapeVertices ) === false ) {\n\n\t\t\t\tshapeVertices = shapeVertices.reverse();\n\n\t\t\t}\n\n\t\t\tfor ( let i = 0, l = shapeHoles.length; i < l; i ++ ) {\n\n\t\t\t\tconst shapeHole = shapeHoles[ i ];\n\n\t\t\t\tif ( ShapeUtils.isClockWise( shapeHole ) === true ) {\n\n\t\t\t\t\tshapeHoles[ i ] = shapeHole.reverse();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tconst faces = ShapeUtils.triangulateShape( shapeVertices, shapeHoles );\n\n\t\t\t// join vertices of inner and outer paths to a single array\n\n\t\t\tfor ( let i = 0, l = shapeHoles.length; i < l; i ++ ) {\n\n\t\t\t\tconst shapeHole = shapeHoles[ i ];\n\t\t\t\tshapeVertices = shapeVertices.concat( shapeHole );\n\n\t\t\t}\n\n\t\t\t// vertices, normals, uvs\n\n\t\t\tfor ( let i = 0, l = shapeVertices.length; i < l; i ++ ) {\n\n\t\t\t\tconst vertex = shapeVertices[ i ];\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, 0 );\n\t\t\t\tnormals.push( 0, 0, 1 );\n\t\t\t\tuvs.push( vertex.x, vertex.y ); // world uvs\n\n\t\t\t}\n\n\t\t\t// indices\n\n\t\t\tfor ( let i = 0, l = faces.length; i < l; i ++ ) {\n\n\t\t\t\tconst face = faces[ i ];\n\n\t\t\t\tconst a = face[ 0 ] + indexOffset;\n\t\t\t\tconst b = face[ 1 ] + indexOffset;\n\t\t\t\tconst c = face[ 2 ] + indexOffset;\n\n\t\t\t\tindices.push( a, b, c );\n\t\t\t\tgroupCount += 3;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tconst shapes = this.parameters.shapes;\n\n\t\treturn toJSON( shapes, data );\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @param {Array} shapes - An array of shapes.\n\t * @return {ShapeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data, shapes ) {\n\n\t\tconst geometryShapes = [];\n\n\t\tfor ( let j = 0, jl = data.shapes.length; j < jl; j ++ ) {\n\n\t\t\tconst shape = shapes[ data.shapes[ j ] ];\n\n\t\t\tgeometryShapes.push( shape );\n\n\t\t}\n\n\t\treturn new ShapeGeometry( geometryShapes, data.curveSegments );\n\n\t}\n\n}\n\nfunction toJSON( shapes, data ) {\n\n\tdata.shapes = [];\n\n\tif ( Array.isArray( shapes ) ) {\n\n\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\tconst shape = shapes[ i ];\n\n\t\t\tdata.shapes.push( shape.uuid );\n\n\t\t}\n\n\t} else {\n\n\t\tdata.shapes.push( shapes.uuid );\n\n\t}\n\n\treturn data;\n\n}\n\n/**\n * A class for generating a sphere geometry.\n *\n * ```js\n * const geometry = new THREE.SphereGeometry( 15, 32, 16 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const sphere = new THREE.Mesh( geometry, material );\n * scene.add( sphere );\n * ```\n *\n * @augments BufferGeometry\n */\nclass SphereGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new sphere geometry.\n\t *\n\t * @param {number} [radius=1] - The sphere radius.\n\t * @param {number} [widthSegments=32] - The number of horizontal segments. Minimum value is `3`.\n\t * @param {number} [heightSegments=16] - The number of vertical segments. Minimum value is `2`.\n\t * @param {number} [phiStart=0] - The horizontal starting angle in radians.\n\t * @param {number} [phiLength=Math.PI*2] - The horizontal sweep angle size.\n\t * @param {number} [thetaStart=0] - The vertical starting angle in radians.\n\t * @param {number} [thetaLength=Math.PI] - The vertical sweep angle size.\n\t */\n\tconstructor( radius = 1, widthSegments = 32, heightSegments = 16, phiStart = 0, phiLength = Math.PI * 2, thetaStart = 0, thetaLength = Math.PI ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'SphereGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\twidthSegments: widthSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\tphiStart: phiStart,\n\t\t\tphiLength: phiLength,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\twidthSegments = Math.max( 3, Math.floor( widthSegments ) );\n\t\theightSegments = Math.max( 2, Math.floor( heightSegments ) );\n\n\t\tconst thetaEnd = Math.min( thetaStart + thetaLength, Math.PI );\n\n\t\tlet index = 0;\n\t\tconst grid = [];\n\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let iy = 0; iy <= heightSegments; iy ++ ) {\n\n\t\t\tconst verticesRow = [];\n\n\t\t\tconst v = iy / heightSegments;\n\n\t\t\t// special case for the poles\n\n\t\t\tlet uOffset = 0;\n\n\t\t\tif ( iy === 0 && thetaStart === 0 ) {\n\n\t\t\t\tuOffset = 0.5 / widthSegments;\n\n\t\t\t} else if ( iy === heightSegments && thetaEnd === Math.PI ) {\n\n\t\t\t\tuOffset = -0.5 / widthSegments;\n\n\t\t\t}\n\n\t\t\tfor ( let ix = 0; ix <= widthSegments; ix ++ ) {\n\n\t\t\t\tconst u = ix / widthSegments;\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = - radius * Math.cos( phiStart + u * phiLength ) * Math.sin( thetaStart + v * thetaLength );\n\t\t\t\tvertex.y = radius * Math.cos( thetaStart + v * thetaLength );\n\t\t\t\tvertex.z = radius * Math.sin( phiStart + u * phiLength ) * Math.sin( thetaStart + v * thetaLength );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormal.copy( vertex ).normalize();\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( u + uOffset, 1 - v );\n\n\t\t\t\tverticesRow.push( index ++ );\n\n\t\t\t}\n\n\t\t\tgrid.push( verticesRow );\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let iy = 0; iy < heightSegments; iy ++ ) {\n\n\t\t\tfor ( let ix = 0; ix < widthSegments; ix ++ ) {\n\n\t\t\t\tconst a = grid[ iy ][ ix + 1 ];\n\t\t\t\tconst b = grid[ iy ][ ix ];\n\t\t\t\tconst c = grid[ iy + 1 ][ ix ];\n\t\t\t\tconst d = grid[ iy + 1 ][ ix + 1 ];\n\n\t\t\t\tif ( iy !== 0 || thetaStart > 0 ) indices.push( a, b, d );\n\t\t\t\tif ( iy !== heightSegments - 1 || thetaEnd < Math.PI ) indices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {SphereGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new SphereGeometry( data.radius, data.widthSegments, data.heightSegments, data.phiStart, data.phiLength, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing an tetrahedron.\n *\n * ```js\n * const geometry = new THREE.TetrahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const tetrahedron = new THREE.Mesh( geometry, material );\n * scene.add( tetrahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass TetrahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new tetrahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the tetrahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a tetrahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst vertices = [\n\t\t\t1, 1, 1, \t-1, -1, 1, \t-1, 1, -1, \t1, -1, -1\n\t\t];\n\n\t\tconst indices = [\n\t\t\t2, 1, 0, \t0, 3, 2,\t1, 3, 0,\t2, 3, 1\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'TetrahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TetrahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new TetrahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing an torus.\n *\n * ```js\n * const geometry = new THREE.TorusGeometry( 10, 3, 16, 100 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const torus = new THREE.Mesh( geometry, material );\n * scene.add( torus );\n * ```\n *\n * @augments BufferGeometry\n */\nclass TorusGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new torus geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the torus, from the center of the torus to the center of the tube.\n\t * @param {number} [tube=0.4] - Radius of the tube. Must be smaller than `radius`.\n\t * @param {number} [radialSegments=12] - The number of radial segments.\n\t * @param {number} [tubularSegments=48] - The number of tubular segments.\n\t * @param {number} [arc=Math.PI*2] - Central angle in radians.\n\t */\n\tconstructor( radius = 1, tube = 0.4, radialSegments = 12, tubularSegments = 48, arc = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'TorusGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\ttube: tube,\n\t\t\tradialSegments: radialSegments,\n\t\t\ttubularSegments: tubularSegments,\n\t\t\tarc: arc\n\t\t};\n\n\t\tradialSegments = Math.floor( radialSegments );\n\t\ttubularSegments = Math.floor( tubularSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst center = new Vector3();\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let j = 0; j <= radialSegments; j ++ ) {\n\n\t\t\tfor ( let i = 0; i <= tubularSegments; i ++ ) {\n\n\t\t\t\tconst u = i / tubularSegments * arc;\n\t\t\t\tconst v = j / radialSegments * Math.PI * 2;\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = ( radius + tube * Math.cos( v ) ) * Math.cos( u );\n\t\t\t\tvertex.y = ( radius + tube * Math.cos( v ) ) * Math.sin( u );\n\t\t\t\tvertex.z = tube * Math.sin( v );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tcenter.x = radius * Math.cos( u );\n\t\t\t\tcenter.y = radius * Math.sin( u );\n\t\t\t\tnormal.subVectors( vertex, center ).normalize();\n\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( i / tubularSegments );\n\t\t\t\tuvs.push( j / radialSegments );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// generate indices\n\n\t\tfor ( let j = 1; j <= radialSegments; j ++ ) {\n\n\t\t\tfor ( let i = 1; i <= tubularSegments; i ++ ) {\n\n\t\t\t\t// indices\n\n\t\t\t\tconst a = ( tubularSegments + 1 ) * j + i - 1;\n\t\t\t\tconst b = ( tubularSegments + 1 ) * ( j - 1 ) + i - 1;\n\t\t\t\tconst c = ( tubularSegments + 1 ) * ( j - 1 ) + i;\n\t\t\t\tconst d = ( tubularSegments + 1 ) * j + i;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TorusGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new TorusGeometry( data.radius, data.tube, data.radialSegments, data.tubularSegments, data.arc );\n\n\t}\n\n}\n\n/**\n * Creates a torus knot, the particular shape of which is defined by a pair\n * of coprime integers, p and q. If p and q are not coprime, the result will\n * be a torus link.\n *\n * ```js\n * const geometry = new THREE.TorusKnotGeometry( 10, 3, 100, 16 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const torusKnot = new THREE.Mesh( geometry, material );\n * scene.add( torusKnot );\n * ```\n *\n * @augments BufferGeometry\n */\nclass TorusKnotGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new torus knot geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the torus knot.\n\t * @param {number} [tube=0.4] - Radius of the tube.\n\t * @param {number} [tubularSegments=64] - The number of tubular segments.\n\t * @param {number} [radialSegments=8] - The number of radial segments.\n\t * @param {number} [p=2] - This value determines, how many times the geometry winds around its axis of rotational symmetry.\n\t * @param {number} [q=3] - This value determines, how many times the geometry winds around a circle in the interior of the torus.\n\t */\n\tconstructor( radius = 1, tube = 0.4, tubularSegments = 64, radialSegments = 8, p = 2, q = 3 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'TorusKnotGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\ttube: tube,\n\t\t\ttubularSegments: tubularSegments,\n\t\t\tradialSegments: radialSegments,\n\t\t\tp: p,\n\t\t\tq: q\n\t\t};\n\n\t\ttubularSegments = Math.floor( tubularSegments );\n\t\tradialSegments = Math.floor( radialSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\n\t\tconst P1 = new Vector3();\n\t\tconst P2 = new Vector3();\n\n\t\tconst B = new Vector3();\n\t\tconst T = new Vector3();\n\t\tconst N = new Vector3();\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let i = 0; i <= tubularSegments; ++ i ) {\n\n\t\t\t// the radian \"u\" is used to calculate the position on the torus curve of the current tubular segment\n\n\t\t\tconst u = i / tubularSegments * p * Math.PI * 2;\n\n\t\t\t// now we calculate two points. P1 is our current position on the curve, P2 is a little farther ahead.\n\t\t\t// these points are used to create a special \"coordinate space\", which is necessary to calculate the correct vertex positions\n\n\t\t\tcalculatePositionOnCurve( u, p, q, radius, P1 );\n\t\t\tcalculatePositionOnCurve( u + 0.01, p, q, radius, P2 );\n\n\t\t\t// calculate orthonormal basis\n\n\t\t\tT.subVectors( P2, P1 );\n\t\t\tN.addVectors( P2, P1 );\n\t\t\tB.crossVectors( T, N );\n\t\t\tN.crossVectors( B, T );\n\n\t\t\t// normalize B, N. T can be ignored, we don't use it\n\n\t\t\tB.normalize();\n\t\t\tN.normalize();\n\n\t\t\tfor ( let j = 0; j <= radialSegments; ++ j ) {\n\n\t\t\t\t// now calculate the vertices. they are nothing more than an extrusion of the torus curve.\n\t\t\t\t// because we extrude a shape in the xy-plane, there is no need to calculate a z-value.\n\n\t\t\t\tconst v = j / radialSegments * Math.PI * 2;\n\t\t\t\tconst cx = - tube * Math.cos( v );\n\t\t\t\tconst cy = tube * Math.sin( v );\n\n\t\t\t\t// now calculate the final vertex position.\n\t\t\t\t// first we orient the extrusion with our basis vectors, then we add it to the current position on the curve\n\n\t\t\t\tvertex.x = P1.x + ( cx * N.x + cy * B.x );\n\t\t\t\tvertex.y = P1.y + ( cx * N.y + cy * B.y );\n\t\t\t\tvertex.z = P1.z + ( cx * N.z + cy * B.z );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal (P1 is always the center/origin of the extrusion, thus we can use it to calculate the normal)\n\n\t\t\t\tnormal.subVectors( vertex, P1 ).normalize();\n\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( i / tubularSegments );\n\t\t\t\tuvs.push( j / radialSegments );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// generate indices\n\n\t\tfor ( let j = 1; j <= tubularSegments; j ++ ) {\n\n\t\t\tfor ( let i = 1; i <= radialSegments; i ++ ) {\n\n\t\t\t\t// indices\n\n\t\t\t\tconst a = ( radialSegments + 1 ) * ( j - 1 ) + ( i - 1 );\n\t\t\t\tconst b = ( radialSegments + 1 ) * j + ( i - 1 );\n\t\t\t\tconst c = ( radialSegments + 1 ) * j + i;\n\t\t\t\tconst d = ( radialSegments + 1 ) * ( j - 1 ) + i;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\t// this function calculates the current position on the torus curve\n\n\t\tfunction calculatePositionOnCurve( u, p, q, radius, position ) {\n\n\t\t\tconst cu = Math.cos( u );\n\t\t\tconst su = Math.sin( u );\n\t\t\tconst quOverP = q / p * u;\n\t\t\tconst cs = Math.cos( quOverP );\n\n\t\t\tposition.x = radius * ( 2 + cs ) * 0.5 * cu;\n\t\t\tposition.y = radius * ( 2 + cs ) * su * 0.5;\n\t\t\tposition.z = radius * Math.sin( quOverP ) * 0.5;\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TorusKnotGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new TorusKnotGeometry( data.radius, data.tube, data.tubularSegments, data.radialSegments, data.p, data.q );\n\n\t}\n\n}\n\n/**\n * Creates a tube that extrudes along a 3D curve.\n *\n * ```js\n * class CustomSinCurve extends THREE.Curve {\n *\n * \tgetPoint( t, optionalTarget = new THREE.Vector3() ) {\n *\n * \t\tconst tx = t * 3 - 1.5;\n * \t\tconst ty = Math.sin( 2 * Math.PI * t );\n * \t\tconst tz = 0;\n *\n * \t\treturn optionalTarget.set( tx, ty, tz );\n * \t}\n *\n * }\n *\n * const path = new CustomSinCurve( 10 );\n * const geometry = new THREE.TubeGeometry( path, 20, 2, 8, false );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const mesh = new THREE.Mesh( geometry, material );\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass TubeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new tube geometry.\n\t *\n\t * @param {Curve} [path=QuadraticBezierCurve3] - A 3D curve defining the path of the tube.\n\t * @param {number} [tubularSegments=64] - The number of segments that make up the tube.\n\t * @param {number} [radius=1] -The radius of the tube.\n\t * @param {number} [radialSegments=8] - The number of segments that make up the cross-section.\n\t * @param {boolean} [closed=false] - Whether the tube is closed or not.\n\t */\n\tconstructor( path = new QuadraticBezierCurve3( new Vector3( -1, -1, 0 ), new Vector3( -1, 1, 0 ), new Vector3( 1, 1, 0 ) ), tubularSegments = 64, radius = 1, radialSegments = 8, closed = false ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'TubeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tpath: path,\n\t\t\ttubularSegments: tubularSegments,\n\t\t\tradius: radius,\n\t\t\tradialSegments: radialSegments,\n\t\t\tclosed: closed\n\t\t};\n\n\t\tconst frames = path.computeFrenetFrames( tubularSegments, closed );\n\n\t\t// expose internals\n\n\t\tthis.tangents = frames.tangents;\n\t\tthis.normals = frames.normals;\n\t\tthis.binormals = frames.binormals;\n\n\t\t// helper variables\n\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\t\tconst uv = new Vector2();\n\t\tlet P = new Vector3();\n\n\t\t// buffer\n\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\t\tconst indices = [];\n\n\t\t// create buffer data\n\n\t\tgenerateBufferData();\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\t// functions\n\n\t\tfunction generateBufferData() {\n\n\t\t\tfor ( let i = 0; i < tubularSegments; i ++ ) {\n\n\t\t\t\tgenerateSegment( i );\n\n\t\t\t}\n\n\t\t\t// if the geometry is not closed, generate the last row of vertices and normals\n\t\t\t// at the regular position on the given path\n\t\t\t//\n\t\t\t// if the geometry is closed, duplicate the first row of vertices and normals (uvs will differ)\n\n\t\t\tgenerateSegment( ( closed === false ) ? tubularSegments : 0 );\n\n\t\t\t// uvs are generated in a separate function.\n\t\t\t// this makes it easy compute correct values for closed geometries\n\n\t\t\tgenerateUVs();\n\n\t\t\t// finally create faces\n\n\t\t\tgenerateIndices();\n\n\t\t}\n\n\t\tfunction generateSegment( i ) {\n\n\t\t\t// we use getPointAt to sample evenly distributed points from the given path\n\n\t\t\tP = path.getPointAt( i / tubularSegments, P );\n\n\t\t\t// retrieve corresponding normal and binormal\n\n\t\t\tconst N = frames.normals[ i ];\n\t\t\tconst B = frames.binormals[ i ];\n\n\t\t\t// generate normals and vertices for the current segment\n\n\t\t\tfor ( let j = 0; j <= radialSegments; j ++ ) {\n\n\t\t\t\tconst v = j / radialSegments * Math.PI * 2;\n\n\t\t\t\tconst sin = Math.sin( v );\n\t\t\t\tconst cos = - Math.cos( v );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormal.x = ( cos * N.x + sin * B.x );\n\t\t\t\tnormal.y = ( cos * N.y + sin * B.y );\n\t\t\t\tnormal.z = ( cos * N.z + sin * B.z );\n\t\t\t\tnormal.normalize();\n\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = P.x + radius * normal.x;\n\t\t\t\tvertex.y = P.y + radius * normal.y;\n\t\t\t\tvertex.z = P.z + radius * normal.z;\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction generateIndices() {\n\n\t\t\tfor ( let j = 1; j <= tubularSegments; j ++ ) {\n\n\t\t\t\tfor ( let i = 1; i <= radialSegments; i ++ ) {\n\n\t\t\t\t\tconst a = ( radialSegments + 1 ) * ( j - 1 ) + ( i - 1 );\n\t\t\t\t\tconst b = ( radialSegments + 1 ) * j + ( i - 1 );\n\t\t\t\t\tconst c = ( radialSegments + 1 ) * j + i;\n\t\t\t\t\tconst d = ( radialSegments + 1 ) * ( j - 1 ) + i;\n\n\t\t\t\t\t// faces\n\n\t\t\t\t\tindices.push( a, b, d );\n\t\t\t\t\tindices.push( b, c, d );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction generateUVs() {\n\n\t\t\tfor ( let i = 0; i <= tubularSegments; i ++ ) {\n\n\t\t\t\tfor ( let j = 0; j <= radialSegments; j ++ ) {\n\n\t\t\t\t\tuv.x = i / tubularSegments;\n\t\t\t\t\tuv.y = j / radialSegments;\n\n\t\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.path = this.parameters.path.toJSON();\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TubeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\t// This only works for built-in curves (e.g. CatmullRomCurve3).\n\t\t// User defined curves or instances of CurvePath will not be deserialized.\n\t\treturn new TubeGeometry(\n\t\t\tnew Curves[ data.path.type ]().fromJSON( data.path ),\n\t\t\tdata.tubularSegments,\n\t\t\tdata.radius,\n\t\t\tdata.radialSegments,\n\t\t\tdata.closed\n\t\t);\n\n\t}\n\n}\n\n/**\n * Can be used as a helper object to visualize a geometry as a wireframe.\n *\n * ```js\n * const geometry = new THREE.SphereGeometry();\n *\n * const wireframe = new THREE.WireframeGeometry( geometry );\n *\n * const line = new THREE.LineSegments( wireframe );\n * line.material.depthWrite = false;\n * line.material.opacity = 0.25;\n * line.material.transparent = true;\n *\n * scene.add( line );\n * ```\n *\n * Note: It is not yet possible to serialize/deserialize instances of this class.\n *\n * @augments BufferGeometry\n */\nclass WireframeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new wireframe geometry.\n\t *\n\t * @param {?BufferGeometry} [geometry=null] - The geometry.\n\t */\n\tconstructor( geometry = null ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'WireframeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tgeometry: geometry\n\t\t};\n\n\t\tif ( geometry !== null ) {\n\n\t\t\t// buffer\n\n\t\t\tconst vertices = [];\n\t\t\tconst edges = new Set();\n\n\t\t\t// helper variables\n\n\t\t\tconst start = new Vector3();\n\t\t\tconst end = new Vector3();\n\n\t\t\tif ( geometry.index !== null ) {\n\n\t\t\t\t// indexed BufferGeometry\n\n\t\t\t\tconst position = geometry.attributes.position;\n\t\t\t\tconst indices = geometry.index;\n\t\t\t\tlet groups = geometry.groups;\n\n\t\t\t\tif ( groups.length === 0 ) {\n\n\t\t\t\t\tgroups = [ { start: 0, count: indices.count, materialIndex: 0 } ];\n\n\t\t\t\t}\n\n\t\t\t\t// create a data structure that contains all edges without duplicates\n\n\t\t\t\tfor ( let o = 0, ol = groups.length; o < ol; ++ o ) {\n\n\t\t\t\t\tconst group = groups[ o ];\n\n\t\t\t\t\tconst groupStart = group.start;\n\t\t\t\t\tconst groupCount = group.count;\n\n\t\t\t\t\tfor ( let i = groupStart, l = ( groupStart + groupCount ); i < l; i += 3 ) {\n\n\t\t\t\t\t\tfor ( let j = 0; j < 3; j ++ ) {\n\n\t\t\t\t\t\t\tconst index1 = indices.getX( i + j );\n\t\t\t\t\t\t\tconst index2 = indices.getX( i + ( j + 1 ) % 3 );\n\n\t\t\t\t\t\t\tstart.fromBufferAttribute( position, index1 );\n\t\t\t\t\t\t\tend.fromBufferAttribute( position, index2 );\n\n\t\t\t\t\t\t\tif ( isUniqueEdge( start, end, edges ) === true ) {\n\n\t\t\t\t\t\t\t\tvertices.push( start.x, start.y, start.z );\n\t\t\t\t\t\t\t\tvertices.push( end.x, end.y, end.z );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// non-indexed BufferGeometry\n\n\t\t\t\tconst position = geometry.attributes.position;\n\n\t\t\t\tfor ( let i = 0, l = ( position.count / 3 ); i < l; i ++ ) {\n\n\t\t\t\t\tfor ( let j = 0; j < 3; j ++ ) {\n\n\t\t\t\t\t\t// three edges per triangle, an edge is represented as (index1, index2)\n\t\t\t\t\t\t// e.g. the first triangle has the following edges: (0,1),(1,2),(2,0)\n\n\t\t\t\t\t\tconst index1 = 3 * i + j;\n\t\t\t\t\t\tconst index2 = 3 * i + ( ( j + 1 ) % 3 );\n\n\t\t\t\t\t\tstart.fromBufferAttribute( position, index1 );\n\t\t\t\t\t\tend.fromBufferAttribute( position, index2 );\n\n\t\t\t\t\t\tif ( isUniqueEdge( start, end, edges ) === true ) {\n\n\t\t\t\t\t\t\tvertices.push( start.x, start.y, start.z );\n\t\t\t\t\t\t\tvertices.push( end.x, end.y, end.z );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// build geometry\n\n\t\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n}\n\nfunction isUniqueEdge( start, end, edges ) {\n\n\tconst hash1 = `${start.x},${start.y},${start.z}-${end.x},${end.y},${end.z}`;\n\tconst hash2 = `${end.x},${end.y},${end.z}-${start.x},${start.y},${start.z}`; // coincident edge\n\n\tif ( edges.has( hash1 ) === true || edges.has( hash2 ) === true ) {\n\n\t\treturn false;\n\n\t} else {\n\n\t\tedges.add( hash1 );\n\t\tedges.add( hash2 );\n\t\treturn true;\n\n\t}\n\n}\n\nvar Geometries = /*#__PURE__*/Object.freeze({\n\t__proto__: null,\n\tBoxGeometry: BoxGeometry,\n\tCapsuleGeometry: CapsuleGeometry,\n\tCircleGeometry: CircleGeometry,\n\tConeGeometry: ConeGeometry,\n\tCylinderGeometry: CylinderGeometry,\n\tDodecahedronGeometry: DodecahedronGeometry,\n\tEdgesGeometry: EdgesGeometry,\n\tExtrudeGeometry: ExtrudeGeometry,\n\tIcosahedronGeometry: IcosahedronGeometry,\n\tLatheGeometry: LatheGeometry,\n\tOctahedronGeometry: OctahedronGeometry,\n\tPlaneGeometry: PlaneGeometry,\n\tPolyhedronGeometry: PolyhedronGeometry,\n\tRingGeometry: RingGeometry,\n\tShapeGeometry: ShapeGeometry,\n\tSphereGeometry: SphereGeometry,\n\tTetrahedronGeometry: TetrahedronGeometry,\n\tTorusGeometry: TorusGeometry,\n\tTorusKnotGeometry: TorusKnotGeometry,\n\tTubeGeometry: TubeGeometry,\n\tWireframeGeometry: WireframeGeometry\n});\n\n/**\n * This material can receive shadows, but otherwise is completely transparent.\n *\n * ```js\n * const geometry = new THREE.PlaneGeometry( 2000, 2000 );\n * geometry.rotateX( - Math.PI / 2 );\n *\n * const material = new THREE.ShadowMaterial();\n * material.opacity = 0.2;\n *\n * const plane = new THREE.Mesh( geometry, material );\n * plane.position.y = -200;\n * plane.receiveShadow = true;\n * scene.add( plane );\n * ```\n *\n * @augments Material\n */\nclass ShadowMaterial extends Material {\n\n\t/**\n\t * Constructs a new shadow material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isShadowMaterial = true;\n\n\t\tthis.type = 'ShadowMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.color = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Overwritten since shadow materials are transparent\n\t\t * by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.transparent = true;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This class works just like {@link ShaderMaterial}, except that definitions\n * of built-in uniforms and attributes are not automatically prepended to the\n * GLSL shader code.\n *\n * `RawShaderMaterial` can only be used with {@link WebGLRenderer}.\n *\n * @augments ShaderMaterial\n */\nclass RawShaderMaterial extends ShaderMaterial {\n\n\t/**\n\t * Constructs a new raw shader material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper( parameters );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRawShaderMaterial = true;\n\n\t\tthis.type = 'RawShaderMaterial';\n\n\t}\n\n}\n\n/**\n * A standard physically based material, using Metallic-Roughness workflow.\n *\n * Physically based rendering (PBR) has recently become the standard in many\n * 3D applications, such as [Unity]{@link https://blogs.unity3d.com/2014/10/29/physically-based-shading-in-unity-5-a-primer/},\n * [Unreal]{@link https://docs.unrealengine.com/latest/INT/Engine/Rendering/Materials/PhysicallyBased/} and\n * [3D Studio Max]{@link http://area.autodesk.com/blogs/the-3ds-max-blog/what039s-new-for-rendering-in-3ds-max-2017}.\n *\n * This approach differs from older approaches in that instead of using\n * approximations for the way in which light interacts with a surface, a\n * physically correct model is used. The idea is that, instead of tweaking\n * materials to look good under specific lighting, a material can be created\n * that will react 'correctly' under all lighting scenarios.\n *\n * In practice this gives a more accurate and realistic looking result than\n * the {@link MeshLambertMaterial} or {@link MeshPhongMaterial}, at the cost of\n * being somewhat more computationally expensive. `MeshStandardMaterial` uses per-fragment\n * shading.\n *\n * Note that for best results you should always specify an environment map when using this material.\n *\n * For a non-technical introduction to the concept of PBR and how to set up a\n * PBR material, check out these articles by the people at [marmoset]{@link https://www.marmoset.co}:\n *\n * - [Basic Theory of Physically Based Rendering]{@link https://www.marmoset.co/posts/basic-theory-of-physically-based-rendering/}\n * - [Physically Based Rendering and You Can Too]{@link https://www.marmoset.co/posts/physically-based-rendering-and-you-can-too/}\n *\n * Technical details of the approach used in three.js (and most other PBR systems) can be found is this\n * [paper from Disney]{@link https://media.disneyanimation.com/uploads/production/publication_asset/48/asset/s2012_pbs_disney_brdf_notes_v3.pdf}\n * (pdf), by Brent Burley.\n *\n * @augments Material\n */\nclass MeshStandardMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh standard material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshStandardMaterial = true;\n\n\t\tthis.type = 'MeshStandardMaterial';\n\n\t\tthis.defines = { 'STANDARD': '' };\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * How rough the material appears. `0.0` means a smooth mirror reflection, `1.0`\n\t\t * means fully diffuse. If `roughnessMap` is also provided,\n\t\t * both values are multiplied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.roughness = 1.0;\n\n\t\t/**\n\t\t * How much the material is like a metal. Non-metallic materials such as wood\n\t\t * or stone use `0.0`, metallic use `1.0`, with nothing (usually) in between.\n\t\t * A value between `0.0` and `1.0` could be used for a rusty metal look.\n\t\t * If `metalnessMap` is also provided, both values are multiplied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.metalness = 0.0;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The green channel of this texture is used to alter the roughness of the\n\t\t * material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.roughnessMap = null;\n\n\t\t/**\n\t\t * The blue channel of this texture is used to alter the metalness of the\n\t\t * material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.metalnessMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map. To ensure a physically correct rendering, environment maps\n\t\t * are internally pre-processed with {@link PMREMGenerator}.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * Scales the effect of the environment map by multiplying its color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.envMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.defines = { 'STANDARD': '' };\n\n\t\tthis.color.copy( source.color );\n\t\tthis.roughness = source.roughness;\n\t\tthis.metalness = source.metalness;\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.roughnessMap = source.roughnessMap;\n\n\t\tthis.metalnessMap = source.metalnessMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.envMapIntensity = source.envMapIntensity;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * An extension of the {@link MeshStandardMaterial}, providing more advanced\n * physically-based rendering properties:\n *\n * - Anisotropy: Ability to represent the anisotropic property of materials\n * as observable with brushed metals.\n * - Clearcoat: Some materials — like car paints, carbon fiber, and wet surfaces — require\n * a clear, reflective layer on top of another layer that may be irregular or rough.\n * Clearcoat approximates this effect, without the need for a separate transparent surface.\n * - Iridescence: Allows to render the effect where hue varies depending on the viewing\n * angle and illumination angle. This can be seen on soap bubbles, oil films, or on the\n * wings of many insects.\n * - Physically-based transparency: One limitation of {@link Material#opacity} is that highly\n * transparent materials are less reflective. Physically-based transmission provides a more\n * realistic option for thin, transparent surfaces like glass.\n * - Advanced reflectivity: More flexible reflectivity for non-metallic materials.\n * - Sheen: Can be used for representing cloth and fabric materials.\n *\n * As a result of these complex shading features, `MeshPhysicalMaterial` has a\n * higher performance cost, per pixel, than other three.js materials. Most\n * effects are disabled by default, and add cost as they are enabled. For\n * best results, always specify an environment map when using this material.\n *\n * @augments MeshStandardMaterial\n */\nclass MeshPhysicalMaterial extends MeshStandardMaterial {\n\n\t/**\n\t * Constructs a new mesh physical material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshPhysicalMaterial = true;\n\n\t\tthis.defines = {\n\n\t\t\t'STANDARD': '',\n\t\t\t'PHYSICAL': ''\n\n\t\t};\n\n\t\tthis.type = 'MeshPhysicalMaterial';\n\n\t\t/**\n\t\t * The rotation of the anisotropy in tangent, bitangent space, measured in radians\n\t\t * counter-clockwise from the tangent. When `anisotropyMap` is present, this\n\t\t * property provides additional rotation to the vectors in the texture.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.anisotropyRotation = 0;\n\n\t\t/**\n\t\t * Red and green channels represent the anisotropy direction in `[-1, 1]` tangent,\n\t\t * bitangent space, to be rotated by `anisotropyRotation`. The blue channel\n\t\t * contains strength as `[0, 1]` to be multiplied by `anisotropy`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.anisotropyMap = null;\n\n\t\t/**\n\t\t * The red channel of this texture is multiplied against `clearcoat`,\n\t\t * for per-pixel control over a coating's intensity.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.clearcoatMap = null;\n\n\t\t/**\n\t\t * Roughness of the clear coat layer, from `0.0` to `1.0`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.clearcoatRoughness = 0.0;\n\n\t\t/**\n\t\t * The green channel of this texture is multiplied against\n\t\t * `clearcoatRoughness`, for per-pixel control over a coating's roughness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.clearcoatRoughnessMap = null;\n\n\t\t/**\n\t\t * How much `clearcoatNormalMap` affects the clear coat layer, from\n\t\t * `(0,0)` to `(1,1)`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.clearcoatNormalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * Can be used to enable independent normals for the clear coat layer.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.clearcoatNormalMap = null;\n\n\t\t/**\n\t\t * Index-of-refraction for non-metallic materials, from `1.0` to `2.333`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1.5\n\t\t */\n\t\tthis.ior = 1.5;\n\n\t\t/**\n\t\t * Degree of reflectivity, from `0.0` to `1.0`. Default is `0.5`, which\n\t\t * corresponds to an index-of-refraction of `1.5`.\n\t\t *\n\t\t * This models the reflectivity of non-metallic materials. It has no effect\n\t\t * when `metalness` is `1.0`\n\t\t *\n\t\t * @name MeshPhysicalMaterial#reflectivity\n\t\t * @type {number}\n\t\t * @default 0.5\n\t\t */\n\t\tObject.defineProperty( this, 'reflectivity', {\n\t\t\tget: function () {\n\n\t\t\t\treturn ( clamp( 2.5 * ( this.ior - 1 ) / ( this.ior + 1 ), 0, 1 ) );\n\n\t\t\t},\n\t\t\tset: function ( reflectivity ) {\n\n\t\t\t\tthis.ior = ( 1 + 0.4 * reflectivity ) / ( 1 - 0.4 * reflectivity );\n\n\t\t\t}\n\t\t} );\n\n\t\t/**\n\t\t * The red channel of this texture is multiplied against `iridescence`, for per-pixel\n\t\t * control over iridescence.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.iridescenceMap = null;\n\n\t\t/**\n\t\t * Strength of the iridescence RGB color shift effect, represented by an index-of-refraction.\n\t\t * Between `1.0` to `2.333`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1.3\n\t\t */\n\t\tthis.iridescenceIOR = 1.3;\n\n\t\t/**\n\t\t *Array of exactly 2 elements, specifying minimum and maximum thickness of the iridescence layer.\n\t\t Thickness of iridescence layer has an equivalent effect of the one `thickness` has on `ior`.\n\t\t *\n\t\t * @type {Array}\n\t\t * @default [100,400]\n\t\t */\n\t\tthis.iridescenceThicknessRange = [ 100, 400 ];\n\n\t\t/**\n\t\t * A texture that defines the thickness of the iridescence layer, stored in the green channel.\n\t\t * Minimum and maximum values of thickness are defined by `iridescenceThicknessRange` array:\n\t\t * - `0.0` in the green channel will result in thickness equal to first element of the array.\n\t\t * - `1.0` in the green channel will result in thickness equal to second element of the array.\n\t\t * - Values in-between will linearly interpolate between the elements of the array.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.iridescenceThicknessMap = null;\n\n\t\t/**\n\t\t * The sheen tint.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.sheenColor = new Color( 0x000000 );\n\n\t\t/**\n\t\t * The RGB channels of this texture are multiplied against `sheenColor`, for per-pixel control\n\t\t * over sheen tint.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.sheenColorMap = null;\n\n\t\t/**\n\t\t * Roughness of the sheen layer, from `0.0` to `1.0`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.sheenRoughness = 1.0;\n\n\t\t/**\n\t\t * The alpha channel of this texture is multiplied against `sheenRoughness`, for per-pixel control\n\t\t * over sheen roughness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.sheenRoughnessMap = null;\n\n\t\t/**\n\t\t * The red channel of this texture is multiplied against `transmission`, for per-pixel control over\n\t\t * optical transparency.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.transmissionMap = null;\n\n\t\t/**\n\t\t * The thickness of the volume beneath the surface. The value is given in the\n\t\t * coordinate space of the mesh. If the value is `0` the material is\n\t\t * thin-walled. Otherwise the material is a volume boundary.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.thickness = 0;\n\n\t\t/**\n\t\t * A texture that defines the thickness, stored in the green channel. This will\n\t\t * be multiplied by `thickness`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.thicknessMap = null;\n\n\t\t/**\n\t\t * Density of the medium given as the average distance that light travels in\n\t\t * the medium before interacting with a particle. The value is given in world\n\t\t * space units, and must be greater than zero.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.attenuationDistance = Infinity;\n\n\t\t/**\n\t\t * The color that white light turns into due to absorption when reaching the\n\t\t * attenuation distance.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.attenuationColor = new Color( 1, 1, 1 );\n\n\t\t/**\n\t\t * A float that scales the amount of specular reflection for non-metals only.\n\t\t * When set to zero, the model is effectively Lambertian. From `0.0` to `1.0`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.specularIntensity = 1.0;\n\n\t\t/**\n\t\t * The alpha channel of this texture is multiplied against `specularIntensity`,\n\t\t * for per-pixel control over specular intensity.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularIntensityMap = null;\n\n\t\t/**\n\t\t * Tints the specular reflection at normal incidence for non-metals only.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.specularColor = new Color( 1, 1, 1 );\n\n\t\t/**\n\t\t * The RGB channels of this texture are multiplied against `specularColor`,\n\t\t * for per-pixel control over specular color.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularColorMap = null;\n\n\t\tthis._anisotropy = 0;\n\t\tthis._clearcoat = 0;\n\t\tthis._dispersion = 0;\n\t\tthis._iridescence = 0;\n\t\tthis._sheen = 0.0;\n\t\tthis._transmission = 0;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\t/**\n\t * The anisotropy strength.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget anisotropy() {\n\n\t\treturn this._anisotropy;\n\n\t}\n\n\tset anisotropy( value ) {\n\n\t\tif ( this._anisotropy > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._anisotropy = value;\n\n\t}\n\n\t/**\n\t * Represents the intensity of the clear coat layer, from `0.0` to `1.0`. Use\n\t * clear coat related properties to enable multilayer materials that have a\n\t * thin translucent layer over the base layer.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget clearcoat() {\n\n\t\treturn this._clearcoat;\n\n\t}\n\n\tset clearcoat( value ) {\n\n\t\tif ( this._clearcoat > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._clearcoat = value;\n\n\t}\n\t/**\n\t * The intensity of the iridescence layer, simulating RGB color shift based on the angle between\n\t * the surface and the viewer, from `0.0` to `1.0`.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget iridescence() {\n\n\t\treturn this._iridescence;\n\n\t}\n\n\tset iridescence( value ) {\n\n\t\tif ( this._iridescence > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._iridescence = value;\n\n\t}\n\n\t/**\n\t * Defines the strength of the angular separation of colors (chromatic aberration) transmitting\n\t * through a relatively clear volume. Any value zero or larger is valid, the typical range of\n\t * realistic values is `[0, 1]`. This property can be only be used with transmissive objects.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget dispersion() {\n\n\t\treturn this._dispersion;\n\n\t}\n\n\tset dispersion( value ) {\n\n\t\tif ( this._dispersion > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._dispersion = value;\n\n\t}\n\n\t/**\n\t * The intensity of the sheen layer, from `0.0` to `1.0`.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget sheen() {\n\n\t\treturn this._sheen;\n\n\t}\n\n\tset sheen( value ) {\n\n\t\tif ( this._sheen > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._sheen = value;\n\n\t}\n\n\t/**\n\t * Degree of transmission (or optical transparency), from `0.0` to `1.0`.\n\t *\n\t * Thin, transparent or semitransparent, plastic or glass materials remain\n\t * largely reflective even if they are fully transmissive. The transmission\n\t * property can be used to model these materials.\n\t *\n\t * When transmission is non-zero, `opacity` should be set to `1`.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget transmission() {\n\n\t\treturn this._transmission;\n\n\t}\n\n\tset transmission( value ) {\n\n\t\tif ( this._transmission > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._transmission = value;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.defines = {\n\n\t\t\t'STANDARD': '',\n\t\t\t'PHYSICAL': ''\n\n\t\t};\n\n\t\tthis.anisotropy = source.anisotropy;\n\t\tthis.anisotropyRotation = source.anisotropyRotation;\n\t\tthis.anisotropyMap = source.anisotropyMap;\n\n\t\tthis.clearcoat = source.clearcoat;\n\t\tthis.clearcoatMap = source.clearcoatMap;\n\t\tthis.clearcoatRoughness = source.clearcoatRoughness;\n\t\tthis.clearcoatRoughnessMap = source.clearcoatRoughnessMap;\n\t\tthis.clearcoatNormalMap = source.clearcoatNormalMap;\n\t\tthis.clearcoatNormalScale.copy( source.clearcoatNormalScale );\n\n\t\tthis.dispersion = source.dispersion;\n\t\tthis.ior = source.ior;\n\n\t\tthis.iridescence = source.iridescence;\n\t\tthis.iridescenceMap = source.iridescenceMap;\n\t\tthis.iridescenceIOR = source.iridescenceIOR;\n\t\tthis.iridescenceThicknessRange = [ ...source.iridescenceThicknessRange ];\n\t\tthis.iridescenceThicknessMap = source.iridescenceThicknessMap;\n\n\t\tthis.sheen = source.sheen;\n\t\tthis.sheenColor.copy( source.sheenColor );\n\t\tthis.sheenColorMap = source.sheenColorMap;\n\t\tthis.sheenRoughness = source.sheenRoughness;\n\t\tthis.sheenRoughnessMap = source.sheenRoughnessMap;\n\n\t\tthis.transmission = source.transmission;\n\t\tthis.transmissionMap = source.transmissionMap;\n\n\t\tthis.thickness = source.thickness;\n\t\tthis.thicknessMap = source.thicknessMap;\n\t\tthis.attenuationDistance = source.attenuationDistance;\n\t\tthis.attenuationColor.copy( source.attenuationColor );\n\n\t\tthis.specularIntensity = source.specularIntensity;\n\t\tthis.specularIntensityMap = source.specularIntensityMap;\n\t\tthis.specularColor.copy( source.specularColor );\n\t\tthis.specularColorMap = source.specularColorMap;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for shiny surfaces with specular highlights.\n *\n * The material uses a non-physically based [Blinn-Phong]{@link https://en.wikipedia.org/wiki/Blinn-Phong_shading_model}\n * model for calculating reflectance. Unlike the Lambertian model used in the\n * {@link MeshLambertMaterial} this can simulate shiny surfaces with specular\n * highlights (such as varnished wood). `MeshPhongMaterial` uses per-fragment shading.\n *\n * Performance will generally be greater when using this material over the\n * {@link MeshStandardMaterial} or {@link MeshPhysicalMaterial}, at the cost of\n * some graphical accuracy.\n *\n * @augments Material\n */\nclass MeshPhongMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh phong material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshPhongMaterial = true;\n\n\t\tthis.type = 'MeshPhongMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * Specular color of the material. The default color is set to `0x111111` (very dark grey)\n\t\t *\n\t\t * This defines how shiny the material is and the color of its shine.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.specular = new Color( 0x111111 );\n\n\t\t/**\n\t\t * How shiny the specular highlight is; a higher value gives a sharper highlight.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 30\n\t\t */\n\t\tthis.shininess = 30;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The specular map value affects both how much the specular surface\n\t\t * highlight contributes and how much of the environment map affects the\n\t\t * surface.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * How to combine the result of the surface's color with the environment map, if any.\n\t\t *\n\t\t * When set to `MixOperation`, the {@link MeshBasicMaterial#reflectivity} is used to\n\t\t * blend between the two colors.\n\t\t *\n\t\t * @type {(MultiplyOperation|MixOperation|AddOperation)}\n\t\t * @default MultiplyOperation\n\t\t */\n\t\tthis.combine = MultiplyOperation;\n\n\t\t/**\n\t\t * How much the environment map affects the surface.\n\t\t * The valid range is between `0` (no reflections) and `1` (full reflections).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.reflectivity = 1;\n\n\t\t/**\n\t\t * The index of refraction (IOR) of air (approximately 1) divided by the\n\t\t * index of refraction of the material. It is used with environment mapping\n\t\t * modes {@link CubeRefractionMapping} and {@link EquirectangularRefractionMapping}.\n\t\t * The refraction ratio should not exceed `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.98\n\t\t */\n\t\tthis.refractionRatio = 0.98;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\t\tthis.specular.copy( source.specular );\n\t\tthis.shininess = source.shininess;\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.specularMap = source.specularMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.combine = source.combine;\n\t\tthis.reflectivity = source.reflectivity;\n\t\tthis.refractionRatio = source.refractionRatio;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material implementing toon shading.\n *\n * @augments Material\n */\nclass MeshToonMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh toon material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshToonMaterial = true;\n\n\t\tthis.defines = { 'TOON': '' };\n\n\t\tthis.type = 'MeshToonMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * Gradient map for toon shading. It's required to set\n\t\t * {@link Texture#minFilter} and {@link Texture#magFilter} to {@linkNearestFilter}\n\t\t * when using this type of texture.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.gradientMap = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\t\tthis.gradientMap = source.gradientMap;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material that maps the normal vectors to RGB colors.\n *\n * @augments Material\n */\nclass MeshNormalMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh normal material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshNormalMaterial = true;\n\n\t\tthis.type = 'MeshNormalMaterial';\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * WebGL and WebGPU ignore this property and always render\n\t\t * 1 pixel wide lines.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for non-shiny surfaces, without specular highlights.\n *\n * The material uses a non-physically based [Lambertian]{@link https://en.wikipedia.org/wiki/Lambertian_reflectance}\n * model for calculating reflectance. This can simulate some surfaces (such\n * as untreated wood or stone) well, but cannot simulate shiny surfaces with\n * specular highlights (such as varnished wood). `MeshLambertMaterial` uses per-fragment\n * shading.\n *\n * Due to the simplicity of the reflectance and illumination models,\n * performance will be greater when using this material over the\n * {@link MeshPhongMaterial}, {@link MeshStandardMaterial} or\n * {@link MeshPhysicalMaterial}, at the cost of some graphical accuracy.\n *\n * @augments Material\n */\nclass MeshLambertMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh lambert material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshLambertMaterial = true;\n\n\t\tthis.type = 'MeshLambertMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * Specular map used by the material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * How to combine the result of the surface's color with the environment map, if any.\n\t\t *\n\t\t * When set to `MixOperation`, the {@link MeshBasicMaterial#reflectivity} is used to\n\t\t * blend between the two colors.\n\t\t *\n\t\t * @type {(MultiplyOperation|MixOperation|AddOperation)}\n\t\t * @default MultiplyOperation\n\t\t */\n\t\tthis.combine = MultiplyOperation;\n\n\t\t/**\n\t\t * How much the environment map affects the surface.\n\t\t * The valid range is between `0` (no reflections) and `1` (full reflections).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.reflectivity = 1;\n\n\t\t/**\n\t\t * The index of refraction (IOR) of air (approximately 1) divided by the\n\t\t * index of refraction of the material. It is used with environment mapping\n\t\t * modes {@link CubeRefractionMapping} and {@link EquirectangularRefractionMapping}.\n\t\t * The refraction ratio should not exceed `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.98\n\t\t */\n\t\tthis.refractionRatio = 0.98;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.specularMap = source.specularMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.combine = source.combine;\n\t\tthis.reflectivity = source.reflectivity;\n\t\tthis.refractionRatio = source.refractionRatio;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for drawing geometry by depth. Depth is based off of the camera\n * near and far plane. White is nearest, black is farthest.\n *\n * @augments Material\n */\nclass MeshDepthMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh depth material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshDepthMaterial = true;\n\n\t\tthis.type = 'MeshDepthMaterial';\n\n\t\t/**\n\t\t * Type for depth packing.\n\t\t *\n\t\t * @type {(BasicDepthPacking|RGBADepthPacking|RGBDepthPacking|RGDepthPacking)}\n\t\t * @default BasicDepthPacking\n\t\t */\n\t\tthis.depthPacking = BasicDepthPacking;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * WebGL and WebGPU ignore this property and always render\n\t\t * 1 pixel wide lines.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.depthPacking = source.depthPacking;\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material used internally for implementing shadow mapping with\n * point lights.\n *\n * Can also be used to customize the shadow casting of an object by assigning\n * an instance of `MeshDistanceMaterial` to {@link Object3D#customDistanceMaterial}.\n * The following examples demonstrates this approach in order to ensure\n * transparent parts of objects do not cast shadows.\n *\n * @augments Material\n */\nclass MeshDistanceMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh distance material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshDistanceMaterial = true;\n\n\t\tthis.type = 'MeshDistanceMaterial';\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This material is defined by a MatCap (or Lit Sphere) texture, which encodes the\n * material color and shading.\n *\n * `MeshMatcapMaterial` does not respond to lights since the matcap image file encodes\n * baked lighting. It will cast a shadow onto an object that receives shadows\n * (and shadow clipping works), but it will not self-shadow or receive\n * shadows.\n *\n * @augments Material\n */\nclass MeshMatcapMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh matcap material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshMatcapMaterial = true;\n\n\t\tthis.defines = { 'MATCAP': '' };\n\n\t\tthis.type = 'MeshMatcapMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * The matcap map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.matcap = null;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.defines = { 'MATCAP': '' };\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.matcap = source.matcap;\n\n\t\tthis.map = source.map;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for rendering line primitives.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * ```js\n * const material = new THREE.LineDashedMaterial( {\n * \tcolor: 0xffffff,\n * \tscale: 1,\n * \tdashSize: 3,\n * \tgapSize: 1,\n * } );\n * ```\n *\n * @augments LineBasicMaterial\n */\nclass LineDashedMaterial extends LineBasicMaterial {\n\n\t/**\n\t * Constructs a new line dashed material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineDashedMaterial = true;\n\t\tthis.type = 'LineDashedMaterial';\n\n\t\t/**\n\t\t * The scale of the dashed part of a line.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.scale = 1;\n\n\t\t/**\n\t\t * The size of the dash. This is both the gap with the stroke.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 3\n\t\t */\n\t\tthis.dashSize = 3;\n\n\t\t/**\n\t\t * The size of the gap.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.gapSize = 1;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.scale = source.scale;\n\t\tthis.dashSize = source.dashSize;\n\t\tthis.gapSize = source.gapSize;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Converts an array to a specific type.\n *\n * @param {TypedArray|Array} array - The array to convert.\n * @param {TypedArray.constructor} type - The constructor of a typed array that defines the new type.\n * @return {TypedArray} The converted array.\n */\nfunction convertArray( array, type ) {\n\n\tif ( ! array || array.constructor === type ) return array;\n\n\tif ( typeof type.BYTES_PER_ELEMENT === 'number' ) {\n\n\t\treturn new type( array ); // create typed array\n\n\t}\n\n\treturn Array.prototype.slice.call( array ); // create Array\n\n}\n\n/**\n * Returns `true` if the given object is a typed array.\n *\n * @param {any} object - The object to check.\n * @return {boolean} Whether the given object is a typed array.\n */\nfunction isTypedArray( object ) {\n\n\treturn ArrayBuffer.isView( object ) && ! ( object instanceof DataView );\n\n}\n\n/**\n * Returns an array by which times and values can be sorted.\n *\n * @param {Array} times - The keyframe time values.\n * @return {Array} The array.\n */\nfunction getKeyframeOrder( times ) {\n\n\tfunction compareTime( i, j ) {\n\n\t\treturn times[ i ] - times[ j ];\n\n\t}\n\n\tconst n = times.length;\n\tconst result = new Array( n );\n\tfor ( let i = 0; i !== n; ++ i ) result[ i ] = i;\n\n\tresult.sort( compareTime );\n\n\treturn result;\n\n}\n\n/**\n * Sorts the given array by the previously computed order via `getKeyframeOrder()`.\n *\n * @param {Array} values - The values to sort.\n * @param {number} stride - The stride.\n * @param {Array} order - The sort order.\n * @return {Array} The sorted values.\n */\nfunction sortedArray( values, stride, order ) {\n\n\tconst nValues = values.length;\n\tconst result = new values.constructor( nValues );\n\n\tfor ( let i = 0, dstOffset = 0; dstOffset !== nValues; ++ i ) {\n\n\t\tconst srcOffset = order[ i ] * stride;\n\n\t\tfor ( let j = 0; j !== stride; ++ j ) {\n\n\t\t\tresult[ dstOffset ++ ] = values[ srcOffset + j ];\n\n\t\t}\n\n\t}\n\n\treturn result;\n\n}\n\n/**\n * Used for parsing AOS keyframe formats.\n *\n * @param {Array} jsonKeys - A list of JSON keyframes.\n * @param {Array} times - This array will be filled with keyframe times by this function.\n * @param {Array} values - This array will be filled with keyframe values by this function.\n * @param {string} valuePropertyName - The name of the property to use.\n */\nfunction flattenJSON( jsonKeys, times, values, valuePropertyName ) {\n\n\tlet i = 1, key = jsonKeys[ 0 ];\n\n\twhile ( key !== undefined && key[ valuePropertyName ] === undefined ) {\n\n\t\tkey = jsonKeys[ i ++ ];\n\n\t}\n\n\tif ( key === undefined ) return; // no data\n\n\tlet value = key[ valuePropertyName ];\n\tif ( value === undefined ) return; // no data\n\n\tif ( Array.isArray( value ) ) {\n\n\t\tdo {\n\n\t\t\tvalue = key[ valuePropertyName ];\n\n\t\t\tif ( value !== undefined ) {\n\n\t\t\t\ttimes.push( key.time );\n\t\t\t\tvalues.push( ...value ); // push all elements\n\n\t\t\t}\n\n\t\t\tkey = jsonKeys[ i ++ ];\n\n\t\t} while ( key !== undefined );\n\n\t} else if ( value.toArray !== undefined ) {\n\n\t\t// ...assume THREE.Math-ish\n\n\t\tdo {\n\n\t\t\tvalue = key[ valuePropertyName ];\n\n\t\t\tif ( value !== undefined ) {\n\n\t\t\t\ttimes.push( key.time );\n\t\t\t\tvalue.toArray( values, values.length );\n\n\t\t\t}\n\n\t\t\tkey = jsonKeys[ i ++ ];\n\n\t\t} while ( key !== undefined );\n\n\t} else {\n\n\t\t// otherwise push as-is\n\n\t\tdo {\n\n\t\t\tvalue = key[ valuePropertyName ];\n\n\t\t\tif ( value !== undefined ) {\n\n\t\t\t\ttimes.push( key.time );\n\t\t\t\tvalues.push( value );\n\n\t\t\t}\n\n\t\t\tkey = jsonKeys[ i ++ ];\n\n\t\t} while ( key !== undefined );\n\n\t}\n\n}\n\n/**\n * Creates a new clip, containing only the segment of the original clip between the given frames.\n *\n * @param {AnimationClip} sourceClip - The values to sort.\n * @param {string} name - The name of the clip.\n * @param {number} startFrame - The start frame.\n * @param {number} endFrame - The end frame.\n * @param {number} [fps=30] - The FPS.\n * @return {AnimationClip} The new sub clip.\n */\nfunction subclip( sourceClip, name, startFrame, endFrame, fps = 30 ) {\n\n\tconst clip = sourceClip.clone();\n\n\tclip.name = name;\n\n\tconst tracks = [];\n\n\tfor ( let i = 0; i < clip.tracks.length; ++ i ) {\n\n\t\tconst track = clip.tracks[ i ];\n\t\tconst valueSize = track.getValueSize();\n\n\t\tconst times = [];\n\t\tconst values = [];\n\n\t\tfor ( let j = 0; j < track.times.length; ++ j ) {\n\n\t\t\tconst frame = track.times[ j ] * fps;\n\n\t\t\tif ( frame < startFrame || frame >= endFrame ) continue;\n\n\t\t\ttimes.push( track.times[ j ] );\n\n\t\t\tfor ( let k = 0; k < valueSize; ++ k ) {\n\n\t\t\t\tvalues.push( track.values[ j * valueSize + k ] );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( times.length === 0 ) continue;\n\n\t\ttrack.times = convertArray( times, track.times.constructor );\n\t\ttrack.values = convertArray( values, track.values.constructor );\n\n\t\ttracks.push( track );\n\n\t}\n\n\tclip.tracks = tracks;\n\n\t// find minimum .times value across all tracks in the trimmed clip\n\n\tlet minStartTime = Infinity;\n\n\tfor ( let i = 0; i < clip.tracks.length; ++ i ) {\n\n\t\tif ( minStartTime > clip.tracks[ i ].times[ 0 ] ) {\n\n\t\t\tminStartTime = clip.tracks[ i ].times[ 0 ];\n\n\t\t}\n\n\t}\n\n\t// shift all tracks such that clip begins at t=0\n\n\tfor ( let i = 0; i < clip.tracks.length; ++ i ) {\n\n\t\tclip.tracks[ i ].shift( -1 * minStartTime );\n\n\t}\n\n\tclip.resetDuration();\n\n\treturn clip;\n\n}\n\n/**\n * Converts the keyframes of the given animation clip to an additive format.\n *\n * @param {AnimationClip} targetClip - The clip to make additive.\n * @param {number} [referenceFrame=0] - The reference frame.\n * @param {AnimationClip} [referenceClip=targetClip] - The reference clip.\n * @param {number} [fps=30] - The FPS.\n * @return {AnimationClip} The updated clip which is now additive.\n */\nfunction makeClipAdditive( targetClip, referenceFrame = 0, referenceClip = targetClip, fps = 30 ) {\n\n\tif ( fps <= 0 ) fps = 30;\n\n\tconst numTracks = referenceClip.tracks.length;\n\tconst referenceTime = referenceFrame / fps;\n\n\t// Make each track's values relative to the values at the reference frame\n\tfor ( let i = 0; i < numTracks; ++ i ) {\n\n\t\tconst referenceTrack = referenceClip.tracks[ i ];\n\t\tconst referenceTrackType = referenceTrack.ValueTypeName;\n\n\t\t// Skip this track if it's non-numeric\n\t\tif ( referenceTrackType === 'bool' || referenceTrackType === 'string' ) continue;\n\n\t\t// Find the track in the target clip whose name and type matches the reference track\n\t\tconst targetTrack = targetClip.tracks.find( function ( track ) {\n\n\t\t\treturn track.name === referenceTrack.name\n\t\t\t\t&& track.ValueTypeName === referenceTrackType;\n\n\t\t} );\n\n\t\tif ( targetTrack === undefined ) continue;\n\n\t\tlet referenceOffset = 0;\n\t\tconst referenceValueSize = referenceTrack.getValueSize();\n\n\t\tif ( referenceTrack.createInterpolant.isInterpolantFactoryMethodGLTFCubicSpline ) {\n\n\t\t\treferenceOffset = referenceValueSize / 3;\n\n\t\t}\n\n\t\tlet targetOffset = 0;\n\t\tconst targetValueSize = targetTrack.getValueSize();\n\n\t\tif ( targetTrack.createInterpolant.isInterpolantFactoryMethodGLTFCubicSpline ) {\n\n\t\t\ttargetOffset = targetValueSize / 3;\n\n\t\t}\n\n\t\tconst lastIndex = referenceTrack.times.length - 1;\n\t\tlet referenceValue;\n\n\t\t// Find the value to subtract out of the track\n\t\tif ( referenceTime <= referenceTrack.times[ 0 ] ) {\n\n\t\t\t// Reference frame is earlier than the first keyframe, so just use the first keyframe\n\t\t\tconst startIndex = referenceOffset;\n\t\t\tconst endIndex = referenceValueSize - referenceOffset;\n\t\t\treferenceValue = referenceTrack.values.slice( startIndex, endIndex );\n\n\t\t} else if ( referenceTime >= referenceTrack.times[ lastIndex ] ) {\n\n\t\t\t// Reference frame is after the last keyframe, so just use the last keyframe\n\t\t\tconst startIndex = lastIndex * referenceValueSize + referenceOffset;\n\t\t\tconst endIndex = startIndex + referenceValueSize - referenceOffset;\n\t\t\treferenceValue = referenceTrack.values.slice( startIndex, endIndex );\n\n\t\t} else {\n\n\t\t\t// Interpolate to the reference value\n\t\t\tconst interpolant = referenceTrack.createInterpolant();\n\t\t\tconst startIndex = referenceOffset;\n\t\t\tconst endIndex = referenceValueSize - referenceOffset;\n\t\t\tinterpolant.evaluate( referenceTime );\n\t\t\treferenceValue = interpolant.resultBuffer.slice( startIndex, endIndex );\n\n\t\t}\n\n\t\t// Conjugate the quaternion\n\t\tif ( referenceTrackType === 'quaternion' ) {\n\n\t\t\tconst referenceQuat = new Quaternion().fromArray( referenceValue ).normalize().conjugate();\n\t\t\treferenceQuat.toArray( referenceValue );\n\n\t\t}\n\n\t\t// Subtract the reference value from all of the track values\n\n\t\tconst numTimes = targetTrack.times.length;\n\t\tfor ( let j = 0; j < numTimes; ++ j ) {\n\n\t\t\tconst valueStart = j * targetValueSize + targetOffset;\n\n\t\t\tif ( referenceTrackType === 'quaternion' ) {\n\n\t\t\t\t// Multiply the conjugate for quaternion track types\n\t\t\t\tQuaternion.multiplyQuaternionsFlat(\n\t\t\t\t\ttargetTrack.values,\n\t\t\t\t\tvalueStart,\n\t\t\t\t\treferenceValue,\n\t\t\t\t\t0,\n\t\t\t\t\ttargetTrack.values,\n\t\t\t\t\tvalueStart\n\t\t\t\t);\n\n\t\t\t} else {\n\n\t\t\t\tconst valueEnd = targetValueSize - targetOffset * 2;\n\n\t\t\t\t// Subtract each value for all other numeric track types\n\t\t\t\tfor ( let k = 0; k < valueEnd; ++ k ) {\n\n\t\t\t\t\ttargetTrack.values[ valueStart + k ] -= referenceValue[ k ];\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\ttargetClip.blendMode = AdditiveAnimationBlendMode;\n\n\treturn targetClip;\n\n}\n\n/**\n * A class with various methods to assist with animations.\n *\n * @hideconstructor\n */\nclass AnimationUtils {\n\n\t/**\n\t * Converts an array to a specific type\n\t *\n\t * @static\n\t * @param {TypedArray|Array} array - The array to convert.\n\t * @param {TypedArray.constructor} type - The constructor of a type array.\n\t * @return {TypedArray} The converted array\n\t */\n\tstatic convertArray( array, type ) {\n\n\t\treturn convertArray( array, type );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given object is a typed array.\n\t *\n\t * @static\n\t * @param {any} object - The object to check.\n\t * @return {boolean} Whether the given object is a typed array.\n\t */\n\tstatic isTypedArray( object ) {\n\n\t\treturn isTypedArray( object );\n\n\t}\n\n\t/**\n\t * Returns an array by which times and values can be sorted.\n\t *\n\t * @static\n\t * @param {Array} times - The keyframe time values.\n\t * @return {Array} The array.\n\t */\n\tstatic getKeyframeOrder( times ) {\n\n\t\treturn getKeyframeOrder( times );\n\n\t}\n\n\t/**\n\t * Sorts the given array by the previously computed order via `getKeyframeOrder()`.\n\t *\n\t * @static\n\t * @param {Array} values - The values to sort.\n\t * @param {number} stride - The stride.\n\t * @param {Array} order - The sort order.\n\t * @return {Array} The sorted values.\n\t */\n\tstatic sortedArray( values, stride, order ) {\n\n\t\treturn sortedArray( values, stride, order );\n\n\t}\n\n\t/**\n\t * Used for parsing AOS keyframe formats.\n\t *\n\t * @static\n\t * @param {Array} jsonKeys - A list of JSON keyframes.\n\t * @param {Array} times - This array will be filled with keyframe times by this method.\n\t * @param {Array} values - This array will be filled with keyframe values by this method.\n\t * @param {string} valuePropertyName - The name of the property to use.\n\t */\n\tstatic flattenJSON( jsonKeys, times, values, valuePropertyName ) {\n\n\t\tflattenJSON( jsonKeys, times, values, valuePropertyName );\n\n\t}\n\n\t/**\n\t * Creates a new clip, containing only the segment of the original clip between the given frames.\n\t *\n\t * @static\n\t * @param {AnimationClip} sourceClip - The values to sort.\n\t * @param {string} name - The name of the clip.\n\t * @param {number} startFrame - The start frame.\n\t * @param {number} endFrame - The end frame.\n\t * @param {number} [fps=30] - The FPS.\n\t * @return {AnimationClip} The new sub clip.\n\t */\n\tstatic subclip( sourceClip, name, startFrame, endFrame, fps = 30 ) {\n\n\t\treturn subclip( sourceClip, name, startFrame, endFrame, fps );\n\n\t}\n\n\t/**\n\t * Converts the keyframes of the given animation clip to an additive format.\n\t *\n\t * @static\n\t * @param {AnimationClip} targetClip - The clip to make additive.\n\t * @param {number} [referenceFrame=0] - The reference frame.\n\t * @param {AnimationClip} [referenceClip=targetClip] - The reference clip.\n\t * @param {number} [fps=30] - The FPS.\n\t * @return {AnimationClip} The updated clip which is now additive.\n\t */\n\tstatic makeClipAdditive( targetClip, referenceFrame = 0, referenceClip = targetClip, fps = 30 ) {\n\n\t\treturn makeClipAdditive( targetClip, referenceFrame, referenceClip, fps );\n\n\t}\n\n}\n\n/**\n * Abstract base class of interpolants over parametric samples.\n *\n * The parameter domain is one dimensional, typically the time or a path\n * along a curve defined by the data.\n *\n * The sample values can have any dimensionality and derived classes may\n * apply special interpretations to the data.\n *\n * This class provides the interval seek in a Template Method, deferring\n * the actual interpolation to derived classes.\n *\n * Time complexity is O(1) for linear access crossing at most two points\n * and O(log N) for random access, where N is the number of positions.\n *\n * References: {@link http://www.oodesign.com/template-method-pattern.html}\n *\n * @abstract\n */\nclass Interpolant {\n\n\t/**\n\t * Constructs a new interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\t/**\n\t\t * The parameter positions.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.parameterPositions = parameterPositions;\n\n\t\t/**\n\t\t * A cache index.\n\t\t *\n\t\t * @private\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis._cachedIndex = 0;\n\n\t\t/**\n\t\t * The result buffer.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.resultBuffer = resultBuffer !== undefined ? resultBuffer : new sampleValues.constructor( sampleSize );\n\n\t\t/**\n\t\t * The sample values.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.sampleValues = sampleValues;\n\n\t\t/**\n\t\t * The value size.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.valueSize = sampleSize;\n\n\t\t/**\n\t\t * The interpolation settings.\n\t\t *\n\t\t * @type {?Object}\n\t\t * @default null\n\t\t */\n\t\tthis.settings = null;\n\n\t\t/**\n\t\t * The default settings object.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.DefaultSettings_ = {};\n\n\t}\n\n\t/**\n\t * Evaluate the interpolant at position `t`.\n\t *\n\t * @param {number} t - The interpolation factor.\n\t * @return {TypedArray} The result buffer.\n\t */\n\tevaluate( t ) {\n\n\t\tconst pp = this.parameterPositions;\n\t\tlet i1 = this._cachedIndex,\n\t\t\tt1 = pp[ i1 ],\n\t\t\tt0 = pp[ i1 - 1 ];\n\n\t\tvalidate_interval: {\n\n\t\t\tseek: {\n\n\t\t\t\tlet right;\n\n\t\t\t\tlinear_scan: {\n\n\t\t\t\t\t//- See http://jsperf.com/comparison-to-undefined/3\n\t\t\t\t\t//- slower code:\n\t\t\t\t\t//-\n\t\t\t\t\t//- \t\t\t\tif ( t >= t1 || t1 === undefined ) {\n\t\t\t\t\tforward_scan: if ( ! ( t < t1 ) ) {\n\n\t\t\t\t\t\tfor ( let giveUpAt = i1 + 2; ; ) {\n\n\t\t\t\t\t\t\tif ( t1 === undefined ) {\n\n\t\t\t\t\t\t\t\tif ( t < t0 ) break forward_scan;\n\n\t\t\t\t\t\t\t\t// after end\n\n\t\t\t\t\t\t\t\ti1 = pp.length;\n\t\t\t\t\t\t\t\tthis._cachedIndex = i1;\n\t\t\t\t\t\t\t\treturn this.copySampleValue_( i1 - 1 );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\tif ( i1 === giveUpAt ) break; // this loop\n\n\t\t\t\t\t\t\tt0 = t1;\n\t\t\t\t\t\t\tt1 = pp[ ++ i1 ];\n\n\t\t\t\t\t\t\tif ( t < t1 ) {\n\n\t\t\t\t\t\t\t\t// we have arrived at the sought interval\n\t\t\t\t\t\t\t\tbreak seek;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\t// prepare binary search on the right side of the index\n\t\t\t\t\t\tright = pp.length;\n\t\t\t\t\t\tbreak linear_scan;\n\n\t\t\t\t\t}\n\n\t\t\t\t\t//- slower code:\n\t\t\t\t\t//-\t\t\t\t\tif ( t < t0 || t0 === undefined ) {\n\t\t\t\t\tif ( ! ( t >= t0 ) ) {\n\n\t\t\t\t\t\t// looping?\n\n\t\t\t\t\t\tconst t1global = pp[ 1 ];\n\n\t\t\t\t\t\tif ( t < t1global ) {\n\n\t\t\t\t\t\t\ti1 = 2; // + 1, using the scan for the details\n\t\t\t\t\t\t\tt0 = t1global;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\t// linear reverse scan\n\n\t\t\t\t\t\tfor ( let giveUpAt = i1 - 2; ; ) {\n\n\t\t\t\t\t\t\tif ( t0 === undefined ) {\n\n\t\t\t\t\t\t\t\t// before start\n\n\t\t\t\t\t\t\t\tthis._cachedIndex = 0;\n\t\t\t\t\t\t\t\treturn this.copySampleValue_( 0 );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\tif ( i1 === giveUpAt ) break; // this loop\n\n\t\t\t\t\t\t\tt1 = t0;\n\t\t\t\t\t\t\tt0 = pp[ -- i1 - 1 ];\n\n\t\t\t\t\t\t\tif ( t >= t0 ) {\n\n\t\t\t\t\t\t\t\t// we have arrived at the sought interval\n\t\t\t\t\t\t\t\tbreak seek;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\t// prepare binary search on the left side of the index\n\t\t\t\t\t\tright = i1;\n\t\t\t\t\t\ti1 = 0;\n\t\t\t\t\t\tbreak linear_scan;\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// the interval is valid\n\n\t\t\t\t\tbreak validate_interval;\n\n\t\t\t\t} // linear scan\n\n\t\t\t\t// binary search\n\n\t\t\t\twhile ( i1 < right ) {\n\n\t\t\t\t\tconst mid = ( i1 + right ) >>> 1;\n\n\t\t\t\t\tif ( t < pp[ mid ] ) {\n\n\t\t\t\t\t\tright = mid;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ti1 = mid + 1;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tt1 = pp[ i1 ];\n\t\t\t\tt0 = pp[ i1 - 1 ];\n\n\t\t\t\t// check boundary cases, again\n\n\t\t\t\tif ( t0 === undefined ) {\n\n\t\t\t\t\tthis._cachedIndex = 0;\n\t\t\t\t\treturn this.copySampleValue_( 0 );\n\n\t\t\t\t}\n\n\t\t\t\tif ( t1 === undefined ) {\n\n\t\t\t\t\ti1 = pp.length;\n\t\t\t\t\tthis._cachedIndex = i1;\n\t\t\t\t\treturn this.copySampleValue_( i1 - 1 );\n\n\t\t\t\t}\n\n\t\t\t} // seek\n\n\t\t\tthis._cachedIndex = i1;\n\n\t\t\tthis.intervalChanged_( i1, t0, t1 );\n\n\t\t} // validate_interval\n\n\t\treturn this.interpolate_( i1, t0, t, t1 );\n\n\t}\n\n\t/**\n\t * Returns the interpolation settings.\n\t *\n\t * @return {Object} The interpolation settings.\n\t */\n\tgetSettings_() {\n\n\t\treturn this.settings || this.DefaultSettings_;\n\n\t}\n\n\t/**\n\t * Copies a sample value to the result buffer.\n\t *\n\t * @param {number} index - An index into the sample value buffer.\n\t * @return {TypedArray} The result buffer.\n\t */\n\tcopySampleValue_( index ) {\n\n\t\t// copies a sample value to the result buffer\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\t\t\toffset = index * stride;\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tresult[ i ] = values[ offset + i ];\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n\t/**\n\t * Copies a sample value to the result buffer.\n\t *\n\t * @abstract\n\t * @param {number} i1 - An index into the sample value buffer.\n\t * @param {number} t0 - The previous interpolation factor.\n\t * @param {number} t - The current interpolation factor.\n\t * @param {number} t1 - The next interpolation factor.\n\t * @return {TypedArray} The result buffer.\n\t */\n\tinterpolate_( /* i1, t0, t, t1 */ ) {\n\n\t\tthrow new Error( 'call to abstract method' );\n\t\t// implementations shall return this.resultBuffer\n\n\t}\n\n\t/**\n\t * Optional method that is executed when the interval has changed.\n\t *\n\t * @param {number} i1 - An index into the sample value buffer.\n\t * @param {number} t0 - The previous interpolation factor.\n\t * @param {number} t - The current interpolation factor.\n\t */\n\tintervalChanged_( /* i1, t0, t1 */ ) {\n\n\t\t// empty\n\n\t}\n\n}\n\n/**\n * Fast and simple cubic spline interpolant.\n *\n * It was derived from a Hermitian construction setting the first derivative\n * at each sample position to the linear slope between neighboring positions\n * over their parameter interval.\n *\n * @augments Interpolant\n */\nclass CubicInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new cubic interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t\tthis._weightPrev = -0;\n\t\tthis._offsetPrev = -0;\n\t\tthis._weightNext = -0;\n\t\tthis._offsetNext = -0;\n\n\t\tthis.DefaultSettings_ = {\n\n\t\t\tendingStart: ZeroCurvatureEnding,\n\t\t\tendingEnd: ZeroCurvatureEnding\n\n\t\t};\n\n\t}\n\n\tintervalChanged_( i1, t0, t1 ) {\n\n\t\tconst pp = this.parameterPositions;\n\t\tlet iPrev = i1 - 2,\n\t\t\tiNext = i1 + 1,\n\n\t\t\ttPrev = pp[ iPrev ],\n\t\t\ttNext = pp[ iNext ];\n\n\t\tif ( tPrev === undefined ) {\n\n\t\t\tswitch ( this.getSettings_().endingStart ) {\n\n\t\t\t\tcase ZeroSlopeEnding:\n\n\t\t\t\t\t// f'(t0) = 0\n\t\t\t\t\tiPrev = i1;\n\t\t\t\t\ttPrev = 2 * t0 - t1;\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase WrapAroundEnding:\n\n\t\t\t\t\t// use the other end of the curve\n\t\t\t\t\tiPrev = pp.length - 2;\n\t\t\t\t\ttPrev = t0 + pp[ iPrev ] - pp[ iPrev + 1 ];\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault: // ZeroCurvatureEnding\n\n\t\t\t\t\t// f''(t0) = 0 a.k.a. Natural Spline\n\t\t\t\t\tiPrev = i1;\n\t\t\t\t\ttPrev = t1;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( tNext === undefined ) {\n\n\t\t\tswitch ( this.getSettings_().endingEnd ) {\n\n\t\t\t\tcase ZeroSlopeEnding:\n\n\t\t\t\t\t// f'(tN) = 0\n\t\t\t\t\tiNext = i1;\n\t\t\t\t\ttNext = 2 * t1 - t0;\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase WrapAroundEnding:\n\n\t\t\t\t\t// use the other end of the curve\n\t\t\t\t\tiNext = 1;\n\t\t\t\t\ttNext = t1 + pp[ 1 ] - pp[ 0 ];\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault: // ZeroCurvatureEnding\n\n\t\t\t\t\t// f''(tN) = 0, a.k.a. Natural Spline\n\t\t\t\t\tiNext = i1 - 1;\n\t\t\t\t\ttNext = t0;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst halfDt = ( t1 - t0 ) * 0.5,\n\t\t\tstride = this.valueSize;\n\n\t\tthis._weightPrev = halfDt / ( t0 - tPrev );\n\t\tthis._weightNext = halfDt / ( tNext - t1 );\n\t\tthis._offsetPrev = iPrev * stride;\n\t\tthis._offsetNext = iNext * stride;\n\n\t}\n\n\tinterpolate_( i1, t0, t, t1 ) {\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\n\t\t\to1 = i1 * stride,\t\to0 = o1 - stride,\n\t\t\toP = this._offsetPrev, \toN = this._offsetNext,\n\t\t\twP = this._weightPrev,\twN = this._weightNext,\n\n\t\t\tp = ( t - t0 ) / ( t1 - t0 ),\n\t\t\tpp = p * p,\n\t\t\tppp = pp * p;\n\n\t\t// evaluate polynomials\n\n\t\tconst sP = - wP * ppp + 2 * wP * pp - wP * p;\n\t\tconst s0 = ( 1 + wP ) * ppp + ( -1.5 - 2 * wP ) * pp + ( -0.5 + wP ) * p + 1;\n\t\tconst s1 = ( -1 - wN ) * ppp + ( 1.5 + wN ) * pp + 0.5 * p;\n\t\tconst sN = wN * ppp - wN * pp;\n\n\t\t// combine data linearly\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tresult[ i ] =\n\t\t\t\t\tsP * values[ oP + i ] +\n\t\t\t\t\ts0 * values[ o0 + i ] +\n\t\t\t\t\ts1 * values[ o1 + i ] +\n\t\t\t\t\tsN * values[ oN + i ];\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n}\n\n/**\n * A basic linear interpolant.\n *\n * @augments Interpolant\n */\nclass LinearInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new linear interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t}\n\n\tinterpolate_( i1, t0, t, t1 ) {\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\n\t\t\toffset1 = i1 * stride,\n\t\t\toffset0 = offset1 - stride,\n\n\t\t\tweight1 = ( t - t0 ) / ( t1 - t0 ),\n\t\t\tweight0 = 1 - weight1;\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tresult[ i ] =\n\t\t\t\t\tvalues[ offset0 + i ] * weight0 +\n\t\t\t\t\tvalues[ offset1 + i ] * weight1;\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n}\n\n/**\n * Interpolant that evaluates to the sample value at the position preceding\n * the parameter.\n *\n * @augments Interpolant\n */\nclass DiscreteInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new discrete interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t}\n\n\tinterpolate_( i1 /*, t0, t, t1 */ ) {\n\n\t\treturn this.copySampleValue_( i1 - 1 );\n\n\t}\n\n}\n\n/**\n * Represents s a timed sequence of keyframes, which are composed of lists of\n * times and related values, and which are used to animate a specific property\n * of an object.\n */\nclass KeyframeTrack {\n\n\t/**\n\t * Constructs a new keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tif ( name === undefined ) throw new Error( 'THREE.KeyframeTrack: track name is undefined' );\n\t\tif ( times === undefined || times.length === 0 ) throw new Error( 'THREE.KeyframeTrack: no keyframes in track named ' + name );\n\n\t\t/**\n\t\t * The track's name can refer to morph targets or bones or\n\t\t * possibly other values within an animated object. See {@link PropertyBinding#parseTrackName}\n\t\t * for the forms of strings that can be parsed for property binding.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = name;\n\n\t\t/**\n\t\t * The keyframe times.\n\t\t *\n\t\t * @type {Float32Array}\n\t\t */\n\t\tthis.times = convertArray( times, this.TimeBufferType );\n\n\t\t/**\n\t\t * The keyframe values.\n\t\t *\n\t\t * @type {Float32Array}\n\t\t */\n\t\tthis.values = convertArray( values, this.ValueBufferType );\n\n\t\tthis.setInterpolation( interpolation || this.DefaultInterpolation );\n\n\t}\n\n\t/**\n\t * Converts the keyframe track to JSON.\n\t *\n\t * @static\n\t * @param {KeyframeTrack} track - The keyframe track to serialize.\n\t * @return {Object} The serialized keyframe track as JSON.\n\t */\n\tstatic toJSON( track ) {\n\n\t\tconst trackType = track.constructor;\n\n\t\tlet json;\n\n\t\t// derived classes can define a static toJSON method\n\t\tif ( trackType.toJSON !== this.toJSON ) {\n\n\t\t\tjson = trackType.toJSON( track );\n\n\t\t} else {\n\n\t\t\t// by default, we assume the data can be serialized as-is\n\t\t\tjson = {\n\n\t\t\t\t'name': track.name,\n\t\t\t\t'times': convertArray( track.times, Array ),\n\t\t\t\t'values': convertArray( track.values, Array )\n\n\t\t\t};\n\n\t\t\tconst interpolation = track.getInterpolation();\n\n\t\t\tif ( interpolation !== track.DefaultInterpolation ) {\n\n\t\t\t\tjson.interpolation = interpolation;\n\n\t\t\t}\n\n\t\t}\n\n\t\tjson.type = track.ValueTypeName; // mandatory\n\n\t\treturn json;\n\n\t}\n\n\t/**\n\t * Factory method for creating a new discrete interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {DiscreteInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodDiscrete( result ) {\n\n\t\treturn new DiscreteInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n\t/**\n\t * Factory method for creating a new linear interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {LinearInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodLinear( result ) {\n\n\t\treturn new LinearInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n\t/**\n\t * Factory method for creating a new smooth interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {CubicInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodSmooth( result ) {\n\n\t\treturn new CubicInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n\t/**\n\t * Defines the interpolation factor method for this keyframe track.\n\t *\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} interpolation - The interpolation type.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\tsetInterpolation( interpolation ) {\n\n\t\tlet factoryMethod;\n\n\t\tswitch ( interpolation ) {\n\n\t\t\tcase InterpolateDiscrete:\n\n\t\t\t\tfactoryMethod = this.InterpolantFactoryMethodDiscrete;\n\n\t\t\t\tbreak;\n\n\t\t\tcase InterpolateLinear:\n\n\t\t\t\tfactoryMethod = this.InterpolantFactoryMethodLinear;\n\n\t\t\t\tbreak;\n\n\t\t\tcase InterpolateSmooth:\n\n\t\t\t\tfactoryMethod = this.InterpolantFactoryMethodSmooth;\n\n\t\t\t\tbreak;\n\n\t\t}\n\n\t\tif ( factoryMethod === undefined ) {\n\n\t\t\tconst message = 'unsupported interpolation for ' +\n\t\t\t\tthis.ValueTypeName + ' keyframe track named ' + this.name;\n\n\t\t\tif ( this.createInterpolant === undefined ) {\n\n\t\t\t\t// fall back to default, unless the default itself is messed up\n\t\t\t\tif ( interpolation !== this.DefaultInterpolation ) {\n\n\t\t\t\t\tthis.setInterpolation( this.DefaultInterpolation );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthrow new Error( message ); // fatal, in this case\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tconsole.warn( 'THREE.KeyframeTrack:', message );\n\t\t\treturn this;\n\n\t\t}\n\n\t\tthis.createInterpolant = factoryMethod;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current interpolation type.\n\t *\n\t * @return {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} The interpolation type.\n\t */\n\tgetInterpolation() {\n\n\t\tswitch ( this.createInterpolant ) {\n\n\t\t\tcase this.InterpolantFactoryMethodDiscrete:\n\n\t\t\t\treturn InterpolateDiscrete;\n\n\t\t\tcase this.InterpolantFactoryMethodLinear:\n\n\t\t\t\treturn InterpolateLinear;\n\n\t\t\tcase this.InterpolantFactoryMethodSmooth:\n\n\t\t\t\treturn InterpolateSmooth;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns the value size.\n\t *\n\t * @return {number} The value size.\n\t */\n\tgetValueSize() {\n\n\t\treturn this.values.length / this.times.length;\n\n\t}\n\n\t/**\n\t * Moves all keyframes either forward or backward in time.\n\t *\n\t * @param {number} timeOffset - The offset to move the time values.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\tshift( timeOffset ) {\n\n\t\tif ( timeOffset !== 0.0 ) {\n\n\t\t\tconst times = this.times;\n\n\t\t\tfor ( let i = 0, n = times.length; i !== n; ++ i ) {\n\n\t\t\t\ttimes[ i ] += timeOffset;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scale all keyframe times by a factor (useful for frame - seconds conversions).\n\t *\n\t * @param {number} timeScale - The time scale.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\tscale( timeScale ) {\n\n\t\tif ( timeScale !== 1.0 ) {\n\n\t\t\tconst times = this.times;\n\n\t\t\tfor ( let i = 0, n = times.length; i !== n; ++ i ) {\n\n\t\t\t\ttimes[ i ] *= timeScale;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes keyframes before and after animation without changing any values within the defined time range.\n\t *\n\t * Note: The method does not shift around keys to the start of the track time, because for interpolated\n\t * keys this will change their values\n\t *\n\t * @param {number} startTime - The start time.\n\t * @param {number} endTime - The end time.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\ttrim( startTime, endTime ) {\n\n\t\tconst times = this.times,\n\t\t\tnKeys = times.length;\n\n\t\tlet from = 0,\n\t\t\tto = nKeys - 1;\n\n\t\twhile ( from !== nKeys && times[ from ] < startTime ) {\n\n\t\t\t++ from;\n\n\t\t}\n\n\t\twhile ( to !== -1 && times[ to ] > endTime ) {\n\n\t\t\t-- to;\n\n\t\t}\n\n\t\t++ to; // inclusive -> exclusive bound\n\n\t\tif ( from !== 0 || to !== nKeys ) {\n\n\t\t\t// empty tracks are forbidden, so keep at least one keyframe\n\t\t\tif ( from >= to ) {\n\n\t\t\t\tto = Math.max( to, 1 );\n\t\t\t\tfrom = to - 1;\n\n\t\t\t}\n\n\t\t\tconst stride = this.getValueSize();\n\t\t\tthis.times = times.slice( from, to );\n\t\t\tthis.values = this.values.slice( from * stride, to * stride );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs minimal validation on the keyframe track. Returns `true` if the values\n\t * are valid.\n\t *\n\t * @return {boolean} Whether the keyframes are valid or not.\n\t */\n\tvalidate() {\n\n\t\tlet valid = true;\n\n\t\tconst valueSize = this.getValueSize();\n\t\tif ( valueSize - Math.floor( valueSize ) !== 0 ) {\n\n\t\t\tconsole.error( 'THREE.KeyframeTrack: Invalid value size in track.', this );\n\t\t\tvalid = false;\n\n\t\t}\n\n\t\tconst times = this.times,\n\t\t\tvalues = this.values,\n\n\t\t\tnKeys = times.length;\n\n\t\tif ( nKeys === 0 ) {\n\n\t\t\tconsole.error( 'THREE.KeyframeTrack: Track is empty.', this );\n\t\t\tvalid = false;\n\n\t\t}\n\n\t\tlet prevTime = null;\n\n\t\tfor ( let i = 0; i !== nKeys; i ++ ) {\n\n\t\t\tconst currTime = times[ i ];\n\n\t\t\tif ( typeof currTime === 'number' && isNaN( currTime ) ) {\n\n\t\t\t\tconsole.error( 'THREE.KeyframeTrack: Time is not a valid number.', this, i, currTime );\n\t\t\t\tvalid = false;\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t\tif ( prevTime !== null && prevTime > currTime ) {\n\n\t\t\t\tconsole.error( 'THREE.KeyframeTrack: Out of order keys.', this, i, currTime, prevTime );\n\t\t\t\tvalid = false;\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t\tprevTime = currTime;\n\n\t\t}\n\n\t\tif ( values !== undefined ) {\n\n\t\t\tif ( isTypedArray( values ) ) {\n\n\t\t\t\tfor ( let i = 0, n = values.length; i !== n; ++ i ) {\n\n\t\t\t\t\tconst value = values[ i ];\n\n\t\t\t\t\tif ( isNaN( value ) ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.KeyframeTrack: Value is not a valid number.', this, i, value );\n\t\t\t\t\t\tvalid = false;\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn valid;\n\n\t}\n\n\t/**\n\t * Optimizes this keyframe track by removing equivalent sequential keys (which are\n\t * common in morph target sequences).\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\toptimize() {\n\n\t\t// (0,0,0,0,1,1,1,0,0,0,0,0,0,0) --> (0,0,1,1,0,0)\n\n\t\t// times or values may be shared with other tracks, so overwriting is unsafe\n\t\tconst times = this.times.slice(),\n\t\t\tvalues = this.values.slice(),\n\t\t\tstride = this.getValueSize(),\n\n\t\t\tsmoothInterpolation = this.getInterpolation() === InterpolateSmooth,\n\n\t\t\tlastIndex = times.length - 1;\n\n\t\tlet writeIndex = 1;\n\n\t\tfor ( let i = 1; i < lastIndex; ++ i ) {\n\n\t\t\tlet keep = false;\n\n\t\t\tconst time = times[ i ];\n\t\t\tconst timeNext = times[ i + 1 ];\n\n\t\t\t// remove adjacent keyframes scheduled at the same time\n\n\t\t\tif ( time !== timeNext && ( i !== 1 || time !== times[ 0 ] ) ) {\n\n\t\t\t\tif ( ! smoothInterpolation ) {\n\n\t\t\t\t\t// remove unnecessary keyframes same as their neighbors\n\n\t\t\t\t\tconst offset = i * stride,\n\t\t\t\t\t\toffsetP = offset - stride,\n\t\t\t\t\t\toffsetN = offset + stride;\n\n\t\t\t\t\tfor ( let j = 0; j !== stride; ++ j ) {\n\n\t\t\t\t\t\tconst value = values[ offset + j ];\n\n\t\t\t\t\t\tif ( value !== values[ offsetP + j ] ||\n\t\t\t\t\t\t\tvalue !== values[ offsetN + j ] ) {\n\n\t\t\t\t\t\t\tkeep = true;\n\t\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\tkeep = true;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// in-place compaction\n\n\t\t\tif ( keep ) {\n\n\t\t\t\tif ( i !== writeIndex ) {\n\n\t\t\t\t\ttimes[ writeIndex ] = times[ i ];\n\n\t\t\t\t\tconst readOffset = i * stride,\n\t\t\t\t\t\twriteOffset = writeIndex * stride;\n\n\t\t\t\t\tfor ( let j = 0; j !== stride; ++ j ) {\n\n\t\t\t\t\t\tvalues[ writeOffset + j ] = values[ readOffset + j ];\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\t++ writeIndex;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// flush last keyframe (compaction looks ahead)\n\n\t\tif ( lastIndex > 0 ) {\n\n\t\t\ttimes[ writeIndex ] = times[ lastIndex ];\n\n\t\t\tfor ( let readOffset = lastIndex * stride, writeOffset = writeIndex * stride, j = 0; j !== stride; ++ j ) {\n\n\t\t\t\tvalues[ writeOffset + j ] = values[ readOffset + j ];\n\n\t\t\t}\n\n\t\t\t++ writeIndex;\n\n\t\t}\n\n\t\tif ( writeIndex !== times.length ) {\n\n\t\t\tthis.times = times.slice( 0, writeIndex );\n\t\t\tthis.values = values.slice( 0, writeIndex * stride );\n\n\t\t} else {\n\n\t\t\tthis.times = times;\n\t\t\tthis.values = values;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new keyframe track with copied values from this instance.\n\t *\n\t * @return {KeyframeTrack} A clone of this instance.\n\t */\n\tclone() {\n\n\t\tconst times = this.times.slice();\n\t\tconst values = this.values.slice();\n\n\t\tconst TypedKeyframeTrack = this.constructor;\n\t\tconst track = new TypedKeyframeTrack( this.name, times, values );\n\n\t\t// Interpolant argument to constructor is not saved, so copy the factory method directly.\n\t\ttrack.createInterpolant = this.createInterpolant;\n\n\t\treturn track;\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default ''\n */\nKeyframeTrack.prototype.ValueTypeName = '';\n\n/**\n * The time buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Float32Array.constructor\n */\nKeyframeTrack.prototype.TimeBufferType = Float32Array;\n\n/**\n * The value buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Float32Array.constructor\n */\nKeyframeTrack.prototype.ValueBufferType = Float32Array;\n\n/**\n * The default interpolation type of this keyframe track.\n *\n * @type {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)}\n * @default InterpolateLinear\n */\nKeyframeTrack.prototype.DefaultInterpolation = InterpolateLinear;\n\n/**\n * A track for boolean keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass BooleanKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new boolean keyframe track.\n\t *\n\t * This keyframe track type has no `interpolation` parameter because the\n\t * interpolation is always discrete.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t */\n\tconstructor( name, times, values ) {\n\n\t\tsuper( name, times, values );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'bool'\n */\nBooleanKeyframeTrack.prototype.ValueTypeName = 'bool';\n\n/**\n * The value buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Array.constructor\n */\nBooleanKeyframeTrack.prototype.ValueBufferType = Array;\n\n/**\n * The default interpolation type of this keyframe track.\n *\n * @type {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)}\n * @default InterpolateDiscrete\n */\nBooleanKeyframeTrack.prototype.DefaultInterpolation = InterpolateDiscrete;\nBooleanKeyframeTrack.prototype.InterpolantFactoryMethodLinear = undefined;\nBooleanKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined;\n\n/**\n * A track for color keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass ColorKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new color keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'color'\n */\nColorKeyframeTrack.prototype.ValueTypeName = 'color';\n\n/**\n * A track for numeric keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass NumberKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new number keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'number'\n */\nNumberKeyframeTrack.prototype.ValueTypeName = 'number';\n\n/**\n * Spherical linear unit quaternion interpolant.\n *\n * @augments Interpolant\n */\nclass QuaternionLinearInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new SLERP interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t}\n\n\tinterpolate_( i1, t0, t, t1 ) {\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\n\t\t\talpha = ( t - t0 ) / ( t1 - t0 );\n\n\t\tlet offset = i1 * stride;\n\n\t\tfor ( let end = offset + stride; offset !== end; offset += 4 ) {\n\n\t\t\tQuaternion.slerpFlat( result, 0, values, offset - stride, values, offset, alpha );\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n}\n\n/**\n * A track for Quaternion keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass QuaternionKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new Quaternion keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n\t/**\n\t * Overwritten so the method returns Quaternion based interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {QuaternionLinearInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodLinear( result ) {\n\n\t\treturn new QuaternionLinearInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'quaternion'\n */\nQuaternionKeyframeTrack.prototype.ValueTypeName = 'quaternion';\n// ValueBufferType is inherited\n// DefaultInterpolation is inherited;\nQuaternionKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined;\n\n/**\n * A track for string keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass StringKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new string keyframe track.\n\t *\n\t * This keyframe track type has no `interpolation` parameter because the\n\t * interpolation is always discrete.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t */\n\tconstructor( name, times, values ) {\n\n\t\tsuper( name, times, values );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'string'\n */\nStringKeyframeTrack.prototype.ValueTypeName = 'string';\n\n/**\n * The value buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Array.constructor\n */\nStringKeyframeTrack.prototype.ValueBufferType = Array;\n\n/**\n * The default interpolation type of this keyframe track.\n *\n * @type {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)}\n * @default InterpolateDiscrete\n */\nStringKeyframeTrack.prototype.DefaultInterpolation = InterpolateDiscrete;\nStringKeyframeTrack.prototype.InterpolantFactoryMethodLinear = undefined;\nStringKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined;\n\n/**\n * A track for vector keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass VectorKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new vector keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'vector'\n */\nVectorKeyframeTrack.prototype.ValueTypeName = 'vector';\n\n/**\n * A reusable set of keyframe tracks which represent an animation.\n */\nclass AnimationClip {\n\n\t/**\n\t * Constructs a new animation clip.\n\t *\n\t * Note: Instead of instantiating an AnimationClip directly with the constructor, you can\n\t * use the static interface of this class for creating clips. In most cases though, animation clips\n\t * will automatically be created by loaders when importing animated 3D assets.\n\t *\n\t * @param {string} [name=''] - The clip's name.\n\t * @param {number} [duration=-1] - The clip's duration in seconds. If a negative value is passed,\n\t * the duration will be calculated from the passed keyframes.\n\t * @param {Array} tracks - An array of keyframe tracks.\n\t * @param {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)} [blendMode=NormalAnimationBlendMode] - Defines how the animation\n\t * is blended/combined when two or more animations are simultaneously played.\n\t */\n\tconstructor( name = '', duration = -1, tracks = [], blendMode = NormalAnimationBlendMode ) {\n\n\t\t/**\n\t\t * The clip's name.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = name;\n\n\t\t/**\n\t\t * An array of keyframe tracks.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.tracks = tracks;\n\n\t\t/**\n\t\t * The clip's duration in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.duration = duration;\n\n\t\t/**\n\t\t * Defines how the animation is blended/combined when two or more animations\n\t\t * are simultaneously played.\n\t\t *\n\t\t * @type {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)}\n\t\t */\n\t\tthis.blendMode = blendMode;\n\n\t\t/**\n\t\t * The UUID of the animation clip.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the animation clip.\n\t\t * It should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t\t// this means it should figure out its duration by scanning the tracks\n\t\tif ( this.duration < 0 ) {\n\n\t\t\tthis.resetDuration();\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Factory method for creating an animation clip from the given JSON.\n\t *\n\t * @static\n\t * @param {Object} json - The serialized animation clip.\n\t * @return {AnimationClip} The new animation clip.\n\t */\n\tstatic parse( json ) {\n\n\t\tconst tracks = [],\n\t\t\tjsonTracks = json.tracks,\n\t\t\tframeTime = 1.0 / ( json.fps || 1.0 );\n\n\t\tfor ( let i = 0, n = jsonTracks.length; i !== n; ++ i ) {\n\n\t\t\ttracks.push( parseKeyframeTrack( jsonTracks[ i ] ).scale( frameTime ) );\n\n\t\t}\n\n\t\tconst clip = new this( json.name, json.duration, tracks, json.blendMode );\n\t\tclip.uuid = json.uuid;\n\n\t\tclip.userData = JSON.parse( json.userData || '{}' );\n\n\t\treturn clip;\n\n\t}\n\n\t/**\n\t * Serializes the given animation clip into JSON.\n\t *\n\t * @static\n\t * @param {AnimationClip} clip - The animation clip to serialize.\n\t * @return {Object} The JSON object.\n\t */\n\tstatic toJSON( clip ) {\n\n\t\tconst tracks = [],\n\t\t\tclipTracks = clip.tracks;\n\n\t\tconst json = {\n\n\t\t\t'name': clip.name,\n\t\t\t'duration': clip.duration,\n\t\t\t'tracks': tracks,\n\t\t\t'uuid': clip.uuid,\n\t\t\t'blendMode': clip.blendMode,\n\t\t\t'userData': JSON.stringify( clip.userData ),\n\n\t\t};\n\n\t\tfor ( let i = 0, n = clipTracks.length; i !== n; ++ i ) {\n\n\t\t\ttracks.push( KeyframeTrack.toJSON( clipTracks[ i ] ) );\n\n\t\t}\n\n\t\treturn json;\n\n\t}\n\n\t/**\n\t * Returns a new animation clip from the passed morph targets array of a\n\t * geometry, taking a name and the number of frames per second.\n\t *\n\t * Note: The fps parameter is required, but the animation speed can be\n\t * overridden via {@link AnimationAction#setDuration}.\n\t *\n\t * @static\n\t * @param {string} name - The name of the animation clip.\n\t * @param {Array} morphTargetSequence - A sequence of morph targets.\n\t * @param {number} fps - The Frames-Per-Second value.\n\t * @param {boolean} noLoop - Whether the clip should be no loop or not.\n\t * @return {AnimationClip} The new animation clip.\n\t */\n\tstatic CreateFromMorphTargetSequence( name, morphTargetSequence, fps, noLoop ) {\n\n\t\tconst numMorphTargets = morphTargetSequence.length;\n\t\tconst tracks = [];\n\n\t\tfor ( let i = 0; i < numMorphTargets; i ++ ) {\n\n\t\t\tlet times = [];\n\t\t\tlet values = [];\n\n\t\t\ttimes.push(\n\t\t\t\t( i + numMorphTargets - 1 ) % numMorphTargets,\n\t\t\t\ti,\n\t\t\t\t( i + 1 ) % numMorphTargets );\n\n\t\t\tvalues.push( 0, 1, 0 );\n\n\t\t\tconst order = getKeyframeOrder( times );\n\t\t\ttimes = sortedArray( times, 1, order );\n\t\t\tvalues = sortedArray( values, 1, order );\n\n\t\t\t// if there is a key at the first frame, duplicate it as the\n\t\t\t// last frame as well for perfect loop.\n\t\t\tif ( ! noLoop && times[ 0 ] === 0 ) {\n\n\t\t\t\ttimes.push( numMorphTargets );\n\t\t\t\tvalues.push( values[ 0 ] );\n\n\t\t\t}\n\n\t\t\ttracks.push(\n\t\t\t\tnew NumberKeyframeTrack(\n\t\t\t\t\t'.morphTargetInfluences[' + morphTargetSequence[ i ].name + ']',\n\t\t\t\t\ttimes, values\n\t\t\t\t).scale( 1.0 / fps ) );\n\n\t\t}\n\n\t\treturn new this( name, -1, tracks );\n\n\t}\n\n\t/**\n\t * Searches for an animation clip by name, taking as its first parameter\n\t * either an array of clips, or a mesh or geometry that contains an\n\t * array named \"animations\" property.\n\t *\n\t * @static\n\t * @param {(Array|Object3D)} objectOrClipArray - The array or object to search through.\n\t * @param {string} name - The name to search for.\n\t * @return {?AnimationClip} The found animation clip. Returns `null` if no clip has been found.\n\t */\n\tstatic findByName( objectOrClipArray, name ) {\n\n\t\tlet clipArray = objectOrClipArray;\n\n\t\tif ( ! Array.isArray( objectOrClipArray ) ) {\n\n\t\t\tconst o = objectOrClipArray;\n\t\t\tclipArray = o.geometry && o.geometry.animations || o.animations;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < clipArray.length; i ++ ) {\n\n\t\t\tif ( clipArray[ i ].name === name ) {\n\n\t\t\t\treturn clipArray[ i ];\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t/**\n\t * Returns an array of new AnimationClips created from the morph target\n\t * sequences of a geometry, trying to sort morph target names into\n\t * animation-group-based patterns like \"Walk_001, Walk_002, Run_001, Run_002...\".\n\t *\n\t * See {@link MD2Loader#parse} as an example for how the method should be used.\n\t *\n\t * @static\n\t * @param {Array} morphTargets - A sequence of morph targets.\n\t * @param {number} fps - The Frames-Per-Second value.\n\t * @param {boolean} noLoop - Whether the clip should be no loop or not.\n\t * @return {Array} An array of new animation clips.\n\t */\n\tstatic CreateClipsFromMorphTargetSequences( morphTargets, fps, noLoop ) {\n\n\t\tconst animationToMorphTargets = {};\n\n\t\t// tested with https://regex101.com/ on trick sequences\n\t\t// such flamingo_flyA_003, flamingo_run1_003, crdeath0059\n\t\tconst pattern = /^([\\w-]*?)([\\d]+)$/;\n\n\t\t// sort morph target names into animation groups based\n\t\t// patterns like Walk_001, Walk_002, Run_001, Run_002\n\t\tfor ( let i = 0, il = morphTargets.length; i < il; i ++ ) {\n\n\t\t\tconst morphTarget = morphTargets[ i ];\n\t\t\tconst parts = morphTarget.name.match( pattern );\n\n\t\t\tif ( parts && parts.length > 1 ) {\n\n\t\t\t\tconst name = parts[ 1 ];\n\n\t\t\t\tlet animationMorphTargets = animationToMorphTargets[ name ];\n\n\t\t\t\tif ( ! animationMorphTargets ) {\n\n\t\t\t\t\tanimationToMorphTargets[ name ] = animationMorphTargets = [];\n\n\t\t\t\t}\n\n\t\t\t\tanimationMorphTargets.push( morphTarget );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst clips = [];\n\n\t\tfor ( const name in animationToMorphTargets ) {\n\n\t\t\tclips.push( this.CreateFromMorphTargetSequence( name, animationToMorphTargets[ name ], fps, noLoop ) );\n\n\t\t}\n\n\t\treturn clips;\n\n\t}\n\n\t/**\n\t * Parses the `animation.hierarchy` format and returns a new animation clip.\n\t *\n\t * @static\n\t * @deprecated since r175.\n\t * @param {Object} animation - A serialized animation clip as JSON.\n\t * @param {Array} bones - An array of bones.\n\t * @return {?AnimationClip} The new animation clip.\n\t */\n\tstatic parseAnimation( animation, bones ) {\n\n\t\tconsole.warn( 'THREE.AnimationClip: parseAnimation() is deprecated and will be removed with r185' );\n\n\t\tif ( ! animation ) {\n\n\t\t\tconsole.error( 'THREE.AnimationClip: No animation in JSONLoader data.' );\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst addNonemptyTrack = function ( trackType, trackName, animationKeys, propertyName, destTracks ) {\n\n\t\t\t// only return track if there are actually keys.\n\t\t\tif ( animationKeys.length !== 0 ) {\n\n\t\t\t\tconst times = [];\n\t\t\t\tconst values = [];\n\n\t\t\t\tflattenJSON( animationKeys, times, values, propertyName );\n\n\t\t\t\t// empty keys are filtered out, so check again\n\t\t\t\tif ( times.length !== 0 ) {\n\n\t\t\t\t\tdestTracks.push( new trackType( trackName, times, values ) );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t};\n\n\t\tconst tracks = [];\n\n\t\tconst clipName = animation.name || 'default';\n\t\tconst fps = animation.fps || 30;\n\t\tconst blendMode = animation.blendMode;\n\n\t\t// automatic length determination in AnimationClip.\n\t\tlet duration = animation.length || -1;\n\n\t\tconst hierarchyTracks = animation.hierarchy || [];\n\n\t\tfor ( let h = 0; h < hierarchyTracks.length; h ++ ) {\n\n\t\t\tconst animationKeys = hierarchyTracks[ h ].keys;\n\n\t\t\t// skip empty tracks\n\t\t\tif ( ! animationKeys || animationKeys.length === 0 ) continue;\n\n\t\t\t// process morph targets\n\t\t\tif ( animationKeys[ 0 ].morphTargets ) {\n\n\t\t\t\t// figure out all morph targets used in this track\n\t\t\t\tconst morphTargetNames = {};\n\n\t\t\t\tlet k;\n\n\t\t\t\tfor ( k = 0; k < animationKeys.length; k ++ ) {\n\n\t\t\t\t\tif ( animationKeys[ k ].morphTargets ) {\n\n\t\t\t\t\t\tfor ( let m = 0; m < animationKeys[ k ].morphTargets.length; m ++ ) {\n\n\t\t\t\t\t\t\tmorphTargetNames[ animationKeys[ k ].morphTargets[ m ] ] = -1;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\t// create a track for each morph target with all zero\n\t\t\t\t// morphTargetInfluences except for the keys in which\n\t\t\t\t// the morphTarget is named.\n\t\t\t\tfor ( const morphTargetName in morphTargetNames ) {\n\n\t\t\t\t\tconst times = [];\n\t\t\t\t\tconst values = [];\n\n\t\t\t\t\tfor ( let m = 0; m !== animationKeys[ k ].morphTargets.length; ++ m ) {\n\n\t\t\t\t\t\tconst animationKey = animationKeys[ k ];\n\n\t\t\t\t\t\ttimes.push( animationKey.time );\n\t\t\t\t\t\tvalues.push( ( animationKey.morphTarget === morphTargetName ) ? 1 : 0 );\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttracks.push( new NumberKeyframeTrack( '.morphTargetInfluence[' + morphTargetName + ']', times, values ) );\n\n\t\t\t\t}\n\n\t\t\t\tduration = morphTargetNames.length * fps;\n\n\t\t\t} else {\n\n\t\t\t\t// ...assume skeletal animation\n\n\t\t\t\tconst boneName = '.bones[' + bones[ h ].name + ']';\n\n\t\t\t\taddNonemptyTrack(\n\t\t\t\t\tVectorKeyframeTrack, boneName + '.position',\n\t\t\t\t\tanimationKeys, 'pos', tracks );\n\n\t\t\t\taddNonemptyTrack(\n\t\t\t\t\tQuaternionKeyframeTrack, boneName + '.quaternion',\n\t\t\t\t\tanimationKeys, 'rot', tracks );\n\n\t\t\t\taddNonemptyTrack(\n\t\t\t\t\tVectorKeyframeTrack, boneName + '.scale',\n\t\t\t\t\tanimationKeys, 'scl', tracks );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( tracks.length === 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst clip = new this( clipName, duration, tracks, blendMode );\n\n\t\treturn clip;\n\n\t}\n\n\t/**\n\t * Sets the duration of this clip to the duration of its longest keyframe track.\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\tresetDuration() {\n\n\t\tconst tracks = this.tracks;\n\t\tlet duration = 0;\n\n\t\tfor ( let i = 0, n = tracks.length; i !== n; ++ i ) {\n\n\t\t\tconst track = this.tracks[ i ];\n\n\t\t\tduration = Math.max( duration, track.times[ track.times.length - 1 ] );\n\n\t\t}\n\n\t\tthis.duration = duration;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Trims all tracks to the clip's duration.\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\ttrim() {\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\tthis.tracks[ i ].trim( 0, this.duration );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs minimal validation on each track in the clip. Returns `true` if all\n\t * tracks are valid.\n\t *\n\t * @return {boolean} Whether the clip's keyframes are valid or not.\n\t */\n\tvalidate() {\n\n\t\tlet valid = true;\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\tvalid = valid && this.tracks[ i ].validate();\n\n\t\t}\n\n\t\treturn valid;\n\n\t}\n\n\t/**\n\t * Optimizes each track by removing equivalent sequential keys (which are\n\t * common in morph target sequences).\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\toptimize() {\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\tthis.tracks[ i ].optimize();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new animation clip with copied values from this instance.\n\t *\n\t * @return {AnimationClip} A clone of this instance.\n\t */\n\tclone() {\n\n\t\tconst tracks = [];\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\ttracks.push( this.tracks[ i ].clone() );\n\n\t\t}\n\n\t\tconst clip = new this.constructor( this.name, this.duration, tracks, this.blendMode );\n\n\t\tclip.userData = JSON.parse( JSON.stringify( this.userData ) );\n\n\t\treturn clip;\n\n\t}\n\n\t/**\n\t * Serializes this animation clip into JSON.\n\t *\n\t * @return {Object} The JSON object.\n\t */\n\ttoJSON() {\n\n\t\treturn this.constructor.toJSON( this );\n\n\t}\n\n}\n\nfunction getTrackTypeForValueTypeName( typeName ) {\n\n\tswitch ( typeName.toLowerCase() ) {\n\n\t\tcase 'scalar':\n\t\tcase 'double':\n\t\tcase 'float':\n\t\tcase 'number':\n\t\tcase 'integer':\n\n\t\t\treturn NumberKeyframeTrack;\n\n\t\tcase 'vector':\n\t\tcase 'vector2':\n\t\tcase 'vector3':\n\t\tcase 'vector4':\n\n\t\t\treturn VectorKeyframeTrack;\n\n\t\tcase 'color':\n\n\t\t\treturn ColorKeyframeTrack;\n\n\t\tcase 'quaternion':\n\n\t\t\treturn QuaternionKeyframeTrack;\n\n\t\tcase 'bool':\n\t\tcase 'boolean':\n\n\t\t\treturn BooleanKeyframeTrack;\n\n\t\tcase 'string':\n\n\t\t\treturn StringKeyframeTrack;\n\n\t}\n\n\tthrow new Error( 'THREE.KeyframeTrack: Unsupported typeName: ' + typeName );\n\n}\n\nfunction parseKeyframeTrack( json ) {\n\n\tif ( json.type === undefined ) {\n\n\t\tthrow new Error( 'THREE.KeyframeTrack: track type undefined, can not parse' );\n\n\t}\n\n\tconst trackType = getTrackTypeForValueTypeName( json.type );\n\n\tif ( json.times === undefined ) {\n\n\t\tconst times = [], values = [];\n\n\t\tflattenJSON( json.keys, times, values, 'value' );\n\n\t\tjson.times = times;\n\t\tjson.values = values;\n\n\t}\n\n\t// derived classes can define a static parse method\n\tif ( trackType.parse !== undefined ) {\n\n\t\treturn trackType.parse( json );\n\n\t} else {\n\n\t\t// by default, we assume a constructor compatible with the base\n\t\treturn new trackType( json.name, json.times, json.values, json.interpolation );\n\n\t}\n\n}\n\n/**\n * @class\n * @classdesc A simple caching system, used internally by {@link FileLoader}.\n * To enable caching across all loaders that use {@link FileLoader}, add `THREE.Cache.enabled = true.` once in your app.\n * @hideconstructor\n */\nconst Cache = {\n\n\t/**\n\t * Whether caching is enabled or not.\n\t *\n\t * @static\n\t * @type {boolean}\n\t * @default false\n\t */\n\tenabled: false,\n\n\t/**\n\t * A dictionary that holds cached files.\n\t *\n\t * @static\n\t * @type {Object}\n\t */\n\tfiles: {},\n\n\t/**\n\t * Adds a cache entry with a key to reference the file. If this key already\n\t * holds a file, it is overwritten.\n\t *\n\t * @static\n\t * @param {string} key - The key to reference the cached file.\n\t * @param {Object} file - The file to be cached.\n\t */\n\tadd: function ( key, file ) {\n\n\t\tif ( this.enabled === false ) return;\n\n\t\t// console.log( 'THREE.Cache', 'Adding key:', key );\n\n\t\tthis.files[ key ] = file;\n\n\t},\n\n\t/**\n\t * Gets the cached value for the given key.\n\t *\n\t * @static\n\t * @param {string} key - The key to reference the cached file.\n\t * @return {Object|undefined} The cached file. If the key does not exist `undefined` is returned.\n\t */\n\tget: function ( key ) {\n\n\t\tif ( this.enabled === false ) return;\n\n\t\t// console.log( 'THREE.Cache', 'Checking key:', key );\n\n\t\treturn this.files[ key ];\n\n\t},\n\n\t/**\n\t * Removes the cached file associated with the given key.\n\t *\n\t * @static\n\t * @param {string} key - The key to reference the cached file.\n\t */\n\tremove: function ( key ) {\n\n\t\tdelete this.files[ key ];\n\n\t},\n\n\t/**\n\t * Remove all values from the cache.\n\t *\n\t * @static\n\t */\n\tclear: function () {\n\n\t\tthis.files = {};\n\n\t}\n\n};\n\n/**\n * Handles and keeps track of loaded and pending data. A default global\n * instance of this class is created and used by loaders if not supplied\n * manually.\n *\n * In general that should be sufficient, however there are times when it can\n * be useful to have separate loaders - for example if you want to show\n * separate loading bars for objects and textures.\n *\n * ```js\n * const manager = new THREE.LoadingManager();\n * manager.onLoad = () => console.log( 'Loading complete!' );\n *\n * const loader1 = new OBJLoader( manager );\n * const loader2 = new ColladaLoader( manager );\n * ```\n */\nclass LoadingManager {\n\n\t/**\n\t * Constructs a new loading manager.\n\t *\n\t * @param {Function} [onLoad] - Executes when all items have been loaded.\n\t * @param {Function} [onProgress] - Executes when single items have been loaded.\n\t * @param {Function} [onError] - Executes when an error occurs.\n\t */\n\tconstructor( onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tlet isLoading = false;\n\t\tlet itemsLoaded = 0;\n\t\tlet itemsTotal = 0;\n\t\tlet urlModifier = undefined;\n\t\tconst handlers = [];\n\n\t\t// Refer to #5689 for the reason why we don't set .onStart\n\t\t// in the constructor\n\n\t\t/**\n\t\t * Executes when an item starts loading.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onStart = undefined;\n\n\t\t/**\n\t\t * Executes when all items have been loaded.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onLoad = onLoad;\n\n\t\t/**\n\t\t * Executes when single items have been loaded.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onProgress = onProgress;\n\n\t\t/**\n\t\t * Executes when an error occurs.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onError = onError;\n\n\t\t/**\n\t\t * Used for aborting ongoing requests in loaders using this manager.\n\t\t *\n\t\t * @type {AbortController}\n\t\t */\n\t\tthis.abortController = new AbortController();\n\n\t\t/**\n\t\t * This should be called by any loader using the manager when the loader\n\t\t * starts loading an item.\n\t\t *\n\t\t * @param {string} url - The URL to load.\n\t\t */\n\t\tthis.itemStart = function ( url ) {\n\n\t\t\titemsTotal ++;\n\n\t\t\tif ( isLoading === false ) {\n\n\t\t\t\tif ( scope.onStart !== undefined ) {\n\n\t\t\t\t\tscope.onStart( url, itemsLoaded, itemsTotal );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tisLoading = true;\n\n\t\t};\n\n\t\t/**\n\t\t * This should be called by any loader using the manager when the loader\n\t\t * ended loading an item.\n\t\t *\n\t\t * @param {string} url - The URL of the loaded item.\n\t\t */\n\t\tthis.itemEnd = function ( url ) {\n\n\t\t\titemsLoaded ++;\n\n\t\t\tif ( scope.onProgress !== undefined ) {\n\n\t\t\t\tscope.onProgress( url, itemsLoaded, itemsTotal );\n\n\t\t\t}\n\n\t\t\tif ( itemsLoaded === itemsTotal ) {\n\n\t\t\t\tisLoading = false;\n\n\t\t\t\tif ( scope.onLoad !== undefined ) {\n\n\t\t\t\t\tscope.onLoad();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t};\n\n\t\t/**\n\t\t * This should be called by any loader using the manager when the loader\n\t\t * encounters an error when loading an item.\n\t\t *\n\t\t * @param {string} url - The URL of the item that produces an error.\n\t\t */\n\t\tthis.itemError = function ( url ) {\n\n\t\t\tif ( scope.onError !== undefined ) {\n\n\t\t\t\tscope.onError( url );\n\n\t\t\t}\n\n\t\t};\n\n\t\t/**\n\t\t * Given a URL, uses the URL modifier callback (if any) and returns a\n\t\t * resolved URL. If no URL modifier is set, returns the original URL.\n\t\t *\n\t\t * @param {string} url - The URL to load.\n\t\t * @return {string} The resolved URL.\n\t\t */\n\t\tthis.resolveURL = function ( url ) {\n\n\t\t\tif ( urlModifier ) {\n\n\t\t\t\treturn urlModifier( url );\n\n\t\t\t}\n\n\t\t\treturn url;\n\n\t\t};\n\n\t\t/**\n\t\t * If provided, the callback will be passed each resource URL before a\n\t\t * request is sent. The callback may return the original URL, or a new URL to\n\t\t * override loading behavior. This behavior can be used to load assets from\n\t\t * .ZIP files, drag-and-drop APIs, and Data URIs.\n\t\t *\n\t\t * ```js\n\t\t * const blobs = {'fish.gltf': blob1, 'diffuse.png': blob2, 'normal.png': blob3};\n\t\t *\n\t\t * const manager = new THREE.LoadingManager();\n\t\t *\n\t\t * // Initialize loading manager with URL callback.\n\t\t * const objectURLs = [];\n\t\t * manager.setURLModifier( ( url ) => {\n\t\t *\n\t\t * \turl = URL.createObjectURL( blobs[ url ] );\n\t\t * \tobjectURLs.push( url );\n\t\t * \treturn url;\n\t\t *\n\t\t * } );\n\t\t *\n\t\t * // Load as usual, then revoke the blob URLs.\n\t\t * const loader = new GLTFLoader( manager );\n\t\t * loader.load( 'fish.gltf', (gltf) => {\n\t\t *\n\t\t * \tscene.add( gltf.scene );\n\t\t * \tobjectURLs.forEach( ( url ) => URL.revokeObjectURL( url ) );\n\t\t *\n\t\t * } );\n\t\t * ```\n\t\t *\n\t\t * @param {function(string):string} transform - URL modifier callback. Called with an URL and must return a resolved URL.\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.setURLModifier = function ( transform ) {\n\n\t\t\turlModifier = transform;\n\n\t\t\treturn this;\n\n\t\t};\n\n\t\t/**\n\t\t * Registers a loader with the given regular expression. Can be used to\n\t\t * define what loader should be used in order to load specific files. A\n\t\t * typical use case is to overwrite the default loader for textures.\n\t\t *\n\t\t * ```js\n\t\t * // add handler for TGA textures\n\t\t * manager.addHandler( /\\.tga$/i, new TGALoader() );\n\t\t * ```\n\t\t *\n\t\t * @param {string} regex - A regular expression.\n\t\t * @param {Loader} loader - A loader that should handle matched cases.\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.addHandler = function ( regex, loader ) {\n\n\t\t\thandlers.push( regex, loader );\n\n\t\t\treturn this;\n\n\t\t};\n\n\t\t/**\n\t\t * Removes the loader for the given regular expression.\n\t\t *\n\t\t * @param {string} regex - A regular expression.\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.removeHandler = function ( regex ) {\n\n\t\t\tconst index = handlers.indexOf( regex );\n\n\t\t\tif ( index !== -1 ) {\n\n\t\t\t\thandlers.splice( index, 2 );\n\n\t\t\t}\n\n\t\t\treturn this;\n\n\t\t};\n\n\t\t/**\n\t\t * Can be used to retrieve the registered loader for the given file path.\n\t\t *\n\t\t * @param {string} file - The file path.\n\t\t * @return {?Loader} The registered loader. Returns `null` if no loader was found.\n\t\t */\n\t\tthis.getHandler = function ( file ) {\n\n\t\t\tfor ( let i = 0, l = handlers.length; i < l; i += 2 ) {\n\n\t\t\t\tconst regex = handlers[ i ];\n\t\t\t\tconst loader = handlers[ i + 1 ];\n\n\t\t\t\tif ( regex.global ) regex.lastIndex = 0; // see #17920\n\n\t\t\t\tif ( regex.test( file ) ) {\n\n\t\t\t\t\treturn loader;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn null;\n\n\t\t};\n\n\t\t/**\n\t\t * Can be used to abort ongoing loading requests in loaders using this manager.\n\t\t * The abort only works if the loaders implement {@link Loader#abort} and `AbortSignal.any()`\n\t\t * is supported in the browser.\n\t\t *\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.abort = function () {\n\n\t\t\tthis.abortController.abort();\n\t\t\tthis.abortController = new AbortController();\n\n\t\t\treturn this;\n\n\t\t};\n\n\t}\n\n}\n\n/**\n * The global default loading manager.\n *\n * @constant\n * @type {LoadingManager}\n */\nconst DefaultLoadingManager = /*@__PURE__*/ new LoadingManager();\n\n/**\n * Abstract base class for loaders.\n *\n * @abstract\n */\nclass Loader {\n\n\t/**\n\t * Constructs a new loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\t/**\n\t\t * The loading manager.\n\t\t *\n\t\t * @type {LoadingManager}\n\t\t * @default DefaultLoadingManager\n\t\t */\n\t\tthis.manager = ( manager !== undefined ) ? manager : DefaultLoadingManager;\n\n\t\t/**\n\t\t * The crossOrigin string to implement CORS for loading the url from a\n\t\t * different domain that allows CORS.\n\t\t *\n\t\t * @type {string}\n\t\t * @default 'anonymous'\n\t\t */\n\t\tthis.crossOrigin = 'anonymous';\n\n\t\t/**\n\t\t * Whether the XMLHttpRequest uses credentials.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.withCredentials = false;\n\n\t\t/**\n\t\t * The base path from which the asset will be loaded.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.path = '';\n\n\t\t/**\n\t\t * The base path from which additional resources like textures will be loaded.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.resourcePath = '';\n\n\t\t/**\n\t\t * The [request header]{@link https://developer.mozilla.org/en-US/docs/Glossary/Request_header}\n\t\t * used in HTTP request.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.requestHeader = {};\n\n\t}\n\n\t/**\n\t * This method needs to be implemented by all concrete loaders. It holds the\n\t * logic for loading assets from the backend.\n\t *\n\t * @abstract\n\t * @param {string} url - The path/URL of the file to be loaded.\n\t * @param {Function} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} [onProgress] - Executed while the loading is in progress.\n\t * @param {onErrorCallback} [onError] - Executed when errors occur.\n\t */\n\tload( /* url, onLoad, onProgress, onError */ ) {}\n\n\t/**\n\t * A async version of {@link Loader#load}.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded.\n\t * @param {onProgressCallback} [onProgress] - Executed while the loading is in progress.\n\t * @return {Promise} A Promise that resolves when the asset has been loaded.\n\t */\n\tloadAsync( url, onProgress ) {\n\n\t\tconst scope = this;\n\n\t\treturn new Promise( function ( resolve, reject ) {\n\n\t\t\tscope.load( url, resolve, onProgress, reject );\n\n\t\t} );\n\n\t}\n\n\t/**\n\t * This method needs to be implemented by all concrete loaders. It holds the\n\t * logic for parsing the asset into three.js entities.\n\t *\n\t * @abstract\n\t * @param {any} data - The data to parse.\n\t */\n\tparse( /* data */ ) {}\n\n\t/**\n\t * Sets the `crossOrigin` String to implement CORS for loading the URL\n\t * from a different domain that allows CORS.\n\t *\n\t * @param {string} crossOrigin - The `crossOrigin` value.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetCrossOrigin( crossOrigin ) {\n\n\t\tthis.crossOrigin = crossOrigin;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Whether the XMLHttpRequest uses credentials such as cookies, authorization\n\t * headers or TLS client certificates, see [XMLHttpRequest.withCredentials]{@link https://developer.mozilla.org/en-US/docs/Web/API/XMLHttpRequest/withCredentials}.\n\t *\n\t * Note: This setting has no effect if you are loading files locally or from the same domain.\n\t *\n\t * @param {boolean} value - The `withCredentials` value.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetWithCredentials( value ) {\n\n\t\tthis.withCredentials = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the base path for the asset.\n\t *\n\t * @param {string} path - The base path.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetPath( path ) {\n\n\t\tthis.path = path;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the base path for dependent resources like textures.\n\t *\n\t * @param {string} resourcePath - The resource path.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetResourcePath( resourcePath ) {\n\n\t\tthis.resourcePath = resourcePath;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given request header.\n\t *\n\t * @param {Object} requestHeader - A [request header]{@link https://developer.mozilla.org/en-US/docs/Glossary/Request_header}\n\t * for configuring the HTTP request.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetRequestHeader( requestHeader ) {\n\n\t\tthis.requestHeader = requestHeader;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This method can be implemented in loaders for aborting ongoing requests.\n\t *\n\t * @abstract\n\t * @return {Loader} A reference to this instance.\n\t */\n\tabort() {\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Callback for onProgress in loaders.\n *\n * @callback onProgressCallback\n * @param {ProgressEvent} event - An instance of `ProgressEvent` that represents the current loading status.\n */\n\n/**\n * Callback for onError in loaders.\n *\n * @callback onErrorCallback\n * @param {Error} error - The error which occurred during the loading process.\n */\n\n/**\n * The default material name that is used by loaders\n * when creating materials for loaded 3D objects.\n *\n * Note: Not all loaders might honor this setting.\n *\n * @static\n * @type {string}\n * @default '__DEFAULT'\n */\nLoader.DEFAULT_MATERIAL_NAME = '__DEFAULT';\n\nconst loading = {};\n\nclass HttpError extends Error {\n\n\tconstructor( message, response ) {\n\n\t\tsuper( message );\n\t\tthis.response = response;\n\n\t}\n\n}\n\n/**\n * A low level class for loading resources with the Fetch API, used internally by\n * most loaders. It can also be used directly to load any file type that does\n * not have a loader.\n *\n * This loader supports caching. If you want to use it, add `THREE.Cache.enabled = true;`\n * once to your application.\n *\n * ```js\n * const loader = new THREE.FileLoader();\n * const data = await loader.loadAsync( 'example.txt' );\n * ```\n *\n * @augments Loader\n */\nclass FileLoader extends Loader {\n\n\t/**\n\t * Constructs a new file loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t\t/**\n\t\t * The expected mime type. Valid values can be found\n\t\t * [here]{@link hhttps://developer.mozilla.org/en-US/docs/Web/API/DOMParser/parseFromString#mimetype}\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.mimeType = '';\n\n\t\t/**\n\t\t * The expected response type.\n\t\t *\n\t\t * @type {('arraybuffer'|'blob'|'document'|'json'|'')}\n\t\t * @default ''\n\t\t */\n\t\tthis.responseType = '';\n\n\t\t/**\n\t\t * Used for aborting requests.\n\t\t *\n\t\t * @private\n\t\t * @type {AbortController}\n\t\t */\n\t\tthis._abortController = new AbortController();\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded response to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(any)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} [onProgress] - Executed while the loading is in progress.\n\t * @param {onErrorCallback} [onError] - Executed when errors occur.\n\t * @return {any|undefined} The cached resource if available.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tif ( url === undefined ) url = '';\n\n\t\tif ( this.path !== undefined ) url = this.path + url;\n\n\t\turl = this.manager.resolveURL( url );\n\n\t\tconst cached = Cache.get( `file:${url}` );\n\n\t\tif ( cached !== undefined ) {\n\n\t\t\tthis.manager.itemStart( url );\n\n\t\t\tsetTimeout( () => {\n\n\t\t\t\tif ( onLoad ) onLoad( cached );\n\n\t\t\t\tthis.manager.itemEnd( url );\n\n\t\t\t}, 0 );\n\n\t\t\treturn cached;\n\n\t\t}\n\n\t\t// Check if request is duplicate\n\n\t\tif ( loading[ url ] !== undefined ) {\n\n\t\t\tloading[ url ].push( {\n\n\t\t\t\tonLoad: onLoad,\n\t\t\t\tonProgress: onProgress,\n\t\t\t\tonError: onError\n\n\t\t\t} );\n\n\t\t\treturn;\n\n\t\t}\n\n\t\t// Initialise array for duplicate requests\n\t\tloading[ url ] = [];\n\n\t\tloading[ url ].push( {\n\t\t\tonLoad: onLoad,\n\t\t\tonProgress: onProgress,\n\t\t\tonError: onError,\n\t\t} );\n\n\t\t// create request\n\t\tconst req = new Request( url, {\n\t\t\theaders: new Headers( this.requestHeader ),\n\t\t\tcredentials: this.withCredentials ? 'include' : 'same-origin',\n\t\t\tsignal: ( typeof AbortSignal.any === 'function' ) ? AbortSignal.any( [ this._abortController.signal, this.manager.abortController.signal ] ) : this._abortController.signal\n\t\t} );\n\n\t\t// record states ( avoid data race )\n\t\tconst mimeType = this.mimeType;\n\t\tconst responseType = this.responseType;\n\n\t\t// start the fetch\n\t\tfetch( req )\n\t\t\t.then( response => {\n\n\t\t\t\tif ( response.status === 200 || response.status === 0 ) {\n\n\t\t\t\t\t// Some browsers return HTTP Status 0 when using non-http protocol\n\t\t\t\t\t// e.g. 'file://' or 'data://'. Handle as success.\n\n\t\t\t\t\tif ( response.status === 0 ) {\n\n\t\t\t\t\t\tconsole.warn( 'THREE.FileLoader: HTTP Status 0 received.' );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// Workaround: Checking if response.body === undefined for Alipay browser #23548\n\n\t\t\t\t\tif ( typeof ReadableStream === 'undefined' || response.body === undefined || response.body.getReader === undefined ) {\n\n\t\t\t\t\t\treturn response;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tconst callbacks = loading[ url ];\n\t\t\t\t\tconst reader = response.body.getReader();\n\n\t\t\t\t\t// Nginx needs X-File-Size check\n\t\t\t\t\t// https://serverfault.com/questions/482875/why-does-nginx-remove-content-length-header-for-chunked-content\n\t\t\t\t\tconst contentLength = response.headers.get( 'X-File-Size' ) || response.headers.get( 'Content-Length' );\n\t\t\t\t\tconst total = contentLength ? parseInt( contentLength ) : 0;\n\t\t\t\t\tconst lengthComputable = total !== 0;\n\t\t\t\t\tlet loaded = 0;\n\n\t\t\t\t\t// periodically read data into the new stream tracking while download progress\n\t\t\t\t\tconst stream = new ReadableStream( {\n\t\t\t\t\t\tstart( controller ) {\n\n\t\t\t\t\t\t\treadData();\n\n\t\t\t\t\t\t\tfunction readData() {\n\n\t\t\t\t\t\t\t\treader.read().then( ( { done, value } ) => {\n\n\t\t\t\t\t\t\t\t\tif ( done ) {\n\n\t\t\t\t\t\t\t\t\t\tcontroller.close();\n\n\t\t\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\t\t\tloaded += value.byteLength;\n\n\t\t\t\t\t\t\t\t\t\tconst event = new ProgressEvent( 'progress', { lengthComputable, loaded, total } );\n\t\t\t\t\t\t\t\t\t\tfor ( let i = 0, il = callbacks.length; i < il; i ++ ) {\n\n\t\t\t\t\t\t\t\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\t\t\t\t\t\t\t\tif ( callback.onProgress ) callback.onProgress( event );\n\n\t\t\t\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\t\t\t\tcontroller.enqueue( value );\n\t\t\t\t\t\t\t\t\t\treadData();\n\n\t\t\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\t\t}, ( e ) => {\n\n\t\t\t\t\t\t\t\t\tcontroller.error( e );\n\n\t\t\t\t\t\t\t\t} );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t} );\n\n\t\t\t\t\treturn new Response( stream );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthrow new HttpError( `fetch for \"${response.url}\" responded with ${response.status}: ${response.statusText}`, response );\n\n\t\t\t\t}\n\n\t\t\t} )\n\t\t\t.then( response => {\n\n\t\t\t\tswitch ( responseType ) {\n\n\t\t\t\t\tcase 'arraybuffer':\n\n\t\t\t\t\t\treturn response.arrayBuffer();\n\n\t\t\t\t\tcase 'blob':\n\n\t\t\t\t\t\treturn response.blob();\n\n\t\t\t\t\tcase 'document':\n\n\t\t\t\t\t\treturn response.text()\n\t\t\t\t\t\t\t.then( text => {\n\n\t\t\t\t\t\t\t\tconst parser = new DOMParser();\n\t\t\t\t\t\t\t\treturn parser.parseFromString( text, mimeType );\n\n\t\t\t\t\t\t\t} );\n\n\t\t\t\t\tcase 'json':\n\n\t\t\t\t\t\treturn response.json();\n\n\t\t\t\t\tdefault:\n\n\t\t\t\t\t\tif ( mimeType === '' ) {\n\n\t\t\t\t\t\t\treturn response.text();\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t// sniff encoding\n\t\t\t\t\t\t\tconst re = /charset=\"?([^;\"\\s]*)\"?/i;\n\t\t\t\t\t\t\tconst exec = re.exec( mimeType );\n\t\t\t\t\t\t\tconst label = exec && exec[ 1 ] ? exec[ 1 ].toLowerCase() : undefined;\n\t\t\t\t\t\t\tconst decoder = new TextDecoder( label );\n\t\t\t\t\t\t\treturn response.arrayBuffer().then( ab => decoder.decode( ab ) );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} )\n\t\t\t.then( data => {\n\n\t\t\t\t// Add to cache only on HTTP success, so that we do not cache\n\t\t\t\t// error response bodies as proper responses to requests.\n\t\t\t\tCache.add( `file:${url}`, data );\n\n\t\t\t\tconst callbacks = loading[ url ];\n\t\t\t\tdelete loading[ url ];\n\n\t\t\t\tfor ( let i = 0, il = callbacks.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\t\tif ( callback.onLoad ) callback.onLoad( data );\n\n\t\t\t\t}\n\n\t\t\t} )\n\t\t\t.catch( err => {\n\n\t\t\t\t// Abort errors and other errors are handled the same\n\n\t\t\t\tconst callbacks = loading[ url ];\n\n\t\t\t\tif ( callbacks === undefined ) {\n\n\t\t\t\t\t// When onLoad was called and url was deleted in `loading`\n\t\t\t\t\tthis.manager.itemError( url );\n\t\t\t\t\tthrow err;\n\n\t\t\t\t}\n\n\t\t\t\tdelete loading[ url ];\n\n\t\t\t\tfor ( let i = 0, il = callbacks.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\t\tif ( callback.onError ) callback.onError( err );\n\n\t\t\t\t}\n\n\t\t\t\tthis.manager.itemError( url );\n\n\t\t\t} )\n\t\t\t.finally( () => {\n\n\t\t\t\tthis.manager.itemEnd( url );\n\n\t\t\t} );\n\n\t\tthis.manager.itemStart( url );\n\n\t}\n\n\t/**\n\t * Sets the expected response type.\n\t *\n\t * @param {('arraybuffer'|'blob'|'document'|'json'|'')} value - The response type.\n\t * @return {FileLoader} A reference to this file loader.\n\t */\n\tsetResponseType( value ) {\n\n\t\tthis.responseType = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the expected mime type of the loaded file.\n\t *\n\t * @param {string} value - The mime type.\n\t * @return {FileLoader} A reference to this file loader.\n\t */\n\tsetMimeType( value ) {\n\n\t\tthis.mimeType = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Aborts ongoing fetch requests.\n\t *\n\t * @return {FileLoader} A reference to this instance.\n\t */\n\tabort() {\n\n\t\tthis._abortController.abort();\n\t\tthis._abortController = new AbortController();\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Class for loading animation clips in the JSON format. The files are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.AnimationLoader();\n * const animations = await loader.loadAsync( 'animations/animation.js' );\n * ```\n *\n * @augments Loader\n */\nclass AnimationLoader extends Loader {\n\n\t/**\n\t * Constructs a new animation loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded animations as an array\n\t * holding instances of {@link AnimationClip} to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Array)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\ttry {\n\n\t\t\t\tonLoad( scope.parse( JSON.parse( text ) ) );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\tif ( onError ) {\n\n\t\t\t\t\tonError( e );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( e );\n\n\t\t\t\t}\n\n\t\t\t\tscope.manager.itemError( url );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Parses the given JSON object and returns an array of animation clips.\n\t *\n\t * @param {Object} json - The serialized animation clips.\n\t * @return {Array} The parsed animation clips.\n\t */\n\tparse( json ) {\n\n\t\tconst animations = [];\n\n\t\tfor ( let i = 0; i < json.length; i ++ ) {\n\n\t\t\tconst clip = AnimationClip.parse( json[ i ] );\n\n\t\t\tanimations.push( clip );\n\n\t\t}\n\n\t\treturn animations;\n\n\t}\n\n}\n\n/**\n * Abstract base class for loading compressed texture formats S3TC, ASTC or ETC.\n * Textures are internally loaded via {@link FileLoader}.\n *\n * Derived classes have to implement the `parse()` method which holds the parsing\n * for the respective format.\n *\n * @abstract\n * @augments Loader\n */\nclass CompressedTextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new compressed texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded compressed texture\n\t * to the `onLoad()` callback. The method also returns a new texture object which can\n\t * directly be used for material creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(CompressedTexture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {CompressedTexture} The compressed texture.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst images = [];\n\n\t\tconst texture = new CompressedTexture();\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setResponseType( 'arraybuffer' );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\n\t\tlet loaded = 0;\n\n\t\tfunction loadTexture( i ) {\n\n\t\t\tloader.load( url[ i ], function ( buffer ) {\n\n\t\t\t\tconst texDatas = scope.parse( buffer, true );\n\n\t\t\t\timages[ i ] = {\n\t\t\t\t\twidth: texDatas.width,\n\t\t\t\t\theight: texDatas.height,\n\t\t\t\t\tformat: texDatas.format,\n\t\t\t\t\tmipmaps: texDatas.mipmaps\n\t\t\t\t};\n\n\t\t\t\tloaded += 1;\n\n\t\t\t\tif ( loaded === 6 ) {\n\n\t\t\t\t\tif ( texDatas.mipmapCount === 1 ) texture.minFilter = LinearFilter;\n\n\t\t\t\t\ttexture.image = images;\n\t\t\t\t\ttexture.format = texDatas.format;\n\t\t\t\t\ttexture.needsUpdate = true;\n\n\t\t\t\t\tif ( onLoad ) onLoad( texture );\n\n\t\t\t\t}\n\n\t\t\t}, onProgress, onError );\n\n\t\t}\n\n\t\tif ( Array.isArray( url ) ) {\n\n\t\t\tfor ( let i = 0, il = url.length; i < il; ++ i ) {\n\n\t\t\t\tloadTexture( i );\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\t// compressed cubemap texture stored in a single DDS file\n\n\t\t\tloader.load( url, function ( buffer ) {\n\n\t\t\t\tconst texDatas = scope.parse( buffer, true );\n\n\t\t\t\tif ( texDatas.isCubemap ) {\n\n\t\t\t\t\tconst faces = texDatas.mipmaps.length / texDatas.mipmapCount;\n\n\t\t\t\t\tfor ( let f = 0; f < faces; f ++ ) {\n\n\t\t\t\t\t\timages[ f ] = { mipmaps: [] };\n\n\t\t\t\t\t\tfor ( let i = 0; i < texDatas.mipmapCount; i ++ ) {\n\n\t\t\t\t\t\t\timages[ f ].mipmaps.push( texDatas.mipmaps[ f * texDatas.mipmapCount + i ] );\n\t\t\t\t\t\t\timages[ f ].format = texDatas.format;\n\t\t\t\t\t\t\timages[ f ].width = texDatas.width;\n\t\t\t\t\t\t\timages[ f ].height = texDatas.height;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttexture.image = images;\n\n\t\t\t\t} else {\n\n\t\t\t\t\ttexture.image.width = texDatas.width;\n\t\t\t\t\ttexture.image.height = texDatas.height;\n\t\t\t\t\ttexture.mipmaps = texDatas.mipmaps;\n\n\t\t\t\t}\n\n\t\t\t\tif ( texDatas.mipmapCount === 1 ) {\n\n\t\t\t\t\ttexture.minFilter = LinearFilter;\n\n\t\t\t\t}\n\n\t\t\t\ttexture.format = texDatas.format;\n\t\t\t\ttexture.needsUpdate = true;\n\n\t\t\t\tif ( onLoad ) onLoad( texture );\n\n\t\t\t}, onProgress, onError );\n\n\t\t}\n\n\t\treturn texture;\n\n\t}\n\n}\n\nconst _loading = new WeakMap();\n\n/**\n * A loader for loading images. The class loads images with the HTML `Image` API.\n *\n * ```js\n * const loader = new THREE.ImageLoader();\n * const image = await loader.loadAsync( 'image.png' );\n * ```\n * Please note that `ImageLoader` has dropped support for progress\n * events in `r84`. For an `ImageLoader` that supports progress events, see\n * [this thread]{@link https://github.com/mrdoob/three.js/issues/10439#issuecomment-275785639}.\n *\n * @augments Loader\n */\nclass ImageLoader extends Loader {\n\n\t/**\n\t * Constructs a new image loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded image\n\t * to the `onLoad()` callback. The method also returns a new `Image` object which can\n\t * directly be used for texture creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Image)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {Image} The image.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tif ( this.path !== undefined ) url = this.path + url;\n\n\t\turl = this.manager.resolveURL( url );\n\n\t\tconst scope = this;\n\n\t\tconst cached = Cache.get( `image:${url}` );\n\n\t\tif ( cached !== undefined ) {\n\n\t\t\tif ( cached.complete === true ) {\n\n\t\t\t\tscope.manager.itemStart( url );\n\n\t\t\t\tsetTimeout( function () {\n\n\t\t\t\t\tif ( onLoad ) onLoad( cached );\n\n\t\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t\t}, 0 );\n\n\t\t\t} else {\n\n\t\t\t\tlet arr = _loading.get( cached );\n\n\t\t\t\tif ( arr === undefined ) {\n\n\t\t\t\t\tarr = [];\n\t\t\t\t\t_loading.set( cached, arr );\n\n\t\t\t\t}\n\n\t\t\t\tarr.push( { onLoad, onError } );\n\n\t\t\t}\n\n\t\t\treturn cached;\n\n\t\t}\n\n\t\tconst image = createElementNS( 'img' );\n\n\t\tfunction onImageLoad() {\n\n\t\t\tremoveEventListeners();\n\n\t\t\tif ( onLoad ) onLoad( this );\n\n\t\t\t//\n\n\t\t\tconst callbacks = _loading.get( this ) || [];\n\n\t\t\tfor ( let i = 0; i < callbacks.length; i ++ ) {\n\n\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\tif ( callback.onLoad ) callback.onLoad( this );\n\n\t\t\t}\n\n\t\t\t_loading.delete( this );\n\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t}\n\n\t\tfunction onImageError( event ) {\n\n\t\t\tremoveEventListeners();\n\n\t\t\tif ( onError ) onError( event );\n\n\t\t\tCache.remove( `image:${url}` );\n\n\t\t\t//\n\n\t\t\tconst callbacks = _loading.get( this ) || [];\n\n\t\t\tfor ( let i = 0; i < callbacks.length; i ++ ) {\n\n\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\tif ( callback.onError ) callback.onError( event );\n\n\t\t\t}\n\n\t\t\t_loading.delete( this );\n\n\n\t\t\tscope.manager.itemError( url );\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t}\n\n\t\tfunction removeEventListeners() {\n\n\t\t\timage.removeEventListener( 'load', onImageLoad, false );\n\t\t\timage.removeEventListener( 'error', onImageError, false );\n\n\t\t}\n\n\t\timage.addEventListener( 'load', onImageLoad, false );\n\t\timage.addEventListener( 'error', onImageError, false );\n\n\t\tif ( url.slice( 0, 5 ) !== 'data:' ) {\n\n\t\t\tif ( this.crossOrigin !== undefined ) image.crossOrigin = this.crossOrigin;\n\n\t\t}\n\n\t\tCache.add( `image:${url}`, image );\n\t\tscope.manager.itemStart( url );\n\n\t\timage.src = url;\n\n\t\treturn image;\n\n\t}\n\n}\n\n/**\n * Class for loading cube textures. Images are internally loaded via {@link ImageLoader}.\n *\n * The loader returns an instance of {@link CubeTexture} and expects the cube map to\n * be defined as six separate images representing the sides of a cube. Other cube map definitions\n * like vertical and horizontal cross, column and row layouts are not supported.\n *\n * Note that, by convention, cube maps are specified in a coordinate system\n * in which positive-x is to the right when looking up the positive-z axis --\n * in other words, using a left-handed coordinate system. Since three.js uses\n * a right-handed coordinate system, environment maps used in three.js will\n * have pos-x and neg-x swapped.\n *\n * The loaded cube texture is in sRGB color space. Meaning {@link Texture#colorSpace}\n * is set to `SRGBColorSpace` by default.\n *\n * ```js\n * const loader = new THREE.CubeTextureLoader().setPath( 'textures/cubeMaps/' );\n * const cubeTexture = await loader.loadAsync( [\n * \t'px.png', 'nx.png', 'py.png', 'ny.png', 'pz.png', 'nz.png'\n * ] );\n * scene.background = cubeTexture;\n * ```\n *\n * @augments Loader\n */\nclass CubeTextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new cube texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the fully loaded cube texture\n\t * to the `onLoad()` callback. The method also returns a new cube texture object which can\n\t * directly be used for material creation. If you do it this way, the cube texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {Array} urls - Array of 6 URLs to images, one for each side of the\n\t * cube texture. The urls should be specified in the following order: pos-x,\n\t * neg-x, pos-y, neg-y, pos-z, neg-z. An array of data URIs are allowed as well.\n\t * @param {function(CubeTexture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {CubeTexture} The cube texture.\n\t */\n\tload( urls, onLoad, onProgress, onError ) {\n\n\t\tconst texture = new CubeTexture();\n\t\ttexture.colorSpace = SRGBColorSpace;\n\n\t\tconst loader = new ImageLoader( this.manager );\n\t\tloader.setCrossOrigin( this.crossOrigin );\n\t\tloader.setPath( this.path );\n\n\t\tlet loaded = 0;\n\n\t\tfunction loadTexture( i ) {\n\n\t\t\tloader.load( urls[ i ], function ( image ) {\n\n\t\t\t\ttexture.images[ i ] = image;\n\n\t\t\t\tloaded ++;\n\n\t\t\t\tif ( loaded === 6 ) {\n\n\t\t\t\t\ttexture.needsUpdate = true;\n\n\t\t\t\t\tif ( onLoad ) onLoad( texture );\n\n\t\t\t\t}\n\n\t\t\t}, undefined, onError );\n\n\t\t}\n\n\t\tfor ( let i = 0; i < urls.length; ++ i ) {\n\n\t\t\tloadTexture( i );\n\n\t\t}\n\n\t\treturn texture;\n\n\t}\n\n}\n\n/**\n * Abstract base class for loading binary texture formats RGBE, EXR or TGA.\n * Textures are internally loaded via {@link FileLoader}.\n *\n * Derived classes have to implement the `parse()` method which holds the parsing\n * for the respective format.\n *\n * @abstract\n * @augments Loader\n */\nclass DataTextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new data texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded data texture\n\t * to the `onLoad()` callback. The method also returns a new texture object which can\n\t * directly be used for material creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(DataTexture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {DataTexture} The data texture.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst texture = new DataTexture();\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setResponseType( 'arraybuffer' );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setPath( this.path );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\t\tloader.load( url, function ( buffer ) {\n\n\t\t\tlet texData;\n\n\t\t\ttry {\n\n\t\t\t\ttexData = scope.parse( buffer );\n\n\t\t\t} catch ( error ) {\n\n\t\t\t\tif ( onError !== undefined ) {\n\n\t\t\t\t\tonError( error );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( error );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( texData.image !== undefined ) {\n\n\t\t\t\ttexture.image = texData.image;\n\n\t\t\t} else if ( texData.data !== undefined ) {\n\n\t\t\t\ttexture.image.width = texData.width;\n\t\t\t\ttexture.image.height = texData.height;\n\t\t\t\ttexture.image.data = texData.data;\n\n\t\t\t}\n\n\t\t\ttexture.wrapS = texData.wrapS !== undefined ? texData.wrapS : ClampToEdgeWrapping;\n\t\t\ttexture.wrapT = texData.wrapT !== undefined ? texData.wrapT : ClampToEdgeWrapping;\n\n\t\t\ttexture.magFilter = texData.magFilter !== undefined ? texData.magFilter : LinearFilter;\n\t\t\ttexture.minFilter = texData.minFilter !== undefined ? texData.minFilter : LinearFilter;\n\n\t\t\ttexture.anisotropy = texData.anisotropy !== undefined ? texData.anisotropy : 1;\n\n\t\t\tif ( texData.colorSpace !== undefined ) {\n\n\t\t\t\ttexture.colorSpace = texData.colorSpace;\n\n\t\t\t}\n\n\t\t\tif ( texData.flipY !== undefined ) {\n\n\t\t\t\ttexture.flipY = texData.flipY;\n\n\t\t\t}\n\n\t\t\tif ( texData.format !== undefined ) {\n\n\t\t\t\ttexture.format = texData.format;\n\n\t\t\t}\n\n\t\t\tif ( texData.type !== undefined ) {\n\n\t\t\t\ttexture.type = texData.type;\n\n\t\t\t}\n\n\t\t\tif ( texData.mipmaps !== undefined ) {\n\n\t\t\t\ttexture.mipmaps = texData.mipmaps;\n\t\t\t\ttexture.minFilter = LinearMipmapLinearFilter; // presumably...\n\n\t\t\t}\n\n\t\t\tif ( texData.mipmapCount === 1 ) {\n\n\t\t\t\ttexture.minFilter = LinearFilter;\n\n\t\t\t}\n\n\t\t\tif ( texData.generateMipmaps !== undefined ) {\n\n\t\t\t\ttexture.generateMipmaps = texData.generateMipmaps;\n\n\t\t\t}\n\n\t\t\ttexture.needsUpdate = true;\n\n\t\t\tif ( onLoad ) onLoad( texture, texData );\n\n\t\t}, onProgress, onError );\n\n\n\t\treturn texture;\n\n\t}\n\n}\n\n/**\n * Class for loading textures. Images are internally\n * loaded via {@link ImageLoader}.\n *\n * ```js\n * const loader = new THREE.TextureLoader();\n * const texture = await loader.loadAsync( 'textures/land_ocean_ice_cloud_2048.jpg' );\n *\n * const material = new THREE.MeshBasicMaterial( { map:texture } );\n * ```\n * Please note that `TextureLoader` has dropped support for progress\n * events in `r84`. For a `TextureLoader` that supports progress events, see\n * [this thread]{@link https://github.com/mrdoob/three.js/issues/10439#issuecomment-293260145}.\n *\n * @augments Loader\n */\nclass TextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the fully loaded texture\n\t * to the `onLoad()` callback. The method also returns a new texture object which can\n\t * directly be used for material creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Texture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {Texture} The texture.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst texture = new Texture();\n\n\t\tconst loader = new ImageLoader( this.manager );\n\t\tloader.setCrossOrigin( this.crossOrigin );\n\t\tloader.setPath( this.path );\n\n\t\tloader.load( url, function ( image ) {\n\n\t\t\ttexture.image = image;\n\t\t\ttexture.needsUpdate = true;\n\n\t\t\tif ( onLoad !== undefined ) {\n\n\t\t\t\tonLoad( texture );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t\treturn texture;\n\n\t}\n\n}\n\n/**\n * Abstract base class for lights - all other light types inherit the\n * properties and methods described here.\n *\n * @abstract\n * @augments Object3D\n */\nclass Light extends Object3D {\n\n\t/**\n\t * Constructs a new light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( color, intensity = 1 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLight = true;\n\n\t\tthis.type = 'Light';\n\n\t\t/**\n\t\t * The light's color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color( color );\n\n\t\t/**\n\t\t * The light's intensity.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.intensity = intensity;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\t// Empty here in base class; some subclasses override.\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.color.copy( source.color );\n\t\tthis.intensity = source.intensity;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.color = this.color.getHex();\n\t\tdata.object.intensity = this.intensity;\n\n\t\tif ( this.groundColor !== undefined ) data.object.groundColor = this.groundColor.getHex();\n\n\t\tif ( this.distance !== undefined ) data.object.distance = this.distance;\n\t\tif ( this.angle !== undefined ) data.object.angle = this.angle;\n\t\tif ( this.decay !== undefined ) data.object.decay = this.decay;\n\t\tif ( this.penumbra !== undefined ) data.object.penumbra = this.penumbra;\n\n\t\tif ( this.shadow !== undefined ) data.object.shadow = this.shadow.toJSON();\n\t\tif ( this.target !== undefined ) data.object.target = this.target.uuid;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * A light source positioned directly above the scene, with color fading from\n * the sky color to the ground color.\n *\n * This light cannot be used to cast shadows.\n *\n * ```js\n * const light = new THREE.HemisphereLight( 0xffffbb, 0x080820, 1 );\n * scene.add( light );\n * ```\n *\n * @augments Light\n */\nclass HemisphereLight extends Light {\n\n\t/**\n\t * Constructs a new hemisphere light.\n\t *\n\t * @param {(number|Color|string)} [skyColor=0xffffff] - The light's sky color.\n\t * @param {(number|Color|string)} [groundColor=0xffffff] - The light's ground color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( skyColor, groundColor, intensity ) {\n\n\t\tsuper( skyColor, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isHemisphereLight = true;\n\n\t\tthis.type = 'HemisphereLight';\n\n\t\tthis.position.copy( Object3D.DEFAULT_UP );\n\t\tthis.updateMatrix();\n\n\t\t/**\n\t\t * The light's ground color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.groundColor = new Color( groundColor );\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.groundColor.copy( source.groundColor );\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _projScreenMatrix$1 = /*@__PURE__*/ new Matrix4();\nconst _lightPositionWorld$1 = /*@__PURE__*/ new Vector3();\nconst _lookTarget$1 = /*@__PURE__*/ new Vector3();\n\n/**\n * Abstract base class for light shadow classes. These classes\n * represent the shadow configuration for different light types.\n *\n * @abstract\n */\nclass LightShadow {\n\n\t/**\n\t * Constructs a new light shadow.\n\t *\n\t * @param {Camera} camera - The light's view of the world.\n\t */\n\tconstructor( camera ) {\n\n\t\t/**\n\t\t * The light's view of the world.\n\t\t *\n\t\t * @type {Camera}\n\t\t */\n\t\tthis.camera = camera;\n\n\t\t/**\n\t\t * The intensity of the shadow. The default is `1`.\n\t\t * Valid values are in the range `[0, 1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.intensity = 1;\n\n\t\t/**\n\t\t * Shadow map bias, how much to add or subtract from the normalized depth\n\t\t * when deciding whether a surface is in shadow.\n\t\t *\n\t\t * The default is `0`. Very tiny adjustments here (in the order of `0.0001`)\n\t\t * may help reduce artifacts in shadows.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.bias = 0;\n\n\t\t/**\n\t\t * Defines how much the position used to query the shadow map is offset along\n\t\t * the object normal. The default is `0`. Increasing this value can be used to\n\t\t * reduce shadow acne especially in large scenes where light shines onto\n\t\t * geometry at a shallow angle. The cost is that shadows may appear distorted.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.normalBias = 0;\n\n\t\t/**\n\t\t * Setting this to values greater than 1 will blur the edges of the shadow.\n\t\t * High values will cause unwanted banding effects in the shadows - a greater\n\t\t * map size will allow for a higher value to be used here before these effects\n\t\t * become visible.\n\t\t *\n\t\t * The property has no effect when the shadow map type is `PCFSoftShadowMap` and\n\t\t * and it is recommended to increase softness by decreasing the shadow map size instead.\n\t\t *\n\t\t * The property has no effect when the shadow map type is `BasicShadowMap`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.radius = 1;\n\n\t\t/**\n\t\t * The amount of samples to use when blurring a VSM shadow map.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 8\n\t\t */\n\t\tthis.blurSamples = 8;\n\n\t\t/**\n\t\t * Defines the width and height of the shadow map. Higher values give better quality\n\t\t * shadows at the cost of computation time. Values must be powers of two.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (512,512)\n\t\t */\n\t\tthis.mapSize = new Vector2( 512, 512 );\n\n\t\t/**\n\t\t * The type of shadow texture. The default is `UnsignedByteType`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default UnsignedByteType\n\t\t */\n\t\tthis.mapType = UnsignedByteType;\n\n\t\t/**\n\t\t * The depth map generated using the internal camera; a location beyond a\n\t\t * pixel's depth is in shadow. Computed internally during rendering.\n\t\t *\n\t\t * @type {?RenderTarget}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The distribution map generated using the internal camera; an occlusion is\n\t\t * calculated based on the distribution of depths. Computed internally during\n\t\t * rendering.\n\t\t *\n\t\t * @type {?RenderTarget}\n\t\t * @default null\n\t\t */\n\t\tthis.mapPass = null;\n\n\t\t/**\n\t\t * Model to shadow camera space, to compute location and depth in shadow map.\n\t\t * This is computed internally during rendering.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrix = new Matrix4();\n\n\t\t/**\n\t\t * Enables automatic updates of the light's shadow. If you do not require dynamic\n\t\t * lighting / shadows, you may set this to `false`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.autoUpdate = true;\n\n\t\t/**\n\t\t * When set to `true`, shadow maps will be updated in the next `render` call.\n\t\t * If you have set {@link LightShadow#autoUpdate} to `false`, you will need to\n\t\t * set this property to `true` and then make a render call to update the light's shadow.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.needsUpdate = false;\n\n\t\tthis._frustum = new Frustum();\n\t\tthis._frameExtents = new Vector2( 1, 1 );\n\n\t\tthis._viewportCount = 1;\n\n\t\tthis._viewports = [\n\n\t\t\tnew Vector4( 0, 0, 1, 1 )\n\n\t\t];\n\n\t}\n\n\t/**\n\t * Used internally by the renderer to get the number of viewports that need\n\t * to be rendered for this shadow.\n\t *\n\t * @return {number} The viewport count.\n\t */\n\tgetViewportCount() {\n\n\t\treturn this._viewportCount;\n\n\t}\n\n\t/**\n\t * Gets the shadow cameras frustum. Used internally by the renderer to cull objects.\n\t *\n\t * @return {Frustum} The shadow camera frustum.\n\t */\n\tgetFrustum() {\n\n\t\treturn this._frustum;\n\n\t}\n\n\t/**\n\t * Update the matrices for the camera and shadow, used internally by the renderer.\n\t *\n\t * @param {Light} light - The light for which the shadow is being rendered.\n\t */\n\tupdateMatrices( light ) {\n\n\t\tconst shadowCamera = this.camera;\n\t\tconst shadowMatrix = this.matrix;\n\n\t\t_lightPositionWorld$1.setFromMatrixPosition( light.matrixWorld );\n\t\tshadowCamera.position.copy( _lightPositionWorld$1 );\n\n\t\t_lookTarget$1.setFromMatrixPosition( light.target.matrixWorld );\n\t\tshadowCamera.lookAt( _lookTarget$1 );\n\t\tshadowCamera.updateMatrixWorld();\n\n\t\t_projScreenMatrix$1.multiplyMatrices( shadowCamera.projectionMatrix, shadowCamera.matrixWorldInverse );\n\t\tthis._frustum.setFromProjectionMatrix( _projScreenMatrix$1, shadowCamera.coordinateSystem, shadowCamera.reversedDepth );\n\n\t\tif ( shadowCamera.reversedDepth ) {\n\n\t\t\tshadowMatrix.set(\n\t\t\t\t0.5, 0.0, 0.0, 0.5,\n\t\t\t\t0.0, 0.5, 0.0, 0.5,\n\t\t\t\t0.0, 0.0, 1.0, 0.0,\n\t\t\t\t0.0, 0.0, 0.0, 1.0\n\t\t\t);\n\n\t\t} else {\n\n\t\t\tshadowMatrix.set(\n\t\t\t\t0.5, 0.0, 0.0, 0.5,\n\t\t\t\t0.0, 0.5, 0.0, 0.5,\n\t\t\t\t0.0, 0.0, 0.5, 0.5,\n\t\t\t\t0.0, 0.0, 0.0, 1.0\n\t\t\t);\n\n\t\t}\n\n\t\tshadowMatrix.multiply( _projScreenMatrix$1 );\n\n\t}\n\n\t/**\n\t * Returns a viewport definition for the given viewport index.\n\t *\n\t * @param {number} viewportIndex - The viewport index.\n\t * @return {Vector4} The viewport.\n\t */\n\tgetViewport( viewportIndex ) {\n\n\t\treturn this._viewports[ viewportIndex ];\n\n\t}\n\n\t/**\n\t * Returns the frame extends.\n\t *\n\t * @return {Vector2} The frame extends.\n\t */\n\tgetFrameExtents() {\n\n\t\treturn this._frameExtents;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tif ( this.map ) {\n\n\t\t\tthis.map.dispose();\n\n\t\t}\n\n\t\tif ( this.mapPass ) {\n\n\t\t\tthis.mapPass.dispose();\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Copies the values of the given light shadow instance to this instance.\n\t *\n\t * @param {LightShadow} source - The light shadow to copy.\n\t * @return {LightShadow} A reference to this light shadow instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.camera = source.camera.clone();\n\n\t\tthis.intensity = source.intensity;\n\n\t\tthis.bias = source.bias;\n\t\tthis.radius = source.radius;\n\n\t\tthis.autoUpdate = source.autoUpdate;\n\t\tthis.needsUpdate = source.needsUpdate;\n\t\tthis.normalBias = source.normalBias;\n\t\tthis.blurSamples = source.blurSamples;\n\n\t\tthis.mapSize.copy( source.mapSize );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new light shadow instance with copied values from this instance.\n\t *\n\t * @return {LightShadow} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Serializes the light shadow into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized light shadow.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON() {\n\n\t\tconst object = {};\n\n\t\tif ( this.intensity !== 1 ) object.intensity = this.intensity;\n\t\tif ( this.bias !== 0 ) object.bias = this.bias;\n\t\tif ( this.normalBias !== 0 ) object.normalBias = this.normalBias;\n\t\tif ( this.radius !== 1 ) object.radius = this.radius;\n\t\tif ( this.mapSize.x !== 512 || this.mapSize.y !== 512 ) object.mapSize = this.mapSize.toArray();\n\n\t\tobject.camera = this.camera.toJSON( false ).object;\n\t\tdelete object.camera.matrix;\n\n\t\treturn object;\n\n\t}\n\n}\n\n/**\n * Represents the shadow configuration of directional lights.\n *\n * @augments LightShadow\n */\nclass SpotLightShadow extends LightShadow {\n\n\t/**\n\t * Constructs a new spot light shadow.\n\t */\n\tconstructor() {\n\n\t\tsuper( new PerspectiveCamera( 50, 1, 0.5, 500 ) );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSpotLightShadow = true;\n\n\t\t/**\n\t\t * Used to focus the shadow camera. The camera's field of view is set as a\n\t\t * percentage of the spotlight's field-of-view. Range is `[0, 1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.focus = 1;\n\n\t\t/**\n\t\t * Texture aspect ratio.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aspect = 1;\n\n\t}\n\n\tupdateMatrices( light ) {\n\n\t\tconst camera = this.camera;\n\n\t\tconst fov = RAD2DEG * 2 * light.angle * this.focus;\n\t\tconst aspect = ( this.mapSize.width / this.mapSize.height ) * this.aspect;\n\t\tconst far = light.distance || camera.far;\n\n\t\tif ( fov !== camera.fov || aspect !== camera.aspect || far !== camera.far ) {\n\n\t\t\tcamera.fov = fov;\n\t\t\tcamera.aspect = aspect;\n\t\t\tcamera.far = far;\n\t\t\tcamera.updateProjectionMatrix();\n\n\t\t}\n\n\t\tsuper.updateMatrices( light );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.focus = source.focus;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This light gets emitted from a single point in one direction, along a cone\n * that increases in size the further from the light it gets.\n *\n * This light can cast shadows - see the {@link SpotLightShadow} for details.\n *\n * ```js\n * // white spotlight shining from the side, modulated by a texture\n * const spotLight = new THREE.SpotLight( 0xffffff );\n * spotLight.position.set( 100, 1000, 100 );\n * spotLight.map = new THREE.TextureLoader().load( url );\n *\n * spotLight.castShadow = true;\n * spotLight.shadow.mapSize.width = 1024;\n * spotLight.shadow.mapSize.height = 1024;\n * spotLight.shadow.camera.near = 500;\n * spotLight.shadow.camera.far = 4000;\n * spotLight.shadow.camera.fov = 30;s\n * ```\n *\n * @augments Light\n */\nclass SpotLight extends Light {\n\n\t/**\n\t * Constructs a new spot light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity measured in candela (cd).\n\t * @param {number} [distance=0] - Maximum range of the light. `0` means no limit.\n\t * @param {number} [angle=Math.PI/3] - Maximum angle of light dispersion from its direction whose upper bound is `Math.PI/2`.\n\t * @param {number} [penumbra=0] - Percent of the spotlight cone that is attenuated due to penumbra. Value range is `[0,1]`.\n\t * @param {number} [decay=2] - The amount the light dims along the distance of the light.\n\t */\n\tconstructor( color, intensity, distance = 0, angle = Math.PI / 3, penumbra = 0, decay = 2 ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSpotLight = true;\n\n\t\tthis.type = 'SpotLight';\n\n\t\tthis.position.copy( Object3D.DEFAULT_UP );\n\t\tthis.updateMatrix();\n\n\t\t/**\n\t\t * The spot light points from its position to the\n\t\t * target's position.\n\t\t *\n\t\t * For the target's position to be changed to anything other\n\t\t * than the default, it must be added to the scene.\n\t\t *\n\t\t * It is also possible to set the target to be another 3D object\n\t\t * in the scene. The light will now track the target object.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.target = new Object3D();\n\n\t\t/**\n\t\t * Maximum range of the light. `0` means no limit.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.distance = distance;\n\n\t\t/**\n\t\t * Maximum angle of light dispersion from its direction whose upper bound is `Math.PI/2`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Math.PI/3\n\t\t */\n\t\tthis.angle = angle;\n\n\t\t/**\n\t\t * Percent of the spotlight cone that is attenuated due to penumbra.\n\t\t * Value range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.penumbra = penumbra;\n\n\t\t/**\n\t\t * The amount the light dims along the distance of the light. In context of\n\t\t * physically-correct rendering the default value should not be changed.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2\n\t\t */\n\t\tthis.decay = decay;\n\n\t\t/**\n\t\t * A texture used to modulate the color of the light. The spot light\n\t\t * color is mixed with the RGB value of this texture, with a ratio\n\t\t * corresponding to its alpha value. The cookie-like masking effect is\n\t\t * reproduced using pixel values (0, 0, 0, 1-cookie_value).\n\t\t *\n\t\t * *Warning*: This property is disabled if {@link Object3D#castShadow} is set to `false`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * This property holds the light's shadow configuration.\n\t\t *\n\t\t * @type {SpotLightShadow}\n\t\t */\n\t\tthis.shadow = new SpotLightShadow();\n\n\t}\n\n\t/**\n\t * The light's power. Power is the luminous power of the light measured in lumens (lm).\n\t * Changing the power will also change the light's intensity.\n\t *\n\t * @type {number}\n\t */\n\tget power() {\n\n\t\t// compute the light's luminous power (in lumens) from its intensity (in candela)\n\t\t// by convention for a spotlight, luminous power (lm) = π * luminous intensity (cd)\n\t\treturn this.intensity * Math.PI;\n\n\t}\n\n\tset power( power ) {\n\n\t\t// set the light's intensity (in candela) from the desired luminous power (in lumens)\n\t\tthis.intensity = power / Math.PI;\n\n\t}\n\n\tdispose() {\n\n\t\tthis.shadow.dispose();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.distance = source.distance;\n\t\tthis.angle = source.angle;\n\t\tthis.penumbra = source.penumbra;\n\t\tthis.decay = source.decay;\n\n\t\tthis.target = source.target.clone();\n\n\t\tthis.shadow = source.shadow.clone();\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _projScreenMatrix = /*@__PURE__*/ new Matrix4();\nconst _lightPositionWorld = /*@__PURE__*/ new Vector3();\nconst _lookTarget = /*@__PURE__*/ new Vector3();\n\n/**\n * Represents the shadow configuration of point lights.\n *\n * @augments LightShadow\n */\nclass PointLightShadow extends LightShadow {\n\n\t/**\n\t * Constructs a new point light shadow.\n\t */\n\tconstructor() {\n\n\t\tsuper( new PerspectiveCamera( 90, 1, 0.5, 500 ) );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPointLightShadow = true;\n\n\t\tthis._frameExtents = new Vector2( 4, 2 );\n\n\t\tthis._viewportCount = 6;\n\n\t\tthis._viewports = [\n\t\t\t// These viewports map a cube-map onto a 2D texture with the\n\t\t\t// following orientation:\n\t\t\t//\n\t\t\t// xzXZ\n\t\t\t// y Y\n\t\t\t//\n\t\t\t// X - Positive x direction\n\t\t\t// x - Negative x direction\n\t\t\t// Y - Positive y direction\n\t\t\t// y - Negative y direction\n\t\t\t// Z - Positive z direction\n\t\t\t// z - Negative z direction\n\n\t\t\t// positive X\n\t\t\tnew Vector4( 2, 1, 1, 1 ),\n\t\t\t// negative X\n\t\t\tnew Vector4( 0, 1, 1, 1 ),\n\t\t\t// positive Z\n\t\t\tnew Vector4( 3, 1, 1, 1 ),\n\t\t\t// negative Z\n\t\t\tnew Vector4( 1, 1, 1, 1 ),\n\t\t\t// positive Y\n\t\t\tnew Vector4( 3, 0, 1, 1 ),\n\t\t\t// negative Y\n\t\t\tnew Vector4( 1, 0, 1, 1 )\n\t\t];\n\n\t\tthis._cubeDirections = [\n\t\t\tnew Vector3( 1, 0, 0 ), new Vector3( -1, 0, 0 ), new Vector3( 0, 0, 1 ),\n\t\t\tnew Vector3( 0, 0, -1 ), new Vector3( 0, 1, 0 ), new Vector3( 0, -1, 0 )\n\t\t];\n\n\t\tthis._cubeUps = [\n\t\t\tnew Vector3( 0, 1, 0 ), new Vector3( 0, 1, 0 ), new Vector3( 0, 1, 0 ),\n\t\t\tnew Vector3( 0, 1, 0 ), new Vector3( 0, 0, 1 ),\tnew Vector3( 0, 0, -1 )\n\t\t];\n\n\t}\n\n\t/**\n\t * Update the matrices for the camera and shadow, used internally by the renderer.\n\t *\n\t * @param {Light} light - The light for which the shadow is being rendered.\n\t * @param {number} [viewportIndex=0] - The viewport index.\n\t */\n\tupdateMatrices( light, viewportIndex = 0 ) {\n\n\t\tconst camera = this.camera;\n\t\tconst shadowMatrix = this.matrix;\n\n\t\tconst far = light.distance || camera.far;\n\n\t\tif ( far !== camera.far ) {\n\n\t\t\tcamera.far = far;\n\t\t\tcamera.updateProjectionMatrix();\n\n\t\t}\n\n\t\t_lightPositionWorld.setFromMatrixPosition( light.matrixWorld );\n\t\tcamera.position.copy( _lightPositionWorld );\n\n\t\t_lookTarget.copy( camera.position );\n\t\t_lookTarget.add( this._cubeDirections[ viewportIndex ] );\n\t\tcamera.up.copy( this._cubeUps[ viewportIndex ] );\n\t\tcamera.lookAt( _lookTarget );\n\t\tcamera.updateMatrixWorld();\n\n\t\tshadowMatrix.makeTranslation( - _lightPositionWorld.x, - _lightPositionWorld.y, - _lightPositionWorld.z );\n\n\t\t_projScreenMatrix.multiplyMatrices( camera.projectionMatrix, camera.matrixWorldInverse );\n\t\tthis._frustum.setFromProjectionMatrix( _projScreenMatrix, camera.coordinateSystem, camera.reversedDepth );\n\n\t}\n\n}\n\n/**\n * A light that gets emitted from a single point in all directions. A common\n * use case for this is to replicate the light emitted from a bare\n * lightbulb.\n *\n * This light can cast shadows - see the {@link PointLightShadow} for details.\n *\n * ```js\n * const light = new THREE.PointLight( 0xff0000, 1, 100 );\n * light.position.set( 50, 50, 50 );\n * scene.add( light );\n * ```\n *\n * @augments Light\n */\nclass PointLight extends Light {\n\n\t/**\n\t * Constructs a new point light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity measured in candela (cd).\n\t * @param {number} [distance=0] - Maximum range of the light. `0` means no limit.\n\t * @param {number} [decay=2] - The amount the light dims along the distance of the light.\n\t */\n\tconstructor( color, intensity, distance = 0, decay = 2 ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPointLight = true;\n\n\t\tthis.type = 'PointLight';\n\n\t\t/**\n\t\t * When distance is zero, light will attenuate according to inverse-square\n\t\t * law to infinite distance. When distance is non-zero, light will attenuate\n\t\t * according to inverse-square law until near the distance cutoff, where it\n\t\t * will then attenuate quickly and smoothly to 0. Inherently, cutoffs are not\n\t\t * physically correct.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.distance = distance;\n\n\t\t/**\n\t\t * The amount the light dims along the distance of the light. In context of\n\t\t * physically-correct rendering the default value should not be changed.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2\n\t\t */\n\t\tthis.decay = decay;\n\n\t\t/**\n\t\t * This property holds the light's shadow configuration.\n\t\t *\n\t\t * @type {PointLightShadow}\n\t\t */\n\t\tthis.shadow = new PointLightShadow();\n\n\t}\n\n\t/**\n\t * The light's power. Power is the luminous power of the light measured in lumens (lm).\n\t * Changing the power will also change the light's intensity.\n\t *\n\t * @type {number}\n\t */\n\tget power() {\n\n\t\t// compute the light's luminous power (in lumens) from its intensity (in candela)\n\t\t// for an isotropic light source, luminous power (lm) = 4 π luminous intensity (cd)\n\t\treturn this.intensity * 4 * Math.PI;\n\n\t}\n\n\tset power( power ) {\n\n\t\t// set the light's intensity (in candela) from the desired luminous power (in lumens)\n\t\tthis.intensity = power / ( 4 * Math.PI );\n\n\t}\n\n\tdispose() {\n\n\t\tthis.shadow.dispose();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.distance = source.distance;\n\t\tthis.decay = source.decay;\n\n\t\tthis.shadow = source.shadow.clone();\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Camera that uses [orthographic projection]{@link https://en.wikipedia.org/wiki/Orthographic_projection}.\n *\n * In this projection mode, an object's size in the rendered image stays\n * constant regardless of its distance from the camera. This can be useful\n * for rendering 2D scenes and UI elements, amongst other things.\n *\n * ```js\n * const camera = new THREE.OrthographicCamera( width / - 2, width / 2, height / 2, height / - 2, 1, 1000 );\n * scene.add( camera );\n * ```\n *\n * @augments Camera\n */\nclass OrthographicCamera extends Camera {\n\n\t/**\n\t * Constructs a new orthographic camera.\n\t *\n\t * @param {number} [left=-1] - The left plane of the camera's frustum.\n\t * @param {number} [right=1] - The right plane of the camera's frustum.\n\t * @param {number} [top=1] - The top plane of the camera's frustum.\n\t * @param {number} [bottom=-1] - The bottom plane of the camera's frustum.\n\t * @param {number} [near=0.1] - The camera's near plane.\n\t * @param {number} [far=2000] - The camera's far plane.\n\t */\n\tconstructor( left = -1, right = 1, top = 1, bottom = -1, near = 0.1, far = 2000 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isOrthographicCamera = true;\n\n\t\tthis.type = 'OrthographicCamera';\n\n\t\t/**\n\t\t * The zoom factor of the camera.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.zoom = 1;\n\n\t\t/**\n\t\t * Represents the frustum window specification. This property should not be edited\n\t\t * directly but via {@link PerspectiveCamera#setViewOffset} and {@link PerspectiveCamera#clearViewOffset}.\n\t\t *\n\t\t * @type {?Object}\n\t\t * @default null\n\t\t */\n\t\tthis.view = null;\n\n\t\t/**\n\t\t * The left plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default -1\n\t\t */\n\t\tthis.left = left;\n\n\t\t/**\n\t\t * The right plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.right = right;\n\n\t\t/**\n\t\t * The top plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.top = top;\n\n\t\t/**\n\t\t * The bottom plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default -1\n\t\t */\n\t\tthis.bottom = bottom;\n\n\t\t/**\n\t\t * The camera's near plane. The valid range is greater than `0`\n\t\t * and less than the current value of {@link OrthographicCamera#far}.\n\t\t *\n\t\t * Note that, unlike for the {@link PerspectiveCamera}, `0` is a\n\t\t * valid value for an orthographic camera's near plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.1\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * The camera's far plane. Must be greater than the\n\t\t * current value of {@link OrthographicCamera#near}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2000\n\t\t */\n\t\tthis.far = far;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.left = source.left;\n\t\tthis.right = source.right;\n\t\tthis.top = source.top;\n\t\tthis.bottom = source.bottom;\n\t\tthis.near = source.near;\n\t\tthis.far = source.far;\n\n\t\tthis.zoom = source.zoom;\n\t\tthis.view = source.view === null ? null : Object.assign( {}, source.view );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets an offset in a larger frustum. This is useful for multi-window or\n\t * multi-monitor/multi-machine setups.\n\t *\n\t * @param {number} fullWidth - The full width of multiview setup.\n\t * @param {number} fullHeight - The full height of multiview setup.\n\t * @param {number} x - The horizontal offset of the subcamera.\n\t * @param {number} y - The vertical offset of the subcamera.\n\t * @param {number} width - The width of subcamera.\n\t * @param {number} height - The height of subcamera.\n\t * @see {@link PerspectiveCamera#setViewOffset}\n\t */\n\tsetViewOffset( fullWidth, fullHeight, x, y, width, height ) {\n\n\t\tif ( this.view === null ) {\n\n\t\t\tthis.view = {\n\t\t\t\tenabled: true,\n\t\t\t\tfullWidth: 1,\n\t\t\t\tfullHeight: 1,\n\t\t\t\toffsetX: 0,\n\t\t\t\toffsetY: 0,\n\t\t\t\twidth: 1,\n\t\t\t\theight: 1\n\t\t\t};\n\n\t\t}\n\n\t\tthis.view.enabled = true;\n\t\tthis.view.fullWidth = fullWidth;\n\t\tthis.view.fullHeight = fullHeight;\n\t\tthis.view.offsetX = x;\n\t\tthis.view.offsetY = y;\n\t\tthis.view.width = width;\n\t\tthis.view.height = height;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Removes the view offset from the projection matrix.\n\t */\n\tclearViewOffset() {\n\n\t\tif ( this.view !== null ) {\n\n\t\t\tthis.view.enabled = false;\n\n\t\t}\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Updates the camera's projection matrix. Must be called after any change of\n\t * camera properties.\n\t */\n\tupdateProjectionMatrix() {\n\n\t\tconst dx = ( this.right - this.left ) / ( 2 * this.zoom );\n\t\tconst dy = ( this.top - this.bottom ) / ( 2 * this.zoom );\n\t\tconst cx = ( this.right + this.left ) / 2;\n\t\tconst cy = ( this.top + this.bottom ) / 2;\n\n\t\tlet left = cx - dx;\n\t\tlet right = cx + dx;\n\t\tlet top = cy + dy;\n\t\tlet bottom = cy - dy;\n\n\t\tif ( this.view !== null && this.view.enabled ) {\n\n\t\t\tconst scaleW = ( this.right - this.left ) / this.view.fullWidth / this.zoom;\n\t\t\tconst scaleH = ( this.top - this.bottom ) / this.view.fullHeight / this.zoom;\n\n\t\t\tleft += scaleW * this.view.offsetX;\n\t\t\tright = left + scaleW * this.view.width;\n\t\t\ttop -= scaleH * this.view.offsetY;\n\t\t\tbottom = top - scaleH * this.view.height;\n\n\t\t}\n\n\t\tthis.projectionMatrix.makeOrthographic( left, right, top, bottom, this.near, this.far, this.coordinateSystem, this.reversedDepth );\n\n\t\tthis.projectionMatrixInverse.copy( this.projectionMatrix ).invert();\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.zoom = this.zoom;\n\t\tdata.object.left = this.left;\n\t\tdata.object.right = this.right;\n\t\tdata.object.top = this.top;\n\t\tdata.object.bottom = this.bottom;\n\t\tdata.object.near = this.near;\n\t\tdata.object.far = this.far;\n\n\t\tif ( this.view !== null ) data.object.view = Object.assign( {}, this.view );\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Represents the shadow configuration of directional lights.\n *\n * @augments LightShadow\n */\nclass DirectionalLightShadow extends LightShadow {\n\n\t/**\n\t * Constructs a new directional light shadow.\n\t */\n\tconstructor() {\n\n\t\tsuper( new OrthographicCamera( -5, 5, 5, -5, 0.5, 500 ) );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDirectionalLightShadow = true;\n\n\t}\n\n}\n\n/**\n * A light that gets emitted in a specific direction. This light will behave\n * as though it is infinitely far away and the rays produced from it are all\n * parallel. The common use case for this is to simulate daylight; the sun is\n * far enough away that its position can be considered to be infinite, and\n * all light rays coming from it are parallel.\n *\n * A common point of confusion for directional lights is that setting the\n * rotation has no effect. This is because three.js's DirectionalLight is the\n * equivalent to what is often called a 'Target Direct Light' in other\n * applications.\n *\n * This means that its direction is calculated as pointing from the light's\n * {@link Object3D#position} to the {@link DirectionalLight#target} position\n * (as opposed to a 'Free Direct Light' that just has a rotation\n * component).\n *\n * This light can cast shadows - see the {@link DirectionalLightShadow} for details.\n *\n * ```js\n * // White directional light at half intensity shining from the top.\n * const directionalLight = new THREE.DirectionalLight( 0xffffff, 0.5 );\n * scene.add( directionalLight );\n * ```\n *\n * @augments Light\n */\nclass DirectionalLight extends Light {\n\n\t/**\n\t * Constructs a new directional light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( color, intensity ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDirectionalLight = true;\n\n\t\tthis.type = 'DirectionalLight';\n\n\t\tthis.position.copy( Object3D.DEFAULT_UP );\n\t\tthis.updateMatrix();\n\n\t\t/**\n\t\t * The directional light points from its position to the\n\t\t * target's position.\n\t\t *\n\t\t * For the target's position to be changed to anything other\n\t\t * than the default, it must be added to the scene.\n\t\t *\n\t\t * It is also possible to set the target to be another 3D object\n\t\t * in the scene. The light will now track the target object.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.target = new Object3D();\n\n\t\t/**\n\t\t * This property holds the light's shadow configuration.\n\t\t *\n\t\t * @type {DirectionalLightShadow}\n\t\t */\n\t\tthis.shadow = new DirectionalLightShadow();\n\n\t}\n\n\tdispose() {\n\n\t\tthis.shadow.dispose();\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.target = source.target.clone();\n\t\tthis.shadow = source.shadow.clone();\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This light globally illuminates all objects in the scene equally.\n *\n * It cannot be used to cast shadows as it does not have a direction.\n *\n * ```js\n * const light = new THREE.AmbientLight( 0x404040 ); // soft white light\n * scene.add( light );\n * ```\n *\n * @augments Light\n */\nclass AmbientLight extends Light {\n\n\t/**\n\t * Constructs a new ambient light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( color, intensity ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isAmbientLight = true;\n\n\t\tthis.type = 'AmbientLight';\n\n\t}\n\n}\n\n/**\n * This class emits light uniformly across the face a rectangular plane.\n * This light type can be used to simulate light sources such as bright\n * windows or strip lighting.\n *\n * Important Notes:\n *\n * - There is no shadow support.\n * - Only PBR materials are supported.\n * - You have to include `RectAreaLightUniformsLib` (`WebGLRenderer`) or `RectAreaLightTexturesLib` (`WebGPURenderer`)\n * into your app and init the uniforms/textures.\n *\n * ```js\n * RectAreaLightUniformsLib.init(); // only relevant for WebGLRenderer\n * THREE.RectAreaLightNode.setLTC( RectAreaLightTexturesLib.init() ); // only relevant for WebGPURenderer\n *\n * const intensity = 1; const width = 10; const height = 10;\n * const rectLight = new THREE.RectAreaLight( 0xffffff, intensity, width, height );\n * rectLight.position.set( 5, 5, 0 );\n * rectLight.lookAt( 0, 0, 0 );\n * scene.add( rectLight )\n * ```\n *\n * @augments Light\n */\nclass RectAreaLight extends Light {\n\n\t/**\n\t * Constructs a new area light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t * @param {number} [width=10] - The width of the light.\n\t * @param {number} [height=10] - The height of the light.\n\t */\n\tconstructor( color, intensity, width = 10, height = 10 ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRectAreaLight = true;\n\n\t\tthis.type = 'RectAreaLight';\n\n\t\t/**\n\t\t * The width of the light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 10\n\t\t */\n\t\tthis.width = width;\n\n\t\t/**\n\t\t * The height of the light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 10\n\t\t */\n\t\tthis.height = height;\n\n\t}\n\n\t/**\n\t * The light's power. Power is the luminous power of the light measured in lumens (lm).\n\t * Changing the power will also change the light's intensity.\n\t *\n\t * @type {number}\n\t */\n\tget power() {\n\n\t\t// compute the light's luminous power (in lumens) from its intensity (in nits)\n\t\treturn this.intensity * this.width * this.height * Math.PI;\n\n\t}\n\n\tset power( power ) {\n\n\t\t// set the light's intensity (in nits) from the desired luminous power (in lumens)\n\t\tthis.intensity = power / ( this.width * this.height * Math.PI );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.width = source.width;\n\t\tthis.height = source.height;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.width = this.width;\n\t\tdata.object.height = this.height;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Represents a third-order spherical harmonics (SH). Light probes use this class\n * to encode lighting information.\n *\n * - Primary reference: {@link https://graphics.stanford.edu/papers/envmap/envmap.pdf}\n * - Secondary reference: {@link https://www.ppsloan.org/publications/StupidSH36.pdf}\n */\nclass SphericalHarmonics3 {\n\n\t/**\n\t * Constructs a new spherical harmonics.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSphericalHarmonics3 = true;\n\n\t\t/**\n\t\t * An array holding the (9) SH coefficients.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.coefficients = [];\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients.push( new Vector3() );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the given SH coefficients to this instance by copying\n\t * the values.\n\t *\n\t * @param {Array} coefficients - The SH coefficients.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tset( coefficients ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].copy( coefficients[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets all SH coefficients to `0`.\n\t *\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tzero() {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].set( 0, 0, 0 );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the radiance in the direction of the given normal.\n\t *\n\t * @param {Vector3} normal - The normal vector (assumed to be unit length)\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The radiance.\n\t */\n\tgetAt( normal, target ) {\n\n\t\t// normal is assumed to be unit length\n\n\t\tconst x = normal.x, y = normal.y, z = normal.z;\n\n\t\tconst coeff = this.coefficients;\n\n\t\t// band 0\n\t\ttarget.copy( coeff[ 0 ] ).multiplyScalar( 0.282095 );\n\n\t\t// band 1\n\t\ttarget.addScaledVector( coeff[ 1 ], 0.488603 * y );\n\t\ttarget.addScaledVector( coeff[ 2 ], 0.488603 * z );\n\t\ttarget.addScaledVector( coeff[ 3 ], 0.488603 * x );\n\n\t\t// band 2\n\t\ttarget.addScaledVector( coeff[ 4 ], 1.092548 * ( x * y ) );\n\t\ttarget.addScaledVector( coeff[ 5 ], 1.092548 * ( y * z ) );\n\t\ttarget.addScaledVector( coeff[ 6 ], 0.315392 * ( 3.0 * z * z - 1.0 ) );\n\t\ttarget.addScaledVector( coeff[ 7 ], 1.092548 * ( x * z ) );\n\t\ttarget.addScaledVector( coeff[ 8 ], 0.546274 * ( x * x - y * y ) );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the irradiance (radiance convolved with cosine lobe) in the\n\t * direction of the given normal.\n\t *\n\t * @param {Vector3} normal - The normal vector (assumed to be unit length)\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The irradiance.\n\t */\n\tgetIrradianceAt( normal, target ) {\n\n\t\t// normal is assumed to be unit length\n\n\t\tconst x = normal.x, y = normal.y, z = normal.z;\n\n\t\tconst coeff = this.coefficients;\n\n\t\t// band 0\n\t\ttarget.copy( coeff[ 0 ] ).multiplyScalar( 0.886227 ); // π * 0.282095\n\n\t\t// band 1\n\t\ttarget.addScaledVector( coeff[ 1 ], 2.0 * 0.511664 * y ); // ( 2 * π / 3 ) * 0.488603\n\t\ttarget.addScaledVector( coeff[ 2 ], 2.0 * 0.511664 * z );\n\t\ttarget.addScaledVector( coeff[ 3 ], 2.0 * 0.511664 * x );\n\n\t\t// band 2\n\t\ttarget.addScaledVector( coeff[ 4 ], 2.0 * 0.429043 * x * y ); // ( π / 4 ) * 1.092548\n\t\ttarget.addScaledVector( coeff[ 5 ], 2.0 * 0.429043 * y * z );\n\t\ttarget.addScaledVector( coeff[ 6 ], 0.743125 * z * z - 0.247708 ); // ( π / 4 ) * 0.315392 * 3\n\t\ttarget.addScaledVector( coeff[ 7 ], 2.0 * 0.429043 * x * z );\n\t\ttarget.addScaledVector( coeff[ 8 ], 0.429043 * ( x * x - y * y ) ); // ( π / 4 ) * 0.546274\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Adds the given SH to this instance.\n\t *\n\t * @param {SphericalHarmonics3} sh - The SH to add.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tadd( sh ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].add( sh.coefficients[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * A convenience method for performing {@link SphericalHarmonics3#add} and\n\t * {@link SphericalHarmonics3#scale} at once.\n\t *\n\t * @param {SphericalHarmonics3} sh - The SH to add.\n\t * @param {number} s - The scale factor.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\taddScaledSH( sh, s ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].addScaledVector( sh.coefficients[ i ], s );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scales this SH by the given scale factor.\n\t *\n\t * @param {number} s - The scale factor.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tscale( s ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].multiplyScalar( s );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linear interpolates between the given SH and this instance by the given\n\t * alpha factor.\n\t *\n\t * @param {SphericalHarmonics3} sh - The SH to interpolate with.\n\t * @param {number} alpha - The alpha factor.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tlerp( sh, alpha ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].lerp( sh.coefficients[ i ], alpha );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this spherical harmonics is equal with the given one.\n\t *\n\t * @param {SphericalHarmonics3} sh - The spherical harmonics to test for equality.\n\t * @return {boolean} Whether this spherical harmonics is equal with the given one.\n\t */\n\tequals( sh ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tif ( ! this.coefficients[ i ].equals( sh.coefficients[ i ] ) ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Copies the values of the given spherical harmonics to this instance.\n\t *\n\t * @param {SphericalHarmonics3} sh - The spherical harmonics to copy.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tcopy( sh ) {\n\n\t\treturn this.set( sh.coefficients );\n\n\t}\n\n\t/**\n\t * Returns a new spherical harmonics with copied values from this instance.\n\t *\n\t * @return {SphericalHarmonics3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Sets the SH coefficients of this instance from the given array.\n\t *\n\t * @param {Array} array - An array holding the SH coefficients.\n\t * @param {number} [offset=0] - The array offset where to start copying.\n\t * @return {SphericalHarmonics3} A clone of this instance.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tconst coefficients = this.coefficients;\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tcoefficients[ i ].fromArray( array, offset + ( i * 3 ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns an array with the SH coefficients, or copies them into the provided\n\t * array. The coefficients are represented as numbers.\n\t *\n\t * @param {Array} [array=[]] - The target array.\n\t * @param {number} [offset=0] - The array offset where to start copying.\n\t * @return {Array} An array with flat SH coefficients.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tconst coefficients = this.coefficients;\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tcoefficients[ i ].toArray( array, offset + ( i * 3 ) );\n\n\t\t}\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Computes the SH basis for the given normal vector.\n\t *\n\t * @param {Vector3} normal - The normal.\n\t * @param {Array} shBasis - The target array holding the SH basis.\n\t */\n\tstatic getBasisAt( normal, shBasis ) {\n\n\t\t// normal is assumed to be unit length\n\n\t\tconst x = normal.x, y = normal.y, z = normal.z;\n\n\t\t// band 0\n\t\tshBasis[ 0 ] = 0.282095;\n\n\t\t// band 1\n\t\tshBasis[ 1 ] = 0.488603 * y;\n\t\tshBasis[ 2 ] = 0.488603 * z;\n\t\tshBasis[ 3 ] = 0.488603 * x;\n\n\t\t// band 2\n\t\tshBasis[ 4 ] = 1.092548 * x * y;\n\t\tshBasis[ 5 ] = 1.092548 * y * z;\n\t\tshBasis[ 6 ] = 0.315392 * ( 3 * z * z - 1 );\n\t\tshBasis[ 7 ] = 1.092548 * x * z;\n\t\tshBasis[ 8 ] = 0.546274 * ( x * x - y * y );\n\n\t}\n\n}\n\n/**\n * Light probes are an alternative way of adding light to a 3D scene. Unlike\n * classical light sources (e.g. directional, point or spot lights), light\n * probes do not emit light. Instead they store information about light\n * passing through 3D space. During rendering, the light that hits a 3D\n * object is approximated by using the data from the light probe.\n *\n * Light probes are usually created from (radiance) environment maps. The\n * class {@link LightProbeGenerator} can be used to create light probes from\n * cube textures or render targets. However, light estimation data could also\n * be provided in other forms e.g. by WebXR. This enables the rendering of\n * augmented reality content that reacts to real world lighting.\n *\n * The current probe implementation in three.js supports so-called diffuse\n * light probes. This type of light probe is functionally equivalent to an\n * irradiance environment map.\n *\n * @augments Light\n */\nclass LightProbe extends Light {\n\n\t/**\n\t * Constructs a new light probe.\n\t *\n\t * @param {SphericalHarmonics3} sh - The spherical harmonics which represents encoded lighting information.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( sh = new SphericalHarmonics3(), intensity = 1 ) {\n\n\t\tsuper( undefined, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLightProbe = true;\n\n\t\t/**\n\t\t * A light probe uses spherical harmonics to encode lighting information.\n\t\t *\n\t\t * @type {SphericalHarmonics3}\n\t\t */\n\t\tthis.sh = sh;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.sh.copy( source.sh );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Deserializes the light prove from the given JSON.\n\t *\n\t * @param {Object} json - The JSON holding the serialized light probe.\n\t * @return {LightProbe} A reference to this light probe.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.intensity = json.intensity; // TODO: Move this bit to Light.fromJSON();\n\t\tthis.sh.fromArray( json.sh );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.sh = this.sh.toArray();\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Class for loading geometries. The files are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.MaterialLoader();\n * const material = await loader.loadAsync( 'material.json' );\n * ```\n * This loader does not support node materials. Use {@link NodeMaterialLoader} instead.\n *\n * @augments Loader\n */\nclass MaterialLoader extends Loader {\n\n\t/**\n\t * Constructs a new material loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t\t/**\n\t\t * A dictionary holding textures used by the material.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.textures = {};\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded material to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Material)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( scope.manager );\n\t\tloader.setPath( scope.path );\n\t\tloader.setRequestHeader( scope.requestHeader );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\ttry {\n\n\t\t\t\tonLoad( scope.parse( JSON.parse( text ) ) );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\tif ( onError ) {\n\n\t\t\t\t\tonError( e );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( e );\n\n\t\t\t\t}\n\n\t\t\t\tscope.manager.itemError( url );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Parses the given JSON object and returns a material.\n\t *\n\t * @param {Object} json - The serialized material.\n\t * @return {Material} The parsed material.\n\t */\n\tparse( json ) {\n\n\t\tconst textures = this.textures;\n\n\t\tfunction getTexture( name ) {\n\n\t\t\tif ( textures[ name ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.MaterialLoader: Undefined texture', name );\n\n\t\t\t}\n\n\t\t\treturn textures[ name ];\n\n\t\t}\n\n\t\tconst material = this.createMaterialFromType( json.type );\n\n\t\tif ( json.uuid !== undefined ) material.uuid = json.uuid;\n\t\tif ( json.name !== undefined ) material.name = json.name;\n\t\tif ( json.color !== undefined && material.color !== undefined ) material.color.setHex( json.color );\n\t\tif ( json.roughness !== undefined ) material.roughness = json.roughness;\n\t\tif ( json.metalness !== undefined ) material.metalness = json.metalness;\n\t\tif ( json.sheen !== undefined ) material.sheen = json.sheen;\n\t\tif ( json.sheenColor !== undefined ) material.sheenColor = new Color().setHex( json.sheenColor );\n\t\tif ( json.sheenRoughness !== undefined ) material.sheenRoughness = json.sheenRoughness;\n\t\tif ( json.emissive !== undefined && material.emissive !== undefined ) material.emissive.setHex( json.emissive );\n\t\tif ( json.specular !== undefined && material.specular !== undefined ) material.specular.setHex( json.specular );\n\t\tif ( json.specularIntensity !== undefined ) material.specularIntensity = json.specularIntensity;\n\t\tif ( json.specularColor !== undefined && material.specularColor !== undefined ) material.specularColor.setHex( json.specularColor );\n\t\tif ( json.shininess !== undefined ) material.shininess = json.shininess;\n\t\tif ( json.clearcoat !== undefined ) material.clearcoat = json.clearcoat;\n\t\tif ( json.clearcoatRoughness !== undefined ) material.clearcoatRoughness = json.clearcoatRoughness;\n\t\tif ( json.dispersion !== undefined ) material.dispersion = json.dispersion;\n\t\tif ( json.iridescence !== undefined ) material.iridescence = json.iridescence;\n\t\tif ( json.iridescenceIOR !== undefined ) material.iridescenceIOR = json.iridescenceIOR;\n\t\tif ( json.iridescenceThicknessRange !== undefined ) material.iridescenceThicknessRange = json.iridescenceThicknessRange;\n\t\tif ( json.transmission !== undefined ) material.transmission = json.transmission;\n\t\tif ( json.thickness !== undefined ) material.thickness = json.thickness;\n\t\tif ( json.attenuationDistance !== undefined ) material.attenuationDistance = json.attenuationDistance;\n\t\tif ( json.attenuationColor !== undefined && material.attenuationColor !== undefined ) material.attenuationColor.setHex( json.attenuationColor );\n\t\tif ( json.anisotropy !== undefined ) material.anisotropy = json.anisotropy;\n\t\tif ( json.anisotropyRotation !== undefined ) material.anisotropyRotation = json.anisotropyRotation;\n\t\tif ( json.fog !== undefined ) material.fog = json.fog;\n\t\tif ( json.flatShading !== undefined ) material.flatShading = json.flatShading;\n\t\tif ( json.blending !== undefined ) material.blending = json.blending;\n\t\tif ( json.combine !== undefined ) material.combine = json.combine;\n\t\tif ( json.side !== undefined ) material.side = json.side;\n\t\tif ( json.shadowSide !== undefined ) material.shadowSide = json.shadowSide;\n\t\tif ( json.opacity !== undefined ) material.opacity = json.opacity;\n\t\tif ( json.transparent !== undefined ) material.transparent = json.transparent;\n\t\tif ( json.alphaTest !== undefined ) material.alphaTest = json.alphaTest;\n\t\tif ( json.alphaHash !== undefined ) material.alphaHash = json.alphaHash;\n\t\tif ( json.depthFunc !== undefined ) material.depthFunc = json.depthFunc;\n\t\tif ( json.depthTest !== undefined ) material.depthTest = json.depthTest;\n\t\tif ( json.depthWrite !== undefined ) material.depthWrite = json.depthWrite;\n\t\tif ( json.colorWrite !== undefined ) material.colorWrite = json.colorWrite;\n\t\tif ( json.blendSrc !== undefined ) material.blendSrc = json.blendSrc;\n\t\tif ( json.blendDst !== undefined ) material.blendDst = json.blendDst;\n\t\tif ( json.blendEquation !== undefined ) material.blendEquation = json.blendEquation;\n\t\tif ( json.blendSrcAlpha !== undefined ) material.blendSrcAlpha = json.blendSrcAlpha;\n\t\tif ( json.blendDstAlpha !== undefined ) material.blendDstAlpha = json.blendDstAlpha;\n\t\tif ( json.blendEquationAlpha !== undefined ) material.blendEquationAlpha = json.blendEquationAlpha;\n\t\tif ( json.blendColor !== undefined && material.blendColor !== undefined ) material.blendColor.setHex( json.blendColor );\n\t\tif ( json.blendAlpha !== undefined ) material.blendAlpha = json.blendAlpha;\n\t\tif ( json.stencilWriteMask !== undefined ) material.stencilWriteMask = json.stencilWriteMask;\n\t\tif ( json.stencilFunc !== undefined ) material.stencilFunc = json.stencilFunc;\n\t\tif ( json.stencilRef !== undefined ) material.stencilRef = json.stencilRef;\n\t\tif ( json.stencilFuncMask !== undefined ) material.stencilFuncMask = json.stencilFuncMask;\n\t\tif ( json.stencilFail !== undefined ) material.stencilFail = json.stencilFail;\n\t\tif ( json.stencilZFail !== undefined ) material.stencilZFail = json.stencilZFail;\n\t\tif ( json.stencilZPass !== undefined ) material.stencilZPass = json.stencilZPass;\n\t\tif ( json.stencilWrite !== undefined ) material.stencilWrite = json.stencilWrite;\n\n\t\tif ( json.wireframe !== undefined ) material.wireframe = json.wireframe;\n\t\tif ( json.wireframeLinewidth !== undefined ) material.wireframeLinewidth = json.wireframeLinewidth;\n\t\tif ( json.wireframeLinecap !== undefined ) material.wireframeLinecap = json.wireframeLinecap;\n\t\tif ( json.wireframeLinejoin !== undefined ) material.wireframeLinejoin = json.wireframeLinejoin;\n\n\t\tif ( json.rotation !== undefined ) material.rotation = json.rotation;\n\n\t\tif ( json.linewidth !== undefined ) material.linewidth = json.linewidth;\n\t\tif ( json.dashSize !== undefined ) material.dashSize = json.dashSize;\n\t\tif ( json.gapSize !== undefined ) material.gapSize = json.gapSize;\n\t\tif ( json.scale !== undefined ) material.scale = json.scale;\n\n\t\tif ( json.polygonOffset !== undefined ) material.polygonOffset = json.polygonOffset;\n\t\tif ( json.polygonOffsetFactor !== undefined ) material.polygonOffsetFactor = json.polygonOffsetFactor;\n\t\tif ( json.polygonOffsetUnits !== undefined ) material.polygonOffsetUnits = json.polygonOffsetUnits;\n\n\t\tif ( json.dithering !== undefined ) material.dithering = json.dithering;\n\n\t\tif ( json.alphaToCoverage !== undefined ) material.alphaToCoverage = json.alphaToCoverage;\n\t\tif ( json.premultipliedAlpha !== undefined ) material.premultipliedAlpha = json.premultipliedAlpha;\n\t\tif ( json.forceSinglePass !== undefined ) material.forceSinglePass = json.forceSinglePass;\n\n\t\tif ( json.visible !== undefined ) material.visible = json.visible;\n\n\t\tif ( json.toneMapped !== undefined ) material.toneMapped = json.toneMapped;\n\n\t\tif ( json.userData !== undefined ) material.userData = json.userData;\n\n\t\tif ( json.vertexColors !== undefined ) {\n\n\t\t\tif ( typeof json.vertexColors === 'number' ) {\n\n\t\t\t\tmaterial.vertexColors = ( json.vertexColors > 0 ) ? true : false;\n\n\t\t\t} else {\n\n\t\t\t\tmaterial.vertexColors = json.vertexColors;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// Shader Material\n\n\t\tif ( json.uniforms !== undefined ) {\n\n\t\t\tfor ( const name in json.uniforms ) {\n\n\t\t\t\tconst uniform = json.uniforms[ name ];\n\n\t\t\t\tmaterial.uniforms[ name ] = {};\n\n\t\t\t\tswitch ( uniform.type ) {\n\n\t\t\t\t\tcase 't':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = getTexture( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'c':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Color().setHex( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'v2':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Vector2().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'v3':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Vector3().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'v4':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Vector4().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'm3':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Matrix3().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'm4':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Matrix4().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tdefault:\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = uniform.value;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json.defines !== undefined ) material.defines = json.defines;\n\t\tif ( json.vertexShader !== undefined ) material.vertexShader = json.vertexShader;\n\t\tif ( json.fragmentShader !== undefined ) material.fragmentShader = json.fragmentShader;\n\t\tif ( json.glslVersion !== undefined ) material.glslVersion = json.glslVersion;\n\n\t\tif ( json.extensions !== undefined ) {\n\n\t\t\tfor ( const key in json.extensions ) {\n\n\t\t\t\tmaterial.extensions[ key ] = json.extensions[ key ];\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json.lights !== undefined ) material.lights = json.lights;\n\t\tif ( json.clipping !== undefined ) material.clipping = json.clipping;\n\n\t\t// for PointsMaterial\n\n\t\tif ( json.size !== undefined ) material.size = json.size;\n\t\tif ( json.sizeAttenuation !== undefined ) material.sizeAttenuation = json.sizeAttenuation;\n\n\t\t// maps\n\n\t\tif ( json.map !== undefined ) material.map = getTexture( json.map );\n\t\tif ( json.matcap !== undefined ) material.matcap = getTexture( json.matcap );\n\n\t\tif ( json.alphaMap !== undefined ) material.alphaMap = getTexture( json.alphaMap );\n\n\t\tif ( json.bumpMap !== undefined ) material.bumpMap = getTexture( json.bumpMap );\n\t\tif ( json.bumpScale !== undefined ) material.bumpScale = json.bumpScale;\n\n\t\tif ( json.normalMap !== undefined ) material.normalMap = getTexture( json.normalMap );\n\t\tif ( json.normalMapType !== undefined ) material.normalMapType = json.normalMapType;\n\t\tif ( json.normalScale !== undefined ) {\n\n\t\t\tlet normalScale = json.normalScale;\n\n\t\t\tif ( Array.isArray( normalScale ) === false ) {\n\n\t\t\t\t// Blender exporter used to export a scalar. See #7459\n\n\t\t\t\tnormalScale = [ normalScale, normalScale ];\n\n\t\t\t}\n\n\t\t\tmaterial.normalScale = new Vector2().fromArray( normalScale );\n\n\t\t}\n\n\t\tif ( json.displacementMap !== undefined ) material.displacementMap = getTexture( json.displacementMap );\n\t\tif ( json.displacementScale !== undefined ) material.displacementScale = json.displacementScale;\n\t\tif ( json.displacementBias !== undefined ) material.displacementBias = json.displacementBias;\n\n\t\tif ( json.roughnessMap !== undefined ) material.roughnessMap = getTexture( json.roughnessMap );\n\t\tif ( json.metalnessMap !== undefined ) material.metalnessMap = getTexture( json.metalnessMap );\n\n\t\tif ( json.emissiveMap !== undefined ) material.emissiveMap = getTexture( json.emissiveMap );\n\t\tif ( json.emissiveIntensity !== undefined ) material.emissiveIntensity = json.emissiveIntensity;\n\n\t\tif ( json.specularMap !== undefined ) material.specularMap = getTexture( json.specularMap );\n\t\tif ( json.specularIntensityMap !== undefined ) material.specularIntensityMap = getTexture( json.specularIntensityMap );\n\t\tif ( json.specularColorMap !== undefined ) material.specularColorMap = getTexture( json.specularColorMap );\n\n\t\tif ( json.envMap !== undefined ) material.envMap = getTexture( json.envMap );\n\t\tif ( json.envMapRotation !== undefined ) material.envMapRotation.fromArray( json.envMapRotation );\n\t\tif ( json.envMapIntensity !== undefined ) material.envMapIntensity = json.envMapIntensity;\n\n\t\tif ( json.reflectivity !== undefined ) material.reflectivity = json.reflectivity;\n\t\tif ( json.refractionRatio !== undefined ) material.refractionRatio = json.refractionRatio;\n\n\t\tif ( json.lightMap !== undefined ) material.lightMap = getTexture( json.lightMap );\n\t\tif ( json.lightMapIntensity !== undefined ) material.lightMapIntensity = json.lightMapIntensity;\n\n\t\tif ( json.aoMap !== undefined ) material.aoMap = getTexture( json.aoMap );\n\t\tif ( json.aoMapIntensity !== undefined ) material.aoMapIntensity = json.aoMapIntensity;\n\n\t\tif ( json.gradientMap !== undefined ) material.gradientMap = getTexture( json.gradientMap );\n\n\t\tif ( json.clearcoatMap !== undefined ) material.clearcoatMap = getTexture( json.clearcoatMap );\n\t\tif ( json.clearcoatRoughnessMap !== undefined ) material.clearcoatRoughnessMap = getTexture( json.clearcoatRoughnessMap );\n\t\tif ( json.clearcoatNormalMap !== undefined ) material.clearcoatNormalMap = getTexture( json.clearcoatNormalMap );\n\t\tif ( json.clearcoatNormalScale !== undefined ) material.clearcoatNormalScale = new Vector2().fromArray( json.clearcoatNormalScale );\n\n\t\tif ( json.iridescenceMap !== undefined ) material.iridescenceMap = getTexture( json.iridescenceMap );\n\t\tif ( json.iridescenceThicknessMap !== undefined ) material.iridescenceThicknessMap = getTexture( json.iridescenceThicknessMap );\n\n\t\tif ( json.transmissionMap !== undefined ) material.transmissionMap = getTexture( json.transmissionMap );\n\t\tif ( json.thicknessMap !== undefined ) material.thicknessMap = getTexture( json.thicknessMap );\n\n\t\tif ( json.anisotropyMap !== undefined ) material.anisotropyMap = getTexture( json.anisotropyMap );\n\n\t\tif ( json.sheenColorMap !== undefined ) material.sheenColorMap = getTexture( json.sheenColorMap );\n\t\tif ( json.sheenRoughnessMap !== undefined ) material.sheenRoughnessMap = getTexture( json.sheenRoughnessMap );\n\n\t\treturn material;\n\n\t}\n\n\t/**\n\t * Textures are not embedded in the material JSON so they have\n\t * to be injected before the loading process starts.\n\t *\n\t * @param {Object} value - A dictionary holding textures for material properties.\n\t * @return {MaterialLoader} A reference to this material loader.\n\t */\n\tsetTextures( value ) {\n\n\t\tthis.textures = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Creates a material for the given type.\n\t *\n\t * @param {string} type - The material type.\n\t * @return {Material} The new material.\n\t */\n\tcreateMaterialFromType( type ) {\n\n\t\treturn MaterialLoader.createMaterialFromType( type );\n\n\t}\n\n\t/**\n\t * Creates a material for the given type.\n\t *\n\t * @static\n\t * @param {string} type - The material type.\n\t * @return {Material} The new material.\n\t */\n\tstatic createMaterialFromType( type ) {\n\n\t\tconst materialLib = {\n\t\t\tShadowMaterial,\n\t\t\tSpriteMaterial,\n\t\t\tRawShaderMaterial,\n\t\t\tShaderMaterial,\n\t\t\tPointsMaterial,\n\t\t\tMeshPhysicalMaterial,\n\t\t\tMeshStandardMaterial,\n\t\t\tMeshPhongMaterial,\n\t\t\tMeshToonMaterial,\n\t\t\tMeshNormalMaterial,\n\t\t\tMeshLambertMaterial,\n\t\t\tMeshDepthMaterial,\n\t\t\tMeshDistanceMaterial,\n\t\t\tMeshBasicMaterial,\n\t\t\tMeshMatcapMaterial,\n\t\t\tLineDashedMaterial,\n\t\t\tLineBasicMaterial,\n\t\t\tMaterial\n\t\t};\n\n\t\treturn new materialLib[ type ]();\n\n\t}\n\n}\n\n/**\n * A class with loader utility functions.\n */\nclass LoaderUtils {\n\n\t/**\n\t * Extracts the base URL from the given URL.\n\t *\n\t * @param {string} url -The URL to extract the base URL from.\n\t * @return {string} The extracted base URL.\n\t */\n\tstatic extractUrlBase( url ) {\n\n\t\tconst index = url.lastIndexOf( '/' );\n\n\t\tif ( index === -1 ) return './';\n\n\t\treturn url.slice( 0, index + 1 );\n\n\t}\n\n\t/**\n\t * Resolves relative URLs against the given path. Absolute paths, data urls,\n\t * and blob URLs will be returned as is. Invalid URLs will return an empty\n\t * string.\n\t *\n\t * @param {string} url -The URL to resolve.\n\t * @param {string} path - The base path for relative URLs to be resolved against.\n\t * @return {string} The resolved URL.\n\t */\n\tstatic resolveURL( url, path ) {\n\n\t\t// Invalid URL\n\t\tif ( typeof url !== 'string' || url === '' ) return '';\n\n\t\t// Host Relative URL\n\t\tif ( /^https?:\\/\\//i.test( path ) && /^\\//.test( url ) ) {\n\n\t\t\tpath = path.replace( /(^https?:\\/\\/[^\\/]+).*/i, '$1' );\n\n\t\t}\n\n\t\t// Absolute URL http://,https://,//\n\t\tif ( /^(https?:)?\\/\\//i.test( url ) ) return url;\n\n\t\t// Data URI\n\t\tif ( /^data:.*,.*$/i.test( url ) ) return url;\n\n\t\t// Blob URL\n\t\tif ( /^blob:.*$/i.test( url ) ) return url;\n\n\t\t// Relative URL\n\t\treturn path + url;\n\n\t}\n\n}\n\n/**\n * An instanced version of a geometry.\n */\nclass InstancedBufferGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new instanced buffer geometry.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedBufferGeometry = true;\n\n\t\tthis.type = 'InstancedBufferGeometry';\n\n\t\t/**\n\t\t * The instance count.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.instanceCount = Infinity;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.instanceCount = source.instanceCount;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.instanceCount = this.instanceCount;\n\n\t\tdata.isInstancedBufferGeometry = true;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Class for loading geometries. The files are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.BufferGeometryLoader();\n * const geometry = await loader.loadAsync( 'models/json/pressure.json' );\n *\n * const material = new THREE.MeshBasicMaterial( { color: 0xF5F5F5 } );\n * const object = new THREE.Mesh( geometry, material );\n * scene.add( object );\n * ```\n *\n * @augments Loader\n */\nclass BufferGeometryLoader extends Loader {\n\n\t/**\n\t * Constructs a new geometry loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded geometry to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(BufferGeometry)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( scope.manager );\n\t\tloader.setPath( scope.path );\n\t\tloader.setRequestHeader( scope.requestHeader );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\ttry {\n\n\t\t\t\tonLoad( scope.parse( JSON.parse( text ) ) );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\tif ( onError ) {\n\n\t\t\t\t\tonError( e );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( e );\n\n\t\t\t\t}\n\n\t\t\t\tscope.manager.itemError( url );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Parses the given JSON object and returns a geometry.\n\t *\n\t * @param {Object} json - The serialized geometry.\n\t * @return {BufferGeometry} The parsed geometry.\n\t */\n\tparse( json ) {\n\n\t\tconst interleavedBufferMap = {};\n\t\tconst arrayBufferMap = {};\n\n\t\tfunction getInterleavedBuffer( json, uuid ) {\n\n\t\t\tif ( interleavedBufferMap[ uuid ] !== undefined ) return interleavedBufferMap[ uuid ];\n\n\t\t\tconst interleavedBuffers = json.interleavedBuffers;\n\t\t\tconst interleavedBuffer = interleavedBuffers[ uuid ];\n\n\t\t\tconst buffer = getArrayBuffer( json, interleavedBuffer.buffer );\n\n\t\t\tconst array = getTypedArray( interleavedBuffer.type, buffer );\n\t\t\tconst ib = new InterleavedBuffer( array, interleavedBuffer.stride );\n\t\t\tib.uuid = interleavedBuffer.uuid;\n\n\t\t\tinterleavedBufferMap[ uuid ] = ib;\n\n\t\t\treturn ib;\n\n\t\t}\n\n\t\tfunction getArrayBuffer( json, uuid ) {\n\n\t\t\tif ( arrayBufferMap[ uuid ] !== undefined ) return arrayBufferMap[ uuid ];\n\n\t\t\tconst arrayBuffers = json.arrayBuffers;\n\t\t\tconst arrayBuffer = arrayBuffers[ uuid ];\n\n\t\t\tconst ab = new Uint32Array( arrayBuffer ).buffer;\n\n\t\t\tarrayBufferMap[ uuid ] = ab;\n\n\t\t\treturn ab;\n\n\t\t}\n\n\t\tconst geometry = json.isInstancedBufferGeometry ? new InstancedBufferGeometry() : new BufferGeometry();\n\n\t\tconst index = json.data.index;\n\n\t\tif ( index !== undefined ) {\n\n\t\t\tconst typedArray = getTypedArray( index.type, index.array );\n\t\t\tgeometry.setIndex( new BufferAttribute( typedArray, 1 ) );\n\n\t\t}\n\n\t\tconst attributes = json.data.attributes;\n\n\t\tfor ( const key in attributes ) {\n\n\t\t\tconst attribute = attributes[ key ];\n\t\t\tlet bufferAttribute;\n\n\t\t\tif ( attribute.isInterleavedBufferAttribute ) {\n\n\t\t\t\tconst interleavedBuffer = getInterleavedBuffer( json.data, attribute.data );\n\t\t\t\tbufferAttribute = new InterleavedBufferAttribute( interleavedBuffer, attribute.itemSize, attribute.offset, attribute.normalized );\n\n\t\t\t} else {\n\n\t\t\t\tconst typedArray = getTypedArray( attribute.type, attribute.array );\n\t\t\t\tconst bufferAttributeConstr = attribute.isInstancedBufferAttribute ? InstancedBufferAttribute : BufferAttribute;\n\t\t\t\tbufferAttribute = new bufferAttributeConstr( typedArray, attribute.itemSize, attribute.normalized );\n\n\t\t\t}\n\n\t\t\tif ( attribute.name !== undefined ) bufferAttribute.name = attribute.name;\n\t\t\tif ( attribute.usage !== undefined ) bufferAttribute.setUsage( attribute.usage );\n\n\t\t\tgeometry.setAttribute( key, bufferAttribute );\n\n\t\t}\n\n\t\tconst morphAttributes = json.data.morphAttributes;\n\n\t\tif ( morphAttributes ) {\n\n\t\t\tfor ( const key in morphAttributes ) {\n\n\t\t\t\tconst attributeArray = morphAttributes[ key ];\n\n\t\t\t\tconst array = [];\n\n\t\t\t\tfor ( let i = 0, il = attributeArray.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst attribute = attributeArray[ i ];\n\t\t\t\t\tlet bufferAttribute;\n\n\t\t\t\t\tif ( attribute.isInterleavedBufferAttribute ) {\n\n\t\t\t\t\t\tconst interleavedBuffer = getInterleavedBuffer( json.data, attribute.data );\n\t\t\t\t\t\tbufferAttribute = new InterleavedBufferAttribute( interleavedBuffer, attribute.itemSize, attribute.offset, attribute.normalized );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tconst typedArray = getTypedArray( attribute.type, attribute.array );\n\t\t\t\t\t\tbufferAttribute = new BufferAttribute( typedArray, attribute.itemSize, attribute.normalized );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( attribute.name !== undefined ) bufferAttribute.name = attribute.name;\n\t\t\t\t\tarray.push( bufferAttribute );\n\n\t\t\t\t}\n\n\t\t\t\tgeometry.morphAttributes[ key ] = array;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst morphTargetsRelative = json.data.morphTargetsRelative;\n\n\t\tif ( morphTargetsRelative ) {\n\n\t\t\tgeometry.morphTargetsRelative = true;\n\n\t\t}\n\n\t\tconst groups = json.data.groups || json.data.drawcalls || json.data.offsets;\n\n\t\tif ( groups !== undefined ) {\n\n\t\t\tfor ( let i = 0, n = groups.length; i !== n; ++ i ) {\n\n\t\t\t\tconst group = groups[ i ];\n\n\t\t\t\tgeometry.addGroup( group.start, group.count, group.materialIndex );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst boundingSphere = json.data.boundingSphere;\n\n\t\tif ( boundingSphere !== undefined ) {\n\n\t\t\tgeometry.boundingSphere = new Sphere().fromJSON( boundingSphere );\n\n\t\t}\n\n\t\tif ( json.name ) geometry.name = json.name;\n\t\tif ( json.userData ) geometry.userData = json.userData;\n\n\t\treturn geometry;\n\n\t}\n\n}\n\n/**\n * A loader for loading a JSON resource in the [JSON Object/Scene format]{@link https://github.com/mrdoob/three.js/wiki/JSON-Object-Scene-format-4}.\n * The files are internally loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.ObjectLoader();\n * const obj = await loader.loadAsync( 'models/json/example.json' );\n * scene.add( obj );\n *\n * // Alternatively, to parse a previously loaded JSON structure\n * const object = await loader.parseAsync( a_json_object );\n * scene.add( object );\n * ```\n *\n * @augments Loader\n */\nclass ObjectLoader extends Loader {\n\n\t/**\n\t * Constructs a new object loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded 3D object to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Object3D)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst path = ( this.path === '' ) ? LoaderUtils.extractUrlBase( url ) : this.path;\n\t\tthis.resourcePath = this.resourcePath || path;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\tlet json = null;\n\n\t\t\ttry {\n\n\t\t\t\tjson = JSON.parse( text );\n\n\t\t\t} catch ( error ) {\n\n\t\t\t\tif ( onError !== undefined ) onError( error );\n\n\t\t\t\tconsole.error( 'THREE:ObjectLoader: Can\\'t parse ' + url + '.', error.message );\n\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t\tconst metadata = json.metadata;\n\n\t\t\tif ( metadata === undefined || metadata.type === undefined || metadata.type.toLowerCase() === 'geometry' ) {\n\n\t\t\t\tif ( onError !== undefined ) onError( new Error( 'THREE.ObjectLoader: Can\\'t load ' + url ) );\n\n\t\t\t\tconsole.error( 'THREE.ObjectLoader: Can\\'t load ' + url );\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t\tscope.parse( json, onLoad );\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Async version of {@link ObjectLoader#load}.\n\t *\n\t * @async\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @return {Promise} A Promise that resolves with the loaded 3D object.\n\t */\n\tasync loadAsync( url, onProgress ) {\n\n\t\tconst scope = this;\n\n\t\tconst path = ( this.path === '' ) ? LoaderUtils.extractUrlBase( url ) : this.path;\n\t\tthis.resourcePath = this.resourcePath || path;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\n\t\tconst text = await loader.loadAsync( url, onProgress );\n\n\t\tconst json = JSON.parse( text );\n\n\t\tconst metadata = json.metadata;\n\n\t\tif ( metadata === undefined || metadata.type === undefined || metadata.type.toLowerCase() === 'geometry' ) {\n\n\t\t\tthrow new Error( 'THREE.ObjectLoader: Can\\'t load ' + url );\n\n\t\t}\n\n\t\treturn await scope.parseAsync( json );\n\n\t}\n\n\t/**\n\t * Parses the given JSON. This is used internally by {@link ObjectLoader#load}\n\t * but can also be used directly to parse a previously loaded JSON structure.\n\t *\n\t * @param {Object} json - The serialized 3D object.\n\t * @param {onLoad} onLoad - Executed when all resources (e.g. textures) have been fully loaded.\n\t * @return {Object3D} The parsed 3D object.\n\t */\n\tparse( json, onLoad ) {\n\n\t\tconst animations = this.parseAnimations( json.animations );\n\t\tconst shapes = this.parseShapes( json.shapes );\n\t\tconst geometries = this.parseGeometries( json.geometries, shapes );\n\n\t\tconst images = this.parseImages( json.images, function () {\n\n\t\t\tif ( onLoad !== undefined ) onLoad( object );\n\n\t\t} );\n\n\t\tconst textures = this.parseTextures( json.textures, images );\n\t\tconst materials = this.parseMaterials( json.materials, textures );\n\n\t\tconst object = this.parseObject( json.object, geometries, materials, textures, animations );\n\t\tconst skeletons = this.parseSkeletons( json.skeletons, object );\n\n\t\tthis.bindSkeletons( object, skeletons );\n\t\tthis.bindLightTargets( object );\n\n\t\t//\n\n\t\tif ( onLoad !== undefined ) {\n\n\t\t\tlet hasImages = false;\n\n\t\t\tfor ( const uuid in images ) {\n\n\t\t\t\tif ( images[ uuid ].data instanceof HTMLImageElement ) {\n\n\t\t\t\t\thasImages = true;\n\t\t\t\t\tbreak;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( hasImages === false ) onLoad( object );\n\n\t\t}\n\n\t\treturn object;\n\n\t}\n\n\t/**\n\t * Async version of {@link ObjectLoader#parse}.\n\t *\n\t * @param {Object} json - The serialized 3D object.\n\t * @return {Promise} A Promise that resolves with the parsed 3D object.\n\t */\n\tasync parseAsync( json ) {\n\n\t\tconst animations = this.parseAnimations( json.animations );\n\t\tconst shapes = this.parseShapes( json.shapes );\n\t\tconst geometries = this.parseGeometries( json.geometries, shapes );\n\n\t\tconst images = await this.parseImagesAsync( json.images );\n\n\t\tconst textures = this.parseTextures( json.textures, images );\n\t\tconst materials = this.parseMaterials( json.materials, textures );\n\n\t\tconst object = this.parseObject( json.object, geometries, materials, textures, animations );\n\t\tconst skeletons = this.parseSkeletons( json.skeletons, object );\n\n\t\tthis.bindSkeletons( object, skeletons );\n\t\tthis.bindLightTargets( object );\n\n\t\treturn object;\n\n\t}\n\n\t// internals\n\n\tparseShapes( json ) {\n\n\t\tconst shapes = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst shape = new Shape().fromJSON( json[ i ] );\n\n\t\t\t\tshapes[ shape.uuid ] = shape;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn shapes;\n\n\t}\n\n\tparseSkeletons( json, object ) {\n\n\t\tconst skeletons = {};\n\t\tconst bones = {};\n\n\t\t// generate bone lookup table\n\n\t\tobject.traverse( function ( child ) {\n\n\t\t\tif ( child.isBone ) bones[ child.uuid ] = child;\n\n\t\t} );\n\n\t\t// create skeletons\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst skeleton = new Skeleton().fromJSON( json[ i ], bones );\n\n\t\t\t\tskeletons[ skeleton.uuid ] = skeleton;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn skeletons;\n\n\t}\n\n\tparseGeometries( json, shapes ) {\n\n\t\tconst geometries = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tconst bufferGeometryLoader = new BufferGeometryLoader();\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tlet geometry;\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tswitch ( data.type ) {\n\n\t\t\t\t\tcase 'BufferGeometry':\n\t\t\t\t\tcase 'InstancedBufferGeometry':\n\n\t\t\t\t\t\tgeometry = bufferGeometryLoader.parse( data );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tdefault:\n\n\t\t\t\t\t\tif ( data.type in Geometries ) {\n\n\t\t\t\t\t\t\tgeometry = Geometries[ data.type ].fromJSON( data, shapes );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tconsole.warn( `THREE.ObjectLoader: Unsupported geometry type \"${ data.type }\"` );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tgeometry.uuid = data.uuid;\n\n\t\t\t\tif ( data.name !== undefined ) geometry.name = data.name;\n\t\t\t\tif ( data.userData !== undefined ) geometry.userData = data.userData;\n\n\t\t\t\tgeometries[ data.uuid ] = geometry;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn geometries;\n\n\t}\n\n\tparseMaterials( json, textures ) {\n\n\t\tconst cache = {}; // MultiMaterial\n\t\tconst materials = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tconst loader = new MaterialLoader();\n\t\t\tloader.setTextures( textures );\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tif ( cache[ data.uuid ] === undefined ) {\n\n\t\t\t\t\tcache[ data.uuid ] = loader.parse( data );\n\n\t\t\t\t}\n\n\t\t\t\tmaterials[ data.uuid ] = cache[ data.uuid ];\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn materials;\n\n\t}\n\n\tparseAnimations( json ) {\n\n\t\tconst animations = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0; i < json.length; i ++ ) {\n\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tconst clip = AnimationClip.parse( data );\n\n\t\t\t\tanimations[ clip.uuid ] = clip;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn animations;\n\n\t}\n\n\tparseImages( json, onLoad ) {\n\n\t\tconst scope = this;\n\t\tconst images = {};\n\n\t\tlet loader;\n\n\t\tfunction loadImage( url ) {\n\n\t\t\tscope.manager.itemStart( url );\n\n\t\t\treturn loader.load( url, function () {\n\n\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t}, undefined, function () {\n\n\t\t\t\tscope.manager.itemError( url );\n\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t} );\n\n\t\t}\n\n\t\tfunction deserializeImage( image ) {\n\n\t\t\tif ( typeof image === 'string' ) {\n\n\t\t\t\tconst url = image;\n\n\t\t\t\tconst path = /^(\\/\\/)|([a-z]+:(\\/\\/)?)/i.test( url ) ? url : scope.resourcePath + url;\n\n\t\t\t\treturn loadImage( path );\n\n\t\t\t} else {\n\n\t\t\t\tif ( image.data ) {\n\n\t\t\t\t\treturn {\n\t\t\t\t\t\tdata: getTypedArray( image.type, image.data ),\n\t\t\t\t\t\twidth: image.width,\n\t\t\t\t\t\theight: image.height\n\t\t\t\t\t};\n\n\t\t\t\t} else {\n\n\t\t\t\t\treturn null;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json !== undefined && json.length > 0 ) {\n\n\t\t\tconst manager = new LoadingManager( onLoad );\n\n\t\t\tloader = new ImageLoader( manager );\n\t\t\tloader.setCrossOrigin( this.crossOrigin );\n\n\t\t\tfor ( let i = 0, il = json.length; i < il; i ++ ) {\n\n\t\t\t\tconst image = json[ i ];\n\t\t\t\tconst url = image.url;\n\n\t\t\t\tif ( Array.isArray( url ) ) {\n\n\t\t\t\t\t// load array of images e.g CubeTexture\n\n\t\t\t\t\tconst imageArray = [];\n\n\t\t\t\t\tfor ( let j = 0, jl = url.length; j < jl; j ++ ) {\n\n\t\t\t\t\t\tconst currentUrl = url[ j ];\n\n\t\t\t\t\t\tconst deserializedImage = deserializeImage( currentUrl );\n\n\t\t\t\t\t\tif ( deserializedImage !== null ) {\n\n\t\t\t\t\t\t\tif ( deserializedImage instanceof HTMLImageElement ) {\n\n\t\t\t\t\t\t\t\timageArray.push( deserializedImage );\n\n\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\t// special case: handle array of data textures for cube textures\n\n\t\t\t\t\t\t\t\timageArray.push( new DataTexture( deserializedImage.data, deserializedImage.width, deserializedImage.height ) );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\timages[ image.uuid ] = new Source( imageArray );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// load single image\n\n\t\t\t\t\tconst deserializedImage = deserializeImage( image.url );\n\t\t\t\t\timages[ image.uuid ] = new Source( deserializedImage );\n\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn images;\n\n\t}\n\n\tasync parseImagesAsync( json ) {\n\n\t\tconst scope = this;\n\t\tconst images = {};\n\n\t\tlet loader;\n\n\t\tasync function deserializeImage( image ) {\n\n\t\t\tif ( typeof image === 'string' ) {\n\n\t\t\t\tconst url = image;\n\n\t\t\t\tconst path = /^(\\/\\/)|([a-z]+:(\\/\\/)?)/i.test( url ) ? url : scope.resourcePath + url;\n\n\t\t\t\treturn await loader.loadAsync( path );\n\n\t\t\t} else {\n\n\t\t\t\tif ( image.data ) {\n\n\t\t\t\t\treturn {\n\t\t\t\t\t\tdata: getTypedArray( image.type, image.data ),\n\t\t\t\t\t\twidth: image.width,\n\t\t\t\t\t\theight: image.height\n\t\t\t\t\t};\n\n\t\t\t\t} else {\n\n\t\t\t\t\treturn null;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json !== undefined && json.length > 0 ) {\n\n\t\t\tloader = new ImageLoader( this.manager );\n\t\t\tloader.setCrossOrigin( this.crossOrigin );\n\n\t\t\tfor ( let i = 0, il = json.length; i < il; i ++ ) {\n\n\t\t\t\tconst image = json[ i ];\n\t\t\t\tconst url = image.url;\n\n\t\t\t\tif ( Array.isArray( url ) ) {\n\n\t\t\t\t\t// load array of images e.g CubeTexture\n\n\t\t\t\t\tconst imageArray = [];\n\n\t\t\t\t\tfor ( let j = 0, jl = url.length; j < jl; j ++ ) {\n\n\t\t\t\t\t\tconst currentUrl = url[ j ];\n\n\t\t\t\t\t\tconst deserializedImage = await deserializeImage( currentUrl );\n\n\t\t\t\t\t\tif ( deserializedImage !== null ) {\n\n\t\t\t\t\t\t\tif ( deserializedImage instanceof HTMLImageElement ) {\n\n\t\t\t\t\t\t\t\timageArray.push( deserializedImage );\n\n\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\t// special case: handle array of data textures for cube textures\n\n\t\t\t\t\t\t\t\timageArray.push( new DataTexture( deserializedImage.data, deserializedImage.width, deserializedImage.height ) );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\timages[ image.uuid ] = new Source( imageArray );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// load single image\n\n\t\t\t\t\tconst deserializedImage = await deserializeImage( image.url );\n\t\t\t\t\timages[ image.uuid ] = new Source( deserializedImage );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn images;\n\n\t}\n\n\tparseTextures( json, images ) {\n\n\t\tfunction parseConstant( value, type ) {\n\n\t\t\tif ( typeof value === 'number' ) return value;\n\n\t\t\tconsole.warn( 'THREE.ObjectLoader.parseTexture: Constant should be in numeric form.', value );\n\n\t\t\treturn type[ value ];\n\n\t\t}\n\n\t\tconst textures = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tif ( data.image === undefined ) {\n\n\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: No \"image\" specified for', data.uuid );\n\n\t\t\t\t}\n\n\t\t\t\tif ( images[ data.image ] === undefined ) {\n\n\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined image', data.image );\n\n\t\t\t\t}\n\n\t\t\t\tconst source = images[ data.image ];\n\t\t\t\tconst image = source.data;\n\n\t\t\t\tlet texture;\n\n\t\t\t\tif ( Array.isArray( image ) ) {\n\n\t\t\t\t\ttexture = new CubeTexture();\n\n\t\t\t\t\tif ( image.length === 6 ) texture.needsUpdate = true;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tif ( image && image.data ) {\n\n\t\t\t\t\t\ttexture = new DataTexture();\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ttexture = new Texture();\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( image ) texture.needsUpdate = true; // textures can have undefined image data\n\n\t\t\t\t}\n\n\t\t\t\ttexture.source = source;\n\n\t\t\t\ttexture.uuid = data.uuid;\n\n\t\t\t\tif ( data.name !== undefined ) texture.name = data.name;\n\n\t\t\t\tif ( data.mapping !== undefined ) texture.mapping = parseConstant( data.mapping, TEXTURE_MAPPING );\n\t\t\t\tif ( data.channel !== undefined ) texture.channel = data.channel;\n\n\t\t\t\tif ( data.offset !== undefined ) texture.offset.fromArray( data.offset );\n\t\t\t\tif ( data.repeat !== undefined ) texture.repeat.fromArray( data.repeat );\n\t\t\t\tif ( data.center !== undefined ) texture.center.fromArray( data.center );\n\t\t\t\tif ( data.rotation !== undefined ) texture.rotation = data.rotation;\n\n\t\t\t\tif ( data.wrap !== undefined ) {\n\n\t\t\t\t\ttexture.wrapS = parseConstant( data.wrap[ 0 ], TEXTURE_WRAPPING );\n\t\t\t\t\ttexture.wrapT = parseConstant( data.wrap[ 1 ], TEXTURE_WRAPPING );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.format !== undefined ) texture.format = data.format;\n\t\t\t\tif ( data.internalFormat !== undefined ) texture.internalFormat = data.internalFormat;\n\t\t\t\tif ( data.type !== undefined ) texture.type = data.type;\n\t\t\t\tif ( data.colorSpace !== undefined ) texture.colorSpace = data.colorSpace;\n\n\t\t\t\tif ( data.minFilter !== undefined ) texture.minFilter = parseConstant( data.minFilter, TEXTURE_FILTER );\n\t\t\t\tif ( data.magFilter !== undefined ) texture.magFilter = parseConstant( data.magFilter, TEXTURE_FILTER );\n\t\t\t\tif ( data.anisotropy !== undefined ) texture.anisotropy = data.anisotropy;\n\n\t\t\t\tif ( data.flipY !== undefined ) texture.flipY = data.flipY;\n\n\t\t\t\tif ( data.generateMipmaps !== undefined ) texture.generateMipmaps = data.generateMipmaps;\n\t\t\t\tif ( data.premultiplyAlpha !== undefined ) texture.premultiplyAlpha = data.premultiplyAlpha;\n\t\t\t\tif ( data.unpackAlignment !== undefined ) texture.unpackAlignment = data.unpackAlignment;\n\t\t\t\tif ( data.compareFunction !== undefined ) texture.compareFunction = data.compareFunction;\n\n\t\t\t\tif ( data.userData !== undefined ) texture.userData = data.userData;\n\n\t\t\t\ttextures[ data.uuid ] = texture;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn textures;\n\n\t}\n\n\tparseObject( data, geometries, materials, textures, animations ) {\n\n\t\tlet object;\n\n\t\tfunction getGeometry( name ) {\n\n\t\t\tif ( geometries[ name ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined geometry', name );\n\n\t\t\t}\n\n\t\t\treturn geometries[ name ];\n\n\t\t}\n\n\t\tfunction getMaterial( name ) {\n\n\t\t\tif ( name === undefined ) return undefined;\n\n\t\t\tif ( Array.isArray( name ) ) {\n\n\t\t\t\tconst array = [];\n\n\t\t\t\tfor ( let i = 0, l = name.length; i < l; i ++ ) {\n\n\t\t\t\t\tconst uuid = name[ i ];\n\n\t\t\t\t\tif ( materials[ uuid ] === undefined ) {\n\n\t\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined material', uuid );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tarray.push( materials[ uuid ] );\n\n\t\t\t\t}\n\n\t\t\t\treturn array;\n\n\t\t\t}\n\n\t\t\tif ( materials[ name ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined material', name );\n\n\t\t\t}\n\n\t\t\treturn materials[ name ];\n\n\t\t}\n\n\t\tfunction getTexture( uuid ) {\n\n\t\t\tif ( textures[ uuid ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined texture', uuid );\n\n\t\t\t}\n\n\t\t\treturn textures[ uuid ];\n\n\t\t}\n\n\t\tlet geometry, material;\n\n\t\tswitch ( data.type ) {\n\n\t\t\tcase 'Scene':\n\n\t\t\t\tobject = new Scene();\n\n\t\t\t\tif ( data.background !== undefined ) {\n\n\t\t\t\t\tif ( Number.isInteger( data.background ) ) {\n\n\t\t\t\t\t\tobject.background = new Color( data.background );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tobject.background = getTexture( data.background );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.environment !== undefined ) {\n\n\t\t\t\t\tobject.environment = getTexture( data.environment );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.fog !== undefined ) {\n\n\t\t\t\t\tif ( data.fog.type === 'Fog' ) {\n\n\t\t\t\t\t\tobject.fog = new Fog( data.fog.color, data.fog.near, data.fog.far );\n\n\t\t\t\t\t} else if ( data.fog.type === 'FogExp2' ) {\n\n\t\t\t\t\t\tobject.fog = new FogExp2( data.fog.color, data.fog.density );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( data.fog.name !== '' ) {\n\n\t\t\t\t\t\tobject.fog.name = data.fog.name;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.backgroundBlurriness !== undefined ) object.backgroundBlurriness = data.backgroundBlurriness;\n\t\t\t\tif ( data.backgroundIntensity !== undefined ) object.backgroundIntensity = data.backgroundIntensity;\n\t\t\t\tif ( data.backgroundRotation !== undefined ) object.backgroundRotation.fromArray( data.backgroundRotation );\n\n\t\t\t\tif ( data.environmentIntensity !== undefined ) object.environmentIntensity = data.environmentIntensity;\n\t\t\t\tif ( data.environmentRotation !== undefined ) object.environmentRotation.fromArray( data.environmentRotation );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'PerspectiveCamera':\n\n\t\t\t\tobject = new PerspectiveCamera( data.fov, data.aspect, data.near, data.far );\n\n\t\t\t\tif ( data.focus !== undefined ) object.focus = data.focus;\n\t\t\t\tif ( data.zoom !== undefined ) object.zoom = data.zoom;\n\t\t\t\tif ( data.filmGauge !== undefined ) object.filmGauge = data.filmGauge;\n\t\t\t\tif ( data.filmOffset !== undefined ) object.filmOffset = data.filmOffset;\n\t\t\t\tif ( data.view !== undefined ) object.view = Object.assign( {}, data.view );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'OrthographicCamera':\n\n\t\t\t\tobject = new OrthographicCamera( data.left, data.right, data.top, data.bottom, data.near, data.far );\n\n\t\t\t\tif ( data.zoom !== undefined ) object.zoom = data.zoom;\n\t\t\t\tif ( data.view !== undefined ) object.view = Object.assign( {}, data.view );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'AmbientLight':\n\n\t\t\t\tobject = new AmbientLight( data.color, data.intensity );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'DirectionalLight':\n\n\t\t\t\tobject = new DirectionalLight( data.color, data.intensity );\n\t\t\t\tobject.target = data.target || '';\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'PointLight':\n\n\t\t\t\tobject = new PointLight( data.color, data.intensity, data.distance, data.decay );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'RectAreaLight':\n\n\t\t\t\tobject = new RectAreaLight( data.color, data.intensity, data.width, data.height );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'SpotLight':\n\n\t\t\t\tobject = new SpotLight( data.color, data.intensity, data.distance, data.angle, data.penumbra, data.decay );\n\t\t\t\tobject.target = data.target || '';\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'HemisphereLight':\n\n\t\t\t\tobject = new HemisphereLight( data.color, data.groundColor, data.intensity );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LightProbe':\n\n\t\t\t\tobject = new LightProbe().fromJSON( data );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'SkinnedMesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t \tmaterial = getMaterial( data.material );\n\n\t\t\t\tobject = new SkinnedMesh( geometry, material );\n\n\t\t\t\tif ( data.bindMode !== undefined ) object.bindMode = data.bindMode;\n\t\t\t\tif ( data.bindMatrix !== undefined ) object.bindMatrix.fromArray( data.bindMatrix );\n\t\t\t\tif ( data.skeleton !== undefined ) object.skeleton = data.skeleton;\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Mesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t\tmaterial = getMaterial( data.material );\n\n\t\t\t\tobject = new Mesh( geometry, material );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'InstancedMesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t\tmaterial = getMaterial( data.material );\n\t\t\t\tconst count = data.count;\n\t\t\t\tconst instanceMatrix = data.instanceMatrix;\n\t\t\t\tconst instanceColor = data.instanceColor;\n\n\t\t\t\tobject = new InstancedMesh( geometry, material, count );\n\t\t\t\tobject.instanceMatrix = new InstancedBufferAttribute( new Float32Array( instanceMatrix.array ), 16 );\n\t\t\t\tif ( instanceColor !== undefined ) object.instanceColor = new InstancedBufferAttribute( new Float32Array( instanceColor.array ), instanceColor.itemSize );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'BatchedMesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t\tmaterial = getMaterial( data.material );\n\n\t\t\t\tobject = new BatchedMesh( data.maxInstanceCount, data.maxVertexCount, data.maxIndexCount, material );\n\t\t\t\tobject.geometry = geometry;\n\t\t\t\tobject.perObjectFrustumCulled = data.perObjectFrustumCulled;\n\t\t\t\tobject.sortObjects = data.sortObjects;\n\n\t\t\t\tobject._drawRanges = data.drawRanges;\n\t\t\t\tobject._reservedRanges = data.reservedRanges;\n\n\t\t\t\tobject._geometryInfo = data.geometryInfo.map( info => {\n\n\t\t\t\t\tlet box = null;\n\t\t\t\t\tlet sphere = null;\n\t\t\t\t\tif ( info.boundingBox !== undefined ) {\n\n\t\t\t\t\t\tbox = new Box3().fromJSON( info.boundingBox );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( info.boundingSphere !== undefined ) {\n\n\t\t\t\t\t\tsphere = new Sphere().fromJSON( info.boundingSphere );\n\n\t\t\t\t\t}\n\n\t\t\t\t\treturn {\n\t\t\t\t\t\t...info,\n\t\t\t\t\t\tboundingBox: box,\n\t\t\t\t\t\tboundingSphere: sphere\n\t\t\t\t\t};\n\n\t\t\t\t} );\n\t\t\t\tobject._instanceInfo = data.instanceInfo;\n\n\t\t\t\tobject._availableInstanceIds = data._availableInstanceIds;\n\t\t\t\tobject._availableGeometryIds = data._availableGeometryIds;\n\n\t\t\t\tobject._nextIndexStart = data.nextIndexStart;\n\t\t\t\tobject._nextVertexStart = data.nextVertexStart;\n\t\t\t\tobject._geometryCount = data.geometryCount;\n\n\t\t\t\tobject._maxInstanceCount = data.maxInstanceCount;\n\t\t\t\tobject._maxVertexCount = data.maxVertexCount;\n\t\t\t\tobject._maxIndexCount = data.maxIndexCount;\n\n\t\t\t\tobject._geometryInitialized = data.geometryInitialized;\n\n\t\t\t\tobject._matricesTexture = getTexture( data.matricesTexture.uuid );\n\n\t\t\t\tobject._indirectTexture = getTexture( data.indirectTexture.uuid );\n\n\t\t\t\tif ( data.colorsTexture !== undefined ) {\n\n\t\t\t\t\tobject._colorsTexture = getTexture( data.colorsTexture.uuid );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.boundingSphere !== undefined ) {\n\n\t\t\t\t\tobject.boundingSphere = new Sphere().fromJSON( data.boundingSphere );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.boundingBox !== undefined ) {\n\n\t\t\t\t\tobject.boundingBox = new Box3().fromJSON( data.boundingBox );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LOD':\n\n\t\t\t\tobject = new LOD();\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Line':\n\n\t\t\t\tobject = new Line( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LineLoop':\n\n\t\t\t\tobject = new LineLoop( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LineSegments':\n\n\t\t\t\tobject = new LineSegments( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'PointCloud':\n\t\t\tcase 'Points':\n\n\t\t\t\tobject = new Points( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Sprite':\n\n\t\t\t\tobject = new Sprite( getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Group':\n\n\t\t\t\tobject = new Group();\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Bone':\n\n\t\t\t\tobject = new Bone();\n\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\n\t\t\t\tobject = new Object3D();\n\n\t\t}\n\n\t\tobject.uuid = data.uuid;\n\n\t\tif ( data.name !== undefined ) object.name = data.name;\n\n\t\tif ( data.matrix !== undefined ) {\n\n\t\t\tobject.matrix.fromArray( data.matrix );\n\n\t\t\tif ( data.matrixAutoUpdate !== undefined ) object.matrixAutoUpdate = data.matrixAutoUpdate;\n\t\t\tif ( object.matrixAutoUpdate ) object.matrix.decompose( object.position, object.quaternion, object.scale );\n\n\t\t} else {\n\n\t\t\tif ( data.position !== undefined ) object.position.fromArray( data.position );\n\t\t\tif ( data.rotation !== undefined ) object.rotation.fromArray( data.rotation );\n\t\t\tif ( data.quaternion !== undefined ) object.quaternion.fromArray( data.quaternion );\n\t\t\tif ( data.scale !== undefined ) object.scale.fromArray( data.scale );\n\n\t\t}\n\n\t\tif ( data.up !== undefined ) object.up.fromArray( data.up );\n\n\t\tif ( data.castShadow !== undefined ) object.castShadow = data.castShadow;\n\t\tif ( data.receiveShadow !== undefined ) object.receiveShadow = data.receiveShadow;\n\n\t\tif ( data.shadow ) {\n\n\t\t\tif ( data.shadow.intensity !== undefined ) object.shadow.intensity = data.shadow.intensity;\n\t\t\tif ( data.shadow.bias !== undefined ) object.shadow.bias = data.shadow.bias;\n\t\t\tif ( data.shadow.normalBias !== undefined ) object.shadow.normalBias = data.shadow.normalBias;\n\t\t\tif ( data.shadow.radius !== undefined ) object.shadow.radius = data.shadow.radius;\n\t\t\tif ( data.shadow.mapSize !== undefined ) object.shadow.mapSize.fromArray( data.shadow.mapSize );\n\t\t\tif ( data.shadow.camera !== undefined ) object.shadow.camera = this.parseObject( data.shadow.camera );\n\n\t\t}\n\n\t\tif ( data.visible !== undefined ) object.visible = data.visible;\n\t\tif ( data.frustumCulled !== undefined ) object.frustumCulled = data.frustumCulled;\n\t\tif ( data.renderOrder !== undefined ) object.renderOrder = data.renderOrder;\n\t\tif ( data.userData !== undefined ) object.userData = data.userData;\n\t\tif ( data.layers !== undefined ) object.layers.mask = data.layers;\n\n\t\tif ( data.children !== undefined ) {\n\n\t\t\tconst children = data.children;\n\n\t\t\tfor ( let i = 0; i < children.length; i ++ ) {\n\n\t\t\t\tobject.add( this.parseObject( children[ i ], geometries, materials, textures, animations ) );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( data.animations !== undefined ) {\n\n\t\t\tconst objectAnimations = data.animations;\n\n\t\t\tfor ( let i = 0; i < objectAnimations.length; i ++ ) {\n\n\t\t\t\tconst uuid = objectAnimations[ i ];\n\n\t\t\t\tobject.animations.push( animations[ uuid ] );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( data.type === 'LOD' ) {\n\n\t\t\tif ( data.autoUpdate !== undefined ) object.autoUpdate = data.autoUpdate;\n\n\t\t\tconst levels = data.levels;\n\n\t\t\tfor ( let l = 0; l < levels.length; l ++ ) {\n\n\t\t\t\tconst level = levels[ l ];\n\t\t\t\tconst child = object.getObjectByProperty( 'uuid', level.object );\n\n\t\t\t\tif ( child !== undefined ) {\n\n\t\t\t\t\tobject.addLevel( child, level.distance, level.hysteresis );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn object;\n\n\t}\n\n\tbindSkeletons( object, skeletons ) {\n\n\t\tif ( Object.keys( skeletons ).length === 0 ) return;\n\n\t\tobject.traverse( function ( child ) {\n\n\t\t\tif ( child.isSkinnedMesh === true && child.skeleton !== undefined ) {\n\n\t\t\t\tconst skeleton = skeletons[ child.skeleton ];\n\n\t\t\t\tif ( skeleton === undefined ) {\n\n\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: No skeleton found with UUID:', child.skeleton );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tchild.bind( skeleton, child.bindMatrix );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} );\n\n\t}\n\n\tbindLightTargets( object ) {\n\n\t\tobject.traverse( function ( child ) {\n\n\t\t\tif ( child.isDirectionalLight || child.isSpotLight ) {\n\n\t\t\t\tconst uuid = child.target;\n\n\t\t\t\tconst target = object.getObjectByProperty( 'uuid', uuid );\n\n\t\t\t\tif ( target !== undefined ) {\n\n\t\t\t\t\tchild.target = target;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tchild.target = new Object3D();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} );\n\n\t}\n\n}\n\nconst TEXTURE_MAPPING = {\n\tUVMapping: UVMapping,\n\tCubeReflectionMapping: CubeReflectionMapping,\n\tCubeRefractionMapping: CubeRefractionMapping,\n\tEquirectangularReflectionMapping: EquirectangularReflectionMapping,\n\tEquirectangularRefractionMapping: EquirectangularRefractionMapping,\n\tCubeUVReflectionMapping: CubeUVReflectionMapping\n};\n\nconst TEXTURE_WRAPPING = {\n\tRepeatWrapping: RepeatWrapping,\n\tClampToEdgeWrapping: ClampToEdgeWrapping,\n\tMirroredRepeatWrapping: MirroredRepeatWrapping\n};\n\nconst TEXTURE_FILTER = {\n\tNearestFilter: NearestFilter,\n\tNearestMipmapNearestFilter: NearestMipmapNearestFilter,\n\tNearestMipmapLinearFilter: NearestMipmapLinearFilter,\n\tLinearFilter: LinearFilter,\n\tLinearMipmapNearestFilter: LinearMipmapNearestFilter,\n\tLinearMipmapLinearFilter: LinearMipmapLinearFilter\n};\n\nconst _errorMap = new WeakMap();\n\n/**\n * A loader for loading images as an [ImageBitmap]{@link https://developer.mozilla.org/en-US/docs/Web/API/ImageBitmap}.\n * An `ImageBitmap` provides an asynchronous and resource efficient pathway to prepare\n * textures for rendering.\n *\n * Note that {@link Texture#flipY} and {@link Texture#premultiplyAlpha} are ignored with image bitmaps.\n * They needs these configuration on bitmap creation unlike regular images need them on uploading to GPU.\n *\n * You need to set the equivalent options via {@link ImageBitmapLoader#setOptions} instead.\n *\n * Also note that unlike {@link FileLoader}, this loader avoids multiple concurrent requests to the same URL only if `Cache` is enabled.\n *\n * ```js\n * const loader = new THREE.ImageBitmapLoader();\n * loader.setOptions( { imageOrientation: 'flipY' } ); // set options if needed\n * const imageBitmap = await loader.loadAsync( 'image.png' );\n *\n * const texture = new THREE.Texture( imageBitmap );\n * texture.needsUpdate = true;\n * ```\n *\n * @augments Loader\n */\nclass ImageBitmapLoader extends Loader {\n\n\t/**\n\t * Constructs a new image bitmap loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isImageBitmapLoader = true;\n\n\t\tif ( typeof createImageBitmap === 'undefined' ) {\n\n\t\t\tconsole.warn( 'THREE.ImageBitmapLoader: createImageBitmap() not supported.' );\n\n\t\t}\n\n\t\tif ( typeof fetch === 'undefined' ) {\n\n\t\t\tconsole.warn( 'THREE.ImageBitmapLoader: fetch() not supported.' );\n\n\t\t}\n\n\t\t/**\n\t\t * Represents the loader options.\n\t\t *\n\t\t * @type {Object}\n\t\t * @default {premultiplyAlpha:'none'}\n\t\t */\n\t\tthis.options = { premultiplyAlpha: 'none' };\n\n\t\t/**\n\t\t * Used for aborting requests.\n\t\t *\n\t\t * @private\n\t\t * @type {AbortController}\n\t\t */\n\t\tthis._abortController = new AbortController();\n\n\t}\n\n\t/**\n\t * Sets the given loader options. The structure of the object must match the `options` parameter of\n\t * [createImageBitmap]{@link https://developer.mozilla.org/en-US/docs/Web/API/Window/createImageBitmap}.\n\t *\n\t * @param {Object} options - The loader options to set.\n\t * @return {ImageBitmapLoader} A reference to this image bitmap loader.\n\t */\n\tsetOptions( options ) {\n\n\t\tthis.options = options;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded image bitmap to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(ImageBitmap)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {ImageBitmap|undefined} The image bitmap.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tif ( url === undefined ) url = '';\n\n\t\tif ( this.path !== undefined ) url = this.path + url;\n\n\t\turl = this.manager.resolveURL( url );\n\n\t\tconst scope = this;\n\n\t\tconst cached = Cache.get( `image-bitmap:${url}` );\n\n\t\tif ( cached !== undefined ) {\n\n\t\t\tscope.manager.itemStart( url );\n\n\t\t\t// If cached is a promise, wait for it to resolve\n\t\t\tif ( cached.then ) {\n\n\t\t\t\tcached.then( imageBitmap => {\n\n\t\t\t\t\t// check if there is an error for the cached promise\n\n\t\t\t\t\tif ( _errorMap.has( cached ) === true ) {\n\n\t\t\t\t\t\tif ( onError ) onError( _errorMap.get( cached ) );\n\n\t\t\t\t\t\tscope.manager.itemError( url );\n\t\t\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tif ( onLoad ) onLoad( imageBitmap );\n\n\t\t\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t\t\t\treturn imageBitmap;\n\n\t\t\t\t\t}\n\n\t\t\t\t} );\n\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t\t// If cached is not a promise (i.e., it's already an imageBitmap)\n\t\t\tsetTimeout( function () {\n\n\t\t\t\tif ( onLoad ) onLoad( cached );\n\n\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t}, 0 );\n\n\t\t\treturn cached;\n\n\t\t}\n\n\t\tconst fetchOptions = {};\n\t\tfetchOptions.credentials = ( this.crossOrigin === 'anonymous' ) ? 'same-origin' : 'include';\n\t\tfetchOptions.headers = this.requestHeader;\n\t\tfetchOptions.signal = ( typeof AbortSignal.any === 'function' ) ? AbortSignal.any( [ this._abortController.signal, this.manager.abortController.signal ] ) : this._abortController.signal;\n\n\t\tconst promise = fetch( url, fetchOptions ).then( function ( res ) {\n\n\t\t\treturn res.blob();\n\n\t\t} ).then( function ( blob ) {\n\n\t\t\treturn createImageBitmap( blob, Object.assign( scope.options, { colorSpaceConversion: 'none' } ) );\n\n\t\t} ).then( function ( imageBitmap ) {\n\n\t\t\tCache.add( `image-bitmap:${url}`, imageBitmap );\n\n\t\t\tif ( onLoad ) onLoad( imageBitmap );\n\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t\treturn imageBitmap;\n\n\t\t} ).catch( function ( e ) {\n\n\t\t\tif ( onError ) onError( e );\n\n\t\t\t_errorMap.set( promise, e );\n\n\t\t\tCache.remove( `image-bitmap:${url}` );\n\n\t\t\tscope.manager.itemError( url );\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t} );\n\n\t\tCache.add( `image-bitmap:${url}`, promise );\n\t\tscope.manager.itemStart( url );\n\n\t}\n\n\t/**\n\t * Aborts ongoing fetch requests.\n\t *\n\t * @return {ImageBitmapLoader} A reference to this instance.\n\t */\n\tabort() {\n\n\t\tthis._abortController.abort();\n\t\tthis._abortController = new AbortController();\n\n\t\treturn this;\n\n\t}\n\n}\n\nlet _context;\n\n/**\n * Manages the global audio context in the engine.\n *\n * @hideconstructor\n */\nclass AudioContext {\n\n\t/**\n\t * Returns the global native audio context.\n\t *\n\t * @return {AudioContext} The native audio context.\n\t */\n\tstatic getContext() {\n\n\t\tif ( _context === undefined ) {\n\n\t\t\t_context = new ( window.AudioContext || window.webkitAudioContext )();\n\n\t\t}\n\n\t\treturn _context;\n\n\t}\n\n\t/**\n\t * Allows to set the global native audio context from outside.\n\t *\n\t * @param {AudioContext} value - The native context to set.\n\t */\n\tstatic setContext( value ) {\n\n\t\t_context = value;\n\n\t}\n\n}\n\n/**\n * Class for loading audio buffers. Audios are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const audioListener = new THREE.AudioListener();\n * const ambientSound = new THREE.Audio( audioListener );\n *\n * const loader = new THREE.AudioLoader();\n * const audioBuffer = await loader.loadAsync( 'audio/ambient_ocean.ogg' );\n *\n * ambientSound.setBuffer( audioBuffer );\n * ambientSound.play();\n * ```\n *\n * @augments Loader\n */\nclass AudioLoader extends Loader {\n\n\t/**\n\t * Constructs a new audio loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded audio buffer\n\t * to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(AudioBuffer)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setResponseType( 'arraybuffer' );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\t\tloader.load( url, function ( buffer ) {\n\n\t\t\ttry {\n\n\t\t\t\t// Create a copy of the buffer. The `decodeAudioData` method\n\t\t\t\t// detaches the buffer when complete, preventing reuse.\n\t\t\t\tconst bufferCopy = buffer.slice( 0 );\n\n\t\t\t\tconst context = AudioContext.getContext();\n\t\t\t\tcontext.decodeAudioData( bufferCopy, function ( audioBuffer ) {\n\n\t\t\t\t\tonLoad( audioBuffer );\n\n\t\t\t\t} ).catch( handleError );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\thandleError( e );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t\tfunction handleError( e ) {\n\n\t\t\tif ( onError ) {\n\n\t\t\t\tonError( e );\n\n\t\t\t} else {\n\n\t\t\t\tconsole.error( e );\n\n\t\t\t}\n\n\t\t\tscope.manager.itemError( url );\n\n\t\t}\n\n\t}\n\n}\n\nconst _eyeRight = /*@__PURE__*/ new Matrix4();\nconst _eyeLeft = /*@__PURE__*/ new Matrix4();\nconst _projectionMatrix = /*@__PURE__*/ new Matrix4();\n\n/**\n * A special type of camera that uses two perspective cameras with\n * stereoscopic projection. Can be used for rendering stereo effects\n * like [3D Anaglyph]{@link https://en.wikipedia.org/wiki/Anaglyph_3D} or\n * [Parallax Barrier]{@link https://en.wikipedia.org/wiki/parallax_barrier}.\n */\nclass StereoCamera {\n\n\t/**\n\t * Constructs a new stereo camera.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'StereoCamera';\n\n\t\t/**\n\t\t * The aspect.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aspect = 1;\n\n\t\t/**\n\t\t * The eye separation which represents the distance\n\t\t * between the left and right camera.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.064\n\t\t */\n\t\tthis.eyeSep = 0.064;\n\n\t\t/**\n\t\t * The camera representing the left eye. This is added to layer `1` so objects to be\n\t\t * rendered by the left camera must also be added to this layer.\n\t\t *\n\t\t * @type {PerspectiveCamera}\n\t\t */\n\t\tthis.cameraL = new PerspectiveCamera();\n\t\tthis.cameraL.layers.enable( 1 );\n\t\tthis.cameraL.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The camera representing the right eye. This is added to layer `2` so objects to be\n\t\t * rendered by the right camera must also be added to this layer.\n\t\t *\n\t\t * @type {PerspectiveCamera}\n\t\t */\n\t\tthis.cameraR = new PerspectiveCamera();\n\t\tthis.cameraR.layers.enable( 2 );\n\t\tthis.cameraR.matrixAutoUpdate = false;\n\n\t\tthis._cache = {\n\t\t\tfocus: null,\n\t\t\tfov: null,\n\t\t\taspect: null,\n\t\t\tnear: null,\n\t\t\tfar: null,\n\t\t\tzoom: null,\n\t\t\teyeSep: null\n\t\t};\n\n\t}\n\n\t/**\n\t * Updates the stereo camera based on the given perspective camera.\n\t *\n\t * @param {PerspectiveCamera} camera - The perspective camera.\n\t */\n\tupdate( camera ) {\n\n\t\tconst cache = this._cache;\n\n\t\tconst needsUpdate = cache.focus !== camera.focus || cache.fov !== camera.fov ||\n\t\t\tcache.aspect !== camera.aspect * this.aspect || cache.near !== camera.near ||\n\t\t\tcache.far !== camera.far || cache.zoom !== camera.zoom || cache.eyeSep !== this.eyeSep;\n\n\t\tif ( needsUpdate ) {\n\n\t\t\tcache.focus = camera.focus;\n\t\t\tcache.fov = camera.fov;\n\t\t\tcache.aspect = camera.aspect * this.aspect;\n\t\t\tcache.near = camera.near;\n\t\t\tcache.far = camera.far;\n\t\t\tcache.zoom = camera.zoom;\n\t\t\tcache.eyeSep = this.eyeSep;\n\n\t\t\t// Off-axis stereoscopic effect based on\n\t\t\t// http://paulbourke.net/stereographics/stereorender/\n\n\t\t\t_projectionMatrix.copy( camera.projectionMatrix );\n\t\t\tconst eyeSepHalf = cache.eyeSep / 2;\n\t\t\tconst eyeSepOnProjection = eyeSepHalf * cache.near / cache.focus;\n\t\t\tconst ymax = ( cache.near * Math.tan( DEG2RAD * cache.fov * 0.5 ) ) / cache.zoom;\n\t\t\tlet xmin, xmax;\n\n\t\t\t// translate xOffset\n\n\t\t\t_eyeLeft.elements[ 12 ] = - eyeSepHalf;\n\t\t\t_eyeRight.elements[ 12 ] = eyeSepHalf;\n\n\t\t\t// for left eye\n\n\t\t\txmin = - ymax * cache.aspect + eyeSepOnProjection;\n\t\t\txmax = ymax * cache.aspect + eyeSepOnProjection;\n\n\t\t\t_projectionMatrix.elements[ 0 ] = 2 * cache.near / ( xmax - xmin );\n\t\t\t_projectionMatrix.elements[ 8 ] = ( xmax + xmin ) / ( xmax - xmin );\n\n\t\t\tthis.cameraL.projectionMatrix.copy( _projectionMatrix );\n\n\t\t\t// for right eye\n\n\t\t\txmin = - ymax * cache.aspect - eyeSepOnProjection;\n\t\t\txmax = ymax * cache.aspect - eyeSepOnProjection;\n\n\t\t\t_projectionMatrix.elements[ 0 ] = 2 * cache.near / ( xmax - xmin );\n\t\t\t_projectionMatrix.elements[ 8 ] = ( xmax + xmin ) / ( xmax - xmin );\n\n\t\t\tthis.cameraR.projectionMatrix.copy( _projectionMatrix );\n\n\t\t}\n\n\t\tthis.cameraL.matrixWorld.copy( camera.matrixWorld ).multiply( _eyeLeft );\n\t\tthis.cameraR.matrixWorld.copy( camera.matrixWorld ).multiply( _eyeRight );\n\n\t}\n\n}\n\n/**\n * This type of camera can be used in order to efficiently render a scene with a\n * predefined set of cameras. This is an important performance aspect for\n * rendering VR scenes.\n *\n * An instance of `ArrayCamera` always has an array of sub cameras. It's mandatory\n * to define for each sub camera the `viewport` property which determines the\n * part of the viewport that is rendered with this camera.\n *\n * @augments PerspectiveCamera\n */\nclass ArrayCamera extends PerspectiveCamera {\n\n\t/**\n\t * Constructs a new array camera.\n\t *\n\t * @param {Array} [array=[]] - An array of perspective sub cameras.\n\t */\n\tconstructor( array = [] ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isArrayCamera = true;\n\n\t\t/**\n\t\t * Whether this camera is used with multiview rendering or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isMultiViewCamera = false;\n\n\t\t/**\n\t\t * An array of perspective sub cameras.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.cameras = array;\n\n\t}\n\n}\n\n/**\n * Class for keeping track of time.\n */\nclass Clock {\n\n\t/**\n\t * Constructs a new clock.\n\t *\n\t * @param {boolean} [autoStart=true] - Whether to automatically start the clock when\n\t * `getDelta()` is called for the first time.\n\t */\n\tconstructor( autoStart = true ) {\n\n\t\t/**\n\t\t * If set to `true`, the clock starts automatically when `getDelta()` is called\n\t\t * for the first time.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.autoStart = autoStart;\n\n\t\t/**\n\t\t * Holds the time at which the clock's `start()` method was last called.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.startTime = 0;\n\n\t\t/**\n\t\t * Holds the time at which the clock's `start()`, `getElapsedTime()` or\n\t\t * `getDelta()` methods were last called.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.oldTime = 0;\n\n\t\t/**\n\t\t * Keeps track of the total time that the clock has been running.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.elapsedTime = 0;\n\n\t\t/**\n\t\t * Whether the clock is running or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.running = false;\n\n\t}\n\n\t/**\n\t * Starts the clock. When `autoStart` is set to `true`, the method is automatically\n\t * called by the class.\n\t */\n\tstart() {\n\n\t\tthis.startTime = performance.now();\n\n\t\tthis.oldTime = this.startTime;\n\t\tthis.elapsedTime = 0;\n\t\tthis.running = true;\n\n\t}\n\n\t/**\n\t * Stops the clock.\n\t */\n\tstop() {\n\n\t\tthis.getElapsedTime();\n\t\tthis.running = false;\n\t\tthis.autoStart = false;\n\n\t}\n\n\t/**\n\t * Returns the elapsed time in seconds.\n\t *\n\t * @return {number} The elapsed time.\n\t */\n\tgetElapsedTime() {\n\n\t\tthis.getDelta();\n\t\treturn this.elapsedTime;\n\n\t}\n\n\t/**\n\t * Returns the delta time in seconds.\n\t *\n\t * @return {number} The delta time.\n\t */\n\tgetDelta() {\n\n\t\tlet diff = 0;\n\n\t\tif ( this.autoStart && ! this.running ) {\n\n\t\t\tthis.start();\n\t\t\treturn 0;\n\n\t\t}\n\n\t\tif ( this.running ) {\n\n\t\t\tconst newTime = performance.now();\n\n\t\t\tdiff = ( newTime - this.oldTime ) / 1000;\n\t\t\tthis.oldTime = newTime;\n\n\t\t\tthis.elapsedTime += diff;\n\n\t\t}\n\n\t\treturn diff;\n\n\t}\n\n}\n\nconst _position$1 = /*@__PURE__*/ new Vector3();\nconst _quaternion$1 = /*@__PURE__*/ new Quaternion();\nconst _scale$1 = /*@__PURE__*/ new Vector3();\n\nconst _forward = /*@__PURE__*/ new Vector3();\nconst _up = /*@__PURE__*/ new Vector3();\n\n/**\n * The class represents a virtual listener of the all positional and non-positional audio effects\n * in the scene. A three.js application usually creates a single listener. It is a mandatory\n * constructor parameter for audios entities like {@link Audio} and {@link PositionalAudio}.\n *\n * In most cases, the listener object is a child of the camera. So the 3D transformation of the\n * camera represents the 3D transformation of the listener.\n *\n * @augments Object3D\n */\nclass AudioListener extends Object3D {\n\n\t/**\n\t * Constructs a new audio listener.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\tthis.type = 'AudioListener';\n\n\t\t/**\n\t\t * The native audio context.\n\t\t *\n\t\t * @type {AudioContext}\n\t\t * @readonly\n\t\t */\n\t\tthis.context = AudioContext.getContext();\n\n\t\t/**\n\t\t * The gain node used for volume control.\n\t\t *\n\t\t * @type {GainNode}\n\t\t * @readonly\n\t\t */\n\t\tthis.gain = this.context.createGain();\n\t\tthis.gain.connect( this.context.destination );\n\n\t\t/**\n\t\t * An optional filter.\n\t\t *\n\t\t * Defined via {@link AudioListener#setFilter}.\n\t\t *\n\t\t * @type {?AudioNode}\n\t\t * @default null\n\t\t * @readonly\n\t\t */\n\t\tthis.filter = null;\n\n\t\t/**\n\t\t * Time delta values required for `linearRampToValueAtTime()` usage.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t * @readonly\n\t\t */\n\t\tthis.timeDelta = 0;\n\n\t\t// private\n\n\t\tthis._clock = new Clock();\n\n\t}\n\n\t/**\n\t * Returns the listener's input node.\n\t *\n\t * This method is used by other audio nodes to connect to this listener.\n\t *\n\t * @return {GainNode} The input node.\n\t */\n\tgetInput() {\n\n\t\treturn this.gain;\n\n\t}\n\n\t/**\n\t * Removes the current filter from this listener.\n\t *\n\t * @return {AudioListener} A reference to this listener.\n\t */\n\tremoveFilter() {\n\n\t\tif ( this.filter !== null ) {\n\n\t\t\tthis.gain.disconnect( this.filter );\n\t\t\tthis.filter.disconnect( this.context.destination );\n\t\t\tthis.gain.connect( this.context.destination );\n\t\t\tthis.filter = null;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current set filter.\n\t *\n\t * @return {?AudioNode} The filter.\n\t */\n\tgetFilter() {\n\n\t\treturn this.filter;\n\n\t}\n\n\t/**\n\t * Sets the given filter to this listener.\n\t *\n\t * @param {AudioNode} value - The filter to set.\n\t * @return {AudioListener} A reference to this listener.\n\t */\n\tsetFilter( value ) {\n\n\t\tif ( this.filter !== null ) {\n\n\t\t\tthis.gain.disconnect( this.filter );\n\t\t\tthis.filter.disconnect( this.context.destination );\n\n\t\t} else {\n\n\t\t\tthis.gain.disconnect( this.context.destination );\n\n\t\t}\n\n\t\tthis.filter = value;\n\t\tthis.gain.connect( this.filter );\n\t\tthis.filter.connect( this.context.destination );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the applications master volume.\n\t *\n\t * @return {number} The master volume.\n\t */\n\tgetMasterVolume() {\n\n\t\treturn this.gain.gain.value;\n\n\t}\n\n\t/**\n\t * Sets the applications master volume. This volume setting affects\n\t * all audio nodes in the scene.\n\t *\n\t * @param {number} value - The master volume to set.\n\t * @return {AudioListener} A reference to this listener.\n\t */\n\tsetMasterVolume( value ) {\n\n\t\tthis.gain.gain.setTargetAtTime( value, this.context.currentTime, 0.01 );\n\n\t\treturn this;\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tconst listener = this.context.listener;\n\n\t\tthis.timeDelta = this._clock.getDelta();\n\n\t\tthis.matrixWorld.decompose( _position$1, _quaternion$1, _scale$1 );\n\n\t\t// the initial forward and up directions must be orthogonal\n\t\t_forward.set( 0, 0, -1 ).applyQuaternion( _quaternion$1 );\n\t\t_up.set( 0, 1, 0 ).applyQuaternion( _quaternion$1 );\n\n\t\tif ( listener.positionX ) {\n\n\t\t\t// code path for Chrome (see #14393)\n\n\t\t\tconst endTime = this.context.currentTime + this.timeDelta;\n\n\t\t\tlistener.positionX.linearRampToValueAtTime( _position$1.x, endTime );\n\t\t\tlistener.positionY.linearRampToValueAtTime( _position$1.y, endTime );\n\t\t\tlistener.positionZ.linearRampToValueAtTime( _position$1.z, endTime );\n\t\t\tlistener.forwardX.linearRampToValueAtTime( _forward.x, endTime );\n\t\t\tlistener.forwardY.linearRampToValueAtTime( _forward.y, endTime );\n\t\t\tlistener.forwardZ.linearRampToValueAtTime( _forward.z, endTime );\n\t\t\tlistener.upX.linearRampToValueAtTime( _up.x, endTime );\n\t\t\tlistener.upY.linearRampToValueAtTime( _up.y, endTime );\n\t\t\tlistener.upZ.linearRampToValueAtTime( _up.z, endTime );\n\n\t\t} else {\n\n\t\t\tlistener.setPosition( _position$1.x, _position$1.y, _position$1.z );\n\t\t\tlistener.setOrientation( _forward.x, _forward.y, _forward.z, _up.x, _up.y, _up.z );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * Represents a non-positional ( global ) audio object.\n *\n * This and related audio modules make use of the [Web Audio API]{@link https://www.w3.org/TR/webaudio-1.1/}.\n *\n * ```js\n * // create an AudioListener and add it to the camera\n * const listener = new THREE.AudioListener();\n * camera.add( listener );\n *\n * // create a global audio source\n * const sound = new THREE.Audio( listener );\n *\n * // load a sound and set it as the Audio object's buffer\n * const audioLoader = new THREE.AudioLoader();\n * audioLoader.load( 'sounds/ambient.ogg', function( buffer ) {\n * \tsound.setBuffer( buffer );\n * \tsound.setLoop( true );\n * \tsound.setVolume( 0.5 );\n * \tsound.play();\n * });\n * ```\n *\n * @augments Object3D\n */\nclass Audio extends Object3D {\n\n\t/**\n\t * Constructs a new audio.\n\t *\n\t * @param {AudioListener} listener - The global audio listener.\n\t */\n\tconstructor( listener ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'Audio';\n\n\t\t/**\n\t\t * The global audio listener.\n\t\t *\n\t\t * @type {AudioListener}\n\t\t * @readonly\n\t\t */\n\t\tthis.listener = listener;\n\n\t\t/**\n\t\t * The audio context.\n\t\t *\n\t\t * @type {AudioContext}\n\t\t * @readonly\n\t\t */\n\t\tthis.context = listener.context;\n\n\t\t/**\n\t\t * The gain node used for volume control.\n\t\t *\n\t\t * @type {GainNode}\n\t\t * @readonly\n\t\t */\n\t\tthis.gain = this.context.createGain();\n\t\tthis.gain.connect( listener.getInput() );\n\n\t\t/**\n\t\t * Whether to start playback automatically or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.autoplay = false;\n\n\t\t/**\n\t\t * A reference to an audio buffer.\n\t\t *\n\t\t * Defined via {@link Audio#setBuffer}.\n\t\t *\n\t\t * @type {?AudioBuffer}\n\t\t * @default null\n\t\t * @readonly\n\t\t */\n\t\tthis.buffer = null;\n\n\t\t/**\n\t\t * Modify pitch, measured in cents. +/- 100 is a semitone.\n\t\t * +/- 1200 is an octave.\n\t\t *\n\t\t * Defined via {@link Audio#setDetune}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t * @readonly\n\t\t */\n\t\tthis.detune = 0;\n\n\t\t/**\n\t\t * Whether the audio should loop or not.\n\t\t *\n\t\t * Defined via {@link Audio#setLoop}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t * @readonly\n\t\t */\n\t\tthis.loop = false;\n\n\t\t/**\n\t\t * Defines where in the audio buffer the replay should\n\t\t * start, in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.loopStart = 0;\n\n\t\t/**\n\t\t * Defines where in the audio buffer the replay should\n\t\t * stop, in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.loopEnd = 0;\n\n\t\t/**\n\t\t * An offset to the time within the audio buffer the playback\n\t\t * should begin, in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.offset = 0;\n\n\t\t/**\n\t\t * Overrides the default duration of the audio.\n\t\t *\n\t\t * @type {undefined|number}\n\t\t * @default undefined\n\t\t */\n\t\tthis.duration = undefined;\n\n\t\t/**\n\t\t * The playback speed.\n\t\t *\n\t\t * Defined via {@link Audio#setPlaybackRate}.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 1\n\t\t */\n\t\tthis.playbackRate = 1;\n\n\t\t/**\n\t\t * Indicates whether the audio is playing or not.\n\t\t *\n\t\t * This flag will be automatically set when using {@link Audio#play},\n\t\t * {@link Audio#pause}, {@link Audio#stop}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isPlaying = false;\n\n\t\t/**\n\t\t * Indicates whether the audio playback can be controlled\n\t\t * with method like {@link Audio#play} or {@link Audio#pause}.\n\t\t *\n\t\t * This flag will be automatically set when audio sources are\n\t\t * defined.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.hasPlaybackControl = true;\n\n\t\t/**\n\t\t * Holds a reference to the current audio source.\n\t\t *\n\t\t * The property is automatically by one of the `set*()` methods.\n\t\t *\n\t\t * @type {?AudioNode}\n\t\t * @readonly\n\t\t * @default null\n\t\t */\n\t\tthis.source = null;\n\n\t\t/**\n\t\t * Defines the source type.\n\t\t *\n\t\t * The property is automatically by one of the `set*()` methods.\n\t\t *\n\t\t * @type {('empty'|'audioNode'|'mediaNode'|'mediaStreamNode'|'buffer')}\n\t\t * @readonly\n\t\t * @default 'empty'\n\t\t */\n\t\tthis.sourceType = 'empty';\n\n\t\tthis._startedAt = 0;\n\t\tthis._progress = 0;\n\t\tthis._connected = false;\n\n\t\t/**\n\t\t * Can be used to apply a variety of low-order filters to create\n\t\t * more complex sound effects e.g. via `BiquadFilterNode`.\n\t\t *\n\t\t * The property is automatically set by {@link Audio#setFilters}.\n\t\t *\n\t\t * @type {Array}\n\t\t * @readonly\n\t\t */\n\t\tthis.filters = [];\n\n\t}\n\n\t/**\n\t * Returns the output audio node.\n\t *\n\t * @return {GainNode} The output node.\n\t */\n\tgetOutput() {\n\n\t\treturn this.gain;\n\n\t}\n\n\t/**\n\t * Sets the given audio node as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `audioNode` and {@link Audio#hasPlaybackControl} to `false`.\n\t *\n\t * @param {AudioNode} audioNode - The audio node like an instance of `OscillatorNode`.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetNodeSource( audioNode ) {\n\n\t\tthis.hasPlaybackControl = false;\n\t\tthis.sourceType = 'audioNode';\n\t\tthis.source = audioNode;\n\t\tthis.connect();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given media element as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `mediaNode` and {@link Audio#hasPlaybackControl} to `false`.\n\t *\n\t * @param {HTMLMediaElement} mediaElement - The media element.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetMediaElementSource( mediaElement ) {\n\n\t\tthis.hasPlaybackControl = false;\n\t\tthis.sourceType = 'mediaNode';\n\t\tthis.source = this.context.createMediaElementSource( mediaElement );\n\t\tthis.connect();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given media stream as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `mediaStreamNode` and {@link Audio#hasPlaybackControl} to `false`.\n\t *\n\t * @param {MediaStream} mediaStream - The media stream.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetMediaStreamSource( mediaStream ) {\n\n\t\tthis.hasPlaybackControl = false;\n\t\tthis.sourceType = 'mediaStreamNode';\n\t\tthis.source = this.context.createMediaStreamSource( mediaStream );\n\t\tthis.connect();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given audio buffer as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `buffer` and {@link Audio#hasPlaybackControl} to `true`.\n\t *\n\t * @param {AudioBuffer} audioBuffer - The audio buffer.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetBuffer( audioBuffer ) {\n\n\t\tthis.buffer = audioBuffer;\n\t\tthis.sourceType = 'buffer';\n\n\t\tif ( this.autoplay ) this.play();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Starts the playback of the audio.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {number} [delay=0] - The delay, in seconds, at which the audio should start playing.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tplay( delay = 0 ) {\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: Audio is already playing.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis._startedAt = this.context.currentTime + delay;\n\n\t\tconst source = this.context.createBufferSource();\n\t\tsource.buffer = this.buffer;\n\t\tsource.loop = this.loop;\n\t\tsource.loopStart = this.loopStart;\n\t\tsource.loopEnd = this.loopEnd;\n\t\tsource.onended = this.onEnded.bind( this );\n\t\tsource.start( this._startedAt, this._progress + this.offset, this.duration );\n\n\t\tthis.isPlaying = true;\n\n\t\tthis.source = source;\n\n\t\tthis.setDetune( this.detune );\n\t\tthis.setPlaybackRate( this.playbackRate );\n\n\t\treturn this.connect();\n\n\t}\n\n\t/**\n\t * Pauses the playback of the audio.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tpause() {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\t// update current progress\n\n\t\t\tthis._progress += Math.max( this.context.currentTime - this._startedAt, 0 ) * this.playbackRate;\n\n\t\t\tif ( this.loop === true ) {\n\n\t\t\t\t// ensure _progress does not exceed duration with looped audios\n\n\t\t\t\tthis._progress = this._progress % ( this.duration || this.buffer.duration );\n\n\t\t\t}\n\n\t\t\tthis.source.stop();\n\t\t\tthis.source.onended = null;\n\n\t\t\tthis.isPlaying = false;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Stops the playback of the audio.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {number} [delay=0] - The delay, in seconds, at which the audio should stop playing.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tstop( delay = 0 ) {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis._progress = 0;\n\n\t\tif ( this.source !== null ) {\n\n\t\t\tthis.source.stop( this.context.currentTime + delay );\n\t\t\tthis.source.onended = null;\n\n\t\t}\n\n\t\tthis.isPlaying = false;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Connects to the audio source. This is used internally on\n\t * initialisation and when setting / removing filters.\n\t *\n\t * @return {Audio} A reference to this instance.\n\t */\n\tconnect() {\n\n\t\tif ( this.filters.length > 0 ) {\n\n\t\t\tthis.source.connect( this.filters[ 0 ] );\n\n\t\t\tfor ( let i = 1, l = this.filters.length; i < l; i ++ ) {\n\n\t\t\t\tthis.filters[ i - 1 ].connect( this.filters[ i ] );\n\n\t\t\t}\n\n\t\t\tthis.filters[ this.filters.length - 1 ].connect( this.getOutput() );\n\n\t\t} else {\n\n\t\t\tthis.source.connect( this.getOutput() );\n\n\t\t}\n\n\t\tthis._connected = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Disconnects to the audio source. This is used internally on\n\t * initialisation and when setting / removing filters.\n\t *\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tdisconnect() {\n\n\t\tif ( this._connected === false ) {\n\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.filters.length > 0 ) {\n\n\t\t\tthis.source.disconnect( this.filters[ 0 ] );\n\n\t\t\tfor ( let i = 1, l = this.filters.length; i < l; i ++ ) {\n\n\t\t\t\tthis.filters[ i - 1 ].disconnect( this.filters[ i ] );\n\n\t\t\t}\n\n\t\t\tthis.filters[ this.filters.length - 1 ].disconnect( this.getOutput() );\n\n\t\t} else {\n\n\t\t\tthis.source.disconnect( this.getOutput() );\n\n\t\t}\n\n\t\tthis._connected = false;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current set filters.\n\t *\n\t * @return {Array} The list of filters.\n\t */\n\tgetFilters() {\n\n\t\treturn this.filters;\n\n\t}\n\n\t/**\n\t * Sets an array of filters and connects them with the audio source.\n\t *\n\t * @param {Array} [value] - A list of filters.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetFilters( value ) {\n\n\t\tif ( ! value ) value = [];\n\n\t\tif ( this._connected === true ) {\n\n\t\t\tthis.disconnect();\n\t\t\tthis.filters = value.slice();\n\t\t\tthis.connect();\n\n\t\t} else {\n\n\t\t\tthis.filters = value.slice();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Defines the detuning of oscillation in cents.\n\t *\n\t * @param {number} value - The detuning of oscillation in cents.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetDetune( value ) {\n\n\t\tthis.detune = value;\n\n\t\tif ( this.isPlaying === true && this.source.detune !== undefined ) {\n\n\t\t\tthis.source.detune.setTargetAtTime( this.detune, this.context.currentTime, 0.01 );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the detuning of oscillation in cents.\n\t *\n\t * @return {number} The detuning of oscillation in cents.\n\t */\n\tgetDetune() {\n\n\t\treturn this.detune;\n\n\t}\n\n\t/**\n\t * Returns the first filter in the list of filters.\n\t *\n\t * @return {AudioNode|undefined} The first filter in the list of filters.\n\t */\n\tgetFilter() {\n\n\t\treturn this.getFilters()[ 0 ];\n\n\t}\n\n\t/**\n\t * Applies a single filter node to the audio.\n\t *\n\t * @param {AudioNode} [filter] - The filter to set.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetFilter( filter ) {\n\n\t\treturn this.setFilters( filter ? [ filter ] : [] );\n\n\t}\n\n\t/**\n\t * Sets the playback rate.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {number} [value] - The playback rate to set.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tsetPlaybackRate( value ) {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis.playbackRate = value;\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\tthis.source.playbackRate.setTargetAtTime( this.playbackRate, this.context.currentTime, 0.01 );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current playback rate.\n\n\t * @return {number} The playback rate.\n\t */\n\tgetPlaybackRate() {\n\n\t\treturn this.playbackRate;\n\n\t}\n\n\t/**\n\t * Automatically called when playback finished.\n\t */\n\tonEnded() {\n\n\t\tthis.isPlaying = false;\n\t\tthis._progress = 0;\n\n\t}\n\n\t/**\n\t * Returns the loop flag.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @return {boolean} Whether the audio should loop or not.\n\t */\n\tgetLoop() {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn false;\n\n\t\t}\n\n\t\treturn this.loop;\n\n\t}\n\n\t/**\n\t * Sets the loop flag.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {boolean} value - Whether the audio should loop or not.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tsetLoop( value ) {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis.loop = value;\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\tthis.source.loop = this.loop;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the loop start value which defines where in the audio buffer the replay should\n\t * start, in seconds.\n\t *\n\t * @param {number} value - The loop start value.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetLoopStart( value ) {\n\n\t\tthis.loopStart = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the loop end value which defines where in the audio buffer the replay should\n\t * stop, in seconds.\n\t *\n\t * @param {number} value - The loop end value.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetLoopEnd( value ) {\n\n\t\tthis.loopEnd = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the volume.\n\t *\n\t * @return {number} The volume.\n\t */\n\tgetVolume() {\n\n\t\treturn this.gain.gain.value;\n\n\t}\n\n\t/**\n\t * Sets the volume.\n\t *\n\t * @param {number} value - The volume to set.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetVolume( value ) {\n\n\t\tthis.gain.gain.setTargetAtTime( value, this.context.currentTime, 0.01 );\n\n\t\treturn this;\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.sourceType !== 'buffer' ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: Audio source type cannot be copied.' );\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tthis.autoplay = source.autoplay;\n\n\t\tthis.buffer = source.buffer;\n\t\tthis.detune = source.detune;\n\t\tthis.loop = source.loop;\n\t\tthis.loopStart = source.loopStart;\n\t\tthis.loopEnd = source.loopEnd;\n\t\tthis.offset = source.offset;\n\t\tthis.duration = source.duration;\n\t\tthis.playbackRate = source.playbackRate;\n\t\tthis.hasPlaybackControl = source.hasPlaybackControl;\n\t\tthis.sourceType = source.sourceType;\n\n\t\tthis.filters = source.filters.slice();\n\n\t\treturn this;\n\n\t}\n\n\tclone( recursive ) {\n\n\t\treturn new this.constructor( this.listener ).copy( this, recursive );\n\n\t}\n\n}\n\nconst _position = /*@__PURE__*/ new Vector3();\nconst _quaternion = /*@__PURE__*/ new Quaternion();\nconst _scale = /*@__PURE__*/ new Vector3();\nconst _orientation = /*@__PURE__*/ new Vector3();\n\n/**\n * Represents a positional audio object.\n *\n * ```js\n * // create an AudioListener and add it to the camera\n * const listener = new THREE.AudioListener();\n * camera.add( listener );\n *\n * // create the PositionalAudio object (passing in the listener)\n * const sound = new THREE.PositionalAudio( listener );\n *\n * // load a sound and set it as the PositionalAudio object's buffer\n * const audioLoader = new THREE.AudioLoader();\n * audioLoader.load( 'sounds/song.ogg', function( buffer ) {\n * \tsound.setBuffer( buffer );\n * \tsound.setRefDistance( 20 );\n * \tsound.play();\n * });\n *\n * // create an object for the sound to play from\n * const sphere = new THREE.SphereGeometry( 20, 32, 16 );\n * const material = new THREE.MeshPhongMaterial( { color: 0xff2200 } );\n * const mesh = new THREE.Mesh( sphere, material );\n * scene.add( mesh );\n *\n * // finally add the sound to the mesh\n * mesh.add( sound );\n *\n * @augments Audio\n */\nclass PositionalAudio extends Audio {\n\n\t/**\n\t * Constructs a positional audio.\n\t *\n\t * @param {AudioListener} listener - The global audio listener.\n\t */\n\tconstructor( listener ) {\n\n\t\tsuper( listener );\n\n\t\t/**\n\t\t * The panner node represents the location, direction, and behavior of an audio\n\t\t * source in 3D space.\n\t\t *\n\t\t * @type {PannerNode}\n\t\t * @readonly\n\t\t */\n\t\tthis.panner = this.context.createPanner();\n\t\tthis.panner.panningModel = 'HRTF';\n\t\tthis.panner.connect( this.gain );\n\n\t}\n\n\tconnect() {\n\n\t\tsuper.connect();\n\n\t\tthis.panner.connect( this.gain );\n\n\t\treturn this;\n\n\t}\n\n\tdisconnect() {\n\n\t\tsuper.disconnect();\n\n\t\tthis.panner.disconnect( this.gain );\n\n\t\treturn this;\n\n\t}\n\n\tgetOutput() {\n\n\t\treturn this.panner;\n\n\t}\n\n\t/**\n\t * Returns the current reference distance.\n\t *\n\t * @return {number} The reference distance.\n\t */\n\tgetRefDistance() {\n\n\t\treturn this.panner.refDistance;\n\n\t}\n\n\t/**\n\t * Defines the reference distance for reducing volume as the audio source moves\n\t * further from the listener – i.e. the distance at which the volume reduction\n\t * starts taking effect.\n\t *\n\t * @param {number} value - The reference distance to set.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetRefDistance( value ) {\n\n\t\tthis.panner.refDistance = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current rolloff factor.\n\t *\n\t * @return {number} The rolloff factor.\n\t */\n\tgetRolloffFactor() {\n\n\t\treturn this.panner.rolloffFactor;\n\n\t}\n\n\t/**\n\t * Defines how quickly the volume is reduced as the source moves away from the listener.\n\t *\n\t * @param {number} value - The rolloff factor.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetRolloffFactor( value ) {\n\n\t\tthis.panner.rolloffFactor = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current distance model.\n\t *\n\t * @return {('linear'|'inverse'|'exponential')} The distance model.\n\t */\n\tgetDistanceModel() {\n\n\t\treturn this.panner.distanceModel;\n\n\t}\n\n\t/**\n\t * Defines which algorithm to use to reduce the volume of the audio source\n\t * as it moves away from the listener.\n\t *\n\t * Read [the spec]{@link https://www.w3.org/TR/webaudio-1.1/#enumdef-distancemodeltype}\n\t * for more details.\n\t *\n\t * @param {('linear'|'inverse'|'exponential')} value - The distance model to set.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetDistanceModel( value ) {\n\n\t\tthis.panner.distanceModel = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current max distance.\n\t *\n\t * @return {number} The max distance.\n\t */\n\tgetMaxDistance() {\n\n\t\treturn this.panner.maxDistance;\n\n\t}\n\n\t/**\n\t * Defines the maximum distance between the audio source and the listener,\n\t * after which the volume is not reduced any further.\n\t *\n\t * This value is used only by the `linear` distance model.\n\t *\n\t * @param {number} value - The max distance.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetMaxDistance( value ) {\n\n\t\tthis.panner.maxDistance = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the directional cone in which the audio can be listened.\n\t *\n\t * @param {number} coneInnerAngle - An angle, in degrees, of a cone inside of which there will be no volume reduction.\n\t * @param {number} coneOuterAngle - An angle, in degrees, of a cone outside of which the volume will be reduced by a constant value, defined by the `coneOuterGain` parameter.\n\t * @param {number} coneOuterGain - The amount of volume reduction outside the cone defined by the `coneOuterAngle`. When set to `0`, no sound can be heard.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetDirectionalCone( coneInnerAngle, coneOuterAngle, coneOuterGain ) {\n\n\t\tthis.panner.coneInnerAngle = coneInnerAngle;\n\t\tthis.panner.coneOuterAngle = coneOuterAngle;\n\t\tthis.panner.coneOuterGain = coneOuterGain;\n\n\t\treturn this;\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tif ( this.hasPlaybackControl === true && this.isPlaying === false ) return;\n\n\t\tthis.matrixWorld.decompose( _position, _quaternion, _scale );\n\n\t\t_orientation.set( 0, 0, 1 ).applyQuaternion( _quaternion );\n\n\t\tconst panner = this.panner;\n\n\t\tif ( panner.positionX ) {\n\n\t\t\t// code path for Chrome and Firefox (see #14393)\n\n\t\t\tconst endTime = this.context.currentTime + this.listener.timeDelta;\n\n\t\t\tpanner.positionX.linearRampToValueAtTime( _position.x, endTime );\n\t\t\tpanner.positionY.linearRampToValueAtTime( _position.y, endTime );\n\t\t\tpanner.positionZ.linearRampToValueAtTime( _position.z, endTime );\n\t\t\tpanner.orientationX.linearRampToValueAtTime( _orientation.x, endTime );\n\t\t\tpanner.orientationY.linearRampToValueAtTime( _orientation.y, endTime );\n\t\t\tpanner.orientationZ.linearRampToValueAtTime( _orientation.z, endTime );\n\n\t\t} else {\n\n\t\t\tpanner.setPosition( _position.x, _position.y, _position.z );\n\t\t\tpanner.setOrientation( _orientation.x, _orientation.y, _orientation.z );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * This class can be used to analyse audio data.\n *\n * ```js\n * // create an AudioListener and add it to the camera\n * const listener = new THREE.AudioListener();\n * camera.add( listener );\n *\n * // create an Audio source\n * const sound = new THREE.Audio( listener );\n *\n * // load a sound and set it as the Audio object's buffer\n * const audioLoader = new THREE.AudioLoader();\n * audioLoader.load( 'sounds/ambient.ogg', function( buffer ) {\n * \tsound.setBuffer( buffer );\n * \tsound.setLoop(true);\n * \tsound.setVolume(0.5);\n * \tsound.play();\n * });\n *\n * // create an AudioAnalyser, passing in the sound and desired fftSize\n * const analyser = new THREE.AudioAnalyser( sound, 32 );\n *\n * // get the average frequency of the sound\n * const data = analyser.getAverageFrequency();\n * ```\n */\nclass AudioAnalyser {\n\n\t/**\n\t * Constructs a new audio analyzer.\n\t *\n\t * @param {Audio} audio - The audio to analyze.\n\t * @param {number} [fftSize=2048] - The window size in samples that is used when performing a Fast Fourier Transform (FFT) to get frequency domain data.\n\t */\n\tconstructor( audio, fftSize = 2048 ) {\n\n\t\t/**\n\t\t * The global audio listener.\n\t\t *\n\t\t * @type {AnalyserNode}\n\t\t */\n\t\tthis.analyser = audio.context.createAnalyser();\n\t\tthis.analyser.fftSize = fftSize;\n\n\t\t/**\n\t\t * Holds the analyzed data.\n\t\t *\n\t\t * @type {Uint8Array}\n\t\t */\n\t\tthis.data = new Uint8Array( this.analyser.frequencyBinCount );\n\n\t\taudio.getOutput().connect( this.analyser );\n\n\t}\n\n\t/**\n\t * Returns an array with frequency data of the audio.\n\t *\n\t * Each item in the array represents the decibel value for a specific frequency.\n\t * The frequencies are spread linearly from 0 to 1/2 of the sample rate.\n\t * For example, for 48000 sample rate, the last item of the array will represent\n\t * the decibel value for 24000 Hz.\n\t *\n\t * @return {Uint8Array} The frequency data.\n\t */\n\tgetFrequencyData() {\n\n\t\tthis.analyser.getByteFrequencyData( this.data );\n\n\t\treturn this.data;\n\n\t}\n\n\t/**\n\t * Returns the average of the frequencies returned by {@link AudioAnalyser#getFrequencyData}.\n\t *\n\t * @return {number} The average frequency.\n\t */\n\tgetAverageFrequency() {\n\n\t\tlet value = 0;\n\t\tconst data = this.getFrequencyData();\n\n\t\tfor ( let i = 0; i < data.length; i ++ ) {\n\n\t\t\tvalue += data[ i ];\n\n\t\t}\n\n\t\treturn value / data.length;\n\n\t}\n\n}\n\n/**\n * Buffered scene graph property that allows weighted accumulation; used internally.\n */\nclass PropertyMixer {\n\n\t/**\n\t * Constructs a new property mixer.\n\t *\n\t * @param {PropertyBinding} binding - The property binding.\n\t * @param {string} typeName - The keyframe track type name.\n\t * @param {number} valueSize - The keyframe track value size.\n\t */\n\tconstructor( binding, typeName, valueSize ) {\n\n\t\t/**\n\t\t * The property binding.\n\t\t *\n\t\t * @type {PropertyBinding}\n\t\t */\n\t\tthis.binding = binding;\n\n\t\t/**\n\t\t * The keyframe track value size.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.valueSize = valueSize;\n\n\t\tlet mixFunction,\n\t\t\tmixFunctionAdditive,\n\t\t\tsetIdentity;\n\n\t\t// buffer layout: [ incoming | accu0 | accu1 | orig | addAccu | (optional work) ]\n\t\t//\n\t\t// interpolators can use .buffer as their .result\n\t\t// the data then goes to 'incoming'\n\t\t//\n\t\t// 'accu0' and 'accu1' are used frame-interleaved for\n\t\t// the cumulative result and are compared to detect\n\t\t// changes\n\t\t//\n\t\t// 'orig' stores the original state of the property\n\t\t//\n\t\t// 'add' is used for additive cumulative results\n\t\t//\n\t\t// 'work' is optional and is only present for quaternion types. It is used\n\t\t// to store intermediate quaternion multiplication results\n\n\t\tswitch ( typeName ) {\n\n\t\t\tcase 'quaternion':\n\t\t\t\tmixFunction = this._slerp;\n\t\t\t\tmixFunctionAdditive = this._slerpAdditive;\n\t\t\t\tsetIdentity = this._setAdditiveIdentityQuaternion;\n\n\t\t\t\tthis.buffer = new Float64Array( valueSize * 6 );\n\t\t\t\tthis._workIndex = 5;\n\t\t\t\tbreak;\n\n\t\t\tcase 'string':\n\t\t\tcase 'bool':\n\t\t\t\tmixFunction = this._select;\n\n\t\t\t\t// Use the regular mix function and for additive on these types,\n\t\t\t\t// additive is not relevant for non-numeric types\n\t\t\t\tmixFunctionAdditive = this._select;\n\n\t\t\t\tsetIdentity = this._setAdditiveIdentityOther;\n\n\t\t\t\tthis.buffer = new Array( valueSize * 5 );\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\t\t\t\tmixFunction = this._lerp;\n\t\t\t\tmixFunctionAdditive = this._lerpAdditive;\n\t\t\t\tsetIdentity = this._setAdditiveIdentityNumeric;\n\n\t\t\t\tthis.buffer = new Float64Array( valueSize * 5 );\n\n\t\t}\n\n\t\tthis._mixBufferRegion = mixFunction;\n\t\tthis._mixBufferRegionAdditive = mixFunctionAdditive;\n\t\tthis._setIdentity = setIdentity;\n\t\tthis._origIndex = 3;\n\t\tthis._addIndex = 4;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.cumulativeWeight = 0;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.cumulativeWeightAdditive = 0;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.useCount = 0;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.referenceCount = 0;\n\n\t}\n\n\t/**\n\t * Accumulates data in the `incoming` region into `accu`.\n\t *\n\t * @param {number} accuIndex - The accumulation index.\n\t * @param {number} weight - The weight.\n\t */\n\taccumulate( accuIndex, weight ) {\n\n\t\t// note: happily accumulating nothing when weight = 0, the caller knows\n\t\t// the weight and shouldn't have made the call in the first place\n\n\t\tconst buffer = this.buffer,\n\t\t\tstride = this.valueSize,\n\t\t\toffset = accuIndex * stride + stride;\n\n\t\tlet currentWeight = this.cumulativeWeight;\n\n\t\tif ( currentWeight === 0 ) {\n\n\t\t\t// accuN := incoming * weight\n\n\t\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\t\tbuffer[ offset + i ] = buffer[ i ];\n\n\t\t\t}\n\n\t\t\tcurrentWeight = weight;\n\n\t\t} else {\n\n\t\t\t// accuN := accuN + incoming * weight\n\n\t\t\tcurrentWeight += weight;\n\t\t\tconst mix = weight / currentWeight;\n\t\t\tthis._mixBufferRegion( buffer, offset, 0, mix, stride );\n\n\t\t}\n\n\t\tthis.cumulativeWeight = currentWeight;\n\n\t}\n\n\t/**\n\t * Accumulates data in the `incoming` region into `add`.\n\t *\n\t * @param {number} weight - The weight.\n\t */\n\taccumulateAdditive( weight ) {\n\n\t\tconst buffer = this.buffer,\n\t\t\tstride = this.valueSize,\n\t\t\toffset = stride * this._addIndex;\n\n\t\tif ( this.cumulativeWeightAdditive === 0 ) {\n\n\t\t\t// add = identity\n\n\t\t\tthis._setIdentity();\n\n\t\t}\n\n\t\t// add := add + incoming * weight\n\n\t\tthis._mixBufferRegionAdditive( buffer, offset, 0, weight, stride );\n\t\tthis.cumulativeWeightAdditive += weight;\n\n\t}\n\n\t/**\n\t * Applies the state of `accu` to the binding when accus differ.\n\t *\n\t * @param {number} accuIndex - The accumulation index.\n\t */\n\tapply( accuIndex ) {\n\n\t\tconst stride = this.valueSize,\n\t\t\tbuffer = this.buffer,\n\t\t\toffset = accuIndex * stride + stride,\n\n\t\t\tweight = this.cumulativeWeight,\n\t\t\tweightAdditive = this.cumulativeWeightAdditive,\n\n\t\t\tbinding = this.binding;\n\n\t\tthis.cumulativeWeight = 0;\n\t\tthis.cumulativeWeightAdditive = 0;\n\n\t\tif ( weight < 1 ) {\n\n\t\t\t// accuN := accuN + original * ( 1 - cumulativeWeight )\n\n\t\t\tconst originalValueOffset = stride * this._origIndex;\n\n\t\t\tthis._mixBufferRegion(\n\t\t\t\tbuffer, offset, originalValueOffset, 1 - weight, stride );\n\n\t\t}\n\n\t\tif ( weightAdditive > 0 ) {\n\n\t\t\t// accuN := accuN + additive accuN\n\n\t\t\tthis._mixBufferRegionAdditive( buffer, offset, this._addIndex * stride, 1, stride );\n\n\t\t}\n\n\t\tfor ( let i = stride, e = stride + stride; i !== e; ++ i ) {\n\n\t\t\tif ( buffer[ i ] !== buffer[ i + stride ] ) {\n\n\t\t\t\t// value has changed -> update scene graph\n\n\t\t\t\tbinding.setValue( buffer, offset );\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\n\t/**\n\t * Remembers the state of the bound property and copy it to both accus.\n\t */\n\tsaveOriginalState() {\n\n\t\tconst binding = this.binding;\n\n\t\tconst buffer = this.buffer,\n\t\t\tstride = this.valueSize,\n\n\t\t\toriginalValueOffset = stride * this._origIndex;\n\n\t\tbinding.getValue( buffer, originalValueOffset );\n\n\t\t// accu[0..1] := orig -- initially detect changes against the original\n\t\tfor ( let i = stride, e = originalValueOffset; i !== e; ++ i ) {\n\n\t\t\tbuffer[ i ] = buffer[ originalValueOffset + ( i % stride ) ];\n\n\t\t}\n\n\t\t// Add to identity for additive\n\t\tthis._setIdentity();\n\n\t\tthis.cumulativeWeight = 0;\n\t\tthis.cumulativeWeightAdditive = 0;\n\n\t}\n\n\t/**\n\t * Applies the state previously taken via {@link PropertyMixer#saveOriginalState} to the binding.\n\t */\n\trestoreOriginalState() {\n\n\t\tconst originalValueOffset = this.valueSize * 3;\n\t\tthis.binding.setValue( this.buffer, originalValueOffset );\n\n\t}\n\n\t// internals\n\n\t_setAdditiveIdentityNumeric() {\n\n\t\tconst startIndex = this._addIndex * this.valueSize;\n\t\tconst endIndex = startIndex + this.valueSize;\n\n\t\tfor ( let i = startIndex; i < endIndex; i ++ ) {\n\n\t\t\tthis.buffer[ i ] = 0;\n\n\t\t}\n\n\t}\n\n\t_setAdditiveIdentityQuaternion() {\n\n\t\tthis._setAdditiveIdentityNumeric();\n\t\tthis.buffer[ this._addIndex * this.valueSize + 3 ] = 1;\n\n\t}\n\n\t_setAdditiveIdentityOther() {\n\n\t\tconst startIndex = this._origIndex * this.valueSize;\n\t\tconst targetIndex = this._addIndex * this.valueSize;\n\n\t\tfor ( let i = 0; i < this.valueSize; i ++ ) {\n\n\t\t\tthis.buffer[ targetIndex + i ] = this.buffer[ startIndex + i ];\n\n\t\t}\n\n\t}\n\n\n\t// mix functions\n\n\t_select( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tif ( t >= 0.5 ) {\n\n\t\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\t\tbuffer[ dstOffset + i ] = buffer[ srcOffset + i ];\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_slerp( buffer, dstOffset, srcOffset, t ) {\n\n\t\tQuaternion.slerpFlat( buffer, dstOffset, buffer, dstOffset, buffer, srcOffset, t );\n\n\t}\n\n\t_slerpAdditive( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tconst workOffset = this._workIndex * stride;\n\n\t\t// Store result in intermediate buffer offset\n\t\tQuaternion.multiplyQuaternionsFlat( buffer, workOffset, buffer, dstOffset, buffer, srcOffset );\n\n\t\t// Slerp to the intermediate result\n\t\tQuaternion.slerpFlat( buffer, dstOffset, buffer, dstOffset, buffer, workOffset, t );\n\n\t}\n\n\t_lerp( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tconst s = 1 - t;\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tconst j = dstOffset + i;\n\n\t\t\tbuffer[ j ] = buffer[ j ] * s + buffer[ srcOffset + i ] * t;\n\n\t\t}\n\n\t}\n\n\t_lerpAdditive( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tconst j = dstOffset + i;\n\n\t\t\tbuffer[ j ] = buffer[ j ] + buffer[ srcOffset + i ] * t;\n\n\t\t}\n\n\t}\n\n}\n\n// Characters [].:/ are reserved for track binding syntax.\nconst _RESERVED_CHARS_RE = '\\\\[\\\\]\\\\.:\\\\/';\nconst _reservedRe = new RegExp( '[' + _RESERVED_CHARS_RE + ']', 'g' );\n\n// Attempts to allow node names from any language. ES5's `\\w` regexp matches\n// only latin characters, and the unicode \\p{L} is not yet supported. So\n// instead, we exclude reserved characters and match everything else.\nconst _wordChar = '[^' + _RESERVED_CHARS_RE + ']';\nconst _wordCharOrDot = '[^' + _RESERVED_CHARS_RE.replace( '\\\\.', '' ) + ']';\n\n// Parent directories, delimited by '/' or ':'. Currently unused, but must\n// be matched to parse the rest of the track name.\nconst _directoryRe = /*@__PURE__*/ /((?:WC+[\\/:])*)/.source.replace( 'WC', _wordChar );\n\n// Target node. May contain word characters (a-zA-Z0-9_) and '.' or '-'.\nconst _nodeRe = /*@__PURE__*/ /(WCOD+)?/.source.replace( 'WCOD', _wordCharOrDot );\n\n// Object on target node, and accessor. May not contain reserved\n// characters. Accessor may contain any character except closing bracket.\nconst _objectRe = /*@__PURE__*/ /(?:\\.(WC+)(?:\\[(.+)\\])?)?/.source.replace( 'WC', _wordChar );\n\n// Property and accessor. May not contain reserved characters. Accessor may\n// contain any non-bracket characters.\nconst _propertyRe = /*@__PURE__*/ /\\.(WC+)(?:\\[(.+)\\])?/.source.replace( 'WC', _wordChar );\n\nconst _trackRe = new RegExp( ''\n\t+ '^'\n\t+ _directoryRe\n\t+ _nodeRe\n\t+ _objectRe\n\t+ _propertyRe\n\t+ '$'\n);\n\nconst _supportedObjectNames = [ 'material', 'materials', 'bones', 'map' ];\n\nclass Composite {\n\n\tconstructor( targetGroup, path, optionalParsedPath ) {\n\n\t\tconst parsedPath = optionalParsedPath || PropertyBinding.parseTrackName( path );\n\n\t\tthis._targetGroup = targetGroup;\n\t\tthis._bindings = targetGroup.subscribe_( path, parsedPath );\n\n\t}\n\n\tgetValue( array, offset ) {\n\n\t\tthis.bind(); // bind all binding\n\n\t\tconst firstValidIndex = this._targetGroup.nCachedObjects_,\n\t\t\tbinding = this._bindings[ firstValidIndex ];\n\n\t\t// and only call .getValue on the first\n\t\tif ( binding !== undefined ) binding.getValue( array, offset );\n\n\t}\n\n\tsetValue( array, offset ) {\n\n\t\tconst bindings = this._bindings;\n\n\t\tfor ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tbindings[ i ].setValue( array, offset );\n\n\t\t}\n\n\t}\n\n\tbind() {\n\n\t\tconst bindings = this._bindings;\n\n\t\tfor ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tbindings[ i ].bind();\n\n\t\t}\n\n\t}\n\n\tunbind() {\n\n\t\tconst bindings = this._bindings;\n\n\t\tfor ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tbindings[ i ].unbind();\n\n\t\t}\n\n\t}\n\n}\n\n// Note: This class uses a State pattern on a per-method basis:\n// 'bind' sets 'this.getValue' / 'setValue' and shadows the\n// prototype version of these methods with one that represents\n// the bound state. When the property is not found, the methods\n// become no-ops.\n\n\n/**\n * This holds a reference to a real property in the scene graph; used internally.\n */\nclass PropertyBinding {\n\n\t/**\n\t * Constructs a new property binding.\n\t *\n\t * @param {Object} rootNode - The root node.\n\t * @param {string} path - The path.\n\t * @param {?Object} [parsedPath] - The parsed path.\n\t */\n\tconstructor( rootNode, path, parsedPath ) {\n\n\t\t/**\n\t\t * The object path to the animated property.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.path = path;\n\n\t\t/**\n\t\t * An object holding information about the path.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parsedPath = parsedPath || PropertyBinding.parseTrackName( path );\n\n\t\t/**\n\t\t * The object owns the animated property.\n\t\t *\n\t\t * @type {?Object}\n\t\t */\n\t\tthis.node = PropertyBinding.findNode( rootNode, this.parsedPath.nodeName );\n\n\t\t/**\n\t\t * The root node.\n\t\t *\n\t\t * @type {Object3D|Skeleton}\n\t\t */\n\t\tthis.rootNode = rootNode;\n\n\t\t// initial state of these methods that calls 'bind'\n\t\tthis.getValue = this._getValue_unbound;\n\t\tthis.setValue = this._setValue_unbound;\n\n\t}\n\n\n\t/**\n\t * Factory method for creating a property binding from the given parameters.\n\t *\n\t * @static\n\t * @param {Object} root - The root node.\n\t * @param {string} path - The path.\n\t * @param {?Object} [parsedPath] - The parsed path.\n\t * @return {PropertyBinding|Composite} The created property binding or composite.\n\t */\n\tstatic create( root, path, parsedPath ) {\n\n\t\tif ( ! ( root && root.isAnimationObjectGroup ) ) {\n\n\t\t\treturn new PropertyBinding( root, path, parsedPath );\n\n\t\t} else {\n\n\t\t\treturn new PropertyBinding.Composite( root, path, parsedPath );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Replaces spaces with underscores and removes unsupported characters from\n\t * node names, to ensure compatibility with parseTrackName().\n\t *\n\t * @param {string} name - Node name to be sanitized.\n\t * @return {string} The sanitized node name.\n\t */\n\tstatic sanitizeNodeName( name ) {\n\n\t\treturn name.replace( /\\s/g, '_' ).replace( _reservedRe, '' );\n\n\t}\n\n\t/**\n\t * Parses the given track name (an object path to an animated property) and\n\t * returns an object with information about the path. Matches strings in the following forms:\n\t *\n\t * - nodeName.property\n\t * - nodeName.property[accessor]\n\t * - nodeName.material.property[accessor]\n\t * - uuid.property[accessor]\n\t * - uuid.objectName[objectIndex].propertyName[propertyIndex]\n\t * - parentName/nodeName.property\n\t * - parentName/parentName/nodeName.property[index]\n\t * - .bone[Armature.DEF_cog].position\n\t * - scene:helium_balloon_model:helium_balloon_model.position\n\t *\n\t * @static\n\t * @param {string} trackName - The track name to parse.\n\t * @return {Object} The parsed track name as an object.\n\t */\n\tstatic parseTrackName( trackName ) {\n\n\t\tconst matches = _trackRe.exec( trackName );\n\n\t\tif ( matches === null ) {\n\n\t\t\tthrow new Error( 'PropertyBinding: Cannot parse trackName: ' + trackName );\n\n\t\t}\n\n\t\tconst results = {\n\t\t\t// directoryName: matches[ 1 ], // (tschw) currently unused\n\t\t\tnodeName: matches[ 2 ],\n\t\t\tobjectName: matches[ 3 ],\n\t\t\tobjectIndex: matches[ 4 ],\n\t\t\tpropertyName: matches[ 5 ], // required\n\t\t\tpropertyIndex: matches[ 6 ]\n\t\t};\n\n\t\tconst lastDot = results.nodeName && results.nodeName.lastIndexOf( '.' );\n\n\t\tif ( lastDot !== undefined && lastDot !== -1 ) {\n\n\t\t\tconst objectName = results.nodeName.substring( lastDot + 1 );\n\n\t\t\t// Object names must be checked against an allowlist. Otherwise, there\n\t\t\t// is no way to parse 'foo.bar.baz': 'baz' must be a property, but\n\t\t\t// 'bar' could be the objectName, or part of a nodeName (which can\n\t\t\t// include '.' characters).\n\t\t\tif ( _supportedObjectNames.indexOf( objectName ) !== -1 ) {\n\n\t\t\t\tresults.nodeName = results.nodeName.substring( 0, lastDot );\n\t\t\t\tresults.objectName = objectName;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( results.propertyName === null || results.propertyName.length === 0 ) {\n\n\t\t\tthrow new Error( 'PropertyBinding: can not parse propertyName from trackName: ' + trackName );\n\n\t\t}\n\n\t\treturn results;\n\n\t}\n\n\t/**\n\t * Searches for a node in the hierarchy of the given root object by the given\n\t * node name.\n\t *\n\t * @static\n\t * @param {Object} root - The root object.\n\t * @param {string|number} nodeName - The name of the node.\n\t * @return {?Object} The found node. Returns `null` if no object was found.\n\t */\n\tstatic findNode( root, nodeName ) {\n\n\t\tif ( nodeName === undefined || nodeName === '' || nodeName === '.' || nodeName === -1 || nodeName === root.name || nodeName === root.uuid ) {\n\n\t\t\treturn root;\n\n\t\t}\n\n\t\t// search into skeleton bones.\n\t\tif ( root.skeleton ) {\n\n\t\t\tconst bone = root.skeleton.getBoneByName( nodeName );\n\n\t\t\tif ( bone !== undefined ) {\n\n\t\t\t\treturn bone;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// search into node subtree.\n\t\tif ( root.children ) {\n\n\t\t\tconst searchNodeSubtree = function ( children ) {\n\n\t\t\t\tfor ( let i = 0; i < children.length; i ++ ) {\n\n\t\t\t\t\tconst childNode = children[ i ];\n\n\t\t\t\t\tif ( childNode.name === nodeName || childNode.uuid === nodeName ) {\n\n\t\t\t\t\t\treturn childNode;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tconst result = searchNodeSubtree( childNode.children );\n\n\t\t\t\t\tif ( result ) return result;\n\n\t\t\t\t}\n\n\t\t\t\treturn null;\n\n\t\t\t};\n\n\t\t\tconst subTreeNode = searchNodeSubtree( root.children );\n\n\t\t\tif ( subTreeNode ) {\n\n\t\t\t\treturn subTreeNode;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t// these are used to \"bind\" a nonexistent property\n\t_getValue_unavailable() {}\n\t_setValue_unavailable() {}\n\n\t// Getters\n\n\t_getValue_direct( buffer, offset ) {\n\n\t\tbuffer[ offset ] = this.targetObject[ this.propertyName ];\n\n\t}\n\n\t_getValue_array( buffer, offset ) {\n\n\t\tconst source = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = source.length; i !== n; ++ i ) {\n\n\t\t\tbuffer[ offset ++ ] = source[ i ];\n\n\t\t}\n\n\t}\n\n\t_getValue_arrayElement( buffer, offset ) {\n\n\t\tbuffer[ offset ] = this.resolvedProperty[ this.propertyIndex ];\n\n\t}\n\n\t_getValue_toArray( buffer, offset ) {\n\n\t\tthis.resolvedProperty.toArray( buffer, offset );\n\n\t}\n\n\t// Direct\n\n\t_setValue_direct( buffer, offset ) {\n\n\t\tthis.targetObject[ this.propertyName ] = buffer[ offset ];\n\n\t}\n\n\t_setValue_direct_setNeedsUpdate( buffer, offset ) {\n\n\t\tthis.targetObject[ this.propertyName ] = buffer[ offset ];\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_direct_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tthis.targetObject[ this.propertyName ] = buffer[ offset ];\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t// EntireArray\n\n\t_setValue_array( buffer, offset ) {\n\n\t\tconst dest = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = dest.length; i !== n; ++ i ) {\n\n\t\t\tdest[ i ] = buffer[ offset ++ ];\n\n\t\t}\n\n\t}\n\n\t_setValue_array_setNeedsUpdate( buffer, offset ) {\n\n\t\tconst dest = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = dest.length; i !== n; ++ i ) {\n\n\t\t\tdest[ i ] = buffer[ offset ++ ];\n\n\t\t}\n\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_array_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tconst dest = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = dest.length; i !== n; ++ i ) {\n\n\t\t\tdest[ i ] = buffer[ offset ++ ];\n\n\t\t}\n\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t// ArrayElement\n\n\t_setValue_arrayElement( buffer, offset ) {\n\n\t\tthis.resolvedProperty[ this.propertyIndex ] = buffer[ offset ];\n\n\t}\n\n\t_setValue_arrayElement_setNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty[ this.propertyIndex ] = buffer[ offset ];\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_arrayElement_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty[ this.propertyIndex ] = buffer[ offset ];\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t// HasToFromArray\n\n\t_setValue_fromArray( buffer, offset ) {\n\n\t\tthis.resolvedProperty.fromArray( buffer, offset );\n\n\t}\n\n\t_setValue_fromArray_setNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty.fromArray( buffer, offset );\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_fromArray_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty.fromArray( buffer, offset );\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t_getValue_unbound( targetArray, offset ) {\n\n\t\tthis.bind();\n\t\tthis.getValue( targetArray, offset );\n\n\t}\n\n\t_setValue_unbound( sourceArray, offset ) {\n\n\t\tthis.bind();\n\t\tthis.setValue( sourceArray, offset );\n\n\t}\n\n\t/**\n\t * Creates a getter / setter pair for the property tracked by this binding.\n\t */\n\tbind() {\n\n\t\tlet targetObject = this.node;\n\t\tconst parsedPath = this.parsedPath;\n\n\t\tconst objectName = parsedPath.objectName;\n\t\tconst propertyName = parsedPath.propertyName;\n\t\tlet propertyIndex = parsedPath.propertyIndex;\n\n\t\tif ( ! targetObject ) {\n\n\t\t\ttargetObject = PropertyBinding.findNode( this.rootNode, parsedPath.nodeName );\n\n\t\t\tthis.node = targetObject;\n\n\t\t}\n\n\t\t// set fail state so we can just 'return' on error\n\t\tthis.getValue = this._getValue_unavailable;\n\t\tthis.setValue = this._setValue_unavailable;\n\n\t\t// ensure there is a value node\n\t\tif ( ! targetObject ) {\n\n\t\t\tconsole.warn( 'THREE.PropertyBinding: No target node found for track: ' + this.path + '.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( objectName ) {\n\n\t\t\tlet objectIndex = parsedPath.objectIndex;\n\n\t\t\t// special cases were we need to reach deeper into the hierarchy to get the face materials....\n\t\t\tswitch ( objectName ) {\n\n\t\t\t\tcase 'materials':\n\n\t\t\t\t\tif ( ! targetObject.material ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material as node does not have a material.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! targetObject.material.materials ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material.materials as node.material does not have a materials array.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttargetObject = targetObject.material.materials;\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase 'bones':\n\n\t\t\t\t\tif ( ! targetObject.skeleton ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to bones as node does not have a skeleton.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// potential future optimization: skip this if propertyIndex is already an integer\n\t\t\t\t\t// and convert the integer string to a true integer.\n\n\t\t\t\t\ttargetObject = targetObject.skeleton.bones;\n\n\t\t\t\t\t// support resolving morphTarget names into indices.\n\t\t\t\t\tfor ( let i = 0; i < targetObject.length; i ++ ) {\n\n\t\t\t\t\t\tif ( targetObject[ i ].name === objectIndex ) {\n\n\t\t\t\t\t\t\tobjectIndex = i;\n\t\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase 'map':\n\n\t\t\t\t\tif ( 'map' in targetObject ) {\n\n\t\t\t\t\t\ttargetObject = targetObject.map;\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! targetObject.material ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material as node does not have a material.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! targetObject.material.map ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material.map as node.material does not have a map.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttargetObject = targetObject.material.map;\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\n\n\t\t\t\t\tif ( targetObject[ objectName ] === undefined ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to objectName of node undefined.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttargetObject = targetObject[ objectName ];\n\n\t\t\t}\n\n\n\t\t\tif ( objectIndex !== undefined ) {\n\n\t\t\t\tif ( targetObject[ objectIndex ] === undefined ) {\n\n\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Trying to bind to objectIndex of objectName, but is undefined.', this, targetObject );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t\ttargetObject = targetObject[ objectIndex ];\n\n\t\t\t}\n\n\t\t}\n\n\t\t// resolve property\n\t\tconst nodeProperty = targetObject[ propertyName ];\n\n\t\tif ( nodeProperty === undefined ) {\n\n\t\t\tconst nodeName = parsedPath.nodeName;\n\n\t\t\tconsole.error( 'THREE.PropertyBinding: Trying to update property for track: ' + nodeName +\n\t\t\t\t'.' + propertyName + ' but it wasn\\'t found.', targetObject );\n\t\t\treturn;\n\n\t\t}\n\n\t\t// determine versioning scheme\n\t\tlet versioning = this.Versioning.None;\n\n\t\tthis.targetObject = targetObject;\n\n\t\tif ( targetObject.isMaterial === true ) {\n\n\t\t\tversioning = this.Versioning.NeedsUpdate;\n\n\t\t} else if ( targetObject.isObject3D === true ) {\n\n\t\t\tversioning = this.Versioning.MatrixWorldNeedsUpdate;\n\n\t\t}\n\n\t\t// determine how the property gets bound\n\t\tlet bindingType = this.BindingType.Direct;\n\n\t\tif ( propertyIndex !== undefined ) {\n\n\t\t\t// access a sub element of the property array (only primitives are supported right now)\n\n\t\t\tif ( propertyName === 'morphTargetInfluences' ) {\n\n\t\t\t\t// potential optimization, skip this if propertyIndex is already an integer, and convert the integer string to a true integer.\n\n\t\t\t\t// support resolving morphTarget names into indices.\n\t\t\t\tif ( ! targetObject.geometry ) {\n\n\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to morphTargetInfluences because node does not have a geometry.', this );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t\tif ( ! targetObject.geometry.morphAttributes ) {\n\n\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to morphTargetInfluences because node does not have a geometry.morphAttributes.', this );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t\tif ( targetObject.morphTargetDictionary[ propertyIndex ] !== undefined ) {\n\n\t\t\t\t\tpropertyIndex = targetObject.morphTargetDictionary[ propertyIndex ];\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tbindingType = this.BindingType.ArrayElement;\n\n\t\t\tthis.resolvedProperty = nodeProperty;\n\t\t\tthis.propertyIndex = propertyIndex;\n\n\t\t} else if ( nodeProperty.fromArray !== undefined && nodeProperty.toArray !== undefined ) {\n\n\t\t\t// must use copy for Object3D.Euler/Quaternion\n\n\t\t\tbindingType = this.BindingType.HasFromToArray;\n\n\t\t\tthis.resolvedProperty = nodeProperty;\n\n\t\t} else if ( Array.isArray( nodeProperty ) ) {\n\n\t\t\tbindingType = this.BindingType.EntireArray;\n\n\t\t\tthis.resolvedProperty = nodeProperty;\n\n\t\t} else {\n\n\t\t\tthis.propertyName = propertyName;\n\n\t\t}\n\n\t\t// select getter / setter\n\t\tthis.getValue = this.GetterByBindingType[ bindingType ];\n\t\tthis.setValue = this.SetterByBindingTypeAndVersioning[ bindingType ][ versioning ];\n\n\t}\n\n\t/**\n\t * Unbinds the property.\n\t */\n\tunbind() {\n\n\t\tthis.node = null;\n\n\t\t// back to the prototype version of getValue / setValue\n\t\t// note: avoiding to mutate the shape of 'this' via 'delete'\n\t\tthis.getValue = this._getValue_unbound;\n\t\tthis.setValue = this._setValue_unbound;\n\n\t}\n\n}\n\nPropertyBinding.Composite = Composite;\n\nPropertyBinding.prototype.BindingType = {\n\tDirect: 0,\n\tEntireArray: 1,\n\tArrayElement: 2,\n\tHasFromToArray: 3\n};\n\nPropertyBinding.prototype.Versioning = {\n\tNone: 0,\n\tNeedsUpdate: 1,\n\tMatrixWorldNeedsUpdate: 2\n};\n\nPropertyBinding.prototype.GetterByBindingType = [\n\n\tPropertyBinding.prototype._getValue_direct,\n\tPropertyBinding.prototype._getValue_array,\n\tPropertyBinding.prototype._getValue_arrayElement,\n\tPropertyBinding.prototype._getValue_toArray,\n\n];\n\nPropertyBinding.prototype.SetterByBindingTypeAndVersioning = [\n\n\t[\n\t\t// Direct\n\t\tPropertyBinding.prototype._setValue_direct,\n\t\tPropertyBinding.prototype._setValue_direct_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_direct_setMatrixWorldNeedsUpdate,\n\n\t], [\n\n\t\t// EntireArray\n\n\t\tPropertyBinding.prototype._setValue_array,\n\t\tPropertyBinding.prototype._setValue_array_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_array_setMatrixWorldNeedsUpdate,\n\n\t], [\n\n\t\t// ArrayElement\n\t\tPropertyBinding.prototype._setValue_arrayElement,\n\t\tPropertyBinding.prototype._setValue_arrayElement_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_arrayElement_setMatrixWorldNeedsUpdate,\n\n\t], [\n\n\t\t// HasToFromArray\n\t\tPropertyBinding.prototype._setValue_fromArray,\n\t\tPropertyBinding.prototype._setValue_fromArray_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_fromArray_setMatrixWorldNeedsUpdate,\n\n\t]\n\n];\n\n/**\n * A group of objects that receives a shared animation state.\n *\n * Usage:\n *\n * - Add objects you would otherwise pass as 'root' to the\n * constructor or the .clipAction method of AnimationMixer.\n * - Instead pass this object as 'root'.\n * - You can also add and remove objects later when the mixer is running.\n *\n * Note:\n *\n * - Objects of this class appear as one object to the mixer,\n * so cache control of the individual objects must be done on the group.\n *\n * Limitation:\n *\n * - The animated properties must be compatible among the all objects in the group.\n * - A single property can either be controlled through a target group or directly, but not both.\n */\nclass AnimationObjectGroup {\n\n\t/**\n\t * Constructs a new animation group.\n\t *\n\t * @param {...Object3D} arguments - An arbitrary number of 3D objects that share the same animation state.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isAnimationObjectGroup = true;\n\n\t\t/**\n\t\t * The UUID of the 3D object.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t// cached objects followed by the active ones\n\t\tthis._objects = Array.prototype.slice.call( arguments );\n\n\t\tthis.nCachedObjects_ = 0; // threshold\n\t\t// note: read by PropertyBinding.Composite\n\n\t\tconst indices = {};\n\t\tthis._indicesByUUID = indices; // for bookkeeping\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tindices[ arguments[ i ].uuid ] = i;\n\n\t\t}\n\n\t\tthis._paths = []; // inside: string\n\t\tthis._parsedPaths = []; // inside: { we don't care, here }\n\t\tthis._bindings = []; // inside: Array< PropertyBinding >\n\t\tthis._bindingsIndicesByPath = {}; // inside: indices in these arrays\n\n\t\tconst scope = this;\n\n\t\tthis.stats = {\n\n\t\t\tobjects: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._objects.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn this.total - scope.nCachedObjects_;\n\n\t\t\t\t}\n\t\t\t},\n\t\t\tget bindingsPerObject() {\n\n\t\t\t\treturn scope._bindings.length;\n\n\t\t\t}\n\n\t\t};\n\n\t}\n\n\t/**\n\t * Adds an arbitrary number of objects to this animation group.\n\t *\n\t * @param {...Object3D} arguments - The 3D objects to add.\n\t */\n\tadd() {\n\n\t\tconst objects = this._objects,\n\t\t\tindicesByUUID = this._indicesByUUID,\n\t\t\tpaths = this._paths,\n\t\t\tparsedPaths = this._parsedPaths,\n\t\t\tbindings = this._bindings,\n\t\t\tnBindings = bindings.length;\n\n\t\tlet knownObject = undefined,\n\t\t\tnObjects = objects.length,\n\t\t\tnCachedObjects = this.nCachedObjects_;\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tconst object = arguments[ i ],\n\t\t\t\tuuid = object.uuid;\n\t\t\tlet index = indicesByUUID[ uuid ];\n\n\t\t\tif ( index === undefined ) {\n\n\t\t\t\t// unknown object -> add it to the ACTIVE region\n\n\t\t\t\tindex = nObjects ++;\n\t\t\t\tindicesByUUID[ uuid ] = index;\n\t\t\t\tobjects.push( object );\n\n\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\tbindings[ j ].push( new PropertyBinding( object, paths[ j ], parsedPaths[ j ] ) );\n\n\t\t\t\t}\n\n\t\t\t} else if ( index < nCachedObjects ) {\n\n\t\t\t\tknownObject = objects[ index ];\n\n\t\t\t\t// move existing object to the ACTIVE region\n\n\t\t\t\tconst firstActiveIndex = -- nCachedObjects,\n\t\t\t\t\tlastCachedObject = objects[ firstActiveIndex ];\n\n\t\t\t\tindicesByUUID[ lastCachedObject.uuid ] = index;\n\t\t\t\tobjects[ index ] = lastCachedObject;\n\n\t\t\t\tindicesByUUID[ uuid ] = firstActiveIndex;\n\t\t\t\tobjects[ firstActiveIndex ] = object;\n\n\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\tconst bindingsForPath = bindings[ j ],\n\t\t\t\t\t\tlastCached = bindingsForPath[ firstActiveIndex ];\n\n\t\t\t\t\tlet binding = bindingsForPath[ index ];\n\n\t\t\t\t\tbindingsForPath[ index ] = lastCached;\n\n\t\t\t\t\tif ( binding === undefined ) {\n\n\t\t\t\t\t\t// since we do not bother to create new bindings\n\t\t\t\t\t\t// for objects that are cached, the binding may\n\t\t\t\t\t\t// or may not exist\n\n\t\t\t\t\t\tbinding = new PropertyBinding( object, paths[ j ], parsedPaths[ j ] );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbindingsForPath[ firstActiveIndex ] = binding;\n\n\t\t\t\t}\n\n\t\t\t} else if ( objects[ index ] !== knownObject ) {\n\n\t\t\t\tconsole.error( 'THREE.AnimationObjectGroup: Different objects with the same UUID ' +\n\t\t\t\t\t'detected. Clean the caches or recreate your infrastructure when reloading scenes.' );\n\n\t\t\t} // else the object is already where we want it to be\n\n\t\t} // for arguments\n\n\t\tthis.nCachedObjects_ = nCachedObjects;\n\n\t}\n\n\t/**\n\t * Removes an arbitrary number of objects to this animation group\n\t *\n\t * @param {...Object3D} arguments - The 3D objects to remove.\n\t */\n\tremove() {\n\n\t\tconst objects = this._objects,\n\t\t\tindicesByUUID = this._indicesByUUID,\n\t\t\tbindings = this._bindings,\n\t\t\tnBindings = bindings.length;\n\n\t\tlet nCachedObjects = this.nCachedObjects_;\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tconst object = arguments[ i ],\n\t\t\t\tuuid = object.uuid,\n\t\t\t\tindex = indicesByUUID[ uuid ];\n\n\t\t\tif ( index !== undefined && index >= nCachedObjects ) {\n\n\t\t\t\t// move existing object into the CACHED region\n\n\t\t\t\tconst lastCachedIndex = nCachedObjects ++,\n\t\t\t\t\tfirstActiveObject = objects[ lastCachedIndex ];\n\n\t\t\t\tindicesByUUID[ firstActiveObject.uuid ] = index;\n\t\t\t\tobjects[ index ] = firstActiveObject;\n\n\t\t\t\tindicesByUUID[ uuid ] = lastCachedIndex;\n\t\t\t\tobjects[ lastCachedIndex ] = object;\n\n\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\tconst bindingsForPath = bindings[ j ],\n\t\t\t\t\t\tfirstActive = bindingsForPath[ lastCachedIndex ],\n\t\t\t\t\t\tbinding = bindingsForPath[ index ];\n\n\t\t\t\t\tbindingsForPath[ index ] = firstActive;\n\t\t\t\t\tbindingsForPath[ lastCachedIndex ] = binding;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} // for arguments\n\n\t\tthis.nCachedObjects_ = nCachedObjects;\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for the passed 3D objects of this animation group.\n\t *\n\t * @param {...Object3D} arguments - The 3D objects to uncache.\n\t */\n\tuncache() {\n\n\t\tconst objects = this._objects,\n\t\t\tindicesByUUID = this._indicesByUUID,\n\t\t\tbindings = this._bindings,\n\t\t\tnBindings = bindings.length;\n\n\t\tlet nCachedObjects = this.nCachedObjects_,\n\t\t\tnObjects = objects.length;\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tconst object = arguments[ i ],\n\t\t\t\tuuid = object.uuid,\n\t\t\t\tindex = indicesByUUID[ uuid ];\n\n\t\t\tif ( index !== undefined ) {\n\n\t\t\t\tdelete indicesByUUID[ uuid ];\n\n\t\t\t\tif ( index < nCachedObjects ) {\n\n\t\t\t\t\t// object is cached, shrink the CACHED region\n\n\t\t\t\t\tconst firstActiveIndex = -- nCachedObjects,\n\t\t\t\t\t\tlastCachedObject = objects[ firstActiveIndex ],\n\t\t\t\t\t\tlastIndex = -- nObjects,\n\t\t\t\t\t\tlastObject = objects[ lastIndex ];\n\n\t\t\t\t\t// last cached object takes this object's place\n\t\t\t\t\tindicesByUUID[ lastCachedObject.uuid ] = index;\n\t\t\t\t\tobjects[ index ] = lastCachedObject;\n\n\t\t\t\t\t// last object goes to the activated slot and pop\n\t\t\t\t\tindicesByUUID[ lastObject.uuid ] = firstActiveIndex;\n\t\t\t\t\tobjects[ firstActiveIndex ] = lastObject;\n\t\t\t\t\tobjects.pop();\n\n\t\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\t\tconst bindingsForPath = bindings[ j ],\n\t\t\t\t\t\t\tlastCached = bindingsForPath[ firstActiveIndex ],\n\t\t\t\t\t\t\tlast = bindingsForPath[ lastIndex ];\n\n\t\t\t\t\t\tbindingsForPath[ index ] = lastCached;\n\t\t\t\t\t\tbindingsForPath[ firstActiveIndex ] = last;\n\t\t\t\t\t\tbindingsForPath.pop();\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// object is active, just swap with the last and pop\n\n\t\t\t\t\tconst lastIndex = -- nObjects,\n\t\t\t\t\t\tlastObject = objects[ lastIndex ];\n\n\t\t\t\t\tif ( lastIndex > 0 ) {\n\n\t\t\t\t\t\tindicesByUUID[ lastObject.uuid ] = index;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tobjects[ index ] = lastObject;\n\t\t\t\t\tobjects.pop();\n\n\t\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\t\tconst bindingsForPath = bindings[ j ];\n\n\t\t\t\t\t\tbindingsForPath[ index ] = bindingsForPath[ lastIndex ];\n\t\t\t\t\t\tbindingsForPath.pop();\n\n\t\t\t\t\t}\n\n\t\t\t\t} // cached or active\n\n\t\t\t} // if object is known\n\n\t\t} // for arguments\n\n\t\tthis.nCachedObjects_ = nCachedObjects;\n\n\t}\n\n\t// Internal interface used by befriended PropertyBinding.Composite:\n\n\tsubscribe_( path, parsedPath ) {\n\n\t\t// returns an array of bindings for the given path that is changed\n\t\t// according to the contained objects in the group\n\n\t\tconst indicesByPath = this._bindingsIndicesByPath;\n\t\tlet index = indicesByPath[ path ];\n\t\tconst bindings = this._bindings;\n\n\t\tif ( index !== undefined ) return bindings[ index ];\n\n\t\tconst paths = this._paths,\n\t\t\tparsedPaths = this._parsedPaths,\n\t\t\tobjects = this._objects,\n\t\t\tnObjects = objects.length,\n\t\t\tnCachedObjects = this.nCachedObjects_,\n\t\t\tbindingsForPath = new Array( nObjects );\n\n\t\tindex = bindings.length;\n\n\t\tindicesByPath[ path ] = index;\n\n\t\tpaths.push( path );\n\t\tparsedPaths.push( parsedPath );\n\t\tbindings.push( bindingsForPath );\n\n\t\tfor ( let i = nCachedObjects, n = objects.length; i !== n; ++ i ) {\n\n\t\t\tconst object = objects[ i ];\n\t\t\tbindingsForPath[ i ] = new PropertyBinding( object, path, parsedPath );\n\n\t\t}\n\n\t\treturn bindingsForPath;\n\n\t}\n\n\tunsubscribe_( path ) {\n\n\t\t// tells the group to forget about a property path and no longer\n\t\t// update the array previously obtained with 'subscribe_'\n\n\t\tconst indicesByPath = this._bindingsIndicesByPath,\n\t\t\tindex = indicesByPath[ path ];\n\n\t\tif ( index !== undefined ) {\n\n\t\t\tconst paths = this._paths,\n\t\t\t\tparsedPaths = this._parsedPaths,\n\t\t\t\tbindings = this._bindings,\n\t\t\t\tlastBindingsIndex = bindings.length - 1,\n\t\t\t\tlastBindings = bindings[ lastBindingsIndex ],\n\t\t\t\tlastBindingsPath = path[ lastBindingsIndex ];\n\n\t\t\tindicesByPath[ lastBindingsPath ] = index;\n\n\t\t\tbindings[ index ] = lastBindings;\n\t\t\tbindings.pop();\n\n\t\t\tparsedPaths[ index ] = parsedPaths[ lastBindingsIndex ];\n\t\t\tparsedPaths.pop();\n\n\t\t\tpaths[ index ] = paths[ lastBindingsIndex ];\n\t\t\tpaths.pop();\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * An instance of `AnimationAction` schedules the playback of an animation which is\n * stored in {@link AnimationClip}.\n */\nclass AnimationAction {\n\n\t/**\n\t * Constructs a new animation action.\n\t *\n\t * @param {AnimationMixer} mixer - The mixer that is controlled by this action.\n\t * @param {AnimationClip} clip - The animation clip that holds the actual keyframes.\n\t * @param {?Object3D} [localRoot=null] - The root object on which this action is performed.\n\t * @param {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)} [blendMode] - The blend mode.\n\t */\n\tconstructor( mixer, clip, localRoot = null, blendMode = clip.blendMode ) {\n\n\t\tthis._mixer = mixer;\n\t\tthis._clip = clip;\n\t\tthis._localRoot = localRoot;\n\n\t\t/**\n\t\t * Defines how the animation is blended/combined when two or more animations\n\t\t * are simultaneously played.\n\t\t *\n\t\t * @type {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)}\n\t\t */\n\t\tthis.blendMode = blendMode;\n\n\t\tconst tracks = clip.tracks,\n\t\t\tnTracks = tracks.length,\n\t\t\tinterpolants = new Array( nTracks );\n\n\t\tconst interpolantSettings = {\n\t\t\tendingStart: ZeroCurvatureEnding,\n\t\t\tendingEnd: ZeroCurvatureEnding\n\t\t};\n\n\t\tfor ( let i = 0; i !== nTracks; ++ i ) {\n\n\t\t\tconst interpolant = tracks[ i ].createInterpolant( null );\n\t\t\tinterpolants[ i ] = interpolant;\n\t\t\tinterpolant.settings = interpolantSettings;\n\n\t\t}\n\n\t\tthis._interpolantSettings = interpolantSettings;\n\n\t\tthis._interpolants = interpolants; // bound by the mixer\n\n\t\t// inside: PropertyMixer (managed by the mixer)\n\t\tthis._propertyBindings = new Array( nTracks );\n\n\t\tthis._cacheIndex = null; // for the memory manager\n\t\tthis._byClipCacheIndex = null; // for the memory manager\n\n\t\tthis._timeScaleInterpolant = null;\n\t\tthis._weightInterpolant = null;\n\n\t\t/**\n\t\t * The loop mode, set via {@link AnimationAction#setLoop}.\n\t\t *\n\t\t * @type {(LoopRepeat|LoopOnce|LoopPingPong)}\n\t\t * @default LoopRepeat\n\t\t */\n\t\tthis.loop = LoopRepeat;\n\t\tthis._loopCount = -1;\n\n\t\t// global mixer time when the action is to be started\n\t\t// it's set back to 'null' upon start of the action\n\t\tthis._startTime = null;\n\n\t\t/**\n\t\t * The local time of this action (in seconds, starting with `0`).\n\t\t *\n\t\t * The value gets clamped or wrapped to `[0,clip.duration]` (according to the\n\t\t * loop state).\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.time = 0;\n\n\t\t/**\n\t\t * Scaling factor for the {@link AnimationAction#time}. A value of `0` causes the\n\t\t * animation to pause. Negative values cause the animation to play backwards.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.timeScale = 1;\n\t\tthis._effectiveTimeScale = 1;\n\n\t\t/**\n\t\t * The degree of influence of this action (in the interval `[0, 1]`). Values\n\t\t * between `0` (no impact) and `1` (full impact) can be used to blend between\n\t\t * several actions.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.weight = 1;\n\t\tthis._effectiveWeight = 1;\n\n\t\t/**\n\t\t * The number of repetitions of the performed clip over the course of this action.\n\t\t * Can be set via {@link AnimationAction#setLoop}.\n\t\t *\n\t\t * Setting this number has no effect if {@link AnimationAction#loop} is set to\n\t\t * `THREE:LoopOnce`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.repetitions = Infinity;\n\n\t\t/**\n\t\t * If set to `true`, the playback of the action is paused.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.paused = false;\n\n\t\t/**\n\t\t * If set to `false`, the action is disabled so it has no impact.\n\t\t *\n\t\t * When the action is re-enabled, the animation continues from its current\n\t\t * time (setting `enabled` to `false` doesn't reset the action).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.enabled = true;\n\n\t\t/**\n\t\t * If set to true the animation will automatically be paused on its last frame.\n\t\t *\n\t\t * If set to false, {@link AnimationAction#enabled} will automatically be switched\n\t\t * to `false` when the last loop of the action has finished, so that this action has\n\t\t * no further impact.\n\t\t *\n\t\t * Note: This member has no impact if the action is interrupted (it\n\t\t * has only an effect if its last loop has really finished).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clampWhenFinished = false;\n\n\t\t/**\n\t\t * Enables smooth interpolation without separate clips for start, loop and end.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.zeroSlopeAtStart = true;\n\n\t\t/**\n\t\t * Enables smooth interpolation without separate clips for start, loop and end.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.zeroSlopeAtEnd = true;\n\n\t}\n\n\t/**\n\t * Starts the playback of the animation.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tplay() {\n\n\t\tthis._mixer._activateAction( this );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Stops the playback of the animation.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstop() {\n\n\t\tthis._mixer._deactivateAction( this );\n\n\t\treturn this.reset();\n\n\t}\n\n\t/**\n\t * Resets the playback of the animation.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\treset() {\n\n\t\tthis.paused = false;\n\t\tthis.enabled = true;\n\n\t\tthis.time = 0; // restart clip\n\t\tthis._loopCount = -1;// forget previous loops\n\t\tthis._startTime = null;// forget scheduling\n\n\t\treturn this.stopFading().stopWarping();\n\n\t}\n\n\t/**\n\t * Returns `true` if the animation is running.\n\t *\n\t * @return {boolean} Whether the animation is running or not.\n\t */\n\tisRunning() {\n\n\t\treturn this.enabled && ! this.paused && this.timeScale !== 0 &&\n\t\t\tthis._startTime === null && this._mixer._isActiveAction( this );\n\n\t}\n\n\t/**\n\t * Returns `true` when {@link AnimationAction#play} has been called.\n\t *\n\t * @return {boolean} Whether the animation is scheduled or not.\n\t */\n\tisScheduled() {\n\n\t\treturn this._mixer._isActiveAction( this );\n\n\t}\n\n\t/**\n\t * Defines the time when the animation should start.\n\t *\n\t * @param {number} time - The start time in seconds.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstartAt( time ) {\n\n\t\tthis._startTime = time;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Configures the loop settings for this action.\n\t *\n\t * @param {(LoopRepeat|LoopOnce|LoopPingPong)} mode - The loop mode.\n\t * @param {number} repetitions - The number of repetitions.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetLoop( mode, repetitions ) {\n\n\t\tthis.loop = mode;\n\t\tthis.repetitions = repetitions;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the effective weight of this action.\n\t *\n\t * An action has no effect and thus an effective weight of zero when the\n\t * action is disabled.\n\t *\n\t * @param {number} weight - The weight to set.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetEffectiveWeight( weight ) {\n\n\t\tthis.weight = weight;\n\n\t\t// note: same logic as when updated at runtime\n\t\tthis._effectiveWeight = this.enabled ? weight : 0;\n\n\t\treturn this.stopFading();\n\n\t}\n\n\t/**\n\t * Returns the effective weight of this action.\n\t *\n\t * @return {number} The effective weight.\n\t */\n\tgetEffectiveWeight() {\n\n\t\treturn this._effectiveWeight;\n\n\t}\n\n\t/**\n\t * Fades the animation in by increasing its weight gradually from `0` to `1`,\n\t * within the passed time interval.\n\t *\n\t * @param {number} duration - The duration of the fade.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tfadeIn( duration ) {\n\n\t\treturn this._scheduleFading( duration, 0, 1 );\n\n\t}\n\n\t/**\n\t * Fades the animation out by decreasing its weight gradually from `1` to `0`,\n\t * within the passed time interval.\n\t *\n\t * @param {number} duration - The duration of the fade.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tfadeOut( duration ) {\n\n\t\treturn this._scheduleFading( duration, 1, 0 );\n\n\t}\n\n\t/**\n\t * Causes this action to fade in and the given action to fade out,\n\t * within the passed time interval.\n\t *\n\t * @param {AnimationAction} fadeOutAction - The animation action to fade out.\n\t * @param {number} duration - The duration of the fade.\n\t * @param {boolean} [warp=false] - Whether warping should be used or not.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tcrossFadeFrom( fadeOutAction, duration, warp = false ) {\n\n\t\tfadeOutAction.fadeOut( duration );\n\t\tthis.fadeIn( duration );\n\n\t\tif ( warp === true ) {\n\n\t\t\tconst fadeInDuration = this._clip.duration,\n\t\t\t\tfadeOutDuration = fadeOutAction._clip.duration,\n\n\t\t\t\tstartEndRatio = fadeOutDuration / fadeInDuration,\n\t\t\t\tendStartRatio = fadeInDuration / fadeOutDuration;\n\n\t\t\tfadeOutAction.warp( 1.0, startEndRatio, duration );\n\t\t\tthis.warp( endStartRatio, 1.0, duration );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Causes this action to fade out and the given action to fade in,\n\t * within the passed time interval.\n\t *\n\t * @param {AnimationAction} fadeInAction - The animation action to fade in.\n\t * @param {number} duration - The duration of the fade.\n\t * @param {boolean} [warp=false] - Whether warping should be used or not.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tcrossFadeTo( fadeInAction, duration, warp = false ) {\n\n\t\treturn fadeInAction.crossFadeFrom( this, duration, warp );\n\n\t}\n\n\t/**\n\t * Stops any fading which is applied to this action.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstopFading() {\n\n\t\tconst weightInterpolant = this._weightInterpolant;\n\n\t\tif ( weightInterpolant !== null ) {\n\n\t\t\tthis._weightInterpolant = null;\n\t\t\tthis._mixer._takeBackControlInterpolant( weightInterpolant );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the effective time scale of this action.\n\t *\n\t * An action has no effect and thus an effective time scale of zero when the\n\t * action is paused.\n\t *\n\t * @param {number} timeScale - The time scale to set.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetEffectiveTimeScale( timeScale ) {\n\n\t\tthis.timeScale = timeScale;\n\t\tthis._effectiveTimeScale = this.paused ? 0 : timeScale;\n\n\t\treturn this.stopWarping();\n\n\t}\n\n\t/**\n\t * Returns the effective time scale of this action.\n\t *\n\t * @return {number} The effective time scale.\n\t */\n\tgetEffectiveTimeScale() {\n\n\t\treturn this._effectiveTimeScale;\n\n\t}\n\n\t/**\n\t * Sets the duration for a single loop of this action.\n\t *\n\t * @param {number} duration - The duration to set.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetDuration( duration ) {\n\n\t\tthis.timeScale = this._clip.duration / duration;\n\n\t\treturn this.stopWarping();\n\n\t}\n\n\t/**\n\t * Synchronizes this action with the passed other action.\n\t *\n\t * @param {AnimationAction} action - The action to sync with.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsyncWith( action ) {\n\n\t\tthis.time = action.time;\n\t\tthis.timeScale = action.timeScale;\n\n\t\treturn this.stopWarping();\n\n\t}\n\n\t/**\n\t * Decelerates this animation's speed to `0` within the passed time interval.\n\t *\n\t * @param {number} duration - The duration.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\thalt( duration ) {\n\n\t\treturn this.warp( this._effectiveTimeScale, 0, duration );\n\n\t}\n\n\t/**\n\t * Changes the playback speed, within the passed time interval, by modifying\n\t * {@link AnimationAction#timeScale} gradually from `startTimeScale` to\n\t * `endTimeScale`.\n\t *\n\t * @param {number} startTimeScale - The start time scale.\n\t * @param {number} endTimeScale - The end time scale.\n\t * @param {number} duration - The duration.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\twarp( startTimeScale, endTimeScale, duration ) {\n\n\t\tconst mixer = this._mixer,\n\t\t\tnow = mixer.time,\n\t\t\ttimeScale = this.timeScale;\n\n\t\tlet interpolant = this._timeScaleInterpolant;\n\n\t\tif ( interpolant === null ) {\n\n\t\t\tinterpolant = mixer._lendControlInterpolant();\n\t\t\tthis._timeScaleInterpolant = interpolant;\n\n\t\t}\n\n\t\tconst times = interpolant.parameterPositions,\n\t\t\tvalues = interpolant.sampleValues;\n\n\t\ttimes[ 0 ] = now;\n\t\ttimes[ 1 ] = now + duration;\n\n\t\tvalues[ 0 ] = startTimeScale / timeScale;\n\t\tvalues[ 1 ] = endTimeScale / timeScale;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Stops any scheduled warping which is applied to this action.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstopWarping() {\n\n\t\tconst timeScaleInterpolant = this._timeScaleInterpolant;\n\n\t\tif ( timeScaleInterpolant !== null ) {\n\n\t\t\tthis._timeScaleInterpolant = null;\n\t\t\tthis._mixer._takeBackControlInterpolant( timeScaleInterpolant );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the animation mixer of this animation action.\n\t *\n\t * @return {AnimationMixer} The animation mixer.\n\t */\n\tgetMixer() {\n\n\t\treturn this._mixer;\n\n\t}\n\n\t/**\n\t * Returns the animation clip of this animation action.\n\t *\n\t * @return {AnimationClip} The animation clip.\n\t */\n\tgetClip() {\n\n\t\treturn this._clip;\n\n\t}\n\n\t/**\n\t * Returns the root object of this animation action.\n\t *\n\t * @return {Object3D} The root object.\n\t */\n\tgetRoot() {\n\n\t\treturn this._localRoot || this._mixer._root;\n\n\t}\n\n\t// Interna\n\n\t_update( time, deltaTime, timeDirection, accuIndex ) {\n\n\t\t// called by the mixer\n\n\t\tif ( ! this.enabled ) {\n\n\t\t\t// call ._updateWeight() to update ._effectiveWeight\n\n\t\t\tthis._updateWeight( time );\n\t\t\treturn;\n\n\t\t}\n\n\t\tconst startTime = this._startTime;\n\n\t\tif ( startTime !== null ) {\n\n\t\t\t// check for scheduled start of action\n\n\t\t\tconst timeRunning = ( time - startTime ) * timeDirection;\n\t\t\tif ( timeRunning < 0 || timeDirection === 0 ) {\n\n\t\t\t\tdeltaTime = 0;\n\n\t\t\t} else {\n\n\n\t\t\t\tthis._startTime = null; // unschedule\n\t\t\t\tdeltaTime = timeDirection * timeRunning;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// apply time scale and advance time\n\n\t\tdeltaTime *= this._updateTimeScale( time );\n\t\tconst clipTime = this._updateTime( deltaTime );\n\n\t\t// note: _updateTime may disable the action resulting in\n\t\t// an effective weight of 0\n\n\t\tconst weight = this._updateWeight( time );\n\n\t\tif ( weight > 0 ) {\n\n\t\t\tconst interpolants = this._interpolants;\n\t\t\tconst propertyMixers = this._propertyBindings;\n\n\t\t\tswitch ( this.blendMode ) {\n\n\t\t\t\tcase AdditiveAnimationBlendMode:\n\n\t\t\t\t\tfor ( let j = 0, m = interpolants.length; j !== m; ++ j ) {\n\n\t\t\t\t\t\tinterpolants[ j ].evaluate( clipTime );\n\t\t\t\t\t\tpropertyMixers[ j ].accumulateAdditive( weight );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase NormalAnimationBlendMode:\n\t\t\t\tdefault:\n\n\t\t\t\t\tfor ( let j = 0, m = interpolants.length; j !== m; ++ j ) {\n\n\t\t\t\t\t\tinterpolants[ j ].evaluate( clipTime );\n\t\t\t\t\t\tpropertyMixers[ j ].accumulate( accuIndex, weight );\n\n\t\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_updateWeight( time ) {\n\n\t\tlet weight = 0;\n\n\t\tif ( this.enabled ) {\n\n\t\t\tweight = this.weight;\n\t\t\tconst interpolant = this._weightInterpolant;\n\n\t\t\tif ( interpolant !== null ) {\n\n\t\t\t\tconst interpolantValue = interpolant.evaluate( time )[ 0 ];\n\n\t\t\t\tweight *= interpolantValue;\n\n\t\t\t\tif ( time > interpolant.parameterPositions[ 1 ] ) {\n\n\t\t\t\t\tthis.stopFading();\n\n\t\t\t\t\tif ( interpolantValue === 0 ) {\n\n\t\t\t\t\t\t// faded out, disable\n\t\t\t\t\t\tthis.enabled = false;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis._effectiveWeight = weight;\n\t\treturn weight;\n\n\t}\n\n\t_updateTimeScale( time ) {\n\n\t\tlet timeScale = 0;\n\n\t\tif ( ! this.paused ) {\n\n\t\t\ttimeScale = this.timeScale;\n\n\t\t\tconst interpolant = this._timeScaleInterpolant;\n\n\t\t\tif ( interpolant !== null ) {\n\n\t\t\t\tconst interpolantValue = interpolant.evaluate( time )[ 0 ];\n\n\t\t\t\ttimeScale *= interpolantValue;\n\n\t\t\t\tif ( time > interpolant.parameterPositions[ 1 ] ) {\n\n\t\t\t\t\tthis.stopWarping();\n\n\t\t\t\t\tif ( timeScale === 0 ) {\n\n\t\t\t\t\t\t// motion has halted, pause\n\t\t\t\t\t\tthis.paused = true;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// warp done - apply final time scale\n\t\t\t\t\t\tthis.timeScale = timeScale;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis._effectiveTimeScale = timeScale;\n\t\treturn timeScale;\n\n\t}\n\n\t_updateTime( deltaTime ) {\n\n\t\tconst duration = this._clip.duration;\n\t\tconst loop = this.loop;\n\n\t\tlet time = this.time + deltaTime;\n\t\tlet loopCount = this._loopCount;\n\n\t\tconst pingPong = ( loop === LoopPingPong );\n\n\t\tif ( deltaTime === 0 ) {\n\n\t\t\tif ( loopCount === -1 ) return time;\n\n\t\t\treturn ( pingPong && ( loopCount & 1 ) === 1 ) ? duration - time : time;\n\n\t\t}\n\n\t\tif ( loop === LoopOnce ) {\n\n\t\t\tif ( loopCount === -1 ) {\n\n\t\t\t\t// just started\n\n\t\t\t\tthis._loopCount = 0;\n\t\t\t\tthis._setEndings( true, true, false );\n\n\t\t\t}\n\n\t\t\thandle_stop: {\n\n\t\t\t\tif ( time >= duration ) {\n\n\t\t\t\t\ttime = duration;\n\n\t\t\t\t} else if ( time < 0 ) {\n\n\t\t\t\t\ttime = 0;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis.time = time;\n\n\t\t\t\t\tbreak handle_stop;\n\n\t\t\t\t}\n\n\t\t\t\tif ( this.clampWhenFinished ) this.paused = true;\n\t\t\t\telse this.enabled = false;\n\n\t\t\t\tthis.time = time;\n\n\t\t\t\tthis._mixer.dispatchEvent( {\n\t\t\t\t\ttype: 'finished', action: this,\n\t\t\t\t\tdirection: deltaTime < 0 ? -1 : 1\n\t\t\t\t} );\n\n\t\t\t}\n\n\t\t} else { // repetitive Repeat or PingPong\n\n\t\t\tif ( loopCount === -1 ) {\n\n\t\t\t\t// just started\n\n\t\t\t\tif ( deltaTime >= 0 ) {\n\n\t\t\t\t\tloopCount = 0;\n\n\t\t\t\t\tthis._setEndings( true, this.repetitions === 0, pingPong );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// when looping in reverse direction, the initial\n\t\t\t\t\t// transition through zero counts as a repetition,\n\t\t\t\t\t// so leave loopCount at -1\n\n\t\t\t\t\tthis._setEndings( this.repetitions === 0, true, pingPong );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( time >= duration || time < 0 ) {\n\n\t\t\t\t// wrap around\n\n\t\t\t\tconst loopDelta = Math.floor( time / duration ); // signed\n\t\t\t\ttime -= duration * loopDelta;\n\n\t\t\t\tloopCount += Math.abs( loopDelta );\n\n\t\t\t\tconst pending = this.repetitions - loopCount;\n\n\t\t\t\tif ( pending <= 0 ) {\n\n\t\t\t\t\t// have to stop (switch state, clamp time, fire event)\n\n\t\t\t\t\tif ( this.clampWhenFinished ) this.paused = true;\n\t\t\t\t\telse this.enabled = false;\n\n\t\t\t\t\ttime = deltaTime > 0 ? duration : 0;\n\n\t\t\t\t\tthis.time = time;\n\n\t\t\t\t\tthis._mixer.dispatchEvent( {\n\t\t\t\t\t\ttype: 'finished', action: this,\n\t\t\t\t\t\tdirection: deltaTime > 0 ? 1 : -1\n\t\t\t\t\t} );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// keep running\n\n\t\t\t\t\tif ( pending === 1 ) {\n\n\t\t\t\t\t\t// entering the last round\n\n\t\t\t\t\t\tconst atStart = deltaTime < 0;\n\t\t\t\t\t\tthis._setEndings( atStart, ! atStart, pingPong );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tthis._setEndings( false, false, pingPong );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tthis._loopCount = loopCount;\n\n\t\t\t\t\tthis.time = time;\n\n\t\t\t\t\tthis._mixer.dispatchEvent( {\n\t\t\t\t\t\ttype: 'loop', action: this, loopDelta: loopDelta\n\t\t\t\t\t} );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tthis.time = time;\n\n\t\t\t}\n\n\t\t\tif ( pingPong && ( loopCount & 1 ) === 1 ) {\n\n\t\t\t\t// invert time for the \"pong round\"\n\n\t\t\t\treturn duration - time;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn time;\n\n\t}\n\n\t_setEndings( atStart, atEnd, pingPong ) {\n\n\t\tconst settings = this._interpolantSettings;\n\n\t\tif ( pingPong ) {\n\n\t\t\tsettings.endingStart = ZeroSlopeEnding;\n\t\t\tsettings.endingEnd = ZeroSlopeEnding;\n\n\t\t} else {\n\n\t\t\t// assuming for LoopOnce atStart == atEnd == true\n\n\t\t\tif ( atStart ) {\n\n\t\t\t\tsettings.endingStart = this.zeroSlopeAtStart ? ZeroSlopeEnding : ZeroCurvatureEnding;\n\n\t\t\t} else {\n\n\t\t\t\tsettings.endingStart = WrapAroundEnding;\n\n\t\t\t}\n\n\t\t\tif ( atEnd ) {\n\n\t\t\t\tsettings.endingEnd = this.zeroSlopeAtEnd ? ZeroSlopeEnding : ZeroCurvatureEnding;\n\n\t\t\t} else {\n\n\t\t\t\tsettings.endingEnd \t = WrapAroundEnding;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_scheduleFading( duration, weightNow, weightThen ) {\n\n\t\tconst mixer = this._mixer, now = mixer.time;\n\t\tlet interpolant = this._weightInterpolant;\n\n\t\tif ( interpolant === null ) {\n\n\t\t\tinterpolant = mixer._lendControlInterpolant();\n\t\t\tthis._weightInterpolant = interpolant;\n\n\t\t}\n\n\t\tconst times = interpolant.parameterPositions,\n\t\t\tvalues = interpolant.sampleValues;\n\n\t\ttimes[ 0 ] = now;\n\t\tvalues[ 0 ] = weightNow;\n\t\ttimes[ 1 ] = now + duration;\n\t\tvalues[ 1 ] = weightThen;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _controlInterpolantsResultBuffer = new Float32Array( 1 );\n\n/**\n * `AnimationMixer` is a player for animations on a particular object in\n * the scene. When multiple objects in the scene are animated independently,\n * one `AnimationMixer` may be used for each object.\n */\nclass AnimationMixer extends EventDispatcher {\n\n\t/**\n\t * Constructs a new animation mixer.\n\t *\n\t * @param {Object3D} root - The object whose animations shall be played by this mixer.\n\t */\n\tconstructor( root ) {\n\n\t\tsuper();\n\n\t\tthis._root = root;\n\t\tthis._initMemoryManager();\n\t\tthis._accuIndex = 0;\n\n\t\t/**\n\t\t * The global mixer time (in seconds; starting with `0` on the mixer's creation).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.time = 0;\n\n\t\t/**\n\t\t * A scaling factor for the global time.\n\t\t *\n\t\t * Note: Setting this member to `0` and later back to `1` is a\n\t\t * possibility to pause/unpause all actions that are controlled by this\n\t\t * mixer.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.timeScale = 1.0;\n\n\t}\n\n\t_bindAction( action, prototypeAction ) {\n\n\t\tconst root = action._localRoot || this._root,\n\t\t\ttracks = action._clip.tracks,\n\t\t\tnTracks = tracks.length,\n\t\t\tbindings = action._propertyBindings,\n\t\t\tinterpolants = action._interpolants,\n\t\t\trootUuid = root.uuid,\n\t\t\tbindingsByRoot = this._bindingsByRootAndName;\n\n\t\tlet bindingsByName = bindingsByRoot[ rootUuid ];\n\n\t\tif ( bindingsByName === undefined ) {\n\n\t\t\tbindingsByName = {};\n\t\t\tbindingsByRoot[ rootUuid ] = bindingsByName;\n\n\t\t}\n\n\t\tfor ( let i = 0; i !== nTracks; ++ i ) {\n\n\t\t\tconst track = tracks[ i ],\n\t\t\t\ttrackName = track.name;\n\n\t\t\tlet binding = bindingsByName[ trackName ];\n\n\t\t\tif ( binding !== undefined ) {\n\n\t\t\t\t++ binding.referenceCount;\n\t\t\t\tbindings[ i ] = binding;\n\n\t\t\t} else {\n\n\t\t\t\tbinding = bindings[ i ];\n\n\t\t\t\tif ( binding !== undefined ) {\n\n\t\t\t\t\t// existing binding, make sure the cache knows\n\n\t\t\t\t\tif ( binding._cacheIndex === null ) {\n\n\t\t\t\t\t\t++ binding.referenceCount;\n\t\t\t\t\t\tthis._addInactiveBinding( binding, rootUuid, trackName );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tcontinue;\n\n\t\t\t\t}\n\n\t\t\t\tconst path = prototypeAction && prototypeAction.\n\t\t\t\t\t_propertyBindings[ i ].binding.parsedPath;\n\n\t\t\t\tbinding = new PropertyMixer(\n\t\t\t\t\tPropertyBinding.create( root, trackName, path ),\n\t\t\t\t\ttrack.ValueTypeName, track.getValueSize() );\n\n\t\t\t\t++ binding.referenceCount;\n\t\t\t\tthis._addInactiveBinding( binding, rootUuid, trackName );\n\n\t\t\t\tbindings[ i ] = binding;\n\n\t\t\t}\n\n\t\t\tinterpolants[ i ].resultBuffer = binding.buffer;\n\n\t\t}\n\n\t}\n\n\t_activateAction( action ) {\n\n\t\tif ( ! this._isActiveAction( action ) ) {\n\n\t\t\tif ( action._cacheIndex === null ) {\n\n\t\t\t\t// this action has been forgotten by the cache, but the user\n\t\t\t\t// appears to be still using it -> rebind\n\n\t\t\t\tconst rootUuid = ( action._localRoot || this._root ).uuid,\n\t\t\t\t\tclipUuid = action._clip.uuid,\n\t\t\t\t\tactionsForClip = this._actionsByClip[ clipUuid ];\n\n\t\t\t\tthis._bindAction( action,\n\t\t\t\t\tactionsForClip && actionsForClip.knownActions[ 0 ] );\n\n\t\t\t\tthis._addInactiveAction( action, clipUuid, rootUuid );\n\n\t\t\t}\n\n\t\t\tconst bindings = action._propertyBindings;\n\n\t\t\t// increment reference counts / sort out state\n\t\t\tfor ( let i = 0, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\t\tconst binding = bindings[ i ];\n\n\t\t\t\tif ( binding.useCount ++ === 0 ) {\n\n\t\t\t\t\tthis._lendBinding( binding );\n\t\t\t\t\tbinding.saveOriginalState();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis._lendAction( action );\n\n\t\t}\n\n\t}\n\n\t_deactivateAction( action ) {\n\n\t\tif ( this._isActiveAction( action ) ) {\n\n\t\t\tconst bindings = action._propertyBindings;\n\n\t\t\t// decrement reference counts / sort out state\n\t\t\tfor ( let i = 0, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\t\tconst binding = bindings[ i ];\n\n\t\t\t\tif ( -- binding.useCount === 0 ) {\n\n\t\t\t\t\tbinding.restoreOriginalState();\n\t\t\t\t\tthis._takeBackBinding( binding );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis._takeBackAction( action );\n\n\t\t}\n\n\t}\n\n\t// Memory manager\n\n\t_initMemoryManager() {\n\n\t\tthis._actions = []; // 'nActiveActions' followed by inactive ones\n\t\tthis._nActiveActions = 0;\n\n\t\tthis._actionsByClip = {};\n\t\t// inside:\n\t\t// {\n\t\t// \tknownActions: Array< AnimationAction > - used as prototypes\n\t\t// \tactionByRoot: AnimationAction - lookup\n\t\t// }\n\n\n\t\tthis._bindings = []; // 'nActiveBindings' followed by inactive ones\n\t\tthis._nActiveBindings = 0;\n\n\t\tthis._bindingsByRootAndName = {}; // inside: Map< name, PropertyMixer >\n\n\n\t\tthis._controlInterpolants = []; // same game as above\n\t\tthis._nActiveControlInterpolants = 0;\n\n\t\tconst scope = this;\n\n\t\tthis.stats = {\n\n\t\t\tactions: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._actions.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn scope._nActiveActions;\n\n\t\t\t\t}\n\t\t\t},\n\t\t\tbindings: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._bindings.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn scope._nActiveBindings;\n\n\t\t\t\t}\n\t\t\t},\n\t\t\tcontrolInterpolants: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._controlInterpolants.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn scope._nActiveControlInterpolants;\n\n\t\t\t\t}\n\t\t\t}\n\n\t\t};\n\n\t}\n\n\t// Memory management for AnimationAction objects\n\n\t_isActiveAction( action ) {\n\n\t\tconst index = action._cacheIndex;\n\t\treturn index !== null && index < this._nActiveActions;\n\n\t}\n\n\t_addInactiveAction( action, clipUuid, rootUuid ) {\n\n\t\tconst actions = this._actions,\n\t\t\tactionsByClip = this._actionsByClip;\n\n\t\tlet actionsForClip = actionsByClip[ clipUuid ];\n\n\t\tif ( actionsForClip === undefined ) {\n\n\t\t\tactionsForClip = {\n\n\t\t\t\tknownActions: [ action ],\n\t\t\t\tactionByRoot: {}\n\n\t\t\t};\n\n\t\t\taction._byClipCacheIndex = 0;\n\n\t\t\tactionsByClip[ clipUuid ] = actionsForClip;\n\n\t\t} else {\n\n\t\t\tconst knownActions = actionsForClip.knownActions;\n\n\t\t\taction._byClipCacheIndex = knownActions.length;\n\t\t\tknownActions.push( action );\n\n\t\t}\n\n\t\taction._cacheIndex = actions.length;\n\t\tactions.push( action );\n\n\t\tactionsForClip.actionByRoot[ rootUuid ] = action;\n\n\t}\n\n\t_removeInactiveAction( action ) {\n\n\t\tconst actions = this._actions,\n\t\t\tlastInactiveAction = actions[ actions.length - 1 ],\n\t\t\tcacheIndex = action._cacheIndex;\n\n\t\tlastInactiveAction._cacheIndex = cacheIndex;\n\t\tactions[ cacheIndex ] = lastInactiveAction;\n\t\tactions.pop();\n\n\t\taction._cacheIndex = null;\n\n\n\t\tconst clipUuid = action._clip.uuid,\n\t\t\tactionsByClip = this._actionsByClip,\n\t\t\tactionsForClip = actionsByClip[ clipUuid ],\n\t\t\tknownActionsForClip = actionsForClip.knownActions,\n\n\t\t\tlastKnownAction =\n\t\t\t\tknownActionsForClip[ knownActionsForClip.length - 1 ],\n\n\t\t\tbyClipCacheIndex = action._byClipCacheIndex;\n\n\t\tlastKnownAction._byClipCacheIndex = byClipCacheIndex;\n\t\tknownActionsForClip[ byClipCacheIndex ] = lastKnownAction;\n\t\tknownActionsForClip.pop();\n\n\t\taction._byClipCacheIndex = null;\n\n\n\t\tconst actionByRoot = actionsForClip.actionByRoot,\n\t\t\trootUuid = ( action._localRoot || this._root ).uuid;\n\n\t\tdelete actionByRoot[ rootUuid ];\n\n\t\tif ( knownActionsForClip.length === 0 ) {\n\n\t\t\tdelete actionsByClip[ clipUuid ];\n\n\t\t}\n\n\t\tthis._removeInactiveBindingsForAction( action );\n\n\t}\n\n\t_removeInactiveBindingsForAction( action ) {\n\n\t\tconst bindings = action._propertyBindings;\n\n\t\tfor ( let i = 0, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tconst binding = bindings[ i ];\n\n\t\t\tif ( -- binding.referenceCount === 0 ) {\n\n\t\t\t\tthis._removeInactiveBinding( binding );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_lendAction( action ) {\n\n\t\t// [ active actions | inactive actions ]\n\t\t// [ active actions >| inactive actions ]\n\t\t// s a\n\t\t// <-swap->\n\t\t// a s\n\n\t\tconst actions = this._actions,\n\t\t\tprevIndex = action._cacheIndex,\n\n\t\t\tlastActiveIndex = this._nActiveActions ++,\n\n\t\t\tfirstInactiveAction = actions[ lastActiveIndex ];\n\n\t\taction._cacheIndex = lastActiveIndex;\n\t\tactions[ lastActiveIndex ] = action;\n\n\t\tfirstInactiveAction._cacheIndex = prevIndex;\n\t\tactions[ prevIndex ] = firstInactiveAction;\n\n\t}\n\n\t_takeBackAction( action ) {\n\n\t\t// [ active actions | inactive actions ]\n\t\t// [ active actions |< inactive actions ]\n\t\t// a s\n\t\t// <-swap->\n\t\t// s a\n\n\t\tconst actions = this._actions,\n\t\t\tprevIndex = action._cacheIndex,\n\n\t\t\tfirstInactiveIndex = -- this._nActiveActions,\n\n\t\t\tlastActiveAction = actions[ firstInactiveIndex ];\n\n\t\taction._cacheIndex = firstInactiveIndex;\n\t\tactions[ firstInactiveIndex ] = action;\n\n\t\tlastActiveAction._cacheIndex = prevIndex;\n\t\tactions[ prevIndex ] = lastActiveAction;\n\n\t}\n\n\t// Memory management for PropertyMixer objects\n\n\t_addInactiveBinding( binding, rootUuid, trackName ) {\n\n\t\tconst bindingsByRoot = this._bindingsByRootAndName,\n\t\t\tbindings = this._bindings;\n\n\t\tlet bindingByName = bindingsByRoot[ rootUuid ];\n\n\t\tif ( bindingByName === undefined ) {\n\n\t\t\tbindingByName = {};\n\t\t\tbindingsByRoot[ rootUuid ] = bindingByName;\n\n\t\t}\n\n\t\tbindingByName[ trackName ] = binding;\n\n\t\tbinding._cacheIndex = bindings.length;\n\t\tbindings.push( binding );\n\n\t}\n\n\t_removeInactiveBinding( binding ) {\n\n\t\tconst bindings = this._bindings,\n\t\t\tpropBinding = binding.binding,\n\t\t\trootUuid = propBinding.rootNode.uuid,\n\t\t\ttrackName = propBinding.path,\n\t\t\tbindingsByRoot = this._bindingsByRootAndName,\n\t\t\tbindingByName = bindingsByRoot[ rootUuid ],\n\n\t\t\tlastInactiveBinding = bindings[ bindings.length - 1 ],\n\t\t\tcacheIndex = binding._cacheIndex;\n\n\t\tlastInactiveBinding._cacheIndex = cacheIndex;\n\t\tbindings[ cacheIndex ] = lastInactiveBinding;\n\t\tbindings.pop();\n\n\t\tdelete bindingByName[ trackName ];\n\n\t\tif ( Object.keys( bindingByName ).length === 0 ) {\n\n\t\t\tdelete bindingsByRoot[ rootUuid ];\n\n\t\t}\n\n\t}\n\n\t_lendBinding( binding ) {\n\n\t\tconst bindings = this._bindings,\n\t\t\tprevIndex = binding._cacheIndex,\n\n\t\t\tlastActiveIndex = this._nActiveBindings ++,\n\n\t\t\tfirstInactiveBinding = bindings[ lastActiveIndex ];\n\n\t\tbinding._cacheIndex = lastActiveIndex;\n\t\tbindings[ lastActiveIndex ] = binding;\n\n\t\tfirstInactiveBinding._cacheIndex = prevIndex;\n\t\tbindings[ prevIndex ] = firstInactiveBinding;\n\n\t}\n\n\t_takeBackBinding( binding ) {\n\n\t\tconst bindings = this._bindings,\n\t\t\tprevIndex = binding._cacheIndex,\n\n\t\t\tfirstInactiveIndex = -- this._nActiveBindings,\n\n\t\t\tlastActiveBinding = bindings[ firstInactiveIndex ];\n\n\t\tbinding._cacheIndex = firstInactiveIndex;\n\t\tbindings[ firstInactiveIndex ] = binding;\n\n\t\tlastActiveBinding._cacheIndex = prevIndex;\n\t\tbindings[ prevIndex ] = lastActiveBinding;\n\n\t}\n\n\n\t// Memory management of Interpolants for weight and time scale\n\n\t_lendControlInterpolant() {\n\n\t\tconst interpolants = this._controlInterpolants,\n\t\t\tlastActiveIndex = this._nActiveControlInterpolants ++;\n\n\t\tlet interpolant = interpolants[ lastActiveIndex ];\n\n\t\tif ( interpolant === undefined ) {\n\n\t\t\tinterpolant = new LinearInterpolant(\n\t\t\t\tnew Float32Array( 2 ), new Float32Array( 2 ),\n\t\t\t\t1, _controlInterpolantsResultBuffer );\n\n\t\t\tinterpolant.__cacheIndex = lastActiveIndex;\n\t\t\tinterpolants[ lastActiveIndex ] = interpolant;\n\n\t\t}\n\n\t\treturn interpolant;\n\n\t}\n\n\t_takeBackControlInterpolant( interpolant ) {\n\n\t\tconst interpolants = this._controlInterpolants,\n\t\t\tprevIndex = interpolant.__cacheIndex,\n\n\t\t\tfirstInactiveIndex = -- this._nActiveControlInterpolants,\n\n\t\t\tlastActiveInterpolant = interpolants[ firstInactiveIndex ];\n\n\t\tinterpolant.__cacheIndex = firstInactiveIndex;\n\t\tinterpolants[ firstInactiveIndex ] = interpolant;\n\n\t\tlastActiveInterpolant.__cacheIndex = prevIndex;\n\t\tinterpolants[ prevIndex ] = lastActiveInterpolant;\n\n\t}\n\n\t/**\n\t * Returns an instance of {@link AnimationAction} for the passed clip.\n\t *\n\t * If an action fitting the clip and root parameters doesn't yet exist, it\n\t * will be created by this method. Calling this method several times with the\n\t * same clip and root parameters always returns the same action.\n\t *\n\t * @param {AnimationClip|string} clip - An animation clip or alternatively the name of the animation clip.\n\t * @param {Object3D} [optionalRoot] - An alternative root object.\n\t * @param {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)} [blendMode] - The blend mode.\n\t * @return {?AnimationAction} The animation action.\n\t */\n\tclipAction( clip, optionalRoot, blendMode ) {\n\n\t\tconst root = optionalRoot || this._root,\n\t\t\trootUuid = root.uuid;\n\n\t\tlet clipObject = typeof clip === 'string' ? AnimationClip.findByName( root, clip ) : clip;\n\n\t\tconst clipUuid = clipObject !== null ? clipObject.uuid : clip;\n\n\t\tconst actionsForClip = this._actionsByClip[ clipUuid ];\n\t\tlet prototypeAction = null;\n\n\t\tif ( blendMode === undefined ) {\n\n\t\t\tif ( clipObject !== null ) {\n\n\t\t\t\tblendMode = clipObject.blendMode;\n\n\t\t\t} else {\n\n\t\t\t\tblendMode = NormalAnimationBlendMode;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( actionsForClip !== undefined ) {\n\n\t\t\tconst existingAction = actionsForClip.actionByRoot[ rootUuid ];\n\n\t\t\tif ( existingAction !== undefined && existingAction.blendMode === blendMode ) {\n\n\t\t\t\treturn existingAction;\n\n\t\t\t}\n\n\t\t\t// we know the clip, so we don't have to parse all\n\t\t\t// the bindings again but can just copy\n\t\t\tprototypeAction = actionsForClip.knownActions[ 0 ];\n\n\t\t\t// also, take the clip from the prototype action\n\t\t\tif ( clipObject === null )\n\t\t\t\tclipObject = prototypeAction._clip;\n\n\t\t}\n\n\t\t// clip must be known when specified via string\n\t\tif ( clipObject === null ) return null;\n\n\t\t// allocate all resources required to run it\n\t\tconst newAction = new AnimationAction( this, clipObject, optionalRoot, blendMode );\n\n\t\tthis._bindAction( newAction, prototypeAction );\n\n\t\t// and make the action known to the memory manager\n\t\tthis._addInactiveAction( newAction, clipUuid, rootUuid );\n\n\t\treturn newAction;\n\n\t}\n\n\t/**\n\t * Returns an existing animation action for the passed clip.\n\t *\n\t * @param {AnimationClip|string} clip - An animation clip or alternatively the name of the animation clip.\n\t * @param {Object3D} [optionalRoot] - An alternative root object.\n\t * @return {?AnimationAction} The animation action. Returns `null` if no action was found.\n\t */\n\texistingAction( clip, optionalRoot ) {\n\n\t\tconst root = optionalRoot || this._root,\n\t\t\trootUuid = root.uuid,\n\n\t\t\tclipObject = typeof clip === 'string' ?\n\t\t\t\tAnimationClip.findByName( root, clip ) : clip,\n\n\t\t\tclipUuid = clipObject ? clipObject.uuid : clip,\n\n\t\t\tactionsForClip = this._actionsByClip[ clipUuid ];\n\n\t\tif ( actionsForClip !== undefined ) {\n\n\t\t\treturn actionsForClip.actionByRoot[ rootUuid ] || null;\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t/**\n\t * Deactivates all previously scheduled actions on this mixer.\n\t *\n\t * @return {AnimationMixer} A reference to thi animation mixer.\n\t */\n\tstopAllAction() {\n\n\t\tconst actions = this._actions,\n\t\t\tnActions = this._nActiveActions;\n\n\t\tfor ( let i = nActions - 1; i >= 0; -- i ) {\n\n\t\t\tactions[ i ].stop();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Advances the global mixer time and updates the animation.\n\t *\n\t * This is usually done in the render loop by passing the delta\n\t * time from {@link Clock} or {@link Timer}.\n\t *\n\t * @param {number} deltaTime - The delta time in seconds.\n\t * @return {AnimationMixer} A reference to thi animation mixer.\n\t */\n\tupdate( deltaTime ) {\n\n\t\tdeltaTime *= this.timeScale;\n\n\t\tconst actions = this._actions,\n\t\t\tnActions = this._nActiveActions,\n\n\t\t\ttime = this.time += deltaTime,\n\t\t\ttimeDirection = Math.sign( deltaTime ),\n\n\t\t\taccuIndex = this._accuIndex ^= 1;\n\n\t\t// run active actions\n\n\t\tfor ( let i = 0; i !== nActions; ++ i ) {\n\n\t\t\tconst action = actions[ i ];\n\n\t\t\taction._update( time, deltaTime, timeDirection, accuIndex );\n\n\t\t}\n\n\t\t// update scene graph\n\n\t\tconst bindings = this._bindings,\n\t\t\tnBindings = this._nActiveBindings;\n\n\t\tfor ( let i = 0; i !== nBindings; ++ i ) {\n\n\t\t\tbindings[ i ].apply( accuIndex );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the global mixer to a specific time and updates the animation accordingly.\n\t *\n\t * This is useful when you need to jump to an exact time in an animation. The\n\t * input parameter will be scaled by {@link AnimationMixer#timeScale}\n\t *\n\t * @param {number} time - The time to set in seconds.\n\t * @return {AnimationMixer} A reference to thi animation mixer.\n\t */\n\tsetTime( time ) {\n\n\t\tthis.time = 0; // Zero out time attribute for AnimationMixer object;\n\t\tfor ( let i = 0; i < this._actions.length; i ++ ) {\n\n\t\t\tthis._actions[ i ].time = 0; // Zero out time attribute for all associated AnimationAction objects.\n\n\t\t}\n\n\t\treturn this.update( time ); // Update used to set exact time. Returns \"this\" AnimationMixer object.\n\n\t}\n\n\t/**\n\t * Returns this mixer's root object.\n\t *\n\t * @return {Object3D} The mixer's root object.\n\t */\n\tgetRoot() {\n\n\t\treturn this._root;\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for a clip. Before using this method make\n\t * sure to call {@link AnimationAction#stop} for all related actions.\n\t *\n\t * @param {AnimationClip} clip - The clip to uncache.\n\t */\n\tuncacheClip( clip ) {\n\n\t\tconst actions = this._actions,\n\t\t\tclipUuid = clip.uuid,\n\t\t\tactionsByClip = this._actionsByClip,\n\t\t\tactionsForClip = actionsByClip[ clipUuid ];\n\n\t\tif ( actionsForClip !== undefined ) {\n\n\t\t\t// note: just calling _removeInactiveAction would mess up the\n\t\t\t// iteration state and also require updating the state we can\n\t\t\t// just throw away\n\n\t\t\tconst actionsToRemove = actionsForClip.knownActions;\n\n\t\t\tfor ( let i = 0, n = actionsToRemove.length; i !== n; ++ i ) {\n\n\t\t\t\tconst action = actionsToRemove[ i ];\n\n\t\t\t\tthis._deactivateAction( action );\n\n\t\t\t\tconst cacheIndex = action._cacheIndex,\n\t\t\t\t\tlastInactiveAction = actions[ actions.length - 1 ];\n\n\t\t\t\taction._cacheIndex = null;\n\t\t\t\taction._byClipCacheIndex = null;\n\n\t\t\t\tlastInactiveAction._cacheIndex = cacheIndex;\n\t\t\t\tactions[ cacheIndex ] = lastInactiveAction;\n\t\t\t\tactions.pop();\n\n\t\t\t\tthis._removeInactiveBindingsForAction( action );\n\n\t\t\t}\n\n\t\t\tdelete actionsByClip[ clipUuid ];\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for a root object. Before using this\n\t * method make sure to call {@link AnimationAction#stop} for all related\n\t * actions or alternatively {@link AnimationMixer#stopAllAction} when the\n\t * mixer operates on a single root.\n\t *\n\t * @param {Object3D} root - The root object to uncache.\n\t */\n\tuncacheRoot( root ) {\n\n\t\tconst rootUuid = root.uuid,\n\t\t\tactionsByClip = this._actionsByClip;\n\n\t\tfor ( const clipUuid in actionsByClip ) {\n\n\t\t\tconst actionByRoot = actionsByClip[ clipUuid ].actionByRoot,\n\t\t\t\taction = actionByRoot[ rootUuid ];\n\n\t\t\tif ( action !== undefined ) {\n\n\t\t\t\tthis._deactivateAction( action );\n\t\t\t\tthis._removeInactiveAction( action );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst bindingsByRoot = this._bindingsByRootAndName,\n\t\t\tbindingByName = bindingsByRoot[ rootUuid ];\n\n\t\tif ( bindingByName !== undefined ) {\n\n\t\t\tfor ( const trackName in bindingByName ) {\n\n\t\t\t\tconst binding = bindingByName[ trackName ];\n\t\t\t\tbinding.restoreOriginalState();\n\t\t\t\tthis._removeInactiveBinding( binding );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for an action. The action is identified by the\n\t * given clip and an optional root object. Before using this method make\n\t * sure to call {@link AnimationAction#stop} to deactivate the action.\n\t *\n\t * @param {AnimationClip|string} clip - An animation clip or alternatively the name of the animation clip.\n\t * @param {Object3D} [optionalRoot] - An alternative root object.\n\t */\n\tuncacheAction( clip, optionalRoot ) {\n\n\t\tconst action = this.existingAction( clip, optionalRoot );\n\n\t\tif ( action !== null ) {\n\n\t\t\tthis._deactivateAction( action );\n\t\t\tthis._removeInactiveAction( action );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * Represents a 3D render target.\n *\n * @augments RenderTarget\n */\nclass RenderTarget3D extends RenderTarget {\n\n\t/**\n\t * Constructs a new 3D render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {number} [depth=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRenderTarget3D = true;\n\n\t\tthis.depth = depth;\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {Data3DTexture}\n\t\t */\n\t\tthis.texture = new Data3DTexture( null, width, height, depth );\n\t\tthis._setTextureOptions( options );\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n}\n\n/**\n * Represents a uniform which is a global shader variable. They are passed to shader programs.\n *\n * When declaring a uniform of a {@link ShaderMaterial}, it is declared by value or by object.\n * ```js\n * uniforms: {\n * \ttime: { value: 1.0 },\n * \tresolution: new Uniform( new Vector2() )\n * };\n * ```\n * Since this class can only be used in context of {@link ShaderMaterial}, it is only supported\n * in {@link WebGLRenderer}.\n */\nclass Uniform {\n\n\t/**\n\t * Constructs a new uniform.\n\t *\n\t * @param {any} value - The uniform value.\n\t */\n\tconstructor( value ) {\n\n\t\t/**\n\t\t * The uniform value.\n\t\t *\n\t\t * @type {any}\n\t\t */\n\t\tthis.value = value;\n\n\t}\n\n\t/**\n\t * Returns a new uniform with copied values from this instance.\n\t * If the value has a `clone()` method, the value is cloned as well.\n\t *\n\t * @return {Uniform} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Uniform( this.value.clone === undefined ? this.value : this.value.clone() );\n\n\t}\n\n}\n\nlet _id = 0;\n\n/**\n * A class for managing multiple uniforms in a single group. The renderer will process\n * such a definition as a single UBO.\n *\n * Since this class can only be used in context of {@link ShaderMaterial}, it is only supported\n * in {@link WebGLRenderer}.\n *\n * @augments EventDispatcher\n */\nclass UniformsGroup extends EventDispatcher {\n\n\t/**\n\t * Constructs a new uniforms group.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isUniformsGroup = true;\n\n\t\t/**\n\t\t * The ID of the 3D object.\n\t\t *\n\t\t * @name UniformsGroup#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _id ++ } );\n\n\t\t/**\n\t\t * The name of the uniforms group.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The buffer usage.\n\t\t *\n\t\t * @type {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)}\n\t\t * @default StaticDrawUsage\n\t\t */\n\t\tthis.usage = StaticDrawUsage;\n\n\t\t/**\n\t\t * An array holding the uniforms.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.uniforms = [];\n\n\t}\n\n\t/**\n\t * Adds the given uniform to this uniforms group.\n\t *\n\t * @param {Uniform} uniform - The uniform to add.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tadd( uniform ) {\n\n\t\tthis.uniforms.push( uniform );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes the given uniform from this uniforms group.\n\t *\n\t * @param {Uniform} uniform - The uniform to remove.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tremove( uniform ) {\n\n\t\tconst index = this.uniforms.indexOf( uniform );\n\n\t\tif ( index !== -1 ) this.uniforms.splice( index, 1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the name of this uniforms group.\n\t *\n\t * @param {string} name - The name to set.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tsetName( name ) {\n\n\t\tthis.name = name;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the usage of this uniforms group.\n\t *\n\t * @param {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)} value - The usage to set.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tsetUsage( value ) {\n\n\t\tthis.usage = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires Texture#dispose\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n\t/**\n\t * Copies the values of the given uniforms group to this instance.\n\t *\n\t * @param {UniformsGroup} source - The uniforms group to copy.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\t\tthis.usage = source.usage;\n\n\t\tconst uniformsSource = source.uniforms;\n\n\t\tthis.uniforms.length = 0;\n\n\t\tfor ( let i = 0, l = uniformsSource.length; i < l; i ++ ) {\n\n\t\t\tconst uniforms = Array.isArray( uniformsSource[ i ] ) ? uniformsSource[ i ] : [ uniformsSource[ i ] ];\n\n\t\t\tfor ( let j = 0; j < uniforms.length; j ++ ) {\n\n\t\t\t\tthis.uniforms.push( uniforms[ j ].clone() );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new uniforms group with copied values from this instance.\n\t *\n\t * @return {UniformsGroup} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * An instanced version of an interleaved buffer.\n *\n * @augments InterleavedBuffer\n */\nclass InstancedInterleavedBuffer extends InterleavedBuffer {\n\n\t/**\n\t * Constructs a new instanced interleaved buffer.\n\t *\n\t * @param {TypedArray} array - A typed array with a shared buffer storing attribute data.\n\t * @param {number} stride - The number of typed-array elements per vertex.\n\t * @param {number} [meshPerAttribute=1] - Defines how often a value of this interleaved buffer should be repeated.\n\t */\n\tconstructor( array, stride, meshPerAttribute = 1 ) {\n\n\t\tsuper( array, stride );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedInterleavedBuffer = true;\n\n\t\t/**\n\t\t * Defines how often a value of this buffer attribute should be repeated,\n\t\t * see {@link InstancedBufferAttribute#meshPerAttribute}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.meshPerAttribute = meshPerAttribute;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.meshPerAttribute = source.meshPerAttribute;\n\n\t\treturn this;\n\n\t}\n\n\tclone( data ) {\n\n\t\tconst ib = super.clone( data );\n\n\t\tib.meshPerAttribute = this.meshPerAttribute;\n\n\t\treturn ib;\n\n\t}\n\n\ttoJSON( data ) {\n\n\t\tconst json = super.toJSON( data );\n\n\t\tjson.isInstancedInterleavedBuffer = true;\n\t\tjson.meshPerAttribute = this.meshPerAttribute;\n\n\t\treturn json;\n\n\t}\n\n}\n\n/**\n * An alternative version of a buffer attribute with more control over the VBO.\n *\n * The renderer does not construct a VBO for this kind of attribute. Instead, it uses\n * whatever VBO is passed in constructor and can later be altered via the `buffer` property.\n *\n * The most common use case for this class is when some kind of GPGPU calculation interferes\n * or even produces the VBOs in question.\n *\n * Notice that this class can only be used with {@link WebGLRenderer}.\n */\nclass GLBufferAttribute {\n\n\t/**\n\t * Constructs a new GL buffer attribute.\n\t *\n\t * @param {WebGLBuffer} buffer - The native WebGL buffer.\n\t * @param {number} type - The native data type (e.g. `gl.FLOAT`).\n\t * @param {number} itemSize - The item size.\n\t * @param {number} elementSize - The corresponding size (in bytes) for the given `type` parameter.\n\t * @param {number} count - The expected number of vertices in VBO.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( buffer, type, itemSize, elementSize, count, normalized = false ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isGLBufferAttribute = true;\n\n\t\t/**\n\t\t * The name of the buffer attribute.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The native WebGL buffer.\n\t\t *\n\t\t * @type {WebGLBuffer}\n\t\t */\n\t\tthis.buffer = buffer;\n\n\t\t/**\n\t\t * The native data type.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.type = type;\n\n\t\t/**\n\t\t * The item size, see {@link BufferAttribute#itemSize}.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.itemSize = itemSize;\n\n\t\t/**\n\t\t * The corresponding size (in bytes) for the given `type` parameter.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.elementSize = elementSize;\n\n\t\t/**\n\t\t * The expected number of vertices in VBO.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.count = count;\n\n\t\t/**\n\t\t * Applies to integer data only. Indicates how the underlying data in the buffer maps to\n\t\t * the values in the GLSL code. For instance, if `buffer` contains data of `gl.UNSIGNED_SHORT`,\n\t\t * and `normalized` is `true`, the values `0 - +65535` in the buffer data will be mapped to\n\t\t * `0.0f - +1.0f` in the GLSL attribute. If `normalized` is `false`, the values will be converted\n\t\t * to floats unmodified, i.e. `65535` becomes `65535.0f`.\n\t\t *\n\t\t * @type {boolean}\n\t\t */\n\t\tthis.normalized = normalized;\n\n\t\t/**\n\t\t * A version number, incremented every time the `needsUpdate` is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.version = 0;\n\n\t}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Sets the given native WebGL buffer.\n\t *\n\t * @param {WebGLBuffer} buffer - The buffer to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetBuffer( buffer ) {\n\n\t\tthis.buffer = buffer;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given native data type and element size.\n\t *\n\t * @param {number} type - The native data type (e.g. `gl.FLOAT`).\n\t * @param {number} elementSize - The corresponding size (in bytes) for the given `type` parameter.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetType( type, elementSize ) {\n\n\t\tthis.type = type;\n\t\tthis.elementSize = elementSize;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the item size.\n\t *\n\t * @param {number} itemSize - The item size.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetItemSize( itemSize ) {\n\n\t\tthis.itemSize = itemSize;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the count (the expected number of vertices in VBO).\n\t *\n\t * @param {number} count - The count.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetCount( count ) {\n\n\t\tthis.count = count;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _matrix = /*@__PURE__*/ new Matrix4();\n\n/**\n * This class is designed to assist with raycasting. Raycasting is used for\n * mouse picking (working out what objects in the 3d space the mouse is over)\n * amongst other things.\n */\nclass Raycaster {\n\n\t/**\n\t * Constructs a new raycaster.\n\t *\n\t * @param {Vector3} origin - The origin vector where the ray casts from.\n\t * @param {Vector3} direction - The (normalized) direction vector that gives direction to the ray.\n\t * @param {number} [near=0] - All results returned are further away than near. Near can't be negative.\n\t * @param {number} [far=Infinity] - All results returned are closer than far. Far can't be lower than near.\n\t */\n\tconstructor( origin, direction, near = 0, far = Infinity ) {\n\n\t\t/**\n\t\t * The ray used for raycasting.\n\t\t *\n\t\t * @type {Ray}\n\t\t */\n\t\tthis.ray = new Ray( origin, direction );\n\n\t\t/**\n\t\t * All results returned are further away than near. Near can't be negative.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * All results returned are further away than near. Near can't be negative.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.far = far;\n\n\t\t/**\n\t\t * The camera to use when raycasting against view-dependent objects such as\n\t\t * billboarded objects like sprites. This field can be set manually or\n\t\t * is set when calling `setFromCamera()`.\n\t\t *\n\t\t * @type {?Camera}\n\t\t * @default null\n\t\t */\n\t\tthis.camera = null;\n\n\t\t/**\n\t\t * Allows to selectively ignore 3D objects when performing intersection tests.\n\t\t * The following code example ensures that only 3D objects on layer `1` will be\n\t\t * honored by raycaster.\n\t\t * ```js\n\t\t * raycaster.layers.set( 1 );\n\t\t * object.layers.enable( 1 );\n\t\t * ```\n\t\t *\n\t\t * @type {Layers}\n\t\t */\n\t\tthis.layers = new Layers();\n\n\n\t\t/**\n\t\t * A parameter object that configures the raycasting. It has the structure:\n\t\t *\n\t\t * ```\n\t\t * {\n\t\t * \tMesh: {},\n\t\t * \tLine: { threshold: 1 },\n\t\t * \tLOD: {},\n\t\t * \tPoints: { threshold: 1 },\n\t\t * \tSprite: {}\n\t\t * }\n\t\t * ```\n\t\t * Where `threshold` is the precision of the raycaster when intersecting objects, in world units.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.params = {\n\t\t\tMesh: {},\n\t\t\tLine: { threshold: 1 },\n\t\t\tLOD: {},\n\t\t\tPoints: { threshold: 1 },\n\t\t\tSprite: {}\n\t\t};\n\n\t}\n\n\t/**\n\t * Updates the ray with a new origin and direction by copying the values from the arguments.\n\t *\n\t * @param {Vector3} origin - The origin vector where the ray casts from.\n\t * @param {Vector3} direction - The (normalized) direction vector that gives direction to the ray.\n\t */\n\tset( origin, direction ) {\n\n\t\t// direction is assumed to be normalized (for accurate distance calculations)\n\n\t\tthis.ray.set( origin, direction );\n\n\t}\n\n\t/**\n\t * Uses the given coordinates and camera to compute a new origin and direction for the internal ray.\n\t *\n\t * @param {Vector2} coords - 2D coordinates of the mouse, in normalized device coordinates (NDC).\n\t * X and Y components should be between `-1` and `1`.\n\t * @param {Camera} camera - The camera from which the ray should originate.\n\t */\n\tsetFromCamera( coords, camera ) {\n\n\t\tif ( camera.isPerspectiveCamera ) {\n\n\t\t\tthis.ray.origin.setFromMatrixPosition( camera.matrixWorld );\n\t\t\tthis.ray.direction.set( coords.x, coords.y, 0.5 ).unproject( camera ).sub( this.ray.origin ).normalize();\n\t\t\tthis.camera = camera;\n\n\t\t} else if ( camera.isOrthographicCamera ) {\n\n\t\t\tthis.ray.origin.set( coords.x, coords.y, ( camera.near + camera.far ) / ( camera.near - camera.far ) ).unproject( camera ); // set origin in plane of camera\n\t\t\tthis.ray.direction.set( 0, 0, -1 ).transformDirection( camera.matrixWorld );\n\t\t\tthis.camera = camera;\n\n\t\t} else {\n\n\t\t\tconsole.error( 'THREE.Raycaster: Unsupported camera type: ' + camera.type );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Uses the given WebXR controller to compute a new origin and direction for the internal ray.\n\t *\n\t * @param {WebXRController} controller - The controller to copy the position and direction from.\n\t * @return {Raycaster} A reference to this raycaster.\n\t */\n\tsetFromXRController( controller ) {\n\n\t\t_matrix.identity().extractRotation( controller.matrixWorld );\n\n\t\tthis.ray.origin.setFromMatrixPosition( controller.matrixWorld );\n\t\tthis.ray.direction.set( 0, 0, -1 ).applyMatrix4( _matrix );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The intersection point of a raycaster intersection test.\n\t * @typedef {Object} Raycaster~Intersection\n\t * @property {number} distance - The distance from the ray's origin to the intersection point.\n\t * @property {number} distanceToRay - Some 3D objects e.g. {@link Points} provide the distance of the\n\t * intersection to the nearest point on the ray. For other objects it will be `undefined`.\n\t * @property {Vector3} point - The intersection point, in world coordinates.\n\t * @property {Object} face - The face that has been intersected.\n\t * @property {number} faceIndex - The face index.\n\t * @property {Object3D} object - The 3D object that has been intersected.\n\t * @property {Vector2} uv - U,V coordinates at point of intersection.\n\t * @property {Vector2} uv1 - Second set of U,V coordinates at point of intersection.\n\t * @property {Vector3} uv1 - Interpolated normal vector at point of intersection.\n\t * @property {number} instanceId - The index number of the instance where the ray\n\t * intersects the {@link InstancedMesh}.\n\t */\n\n\t/**\n\t * Checks all intersection between the ray and the object with or without the\n\t * descendants. Intersections are returned sorted by distance, closest first.\n\t *\n\t * `Raycaster` delegates to the `raycast()` method of the passed 3D object, when\n\t * evaluating whether the ray intersects the object or not. This allows meshes to respond\n\t * differently to ray casting than lines or points.\n\t *\n\t * Note that for meshes, faces must be pointed towards the origin of the ray in order\n\t * to be detected; intersections of the ray passing through the back of a face will not\n\t * be detected. To raycast against both faces of an object, you'll want to set {@link Material#side}\n\t * to `THREE.DoubleSide`.\n\t *\n\t * @param {Object3D} object - The 3D object to check for intersection with the ray.\n\t * @param {boolean} [recursive=true] - If set to `true`, it also checks all descendants.\n\t * Otherwise it only checks intersection with the object.\n\t * @param {Array} [intersects=[]] The target array that holds the result of the method.\n\t * @return {Array} An array holding the intersection points.\n\t */\n\tintersectObject( object, recursive = true, intersects = [] ) {\n\n\t\tintersect( object, this, intersects, recursive );\n\n\t\tintersects.sort( ascSort );\n\n\t\treturn intersects;\n\n\t}\n\n\t/**\n\t * Checks all intersection between the ray and the objects with or without\n\t * the descendants. Intersections are returned sorted by distance, closest first.\n\t *\n\t * @param {Array} objects - The 3D objects to check for intersection with the ray.\n\t * @param {boolean} [recursive=true] - If set to `true`, it also checks all descendants.\n\t * Otherwise it only checks intersection with the object.\n\t * @param {Array} [intersects=[]] The target array that holds the result of the method.\n\t * @return {Array} An array holding the intersection points.\n\t */\n\tintersectObjects( objects, recursive = true, intersects = [] ) {\n\n\t\tfor ( let i = 0, l = objects.length; i < l; i ++ ) {\n\n\t\t\tintersect( objects[ i ], this, intersects, recursive );\n\n\t\t}\n\n\t\tintersects.sort( ascSort );\n\n\t\treturn intersects;\n\n\t}\n\n}\n\nfunction ascSort( a, b ) {\n\n\treturn a.distance - b.distance;\n\n}\n\nfunction intersect( object, raycaster, intersects, recursive ) {\n\n\tlet propagate = true;\n\n\tif ( object.layers.test( raycaster.layers ) ) {\n\n\t\tconst result = object.raycast( raycaster, intersects );\n\n\t\tif ( result === false ) propagate = false;\n\n\t}\n\n\tif ( propagate === true && recursive === true ) {\n\n\t\tconst children = object.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tintersect( children[ i ], raycaster, intersects, true );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * This class is an alternative to {@link Clock} with a different API design and behavior.\n * The goal is to avoid the conceptual flaws that became apparent in `Clock` over time.\n *\n * - `Timer` has an `update()` method that updates its internal state. That makes it possible to\n * call `getDelta()` and `getElapsed()` multiple times per simulation step without getting different values.\n * - The class can make use of the Page Visibility API to avoid large time delta values when the app\n * is inactive (e.g. tab switched or browser hidden).\n *\n * ```js\n * const timer = new Timer();\n * timer.connect( document ); // use Page Visibility API\n * ```\n */\nclass Timer {\n\n\t/**\n\t * Constructs a new timer.\n\t */\n\tconstructor() {\n\n\t\tthis._previousTime = 0;\n\t\tthis._currentTime = 0;\n\t\tthis._startTime = performance.now();\n\n\t\tthis._delta = 0;\n\t\tthis._elapsed = 0;\n\n\t\tthis._timescale = 1;\n\n\t\tthis._document = null;\n\t\tthis._pageVisibilityHandler = null;\n\n\t}\n\n\t/**\n\t * Connect the timer to the given document.Calling this method is not mandatory to\n\t * use the timer but enables the usage of the Page Visibility API to avoid large time\n\t * delta values.\n\t *\n\t * @param {Document} document - The document.\n\t */\n\tconnect( document ) {\n\n\t\tthis._document = document;\n\n\t\t// use Page Visibility API to avoid large time delta values\n\n\t\tif ( document.hidden !== undefined ) {\n\n\t\t\tthis._pageVisibilityHandler = handleVisibilityChange.bind( this );\n\n\t\t\tdocument.addEventListener( 'visibilitychange', this._pageVisibilityHandler, false );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Disconnects the timer from the DOM and also disables the usage of the Page Visibility API.\n\t */\n\tdisconnect() {\n\n\t\tif ( this._pageVisibilityHandler !== null ) {\n\n\t\t\tthis._document.removeEventListener( 'visibilitychange', this._pageVisibilityHandler );\n\t\t\tthis._pageVisibilityHandler = null;\n\n\t\t}\n\n\t\tthis._document = null;\n\n\t}\n\n\t/**\n\t * Returns the time delta in seconds.\n\t *\n\t * @return {number} The time delta in second.\n\t */\n\tgetDelta() {\n\n\t\treturn this._delta / 1000;\n\n\t}\n\n\t/**\n\t * Returns the elapsed time in seconds.\n\t *\n\t * @return {number} The elapsed time in second.\n\t */\n\tgetElapsed() {\n\n\t\treturn this._elapsed / 1000;\n\n\t}\n\n\t/**\n\t * Returns the timescale.\n\t *\n\t * @return {number} The timescale.\n\t */\n\tgetTimescale() {\n\n\t\treturn this._timescale;\n\n\t}\n\n\t/**\n\t * Sets the given timescale which scale the time delta computation\n\t * in `update()`.\n\t *\n\t * @param {number} timescale - The timescale to set.\n\t * @return {Timer} A reference to this timer.\n\t */\n\tsetTimescale( timescale ) {\n\n\t\tthis._timescale = timescale;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Resets the time computation for the current simulation step.\n\t *\n\t * @return {Timer} A reference to this timer.\n\t */\n\treset() {\n\n\t\tthis._currentTime = performance.now() - this._startTime;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Can be used to free all internal resources. Usually called when\n\t * the timer instance isn't required anymore.\n\t */\n\tdispose() {\n\n\t\tthis.disconnect();\n\n\t}\n\n\t/**\n\t * Updates the internal state of the timer. This method should be called\n\t * once per simulation step and before you perform queries against the timer\n\t * (e.g. via `getDelta()`).\n\t *\n\t * @param {number} timestamp - The current time in milliseconds. Can be obtained\n\t * from the `requestAnimationFrame` callback argument. If not provided, the current\n\t * time will be determined with `performance.now`.\n\t * @return {Timer} A reference to this timer.\n\t */\n\tupdate( timestamp ) {\n\n\t\tif ( this._pageVisibilityHandler !== null && this._document.hidden === true ) {\n\n\t\t\tthis._delta = 0;\n\n\t\t} else {\n\n\t\t\tthis._previousTime = this._currentTime;\n\t\t\tthis._currentTime = ( timestamp !== undefined ? timestamp : performance.now() ) - this._startTime;\n\n\t\t\tthis._delta = ( this._currentTime - this._previousTime ) * this._timescale;\n\t\t\tthis._elapsed += this._delta; // _elapsed is the accumulation of all previous deltas\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\nfunction handleVisibilityChange() {\n\n\tif ( this._document.hidden === false ) this.reset();\n\n}\n\n/**\n * This class can be used to represent points in 3D space as\n * [Spherical coordinates]{@link https://en.wikipedia.org/wiki/Spherical_coordinate_system}.\n */\nclass Spherical {\n\n\t/**\n\t * Constructs a new spherical.\n\t *\n\t * @param {number} [radius=1] - The radius, or the Euclidean distance (straight-line distance) from the point to the origin.\n\t * @param {number} [phi=0] - The polar angle in radians from the y (up) axis.\n\t * @param {number} [theta=0] - The equator/azimuthal angle in radians around the y (up) axis.\n\t */\n\tconstructor( radius = 1, phi = 0, theta = 0 ) {\n\n\t\t/**\n\t\t * The radius, or the Euclidean distance (straight-line distance) from the point to the origin.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.radius = radius;\n\n\t\t/**\n\t\t * The polar angle in radians from the y (up) axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.phi = phi;\n\n\t\t/**\n\t\t * The equator/azimuthal angle in radians around the y (up) axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.theta = theta;\n\n\t}\n\n\t/**\n\t * Sets the spherical components by copying the given values.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} phi - The polar angle.\n\t * @param {number} theta - The azimuthal angle.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tset( radius, phi, theta ) {\n\n\t\tthis.radius = radius;\n\t\tthis.phi = phi;\n\t\tthis.theta = theta;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given spherical to this instance.\n\t *\n\t * @param {Spherical} other - The spherical to copy.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tcopy( other ) {\n\n\t\tthis.radius = other.radius;\n\t\tthis.phi = other.phi;\n\t\tthis.theta = other.theta;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Restricts the polar angle [page:.phi phi] to be between `0.000001` and pi -\n\t * `0.000001`.\n\t *\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tmakeSafe() {\n\n\t\tconst EPS = 0.000001;\n\t\tthis.phi = clamp( this.phi, EPS, Math.PI - EPS );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the spherical components from the given vector which is assumed to hold\n\t * Cartesian coordinates.\n\t *\n\t * @param {Vector3} v - The vector to set.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tsetFromVector3( v ) {\n\n\t\treturn this.setFromCartesianCoords( v.x, v.y, v.z );\n\n\t}\n\n\t/**\n\t * Sets the spherical components from the given Cartesian coordinates.\n\t *\n\t * @param {number} x - The x value.\n\t * @param {number} y - The y value.\n\t * @param {number} z - The z value.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tsetFromCartesianCoords( x, y, z ) {\n\n\t\tthis.radius = Math.sqrt( x * x + y * y + z * z );\n\n\t\tif ( this.radius === 0 ) {\n\n\t\t\tthis.theta = 0;\n\t\t\tthis.phi = 0;\n\n\t\t} else {\n\n\t\t\tthis.theta = Math.atan2( x, z );\n\t\t\tthis.phi = Math.acos( clamp( y / this.radius, -1, 1 ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new spherical with copied values from this instance.\n\t *\n\t * @return {Spherical} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * This class can be used to represent points in 3D space as\n * [Cylindrical coordinates]{@link https://en.wikipedia.org/wiki/Cylindrical_coordinate_system}.\n */\nclass Cylindrical {\n\n\t/**\n\t * Constructs a new cylindrical.\n\t *\n\t * @param {number} [radius=1] - The distance from the origin to a point in the x-z plane.\n\t * @param {number} [theta=0] - A counterclockwise angle in the x-z plane measured in radians from the positive z-axis.\n\t * @param {number} [y=0] - The height above the x-z plane.\n\t */\n\tconstructor( radius = 1, theta = 0, y = 0 ) {\n\n\t\t/**\n\t\t * The distance from the origin to a point in the x-z plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.radius = radius;\n\n\t\t/**\n\t\t * A counterclockwise angle in the x-z plane measured in radians from the positive z-axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.theta = theta;\n\n\t\t/**\n\t\t * The height above the x-z plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.y = y;\n\n\t}\n\n\t/**\n\t * Sets the cylindrical components by copying the given values.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} theta - The theta angle.\n\t * @param {number} y - The height value.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tset( radius, theta, y ) {\n\n\t\tthis.radius = radius;\n\t\tthis.theta = theta;\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given cylindrical to this instance.\n\t *\n\t * @param {Cylindrical} other - The cylindrical to copy.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tcopy( other ) {\n\n\t\tthis.radius = other.radius;\n\t\tthis.theta = other.theta;\n\t\tthis.y = other.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the cylindrical components from the given vector which is assumed to hold\n\t * Cartesian coordinates.\n\t *\n\t * @param {Vector3} v - The vector to set.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tsetFromVector3( v ) {\n\n\t\treturn this.setFromCartesianCoords( v.x, v.y, v.z );\n\n\t}\n\n\t/**\n\t * Sets the cylindrical components from the given Cartesian coordinates.\n\t *\n\t * @param {number} x - The x value.\n\t * @param {number} y - The x value.\n\t * @param {number} z - The x value.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tsetFromCartesianCoords( x, y, z ) {\n\n\t\tthis.radius = Math.sqrt( x * x + z * z );\n\t\tthis.theta = Math.atan2( x, z );\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new cylindrical with copied values from this instance.\n\t *\n\t * @return {Cylindrical} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * Represents a 2x2 matrix.\n *\n * A Note on Row-Major and Column-Major Ordering:\n *\n * The constructor and {@link Matrix2#set} method take arguments in\n * [row-major]{@link https://en.wikipedia.org/wiki/Row-_and_column-major_order#Column-major_order}\n * order, while internally they are stored in the {@link Matrix2#elements} array in column-major order.\n * This means that calling:\n * ```js\n * const m = new THREE.Matrix2();\n * m.set( 11, 12,\n * 21, 22 );\n * ```\n * will result in the elements array containing:\n * ```js\n * m.elements = [ 11, 21,\n * 12, 22 ];\n * ```\n * and internally all calculations are performed using column-major ordering.\n * However, as the actual ordering makes no difference mathematically and\n * most people are used to thinking about matrices in row-major order, the\n * three.js documentation shows matrices in row-major order. Just bear in\n * mind that if you are reading the source code, you'll have to take the\n * transpose of any matrices outlined here to make sense of the calculations.\n */\nclass Matrix2 {\n\n\t/**\n\t * Constructs a new 2x2 matrix. The arguments are supposed to be\n\t * in row-major order. If no arguments are provided, the constructor\n\t * initializes the matrix as an identity matrix.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t */\n\tconstructor( n11, n12, n21, n22 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tMatrix2.prototype.isMatrix2 = true;\n\n\t\t/**\n\t\t * A column-major list of matrix values.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.elements = [\n\t\t\t1, 0,\n\t\t\t0, 1,\n\t\t];\n\n\t\tif ( n11 !== undefined ) {\n\n\t\t\tthis.set( n11, n12, n21, n22 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets this matrix to the 2x2 identity matrix.\n\t *\n\t * @return {Matrix2} A reference to this matrix.\n\t */\n\tidentity() {\n\n\t\tthis.set(\n\t\t\t1, 0,\n\t\t\t0, 1,\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix from the given array.\n\t *\n\t * @param {Array} array - The matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Matrix2} A reference to this matrix.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tfor ( let i = 0; i < 4; i ++ ) {\n\n\t\t\tthis.elements[ i ] = array[ i + offset ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix.The arguments are supposed to be\n\t * in row-major order.\n\t *\n\t * @param {number} n11 - 1-1 matrix element.\n\t * @param {number} n12 - 1-2 matrix element.\n\t * @param {number} n21 - 2-1 matrix element.\n\t * @param {number} n22 - 2-2 matrix element.\n\t * @return {Matrix2} A reference to this matrix.\n\t */\n\tset( n11, n12, n21, n22 ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] = n11; te[ 2 ] = n12;\n\t\tte[ 1 ] = n21; te[ 3 ] = n22;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _vector$4 = /*@__PURE__*/ new Vector2();\n\n/**\n * Represents an axis-aligned bounding box (AABB) in 2D space.\n */\nclass Box2 {\n\n\t/**\n\t * Constructs a new bounding box.\n\t *\n\t * @param {Vector2} [min=(Infinity,Infinity)] - A vector representing the lower boundary of the box.\n\t * @param {Vector2} [max=(-Infinity,-Infinity)] - A vector representing the upper boundary of the box.\n\t */\n\tconstructor( min = new Vector2( + Infinity, + Infinity ), max = new Vector2( - Infinity, - Infinity ) ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBox2 = true;\n\n\t\t/**\n\t\t * The lower boundary of the box.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.min = min;\n\n\t\t/**\n\t\t * The upper boundary of the box.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.max = max;\n\n\t}\n\n\t/**\n\t * Sets the lower and upper boundaries of this box.\n\t * Please note that this method only copies the values from the given objects.\n\t *\n\t * @param {Vector2} min - The lower boundary of the box.\n\t * @param {Vector2} max - The upper boundary of the box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tset( min, max ) {\n\n\t\tthis.min.copy( min );\n\t\tthis.max.copy( max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given array.\n\t *\n\t * @param {Array} points - An array holding 2D position data as instances of {@link Vector2}.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = points.length; i < il; i ++ ) {\n\n\t\t\tthis.expandByPoint( points[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Centers this box on the given center vector and sets this box's width, height and\n\t * depth to the given size values.\n\t *\n\t * @param {Vector2} center - The center of the box.\n\t * @param {Vector2} size - The x and y dimensions of the box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tsetFromCenterAndSize( center, size ) {\n\n\t\tconst halfSize = _vector$4.copy( size ).multiplyScalar( 0.5 );\n\t\tthis.min.copy( center ).sub( halfSize );\n\t\tthis.max.copy( center ).add( halfSize );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new box with copied values from this instance.\n\t *\n\t * @return {Box2} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given box to this instance.\n\t *\n\t * @param {Box2} box - The box to copy.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tcopy( box ) {\n\n\t\tthis.min.copy( box.min );\n\t\tthis.max.copy( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Makes this box empty which means in encloses a zero space in 2D.\n\t *\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tmakeEmpty() {\n\n\t\tthis.min.x = this.min.y = + Infinity;\n\t\tthis.max.x = this.max.y = - Infinity;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns true if this box includes zero points within its bounds.\n\t * Note that a box with equal lower and upper bounds still includes one\n\t * point, the one both bounds share.\n\t *\n\t * @return {boolean} Whether this box is empty or not.\n\t */\n\tisEmpty() {\n\n\t\t// this is a more robust check for empty than ( volume <= 0 ) because volume can get positive with two negative axes\n\n\t\treturn ( this.max.x < this.min.x ) || ( this.max.y < this.min.y );\n\n\t}\n\n\t/**\n\t * Returns the center point of this box.\n\t *\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} The center point.\n\t */\n\tgetCenter( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0 ) : target.addVectors( this.min, this.max ).multiplyScalar( 0.5 );\n\n\t}\n\n\t/**\n\t * Returns the dimensions of this box.\n\t *\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} The size.\n\t */\n\tgetSize( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0 ) : target.subVectors( this.max, this.min );\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this box to include the given point.\n\t *\n\t * @param {Vector2} point - The point that should be included by the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\texpandByPoint( point ) {\n\n\t\tthis.min.min( point );\n\t\tthis.max.max( point );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands this box equilaterally by the given vector. The width of this\n\t * box will be expanded by the x component of the vector in both\n\t * directions. The height of this box will be expanded by the y component of\n\t * the vector in both directions.\n\t *\n\t * @param {Vector2} vector - The vector that should expand the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\texpandByVector( vector ) {\n\n\t\tthis.min.sub( vector );\n\t\tthis.max.add( vector );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands each dimension of the box by the given scalar. If negative, the\n\t * dimensions of the box will be contracted.\n\t *\n\t * @param {number} scalar - The scalar value that should expand the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\texpandByScalar( scalar ) {\n\n\t\tthis.min.addScalar( - scalar );\n\t\tthis.max.addScalar( scalar );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within or on the boundaries of this box.\n\t *\n\t * @param {Vector2} point - The point to test.\n\t * @return {boolean} Whether the bounding box contains the given point or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn point.x >= this.min.x && point.x <= this.max.x &&\n\t\t\tpoint.y >= this.min.y && point.y <= this.max.y;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box includes the entirety of the given bounding box.\n\t * If this box and the given one are identical, this function also returns `true`.\n\t *\n\t * @param {Box2} box - The bounding box to test.\n\t * @return {boolean} Whether the bounding box contains the given bounding box or not.\n\t */\n\tcontainsBox( box ) {\n\n\t\treturn this.min.x <= box.min.x && box.max.x <= this.max.x &&\n\t\t\tthis.min.y <= box.min.y && box.max.y <= this.max.y;\n\n\t}\n\n\t/**\n\t * Returns a point as a proportion of this box's width and height.\n\t *\n\t * @param {Vector2} point - A point in 2D space.\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} A point as a proportion of this box's width and height.\n\t */\n\tgetParameter( point, target ) {\n\n\t\t// This can potentially have a divide by zero if the box\n\t\t// has a size dimension of 0.\n\n\t\treturn target.set(\n\t\t\t( point.x - this.min.x ) / ( this.max.x - this.min.x ),\n\t\t\t( point.y - this.min.y ) / ( this.max.y - this.min.y )\n\t\t);\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box intersects with this bounding box.\n\t *\n\t * @param {Box2} box - The bounding box to test.\n\t * @return {boolean} Whether the given bounding box intersects with this bounding box.\n\t */\n\tintersectsBox( box ) {\n\n\t\t// using 4 splitting planes to rule out intersections\n\n\t\treturn box.max.x >= this.min.x && box.min.x <= this.max.x &&\n\t\t\tbox.max.y >= this.min.y && box.min.y <= this.max.y;\n\n\t}\n\n\t/**\n\t * Clamps the given point within the bounds of this box.\n\t *\n\t * @param {Vector2} point - The point to clamp.\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} The clamped point.\n\t */\n\tclampPoint( point, target ) {\n\n\t\treturn target.copy( point ).clamp( this.min, this.max );\n\n\t}\n\n\t/**\n\t * Returns the euclidean distance from any edge of this box to the specified point. If\n\t * the given point lies inside of this box, the distance will be `0`.\n\t *\n\t * @param {Vector2} point - The point to compute the distance to.\n\t * @return {number} The euclidean distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn this.clampPoint( point, _vector$4 ).distanceTo( point );\n\n\t}\n\n\t/**\n\t * Computes the intersection of this bounding box and the given one, setting the upper\n\t * bound of this box to the lesser of the two boxes' upper bounds and the\n\t * lower bound of this box to the greater of the two boxes' lower bounds. If\n\t * there's no overlap, makes this box empty.\n\t *\n\t * @param {Box2} box - The bounding box to intersect with.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tintersect( box ) {\n\n\t\tthis.min.max( box.min );\n\t\tthis.max.min( box.max );\n\n\t\tif ( this.isEmpty() ) this.makeEmpty();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the union of this box and another and the given one, setting the upper\n\t * bound of this box to the greater of the two boxes' upper bounds and the\n\t * lower bound of this box to the lesser of the two boxes' lower bounds.\n\t *\n\t * @param {Box2} box - The bounding box that will be unioned with this instance.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tunion( box ) {\n\n\t\tthis.min.min( box.min );\n\t\tthis.max.max( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given offset to both the upper and lower bounds of this bounding box,\n\t * effectively moving it in 2D space.\n\t *\n\t * @param {Vector2} offset - The offset that should be used to translate the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.min.add( offset );\n\t\tthis.max.add( offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box is equal with the given one.\n\t *\n\t * @param {Box2} box - The box to test for equality.\n\t * @return {boolean} Whether this bounding box is equal with the given one.\n\t */\n\tequals( box ) {\n\n\t\treturn box.min.equals( this.min ) && box.max.equals( this.max );\n\n\t}\n\n}\n\nconst _startP = /*@__PURE__*/ new Vector3();\nconst _startEnd = /*@__PURE__*/ new Vector3();\n\nconst _d1 = /*@__PURE__*/ new Vector3();\nconst _d2 = /*@__PURE__*/ new Vector3();\nconst _r = /*@__PURE__*/ new Vector3();\nconst _c1 = /*@__PURE__*/ new Vector3();\nconst _c2 = /*@__PURE__*/ new Vector3();\n\n/**\n * An analytical line segment in 3D space represented by a start and end point.\n */\nclass Line3 {\n\n\t/**\n\t * Constructs a new line segment.\n\t *\n\t * @param {Vector3} [start=(0,0,0)] - Start of the line segment.\n\t * @param {Vector3} [end=(0,0,0)] - End of the line segment.\n\t */\n\tconstructor( start = new Vector3(), end = new Vector3() ) {\n\n\t\t/**\n\t\t * Start of the line segment.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.start = start;\n\n\t\t/**\n\t\t * End of the line segment.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.end = end;\n\n\t}\n\n\t/**\n\t * Sets the start and end values by copying the given vectors.\n\t *\n\t * @param {Vector3} start - The start point.\n\t * @param {Vector3} end - The end point.\n\t * @return {Line3} A reference to this line segment.\n\t */\n\tset( start, end ) {\n\n\t\tthis.start.copy( start );\n\t\tthis.end.copy( end );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given line segment to this instance.\n\t *\n\t * @param {Line3} line - The line segment to copy.\n\t * @return {Line3} A reference to this line segment.\n\t */\n\tcopy( line ) {\n\n\t\tthis.start.copy( line.start );\n\t\tthis.end.copy( line.end );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the center of the line segment.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The center point.\n\t */\n\tgetCenter( target ) {\n\n\t\treturn target.addVectors( this.start, this.end ).multiplyScalar( 0.5 );\n\n\t}\n\n\t/**\n\t * Returns the delta vector of the line segment's start and end point.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The delta vector.\n\t */\n\tdelta( target ) {\n\n\t\treturn target.subVectors( this.end, this.start );\n\n\t}\n\n\t/**\n\t * Returns the squared Euclidean distance between the line' start and end point.\n\t *\n\t * @return {number} The squared Euclidean distance.\n\t */\n\tdistanceSq() {\n\n\t\treturn this.start.distanceToSquared( this.end );\n\n\t}\n\n\t/**\n\t * Returns the Euclidean distance between the line' start and end point.\n\t *\n\t * @return {number} The Euclidean distance.\n\t */\n\tdistance() {\n\n\t\treturn this.start.distanceTo( this.end );\n\n\t}\n\n\t/**\n\t * Returns a vector at a certain position along the line segment.\n\t *\n\t * @param {number} t - A value between `[0,1]` to represent a position along the line segment.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The delta vector.\n\t */\n\tat( t, target ) {\n\n\t\treturn this.delta( target ).multiplyScalar( t ).add( this.start );\n\n\t}\n\n\t/**\n\t * Returns a point parameter based on the closest point as projected on the line segment.\n\t *\n\t * @param {Vector3} point - The point for which to return a point parameter.\n\t * @param {boolean} clampToLine - Whether to clamp the result to the range `[0,1]` or not.\n\t * @return {number} The point parameter.\n\t */\n\tclosestPointToPointParameter( point, clampToLine ) {\n\n\t\t_startP.subVectors( point, this.start );\n\t\t_startEnd.subVectors( this.end, this.start );\n\n\t\tconst startEnd2 = _startEnd.dot( _startEnd );\n\t\tconst startEnd_startP = _startEnd.dot( _startP );\n\n\t\tlet t = startEnd_startP / startEnd2;\n\n\t\tif ( clampToLine ) {\n\n\t\t\tt = clamp( t, 0, 1 );\n\n\t\t}\n\n\t\treturn t;\n\n\t}\n\n\t/**\n\t * Returns the closest point on the line for a given point.\n\t *\n\t * @param {Vector3} point - The point to compute the closest point on the line for.\n\t * @param {boolean} clampToLine - Whether to clamp the result to the range `[0,1]` or not.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The closest point on the line.\n\t */\n\tclosestPointToPoint( point, clampToLine, target ) {\n\n\t\tconst t = this.closestPointToPointParameter( point, clampToLine );\n\n\t\treturn this.delta( target ).multiplyScalar( t ).add( this.start );\n\n\t}\n\n\t/**\n\t * Returns the closest squared distance between this line segment and the given one.\n\t *\n\t * @param {Line3} line - The line segment to compute the closest squared distance to.\n\t * @param {Vector3} [c1] - The closest point on this line segment.\n\t * @param {Vector3} [c2] - The closest point on the given line segment.\n\t * @return {number} The squared distance between this line segment and the given one.\n\t */\n\tdistanceSqToLine3( line, c1 = _c1, c2 = _c2 ) {\n\n\t\t// from Real-Time Collision Detection by Christer Ericson, chapter 5.1.9\n\n\t\t// Computes closest points C1 and C2 of S1(s)=P1+s*(Q1-P1) and\n\t\t// S2(t)=P2+t*(Q2-P2), returning s and t. Function result is squared\n\t\t// distance between between S1(s) and S2(t)\n\n\t\tconst EPSILON = 1e-8 * 1e-8; // must be squared since we compare squared length\n\t\tlet s, t;\n\n\t\tconst p1 = this.start;\n\t\tconst p2 = line.start;\n\t\tconst q1 = this.end;\n\t\tconst q2 = line.end;\n\n\t\t_d1.subVectors( q1, p1 ); // Direction vector of segment S1\n\t\t_d2.subVectors( q2, p2 ); // Direction vector of segment S2\n\t\t_r.subVectors( p1, p2 );\n\n\t\tconst a = _d1.dot( _d1 ); // Squared length of segment S1, always nonnegative\n\t\tconst e = _d2.dot( _d2 ); // Squared length of segment S2, always nonnegative\n\t\tconst f = _d2.dot( _r );\n\n\t\t// Check if either or both segments degenerate into points\n\n\t\tif ( a <= EPSILON && e <= EPSILON ) {\n\n\t\t\t// Both segments degenerate into points\n\n\t\t\tc1.copy( p1 );\n\t\t\tc2.copy( p2 );\n\n\t\t\tc1.sub( c2 );\n\n\t\t\treturn c1.dot( c1 );\n\n\t\t}\n\n\t\tif ( a <= EPSILON ) {\n\n\t\t\t// First segment degenerates into a point\n\n\t\t\ts = 0;\n\t\t\tt = f / e; // s = 0 => t = (b*s + f) / e = f / e\n\t\t\tt = clamp( t, 0, 1 );\n\n\n\t\t} else {\n\n\t\t\tconst c = _d1.dot( _r );\n\n\t\t\tif ( e <= EPSILON ) {\n\n\t\t\t\t// Second segment degenerates into a point\n\n\t\t\t\tt = 0;\n\t\t\t\ts = clamp( - c / a, 0, 1 ); // t = 0 => s = (b*t - c) / a = -c / a\n\n\t\t\t} else {\n\n\t\t\t\t// The general nondegenerate case starts here\n\n\t\t\t\tconst b = _d1.dot( _d2 );\n\t\t\t\tconst denom = a * e - b * b; // Always nonnegative\n\n\t\t\t\t// If segments not parallel, compute closest point on L1 to L2 and\n\t\t\t\t// clamp to segment S1. Else pick arbitrary s (here 0)\n\n\t\t\t\tif ( denom !== 0 ) {\n\n\t\t\t\t\ts = clamp( ( b * f - c * e ) / denom, 0, 1 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\ts = 0;\n\n\t\t\t\t}\n\n\t\t\t\t// Compute point on L2 closest to S1(s) using\n\t\t\t\t// t = Dot((P1 + D1*s) - P2,D2) / Dot(D2,D2) = (b*s + f) / e\n\n\t\t\t\tt = ( b * s + f ) / e;\n\n\t\t\t\t// If t in [0,1] done. Else clamp t, recompute s for the new value\n\t\t\t\t// of t using s = Dot((P2 + D2*t) - P1,D1) / Dot(D1,D1)= (t*b - c) / a\n\t\t\t\t// and clamp s to [0, 1]\n\n\t\t\t\tif ( t < 0 ) {\n\n\t\t\t\t\tt = 0.;\n\t\t\t\t\ts = clamp( - c / a, 0, 1 );\n\n\t\t\t\t} else if ( t > 1 ) {\n\n\t\t\t\t\tt = 1;\n\t\t\t\t\ts = clamp( ( b - c ) / a, 0, 1 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tc1.copy( p1 ).add( _d1.multiplyScalar( s ) );\n\t\tc2.copy( p2 ).add( _d2.multiplyScalar( t ) );\n\n\t\tc1.sub( c2 );\n\n\t\treturn c1.dot( c1 );\n\n\t}\n\n\t/**\n\t * Applies a 4x4 transformation matrix to this line segment.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @return {Line3} A reference to this line segment.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tthis.start.applyMatrix4( matrix );\n\t\tthis.end.applyMatrix4( matrix );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this line segment is equal with the given one.\n\t *\n\t * @param {Line3} line - The line segment to test for equality.\n\t * @return {boolean} Whether this line segment is equal with the given one.\n\t */\n\tequals( line ) {\n\n\t\treturn line.start.equals( this.start ) && line.end.equals( this.end );\n\n\t}\n\n\t/**\n\t * Returns a new line segment with copied values from this instance.\n\t *\n\t * @return {Line3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _vector$3 = /*@__PURE__*/ new Vector3();\n\n/**\n * This displays a cone shaped helper object for a {@link SpotLight}.\n *\n * ```js\n * const spotLight = new THREE.SpotLight( 0xffffff );\n * spotLight.position.set( 10, 10, 10 );\n * scene.add( spotLight );\n *\n * const spotLightHelper = new THREE.SpotLightHelper( spotLight );\n * scene.add( spotLightHelper );\n * ```\n *\n * @augments Object3D\n */\nclass SpotLightHelper extends Object3D {\n\n\t/**\n\t * Constructs a new spot light helper.\n\t *\n\t * @param {HemisphereLight} light - The light to be visualized.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, color ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {SpotLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'SpotLightHelper';\n\n\t\tconst geometry = new BufferGeometry();\n\n\t\tconst positions = [\n\t\t\t0, 0, 0, \t0, 0, 1,\n\t\t\t0, 0, 0, \t1, 0, 1,\n\t\t\t0, 0, 0,\t-1, 0, 1,\n\t\t\t0, 0, 0, \t0, 1, 1,\n\t\t\t0, 0, 0, \t0, -1, 1\n\t\t];\n\n\t\tfor ( let i = 0, j = 1, l = 32; i < l; i ++, j ++ ) {\n\n\t\t\tconst p1 = ( i / l ) * Math.PI * 2;\n\t\t\tconst p2 = ( j / l ) * Math.PI * 2;\n\n\t\t\tpositions.push(\n\t\t\t\tMath.cos( p1 ), Math.sin( p1 ), 1,\n\t\t\t\tMath.cos( p2 ), Math.sin( p2 ), 1\n\t\t\t);\n\n\t\t}\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( positions, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { fog: false, toneMapped: false } );\n\n\t\tthis.cone = new LineSegments( geometry, material );\n\t\tthis.add( this.cone );\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.cone.geometry.dispose();\n\t\tthis.cone.material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\t\tthis.light.target.updateWorldMatrix( true, false );\n\n\t\t// update the local matrix based on the parent and light target transforms\n\t\tif ( this.parent ) {\n\n\t\t\tthis.parent.updateWorldMatrix( true );\n\n\t\t\tthis.matrix\n\t\t\t\t.copy( this.parent.matrixWorld )\n\t\t\t\t.invert()\n\t\t\t\t.multiply( this.light.matrixWorld );\n\n\t\t} else {\n\n\t\t\tthis.matrix.copy( this.light.matrixWorld );\n\n\t\t}\n\n\t\tthis.matrixWorld.copy( this.light.matrixWorld );\n\n\t\tconst coneLength = this.light.distance ? this.light.distance : 1000;\n\t\tconst coneWidth = coneLength * Math.tan( this.light.angle );\n\n\t\tthis.cone.scale.set( coneWidth, coneWidth, coneLength );\n\n\t\t_vector$3.setFromMatrixPosition( this.light.target.matrixWorld );\n\n\t\tthis.cone.lookAt( _vector$3 );\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.cone.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tthis.cone.material.color.copy( this.light.color );\n\n\t\t}\n\n\t}\n\n}\n\nconst _vector$2 = /*@__PURE__*/ new Vector3();\nconst _boneMatrix = /*@__PURE__*/ new Matrix4();\nconst _matrixWorldInv = /*@__PURE__*/ new Matrix4();\n\n/**\n * A helper object to assist with visualizing a {@link Skeleton}.\n *\n * ```js\n * const helper = new THREE.SkeletonHelper( skinnedMesh );\n * scene.add( helper );\n * ```\n *\n * @augments LineSegments\n */\nclass SkeletonHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new skeleton helper.\n\t *\n\t * @param {Object3D} object - Usually an instance of {@link SkinnedMesh}. However, any 3D object\n\t * can be used if it represents a hierarchy of bones (see {@link Bone}).\n\t */\n\tconstructor( object ) {\n\n\t\tconst bones = getBoneList( object );\n\n\t\tconst geometry = new BufferGeometry();\n\n\t\tconst vertices = [];\n\t\tconst colors = [];\n\n\t\tfor ( let i = 0; i < bones.length; i ++ ) {\n\n\t\t\tconst bone = bones[ i ];\n\n\t\t\tif ( bone.parent && bone.parent.isBone ) {\n\n\t\t\t\tvertices.push( 0, 0, 0 );\n\t\t\t\tvertices.push( 0, 0, 0 );\n\t\t\t\tcolors.push( 0, 0, 0 );\n\t\t\t\tcolors.push( 0, 0, 0 );\n\n\t\t\t}\n\n\t\t}\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, depthTest: false, depthWrite: false, toneMapped: false, transparent: true } );\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSkeletonHelper = true;\n\n\t\tthis.type = 'SkeletonHelper';\n\n\t\t/**\n\t\t * The object being visualized.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.root = object;\n\n\t\t/**\n\t\t * The list of bones that the helper visualizes.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.bones = bones;\n\n\t\tthis.matrix = object.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t// colors\n\n\t\tconst color1 = new Color( 0x0000ff );\n\t\tconst color2 = new Color( 0x00ff00 );\n\n\t\tthis.setColors( color1, color2 );\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tconst bones = this.bones;\n\n\t\tconst geometry = this.geometry;\n\t\tconst position = geometry.getAttribute( 'position' );\n\n\t\t_matrixWorldInv.copy( this.root.matrixWorld ).invert();\n\n\t\tfor ( let i = 0, j = 0; i < bones.length; i ++ ) {\n\n\t\t\tconst bone = bones[ i ];\n\n\t\t\tif ( bone.parent && bone.parent.isBone ) {\n\n\t\t\t\t_boneMatrix.multiplyMatrices( _matrixWorldInv, bone.matrixWorld );\n\t\t\t\t_vector$2.setFromMatrixPosition( _boneMatrix );\n\t\t\t\tposition.setXYZ( j, _vector$2.x, _vector$2.y, _vector$2.z );\n\n\t\t\t\t_boneMatrix.multiplyMatrices( _matrixWorldInv, bone.parent.matrixWorld );\n\t\t\t\t_vector$2.setFromMatrixPosition( _boneMatrix );\n\t\t\t\tposition.setXYZ( j + 1, _vector$2.x, _vector$2.y, _vector$2.z );\n\n\t\t\t\tj += 2;\n\n\t\t\t}\n\n\t\t}\n\n\t\tgeometry.getAttribute( 'position' ).needsUpdate = true;\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t}\n\n\t/**\n\t * Defines the colors of the helper.\n\t *\n\t * @param {Color} color1 - The first line color for each bone.\n\t * @param {Color} color2 - The second line color for each bone.\n\t * @return {SkeletonHelper} A reference to this helper.\n\t */\n\tsetColors( color1, color2 ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst colorAttribute = geometry.getAttribute( 'color' );\n\n\t\tfor ( let i = 0; i < colorAttribute.count; i += 2 ) {\n\n\t\t\tcolorAttribute.setXYZ( i, color1.r, color1.g, color1.b );\n\t\t\tcolorAttribute.setXYZ( i + 1, color2.r, color2.g, color2.b );\n\n\t\t}\n\n\t\tcolorAttribute.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n\nfunction getBoneList( object ) {\n\n\tconst boneList = [];\n\n\tif ( object.isBone === true ) {\n\n\t\tboneList.push( object );\n\n\t}\n\n\tfor ( let i = 0; i < object.children.length; i ++ ) {\n\n\t\tboneList.push( ...getBoneList( object.children[ i ] ) );\n\n\t}\n\n\treturn boneList;\n\n}\n\n/**\n * This displays a helper object consisting of a spherical mesh for\n * visualizing an instance of {@link PointLight}.\n *\n * ```js\n * const pointLight = new THREE.PointLight( 0xff0000, 1, 100 );\n * pointLight.position.set( 10, 10, 10 );\n * scene.add( pointLight );\n *\n * const sphereSize = 1;\n * const pointLightHelper = new THREE.PointLightHelper( pointLight, sphereSize );\n * scene.add( pointLightHelper );\n * ```\n *\n * @augments Mesh\n */\nclass PointLightHelper extends Mesh {\n\n\t/**\n\t * Constructs a new point light helper.\n\t *\n\t * @param {PointLight} light - The light to be visualized.\n\t * @param {number} [sphereSize=1] - The size of the sphere helper.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, sphereSize, color ) {\n\n\t\tconst geometry = new SphereGeometry( sphereSize, 4, 2 );\n\t\tconst material = new MeshBasicMaterial( { wireframe: true, fog: false, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {HemisphereLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'PointLightHelper';\n\n\t\tthis.matrix = this.light.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\tthis.update();\n\n\n\t\t/*\n\t// TODO: delete this comment?\n\tconst distanceGeometry = new THREE.IcosahedronGeometry( 1, 2 );\n\tconst distanceMaterial = new THREE.MeshBasicMaterial( { color: hexColor, fog: false, wireframe: true, opacity: 0.1, transparent: true } );\n\n\tthis.lightSphere = new THREE.Mesh( bulbGeometry, bulbMaterial );\n\tthis.lightDistance = new THREE.Mesh( distanceGeometry, distanceMaterial );\n\n\tconst d = light.distance;\n\n\tif ( d === 0.0 ) {\n\n\t\tthis.lightDistance.visible = false;\n\n\t} else {\n\n\t\tthis.lightDistance.scale.set( d, d, d );\n\n\t}\n\n\tthis.add( this.lightDistance );\n\t*/\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tthis.material.color.copy( this.light.color );\n\n\t\t}\n\n\t\t/*\n\t\tconst d = this.light.distance;\n\n\t\tif ( d === 0.0 ) {\n\n\t\t\tthis.lightDistance.visible = false;\n\n\t\t} else {\n\n\t\t\tthis.lightDistance.visible = true;\n\t\t\tthis.lightDistance.scale.set( d, d, d );\n\n\t\t}\n\t\t*/\n\n\t}\n\n}\n\nconst _vector$1 = /*@__PURE__*/ new Vector3();\nconst _color1 = /*@__PURE__*/ new Color();\nconst _color2 = /*@__PURE__*/ new Color();\n\n/**\n * Creates a visual aid consisting of a spherical mesh for a\n * given {@link HemisphereLight}.\n *\n * ```js\n * const light = new THREE.HemisphereLight( 0xffffbb, 0x080820, 1 );\n * const helper = new THREE.HemisphereLightHelper( light, 5 );\n * scene.add( helper );\n * ```\n *\n * @augments Object3D\n */\nclass HemisphereLightHelper extends Object3D {\n\n\t/**\n\t * Constructs a new hemisphere light helper.\n\t *\n\t * @param {HemisphereLight} light - The light to be visualized.\n\t * @param {number} [size=1] - The size of the mesh used to visualize the light.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, size, color ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {HemisphereLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\tthis.matrix = light.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'HemisphereLightHelper';\n\n\t\tconst geometry = new OctahedronGeometry( size );\n\t\tgeometry.rotateY( Math.PI * 0.5 );\n\n\t\tthis.material = new MeshBasicMaterial( { wireframe: true, fog: false, toneMapped: false } );\n\t\tif ( this.color === undefined ) this.material.vertexColors = true;\n\n\t\tconst position = geometry.getAttribute( 'position' );\n\t\tconst colors = new Float32Array( position.count * 3 );\n\n\t\tgeometry.setAttribute( 'color', new BufferAttribute( colors, 3 ) );\n\n\t\tthis.add( new Mesh( geometry, this.material ) );\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.children[ 0 ].geometry.dispose();\n\t\tthis.children[ 0 ].material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tconst mesh = this.children[ 0 ];\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tconst colors = mesh.geometry.getAttribute( 'color' );\n\n\t\t\t_color1.copy( this.light.color );\n\t\t\t_color2.copy( this.light.groundColor );\n\n\t\t\tfor ( let i = 0, l = colors.count; i < l; i ++ ) {\n\n\t\t\t\tconst color = ( i < ( l / 2 ) ) ? _color1 : _color2;\n\n\t\t\t\tcolors.setXYZ( i, color.r, color.g, color.b );\n\n\t\t\t}\n\n\t\t\tcolors.needsUpdate = true;\n\n\t\t}\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\n\t\tmesh.lookAt( _vector$1.setFromMatrixPosition( this.light.matrixWorld ).negate() );\n\n\t}\n\n}\n\n/**\n * The helper is an object to define grids. Grids are two-dimensional\n * arrays of lines.\n *\n * ```js\n * const size = 10;\n * const divisions = 10;\n *\n * const gridHelper = new THREE.GridHelper( size, divisions );\n * scene.add( gridHelper );\n * ```\n *\n * @augments LineSegments\n */\nclass GridHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new grid helper.\n\t *\n\t * @param {number} [size=10] - The size of the grid.\n\t * @param {number} [divisions=10] - The number of divisions across the grid.\n\t * @param {number|Color|string} [color1=0x444444] - The color of the center line.\n\t * @param {number|Color|string} [color2=0x888888] - The color of the lines of the grid.\n\t */\n\tconstructor( size = 10, divisions = 10, color1 = 0x444444, color2 = 0x888888 ) {\n\n\t\tcolor1 = new Color( color1 );\n\t\tcolor2 = new Color( color2 );\n\n\t\tconst center = divisions / 2;\n\t\tconst step = size / divisions;\n\t\tconst halfSize = size / 2;\n\n\t\tconst vertices = [], colors = [];\n\n\t\tfor ( let i = 0, j = 0, k = - halfSize; i <= divisions; i ++, k += step ) {\n\n\t\t\tvertices.push( - halfSize, 0, k, halfSize, 0, k );\n\t\t\tvertices.push( k, 0, - halfSize, k, 0, halfSize );\n\n\t\t\tconst color = i === center ? color1 : color2;\n\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\n\t\t}\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'GridHelper';\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * This helper is an object to define polar grids. Grids are\n * two-dimensional arrays of lines.\n *\n * ```js\n * const radius = 10;\n * const sectors = 16;\n * const rings = 8;\n * const divisions = 64;\n *\n * const helper = new THREE.PolarGridHelper( radius, sectors, rings, divisions );\n * scene.add( helper );\n * ```\n *\n * @augments LineSegments\n */\nclass PolarGridHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new polar grid helper.\n\t *\n\t * @param {number} [radius=10] - The radius of the polar grid. This can be any positive number.\n\t * @param {number} [sectors=16] - The number of sectors the grid will be divided into. This can be any positive integer.\n\t * @param {number} [rings=16] - The number of rings. This can be any positive integer.\n\t * @param {number} [divisions=64] - The number of line segments used for each circle. This can be any positive integer.\n\t * @param {number|Color|string} [color1=0x444444] - The first color used for grid elements.\n\t * @param {number|Color|string} [color2=0x888888] - The second color used for grid elements.\n\t */\n\tconstructor( radius = 10, sectors = 16, rings = 8, divisions = 64, color1 = 0x444444, color2 = 0x888888 ) {\n\n\t\tcolor1 = new Color( color1 );\n\t\tcolor2 = new Color( color2 );\n\n\t\tconst vertices = [];\n\t\tconst colors = [];\n\n\t\t// create the sectors\n\n\t\tif ( sectors > 1 ) {\n\n\t\t\tfor ( let i = 0; i < sectors; i ++ ) {\n\n\t\t\t\tconst v = ( i / sectors ) * ( Math.PI * 2 );\n\n\t\t\t\tconst x = Math.sin( v ) * radius;\n\t\t\t\tconst z = Math.cos( v ) * radius;\n\n\t\t\t\tvertices.push( 0, 0, 0 );\n\t\t\t\tvertices.push( x, 0, z );\n\n\t\t\t\tconst color = ( i & 1 ) ? color1 : color2;\n\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// create the rings\n\n\t\tfor ( let i = 0; i < rings; i ++ ) {\n\n\t\t\tconst color = ( i & 1 ) ? color1 : color2;\n\n\t\t\tconst r = radius - ( radius / rings * i );\n\n\t\t\tfor ( let j = 0; j < divisions; j ++ ) {\n\n\t\t\t\t// first vertex\n\n\t\t\t\tlet v = ( j / divisions ) * ( Math.PI * 2 );\n\n\t\t\t\tlet x = Math.sin( v ) * r;\n\t\t\t\tlet z = Math.cos( v ) * r;\n\n\t\t\t\tvertices.push( x, 0, z );\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\n\t\t\t\t// second vertex\n\n\t\t\t\tv = ( ( j + 1 ) / divisions ) * ( Math.PI * 2 );\n\n\t\t\t\tx = Math.sin( v ) * r;\n\t\t\t\tz = Math.cos( v ) * r;\n\n\t\t\t\tvertices.push( x, 0, z );\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'PolarGridHelper';\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\nconst _v1 = /*@__PURE__*/ new Vector3();\nconst _v2 = /*@__PURE__*/ new Vector3();\nconst _v3 = /*@__PURE__*/ new Vector3();\n\n/**\n * Helper object to assist with visualizing a {@link DirectionalLight}'s\n * effect on the scene. This consists of plane and a line representing the\n * light's position and direction.\n *\n * ```js\n * const light = new THREE.DirectionalLight( 0xFFFFFF );\n * scene.add( light );\n *\n * const helper = new THREE.DirectionalLightHelper( light, 5 );\n * scene.add( helper );\n * ```\n *\n * @augments Object3D\n */\nclass DirectionalLightHelper extends Object3D {\n\n\t/**\n\t * Constructs a new directional light helper.\n\t *\n\t * @param {DirectionalLight} light - The light to be visualized.\n\t * @param {number} [size=1] - The dimensions of the plane.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, size, color ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {DirectionalLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\tthis.matrix = light.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'DirectionalLightHelper';\n\n\t\tif ( size === undefined ) size = 1;\n\n\t\tlet geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( [\n\t\t\t- size, size, 0,\n\t\t\tsize, size, 0,\n\t\t\tsize, - size, 0,\n\t\t\t- size, - size, 0,\n\t\t\t- size, size, 0\n\t\t], 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { fog: false, toneMapped: false } );\n\n\t\t/**\n\t\t * Contains the line showing the location of the directional light.\n\t\t *\n\t\t * @type {Line}\n\t\t */\n\t\tthis.lightPlane = new Line( geometry, material );\n\t\tthis.add( this.lightPlane );\n\n\t\tgeometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( [ 0, 0, 0, 0, 0, 1 ], 3 ) );\n\n\t\t/**\n\t\t * Represents the target line of the directional light.\n\t\t *\n\t\t * @type {Line}\n\t\t */\n\t\tthis.targetLine = new Line( geometry, material );\n\t\tthis.add( this.targetLine );\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.lightPlane.geometry.dispose();\n\t\tthis.lightPlane.material.dispose();\n\t\tthis.targetLine.geometry.dispose();\n\t\tthis.targetLine.material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\t\tthis.light.target.updateWorldMatrix( true, false );\n\n\t\t_v1.setFromMatrixPosition( this.light.matrixWorld );\n\t\t_v2.setFromMatrixPosition( this.light.target.matrixWorld );\n\t\t_v3.subVectors( _v2, _v1 );\n\n\t\tthis.lightPlane.lookAt( _v2 );\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.lightPlane.material.color.set( this.color );\n\t\t\tthis.targetLine.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tthis.lightPlane.material.color.copy( this.light.color );\n\t\t\tthis.targetLine.material.color.copy( this.light.color );\n\n\t\t}\n\n\t\tthis.targetLine.lookAt( _v2 );\n\t\tthis.targetLine.scale.z = _v3.length();\n\n\t}\n\n}\n\nconst _vector = /*@__PURE__*/ new Vector3();\nconst _camera = /*@__PURE__*/ new Camera();\n\n/**\n * This helps with visualizing what a camera contains in its frustum. It\n * visualizes the frustum of a camera using a line segments.\n *\n * Based on frustum visualization in [lightgl.js shadowmap example]{@link https://github.com/evanw/lightgl.js/blob/master/tests/shadowmap.html}.\n *\n * `CameraHelper` must be a child of the scene.\n *\n * ```js\n * const camera = new THREE.PerspectiveCamera( 75, window.innerWidth / window.innerHeight, 0.1, 1000 );\n * const helper = new THREE.CameraHelper( camera );\n * scene.add( helper );\n * ```\n *\n * @augments LineSegments\n */\nclass CameraHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new arrow helper.\n\t *\n\t * @param {Camera} camera - The camera to visualize.\n\t */\n\tconstructor( camera ) {\n\n\t\tconst geometry = new BufferGeometry();\n\t\tconst material = new LineBasicMaterial( { color: 0xffffff, vertexColors: true, toneMapped: false } );\n\n\t\tconst vertices = [];\n\t\tconst colors = [];\n\n\t\tconst pointMap = {};\n\n\t\t// near\n\n\t\taddLine( 'n1', 'n2' );\n\t\taddLine( 'n2', 'n4' );\n\t\taddLine( 'n4', 'n3' );\n\t\taddLine( 'n3', 'n1' );\n\n\t\t// far\n\n\t\taddLine( 'f1', 'f2' );\n\t\taddLine( 'f2', 'f4' );\n\t\taddLine( 'f4', 'f3' );\n\t\taddLine( 'f3', 'f1' );\n\n\t\t// sides\n\n\t\taddLine( 'n1', 'f1' );\n\t\taddLine( 'n2', 'f2' );\n\t\taddLine( 'n3', 'f3' );\n\t\taddLine( 'n4', 'f4' );\n\n\t\t// cone\n\n\t\taddLine( 'p', 'n1' );\n\t\taddLine( 'p', 'n2' );\n\t\taddLine( 'p', 'n3' );\n\t\taddLine( 'p', 'n4' );\n\n\t\t// up\n\n\t\taddLine( 'u1', 'u2' );\n\t\taddLine( 'u2', 'u3' );\n\t\taddLine( 'u3', 'u1' );\n\n\t\t// target\n\n\t\taddLine( 'c', 't' );\n\t\taddLine( 'p', 'c' );\n\n\t\t// cross\n\n\t\taddLine( 'cn1', 'cn2' );\n\t\taddLine( 'cn3', 'cn4' );\n\n\t\taddLine( 'cf1', 'cf2' );\n\t\taddLine( 'cf3', 'cf4' );\n\n\t\tfunction addLine( a, b ) {\n\n\t\t\taddPoint( a );\n\t\t\taddPoint( b );\n\n\t\t}\n\n\t\tfunction addPoint( id ) {\n\n\t\t\tvertices.push( 0, 0, 0 );\n\t\t\tcolors.push( 0, 0, 0 );\n\n\t\t\tif ( pointMap[ id ] === undefined ) {\n\n\t\t\t\tpointMap[ id ] = [];\n\n\t\t\t}\n\n\t\t\tpointMap[ id ].push( ( vertices.length / 3 ) - 1 );\n\n\t\t}\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'CameraHelper';\n\n\t\t/**\n\t\t * The camera being visualized.\n\t\t *\n\t\t * @type {Camera}\n\t\t */\n\t\tthis.camera = camera;\n\t\tif ( this.camera.updateProjectionMatrix ) this.camera.updateProjectionMatrix();\n\n\t\tthis.matrix = camera.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * This contains the points used to visualize the camera.\n\t\t *\n\t\t * @type {Object>}\n\t\t */\n\t\tthis.pointMap = pointMap;\n\n\t\tthis.update();\n\n\t\t// colors\n\n\t\tconst colorFrustum = new Color( 0xffaa00 );\n\t\tconst colorCone = new Color( 0xff0000 );\n\t\tconst colorUp = new Color( 0x00aaff );\n\t\tconst colorTarget = new Color( 0xffffff );\n\t\tconst colorCross = new Color( 0x333333 );\n\n\t\tthis.setColors( colorFrustum, colorCone, colorUp, colorTarget, colorCross );\n\n\t}\n\n\t/**\n\t * Defines the colors of the helper.\n\t *\n\t * @param {Color} frustum - The frustum line color.\n\t * @param {Color} cone - The cone line color.\n\t * @param {Color} up - The up line color.\n\t * @param {Color} target - The target line color.\n\t * @param {Color} cross - The cross line color.\n\t * @return {CameraHelper} A reference to this helper.\n\t */\n\tsetColors( frustum, cone, up, target, cross ) {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst colorAttribute = geometry.getAttribute( 'color' );\n\n\t\t// near\n\n\t\tcolorAttribute.setXYZ( 0, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 1, frustum.r, frustum.g, frustum.b ); // n1, n2\n\t\tcolorAttribute.setXYZ( 2, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 3, frustum.r, frustum.g, frustum.b ); // n2, n4\n\t\tcolorAttribute.setXYZ( 4, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 5, frustum.r, frustum.g, frustum.b ); // n4, n3\n\t\tcolorAttribute.setXYZ( 6, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 7, frustum.r, frustum.g, frustum.b ); // n3, n1\n\n\t\t// far\n\n\t\tcolorAttribute.setXYZ( 8, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 9, frustum.r, frustum.g, frustum.b ); // f1, f2\n\t\tcolorAttribute.setXYZ( 10, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 11, frustum.r, frustum.g, frustum.b ); // f2, f4\n\t\tcolorAttribute.setXYZ( 12, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 13, frustum.r, frustum.g, frustum.b ); // f4, f3\n\t\tcolorAttribute.setXYZ( 14, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 15, frustum.r, frustum.g, frustum.b ); // f3, f1\n\n\t\t// sides\n\n\t\tcolorAttribute.setXYZ( 16, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 17, frustum.r, frustum.g, frustum.b ); // n1, f1\n\t\tcolorAttribute.setXYZ( 18, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 19, frustum.r, frustum.g, frustum.b ); // n2, f2\n\t\tcolorAttribute.setXYZ( 20, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 21, frustum.r, frustum.g, frustum.b ); // n3, f3\n\t\tcolorAttribute.setXYZ( 22, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 23, frustum.r, frustum.g, frustum.b ); // n4, f4\n\n\t\t// cone\n\n\t\tcolorAttribute.setXYZ( 24, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 25, cone.r, cone.g, cone.b ); // p, n1\n\t\tcolorAttribute.setXYZ( 26, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 27, cone.r, cone.g, cone.b ); // p, n2\n\t\tcolorAttribute.setXYZ( 28, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 29, cone.r, cone.g, cone.b ); // p, n3\n\t\tcolorAttribute.setXYZ( 30, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 31, cone.r, cone.g, cone.b ); // p, n4\n\n\t\t// up\n\n\t\tcolorAttribute.setXYZ( 32, up.r, up.g, up.b ); colorAttribute.setXYZ( 33, up.r, up.g, up.b ); // u1, u2\n\t\tcolorAttribute.setXYZ( 34, up.r, up.g, up.b ); colorAttribute.setXYZ( 35, up.r, up.g, up.b ); // u2, u3\n\t\tcolorAttribute.setXYZ( 36, up.r, up.g, up.b ); colorAttribute.setXYZ( 37, up.r, up.g, up.b ); // u3, u1\n\n\t\t// target\n\n\t\tcolorAttribute.setXYZ( 38, target.r, target.g, target.b ); colorAttribute.setXYZ( 39, target.r, target.g, target.b ); // c, t\n\t\tcolorAttribute.setXYZ( 40, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 41, cross.r, cross.g, cross.b ); // p, c\n\n\t\t// cross\n\n\t\tcolorAttribute.setXYZ( 42, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 43, cross.r, cross.g, cross.b ); // cn1, cn2\n\t\tcolorAttribute.setXYZ( 44, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 45, cross.r, cross.g, cross.b ); // cn3, cn4\n\n\t\tcolorAttribute.setXYZ( 46, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 47, cross.r, cross.g, cross.b ); // cf1, cf2\n\t\tcolorAttribute.setXYZ( 48, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 49, cross.r, cross.g, cross.b ); // cf3, cf4\n\n\t\tcolorAttribute.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Updates the helper based on the projection matrix of the camera.\n\t */\n\tupdate() {\n\n\t\tconst geometry = this.geometry;\n\t\tconst pointMap = this.pointMap;\n\n\t\tconst w = 1, h = 1;\n\n\t\tlet nearZ, farZ;\n\n\t\t// we need just camera projection matrix inverse\n\t\t// world matrix must be identity\n\n\t\t_camera.projectionMatrixInverse.copy( this.camera.projectionMatrixInverse );\n\n\t\t// Adjust z values based on coordinate system\n\n\t\tif ( this.camera.reversedDepth === true ) {\n\n\t\t\tnearZ = 1;\n\t\t\tfarZ = 0;\n\n\t\t} else {\n\n\t\t\tif ( this.camera.coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tnearZ = -1;\n\t\t\t\tfarZ = 1;\n\n\t\t\t} else if ( this.camera.coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tnearZ = 0;\n\t\t\t\tfarZ = 1;\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.CameraHelper.update(): Invalid coordinate system: ' + this.camera.coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\n\t\t// center / target\n\t\tsetPoint( 'c', pointMap, geometry, _camera, 0, 0, nearZ );\n\t\tsetPoint( 't', pointMap, geometry, _camera, 0, 0, farZ );\n\n\t\t// near\n\n\t\tsetPoint( 'n1', pointMap, geometry, _camera, - w, - h, nearZ );\n\t\tsetPoint( 'n2', pointMap, geometry, _camera, w, - h, nearZ );\n\t\tsetPoint( 'n3', pointMap, geometry, _camera, - w, h, nearZ );\n\t\tsetPoint( 'n4', pointMap, geometry, _camera, w, h, nearZ );\n\n\t\t// far\n\n\t\tsetPoint( 'f1', pointMap, geometry, _camera, - w, - h, farZ );\n\t\tsetPoint( 'f2', pointMap, geometry, _camera, w, - h, farZ );\n\t\tsetPoint( 'f3', pointMap, geometry, _camera, - w, h, farZ );\n\t\tsetPoint( 'f4', pointMap, geometry, _camera, w, h, farZ );\n\n\t\t// up\n\n\t\tsetPoint( 'u1', pointMap, geometry, _camera, w * 0.7, h * 1.1, nearZ );\n\t\tsetPoint( 'u2', pointMap, geometry, _camera, - w * 0.7, h * 1.1, nearZ );\n\t\tsetPoint( 'u3', pointMap, geometry, _camera, 0, h * 2, nearZ );\n\n\t\t// cross\n\n\t\tsetPoint( 'cf1', pointMap, geometry, _camera, - w, 0, farZ );\n\t\tsetPoint( 'cf2', pointMap, geometry, _camera, w, 0, farZ );\n\t\tsetPoint( 'cf3', pointMap, geometry, _camera, 0, - h, farZ );\n\t\tsetPoint( 'cf4', pointMap, geometry, _camera, 0, h, farZ );\n\n\t\tsetPoint( 'cn1', pointMap, geometry, _camera, - w, 0, nearZ );\n\t\tsetPoint( 'cn2', pointMap, geometry, _camera, w, 0, nearZ );\n\t\tsetPoint( 'cn3', pointMap, geometry, _camera, 0, - h, nearZ );\n\t\tsetPoint( 'cn4', pointMap, geometry, _camera, 0, h, nearZ );\n\n\t\tgeometry.getAttribute( 'position' ).needsUpdate = true;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n\nfunction setPoint( point, pointMap, geometry, camera, x, y, z ) {\n\n\t_vector.set( x, y, z ).unproject( camera );\n\n\tconst points = pointMap[ point ];\n\n\tif ( points !== undefined ) {\n\n\t\tconst position = geometry.getAttribute( 'position' );\n\n\t\tfor ( let i = 0, l = points.length; i < l; i ++ ) {\n\n\t\t\tposition.setXYZ( points[ i ], _vector.x, _vector.y, _vector.z );\n\n\t\t}\n\n\t}\n\n}\n\nconst _box = /*@__PURE__*/ new Box3();\n\n/**\n * Helper object to graphically show the world-axis-aligned bounding box\n * around an object. The actual bounding box is handled with {@link Box3},\n * this is just a visual helper for debugging. It can be automatically\n * resized with {@link BoxHelper#update} when the object it's created from\n * is transformed. Note that the object must have a geometry for this to work,\n * so it won't work with sprites.\n *\n * ```js\n * const sphere = new THREE.SphereGeometry();\n * const object = new THREE.Mesh( sphere, new THREE.MeshBasicMaterial( 0xff0000 ) );\n * const box = new THREE.BoxHelper( object, 0xffff00 );\n * scene.add( box );\n * ```\n *\n * @augments LineSegments\n */\nclass BoxHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new box helper.\n\t *\n\t * @param {Object3D} [object] - The 3D object to show the world-axis-aligned bounding box.\n\t * @param {number|Color|string} [color=0xffff00] - The box's color.\n\t */\n\tconstructor( object, color = 0xffff00 ) {\n\n\t\tconst indices = new Uint16Array( [ 0, 1, 1, 2, 2, 3, 3, 0, 4, 5, 5, 6, 6, 7, 7, 4, 0, 4, 1, 5, 2, 6, 3, 7 ] );\n\t\tconst positions = new Float32Array( 8 * 3 );\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setIndex( new BufferAttribute( indices, 1 ) );\n\t\tgeometry.setAttribute( 'position', new BufferAttribute( positions, 3 ) );\n\n\t\tsuper( geometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\n\t\t/**\n\t\t * The 3D object being visualized.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.object = object;\n\t\tthis.type = 'BoxHelper';\n\n\t\tthis.matrixAutoUpdate = false;\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Updates the helper's geometry to match the dimensions of the object,\n\t * including any children.\n\t */\n\tupdate() {\n\n\t\tif ( this.object !== undefined ) {\n\n\t\t\t_box.setFromObject( this.object );\n\n\t\t}\n\n\t\tif ( _box.isEmpty() ) return;\n\n\t\tconst min = _box.min;\n\t\tconst max = _box.max;\n\n\t\t/*\n\t\t\t5____4\n\t\t1/___0/|\n\t\t| 6__|_7\n\t\t2/___3/\n\n\t\t0: max.x, max.y, max.z\n\t\t1: min.x, max.y, max.z\n\t\t2: min.x, min.y, max.z\n\t\t3: max.x, min.y, max.z\n\t\t4: max.x, max.y, min.z\n\t\t5: min.x, max.y, min.z\n\t\t6: min.x, min.y, min.z\n\t\t7: max.x, min.y, min.z\n\t\t*/\n\n\t\tconst position = this.geometry.attributes.position;\n\t\tconst array = position.array;\n\n\t\tarray[ 0 ] = max.x; array[ 1 ] = max.y; array[ 2 ] = max.z;\n\t\tarray[ 3 ] = min.x; array[ 4 ] = max.y; array[ 5 ] = max.z;\n\t\tarray[ 6 ] = min.x; array[ 7 ] = min.y; array[ 8 ] = max.z;\n\t\tarray[ 9 ] = max.x; array[ 10 ] = min.y; array[ 11 ] = max.z;\n\t\tarray[ 12 ] = max.x; array[ 13 ] = max.y; array[ 14 ] = min.z;\n\t\tarray[ 15 ] = min.x; array[ 16 ] = max.y; array[ 17 ] = min.z;\n\t\tarray[ 18 ] = min.x; array[ 19 ] = min.y; array[ 20 ] = min.z;\n\t\tarray[ 21 ] = max.x; array[ 22 ] = min.y; array[ 23 ] = min.z;\n\n\t\tposition.needsUpdate = true;\n\n\t\tthis.geometry.computeBoundingSphere();\n\n\t}\n\n\t/**\n\t * Updates the wireframe box for the passed object.\n\t *\n\t * @param {Object3D} object - The 3D object to create the helper for.\n\t * @return {BoxHelper} A reference to this instance.\n\t */\n\tsetFromObject( object ) {\n\n\t\tthis.object = object;\n\t\tthis.update();\n\n\t\treturn this;\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.object = source.object;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * A helper object to visualize an instance of {@link Box3}.\n *\n * ```js\n * const box = new THREE.Box3();\n * box.setFromCenterAndSize( new THREE.Vector3( 1, 1, 1 ), new THREE.Vector3( 2, 1, 3 ) );\n *\n * const helper = new THREE.Box3Helper( box, 0xffff00 );\n * scene.add( helper )\n * ```\n *\n * @augments LineSegments\n */\nclass Box3Helper extends LineSegments {\n\n\t/**\n\t * Constructs a new box3 helper.\n\t *\n\t * @param {Box3} box - The box to visualize.\n\t * @param {number|Color|string} [color=0xffff00] - The box's color.\n\t */\n\tconstructor( box, color = 0xffff00 ) {\n\n\t\tconst indices = new Uint16Array( [ 0, 1, 1, 2, 2, 3, 3, 0, 4, 5, 5, 6, 6, 7, 7, 4, 0, 4, 1, 5, 2, 6, 3, 7 ] );\n\n\t\tconst positions = [ 1, 1, 1, -1, 1, 1, -1, -1, 1, 1, -1, 1, 1, 1, -1, -1, 1, -1, -1, -1, -1, 1, -1, -1 ];\n\n\t\tconst geometry = new BufferGeometry();\n\n\t\tgeometry.setIndex( new BufferAttribute( indices, 1 ) );\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( positions, 3 ) );\n\n\t\tsuper( geometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\n\t\t/**\n\t\t * The box being visualized.\n\t\t *\n\t\t * @type {Box3}\n\t\t */\n\t\tthis.box = box;\n\n\t\tthis.type = 'Box3Helper';\n\n\t\tthis.geometry.computeBoundingSphere();\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tconst box = this.box;\n\n\t\tif ( box.isEmpty() ) return;\n\n\t\tbox.getCenter( this.position );\n\n\t\tbox.getSize( this.scale );\n\n\t\tthis.scale.multiplyScalar( 0.5 );\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * A helper object to visualize an instance of {@link Plane}.\n *\n * ```js\n * const plane = new THREE.Plane( new THREE.Vector3( 1, 1, 0.2 ), 3 );\n * const helper = new THREE.PlaneHelper( plane, 1, 0xffff00 );\n * scene.add( helper );\n * ```\n *\n * @augments Line\n */\nclass PlaneHelper extends Line {\n\n\t/**\n\t * Constructs a new plane helper.\n\t *\n\t * @param {Plane} plane - The plane to be visualized.\n\t * @param {number} [size=1] - The side length of plane helper.\n\t * @param {number|Color|string} [hex=0xffff00] - The helper's color.\n\t */\n\tconstructor( plane, size = 1, hex = 0xffff00 ) {\n\n\t\tconst color = hex;\n\n\t\tconst positions = [ 1, -1, 0, -1, 1, 0, -1, -1, 0, 1, 1, 0, -1, 1, 0, -1, -1, 0, 1, -1, 0, 1, 1, 0 ];\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( positions, 3 ) );\n\t\tgeometry.computeBoundingSphere();\n\n\t\tsuper( geometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\n\t\tthis.type = 'PlaneHelper';\n\n\t\t/**\n\t\t * The plane being visualized.\n\t\t *\n\t\t * @type {Plane}\n\t\t */\n\t\tthis.plane = plane;\n\n\t\t/**\n\t\t * The side length of plane helper.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.size = size;\n\n\t\tconst positions2 = [ 1, 1, 0, -1, 1, 0, -1, -1, 0, 1, 1, 0, -1, -1, 0, 1, -1, 0 ];\n\n\t\tconst geometry2 = new BufferGeometry();\n\t\tgeometry2.setAttribute( 'position', new Float32BufferAttribute( positions2, 3 ) );\n\t\tgeometry2.computeBoundingSphere();\n\n\t\tthis.add( new Mesh( geometry2, new MeshBasicMaterial( { color: color, opacity: 0.2, transparent: true, depthWrite: false, toneMapped: false } ) ) );\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tthis.position.set( 0, 0, 0 );\n\n\t\tthis.scale.set( 0.5 * this.size, 0.5 * this.size, 1 );\n\n\t\tthis.lookAt( this.plane.normal );\n\n\t\tthis.translateZ( - this.plane.constant );\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\t\tthis.children[ 0 ].geometry.dispose();\n\t\tthis.children[ 0 ].material.dispose();\n\n\t}\n\n}\n\nconst _axis = /*@__PURE__*/ new Vector3();\nlet _lineGeometry, _coneGeometry;\n\n/**\n * An 3D arrow object for visualizing directions.\n *\n * ```js\n * const dir = new THREE.Vector3( 1, 2, 0 );\n *\n * //normalize the direction vector (convert to vector of length 1)\n * dir.normalize();\n *\n * const origin = new THREE.Vector3( 0, 0, 0 );\n * const length = 1;\n * const hex = 0xffff00;\n *\n * const arrowHelper = new THREE.ArrowHelper( dir, origin, length, hex );\n * scene.add( arrowHelper );\n * ```\n *\n * @augments Object3D\n */\nclass ArrowHelper extends Object3D {\n\n\t/**\n\t * Constructs a new arrow helper.\n\t *\n\t * @param {Vector3} [dir=(0, 0, 1)] - The (normalized) direction vector.\n\t * @param {Vector3} [origin=(0, 0, 0)] - Point at which the arrow starts.\n\t * @param {number} [length=1] - Length of the arrow in world units.\n\t * @param {(number|Color|string)} [color=0xffff00] - Color of the arrow.\n\t * @param {number} [headLength=length*0.2] - The length of the head of the arrow.\n\t * @param {number} [headWidth=headLength*0.2] - The width of the head of the arrow.\n\t */\n\tconstructor( dir = new Vector3( 0, 0, 1 ), origin = new Vector3( 0, 0, 0 ), length = 1, color = 0xffff00, headLength = length * 0.2, headWidth = headLength * 0.2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'ArrowHelper';\n\n\t\tif ( _lineGeometry === undefined ) {\n\n\t\t\t_lineGeometry = new BufferGeometry();\n\t\t\t_lineGeometry.setAttribute( 'position', new Float32BufferAttribute( [ 0, 0, 0, 0, 1, 0 ], 3 ) );\n\n\t\t\t_coneGeometry = new ConeGeometry( 0.5, 1, 5, 1 );\n\t\t\t_coneGeometry.translate( 0, -0.5, 0 );\n\n\t\t}\n\n\t\tthis.position.copy( origin );\n\n\t\t/**\n\t\t * The line part of the arrow helper.\n\t\t *\n\t\t * @type {Line}\n\t\t */\n\t\tthis.line = new Line( _lineGeometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\t\tthis.line.matrixAutoUpdate = false;\n\t\tthis.add( this.line );\n\n\t\t/**\n\t\t * The cone part of the arrow helper.\n\t\t *\n\t\t * @type {Mesh}\n\t\t */\n\t\tthis.cone = new Mesh( _coneGeometry, new MeshBasicMaterial( { color: color, toneMapped: false } ) );\n\t\tthis.cone.matrixAutoUpdate = false;\n\t\tthis.add( this.cone );\n\n\t\tthis.setDirection( dir );\n\t\tthis.setLength( length, headLength, headWidth );\n\n\t}\n\n\t/**\n\t * Sets the direction of the helper.\n\t *\n\t * @param {Vector3} dir - The normalized direction vector.\n\t */\n\tsetDirection( dir ) {\n\n\t\t// dir is assumed to be normalized\n\n\t\tif ( dir.y > 0.99999 ) {\n\n\t\t\tthis.quaternion.set( 0, 0, 0, 1 );\n\n\t\t} else if ( dir.y < -0.99999 ) {\n\n\t\t\tthis.quaternion.set( 1, 0, 0, 0 );\n\n\t\t} else {\n\n\t\t\t_axis.set( dir.z, 0, - dir.x ).normalize();\n\n\t\t\tconst radians = Math.acos( dir.y );\n\n\t\t\tthis.quaternion.setFromAxisAngle( _axis, radians );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the length of the helper.\n\t *\n\t * @param {number} length - Length of the arrow in world units.\n\t * @param {number} [headLength=length*0.2] - The length of the head of the arrow.\n\t * @param {number} [headWidth=headLength*0.2] - The width of the head of the arrow.\n\t */\n\tsetLength( length, headLength = length * 0.2, headWidth = headLength * 0.2 ) {\n\n\t\tthis.line.scale.set( 1, Math.max( 0.0001, length - headLength ), 1 ); // see #17458\n\t\tthis.line.updateMatrix();\n\n\t\tthis.cone.scale.set( headWidth, headLength, headWidth );\n\t\tthis.cone.position.y = length;\n\t\tthis.cone.updateMatrix();\n\n\t}\n\n\t/**\n\t * Sets the color of the helper.\n\t *\n\t * @param {number|Color|string} color - The color to set.\n\t */\n\tsetColor( color ) {\n\n\t\tthis.line.material.color.set( color );\n\t\tthis.cone.material.color.set( color );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source, false );\n\n\t\tthis.line.copy( source.line );\n\t\tthis.cone.copy( source.cone );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.line.geometry.dispose();\n\t\tthis.line.material.dispose();\n\t\tthis.cone.geometry.dispose();\n\t\tthis.cone.material.dispose();\n\n\t}\n\n}\n\n/**\n * An axis object to visualize the 3 axes in a simple way.\n * The X axis is red. The Y axis is green. The Z axis is blue.\n *\n * ```js\n * const axesHelper = new THREE.AxesHelper( 5 );\n * scene.add( axesHelper );\n * ```\n *\n * @augments LineSegments\n */\nclass AxesHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new axes helper.\n\t *\n\t * @param {number} [size=1] - Size of the lines representing the axes.\n\t */\n\tconstructor( size = 1 ) {\n\n\t\tconst vertices = [\n\t\t\t0, 0, 0,\tsize, 0, 0,\n\t\t\t0, 0, 0,\t0, size, 0,\n\t\t\t0, 0, 0,\t0, 0, size\n\t\t];\n\n\t\tconst colors = [\n\t\t\t1, 0, 0,\t1, 0.6, 0,\n\t\t\t0, 1, 0,\t0.6, 1, 0,\n\t\t\t0, 0, 1,\t0, 0.6, 1\n\t\t];\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'AxesHelper';\n\n\t}\n\n\t/**\n\t * Defines the colors of the axes helper.\n\t *\n\t * @param {number|Color|string} xAxisColor - The color for the x axis.\n\t * @param {number|Color|string} yAxisColor - The color for the y axis.\n\t * @param {number|Color|string} zAxisColor - The color for the z axis.\n\t * @return {AxesHelper} A reference to this axes helper.\n\t */\n\tsetColors( xAxisColor, yAxisColor, zAxisColor ) {\n\n\t\tconst color = new Color();\n\t\tconst array = this.geometry.attributes.color.array;\n\n\t\tcolor.set( xAxisColor );\n\t\tcolor.toArray( array, 0 );\n\t\tcolor.toArray( array, 3 );\n\n\t\tcolor.set( yAxisColor );\n\t\tcolor.toArray( array, 6 );\n\t\tcolor.toArray( array, 9 );\n\n\t\tcolor.set( zAxisColor );\n\t\tcolor.toArray( array, 12 );\n\t\tcolor.toArray( array, 15 );\n\n\t\tthis.geometry.attributes.color.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * This class is used to convert a series of paths to an array of\n * shapes. It is specifically used in context of fonts and SVG.\n */\nclass ShapePath {\n\n\t/**\n\t * Constructs a new shape path.\n\t */\n\tconstructor() {\n\n\t\tthis.type = 'ShapePath';\n\n\t\t/**\n\t\t * The color of the shape.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color();\n\n\t\t/**\n\t\t * The paths that have been generated for this shape.\n\t\t *\n\t\t * @type {Array}\n\t\t * @default null\n\t\t */\n\t\tthis.subPaths = [];\n\n\t\t/**\n\t\t * The current path that is being generated.\n\t\t *\n\t\t * @type {?Path}\n\t\t * @default null\n\t\t */\n\t\tthis.currentPath = null;\n\n\t}\n\n\t/**\n\t * Creates a new path and moves it current point to the given one.\n\t *\n\t * @param {number} x - The x coordinate.\n\t * @param {number} y - The y coordinate.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tmoveTo( x, y ) {\n\n\t\tthis.currentPath = new Path();\n\t\tthis.subPaths.push( this.currentPath );\n\t\tthis.currentPath.moveTo( x, y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link LineCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} x - The x coordinate of the end point.\n\t * @param {number} y - The y coordinate of the end point.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tlineTo( x, y ) {\n\n\t\tthis.currentPath.lineTo( x, y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link QuadraticBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCPx - The x coordinate of the control point.\n\t * @param {number} aCPy - The y coordinate of the control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tquadraticCurveTo( aCPx, aCPy, aX, aY ) {\n\n\t\tthis.currentPath.quadraticCurveTo( aCPx, aCPy, aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link CubicBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCP1x - The x coordinate of the first control point.\n\t * @param {number} aCP1y - The y coordinate of the first control point.\n\t * @param {number} aCP2x - The x coordinate of the second control point.\n\t * @param {number} aCP2y - The y coordinate of the second control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tbezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY ) {\n\n\t\tthis.currentPath.bezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link SplineCurve} to the path by connecting\n\t * the current point with the given list of points.\n\t *\n\t * @param {Array} pts - An array of points in 2D space.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tsplineThru( pts ) {\n\n\t\tthis.currentPath.splineThru( pts );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Converts the paths into an array of shapes.\n\t *\n\t * @param {boolean} isCCW - By default solid shapes are defined clockwise (CW) and holes are defined counterclockwise (CCW).\n\t * If this flag is set to `true`, then those are flipped.\n\t * @return {Array} An array of shapes.\n\t */\n\ttoShapes( isCCW ) {\n\n\t\tfunction toShapesNoHoles( inSubpaths ) {\n\n\t\t\tconst shapes = [];\n\n\t\t\tfor ( let i = 0, l = inSubpaths.length; i < l; i ++ ) {\n\n\t\t\t\tconst tmpPath = inSubpaths[ i ];\n\n\t\t\t\tconst tmpShape = new Shape();\n\t\t\t\ttmpShape.curves = tmpPath.curves;\n\n\t\t\t\tshapes.push( tmpShape );\n\n\t\t\t}\n\n\t\t\treturn shapes;\n\n\t\t}\n\n\t\tfunction isPointInsidePolygon( inPt, inPolygon ) {\n\n\t\t\tconst polyLen = inPolygon.length;\n\n\t\t\t// inPt on polygon contour => immediate success or\n\t\t\t// toggling of inside/outside at every single! intersection point of an edge\n\t\t\t// with the horizontal line through inPt, left of inPt\n\t\t\t// not counting lowerY endpoints of edges and whole edges on that line\n\t\t\tlet inside = false;\n\t\t\tfor ( let p = polyLen - 1, q = 0; q < polyLen; p = q ++ ) {\n\n\t\t\t\tlet edgeLowPt = inPolygon[ p ];\n\t\t\t\tlet edgeHighPt = inPolygon[ q ];\n\n\t\t\t\tlet edgeDx = edgeHighPt.x - edgeLowPt.x;\n\t\t\t\tlet edgeDy = edgeHighPt.y - edgeLowPt.y;\n\n\t\t\t\tif ( Math.abs( edgeDy ) > Number.EPSILON ) {\n\n\t\t\t\t\t// not parallel\n\t\t\t\t\tif ( edgeDy < 0 ) {\n\n\t\t\t\t\t\tedgeLowPt = inPolygon[ q ]; edgeDx = - edgeDx;\n\t\t\t\t\t\tedgeHighPt = inPolygon[ p ]; edgeDy = - edgeDy;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ( inPt.y < edgeLowPt.y ) || ( inPt.y > edgeHighPt.y ) ) \t\tcontinue;\n\n\t\t\t\t\tif ( inPt.y === edgeLowPt.y ) {\n\n\t\t\t\t\t\tif ( inPt.x === edgeLowPt.x )\t\treturn\ttrue;\t\t// inPt is on contour ?\n\t\t\t\t\t\t// continue;\t\t\t\t// no intersection or edgeLowPt => doesn't count !!!\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tconst perpEdge = edgeDy * ( inPt.x - edgeLowPt.x ) - edgeDx * ( inPt.y - edgeLowPt.y );\n\t\t\t\t\t\tif ( perpEdge === 0 )\t\t\t\treturn\ttrue;\t\t// inPt is on contour ?\n\t\t\t\t\t\tif ( perpEdge < 0 ) \t\t\t\tcontinue;\n\t\t\t\t\t\tinside = ! inside;\t\t// true intersection left of inPt\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// parallel or collinear\n\t\t\t\t\tif ( inPt.y !== edgeLowPt.y ) \t\tcontinue;\t\t\t// parallel\n\t\t\t\t\t// edge lies on the same horizontal line as inPt\n\t\t\t\t\tif ( ( ( edgeHighPt.x <= inPt.x ) && ( inPt.x <= edgeLowPt.x ) ) ||\n\t\t\t\t\t\t ( ( edgeLowPt.x <= inPt.x ) && ( inPt.x <= edgeHighPt.x ) ) )\t\treturn\ttrue;\t// inPt: Point on contour !\n\t\t\t\t\t// continue;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn\tinside;\n\n\t\t}\n\n\t\tconst isClockWise = ShapeUtils.isClockWise;\n\n\t\tconst subPaths = this.subPaths;\n\t\tif ( subPaths.length === 0 ) return [];\n\n\t\tlet solid, tmpPath, tmpShape;\n\t\tconst shapes = [];\n\n\t\tif ( subPaths.length === 1 ) {\n\n\t\t\ttmpPath = subPaths[ 0 ];\n\t\t\ttmpShape = new Shape();\n\t\t\ttmpShape.curves = tmpPath.curves;\n\t\t\tshapes.push( tmpShape );\n\t\t\treturn shapes;\n\n\t\t}\n\n\t\tlet holesFirst = ! isClockWise( subPaths[ 0 ].getPoints() );\n\t\tholesFirst = isCCW ? ! holesFirst : holesFirst;\n\n\t\t// console.log(\"Holes first\", holesFirst);\n\n\t\tconst betterShapeHoles = [];\n\t\tconst newShapes = [];\n\t\tlet newShapeHoles = [];\n\t\tlet mainIdx = 0;\n\t\tlet tmpPoints;\n\n\t\tnewShapes[ mainIdx ] = undefined;\n\t\tnewShapeHoles[ mainIdx ] = [];\n\n\t\tfor ( let i = 0, l = subPaths.length; i < l; i ++ ) {\n\n\t\t\ttmpPath = subPaths[ i ];\n\t\t\ttmpPoints = tmpPath.getPoints();\n\t\t\tsolid = isClockWise( tmpPoints );\n\t\t\tsolid = isCCW ? ! solid : solid;\n\n\t\t\tif ( solid ) {\n\n\t\t\t\tif ( ( ! holesFirst ) && ( newShapes[ mainIdx ] ) )\tmainIdx ++;\n\n\t\t\t\tnewShapes[ mainIdx ] = { s: new Shape(), p: tmpPoints };\n\t\t\t\tnewShapes[ mainIdx ].s.curves = tmpPath.curves;\n\n\t\t\t\tif ( holesFirst )\tmainIdx ++;\n\t\t\t\tnewShapeHoles[ mainIdx ] = [];\n\n\t\t\t\t//console.log('cw', i);\n\n\t\t\t} else {\n\n\t\t\t\tnewShapeHoles[ mainIdx ].push( { h: tmpPath, p: tmpPoints[ 0 ] } );\n\n\t\t\t\t//console.log('ccw', i);\n\n\t\t\t}\n\n\t\t}\n\n\t\t// only Holes? -> probably all Shapes with wrong orientation\n\t\tif ( ! newShapes[ 0 ] )\treturn\ttoShapesNoHoles( subPaths );\n\n\n\t\tif ( newShapes.length > 1 ) {\n\n\t\t\tlet ambiguous = false;\n\t\t\tlet toChange = 0;\n\n\t\t\tfor ( let sIdx = 0, sLen = newShapes.length; sIdx < sLen; sIdx ++ ) {\n\n\t\t\t\tbetterShapeHoles[ sIdx ] = [];\n\n\t\t\t}\n\n\t\t\tfor ( let sIdx = 0, sLen = newShapes.length; sIdx < sLen; sIdx ++ ) {\n\n\t\t\t\tconst sho = newShapeHoles[ sIdx ];\n\n\t\t\t\tfor ( let hIdx = 0; hIdx < sho.length; hIdx ++ ) {\n\n\t\t\t\t\tconst ho = sho[ hIdx ];\n\t\t\t\t\tlet hole_unassigned = true;\n\n\t\t\t\t\tfor ( let s2Idx = 0; s2Idx < newShapes.length; s2Idx ++ ) {\n\n\t\t\t\t\t\tif ( isPointInsidePolygon( ho.p, newShapes[ s2Idx ].p ) ) {\n\n\t\t\t\t\t\t\tif ( sIdx !== s2Idx )\ttoChange ++;\n\n\t\t\t\t\t\t\tif ( hole_unassigned ) {\n\n\t\t\t\t\t\t\t\thole_unassigned = false;\n\t\t\t\t\t\t\t\tbetterShapeHoles[ s2Idx ].push( ho );\n\n\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\tambiguous = true;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( hole_unassigned ) {\n\n\t\t\t\t\t\tbetterShapeHoles[ sIdx ].push( ho );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( toChange > 0 && ambiguous === false ) {\n\n\t\t\t\tnewShapeHoles = betterShapeHoles;\n\n\t\t\t}\n\n\t\t}\n\n\t\tlet tmpHoles;\n\n\t\tfor ( let i = 0, il = newShapes.length; i < il; i ++ ) {\n\n\t\t\ttmpShape = newShapes[ i ].s;\n\t\t\tshapes.push( tmpShape );\n\t\t\ttmpHoles = newShapeHoles[ i ];\n\n\t\t\tfor ( let j = 0, jl = tmpHoles.length; j < jl; j ++ ) {\n\n\t\t\t\ttmpShape.holes.push( tmpHoles[ j ].h );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//console.log(\"shape\", shapes);\n\n\t\treturn shapes;\n\n\t}\n\n}\n\n/**\n * Abstract base class for controls.\n *\n * @abstract\n * @augments EventDispatcher\n */\nclass Controls extends EventDispatcher {\n\n\t/**\n\t * Constructs a new controls instance.\n\t *\n\t * @param {Object3D} object - The object that is managed by the controls.\n\t * @param {?HTMLDOMElement} domElement - The HTML element used for event listeners.\n\t */\n\tconstructor( object, domElement = null ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The object that is managed by the controls.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.object = object;\n\n\t\t/**\n\t\t * The HTML element used for event listeners.\n\t\t *\n\t\t * @type {?HTMLDOMElement}\n\t\t * @default null\n\t\t */\n\t\tthis.domElement = domElement;\n\n\t\t/**\n\t\t * Whether the controls responds to user input or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.enabled = true;\n\n\t\t/**\n\t\t * The internal state of the controls.\n\t\t *\n\t\t * @type {number}\n\t\t * @default -1\n\t\t */\n\t\tthis.state = -1;\n\n\t\t/**\n\t\t * This object defines the keyboard input of the controls.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.keys = {};\n\n\t\t/**\n\t\t * This object defines what type of actions are assigned to the available mouse buttons.\n\t\t * It depends on the control implementation what kind of mouse buttons and actions are supported.\n\t\t *\n\t\t * @type {{LEFT: ?number, MIDDLE: ?number, RIGHT: ?number}}\n\t\t */\n\t\tthis.mouseButtons = { LEFT: null, MIDDLE: null, RIGHT: null };\n\n\t\t/**\n\t\t * This object defines what type of actions are assigned to what kind of touch interaction.\n\t\t * It depends on the control implementation what kind of touch interaction and actions are supported.\n\t\t *\n\t\t * @type {{ONE: ?number, TWO: ?number}}\n\t\t */\n\t\tthis.touches = { ONE: null, TWO: null };\n\n\t}\n\n\t/**\n\t * Connects the controls to the DOM. This method has so called \"side effects\" since\n\t * it adds the module's event listeners to the DOM.\n\t *\n\t * @param {HTMLDOMElement} element - The DOM element to connect to.\n\t */\n\tconnect( element ) {\n\n\t\tif ( element === undefined ) {\n\n\t\t\tconsole.warn( 'THREE.Controls: connect() now requires an element.' ); // @deprecated, the warning can be removed with r185\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.domElement !== null ) this.disconnect();\n\n\t\tthis.domElement = element;\n\n\t}\n\n\t/**\n\t * Disconnects the controls from the DOM.\n\t */\n\tdisconnect() {}\n\n\t/**\n\t * Call this method if you no longer want use to the controls. It frees all internal\n\t * resources and removes all event listeners.\n\t */\n\tdispose() {}\n\n\t/**\n\t * Controls should implement this method if they have to update their internal state\n\t * per simulation step.\n\t *\n\t * @param {number} [delta] - The time delta in seconds.\n\t */\n\tupdate( /* delta */ ) {}\n\n}\n\n/**\n * Scales the texture as large as possible within its surface without cropping\n * or stretching the texture. The method preserves the original aspect ratio of\n * the texture. Akin to CSS `object-fit: contain`\n *\n * @param {Texture} texture - The texture.\n * @param {number} aspect - The texture's aspect ratio.\n * @return {Texture} The updated texture.\n */\nfunction contain( texture, aspect ) {\n\n\tconst imageAspect = ( texture.image && texture.image.width ) ? texture.image.width / texture.image.height : 1;\n\n\tif ( imageAspect > aspect ) {\n\n\t\ttexture.repeat.x = 1;\n\t\ttexture.repeat.y = imageAspect / aspect;\n\n\t\ttexture.offset.x = 0;\n\t\ttexture.offset.y = ( 1 - texture.repeat.y ) / 2;\n\n\t} else {\n\n\t\ttexture.repeat.x = aspect / imageAspect;\n\t\ttexture.repeat.y = 1;\n\n\t\ttexture.offset.x = ( 1 - texture.repeat.x ) / 2;\n\t\ttexture.offset.y = 0;\n\n\t}\n\n\treturn texture;\n\n}\n\n/**\n * Scales the texture to the smallest possible size to fill the surface, leaving\n * no empty space. The method preserves the original aspect ratio of the texture.\n * Akin to CSS `object-fit: cover`.\n *\n * @param {Texture} texture - The texture.\n * @param {number} aspect - The texture's aspect ratio.\n * @return {Texture} The updated texture.\n */\nfunction cover( texture, aspect ) {\n\n\tconst imageAspect = ( texture.image && texture.image.width ) ? texture.image.width / texture.image.height : 1;\n\n\tif ( imageAspect > aspect ) {\n\n\t\ttexture.repeat.x = aspect / imageAspect;\n\t\ttexture.repeat.y = 1;\n\n\t\ttexture.offset.x = ( 1 - texture.repeat.x ) / 2;\n\t\ttexture.offset.y = 0;\n\n\t} else {\n\n\t\ttexture.repeat.x = 1;\n\t\ttexture.repeat.y = imageAspect / aspect;\n\n\t\ttexture.offset.x = 0;\n\t\ttexture.offset.y = ( 1 - texture.repeat.y ) / 2;\n\n\t}\n\n\treturn texture;\n\n}\n\n/**\n * Configures the texture to the default transformation. Akin to CSS `object-fit: fill`.\n *\n * @param {Texture} texture - The texture.\n * @return {Texture} The updated texture.\n */\nfunction fill( texture ) {\n\n\ttexture.repeat.x = 1;\n\ttexture.repeat.y = 1;\n\n\ttexture.offset.x = 0;\n\ttexture.offset.y = 0;\n\n\treturn texture;\n\n}\n\n/**\n * Determines how many bytes must be used to represent the texture.\n *\n * @param {number} width - The width of the texture.\n * @param {number} height - The height of the texture.\n * @param {number} format - The texture's format.\n * @param {number} type - The texture's type.\n * @return {number} The byte length.\n */\nfunction getByteLength( width, height, format, type ) {\n\n\tconst typeByteLength = getTextureTypeByteLength( type );\n\n\tswitch ( format ) {\n\n\t\t// https://registry.khronos.org/OpenGL-Refpages/es3.0/html/glTexImage2D.xhtml\n\t\tcase AlphaFormat:\n\t\t\treturn width * height;\n\t\tcase RedFormat:\n\t\t\treturn ( ( width * height ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RedIntegerFormat:\n\t\t\treturn ( ( width * height ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGFormat:\n\t\t\treturn ( ( width * height * 2 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGIntegerFormat:\n\t\t\treturn ( ( width * height * 2 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGBFormat:\n\t\t\treturn ( ( width * height * 3 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGBAFormat:\n\t\t\treturn ( ( width * height * 4 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGBAIntegerFormat:\n\t\t\treturn ( ( width * height * 4 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_s3tc_srgb/\n\t\tcase RGB_S3TC_DXT1_Format:\n\t\tcase RGBA_S3TC_DXT1_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 8;\n\t\tcase RGBA_S3TC_DXT3_Format:\n\t\tcase RGBA_S3TC_DXT5_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_pvrtc/\n\t\tcase RGB_PVRTC_2BPPV1_Format:\n\t\tcase RGBA_PVRTC_2BPPV1_Format:\n\t\t\treturn ( Math.max( width, 16 ) * Math.max( height, 8 ) ) / 4;\n\t\tcase RGB_PVRTC_4BPPV1_Format:\n\t\tcase RGBA_PVRTC_4BPPV1_Format:\n\t\t\treturn ( Math.max( width, 8 ) * Math.max( height, 8 ) ) / 2;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_etc/\n\t\tcase RGB_ETC1_Format:\n\t\tcase RGB_ETC2_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 8;\n\t\tcase RGBA_ETC2_EAC_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_astc/\n\t\tcase RGBA_ASTC_4x4_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\t\tcase RGBA_ASTC_5x4_Format:\n\t\t\treturn Math.floor( ( width + 4 ) / 5 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\t\tcase RGBA_ASTC_5x5_Format:\n\t\t\treturn Math.floor( ( width + 4 ) / 5 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_6x5_Format:\n\t\t\treturn Math.floor( ( width + 5 ) / 6 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_6x6_Format:\n\t\t\treturn Math.floor( ( width + 5 ) / 6 ) * Math.floor( ( height + 5 ) / 6 ) * 16;\n\t\tcase RGBA_ASTC_8x5_Format:\n\t\t\treturn Math.floor( ( width + 7 ) / 8 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_8x6_Format:\n\t\t\treturn Math.floor( ( width + 7 ) / 8 ) * Math.floor( ( height + 5 ) / 6 ) * 16;\n\t\tcase RGBA_ASTC_8x8_Format:\n\t\t\treturn Math.floor( ( width + 7 ) / 8 ) * Math.floor( ( height + 7 ) / 8 ) * 16;\n\t\tcase RGBA_ASTC_10x5_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_10x6_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 5 ) / 6 ) * 16;\n\t\tcase RGBA_ASTC_10x8_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 7 ) / 8 ) * 16;\n\t\tcase RGBA_ASTC_10x10_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 9 ) / 10 ) * 16;\n\t\tcase RGBA_ASTC_12x10_Format:\n\t\t\treturn Math.floor( ( width + 11 ) / 12 ) * Math.floor( ( height + 9 ) / 10 ) * 16;\n\t\tcase RGBA_ASTC_12x12_Format:\n\t\t\treturn Math.floor( ( width + 11 ) / 12 ) * Math.floor( ( height + 11 ) / 12 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/EXT_texture_compression_bptc/\n\t\tcase RGBA_BPTC_Format:\n\t\tcase RGB_BPTC_SIGNED_Format:\n\t\tcase RGB_BPTC_UNSIGNED_Format:\n\t\t\treturn Math.ceil( width / 4 ) * Math.ceil( height / 4 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/EXT_texture_compression_rgtc/\n\t\tcase RED_RGTC1_Format:\n\t\tcase SIGNED_RED_RGTC1_Format:\n\t\t\treturn Math.ceil( width / 4 ) * Math.ceil( height / 4 ) * 8;\n\t\tcase RED_GREEN_RGTC2_Format:\n\t\tcase SIGNED_RED_GREEN_RGTC2_Format:\n\t\t\treturn Math.ceil( width / 4 ) * Math.ceil( height / 4 ) * 16;\n\n\t}\n\n\tthrow new Error(\n\t\t`Unable to determine texture byte length for ${format} format.`,\n\t);\n\n}\n\nfunction getTextureTypeByteLength( type ) {\n\n\tswitch ( type ) {\n\n\t\tcase UnsignedByteType:\n\t\tcase ByteType:\n\t\t\treturn { byteLength: 1, components: 1 };\n\t\tcase UnsignedShortType:\n\t\tcase ShortType:\n\t\tcase HalfFloatType:\n\t\t\treturn { byteLength: 2, components: 1 };\n\t\tcase UnsignedShort4444Type:\n\t\tcase UnsignedShort5551Type:\n\t\t\treturn { byteLength: 2, components: 4 };\n\t\tcase UnsignedIntType:\n\t\tcase IntType:\n\t\tcase FloatType:\n\t\t\treturn { byteLength: 4, components: 1 };\n\t\tcase UnsignedInt5999Type:\n\t\tcase UnsignedInt101111Type:\n\t\t\treturn { byteLength: 4, components: 3 };\n\n\t}\n\n\tthrow new Error( `Unknown texture type ${type}.` );\n\n}\n\n/**\n * A class containing utility functions for textures.\n *\n * @hideconstructor\n */\nclass TextureUtils {\n\n\t/**\n\t * Scales the texture as large as possible within its surface without cropping\n\t * or stretching the texture. The method preserves the original aspect ratio of\n\t * the texture. Akin to CSS `object-fit: contain`\n\t *\n\t * @param {Texture} texture - The texture.\n\t * @param {number} aspect - The texture's aspect ratio.\n\t * @return {Texture} The updated texture.\n\t */\n\tstatic contain( texture, aspect ) {\n\n\t\treturn contain( texture, aspect );\n\n\t}\n\n\t/**\n\t * Scales the texture to the smallest possible size to fill the surface, leaving\n\t * no empty space. The method preserves the original aspect ratio of the texture.\n\t * Akin to CSS `object-fit: cover`.\n\t *\n\t * @param {Texture} texture - The texture.\n\t * @param {number} aspect - The texture's aspect ratio.\n\t * @return {Texture} The updated texture.\n\t */\n\tstatic cover( texture, aspect ) {\n\n\t\treturn cover( texture, aspect );\n\n\t}\n\n\t/**\n\t * Configures the texture to the default transformation. Akin to CSS `object-fit: fill`.\n\t *\n\t * @param {Texture} texture - The texture.\n\t * @return {Texture} The updated texture.\n\t */\n\tstatic fill( texture ) {\n\n\t\treturn fill( texture );\n\n\t}\n\n\t/**\n\t * Determines how many bytes must be used to represent the texture.\n\t *\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} format - The texture's format.\n\t * @param {number} type - The texture's type.\n\t * @return {number} The byte length.\n\t */\n\tstatic getByteLength( width, height, format, type ) {\n\n\t\treturn getByteLength( width, height, format, type );\n\n\t}\n\n}\n\nif ( typeof __THREE_DEVTOOLS__ !== 'undefined' ) {\n\n\t__THREE_DEVTOOLS__.dispatchEvent( new CustomEvent( 'register', { detail: {\n\t\trevision: REVISION,\n\t} } ) );\n\n}\n\nif ( typeof window !== 'undefined' ) {\n\n\tif ( window.__THREE__ ) {\n\n\t\tconsole.warn( 'WARNING: Multiple instances of Three.js being imported.' );\n\n\t} else {\n\n\t\twindow.__THREE__ = REVISION;\n\n\t}\n\n}\n\nexport { ACESFilmicToneMapping, AddEquation, AddOperation, AdditiveAnimationBlendMode, AdditiveBlending, AgXToneMapping, AlphaFormat, AlwaysCompare, AlwaysDepth, AlwaysStencilFunc, AmbientLight, AnimationAction, AnimationClip, AnimationLoader, AnimationMixer, AnimationObjectGroup, AnimationUtils, ArcCurve, ArrayCamera, ArrowHelper, AttachedBindMode, Audio, AudioAnalyser, AudioContext, AudioListener, AudioLoader, AxesHelper, BackSide, BasicDepthPacking, BasicShadowMap, BatchedMesh, Bone, BooleanKeyframeTrack, Box2, Box3, Box3Helper, BoxGeometry, BoxHelper, BufferAttribute, BufferGeometry, BufferGeometryLoader, ByteType, Cache, Camera, CameraHelper, CanvasTexture, CapsuleGeometry, CatmullRomCurve3, CineonToneMapping, CircleGeometry, ClampToEdgeWrapping, Clock, Color, ColorKeyframeTrack, ColorManagement, CompressedArrayTexture, CompressedCubeTexture, CompressedTexture, CompressedTextureLoader, ConeGeometry, ConstantAlphaFactor, ConstantColorFactor, Controls, CubeCamera, CubeReflectionMapping, CubeRefractionMapping, CubeTexture, CubeTextureLoader, CubeUVReflectionMapping, CubicBezierCurve, CubicBezierCurve3, CubicInterpolant, CullFaceBack, CullFaceFront, CullFaceFrontBack, CullFaceNone, Curve, CurvePath, CustomBlending, CustomToneMapping, CylinderGeometry, Cylindrical, Data3DTexture, DataArrayTexture, DataTexture, DataTextureLoader, DataUtils, DecrementStencilOp, DecrementWrapStencilOp, DefaultLoadingManager, DepthFormat, DepthStencilFormat, DepthTexture, DetachedBindMode, DirectionalLight, DirectionalLightHelper, DiscreteInterpolant, DodecahedronGeometry, DoubleSide, DstAlphaFactor, DstColorFactor, DynamicCopyUsage, DynamicDrawUsage, DynamicReadUsage, EdgesGeometry, EllipseCurve, EqualCompare, EqualDepth, EqualStencilFunc, EquirectangularReflectionMapping, EquirectangularRefractionMapping, Euler, EventDispatcher, ExternalTexture, ExtrudeGeometry, FileLoader, Float16BufferAttribute, Float32BufferAttribute, FloatType, Fog, FogExp2, FramebufferTexture, FrontSide, Frustum, FrustumArray, GLBufferAttribute, GLSL1, GLSL3, GreaterCompare, GreaterDepth, GreaterEqualCompare, GreaterEqualDepth, GreaterEqualStencilFunc, GreaterStencilFunc, GridHelper, Group, HalfFloatType, HemisphereLight, HemisphereLightHelper, IcosahedronGeometry, ImageBitmapLoader, ImageLoader, ImageUtils, IncrementStencilOp, IncrementWrapStencilOp, InstancedBufferAttribute, InstancedBufferGeometry, InstancedInterleavedBuffer, InstancedMesh, Int16BufferAttribute, Int32BufferAttribute, Int8BufferAttribute, IntType, InterleavedBuffer, InterleavedBufferAttribute, Interpolant, InterpolateDiscrete, InterpolateLinear, InterpolateSmooth, InterpolationSamplingMode, InterpolationSamplingType, InvertStencilOp, KeepStencilOp, KeyframeTrack, LOD, LatheGeometry, Layers, LessCompare, LessDepth, LessEqualCompare, LessEqualDepth, LessEqualStencilFunc, LessStencilFunc, Light, LightProbe, Line, Line3, LineBasicMaterial, LineCurve, LineCurve3, LineDashedMaterial, LineLoop, LineSegments, LinearFilter, LinearInterpolant, LinearMipMapLinearFilter, LinearMipMapNearestFilter, LinearMipmapLinearFilter, LinearMipmapNearestFilter, LinearSRGBColorSpace, LinearToneMapping, LinearTransfer, Loader, LoaderUtils, LoadingManager, LoopOnce, LoopPingPong, LoopRepeat, MOUSE, Material, MaterialLoader, MathUtils, Matrix2, Matrix3, Matrix4, MaxEquation, Mesh, MeshBasicMaterial, MeshDepthMaterial, MeshDistanceMaterial, MeshLambertMaterial, MeshMatcapMaterial, MeshNormalMaterial, MeshPhongMaterial, MeshPhysicalMaterial, MeshStandardMaterial, MeshToonMaterial, MinEquation, MirroredRepeatWrapping, MixOperation, MultiplyBlending, MultiplyOperation, NearestFilter, NearestMipMapLinearFilter, NearestMipMapNearestFilter, NearestMipmapLinearFilter, NearestMipmapNearestFilter, NeutralToneMapping, NeverCompare, NeverDepth, NeverStencilFunc, NoBlending, NoColorSpace, NoToneMapping, NormalAnimationBlendMode, NormalBlending, NotEqualCompare, NotEqualDepth, NotEqualStencilFunc, NumberKeyframeTrack, Object3D, ObjectLoader, ObjectSpaceNormalMap, OctahedronGeometry, OneFactor, OneMinusConstantAlphaFactor, OneMinusConstantColorFactor, OneMinusDstAlphaFactor, OneMinusDstColorFactor, OneMinusSrcAlphaFactor, OneMinusSrcColorFactor, OrthographicCamera, PCFShadowMap, PCFSoftShadowMap, Path, PerspectiveCamera, Plane, PlaneGeometry, PlaneHelper, PointLight, PointLightHelper, Points, PointsMaterial, PolarGridHelper, PolyhedronGeometry, PositionalAudio, PropertyBinding, PropertyMixer, QuadraticBezierCurve, QuadraticBezierCurve3, Quaternion, QuaternionKeyframeTrack, QuaternionLinearInterpolant, RAD2DEG, RED_GREEN_RGTC2_Format, RED_RGTC1_Format, REVISION, RGBADepthPacking, RGBAFormat, RGBAIntegerFormat, RGBA_ASTC_10x10_Format, RGBA_ASTC_10x5_Format, RGBA_ASTC_10x6_Format, RGBA_ASTC_10x8_Format, RGBA_ASTC_12x10_Format, RGBA_ASTC_12x12_Format, RGBA_ASTC_4x4_Format, RGBA_ASTC_5x4_Format, RGBA_ASTC_5x5_Format, RGBA_ASTC_6x5_Format, RGBA_ASTC_6x6_Format, RGBA_ASTC_8x5_Format, RGBA_ASTC_8x6_Format, RGBA_ASTC_8x8_Format, RGBA_BPTC_Format, RGBA_ETC2_EAC_Format, RGBA_PVRTC_2BPPV1_Format, RGBA_PVRTC_4BPPV1_Format, RGBA_S3TC_DXT1_Format, RGBA_S3TC_DXT3_Format, RGBA_S3TC_DXT5_Format, RGBDepthPacking, RGBFormat, RGBIntegerFormat, RGB_BPTC_SIGNED_Format, RGB_BPTC_UNSIGNED_Format, RGB_ETC1_Format, RGB_ETC2_Format, RGB_PVRTC_2BPPV1_Format, RGB_PVRTC_4BPPV1_Format, RGB_S3TC_DXT1_Format, RGDepthPacking, RGFormat, RGIntegerFormat, RawShaderMaterial, Ray, Raycaster, RectAreaLight, RedFormat, RedIntegerFormat, ReinhardToneMapping, RenderTarget, RenderTarget3D, RepeatWrapping, ReplaceStencilOp, ReverseSubtractEquation, RingGeometry, SIGNED_RED_GREEN_RGTC2_Format, SIGNED_RED_RGTC1_Format, SRGBColorSpace, SRGBTransfer, Scene, ShaderMaterial, ShadowMaterial, Shape, ShapeGeometry, ShapePath, ShapeUtils, ShortType, Skeleton, SkeletonHelper, SkinnedMesh, Source, Sphere, SphereGeometry, Spherical, SphericalHarmonics3, SplineCurve, SpotLight, SpotLightHelper, Sprite, SpriteMaterial, SrcAlphaFactor, SrcAlphaSaturateFactor, SrcColorFactor, StaticCopyUsage, StaticDrawUsage, StaticReadUsage, StereoCamera, StreamCopyUsage, StreamDrawUsage, StreamReadUsage, StringKeyframeTrack, SubtractEquation, SubtractiveBlending, TOUCH, TangentSpaceNormalMap, TetrahedronGeometry, Texture, TextureLoader, TextureUtils, Timer, TimestampQuery, TorusGeometry, TorusKnotGeometry, Triangle, TriangleFanDrawMode, TriangleStripDrawMode, TrianglesDrawMode, TubeGeometry, UVMapping, Uint16BufferAttribute, Uint32BufferAttribute, Uint8BufferAttribute, Uint8ClampedBufferAttribute, Uniform, UniformsGroup, UniformsUtils, UnsignedByteType, UnsignedInt101111Type, UnsignedInt248Type, UnsignedInt5999Type, UnsignedIntType, UnsignedShort4444Type, UnsignedShort5551Type, UnsignedShortType, VSMShadowMap, Vector2, Vector3, Vector4, VectorKeyframeTrack, VideoFrameTexture, VideoTexture, WebGL3DRenderTarget, WebGLArrayRenderTarget, WebGLCoordinateSystem, WebGLCubeRenderTarget, WebGLRenderTarget, WebGPUCoordinateSystem, WebXRController, WireframeGeometry, WrapAroundEnding, ZeroCurvatureEnding, ZeroFactor, ZeroSlopeEnding, ZeroStencilOp, arrayNeedsUint32, cloneUniforms, createCanvasElement, createElementNS, getByteLength, getUnlitUniformColorSpace, mergeUniforms, probeAsync, warnOnce };\n","// LN_SCALE_MIN..LN_SCALE_MAX define the internal scale range of for Gsplats,\n// covering approx 0.0001..8000 in range with discrete steps 7% apart.\n// The value \"0\" is reserved for truly flat scales, indicating a 2DGS.\n// If these values are changed, the corresponding values in splatDefines.glsl\n// must also be updated to match.\n\nexport const LN_SCALE_MIN = -12.0;\nexport const LN_SCALE_MAX = 9.0;\nexport const SCALE_MIN = Math.exp(LN_SCALE_MIN);\nexport const SCALE_MAX = Math.exp(LN_SCALE_MAX);\n\nexport const LN_SCALE_ZERO = -30.0;\nexport const SCALE_ZERO = Math.exp(LN_SCALE_ZERO);\n\n// Gsplats are stored in textures that are 2^11 x 2^11 x up to 2^11\n// Most WebGL2 implementations support 2D textures up to 2^12 x 2^12 (max 16M Gsplats)\n// 2D array textures and 3D textures up to 2^11 x 2^11 x 2^11 (max 8G Gsplats),\n// so we use 2D array textures for our representation for higher limits.\n\nexport const SPLAT_TEX_WIDTH_BITS = 11;\nexport const SPLAT_TEX_HEIGHT_BITS = 11;\nexport const SPLAT_TEX_DEPTH_BITS = 11;\nexport const SPLAT_TEX_LAYER_BITS =\n SPLAT_TEX_WIDTH_BITS + SPLAT_TEX_HEIGHT_BITS;\n\nexport const SPLAT_TEX_WIDTH = 1 << SPLAT_TEX_WIDTH_BITS; // 2048\nexport const SPLAT_TEX_HEIGHT = 1 << SPLAT_TEX_HEIGHT_BITS; // 2048\nexport const SPLAT_TEX_DEPTH = 1 << SPLAT_TEX_DEPTH_BITS; // 2048\nexport const SPLAT_TEX_MIN_HEIGHT = 1;\n\nexport const SPLAT_TEX_WIDTH_MASK = SPLAT_TEX_WIDTH - 1;\nexport const SPLAT_TEX_HEIGHT_MASK = SPLAT_TEX_HEIGHT - 1;\nexport const SPLAT_TEX_DEPTH_MASK = SPLAT_TEX_DEPTH - 1;\n\n// Enable/disable Gsplat sorting via Rust WASM code. In testing the sorting\n// time between pure JS and WASM are minimal and don't make a big difference.\n\nexport const WASM_SPLAT_SORT = true;\n\n// Enable/disable compiling a dedicated parse function per element type\n// in the plyReader.\n\nexport const USE_COMPILED_PARSER_FUNCTION = true;\n\nexport enum SplatFileType {\n PLY = \"ply\",\n SPZ = \"spz\",\n SPLAT = \"splat\",\n KSPLAT = \"ksplat\",\n PCSOGS = \"pcsogs\",\n PCSOGSZIP = \"pcsogszip\",\n RAD = \"rad\",\n}\n\nexport type SplatEncoding = {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n sh1Max?: number;\n sh2Max?: number;\n sh3Max?: number;\n lodOpacity?: boolean;\n};\n\nexport const DEFAULT_SPLAT_ENCODING: SplatEncoding = {\n rgbMin: 0,\n rgbMax: 1,\n lnScaleMin: LN_SCALE_MIN,\n lnScaleMax: LN_SCALE_MAX,\n sh1Max: 1,\n sh2Max: 1,\n sh3Max: 1,\n lodOpacity: false,\n};\n\nexport type RadMeta = {\n version: number;\n type: string;\n count: number;\n maxSh?: number;\n lodTree?: boolean;\n chunkSize?: number;\n chunks: {\n offset: number;\n bytes: number;\n base?: number;\n count?: number;\n filename?: string;\n }[];\n splatEncoding?: SplatEncoding;\n};\n\nexport type PackedExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type PackedResult = {\n numSplats: number;\n packedArray: Uint32Array;\n extra: PackedExtra;\n splatEncoding: SplatEncoding;\n};\n\nexport type ExtExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3a?: Uint32Array;\n sh3b?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: [Uint32Array, Uint32Array];\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type ExtResult = {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: ExtExtra;\n};\n","import type { IUniform } from \"three\";\nimport type { DynoType } from \"./types\";\nimport {\n DynoLiteral,\n DynoOutput,\n type DynoVal,\n DynoValue,\n type HasDynoOut,\n valType,\n} from \"./value\";\n\nconst DEFAULT_INDENT = \" \";\n\nexport class Compilation {\n globals: Set = new Set();\n statements: string[] = [];\n uniforms: Record = {};\n declares: Set = new Set();\n updaters: (() => void)[] = [];\n sequence = 0;\n indent: string = DEFAULT_INDENT;\n\n constructor({ indent }: { indent?: string } = {}) {\n this.indent = indent ?? DEFAULT_INDENT;\n }\n\n nextSequence() {\n return this.sequence++;\n }\n}\n\nexport type IOTypes = Record;\ntype GenerateContext = {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n};\n\nexport class Dyno {\n inTypes: InTypes;\n outTypes: OutTypes;\n\n inputs: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n }) {\n this.inTypes = inTypes ?? ({} as InTypes);\n this.outTypes = outTypes ?? ({} as OutTypes);\n this.inputs = inputs ?? {};\n this.update = update;\n\n this.globals = globals;\n this.statements = statements;\n this.generate =\n generate ??\n (({ inputs, outputs, compile }) => {\n return {\n globals: this.globals?.({ inputs, outputs, compile }),\n statements: this.statements?.({ inputs, outputs, compile }),\n };\n });\n }\n\n get outputs(): { [K in keyof OutTypes]: DynoVal } {\n const outputs = {} as { [K in keyof OutTypes]: DynoVal };\n for (const key in this.outTypes) {\n outputs[key] = new DynoOutput(this, key);\n }\n return outputs;\n }\n\n apply(inputs: { [K in keyof InTypes]?: DynoVal }): {\n [K in keyof OutTypes]: DynoVal;\n } {\n Object.assign(this.inputs, inputs);\n return this.outputs;\n }\n\n compile({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }): string[] {\n const result = [\n `// ${this.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`,\n ];\n\n const declares: (keyof OutTypes)[] = [];\n for (const key in outputs) {\n const name = outputs[key];\n if (name && !compile.declares.has(name)) {\n compile.declares.add(name);\n declares.push(key);\n }\n }\n\n const { globals, statements, uniforms } = this.generate({\n inputs,\n outputs,\n compile,\n });\n for (const global of globals ?? []) {\n compile.globals.add(global);\n }\n for (const key in uniforms) {\n compile.uniforms[key] = uniforms[key];\n }\n if (this.update) {\n compile.updaters.push(this.update);\n }\n\n for (const key of declares) {\n const name = outputs[key];\n if (name) {\n if (!compile.uniforms[name]) {\n result.push(`${dynoDeclare(name, this.outTypes[key])};`);\n }\n }\n }\n\n if (statements?.length) {\n result.push(\"{\");\n result.push(...statements.map((line) => compile.indent + line));\n result.push(\"}\");\n }\n return result;\n }\n}\n\nexport type DynoBlockType = (\n inputs: { [K in keyof InTypes]?: DynoVal },\n outputs: { [K in keyof OutTypes]?: DynoVal },\n { roots }: { roots: Dyno[] },\n) => { [K in keyof OutTypes]?: DynoVal } | undefined;\n\nexport class DynoBlock<\n InTypes extends IOTypes,\n OutTypes extends IOTypes,\n> extends Dyno {\n construct: DynoBlockType;\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n construct,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n construct: DynoBlockType;\n }) {\n super({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n generate: (args) => this.generateBlock(args),\n });\n this.construct = construct;\n }\n\n generateBlock({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }) {\n const blockInputs: { [K in keyof InTypes]?: DynoVal } = {};\n const blockOutputs: { [K in keyof OutTypes]?: DynoVal } = {};\n\n for (const key in inputs) {\n if (inputs[key] != null) {\n blockInputs[key] = new DynoLiteral(this.inTypes[key], inputs[key]);\n }\n }\n for (const key in outputs) {\n if (outputs[key] != null) {\n blockOutputs[key] = new DynoValue(this.outTypes[key]);\n }\n }\n\n const options: { roots: Dyno[] } = { roots: [] };\n const returned = this.construct(blockInputs, blockOutputs, options);\n\n for (const global of this.globals?.({ inputs, outputs, compile }) ?? []) {\n compile.globals.add(global);\n }\n\n const ordering: Dyno[] = [];\n const nodeOuts = new Map<\n Dyno,\n { sequence: number; outNames: Map; newOuts: Set }\n >();\n\n function visit(\n node: Dyno,\n outKey?: string,\n outName?: string,\n ) {\n let outs = nodeOuts.get(node);\n if (!outs) {\n // First time visiting this node\n outs = {\n sequence: compile.nextSequence(),\n outNames: new Map(),\n newOuts: new Set(),\n };\n nodeOuts.set(node, outs);\n\n for (const key in node.inputs) {\n let input = node.inputs[key];\n while (input) {\n if (input instanceof DynoValue) {\n if (input instanceof DynoOutput) {\n visit(input.dyno, input.key);\n }\n break;\n }\n // Must be as HasDynoOut\n if (typeof input.dynoOut !== \"function\") {\n throw new Error(\n `dynoOut is not a function for ${input.constructor.name}`,\n );\n }\n input = input.dynoOut();\n }\n }\n ordering.push(node);\n }\n if (outKey) {\n if (!outName) {\n outs.newOuts.add(outKey);\n }\n outs.outNames.set(outKey, outName ?? `${outKey}_${outs.sequence}`);\n }\n }\n\n for (const root of options.roots) {\n visit(root);\n }\n\n for (const key in blockOutputs) {\n let value = returned?.[key] ?? blockOutputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoOutput) {\n visit(value.dyno, value.key, outputs[key]);\n }\n break;\n }\n // Must be as HasDynoOut\n value = value.dynoOut();\n }\n blockOutputs[key] = value;\n }\n\n const steps = [];\n\n for (const dyno of ordering) {\n // compile.statements.push(`// ${dyno.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`);\n\n const inputs: Record = {};\n const outputs: Record = {};\n\n for (const key in dyno.inputs) {\n let value = dyno.inputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoLiteral) {\n inputs[key] = value.getLiteral();\n } else if (value instanceof DynoOutput) {\n const source = nodeOuts.get(value.dyno)?.outNames.get(value.key);\n if (!source) {\n throw new Error(\n `Source not found for ${value.dyno.constructor.name}.${value.key}`,\n );\n }\n inputs[key] = source;\n }\n break;\n }\n // Must be as HasDynOut\n value = value.dynoOut();\n }\n }\n\n const outs = nodeOuts.get(dyno) ?? { outNames: new Map() };\n for (const [key, name] of outs.outNames.entries()) {\n outputs[key] = name;\n }\n\n const newSteps = dyno.compile({ inputs, outputs, compile });\n steps.push(newSteps);\n }\n\n const literalOutputs = [];\n for (const key in outputs) {\n if (blockOutputs[key] instanceof DynoLiteral) {\n literalOutputs.push(\n `${outputs[key]} = ${blockOutputs[key].getLiteral()};`,\n );\n }\n }\n if (literalOutputs.length > 0) {\n steps.push(literalOutputs);\n }\n\n const statements = steps.flatMap((step, index) => {\n // Add a blank line between steps\n return index === 0 ? step : [\"\", ...step];\n });\n return { statements };\n }\n}\n\nexport function dynoBlock<\n InTypes extends Record,\n OutTypes extends Record,\n>(\n inTypes: InTypes,\n outTypes: OutTypes,\n construct: DynoBlockType,\n { update, globals }: { update?: () => void; globals?: () => string[] } = {},\n) {\n return new DynoBlock({ inTypes, outTypes, construct, update, globals });\n}\n\nexport function dyno<\n InTypes extends Record,\n OutTypes extends Record,\n>({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n}: {\n inTypes: InTypes;\n outTypes: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n}) {\n return new Dyno({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n });\n}\n\nexport function dynoDeclare(name: string, type: DynoType, count?: number) {\n const typeStr = typeof type === \"string\" ? type : type.type;\n if (!typeStr) {\n throw new Error(`Invalid DynoType: ${String(type)}`);\n }\n return `${typeStr} ${name}${count != null ? `[${count}]` : \"\"}`;\n}\n\nexport function unindentLines(s: string): string[] {\n let seenNonEmpty = false;\n const lines = s\n .split(\"\\n\")\n .map((line) => {\n const trimmedLine = line.trimEnd();\n if (seenNonEmpty) {\n return trimmedLine;\n }\n if (trimmedLine.length > 0) {\n seenNonEmpty = true;\n return trimmedLine;\n }\n return null;\n })\n .filter((line) => line != null);\n while (lines.length > 0 && lines[lines.length - 1].length === 0) {\n lines.pop();\n }\n if (lines.length === 0) {\n return [];\n }\n\n const indent = lines[0].match(/^\\s*/)?.[0];\n if (!indent) {\n return lines; // No indent, return as is\n }\n // Remove indent from the beginning of each line\n const regex = new RegExp(`^${indent}`);\n return lines.map((line) => line.replace(regex, \"\"));\n}\n\nexport function unindent(s: string): string {\n return unindentLines(s).join(\"\\n\");\n}\n\nexport class UnaryOp<\n A extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n outKey,\n outTypeFunc,\n }: { a: DynoVal; outKey: OutKey; outTypeFunc: (aType: A) => OutType }) {\n const inTypes = { a: valType(a) };\n const outType = outTypeFunc(valType(a));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class BinaryOp<\n A extends DynoType,\n B extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b) };\n const outType = outTypeFunc(valType(a), valType(b));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class TrinaryOp<\n A extends DynoType,\n B extends DynoType,\n C extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B; c: C }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n c,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n c: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B, cType: C) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b), c: valType(c) };\n const outType = outTypeFunc(valType(a), valType(b), valType(c));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b, c } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n","import { Gunzip } from \"fflate\";\nimport * as THREE from \"three\";\n\n// Miscellaneous utility functions for Spark\n\nimport {\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SCALE_ZERO,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_MIN_HEIGHT,\n SPLAT_TEX_WIDTH,\n} from \"./defines.js\";\nimport { unindent } from \"./dyno/base.js\";\n\nexport const threeRevision = Number.parseInt(THREE.REVISION);\nexport const threeMrtArray = threeRevision >= 179;\n\nconst f32buffer = new Float32Array(1);\nconst u32buffer = new Uint32Array(f32buffer.buffer);\nconst supportsFloat16Array = \"Float16Array\" in globalThis;\nconst f16buffer = supportsFloat16Array\n ? new globalThis[\"Float16Array\" as keyof typeof globalThis](1)\n : null;\nconst u16buffer = new Uint16Array(f16buffer?.buffer);\n\n// Returns a normalized array of numbers\nexport function normalize(vec: number[]) {\n const norm = Math.sqrt(vec.reduce((acc, v) => acc + v * v, 0));\n return vec.map((v) => v / norm);\n}\n\n// Reinterpret the bits of a float32 as a uint32\nexport function floatBitsToUint(f: number): number {\n f32buffer[0] = f;\n return u32buffer[0];\n}\n\n// Reinterpret the bits of a uint32 as a float32\nexport function uintBitsToFloat(u: number): number {\n u32buffer[0] = u;\n return f32buffer[0];\n}\n\nexport const toHalf = supportsFloat16Array ? toHalfNative : toHalfJS;\nexport const fromHalf = supportsFloat16Array ? fromHalfNative : fromHalfJS;\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfNative(f: number): number {\n f16buffer[0] = f;\n return u16buffer[0];\n}\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfJS(f: number): number {\n // Store the value into the shared Float32 array.\n f32buffer[0] = f;\n const bits = u32buffer[0];\n\n // Extract sign (1 bit), exponent (8 bits), and fraction (23 bits)\n const sign = (bits >> 31) & 0x1;\n const exp = (bits >> 23) & 0xff;\n const frac = bits & 0x7fffff;\n const halfSign = sign << 15;\n\n // Handle special cases: NaN and Infinity\n if (exp === 0xff) {\n // NaN: set all exponent bits to 1 and some nonzero fraction bits.\n if (frac !== 0) {\n return halfSign | 0x7fff;\n }\n // Infinity\n return halfSign | 0x7c00;\n }\n\n // Adjust the exponent from float32 bias (127) to float16 bias (15)\n const newExp = exp - 127 + 15;\n\n // Handle overflow: too large to represent in half precision.\n if (newExp >= 0x1f) {\n return halfSign | 0x7c00; // Infinity\n }\n if (newExp <= 0) {\n // Handle subnormals and underflow.\n if (newExp < -10) {\n // Too small: underflows to zero.\n return halfSign;\n }\n // Convert to subnormal: add the implicit leading 1 to the fraction,\n // then shift to align with the half-precision's 10 fraction bits.\n const subFrac = (frac | 0x800000) >> (1 - newExp + 13);\n return halfSign | subFrac;\n }\n\n // Normalized half-precision number: shift fraction to fit into 10 bits.\n const halfFrac = frac >> 13;\n return halfSign | (newExp << 10) | halfFrac;\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfNative(u: number): number {\n u16buffer[0] = u;\n return f16buffer[0];\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfJS(h: number): number {\n // Extract the sign (1 bit), exponent (5 bits), and fraction (10 bits)\n const sign = (h >> 15) & 0x1;\n const exp = (h >> 10) & 0x1f;\n const frac = h & 0x3ff;\n\n let f32bits: number;\n\n if (exp === 0) {\n if (frac === 0) {\n // Zero (positive or negative)\n f32bits = sign << 31;\n } else {\n // Subnormal half-precision number.\n // Normalize the subnormal number:\n let mant = frac;\n let e = -14; // For half, the exponent for subnormals is fixed at -14.\n // Shift left until the implicit leading 1 is in place.\n while ((mant & 0x400) === 0) {\n // 0x400 === 1 << 10\n mant <<= 1;\n e--;\n }\n // Remove the leading 1 (which is now implicit)\n mant &= 0x3ff;\n // Convert the half exponent (e) to the 32-bit float exponent:\n const newExp = e + 127; // 32-bit float bias is 127.\n const newFrac = mant << 13; // Align to 23-bit fraction (23 - 10 = 13)\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n } else if (exp === 0x1f) {\n // Handle special cases for Infinity and NaN.\n if (frac === 0) {\n // Infinity\n f32bits = (sign << 31) | 0x7f800000;\n } else {\n // NaN (we choose a quiet NaN)\n f32bits = (sign << 31) | 0x7fc00000;\n }\n } else {\n // Normalized half-precision number.\n // Adjust exponent from half (bias 15) to float32 (bias 127)\n const newExp = exp - 15 + 127;\n const newFrac = frac << 13;\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n\n // Write the 32-bit bit pattern to the shared buffer,\n // then read it as a float32 to return a JavaScript number.\n u32buffer[0] = f32bits;\n return f32buffer[0];\n}\n\n// Convert a number 0..1 to a 0..255 uint\nexport function floatToUint8(v: number): number {\n // Converts from 0..1 float to 0..255 uint8\n return Math.max(0, Math.min(255, Math.round(v * 255)));\n}\n\n// Convert a number -1..1 to a -127..127 int\nexport function floatToSint8(v: number): number {\n // Converts from -1..1 float to -127..127 int8\n return Math.max(-127, Math.min(127, Math.round(v * 127)));\n}\n\n// Convert a 0..255 uint to a 0..1 float\nexport function Uint8ToFloat(v: number): number {\n // Converts from 0..255 uint8 to 0..1 float\n return v / 255;\n}\n\n// Convert a -127..127 int to a -1..1 float\nexport function Sint8ToFloat(v: number): number {\n // Converts from -127..127 int8 to -1..1 float\n return v / 127;\n}\n\n// A simple utility class for caching a fixed number of items\nexport class DataCache {\n // Maximum number of items to cache\n maxItems: number;\n\n // Function to fetch data for a key\n asyncFetch: (key: string) => Promise;\n\n // Function to dispose of data when it is no longer needed\n dispose?: (data: unknown) => void;\n\n // Array of cached items\n items: { key: string; data: unknown }[];\n\n // In-progress fetch promises\n pending: Map>;\n\n // Create a DataCache with a given function that fetches data not in the cache.\n constructor({\n asyncFetch,\n dispose,\n maxItems = 5,\n }: {\n asyncFetch: (key: string) => Promise;\n dispose?: (data: unknown) => void;\n maxItems?: number;\n }) {\n this.asyncFetch = asyncFetch;\n this.dispose = dispose;\n this.maxItems = maxItems;\n this.items = [];\n this.pending = new Map();\n }\n\n has(key: string): boolean {\n return this.items.some((item) => item.key === key);\n }\n\n getImmediate(key: string): unknown | undefined {\n const index = this.items.findIndex((item) => item.key === key);\n if (index >= 0) {\n // Data exists in our cache, move it to the end of the array\n const item = this.items.splice(index, 1)[0];\n this.items.push(item);\n // Return the cached data\n return item.data;\n }\n return undefined;\n }\n\n // Fetch data for the key, returning cached data if available.\n async getFetch(key: string): Promise {\n const immediate = this.getImmediate(key);\n if (immediate !== undefined) {\n return immediate;\n }\n\n let pending = this.pending.get(key);\n if (pending) {\n return pending;\n }\n\n pending = this.asyncFetch(key).then((data) => {\n this.pending.delete(key);\n\n // Add the data to the cache\n this.items.push({ key, data });\n // If the cache is too large, remove the oldest accessed item\n while (this.items.length > this.maxItems) {\n const removed = this.items.shift();\n if (removed && this.dispose) {\n this.dispose(removed.data);\n }\n }\n // Return the fetched data\n return data;\n });\n this.pending.set(key, pending);\n return pending;\n }\n}\n\n// Like Array.map but for objects\nexport function mapObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n const entries = Object.entries(obj).map(([key, value]) => [\n key,\n fn(value, key),\n ]);\n // Returns a new object with the mapped values\n return Object.fromEntries(entries);\n}\n\n// Like Array.map().filter() but for objects.\n// The callback fn() should return undefined to filter out the key.\nexport function mapFilterObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n // If no return (or return undefined), the key is not included in the result\n const entries = Object.entries(obj)\n .map(([key, value]) => [key, fn(value, key)])\n .filter(([_, value]) => value !== undefined);\n // Returns a new object with the filtered values\n return Object.fromEntries(entries);\n}\n\n// Recursively finds all ArrayBuffers in an object and returns them as an array\n// to use as transferable objects to send between workers.\nexport function getTransferable(ctx: unknown): Transferable[] {\n const buffers: Transferable[] = [];\n const seen = new Set();\n\n function traverse(obj: unknown) {\n if (obj && typeof obj === \"object\" && !seen.has(obj)) {\n seen.add(obj);\n\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n // Handles TypedArrays and DataView\n buffers.push(obj.buffer as ArrayBuffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n\n traverse(ctx);\n return buffers;\n}\n\n// Create an array of the given size and initialize element with initFunction()\nexport function newArray(\n n: number,\n initFunction: (index: number) => T,\n): T[] {\n // Creates a new array and calls a constructor function for each element with index\n return new Array(n).fill(null).map((_, i) => initFunction(i));\n}\n\n// A free list that has a pool of items of type T, with callbacks\n// for constructing, disposing, and checking if an item is valid for the given args.\nexport class FreeList {\n items: T[];\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n\n constructor({\n // Allocate a new item with the given args\n allocate,\n // Dispose of an item (optional, if GC is enough)\n dispose,\n // Check if an existing item in the list is valid for the given args,\n // allowing you to store heterogeneous items in the list.\n valid,\n }: {\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n }) {\n this.items = [];\n this.allocate = allocate;\n this.dispose = dispose;\n this.valid = valid;\n }\n\n // Allocate a new item from the free list, first checking if a existing item\n // on the freelist is valid for the given args.\n alloc(args: Args): T {\n while (true) {\n const item = this.items.pop();\n if (!item) {\n // No items in the free list, allocate a new one\n break;\n }\n if (this.valid(item, args)) {\n // Found a valid item, return it\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): found valid item. Reusing...`);\n return item;\n }\n // Item isn't valid for our args, dispose of it and try again\n if (this.dispose) {\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): disposing invalid item.`);\n this.dispose(item);\n }\n }\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): allocating new item`);\n return this.allocate(args);\n }\n\n free(item: T) {\n // Return item to the free list\n this.items.push(item);\n }\n\n disposeAll() {\n // Disposes of all items in the free list\n let item: T | undefined;\n item = this.items.pop();\n while (item) {\n if (this.dispose) {\n this.dispose(item);\n }\n item = this.items.pop();\n }\n }\n}\n\nexport function encodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) {\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n extA[i4] = floatBitsToUint(x);\n extA[i4 + 1] = floatBitsToUint(y);\n extA[i4 + 2] = floatBitsToUint(z);\n extA[i4 + 3] = toHalf(opacity);\n extB[i4] = toHalf(r) | (toHalf(g) << 16);\n extB[i4 + 1] = toHalf(b) | (toHalf(Math.log(scaleX)) << 16);\n extB[i4 + 2] = toHalf(Math.log(scaleY)) | (toHalf(Math.log(scaleZ)) << 16);\n extB[i4 + 3] = encodeQuatOctXy1010R12(quatX, quatY, quatZ, quatW);\n}\n\nexport function decodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n result.center.x = uintBitsToFloat(extA[i4]);\n result.center.y = uintBitsToFloat(extA[i4 + 1]);\n result.center.z = uintBitsToFloat(extA[i4 + 2]);\n result.opacity = fromHalf(extA[i4 + 3] & 0xffff);\n result.color.r = fromHalf(extB[i4] & 0xffff);\n result.color.g = fromHalf(extB[i4] >>> 16);\n result.color.b = fromHalf(extB[i4 + 1] & 0xffff);\n result.scales.x = Math.exp(fromHalf(extB[i4 + 1] >>> 16));\n result.scales.y = Math.exp(fromHalf(extB[i4 + 2] & 0xffff));\n result.scales.z = Math.exp(fromHalf(extB[i4 + 2] >>> 16));\n decodeQuatOctXy1010R12(extB[i4 + 3], result.quaternion);\n return result;\n}\n\n// Encode a PackedSplat as 4 consecutive Uint32 elements in the packedSplats array.\n// The center coordinates x,y,z are encoded as float16, the scales x,y,z as a\n// logarithmic uint8, rotation as three uint8s representing rotation axis and angle,\n// and RGBA as 4xuint8.\nexport function setPackedSplat(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * opacity : opacity);\n\n // Alternate internal encodings commented out below.\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n // Encode the splat as 4 consecutive Uint32 elements\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] =\n uScaleX | (uScaleY << 8) | (uScaleZ << 16) | (uQuatZ << 24);\n}\n\n// Encode the center coordinates x,y,z in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatCenter(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n) {\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n const i4 = index * 4;\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (packedSplats[i4 + 2] & 0xffff0000);\n}\n\n// Encode the scales x,y,z in the packedSplats Uint32Array, leaving all other fields as is.\nexport function setPackedSplatScales(\n packedSplats: Uint32Array,\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n encoding?: {\n lnScaleMin?: number;\n lnScaleMax?: number;\n },\n) {\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const i4 = index * 4;\n packedSplats[i4 + 3] =\n uScaleX |\n (uScaleY << 8) |\n (uScaleZ << 16) |\n (packedSplats[i4 + 3] & 0xff000000);\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempQuaternion = new THREE.Quaternion();\n\n// Encode the rotation quatX, quatY, quatZ, quatW in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatQuat(\n packedSplats: Uint32Array,\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n) {\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n const i4 = index * 4;\n packedSplats[i4 + 2] =\n (packedSplats[i4 + 2] & 0x0000ffff) | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] = (packedSplats[i4 + 3] & 0x00ffffff) | (uQuatZ << 24);\n}\n\n// Encode the RGBA color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgba(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n a: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * a : a);\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n}\n\n// Encode the RGB color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgb(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n\n const i4 = index * 4;\n packedSplats[i4] =\n uR | (uG << 8) | (uB << 16) | (packedSplats[i4] & 0xff000000);\n}\n\n// Encode the opacity in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatOpacity(\n packedSplats: Uint32Array,\n index: number,\n opacity: number,\n) {\n const uA = floatToUint8(opacity);\n\n const i4 = index * 4;\n packedSplats[i4] = (packedSplats[i4] & 0x00ffffff) | (uA << 24);\n}\n\nconst packedCenter = new THREE.Vector3();\nconst packedScales = new THREE.Vector3();\nconst packedQuaternion = new THREE.Quaternion();\nconst packedColor = new THREE.Color();\nconst packedFields = {\n center: packedCenter,\n scales: packedScales,\n quaternion: packedQuaternion,\n color: packedColor,\n opacity: 0.0,\n};\n\n// Unpack all components of a PackedSplat from the packedSplats Uint32Array into\n// THREE.js vector objects. The returned objects will be reused each call.\nexport function unpackSplat(\n packedSplats: Uint32Array,\n index: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n\n const i4 = index * 4;\n const word0 = packedSplats[i4];\n const word1 = packedSplats[i4 + 1];\n const word2 = packedSplats[i4 + 2];\n const word3 = packedSplats[i4 + 3];\n\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n result.color.set(\n rgbMin + ((word0 & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 8) & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 16) & 0xff) / 255) * rgbRange,\n );\n result.opacity = ((word0 >>> 24) & 0xff) / 255;\n if (encoding?.lodOpacity) {\n result.opacity = 2.0 * result.opacity;\n }\n result.center.set(\n fromHalf(word1 & 0xffff),\n fromHalf((word1 >>> 16) & 0xffff),\n fromHalf(word2 & 0xffff),\n );\n\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = (lnScaleMax - lnScaleMin) / 254.0;\n const uScalesX = word3 & 0xff;\n result.scales.x =\n uScalesX === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesX - 1) * lnScaleScale);\n const uScalesY = (word3 >>> 8) & 0xff;\n result.scales.y =\n uScalesY === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesY - 1) * lnScaleScale);\n const uScalesZ = (word3 >>> 16) & 0xff;\n result.scales.z =\n uScalesZ === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesZ - 1) * lnScaleScale);\n\n const uQuat = ((word2 >>> 16) & 0xffff) | ((word3 >>> 8) & 0xff0000);\n decodeQuatOctXy88R8(uQuat, result.quaternion);\n // decodeQuatXyz888(uQuat, result.quaternion);\n // decodeQuatEulerXyz888(uQuat, result.quaternion);\n\n return result;\n}\n\n// Compute a texture array size that is large enough to fit numSplats. The most\n// common 2D texture size in WebGL2 is 4096x4096 which only allows for 16M splats,\n// so Spark stores Gsplat data in a 2D texture array, which most platforms support\n// up to 2048x2048x2048 = 8G splats. Allocations that fit within a single 2D texture\n// array layer will be rounded up to fill an entire texture row. Once a texture\n// array layer is filled, the allocation will be rounded up to fill an entire layer.\n// This is done so the entire set of splats can be covered by min/max coords across\n// each dimension.\nexport function getTextureSize(numSplats: number): {\n width: number;\n height: number;\n depth: number;\n maxSplats: number;\n} {\n // Compute a texture array size that is large enough to fit numSplats.\n // The width is always 2048, the height sized to fit the splats but no larger than 2048.\n // The depth is the number of layers needed to fit the splats.\n // maxSplats is computed as the new total available splats that can be stored.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n const maxSplats = width * height * depth;\n return { width, height, depth, maxSplats };\n}\n\nexport function computeMaxSplats(numSplats: number): number {\n // Compute the size of a Gsplat array texture (2048x2048xD) that can fit\n // numSplats splats, and return the total number of splats that can be stored\n // in such a texture.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n return width * height * depth;\n}\n\n// Heuristic function to determine if we are running on a mobile device.\nexport function isMobile(): boolean {\n if (navigator.platform.toLowerCase().startsWith(\"win\")) {\n return false;\n }\n if (navigator.maxTouchPoints > 0) {\n // Touch-enabled device, assume it's mobile\n return true;\n }\n return /Mobi|Android|iPhone|iPad|iPod|Opera Mini|IEMobile/.test(\n navigator.userAgent,\n );\n}\n\n// Heuristic function to determine if we are running on an Android device.\n// (does not include Oculus Quest)\nexport function isAndroid(): boolean {\n return (\n /Android/.test(navigator.userAgent) || /Tizen/.test(navigator.userAgent)\n );\n}\n\n// Heuristic function to determine if we are running on an Oculus Quest device.\nexport function isOculus(): boolean {\n return !!navigator.xr && /Oculus/.test(navigator.userAgent);\n}\n\nexport function isQuest2() {\n return isOculus() && /Quest 2/.test(navigator.userAgent);\n}\n\nexport function isIos(): boolean {\n return /iPhone|iPad/.test(navigator.userAgent);\n}\n\nexport function isVisionPro(): boolean {\n return (\n !!navigator.xr &&\n isIos() &&\n /Safari/.test(navigator.userAgent) &&\n isMobile()\n );\n}\n\n// Take an array of RGBA8 encoded pixels and flip them vertically in-place.\n// This is useful for converting between top-left and bottom-left coordinate systems\n// in standard 2D images vs WebGL2.\nexport function flipPixels(\n pixels: Uint8Array,\n width: number,\n height: number,\n): Uint8Array {\n // Flips pixels vertically in-place, returns original array.\n const tempLine = new Uint8Array(width * 4);\n\n // Only need to process half the height since we're swapping\n for (let y = 0; y < height / 2; y++) {\n const topOffset = y * width * 4;\n const bottomOffset = (height - 1 - y) * width * 4;\n\n // Save top line to temp buffer\n tempLine.set(pixels.subarray(topOffset, topOffset + width * 4));\n // Move bottom line to top\n pixels.set(\n pixels.subarray(bottomOffset, bottomOffset + width * 4),\n topOffset,\n );\n // Move saved top line to bottom\n pixels.set(tempLine, bottomOffset);\n }\n return pixels;\n}\n\n// Utility to take an array of RGBA8 encoded pixels and convert them to a\n// PNG-encoded image data URL that can be downloaded to the client.\nexport function pixelsToPngUrl(\n pixels: Uint8Array,\n width: number,\n height: number,\n): string {\n const canvas = document.createElement(\"canvas\");\n canvas.width = width;\n canvas.height = height;\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n throw new Error(\"Can't get 2d context\");\n }\n const imageData = ctx.createImageData(width, height);\n imageData.data.set(pixels);\n ctx.putImageData(imageData, 0, 0);\n return canvas.toDataURL(\"image/png\");\n}\n\n// Manually clone a THREE.Clock object.\nexport function cloneClock(clock: THREE.Clock): THREE.Clock {\n const newClock = new THREE.Clock(clock.autoStart);\n newClock.startTime = clock.startTime;\n newClock.oldTime = clock.oldTime;\n newClock.elapsedTime = clock.elapsedTime;\n newClock.running = clock.running;\n return newClock;\n}\n\n// Utility to filter out an undefined values from an object.\nexport function omitUndefined(obj: T): Partial {\n return Object.fromEntries(\n Object.entries(obj).filter(([_, value]) => value !== undefined),\n ) as Partial;\n}\n\n// \"Identity\" vertex shader that just passes through the position.\nexport const IDENT_VERTEX_SHADER = unindent(`\n precision highp float;\n\n in vec3 position;\n\n void main() {\n gl_Position = vec4(position.xy, 0.0, 1.0);\n }\n`);\n\n// Returns the average position of an array of THREE.Vector3.\nexport function averagePositions(positions: THREE.Vector3[]): THREE.Vector3 {\n const sum = new THREE.Vector3();\n for (const position of positions) {\n sum.add(position);\n }\n return sum.divideScalar(positions.length);\n}\n\n// Returns an \"average\" of an array of THREE.Quaternion objects.\n// Note that this is not a spherical lerp between quaternions but\n// rather an arithmetic mean that is normalized to unit length.\nexport function averageQuaternions(\n quaternions: THREE.Quaternion[],\n): THREE.Quaternion {\n if (quaternions.length === 0) {\n return new THREE.Quaternion();\n }\n const sum = quaternions[0].clone();\n for (let i = 1; i < quaternions.length; i++) {\n if (quaternions[i].dot(quaternions[0]) < 0.0) {\n sum.x -= quaternions[i].x;\n sum.y -= quaternions[i].y;\n sum.z -= quaternions[i].z;\n sum.w -= quaternions[i].w;\n } else {\n sum.x += quaternions[i].x;\n sum.y += quaternions[i].y;\n sum.z += quaternions[i].z;\n sum.w += quaternions[i].w;\n }\n }\n return sum.normalize();\n}\n\n// Compare two coordinates given by matrix1 and matrix2, returning the distance\n// between their origins and the \"coincidence\" of their orientations, defined\n// as the dot product of their \"-z\" axes.\nexport function coinciDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n const direction1 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix1)\n .sub(origin1)\n .normalize();\n const direction2 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix2)\n .sub(origin2)\n .normalize();\n\n const distance = origin1.distanceTo(origin2);\n const coincidence = direction1.dot(direction2);\n return { distance, coincidence };\n}\n\n// Utility function that returns whether two coordinate system origins\n// given by matrix1 and matrix2 are within a certain maxDistance of each other.\nexport function withinDist({\n matrix1,\n matrix2,\n maxDistance,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n}): boolean {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n return origin1.distanceTo(origin2) <= maxDistance;\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined by a maxDistance and a minCoincidence.\nexport function withinCoinciDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoincidence,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoincidence?: number;\n}): boolean {\n const { distance, coincidence } = coinciDist(matrix1, matrix2);\n return (\n distance <= maxDistance &&\n (minCoincidence == null || coincidence >= minCoincidence)\n );\n}\n\n// Compare two coordinate systems given by matrix1 and matrix2, returning the\n// distance between their origins and the \"coorientation\" of their orientations,\n// define as the dot product of their quaternion transforms (flipping their\n// orientation to be on the same hemisphere if necessary).\nexport function coorientDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const [origin1, rotate1] = [new THREE.Vector3(), new THREE.Quaternion()];\n const [origin2, rotate2] = [new THREE.Vector3(), new THREE.Quaternion()];\n matrix1.decompose(origin1, rotate1, new THREE.Vector3());\n matrix2.decompose(origin2, rotate2, new THREE.Vector3());\n\n const distance = origin1.distanceTo(origin2);\n const coorient = Math.abs(rotate1.dot(rotate2));\n return { distance, coorient };\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined a maxDistance and a minCoorient.\nexport function withinCoorientDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoorient,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoorient?: number;\n}): boolean {\n const { distance, coorient } = coorientDist(matrix1, matrix2);\n return (\n distance <= maxDistance && (minCoorient == null || coorient >= minCoorient)\n );\n}\n\n// Like Math.sign but with a custom epsilon value.\nexport function epsilonSign(value: number, epsilon = 0.001): number {\n if (Math.abs(value) < epsilon) {\n return 0;\n }\n return Math.sign(value);\n}\n\n// Encode a THREE.Quaternion into a 24-bit integer, converting the xyz coordinates\n// to signed 8-bit integers (w can be derived from xyz), and flipping the sign\n// of the quaternion if necessary to make this possible (q == -q for quaternions).\nexport function encodeQuatXyz888(q: THREE.Quaternion): number {\n const negQuat = q.w < 0.0;\n const iQuatX = floatToSint8(negQuat ? -q.x : q.x);\n const iQuatY = floatToSint8(negQuat ? -q.y : q.y);\n const iQuatZ = floatToSint8(negQuat ? -q.z : q.z);\n const uQuatX = iQuatX & 0xff;\n const uQuatY = iQuatY & 0xff;\n const uQuatZ = iQuatZ & 0xff;\n return uQuatX | (uQuatY << 8) | (uQuatZ << 16);\n}\n\n// Decode a 24-bit integer of the quaternion's xyz coordinates into a THREE.Quaternion.\nexport function decodeQuatXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n const iQuatX = (encoded << 24) >> 24;\n const iQuatY = (encoded << 16) >> 24;\n const iQuatZ = (encoded << 8) >> 24;\n out.set(iQuatX / 127.0, iQuatY / 127.0, iQuatZ / 127.0, 0.0);\n const dotSelf = out.x * out.x + out.y * out.y + out.z * out.z;\n out.w = Math.sqrt(Math.max(0.0, 1.0 - dotSelf));\n return out;\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempNormalizedQuaternion = new THREE.Quaternion();\nconst tempAxis = new THREE.Vector3();\n\n/**\n * Encodes a THREE.Quaternion into a 24‐bit integer.\n *\n * Bit layout (LSB → MSB):\n * - Bits 0–7: quantized U (8 bits)\n * - Bits 8–15: quantized V (8 bits)\n * - Bits 16–23: quantized angle θ (8 bits) from [0,π]\n *\n * This version uses folded octahedral mapping (all inline).\n */\nexport function encodeQuatOctXy88R8(q: THREE.Quaternion): number {\n // Force the minimal representation (q.w >= 0)\n const qnorm = tempNormalizedQuaternion.copy(q).normalize();\n if (qnorm.w < 0) {\n qnorm.set(-qnorm.x, -qnorm.y, -qnorm.z, -qnorm.w);\n }\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnorm.w);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(\n qnorm.x * qnorm.x + qnorm.y * qnorm.y + qnorm.z * qnorm.z,\n );\n const axis =\n xyz_norm < 1e-6\n ? tempAxis.set(1, 0, 0)\n : tempAxis.set(qnorm.x, qnorm.y, qnorm.z).divideScalar(xyz_norm);\n // const foldAxis = (axis.z < 0);\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axis.x) + Math.abs(axis.y) + Math.abs(axis.z);\n let p_x = axis.x / sum;\n let p_y = axis.y / sum;\n // Fold the lower hemisphere.\n if (axis.z < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 7 bits (0..127)\n const quantU = Math.round(u_f * 255);\n const quantV = Math.round(v_f * 255);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 10 bits (0..1023) ---\n const angleInt = Math.round(theta * (255 / Math.PI));\n\n // Pack into 24 bits: bits [0–7]: quantU, [8–15]: quantV, [16–23]: angleInt.\n return (angleInt << 16) | (quantV << 8) | quantU;\n}\n\n/**\n * Decodes a 24‐bit encoded quaternion (packed in a number) back to a THREE.Quaternion.\n *\n * Assumes the same bit layout as in encodeQuatOctXy88R8.\n */\nexport function decodeQuatOctXy88R8(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 8‐bit quantU and quantV, and 8‐bit angleInt.\n const quantU = encoded & 0xff; // bits 0–7\n const quantV = (encoded >>> 8) & 0xff; // bits 8–15\n const angleInt = (encoded >>> 16) & 0xff; // bits 16–23\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 255;\n const v_f = quantV / 255;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axis = tempAxis.set(f_x, f_y, f_z).normalize();\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 255) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axis.x * s, axis.y * s, axis.z * s, w);\n return out;\n}\n\n/**\n * Encodes a THREE.Quaternion into a 24‑bit unsigned integer\n * by converting it to Euler angles (roll, pitch, yaw).\n * The Euler angles are assumed to be in radians in the range [-π, π].\n * Each angle is normalized to [0,1] and quantized to 8 bits.\n * Bit layout (LSB→MSB):\n * - Bits 0–7: roll (quantized)\n * - Bits 8–15: pitch (quantized)\n * - Bits 16–23: yaw (quantized)\n */\nexport function encodeQuatEulerXyz888(q: THREE.Quaternion): number {\n // Normalize quaternion to ensure a proper rotation.\n const qNorm = q.clone().normalize();\n\n // Tait–Bryan angles (roll, pitch, yaw)\n const sinr_cosp = 2.0 * (qNorm.w * qNorm.x + qNorm.y * qNorm.z);\n const cosr_cosp = 1.0 - 2.0 * (qNorm.x * qNorm.x + qNorm.y * qNorm.y);\n const roll = Math.atan2(sinr_cosp, cosr_cosp);\n\n const sinp = 2.0 * (qNorm.w * qNorm.y - qNorm.z * qNorm.x);\n const pitch =\n Math.abs(sinp) >= 1.0 ? Math.sign(sinp) * (Math.PI / 2) : Math.asin(sinp);\n\n const siny_cosp = 2.0 * (qNorm.w * qNorm.z + qNorm.x * qNorm.y);\n const cosy_cosp = 1.0 - 2.0 * (qNorm.y * qNorm.y + qNorm.z * qNorm.z);\n const yaw = Math.atan2(siny_cosp, cosy_cosp);\n\n // Map each angle from [-π, π] to [0, 1]\n const normRoll = (roll + Math.PI) / (2 * Math.PI);\n const normPitch = (pitch + Math.PI) / (2 * Math.PI);\n const normYaw = (yaw + Math.PI) / (2 * Math.PI);\n\n // Quantize to 8 bits (0 to 255)\n const rollQ = Math.round(normRoll * 255);\n const pitchQ = Math.round(normPitch * 255);\n const yawQ = Math.round(normYaw * 255);\n\n // Pack into a 24-bit unsigned integer:\n // Bits 0–7: rollQ, Bits 8–15: pitchQ, Bits 16–23: yawQ.\n return (yawQ << 16) | (pitchQ << 8) | rollQ;\n}\n\n/**\n * Decodes a 24‑bit unsigned integer into a THREE.Quaternion\n * by unpacking three 8‑bit values (roll, pitch, yaw) in the range [0,255]\n * and then converting them back to Euler angles in [-π, π] and to a quaternion.\n */\nexport function decodeQuatEulerXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Unpack 8‑bit values.\n const rollQ = encoded & 0xff;\n const pitchQ = (encoded >>> 8) & 0xff;\n const yawQ = (encoded >>> 16) & 0xff;\n\n // Convert quantized values back to normalized [0,1] values.\n const normRoll = rollQ / 255;\n const normPitch = pitchQ / 255;\n const normYaw = yawQ / 255;\n\n // Map from [0,1] to [-π, π]\n const roll = normRoll * (2 * Math.PI) - Math.PI;\n const pitch = normPitch * (2 * Math.PI) - Math.PI;\n const yaw = normYaw * (2 * Math.PI) - Math.PI;\n\n // Convert Euler angles to quaternion (Tait–Bryan: roll, pitch, yaw).\n const cr = Math.cos(roll * 0.5);\n const sr = Math.sin(roll * 0.5);\n const cp = Math.cos(pitch * 0.5);\n const sp = Math.sin(pitch * 0.5);\n const cy = Math.cos(yaw * 0.5);\n const sy = Math.sin(yaw * 0.5);\n\n out.w = cr * cp * cy + sr * sp * sy;\n out.x = sr * cp * cy - cr * sp * sy;\n out.y = cr * sp * cy + sr * cp * sy;\n out.z = cr * cp * sy - sr * sp * cy;\n out.normalize();\n return out;\n}\n\nexport function encodeQuatOctXy1010R12(\n qx: number,\n qy: number,\n qz: number,\n qw: number,\n): number {\n const qlen = Math.sqrt(qx * qx + qy * qy + qz * qz + qw * qw);\n // Force the minimal representation (q.w >= 0)\n const qnx = (qw < 0 ? -qx : qx) / qlen;\n const qny = (qw < 0 ? -qy : qy) / qlen;\n const qnz = (qw < 0 ? -qz : qz) / qlen;\n const qnw = (qw < 0 ? -qw : qw) / qlen;\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnw);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(qnx * qnx + qny * qny + qnz * qnz);\n const axisX = xyz_norm < 1e-6 ? 1 : qnx / xyz_norm;\n const axisY = xyz_norm < 1e-6 ? 0 : qny / xyz_norm;\n const axisZ = xyz_norm < 1e-6 ? 0 : qnz / xyz_norm;\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axisX) + Math.abs(axisY) + Math.abs(axisZ);\n let p_x = axisX / sum;\n let p_y = axisY / sum;\n // Fold the lower hemisphere.\n if (axisZ < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 10 bits (0..1023)\n const quantU = Math.round(u_f * 1023);\n const quantV = Math.round(v_f * 1023);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 12 bits (0..4095) ---\n const angleInt = Math.round(theta * (4095 / Math.PI));\n\n // Pack into 32 bits: bits [0–9]: quantU, [10–19]: quantV, [20–31]: angleInt.\n return (angleInt << 20) | (quantV << 10) | quantU;\n}\n\nexport function decodeQuatOctXy1010R12(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 10‐bit quantU and quantV, and 12‐bit angleInt.\n const quantU = encoded & 0x3ff; // bits 0–9\n const quantV = (encoded >>> 10) & 0x3ff; // bits 10–19\n const angleInt = (encoded >>> 20) & 0xfff; // bits 20–31\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 1023;\n const v_f = quantV / 1023;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axisLen = Math.sqrt(f_x * f_x + f_y * f_y + f_z * f_z);\n const axisX = axisLen < 1e-6 ? 0 : f_x / axisLen;\n const axisY = axisLen < 1e-6 ? 0 : f_y / axisLen;\n const axisZ = axisLen < 1e-6 ? 0 : f_z / axisLen;\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 4095) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axisX * s, axisY * s, axisZ * s, w);\n return out;\n}\n\n// Pack four signed 8-bit values into a single uint32.\nfunction packSint8Bytes(\n b0: number,\n b1: number,\n b2: number,\n b3: number,\n): number {\n const clampedB0 = Math.round(Math.max(-127, Math.min(127, b0 * 127)));\n const clampedB1 = Math.round(Math.max(-127, Math.min(127, b1 * 127)));\n const clampedB2 = Math.round(Math.max(-127, Math.min(127, b2 * 127)));\n const clampedB3 = Math.round(Math.max(-127, Math.min(127, b3 * 127)));\n return (\n (clampedB0 & 0xff) |\n ((clampedB1 & 0xff) << 8) |\n ((clampedB2 & 0xff) << 16) |\n ((clampedB3 & 0xff) << 24)\n );\n}\n\n// Encode an array of 9 signed RGB SH1 coefficients (clamped to [-1,1]) into\n// a pair of uint32 values, where each coefficient is stored as a sint7\nexport function encodeSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n encoding?: {\n sh1Max?: number;\n },\n) {\n const sh1Max = encoding?.sh1Max ?? 1;\n const sh1Scale = 63 / sh1Max;\n\n // Pack sint7 values into 2 x uint32\n const base = index * 2;\n for (let i = 0; i < 9; ++i) {\n const s = sh1Rgb[i] * sh1Scale;\n const value = Math.round(Math.max(-63, Math.min(63, s))) & 0x7f;\n const bitStart = i * 7;\n const bitEnd = bitStart + 7;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh1Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh1Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\n// Encode an array of 15 signed RGB SH2 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint8.\nexport function encodeSh2Rgb(\n sh2Array: Uint32Array,\n index: number,\n sh2Rgb: Float32Array,\n encoding?: {\n sh2Max?: number;\n },\n) {\n const sh2Max = encoding?.sh2Max ?? 1;\n const sh2Scale = 1 / sh2Max;\n\n // Pack sint8 values into 4 x uint32\n sh2Array[index * 4 + 0] = packSint8Bytes(\n sh2Rgb[0] * sh2Scale,\n sh2Rgb[1] * sh2Scale,\n sh2Rgb[2] * sh2Scale,\n sh2Rgb[3] * sh2Scale,\n );\n sh2Array[index * 4 + 1] = packSint8Bytes(\n sh2Rgb[4] * sh2Scale,\n sh2Rgb[5] * sh2Scale,\n sh2Rgb[6] * sh2Scale,\n sh2Rgb[7] * sh2Scale,\n );\n sh2Array[index * 4 + 2] = packSint8Bytes(\n sh2Rgb[8] * sh2Scale,\n sh2Rgb[9] * sh2Scale,\n sh2Rgb[10] * sh2Scale,\n sh2Rgb[11] * sh2Scale,\n );\n sh2Array[index * 4 + 3] = packSint8Bytes(\n sh2Rgb[12] * sh2Scale,\n sh2Rgb[13] * sh2Scale,\n sh2Rgb[14] * sh2Scale,\n 0,\n );\n}\n\n// Encode an array of 21 signed RGB SH3 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint6.\nexport function encodeSh3Rgb(\n sh3Array: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n encoding?: {\n sh3Max?: number;\n },\n) {\n const sh3Max = encoding?.sh3Max ?? 1;\n const sh3Scale = 31 / sh3Max;\n\n // Pack sint6 values into 4 x uint32\n const base = index * 4;\n for (let i = 0; i < 21; ++i) {\n const s = sh3Rgb[i] * sh3Scale;\n const value = Math.round(Math.max(-31, Math.min(31, s))) & 0x3f;\n const bitStart = i * 6;\n const bitEnd = bitStart + 6;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh3Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh3Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\nexport function encodeExtRgb(r: number, g: number, b: number): number {\n const ar = Math.abs(r);\n const ag = Math.abs(g);\n const ab = Math.abs(b);\n const maxAbs = Math.max(ar, ag, ab);\n const base = Math.floor(Math.log2(maxAbs));\n const biasedBase = Math.max(0, Math.min(31, base + 15));\n const divisor = 2 ** (biasedBase - 15) / 255;\n const uR = Math.round(Math.max(0, Math.min(255, ar / divisor)));\n const uG = Math.round(Math.max(0, Math.min(255, ag / divisor)));\n const uB = Math.round(Math.max(0, Math.min(255, ab / divisor)));\n const expSigns =\n (biasedBase << 3) |\n ((r < 0 ? 0x1 : 0) | (g < 0 ? 0x2 : 0) | (b < 0 ? 0x4 : 0));\n return uR | (uG << 8) | (uB << 16) | (expSigns << 24);\n}\n\nexport function decodeExtRgb(encoded: number): THREE.Color {\n const color = packedFields.color;\n const biasedBase = (encoded >>> 27) & 0x1f;\n const divisor = 2 ** (biasedBase - 15) / 255;\n const r = (encoded & 0xff) * divisor;\n const g = ((encoded >>> 8) & 0xff) * divisor;\n const b = ((encoded >>> 16) & 0xff) * divisor;\n color.r = encoded & 0x1000000 ? -r : r;\n color.g = encoded & 0x2000000 ? -g : g;\n color.b = encoded & 0x4000000 ? -b : b;\n return color;\n}\n\nexport function encodeExtSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n}\n\nexport function encodeExtSh12Rgb(\n sh1Array: Uint32Array,\n sh2Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n sh2Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n sh1Array[i4 + 3] = encodeExtRgb(sh2Rgb[0], sh2Rgb[1], sh2Rgb[2]);\n for (let k = 1; k < 5; ++k) {\n const k5 = k * 5;\n sh2Array[i4 + (k - 1)] = encodeExtRgb(\n sh2Rgb[k5],\n sh2Rgb[k5 + 1],\n sh2Rgb[k5 + 2],\n );\n }\n}\n\nexport function encodeExt3Rgb(\n sh3ArrayA: Uint32Array,\n sh3ArrayB: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 4; ++k) {\n const k3 = k * 3;\n sh3ArrayA[i4 + k] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n for (let k = 4; k < 7; ++k) {\n const k3 = k * 3;\n sh3ArrayB[i4 + (k - 4)] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n}\n\n// Partially decompress a gzip-encoded Uint8Array, returning a Uint8Array of\n// the specified numBytes from the start of the file.\nexport function decompressPartialGzip(\n fileBytes: Uint8Array,\n numBytes: number,\n): Uint8Array {\n const chunks: Uint8Array[] = [];\n let totalBytes = 0;\n let result: Uint8Array | null = null;\n\n const gunzip = new Gunzip((data, final) => {\n chunks.push(data);\n totalBytes += data.length;\n if (final || totalBytes >= numBytes) {\n const allBytes = new Uint8Array(totalBytes);\n let offset = 0;\n for (const chunk of chunks) {\n allBytes.set(chunk, offset);\n offset += chunk.length;\n }\n result = allBytes.slice(0, numBytes);\n }\n });\n\n const CHUNK_SIZE = 1024;\n let offset = 0;\n while (result == null && offset < fileBytes.length) {\n const chunk = fileBytes.slice(offset, offset + CHUNK_SIZE);\n gunzip.push(chunk, false);\n offset += CHUNK_SIZE;\n }\n\n if (result == null) {\n gunzip.push(new Uint8Array(), true);\n if (result == null) {\n throw new Error(\"Failed to decompress partial gzip\");\n }\n }\n return result;\n}\n\nexport class GunzipReader {\n fileBytes: Uint8Array;\n chunkBytes: number;\n\n chunks: Uint8Array[];\n totalBytes: number;\n reader: ReadableStreamDefaultReader;\n\n constructor({\n fileBytes,\n chunkBytes = 64 * 1024,\n }: { fileBytes: Uint8Array; chunkBytes?: number }) {\n this.fileBytes = fileBytes;\n this.chunkBytes = chunkBytes;\n this.chunks = [];\n this.totalBytes = 0;\n\n const ds = new DecompressionStream(\"gzip\");\n const decompressionStream = new Blob([fileBytes]).stream().pipeThrough(ds);\n this.reader = decompressionStream.getReader();\n }\n\n async read(numBytes: number): Promise {\n while (this.totalBytes < numBytes) {\n const { value: chunk, done: readerDone } = await this.reader.read();\n if (readerDone) {\n break;\n }\n\n this.chunks.push(chunk);\n this.totalBytes += chunk.length;\n }\n\n if (this.totalBytes < numBytes) {\n throw new Error(\n `Unexpected EOF: needed ${numBytes}, got ${this.totalBytes}`,\n );\n }\n\n const allBytes = new Uint8Array(this.totalBytes);\n let outOffset = 0;\n for (const chunk of this.chunks) {\n allBytes.set(chunk, outOffset);\n outOffset += chunk.length;\n }\n\n const result = allBytes.subarray(0, numBytes);\n this.chunks = [allBytes.subarray(numBytes)];\n this.totalBytes -= numBytes;\n return result;\n }\n}\n","import type { SplatEncoding } from \"./defines\";\nimport { computeMaxSplats, setPackedSplat } from \"./utils\";\n\nexport function decodeAntiSplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n) {\n const numSplats = Math.floor(fileBytes.length / 32); // 32 bytes per splat\n if (numSplats * 32 !== fileBytes.length) {\n throw new Error(\"Invalid .splat file size\");\n }\n initNumSplats(numSplats);\n\n const f32 = new Float32Array(fileBytes.buffer);\n for (let i = 0; i < numSplats; ++i) {\n const i32 = i * 32;\n const i8 = i * 8;\n const x = f32[i8 + 0];\n const y = f32[i8 + 1];\n const z = f32[i8 + 2];\n const scaleX = f32[i8 + 3];\n const scaleY = f32[i8 + 4];\n const scaleZ = f32[i8 + 5];\n const r = fileBytes[i32 + 24] / 255;\n const g = fileBytes[i32 + 25] / 255;\n const b = fileBytes[i32 + 26] / 255;\n const opacity = fileBytes[i32 + 27] / 255;\n const quatW = (fileBytes[i32 + 28] - 128) / 128;\n const quatX = (fileBytes[i32 + 29] - 128) / 128;\n const quatY = (fileBytes[i32 + 30] - 128) / 128;\n const quatZ = (fileBytes[i32 + 31] - 128) / 128;\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n }\n}\n\nexport function unpackAntiSplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n} {\n let numSplats = 0;\n let maxSplats = 0;\n let packedArray = new Uint32Array(0);\n decodeAntiSplat(\n fileBytes,\n (cbNumSplats) => {\n numSplats = cbNumSplats;\n maxSplats = computeMaxSplats(numSplats);\n packedArray = new Uint32Array(maxSplats * 4);\n },\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n setPackedSplat(\n packedArray,\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n },\n );\n return { packedArray, numSplats };\n}\n","import type { SplatEncoding } from \"./defines\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n fromHalf,\n setPackedSplat,\n} from \"./utils\";\n\ntype KsplatCompression = {\n bytesPerCenter: number;\n bytesPerScale: number;\n bytesPerRotation: number;\n bytesPerColor: number;\n bytesPerSphericalHarmonicsComponent: number;\n scaleOffsetBytes: number;\n rotationOffsetBytes: number;\n colorOffsetBytes: number;\n sphericalHarmonicsOffsetBytes: number;\n scaleRange: number;\n};\n\nconst KSPLAT_COMPRESSION: Record = {\n 0: {\n bytesPerCenter: 12,\n bytesPerScale: 12,\n bytesPerRotation: 16,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 4,\n scaleOffsetBytes: 12,\n rotationOffsetBytes: 24,\n colorOffsetBytes: 40,\n sphericalHarmonicsOffsetBytes: 44,\n scaleRange: 1,\n },\n 1: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 2,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n 2: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 1,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n};\n\nconst KSPLAT_SH_DEGREE_TO_COMPONENTS: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nexport function decodeKsplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n) {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n initNumSplats(numSplats);\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n\n if (sphericalHarmonicsDegree >= 1 && sh1) {\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n if (sh2) {\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n }\n if (sh3) {\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n sectionBase += storageSizeBytes;\n }\n}\n\nexport function unpackKsplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n} {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n setPackedSplat(\n packedArray,\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n\n if (sphericalHarmonicsDegree >= 1) {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, i, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, i, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, i, sh3, splatEncoding);\n }\n }\n }\n sectionBase += storageSizeBytes;\n }\n return { packedArray, numSplats, extra };\n}\n","// PLY file format reader\n\nimport { USE_COMPILED_PARSER_FUNCTION } from \"./defines\";\n\nconst PLY_PROPERTY_TYPES = [\n \"char\",\n \"uchar\",\n \"short\",\n \"ushort\",\n \"int\",\n \"uint\",\n \"float\",\n \"double\",\n] as const;\nexport type PlyPropertyType = (typeof PLY_PROPERTY_TYPES)[number];\n\nexport type PlyElement = {\n name: string;\n count: number;\n properties: Record;\n};\n\nexport type PlyProperty = {\n isList: boolean;\n type: PlyPropertyType;\n countType?: PlyPropertyType;\n};\n\n// Callback for parseSplats base Gsplat data\nexport type SplatCallback = (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) => void;\n\n// Callback for parseSplats SH coefficients\nexport type SplatShCallback = (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n) => void;\n\n// A PlyReader is used to parse PLY files for Gsplat data.\n// It takes a Uint8Array/ArrayBuffer as input fileBytes, parses the text header,\n// and provides a method parseData to iterate over the entire binary data\n// efficiently, or parseSplats to iterate over Gsplat data.\n\nexport class PlyReader {\n fileBytes: Uint8Array;\n header = \"\";\n littleEndian = true;\n elements: Record = {};\n comments: string[] = [];\n data: DataView | null = null;\n static defaultPointScale = 0.001;\n\n numSplats = 0;\n\n // Create a PlyReader from a Uint8Array/ArrayBuffer, no parsing done yet\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n }\n\n // Identify and parse the PLY text header (assumed to be <64KB in size).\n // this.elements will contain all the elements in the file, typically\n // \"vertex\" contains the Gsplat data.\n async parseHeader() {\n const bufferStream = new ReadableStream({\n start: (\n controller: ReadableStreamController>,\n ) => {\n // Assume the header is less than 64KB\n controller.enqueue(this.fileBytes.slice(0, 65536));\n controller.close();\n },\n });\n const decoder = bufferStream\n .pipeThrough(new TextDecoderStream())\n .getReader();\n\n // Find the end of the text section of the PLY file\n this.header = \"\";\n const headerTerminator = \"end_header\\n\";\n while (true) {\n const { value, done } = await decoder.read();\n if (done) {\n throw new Error(\"Failed to read header\");\n }\n\n this.header += value as string;\n const endHeader = this.header.indexOf(headerTerminator);\n if (endHeader >= 0) {\n this.header = this.header.slice(0, endHeader + headerTerminator.length);\n break;\n }\n }\n // Partition the file into header and binary data\n const headerLen = new TextEncoder().encode(this.header).length;\n this.data = new DataView(this.fileBytes.buffer, headerLen);\n\n this.elements = {};\n let curElement: PlyElement | null = null;\n this.comments = [];\n\n this.header\n .trim()\n .split(\"\\n\")\n .forEach((line: string, lineIndex: number) => {\n const trimmedLine = line.trim();\n if (lineIndex === 0) {\n if (trimmedLine !== \"ply\") {\n throw new Error(\"Invalid PLY header\");\n }\n return;\n }\n if (trimmedLine.length === 0) {\n return; // Skip empty lines\n }\n\n const fields = trimmedLine.split(\" \");\n switch (fields[0]) {\n case \"format\":\n if (fields[1] === \"binary_little_endian\") {\n this.littleEndian = true;\n } else if (fields[1] === \"binary_big_endian\") {\n this.littleEndian = false;\n } else {\n // ascii formats not supported\n throw new Error(`Unsupported PLY format: ${fields[1]}`);\n }\n if (fields[2] !== \"1.0\") {\n throw new Error(`Unsupported PLY version: ${fields[2]}`);\n }\n break;\n case \"end_header\":\n break;\n case \"comment\":\n this.comments.push(trimmedLine.slice(\"comment \".length));\n break;\n case \"element\": {\n const name = fields[1];\n curElement = {\n name,\n count: Number.parseInt(fields[2]),\n properties: {},\n };\n this.elements[name] = curElement;\n break;\n }\n case \"property\":\n if (curElement == null) {\n throw new Error(\"Property must be inside an element\");\n }\n if (fields[1] === \"list\") {\n curElement.properties[fields[4]] = {\n isList: true,\n type: fields[3] as PlyPropertyType,\n countType: fields[2] as PlyPropertyType,\n };\n } else {\n curElement.properties[fields[2]] = {\n isList: false,\n type: fields[1] as PlyPropertyType,\n };\n }\n break;\n default:\n // console.warn(`Skipping unsupported PLY keyword: ${fields[0]}`);\n }\n });\n\n if (this.elements.vertex) {\n this.numSplats = this.elements.vertex.count;\n }\n }\n\n parseData(\n elementCallback: (\n element: PlyElement,\n ) =>\n | null\n | ((index: number, item: Record) => void),\n ) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No data to parse\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const item = createEmptyItem(properties);\n // Construct a parse function\n const parseFn = createParseFn(properties, this.littleEndian);\n\n // Parse all the items in the element\n const callback = elementCallback(element) ?? (() => {});\n for (let index = 0; index < count; index++) {\n offset = parseFn(data, offset, item);\n callback(index, item);\n }\n }\n }\n\n // Parse all the Gsplat data in the PLY file in go, invoking the given\n // callbacks for each Gsplat.\n parseSplats(splatCallback: SplatCallback, shCallback?: SplatShCallback) {\n if (this.elements.vertex == null) {\n throw new Error(\"No vertex element found\");\n }\n\n let isSuperSplat = false;\n const ssChunks: SSChunk[] = [];\n\n let numSh = 0;\n let sh1Props: number[] = [];\n let sh2Props: number[] = [];\n let sh3Props: number[] = [];\n let sh1: Float32Array | undefined = undefined;\n let sh2: Float32Array | undefined = undefined;\n let sh3: Float32Array | undefined = undefined;\n\n function prepareSh() {\n // Prepare SH coefficient names and arrays for numSh total SH levels\n const num_f_rest = NUM_SH_TO_NUM_F_REST[numSh];\n sh1Props = new Array(3)\n .fill(null)\n .flatMap((_, k) => [0, 1, 2].map((_, d) => k + (d * num_f_rest) / 3));\n sh2Props = new Array(5)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 3 + k + (d * num_f_rest) / 3),\n );\n sh3Props = new Array(7)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 8 + k + (d * num_f_rest) / 3),\n );\n sh1 = numSh >= 1 ? new Float32Array(3 * 3) : undefined;\n sh2 = numSh >= 2 ? new Float32Array(5 * 3) : undefined;\n sh3 = numSh >= 3 ? new Float32Array(7 * 3) : undefined;\n }\n\n function ssShCallback(\n index: number,\n item: Record,\n ) {\n // Decode SH for SuperSplat compressed data\n if (!sh1) {\n throw new Error(\"Missing sh1\");\n }\n const sh = item.f_rest as number[];\n\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = (sh[sh1Props[i]] * 8) / 255 - 4;\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = (sh[sh2Props[i]] * 8) / 255 - 4;\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = (sh[sh3Props[i]] * 8) / 255 - 4;\n }\n }\n shCallback?.(index, sh1, sh2, sh3);\n }\n\n function initSuperSplat(element: PlyElement) {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n } = element.properties;\n if (\n !min_x ||\n !min_y ||\n !min_z ||\n !max_x ||\n !max_y ||\n !max_z ||\n !min_scale_x ||\n !min_scale_y ||\n !min_scale_z ||\n !max_scale_x ||\n !max_scale_y ||\n !max_scale_z\n ) {\n throw new Error(\"Missing PLY chunk properties\");\n }\n\n // SuperSplat chunks are used to quantize splat data, so we need to store them\n isSuperSplat = true;\n return (index: number, item: Record) => {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = item as Record;\n ssChunks.push({\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n });\n };\n }\n\n function decodeSuperSplat(element: PlyElement) {\n // Decode SuperSplat compressed data in vertex and sh elements\n if (shCallback && element.name === \"sh\") {\n numSh = getNumSh(element.properties);\n prepareSh();\n return ssShCallback;\n }\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n element.properties;\n if (\n !packed_position ||\n !packed_rotation ||\n !packed_scale ||\n !packed_color\n ) {\n throw new Error(\n \"Missing PLY properties: packed_position, packed_rotation, packed_scale, packed_color\",\n );\n }\n\n const SQRT2 = Math.sqrt(2);\n\n return (index: number, item: Record) => {\n // SuperSplat data are quantized within chunks with 256 Gsplats each\n const chunk = ssChunks[index >>> 8];\n if (chunk == null) {\n throw new Error(\"Missing PLY chunk\");\n }\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = chunk;\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n item as Record;\n\n const x =\n (((packed_position >>> 21) & 2047) / 2047) * (max_x - min_x) + min_x;\n const y =\n (((packed_position >>> 11) & 1023) / 1023) * (max_y - min_y) + min_y;\n const z = ((packed_position & 2047) / 2047) * (max_z - min_z) + min_z;\n\n const r0 = (((packed_rotation >>> 20) & 1023) / 1023 - 0.5) * SQRT2;\n const r1 = (((packed_rotation >>> 10) & 1023) / 1023 - 0.5) * SQRT2;\n const r2 = ((packed_rotation & 1023) / 1023 - 0.5) * SQRT2;\n const rr = Math.sqrt(Math.max(0, 1.0 - r0 * r0 - r1 * r1 - r2 * r2));\n\n const rOrder = packed_rotation >>> 30;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n\n const scaleX = Math.exp(\n (((packed_scale >>> 21) & 2047) / 2047) *\n (max_scale_x - min_scale_x) +\n min_scale_x,\n );\n const scaleY = Math.exp(\n (((packed_scale >>> 11) & 1023) / 1023) *\n (max_scale_y - min_scale_y) +\n min_scale_y,\n );\n const scaleZ = Math.exp(\n ((packed_scale & 2047) / 2047) * (max_scale_z - min_scale_z) +\n min_scale_z,\n );\n\n const r =\n (((packed_color >>> 24) & 255) / 255) *\n ((max_r ?? 1) - (min_r ?? 0)) +\n (min_r ?? 0);\n const g =\n (((packed_color >>> 16) & 255) / 255) *\n ((max_g ?? 1) - (min_g ?? 0)) +\n (min_g ?? 0);\n const b =\n (((packed_color >>> 8) & 255) / 255) * ((max_b ?? 1) - (min_b ?? 0)) +\n (min_b ?? 0);\n const opacity = (packed_color & 255) / 255;\n\n splatCallback(\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n };\n }\n\n const elementCallback = (element: PlyElement) => {\n if (element.name === \"chunk\") {\n // \"chunk\" could conceivably be used for other formats, and we would\n // ideally check for the comment: Generated by SuperSplat 2.*\n // but gsplat also outputs this format without such a comment.\n // In order to support both, let's assume a \"chunk\" element should\n // be interpreted as this format.\n return initSuperSplat(element);\n }\n if (isSuperSplat) {\n return decodeSuperSplat(element);\n }\n\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const {\n x,\n y,\n z,\n scale_0,\n scale_1,\n scale_2,\n rot_0,\n rot_1,\n rot_2,\n rot_3,\n opacity,\n f_dc_0,\n f_dc_1,\n f_dc_2,\n red,\n green,\n blue,\n alpha,\n } = element.properties;\n\n if (!x || !y || !z) {\n throw new Error(\"Missing PLY properties: x, y, z\");\n }\n // Pure point cloud PLY files have no scales or rotations\n const hasScales = scale_0 && scale_1 && scale_2;\n const hasRots = rot_0 && rot_1 && rot_2 && rot_3;\n // Quantization scale factor for argb values\n const alphaDiv = alpha != null ? FIELD_SCALE[alpha.type] : 1;\n const redDiv = red != null ? FIELD_SCALE[red.type] : 1;\n const greenDiv = green != null ? FIELD_SCALE[green.type] : 1;\n const blueDiv = blue != null ? FIELD_SCALE[blue.type] : 1;\n\n numSh = getNumSh(element.properties);\n prepareSh();\n\n return (index: number, item: Record) => {\n const scaleX = hasScales\n ? Math.exp(item.scale_0 as number)\n : PlyReader.defaultPointScale;\n const scaleY = hasScales\n ? Math.exp(item.scale_1 as number)\n : PlyReader.defaultPointScale;\n const scaleZ = hasScales\n ? Math.exp(item.scale_2 as number)\n : PlyReader.defaultPointScale;\n\n const quatX = hasRots ? (item.rot_1 as number) : 0;\n const quatY = hasRots ? (item.rot_2 as number) : 0;\n const quatZ = hasRots ? (item.rot_3 as number) : 0;\n const quatW = hasRots ? (item.rot_0 as number) : 1;\n\n const op =\n opacity != null\n ? 1.0 / (1.0 + Math.exp(-item.opacity as number))\n : alpha != null\n ? (item.alpha as number) / alphaDiv\n : 1.0;\n const r =\n f_dc_0 != null\n ? (item.f_dc_0 as number) * SH_C0 + 0.5\n : red != null\n ? (item.red as number) / redDiv\n : 1.0;\n const g =\n f_dc_1 != null\n ? (item.f_dc_1 as number) * SH_C0 + 0.5\n : green != null\n ? (item.green as number) / greenDiv\n : 1.0;\n const b =\n f_dc_2 != null\n ? (item.f_dc_2 as number) * SH_C0 + 0.5\n : blue != null\n ? (item.blue as number) / blueDiv\n : 1.0;\n\n splatCallback(\n index,\n item.x as number,\n item.y as number,\n item.z as number,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n op,\n r,\n g,\n b,\n );\n\n if (shCallback && sh1) {\n const sh = item.f_rest as number[];\n if (sh1) {\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = sh[sh1Props[i]];\n }\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = sh[sh2Props[i]];\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = sh[sh3Props[i]];\n }\n }\n shCallback(index, sh1, sh2, sh3);\n }\n };\n };\n\n this.parseData(elementCallback);\n }\n\n // Inject RGBA values into original PLY file, which can be used to modify\n // the color/opacity of the Gsplats and write out the modified PLY file.\n injectRgba(rgba: Uint8Array) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No parsed data\");\n }\n if (rgba.length !== this.numSplats * 4) {\n throw new Error(\"Invalid RGBA array length\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const parsers = [];\n\n let rgbaOffset = 0;\n const isVertex = elementName === \"vertex\";\n if (isVertex) {\n for (const name of [\"opacity\", \"f_dc_0\", \"f_dc_1\", \"f_dc_2\"]) {\n if (!properties[name] || properties[name].type !== \"float\") {\n throw new Error(`Can't injectRgba due to property: ${name}`);\n }\n }\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!property.isList) {\n if (isVertex) {\n if (\n propertyName === \"f_dc_0\" ||\n propertyName === \"f_dc_1\" ||\n propertyName === \"f_dc_2\"\n ) {\n const component = Number.parseInt(\n propertyName.slice(\"f_dc_\".length),\n );\n parsers.push(() => {\n // Inject DC coefficients\n const value =\n (rgba[rgbaOffset + component] / 255 - 0.5) / SH_C0;\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n } else if (propertyName === \"opacity\") {\n parsers.push(() => {\n // Inject opacity sigmoid, clamped to [-100, 100]\n const value = Math.max(\n -100,\n Math.min(\n 100,\n -Math.log(1.0 / (rgba[rgbaOffset + 3] / 255) - 1.0),\n ),\n );\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n }\n }\n parsers.push(() => {\n offset += FIELD_BYTES[property.type];\n });\n } else {\n parsers.push(() => {\n const length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n this.littleEndian,\n );\n offset += FIELD_BYTES[property.countType as PlyPropertyType];\n offset += length * FIELD_BYTES[property.type];\n });\n }\n }\n\n for (let index = 0; index < count; index++) {\n // Go through all the data and field parsers to compute offset\n for (const parser of parsers) {\n parser();\n }\n if (isVertex) {\n rgbaOffset += 4;\n }\n }\n }\n }\n}\n\nexport const SH_C0 = 0.28209479177387814;\n\ntype FieldParser = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n) => number;\ntype FieldSetter = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n) => void;\n\nconst PARSE_FIELD: Record = {\n char: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt8(offset);\n },\n uchar: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint8(offset);\n },\n short: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt16(offset, littleEndian);\n },\n ushort: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint16(offset, littleEndian);\n },\n int: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt32(offset, littleEndian);\n },\n uint: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint32(offset, littleEndian);\n },\n float: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat32(offset, littleEndian);\n },\n double: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat64(offset, littleEndian);\n },\n};\n\nconst SET_FIELD: Record = {\n char: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt8(offset, value);\n },\n uchar: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint8(offset, value);\n },\n short: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt16(offset, value, littleEndian);\n },\n ushort: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint16(offset, value, littleEndian);\n },\n int: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt32(offset, value, littleEndian);\n },\n uint: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint32(offset, value, littleEndian);\n },\n float: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat32(offset, value, littleEndian);\n },\n double: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat64(offset, value, littleEndian);\n },\n};\n\nconst FIELD_BYTES: Record = {\n char: 1,\n uchar: 1,\n short: 2,\n ushort: 2,\n int: 4,\n uint: 4,\n float: 4,\n double: 8,\n};\n\nconst FIELD_SCALE: Record = {\n char: 127,\n uchar: 255,\n short: 32767,\n ushort: 65535,\n int: 2147483647,\n uint: 4294967295,\n float: 1,\n double: 1,\n};\n\nconst NUM_F_REST_TO_NUM_SH: Record = {\n 0: 0,\n 9: 1,\n 24: 2,\n 45: 3,\n};\nconst NUM_SH_TO_NUM_F_REST: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nconst F_REST_REGEX = /^f_rest_([0-9]{1,2})$/;\n\nfunction createEmptyItem(\n properties: Record,\n): Record {\n const item: Record = {};\n for (const [propertyName, property] of Object.entries(properties)) {\n // Treat f_rest properties as a single array for performance\n if (F_REST_REGEX.test(propertyName)) {\n item.f_rest = new Array(getNumSh(properties));\n } else {\n item[propertyName] = property.isList ? [] : 0;\n }\n }\n return item;\n}\n\nfunction createParseFn(\n properties: Record,\n littleEndian: boolean,\n) {\n if (USE_COMPILED_PARSER_FUNCTION && safeToCompile(properties)) {\n return createCompiledParserFn(properties, littleEndian);\n }\n return createDynamicParserFn(properties, littleEndian);\n}\n\n// Detect if unsafe eval is allowed in the current execution context\nconst UNSAFE_EVAL_ALLOWED = (() => {\n try {\n new Function(\"return 42;\");\n } catch (e) {\n return false;\n }\n return true;\n})();\nconst PROPERTY_NAME_REGEX = /^[a-zA-Z0-9_]+$/;\n\nfunction safeToCompile(properties: Record) {\n if (!UNSAFE_EVAL_ALLOWED) {\n return false;\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!PROPERTY_NAME_REGEX.test(propertyName)) {\n return false;\n }\n\n if (\n property.isList &&\n !PLY_PROPERTY_TYPES.includes(property.countType as PlyPropertyType)\n ) {\n return false;\n }\n\n if (!PLY_PROPERTY_TYPES.includes(property.type)) {\n return false;\n }\n }\n return true;\n}\n\nfunction createCompiledParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct the parser function source.\n const parserSrc: string[] = [\"let list;\"];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parserSrc.push(/*js*/ `\n item.f_rest[${fRestIndex}] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else if (!property.isList) {\n parserSrc.push(/*js*/ `\n item['${propertyName}'] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else {\n // Property is a list, so parse the count first\n parserSrc.push(/*js*/ `\n list = item['${propertyName}'];\n list.length = PARSE_FIELD['${property.countType}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.countType as PlyPropertyType]};\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n }\n `);\n }\n }\n parserSrc.push(\"return offset;\");\n\n const fn = new Function(\n \"data\",\n \"offset\",\n \"item\",\n \"PARSE_FIELD\",\n parserSrc.join(\"\\n\"),\n );\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => fn(data, offset, item, PARSE_FIELD);\n}\n\nfunction createDynamicParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct an array of parser function to parse each property in an item\n const parsers: Array<\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => number\n > = [];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n (item.f_rest as number[])[fRestIndex] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else if (!property.isList) {\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n item[propertyName] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else {\n // Property is a list, so parse the count first\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n const list = item[propertyName] as number[];\n list.length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n littleEndian,\n );\n let currentOffset =\n offset + FIELD_BYTES[property.countType as PlyPropertyType];\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD[property.type](\n data,\n currentOffset,\n littleEndian,\n );\n currentOffset += FIELD_BYTES[property.type];\n }\n return currentOffset;\n },\n );\n }\n }\n\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n let currentOffset = offset;\n for (let parserIndex = 0; parserIndex < parsers.length; parserIndex++) {\n currentOffset = parsers[parserIndex](data, currentOffset, item);\n }\n return currentOffset;\n };\n}\n\nfunction getNumSh(properties: Record) {\n let num_f_rest = 0;\n while (properties[`f_rest_${num_f_rest}`]) {\n num_f_rest += 1;\n }\n const numSh = NUM_F_REST_TO_NUM_SH[num_f_rest];\n if (numSh == null) {\n throw new Error(`Unsupported number of SH coefficients: ${num_f_rest}`);\n }\n return numSh;\n}\n\ntype SSChunk = {\n min_x: number;\n min_y: number;\n min_z: number;\n max_x: number;\n max_y: number;\n max_z: number;\n min_scale_x: number;\n min_scale_y: number;\n min_scale_z: number;\n max_scale_x: number;\n max_scale_y: number;\n max_scale_z: number;\n min_r?: number;\n min_g?: number;\n min_b?: number;\n max_r?: number;\n max_g?: number;\n max_b?: number;\n};\n","import * as THREE from \"three\";\nimport {\n SplatData,\n type TranscodeSpzInput,\n getSplatFileType,\n getSplatFileTypeFromPath,\n} from \"./SplatLoader\";\nimport { GunzipReader, fromHalf, normalize } from \"./utils\";\n\nimport { decodeAntiSplat } from \"./antisplat\";\nimport { SplatFileType } from \"./defines\";\nimport { decodeKsplat } from \"./ksplat\";\nimport { PlyReader } from \"./ply\";\n\n// SPZ file format reader\n\nexport class SpzReader {\n fileBytes: Uint8Array;\n reader: GunzipReader;\n\n version = -1;\n numSplats = 0;\n shDegree = 0;\n fractionalBits = 0;\n flags = 0;\n flagAntiAlias = false;\n flagLod = false;\n reserved = 0;\n headerParsed = false;\n parsed = false;\n\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n this.reader = new GunzipReader({\n fileBytes: this.fileBytes as Uint8Array,\n });\n }\n\n async parseHeader() {\n if (this.headerParsed) {\n throw new Error(\"SPZ file header already parsed\");\n }\n\n const header = new DataView((await this.reader.read(16)).buffer);\n if (header.getUint32(0, true) !== 0x5053474e) {\n throw new Error(\"Invalid SPZ file\");\n }\n this.version = header.getUint32(4, true);\n if (this.version < 1 || this.version > 3) {\n throw new Error(`Unsupported SPZ version: ${this.version}`);\n }\n\n this.numSplats = header.getUint32(8, true);\n this.shDegree = header.getUint8(12);\n this.fractionalBits = header.getUint8(13);\n this.flags = header.getUint8(14);\n this.flagAntiAlias = (this.flags & 0x01) !== 0;\n this.flagLod = (this.flags & 0x80) !== 0;\n this.reserved = header.getUint8(15);\n this.headerParsed = true;\n this.parsed = false;\n }\n\n async parseSplats(\n centerCallback?: (index: number, x: number, y: number, z: number) => void,\n alphaCallback?: (index: number, alpha: number) => void,\n rgbCallback?: (index: number, r: number, g: number, b: number) => void,\n scalesCallback?: (\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n ) => void,\n quatCallback?: (\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n {\n childCounts,\n childStarts,\n }: {\n childCounts?: (index: number, count: number) => void;\n childStarts?: (index: number, start: number) => void;\n } = {},\n ) {\n if (!this.headerParsed) {\n throw new Error(\"SPZ file header must be parsed first\");\n }\n if (this.parsed) {\n throw new Error(\"SPZ file already parsed\");\n }\n this.parsed = true;\n\n if (this.version === 1) {\n // float16 centers\n const centerBytes = await this.reader.read(this.numSplats * 3 * 2);\n const centerUint16 = new Uint16Array(centerBytes.buffer);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const x = fromHalf(centerUint16[i3]);\n const y = fromHalf(centerUint16[i3 + 1]);\n const z = fromHalf(centerUint16[i3 + 2]);\n centerCallback?.(i, x, y, z);\n }\n } else if (this.version === 2 || this.version === 3) {\n // 24-bit fixed-point centers\n const fixed = 1 << this.fractionalBits;\n const centerBytes = await this.reader.read(this.numSplats * 3 * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i9 = i * 9;\n const x =\n (((centerBytes[i9 + 2] << 24) |\n (centerBytes[i9 + 1] << 16) |\n (centerBytes[i9] << 8)) >>\n 8) /\n fixed;\n const y =\n (((centerBytes[i9 + 5] << 24) |\n (centerBytes[i9 + 4] << 16) |\n (centerBytes[i9 + 3] << 8)) >>\n 8) /\n fixed;\n const z =\n (((centerBytes[i9 + 8] << 24) |\n (centerBytes[i9 + 7] << 16) |\n (centerBytes[i9 + 6] << 8)) >>\n 8) /\n fixed;\n centerCallback?.(i, x, y, z);\n }\n } else {\n throw new Error(\"Unreachable\");\n }\n\n {\n const bytes = await this.reader.read(this.numSplats);\n for (let i = 0; i < this.numSplats; i++) {\n alphaCallback?.(i, bytes[i] / 255);\n }\n }\n {\n const rgbBytes = await this.reader.read(this.numSplats * 3);\n const scale = SH_C0 / 0.15;\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const r = (rgbBytes[i3] / 255 - 0.5) * scale + 0.5;\n const g = (rgbBytes[i3 + 1] / 255 - 0.5) * scale + 0.5;\n const b = (rgbBytes[i3 + 2] / 255 - 0.5) * scale + 0.5;\n rgbCallback?.(i, r, g, b);\n }\n }\n {\n const scalesBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const scaleX = Math.exp(scalesBytes[i3] / 16 - 10);\n const scaleY = Math.exp(scalesBytes[i3 + 1] / 16 - 10);\n const scaleZ = Math.exp(scalesBytes[i3 + 2] / 16 - 10);\n scalesCallback?.(i, scaleX, scaleY, scaleZ);\n }\n }\n if (this.version === 3) {\n // Version 3 uses a trick called \"smallest three\" to compress the rotation quaternions\n // achieving better precision. \"Optimizing orientation\" section at https://gafferongames.com/post/snapshot_compression/ A quaternion length must be 1: x^2+y^2+z^2+w^2 = 1\n // We can drop one component and reconstruct it with the identity above.\n // Largest component is dropped for best numerical precision.\n // Quaternion stored in 32 bits\n // 10 bits singed integer for each of the 3 components + 2 bits indicating the index of dropped component.\n // vs 8 bits for each component uncompressed (spz version < 3)\n // Max Value after extracting largest component v is another component v\n // (v,v,0,0)\n // v^2 + v^2 = 1\n // v = 1 / sqrt(2);\n const maxValue = 1 / Math.sqrt(2); // 0.7071\n const quatBytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 4;\n const quaternion = [0, 0, 0, 0];\n const values = [\n quatBytes[i3],\n quatBytes[i3 + 1],\n quatBytes[i3 + 2],\n quatBytes[i3 + 3],\n ];\n // all values are packed in 32 bits (10 per each of 3 components + 2 bits of index of larged value)\n const combinedValues =\n values[0] + (values[1] << 8) + (values[2] << 16) + (values[3] << 24);\n // each component value is 9 bits + sign (1 bit)\n const valueMask = (1 << 9) - 1;\n // extract index of the largest element. 2 top bits.\n const largestIndex = combinedValues >>> 30;\n let remainingValues = combinedValues;\n let sumSquares = 0;\n\n for (let i = 3; i >= 0; --i) {\n if (i !== largestIndex) {\n // extract current value and sign.\n const value = remainingValues & valueMask;\n const sign = (remainingValues >>> 9) & 0x1;\n // each value is represented as 10 bits. Shift to next one.\n remainingValues = remainingValues >>> 10;\n // convert to range [0,1] and then to [0, 0.7071]\n quaternion[i] = maxValue * (value / valueMask);\n // apply sign.\n quaternion[i] = sign === 0 ? quaternion[i] : -quaternion[i];\n // accumulate the sum of squares\n sumSquares += quaternion[i] * quaternion[i];\n }\n }\n\n // quartenion length must be 1 (x^2+y^2+z^2+w^2 = 1)\n // so can reconstruct largest component from the other 3.\n // w = sqrt(1 - x^2 - y^2 - z^2);\n const square = 1 - sumSquares;\n quaternion[largestIndex] = Math.sqrt(Math.max(square, 0));\n\n quatCallback?.(\n i,\n quaternion[0],\n quaternion[1],\n quaternion[2],\n quaternion[3],\n );\n }\n } else {\n const quatBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const quatX = quatBytes[i3] / 127.5 - 1;\n const quatY = quatBytes[i3 + 1] / 127.5 - 1;\n const quatZ = quatBytes[i3 + 2] / 127.5 - 1;\n const quatW = Math.sqrt(\n Math.max(0, 1 - quatX * quatX - quatY * quatY - quatZ * quatZ),\n );\n quatCallback?.(i, quatX, quatY, quatZ, quatW);\n }\n }\n\n if (shCallback && this.shDegree >= 1) {\n const sh1 = new Float32Array(3 * 3);\n const sh2 = this.shDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 = this.shDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n const shBytes = await this.reader.read(\n this.numSplats * SH_DEGREE_TO_VECS[this.shDegree] * 3,\n );\n\n let offset = 0;\n for (let i = 0; i < this.numSplats; i++) {\n for (let j = 0; j < 9; ++j) {\n sh1[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 9;\n if (sh2) {\n for (let j = 0; j < 15; ++j) {\n sh2[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 15;\n }\n if (sh3) {\n for (let j = 0; j < 21; ++j) {\n sh3[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 21;\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n if (this.flagLod) {\n let bytes = await this.reader.read(this.numSplats * 2);\n for (let i = 0; i < this.numSplats; i++) {\n const i2 = i * 2;\n const count = bytes[i2] + (bytes[i2 + 1] << 8);\n childCounts?.(i, count);\n }\n\n bytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i4 = i * 4;\n const start =\n bytes[i4] +\n (bytes[i4 + 1] << 8) +\n (bytes[i4 + 2] << 16) +\n (bytes[i4 + 3] << 24);\n childStarts?.(i, start);\n }\n }\n }\n}\n\nconst SH_DEGREE_TO_VECS: Record = { 1: 3, 2: 8, 3: 15 };\nconst SH_C0 = 0.28209479177387814;\n\nexport const SPZ_MAGIC = 0x5053474e; // NGSP = Niantic gaussian splat\nexport const SPZ_VERSION = 3;\nexport const FLAG_ANTIALIASED = 0x1;\n\nexport class SpzWriter {\n buffer: ArrayBuffer;\n view: DataView;\n numSplats: number;\n shDegree: number;\n fractionalBits: number;\n fraction: number;\n flagAntiAlias: boolean;\n clippedCount = 0;\n\n constructor({\n numSplats,\n shDegree,\n fractionalBits = 12,\n flagAntiAlias = true,\n }: {\n numSplats: number;\n shDegree: number;\n fractionalBits?: number;\n flagAntiAlias?: boolean;\n }) {\n const splatSize =\n 9 + // Position\n 1 + // Opacity\n 3 + // Scale\n 3 + // DC-rgb\n 4 + // Rotation\n (shDegree >= 1 ? 9 : 0) +\n (shDegree >= 2 ? 15 : 0) +\n (shDegree >= 3 ? 21 : 0);\n const bufferSize = 16 + numSplats * splatSize;\n this.buffer = new ArrayBuffer(bufferSize);\n this.view = new DataView(this.buffer);\n\n this.view.setUint32(0, SPZ_MAGIC, true); // NGSP\n this.view.setUint32(4, SPZ_VERSION, true);\n this.view.setUint32(8, numSplats, true);\n this.view.setUint8(12, shDegree);\n this.view.setUint8(13, fractionalBits);\n this.view.setUint8(14, flagAntiAlias ? FLAG_ANTIALIASED : 0);\n this.view.setUint8(15, 0); // Reserved\n\n this.numSplats = numSplats;\n this.shDegree = shDegree;\n this.fractionalBits = fractionalBits;\n this.fraction = 1 << fractionalBits;\n this.flagAntiAlias = flagAntiAlias;\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n // Divide by this.fraction and round to nearest integer,\n // then write as 3-bytes per x then y then z.\n const xRounded = Math.round(x * this.fraction);\n const xInt = Math.max(-0x7fffff, Math.min(0x7fffff, xRounded));\n const yRounded = Math.round(y * this.fraction);\n const yInt = Math.max(-0x7fffff, Math.min(0x7fffff, yRounded));\n const zRounded = Math.round(z * this.fraction);\n const zInt = Math.max(-0x7fffff, Math.min(0x7fffff, zRounded));\n const clipped = xRounded !== xInt || yRounded !== yInt || zRounded !== zInt;\n if (clipped) {\n this.clippedCount += 1;\n // if (this.clippedCount < 10) {\n // // Write x y z also in hex\n // console.log(`Clipped ${index}: ${x}, ${y}, ${z} (0x${x.toString(16)}, 0x${y.toString(16)}, 0x${z.toString(16)}) -> ${xRounded}, ${yRounded}, ${zRounded} (0x${xRounded.toString(16)}, 0x${yRounded.toString(16)}, 0x${zRounded.toString(16)}) -> ${xInt}, ${yInt}, ${zInt} (0x${xInt.toString(16)}, 0x${yInt.toString(16)}, 0x${zInt.toString(16)})`);\n // }\n }\n const i9 = index * 9;\n const base = 16 + i9;\n this.view.setUint8(base, xInt & 0xff);\n this.view.setUint8(base + 1, (xInt >> 8) & 0xff);\n this.view.setUint8(base + 2, (xInt >> 16) & 0xff);\n this.view.setUint8(base + 3, yInt & 0xff);\n this.view.setUint8(base + 4, (yInt >> 8) & 0xff);\n this.view.setUint8(base + 5, (yInt >> 16) & 0xff);\n this.view.setUint8(base + 6, zInt & 0xff);\n this.view.setUint8(base + 7, (zInt >> 8) & 0xff);\n this.view.setUint8(base + 8, (zInt >> 16) & 0xff);\n }\n\n setAlpha(index: number, alpha: number) {\n const base = 16 + this.numSplats * 9 + index;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round(alpha * 255))),\n );\n }\n\n static scaleRgb(r: number) {\n const v = ((r - 0.5) / (SH_C0 / 0.15) + 0.5) * 255;\n return Math.max(0, Math.min(255, Math.round(v)));\n }\n\n setRgb(index: number, r: number, g: number, b: number) {\n const base = 16 + this.numSplats * 10 + index * 3;\n this.view.setUint8(base, SpzWriter.scaleRgb(r));\n this.view.setUint8(base + 1, SpzWriter.scaleRgb(g));\n this.view.setUint8(base + 2, SpzWriter.scaleRgb(b));\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n const base = 16 + this.numSplats * 13 + index * 3;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleX) + 10) * 16))),\n );\n this.view.setUint8(\n base + 1,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleY) + 10) * 16))),\n );\n this.view.setUint8(\n base + 2,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleZ) + 10) * 16))),\n );\n }\n\n setQuat(\n index: number,\n ...q: [number, number, number, number] // x, y, z, w\n ) {\n const base = 16 + this.numSplats * 16 + index * 4;\n\n const quat = normalize(q);\n\n // Find largest component\n let iLargest = 0;\n for (let i = 1; i < 4; ++i) {\n if (Math.abs(quat[i]) > Math.abs(quat[iLargest])) {\n iLargest = i;\n }\n }\n\n // Since -quat represents the same rotation as quat, transform the quaternion so the largest element\n // is positive. This avoids having to send its sign bit.\n const negate = quat[iLargest] < 0 ? 1 : 0;\n\n // Do compression using sign bit and 9-bit precision per element.\n let comp = iLargest;\n for (let i = 0; i < 4; ++i) {\n if (i !== iLargest) {\n const negbit = (quat[i] < 0 ? 1 : 0) ^ negate;\n const mag = Math.floor(\n ((1 << 9) - 1) * (Math.abs(quat[i]) / Math.SQRT1_2) + 0.5,\n );\n comp = (comp << 10) | (negbit << 9) | mag;\n }\n }\n\n this.view.setUint8(base, comp & 0xff);\n this.view.setUint8(base + 1, (comp >> 8) & 0xff);\n this.view.setUint8(base + 2, (comp >> 16) & 0xff);\n this.view.setUint8(base + 3, (comp >>> 24) & 0xff);\n }\n\n static quantizeSh(sh: number, bits: number) {\n const value = Math.round(sh * 128) + 128;\n const bucketSize = 1 << (8 - bits);\n const quantized =\n Math.floor((value + bucketSize / 2) / bucketSize) * bucketSize;\n return Math.max(0, Math.min(255, quantized));\n }\n\n setSh(\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) {\n const shVecs = SH_DEGREE_TO_VECS[this.shDegree] || 0;\n const base1 = 16 + this.numSplats * 20 + index * shVecs * 3;\n for (let j = 0; j < 9; ++j) {\n this.view.setUint8(base1 + j, SpzWriter.quantizeSh(sh1[j], 5));\n }\n if (sh2) {\n const base2 = base1 + 9;\n for (let j = 0; j < 15; ++j) {\n this.view.setUint8(base2 + j, SpzWriter.quantizeSh(sh2[j], 4));\n }\n if (sh3) {\n const base3 = base2 + 15;\n for (let j = 0; j < 21; ++j) {\n this.view.setUint8(base3 + j, SpzWriter.quantizeSh(sh3[j], 4));\n }\n }\n }\n }\n\n async finalize(): Promise {\n const input = new Uint8Array(this.buffer);\n const stream = new ReadableStream({\n async start(controller) {\n controller.enqueue(input);\n controller.close();\n },\n });\n const compressed = stream.pipeThrough(new CompressionStream(\"gzip\"));\n const response = new Response(compressed);\n const buffer = await response.arrayBuffer();\n console.log(\n \"Compressed\",\n input.length,\n \"bytes to\",\n buffer.byteLength,\n \"bytes\",\n );\n return new Uint8Array(buffer);\n }\n}\n\nexport async function transcodeSpz(input: TranscodeSpzInput) {\n const splats = new SplatData();\n const {\n inputs,\n clipXyz,\n maxSh,\n fractionalBits = 12,\n opacityThreshold,\n } = input;\n for (const input of inputs) {\n const scale = input.transform?.scale ?? 1;\n const quaternion = new THREE.Quaternion().fromArray(\n input.transform?.quaternion ?? [0, 0, 0, 1],\n );\n const translate = new THREE.Vector3().fromArray(\n input.transform?.translate ?? [0, 0, 0],\n );\n const clip = clipXyz\n ? new THREE.Box3(\n new THREE.Vector3().fromArray(clipXyz.min),\n new THREE.Vector3().fromArray(clipXyz.max),\n )\n : undefined;\n\n function transformPos(pos: THREE.Vector3) {\n pos.multiplyScalar(scale);\n pos.applyQuaternion(quaternion);\n pos.add(translate);\n return pos;\n }\n\n function transformScales(scales: THREE.Vector3) {\n scales.multiplyScalar(scale);\n return scales;\n }\n\n function transformQuaternion(quat: THREE.Quaternion) {\n quat.premultiply(quaternion);\n return quat;\n }\n\n function withinClip(p: THREE.Vector3) {\n return !clip || clip.containsPoint(p);\n }\n\n function withinOpacity(opacity: number) {\n return opacityThreshold !== undefined\n ? opacity >= opacityThreshold\n : true;\n }\n\n let fileType = input.fileType;\n if (!fileType) {\n fileType = getSplatFileType(input.fileBytes);\n if (!fileType && input.pathOrUrl) {\n fileType = getSplatFileTypeFromPath(input.pathOrUrl);\n }\n }\n switch (fileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes: input.fileBytes });\n await ply.parseHeader();\n let lastIndex: number | null = null;\n ply.parseSplats(\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (sh1 && lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n }\n if (sh2 && lastIndex !== null) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3 && lastIndex !== null) {\n splats.setSh3(lastIndex, sh3);\n }\n },\n );\n break;\n }\n case SplatFileType.SPZ: {\n const spz = new SpzReader({ fileBytes: input.fileBytes });\n await spz.parseHeader();\n const mapping = new Int32Array(spz.numSplats);\n mapping.fill(-1);\n const centers = new Float32Array(spz.numSplats * 3);\n const center = new THREE.Vector3();\n spz.parseSplats(\n (index, x, y, z) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n centers[index * 3] = center.x;\n centers[index * 3 + 1] = center.y;\n centers[index * 3 + 2] = center.z;\n },\n (index, alpha) => {\n center.fromArray(centers, index * 3);\n if (withinClip(center) && withinOpacity(alpha)) {\n mapping[index] = splats.pushSplat();\n splats.setCenter(mapping[index], center.x, center.y, center.z);\n splats.setOpacity(mapping[index], alpha);\n }\n },\n (index, r, g, b) => {\n if (mapping[index] >= 0) {\n splats.setColor(mapping[index], r, g, b);\n }\n },\n (index, scaleX, scaleY, scaleZ) => {\n if (mapping[index] >= 0) {\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(mapping[index], scales.x, scales.y, scales.z);\n }\n },\n (index, quatX, quatY, quatZ, quatW) => {\n if (mapping[index] >= 0) {\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n mapping[index],\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n }\n },\n (index, sh1, sh2, sh3) => {\n if (mapping[index] >= 0) {\n splats.setSh1(mapping[index], sh1);\n if (sh2) {\n splats.setSh2(mapping[index], sh2);\n }\n if (sh3) {\n splats.setSh3(mapping[index], sh3);\n }\n }\n },\n );\n break;\n }\n case SplatFileType.SPLAT:\n decodeAntiSplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n const index = splats.pushSplat();\n splats.setCenter(index, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(index, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n index,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(index, opacity);\n splats.setColor(index, r, g, b);\n }\n },\n );\n break;\n case SplatFileType.KSPLAT: {\n let lastIndex: number | null = null;\n decodeKsplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n if (sh2) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n },\n );\n break;\n }\n default:\n throw new Error(`transcodeSpz not implemented for ${fileType}`);\n }\n }\n\n const shDegree = Math.min(\n maxSh ?? 3,\n splats.sh3 ? 3 : splats.sh2 ? 2 : splats.sh1 ? 1 : 0,\n );\n const spz = new SpzWriter({\n numSplats: splats.numSplats,\n shDegree,\n fractionalBits,\n flagAntiAlias: true,\n });\n\n for (let i = 0; i < splats.numSplats; ++i) {\n const i3 = i * 3;\n const i4 = i * 4;\n spz.setCenter(\n i,\n splats.centers[i3],\n splats.centers[i3 + 1],\n splats.centers[i3 + 2],\n );\n spz.setScale(\n i,\n splats.scales[i3],\n splats.scales[i3 + 1],\n splats.scales[i3 + 2],\n );\n spz.setQuat(\n i,\n splats.quaternions[i4],\n splats.quaternions[i4 + 1],\n splats.quaternions[i4 + 2],\n splats.quaternions[i4 + 3],\n );\n spz.setAlpha(i, splats.opacities[i]);\n spz.setRgb(\n i,\n splats.colors[i3],\n splats.colors[i3 + 1],\n splats.colors[i3 + 2],\n );\n if (splats.sh1 && shDegree >= 1) {\n spz.setSh(\n i,\n splats.sh1.slice(i * 9, (i + 1) * 9),\n shDegree >= 2 && splats.sh2\n ? splats.sh2.slice(i * 15, (i + 1) * 15)\n : undefined,\n shDegree >= 3 && splats.sh3\n ? splats.sh3.slice(i * 21, (i + 1) * 21)\n : undefined,\n );\n }\n }\n\n const spzBytes = await spz.finalize();\n return { fileBytes: spzBytes, clippedCount: spz.clippedCount };\n}\n","import { unzipSync } from \"fflate\";\nimport { FileLoader, Loader, type LoadingManager } from \"three\";\nimport { ExtSplats, type ExtSplatsOptions } from \"./ExtSplats\";\nimport { withWorker } from \"./OldSplatWorker\";\nimport { PackedSplats, type PackedSplatsOptions } from \"./PackedSplats\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport { type SplatEncoding, SplatFileType } from \"./defines\";\nimport { PlyReader } from \"./ply\";\nimport { decompressPartialGzip, getTextureSize } from \"./utils\";\n\n// SplatLoader implements the THREE.Loader interface and supports loading a variety\n// of different Gsplat file formats. Formats .PLY and .SPZ can be auto-detected\n// from the file contents, while .SPLAT and .KSPLAT require either having the\n// appropriate file extension as part of the path, or it can be explicitly set\n// in the loader using the fileType property.\n\nexport class SplatLoader extends Loader {\n fileLoader: FileLoader;\n\n constructor(manager?: LoadingManager) {\n super(manager);\n this.fileLoader = new FileLoader(manager);\n }\n\n load(\n url: string,\n onLoad?: (decoded: PackedSplats | ExtSplats) => void,\n onProgress?: (event: ProgressEvent) => void,\n onError?: (error: unknown) => void,\n ) {\n return this.loadInternal({\n url,\n onLoad,\n onProgress,\n onError,\n });\n }\n\n async loadAsync(\n url: string,\n onProgress?: (event: ProgressEvent) => void,\n ): Promise {\n return new Promise((resolve, reject) => {\n this.load(\n url,\n (decoded) => {\n resolve(decoded);\n },\n onProgress,\n reject,\n );\n });\n }\n\n parse(packedSplats: PackedSplats): SplatMesh {\n return new SplatMesh({ packedSplats });\n }\n\n loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad,\n onProgress,\n onError,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onLoad?: (decoded: PackedSplats | ExtSplats) => void;\n onProgress?: (event: ProgressEvent) => void;\n onError?: (error: unknown) => void;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n if (fileBytes instanceof ArrayBuffer) {\n fileBytes = new Uint8Array(fileBytes);\n }\n const resolvedURL = fileBytes\n ? undefined\n : this.manager.resolveURL((this.path ?? \"\") + (url ?? \"\"));\n\n let readStream = stream?.getReader();\n\n this.manager.itemStart(resolvedURL ?? \"\");\n // let calledOnLoad = false;\n\n workerPool\n .withWorker(async (worker) => {\n // If LoD is set and not falsey\n const splatsLod = packedSplats?.lod ?? extSplats?.lod;\n if (splatsLod) {\n lod = splatsLod;\n }\n const splatsNonLod = packedSplats?.nonLod ?? extSplats?.nonLod;\n if (splatsNonLod !== undefined) {\n nonLod = splatsNonLod;\n }\n\n // let init: {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // } | null = null;\n // let initExt: {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // } | null = null;\n\n const onStatus = async (data: unknown) => {\n const { loaded, total } = data as { loaded: number; total: number };\n if (loaded !== undefined && onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n\n if ((data as { nextChunk?: boolean }).nextChunk) {\n let chunk: Uint8Array;\n if (!readStream) {\n chunk = new Uint8Array(0);\n } else {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n readStream = undefined;\n chunk = new Uint8Array(0);\n } else {\n chunk = value;\n }\n }\n worker.call(\"nextChunk\", { chunk });\n }\n\n // if ((data as { orig?: unknown }).orig) {\n // if (extSplats) {\n // initExt = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // };\n // extSplats.initialize({\n // numSplats: initExt?.numSplats,\n // extArrays: [initExt?.ext0, initExt?.ext1],\n // extra: initExt?.extra,\n // });\n // calledOnLoad = true;\n // onLoad?.(extSplats);\n // } else if (packedSplats) {\n // init = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // };\n // packedSplats.initialize({\n // numSplats: init?.numSplats,\n // packedArray: init?.packedArray,\n // extra: init?.extra,\n // splatEncoding: init?.splatEncoding,\n // });\n // calledOnLoad = true;\n // onLoad?.(packedSplats);\n // } else {\n // console.warn(\"No splats to initialize\");\n // }\n // }\n };\n\n const basedUrl = resolvedURL\n ? new URL(resolvedURL, window.location.href).toString()\n : undefined;\n const decoded = (await worker.call(\n extSplats ? \"loadExtSplats\" : \"loadPackedSplats\",\n {\n url: basedUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n fileBytes: fileBytes?.slice(),\n fileType,\n pathName: resolvedURL || fileName,\n chunked: stream !== undefined,\n chunkedLength: streamLength,\n encoding: packedSplats?.splatEncoding,\n lod,\n lodBase,\n nonLod,\n lodAbove,\n },\n { onStatus },\n )) as {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n lodSplats?:\n | {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n }\n | PackedSplats\n | ExtSplats;\n };\n\n if (decoded.lodSplats) {\n if (extSplats) {\n decoded.lodSplats = new ExtSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record;\n }),\n });\n } else {\n decoded.lodSplats = new PackedSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n packedArray: Uint32Array;\n extra: Record;\n splatEncoding: SplatEncoding;\n }),\n maxSplats: packedSplats?.maxSplats,\n });\n }\n }\n\n if (extSplats) {\n const initExtSplats = {\n // ...(initExt ?? {}),\n ...decoded,\n };\n extSplats.initialize(initExtSplats as ExtSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(extSplats);\n // }\n } else {\n const initSplats = {\n // ...(init ?? {}),\n ...decoded,\n };\n if (packedSplats) {\n packedSplats.initialize(initSplats as PackedSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(packedSplats);\n // }\n } else {\n // if (!calledOnLoad) {\n onLoad?.(new PackedSplats(initSplats as PackedSplatsOptions));\n // }\n }\n }\n })\n .catch((error) => {\n this.manager.itemError(resolvedURL ?? \"\");\n onError?.(error);\n })\n .finally(() => {\n this.manager.itemEnd(resolvedURL ?? \"\");\n });\n }\n\n async loadInternalAsync({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onProgress?: (event: ProgressEvent) => void;\n lod?: boolean;\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n return new Promise((resolve, reject) => {\n this.loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad: resolve,\n onProgress,\n onError: reject,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n });\n });\n }\n}\n\nasync function fetchWithProgress(\n request: Request,\n onProgress?: (event: ProgressEvent) => void,\n) {\n const response = await fetch(request);\n if (!response.ok) {\n throw new Error(\n `${response.status} \"${response.statusText}\" fetching URL: ${request.url}`,\n );\n }\n if (!response.body) {\n throw new Error(`Response body is null for URL: ${request.url}`);\n }\n\n const reader = response.body.getReader();\n let loaded = 0;\n const chunks: Uint8Array[] = [];\n try {\n const contentLength = Number.parseInt(\n response.headers.get(\"Content-Length\") || \"0\",\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n\n while (true) {\n const { done, value } = await reader.read();\n if (done) {\n break;\n }\n chunks.push(value);\n loaded += value.length;\n\n if (onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n }\n } catch (err) {\n try {\n const reason = err instanceof Error ? err.message : \"Unknown error\";\n await reader.cancel(reason);\n } catch {}\n throw err;\n }\n\n // Combine chunks into a single buffer\n const bytes = new Uint8Array(loaded);\n let offset = 0;\n for (const chunk of chunks) {\n bytes.set(chunk, offset);\n offset += chunk.length;\n }\n return bytes.buffer;\n}\n\nexport function getSplatFileType(\n fileBytes: Uint8Array,\n): SplatFileType | undefined {\n const view = new DataView(fileBytes.buffer);\n const magic = view.getUint32(0, true);\n if ((magic & 0x00ffffff) === 0x00796c70) {\n return SplatFileType.PLY;\n }\n if ((magic & 0x00ffffff) === 0x00088b1f) {\n // Gzipped file, unpack beginning to check magic number\n const header = decompressPartialGzip(fileBytes, 4);\n const gView = new DataView(header.buffer);\n if (gView.getUint32(0, true) === 0x5053474e) {\n return SplatFileType.SPZ;\n }\n // Unknown Gzipped file type\n return undefined;\n }\n if (magic === 0x04034b50) {\n // PKZip file\n if (tryPcSogsZip(fileBytes)) {\n return SplatFileType.PCSOGSZIP;\n }\n // Unknown PKZip file type\n return undefined;\n }\n if (magic === 0x30444152) {\n return SplatFileType.RAD;\n }\n // Unknown file type\n return undefined;\n}\n\n// Returns the lowercased file extension from a path or URL\nexport function getFileExtension(pathOrUrl: string): string {\n const noTrailing = pathOrUrl.split(/[?#]/, 1)[0];\n const lastSlash = Math.max(\n noTrailing.lastIndexOf(\"/\"),\n noTrailing.lastIndexOf(\"\\\\\"),\n );\n const filename = noTrailing.slice(lastSlash + 1);\n const lastDot = filename.lastIndexOf(\".\");\n if (lastDot <= 0 || lastDot === filename.length - 1) {\n return \"\"; // No extension\n }\n return filename.slice(lastDot + 1).toLowerCase();\n}\n\nexport function getSplatFileTypeFromPath(\n pathOrUrl: string,\n): SplatFileType | undefined {\n const extension = getFileExtension(pathOrUrl);\n if (extension === \"ply\") {\n return SplatFileType.PLY;\n }\n if (extension === \"spz\") {\n return SplatFileType.SPZ;\n }\n if (extension === \"splat\") {\n return SplatFileType.SPLAT;\n }\n if (extension === \"ksplat\") {\n return SplatFileType.KSPLAT;\n }\n if (extension === \"sog\") {\n return SplatFileType.PCSOGSZIP;\n }\n if (extension === \"rad\") {\n return SplatFileType.RAD;\n }\n return undefined;\n}\n\nexport type PcSogsJson = {\n means: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n quats: { shape: number[]; dtype: string; encoding?: string; files: string[] };\n sh0: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n shN?: {\n shape: number[];\n dtype: string;\n mins: number;\n maxs: number;\n quantization: number;\n files: string[];\n };\n};\n\nexport type PcSogsV2Json = {\n version: 2;\n count: number;\n antialias?: boolean;\n means: {\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n codebook: number[];\n files: string[];\n };\n quats: { files: string[] };\n sh0: {\n codebook: number[];\n files: string[];\n };\n shN?: {\n count: number;\n bands: number;\n codebook: number[];\n files: string[];\n };\n};\n\nexport function isPcSogs(input: ArrayBuffer | Uint8Array | string): boolean {\n // Returns true if the input seems to be a valid PC SOGS file\n return tryPcSogs(input) !== undefined;\n}\n\nexport function tryPcSogs(\n input: ArrayBuffer | Uint8Array | string,\n): PcSogsJson | PcSogsV2Json | undefined {\n // Try to parse input as SOGS JSON and see if it's valid\n try {\n let text: string;\n if (typeof input === \"string\") {\n text = input;\n } else {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n if (fileBytes.length > 65536) {\n // Should be only a few KB, definitely not a SOGS JSON file\n return undefined;\n }\n text = new TextDecoder().decode(fileBytes);\n }\n\n const json = JSON.parse(text);\n if (!json || typeof json !== \"object\" || Array.isArray(json)) {\n return undefined;\n }\n const isVersion2 = json.version === 2;\n\n for (const key of [\"means\", \"scales\", \"quats\", \"sh0\"]) {\n if (\n !json[key] ||\n typeof json[key] !== \"object\" ||\n Array.isArray(json[key])\n ) {\n return undefined;\n }\n if (isVersion2) {\n // Expect files\n if (!json[key].files) {\n return undefined;\n }\n\n // Scales and sh0 should have codebooks\n if ((key === \"scales\" || key === \"sh0\") && !json[key].codebook) {\n return undefined;\n }\n // Means should have mins and maxs defined\n if (key === \"means\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n } else {\n // Expect shape and files\n if (!json[key].shape || !json[key].files) {\n return undefined;\n }\n // Besides 'quats' all other properties have mins and maxs\n if (key !== \"quats\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n }\n }\n // This is probably a PC SOGS file\n return json as PcSogsJson | PcSogsV2Json;\n } catch {\n return undefined;\n }\n}\n\nexport function tryPcSogsZip(\n input: ArrayBuffer | Uint8Array,\n): { name: string; json: PcSogsJson | PcSogsV2Json } | undefined {\n try {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let metaFilename: string | null = null;\n\n const unzipped = unzipSync(fileBytes, {\n filter: ({ name }) => {\n const filename = name.split(/[\\\\/]/).pop() as string;\n if (filename === \"meta.json\") {\n metaFilename = name;\n return true;\n }\n return false;\n },\n });\n if (!metaFilename) {\n return undefined;\n }\n\n // Check for PC SOGS V1 and V2 (aka SOG)\n const json = tryPcSogs(unzipped[metaFilename]);\n if (!json) {\n return undefined;\n }\n return { name: metaFilename, json };\n } catch {\n return undefined;\n }\n}\n\nexport async function unpackSplats({\n input,\n extraFiles,\n fileType,\n pathOrUrl,\n splatEncoding,\n}: {\n input: Uint8Array | ArrayBuffer;\n extraFiles?: Record;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n splatEncoding?: SplatEncoding;\n}): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra?: Record;\n}> {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let splatFileType = fileType;\n if (!fileType) {\n splatFileType = getSplatFileType(fileBytes);\n if (!splatFileType && pathOrUrl) {\n splatFileType = getSplatFileTypeFromPath(pathOrUrl);\n }\n }\n\n switch (splatFileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n const maxSplats = getTextureSize(numSplats).maxSplats;\n const args = {\n fileBytes,\n packedArray: new Uint32Array(maxSplats * 4),\n splatEncoding,\n };\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"unpackPly\",\n args,\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPZ: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeSpz\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats } = (await worker.call(\n \"decodeAntiSplat\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as { packedArray: Uint32Array; numSplats: number };\n return { packedArray, numSplats };\n });\n }\n case SplatFileType.KSPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeKsplat\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGS: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogs\",\n { fileBytes, extraFiles, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGSZIP: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogsZip\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n default: {\n throw new Error(`Unknown splat file type: ${splatFileType}`);\n }\n }\n}\n\nexport class SplatData {\n numSplats: number;\n maxSplats: number;\n centers: Float32Array;\n scales: Float32Array;\n quaternions: Float32Array;\n opacities: Float32Array;\n colors: Float32Array;\n sh1?: Float32Array;\n sh2?: Float32Array;\n sh3?: Float32Array;\n\n constructor({ maxSplats = 1 }: { maxSplats?: number } = {}) {\n this.numSplats = 0;\n this.maxSplats = getTextureSize(maxSplats).maxSplats;\n this.centers = new Float32Array(this.maxSplats * 3);\n this.scales = new Float32Array(this.maxSplats * 3);\n this.quaternions = new Float32Array(this.maxSplats * 4);\n this.opacities = new Float32Array(this.maxSplats);\n this.colors = new Float32Array(this.maxSplats * 3);\n }\n\n pushSplat(): number {\n const index = this.numSplats;\n this.ensureIndex(index);\n this.numSplats += 1;\n return index;\n }\n\n unpushSplat(index: number) {\n if (index === this.numSplats - 1) {\n this.numSplats -= 1;\n } else {\n throw new Error(\"Cannot unpush splat from non-last position\");\n }\n }\n\n ensureCapacity(numSplats: number) {\n if (numSplats > this.maxSplats) {\n const targetSplats = Math.max(numSplats, this.maxSplats * 2);\n const newCenters = new Float32Array(targetSplats * 3);\n const newScales = new Float32Array(targetSplats * 3);\n const newQuaternions = new Float32Array(targetSplats * 4);\n const newOpacities = new Float32Array(targetSplats);\n const newColors = new Float32Array(targetSplats * 3);\n newCenters.set(this.centers);\n newScales.set(this.scales);\n newQuaternions.set(this.quaternions);\n newOpacities.set(this.opacities);\n newColors.set(this.colors);\n this.centers = newCenters;\n this.scales = newScales;\n this.quaternions = newQuaternions;\n this.opacities = newOpacities;\n this.colors = newColors;\n\n if (this.sh1) {\n const newSh1 = new Float32Array(targetSplats * 9);\n newSh1.set(this.sh1);\n this.sh1 = newSh1;\n }\n if (this.sh2) {\n const newSh2 = new Float32Array(targetSplats * 15);\n newSh2.set(this.sh2);\n this.sh2 = newSh2;\n }\n if (this.sh3) {\n const newSh3 = new Float32Array(targetSplats * 21);\n newSh3.set(this.sh3);\n this.sh3 = newSh3;\n }\n\n this.maxSplats = targetSplats;\n }\n }\n\n ensureIndex(index: number) {\n this.ensureCapacity(index + 1);\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n this.centers[index * 3] = x;\n this.centers[index * 3 + 1] = y;\n this.centers[index * 3 + 2] = z;\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n this.scales[index * 3] = scaleX;\n this.scales[index * 3 + 1] = scaleY;\n this.scales[index * 3 + 2] = scaleZ;\n }\n\n setQuaternion(index: number, x: number, y: number, z: number, w: number) {\n this.quaternions[index * 4] = x;\n this.quaternions[index * 4 + 1] = y;\n this.quaternions[index * 4 + 2] = z;\n this.quaternions[index * 4 + 3] = w;\n }\n\n setOpacity(index: number, opacity: number) {\n this.opacities[index] = opacity;\n }\n\n setColor(index: number, r: number, g: number, b: number) {\n this.colors[index * 3] = r;\n this.colors[index * 3 + 1] = g;\n this.colors[index * 3 + 2] = b;\n }\n\n setSh1(index: number, sh1: Float32Array) {\n if (!this.sh1) {\n this.sh1 = new Float32Array(this.maxSplats * 9);\n }\n for (let j = 0; j < 9; ++j) {\n this.sh1[index * 9 + j] = sh1[j];\n }\n }\n\n setSh2(index: number, sh2: Float32Array) {\n if (!this.sh2) {\n this.sh2 = new Float32Array(this.maxSplats * 15);\n }\n for (let j = 0; j < 15; ++j) {\n this.sh2[index * 15 + j] = sh2[j];\n }\n }\n\n setSh3(index: number, sh3: Float32Array) {\n if (!this.sh3) {\n this.sh3 = new Float32Array(this.maxSplats * 21);\n }\n for (let j = 0; j < 21; ++j) {\n this.sh3[index * 21 + j] = sh3[j];\n }\n }\n}\n\nexport async function transcodeSpz(\n input: TranscodeSpzInput,\n): Promise<{ input: TranscodeSpzInput; fileBytes: Uint8Array }> {\n return await withWorker(async (worker) => {\n const result = (await worker.call(\"transcodeSpz\", input)) as {\n input: TranscodeSpzInput;\n fileBytes: Uint8Array;\n };\n return result;\n });\n}\n\nexport type FileInput = {\n fileBytes: Uint8Array;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n transform?: { translate?: number[]; quaternion?: number[]; scale?: number };\n};\n\nexport type TranscodeSpzInput = {\n inputs: FileInput[];\n maxSh?: number;\n clipXyz?: { min: number[]; max: number[] };\n fractionalBits?: number;\n opacityThreshold?: number;\n};\n","import { unzip } from \"fflate\";\nimport {\n type PcSogsJson,\n type PcSogsV2Json,\n tryPcSogsZip,\n} from \"./SplatLoader\";\nimport type { SplatEncoding } from \"./defines\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n setPackedSplatCenter,\n setPackedSplatQuat,\n setPackedSplatRgba,\n setPackedSplatScales,\n} from \"./utils\";\n\nexport async function unpackPcSogs(\n json: PcSogsJson | PcSogsV2Json,\n extraFiles: Record,\n splatEncoding: SplatEncoding,\n): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const isVersion2 = \"version\" in json;\n\n if (!isVersion2 && json.quats.encoding !== \"quaternion_packed\") {\n throw new Error(\"Unsupported quaternion encoding\");\n }\n\n const numSplats = isVersion2 ? json.count : json.means.shape[0];\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n const meansPromise = Promise.all([\n decodeImageRgba(extraFiles[json.means.files[0]]),\n decodeImageRgba(extraFiles[json.means.files[1]]),\n ]).then((means) => {\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n const fx = (means[0][i4 + 0] + (means[1][i4 + 0] << 8)) / 65535;\n const fy = (means[0][i4 + 1] + (means[1][i4 + 1] << 8)) / 65535;\n const fz = (means[0][i4 + 2] + (means[1][i4 + 2] << 8)) / 65535;\n let x =\n json.means.mins[0] + (json.means.maxs[0] - json.means.mins[0]) * fx;\n let y =\n json.means.mins[1] + (json.means.maxs[1] - json.means.mins[1]) * fy;\n let z =\n json.means.mins[2] + (json.means.maxs[2] - json.means.mins[2]) * fz;\n x = Math.sign(x) * (Math.exp(Math.abs(x)) - 1);\n y = Math.sign(y) * (Math.exp(Math.abs(y)) - 1);\n z = Math.sign(z) * (Math.exp(Math.abs(z)) - 1);\n setPackedSplatCenter(packedArray, i, x, y, z);\n }\n });\n\n const scalesPromise = decodeImageRgba(extraFiles[json.scales.files[0]]).then(\n (scales) => {\n let xLookup: number[];\n let yLookup: number[];\n let zLookup: number[];\n\n if (isVersion2) {\n xLookup =\n yLookup =\n zLookup =\n json.scales.codebook.map((x) => Math.exp(x));\n } else {\n xLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.scales.mins[0] +\n (json.scales.maxs[0] - json.scales.mins[0]) * (i / 255),\n )\n .map((x) => Math.exp(x));\n yLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.scales.mins[1] +\n (json.scales.maxs[1] - json.scales.mins[1]) * (i / 255),\n )\n .map((x) => Math.exp(x));\n zLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.scales.mins[2] +\n (json.scales.maxs[2] - json.scales.mins[2]) * (i / 255),\n )\n .map((x) => Math.exp(x));\n }\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n setPackedSplatScales(\n packedArray,\n i,\n xLookup[scales[i4 + 0]],\n yLookup[scales[i4 + 1]],\n zLookup[scales[i4 + 2]],\n splatEncoding,\n );\n }\n },\n );\n\n const quatsPromise = decodeImageRgba(extraFiles[json.quats.files[0]]).then(\n (quats) => {\n const SQRT2 = Math.sqrt(2);\n const lookup = new Array(256)\n .fill(0)\n .map((_, i) => (i / 255 - 0.5) * SQRT2);\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n const r0 = lookup[quats[i4 + 0]];\n const r1 = lookup[quats[i4 + 1]];\n const r2 = lookup[quats[i4 + 2]];\n const rr = Math.sqrt(Math.max(0, 1.0 - r0 * r0 - r1 * r1 - r2 * r2));\n const rOrder = quats[i4 + 3] - 252;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n setPackedSplatQuat(packedArray, i, quatX, quatY, quatZ, quatW);\n }\n },\n );\n const sh0Promise = decodeImageRgba(extraFiles[json.sh0.files[0]]).then(\n (sh0) => {\n const SH_C0 = 0.28209479177387814;\n let rLookup: number[];\n let gLookup: number[];\n let bLookup: number[];\n let aLookup: number[];\n\n if (isVersion2) {\n rLookup =\n gLookup =\n bLookup =\n json.sh0.codebook.map((x) => SH_C0 * x + 0.5);\n aLookup = new Array(256).fill(0).map((_, i) => i / 255);\n } else {\n rLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[0] +\n (json.sh0.maxs[0] - json.sh0.mins[0]) * (i / 255),\n )\n .map((x) => SH_C0 * x + 0.5);\n gLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[1] +\n (json.sh0.maxs[1] - json.sh0.mins[1]) * (i / 255),\n )\n .map((x) => SH_C0 * x + 0.5);\n bLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[2] +\n (json.sh0.maxs[2] - json.sh0.mins[2]) * (i / 255),\n )\n .map((x) => SH_C0 * x + 0.5);\n aLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[3] +\n (json.sh0.maxs[3] - json.sh0.mins[3]) * (i / 255),\n )\n .map((x) => 1.0 / (1.0 + Math.exp(-x)));\n }\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n setPackedSplatRgba(\n packedArray,\n i,\n rLookup[sh0[i4 + 0]],\n gLookup[sh0[i4 + 1]],\n bLookup[sh0[i4 + 2]],\n aLookup[sh0[i4 + 3]],\n splatEncoding,\n );\n }\n },\n );\n\n const promises = [meansPromise, scalesPromise, quatsPromise, sh0Promise];\n if (json.shN) {\n const useSH3 = isVersion2\n ? json.shN.bands >= 3\n : json.shN.shape[1] >= 48 - 3;\n const useSH2 = isVersion2\n ? json.shN.bands >= 2\n : json.shN.shape[1] >= 27 - 3;\n const useSH1 = isVersion2\n ? json.shN.bands >= 1\n : json.shN.shape[1] >= 12 - 3;\n\n if (useSH1) extra.sh1 = new Uint32Array(numSplats * 2);\n if (useSH2) extra.sh2 = new Uint32Array(numSplats * 4);\n if (useSH3) extra.sh3 = new Uint32Array(numSplats * 4);\n\n const sh1 = new Float32Array(9);\n const sh2 = new Float32Array(15);\n const sh3 = new Float32Array(21);\n\n const shN = json.shN;\n const shNPromise = Promise.all([\n decodeImage(extraFiles[json.shN.files[0]]),\n decodeImage(extraFiles[json.shN.files[1]]),\n ]).then(([centroids, labels]) => {\n const lookup =\n \"codebook\" in shN\n ? shN.codebook\n : new Array(256)\n .fill(0)\n .map((_, i) => shN.mins + (shN.maxs - shN.mins) * (i / 255));\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n const label = labels.rgba[i4 + 0] + (labels.rgba[i4 + 1] << 8);\n const col = (label & 63) * 15;\n const row = label >>> 6;\n const offset = row * centroids.width + col;\n\n for (let d = 0; d < 3; ++d) {\n if (useSH1) {\n for (let k = 0; k < 3; ++k) {\n sh1[k * 3 + d] = lookup[centroids.rgba[(offset + k) * 4 + d]];\n }\n }\n\n if (useSH2) {\n for (let k = 0; k < 5; ++k) {\n sh2[k * 3 + d] = lookup[centroids.rgba[(offset + 3 + k) * 4 + d]];\n }\n }\n\n if (useSH3) {\n for (let k = 0; k < 7; ++k) {\n sh3[k * 3 + d] = lookup[centroids.rgba[(offset + 8 + k) * 4 + d]];\n }\n }\n }\n\n if (useSH1)\n encodeSh1Rgb(extra.sh1 as Uint32Array, i, sh1, splatEncoding);\n if (useSH2)\n encodeSh2Rgb(extra.sh2 as Uint32Array, i, sh2, splatEncoding);\n if (useSH3)\n encodeSh3Rgb(extra.sh3 as Uint32Array, i, sh3, splatEncoding);\n }\n });\n promises.push(shNPromise);\n }\n\n await Promise.all(promises);\n\n return { packedArray, numSplats, extra };\n}\n\n// WebGL context for reading raw pixel data of WebP images\nlet offscreenGlContext: WebGL2RenderingContext | null = null;\n\nasync function decodeImage(fileBytes: ArrayBuffer) {\n if (!offscreenGlContext) {\n const canvas = new OffscreenCanvas(1, 1);\n offscreenGlContext = canvas.getContext(\"webgl2\");\n if (!offscreenGlContext) {\n throw new Error(\"Failed to create WebGL2 context\");\n }\n }\n\n const imageBlob = new Blob([fileBytes]);\n const bitmap = await createImageBitmap(imageBlob, {\n premultiplyAlpha: \"none\",\n });\n\n const gl = offscreenGlContext;\n const texture = gl.createTexture();\n gl.bindTexture(gl.TEXTURE_2D, texture);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, true);\n gl.texImage2D(gl.TEXTURE_2D, 0, gl.RGBA, gl.RGBA, gl.UNSIGNED_BYTE, bitmap);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST);\n\n const framebuffer = gl.createFramebuffer();\n gl.bindFramebuffer(gl.FRAMEBUFFER, framebuffer);\n gl.framebufferTexture2D(\n gl.FRAMEBUFFER,\n gl.COLOR_ATTACHMENT0,\n gl.TEXTURE_2D,\n texture,\n 0,\n );\n\n const data = new Uint8Array(bitmap.width * bitmap.height * 4);\n gl.readPixels(\n 0,\n 0,\n bitmap.width,\n bitmap.height,\n gl.RGBA,\n gl.UNSIGNED_BYTE,\n data,\n );\n\n gl.deleteTexture(texture);\n gl.deleteFramebuffer(framebuffer);\n\n return { rgba: data, width: bitmap.width, height: bitmap.height };\n}\n\nasync function decodeImageRgba(fileBytes: ArrayBuffer) {\n const { rgba } = await decodeImage(fileBytes);\n return rgba;\n}\n\nexport async function unpackPcSogsZip(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const nameJson = tryPcSogsZip(fileBytes);\n if (!nameJson) {\n throw new Error(\"Invalid PC SOGS zip file\");\n }\n const { name, json } = nameJson;\n // Find path prefix, will be -1 if no / or \\\n const lastSlash = name.lastIndexOf(\"/\");\n const lastBackslash = name.lastIndexOf(\"\\\\\");\n const prefix = name.slice(0, Math.max(lastSlash, lastBackslash) + 1);\n\n const fileMap = new Map();\n const refFiles = [\n ...json.means.files,\n ...json.scales.files,\n ...json.quats.files,\n ...json.sh0.files,\n ...(json.shN?.files ?? []),\n ];\n for (const file of refFiles) {\n fileMap.set(prefix + file, file);\n }\n\n const unzipped = await new Promise>(\n (resolve, reject) => {\n unzip(\n fileBytes,\n {\n filter: ({ name }) => {\n return fileMap.has(name);\n },\n },\n (err, files) => {\n if (err) {\n reject(err);\n } else {\n resolve(files);\n }\n },\n );\n },\n );\n\n const extraFiles: Record = {};\n for (const [full, name] of fileMap.entries()) {\n extraFiles[name] = unzipped[full];\n }\n\n return await unpackPcSogs(json, extraFiles, splatEncoding);\n}\n","import init_wasm, { sort_splats, sort32_splats } from \"spark-worker-rs\";\nimport type { PcSogsJson, TranscodeSpzInput } from \"./SplatLoader\";\nimport { unpackAntiSplat } from \"./antisplat\";\nimport { type SplatEncoding, WASM_SPLAT_SORT } from \"./defines\";\nimport { unpackKsplat } from \"./ksplat\";\nimport { unpackPcSogs, unpackPcSogsZip } from \"./pcsogs\";\nimport { PlyReader } from \"./ply\";\nimport { SpzReader, transcodeSpz } from \"./spz\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n getTransferable,\n setPackedSplat,\n setPackedSplatCenter,\n setPackedSplatOpacity,\n setPackedSplatQuat,\n setPackedSplatRgb,\n setPackedSplatScales,\n toHalf,\n} from \"./utils\";\n\n// WebWorker for Spark's background CPU tasks, such as Gsplat file decoding\n// and sorting.\n\nasync function onMessage(event: MessageEvent) {\n // Unpack RPC function name, arguments, and ID from the main thread.\n const { name, args, id }: { name: string; args: unknown; id: number } =\n event.data;\n // console.log(`worker.onMessage(${id}, ${name}):`, args);\n\n // Initialize return result/error, to be filled out below.\n let result = undefined;\n let error = undefined;\n\n try {\n switch (name) {\n case \"unpackPly\": {\n const { packedArray, fileBytes, splatEncoding } = args as {\n packedArray: Uint32Array;\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = await unpackPly({\n packedArray,\n fileBytes,\n splatEncoding,\n });\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodeSpz\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = await unpackSpz(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodeAntiSplat\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = unpackAntiSplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n };\n break;\n }\n case \"decodeKsplat\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = unpackKsplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodePcSogs\": {\n const { fileBytes, extraFiles, splatEncoding } = args as {\n fileBytes: Uint8Array;\n extraFiles: Record;\n splatEncoding: SplatEncoding;\n };\n const json = JSON.parse(\n new TextDecoder().decode(fileBytes),\n ) as PcSogsJson;\n const decoded = await unpackPcSogs(json, extraFiles, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodePcSogsZip\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = await unpackPcSogsZip(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"sortSplats\": {\n // Sort maxSplats splats using readback data, which encodes one uint32 per\n // Gsplats, with the low bytes encoding a float16 distance sort metric.\n const { maxSplats, totalSplats, readback, ordering } = args as {\n maxSplats: number;\n totalSplats: number;\n readback: Uint8Array[];\n ordering: Uint32Array;\n };\n // Sort totalSplats splats each with 4 bytes of readback, and outputs Uint32Array ordering of splat indices\n result = {\n id,\n readback,\n ...sortSplats({ totalSplats, readback, ordering }),\n };\n break;\n }\n case \"sortDoubleSplats\": {\n // Sort numSplats splats using the readback distance metric, which encodes\n // one float16 per splat (no unused high bytes like for sortSplats).\n const { numSplats, readback, ordering } = args as {\n numSplats: number;\n readback: Uint16Array;\n ordering: Uint32Array;\n };\n if (WASM_SPLAT_SORT) {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort_splats(numSplats, readback, ordering),\n };\n } else {\n result = {\n id,\n readback,\n ...sortDoubleSplats({ numSplats, readback, ordering }),\n };\n }\n break;\n }\n case \"sort32Splats\": {\n const { maxSplats, numSplats, readback, ordering } = args as {\n maxSplats: number;\n numSplats: number;\n readback: Uint32Array;\n ordering: Uint32Array;\n };\n // Benchmark sort\n // benchmarkSort(numSplats, readback, ordering);\n if (WASM_SPLAT_SORT) {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort32_splats(numSplats, readback, ordering),\n };\n } else {\n result = {\n id,\n readback,\n ...sort32Splats({ maxSplats, numSplats, readback, ordering }),\n };\n }\n break;\n }\n case \"transcodeSpz\": {\n const input = args as TranscodeSpzInput;\n const spzBytes = await transcodeSpz(input);\n result = {\n id,\n fileBytes: spzBytes,\n input,\n };\n break;\n }\n default: {\n throw new Error(`Unknown name: ${name}`);\n }\n }\n } catch (e) {\n error = e;\n console.error(error);\n }\n\n // Send the result or error back to the main thread, making sure to transfer any ArrayBuffers\n self.postMessage(\n { id, result, error },\n { transfer: getTransferable(result) },\n );\n}\n\nfunction benchmarkSort(\n numSplats: number,\n readback32: Uint32Array,\n ordering: Uint32Array,\n) {\n if (numSplats > 0) {\n console.log(\"Running sort benchmark\");\n const readbackF32 = new Float32Array(readback32.buffer);\n const readback16 = new Uint16Array(readback32.length);\n for (let i = 0; i < numSplats; ++i) {\n readback16[i] = toHalf(readbackF32[i]);\n }\n\n const WARMUP = 10;\n for (let i = 0; i < WARMUP; ++i) {\n const activeSplats = sort_splats(numSplats, readback16, ordering);\n const activeSplats32 = sort32_splats(numSplats, readback32, ordering);\n const results = sortDoubleSplats({\n numSplats,\n readback: readback16,\n ordering,\n });\n const results32 = sort32Splats({\n maxSplats: numSplats,\n numSplats,\n readback: readback32,\n ordering,\n });\n }\n\n const TIMING_SAMPLES = 1000;\n let start: number;\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const activeSplats = sort_splats(numSplats, readback16, ordering);\n }\n const wasmTime = (performance.now() - start) / TIMING_SAMPLES;\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const results = sortDoubleSplats({\n numSplats,\n readback: readback16,\n ordering,\n });\n }\n const jsTime = (performance.now() - start) / TIMING_SAMPLES;\n\n console.log(\n `JS: ${jsTime} ms, WASM: ${wasmTime} ms, numSplats: ${numSplats}`,\n );\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const activeSplats32 = sort32_splats(numSplats, readback32, ordering);\n }\n const wasm32Time = (performance.now() - start) / TIMING_SAMPLES;\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const results = sort32Splats({\n maxSplats: numSplats,\n numSplats,\n readback: readback32,\n ordering,\n });\n }\n const js32Time = (performance.now() - start) / TIMING_SAMPLES;\n\n console.log(\n `JS32: ${js32Time} ms, WASM32: ${wasm32Time} ms, numSplats: ${numSplats}`,\n );\n }\n}\n\nasync function unpackPly({\n packedArray,\n fileBytes,\n splatEncoding,\n}: {\n packedArray: Uint32Array;\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n}): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n\n const extra: Record = {};\n\n ply.parseSplats(\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n setPackedSplat(\n packedArray,\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, index, sh3, splatEncoding);\n }\n },\n );\n\n return { packedArray, numSplats, extra };\n}\n\nasync function unpackSpz(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const spz = new SpzReader({ fileBytes });\n await spz.parseHeader();\n const numSplats = spz.numSplats;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let extraCallbacks = {};\n if (spz.flagLod) {\n const childCounts = new Uint16Array(numSplats);\n const childStarts = new Uint32Array(numSplats);\n extra.childCounts = childCounts;\n extra.childStarts = childStarts;\n extraCallbacks = {\n childCounts: (index: number, count: number) => {\n childCounts[index] = count;\n },\n childStarts: (index: number, start: number) => {\n childStarts[index] = start;\n },\n };\n }\n\n await spz.parseSplats(\n (index, x, y, z) => {\n setPackedSplatCenter(packedArray, index, x, y, z);\n },\n (index, alpha) => {\n setPackedSplatOpacity(packedArray, index, alpha);\n },\n (index, r, g, b) => {\n setPackedSplatRgb(packedArray, index, r, g, b, splatEncoding);\n },\n (index, scaleX, scaleY, scaleZ) => {\n setPackedSplatScales(\n packedArray,\n index,\n scaleX,\n scaleY,\n scaleZ,\n splatEncoding,\n );\n },\n (index, quatX, quatY, quatZ, quatW) => {\n setPackedSplatQuat(packedArray, index, quatX, quatY, quatZ, quatW);\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, index, sh3, splatEncoding);\n }\n },\n extraCallbacks,\n );\n return { packedArray, numSplats, extra };\n}\n\n// Array of buckets for sorting float16 distances with range [0, DEPTH_INFINITY].\nconst DEPTH_INFINITY_F16 = 0x7c00;\nconst DEPTH_SIZE_16 = DEPTH_INFINITY_F16 + 1;\nlet depthArray16: Uint32Array | null = null;\n\nfunction sortSplats({\n totalSplats,\n readback,\n ordering,\n}: { totalSplats: number; readback: Uint8Array[]; ordering: Uint32Array }): {\n activeSplats: number;\n ordering: Uint32Array;\n} {\n // Sort totalSplats Gsplats, each with 4 bytes of readback, and outputs Uint32Array\n // of indices from most distant to nearest. Each 4 bytes encode a float16 distance\n // and unused high bytes.\n if (!depthArray16) {\n depthArray16 = new Uint32Array(DEPTH_SIZE_16);\n }\n depthArray16.fill(0);\n\n const readbackUint32 = readback.map((layer) => new Uint32Array(layer.buffer));\n const layerSize = readbackUint32[0].length;\n const numLayers = Math.ceil(totalSplats / layerSize);\n\n let layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i = 0; i < layerSplats; ++i) {\n const pri = readbackLayer[i] & 0x7fff;\n if (pri < DEPTH_INFINITY_F16) {\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n\n let activeSplats = 0;\n for (let j = 0; j < DEPTH_SIZE_16; ++j) {\n const nextIndex = activeSplats + depthArray16[j];\n depthArray16[j] = activeSplats;\n activeSplats = nextIndex;\n }\n\n layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i = 0; i < layerSplats; ++i) {\n const pri = readbackLayer[i] & 0x7fff;\n if (pri < DEPTH_INFINITY_F16) {\n ordering[depthArray16[pri]] = layerBase + i;\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n if (depthArray16[DEPTH_SIZE_16 - 1] !== activeSplats) {\n throw new Error(\n `Expected ${activeSplats} active splats but got ${depthArray16[DEPTH_SIZE_16 - 1]}`,\n );\n }\n\n return { activeSplats, ordering };\n}\n\n// Sort numSplats splats, each with 2 bytes of float16 readback for distance metric,\n// using one bucket sort pass, outputting Uint32Array of indices.\nfunction sortDoubleSplats({\n numSplats,\n readback,\n ordering,\n}: { numSplats: number; readback: Uint16Array; ordering: Uint32Array }): {\n activeSplats: number;\n ordering: Uint32Array;\n} {\n // Ensure depthArray is allocated and zeroed out for our buckets.\n if 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\ No newline at end of file diff --git a/dist/assets/oldWorker-CrOUJ63V.js.map b/dist/assets/oldWorker-CrOUJ63V.js.map new file mode 100644 index 00000000..32d68588 --- /dev/null +++ b/dist/assets/oldWorker-CrOUJ63V.js.map @@ -0,0 +1 @@ +{"version":3,"file":"oldWorker-CrOUJ63V.js","sources":["../rust/spark-worker-rs/pkg/spark_worker_rs.js","../node_modules/fflate/esm/browser.js","../node_modules/three/build/three.core.js","../src/defines.ts","../src/dyno/base.ts","../src/utils.ts","../src/antisplat.ts","../src/ksplat.ts","../src/ply.ts","../src/spz.ts","../src/SplatLoader.ts","../src/pcsogs.ts","../src/oldWorker.ts"],"sourcesContent":["/* @ts-self-types=\"./spark_worker_rs.d.ts\" */\n\nexport class ChunkDecoder {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(ChunkDecoder.prototype);\n obj.__wbg_ptr = ptr;\n ChunkDecoderFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n 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wasm.__wbg_get_csplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_csplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_csplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n}\nif (Symbol.dispose) CsplatArray.prototype[Symbol.dispose] = CsplatArray.prototype.free;\n\nexport class GsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(GsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n GsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n GsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_gsplatarray_free(ptr, 0);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_gsplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_gsplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.gsplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.gsplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.gsplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.gsplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.gsplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.gsplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.gsplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats_lod(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats_lod(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_gsplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_gsplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n}\nif (Symbol.dispose) GsplatArray.prototype[Symbol.dispose] = GsplatArray.prototype.free;\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function bhatt_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, rgba) {\n const ret = wasm.bhatt_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function bhatt_lod_packedsplats(num_splats, packed, extra, lod_base, rgba, encoding) {\n const ret = wasm.bhatt_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @returns {ChunkDecoder}\n */\nexport function decode_to_csplatarray(file_type, path_name, encoding) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_csplatarray(ptr0, len0, ptr1, len1, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_extsplats(file_type, path_name, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_extsplats(ptr0, len0, ptr1, len1, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_gsplatarray(file_type, path_name) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_gsplatarray(ptr0, len0, ptr1, len1);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Uint32Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_packedsplats(file_type, path_name, encoding, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_packedsplats(ptr0, len0, ptr1, len1, encoding, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n */\nexport function dispose_lod_tree(lod_id) {\n wasm.dispose_lod_tree(lod_id);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null} [extra]\n * @returns {GsplatArray}\n */\nexport function extsplats_to_gsplatarray(num_splats, ext1, ext2, extra) {\n const ret = wasm.extsplats_to_gsplatarray(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n * @param {number} level\n * @returns {object}\n */\nexport function get_lod_tree_level(lod_id, level) {\n const ret = wasm.get_lod_tree_level(lod_id, level);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} lod_tree\n * @returns {object}\n */\nexport function init_lod_tree(num_splats, lod_tree) {\n const ret = wasm.init_lod_tree(num_splats, lod_tree);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} capacity\n * @returns {object}\n */\nexport function new_lod_tree(capacity) {\n const ret = wasm.new_lod_tree(capacity);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} orig_lod_id\n * @returns {object}\n */\nexport function new_shared_lod_tree(orig_lod_id) {\n const ret = wasm.new_shared_lod_tree(orig_lod_id);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {CsplatArray}\n */\nexport function packedsplats_to_csplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_csplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return CsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {GsplatArray}\n */\nexport function packedsplats_to_gsplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_gsplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @returns {boolean}\n */\nexport function simd_enabled() {\n const ret = wasm.simd_enabled();\n return ret !== 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort32_splats(num_splats, readback, ordering) {\n const ret = wasm.sort32_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint16Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort_splats(num_splats, readback, ordering) {\n const ret = wasm.sort_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function tiny_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, merge_filter, rgba) {\n const ret = wasm.tiny_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function tiny_lod_packedsplats(num_splats, packed, extra, lod_base, merge_filter, rgba, encoding) {\n const ret = wasm.tiny_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} max_splats\n * @param {number} pixel_scale_limit\n * @param {number | null | undefined} _last_pixel_limit\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} root_pages\n * @param {Float32Array} view_to_objects\n * @param {Float32Array} lod_scales\n * @param {Float32Array} behind_foveates\n * @param {Float32Array} cone_foveates\n * @param {Float32Array} cone_fov0s\n * @param {Float32Array} cone_fovs\n * @returns {object}\n */\nexport function traverse_lod_trees(max_splats, pixel_scale_limit, _last_pixel_limit, lod_ids, root_pages, view_to_objects, lod_scales, behind_foveates, cone_foveates, cone_fov0s, cone_fovs) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(root_pages, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArrayF32ToWasm0(view_to_objects, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArrayF32ToWasm0(lod_scales, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ptr4 = passArrayF32ToWasm0(behind_foveates, wasm.__wbindgen_malloc);\n const len4 = WASM_VECTOR_LEN;\n const ptr5 = passArrayF32ToWasm0(cone_foveates, wasm.__wbindgen_malloc);\n const len5 = WASM_VECTOR_LEN;\n const ptr6 = passArrayF32ToWasm0(cone_fov0s, wasm.__wbindgen_malloc);\n const len6 = WASM_VECTOR_LEN;\n const ptr7 = passArrayF32ToWasm0(cone_fovs, wasm.__wbindgen_malloc);\n const len7 = WASM_VECTOR_LEN;\n const ret = wasm.traverse_lod_trees(max_splats, pixel_scale_limit, isLikeNone(_last_pixel_limit) ? 0x100000001 : Math.fround(_last_pixel_limit), ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, ptr4, len4, ptr5, len5, ptr6, len6, ptr7, len7);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} page_bases\n * @param {Uint32Array} chunk_bases\n * @param {Uint32Array} counts\n * @param {Array} lod_trees\n * @returns {object}\n */\nexport function update_lod_trees(lod_ids, page_bases, chunk_bases, counts, lod_trees) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(page_bases, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArray32ToWasm0(chunk_bases, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArray32ToWasm0(counts, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ret = wasm.update_lod_trees(ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, lod_trees);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\nexport function wasm_start() {\n wasm.wasm_start();\n}\n\nfunction __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_boolean_get_a86c216575a75c30: function(arg0) {\n const v = arg0;\n const ret = typeof(v) === 'boolean' ? v : undefined;\n return isLikeNone(ret) ? 0xFFFFFF : ret ? 1 : 0;\n },\n __wbg___wbindgen_debug_string_dd5d2d07ce9e6c57: function(arg0, arg1) {\n const ret = debugString(arg1);\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_in_4bd7a57e54337366: function(arg0, arg1) {\n const ret = arg0 in arg1;\n return ret;\n },\n __wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof(val) === 'object' && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === undefined;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'number' ? obj : undefined;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'string' ? obj : undefined;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() { return handleError(function (arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments); },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() { return handleError(function (arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments); },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n // Cast intrinsic for `F64 -> Externref`.\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n // Cast intrinsic for `Ref(String) -> Externref`.\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, undefined);\n table.set(offset + 0, undefined);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n },\n };\n return {\n __proto__: null,\n \"./spark_worker_rs_bg.js\": import0,\n };\n}\n\nconst ChunkDecoderFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\nconst CsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\nconst GsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n\nfunction addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n}\n\nfunction debugString(val) {\n // primitive types\n const type = typeof val;\n if (type == 'number' || type == 'boolean' || val == null) {\n return `${val}`;\n }\n if (type == 'string') {\n return `\"${val}\"`;\n }\n if (type == 'symbol') {\n const description = val.description;\n if (description == null) {\n return 'Symbol';\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == 'function') {\n const name = val.name;\n if (typeof name == 'string' && name.length > 0) {\n return `Function(${name})`;\n } else {\n return 'Function';\n }\n }\n // objects\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = '[';\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for(let i = 1; i < length; i++) {\n debug += ', ' + debugString(val[i]);\n }\n debug += ']';\n return debug;\n }\n // Test for built-in\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n // Failed to match the standard '[object ClassName]'\n return toString.call(val);\n }\n if (className == 'Object') {\n // we're a user defined class or Object\n // JSON.stringify avoids problems with cycles, and is generally much\n // easier than looping through ownProperties of `val`.\n try {\n return 'Object(' + JSON.stringify(val) + ')';\n } catch (_) {\n return 'Object';\n }\n }\n // errors\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\\n${val.stack}`;\n }\n // TODO we could test for more things here, like `Set`s and `Map`s.\n return className;\n}\n\nfunction getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n}\n\nfunction getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n}\n\nlet cachedDataViewMemory0 = null;\nfunction getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || (cachedDataViewMemory0.buffer.detached === undefined && cachedDataViewMemory0.buffer !== wasm.memory.buffer)) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n}\n\nlet cachedFloat32ArrayMemory0 = null;\nfunction getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n}\n\nfunction getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n}\n\nlet cachedUint16ArrayMemory0 = null;\nfunction getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n}\n\nlet cachedUint32ArrayMemory0 = null;\nfunction getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n}\n\nlet cachedUint8ArrayMemory0 = null;\nfunction getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n}\n\nfunction handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n}\n\nfunction isLikeNone(x) {\n return x === undefined || x === null;\n}\n\nfunction passArray32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getUint32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passArrayF32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getFloat32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passStringToWasm0(arg, malloc, realloc) {\n if (realloc === undefined) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr, ptr + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr;\n }\n\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n\n const mem = getUint8ArrayMemory0();\n\n let offset = 0;\n\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 0x7F) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n\n WASM_VECTOR_LEN = offset;\n return ptr;\n}\n\nfunction takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n}\n\nlet cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\ncachedTextDecoder.decode();\nconst MAX_SAFARI_DECODE_BYTES = 2146435072;\nlet numBytesDecoded = 0;\nfunction decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n}\n\nconst cachedTextEncoder = new TextEncoder();\n\nif (!('encodeInto' in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function (arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n}\n\nlet WASM_VECTOR_LEN = 0;\n\nlet wasmModule, wasm;\nfunction __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n wasmModule = module;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n}\n\nasync function __wbg_load(module, imports) {\n if (typeof Response === 'function' && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === 'function') {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n\n if (validResponse && module.headers.get('Content-Type') !== 'application/wasm') {\n console.warn(\"`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n\", e);\n\n } else { throw e; }\n }\n }\n\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n\n function expectedResponseType(type) {\n switch (type) {\n case 'basic': case 'cors': case 'default': return true;\n }\n return false;\n }\n}\n\nfunction initSync(module) {\n if (wasm !== undefined) return wasm;\n\n\n if (module !== undefined) {\n if (Object.getPrototypeOf(module) === Object.prototype) {\n ({module} = module)\n } else {\n console.warn('using deprecated parameters for `initSync()`; pass a single object instead')\n }\n }\n\n const imports = __wbg_get_imports();\n if (!(module instanceof WebAssembly.Module)) {\n module = new WebAssembly.Module(module);\n }\n const instance = new WebAssembly.Instance(module, imports);\n return __wbg_finalize_init(instance, module);\n}\n\nasync function __wbg_init(module_or_path) {\n if (wasm !== undefined) return wasm;\n\n\n if (module_or_path !== undefined) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({module_or_path} = module_or_path)\n } else {\n console.warn('using deprecated parameters for the initialization function; pass a single object instead')\n }\n }\n\n if (module_or_path === undefined) {\n module_or_path = new URL('spark_worker_rs_bg.wasm', import.meta.url);\n }\n const imports = __wbg_get_imports();\n\n if (typeof module_or_path === 'string' || (typeof Request === 'function' && module_or_path instanceof Request) || (typeof URL === 'function' && module_or_path instanceof URL)) {\n module_or_path = fetch(module_or_path);\n }\n\n const { instance, module } = await __wbg_load(await module_or_path, imports);\n\n return __wbg_finalize_init(instance, module);\n}\n\nexport { initSync, __wbg_init as default };\n","// DEFLATE is a complex format; to read this code, you should probably check the RFC first:\n// https://tools.ietf.org/html/rfc1951\n// You may also wish to take a look at the guide I made about this program:\n// https://gist.github.com/101arrowz/253f31eb5abc3d9275ab943003ffecad\n// Some of the following code is similar to that of UZIP.js:\n// https://github.com/photopea/UZIP.js\n// However, the vast majority of the codebase has diverged from UZIP.js to increase performance and reduce bundle size.\n// Sometimes 0 will appear where -1 would be more appropriate. This is because using a uint\n// is better for memory in most engines (I *think*).\nvar ch2 = {};\nvar wk = (function (c, id, msg, transfer, cb) {\n var w = new Worker(ch2[id] || (ch2[id] = URL.createObjectURL(new Blob([\n c + ';addEventListener(\"error\",function(e){e=e.error;postMessage({$e$:[e.message,e.code,e.stack]})})'\n ], { type: 'text/javascript' }))));\n w.onmessage = function (e) {\n var d = e.data, ed = d.$e$;\n if (ed) {\n var err = new Error(ed[0]);\n err['code'] = ed[1];\n err.stack = ed[2];\n cb(err, null);\n }\n else\n cb(null, d);\n };\n w.postMessage(msg, transfer);\n return w;\n});\n\n// aliases for shorter compressed code (most minifers don't do this)\nvar u8 = Uint8Array, u16 = Uint16Array, i32 = Int32Array;\n// fixed length extra bits\nvar fleb = new u8([0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0, /* unused */ 0, 0, /* impossible */ 0]);\n// fixed distance extra bits\nvar fdeb = new u8([0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, /* unused */ 0, 0]);\n// code length index map\nvar clim = new u8([16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15]);\n// get base, reverse index map from extra bits\nvar freb = function (eb, start) {\n var b = new u16(31);\n for (var i = 0; i < 31; ++i) {\n b[i] = start += 1 << eb[i - 1];\n }\n // numbers here are at max 18 bits\n var r = new i32(b[30]);\n for (var i = 1; i < 30; ++i) {\n for (var j = b[i]; j < b[i + 1]; ++j) {\n r[j] = ((j - b[i]) << 5) | i;\n }\n }\n return { b: b, r: r };\n};\nvar _a = freb(fleb, 2), fl = _a.b, revfl = _a.r;\n// we can ignore the fact that the other numbers are wrong; they never happen anyway\nfl[28] = 258, revfl[258] = 28;\nvar _b = freb(fdeb, 0), fd = _b.b, revfd = _b.r;\n// map of value to reverse (assuming 16 bits)\nvar rev = new u16(32768);\nfor (var i = 0; i < 32768; ++i) {\n // reverse table algorithm from SO\n var x = ((i & 0xAAAA) >> 1) | ((i & 0x5555) << 1);\n x = ((x & 0xCCCC) >> 2) | ((x & 0x3333) << 2);\n x = ((x & 0xF0F0) >> 4) | ((x & 0x0F0F) << 4);\n rev[i] = (((x & 0xFF00) >> 8) | ((x & 0x00FF) << 8)) >> 1;\n}\n// create huffman tree from u8 \"map\": index -> code length for code index\n// mb (max bits) must be at most 15\n// TODO: optimize/split up?\nvar hMap = (function (cd, mb, r) {\n var s = cd.length;\n // index\n var i = 0;\n // u16 \"map\": index -> # of codes with bit length = index\n var l = new u16(mb);\n // length of cd must be 288 (total # of codes)\n for (; i < s; ++i) {\n if (cd[i])\n ++l[cd[i] - 1];\n }\n // u16 \"map\": index -> minimum code for bit length = index\n var le = new u16(mb);\n for (i = 1; i < mb; ++i) {\n le[i] = (le[i - 1] + l[i - 1]) << 1;\n }\n var co;\n if (r) {\n // u16 \"map\": index -> number of actual bits, symbol for code\n co = new u16(1 << mb);\n // bits to remove for reverser\n var rvb = 15 - mb;\n for (i = 0; i < s; ++i) {\n // ignore 0 lengths\n if (cd[i]) {\n // num encoding both symbol and bits read\n var sv = (i << 4) | cd[i];\n // free bits\n var r_1 = mb - cd[i];\n // start value\n var v = le[cd[i] - 1]++ << r_1;\n // m is end value\n for (var m = v | ((1 << r_1) - 1); v <= m; ++v) {\n // every 16 bit value starting with the code yields the same result\n co[rev[v] >> rvb] = sv;\n }\n }\n }\n }\n else {\n co = new u16(s);\n for (i = 0; i < s; ++i) {\n if (cd[i]) {\n co[i] = rev[le[cd[i] - 1]++] >> (15 - cd[i]);\n }\n }\n }\n return co;\n});\n// fixed length tree\nvar flt = new u8(288);\nfor (var i = 0; i < 144; ++i)\n flt[i] = 8;\nfor (var i = 144; i < 256; ++i)\n flt[i] = 9;\nfor (var i = 256; i < 280; ++i)\n flt[i] = 7;\nfor (var i = 280; i < 288; ++i)\n flt[i] = 8;\n// fixed distance tree\nvar fdt = new u8(32);\nfor (var i = 0; i < 32; ++i)\n fdt[i] = 5;\n// fixed length map\nvar flm = /*#__PURE__*/ hMap(flt, 9, 0), flrm = /*#__PURE__*/ hMap(flt, 9, 1);\n// fixed distance map\nvar fdm = /*#__PURE__*/ hMap(fdt, 5, 0), fdrm = /*#__PURE__*/ hMap(fdt, 5, 1);\n// find max of array\nvar max = function (a) {\n var m = a[0];\n for (var i = 1; i < a.length; ++i) {\n if (a[i] > m)\n m = a[i];\n }\n return m;\n};\n// read d, starting at bit p and mask with m\nvar bits = function (d, p, m) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8)) >> (p & 7)) & m;\n};\n// read d, starting at bit p continuing for at least 16 bits\nvar bits16 = function (d, p) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8) | (d[o + 2] << 16)) >> (p & 7));\n};\n// get end of byte\nvar shft = function (p) { return ((p + 7) / 8) | 0; };\n// typed array slice - allows garbage collector to free original reference,\n// while being more compatible than .slice\nvar slc = function (v, s, e) {\n if (s == null || s < 0)\n s = 0;\n if (e == null || e > v.length)\n e = v.length;\n // can't use .constructor in case user-supplied\n return new u8(v.subarray(s, e));\n};\n/**\n * Codes for errors generated within this library\n */\nexport var FlateErrorCode = {\n UnexpectedEOF: 0,\n InvalidBlockType: 1,\n InvalidLengthLiteral: 2,\n InvalidDistance: 3,\n StreamFinished: 4,\n NoStreamHandler: 5,\n InvalidHeader: 6,\n NoCallback: 7,\n InvalidUTF8: 8,\n ExtraFieldTooLong: 9,\n InvalidDate: 10,\n FilenameTooLong: 11,\n StreamFinishing: 12,\n InvalidZipData: 13,\n UnknownCompressionMethod: 14\n};\n// error codes\nvar ec = [\n 'unexpected EOF',\n 'invalid block type',\n 'invalid length/literal',\n 'invalid distance',\n 'stream finished',\n 'no stream handler',\n ,\n 'no callback',\n 'invalid UTF-8 data',\n 'extra field too long',\n 'date not in range 1980-2099',\n 'filename too long',\n 'stream finishing',\n 'invalid zip data'\n // determined by unknown compression method\n];\n;\nvar err = function (ind, msg, nt) {\n var e = new Error(msg || ec[ind]);\n e.code = ind;\n if (Error.captureStackTrace)\n Error.captureStackTrace(e, err);\n if (!nt)\n throw e;\n return e;\n};\n// expands raw DEFLATE data\nvar inflt = function (dat, st, buf, dict) {\n // source length dict length\n var sl = dat.length, dl = dict ? dict.length : 0;\n if (!sl || st.f && !st.l)\n return buf || new u8(0);\n var noBuf = !buf;\n // have to estimate size\n var resize = noBuf || st.i != 2;\n // no state\n var noSt = st.i;\n // Assumes roughly 33% compression ratio average\n if (noBuf)\n buf = new u8(sl * 3);\n // ensure buffer can fit at least l elements\n var cbuf = function (l) {\n var bl = buf.length;\n // need to increase size to fit\n if (l > bl) {\n // Double or set to necessary, whichever is greater\n var nbuf = new u8(Math.max(bl * 2, l));\n nbuf.set(buf);\n buf = nbuf;\n }\n };\n // last chunk bitpos bytes\n var final = st.f || 0, pos = st.p || 0, bt = st.b || 0, lm = st.l, dm = st.d, lbt = st.m, dbt = st.n;\n // total bits\n var tbts = sl * 8;\n do {\n if (!lm) {\n // BFINAL - this is only 1 when last chunk is next\n final = bits(dat, pos, 1);\n // type: 0 = no compression, 1 = fixed huffman, 2 = dynamic huffman\n var type = bits(dat, pos + 1, 3);\n pos += 3;\n if (!type) {\n // go to end of byte boundary\n var s = shft(pos) + 4, l = dat[s - 4] | (dat[s - 3] << 8), t = s + l;\n if (t > sl) {\n if (noSt)\n err(0);\n break;\n }\n // ensure size\n if (resize)\n cbuf(bt + l);\n // Copy over uncompressed data\n buf.set(dat.subarray(s, t), bt);\n // Get new bitpos, update byte count\n st.b = bt += l, st.p = pos = t * 8, st.f = final;\n continue;\n }\n else if (type == 1)\n lm = flrm, dm = fdrm, lbt = 9, dbt = 5;\n else if (type == 2) {\n // literal lengths\n var hLit = bits(dat, pos, 31) + 257, hcLen = bits(dat, pos + 10, 15) + 4;\n var tl = hLit + bits(dat, pos + 5, 31) + 1;\n pos += 14;\n // length+distance tree\n var ldt = new u8(tl);\n // code length tree\n var clt = new u8(19);\n for (var i = 0; i < hcLen; ++i) {\n // use index map to get real code\n clt[clim[i]] = bits(dat, pos + i * 3, 7);\n }\n pos += hcLen * 3;\n // code lengths bits\n var clb = max(clt), clbmsk = (1 << clb) - 1;\n // code lengths map\n var clm = hMap(clt, clb, 1);\n for (var i = 0; i < tl;) {\n var r = clm[bits(dat, pos, clbmsk)];\n // bits read\n pos += r & 15;\n // symbol\n var s = r >> 4;\n // code length to copy\n if (s < 16) {\n ldt[i++] = s;\n }\n else {\n // copy count\n var c = 0, n = 0;\n if (s == 16)\n n = 3 + bits(dat, pos, 3), pos += 2, c = ldt[i - 1];\n else if (s == 17)\n n = 3 + bits(dat, pos, 7), pos += 3;\n else if (s == 18)\n n = 11 + bits(dat, pos, 127), pos += 7;\n while (n--)\n ldt[i++] = c;\n }\n }\n // length tree distance tree\n var lt = ldt.subarray(0, hLit), dt = ldt.subarray(hLit);\n // max length bits\n lbt = max(lt);\n // max dist bits\n dbt = max(dt);\n lm = hMap(lt, lbt, 1);\n dm = hMap(dt, dbt, 1);\n }\n else\n err(1);\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n }\n // Make sure the buffer can hold this + the largest possible addition\n // Maximum chunk size (practically, theoretically infinite) is 2^17\n if (resize)\n cbuf(bt + 131072);\n var lms = (1 << lbt) - 1, dms = (1 << dbt) - 1;\n var lpos = pos;\n for (;; lpos = pos) {\n // bits read, code\n var c = lm[bits16(dat, pos) & lms], sym = c >> 4;\n pos += c & 15;\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (!c)\n err(2);\n if (sym < 256)\n buf[bt++] = sym;\n else if (sym == 256) {\n lpos = pos, lm = null;\n break;\n }\n else {\n var add = sym - 254;\n // no extra bits needed if less\n if (sym > 264) {\n // index\n var i = sym - 257, b = fleb[i];\n add = bits(dat, pos, (1 << b) - 1) + fl[i];\n pos += b;\n }\n // dist\n var d = dm[bits16(dat, pos) & dms], dsym = d >> 4;\n if (!d)\n err(3);\n pos += d & 15;\n var dt = fd[dsym];\n if (dsym > 3) {\n var b = fdeb[dsym];\n dt += bits16(dat, pos) & (1 << b) - 1, pos += b;\n }\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + 131072);\n var end = bt + add;\n if (bt < dt) {\n var shift = dl - dt, dend = Math.min(dt, end);\n if (shift + bt < 0)\n err(3);\n for (; bt < dend; ++bt)\n buf[bt] = dict[shift + bt];\n }\n for (; bt < end; ++bt)\n buf[bt] = buf[bt - dt];\n }\n }\n st.l = lm, st.p = lpos, st.b = bt, st.f = final;\n if (lm)\n final = 1, st.m = lbt, st.d = dm, st.n = dbt;\n } while (!final);\n // don't reallocate for streams or user buffers\n return bt != buf.length && noBuf ? slc(buf, 0, bt) : buf.subarray(0, bt);\n};\n// starting at p, write the minimum number of bits that can hold v to d\nvar wbits = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n};\n// starting at p, write the minimum number of bits (>8) that can hold v to d\nvar wbits16 = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n d[o + 2] |= v >> 16;\n};\n// creates code lengths from a frequency table\nvar hTree = function (d, mb) {\n // Need extra info to make a tree\n var t = [];\n for (var i = 0; i < d.length; ++i) {\n if (d[i])\n t.push({ s: i, f: d[i] });\n }\n var s = t.length;\n var t2 = t.slice();\n if (!s)\n return { t: et, l: 0 };\n if (s == 1) {\n var v = new u8(t[0].s + 1);\n v[t[0].s] = 1;\n return { t: v, l: 1 };\n }\n t.sort(function (a, b) { return a.f - b.f; });\n // after i2 reaches last ind, will be stopped\n // freq must be greater than largest possible number of symbols\n t.push({ s: -1, f: 25001 });\n var l = t[0], r = t[1], i0 = 0, i1 = 1, i2 = 2;\n t[0] = { s: -1, f: l.f + r.f, l: l, r: r };\n // efficient algorithm from UZIP.js\n // i0 is lookbehind, i2 is lookahead - after processing two low-freq\n // symbols that combined have high freq, will start processing i2 (high-freq,\n // non-composite) symbols instead\n // see https://reddit.com/r/photopea/comments/ikekht/uzipjs_questions/\n while (i1 != s - 1) {\n l = t[t[i0].f < t[i2].f ? i0++ : i2++];\n r = t[i0 != i1 && t[i0].f < t[i2].f ? i0++ : i2++];\n t[i1++] = { s: -1, f: l.f + r.f, l: l, r: r };\n }\n var maxSym = t2[0].s;\n for (var i = 1; i < s; ++i) {\n if (t2[i].s > maxSym)\n maxSym = t2[i].s;\n }\n // code lengths\n var tr = new u16(maxSym + 1);\n // max bits in tree\n var mbt = ln(t[i1 - 1], tr, 0);\n if (mbt > mb) {\n // more algorithms from UZIP.js\n // TODO: find out how this code works (debt)\n // ind debt\n var i = 0, dt = 0;\n // left cost\n var lft = mbt - mb, cst = 1 << lft;\n t2.sort(function (a, b) { return tr[b.s] - tr[a.s] || a.f - b.f; });\n for (; i < s; ++i) {\n var i2_1 = t2[i].s;\n if (tr[i2_1] > mb) {\n dt += cst - (1 << (mbt - tr[i2_1]));\n tr[i2_1] = mb;\n }\n else\n break;\n }\n dt >>= lft;\n while (dt > 0) {\n var i2_2 = t2[i].s;\n if (tr[i2_2] < mb)\n dt -= 1 << (mb - tr[i2_2]++ - 1);\n else\n ++i;\n }\n for (; i >= 0 && dt; --i) {\n var i2_3 = t2[i].s;\n if (tr[i2_3] == mb) {\n --tr[i2_3];\n ++dt;\n }\n }\n mbt = mb;\n }\n return { t: new u8(tr), l: mbt };\n};\n// get the max length and assign length codes\nvar ln = function (n, l, d) {\n return n.s == -1\n ? Math.max(ln(n.l, l, d + 1), ln(n.r, l, d + 1))\n : (l[n.s] = d);\n};\n// length codes generation\nvar lc = function (c) {\n var s = c.length;\n // Note that the semicolon was intentional\n while (s && !c[--s])\n ;\n var cl = new u16(++s);\n // ind num streak\n var cli = 0, cln = c[0], cls = 1;\n var w = function (v) { cl[cli++] = v; };\n for (var i = 1; i <= s; ++i) {\n if (c[i] == cln && i != s)\n ++cls;\n else {\n if (!cln && cls > 2) {\n for (; cls > 138; cls -= 138)\n w(32754);\n if (cls > 2) {\n w(cls > 10 ? ((cls - 11) << 5) | 28690 : ((cls - 3) << 5) | 12305);\n cls = 0;\n }\n }\n else if (cls > 3) {\n w(cln), --cls;\n for (; cls > 6; cls -= 6)\n w(8304);\n if (cls > 2)\n w(((cls - 3) << 5) | 8208), cls = 0;\n }\n while (cls--)\n w(cln);\n cls = 1;\n cln = c[i];\n }\n }\n return { c: cl.subarray(0, cli), n: s };\n};\n// calculate the length of output from tree, code lengths\nvar clen = function (cf, cl) {\n var l = 0;\n for (var i = 0; i < cl.length; ++i)\n l += cf[i] * cl[i];\n return l;\n};\n// writes a fixed block\n// returns the new bit pos\nvar wfblk = function (out, pos, dat) {\n // no need to write 00 as type: TypedArray defaults to 0\n var s = dat.length;\n var o = shft(pos + 2);\n out[o] = s & 255;\n out[o + 1] = s >> 8;\n out[o + 2] = out[o] ^ 255;\n out[o + 3] = out[o + 1] ^ 255;\n for (var i = 0; i < s; ++i)\n out[o + i + 4] = dat[i];\n return (o + 4 + s) * 8;\n};\n// writes a block\nvar wblk = function (dat, out, final, syms, lf, df, eb, li, bs, bl, p) {\n wbits(out, p++, final);\n ++lf[256];\n var _a = hTree(lf, 15), dlt = _a.t, mlb = _a.l;\n var _b = hTree(df, 15), ddt = _b.t, mdb = _b.l;\n var _c = lc(dlt), lclt = _c.c, nlc = _c.n;\n var _d = lc(ddt), lcdt = _d.c, ndc = _d.n;\n var lcfreq = new u16(19);\n for (var i = 0; i < lclt.length; ++i)\n ++lcfreq[lclt[i] & 31];\n for (var i = 0; i < lcdt.length; ++i)\n ++lcfreq[lcdt[i] & 31];\n var _e = hTree(lcfreq, 7), lct = _e.t, mlcb = _e.l;\n var nlcc = 19;\n for (; nlcc > 4 && !lct[clim[nlcc - 1]]; --nlcc)\n ;\n var flen = (bl + 5) << 3;\n var ftlen = clen(lf, flt) + clen(df, fdt) + eb;\n var dtlen = clen(lf, dlt) + clen(df, ddt) + eb + 14 + 3 * nlcc + clen(lcfreq, lct) + 2 * lcfreq[16] + 3 * lcfreq[17] + 7 * lcfreq[18];\n if (bs >= 0 && flen <= ftlen && flen <= dtlen)\n return wfblk(out, p, dat.subarray(bs, bs + bl));\n var lm, ll, dm, dl;\n wbits(out, p, 1 + (dtlen < ftlen)), p += 2;\n if (dtlen < ftlen) {\n lm = hMap(dlt, mlb, 0), ll = dlt, dm = hMap(ddt, mdb, 0), dl = ddt;\n var llm = hMap(lct, mlcb, 0);\n wbits(out, p, nlc - 257);\n wbits(out, p + 5, ndc - 1);\n wbits(out, p + 10, nlcc - 4);\n p += 14;\n for (var i = 0; i < nlcc; ++i)\n wbits(out, p + 3 * i, lct[clim[i]]);\n p += 3 * nlcc;\n var lcts = [lclt, lcdt];\n for (var it = 0; it < 2; ++it) {\n var clct = lcts[it];\n for (var i = 0; i < clct.length; ++i) {\n var len = clct[i] & 31;\n wbits(out, p, llm[len]), p += lct[len];\n if (len > 15)\n wbits(out, p, (clct[i] >> 5) & 127), p += clct[i] >> 12;\n }\n }\n }\n else {\n lm = flm, ll = flt, dm = fdm, dl = fdt;\n }\n for (var i = 0; i < li; ++i) {\n var sym = syms[i];\n if (sym > 255) {\n var len = (sym >> 18) & 31;\n wbits16(out, p, lm[len + 257]), p += ll[len + 257];\n if (len > 7)\n wbits(out, p, (sym >> 23) & 31), p += fleb[len];\n var dst = sym & 31;\n wbits16(out, p, dm[dst]), p += dl[dst];\n if (dst > 3)\n wbits16(out, p, (sym >> 5) & 8191), p += fdeb[dst];\n }\n else {\n wbits16(out, p, lm[sym]), p += ll[sym];\n }\n }\n wbits16(out, p, lm[256]);\n return p + ll[256];\n};\n// deflate options (nice << 13) | chain\nvar deo = /*#__PURE__*/ new i32([65540, 131080, 131088, 131104, 262176, 1048704, 1048832, 2114560, 2117632]);\n// empty\nvar et = /*#__PURE__*/ new u8(0);\n// compresses data into a raw DEFLATE buffer\nvar dflt = function (dat, lvl, plvl, pre, post, st) {\n var s = st.z || dat.length;\n var o = new u8(pre + s + 5 * (1 + Math.ceil(s / 7000)) + post);\n // writing to this writes to the output buffer\n var w = o.subarray(pre, o.length - post);\n var lst = st.l;\n var pos = (st.r || 0) & 7;\n if (lvl) {\n if (pos)\n w[0] = st.r >> 3;\n var opt = deo[lvl - 1];\n var n = opt >> 13, c = opt & 8191;\n var msk_1 = (1 << plvl) - 1;\n // prev 2-byte val map curr 2-byte val map\n var prev = st.p || new u16(32768), head = st.h || new u16(msk_1 + 1);\n var bs1_1 = Math.ceil(plvl / 3), bs2_1 = 2 * bs1_1;\n var hsh = function (i) { return (dat[i] ^ (dat[i + 1] << bs1_1) ^ (dat[i + 2] << bs2_1)) & msk_1; };\n // 24576 is an arbitrary number of maximum symbols per block\n // 424 buffer for last block\n var syms = new i32(25000);\n // length/literal freq distance freq\n var lf = new u16(288), df = new u16(32);\n // l/lcnt exbits index l/lind waitdx blkpos\n var lc_1 = 0, eb = 0, i = st.i || 0, li = 0, wi = st.w || 0, bs = 0;\n for (; i + 2 < s; ++i) {\n // hash value\n var hv = hsh(i);\n // index mod 32768 previous index mod\n var imod = i & 32767, pimod = head[hv];\n prev[imod] = pimod;\n head[hv] = imod;\n // We always should modify head and prev, but only add symbols if\n // this data is not yet processed (\"wait\" for wait index)\n if (wi <= i) {\n // bytes remaining\n var rem = s - i;\n if ((lc_1 > 7000 || li > 24576) && (rem > 423 || !lst)) {\n pos = wblk(dat, w, 0, syms, lf, df, eb, li, bs, i - bs, pos);\n li = lc_1 = eb = 0, bs = i;\n for (var j = 0; j < 286; ++j)\n lf[j] = 0;\n for (var j = 0; j < 30; ++j)\n df[j] = 0;\n }\n // len dist chain\n var l = 2, d = 0, ch_1 = c, dif = imod - pimod & 32767;\n if (rem > 2 && hv == hsh(i - dif)) {\n var maxn = Math.min(n, rem) - 1;\n var maxd = Math.min(32767, i);\n // max possible length\n // not capped at dif because decompressors implement \"rolling\" index population\n var ml = Math.min(258, rem);\n while (dif <= maxd && --ch_1 && imod != pimod) {\n if (dat[i + l] == dat[i + l - dif]) {\n var nl = 0;\n for (; nl < ml && dat[i + nl] == dat[i + nl - dif]; ++nl)\n ;\n if (nl > l) {\n l = nl, d = dif;\n // break out early when we reach \"nice\" (we are satisfied enough)\n if (nl > maxn)\n break;\n // now, find the rarest 2-byte sequence within this\n // length of literals and search for that instead.\n // Much faster than just using the start\n var mmd = Math.min(dif, nl - 2);\n var md = 0;\n for (var j = 0; j < mmd; ++j) {\n var ti = i - dif + j & 32767;\n var pti = prev[ti];\n var cd = ti - pti & 32767;\n if (cd > md)\n md = cd, pimod = ti;\n }\n }\n }\n // check the previous match\n imod = pimod, pimod = prev[imod];\n dif += imod - pimod & 32767;\n }\n }\n // d will be nonzero only when a match was found\n if (d) {\n // store both dist and len data in one int32\n // Make sure this is recognized as a len/dist with 28th bit (2^28)\n syms[li++] = 268435456 | (revfl[l] << 18) | revfd[d];\n var lin = revfl[l] & 31, din = revfd[d] & 31;\n eb += fleb[lin] + fdeb[din];\n ++lf[257 + lin];\n ++df[din];\n wi = i + l;\n ++lc_1;\n }\n else {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n }\n }\n for (i = Math.max(i, wi); i < s; ++i) {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n pos = wblk(dat, w, lst, syms, lf, df, eb, li, bs, i - bs, pos);\n if (!lst) {\n st.r = (pos & 7) | w[(pos / 8) | 0] << 3;\n // shft(pos) now 1 less if pos & 7 != 0\n pos -= 7;\n st.h = head, st.p = prev, st.i = i, st.w = wi;\n }\n }\n else {\n for (var i = st.w || 0; i < s + lst; i += 65535) {\n // end\n var e = i + 65535;\n if (e >= s) {\n // write final block\n w[(pos / 8) | 0] = lst;\n e = s;\n }\n pos = wfblk(w, pos + 1, dat.subarray(i, e));\n }\n st.i = s;\n }\n return slc(o, 0, pre + shft(pos) + post);\n};\n// CRC32 table\nvar crct = /*#__PURE__*/ (function () {\n var t = new Int32Array(256);\n for (var i = 0; i < 256; ++i) {\n var c = i, k = 9;\n while (--k)\n c = ((c & 1) && -306674912) ^ (c >>> 1);\n t[i] = c;\n }\n return t;\n})();\n// CRC32\nvar crc = function () {\n var c = -1;\n return {\n p: function (d) {\n // closures have awful performance\n var cr = c;\n for (var i = 0; i < d.length; ++i)\n cr = crct[(cr & 255) ^ d[i]] ^ (cr >>> 8);\n c = cr;\n },\n d: function () { return ~c; }\n };\n};\n// Adler32\nvar adler = function () {\n var a = 1, b = 0;\n return {\n p: function (d) {\n // closures have awful performance\n var n = a, m = b;\n var l = d.length | 0;\n for (var i = 0; i != l;) {\n var e = Math.min(i + 2655, l);\n for (; i < e; ++i)\n m += n += d[i];\n n = (n & 65535) + 15 * (n >> 16), m = (m & 65535) + 15 * (m >> 16);\n }\n a = n, b = m;\n },\n d: function () {\n a %= 65521, b %= 65521;\n return (a & 255) << 24 | (a & 0xFF00) << 8 | (b & 255) << 8 | (b >> 8);\n }\n };\n};\n;\n// deflate with opts\nvar dopt = function (dat, opt, pre, post, st) {\n if (!st) {\n st = { l: 1 };\n if (opt.dictionary) {\n var dict = opt.dictionary.subarray(-32768);\n var newDat = new u8(dict.length + dat.length);\n newDat.set(dict);\n newDat.set(dat, dict.length);\n dat = newDat;\n st.w = dict.length;\n }\n }\n return dflt(dat, opt.level == null ? 6 : opt.level, opt.mem == null ? (st.l ? Math.ceil(Math.max(8, Math.min(13, Math.log(dat.length))) * 1.5) : 20) : (12 + opt.mem), pre, post, st);\n};\n// Walmart object spread\nvar mrg = function (a, b) {\n var o = {};\n for (var k in a)\n o[k] = a[k];\n for (var k in b)\n o[k] = b[k];\n return o;\n};\n// worker clone\n// This is possibly the craziest part of the entire codebase, despite how simple it may seem.\n// The only parameter to this function is a closure that returns an array of variables outside of the function scope.\n// We're going to try to figure out the variable names used in the closure as strings because that is crucial for workerization.\n// We will return an object mapping of true variable name to value (basically, the current scope as a JS object).\n// The reason we can't just use the original variable names is minifiers mangling the toplevel scope.\n// This took me three weeks to figure out how to do.\nvar wcln = function (fn, fnStr, td) {\n var dt = fn();\n var st = fn.toString();\n var ks = st.slice(st.indexOf('[') + 1, st.lastIndexOf(']')).replace(/\\s+/g, '').split(',');\n for (var i = 0; i < dt.length; ++i) {\n var v = dt[i], k = ks[i];\n if (typeof v == 'function') {\n fnStr += ';' + k + '=';\n var st_1 = v.toString();\n if (v.prototype) {\n // for global objects\n if (st_1.indexOf('[native code]') != -1) {\n var spInd = st_1.indexOf(' ', 8) + 1;\n fnStr += st_1.slice(spInd, st_1.indexOf('(', spInd));\n }\n else {\n fnStr += st_1;\n for (var t in v.prototype)\n fnStr += ';' + k + '.prototype.' + t + '=' + v.prototype[t].toString();\n }\n }\n else\n fnStr += st_1;\n }\n else\n td[k] = v;\n }\n return fnStr;\n};\nvar ch = [];\n// clone bufs\nvar cbfs = function (v) {\n var tl = [];\n for (var k in v) {\n if (v[k].buffer) {\n tl.push((v[k] = new v[k].constructor(v[k])).buffer);\n }\n }\n return tl;\n};\n// use a worker to execute code\nvar wrkr = function (fns, init, id, cb) {\n if (!ch[id]) {\n var fnStr = '', td_1 = {}, m = fns.length - 1;\n for (var i = 0; i < m; ++i)\n fnStr = wcln(fns[i], fnStr, td_1);\n ch[id] = { c: wcln(fns[m], fnStr, td_1), e: td_1 };\n }\n var td = mrg({}, ch[id].e);\n return wk(ch[id].c + ';onmessage=function(e){for(var k in e.data)self[k]=e.data[k];onmessage=' + init.toString() + '}', id, td, cbfs(td), cb);\n};\n// base async inflate fn\nvar bInflt = function () { return [u8, u16, i32, fleb, fdeb, clim, fl, fd, flrm, fdrm, rev, ec, hMap, max, bits, bits16, shft, slc, err, inflt, inflateSync, pbf, gopt]; };\nvar bDflt = function () { return [u8, u16, i32, fleb, fdeb, clim, revfl, revfd, flm, flt, fdm, fdt, rev, deo, et, hMap, wbits, wbits16, hTree, ln, lc, clen, wfblk, wblk, shft, slc, dflt, dopt, deflateSync, pbf]; };\n// gzip extra\nvar gze = function () { return [gzh, gzhl, wbytes, crc, crct]; };\n// gunzip extra\nvar guze = function () { return [gzs, gzl]; };\n// zlib extra\nvar zle = function () { return [zlh, wbytes, adler]; };\n// unzlib extra\nvar zule = function () { return [zls]; };\n// post buf\nvar pbf = function (msg) { return postMessage(msg, [msg.buffer]); };\n// get opts\nvar gopt = function (o) { return o && {\n out: o.size && new u8(o.size),\n dictionary: o.dictionary\n}; };\n// async helper\nvar cbify = function (dat, opts, fns, init, id, cb) {\n var w = wrkr(fns, init, id, function (err, dat) {\n w.terminate();\n cb(err, dat);\n });\n w.postMessage([dat, opts], opts.consume ? [dat.buffer] : []);\n return function () { w.terminate(); };\n};\n// auto stream\nvar astrm = function (strm) {\n strm.ondata = function (dat, final) { return postMessage([dat, final], [dat.buffer]); };\n return function (ev) {\n if (ev.data.length) {\n strm.push(ev.data[0], ev.data[1]);\n postMessage([ev.data[0].length]);\n }\n else\n strm.flush();\n };\n};\n// async stream attach\nvar astrmify = function (fns, strm, opts, init, id, flush, ext) {\n var t;\n var w = wrkr(fns, init, id, function (err, dat) {\n if (err)\n w.terminate(), strm.ondata.call(strm, err);\n else if (!Array.isArray(dat))\n ext(dat);\n else if (dat.length == 1) {\n strm.queuedSize -= dat[0];\n if (strm.ondrain)\n strm.ondrain(dat[0]);\n }\n else {\n if (dat[1])\n w.terminate();\n strm.ondata.call(strm, err, dat[0], dat[1]);\n }\n });\n w.postMessage(opts);\n strm.queuedSize = 0;\n strm.push = function (d, f) {\n if (!strm.ondata)\n err(5);\n if (t)\n strm.ondata(err(4, 0, 1), null, !!f);\n strm.queuedSize += d.length;\n w.postMessage([d, t = f], [d.buffer]);\n };\n strm.terminate = function () { w.terminate(); };\n if (flush) {\n strm.flush = function () { w.postMessage([]); };\n }\n};\n// read 2 bytes\nvar b2 = function (d, b) { return d[b] | (d[b + 1] << 8); };\n// read 4 bytes\nvar b4 = function (d, b) { return (d[b] | (d[b + 1] << 8) | (d[b + 2] << 16) | (d[b + 3] << 24)) >>> 0; };\nvar b8 = function (d, b) { return b4(d, b) + (b4(d, b + 4) * 4294967296); };\n// write bytes\nvar wbytes = function (d, b, v) {\n for (; v; ++b)\n d[b] = v, v >>>= 8;\n};\n// gzip header\nvar gzh = function (c, o) {\n var fn = o.filename;\n c[0] = 31, c[1] = 139, c[2] = 8, c[8] = o.level < 2 ? 4 : o.level == 9 ? 2 : 0, c[9] = 3; // assume Unix\n if (o.mtime != 0)\n wbytes(c, 4, Math.floor(new Date(o.mtime || Date.now()) / 1000));\n if (fn) {\n c[3] = 8;\n for (var i = 0; i <= fn.length; ++i)\n c[i + 10] = fn.charCodeAt(i);\n }\n};\n// gzip footer: -8 to -4 = CRC, -4 to -0 is length\n// gzip start\nvar gzs = function (d) {\n if (d[0] != 31 || d[1] != 139 || d[2] != 8)\n err(6, 'invalid gzip data');\n var flg = d[3];\n var st = 10;\n if (flg & 4)\n st += (d[10] | d[11] << 8) + 2;\n for (var zs = (flg >> 3 & 1) + (flg >> 4 & 1); zs > 0; zs -= !d[st++])\n ;\n return st + (flg & 2);\n};\n// gzip length\nvar gzl = function (d) {\n var l = d.length;\n return (d[l - 4] | d[l - 3] << 8 | d[l - 2] << 16 | d[l - 1] << 24) >>> 0;\n};\n// gzip header length\nvar gzhl = function (o) { return 10 + (o.filename ? o.filename.length + 1 : 0); };\n// zlib header\nvar zlh = function (c, o) {\n var lv = o.level, fl = lv == 0 ? 0 : lv < 6 ? 1 : lv == 9 ? 3 : 2;\n c[0] = 120, c[1] = (fl << 6) | (o.dictionary && 32);\n c[1] |= 31 - ((c[0] << 8) | c[1]) % 31;\n if (o.dictionary) {\n var h = adler();\n h.p(o.dictionary);\n wbytes(c, 2, h.d());\n }\n};\n// zlib start\nvar zls = function (d, dict) {\n if ((d[0] & 15) != 8 || (d[0] >> 4) > 7 || ((d[0] << 8 | d[1]) % 31))\n err(6, 'invalid zlib data');\n if ((d[1] >> 5 & 1) == +!dict)\n err(6, 'invalid zlib data: ' + (d[1] & 32 ? 'need' : 'unexpected') + ' dictionary');\n return (d[1] >> 3 & 4) + 2;\n};\nfunction StrmOpt(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n return opts;\n}\n/**\n * Streaming DEFLATE compression\n */\nvar Deflate = /*#__PURE__*/ (function () {\n function Deflate(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n this.o = opts || {};\n this.s = { l: 0, i: 32768, w: 32768, z: 32768 };\n // Buffer length must always be 0 mod 32768 for index calculations to be correct when modifying head and prev\n // 98304 = 32768 (lookback) + 65536 (common chunk size)\n this.b = new u8(98304);\n if (this.o.dictionary) {\n var dict = this.o.dictionary.subarray(-32768);\n this.b.set(dict, 32768 - dict.length);\n this.s.i = 32768 - dict.length;\n }\n }\n Deflate.prototype.p = function (c, f) {\n this.ondata(dopt(c, this.o, 0, 0, this.s), f);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Deflate.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n var endLen = chunk.length + this.s.z;\n if (endLen > this.b.length) {\n if (endLen > 2 * this.b.length - 32768) {\n var newBuf = new u8(endLen & -32768);\n newBuf.set(this.b.subarray(0, this.s.z));\n this.b = newBuf;\n }\n var split = this.b.length - this.s.z;\n this.b.set(chunk.subarray(0, split), this.s.z);\n this.s.z = this.b.length;\n this.p(this.b, false);\n this.b.set(this.b.subarray(-32768));\n this.b.set(chunk.subarray(split), 32768);\n this.s.z = chunk.length - split + 32768;\n this.s.i = 32766, this.s.w = 32768;\n }\n else {\n this.b.set(chunk, this.s.z);\n this.s.z += chunk.length;\n }\n this.s.l = final & 1;\n if (this.s.z > this.s.w + 8191 || final) {\n this.p(this.b, final || false);\n this.s.w = this.s.i, this.s.i -= 2;\n }\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * deflated output for small inputs.\n */\n Deflate.prototype.flush = function () {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n this.p(this.b, false);\n this.s.w = this.s.i, this.s.i -= 2;\n };\n return Deflate;\n}());\nexport { Deflate };\n/**\n * Asynchronous streaming DEFLATE compression\n */\nvar AsyncDeflate = /*#__PURE__*/ (function () {\n function AsyncDeflate(opts, cb) {\n astrmify([\n bDflt,\n function () { return [astrm, Deflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Deflate(ev.data);\n onmessage = astrm(strm);\n }, 6, 1);\n }\n return AsyncDeflate;\n}());\nexport { AsyncDeflate };\nexport function deflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n ], function (ev) { return pbf(deflateSync(ev.data[0], ev.data[1])); }, 0, cb);\n}\n/**\n * Compresses data with DEFLATE without any wrapper\n * @param data The data to compress\n * @param opts The compression options\n * @returns The deflated version of the data\n */\nexport function deflateSync(data, opts) {\n return dopt(data, opts || {}, 0, 0);\n}\n/**\n * Streaming DEFLATE decompression\n */\nvar Inflate = /*#__PURE__*/ (function () {\n function Inflate(opts, cb) {\n // no StrmOpt here to avoid adding to workerizer\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n var dict = opts && opts.dictionary && opts.dictionary.subarray(-32768);\n this.s = { i: 0, b: dict ? dict.length : 0 };\n this.o = new u8(32768);\n this.p = new u8(0);\n if (dict)\n this.o.set(dict);\n }\n Inflate.prototype.e = function (c) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n if (!this.p.length)\n this.p = c;\n else if (c.length) {\n var n = new u8(this.p.length + c.length);\n n.set(this.p), n.set(c, this.p.length), this.p = n;\n }\n };\n Inflate.prototype.c = function (final) {\n this.s.i = +(this.d = final || false);\n var bts = this.s.b;\n var dt = inflt(this.p, this.s, this.o);\n this.ondata(slc(dt, bts, this.s.b), this.d);\n this.o = slc(dt, this.s.b - 32768), this.s.b = this.o.length;\n this.p = slc(this.p, (this.s.p / 8) | 0), this.s.p &= 7;\n };\n /**\n * Pushes a chunk to be inflated\n * @param chunk The chunk to push\n * @param final Whether this is the final chunk\n */\n Inflate.prototype.push = function (chunk, final) {\n this.e(chunk), this.c(final);\n };\n return Inflate;\n}());\nexport { Inflate };\n/**\n * Asynchronous streaming DEFLATE decompression\n */\nvar AsyncInflate = /*#__PURE__*/ (function () {\n function AsyncInflate(opts, cb) {\n astrmify([\n bInflt,\n function () { return [astrm, Inflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Inflate(ev.data);\n onmessage = astrm(strm);\n }, 7, 0);\n }\n return AsyncInflate;\n}());\nexport { AsyncInflate };\nexport function inflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt\n ], function (ev) { return pbf(inflateSync(ev.data[0], gopt(ev.data[1]))); }, 1, cb);\n}\n/**\n * Expands DEFLATE data with no wrapper\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function inflateSync(data, opts) {\n return inflt(data, { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// before you yell at me for not just using extends, my reason is that TS inheritance is hard to workerize.\n/**\n * Streaming GZIP compression\n */\nvar Gzip = /*#__PURE__*/ (function () {\n function Gzip(opts, cb) {\n this.c = crc();\n this.l = 0;\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gzip.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n this.l += chunk.length;\n Deflate.prototype.push.call(this, chunk, final);\n };\n Gzip.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && gzhl(this.o), f && 8, this.s);\n if (this.v)\n gzh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 8, this.c.d()), wbytes(raw, raw.length - 4, this.l);\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * GZIPped output for small inputs.\n */\n Gzip.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Gzip;\n}());\nexport { Gzip };\n/**\n * Asynchronous streaming GZIP compression\n */\nvar AsyncGzip = /*#__PURE__*/ (function () {\n function AsyncGzip(opts, cb) {\n astrmify([\n bDflt,\n gze,\n function () { return [astrm, Deflate, Gzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gzip(ev.data);\n onmessage = astrm(strm);\n }, 8, 1);\n }\n return AsyncGzip;\n}());\nexport { AsyncGzip };\nexport function gzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n gze,\n function () { return [gzipSync]; }\n ], function (ev) { return pbf(gzipSync(ev.data[0], ev.data[1])); }, 2, cb);\n}\n/**\n * Compresses data with GZIP\n * @param data The data to compress\n * @param opts The compression options\n * @returns The gzipped version of the data\n */\nexport function gzipSync(data, opts) {\n if (!opts)\n opts = {};\n var c = crc(), l = data.length;\n c.p(data);\n var d = dopt(data, opts, gzhl(opts), 8), s = d.length;\n return gzh(d, opts), wbytes(d, s - 8, c.d()), wbytes(d, s - 4, l), d;\n}\n/**\n * Streaming single or multi-member GZIP decompression\n */\nvar Gunzip = /*#__PURE__*/ (function () {\n function Gunzip(opts, cb) {\n this.v = 1;\n this.r = 0;\n Inflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GUNZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gunzip.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n this.r += chunk.length;\n if (this.v) {\n var p = this.p.subarray(this.v - 1);\n var s = p.length > 3 ? gzs(p) : 4;\n if (s > p.length) {\n if (!final)\n return;\n }\n else if (this.v > 1 && this.onmember) {\n this.onmember(this.r - p.length);\n }\n this.p = p.subarray(s), this.v = 0;\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n // process concatenated GZIP\n if (this.s.f && !this.s.l && !final) {\n this.v = shft(this.s.p) + 9;\n this.s = { i: 0 };\n this.o = new u8(0);\n this.push(new u8(0), final);\n }\n };\n return Gunzip;\n}());\nexport { Gunzip };\n/**\n * Asynchronous streaming single or multi-member GZIP decompression\n */\nvar AsyncGunzip = /*#__PURE__*/ (function () {\n function AsyncGunzip(opts, cb) {\n var _this = this;\n astrmify([\n bInflt,\n guze,\n function () { return [astrm, Inflate, Gunzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gunzip(ev.data);\n strm.onmember = function (offset) { return postMessage(offset); };\n onmessage = astrm(strm);\n }, 9, 0, function (offset) { return _this.onmember && _this.onmember(offset); });\n }\n return AsyncGunzip;\n}());\nexport { AsyncGunzip };\nexport function gunzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n guze,\n function () { return [gunzipSync]; }\n ], function (ev) { return pbf(gunzipSync(ev.data[0], ev.data[1])); }, 3, cb);\n}\n/**\n * Expands GZIP data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function gunzipSync(data, opts) {\n var st = gzs(data);\n if (st + 8 > data.length)\n err(6, 'invalid gzip data');\n return inflt(data.subarray(st, -8), { i: 2 }, opts && opts.out || new u8(gzl(data)), opts && opts.dictionary);\n}\n/**\n * Streaming Zlib compression\n */\nvar Zlib = /*#__PURE__*/ (function () {\n function Zlib(opts, cb) {\n this.c = adler();\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be zlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Zlib.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n Deflate.prototype.push.call(this, chunk, final);\n };\n Zlib.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && (this.o.dictionary ? 6 : 2), f && 4, this.s);\n if (this.v)\n zlh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 4, this.c.d());\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * zlibbed output for small inputs.\n */\n Zlib.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Zlib;\n}());\nexport { Zlib };\n/**\n * Asynchronous streaming Zlib compression\n */\nvar AsyncZlib = /*#__PURE__*/ (function () {\n function AsyncZlib(opts, cb) {\n astrmify([\n bDflt,\n zle,\n function () { return [astrm, Deflate, Zlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Zlib(ev.data);\n onmessage = astrm(strm);\n }, 10, 1);\n }\n return AsyncZlib;\n}());\nexport { AsyncZlib };\nexport function zlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n zle,\n function () { return [zlibSync]; }\n ], function (ev) { return pbf(zlibSync(ev.data[0], ev.data[1])); }, 4, cb);\n}\n/**\n * Compress data with Zlib\n * @param data The data to compress\n * @param opts The compression options\n * @returns The zlib-compressed version of the data\n */\nexport function zlibSync(data, opts) {\n if (!opts)\n opts = {};\n var a = adler();\n a.p(data);\n var d = dopt(data, opts, opts.dictionary ? 6 : 2, 4);\n return zlh(d, opts), wbytes(d, d.length - 4, a.d()), d;\n}\n/**\n * Streaming Zlib decompression\n */\nvar Unzlib = /*#__PURE__*/ (function () {\n function Unzlib(opts, cb) {\n Inflate.call(this, opts, cb);\n this.v = opts && opts.dictionary ? 2 : 1;\n }\n /**\n * Pushes a chunk to be unzlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzlib.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n if (this.v) {\n if (this.p.length < 6 && !final)\n return;\n this.p = this.p.subarray(zls(this.p, this.v - 1)), this.v = 0;\n }\n if (final) {\n if (this.p.length < 4)\n err(6, 'invalid zlib data');\n this.p = this.p.subarray(0, -4);\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n };\n return Unzlib;\n}());\nexport { Unzlib };\n/**\n * Asynchronous streaming Zlib decompression\n */\nvar AsyncUnzlib = /*#__PURE__*/ (function () {\n function AsyncUnzlib(opts, cb) {\n astrmify([\n bInflt,\n zule,\n function () { return [astrm, Inflate, Unzlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Unzlib(ev.data);\n onmessage = astrm(strm);\n }, 11, 0);\n }\n return AsyncUnzlib;\n}());\nexport { AsyncUnzlib };\nexport function unzlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n zule,\n function () { return [unzlibSync]; }\n ], function (ev) { return pbf(unzlibSync(ev.data[0], gopt(ev.data[1]))); }, 5, cb);\n}\n/**\n * Expands Zlib data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function unzlibSync(data, opts) {\n return inflt(data.subarray(zls(data, opts && opts.dictionary), -4), { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// Default algorithm for compression (used because having a known output size allows faster decompression)\nexport { gzip as compress, AsyncGzip as AsyncCompress };\nexport { gzipSync as compressSync, Gzip as Compress };\n/**\n * Streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar Decompress = /*#__PURE__*/ (function () {\n function Decompress(opts, cb) {\n this.o = StrmOpt.call(this, opts, cb) || {};\n this.G = Gunzip;\n this.I = Inflate;\n this.Z = Unzlib;\n }\n // init substream\n // overriden by AsyncDecompress\n Decompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (dat, final) {\n _this.ondata(dat, final);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Decompress.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (!this.s) {\n if (this.p && this.p.length) {\n var n = new u8(this.p.length + chunk.length);\n n.set(this.p), n.set(chunk, this.p.length);\n }\n else\n this.p = chunk;\n if (this.p.length > 2) {\n this.s = (this.p[0] == 31 && this.p[1] == 139 && this.p[2] == 8)\n ? new this.G(this.o)\n : ((this.p[0] & 15) != 8 || (this.p[0] >> 4) > 7 || ((this.p[0] << 8 | this.p[1]) % 31))\n ? new this.I(this.o)\n : new this.Z(this.o);\n this.i();\n this.s.push(this.p, final);\n this.p = null;\n }\n }\n else\n this.s.push(chunk, final);\n };\n return Decompress;\n}());\nexport { Decompress };\n/**\n * Asynchronous streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar AsyncDecompress = /*#__PURE__*/ (function () {\n function AsyncDecompress(opts, cb) {\n Decompress.call(this, opts, cb);\n this.queuedSize = 0;\n this.G = AsyncGunzip;\n this.I = AsyncInflate;\n this.Z = AsyncUnzlib;\n }\n AsyncDecompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (err, dat, final) {\n _this.ondata(err, dat, final);\n };\n this.s.ondrain = function (size) {\n _this.queuedSize -= size;\n if (_this.ondrain)\n _this.ondrain(size);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncDecompress.prototype.push = function (chunk, final) {\n this.queuedSize += chunk.length;\n Decompress.prototype.push.call(this, chunk, final);\n };\n return AsyncDecompress;\n}());\nexport { AsyncDecompress };\nexport function decompress(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzip(data, opts, cb)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflate(data, opts, cb)\n : unzlib(data, opts, cb);\n}\n/**\n * Expands compressed GZIP, Zlib, or raw DEFLATE data, automatically detecting the format\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function decompressSync(data, opts) {\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzipSync(data, opts)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflateSync(data, opts)\n : unzlibSync(data, opts);\n}\n// flatten a directory structure\nvar fltn = function (d, p, t, o) {\n for (var k in d) {\n var val = d[k], n = p + k, op = o;\n if (Array.isArray(val))\n op = mrg(o, val[1]), val = val[0];\n if (val instanceof u8)\n t[n] = [val, op];\n else {\n t[n += '/'] = [new u8(0), op];\n fltn(val, n, t, o);\n }\n }\n};\n// text encoder\nvar te = typeof TextEncoder != 'undefined' && /*#__PURE__*/ new TextEncoder();\n// text decoder\nvar td = typeof TextDecoder != 'undefined' && /*#__PURE__*/ new TextDecoder();\n// text decoder stream\nvar tds = 0;\ntry {\n td.decode(et, { stream: true });\n tds = 1;\n}\ncatch (e) { }\n// decode UTF8\nvar dutf8 = function (d) {\n for (var r = '', i = 0;;) {\n var c = d[i++];\n var eb = (c > 127) + (c > 223) + (c > 239);\n if (i + eb > d.length)\n return { s: r, r: slc(d, i - 1) };\n if (!eb)\n r += String.fromCharCode(c);\n else if (eb == 3) {\n c = ((c & 15) << 18 | (d[i++] & 63) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63)) - 65536,\n r += String.fromCharCode(55296 | (c >> 10), 56320 | (c & 1023));\n }\n else if (eb & 1)\n r += String.fromCharCode((c & 31) << 6 | (d[i++] & 63));\n else\n r += String.fromCharCode((c & 15) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63));\n }\n};\n/**\n * Streaming UTF-8 decoding\n */\nvar DecodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is decoded\n */\n function DecodeUTF8(cb) {\n this.ondata = cb;\n if (tds)\n this.t = new TextDecoder();\n else\n this.p = et;\n }\n /**\n * Pushes a chunk to be decoded from UTF-8 binary\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n DecodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n final = !!final;\n if (this.t) {\n this.ondata(this.t.decode(chunk, { stream: true }), final);\n if (final) {\n if (this.t.decode().length)\n err(8);\n this.t = null;\n }\n return;\n }\n if (!this.p)\n err(4);\n var dat = new u8(this.p.length + chunk.length);\n dat.set(this.p);\n dat.set(chunk, this.p.length);\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (final) {\n if (r.length)\n err(8);\n this.p = null;\n }\n else\n this.p = r;\n this.ondata(s, final);\n };\n return DecodeUTF8;\n}());\nexport { DecodeUTF8 };\n/**\n * Streaming UTF-8 encoding\n */\nvar EncodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is encoded\n */\n function EncodeUTF8(cb) {\n this.ondata = cb;\n }\n /**\n * Pushes a chunk to be encoded to UTF-8\n * @param chunk The string data to push\n * @param final Whether this is the last chunk\n */\n EncodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n this.ondata(strToU8(chunk), this.d = final || false);\n };\n return EncodeUTF8;\n}());\nexport { EncodeUTF8 };\n/**\n * Converts a string into a Uint8Array for use with compression/decompression methods\n * @param str The string to encode\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless decoding a binary string.\n * @returns The string encoded in UTF-8/Latin-1 binary\n */\nexport function strToU8(str, latin1) {\n if (latin1) {\n var ar_1 = new u8(str.length);\n for (var i = 0; i < str.length; ++i)\n ar_1[i] = str.charCodeAt(i);\n return ar_1;\n }\n if (te)\n return te.encode(str);\n var l = str.length;\n var ar = new u8(str.length + (str.length >> 1));\n var ai = 0;\n var w = function (v) { ar[ai++] = v; };\n for (var i = 0; i < l; ++i) {\n if (ai + 5 > ar.length) {\n var n = new u8(ai + 8 + ((l - i) << 1));\n n.set(ar);\n ar = n;\n }\n var c = str.charCodeAt(i);\n if (c < 128 || latin1)\n w(c);\n else if (c < 2048)\n w(192 | (c >> 6)), w(128 | (c & 63));\n else if (c > 55295 && c < 57344)\n c = 65536 + (c & 1023 << 10) | (str.charCodeAt(++i) & 1023),\n w(240 | (c >> 18)), w(128 | ((c >> 12) & 63)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n else\n w(224 | (c >> 12)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n }\n return slc(ar, 0, ai);\n}\n/**\n * Converts a Uint8Array to a string\n * @param dat The data to decode to string\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless encoding to binary string.\n * @returns The original UTF-8/Latin-1 string\n */\nexport function strFromU8(dat, latin1) {\n if (latin1) {\n var r = '';\n for (var i = 0; i < dat.length; i += 16384)\n r += String.fromCharCode.apply(null, dat.subarray(i, i + 16384));\n return r;\n }\n else if (td) {\n return td.decode(dat);\n }\n else {\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (r.length)\n err(8);\n return s;\n }\n}\n;\n// deflate bit flag\nvar dbf = function (l) { return l == 1 ? 3 : l < 6 ? 2 : l == 9 ? 1 : 0; };\n// skip local zip header\nvar slzh = function (d, b) { return b + 30 + b2(d, b + 26) + b2(d, b + 28); };\n// read zip header\nvar zh = function (d, b, z) {\n var fnl = b2(d, b + 28), fn = strFromU8(d.subarray(b + 46, b + 46 + fnl), !(b2(d, b + 8) & 2048)), es = b + 46 + fnl, bs = b4(d, b + 20);\n var _a = z && bs == 4294967295 ? z64e(d, es) : [bs, b4(d, b + 24), b4(d, b + 42)], sc = _a[0], su = _a[1], off = _a[2];\n return [b2(d, b + 10), sc, su, fn, es + b2(d, b + 30) + b2(d, b + 32), off];\n};\n// read zip64 extra field\nvar z64e = function (d, b) {\n for (; b2(d, b) != 1; b += 4 + b2(d, b + 2))\n ;\n return [b8(d, b + 12), b8(d, b + 4), b8(d, b + 20)];\n};\n// extra field length\nvar exfl = function (ex) {\n var le = 0;\n if (ex) {\n for (var k in ex) {\n var l = ex[k].length;\n if (l > 65535)\n err(9);\n le += l + 4;\n }\n }\n return le;\n};\n// write zip header\nvar wzh = function (d, b, f, fn, u, c, ce, co) {\n var fl = fn.length, ex = f.extra, col = co && co.length;\n var exl = exfl(ex);\n wbytes(d, b, ce != null ? 0x2014B50 : 0x4034B50), b += 4;\n if (ce != null)\n d[b++] = 20, d[b++] = f.os;\n d[b] = 20, b += 2; // spec compliance? what's that?\n d[b++] = (f.flag << 1) | (c < 0 && 8), d[b++] = u && 8;\n d[b++] = f.compression & 255, d[b++] = f.compression >> 8;\n var dt = new Date(f.mtime == null ? Date.now() : f.mtime), y = dt.getFullYear() - 1980;\n if (y < 0 || y > 119)\n err(10);\n wbytes(d, b, (y << 25) | ((dt.getMonth() + 1) << 21) | (dt.getDate() << 16) | (dt.getHours() << 11) | (dt.getMinutes() << 5) | (dt.getSeconds() >> 1)), b += 4;\n if (c != -1) {\n wbytes(d, b, f.crc);\n wbytes(d, b + 4, c < 0 ? -c - 2 : c);\n wbytes(d, b + 8, f.size);\n }\n wbytes(d, b + 12, fl);\n wbytes(d, b + 14, exl), b += 16;\n if (ce != null) {\n wbytes(d, b, col);\n wbytes(d, b + 6, f.attrs);\n wbytes(d, b + 10, ce), b += 14;\n }\n d.set(fn, b);\n b += fl;\n if (exl) {\n for (var k in ex) {\n var exf = ex[k], l = exf.length;\n wbytes(d, b, +k);\n wbytes(d, b + 2, l);\n d.set(exf, b + 4), b += 4 + l;\n }\n }\n if (col)\n d.set(co, b), b += col;\n return b;\n};\n// write zip footer (end of central directory)\nvar wzf = function (o, b, c, d, e) {\n wbytes(o, b, 0x6054B50); // skip disk\n wbytes(o, b + 8, c);\n wbytes(o, b + 10, c);\n wbytes(o, b + 12, d);\n wbytes(o, b + 16, e);\n};\n/**\n * A pass-through stream to keep data uncompressed in a ZIP archive.\n */\nvar ZipPassThrough = /*#__PURE__*/ (function () {\n /**\n * Creates a pass-through stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n */\n function ZipPassThrough(filename) {\n this.filename = filename;\n this.c = crc();\n this.size = 0;\n this.compression = 0;\n }\n /**\n * Processes a chunk and pushes to the output stream. You can override this\n * method in a subclass for custom behavior, but by default this passes\n * the data through. You must call this.ondata(err, chunk, final) at some\n * point in this method.\n * @param chunk The chunk to process\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.process = function (chunk, final) {\n this.ondata(null, chunk, final);\n };\n /**\n * Pushes a chunk to be added. If you are subclassing this with a custom\n * compression algorithm, note that you must push data from the source\n * file only, pre-compression.\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n this.c.p(chunk);\n this.size += chunk.length;\n if (final)\n this.crc = this.c.d();\n this.process(chunk, final || false);\n };\n return ZipPassThrough;\n}());\nexport { ZipPassThrough };\n// I don't extend because TypeScript extension adds 1kB of runtime bloat\n/**\n * Streaming DEFLATE compression for ZIP archives. Prefer using AsyncZipDeflate\n * for better performance\n */\nvar ZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function ZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new Deflate(opts, function (dat, final) {\n _this.ondata(null, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n }\n ZipDeflate.prototype.process = function (chunk, final) {\n try {\n this.d.push(chunk, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return ZipDeflate;\n}());\nexport { ZipDeflate };\n/**\n * Asynchronous streaming DEFLATE compression for ZIP archives\n */\nvar AsyncZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates an asynchronous DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function AsyncZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new AsyncDeflate(opts, function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n this.terminate = this.d.terminate;\n }\n AsyncZipDeflate.prototype.process = function (chunk, final) {\n this.d.push(chunk, final);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return AsyncZipDeflate;\n}());\nexport { AsyncZipDeflate };\n// TODO: Better tree shaking\n/**\n * A zippable archive to which files can incrementally be added\n */\nvar Zip = /*#__PURE__*/ (function () {\n /**\n * Creates an empty ZIP archive to which files can be added\n * @param cb The callback to call whenever data for the generated ZIP archive\n * is available\n */\n function Zip(cb) {\n this.ondata = cb;\n this.u = [];\n this.d = 1;\n }\n /**\n * Adds a file to the ZIP archive\n * @param file The file stream to add\n */\n Zip.prototype.add = function (file) {\n var _this = this;\n if (!this.ondata)\n err(5);\n // finishing or finished\n if (this.d & 2)\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, false);\n else {\n var f = strToU8(file.filename), fl_1 = f.length;\n var com = file.comment, o = com && strToU8(com);\n var u = fl_1 != file.filename.length || (o && (com.length != o.length));\n var hl_1 = fl_1 + exfl(file.extra) + 30;\n if (fl_1 > 65535)\n this.ondata(err(11, 0, 1), null, false);\n var header = new u8(hl_1);\n wzh(header, 0, file, f, u, -1);\n var chks_1 = [header];\n var pAll_1 = function () {\n for (var _i = 0, chks_2 = chks_1; _i < chks_2.length; _i++) {\n var chk = chks_2[_i];\n _this.ondata(null, chk, false);\n }\n chks_1 = [];\n };\n var tr_1 = this.d;\n this.d = 0;\n var ind_1 = this.u.length;\n var uf_1 = mrg(file, {\n f: f,\n u: u,\n o: o,\n t: function () {\n if (file.terminate)\n file.terminate();\n },\n r: function () {\n pAll_1();\n if (tr_1) {\n var nxt = _this.u[ind_1 + 1];\n if (nxt)\n nxt.r();\n else\n _this.d = 1;\n }\n tr_1 = 1;\n }\n });\n var cl_1 = 0;\n file.ondata = function (err, dat, final) {\n if (err) {\n _this.ondata(err, dat, final);\n _this.terminate();\n }\n else {\n cl_1 += dat.length;\n chks_1.push(dat);\n if (final) {\n var dd = new u8(16);\n wbytes(dd, 0, 0x8074B50);\n wbytes(dd, 4, file.crc);\n wbytes(dd, 8, cl_1);\n wbytes(dd, 12, file.size);\n chks_1.push(dd);\n uf_1.c = cl_1, uf_1.b = hl_1 + cl_1 + 16, uf_1.crc = file.crc, uf_1.size = file.size;\n if (tr_1)\n uf_1.r();\n tr_1 = 1;\n }\n else if (tr_1)\n pAll_1();\n }\n };\n this.u.push(uf_1);\n }\n };\n /**\n * Ends the process of adding files and prepares to emit the final chunks.\n * This *must* be called after adding all desired files for the resulting\n * ZIP file to work properly.\n */\n Zip.prototype.end = function () {\n var _this = this;\n if (this.d & 2) {\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, true);\n return;\n }\n if (this.d)\n this.e();\n else\n this.u.push({\n r: function () {\n if (!(_this.d & 1))\n return;\n _this.u.splice(-1, 1);\n _this.e();\n },\n t: function () { }\n });\n this.d = 3;\n };\n Zip.prototype.e = function () {\n var bt = 0, l = 0, tl = 0;\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n tl += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0);\n }\n var out = new u8(tl + 22);\n for (var _b = 0, _c = this.u; _b < _c.length; _b++) {\n var f = _c[_b];\n wzh(out, bt, f, f.f, f.u, -f.c - 2, l, f.o);\n bt += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0), l += f.b;\n }\n wzf(out, bt, this.u.length, tl, l);\n this.ondata(null, out, true);\n this.d = 2;\n };\n /**\n * A method to terminate any internal workers used by the stream. Subsequent\n * calls to add() will fail.\n */\n Zip.prototype.terminate = function () {\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n f.t();\n }\n this.d = 2;\n };\n return Zip;\n}());\nexport { Zip };\nexport function zip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var r = {};\n fltn(data, '', r, opts);\n var k = Object.keys(r);\n var lft = k.length, o = 0, tot = 0;\n var slft = lft, files = new Array(lft);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var cbf = function () {\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n tot = 0;\n for (var i = 0; i < slft; ++i) {\n var f = files[i];\n try {\n var l = f.c.length;\n wzh(out, tot, f, f.f, f.u, l);\n var badd = 30 + f.f.length + exfl(f.extra);\n var loc = tot + badd;\n out.set(f.c, loc);\n wzh(out, o, f, f.f, f.u, l, tot, f.m), o += 16 + badd + (f.m ? f.m.length : 0), tot = loc + l;\n }\n catch (e) {\n return cbd(e, null);\n }\n }\n wzf(out, o, files.length, cdl, oe);\n cbd(null, out);\n };\n if (!lft)\n cbf();\n var _loop_1 = function (i) {\n var fn = k[i];\n var _a = r[fn], file = _a[0], p = _a[1];\n var c = crc(), size = file.length;\n c.p(file);\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n var compression = p.level == 0 ? 0 : 8;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n var l = d.length;\n files[i] = mrg(p, {\n size: size,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n compression: compression\n });\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n if (!--lft)\n cbf();\n }\n };\n if (s > 65535)\n cbl(err(11, 0, 1), null);\n if (!compression)\n cbl(null, file);\n else if (size < 160000) {\n try {\n cbl(null, deflateSync(file, p));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(deflate(file, p, cbl));\n };\n // Cannot use lft because it can decrease\n for (var i = 0; i < slft; ++i) {\n _loop_1(i);\n }\n return tAll;\n}\n/**\n * Synchronously creates a ZIP file. Prefer using `zip` for better performance\n * with more than one file.\n * @param data The directory structure for the ZIP archive\n * @param opts The main options, merged with per-file options\n * @returns The generated ZIP archive\n */\nexport function zipSync(data, opts) {\n if (!opts)\n opts = {};\n var r = {};\n var files = [];\n fltn(data, '', r, opts);\n var o = 0;\n var tot = 0;\n for (var fn in r) {\n var _a = r[fn], file = _a[0], p = _a[1];\n var compression = p.level == 0 ? 0 : 8;\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n if (s > 65535)\n err(11);\n var d = compression ? deflateSync(file, p) : file, l = d.length;\n var c = crc();\n c.p(file);\n files.push(mrg(p, {\n size: file.length,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n o: o,\n compression: compression\n }));\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n }\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n for (var i = 0; i < files.length; ++i) {\n var f = files[i];\n wzh(out, f.o, f, f.f, f.u, f.c.length);\n var badd = 30 + f.f.length + exfl(f.extra);\n out.set(f.c, f.o + badd);\n wzh(out, o, f, f.f, f.u, f.c.length, f.o, f.m), o += 16 + badd + (f.m ? f.m.length : 0);\n }\n wzf(out, o, files.length, cdl, oe);\n return out;\n}\n/**\n * Streaming pass-through decompression for ZIP archives\n */\nvar UnzipPassThrough = /*#__PURE__*/ (function () {\n function UnzipPassThrough() {\n }\n UnzipPassThrough.prototype.push = function (data, final) {\n this.ondata(null, data, final);\n };\n UnzipPassThrough.compression = 0;\n return UnzipPassThrough;\n}());\nexport { UnzipPassThrough };\n/**\n * Streaming DEFLATE decompression for ZIP archives. Prefer AsyncZipInflate for\n * better performance.\n */\nvar UnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function UnzipInflate() {\n var _this = this;\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n UnzipInflate.prototype.push = function (data, final) {\n try {\n this.i.push(data, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n UnzipInflate.compression = 8;\n return UnzipInflate;\n}());\nexport { UnzipInflate };\n/**\n * Asynchronous streaming DEFLATE decompression for ZIP archives\n */\nvar AsyncUnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function AsyncUnzipInflate(_, sz) {\n var _this = this;\n if (sz < 320000) {\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n else {\n this.i = new AsyncInflate(function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.terminate = this.i.terminate;\n }\n }\n AsyncUnzipInflate.prototype.push = function (data, final) {\n if (this.i.terminate)\n data = slc(data, 0);\n this.i.push(data, final);\n };\n AsyncUnzipInflate.compression = 8;\n return AsyncUnzipInflate;\n}());\nexport { AsyncUnzipInflate };\n/**\n * A ZIP archive decompression stream that emits files as they are discovered\n */\nvar Unzip = /*#__PURE__*/ (function () {\n /**\n * Creates a ZIP decompression stream\n * @param cb The callback to call whenever a file in the ZIP archive is found\n */\n function Unzip(cb) {\n this.onfile = cb;\n this.k = [];\n this.o = {\n 0: UnzipPassThrough\n };\n this.p = et;\n }\n /**\n * Pushes a chunk to be unzipped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzip.prototype.push = function (chunk, final) {\n var _this = this;\n if (!this.onfile)\n err(5);\n if (!this.p)\n err(4);\n if (this.c > 0) {\n var len = Math.min(this.c, chunk.length);\n var toAdd = chunk.subarray(0, len);\n this.c -= len;\n if (this.d)\n this.d.push(toAdd, !this.c);\n else\n this.k[0].push(toAdd);\n chunk = chunk.subarray(len);\n if (chunk.length)\n return this.push(chunk, final);\n }\n else {\n var f = 0, i = 0, is = void 0, buf = void 0;\n if (!this.p.length)\n buf = chunk;\n else if (!chunk.length)\n buf = this.p;\n else {\n buf = new u8(this.p.length + chunk.length);\n buf.set(this.p), buf.set(chunk, this.p.length);\n }\n var l = buf.length, oc = this.c, add = oc && this.d;\n var _loop_2 = function () {\n var _a;\n var sig = b4(buf, i);\n if (sig == 0x4034B50) {\n f = 1, is = i;\n this_1.d = null;\n this_1.c = 0;\n var bf = b2(buf, i + 6), cmp_1 = b2(buf, i + 8), u = bf & 2048, dd = bf & 8, fnl = b2(buf, i + 26), es = b2(buf, i + 28);\n if (l > i + 30 + fnl + es) {\n var chks_3 = [];\n this_1.k.unshift(chks_3);\n f = 2;\n var sc_1 = b4(buf, i + 18), su_1 = b4(buf, i + 22);\n var fn_1 = strFromU8(buf.subarray(i + 30, i += 30 + fnl), !u);\n if (sc_1 == 4294967295) {\n _a = dd ? [-2] : z64e(buf, i), sc_1 = _a[0], su_1 = _a[1];\n }\n else if (dd)\n sc_1 = -1;\n i += es;\n this_1.c = sc_1;\n var d_1;\n var file_1 = {\n name: fn_1,\n compression: cmp_1,\n start: function () {\n if (!file_1.ondata)\n err(5);\n if (!sc_1)\n file_1.ondata(null, et, true);\n else {\n var ctr = _this.o[cmp_1];\n if (!ctr)\n file_1.ondata(err(14, 'unknown compression type ' + cmp_1, 1), null, false);\n d_1 = sc_1 < 0 ? new ctr(fn_1) : new ctr(fn_1, sc_1, su_1);\n d_1.ondata = function (err, dat, final) { file_1.ondata(err, dat, final); };\n for (var _i = 0, chks_4 = chks_3; _i < chks_4.length; _i++) {\n var dat = chks_4[_i];\n d_1.push(dat, false);\n }\n if (_this.k[0] == chks_3 && _this.c)\n _this.d = d_1;\n else\n d_1.push(et, true);\n }\n },\n terminate: function () {\n if (d_1 && d_1.terminate)\n d_1.terminate();\n }\n };\n if (sc_1 >= 0)\n file_1.size = sc_1, file_1.originalSize = su_1;\n this_1.onfile(file_1);\n }\n return \"break\";\n }\n else if (oc) {\n if (sig == 0x8074B50) {\n is = i += 12 + (oc == -2 && 8), f = 3, this_1.c = 0;\n return \"break\";\n }\n else if (sig == 0x2014B50) {\n is = i -= 4, f = 3, this_1.c = 0;\n return \"break\";\n }\n }\n };\n var this_1 = this;\n for (; i < l - 4; ++i) {\n var state_1 = _loop_2();\n if (state_1 === \"break\")\n break;\n }\n this.p = et;\n if (oc < 0) {\n var dat = f ? buf.subarray(0, is - 12 - (oc == -2 && 8) - (b4(buf, is - 16) == 0x8074B50 && 4)) : buf.subarray(0, i);\n if (add)\n add.push(dat, !!f);\n else\n this.k[+(f == 2)].push(dat);\n }\n if (f & 2)\n return this.push(buf.subarray(i), final);\n this.p = buf.subarray(i);\n }\n if (final) {\n if (this.c)\n err(13);\n this.p = null;\n }\n };\n /**\n * Registers a decoder with the stream, allowing for files compressed with\n * the compression type provided to be expanded correctly\n * @param decoder The decoder constructor\n */\n Unzip.prototype.register = function (decoder) {\n this.o[decoder.compression] = decoder;\n };\n return Unzip;\n}());\nexport { Unzip };\nvar mt = typeof queueMicrotask == 'function' ? queueMicrotask : typeof setTimeout == 'function' ? setTimeout : function (fn) { fn(); };\nexport function unzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var files = {};\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558) {\n cbd(err(13, 0, 1), null);\n return tAll;\n }\n }\n ;\n var lft = b2(data, e + 8);\n if (lft) {\n var c = lft;\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = lft = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n var _loop_3 = function (i) {\n var _a = zh(data, o, z), c_1 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n if (d)\n files[fn] = d;\n if (!--lft)\n cbd(null, files);\n }\n };\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_1\n })) {\n if (!c_1)\n cbl(null, slc(data, b, b + sc));\n else if (c_1 == 8) {\n var infl = data.subarray(b, b + sc);\n // Synchronously decompress under 512KB, or barely-compressed data\n if (su < 524288 || sc > 0.8 * su) {\n try {\n cbl(null, inflateSync(infl, { out: new u8(su) }));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(inflate(infl, { size: su }, cbl));\n }\n else\n cbl(err(14, 'unknown compression type ' + c_1, 1), null);\n }\n else\n cbl(null, null);\n };\n for (var i = 0; i < c; ++i) {\n _loop_3(i);\n }\n }\n else\n cbd(null, {});\n return tAll;\n}\n/**\n * Synchronously decompresses a ZIP archive. Prefer using `unzip` for better\n * performance with more than one file.\n * @param data The raw compressed ZIP file\n * @param opts The ZIP extraction options\n * @returns The decompressed files\n */\nexport function unzipSync(data, opts) {\n var files = {};\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558)\n err(13);\n }\n ;\n var c = b2(data, e + 8);\n if (!c)\n return {};\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n for (var i = 0; i < c; ++i) {\n var _a = zh(data, o, z), c_2 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_2\n })) {\n if (!c_2)\n files[fn] = slc(data, b, b + sc);\n else if (c_2 == 8)\n files[fn] = inflateSync(data.subarray(b, b + sc), { out: new u8(su) });\n else\n err(14, 'unknown compression type ' + c_2);\n }\n }\n return files;\n}\n","/**\n * @license\n * Copyright 2010-2025 Three.js Authors\n * SPDX-License-Identifier: MIT\n */\nconst REVISION = '180';\n\n/**\n * Represents mouse buttons and interaction types in context of controls.\n *\n * @type {ConstantsMouse}\n * @constant\n */\nconst MOUSE = { LEFT: 0, MIDDLE: 1, RIGHT: 2, ROTATE: 0, DOLLY: 1, PAN: 2 };\n\n/**\n * Represents touch interaction types in context of controls.\n *\n * @type {ConstantsTouch}\n * @constant\n */\nconst TOUCH = { ROTATE: 0, PAN: 1, DOLLY_PAN: 2, DOLLY_ROTATE: 3 };\n\n/**\n * Disables face culling.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceNone = 0;\n\n/**\n * Culls back faces.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceBack = 1;\n\n/**\n * Culls front faces.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceFront = 2;\n\n/**\n * Culls both front and back faces.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceFrontBack = 3;\n\n/**\n * Gives unfiltered shadow maps - fastest, but lowest quality.\n *\n * @type {number}\n * @constant\n */\nconst BasicShadowMap = 0;\n\n/**\n * Filters shadow maps using the Percentage-Closer Filtering (PCF) algorithm.\n *\n * @type {number}\n * @constant\n */\nconst PCFShadowMap = 1;\n\n/**\n * Filters shadow maps using the Percentage-Closer Filtering (PCF) algorithm with\n * better soft shadows especially when using low-resolution shadow maps.\n *\n * @type {number}\n * @constant\n */\nconst PCFSoftShadowMap = 2;\n\n/**\n * Filters shadow maps using the Variance Shadow Map (VSM) algorithm.\n * When using VSMShadowMap all shadow receivers will also cast shadows.\n *\n * @type {number}\n * @constant\n */\nconst VSMShadowMap = 3;\n\n/**\n * Only front faces are rendered.\n *\n * @type {number}\n * @constant\n */\nconst FrontSide = 0;\n\n/**\n * Only back faces are rendered.\n *\n * @type {number}\n * @constant\n */\nconst BackSide = 1;\n\n/**\n * Both front and back faces are rendered.\n *\n * @type {number}\n * @constant\n */\nconst DoubleSide = 2;\n\n/**\n * No blending is performed which effectively disables\n * alpha transparency.\n *\n * @type {number}\n * @constant\n */\nconst NoBlending = 0;\n\n/**\n * The default blending.\n *\n * @type {number}\n * @constant\n */\nconst NormalBlending = 1;\n\n/**\n * Represents additive blending.\n *\n * @type {number}\n * @constant\n */\nconst AdditiveBlending = 2;\n\n/**\n * Represents subtractive blending.\n *\n * @type {number}\n * @constant\n */\nconst SubtractiveBlending = 3;\n\n/**\n * Represents multiply blending.\n *\n * @type {number}\n * @constant\n */\nconst MultiplyBlending = 4;\n\n/**\n * Represents custom blending.\n *\n * @type {number}\n * @constant\n */\nconst CustomBlending = 5;\n\n/**\n * A `source + destination` blending equation.\n *\n * @type {number}\n * @constant\n */\nconst AddEquation = 100;\n\n/**\n * A `source - destination` blending equation.\n *\n * @type {number}\n * @constant\n */\nconst SubtractEquation = 101;\n\n/**\n * A `destination - source` blending equation.\n *\n * @type {number}\n * @constant\n */\nconst ReverseSubtractEquation = 102;\n\n/**\n * A blend equation that uses the minimum of source and destination.\n *\n * @type {number}\n * @constant\n */\nconst MinEquation = 103;\n\n/**\n * A blend equation that uses the maximum of source and destination.\n *\n * @type {number}\n * @constant\n */\nconst MaxEquation = 104;\n\n/**\n * Multiplies all colors by `0`.\n *\n * @type {number}\n * @constant\n */\nconst ZeroFactor = 200;\n\n/**\n * Multiplies all colors by `1`.\n *\n * @type {number}\n * @constant\n */\nconst OneFactor = 201;\n\n/**\n * Multiplies all colors by the source colors.\n *\n * @type {number}\n * @constant\n */\nconst SrcColorFactor = 202;\n\n/**\n * Multiplies all colors by `1` minus each source color.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusSrcColorFactor = 203;\n\n/**\n * Multiplies all colors by the source alpha value.\n *\n * @type {number}\n * @constant\n */\nconst SrcAlphaFactor = 204;\n\n/**\n * Multiplies all colors by 1 minus the source alpha value.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusSrcAlphaFactor = 205;\n\n/**\n * Multiplies all colors by the destination alpha value.\n *\n * @type {number}\n * @constant\n */\nconst DstAlphaFactor = 206;\n\n/**\n * Multiplies all colors by `1` minus the destination alpha value.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusDstAlphaFactor = 207;\n\n/**\n * Multiplies all colors by the destination color.\n *\n * @type {number}\n * @constant\n */\nconst DstColorFactor = 208;\n\n/**\n * Multiplies all colors by `1` minus each destination color.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusDstColorFactor = 209;\n\n/**\n * Multiplies the RGB colors by the smaller of either the source alpha\n * value or the value of `1` minus the destination alpha value. The alpha\n * value is multiplied by `1`.\n *\n * @type {number}\n * @constant\n */\nconst SrcAlphaSaturateFactor = 210;\n\n/**\n * Multiplies all colors by a constant color.\n *\n * @type {number}\n * @constant\n */\nconst ConstantColorFactor = 211;\n\n/**\n * Multiplies all colors by `1` minus a constant color.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusConstantColorFactor = 212;\n\n/**\n * Multiplies all colors by a constant alpha value.\n *\n * @type {number}\n * @constant\n */\nconst ConstantAlphaFactor = 213;\n\n/**\n * Multiplies all colors by 1 minus a constant alpha value.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusConstantAlphaFactor = 214;\n\n/**\n * Never pass.\n *\n * @type {number}\n * @constant\n */\nconst NeverDepth = 0;\n\n/**\n * Always pass.\n *\n * @type {number}\n * @constant\n */\nconst AlwaysDepth = 1;\n\n/**\n * Pass if the incoming value is less than the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst LessDepth = 2;\n\n/**\n * Pass if the incoming value is less than or equal to the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst LessEqualDepth = 3;\n\n/**\n * Pass if the incoming value equals the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst EqualDepth = 4;\n\n/**\n * Pass if the incoming value is greater than or equal to the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterEqualDepth = 5;\n\n/**\n * Pass if the incoming value is greater than the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterDepth = 6;\n\n/**\n * Pass if the incoming value is not equal to the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst NotEqualDepth = 7;\n\n/**\n * Multiplies the environment map color with the surface color.\n *\n * @type {number}\n * @constant\n */\nconst MultiplyOperation = 0;\n\n/**\n * Uses reflectivity to blend between the two colors.\n *\n * @type {number}\n * @constant\n */\nconst MixOperation = 1;\n\n/**\n * Adds the two colors.\n *\n * @type {number}\n * @constant\n */\nconst AddOperation = 2;\n\n/**\n * No tone mapping is applied.\n *\n * @type {number}\n * @constant\n */\nconst NoToneMapping = 0;\n\n/**\n * Linear tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst LinearToneMapping = 1;\n\n/**\n * Reinhard tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst ReinhardToneMapping = 2;\n\n/**\n * Cineon tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst CineonToneMapping = 3;\n\n/**\n * ACES Filmic tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst ACESFilmicToneMapping = 4;\n\n/**\n * Custom tone mapping.\n *\n * Expects a custom implementation by modifying shader code of the material's fragment shader.\n *\n * @type {number}\n * @constant\n */\nconst CustomToneMapping = 5;\n\n/**\n * AgX tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst AgXToneMapping = 6;\n\n/**\n * Neutral tone mapping.\n *\n * Implementation based on the Khronos 3D Commerce Group standard tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst NeutralToneMapping = 7;\n\n/**\n * The skinned mesh shares the same world space as the skeleton.\n *\n * @type {string}\n * @constant\n */\nconst AttachedBindMode = 'attached';\n\n/**\n * The skinned mesh does not share the same world space as the skeleton.\n * This is useful when a skeleton is shared across multiple skinned meshes.\n *\n * @type {string}\n * @constant\n */\nconst DetachedBindMode = 'detached';\n\n/**\n * Maps textures using the geometry's UV coordinates.\n *\n * @type {number}\n * @constant\n */\nconst UVMapping = 300;\n\n/**\n * Reflection mapping for cube textures.\n *\n * @type {number}\n * @constant\n */\nconst CubeReflectionMapping = 301;\n\n/**\n * Refraction mapping for cube textures.\n *\n * @type {number}\n * @constant\n */\nconst CubeRefractionMapping = 302;\n\n/**\n * Reflection mapping for equirectangular textures.\n *\n * @type {number}\n * @constant\n */\nconst EquirectangularReflectionMapping = 303;\n\n/**\n * Refraction mapping for equirectangular textures.\n *\n * @type {number}\n * @constant\n */\nconst EquirectangularRefractionMapping = 304;\n\n/**\n * Reflection mapping for PMREM textures.\n *\n * @type {number}\n * @constant\n */\nconst CubeUVReflectionMapping = 306;\n\n/**\n * The texture will simply repeat to infinity.\n *\n * @type {number}\n * @constant\n */\nconst RepeatWrapping = 1000;\n\n/**\n * The last pixel of the texture stretches to the edge of the mesh.\n *\n * @type {number}\n * @constant\n */\nconst ClampToEdgeWrapping = 1001;\n\n/**\n * The texture will repeats to infinity, mirroring on each repeat.\n *\n * @type {number}\n * @constant\n */\nconst MirroredRepeatWrapping = 1002;\n\n/**\n * Returns the value of the texture element that is nearest (in Manhattan distance)\n * to the specified texture coordinates.\n *\n * @type {number}\n * @constant\n */\nconst NearestFilter = 1003;\n\n/**\n * Chooses the mipmap that most closely matches the size of the pixel being textured\n * and uses the `NearestFilter` criterion (the texel nearest to the center of the pixel)\n * to produce a texture value.\n *\n * @type {number}\n * @constant\n */\nconst NearestMipmapNearestFilter = 1004;\nconst NearestMipMapNearestFilter = 1004; // legacy\n\n/**\n * Chooses the two mipmaps that most closely match the size of the pixel being textured and\n * uses the `NearestFilter` criterion to produce a texture value from each mipmap.\n * The final texture value is a weighted average of those two values.\n *\n * @type {number}\n * @constant\n */\nconst NearestMipmapLinearFilter = 1005;\nconst NearestMipMapLinearFilter = 1005; // legacy\n\n/**\n * Returns the weighted average of the four texture elements that are closest to the specified\n * texture coordinates, and can include items wrapped or repeated from other parts of a texture,\n * depending on the values of `wrapS` and `wrapT`, and on the exact mapping.\n *\n * @type {number}\n * @constant\n */\nconst LinearFilter = 1006;\n\n/**\n * Chooses the mipmap that most closely matches the size of the pixel being textured and uses\n * the `LinearFilter` criterion (a weighted average of the four texels that are closest to the\n * center of the pixel) to produce a texture value.\n *\n * @type {number}\n * @constant\n */\nconst LinearMipmapNearestFilter = 1007;\nconst LinearMipMapNearestFilter = 1007; // legacy\n\n/**\n * Chooses the two mipmaps that most closely match the size of the pixel being textured and uses\n * the `LinearFilter` criterion to produce a texture value from each mipmap. The final texture value\n * is a weighted average of those two values.\n *\n * @type {number}\n * @constant\n */\nconst LinearMipmapLinearFilter = 1008;\nconst LinearMipMapLinearFilter = 1008; // legacy\n\n/**\n * An unsigned byte data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedByteType = 1009;\n\n/**\n * A byte data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst ByteType = 1010;\n\n/**\n * A short data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst ShortType = 1011;\n\n/**\n * An unsigned short data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedShortType = 1012;\n\n/**\n * An int data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst IntType = 1013;\n\n/**\n * An unsigned int data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedIntType = 1014;\n\n/**\n * A float data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst FloatType = 1015;\n\n/**\n * A half float data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst HalfFloatType = 1016;\n\n/**\n * An unsigned short 4_4_4_4 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedShort4444Type = 1017;\n\n/**\n * An unsigned short 5_5_5_1 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedShort5551Type = 1018;\n\n/**\n * An unsigned int 24_8 data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedInt248Type = 1020;\n\n/**\n * An unsigned int 5_9_9_9 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedInt5999Type = 35902;\n\n/**\n * An unsigned int 10_11_11 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedInt101111Type = 35899;\n\n/**\n * Discards the red, green and blue components and reads just the alpha component.\n *\n * @type {number}\n * @constant\n */\nconst AlphaFormat = 1021;\n\n/**\n * Discards the alpha component and reads the red, green and blue component.\n *\n * @type {number}\n * @constant\n */\nconst RGBFormat = 1022;\n\n/**\n * Reads the red, green, blue and alpha components.\n *\n * @type {number}\n * @constant\n */\nconst RGBAFormat = 1023;\n\n/**\n * Reads each element as a single depth value, converts it to floating point, and clamps to the range `[0,1]`.\n *\n * @type {number}\n * @constant\n */\nconst DepthFormat = 1026;\n\n/**\n * Reads each element is a pair of depth and stencil values. The depth component of the pair is interpreted as\n * in `DepthFormat`. The stencil component is interpreted based on the depth + stencil internal format.\n *\n * @type {number}\n * @constant\n */\nconst DepthStencilFormat = 1027;\n\n/**\n * Discards the green, blue and alpha components and reads just the red component.\n *\n * @type {number}\n * @constant\n */\nconst RedFormat = 1028;\n\n/**\n * Discards the green, blue and alpha components and reads just the red component. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RedIntegerFormat = 1029;\n\n/**\n * Discards the alpha, and blue components and reads the red, and green components.\n *\n * @type {number}\n * @constant\n */\nconst RGFormat = 1030;\n\n/**\n * Discards the alpha, and blue components and reads the red, and green components. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RGIntegerFormat = 1031;\n\n/**\n * Discards the alpha component and reads the red, green and blue component. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RGBIntegerFormat = 1032;\n\n/**\n * Reads the red, green, blue and alpha components. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RGBAIntegerFormat = 1033;\n\n/**\n * A DXT1-compressed image in an RGB image format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_S3TC_DXT1_Format = 33776;\n\n/**\n * A DXT1-compressed image in an RGB image format with a simple on/off alpha value.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_S3TC_DXT1_Format = 33777;\n\n/**\n * A DXT3-compressed image in an RGBA image format. Compared to a 32-bit RGBA texture, it offers 4:1 compression.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_S3TC_DXT3_Format = 33778;\n\n/**\n * A DXT5-compressed image in an RGBA image format. It also provides a 4:1 compression, but differs to the DXT3\n * compression in how the alpha compression is done.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_S3TC_DXT5_Format = 33779;\n\n/**\n * PVRTC RGB compression in 4-bit mode. One block for each 4×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGB_PVRTC_4BPPV1_Format = 35840;\n\n/**\n * PVRTC RGB compression in 2-bit mode. One block for each 8×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGB_PVRTC_2BPPV1_Format = 35841;\n\n/**\n * PVRTC RGBA compression in 4-bit mode. One block for each 4×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_PVRTC_4BPPV1_Format = 35842;\n\n/**\n * PVRTC RGBA compression in 2-bit mode. One block for each 8×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_PVRTC_2BPPV1_Format = 35843;\n\n/**\n * ETC1 RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_ETC1_Format = 36196;\n\n/**\n * ETC2 RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_ETC2_Format = 37492;\n\n/**\n * ETC2 RGBA format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ETC2_EAC_Format = 37496;\n\n/**\n * ASTC RGBA 4x4 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_4x4_Format = 37808;\n\n/**\n * ASTC RGBA 5x4 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_5x4_Format = 37809;\n\n/**\n * ASTC RGBA 5x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_5x5_Format = 37810;\n\n/**\n * ASTC RGBA 6x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_6x5_Format = 37811;\n\n/**\n * ASTC RGBA 6x6 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_6x6_Format = 37812;\n\n/**\n * ASTC RGBA 8x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_8x5_Format = 37813;\n\n/**\n * ASTC RGBA 8x6 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_8x6_Format = 37814;\n\n/**\n * ASTC RGBA 8x8 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_8x8_Format = 37815;\n\n/**\n * ASTC RGBA 10x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x5_Format = 37816;\n\n/**\n * ASTC RGBA 10x6 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x6_Format = 37817;\n\n/**\n * ASTC RGBA 10x8 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x8_Format = 37818;\n\n/**\n * ASTC RGBA 10x10 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x10_Format = 37819;\n\n/**\n * ASTC RGBA 12x10 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_12x10_Format = 37820;\n\n/**\n * ASTC RGBA 12x12 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_12x12_Format = 37821;\n\n/**\n * BPTC RGBA format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_BPTC_Format = 36492;\n\n/**\n * BPTC Signed RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_BPTC_SIGNED_Format = 36494;\n\n/**\n * BPTC Unsigned RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_BPTC_UNSIGNED_Format = 36495;\n\n/**\n * RGTC1 Red format.\n *\n * @type {number}\n * @constant\n */\nconst RED_RGTC1_Format = 36283;\n\n/**\n * RGTC1 Signed Red format.\n *\n * @type {number}\n * @constant\n */\nconst SIGNED_RED_RGTC1_Format = 36284;\n\n/**\n * RGTC2 Red Green format.\n *\n * @type {number}\n * @constant\n */\nconst RED_GREEN_RGTC2_Format = 36285;\n\n/**\n * RGTC2 Signed Red Green format.\n *\n * @type {number}\n * @constant\n */\nconst SIGNED_RED_GREEN_RGTC2_Format = 36286;\n\n/**\n * Animations are played once.\n *\n * @type {number}\n * @constant\n */\nconst LoopOnce = 2200;\n\n/**\n * Animations are played with a chosen number of repetitions, each time jumping from\n * the end of the clip directly to its beginning.\n *\n * @type {number}\n * @constant\n */\nconst LoopRepeat = 2201;\n\n/**\n * Animations are played with a chosen number of repetitions, alternately playing forward\n * and backward.\n *\n * @type {number}\n * @constant\n */\nconst LoopPingPong = 2202;\n\n/**\n * Discrete interpolation mode for keyframe tracks.\n *\n * @type {number}\n * @constant\n */\nconst InterpolateDiscrete = 2300;\n\n/**\n * Linear interpolation mode for keyframe tracks.\n *\n * @type {number}\n * @constant\n */\nconst InterpolateLinear = 2301;\n\n/**\n * Smooth interpolation mode for keyframe tracks.\n *\n * @type {number}\n * @constant\n */\nconst InterpolateSmooth = 2302;\n\n/**\n * Zero curvature ending for animations.\n *\n * @type {number}\n * @constant\n */\nconst ZeroCurvatureEnding = 2400;\n\n/**\n * Zero slope ending for animations.\n *\n * @type {number}\n * @constant\n */\nconst ZeroSlopeEnding = 2401;\n\n/**\n * Wrap around ending for animations.\n *\n * @type {number}\n * @constant\n */\nconst WrapAroundEnding = 2402;\n\n/**\n * Default animation blend mode.\n *\n * @type {number}\n * @constant\n */\nconst NormalAnimationBlendMode = 2500;\n\n/**\n * Additive animation blend mode. Can be used to layer motions on top of\n * each other to build complex performances from smaller re-usable assets.\n *\n * @type {number}\n * @constant\n */\nconst AdditiveAnimationBlendMode = 2501;\n\n/**\n * For every three vertices draw a single triangle.\n *\n * @type {number}\n * @constant\n */\nconst TrianglesDrawMode = 0;\n\n/**\n * For each vertex draw a triangle from the last three vertices.\n *\n * @type {number}\n * @constant\n */\nconst TriangleStripDrawMode = 1;\n\n/**\n * For each vertex draw a triangle from the first vertex and the last two vertices.\n *\n * @type {number}\n * @constant\n */\nconst TriangleFanDrawMode = 2;\n\n/**\n * Basic depth packing.\n *\n * @type {number}\n * @constant\n */\nconst BasicDepthPacking = 3200;\n\n/**\n * A depth value is packed into 32 bit RGBA.\n *\n * @type {number}\n * @constant\n */\nconst RGBADepthPacking = 3201;\n\n/**\n * A depth value is packed into 24 bit RGB.\n *\n * @type {number}\n * @constant\n */\nconst RGBDepthPacking = 3202;\n\n/**\n * A depth value is packed into 16 bit RG.\n *\n * @type {number}\n * @constant\n */\nconst RGDepthPacking = 3203;\n\n/**\n * Normal information is relative to the underlying surface.\n *\n * @type {number}\n * @constant\n */\nconst TangentSpaceNormalMap = 0;\n\n/**\n * Normal information is relative to the object orientation.\n *\n * @type {number}\n * @constant\n */\nconst ObjectSpaceNormalMap = 1;\n\n// Color space string identifiers, matching CSS Color Module Level 4 and WebGPU names where available.\n\n/**\n * No color space.\n *\n * @type {string}\n * @constant\n */\nconst NoColorSpace = '';\n\n/**\n * sRGB color space.\n *\n * @type {string}\n * @constant\n */\nconst SRGBColorSpace = 'srgb';\n\n/**\n * sRGB-linear color space.\n *\n * @type {string}\n * @constant\n */\nconst LinearSRGBColorSpace = 'srgb-linear';\n\n/**\n * Linear transfer function.\n *\n * @type {string}\n * @constant\n */\nconst LinearTransfer = 'linear';\n\n/**\n * sRGB transfer function.\n *\n * @type {string}\n * @constant\n */\nconst SRGBTransfer = 'srgb';\n\n/**\n * Sets the stencil buffer value to `0`.\n *\n * @type {number}\n * @constant\n */\nconst ZeroStencilOp = 0;\n\n/**\n * Keeps the current value.\n *\n * @type {number}\n * @constant\n */\nconst KeepStencilOp = 7680;\n\n/**\n * Sets the stencil buffer value to the specified reference value.\n *\n * @type {number}\n * @constant\n */\nconst ReplaceStencilOp = 7681;\n\n/**\n * Increments the current stencil buffer value. Clamps to the maximum representable unsigned value.\n *\n * @type {number}\n * @constant\n */\nconst IncrementStencilOp = 7682;\n\n/**\n * Decrements the current stencil buffer value. Clamps to `0`.\n *\n * @type {number}\n * @constant\n */\nconst DecrementStencilOp = 7683;\n\n/**\n * Increments the current stencil buffer value. Wraps stencil buffer value to zero when incrementing\n * the maximum representable unsigned value.\n *\n * @type {number}\n * @constant\n */\nconst IncrementWrapStencilOp = 34055;\n\n/**\n * Decrements the current stencil buffer value. Wraps stencil buffer value to the maximum representable\n * unsigned value when decrementing a stencil buffer value of `0`.\n *\n * @type {number}\n * @constant\n */\nconst DecrementWrapStencilOp = 34056;\n\n/**\n * Inverts the current stencil buffer value bitwise.\n *\n * @type {number}\n * @constant\n */\nconst InvertStencilOp = 5386;\n\n/**\n * Will never return true.\n *\n * @type {number}\n * @constant\n */\nconst NeverStencilFunc = 512;\n\n/**\n * Will return true if the stencil reference value is less than the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst LessStencilFunc = 513;\n\n/**\n * Will return true if the stencil reference value is equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst EqualStencilFunc = 514;\n\n/**\n * Will return true if the stencil reference value is less than or equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst LessEqualStencilFunc = 515;\n\n/**\n * Will return true if the stencil reference value is greater than the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterStencilFunc = 516;\n\n/**\n * Will return true if the stencil reference value is not equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst NotEqualStencilFunc = 517;\n\n/**\n * Will return true if the stencil reference value is greater than or equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterEqualStencilFunc = 518;\n\n/**\n * Will always return true.\n *\n * @type {number}\n * @constant\n */\nconst AlwaysStencilFunc = 519;\n\n/**\n * Never pass.\n *\n * @type {number}\n * @constant\n */\nconst NeverCompare = 512;\n\n/**\n * Pass if the incoming value is less than the texture value.\n *\n * @type {number}\n * @constant\n */\nconst LessCompare = 513;\n\n/**\n * Pass if the incoming value equals the texture value.\n *\n * @type {number}\n * @constant\n */\nconst EqualCompare = 514;\n\n/**\n * Pass if the incoming value is less than or equal to the texture value.\n *\n * @type {number}\n * @constant\n */\nconst LessEqualCompare = 515;\n\n/**\n * Pass if the incoming value is greater than the texture value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterCompare = 516;\n\n/**\n * Pass if the incoming value is not equal to the texture value.\n *\n * @type {number}\n * @constant\n */\nconst NotEqualCompare = 517;\n\n/**\n * Pass if the incoming value is greater than or equal to the texture value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterEqualCompare = 518;\n\n/**\n * Always pass.\n *\n * @type {number}\n * @constant\n */\nconst AlwaysCompare = 519;\n\n/**\n * The contents are intended to be specified once by the application, and used many\n * times as the source for drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StaticDrawUsage = 35044;\n\n/**\n * The contents are intended to be respecified repeatedly by the application, and\n * used many times as the source for drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst DynamicDrawUsage = 35048;\n\n/**\n * The contents are intended to be specified once by the application, and used at most\n * a few times as the source for drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StreamDrawUsage = 35040;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and queried\n * many times by the application.\n *\n * @type {number}\n * @constant\n */\nconst StaticReadUsage = 35045;\n\n/**\n * The contents are intended to be respecified repeatedly by reading data from the 3D API, and queried\n * many times by the application.\n *\n * @type {number}\n * @constant\n */\nconst DynamicReadUsage = 35049;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and queried at most\n * a few times by the application\n *\n * @type {number}\n * @constant\n */\nconst StreamReadUsage = 35041;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and used many times as\n * the source for WebGL drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StaticCopyUsage = 35046;\n\n/**\n * The contents are intended to be respecified repeatedly by reading data from the 3D API, and used many times\n * as the source for WebGL drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst DynamicCopyUsage = 35050;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and used at most a few times\n * as the source for WebGL drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StreamCopyUsage = 35042;\n\n/**\n * GLSL 1 shader code.\n *\n * @type {string}\n * @constant\n */\nconst GLSL1 = '100';\n\n/**\n * GLSL 3 shader code.\n *\n * @type {string}\n * @constant\n */\nconst GLSL3 = '300 es';\n\n/**\n * WebGL coordinate system.\n *\n * @type {number}\n * @constant\n */\nconst WebGLCoordinateSystem = 2000;\n\n/**\n * WebGPU coordinate system.\n *\n * @type {number}\n * @constant\n */\nconst WebGPUCoordinateSystem = 2001;\n\n/**\n * Represents the different timestamp query types.\n *\n * @type {ConstantsTimestampQuery}\n * @constant\n */\nconst TimestampQuery = {\n\tCOMPUTE: 'compute',\n\tRENDER: 'render'\n};\n\n/**\n * Represents mouse buttons and interaction types in context of controls.\n *\n * @type {ConstantsInterpolationSamplingType}\n * @constant\n */\nconst InterpolationSamplingType = {\n\tPERSPECTIVE: 'perspective',\n\tLINEAR: 'linear',\n\tFLAT: 'flat'\n};\n\n/**\n * Represents the different interpolation sampling modes.\n *\n * @type {ConstantsInterpolationSamplingMode}\n * @constant\n */\nconst InterpolationSamplingMode = {\n\tNORMAL: 'normal',\n\tCENTROID: 'centroid',\n\tSAMPLE: 'sample',\n\tFIRST: 'first',\n\tEITHER: 'either'\n};\n\n/**\n * This type represents mouse buttons and interaction types in context of controls.\n *\n * @typedef {Object} ConstantsMouse\n * @property {number} MIDDLE - The left mouse button.\n * @property {number} LEFT - The middle mouse button.\n * @property {number} RIGHT - The right mouse button.\n * @property {number} ROTATE - A rotate interaction.\n * @property {number} DOLLY - A dolly interaction.\n * @property {number} PAN - A pan interaction.\n **/\n\n/**\n * This type represents touch interaction types in context of controls.\n *\n * @typedef {Object} ConstantsTouch\n * @property {number} ROTATE - A rotate interaction.\n * @property {number} PAN - A pan interaction.\n * @property {number} DOLLY_PAN - The dolly-pan interaction.\n * @property {number} DOLLY_ROTATE - A dolly-rotate interaction.\n **/\n\n/**\n * This type represents the different timestamp query types.\n *\n * @typedef {Object} ConstantsTimestampQuery\n * @property {string} COMPUTE - A `compute` timestamp query.\n * @property {string} RENDER - A `render` timestamp query.\n **/\n\n/**\n * Represents the different interpolation sampling types.\n *\n * @typedef {Object} ConstantsInterpolationSamplingType\n * @property {string} PERSPECTIVE - Perspective-correct interpolation.\n * @property {string} LINEAR - Linear interpolation.\n * @property {string} FLAT - Flat interpolation.\n */\n\n/**\n * Represents the different interpolation sampling modes.\n *\n * @typedef {Object} ConstantsInterpolationSamplingMode\n * @property {string} NORMAL - Normal sampling mode.\n * @property {string} CENTROID - Centroid sampling mode.\n * @property {string} SAMPLE - Sample-specific sampling mode.\n * @property {string} FIRST - Flat interpolation using the first vertex.\n * @property {string} EITHER - Flat interpolation using either vertex.\n */\n\n/**\n * This modules allows to dispatch event objects on custom JavaScript objects.\n *\n * Main repository: [eventdispatcher.js]{@link https://github.com/mrdoob/eventdispatcher.js/}\n *\n * Code Example:\n * ```js\n * class Car extends EventDispatcher {\n * \tstart() {\n *\t\tthis.dispatchEvent( { type: 'start', message: 'vroom vroom!' } );\n *\t}\n *};\n *\n * // Using events with the custom object\n * const car = new Car();\n * car.addEventListener( 'start', function ( event ) {\n * \talert( event.message );\n * } );\n *\n * car.start();\n * ```\n */\nclass EventDispatcher {\n\n\t/**\n\t * Adds the given event listener to the given event type.\n\t *\n\t * @param {string} type - The type of event to listen to.\n\t * @param {Function} listener - The function that gets called when the event is fired.\n\t */\n\taddEventListener( type, listener ) {\n\n\t\tif ( this._listeners === undefined ) this._listeners = {};\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners[ type ] === undefined ) {\n\n\t\t\tlisteners[ type ] = [];\n\n\t\t}\n\n\t\tif ( listeners[ type ].indexOf( listener ) === -1 ) {\n\n\t\t\tlisteners[ type ].push( listener );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns `true` if the given event listener has been added to the given event type.\n\t *\n\t * @param {string} type - The type of event.\n\t * @param {Function} listener - The listener to check.\n\t * @return {boolean} Whether the given event listener has been added to the given event type.\n\t */\n\thasEventListener( type, listener ) {\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners === undefined ) return false;\n\n\t\treturn listeners[ type ] !== undefined && listeners[ type ].indexOf( listener ) !== -1;\n\n\t}\n\n\t/**\n\t * Removes the given event listener from the given event type.\n\t *\n\t * @param {string} type - The type of event.\n\t * @param {Function} listener - The listener to remove.\n\t */\n\tremoveEventListener( type, listener ) {\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners === undefined ) return;\n\n\t\tconst listenerArray = listeners[ type ];\n\n\t\tif ( listenerArray !== undefined ) {\n\n\t\t\tconst index = listenerArray.indexOf( listener );\n\n\t\t\tif ( index !== -1 ) {\n\n\t\t\t\tlistenerArray.splice( index, 1 );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Dispatches an event object.\n\t *\n\t * @param {Object} event - The event that gets fired.\n\t */\n\tdispatchEvent( event ) {\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners === undefined ) return;\n\n\t\tconst listenerArray = listeners[ event.type ];\n\n\t\tif ( listenerArray !== undefined ) {\n\n\t\t\tevent.target = this;\n\n\t\t\t// Make a copy, in case listeners are removed while iterating.\n\t\t\tconst array = listenerArray.slice( 0 );\n\n\t\t\tfor ( let i = 0, l = array.length; i < l; i ++ ) {\n\n\t\t\t\tarray[ i ].call( this, event );\n\n\t\t\t}\n\n\t\t\tevent.target = null;\n\n\t\t}\n\n\t}\n\n}\n\nconst _lut = [ '00', '01', '02', '03', '04', '05', '06', '07', '08', '09', '0a', '0b', '0c', '0d', '0e', '0f', '10', '11', '12', '13', '14', '15', '16', '17', '18', '19', '1a', '1b', '1c', '1d', '1e', '1f', '20', '21', '22', '23', '24', '25', '26', '27', '28', '29', '2a', '2b', '2c', '2d', '2e', '2f', '30', '31', '32', '33', '34', '35', '36', '37', '38', '39', '3a', '3b', '3c', '3d', '3e', '3f', '40', '41', '42', '43', '44', '45', '46', '47', '48', '49', '4a', '4b', '4c', '4d', '4e', '4f', '50', '51', '52', '53', '54', '55', '56', '57', '58', '59', '5a', '5b', '5c', '5d', '5e', '5f', '60', '61', '62', '63', '64', '65', '66', '67', '68', '69', '6a', '6b', '6c', '6d', '6e', '6f', '70', '71', '72', '73', '74', '75', '76', '77', '78', '79', '7a', '7b', '7c', '7d', '7e', '7f', '80', '81', '82', '83', '84', '85', '86', '87', '88', '89', '8a', '8b', '8c', '8d', '8e', '8f', '90', '91', '92', '93', '94', '95', '96', '97', '98', '99', '9a', '9b', '9c', '9d', '9e', '9f', 'a0', 'a1', 'a2', 'a3', 'a4', 'a5', 'a6', 'a7', 'a8', 'a9', 'aa', 'ab', 'ac', 'ad', 'ae', 'af', 'b0', 'b1', 'b2', 'b3', 'b4', 'b5', 'b6', 'b7', 'b8', 'b9', 'ba', 'bb', 'bc', 'bd', 'be', 'bf', 'c0', 'c1', 'c2', 'c3', 'c4', 'c5', 'c6', 'c7', 'c8', 'c9', 'ca', 'cb', 'cc', 'cd', 'ce', 'cf', 'd0', 'd1', 'd2', 'd3', 'd4', 'd5', 'd6', 'd7', 'd8', 'd9', 'da', 'db', 'dc', 'dd', 'de', 'df', 'e0', 'e1', 'e2', 'e3', 'e4', 'e5', 'e6', 'e7', 'e8', 'e9', 'ea', 'eb', 'ec', 'ed', 'ee', 'ef', 'f0', 'f1', 'f2', 'f3', 'f4', 'f5', 'f6', 'f7', 'f8', 'f9', 'fa', 'fb', 'fc', 'fd', 'fe', 'ff' ];\n\nlet _seed = 1234567;\n\n\nconst DEG2RAD = Math.PI / 180;\nconst RAD2DEG = 180 / Math.PI;\n\n/**\n * Generate a [UUID]{@link https://en.wikipedia.org/wiki/Universally_unique_identifier}\n * (universally unique identifier).\n *\n * @return {string} The UUID.\n */\nfunction generateUUID() {\n\n\t// http://stackoverflow.com/questions/105034/how-to-create-a-guid-uuid-in-javascript/21963136#21963136\n\n\tconst d0 = Math.random() * 0xffffffff | 0;\n\tconst d1 = Math.random() * 0xffffffff | 0;\n\tconst d2 = Math.random() * 0xffffffff | 0;\n\tconst d3 = Math.random() * 0xffffffff | 0;\n\tconst uuid = _lut[ d0 & 0xff ] + _lut[ d0 >> 8 & 0xff ] + _lut[ d0 >> 16 & 0xff ] + _lut[ d0 >> 24 & 0xff ] + '-' +\n\t\t\t_lut[ d1 & 0xff ] + _lut[ d1 >> 8 & 0xff ] + '-' + _lut[ d1 >> 16 & 0x0f | 0x40 ] + _lut[ d1 >> 24 & 0xff ] + '-' +\n\t\t\t_lut[ d2 & 0x3f | 0x80 ] + _lut[ d2 >> 8 & 0xff ] + '-' + _lut[ d2 >> 16 & 0xff ] + _lut[ d2 >> 24 & 0xff ] +\n\t\t\t_lut[ d3 & 0xff ] + _lut[ d3 >> 8 & 0xff ] + _lut[ d3 >> 16 & 0xff ] + _lut[ d3 >> 24 & 0xff ];\n\n\t// .toLowerCase() here flattens concatenated strings to save heap memory space.\n\treturn uuid.toLowerCase();\n\n}\n\n/**\n * Clamps the given value between min and max.\n *\n * @param {number} value - The value to clamp.\n * @param {number} min - The min value.\n * @param {number} max - The max value.\n * @return {number} The clamped value.\n */\nfunction clamp( value, min, max ) {\n\n\treturn Math.max( min, Math.min( max, value ) );\n\n}\n\n/**\n * Computes the Euclidean modulo of the given parameters that\n * is `( ( n % m ) + m ) % m`.\n *\n * @param {number} n - The first parameter.\n * @param {number} m - The second parameter.\n * @return {number} The Euclidean modulo.\n */\nfunction euclideanModulo( n, m ) {\n\n\t// https://en.wikipedia.org/wiki/Modulo_operation\n\n\treturn ( ( n % m ) + m ) % m;\n\n}\n\n/**\n * Performs a linear mapping from range `` to range ``\n * for the given value.\n *\n * @param {number} x - The value to be mapped.\n * @param {number} a1 - Minimum value for range A.\n * @param {number} a2 - Maximum value for range A.\n * @param {number} b1 - Minimum value for range B.\n * @param {number} b2 - Maximum value for range B.\n * @return {number} The mapped value.\n */\nfunction mapLinear( x, a1, a2, b1, b2 ) {\n\n\treturn b1 + ( x - a1 ) * ( b2 - b1 ) / ( a2 - a1 );\n\n}\n\n/**\n * Returns the percentage in the closed interval `[0, 1]` of the given value\n * between the start and end point.\n *\n * @param {number} x - The start point\n * @param {number} y - The end point.\n * @param {number} value - A value between start and end.\n * @return {number} The interpolation factor.\n */\nfunction inverseLerp( x, y, value ) {\n\n\t// https://www.gamedev.net/tutorials/programming/general-and-gameplay-programming/inverse-lerp-a-super-useful-yet-often-overlooked-function-r5230/\n\n\tif ( x !== y ) {\n\n\t\treturn ( value - x ) / ( y - x );\n\n\t} else {\n\n\t\treturn 0;\n\n\t}\n\n}\n\n/**\n * Returns a value linearly interpolated from two known points based on the given interval -\n * `t = 0` will return `x` and `t = 1` will return `y`.\n *\n * @param {number} x - The start point\n * @param {number} y - The end point.\n * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n * @return {number} The interpolated value.\n */\nfunction lerp( x, y, t ) {\n\n\treturn ( 1 - t ) * x + t * y;\n\n}\n\n/**\n * Smoothly interpolate a number from `x` to `y` in a spring-like manner using a delta\n * time to maintain frame rate independent movement. For details, see\n * [Frame rate independent damping using lerp]{@link http://www.rorydriscoll.com/2016/03/07/frame-rate-independent-damping-using-lerp/}.\n *\n * @param {number} x - The current point.\n * @param {number} y - The target point.\n * @param {number} lambda - A higher lambda value will make the movement more sudden,\n * and a lower value will make the movement more gradual.\n * @param {number} dt - Delta time in seconds.\n * @return {number} The interpolated value.\n */\nfunction damp( x, y, lambda, dt ) {\n\n\treturn lerp( x, y, 1 - Math.exp( - lambda * dt ) );\n\n}\n\n/**\n * Returns a value that alternates between `0` and the given `length` parameter.\n *\n * @param {number} x - The value to pingpong.\n * @param {number} [length=1] - The positive value the function will pingpong to.\n * @return {number} The alternated value.\n */\nfunction pingpong( x, length = 1 ) {\n\n\t// https://www.desmos.com/calculator/vcsjnyz7x4\n\n\treturn length - Math.abs( euclideanModulo( x, length * 2 ) - length );\n\n}\n\n/**\n * Returns a value in the range `[0,1]` that represents the percentage that `x` has\n * moved between `min` and `max`, but smoothed or slowed down the closer `x` is to\n * the `min` and `max`.\n *\n * See [Smoothstep]{@link http://en.wikipedia.org/wiki/Smoothstep} for more details.\n *\n * @param {number} x - The value to evaluate based on its position between min and max.\n * @param {number} min - The min value. Any x value below min will be `0`.\n * @param {number} max - The max value. Any x value above max will be `1`.\n * @return {number} The alternated value.\n */\nfunction smoothstep( x, min, max ) {\n\n\tif ( x <= min ) return 0;\n\tif ( x >= max ) return 1;\n\n\tx = ( x - min ) / ( max - min );\n\n\treturn x * x * ( 3 - 2 * x );\n\n}\n\n/**\n * A [variation on smoothstep]{@link https://en.wikipedia.org/wiki/Smoothstep#Variations}\n * that has zero 1st and 2nd order derivatives at x=0 and x=1.\n *\n * @param {number} x - The value to evaluate based on its position between min and max.\n * @param {number} min - The min value. Any x value below min will be `0`.\n * @param {number} max - The max value. Any x value above max will be `1`.\n * @return {number} The alternated value.\n */\nfunction smootherstep( x, min, max ) {\n\n\tif ( x <= min ) return 0;\n\tif ( x >= max ) return 1;\n\n\tx = ( x - min ) / ( max - min );\n\n\treturn x * x * x * ( x * ( x * 6 - 15 ) + 10 );\n\n}\n\n/**\n * Returns a random integer from `` interval.\n *\n * @param {number} low - The lower value boundary.\n * @param {number} high - The upper value boundary\n * @return {number} A random integer.\n */\nfunction randInt( low, high ) {\n\n\treturn low + Math.floor( Math.random() * ( high - low + 1 ) );\n\n}\n\n/**\n * Returns a random float from `` interval.\n *\n * @param {number} low - The lower value boundary.\n * @param {number} high - The upper value boundary\n * @return {number} A random float.\n */\nfunction randFloat( low, high ) {\n\n\treturn low + Math.random() * ( high - low );\n\n}\n\n/**\n * Returns a random integer from `<-range/2, range/2>` interval.\n *\n * @param {number} range - Defines the value range.\n * @return {number} A random float.\n */\nfunction randFloatSpread( range ) {\n\n\treturn range * ( 0.5 - Math.random() );\n\n}\n\n/**\n * Returns a deterministic pseudo-random float in the interval `[0, 1]`.\n *\n * @param {number} [s] - The integer seed.\n * @return {number} A random float.\n */\nfunction seededRandom( s ) {\n\n\tif ( s !== undefined ) _seed = s;\n\n\t// Mulberry32 generator\n\n\tlet t = _seed += 0x6D2B79F5;\n\n\tt = Math.imul( t ^ t >>> 15, t | 1 );\n\n\tt ^= t + Math.imul( t ^ t >>> 7, t | 61 );\n\n\treturn ( ( t ^ t >>> 14 ) >>> 0 ) / 4294967296;\n\n}\n\n/**\n * Converts degrees to radians.\n *\n * @param {number} degrees - A value in degrees.\n * @return {number} The converted value in radians.\n */\nfunction degToRad( degrees ) {\n\n\treturn degrees * DEG2RAD;\n\n}\n\n/**\n * Converts radians to degrees.\n *\n * @param {number} radians - A value in radians.\n * @return {number} The converted value in degrees.\n */\nfunction radToDeg( radians ) {\n\n\treturn radians * RAD2DEG;\n\n}\n\n/**\n * Returns `true` if the given number is a power of two.\n *\n * @param {number} value - The value to check.\n * @return {boolean} Whether the given number is a power of two or not.\n */\nfunction isPowerOfTwo( value ) {\n\n\treturn ( value & ( value - 1 ) ) === 0 && value !== 0;\n\n}\n\n/**\n * Returns the smallest power of two that is greater than or equal to the given number.\n *\n * @param {number} value - The value to find a POT for.\n * @return {number} The smallest power of two that is greater than or equal to the given number.\n */\nfunction ceilPowerOfTwo( value ) {\n\n\treturn Math.pow( 2, Math.ceil( Math.log( value ) / Math.LN2 ) );\n\n}\n\n/**\n * Returns the largest power of two that is less than or equal to the given number.\n *\n * @param {number} value - The value to find a POT for.\n * @return {number} The largest power of two that is less than or equal to the given number.\n */\nfunction floorPowerOfTwo( value ) {\n\n\treturn Math.pow( 2, Math.floor( Math.log( value ) / Math.LN2 ) );\n\n}\n\n/**\n * Sets the given quaternion from the [Intrinsic Proper Euler Angles]{@link https://en.wikipedia.org/wiki/Euler_angles}\n * defined by the given angles and order.\n *\n * Rotations are applied to the axes in the order specified by order:\n * rotation by angle `a` is applied first, then by angle `b`, then by angle `c`.\n *\n * @param {Quaternion} q - The quaternion to set.\n * @param {number} a - The rotation applied to the first axis, in radians.\n * @param {number} b - The rotation applied to the second axis, in radians.\n * @param {number} c - The rotation applied to the third axis, in radians.\n * @param {('XYX'|'XZX'|'YXY'|'YZY'|'ZXZ'|'ZYZ')} order - A string specifying the axes order.\n */\nfunction setQuaternionFromProperEuler( q, a, b, c, order ) {\n\n\tconst cos = Math.cos;\n\tconst sin = Math.sin;\n\n\tconst c2 = cos( b / 2 );\n\tconst s2 = sin( b / 2 );\n\n\tconst c13 = cos( ( a + c ) / 2 );\n\tconst s13 = sin( ( a + c ) / 2 );\n\n\tconst c1_3 = cos( ( a - c ) / 2 );\n\tconst s1_3 = sin( ( a - c ) / 2 );\n\n\tconst c3_1 = cos( ( c - a ) / 2 );\n\tconst s3_1 = sin( ( c - a ) / 2 );\n\n\tswitch ( order ) {\n\n\t\tcase 'XYX':\n\t\t\tq.set( c2 * s13, s2 * c1_3, s2 * s1_3, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'YZY':\n\t\t\tq.set( s2 * s1_3, c2 * s13, s2 * c1_3, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'ZXZ':\n\t\t\tq.set( s2 * c1_3, s2 * s1_3, c2 * s13, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'XZX':\n\t\t\tq.set( c2 * s13, s2 * s3_1, s2 * c3_1, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'YXY':\n\t\t\tq.set( s2 * c3_1, c2 * s13, s2 * s3_1, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'ZYZ':\n\t\t\tq.set( s2 * s3_1, s2 * c3_1, c2 * s13, c2 * c13 );\n\t\t\tbreak;\n\n\t\tdefault:\n\t\t\tconsole.warn( 'THREE.MathUtils: .setQuaternionFromProperEuler() encountered an unknown order: ' + order );\n\n\t}\n\n}\n\n/**\n * Denormalizes the given value according to the given typed array.\n *\n * @param {number} value - The value to denormalize.\n * @param {TypedArray} array - The typed array that defines the data type of the value.\n * @return {number} The denormalize (float) value in the range `[0,1]`.\n */\nfunction denormalize( value, array ) {\n\n\tswitch ( array.constructor ) {\n\n\t\tcase Float32Array:\n\n\t\t\treturn value;\n\n\t\tcase Uint32Array:\n\n\t\t\treturn value / 4294967295.0;\n\n\t\tcase Uint16Array:\n\n\t\t\treturn value / 65535.0;\n\n\t\tcase Uint8Array:\n\n\t\t\treturn value / 255.0;\n\n\t\tcase Int32Array:\n\n\t\t\treturn Math.max( value / 2147483647.0, -1 );\n\n\t\tcase Int16Array:\n\n\t\t\treturn Math.max( value / 32767.0, -1 );\n\n\t\tcase Int8Array:\n\n\t\t\treturn Math.max( value / 127.0, -1 );\n\n\t\tdefault:\n\n\t\t\tthrow new Error( 'Invalid component type.' );\n\n\t}\n\n}\n\n/**\n * Normalizes the given value according to the given typed array.\n *\n * @param {number} value - The float value in the range `[0,1]` to normalize.\n * @param {TypedArray} array - The typed array that defines the data type of the value.\n * @return {number} The normalize value.\n */\nfunction normalize( value, array ) {\n\n\tswitch ( array.constructor ) {\n\n\t\tcase Float32Array:\n\n\t\t\treturn value;\n\n\t\tcase Uint32Array:\n\n\t\t\treturn Math.round( value * 4294967295.0 );\n\n\t\tcase Uint16Array:\n\n\t\t\treturn Math.round( value * 65535.0 );\n\n\t\tcase Uint8Array:\n\n\t\t\treturn Math.round( value * 255.0 );\n\n\t\tcase Int32Array:\n\n\t\t\treturn Math.round( value * 2147483647.0 );\n\n\t\tcase Int16Array:\n\n\t\t\treturn Math.round( value * 32767.0 );\n\n\t\tcase Int8Array:\n\n\t\t\treturn Math.round( value * 127.0 );\n\n\t\tdefault:\n\n\t\t\tthrow new Error( 'Invalid component type.' );\n\n\t}\n\n}\n\n/**\n * @class\n * @classdesc A collection of math utility functions.\n * @hideconstructor\n */\nconst MathUtils = {\n\tDEG2RAD: DEG2RAD,\n\tRAD2DEG: RAD2DEG,\n\t/**\n\t * Generate a [UUID]{@link https://en.wikipedia.org/wiki/Universally_unique_identifier}\n\t * (universally unique identifier).\n\t *\n\t * @static\n\t * @method\n\t * @return {string} The UUID.\n\t */\n\tgenerateUUID: generateUUID,\n\t/**\n\t * Clamps the given value between min and max.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to clamp.\n\t * @param {number} min - The min value.\n\t * @param {number} max - The max value.\n\t * @return {number} The clamped value.\n\t */\n\tclamp: clamp,\n\t/**\n\t * Computes the Euclidean modulo of the given parameters that\n\t * is `( ( n % m ) + m ) % m`.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} n - The first parameter.\n\t * @param {number} m - The second parameter.\n\t * @return {number} The Euclidean modulo.\n\t */\n\teuclideanModulo: euclideanModulo,\n\t/**\n\t * Performs a linear mapping from range `` to range ``\n\t * for the given value.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to be mapped.\n\t * @param {number} a1 - Minimum value for range A.\n\t * @param {number} a2 - Maximum value for range A.\n\t * @param {number} b1 - Minimum value for range B.\n\t * @param {number} b2 - Maximum value for range B.\n\t * @return {number} The mapped value.\n\t */\n\tmapLinear: mapLinear,\n\t/**\n\t * Returns the percentage in the closed interval `[0, 1]` of the given value\n\t * between the start and end point.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The start point\n\t * @param {number} y - The end point.\n\t * @param {number} value - A value between start and end.\n\t * @return {number} The interpolation factor.\n\t */\n\tinverseLerp: inverseLerp,\n\t/**\n\t * Returns a value linearly interpolated from two known points based on the given interval -\n\t * `t = 0` will return `x` and `t = 1` will return `y`.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The start point\n\t * @param {number} y - The end point.\n\t * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n\t * @return {number} The interpolated value.\n\t */\n\tlerp: lerp,\n\t/**\n\t * Smoothly interpolate a number from `x` to `y` in a spring-like manner using a delta\n\t * time to maintain frame rate independent movement. For details, see\n\t * [Frame rate independent damping using lerp]{@link http://www.rorydriscoll.com/2016/03/07/frame-rate-independent-damping-using-lerp/}.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The current point.\n\t * @param {number} y - The target point.\n\t * @param {number} lambda - A higher lambda value will make the movement more sudden,\n\t * and a lower value will make the movement more gradual.\n\t * @param {number} dt - Delta time in seconds.\n\t * @return {number} The interpolated value.\n\t */\n\tdamp: damp,\n\t/**\n\t * Returns a value that alternates between `0` and the given `length` parameter.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to pingpong.\n\t * @param {number} [length=1] - The positive value the function will pingpong to.\n\t * @return {number} The alternated value.\n\t */\n\tpingpong: pingpong,\n\t/**\n\t * Returns a value in the range `[0,1]` that represents the percentage that `x` has\n\t * moved between `min` and `max`, but smoothed or slowed down the closer `x` is to\n\t * the `min` and `max`.\n\t *\n\t * See [Smoothstep]{@link http://en.wikipedia.org/wiki/Smoothstep} for more details.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to evaluate based on its position between min and max.\n\t * @param {number} min - The min value. Any x value below min will be `0`.\n\t * @param {number} max - The max value. Any x value above max will be `1`.\n\t * @return {number} The alternated value.\n\t */\n\tsmoothstep: smoothstep,\n\t/**\n\t * A [variation on smoothstep]{@link https://en.wikipedia.org/wiki/Smoothstep#Variations}\n\t * that has zero 1st and 2nd order derivatives at x=0 and x=1.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to evaluate based on its position between min and max.\n\t * @param {number} min - The min value. Any x value below min will be `0`.\n\t * @param {number} max - The max value. Any x value above max will be `1`.\n\t * @return {number} The alternated value.\n\t */\n\tsmootherstep: smootherstep,\n\t/**\n\t * Returns a random integer from `` interval.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} low - The lower value boundary.\n\t * @param {number} high - The upper value boundary\n\t * @return {number} A random integer.\n\t */\n\trandInt: randInt,\n\t/**\n\t * Returns a random float from `` interval.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} low - The lower value boundary.\n\t * @param {number} high - The upper value boundary\n\t * @return {number} A random float.\n\t */\n\trandFloat: randFloat,\n\t/**\n\t * Returns a random integer from `<-range/2, range/2>` interval.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} range - Defines the value range.\n\t * @return {number} A random float.\n\t */\n\trandFloatSpread: randFloatSpread,\n\t/**\n\t * Returns a deterministic pseudo-random float in the interval `[0, 1]`.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} [s] - The integer seed.\n\t * @return {number} A random float.\n\t */\n\tseededRandom: seededRandom,\n\t/**\n\t * Converts degrees to radians.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} degrees - A value in degrees.\n\t * @return {number} The converted value in radians.\n\t */\n\tdegToRad: degToRad,\n\t/**\n\t * Converts radians to degrees.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} radians - A value in radians.\n\t * @return {number} The converted value in degrees.\n\t */\n\tradToDeg: radToDeg,\n\t/**\n\t * Returns `true` if the given number is a power of two.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to check.\n\t * @return {boolean} Whether the given number is a power of two or not.\n\t */\n\tisPowerOfTwo: isPowerOfTwo,\n\t/**\n\t * Returns the smallest power of two that is greater than or equal to the given number.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to find a POT for.\n\t * @return {number} The smallest power of two that is greater than or equal to the given number.\n\t */\n\tceilPowerOfTwo: ceilPowerOfTwo,\n\t/**\n\t * Returns the largest power of two that is less than or equal to the given number.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to find a POT for.\n\t * @return {number} The largest power of two that is less than or equal to the given number.\n\t */\n\tfloorPowerOfTwo: floorPowerOfTwo,\n\t/**\n\t * Sets the given quaternion from the [Intrinsic Proper Euler Angles]{@link https://en.wikipedia.org/wiki/Euler_angles}\n\t * defined by the given angles and order.\n\t *\n\t * Rotations are applied to the axes in the order specified by order:\n\t * rotation by angle `a` is applied first, then by angle `b`, then by angle `c`.\n\t *\n\t * @static\n\t * @method\n\t * @param {Quaternion} q - The quaternion to set.\n\t * @param {number} a - The rotation applied to the first axis, in radians.\n\t * @param {number} b - The rotation applied to the second axis, in radians.\n\t * @param {number} c - The rotation applied to the third axis, in radians.\n\t * @param {('XYX'|'XZX'|'YXY'|'YZY'|'ZXZ'|'ZYZ')} order - A string specifying the axes order.\n\t */\n\tsetQuaternionFromProperEuler: setQuaternionFromProperEuler,\n\t/**\n\t * Normalizes the given value according to the given typed array.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The float value in the range `[0,1]` to normalize.\n\t * @param {TypedArray} array - The typed array that defines the data type of the value.\n\t * @return {number} The normalize value.\n\t */\n\tnormalize: normalize,\n\t/**\n\t * Denormalizes the given value according to the given typed array.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to denormalize.\n\t * @param {TypedArray} array - The typed array that defines the data type of the value.\n\t * @return {number} The denormalize (float) value in the range `[0,1]`.\n\t */\n\tdenormalize: denormalize\n};\n\n/**\n * Class representing a 2D vector. A 2D vector is an ordered pair of numbers\n * (labeled x and y), which can be used to represent a number of things, such as:\n *\n * - A point in 2D space (i.e. a position on a plane).\n * - A direction and length across a plane. In three.js the length will\n * always be the Euclidean distance(straight-line distance) from `(0, 0)` to `(x, y)`\n * and the direction is also measured from `(0, 0)` towards `(x, y)`.\n * - Any arbitrary ordered pair of numbers.\n *\n * There are other things a 2D vector can be used to represent, such as\n * momentum vectors, complex numbers and so on, however these are the most\n * common uses in three.js.\n *\n * Iterating through a vector instance will yield its components `(x, y)` in\n * the corresponding order.\n * ```js\n * const a = new THREE.Vector2( 0, 1 );\n *\n * //no arguments; will be initialised to (0, 0)\n * const b = new THREE.Vector2( );\n *\n * const d = a.distanceTo( b );\n * ```\n */\nclass Vector2 {\n\n\t/**\n\t * Constructs a new 2D vector.\n\t *\n\t * @param {number} [x=0] - The x value of this vector.\n\t * @param {number} [y=0] - The y value of this vector.\n\t */\n\tconstructor( x = 0, y = 0 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tVector2.prototype.isVector2 = true;\n\n\t\t/**\n\t\t * The x value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.x = x;\n\n\t\t/**\n\t\t * The y value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.y = y;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector2#x}.\n\t *\n\t * @type {number}\n\t */\n\tget width() {\n\n\t\treturn this.x;\n\n\t}\n\n\tset width( value ) {\n\n\t\tthis.x = value;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector2#y}.\n\t *\n\t * @type {number}\n\t */\n\tget height() {\n\n\t\treturn this.y;\n\n\t}\n\n\tset height( value ) {\n\n\t\tthis.y = value;\n\n\t}\n\n\t/**\n\t * Sets the vector components.\n\t *\n\t * @param {number} x - The value of the x component.\n\t * @param {number} y - The value of the y component.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tset( x, y ) {\n\n\t\tthis.x = x;\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the same value.\n\t *\n\t * @param {number} scalar - The value to set for all vector components.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.x = scalar;\n\t\tthis.y = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's x component to the given value\n\t *\n\t * @param {number} x - The value to set.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetX( x ) {\n\n\t\tthis.x = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's y component to the given value\n\t *\n\t * @param {number} y - The value to set.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetY( y ) {\n\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Allows to set a vector component with an index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y.\n\t * @param {number} value - The value to set.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetComponent( index, value ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: this.x = value; break;\n\t\t\tcase 1: this.y = value; break;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the value of the vector component which matches the given index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y.\n\t * @return {number} A vector component value.\n\t */\n\tgetComponent( index ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: return this.x;\n\t\t\tcase 1: return this.y;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new vector with copied values from this instance.\n\t *\n\t * @return {Vector2} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.x, this.y );\n\n\t}\n\n\t/**\n\t * Copies the values of the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to copy.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tcopy( v ) {\n\n\t\tthis.x = v.x;\n\t\tthis.y = v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to add.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tadd( v ) {\n\n\t\tthis.x += v.x;\n\t\tthis.y += v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to all components of this instance.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.x += s;\n\t\tthis.y += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector2} a - The first vector.\n\t * @param {Vector2} b - The second vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\taddVectors( a, b ) {\n\n\t\tthis.x = a.x + b.x;\n\t\tthis.y = a.y + b.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector scaled by the given factor to this instance.\n\t *\n\t * @param {Vector2} v - The vector.\n\t * @param {number} s - The factor that scales `v`.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\taddScaledVector( v, s ) {\n\n\t\tthis.x += v.x * s;\n\t\tthis.y += v.y * s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vector from this instance.\n\t *\n\t * @param {Vector2} v - The vector to subtract.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsub( v ) {\n\n\t\tthis.x -= v.x;\n\t\tthis.y -= v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given scalar value from all components of this instance.\n\t *\n\t * @param {number} s - The scalar to subtract.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsubScalar( s ) {\n\n\t\tthis.x -= s;\n\t\tthis.y -= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector2} a - The first vector.\n\t * @param {Vector2} b - The second vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsubVectors( a, b ) {\n\n\t\tthis.x = a.x - b.x;\n\t\tthis.y = a.y - b.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vector with this instance.\n\t *\n\t * @param {Vector2} v - The vector to multiply.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmultiply( v ) {\n\n\t\tthis.x *= v.x;\n\t\tthis.y *= v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with all components of this instance.\n\t *\n\t * @param {number} scalar - The scalar to multiply.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmultiplyScalar( scalar ) {\n\n\t\tthis.x *= scalar;\n\t\tthis.y *= scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this instance by the given vector.\n\t *\n\t * @param {Vector2} v - The vector to divide.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tdivide( v ) {\n\n\t\tthis.x /= v.x;\n\t\tthis.y /= v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this vector by the given scalar.\n\t *\n\t * @param {number} scalar - The scalar to divide.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tdivideScalar( scalar ) {\n\n\t\treturn this.multiplyScalar( 1 / scalar );\n\n\t}\n\n\t/**\n\t * Multiplies this vector (with an implicit 1 as the 3rd component) by\n\t * the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix to apply.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tconst x = this.x, y = this.y;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 3 ] * y + e[ 6 ];\n\t\tthis.y = e[ 1 ] * x + e[ 4 ] * y + e[ 7 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y value is greater than the given vector's x or y\n\t * value, replace that value with the corresponding min value.\n\t *\n\t * @param {Vector2} v - The vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmin( v ) {\n\n\t\tthis.x = Math.min( this.x, v.x );\n\t\tthis.y = Math.min( this.y, v.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y value is less than the given vector's x or y\n\t * value, replace that value with the corresponding max value.\n\t *\n\t * @param {Vector2} v - The vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmax( v ) {\n\n\t\tthis.x = Math.max( this.x, v.x );\n\t\tthis.y = Math.max( this.y, v.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y value is greater than the max vector's x or y\n\t * value, it is replaced by the corresponding value.\n\t * If this vector's x or y value is less than the min vector's x or y value,\n\t * it is replaced by the corresponding value.\n\t *\n\t * @param {Vector2} min - The minimum x and y values.\n\t * @param {Vector2} max - The maximum x and y values in the desired range.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tclamp( min, max ) {\n\n\t\t// assumes min < max, componentwise\n\n\t\tthis.x = clamp( this.x, min.x, max.x );\n\t\tthis.y = clamp( this.y, min.y, max.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y values are greater than the max value, they are\n\t * replaced by the max value.\n\t * If this vector's x or y values are less than the min value, they are\n\t * replaced by the min value.\n\t *\n\t * @param {number} minVal - The minimum value the components will be clamped to.\n\t * @param {number} maxVal - The maximum value the components will be clamped to.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tclampScalar( minVal, maxVal ) {\n\n\t\tthis.x = clamp( this.x, minVal, maxVal );\n\t\tthis.y = clamp( this.y, minVal, maxVal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's length is greater than the max value, it is replaced by\n\t * the max value.\n\t * If this vector's length is less than the min value, it is replaced by the\n\t * min value.\n\t *\n\t * @param {number} min - The minimum value the vector length will be clamped to.\n\t * @param {number} max - The maximum value the vector length will be clamped to.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tclampLength( min, max ) {\n\n\t\tconst length = this.length();\n\n\t\treturn this.divideScalar( length || 1 ).multiplyScalar( clamp( length, min, max ) );\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded down to the nearest integer value.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tfloor() {\n\n\t\tthis.x = Math.floor( this.x );\n\t\tthis.y = Math.floor( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded up to the nearest integer value.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tceil() {\n\n\t\tthis.x = Math.ceil( this.x );\n\t\tthis.y = Math.ceil( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded to the nearest integer value\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tround() {\n\n\t\tthis.x = Math.round( this.x );\n\t\tthis.y = Math.round( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded towards zero (up if negative,\n\t * down if positive) to an integer value.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\troundToZero() {\n\n\t\tthis.x = Math.trunc( this.x );\n\t\tthis.y = Math.trunc( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this vector - i.e. sets x = -x and y = -y.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tnegate() {\n\n\t\tthis.x = - this.x;\n\t\tthis.y = - this.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of the given vector with this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this.x * v.x + this.y * v.y;\n\n\t}\n\n\t/**\n\t * Calculates the cross product of the given vector with this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the cross product with.\n\t * @return {number} The result of the cross product.\n\t */\n\tcross( v ) {\n\n\t\treturn this.x * v.y - this.y * v.x;\n\n\t}\n\n\t/**\n\t * Computes the square of the Euclidean length (straight-line length) from\n\t * (0, 0) to (x, y). If you are comparing the lengths of vectors, you should\n\t * compare the length squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @return {number} The square length of this vector.\n\t */\n\tlengthSq() {\n\n\t\treturn this.x * this.x + this.y * this.y;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) from (0, 0) to (x, y).\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this.x * this.x + this.y * this.y );\n\n\t}\n\n\t/**\n\t * Computes the Manhattan length of this vector.\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tmanhattanLength() {\n\n\t\treturn Math.abs( this.x ) + Math.abs( this.y );\n\n\t}\n\n\t/**\n\t * Converts this vector to a unit vector - that is, sets it equal to a vector\n\t * with the same direction as this one, but with a vector length of `1`.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tnormalize() {\n\n\t\treturn this.divideScalar( this.length() || 1 );\n\n\t}\n\n\t/**\n\t * Computes the angle in radians of this vector with respect to the positive x-axis.\n\t *\n\t * @return {number} The angle in radians.\n\t */\n\tangle() {\n\n\t\tconst angle = Math.atan2( - this.y, - this.x ) + Math.PI;\n\n\t\treturn angle;\n\n\t}\n\n\t/**\n\t * Returns the angle between the given vector and this instance in radians.\n\t *\n\t * @param {Vector2} v - The vector to compute the angle with.\n\t * @return {number} The angle in radians.\n\t */\n\tangleTo( v ) {\n\n\t\tconst denominator = Math.sqrt( this.lengthSq() * v.lengthSq() );\n\n\t\tif ( denominator === 0 ) return Math.PI / 2;\n\n\t\tconst theta = this.dot( v ) / denominator;\n\n\t\t// clamp, to handle numerical problems\n\n\t\treturn Math.acos( clamp( theta, -1, 1 ) );\n\n\t}\n\n\t/**\n\t * Computes the distance from the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the distance to.\n\t * @return {number} The distance.\n\t */\n\tdistanceTo( v ) {\n\n\t\treturn Math.sqrt( this.distanceToSquared( v ) );\n\n\t}\n\n\t/**\n\t * Computes the squared distance from the given vector to this instance.\n\t * If you are just comparing the distance with another distance, you should compare\n\t * the distance squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @param {Vector2} v - The vector to compute the squared distance to.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceToSquared( v ) {\n\n\t\tconst dx = this.x - v.x, dy = this.y - v.y;\n\t\treturn dx * dx + dy * dy;\n\n\t}\n\n\t/**\n\t * Computes the Manhattan distance from the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the Manhattan distance to.\n\t * @return {number} The Manhattan distance.\n\t */\n\tmanhattanDistanceTo( v ) {\n\n\t\treturn Math.abs( this.x - v.x ) + Math.abs( this.y - v.y );\n\n\t}\n\n\t/**\n\t * Sets this vector to a vector with the same direction as this one, but\n\t * with the specified length.\n\t *\n\t * @param {number} length - The new length of this vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetLength( length ) {\n\n\t\treturn this.normalize().multiplyScalar( length );\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vector and this instance, where\n\t * alpha is the percent distance along the line - alpha = 0 will be this\n\t * vector, and alpha = 1 will be the given one.\n\t *\n\t * @param {Vector2} v - The vector to interpolate towards.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tlerp( v, alpha ) {\n\n\t\tthis.x += ( v.x - this.x ) * alpha;\n\t\tthis.y += ( v.y - this.y ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vectors, where alpha is the percent\n\t * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n\t * be the second one. The result is stored in this instance.\n\t *\n\t * @param {Vector2} v1 - The first vector.\n\t * @param {Vector2} v2 - The second vector.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tlerpVectors( v1, v2, alpha ) {\n\n\t\tthis.x = v1.x + ( v2.x - v1.x ) * alpha;\n\t\tthis.y = v1.y + ( v2.y - v1.y ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this vector is equal with the given one.\n\t *\n\t * @param {Vector2} v - The vector to test for equality.\n\t * @return {boolean} Whether this vector is equal with the given one.\n\t */\n\tequals( v ) {\n\n\t\treturn ( ( v.x === this.x ) && ( v.y === this.y ) );\n\n\t}\n\n\t/**\n\t * Sets this vector's x value to be `array[ offset ]` and y\n\t * value to be `array[ offset + 1 ]`.\n\t *\n\t * @param {Array} array - An array holding the vector component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.x = array[ offset ];\n\t\tthis.y = array[ offset + 1 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this vector to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the vector components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The vector components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.x;\n\t\tarray[ offset + 1 ] = this.y;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this vector from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.x = attribute.getX( index );\n\t\tthis.y = attribute.getY( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates this vector around the given center by the given angle.\n\t *\n\t * @param {Vector2} center - The point around which to rotate.\n\t * @param {number} angle - The angle to rotate, in radians.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\trotateAround( center, angle ) {\n\n\t\tconst c = Math.cos( angle ), s = Math.sin( angle );\n\n\t\tconst x = this.x - center.x;\n\t\tconst y = this.y - center.y;\n\n\t\tthis.x = x * c - y * s + center.x;\n\t\tthis.y = x * s + y * c + center.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets each component of this vector to a pseudo-random value between `0` and\n\t * `1`, excluding `1`.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\trandom() {\n\n\t\tthis.x = Math.random();\n\t\tthis.y = Math.random();\n\n\t\treturn this;\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.x;\n\t\tyield this.y;\n\n\t}\n\n}\n\n/**\n * Class for representing a Quaternion. Quaternions are used in three.js to represent rotations.\n *\n * Iterating through a vector instance will yield its components `(x, y, z, w)` in\n * the corresponding order.\n *\n * Note that three.js expects Quaternions to be normalized.\n * ```js\n * const quaternion = new THREE.Quaternion();\n * quaternion.setFromAxisAngle( new THREE.Vector3( 0, 1, 0 ), Math.PI / 2 );\n *\n * const vector = new THREE.Vector3( 1, 0, 0 );\n * vector.applyQuaternion( quaternion );\n * ```\n */\nclass Quaternion {\n\n\t/**\n\t * Constructs a new quaternion.\n\t *\n\t * @param {number} [x=0] - The x value of this quaternion.\n\t * @param {number} [y=0] - The y value of this quaternion.\n\t * @param {number} [z=0] - The z value of this quaternion.\n\t * @param {number} [w=1] - The w value of this quaternion.\n\t */\n\tconstructor( x = 0, y = 0, z = 0, w = 1 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isQuaternion = true;\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._w = w;\n\n\t}\n\n\t/**\n\t * Interpolates between two quaternions via SLERP. This implementation assumes the\n\t * quaternion data are managed in flat arrays.\n\t *\n\t * @param {Array} dst - The destination array.\n\t * @param {number} dstOffset - An offset into the destination array.\n\t * @param {Array} src0 - The source array of the first quaternion.\n\t * @param {number} srcOffset0 - An offset into the first source array.\n\t * @param {Array} src1 - The source array of the second quaternion.\n\t * @param {number} srcOffset1 - An offset into the second source array.\n\t * @param {number} t - The interpolation factor in the range `[0,1]`.\n\t * @see {@link Quaternion#slerp}\n\t */\n\tstatic slerpFlat( dst, dstOffset, src0, srcOffset0, src1, srcOffset1, t ) {\n\n\t\t// fuzz-free, array-based Quaternion SLERP operation\n\n\t\tlet x0 = src0[ srcOffset0 + 0 ],\n\t\t\ty0 = src0[ srcOffset0 + 1 ],\n\t\t\tz0 = src0[ srcOffset0 + 2 ],\n\t\t\tw0 = src0[ srcOffset0 + 3 ];\n\n\t\tconst x1 = src1[ srcOffset1 + 0 ],\n\t\t\ty1 = src1[ srcOffset1 + 1 ],\n\t\t\tz1 = src1[ srcOffset1 + 2 ],\n\t\t\tw1 = src1[ srcOffset1 + 3 ];\n\n\t\tif ( t === 0 ) {\n\n\t\t\tdst[ dstOffset + 0 ] = x0;\n\t\t\tdst[ dstOffset + 1 ] = y0;\n\t\t\tdst[ dstOffset + 2 ] = z0;\n\t\t\tdst[ dstOffset + 3 ] = w0;\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( t === 1 ) {\n\n\t\t\tdst[ dstOffset + 0 ] = x1;\n\t\t\tdst[ dstOffset + 1 ] = y1;\n\t\t\tdst[ dstOffset + 2 ] = z1;\n\t\t\tdst[ dstOffset + 3 ] = w1;\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( w0 !== w1 || x0 !== x1 || y0 !== y1 || z0 !== z1 ) {\n\n\t\t\tlet s = 1 - t;\n\t\t\tconst cos = x0 * x1 + y0 * y1 + z0 * z1 + w0 * w1,\n\t\t\t\tdir = ( cos >= 0 ? 1 : -1 ),\n\t\t\t\tsqrSin = 1 - cos * cos;\n\n\t\t\t// Skip the Slerp for tiny steps to avoid numeric problems:\n\t\t\tif ( sqrSin > Number.EPSILON ) {\n\n\t\t\t\tconst sin = Math.sqrt( sqrSin ),\n\t\t\t\t\tlen = Math.atan2( sin, cos * dir );\n\n\t\t\t\ts = Math.sin( s * len ) / sin;\n\t\t\t\tt = Math.sin( t * len ) / sin;\n\n\t\t\t}\n\n\t\t\tconst tDir = t * dir;\n\n\t\t\tx0 = x0 * s + x1 * tDir;\n\t\t\ty0 = y0 * s + y1 * tDir;\n\t\t\tz0 = z0 * s + z1 * tDir;\n\t\t\tw0 = w0 * s + w1 * tDir;\n\n\t\t\t// Normalize in case we just did a lerp:\n\t\t\tif ( s === 1 - t ) {\n\n\t\t\t\tconst f = 1 / Math.sqrt( x0 * x0 + y0 * y0 + z0 * z0 + w0 * w0 );\n\n\t\t\t\tx0 *= f;\n\t\t\t\ty0 *= f;\n\t\t\t\tz0 *= f;\n\t\t\t\tw0 *= f;\n\n\t\t\t}\n\n\t\t}\n\n\t\tdst[ dstOffset ] = x0;\n\t\tdst[ dstOffset + 1 ] = y0;\n\t\tdst[ dstOffset + 2 ] = z0;\n\t\tdst[ dstOffset + 3 ] = w0;\n\n\t}\n\n\t/**\n\t * Multiplies two quaternions. This implementation assumes the quaternion data are managed\n\t * in flat arrays.\n\t *\n\t * @param {Array} dst - The destination array.\n\t * @param {number} dstOffset - An offset into the destination array.\n\t * @param {Array} src0 - The source array of the first quaternion.\n\t * @param {number} srcOffset0 - An offset into the first source array.\n\t * @param {Array} src1 - The source array of the second quaternion.\n\t * @param {number} srcOffset1 - An offset into the second source array.\n\t * @return {Array} The destination array.\n\t * @see {@link Quaternion#multiplyQuaternions}.\n\t */\n\tstatic multiplyQuaternionsFlat( dst, dstOffset, src0, srcOffset0, src1, srcOffset1 ) {\n\n\t\tconst x0 = src0[ srcOffset0 ];\n\t\tconst y0 = src0[ srcOffset0 + 1 ];\n\t\tconst z0 = src0[ srcOffset0 + 2 ];\n\t\tconst w0 = src0[ srcOffset0 + 3 ];\n\n\t\tconst x1 = src1[ srcOffset1 ];\n\t\tconst y1 = src1[ srcOffset1 + 1 ];\n\t\tconst z1 = src1[ srcOffset1 + 2 ];\n\t\tconst w1 = src1[ srcOffset1 + 3 ];\n\n\t\tdst[ dstOffset ] = x0 * w1 + w0 * x1 + y0 * z1 - z0 * y1;\n\t\tdst[ dstOffset + 1 ] = y0 * w1 + w0 * y1 + z0 * x1 - x0 * z1;\n\t\tdst[ dstOffset + 2 ] = z0 * w1 + w0 * z1 + x0 * y1 - y0 * x1;\n\t\tdst[ dstOffset + 3 ] = w0 * w1 - x0 * x1 - y0 * y1 - z0 * z1;\n\n\t\treturn dst;\n\n\t}\n\n\t/**\n\t * The x value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget x() {\n\n\t\treturn this._x;\n\n\t}\n\n\tset x( value ) {\n\n\t\tthis._x = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The y value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget y() {\n\n\t\treturn this._y;\n\n\t}\n\n\tset y( value ) {\n\n\t\tthis._y = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The z value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget z() {\n\n\t\treturn this._z;\n\n\t}\n\n\tset z( value ) {\n\n\t\tthis._z = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The w value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 1\n\t */\n\tget w() {\n\n\t\treturn this._w;\n\n\t}\n\n\tset w( value ) {\n\n\t\tthis._w = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * Sets the quaternion components.\n\t *\n\t * @param {number} x - The x value of this quaternion.\n\t * @param {number} y - The y value of this quaternion.\n\t * @param {number} z - The z value of this quaternion.\n\t * @param {number} w - The w value of this quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tset( x, y, z, w ) {\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._w = w;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new quaternion with copied values from this instance.\n\t *\n\t * @return {Quaternion} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this._x, this._y, this._z, this._w );\n\n\t}\n\n\t/**\n\t * Copies the values of the given quaternion to this instance.\n\t *\n\t * @param {Quaternion} quaternion - The quaternion to copy.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tcopy( quaternion ) {\n\n\t\tthis._x = quaternion.x;\n\t\tthis._y = quaternion.y;\n\t\tthis._z = quaternion.z;\n\t\tthis._w = quaternion.w;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion from the rotation specified by the given\n\t * Euler angles.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromEuler( euler, update = true ) {\n\n\t\tconst x = euler._x, y = euler._y, z = euler._z, order = euler._order;\n\n\t\t// http://www.mathworks.com/matlabcentral/fileexchange/\n\t\t// \t20696-function-to-convert-between-dcm-euler-angles-quaternions-and-euler-vectors/\n\t\t//\tcontent/SpinCalc.m\n\n\t\tconst cos = Math.cos;\n\t\tconst sin = Math.sin;\n\n\t\tconst c1 = cos( x / 2 );\n\t\tconst c2 = cos( y / 2 );\n\t\tconst c3 = cos( z / 2 );\n\n\t\tconst s1 = sin( x / 2 );\n\t\tconst s2 = sin( y / 2 );\n\t\tconst s3 = sin( z / 2 );\n\n\t\tswitch ( order ) {\n\n\t\t\tcase 'XYZ':\n\t\t\t\tthis._x = s1 * c2 * c3 + c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 - s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 + s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 - s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'YXZ':\n\t\t\t\tthis._x = s1 * c2 * c3 + c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 - s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 - s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 + s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZXY':\n\t\t\t\tthis._x = s1 * c2 * c3 - c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 + s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 + s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 - s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZYX':\n\t\t\t\tthis._x = s1 * c2 * c3 - c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 + s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 - s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 + s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'YZX':\n\t\t\t\tthis._x = s1 * c2 * c3 + c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 + s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 - s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 - s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'XZY':\n\t\t\t\tthis._x = s1 * c2 * c3 - c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 - s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 + s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 + s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\t\t\t\tconsole.warn( 'THREE.Quaternion: .setFromEuler() encountered an unknown order: ' + order );\n\n\t\t}\n\n\t\tif ( update === true ) this._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion from the given axis and angle.\n\t *\n\t * @param {Vector3} axis - The normalized axis.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromAxisAngle( axis, angle ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/angleToQuaternion/index.htm\n\n\t\tconst halfAngle = angle / 2, s = Math.sin( halfAngle );\n\n\t\tthis._x = axis.x * s;\n\t\tthis._y = axis.y * s;\n\t\tthis._z = axis.z * s;\n\t\tthis._w = Math.cos( halfAngle );\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion from the given rotation matrix.\n\t *\n\t * @param {Matrix4} m - A 4x4 matrix of which the upper 3x3 of matrix is a pure rotation matrix (i.e. unscaled).\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromRotationMatrix( m ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/matrixToQuaternion/index.htm\n\n\t\t// assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled)\n\n\t\tconst te = m.elements,\n\n\t\t\tm11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ],\n\t\t\tm21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ],\n\t\t\tm31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ],\n\n\t\t\ttrace = m11 + m22 + m33;\n\n\t\tif ( trace > 0 ) {\n\n\t\t\tconst s = 0.5 / Math.sqrt( trace + 1.0 );\n\n\t\t\tthis._w = 0.25 / s;\n\t\t\tthis._x = ( m32 - m23 ) * s;\n\t\t\tthis._y = ( m13 - m31 ) * s;\n\t\t\tthis._z = ( m21 - m12 ) * s;\n\n\t\t} else if ( m11 > m22 && m11 > m33 ) {\n\n\t\t\tconst s = 2.0 * Math.sqrt( 1.0 + m11 - m22 - m33 );\n\n\t\t\tthis._w = ( m32 - m23 ) / s;\n\t\t\tthis._x = 0.25 * s;\n\t\t\tthis._y = ( m12 + m21 ) / s;\n\t\t\tthis._z = ( m13 + m31 ) / s;\n\n\t\t} else if ( m22 > m33 ) {\n\n\t\t\tconst s = 2.0 * Math.sqrt( 1.0 + m22 - m11 - m33 );\n\n\t\t\tthis._w = ( m13 - m31 ) / s;\n\t\t\tthis._x = ( m12 + m21 ) / s;\n\t\t\tthis._y = 0.25 * s;\n\t\t\tthis._z = ( m23 + m32 ) / s;\n\n\t\t} else {\n\n\t\t\tconst s = 2.0 * Math.sqrt( 1.0 + m33 - m11 - m22 );\n\n\t\t\tthis._w = ( m21 - m12 ) / s;\n\t\t\tthis._x = ( m13 + m31 ) / s;\n\t\t\tthis._y = ( m23 + m32 ) / s;\n\t\t\tthis._z = 0.25 * s;\n\n\t\t}\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion to the rotation required to rotate the direction vector\n\t * `vFrom` to the direction vector `vTo`.\n\t *\n\t * @param {Vector3} vFrom - The first (normalized) direction vector.\n\t * @param {Vector3} vTo - The second (normalized) direction vector.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromUnitVectors( vFrom, vTo ) {\n\n\t\t// assumes direction vectors vFrom and vTo are normalized\n\n\t\tlet r = vFrom.dot( vTo ) + 1;\n\n\t\tif ( r < 1e-8 ) { // the epsilon value has been discussed in #31286\n\n\t\t\t// vFrom and vTo point in opposite directions\n\n\t\t\tr = 0;\n\n\t\t\tif ( Math.abs( vFrom.x ) > Math.abs( vFrom.z ) ) {\n\n\t\t\t\tthis._x = - vFrom.y;\n\t\t\t\tthis._y = vFrom.x;\n\t\t\t\tthis._z = 0;\n\t\t\t\tthis._w = r;\n\n\t\t\t} else {\n\n\t\t\t\tthis._x = 0;\n\t\t\t\tthis._y = - vFrom.z;\n\t\t\t\tthis._z = vFrom.y;\n\t\t\t\tthis._w = r;\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\t// crossVectors( vFrom, vTo ); // inlined to avoid cyclic dependency on Vector3\n\n\t\t\tthis._x = vFrom.y * vTo.z - vFrom.z * vTo.y;\n\t\t\tthis._y = vFrom.z * vTo.x - vFrom.x * vTo.z;\n\t\t\tthis._z = vFrom.x * vTo.y - vFrom.y * vTo.x;\n\t\t\tthis._w = r;\n\n\t\t}\n\n\t\treturn this.normalize();\n\n\t}\n\n\t/**\n\t * Returns the angle between this quaternion and the given one in radians.\n\t *\n\t * @param {Quaternion} q - The quaternion to compute the angle with.\n\t * @return {number} The angle in radians.\n\t */\n\tangleTo( q ) {\n\n\t\treturn 2 * Math.acos( Math.abs( clamp( this.dot( q ), -1, 1 ) ) );\n\n\t}\n\n\t/**\n\t * Rotates this quaternion by a given angular step to the given quaternion.\n\t * The method ensures that the final quaternion will not overshoot `q`.\n\t *\n\t * @param {Quaternion} q - The target quaternion.\n\t * @param {number} step - The angular step in radians.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\trotateTowards( q, step ) {\n\n\t\tconst angle = this.angleTo( q );\n\n\t\tif ( angle === 0 ) return this;\n\n\t\tconst t = Math.min( 1, step / angle );\n\n\t\tthis.slerp( q, t );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion to the identity quaternion; that is, to the\n\t * quaternion that represents \"no rotation\".\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tidentity() {\n\n\t\treturn this.set( 0, 0, 0, 1 );\n\n\t}\n\n\t/**\n\t * Inverts this quaternion via {@link Quaternion#conjugate}. The\n\t * quaternion is assumed to have unit length.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tinvert() {\n\n\t\treturn this.conjugate();\n\n\t}\n\n\t/**\n\t * Returns the rotational conjugate of this quaternion. The conjugate of a\n\t * quaternion represents the same rotation in the opposite direction about\n\t * the rotational axis.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tconjugate() {\n\n\t\tthis._x *= -1;\n\t\tthis._y *= -1;\n\t\tthis._z *= -1;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of this quaternion and the given one.\n\t *\n\t * @param {Quaternion} v - The quaternion to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this._x * v._x + this._y * v._y + this._z * v._z + this._w * v._w;\n\n\t}\n\n\t/**\n\t * Computes the squared Euclidean length (straight-line length) of this quaternion,\n\t * considered as a 4 dimensional vector. This can be useful if you are comparing the\n\t * lengths of two quaternions, as this is a slightly more efficient calculation than\n\t * {@link Quaternion#length}.\n\t *\n\t * @return {number} The squared Euclidean length.\n\t */\n\tlengthSq() {\n\n\t\treturn this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) of this quaternion,\n\t * considered as a 4 dimensional vector.\n\t *\n\t * @return {number} The Euclidean length.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w );\n\n\t}\n\n\t/**\n\t * Normalizes this quaternion - that is, calculated the quaternion that performs\n\t * the same rotation as this one, but has a length equal to `1`.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tnormalize() {\n\n\t\tlet l = this.length();\n\n\t\tif ( l === 0 ) {\n\n\t\t\tthis._x = 0;\n\t\t\tthis._y = 0;\n\t\t\tthis._z = 0;\n\t\t\tthis._w = 1;\n\n\t\t} else {\n\n\t\t\tl = 1 / l;\n\n\t\t\tthis._x = this._x * l;\n\t\t\tthis._y = this._y * l;\n\t\t\tthis._z = this._z * l;\n\t\t\tthis._w = this._w * l;\n\n\t\t}\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies this quaternion by the given one.\n\t *\n\t * @param {Quaternion} q - The quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tmultiply( q ) {\n\n\t\treturn this.multiplyQuaternions( this, q );\n\n\t}\n\n\t/**\n\t * Pre-multiplies this quaternion by the given one.\n\t *\n\t * @param {Quaternion} q - The quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tpremultiply( q ) {\n\n\t\treturn this.multiplyQuaternions( q, this );\n\n\t}\n\n\t/**\n\t * Multiplies the given quaternions and stores the result in this instance.\n\t *\n\t * @param {Quaternion} a - The first quaternion.\n\t * @param {Quaternion} b - The second quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tmultiplyQuaternions( a, b ) {\n\n\t\t// from http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/code/index.htm\n\n\t\tconst qax = a._x, qay = a._y, qaz = a._z, qaw = a._w;\n\t\tconst qbx = b._x, qby = b._y, qbz = b._z, qbw = b._w;\n\n\t\tthis._x = qax * qbw + qaw * qbx + qay * qbz - qaz * qby;\n\t\tthis._y = qay * qbw + qaw * qby + qaz * qbx - qax * qbz;\n\t\tthis._z = qaz * qbw + qaw * qbz + qax * qby - qay * qbx;\n\t\tthis._w = qaw * qbw - qax * qbx - qay * qby - qaz * qbz;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs a spherical linear interpolation between quaternions.\n\t *\n\t * @param {Quaternion} qb - The target quaternion.\n\t * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tslerp( qb, t ) {\n\n\t\tif ( t === 0 ) return this;\n\t\tif ( t === 1 ) return this.copy( qb );\n\n\t\tconst x = this._x, y = this._y, z = this._z, w = this._w;\n\n\t\t// http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/slerp/\n\n\t\tlet cosHalfTheta = w * qb._w + x * qb._x + y * qb._y + z * qb._z;\n\n\t\tif ( cosHalfTheta < 0 ) {\n\n\t\t\tthis._w = - qb._w;\n\t\t\tthis._x = - qb._x;\n\t\t\tthis._y = - qb._y;\n\t\t\tthis._z = - qb._z;\n\n\t\t\tcosHalfTheta = - cosHalfTheta;\n\n\t\t} else {\n\n\t\t\tthis.copy( qb );\n\n\t\t}\n\n\t\tif ( cosHalfTheta >= 1.0 ) {\n\n\t\t\tthis._w = w;\n\t\t\tthis._x = x;\n\t\t\tthis._y = y;\n\t\t\tthis._z = z;\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst sqrSinHalfTheta = 1.0 - cosHalfTheta * cosHalfTheta;\n\n\t\tif ( sqrSinHalfTheta <= Number.EPSILON ) {\n\n\t\t\tconst s = 1 - t;\n\t\t\tthis._w = s * w + t * this._w;\n\t\t\tthis._x = s * x + t * this._x;\n\t\t\tthis._y = s * y + t * this._y;\n\t\t\tthis._z = s * z + t * this._z;\n\n\t\t\tthis.normalize(); // normalize calls _onChangeCallback()\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst sinHalfTheta = Math.sqrt( sqrSinHalfTheta );\n\t\tconst halfTheta = Math.atan2( sinHalfTheta, cosHalfTheta );\n\t\tconst ratioA = Math.sin( ( 1 - t ) * halfTheta ) / sinHalfTheta,\n\t\t\tratioB = Math.sin( t * halfTheta ) / sinHalfTheta;\n\n\t\tthis._w = ( w * ratioA + this._w * ratioB );\n\t\tthis._x = ( x * ratioA + this._x * ratioB );\n\t\tthis._y = ( y * ratioA + this._y * ratioB );\n\t\tthis._z = ( z * ratioA + this._z * ratioB );\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs a spherical linear interpolation between the given quaternions\n\t * and stores the result in this quaternion.\n\t *\n\t * @param {Quaternion} qa - The source quaternion.\n\t * @param {Quaternion} qb - The target quaternion.\n\t * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tslerpQuaternions( qa, qb, t ) {\n\n\t\treturn this.copy( qa ).slerp( qb, t );\n\n\t}\n\n\t/**\n\t * Sets this quaternion to a uniformly random, normalized quaternion.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\trandom() {\n\n\t\t// Ken Shoemake\n\t\t// Uniform random rotations\n\t\t// D. Kirk, editor, Graphics Gems III, pages 124-132. Academic Press, New York, 1992.\n\n\t\tconst theta1 = 2 * Math.PI * Math.random();\n\t\tconst theta2 = 2 * Math.PI * Math.random();\n\n\t\tconst x0 = Math.random();\n\t\tconst r1 = Math.sqrt( 1 - x0 );\n\t\tconst r2 = Math.sqrt( x0 );\n\n\t\treturn this.set(\n\t\t\tr1 * Math.sin( theta1 ),\n\t\t\tr1 * Math.cos( theta1 ),\n\t\t\tr2 * Math.sin( theta2 ),\n\t\t\tr2 * Math.cos( theta2 ),\n\t\t);\n\n\t}\n\n\t/**\n\t * Returns `true` if this quaternion is equal with the given one.\n\t *\n\t * @param {Quaternion} quaternion - The quaternion to test for equality.\n\t * @return {boolean} Whether this quaternion is equal with the given one.\n\t */\n\tequals( quaternion ) {\n\n\t\treturn ( quaternion._x === this._x ) && ( quaternion._y === this._y ) && ( quaternion._z === this._z ) && ( quaternion._w === this._w );\n\n\t}\n\n\t/**\n\t * Sets this quaternion's components from the given array.\n\t *\n\t * @param {Array} array - An array holding the quaternion component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis._x = array[ offset ];\n\t\tthis._y = array[ offset + 1 ];\n\t\tthis._z = array[ offset + 2 ];\n\t\tthis._w = array[ offset + 3 ];\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this quaternion to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the quaternion components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The quaternion components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this._x;\n\t\tarray[ offset + 1 ] = this._y;\n\t\tarray[ offset + 2 ] = this._z;\n\t\tarray[ offset + 3 ] = this._w;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this quaternion from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding quaternion data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis._x = attribute.getX( index );\n\t\tthis._y = attribute.getY( index );\n\t\tthis._z = attribute.getZ( index );\n\t\tthis._w = attribute.getW( index );\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This methods defines the serialization result of this class. Returns the\n\t * numerical elements of this quaternion in an array of format `[x, y, z, w]`.\n\t *\n\t * @return {Array} The serialized quaternion.\n\t */\n\ttoJSON() {\n\n\t\treturn this.toArray();\n\n\t}\n\n\t_onChange( callback ) {\n\n\t\tthis._onChangeCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t_onChangeCallback() {}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this._x;\n\t\tyield this._y;\n\t\tyield this._z;\n\t\tyield this._w;\n\n\t}\n\n}\n\n/**\n * Class representing a 3D vector. A 3D vector is an ordered triplet of numbers\n * (labeled x, y and z), which can be used to represent a number of things, such as:\n *\n * - A point in 3D space.\n * - A direction and length in 3D space. In three.js the length will\n * always be the Euclidean distance(straight-line distance) from `(0, 0, 0)` to `(x, y, z)`\n * and the direction is also measured from `(0, 0, 0)` towards `(x, y, z)`.\n * - Any arbitrary ordered triplet of numbers.\n *\n * There are other things a 3D vector can be used to represent, such as\n * momentum vectors and so on, however these are the most\n * common uses in three.js.\n *\n * Iterating through a vector instance will yield its components `(x, y, z)` in\n * the corresponding order.\n * ```js\n * const a = new THREE.Vector3( 0, 1, 0 );\n *\n * //no arguments; will be initialised to (0, 0, 0)\n * const b = new THREE.Vector3( );\n *\n * const d = a.distanceTo( b );\n * ```\n */\nclass Vector3 {\n\n\t/**\n\t * Constructs a new 3D vector.\n\t *\n\t * @param {number} [x=0] - The x value of this vector.\n\t * @param {number} [y=0] - The y value of this vector.\n\t * @param {number} [z=0] - The z value of this vector.\n\t */\n\tconstructor( x = 0, y = 0, z = 0 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tVector3.prototype.isVector3 = true;\n\n\t\t/**\n\t\t * The x value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.x = x;\n\n\t\t/**\n\t\t * The y value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.y = y;\n\n\t\t/**\n\t\t * The z value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.z = z;\n\n\t}\n\n\t/**\n\t * Sets the vector components.\n\t *\n\t * @param {number} x - The value of the x component.\n\t * @param {number} y - The value of the y component.\n\t * @param {number} z - The value of the z component.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tset( x, y, z ) {\n\n\t\tif ( z === undefined ) z = this.z; // sprite.scale.set(x,y)\n\n\t\tthis.x = x;\n\t\tthis.y = y;\n\t\tthis.z = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the same value.\n\t *\n\t * @param {number} scalar - The value to set for all vector components.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.x = scalar;\n\t\tthis.y = scalar;\n\t\tthis.z = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's x component to the given value\n\t *\n\t * @param {number} x - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetX( x ) {\n\n\t\tthis.x = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's y component to the given value\n\t *\n\t * @param {number} y - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetY( y ) {\n\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's z component to the given value\n\t *\n\t * @param {number} z - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetZ( z ) {\n\n\t\tthis.z = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Allows to set a vector component with an index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n\t * @param {number} value - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetComponent( index, value ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: this.x = value; break;\n\t\t\tcase 1: this.y = value; break;\n\t\t\tcase 2: this.z = value; break;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the value of the vector component which matches the given index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n\t * @return {number} A vector component value.\n\t */\n\tgetComponent( index ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: return this.x;\n\t\t\tcase 1: return this.y;\n\t\t\tcase 2: return this.z;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new vector with copied values from this instance.\n\t *\n\t * @return {Vector3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.x, this.y, this.z );\n\n\t}\n\n\t/**\n\t * Copies the values of the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to copy.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tcopy( v ) {\n\n\t\tthis.x = v.x;\n\t\tthis.y = v.y;\n\t\tthis.z = v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to add.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tadd( v ) {\n\n\t\tthis.x += v.x;\n\t\tthis.y += v.y;\n\t\tthis.z += v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to all components of this instance.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.x += s;\n\t\tthis.y += s;\n\t\tthis.z += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\taddVectors( a, b ) {\n\n\t\tthis.x = a.x + b.x;\n\t\tthis.y = a.y + b.y;\n\t\tthis.z = a.z + b.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector scaled by the given factor to this instance.\n\t *\n\t * @param {Vector3|Vector4} v - The vector.\n\t * @param {number} s - The factor that scales `v`.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\taddScaledVector( v, s ) {\n\n\t\tthis.x += v.x * s;\n\t\tthis.y += v.y * s;\n\t\tthis.z += v.z * s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vector from this instance.\n\t *\n\t * @param {Vector3} v - The vector to subtract.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsub( v ) {\n\n\t\tthis.x -= v.x;\n\t\tthis.y -= v.y;\n\t\tthis.z -= v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given scalar value from all components of this instance.\n\t *\n\t * @param {number} s - The scalar to subtract.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsubScalar( s ) {\n\n\t\tthis.x -= s;\n\t\tthis.y -= s;\n\t\tthis.z -= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsubVectors( a, b ) {\n\n\t\tthis.x = a.x - b.x;\n\t\tthis.y = a.y - b.y;\n\t\tthis.z = a.z - b.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vector with this instance.\n\t *\n\t * @param {Vector3} v - The vector to multiply.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmultiply( v ) {\n\n\t\tthis.x *= v.x;\n\t\tthis.y *= v.y;\n\t\tthis.z *= v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with all components of this instance.\n\t *\n\t * @param {number} scalar - The scalar to multiply.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmultiplyScalar( scalar ) {\n\n\t\tthis.x *= scalar;\n\t\tthis.y *= scalar;\n\t\tthis.z *= scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmultiplyVectors( a, b ) {\n\n\t\tthis.x = a.x * b.x;\n\t\tthis.y = a.y * b.y;\n\t\tthis.z = a.z * b.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given Euler rotation to this vector.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyEuler( euler ) {\n\n\t\treturn this.applyQuaternion( _quaternion$4.setFromEuler( euler ) );\n\n\t}\n\n\t/**\n\t * Applies a rotation specified by an axis and an angle to this vector.\n\t *\n\t * @param {Vector3} axis - A normalized vector representing the rotation axis.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyAxisAngle( axis, angle ) {\n\n\t\treturn this.applyQuaternion( _quaternion$4.setFromAxisAngle( axis, angle ) );\n\n\t}\n\n\t/**\n\t * Multiplies this vector with the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The 3x3 matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tconst x = this.x, y = this.y, z = this.z;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 3 ] * y + e[ 6 ] * z;\n\t\tthis.y = e[ 1 ] * x + e[ 4 ] * y + e[ 7 ] * z;\n\t\tthis.z = e[ 2 ] * x + e[ 5 ] * y + e[ 8 ] * z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies this vector by the given normal matrix and normalizes\n\t * the result.\n\t *\n\t * @param {Matrix3} m - The normal matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyNormalMatrix( m ) {\n\n\t\treturn this.applyMatrix3( m ).normalize();\n\n\t}\n\n\t/**\n\t * Multiplies this vector (with an implicit 1 in the 4th dimension) by m, and\n\t * divides by perspective.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tconst x = this.x, y = this.y, z = this.z;\n\t\tconst e = m.elements;\n\n\t\tconst w = 1 / ( e[ 3 ] * x + e[ 7 ] * y + e[ 11 ] * z + e[ 15 ] );\n\n\t\tthis.x = ( e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z + e[ 12 ] ) * w;\n\t\tthis.y = ( e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z + e[ 13 ] ) * w;\n\t\tthis.z = ( e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z + e[ 14 ] ) * w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given Quaternion to this vector.\n\t *\n\t * @param {Quaternion} q - The Quaternion.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyQuaternion( q ) {\n\n\t\t// quaternion q is assumed to have unit length\n\n\t\tconst vx = this.x, vy = this.y, vz = this.z;\n\t\tconst qx = q.x, qy = q.y, qz = q.z, qw = q.w;\n\n\t\t// t = 2 * cross( q.xyz, v );\n\t\tconst tx = 2 * ( qy * vz - qz * vy );\n\t\tconst ty = 2 * ( qz * vx - qx * vz );\n\t\tconst tz = 2 * ( qx * vy - qy * vx );\n\n\t\t// v + q.w * t + cross( q.xyz, t );\n\t\tthis.x = vx + qw * tx + qy * tz - qz * ty;\n\t\tthis.y = vy + qw * ty + qz * tx - qx * tz;\n\t\tthis.z = vz + qw * tz + qx * ty - qy * tx;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Projects this vector from world space into the camera's normalized\n\t * device coordinate (NDC) space.\n\t *\n\t * @param {Camera} camera - The camera.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tproject( camera ) {\n\n\t\treturn this.applyMatrix4( camera.matrixWorldInverse ).applyMatrix4( camera.projectionMatrix );\n\n\t}\n\n\t/**\n\t * Unprojects this vector from the camera's normalized device coordinate (NDC)\n\t * space into world space.\n\t *\n\t * @param {Camera} camera - The camera.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tunproject( camera ) {\n\n\t\treturn this.applyMatrix4( camera.projectionMatrixInverse ).applyMatrix4( camera.matrixWorld );\n\n\t}\n\n\t/**\n\t * Transforms the direction of this vector by a matrix (the upper left 3 x 3\n\t * subset of the given 4x4 matrix and then normalizes the result.\n\t *\n\t * @param {Matrix4} m - The matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\ttransformDirection( m ) {\n\n\t\t// input: THREE.Matrix4 affine matrix\n\t\t// vector interpreted as a direction\n\n\t\tconst x = this.x, y = this.y, z = this.z;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z;\n\t\tthis.y = e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z;\n\t\tthis.z = e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z;\n\n\t\treturn this.normalize();\n\n\t}\n\n\t/**\n\t * Divides this instance by the given vector.\n\t *\n\t * @param {Vector3} v - The vector to divide.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tdivide( v ) {\n\n\t\tthis.x /= v.x;\n\t\tthis.y /= v.y;\n\t\tthis.z /= v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this vector by the given scalar.\n\t *\n\t * @param {number} scalar - The scalar to divide.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tdivideScalar( scalar ) {\n\n\t\treturn this.multiplyScalar( 1 / scalar );\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z value is greater than the given vector's x, y or z\n\t * value, replace that value with the corresponding min value.\n\t *\n\t * @param {Vector3} v - The vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmin( v ) {\n\n\t\tthis.x = Math.min( this.x, v.x );\n\t\tthis.y = Math.min( this.y, v.y );\n\t\tthis.z = Math.min( this.z, v.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z value is less than the given vector's x, y or z\n\t * value, replace that value with the corresponding max value.\n\t *\n\t * @param {Vector3} v - The vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmax( v ) {\n\n\t\tthis.x = Math.max( this.x, v.x );\n\t\tthis.y = Math.max( this.y, v.y );\n\t\tthis.z = Math.max( this.z, v.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z value is greater than the max vector's x, y or z\n\t * value, it is replaced by the corresponding value.\n\t * If this vector's x, y or z value is less than the min vector's x, y or z value,\n\t * it is replaced by the corresponding value.\n\t *\n\t * @param {Vector3} min - The minimum x, y and z values.\n\t * @param {Vector3} max - The maximum x, y and z values in the desired range.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tclamp( min, max ) {\n\n\t\t// assumes min < max, componentwise\n\n\t\tthis.x = clamp( this.x, min.x, max.x );\n\t\tthis.y = clamp( this.y, min.y, max.y );\n\t\tthis.z = clamp( this.z, min.z, max.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z values are greater than the max value, they are\n\t * replaced by the max value.\n\t * If this vector's x, y or z values are less than the min value, they are\n\t * replaced by the min value.\n\t *\n\t * @param {number} minVal - The minimum value the components will be clamped to.\n\t * @param {number} maxVal - The maximum value the components will be clamped to.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tclampScalar( minVal, maxVal ) {\n\n\t\tthis.x = clamp( this.x, minVal, maxVal );\n\t\tthis.y = clamp( this.y, minVal, maxVal );\n\t\tthis.z = clamp( this.z, minVal, maxVal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's length is greater than the max value, it is replaced by\n\t * the max value.\n\t * If this vector's length is less than the min value, it is replaced by the\n\t * min value.\n\t *\n\t * @param {number} min - The minimum value the vector length will be clamped to.\n\t * @param {number} max - The maximum value the vector length will be clamped to.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tclampLength( min, max ) {\n\n\t\tconst length = this.length();\n\n\t\treturn this.divideScalar( length || 1 ).multiplyScalar( clamp( length, min, max ) );\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded down to the nearest integer value.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tfloor() {\n\n\t\tthis.x = Math.floor( this.x );\n\t\tthis.y = Math.floor( this.y );\n\t\tthis.z = Math.floor( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded up to the nearest integer value.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tceil() {\n\n\t\tthis.x = Math.ceil( this.x );\n\t\tthis.y = Math.ceil( this.y );\n\t\tthis.z = Math.ceil( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded to the nearest integer value\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tround() {\n\n\t\tthis.x = Math.round( this.x );\n\t\tthis.y = Math.round( this.y );\n\t\tthis.z = Math.round( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded towards zero (up if negative,\n\t * down if positive) to an integer value.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\troundToZero() {\n\n\t\tthis.x = Math.trunc( this.x );\n\t\tthis.y = Math.trunc( this.y );\n\t\tthis.z = Math.trunc( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this vector - i.e. sets x = -x, y = -y and z = -z.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tnegate() {\n\n\t\tthis.x = - this.x;\n\t\tthis.y = - this.y;\n\t\tthis.z = - this.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of the given vector with this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this.x * v.x + this.y * v.y + this.z * v.z;\n\n\t}\n\n\t// TODO lengthSquared?\n\n\t/**\n\t * Computes the square of the Euclidean length (straight-line length) from\n\t * (0, 0, 0) to (x, y, z). If you are comparing the lengths of vectors, you should\n\t * compare the length squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @return {number} The square length of this vector.\n\t */\n\tlengthSq() {\n\n\t\treturn this.x * this.x + this.y * this.y + this.z * this.z;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) from (0, 0, 0) to (x, y, z).\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this.x * this.x + this.y * this.y + this.z * this.z );\n\n\t}\n\n\t/**\n\t * Computes the Manhattan length of this vector.\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tmanhattanLength() {\n\n\t\treturn Math.abs( this.x ) + Math.abs( this.y ) + Math.abs( this.z );\n\n\t}\n\n\t/**\n\t * Converts this vector to a unit vector - that is, sets it equal to a vector\n\t * with the same direction as this one, but with a vector length of `1`.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tnormalize() {\n\n\t\treturn this.divideScalar( this.length() || 1 );\n\n\t}\n\n\t/**\n\t * Sets this vector to a vector with the same direction as this one, but\n\t * with the specified length.\n\t *\n\t * @param {number} length - The new length of this vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetLength( length ) {\n\n\t\treturn this.normalize().multiplyScalar( length );\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vector and this instance, where\n\t * alpha is the percent distance along the line - alpha = 0 will be this\n\t * vector, and alpha = 1 will be the given one.\n\t *\n\t * @param {Vector3} v - The vector to interpolate towards.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tlerp( v, alpha ) {\n\n\t\tthis.x += ( v.x - this.x ) * alpha;\n\t\tthis.y += ( v.y - this.y ) * alpha;\n\t\tthis.z += ( v.z - this.z ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vectors, where alpha is the percent\n\t * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n\t * be the second one. The result is stored in this instance.\n\t *\n\t * @param {Vector3} v1 - The first vector.\n\t * @param {Vector3} v2 - The second vector.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tlerpVectors( v1, v2, alpha ) {\n\n\t\tthis.x = v1.x + ( v2.x - v1.x ) * alpha;\n\t\tthis.y = v1.y + ( v2.y - v1.y ) * alpha;\n\t\tthis.z = v1.z + ( v2.z - v1.z ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the cross product of the given vector with this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the cross product with.\n\t * @return {Vector3} The result of the cross product.\n\t */\n\tcross( v ) {\n\n\t\treturn this.crossVectors( this, v );\n\n\t}\n\n\t/**\n\t * Calculates the cross product of the given vectors and stores the result\n\t * in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tcrossVectors( a, b ) {\n\n\t\tconst ax = a.x, ay = a.y, az = a.z;\n\t\tconst bx = b.x, by = b.y, bz = b.z;\n\n\t\tthis.x = ay * bz - az * by;\n\t\tthis.y = az * bx - ax * bz;\n\t\tthis.z = ax * by - ay * bx;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Projects this vector onto the given one.\n\t *\n\t * @param {Vector3} v - The vector to project to.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tprojectOnVector( v ) {\n\n\t\tconst denominator = v.lengthSq();\n\n\t\tif ( denominator === 0 ) return this.set( 0, 0, 0 );\n\n\t\tconst scalar = v.dot( this ) / denominator;\n\n\t\treturn this.copy( v ).multiplyScalar( scalar );\n\n\t}\n\n\t/**\n\t * Projects this vector onto a plane by subtracting this\n\t * vector projected onto the plane's normal from this vector.\n\t *\n\t * @param {Vector3} planeNormal - The plane normal.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tprojectOnPlane( planeNormal ) {\n\n\t\t_vector$c.copy( this ).projectOnVector( planeNormal );\n\n\t\treturn this.sub( _vector$c );\n\n\t}\n\n\t/**\n\t * Reflects this vector off a plane orthogonal to the given normal vector.\n\t *\n\t * @param {Vector3} normal - The (normalized) normal vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\treflect( normal ) {\n\n\t\treturn this.sub( _vector$c.copy( normal ).multiplyScalar( 2 * this.dot( normal ) ) );\n\n\t}\n\t/**\n\t * Returns the angle between the given vector and this instance in radians.\n\t *\n\t * @param {Vector3} v - The vector to compute the angle with.\n\t * @return {number} The angle in radians.\n\t */\n\tangleTo( v ) {\n\n\t\tconst denominator = Math.sqrt( this.lengthSq() * v.lengthSq() );\n\n\t\tif ( denominator === 0 ) return Math.PI / 2;\n\n\t\tconst theta = this.dot( v ) / denominator;\n\n\t\t// clamp, to handle numerical problems\n\n\t\treturn Math.acos( clamp( theta, -1, 1 ) );\n\n\t}\n\n\t/**\n\t * Computes the distance from the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the distance to.\n\t * @return {number} The distance.\n\t */\n\tdistanceTo( v ) {\n\n\t\treturn Math.sqrt( this.distanceToSquared( v ) );\n\n\t}\n\n\t/**\n\t * Computes the squared distance from the given vector to this instance.\n\t * If you are just comparing the distance with another distance, you should compare\n\t * the distance squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @param {Vector3} v - The vector to compute the squared distance to.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceToSquared( v ) {\n\n\t\tconst dx = this.x - v.x, dy = this.y - v.y, dz = this.z - v.z;\n\n\t\treturn dx * dx + dy * dy + dz * dz;\n\n\t}\n\n\t/**\n\t * Computes the Manhattan distance from the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the Manhattan distance to.\n\t * @return {number} The Manhattan distance.\n\t */\n\tmanhattanDistanceTo( v ) {\n\n\t\treturn Math.abs( this.x - v.x ) + Math.abs( this.y - v.y ) + Math.abs( this.z - v.z );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given spherical coordinates.\n\t *\n\t * @param {Spherical} s - The spherical coordinates.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromSpherical( s ) {\n\n\t\treturn this.setFromSphericalCoords( s.radius, s.phi, s.theta );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given spherical coordinates.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} phi - The phi angle in radians.\n\t * @param {number} theta - The theta angle in radians.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromSphericalCoords( radius, phi, theta ) {\n\n\t\tconst sinPhiRadius = Math.sin( phi ) * radius;\n\n\t\tthis.x = sinPhiRadius * Math.sin( theta );\n\t\tthis.y = Math.cos( phi ) * radius;\n\t\tthis.z = sinPhiRadius * Math.cos( theta );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given cylindrical coordinates.\n\t *\n\t * @param {Cylindrical} c - The cylindrical coordinates.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromCylindrical( c ) {\n\n\t\treturn this.setFromCylindricalCoords( c.radius, c.theta, c.y );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given cylindrical coordinates.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} theta - The theta angle in radians.\n\t * @param {number} y - The y value.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromCylindricalCoords( radius, theta, y ) {\n\n\t\tthis.x = radius * Math.sin( theta );\n\t\tthis.y = y;\n\t\tthis.z = radius * Math.cos( theta );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the position elements of the\n\t * given transformation matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrixPosition( m ) {\n\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 12 ];\n\t\tthis.y = e[ 13 ];\n\t\tthis.z = e[ 14 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the scale elements of the\n\t * given transformation matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrixScale( m ) {\n\n\t\tconst sx = this.setFromMatrixColumn( m, 0 ).length();\n\t\tconst sy = this.setFromMatrixColumn( m, 1 ).length();\n\t\tconst sz = this.setFromMatrixColumn( m, 2 ).length();\n\n\t\tthis.x = sx;\n\t\tthis.y = sy;\n\t\tthis.z = sz;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components from the specified matrix column.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @param {number} index - The column index.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrixColumn( m, index ) {\n\n\t\treturn this.fromArray( m.elements, index * 4 );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the specified matrix column.\n\t *\n\t * @param {Matrix3} m - The 3x3 matrix.\n\t * @param {number} index - The column index.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrix3Column( m, index ) {\n\n\t\treturn this.fromArray( m.elements, index * 3 );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given Euler angles.\n\t *\n\t * @param {Euler} e - The Euler angles to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromEuler( e ) {\n\n\t\tthis.x = e._x;\n\t\tthis.y = e._y;\n\t\tthis.z = e._z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components from the RGB components of the\n\t * given color.\n\t *\n\t * @param {Color} c - The color to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromColor( c ) {\n\n\t\tthis.x = c.r;\n\t\tthis.y = c.g;\n\t\tthis.z = c.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this vector is equal with the given one.\n\t *\n\t * @param {Vector3} v - The vector to test for equality.\n\t * @return {boolean} Whether this vector is equal with the given one.\n\t */\n\tequals( v ) {\n\n\t\treturn ( ( v.x === this.x ) && ( v.y === this.y ) && ( v.z === this.z ) );\n\n\t}\n\n\t/**\n\t * Sets this vector's x value to be `array[ offset ]`, y value to be `array[ offset + 1 ]`\n\t * and z value to be `array[ offset + 2 ]`.\n\t *\n\t * @param {Array} array - An array holding the vector component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.x = array[ offset ];\n\t\tthis.y = array[ offset + 1 ];\n\t\tthis.z = array[ offset + 2 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this vector to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the vector components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The vector components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.x;\n\t\tarray[ offset + 1 ] = this.y;\n\t\tarray[ offset + 2 ] = this.z;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this vector from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.x = attribute.getX( index );\n\t\tthis.y = attribute.getY( index );\n\t\tthis.z = attribute.getZ( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets each component of this vector to a pseudo-random value between `0` and\n\t * `1`, excluding `1`.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\trandom() {\n\n\t\tthis.x = Math.random();\n\t\tthis.y = Math.random();\n\t\tthis.z = Math.random();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this vector to a uniformly random point on a unit sphere.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\trandomDirection() {\n\n\t\t// https://mathworld.wolfram.com/SpherePointPicking.html\n\n\t\tconst theta = Math.random() * Math.PI * 2;\n\t\tconst u = Math.random() * 2 - 1;\n\t\tconst c = Math.sqrt( 1 - u * u );\n\n\t\tthis.x = c * Math.cos( theta );\n\t\tthis.y = u;\n\t\tthis.z = c * Math.sin( theta );\n\n\t\treturn this;\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.x;\n\t\tyield this.y;\n\t\tyield this.z;\n\n\t}\n\n}\n\nconst _vector$c = /*@__PURE__*/ new Vector3();\nconst _quaternion$4 = /*@__PURE__*/ new Quaternion();\n\n/**\n * Represents a 3x3 matrix.\n *\n * A Note on Row-Major and Column-Major Ordering:\n *\n * The constructor and {@link Matrix3#set} method take arguments in\n * [row-major]{@link https://en.wikipedia.org/wiki/Row-_and_column-major_order#Column-major_order}\n * order, while internally they are stored in the {@link Matrix3#elements} array in column-major order.\n * This means that calling:\n * ```js\n * const m = new THREE.Matrix();\n * m.set( 11, 12, 13,\n * 21, 22, 23,\n * 31, 32, 33 );\n * ```\n * will result in the elements array containing:\n * ```js\n * m.elements = [ 11, 21, 31,\n * 12, 22, 32,\n * 13, 23, 33 ];\n * ```\n * and internally all calculations are performed using column-major ordering.\n * However, as the actual ordering makes no difference mathematically and\n * most people are used to thinking about matrices in row-major order, the\n * three.js documentation shows matrices in row-major order. Just bear in\n * mind that if you are reading the source code, you'll have to take the\n * transpose of any matrices outlined here to make sense of the calculations.\n */\nclass Matrix3 {\n\n\t/**\n\t * Constructs a new 3x3 matrix. The arguments are supposed to be\n\t * in row-major order. If no arguments are provided, the constructor\n\t * initializes the matrix as an identity matrix.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t */\n\tconstructor( n11, n12, n13, n21, n22, n23, n31, n32, n33 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tMatrix3.prototype.isMatrix3 = true;\n\n\t\t/**\n\t\t * A column-major list of matrix values.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.elements = [\n\n\t\t\t1, 0, 0,\n\t\t\t0, 1, 0,\n\t\t\t0, 0, 1\n\n\t\t];\n\n\t\tif ( n11 !== undefined ) {\n\n\t\t\tthis.set( n11, n12, n13, n21, n22, n23, n31, n32, n33 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix.The arguments are supposed to be\n\t * in row-major order.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tset( n11, n12, n13, n21, n22, n23, n31, n32, n33 ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] = n11; te[ 1 ] = n21; te[ 2 ] = n31;\n\t\tte[ 3 ] = n12; te[ 4 ] = n22; te[ 5 ] = n32;\n\t\tte[ 6 ] = n13; te[ 7 ] = n23; te[ 8 ] = n33;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix to the 3x3 identity matrix.\n\t *\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tidentity() {\n\n\t\tthis.set(\n\n\t\t\t1, 0, 0,\n\t\t\t0, 1, 0,\n\t\t\t0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given matrix to this instance.\n\t *\n\t * @param {Matrix3} m - The matrix to copy.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tcopy( m ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = m.elements;\n\n\t\tte[ 0 ] = me[ 0 ]; te[ 1 ] = me[ 1 ]; te[ 2 ] = me[ 2 ];\n\t\tte[ 3 ] = me[ 3 ]; te[ 4 ] = me[ 4 ]; te[ 5 ] = me[ 5 ];\n\t\tte[ 6 ] = me[ 6 ]; te[ 7 ] = me[ 7 ]; te[ 8 ] = me[ 8 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Extracts the basis of this matrix into the three axis vectors provided.\n\t *\n\t * @param {Vector3} xAxis - The basis's x axis.\n\t * @param {Vector3} yAxis - The basis's y axis.\n\t * @param {Vector3} zAxis - The basis's z axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\textractBasis( xAxis, yAxis, zAxis ) {\n\n\t\txAxis.setFromMatrix3Column( this, 0 );\n\t\tyAxis.setFromMatrix3Column( this, 1 );\n\t\tzAxis.setFromMatrix3Column( this, 2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Set this matrix to the upper 3x3 matrix of the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tsetFromMatrix4( m ) {\n\n\t\tconst me = m.elements;\n\n\t\tthis.set(\n\n\t\t\tme[ 0 ], me[ 4 ], me[ 8 ],\n\t\t\tme[ 1 ], me[ 5 ], me[ 9 ],\n\t\t\tme[ 2 ], me[ 6 ], me[ 10 ]\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Post-multiplies this matrix by the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix to multiply with.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmultiply( m ) {\n\n\t\treturn this.multiplyMatrices( this, m );\n\n\t}\n\n\t/**\n\t * Pre-multiplies this matrix by the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix to multiply with.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tpremultiply( m ) {\n\n\t\treturn this.multiplyMatrices( m, this );\n\n\t}\n\n\t/**\n\t * Multiples the given 3x3 matrices and stores the result\n\t * in this matrix.\n\t *\n\t * @param {Matrix3} a - The first matrix.\n\t * @param {Matrix3} b - The second matrix.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmultiplyMatrices( a, b ) {\n\n\t\tconst ae = a.elements;\n\t\tconst be = b.elements;\n\t\tconst te = this.elements;\n\n\t\tconst a11 = ae[ 0 ], a12 = ae[ 3 ], a13 = ae[ 6 ];\n\t\tconst a21 = ae[ 1 ], a22 = ae[ 4 ], a23 = ae[ 7 ];\n\t\tconst a31 = ae[ 2 ], a32 = ae[ 5 ], a33 = ae[ 8 ];\n\n\t\tconst b11 = be[ 0 ], b12 = be[ 3 ], b13 = be[ 6 ];\n\t\tconst b21 = be[ 1 ], b22 = be[ 4 ], b23 = be[ 7 ];\n\t\tconst b31 = be[ 2 ], b32 = be[ 5 ], b33 = be[ 8 ];\n\n\t\tte[ 0 ] = a11 * b11 + a12 * b21 + a13 * b31;\n\t\tte[ 3 ] = a11 * b12 + a12 * b22 + a13 * b32;\n\t\tte[ 6 ] = a11 * b13 + a12 * b23 + a13 * b33;\n\n\t\tte[ 1 ] = a21 * b11 + a22 * b21 + a23 * b31;\n\t\tte[ 4 ] = a21 * b12 + a22 * b22 + a23 * b32;\n\t\tte[ 7 ] = a21 * b13 + a22 * b23 + a23 * b33;\n\n\t\tte[ 2 ] = a31 * b11 + a32 * b21 + a33 * b31;\n\t\tte[ 5 ] = a31 * b12 + a32 * b22 + a33 * b32;\n\t\tte[ 8 ] = a31 * b13 + a32 * b23 + a33 * b33;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies every component of the matrix by the given scalar.\n\t *\n\t * @param {number} s - The scalar.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmultiplyScalar( s ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] *= s; te[ 3 ] *= s; te[ 6 ] *= s;\n\t\tte[ 1 ] *= s; te[ 4 ] *= s; te[ 7 ] *= s;\n\t\tte[ 2 ] *= s; te[ 5 ] *= s; te[ 8 ] *= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes and returns the determinant of this matrix.\n\t *\n\t * @return {number} The determinant.\n\t */\n\tdeterminant() {\n\n\t\tconst te = this.elements;\n\n\t\tconst a = te[ 0 ], b = te[ 1 ], c = te[ 2 ],\n\t\t\td = te[ 3 ], e = te[ 4 ], f = te[ 5 ],\n\t\t\tg = te[ 6 ], h = te[ 7 ], i = te[ 8 ];\n\n\t\treturn a * e * i - a * f * h - b * d * i + b * f * g + c * d * h - c * e * g;\n\n\t}\n\n\t/**\n\t * Inverts this matrix, using the [analytic method]{@link https://en.wikipedia.org/wiki/Invertible_matrix#Analytic_solution}.\n\t * You can not invert with a determinant of zero. If you attempt this, the method produces\n\t * a zero matrix instead.\n\t *\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tinvert() {\n\n\t\tconst te = this.elements,\n\n\t\t\tn11 = te[ 0 ], n21 = te[ 1 ], n31 = te[ 2 ],\n\t\t\tn12 = te[ 3 ], n22 = te[ 4 ], n32 = te[ 5 ],\n\t\t\tn13 = te[ 6 ], n23 = te[ 7 ], n33 = te[ 8 ],\n\n\t\t\tt11 = n33 * n22 - n32 * n23,\n\t\t\tt12 = n32 * n13 - n33 * n12,\n\t\t\tt13 = n23 * n12 - n22 * n13,\n\n\t\t\tdet = n11 * t11 + n21 * t12 + n31 * t13;\n\n\t\tif ( det === 0 ) return this.set( 0, 0, 0, 0, 0, 0, 0, 0, 0 );\n\n\t\tconst detInv = 1 / det;\n\n\t\tte[ 0 ] = t11 * detInv;\n\t\tte[ 1 ] = ( n31 * n23 - n33 * n21 ) * detInv;\n\t\tte[ 2 ] = ( n32 * n21 - n31 * n22 ) * detInv;\n\n\t\tte[ 3 ] = t12 * detInv;\n\t\tte[ 4 ] = ( n33 * n11 - n31 * n13 ) * detInv;\n\t\tte[ 5 ] = ( n31 * n12 - n32 * n11 ) * detInv;\n\n\t\tte[ 6 ] = t13 * detInv;\n\t\tte[ 7 ] = ( n21 * n13 - n23 * n11 ) * detInv;\n\t\tte[ 8 ] = ( n22 * n11 - n21 * n12 ) * detInv;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Transposes this matrix in place.\n\t *\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\ttranspose() {\n\n\t\tlet tmp;\n\t\tconst m = this.elements;\n\n\t\ttmp = m[ 1 ]; m[ 1 ] = m[ 3 ]; m[ 3 ] = tmp;\n\t\ttmp = m[ 2 ]; m[ 2 ] = m[ 6 ]; m[ 6 ] = tmp;\n\t\ttmp = m[ 5 ]; m[ 5 ] = m[ 7 ]; m[ 7 ] = tmp;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the normal matrix which is the inverse transpose of the upper\n\t * left 3x3 portion of the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} matrix4 - The 4x4 matrix.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tgetNormalMatrix( matrix4 ) {\n\n\t\treturn this.setFromMatrix4( matrix4 ).invert().transpose();\n\n\t}\n\n\t/**\n\t * Transposes this matrix into the supplied array, and returns itself unchanged.\n\t *\n\t * @param {Array} r - An array to store the transposed matrix elements.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\ttransposeIntoArray( r ) {\n\n\t\tconst m = this.elements;\n\n\t\tr[ 0 ] = m[ 0 ];\n\t\tr[ 1 ] = m[ 3 ];\n\t\tr[ 2 ] = m[ 6 ];\n\t\tr[ 3 ] = m[ 1 ];\n\t\tr[ 4 ] = m[ 4 ];\n\t\tr[ 5 ] = m[ 7 ];\n\t\tr[ 6 ] = m[ 2 ];\n\t\tr[ 7 ] = m[ 5 ];\n\t\tr[ 8 ] = m[ 8 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the UV transform matrix from offset, repeat, rotation, and center.\n\t *\n\t * @param {number} tx - Offset x.\n\t * @param {number} ty - Offset y.\n\t * @param {number} sx - Repeat x.\n\t * @param {number} sy - Repeat y.\n\t * @param {number} rotation - Rotation, in radians. Positive values rotate counterclockwise.\n\t * @param {number} cx - Center x of rotation.\n\t * @param {number} cy - Center y of rotation\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tsetUvTransform( tx, ty, sx, sy, rotation, cx, cy ) {\n\n\t\tconst c = Math.cos( rotation );\n\t\tconst s = Math.sin( rotation );\n\n\t\tthis.set(\n\t\t\tsx * c, sx * s, - sx * ( c * cx + s * cy ) + cx + tx,\n\t\t\t- sy * s, sy * c, - sy * ( - s * cx + c * cy ) + cy + ty,\n\t\t\t0, 0, 1\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scales this matrix with the given scalar values.\n\t *\n\t * @param {number} sx - The amount to scale in the X axis.\n\t * @param {number} sy - The amount to scale in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tscale( sx, sy ) {\n\n\t\tthis.premultiply( _m3.makeScale( sx, sy ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates this matrix by the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\trotate( theta ) {\n\n\t\tthis.premultiply( _m3.makeRotation( - theta ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates this matrix by the given scalar values.\n\t *\n\t * @param {number} tx - The amount to translate in the X axis.\n\t * @param {number} ty - The amount to translate in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\ttranslate( tx, ty ) {\n\n\t\tthis.premultiply( _m3.makeTranslation( tx, ty ) );\n\n\t\treturn this;\n\n\t}\n\n\t// for 2D Transforms\n\n\t/**\n\t * Sets this matrix as a 2D translation transform.\n\t *\n\t * @param {number|Vector2} x - The amount to translate in the X axis or alternatively a translation vector.\n\t * @param {number} y - The amount to translate in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmakeTranslation( x, y ) {\n\n\t\tif ( x.isVector2 ) {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, x.x,\n\t\t\t\t0, 1, x.y,\n\t\t\t\t0, 0, 1\n\n\t\t\t);\n\n\t\t} else {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, x,\n\t\t\t\t0, 1, y,\n\t\t\t\t0, 0, 1\n\n\t\t\t);\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a 2D rotational transformation.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmakeRotation( theta ) {\n\n\t\t// counterclockwise\n\n\t\tconst c = Math.cos( theta );\n\t\tconst s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\tc, - s, 0,\n\t\t\ts, c, 0,\n\t\t\t0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a 2D scale transform.\n\t *\n\t * @param {number} x - The amount to scale in the X axis.\n\t * @param {number} y - The amount to scale in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmakeScale( x, y ) {\n\n\t\tthis.set(\n\n\t\t\tx, 0, 0,\n\t\t\t0, y, 0,\n\t\t\t0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this matrix is equal with the given one.\n\t *\n\t * @param {Matrix3} matrix - The matrix to test for equality.\n\t * @return {boolean} Whether this matrix is equal with the given one.\n\t */\n\tequals( matrix ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = matrix.elements;\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tif ( te[ i ] !== me[ i ] ) return false;\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix from the given array.\n\t *\n\t * @param {Array} array - The matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.elements[ i ] = array[ i + offset ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the elements of this matrix to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The matrix elements in column-major order.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tconst te = this.elements;\n\n\t\tarray[ offset ] = te[ 0 ];\n\t\tarray[ offset + 1 ] = te[ 1 ];\n\t\tarray[ offset + 2 ] = te[ 2 ];\n\n\t\tarray[ offset + 3 ] = te[ 3 ];\n\t\tarray[ offset + 4 ] = te[ 4 ];\n\t\tarray[ offset + 5 ] = te[ 5 ];\n\n\t\tarray[ offset + 6 ] = te[ 6 ];\n\t\tarray[ offset + 7 ] = te[ 7 ];\n\t\tarray[ offset + 8 ] = te[ 8 ];\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Returns a matrix with copied values from this instance.\n\t *\n\t * @return {Matrix3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().fromArray( this.elements );\n\n\t}\n\n}\n\nconst _m3 = /*@__PURE__*/ new Matrix3();\n\nfunction arrayNeedsUint32( array ) {\n\n\t// assumes larger values usually on last\n\n\tfor ( let i = array.length - 1; i >= 0; -- i ) {\n\n\t\tif ( array[ i ] >= 65535 ) return true; // account for PRIMITIVE_RESTART_FIXED_INDEX, #24565\n\n\t}\n\n\treturn false;\n\n}\n\nconst TYPED_ARRAYS = {\n\tInt8Array: Int8Array,\n\tUint8Array: Uint8Array,\n\tUint8ClampedArray: Uint8ClampedArray,\n\tInt16Array: Int16Array,\n\tUint16Array: Uint16Array,\n\tInt32Array: Int32Array,\n\tUint32Array: Uint32Array,\n\tFloat32Array: Float32Array,\n\tFloat64Array: Float64Array\n};\n\nfunction getTypedArray( type, buffer ) {\n\n\treturn new TYPED_ARRAYS[ type ]( buffer );\n\n}\n\nfunction createElementNS( name ) {\n\n\treturn document.createElementNS( 'http://www.w3.org/1999/xhtml', name );\n\n}\n\nfunction createCanvasElement() {\n\n\tconst canvas = createElementNS( 'canvas' );\n\tcanvas.style.display = 'block';\n\treturn canvas;\n\n}\n\nconst _cache = {};\n\nfunction warnOnce( message ) {\n\n\tif ( message in _cache ) return;\n\n\t_cache[ message ] = true;\n\n\tconsole.warn( message );\n\n}\n\nfunction probeAsync( gl, sync, interval ) {\n\n\treturn new Promise( function ( resolve, reject ) {\n\n\t\tfunction probe() {\n\n\t\t\tswitch ( gl.clientWaitSync( sync, gl.SYNC_FLUSH_COMMANDS_BIT, 0 ) ) {\n\n\t\t\t\tcase gl.WAIT_FAILED:\n\t\t\t\t\treject();\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase gl.TIMEOUT_EXPIRED:\n\t\t\t\t\tsetTimeout( probe, interval );\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\n\t\t\t\t\tresolve();\n\n\t\t\t}\n\n\t\t}\n\n\t\tsetTimeout( probe, interval );\n\n\t} );\n\n}\n\nconst LINEAR_REC709_TO_XYZ = /*@__PURE__*/ new Matrix3().set(\n\t0.4123908, 0.3575843, 0.1804808,\n\t0.2126390, 0.7151687, 0.0721923,\n\t0.0193308, 0.1191948, 0.9505322\n);\n\nconst XYZ_TO_LINEAR_REC709 = /*@__PURE__*/ new Matrix3().set(\n\t3.2409699, -1.5373832, -0.4986108,\n\t-0.9692436, 1.8759675, 0.0415551,\n\t0.0556301, -0.203977, 1.0569715\n);\n\nfunction createColorManagement() {\n\n\tconst ColorManagement = {\n\n\t\tenabled: true,\n\n\t\tworkingColorSpace: LinearSRGBColorSpace,\n\n\t\t/**\n\t\t * Implementations of supported color spaces.\n\t\t *\n\t\t * Required:\n\t\t *\t- primaries: chromaticity coordinates [ rx ry gx gy bx by ]\n\t\t *\t- whitePoint: reference white [ x y ]\n\t\t *\t- transfer: transfer function (pre-defined)\n\t\t *\t- toXYZ: Matrix3 RGB to XYZ transform\n\t\t *\t- fromXYZ: Matrix3 XYZ to RGB transform\n\t\t *\t- luminanceCoefficients: RGB luminance coefficients\n\t\t *\n\t\t * Optional:\n\t\t * - outputColorSpaceConfig: { drawingBufferColorSpace: ColorSpace, toneMappingMode: 'extended' | 'standard' }\n\t\t * - workingColorSpaceConfig: { unpackColorSpace: ColorSpace }\n\t\t *\n\t\t * Reference:\n\t\t * - https://www.russellcottrell.com/photo/matrixCalculator.htm\n\t\t */\n\t\tspaces: {},\n\n\t\tconvert: function ( color, sourceColorSpace, targetColorSpace ) {\n\n\t\t\tif ( this.enabled === false || sourceColorSpace === targetColorSpace || ! sourceColorSpace || ! targetColorSpace ) {\n\n\t\t\t\treturn color;\n\n\t\t\t}\n\n\t\t\tif ( this.spaces[ sourceColorSpace ].transfer === SRGBTransfer ) {\n\n\t\t\t\tcolor.r = SRGBToLinear( color.r );\n\t\t\t\tcolor.g = SRGBToLinear( color.g );\n\t\t\t\tcolor.b = SRGBToLinear( color.b );\n\n\t\t\t}\n\n\t\t\tif ( this.spaces[ sourceColorSpace ].primaries !== this.spaces[ targetColorSpace ].primaries ) {\n\n\t\t\t\tcolor.applyMatrix3( this.spaces[ sourceColorSpace ].toXYZ );\n\t\t\t\tcolor.applyMatrix3( this.spaces[ targetColorSpace ].fromXYZ );\n\n\t\t\t}\n\n\t\t\tif ( this.spaces[ targetColorSpace ].transfer === SRGBTransfer ) {\n\n\t\t\t\tcolor.r = LinearToSRGB( color.r );\n\t\t\t\tcolor.g = LinearToSRGB( color.g );\n\t\t\t\tcolor.b = LinearToSRGB( color.b );\n\n\t\t\t}\n\n\t\t\treturn color;\n\n\t\t},\n\n\t\tworkingToColorSpace: function ( color, targetColorSpace ) {\n\n\t\t\treturn this.convert( color, this.workingColorSpace, targetColorSpace );\n\n\t\t},\n\n\t\tcolorSpaceToWorking: function ( color, sourceColorSpace ) {\n\n\t\t\treturn this.convert( color, sourceColorSpace, this.workingColorSpace );\n\n\t\t},\n\n\t\tgetPrimaries: function ( colorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].primaries;\n\n\t\t},\n\n\t\tgetTransfer: function ( colorSpace ) {\n\n\t\t\tif ( colorSpace === NoColorSpace ) return LinearTransfer;\n\n\t\t\treturn this.spaces[ colorSpace ].transfer;\n\n\t\t},\n\n\t\tgetToneMappingMode: function ( colorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].outputColorSpaceConfig.toneMappingMode || 'standard';\n\n\t\t},\n\n\t\tgetLuminanceCoefficients: function ( target, colorSpace = this.workingColorSpace ) {\n\n\t\t\treturn target.fromArray( this.spaces[ colorSpace ].luminanceCoefficients );\n\n\t\t},\n\n\t\tdefine: function ( colorSpaces ) {\n\n\t\t\tObject.assign( this.spaces, colorSpaces );\n\n\t\t},\n\n\t\t// Internal APIs\n\n\t\t_getMatrix: function ( targetMatrix, sourceColorSpace, targetColorSpace ) {\n\n\t\t\treturn targetMatrix\n\t\t\t\t.copy( this.spaces[ sourceColorSpace ].toXYZ )\n\t\t\t\t.multiply( this.spaces[ targetColorSpace ].fromXYZ );\n\n\t\t},\n\n\t\t_getDrawingBufferColorSpace: function ( colorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].outputColorSpaceConfig.drawingBufferColorSpace;\n\n\t\t},\n\n\t\t_getUnpackColorSpace: function ( colorSpace = this.workingColorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].workingColorSpaceConfig.unpackColorSpace;\n\n\t\t},\n\n\t\t// Deprecated\n\n\t\tfromWorkingColorSpace: function ( color, targetColorSpace ) {\n\n\t\t\twarnOnce( 'THREE.ColorManagement: .fromWorkingColorSpace() has been renamed to .workingToColorSpace().' ); // @deprecated, r177\n\n\t\t\treturn ColorManagement.workingToColorSpace( color, targetColorSpace );\n\n\t\t},\n\n\t\ttoWorkingColorSpace: function ( color, sourceColorSpace ) {\n\n\t\t\twarnOnce( 'THREE.ColorManagement: .toWorkingColorSpace() has been renamed to .colorSpaceToWorking().' ); // @deprecated, r177\n\n\t\t\treturn ColorManagement.colorSpaceToWorking( color, sourceColorSpace );\n\n\t\t},\n\n\t};\n\n\t/******************************************************************************\n\t * sRGB definitions\n\t */\n\n\tconst REC709_PRIMARIES = [ 0.640, 0.330, 0.300, 0.600, 0.150, 0.060 ];\n\tconst REC709_LUMINANCE_COEFFICIENTS = [ 0.2126, 0.7152, 0.0722 ];\n\tconst D65 = [ 0.3127, 0.3290 ];\n\n\tColorManagement.define( {\n\n\t\t[ LinearSRGBColorSpace ]: {\n\t\t\tprimaries: REC709_PRIMARIES,\n\t\t\twhitePoint: D65,\n\t\t\ttransfer: LinearTransfer,\n\t\t\ttoXYZ: LINEAR_REC709_TO_XYZ,\n\t\t\tfromXYZ: XYZ_TO_LINEAR_REC709,\n\t\t\tluminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n\t\t\tworkingColorSpaceConfig: { unpackColorSpace: SRGBColorSpace },\n\t\t\toutputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n\t\t},\n\n\t\t[ SRGBColorSpace ]: {\n\t\t\tprimaries: REC709_PRIMARIES,\n\t\t\twhitePoint: D65,\n\t\t\ttransfer: SRGBTransfer,\n\t\t\ttoXYZ: LINEAR_REC709_TO_XYZ,\n\t\t\tfromXYZ: XYZ_TO_LINEAR_REC709,\n\t\t\tluminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n\t\t\toutputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n\t\t},\n\n\t} );\n\n\treturn ColorManagement;\n\n}\n\nconst ColorManagement = /*@__PURE__*/ createColorManagement();\n\nfunction SRGBToLinear( c ) {\n\n\treturn ( c < 0.04045 ) ? c * 0.0773993808 : Math.pow( c * 0.9478672986 + 0.0521327014, 2.4 );\n\n}\n\nfunction LinearToSRGB( c ) {\n\n\treturn ( c < 0.0031308 ) ? c * 12.92 : 1.055 * ( Math.pow( c, 0.41666 ) ) - 0.055;\n\n}\n\nlet _canvas;\n\n/**\n * A class containing utility functions for images.\n *\n * @hideconstructor\n */\nclass ImageUtils {\n\n\t/**\n\t * Returns a data URI containing a representation of the given image.\n\t *\n\t * @param {(HTMLImageElement|HTMLCanvasElement)} image - The image object.\n\t * @param {string} [type='image/png'] - Indicates the image format.\n\t * @return {string} The data URI.\n\t */\n\tstatic getDataURL( image, type = 'image/png' ) {\n\n\t\tif ( /^data:/i.test( image.src ) ) {\n\n\t\t\treturn image.src;\n\n\t\t}\n\n\t\tif ( typeof HTMLCanvasElement === 'undefined' ) {\n\n\t\t\treturn image.src;\n\n\t\t}\n\n\t\tlet canvas;\n\n\t\tif ( image instanceof HTMLCanvasElement ) {\n\n\t\t\tcanvas = image;\n\n\t\t} else {\n\n\t\t\tif ( _canvas === undefined ) _canvas = createElementNS( 'canvas' );\n\n\t\t\t_canvas.width = image.width;\n\t\t\t_canvas.height = image.height;\n\n\t\t\tconst context = _canvas.getContext( '2d' );\n\n\t\t\tif ( image instanceof ImageData ) {\n\n\t\t\t\tcontext.putImageData( image, 0, 0 );\n\n\t\t\t} else {\n\n\t\t\t\tcontext.drawImage( image, 0, 0, image.width, image.height );\n\n\t\t\t}\n\n\t\t\tcanvas = _canvas;\n\n\t\t}\n\n\t\treturn canvas.toDataURL( type );\n\n\t}\n\n\t/**\n\t * Converts the given sRGB image data to linear color space.\n\t *\n\t * @param {(HTMLImageElement|HTMLCanvasElement|ImageBitmap|Object)} image - The image object.\n\t * @return {HTMLCanvasElement|Object} The converted image.\n\t */\n\tstatic sRGBToLinear( image ) {\n\n\t\tif ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) ||\n\t\t\t( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) ||\n\t\t\t( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) ) {\n\n\t\t\tconst canvas = createElementNS( 'canvas' );\n\n\t\t\tcanvas.width = image.width;\n\t\t\tcanvas.height = image.height;\n\n\t\t\tconst context = canvas.getContext( '2d' );\n\t\t\tcontext.drawImage( image, 0, 0, image.width, image.height );\n\n\t\t\tconst imageData = context.getImageData( 0, 0, image.width, image.height );\n\t\t\tconst data = imageData.data;\n\n\t\t\tfor ( let i = 0; i < data.length; i ++ ) {\n\n\t\t\t\tdata[ i ] = SRGBToLinear( data[ i ] / 255 ) * 255;\n\n\t\t\t}\n\n\t\t\tcontext.putImageData( imageData, 0, 0 );\n\n\t\t\treturn canvas;\n\n\t\t} else if ( image.data ) {\n\n\t\t\tconst data = image.data.slice( 0 );\n\n\t\t\tfor ( let i = 0; i < data.length; i ++ ) {\n\n\t\t\t\tif ( data instanceof Uint8Array || data instanceof Uint8ClampedArray ) {\n\n\t\t\t\t\tdata[ i ] = Math.floor( SRGBToLinear( data[ i ] / 255 ) * 255 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// assuming float\n\n\t\t\t\t\tdata[ i ] = SRGBToLinear( data[ i ] );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn {\n\t\t\t\tdata: data,\n\t\t\t\twidth: image.width,\n\t\t\t\theight: image.height\n\t\t\t};\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.ImageUtils.sRGBToLinear(): Unsupported image type. No color space conversion applied.' );\n\t\t\treturn image;\n\n\t\t}\n\n\t}\n\n}\n\nlet _sourceId = 0;\n\n/**\n * Represents the data source of a texture.\n *\n * The main purpose of this class is to decouple the data definition from the texture\n * definition so the same data can be used with multiple texture instances.\n */\nclass Source {\n\n\t/**\n\t * Constructs a new video texture.\n\t *\n\t * @param {any} [data=null] - The data definition of a texture.\n\t */\n\tconstructor( data = null ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSource = true;\n\n\t\t/**\n\t\t * The ID of the source.\n\t\t *\n\t\t * @name Source#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _sourceId ++ } );\n\n\t\t/**\n\t\t * The UUID of the source.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The data definition of a texture.\n\t\t *\n\t\t * @type {any}\n\t\t */\n\t\tthis.data = data;\n\n\t\t/**\n\t\t * This property is only relevant when {@link Source#needsUpdate} is set to `true` and\n\t\t * provides more control on how texture data should be processed. When `dataReady` is set\n\t\t * to `false`, the engine performs the memory allocation (if necessary) but does not transfer\n\t\t * the data into the GPU memory.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.dataReady = true;\n\n\t\t/**\n\t\t * This starts at `0` and counts how many times {@link Source#needsUpdate} is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.version = 0;\n\n\t}\n\n\t/**\n\t * Returns the dimensions of the source into the given target vector.\n\t *\n\t * @param {(Vector2|Vector3)} target - The target object the result is written into.\n\t * @return {(Vector2|Vector3)} The dimensions of the source.\n\t */\n\tgetSize( target ) {\n\n\t\tconst data = this.data;\n\n\t\tif ( ( typeof HTMLVideoElement !== 'undefined' ) && ( data instanceof HTMLVideoElement ) ) {\n\n\t\t\ttarget.set( data.videoWidth, data.videoHeight, 0 );\n\n\t\t} else if ( data instanceof VideoFrame ) {\n\n\t\t\ttarget.set( data.displayHeight, data.displayWidth, 0 );\n\n\t\t} else if ( data !== null ) {\n\n\t\t\ttarget.set( data.width, data.height, data.depth || 0 );\n\n\t\t} else {\n\n\t\t\ttarget.set( 0, 0, 0 );\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * When the property is set to `true`, the engine allocates the memory\n\t * for the texture (if necessary) and triggers the actual texture upload\n\t * to the GPU next time the source is used.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Serializes the source into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized source.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tif ( ! isRootObject && meta.images[ this.uuid ] !== undefined ) {\n\n\t\t\treturn meta.images[ this.uuid ];\n\n\t\t}\n\n\t\tconst output = {\n\t\t\tuuid: this.uuid,\n\t\t\turl: ''\n\t\t};\n\n\t\tconst data = this.data;\n\n\t\tif ( data !== null ) {\n\n\t\t\tlet url;\n\n\t\t\tif ( Array.isArray( data ) ) {\n\n\t\t\t\t// cube texture\n\n\t\t\t\turl = [];\n\n\t\t\t\tfor ( let i = 0, l = data.length; i < l; i ++ ) {\n\n\t\t\t\t\tif ( data[ i ].isDataTexture ) {\n\n\t\t\t\t\t\turl.push( serializeImage( data[ i ].image ) );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\turl.push( serializeImage( data[ i ] ) );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// texture\n\n\t\t\t\turl = serializeImage( data );\n\n\t\t\t}\n\n\t\t\toutput.url = url;\n\n\t\t}\n\n\t\tif ( ! isRootObject ) {\n\n\t\t\tmeta.images[ this.uuid ] = output;\n\n\t\t}\n\n\t\treturn output;\n\n\t}\n\n}\n\nfunction serializeImage( image ) {\n\n\tif ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) ||\n\t\t( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) ||\n\t\t( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) ) {\n\n\t\t// default images\n\n\t\treturn ImageUtils.getDataURL( image );\n\n\t} else {\n\n\t\tif ( image.data ) {\n\n\t\t\t// images of DataTexture\n\n\t\t\treturn {\n\t\t\t\tdata: Array.from( image.data ),\n\t\t\t\twidth: image.width,\n\t\t\t\theight: image.height,\n\t\t\t\ttype: image.data.constructor.name\n\t\t\t};\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.Texture: Unable to serialize Texture.' );\n\t\t\treturn {};\n\n\t\t}\n\n\t}\n\n}\n\nlet _textureId = 0;\n\nconst _tempVec3 = /*@__PURE__*/ new Vector3();\n\n/**\n * Base class for all textures.\n *\n * Note: After the initial use of a texture, its dimensions, format, and type\n * cannot be changed. Instead, call {@link Texture#dispose} on the texture and instantiate a new one.\n *\n * @augments EventDispatcher\n */\nclass Texture extends EventDispatcher {\n\n\t/**\n\t * Constructs a new texture.\n\t *\n\t * @param {?Object} [image=Texture.DEFAULT_IMAGE] - The image holding the texture data.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space.\n\t */\n\tconstructor( image = Texture.DEFAULT_IMAGE, mapping = Texture.DEFAULT_MAPPING, wrapS = ClampToEdgeWrapping, wrapT = ClampToEdgeWrapping, magFilter = LinearFilter, minFilter = LinearMipmapLinearFilter, format = RGBAFormat, type = UnsignedByteType, anisotropy = Texture.DEFAULT_ANISOTROPY, colorSpace = NoColorSpace ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isTexture = true;\n\n\t\t/**\n\t\t * The ID of the texture.\n\t\t *\n\t\t * @name Texture#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _textureId ++ } );\n\n\t\t/**\n\t\t * The UUID of the material.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the material.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The data definition of a texture. A reference to the data source can be\n\t\t * shared across textures. This is often useful in context of spritesheets\n\t\t * where multiple textures render the same data but with different texture\n\t\t * transformations.\n\t\t *\n\t\t * @type {Source}\n\t\t */\n\t\tthis.source = new Source( image );\n\n\t\t/**\n\t\t * An array holding user-defined mipmaps.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.mipmaps = [];\n\n\t\t/**\n\t\t * How the texture is applied to the object. The value `UVMapping`\n\t\t * is the default, where texture or uv coordinates are used to apply the map.\n\t\t *\n\t\t * @type {(UVMapping|CubeReflectionMapping|CubeRefractionMapping|EquirectangularReflectionMapping|EquirectangularRefractionMapping|CubeUVReflectionMapping)}\n\t\t * @default UVMapping\n\t\t*/\n\t\tthis.mapping = mapping;\n\n\t\t/**\n\t\t * Lets you select the uv attribute to map the texture to. `0` for `uv`,\n\t\t * `1` for `uv1`, `2` for `uv2` and `3` for `uv3`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.channel = 0;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped horizontally and corresponds to\n\t\t * *U* in UV mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapS = wrapS;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped horizontally and corresponds to\n\t\t * *V* in UV mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapT = wrapT;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default LinearFilter\n\t\t */\n\t\tthis.magFilter = magFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default LinearMipmapLinearFilter\n\t\t */\n\t\tthis.minFilter = minFilter;\n\n\t\t/**\n\t\t * The number of samples taken along the axis through the pixel that has the\n\t\t * highest density of texels. By default, this value is `1`. A higher value\n\t\t * gives a less blurry result than a basic mipmap, at the cost of more\n\t\t * texture samples being used.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.anisotropy = anisotropy;\n\n\t\t/**\n\t\t * The format of the texture.\n\t\t *\n\t\t * @type {number}\n\t\t * @default RGBAFormat\n\t\t */\n\t\tthis.format = format;\n\n\t\t/**\n\t\t * The default internal format is derived from {@link Texture#format} and {@link Texture#type} and\n\t\t * defines how the texture data is going to be stored on the GPU.\n\t\t *\n\t\t * This property allows to overwrite the default format.\n\t\t *\n\t\t * @type {?string}\n\t\t * @default null\n\t\t */\n\t\tthis.internalFormat = null;\n\n\t\t/**\n\t\t * The data type of the texture.\n\t\t *\n\t\t * @type {number}\n\t\t * @default UnsignedByteType\n\t\t */\n\t\tthis.type = type;\n\n\t\t/**\n\t\t * How much a single repetition of the texture is offset from the beginning,\n\t\t * in each direction U and V. Typical range is `0.0` to `1.0`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (0,0)\n\t\t */\n\t\tthis.offset = new Vector2( 0, 0 );\n\n\t\t/**\n\t\t * How many times the texture is repeated across the surface, in each\n\t\t * direction U and V. If repeat is set greater than `1` in either direction,\n\t\t * the corresponding wrap parameter should also be set to `RepeatWrapping`\n\t\t * or `MirroredRepeatWrapping` to achieve the desired tiling effect.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.repeat = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The point around which rotation occurs. A value of `(0.5, 0.5)` corresponds\n\t\t * to the center of the texture. Default is `(0, 0)`, the lower left.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (0,0)\n\t\t */\n\t\tthis.center = new Vector2( 0, 0 );\n\n\t\t/**\n\t\t * How much the texture is rotated around the center point, in radians.\n\t\t * Positive values are counter-clockwise.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.rotation = 0;\n\n\t\t/**\n\t\t * Whether to update the texture's uv-transformation {@link Texture#matrix}\n\t\t * from the properties {@link Texture#offset}, {@link Texture#repeat},\n\t\t * {@link Texture#rotation}, and {@link Texture#center}.\n\t\t *\n\t\t * Set this to `false` if you are specifying the uv-transform matrix directly.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.matrixAutoUpdate = true;\n\n\t\t/**\n\t\t * The uv-transformation matrix of the texture.\n\t\t *\n\t\t * @type {Matrix3}\n\t\t */\n\t\tthis.matrix = new Matrix3();\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Set this to `false` if you are creating mipmaps manually.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.generateMipmaps = true;\n\n\t\t/**\n\t\t * If set to `true`, the alpha channel, if present, is multiplied into the\n\t\t * color channels when the texture is uploaded to the GPU.\n\t\t *\n\t\t * Note that this property has no effect when using `ImageBitmap`. You need to\n\t\t * configure premultiply alpha on bitmap creation instead.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.premultiplyAlpha = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Note that this property has no effect when using `ImageBitmap`. You need to\n\t\t * configure the flip on bitmap creation instead.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.flipY = true;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t * The allowable values are `1` (byte-alignment), `2` (rows aligned to even-numbered bytes),\n\t\t * `4` (word-alignment), and `8` (rows start on double-word boundaries).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 4\n\t\t */\n\t\tthis.unpackAlignment = 4;\t// valid values: 1, 2, 4, 8 (see http://www.khronos.org/opengles/sdk/docs/man/xhtml/glPixelStorei.xml)\n\n\t\t/**\n\t\t * Textures containing color data should be annotated with `SRGBColorSpace` or `LinearSRGBColorSpace`.\n\t\t *\n\t\t * @type {string}\n\t\t * @default NoColorSpace\n\t\t */\n\t\tthis.colorSpace = colorSpace;\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the texture. It\n\t\t * should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t\t/**\n\t\t * This can be used to only update a subregion or specific rows of the texture (for example, just the\n\t\t * first 3 rows). Use the `addUpdateRange()` function to add ranges to this array.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.updateRanges = [];\n\n\t\t/**\n\t\t * This starts at `0` and counts how many times {@link Texture#needsUpdate} is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.version = 0;\n\n\t\t/**\n\t\t * A callback function, called when the texture is updated (e.g., when\n\t\t * {@link Texture#needsUpdate} has been set to true and then the texture is used).\n\t\t *\n\t\t * @type {?Function}\n\t\t * @default null\n\t\t */\n\t\tthis.onUpdate = null;\n\n\t\t/**\n\t\t * An optional back reference to the textures render target.\n\t\t *\n\t\t * @type {?(RenderTarget|WebGLRenderTarget)}\n\t\t * @default null\n\t\t */\n\t\tthis.renderTarget = null;\n\n\t\t/**\n\t\t * Indicates whether a texture belongs to a render target or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isRenderTargetTexture = false;\n\n\t\t/**\n\t\t * Indicates if a texture should be handled like a texture array.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isArrayTexture = image && image.depth && image.depth > 1 ? true : false;\n\n\t\t/**\n\t\t * Indicates whether this texture should be processed by `PMREMGenerator` or not\n\t\t * (only relevant for render target textures).\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.pmremVersion = 0;\n\n\t}\n\n\t/**\n\t * The width of the texture in pixels.\n\t */\n\tget width() {\n\n\t\treturn this.source.getSize( _tempVec3 ).x;\n\n\t}\n\n\t/**\n\t * The height of the texture in pixels.\n\t */\n\tget height() {\n\n\t\treturn this.source.getSize( _tempVec3 ).y;\n\n\t}\n\n\t/**\n\t * The depth of the texture in pixels.\n\t */\n\tget depth() {\n\n\t\treturn this.source.getSize( _tempVec3 ).z;\n\n\t}\n\n\t/**\n\t * The image object holding the texture data.\n\t *\n\t * @type {?Object}\n\t */\n\tget image() {\n\n\t\treturn this.source.data;\n\n\t}\n\n\tset image( value = null ) {\n\n\t\tthis.source.data = value;\n\n\t}\n\n\t/**\n\t * Updates the texture transformation matrix from the from the properties {@link Texture#offset},\n\t * {@link Texture#repeat}, {@link Texture#rotation}, and {@link Texture#center}.\n\t */\n\tupdateMatrix() {\n\n\t\tthis.matrix.setUvTransform( this.offset.x, this.offset.y, this.repeat.x, this.repeat.y, this.rotation, this.center.x, this.center.y );\n\n\t}\n\n\t/**\n\t * Adds a range of data in the data texture to be updated on the GPU.\n\t *\n\t * @param {number} start - Position at which to start update.\n\t * @param {number} count - The number of components to update.\n\t */\n\taddUpdateRange( start, count ) {\n\n\t\tthis.updateRanges.push( { start, count } );\n\n\t}\n\n\t/**\n\t * Clears the update ranges.\n\t */\n\tclearUpdateRanges() {\n\n\t\tthis.updateRanges.length = 0;\n\n\t}\n\n\t/**\n\t * Returns a new texture with copied values from this instance.\n\t *\n\t * @return {Texture} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given texture to this instance.\n\t *\n\t * @param {Texture} source - The texture to copy.\n\t * @return {Texture} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\n\t\tthis.source = source.source;\n\t\tthis.mipmaps = source.mipmaps.slice( 0 );\n\n\t\tthis.mapping = source.mapping;\n\t\tthis.channel = source.channel;\n\n\t\tthis.wrapS = source.wrapS;\n\t\tthis.wrapT = source.wrapT;\n\n\t\tthis.magFilter = source.magFilter;\n\t\tthis.minFilter = source.minFilter;\n\n\t\tthis.anisotropy = source.anisotropy;\n\n\t\tthis.format = source.format;\n\t\tthis.internalFormat = source.internalFormat;\n\t\tthis.type = source.type;\n\n\t\tthis.offset.copy( source.offset );\n\t\tthis.repeat.copy( source.repeat );\n\t\tthis.center.copy( source.center );\n\t\tthis.rotation = source.rotation;\n\n\t\tthis.matrixAutoUpdate = source.matrixAutoUpdate;\n\t\tthis.matrix.copy( source.matrix );\n\n\t\tthis.generateMipmaps = source.generateMipmaps;\n\t\tthis.premultiplyAlpha = source.premultiplyAlpha;\n\t\tthis.flipY = source.flipY;\n\t\tthis.unpackAlignment = source.unpackAlignment;\n\t\tthis.colorSpace = source.colorSpace;\n\n\t\tthis.renderTarget = source.renderTarget;\n\t\tthis.isRenderTargetTexture = source.isRenderTargetTexture;\n\t\tthis.isArrayTexture = source.isArrayTexture;\n\n\t\tthis.userData = JSON.parse( JSON.stringify( source.userData ) );\n\n\t\tthis.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this texture's properties based on `values`.\n\t * @param {Object} values - A container with texture parameters.\n\t */\n\tsetValues( values ) {\n\n\t\tfor ( const key in values ) {\n\n\t\t\tconst newValue = values[ key ];\n\n\t\t\tif ( newValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Texture.setValues(): parameter '${ key }' has value of undefined.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tconst currentValue = this[ key ];\n\n\t\t\tif ( currentValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Texture.setValues(): property '${ key }' does not exist.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tif ( ( currentValue && newValue ) && ( currentValue.isVector2 && newValue.isVector2 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else if ( ( currentValue && newValue ) && ( currentValue.isVector3 && newValue.isVector3 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else if ( ( currentValue && newValue ) && ( currentValue.isMatrix3 && newValue.isMatrix3 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else {\n\n\t\t\t\tthis[ key ] = newValue;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the texture into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized texture.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tif ( ! isRootObject && meta.textures[ this.uuid ] !== undefined ) {\n\n\t\t\treturn meta.textures[ this.uuid ];\n\n\t\t}\n\n\t\tconst output = {\n\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Texture',\n\t\t\t\tgenerator: 'Texture.toJSON'\n\t\t\t},\n\n\t\t\tuuid: this.uuid,\n\t\t\tname: this.name,\n\n\t\t\timage: this.source.toJSON( meta ).uuid,\n\n\t\t\tmapping: this.mapping,\n\t\t\tchannel: this.channel,\n\n\t\t\trepeat: [ this.repeat.x, this.repeat.y ],\n\t\t\toffset: [ this.offset.x, this.offset.y ],\n\t\t\tcenter: [ this.center.x, this.center.y ],\n\t\t\trotation: this.rotation,\n\n\t\t\twrap: [ this.wrapS, this.wrapT ],\n\n\t\t\tformat: this.format,\n\t\t\tinternalFormat: this.internalFormat,\n\t\t\ttype: this.type,\n\t\t\tcolorSpace: this.colorSpace,\n\n\t\t\tminFilter: this.minFilter,\n\t\t\tmagFilter: this.magFilter,\n\t\t\tanisotropy: this.anisotropy,\n\n\t\t\tflipY: this.flipY,\n\n\t\t\tgenerateMipmaps: this.generateMipmaps,\n\t\t\tpremultiplyAlpha: this.premultiplyAlpha,\n\t\t\tunpackAlignment: this.unpackAlignment\n\n\t\t};\n\n\t\tif ( Object.keys( this.userData ).length > 0 ) output.userData = this.userData;\n\n\t\tif ( ! isRootObject ) {\n\n\t\t\tmeta.textures[ this.uuid ] = output;\n\n\t\t}\n\n\t\treturn output;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires Texture#dispose\n\t */\n\tdispose() {\n\n\t\t/**\n\t\t * Fires when the texture has been disposed of.\n\t\t *\n\t\t * @event Texture#dispose\n\t\t * @type {Object}\n\t\t */\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n\t/**\n\t * Transforms the given uv vector with the textures uv transformation matrix.\n\t *\n\t * @param {Vector2} uv - The uv vector.\n\t * @return {Vector2} The transformed uv vector.\n\t */\n\ttransformUv( uv ) {\n\n\t\tif ( this.mapping !== UVMapping ) return uv;\n\n\t\tuv.applyMatrix3( this.matrix );\n\n\t\tif ( uv.x < 0 || uv.x > 1 ) {\n\n\t\t\tswitch ( this.wrapS ) {\n\n\t\t\t\tcase RepeatWrapping:\n\n\t\t\t\t\tuv.x = uv.x - Math.floor( uv.x );\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase ClampToEdgeWrapping:\n\n\t\t\t\t\tuv.x = uv.x < 0 ? 0 : 1;\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase MirroredRepeatWrapping:\n\n\t\t\t\t\tif ( Math.abs( Math.floor( uv.x ) % 2 ) === 1 ) {\n\n\t\t\t\t\t\tuv.x = Math.ceil( uv.x ) - uv.x;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tuv.x = uv.x - Math.floor( uv.x );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( uv.y < 0 || uv.y > 1 ) {\n\n\t\t\tswitch ( this.wrapT ) {\n\n\t\t\t\tcase RepeatWrapping:\n\n\t\t\t\t\tuv.y = uv.y - Math.floor( uv.y );\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase ClampToEdgeWrapping:\n\n\t\t\t\t\tuv.y = uv.y < 0 ? 0 : 1;\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase MirroredRepeatWrapping:\n\n\t\t\t\t\tif ( Math.abs( Math.floor( uv.y ) % 2 ) === 1 ) {\n\n\t\t\t\t\t\tuv.y = Math.ceil( uv.y ) - uv.y;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tuv.y = uv.y - Math.floor( uv.y );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.flipY ) {\n\n\t\t\tuv.y = 1 - uv.y;\n\n\t\t}\n\n\t\treturn uv;\n\n\t}\n\n\t/**\n\t * Setting this property to `true` indicates the engine the texture\n\t * must be updated in the next render. This triggers a texture upload\n\t * to the GPU and ensures correct texture parameter configuration.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) {\n\n\t\t\tthis.version ++;\n\t\t\tthis.source.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Setting this property to `true` indicates the engine the PMREM\n\t * must be regenerated.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsPMREMUpdate( value ) {\n\n\t\tif ( value === true ) {\n\n\t\t\tthis.pmremVersion ++;\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * The default image for all textures.\n *\n * @static\n * @type {?Image}\n * @default null\n */\nTexture.DEFAULT_IMAGE = null;\n\n/**\n * The default mapping for all textures.\n *\n * @static\n * @type {number}\n * @default UVMapping\n */\nTexture.DEFAULT_MAPPING = UVMapping;\n\n/**\n * The default anisotropy value for all textures.\n *\n * @static\n * @type {number}\n * @default 1\n */\nTexture.DEFAULT_ANISOTROPY = 1;\n\n/**\n * Class representing a 4D vector. A 4D vector is an ordered quadruplet of numbers\n * (labeled x, y, z and w), which can be used to represent a number of things, such as:\n *\n * - A point in 4D space.\n * - A direction and length in 4D space. In three.js the length will\n * always be the Euclidean distance(straight-line distance) from `(0, 0, 0, 0)` to `(x, y, z, w)`\n * and the direction is also measured from `(0, 0, 0, 0)` towards `(x, y, z, w)`.\n * - Any arbitrary ordered quadruplet of numbers.\n *\n * There are other things a 4D vector can be used to represent, however these\n * are the most common uses in *three.js*.\n *\n * Iterating through a vector instance will yield its components `(x, y, z, w)` in\n * the corresponding order.\n * ```js\n * const a = new THREE.Vector4( 0, 1, 0, 0 );\n *\n * //no arguments; will be initialised to (0, 0, 0, 1)\n * const b = new THREE.Vector4( );\n *\n * const d = a.dot( b );\n * ```\n */\nclass Vector4 {\n\n\t/**\n\t * Constructs a new 4D vector.\n\t *\n\t * @param {number} [x=0] - The x value of this vector.\n\t * @param {number} [y=0] - The y value of this vector.\n\t * @param {number} [z=0] - The z value of this vector.\n\t * @param {number} [w=1] - The w value of this vector.\n\t */\n\tconstructor( x = 0, y = 0, z = 0, w = 1 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tVector4.prototype.isVector4 = true;\n\n\t\t/**\n\t\t * The x value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.x = x;\n\n\t\t/**\n\t\t * The y value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.y = y;\n\n\t\t/**\n\t\t * The z value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.z = z;\n\n\t\t/**\n\t\t * The w value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.w = w;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector4#z}.\n\t *\n\t * @type {number}\n\t */\n\tget width() {\n\n\t\treturn this.z;\n\n\t}\n\n\tset width( value ) {\n\n\t\tthis.z = value;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector4#w}.\n\t *\n\t * @type {number}\n\t */\n\tget height() {\n\n\t\treturn this.w;\n\n\t}\n\n\tset height( value ) {\n\n\t\tthis.w = value;\n\n\t}\n\n\t/**\n\t * Sets the vector components.\n\t *\n\t * @param {number} x - The value of the x component.\n\t * @param {number} y - The value of the y component.\n\t * @param {number} z - The value of the z component.\n\t * @param {number} w - The value of the w component.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tset( x, y, z, w ) {\n\n\t\tthis.x = x;\n\t\tthis.y = y;\n\t\tthis.z = z;\n\t\tthis.w = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the same value.\n\t *\n\t * @param {number} scalar - The value to set for all vector components.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.x = scalar;\n\t\tthis.y = scalar;\n\t\tthis.z = scalar;\n\t\tthis.w = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's x component to the given value\n\t *\n\t * @param {number} x - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetX( x ) {\n\n\t\tthis.x = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's y component to the given value\n\t *\n\t * @param {number} y - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetY( y ) {\n\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's z component to the given value\n\t *\n\t * @param {number} z - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetZ( z ) {\n\n\t\tthis.z = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's w component to the given value\n\t *\n\t * @param {number} w - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetW( w ) {\n\n\t\tthis.w = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Allows to set a vector component with an index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y,\n\t * `2` equals to z, `3` equals to w.\n\t * @param {number} value - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetComponent( index, value ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: this.x = value; break;\n\t\t\tcase 1: this.y = value; break;\n\t\t\tcase 2: this.z = value; break;\n\t\t\tcase 3: this.w = value; break;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the value of the vector component which matches the given index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y,\n\t * `2` equals to z, `3` equals to w.\n\t * @return {number} A vector component value.\n\t */\n\tgetComponent( index ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: return this.x;\n\t\t\tcase 1: return this.y;\n\t\t\tcase 2: return this.z;\n\t\t\tcase 3: return this.w;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new vector with copied values from this instance.\n\t *\n\t * @return {Vector4} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.x, this.y, this.z, this.w );\n\n\t}\n\n\t/**\n\t * Copies the values of the given vector to this instance.\n\t *\n\t * @param {Vector3|Vector4} v - The vector to copy.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tcopy( v ) {\n\n\t\tthis.x = v.x;\n\t\tthis.y = v.y;\n\t\tthis.z = v.z;\n\t\tthis.w = ( v.w !== undefined ) ? v.w : 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector to this instance.\n\t *\n\t * @param {Vector4} v - The vector to add.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tadd( v ) {\n\n\t\tthis.x += v.x;\n\t\tthis.y += v.y;\n\t\tthis.z += v.z;\n\t\tthis.w += v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to all components of this instance.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.x += s;\n\t\tthis.y += s;\n\t\tthis.z += s;\n\t\tthis.w += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector4} a - The first vector.\n\t * @param {Vector4} b - The second vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\taddVectors( a, b ) {\n\n\t\tthis.x = a.x + b.x;\n\t\tthis.y = a.y + b.y;\n\t\tthis.z = a.z + b.z;\n\t\tthis.w = a.w + b.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector scaled by the given factor to this instance.\n\t *\n\t * @param {Vector4} v - The vector.\n\t * @param {number} s - The factor that scales `v`.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\taddScaledVector( v, s ) {\n\n\t\tthis.x += v.x * s;\n\t\tthis.y += v.y * s;\n\t\tthis.z += v.z * s;\n\t\tthis.w += v.w * s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vector from this instance.\n\t *\n\t * @param {Vector4} v - The vector to subtract.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsub( v ) {\n\n\t\tthis.x -= v.x;\n\t\tthis.y -= v.y;\n\t\tthis.z -= v.z;\n\t\tthis.w -= v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given scalar value from all components of this instance.\n\t *\n\t * @param {number} s - The scalar to subtract.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsubScalar( s ) {\n\n\t\tthis.x -= s;\n\t\tthis.y -= s;\n\t\tthis.z -= s;\n\t\tthis.w -= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector4} a - The first vector.\n\t * @param {Vector4} b - The second vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsubVectors( a, b ) {\n\n\t\tthis.x = a.x - b.x;\n\t\tthis.y = a.y - b.y;\n\t\tthis.z = a.z - b.z;\n\t\tthis.w = a.w - b.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vector with this instance.\n\t *\n\t * @param {Vector4} v - The vector to multiply.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmultiply( v ) {\n\n\t\tthis.x *= v.x;\n\t\tthis.y *= v.y;\n\t\tthis.z *= v.z;\n\t\tthis.w *= v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with all components of this instance.\n\t *\n\t * @param {number} scalar - The scalar to multiply.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmultiplyScalar( scalar ) {\n\n\t\tthis.x *= scalar;\n\t\tthis.y *= scalar;\n\t\tthis.z *= scalar;\n\t\tthis.w *= scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies this vector with the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tconst x = this.x, y = this.y, z = this.z, w = this.w;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z + e[ 12 ] * w;\n\t\tthis.y = e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z + e[ 13 ] * w;\n\t\tthis.z = e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z + e[ 14 ] * w;\n\t\tthis.w = e[ 3 ] * x + e[ 7 ] * y + e[ 11 ] * z + e[ 15 ] * w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this instance by the given vector.\n\t *\n\t * @param {Vector4} v - The vector to divide.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tdivide( v ) {\n\n\t\tthis.x /= v.x;\n\t\tthis.y /= v.y;\n\t\tthis.z /= v.z;\n\t\tthis.w /= v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this vector by the given scalar.\n\t *\n\t * @param {number} scalar - The scalar to divide.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tdivideScalar( scalar ) {\n\n\t\treturn this.multiplyScalar( 1 / scalar );\n\n\t}\n\n\t/**\n\t * Sets the x, y and z components of this\n\t * vector to the quaternion's axis and w to the angle.\n\t *\n\t * @param {Quaternion} q - The Quaternion to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetAxisAngleFromQuaternion( q ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/quaternionToAngle/index.htm\n\n\t\t// q is assumed to be normalized\n\n\t\tthis.w = 2 * Math.acos( q.w );\n\n\t\tconst s = Math.sqrt( 1 - q.w * q.w );\n\n\t\tif ( s < 0.0001 ) {\n\n\t\t\tthis.x = 1;\n\t\t\tthis.y = 0;\n\t\t\tthis.z = 0;\n\n\t\t} else {\n\n\t\t\tthis.x = q.x / s;\n\t\t\tthis.y = q.y / s;\n\t\t\tthis.z = q.z / s;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y and z components of this\n\t * vector to the axis of rotation and w to the angle.\n\t *\n\t * @param {Matrix4} m - A 4x4 matrix of which the upper left 3x3 matrix is a pure rotation matrix.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetAxisAngleFromRotationMatrix( m ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/matrixToAngle/index.htm\n\n\t\t// assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled)\n\n\t\tlet angle, x, y, z; // variables for result\n\t\tconst epsilon = 0.01,\t\t// margin to allow for rounding errors\n\t\t\tepsilon2 = 0.1,\t\t// margin to distinguish between 0 and 180 degrees\n\n\t\t\tte = m.elements,\n\n\t\t\tm11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ],\n\t\t\tm21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ],\n\t\t\tm31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ];\n\n\t\tif ( ( Math.abs( m12 - m21 ) < epsilon ) &&\n\t\t ( Math.abs( m13 - m31 ) < epsilon ) &&\n\t\t ( Math.abs( m23 - m32 ) < epsilon ) ) {\n\n\t\t\t// singularity found\n\t\t\t// first check for identity matrix which must have +1 for all terms\n\t\t\t// in leading diagonal and zero in other terms\n\n\t\t\tif ( ( Math.abs( m12 + m21 ) < epsilon2 ) &&\n\t\t\t ( Math.abs( m13 + m31 ) < epsilon2 ) &&\n\t\t\t ( Math.abs( m23 + m32 ) < epsilon2 ) &&\n\t\t\t ( Math.abs( m11 + m22 + m33 - 3 ) < epsilon2 ) ) {\n\n\t\t\t\t// this singularity is identity matrix so angle = 0\n\n\t\t\t\tthis.set( 1, 0, 0, 0 );\n\n\t\t\t\treturn this; // zero angle, arbitrary axis\n\n\t\t\t}\n\n\t\t\t// otherwise this singularity is angle = 180\n\n\t\t\tangle = Math.PI;\n\n\t\t\tconst xx = ( m11 + 1 ) / 2;\n\t\t\tconst yy = ( m22 + 1 ) / 2;\n\t\t\tconst zz = ( m33 + 1 ) / 2;\n\t\t\tconst xy = ( m12 + m21 ) / 4;\n\t\t\tconst xz = ( m13 + m31 ) / 4;\n\t\t\tconst yz = ( m23 + m32 ) / 4;\n\n\t\t\tif ( ( xx > yy ) && ( xx > zz ) ) {\n\n\t\t\t\t// m11 is the largest diagonal term\n\n\t\t\t\tif ( xx < epsilon ) {\n\n\t\t\t\t\tx = 0;\n\t\t\t\t\ty = 0.707106781;\n\t\t\t\t\tz = 0.707106781;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tx = Math.sqrt( xx );\n\t\t\t\t\ty = xy / x;\n\t\t\t\t\tz = xz / x;\n\n\t\t\t\t}\n\n\t\t\t} else if ( yy > zz ) {\n\n\t\t\t\t// m22 is the largest diagonal term\n\n\t\t\t\tif ( yy < epsilon ) {\n\n\t\t\t\t\tx = 0.707106781;\n\t\t\t\t\ty = 0;\n\t\t\t\t\tz = 0.707106781;\n\n\t\t\t\t} else {\n\n\t\t\t\t\ty = Math.sqrt( yy );\n\t\t\t\t\tx = xy / y;\n\t\t\t\t\tz = yz / y;\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// m33 is the largest diagonal term so base result on this\n\n\t\t\t\tif ( zz < epsilon ) {\n\n\t\t\t\t\tx = 0.707106781;\n\t\t\t\t\ty = 0.707106781;\n\t\t\t\t\tz = 0;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tz = Math.sqrt( zz );\n\t\t\t\t\tx = xz / z;\n\t\t\t\t\ty = yz / z;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.set( x, y, z, angle );\n\n\t\t\treturn this; // return 180 deg rotation\n\n\t\t}\n\n\t\t// as we have reached here there are no singularities so we can handle normally\n\n\t\tlet s = Math.sqrt( ( m32 - m23 ) * ( m32 - m23 ) +\n\t\t\t( m13 - m31 ) * ( m13 - m31 ) +\n\t\t\t( m21 - m12 ) * ( m21 - m12 ) ); // used to normalize\n\n\t\tif ( Math.abs( s ) < 0.001 ) s = 1;\n\n\t\t// prevent divide by zero, should not happen if matrix is orthogonal and should be\n\t\t// caught by singularity test above, but I've left it in just in case\n\n\t\tthis.x = ( m32 - m23 ) / s;\n\t\tthis.y = ( m13 - m31 ) / s;\n\t\tthis.z = ( m21 - m12 ) / s;\n\t\tthis.w = Math.acos( ( m11 + m22 + m33 - 1 ) / 2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the position elements of the\n\t * given transformation matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetFromMatrixPosition( m ) {\n\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 12 ];\n\t\tthis.y = e[ 13 ];\n\t\tthis.z = e[ 14 ];\n\t\tthis.w = e[ 15 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w value is greater than the given vector's x, y, z or w\n\t * value, replace that value with the corresponding min value.\n\t *\n\t * @param {Vector4} v - The vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmin( v ) {\n\n\t\tthis.x = Math.min( this.x, v.x );\n\t\tthis.y = Math.min( this.y, v.y );\n\t\tthis.z = Math.min( this.z, v.z );\n\t\tthis.w = Math.min( this.w, v.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w value is less than the given vector's x, y, z or w\n\t * value, replace that value with the corresponding max value.\n\t *\n\t * @param {Vector4} v - The vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmax( v ) {\n\n\t\tthis.x = Math.max( this.x, v.x );\n\t\tthis.y = Math.max( this.y, v.y );\n\t\tthis.z = Math.max( this.z, v.z );\n\t\tthis.w = Math.max( this.w, v.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w value is greater than the max vector's x, y, z or w\n\t * value, it is replaced by the corresponding value.\n\t * If this vector's x, y, z or w value is less than the min vector's x, y, z or w value,\n\t * it is replaced by the corresponding value.\n\t *\n\t * @param {Vector4} min - The minimum x, y and z values.\n\t * @param {Vector4} max - The maximum x, y and z values in the desired range.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tclamp( min, max ) {\n\n\t\t// assumes min < max, componentwise\n\n\t\tthis.x = clamp( this.x, min.x, max.x );\n\t\tthis.y = clamp( this.y, min.y, max.y );\n\t\tthis.z = clamp( this.z, min.z, max.z );\n\t\tthis.w = clamp( this.w, min.w, max.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w values are greater than the max value, they are\n\t * replaced by the max value.\n\t * If this vector's x, y, z or w values are less than the min value, they are\n\t * replaced by the min value.\n\t *\n\t * @param {number} minVal - The minimum value the components will be clamped to.\n\t * @param {number} maxVal - The maximum value the components will be clamped to.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tclampScalar( minVal, maxVal ) {\n\n\t\tthis.x = clamp( this.x, minVal, maxVal );\n\t\tthis.y = clamp( this.y, minVal, maxVal );\n\t\tthis.z = clamp( this.z, minVal, maxVal );\n\t\tthis.w = clamp( this.w, minVal, maxVal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's length is greater than the max value, it is replaced by\n\t * the max value.\n\t * If this vector's length is less than the min value, it is replaced by the\n\t * min value.\n\t *\n\t * @param {number} min - The minimum value the vector length will be clamped to.\n\t * @param {number} max - The maximum value the vector length will be clamped to.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tclampLength( min, max ) {\n\n\t\tconst length = this.length();\n\n\t\treturn this.divideScalar( length || 1 ).multiplyScalar( clamp( length, min, max ) );\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded down to the nearest integer value.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tfloor() {\n\n\t\tthis.x = Math.floor( this.x );\n\t\tthis.y = Math.floor( this.y );\n\t\tthis.z = Math.floor( this.z );\n\t\tthis.w = Math.floor( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded up to the nearest integer value.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tceil() {\n\n\t\tthis.x = Math.ceil( this.x );\n\t\tthis.y = Math.ceil( this.y );\n\t\tthis.z = Math.ceil( this.z );\n\t\tthis.w = Math.ceil( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded to the nearest integer value\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tround() {\n\n\t\tthis.x = Math.round( this.x );\n\t\tthis.y = Math.round( this.y );\n\t\tthis.z = Math.round( this.z );\n\t\tthis.w = Math.round( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded towards zero (up if negative,\n\t * down if positive) to an integer value.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\troundToZero() {\n\n\t\tthis.x = Math.trunc( this.x );\n\t\tthis.y = Math.trunc( this.y );\n\t\tthis.z = Math.trunc( this.z );\n\t\tthis.w = Math.trunc( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this vector - i.e. sets x = -x, y = -y, z = -z, w = -w.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tnegate() {\n\n\t\tthis.x = - this.x;\n\t\tthis.y = - this.y;\n\t\tthis.z = - this.z;\n\t\tthis.w = - this.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of the given vector with this instance.\n\t *\n\t * @param {Vector4} v - The vector to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this.x * v.x + this.y * v.y + this.z * v.z + this.w * v.w;\n\n\t}\n\n\t/**\n\t * Computes the square of the Euclidean length (straight-line length) from\n\t * (0, 0, 0, 0) to (x, y, z, w). If you are comparing the lengths of vectors, you should\n\t * compare the length squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @return {number} The square length of this vector.\n\t */\n\tlengthSq() {\n\n\t\treturn this.x * this.x + this.y * this.y + this.z * this.z + this.w * this.w;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) from (0, 0, 0, 0) to (x, y, z, w).\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this.x * this.x + this.y * this.y + this.z * this.z + this.w * this.w );\n\n\t}\n\n\t/**\n\t * Computes the Manhattan length of this vector.\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tmanhattanLength() {\n\n\t\treturn Math.abs( this.x ) + Math.abs( this.y ) + Math.abs( this.z ) + Math.abs( this.w );\n\n\t}\n\n\t/**\n\t * Converts this vector to a unit vector - that is, sets it equal to a vector\n\t * with the same direction as this one, but with a vector length of `1`.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tnormalize() {\n\n\t\treturn this.divideScalar( this.length() || 1 );\n\n\t}\n\n\t/**\n\t * Sets this vector to a vector with the same direction as this one, but\n\t * with the specified length.\n\t *\n\t * @param {number} length - The new length of this vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetLength( length ) {\n\n\t\treturn this.normalize().multiplyScalar( length );\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vector and this instance, where\n\t * alpha is the percent distance along the line - alpha = 0 will be this\n\t * vector, and alpha = 1 will be the given one.\n\t *\n\t * @param {Vector4} v - The vector to interpolate towards.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tlerp( v, alpha ) {\n\n\t\tthis.x += ( v.x - this.x ) * alpha;\n\t\tthis.y += ( v.y - this.y ) * alpha;\n\t\tthis.z += ( v.z - this.z ) * alpha;\n\t\tthis.w += ( v.w - this.w ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vectors, where alpha is the percent\n\t * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n\t * be the second one. The result is stored in this instance.\n\t *\n\t * @param {Vector4} v1 - The first vector.\n\t * @param {Vector4} v2 - The second vector.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tlerpVectors( v1, v2, alpha ) {\n\n\t\tthis.x = v1.x + ( v2.x - v1.x ) * alpha;\n\t\tthis.y = v1.y + ( v2.y - v1.y ) * alpha;\n\t\tthis.z = v1.z + ( v2.z - v1.z ) * alpha;\n\t\tthis.w = v1.w + ( v2.w - v1.w ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this vector is equal with the given one.\n\t *\n\t * @param {Vector4} v - The vector to test for equality.\n\t * @return {boolean} Whether this vector is equal with the given one.\n\t */\n\tequals( v ) {\n\n\t\treturn ( ( v.x === this.x ) && ( v.y === this.y ) && ( v.z === this.z ) && ( v.w === this.w ) );\n\n\t}\n\n\t/**\n\t * Sets this vector's x value to be `array[ offset ]`, y value to be `array[ offset + 1 ]`,\n\t * z value to be `array[ offset + 2 ]`, w value to be `array[ offset + 3 ]`.\n\t *\n\t * @param {Array} array - An array holding the vector component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.x = array[ offset ];\n\t\tthis.y = array[ offset + 1 ];\n\t\tthis.z = array[ offset + 2 ];\n\t\tthis.w = array[ offset + 3 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this vector to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the vector components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The vector components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.x;\n\t\tarray[ offset + 1 ] = this.y;\n\t\tarray[ offset + 2 ] = this.z;\n\t\tarray[ offset + 3 ] = this.w;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this vector from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.x = attribute.getX( index );\n\t\tthis.y = attribute.getY( index );\n\t\tthis.z = attribute.getZ( index );\n\t\tthis.w = attribute.getW( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets each component of this vector to a pseudo-random value between `0` and\n\t * `1`, excluding `1`.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\trandom() {\n\n\t\tthis.x = Math.random();\n\t\tthis.y = Math.random();\n\t\tthis.z = Math.random();\n\t\tthis.w = Math.random();\n\n\t\treturn this;\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.x;\n\t\tyield this.y;\n\t\tyield this.z;\n\t\tyield this.w;\n\n\t}\n\n}\n\n/**\n * A render target is a buffer where the video card draws pixels for a scene\n * that is being rendered in the background. It is used in different effects,\n * such as applying postprocessing to a rendered image before displaying it\n * on the screen.\n *\n * @augments EventDispatcher\n */\nclass RenderTarget extends EventDispatcher {\n\n\t/**\n\t * Render target options.\n\t *\n\t * @typedef {Object} RenderTarget~Options\n\t * @property {boolean} [generateMipmaps=false] - Whether to generate mipmaps or not.\n\t * @property {number} [magFilter=LinearFilter] - The mag filter.\n\t * @property {number} [minFilter=LinearFilter] - The min filter.\n\t * @property {number} [format=RGBAFormat] - The texture format.\n\t * @property {number} [type=UnsignedByteType] - The texture type.\n\t * @property {?string} [internalFormat=null] - The texture's internal format.\n\t * @property {number} [wrapS=ClampToEdgeWrapping] - The texture's uv wrapping mode.\n\t * @property {number} [wrapT=ClampToEdgeWrapping] - The texture's uv wrapping mode.\n\t * @property {number} [anisotropy=1] - The texture's anisotropy value.\n\t * @property {string} [colorSpace=NoColorSpace] - The texture's color space.\n\t * @property {boolean} [depthBuffer=true] - Whether to allocate a depth buffer or not.\n\t * @property {boolean} [stencilBuffer=false] - Whether to allocate a stencil buffer or not.\n\t * @property {boolean} [resolveDepthBuffer=true] - Whether to resolve the depth buffer or not.\n\t * @property {boolean} [resolveStencilBuffer=true] - Whether to resolve the stencil buffer or not.\n\t * @property {?Texture} [depthTexture=null] - Reference to a depth texture.\n\t * @property {number} [samples=0] - The MSAA samples count.\n\t * @property {number} [count=1] - Defines the number of color attachments . Must be at least `1`.\n\t * @property {number} [depth=1] - The texture depth.\n\t * @property {boolean} [multiview=false] - Whether this target is used for multiview rendering.\n\t */\n\n\t/**\n\t * Constructs a new render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, options = {} ) {\n\n\t\tsuper();\n\n\t\toptions = Object.assign( {\n\t\t\tgenerateMipmaps: false,\n\t\t\tinternalFormat: null,\n\t\t\tminFilter: LinearFilter,\n\t\t\tdepthBuffer: true,\n\t\t\tstencilBuffer: false,\n\t\t\tresolveDepthBuffer: true,\n\t\t\tresolveStencilBuffer: true,\n\t\t\tdepthTexture: null,\n\t\t\tsamples: 0,\n\t\t\tcount: 1,\n\t\t\tdepth: 1,\n\t\t\tmultiview: false\n\t\t}, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRenderTarget = true;\n\n\t\t/**\n\t\t * The width of the render target.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.width = width;\n\n\t\t/**\n\t\t * The height of the render target.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.height = height;\n\n\t\t/**\n\t\t * The depth of the render target.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.depth = options.depth;\n\n\t\t/**\n\t\t * A rectangular area inside the render target's viewport. Fragments that are\n\t\t * outside the area will be discarded.\n\t\t *\n\t\t * @type {Vector4}\n\t\t * @default (0,0,width,height)\n\t\t */\n\t\tthis.scissor = new Vector4( 0, 0, width, height );\n\n\t\t/**\n\t\t * Indicates whether the scissor test should be enabled when rendering into\n\t\t * this render target or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.scissorTest = false;\n\n\t\t/**\n\t\t * A rectangular area representing the render target's viewport.\n\t\t *\n\t\t * @type {Vector4}\n\t\t * @default (0,0,width,height)\n\t\t */\n\t\tthis.viewport = new Vector4( 0, 0, width, height );\n\n\t\tconst image = { width: width, height: height, depth: options.depth };\n\n\t\tconst texture = new Texture( image );\n\n\t\t/**\n\t\t * An array of textures. Each color attachment is represented as a separate texture.\n\t\t * Has at least a single entry for the default color attachment.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.textures = [];\n\n\t\tconst count = options.count;\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.textures[ i ] = texture.clone();\n\t\t\tthis.textures[ i ].isRenderTargetTexture = true;\n\t\t\tthis.textures[ i ].renderTarget = this;\n\n\t\t}\n\n\t\tthis._setTextureOptions( options );\n\n\t\t/**\n\t\t * Whether to allocate a depth buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.depthBuffer = options.depthBuffer;\n\n\t\t/**\n\t\t * Whether to allocate a stencil buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.stencilBuffer = options.stencilBuffer;\n\n\t\t/**\n\t\t * Whether to resolve the depth buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.resolveDepthBuffer = options.resolveDepthBuffer;\n\n\t\t/**\n\t\t * Whether to resolve the stencil buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.resolveStencilBuffer = options.resolveStencilBuffer;\n\n\t\tthis._depthTexture = null;\n\t\tthis.depthTexture = options.depthTexture;\n\n\t\t/**\n\t\t * The number of MSAA samples.\n\t\t *\n\t\t * A value of `0` disables MSAA.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.samples = options.samples;\n\n\t\t/**\n\t\t * Whether to this target is used in multiview rendering.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.multiview = options.multiview;\n\n\t}\n\n\t_setTextureOptions( options = {} ) {\n\n\t\tconst values = {\n\t\t\tminFilter: LinearFilter,\n\t\t\tgenerateMipmaps: false,\n\t\t\tflipY: false,\n\t\t\tinternalFormat: null\n\t\t};\n\n\t\tif ( options.mapping !== undefined ) values.mapping = options.mapping;\n\t\tif ( options.wrapS !== undefined ) values.wrapS = options.wrapS;\n\t\tif ( options.wrapT !== undefined ) values.wrapT = options.wrapT;\n\t\tif ( options.wrapR !== undefined ) values.wrapR = options.wrapR;\n\t\tif ( options.magFilter !== undefined ) values.magFilter = options.magFilter;\n\t\tif ( options.minFilter !== undefined ) values.minFilter = options.minFilter;\n\t\tif ( options.format !== undefined ) values.format = options.format;\n\t\tif ( options.type !== undefined ) values.type = options.type;\n\t\tif ( options.anisotropy !== undefined ) values.anisotropy = options.anisotropy;\n\t\tif ( options.colorSpace !== undefined ) values.colorSpace = options.colorSpace;\n\t\tif ( options.flipY !== undefined ) values.flipY = options.flipY;\n\t\tif ( options.generateMipmaps !== undefined ) values.generateMipmaps = options.generateMipmaps;\n\t\tif ( options.internalFormat !== undefined ) values.internalFormat = options.internalFormat;\n\n\t\tfor ( let i = 0; i < this.textures.length; i ++ ) {\n\n\t\t\tconst texture = this.textures[ i ];\n\t\t\ttexture.setValues( values );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * The texture representing the default color attachment.\n\t *\n\t * @type {Texture}\n\t */\n\tget texture() {\n\n\t\treturn this.textures[ 0 ];\n\n\t}\n\n\tset texture( value ) {\n\n\t\tthis.textures[ 0 ] = value;\n\n\t}\n\n\tset depthTexture( current ) {\n\n\t\tif ( this._depthTexture !== null ) this._depthTexture.renderTarget = null;\n\t\tif ( current !== null ) current.renderTarget = this;\n\n\t\tthis._depthTexture = current;\n\n\t}\n\n\t/**\n\t * Instead of saving the depth in a renderbuffer, a texture\n\t * can be used instead which is useful for further processing\n\t * e.g. in context of post-processing.\n\t *\n\t * @type {?DepthTexture}\n\t * @default null\n\t */\n\tget depthTexture() {\n\n\t\treturn this._depthTexture;\n\n\t}\n\n\t/**\n\t * Sets the size of this render target.\n\t *\n\t * @param {number} width - The width.\n\t * @param {number} height - The height.\n\t * @param {number} [depth=1] - The depth.\n\t */\n\tsetSize( width, height, depth = 1 ) {\n\n\t\tif ( this.width !== width || this.height !== height || this.depth !== depth ) {\n\n\t\t\tthis.width = width;\n\t\t\tthis.height = height;\n\t\t\tthis.depth = depth;\n\n\t\t\tfor ( let i = 0, il = this.textures.length; i < il; i ++ ) {\n\n\t\t\t\tthis.textures[ i ].image.width = width;\n\t\t\t\tthis.textures[ i ].image.height = height;\n\t\t\t\tthis.textures[ i ].image.depth = depth;\n\t\t\t\tthis.textures[ i ].isArrayTexture = this.textures[ i ].image.depth > 1;\n\n\t\t\t}\n\n\t\t\tthis.dispose();\n\n\t\t}\n\n\t\tthis.viewport.set( 0, 0, width, height );\n\t\tthis.scissor.set( 0, 0, width, height );\n\n\t}\n\n\t/**\n\t * Returns a new render target with copied values from this instance.\n\t *\n\t * @return {RenderTarget} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the settings of the given render target. This is a structural copy so\n\t * no resources are shared between render targets after the copy. That includes\n\t * all MRT textures and the depth texture.\n\t *\n\t * @param {RenderTarget} source - The render target to copy.\n\t * @return {RenderTarget} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.width = source.width;\n\t\tthis.height = source.height;\n\t\tthis.depth = source.depth;\n\n\t\tthis.scissor.copy( source.scissor );\n\t\tthis.scissorTest = source.scissorTest;\n\n\t\tthis.viewport.copy( source.viewport );\n\n\t\tthis.textures.length = 0;\n\n\t\tfor ( let i = 0, il = source.textures.length; i < il; i ++ ) {\n\n\t\t\tthis.textures[ i ] = source.textures[ i ].clone();\n\t\t\tthis.textures[ i ].isRenderTargetTexture = true;\n\t\t\tthis.textures[ i ].renderTarget = this;\n\n\t\t\t// ensure image object is not shared, see #20328\n\n\t\t\tconst image = Object.assign( {}, source.textures[ i ].image );\n\t\t\tthis.textures[ i ].source = new Source( image );\n\n\t\t}\n\n\t\tthis.depthBuffer = source.depthBuffer;\n\t\tthis.stencilBuffer = source.stencilBuffer;\n\n\t\tthis.resolveDepthBuffer = source.resolveDepthBuffer;\n\t\tthis.resolveStencilBuffer = source.resolveStencilBuffer;\n\n\t\tif ( source.depthTexture !== null ) this.depthTexture = source.depthTexture.clone();\n\n\t\tthis.samples = source.samples;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires RenderTarget#dispose\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n}\n\n/**\n * A render target used in context of {@link WebGLRenderer}.\n *\n * @augments RenderTarget\n */\nclass WebGLRenderTarget extends RenderTarget {\n\n\t/**\n\t * Constructs a new 3D render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGLRenderTarget = true;\n\n\t}\n\n}\n\n/**\n * Creates an array of textures directly from raw buffer data.\n *\n * @augments Texture\n */\nclass DataArrayTexture extends Texture {\n\n\t/**\n\t * Constructs a new data array texture.\n\t *\n\t * @param {?TypedArray} [data=null] - The buffer data.\n\t * @param {number} [width=1] - The width of the texture.\n\t * @param {number} [height=1] - The height of the texture.\n\t * @param {number} [depth=1] - The depth of the texture.\n\t */\n\tconstructor( data = null, width = 1, height = 1, depth = 1 ) {\n\n\t\tsuper( null );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDataArrayTexture = true;\n\n\t\t/**\n\t\t * The image definition of a data texture.\n\t\t *\n\t\t * @type {{data:TypedArray,width:number,height:number,depth:number}}\n\t\t */\n\t\tthis.image = { data, width, height, depth };\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.magFilter = NearestFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.minFilter = NearestFilter;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped in the depth and corresponds to\n\t\t * *W* in UVW mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapR = ClampToEdgeWrapping;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t *\n\t\t * Overwritten and set to `1` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default 1\n\t\t */\n\t\tthis.unpackAlignment = 1;\n\n\t\t/**\n\t\t * A set of all layers which need to be updated in the texture.\n\t\t *\n\t\t * @type {Set}\n\t\t */\n\t\tthis.layerUpdates = new Set();\n\n\t}\n\n\t/**\n\t * Describes that a specific layer of the texture needs to be updated.\n\t * Normally when {@link Texture#needsUpdate} is set to `true`, the\n\t * entire data texture array is sent to the GPU. Marking specific\n\t * layers will only transmit subsets of all mipmaps associated with a\n\t * specific depth in the array which is often much more performant.\n\t *\n\t * @param {number} layerIndex - The layer index that should be updated.\n\t */\n\taddLayerUpdate( layerIndex ) {\n\n\t\tthis.layerUpdates.add( layerIndex );\n\n\t}\n\n\t/**\n\t * Resets the layer updates registry.\n\t */\n\tclearLayerUpdates() {\n\n\t\tthis.layerUpdates.clear();\n\n\t}\n\n}\n\n/**\n * An array render target used in context of {@link WebGLRenderer}.\n *\n * @augments WebGLRenderTarget\n */\nclass WebGLArrayRenderTarget extends WebGLRenderTarget {\n\n\t/**\n\t * Constructs a new array render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {number} [depth=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGLArrayRenderTarget = true;\n\n\t\tthis.depth = depth;\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {DataArrayTexture}\n\t\t */\n\t\tthis.texture = new DataArrayTexture( null, width, height, depth );\n\t\tthis._setTextureOptions( options );\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n}\n\n/**\n * Creates a three-dimensional texture from raw data, with parameters to\n * divide it into width, height, and depth.\n *\n * @augments Texture\n */\nclass Data3DTexture extends Texture {\n\n\t/**\n\t * Constructs a new data array texture.\n\t *\n\t * @param {?TypedArray} [data=null] - The buffer data.\n\t * @param {number} [width=1] - The width of the texture.\n\t * @param {number} [height=1] - The height of the texture.\n\t * @param {number} [depth=1] - The depth of the texture.\n\t */\n\tconstructor( data = null, width = 1, height = 1, depth = 1 ) {\n\n\t\t// We're going to add .setXXX() methods for setting properties later.\n\t\t// Users can still set in Data3DTexture directly.\n\t\t//\n\t\t//\tconst texture = new THREE.Data3DTexture( data, width, height, depth );\n\t\t// \ttexture.anisotropy = 16;\n\t\t//\n\t\t// See #14839\n\n\t\tsuper( null );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isData3DTexture = true;\n\n\t\t/**\n\t\t * The image definition of a data texture.\n\t\t *\n\t\t * @type {{data:TypedArray,width:number,height:number,depth:number}}\n\t\t */\n\t\tthis.image = { data, width, height, depth };\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.magFilter = NearestFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.minFilter = NearestFilter;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped in the depth and corresponds to\n\t\t * *W* in UVW mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapR = ClampToEdgeWrapping;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t *\n\t\t * Overwritten and set to `1` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default 1\n\t\t */\n\t\tthis.unpackAlignment = 1;\n\n\t}\n\n}\n\n/**\n * A 3D render target used in context of {@link WebGLRenderer}.\n *\n * @augments WebGLRenderTarget\n */\nclass WebGL3DRenderTarget extends WebGLRenderTarget {\n\n\t/**\n\t * Constructs a new 3D render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {number} [depth=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGL3DRenderTarget = true;\n\n\t\tthis.depth = depth;\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {Data3DTexture}\n\t\t */\n\t\tthis.texture = new Data3DTexture( null, width, height, depth );\n\t\tthis._setTextureOptions( options );\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n}\n\n/**\n * Represents an axis-aligned bounding box (AABB) in 3D space.\n */\nclass Box3 {\n\n\t/**\n\t * Constructs a new bounding box.\n\t *\n\t * @param {Vector3} [min=(Infinity,Infinity,Infinity)] - A vector representing the lower boundary of the box.\n\t * @param {Vector3} [max=(-Infinity,-Infinity,-Infinity)] - A vector representing the upper boundary of the box.\n\t */\n\tconstructor( min = new Vector3( + Infinity, + Infinity, + Infinity ), max = new Vector3( - Infinity, - Infinity, - Infinity ) ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBox3 = true;\n\n\t\t/**\n\t\t * The lower boundary of the box.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.min = min;\n\n\t\t/**\n\t\t * The upper boundary of the box.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.max = max;\n\n\t}\n\n\t/**\n\t * Sets the lower and upper boundaries of this box.\n\t * Please note that this method only copies the values from the given objects.\n\t *\n\t * @param {Vector3} min - The lower boundary of the box.\n\t * @param {Vector3} max - The upper boundary of the box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tset( min, max ) {\n\n\t\tthis.min.copy( min );\n\t\tthis.max.copy( max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given array.\n\t *\n\t * @param {Array} array - An array holding 3D position data.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromArray( array ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = array.length; i < il; i += 3 ) {\n\n\t\t\tthis.expandByPoint( _vector$b.fromArray( array, i ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - A buffer attribute holding 3D position data.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromBufferAttribute( attribute ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = attribute.count; i < il; i ++ ) {\n\n\t\t\tthis.expandByPoint( _vector$b.fromBufferAttribute( attribute, i ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given array.\n\t *\n\t * @param {Array} points - An array holding 3D position data as instances of {@link Vector3}.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = points.length; i < il; i ++ ) {\n\n\t\t\tthis.expandByPoint( points[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Centers this box on the given center vector and sets this box's width, height and\n\t * depth to the given size values.\n\t *\n\t * @param {Vector3} center - The center of the box.\n\t * @param {Vector3} size - The x, y and z dimensions of the box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromCenterAndSize( center, size ) {\n\n\t\tconst halfSize = _vector$b.copy( size ).multiplyScalar( 0.5 );\n\n\t\tthis.min.copy( center ).sub( halfSize );\n\t\tthis.max.copy( center ).add( halfSize );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the world-axis-aligned bounding box for the given 3D object\n\t * (including its children), accounting for the object's, and children's,\n\t * world transforms. The function may result in a larger box than strictly necessary.\n\t *\n\t * @param {Object3D} object - The 3D object to compute the bounding box for.\n\t * @param {boolean} [precise=false] - If set to `true`, the method computes the smallest\n\t * world-axis-aligned bounding box at the expense of more computation.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromObject( object, precise = false ) {\n\n\t\tthis.makeEmpty();\n\n\t\treturn this.expandByObject( object, precise );\n\n\t}\n\n\t/**\n\t * Returns a new box with copied values from this instance.\n\t *\n\t * @return {Box3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given box to this instance.\n\t *\n\t * @param {Box3} box - The box to copy.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tcopy( box ) {\n\n\t\tthis.min.copy( box.min );\n\t\tthis.max.copy( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Makes this box empty which means in encloses a zero space in 3D.\n\t *\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tmakeEmpty() {\n\n\t\tthis.min.x = this.min.y = this.min.z = + Infinity;\n\t\tthis.max.x = this.max.y = this.max.z = - Infinity;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns true if this box includes zero points within its bounds.\n\t * Note that a box with equal lower and upper bounds still includes one\n\t * point, the one both bounds share.\n\t *\n\t * @return {boolean} Whether this box is empty or not.\n\t */\n\tisEmpty() {\n\n\t\t// this is a more robust check for empty than ( volume <= 0 ) because volume can get positive with two negative axes\n\n\t\treturn ( this.max.x < this.min.x ) || ( this.max.y < this.min.y ) || ( this.max.z < this.min.z );\n\n\t}\n\n\t/**\n\t * Returns the center point of this box.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The center point.\n\t */\n\tgetCenter( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0, 0 ) : target.addVectors( this.min, this.max ).multiplyScalar( 0.5 );\n\n\t}\n\n\t/**\n\t * Returns the dimensions of this box.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The size.\n\t */\n\tgetSize( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0, 0 ) : target.subVectors( this.max, this.min );\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this box to include the given point.\n\t *\n\t * @param {Vector3} point - The point that should be included by the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByPoint( point ) {\n\n\t\tthis.min.min( point );\n\t\tthis.max.max( point );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands this box equilaterally by the given vector. The width of this\n\t * box will be expanded by the x component of the vector in both\n\t * directions. The height of this box will be expanded by the y component of\n\t * the vector in both directions. The depth of this box will be\n\t * expanded by the z component of the vector in both directions.\n\t *\n\t * @param {Vector3} vector - The vector that should expand the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByVector( vector ) {\n\n\t\tthis.min.sub( vector );\n\t\tthis.max.add( vector );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands each dimension of the box by the given scalar. If negative, the\n\t * dimensions of the box will be contracted.\n\t *\n\t * @param {number} scalar - The scalar value that should expand the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByScalar( scalar ) {\n\n\t\tthis.min.addScalar( - scalar );\n\t\tthis.max.addScalar( scalar );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this box to include the given 3D object and\n\t * its children, accounting for the object's, and children's, world\n\t * transforms. The function may result in a larger box than strictly\n\t * necessary (unless the precise parameter is set to true).\n\t *\n\t * @param {Object3D} object - The 3D object that should expand the bounding box.\n\t * @param {boolean} precise - If set to `true`, the method expands the bounding box\n\t * as little as necessary at the expense of more computation.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByObject( object, precise = false ) {\n\n\t\t// Computes the world-axis-aligned bounding box of an object (including its children),\n\t\t// accounting for both the object's, and children's, world transforms\n\n\t\tobject.updateWorldMatrix( false, false );\n\n\t\tconst geometry = object.geometry;\n\n\t\tif ( geometry !== undefined ) {\n\n\t\t\tconst positionAttribute = geometry.getAttribute( 'position' );\n\n\t\t\t// precise AABB computation based on vertex data requires at least a position attribute.\n\t\t\t// instancing isn't supported so far and uses the normal (conservative) code path.\n\n\t\t\tif ( precise === true && positionAttribute !== undefined && object.isInstancedMesh !== true ) {\n\n\t\t\t\tfor ( let i = 0, l = positionAttribute.count; i < l; i ++ ) {\n\n\t\t\t\t\tif ( object.isMesh === true ) {\n\n\t\t\t\t\t\tobject.getVertexPosition( i, _vector$b );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t_vector$b.fromBufferAttribute( positionAttribute, i );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t_vector$b.applyMatrix4( object.matrixWorld );\n\t\t\t\t\tthis.expandByPoint( _vector$b );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tif ( object.boundingBox !== undefined ) {\n\n\t\t\t\t\t// object-level bounding box\n\n\t\t\t\t\tif ( object.boundingBox === null ) {\n\n\t\t\t\t\t\tobject.computeBoundingBox();\n\n\t\t\t\t\t}\n\n\t\t\t\t\t_box$4.copy( object.boundingBox );\n\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// geometry-level bounding box\n\n\t\t\t\t\tif ( geometry.boundingBox === null ) {\n\n\t\t\t\t\t\tgeometry.computeBoundingBox();\n\n\t\t\t\t\t}\n\n\t\t\t\t\t_box$4.copy( geometry.boundingBox );\n\n\t\t\t\t}\n\n\t\t\t\t_box$4.applyMatrix4( object.matrixWorld );\n\n\t\t\t\tthis.union( _box$4 );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst children = object.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tthis.expandByObject( children[ i ], precise );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within or on the boundaries of this box.\n\t *\n\t * @param {Vector3} point - The point to test.\n\t * @return {boolean} Whether the bounding box contains the given point or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn point.x >= this.min.x && point.x <= this.max.x &&\n\t\t\tpoint.y >= this.min.y && point.y <= this.max.y &&\n\t\t\tpoint.z >= this.min.z && point.z <= this.max.z;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box includes the entirety of the given bounding box.\n\t * If this box and the given one are identical, this function also returns `true`.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the bounding box contains the given bounding box or not.\n\t */\n\tcontainsBox( box ) {\n\n\t\treturn this.min.x <= box.min.x && box.max.x <= this.max.x &&\n\t\t\tthis.min.y <= box.min.y && box.max.y <= this.max.y &&\n\t\t\tthis.min.z <= box.min.z && box.max.z <= this.max.z;\n\n\t}\n\n\t/**\n\t * Returns a point as a proportion of this box's width, height and depth.\n\t *\n\t * @param {Vector3} point - A point in 3D space.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} A point as a proportion of this box's width, height and depth.\n\t */\n\tgetParameter( point, target ) {\n\n\t\t// This can potentially have a divide by zero if the box\n\t\t// has a size dimension of 0.\n\n\t\treturn target.set(\n\t\t\t( point.x - this.min.x ) / ( this.max.x - this.min.x ),\n\t\t\t( point.y - this.min.y ) / ( this.max.y - this.min.y ),\n\t\t\t( point.z - this.min.z ) / ( this.max.z - this.min.z )\n\t\t);\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box intersects with this bounding box.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the given bounding box intersects with this bounding box.\n\t */\n\tintersectsBox( box ) {\n\n\t\t// using 6 splitting planes to rule out intersections.\n\t\treturn box.max.x >= this.min.x && box.min.x <= this.max.x &&\n\t\t\tbox.max.y >= this.min.y && box.min.y <= this.max.y &&\n\t\t\tbox.max.z >= this.min.z && box.min.z <= this.max.z;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere intersects with this bounding box.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @return {boolean} Whether the given bounding sphere intersects with this bounding box.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\t// Find the point on the AABB closest to the sphere center.\n\t\tthis.clampPoint( sphere.center, _vector$b );\n\n\t\t// If that point is inside the sphere, the AABB and sphere intersect.\n\t\treturn _vector$b.distanceToSquared( sphere.center ) <= ( sphere.radius * sphere.radius );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given plane intersects with this bounding box.\n\t *\n\t * @param {Plane} plane - The plane to test.\n\t * @return {boolean} Whether the given plane intersects with this bounding box.\n\t */\n\tintersectsPlane( plane ) {\n\n\t\t// We compute the minimum and maximum dot product values. If those values\n\t\t// are on the same side (back or front) of the plane, then there is no intersection.\n\n\t\tlet min, max;\n\n\t\tif ( plane.normal.x > 0 ) {\n\n\t\t\tmin = plane.normal.x * this.min.x;\n\t\t\tmax = plane.normal.x * this.max.x;\n\n\t\t} else {\n\n\t\t\tmin = plane.normal.x * this.max.x;\n\t\t\tmax = plane.normal.x * this.min.x;\n\n\t\t}\n\n\t\tif ( plane.normal.y > 0 ) {\n\n\t\t\tmin += plane.normal.y * this.min.y;\n\t\t\tmax += plane.normal.y * this.max.y;\n\n\t\t} else {\n\n\t\t\tmin += plane.normal.y * this.max.y;\n\t\t\tmax += plane.normal.y * this.min.y;\n\n\t\t}\n\n\t\tif ( plane.normal.z > 0 ) {\n\n\t\t\tmin += plane.normal.z * this.min.z;\n\t\t\tmax += plane.normal.z * this.max.z;\n\n\t\t} else {\n\n\t\t\tmin += plane.normal.z * this.max.z;\n\t\t\tmax += plane.normal.z * this.min.z;\n\n\t\t}\n\n\t\treturn ( min <= - plane.constant && max >= - plane.constant );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given triangle intersects with this bounding box.\n\t *\n\t * @param {Triangle} triangle - The triangle to test.\n\t * @return {boolean} Whether the given triangle intersects with this bounding box.\n\t */\n\tintersectsTriangle( triangle ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\t// compute box center and extents\n\t\tthis.getCenter( _center );\n\t\t_extents.subVectors( this.max, _center );\n\n\t\t// translate triangle to aabb origin\n\t\t_v0$2.subVectors( triangle.a, _center );\n\t\t_v1$7.subVectors( triangle.b, _center );\n\t\t_v2$4.subVectors( triangle.c, _center );\n\n\t\t// compute edge vectors for triangle\n\t\t_f0.subVectors( _v1$7, _v0$2 );\n\t\t_f1.subVectors( _v2$4, _v1$7 );\n\t\t_f2.subVectors( _v0$2, _v2$4 );\n\n\t\t// test against axes that are given by cross product combinations of the edges of the triangle and the edges of the aabb\n\t\t// make an axis testing of each of the 3 sides of the aabb against each of the 3 sides of the triangle = 9 axis of separation\n\t\t// axis_ij = u_i x f_j (u0, u1, u2 = face normals of aabb = x,y,z axes vectors since aabb is axis aligned)\n\t\tlet axes = [\n\t\t\t0, - _f0.z, _f0.y, 0, - _f1.z, _f1.y, 0, - _f2.z, _f2.y,\n\t\t\t_f0.z, 0, - _f0.x, _f1.z, 0, - _f1.x, _f2.z, 0, - _f2.x,\n\t\t\t- _f0.y, _f0.x, 0, - _f1.y, _f1.x, 0, - _f2.y, _f2.x, 0\n\t\t];\n\t\tif ( ! satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents ) ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\t// test 3 face normals from the aabb\n\t\taxes = [ 1, 0, 0, 0, 1, 0, 0, 0, 1 ];\n\t\tif ( ! satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents ) ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\t// finally testing the face normal of the triangle\n\t\t// use already existing triangle edge vectors here\n\t\t_triangleNormal.crossVectors( _f0, _f1 );\n\t\taxes = [ _triangleNormal.x, _triangleNormal.y, _triangleNormal.z ];\n\n\t\treturn satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents );\n\n\t}\n\n\t/**\n\t * Clamps the given point within the bounds of this box.\n\t *\n\t * @param {Vector3} point - The point to clamp.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The clamped point.\n\t */\n\tclampPoint( point, target ) {\n\n\t\treturn target.copy( point ).clamp( this.min, this.max );\n\n\t}\n\n\t/**\n\t * Returns the euclidean distance from any edge of this box to the specified point. If\n\t * the given point lies inside of this box, the distance will be `0`.\n\t *\n\t * @param {Vector3} point - The point to compute the distance to.\n\t * @return {number} The euclidean distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn this.clampPoint( point, _vector$b ).distanceTo( point );\n\n\t}\n\n\t/**\n\t * Returns a bounding sphere that encloses this bounding box.\n\t *\n\t * @param {Sphere} target - The target sphere that is used to store the method's result.\n\t * @return {Sphere} The bounding sphere that encloses this bounding box.\n\t */\n\tgetBoundingSphere( target ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\ttarget.makeEmpty();\n\n\t\t} else {\n\n\t\t\tthis.getCenter( target.center );\n\n\t\t\ttarget.radius = this.getSize( _vector$b ).length() * 0.5;\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Computes the intersection of this bounding box and the given one, setting the upper\n\t * bound of this box to the lesser of the two boxes' upper bounds and the\n\t * lower bound of this box to the greater of the two boxes' lower bounds. If\n\t * there's no overlap, makes this box empty.\n\t *\n\t * @param {Box3} box - The bounding box to intersect with.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tintersect( box ) {\n\n\t\tthis.min.max( box.min );\n\t\tthis.max.min( box.max );\n\n\t\t// ensure that if there is no overlap, the result is fully empty, not slightly empty with non-inf/+inf values that will cause subsequence intersects to erroneously return valid values.\n\t\tif ( this.isEmpty() ) this.makeEmpty();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the union of this box and another and the given one, setting the upper\n\t * bound of this box to the greater of the two boxes' upper bounds and the\n\t * lower bound of this box to the lesser of the two boxes' lower bounds.\n\t *\n\t * @param {Box3} box - The bounding box that will be unioned with this instance.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tunion( box ) {\n\n\t\tthis.min.min( box.min );\n\t\tthis.max.max( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Transforms this bounding box by the given 4x4 transformation matrix.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\t// transform of empty box is an empty box.\n\t\tif ( this.isEmpty() ) return this;\n\n\t\t// NOTE: I am using a binary pattern to specify all 2^3 combinations below\n\t\t_points[ 0 ].set( this.min.x, this.min.y, this.min.z ).applyMatrix4( matrix ); // 000\n\t\t_points[ 1 ].set( this.min.x, this.min.y, this.max.z ).applyMatrix4( matrix ); // 001\n\t\t_points[ 2 ].set( this.min.x, this.max.y, this.min.z ).applyMatrix4( matrix ); // 010\n\t\t_points[ 3 ].set( this.min.x, this.max.y, this.max.z ).applyMatrix4( matrix ); // 011\n\t\t_points[ 4 ].set( this.max.x, this.min.y, this.min.z ).applyMatrix4( matrix ); // 100\n\t\t_points[ 5 ].set( this.max.x, this.min.y, this.max.z ).applyMatrix4( matrix ); // 101\n\t\t_points[ 6 ].set( this.max.x, this.max.y, this.min.z ).applyMatrix4( matrix ); // 110\n\t\t_points[ 7 ].set( this.max.x, this.max.y, this.max.z ).applyMatrix4( matrix ); // 111\n\n\t\tthis.setFromPoints( _points );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given offset to both the upper and lower bounds of this bounding box,\n\t * effectively moving it in 3D space.\n\t *\n\t * @param {Vector3} offset - The offset that should be used to translate the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.min.add( offset );\n\t\tthis.max.add( offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box is equal with the given one.\n\t *\n\t * @param {Box3} box - The box to test for equality.\n\t * @return {boolean} Whether this bounding box is equal with the given one.\n\t */\n\tequals( box ) {\n\n\t\treturn box.min.equals( this.min ) && box.max.equals( this.max );\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding box.\n\t *\n\t * @return {Object} Serialized structure with fields representing the object state.\n\t */\n\ttoJSON() {\n\n\t\treturn {\n\t\t\tmin: this.min.toArray(),\n\t\t\tmax: this.max.toArray()\n\t\t};\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding box.\n\t *\n\t * @param {Object} json - The serialized json to set the box from.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.min.fromArray( json.min );\n\t\tthis.max.fromArray( json.max );\n\t\treturn this;\n\n\t}\n\n}\n\nconst _points = [\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3()\n];\n\nconst _vector$b = /*@__PURE__*/ new Vector3();\n\nconst _box$4 = /*@__PURE__*/ new Box3();\n\n// triangle centered vertices\n\nconst _v0$2 = /*@__PURE__*/ new Vector3();\nconst _v1$7 = /*@__PURE__*/ new Vector3();\nconst _v2$4 = /*@__PURE__*/ new Vector3();\n\n// triangle edge vectors\n\nconst _f0 = /*@__PURE__*/ new Vector3();\nconst _f1 = /*@__PURE__*/ new Vector3();\nconst _f2 = /*@__PURE__*/ new Vector3();\n\nconst _center = /*@__PURE__*/ new Vector3();\nconst _extents = /*@__PURE__*/ new Vector3();\nconst _triangleNormal = /*@__PURE__*/ new Vector3();\nconst _testAxis = /*@__PURE__*/ new Vector3();\n\nfunction satForAxes( axes, v0, v1, v2, extents ) {\n\n\tfor ( let i = 0, j = axes.length - 3; i <= j; i += 3 ) {\n\n\t\t_testAxis.fromArray( axes, i );\n\t\t// project the aabb onto the separating axis\n\t\tconst r = extents.x * Math.abs( _testAxis.x ) + extents.y * Math.abs( _testAxis.y ) + extents.z * Math.abs( _testAxis.z );\n\t\t// project all 3 vertices of the triangle onto the separating axis\n\t\tconst p0 = v0.dot( _testAxis );\n\t\tconst p1 = v1.dot( _testAxis );\n\t\tconst p2 = v2.dot( _testAxis );\n\t\t// actual test, basically see if either of the most extreme of the triangle points intersects r\n\t\tif ( Math.max( - Math.max( p0, p1, p2 ), Math.min( p0, p1, p2 ) ) > r ) {\n\n\t\t\t// points of the projected triangle are outside the projected half-length of the aabb\n\t\t\t// the axis is separating and we can exit\n\t\t\treturn false;\n\n\t\t}\n\n\t}\n\n\treturn true;\n\n}\n\nconst _box$3 = /*@__PURE__*/ new Box3();\nconst _v1$6 = /*@__PURE__*/ new Vector3();\nconst _v2$3 = /*@__PURE__*/ new Vector3();\n\n/**\n * An analytical 3D sphere defined by a center and radius. This class is mainly\n * used as a Bounding Sphere for 3D objects.\n */\nclass Sphere {\n\n\t/**\n\t * Constructs a new sphere.\n\t *\n\t * @param {Vector3} [center=(0,0,0)] - The center of the sphere\n\t * @param {number} [radius=-1] - The radius of the sphere.\n\t */\n\tconstructor( center = new Vector3(), radius = -1 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSphere = true;\n\n\t\t/**\n\t\t * The center of the sphere\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.center = center;\n\n\t\t/**\n\t\t * The radius of the sphere.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.radius = radius;\n\n\t}\n\n\t/**\n\t * Sets the sphere's components by copying the given values.\n\t *\n\t * @param {Vector3} center - The center.\n\t * @param {number} radius - The radius.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tset( center, radius ) {\n\n\t\tthis.center.copy( center );\n\t\tthis.radius = radius;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the minimum bounding sphere for list of points.\n\t * If the optional center point is given, it is used as the sphere's\n\t * center. Otherwise, the center of the axis-aligned bounding box\n\t * encompassing the points is calculated.\n\t *\n\t * @param {Array} points - A list of points in 3D space.\n\t * @param {Vector3} [optionalCenter] - The center of the sphere.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tsetFromPoints( points, optionalCenter ) {\n\n\t\tconst center = this.center;\n\n\t\tif ( optionalCenter !== undefined ) {\n\n\t\t\tcenter.copy( optionalCenter );\n\n\t\t} else {\n\n\t\t\t_box$3.setFromPoints( points ).getCenter( center );\n\n\t\t}\n\n\t\tlet maxRadiusSq = 0;\n\n\t\tfor ( let i = 0, il = points.length; i < il; i ++ ) {\n\n\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( points[ i ] ) );\n\n\t\t}\n\n\t\tthis.radius = Math.sqrt( maxRadiusSq );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given sphere to this instance.\n\t *\n\t * @param {Sphere} sphere - The sphere to copy.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tcopy( sphere ) {\n\n\t\tthis.center.copy( sphere.center );\n\t\tthis.radius = sphere.radius;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the sphere is empty (the radius set to a negative number).\n\t *\n\t * Spheres with a radius of `0` contain only their center point and are not\n\t * considered to be empty.\n\t *\n\t * @return {boolean} Whether this sphere is empty or not.\n\t */\n\tisEmpty() {\n\n\t\treturn ( this.radius < 0 );\n\n\t}\n\n\t/**\n\t * Makes this sphere empty which means in encloses a zero space in 3D.\n\t *\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tmakeEmpty() {\n\n\t\tthis.center.set( 0, 0, 0 );\n\t\tthis.radius = -1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere contains the given point inclusive of\n\t * the surface of the sphere.\n\t *\n\t * @param {Vector3} point - The point to check.\n\t * @return {boolean} Whether this sphere contains the given point or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn ( point.distanceToSquared( this.center ) <= ( this.radius * this.radius ) );\n\n\t}\n\n\t/**\n\t * Returns the closest distance from the boundary of the sphere to the\n\t * given point. If the sphere contains the point, the distance will\n\t * be negative.\n\t *\n\t * @param {Vector3} point - The point to compute the distance to.\n\t * @return {number} The distance to the point.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn ( point.distanceTo( this.center ) - this.radius );\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere intersects with the given one.\n\t *\n\t * @param {Sphere} sphere - The sphere to test.\n\t * @return {boolean} Whether this sphere intersects with the given one or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\tconst radiusSum = this.radius + sphere.radius;\n\n\t\treturn sphere.center.distanceToSquared( this.center ) <= ( radiusSum * radiusSum );\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere intersects with the given box.\n\t *\n\t * @param {Box3} box - The box to test.\n\t * @return {boolean} Whether this sphere intersects with the given box or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn box.intersectsSphere( this );\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere intersects with the given plane.\n\t *\n\t * @param {Plane} plane - The plane to test.\n\t * @return {boolean} Whether this sphere intersects with the given plane or not.\n\t */\n\tintersectsPlane( plane ) {\n\n\t\treturn Math.abs( plane.distanceToPoint( this.center ) ) <= this.radius;\n\n\t}\n\n\t/**\n\t * Clamps a point within the sphere. If the point is outside the sphere, it\n\t * will clamp it to the closest point on the edge of the sphere. Points\n\t * already inside the sphere will not be affected.\n\t *\n\t * @param {Vector3} point - The plane to clamp.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The clamped point.\n\t */\n\tclampPoint( point, target ) {\n\n\t\tconst deltaLengthSq = this.center.distanceToSquared( point );\n\n\t\ttarget.copy( point );\n\n\t\tif ( deltaLengthSq > ( this.radius * this.radius ) ) {\n\n\t\t\ttarget.sub( this.center ).normalize();\n\t\t\ttarget.multiplyScalar( this.radius ).add( this.center );\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns a bounding box that encloses this sphere.\n\t *\n\t * @param {Box3} target - The target box that is used to store the method's result.\n\t * @return {Box3} The bounding box that encloses this sphere.\n\t */\n\tgetBoundingBox( target ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\t// Empty sphere produces empty bounding box\n\t\t\ttarget.makeEmpty();\n\t\t\treturn target;\n\n\t\t}\n\n\t\ttarget.set( this.center, this.center );\n\t\ttarget.expandByScalar( this.radius );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Transforms this sphere with the given 4x4 transformation matrix.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tthis.center.applyMatrix4( matrix );\n\t\tthis.radius = this.radius * matrix.getMaxScaleOnAxis();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates the sphere's center by the given offset.\n\t *\n\t * @param {Vector3} offset - The offset.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.center.add( offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this sphere to include the given point.\n\t *\n\t * @param {Vector3} point - The point to include.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\texpandByPoint( point ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\tthis.center.copy( point );\n\n\t\t\tthis.radius = 0;\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\t_v1$6.subVectors( point, this.center );\n\n\t\tconst lengthSq = _v1$6.lengthSq();\n\n\t\tif ( lengthSq > ( this.radius * this.radius ) ) {\n\n\t\t\t// calculate the minimal sphere\n\n\t\t\tconst length = Math.sqrt( lengthSq );\n\n\t\t\tconst delta = ( length - this.radius ) * 0.5;\n\n\t\t\tthis.center.addScaledVector( _v1$6, delta / length );\n\n\t\t\tthis.radius += delta;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands this sphere to enclose both the original sphere and the given sphere.\n\t *\n\t * @param {Sphere} sphere - The sphere to include.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tunion( sphere ) {\n\n\t\tif ( sphere.isEmpty() ) {\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\tthis.copy( sphere );\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( this.center.equals( sphere.center ) === true ) {\n\n\t\t\t this.radius = Math.max( this.radius, sphere.radius );\n\n\t\t} else {\n\n\t\t\t_v2$3.subVectors( sphere.center, this.center ).setLength( sphere.radius );\n\n\t\t\tthis.expandByPoint( _v1$6.copy( sphere.center ).add( _v2$3 ) );\n\n\t\t\tthis.expandByPoint( _v1$6.copy( sphere.center ).sub( _v2$3 ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere is equal with the given one.\n\t *\n\t * @param {Sphere} sphere - The sphere to test for equality.\n\t * @return {boolean} Whether this bounding sphere is equal with the given one.\n\t */\n\tequals( sphere ) {\n\n\t\treturn sphere.center.equals( this.center ) && ( sphere.radius === this.radius );\n\n\t}\n\n\t/**\n\t * Returns a new sphere with copied values from this instance.\n\t *\n\t * @return {Sphere} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding sphere.\n\t *\n\t * @return {Object} Serialized structure with fields representing the object state.\n\t */\n\ttoJSON() {\n\n\t\treturn {\n\t\t\tradius: this.radius,\n\t\t\tcenter: this.center.toArray()\n\t\t};\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding sphere.\n\t *\n\t * @param {Object} json - The serialized json to set the sphere from.\n\t * @return {Box3} A reference to this bounding sphere.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.radius = json.radius;\n\t\tthis.center.fromArray( json.center );\n\t\treturn this;\n\n\t}\n\n}\n\nconst _vector$a = /*@__PURE__*/ new Vector3();\nconst _segCenter = /*@__PURE__*/ new Vector3();\nconst _segDir = /*@__PURE__*/ new Vector3();\nconst _diff = /*@__PURE__*/ new Vector3();\n\nconst _edge1 = /*@__PURE__*/ new Vector3();\nconst _edge2 = /*@__PURE__*/ new Vector3();\nconst _normal$1 = /*@__PURE__*/ new Vector3();\n\n/**\n * A ray that emits from an origin in a certain direction. The class is used by\n * {@link Raycaster} to assist with raycasting. Raycasting is used for\n * mouse picking (working out what objects in the 3D space the mouse is over)\n * amongst other things.\n */\nclass Ray {\n\n\t/**\n\t * Constructs a new ray.\n\t *\n\t * @param {Vector3} [origin=(0,0,0)] - The origin of the ray.\n\t * @param {Vector3} [direction=(0,0,-1)] - The (normalized) direction of the ray.\n\t */\n\tconstructor( origin = new Vector3(), direction = new Vector3( 0, 0, -1 ) ) {\n\n\t\t/**\n\t\t * The origin of the ray.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.origin = origin;\n\n\t\t/**\n\t\t * The (normalized) direction of the ray.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.direction = direction;\n\n\t}\n\n\t/**\n\t * Sets the ray's components by copying the given values.\n\t *\n\t * @param {Vector3} origin - The origin.\n\t * @param {Vector3} direction - The direction.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tset( origin, direction ) {\n\n\t\tthis.origin.copy( origin );\n\t\tthis.direction.copy( direction );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given ray to this instance.\n\t *\n\t * @param {Ray} ray - The ray to copy.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tcopy( ray ) {\n\n\t\tthis.origin.copy( ray.origin );\n\t\tthis.direction.copy( ray.direction );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a vector that is located at a given distance along this ray.\n\t *\n\t * @param {number} t - The distance along the ray to retrieve a position for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} A position on the ray.\n\t */\n\tat( t, target ) {\n\n\t\treturn target.copy( this.origin ).addScaledVector( this.direction, t );\n\n\t}\n\n\t/**\n\t * Adjusts the direction of the ray to point at the given vector in world space.\n\t *\n\t * @param {Vector3} v - The target position.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tlookAt( v ) {\n\n\t\tthis.direction.copy( v ).sub( this.origin ).normalize();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Shift the origin of this ray along its direction by the given distance.\n\t *\n\t * @param {number} t - The distance along the ray to interpolate.\n\t * @return {Ray} A reference to this ray.\n\t */\n\trecast( t ) {\n\n\t\tthis.origin.copy( this.at( t, _vector$a ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the point along this ray that is closest to the given point.\n\t *\n\t * @param {Vector3} point - A point in 3D space to get the closet location on the ray for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The closest point on this ray.\n\t */\n\tclosestPointToPoint( point, target ) {\n\n\t\ttarget.subVectors( point, this.origin );\n\n\t\tconst directionDistance = target.dot( this.direction );\n\n\t\tif ( directionDistance < 0 ) {\n\n\t\t\treturn target.copy( this.origin );\n\n\t\t}\n\n\t\treturn target.copy( this.origin ).addScaledVector( this.direction, directionDistance );\n\n\t}\n\n\t/**\n\t * Returns the distance of the closest approach between this ray and the given point.\n\t *\n\t * @param {Vector3} point - A point in 3D space to compute the distance to.\n\t * @return {number} The distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn Math.sqrt( this.distanceSqToPoint( point ) );\n\n\t}\n\n\t/**\n\t * Returns the squared distance of the closest approach between this ray and the given point.\n\t *\n\t * @param {Vector3} point - A point in 3D space to compute the distance to.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceSqToPoint( point ) {\n\n\t\tconst directionDistance = _vector$a.subVectors( point, this.origin ).dot( this.direction );\n\n\t\t// point behind the ray\n\n\t\tif ( directionDistance < 0 ) {\n\n\t\t\treturn this.origin.distanceToSquared( point );\n\n\t\t}\n\n\t\t_vector$a.copy( this.origin ).addScaledVector( this.direction, directionDistance );\n\n\t\treturn _vector$a.distanceToSquared( point );\n\n\t}\n\n\t/**\n\t * Returns the squared distance between this ray and the given line segment.\n\t *\n\t * @param {Vector3} v0 - The start point of the line segment.\n\t * @param {Vector3} v1 - The end point of the line segment.\n\t * @param {Vector3} [optionalPointOnRay] - When provided, it receives the point on this ray that is closest to the segment.\n\t * @param {Vector3} [optionalPointOnSegment] - When provided, it receives the point on the line segment that is closest to this ray.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceSqToSegment( v0, v1, optionalPointOnRay, optionalPointOnSegment ) {\n\n\t\t// from https://github.com/pmjoniak/GeometricTools/blob/master/GTEngine/Include/Mathematics/GteDistRaySegment.h\n\t\t// It returns the min distance between the ray and the segment\n\t\t// defined by v0 and v1\n\t\t// It can also set two optional targets :\n\t\t// - The closest point on the ray\n\t\t// - The closest point on the segment\n\n\t\t_segCenter.copy( v0 ).add( v1 ).multiplyScalar( 0.5 );\n\t\t_segDir.copy( v1 ).sub( v0 ).normalize();\n\t\t_diff.copy( this.origin ).sub( _segCenter );\n\n\t\tconst segExtent = v0.distanceTo( v1 ) * 0.5;\n\t\tconst a01 = - this.direction.dot( _segDir );\n\t\tconst b0 = _diff.dot( this.direction );\n\t\tconst b1 = - _diff.dot( _segDir );\n\t\tconst c = _diff.lengthSq();\n\t\tconst det = Math.abs( 1 - a01 * a01 );\n\t\tlet s0, s1, sqrDist, extDet;\n\n\t\tif ( det > 0 ) {\n\n\t\t\t// The ray and segment are not parallel.\n\n\t\t\ts0 = a01 * b1 - b0;\n\t\t\ts1 = a01 * b0 - b1;\n\t\t\textDet = segExtent * det;\n\n\t\t\tif ( s0 >= 0 ) {\n\n\t\t\t\tif ( s1 >= - extDet ) {\n\n\t\t\t\t\tif ( s1 <= extDet ) {\n\n\t\t\t\t\t\t// region 0\n\t\t\t\t\t\t// Minimum at interior points of ray and segment.\n\n\t\t\t\t\t\tconst invDet = 1 / det;\n\t\t\t\t\t\ts0 *= invDet;\n\t\t\t\t\t\ts1 *= invDet;\n\t\t\t\t\t\tsqrDist = s0 * ( s0 + a01 * s1 + 2 * b0 ) + s1 * ( a01 * s0 + s1 + 2 * b1 ) + c;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// region 1\n\n\t\t\t\t\t\ts1 = segExtent;\n\t\t\t\t\t\ts0 = Math.max( 0, - ( a01 * s1 + b0 ) );\n\t\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// region 5\n\n\t\t\t\t\ts1 = - segExtent;\n\t\t\t\t\ts0 = Math.max( 0, - ( a01 * s1 + b0 ) );\n\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tif ( s1 <= - extDet ) {\n\n\t\t\t\t\t// region 4\n\n\t\t\t\t\ts0 = Math.max( 0, - ( - a01 * segExtent + b0 ) );\n\t\t\t\t\ts1 = ( s0 > 0 ) ? - segExtent : Math.min( Math.max( - segExtent, - b1 ), segExtent );\n\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t} else if ( s1 <= extDet ) {\n\n\t\t\t\t\t// region 3\n\n\t\t\t\t\ts0 = 0;\n\t\t\t\t\ts1 = Math.min( Math.max( - segExtent, - b1 ), segExtent );\n\t\t\t\t\tsqrDist = s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// region 2\n\n\t\t\t\t\ts0 = Math.max( 0, - ( a01 * segExtent + b0 ) );\n\t\t\t\t\ts1 = ( s0 > 0 ) ? segExtent : Math.min( Math.max( - segExtent, - b1 ), segExtent );\n\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\t// Ray and segment are parallel.\n\n\t\t\ts1 = ( a01 > 0 ) ? - segExtent : segExtent;\n\t\t\ts0 = Math.max( 0, - ( a01 * s1 + b0 ) );\n\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t}\n\n\t\tif ( optionalPointOnRay ) {\n\n\t\t\toptionalPointOnRay.copy( this.origin ).addScaledVector( this.direction, s0 );\n\n\t\t}\n\n\t\tif ( optionalPointOnSegment ) {\n\n\t\t\toptionalPointOnSegment.copy( _segCenter ).addScaledVector( _segDir, s1 );\n\n\t\t}\n\n\t\treturn sqrDist;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given sphere, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Sphere} sphere - The sphere to intersect.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectSphere( sphere, target ) {\n\n\t\t_vector$a.subVectors( sphere.center, this.origin );\n\t\tconst tca = _vector$a.dot( this.direction );\n\t\tconst d2 = _vector$a.dot( _vector$a ) - tca * tca;\n\t\tconst radius2 = sphere.radius * sphere.radius;\n\n\t\tif ( d2 > radius2 ) return null;\n\n\t\tconst thc = Math.sqrt( radius2 - d2 );\n\n\t\t// t0 = first intersect point - entrance on front of sphere\n\t\tconst t0 = tca - thc;\n\n\t\t// t1 = second intersect point - exit point on back of sphere\n\t\tconst t1 = tca + thc;\n\n\t\t// test to see if t1 is behind the ray - if so, return null\n\t\tif ( t1 < 0 ) return null;\n\n\t\t// test to see if t0 is behind the ray:\n\t\t// if it is, the ray is inside the sphere, so return the second exit point scaled by t1,\n\t\t// in order to always return an intersect point that is in front of the ray.\n\t\tif ( t0 < 0 ) return this.at( t1, target );\n\n\t\t// else t0 is in front of the ray, so return the first collision point scaled by t0\n\t\treturn this.at( t0, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray intersects with the given sphere.\n\t *\n\t * @param {Sphere} sphere - The sphere to intersect.\n\t * @return {boolean} Whether this ray intersects with the given sphere or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\tif ( sphere.radius < 0 ) return false; // handle empty spheres, see #31187\n\n\t\treturn this.distanceSqToPoint( sphere.center ) <= ( sphere.radius * sphere.radius );\n\n\t}\n\n\t/**\n\t * Computes the distance from the ray's origin to the given plane. Returns `null` if the ray\n\t * does not intersect with the plane.\n\t *\n\t * @param {Plane} plane - The plane to compute the distance to.\n\t * @return {?number} Whether this ray intersects with the given sphere or not.\n\t */\n\tdistanceToPlane( plane ) {\n\n\t\tconst denominator = plane.normal.dot( this.direction );\n\n\t\tif ( denominator === 0 ) {\n\n\t\t\t// line is coplanar, return origin\n\t\t\tif ( plane.distanceToPoint( this.origin ) === 0 ) {\n\n\t\t\t\treturn 0;\n\n\t\t\t}\n\n\t\t\t// Null is preferable to undefined since undefined means.... it is undefined\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst t = - ( this.origin.dot( plane.normal ) + plane.constant ) / denominator;\n\n\t\t// Return if the ray never intersects the plane\n\n\t\treturn t >= 0 ? t : null;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given plane, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Plane} plane - The plane to intersect.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectPlane( plane, target ) {\n\n\t\tconst t = this.distanceToPlane( plane );\n\n\t\tif ( t === null ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\treturn this.at( t, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray intersects with the given plane.\n\t *\n\t * @param {Plane} plane - The plane to intersect.\n\t * @return {boolean} Whether this ray intersects with the given plane or not.\n\t */\n\tintersectsPlane( plane ) {\n\n\t\t// check if the ray lies on the plane first\n\n\t\tconst distToPoint = plane.distanceToPoint( this.origin );\n\n\t\tif ( distToPoint === 0 ) {\n\n\t\t\treturn true;\n\n\t\t}\n\n\t\tconst denominator = plane.normal.dot( this.direction );\n\n\t\tif ( denominator * distToPoint < 0 ) {\n\n\t\t\treturn true;\n\n\t\t}\n\n\t\t// ray origin is behind the plane (and is pointing behind it)\n\n\t\treturn false;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given bounding box, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Box3} box - The box to intersect.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectBox( box, target ) {\n\n\t\tlet tmin, tmax, tymin, tymax, tzmin, tzmax;\n\n\t\tconst invdirx = 1 / this.direction.x,\n\t\t\tinvdiry = 1 / this.direction.y,\n\t\t\tinvdirz = 1 / this.direction.z;\n\n\t\tconst origin = this.origin;\n\n\t\tif ( invdirx >= 0 ) {\n\n\t\t\ttmin = ( box.min.x - origin.x ) * invdirx;\n\t\t\ttmax = ( box.max.x - origin.x ) * invdirx;\n\n\t\t} else {\n\n\t\t\ttmin = ( box.max.x - origin.x ) * invdirx;\n\t\t\ttmax = ( box.min.x - origin.x ) * invdirx;\n\n\t\t}\n\n\t\tif ( invdiry >= 0 ) {\n\n\t\t\ttymin = ( box.min.y - origin.y ) * invdiry;\n\t\t\ttymax = ( box.max.y - origin.y ) * invdiry;\n\n\t\t} else {\n\n\t\t\ttymin = ( box.max.y - origin.y ) * invdiry;\n\t\t\ttymax = ( box.min.y - origin.y ) * invdiry;\n\n\t\t}\n\n\t\tif ( ( tmin > tymax ) || ( tymin > tmax ) ) return null;\n\n\t\tif ( tymin > tmin || isNaN( tmin ) ) tmin = tymin;\n\n\t\tif ( tymax < tmax || isNaN( tmax ) ) tmax = tymax;\n\n\t\tif ( invdirz >= 0 ) {\n\n\t\t\ttzmin = ( box.min.z - origin.z ) * invdirz;\n\t\t\ttzmax = ( box.max.z - origin.z ) * invdirz;\n\n\t\t} else {\n\n\t\t\ttzmin = ( box.max.z - origin.z ) * invdirz;\n\t\t\ttzmax = ( box.min.z - origin.z ) * invdirz;\n\n\t\t}\n\n\t\tif ( ( tmin > tzmax ) || ( tzmin > tmax ) ) return null;\n\n\t\tif ( tzmin > tmin || tmin !== tmin ) tmin = tzmin;\n\n\t\tif ( tzmax < tmax || tmax !== tmax ) tmax = tzmax;\n\n\t\t//return point closest to the ray (positive side)\n\n\t\tif ( tmax < 0 ) return null;\n\n\t\treturn this.at( tmin >= 0 ? tmin : tmax, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray intersects with the given box.\n\t *\n\t * @param {Box3} box - The box to intersect.\n\t * @return {boolean} Whether this ray intersects with the given box or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn this.intersectBox( box, _vector$a ) !== null;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given triangle, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Vector3} a - The first vertex of the triangle.\n\t * @param {Vector3} b - The second vertex of the triangle.\n\t * @param {Vector3} c - The third vertex of the triangle.\n\t * @param {boolean} backfaceCulling - Whether to use backface culling or not.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectTriangle( a, b, c, backfaceCulling, target ) {\n\n\t\t// Compute the offset origin, edges, and normal.\n\n\t\t// from https://github.com/pmjoniak/GeometricTools/blob/master/GTEngine/Include/Mathematics/GteIntrRay3Triangle3.h\n\n\t\t_edge1.subVectors( b, a );\n\t\t_edge2.subVectors( c, a );\n\t\t_normal$1.crossVectors( _edge1, _edge2 );\n\n\t\t// Solve Q + t*D = b1*E1 + b2*E2 (Q = kDiff, D = ray direction,\n\t\t// E1 = kEdge1, E2 = kEdge2, N = Cross(E1,E2)) by\n\t\t// |Dot(D,N)|*b1 = sign(Dot(D,N))*Dot(D,Cross(Q,E2))\n\t\t// |Dot(D,N)|*b2 = sign(Dot(D,N))*Dot(D,Cross(E1,Q))\n\t\t// |Dot(D,N)|*t = -sign(Dot(D,N))*Dot(Q,N)\n\t\tlet DdN = this.direction.dot( _normal$1 );\n\t\tlet sign;\n\n\t\tif ( DdN > 0 ) {\n\n\t\t\tif ( backfaceCulling ) return null;\n\t\t\tsign = 1;\n\n\t\t} else if ( DdN < 0 ) {\n\n\t\t\tsign = -1;\n\t\t\tDdN = - DdN;\n\n\t\t} else {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t_diff.subVectors( this.origin, a );\n\t\tconst DdQxE2 = sign * this.direction.dot( _edge2.crossVectors( _diff, _edge2 ) );\n\n\t\t// b1 < 0, no intersection\n\t\tif ( DdQxE2 < 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst DdE1xQ = sign * this.direction.dot( _edge1.cross( _diff ) );\n\n\t\t// b2 < 0, no intersection\n\t\tif ( DdE1xQ < 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// b1+b2 > 1, no intersection\n\t\tif ( DdQxE2 + DdE1xQ > DdN ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// Line intersects triangle, check if ray does.\n\t\tconst QdN = - sign * _diff.dot( _normal$1 );\n\n\t\t// t < 0, no intersection\n\t\tif ( QdN < 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// Ray intersects triangle.\n\t\treturn this.at( QdN / DdN, target );\n\n\t}\n\n\t/**\n\t * Transforms this ray with the given 4x4 transformation matrix.\n\t *\n\t * @param {Matrix4} matrix4 - The transformation matrix.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tapplyMatrix4( matrix4 ) {\n\n\t\tthis.origin.applyMatrix4( matrix4 );\n\t\tthis.direction.transformDirection( matrix4 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray is equal with the given one.\n\t *\n\t * @param {Ray} ray - The ray to test for equality.\n\t * @return {boolean} Whether this ray is equal with the given one.\n\t */\n\tequals( ray ) {\n\n\t\treturn ray.origin.equals( this.origin ) && ray.direction.equals( this.direction );\n\n\t}\n\n\t/**\n\t * Returns a new ray with copied values from this instance.\n\t *\n\t * @return {Ray} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * Represents a 4x4 matrix.\n *\n * The most common use of a 4x4 matrix in 3D computer graphics is as a transformation matrix.\n * For an introduction to transformation matrices as used in WebGL, check out [this tutorial]{@link https://www.opengl-tutorial.org/beginners-tutorials/tutorial-3-matrices}\n *\n * This allows a 3D vector representing a point in 3D space to undergo\n * transformations such as translation, rotation, shear, scale, reflection,\n * orthogonal or perspective projection and so on, by being multiplied by the\n * matrix. This is known as `applying` the matrix to the vector.\n *\n * A Note on Row-Major and Column-Major Ordering:\n *\n * The constructor and {@link Matrix3#set} method take arguments in\n * [row-major]{@link https://en.wikipedia.org/wiki/Row-_and_column-major_order#Column-major_order}\n * order, while internally they are stored in the {@link Matrix3#elements} array in column-major order.\n * This means that calling:\n * ```js\n * const m = new THREE.Matrix4();\n * m.set( 11, 12, 13, 14,\n * 21, 22, 23, 24,\n * 31, 32, 33, 34,\n * 41, 42, 43, 44 );\n * ```\n * will result in the elements array containing:\n * ```js\n * m.elements = [ 11, 21, 31, 41,\n * 12, 22, 32, 42,\n * 13, 23, 33, 43,\n * 14, 24, 34, 44 ];\n * ```\n * and internally all calculations are performed using column-major ordering.\n * However, as the actual ordering makes no difference mathematically and\n * most people are used to thinking about matrices in row-major order, the\n * three.js documentation shows matrices in row-major order. Just bear in\n * mind that if you are reading the source code, you'll have to take the\n * transpose of any matrices outlined here to make sense of the calculations.\n */\nclass Matrix4 {\n\n\t/**\n\t * Constructs a new 4x4 matrix. The arguments are supposed to be\n\t * in row-major order. If no arguments are provided, the constructor\n\t * initializes the matrix as an identity matrix.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n14] - 1-4 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n24] - 2-4 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t * @param {number} [n34] - 3-4 matrix element.\n\t * @param {number} [n41] - 4-1 matrix element.\n\t * @param {number} [n42] - 4-2 matrix element.\n\t * @param {number} [n43] - 4-3 matrix element.\n\t * @param {number} [n44] - 4-4 matrix element.\n\t */\n\tconstructor( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tMatrix4.prototype.isMatrix4 = true;\n\n\t\t/**\n\t\t * A column-major list of matrix values.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.elements = [\n\n\t\t\t1, 0, 0, 0,\n\t\t\t0, 1, 0, 0,\n\t\t\t0, 0, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t];\n\n\t\tif ( n11 !== undefined ) {\n\n\t\t\tthis.set( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix.The arguments are supposed to be\n\t * in row-major order.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n14] - 1-4 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n24] - 2-4 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t * @param {number} [n34] - 3-4 matrix element.\n\t * @param {number} [n41] - 4-1 matrix element.\n\t * @param {number} [n42] - 4-2 matrix element.\n\t * @param {number} [n43] - 4-3 matrix element.\n\t * @param {number} [n44] - 4-4 matrix element.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tset( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] = n11; te[ 4 ] = n12; te[ 8 ] = n13; te[ 12 ] = n14;\n\t\tte[ 1 ] = n21; te[ 5 ] = n22; te[ 9 ] = n23; te[ 13 ] = n24;\n\t\tte[ 2 ] = n31; te[ 6 ] = n32; te[ 10 ] = n33; te[ 14 ] = n34;\n\t\tte[ 3 ] = n41; te[ 7 ] = n42; te[ 11 ] = n43; te[ 15 ] = n44;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix to the 4x4 identity matrix.\n\t *\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tidentity() {\n\n\t\tthis.set(\n\n\t\t\t1, 0, 0, 0,\n\t\t\t0, 1, 0, 0,\n\t\t\t0, 0, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a matrix with copied values from this instance.\n\t *\n\t * @return {Matrix4} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Matrix4().fromArray( this.elements );\n\n\t}\n\n\t/**\n\t * Copies the values of the given matrix to this instance.\n\t *\n\t * @param {Matrix4} m - The matrix to copy.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tcopy( m ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = m.elements;\n\n\t\tte[ 0 ] = me[ 0 ]; te[ 1 ] = me[ 1 ]; te[ 2 ] = me[ 2 ]; te[ 3 ] = me[ 3 ];\n\t\tte[ 4 ] = me[ 4 ]; te[ 5 ] = me[ 5 ]; te[ 6 ] = me[ 6 ]; te[ 7 ] = me[ 7 ];\n\t\tte[ 8 ] = me[ 8 ]; te[ 9 ] = me[ 9 ]; te[ 10 ] = me[ 10 ]; te[ 11 ] = me[ 11 ];\n\t\tte[ 12 ] = me[ 12 ]; te[ 13 ] = me[ 13 ]; te[ 14 ] = me[ 14 ]; te[ 15 ] = me[ 15 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the translation component of the given matrix\n\t * into this matrix's translation component.\n\t *\n\t * @param {Matrix4} m - The matrix to copy the translation component.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tcopyPosition( m ) {\n\n\t\tconst te = this.elements, me = m.elements;\n\n\t\tte[ 12 ] = me[ 12 ];\n\t\tte[ 13 ] = me[ 13 ];\n\t\tte[ 14 ] = me[ 14 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Set the upper 3x3 elements of this matrix to the values of given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The 3x3 matrix.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tsetFromMatrix3( m ) {\n\n\t\tconst me = m.elements;\n\n\t\tthis.set(\n\n\t\t\tme[ 0 ], me[ 3 ], me[ 6 ], 0,\n\t\t\tme[ 1 ], me[ 4 ], me[ 7 ], 0,\n\t\t\tme[ 2 ], me[ 5 ], me[ 8 ], 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Extracts the basis of this matrix into the three axis vectors provided.\n\t *\n\t * @param {Vector3} xAxis - The basis's x axis.\n\t * @param {Vector3} yAxis - The basis's y axis.\n\t * @param {Vector3} zAxis - The basis's z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\textractBasis( xAxis, yAxis, zAxis ) {\n\n\t\txAxis.setFromMatrixColumn( this, 0 );\n\t\tyAxis.setFromMatrixColumn( this, 1 );\n\t\tzAxis.setFromMatrixColumn( this, 2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given basis vectors to this matrix.\n\t *\n\t * @param {Vector3} xAxis - The basis's x axis.\n\t * @param {Vector3} yAxis - The basis's y axis.\n\t * @param {Vector3} zAxis - The basis's z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeBasis( xAxis, yAxis, zAxis ) {\n\n\t\tthis.set(\n\t\t\txAxis.x, yAxis.x, zAxis.x, 0,\n\t\t\txAxis.y, yAxis.y, zAxis.y, 0,\n\t\t\txAxis.z, yAxis.z, zAxis.z, 0,\n\t\t\t0, 0, 0, 1\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Extracts the rotation component of the given matrix\n\t * into this matrix's rotation component.\n\t *\n\t * Note: This method does not support reflection matrices.\n\t *\n\t * @param {Matrix4} m - The matrix.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\textractRotation( m ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = m.elements;\n\n\t\tconst scaleX = 1 / _v1$5.setFromMatrixColumn( m, 0 ).length();\n\t\tconst scaleY = 1 / _v1$5.setFromMatrixColumn( m, 1 ).length();\n\t\tconst scaleZ = 1 / _v1$5.setFromMatrixColumn( m, 2 ).length();\n\n\t\tte[ 0 ] = me[ 0 ] * scaleX;\n\t\tte[ 1 ] = me[ 1 ] * scaleX;\n\t\tte[ 2 ] = me[ 2 ] * scaleX;\n\t\tte[ 3 ] = 0;\n\n\t\tte[ 4 ] = me[ 4 ] * scaleY;\n\t\tte[ 5 ] = me[ 5 ] * scaleY;\n\t\tte[ 6 ] = me[ 6 ] * scaleY;\n\t\tte[ 7 ] = 0;\n\n\t\tte[ 8 ] = me[ 8 ] * scaleZ;\n\t\tte[ 9 ] = me[ 9 ] * scaleZ;\n\t\tte[ 10 ] = me[ 10 ] * scaleZ;\n\t\tte[ 11 ] = 0;\n\n\t\tte[ 12 ] = 0;\n\t\tte[ 13 ] = 0;\n\t\tte[ 14 ] = 0;\n\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the rotation component (the upper left 3x3 matrix) of this matrix to\n\t * the rotation specified by the given Euler angles. The rest of\n\t * the matrix is set to the identity. Depending on the {@link Euler#order},\n\t * there are six possible outcomes. See [this page]{@link https://en.wikipedia.org/wiki/Euler_angles#Rotation_matrix}\n\t * for a complete list.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationFromEuler( euler ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = euler.x, y = euler.y, z = euler.z;\n\t\tconst a = Math.cos( x ), b = Math.sin( x );\n\t\tconst c = Math.cos( y ), d = Math.sin( y );\n\t\tconst e = Math.cos( z ), f = Math.sin( z );\n\n\t\tif ( euler.order === 'XYZ' ) {\n\n\t\t\tconst ae = a * e, af = a * f, be = b * e, bf = b * f;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = - c * f;\n\t\t\tte[ 8 ] = d;\n\n\t\t\tte[ 1 ] = af + be * d;\n\t\t\tte[ 5 ] = ae - bf * d;\n\t\t\tte[ 9 ] = - b * c;\n\n\t\t\tte[ 2 ] = bf - ae * d;\n\t\t\tte[ 6 ] = be + af * d;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'YXZ' ) {\n\n\t\t\tconst ce = c * e, cf = c * f, de = d * e, df = d * f;\n\n\t\t\tte[ 0 ] = ce + df * b;\n\t\t\tte[ 4 ] = de * b - cf;\n\t\t\tte[ 8 ] = a * d;\n\n\t\t\tte[ 1 ] = a * f;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = - b;\n\n\t\t\tte[ 2 ] = cf * b - de;\n\t\t\tte[ 6 ] = df + ce * b;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'ZXY' ) {\n\n\t\t\tconst ce = c * e, cf = c * f, de = d * e, df = d * f;\n\n\t\t\tte[ 0 ] = ce - df * b;\n\t\t\tte[ 4 ] = - a * f;\n\t\t\tte[ 8 ] = de + cf * b;\n\n\t\t\tte[ 1 ] = cf + de * b;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = df - ce * b;\n\n\t\t\tte[ 2 ] = - a * d;\n\t\t\tte[ 6 ] = b;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'ZYX' ) {\n\n\t\t\tconst ae = a * e, af = a * f, be = b * e, bf = b * f;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = be * d - af;\n\t\t\tte[ 8 ] = ae * d + bf;\n\n\t\t\tte[ 1 ] = c * f;\n\t\t\tte[ 5 ] = bf * d + ae;\n\t\t\tte[ 9 ] = af * d - be;\n\n\t\t\tte[ 2 ] = - d;\n\t\t\tte[ 6 ] = b * c;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'YZX' ) {\n\n\t\t\tconst ac = a * c, ad = a * d, bc = b * c, bd = b * d;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = bd - ac * f;\n\t\t\tte[ 8 ] = bc * f + ad;\n\n\t\t\tte[ 1 ] = f;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = - b * e;\n\n\t\t\tte[ 2 ] = - d * e;\n\t\t\tte[ 6 ] = ad * f + bc;\n\t\t\tte[ 10 ] = ac - bd * f;\n\n\t\t} else if ( euler.order === 'XZY' ) {\n\n\t\t\tconst ac = a * c, ad = a * d, bc = b * c, bd = b * d;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = - f;\n\t\t\tte[ 8 ] = d * e;\n\n\t\t\tte[ 1 ] = ac * f + bd;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = ad * f - bc;\n\n\t\t\tte[ 2 ] = bc * f - ad;\n\t\t\tte[ 6 ] = b * e;\n\t\t\tte[ 10 ] = bd * f + ac;\n\n\t\t}\n\n\t\t// bottom row\n\t\tte[ 3 ] = 0;\n\t\tte[ 7 ] = 0;\n\t\tte[ 11 ] = 0;\n\n\t\t// last column\n\t\tte[ 12 ] = 0;\n\t\tte[ 13 ] = 0;\n\t\tte[ 14 ] = 0;\n\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the rotation component of this matrix to the rotation specified by\n\t * the given Quaternion as outlined [here]{@link https://en.wikipedia.org/wiki/Rotation_matrix#Quaternion}\n\t * The rest of the matrix is set to the identity.\n\t *\n\t * @param {Quaternion} q - The Quaternion.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationFromQuaternion( q ) {\n\n\t\treturn this.compose( _zero, q, _one );\n\n\t}\n\n\t/**\n\t * Sets the rotation component of the transformation matrix, looking from `eye` towards\n\t * `target`, and oriented by the up-direction.\n\t *\n\t * @param {Vector3} eye - The eye vector.\n\t * @param {Vector3} target - The target vector.\n\t * @param {Vector3} up - The up vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tlookAt( eye, target, up ) {\n\n\t\tconst te = this.elements;\n\n\t\t_z.subVectors( eye, target );\n\n\t\tif ( _z.lengthSq() === 0 ) {\n\n\t\t\t// eye and target are in the same position\n\n\t\t\t_z.z = 1;\n\n\t\t}\n\n\t\t_z.normalize();\n\t\t_x.crossVectors( up, _z );\n\n\t\tif ( _x.lengthSq() === 0 ) {\n\n\t\t\t// up and z are parallel\n\n\t\t\tif ( Math.abs( up.z ) === 1 ) {\n\n\t\t\t\t_z.x += 0.0001;\n\n\t\t\t} else {\n\n\t\t\t\t_z.z += 0.0001;\n\n\t\t\t}\n\n\t\t\t_z.normalize();\n\t\t\t_x.crossVectors( up, _z );\n\n\t\t}\n\n\t\t_x.normalize();\n\t\t_y.crossVectors( _z, _x );\n\n\t\tte[ 0 ] = _x.x; te[ 4 ] = _y.x; te[ 8 ] = _z.x;\n\t\tte[ 1 ] = _x.y; te[ 5 ] = _y.y; te[ 9 ] = _z.y;\n\t\tte[ 2 ] = _x.z; te[ 6 ] = _y.z; te[ 10 ] = _z.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Post-multiplies this matrix by the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The matrix to multiply with.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmultiply( m ) {\n\n\t\treturn this.multiplyMatrices( this, m );\n\n\t}\n\n\t/**\n\t * Pre-multiplies this matrix by the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The matrix to multiply with.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tpremultiply( m ) {\n\n\t\treturn this.multiplyMatrices( m, this );\n\n\t}\n\n\t/**\n\t * Multiples the given 4x4 matrices and stores the result\n\t * in this matrix.\n\t *\n\t * @param {Matrix4} a - The first matrix.\n\t * @param {Matrix4} b - The second matrix.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmultiplyMatrices( a, b ) {\n\n\t\tconst ae = a.elements;\n\t\tconst be = b.elements;\n\t\tconst te = this.elements;\n\n\t\tconst a11 = ae[ 0 ], a12 = ae[ 4 ], a13 = ae[ 8 ], a14 = ae[ 12 ];\n\t\tconst a21 = ae[ 1 ], a22 = ae[ 5 ], a23 = ae[ 9 ], a24 = ae[ 13 ];\n\t\tconst a31 = ae[ 2 ], a32 = ae[ 6 ], a33 = ae[ 10 ], a34 = ae[ 14 ];\n\t\tconst a41 = ae[ 3 ], a42 = ae[ 7 ], a43 = ae[ 11 ], a44 = ae[ 15 ];\n\n\t\tconst b11 = be[ 0 ], b12 = be[ 4 ], b13 = be[ 8 ], b14 = be[ 12 ];\n\t\tconst b21 = be[ 1 ], b22 = be[ 5 ], b23 = be[ 9 ], b24 = be[ 13 ];\n\t\tconst b31 = be[ 2 ], b32 = be[ 6 ], b33 = be[ 10 ], b34 = be[ 14 ];\n\t\tconst b41 = be[ 3 ], b42 = be[ 7 ], b43 = be[ 11 ], b44 = be[ 15 ];\n\n\t\tte[ 0 ] = a11 * b11 + a12 * b21 + a13 * b31 + a14 * b41;\n\t\tte[ 4 ] = a11 * b12 + a12 * b22 + a13 * b32 + a14 * b42;\n\t\tte[ 8 ] = a11 * b13 + a12 * b23 + a13 * b33 + a14 * b43;\n\t\tte[ 12 ] = a11 * b14 + a12 * b24 + a13 * b34 + a14 * b44;\n\n\t\tte[ 1 ] = a21 * b11 + a22 * b21 + a23 * b31 + a24 * b41;\n\t\tte[ 5 ] = a21 * b12 + a22 * b22 + a23 * b32 + a24 * b42;\n\t\tte[ 9 ] = a21 * b13 + a22 * b23 + a23 * b33 + a24 * b43;\n\t\tte[ 13 ] = a21 * b14 + a22 * b24 + a23 * b34 + a24 * b44;\n\n\t\tte[ 2 ] = a31 * b11 + a32 * b21 + a33 * b31 + a34 * b41;\n\t\tte[ 6 ] = a31 * b12 + a32 * b22 + a33 * b32 + a34 * b42;\n\t\tte[ 10 ] = a31 * b13 + a32 * b23 + a33 * b33 + a34 * b43;\n\t\tte[ 14 ] = a31 * b14 + a32 * b24 + a33 * b34 + a34 * b44;\n\n\t\tte[ 3 ] = a41 * b11 + a42 * b21 + a43 * b31 + a44 * b41;\n\t\tte[ 7 ] = a41 * b12 + a42 * b22 + a43 * b32 + a44 * b42;\n\t\tte[ 11 ] = a41 * b13 + a42 * b23 + a43 * b33 + a44 * b43;\n\t\tte[ 15 ] = a41 * b14 + a42 * b24 + a43 * b34 + a44 * b44;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies every component of the matrix by the given scalar.\n\t *\n\t * @param {number} s - The scalar.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmultiplyScalar( s ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] *= s; te[ 4 ] *= s; te[ 8 ] *= s; te[ 12 ] *= s;\n\t\tte[ 1 ] *= s; te[ 5 ] *= s; te[ 9 ] *= s; te[ 13 ] *= s;\n\t\tte[ 2 ] *= s; te[ 6 ] *= s; te[ 10 ] *= s; te[ 14 ] *= s;\n\t\tte[ 3 ] *= s; te[ 7 ] *= s; te[ 11 ] *= s; te[ 15 ] *= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes and returns the determinant of this matrix.\n\t *\n\t * Based on the method outlined [here]{@link http://www.euclideanspace.com/maths/algebra/matrix/functions/inverse/fourD/index.html}.\n\t *\n\t * @return {number} The determinant.\n\t */\n\tdeterminant() {\n\n\t\tconst te = this.elements;\n\n\t\tconst n11 = te[ 0 ], n12 = te[ 4 ], n13 = te[ 8 ], n14 = te[ 12 ];\n\t\tconst n21 = te[ 1 ], n22 = te[ 5 ], n23 = te[ 9 ], n24 = te[ 13 ];\n\t\tconst n31 = te[ 2 ], n32 = te[ 6 ], n33 = te[ 10 ], n34 = te[ 14 ];\n\t\tconst n41 = te[ 3 ], n42 = te[ 7 ], n43 = te[ 11 ], n44 = te[ 15 ];\n\n\t\t//TODO: make this more efficient\n\n\t\treturn (\n\t\t\tn41 * (\n\t\t\t\t+ n14 * n23 * n32\n\t\t\t\t - n13 * n24 * n32\n\t\t\t\t - n14 * n22 * n33\n\t\t\t\t + n12 * n24 * n33\n\t\t\t\t + n13 * n22 * n34\n\t\t\t\t - n12 * n23 * n34\n\t\t\t) +\n\t\t\tn42 * (\n\t\t\t\t+ n11 * n23 * n34\n\t\t\t\t - n11 * n24 * n33\n\t\t\t\t + n14 * n21 * n33\n\t\t\t\t - n13 * n21 * n34\n\t\t\t\t + n13 * n24 * n31\n\t\t\t\t - n14 * n23 * n31\n\t\t\t) +\n\t\t\tn43 * (\n\t\t\t\t+ n11 * n24 * n32\n\t\t\t\t - n11 * n22 * n34\n\t\t\t\t - n14 * n21 * n32\n\t\t\t\t + n12 * n21 * n34\n\t\t\t\t + n14 * n22 * n31\n\t\t\t\t - n12 * n24 * n31\n\t\t\t) +\n\t\t\tn44 * (\n\t\t\t\t- n13 * n22 * n31\n\t\t\t\t - n11 * n23 * n32\n\t\t\t\t + n11 * n22 * n33\n\t\t\t\t + n13 * n21 * n32\n\t\t\t\t - n12 * n21 * n33\n\t\t\t\t + n12 * n23 * n31\n\t\t\t)\n\n\t\t);\n\n\t}\n\n\t/**\n\t * Transposes this matrix in place.\n\t *\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\ttranspose() {\n\n\t\tconst te = this.elements;\n\t\tlet tmp;\n\n\t\ttmp = te[ 1 ]; te[ 1 ] = te[ 4 ]; te[ 4 ] = tmp;\n\t\ttmp = te[ 2 ]; te[ 2 ] = te[ 8 ]; te[ 8 ] = tmp;\n\t\ttmp = te[ 6 ]; te[ 6 ] = te[ 9 ]; te[ 9 ] = tmp;\n\n\t\ttmp = te[ 3 ]; te[ 3 ] = te[ 12 ]; te[ 12 ] = tmp;\n\t\ttmp = te[ 7 ]; te[ 7 ] = te[ 13 ]; te[ 13 ] = tmp;\n\t\ttmp = te[ 11 ]; te[ 11 ] = te[ 14 ]; te[ 14 ] = tmp;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the position component for this matrix from the given vector,\n\t * without affecting the rest of the matrix.\n\t *\n\t * @param {number|Vector3} x - The x component of the vector or alternatively the vector object.\n\t * @param {number} y - The y component of the vector.\n\t * @param {number} z - The z component of the vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tsetPosition( x, y, z ) {\n\n\t\tconst te = this.elements;\n\n\t\tif ( x.isVector3 ) {\n\n\t\t\tte[ 12 ] = x.x;\n\t\t\tte[ 13 ] = x.y;\n\t\t\tte[ 14 ] = x.z;\n\n\t\t} else {\n\n\t\t\tte[ 12 ] = x;\n\t\t\tte[ 13 ] = y;\n\t\t\tte[ 14 ] = z;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this matrix, using the [analytic method]{@link https://en.wikipedia.org/wiki/Invertible_matrix#Analytic_solution}.\n\t * You can not invert with a determinant of zero. If you attempt this, the method produces\n\t * a zero matrix instead.\n\t *\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tinvert() {\n\n\t\t// based on http://www.euclideanspace.com/maths/algebra/matrix/functions/inverse/fourD/index.htm\n\t\tconst te = this.elements,\n\n\t\t\tn11 = te[ 0 ], n21 = te[ 1 ], n31 = te[ 2 ], n41 = te[ 3 ],\n\t\t\tn12 = te[ 4 ], n22 = te[ 5 ], n32 = te[ 6 ], n42 = te[ 7 ],\n\t\t\tn13 = te[ 8 ], n23 = te[ 9 ], n33 = te[ 10 ], n43 = te[ 11 ],\n\t\t\tn14 = te[ 12 ], n24 = te[ 13 ], n34 = te[ 14 ], n44 = te[ 15 ],\n\n\t\t\tt11 = n23 * n34 * n42 - n24 * n33 * n42 + n24 * n32 * n43 - n22 * n34 * n43 - n23 * n32 * n44 + n22 * n33 * n44,\n\t\t\tt12 = n14 * n33 * n42 - n13 * n34 * n42 - n14 * n32 * n43 + n12 * n34 * n43 + n13 * n32 * n44 - n12 * n33 * n44,\n\t\t\tt13 = n13 * n24 * n42 - n14 * n23 * n42 + n14 * n22 * n43 - n12 * n24 * n43 - n13 * n22 * n44 + n12 * n23 * n44,\n\t\t\tt14 = n14 * n23 * n32 - n13 * n24 * n32 - n14 * n22 * n33 + n12 * n24 * n33 + n13 * n22 * n34 - n12 * n23 * n34;\n\n\t\tconst det = n11 * t11 + n21 * t12 + n31 * t13 + n41 * t14;\n\n\t\tif ( det === 0 ) return this.set( 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 );\n\n\t\tconst detInv = 1 / det;\n\n\t\tte[ 0 ] = t11 * detInv;\n\t\tte[ 1 ] = ( n24 * n33 * n41 - n23 * n34 * n41 - n24 * n31 * n43 + n21 * n34 * n43 + n23 * n31 * n44 - n21 * n33 * n44 ) * detInv;\n\t\tte[ 2 ] = ( n22 * n34 * n41 - n24 * n32 * n41 + n24 * n31 * n42 - n21 * n34 * n42 - n22 * n31 * n44 + n21 * n32 * n44 ) * detInv;\n\t\tte[ 3 ] = ( n23 * n32 * n41 - n22 * n33 * n41 - n23 * n31 * n42 + n21 * n33 * n42 + n22 * n31 * n43 - n21 * n32 * n43 ) * detInv;\n\n\t\tte[ 4 ] = t12 * detInv;\n\t\tte[ 5 ] = ( n13 * n34 * n41 - n14 * n33 * n41 + n14 * n31 * n43 - n11 * n34 * n43 - n13 * n31 * n44 + n11 * n33 * n44 ) * detInv;\n\t\tte[ 6 ] = ( n14 * n32 * n41 - n12 * n34 * n41 - n14 * n31 * n42 + n11 * n34 * n42 + n12 * n31 * n44 - n11 * n32 * n44 ) * detInv;\n\t\tte[ 7 ] = ( n12 * n33 * n41 - n13 * n32 * n41 + n13 * n31 * n42 - n11 * n33 * n42 - n12 * n31 * n43 + n11 * n32 * n43 ) * detInv;\n\n\t\tte[ 8 ] = t13 * detInv;\n\t\tte[ 9 ] = ( n14 * n23 * n41 - n13 * n24 * n41 - n14 * n21 * n43 + n11 * n24 * n43 + n13 * n21 * n44 - n11 * n23 * n44 ) * detInv;\n\t\tte[ 10 ] = ( n12 * n24 * n41 - n14 * n22 * n41 + n14 * n21 * n42 - n11 * n24 * n42 - n12 * n21 * n44 + n11 * n22 * n44 ) * detInv;\n\t\tte[ 11 ] = ( n13 * n22 * n41 - n12 * n23 * n41 - n13 * n21 * n42 + n11 * n23 * n42 + n12 * n21 * n43 - n11 * n22 * n43 ) * detInv;\n\n\t\tte[ 12 ] = t14 * detInv;\n\t\tte[ 13 ] = ( n13 * n24 * n31 - n14 * n23 * n31 + n14 * n21 * n33 - n11 * n24 * n33 - n13 * n21 * n34 + n11 * n23 * n34 ) * detInv;\n\t\tte[ 14 ] = ( n14 * n22 * n31 - n12 * n24 * n31 - n14 * n21 * n32 + n11 * n24 * n32 + n12 * n21 * n34 - n11 * n22 * n34 ) * detInv;\n\t\tte[ 15 ] = ( n12 * n23 * n31 - n13 * n22 * n31 + n13 * n21 * n32 - n11 * n23 * n32 - n12 * n21 * n33 + n11 * n22 * n33 ) * detInv;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the columns of this matrix by the given vector.\n\t *\n\t * @param {Vector3} v - The scale vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tscale( v ) {\n\n\t\tconst te = this.elements;\n\t\tconst x = v.x, y = v.y, z = v.z;\n\n\t\tte[ 0 ] *= x; te[ 4 ] *= y; te[ 8 ] *= z;\n\t\tte[ 1 ] *= x; te[ 5 ] *= y; te[ 9 ] *= z;\n\t\tte[ 2 ] *= x; te[ 6 ] *= y; te[ 10 ] *= z;\n\t\tte[ 3 ] *= x; te[ 7 ] *= y; te[ 11 ] *= z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Gets the maximum scale value of the three axes.\n\t *\n\t * @return {number} The maximum scale.\n\t */\n\tgetMaxScaleOnAxis() {\n\n\t\tconst te = this.elements;\n\n\t\tconst scaleXSq = te[ 0 ] * te[ 0 ] + te[ 1 ] * te[ 1 ] + te[ 2 ] * te[ 2 ];\n\t\tconst scaleYSq = te[ 4 ] * te[ 4 ] + te[ 5 ] * te[ 5 ] + te[ 6 ] * te[ 6 ];\n\t\tconst scaleZSq = te[ 8 ] * te[ 8 ] + te[ 9 ] * te[ 9 ] + te[ 10 ] * te[ 10 ];\n\n\t\treturn Math.sqrt( Math.max( scaleXSq, scaleYSq, scaleZSq ) );\n\n\t}\n\n\t/**\n\t * Sets this matrix as a translation transform from the given vector.\n\t *\n\t * @param {number|Vector3} x - The amount to translate in the X axis or alternatively a translation vector.\n\t * @param {number} y - The amount to translate in the Y axis.\n\t * @param {number} z - The amount to translate in the z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeTranslation( x, y, z ) {\n\n\t\tif ( x.isVector3 ) {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, 0, x.x,\n\t\t\t\t0, 1, 0, x.y,\n\t\t\t\t0, 0, 1, x.z,\n\t\t\t\t0, 0, 0, 1\n\n\t\t\t);\n\n\t\t} else {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, 0, x,\n\t\t\t\t0, 1, 0, y,\n\t\t\t\t0, 0, 1, z,\n\t\t\t\t0, 0, 0, 1\n\n\t\t\t);\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the X axis by\n\t * the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationX( theta ) {\n\n\t\tconst c = Math.cos( theta ), s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\t1, 0, 0, 0,\n\t\t\t0, c, - s, 0,\n\t\t\t0, s, c, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the Y axis by\n\t * the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationY( theta ) {\n\n\t\tconst c = Math.cos( theta ), s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\t c, 0, s, 0,\n\t\t\t 0, 1, 0, 0,\n\t\t\t- s, 0, c, 0,\n\t\t\t 0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the Z axis by\n\t * the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationZ( theta ) {\n\n\t\tconst c = Math.cos( theta ), s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\tc, - s, 0, 0,\n\t\t\ts, c, 0, 0,\n\t\t\t0, 0, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the given axis by\n\t * the given angle.\n\t *\n\t * This is a somewhat controversial but mathematically sound alternative to\n\t * rotating via Quaternions. See the discussion [here]{@link https://www.gamedev.net/articles/programming/math-and-physics/do-we-really-need-quaternions-r1199}.\n\t *\n\t * @param {Vector3} axis - The normalized rotation axis.\n\t * @param {number} angle - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationAxis( axis, angle ) {\n\n\t\t// Based on http://www.gamedev.net/reference/articles/article1199.asp\n\n\t\tconst c = Math.cos( angle );\n\t\tconst s = Math.sin( angle );\n\t\tconst t = 1 - c;\n\t\tconst x = axis.x, y = axis.y, z = axis.z;\n\t\tconst tx = t * x, ty = t * y;\n\n\t\tthis.set(\n\n\t\t\ttx * x + c, tx * y - s * z, tx * z + s * y, 0,\n\t\t\ttx * y + s * z, ty * y + c, ty * z - s * x, 0,\n\t\t\ttx * z - s * y, ty * z + s * x, t * z * z + c, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a scale transformation.\n\t *\n\t * @param {number} x - The amount to scale in the X axis.\n\t * @param {number} y - The amount to scale in the Y axis.\n\t * @param {number} z - The amount to scale in the Z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeScale( x, y, z ) {\n\n\t\tthis.set(\n\n\t\t\tx, 0, 0, 0,\n\t\t\t0, y, 0, 0,\n\t\t\t0, 0, z, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a shear transformation.\n\t *\n\t * @param {number} xy - The amount to shear X by Y.\n\t * @param {number} xz - The amount to shear X by Z.\n\t * @param {number} yx - The amount to shear Y by X.\n\t * @param {number} yz - The amount to shear Y by Z.\n\t * @param {number} zx - The amount to shear Z by X.\n\t * @param {number} zy - The amount to shear Z by Y.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeShear( xy, xz, yx, yz, zx, zy ) {\n\n\t\tthis.set(\n\n\t\t\t1, yx, zx, 0,\n\t\t\txy, 1, zy, 0,\n\t\t\txz, yz, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix to the transformation composed of the given position,\n\t * rotation (Quaternion) and scale.\n\t *\n\t * @param {Vector3} position - The position vector.\n\t * @param {Quaternion} quaternion - The rotation as a Quaternion.\n\t * @param {Vector3} scale - The scale vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tcompose( position, quaternion, scale ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = quaternion._x, y = quaternion._y, z = quaternion._z, w = quaternion._w;\n\t\tconst x2 = x + x,\ty2 = y + y, z2 = z + z;\n\t\tconst xx = x * x2, xy = x * y2, xz = x * z2;\n\t\tconst yy = y * y2, yz = y * z2, zz = z * z2;\n\t\tconst wx = w * x2, wy = w * y2, wz = w * z2;\n\n\t\tconst sx = scale.x, sy = scale.y, sz = scale.z;\n\n\t\tte[ 0 ] = ( 1 - ( yy + zz ) ) * sx;\n\t\tte[ 1 ] = ( xy + wz ) * sx;\n\t\tte[ 2 ] = ( xz - wy ) * sx;\n\t\tte[ 3 ] = 0;\n\n\t\tte[ 4 ] = ( xy - wz ) * sy;\n\t\tte[ 5 ] = ( 1 - ( xx + zz ) ) * sy;\n\t\tte[ 6 ] = ( yz + wx ) * sy;\n\t\tte[ 7 ] = 0;\n\n\t\tte[ 8 ] = ( xz + wy ) * sz;\n\t\tte[ 9 ] = ( yz - wx ) * sz;\n\t\tte[ 10 ] = ( 1 - ( xx + yy ) ) * sz;\n\t\tte[ 11 ] = 0;\n\n\t\tte[ 12 ] = position.x;\n\t\tte[ 13 ] = position.y;\n\t\tte[ 14 ] = position.z;\n\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Decomposes this matrix into its position, rotation and scale components\n\t * and provides the result in the given objects.\n\t *\n\t * Note: Not all matrices are decomposable in this way. For example, if an\n\t * object has a non-uniformly scaled parent, then the object's world matrix\n\t * may not be decomposable, and this method may not be appropriate.\n\t *\n\t * @param {Vector3} position - The position vector.\n\t * @param {Quaternion} quaternion - The rotation as a Quaternion.\n\t * @param {Vector3} scale - The scale vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tdecompose( position, quaternion, scale ) {\n\n\t\tconst te = this.elements;\n\n\t\tlet sx = _v1$5.set( te[ 0 ], te[ 1 ], te[ 2 ] ).length();\n\t\tconst sy = _v1$5.set( te[ 4 ], te[ 5 ], te[ 6 ] ).length();\n\t\tconst sz = _v1$5.set( te[ 8 ], te[ 9 ], te[ 10 ] ).length();\n\n\t\t// if determine is negative, we need to invert one scale\n\t\tconst det = this.determinant();\n\t\tif ( det < 0 ) sx = - sx;\n\n\t\tposition.x = te[ 12 ];\n\t\tposition.y = te[ 13 ];\n\t\tposition.z = te[ 14 ];\n\n\t\t// scale the rotation part\n\t\t_m1$2.copy( this );\n\n\t\tconst invSX = 1 / sx;\n\t\tconst invSY = 1 / sy;\n\t\tconst invSZ = 1 / sz;\n\n\t\t_m1$2.elements[ 0 ] *= invSX;\n\t\t_m1$2.elements[ 1 ] *= invSX;\n\t\t_m1$2.elements[ 2 ] *= invSX;\n\n\t\t_m1$2.elements[ 4 ] *= invSY;\n\t\t_m1$2.elements[ 5 ] *= invSY;\n\t\t_m1$2.elements[ 6 ] *= invSY;\n\n\t\t_m1$2.elements[ 8 ] *= invSZ;\n\t\t_m1$2.elements[ 9 ] *= invSZ;\n\t\t_m1$2.elements[ 10 ] *= invSZ;\n\n\t\tquaternion.setFromRotationMatrix( _m1$2 );\n\n\t\tscale.x = sx;\n\t\tscale.y = sy;\n\t\tscale.z = sz;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Creates a perspective projection matrix. This is used internally by\n\t * {@link PerspectiveCamera#updateProjectionMatrix}.\n\n\t * @param {number} left - Left boundary of the viewing frustum at the near plane.\n\t * @param {number} right - Right boundary of the viewing frustum at the near plane.\n\t * @param {number} top - Top boundary of the viewing frustum at the near plane.\n\t * @param {number} bottom - Bottom boundary of the viewing frustum at the near plane.\n\t * @param {number} near - The distance from the camera to the near plane.\n\t * @param {number} far - The distance from the camera to the far plane.\n\t * @param {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} [coordinateSystem=WebGLCoordinateSystem] - The coordinate system.\n\t * @param {boolean} [reversedDepth=false] - Whether to use a reversed depth.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakePerspective( left, right, top, bottom, near, far, coordinateSystem = WebGLCoordinateSystem, reversedDepth = false ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = 2 * near / ( right - left );\n\t\tconst y = 2 * near / ( top - bottom );\n\n\t\tconst a = ( right + left ) / ( right - left );\n\t\tconst b = ( top + bottom ) / ( top - bottom );\n\n\t\tlet c, d;\n\n\t\tif ( reversedDepth ) {\n\n\t\t\tc = near / ( far - near );\n\t\t\td = ( far * near ) / ( far - near );\n\n\t\t} else {\n\n\t\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tc = - ( far + near ) / ( far - near );\n\t\t\t\td = ( -2 * far * near ) / ( far - near );\n\n\t\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tc = - far / ( far - near );\n\t\t\t\td = ( - far * near ) / ( far - near );\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.Matrix4.makePerspective(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\t\tte[ 0 ] = x;\tte[ 4 ] = 0;\tte[ 8 ] = a; \tte[ 12 ] = 0;\n\t\tte[ 1 ] = 0;\tte[ 5 ] = y;\tte[ 9 ] = b; \tte[ 13 ] = 0;\n\t\tte[ 2 ] = 0;\tte[ 6 ] = 0;\tte[ 10 ] = c; \tte[ 14 ] = d;\n\t\tte[ 3 ] = 0;\tte[ 7 ] = 0;\tte[ 11 ] = -1;\tte[ 15 ] = 0;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Creates a orthographic projection matrix. This is used internally by\n\t * {@link OrthographicCamera#updateProjectionMatrix}.\n\n\t * @param {number} left - Left boundary of the viewing frustum at the near plane.\n\t * @param {number} right - Right boundary of the viewing frustum at the near plane.\n\t * @param {number} top - Top boundary of the viewing frustum at the near plane.\n\t * @param {number} bottom - Bottom boundary of the viewing frustum at the near plane.\n\t * @param {number} near - The distance from the camera to the near plane.\n\t * @param {number} far - The distance from the camera to the far plane.\n\t * @param {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} [coordinateSystem=WebGLCoordinateSystem] - The coordinate system.\n\t * @param {boolean} [reversedDepth=false] - Whether to use a reversed depth.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeOrthographic( left, right, top, bottom, near, far, coordinateSystem = WebGLCoordinateSystem, reversedDepth = false ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = 2 / ( right - left );\n\t\tconst y = 2 / ( top - bottom );\n\n\t\tconst a = - ( right + left ) / ( right - left );\n\t\tconst b = - ( top + bottom ) / ( top - bottom );\n\n\t\tlet c, d;\n\n\t\tif ( reversedDepth ) {\n\n\t\t\tc = 1 / ( far - near );\n\t\t\td = far / ( far - near );\n\n\t\t} else {\n\n\t\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tc = -2 / ( far - near );\n\t\t\t\td = - ( far + near ) / ( far - near );\n\n\t\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tc = -1 / ( far - near );\n\t\t\t\td = - near / ( far - near );\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.Matrix4.makeOrthographic(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\t\tte[ 0 ] = x;\t\tte[ 4 ] = 0;\t\tte[ 8 ] = 0; \t\tte[ 12 ] = a;\n\t\tte[ 1 ] = 0; \t\tte[ 5 ] = y;\t\tte[ 9 ] = 0; \t\tte[ 13 ] = b;\n\t\tte[ 2 ] = 0; \t\tte[ 6 ] = 0;\t\tte[ 10 ] = c;\t\tte[ 14 ] = d;\n\t\tte[ 3 ] = 0; \t\tte[ 7 ] = 0;\t\tte[ 11 ] = 0;\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this matrix is equal with the given one.\n\t *\n\t * @param {Matrix4} matrix - The matrix to test for equality.\n\t * @return {boolean} Whether this matrix is equal with the given one.\n\t */\n\tequals( matrix ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = matrix.elements;\n\n\t\tfor ( let i = 0; i < 16; i ++ ) {\n\n\t\t\tif ( te[ i ] !== me[ i ] ) return false;\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix from the given array.\n\t *\n\t * @param {Array} array - The matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tfor ( let i = 0; i < 16; i ++ ) {\n\n\t\t\tthis.elements[ i ] = array[ i + offset ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the elements of this matrix to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The matrix elements in column-major order.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tconst te = this.elements;\n\n\t\tarray[ offset ] = te[ 0 ];\n\t\tarray[ offset + 1 ] = te[ 1 ];\n\t\tarray[ offset + 2 ] = te[ 2 ];\n\t\tarray[ offset + 3 ] = te[ 3 ];\n\n\t\tarray[ offset + 4 ] = te[ 4 ];\n\t\tarray[ offset + 5 ] = te[ 5 ];\n\t\tarray[ offset + 6 ] = te[ 6 ];\n\t\tarray[ offset + 7 ] = te[ 7 ];\n\n\t\tarray[ offset + 8 ] = te[ 8 ];\n\t\tarray[ offset + 9 ] = te[ 9 ];\n\t\tarray[ offset + 10 ] = te[ 10 ];\n\t\tarray[ offset + 11 ] = te[ 11 ];\n\n\t\tarray[ offset + 12 ] = te[ 12 ];\n\t\tarray[ offset + 13 ] = te[ 13 ];\n\t\tarray[ offset + 14 ] = te[ 14 ];\n\t\tarray[ offset + 15 ] = te[ 15 ];\n\n\t\treturn array;\n\n\t}\n\n}\n\nconst _v1$5 = /*@__PURE__*/ new Vector3();\nconst _m1$2 = /*@__PURE__*/ new Matrix4();\nconst _zero = /*@__PURE__*/ new Vector3( 0, 0, 0 );\nconst _one = /*@__PURE__*/ new Vector3( 1, 1, 1 );\nconst _x = /*@__PURE__*/ new Vector3();\nconst _y = /*@__PURE__*/ new Vector3();\nconst _z = /*@__PURE__*/ new Vector3();\n\nconst _matrix$2 = /*@__PURE__*/ new Matrix4();\nconst _quaternion$3 = /*@__PURE__*/ new Quaternion();\n\n/**\n * A class representing Euler angles.\n *\n * Euler angles describe a rotational transformation by rotating an object on\n * its various axes in specified amounts per axis, and a specified axis\n * order.\n *\n * Iterating through an instance will yield its components (x, y, z,\n * order) in the corresponding order.\n *\n * ```js\n * const a = new THREE.Euler( 0, 1, 1.57, 'XYZ' );\n * const b = new THREE.Vector3( 1, 0, 1 );\n * b.applyEuler(a);\n * ```\n */\nclass Euler {\n\n\t/**\n\t * Constructs a new euler instance.\n\t *\n\t * @param {number} [x=0] - The angle of the x axis in radians.\n\t * @param {number} [y=0] - The angle of the y axis in radians.\n\t * @param {number} [z=0] - The angle of the z axis in radians.\n\t * @param {string} [order=Euler.DEFAULT_ORDER] - A string representing the order that the rotations are applied.\n\t */\n\tconstructor( x = 0, y = 0, z = 0, order = Euler.DEFAULT_ORDER ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isEuler = true;\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._order = order;\n\n\t}\n\n\t/**\n\t * The angle of the x axis in radians.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget x() {\n\n\t\treturn this._x;\n\n\t}\n\n\tset x( value ) {\n\n\t\tthis._x = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The angle of the y axis in radians.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget y() {\n\n\t\treturn this._y;\n\n\t}\n\n\tset y( value ) {\n\n\t\tthis._y = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The angle of the z axis in radians.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget z() {\n\n\t\treturn this._z;\n\n\t}\n\n\tset z( value ) {\n\n\t\tthis._z = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * A string representing the order that the rotations are applied.\n\t *\n\t * @type {string}\n\t * @default 'XYZ'\n\t */\n\tget order() {\n\n\t\treturn this._order;\n\n\t}\n\n\tset order( value ) {\n\n\t\tthis._order = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * Sets the Euler components.\n\t *\n\t * @param {number} x - The angle of the x axis in radians.\n\t * @param {number} y - The angle of the y axis in radians.\n\t * @param {number} z - The angle of the z axis in radians.\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tset( x, y, z, order = this._order ) {\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._order = order;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new Euler instance with copied values from this instance.\n\t *\n\t * @return {Euler} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this._x, this._y, this._z, this._order );\n\n\t}\n\n\t/**\n\t * Copies the values of the given Euler instance to this instance.\n\t *\n\t * @param {Euler} euler - The Euler instance to copy.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tcopy( euler ) {\n\n\t\tthis._x = euler._x;\n\t\tthis._y = euler._y;\n\t\tthis._z = euler._z;\n\t\tthis._order = euler._order;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the angles of this Euler instance from a pure rotation matrix.\n\t *\n\t * @param {Matrix4} m - A 4x4 matrix of which the upper 3x3 of matrix is a pure rotation matrix (i.e. unscaled).\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tsetFromRotationMatrix( m, order = this._order, update = true ) {\n\n\t\tconst te = m.elements;\n\t\tconst m11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ];\n\t\tconst m21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ];\n\t\tconst m31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ];\n\n\t\tswitch ( order ) {\n\n\t\t\tcase 'XYZ':\n\n\t\t\t\tthis._y = Math.asin( clamp( m13, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m13 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( - m23, m33 );\n\t\t\t\t\tthis._z = Math.atan2( - m12, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = Math.atan2( m32, m22 );\n\t\t\t\t\tthis._z = 0;\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'YXZ':\n\n\t\t\t\tthis._x = Math.asin( - clamp( m23, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m23 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._y = Math.atan2( m13, m33 );\n\t\t\t\t\tthis._z = Math.atan2( m21, m22 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._y = Math.atan2( - m31, m11 );\n\t\t\t\t\tthis._z = 0;\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZXY':\n\n\t\t\t\tthis._x = Math.asin( clamp( m32, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m32 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._y = Math.atan2( - m31, m33 );\n\t\t\t\t\tthis._z = Math.atan2( - m12, m22 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._y = 0;\n\t\t\t\t\tthis._z = Math.atan2( m21, m11 );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZYX':\n\n\t\t\t\tthis._y = Math.asin( - clamp( m31, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m31 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( m32, m33 );\n\t\t\t\t\tthis._z = Math.atan2( m21, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = 0;\n\t\t\t\t\tthis._z = Math.atan2( - m12, m22 );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'YZX':\n\n\t\t\t\tthis._z = Math.asin( clamp( m21, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m21 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( - m23, m22 );\n\t\t\t\t\tthis._y = Math.atan2( - m31, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = 0;\n\t\t\t\t\tthis._y = Math.atan2( m13, m33 );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'XZY':\n\n\t\t\t\tthis._z = Math.asin( - clamp( m12, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m12 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( m32, m22 );\n\t\t\t\t\tthis._y = Math.atan2( m13, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = Math.atan2( - m23, m33 );\n\t\t\t\t\tthis._y = 0;\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\n\t\t\t\tconsole.warn( 'THREE.Euler: .setFromRotationMatrix() encountered an unknown order: ' + order );\n\n\t\t}\n\n\t\tthis._order = order;\n\n\t\tif ( update === true ) this._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the angles of this Euler instance from a normalized quaternion.\n\t *\n\t * @param {Quaternion} q - A normalized Quaternion.\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tsetFromQuaternion( q, order, update ) {\n\n\t\t_matrix$2.makeRotationFromQuaternion( q );\n\n\t\treturn this.setFromRotationMatrix( _matrix$2, order, update );\n\n\t}\n\n\t/**\n\t * Sets the angles of this Euler instance from the given vector.\n\t *\n\t * @param {Vector3} v - The vector.\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tsetFromVector3( v, order = this._order ) {\n\n\t\treturn this.set( v.x, v.y, v.z, order );\n\n\t}\n\n\t/**\n\t * Resets the euler angle with a new order by creating a quaternion from this\n\t * euler angle and then setting this euler angle with the quaternion and the\n\t * new order.\n\t *\n\t * Warning: This discards revolution information.\n\t *\n\t * @param {string} [newOrder] - A string representing the new order that the rotations are applied.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\treorder( newOrder ) {\n\n\t\t_quaternion$3.setFromEuler( this );\n\n\t\treturn this.setFromQuaternion( _quaternion$3, newOrder );\n\n\t}\n\n\t/**\n\t * Returns `true` if this Euler instance is equal with the given one.\n\t *\n\t * @param {Euler} euler - The Euler instance to test for equality.\n\t * @return {boolean} Whether this Euler instance is equal with the given one.\n\t */\n\tequals( euler ) {\n\n\t\treturn ( euler._x === this._x ) && ( euler._y === this._y ) && ( euler._z === this._z ) && ( euler._order === this._order );\n\n\t}\n\n\t/**\n\t * Sets this Euler instance's components to values from the given array. The first three\n\t * entries of the array are assign to the x,y and z components. An optional fourth entry\n\t * defines the Euler order.\n\t *\n\t * @param {Array} array - An array holding the Euler component values.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tfromArray( array ) {\n\n\t\tthis._x = array[ 0 ];\n\t\tthis._y = array[ 1 ];\n\t\tthis._z = array[ 2 ];\n\t\tif ( array[ 3 ] !== undefined ) this._order = array[ 3 ];\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this Euler instance to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the Euler components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The Euler components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this._x;\n\t\tarray[ offset + 1 ] = this._y;\n\t\tarray[ offset + 2 ] = this._z;\n\t\tarray[ offset + 3 ] = this._order;\n\n\t\treturn array;\n\n\t}\n\n\t_onChange( callback ) {\n\n\t\tthis._onChangeCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t_onChangeCallback() {}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this._x;\n\t\tyield this._y;\n\t\tyield this._z;\n\t\tyield this._order;\n\n\t}\n\n}\n\n/**\n * The default Euler angle order.\n *\n * @static\n * @type {string}\n * @default 'XYZ'\n */\nEuler.DEFAULT_ORDER = 'XYZ';\n\n/**\n * A layers object assigns an 3D object to 1 or more of 32\n * layers numbered `0` to `31` - internally the layers are stored as a\n * bit mask], and by default all 3D objects are a member of layer `0`.\n *\n * This can be used to control visibility - an object must share a layer with\n * a camera to be visible when that camera's view is\n * rendered.\n *\n * All classes that inherit from {@link Object3D} have an `layers` property which\n * is an instance of this class.\n */\nclass Layers {\n\n\t/**\n\t * Constructs a new layers instance, with membership\n\t * initially set to layer `0`.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * A bit mask storing which of the 32 layers this layers object is currently\n\t\t * a member of.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.mask = 1 | 0;\n\n\t}\n\n\t/**\n\t * Sets membership to the given layer, and remove membership all other layers.\n\t *\n\t * @param {number} layer - The layer to set.\n\t */\n\tset( layer ) {\n\n\t\tthis.mask = ( 1 << layer | 0 ) >>> 0;\n\n\t}\n\n\t/**\n\t * Adds membership of the given layer.\n\t *\n\t * @param {number} layer - The layer to enable.\n\t */\n\tenable( layer ) {\n\n\t\tthis.mask |= 1 << layer | 0;\n\n\t}\n\n\t/**\n\t * Adds membership to all layers.\n\t */\n\tenableAll() {\n\n\t\tthis.mask = 0xffffffff | 0;\n\n\t}\n\n\t/**\n\t * Toggles the membership of the given layer.\n\t *\n\t * @param {number} layer - The layer to toggle.\n\t */\n\ttoggle( layer ) {\n\n\t\tthis.mask ^= 1 << layer | 0;\n\n\t}\n\n\t/**\n\t * Removes membership of the given layer.\n\t *\n\t * @param {number} layer - The layer to enable.\n\t */\n\tdisable( layer ) {\n\n\t\tthis.mask &= ~ ( 1 << layer | 0 );\n\n\t}\n\n\t/**\n\t * Removes the membership from all layers.\n\t */\n\tdisableAll() {\n\n\t\tthis.mask = 0;\n\n\t}\n\n\t/**\n\t * Returns `true` if this and the given layers object have at least one\n\t * layer in common.\n\t *\n\t * @param {Layers} layers - The layers to test.\n\t * @return {boolean } Whether this and the given layers object have at least one layer in common or not.\n\t */\n\ttest( layers ) {\n\n\t\treturn ( this.mask & layers.mask ) !== 0;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given layer is enabled.\n\t *\n\t * @param {number} layer - The layer to test.\n\t * @return {boolean } Whether the given layer is enabled or not.\n\t */\n\tisEnabled( layer ) {\n\n\t\treturn ( this.mask & ( 1 << layer | 0 ) ) !== 0;\n\n\t}\n\n}\n\nlet _object3DId = 0;\n\nconst _v1$4 = /*@__PURE__*/ new Vector3();\nconst _q1 = /*@__PURE__*/ new Quaternion();\nconst _m1$1 = /*@__PURE__*/ new Matrix4();\nconst _target = /*@__PURE__*/ new Vector3();\n\nconst _position$3 = /*@__PURE__*/ new Vector3();\nconst _scale$2 = /*@__PURE__*/ new Vector3();\nconst _quaternion$2 = /*@__PURE__*/ new Quaternion();\n\nconst _xAxis = /*@__PURE__*/ new Vector3( 1, 0, 0 );\nconst _yAxis = /*@__PURE__*/ new Vector3( 0, 1, 0 );\nconst _zAxis = /*@__PURE__*/ new Vector3( 0, 0, 1 );\n\n/**\n * Fires when the object has been added to its parent object.\n *\n * @event Object3D#added\n * @type {Object}\n */\nconst _addedEvent = { type: 'added' };\n\n/**\n * Fires when the object has been removed from its parent object.\n *\n * @event Object3D#removed\n * @type {Object}\n */\nconst _removedEvent = { type: 'removed' };\n\n/**\n * Fires when a new child object has been added.\n *\n * @event Object3D#childadded\n * @type {Object}\n */\nconst _childaddedEvent = { type: 'childadded', child: null };\n\n/**\n * Fires when a child object has been removed.\n *\n * @event Object3D#childremoved\n * @type {Object}\n */\nconst _childremovedEvent = { type: 'childremoved', child: null };\n\n/**\n * This is the base class for most objects in three.js and provides a set of\n * properties and methods for manipulating objects in 3D space.\n *\n * @augments EventDispatcher\n */\nclass Object3D extends EventDispatcher {\n\n\t/**\n\t * Constructs a new 3D object.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isObject3D = true;\n\n\t\t/**\n\t\t * The ID of the 3D object.\n\t\t *\n\t\t * @name Object3D#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _object3DId ++ } );\n\n\t\t/**\n\t\t * The UUID of the 3D object.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the 3D object.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'Object3D';\n\n\t\t/**\n\t\t * A reference to the parent object.\n\t\t *\n\t\t * @type {?Object3D}\n\t\t * @default null\n\t\t */\n\t\tthis.parent = null;\n\n\t\t/**\n\t\t * An array holding the child 3D objects of this instance.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.children = [];\n\n\t\t/**\n\t\t * Defines the `up` direction of the 3D object which influences\n\t\t * the orientation via methods like {@link Object3D#lookAt}.\n\t\t *\n\t\t * The default values for all 3D objects is defined by `Object3D.DEFAULT_UP`.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.up = Object3D.DEFAULT_UP.clone();\n\n\t\tconst position = new Vector3();\n\t\tconst rotation = new Euler();\n\t\tconst quaternion = new Quaternion();\n\t\tconst scale = new Vector3( 1, 1, 1 );\n\n\t\tfunction onRotationChange() {\n\n\t\t\tquaternion.setFromEuler( rotation, false );\n\n\t\t}\n\n\t\tfunction onQuaternionChange() {\n\n\t\t\trotation.setFromQuaternion( quaternion, undefined, false );\n\n\t\t}\n\n\t\trotation._onChange( onRotationChange );\n\t\tquaternion._onChange( onQuaternionChange );\n\n\t\tObject.defineProperties( this, {\n\t\t\t/**\n\t\t\t * Represents the object's local position.\n\t\t\t *\n\t\t\t * @name Object3D#position\n\t\t\t * @type {Vector3}\n\t\t\t * @default (0,0,0)\n\t\t\t */\n\t\t\tposition: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: position\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's local rotation as Euler angles, in radians.\n\t\t\t *\n\t\t\t * @name Object3D#rotation\n\t\t\t * @type {Euler}\n\t\t\t * @default (0,0,0)\n\t\t\t */\n\t\t\trotation: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: rotation\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's local rotation as Quaternions.\n\t\t\t *\n\t\t\t * @name Object3D#quaternion\n\t\t\t * @type {Quaternion}\n\t\t\t */\n\t\t\tquaternion: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: quaternion\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's local scale.\n\t\t\t *\n\t\t\t * @name Object3D#scale\n\t\t\t * @type {Vector3}\n\t\t\t * @default (1,1,1)\n\t\t\t */\n\t\t\tscale: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: scale\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's model-view matrix.\n\t\t\t *\n\t\t\t * @name Object3D#modelViewMatrix\n\t\t\t * @type {Matrix4}\n\t\t\t */\n\t\t\tmodelViewMatrix: {\n\t\t\t\tvalue: new Matrix4()\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's normal matrix.\n\t\t\t *\n\t\t\t * @name Object3D#normalMatrix\n\t\t\t * @type {Matrix3}\n\t\t\t */\n\t\t\tnormalMatrix: {\n\t\t\t\tvalue: new Matrix3()\n\t\t\t}\n\t\t} );\n\n\t\t/**\n\t\t * Represents the object's transformation matrix in local space.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrix = new Matrix4();\n\n\t\t/**\n\t\t * Represents the object's transformation matrix in world space.\n\t\t * If the 3D object has no parent, then it's identical to the local transformation matrix\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrixWorld = new Matrix4();\n\n\t\t/**\n\t\t * When set to `true`, the engine automatically computes the local matrix from position,\n\t\t * rotation and scale every frame.\n\t\t *\n\t\t * The default values for all 3D objects is defined by `Object3D.DEFAULT_MATRIX_AUTO_UPDATE`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.matrixAutoUpdate = Object3D.DEFAULT_MATRIX_AUTO_UPDATE;\n\n\t\t/**\n\t\t * When set to `true`, the engine automatically computes the world matrix from the current local\n\t\t * matrix and the object's transformation hierarchy.\n\t\t *\n\t\t * The default values for all 3D objects is defined by `Object3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.matrixWorldAutoUpdate = Object3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE; // checked by the renderer\n\n\t\t/**\n\t\t * When set to `true`, it calculates the world matrix in that frame and resets this property\n\t\t * to `false`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.matrixWorldNeedsUpdate = false;\n\n\t\t/**\n\t\t * The layer membership of the 3D object. The 3D object is only visible if it has\n\t\t * at least one layer in common with the camera in use. This property can also be\n\t\t * used to filter out unwanted objects in ray-intersection tests when using {@link Raycaster}.\n\t\t *\n\t\t * @type {Layers}\n\t\t */\n\t\tthis.layers = new Layers();\n\n\t\t/**\n\t\t * When set to `true`, the 3D object gets rendered.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.visible = true;\n\n\t\t/**\n\t\t * When set to `true`, the 3D object gets rendered into shadow maps.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.castShadow = false;\n\n\t\t/**\n\t\t * When set to `true`, the 3D object is affected by shadows in the scene.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.receiveShadow = false;\n\n\t\t/**\n\t\t * When set to `true`, the 3D object is honored by view frustum culling.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.frustumCulled = true;\n\n\t\t/**\n\t\t * This value allows the default rendering order of scene graph objects to be\n\t\t * overridden although opaque and transparent objects remain sorted independently.\n\t\t * When this property is set for an instance of {@link Group},all descendants\n\t\t * objects will be sorted and rendered together. Sorting is from lowest to highest\n\t\t * render order.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.renderOrder = 0;\n\n\t\t/**\n\t\t * An array holding the animation clips of the 3D object.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.animations = [];\n\n\t\t/**\n\t\t * Custom depth material to be used when rendering to the depth map. Can only be used\n\t\t * in context of meshes. When shadow-casting with a {@link DirectionalLight} or {@link SpotLight},\n\t\t * if you are modifying vertex positions in the vertex shader you must specify a custom depth\n\t\t * material for proper shadows.\n\t\t *\n\t\t * Only relevant in context of {@link WebGLRenderer}.\n\t\t *\n\t\t * @type {(Material|undefined)}\n\t\t * @default undefined\n\t\t */\n\t\tthis.customDepthMaterial = undefined;\n\n\t\t/**\n\t\t * Same as {@link Object3D#customDepthMaterial}, but used with {@link PointLight}.\n\t\t *\n\t\t * Only relevant in context of {@link WebGLRenderer}.\n\t\t *\n\t\t * @type {(Material|undefined)}\n\t\t * @default undefined\n\t\t */\n\t\tthis.customDistanceMaterial = undefined;\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the 3D object. It\n\t\t * should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t}\n\n\t/**\n\t * A callback that is executed immediately before a 3D object is rendered to a shadow map.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {Camera} shadowCamera - The shadow camera.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} depthMaterial - The depth material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonBeforeShadow( /* renderer, object, camera, shadowCamera, geometry, depthMaterial, group */ ) {}\n\n\t/**\n\t * A callback that is executed immediately after a 3D object is rendered to a shadow map.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {Camera} shadowCamera - The shadow camera.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} depthMaterial - The depth material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonAfterShadow( /* renderer, object, camera, shadowCamera, geometry, depthMaterial, group */ ) {}\n\n\t/**\n\t * A callback that is executed immediately before a 3D object is rendered.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} material - The 3D object's material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonBeforeRender( /* renderer, scene, camera, geometry, material, group */ ) {}\n\n\t/**\n\t * A callback that is executed immediately after a 3D object is rendered.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} material - The 3D object's material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonAfterRender( /* renderer, scene, camera, geometry, material, group */ ) {}\n\n\t/**\n\t * Applies the given transformation matrix to the object and updates the object's position,\n\t * rotation and scale.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tif ( this.matrixAutoUpdate ) this.updateMatrix();\n\n\t\tthis.matrix.premultiply( matrix );\n\n\t\tthis.matrix.decompose( this.position, this.quaternion, this.scale );\n\n\t}\n\n\t/**\n\t * Applies a rotation represented by given the quaternion to the 3D object.\n\t *\n\t * @param {Quaternion} q - The quaternion.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tapplyQuaternion( q ) {\n\n\t\tthis.quaternion.premultiply( q );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as an axis/angle couple to the 3D object.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} angle - The angle in radians.\n\t */\n\tsetRotationFromAxisAngle( axis, angle ) {\n\n\t\t// assumes axis is normalized\n\n\t\tthis.quaternion.setFromAxisAngle( axis, angle );\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as Euler angles to the 3D object.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t */\n\tsetRotationFromEuler( euler ) {\n\n\t\tthis.quaternion.setFromEuler( euler, true );\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as rotation matrix to the 3D object.\n\t *\n\t * @param {Matrix4} m - Although a 4x4 matrix is expected, the upper 3x3 portion must be\n\t * a pure rotation matrix (i.e, unscaled).\n\t */\n\tsetRotationFromMatrix( m ) {\n\n\t\t// assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled)\n\n\t\tthis.quaternion.setFromRotationMatrix( m );\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as a Quaternion to the 3D object.\n\t *\n\t * @param {Quaternion} q - The Quaternion\n\t */\n\tsetRotationFromQuaternion( q ) {\n\n\t\t// assumes q is normalized\n\n\t\tthis.quaternion.copy( q );\n\n\t}\n\n\t/**\n\t * Rotates the 3D object along an axis in local space.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateOnAxis( axis, angle ) {\n\n\t\t// rotate object on axis in object space\n\t\t// axis is assumed to be normalized\n\n\t\t_q1.setFromAxisAngle( axis, angle );\n\n\t\tthis.quaternion.multiply( _q1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the 3D object along an axis in world space.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateOnWorldAxis( axis, angle ) {\n\n\t\t// rotate object on axis in world space\n\t\t// axis is assumed to be normalized\n\t\t// method assumes no rotated parent\n\n\t\t_q1.setFromAxisAngle( axis, angle );\n\n\t\tthis.quaternion.premultiply( _q1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the 3D object around its X axis in local space.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateX( angle ) {\n\n\t\treturn this.rotateOnAxis( _xAxis, angle );\n\n\t}\n\n\t/**\n\t * Rotates the 3D object around its Y axis in local space.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateY( angle ) {\n\n\t\treturn this.rotateOnAxis( _yAxis, angle );\n\n\t}\n\n\t/**\n\t * Rotates the 3D object around its Z axis in local space.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateZ( angle ) {\n\n\t\treturn this.rotateOnAxis( _zAxis, angle );\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along the given axis in local space.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateOnAxis( axis, distance ) {\n\n\t\t// translate object by distance along axis in object space\n\t\t// axis is assumed to be normalized\n\n\t\t_v1$4.copy( axis ).applyQuaternion( this.quaternion );\n\n\t\tthis.position.add( _v1$4.multiplyScalar( distance ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along its X-axis in local space.\n\t *\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateX( distance ) {\n\n\t\treturn this.translateOnAxis( _xAxis, distance );\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along its Y-axis in local space.\n\t *\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateY( distance ) {\n\n\t\treturn this.translateOnAxis( _yAxis, distance );\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along its Z-axis in local space.\n\t *\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateZ( distance ) {\n\n\t\treturn this.translateOnAxis( _zAxis, distance );\n\n\t}\n\n\t/**\n\t * Converts the given vector from this 3D object's local space to world space.\n\t *\n\t * @param {Vector3} vector - The vector to convert.\n\t * @return {Vector3} The converted vector.\n\t */\n\tlocalToWorld( vector ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\treturn vector.applyMatrix4( this.matrixWorld );\n\n\t}\n\n\t/**\n\t * Converts the given vector from this 3D object's word space to local space.\n\t *\n\t * @param {Vector3} vector - The vector to convert.\n\t * @return {Vector3} The converted vector.\n\t */\n\tworldToLocal( vector ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\treturn vector.applyMatrix4( _m1$1.copy( this.matrixWorld ).invert() );\n\n\t}\n\n\t/**\n\t * Rotates the object to face a point in world space.\n\t *\n\t * This method does not support objects having non-uniformly-scaled parent(s).\n\t *\n\t * @param {number|Vector3} x - The x coordinate in world space. Alternatively, a vector representing a position in world space\n\t * @param {number} [y] - The y coordinate in world space.\n\t * @param {number} [z] - The z coordinate in world space.\n\t */\n\tlookAt( x, y, z ) {\n\n\t\t// This method does not support objects having non-uniformly-scaled parent(s)\n\n\t\tif ( x.isVector3 ) {\n\n\t\t\t_target.copy( x );\n\n\t\t} else {\n\n\t\t\t_target.set( x, y, z );\n\n\t\t}\n\n\t\tconst parent = this.parent;\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\t_position$3.setFromMatrixPosition( this.matrixWorld );\n\n\t\tif ( this.isCamera || this.isLight ) {\n\n\t\t\t_m1$1.lookAt( _position$3, _target, this.up );\n\n\t\t} else {\n\n\t\t\t_m1$1.lookAt( _target, _position$3, this.up );\n\n\t\t}\n\n\t\tthis.quaternion.setFromRotationMatrix( _m1$1 );\n\n\t\tif ( parent ) {\n\n\t\t\t_m1$1.extractRotation( parent.matrixWorld );\n\t\t\t_q1.setFromRotationMatrix( _m1$1 );\n\t\t\tthis.quaternion.premultiply( _q1.invert() );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Adds the given 3D object as a child to this 3D object. An arbitrary number of\n\t * objects may be added. Any current parent on an object passed in here will be\n\t * removed, since an object can have at most one parent.\n\t *\n\t * @fires Object3D#added\n\t * @fires Object3D#childadded\n\t * @param {Object3D} object - The 3D object to add.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tadd( object ) {\n\n\t\tif ( arguments.length > 1 ) {\n\n\t\t\tfor ( let i = 0; i < arguments.length; i ++ ) {\n\n\t\t\t\tthis.add( arguments[ i ] );\n\n\t\t\t}\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( object === this ) {\n\n\t\t\tconsole.error( 'THREE.Object3D.add: object can\\'t be added as a child of itself.', object );\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( object && object.isObject3D ) {\n\n\t\t\tobject.removeFromParent();\n\t\t\tobject.parent = this;\n\t\t\tthis.children.push( object );\n\n\t\t\tobject.dispatchEvent( _addedEvent );\n\n\t\t\t_childaddedEvent.child = object;\n\t\t\tthis.dispatchEvent( _childaddedEvent );\n\t\t\t_childaddedEvent.child = null;\n\n\t\t} else {\n\n\t\t\tconsole.error( 'THREE.Object3D.add: object not an instance of THREE.Object3D.', object );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes the given 3D object as child from this 3D object.\n\t * An arbitrary number of objects may be removed.\n\t *\n\t * @fires Object3D#removed\n\t * @fires Object3D#childremoved\n\t * @param {Object3D} object - The 3D object to remove.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tremove( object ) {\n\n\t\tif ( arguments.length > 1 ) {\n\n\t\t\tfor ( let i = 0; i < arguments.length; i ++ ) {\n\n\t\t\t\tthis.remove( arguments[ i ] );\n\n\t\t\t}\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst index = this.children.indexOf( object );\n\n\t\tif ( index !== -1 ) {\n\n\t\t\tobject.parent = null;\n\t\t\tthis.children.splice( index, 1 );\n\n\t\t\tobject.dispatchEvent( _removedEvent );\n\n\t\t\t_childremovedEvent.child = object;\n\t\t\tthis.dispatchEvent( _childremovedEvent );\n\t\t\t_childremovedEvent.child = null;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes this 3D object from its current parent.\n\t *\n\t * @fires Object3D#removed\n\t * @fires Object3D#childremoved\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tremoveFromParent() {\n\n\t\tconst parent = this.parent;\n\n\t\tif ( parent !== null ) {\n\n\t\t\tparent.remove( this );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes all child objects.\n\t *\n\t * @fires Object3D#removed\n\t * @fires Object3D#childremoved\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tclear() {\n\n\t\treturn this.remove( ... this.children );\n\n\t}\n\n\t/**\n\t * Adds the given 3D object as a child of this 3D object, while maintaining the object's world\n\t * transform. This method does not support scene graphs having non-uniformly-scaled nodes(s).\n\t *\n\t * @fires Object3D#added\n\t * @fires Object3D#childadded\n\t * @param {Object3D} object - The 3D object to attach.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tattach( object ) {\n\n\t\t// adds object as a child of this, while maintaining the object's world transform\n\n\t\t// Note: This method does not support scene graphs having non-uniformly-scaled nodes(s)\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\t_m1$1.copy( this.matrixWorld ).invert();\n\n\t\tif ( object.parent !== null ) {\n\n\t\t\tobject.parent.updateWorldMatrix( true, false );\n\n\t\t\t_m1$1.multiply( object.parent.matrixWorld );\n\n\t\t}\n\n\t\tobject.applyMatrix4( _m1$1 );\n\n\t\tobject.removeFromParent();\n\t\tobject.parent = this;\n\t\tthis.children.push( object );\n\n\t\tobject.updateWorldMatrix( false, true );\n\n\t\tobject.dispatchEvent( _addedEvent );\n\n\t\t_childaddedEvent.child = object;\n\t\tthis.dispatchEvent( _childaddedEvent );\n\t\t_childaddedEvent.child = null;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns the first with a matching ID.\n\t *\n\t * @param {number} id - The id.\n\t * @return {Object3D|undefined} The found 3D object. Returns `undefined` if no 3D object has been found.\n\t */\n\tgetObjectById( id ) {\n\n\t\treturn this.getObjectByProperty( 'id', id );\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns the first with a matching name.\n\t *\n\t * @param {string} name - The name.\n\t * @return {Object3D|undefined} The found 3D object. Returns `undefined` if no 3D object has been found.\n\t */\n\tgetObjectByName( name ) {\n\n\t\treturn this.getObjectByProperty( 'name', name );\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns the first with a matching property value.\n\t *\n\t * @param {string} name - The name of the property.\n\t * @param {any} value - The value.\n\t * @return {Object3D|undefined} The found 3D object. Returns `undefined` if no 3D object has been found.\n\t */\n\tgetObjectByProperty( name, value ) {\n\n\t\tif ( this[ name ] === value ) return this;\n\n\t\tfor ( let i = 0, l = this.children.length; i < l; i ++ ) {\n\n\t\t\tconst child = this.children[ i ];\n\t\t\tconst object = child.getObjectByProperty( name, value );\n\n\t\t\tif ( object !== undefined ) {\n\n\t\t\t\treturn object;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn undefined;\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns all 3D objects with a matching property value.\n\t *\n\t * @param {string} name - The name of the property.\n\t * @param {any} value - The value.\n\t * @param {Array} result - The method stores the result in this array.\n\t * @return {Array} The found 3D objects.\n\t */\n\tgetObjectsByProperty( name, value, result = [] ) {\n\n\t\tif ( this[ name ] === value ) result.push( this );\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tchildren[ i ].getObjectsByProperty( name, value, result );\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the position of the 3D object in world space.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's position in world space.\n\t */\n\tgetWorldPosition( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\treturn target.setFromMatrixPosition( this.matrixWorld );\n\n\t}\n\n\t/**\n\t * Returns a Quaternion representing the position of the 3D object in world space.\n\t *\n\t * @param {Quaternion} target - The target Quaternion the result is stored to.\n\t * @return {Quaternion} The 3D object's rotation in world space.\n\t */\n\tgetWorldQuaternion( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\tthis.matrixWorld.decompose( _position$3, target, _scale$2 );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the scale of the 3D object in world space.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's scale in world space.\n\t */\n\tgetWorldScale( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\tthis.matrixWorld.decompose( _position$3, _quaternion$2, target );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the (\"look\") direction of the 3D object in world space.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's direction in world space.\n\t */\n\tgetWorldDirection( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\tconst e = this.matrixWorld.elements;\n\n\t\treturn target.set( e[ 8 ], e[ 9 ], e[ 10 ] ).normalize();\n\n\t}\n\n\t/**\n\t * Abstract method to get intersections between a casted ray and this\n\t * 3D object. Renderable 3D objects such as {@link Mesh}, {@link Line} or {@link Points}\n\t * implement this method in order to use raycasting.\n\t *\n\t * @abstract\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - An array holding the result of the method.\n\t */\n\traycast( /* raycaster, intersects */ ) {}\n\n\t/**\n\t * Executes the callback on this 3D object and all descendants.\n\t *\n\t * Note: Modifying the scene graph inside the callback is discouraged.\n\t *\n\t * @param {Function} callback - A callback function that allows to process the current 3D object.\n\t */\n\ttraverse( callback ) {\n\n\t\tcallback( this );\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tchildren[ i ].traverse( callback );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Like {@link Object3D#traverse}, but the callback will only be executed for visible 3D objects.\n\t * Descendants of invisible 3D objects are not traversed.\n\t *\n\t * Note: Modifying the scene graph inside the callback is discouraged.\n\t *\n\t * @param {Function} callback - A callback function that allows to process the current 3D object.\n\t */\n\ttraverseVisible( callback ) {\n\n\t\tif ( this.visible === false ) return;\n\n\t\tcallback( this );\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tchildren[ i ].traverseVisible( callback );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Like {@link Object3D#traverse}, but the callback will only be executed for all ancestors.\n\t *\n\t * Note: Modifying the scene graph inside the callback is discouraged.\n\t *\n\t * @param {Function} callback - A callback function that allows to process the current 3D object.\n\t */\n\ttraverseAncestors( callback ) {\n\n\t\tconst parent = this.parent;\n\n\t\tif ( parent !== null ) {\n\n\t\t\tcallback( parent );\n\n\t\t\tparent.traverseAncestors( callback );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Updates the transformation matrix in local space by computing it from the current\n\t * position, rotation and scale values.\n\t */\n\tupdateMatrix() {\n\n\t\tthis.matrix.compose( this.position, this.quaternion, this.scale );\n\n\t\tthis.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t/**\n\t * Updates the transformation matrix in world space of this 3D objects and its descendants.\n\t *\n\t * To ensure correct results, this method also recomputes the 3D object's transformation matrix in\n\t * local space. The computation of the local and world matrix can be controlled with the\n\t * {@link Object3D#matrixAutoUpdate} and {@link Object3D#matrixWorldAutoUpdate} flags which are both\n\t * `true` by default. Set these flags to `false` if you need more control over the update matrix process.\n\t *\n\t * @param {boolean} [force=false] - When set to `true`, a recomputation of world matrices is forced even\n\t * when {@link Object3D#matrixWorldAutoUpdate} is set to `false`.\n\t */\n\tupdateMatrixWorld( force ) {\n\n\t\tif ( this.matrixAutoUpdate ) this.updateMatrix();\n\n\t\tif ( this.matrixWorldNeedsUpdate || force ) {\n\n\t\t\tif ( this.matrixWorldAutoUpdate === true ) {\n\n\t\t\t\tif ( this.parent === null ) {\n\n\t\t\t\t\tthis.matrixWorld.copy( this.matrix );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis.matrixWorld.multiplyMatrices( this.parent.matrixWorld, this.matrix );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.matrixWorldNeedsUpdate = false;\n\n\t\t\tforce = true;\n\n\t\t}\n\n\t\t// make sure descendants are updated if required\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tconst child = children[ i ];\n\n\t\t\tchild.updateMatrixWorld( force );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * An alternative version of {@link Object3D#updateMatrixWorld} with more control over the\n\t * update of ancestor and descendant nodes.\n\t *\n\t * @param {boolean} [updateParents=false] Whether ancestor nodes should be updated or not.\n\t * @param {boolean} [updateChildren=false] Whether descendant nodes should be updated or not.\n\t */\n\tupdateWorldMatrix( updateParents, updateChildren ) {\n\n\t\tconst parent = this.parent;\n\n\t\tif ( updateParents === true && parent !== null ) {\n\n\t\t\tparent.updateWorldMatrix( true, false );\n\n\t\t}\n\n\t\tif ( this.matrixAutoUpdate ) this.updateMatrix();\n\n\t\tif ( this.matrixWorldAutoUpdate === true ) {\n\n\t\t\tif ( this.parent === null ) {\n\n\t\t\t\tthis.matrixWorld.copy( this.matrix );\n\n\t\t\t} else {\n\n\t\t\t\tthis.matrixWorld.multiplyMatrices( this.parent.matrixWorld, this.matrix );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// make sure descendants are updated\n\n\t\tif ( updateChildren === true ) {\n\n\t\t\tconst children = this.children;\n\n\t\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\t\tconst child = children[ i ];\n\n\t\t\t\tchild.updateWorldMatrix( false, true );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the 3D object into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized 3D object.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\t// meta is a string when called from JSON.stringify\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tconst output = {};\n\n\t\t// meta is a hash used to collect geometries, materials.\n\t\t// not providing it implies that this is the root object\n\t\t// being serialized.\n\t\tif ( isRootObject ) {\n\n\t\t\t// initialize meta obj\n\t\t\tmeta = {\n\t\t\t\tgeometries: {},\n\t\t\t\tmaterials: {},\n\t\t\t\ttextures: {},\n\t\t\t\timages: {},\n\t\t\t\tshapes: {},\n\t\t\t\tskeletons: {},\n\t\t\t\tanimations: {},\n\t\t\t\tnodes: {}\n\t\t\t};\n\n\t\t\toutput.metadata = {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Object',\n\t\t\t\tgenerator: 'Object3D.toJSON'\n\t\t\t};\n\n\t\t}\n\n\t\t// standard Object3D serialization\n\n\t\tconst object = {};\n\n\t\tobject.uuid = this.uuid;\n\t\tobject.type = this.type;\n\n\t\tif ( this.name !== '' ) object.name = this.name;\n\t\tif ( this.castShadow === true ) object.castShadow = true;\n\t\tif ( this.receiveShadow === true ) object.receiveShadow = true;\n\t\tif ( this.visible === false ) object.visible = false;\n\t\tif ( this.frustumCulled === false ) object.frustumCulled = false;\n\t\tif ( this.renderOrder !== 0 ) object.renderOrder = this.renderOrder;\n\t\tif ( Object.keys( this.userData ).length > 0 ) object.userData = this.userData;\n\n\t\tobject.layers = this.layers.mask;\n\t\tobject.matrix = this.matrix.toArray();\n\t\tobject.up = this.up.toArray();\n\n\t\tif ( this.matrixAutoUpdate === false ) object.matrixAutoUpdate = false;\n\n\t\t// object specific properties\n\n\t\tif ( this.isInstancedMesh ) {\n\n\t\t\tobject.type = 'InstancedMesh';\n\t\t\tobject.count = this.count;\n\t\t\tobject.instanceMatrix = this.instanceMatrix.toJSON();\n\t\t\tif ( this.instanceColor !== null ) object.instanceColor = this.instanceColor.toJSON();\n\n\t\t}\n\n\t\tif ( this.isBatchedMesh ) {\n\n\t\t\tobject.type = 'BatchedMesh';\n\t\t\tobject.perObjectFrustumCulled = this.perObjectFrustumCulled;\n\t\t\tobject.sortObjects = this.sortObjects;\n\n\t\t\tobject.drawRanges = this._drawRanges;\n\t\t\tobject.reservedRanges = this._reservedRanges;\n\n\t\t\tobject.geometryInfo = this._geometryInfo.map( info => ( {\n\t\t\t\t...info,\n\t\t\t\tboundingBox: info.boundingBox ? info.boundingBox.toJSON() : undefined,\n\t\t\t\tboundingSphere: info.boundingSphere ? info.boundingSphere.toJSON() : undefined\n\t\t\t} ) );\n\t\t\tobject.instanceInfo = this._instanceInfo.map( info => ( { ...info } ) );\n\n\t\t\tobject.availableInstanceIds = this._availableInstanceIds.slice();\n\t\t\tobject.availableGeometryIds = this._availableGeometryIds.slice();\n\n\t\t\tobject.nextIndexStart = this._nextIndexStart;\n\t\t\tobject.nextVertexStart = this._nextVertexStart;\n\t\t\tobject.geometryCount = this._geometryCount;\n\n\t\t\tobject.maxInstanceCount = this._maxInstanceCount;\n\t\t\tobject.maxVertexCount = this._maxVertexCount;\n\t\t\tobject.maxIndexCount = this._maxIndexCount;\n\n\t\t\tobject.geometryInitialized = this._geometryInitialized;\n\n\t\t\tobject.matricesTexture = this._matricesTexture.toJSON( meta );\n\n\t\t\tobject.indirectTexture = this._indirectTexture.toJSON( meta );\n\n\t\t\tif ( this._colorsTexture !== null ) {\n\n\t\t\t\tobject.colorsTexture = this._colorsTexture.toJSON( meta );\n\n\t\t\t}\n\n\t\t\tif ( this.boundingSphere !== null ) {\n\n\t\t\t\tobject.boundingSphere = this.boundingSphere.toJSON();\n\n\t\t\t}\n\n\t\t\tif ( this.boundingBox !== null ) {\n\n\t\t\t\tobject.boundingBox = this.boundingBox.toJSON();\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\tfunction serialize( library, element ) {\n\n\t\t\tif ( library[ element.uuid ] === undefined ) {\n\n\t\t\t\tlibrary[ element.uuid ] = element.toJSON( meta );\n\n\t\t\t}\n\n\t\t\treturn element.uuid;\n\n\t\t}\n\n\t\tif ( this.isScene ) {\n\n\t\t\tif ( this.background ) {\n\n\t\t\t\tif ( this.background.isColor ) {\n\n\t\t\t\t\tobject.background = this.background.toJSON();\n\n\t\t\t\t} else if ( this.background.isTexture ) {\n\n\t\t\t\t\tobject.background = this.background.toJSON( meta ).uuid;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( this.environment && this.environment.isTexture && this.environment.isRenderTargetTexture !== true ) {\n\n\t\t\t\tobject.environment = this.environment.toJSON( meta ).uuid;\n\n\t\t\t}\n\n\t\t} else if ( this.isMesh || this.isLine || this.isPoints ) {\n\n\t\t\tobject.geometry = serialize( meta.geometries, this.geometry );\n\n\t\t\tconst parameters = this.geometry.parameters;\n\n\t\t\tif ( parameters !== undefined && parameters.shapes !== undefined ) {\n\n\t\t\t\tconst shapes = parameters.shapes;\n\n\t\t\t\tif ( Array.isArray( shapes ) ) {\n\n\t\t\t\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\t\t\t\tconst shape = shapes[ i ];\n\n\t\t\t\t\t\tserialize( meta.shapes, shape );\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\tserialize( meta.shapes, shapes );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.isSkinnedMesh ) {\n\n\t\t\tobject.bindMode = this.bindMode;\n\t\t\tobject.bindMatrix = this.bindMatrix.toArray();\n\n\t\t\tif ( this.skeleton !== undefined ) {\n\n\t\t\t\tserialize( meta.skeletons, this.skeleton );\n\n\t\t\t\tobject.skeleton = this.skeleton.uuid;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.material !== undefined ) {\n\n\t\t\tif ( Array.isArray( this.material ) ) {\n\n\t\t\t\tconst uuids = [];\n\n\t\t\t\tfor ( let i = 0, l = this.material.length; i < l; i ++ ) {\n\n\t\t\t\t\tuuids.push( serialize( meta.materials, this.material[ i ] ) );\n\n\t\t\t\t}\n\n\t\t\t\tobject.material = uuids;\n\n\t\t\t} else {\n\n\t\t\t\tobject.material = serialize( meta.materials, this.material );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\tif ( this.children.length > 0 ) {\n\n\t\t\tobject.children = [];\n\n\t\t\tfor ( let i = 0; i < this.children.length; i ++ ) {\n\n\t\t\t\tobject.children.push( this.children[ i ].toJSON( meta ).object );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\tif ( this.animations.length > 0 ) {\n\n\t\t\tobject.animations = [];\n\n\t\t\tfor ( let i = 0; i < this.animations.length; i ++ ) {\n\n\t\t\t\tconst animation = this.animations[ i ];\n\n\t\t\t\tobject.animations.push( serialize( meta.animations, animation ) );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( isRootObject ) {\n\n\t\t\tconst geometries = extractFromCache( meta.geometries );\n\t\t\tconst materials = extractFromCache( meta.materials );\n\t\t\tconst textures = extractFromCache( meta.textures );\n\t\t\tconst images = extractFromCache( meta.images );\n\t\t\tconst shapes = extractFromCache( meta.shapes );\n\t\t\tconst skeletons = extractFromCache( meta.skeletons );\n\t\t\tconst animations = extractFromCache( meta.animations );\n\t\t\tconst nodes = extractFromCache( meta.nodes );\n\n\t\t\tif ( geometries.length > 0 ) output.geometries = geometries;\n\t\t\tif ( materials.length > 0 ) output.materials = materials;\n\t\t\tif ( textures.length > 0 ) output.textures = textures;\n\t\t\tif ( images.length > 0 ) output.images = images;\n\t\t\tif ( shapes.length > 0 ) output.shapes = shapes;\n\t\t\tif ( skeletons.length > 0 ) output.skeletons = skeletons;\n\t\t\tif ( animations.length > 0 ) output.animations = animations;\n\t\t\tif ( nodes.length > 0 ) output.nodes = nodes;\n\n\t\t}\n\n\t\toutput.object = object;\n\n\t\treturn output;\n\n\t\t// extract data from the cache hash\n\t\t// remove metadata on each item\n\t\t// and return as array\n\t\tfunction extractFromCache( cache ) {\n\n\t\t\tconst values = [];\n\t\t\tfor ( const key in cache ) {\n\n\t\t\t\tconst data = cache[ key ];\n\t\t\t\tdelete data.metadata;\n\t\t\t\tvalues.push( data );\n\n\t\t\t}\n\n\t\t\treturn values;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new 3D object with copied values from this instance.\n\t *\n\t * @param {boolean} [recursive=true] - When set to `true`, descendants of the 3D object are also cloned.\n\t * @return {Object3D} A clone of this instance.\n\t */\n\tclone( recursive ) {\n\n\t\treturn new this.constructor().copy( this, recursive );\n\n\t}\n\n\t/**\n\t * Copies the values of the given 3D object to this instance.\n\t *\n\t * @param {Object3D} source - The 3D object to copy.\n\t * @param {boolean} [recursive=true] - When set to `true`, descendants of the 3D object are cloned.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tcopy( source, recursive = true ) {\n\n\t\tthis.name = source.name;\n\n\t\tthis.up.copy( source.up );\n\n\t\tthis.position.copy( source.position );\n\t\tthis.rotation.order = source.rotation.order;\n\t\tthis.quaternion.copy( source.quaternion );\n\t\tthis.scale.copy( source.scale );\n\n\t\tthis.matrix.copy( source.matrix );\n\t\tthis.matrixWorld.copy( source.matrixWorld );\n\n\t\tthis.matrixAutoUpdate = source.matrixAutoUpdate;\n\n\t\tthis.matrixWorldAutoUpdate = source.matrixWorldAutoUpdate;\n\t\tthis.matrixWorldNeedsUpdate = source.matrixWorldNeedsUpdate;\n\n\t\tthis.layers.mask = source.layers.mask;\n\t\tthis.visible = source.visible;\n\n\t\tthis.castShadow = source.castShadow;\n\t\tthis.receiveShadow = source.receiveShadow;\n\n\t\tthis.frustumCulled = source.frustumCulled;\n\t\tthis.renderOrder = source.renderOrder;\n\n\t\tthis.animations = source.animations.slice();\n\n\t\tthis.userData = JSON.parse( JSON.stringify( source.userData ) );\n\n\t\tif ( recursive === true ) {\n\n\t\t\tfor ( let i = 0; i < source.children.length; i ++ ) {\n\n\t\t\t\tconst child = source.children[ i ];\n\t\t\t\tthis.add( child.clone() );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * The default up direction for objects, also used as the default\n * position for {@link DirectionalLight} and {@link HemisphereLight}.\n *\n * @static\n * @type {Vector3}\n * @default (0,1,0)\n */\nObject3D.DEFAULT_UP = /*@__PURE__*/ new Vector3( 0, 1, 0 );\n\n/**\n * The default setting for {@link Object3D#matrixAutoUpdate} for\n * newly created 3D objects.\n *\n * @static\n * @type {boolean}\n * @default true\n */\nObject3D.DEFAULT_MATRIX_AUTO_UPDATE = true;\n\n/**\n * The default setting for {@link Object3D#matrixWorldAutoUpdate} for\n * newly created 3D objects.\n *\n * @static\n * @type {boolean}\n * @default true\n */\nObject3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE = true;\n\nconst _v0$1 = /*@__PURE__*/ new Vector3();\nconst _v1$3 = /*@__PURE__*/ new Vector3();\nconst _v2$2 = /*@__PURE__*/ new Vector3();\nconst _v3$2 = /*@__PURE__*/ new Vector3();\n\nconst _vab = /*@__PURE__*/ new Vector3();\nconst _vac = /*@__PURE__*/ new Vector3();\nconst _vbc = /*@__PURE__*/ new Vector3();\nconst _vap = /*@__PURE__*/ new Vector3();\nconst _vbp = /*@__PURE__*/ new Vector3();\nconst _vcp = /*@__PURE__*/ new Vector3();\n\nconst _v40 = /*@__PURE__*/ new Vector4();\nconst _v41 = /*@__PURE__*/ new Vector4();\nconst _v42 = /*@__PURE__*/ new Vector4();\n\n/**\n * A geometric triangle as defined by three vectors representing its three corners.\n */\nclass Triangle {\n\n\t/**\n\t * Constructs a new triangle.\n\t *\n\t * @param {Vector3} [a=(0,0,0)] - The first corner of the triangle.\n\t * @param {Vector3} [b=(0,0,0)] - The second corner of the triangle.\n\t * @param {Vector3} [c=(0,0,0)] - The third corner of the triangle.\n\t */\n\tconstructor( a = new Vector3(), b = new Vector3(), c = new Vector3() ) {\n\n\t\t/**\n\t\t * The first corner of the triangle.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.a = a;\n\n\t\t/**\n\t\t * The second corner of the triangle.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.b = b;\n\n\t\t/**\n\t\t * The third corner of the triangle.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.c = c;\n\n\t}\n\n\t/**\n\t * Computes the normal vector of a triangle.\n\t *\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The triangle's normal.\n\t */\n\tstatic getNormal( a, b, c, target ) {\n\n\t\ttarget.subVectors( c, b );\n\t\t_v0$1.subVectors( a, b );\n\t\ttarget.cross( _v0$1 );\n\n\t\tconst targetLengthSq = target.lengthSq();\n\t\tif ( targetLengthSq > 0 ) {\n\n\t\t\treturn target.multiplyScalar( 1 / Math.sqrt( targetLengthSq ) );\n\n\t\t}\n\n\t\treturn target.set( 0, 0, 0 );\n\n\t}\n\n\t/**\n\t * Computes a barycentric coordinates from the given vector.\n\t * Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - A point in 3D space.\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The barycentric coordinates for the given point\n\t */\n\tstatic getBarycoord( point, a, b, c, target ) {\n\n\t\t// based on: http://www.blackpawn.com/texts/pointinpoly/default.html\n\n\t\t_v0$1.subVectors( c, a );\n\t\t_v1$3.subVectors( b, a );\n\t\t_v2$2.subVectors( point, a );\n\n\t\tconst dot00 = _v0$1.dot( _v0$1 );\n\t\tconst dot01 = _v0$1.dot( _v1$3 );\n\t\tconst dot02 = _v0$1.dot( _v2$2 );\n\t\tconst dot11 = _v1$3.dot( _v1$3 );\n\t\tconst dot12 = _v1$3.dot( _v2$2 );\n\n\t\tconst denom = ( dot00 * dot11 - dot01 * dot01 );\n\n\t\t// collinear or singular triangle\n\t\tif ( denom === 0 ) {\n\n\t\t\ttarget.set( 0, 0, 0 );\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst invDenom = 1 / denom;\n\t\tconst u = ( dot11 * dot02 - dot01 * dot12 ) * invDenom;\n\t\tconst v = ( dot00 * dot12 - dot01 * dot02 ) * invDenom;\n\n\t\t// barycentric coordinates must always sum to 1\n\t\treturn target.set( 1 - u - v, v, u );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle.\n\t *\n\t * @param {Vector3} point - The point in 3D space to test.\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @return {boolean} Whether the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle or not.\n\t */\n\tstatic containsPoint( point, a, b, c ) {\n\n\t\t// if the triangle is degenerate then we can't contain a point\n\t\tif ( this.getBarycoord( point, a, b, c, _v3$2 ) === null ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\treturn ( _v3$2.x >= 0 ) && ( _v3$2.y >= 0 ) && ( ( _v3$2.x + _v3$2.y ) <= 1 );\n\n\t}\n\n\t/**\n\t * Computes the value barycentrically interpolated for the given point on the\n\t * triangle. Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - Position of interpolated point.\n\t * @param {Vector3} p1 - The first corner of the triangle.\n\t * @param {Vector3} p2 - The second corner of the triangle.\n\t * @param {Vector3} p3 - The third corner of the triangle.\n\t * @param {Vector3} v1 - Value to interpolate of first vertex.\n\t * @param {Vector3} v2 - Value to interpolate of second vertex.\n\t * @param {Vector3} v3 - Value to interpolate of third vertex.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The interpolated value.\n\t */\n\tstatic getInterpolation( point, p1, p2, p3, v1, v2, v3, target ) {\n\n\t\tif ( this.getBarycoord( point, p1, p2, p3, _v3$2 ) === null ) {\n\n\t\t\ttarget.x = 0;\n\t\t\ttarget.y = 0;\n\t\t\tif ( 'z' in target ) target.z = 0;\n\t\t\tif ( 'w' in target ) target.w = 0;\n\t\t\treturn null;\n\n\t\t}\n\n\t\ttarget.setScalar( 0 );\n\t\ttarget.addScaledVector( v1, _v3$2.x );\n\t\ttarget.addScaledVector( v2, _v3$2.y );\n\t\ttarget.addScaledVector( v3, _v3$2.z );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Computes the value barycentrically interpolated for the given attribute and indices.\n\t *\n\t * @param {BufferAttribute} attr - The attribute to interpolate.\n\t * @param {number} i1 - Index of first vertex.\n\t * @param {number} i2 - Index of second vertex.\n\t * @param {number} i3 - Index of third vertex.\n\t * @param {Vector3} barycoord - The barycoordinate value to use to interpolate.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The interpolated attribute value.\n\t */\n\tstatic getInterpolatedAttribute( attr, i1, i2, i3, barycoord, target ) {\n\n\t\t_v40.setScalar( 0 );\n\t\t_v41.setScalar( 0 );\n\t\t_v42.setScalar( 0 );\n\n\t\t_v40.fromBufferAttribute( attr, i1 );\n\t\t_v41.fromBufferAttribute( attr, i2 );\n\t\t_v42.fromBufferAttribute( attr, i3 );\n\n\t\ttarget.setScalar( 0 );\n\t\ttarget.addScaledVector( _v40, barycoord.x );\n\t\ttarget.addScaledVector( _v41, barycoord.y );\n\t\ttarget.addScaledVector( _v42, barycoord.z );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns `true` if the triangle is oriented towards the given direction.\n\t *\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @param {Vector3} direction - The (normalized) direction vector.\n\t * @return {boolean} Whether the triangle is oriented towards the given direction or not.\n\t */\n\tstatic isFrontFacing( a, b, c, direction ) {\n\n\t\t_v0$1.subVectors( c, b );\n\t\t_v1$3.subVectors( a, b );\n\n\t\t// strictly front facing\n\t\treturn ( _v0$1.cross( _v1$3 ).dot( direction ) < 0 ) ? true : false;\n\n\t}\n\n\t/**\n\t * Sets the triangle's vertices by copying the given values.\n\t *\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tset( a, b, c ) {\n\n\t\tthis.a.copy( a );\n\t\tthis.b.copy( b );\n\t\tthis.c.copy( c );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the triangle's vertices by copying the given array values.\n\t *\n\t * @param {Array} points - An array with 3D points.\n\t * @param {number} i0 - The array index representing the first corner of the triangle.\n\t * @param {number} i1 - The array index representing the second corner of the triangle.\n\t * @param {number} i2 - The array index representing the third corner of the triangle.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tsetFromPointsAndIndices( points, i0, i1, i2 ) {\n\n\t\tthis.a.copy( points[ i0 ] );\n\t\tthis.b.copy( points[ i1 ] );\n\t\tthis.c.copy( points[ i2 ] );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the triangle's vertices by copying the given attribute values.\n\t *\n\t * @param {BufferAttribute} attribute - A buffer attribute with 3D points data.\n\t * @param {number} i0 - The attribute index representing the first corner of the triangle.\n\t * @param {number} i1 - The attribute index representing the second corner of the triangle.\n\t * @param {number} i2 - The attribute index representing the third corner of the triangle.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tsetFromAttributeAndIndices( attribute, i0, i1, i2 ) {\n\n\t\tthis.a.fromBufferAttribute( attribute, i0 );\n\t\tthis.b.fromBufferAttribute( attribute, i1 );\n\t\tthis.c.fromBufferAttribute( attribute, i2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new triangle with copied values from this instance.\n\t *\n\t * @return {Triangle} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given triangle to this instance.\n\t *\n\t * @param {Triangle} triangle - The triangle to copy.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tcopy( triangle ) {\n\n\t\tthis.a.copy( triangle.a );\n\t\tthis.b.copy( triangle.b );\n\t\tthis.c.copy( triangle.c );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the area of the triangle.\n\t *\n\t * @return {number} The triangle's area.\n\t */\n\tgetArea() {\n\n\t\t_v0$1.subVectors( this.c, this.b );\n\t\t_v1$3.subVectors( this.a, this.b );\n\n\t\treturn _v0$1.cross( _v1$3 ).length() * 0.5;\n\n\t}\n\n\t/**\n\t * Computes the midpoint of the triangle.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The triangle's midpoint.\n\t */\n\tgetMidpoint( target ) {\n\n\t\treturn target.addVectors( this.a, this.b ).add( this.c ).multiplyScalar( 1 / 3 );\n\n\t}\n\n\t/**\n\t * Computes the normal of the triangle.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The triangle's normal.\n\t */\n\tgetNormal( target ) {\n\n\t\treturn Triangle.getNormal( this.a, this.b, this.c, target );\n\n\t}\n\n\t/**\n\t * Computes a plane the triangle lies within.\n\t *\n\t * @param {Plane} target - The target vector that is used to store the method's result.\n\t * @return {Plane} The plane the triangle lies within.\n\t */\n\tgetPlane( target ) {\n\n\t\treturn target.setFromCoplanarPoints( this.a, this.b, this.c );\n\n\t}\n\n\t/**\n\t * Computes a barycentric coordinates from the given vector.\n\t * Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - A point in 3D space.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The barycentric coordinates for the given point\n\t */\n\tgetBarycoord( point, target ) {\n\n\t\treturn Triangle.getBarycoord( point, this.a, this.b, this.c, target );\n\n\t}\n\n\t/**\n\t * Computes the value barycentrically interpolated for the given point on the\n\t * triangle. Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - Position of interpolated point.\n\t * @param {Vector3} v1 - Value to interpolate of first vertex.\n\t * @param {Vector3} v2 - Value to interpolate of second vertex.\n\t * @param {Vector3} v3 - Value to interpolate of third vertex.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The interpolated value.\n\t */\n\tgetInterpolation( point, v1, v2, v3, target ) {\n\n\t\treturn Triangle.getInterpolation( point, this.a, this.b, this.c, v1, v2, v3, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle.\n\t *\n\t * @param {Vector3} point - The point in 3D space to test.\n\t * @return {boolean} Whether the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn Triangle.containsPoint( point, this.a, this.b, this.c );\n\n\t}\n\n\t/**\n\t * Returns `true` if the triangle is oriented towards the given direction.\n\t *\n\t * @param {Vector3} direction - The (normalized) direction vector.\n\t * @return {boolean} Whether the triangle is oriented towards the given direction or not.\n\t */\n\tisFrontFacing( direction ) {\n\n\t\treturn Triangle.isFrontFacing( this.a, this.b, this.c, direction );\n\n\t}\n\n\t/**\n\t * Returns `true` if this triangle intersects with the given box.\n\t *\n\t * @param {Box3} box - The box to intersect.\n\t * @return {boolean} Whether this triangle intersects with the given box or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn box.intersectsTriangle( this );\n\n\t}\n\n\t/**\n\t * Returns the closest point on the triangle to the given point.\n\t *\n\t * @param {Vector3} p - The point to compute the closest point for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The closest point on the triangle.\n\t */\n\tclosestPointToPoint( p, target ) {\n\n\t\tconst a = this.a, b = this.b, c = this.c;\n\t\tlet v, w;\n\n\t\t// algorithm thanks to Real-Time Collision Detection by Christer Ericson,\n\t\t// published by Morgan Kaufmann Publishers, (c) 2005 Elsevier Inc.,\n\t\t// under the accompanying license; see chapter 5.1.5 for detailed explanation.\n\t\t// basically, we're distinguishing which of the voronoi regions of the triangle\n\t\t// the point lies in with the minimum amount of redundant computation.\n\n\t\t_vab.subVectors( b, a );\n\t\t_vac.subVectors( c, a );\n\t\t_vap.subVectors( p, a );\n\t\tconst d1 = _vab.dot( _vap );\n\t\tconst d2 = _vac.dot( _vap );\n\t\tif ( d1 <= 0 && d2 <= 0 ) {\n\n\t\t\t// vertex region of A; barycentric coords (1, 0, 0)\n\t\t\treturn target.copy( a );\n\n\t\t}\n\n\t\t_vbp.subVectors( p, b );\n\t\tconst d3 = _vab.dot( _vbp );\n\t\tconst d4 = _vac.dot( _vbp );\n\t\tif ( d3 >= 0 && d4 <= d3 ) {\n\n\t\t\t// vertex region of B; barycentric coords (0, 1, 0)\n\t\t\treturn target.copy( b );\n\n\t\t}\n\n\t\tconst vc = d1 * d4 - d3 * d2;\n\t\tif ( vc <= 0 && d1 >= 0 && d3 <= 0 ) {\n\n\t\t\tv = d1 / ( d1 - d3 );\n\t\t\t// edge region of AB; barycentric coords (1-v, v, 0)\n\t\t\treturn target.copy( a ).addScaledVector( _vab, v );\n\n\t\t}\n\n\t\t_vcp.subVectors( p, c );\n\t\tconst d5 = _vab.dot( _vcp );\n\t\tconst d6 = _vac.dot( _vcp );\n\t\tif ( d6 >= 0 && d5 <= d6 ) {\n\n\t\t\t// vertex region of C; barycentric coords (0, 0, 1)\n\t\t\treturn target.copy( c );\n\n\t\t}\n\n\t\tconst vb = d5 * d2 - d1 * d6;\n\t\tif ( vb <= 0 && d2 >= 0 && d6 <= 0 ) {\n\n\t\t\tw = d2 / ( d2 - d6 );\n\t\t\t// edge region of AC; barycentric coords (1-w, 0, w)\n\t\t\treturn target.copy( a ).addScaledVector( _vac, w );\n\n\t\t}\n\n\t\tconst va = d3 * d6 - d5 * d4;\n\t\tif ( va <= 0 && ( d4 - d3 ) >= 0 && ( d5 - d6 ) >= 0 ) {\n\n\t\t\t_vbc.subVectors( c, b );\n\t\t\tw = ( d4 - d3 ) / ( ( d4 - d3 ) + ( d5 - d6 ) );\n\t\t\t// edge region of BC; barycentric coords (0, 1-w, w)\n\t\t\treturn target.copy( b ).addScaledVector( _vbc, w ); // edge region of BC\n\n\t\t}\n\n\t\t// face region\n\t\tconst denom = 1 / ( va + vb + vc );\n\t\t// u = va * denom\n\t\tv = vb * denom;\n\t\tw = vc * denom;\n\n\t\treturn target.copy( a ).addScaledVector( _vab, v ).addScaledVector( _vac, w );\n\n\t}\n\n\t/**\n\t * Returns `true` if this triangle is equal with the given one.\n\t *\n\t * @param {Triangle} triangle - The triangle to test for equality.\n\t * @return {boolean} Whether this triangle is equal with the given one.\n\t */\n\tequals( triangle ) {\n\n\t\treturn triangle.a.equals( this.a ) && triangle.b.equals( this.b ) && triangle.c.equals( this.c );\n\n\t}\n\n}\n\nconst _colorKeywords = { 'aliceblue': 0xF0F8FF, 'antiquewhite': 0xFAEBD7, 'aqua': 0x00FFFF, 'aquamarine': 0x7FFFD4, 'azure': 0xF0FFFF,\n\t'beige': 0xF5F5DC, 'bisque': 0xFFE4C4, 'black': 0x000000, 'blanchedalmond': 0xFFEBCD, 'blue': 0x0000FF, 'blueviolet': 0x8A2BE2,\n\t'brown': 0xA52A2A, 'burlywood': 0xDEB887, 'cadetblue': 0x5F9EA0, 'chartreuse': 0x7FFF00, 'chocolate': 0xD2691E, 'coral': 0xFF7F50,\n\t'cornflowerblue': 0x6495ED, 'cornsilk': 0xFFF8DC, 'crimson': 0xDC143C, 'cyan': 0x00FFFF, 'darkblue': 0x00008B, 'darkcyan': 0x008B8B,\n\t'darkgoldenrod': 0xB8860B, 'darkgray': 0xA9A9A9, 'darkgreen': 0x006400, 'darkgrey': 0xA9A9A9, 'darkkhaki': 0xBDB76B, 'darkmagenta': 0x8B008B,\n\t'darkolivegreen': 0x556B2F, 'darkorange': 0xFF8C00, 'darkorchid': 0x9932CC, 'darkred': 0x8B0000, 'darksalmon': 0xE9967A, 'darkseagreen': 0x8FBC8F,\n\t'darkslateblue': 0x483D8B, 'darkslategray': 0x2F4F4F, 'darkslategrey': 0x2F4F4F, 'darkturquoise': 0x00CED1, 'darkviolet': 0x9400D3,\n\t'deeppink': 0xFF1493, 'deepskyblue': 0x00BFFF, 'dimgray': 0x696969, 'dimgrey': 0x696969, 'dodgerblue': 0x1E90FF, 'firebrick': 0xB22222,\n\t'floralwhite': 0xFFFAF0, 'forestgreen': 0x228B22, 'fuchsia': 0xFF00FF, 'gainsboro': 0xDCDCDC, 'ghostwhite': 0xF8F8FF, 'gold': 0xFFD700,\n\t'goldenrod': 0xDAA520, 'gray': 0x808080, 'green': 0x008000, 'greenyellow': 0xADFF2F, 'grey': 0x808080, 'honeydew': 0xF0FFF0, 'hotpink': 0xFF69B4,\n\t'indianred': 0xCD5C5C, 'indigo': 0x4B0082, 'ivory': 0xFFFFF0, 'khaki': 0xF0E68C, 'lavender': 0xE6E6FA, 'lavenderblush': 0xFFF0F5, 'lawngreen': 0x7CFC00,\n\t'lemonchiffon': 0xFFFACD, 'lightblue': 0xADD8E6, 'lightcoral': 0xF08080, 'lightcyan': 0xE0FFFF, 'lightgoldenrodyellow': 0xFAFAD2, 'lightgray': 0xD3D3D3,\n\t'lightgreen': 0x90EE90, 'lightgrey': 0xD3D3D3, 'lightpink': 0xFFB6C1, 'lightsalmon': 0xFFA07A, 'lightseagreen': 0x20B2AA, 'lightskyblue': 0x87CEFA,\n\t'lightslategray': 0x778899, 'lightslategrey': 0x778899, 'lightsteelblue': 0xB0C4DE, 'lightyellow': 0xFFFFE0, 'lime': 0x00FF00, 'limegreen': 0x32CD32,\n\t'linen': 0xFAF0E6, 'magenta': 0xFF00FF, 'maroon': 0x800000, 'mediumaquamarine': 0x66CDAA, 'mediumblue': 0x0000CD, 'mediumorchid': 0xBA55D3,\n\t'mediumpurple': 0x9370DB, 'mediumseagreen': 0x3CB371, 'mediumslateblue': 0x7B68EE, 'mediumspringgreen': 0x00FA9A, 'mediumturquoise': 0x48D1CC,\n\t'mediumvioletred': 0xC71585, 'midnightblue': 0x191970, 'mintcream': 0xF5FFFA, 'mistyrose': 0xFFE4E1, 'moccasin': 0xFFE4B5, 'navajowhite': 0xFFDEAD,\n\t'navy': 0x000080, 'oldlace': 0xFDF5E6, 'olive': 0x808000, 'olivedrab': 0x6B8E23, 'orange': 0xFFA500, 'orangered': 0xFF4500, 'orchid': 0xDA70D6,\n\t'palegoldenrod': 0xEEE8AA, 'palegreen': 0x98FB98, 'paleturquoise': 0xAFEEEE, 'palevioletred': 0xDB7093, 'papayawhip': 0xFFEFD5, 'peachpuff': 0xFFDAB9,\n\t'peru': 0xCD853F, 'pink': 0xFFC0CB, 'plum': 0xDDA0DD, 'powderblue': 0xB0E0E6, 'purple': 0x800080, 'rebeccapurple': 0x663399, 'red': 0xFF0000, 'rosybrown': 0xBC8F8F,\n\t'royalblue': 0x4169E1, 'saddlebrown': 0x8B4513, 'salmon': 0xFA8072, 'sandybrown': 0xF4A460, 'seagreen': 0x2E8B57, 'seashell': 0xFFF5EE,\n\t'sienna': 0xA0522D, 'silver': 0xC0C0C0, 'skyblue': 0x87CEEB, 'slateblue': 0x6A5ACD, 'slategray': 0x708090, 'slategrey': 0x708090, 'snow': 0xFFFAFA,\n\t'springgreen': 0x00FF7F, 'steelblue': 0x4682B4, 'tan': 0xD2B48C, 'teal': 0x008080, 'thistle': 0xD8BFD8, 'tomato': 0xFF6347, 'turquoise': 0x40E0D0,\n\t'violet': 0xEE82EE, 'wheat': 0xF5DEB3, 'white': 0xFFFFFF, 'whitesmoke': 0xF5F5F5, 'yellow': 0xFFFF00, 'yellowgreen': 0x9ACD32 };\n\nconst _hslA = { h: 0, s: 0, l: 0 };\nconst _hslB = { h: 0, s: 0, l: 0 };\n\nfunction hue2rgb( p, q, t ) {\n\n\tif ( t < 0 ) t += 1;\n\tif ( t > 1 ) t -= 1;\n\tif ( t < 1 / 6 ) return p + ( q - p ) * 6 * t;\n\tif ( t < 1 / 2 ) return q;\n\tif ( t < 2 / 3 ) return p + ( q - p ) * 6 * ( 2 / 3 - t );\n\treturn p;\n\n}\n\n/**\n * A Color instance is represented by RGB components in the linear working\n * color space, which defaults to `LinearSRGBColorSpace`. Inputs\n * conventionally using `SRGBColorSpace` (such as hexadecimals and CSS\n * strings) are converted to the working color space automatically.\n *\n * ```js\n * // converted automatically from SRGBColorSpace to LinearSRGBColorSpace\n * const color = new THREE.Color().setHex( 0x112233 );\n * ```\n * Source color spaces may be specified explicitly, to ensure correct conversions.\n * ```js\n * // assumed already LinearSRGBColorSpace; no conversion\n * const color = new THREE.Color().setRGB( 0.5, 0.5, 0.5 );\n *\n * // converted explicitly from SRGBColorSpace to LinearSRGBColorSpace\n * const color = new THREE.Color().setRGB( 0.5, 0.5, 0.5, SRGBColorSpace );\n * ```\n * If THREE.ColorManagement is disabled, no conversions occur. For details,\n * see Color management. Iterating through a Color instance will yield\n * its components (r, g, b) in the corresponding order. A Color can be initialised\n * in any of the following ways:\n * ```js\n * //empty constructor - will default white\n * const color1 = new THREE.Color();\n *\n * //Hexadecimal color (recommended)\n * const color2 = new THREE.Color( 0xff0000 );\n *\n * //RGB string\n * const color3 = new THREE.Color(\"rgb(255, 0, 0)\");\n * const color4 = new THREE.Color(\"rgb(100%, 0%, 0%)\");\n *\n * //X11 color name - all 140 color names are supported.\n * //Note the lack of CamelCase in the name\n * const color5 = new THREE.Color( 'skyblue' );\n * //HSL string\n * const color6 = new THREE.Color(\"hsl(0, 100%, 50%)\");\n *\n * //Separate RGB values between 0 and 1\n * const color7 = new THREE.Color( 1, 0, 0 );\n * ```\n */\nclass Color {\n\n\t/**\n\t * Constructs a new color.\n\t *\n\t * Note that standard method of specifying color in three.js is with a hexadecimal triplet,\n\t * and that method is used throughout the rest of the documentation.\n\t *\n\t * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n\t * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n\t * @param {number} [g] - The green component.\n\t * @param {number} [b] - The blue component.\n\t */\n\tconstructor( r, g, b ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isColor = true;\n\n\t\t/**\n\t\t * The red component.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.r = 1;\n\n\t\t/**\n\t\t * The green component.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.g = 1;\n\n\t\t/**\n\t\t * The blue component.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.b = 1;\n\n\t\treturn this.set( r, g, b );\n\n\t}\n\n\t/**\n\t * Sets the colors's components from the given values.\n\t *\n\t * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n\t * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n\t * @param {number} [g] - The green component.\n\t * @param {number} [b] - The blue component.\n\t * @return {Color} A reference to this color.\n\t */\n\tset( r, g, b ) {\n\n\t\tif ( g === undefined && b === undefined ) {\n\n\t\t\t// r is THREE.Color, hex or string\n\n\t\t\tconst value = r;\n\n\t\t\tif ( value && value.isColor ) {\n\n\t\t\t\tthis.copy( value );\n\n\t\t\t} else if ( typeof value === 'number' ) {\n\n\t\t\t\tthis.setHex( value );\n\n\t\t\t} else if ( typeof value === 'string' ) {\n\n\t\t\t\tthis.setStyle( value );\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tthis.setRGB( r, g, b );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the colors's components to the given scalar value.\n\t *\n\t * @param {number} scalar - The scalar value.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.r = scalar;\n\t\tthis.g = scalar;\n\t\tthis.b = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from a hexadecimal value.\n\t *\n\t * @param {number} hex - The hexadecimal value.\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetHex( hex, colorSpace = SRGBColorSpace ) {\n\n\t\thex = Math.floor( hex );\n\n\t\tthis.r = ( hex >> 16 & 255 ) / 255;\n\t\tthis.g = ( hex >> 8 & 255 ) / 255;\n\t\tthis.b = ( hex & 255 ) / 255;\n\n\t\tColorManagement.colorSpaceToWorking( this, colorSpace );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from RGB values.\n\t *\n\t * @param {number} r - Red channel value between `0.0` and `1.0`.\n\t * @param {number} g - Green channel value between `0.0` and `1.0`.\n\t * @param {number} b - Blue channel value between `0.0` and `1.0`.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetRGB( r, g, b, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\tthis.r = r;\n\t\tthis.g = g;\n\t\tthis.b = b;\n\n\t\tColorManagement.colorSpaceToWorking( this, colorSpace );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from RGB values.\n\t *\n\t * @param {number} h - Hue value between `0.0` and `1.0`.\n\t * @param {number} s - Saturation value between `0.0` and `1.0`.\n\t * @param {number} l - Lightness value between `0.0` and `1.0`.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetHSL( h, s, l, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\t// h,s,l ranges are in 0.0 - 1.0\n\t\th = euclideanModulo( h, 1 );\n\t\ts = clamp( s, 0, 1 );\n\t\tl = clamp( l, 0, 1 );\n\n\t\tif ( s === 0 ) {\n\n\t\t\tthis.r = this.g = this.b = l;\n\n\t\t} else {\n\n\t\t\tconst p = l <= 0.5 ? l * ( 1 + s ) : l + s - ( l * s );\n\t\t\tconst q = ( 2 * l ) - p;\n\n\t\t\tthis.r = hue2rgb( q, p, h + 1 / 3 );\n\t\t\tthis.g = hue2rgb( q, p, h );\n\t\t\tthis.b = hue2rgb( q, p, h - 1 / 3 );\n\n\t\t}\n\n\t\tColorManagement.colorSpaceToWorking( this, colorSpace );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from a CSS-style string. For example, `rgb(250, 0,0)`,\n\t * `rgb(100%, 0%, 0%)`, `hsl(0, 100%, 50%)`, `#ff0000`, `#f00`, or `red` ( or\n\t * any [X11 color name]{@link https://en.wikipedia.org/wiki/X11_color_names#Color_name_chart} -\n\t * all 140 color names are supported).\n\t *\n\t * @param {string} style - Color as a CSS-style string.\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetStyle( style, colorSpace = SRGBColorSpace ) {\n\n\t\tfunction handleAlpha( string ) {\n\n\t\t\tif ( string === undefined ) return;\n\n\t\t\tif ( parseFloat( string ) < 1 ) {\n\n\t\t\t\tconsole.warn( 'THREE.Color: Alpha component of ' + style + ' will be ignored.' );\n\n\t\t\t}\n\n\t\t}\n\n\n\t\tlet m;\n\n\t\tif ( m = /^(\\w+)\\(([^\\)]*)\\)/.exec( style ) ) {\n\n\t\t\t// rgb / hsl\n\n\t\t\tlet color;\n\t\t\tconst name = m[ 1 ];\n\t\t\tconst components = m[ 2 ];\n\n\t\t\tswitch ( name ) {\n\n\t\t\t\tcase 'rgb':\n\t\t\t\tcase 'rgba':\n\n\t\t\t\t\tif ( color = /^\\s*(\\d+)\\s*,\\s*(\\d+)\\s*,\\s*(\\d+)\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec( components ) ) {\n\n\t\t\t\t\t\t// rgb(255,0,0) rgba(255,0,0,0.5)\n\n\t\t\t\t\t\thandleAlpha( color[ 4 ] );\n\n\t\t\t\t\t\treturn this.setRGB(\n\t\t\t\t\t\t\tMath.min( 255, parseInt( color[ 1 ], 10 ) ) / 255,\n\t\t\t\t\t\t\tMath.min( 255, parseInt( color[ 2 ], 10 ) ) / 255,\n\t\t\t\t\t\t\tMath.min( 255, parseInt( color[ 3 ], 10 ) ) / 255,\n\t\t\t\t\t\t\tcolorSpace\n\t\t\t\t\t\t);\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( color = /^\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec( components ) ) {\n\n\t\t\t\t\t\t// rgb(100%,0%,0%) rgba(100%,0%,0%,0.5)\n\n\t\t\t\t\t\thandleAlpha( color[ 4 ] );\n\n\t\t\t\t\t\treturn this.setRGB(\n\t\t\t\t\t\t\tMath.min( 100, parseInt( color[ 1 ], 10 ) ) / 100,\n\t\t\t\t\t\t\tMath.min( 100, parseInt( color[ 2 ], 10 ) ) / 100,\n\t\t\t\t\t\t\tMath.min( 100, parseInt( color[ 3 ], 10 ) ) / 100,\n\t\t\t\t\t\t\tcolorSpace\n\t\t\t\t\t\t);\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase 'hsl':\n\t\t\t\tcase 'hsla':\n\n\t\t\t\t\tif ( color = /^\\s*(\\d*\\.?\\d+)\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec( components ) ) {\n\n\t\t\t\t\t\t// hsl(120,50%,50%) hsla(120,50%,50%,0.5)\n\n\t\t\t\t\t\thandleAlpha( color[ 4 ] );\n\n\t\t\t\t\t\treturn this.setHSL(\n\t\t\t\t\t\t\tparseFloat( color[ 1 ] ) / 360,\n\t\t\t\t\t\t\tparseFloat( color[ 2 ] ) / 100,\n\t\t\t\t\t\t\tparseFloat( color[ 3 ] ) / 100,\n\t\t\t\t\t\t\tcolorSpace\n\t\t\t\t\t\t);\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\n\n\t\t\t\t\tconsole.warn( 'THREE.Color: Unknown color model ' + style );\n\n\t\t\t}\n\n\t\t} else if ( m = /^\\#([A-Fa-f\\d]+)$/.exec( style ) ) {\n\n\t\t\t// hex color\n\n\t\t\tconst hex = m[ 1 ];\n\t\t\tconst size = hex.length;\n\n\t\t\tif ( size === 3 ) {\n\n\t\t\t\t// #ff0\n\t\t\t\treturn this.setRGB(\n\t\t\t\t\tparseInt( hex.charAt( 0 ), 16 ) / 15,\n\t\t\t\t\tparseInt( hex.charAt( 1 ), 16 ) / 15,\n\t\t\t\t\tparseInt( hex.charAt( 2 ), 16 ) / 15,\n\t\t\t\t\tcolorSpace\n\t\t\t\t);\n\n\t\t\t} else if ( size === 6 ) {\n\n\t\t\t\t// #ff0000\n\t\t\t\treturn this.setHex( parseInt( hex, 16 ), colorSpace );\n\n\t\t\t} else {\n\n\t\t\t\tconsole.warn( 'THREE.Color: Invalid hex color ' + style );\n\n\t\t\t}\n\n\t\t} else if ( style && style.length > 0 ) {\n\n\t\t\treturn this.setColorName( style, colorSpace );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from a color name. Faster than {@link Color#setStyle} if\n\t * you don't need the other CSS-style formats.\n\t *\n\t * For convenience, the list of names is exposed in `Color.NAMES` as a hash.\n\t * ```js\n\t * Color.NAMES.aliceblue // returns 0xF0F8FF\n\t * ```\n\t *\n\t * @param {string} style - The color name.\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetColorName( style, colorSpace = SRGBColorSpace ) {\n\n\t\t// color keywords\n\t\tconst hex = _colorKeywords[ style.toLowerCase() ];\n\n\t\tif ( hex !== undefined ) {\n\n\t\t\t// red\n\t\t\tthis.setHex( hex, colorSpace );\n\n\t\t} else {\n\n\t\t\t// unknown color\n\t\t\tconsole.warn( 'THREE.Color: Unknown color ' + style );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new color with copied values from this instance.\n\t *\n\t * @return {Color} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.r, this.g, this.b );\n\n\t}\n\n\t/**\n\t * Copies the values of the given color to this instance.\n\t *\n\t * @param {Color} color - The color to copy.\n\t * @return {Color} A reference to this color.\n\t */\n\tcopy( color ) {\n\n\t\tthis.r = color.r;\n\t\tthis.g = color.g;\n\t\tthis.b = color.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the given color into this color, and then converts this color from\n\t * `SRGBColorSpace` to `LinearSRGBColorSpace`.\n\t *\n\t * @param {Color} color - The color to copy/convert.\n\t * @return {Color} A reference to this color.\n\t */\n\tcopySRGBToLinear( color ) {\n\n\t\tthis.r = SRGBToLinear( color.r );\n\t\tthis.g = SRGBToLinear( color.g );\n\t\tthis.b = SRGBToLinear( color.b );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the given color into this color, and then converts this color from\n\t * `LinearSRGBColorSpace` to `SRGBColorSpace`.\n\t *\n\t * @param {Color} color - The color to copy/convert.\n\t * @return {Color} A reference to this color.\n\t */\n\tcopyLinearToSRGB( color ) {\n\n\t\tthis.r = LinearToSRGB( color.r );\n\t\tthis.g = LinearToSRGB( color.g );\n\t\tthis.b = LinearToSRGB( color.b );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Converts this color from `SRGBColorSpace` to `LinearSRGBColorSpace`.\n\t *\n\t * @return {Color} A reference to this color.\n\t */\n\tconvertSRGBToLinear() {\n\n\t\tthis.copySRGBToLinear( this );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Converts this color from `LinearSRGBColorSpace` to `SRGBColorSpace`.\n\t *\n\t * @return {Color} A reference to this color.\n\t */\n\tconvertLinearToSRGB() {\n\n\t\tthis.copyLinearToSRGB( this );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the hexadecimal value of this color.\n\t *\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {number} The hexadecimal value.\n\t */\n\tgetHex( colorSpace = SRGBColorSpace ) {\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\treturn Math.round( clamp( _color.r * 255, 0, 255 ) ) * 65536 + Math.round( clamp( _color.g * 255, 0, 255 ) ) * 256 + Math.round( clamp( _color.b * 255, 0, 255 ) );\n\n\t}\n\n\t/**\n\t * Returns the hexadecimal value of this color as a string (for example, 'FFFFFF').\n\t *\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {string} The hexadecimal value as a string.\n\t */\n\tgetHexString( colorSpace = SRGBColorSpace ) {\n\n\t\treturn ( '000000' + this.getHex( colorSpace ).toString( 16 ) ).slice( -6 );\n\n\t}\n\n\t/**\n\t * Converts the colors RGB values into the HSL format and stores them into the\n\t * given target object.\n\t *\n\t * @param {{h:number,s:number,l:number}} target - The target object that is used to store the method's result.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {{h:number,s:number,l:number}} The HSL representation of this color.\n\t */\n\tgetHSL( target, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\t// h,s,l ranges are in 0.0 - 1.0\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\tconst r = _color.r, g = _color.g, b = _color.b;\n\n\t\tconst max = Math.max( r, g, b );\n\t\tconst min = Math.min( r, g, b );\n\n\t\tlet hue, saturation;\n\t\tconst lightness = ( min + max ) / 2.0;\n\n\t\tif ( min === max ) {\n\n\t\t\thue = 0;\n\t\t\tsaturation = 0;\n\n\t\t} else {\n\n\t\t\tconst delta = max - min;\n\n\t\t\tsaturation = lightness <= 0.5 ? delta / ( max + min ) : delta / ( 2 - max - min );\n\n\t\t\tswitch ( max ) {\n\n\t\t\t\tcase r: hue = ( g - b ) / delta + ( g < b ? 6 : 0 ); break;\n\t\t\t\tcase g: hue = ( b - r ) / delta + 2; break;\n\t\t\t\tcase b: hue = ( r - g ) / delta + 4; break;\n\n\t\t\t}\n\n\t\t\thue /= 6;\n\n\t\t}\n\n\t\ttarget.h = hue;\n\t\ttarget.s = saturation;\n\t\ttarget.l = lightness;\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the RGB values of this color and stores them into the given target object.\n\t *\n\t * @param {Color} target - The target color that is used to store the method's result.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {Color} The RGB representation of this color.\n\t */\n\tgetRGB( target, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\ttarget.r = _color.r;\n\t\ttarget.g = _color.g;\n\t\ttarget.b = _color.b;\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the value of this color as a CSS style string. Example: `rgb(255,0,0)`.\n\t *\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {string} The CSS representation of this color.\n\t */\n\tgetStyle( colorSpace = SRGBColorSpace ) {\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\tconst r = _color.r, g = _color.g, b = _color.b;\n\n\t\tif ( colorSpace !== SRGBColorSpace ) {\n\n\t\t\t// Requires CSS Color Module Level 4 (https://www.w3.org/TR/css-color-4/).\n\t\t\treturn `color(${ colorSpace } ${ r.toFixed( 3 ) } ${ g.toFixed( 3 ) } ${ b.toFixed( 3 ) })`;\n\n\t\t}\n\n\t\treturn `rgb(${ Math.round( r * 255 ) },${ Math.round( g * 255 ) },${ Math.round( b * 255 ) })`;\n\n\t}\n\n\t/**\n\t * Adds the given HSL values to this color's values.\n\t * Internally, this converts the color's RGB values to HSL, adds HSL\n\t * and then converts the color back to RGB.\n\t *\n\t * @param {number} h - Hue value between `0.0` and `1.0`.\n\t * @param {number} s - Saturation value between `0.0` and `1.0`.\n\t * @param {number} l - Lightness value between `0.0` and `1.0`.\n\t * @return {Color} A reference to this color.\n\t */\n\toffsetHSL( h, s, l ) {\n\n\t\tthis.getHSL( _hslA );\n\n\t\treturn this.setHSL( _hslA.h + h, _hslA.s + s, _hslA.l + l );\n\n\t}\n\n\t/**\n\t * Adds the RGB values of the given color to the RGB values of this color.\n\t *\n\t * @param {Color} color - The color to add.\n\t * @return {Color} A reference to this color.\n\t */\n\tadd( color ) {\n\n\t\tthis.r += color.r;\n\t\tthis.g += color.g;\n\t\tthis.b += color.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the RGB values of the given colors and stores the result in this instance.\n\t *\n\t * @param {Color} color1 - The first color.\n\t * @param {Color} color2 - The second color.\n\t * @return {Color} A reference to this color.\n\t */\n\taddColors( color1, color2 ) {\n\n\t\tthis.r = color1.r + color2.r;\n\t\tthis.g = color1.g + color2.g;\n\t\tthis.b = color1.b + color2.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to the RGB values of this color.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Color} A reference to this color.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.r += s;\n\t\tthis.g += s;\n\t\tthis.b += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the RGB values of the given color from the RGB values of this color.\n\t *\n\t * @param {Color} color - The color to subtract.\n\t * @return {Color} A reference to this color.\n\t */\n\tsub( color ) {\n\n\t\tthis.r = Math.max( 0, this.r - color.r );\n\t\tthis.g = Math.max( 0, this.g - color.g );\n\t\tthis.b = Math.max( 0, this.b - color.b );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the RGB values of the given color with the RGB values of this color.\n\t *\n\t * @param {Color} color - The color to multiply.\n\t * @return {Color} A reference to this color.\n\t */\n\tmultiply( color ) {\n\n\t\tthis.r *= color.r;\n\t\tthis.g *= color.g;\n\t\tthis.b *= color.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with the RGB values of this color.\n\t *\n\t * @param {number} s - The scalar to multiply.\n\t * @return {Color} A reference to this color.\n\t */\n\tmultiplyScalar( s ) {\n\n\t\tthis.r *= s;\n\t\tthis.g *= s;\n\t\tthis.b *= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates this color's RGB values toward the RGB values of the\n\t * given color. The alpha argument can be thought of as the ratio between\n\t * the two colors, where `0.0` is this color and `1.0` is the first argument.\n\t *\n\t * @param {Color} color - The color to converge on.\n\t * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n\t * @return {Color} A reference to this color.\n\t */\n\tlerp( color, alpha ) {\n\n\t\tthis.r += ( color.r - this.r ) * alpha;\n\t\tthis.g += ( color.g - this.g ) * alpha;\n\t\tthis.b += ( color.b - this.b ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given colors and stores the result in this instance.\n\t * The alpha argument can be thought of as the ratio between the two colors, where `0.0`\n\t * is the first and `1.0` is the second color.\n\t *\n\t * @param {Color} color1 - The first color.\n\t * @param {Color} color2 - The second color.\n\t * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n\t * @return {Color} A reference to this color.\n\t */\n\tlerpColors( color1, color2, alpha ) {\n\n\t\tthis.r = color1.r + ( color2.r - color1.r ) * alpha;\n\t\tthis.g = color1.g + ( color2.g - color1.g ) * alpha;\n\t\tthis.b = color1.b + ( color2.b - color1.b ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates this color's HSL values toward the HSL values of the\n\t * given color. It differs from {@link Color#lerp} by not interpolating straight\n\t * from one color to the other, but instead going through all the hues in between\n\t * those two colors. The alpha argument can be thought of as the ratio between\n\t * the two colors, where 0.0 is this color and 1.0 is the first argument.\n\t *\n\t * @param {Color} color - The color to converge on.\n\t * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n\t * @return {Color} A reference to this color.\n\t */\n\tlerpHSL( color, alpha ) {\n\n\t\tthis.getHSL( _hslA );\n\t\tcolor.getHSL( _hslB );\n\n\t\tconst h = lerp( _hslA.h, _hslB.h, alpha );\n\t\tconst s = lerp( _hslA.s, _hslB.s, alpha );\n\t\tconst l = lerp( _hslA.l, _hslB.l, alpha );\n\n\t\tthis.setHSL( h, s, l );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the color's RGB components from the given 3D vector.\n\t *\n\t * @param {Vector3} v - The vector to set.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetFromVector3( v ) {\n\n\t\tthis.r = v.x;\n\t\tthis.g = v.y;\n\t\tthis.b = v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Transforms this color with the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix.\n\t * @return {Color} A reference to this color.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tconst r = this.r, g = this.g, b = this.b;\n\t\tconst e = m.elements;\n\n\t\tthis.r = e[ 0 ] * r + e[ 3 ] * g + e[ 6 ] * b;\n\t\tthis.g = e[ 1 ] * r + e[ 4 ] * g + e[ 7 ] * b;\n\t\tthis.b = e[ 2 ] * r + e[ 5 ] * g + e[ 8 ] * b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this color is equal with the given one.\n\t *\n\t * @param {Color} c - The color to test for equality.\n\t * @return {boolean} Whether this bounding color is equal with the given one.\n\t */\n\tequals( c ) {\n\n\t\treturn ( c.r === this.r ) && ( c.g === this.g ) && ( c.b === this.b );\n\n\t}\n\n\t/**\n\t * Sets this color's RGB components from the given array.\n\t *\n\t * @param {Array} array - An array holding the RGB values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Color} A reference to this color.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.r = array[ offset ];\n\t\tthis.g = array[ offset + 1 ];\n\t\tthis.b = array[ offset + 2 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the RGB components of this color to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the color components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The color components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.r;\n\t\tarray[ offset + 1 ] = this.g;\n\t\tarray[ offset + 2 ] = this.b;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this color from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding color data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Color} A reference to this color.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.r = attribute.getX( index );\n\t\tthis.g = attribute.getY( index );\n\t\tthis.b = attribute.getZ( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This methods defines the serialization result of this class. Returns the color\n\t * as a hexadecimal value.\n\t *\n\t * @return {number} The hexadecimal value.\n\t */\n\ttoJSON() {\n\n\t\treturn this.getHex();\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.r;\n\t\tyield this.g;\n\t\tyield this.b;\n\n\t}\n\n}\n\nconst _color = /*@__PURE__*/ new Color();\n\n/**\n * A dictionary with X11 color names.\n *\n * Note that multiple words such as Dark Orange become the string 'darkorange'.\n *\n * @static\n * @type {Object}\n */\nColor.NAMES = _colorKeywords;\n\nlet _materialId = 0;\n\n/**\n * Abstract base class for materials.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * @abstract\n * @augments EventDispatcher\n */\nclass Material extends EventDispatcher {\n\n\t/**\n\t * Constructs a new material.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMaterial = true;\n\n\t\t/**\n\t\t * The ID of the material.\n\t\t *\n\t\t * @name Material#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _materialId ++ } );\n\n\t\t/**\n\t\t * The UUID of the material.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the material.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'Material';\n\n\t\t/**\n\t\t * Defines the blending type of the material.\n\t\t *\n\t\t * It must be set to `CustomBlending` if custom blending properties like\n\t\t * {@link Material#blendSrc}, {@link Material#blendDst} or {@link Material#blendEquation}\n\t\t * should have any effect.\n\t\t *\n\t\t * @type {(NoBlending|NormalBlending|AdditiveBlending|SubtractiveBlending|MultiplyBlending|CustomBlending)}\n\t\t * @default NormalBlending\n\t\t */\n\t\tthis.blending = NormalBlending;\n\n\t\t/**\n\t\t * Defines which side of faces will be rendered - front, back or both.\n\t\t *\n\t\t * @type {(FrontSide|BackSide|DoubleSide)}\n\t\t * @default FrontSide\n\t\t */\n\t\tthis.side = FrontSide;\n\n\t\t/**\n\t\t * If set to `true`, vertex colors should be used.\n\t\t *\n\t\t * The engine supports RGB and RGBA vertex colors depending on whether a three (RGB) or\n\t\t * four (RGBA) component color buffer attribute is used.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.vertexColors = false;\n\n\t\t/**\n\t\t * Defines how transparent the material is.\n\t\t * A value of `0.0` indicates fully transparent, `1.0` is fully opaque.\n\t\t *\n\t\t * If the {@link Material#transparent} is not set to `true`,\n\t\t * the material will remain fully opaque and this value will only affect its color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.opacity = 1;\n\n\t\t/**\n\t\t * Defines whether this material is transparent. This has an effect on\n\t\t * rendering as transparent objects need special treatment and are rendered\n\t\t * after non-transparent objects.\n\t\t *\n\t\t * When set to true, the extent to which the material is transparent is\n\t\t * controlled by {@link Material#opacity}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.transparent = false;\n\n\t\t/**\n\t\t * Enables alpha hashed transparency, an alternative to {@link Material#transparent} or\n\t\t * {@link Material#alphaTest}. The material will not be rendered if opacity is lower than\n\t\t * a random threshold. Randomization introduces some grain or noise, but approximates alpha\n\t\t * blending without the associated problems of sorting. Using TAA can reduce the resulting noise.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.alphaHash = false;\n\n\t\t/**\n\t\t * Defines the blending source factor.\n\t\t *\n\t\t * @type {(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default SrcAlphaFactor\n\t\t */\n\t\tthis.blendSrc = SrcAlphaFactor;\n\n\t\t/**\n\t\t * Defines the blending destination factor.\n\t\t *\n\t\t * @type {(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default OneMinusSrcAlphaFactor\n\t\t */\n\t\tthis.blendDst = OneMinusSrcAlphaFactor;\n\n\t\t/**\n\t\t * Defines the blending equation.\n\t\t *\n\t\t * @type {(AddEquation|SubtractEquation|ReverseSubtractEquation|MinEquation|MaxEquation)}\n\t\t * @default AddEquation\n\t\t */\n\t\tthis.blendEquation = AddEquation;\n\n\t\t/**\n\t\t * Defines the blending source alpha factor.\n\t\t *\n\t\t * @type {?(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default null\n\t\t */\n\t\tthis.blendSrcAlpha = null;\n\n\t\t/**\n\t\t * Defines the blending destination alpha factor.\n\t\t *\n\t\t * @type {?(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default null\n\t\t */\n\t\tthis.blendDstAlpha = null;\n\n\t\t/**\n\t\t * Defines the blending equation of the alpha channel.\n\t\t *\n\t\t * @type {?(AddEquation|SubtractEquation|ReverseSubtractEquation|MinEquation|MaxEquation)}\n\t\t * @default null\n\t\t */\n\t\tthis.blendEquationAlpha = null;\n\n\t\t/**\n\t\t * Represents the RGB values of the constant blend color.\n\t\t *\n\t\t * This property has only an effect when using custom blending with `ConstantColor` or `OneMinusConstantColor`.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.blendColor = new Color( 0, 0, 0 );\n\n\t\t/**\n\t\t * Represents the alpha value of the constant blend color.\n\t\t *\n\t\t * This property has only an effect when using custom blending with `ConstantAlpha` or `OneMinusConstantAlpha`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.blendAlpha = 0;\n\n\t\t/**\n\t\t * Defines the depth function.\n\t\t *\n\t\t * @type {(NeverDepth|AlwaysDepth|LessDepth|LessEqualDepth|EqualDepth|GreaterEqualDepth|GreaterDepth|NotEqualDepth)}\n\t\t * @default LessEqualDepth\n\t\t */\n\t\tthis.depthFunc = LessEqualDepth;\n\n\t\t/**\n\t\t * Whether to have depth test enabled when rendering this material.\n\t\t * When the depth test is disabled, the depth write will also be implicitly disabled.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.depthTest = true;\n\n\t\t/**\n\t\t * Whether rendering this material has any effect on the depth buffer.\n\t\t *\n\t\t * When drawing 2D overlays it can be useful to disable the depth writing in\n\t\t * order to layer several things together without creating z-index artifacts.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.depthWrite = true;\n\n\t\t/**\n\t\t * The bit mask to use when writing to the stencil buffer.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0xff\n\t\t */\n\t\tthis.stencilWriteMask = 0xff;\n\n\t\t/**\n\t\t * The stencil comparison function to use.\n\t\t *\n\t\t * @type {NeverStencilFunc|LessStencilFunc|EqualStencilFunc|LessEqualStencilFunc|GreaterStencilFunc|NotEqualStencilFunc|GreaterEqualStencilFunc|AlwaysStencilFunc}\n\t\t * @default AlwaysStencilFunc\n\t\t */\n\t\tthis.stencilFunc = AlwaysStencilFunc;\n\n\t\t/**\n\t\t * The value to use when performing stencil comparisons or stencil operations.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.stencilRef = 0;\n\n\t\t/**\n\t\t * The bit mask to use when comparing against the stencil buffer.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0xff\n\t\t */\n\t\tthis.stencilFuncMask = 0xff;\n\n\t\t/**\n\t\t * Which stencil operation to perform when the comparison function returns `false`.\n\t\t *\n\t\t * @type {ZeroStencilOp|KeepStencilOp|ReplaceStencilOp|IncrementStencilOp|DecrementStencilOp|IncrementWrapStencilOp|DecrementWrapStencilOp|InvertStencilOp}\n\t\t * @default KeepStencilOp\n\t\t */\n\t\tthis.stencilFail = KeepStencilOp;\n\n\t\t/**\n\t\t * Which stencil operation to perform when the comparison function returns\n\t\t * `true` but the depth test fails.\n\t\t *\n\t\t * @type {ZeroStencilOp|KeepStencilOp|ReplaceStencilOp|IncrementStencilOp|DecrementStencilOp|IncrementWrapStencilOp|DecrementWrapStencilOp|InvertStencilOp}\n\t\t * @default KeepStencilOp\n\t\t */\n\t\tthis.stencilZFail = KeepStencilOp;\n\n\t\t/**\n\t\t * Which stencil operation to perform when the comparison function returns\n\t\t * `true` and the depth test passes.\n\t\t *\n\t\t * @type {ZeroStencilOp|KeepStencilOp|ReplaceStencilOp|IncrementStencilOp|DecrementStencilOp|IncrementWrapStencilOp|DecrementWrapStencilOp|InvertStencilOp}\n\t\t * @default KeepStencilOp\n\t\t */\n\t\tthis.stencilZPass = KeepStencilOp;\n\n\t\t/**\n\t\t * Whether stencil operations are performed against the stencil buffer. In\n\t\t * order to perform writes or comparisons against the stencil buffer this\n\t\t * value must be `true`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.stencilWrite = false;\n\n\t\t/**\n\t\t * User-defined clipping planes specified as THREE.Plane objects in world\n\t\t * space. These planes apply to the objects this material is attached to.\n\t\t * Points in space whose signed distance to the plane is negative are clipped\n\t\t * (not rendered). This requires {@link WebGLRenderer#localClippingEnabled} to\n\t\t * be `true`.\n\t\t *\n\t\t * @type {?Array}\n\t\t * @default null\n\t\t */\n\t\tthis.clippingPlanes = null;\n\n\t\t/**\n\t\t * Changes the behavior of clipping planes so that only their intersection is\n\t\t * clipped, rather than their union.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clipIntersection = false;\n\n\t\t/**\n\t\t * Defines whether to clip shadows according to the clipping planes specified\n\t\t * on this material.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clipShadows = false;\n\n\t\t/**\n\t\t * Defines which side of faces cast shadows. If `null`, the side casting shadows\n\t\t * is determined as follows:\n\t\t *\n\t\t * - When {@link Material#side} is set to `FrontSide`, the back side cast shadows.\n\t\t * - When {@link Material#side} is set to `BackSide`, the front side cast shadows.\n\t\t * - When {@link Material#side} is set to `DoubleSide`, both sides cast shadows.\n\t\t *\n\t\t * @type {?(FrontSide|BackSide|DoubleSide)}\n\t\t * @default null\n\t\t */\n\t\tthis.shadowSide = null;\n\n\t\t/**\n\t\t * Whether to render the material's color.\n\t\t *\n\t\t * This can be used in conjunction with {@link Object3D#renderOder} to create invisible\n\t\t * objects that occlude other objects.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.colorWrite = true;\n\n\t\t/**\n\t\t * Override the renderer's default precision for this material.\n\t\t *\n\t\t * @type {?('highp'|'mediump'|'lowp')}\n\t\t * @default null\n\t\t */\n\t\tthis.precision = null;\n\n\t\t/**\n\t\t * Whether to use polygon offset or not. When enabled, each fragment's depth value will\n\t\t * be offset after it is interpolated from the depth values of the appropriate vertices.\n\t\t * The offset is added before the depth test is performed and before the value is written\n\t\t * into the depth buffer.\n\t\t *\n\t\t * Can be useful for rendering hidden-line images, for applying decals to surfaces, and for\n\t\t * rendering solids with highlighted edges.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.polygonOffset = false;\n\n\t\t/**\n\t\t * Specifies a scale factor that is used to create a variable depth offset for each polygon.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.polygonOffsetFactor = 0;\n\n\t\t/**\n\t\t * Is multiplied by an implementation-specific value to create a constant depth offset.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.polygonOffsetUnits = 0;\n\n\t\t/**\n\t\t * Whether to apply dithering to the color to remove the appearance of banding.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.dithering = false;\n\n\t\t/**\n\t\t * Whether alpha to coverage should be enabled or not. Can only be used with MSAA-enabled contexts\n\t\t * (meaning when the renderer was created with *antialias* parameter set to `true`). Enabling this\n\t\t * will smooth aliasing on clip plane edges and alphaTest-clipped edges.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.alphaToCoverage = false;\n\n\t\t/**\n\t\t * Whether to premultiply the alpha (transparency) value.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.premultipliedAlpha = false;\n\n\t\t/**\n\t\t * Whether double-sided, transparent objects should be rendered with a single pass or not.\n\t\t *\n\t\t * The engine renders double-sided, transparent objects with two draw calls (back faces first,\n\t\t * then front faces) to mitigate transparency artifacts. There are scenarios however where this\n\t\t * approach produces no quality gains but still doubles draw calls e.g. when rendering flat\n\t\t * vegetation like grass sprites. In these cases, set the `forceSinglePass` flag to `true` to\n\t\t * disable the two pass rendering to avoid performance issues.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.forceSinglePass = false;\n\n\t\t/**\n\t\t * Whether it's possible to override the material with {@link Scene#overrideMaterial} or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.allowOverride = true;\n\n\t\t/**\n\t\t * Defines whether 3D objects using this material are visible.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.visible = true;\n\n\t\t/**\n\t\t * Defines whether this material is tone mapped according to the renderer's tone mapping setting.\n\t\t *\n\t\t * It is ignored when rendering to a render target or using post processing or when using\n\t\t * `WebGPURenderer`. In all these cases, all materials are honored by tone mapping.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.toneMapped = true;\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the Material. It\n\t\t * should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t\t/**\n\t\t * This starts at `0` and counts how many times {@link Material#needsUpdate} is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.version = 0;\n\n\t\tthis._alphaTest = 0;\n\n\t}\n\n\t/**\n\t * Sets the alpha value to be used when running an alpha test. The material\n\t * will not be rendered if the opacity is lower than this value.\n\t *\n\t * @type {number}\n\t * @readonly\n\t * @default 0\n\t */\n\tget alphaTest() {\n\n\t\treturn this._alphaTest;\n\n\t}\n\n\tset alphaTest( value ) {\n\n\t\tif ( this._alphaTest > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._alphaTest = value;\n\n\t}\n\n\t/**\n\t * An optional callback that is executed immediately before the material is used to render a 3D object.\n\t *\n\t * This method can only be used when rendering with {@link WebGLRenderer}.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {Scene} scene - The scene.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonBeforeRender( /* renderer, scene, camera, geometry, object, group */ ) {}\n\n\t/**\n\t * An optional callback that is executed immediately before the shader\n\t * program is compiled. This function is called with the shader source code\n\t * as a parameter. Useful for the modification of built-in materials.\n\t *\n\t * This method can only be used when rendering with {@link WebGLRenderer}. The\n\t * recommended approach when customizing materials is to use `WebGPURenderer` with the new\n\t * Node Material system and [TSL]{@link https://github.com/mrdoob/three.js/wiki/Three.js-Shading-Language}.\n\t *\n\t * @param {{vertexShader:string,fragmentShader:string,uniforms:Object}} shaderobject - The object holds the uniforms and the vertex and fragment shader source.\n\t * @param {WebGLRenderer} renderer - A reference to the renderer.\n\t */\n\tonBeforeCompile( /* shaderobject, renderer */ ) {}\n\n\t/**\n\t * In case {@link Material#onBeforeCompile} is used, this callback can be used to identify\n\t * values of settings used in `onBeforeCompile()`, so three.js can reuse a cached\n\t * shader or recompile the shader for this material as needed.\n\t *\n\t * This method can only be used when rendering with {@link WebGLRenderer}.\n\t *\n\t * @return {string} The custom program cache key.\n\t */\n\tcustomProgramCacheKey() {\n\n\t\treturn this.onBeforeCompile.toString();\n\n\t}\n\n\t/**\n\t * This method can be used to set default values from parameter objects.\n\t * It is a generic implementation so it can be used with different types\n\t * of materials.\n\t *\n\t * @param {Object} [values] - The material values to set.\n\t */\n\tsetValues( values ) {\n\n\t\tif ( values === undefined ) return;\n\n\t\tfor ( const key in values ) {\n\n\t\t\tconst newValue = values[ key ];\n\n\t\t\tif ( newValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Material: parameter '${ key }' has value of undefined.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tconst currentValue = this[ key ];\n\n\t\t\tif ( currentValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Material: '${ key }' is not a property of THREE.${ this.type }.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tif ( currentValue && currentValue.isColor ) {\n\n\t\t\t\tcurrentValue.set( newValue );\n\n\t\t\t} else if ( ( currentValue && currentValue.isVector3 ) && ( newValue && newValue.isVector3 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else {\n\n\t\t\t\tthis[ key ] = newValue;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the material into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized material.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tif ( isRootObject ) {\n\n\t\t\tmeta = {\n\t\t\t\ttextures: {},\n\t\t\t\timages: {}\n\t\t\t};\n\n\t\t}\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Material',\n\t\t\t\tgenerator: 'Material.toJSON'\n\t\t\t}\n\t\t};\n\n\t\t// standard Material serialization\n\t\tdata.uuid = this.uuid;\n\t\tdata.type = this.type;\n\n\t\tif ( this.name !== '' ) data.name = this.name;\n\n\t\tif ( this.color && this.color.isColor ) data.color = this.color.getHex();\n\n\t\tif ( this.roughness !== undefined ) data.roughness = this.roughness;\n\t\tif ( this.metalness !== undefined ) data.metalness = this.metalness;\n\n\t\tif ( this.sheen !== undefined ) data.sheen = this.sheen;\n\t\tif ( this.sheenColor && this.sheenColor.isColor ) data.sheenColor = this.sheenColor.getHex();\n\t\tif ( this.sheenRoughness !== undefined ) data.sheenRoughness = this.sheenRoughness;\n\t\tif ( this.emissive && this.emissive.isColor ) data.emissive = this.emissive.getHex();\n\t\tif ( this.emissiveIntensity !== undefined && this.emissiveIntensity !== 1 ) data.emissiveIntensity = this.emissiveIntensity;\n\n\t\tif ( this.specular && this.specular.isColor ) data.specular = this.specular.getHex();\n\t\tif ( this.specularIntensity !== undefined ) data.specularIntensity = this.specularIntensity;\n\t\tif ( this.specularColor && this.specularColor.isColor ) data.specularColor = this.specularColor.getHex();\n\t\tif ( this.shininess !== undefined ) data.shininess = this.shininess;\n\t\tif ( this.clearcoat !== undefined ) data.clearcoat = this.clearcoat;\n\t\tif ( this.clearcoatRoughness !== undefined ) data.clearcoatRoughness = this.clearcoatRoughness;\n\n\t\tif ( this.clearcoatMap && this.clearcoatMap.isTexture ) {\n\n\t\t\tdata.clearcoatMap = this.clearcoatMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.clearcoatRoughnessMap && this.clearcoatRoughnessMap.isTexture ) {\n\n\t\t\tdata.clearcoatRoughnessMap = this.clearcoatRoughnessMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.clearcoatNormalMap && this.clearcoatNormalMap.isTexture ) {\n\n\t\t\tdata.clearcoatNormalMap = this.clearcoatNormalMap.toJSON( meta ).uuid;\n\t\t\tdata.clearcoatNormalScale = this.clearcoatNormalScale.toArray();\n\n\t\t}\n\n\t\tif ( this.sheenColorMap && this.sheenColorMap.isTexture ) {\n\n\t\t\tdata.sheenColorMap = this.sheenColorMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.sheenRoughnessMap && this.sheenRoughnessMap.isTexture ) {\n\n\t\t\tdata.sheenRoughnessMap = this.sheenRoughnessMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.dispersion !== undefined ) data.dispersion = this.dispersion;\n\n\t\tif ( this.iridescence !== undefined ) data.iridescence = this.iridescence;\n\t\tif ( this.iridescenceIOR !== undefined ) data.iridescenceIOR = this.iridescenceIOR;\n\t\tif ( this.iridescenceThicknessRange !== undefined ) data.iridescenceThicknessRange = this.iridescenceThicknessRange;\n\n\t\tif ( this.iridescenceMap && this.iridescenceMap.isTexture ) {\n\n\t\t\tdata.iridescenceMap = this.iridescenceMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.iridescenceThicknessMap && this.iridescenceThicknessMap.isTexture ) {\n\n\t\t\tdata.iridescenceThicknessMap = this.iridescenceThicknessMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.anisotropy !== undefined ) data.anisotropy = this.anisotropy;\n\t\tif ( this.anisotropyRotation !== undefined ) data.anisotropyRotation = this.anisotropyRotation;\n\n\t\tif ( this.anisotropyMap && this.anisotropyMap.isTexture ) {\n\n\t\t\tdata.anisotropyMap = this.anisotropyMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.map && this.map.isTexture ) data.map = this.map.toJSON( meta ).uuid;\n\t\tif ( this.matcap && this.matcap.isTexture ) data.matcap = this.matcap.toJSON( meta ).uuid;\n\t\tif ( this.alphaMap && this.alphaMap.isTexture ) data.alphaMap = this.alphaMap.toJSON( meta ).uuid;\n\n\t\tif ( this.lightMap && this.lightMap.isTexture ) {\n\n\t\t\tdata.lightMap = this.lightMap.toJSON( meta ).uuid;\n\t\t\tdata.lightMapIntensity = this.lightMapIntensity;\n\n\t\t}\n\n\t\tif ( this.aoMap && this.aoMap.isTexture ) {\n\n\t\t\tdata.aoMap = this.aoMap.toJSON( meta ).uuid;\n\t\t\tdata.aoMapIntensity = this.aoMapIntensity;\n\n\t\t}\n\n\t\tif ( this.bumpMap && this.bumpMap.isTexture ) {\n\n\t\t\tdata.bumpMap = this.bumpMap.toJSON( meta ).uuid;\n\t\t\tdata.bumpScale = this.bumpScale;\n\n\t\t}\n\n\t\tif ( this.normalMap && this.normalMap.isTexture ) {\n\n\t\t\tdata.normalMap = this.normalMap.toJSON( meta ).uuid;\n\t\t\tdata.normalMapType = this.normalMapType;\n\t\t\tdata.normalScale = this.normalScale.toArray();\n\n\t\t}\n\n\t\tif ( this.displacementMap && this.displacementMap.isTexture ) {\n\n\t\t\tdata.displacementMap = this.displacementMap.toJSON( meta ).uuid;\n\t\t\tdata.displacementScale = this.displacementScale;\n\t\t\tdata.displacementBias = this.displacementBias;\n\n\t\t}\n\n\t\tif ( this.roughnessMap && this.roughnessMap.isTexture ) data.roughnessMap = this.roughnessMap.toJSON( meta ).uuid;\n\t\tif ( this.metalnessMap && this.metalnessMap.isTexture ) data.metalnessMap = this.metalnessMap.toJSON( meta ).uuid;\n\n\t\tif ( this.emissiveMap && this.emissiveMap.isTexture ) data.emissiveMap = this.emissiveMap.toJSON( meta ).uuid;\n\t\tif ( this.specularMap && this.specularMap.isTexture ) data.specularMap = this.specularMap.toJSON( meta ).uuid;\n\t\tif ( this.specularIntensityMap && this.specularIntensityMap.isTexture ) data.specularIntensityMap = this.specularIntensityMap.toJSON( meta ).uuid;\n\t\tif ( this.specularColorMap && this.specularColorMap.isTexture ) data.specularColorMap = this.specularColorMap.toJSON( meta ).uuid;\n\n\t\tif ( this.envMap && this.envMap.isTexture ) {\n\n\t\t\tdata.envMap = this.envMap.toJSON( meta ).uuid;\n\n\t\t\tif ( this.combine !== undefined ) data.combine = this.combine;\n\n\t\t}\n\n\t\tif ( this.envMapRotation !== undefined ) data.envMapRotation = this.envMapRotation.toArray();\n\t\tif ( this.envMapIntensity !== undefined ) data.envMapIntensity = this.envMapIntensity;\n\t\tif ( this.reflectivity !== undefined ) data.reflectivity = this.reflectivity;\n\t\tif ( this.refractionRatio !== undefined ) data.refractionRatio = this.refractionRatio;\n\n\t\tif ( this.gradientMap && this.gradientMap.isTexture ) {\n\n\t\t\tdata.gradientMap = this.gradientMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.transmission !== undefined ) data.transmission = this.transmission;\n\t\tif ( this.transmissionMap && this.transmissionMap.isTexture ) data.transmissionMap = this.transmissionMap.toJSON( meta ).uuid;\n\t\tif ( this.thickness !== undefined ) data.thickness = this.thickness;\n\t\tif ( this.thicknessMap && this.thicknessMap.isTexture ) data.thicknessMap = this.thicknessMap.toJSON( meta ).uuid;\n\t\tif ( this.attenuationDistance !== undefined && this.attenuationDistance !== Infinity ) data.attenuationDistance = this.attenuationDistance;\n\t\tif ( this.attenuationColor !== undefined ) data.attenuationColor = this.attenuationColor.getHex();\n\n\t\tif ( this.size !== undefined ) data.size = this.size;\n\t\tif ( this.shadowSide !== null ) data.shadowSide = this.shadowSide;\n\t\tif ( this.sizeAttenuation !== undefined ) data.sizeAttenuation = this.sizeAttenuation;\n\n\t\tif ( this.blending !== NormalBlending ) data.blending = this.blending;\n\t\tif ( this.side !== FrontSide ) data.side = this.side;\n\t\tif ( this.vertexColors === true ) data.vertexColors = true;\n\n\t\tif ( this.opacity < 1 ) data.opacity = this.opacity;\n\t\tif ( this.transparent === true ) data.transparent = true;\n\n\t\tif ( this.blendSrc !== SrcAlphaFactor ) data.blendSrc = this.blendSrc;\n\t\tif ( this.blendDst !== OneMinusSrcAlphaFactor ) data.blendDst = this.blendDst;\n\t\tif ( this.blendEquation !== AddEquation ) data.blendEquation = this.blendEquation;\n\t\tif ( this.blendSrcAlpha !== null ) data.blendSrcAlpha = this.blendSrcAlpha;\n\t\tif ( this.blendDstAlpha !== null ) data.blendDstAlpha = this.blendDstAlpha;\n\t\tif ( this.blendEquationAlpha !== null ) data.blendEquationAlpha = this.blendEquationAlpha;\n\t\tif ( this.blendColor && this.blendColor.isColor ) data.blendColor = this.blendColor.getHex();\n\t\tif ( this.blendAlpha !== 0 ) data.blendAlpha = this.blendAlpha;\n\n\t\tif ( this.depthFunc !== LessEqualDepth ) data.depthFunc = this.depthFunc;\n\t\tif ( this.depthTest === false ) data.depthTest = this.depthTest;\n\t\tif ( this.depthWrite === false ) data.depthWrite = this.depthWrite;\n\t\tif ( this.colorWrite === false ) data.colorWrite = this.colorWrite;\n\n\t\tif ( this.stencilWriteMask !== 0xff ) data.stencilWriteMask = this.stencilWriteMask;\n\t\tif ( this.stencilFunc !== AlwaysStencilFunc ) data.stencilFunc = this.stencilFunc;\n\t\tif ( this.stencilRef !== 0 ) data.stencilRef = this.stencilRef;\n\t\tif ( this.stencilFuncMask !== 0xff ) data.stencilFuncMask = this.stencilFuncMask;\n\t\tif ( this.stencilFail !== KeepStencilOp ) data.stencilFail = this.stencilFail;\n\t\tif ( this.stencilZFail !== KeepStencilOp ) data.stencilZFail = this.stencilZFail;\n\t\tif ( this.stencilZPass !== KeepStencilOp ) data.stencilZPass = this.stencilZPass;\n\t\tif ( this.stencilWrite === true ) data.stencilWrite = this.stencilWrite;\n\n\t\t// rotation (SpriteMaterial)\n\t\tif ( this.rotation !== undefined && this.rotation !== 0 ) data.rotation = this.rotation;\n\n\t\tif ( this.polygonOffset === true ) data.polygonOffset = true;\n\t\tif ( this.polygonOffsetFactor !== 0 ) data.polygonOffsetFactor = this.polygonOffsetFactor;\n\t\tif ( this.polygonOffsetUnits !== 0 ) data.polygonOffsetUnits = this.polygonOffsetUnits;\n\n\t\tif ( this.linewidth !== undefined && this.linewidth !== 1 ) data.linewidth = this.linewidth;\n\t\tif ( this.dashSize !== undefined ) data.dashSize = this.dashSize;\n\t\tif ( this.gapSize !== undefined ) data.gapSize = this.gapSize;\n\t\tif ( this.scale !== undefined ) data.scale = this.scale;\n\n\t\tif ( this.dithering === true ) data.dithering = true;\n\n\t\tif ( this.alphaTest > 0 ) data.alphaTest = this.alphaTest;\n\t\tif ( this.alphaHash === true ) data.alphaHash = true;\n\t\tif ( this.alphaToCoverage === true ) data.alphaToCoverage = true;\n\t\tif ( this.premultipliedAlpha === true ) data.premultipliedAlpha = true;\n\t\tif ( this.forceSinglePass === true ) data.forceSinglePass = true;\n\n\t\tif ( this.wireframe === true ) data.wireframe = true;\n\t\tif ( this.wireframeLinewidth > 1 ) data.wireframeLinewidth = this.wireframeLinewidth;\n\t\tif ( this.wireframeLinecap !== 'round' ) data.wireframeLinecap = this.wireframeLinecap;\n\t\tif ( this.wireframeLinejoin !== 'round' ) data.wireframeLinejoin = this.wireframeLinejoin;\n\n\t\tif ( this.flatShading === true ) data.flatShading = true;\n\n\t\tif ( this.visible === false ) data.visible = false;\n\n\t\tif ( this.toneMapped === false ) data.toneMapped = false;\n\n\t\tif ( this.fog === false ) data.fog = false;\n\n\t\tif ( Object.keys( this.userData ).length > 0 ) data.userData = this.userData;\n\n\t\t// TODO: Copied from Object3D.toJSON\n\n\t\tfunction extractFromCache( cache ) {\n\n\t\t\tconst values = [];\n\n\t\t\tfor ( const key in cache ) {\n\n\t\t\t\tconst data = cache[ key ];\n\t\t\t\tdelete data.metadata;\n\t\t\t\tvalues.push( data );\n\n\t\t\t}\n\n\t\t\treturn values;\n\n\t\t}\n\n\t\tif ( isRootObject ) {\n\n\t\t\tconst textures = extractFromCache( meta.textures );\n\t\t\tconst images = extractFromCache( meta.images );\n\n\t\t\tif ( textures.length > 0 ) data.textures = textures;\n\t\t\tif ( images.length > 0 ) data.images = images;\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Returns a new material with copied values from this instance.\n\t *\n\t * @return {Material} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given material to this instance.\n\t *\n\t * @param {Material} source - The material to copy.\n\t * @return {Material} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\n\t\tthis.blending = source.blending;\n\t\tthis.side = source.side;\n\t\tthis.vertexColors = source.vertexColors;\n\n\t\tthis.opacity = source.opacity;\n\t\tthis.transparent = source.transparent;\n\n\t\tthis.blendSrc = source.blendSrc;\n\t\tthis.blendDst = source.blendDst;\n\t\tthis.blendEquation = source.blendEquation;\n\t\tthis.blendSrcAlpha = source.blendSrcAlpha;\n\t\tthis.blendDstAlpha = source.blendDstAlpha;\n\t\tthis.blendEquationAlpha = source.blendEquationAlpha;\n\t\tthis.blendColor.copy( source.blendColor );\n\t\tthis.blendAlpha = source.blendAlpha;\n\n\t\tthis.depthFunc = source.depthFunc;\n\t\tthis.depthTest = source.depthTest;\n\t\tthis.depthWrite = source.depthWrite;\n\n\t\tthis.stencilWriteMask = source.stencilWriteMask;\n\t\tthis.stencilFunc = source.stencilFunc;\n\t\tthis.stencilRef = source.stencilRef;\n\t\tthis.stencilFuncMask = source.stencilFuncMask;\n\t\tthis.stencilFail = source.stencilFail;\n\t\tthis.stencilZFail = source.stencilZFail;\n\t\tthis.stencilZPass = source.stencilZPass;\n\t\tthis.stencilWrite = source.stencilWrite;\n\n\t\tconst srcPlanes = source.clippingPlanes;\n\t\tlet dstPlanes = null;\n\n\t\tif ( srcPlanes !== null ) {\n\n\t\t\tconst n = srcPlanes.length;\n\t\t\tdstPlanes = new Array( n );\n\n\t\t\tfor ( let i = 0; i !== n; ++ i ) {\n\n\t\t\t\tdstPlanes[ i ] = srcPlanes[ i ].clone();\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.clippingPlanes = dstPlanes;\n\t\tthis.clipIntersection = source.clipIntersection;\n\t\tthis.clipShadows = source.clipShadows;\n\n\t\tthis.shadowSide = source.shadowSide;\n\n\t\tthis.colorWrite = source.colorWrite;\n\n\t\tthis.precision = source.precision;\n\n\t\tthis.polygonOffset = source.polygonOffset;\n\t\tthis.polygonOffsetFactor = source.polygonOffsetFactor;\n\t\tthis.polygonOffsetUnits = source.polygonOffsetUnits;\n\n\t\tthis.dithering = source.dithering;\n\n\t\tthis.alphaTest = source.alphaTest;\n\t\tthis.alphaHash = source.alphaHash;\n\t\tthis.alphaToCoverage = source.alphaToCoverage;\n\t\tthis.premultipliedAlpha = source.premultipliedAlpha;\n\t\tthis.forceSinglePass = source.forceSinglePass;\n\n\t\tthis.visible = source.visible;\n\n\t\tthis.toneMapped = source.toneMapped;\n\n\t\tthis.userData = JSON.parse( JSON.stringify( source.userData ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires Material#dispose\n\t */\n\tdispose() {\n\n\t\t/**\n\t\t * Fires when the material has been disposed of.\n\t\t *\n\t\t * @event Material#dispose\n\t\t * @type {Object}\n\t\t */\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n\t/**\n\t * Setting this property to `true` indicates the engine the material\n\t * needs to be recompiled.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n}\n\n/**\n * A material for drawing geometries in a simple shaded (flat or wireframe) way.\n *\n * This material is not affected by lights.\n *\n * @augments Material\n */\nclass MeshBasicMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh basic material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshBasicMaterial = true;\n\n\t\tthis.type = 'MeshBasicMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Specular map used by the material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * How to combine the result of the surface's color with the environment map, if any.\n\t\t *\n\t\t * When set to `MixOperation`, the {@link MeshBasicMaterial#reflectivity} is used to\n\t\t * blend between the two colors.\n\t\t *\n\t\t * @type {(MultiplyOperation|MixOperation|AddOperation)}\n\t\t * @default MultiplyOperation\n\t\t */\n\t\tthis.combine = MultiplyOperation;\n\n\t\t/**\n\t\t * How much the environment map affects the surface.\n\t\t * The valid range is between `0` (no reflections) and `1` (full reflections).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.reflectivity = 1;\n\n\t\t/**\n\t\t * The index of refraction (IOR) of air (approximately 1) divided by the\n\t\t * index of refraction of the material. It is used with environment mapping\n\t\t * modes {@link CubeRefractionMapping} and {@link EquirectangularRefractionMapping}.\n\t\t * The refraction ratio should not exceed `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.98\n\t\t */\n\t\tthis.refractionRatio = 0.98;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.specularMap = source.specularMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.combine = source.combine;\n\t\tthis.reflectivity = source.reflectivity;\n\t\tthis.refractionRatio = source.refractionRatio;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n// Fast Half Float Conversions, http://www.fox-toolkit.org/ftp/fasthalffloatconversion.pdf\n\nconst _tables = /*@__PURE__*/ _generateTables();\n\nfunction _generateTables() {\n\n\t// float32 to float16 helpers\n\n\tconst buffer = new ArrayBuffer( 4 );\n\tconst floatView = new Float32Array( buffer );\n\tconst uint32View = new Uint32Array( buffer );\n\n\tconst baseTable = new Uint32Array( 512 );\n\tconst shiftTable = new Uint32Array( 512 );\n\n\tfor ( let i = 0; i < 256; ++ i ) {\n\n\t\tconst e = i - 127;\n\n\t\t// very small number (0, -0)\n\n\t\tif ( e < -27 ) {\n\n\t\t\tbaseTable[ i ] = 0x0000;\n\t\t\tbaseTable[ i | 0x100 ] = 0x8000;\n\t\t\tshiftTable[ i ] = 24;\n\t\t\tshiftTable[ i | 0x100 ] = 24;\n\n\t\t\t// small number (denorm)\n\n\t\t} else if ( e < -14 ) {\n\n\t\t\tbaseTable[ i ] = 0x0400 >> ( - e - 14 );\n\t\t\tbaseTable[ i | 0x100 ] = ( 0x0400 >> ( - e - 14 ) ) | 0x8000;\n\t\t\tshiftTable[ i ] = - e - 1;\n\t\t\tshiftTable[ i | 0x100 ] = - e - 1;\n\n\t\t\t// normal number\n\n\t\t} else if ( e <= 15 ) {\n\n\t\t\tbaseTable[ i ] = ( e + 15 ) << 10;\n\t\t\tbaseTable[ i | 0x100 ] = ( ( e + 15 ) << 10 ) | 0x8000;\n\t\t\tshiftTable[ i ] = 13;\n\t\t\tshiftTable[ i | 0x100 ] = 13;\n\n\t\t\t// large number (Infinity, -Infinity)\n\n\t\t} else if ( e < 128 ) {\n\n\t\t\tbaseTable[ i ] = 0x7c00;\n\t\t\tbaseTable[ i | 0x100 ] = 0xfc00;\n\t\t\tshiftTable[ i ] = 24;\n\t\t\tshiftTable[ i | 0x100 ] = 24;\n\n\t\t\t// stay (NaN, Infinity, -Infinity)\n\n\t\t} else {\n\n\t\t\tbaseTable[ i ] = 0x7c00;\n\t\t\tbaseTable[ i | 0x100 ] = 0xfc00;\n\t\t\tshiftTable[ i ] = 13;\n\t\t\tshiftTable[ i | 0x100 ] = 13;\n\n\t\t}\n\n\t}\n\n\t// float16 to float32 helpers\n\n\tconst mantissaTable = new Uint32Array( 2048 );\n\tconst exponentTable = new Uint32Array( 64 );\n\tconst offsetTable = new Uint32Array( 64 );\n\n\tfor ( let i = 1; i < 1024; ++ i ) {\n\n\t\tlet m = i << 13; // zero pad mantissa bits\n\t\tlet e = 0; // zero exponent\n\n\t\t// normalized\n\t\twhile ( ( m & 0x00800000 ) === 0 ) {\n\n\t\t\tm <<= 1;\n\t\t\te -= 0x00800000; // decrement exponent\n\n\t\t}\n\n\t\tm &= -8388609; // clear leading 1 bit\n\t\te += 0x38800000; // adjust bias\n\n\t\tmantissaTable[ i ] = m | e;\n\n\t}\n\n\tfor ( let i = 1024; i < 2048; ++ i ) {\n\n\t\tmantissaTable[ i ] = 0x38000000 + ( ( i - 1024 ) << 13 );\n\n\t}\n\n\tfor ( let i = 1; i < 31; ++ i ) {\n\n\t\texponentTable[ i ] = i << 23;\n\n\t}\n\n\texponentTable[ 31 ] = 0x47800000;\n\texponentTable[ 32 ] = 0x80000000;\n\n\tfor ( let i = 33; i < 63; ++ i ) {\n\n\t\texponentTable[ i ] = 0x80000000 + ( ( i - 32 ) << 23 );\n\n\t}\n\n\texponentTable[ 63 ] = 0xc7800000;\n\n\tfor ( let i = 1; i < 64; ++ i ) {\n\n\t\tif ( i !== 32 ) {\n\n\t\t\toffsetTable[ i ] = 1024;\n\n\t\t}\n\n\t}\n\n\treturn {\n\t\tfloatView: floatView,\n\t\tuint32View: uint32View,\n\t\tbaseTable: baseTable,\n\t\tshiftTable: shiftTable,\n\t\tmantissaTable: mantissaTable,\n\t\texponentTable: exponentTable,\n\t\toffsetTable: offsetTable\n\t};\n\n}\n\n/**\n * Returns a half precision floating point value (FP16) from the given single\n * precision floating point value (FP32).\n *\n * @param {number} val - A single precision floating point value.\n * @return {number} The FP16 value.\n */\nfunction toHalfFloat( val ) {\n\n\tif ( Math.abs( val ) > 65504 ) console.warn( 'THREE.DataUtils.toHalfFloat(): Value out of range.' );\n\n\tval = clamp( val, -65504, 65504 );\n\n\t_tables.floatView[ 0 ] = val;\n\tconst f = _tables.uint32View[ 0 ];\n\tconst e = ( f >> 23 ) & 0x1ff;\n\treturn _tables.baseTable[ e ] + ( ( f & 0x007fffff ) >> _tables.shiftTable[ e ] );\n\n}\n\n/**\n * Returns a single precision floating point value (FP32) from the given half\n * precision floating point value (FP16).\n *\n * @param {number} val - A half precision floating point value.\n * @return {number} The FP32 value.\n */\nfunction fromHalfFloat( val ) {\n\n\tconst m = val >> 10;\n\t_tables.uint32View[ 0 ] = _tables.mantissaTable[ _tables.offsetTable[ m ] + ( val & 0x3ff ) ] + _tables.exponentTable[ m ];\n\treturn _tables.floatView[ 0 ];\n\n}\n\n/**\n * A class containing utility functions for data.\n *\n * @hideconstructor\n */\nclass DataUtils {\n\n\t/**\n\t * Returns a half precision floating point value (FP16) from the given single\n\t * precision floating point value (FP32).\n\t *\n\t * @param {number} val - A single precision floating point value.\n\t * @return {number} The FP16 value.\n\t */\n\tstatic toHalfFloat( val ) {\n\n\t\treturn toHalfFloat( val );\n\n\t}\n\n\t/**\n\t * Returns a single precision floating point value (FP32) from the given half\n\t * precision floating point value (FP16).\n\t *\n\t * @param {number} val - A half precision floating point value.\n\t * @return {number} The FP32 value.\n\t */\n\tstatic fromHalfFloat( val ) {\n\n\t\treturn fromHalfFloat( val );\n\n\t}\n\n}\n\nconst _vector$9 = /*@__PURE__*/ new Vector3();\nconst _vector2$1 = /*@__PURE__*/ new Vector2();\n\nlet _id$2 = 0;\n\n/**\n * This class stores data for an attribute (such as vertex positions, face\n * indices, normals, colors, UVs, and any custom attributes ) associated with\n * a geometry, which allows for more efficient passing of data to the GPU.\n *\n * When working with vector-like data, the `fromBufferAttribute( attribute, index )`\n * helper methods on vector and color class might be helpful. E.g. {@link Vector3#fromBufferAttribute}.\n */\nclass BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {TypedArray} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized = false ) {\n\n\t\tif ( Array.isArray( array ) ) {\n\n\t\t\tthrow new TypeError( 'THREE.BufferAttribute: array should be a Typed Array.' );\n\n\t\t}\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBufferAttribute = true;\n\n\t\t/**\n\t\t * The ID of the buffer attribute.\n\t\t *\n\t\t * @name BufferAttribute#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _id$2 ++ } );\n\n\t\t/**\n\t\t * The name of the buffer attribute.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The array holding the attribute data. It should have `itemSize * numVertices`\n\t\t * elements, where `numVertices` is the number of vertices in the associated geometry.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.array = array;\n\n\t\t/**\n\t\t * The number of values of the array that should be associated with a particular vertex.\n\t\t * For instance, if this attribute is storing a 3-component vector (such as a position,\n\t\t * normal, or color), then the value should be `3`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.itemSize = itemSize;\n\n\t\t/**\n\t\t * Represents the number of items this buffer attribute stores. It is internally computed\n\t\t * by dividing the `array` length by the `itemSize`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tthis.count = array !== undefined ? array.length / itemSize : 0;\n\n\t\t/**\n\t\t * Applies to integer data only. Indicates how the underlying data in the buffer maps to\n\t\t * the values in the GLSL code. For instance, if `array` is an instance of `UInt16Array`,\n\t\t * and `normalized` is `true`, the values `0 - +65535` in the array data will be mapped to\n\t\t * `0.0f - +1.0f` in the GLSL attribute. If `normalized` is `false`, the values will be converted\n\t\t * to floats unmodified, i.e. `65535` becomes `65535.0f`.\n\t\t *\n\t\t * @type {boolean}\n\t\t */\n\t\tthis.normalized = normalized;\n\n\t\t/**\n\t\t * Defines the intended usage pattern of the data store for optimization purposes.\n\t\t *\n\t\t * Note: After the initial use of a buffer, its usage cannot be changed. Instead,\n\t\t * instantiate a new one and set the desired usage before the next render.\n\t\t *\n\t\t * @type {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)}\n\t\t * @default StaticDrawUsage\n\t\t */\n\t\tthis.usage = StaticDrawUsage;\n\n\t\t/**\n\t\t * This can be used to only update some components of stored vectors (for example, just the\n\t\t * component related to color). Use the `addUpdateRange()` function to add ranges to this array.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.updateRanges = [];\n\n\t\t/**\n\t\t * Configures the bound GPU type for use in shaders.\n\t\t *\n\t\t * Note: this only has an effect for integer arrays and is not configurable for float arrays.\n\t\t * For lower precision float types, use `Float16BufferAttribute`.\n\t\t *\n\t\t * @type {(FloatType|IntType)}\n\t\t * @default FloatType\n\t\t */\n\t\tthis.gpuType = FloatType;\n\n\t\t/**\n\t\t * A version number, incremented every time the `needsUpdate` is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.version = 0;\n\n\t}\n\n\t/**\n\t * A callback function that is executed after the renderer has transferred the attribute\n\t * array data to the GPU.\n\t */\n\tonUploadCallback() {}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Sets the usage of this buffer attribute.\n\t *\n\t * @param {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)} value - The usage to set.\n\t * @return {BufferAttribute} A reference to this buffer attribute.\n\t */\n\tsetUsage( value ) {\n\n\t\tthis.usage = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds a range of data in the data array to be updated on the GPU.\n\t *\n\t * @param {number} start - Position at which to start update.\n\t * @param {number} count - The number of components to update.\n\t */\n\taddUpdateRange( start, count ) {\n\n\t\tthis.updateRanges.push( { start, count } );\n\n\t}\n\n\t/**\n\t * Clears the update ranges.\n\t */\n\tclearUpdateRanges() {\n\n\t\tthis.updateRanges.length = 0;\n\n\t}\n\n\t/**\n\t * Copies the values of the given buffer attribute to this instance.\n\t *\n\t * @param {BufferAttribute} source - The buffer attribute to copy.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\t\tthis.array = new source.array.constructor( source.array );\n\t\tthis.itemSize = source.itemSize;\n\t\tthis.count = source.count;\n\t\tthis.normalized = source.normalized;\n\n\t\tthis.usage = source.usage;\n\t\tthis.gpuType = source.gpuType;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies a vector from the given buffer attribute to this one. The start\n\t * and destination position in the attribute buffers are represented by the\n\t * given indices.\n\t *\n\t * @param {number} index1 - The destination index into this buffer attribute.\n\t * @param {BufferAttribute} attribute - The buffer attribute to copy from.\n\t * @param {number} index2 - The source index into the given buffer attribute.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tcopyAt( index1, attribute, index2 ) {\n\n\t\tindex1 *= this.itemSize;\n\t\tindex2 *= attribute.itemSize;\n\n\t\tfor ( let i = 0, l = this.itemSize; i < l; i ++ ) {\n\n\t\t\tthis.array[ index1 + i ] = attribute.array[ index2 + i ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the given array data into this buffer attribute.\n\t *\n\t * @param {(TypedArray|Array)} array - The array to copy.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tcopyArray( array ) {\n\n\t\tthis.array.set( array );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 3x3 matrix to the given attribute. Works with\n\t * item size `2` and `3`.\n\t *\n\t * @param {Matrix3} m - The matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tif ( this.itemSize === 2 ) {\n\n\t\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t\t_vector2$1.fromBufferAttribute( this, i );\n\t\t\t\t_vector2$1.applyMatrix3( m );\n\n\t\t\t\tthis.setXY( i, _vector2$1.x, _vector2$1.y );\n\n\t\t\t}\n\n\t\t} else if ( this.itemSize === 3 ) {\n\n\t\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t\t_vector$9.fromBufferAttribute( this, i );\n\t\t\t\t_vector$9.applyMatrix3( m );\n\n\t\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$9.fromBufferAttribute( this, i );\n\n\t\t\t_vector$9.applyMatrix4( m );\n\n\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 3x3 normal matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix3} m - The normal matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tapplyNormalMatrix( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$9.fromBufferAttribute( this, i );\n\n\t\t\t_vector$9.applyNormalMatrix( m );\n\n\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3` and with direction vectors.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\ttransformDirection( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$9.fromBufferAttribute( this, i );\n\n\t\t\t_vector$9.transformDirection( m );\n\n\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given array data in the buffer attribute.\n\t *\n\t * @param {(TypedArray|Array)} value - The array data to set.\n\t * @param {number} [offset=0] - The offset in this buffer attribute's array.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tset( value, offset = 0 ) {\n\n\t\t// Matching BufferAttribute constructor, do not normalize the array.\n\t\tthis.array.set( value, offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @return {number} The returned value.\n\t */\n\tgetComponent( index, component ) {\n\n\t\tlet value = this.array[ index * this.itemSize + component ];\n\n\t\tif ( this.normalized ) value = denormalize( value, this.array );\n\n\t\treturn value;\n\n\t}\n\n\t/**\n\t * Sets the given value to the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @param {number} value - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetComponent( index, component, value ) {\n\n\t\tif ( this.normalized ) value = normalize( value, this.array );\n\n\t\tthis.array[ index * this.itemSize + component ] = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The x component.\n\t */\n\tgetX( index ) {\n\n\t\tlet x = this.array[ index * this.itemSize ];\n\n\t\tif ( this.normalized ) x = denormalize( x, this.array );\n\n\t\treturn x;\n\n\t}\n\n\t/**\n\t * Sets the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetX( index, x ) {\n\n\t\tif ( this.normalized ) x = normalize( x, this.array );\n\n\t\tthis.array[ index * this.itemSize ] = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The y component.\n\t */\n\tgetY( index ) {\n\n\t\tlet y = this.array[ index * this.itemSize + 1 ];\n\n\t\tif ( this.normalized ) y = denormalize( y, this.array );\n\n\t\treturn y;\n\n\t}\n\n\t/**\n\t * Sets the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} y - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetY( index, y ) {\n\n\t\tif ( this.normalized ) y = normalize( y, this.array );\n\n\t\tthis.array[ index * this.itemSize + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The z component.\n\t */\n\tgetZ( index ) {\n\n\t\tlet z = this.array[ index * this.itemSize + 2 ];\n\n\t\tif ( this.normalized ) z = denormalize( z, this.array );\n\n\t\treturn z;\n\n\t}\n\n\t/**\n\t * Sets the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} z - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetZ( index, z ) {\n\n\t\tif ( this.normalized ) z = normalize( z, this.array );\n\n\t\tthis.array[ index * this.itemSize + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The w component.\n\t */\n\tgetW( index ) {\n\n\t\tlet w = this.array[ index * this.itemSize + 3 ];\n\n\t\tif ( this.normalized ) w = denormalize( w, this.array );\n\n\t\treturn w;\n\n\t}\n\n\t/**\n\t * Sets the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} w - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetW( index, w ) {\n\n\t\tif ( this.normalized ) w = normalize( w, this.array );\n\n\t\tthis.array[ index * this.itemSize + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x and y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetXY( index, x, y ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = x;\n\t\tthis.array[ index + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y and z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetXYZ( index, x, y, z ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = x;\n\t\tthis.array[ index + 1 ] = y;\n\t\tthis.array[ index + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y, z and w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @param {number} w - The value for the w component to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetXYZW( index, x, y, z, w ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\t\t\tw = normalize( w, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = x;\n\t\tthis.array[ index + 1 ] = y;\n\t\tthis.array[ index + 2 ] = z;\n\t\tthis.array[ index + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given callback function that is executed after the Renderer has transferred\n\t * the attribute array data to the GPU. Can be used to perform clean-up operations after\n\t * the upload when attribute data are not needed anymore on the CPU side.\n\t *\n\t * @param {Function} callback - The `onUpload()` callback.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tonUpload( callback ) {\n\n\t\tthis.onUploadCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new buffer attribute with copied values from this instance.\n\t *\n\t * @return {BufferAttribute} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.array, this.itemSize ).copy( this );\n\n\t}\n\n\t/**\n\t * Serializes the buffer attribute into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized buffer attribute.\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\titemSize: this.itemSize,\n\t\t\ttype: this.array.constructor.name,\n\t\t\tarray: Array.from( this.array ),\n\t\t\tnormalized: this.normalized\n\t\t};\n\n\t\tif ( this.name !== '' ) data.name = this.name;\n\t\tif ( this.usage !== StaticDrawUsage ) data.usage = this.usage;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Int8` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Int8BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Int8Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Int8Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt8` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint8BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint8Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint8Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt8Clamped` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint8ClampedBufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint8ClampedArray)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint8ClampedArray( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Int16` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Int16BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Int16Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Int16Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt16` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint16BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint16Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint16Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Int32` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Int32BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Int32Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Int32Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt32` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint32BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint32Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint32Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Float16` buffer attribute with\n * a plain `Array` instance.\n *\n * This class automatically converts to and from FP16 via `Uint16Array` since `Float16Array`\n * browser support is still problematic.\n *\n * @augments BufferAttribute\n */\nclass Float16BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint16Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint16Array( array ), itemSize, normalized );\n\n\t\tthis.isFloat16BufferAttribute = true;\n\n\t}\n\n\tgetX( index ) {\n\n\t\tlet x = fromHalfFloat( this.array[ index * this.itemSize ] );\n\n\t\tif ( this.normalized ) x = denormalize( x, this.array );\n\n\t\treturn x;\n\n\t}\n\n\tsetX( index, x ) {\n\n\t\tif ( this.normalized ) x = normalize( x, this.array );\n\n\t\tthis.array[ index * this.itemSize ] = toHalfFloat( x );\n\n\t\treturn this;\n\n\t}\n\n\tgetY( index ) {\n\n\t\tlet y = fromHalfFloat( this.array[ index * this.itemSize + 1 ] );\n\n\t\tif ( this.normalized ) y = denormalize( y, this.array );\n\n\t\treturn y;\n\n\t}\n\n\tsetY( index, y ) {\n\n\t\tif ( this.normalized ) y = normalize( y, this.array );\n\n\t\tthis.array[ index * this.itemSize + 1 ] = toHalfFloat( y );\n\n\t\treturn this;\n\n\t}\n\n\tgetZ( index ) {\n\n\t\tlet z = fromHalfFloat( this.array[ index * this.itemSize + 2 ] );\n\n\t\tif ( this.normalized ) z = denormalize( z, this.array );\n\n\t\treturn z;\n\n\t}\n\n\tsetZ( index, z ) {\n\n\t\tif ( this.normalized ) z = normalize( z, this.array );\n\n\t\tthis.array[ index * this.itemSize + 2 ] = toHalfFloat( z );\n\n\t\treturn this;\n\n\t}\n\n\tgetW( index ) {\n\n\t\tlet w = fromHalfFloat( this.array[ index * this.itemSize + 3 ] );\n\n\t\tif ( this.normalized ) w = denormalize( w, this.array );\n\n\t\treturn w;\n\n\t}\n\n\tsetW( index, w ) {\n\n\t\tif ( this.normalized ) w = normalize( w, this.array );\n\n\t\tthis.array[ index * this.itemSize + 3 ] = toHalfFloat( w );\n\n\t\treturn this;\n\n\t}\n\n\tsetXY( index, x, y ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = toHalfFloat( x );\n\t\tthis.array[ index + 1 ] = toHalfFloat( y );\n\n\t\treturn this;\n\n\t}\n\n\tsetXYZ( index, x, y, z ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = toHalfFloat( x );\n\t\tthis.array[ index + 1 ] = toHalfFloat( y );\n\t\tthis.array[ index + 2 ] = toHalfFloat( z );\n\n\t\treturn this;\n\n\t}\n\n\tsetXYZW( index, x, y, z, w ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\t\t\tw = normalize( w, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = toHalfFloat( x );\n\t\tthis.array[ index + 1 ] = toHalfFloat( y );\n\t\tthis.array[ index + 2 ] = toHalfFloat( z );\n\t\tthis.array[ index + 3 ] = toHalfFloat( w );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Float32` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Float32BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Float32Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Float32Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\nlet _id$1 = 0;\n\nconst _m1 = /*@__PURE__*/ new Matrix4();\nconst _obj = /*@__PURE__*/ new Object3D();\nconst _offset = /*@__PURE__*/ new Vector3();\nconst _box$2 = /*@__PURE__*/ new Box3();\nconst _boxMorphTargets = /*@__PURE__*/ new Box3();\nconst _vector$8 = /*@__PURE__*/ new Vector3();\n\n/**\n * A representation of mesh, line, or point geometry. Includes vertex\n * positions, face indices, normals, colors, UVs, and custom attributes\n * within buffers, reducing the cost of passing all this data to the GPU.\n *\n * ```js\n * const geometry = new THREE.BufferGeometry();\n * // create a simple square shape. We duplicate the top left and bottom right\n * // vertices because each vertex needs to appear once per triangle.\n * const vertices = new Float32Array( [\n * \t-1.0, -1.0, 1.0, // v0\n * \t 1.0, -1.0, 1.0, // v1\n * \t 1.0, 1.0, 1.0, // v2\n *\n * \t 1.0, 1.0, 1.0, // v3\n * \t-1.0, 1.0, 1.0, // v4\n * \t-1.0, -1.0, 1.0 // v5\n * ] );\n * // itemSize = 3 because there are 3 values (components) per vertex\n * geometry.setAttribute( 'position', new THREE.BufferAttribute( vertices, 3 ) );\n * const material = new THREE.MeshBasicMaterial( { color: 0xff0000 } );\n * const mesh = new THREE.Mesh( geometry, material );\n * ```\n *\n * @augments EventDispatcher\n */\nclass BufferGeometry extends EventDispatcher {\n\n\t/**\n\t * Constructs a new geometry.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBufferGeometry = true;\n\n\t\t/**\n\t\t * The ID of the geometry.\n\t\t *\n\t\t * @name BufferGeometry#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _id$1 ++ } );\n\n\t\t/**\n\t\t * The UUID of the geometry.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the geometry.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\t\tthis.type = 'BufferGeometry';\n\n\t\t/**\n\t\t * Allows for vertices to be re-used across multiple triangles; this is\n\t\t * called using \"indexed triangles\". Each triangle is associated with the\n\t\t * indices of three vertices. This attribute therefore stores the index of\n\t\t * each vertex for each triangular face. If this attribute is not set, the\n\t\t * renderer assumes that each three contiguous positions represent a single triangle.\n\t\t *\n\t\t * @type {?BufferAttribute}\n\t\t * @default null\n\t\t */\n\t\tthis.index = null;\n\n\t\t/**\n\t\t * A (storage) buffer attribute which was generated with a compute shader and\n\t\t * now defines indirect draw calls.\n\t\t *\n\t\t * Can only be used with {@link WebGPURenderer} and a WebGPU backend.\n\t\t *\n\t\t * @type {?BufferAttribute}\n\t\t * @default null\n\t\t */\n\t\tthis.indirect = null;\n\n\t\t/**\n\t\t * This dictionary has as id the name of the attribute to be set and as value\n\t\t * the buffer attribute to set it to. Rather than accessing this property directly,\n\t\t * use `setAttribute()` and `getAttribute()` to access attributes of this geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.attributes = {};\n\n\t\t/**\n\t\t * This dictionary holds the morph targets of the geometry.\n\t\t *\n\t\t * Note: Once the geometry has been rendered, the morph attribute data cannot\n\t\t * be changed. You will have to call `dispose()?, and create a new geometry instance.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.morphAttributes = {};\n\n\t\t/**\n\t\t * Used to control the morph target behavior; when set to `true`, the morph\n\t\t * target data is treated as relative offsets, rather than as absolute\n\t\t * positions/normals.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.morphTargetsRelative = false;\n\n\t\t/**\n\t\t * Split the geometry into groups, each of which will be rendered in a\n\t\t * separate draw call. This allows an array of materials to be used with the geometry.\n\t\t *\n\t\t * Use `addGroup()` and `clearGroups()` to edit groups, rather than modifying this array directly.\n\t\t *\n\t\t * Every vertex and index must belong to exactly one group — groups must not share vertices or\n\t\t * indices, and must not leave vertices or indices unused.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.groups = [];\n\n\t\t/**\n\t\t * Bounding box for the geometry which can be calculated with `computeBoundingBox()`.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * Bounding sphere for the geometry which can be calculated with `computeBoundingSphere()`.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t\t/**\n\t\t * Determines the part of the geometry to render. This should not be set directly,\n\t\t * instead use `setDrawRange()`.\n\t\t *\n\t\t * @type {{start:number,count:number}}\n\t\t */\n\t\tthis.drawRange = { start: 0, count: Infinity };\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the geometry.\n\t\t * It should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t}\n\n\t/**\n\t * Returns the index of this geometry.\n\t *\n\t * @return {?BufferAttribute} The index. Returns `null` if no index is defined.\n\t */\n\tgetIndex() {\n\n\t\treturn this.index;\n\n\t}\n\n\t/**\n\t * Sets the given index to this geometry.\n\t *\n\t * @param {Array|BufferAttribute} index - The index to set.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetIndex( index ) {\n\n\t\tif ( Array.isArray( index ) ) {\n\n\t\t\tthis.index = new ( arrayNeedsUint32( index ) ? Uint32BufferAttribute : Uint16BufferAttribute )( index, 1 );\n\n\t\t} else {\n\n\t\t\tthis.index = index;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given indirect attribute to this geometry.\n\t *\n\t * @param {BufferAttribute} indirect - The attribute holding indirect draw calls.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetIndirect( indirect ) {\n\n\t\tthis.indirect = indirect;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the indirect attribute of this geometry.\n\t *\n\t * @return {?BufferAttribute} The indirect attribute. Returns `null` if no indirect attribute is defined.\n\t */\n\tgetIndirect() {\n\n\t\treturn this.indirect;\n\n\t}\n\n\t/**\n\t * Returns the buffer attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name.\n\t * @return {BufferAttribute|InterleavedBufferAttribute|undefined} The buffer attribute.\n\t * Returns `undefined` if not attribute has been found.\n\t */\n\tgetAttribute( name ) {\n\n\t\treturn this.attributes[ name ];\n\n\t}\n\n\t/**\n\t * Sets the given attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name.\n\t * @param {BufferAttribute|InterleavedBufferAttribute} attribute - The attribute to set.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetAttribute( name, attribute ) {\n\n\t\tthis.attributes[ name ] = attribute;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Deletes the attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name to delete.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tdeleteAttribute( name ) {\n\n\t\tdelete this.attributes[ name ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this geometry has an attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name.\n\t * @return {boolean} Whether this geometry has an attribute for the given name or not.\n\t */\n\thasAttribute( name ) {\n\n\t\treturn this.attributes[ name ] !== undefined;\n\n\t}\n\n\t/**\n\t * Adds a group to this geometry.\n\t *\n\t * @param {number} start - The first element in this draw call. That is the first\n\t * vertex for non-indexed geometry, otherwise the first triangle index.\n\t * @param {number} count - Specifies how many vertices (or indices) are part of this group.\n\t * @param {number} [materialIndex=0] - The material array index to use.\n\t */\n\taddGroup( start, count, materialIndex = 0 ) {\n\n\t\tthis.groups.push( {\n\n\t\t\tstart: start,\n\t\t\tcount: count,\n\t\t\tmaterialIndex: materialIndex\n\n\t\t} );\n\n\t}\n\n\t/**\n\t * Clears all groups.\n\t */\n\tclearGroups() {\n\n\t\tthis.groups = [];\n\n\t}\n\n\t/**\n\t * Sets the draw range for this geometry.\n\t *\n\t * @param {number} start - The first vertex for non-indexed geometry, otherwise the first triangle index.\n\t * @param {number} count - For non-indexed BufferGeometry, `count` is the number of vertices to render.\n\t * For indexed BufferGeometry, `count` is the number of indices to render.\n\t */\n\tsetDrawRange( start, count ) {\n\n\t\tthis.drawRange.start = start;\n\t\tthis.drawRange.count = count;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 transformation matrix to the geometry.\n\t *\n\t * @param {Matrix4} matrix - The matrix to apply.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tconst position = this.attributes.position;\n\n\t\tif ( position !== undefined ) {\n\n\t\t\tposition.applyMatrix4( matrix );\n\n\t\t\tposition.needsUpdate = true;\n\n\t\t}\n\n\t\tconst normal = this.attributes.normal;\n\n\t\tif ( normal !== undefined ) {\n\n\t\t\tconst normalMatrix = new Matrix3().getNormalMatrix( matrix );\n\n\t\t\tnormal.applyNormalMatrix( normalMatrix );\n\n\t\t\tnormal.needsUpdate = true;\n\n\t\t}\n\n\t\tconst tangent = this.attributes.tangent;\n\n\t\tif ( tangent !== undefined ) {\n\n\t\t\ttangent.transformDirection( matrix );\n\n\t\t\ttangent.needsUpdate = true;\n\n\t\t}\n\n\t\tif ( this.boundingBox !== null ) {\n\n\t\t\tthis.computeBoundingBox();\n\n\t\t}\n\n\t\tif ( this.boundingSphere !== null ) {\n\n\t\t\tthis.computeBoundingSphere();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the rotation represented by the Quaternion to the geometry.\n\t *\n\t * @param {Quaternion} q - The Quaternion to apply.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tapplyQuaternion( q ) {\n\n\t\t_m1.makeRotationFromQuaternion( q );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry about the X axis. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#rotation} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\trotateX( angle ) {\n\n\t\t// rotate geometry around world x-axis\n\n\t\t_m1.makeRotationX( angle );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry about the Y axis. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#rotation} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\trotateY( angle ) {\n\n\t\t// rotate geometry around world y-axis\n\n\t\t_m1.makeRotationY( angle );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry about the Z axis. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#rotation} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\trotateZ( angle ) {\n\n\t\t// rotate geometry around world z-axis\n\n\t\t_m1.makeRotationZ( angle );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates the geometry. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#position} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} x - The x offset.\n\t * @param {number} y - The y offset.\n\t * @param {number} z - The z offset.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\ttranslate( x, y, z ) {\n\n\t\t// translate geometry\n\n\t\t_m1.makeTranslation( x, y, z );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scales the geometry. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#scale} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} x - The x scale.\n\t * @param {number} y - The y scale.\n\t * @param {number} z - The z scale.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tscale( x, y, z ) {\n\n\t\t// scale geometry\n\n\t\t_m1.makeScale( x, y, z );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry to face a point in 3D space. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#lookAt} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {Vector3} vector - The target point.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tlookAt( vector ) {\n\n\t\t_obj.lookAt( vector );\n\n\t\t_obj.updateMatrix();\n\n\t\tthis.applyMatrix4( _obj.matrix );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Center the geometry based on its bounding box.\n\t *\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tcenter() {\n\n\t\tthis.computeBoundingBox();\n\n\t\tthis.boundingBox.getCenter( _offset ).negate();\n\n\t\tthis.translate( _offset.x, _offset.y, _offset.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Defines a geometry by creating a `position` attribute based on the given array of points. The array\n\t * can hold 2D or 3D vectors. When using two-dimensional data, the `z` coordinate for all vertices is\n\t * set to `0`.\n\t *\n\t * If the method is used with an existing `position` attribute, the vertex data are overwritten with the\n\t * data from the array. The length of the array must match the vertex count.\n\t *\n\t * @param {Array|Array} points - The points.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tconst positionAttribute = this.getAttribute( 'position' );\n\n\t\tif ( positionAttribute === undefined ) {\n\n\t\t\tconst position = [];\n\n\t\t\tfor ( let i = 0, l = points.length; i < l; i ++ ) {\n\n\t\t\t\tconst point = points[ i ];\n\t\t\t\tposition.push( point.x, point.y, point.z || 0 );\n\n\t\t\t}\n\n\t\t\tthis.setAttribute( 'position', new Float32BufferAttribute( position, 3 ) );\n\n\t\t} else {\n\n\t\t\tconst l = Math.min( points.length, positionAttribute.count ); // make sure data do not exceed buffer size\n\n\t\t\tfor ( let i = 0; i < l; i ++ ) {\n\n\t\t\t\tconst point = points[ i ];\n\t\t\t\tpositionAttribute.setXYZ( i, point.x, point.y, point.z || 0 );\n\n\t\t\t}\n\n\t\t\tif ( points.length > positionAttribute.count ) {\n\n\t\t\t\tconsole.warn( 'THREE.BufferGeometry: Buffer size too small for points data. Use .dispose() and create a new geometry.' );\n\n\t\t\t}\n\n\t\t\tpositionAttribute.needsUpdate = true;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the bounding box of the geometry, and updates the `boundingBox` member.\n\t * The bounding box is not computed by the engine; it must be computed by your app.\n\t * You may need to recompute the bounding box if the geometry vertices are modified.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tconst position = this.attributes.position;\n\t\tconst morphAttributesPosition = this.morphAttributes.position;\n\n\t\tif ( position && position.isGLBufferAttribute ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingBox(): GLBufferAttribute requires a manual bounding box.', this );\n\n\t\t\tthis.boundingBox.set(\n\t\t\t\tnew Vector3( - Infinity, - Infinity, - Infinity ),\n\t\t\t\tnew Vector3( + Infinity, + Infinity, + Infinity )\n\t\t\t);\n\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( position !== undefined ) {\n\n\t\t\tthis.boundingBox.setFromBufferAttribute( position );\n\n\t\t\t// process morph attributes if present\n\n\t\t\tif ( morphAttributesPosition ) {\n\n\t\t\t\tfor ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst morphAttribute = morphAttributesPosition[ i ];\n\t\t\t\t\t_box$2.setFromBufferAttribute( morphAttribute );\n\n\t\t\t\t\tif ( this.morphTargetsRelative ) {\n\n\t\t\t\t\t\t_vector$8.addVectors( this.boundingBox.min, _box$2.min );\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _vector$8 );\n\n\t\t\t\t\t\t_vector$8.addVectors( this.boundingBox.max, _box$2.max );\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _vector$8 );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _box$2.min );\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _box$2.max );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tthis.boundingBox.makeEmpty();\n\n\t\t}\n\n\t\tif ( isNaN( this.boundingBox.min.x ) || isNaN( this.boundingBox.min.y ) || isNaN( this.boundingBox.min.z ) ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingBox(): Computed min/max have NaN values. The \"position\" attribute is likely to have NaN values.', this );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere of the geometry, and updates the `boundingSphere` member.\n\t * The engine automatically computes the bounding sphere when it is needed, e.g., for ray casting or view frustum culling.\n\t * You may need to recompute the bounding sphere if the geometry vertices are modified.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tconst position = this.attributes.position;\n\t\tconst morphAttributesPosition = this.morphAttributes.position;\n\n\t\tif ( position && position.isGLBufferAttribute ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingSphere(): GLBufferAttribute requires a manual bounding sphere.', this );\n\n\t\t\tthis.boundingSphere.set( new Vector3(), Infinity );\n\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( position ) {\n\n\t\t\t// first, find the center of the bounding sphere\n\n\t\t\tconst center = this.boundingSphere.center;\n\n\t\t\t_box$2.setFromBufferAttribute( position );\n\n\t\t\t// process morph attributes if present\n\n\t\t\tif ( morphAttributesPosition ) {\n\n\t\t\t\tfor ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst morphAttribute = morphAttributesPosition[ i ];\n\t\t\t\t\t_boxMorphTargets.setFromBufferAttribute( morphAttribute );\n\n\t\t\t\t\tif ( this.morphTargetsRelative ) {\n\n\t\t\t\t\t\t_vector$8.addVectors( _box$2.min, _boxMorphTargets.min );\n\t\t\t\t\t\t_box$2.expandByPoint( _vector$8 );\n\n\t\t\t\t\t\t_vector$8.addVectors( _box$2.max, _boxMorphTargets.max );\n\t\t\t\t\t\t_box$2.expandByPoint( _vector$8 );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t_box$2.expandByPoint( _boxMorphTargets.min );\n\t\t\t\t\t\t_box$2.expandByPoint( _boxMorphTargets.max );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t_box$2.getCenter( center );\n\n\t\t\t// second, try to find a boundingSphere with a radius smaller than the\n\t\t\t// boundingSphere of the boundingBox: sqrt(3) smaller in the best case\n\n\t\t\tlet maxRadiusSq = 0;\n\n\t\t\tfor ( let i = 0, il = position.count; i < il; i ++ ) {\n\n\t\t\t\t_vector$8.fromBufferAttribute( position, i );\n\n\t\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( _vector$8 ) );\n\n\t\t\t}\n\n\t\t\t// process morph attributes if present\n\n\t\t\tif ( morphAttributesPosition ) {\n\n\t\t\t\tfor ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst morphAttribute = morphAttributesPosition[ i ];\n\t\t\t\t\tconst morphTargetsRelative = this.morphTargetsRelative;\n\n\t\t\t\t\tfor ( let j = 0, jl = morphAttribute.count; j < jl; j ++ ) {\n\n\t\t\t\t\t\t_vector$8.fromBufferAttribute( morphAttribute, j );\n\n\t\t\t\t\t\tif ( morphTargetsRelative ) {\n\n\t\t\t\t\t\t\t_offset.fromBufferAttribute( position, j );\n\t\t\t\t\t\t\t_vector$8.add( _offset );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( _vector$8 ) );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.boundingSphere.radius = Math.sqrt( maxRadiusSq );\n\n\t\t\tif ( isNaN( this.boundingSphere.radius ) ) {\n\n\t\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingSphere(): Computed radius is NaN. The \"position\" attribute is likely to have NaN values.', this );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Calculates and adds a tangent attribute to this geometry.\n\t *\n\t * The computation is only supported for indexed geometries and if position, normal, and uv attributes\n\t * are defined. When using a tangent space normal map, prefer the MikkTSpace algorithm provided by\n\t * {@link BufferGeometryUtils#computeMikkTSpaceTangents} instead.\n\t */\n\tcomputeTangents() {\n\n\t\tconst index = this.index;\n\t\tconst attributes = this.attributes;\n\n\t\t// based on http://www.terathon.com/code/tangent.html\n\t\t// (per vertex tangents)\n\n\t\tif ( index === null ||\n\t\t\t attributes.position === undefined ||\n\t\t\t attributes.normal === undefined ||\n\t\t\t attributes.uv === undefined ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry: .computeTangents() failed. Missing required attributes (index, position, normal or uv)' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tconst positionAttribute = attributes.position;\n\t\tconst normalAttribute = attributes.normal;\n\t\tconst uvAttribute = attributes.uv;\n\n\t\tif ( this.hasAttribute( 'tangent' ) === false ) {\n\n\t\t\tthis.setAttribute( 'tangent', new BufferAttribute( new Float32Array( 4 * positionAttribute.count ), 4 ) );\n\n\t\t}\n\n\t\tconst tangentAttribute = this.getAttribute( 'tangent' );\n\n\t\tconst tan1 = [], tan2 = [];\n\n\t\tfor ( let i = 0; i < positionAttribute.count; i ++ ) {\n\n\t\t\ttan1[ i ] = new Vector3();\n\t\t\ttan2[ i ] = new Vector3();\n\n\t\t}\n\n\t\tconst vA = new Vector3(),\n\t\t\tvB = new Vector3(),\n\t\t\tvC = new Vector3(),\n\n\t\t\tuvA = new Vector2(),\n\t\t\tuvB = new Vector2(),\n\t\t\tuvC = new Vector2(),\n\n\t\t\tsdir = new Vector3(),\n\t\t\ttdir = new Vector3();\n\n\t\tfunction handleTriangle( a, b, c ) {\n\n\t\t\tvA.fromBufferAttribute( positionAttribute, a );\n\t\t\tvB.fromBufferAttribute( positionAttribute, b );\n\t\t\tvC.fromBufferAttribute( positionAttribute, c );\n\n\t\t\tuvA.fromBufferAttribute( uvAttribute, a );\n\t\t\tuvB.fromBufferAttribute( uvAttribute, b );\n\t\t\tuvC.fromBufferAttribute( uvAttribute, c );\n\n\t\t\tvB.sub( vA );\n\t\t\tvC.sub( vA );\n\n\t\t\tuvB.sub( uvA );\n\t\t\tuvC.sub( uvA );\n\n\t\t\tconst r = 1.0 / ( uvB.x * uvC.y - uvC.x * uvB.y );\n\n\t\t\t// silently ignore degenerate uv triangles having coincident or colinear vertices\n\n\t\t\tif ( ! isFinite( r ) ) return;\n\n\t\t\tsdir.copy( vB ).multiplyScalar( uvC.y ).addScaledVector( vC, - uvB.y ).multiplyScalar( r );\n\t\t\ttdir.copy( vC ).multiplyScalar( uvB.x ).addScaledVector( vB, - uvC.x ).multiplyScalar( r );\n\n\t\t\ttan1[ a ].add( sdir );\n\t\t\ttan1[ b ].add( sdir );\n\t\t\ttan1[ c ].add( sdir );\n\n\t\t\ttan2[ a ].add( tdir );\n\t\t\ttan2[ b ].add( tdir );\n\t\t\ttan2[ c ].add( tdir );\n\n\t\t}\n\n\t\tlet groups = this.groups;\n\n\t\tif ( groups.length === 0 ) {\n\n\t\t\tgroups = [ {\n\t\t\t\tstart: 0,\n\t\t\t\tcount: index.count\n\t\t\t} ];\n\n\t\t}\n\n\t\tfor ( let i = 0, il = groups.length; i < il; ++ i ) {\n\n\t\t\tconst group = groups[ i ];\n\n\t\t\tconst start = group.start;\n\t\t\tconst count = group.count;\n\n\t\t\tfor ( let j = start, jl = start + count; j < jl; j += 3 ) {\n\n\t\t\t\thandleTriangle(\n\t\t\t\t\tindex.getX( j + 0 ),\n\t\t\t\t\tindex.getX( j + 1 ),\n\t\t\t\t\tindex.getX( j + 2 )\n\t\t\t\t);\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst tmp = new Vector3(), tmp2 = new Vector3();\n\t\tconst n = new Vector3(), n2 = new Vector3();\n\n\t\tfunction handleVertex( v ) {\n\n\t\t\tn.fromBufferAttribute( normalAttribute, v );\n\t\t\tn2.copy( n );\n\n\t\t\tconst t = tan1[ v ];\n\n\t\t\t// Gram-Schmidt orthogonalize\n\n\t\t\ttmp.copy( t );\n\t\t\ttmp.sub( n.multiplyScalar( n.dot( t ) ) ).normalize();\n\n\t\t\t// Calculate handedness\n\n\t\t\ttmp2.crossVectors( n2, t );\n\t\t\tconst test = tmp2.dot( tan2[ v ] );\n\t\t\tconst w = ( test < 0.0 ) ? -1 : 1.0;\n\n\t\t\ttangentAttribute.setXYZW( v, tmp.x, tmp.y, tmp.z, w );\n\n\t\t}\n\n\t\tfor ( let i = 0, il = groups.length; i < il; ++ i ) {\n\n\t\t\tconst group = groups[ i ];\n\n\t\t\tconst start = group.start;\n\t\t\tconst count = group.count;\n\n\t\t\tfor ( let j = start, jl = start + count; j < jl; j += 3 ) {\n\n\t\t\t\thandleVertex( index.getX( j + 0 ) );\n\t\t\t\thandleVertex( index.getX( j + 1 ) );\n\t\t\t\thandleVertex( index.getX( j + 2 ) );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes vertex normals for the given vertex data. For indexed geometries, the method sets\n\t * each vertex normal to be the average of the face normals of the faces that share that vertex.\n\t * For non-indexed geometries, vertices are not shared, and the method sets each vertex normal\n\t * to be the same as the face normal.\n\t */\n\tcomputeVertexNormals() {\n\n\t\tconst index = this.index;\n\t\tconst positionAttribute = this.getAttribute( 'position' );\n\n\t\tif ( positionAttribute !== undefined ) {\n\n\t\t\tlet normalAttribute = this.getAttribute( 'normal' );\n\n\t\t\tif ( normalAttribute === undefined ) {\n\n\t\t\t\tnormalAttribute = new BufferAttribute( new Float32Array( positionAttribute.count * 3 ), 3 );\n\t\t\t\tthis.setAttribute( 'normal', normalAttribute );\n\n\t\t\t} else {\n\n\t\t\t\t// reset existing normals to zero\n\n\t\t\t\tfor ( let i = 0, il = normalAttribute.count; i < il; i ++ ) {\n\n\t\t\t\t\tnormalAttribute.setXYZ( i, 0, 0, 0 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tconst pA = new Vector3(), pB = new Vector3(), pC = new Vector3();\n\t\t\tconst nA = new Vector3(), nB = new Vector3(), nC = new Vector3();\n\t\t\tconst cb = new Vector3(), ab = new Vector3();\n\n\t\t\t// indexed elements\n\n\t\t\tif ( index ) {\n\n\t\t\t\tfor ( let i = 0, il = index.count; i < il; i += 3 ) {\n\n\t\t\t\t\tconst vA = index.getX( i + 0 );\n\t\t\t\t\tconst vB = index.getX( i + 1 );\n\t\t\t\t\tconst vC = index.getX( i + 2 );\n\n\t\t\t\t\tpA.fromBufferAttribute( positionAttribute, vA );\n\t\t\t\t\tpB.fromBufferAttribute( positionAttribute, vB );\n\t\t\t\t\tpC.fromBufferAttribute( positionAttribute, vC );\n\n\t\t\t\t\tcb.subVectors( pC, pB );\n\t\t\t\t\tab.subVectors( pA, pB );\n\t\t\t\t\tcb.cross( ab );\n\n\t\t\t\t\tnA.fromBufferAttribute( normalAttribute, vA );\n\t\t\t\t\tnB.fromBufferAttribute( normalAttribute, vB );\n\t\t\t\t\tnC.fromBufferAttribute( normalAttribute, vC );\n\n\t\t\t\t\tnA.add( cb );\n\t\t\t\t\tnB.add( cb );\n\t\t\t\t\tnC.add( cb );\n\n\t\t\t\t\tnormalAttribute.setXYZ( vA, nA.x, nA.y, nA.z );\n\t\t\t\t\tnormalAttribute.setXYZ( vB, nB.x, nB.y, nB.z );\n\t\t\t\t\tnormalAttribute.setXYZ( vC, nC.x, nC.y, nC.z );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// non-indexed elements (unconnected triangle soup)\n\n\t\t\t\tfor ( let i = 0, il = positionAttribute.count; i < il; i += 3 ) {\n\n\t\t\t\t\tpA.fromBufferAttribute( positionAttribute, i + 0 );\n\t\t\t\t\tpB.fromBufferAttribute( positionAttribute, i + 1 );\n\t\t\t\t\tpC.fromBufferAttribute( positionAttribute, i + 2 );\n\n\t\t\t\t\tcb.subVectors( pC, pB );\n\t\t\t\t\tab.subVectors( pA, pB );\n\t\t\t\t\tcb.cross( ab );\n\n\t\t\t\t\tnormalAttribute.setXYZ( i + 0, cb.x, cb.y, cb.z );\n\t\t\t\t\tnormalAttribute.setXYZ( i + 1, cb.x, cb.y, cb.z );\n\t\t\t\t\tnormalAttribute.setXYZ( i + 2, cb.x, cb.y, cb.z );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.normalizeNormals();\n\n\t\t\tnormalAttribute.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Ensures every normal vector in a geometry will have a magnitude of `1`. This will\n\t * correct lighting on the geometry surfaces.\n\t */\n\tnormalizeNormals() {\n\n\t\tconst normals = this.attributes.normal;\n\n\t\tfor ( let i = 0, il = normals.count; i < il; i ++ ) {\n\n\t\t\t_vector$8.fromBufferAttribute( normals, i );\n\n\t\t\t_vector$8.normalize();\n\n\t\t\tnormals.setXYZ( i, _vector$8.x, _vector$8.y, _vector$8.z );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Return a new non-index version of this indexed geometry. If the geometry\n\t * is already non-indexed, the method is a NOOP.\n\t *\n\t * @return {BufferGeometry} The non-indexed version of this indexed geometry.\n\t */\n\ttoNonIndexed() {\n\n\t\tfunction convertBufferAttribute( attribute, indices ) {\n\n\t\t\tconst array = attribute.array;\n\t\t\tconst itemSize = attribute.itemSize;\n\t\t\tconst normalized = attribute.normalized;\n\n\t\t\tconst array2 = new array.constructor( indices.length * itemSize );\n\n\t\t\tlet index = 0, index2 = 0;\n\n\t\t\tfor ( let i = 0, l = indices.length; i < l; i ++ ) {\n\n\t\t\t\tif ( attribute.isInterleavedBufferAttribute ) {\n\n\t\t\t\t\tindex = indices[ i ] * attribute.data.stride + attribute.offset;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tindex = indices[ i ] * itemSize;\n\n\t\t\t\t}\n\n\t\t\t\tfor ( let j = 0; j < itemSize; j ++ ) {\n\n\t\t\t\t\tarray2[ index2 ++ ] = array[ index ++ ];\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn new BufferAttribute( array2, itemSize, normalized );\n\n\t\t}\n\n\t\t//\n\n\t\tif ( this.index === null ) {\n\n\t\t\tconsole.warn( 'THREE.BufferGeometry.toNonIndexed(): BufferGeometry is already non-indexed.' );\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst geometry2 = new BufferGeometry();\n\n\t\tconst indices = this.index.array;\n\t\tconst attributes = this.attributes;\n\n\t\t// attributes\n\n\t\tfor ( const name in attributes ) {\n\n\t\t\tconst attribute = attributes[ name ];\n\n\t\t\tconst newAttribute = convertBufferAttribute( attribute, indices );\n\n\t\t\tgeometry2.setAttribute( name, newAttribute );\n\n\t\t}\n\n\t\t// morph attributes\n\n\t\tconst morphAttributes = this.morphAttributes;\n\n\t\tfor ( const name in morphAttributes ) {\n\n\t\t\tconst morphArray = [];\n\t\t\tconst morphAttribute = morphAttributes[ name ]; // morphAttribute: array of Float32BufferAttributes\n\n\t\t\tfor ( let i = 0, il = morphAttribute.length; i < il; i ++ ) {\n\n\t\t\t\tconst attribute = morphAttribute[ i ];\n\n\t\t\t\tconst newAttribute = convertBufferAttribute( attribute, indices );\n\n\t\t\t\tmorphArray.push( newAttribute );\n\n\t\t\t}\n\n\t\t\tgeometry2.morphAttributes[ name ] = morphArray;\n\n\t\t}\n\n\t\tgeometry2.morphTargetsRelative = this.morphTargetsRelative;\n\n\t\t// groups\n\n\t\tconst groups = this.groups;\n\n\t\tfor ( let i = 0, l = groups.length; i < l; i ++ ) {\n\n\t\t\tconst group = groups[ i ];\n\t\t\tgeometry2.addGroup( group.start, group.count, group.materialIndex );\n\n\t\t}\n\n\t\treturn geometry2;\n\n\t}\n\n\t/**\n\t * Serializes the geometry into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized geometry.\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'BufferGeometry',\n\t\t\t\tgenerator: 'BufferGeometry.toJSON'\n\t\t\t}\n\t\t};\n\n\t\t// standard BufferGeometry serialization\n\n\t\tdata.uuid = this.uuid;\n\t\tdata.type = this.type;\n\t\tif ( this.name !== '' ) data.name = this.name;\n\t\tif ( Object.keys( this.userData ).length > 0 ) data.userData = this.userData;\n\n\t\tif ( this.parameters !== undefined ) {\n\n\t\t\tconst parameters = this.parameters;\n\n\t\t\tfor ( const key in parameters ) {\n\n\t\t\t\tif ( parameters[ key ] !== undefined ) data[ key ] = parameters[ key ];\n\n\t\t\t}\n\n\t\t\treturn data;\n\n\t\t}\n\n\t\t// for simplicity the code assumes attributes are not shared across geometries, see #15811\n\n\t\tdata.data = { attributes: {} };\n\n\t\tconst index = this.index;\n\n\t\tif ( index !== null ) {\n\n\t\t\tdata.data.index = {\n\t\t\t\ttype: index.array.constructor.name,\n\t\t\t\tarray: Array.prototype.slice.call( index.array )\n\t\t\t};\n\n\t\t}\n\n\t\tconst attributes = this.attributes;\n\n\t\tfor ( const key in attributes ) {\n\n\t\t\tconst attribute = attributes[ key ];\n\n\t\t\tdata.data.attributes[ key ] = attribute.toJSON( data.data );\n\n\t\t}\n\n\t\tconst morphAttributes = {};\n\t\tlet hasMorphAttributes = false;\n\n\t\tfor ( const key in this.morphAttributes ) {\n\n\t\t\tconst attributeArray = this.morphAttributes[ key ];\n\n\t\t\tconst array = [];\n\n\t\t\tfor ( let i = 0, il = attributeArray.length; i < il; i ++ ) {\n\n\t\t\t\tconst attribute = attributeArray[ i ];\n\n\t\t\t\tarray.push( attribute.toJSON( data.data ) );\n\n\t\t\t}\n\n\t\t\tif ( array.length > 0 ) {\n\n\t\t\t\tmorphAttributes[ key ] = array;\n\n\t\t\t\thasMorphAttributes = true;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( hasMorphAttributes ) {\n\n\t\t\tdata.data.morphAttributes = morphAttributes;\n\t\t\tdata.data.morphTargetsRelative = this.morphTargetsRelative;\n\n\t\t}\n\n\t\tconst groups = this.groups;\n\n\t\tif ( groups.length > 0 ) {\n\n\t\t\tdata.data.groups = JSON.parse( JSON.stringify( groups ) );\n\n\t\t}\n\n\t\tconst boundingSphere = this.boundingSphere;\n\n\t\tif ( boundingSphere !== null ) {\n\n\t\t\tdata.data.boundingSphere = boundingSphere.toJSON();\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Returns a new geometry with copied values from this instance.\n\t *\n\t * @return {BufferGeometry} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given geometry to this instance.\n\t *\n\t * @param {BufferGeometry} source - The geometry to copy.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\t// reset\n\n\t\tthis.index = null;\n\t\tthis.attributes = {};\n\t\tthis.morphAttributes = {};\n\t\tthis.groups = [];\n\t\tthis.boundingBox = null;\n\t\tthis.boundingSphere = null;\n\n\t\t// used for storing cloned, shared data\n\n\t\tconst data = {};\n\n\t\t// name\n\n\t\tthis.name = source.name;\n\n\t\t// index\n\n\t\tconst index = source.index;\n\n\t\tif ( index !== null ) {\n\n\t\t\tthis.setIndex( index.clone() );\n\n\t\t}\n\n\t\t// attributes\n\n\t\tconst attributes = source.attributes;\n\n\t\tfor ( const name in attributes ) {\n\n\t\t\tconst attribute = attributes[ name ];\n\t\t\tthis.setAttribute( name, attribute.clone( data ) );\n\n\t\t}\n\n\t\t// morph attributes\n\n\t\tconst morphAttributes = source.morphAttributes;\n\n\t\tfor ( const name in morphAttributes ) {\n\n\t\t\tconst array = [];\n\t\t\tconst morphAttribute = morphAttributes[ name ]; // morphAttribute: array of Float32BufferAttributes\n\n\t\t\tfor ( let i = 0, l = morphAttribute.length; i < l; i ++ ) {\n\n\t\t\t\tarray.push( morphAttribute[ i ].clone( data ) );\n\n\t\t\t}\n\n\t\t\tthis.morphAttributes[ name ] = array;\n\n\t\t}\n\n\t\tthis.morphTargetsRelative = source.morphTargetsRelative;\n\n\t\t// groups\n\n\t\tconst groups = source.groups;\n\n\t\tfor ( let i = 0, l = groups.length; i < l; i ++ ) {\n\n\t\t\tconst group = groups[ i ];\n\t\t\tthis.addGroup( group.start, group.count, group.materialIndex );\n\n\t\t}\n\n\t\t// bounding box\n\n\t\tconst boundingBox = source.boundingBox;\n\n\t\tif ( boundingBox !== null ) {\n\n\t\t\tthis.boundingBox = boundingBox.clone();\n\n\t\t}\n\n\t\t// bounding sphere\n\n\t\tconst boundingSphere = source.boundingSphere;\n\n\t\tif ( boundingSphere !== null ) {\n\n\t\t\tthis.boundingSphere = boundingSphere.clone();\n\n\t\t}\n\n\t\t// draw range\n\n\t\tthis.drawRange.start = source.drawRange.start;\n\t\tthis.drawRange.count = source.drawRange.count;\n\n\t\t// user data\n\n\t\tthis.userData = source.userData;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires BufferGeometry#dispose\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n}\n\nconst _inverseMatrix$3 = /*@__PURE__*/ new Matrix4();\nconst _ray$3 = /*@__PURE__*/ new Ray();\nconst _sphere$6 = /*@__PURE__*/ new Sphere();\nconst _sphereHitAt = /*@__PURE__*/ new Vector3();\n\nconst _vA$1 = /*@__PURE__*/ new Vector3();\nconst _vB$1 = /*@__PURE__*/ new Vector3();\nconst _vC$1 = /*@__PURE__*/ new Vector3();\n\nconst _tempA = /*@__PURE__*/ new Vector3();\nconst _morphA = /*@__PURE__*/ new Vector3();\n\nconst _intersectionPoint = /*@__PURE__*/ new Vector3();\nconst _intersectionPointWorld = /*@__PURE__*/ new Vector3();\n\n/**\n * Class representing triangular polygon mesh based objects.\n *\n * ```js\n * const geometry = new THREE.BoxGeometry( 1, 1, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const mesh = new THREE.Mesh( geometry, material );\n * scene.add( mesh );\n * ```\n *\n * @augments Object3D\n */\nclass Mesh extends Object3D {\n\n\t/**\n\t * Constructs a new mesh.\n\t *\n\t * @param {BufferGeometry} [geometry] - The mesh geometry.\n\t * @param {Material|Array} [material] - The mesh material.\n\t */\n\tconstructor( geometry = new BufferGeometry(), material = new MeshBasicMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMesh = true;\n\n\t\tthis.type = 'Mesh';\n\n\t\t/**\n\t\t * The mesh geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = geometry;\n\n\t\t/**\n\t\t * The mesh material.\n\t\t *\n\t\t * @type {Material|Array}\n\t\t * @default MeshBasicMaterial\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * A dictionary representing the morph targets in the geometry. The key is the\n\t\t * morph targets name, the value its attribute index. This member is `undefined`\n\t\t * by default and only set when morph targets are detected in the geometry.\n\t\t *\n\t\t * @type {Object|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetDictionary = undefined;\n\n\t\t/**\n\t\t * An array of weights typically in the range `[0,1]` that specify how much of the morph\n\t\t * is applied. This member is `undefined` by default and only set when morph targets are\n\t\t * detected in the geometry.\n\t\t *\n\t\t * @type {Array|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetInfluences = undefined;\n\n\t\t/**\n\t\t * The number of instances of this mesh.\n\t\t * Can only be used with {@link WebGPURenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.count = 1;\n\n\t\tthis.updateMorphTargets();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.morphTargetInfluences !== undefined ) {\n\n\t\t\tthis.morphTargetInfluences = source.morphTargetInfluences.slice();\n\n\t\t}\n\n\t\tif ( source.morphTargetDictionary !== undefined ) {\n\n\t\t\tthis.morphTargetDictionary = Object.assign( {}, source.morphTargetDictionary );\n\n\t\t}\n\n\t\tthis.material = Array.isArray( source.material ) ? source.material.slice() : source.material;\n\t\tthis.geometry = source.geometry;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the values of {@link Mesh#morphTargetDictionary} and {@link Mesh#morphTargetInfluences}\n\t * to make sure existing morph targets can influence this 3D object.\n\t */\n\tupdateMorphTargets() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst morphAttributes = geometry.morphAttributes;\n\t\tconst keys = Object.keys( morphAttributes );\n\n\t\tif ( keys.length > 0 ) {\n\n\t\t\tconst morphAttribute = morphAttributes[ keys[ 0 ] ];\n\n\t\t\tif ( morphAttribute !== undefined ) {\n\n\t\t\t\tthis.morphTargetInfluences = [];\n\t\t\t\tthis.morphTargetDictionary = {};\n\n\t\t\t\tfor ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) {\n\n\t\t\t\t\tconst name = morphAttribute[ m ].name || String( m );\n\n\t\t\t\t\tthis.morphTargetInfluences.push( 0 );\n\t\t\t\t\tthis.morphTargetDictionary[ name ] = m;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns the local-space position of the vertex at the given index, taking into\n\t * account the current animation state of both morph targets and skinning.\n\t *\n\t * @param {number} index - The vertex index.\n\t * @param {Vector3} target - The target object that is used to store the method's result.\n\t * @return {Vector3} The vertex position in local space.\n\t */\n\tgetVertexPosition( index, target ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst position = geometry.attributes.position;\n\t\tconst morphPosition = geometry.morphAttributes.position;\n\t\tconst morphTargetsRelative = geometry.morphTargetsRelative;\n\n\t\ttarget.fromBufferAttribute( position, index );\n\n\t\tconst morphInfluences = this.morphTargetInfluences;\n\n\t\tif ( morphPosition && morphInfluences ) {\n\n\t\t\t_morphA.set( 0, 0, 0 );\n\n\t\t\tfor ( let i = 0, il = morphPosition.length; i < il; i ++ ) {\n\n\t\t\t\tconst influence = morphInfluences[ i ];\n\t\t\t\tconst morphAttribute = morphPosition[ i ];\n\n\t\t\t\tif ( influence === 0 ) continue;\n\n\t\t\t\t_tempA.fromBufferAttribute( morphAttribute, index );\n\n\t\t\t\tif ( morphTargetsRelative ) {\n\n\t\t\t\t\t_morphA.addScaledVector( _tempA, influence );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t_morphA.addScaledVector( _tempA.sub( target ), influence );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\ttarget.add( _morphA );\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this line.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst material = this.material;\n\t\tconst matrixWorld = this.matrixWorld;\n\n\t\tif ( material === undefined ) return;\n\n\t\t// test with bounding sphere in world space\n\n\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t_sphere$6.copy( geometry.boundingSphere );\n\t\t_sphere$6.applyMatrix4( matrixWorld );\n\n\t\t// check distance from ray origin to bounding sphere\n\n\t\t_ray$3.copy( raycaster.ray ).recast( raycaster.near );\n\n\t\tif ( _sphere$6.containsPoint( _ray$3.origin ) === false ) {\n\n\t\t\tif ( _ray$3.intersectSphere( _sphere$6, _sphereHitAt ) === null ) return;\n\n\t\t\tif ( _ray$3.origin.distanceToSquared( _sphereHitAt ) > ( raycaster.far - raycaster.near ) ** 2 ) return;\n\n\t\t}\n\n\t\t// convert ray to local space of mesh\n\n\t\t_inverseMatrix$3.copy( matrixWorld ).invert();\n\t\t_ray$3.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$3 );\n\n\t\t// test with bounding box in local space\n\n\t\tif ( geometry.boundingBox !== null ) {\n\n\t\t\tif ( _ray$3.intersectsBox( geometry.boundingBox ) === false ) return;\n\n\t\t}\n\n\t\t// test for intersections with geometry\n\n\t\tthis._computeIntersections( raycaster, intersects, _ray$3 );\n\n\t}\n\n\t_computeIntersections( raycaster, intersects, rayLocalSpace ) {\n\n\t\tlet intersection;\n\n\t\tconst geometry = this.geometry;\n\t\tconst material = this.material;\n\n\t\tconst index = geometry.index;\n\t\tconst position = geometry.attributes.position;\n\t\tconst uv = geometry.attributes.uv;\n\t\tconst uv1 = geometry.attributes.uv1;\n\t\tconst normal = geometry.attributes.normal;\n\t\tconst groups = geometry.groups;\n\t\tconst drawRange = geometry.drawRange;\n\n\t\tif ( index !== null ) {\n\n\t\t\t// indexed buffer geometry\n\n\t\t\tif ( Array.isArray( material ) ) {\n\n\t\t\t\tfor ( let i = 0, il = groups.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst group = groups[ i ];\n\t\t\t\t\tconst groupMaterial = material[ group.materialIndex ];\n\n\t\t\t\t\tconst start = Math.max( group.start, drawRange.start );\n\t\t\t\t\tconst end = Math.min( index.count, Math.min( ( group.start + group.count ), ( drawRange.start + drawRange.count ) ) );\n\n\t\t\t\t\tfor ( let j = start, jl = end; j < jl; j += 3 ) {\n\n\t\t\t\t\t\tconst a = index.getX( j );\n\t\t\t\t\t\tconst b = index.getX( j + 1 );\n\t\t\t\t\t\tconst c = index.getX( j + 2 );\n\n\t\t\t\t\t\tintersection = checkGeometryIntersection( this, groupMaterial, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\t\tintersection.faceIndex = Math.floor( j / 3 ); // triangle number in indexed buffer semantics\n\t\t\t\t\t\t\tintersection.face.materialIndex = group.materialIndex;\n\t\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\t\tconst end = Math.min( index.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\t\tfor ( let i = start, il = end; i < il; i += 3 ) {\n\n\t\t\t\t\tconst a = index.getX( i );\n\t\t\t\t\tconst b = index.getX( i + 1 );\n\t\t\t\t\tconst c = index.getX( i + 2 );\n\n\t\t\t\t\tintersection = checkGeometryIntersection( this, material, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\tintersection.faceIndex = Math.floor( i / 3 ); // triangle number in indexed buffer semantics\n\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else if ( position !== undefined ) {\n\n\t\t\t// non-indexed buffer geometry\n\n\t\t\tif ( Array.isArray( material ) ) {\n\n\t\t\t\tfor ( let i = 0, il = groups.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst group = groups[ i ];\n\t\t\t\t\tconst groupMaterial = material[ group.materialIndex ];\n\n\t\t\t\t\tconst start = Math.max( group.start, drawRange.start );\n\t\t\t\t\tconst end = Math.min( position.count, Math.min( ( group.start + group.count ), ( drawRange.start + drawRange.count ) ) );\n\n\t\t\t\t\tfor ( let j = start, jl = end; j < jl; j += 3 ) {\n\n\t\t\t\t\t\tconst a = j;\n\t\t\t\t\t\tconst b = j + 1;\n\t\t\t\t\t\tconst c = j + 2;\n\n\t\t\t\t\t\tintersection = checkGeometryIntersection( this, groupMaterial, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\t\tintersection.faceIndex = Math.floor( j / 3 ); // triangle number in non-indexed buffer semantics\n\t\t\t\t\t\t\tintersection.face.materialIndex = group.materialIndex;\n\t\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\t\tconst end = Math.min( position.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\t\tfor ( let i = start, il = end; i < il; i += 3 ) {\n\n\t\t\t\t\tconst a = i;\n\t\t\t\t\tconst b = i + 1;\n\t\t\t\t\tconst c = i + 2;\n\n\t\t\t\t\tintersection = checkGeometryIntersection( this, material, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\tintersection.faceIndex = Math.floor( i / 3 ); // triangle number in non-indexed buffer semantics\n\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n}\n\nfunction checkIntersection$1( object, material, raycaster, ray, pA, pB, pC, point ) {\n\n\tlet intersect;\n\n\tif ( material.side === BackSide ) {\n\n\t\tintersect = ray.intersectTriangle( pC, pB, pA, true, point );\n\n\t} else {\n\n\t\tintersect = ray.intersectTriangle( pA, pB, pC, ( material.side === FrontSide ), point );\n\n\t}\n\n\tif ( intersect === null ) return null;\n\n\t_intersectionPointWorld.copy( point );\n\t_intersectionPointWorld.applyMatrix4( object.matrixWorld );\n\n\tconst distance = raycaster.ray.origin.distanceTo( _intersectionPointWorld );\n\n\tif ( distance < raycaster.near || distance > raycaster.far ) return null;\n\n\treturn {\n\t\tdistance: distance,\n\t\tpoint: _intersectionPointWorld.clone(),\n\t\tobject: object\n\t};\n\n}\n\nfunction checkGeometryIntersection( object, material, raycaster, ray, uv, uv1, normal, a, b, c ) {\n\n\tobject.getVertexPosition( a, _vA$1 );\n\tobject.getVertexPosition( b, _vB$1 );\n\tobject.getVertexPosition( c, _vC$1 );\n\n\tconst intersection = checkIntersection$1( object, material, raycaster, ray, _vA$1, _vB$1, _vC$1, _intersectionPoint );\n\n\tif ( intersection ) {\n\n\t\tconst barycoord = new Vector3();\n\t\tTriangle.getBarycoord( _intersectionPoint, _vA$1, _vB$1, _vC$1, barycoord );\n\n\t\tif ( uv ) {\n\n\t\t\tintersection.uv = Triangle.getInterpolatedAttribute( uv, a, b, c, barycoord, new Vector2() );\n\n\t\t}\n\n\t\tif ( uv1 ) {\n\n\t\t\tintersection.uv1 = Triangle.getInterpolatedAttribute( uv1, a, b, c, barycoord, new Vector2() );\n\n\t\t}\n\n\t\tif ( normal ) {\n\n\t\t\tintersection.normal = Triangle.getInterpolatedAttribute( normal, a, b, c, barycoord, new Vector3() );\n\n\t\t\tif ( intersection.normal.dot( ray.direction ) > 0 ) {\n\n\t\t\t\tintersection.normal.multiplyScalar( -1 );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst face = {\n\t\t\ta: a,\n\t\t\tb: b,\n\t\t\tc: c,\n\t\t\tnormal: new Vector3(),\n\t\t\tmaterialIndex: 0\n\t\t};\n\n\t\tTriangle.getNormal( _vA$1, _vB$1, _vC$1, face.normal );\n\n\t\tintersection.face = face;\n\t\tintersection.barycoord = barycoord;\n\n\t}\n\n\treturn intersection;\n\n}\n\n/**\n * A geometry class for a rectangular cuboid with a given width, height, and depth.\n * On creation, the cuboid is centred on the origin, with each edge parallel to one\n * of the axes.\n *\n * ```js\n * const geometry = new THREE.BoxGeometry( 1, 1, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const cube = new THREE.Mesh( geometry, material );\n * scene.add( cube );\n * ```\n *\n * @augments BufferGeometry\n */\nclass BoxGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new box geometry.\n\t *\n\t * @param {number} [width=1] - The width. That is, the length of the edges parallel to the X axis.\n\t * @param {number} [height=1] - The height. That is, the length of the edges parallel to the Y axis.\n\t * @param {number} [depth=1] - The depth. That is, the length of the edges parallel to the Z axis.\n\t * @param {number} [widthSegments=1] - Number of segmented rectangular faces along the width of the sides.\n\t * @param {number} [heightSegments=1] - Number of segmented rectangular faces along the height of the sides.\n\t * @param {number} [depthSegments=1] - Number of segmented rectangular faces along the depth of the sides.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, widthSegments = 1, heightSegments = 1, depthSegments = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'BoxGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\twidth: width,\n\t\t\theight: height,\n\t\t\tdepth: depth,\n\t\t\twidthSegments: widthSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\tdepthSegments: depthSegments\n\t\t};\n\n\t\tconst scope = this;\n\n\t\t// segments\n\n\t\twidthSegments = Math.floor( widthSegments );\n\t\theightSegments = Math.floor( heightSegments );\n\t\tdepthSegments = Math.floor( depthSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tlet numberOfVertices = 0;\n\t\tlet groupStart = 0;\n\n\t\t// build each side of the box geometry\n\n\t\tbuildPlane( 'z', 'y', 'x', -1, -1, depth, height, width, depthSegments, heightSegments, 0 ); // px\n\t\tbuildPlane( 'z', 'y', 'x', 1, -1, depth, height, - width, depthSegments, heightSegments, 1 ); // nx\n\t\tbuildPlane( 'x', 'z', 'y', 1, 1, width, depth, height, widthSegments, depthSegments, 2 ); // py\n\t\tbuildPlane( 'x', 'z', 'y', 1, -1, width, depth, - height, widthSegments, depthSegments, 3 ); // ny\n\t\tbuildPlane( 'x', 'y', 'z', 1, -1, width, height, depth, widthSegments, heightSegments, 4 ); // pz\n\t\tbuildPlane( 'x', 'y', 'z', -1, -1, width, height, - depth, widthSegments, heightSegments, 5 ); // nz\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\tfunction buildPlane( u, v, w, udir, vdir, width, height, depth, gridX, gridY, materialIndex ) {\n\n\t\t\tconst segmentWidth = width / gridX;\n\t\t\tconst segmentHeight = height / gridY;\n\n\t\t\tconst widthHalf = width / 2;\n\t\t\tconst heightHalf = height / 2;\n\t\t\tconst depthHalf = depth / 2;\n\n\t\t\tconst gridX1 = gridX + 1;\n\t\t\tconst gridY1 = gridY + 1;\n\n\t\t\tlet vertexCounter = 0;\n\t\t\tlet groupCount = 0;\n\n\t\t\tconst vector = new Vector3();\n\n\t\t\t// generate vertices, normals and uvs\n\n\t\t\tfor ( let iy = 0; iy < gridY1; iy ++ ) {\n\n\t\t\t\tconst y = iy * segmentHeight - heightHalf;\n\n\t\t\t\tfor ( let ix = 0; ix < gridX1; ix ++ ) {\n\n\t\t\t\t\tconst x = ix * segmentWidth - widthHalf;\n\n\t\t\t\t\t// set values to correct vector component\n\n\t\t\t\t\tvector[ u ] = x * udir;\n\t\t\t\t\tvector[ v ] = y * vdir;\n\t\t\t\t\tvector[ w ] = depthHalf;\n\n\t\t\t\t\t// now apply vector to vertex buffer\n\n\t\t\t\t\tvertices.push( vector.x, vector.y, vector.z );\n\n\t\t\t\t\t// set values to correct vector component\n\n\t\t\t\t\tvector[ u ] = 0;\n\t\t\t\t\tvector[ v ] = 0;\n\t\t\t\t\tvector[ w ] = depth > 0 ? 1 : -1;\n\n\t\t\t\t\t// now apply vector to normal buffer\n\n\t\t\t\t\tnormals.push( vector.x, vector.y, vector.z );\n\n\t\t\t\t\t// uvs\n\n\t\t\t\t\tuvs.push( ix / gridX );\n\t\t\t\t\tuvs.push( 1 - ( iy / gridY ) );\n\n\t\t\t\t\t// counters\n\n\t\t\t\t\tvertexCounter += 1;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// indices\n\n\t\t\t// 1. you need three indices to draw a single face\n\t\t\t// 2. a single segment consists of two faces\n\t\t\t// 3. so we need to generate six (2*3) indices per segment\n\n\t\t\tfor ( let iy = 0; iy < gridY; iy ++ ) {\n\n\t\t\t\tfor ( let ix = 0; ix < gridX; ix ++ ) {\n\n\t\t\t\t\tconst a = numberOfVertices + ix + gridX1 * iy;\n\t\t\t\t\tconst b = numberOfVertices + ix + gridX1 * ( iy + 1 );\n\t\t\t\t\tconst c = numberOfVertices + ( ix + 1 ) + gridX1 * ( iy + 1 );\n\t\t\t\t\tconst d = numberOfVertices + ( ix + 1 ) + gridX1 * iy;\n\n\t\t\t\t\t// faces\n\n\t\t\t\t\tindices.push( a, b, d );\n\t\t\t\t\tindices.push( b, c, d );\n\n\t\t\t\t\t// increase counter\n\n\t\t\t\t\tgroupCount += 6;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// add a group to the geometry. this will ensure multi material support\n\n\t\t\tscope.addGroup( groupStart, groupCount, materialIndex );\n\n\t\t\t// calculate new start value for groups\n\n\t\t\tgroupStart += groupCount;\n\n\t\t\t// update total number of vertices\n\n\t\t\tnumberOfVertices += vertexCounter;\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {BoxGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new BoxGeometry( data.width, data.height, data.depth, data.widthSegments, data.heightSegments, data.depthSegments );\n\n\t}\n\n}\n\n// Uniform Utilities\n\nfunction cloneUniforms( src ) {\n\n\tconst dst = {};\n\n\tfor ( const u in src ) {\n\n\t\tdst[ u ] = {};\n\n\t\tfor ( const p in src[ u ] ) {\n\n\t\t\tconst property = src[ u ][ p ];\n\n\t\t\tif ( property && ( property.isColor ||\n\t\t\t\tproperty.isMatrix3 || property.isMatrix4 ||\n\t\t\t\tproperty.isVector2 || property.isVector3 || property.isVector4 ||\n\t\t\t\tproperty.isTexture || property.isQuaternion ) ) {\n\n\t\t\t\tif ( property.isRenderTargetTexture ) {\n\n\t\t\t\t\tconsole.warn( 'UniformsUtils: Textures of render targets cannot be cloned via cloneUniforms() or mergeUniforms().' );\n\t\t\t\t\tdst[ u ][ p ] = null;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tdst[ u ][ p ] = property.clone();\n\n\t\t\t\t}\n\n\t\t\t} else if ( Array.isArray( property ) ) {\n\n\t\t\t\tdst[ u ][ p ] = property.slice();\n\n\t\t\t} else {\n\n\t\t\t\tdst[ u ][ p ] = property;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\treturn dst;\n\n}\n\nfunction mergeUniforms( uniforms ) {\n\n\tconst merged = {};\n\n\tfor ( let u = 0; u < uniforms.length; u ++ ) {\n\n\t\tconst tmp = cloneUniforms( uniforms[ u ] );\n\n\t\tfor ( const p in tmp ) {\n\n\t\t\tmerged[ p ] = tmp[ p ];\n\n\t\t}\n\n\t}\n\n\treturn merged;\n\n}\n\nfunction cloneUniformsGroups( src ) {\n\n\tconst dst = [];\n\n\tfor ( let u = 0; u < src.length; u ++ ) {\n\n\t\tdst.push( src[ u ].clone() );\n\n\t}\n\n\treturn dst;\n\n}\n\nfunction getUnlitUniformColorSpace( renderer ) {\n\n\tconst currentRenderTarget = renderer.getRenderTarget();\n\n\tif ( currentRenderTarget === null ) {\n\n\t\t// https://github.com/mrdoob/three.js/pull/23937#issuecomment-1111067398\n\t\treturn renderer.outputColorSpace;\n\n\t}\n\n\t// https://github.com/mrdoob/three.js/issues/27868\n\tif ( currentRenderTarget.isXRRenderTarget === true ) {\n\n\t\treturn currentRenderTarget.texture.colorSpace;\n\n\t}\n\n\treturn ColorManagement.workingColorSpace;\n\n}\n\n// Legacy\n\nconst UniformsUtils = { clone: cloneUniforms, merge: mergeUniforms };\n\nvar default_vertex = \"void main() {\\n\\tgl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );\\n}\";\n\nvar default_fragment = \"void main() {\\n\\tgl_FragColor = vec4( 1.0, 0.0, 0.0, 1.0 );\\n}\";\n\n/**\n * A material rendered with custom shaders. A shader is a small program written in GLSL.\n * that runs on the GPU. You may want to use a custom shader if you need to implement an\n * effect not included with any of the built-in materials.\n *\n * There are the following notes to bear in mind when using a `ShaderMaterial`:\n *\n * - `ShaderMaterial` can only be used with {@link WebGLRenderer}.\n * - Built in attributes and uniforms are passed to the shaders along with your code. If\n * you don't want that, use {@link RawShaderMaterial} instead.\n * - You can use the directive `#pragma unroll_loop_start` and `#pragma unroll_loop_end`\n * in order to unroll a `for` loop in GLSL by the shader preprocessor. The directive has\n * to be placed right above the loop. The loop formatting has to correspond to a defined standard.\n * - The loop has to be [normalized]{@link https://en.wikipedia.org/wiki/Normalized_loop}.\n * - The loop variable has to be *i*.\n * - The value `UNROLLED_LOOP_INDEX` will be replaced with the explicitly\n * value of *i* for the given iteration and can be used in preprocessor\n * statements.\n *\n * ```js\n * const material = new THREE.ShaderMaterial( {\n * \tuniforms: {\n * \t\ttime: { value: 1.0 },\n * \t\tresolution: { value: new THREE.Vector2() }\n * \t},\n * \tvertexShader: document.getElementById( 'vertexShader' ).textContent,\n * \tfragmentShader: document.getElementById( 'fragmentShader' ).textContent\n * } );\n * ```\n *\n * @augments Material\n */\nclass ShaderMaterial extends Material {\n\n\t/**\n\t * Constructs a new shader material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isShaderMaterial = true;\n\n\t\tthis.type = 'ShaderMaterial';\n\n\t\t/**\n\t\t * Defines custom constants using `#define` directives within the GLSL code\n\t\t * for both the vertex shader and the fragment shader; each key/value pair\n\t\t * yields another directive.\n\t\t * ```js\n\t\t * defines: {\n\t\t * \tFOO: 15,\n\t\t * \tBAR: true\n\t\t * }\n\t\t * ```\n\t\t * Yields the lines:\n\t\t * ```\n\t\t * #define FOO 15\n\t\t * #define BAR true\n\t\t * ```\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.defines = {};\n\n\t\t/**\n\t\t * An object of the form:\n\t\t * ```js\n\t\t * {\n\t\t * \t\"uniform1\": { value: 1.0 },\n\t\t * \t\"uniform2\": { value: 2 }\n\t\t * }\n\t\t * ```\n\t\t * specifying the uniforms to be passed to the shader code; keys are uniform\n\t\t * names, values are definitions of the form\n\t\t * ```\n\t\t * {\n\t\t * \tvalue: 1.0\n\t\t * }\n\t\t * ```\n\t\t * where `value` is the value of the uniform. Names must match the name of\n\t\t * the uniform, as defined in the GLSL code. Note that uniforms are refreshed\n\t\t * on every frame, so updating the value of the uniform will immediately\n\t\t * update the value available to the GLSL code.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.uniforms = {};\n\n\t\t/**\n\t\t * An array holding uniforms groups for configuring UBOs.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.uniformsGroups = [];\n\n\t\t/**\n\t\t * Vertex shader GLSL code. This is the actual code for the shader.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.vertexShader = default_vertex;\n\n\t\t/**\n\t\t * Fragment shader GLSL code. This is the actual code for the shader.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.fragmentShader = default_fragment;\n\n\t\t/**\n\t\t * Controls line thickness or lines.\n\t\t *\n\t\t * WebGL and WebGPU ignore this setting and always render line primitives with a\n\t\t * width of one pixel.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.linewidth = 1;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * WebGL and WebGPU ignore this property and always render\n\t\t * 1 pixel wide lines.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Define whether the material color is affected by global fog settings; `true`\n\t\t * to pass fog uniforms to the shader.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.fog = false;\n\n\t\t/**\n\t\t * Defines whether this material uses lighting; `true` to pass uniform data\n\t\t * related to lighting to this shader.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.lights = false;\n\n\t\t/**\n\t\t * Defines whether this material supports clipping; `true` to let the renderer\n\t\t * pass the clippingPlanes uniform.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clipping = false;\n\n\t\t/**\n\t\t * Overwritten and set to `true` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.forceSinglePass = true;\n\n\t\t/**\n\t\t * This object allows to enable certain WebGL 2 extensions.\n\t\t *\n\t\t * - clipCullDistance: set to `true` to use vertex shader clipping\n\t\t * - multiDraw: set to `true` to use vertex shader multi_draw / enable gl_DrawID\n\t\t *\n\t\t * @type {{clipCullDistance:false,multiDraw:false}}\n\t\t */\n\t\tthis.extensions = {\n\t\t\tclipCullDistance: false, // set to use vertex shader clipping\n\t\t\tmultiDraw: false // set to use vertex shader multi_draw / enable gl_DrawID\n\t\t};\n\n\t\t/**\n\t\t * When the rendered geometry doesn't include these attributes but the\n\t\t * material does, these default values will be passed to the shaders. This\n\t\t * avoids errors when buffer data is missing.\n\t\t *\n\t\t * - color: [ 1, 1, 1 ]\n\t\t * - uv: [ 0, 0 ]\n\t\t * - uv1: [ 0, 0 ]\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.defaultAttributeValues = {\n\t\t\t'color': [ 1, 1, 1 ],\n\t\t\t'uv': [ 0, 0 ],\n\t\t\t'uv1': [ 0, 0 ]\n\t\t};\n\n\t\t/**\n\t\t * If set, this calls [gl.bindAttribLocation]{@link https://developer.mozilla.org/en-US/docs/Web/API/WebGLRenderingContext/bindAttribLocation}\n\t\t * to bind a generic vertex index to an attribute variable.\n\t\t *\n\t\t * @type {string|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.index0AttributeName = undefined;\n\n\t\t/**\n\t\t * Can be used to force a uniform update while changing uniforms in\n\t\t * {@link Object3D#onBeforeRender}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.uniformsNeedUpdate = false;\n\n\t\t/**\n\t\t * Defines the GLSL version of custom shader code.\n\t\t *\n\t\t * @type {?(GLSL1|GLSL3)}\n\t\t * @default null\n\t\t */\n\t\tthis.glslVersion = null;\n\n\t\tif ( parameters !== undefined ) {\n\n\t\t\tthis.setValues( parameters );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.fragmentShader = source.fragmentShader;\n\t\tthis.vertexShader = source.vertexShader;\n\n\t\tthis.uniforms = cloneUniforms( source.uniforms );\n\t\tthis.uniformsGroups = cloneUniformsGroups( source.uniformsGroups );\n\n\t\tthis.defines = Object.assign( {}, source.defines );\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\n\t\tthis.fog = source.fog;\n\t\tthis.lights = source.lights;\n\t\tthis.clipping = source.clipping;\n\n\t\tthis.extensions = Object.assign( {}, source.extensions );\n\n\t\tthis.glslVersion = source.glslVersion;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.glslVersion = this.glslVersion;\n\t\tdata.uniforms = {};\n\n\t\tfor ( const name in this.uniforms ) {\n\n\t\t\tconst uniform = this.uniforms[ name ];\n\t\t\tconst value = uniform.value;\n\n\t\t\tif ( value && value.isTexture ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 't',\n\t\t\t\t\tvalue: value.toJSON( meta ).uuid\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isColor ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'c',\n\t\t\t\t\tvalue: value.getHex()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isVector2 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'v2',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isVector3 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'v3',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isVector4 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'v4',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isMatrix3 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'm3',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isMatrix4 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'm4',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\tvalue: value\n\t\t\t\t};\n\n\t\t\t\t// note: the array variants v2v, v3v, v4v, m4v and tv are not supported so far\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( Object.keys( this.defines ).length > 0 ) data.defines = this.defines;\n\n\t\tdata.vertexShader = this.vertexShader;\n\t\tdata.fragmentShader = this.fragmentShader;\n\n\t\tdata.lights = this.lights;\n\t\tdata.clipping = this.clipping;\n\n\t\tconst extensions = {};\n\n\t\tfor ( const key in this.extensions ) {\n\n\t\t\tif ( this.extensions[ key ] === true ) extensions[ key ] = true;\n\n\t\t}\n\n\t\tif ( Object.keys( extensions ).length > 0 ) data.extensions = extensions;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Abstract base class for cameras. This class should always be inherited\n * when you build a new camera.\n *\n * @abstract\n * @augments Object3D\n */\nclass Camera extends Object3D {\n\n\t/**\n\t * Constructs a new camera.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCamera = true;\n\n\t\tthis.type = 'Camera';\n\n\t\t/**\n\t\t * The inverse of the camera's world matrix.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrixWorldInverse = new Matrix4();\n\n\t\t/**\n\t\t * The camera's projection matrix.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.projectionMatrix = new Matrix4();\n\n\t\t/**\n\t\t * The inverse of the camera's projection matrix.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.projectionMatrixInverse = new Matrix4();\n\n\t\t/**\n\t\t * The coordinate system in which the camera is used.\n\t\t *\n\t\t * @type {(WebGLCoordinateSystem|WebGPUCoordinateSystem)}\n\t\t */\n\t\tthis.coordinateSystem = WebGLCoordinateSystem;\n\n\t\tthis._reversedDepth = false;\n\n\t}\n\n\t/**\n\t * The flag that indicates whether the camera uses a reversed depth buffer.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t */\n\tget reversedDepth() {\n\n\t\treturn this._reversedDepth;\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.matrixWorldInverse.copy( source.matrixWorldInverse );\n\n\t\tthis.projectionMatrix.copy( source.projectionMatrix );\n\t\tthis.projectionMatrixInverse.copy( source.projectionMatrixInverse );\n\n\t\tthis.coordinateSystem = source.coordinateSystem;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the (\"look\") direction of the 3D object in world space.\n\t *\n\t * This method is overwritten since cameras have a different forward vector compared to other\n\t * 3D objects. A camera looks down its local, negative z-axis by default.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's direction in world space.\n\t */\n\tgetWorldDirection( target ) {\n\n\t\treturn super.getWorldDirection( target ).negate();\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tthis.matrixWorldInverse.copy( this.matrixWorld ).invert();\n\n\t}\n\n\tupdateWorldMatrix( updateParents, updateChildren ) {\n\n\t\tsuper.updateWorldMatrix( updateParents, updateChildren );\n\n\t\tthis.matrixWorldInverse.copy( this.matrixWorld ).invert();\n\n\t}\n\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _v3$1 = /*@__PURE__*/ new Vector3();\nconst _minTarget = /*@__PURE__*/ new Vector2();\nconst _maxTarget = /*@__PURE__*/ new Vector2();\n\n/**\n * Camera that uses [perspective projection]{@link https://en.wikipedia.org/wiki/Perspective_(graphical)}.\n *\n * This projection mode is designed to mimic the way the human eye sees. It\n * is the most common projection mode used for rendering a 3D scene.\n *\n * ```js\n * const camera = new THREE.PerspectiveCamera( 45, width / height, 1, 1000 );\n * scene.add( camera );\n * ```\n *\n * @augments Camera\n */\nclass PerspectiveCamera extends Camera {\n\n\t/**\n\t * Constructs a new perspective camera.\n\t *\n\t * @param {number} [fov=50] - The vertical field of view.\n\t * @param {number} [aspect=1] - The aspect ratio.\n\t * @param {number} [near=0.1] - The camera's near plane.\n\t * @param {number} [far=2000] - The camera's far plane.\n\t */\n\tconstructor( fov = 50, aspect = 1, near = 0.1, far = 2000 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPerspectiveCamera = true;\n\n\t\tthis.type = 'PerspectiveCamera';\n\n\t\t/**\n\t\t * The vertical field of view, from bottom to top of view,\n\t\t * in degrees.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 50\n\t\t */\n\t\tthis.fov = fov;\n\n\t\t/**\n\t\t * The zoom factor of the camera.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.zoom = 1;\n\n\t\t/**\n\t\t * The camera's near plane. The valid range is greater than `0`\n\t\t * and less than the current value of {@link PerspectiveCamera#far}.\n\t\t *\n\t\t * Note that, unlike for the {@link OrthographicCamera}, `0` is not a\n\t\t * valid value for a perspective camera's near plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.1\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * The camera's far plane. Must be greater than the\n\t\t * current value of {@link PerspectiveCamera#near}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2000\n\t\t */\n\t\tthis.far = far;\n\n\t\t/**\n\t\t * Object distance used for stereoscopy and depth-of-field effects. This\n\t\t * parameter does not influence the projection matrix unless a\n\t\t * {@link StereoCamera} is being used.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 10\n\t\t */\n\t\tthis.focus = 10;\n\n\t\t/**\n\t\t * The aspect ratio, usually the canvas width / canvas height.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aspect = aspect;\n\n\t\t/**\n\t\t * Represents the frustum window specification. This property should not be edited\n\t\t * directly but via {@link PerspectiveCamera#setViewOffset} and {@link PerspectiveCamera#clearViewOffset}.\n\t\t *\n\t\t * @type {?Object}\n\t\t * @default null\n\t\t */\n\t\tthis.view = null;\n\n\t\t/**\n\t\t * Film size used for the larger axis. Default is `35` (millimeters). This\n\t\t * parameter does not influence the projection matrix unless {@link PerspectiveCamera#filmOffset}\n\t\t * is set to a nonzero value.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 35\n\t\t */\n\t\tthis.filmGauge = 35;\n\n\t\t/**\n\t\t * Horizontal off-center offset in the same unit as {@link PerspectiveCamera#filmGauge}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.filmOffset = 0;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.fov = source.fov;\n\t\tthis.zoom = source.zoom;\n\n\t\tthis.near = source.near;\n\t\tthis.far = source.far;\n\t\tthis.focus = source.focus;\n\n\t\tthis.aspect = source.aspect;\n\t\tthis.view = source.view === null ? null : Object.assign( {}, source.view );\n\n\t\tthis.filmGauge = source.filmGauge;\n\t\tthis.filmOffset = source.filmOffset;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the FOV by focal length in respect to the current {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * The default film gauge is 35, so that the focal length can be specified for\n\t * a 35mm (full frame) camera.\n\t *\n\t * @param {number} focalLength - Values for focal length and film gauge must have the same unit.\n\t */\n\tsetFocalLength( focalLength ) {\n\n\t\t/** see {@link http://www.bobatkins.com/photography/technical/field_of_view.html} */\n\t\tconst vExtentSlope = 0.5 * this.getFilmHeight() / focalLength;\n\n\t\tthis.fov = RAD2DEG * 2 * Math.atan( vExtentSlope );\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Returns the focal length from the current {@link PerspectiveCamera#fov} and\n\t * {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * @return {number} The computed focal length.\n\t */\n\tgetFocalLength() {\n\n\t\tconst vExtentSlope = Math.tan( DEG2RAD * 0.5 * this.fov );\n\n\t\treturn 0.5 * this.getFilmHeight() / vExtentSlope;\n\n\t}\n\n\t/**\n\t * Returns the current vertical field of view angle in degrees considering {@link PerspectiveCamera#zoom}.\n\t *\n\t * @return {number} The effective FOV.\n\t */\n\tgetEffectiveFOV() {\n\n\t\treturn RAD2DEG * 2 * Math.atan(\n\t\t\tMath.tan( DEG2RAD * 0.5 * this.fov ) / this.zoom );\n\n\t}\n\n\t/**\n\t * Returns the width of the image on the film. If {@link PerspectiveCamera#aspect} is greater than or\n\t * equal to one (landscape format), the result equals {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * @return {number} The film width.\n\t */\n\tgetFilmWidth() {\n\n\t\t// film not completely covered in portrait format (aspect < 1)\n\t\treturn this.filmGauge * Math.min( this.aspect, 1 );\n\n\t}\n\n\t/**\n\t * Returns the height of the image on the film. If {@link PerspectiveCamera#aspect} is greater than or\n\t * equal to one (landscape format), the result equals {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * @return {number} The film width.\n\t */\n\tgetFilmHeight() {\n\n\t\t// film not completely covered in landscape format (aspect > 1)\n\t\treturn this.filmGauge / Math.max( this.aspect, 1 );\n\n\t}\n\n\t/**\n\t * Computes the 2D bounds of the camera's viewable rectangle at a given distance along the viewing direction.\n\t * Sets `minTarget` and `maxTarget` to the coordinates of the lower-left and upper-right corners of the view rectangle.\n\t *\n\t * @param {number} distance - The viewing distance.\n\t * @param {Vector2} minTarget - The lower-left corner of the view rectangle is written into this vector.\n\t * @param {Vector2} maxTarget - The upper-right corner of the view rectangle is written into this vector.\n\t */\n\tgetViewBounds( distance, minTarget, maxTarget ) {\n\n\t\t_v3$1.set( -1, -1, 0.5 ).applyMatrix4( this.projectionMatrixInverse );\n\n\t\tminTarget.set( _v3$1.x, _v3$1.y ).multiplyScalar( - distance / _v3$1.z );\n\n\t\t_v3$1.set( 1, 1, 0.5 ).applyMatrix4( this.projectionMatrixInverse );\n\n\t\tmaxTarget.set( _v3$1.x, _v3$1.y ).multiplyScalar( - distance / _v3$1.z );\n\n\t}\n\n\t/**\n\t * Computes the width and height of the camera's viewable rectangle at a given distance along the viewing direction.\n\t *\n\t * @param {number} distance - The viewing distance.\n\t * @param {Vector2} target - The target vector that is used to store result where x is width and y is height.\n\t * @returns {Vector2} The view size.\n\t */\n\tgetViewSize( distance, target ) {\n\n\t\tthis.getViewBounds( distance, _minTarget, _maxTarget );\n\n\t\treturn target.subVectors( _maxTarget, _minTarget );\n\n\t}\n\n\t/**\n\t * Sets an offset in a larger frustum. This is useful for multi-window or\n\t * multi-monitor/multi-machine setups.\n\t *\n\t * For example, if you have 3x2 monitors and each monitor is 1920x1080 and\n\t * the monitors are in grid like this\n\t *```\n\t * +---+---+---+\n\t * | A | B | C |\n\t * +---+---+---+\n\t * | D | E | F |\n\t * +---+---+---+\n\t *```\n\t * then for each monitor you would call it like this:\n\t *```js\n\t * const w = 1920;\n\t * const h = 1080;\n\t * const fullWidth = w * 3;\n\t * const fullHeight = h * 2;\n\t *\n\t * // --A--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 0, h * 0, w, h );\n\t * // --B--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 1, h * 0, w, h );\n\t * // --C--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 2, h * 0, w, h );\n\t * // --D--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 0, h * 1, w, h );\n\t * // --E--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 1, h * 1, w, h );\n\t * // --F--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 2, h * 1, w, h );\n\t * ```\n\t *\n\t * Note there is no reason monitors have to be the same size or in a grid.\n\t *\n\t * @param {number} fullWidth - The full width of multiview setup.\n\t * @param {number} fullHeight - The full height of multiview setup.\n\t * @param {number} x - The horizontal offset of the subcamera.\n\t * @param {number} y - The vertical offset of the subcamera.\n\t * @param {number} width - The width of subcamera.\n\t * @param {number} height - The height of subcamera.\n\t */\n\tsetViewOffset( fullWidth, fullHeight, x, y, width, height ) {\n\n\t\tthis.aspect = fullWidth / fullHeight;\n\n\t\tif ( this.view === null ) {\n\n\t\t\tthis.view = {\n\t\t\t\tenabled: true,\n\t\t\t\tfullWidth: 1,\n\t\t\t\tfullHeight: 1,\n\t\t\t\toffsetX: 0,\n\t\t\t\toffsetY: 0,\n\t\t\t\twidth: 1,\n\t\t\t\theight: 1\n\t\t\t};\n\n\t\t}\n\n\t\tthis.view.enabled = true;\n\t\tthis.view.fullWidth = fullWidth;\n\t\tthis.view.fullHeight = fullHeight;\n\t\tthis.view.offsetX = x;\n\t\tthis.view.offsetY = y;\n\t\tthis.view.width = width;\n\t\tthis.view.height = height;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Removes the view offset from the projection matrix.\n\t */\n\tclearViewOffset() {\n\n\t\tif ( this.view !== null ) {\n\n\t\t\tthis.view.enabled = false;\n\n\t\t}\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Updates the camera's projection matrix. Must be called after any change of\n\t * camera properties.\n\t */\n\tupdateProjectionMatrix() {\n\n\t\tconst near = this.near;\n\t\tlet top = near * Math.tan( DEG2RAD * 0.5 * this.fov ) / this.zoom;\n\t\tlet height = 2 * top;\n\t\tlet width = this.aspect * height;\n\t\tlet left = -0.5 * width;\n\t\tconst view = this.view;\n\n\t\tif ( this.view !== null && this.view.enabled ) {\n\n\t\t\tconst fullWidth = view.fullWidth,\n\t\t\t\tfullHeight = view.fullHeight;\n\n\t\t\tleft += view.offsetX * width / fullWidth;\n\t\t\ttop -= view.offsetY * height / fullHeight;\n\t\t\twidth *= view.width / fullWidth;\n\t\t\theight *= view.height / fullHeight;\n\n\t\t}\n\n\t\tconst skew = this.filmOffset;\n\t\tif ( skew !== 0 ) left += near * skew / this.getFilmWidth();\n\n\t\tthis.projectionMatrix.makePerspective( left, left + width, top, top - height, near, this.far, this.coordinateSystem, this.reversedDepth );\n\n\t\tthis.projectionMatrixInverse.copy( this.projectionMatrix ).invert();\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.fov = this.fov;\n\t\tdata.object.zoom = this.zoom;\n\n\t\tdata.object.near = this.near;\n\t\tdata.object.far = this.far;\n\t\tdata.object.focus = this.focus;\n\n\t\tdata.object.aspect = this.aspect;\n\n\t\tif ( this.view !== null ) data.object.view = Object.assign( {}, this.view );\n\n\t\tdata.object.filmGauge = this.filmGauge;\n\t\tdata.object.filmOffset = this.filmOffset;\n\n\t\treturn data;\n\n\t}\n\n}\n\nconst fov = -90; // negative fov is not an error\nconst aspect = 1;\n\n/**\n * A special type of camera that is positioned in 3D space to render its surroundings into a\n * cube render target. The render target can then be used as an environment map for rendering\n * realtime reflections in your scene.\n *\n * ```js\n * // Create cube render target\n * const cubeRenderTarget = new THREE.WebGLCubeRenderTarget( 256, { generateMipmaps: true, minFilter: THREE.LinearMipmapLinearFilter } );\n *\n * // Create cube camera\n * const cubeCamera = new THREE.CubeCamera( 1, 100000, cubeRenderTarget );\n * scene.add( cubeCamera );\n *\n * // Create car\n * const chromeMaterial = new THREE.MeshLambertMaterial( { color: 0xffffff, envMap: cubeRenderTarget.texture } );\n * const car = new THREE.Mesh( carGeometry, chromeMaterial );\n * scene.add( car );\n *\n * // Update the render target cube\n * car.visible = false;\n * cubeCamera.position.copy( car.position );\n * cubeCamera.update( renderer, scene );\n *\n * // Render the scene\n * car.visible = true;\n * renderer.render( scene, camera );\n * ```\n *\n * @augments Object3D\n */\nclass CubeCamera extends Object3D {\n\n\t/**\n\t * Constructs a new cube camera.\n\t *\n\t * @param {number} near - The camera's near plane.\n\t * @param {number} far - The camera's far plane.\n\t * @param {WebGLCubeRenderTarget} renderTarget - The cube render target.\n\t */\n\tconstructor( near, far, renderTarget ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CubeCamera';\n\n\t\t/**\n\t\t * A reference to the cube render target.\n\t\t *\n\t\t * @type {WebGLCubeRenderTarget}\n\t\t */\n\t\tthis.renderTarget = renderTarget;\n\n\t\t/**\n\t\t * The current active coordinate system.\n\t\t *\n\t\t * @type {?(WebGLCoordinateSystem|WebGPUCoordinateSystem)}\n\t\t * @default null\n\t\t */\n\t\tthis.coordinateSystem = null;\n\n\t\t/**\n\t\t * The current active mipmap level\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.activeMipmapLevel = 0;\n\n\t\tconst cameraPX = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraPX.layers = this.layers;\n\t\tthis.add( cameraPX );\n\n\t\tconst cameraNX = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraNX.layers = this.layers;\n\t\tthis.add( cameraNX );\n\n\t\tconst cameraPY = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraPY.layers = this.layers;\n\t\tthis.add( cameraPY );\n\n\t\tconst cameraNY = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraNY.layers = this.layers;\n\t\tthis.add( cameraNY );\n\n\t\tconst cameraPZ = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraPZ.layers = this.layers;\n\t\tthis.add( cameraPZ );\n\n\t\tconst cameraNZ = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraNZ.layers = this.layers;\n\t\tthis.add( cameraNZ );\n\n\t}\n\n\t/**\n\t * Must be called when the coordinate system of the cube camera is changed.\n\t */\n\tupdateCoordinateSystem() {\n\n\t\tconst coordinateSystem = this.coordinateSystem;\n\n\t\tconst cameras = this.children.concat();\n\n\t\tconst [ cameraPX, cameraNX, cameraPY, cameraNY, cameraPZ, cameraNZ ] = cameras;\n\n\t\tfor ( const camera of cameras ) this.remove( camera );\n\n\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\tcameraPX.up.set( 0, 1, 0 );\n\t\t\tcameraPX.lookAt( 1, 0, 0 );\n\n\t\t\tcameraNX.up.set( 0, 1, 0 );\n\t\t\tcameraNX.lookAt( -1, 0, 0 );\n\n\t\t\tcameraPY.up.set( 0, 0, -1 );\n\t\t\tcameraPY.lookAt( 0, 1, 0 );\n\n\t\t\tcameraNY.up.set( 0, 0, 1 );\n\t\t\tcameraNY.lookAt( 0, -1, 0 );\n\n\t\t\tcameraPZ.up.set( 0, 1, 0 );\n\t\t\tcameraPZ.lookAt( 0, 0, 1 );\n\n\t\t\tcameraNZ.up.set( 0, 1, 0 );\n\t\t\tcameraNZ.lookAt( 0, 0, -1 );\n\n\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\tcameraPX.up.set( 0, -1, 0 );\n\t\t\tcameraPX.lookAt( -1, 0, 0 );\n\n\t\t\tcameraNX.up.set( 0, -1, 0 );\n\t\t\tcameraNX.lookAt( 1, 0, 0 );\n\n\t\t\tcameraPY.up.set( 0, 0, 1 );\n\t\t\tcameraPY.lookAt( 0, 1, 0 );\n\n\t\t\tcameraNY.up.set( 0, 0, -1 );\n\t\t\tcameraNY.lookAt( 0, -1, 0 );\n\n\t\t\tcameraPZ.up.set( 0, -1, 0 );\n\t\t\tcameraPZ.lookAt( 0, 0, 1 );\n\n\t\t\tcameraNZ.up.set( 0, -1, 0 );\n\t\t\tcameraNZ.lookAt( 0, 0, -1 );\n\n\t\t} else {\n\n\t\t\tthrow new Error( 'THREE.CubeCamera.updateCoordinateSystem(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t}\n\n\t\tfor ( const camera of cameras ) {\n\n\t\t\tthis.add( camera );\n\n\t\t\tcamera.updateMatrixWorld();\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Calling this method will render the given scene with the given renderer\n\t * into the cube render target of the camera.\n\t *\n\t * @param {(Renderer|WebGLRenderer)} renderer - The renderer.\n\t * @param {Scene} scene - The scene to render.\n\t */\n\tupdate( renderer, scene ) {\n\n\t\tif ( this.parent === null ) this.updateMatrixWorld();\n\n\t\tconst { renderTarget, activeMipmapLevel } = this;\n\n\t\tif ( this.coordinateSystem !== renderer.coordinateSystem ) {\n\n\t\t\tthis.coordinateSystem = renderer.coordinateSystem;\n\n\t\t\tthis.updateCoordinateSystem();\n\n\t\t}\n\n\t\tconst [ cameraPX, cameraNX, cameraPY, cameraNY, cameraPZ, cameraNZ ] = this.children;\n\n\t\tconst currentRenderTarget = renderer.getRenderTarget();\n\t\tconst currentActiveCubeFace = renderer.getActiveCubeFace();\n\t\tconst currentActiveMipmapLevel = renderer.getActiveMipmapLevel();\n\n\t\tconst currentXrEnabled = renderer.xr.enabled;\n\n\t\trenderer.xr.enabled = false;\n\n\t\tconst generateMipmaps = renderTarget.texture.generateMipmaps;\n\n\t\trenderTarget.texture.generateMipmaps = false;\n\n\t\trenderer.setRenderTarget( renderTarget, 0, activeMipmapLevel );\n\t\trenderer.render( scene, cameraPX );\n\n\t\trenderer.setRenderTarget( renderTarget, 1, activeMipmapLevel );\n\t\trenderer.render( scene, cameraNX );\n\n\t\trenderer.setRenderTarget( renderTarget, 2, activeMipmapLevel );\n\t\trenderer.render( scene, cameraPY );\n\n\t\trenderer.setRenderTarget( renderTarget, 3, activeMipmapLevel );\n\t\trenderer.render( scene, cameraNY );\n\n\t\trenderer.setRenderTarget( renderTarget, 4, activeMipmapLevel );\n\t\trenderer.render( scene, cameraPZ );\n\n\t\t// mipmaps are generated during the last call of render()\n\t\t// at this point, all sides of the cube render target are defined\n\n\t\trenderTarget.texture.generateMipmaps = generateMipmaps;\n\n\t\trenderer.setRenderTarget( renderTarget, 5, activeMipmapLevel );\n\t\trenderer.render( scene, cameraNZ );\n\n\t\trenderer.setRenderTarget( currentRenderTarget, currentActiveCubeFace, currentActiveMipmapLevel );\n\n\t\trenderer.xr.enabled = currentXrEnabled;\n\n\t\trenderTarget.texture.needsPMREMUpdate = true;\n\n\t}\n\n}\n\n/**\n * Creates a cube texture made up of six images.\n *\n * ```js\n * const loader = new THREE.CubeTextureLoader();\n * loader.setPath( 'textures/cube/pisa/' );\n *\n * const textureCube = loader.load( [\n * \t'px.png', 'nx.png', 'py.png', 'ny.png', 'pz.png', 'nz.png'\n * ] );\n *\n * const material = new THREE.MeshBasicMaterial( { color: 0xffffff, envMap: textureCube } );\n * ```\n *\n * @augments Texture\n */\nclass CubeTexture extends Texture {\n\n\t/**\n\t * Constructs a new cube texture.\n\t *\n\t * @param {Array} [images=[]] - An array holding a image for each side of a cube.\n\t * @param {number} [mapping=CubeReflectionMapping] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space value.\n\t */\n\tconstructor( images = [], mapping = CubeReflectionMapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace ) {\n\n\t\tsuper( images, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubeTexture = true;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t}\n\n\t/**\n\t * Alias for {@link CubeTexture#image}.\n\t *\n\t * @type {Array}\n\t */\n\tget images() {\n\n\t\treturn this.image;\n\n\t}\n\n\tset images( value ) {\n\n\t\tthis.image = value;\n\n\t}\n\n}\n\n/**\n * A cube render target used in context of {@link WebGLRenderer}.\n *\n * @augments WebGLRenderTarget\n */\nclass WebGLCubeRenderTarget extends WebGLRenderTarget {\n\n\t/**\n\t * Constructs a new cube render target.\n\t *\n\t * @param {number} [size=1] - The size of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( size = 1, options = {} ) {\n\n\t\tsuper( size, size, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGLCubeRenderTarget = true;\n\n\t\tconst image = { width: size, height: size, depth: 1 };\n\t\tconst images = [ image, image, image, image, image, image ];\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {DataArrayTexture}\n\t\t */\n\t\tthis.texture = new CubeTexture( images );\n\t\tthis._setTextureOptions( options );\n\n\t\t// By convention -- likely based on the RenderMan spec from the 1990's -- cube maps are specified by WebGL (and three.js)\n\t\t// in a coordinate system in which positive-x is to the right when looking up the positive-z axis -- in other words,\n\t\t// in a left-handed coordinate system. By continuing this convention, preexisting cube maps continued to render correctly.\n\n\t\t// three.js uses a right-handed coordinate system. So environment maps used in three.js appear to have px and nx swapped\n\t\t// and the flag isRenderTargetTexture controls this conversion. The flip is not required when using WebGLCubeRenderTarget.texture\n\t\t// as a cube texture (this is detected when isRenderTargetTexture is set to true for cube textures).\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n\t/**\n\t * Converts the given equirectangular texture to a cube map.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {Texture} texture - The equirectangular texture.\n\t * @return {WebGLCubeRenderTarget} A reference to this cube render target.\n\t */\n\tfromEquirectangularTexture( renderer, texture ) {\n\n\t\tthis.texture.type = texture.type;\n\t\tthis.texture.colorSpace = texture.colorSpace;\n\n\t\tthis.texture.generateMipmaps = texture.generateMipmaps;\n\t\tthis.texture.minFilter = texture.minFilter;\n\t\tthis.texture.magFilter = texture.magFilter;\n\n\t\tconst shader = {\n\n\t\t\tuniforms: {\n\t\t\t\ttEquirect: { value: null },\n\t\t\t},\n\n\t\t\tvertexShader: /* glsl */`\n\n\t\t\t\tvarying vec3 vWorldDirection;\n\n\t\t\t\tvec3 transformDirection( in vec3 dir, in mat4 matrix ) {\n\n\t\t\t\t\treturn normalize( ( matrix * vec4( dir, 0.0 ) ).xyz );\n\n\t\t\t\t}\n\n\t\t\t\tvoid main() {\n\n\t\t\t\t\tvWorldDirection = transformDirection( position, modelMatrix );\n\n\t\t\t\t\t#include \n\t\t\t\t\t#include \n\n\t\t\t\t}\n\t\t\t`,\n\n\t\t\tfragmentShader: /* glsl */`\n\n\t\t\t\tuniform sampler2D tEquirect;\n\n\t\t\t\tvarying vec3 vWorldDirection;\n\n\t\t\t\t#include \n\n\t\t\t\tvoid main() {\n\n\t\t\t\t\tvec3 direction = normalize( vWorldDirection );\n\n\t\t\t\t\tvec2 sampleUV = equirectUv( direction );\n\n\t\t\t\t\tgl_FragColor = texture2D( tEquirect, sampleUV );\n\n\t\t\t\t}\n\t\t\t`\n\t\t};\n\n\t\tconst geometry = new BoxGeometry( 5, 5, 5 );\n\n\t\tconst material = new ShaderMaterial( {\n\n\t\t\tname: 'CubemapFromEquirect',\n\n\t\t\tuniforms: cloneUniforms( shader.uniforms ),\n\t\t\tvertexShader: shader.vertexShader,\n\t\t\tfragmentShader: shader.fragmentShader,\n\t\t\tside: BackSide,\n\t\t\tblending: NoBlending\n\n\t\t} );\n\n\t\tmaterial.uniforms.tEquirect.value = texture;\n\n\t\tconst mesh = new Mesh( geometry, material );\n\n\t\tconst currentMinFilter = texture.minFilter;\n\n\t\t// Avoid blurred poles\n\t\tif ( texture.minFilter === LinearMipmapLinearFilter ) texture.minFilter = LinearFilter;\n\n\t\tconst camera = new CubeCamera( 1, 10, this );\n\t\tcamera.update( renderer, mesh );\n\n\t\ttexture.minFilter = currentMinFilter;\n\n\t\tmesh.geometry.dispose();\n\t\tmesh.material.dispose();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Clears this cube render target.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {boolean} [color=true] - Whether the color buffer should be cleared or not.\n\t * @param {boolean} [depth=true] - Whether the depth buffer should be cleared or not.\n\t * @param {boolean} [stencil=true] - Whether the stencil buffer should be cleared or not.\n\t */\n\tclear( renderer, color = true, depth = true, stencil = true ) {\n\n\t\tconst currentRenderTarget = renderer.getRenderTarget();\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\trenderer.setRenderTarget( this, i );\n\n\t\t\trenderer.clear( color, depth, stencil );\n\n\t\t}\n\n\t\trenderer.setRenderTarget( currentRenderTarget );\n\n\t}\n\n}\n\n/**\n * This is almost identical to an {@link Object3D}. Its purpose is to\n * make working with groups of objects syntactically clearer.\n *\n * ```js\n * // Create a group and add the two cubes.\n * // These cubes can now be rotated / scaled etc as a group.\n * const group = new THREE.Group();\n *\n * group.add( meshA );\n * group.add( meshB );\n *\n * scene.add( group );\n * ```\n *\n * @augments Object3D\n */\nclass Group extends Object3D {\n\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isGroup = true;\n\n\t\tthis.type = 'Group';\n\n\t}\n\n}\n\nconst _moveEvent = { type: 'move' };\n\n/**\n * Class for representing a XR controller with its\n * different coordinate systems.\n *\n * @private\n */\nclass WebXRController {\n\n\t/**\n\t * Constructs a new XR controller.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * A group representing the target ray space\n\t\t * of the XR controller.\n\t\t *\n\t\t * @private\n\t\t * @type {?Group}\n\t\t * @default null\n\t\t */\n\t\tthis._targetRay = null;\n\n\t\t/**\n\t\t * A group representing the grip space\n\t\t * of the XR controller.\n\t\t *\n\t\t * @private\n\t\t * @type {?Group}\n\t\t * @default null\n\t\t */\n\t\tthis._grip = null;\n\n\t\t/**\n\t\t * A group representing the hand space\n\t\t * of the XR controller.\n\t\t *\n\t\t * @private\n\t\t * @type {?Group}\n\t\t * @default null\n\t\t */\n\t\tthis._hand = null;\n\n\t}\n\n\t/**\n\t * Returns a group representing the hand space of the XR controller.\n\t *\n\t * @return {Group} A group representing the hand space of the XR controller.\n\t */\n\tgetHandSpace() {\n\n\t\tif ( this._hand === null ) {\n\n\t\t\tthis._hand = new Group();\n\t\t\tthis._hand.matrixAutoUpdate = false;\n\t\t\tthis._hand.visible = false;\n\n\t\t\tthis._hand.joints = {};\n\t\t\tthis._hand.inputState = { pinching: false };\n\n\t\t}\n\n\t\treturn this._hand;\n\n\t}\n\n\t/**\n\t * Returns a group representing the target ray space of the XR controller.\n\t *\n\t * @return {Group} A group representing the target ray space of the XR controller.\n\t */\n\tgetTargetRaySpace() {\n\n\t\tif ( this._targetRay === null ) {\n\n\t\t\tthis._targetRay = new Group();\n\t\t\tthis._targetRay.matrixAutoUpdate = false;\n\t\t\tthis._targetRay.visible = false;\n\t\t\tthis._targetRay.hasLinearVelocity = false;\n\t\t\tthis._targetRay.linearVelocity = new Vector3();\n\t\t\tthis._targetRay.hasAngularVelocity = false;\n\t\t\tthis._targetRay.angularVelocity = new Vector3();\n\n\t\t}\n\n\t\treturn this._targetRay;\n\n\t}\n\n\t/**\n\t * Returns a group representing the grip space of the XR controller.\n\t *\n\t * @return {Group} A group representing the grip space of the XR controller.\n\t */\n\tgetGripSpace() {\n\n\t\tif ( this._grip === null ) {\n\n\t\t\tthis._grip = new Group();\n\t\t\tthis._grip.matrixAutoUpdate = false;\n\t\t\tthis._grip.visible = false;\n\t\t\tthis._grip.hasLinearVelocity = false;\n\t\t\tthis._grip.linearVelocity = new Vector3();\n\t\t\tthis._grip.hasAngularVelocity = false;\n\t\t\tthis._grip.angularVelocity = new Vector3();\n\n\t\t}\n\n\t\treturn this._grip;\n\n\t}\n\n\t/**\n\t * Dispatches the given event to the groups representing\n\t * the different coordinate spaces of the XR controller.\n\t *\n\t * @param {Object} event - The event to dispatch.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tdispatchEvent( event ) {\n\n\t\tif ( this._targetRay !== null ) {\n\n\t\t\tthis._targetRay.dispatchEvent( event );\n\n\t\t}\n\n\t\tif ( this._grip !== null ) {\n\n\t\t\tthis._grip.dispatchEvent( event );\n\n\t\t}\n\n\t\tif ( this._hand !== null ) {\n\n\t\t\tthis._hand.dispatchEvent( event );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Connects the controller with the given XR input source.\n\t *\n\t * @param {XRInputSource} inputSource - The input source.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tconnect( inputSource ) {\n\n\t\tif ( inputSource && inputSource.hand ) {\n\n\t\t\tconst hand = this._hand;\n\n\t\t\tif ( hand ) {\n\n\t\t\t\tfor ( const inputjoint of inputSource.hand.values() ) {\n\n\t\t\t\t\t// Initialize hand with joints when connected\n\t\t\t\t\tthis._getHandJoint( hand, inputjoint );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.dispatchEvent( { type: 'connected', data: inputSource } );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Disconnects the controller from the given XR input source.\n\t *\n\t * @param {XRInputSource} inputSource - The input source.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tdisconnect( inputSource ) {\n\n\t\tthis.dispatchEvent( { type: 'disconnected', data: inputSource } );\n\n\t\tif ( this._targetRay !== null ) {\n\n\t\t\tthis._targetRay.visible = false;\n\n\t\t}\n\n\t\tif ( this._grip !== null ) {\n\n\t\t\tthis._grip.visible = false;\n\n\t\t}\n\n\t\tif ( this._hand !== null ) {\n\n\t\t\tthis._hand.visible = false;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Updates the controller with the given input source, XR frame and reference space.\n\t * This updates the transformations of the groups that represent the different\n\t * coordinate systems of the controller.\n\t *\n\t * @param {XRInputSource} inputSource - The input source.\n\t * @param {XRFrame} frame - The XR frame.\n\t * @param {XRReferenceSpace} referenceSpace - The reference space.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tupdate( inputSource, frame, referenceSpace ) {\n\n\t\tlet inputPose = null;\n\t\tlet gripPose = null;\n\t\tlet handPose = null;\n\n\t\tconst targetRay = this._targetRay;\n\t\tconst grip = this._grip;\n\t\tconst hand = this._hand;\n\n\t\tif ( inputSource && frame.session.visibilityState !== 'visible-blurred' ) {\n\n\t\t\tif ( hand && inputSource.hand ) {\n\n\t\t\t\thandPose = true;\n\n\t\t\t\tfor ( const inputjoint of inputSource.hand.values() ) {\n\n\t\t\t\t\t// Update the joints groups with the XRJoint poses\n\t\t\t\t\tconst jointPose = frame.getJointPose( inputjoint, referenceSpace );\n\n\t\t\t\t\t// The transform of this joint will be updated with the joint pose on each frame\n\t\t\t\t\tconst joint = this._getHandJoint( hand, inputjoint );\n\n\t\t\t\t\tif ( jointPose !== null ) {\n\n\t\t\t\t\t\tjoint.matrix.fromArray( jointPose.transform.matrix );\n\t\t\t\t\t\tjoint.matrix.decompose( joint.position, joint.rotation, joint.scale );\n\t\t\t\t\t\tjoint.matrixWorldNeedsUpdate = true;\n\t\t\t\t\t\tjoint.jointRadius = jointPose.radius;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tjoint.visible = jointPose !== null;\n\n\t\t\t\t}\n\n\t\t\t\t// Custom events\n\n\t\t\t\t// Check pinchz\n\t\t\t\tconst indexTip = hand.joints[ 'index-finger-tip' ];\n\t\t\t\tconst thumbTip = hand.joints[ 'thumb-tip' ];\n\t\t\t\tconst distance = indexTip.position.distanceTo( thumbTip.position );\n\n\t\t\t\tconst distanceToPinch = 0.02;\n\t\t\t\tconst threshold = 0.005;\n\n\t\t\t\tif ( hand.inputState.pinching && distance > distanceToPinch + threshold ) {\n\n\t\t\t\t\thand.inputState.pinching = false;\n\t\t\t\t\tthis.dispatchEvent( {\n\t\t\t\t\t\ttype: 'pinchend',\n\t\t\t\t\t\thandedness: inputSource.handedness,\n\t\t\t\t\t\ttarget: this\n\t\t\t\t\t} );\n\n\t\t\t\t} else if ( ! hand.inputState.pinching && distance <= distanceToPinch - threshold ) {\n\n\t\t\t\t\thand.inputState.pinching = true;\n\t\t\t\t\tthis.dispatchEvent( {\n\t\t\t\t\t\ttype: 'pinchstart',\n\t\t\t\t\t\thandedness: inputSource.handedness,\n\t\t\t\t\t\ttarget: this\n\t\t\t\t\t} );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tif ( grip !== null && inputSource.gripSpace ) {\n\n\t\t\t\t\tgripPose = frame.getPose( inputSource.gripSpace, referenceSpace );\n\n\t\t\t\t\tif ( gripPose !== null ) {\n\n\t\t\t\t\t\tgrip.matrix.fromArray( gripPose.transform.matrix );\n\t\t\t\t\t\tgrip.matrix.decompose( grip.position, grip.rotation, grip.scale );\n\t\t\t\t\t\tgrip.matrixWorldNeedsUpdate = true;\n\n\t\t\t\t\t\tif ( gripPose.linearVelocity ) {\n\n\t\t\t\t\t\t\tgrip.hasLinearVelocity = true;\n\t\t\t\t\t\t\tgrip.linearVelocity.copy( gripPose.linearVelocity );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tgrip.hasLinearVelocity = false;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tif ( gripPose.angularVelocity ) {\n\n\t\t\t\t\t\t\tgrip.hasAngularVelocity = true;\n\t\t\t\t\t\t\tgrip.angularVelocity.copy( gripPose.angularVelocity );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tgrip.hasAngularVelocity = false;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( targetRay !== null ) {\n\n\t\t\t\tinputPose = frame.getPose( inputSource.targetRaySpace, referenceSpace );\n\n\t\t\t\t// Some runtimes (namely Vive Cosmos with Vive OpenXR Runtime) have only grip space and ray space is equal to it\n\t\t\t\tif ( inputPose === null && gripPose !== null ) {\n\n\t\t\t\t\tinputPose = gripPose;\n\n\t\t\t\t}\n\n\t\t\t\tif ( inputPose !== null ) {\n\n\t\t\t\t\ttargetRay.matrix.fromArray( inputPose.transform.matrix );\n\t\t\t\t\ttargetRay.matrix.decompose( targetRay.position, targetRay.rotation, targetRay.scale );\n\t\t\t\t\ttargetRay.matrixWorldNeedsUpdate = true;\n\n\t\t\t\t\tif ( inputPose.linearVelocity ) {\n\n\t\t\t\t\t\ttargetRay.hasLinearVelocity = true;\n\t\t\t\t\t\ttargetRay.linearVelocity.copy( inputPose.linearVelocity );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ttargetRay.hasLinearVelocity = false;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( inputPose.angularVelocity ) {\n\n\t\t\t\t\t\ttargetRay.hasAngularVelocity = true;\n\t\t\t\t\t\ttargetRay.angularVelocity.copy( inputPose.angularVelocity );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ttargetRay.hasAngularVelocity = false;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tthis.dispatchEvent( _moveEvent );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\n\t\t}\n\n\t\tif ( targetRay !== null ) {\n\n\t\t\ttargetRay.visible = ( inputPose !== null );\n\n\t\t}\n\n\t\tif ( grip !== null ) {\n\n\t\t\tgrip.visible = ( gripPose !== null );\n\n\t\t}\n\n\t\tif ( hand !== null ) {\n\n\t\t\thand.visible = ( handPose !== null );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a group representing the hand joint for the given input joint.\n\t *\n\t * @private\n\t * @param {Group} hand - The group representing the hand space.\n\t * @param {XRJointSpace} inputjoint - The hand joint data.\n\t * @return {Group} A group representing the hand joint for the given input joint.\n\t */\n\t_getHandJoint( hand, inputjoint ) {\n\n\t\tif ( hand.joints[ inputjoint.jointName ] === undefined ) {\n\n\t\t\tconst joint = new Group();\n\t\t\tjoint.matrixAutoUpdate = false;\n\t\t\tjoint.visible = false;\n\t\t\thand.joints[ inputjoint.jointName ] = joint;\n\n\t\t\thand.add( joint );\n\n\t\t}\n\n\t\treturn hand.joints[ inputjoint.jointName ];\n\n\t}\n\n}\n\n/**\n * This class can be used to define an exponential squared fog,\n * which gives a clear view near the camera and a faster than exponentially\n * densening fog farther from the camera.\n *\n * ```js\n * const scene = new THREE.Scene();\n * scene.fog = new THREE.FogExp2( 0xcccccc, 0.002 );\n * ```\n */\nclass FogExp2 {\n\n\t/**\n\t * Constructs a new fog.\n\t *\n\t * @param {number|Color} color - The fog's color.\n\t * @param {number} [density=0.00025] - Defines how fast the fog will grow dense.\n\t */\n\tconstructor( color, density = 0.00025 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isFogExp2 = true;\n\n\t\t/**\n\t\t * The name of the fog.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The fog's color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color( color );\n\n\t\t/**\n\t\t * Defines how fast the fog will grow dense.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.00025\n\t\t */\n\t\tthis.density = density;\n\n\t}\n\n\t/**\n\t * Returns a new fog with copied values from this instance.\n\t *\n\t * @return {FogExp2} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new FogExp2( this.color, this.density );\n\n\t}\n\n\t/**\n\t * Serializes the fog into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized fog\n\t */\n\ttoJSON( /* meta */ ) {\n\n\t\treturn {\n\t\t\ttype: 'FogExp2',\n\t\t\tname: this.name,\n\t\t\tcolor: this.color.getHex(),\n\t\t\tdensity: this.density\n\t\t};\n\n\t}\n\n}\n\n/**\n * This class can be used to define a linear fog that grows linearly denser\n * with the distance.\n *\n * ```js\n * const scene = new THREE.Scene();\n * scene.fog = new THREE.Fog( 0xcccccc, 10, 15 );\n * ```\n */\nclass Fog {\n\n\t/**\n\t * Constructs a new fog.\n\t *\n\t * @param {number|Color} color - The fog's color.\n\t * @param {number} [near=1] - The minimum distance to start applying fog.\n\t * @param {number} [far=1000] - The maximum distance at which fog stops being calculated and applied.\n\t */\n\tconstructor( color, near = 1, far = 1000 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isFog = true;\n\n\t\t/**\n\t\t * The name of the fog.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The fog's color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color( color );\n\n\t\t/**\n\t\t * The minimum distance to start applying fog. Objects that are less than\n\t\t * `near` units from the active camera won't be affected by fog.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * The maximum distance at which fog stops being calculated and applied.\n\t\t * Objects that are more than `far` units away from the active camera won't\n\t\t * be affected by fog.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1000\n\t\t */\n\t\tthis.far = far;\n\n\t}\n\n\t/**\n\t * Returns a new fog with copied values from this instance.\n\t *\n\t * @return {Fog} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Fog( this.color, this.near, this.far );\n\n\t}\n\n\t/**\n\t * Serializes the fog into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized fog\n\t */\n\ttoJSON( /* meta */ ) {\n\n\t\treturn {\n\t\t\ttype: 'Fog',\n\t\t\tname: this.name,\n\t\t\tcolor: this.color.getHex(),\n\t\t\tnear: this.near,\n\t\t\tfar: this.far\n\t\t};\n\n\t}\n\n}\n\n/**\n * Scenes allow you to set up what is to be rendered and where by three.js.\n * This is where you place 3D objects like meshes, lines or lights.\n *\n * @augments Object3D\n */\nclass Scene extends Object3D {\n\n\t/**\n\t * Constructs a new scene.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isScene = true;\n\n\t\tthis.type = 'Scene';\n\n\t\t/**\n\t\t * Defines the background of the scene. Valid inputs are:\n\t\t *\n\t\t * - A color for defining a uniform colored background.\n\t\t * - A texture for defining a (flat) textured background.\n\t\t * - Cube textures or equirectangular textures for defining a skybox.\n\t\t *\n\t\t * @type {?(Color|Texture)}\n\t\t * @default null\n\t\t */\n\t\tthis.background = null;\n\n\t\t/**\n\t\t * Sets the environment map for all physical materials in the scene. However,\n\t\t * it's not possible to overwrite an existing texture assigned to the `envMap`\n\t\t * material property.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.environment = null;\n\n\t\t/**\n\t\t * A fog instance defining the type of fog that affects everything\n\t\t * rendered in the scene.\n\t\t *\n\t\t * @type {?(Fog|FogExp2)}\n\t\t * @default null\n\t\t */\n\t\tthis.fog = null;\n\n\t\t/**\n\t\t * Sets the blurriness of the background. Only influences environment maps\n\t\t * assigned to {@link Scene#background}. Valid input is a float between `0`\n\t\t * and `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.backgroundBlurriness = 0;\n\n\t\t/**\n\t\t * Attenuates the color of the background. Only applies to background textures.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.backgroundIntensity = 1;\n\n\t\t/**\n\t\t * The rotation of the background in radians. Only influences environment maps\n\t\t * assigned to {@link Scene#background}.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.backgroundRotation = new Euler();\n\n\t\t/**\n\t\t * Attenuates the color of the environment. Only influences environment maps\n\t\t * assigned to {@link Scene#environment}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.environmentIntensity = 1;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians. Only influences physical materials\n\t\t * in the scene when {@link Scene#environment} is used.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.environmentRotation = new Euler();\n\n\t\t/**\n\t\t * Forces everything in the scene to be rendered with the defined material. It is possible\n\t\t * to exclude materials from override by setting {@link Material#allowOverride} to `false`.\n\t\t *\n\t\t * @type {?Material}\n\t\t * @default null\n\t\t */\n\t\tthis.overrideMaterial = null;\n\n\t\tif ( typeof __THREE_DEVTOOLS__ !== 'undefined' ) {\n\n\t\t\t__THREE_DEVTOOLS__.dispatchEvent( new CustomEvent( 'observe', { detail: this } ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.background !== null ) this.background = source.background.clone();\n\t\tif ( source.environment !== null ) this.environment = source.environment.clone();\n\t\tif ( source.fog !== null ) this.fog = source.fog.clone();\n\n\t\tthis.backgroundBlurriness = source.backgroundBlurriness;\n\t\tthis.backgroundIntensity = source.backgroundIntensity;\n\t\tthis.backgroundRotation.copy( source.backgroundRotation );\n\n\t\tthis.environmentIntensity = source.environmentIntensity;\n\t\tthis.environmentRotation.copy( source.environmentRotation );\n\n\t\tif ( source.overrideMaterial !== null ) this.overrideMaterial = source.overrideMaterial.clone();\n\n\t\tthis.matrixAutoUpdate = source.matrixAutoUpdate;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tif ( this.fog !== null ) data.object.fog = this.fog.toJSON();\n\n\t\tif ( this.backgroundBlurriness > 0 ) data.object.backgroundBlurriness = this.backgroundBlurriness;\n\t\tif ( this.backgroundIntensity !== 1 ) data.object.backgroundIntensity = this.backgroundIntensity;\n\t\tdata.object.backgroundRotation = this.backgroundRotation.toArray();\n\n\t\tif ( this.environmentIntensity !== 1 ) data.object.environmentIntensity = this.environmentIntensity;\n\t\tdata.object.environmentRotation = this.environmentRotation.toArray();\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * \"Interleaved\" means that multiple attributes, possibly of different types,\n * (e.g., position, normal, uv, color) are packed into a single array buffer.\n *\n * An introduction into interleaved arrays can be found here: [Interleaved array basics]{@link https://blog.tojicode.com/2011/05/interleaved-array-basics.html}\n */\nclass InterleavedBuffer {\n\n\t/**\n\t * Constructs a new interleaved buffer.\n\t *\n\t * @param {TypedArray} array - A typed array with a shared buffer storing attribute data.\n\t * @param {number} stride - The number of typed-array elements per vertex.\n\t */\n\tconstructor( array, stride ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInterleavedBuffer = true;\n\n\t\t/**\n\t\t * A typed array with a shared buffer storing attribute data.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.array = array;\n\n\t\t/**\n\t\t * The number of typed-array elements per vertex.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.stride = stride;\n\n\t\t/**\n\t\t * The total number of elements in the array\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tthis.count = array !== undefined ? array.length / stride : 0;\n\n\t\t/**\n\t\t * Defines the intended usage pattern of the data store for optimization purposes.\n\t\t *\n\t\t * Note: After the initial use of a buffer, its usage cannot be changed. Instead,\n\t\t * instantiate a new one and set the desired usage before the next render.\n\t\t *\n\t\t * @type {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)}\n\t\t * @default StaticDrawUsage\n\t\t */\n\t\tthis.usage = StaticDrawUsage;\n\n\t\t/**\n\t\t * This can be used to only update some components of stored vectors (for example, just the\n\t\t * component related to color). Use the `addUpdateRange()` function to add ranges to this array.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.updateRanges = [];\n\n\t\t/**\n\t\t * A version number, incremented every time the `needsUpdate` is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.version = 0;\n\n\t\t/**\n\t\t * The UUID of the interleaved buffer.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t}\n\n\t/**\n\t * A callback function that is executed after the renderer has transferred the attribute array\n\t * data to the GPU.\n\t */\n\tonUploadCallback() {}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Sets the usage of this interleaved buffer.\n\t *\n\t * @param {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)} value - The usage to set.\n\t * @return {InterleavedBuffer} A reference to this interleaved buffer.\n\t */\n\tsetUsage( value ) {\n\n\t\tthis.usage = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds a range of data in the data array to be updated on the GPU.\n\t *\n\t * @param {number} start - Position at which to start update.\n\t * @param {number} count - The number of components to update.\n\t */\n\taddUpdateRange( start, count ) {\n\n\t\tthis.updateRanges.push( { start, count } );\n\n\t}\n\n\t/**\n\t * Clears the update ranges.\n\t */\n\tclearUpdateRanges() {\n\n\t\tthis.updateRanges.length = 0;\n\n\t}\n\n\t/**\n\t * Copies the values of the given interleaved buffer to this instance.\n\t *\n\t * @param {InterleavedBuffer} source - The interleaved buffer to copy.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.array = new source.array.constructor( source.array );\n\t\tthis.count = source.count;\n\t\tthis.stride = source.stride;\n\t\tthis.usage = source.usage;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies a vector from the given interleaved buffer to this one. The start\n\t * and destination position in the attribute buffers are represented by the\n\t * given indices.\n\t *\n\t * @param {number} index1 - The destination index into this interleaved buffer.\n\t * @param {InterleavedBuffer} interleavedBuffer - The interleaved buffer to copy from.\n\t * @param {number} index2 - The source index into the given interleaved buffer.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tcopyAt( index1, interleavedBuffer, index2 ) {\n\n\t\tindex1 *= this.stride;\n\t\tindex2 *= interleavedBuffer.stride;\n\n\t\tfor ( let i = 0, l = this.stride; i < l; i ++ ) {\n\n\t\t\tthis.array[ index1 + i ] = interleavedBuffer.array[ index2 + i ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given array data in the interleaved buffer.\n\t *\n\t * @param {(TypedArray|Array)} value - The array data to set.\n\t * @param {number} [offset=0] - The offset in this interleaved buffer's array.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tset( value, offset = 0 ) {\n\n\t\tthis.array.set( value, offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new interleaved buffer with copied values from this instance.\n\t *\n\t * @param {Object} [data] - An object with shared array buffers that allows to retain shared structures.\n\t * @return {InterleavedBuffer} A clone of this instance.\n\t */\n\tclone( data ) {\n\n\t\tif ( data.arrayBuffers === undefined ) {\n\n\t\t\tdata.arrayBuffers = {};\n\n\t\t}\n\n\t\tif ( this.array.buffer._uuid === undefined ) {\n\n\t\t\tthis.array.buffer._uuid = generateUUID();\n\n\t\t}\n\n\t\tif ( data.arrayBuffers[ this.array.buffer._uuid ] === undefined ) {\n\n\t\t\tdata.arrayBuffers[ this.array.buffer._uuid ] = this.array.slice( 0 ).buffer;\n\n\t\t}\n\n\t\tconst array = new this.array.constructor( data.arrayBuffers[ this.array.buffer._uuid ] );\n\n\t\tconst ib = new this.constructor( array, this.stride );\n\t\tib.setUsage( this.usage );\n\n\t\treturn ib;\n\n\t}\n\n\t/**\n\t * Sets the given callback function that is executed after the Renderer has transferred\n\t * the array data to the GPU. Can be used to perform clean-up operations after\n\t * the upload when data are not needed anymore on the CPU side.\n\t *\n\t * @param {Function} callback - The `onUpload()` callback.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tonUpload( callback ) {\n\n\t\tthis.onUploadCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Serializes the interleaved buffer into JSON.\n\t *\n\t * @param {Object} [data] - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized interleaved buffer.\n\t */\n\ttoJSON( data ) {\n\n\t\tif ( data.arrayBuffers === undefined ) {\n\n\t\t\tdata.arrayBuffers = {};\n\n\t\t}\n\n\t\t// generate UUID for array buffer if necessary\n\n\t\tif ( this.array.buffer._uuid === undefined ) {\n\n\t\t\tthis.array.buffer._uuid = generateUUID();\n\n\t\t}\n\n\t\tif ( data.arrayBuffers[ this.array.buffer._uuid ] === undefined ) {\n\n\t\t\tdata.arrayBuffers[ this.array.buffer._uuid ] = Array.from( new Uint32Array( this.array.buffer ) );\n\n\t\t}\n\n\t\t//\n\n\t\treturn {\n\t\t\tuuid: this.uuid,\n\t\t\tbuffer: this.array.buffer._uuid,\n\t\t\ttype: this.array.constructor.name,\n\t\t\tstride: this.stride\n\t\t};\n\n\t}\n\n}\n\nconst _vector$7 = /*@__PURE__*/ new Vector3();\n\n/**\n * An alternative version of a buffer attribute with interleaved data. Interleaved\n * attributes share a common interleaved data storage ({@link InterleavedBuffer}) and refer with\n * different offsets into the buffer.\n */\nclass InterleavedBufferAttribute {\n\n\t/**\n\t * Constructs a new interleaved buffer attribute.\n\t *\n\t * @param {InterleavedBuffer} interleavedBuffer - The buffer holding the interleaved data.\n\t * @param {number} itemSize - The item size.\n\t * @param {number} offset - The attribute offset into the buffer.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( interleavedBuffer, itemSize, offset, normalized = false ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInterleavedBufferAttribute = true;\n\n\t\t/**\n\t\t * The name of the buffer attribute.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The buffer holding the interleaved data.\n\t\t *\n\t\t * @type {InterleavedBuffer}\n\t\t */\n\t\tthis.data = interleavedBuffer;\n\n\t\t/**\n\t\t * The item size, see {@link BufferAttribute#itemSize}.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.itemSize = itemSize;\n\n\t\t/**\n\t\t * The attribute offset into the buffer.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.offset = offset;\n\n\t\t/**\n\t\t * Whether the data are normalized or not, see {@link BufferAttribute#normalized}\n\t\t *\n\t\t * @type {InterleavedBuffer}\n\t\t */\n\t\tthis.normalized = normalized;\n\n\t}\n\n\t/**\n\t * The item count of this buffer attribute.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget count() {\n\n\t\treturn this.data.count;\n\n\t}\n\n\t/**\n\t * The array holding the interleaved buffer attribute data.\n\t *\n\t * @type {TypedArray}\n\t */\n\tget array() {\n\n\t\treturn this.data.array;\n\n\t}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tthis.data.needsUpdate = value;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tfor ( let i = 0, l = this.data.count; i < l; i ++ ) {\n\n\t\t\t_vector$7.fromBufferAttribute( this, i );\n\n\t\t\t_vector$7.applyMatrix4( m );\n\n\t\t\tthis.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 3x3 normal matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix3} m - The normal matrix to apply.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tapplyNormalMatrix( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$7.fromBufferAttribute( this, i );\n\n\t\t\t_vector$7.applyNormalMatrix( m );\n\n\t\t\tthis.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3` and with direction vectors.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\ttransformDirection( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$7.fromBufferAttribute( this, i );\n\n\t\t\t_vector$7.transformDirection( m );\n\n\t\t\tthis.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @return {number} The returned value.\n\t */\n\tgetComponent( index, component ) {\n\n\t\tlet value = this.array[ index * this.data.stride + this.offset + component ];\n\n\t\tif ( this.normalized ) value = denormalize( value, this.array );\n\n\t\treturn value;\n\n\t}\n\n\t/**\n\t * Sets the given value to the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @param {number} value - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetComponent( index, component, value ) {\n\n\t\tif ( this.normalized ) value = normalize( value, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + component ] = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetX( index, x ) {\n\n\t\tif ( this.normalized ) x = normalize( x, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset ] = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} y - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetY( index, y ) {\n\n\t\tif ( this.normalized ) y = normalize( y, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} z - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetZ( index, z ) {\n\n\t\tif ( this.normalized ) z = normalize( z, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} w - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetW( index, w ) {\n\n\t\tif ( this.normalized ) w = normalize( w, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The x component.\n\t */\n\tgetX( index ) {\n\n\t\tlet x = this.data.array[ index * this.data.stride + this.offset ];\n\n\t\tif ( this.normalized ) x = denormalize( x, this.array );\n\n\t\treturn x;\n\n\t}\n\n\t/**\n\t * Returns the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The y component.\n\t */\n\tgetY( index ) {\n\n\t\tlet y = this.data.array[ index * this.data.stride + this.offset + 1 ];\n\n\t\tif ( this.normalized ) y = denormalize( y, this.array );\n\n\t\treturn y;\n\n\t}\n\n\t/**\n\t * Returns the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The z component.\n\t */\n\tgetZ( index ) {\n\n\t\tlet z = this.data.array[ index * this.data.stride + this.offset + 2 ];\n\n\t\tif ( this.normalized ) z = denormalize( z, this.array );\n\n\t\treturn z;\n\n\t}\n\n\t/**\n\t * Returns the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The w component.\n\t */\n\tgetW( index ) {\n\n\t\tlet w = this.data.array[ index * this.data.stride + this.offset + 3 ];\n\n\t\tif ( this.normalized ) w = denormalize( w, this.array );\n\n\t\treturn w;\n\n\t}\n\n\t/**\n\t * Sets the x and y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetXY( index, x, y ) {\n\n\t\tindex = index * this.data.stride + this.offset;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\n\t\t}\n\n\t\tthis.data.array[ index + 0 ] = x;\n\t\tthis.data.array[ index + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y and z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetXYZ( index, x, y, z ) {\n\n\t\tindex = index * this.data.stride + this.offset;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\n\t\t}\n\n\t\tthis.data.array[ index + 0 ] = x;\n\t\tthis.data.array[ index + 1 ] = y;\n\t\tthis.data.array[ index + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y, z and w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @param {number} w - The value for the w component to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetXYZW( index, x, y, z, w ) {\n\n\t\tindex = index * this.data.stride + this.offset;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\t\t\tw = normalize( w, this.array );\n\n\t\t}\n\n\t\tthis.data.array[ index + 0 ] = x;\n\t\tthis.data.array[ index + 1 ] = y;\n\t\tthis.data.array[ index + 2 ] = z;\n\t\tthis.data.array[ index + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new buffer attribute with copied values from this instance.\n\t *\n\t * If no parameter is provided, cloning an interleaved buffer attribute will de-interleave buffer data.\n\t *\n\t * @param {Object} [data] - An object with interleaved buffers that allows to retain the interleaved property.\n\t * @return {BufferAttribute|InterleavedBufferAttribute} A clone of this instance.\n\t */\n\tclone( data ) {\n\n\t\tif ( data === undefined ) {\n\n\t\t\tconsole.log( 'THREE.InterleavedBufferAttribute.clone(): Cloning an interleaved buffer attribute will de-interleave buffer data.' );\n\n\t\t\tconst array = [];\n\n\t\t\tfor ( let i = 0; i < this.count; i ++ ) {\n\n\t\t\t\tconst index = i * this.data.stride + this.offset;\n\n\t\t\t\tfor ( let j = 0; j < this.itemSize; j ++ ) {\n\n\t\t\t\t\tarray.push( this.data.array[ index + j ] );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn new BufferAttribute( new this.array.constructor( array ), this.itemSize, this.normalized );\n\n\t\t} else {\n\n\t\t\tif ( data.interleavedBuffers === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers = {};\n\n\t\t\t}\n\n\t\t\tif ( data.interleavedBuffers[ this.data.uuid ] === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers[ this.data.uuid ] = this.data.clone( data );\n\n\t\t\t}\n\n\t\t\treturn new InterleavedBufferAttribute( data.interleavedBuffers[ this.data.uuid ], this.itemSize, this.offset, this.normalized );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the buffer attribute into JSON.\n\t *\n\t * If no parameter is provided, cloning an interleaved buffer attribute will de-interleave buffer data.\n\t *\n\t * @param {Object} [data] - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized buffer attribute.\n\t */\n\ttoJSON( data ) {\n\n\t\tif ( data === undefined ) {\n\n\t\t\tconsole.log( 'THREE.InterleavedBufferAttribute.toJSON(): Serializing an interleaved buffer attribute will de-interleave buffer data.' );\n\n\t\t\tconst array = [];\n\n\t\t\tfor ( let i = 0; i < this.count; i ++ ) {\n\n\t\t\t\tconst index = i * this.data.stride + this.offset;\n\n\t\t\t\tfor ( let j = 0; j < this.itemSize; j ++ ) {\n\n\t\t\t\t\tarray.push( this.data.array[ index + j ] );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// de-interleave data and save it as an ordinary buffer attribute for now\n\n\t\t\treturn {\n\t\t\t\titemSize: this.itemSize,\n\t\t\t\ttype: this.array.constructor.name,\n\t\t\t\tarray: array,\n\t\t\t\tnormalized: this.normalized\n\t\t\t};\n\n\t\t} else {\n\n\t\t\t// save as true interleaved attribute\n\n\t\t\tif ( data.interleavedBuffers === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers = {};\n\n\t\t\t}\n\n\t\t\tif ( data.interleavedBuffers[ this.data.uuid ] === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers[ this.data.uuid ] = this.data.toJSON( data );\n\n\t\t\t}\n\n\t\t\treturn {\n\t\t\t\tisInterleavedBufferAttribute: true,\n\t\t\t\titemSize: this.itemSize,\n\t\t\t\tdata: this.data.uuid,\n\t\t\t\toffset: this.offset,\n\t\t\t\tnormalized: this.normalized\n\t\t\t};\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * A material for rendering instances of {@link Sprite}.\n *\n * ```js\n * const map = new THREE.TextureLoader().load( 'textures/sprite.png' );\n * const material = new THREE.SpriteMaterial( { map: map, color: 0xffffff } );\n *\n * const sprite = new THREE.Sprite( material );\n * sprite.scale.set(200, 200, 1)\n * scene.add( sprite );\n * ```\n *\n * @augments Material\n */\nclass SpriteMaterial extends Material {\n\n\t/**\n\t * Constructs a new sprite material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSpriteMaterial = true;\n\n\t\tthis.type = 'SpriteMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The rotation of the sprite in radians.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.rotation = 0;\n\n\t\t/**\n\t\t * Specifies whether size of the sprite is attenuated by the camera depth (perspective camera only).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.sizeAttenuation = true;\n\n\t\t/**\n\t\t * Overwritten since sprite materials are transparent\n\t\t * by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.transparent = true;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.rotation = source.rotation;\n\n\t\tthis.sizeAttenuation = source.sizeAttenuation;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\nlet _geometry;\n\nconst _intersectPoint = /*@__PURE__*/ new Vector3();\nconst _worldScale = /*@__PURE__*/ new Vector3();\nconst _mvPosition = /*@__PURE__*/ new Vector3();\n\nconst _alignedPosition = /*@__PURE__*/ new Vector2();\nconst _rotatedPosition = /*@__PURE__*/ new Vector2();\nconst _viewWorldMatrix = /*@__PURE__*/ new Matrix4();\n\nconst _vA = /*@__PURE__*/ new Vector3();\nconst _vB = /*@__PURE__*/ new Vector3();\nconst _vC = /*@__PURE__*/ new Vector3();\n\nconst _uvA = /*@__PURE__*/ new Vector2();\nconst _uvB = /*@__PURE__*/ new Vector2();\nconst _uvC = /*@__PURE__*/ new Vector2();\n\n/**\n * A sprite is a plane that always faces towards the camera, generally with a\n * partially transparent texture applied.\n *\n * Sprites do not cast shadows, setting {@link Object3D#castShadow} to `true` will\n * have no effect.\n *\n * ```js\n * const map = new THREE.TextureLoader().load( 'sprite.png' );\n * const material = new THREE.SpriteMaterial( { map: map } );\n *\n * const sprite = new THREE.Sprite( material );\n * scene.add( sprite );\n * ```\n *\n * @augments Object3D\n */\nclass Sprite extends Object3D {\n\n\t/**\n\t * Constructs a new sprite.\n\t *\n\t * @param {(SpriteMaterial|SpriteNodeMaterial)} [material] - The sprite material.\n\t */\n\tconstructor( material = new SpriteMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSprite = true;\n\n\t\tthis.type = 'Sprite';\n\n\t\tif ( _geometry === undefined ) {\n\n\t\t\t_geometry = new BufferGeometry();\n\n\t\t\tconst float32Array = new Float32Array( [\n\t\t\t\t-0.5, -0.5, 0, 0, 0,\n\t\t\t\t0.5, -0.5, 0, 1, 0,\n\t\t\t\t0.5, 0.5, 0, 1, 1,\n\t\t\t\t-0.5, 0.5, 0, 0, 1\n\t\t\t] );\n\n\t\t\tconst interleavedBuffer = new InterleavedBuffer( float32Array, 5 );\n\n\t\t\t_geometry.setIndex( [ 0, 1, 2,\t0, 2, 3 ] );\n\t\t\t_geometry.setAttribute( 'position', new InterleavedBufferAttribute( interleavedBuffer, 3, 0, false ) );\n\t\t\t_geometry.setAttribute( 'uv', new InterleavedBufferAttribute( interleavedBuffer, 2, 3, false ) );\n\n\t\t}\n\n\t\t/**\n\t\t * The sprite geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = _geometry;\n\n\t\t/**\n\t\t * The sprite material.\n\t\t *\n\t\t * @type {(SpriteMaterial|SpriteNodeMaterial)}\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * The sprite's anchor point, and the point around which the sprite rotates.\n\t\t * A value of `(0.5, 0.5)` corresponds to the midpoint of the sprite. A value\n\t\t * of `(0, 0)` corresponds to the lower left corner of the sprite.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (0.5,0.5)\n\t\t */\n\t\tthis.center = new Vector2( 0.5, 0.5 );\n\n\t\t/**\n\t\t * The number of instances of this sprite.\n\t\t * Can only be used with {@link WebGPURenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.count = 1;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this sprite.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tif ( raycaster.camera === null ) {\n\n\t\t\tconsole.error( 'THREE.Sprite: \"Raycaster.camera\" needs to be set in order to raycast against sprites.' );\n\n\t\t}\n\n\t\t_worldScale.setFromMatrixScale( this.matrixWorld );\n\n\t\t_viewWorldMatrix.copy( raycaster.camera.matrixWorld );\n\t\tthis.modelViewMatrix.multiplyMatrices( raycaster.camera.matrixWorldInverse, this.matrixWorld );\n\n\t\t_mvPosition.setFromMatrixPosition( this.modelViewMatrix );\n\n\t\tif ( raycaster.camera.isPerspectiveCamera && this.material.sizeAttenuation === false ) {\n\n\t\t\t_worldScale.multiplyScalar( - _mvPosition.z );\n\n\t\t}\n\n\t\tconst rotation = this.material.rotation;\n\t\tlet sin, cos;\n\n\t\tif ( rotation !== 0 ) {\n\n\t\t\tcos = Math.cos( rotation );\n\t\t\tsin = Math.sin( rotation );\n\n\t\t}\n\n\t\tconst center = this.center;\n\n\t\ttransformVertex( _vA.set( -0.5, -0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\t\ttransformVertex( _vB.set( 0.5, -0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\t\ttransformVertex( _vC.set( 0.5, 0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\n\t\t_uvA.set( 0, 0 );\n\t\t_uvB.set( 1, 0 );\n\t\t_uvC.set( 1, 1 );\n\n\t\t// check first triangle\n\t\tlet intersect = raycaster.ray.intersectTriangle( _vA, _vB, _vC, false, _intersectPoint );\n\n\t\tif ( intersect === null ) {\n\n\t\t\t// check second triangle\n\t\t\ttransformVertex( _vB.set( -0.5, 0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\t\t\t_uvB.set( 0, 1 );\n\n\t\t\tintersect = raycaster.ray.intersectTriangle( _vA, _vC, _vB, false, _intersectPoint );\n\t\t\tif ( intersect === null ) {\n\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst distance = raycaster.ray.origin.distanceTo( _intersectPoint );\n\n\t\tif ( distance < raycaster.near || distance > raycaster.far ) return;\n\n\t\tintersects.push( {\n\n\t\t\tdistance: distance,\n\t\t\tpoint: _intersectPoint.clone(),\n\t\t\tuv: Triangle.getInterpolation( _intersectPoint, _vA, _vB, _vC, _uvA, _uvB, _uvC, new Vector2() ),\n\t\t\tface: null,\n\t\t\tobject: this\n\n\t\t} );\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.center !== undefined ) this.center.copy( source.center );\n\n\t\tthis.material = source.material;\n\n\t\treturn this;\n\n\t}\n\n}\n\nfunction transformVertex( vertexPosition, mvPosition, center, scale, sin, cos ) {\n\n\t// compute position in camera space\n\t_alignedPosition.subVectors( vertexPosition, center ).addScalar( 0.5 ).multiply( scale );\n\n\t// to check if rotation is not zero\n\tif ( sin !== undefined ) {\n\n\t\t_rotatedPosition.x = ( cos * _alignedPosition.x ) - ( sin * _alignedPosition.y );\n\t\t_rotatedPosition.y = ( sin * _alignedPosition.x ) + ( cos * _alignedPosition.y );\n\n\t} else {\n\n\t\t_rotatedPosition.copy( _alignedPosition );\n\n\t}\n\n\n\tvertexPosition.copy( mvPosition );\n\tvertexPosition.x += _rotatedPosition.x;\n\tvertexPosition.y += _rotatedPosition.y;\n\n\t// transform to world space\n\tvertexPosition.applyMatrix4( _viewWorldMatrix );\n\n}\n\nconst _v1$2 = /*@__PURE__*/ new Vector3();\nconst _v2$1 = /*@__PURE__*/ new Vector3();\n\n/**\n * A component for providing a basic Level of Detail (LOD) mechanism.\n *\n * Every LOD level is associated with an object, and rendering can be switched\n * between them at the distances specified. Typically you would create, say,\n * three meshes, one for far away (low detail), one for mid range (medium\n * detail) and one for close up (high detail).\n *\n * ```js\n * const lod = new THREE.LOD();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n *\n * //Create spheres with 3 levels of detail and create new LOD levels for them\n * for( let i = 0; i < 3; i++ ) {\n *\n * \tconst geometry = new THREE.IcosahedronGeometry( 10, 3 - i );\n * \tconst mesh = new THREE.Mesh( geometry, material );\n * \tlod.addLevel( mesh, i * 75 );\n *\n * }\n *\n * scene.add( lod );\n * ```\n *\n * @augments Object3D\n */\nclass LOD extends Object3D {\n\n\t/**\n\t * Constructs a new LOD.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLOD = true;\n\n\t\t/**\n\t\t * The current LOD index.\n\t\t *\n\t\t * @private\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis._currentLevel = 0;\n\n\t\tthis.type = 'LOD';\n\n\t\tObject.defineProperties( this, {\n\t\t\t/**\n\t\t\t * This array holds the LOD levels.\n\t\t\t *\n\t\t\t * @name LOD#levels\n\t\t\t * @type {Array<{object:Object3D,distance:number,hysteresis:number}>}\n\t\t\t */\n\t\t\tlevels: {\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: []\n\t\t\t}\n\t\t} );\n\n\t\t/**\n\t\t * Whether the LOD object is updated automatically by the renderer per frame\n\t\t * or not. If set to `false`, you have to call {@link LOD#update} in the\n\t\t * render loop by yourself.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.autoUpdate = true;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source, false );\n\n\t\tconst levels = source.levels;\n\n\t\tfor ( let i = 0, l = levels.length; i < l; i ++ ) {\n\n\t\t\tconst level = levels[ i ];\n\n\t\t\tthis.addLevel( level.object.clone(), level.distance, level.hysteresis );\n\n\t\t}\n\n\t\tthis.autoUpdate = source.autoUpdate;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds a mesh that will display at a certain distance and greater. Typically\n\t * the further away the distance, the lower the detail on the mesh.\n\t *\n\t * @param {Object3D} object - The 3D object to display at this level.\n\t * @param {number} [distance=0] - The distance at which to display this level of detail.\n\t * @param {number} [hysteresis=0] - Threshold used to avoid flickering at LOD boundaries, as a fraction of distance.\n\t * @return {LOD} A reference to this instance.\n\t */\n\taddLevel( object, distance = 0, hysteresis = 0 ) {\n\n\t\tdistance = Math.abs( distance );\n\n\t\tconst levels = this.levels;\n\n\t\tlet l;\n\n\t\tfor ( l = 0; l < levels.length; l ++ ) {\n\n\t\t\tif ( distance < levels[ l ].distance ) {\n\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t\tlevels.splice( l, 0, { distance: distance, hysteresis: hysteresis, object: object } );\n\n\t\tthis.add( object );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes an existing level, based on the distance from the camera.\n\t * Returns `true` when the level has been removed. Otherwise `false`.\n\t *\n\t * @param {number} distance - Distance of the level to remove.\n\t * @return {boolean} Whether the level has been removed or not.\n\t */\n\tremoveLevel( distance ) {\n\n\t\tconst levels = this.levels;\n\n\t\tfor ( let i = 0; i < levels.length; i ++ ) {\n\n\t\t\tif ( levels[ i ].distance === distance ) {\n\n\t\t\t\tconst removedElements = levels.splice( i, 1 );\n\t\t\t\tthis.remove( removedElements[ 0 ].object );\n\n\t\t\t\treturn true;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false;\n\n\t}\n\n\t/**\n\t * Returns the currently active LOD level index.\n\t *\n\t * @return {number} The current active LOD level index.\n\t */\n\tgetCurrentLevel() {\n\n\t\treturn this._currentLevel;\n\n\t}\n\n\t/**\n\t * Returns a reference to the first 3D object that is greater than\n\t * the given distance.\n\t *\n\t * @param {number} distance - The LOD distance.\n\t * @return {?Object3D} The found 3D object. `null` if no 3D object has been found.\n\t */\n\tgetObjectForDistance( distance ) {\n\n\t\tconst levels = this.levels;\n\n\t\tif ( levels.length > 0 ) {\n\n\t\t\tlet i, l;\n\n\t\t\tfor ( i = 1, l = levels.length; i < l; i ++ ) {\n\n\t\t\t\tlet levelDistance = levels[ i ].distance;\n\n\t\t\t\tif ( levels[ i ].object.visible ) {\n\n\t\t\t\t\tlevelDistance -= levelDistance * levels[ i ].hysteresis;\n\n\t\t\t\t}\n\n\t\t\t\tif ( distance < levelDistance ) {\n\n\t\t\t\t\tbreak;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn levels[ i - 1 ].object;\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this LOD.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst levels = this.levels;\n\n\t\tif ( levels.length > 0 ) {\n\n\t\t\t_v1$2.setFromMatrixPosition( this.matrixWorld );\n\n\t\t\tconst distance = raycaster.ray.origin.distanceTo( _v1$2 );\n\n\t\t\tthis.getObjectForDistance( distance ).raycast( raycaster, intersects );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Updates the LOD by computing which LOD level should be visible according\n\t * to the current distance of the given camera.\n\t *\n\t * @param {Camera} camera - The camera the scene is rendered with.\n\t */\n\tupdate( camera ) {\n\n\t\tconst levels = this.levels;\n\n\t\tif ( levels.length > 1 ) {\n\n\t\t\t_v1$2.setFromMatrixPosition( camera.matrixWorld );\n\t\t\t_v2$1.setFromMatrixPosition( this.matrixWorld );\n\n\t\t\tconst distance = _v1$2.distanceTo( _v2$1 ) / camera.zoom;\n\n\t\t\tlevels[ 0 ].object.visible = true;\n\n\t\t\tlet i, l;\n\n\t\t\tfor ( i = 1, l = levels.length; i < l; i ++ ) {\n\n\t\t\t\tlet levelDistance = levels[ i ].distance;\n\n\t\t\t\tif ( levels[ i ].object.visible ) {\n\n\t\t\t\t\tlevelDistance -= levelDistance * levels[ i ].hysteresis;\n\n\t\t\t\t}\n\n\t\t\t\tif ( distance >= levelDistance ) {\n\n\t\t\t\t\tlevels[ i - 1 ].object.visible = false;\n\t\t\t\t\tlevels[ i ].object.visible = true;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tbreak;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis._currentLevel = i - 1;\n\n\t\t\tfor ( ; i < l; i ++ ) {\n\n\t\t\t\tlevels[ i ].object.visible = false;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tif ( this.autoUpdate === false ) data.object.autoUpdate = false;\n\n\t\tdata.object.levels = [];\n\n\t\tconst levels = this.levels;\n\n\t\tfor ( let i = 0, l = levels.length; i < l; i ++ ) {\n\n\t\t\tconst level = levels[ i ];\n\n\t\t\tdata.object.levels.push( {\n\t\t\t\tobject: level.object.uuid,\n\t\t\t\tdistance: level.distance,\n\t\t\t\thysteresis: level.hysteresis\n\t\t\t} );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n}\n\nconst _basePosition = /*@__PURE__*/ new Vector3();\n\nconst _skinIndex = /*@__PURE__*/ new Vector4();\nconst _skinWeight = /*@__PURE__*/ new Vector4();\n\nconst _vector3 = /*@__PURE__*/ new Vector3();\nconst _matrix4 = /*@__PURE__*/ new Matrix4();\nconst _vertex = /*@__PURE__*/ new Vector3();\n\nconst _sphere$5 = /*@__PURE__*/ new Sphere();\nconst _inverseMatrix$2 = /*@__PURE__*/ new Matrix4();\nconst _ray$2 = /*@__PURE__*/ new Ray();\n\n/**\n * A mesh that has a {@link Skeleton} that can then be used to animate the\n * vertices of the geometry with skinning/skeleton animation.\n *\n * Next to a valid skeleton, the skinned mesh requires skin indices and weights\n * as buffer attributes in its geometry. These attribute define which bones affect a single\n * vertex to a certain extend.\n *\n * Typically skinned meshes are not created manually but loaders like {@link GLTFLoader}\n * or {@link FBXLoader } import respective models.\n *\n * @augments Mesh\n */\nclass SkinnedMesh extends Mesh {\n\n\t/**\n\t * Constructs a new skinned mesh.\n\t *\n\t * @param {BufferGeometry} [geometry] - The mesh geometry.\n\t * @param {Material|Array} [material] - The mesh material.\n\t */\n\tconstructor( geometry, material ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSkinnedMesh = true;\n\n\t\tthis.type = 'SkinnedMesh';\n\n\t\t/**\n\t\t * `AttachedBindMode` means the skinned mesh shares the same world space as the skeleton.\n\t\t * This is not true when using `DetachedBindMode` which is useful when sharing a skeleton\n\t\t * across multiple skinned meshes.\n\t\t *\n\t\t * @type {(AttachedBindMode|DetachedBindMode)}\n\t\t * @default AttachedBindMode\n\t\t */\n\t\tthis.bindMode = AttachedBindMode;\n\n\t\t/**\n\t\t * The base matrix that is used for the bound bone transforms.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.bindMatrix = new Matrix4();\n\n\t\t/**\n\t\t * The base matrix that is used for resetting the bound bone transforms.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.bindMatrixInverse = new Matrix4();\n\n\t\t/**\n\t\t * The bounding box of the skinned mesh. Can be computed via {@link SkinnedMesh#computeBoundingBox}.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * The bounding sphere of the skinned mesh. Can be computed via {@link SkinnedMesh#computeBoundingSphere}.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t}\n\n\t/**\n\t * Computes the bounding box of the skinned mesh, and updates {@link SkinnedMesh#boundingBox}.\n\t * The bounding box is not automatically computed by the engine; this method must be called by your app.\n\t * If the skinned mesh is animated, the bounding box should be recomputed per frame in order to reflect\n\t * the current animation state.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tthis.boundingBox.makeEmpty();\n\n\t\tconst positionAttribute = geometry.getAttribute( 'position' );\n\n\t\tfor ( let i = 0; i < positionAttribute.count; i ++ ) {\n\n\t\t\tthis.getVertexPosition( i, _vertex );\n\t\t\tthis.boundingBox.expandByPoint( _vertex );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere of the skinned mesh, and updates {@link SkinnedMesh#boundingSphere}.\n\t * The bounding sphere is automatically computed by the engine once when it is needed, e.g., for ray casting\n\t * and view frustum culling. If the skinned mesh is animated, the bounding sphere should be recomputed\n\t * per frame in order to reflect the current animation state.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tthis.boundingSphere.makeEmpty();\n\n\t\tconst positionAttribute = geometry.getAttribute( 'position' );\n\n\t\tfor ( let i = 0; i < positionAttribute.count; i ++ ) {\n\n\t\t\tthis.getVertexPosition( i, _vertex );\n\t\t\tthis.boundingSphere.expandByPoint( _vertex );\n\n\t\t}\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.bindMode = source.bindMode;\n\t\tthis.bindMatrix.copy( source.bindMatrix );\n\t\tthis.bindMatrixInverse.copy( source.bindMatrixInverse );\n\n\t\tthis.skeleton = source.skeleton;\n\n\t\tif ( source.boundingBox !== null ) this.boundingBox = source.boundingBox.clone();\n\t\tif ( source.boundingSphere !== null ) this.boundingSphere = source.boundingSphere.clone();\n\n\t\treturn this;\n\n\t}\n\n\traycast( raycaster, intersects ) {\n\n\t\tconst material = this.material;\n\t\tconst matrixWorld = this.matrixWorld;\n\n\t\tif ( material === undefined ) return;\n\n\t\t// test with bounding sphere in world space\n\n\t\tif ( this.boundingSphere === null ) this.computeBoundingSphere();\n\n\t\t_sphere$5.copy( this.boundingSphere );\n\t\t_sphere$5.applyMatrix4( matrixWorld );\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere$5 ) === false ) return;\n\n\t\t// convert ray to local space of skinned mesh\n\n\t\t_inverseMatrix$2.copy( matrixWorld ).invert();\n\t\t_ray$2.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$2 );\n\n\t\t// test with bounding box in local space\n\n\t\tif ( this.boundingBox !== null ) {\n\n\t\t\tif ( _ray$2.intersectsBox( this.boundingBox ) === false ) return;\n\n\t\t}\n\n\t\t// test for intersections with geometry\n\n\t\tthis._computeIntersections( raycaster, intersects, _ray$2 );\n\n\t}\n\n\tgetVertexPosition( index, target ) {\n\n\t\tsuper.getVertexPosition( index, target );\n\n\t\tthis.applyBoneTransform( index, target );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Binds the given skeleton to the skinned mesh.\n\t *\n\t * @param {Skeleton} skeleton - The skeleton to bind.\n\t * @param {Matrix4} [bindMatrix] - The bind matrix. If no bind matrix is provided,\n\t * the skinned mesh's world matrix will be used instead.\n\t */\n\tbind( skeleton, bindMatrix ) {\n\n\t\tthis.skeleton = skeleton;\n\n\t\tif ( bindMatrix === undefined ) {\n\n\t\t\tthis.updateMatrixWorld( true );\n\n\t\t\tthis.skeleton.calculateInverses();\n\n\t\t\tbindMatrix = this.matrixWorld;\n\n\t\t}\n\n\t\tthis.bindMatrix.copy( bindMatrix );\n\t\tthis.bindMatrixInverse.copy( bindMatrix ).invert();\n\n\t}\n\n\t/**\n\t * This method sets the skinned mesh in the rest pose).\n\t */\n\tpose() {\n\n\t\tthis.skeleton.pose();\n\n\t}\n\n\t/**\n\t * Normalizes the skin weights which are defined as a buffer attribute\n\t * in the skinned mesh's geometry.\n\t */\n\tnormalizeSkinWeights() {\n\n\t\tconst vector = new Vector4();\n\n\t\tconst skinWeight = this.geometry.attributes.skinWeight;\n\n\t\tfor ( let i = 0, l = skinWeight.count; i < l; i ++ ) {\n\n\t\t\tvector.fromBufferAttribute( skinWeight, i );\n\n\t\t\tconst scale = 1.0 / vector.manhattanLength();\n\n\t\t\tif ( scale !== Infinity ) {\n\n\t\t\t\tvector.multiplyScalar( scale );\n\n\t\t\t} else {\n\n\t\t\t\tvector.set( 1, 0, 0, 0 ); // do something reasonable\n\n\t\t\t}\n\n\t\t\tskinWeight.setXYZW( i, vector.x, vector.y, vector.z, vector.w );\n\n\t\t}\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tif ( this.bindMode === AttachedBindMode ) {\n\n\t\t\tthis.bindMatrixInverse.copy( this.matrixWorld ).invert();\n\n\t\t} else if ( this.bindMode === DetachedBindMode ) {\n\n\t\t\tthis.bindMatrixInverse.copy( this.bindMatrix ).invert();\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.SkinnedMesh: Unrecognized bindMode: ' + this.bindMode );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Applies the bone transform associated with the given index to the given\n\t * vertex position. Returns the updated vector.\n\t *\n\t * @param {number} index - The vertex index.\n\t * @param {Vector3} target - The target object that is used to store the method's result.\n\t * the skinned mesh's world matrix will be used instead.\n\t * @return {Vector3} The updated vertex position.\n\t */\n\tapplyBoneTransform( index, target ) {\n\n\t\tconst skeleton = this.skeleton;\n\t\tconst geometry = this.geometry;\n\n\t\t_skinIndex.fromBufferAttribute( geometry.attributes.skinIndex, index );\n\t\t_skinWeight.fromBufferAttribute( geometry.attributes.skinWeight, index );\n\n\t\t_basePosition.copy( target ).applyMatrix4( this.bindMatrix );\n\n\t\ttarget.set( 0, 0, 0 );\n\n\t\tfor ( let i = 0; i < 4; i ++ ) {\n\n\t\t\tconst weight = _skinWeight.getComponent( i );\n\n\t\t\tif ( weight !== 0 ) {\n\n\t\t\t\tconst boneIndex = _skinIndex.getComponent( i );\n\n\t\t\t\t_matrix4.multiplyMatrices( skeleton.bones[ boneIndex ].matrixWorld, skeleton.boneInverses[ boneIndex ] );\n\n\t\t\t\ttarget.addScaledVector( _vector3.copy( _basePosition ).applyMatrix4( _matrix4 ), weight );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn target.applyMatrix4( this.bindMatrixInverse );\n\n\t}\n\n}\n\n/**\n * A bone which is part of a {@link Skeleton}. The skeleton in turn is used by\n * the {@link SkinnedMesh}.\n *\n * ```js\n * const root = new THREE.Bone();\n * const child = new THREE.Bone();\n *\n * root.add( child );\n * child.position.y = 5;\n * ```\n *\n * @augments Object3D\n */\nclass Bone extends Object3D {\n\n\t/**\n\t * Constructs a new bone.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBone = true;\n\n\t\tthis.type = 'Bone';\n\n\t}\n\n}\n\n/**\n * Creates a texture directly from raw buffer data.\n *\n * The interpretation of the data depends on type and format: If the type is\n * `UnsignedByteType`, a `Uint8Array` will be useful for addressing the\n * texel data. If the format is `RGBAFormat`, data needs four values for\n * one texel; Red, Green, Blue and Alpha (typically the opacity).\n *\n * @augments Texture\n */\nclass DataTexture extends Texture {\n\n\t/**\n\t * Constructs a new data texture.\n\t *\n\t * @param {?TypedArray} [data=null] - The buffer data.\n\t * @param {number} [width=1] - The width of the texture.\n\t * @param {number} [height=1] - The height of the texture.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=NearestFilter] - The mag filter value.\n\t * @param {number} [minFilter=NearestFilter] - The min filter value.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space.\n\t */\n\tconstructor( data = null, width = 1, height = 1, format, type, mapping, wrapS, wrapT, magFilter = NearestFilter, minFilter = NearestFilter, anisotropy, colorSpace ) {\n\n\t\tsuper( null, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDataTexture = true;\n\n\t\t/**\n\t\t * The image definition of a data texture.\n\t\t *\n\t\t * @type {{data:TypedArray,width:number,height:number}}\n\t\t */\n\t\tthis.image = { data: data, width: width, height: height };\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t *\n\t\t * Overwritten and set to `1` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default 1\n\t\t */\n\t\tthis.unpackAlignment = 1;\n\n\t}\n\n}\n\nconst _offsetMatrix = /*@__PURE__*/ new Matrix4();\nconst _identityMatrix = /*@__PURE__*/ new Matrix4();\n\n/**\n * Class for representing the armatures in `three.js`. The skeleton\n * is defined by a hierarchy of bones.\n *\n * ```js\n * const bones = [];\n *\n * const shoulder = new THREE.Bone();\n * const elbow = new THREE.Bone();\n * const hand = new THREE.Bone();\n *\n * shoulder.add( elbow );\n * elbow.add( hand );\n *\n * bones.push( shoulder , elbow, hand);\n *\n * shoulder.position.y = -5;\n * elbow.position.y = 0;\n * hand.position.y = 5;\n *\n * const armSkeleton = new THREE.Skeleton( bones );\n * ```\n */\nclass Skeleton {\n\n\t/**\n\t * Constructs a new skeleton.\n\t *\n\t * @param {Array} [bones] - An array of bones.\n\t * @param {Array} [boneInverses] - An array of bone inverse matrices.\n\t * If not provided, these matrices will be computed automatically via {@link Skeleton#calculateInverses}.\n\t */\n\tconstructor( bones = [], boneInverses = [] ) {\n\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * An array of bones defining the skeleton.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.bones = bones.slice( 0 );\n\n\t\t/**\n\t\t * An array of bone inverse matrices.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.boneInverses = boneInverses;\n\n\t\t/**\n\t\t * An array buffer holding the bone data.\n\t\t * Input data for {@link Skeleton#boneTexture}.\n\t\t *\n\t\t * @type {?Float32Array}\n\t\t * @default null\n\t\t */\n\t\tthis.boneMatrices = null;\n\n\t\t/**\n\t\t * A texture holding the bone data for use\n\t\t * in the vertex shader.\n\t\t *\n\t\t * @type {?DataTexture}\n\t\t * @default null\n\t\t */\n\t\tthis.boneTexture = null;\n\n\t\tthis.init();\n\n\t}\n\n\t/**\n\t * Initializes the skeleton. This method gets automatically called by the constructor\n\t * but depending on how the skeleton is created it might be necessary to call this method\n\t * manually.\n\t */\n\tinit() {\n\n\t\tconst bones = this.bones;\n\t\tconst boneInverses = this.boneInverses;\n\n\t\tthis.boneMatrices = new Float32Array( bones.length * 16 );\n\n\t\t// calculate inverse bone matrices if necessary\n\n\t\tif ( boneInverses.length === 0 ) {\n\n\t\t\tthis.calculateInverses();\n\n\t\t} else {\n\n\t\t\t// handle special case\n\n\t\t\tif ( bones.length !== boneInverses.length ) {\n\n\t\t\t\tconsole.warn( 'THREE.Skeleton: Number of inverse bone matrices does not match amount of bones.' );\n\n\t\t\t\tthis.boneInverses = [];\n\n\t\t\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\t\t\tthis.boneInverses.push( new Matrix4() );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bone inverse matrices. This method resets {@link Skeleton#boneInverses}\n\t * and fills it with new matrices.\n\t */\n\tcalculateInverses() {\n\n\t\tthis.boneInverses.length = 0;\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst inverse = new Matrix4();\n\n\t\t\tif ( this.bones[ i ] ) {\n\n\t\t\t\tinverse.copy( this.bones[ i ].matrixWorld ).invert();\n\n\t\t\t}\n\n\t\t\tthis.boneInverses.push( inverse );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Resets the skeleton to the base pose.\n\t */\n\tpose() {\n\n\t\t// recover the bind-time world matrices\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst bone = this.bones[ i ];\n\n\t\t\tif ( bone ) {\n\n\t\t\t\tbone.matrixWorld.copy( this.boneInverses[ i ] ).invert();\n\n\t\t\t}\n\n\t\t}\n\n\t\t// compute the local matrices, positions, rotations and scales\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst bone = this.bones[ i ];\n\n\t\t\tif ( bone ) {\n\n\t\t\t\tif ( bone.parent && bone.parent.isBone ) {\n\n\t\t\t\t\tbone.matrix.copy( bone.parent.matrixWorld ).invert();\n\t\t\t\t\tbone.matrix.multiply( bone.matrixWorld );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tbone.matrix.copy( bone.matrixWorld );\n\n\t\t\t\t}\n\n\t\t\t\tbone.matrix.decompose( bone.position, bone.quaternion, bone.scale );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Resets the skeleton to the base pose.\n\t */\n\tupdate() {\n\n\t\tconst bones = this.bones;\n\t\tconst boneInverses = this.boneInverses;\n\t\tconst boneMatrices = this.boneMatrices;\n\t\tconst boneTexture = this.boneTexture;\n\n\t\t// flatten bone matrices to array\n\n\t\tfor ( let i = 0, il = bones.length; i < il; i ++ ) {\n\n\t\t\t// compute the offset between the current and the original transform\n\n\t\t\tconst matrix = bones[ i ] ? bones[ i ].matrixWorld : _identityMatrix;\n\n\t\t\t_offsetMatrix.multiplyMatrices( matrix, boneInverses[ i ] );\n\t\t\t_offsetMatrix.toArray( boneMatrices, i * 16 );\n\n\t\t}\n\n\t\tif ( boneTexture !== null ) {\n\n\t\t\tboneTexture.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new skeleton with copied values from this instance.\n\t *\n\t * @return {Skeleton} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Skeleton( this.bones, this.boneInverses );\n\n\t}\n\n\t/**\n\t * Computes a data texture for passing bone data to the vertex shader.\n\t *\n\t * @return {Skeleton} A reference of this instance.\n\t */\n\tcomputeBoneTexture() {\n\n\t\t// layout (1 matrix = 4 pixels)\n\t\t// RGBA RGBA RGBA RGBA (=> column1, column2, column3, column4)\n\t\t// with 8x8 pixel texture max 16 bones * 4 pixels = (8 * 8)\n\t\t// 16x16 pixel texture max 64 bones * 4 pixels = (16 * 16)\n\t\t// 32x32 pixel texture max 256 bones * 4 pixels = (32 * 32)\n\t\t// 64x64 pixel texture max 1024 bones * 4 pixels = (64 * 64)\n\n\t\tlet size = Math.sqrt( this.bones.length * 4 ); // 4 pixels needed for 1 matrix\n\t\tsize = Math.ceil( size / 4 ) * 4;\n\t\tsize = Math.max( size, 4 );\n\n\t\tconst boneMatrices = new Float32Array( size * size * 4 ); // 4 floats per RGBA pixel\n\t\tboneMatrices.set( this.boneMatrices ); // copy current values\n\n\t\tconst boneTexture = new DataTexture( boneMatrices, size, size, RGBAFormat, FloatType );\n\t\tboneTexture.needsUpdate = true;\n\n\t\tthis.boneMatrices = boneMatrices;\n\t\tthis.boneTexture = boneTexture;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Searches through the skeleton's bone array and returns the first with a\n\t * matching name.\n\t *\n\t * @param {string} name - The name of the bone.\n\t * @return {Bone|undefined} The found bone. `undefined` if no bone has been found.\n\t */\n\tgetBoneByName( name ) {\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst bone = this.bones[ i ];\n\n\t\t\tif ( bone.name === name ) {\n\n\t\t\t\treturn bone;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn undefined;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose( ) {\n\n\t\tif ( this.boneTexture !== null ) {\n\n\t\t\tthis.boneTexture.dispose();\n\n\t\t\tthis.boneTexture = null;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Setups the skeleton by the given JSON and bones.\n\t *\n\t * @param {Object} json - The skeleton as serialized JSON.\n\t * @param {Object} bones - An array of bones.\n\t * @return {Skeleton} A reference of this instance.\n\t */\n\tfromJSON( json, bones ) {\n\n\t\tthis.uuid = json.uuid;\n\n\t\tfor ( let i = 0, l = json.bones.length; i < l; i ++ ) {\n\n\t\t\tconst uuid = json.bones[ i ];\n\t\t\tlet bone = bones[ uuid ];\n\n\t\t\tif ( bone === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.Skeleton: No bone found with UUID:', uuid );\n\t\t\t\tbone = new Bone();\n\n\t\t\t}\n\n\t\t\tthis.bones.push( bone );\n\t\t\tthis.boneInverses.push( new Matrix4().fromArray( json.boneInverses[ i ] ) );\n\n\t\t}\n\n\t\tthis.init();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Serializes the skeleton into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized skeleton.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Skeleton',\n\t\t\t\tgenerator: 'Skeleton.toJSON'\n\t\t\t},\n\t\t\tbones: [],\n\t\t\tboneInverses: []\n\t\t};\n\n\t\tdata.uuid = this.uuid;\n\n\t\tconst bones = this.bones;\n\t\tconst boneInverses = this.boneInverses;\n\n\t\tfor ( let i = 0, l = bones.length; i < l; i ++ ) {\n\n\t\t\tconst bone = bones[ i ];\n\t\t\tdata.bones.push( bone.uuid );\n\n\t\t\tconst boneInverse = boneInverses[ i ];\n\t\t\tdata.boneInverses.push( boneInverse.toArray() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * An instanced version of a buffer attribute.\n *\n * @augments BufferAttribute\n */\nclass InstancedBufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new instanced buffer attribute.\n\t *\n\t * @param {TypedArray} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t * @param {number} [meshPerAttribute=1] - How often a value of this buffer attribute should be repeated.\n\t */\n\tconstructor( array, itemSize, normalized, meshPerAttribute = 1 ) {\n\n\t\tsuper( array, itemSize, normalized );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedBufferAttribute = true;\n\n\t\t/**\n\t\t * Defines how often a value of this buffer attribute should be repeated. A\n\t\t * value of one means that each value of the instanced attribute is used for\n\t\t * a single instance. A value of two means that each value is used for two\n\t\t * consecutive instances (and so on).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.meshPerAttribute = meshPerAttribute;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.meshPerAttribute = source.meshPerAttribute;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.meshPerAttribute = this.meshPerAttribute;\n\n\t\tdata.isInstancedBufferAttribute = true;\n\n\t\treturn data;\n\n\t}\n\n}\n\nconst _instanceLocalMatrix = /*@__PURE__*/ new Matrix4();\nconst _instanceWorldMatrix = /*@__PURE__*/ new Matrix4();\n\nconst _instanceIntersects = [];\n\nconst _box3 = /*@__PURE__*/ new Box3();\nconst _identity = /*@__PURE__*/ new Matrix4();\nconst _mesh$1 = /*@__PURE__*/ new Mesh();\nconst _sphere$4 = /*@__PURE__*/ new Sphere();\n\n/**\n * A special version of a mesh with instanced rendering support. Use\n * this class if you have to render a large number of objects with the same\n * geometry and material(s) but with different world transformations. The usage\n * of 'InstancedMesh' will help you to reduce the number of draw calls and thus\n * improve the overall rendering performance in your application.\n *\n * @augments Mesh\n */\nclass InstancedMesh extends Mesh {\n\n\t/**\n\t * Constructs a new instanced mesh.\n\t *\n\t * @param {BufferGeometry} [geometry] - The mesh geometry.\n\t * @param {Material|Array} [material] - The mesh material.\n\t * @param {number} count - The number of instances.\n\t */\n\tconstructor( geometry, material, count ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedMesh = true;\n\n\t\t/**\n\t\t * Represents the local transformation of all instances. You have to set its\n\t\t * {@link BufferAttribute#needsUpdate} flag to true if you modify instanced data\n\t\t * via {@link InstancedMesh#setMatrixAt}.\n\t\t *\n\t\t * @type {InstancedBufferAttribute}\n\t\t */\n\t\tthis.instanceMatrix = new InstancedBufferAttribute( new Float32Array( count * 16 ), 16 );\n\n\t\t/**\n\t\t * Represents the color of all instances. You have to set its\n\t\t * {@link BufferAttribute#needsUpdate} flag to true if you modify instanced data\n\t\t * via {@link InstancedMesh#setColorAt}.\n\t\t *\n\t\t * @type {?InstancedBufferAttribute}\n\t\t * @default null\n\t\t */\n\t\tthis.instanceColor = null;\n\n\t\t/**\n\t\t * Represents the morph target weights of all instances. You have to set its\n\t\t * {@link Texture#needsUpdate} flag to true if you modify instanced data\n\t\t * via {@link InstancedMesh#setMorphAt}.\n\t\t *\n\t\t * @type {?DataTexture}\n\t\t * @default null\n\t\t */\n\t\tthis.morphTexture = null;\n\n\t\t/**\n\t\t * The number of instances.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.count = count;\n\n\t\t/**\n\t\t * The bounding box of the instanced mesh. Can be computed via {@link InstancedMesh#computeBoundingBox}.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * The bounding sphere of the instanced mesh. Can be computed via {@link InstancedMesh#computeBoundingSphere}.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.setMatrixAt( i, _identity );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding box of the instanced mesh, and updates {@link InstancedMesh#boundingBox}.\n\t * The bounding box is not automatically computed by the engine; this method must be called by your app.\n\t * You may need to recompute the bounding box if an instance is transformed via {@link InstancedMesh#setMatrixAt}.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tconst geometry = this.geometry;\n\t\tconst count = this.count;\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tif ( geometry.boundingBox === null ) {\n\n\t\t\tgeometry.computeBoundingBox();\n\n\t\t}\n\n\t\tthis.boundingBox.makeEmpty();\n\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.getMatrixAt( i, _instanceLocalMatrix );\n\n\t\t\t_box3.copy( geometry.boundingBox ).applyMatrix4( _instanceLocalMatrix );\n\n\t\t\tthis.boundingBox.union( _box3 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere of the instanced mesh, and updates {@link InstancedMesh#boundingSphere}\n\t * The engine automatically computes the bounding sphere when it is needed, e.g., for ray casting or view frustum culling.\n\t * You may need to recompute the bounding sphere if an instance is transformed via {@link InstancedMesh#setMatrixAt}.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tconst geometry = this.geometry;\n\t\tconst count = this.count;\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tif ( geometry.boundingSphere === null ) {\n\n\t\t\tgeometry.computeBoundingSphere();\n\n\t\t}\n\n\t\tthis.boundingSphere.makeEmpty();\n\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.getMatrixAt( i, _instanceLocalMatrix );\n\n\t\t\t_sphere$4.copy( geometry.boundingSphere ).applyMatrix4( _instanceLocalMatrix );\n\n\t\t\tthis.boundingSphere.union( _sphere$4 );\n\n\t\t}\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.instanceMatrix.copy( source.instanceMatrix );\n\n\t\tif ( source.morphTexture !== null ) this.morphTexture = source.morphTexture.clone();\n\t\tif ( source.instanceColor !== null ) this.instanceColor = source.instanceColor.clone();\n\n\t\tthis.count = source.count;\n\n\t\tif ( source.boundingBox !== null ) this.boundingBox = source.boundingBox.clone();\n\t\tif ( source.boundingSphere !== null ) this.boundingSphere = source.boundingSphere.clone();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Gets the color of the defined instance.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Color} color - The target object that is used to store the method's result.\n\t */\n\tgetColorAt( index, color ) {\n\n\t\tcolor.fromArray( this.instanceColor.array, index * 3 );\n\n\t}\n\n\t/**\n\t * Gets the local transformation matrix of the defined instance.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Matrix4} matrix - The target object that is used to store the method's result.\n\t */\n\tgetMatrixAt( index, matrix ) {\n\n\t\tmatrix.fromArray( this.instanceMatrix.array, index * 16 );\n\n\t}\n\n\t/**\n\t * Gets the morph target weights of the defined instance.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Mesh} object - The target object that is used to store the method's result.\n\t */\n\tgetMorphAt( index, object ) {\n\n\t\tconst objectInfluences = object.morphTargetInfluences;\n\n\t\tconst array = this.morphTexture.source.data.data;\n\n\t\tconst len = objectInfluences.length + 1; // All influences + the baseInfluenceSum\n\n\t\tconst dataIndex = index * len + 1; // Skip the baseInfluenceSum at the beginning\n\n\t\tfor ( let i = 0; i < objectInfluences.length; i ++ ) {\n\n\t\t\tobjectInfluences[ i ] = array[ dataIndex + i ];\n\n\t\t}\n\n\t}\n\n\traycast( raycaster, intersects ) {\n\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst raycastTimes = this.count;\n\n\t\t_mesh$1.geometry = this.geometry;\n\t\t_mesh$1.material = this.material;\n\n\t\tif ( _mesh$1.material === undefined ) return;\n\n\t\t// test with bounding sphere first\n\n\t\tif ( this.boundingSphere === null ) this.computeBoundingSphere();\n\n\t\t_sphere$4.copy( this.boundingSphere );\n\t\t_sphere$4.applyMatrix4( matrixWorld );\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere$4 ) === false ) return;\n\n\t\t// now test each instance\n\n\t\tfor ( let instanceId = 0; instanceId < raycastTimes; instanceId ++ ) {\n\n\t\t\t// calculate the world matrix for each instance\n\n\t\t\tthis.getMatrixAt( instanceId, _instanceLocalMatrix );\n\n\t\t\t_instanceWorldMatrix.multiplyMatrices( matrixWorld, _instanceLocalMatrix );\n\n\t\t\t// the mesh represents this single instance\n\n\t\t\t_mesh$1.matrixWorld = _instanceWorldMatrix;\n\n\t\t\t_mesh$1.raycast( raycaster, _instanceIntersects );\n\n\t\t\t// process the result of raycast\n\n\t\t\tfor ( let i = 0, l = _instanceIntersects.length; i < l; i ++ ) {\n\n\t\t\t\tconst intersect = _instanceIntersects[ i ];\n\t\t\t\tintersect.instanceId = instanceId;\n\t\t\t\tintersect.object = this;\n\t\t\t\tintersects.push( intersect );\n\n\t\t\t}\n\n\t\t\t_instanceIntersects.length = 0;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the given color to the defined instance. Make sure you set the `needsUpdate` flag of\n\t * {@link InstancedMesh#instanceColor} to `true` after updating all the colors.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Color} color - The instance color.\n\t */\n\tsetColorAt( index, color ) {\n\n\t\tif ( this.instanceColor === null ) {\n\n\t\t\tthis.instanceColor = new InstancedBufferAttribute( new Float32Array( this.instanceMatrix.count * 3 ).fill( 1 ), 3 );\n\n\t\t}\n\n\t\tcolor.toArray( this.instanceColor.array, index * 3 );\n\n\t}\n\n\t/**\n\t * Sets the given local transformation matrix to the defined instance. Make sure you set the `needsUpdate` flag of\n\t * {@link InstancedMesh#instanceMatrix} to `true` after updating all the colors.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Matrix4} matrix - The local transformation.\n\t */\n\tsetMatrixAt( index, matrix ) {\n\n\t\tmatrix.toArray( this.instanceMatrix.array, index * 16 );\n\n\t}\n\n\t/**\n\t * Sets the morph target weights to the defined instance. Make sure you set the `needsUpdate` flag of\n\t * {@link InstancedMesh#morphTexture} to `true` after updating all the influences.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Mesh} object - A mesh which `morphTargetInfluences` property containing the morph target weights\n\t * of a single instance.\n\t */\n\tsetMorphAt( index, object ) {\n\n\t\tconst objectInfluences = object.morphTargetInfluences;\n\n\t\tconst len = objectInfluences.length + 1; // morphBaseInfluence + all influences\n\n\t\tif ( this.morphTexture === null ) {\n\n\t\t\tthis.morphTexture = new DataTexture( new Float32Array( len * this.count ), len, this.count, RedFormat, FloatType );\n\n\t\t}\n\n\t\tconst array = this.morphTexture.source.data.data;\n\n\t\tlet morphInfluencesSum = 0;\n\n\t\tfor ( let i = 0; i < objectInfluences.length; i ++ ) {\n\n\t\t\tmorphInfluencesSum += objectInfluences[ i ];\n\n\t\t}\n\n\t\tconst morphBaseInfluence = this.geometry.morphTargetsRelative ? 1 : 1 - morphInfluencesSum;\n\n\t\tconst dataIndex = len * index;\n\n\t\tarray[ dataIndex ] = morphBaseInfluence;\n\n\t\tarray.set( objectInfluences, dataIndex + 1 );\n\n\t}\n\n\tupdateMorphTargets() {\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t\tif ( this.morphTexture !== null ) {\n\n\t\t\tthis.morphTexture.dispose();\n\t\t\tthis.morphTexture = null;\n\n\t\t}\n\n\t}\n\n}\n\nconst _vector1 = /*@__PURE__*/ new Vector3();\nconst _vector2 = /*@__PURE__*/ new Vector3();\nconst _normalMatrix = /*@__PURE__*/ new Matrix3();\n\n/**\n * A two dimensional surface that extends infinitely in 3D space, represented\n * in [Hessian normal form]{@link http://mathworld.wolfram.com/HessianNormalForm.html}\n * by a unit length normal vector and a constant.\n */\nclass Plane {\n\n\t/**\n\t * Constructs a new plane.\n\t *\n\t * @param {Vector3} [normal=(1,0,0)] - A unit length vector defining the normal of the plane.\n\t * @param {number} [constant=0] - The signed distance from the origin to the plane.\n\t */\n\tconstructor( normal = new Vector3( 1, 0, 0 ), constant = 0 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPlane = true;\n\n\t\t/**\n\t\t * A unit length vector defining the normal of the plane.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.normal = normal;\n\n\t\t/**\n\t\t * The signed distance from the origin to the plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.constant = constant;\n\n\t}\n\n\t/**\n\t * Sets the plane components by copying the given values.\n\t *\n\t * @param {Vector3} normal - The normal.\n\t * @param {number} constant - The constant.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tset( normal, constant ) {\n\n\t\tthis.normal.copy( normal );\n\t\tthis.constant = constant;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the plane components by defining `x`, `y`, `z` as the\n\t * plane normal and `w` as the constant.\n\t *\n\t * @param {number} x - The value for the normal's x component.\n\t * @param {number} y - The value for the normal's y component.\n\t * @param {number} z - The value for the normal's z component.\n\t * @param {number} w - The constant value.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tsetComponents( x, y, z, w ) {\n\n\t\tthis.normal.set( x, y, z );\n\t\tthis.constant = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the plane from the given normal and coplanar point (that is a point\n\t * that lies onto the plane).\n\t *\n\t * @param {Vector3} normal - The normal.\n\t * @param {Vector3} point - A coplanar point.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tsetFromNormalAndCoplanarPoint( normal, point ) {\n\n\t\tthis.normal.copy( normal );\n\t\tthis.constant = - point.dot( this.normal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the plane from three coplanar points. The winding order is\n\t * assumed to be counter-clockwise, and determines the direction of\n\t * the plane normal.\n\t *\n\t * @param {Vector3} a - The first coplanar point.\n\t * @param {Vector3} b - The second coplanar point.\n\t * @param {Vector3} c - The third coplanar point.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tsetFromCoplanarPoints( a, b, c ) {\n\n\t\tconst normal = _vector1.subVectors( c, b ).cross( _vector2.subVectors( a, b ) ).normalize();\n\n\t\t// Q: should an error be thrown if normal is zero (e.g. degenerate plane)?\n\n\t\tthis.setFromNormalAndCoplanarPoint( normal, a );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given plane to this instance.\n\t *\n\t * @param {Plane} plane - The plane to copy.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tcopy( plane ) {\n\n\t\tthis.normal.copy( plane.normal );\n\t\tthis.constant = plane.constant;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Normalizes the plane normal and adjusts the constant accordingly.\n\t *\n\t * @return {Plane} A reference to this plane.\n\t */\n\tnormalize() {\n\n\t\t// Note: will lead to a divide by zero if the plane is invalid.\n\n\t\tconst inverseNormalLength = 1.0 / this.normal.length();\n\t\tthis.normal.multiplyScalar( inverseNormalLength );\n\t\tthis.constant *= inverseNormalLength;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Negates both the plane normal and the constant.\n\t *\n\t * @return {Plane} A reference to this plane.\n\t */\n\tnegate() {\n\n\t\tthis.constant *= -1;\n\t\tthis.normal.negate();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the signed distance from the given point to this plane.\n\t *\n\t * @param {Vector3} point - The point to compute the distance for.\n\t * @return {number} The signed distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn this.normal.dot( point ) + this.constant;\n\n\t}\n\n\t/**\n\t * Returns the signed distance from the given sphere to this plane.\n\t *\n\t * @param {Sphere} sphere - The sphere to compute the distance for.\n\t * @return {number} The signed distance.\n\t */\n\tdistanceToSphere( sphere ) {\n\n\t\treturn this.distanceToPoint( sphere.center ) - sphere.radius;\n\n\t}\n\n\t/**\n\t * Projects a the given point onto the plane.\n\t *\n\t * @param {Vector3} point - The point to project.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The projected point on the plane.\n\t */\n\tprojectPoint( point, target ) {\n\n\t\treturn target.copy( point ).addScaledVector( this.normal, - this.distanceToPoint( point ) );\n\n\t}\n\n\t/**\n\t * Returns the intersection point of the passed line and the plane. Returns\n\t * `null` if the line does not intersect. Returns the line's starting point if\n\t * the line is coplanar with the plane.\n\t *\n\t * @param {Line3} line - The line to compute the intersection for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectLine( line, target ) {\n\n\t\tconst direction = line.delta( _vector1 );\n\n\t\tconst denominator = this.normal.dot( direction );\n\n\t\tif ( denominator === 0 ) {\n\n\t\t\t// line is coplanar, return origin\n\t\t\tif ( this.distanceToPoint( line.start ) === 0 ) {\n\n\t\t\t\treturn target.copy( line.start );\n\n\t\t\t}\n\n\t\t\t// Unsure if this is the correct method to handle this case.\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst t = - ( line.start.dot( this.normal ) + this.constant ) / denominator;\n\n\t\tif ( t < 0 || t > 1 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\treturn target.copy( line.start ).addScaledVector( direction, t );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given line segment intersects with (passes through) the plane.\n\t *\n\t * @param {Line3} line - The line to test.\n\t * @return {boolean} Whether the given line segment intersects with the plane or not.\n\t */\n\tintersectsLine( line ) {\n\n\t\t// Note: this tests if a line intersects the plane, not whether it (or its end-points) are coplanar with it.\n\n\t\tconst startSign = this.distanceToPoint( line.start );\n\t\tconst endSign = this.distanceToPoint( line.end );\n\n\t\treturn ( startSign < 0 && endSign > 0 ) || ( endSign < 0 && startSign > 0 );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box intersects with the plane.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the given bounding box intersects with the plane or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn box.intersectsPlane( this );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere intersects with the plane.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @return {boolean} Whether the given bounding sphere intersects with the plane or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\treturn sphere.intersectsPlane( this );\n\n\t}\n\n\t/**\n\t * Returns a coplanar vector to the plane, by calculating the\n\t * projection of the normal at the origin onto the plane.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The coplanar point.\n\t */\n\tcoplanarPoint( target ) {\n\n\t\treturn target.copy( this.normal ).multiplyScalar( - this.constant );\n\n\t}\n\n\t/**\n\t * Apply a 4x4 matrix to the plane. The matrix must be an affine, homogeneous transform.\n\t *\n\t * The optional normal matrix can be pre-computed like so:\n\t * ```js\n\t * const optionalNormalMatrix = new THREE.Matrix3().getNormalMatrix( matrix );\n\t * ```\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @param {Matrix4} [optionalNormalMatrix] - A pre-computed normal matrix.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tapplyMatrix4( matrix, optionalNormalMatrix ) {\n\n\t\tconst normalMatrix = optionalNormalMatrix || _normalMatrix.getNormalMatrix( matrix );\n\n\t\tconst referencePoint = this.coplanarPoint( _vector1 ).applyMatrix4( matrix );\n\n\t\tconst normal = this.normal.applyMatrix3( normalMatrix ).normalize();\n\n\t\tthis.constant = - referencePoint.dot( normal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates the plane by the distance defined by the given offset vector.\n\t * Note that this only affects the plane constant and will not affect the normal vector.\n\t *\n\t * @param {Vector3} offset - The offset vector.\n\t * @return {Plane} A reference to this plane.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.constant -= offset.dot( this.normal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this plane is equal with the given one.\n\t *\n\t * @param {Plane} plane - The plane to test for equality.\n\t * @return {boolean} Whether this plane is equal with the given one.\n\t */\n\tequals( plane ) {\n\n\t\treturn plane.normal.equals( this.normal ) && ( plane.constant === this.constant );\n\n\t}\n\n\t/**\n\t * Returns a new plane with copied values from this instance.\n\t *\n\t * @return {Plane} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _sphere$3 = /*@__PURE__*/ new Sphere();\nconst _defaultSpriteCenter = /*@__PURE__*/ new Vector2( 0.5, 0.5 );\nconst _vector$6 = /*@__PURE__*/ new Vector3();\n\n/**\n * Frustums are used to determine what is inside the camera's field of view.\n * They help speed up the rendering process - objects which lie outside a camera's\n * frustum can safely be excluded from rendering.\n *\n * This class is mainly intended for use internally by a renderer.\n */\nclass Frustum {\n\n\t/**\n\t * Constructs a new frustum.\n\t *\n\t * @param {Plane} [p0] - The first plane that encloses the frustum.\n\t * @param {Plane} [p1] - The second plane that encloses the frustum.\n\t * @param {Plane} [p2] - The third plane that encloses the frustum.\n\t * @param {Plane} [p3] - The fourth plane that encloses the frustum.\n\t * @param {Plane} [p4] - The fifth plane that encloses the frustum.\n\t * @param {Plane} [p5] - The sixth plane that encloses the frustum.\n\t */\n\tconstructor( p0 = new Plane(), p1 = new Plane(), p2 = new Plane(), p3 = new Plane(), p4 = new Plane(), p5 = new Plane() ) {\n\n\t\t/**\n\t\t * This array holds the planes that enclose the frustum.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.planes = [ p0, p1, p2, p3, p4, p5 ];\n\n\t}\n\n\t/**\n\t * Sets the frustum planes by copying the given planes.\n\t *\n\t * @param {Plane} [p0] - The first plane that encloses the frustum.\n\t * @param {Plane} [p1] - The second plane that encloses the frustum.\n\t * @param {Plane} [p2] - The third plane that encloses the frustum.\n\t * @param {Plane} [p3] - The fourth plane that encloses the frustum.\n\t * @param {Plane} [p4] - The fifth plane that encloses the frustum.\n\t * @param {Plane} [p5] - The sixth plane that encloses the frustum.\n\t * @return {Frustum} A reference to this frustum.\n\t */\n\tset( p0, p1, p2, p3, p4, p5 ) {\n\n\t\tconst planes = this.planes;\n\n\t\tplanes[ 0 ].copy( p0 );\n\t\tplanes[ 1 ].copy( p1 );\n\t\tplanes[ 2 ].copy( p2 );\n\t\tplanes[ 3 ].copy( p3 );\n\t\tplanes[ 4 ].copy( p4 );\n\t\tplanes[ 5 ].copy( p5 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given frustum to this instance.\n\t *\n\t * @param {Frustum} frustum - The frustum to copy.\n\t * @return {Frustum} A reference to this frustum.\n\t */\n\tcopy( frustum ) {\n\n\t\tconst planes = this.planes;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tplanes[ i ].copy( frustum.planes[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the frustum planes from the given projection matrix.\n\t *\n\t * @param {Matrix4} m - The projection matrix.\n\t * @param {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} coordinateSystem - The coordinate system.\n\t * @param {boolean} [reversedDepth=false] - Whether to use a reversed depth.\n\t * @return {Frustum} A reference to this frustum.\n\t */\n\tsetFromProjectionMatrix( m, coordinateSystem = WebGLCoordinateSystem, reversedDepth = false ) {\n\n\t\tconst planes = this.planes;\n\t\tconst me = m.elements;\n\t\tconst me0 = me[ 0 ], me1 = me[ 1 ], me2 = me[ 2 ], me3 = me[ 3 ];\n\t\tconst me4 = me[ 4 ], me5 = me[ 5 ], me6 = me[ 6 ], me7 = me[ 7 ];\n\t\tconst me8 = me[ 8 ], me9 = me[ 9 ], me10 = me[ 10 ], me11 = me[ 11 ];\n\t\tconst me12 = me[ 12 ], me13 = me[ 13 ], me14 = me[ 14 ], me15 = me[ 15 ];\n\n\t\tplanes[ 0 ].setComponents( me3 - me0, me7 - me4, me11 - me8, me15 - me12 ).normalize();\n\t\tplanes[ 1 ].setComponents( me3 + me0, me7 + me4, me11 + me8, me15 + me12 ).normalize();\n\t\tplanes[ 2 ].setComponents( me3 + me1, me7 + me5, me11 + me9, me15 + me13 ).normalize();\n\t\tplanes[ 3 ].setComponents( me3 - me1, me7 - me5, me11 - me9, me15 - me13 ).normalize();\n\n\t\tif ( reversedDepth ) {\n\n\t\t\tplanes[ 4 ].setComponents( me2, me6, me10, me14 ).normalize(); // far\n\t\t\tplanes[ 5 ].setComponents( me3 - me2, me7 - me6, me11 - me10, me15 - me14 ).normalize(); // near\n\n\t\t} else {\n\n\t\t\tplanes[ 4 ].setComponents( me3 - me2, me7 - me6, me11 - me10, me15 - me14 ).normalize(); // far\n\n\t\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tplanes[ 5 ].setComponents( me3 + me2, me7 + me6, me11 + me10, me15 + me14 ).normalize(); // near\n\n\t\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tplanes[ 5 ].setComponents( me2, me6, me10, me14 ).normalize(); // near\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.Frustum.setFromProjectionMatrix(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the 3D object's bounding sphere is intersecting this frustum.\n\t *\n\t * Note that the 3D object must have a geometry so that the bounding sphere can be calculated.\n\t *\n\t * @param {Object3D} object - The 3D object to test.\n\t * @return {boolean} Whether the 3D object's bounding sphere is intersecting this frustum or not.\n\t */\n\tintersectsObject( object ) {\n\n\t\tif ( object.boundingSphere !== undefined ) {\n\n\t\t\tif ( object.boundingSphere === null ) object.computeBoundingSphere();\n\n\t\t\t_sphere$3.copy( object.boundingSphere ).applyMatrix4( object.matrixWorld );\n\n\t\t} else {\n\n\t\t\tconst geometry = object.geometry;\n\n\t\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t\t_sphere$3.copy( geometry.boundingSphere ).applyMatrix4( object.matrixWorld );\n\n\t\t}\n\n\t\treturn this.intersectsSphere( _sphere$3 );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given sprite is intersecting this frustum.\n\t *\n\t * @param {Sprite} sprite - The sprite to test.\n\t * @return {boolean} Whether the sprite is intersecting this frustum or not.\n\t */\n\tintersectsSprite( sprite ) {\n\n\t\t_sphere$3.center.set( 0, 0, 0 );\n\n\t\tconst offset = _defaultSpriteCenter.distanceTo( sprite.center );\n\n\t\t_sphere$3.radius = 0.7071067811865476 + offset;\n\t\t_sphere$3.applyMatrix4( sprite.matrixWorld );\n\n\t\treturn this.intersectsSphere( _sphere$3 );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere is intersecting this frustum.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @return {boolean} Whether the bounding sphere is intersecting this frustum or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\tconst planes = this.planes;\n\t\tconst center = sphere.center;\n\t\tconst negRadius = - sphere.radius;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tconst distance = planes[ i ].distanceToPoint( center );\n\n\t\t\tif ( distance < negRadius ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box is intersecting this frustum.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the bounding box is intersecting this frustum or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\tconst planes = this.planes;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tconst plane = planes[ i ];\n\n\t\t\t// corner at max distance\n\n\t\t\t_vector$6.x = plane.normal.x > 0 ? box.max.x : box.min.x;\n\t\t\t_vector$6.y = plane.normal.y > 0 ? box.max.y : box.min.y;\n\t\t\t_vector$6.z = plane.normal.z > 0 ? box.max.z : box.min.z;\n\n\t\t\tif ( plane.distanceToPoint( _vector$6 ) < 0 ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within the frustum.\n\t *\n\t * @param {Vector3} point - The point to test.\n\t * @return {boolean} Whether the point lies within this frustum or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\tconst planes = this.planes;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tif ( planes[ i ].distanceToPoint( point ) < 0 ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Returns a new frustum with copied values from this instance.\n\t *\n\t * @return {Frustum} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _projScreenMatrix$2 = /*@__PURE__*/ new Matrix4();\nconst _frustum$1 = /*@__PURE__*/ new Frustum();\n\n/**\n * FrustumArray is used to determine if an object is visible in at least one camera\n * from an array of cameras. This is particularly useful for multi-view renderers.\n*/\nclass FrustumArray {\n\n\t/**\n\t * Constructs a new frustum array.\n\t *\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * The coordinate system to use.\n\t\t *\n\t\t * @type {WebGLCoordinateSystem|WebGPUCoordinateSystem}\n\t\t * @default WebGLCoordinateSystem\n\t\t */\n\t\tthis.coordinateSystem = WebGLCoordinateSystem;\n\n\t}\n\n\t/**\n\t * Returns `true` if the 3D object's bounding sphere is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Object3D} object - The 3D object to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the 3D object is visible in any camera.\n\t */\n\tintersectsObject( object, cameraArray ) {\n\n\t\tif ( ! cameraArray.isArrayCamera || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsObject( object ) ) {\n\n\t\t\t\treturn true; // Object is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given sprite is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Sprite} sprite - The sprite to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the sprite is visible in any camera.\n\t */\n\tintersectsSprite( sprite, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsSprite( sprite ) ) {\n\n\t\t\t\treturn true; // Sprite is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the sphere is visible in any camera.\n\t */\n\tintersectsSphere( sphere, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsSphere( sphere ) ) {\n\n\t\t\t\treturn true; // Sphere is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the box is visible in any camera.\n\t */\n\tintersectsBox( box, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsBox( box ) ) {\n\n\t\t\t\treturn true; // Box is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within any frustum\n\t * from the camera array.\n\t *\n\t * @param {Vector3} point - The point to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the point is visible in any camera.\n\t */\n\tcontainsPoint( point, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.containsPoint( point ) ) {\n\n\t\t\t\treturn true; // Point is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns a new frustum array with copied values from this instance.\n\t *\n\t * @return {FrustumArray} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new FrustumArray();\n\n\t}\n\n}\n\nfunction ascIdSort( a, b ) {\n\n\treturn a - b;\n\n}\n\nfunction sortOpaque( a, b ) {\n\n\treturn a.z - b.z;\n\n}\n\nfunction sortTransparent( a, b ) {\n\n\treturn b.z - a.z;\n\n}\n\nclass MultiDrawRenderList {\n\n\tconstructor() {\n\n\t\tthis.index = 0;\n\t\tthis.pool = [];\n\t\tthis.list = [];\n\n\t}\n\n\tpush( start, count, z, index ) {\n\n\t\tconst pool = this.pool;\n\t\tconst list = this.list;\n\t\tif ( this.index >= pool.length ) {\n\n\t\t\tpool.push( {\n\n\t\t\t\tstart: -1,\n\t\t\t\tcount: -1,\n\t\t\t\tz: -1,\n\t\t\t\tindex: -1,\n\n\t\t\t} );\n\n\t\t}\n\n\t\tconst item = pool[ this.index ];\n\t\tlist.push( item );\n\t\tthis.index ++;\n\n\t\titem.start = start;\n\t\titem.count = count;\n\t\titem.z = z;\n\t\titem.index = index;\n\n\t}\n\n\treset() {\n\n\t\tthis.list.length = 0;\n\t\tthis.index = 0;\n\n\t}\n\n}\n\nconst _matrix$1 = /*@__PURE__*/ new Matrix4();\nconst _whiteColor = /*@__PURE__*/ new Color( 1, 1, 1 );\nconst _frustum = /*@__PURE__*/ new Frustum();\nconst _frustumArray = /*@__PURE__*/ new FrustumArray();\nconst _box$1 = /*@__PURE__*/ new Box3();\nconst _sphere$2 = /*@__PURE__*/ new Sphere();\nconst _vector$5 = /*@__PURE__*/ new Vector3();\nconst _forward$1 = /*@__PURE__*/ new Vector3();\nconst _temp = /*@__PURE__*/ new Vector3();\nconst _renderList = /*@__PURE__*/ new MultiDrawRenderList();\nconst _mesh = /*@__PURE__*/ new Mesh();\nconst _batchIntersects = [];\n\n// copies data from attribute \"src\" into \"target\" starting at \"targetOffset\"\nfunction copyAttributeData( src, target, targetOffset = 0 ) {\n\n\tconst itemSize = target.itemSize;\n\tif ( src.isInterleavedBufferAttribute || src.array.constructor !== target.array.constructor ) {\n\n\t\t// use the component getters and setters if the array data cannot\n\t\t// be copied directly\n\t\tconst vertexCount = src.count;\n\t\tfor ( let i = 0; i < vertexCount; i ++ ) {\n\n\t\t\tfor ( let c = 0; c < itemSize; c ++ ) {\n\n\t\t\t\ttarget.setComponent( i + targetOffset, c, src.getComponent( i, c ) );\n\n\t\t\t}\n\n\t\t}\n\n\t} else {\n\n\t\t// faster copy approach using typed array set function\n\t\ttarget.array.set( src.array, targetOffset * itemSize );\n\n\t}\n\n\ttarget.needsUpdate = true;\n\n}\n\n// safely copies array contents to a potentially smaller array\nfunction copyArrayContents( src, target ) {\n\n\tif ( src.constructor !== target.constructor ) {\n\n\t\t// if arrays are of a different type (eg due to index size increasing) then data must be per-element copied\n\t\tconst len = Math.min( src.length, target.length );\n\t\tfor ( let i = 0; i < len; i ++ ) {\n\n\t\t\ttarget[ i ] = src[ i ];\n\n\t\t}\n\n\t} else {\n\n\t\t// if the arrays use the same data layout we can use a fast block copy\n\t\tconst len = Math.min( src.length, target.length );\n\t\ttarget.set( new src.constructor( src.buffer, 0, len ) );\n\n\t}\n\n}\n\n/**\n * A special version of a mesh with multi draw batch rendering support. Use\n * this class if you have to render a large number of objects with the same\n * material but with different geometries or world transformations. The usage of\n * `BatchedMesh` will help you to reduce the number of draw calls and thus improve the overall\n * rendering performance in your application.\n *\n * ```js\n * const box = new THREE.BoxGeometry( 1, 1, 1 );\n * const sphere = new THREE.SphereGeometry( 1, 12, 12 );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n *\n * // initialize and add geometries into the batched mesh\n * const batchedMesh = new BatchedMesh( 10, 5000, 10000, material );\n * const boxGeometryId = batchedMesh.addGeometry( box );\n * const sphereGeometryId = batchedMesh.addGeometry( sphere );\n *\n * // create instances of those geometries\n * const boxInstancedId1 = batchedMesh.addInstance( boxGeometryId );\n * const boxInstancedId2 = batchedMesh.addInstance( boxGeometryId );\n *\n * const sphereInstancedId1 = batchedMesh.addInstance( sphereGeometryId );\n * const sphereInstancedId2 = batchedMesh.addInstance( sphereGeometryId );\n *\n * // position the geometries\n * batchedMesh.setMatrixAt( boxInstancedId1, boxMatrix1 );\n * batchedMesh.setMatrixAt( boxInstancedId2, boxMatrix2 );\n *\n * batchedMesh.setMatrixAt( sphereInstancedId1, sphereMatrix1 );\n * batchedMesh.setMatrixAt( sphereInstancedId2, sphereMatrix2 );\n *\n * scene.add( batchedMesh );\n * ```\n *\n * @augments Mesh\n */\nclass BatchedMesh extends Mesh {\n\n\t/**\n\t * Constructs a new batched mesh.\n\t *\n\t * @param {number} maxInstanceCount - The maximum number of individual instances planned to be added and rendered.\n\t * @param {number} maxVertexCount - The maximum number of vertices to be used by all unique geometries.\n\t * @param {number} [maxIndexCount=maxVertexCount*2] - The maximum number of indices to be used by all unique geometries\n\t * @param {Material|Array} [material] - The mesh material.\n\t */\n\tconstructor( maxInstanceCount, maxVertexCount, maxIndexCount = maxVertexCount * 2, material ) {\n\n\t\tsuper( new BufferGeometry(), material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBatchedMesh = true;\n\n\t\t/**\n\t\t * When set ot `true`, the individual objects of a batch are frustum culled.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.perObjectFrustumCulled = true;\n\n\t\t/**\n\t\t * When set to `true`, the individual objects of a batch are sorted to improve overdraw-related artifacts.\n\t\t * If the material is marked as \"transparent\" objects are rendered back to front and if not then they are\n\t\t * rendered front to back.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.sortObjects = true;\n\n\t\t/**\n\t\t * The bounding box of the batched mesh. Can be computed via {@link BatchedMesh#computeBoundingBox}.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * The bounding sphere of the batched mesh. Can be computed via {@link BatchedMesh#computeBoundingSphere}.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t\t/**\n\t\t * Takes a sort a function that is run before render. The function takes a list of instances to\n\t\t * sort and a camera. The objects in the list include a \"z\" field to perform a depth-ordered\n\t\t * sort with.\n\t\t *\n\t\t * @type {?Function}\n\t\t * @default null\n\t\t */\n\t\tthis.customSort = null;\n\n\t\t// stores visible, active, and geometry id per instance and reserved buffer ranges for geometries\n\t\tthis._instanceInfo = [];\n\t\tthis._geometryInfo = [];\n\n\t\t// instance, geometry ids that have been set as inactive, and are available to be overwritten\n\t\tthis._availableInstanceIds = [];\n\t\tthis._availableGeometryIds = [];\n\n\t\t// used to track where the next point is that geometry should be inserted\n\t\tthis._nextIndexStart = 0;\n\t\tthis._nextVertexStart = 0;\n\t\tthis._geometryCount = 0;\n\n\t\t// flags\n\t\tthis._visibilityChanged = true;\n\t\tthis._geometryInitialized = false;\n\n\t\t// cached user options\n\t\tthis._maxInstanceCount = maxInstanceCount;\n\t\tthis._maxVertexCount = maxVertexCount;\n\t\tthis._maxIndexCount = maxIndexCount;\n\n\t\t// buffers for multi draw\n\t\tthis._multiDrawCounts = new Int32Array( maxInstanceCount );\n\t\tthis._multiDrawStarts = new Int32Array( maxInstanceCount );\n\t\tthis._multiDrawCount = 0;\n\t\tthis._multiDrawInstances = null;\n\n\t\t// Local matrix per geometry by using data texture\n\t\tthis._matricesTexture = null;\n\t\tthis._indirectTexture = null;\n\t\tthis._colorsTexture = null;\n\n\t\tthis._initMatricesTexture();\n\t\tthis._initIndirectTexture();\n\n\t}\n\n\t/**\n\t * The maximum number of individual instances that can be stored in the batch.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget maxInstanceCount() {\n\n\t\treturn this._maxInstanceCount;\n\n\t}\n\n\t/**\n\t * The instance count.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget instanceCount() {\n\n\t\treturn this._instanceInfo.length - this._availableInstanceIds.length;\n\n\t}\n\n\t/**\n\t * The number of unused vertices.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget unusedVertexCount() {\n\n\t\treturn this._maxVertexCount - this._nextVertexStart;\n\n\t}\n\n\t/**\n\t * The number of unused indices.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget unusedIndexCount() {\n\n\t\treturn this._maxIndexCount - this._nextIndexStart;\n\n\t}\n\n\t_initMatricesTexture() {\n\n\t\t// layout (1 matrix = 4 pixels)\n\t\t// RGBA RGBA RGBA RGBA (=> column1, column2, column3, column4)\n\t\t// with 8x8 pixel texture max 16 matrices * 4 pixels = (8 * 8)\n\t\t// 16x16 pixel texture max 64 matrices * 4 pixels = (16 * 16)\n\t\t// 32x32 pixel texture max 256 matrices * 4 pixels = (32 * 32)\n\t\t// 64x64 pixel texture max 1024 matrices * 4 pixels = (64 * 64)\n\n\t\tlet size = Math.sqrt( this._maxInstanceCount * 4 ); // 4 pixels needed for 1 matrix\n\t\tsize = Math.ceil( size / 4 ) * 4;\n\t\tsize = Math.max( size, 4 );\n\n\t\tconst matricesArray = new Float32Array( size * size * 4 ); // 4 floats per RGBA pixel\n\t\tconst matricesTexture = new DataTexture( matricesArray, size, size, RGBAFormat, FloatType );\n\n\t\tthis._matricesTexture = matricesTexture;\n\n\t}\n\n\t_initIndirectTexture() {\n\n\t\tlet size = Math.sqrt( this._maxInstanceCount );\n\t\tsize = Math.ceil( size );\n\n\t\tconst indirectArray = new Uint32Array( size * size );\n\t\tconst indirectTexture = new DataTexture( indirectArray, size, size, RedIntegerFormat, UnsignedIntType );\n\n\t\tthis._indirectTexture = indirectTexture;\n\n\t}\n\n\t_initColorsTexture() {\n\n\t\tlet size = Math.sqrt( this._maxInstanceCount );\n\t\tsize = Math.ceil( size );\n\n\t\t// 4 floats per RGBA pixel initialized to white\n\t\tconst colorsArray = new Float32Array( size * size * 4 ).fill( 1 );\n\t\tconst colorsTexture = new DataTexture( colorsArray, size, size, RGBAFormat, FloatType );\n\t\tcolorsTexture.colorSpace = ColorManagement.workingColorSpace;\n\n\t\tthis._colorsTexture = colorsTexture;\n\n\t}\n\n\t_initializeGeometry( reference ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst maxVertexCount = this._maxVertexCount;\n\t\tconst maxIndexCount = this._maxIndexCount;\n\t\tif ( this._geometryInitialized === false ) {\n\n\t\t\tfor ( const attributeName in reference.attributes ) {\n\n\t\t\t\tconst srcAttribute = reference.getAttribute( attributeName );\n\t\t\t\tconst { array, itemSize, normalized } = srcAttribute;\n\n\t\t\t\tconst dstArray = new array.constructor( maxVertexCount * itemSize );\n\t\t\t\tconst dstAttribute = new BufferAttribute( dstArray, itemSize, normalized );\n\n\t\t\t\tgeometry.setAttribute( attributeName, dstAttribute );\n\n\t\t\t}\n\n\t\t\tif ( reference.getIndex() !== null ) {\n\n\t\t\t\t// Reserve last u16 index for primitive restart.\n\t\t\t\tconst indexArray = maxVertexCount > 65535\n\t\t\t\t\t? new Uint32Array( maxIndexCount )\n\t\t\t\t\t: new Uint16Array( maxIndexCount );\n\n\t\t\t\tgeometry.setIndex( new BufferAttribute( indexArray, 1 ) );\n\n\t\t\t}\n\n\t\t\tthis._geometryInitialized = true;\n\n\t\t}\n\n\t}\n\n\t// Make sure the geometry is compatible with the existing combined geometry attributes\n\t_validateGeometry( geometry ) {\n\n\t\t// check to ensure the geometries are using consistent attributes and indices\n\t\tconst batchGeometry = this.geometry;\n\t\tif ( Boolean( geometry.getIndex() ) !== Boolean( batchGeometry.getIndex() ) ) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: All geometries must consistently have \"index\".' );\n\n\t\t}\n\n\t\tfor ( const attributeName in batchGeometry.attributes ) {\n\n\t\t\tif ( ! geometry.hasAttribute( attributeName ) ) {\n\n\t\t\t\tthrow new Error( `THREE.BatchedMesh: Added geometry missing \"${ attributeName }\". All geometries must have consistent attributes.` );\n\n\t\t\t}\n\n\t\t\tconst srcAttribute = geometry.getAttribute( attributeName );\n\t\t\tconst dstAttribute = batchGeometry.getAttribute( attributeName );\n\t\t\tif ( srcAttribute.itemSize !== dstAttribute.itemSize || srcAttribute.normalized !== dstAttribute.normalized ) {\n\n\t\t\t\tthrow new Error( 'THREE.BatchedMesh: All attributes must have a consistent itemSize and normalized value.' );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Validates the instance defined by the given ID.\n\t *\n\t * @param {number} instanceId - The instance to validate.\n\t */\n\tvalidateInstanceId( instanceId ) {\n\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tif ( instanceId < 0 || instanceId >= instanceInfo.length || instanceInfo[ instanceId ].active === false ) {\n\n\t\t\tthrow new Error( `THREE.BatchedMesh: Invalid instanceId ${instanceId}. Instance is either out of range or has been deleted.` );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Validates the geometry defined by the given ID.\n\t *\n\t * @param {number} geometryId - The geometry to validate.\n\t */\n\tvalidateGeometryId( geometryId ) {\n\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tif ( geometryId < 0 || geometryId >= geometryInfoList.length || geometryInfoList[ geometryId ].active === false ) {\n\n\t\t\tthrow new Error( `THREE.BatchedMesh: Invalid geometryId ${geometryId}. Geometry is either out of range or has been deleted.` );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Takes a sort a function that is run before render. The function takes a list of instances to\n\t * sort and a camera. The objects in the list include a \"z\" field to perform a depth-ordered sort with.\n\t *\n\t * @param {Function} func - The custom sort function.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetCustomSort( func ) {\n\n\t\tthis.customSort = func;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the bounding box, updating {@link BatchedMesh#boundingBox}.\n\t * Bounding boxes aren't computed by default. They need to be explicitly computed,\n\t * otherwise they are `null`.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tconst boundingBox = this.boundingBox;\n\t\tconst instanceInfo = this._instanceInfo;\n\n\t\tboundingBox.makeEmpty();\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( instanceInfo[ i ].active === false ) continue;\n\n\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\tthis.getBoundingBoxAt( geometryId, _box$1 ).applyMatrix4( _matrix$1 );\n\t\t\tboundingBox.union( _box$1 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere, updating {@link BatchedMesh#boundingSphere}.\n\t * Bounding spheres aren't computed by default. They need to be explicitly computed,\n\t * otherwise they are `null`.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tconst boundingSphere = this.boundingSphere;\n\t\tconst instanceInfo = this._instanceInfo;\n\n\t\tboundingSphere.makeEmpty();\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( instanceInfo[ i ].active === false ) continue;\n\n\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\tthis.getBoundingSphereAt( geometryId, _sphere$2 ).applyMatrix4( _matrix$1 );\n\t\t\tboundingSphere.union( _sphere$2 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Adds a new instance to the batch using the geometry of the given ID and returns\n\t * a new id referring to the new instance to be used by other functions.\n\t *\n\t * @param {number} geometryId - The ID of a previously added geometry via {@link BatchedMesh#addGeometry}.\n\t * @return {number} The instance ID.\n\t */\n\taddInstance( geometryId ) {\n\n\t\tconst atCapacity = this._instanceInfo.length >= this.maxInstanceCount;\n\n\t\t// ensure we're not over geometry\n\t\tif ( atCapacity && this._availableInstanceIds.length === 0 ) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Maximum item count reached.' );\n\n\t\t}\n\n\t\tconst instanceInfo = {\n\t\t\tvisible: true,\n\t\t\tactive: true,\n\t\t\tgeometryIndex: geometryId,\n\t\t};\n\n\t\tlet drawId = null;\n\n\t\t// Prioritize using previously freed instance ids\n\t\tif ( this._availableInstanceIds.length > 0 ) {\n\n\t\t\tthis._availableInstanceIds.sort( ascIdSort );\n\n\t\t\tdrawId = this._availableInstanceIds.shift();\n\t\t\tthis._instanceInfo[ drawId ] = instanceInfo;\n\n\t\t} else {\n\n\t\t\tdrawId = this._instanceInfo.length;\n\t\t\tthis._instanceInfo.push( instanceInfo );\n\n\t\t}\n\n\t\tconst matricesTexture = this._matricesTexture;\n\t\t_matrix$1.identity().toArray( matricesTexture.image.data, drawId * 16 );\n\t\tmatricesTexture.needsUpdate = true;\n\n\t\tconst colorsTexture = this._colorsTexture;\n\t\tif ( colorsTexture ) {\n\n\t\t\t_whiteColor.toArray( colorsTexture.image.data, drawId * 4 );\n\t\t\tcolorsTexture.needsUpdate = true;\n\n\t\t}\n\n\t\tthis._visibilityChanged = true;\n\t\treturn drawId;\n\n\t}\n\n\t/**\n\t * Adds the given geometry to the batch and returns the associated\n\t * geometry id referring to it to be used in other functions.\n\t *\n\t * @param {BufferGeometry} geometry - The geometry to add.\n\t * @param {number} [reservedVertexCount=-1] - Optional parameter specifying the amount of\n\t * vertex buffer space to reserve for the added geometry. This is necessary if it is planned\n\t * to set a new geometry at this index at a later time that is larger than the original geometry.\n\t * Defaults to the length of the given geometry vertex buffer.\n\t * @param {number} [reservedIndexCount=-1] - Optional parameter specifying the amount of index\n\t * buffer space to reserve for the added geometry. This is necessary if it is planned to set a\n\t * new geometry at this index at a later time that is larger than the original geometry. Defaults to\n\t * the length of the given geometry index buffer.\n\t * @return {number} The geometry ID.\n\t */\n\taddGeometry( geometry, reservedVertexCount = -1, reservedIndexCount = -1 ) {\n\n\t\tthis._initializeGeometry( geometry );\n\n\t\tthis._validateGeometry( geometry );\n\n\t\tconst geometryInfo = {\n\t\t\t// geometry information\n\t\t\tvertexStart: -1,\n\t\t\tvertexCount: -1,\n\t\t\treservedVertexCount: -1,\n\n\t\t\tindexStart: -1,\n\t\t\tindexCount: -1,\n\t\t\treservedIndexCount: -1,\n\n\t\t\t// draw range information\n\t\t\tstart: -1,\n\t\t\tcount: -1,\n\n\t\t\t// state\n\t\t\tboundingBox: null,\n\t\t\tboundingSphere: null,\n\t\t\tactive: true,\n\t\t};\n\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tgeometryInfo.vertexStart = this._nextVertexStart;\n\t\tgeometryInfo.reservedVertexCount = reservedVertexCount === -1 ? geometry.getAttribute( 'position' ).count : reservedVertexCount;\n\n\t\tconst index = geometry.getIndex();\n\t\tconst hasIndex = index !== null;\n\t\tif ( hasIndex ) {\n\n\t\t\tgeometryInfo.indexStart = this._nextIndexStart;\n\t\t\tgeometryInfo.reservedIndexCount = reservedIndexCount === -1 ? index.count : reservedIndexCount;\n\n\t\t}\n\n\t\tif (\n\t\t\tgeometryInfo.indexStart !== -1 &&\n\t\t\tgeometryInfo.indexStart + geometryInfo.reservedIndexCount > this._maxIndexCount ||\n\t\t\tgeometryInfo.vertexStart + geometryInfo.reservedVertexCount > this._maxVertexCount\n\t\t) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Reserved space request exceeds the maximum buffer size.' );\n\n\t\t}\n\n\t\t// update id\n\t\tlet geometryId;\n\t\tif ( this._availableGeometryIds.length > 0 ) {\n\n\t\t\tthis._availableGeometryIds.sort( ascIdSort );\n\n\t\t\tgeometryId = this._availableGeometryIds.shift();\n\t\t\tgeometryInfoList[ geometryId ] = geometryInfo;\n\n\n\t\t} else {\n\n\t\t\tgeometryId = this._geometryCount;\n\t\t\tthis._geometryCount ++;\n\t\t\tgeometryInfoList.push( geometryInfo );\n\n\t\t}\n\n\t\t// update the geometry\n\t\tthis.setGeometryAt( geometryId, geometry );\n\n\t\t// increment the next geometry position\n\t\tthis._nextIndexStart = geometryInfo.indexStart + geometryInfo.reservedIndexCount;\n\t\tthis._nextVertexStart = geometryInfo.vertexStart + geometryInfo.reservedVertexCount;\n\n\t\treturn geometryId;\n\n\t}\n\n\t/**\n\t * Replaces the geometry at the given ID with the provided geometry. Throws an error if there\n\t * is not enough space reserved for geometry. Calling this will change all instances that are\n\t * rendering that geometry.\n\t *\n\t * @param {number} geometryId - The ID of the geometry that should be replaced with the given geometry.\n\t * @param {BufferGeometry} geometry - The new geometry.\n\t * @return {number} The geometry ID.\n\t */\n\tsetGeometryAt( geometryId, geometry ) {\n\n\t\tif ( geometryId >= this._geometryCount ) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Maximum geometry count reached.' );\n\n\t\t}\n\n\t\tthis._validateGeometry( geometry );\n\n\t\tconst batchGeometry = this.geometry;\n\t\tconst hasIndex = batchGeometry.getIndex() !== null;\n\t\tconst dstIndex = batchGeometry.getIndex();\n\t\tconst srcIndex = geometry.getIndex();\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\tif (\n\t\t\thasIndex &&\n\t\t\tsrcIndex.count > geometryInfo.reservedIndexCount ||\n\t\t\tgeometry.attributes.position.count > geometryInfo.reservedVertexCount\n\t\t) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Reserved space not large enough for provided geometry.' );\n\n\t\t}\n\n\t\t// copy geometry buffer data over\n\t\tconst vertexStart = geometryInfo.vertexStart;\n\t\tconst reservedVertexCount = geometryInfo.reservedVertexCount;\n\t\tgeometryInfo.vertexCount = geometry.getAttribute( 'position' ).count;\n\n\t\tfor ( const attributeName in batchGeometry.attributes ) {\n\n\t\t\t// copy attribute data\n\t\t\tconst srcAttribute = geometry.getAttribute( attributeName );\n\t\t\tconst dstAttribute = batchGeometry.getAttribute( attributeName );\n\t\t\tcopyAttributeData( srcAttribute, dstAttribute, vertexStart );\n\n\t\t\t// fill the rest in with zeroes\n\t\t\tconst itemSize = srcAttribute.itemSize;\n\t\t\tfor ( let i = srcAttribute.count, l = reservedVertexCount; i < l; i ++ ) {\n\n\t\t\t\tconst index = vertexStart + i;\n\t\t\t\tfor ( let c = 0; c < itemSize; c ++ ) {\n\n\t\t\t\t\tdstAttribute.setComponent( index, c, 0 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tdstAttribute.needsUpdate = true;\n\t\t\tdstAttribute.addUpdateRange( vertexStart * itemSize, reservedVertexCount * itemSize );\n\n\t\t}\n\n\t\t// copy index\n\t\tif ( hasIndex ) {\n\n\t\t\tconst indexStart = geometryInfo.indexStart;\n\t\t\tconst reservedIndexCount = geometryInfo.reservedIndexCount;\n\t\t\tgeometryInfo.indexCount = geometry.getIndex().count;\n\n\t\t\t// copy index data over\n\t\t\tfor ( let i = 0; i < srcIndex.count; i ++ ) {\n\n\t\t\t\tdstIndex.setX( indexStart + i, vertexStart + srcIndex.getX( i ) );\n\n\t\t\t}\n\n\t\t\t// fill the rest in with zeroes\n\t\t\tfor ( let i = srcIndex.count, l = reservedIndexCount; i < l; i ++ ) {\n\n\t\t\t\tdstIndex.setX( indexStart + i, vertexStart );\n\n\t\t\t}\n\n\t\t\tdstIndex.needsUpdate = true;\n\t\t\tdstIndex.addUpdateRange( indexStart, geometryInfo.reservedIndexCount );\n\n\t\t}\n\n\t\t// update the draw range\n\t\tgeometryInfo.start = hasIndex ? geometryInfo.indexStart : geometryInfo.vertexStart;\n\t\tgeometryInfo.count = hasIndex ? geometryInfo.indexCount : geometryInfo.vertexCount;\n\n\t\t// store the bounding boxes\n\t\tgeometryInfo.boundingBox = null;\n\t\tif ( geometry.boundingBox !== null ) {\n\n\t\t\tgeometryInfo.boundingBox = geometry.boundingBox.clone();\n\n\t\t}\n\n\t\tgeometryInfo.boundingSphere = null;\n\t\tif ( geometry.boundingSphere !== null ) {\n\n\t\t\tgeometryInfo.boundingSphere = geometry.boundingSphere.clone();\n\n\t\t}\n\n\t\tthis._visibilityChanged = true;\n\t\treturn geometryId;\n\n\t}\n\n\t/**\n\t * Deletes the geometry defined by the given ID from this batch. Any instances referencing\n\t * this geometry will also be removed as a side effect.\n\t *\n\t * @param {number} geometryId - The ID of the geometry to remove from the batch.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tdeleteGeometry( geometryId ) {\n\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tif ( geometryId >= geometryInfoList.length || geometryInfoList[ geometryId ].active === false ) {\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\t// delete any instances associated with this geometry\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( instanceInfo[ i ].active && instanceInfo[ i ].geometryIndex === geometryId ) {\n\n\t\t\t\tthis.deleteInstance( i );\n\n\t\t\t}\n\n\t\t}\n\n\t\tgeometryInfoList[ geometryId ].active = false;\n\t\tthis._availableGeometryIds.push( geometryId );\n\t\tthis._visibilityChanged = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Deletes an existing instance from the batch using the given ID.\n\t *\n\t * @param {number} instanceId - The ID of the instance to remove from the batch.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tdeleteInstance( instanceId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tthis._instanceInfo[ instanceId ].active = false;\n\t\tthis._availableInstanceIds.push( instanceId );\n\t\tthis._visibilityChanged = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Repacks the sub geometries in [name] to remove any unused space remaining from\n\t * previously deleted geometry, freeing up space to add new geometry.\n\t *\n\t * @param {number} instanceId - The ID of the instance to remove from the batch.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\toptimize() {\n\n\t\t// track the next indices to copy data to\n\t\tlet nextVertexStart = 0;\n\t\tlet nextIndexStart = 0;\n\n\t\t// Iterate over all geometry ranges in order sorted from earliest in the geometry buffer to latest\n\t\t// in the geometry buffer. Because draw range objects can be reused there is no guarantee of their order.\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tconst indices = geometryInfoList\n\t\t\t.map( ( e, i ) => i )\n\t\t\t.sort( ( a, b ) => {\n\n\t\t\t\treturn geometryInfoList[ a ].vertexStart - geometryInfoList[ b ].vertexStart;\n\n\t\t\t} );\n\n\t\tconst geometry = this.geometry;\n\t\tfor ( let i = 0, l = geometryInfoList.length; i < l; i ++ ) {\n\n\t\t\t// if a geometry range is inactive then don't copy anything\n\t\t\tconst index = indices[ i ];\n\t\t\tconst geometryInfo = geometryInfoList[ index ];\n\t\t\tif ( geometryInfo.active === false ) {\n\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\t// if a geometry contains an index buffer then shift it, as well\n\t\t\tif ( geometry.index !== null ) {\n\n\t\t\t\tif ( geometryInfo.indexStart !== nextIndexStart ) {\n\n\t\t\t\t\tconst { indexStart, vertexStart, reservedIndexCount } = geometryInfo;\n\t\t\t\t\tconst index = geometry.index;\n\t\t\t\t\tconst array = index.array;\n\n\t\t\t\t\t// shift the index pointers based on how the vertex data will shift\n\t\t\t\t\t// adjusting the index must happen first so the original vertex start value is available\n\t\t\t\t\tconst elementDelta = nextVertexStart - vertexStart;\n\t\t\t\t\tfor ( let j = indexStart; j < indexStart + reservedIndexCount; j ++ ) {\n\n\t\t\t\t\t\tarray[ j ] = array[ j ] + elementDelta;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tindex.array.copyWithin( nextIndexStart, indexStart, indexStart + reservedIndexCount );\n\t\t\t\t\tindex.addUpdateRange( nextIndexStart, reservedIndexCount );\n\n\t\t\t\t\tgeometryInfo.indexStart = nextIndexStart;\n\n\t\t\t\t}\n\n\t\t\t\tnextIndexStart += geometryInfo.reservedIndexCount;\n\n\t\t\t}\n\n\t\t\t// if a geometry needs to be moved then copy attribute data to overwrite unused space\n\t\t\tif ( geometryInfo.vertexStart !== nextVertexStart ) {\n\n\t\t\t\tconst { vertexStart, reservedVertexCount } = geometryInfo;\n\t\t\t\tconst attributes = geometry.attributes;\n\t\t\t\tfor ( const key in attributes ) {\n\n\t\t\t\t\tconst attribute = attributes[ key ];\n\t\t\t\t\tconst { array, itemSize } = attribute;\n\t\t\t\t\tarray.copyWithin( nextVertexStart * itemSize, vertexStart * itemSize, ( vertexStart + reservedVertexCount ) * itemSize );\n\t\t\t\t\tattribute.addUpdateRange( nextVertexStart * itemSize, reservedVertexCount * itemSize );\n\n\t\t\t\t}\n\n\t\t\t\tgeometryInfo.vertexStart = nextVertexStart;\n\n\t\t\t}\n\n\t\t\tnextVertexStart += geometryInfo.reservedVertexCount;\n\t\t\tgeometryInfo.start = geometry.index ? geometryInfo.indexStart : geometryInfo.vertexStart;\n\n\t\t\t// step the next geometry points to the shifted position\n\t\t\tthis._nextIndexStart = geometry.index ? geometryInfo.indexStart + geometryInfo.reservedIndexCount : 0;\n\t\t\tthis._nextVertexStart = geometryInfo.vertexStart + geometryInfo.reservedVertexCount;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the bounding box for the given geometry.\n\t *\n\t * @param {number} geometryId - The ID of the geometry to return the bounding box for.\n\t * @param {Box3} target - The target object that is used to store the method's result.\n\t * @return {?Box3} The geometry's bounding box. Returns `null` if no geometry has been found for the given ID.\n\t */\n\tgetBoundingBoxAt( geometryId, target ) {\n\n\t\tif ( geometryId >= this._geometryCount ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// compute bounding box\n\t\tconst geometry = this.geometry;\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\tif ( geometryInfo.boundingBox === null ) {\n\n\t\t\tconst box = new Box3();\n\t\t\tconst index = geometry.index;\n\t\t\tconst position = geometry.attributes.position;\n\t\t\tfor ( let i = geometryInfo.start, l = geometryInfo.start + geometryInfo.count; i < l; i ++ ) {\n\n\t\t\t\tlet iv = i;\n\t\t\t\tif ( index ) {\n\n\t\t\t\t\tiv = index.getX( iv );\n\n\t\t\t\t}\n\n\t\t\t\tbox.expandByPoint( _vector$5.fromBufferAttribute( position, iv ) );\n\n\t\t\t}\n\n\t\t\tgeometryInfo.boundingBox = box;\n\n\t\t}\n\n\t\ttarget.copy( geometryInfo.boundingBox );\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the bounding sphere for the given geometry.\n\t *\n\t * @param {number} geometryId - The ID of the geometry to return the bounding sphere for.\n\t * @param {Sphere} target - The target object that is used to store the method's result.\n\t * @return {?Sphere} The geometry's bounding sphere. Returns `null` if no geometry has been found for the given ID.\n\t */\n\tgetBoundingSphereAt( geometryId, target ) {\n\n\t\tif ( geometryId >= this._geometryCount ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// compute bounding sphere\n\t\tconst geometry = this.geometry;\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\tif ( geometryInfo.boundingSphere === null ) {\n\n\t\t\tconst sphere = new Sphere();\n\t\t\tthis.getBoundingBoxAt( geometryId, _box$1 );\n\t\t\t_box$1.getCenter( sphere.center );\n\n\t\t\tconst index = geometry.index;\n\t\t\tconst position = geometry.attributes.position;\n\n\t\t\tlet maxRadiusSq = 0;\n\t\t\tfor ( let i = geometryInfo.start, l = geometryInfo.start + geometryInfo.count; i < l; i ++ ) {\n\n\t\t\t\tlet iv = i;\n\t\t\t\tif ( index ) {\n\n\t\t\t\t\tiv = index.getX( iv );\n\n\t\t\t\t}\n\n\t\t\t\t_vector$5.fromBufferAttribute( position, iv );\n\t\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, sphere.center.distanceToSquared( _vector$5 ) );\n\n\t\t\t}\n\n\t\t\tsphere.radius = Math.sqrt( maxRadiusSq );\n\t\t\tgeometryInfo.boundingSphere = sphere;\n\n\t\t}\n\n\t\ttarget.copy( geometryInfo.boundingSphere );\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Sets the given local transformation matrix to the defined instance.\n\t * Negatively scaled matrices are not supported.\n\t *\n\t * @param {number} instanceId - The ID of an instance to set the matrix of.\n\t * @param {Matrix4} matrix - A 4x4 matrix representing the local transformation of a single instance.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetMatrixAt( instanceId, matrix ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tconst matricesTexture = this._matricesTexture;\n\t\tconst matricesArray = this._matricesTexture.image.data;\n\t\tmatrix.toArray( matricesArray, instanceId * 16 );\n\t\tmatricesTexture.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the local transformation matrix of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the matrix of.\n\t * @param {Matrix4} matrix - The target object that is used to store the method's result.\n\t * @return {Matrix4} The instance's local transformation matrix.\n\t */\n\tgetMatrixAt( instanceId, matrix ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\t\treturn matrix.fromArray( this._matricesTexture.image.data, instanceId * 16 );\n\n\t}\n\n\t/**\n\t * Sets the given color to the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to set the color of.\n\t * @param {Color} color - The color to set the instance to.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetColorAt( instanceId, color ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tif ( this._colorsTexture === null ) {\n\n\t\t\tthis._initColorsTexture();\n\n\t\t}\n\n\t\tcolor.toArray( this._colorsTexture.image.data, instanceId * 4 );\n\t\tthis._colorsTexture.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the color of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the color of.\n\t * @param {Color} color - The target object that is used to store the method's result.\n\t * @return {Color} The instance's color.\n\t */\n\tgetColorAt( instanceId, color ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\t\treturn color.fromArray( this._colorsTexture.image.data, instanceId * 4 );\n\n\t}\n\n\t/**\n\t * Sets the visibility of the instance.\n\t *\n\t * @param {number} instanceId - The id of the instance to set the visibility of.\n\t * @param {boolean} visible - Whether the instance is visible or not.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetVisibleAt( instanceId, visible ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tif ( this._instanceInfo[ instanceId ].visible === visible ) {\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tthis._instanceInfo[ instanceId ].visible = visible;\n\t\tthis._visibilityChanged = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the visibility state of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the visibility state of.\n\t * @return {boolean} Whether the instance is visible or not.\n\t */\n\tgetVisibleAt( instanceId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\treturn this._instanceInfo[ instanceId ].visible;\n\n\t}\n\n\t/**\n\t * Sets the geometry ID of the instance at the given index.\n\t *\n\t * @param {number} instanceId - The ID of the instance to set the geometry ID of.\n\t * @param {number} geometryId - The geometry ID to be use by the instance.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetGeometryIdAt( instanceId, geometryId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\t\tthis.validateGeometryId( geometryId );\n\n\t\tthis._instanceInfo[ instanceId ].geometryIndex = geometryId;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the geometry ID of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the geometry ID of.\n\t * @return {number} The instance's geometry ID.\n\t */\n\tgetGeometryIdAt( instanceId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\treturn this._instanceInfo[ instanceId ].geometryIndex;\n\n\t}\n\n\t/**\n\t * Get the range representing the subset of triangles related to the attached geometry,\n\t * indicating the starting offset and count, or `null` if invalid.\n\t *\n\t * @param {number} geometryId - The id of the geometry to get the range of.\n\t * @param {Object} [target] - The target object that is used to store the method's result.\n\t * @return {{\n\t * \tvertexStart:number,vertexCount:number,reservedVertexCount:number,\n\t * \tindexStart:number,indexCount:number,reservedIndexCount:number,\n\t * \tstart:number,count:number\n\t * }} The result object with range data.\n\t */\n\tgetGeometryRangeAt( geometryId, target = {} ) {\n\n\t\tthis.validateGeometryId( geometryId );\n\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\ttarget.vertexStart = geometryInfo.vertexStart;\n\t\ttarget.vertexCount = geometryInfo.vertexCount;\n\t\ttarget.reservedVertexCount = geometryInfo.reservedVertexCount;\n\n\t\ttarget.indexStart = geometryInfo.indexStart;\n\t\ttarget.indexCount = geometryInfo.indexCount;\n\t\ttarget.reservedIndexCount = geometryInfo.reservedIndexCount;\n\n\t\ttarget.start = geometryInfo.start;\n\t\ttarget.count = geometryInfo.count;\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Resizes the necessary buffers to support the provided number of instances.\n\t * If the provided arguments shrink the number of instances but there are not enough\n\t * unused Ids at the end of the list then an error is thrown.\n\t *\n\t * @param {number} maxInstanceCount - The max number of individual instances that can be added and rendered by the batch.\n\t*/\n\tsetInstanceCount( maxInstanceCount ) {\n\n\t\t// shrink the available instances as much as possible\n\t\tconst availableInstanceIds = this._availableInstanceIds;\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tavailableInstanceIds.sort( ascIdSort );\n\t\twhile ( availableInstanceIds[ availableInstanceIds.length - 1 ] === instanceInfo.length - 1 ) {\n\n\t\t\tinstanceInfo.pop();\n\t\t\tavailableInstanceIds.pop();\n\n\t\t}\n\n\t\t// throw an error if it can't be shrunk to the desired size\n\t\tif ( maxInstanceCount < instanceInfo.length ) {\n\n\t\t\tthrow new Error( `BatchedMesh: Instance ids outside the range ${ maxInstanceCount } are being used. Cannot shrink instance count.` );\n\n\t\t}\n\n\t\t// copy the multi draw counts\n\t\tconst multiDrawCounts = new Int32Array( maxInstanceCount );\n\t\tconst multiDrawStarts = new Int32Array( maxInstanceCount );\n\t\tcopyArrayContents( this._multiDrawCounts, multiDrawCounts );\n\t\tcopyArrayContents( this._multiDrawStarts, multiDrawStarts );\n\n\t\tthis._multiDrawCounts = multiDrawCounts;\n\t\tthis._multiDrawStarts = multiDrawStarts;\n\t\tthis._maxInstanceCount = maxInstanceCount;\n\n\t\t// update texture data for instance sampling\n\t\tconst indirectTexture = this._indirectTexture;\n\t\tconst matricesTexture = this._matricesTexture;\n\t\tconst colorsTexture = this._colorsTexture;\n\n\t\tindirectTexture.dispose();\n\t\tthis._initIndirectTexture();\n\t\tcopyArrayContents( indirectTexture.image.data, this._indirectTexture.image.data );\n\n\t\tmatricesTexture.dispose();\n\t\tthis._initMatricesTexture();\n\t\tcopyArrayContents( matricesTexture.image.data, this._matricesTexture.image.data );\n\n\t\tif ( colorsTexture ) {\n\n\t\t\tcolorsTexture.dispose();\n\t\t\tthis._initColorsTexture();\n\t\t\tcopyArrayContents( colorsTexture.image.data, this._colorsTexture.image.data );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Resizes the available space in the batch's vertex and index buffer attributes to the provided sizes.\n\t * If the provided arguments shrink the geometry buffers but there is not enough unused space at the\n\t * end of the geometry attributes then an error is thrown.\n\t *\n\t * @param {number} maxVertexCount - The maximum number of vertices to be used by all unique geometries to resize to.\n\t * @param {number} maxIndexCount - The maximum number of indices to be used by all unique geometries to resize to.\n\t*/\n\tsetGeometrySize( maxVertexCount, maxIndexCount ) {\n\n\t\t// Check if we can shrink to the requested vertex attribute size\n\t\tconst validRanges = [ ...this._geometryInfo ].filter( info => info.active );\n\t\tconst requiredVertexLength = Math.max( ...validRanges.map( range => range.vertexStart + range.reservedVertexCount ) );\n\t\tif ( requiredVertexLength > maxVertexCount ) {\n\n\t\t\tthrow new Error( `BatchedMesh: Geometry vertex values are being used outside the range ${ maxIndexCount }. Cannot shrink further.` );\n\n\t\t}\n\n\t\t// Check if we can shrink to the requested index attribute size\n\t\tif ( this.geometry.index ) {\n\n\t\t\tconst requiredIndexLength = Math.max( ...validRanges.map( range => range.indexStart + range.reservedIndexCount ) );\n\t\t\tif ( requiredIndexLength > maxIndexCount ) {\n\n\t\t\t\tthrow new Error( `BatchedMesh: Geometry index values are being used outside the range ${ maxIndexCount }. Cannot shrink further.` );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\t// dispose of the previous geometry\n\t\tconst oldGeometry = this.geometry;\n\t\toldGeometry.dispose();\n\n\t\t// recreate the geometry needed based on the previous variant\n\t\tthis._maxVertexCount = maxVertexCount;\n\t\tthis._maxIndexCount = maxIndexCount;\n\n\t\tif ( this._geometryInitialized ) {\n\n\t\t\tthis._geometryInitialized = false;\n\t\t\tthis.geometry = new BufferGeometry();\n\t\t\tthis._initializeGeometry( oldGeometry );\n\n\t\t}\n\n\t\t// copy data from the previous geometry\n\t\tconst geometry = this.geometry;\n\t\tif ( oldGeometry.index ) {\n\n\t\t\tcopyArrayContents( oldGeometry.index.array, geometry.index.array );\n\n\t\t}\n\n\t\tfor ( const key in oldGeometry.attributes ) {\n\n\t\t\tcopyArrayContents( oldGeometry.attributes[ key ].array, geometry.attributes[ key ].array );\n\n\t\t}\n\n\t}\n\n\traycast( raycaster, intersects ) {\n\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst batchGeometry = this.geometry;\n\n\t\t// iterate over each geometry\n\t\t_mesh.material = this.material;\n\t\t_mesh.geometry.index = batchGeometry.index;\n\t\t_mesh.geometry.attributes = batchGeometry.attributes;\n\t\tif ( _mesh.geometry.boundingBox === null ) {\n\n\t\t\t_mesh.geometry.boundingBox = new Box3();\n\n\t\t}\n\n\t\tif ( _mesh.geometry.boundingSphere === null ) {\n\n\t\t\t_mesh.geometry.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( ! instanceInfo[ i ].visible || ! instanceInfo[ i ].active ) {\n\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\t\t\tconst geometryInfo = geometryInfoList[ geometryId ];\n\t\t\t_mesh.geometry.setDrawRange( geometryInfo.start, geometryInfo.count );\n\n\t\t\t// get the intersects\n\t\t\tthis.getMatrixAt( i, _mesh.matrixWorld ).premultiply( matrixWorld );\n\t\t\tthis.getBoundingBoxAt( geometryId, _mesh.geometry.boundingBox );\n\t\t\tthis.getBoundingSphereAt( geometryId, _mesh.geometry.boundingSphere );\n\t\t\t_mesh.raycast( raycaster, _batchIntersects );\n\n\t\t\t// add batch id to the intersects\n\t\t\tfor ( let j = 0, l = _batchIntersects.length; j < l; j ++ ) {\n\n\t\t\t\tconst intersect = _batchIntersects[ j ];\n\t\t\t\tintersect.object = this;\n\t\t\t\tintersect.batchId = i;\n\t\t\t\tintersects.push( intersect );\n\n\t\t\t}\n\n\t\t\t_batchIntersects.length = 0;\n\n\t\t}\n\n\t\t_mesh.material = null;\n\t\t_mesh.geometry.index = null;\n\t\t_mesh.geometry.attributes = {};\n\t\t_mesh.geometry.setDrawRange( 0, Infinity );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.geometry = source.geometry.clone();\n\t\tthis.perObjectFrustumCulled = source.perObjectFrustumCulled;\n\t\tthis.sortObjects = source.sortObjects;\n\t\tthis.boundingBox = source.boundingBox !== null ? source.boundingBox.clone() : null;\n\t\tthis.boundingSphere = source.boundingSphere !== null ? source.boundingSphere.clone() : null;\n\n\t\tthis._geometryInfo = source._geometryInfo.map( info => ( {\n\t\t\t...info,\n\n\t\t\tboundingBox: info.boundingBox !== null ? info.boundingBox.clone() : null,\n\t\t\tboundingSphere: info.boundingSphere !== null ? info.boundingSphere.clone() : null,\n\t\t} ) );\n\t\tthis._instanceInfo = source._instanceInfo.map( info => ( { ...info } ) );\n\n\t\tthis._availableInstanceIds = source._availableInstanceIds.slice();\n\t\tthis._availableGeometryIds = source._availableGeometryIds.slice();\n\n\t\tthis._nextIndexStart = source._nextIndexStart;\n\t\tthis._nextVertexStart = source._nextVertexStart;\n\t\tthis._geometryCount = source._geometryCount;\n\n\t\tthis._maxInstanceCount = source._maxInstanceCount;\n\t\tthis._maxVertexCount = source._maxVertexCount;\n\t\tthis._maxIndexCount = source._maxIndexCount;\n\n\t\tthis._geometryInitialized = source._geometryInitialized;\n\t\tthis._multiDrawCounts = source._multiDrawCounts.slice();\n\t\tthis._multiDrawStarts = source._multiDrawStarts.slice();\n\n\t\tthis._indirectTexture = source._indirectTexture.clone();\n\t\tthis._indirectTexture.image.data = this._indirectTexture.image.data.slice();\n\n\t\tthis._matricesTexture = source._matricesTexture.clone();\n\t\tthis._matricesTexture.image.data = this._matricesTexture.image.data.slice();\n\n\t\tif ( this._colorsTexture !== null ) {\n\n\t\t\tthis._colorsTexture = source._colorsTexture.clone();\n\t\t\tthis._colorsTexture.image.data = this._colorsTexture.image.data.slice();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\t// Assuming the geometry is not shared with other meshes\n\t\tthis.geometry.dispose();\n\n\t\tthis._matricesTexture.dispose();\n\t\tthis._matricesTexture = null;\n\n\t\tthis._indirectTexture.dispose();\n\t\tthis._indirectTexture = null;\n\n\t\tif ( this._colorsTexture !== null ) {\n\n\t\t\tthis._colorsTexture.dispose();\n\t\t\tthis._colorsTexture = null;\n\n\t\t}\n\n\t}\n\n\tonBeforeRender( renderer, scene, camera, geometry, material/*, _group*/ ) {\n\n\t\t// if visibility has not changed and frustum culling and object sorting is not required\n\t\t// then skip iterating over all items\n\t\tif ( ! this._visibilityChanged && ! this.perObjectFrustumCulled && ! this.sortObjects ) {\n\n\t\t\treturn;\n\n\t\t}\n\n\t\t// the indexed version of the multi draw function requires specifying the start\n\t\t// offset in bytes.\n\t\tconst index = geometry.getIndex();\n\t\tconst bytesPerElement = index === null ? 1 : index.array.BYTES_PER_ELEMENT;\n\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tconst multiDrawStarts = this._multiDrawStarts;\n\t\tconst multiDrawCounts = this._multiDrawCounts;\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tconst perObjectFrustumCulled = this.perObjectFrustumCulled;\n\t\tconst indirectTexture = this._indirectTexture;\n\t\tconst indirectArray = indirectTexture.image.data;\n\n\t\tconst frustum = camera.isArrayCamera ? _frustumArray : _frustum;\n\t\t// prepare the frustum in the local frame\n\t\tif ( perObjectFrustumCulled && ! camera.isArrayCamera ) {\n\n\t\t\t_matrix$1\n\t\t\t\t.multiplyMatrices( camera.projectionMatrix, camera.matrixWorldInverse )\n\t\t\t\t.multiply( this.matrixWorld );\n\n\t\t\t_frustum.setFromProjectionMatrix(\n\t\t\t\t_matrix$1,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t}\n\n\t\tlet multiDrawCount = 0;\n\t\tif ( this.sortObjects ) {\n\n\t\t\t// get the camera position in the local frame\n\t\t\t_matrix$1.copy( this.matrixWorld ).invert();\n\t\t\t_vector$5.setFromMatrixPosition( camera.matrixWorld ).applyMatrix4( _matrix$1 );\n\t\t\t_forward$1.set( 0, 0, -1 ).transformDirection( camera.matrixWorld ).transformDirection( _matrix$1 );\n\n\t\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\t\tif ( instanceInfo[ i ].visible && instanceInfo[ i ].active ) {\n\n\t\t\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\n\t\t\t\t\t// get the bounds in world space\n\t\t\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\t\t\tthis.getBoundingSphereAt( geometryId, _sphere$2 ).applyMatrix4( _matrix$1 );\n\n\t\t\t\t\t// determine whether the batched geometry is within the frustum\n\t\t\t\t\tlet culled = false;\n\t\t\t\t\tif ( perObjectFrustumCulled ) {\n\n\t\t\t\t\t\tculled = ! frustum.intersectsSphere( _sphere$2, camera );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! culled ) {\n\n\t\t\t\t\t\t// get the distance from camera used for sorting\n\t\t\t\t\t\tconst geometryInfo = geometryInfoList[ geometryId ];\n\t\t\t\t\t\tconst z = _temp.subVectors( _sphere$2.center, _vector$5 ).dot( _forward$1 );\n\t\t\t\t\t\t_renderList.push( geometryInfo.start, geometryInfo.count, z, i );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// Sort the draw ranges and prep for rendering\n\t\t\tconst list = _renderList.list;\n\t\t\tconst customSort = this.customSort;\n\t\t\tif ( customSort === null ) {\n\n\t\t\t\tlist.sort( material.transparent ? sortTransparent : sortOpaque );\n\n\t\t\t} else {\n\n\t\t\t\tcustomSort.call( this, list, camera );\n\n\t\t\t}\n\n\t\t\tfor ( let i = 0, l = list.length; i < l; i ++ ) {\n\n\t\t\t\tconst item = list[ i ];\n\t\t\t\tmultiDrawStarts[ multiDrawCount ] = item.start * bytesPerElement;\n\t\t\t\tmultiDrawCounts[ multiDrawCount ] = item.count;\n\t\t\t\tindirectArray[ multiDrawCount ] = item.index;\n\t\t\t\tmultiDrawCount ++;\n\n\t\t\t}\n\n\t\t\t_renderList.reset();\n\n\t\t} else {\n\n\t\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\t\tif ( instanceInfo[ i ].visible && instanceInfo[ i ].active ) {\n\n\t\t\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\n\t\t\t\t\t// determine whether the batched geometry is within the frustum\n\t\t\t\t\tlet culled = false;\n\t\t\t\t\tif ( perObjectFrustumCulled ) {\n\n\t\t\t\t\t\t// get the bounds in world space\n\t\t\t\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\t\t\t\tthis.getBoundingSphereAt( geometryId, _sphere$2 ).applyMatrix4( _matrix$1 );\n\t\t\t\t\t\tculled = ! frustum.intersectsSphere( _sphere$2, camera );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! culled ) {\n\n\t\t\t\t\t\tconst geometryInfo = geometryInfoList[ geometryId ];\n\t\t\t\t\t\tmultiDrawStarts[ multiDrawCount ] = geometryInfo.start * bytesPerElement;\n\t\t\t\t\t\tmultiDrawCounts[ multiDrawCount ] = geometryInfo.count;\n\t\t\t\t\t\tindirectArray[ multiDrawCount ] = i;\n\t\t\t\t\t\tmultiDrawCount ++;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tindirectTexture.needsUpdate = true;\n\t\tthis._multiDrawCount = multiDrawCount;\n\t\tthis._visibilityChanged = false;\n\n\t}\n\n\tonBeforeShadow( renderer, object, camera, shadowCamera, geometry, depthMaterial/* , group */ ) {\n\n\t\tthis.onBeforeRender( renderer, null, shadowCamera, geometry, depthMaterial );\n\n\t}\n\n}\n\n/**\n * A material for rendering line primitives.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * ```js\n * const material = new THREE.LineBasicMaterial( { color: 0xffffff } );\n * ```\n *\n * @augments Material\n */\nclass LineBasicMaterial extends Material {\n\n\t/**\n\t * Constructs a new line basic material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineBasicMaterial = true;\n\n\t\tthis.type = 'LineBasicMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * Sets the color of the lines using data from a texture. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * Controls line thickness or lines.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}. WebGL and WebGPU\n\t\t * ignore this setting and always render line primitives with a\n\t\t * width of one pixel.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.linewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of line ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('butt'|'round'|'square')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.linecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of line joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.linejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.linewidth = source.linewidth;\n\t\tthis.linecap = source.linecap;\n\t\tthis.linejoin = source.linejoin;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _vStart = /*@__PURE__*/ new Vector3();\nconst _vEnd = /*@__PURE__*/ new Vector3();\n\nconst _inverseMatrix$1 = /*@__PURE__*/ new Matrix4();\nconst _ray$1 = /*@__PURE__*/ new Ray();\nconst _sphere$1 = /*@__PURE__*/ new Sphere();\n\nconst _intersectPointOnRay = /*@__PURE__*/ new Vector3();\nconst _intersectPointOnSegment = /*@__PURE__*/ new Vector3();\n\n/**\n * A continuous line. The line are rendered by connecting consecutive\n * vertices with straight lines.\n *\n * ```js\n * const material = new THREE.LineBasicMaterial( { color: 0x0000ff } );\n *\n * const points = [];\n * points.push( new THREE.Vector3( - 10, 0, 0 ) );\n * points.push( new THREE.Vector3( 0, 10, 0 ) );\n * points.push( new THREE.Vector3( 10, 0, 0 ) );\n *\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const line = new THREE.Line( geometry, material );\n * scene.add( line );\n * ```\n *\n * @augments Object3D\n */\nclass Line extends Object3D {\n\n\t/**\n\t * Constructs a new line.\n\t *\n\t * @param {BufferGeometry} [geometry] - The line geometry.\n\t * @param {Material|Array} [material] - The line material.\n\t */\n\tconstructor( geometry = new BufferGeometry(), material = new LineBasicMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLine = true;\n\n\t\tthis.type = 'Line';\n\n\t\t/**\n\t\t * The line geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = geometry;\n\n\t\t/**\n\t\t * The line material.\n\t\t *\n\t\t * @type {Material|Array}\n\t\t * @default LineBasicMaterial\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * A dictionary representing the morph targets in the geometry. The key is the\n\t\t * morph targets name, the value its attribute index. This member is `undefined`\n\t\t * by default and only set when morph targets are detected in the geometry.\n\t\t *\n\t\t * @type {Object|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetDictionary = undefined;\n\n\t\t/**\n\t\t * An array of weights typically in the range `[0,1]` that specify how much of the morph\n\t\t * is applied. This member is `undefined` by default and only set when morph targets are\n\t\t * detected in the geometry.\n\t\t *\n\t\t * @type {Array|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetInfluences = undefined;\n\n\t\tthis.updateMorphTargets();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.material = Array.isArray( source.material ) ? source.material.slice() : source.material;\n\t\tthis.geometry = source.geometry;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes an array of distance values which are necessary for rendering dashed lines.\n\t * For each vertex in the geometry, the method calculates the cumulative length from the\n\t * current point to the very beginning of the line.\n\t *\n\t * @return {Line} A reference to this line.\n\t */\n\tcomputeLineDistances() {\n\n\t\tconst geometry = this.geometry;\n\n\t\t// we assume non-indexed geometry\n\n\t\tif ( geometry.index === null ) {\n\n\t\t\tconst positionAttribute = geometry.attributes.position;\n\t\t\tconst lineDistances = [ 0 ];\n\n\t\t\tfor ( let i = 1, l = positionAttribute.count; i < l; i ++ ) {\n\n\t\t\t\t_vStart.fromBufferAttribute( positionAttribute, i - 1 );\n\t\t\t\t_vEnd.fromBufferAttribute( positionAttribute, i );\n\n\t\t\t\tlineDistances[ i ] = lineDistances[ i - 1 ];\n\t\t\t\tlineDistances[ i ] += _vStart.distanceTo( _vEnd );\n\n\t\t\t}\n\n\t\t\tgeometry.setAttribute( 'lineDistance', new Float32BufferAttribute( lineDistances, 1 ) );\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.Line.computeLineDistances(): Computation only possible with non-indexed BufferGeometry.' );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this line.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst threshold = raycaster.params.Line.threshold;\n\t\tconst drawRange = geometry.drawRange;\n\n\t\t// Checking boundingSphere distance to ray\n\n\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t_sphere$1.copy( geometry.boundingSphere );\n\t\t_sphere$1.applyMatrix4( matrixWorld );\n\t\t_sphere$1.radius += threshold;\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere$1 ) === false ) return;\n\n\t\t//\n\n\t\t_inverseMatrix$1.copy( matrixWorld ).invert();\n\t\t_ray$1.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$1 );\n\n\t\tconst localThreshold = threshold / ( ( this.scale.x + this.scale.y + this.scale.z ) / 3 );\n\t\tconst localThresholdSq = localThreshold * localThreshold;\n\n\t\tconst step = this.isLineSegments ? 2 : 1;\n\n\t\tconst index = geometry.index;\n\t\tconst attributes = geometry.attributes;\n\t\tconst positionAttribute = attributes.position;\n\n\t\tif ( index !== null ) {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( index.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, l = end - 1; i < l; i += step ) {\n\n\t\t\t\tconst a = index.getX( i );\n\t\t\t\tconst b = index.getX( i + 1 );\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, a, b, i );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( this.isLineLoop ) {\n\n\t\t\t\tconst a = index.getX( end - 1 );\n\t\t\t\tconst b = index.getX( start );\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, a, b, end - 1 );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( positionAttribute.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, l = end - 1; i < l; i += step ) {\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, i, i + 1, i );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( this.isLineLoop ) {\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, end - 1, start, end - 1 );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the values of {@link Line#morphTargetDictionary} and {@link Line#morphTargetInfluences}\n\t * to make sure existing morph targets can influence this 3D object.\n\t */\n\tupdateMorphTargets() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst morphAttributes = geometry.morphAttributes;\n\t\tconst keys = Object.keys( morphAttributes );\n\n\t\tif ( keys.length > 0 ) {\n\n\t\t\tconst morphAttribute = morphAttributes[ keys[ 0 ] ];\n\n\t\t\tif ( morphAttribute !== undefined ) {\n\n\t\t\t\tthis.morphTargetInfluences = [];\n\t\t\t\tthis.morphTargetDictionary = {};\n\n\t\t\t\tfor ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) {\n\n\t\t\t\t\tconst name = morphAttribute[ m ].name || String( m );\n\n\t\t\t\t\tthis.morphTargetInfluences.push( 0 );\n\t\t\t\t\tthis.morphTargetDictionary[ name ] = m;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n}\n\nfunction checkIntersection( object, raycaster, ray, thresholdSq, a, b, i ) {\n\n\tconst positionAttribute = object.geometry.attributes.position;\n\n\t_vStart.fromBufferAttribute( positionAttribute, a );\n\t_vEnd.fromBufferAttribute( positionAttribute, b );\n\n\tconst distSq = ray.distanceSqToSegment( _vStart, _vEnd, _intersectPointOnRay, _intersectPointOnSegment );\n\n\tif ( distSq > thresholdSq ) return;\n\n\t_intersectPointOnRay.applyMatrix4( object.matrixWorld ); // Move back to world space for distance calculation\n\n\tconst distance = raycaster.ray.origin.distanceTo( _intersectPointOnRay );\n\n\tif ( distance < raycaster.near || distance > raycaster.far ) return;\n\n\treturn {\n\n\t\tdistance: distance,\n\t\t// What do we want? intersection point on the ray or on the segment??\n\t\t// point: raycaster.ray.at( distance ),\n\t\tpoint: _intersectPointOnSegment.clone().applyMatrix4( object.matrixWorld ),\n\t\tindex: i,\n\t\tface: null,\n\t\tfaceIndex: null,\n\t\tbarycoord: null,\n\t\tobject: object\n\n\t};\n\n}\n\nconst _start = /*@__PURE__*/ new Vector3();\nconst _end = /*@__PURE__*/ new Vector3();\n\n/**\n * A series of lines drawn between pairs of vertices.\n *\n * @augments Line\n */\nclass LineSegments extends Line {\n\n\t/**\n\t * Constructs a new line segments.\n\t *\n\t * @param {BufferGeometry} [geometry] - The line geometry.\n\t * @param {Material|Array} [material] - The line material.\n\t */\n\tconstructor( geometry, material ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineSegments = true;\n\n\t\tthis.type = 'LineSegments';\n\n\t}\n\n\tcomputeLineDistances() {\n\n\t\tconst geometry = this.geometry;\n\n\t\t// we assume non-indexed geometry\n\n\t\tif ( geometry.index === null ) {\n\n\t\t\tconst positionAttribute = geometry.attributes.position;\n\t\t\tconst lineDistances = [];\n\n\t\t\tfor ( let i = 0, l = positionAttribute.count; i < l; i += 2 ) {\n\n\t\t\t\t_start.fromBufferAttribute( positionAttribute, i );\n\t\t\t\t_end.fromBufferAttribute( positionAttribute, i + 1 );\n\n\t\t\t\tlineDistances[ i ] = ( i === 0 ) ? 0 : lineDistances[ i - 1 ];\n\t\t\t\tlineDistances[ i + 1 ] = lineDistances[ i ] + _start.distanceTo( _end );\n\n\t\t\t}\n\n\t\t\tgeometry.setAttribute( 'lineDistance', new Float32BufferAttribute( lineDistances, 1 ) );\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.LineSegments.computeLineDistances(): Computation only possible with non-indexed BufferGeometry.' );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A continuous line. This is nearly the same as {@link Line} the only difference\n * is that the last vertex is connected with the first vertex in order to close\n * the line to form a loop.\n *\n * @augments Line\n */\nclass LineLoop extends Line {\n\n\t/**\n\t * Constructs a new line loop.\n\t *\n\t * @param {BufferGeometry} [geometry] - The line geometry.\n\t * @param {Material|Array} [material] - The line material.\n\t */\n\tconstructor( geometry, material ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineLoop = true;\n\n\t\tthis.type = 'LineLoop';\n\n\t}\n\n}\n\n/**\n * A material for rendering point primitives.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * ```js\n * const vertices = [];\n *\n * for ( let i = 0; i < 10000; i ++ ) {\n * \tconst x = THREE.MathUtils.randFloatSpread( 2000 );\n * \tconst y = THREE.MathUtils.randFloatSpread( 2000 );\n * \tconst z = THREE.MathUtils.randFloatSpread( 2000 );\n *\n * \tvertices.push( x, y, z );\n * }\n *\n * const geometry = new THREE.BufferGeometry();\n * geometry.setAttribute( 'position', new THREE.Float32BufferAttribute( vertices, 3 ) );\n * const material = new THREE.PointsMaterial( { color: 0x888888 } );\n * const points = new THREE.Points( geometry, material );\n * scene.add( points );\n * ```\n *\n * @augments Material\n */\nclass PointsMaterial extends Material {\n\n\t/**\n\t * Constructs a new points material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPointsMaterial = true;\n\n\t\tthis.type = 'PointsMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * Defines the size of the points in pixels.\n\t\t *\n\t\t * Might be capped if the value exceeds hardware dependent parameters like [gl.ALIASED_POINT_SIZE_RANGE]{@link https://developer.mozilla.org/en-US/docs/Web/API/WebGLRenderingContext/getParamete}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.size = 1;\n\n\t\t/**\n\t\t * Specifies whether size of individual points is attenuated by the camera depth (perspective camera only).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.sizeAttenuation = true;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.size = source.size;\n\t\tthis.sizeAttenuation = source.sizeAttenuation;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _inverseMatrix = /*@__PURE__*/ new Matrix4();\nconst _ray = /*@__PURE__*/ new Ray();\nconst _sphere = /*@__PURE__*/ new Sphere();\nconst _position$2 = /*@__PURE__*/ new Vector3();\n\n/**\n * A class for displaying points or point clouds.\n *\n * @augments Object3D\n */\nclass Points extends Object3D {\n\n\t/**\n\t * Constructs a new point cloud.\n\t *\n\t * @param {BufferGeometry} [geometry] - The points geometry.\n\t * @param {Material|Array} [material] - The points material.\n\t */\n\tconstructor( geometry = new BufferGeometry(), material = new PointsMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPoints = true;\n\n\t\tthis.type = 'Points';\n\n\t\t/**\n\t\t * The points geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = geometry;\n\n\t\t/**\n\t\t * The line material.\n\t\t *\n\t\t * @type {Material|Array}\n\t\t * @default PointsMaterial\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * A dictionary representing the morph targets in the geometry. The key is the\n\t\t * morph targets name, the value its attribute index. This member is `undefined`\n\t\t * by default and only set when morph targets are detected in the geometry.\n\t\t *\n\t\t * @type {Object|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetDictionary = undefined;\n\n\t\t/**\n\t\t * An array of weights typically in the range `[0,1]` that specify how much of the morph\n\t\t * is applied. This member is `undefined` by default and only set when morph targets are\n\t\t * detected in the geometry.\n\t\t *\n\t\t * @type {Array|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetInfluences = undefined;\n\n\t\tthis.updateMorphTargets();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.material = Array.isArray( source.material ) ? source.material.slice() : source.material;\n\t\tthis.geometry = source.geometry;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this point cloud.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst threshold = raycaster.params.Points.threshold;\n\t\tconst drawRange = geometry.drawRange;\n\n\t\t// Checking boundingSphere distance to ray\n\n\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t_sphere.copy( geometry.boundingSphere );\n\t\t_sphere.applyMatrix4( matrixWorld );\n\t\t_sphere.radius += threshold;\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere ) === false ) return;\n\n\t\t//\n\n\t\t_inverseMatrix.copy( matrixWorld ).invert();\n\t\t_ray.copy( raycaster.ray ).applyMatrix4( _inverseMatrix );\n\n\t\tconst localThreshold = threshold / ( ( this.scale.x + this.scale.y + this.scale.z ) / 3 );\n\t\tconst localThresholdSq = localThreshold * localThreshold;\n\n\t\tconst index = geometry.index;\n\t\tconst attributes = geometry.attributes;\n\t\tconst positionAttribute = attributes.position;\n\n\t\tif ( index !== null ) {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( index.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, il = end; i < il; i ++ ) {\n\n\t\t\t\tconst a = index.getX( i );\n\n\t\t\t\t_position$2.fromBufferAttribute( positionAttribute, a );\n\n\t\t\t\ttestPoint( _position$2, a, localThresholdSq, matrixWorld, raycaster, intersects, this );\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( positionAttribute.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, l = end; i < l; i ++ ) {\n\n\t\t\t\t_position$2.fromBufferAttribute( positionAttribute, i );\n\n\t\t\t\ttestPoint( _position$2, i, localThresholdSq, matrixWorld, raycaster, intersects, this );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the values of {@link Points#morphTargetDictionary} and {@link Points#morphTargetInfluences}\n\t * to make sure existing morph targets can influence this 3D object.\n\t */\n\tupdateMorphTargets() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst morphAttributes = geometry.morphAttributes;\n\t\tconst keys = Object.keys( morphAttributes );\n\n\t\tif ( keys.length > 0 ) {\n\n\t\t\tconst morphAttribute = morphAttributes[ keys[ 0 ] ];\n\n\t\t\tif ( morphAttribute !== undefined ) {\n\n\t\t\t\tthis.morphTargetInfluences = [];\n\t\t\t\tthis.morphTargetDictionary = {};\n\n\t\t\t\tfor ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) {\n\n\t\t\t\t\tconst name = morphAttribute[ m ].name || String( m );\n\n\t\t\t\t\tthis.morphTargetInfluences.push( 0 );\n\t\t\t\t\tthis.morphTargetDictionary[ name ] = m;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n}\n\nfunction testPoint( point, index, localThresholdSq, matrixWorld, raycaster, intersects, object ) {\n\n\tconst rayPointDistanceSq = _ray.distanceSqToPoint( point );\n\n\tif ( rayPointDistanceSq < localThresholdSq ) {\n\n\t\tconst intersectPoint = new Vector3();\n\n\t\t_ray.closestPointToPoint( point, intersectPoint );\n\t\tintersectPoint.applyMatrix4( matrixWorld );\n\n\t\tconst distance = raycaster.ray.origin.distanceTo( intersectPoint );\n\n\t\tif ( distance < raycaster.near || distance > raycaster.far ) return;\n\n\t\tintersects.push( {\n\n\t\t\tdistance: distance,\n\t\t\tdistanceToRay: Math.sqrt( rayPointDistanceSq ),\n\t\t\tpoint: intersectPoint,\n\t\t\tindex: index,\n\t\t\tface: null,\n\t\t\tfaceIndex: null,\n\t\t\tbarycoord: null,\n\t\t\tobject: object\n\n\t\t} );\n\n\t}\n\n}\n\n/**\n * A texture for use with a video.\n *\n * ```js\n * // assuming you have created a HTML video element with id=\"video\"\n * const video = document.getElementById( 'video' );\n * const texture = new THREE.VideoTexture( video );\n * ```\n *\n * Note: When using video textures with {@link WebGPURenderer}, {@link Texture#colorSpace} must be\n * set to THREE.SRGBColorSpace.\n *\n * Note: After the initial use of a texture, its dimensions, format, and type\n * cannot be changed. Instead, call {@link Texture#dispose} on the texture and instantiate a new one.\n *\n * @augments Texture\n */\nclass VideoTexture extends Texture {\n\n\t/**\n\t * Constructs a new video texture.\n\t *\n\t * @param {HTMLVideoElement} video - The video element to use as a data source for the texture.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t */\n\tconstructor( video, mapping, wrapS, wrapT, magFilter = LinearFilter, minFilter = LinearFilter, format, type, anisotropy ) {\n\n\t\tsuper( video, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isVideoTexture = true;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * The video frame request callback identifier, which is a positive integer.\n\t\t *\n\t\t * Value of 0 represents no scheduled rVFC.\n\t\t *\n\t\t * @private\n\t\t * @type {number}\n\t\t */\n\t\tthis._requestVideoFrameCallbackId = 0;\n\n\t\tconst scope = this;\n\n\t\tfunction updateVideo() {\n\n\t\t\tscope.needsUpdate = true;\n\t\t\tscope._requestVideoFrameCallbackId = video.requestVideoFrameCallback( updateVideo );\n\n\t\t}\n\n\t\tif ( 'requestVideoFrameCallback' in video ) {\n\n\t\t\tthis._requestVideoFrameCallbackId = video.requestVideoFrameCallback( updateVideo );\n\n\t\t}\n\n\t}\n\n\tclone() {\n\n\t\treturn new this.constructor( this.image ).copy( this );\n\n\t}\n\n\t/**\n\t * This method is called automatically by the renderer and sets {@link Texture#needsUpdate}\n\t * to `true` every time a new frame is available.\n\t *\n\t * Only relevant if `requestVideoFrameCallback` is not supported in the browser.\n\t */\n\tupdate() {\n\n\t\tconst video = this.image;\n\t\tconst hasVideoFrameCallback = 'requestVideoFrameCallback' in video;\n\n\t\tif ( hasVideoFrameCallback === false && video.readyState >= video.HAVE_CURRENT_DATA ) {\n\n\t\t\tthis.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\tdispose() {\n\n\t\tif ( this._requestVideoFrameCallbackId !== 0 ) {\n\n\t\t\tthis.source.data.cancelVideoFrameCallback( this._requestVideoFrameCallbackId );\n\n\t\t}\n\n\t\tsuper.dispose();\n\n\t}\n\n}\n\n/**\n * This class can be used as an alternative way to define video data. Instead of using\n * an instance of `HTMLVideoElement` like with `VideoTexture`, `VideoFrameTexture` expects each frame is\n * defined manually via {@link VideoFrameTexture#setFrame}. A typical use case for this module is when\n * video frames are decoded with the WebCodecs API.\n *\n * ```js\n * const texture = new THREE.VideoFrameTexture();\n * texture.setFrame( frame );\n * ```\n *\n * @augments VideoTexture\n */\nclass VideoFrameTexture extends VideoTexture {\n\n\t/**\n\t * Constructs a new video frame texture.\n\t *\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t */\n\tconstructor( mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ) {\n\n\t\tsuper( {}, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isVideoFrameTexture = true;\n\n\t}\n\n\t/**\n\t * This method overwritten with an empty implementation since\n\t * this type of texture is updated via `setFrame()`.\n\t */\n\tupdate() {}\n\n\tclone() {\n\n\t\treturn new this.constructor().copy( this ); // restoring Texture.clone()\n\n\t}\n\n\t/**\n\t * Sets the current frame of the video. This will automatically update the texture\n\t * so the data can be used for rendering.\n\t *\n\t * @param {VideoFrame} frame - The video frame.\n\t */\n\tsetFrame( frame ) {\n\n\t\tthis.image = frame;\n\t\tthis.needsUpdate = true;\n\n\t}\n\n}\n\n/**\n * This class can only be used in combination with `copyFramebufferToTexture()` methods\n * of renderers. It extracts the contents of the current bound framebuffer and provides it\n * as a texture for further usage.\n *\n * ```js\n * const pixelRatio = window.devicePixelRatio;\n * const textureSize = 128 * pixelRatio;\n *\n * const frameTexture = new FramebufferTexture( textureSize, textureSize );\n *\n * // calculate start position for copying part of the frame data\n * const vector = new Vector2();\n * vector.x = ( window.innerWidth * pixelRatio / 2 ) - ( textureSize / 2 );\n * vector.y = ( window.innerHeight * pixelRatio / 2 ) - ( textureSize / 2 );\n *\n * renderer.render( scene, camera );\n *\n * // copy part of the rendered frame into the framebuffer texture\n * renderer.copyFramebufferToTexture( frameTexture, vector );\n * ```\n *\n * @augments Texture\n */\nclass FramebufferTexture extends Texture {\n\n\t/**\n\t * Constructs a new framebuffer texture.\n\t *\n\t * @param {number} [width] - The width of the texture.\n\t * @param {number} [height] - The height of the texture.\n\t */\n\tconstructor( width, height ) {\n\n\t\tsuper( { width, height } );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isFramebufferTexture = true;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default to disable filtering.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.magFilter = NearestFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default to disable filtering.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.minFilter = NearestFilter;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\tthis.needsUpdate = true;\n\n\t}\n\n}\n\n/**\n * Creates a texture based on data in compressed form.\n *\n * These texture are usually loaded with {@link CompressedTextureLoader}.\n *\n * @augments Texture\n */\nclass CompressedTexture extends Texture {\n\n\t/**\n\t * Constructs a new compressed texture.\n\t *\n\t * @param {Array} mipmaps - This array holds for all mipmaps (including the bases mip)\n\t * the data and dimensions.\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space.\n\t */\n\tconstructor( mipmaps, width, height, format, type, mapping, wrapS, wrapT, magFilter, minFilter, anisotropy, colorSpace ) {\n\n\t\tsuper( null, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCompressedTexture = true;\n\n\t\t/**\n\t\t * The image property of a compressed texture just defines its dimensions.\n\t\t *\n\t\t * @type {{width:number,height:number}}\n\t\t */\n\t\tthis.image = { width: width, height: height };\n\n\t\t/**\n\t\t * This array holds for all mipmaps (including the bases mip) the data and dimensions.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.mipmaps = mipmaps;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default since it is not possible to\n\t\t * flip compressed textures.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t * @readonly\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default since it is not\n\t\t * possible to generate mipmaps for compressed data. Mipmaps\n\t\t * must be embedded in the compressed texture file.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t * @readonly\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t}\n\n}\n\n/**\n * Creates a texture 2D array based on data in compressed form.\n *\n * These texture are usually loaded with {@link CompressedTextureLoader}.\n *\n * @augments CompressedTexture\n */\nclass CompressedArrayTexture extends CompressedTexture {\n\n\t/**\n\t * Constructs a new compressed array texture.\n\t *\n\t * @param {Array} mipmaps - This array holds for all mipmaps (including the bases mip)\n\t * the data and dimensions.\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} depth - The depth of the texture.\n\t * @param {number} [format=RGBAFormat] - The min filter value.\n\t * @param {number} [type=UnsignedByteType] - The min filter value.\n\t */\n\tconstructor( mipmaps, width, height, depth, format, type ) {\n\n\t\tsuper( mipmaps, width, height, format, type );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCompressedArrayTexture = true;\n\n\t\t/**\n\t\t * The image property of a compressed texture just defines its dimensions.\n\t\t *\n\t\t * @name CompressedArrayTexture#image\n\t\t * @type {{width:number,height:number,depth:number}}\n\t\t */\n\t\tthis.image.depth = depth;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped in the depth and corresponds to\n\t\t * *W* in UVW mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapR = ClampToEdgeWrapping;\n\n\t\t/**\n\t\t * A set of all layers which need to be updated in the texture.\n\t\t *\n\t\t * @type {Set}\n\t\t */\n\t\tthis.layerUpdates = new Set();\n\n\t}\n\n\t/**\n\t * Describes that a specific layer of the texture needs to be updated.\n\t * Normally when {@link Texture#needsUpdate} is set to `true`, the\n\t * entire compressed texture array is sent to the GPU. Marking specific\n\t * layers will only transmit subsets of all mipmaps associated with a\n\t * specific depth in the array which is often much more performant.\n\t *\n\t * @param {number} layerIndex - The layer index that should be updated.\n\t */\n\taddLayerUpdate( layerIndex ) {\n\n\t\tthis.layerUpdates.add( layerIndex );\n\n\t}\n\n\t/**\n\t * Resets the layer updates registry.\n\t */\n\tclearLayerUpdates() {\n\n\t\tthis.layerUpdates.clear();\n\n\t}\n\n}\n\n/**\n * Creates a cube texture based on data in compressed form.\n *\n * These texture are usually loaded with {@link CompressedTextureLoader}.\n *\n * @augments CompressedTexture\n */\nclass CompressedCubeTexture extends CompressedTexture {\n\n\t/**\n\t * Constructs a new compressed texture.\n\t *\n\t * @param {Array} images - An array of compressed textures.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t */\n\tconstructor( images, format, type ) {\n\n\t\tsuper( undefined, images[ 0 ].width, images[ 0 ].height, format, type, CubeReflectionMapping );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCompressedCubeTexture = true;\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubeTexture = true;\n\n\t\tthis.image = images;\n\n\t}\n\n}\n\n/**\n * Creates a texture from a canvas element.\n *\n * This is almost the same as the base texture class, except that it sets {@link Texture#needsUpdate}\n * to `true` immediately since a canvas can directly be used for rendering.\n *\n * @augments Texture\n */\nclass CanvasTexture extends Texture {\n\n\t/**\n\t * Constructs a new texture.\n\t *\n\t * @param {HTMLCanvasElement} [canvas] - The HTML canvas element.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t */\n\tconstructor( canvas, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ) {\n\n\t\tsuper( canvas, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCanvasTexture = true;\n\n\t\tthis.needsUpdate = true;\n\n\t}\n\n}\n\n/**\n * This class can be used to automatically save the depth information of a\n * rendering into a texture.\n *\n * @augments Texture\n */\nclass DepthTexture extends Texture {\n\n\t/**\n\t * Constructs a new depth texture.\n\t *\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} [type=UnsignedIntType] - The texture type.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearFilter] - The min filter value.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {number} [format=DepthFormat] - The texture format.\n\t * @param {number} [depth=1] - The depth of the texture.\n\t */\n\tconstructor( width, height, type = UnsignedIntType, mapping, wrapS, wrapT, magFilter = NearestFilter, minFilter = NearestFilter, anisotropy, format = DepthFormat, depth = 1 ) {\n\n\t\tif ( format !== DepthFormat && format !== DepthStencilFormat ) {\n\n\t\t\tthrow new Error( 'DepthTexture format must be either THREE.DepthFormat or THREE.DepthStencilFormat' );\n\n\t\t}\n\n\t\tconst image = { width: width, height: height, depth: depth };\n\n\t\tsuper( image, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDepthTexture = true;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * Code corresponding to the depth compare function.\n\t\t *\n\t\t * @type {?(NeverCompare|LessCompare|EqualCompare|LessEqualCompare|GreaterCompare|NotEqualCompare|GreaterEqualCompare|AlwaysCompare)}\n\t\t * @default null\n\t\t */\n\t\tthis.compareFunction = null;\n\n\t}\n\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.source = new Source( Object.assign( {}, source.image ) ); // see #30540\n\t\tthis.compareFunction = source.compareFunction;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tif ( this.compareFunction !== null ) data.compareFunction = this.compareFunction;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Represents a texture created externally with the same renderer context.\n *\n * This may be a texture from a protected media stream, device camera feed,\n * or other data feeds like a depth sensor.\n *\n * Note that this class is only supported in {@link WebGLRenderer}, and in\n * the {@link WebGPURenderer} WebGPU backend.\n *\n * @augments Texture\n */\nclass ExternalTexture extends Texture {\n\n\t/**\n\t * Creates a new raw texture.\n\t *\n\t * @param {?(WebGLTexture|GPUTexture)} [sourceTexture=null] - The external texture.\n\t */\n\tconstructor( sourceTexture = null ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The external source texture.\n\t\t *\n\t\t * @type {?(WebGLTexture|GPUTexture)}\n\t\t * @default null\n\t\t */\n\t\tthis.sourceTexture = sourceTexture;\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isExternalTexture = true;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.sourceTexture = source.sourceTexture;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a capsule.\n *\n * ```js\n * const geometry = new THREE.CapsuleGeometry( 1, 1, 4, 8, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const capsule = new THREE.Mesh( geometry, material );\n * scene.add( capsule );\n * ```\n *\n * @augments BufferGeometry\n */\nclass CapsuleGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new capsule geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the capsule.\n\t * @param {number} [height=1] - Height of the middle section.\n\t * @param {number} [capSegments=4] - Number of curve segments used to build each cap.\n\t * @param {number} [radialSegments=8] - Number of segmented faces around the circumference of the capsule. Must be an integer >= 3.\n\t * @param {number} [heightSegments=1] - Number of rows of faces along the height of the middle section. Must be an integer >= 1.\n\t */\n\tconstructor( radius = 1, height = 1, capSegments = 4, radialSegments = 8, heightSegments = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CapsuleGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\theight: height,\n\t\t\tcapSegments: capSegments,\n\t\t\tradialSegments: radialSegments,\n\t\t\theightSegments: heightSegments,\n\t\t};\n\n\t\theight = Math.max( 0, height );\n\t\tcapSegments = Math.max( 1, Math.floor( capSegments ) );\n\t\tradialSegments = Math.max( 3, Math.floor( radialSegments ) );\n\t\theightSegments = Math.max( 1, Math.floor( heightSegments ) );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst halfHeight = height / 2;\n\t\tconst capArcLength = ( Math.PI / 2 ) * radius;\n\t\tconst cylinderPartLength = height;\n\t\tconst totalArcLength = 2 * capArcLength + cylinderPartLength;\n\n\t\tconst numVerticalSegments = capSegments * 2 + heightSegments;\n\t\tconst verticesPerRow = radialSegments + 1;\n\n\t\tconst normal = new Vector3();\n\t\tconst vertex = new Vector3();\n\n\t\t// generate vertices, normals, and uvs\n\n\t\tfor ( let iy = 0; iy <= numVerticalSegments; iy ++ ) {\n\n\t\t\tlet currentArcLength = 0;\n\t\t\tlet profileY = 0;\n\t\t\tlet profileRadius = 0;\n\t\t\tlet normalYComponent = 0;\n\n\t\t\tif ( iy <= capSegments ) {\n\n\t\t\t\t// bottom cap\n\t\t\t\tconst segmentProgress = iy / capSegments;\n\t\t\t\tconst angle = ( segmentProgress * Math.PI ) / 2;\n\t\t\t\tprofileY = - halfHeight - radius * Math.cos( angle );\n\t\t\t\tprofileRadius = radius * Math.sin( angle );\n\t\t\t\tnormalYComponent = - radius * Math.cos( angle );\n\t\t\t\tcurrentArcLength = segmentProgress * capArcLength;\n\n\t\t\t} else if ( iy <= capSegments + heightSegments ) {\n\n\t\t\t\t// middle section\n\t\t\t\tconst segmentProgress = ( iy - capSegments ) / heightSegments;\n\t\t\t\tprofileY = - halfHeight + segmentProgress * height;\n\t\t\t\tprofileRadius = radius;\n\t\t\t\tnormalYComponent = 0;\n\t\t\t\tcurrentArcLength = capArcLength + segmentProgress * cylinderPartLength;\n\n\t\t\t} else {\n\n\t\t\t\t// top cap\n\t\t\t\tconst segmentProgress =\n\t\t\t\t\t( iy - capSegments - heightSegments ) / capSegments;\n\t\t\t\tconst angle = ( segmentProgress * Math.PI ) / 2;\n\t\t\t\tprofileY = halfHeight + radius * Math.sin( angle );\n\t\t\t\tprofileRadius = radius * Math.cos( angle );\n\t\t\t\tnormalYComponent = radius * Math.sin( angle );\n\t\t\t\tcurrentArcLength =\n\t\t\t\t\tcapArcLength + cylinderPartLength + segmentProgress * capArcLength;\n\n\t\t\t}\n\n\t\t\tconst v = Math.max( 0, Math.min( 1, currentArcLength / totalArcLength ) );\n\n\n\t\t\t// special case for the poles\n\n\t\t\tlet uOffset = 0;\n\n\t\t\tif ( iy === 0 ) {\n\n\t\t\t\tuOffset = 0.5 / radialSegments;\n\n\t\t\t} else if ( iy === numVerticalSegments ) {\n\n\t\t\t\tuOffset = -0.5 / radialSegments;\n\n\t\t\t}\n\n\t\t\tfor ( let ix = 0; ix <= radialSegments; ix ++ ) {\n\n\t\t\t\tconst u = ix / radialSegments;\n\t\t\t\tconst theta = u * Math.PI * 2;\n\n\t\t\t\tconst sinTheta = Math.sin( theta );\n\t\t\t\tconst cosTheta = Math.cos( theta );\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = - profileRadius * cosTheta;\n\t\t\t\tvertex.y = profileY;\n\t\t\t\tvertex.z = profileRadius * sinTheta;\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormal.set(\n\t\t\t\t\t- profileRadius * cosTheta,\n\t\t\t\t\tnormalYComponent,\n\t\t\t\t\tprofileRadius * sinTheta\n\t\t\t\t);\n\t\t\t\tnormal.normalize();\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( u + uOffset, v );\n\n\t\t\t}\n\n\t\t\tif ( iy > 0 ) {\n\n\t\t\t\tconst prevIndexRow = ( iy - 1 ) * verticesPerRow;\n\t\t\t\tfor ( let ix = 0; ix < radialSegments; ix ++ ) {\n\n\t\t\t\t\tconst i1 = prevIndexRow + ix;\n\t\t\t\t\tconst i2 = prevIndexRow + ix + 1;\n\t\t\t\t\tconst i3 = iy * verticesPerRow + ix;\n\t\t\t\t\tconst i4 = iy * verticesPerRow + ix + 1;\n\n\t\t\t\t\tindices.push( i1, i2, i3 );\n\t\t\t\t\tindices.push( i2, i4, i3 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {CapsuleGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new CapsuleGeometry( data.radius, data.height, data.capSegments, data.radialSegments, data.heightSegments );\n\n\t}\n\n}\n\n/**\n * A simple shape of Euclidean geometry. It is constructed from a\n * number of triangular segments that are oriented around a central point and\n * extend as far out as a given radius. It is built counter-clockwise from a\n * start angle and a given central angle. It can also be used to create\n * regular polygons, where the number of segments determines the number of\n * sides.\n *\n * ```js\n * const geometry = new THREE.CircleGeometry( 5, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const circle = new THREE.Mesh( geometry, material );\n * scene.add( circle )\n * ```\n *\n * @augments BufferGeometry\n */\nclass CircleGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new circle geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the circle.\n\t * @param {number} [segments=32] - Number of segments (triangles), minimum = `3`.\n\t * @param {number} [thetaStart=0] - Start angle for first segment in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - The central angle, often called theta,\n\t * of the circular sector in radians. The default value results in a complete circle.\n\t */\n\tconstructor( radius = 1, segments = 32, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CircleGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tsegments: segments,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\tsegments = Math.max( 3, segments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst vertex = new Vector3();\n\t\tconst uv = new Vector2();\n\n\t\t// center point\n\n\t\tvertices.push( 0, 0, 0 );\n\t\tnormals.push( 0, 0, 1 );\n\t\tuvs.push( 0.5, 0.5 );\n\n\t\tfor ( let s = 0, i = 3; s <= segments; s ++, i += 3 ) {\n\n\t\t\tconst segment = thetaStart + s / segments * thetaLength;\n\n\t\t\t// vertex\n\n\t\t\tvertex.x = radius * Math.cos( segment );\n\t\t\tvertex.y = radius * Math.sin( segment );\n\n\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t// normal\n\n\t\t\tnormals.push( 0, 0, 1 );\n\n\t\t\t// uvs\n\n\t\t\tuv.x = ( vertices[ i ] / radius + 1 ) / 2;\n\t\t\tuv.y = ( vertices[ i + 1 ] / radius + 1 ) / 2;\n\n\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let i = 1; i <= segments; i ++ ) {\n\n\t\t\tindices.push( i, i + 1, 0 );\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {CircleGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new CircleGeometry( data.radius, data.segments, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a cylinder.\n *\n * ```js\n * const geometry = new THREE.CylinderGeometry( 5, 5, 20, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const cylinder = new THREE.Mesh( geometry, material );\n * scene.add( cylinder );\n * ```\n *\n * @augments BufferGeometry\n */\nclass CylinderGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new cylinder geometry.\n\t *\n\t * @param {number} [radiusTop=1] - Radius of the cylinder at the top.\n\t * @param {number} [radiusBottom=1] - Radius of the cylinder at the bottom.\n\t * @param {number} [height=1] - Height of the cylinder.\n\t * @param {number} [radialSegments=32] - Number of segmented faces around the circumference of the cylinder.\n\t * @param {number} [heightSegments=1] - Number of rows of faces along the height of the cylinder.\n\t * @param {boolean} [openEnded=false] - Whether the base of the cylinder is open or capped.\n\t * @param {number} [thetaStart=0] - Start angle for first segment, in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - The central angle, often called theta, of the circular sector, in radians.\n\t * The default value results in a complete cylinder.\n\t */\n\tconstructor( radiusTop = 1, radiusBottom = 1, height = 1, radialSegments = 32, heightSegments = 1, openEnded = false, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CylinderGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradiusTop: radiusTop,\n\t\t\tradiusBottom: radiusBottom,\n\t\t\theight: height,\n\t\t\tradialSegments: radialSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\topenEnded: openEnded,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\tconst scope = this;\n\n\t\tradialSegments = Math.floor( radialSegments );\n\t\theightSegments = Math.floor( heightSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tlet index = 0;\n\t\tconst indexArray = [];\n\t\tconst halfHeight = height / 2;\n\t\tlet groupStart = 0;\n\n\t\t// generate geometry\n\n\t\tgenerateTorso();\n\n\t\tif ( openEnded === false ) {\n\n\t\t\tif ( radiusTop > 0 ) generateCap( true );\n\t\t\tif ( radiusBottom > 0 ) generateCap( false );\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\tfunction generateTorso() {\n\n\t\t\tconst normal = new Vector3();\n\t\t\tconst vertex = new Vector3();\n\n\t\t\tlet groupCount = 0;\n\n\t\t\t// this will be used to calculate the normal\n\t\t\tconst slope = ( radiusBottom - radiusTop ) / height;\n\n\t\t\t// generate vertices, normals and uvs\n\n\t\t\tfor ( let y = 0; y <= heightSegments; y ++ ) {\n\n\t\t\t\tconst indexRow = [];\n\n\t\t\t\tconst v = y / heightSegments;\n\n\t\t\t\t// calculate the radius of the current row\n\n\t\t\t\tconst radius = v * ( radiusBottom - radiusTop ) + radiusTop;\n\n\t\t\t\tfor ( let x = 0; x <= radialSegments; x ++ ) {\n\n\t\t\t\t\tconst u = x / radialSegments;\n\n\t\t\t\t\tconst theta = u * thetaLength + thetaStart;\n\n\t\t\t\t\tconst sinTheta = Math.sin( theta );\n\t\t\t\t\tconst cosTheta = Math.cos( theta );\n\n\t\t\t\t\t// vertex\n\n\t\t\t\t\tvertex.x = radius * sinTheta;\n\t\t\t\t\tvertex.y = - v * height + halfHeight;\n\t\t\t\t\tvertex.z = radius * cosTheta;\n\t\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t\t// normal\n\n\t\t\t\t\tnormal.set( sinTheta, slope, cosTheta ).normalize();\n\t\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t\t// uv\n\n\t\t\t\t\tuvs.push( u, 1 - v );\n\n\t\t\t\t\t// save index of vertex in respective row\n\n\t\t\t\t\tindexRow.push( index ++ );\n\n\t\t\t\t}\n\n\t\t\t\t// now save vertices of the row in our index array\n\n\t\t\t\tindexArray.push( indexRow );\n\n\t\t\t}\n\n\t\t\t// generate indices\n\n\t\t\tfor ( let x = 0; x < radialSegments; x ++ ) {\n\n\t\t\t\tfor ( let y = 0; y < heightSegments; y ++ ) {\n\n\t\t\t\t\t// we use the index array to access the correct indices\n\n\t\t\t\t\tconst a = indexArray[ y ][ x ];\n\t\t\t\t\tconst b = indexArray[ y + 1 ][ x ];\n\t\t\t\t\tconst c = indexArray[ y + 1 ][ x + 1 ];\n\t\t\t\t\tconst d = indexArray[ y ][ x + 1 ];\n\n\t\t\t\t\t// faces\n\n\t\t\t\t\tif ( radiusTop > 0 || y !== 0 ) {\n\n\t\t\t\t\t\tindices.push( a, b, d );\n\t\t\t\t\t\tgroupCount += 3;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( radiusBottom > 0 || y !== heightSegments - 1 ) {\n\n\t\t\t\t\t\tindices.push( b, c, d );\n\t\t\t\t\t\tgroupCount += 3;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// add a group to the geometry. this will ensure multi material support\n\n\t\t\tscope.addGroup( groupStart, groupCount, 0 );\n\n\t\t\t// calculate new start value for groups\n\n\t\t\tgroupStart += groupCount;\n\n\t\t}\n\n\t\tfunction generateCap( top ) {\n\n\t\t\t// save the index of the first center vertex\n\t\t\tconst centerIndexStart = index;\n\n\t\t\tconst uv = new Vector2();\n\t\t\tconst vertex = new Vector3();\n\n\t\t\tlet groupCount = 0;\n\n\t\t\tconst radius = ( top === true ) ? radiusTop : radiusBottom;\n\t\t\tconst sign = ( top === true ) ? 1 : -1;\n\n\t\t\t// first we generate the center vertex data of the cap.\n\t\t\t// because the geometry needs one set of uvs per face,\n\t\t\t// we must generate a center vertex per face/segment\n\n\t\t\tfor ( let x = 1; x <= radialSegments; x ++ ) {\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertices.push( 0, halfHeight * sign, 0 );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormals.push( 0, sign, 0 );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( 0.5, 0.5 );\n\n\t\t\t\t// increase index\n\n\t\t\t\tindex ++;\n\n\t\t\t}\n\n\t\t\t// save the index of the last center vertex\n\t\t\tconst centerIndexEnd = index;\n\n\t\t\t// now we generate the surrounding vertices, normals and uvs\n\n\t\t\tfor ( let x = 0; x <= radialSegments; x ++ ) {\n\n\t\t\t\tconst u = x / radialSegments;\n\t\t\t\tconst theta = u * thetaLength + thetaStart;\n\n\t\t\t\tconst cosTheta = Math.cos( theta );\n\t\t\t\tconst sinTheta = Math.sin( theta );\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = radius * sinTheta;\n\t\t\t\tvertex.y = halfHeight * sign;\n\t\t\t\tvertex.z = radius * cosTheta;\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormals.push( 0, sign, 0 );\n\n\t\t\t\t// uv\n\n\t\t\t\tuv.x = ( cosTheta * 0.5 ) + 0.5;\n\t\t\t\tuv.y = ( sinTheta * 0.5 * sign ) + 0.5;\n\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t\t// increase index\n\n\t\t\t\tindex ++;\n\n\t\t\t}\n\n\t\t\t// generate indices\n\n\t\t\tfor ( let x = 0; x < radialSegments; x ++ ) {\n\n\t\t\t\tconst c = centerIndexStart + x;\n\t\t\t\tconst i = centerIndexEnd + x;\n\n\t\t\t\tif ( top === true ) {\n\n\t\t\t\t\t// face top\n\n\t\t\t\t\tindices.push( i, i + 1, c );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// face bottom\n\n\t\t\t\t\tindices.push( i + 1, i, c );\n\n\t\t\t\t}\n\n\t\t\t\tgroupCount += 3;\n\n\t\t\t}\n\n\t\t\t// add a group to the geometry. this will ensure multi material support\n\n\t\t\tscope.addGroup( groupStart, groupCount, top === true ? 1 : 2 );\n\n\t\t\t// calculate new start value for groups\n\n\t\t\tgroupStart += groupCount;\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {CylinderGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new CylinderGeometry( data.radiusTop, data.radiusBottom, data.height, data.radialSegments, data.heightSegments, data.openEnded, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a cone.\n *\n * ```js\n * const geometry = new THREE.ConeGeometry( 5, 20, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const cone = new THREE.Mesh(geometry, material );\n * scene.add( cone );\n * ```\n *\n * @augments CylinderGeometry\n */\nclass ConeGeometry extends CylinderGeometry {\n\n\t/**\n\t * Constructs a new cone geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the cone base.\n\t * @param {number} [height=1] - Height of the cone.\n\t * @param {number} [radialSegments=32] - Number of segmented faces around the circumference of the cone.\n\t * @param {number} [heightSegments=1] - Number of rows of faces along the height of the cone.\n\t * @param {boolean} [openEnded=false] - Whether the base of the cone is open or capped.\n\t * @param {number} [thetaStart=0] - Start angle for first segment, in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - The central angle, often called theta, of the circular sector, in radians.\n\t * The default value results in a complete cone.\n\t */\n\tconstructor( radius = 1, height = 1, radialSegments = 32, heightSegments = 1, openEnded = false, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper( 0, radius, height, radialSegments, heightSegments, openEnded, thetaStart, thetaLength );\n\n\t\tthis.type = 'ConeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\theight: height,\n\t\t\tradialSegments: radialSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\topenEnded: openEnded,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {ConeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new ConeGeometry( data.radius, data.height, data.radialSegments, data.heightSegments, data.openEnded, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A polyhedron is a solid in three dimensions with flat faces. This class\n * will take an array of vertices, project them onto a sphere, and then\n * divide them up to the desired level of detail.\n *\n * @augments BufferGeometry\n */\nclass PolyhedronGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new polyhedron geometry.\n\t *\n\t * @param {Array} [vertices] - A flat array of vertices describing the base shape.\n\t * @param {Array} [indices] - A flat array of indices describing the base shape.\n\t * @param {number} [radius=1] - The radius of the shape.\n\t * @param {number} [detail=0] - How many levels to subdivide the geometry. The more detail, the smoother the shape.\n\t */\n\tconstructor( vertices = [], indices = [], radius = 1, detail = 0 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'PolyhedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tvertices: vertices,\n\t\t\tindices: indices,\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t\t// default buffer data\n\n\t\tconst vertexBuffer = [];\n\t\tconst uvBuffer = [];\n\n\t\t// the subdivision creates the vertex buffer data\n\n\t\tsubdivide( detail );\n\n\t\t// all vertices should lie on a conceptual sphere with a given radius\n\n\t\tapplyRadius( radius );\n\n\t\t// finally, create the uv data\n\n\t\tgenerateUVs();\n\n\t\t// build non-indexed geometry\n\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertexBuffer, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( vertexBuffer.slice(), 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvBuffer, 2 ) );\n\n\t\tif ( detail === 0 ) {\n\n\t\t\tthis.computeVertexNormals(); // flat normals\n\n\t\t} else {\n\n\t\t\tthis.normalizeNormals(); // smooth normals\n\n\t\t}\n\n\t\t// helper functions\n\n\t\tfunction subdivide( detail ) {\n\n\t\t\tconst a = new Vector3();\n\t\t\tconst b = new Vector3();\n\t\t\tconst c = new Vector3();\n\n\t\t\t// iterate over all faces and apply a subdivision with the given detail value\n\n\t\t\tfor ( let i = 0; i < indices.length; i += 3 ) {\n\n\t\t\t\t// get the vertices of the face\n\n\t\t\t\tgetVertexByIndex( indices[ i + 0 ], a );\n\t\t\t\tgetVertexByIndex( indices[ i + 1 ], b );\n\t\t\t\tgetVertexByIndex( indices[ i + 2 ], c );\n\n\t\t\t\t// perform subdivision\n\n\t\t\t\tsubdivideFace( a, b, c, detail );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction subdivideFace( a, b, c, detail ) {\n\n\t\t\tconst cols = detail + 1;\n\n\t\t\t// we use this multidimensional array as a data structure for creating the subdivision\n\n\t\t\tconst v = [];\n\n\t\t\t// construct all of the vertices for this subdivision\n\n\t\t\tfor ( let i = 0; i <= cols; i ++ ) {\n\n\t\t\t\tv[ i ] = [];\n\n\t\t\t\tconst aj = a.clone().lerp( c, i / cols );\n\t\t\t\tconst bj = b.clone().lerp( c, i / cols );\n\n\t\t\t\tconst rows = cols - i;\n\n\t\t\t\tfor ( let j = 0; j <= rows; j ++ ) {\n\n\t\t\t\t\tif ( j === 0 && i === cols ) {\n\n\t\t\t\t\t\tv[ i ][ j ] = aj;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tv[ i ][ j ] = aj.clone().lerp( bj, j / rows );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// construct all of the faces\n\n\t\t\tfor ( let i = 0; i < cols; i ++ ) {\n\n\t\t\t\tfor ( let j = 0; j < 2 * ( cols - i ) - 1; j ++ ) {\n\n\t\t\t\t\tconst k = Math.floor( j / 2 );\n\n\t\t\t\t\tif ( j % 2 === 0 ) {\n\n\t\t\t\t\t\tpushVertex( v[ i ][ k + 1 ] );\n\t\t\t\t\t\tpushVertex( v[ i + 1 ][ k ] );\n\t\t\t\t\t\tpushVertex( v[ i ][ k ] );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tpushVertex( v[ i ][ k + 1 ] );\n\t\t\t\t\t\tpushVertex( v[ i + 1 ][ k + 1 ] );\n\t\t\t\t\t\tpushVertex( v[ i + 1 ][ k ] );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction applyRadius( radius ) {\n\n\t\t\tconst vertex = new Vector3();\n\n\t\t\t// iterate over the entire buffer and apply the radius to each vertex\n\n\t\t\tfor ( let i = 0; i < vertexBuffer.length; i += 3 ) {\n\n\t\t\t\tvertex.x = vertexBuffer[ i + 0 ];\n\t\t\t\tvertex.y = vertexBuffer[ i + 1 ];\n\t\t\t\tvertex.z = vertexBuffer[ i + 2 ];\n\n\t\t\t\tvertex.normalize().multiplyScalar( radius );\n\n\t\t\t\tvertexBuffer[ i + 0 ] = vertex.x;\n\t\t\t\tvertexBuffer[ i + 1 ] = vertex.y;\n\t\t\t\tvertexBuffer[ i + 2 ] = vertex.z;\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction generateUVs() {\n\n\t\t\tconst vertex = new Vector3();\n\n\t\t\tfor ( let i = 0; i < vertexBuffer.length; i += 3 ) {\n\n\t\t\t\tvertex.x = vertexBuffer[ i + 0 ];\n\t\t\t\tvertex.y = vertexBuffer[ i + 1 ];\n\t\t\t\tvertex.z = vertexBuffer[ i + 2 ];\n\n\t\t\t\tconst u = azimuth( vertex ) / 2 / Math.PI + 0.5;\n\t\t\t\tconst v = inclination( vertex ) / Math.PI + 0.5;\n\t\t\t\tuvBuffer.push( u, 1 - v );\n\n\t\t\t}\n\n\t\t\tcorrectUVs();\n\n\t\t\tcorrectSeam();\n\n\t\t}\n\n\t\tfunction correctSeam() {\n\n\t\t\t// handle case when face straddles the seam, see #3269\n\n\t\t\tfor ( let i = 0; i < uvBuffer.length; i += 6 ) {\n\n\t\t\t\t// uv data of a single face\n\n\t\t\t\tconst x0 = uvBuffer[ i + 0 ];\n\t\t\t\tconst x1 = uvBuffer[ i + 2 ];\n\t\t\t\tconst x2 = uvBuffer[ i + 4 ];\n\n\t\t\t\tconst max = Math.max( x0, x1, x2 );\n\t\t\t\tconst min = Math.min( x0, x1, x2 );\n\n\t\t\t\t// 0.9 is somewhat arbitrary\n\n\t\t\t\tif ( max > 0.9 && min < 0.1 ) {\n\n\t\t\t\t\tif ( x0 < 0.2 ) uvBuffer[ i + 0 ] += 1;\n\t\t\t\t\tif ( x1 < 0.2 ) uvBuffer[ i + 2 ] += 1;\n\t\t\t\t\tif ( x2 < 0.2 ) uvBuffer[ i + 4 ] += 1;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction pushVertex( vertex ) {\n\n\t\t\tvertexBuffer.push( vertex.x, vertex.y, vertex.z );\n\n\t\t}\n\n\t\tfunction getVertexByIndex( index, vertex ) {\n\n\t\t\tconst stride = index * 3;\n\n\t\t\tvertex.x = vertices[ stride + 0 ];\n\t\t\tvertex.y = vertices[ stride + 1 ];\n\t\t\tvertex.z = vertices[ stride + 2 ];\n\n\t\t}\n\n\t\tfunction correctUVs() {\n\n\t\t\tconst a = new Vector3();\n\t\t\tconst b = new Vector3();\n\t\t\tconst c = new Vector3();\n\n\t\t\tconst centroid = new Vector3();\n\n\t\t\tconst uvA = new Vector2();\n\t\t\tconst uvB = new Vector2();\n\t\t\tconst uvC = new Vector2();\n\n\t\t\tfor ( let i = 0, j = 0; i < vertexBuffer.length; i += 9, j += 6 ) {\n\n\t\t\t\ta.set( vertexBuffer[ i + 0 ], vertexBuffer[ i + 1 ], vertexBuffer[ i + 2 ] );\n\t\t\t\tb.set( vertexBuffer[ i + 3 ], vertexBuffer[ i + 4 ], vertexBuffer[ i + 5 ] );\n\t\t\t\tc.set( vertexBuffer[ i + 6 ], vertexBuffer[ i + 7 ], vertexBuffer[ i + 8 ] );\n\n\t\t\t\tuvA.set( uvBuffer[ j + 0 ], uvBuffer[ j + 1 ] );\n\t\t\t\tuvB.set( uvBuffer[ j + 2 ], uvBuffer[ j + 3 ] );\n\t\t\t\tuvC.set( uvBuffer[ j + 4 ], uvBuffer[ j + 5 ] );\n\n\t\t\t\tcentroid.copy( a ).add( b ).add( c ).divideScalar( 3 );\n\n\t\t\t\tconst azi = azimuth( centroid );\n\n\t\t\t\tcorrectUV( uvA, j + 0, a, azi );\n\t\t\t\tcorrectUV( uvB, j + 2, b, azi );\n\t\t\t\tcorrectUV( uvC, j + 4, c, azi );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction correctUV( uv, stride, vector, azimuth ) {\n\n\t\t\tif ( ( azimuth < 0 ) && ( uv.x === 1 ) ) {\n\n\t\t\t\tuvBuffer[ stride ] = uv.x - 1;\n\n\t\t\t}\n\n\t\t\tif ( ( vector.x === 0 ) && ( vector.z === 0 ) ) {\n\n\t\t\t\tuvBuffer[ stride ] = azimuth / 2 / Math.PI + 0.5;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// Angle around the Y axis, counter-clockwise when looking from above.\n\n\t\tfunction azimuth( vector ) {\n\n\t\t\treturn Math.atan2( vector.z, - vector.x );\n\n\t\t}\n\n\n\t\t// Angle above the XZ plane.\n\n\t\tfunction inclination( vector ) {\n\n\t\t\treturn Math.atan2( - vector.y, Math.sqrt( ( vector.x * vector.x ) + ( vector.z * vector.z ) ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {PolyhedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new PolyhedronGeometry( data.vertices, data.indices, data.radius, data.details );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a dodecahedron.\n *\n * ```js\n * const geometry = new THREE.DodecahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const dodecahedron = new THREE.Mesh( geometry, material );\n * scene.add( dodecahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass DodecahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new dodecahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the dodecahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a dodecahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst t = ( 1 + Math.sqrt( 5 ) ) / 2;\n\t\tconst r = 1 / t;\n\n\t\tconst vertices = [\n\n\t\t\t// (±1, ±1, ±1)\n\t\t\t-1, -1, -1,\t-1, -1, 1,\n\t\t\t-1, 1, -1, -1, 1, 1,\n\t\t\t1, -1, -1, 1, -1, 1,\n\t\t\t1, 1, -1, 1, 1, 1,\n\n\t\t\t// (0, ±1/φ, ±φ)\n\t\t\t0, - r, - t, 0, - r, t,\n\t\t\t0, r, - t, 0, r, t,\n\n\t\t\t// (±1/φ, ±φ, 0)\n\t\t\t- r, - t, 0, - r, t, 0,\n\t\t\tr, - t, 0, r, t, 0,\n\n\t\t\t// (±φ, 0, ±1/φ)\n\t\t\t- t, 0, - r, t, 0, - r,\n\t\t\t- t, 0, r, t, 0, r\n\t\t];\n\n\t\tconst indices = [\n\t\t\t3, 11, 7, \t3, 7, 15, \t3, 15, 13,\n\t\t\t7, 19, 17, \t7, 17, 6, \t7, 6, 15,\n\t\t\t17, 4, 8, \t17, 8, 10, \t17, 10, 6,\n\t\t\t8, 0, 16, \t8, 16, 2, \t8, 2, 10,\n\t\t\t0, 12, 1, \t0, 1, 18, \t0, 18, 16,\n\t\t\t6, 10, 2, \t6, 2, 13, \t6, 13, 15,\n\t\t\t2, 16, 18, \t2, 18, 3, \t2, 3, 13,\n\t\t\t18, 1, 9, \t18, 9, 11, \t18, 11, 3,\n\t\t\t4, 14, 12, \t4, 12, 0, \t4, 0, 8,\n\t\t\t11, 9, 5, \t11, 5, 19, \t11, 19, 7,\n\t\t\t19, 5, 14, \t19, 14, 4, \t19, 4, 17,\n\t\t\t1, 12, 14, \t1, 14, 5, \t1, 5, 9\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'DodecahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {DodecahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new DodecahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\nconst _v0 = /*@__PURE__*/ new Vector3();\nconst _v1$1 = /*@__PURE__*/ new Vector3();\nconst _normal = /*@__PURE__*/ new Vector3();\nconst _triangle = /*@__PURE__*/ new Triangle();\n\n/**\n * Can be used as a helper object to view the edges of a geometry.\n *\n * ```js\n * const geometry = new THREE.BoxGeometry();\n * const edges = new THREE.EdgesGeometry( geometry );\n * const line = new THREE.LineSegments( edges );\n * scene.add( line );\n * ```\n *\n * Note: It is not yet possible to serialize/deserialize instances of this class.\n *\n * @augments BufferGeometry\n */\nclass EdgesGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new edges geometry.\n\t *\n\t * @param {?BufferGeometry} [geometry=null] - The geometry.\n\t * @param {number} [thresholdAngle=1] - An edge is only rendered if the angle (in degrees)\n\t * between the face normals of the adjoining faces exceeds this value.\n\t */\n\tconstructor( geometry = null, thresholdAngle = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'EdgesGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tgeometry: geometry,\n\t\t\tthresholdAngle: thresholdAngle\n\t\t};\n\n\t\tif ( geometry !== null ) {\n\n\t\t\tconst precisionPoints = 4;\n\t\t\tconst precision = Math.pow( 10, precisionPoints );\n\t\t\tconst thresholdDot = Math.cos( DEG2RAD * thresholdAngle );\n\n\t\t\tconst indexAttr = geometry.getIndex();\n\t\t\tconst positionAttr = geometry.getAttribute( 'position' );\n\t\t\tconst indexCount = indexAttr ? indexAttr.count : positionAttr.count;\n\n\t\t\tconst indexArr = [ 0, 0, 0 ];\n\t\t\tconst vertKeys = [ 'a', 'b', 'c' ];\n\t\t\tconst hashes = new Array( 3 );\n\n\t\t\tconst edgeData = {};\n\t\t\tconst vertices = [];\n\t\t\tfor ( let i = 0; i < indexCount; i += 3 ) {\n\n\t\t\t\tif ( indexAttr ) {\n\n\t\t\t\t\tindexArr[ 0 ] = indexAttr.getX( i );\n\t\t\t\t\tindexArr[ 1 ] = indexAttr.getX( i + 1 );\n\t\t\t\t\tindexArr[ 2 ] = indexAttr.getX( i + 2 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tindexArr[ 0 ] = i;\n\t\t\t\t\tindexArr[ 1 ] = i + 1;\n\t\t\t\t\tindexArr[ 2 ] = i + 2;\n\n\t\t\t\t}\n\n\t\t\t\tconst { a, b, c } = _triangle;\n\t\t\t\ta.fromBufferAttribute( positionAttr, indexArr[ 0 ] );\n\t\t\t\tb.fromBufferAttribute( positionAttr, indexArr[ 1 ] );\n\t\t\t\tc.fromBufferAttribute( positionAttr, indexArr[ 2 ] );\n\t\t\t\t_triangle.getNormal( _normal );\n\n\t\t\t\t// create hashes for the edge from the vertices\n\t\t\t\thashes[ 0 ] = `${ Math.round( a.x * precision ) },${ Math.round( a.y * precision ) },${ Math.round( a.z * precision ) }`;\n\t\t\t\thashes[ 1 ] = `${ Math.round( b.x * precision ) },${ Math.round( b.y * precision ) },${ Math.round( b.z * precision ) }`;\n\t\t\t\thashes[ 2 ] = `${ Math.round( c.x * precision ) },${ Math.round( c.y * precision ) },${ Math.round( c.z * precision ) }`;\n\n\t\t\t\t// skip degenerate triangles\n\t\t\t\tif ( hashes[ 0 ] === hashes[ 1 ] || hashes[ 1 ] === hashes[ 2 ] || hashes[ 2 ] === hashes[ 0 ] ) {\n\n\t\t\t\t\tcontinue;\n\n\t\t\t\t}\n\n\t\t\t\t// iterate over every edge\n\t\t\t\tfor ( let j = 0; j < 3; j ++ ) {\n\n\t\t\t\t\t// get the first and next vertex making up the edge\n\t\t\t\t\tconst jNext = ( j + 1 ) % 3;\n\t\t\t\t\tconst vecHash0 = hashes[ j ];\n\t\t\t\t\tconst vecHash1 = hashes[ jNext ];\n\t\t\t\t\tconst v0 = _triangle[ vertKeys[ j ] ];\n\t\t\t\t\tconst v1 = _triangle[ vertKeys[ jNext ] ];\n\n\t\t\t\t\tconst hash = `${ vecHash0 }_${ vecHash1 }`;\n\t\t\t\t\tconst reverseHash = `${ vecHash1 }_${ vecHash0 }`;\n\n\t\t\t\t\tif ( reverseHash in edgeData && edgeData[ reverseHash ] ) {\n\n\t\t\t\t\t\t// if we found a sibling edge add it into the vertex array if\n\t\t\t\t\t\t// it meets the angle threshold and delete the edge from the map.\n\t\t\t\t\t\tif ( _normal.dot( edgeData[ reverseHash ].normal ) <= thresholdDot ) {\n\n\t\t\t\t\t\t\tvertices.push( v0.x, v0.y, v0.z );\n\t\t\t\t\t\t\tvertices.push( v1.x, v1.y, v1.z );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tedgeData[ reverseHash ] = null;\n\n\t\t\t\t\t} else if ( ! ( hash in edgeData ) ) {\n\n\t\t\t\t\t\t// if we've already got an edge here then skip adding a new one\n\t\t\t\t\t\tedgeData[ hash ] = {\n\n\t\t\t\t\t\t\tindex0: indexArr[ j ],\n\t\t\t\t\t\t\tindex1: indexArr[ jNext ],\n\t\t\t\t\t\t\tnormal: _normal.clone(),\n\n\t\t\t\t\t\t};\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// iterate over all remaining, unmatched edges and add them to the vertex array\n\t\t\tfor ( const key in edgeData ) {\n\n\t\t\t\tif ( edgeData[ key ] ) {\n\n\t\t\t\t\tconst { index0, index1 } = edgeData[ key ];\n\t\t\t\t\t_v0.fromBufferAttribute( positionAttr, index0 );\n\t\t\t\t\t_v1$1.fromBufferAttribute( positionAttr, index1 );\n\n\t\t\t\t\tvertices.push( _v0.x, _v0.y, _v0.z );\n\t\t\t\t\tvertices.push( _v1$1.x, _v1$1.y, _v1$1.z );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * An abstract base class for creating an analytic curve object that contains methods\n * for interpolation.\n *\n * @abstract\n */\nclass Curve {\n\n\t/**\n\t * Constructs a new curve.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'Curve';\n\n\t\t/**\n\t\t * This value determines the amount of divisions when calculating the\n\t\t * cumulative segment lengths of a curve via {@link Curve#getLengths}. To ensure\n\t\t * precision when using methods like {@link Curve#getSpacedPoints}, it is\n\t\t * recommended to increase the value of this property if the curve is very large.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 200\n\t\t */\n\t\tthis.arcLengthDivisions = 200;\n\n\t\t/**\n\t\t * Must be set to `true` if the curve parameters have changed.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.needsUpdate = false;\n\n\t\t/**\n\t\t * An internal cache that holds precomputed curve length values.\n\t\t *\n\t\t * @private\n\t\t * @type {?Array}\n\t\t * @default null\n\t\t */\n\t\tthis.cacheArcLengths = null;\n\n\t}\n\n\t/**\n\t * This method returns a vector in 2D or 3D space (depending on the curve definition)\n\t * for the given interpolation factor.\n\t *\n\t * @abstract\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The position on the curve. It can be a 2D or 3D vector depending on the curve definition.\n\t */\n\tgetPoint( /* t, optionalTarget */ ) {\n\n\t\tconsole.warn( 'THREE.Curve: .getPoint() not implemented.' );\n\n\t}\n\n\t/**\n\t * This method returns a vector in 2D or 3D space (depending on the curve definition)\n\t * for the given interpolation factor. Unlike {@link Curve#getPoint}, this method honors the length\n\t * of the curve which equidistant samples.\n\t *\n\t * @param {number} u - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The position on the curve. It can be a 2D or 3D vector depending on the curve definition.\n\t */\n\tgetPointAt( u, optionalTarget ) {\n\n\t\tconst t = this.getUtoTmapping( u );\n\t\treturn this.getPoint( t, optionalTarget );\n\n\t}\n\n\t/**\n\t * This method samples the curve via {@link Curve#getPoint} and returns an array of points representing\n\t * the curve shape.\n\t *\n\t * @param {number} [divisions=5] - The number of divisions.\n\t * @return {Array<(Vector2|Vector3)>} An array holding the sampled curve values. The number of points is `divisions + 1`.\n\t */\n\tgetPoints( divisions = 5 ) {\n\n\t\tconst points = [];\n\n\t\tfor ( let d = 0; d <= divisions; d ++ ) {\n\n\t\t\tpoints.push( this.getPoint( d / divisions ) );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\t// Get sequence of points using getPointAt( u )\n\n\t/**\n\t * This method samples the curve via {@link Curve#getPointAt} and returns an array of points representing\n\t * the curve shape. Unlike {@link Curve#getPoints}, this method returns equi-spaced points across the entire\n\t * curve.\n\t *\n\t * @param {number} [divisions=5] - The number of divisions.\n\t * @return {Array<(Vector2|Vector3)>} An array holding the sampled curve values. The number of points is `divisions + 1`.\n\t */\n\tgetSpacedPoints( divisions = 5 ) {\n\n\t\tconst points = [];\n\n\t\tfor ( let d = 0; d <= divisions; d ++ ) {\n\n\t\t\tpoints.push( this.getPointAt( d / divisions ) );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\t/**\n\t * Returns the total arc length of the curve.\n\t *\n\t * @return {number} The length of the curve.\n\t */\n\tgetLength() {\n\n\t\tconst lengths = this.getLengths();\n\t\treturn lengths[ lengths.length - 1 ];\n\n\t}\n\n\t/**\n\t * Returns an array of cumulative segment lengths of the curve.\n\t *\n\t * @param {number} [divisions=this.arcLengthDivisions] - The number of divisions.\n\t * @return {Array} An array holding the cumulative segment lengths.\n\t */\n\tgetLengths( divisions = this.arcLengthDivisions ) {\n\n\t\tif ( this.cacheArcLengths &&\n\t\t\t( this.cacheArcLengths.length === divisions + 1 ) &&\n\t\t\t! this.needsUpdate ) {\n\n\t\t\treturn this.cacheArcLengths;\n\n\t\t}\n\n\t\tthis.needsUpdate = false;\n\n\t\tconst cache = [];\n\t\tlet current, last = this.getPoint( 0 );\n\t\tlet sum = 0;\n\n\t\tcache.push( 0 );\n\n\t\tfor ( let p = 1; p <= divisions; p ++ ) {\n\n\t\t\tcurrent = this.getPoint( p / divisions );\n\t\t\tsum += current.distanceTo( last );\n\t\t\tcache.push( sum );\n\t\t\tlast = current;\n\n\t\t}\n\n\t\tthis.cacheArcLengths = cache;\n\n\t\treturn cache; // { sums: cache, sum: sum }; Sum is in the last element.\n\n\t}\n\n\t/**\n\t * Update the cumulative segment distance cache. The method must be called\n\t * every time curve parameters are changed. If an updated curve is part of a\n\t * composed curve like {@link CurvePath}, this method must be called on the\n\t * composed curve, too.\n\t */\n\tupdateArcLengths() {\n\n\t\tthis.needsUpdate = true;\n\t\tthis.getLengths();\n\n\t}\n\n\t/**\n\t * Given an interpolation factor in the range `[0,1]`, this method returns an updated\n\t * interpolation factor in the same range that can be ued to sample equidistant points\n\t * from a curve.\n\t *\n\t * @param {number} u - The interpolation factor.\n\t * @param {?number} distance - An optional distance on the curve.\n\t * @return {number} The updated interpolation factor.\n\t */\n\tgetUtoTmapping( u, distance = null ) {\n\n\t\tconst arcLengths = this.getLengths();\n\n\t\tlet i = 0;\n\t\tconst il = arcLengths.length;\n\n\t\tlet targetArcLength; // The targeted u distance value to get\n\n\t\tif ( distance ) {\n\n\t\t\ttargetArcLength = distance;\n\n\t\t} else {\n\n\t\t\ttargetArcLength = u * arcLengths[ il - 1 ];\n\n\t\t}\n\n\t\t// binary search for the index with largest value smaller than target u distance\n\n\t\tlet low = 0, high = il - 1, comparison;\n\n\t\twhile ( low <= high ) {\n\n\t\t\ti = Math.floor( low + ( high - low ) / 2 ); // less likely to overflow, though probably not issue here, JS doesn't really have integers, all numbers are floats\n\n\t\t\tcomparison = arcLengths[ i ] - targetArcLength;\n\n\t\t\tif ( comparison < 0 ) {\n\n\t\t\t\tlow = i + 1;\n\n\t\t\t} else if ( comparison > 0 ) {\n\n\t\t\t\thigh = i - 1;\n\n\t\t\t} else {\n\n\t\t\t\thigh = i;\n\t\t\t\tbreak;\n\n\t\t\t\t// DONE\n\n\t\t\t}\n\n\t\t}\n\n\t\ti = high;\n\n\t\tif ( arcLengths[ i ] === targetArcLength ) {\n\n\t\t\treturn i / ( il - 1 );\n\n\t\t}\n\n\t\t// we could get finer grain at lengths, or use simple interpolation between two points\n\n\t\tconst lengthBefore = arcLengths[ i ];\n\t\tconst lengthAfter = arcLengths[ i + 1 ];\n\n\t\tconst segmentLength = lengthAfter - lengthBefore;\n\n\t\t// determine where we are between the 'before' and 'after' points\n\n\t\tconst segmentFraction = ( targetArcLength - lengthBefore ) / segmentLength;\n\n\t\t// add that fractional amount to t\n\n\t\tconst t = ( i + segmentFraction ) / ( il - 1 );\n\n\t\treturn t;\n\n\t}\n\n\t/**\n\t * Returns a unit vector tangent for the given interpolation factor.\n\t * If the derived curve does not implement its tangent derivation,\n\t * two points a small delta apart will be used to find its gradient\n\t * which seems to give a reasonable approximation.\n\t *\n\t * @param {number} t - The interpolation factor.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The tangent vector.\n\t */\n\tgetTangent( t, optionalTarget ) {\n\n\t\tconst delta = 0.0001;\n\t\tlet t1 = t - delta;\n\t\tlet t2 = t + delta;\n\n\t\t// Capping in case of danger\n\n\t\tif ( t1 < 0 ) t1 = 0;\n\t\tif ( t2 > 1 ) t2 = 1;\n\n\t\tconst pt1 = this.getPoint( t1 );\n\t\tconst pt2 = this.getPoint( t2 );\n\n\t\tconst tangent = optionalTarget || ( ( pt1.isVector2 ) ? new Vector2() : new Vector3() );\n\n\t\ttangent.copy( pt2 ).sub( pt1 ).normalize();\n\n\t\treturn tangent;\n\n\t}\n\n\t/**\n\t * Same as {@link Curve#getTangent} but with equidistant samples.\n\t *\n\t * @param {number} u - The interpolation factor.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The tangent vector.\n\t * @see {@link Curve#getPointAt}\n\t */\n\tgetTangentAt( u, optionalTarget ) {\n\n\t\tconst t = this.getUtoTmapping( u );\n\t\treturn this.getTangent( t, optionalTarget );\n\n\t}\n\n\t/**\n\t * Generates the Frenet Frames. Requires a curve definition in 3D space. Used\n\t * in geometries like {@link TubeGeometry} or {@link ExtrudeGeometry}.\n\t *\n\t * @param {number} segments - The number of segments.\n\t * @param {boolean} [closed=false] - Whether the curve is closed or not.\n\t * @return {{tangents: Array, normals: Array, binormals: Array}} The Frenet Frames.\n\t */\n\tcomputeFrenetFrames( segments, closed = false ) {\n\n\t\t// see http://www.cs.indiana.edu/pub/techreports/TR425.pdf\n\n\t\tconst normal = new Vector3();\n\n\t\tconst tangents = [];\n\t\tconst normals = [];\n\t\tconst binormals = [];\n\n\t\tconst vec = new Vector3();\n\t\tconst mat = new Matrix4();\n\n\t\t// compute the tangent vectors for each segment on the curve\n\n\t\tfor ( let i = 0; i <= segments; i ++ ) {\n\n\t\t\tconst u = i / segments;\n\n\t\t\ttangents[ i ] = this.getTangentAt( u, new Vector3() );\n\n\t\t}\n\n\t\t// select an initial normal vector perpendicular to the first tangent vector,\n\t\t// and in the direction of the minimum tangent xyz component\n\n\t\tnormals[ 0 ] = new Vector3();\n\t\tbinormals[ 0 ] = new Vector3();\n\t\tlet min = Number.MAX_VALUE;\n\t\tconst tx = Math.abs( tangents[ 0 ].x );\n\t\tconst ty = Math.abs( tangents[ 0 ].y );\n\t\tconst tz = Math.abs( tangents[ 0 ].z );\n\n\t\tif ( tx <= min ) {\n\n\t\t\tmin = tx;\n\t\t\tnormal.set( 1, 0, 0 );\n\n\t\t}\n\n\t\tif ( ty <= min ) {\n\n\t\t\tmin = ty;\n\t\t\tnormal.set( 0, 1, 0 );\n\n\t\t}\n\n\t\tif ( tz <= min ) {\n\n\t\t\tnormal.set( 0, 0, 1 );\n\n\t\t}\n\n\t\tvec.crossVectors( tangents[ 0 ], normal ).normalize();\n\n\t\tnormals[ 0 ].crossVectors( tangents[ 0 ], vec );\n\t\tbinormals[ 0 ].crossVectors( tangents[ 0 ], normals[ 0 ] );\n\n\n\t\t// compute the slowly-varying normal and binormal vectors for each segment on the curve\n\n\t\tfor ( let i = 1; i <= segments; i ++ ) {\n\n\t\t\tnormals[ i ] = normals[ i - 1 ].clone();\n\n\t\t\tbinormals[ i ] = binormals[ i - 1 ].clone();\n\n\t\t\tvec.crossVectors( tangents[ i - 1 ], tangents[ i ] );\n\n\t\t\tif ( vec.length() > Number.EPSILON ) {\n\n\t\t\t\tvec.normalize();\n\n\t\t\t\tconst theta = Math.acos( clamp( tangents[ i - 1 ].dot( tangents[ i ] ), -1, 1 ) ); // clamp for floating pt errors\n\n\t\t\t\tnormals[ i ].applyMatrix4( mat.makeRotationAxis( vec, theta ) );\n\n\t\t\t}\n\n\t\t\tbinormals[ i ].crossVectors( tangents[ i ], normals[ i ] );\n\n\t\t}\n\n\t\t// if the curve is closed, postprocess the vectors so the first and last normal vectors are the same\n\n\t\tif ( closed === true ) {\n\n\t\t\tlet theta = Math.acos( clamp( normals[ 0 ].dot( normals[ segments ] ), -1, 1 ) );\n\t\t\ttheta /= segments;\n\n\t\t\tif ( tangents[ 0 ].dot( vec.crossVectors( normals[ 0 ], normals[ segments ] ) ) > 0 ) {\n\n\t\t\t\ttheta = - theta;\n\n\t\t\t}\n\n\t\t\tfor ( let i = 1; i <= segments; i ++ ) {\n\n\t\t\t\t// twist a little...\n\t\t\t\tnormals[ i ].applyMatrix4( mat.makeRotationAxis( tangents[ i ], theta * i ) );\n\t\t\t\tbinormals[ i ].crossVectors( tangents[ i ], normals[ i ] );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn {\n\t\t\ttangents: tangents,\n\t\t\tnormals: normals,\n\t\t\tbinormals: binormals\n\t\t};\n\n\t}\n\n\t/**\n\t * Returns a new curve with copied values from this instance.\n\t *\n\t * @return {Curve} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given curve to this instance.\n\t *\n\t * @param {Curve} source - The curve to copy.\n\t * @return {Curve} A reference to this curve.\n\t */\n\tcopy( source ) {\n\n\t\tthis.arcLengthDivisions = source.arcLengthDivisions;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Serializes the curve into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized curve.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Curve',\n\t\t\t\tgenerator: 'Curve.toJSON'\n\t\t\t}\n\t\t};\n\n\t\tdata.arcLengthDivisions = this.arcLengthDivisions;\n\t\tdata.type = this.type;\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Deserializes the curve from the given JSON.\n\t *\n\t * @param {Object} json - The JSON holding the serialized curve.\n\t * @return {Curve} A reference to this curve.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.arcLengthDivisions = json.arcLengthDivisions;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing an ellipse.\n *\n * ```js\n * const curve = new THREE.EllipseCurve(\n * \t0, 0,\n * \t10, 10,\n * \t0, 2 * Math.PI,\n * \tfalse,\n * \t0\n * );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const ellipse = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass EllipseCurve extends Curve {\n\n\t/**\n\t * Constructs a new ellipse curve.\n\t *\n\t * @param {number} [aX=0] - The X center of the ellipse.\n\t * @param {number} [aY=0] - The Y center of the ellipse.\n\t * @param {number} [xRadius=1] - The radius of the ellipse in the x direction.\n\t * @param {number} [yRadius=1] - The radius of the ellipse in the y direction.\n\t * @param {number} [aStartAngle=0] - The start angle of the curve in radians starting from the positive X axis.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle of the curve in radians starting from the positive X axis.\n\t * @param {boolean} [aClockwise=false] - Whether the ellipse is drawn clockwise or not.\n\t * @param {number} [aRotation=0] - The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t */\n\tconstructor( aX = 0, aY = 0, xRadius = 1, yRadius = 1, aStartAngle = 0, aEndAngle = Math.PI * 2, aClockwise = false, aRotation = 0 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isEllipseCurve = true;\n\n\t\tthis.type = 'EllipseCurve';\n\n\t\t/**\n\t\t * The X center of the ellipse.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aX = aX;\n\n\t\t/**\n\t\t * The Y center of the ellipse.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aY = aY;\n\n\t\t/**\n\t\t * The radius of the ellipse in the x direction.\n\t\t * Setting the this value equal to the {@link EllipseCurve#yRadius} will result in a circle.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.xRadius = xRadius;\n\n\t\t/**\n\t\t * The radius of the ellipse in the y direction.\n\t\t * Setting the this value equal to the {@link EllipseCurve#xRadius} will result in a circle.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.yRadius = yRadius;\n\n\t\t/**\n\t\t * The start angle of the curve in radians starting from the positive X axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aStartAngle = aStartAngle;\n\n\t\t/**\n\t\t * The end angle of the curve in radians starting from the positive X axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Math.PI*2\n\t\t */\n\t\tthis.aEndAngle = aEndAngle;\n\n\t\t/**\n\t\t * Whether the ellipse is drawn clockwise or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.aClockwise = aClockwise;\n\n\t\t/**\n\t\t * The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aRotation = aRotation;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst twoPi = Math.PI * 2;\n\t\tlet deltaAngle = this.aEndAngle - this.aStartAngle;\n\t\tconst samePoints = Math.abs( deltaAngle ) < Number.EPSILON;\n\n\t\t// ensures that deltaAngle is 0 .. 2 PI\n\t\twhile ( deltaAngle < 0 ) deltaAngle += twoPi;\n\t\twhile ( deltaAngle > twoPi ) deltaAngle -= twoPi;\n\n\t\tif ( deltaAngle < Number.EPSILON ) {\n\n\t\t\tif ( samePoints ) {\n\n\t\t\t\tdeltaAngle = 0;\n\n\t\t\t} else {\n\n\t\t\t\tdeltaAngle = twoPi;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.aClockwise === true && ! samePoints ) {\n\n\t\t\tif ( deltaAngle === twoPi ) {\n\n\t\t\t\tdeltaAngle = - twoPi;\n\n\t\t\t} else {\n\n\t\t\t\tdeltaAngle = deltaAngle - twoPi;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst angle = this.aStartAngle + t * deltaAngle;\n\t\tlet x = this.aX + this.xRadius * Math.cos( angle );\n\t\tlet y = this.aY + this.yRadius * Math.sin( angle );\n\n\t\tif ( this.aRotation !== 0 ) {\n\n\t\t\tconst cos = Math.cos( this.aRotation );\n\t\t\tconst sin = Math.sin( this.aRotation );\n\n\t\t\tconst tx = x - this.aX;\n\t\t\tconst ty = y - this.aY;\n\n\t\t\t// Rotate the point about the center of the ellipse.\n\t\t\tx = tx * cos - ty * sin + this.aX;\n\t\t\ty = tx * sin + ty * cos + this.aY;\n\n\t\t}\n\n\t\treturn point.set( x, y );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.aX = source.aX;\n\t\tthis.aY = source.aY;\n\n\t\tthis.xRadius = source.xRadius;\n\t\tthis.yRadius = source.yRadius;\n\n\t\tthis.aStartAngle = source.aStartAngle;\n\t\tthis.aEndAngle = source.aEndAngle;\n\n\t\tthis.aClockwise = source.aClockwise;\n\n\t\tthis.aRotation = source.aRotation;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.aX = this.aX;\n\t\tdata.aY = this.aY;\n\n\t\tdata.xRadius = this.xRadius;\n\t\tdata.yRadius = this.yRadius;\n\n\t\tdata.aStartAngle = this.aStartAngle;\n\t\tdata.aEndAngle = this.aEndAngle;\n\n\t\tdata.aClockwise = this.aClockwise;\n\n\t\tdata.aRotation = this.aRotation;\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.aX = json.aX;\n\t\tthis.aY = json.aY;\n\n\t\tthis.xRadius = json.xRadius;\n\t\tthis.yRadius = json.yRadius;\n\n\t\tthis.aStartAngle = json.aStartAngle;\n\t\tthis.aEndAngle = json.aEndAngle;\n\n\t\tthis.aClockwise = json.aClockwise;\n\n\t\tthis.aRotation = json.aRotation;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing an arc.\n *\n * @augments EllipseCurve\n */\nclass ArcCurve extends EllipseCurve {\n\n\t/**\n\t * Constructs a new arc curve.\n\t *\n\t * @param {number} [aX=0] - The X center of the ellipse.\n\t * @param {number} [aY=0] - The Y center of the ellipse.\n\t * @param {number} [aRadius=1] - The radius of the ellipse in the x direction.\n\t * @param {number} [aStartAngle=0] - The start angle of the curve in radians starting from the positive X axis.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle of the curve in radians starting from the positive X axis.\n\t * @param {boolean} [aClockwise=false] - Whether the ellipse is drawn clockwise or not.\n\t */\n\tconstructor( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) {\n\n\t\tsuper( aX, aY, aRadius, aRadius, aStartAngle, aEndAngle, aClockwise );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isArcCurve = true;\n\n\t\tthis.type = 'ArcCurve';\n\n\t}\n\n}\n\nfunction CubicPoly() {\n\n\t/**\n\t * Centripetal CatmullRom Curve - which is useful for avoiding\n\t* cusps and self-intersections in non-uniform catmull rom curves.\n\t* http://www.cemyuksel.com/research/catmullrom_param/catmullrom.pdf\n\t*\n\t* curve.type accepts centripetal(default), chordal and catmullrom\n\t* curve.tension is used for catmullrom which defaults to 0.5\n\t*/\n\n\t/*\n\tBased on an optimized c++ solution in\n\t- http://stackoverflow.com/questions/9489736/catmull-rom-curve-with-no-cusps-and-no-self-intersections/\n\t- http://ideone.com/NoEbVM\n\n\tThis CubicPoly class could be used for reusing some variables and calculations,\n\tbut for three.js curve use, it could be possible inlined and flatten into a single function call\n\twhich can be placed in CurveUtils.\n\t*/\n\n\tlet c0 = 0, c1 = 0, c2 = 0, c3 = 0;\n\n\t/*\n\t * Compute coefficients for a cubic polynomial\n\t * p(s) = c0 + c1*s + c2*s^2 + c3*s^3\n\t * such that\n\t * p(0) = x0, p(1) = x1\n\t * and\n\t * p'(0) = t0, p'(1) = t1.\n\t */\n\tfunction init( x0, x1, t0, t1 ) {\n\n\t\tc0 = x0;\n\t\tc1 = t0;\n\t\tc2 = -3 * x0 + 3 * x1 - 2 * t0 - t1;\n\t\tc3 = 2 * x0 - 2 * x1 + t0 + t1;\n\n\t}\n\n\treturn {\n\n\t\tinitCatmullRom: function ( x0, x1, x2, x3, tension ) {\n\n\t\t\tinit( x1, x2, tension * ( x2 - x0 ), tension * ( x3 - x1 ) );\n\n\t\t},\n\n\t\tinitNonuniformCatmullRom: function ( x0, x1, x2, x3, dt0, dt1, dt2 ) {\n\n\t\t\t// compute tangents when parameterized in [t1,t2]\n\t\t\tlet t1 = ( x1 - x0 ) / dt0 - ( x2 - x0 ) / ( dt0 + dt1 ) + ( x2 - x1 ) / dt1;\n\t\t\tlet t2 = ( x2 - x1 ) / dt1 - ( x3 - x1 ) / ( dt1 + dt2 ) + ( x3 - x2 ) / dt2;\n\n\t\t\t// rescale tangents for parametrization in [0,1]\n\t\t\tt1 *= dt1;\n\t\t\tt2 *= dt1;\n\n\t\t\tinit( x1, x2, t1, t2 );\n\n\t\t},\n\n\t\tcalc: function ( t ) {\n\n\t\t\tconst t2 = t * t;\n\t\t\tconst t3 = t2 * t;\n\t\t\treturn c0 + c1 * t + c2 * t2 + c3 * t3;\n\n\t\t}\n\n\t};\n\n}\n\n//\n\nconst tmp = /*@__PURE__*/ new Vector3();\nconst px = /*@__PURE__*/ new CubicPoly();\nconst py = /*@__PURE__*/ new CubicPoly();\nconst pz = /*@__PURE__*/ new CubicPoly();\n\n/**\n * A curve representing a Catmull-Rom spline.\n *\n * ```js\n * //Create a closed wavey loop\n * const curve = new THREE.CatmullRomCurve3( [\n * \tnew THREE.Vector3( -10, 0, 10 ),\n * \tnew THREE.Vector3( -5, 5, 5 ),\n * \tnew THREE.Vector3( 0, 0, 0 ),\n * \tnew THREE.Vector3( 5, -5, 5 ),\n * \tnew THREE.Vector3( 10, 0, 10 )\n * ] );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const curveObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass CatmullRomCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new Catmull-Rom curve.\n\t *\n\t * @param {Array} [points] - An array of 3D points defining the curve.\n\t * @param {boolean} [closed=false] - Whether the curve is closed or not.\n\t * @param {('centripetal'|'chordal'|'catmullrom')} [curveType='centripetal'] - The curve type.\n\t * @param {number} [tension=0.5] - Tension of the curve.\n\t */\n\tconstructor( points = [], closed = false, curveType = 'centripetal', tension = 0.5 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCatmullRomCurve3 = true;\n\n\t\tthis.type = 'CatmullRomCurve3';\n\n\t\t/**\n\t\t * An array of 3D points defining the curve.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.points = points;\n\n\t\t/**\n\t\t * Whether the curve is closed or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.closed = closed;\n\n\t\t/**\n\t\t * The curve type.\n\t\t *\n\t\t * @type {('centripetal'|'chordal'|'catmullrom')}\n\t\t * @default 'centripetal'\n\t\t */\n\t\tthis.curveType = curveType;\n\n\t\t/**\n\t\t * Tension of the curve.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.5\n\t\t */\n\t\tthis.tension = tension;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst points = this.points;\n\t\tconst l = points.length;\n\n\t\tconst p = ( l - ( this.closed ? 0 : 1 ) ) * t;\n\t\tlet intPoint = Math.floor( p );\n\t\tlet weight = p - intPoint;\n\n\t\tif ( this.closed ) {\n\n\t\t\tintPoint += intPoint > 0 ? 0 : ( Math.floor( Math.abs( intPoint ) / l ) + 1 ) * l;\n\n\t\t} else if ( weight === 0 && intPoint === l - 1 ) {\n\n\t\t\tintPoint = l - 2;\n\t\t\tweight = 1;\n\n\t\t}\n\n\t\tlet p0, p3; // 4 points (p1 & p2 defined below)\n\n\t\tif ( this.closed || intPoint > 0 ) {\n\n\t\t\tp0 = points[ ( intPoint - 1 ) % l ];\n\n\t\t} else {\n\n\t\t\t// extrapolate first point\n\t\t\ttmp.subVectors( points[ 0 ], points[ 1 ] ).add( points[ 0 ] );\n\t\t\tp0 = tmp;\n\n\t\t}\n\n\t\tconst p1 = points[ intPoint % l ];\n\t\tconst p2 = points[ ( intPoint + 1 ) % l ];\n\n\t\tif ( this.closed || intPoint + 2 < l ) {\n\n\t\t\tp3 = points[ ( intPoint + 2 ) % l ];\n\n\t\t} else {\n\n\t\t\t// extrapolate last point\n\t\t\ttmp.subVectors( points[ l - 1 ], points[ l - 2 ] ).add( points[ l - 1 ] );\n\t\t\tp3 = tmp;\n\n\t\t}\n\n\t\tif ( this.curveType === 'centripetal' || this.curveType === 'chordal' ) {\n\n\t\t\t// init Centripetal / Chordal Catmull-Rom\n\t\t\tconst pow = this.curveType === 'chordal' ? 0.5 : 0.25;\n\t\t\tlet dt0 = Math.pow( p0.distanceToSquared( p1 ), pow );\n\t\t\tlet dt1 = Math.pow( p1.distanceToSquared( p2 ), pow );\n\t\t\tlet dt2 = Math.pow( p2.distanceToSquared( p3 ), pow );\n\n\t\t\t// safety check for repeated points\n\t\t\tif ( dt1 < 1e-4 ) dt1 = 1.0;\n\t\t\tif ( dt0 < 1e-4 ) dt0 = dt1;\n\t\t\tif ( dt2 < 1e-4 ) dt2 = dt1;\n\n\t\t\tpx.initNonuniformCatmullRom( p0.x, p1.x, p2.x, p3.x, dt0, dt1, dt2 );\n\t\t\tpy.initNonuniformCatmullRom( p0.y, p1.y, p2.y, p3.y, dt0, dt1, dt2 );\n\t\t\tpz.initNonuniformCatmullRom( p0.z, p1.z, p2.z, p3.z, dt0, dt1, dt2 );\n\n\t\t} else if ( this.curveType === 'catmullrom' ) {\n\n\t\t\tpx.initCatmullRom( p0.x, p1.x, p2.x, p3.x, this.tension );\n\t\t\tpy.initCatmullRom( p0.y, p1.y, p2.y, p3.y, this.tension );\n\t\t\tpz.initCatmullRom( p0.z, p1.z, p2.z, p3.z, this.tension );\n\n\t\t}\n\n\t\tpoint.set(\n\t\t\tpx.calc( weight ),\n\t\t\tpy.calc( weight ),\n\t\t\tpz.calc( weight )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = source.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = source.points[ i ];\n\n\t\t\tthis.points.push( point.clone() );\n\n\t\t}\n\n\t\tthis.closed = source.closed;\n\t\tthis.curveType = source.curveType;\n\t\tthis.tension = source.tension;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.points = [];\n\n\t\tfor ( let i = 0, l = this.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = this.points[ i ];\n\t\t\tdata.points.push( point.toArray() );\n\n\t\t}\n\n\t\tdata.closed = this.closed;\n\t\tdata.curveType = this.curveType;\n\t\tdata.tension = this.tension;\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = json.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = json.points[ i ];\n\t\t\tthis.points.push( new Vector3().fromArray( point ) );\n\n\t\t}\n\n\t\tthis.closed = json.closed;\n\t\tthis.curveType = json.curveType;\n\t\tthis.tension = json.tension;\n\n\t\treturn this;\n\n\t}\n\n}\n\n// Bezier Curves formulas obtained from: https://en.wikipedia.org/wiki/B%C3%A9zier_curve\n\n/**\n * Computes a point on a Catmull-Rom spline.\n *\n * @param {number} t - The interpolation factor.\n * @param {number} p0 - The first control point.\n * @param {number} p1 - The second control point.\n * @param {number} p2 - The third control point.\n * @param {number} p3 - The fourth control point.\n * @return {number} The calculated point on a Catmull-Rom spline.\n */\nfunction CatmullRom( t, p0, p1, p2, p3 ) {\n\n\tconst v0 = ( p2 - p0 ) * 0.5;\n\tconst v1 = ( p3 - p1 ) * 0.5;\n\tconst t2 = t * t;\n\tconst t3 = t * t2;\n\treturn ( 2 * p1 - 2 * p2 + v0 + v1 ) * t3 + ( -3 * p1 + 3 * p2 - 2 * v0 - v1 ) * t2 + v0 * t + p1;\n\n}\n\n//\n\nfunction QuadraticBezierP0( t, p ) {\n\n\tconst k = 1 - t;\n\treturn k * k * p;\n\n}\n\nfunction QuadraticBezierP1( t, p ) {\n\n\treturn 2 * ( 1 - t ) * t * p;\n\n}\n\nfunction QuadraticBezierP2( t, p ) {\n\n\treturn t * t * p;\n\n}\n\n/**\n * Computes a point on a Quadratic Bezier curve.\n *\n * @param {number} t - The interpolation factor.\n * @param {number} p0 - The first control point.\n * @param {number} p1 - The second control point.\n * @param {number} p2 - The third control point.\n * @return {number} The calculated point on a Quadratic Bezier curve.\n */\nfunction QuadraticBezier( t, p0, p1, p2 ) {\n\n\treturn QuadraticBezierP0( t, p0 ) + QuadraticBezierP1( t, p1 ) +\n\t\tQuadraticBezierP2( t, p2 );\n\n}\n\n//\n\nfunction CubicBezierP0( t, p ) {\n\n\tconst k = 1 - t;\n\treturn k * k * k * p;\n\n}\n\nfunction CubicBezierP1( t, p ) {\n\n\tconst k = 1 - t;\n\treturn 3 * k * k * t * p;\n\n}\n\nfunction CubicBezierP2( t, p ) {\n\n\treturn 3 * ( 1 - t ) * t * t * p;\n\n}\n\nfunction CubicBezierP3( t, p ) {\n\n\treturn t * t * t * p;\n\n}\n\n/**\n * Computes a point on a Cubic Bezier curve.\n *\n * @param {number} t - The interpolation factor.\n * @param {number} p0 - The first control point.\n * @param {number} p1 - The second control point.\n * @param {number} p2 - The third control point.\n * @param {number} p3 - The fourth control point.\n * @return {number} The calculated point on a Cubic Bezier curve.\n */\nfunction CubicBezier( t, p0, p1, p2, p3 ) {\n\n\treturn CubicBezierP0( t, p0 ) + CubicBezierP1( t, p1 ) + CubicBezierP2( t, p2 ) +\n\t\tCubicBezierP3( t, p3 );\n\n}\n\n/**\n * A curve representing a 2D Cubic Bezier curve.\n *\n * ```js\n * const curve = new THREE.CubicBezierCurve(\n * \tnew THREE.Vector2( - 0, 0 ),\n * \tnew THREE.Vector2( - 5, 15 ),\n * \tnew THREE.Vector2( 20, 15 ),\n * \tnew THREE.Vector2( 10, 0 )\n * );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const curveObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass CubicBezierCurve extends Curve {\n\n\t/**\n\t * Constructs a new Cubic Bezier curve.\n\t *\n\t * @param {Vector2} [v0] - The start point.\n\t * @param {Vector2} [v1] - The first control point.\n\t * @param {Vector2} [v2] - The second control point.\n\t * @param {Vector2} [v3] - The end point.\n\t */\n\tconstructor( v0 = new Vector2(), v1 = new Vector2(), v2 = new Vector2(), v3 = new Vector2() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubicBezierCurve = true;\n\n\t\tthis.type = 'CubicBezierCurve';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The first control point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The second control point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v3 = v3;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2, v3 = this.v3;\n\n\t\tpoint.set(\n\t\t\tCubicBezier( t, v0.x, v1.x, v2.x, v3.x ),\n\t\t\tCubicBezier( t, v0.y, v1.y, v2.y, v3.y )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\t\tthis.v3.copy( source.v3 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\t\tdata.v3 = this.v3.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\t\tthis.v3.fromArray( json.v3 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 3D Cubic Bezier curve.\n *\n * @augments Curve\n */\nclass CubicBezierCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new Cubic Bezier curve.\n\t *\n\t * @param {Vector3} [v0] - The start point.\n\t * @param {Vector3} [v1] - The first control point.\n\t * @param {Vector3} [v2] - The second control point.\n\t * @param {Vector3} [v3] - The end point.\n\t */\n\tconstructor( v0 = new Vector3(), v1 = new Vector3(), v2 = new Vector3(), v3 = new Vector3() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubicBezierCurve3 = true;\n\n\t\tthis.type = 'CubicBezierCurve3';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The first control point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The second control point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v3 = v3;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2, v3 = this.v3;\n\n\t\tpoint.set(\n\t\t\tCubicBezier( t, v0.x, v1.x, v2.x, v3.x ),\n\t\t\tCubicBezier( t, v0.y, v1.y, v2.y, v3.y ),\n\t\t\tCubicBezier( t, v0.z, v1.z, v2.z, v3.z )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\t\tthis.v3.copy( source.v3 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\t\tdata.v3 = this.v3.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\t\tthis.v3.fromArray( json.v3 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 2D line segment.\n *\n * @augments Curve\n */\nclass LineCurve extends Curve {\n\n\t/**\n\t * Constructs a new line curve.\n\t *\n\t * @param {Vector2} [v1] - The start point.\n\t * @param {Vector2} [v2] - The end point.\n\t */\n\tconstructor( v1 = new Vector2(), v2 = new Vector2() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineCurve = true;\n\n\t\tthis.type = 'LineCurve';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the line.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the line. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the line.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tif ( t === 1 ) {\n\n\t\t\tpoint.copy( this.v2 );\n\n\t\t} else {\n\n\t\t\tpoint.copy( this.v2 ).sub( this.v1 );\n\t\t\tpoint.multiplyScalar( t ).add( this.v1 );\n\n\t\t}\n\n\t\treturn point;\n\n\t}\n\n\t// Line curve is linear, so we can overwrite default getPointAt\n\tgetPointAt( u, optionalTarget ) {\n\n\t\treturn this.getPoint( u, optionalTarget );\n\n\t}\n\n\tgetTangent( t, optionalTarget = new Vector2() ) {\n\n\t\treturn optionalTarget.subVectors( this.v2, this.v1 ).normalize();\n\n\t}\n\n\tgetTangentAt( u, optionalTarget ) {\n\n\t\treturn this.getTangent( u, optionalTarget );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 3D line segment.\n *\n * @augments Curve\n */\nclass LineCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new line curve.\n\t *\n\t * @param {Vector3} [v1] - The start point.\n\t * @param {Vector3} [v2] - The end point.\n\t */\n\tconstructor( v1 = new Vector3(), v2 = new Vector3() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineCurve3 = true;\n\n\t\tthis.type = 'LineCurve3';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the line.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the line. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the line.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tif ( t === 1 ) {\n\n\t\t\tpoint.copy( this.v2 );\n\n\t\t} else {\n\n\t\t\tpoint.copy( this.v2 ).sub( this.v1 );\n\t\t\tpoint.multiplyScalar( t ).add( this.v1 );\n\n\t\t}\n\n\t\treturn point;\n\n\t}\n\n\t// Line curve is linear, so we can overwrite default getPointAt\n\tgetPointAt( u, optionalTarget ) {\n\n\t\treturn this.getPoint( u, optionalTarget );\n\n\t}\n\n\tgetTangent( t, optionalTarget = new Vector3() ) {\n\n\t\treturn optionalTarget.subVectors( this.v2, this.v1 ).normalize();\n\n\t}\n\n\tgetTangentAt( u, optionalTarget ) {\n\n\t\treturn this.getTangent( u, optionalTarget );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 2D Quadratic Bezier curve.\n *\n * ```js\n * const curve = new THREE.QuadraticBezierCurve(\n * \tnew THREE.Vector2( - 10, 0 ),\n * \tnew THREE.Vector2( 20, 15 ),\n * \tnew THREE.Vector2( 10, 0 )\n * )\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const curveObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass QuadraticBezierCurve extends Curve {\n\n\t/**\n\t * Constructs a new Quadratic Bezier curve.\n\t *\n\t * @param {Vector2} [v0] - The start point.\n\t * @param {Vector2} [v1] - The control point.\n\t * @param {Vector2} [v2] - The end point.\n\t */\n\tconstructor( v0 = new Vector2(), v1 = new Vector2(), v2 = new Vector2() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isQuadraticBezierCurve = true;\n\n\t\tthis.type = 'QuadraticBezierCurve';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The control point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2;\n\n\t\tpoint.set(\n\t\t\tQuadraticBezier( t, v0.x, v1.x, v2.x ),\n\t\t\tQuadraticBezier( t, v0.y, v1.y, v2.y )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 3D Quadratic Bezier curve.\n *\n * @augments Curve\n */\nclass QuadraticBezierCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new Quadratic Bezier curve.\n\t *\n\t * @param {Vector3} [v0] - The start point.\n\t * @param {Vector3} [v1] - The control point.\n\t * @param {Vector3} [v2] - The end point.\n\t */\n\tconstructor( v0 = new Vector3(), v1 = new Vector3(), v2 = new Vector3() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isQuadraticBezierCurve3 = true;\n\n\t\tthis.type = 'QuadraticBezierCurve3';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The control point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2;\n\n\t\tpoint.set(\n\t\t\tQuadraticBezier( t, v0.x, v1.x, v2.x ),\n\t\t\tQuadraticBezier( t, v0.y, v1.y, v2.y ),\n\t\t\tQuadraticBezier( t, v0.z, v1.z, v2.z )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 2D spline curve.\n *\n * ```js\n * // Create a sine-like wave\n * const curve = new THREE.SplineCurve( [\n * \tnew THREE.Vector2( -10, 0 ),\n * \tnew THREE.Vector2( -5, 5 ),\n * \tnew THREE.Vector2( 0, 0 ),\n * \tnew THREE.Vector2( 5, -5 ),\n * \tnew THREE.Vector2( 10, 0 )\n * ] );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const splineObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass SplineCurve extends Curve {\n\n\t/**\n\t * Constructs a new 2D spline curve.\n\t *\n\t * @param {Array} [points] - An array of 2D points defining the curve.\n\t */\n\tconstructor( points = [] ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSplineCurve = true;\n\n\t\tthis.type = 'SplineCurve';\n\n\t\t/**\n\t\t * An array of 2D points defining the curve.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.points = points;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst points = this.points;\n\t\tconst p = ( points.length - 1 ) * t;\n\n\t\tconst intPoint = Math.floor( p );\n\t\tconst weight = p - intPoint;\n\n\t\tconst p0 = points[ intPoint === 0 ? intPoint : intPoint - 1 ];\n\t\tconst p1 = points[ intPoint ];\n\t\tconst p2 = points[ intPoint > points.length - 2 ? points.length - 1 : intPoint + 1 ];\n\t\tconst p3 = points[ intPoint > points.length - 3 ? points.length - 1 : intPoint + 2 ];\n\n\t\tpoint.set(\n\t\t\tCatmullRom( weight, p0.x, p1.x, p2.x, p3.x ),\n\t\t\tCatmullRom( weight, p0.y, p1.y, p2.y, p3.y )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = source.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = source.points[ i ];\n\n\t\t\tthis.points.push( point.clone() );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.points = [];\n\n\t\tfor ( let i = 0, l = this.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = this.points[ i ];\n\t\t\tdata.points.push( point.toArray() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = json.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = json.points[ i ];\n\t\t\tthis.points.push( new Vector2().fromArray( point ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\nvar Curves = /*#__PURE__*/Object.freeze({\n\t__proto__: null,\n\tArcCurve: ArcCurve,\n\tCatmullRomCurve3: CatmullRomCurve3,\n\tCubicBezierCurve: CubicBezierCurve,\n\tCubicBezierCurve3: CubicBezierCurve3,\n\tEllipseCurve: EllipseCurve,\n\tLineCurve: LineCurve,\n\tLineCurve3: LineCurve3,\n\tQuadraticBezierCurve: QuadraticBezierCurve,\n\tQuadraticBezierCurve3: QuadraticBezierCurve3,\n\tSplineCurve: SplineCurve\n});\n\n/**\n * A base class extending {@link Curve}. `CurvePath` is simply an\n * array of connected curves, but retains the API of a curve.\n *\n * @augments Curve\n */\nclass CurvePath extends Curve {\n\n\t/**\n\t * Constructs a new curve path.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\tthis.type = 'CurvePath';\n\n\t\t/**\n\t\t * An array of curves defining the\n\t\t * path.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.curves = [];\n\n\t\t/**\n\t\t * Whether the path should automatically be closed\n\t\t * by a line curve.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.autoClose = false;\n\n\t}\n\n\t/**\n\t * Adds a curve to this curve path.\n\t *\n\t * @param {Curve} curve - The curve to add.\n\t */\n\tadd( curve ) {\n\n\t\tthis.curves.push( curve );\n\n\t}\n\n\t/**\n\t * Adds a line curve to close the path.\n\t *\n\t * @return {CurvePath} A reference to this curve path.\n\t */\n\tclosePath() {\n\n\t\t// Add a line curve if start and end of lines are not connected\n\t\tconst startPoint = this.curves[ 0 ].getPoint( 0 );\n\t\tconst endPoint = this.curves[ this.curves.length - 1 ].getPoint( 1 );\n\n\t\tif ( ! startPoint.equals( endPoint ) ) {\n\n\t\t\tconst lineType = ( startPoint.isVector2 === true ) ? 'LineCurve' : 'LineCurve3';\n\t\t\tthis.curves.push( new Curves[ lineType ]( endPoint, startPoint ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This method returns a vector in 2D or 3D space (depending on the curve definitions)\n\t * for the given interpolation factor.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {?(Vector2|Vector3)} The position on the curve. It can be a 2D or 3D vector depending on the curve definition.\n\t */\n\tgetPoint( t, optionalTarget ) {\n\n\t\t// To get accurate point with reference to\n\t\t// entire path distance at time t,\n\t\t// following has to be done:\n\n\t\t// 1. Length of each sub path have to be known\n\t\t// 2. Locate and identify type of curve\n\t\t// 3. Get t for the curve\n\t\t// 4. Return curve.getPointAt(t')\n\n\t\tconst d = t * this.getLength();\n\t\tconst curveLengths = this.getCurveLengths();\n\t\tlet i = 0;\n\n\t\t// To think about boundaries points.\n\n\t\twhile ( i < curveLengths.length ) {\n\n\t\t\tif ( curveLengths[ i ] >= d ) {\n\n\t\t\t\tconst diff = curveLengths[ i ] - d;\n\t\t\t\tconst curve = this.curves[ i ];\n\n\t\t\t\tconst segmentLength = curve.getLength();\n\t\t\t\tconst u = segmentLength === 0 ? 0 : 1 - diff / segmentLength;\n\n\t\t\t\treturn curve.getPointAt( u, optionalTarget );\n\n\t\t\t}\n\n\t\t\ti ++;\n\n\t\t}\n\n\t\treturn null;\n\n\t\t// loop where sum != 0, sum > d , sum+1 } The curve lengths.\n\t */\n\tgetCurveLengths() {\n\n\t\t// Compute lengths and cache them\n\t\t// We cannot overwrite getLengths() because UtoT mapping uses it.\n\t\t// We use cache values if curves and cache array are same length\n\n\t\tif ( this.cacheLengths && this.cacheLengths.length === this.curves.length ) {\n\n\t\t\treturn this.cacheLengths;\n\n\t\t}\n\n\t\t// Get length of sub-curve\n\t\t// Push sums into cached array\n\n\t\tconst lengths = [];\n\t\tlet sums = 0;\n\n\t\tfor ( let i = 0, l = this.curves.length; i < l; i ++ ) {\n\n\t\t\tsums += this.curves[ i ].getLength();\n\t\t\tlengths.push( sums );\n\n\t\t}\n\n\t\tthis.cacheLengths = lengths;\n\n\t\treturn lengths;\n\n\t}\n\n\tgetSpacedPoints( divisions = 40 ) {\n\n\t\tconst points = [];\n\n\t\tfor ( let i = 0; i <= divisions; i ++ ) {\n\n\t\t\tpoints.push( this.getPoint( i / divisions ) );\n\n\t\t}\n\n\t\tif ( this.autoClose ) {\n\n\t\t\tpoints.push( points[ 0 ] );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\tgetPoints( divisions = 12 ) {\n\n\t\tconst points = [];\n\t\tlet last;\n\n\t\tfor ( let i = 0, curves = this.curves; i < curves.length; i ++ ) {\n\n\t\t\tconst curve = curves[ i ];\n\t\t\tconst resolution = curve.isEllipseCurve ? divisions * 2\n\t\t\t\t: ( curve.isLineCurve || curve.isLineCurve3 ) ? 1\n\t\t\t\t\t: curve.isSplineCurve ? divisions * curve.points.length\n\t\t\t\t\t\t: divisions;\n\n\t\t\tconst pts = curve.getPoints( resolution );\n\n\t\t\tfor ( let j = 0; j < pts.length; j ++ ) {\n\n\t\t\t\tconst point = pts[ j ];\n\n\t\t\t\tif ( last && last.equals( point ) ) continue; // ensures no consecutive points are duplicates\n\n\t\t\t\tpoints.push( point );\n\t\t\t\tlast = point;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.autoClose && points.length > 1 && ! points[ points.length - 1 ].equals( points[ 0 ] ) ) {\n\n\t\t\tpoints.push( points[ 0 ] );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.curves = [];\n\n\t\tfor ( let i = 0, l = source.curves.length; i < l; i ++ ) {\n\n\t\t\tconst curve = source.curves[ i ];\n\n\t\t\tthis.curves.push( curve.clone() );\n\n\t\t}\n\n\t\tthis.autoClose = source.autoClose;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.autoClose = this.autoClose;\n\t\tdata.curves = [];\n\n\t\tfor ( let i = 0, l = this.curves.length; i < l; i ++ ) {\n\n\t\t\tconst curve = this.curves[ i ];\n\t\t\tdata.curves.push( curve.toJSON() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.autoClose = json.autoClose;\n\t\tthis.curves = [];\n\n\t\tfor ( let i = 0, l = json.curves.length; i < l; i ++ ) {\n\n\t\t\tconst curve = json.curves[ i ];\n\t\t\tthis.curves.push( new Curves[ curve.type ]().fromJSON( curve ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A 2D path representation. The class provides methods for creating paths\n * and contours of 2D shapes similar to the 2D Canvas API.\n *\n * ```js\n * const path = new THREE.Path();\n *\n * path.lineTo( 0, 0.8 );\n * path.quadraticCurveTo( 0, 1, 0.2, 1 );\n * path.lineTo( 1, 1 );\n *\n * const points = path.getPoints();\n *\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n * const material = new THREE.LineBasicMaterial( { color: 0xffffff } );\n *\n * const line = new THREE.Line( geometry, material );\n * scene.add( line );\n * ```\n *\n * @augments CurvePath\n */\nclass Path extends CurvePath {\n\n\t/**\n\t * Constructs a new path.\n\t *\n\t * @param {Array} [points] - An array of 2D points defining the path.\n\t */\n\tconstructor( points ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'Path';\n\n\t\t/**\n\t\t * The current offset of the path. Any new curve added will start here.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.currentPoint = new Vector2();\n\n\t\tif ( points ) {\n\n\t\t\tthis.setFromPoints( points );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Creates a path from the given list of points. The points are added\n\t * to the path as instances of {@link LineCurve}.\n\t *\n\t * @param {Array} points - An array of 2D points.\n\t * @return {Path} A reference to this path.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tthis.moveTo( points[ 0 ].x, points[ 0 ].y );\n\n\t\tfor ( let i = 1, l = points.length; i < l; i ++ ) {\n\n\t\t\tthis.lineTo( points[ i ].x, points[ i ].y );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Moves {@link Path#currentPoint} to the given point.\n\t *\n\t * @param {number} x - The x coordinate.\n\t * @param {number} y - The y coordinate.\n\t * @return {Path} A reference to this path.\n\t */\n\tmoveTo( x, y ) {\n\n\t\tthis.currentPoint.set( x, y ); // TODO consider referencing vectors instead of copying?\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link LineCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} x - The x coordinate of the end point.\n\t * @param {number} y - The y coordinate of the end point.\n\t * @return {Path} A reference to this path.\n\t */\n\tlineTo( x, y ) {\n\n\t\tconst curve = new LineCurve( this.currentPoint.clone(), new Vector2( x, y ) );\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.set( x, y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link QuadraticBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCPx - The x coordinate of the control point.\n\t * @param {number} aCPy - The y coordinate of the control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {Path} A reference to this path.\n\t */\n\tquadraticCurveTo( aCPx, aCPy, aX, aY ) {\n\n\t\tconst curve = new QuadraticBezierCurve(\n\t\t\tthis.currentPoint.clone(),\n\t\t\tnew Vector2( aCPx, aCPy ),\n\t\t\tnew Vector2( aX, aY )\n\t\t);\n\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.set( aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link CubicBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCP1x - The x coordinate of the first control point.\n\t * @param {number} aCP1y - The y coordinate of the first control point.\n\t * @param {number} aCP2x - The x coordinate of the second control point.\n\t * @param {number} aCP2y - The y coordinate of the second control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {Path} A reference to this path.\n\t */\n\tbezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY ) {\n\n\t\tconst curve = new CubicBezierCurve(\n\t\t\tthis.currentPoint.clone(),\n\t\t\tnew Vector2( aCP1x, aCP1y ),\n\t\t\tnew Vector2( aCP2x, aCP2y ),\n\t\t\tnew Vector2( aX, aY )\n\t\t);\n\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.set( aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link SplineCurve} to the path by connecting\n\t * the current point with the given list of points.\n\t *\n\t * @param {Array} pts - An array of points in 2D space.\n\t * @return {Path} A reference to this path.\n\t */\n\tsplineThru( pts ) {\n\n\t\tconst npts = [ this.currentPoint.clone() ].concat( pts );\n\n\t\tconst curve = new SplineCurve( npts );\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.copy( pts[ pts.length - 1 ] );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an arc as an instance of {@link EllipseCurve} to the path, positioned relative\n\t * to the current point.\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the center of the arc offsetted from the previous curve.\n\t * @param {number} [aY=0] - The y coordinate of the center of the arc offsetted from the previous curve.\n\t * @param {number} [aRadius=1] - The radius of the arc.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the arc clockwise or not.\n\t * @return {Path} A reference to this path.\n\t */\n\tarc( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) {\n\n\t\tconst x0 = this.currentPoint.x;\n\t\tconst y0 = this.currentPoint.y;\n\n\t\tthis.absarc( aX + x0, aY + y0, aRadius,\n\t\t\taStartAngle, aEndAngle, aClockwise );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an absolutely positioned arc as an instance of {@link EllipseCurve} to the path.\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the center of the arc.\n\t * @param {number} [aY=0] - The y coordinate of the center of the arc.\n\t * @param {number} [aRadius=1] - The radius of the arc.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the arc clockwise or not.\n\t * @return {Path} A reference to this path.\n\t */\n\tabsarc( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) {\n\n\t\tthis.absellipse( aX, aY, aRadius, aRadius, aStartAngle, aEndAngle, aClockwise );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an ellipse as an instance of {@link EllipseCurve} to the path, positioned relative\n\t * to the current point\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the center of the ellipse offsetted from the previous curve.\n\t * @param {number} [aY=0] - The y coordinate of the center of the ellipse offsetted from the previous curve.\n\t * @param {number} [xRadius=1] - The radius of the ellipse in the x axis.\n\t * @param {number} [yRadius=1] - The radius of the ellipse in the y axis.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the ellipse clockwise or not.\n\t * @param {number} [aRotation=0] - The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t * @return {Path} A reference to this path.\n\t */\n\tellipse( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ) {\n\n\t\tconst x0 = this.currentPoint.x;\n\t\tconst y0 = this.currentPoint.y;\n\n\t\tthis.absellipse( aX + x0, aY + y0, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an absolutely positioned ellipse as an instance of {@link EllipseCurve} to the path.\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the absolute center of the ellipse.\n\t * @param {number} [aY=0] - The y coordinate of the absolute center of the ellipse.\n\t * @param {number} [xRadius=1] - The radius of the ellipse in the x axis.\n\t * @param {number} [yRadius=1] - The radius of the ellipse in the y axis.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the ellipse clockwise or not.\n\t * @param {number} [aRotation=0] - The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t * @return {Path} A reference to this path.\n\t */\n\tabsellipse( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ) {\n\n\t\tconst curve = new EllipseCurve( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation );\n\n\t\tif ( this.curves.length > 0 ) {\n\n\t\t\t// if a previous curve is present, attempt to join\n\t\t\tconst firstPoint = curve.getPoint( 0 );\n\n\t\t\tif ( ! firstPoint.equals( this.currentPoint ) ) {\n\n\t\t\t\tthis.lineTo( firstPoint.x, firstPoint.y );\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.curves.push( curve );\n\n\t\tconst lastPoint = curve.getPoint( 1 );\n\t\tthis.currentPoint.copy( lastPoint );\n\n\t\treturn this;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.currentPoint.copy( source.currentPoint );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.currentPoint = this.currentPoint.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.currentPoint.fromArray( json.currentPoint );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Defines an arbitrary 2d shape plane using paths with optional holes. It\n * can be used with {@link ExtrudeGeometry}, {@link ShapeGeometry}, to get\n * points, or to get triangulated faces.\n *\n * ```js\n * const heartShape = new THREE.Shape();\n *\n * heartShape.moveTo( 25, 25 );\n * heartShape.bezierCurveTo( 25, 25, 20, 0, 0, 0 );\n * heartShape.bezierCurveTo( - 30, 0, - 30, 35, - 30, 35 );\n * heartShape.bezierCurveTo( - 30, 55, - 10, 77, 25, 95 );\n * heartShape.bezierCurveTo( 60, 77, 80, 55, 80, 35 );\n * heartShape.bezierCurveTo( 80, 35, 80, 0, 50, 0 );\n * heartShape.bezierCurveTo( 35, 0, 25, 25, 25, 25 );\n *\n * const extrudeSettings = {\n * \tdepth: 8,\n * \tbevelEnabled: true,\n * \tbevelSegments: 2,\n * \tsteps: 2,\n * \tbevelSize: 1,\n * \tbevelThickness: 1\n * };\n *\n * const geometry = new THREE.ExtrudeGeometry( heartShape, extrudeSettings );\n * const mesh = new THREE.Mesh( geometry, new THREE.MeshBasicMaterial() );\n * ```\n *\n * @augments Path\n */\nclass Shape extends Path {\n\n\t/**\n\t * Constructs a new shape.\n\t *\n\t * @param {Array} [points] - An array of 2D points defining the shape.\n\t */\n\tconstructor( points ) {\n\n\t\tsuper( points );\n\n\t\t/**\n\t\t * The UUID of the shape.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\tthis.type = 'Shape';\n\n\t\t/**\n\t\t * Defines the holes in the shape. Hole definitions must use the\n\t\t * opposite winding order (CW/CCW) than the outer shape.\n\t\t *\n\t\t * @type {Array}\n\t\t * @readonly\n\t\t */\n\t\tthis.holes = [];\n\n\t}\n\n\t/**\n\t * Returns an array representing each contour of the holes\n\t * as a list of 2D points.\n\t *\n\t * @param {number} divisions - The fineness of the result.\n\t * @return {Array>} The holes as a series of 2D points.\n\t */\n\tgetPointsHoles( divisions ) {\n\n\t\tconst holesPts = [];\n\n\t\tfor ( let i = 0, l = this.holes.length; i < l; i ++ ) {\n\n\t\t\tholesPts[ i ] = this.holes[ i ].getPoints( divisions );\n\n\t\t}\n\n\t\treturn holesPts;\n\n\t}\n\n\t// get points of shape and holes (keypoints based on segments parameter)\n\n\t/**\n\t * Returns an object that holds contour data for the shape and its holes as\n\t * arrays of 2D points.\n\t *\n\t * @param {number} divisions - The fineness of the result.\n\t * @return {{shape:Array,holes:Array>}} An object with contour data.\n\t */\n\textractPoints( divisions ) {\n\n\t\treturn {\n\n\t\t\tshape: this.getPoints( divisions ),\n\t\t\tholes: this.getPointsHoles( divisions )\n\n\t\t};\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.holes = [];\n\n\t\tfor ( let i = 0, l = source.holes.length; i < l; i ++ ) {\n\n\t\t\tconst hole = source.holes[ i ];\n\n\t\t\tthis.holes.push( hole.clone() );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.uuid = this.uuid;\n\t\tdata.holes = [];\n\n\t\tfor ( let i = 0, l = this.holes.length; i < l; i ++ ) {\n\n\t\t\tconst hole = this.holes[ i ];\n\t\t\tdata.holes.push( hole.toJSON() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.uuid = json.uuid;\n\t\tthis.holes = [];\n\n\t\tfor ( let i = 0, l = json.holes.length; i < l; i ++ ) {\n\n\t\t\tconst hole = json.holes[ i ];\n\t\t\tthis.holes.push( new Path().fromJSON( hole ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/* eslint-disable */\n// copy of mapbox/earcut version 3.0.1\n// https://github.com/mapbox/earcut/tree/v3.0.1\n\nfunction earcut(data, holeIndices, dim = 2) {\n\n const hasHoles = holeIndices && holeIndices.length;\n const outerLen = hasHoles ? holeIndices[0] * dim : data.length;\n let outerNode = linkedList(data, 0, outerLen, dim, true);\n const triangles = [];\n\n if (!outerNode || outerNode.next === outerNode.prev) return triangles;\n\n let minX, minY, invSize;\n\n if (hasHoles) outerNode = eliminateHoles(data, holeIndices, outerNode, dim);\n\n // if the shape is not too simple, we'll use z-order curve hash later; calculate polygon bbox\n if (data.length > 80 * dim) {\n minX = Infinity;\n minY = Infinity;\n let maxX = -Infinity;\n let maxY = -Infinity;\n\n for (let i = dim; i < outerLen; i += dim) {\n const x = data[i];\n const y = data[i + 1];\n if (x < minX) minX = x;\n if (y < minY) minY = y;\n if (x > maxX) maxX = x;\n if (y > maxY) maxY = y;\n }\n\n // minX, minY and invSize are later used to transform coords into integers for z-order calculation\n invSize = Math.max(maxX - minX, maxY - minY);\n invSize = invSize !== 0 ? 32767 / invSize : 0;\n }\n\n earcutLinked(outerNode, triangles, dim, minX, minY, invSize, 0);\n\n return triangles;\n}\n\n// create a circular doubly linked list from polygon points in the specified winding order\nfunction linkedList(data, start, end, dim, clockwise) {\n let last;\n\n if (clockwise === (signedArea(data, start, end, dim) > 0)) {\n for (let i = start; i < end; i += dim) last = insertNode(i / dim | 0, data[i], data[i + 1], last);\n } else {\n for (let i = end - dim; i >= start; i -= dim) last = insertNode(i / dim | 0, data[i], data[i + 1], last);\n }\n\n if (last && equals(last, last.next)) {\n removeNode(last);\n last = last.next;\n }\n\n return last;\n}\n\n// eliminate colinear or duplicate points\nfunction filterPoints(start, end) {\n if (!start) return start;\n if (!end) end = start;\n\n let p = start,\n again;\n do {\n again = false;\n\n if (!p.steiner && (equals(p, p.next) || area(p.prev, p, p.next) === 0)) {\n removeNode(p);\n p = end = p.prev;\n if (p === p.next) break;\n again = true;\n\n } else {\n p = p.next;\n }\n } while (again || p !== end);\n\n return end;\n}\n\n// main ear slicing loop which triangulates a polygon (given as a linked list)\nfunction earcutLinked(ear, triangles, dim, minX, minY, invSize, pass) {\n if (!ear) return;\n\n // interlink polygon nodes in z-order\n if (!pass && invSize) indexCurve(ear, minX, minY, invSize);\n\n let stop = ear;\n\n // iterate through ears, slicing them one by one\n while (ear.prev !== ear.next) {\n const prev = ear.prev;\n const next = ear.next;\n\n if (invSize ? isEarHashed(ear, minX, minY, invSize) : isEar(ear)) {\n triangles.push(prev.i, ear.i, next.i); // cut off the triangle\n\n removeNode(ear);\n\n // skipping the next vertex leads to less sliver triangles\n ear = next.next;\n stop = next.next;\n\n continue;\n }\n\n ear = next;\n\n // if we looped through the whole remaining polygon and can't find any more ears\n if (ear === stop) {\n // try filtering points and slicing again\n if (!pass) {\n earcutLinked(filterPoints(ear), triangles, dim, minX, minY, invSize, 1);\n\n // if this didn't work, try curing all small self-intersections locally\n } else if (pass === 1) {\n ear = cureLocalIntersections(filterPoints(ear), triangles);\n earcutLinked(ear, triangles, dim, minX, minY, invSize, 2);\n\n // as a last resort, try splitting the remaining polygon into two\n } else if (pass === 2) {\n splitEarcut(ear, triangles, dim, minX, minY, invSize);\n }\n\n break;\n }\n }\n}\n\n// check whether a polygon node forms a valid ear with adjacent nodes\nfunction isEar(ear) {\n const a = ear.prev,\n b = ear,\n c = ear.next;\n\n if (area(a, b, c) >= 0) return false; // reflex, can't be an ear\n\n // now make sure we don't have other points inside the potential ear\n const ax = a.x, bx = b.x, cx = c.x, ay = a.y, by = b.y, cy = c.y;\n\n // triangle bbox\n const x0 = Math.min(ax, bx, cx),\n y0 = Math.min(ay, by, cy),\n x1 = Math.max(ax, bx, cx),\n y1 = Math.max(ay, by, cy);\n\n let p = c.next;\n while (p !== a) {\n if (p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, p.x, p.y) &&\n area(p.prev, p, p.next) >= 0) return false;\n p = p.next;\n }\n\n return true;\n}\n\nfunction isEarHashed(ear, minX, minY, invSize) {\n const a = ear.prev,\n b = ear,\n c = ear.next;\n\n if (area(a, b, c) >= 0) return false; // reflex, can't be an ear\n\n const ax = a.x, bx = b.x, cx = c.x, ay = a.y, by = b.y, cy = c.y;\n\n // triangle bbox\n const x0 = Math.min(ax, bx, cx),\n y0 = Math.min(ay, by, cy),\n x1 = Math.max(ax, bx, cx),\n y1 = Math.max(ay, by, cy);\n\n // z-order range for the current triangle bbox;\n const minZ = zOrder(x0, y0, minX, minY, invSize),\n maxZ = zOrder(x1, y1, minX, minY, invSize);\n\n let p = ear.prevZ,\n n = ear.nextZ;\n\n // look for points inside the triangle in both directions\n while (p && p.z >= minZ && n && n.z <= maxZ) {\n if (p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 && p !== a && p !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, p.x, p.y) && area(p.prev, p, p.next) >= 0) return false;\n p = p.prevZ;\n\n if (n.x >= x0 && n.x <= x1 && n.y >= y0 && n.y <= y1 && n !== a && n !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, n.x, n.y) && area(n.prev, n, n.next) >= 0) return false;\n n = n.nextZ;\n }\n\n // look for remaining points in decreasing z-order\n while (p && p.z >= minZ) {\n if (p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 && p !== a && p !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, p.x, p.y) && area(p.prev, p, p.next) >= 0) return false;\n p = p.prevZ;\n }\n\n // look for remaining points in increasing z-order\n while (n && n.z <= maxZ) {\n if (n.x >= x0 && n.x <= x1 && n.y >= y0 && n.y <= y1 && n !== a && n !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, n.x, n.y) && area(n.prev, n, n.next) >= 0) return false;\n n = n.nextZ;\n }\n\n return true;\n}\n\n// go through all polygon nodes and cure small local self-intersections\nfunction cureLocalIntersections(start, triangles) {\n let p = start;\n do {\n const a = p.prev,\n b = p.next.next;\n\n if (!equals(a, b) && intersects(a, p, p.next, b) && locallyInside(a, b) && locallyInside(b, a)) {\n\n triangles.push(a.i, p.i, b.i);\n\n // remove two nodes involved\n removeNode(p);\n removeNode(p.next);\n\n p = start = b;\n }\n p = p.next;\n } while (p !== start);\n\n return filterPoints(p);\n}\n\n// try splitting polygon into two and triangulate them independently\nfunction splitEarcut(start, triangles, dim, minX, minY, invSize) {\n // look for a valid diagonal that divides the polygon into two\n let a = start;\n do {\n let b = a.next.next;\n while (b !== a.prev) {\n if (a.i !== b.i && isValidDiagonal(a, b)) {\n // split the polygon in two by the diagonal\n let c = splitPolygon(a, b);\n\n // filter colinear points around the cuts\n a = filterPoints(a, a.next);\n c = filterPoints(c, c.next);\n\n // run earcut on each half\n earcutLinked(a, triangles, dim, minX, minY, invSize, 0);\n earcutLinked(c, triangles, dim, minX, minY, invSize, 0);\n return;\n }\n b = b.next;\n }\n a = a.next;\n } while (a !== start);\n}\n\n// link every hole into the outer loop, producing a single-ring polygon without holes\nfunction eliminateHoles(data, holeIndices, outerNode, dim) {\n const queue = [];\n\n for (let i = 0, len = holeIndices.length; i < len; i++) {\n const start = holeIndices[i] * dim;\n const end = i < len - 1 ? holeIndices[i + 1] * dim : data.length;\n const list = linkedList(data, start, end, dim, false);\n if (list === list.next) list.steiner = true;\n queue.push(getLeftmost(list));\n }\n\n queue.sort(compareXYSlope);\n\n // process holes from left to right\n for (let i = 0; i < queue.length; i++) {\n outerNode = eliminateHole(queue[i], outerNode);\n }\n\n return outerNode;\n}\n\nfunction compareXYSlope(a, b) {\n let result = a.x - b.x;\n // when the left-most point of 2 holes meet at a vertex, sort the holes counterclockwise so that when we find\n // the bridge to the outer shell is always the point that they meet at.\n if (result === 0) {\n result = a.y - b.y;\n if (result === 0) {\n const aSlope = (a.next.y - a.y) / (a.next.x - a.x);\n const bSlope = (b.next.y - b.y) / (b.next.x - b.x);\n result = aSlope - bSlope;\n }\n }\n return result;\n}\n\n// find a bridge between vertices that connects hole with an outer ring and and link it\nfunction eliminateHole(hole, outerNode) {\n const bridge = findHoleBridge(hole, outerNode);\n if (!bridge) {\n return outerNode;\n }\n\n const bridgeReverse = splitPolygon(bridge, hole);\n\n // filter collinear points around the cuts\n filterPoints(bridgeReverse, bridgeReverse.next);\n return filterPoints(bridge, bridge.next);\n}\n\n// David Eberly's algorithm for finding a bridge between hole and outer polygon\nfunction findHoleBridge(hole, outerNode) {\n let p = outerNode;\n const hx = hole.x;\n const hy = hole.y;\n let qx = -Infinity;\n let m;\n\n // find a segment intersected by a ray from the hole's leftmost point to the left;\n // segment's endpoint with lesser x will be potential connection point\n // unless they intersect at a vertex, then choose the vertex\n if (equals(hole, p)) return p;\n do {\n if (equals(hole, p.next)) return p.next;\n else if (hy <= p.y && hy >= p.next.y && p.next.y !== p.y) {\n const x = p.x + (hy - p.y) * (p.next.x - p.x) / (p.next.y - p.y);\n if (x <= hx && x > qx) {\n qx = x;\n m = p.x < p.next.x ? p : p.next;\n if (x === hx) return m; // hole touches outer segment; pick leftmost endpoint\n }\n }\n p = p.next;\n } while (p !== outerNode);\n\n if (!m) return null;\n\n // look for points inside the triangle of hole point, segment intersection and endpoint;\n // if there are no points found, we have a valid connection;\n // otherwise choose the point of the minimum angle with the ray as connection point\n\n const stop = m;\n const mx = m.x;\n const my = m.y;\n let tanMin = Infinity;\n\n p = m;\n\n do {\n if (hx >= p.x && p.x >= mx && hx !== p.x &&\n pointInTriangle(hy < my ? hx : qx, hy, mx, my, hy < my ? qx : hx, hy, p.x, p.y)) {\n\n const tan = Math.abs(hy - p.y) / (hx - p.x); // tangential\n\n if (locallyInside(p, hole) &&\n (tan < tanMin || (tan === tanMin && (p.x > m.x || (p.x === m.x && sectorContainsSector(m, p)))))) {\n m = p;\n tanMin = tan;\n }\n }\n\n p = p.next;\n } while (p !== stop);\n\n return m;\n}\n\n// whether sector in vertex m contains sector in vertex p in the same coordinates\nfunction sectorContainsSector(m, p) {\n return area(m.prev, m, p.prev) < 0 && area(p.next, m, m.next) < 0;\n}\n\n// interlink polygon nodes in z-order\nfunction indexCurve(start, minX, minY, invSize) {\n let p = start;\n do {\n if (p.z === 0) p.z = zOrder(p.x, p.y, minX, minY, invSize);\n p.prevZ = p.prev;\n p.nextZ = p.next;\n p = p.next;\n } while (p !== start);\n\n p.prevZ.nextZ = null;\n p.prevZ = null;\n\n sortLinked(p);\n}\n\n// Simon Tatham's linked list merge sort algorithm\n// http://www.chiark.greenend.org.uk/~sgtatham/algorithms/listsort.html\nfunction sortLinked(list) {\n let numMerges;\n let inSize = 1;\n\n do {\n let p = list;\n let e;\n list = null;\n let tail = null;\n numMerges = 0;\n\n while (p) {\n numMerges++;\n let q = p;\n let pSize = 0;\n for (let i = 0; i < inSize; i++) {\n pSize++;\n q = q.nextZ;\n if (!q) break;\n }\n let qSize = inSize;\n\n while (pSize > 0 || (qSize > 0 && q)) {\n\n if (pSize !== 0 && (qSize === 0 || !q || p.z <= q.z)) {\n e = p;\n p = p.nextZ;\n pSize--;\n } else {\n e = q;\n q = q.nextZ;\n qSize--;\n }\n\n if (tail) tail.nextZ = e;\n else list = e;\n\n e.prevZ = tail;\n tail = e;\n }\n\n p = q;\n }\n\n tail.nextZ = null;\n inSize *= 2;\n\n } while (numMerges > 1);\n\n return list;\n}\n\n// z-order of a point given coords and inverse of the longer side of data bbox\nfunction zOrder(x, y, minX, minY, invSize) {\n // coords are transformed into non-negative 15-bit integer range\n x = (x - minX) * invSize | 0;\n y = (y - minY) * invSize | 0;\n\n x = (x | (x << 8)) & 0x00FF00FF;\n x = (x | (x << 4)) & 0x0F0F0F0F;\n x = (x | (x << 2)) & 0x33333333;\n x = (x | (x << 1)) & 0x55555555;\n\n y = (y | (y << 8)) & 0x00FF00FF;\n y = (y | (y << 4)) & 0x0F0F0F0F;\n y = (y | (y << 2)) & 0x33333333;\n y = (y | (y << 1)) & 0x55555555;\n\n return x | (y << 1);\n}\n\n// find the leftmost node of a polygon ring\nfunction getLeftmost(start) {\n let p = start,\n leftmost = start;\n do {\n if (p.x < leftmost.x || (p.x === leftmost.x && p.y < leftmost.y)) leftmost = p;\n p = p.next;\n } while (p !== start);\n\n return leftmost;\n}\n\n// check if a point lies within a convex triangle\nfunction pointInTriangle(ax, ay, bx, by, cx, cy, px, py) {\n return (cx - px) * (ay - py) >= (ax - px) * (cy - py) &&\n (ax - px) * (by - py) >= (bx - px) * (ay - py) &&\n (bx - px) * (cy - py) >= (cx - px) * (by - py);\n}\n\n// check if a point lies within a convex triangle but false if its equal to the first point of the triangle\nfunction pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, px, py) {\n return !(ax === px && ay === py) && pointInTriangle(ax, ay, bx, by, cx, cy, px, py);\n}\n\n// check if a diagonal between two polygon nodes is valid (lies in polygon interior)\nfunction isValidDiagonal(a, b) {\n return a.next.i !== b.i && a.prev.i !== b.i && !intersectsPolygon(a, b) && // doesn't intersect other edges\n (locallyInside(a, b) && locallyInside(b, a) && middleInside(a, b) && // locally visible\n (area(a.prev, a, b.prev) || area(a, b.prev, b)) || // does not create opposite-facing sectors\n equals(a, b) && area(a.prev, a, a.next) > 0 && area(b.prev, b, b.next) > 0); // special zero-length case\n}\n\n// signed area of a triangle\nfunction area(p, q, r) {\n return (q.y - p.y) * (r.x - q.x) - (q.x - p.x) * (r.y - q.y);\n}\n\n// check if two points are equal\nfunction equals(p1, p2) {\n return p1.x === p2.x && p1.y === p2.y;\n}\n\n// check if two segments intersect\nfunction intersects(p1, q1, p2, q2) {\n const o1 = sign(area(p1, q1, p2));\n const o2 = sign(area(p1, q1, q2));\n const o3 = sign(area(p2, q2, p1));\n const o4 = sign(area(p2, q2, q1));\n\n if (o1 !== o2 && o3 !== o4) return true; // general case\n\n if (o1 === 0 && onSegment(p1, p2, q1)) return true; // p1, q1 and p2 are collinear and p2 lies on p1q1\n if (o2 === 0 && onSegment(p1, q2, q1)) return true; // p1, q1 and q2 are collinear and q2 lies on p1q1\n if (o3 === 0 && onSegment(p2, p1, q2)) return true; // p2, q2 and p1 are collinear and p1 lies on p2q2\n if (o4 === 0 && onSegment(p2, q1, q2)) return true; // p2, q2 and q1 are collinear and q1 lies on p2q2\n\n return false;\n}\n\n// for collinear points p, q, r, check if point q lies on segment pr\nfunction onSegment(p, q, r) {\n return q.x <= Math.max(p.x, r.x) && q.x >= Math.min(p.x, r.x) && q.y <= Math.max(p.y, r.y) && q.y >= Math.min(p.y, r.y);\n}\n\nfunction sign(num) {\n return num > 0 ? 1 : num < 0 ? -1 : 0;\n}\n\n// check if a polygon diagonal intersects any polygon segments\nfunction intersectsPolygon(a, b) {\n let p = a;\n do {\n if (p.i !== a.i && p.next.i !== a.i && p.i !== b.i && p.next.i !== b.i &&\n intersects(p, p.next, a, b)) return true;\n p = p.next;\n } while (p !== a);\n\n return false;\n}\n\n// check if a polygon diagonal is locally inside the polygon\nfunction locallyInside(a, b) {\n return area(a.prev, a, a.next) < 0 ?\n area(a, b, a.next) >= 0 && area(a, a.prev, b) >= 0 :\n area(a, b, a.prev) < 0 || area(a, a.next, b) < 0;\n}\n\n// check if the middle point of a polygon diagonal is inside the polygon\nfunction middleInside(a, b) {\n let p = a;\n let inside = false;\n const px = (a.x + b.x) / 2;\n const py = (a.y + b.y) / 2;\n do {\n if (((p.y > py) !== (p.next.y > py)) && p.next.y !== p.y &&\n (px < (p.next.x - p.x) * (py - p.y) / (p.next.y - p.y) + p.x))\n inside = !inside;\n p = p.next;\n } while (p !== a);\n\n return inside;\n}\n\n// link two polygon vertices with a bridge; if the vertices belong to the same ring, it splits polygon into two;\n// if one belongs to the outer ring and another to a hole, it merges it into a single ring\nfunction splitPolygon(a, b) {\n const a2 = createNode(a.i, a.x, a.y),\n b2 = createNode(b.i, b.x, b.y),\n an = a.next,\n bp = b.prev;\n\n a.next = b;\n b.prev = a;\n\n a2.next = an;\n an.prev = a2;\n\n b2.next = a2;\n a2.prev = b2;\n\n bp.next = b2;\n b2.prev = bp;\n\n return b2;\n}\n\n// create a node and optionally link it with previous one (in a circular doubly linked list)\nfunction insertNode(i, x, y, last) {\n const p = createNode(i, x, y);\n\n if (!last) {\n p.prev = p;\n p.next = p;\n\n } else {\n p.next = last.next;\n p.prev = last;\n last.next.prev = p;\n last.next = p;\n }\n return p;\n}\n\nfunction removeNode(p) {\n p.next.prev = p.prev;\n p.prev.next = p.next;\n\n if (p.prevZ) p.prevZ.nextZ = p.nextZ;\n if (p.nextZ) p.nextZ.prevZ = p.prevZ;\n}\n\nfunction createNode(i, x, y) {\n return {\n i, // vertex index in coordinates array\n x, y, // vertex coordinates\n prev: null, // previous and next vertex nodes in a polygon ring\n next: null,\n z: 0, // z-order curve value\n prevZ: null, // previous and next nodes in z-order\n nextZ: null,\n steiner: false // indicates whether this is a steiner point\n };\n}\n\nfunction signedArea(data, start, end, dim) {\n let sum = 0;\n for (let i = start, j = end - dim; i < end; i += dim) {\n sum += (data[j] - data[i]) * (data[i + 1] + data[j + 1]);\n j = i;\n }\n return sum;\n}\n\nclass Earcut {\n\n\t/**\n\t * Triangulates the given shape definition by returning an array of triangles.\n\t *\n\t * @param {Array} data - An array with 2D points.\n\t * @param {Array} holeIndices - An array with indices defining holes.\n\t * @param {number} [dim=2] - The number of coordinates per vertex in the input array.\n\t * @return {Array} An array representing the triangulated faces. Each face is defined by three consecutive numbers\n\t * representing vertex indices.\n\t */\n\tstatic triangulate( data, holeIndices, dim = 2 ) {\n\n\t\treturn earcut( data, holeIndices, dim );\n\n\t}\n\n}\n\n/**\n * A class containing utility functions for shapes.\n *\n * @hideconstructor\n */\nclass ShapeUtils {\n\n\t/**\n\t * Calculate area of a ( 2D ) contour polygon.\n\t *\n\t * @param {Array} contour - An array of 2D points.\n\t * @return {number} The area.\n\t */\n\tstatic area( contour ) {\n\n\t\tconst n = contour.length;\n\t\tlet a = 0.0;\n\n\t\tfor ( let p = n - 1, q = 0; q < n; p = q ++ ) {\n\n\t\t\ta += contour[ p ].x * contour[ q ].y - contour[ q ].x * contour[ p ].y;\n\n\t\t}\n\n\t\treturn a * 0.5;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given contour uses a clockwise winding order.\n\t *\n\t * @param {Array} pts - An array of 2D points defining a polygon.\n\t * @return {boolean} Whether the given contour uses a clockwise winding order or not.\n\t */\n\tstatic isClockWise( pts ) {\n\n\t\treturn ShapeUtils.area( pts ) < 0;\n\n\t}\n\n\t/**\n\t * Triangulates the given shape definition.\n\t *\n\t * @param {Array} contour - An array of 2D points defining the contour.\n\t * @param {Array>} holes - An array that holds arrays of 2D points defining the holes.\n\t * @return {Array>} An array that holds for each face definition an array with three indices.\n\t */\n\tstatic triangulateShape( contour, holes ) {\n\n\t\tconst vertices = []; // flat array of vertices like [ x0,y0, x1,y1, x2,y2, ... ]\n\t\tconst holeIndices = []; // array of hole indices\n\t\tconst faces = []; // final array of vertex indices like [ [ a,b,d ], [ b,c,d ] ]\n\n\t\tremoveDupEndPts( contour );\n\t\taddContour( vertices, contour );\n\n\t\t//\n\n\t\tlet holeIndex = contour.length;\n\n\t\tholes.forEach( removeDupEndPts );\n\n\t\tfor ( let i = 0; i < holes.length; i ++ ) {\n\n\t\t\tholeIndices.push( holeIndex );\n\t\t\tholeIndex += holes[ i ].length;\n\t\t\taddContour( vertices, holes[ i ] );\n\n\t\t}\n\n\t\t//\n\n\t\tconst triangles = Earcut.triangulate( vertices, holeIndices );\n\n\t\t//\n\n\t\tfor ( let i = 0; i < triangles.length; i += 3 ) {\n\n\t\t\tfaces.push( triangles.slice( i, i + 3 ) );\n\n\t\t}\n\n\t\treturn faces;\n\n\t}\n\n}\n\nfunction removeDupEndPts( points ) {\n\n\tconst l = points.length;\n\n\tif ( l > 2 && points[ l - 1 ].equals( points[ 0 ] ) ) {\n\n\t\tpoints.pop();\n\n\t}\n\n}\n\nfunction addContour( vertices, contour ) {\n\n\tfor ( let i = 0; i < contour.length; i ++ ) {\n\n\t\tvertices.push( contour[ i ].x );\n\t\tvertices.push( contour[ i ].y );\n\n\t}\n\n}\n\n/**\n * Creates extruded geometry from a path shape.\n *\n * ```js\n * const length = 12, width = 8;\n *\n * const shape = new THREE.Shape();\n * shape.moveTo( 0,0 );\n * shape.lineTo( 0, width );\n * shape.lineTo( length, width );\n * shape.lineTo( length, 0 );\n * shape.lineTo( 0, 0 );\n *\n * const geometry = new THREE.ExtrudeGeometry( shape );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const mesh = new THREE.Mesh( geometry, material ) ;\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass ExtrudeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new extrude geometry.\n\t *\n\t * @param {Shape|Array} [shapes] - A shape or an array of shapes.\n\t * @param {ExtrudeGeometry~Options} [options] - The extrude settings.\n\t */\n\tconstructor( shapes = new Shape( [ new Vector2( 0.5, 0.5 ), new Vector2( -0.5, 0.5 ), new Vector2( -0.5, -0.5 ), new Vector2( 0.5, -0.5 ) ] ), options = {} ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'ExtrudeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tshapes: shapes,\n\t\t\toptions: options\n\t\t};\n\n\t\tshapes = Array.isArray( shapes ) ? shapes : [ shapes ];\n\n\t\tconst scope = this;\n\n\t\tconst verticesArray = [];\n\t\tconst uvArray = [];\n\n\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\tconst shape = shapes[ i ];\n\t\t\taddShape( shape );\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( verticesArray, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvArray, 2 ) );\n\n\t\tthis.computeVertexNormals();\n\n\t\t// functions\n\n\t\tfunction addShape( shape ) {\n\n\t\t\tconst placeholder = [];\n\n\t\t\t// options\n\n\t\t\tconst curveSegments = options.curveSegments !== undefined ? options.curveSegments : 12;\n\t\t\tconst steps = options.steps !== undefined ? options.steps : 1;\n\t\t\tconst depth = options.depth !== undefined ? options.depth : 1;\n\n\t\t\tlet bevelEnabled = options.bevelEnabled !== undefined ? options.bevelEnabled : true;\n\t\t\tlet bevelThickness = options.bevelThickness !== undefined ? options.bevelThickness : 0.2;\n\t\t\tlet bevelSize = options.bevelSize !== undefined ? options.bevelSize : bevelThickness - 0.1;\n\t\t\tlet bevelOffset = options.bevelOffset !== undefined ? options.bevelOffset : 0;\n\t\t\tlet bevelSegments = options.bevelSegments !== undefined ? options.bevelSegments : 3;\n\n\t\t\tconst extrudePath = options.extrudePath;\n\n\t\t\tconst uvgen = options.UVGenerator !== undefined ? options.UVGenerator : WorldUVGenerator;\n\n\t\t\t//\n\n\t\t\tlet extrudePts, extrudeByPath = false;\n\t\t\tlet splineTube, binormal, normal, position2;\n\n\t\t\tif ( extrudePath ) {\n\n\t\t\t\textrudePts = extrudePath.getSpacedPoints( steps );\n\n\t\t\t\textrudeByPath = true;\n\t\t\t\tbevelEnabled = false; // bevels not supported for path extrusion\n\n\t\t\t\t// SETUP TNB variables\n\n\t\t\t\t// TODO1 - have a .isClosed in spline?\n\n\t\t\t\tsplineTube = extrudePath.computeFrenetFrames( steps, false );\n\n\t\t\t\t// console.log(splineTube, 'splineTube', splineTube.normals.length, 'steps', steps, 'extrudePts', extrudePts.length);\n\n\t\t\t\tbinormal = new Vector3();\n\t\t\t\tnormal = new Vector3();\n\t\t\t\tposition2 = new Vector3();\n\n\t\t\t}\n\n\t\t\t// Safeguards if bevels are not enabled\n\n\t\t\tif ( ! bevelEnabled ) {\n\n\t\t\t\tbevelSegments = 0;\n\t\t\t\tbevelThickness = 0;\n\t\t\t\tbevelSize = 0;\n\t\t\t\tbevelOffset = 0;\n\n\t\t\t}\n\n\t\t\t// Variables initialization\n\n\t\t\tconst shapePoints = shape.extractPoints( curveSegments );\n\n\t\t\tlet vertices = shapePoints.shape;\n\t\t\tconst holes = shapePoints.holes;\n\n\t\t\tconst reverse = ! ShapeUtils.isClockWise( vertices );\n\n\t\t\tif ( reverse ) {\n\n\t\t\t\tvertices = vertices.reverse();\n\n\t\t\t\t// Maybe we should also check if holes are in the opposite direction, just to be safe ...\n\n\t\t\t\tfor ( let h = 0, hl = holes.length; h < hl; h ++ ) {\n\n\t\t\t\t\tconst ahole = holes[ h ];\n\n\t\t\t\t\tif ( ShapeUtils.isClockWise( ahole ) ) {\n\n\t\t\t\t\t\tholes[ h ] = ahole.reverse();\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t/**Merges index-adjacent points that are within a threshold distance of each other. Array is modified in-place. Threshold distance is empirical, and scaled based on the magnitude of point coordinates.\n\t\t\t * @param {Array} points\n\t\t\t*/\n\t\t\tfunction mergeOverlappingPoints( points ) {\n\n\t\t\t\tconst THRESHOLD = 1e-10;\n\t\t\t\tconst THRESHOLD_SQ = THRESHOLD * THRESHOLD;\n\t\t\t\tlet prevPos = points[ 0 ];\n\t\t\t\tfor ( let i = 1; i <= points.length; i ++ ) {\n\n\t\t\t\t\tconst currentIndex = i % points.length;\n\t\t\t\t\tconst currentPos = points[ currentIndex ];\n\t\t\t\t\tconst dx = currentPos.x - prevPos.x;\n\t\t\t\t\tconst dy = currentPos.y - prevPos.y;\n\t\t\t\t\tconst distSq = dx * dx + dy * dy;\n\n\t\t\t\t\tconst scalingFactorSqrt = Math.max(\n\t\t\t\t\t\tMath.abs( currentPos.x ),\n\t\t\t\t\t\tMath.abs( currentPos.y ),\n\t\t\t\t\t\tMath.abs( prevPos.x ),\n\t\t\t\t\t\tMath.abs( prevPos.y )\n\t\t\t\t\t);\n\t\t\t\t\tconst thresholdSqScaled = THRESHOLD_SQ * scalingFactorSqrt * scalingFactorSqrt;\n\t\t\t\t\tif ( distSq <= thresholdSqScaled ) {\n\n\t\t\t\t\t\tpoints.splice( currentIndex, 1 );\n\t\t\t\t\t\ti --;\n\t\t\t\t\t\tcontinue;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tprevPos = currentPos;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tmergeOverlappingPoints( vertices );\n\t\t\tholes.forEach( mergeOverlappingPoints );\n\n\t\t\tconst numHoles = holes.length;\n\n\t\t\t/* Vertices */\n\n\t\t\tconst contour = vertices; // vertices has all points but contour has only points of circumference\n\n\t\t\tfor ( let h = 0; h < numHoles; h ++ ) {\n\n\t\t\t\tconst ahole = holes[ h ];\n\n\t\t\t\tvertices = vertices.concat( ahole );\n\n\t\t\t}\n\n\n\t\t\tfunction scalePt2( pt, vec, size ) {\n\n\t\t\t\tif ( ! vec ) console.error( 'THREE.ExtrudeGeometry: vec does not exist' );\n\n\t\t\t\treturn pt.clone().addScaledVector( vec, size );\n\n\t\t\t}\n\n\t\t\tconst vlen = vertices.length;\n\n\n\t\t\t// Find directions for point movement\n\n\n\t\t\tfunction getBevelVec( inPt, inPrev, inNext ) {\n\n\t\t\t\t// computes for inPt the corresponding point inPt' on a new contour\n\t\t\t\t// shifted by 1 unit (length of normalized vector) to the left\n\t\t\t\t// if we walk along contour clockwise, this new contour is outside the old one\n\t\t\t\t//\n\t\t\t\t// inPt' is the intersection of the two lines parallel to the two\n\t\t\t\t// adjacent edges of inPt at a distance of 1 unit on the left side.\n\n\t\t\t\tlet v_trans_x, v_trans_y, shrink_by; // resulting translation vector for inPt\n\n\t\t\t\t// good reading for geometry algorithms (here: line-line intersection)\n\t\t\t\t// http://geomalgorithms.com/a05-_intersect-1.html\n\n\t\t\t\tconst v_prev_x = inPt.x - inPrev.x,\n\t\t\t\t\tv_prev_y = inPt.y - inPrev.y;\n\t\t\t\tconst v_next_x = inNext.x - inPt.x,\n\t\t\t\t\tv_next_y = inNext.y - inPt.y;\n\n\t\t\t\tconst v_prev_lensq = ( v_prev_x * v_prev_x + v_prev_y * v_prev_y );\n\n\t\t\t\t// check for collinear edges\n\t\t\t\tconst collinear0 = ( v_prev_x * v_next_y - v_prev_y * v_next_x );\n\n\t\t\t\tif ( Math.abs( collinear0 ) > Number.EPSILON ) {\n\n\t\t\t\t\t// not collinear\n\n\t\t\t\t\t// length of vectors for normalizing\n\n\t\t\t\t\tconst v_prev_len = Math.sqrt( v_prev_lensq );\n\t\t\t\t\tconst v_next_len = Math.sqrt( v_next_x * v_next_x + v_next_y * v_next_y );\n\n\t\t\t\t\t// shift adjacent points by unit vectors to the left\n\n\t\t\t\t\tconst ptPrevShift_x = ( inPrev.x - v_prev_y / v_prev_len );\n\t\t\t\t\tconst ptPrevShift_y = ( inPrev.y + v_prev_x / v_prev_len );\n\n\t\t\t\t\tconst ptNextShift_x = ( inNext.x - v_next_y / v_next_len );\n\t\t\t\t\tconst ptNextShift_y = ( inNext.y + v_next_x / v_next_len );\n\n\t\t\t\t\t// scaling factor for v_prev to intersection point\n\n\t\t\t\t\tconst sf = ( ( ptNextShift_x - ptPrevShift_x ) * v_next_y -\n\t\t\t\t\t\t\t( ptNextShift_y - ptPrevShift_y ) * v_next_x ) /\n\t\t\t\t\t\t( v_prev_x * v_next_y - v_prev_y * v_next_x );\n\n\t\t\t\t\t// vector from inPt to intersection point\n\n\t\t\t\t\tv_trans_x = ( ptPrevShift_x + v_prev_x * sf - inPt.x );\n\t\t\t\t\tv_trans_y = ( ptPrevShift_y + v_prev_y * sf - inPt.y );\n\n\t\t\t\t\t// Don't normalize!, otherwise sharp corners become ugly\n\t\t\t\t\t// but prevent crazy spikes\n\t\t\t\t\tconst v_trans_lensq = ( v_trans_x * v_trans_x + v_trans_y * v_trans_y );\n\t\t\t\t\tif ( v_trans_lensq <= 2 ) {\n\n\t\t\t\t\t\treturn new Vector2( v_trans_x, v_trans_y );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tshrink_by = Math.sqrt( v_trans_lensq / 2 );\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// handle special case of collinear edges\n\n\t\t\t\t\tlet direction_eq = false; // assumes: opposite\n\n\t\t\t\t\tif ( v_prev_x > Number.EPSILON ) {\n\n\t\t\t\t\t\tif ( v_next_x > Number.EPSILON ) {\n\n\t\t\t\t\t\t\tdirection_eq = true;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tif ( v_prev_x < - Number.EPSILON ) {\n\n\t\t\t\t\t\t\tif ( v_next_x < - Number.EPSILON ) {\n\n\t\t\t\t\t\t\t\tdirection_eq = true;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tif ( Math.sign( v_prev_y ) === Math.sign( v_next_y ) ) {\n\n\t\t\t\t\t\t\t\tdirection_eq = true;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( direction_eq ) {\n\n\t\t\t\t\t\t// console.log(\"Warning: lines are a straight sequence\");\n\t\t\t\t\t\tv_trans_x = - v_prev_y;\n\t\t\t\t\t\tv_trans_y = v_prev_x;\n\t\t\t\t\t\tshrink_by = Math.sqrt( v_prev_lensq );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// console.log(\"Warning: lines are a straight spike\");\n\t\t\t\t\t\tv_trans_x = v_prev_x;\n\t\t\t\t\t\tv_trans_y = v_prev_y;\n\t\t\t\t\t\tshrink_by = Math.sqrt( v_prev_lensq / 2 );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\treturn new Vector2( v_trans_x / shrink_by, v_trans_y / shrink_by );\n\n\t\t\t}\n\n\n\t\t\tconst contourMovements = [];\n\n\t\t\tfor ( let i = 0, il = contour.length, j = il - 1, k = i + 1; i < il; i ++, j ++, k ++ ) {\n\n\t\t\t\tif ( j === il ) j = 0;\n\t\t\t\tif ( k === il ) k = 0;\n\n\t\t\t\t// (j)---(i)---(k)\n\t\t\t\t// console.log('i,j,k', i, j , k)\n\n\t\t\t\tcontourMovements[ i ] = getBevelVec( contour[ i ], contour[ j ], contour[ k ] );\n\n\t\t\t}\n\n\t\t\tconst holesMovements = [];\n\t\t\tlet oneHoleMovements, verticesMovements = contourMovements.concat();\n\n\t\t\tfor ( let h = 0, hl = numHoles; h < hl; h ++ ) {\n\n\t\t\t\tconst ahole = holes[ h ];\n\n\t\t\t\toneHoleMovements = [];\n\n\t\t\t\tfor ( let i = 0, il = ahole.length, j = il - 1, k = i + 1; i < il; i ++, j ++, k ++ ) {\n\n\t\t\t\t\tif ( j === il ) j = 0;\n\t\t\t\t\tif ( k === il ) k = 0;\n\n\t\t\t\t\t// (j)---(i)---(k)\n\t\t\t\t\toneHoleMovements[ i ] = getBevelVec( ahole[ i ], ahole[ j ], ahole[ k ] );\n\n\t\t\t\t}\n\n\t\t\t\tholesMovements.push( oneHoleMovements );\n\t\t\t\tverticesMovements = verticesMovements.concat( oneHoleMovements );\n\n\t\t\t}\n\n\t\t\tlet faces;\n\n\t\t\tif ( bevelSegments === 0 ) {\n\n\t\t\t\tfaces = ShapeUtils.triangulateShape( contour, holes );\n\n\t\t\t} else {\n\n\t\t\t\tconst contractedContourVertices = [];\n\t\t\t\tconst expandedHoleVertices = [];\n\n\t\t\t\t// Loop bevelSegments, 1 for the front, 1 for the back\n\n\t\t\t\tfor ( let b = 0; b < bevelSegments; b ++ ) {\n\n\t\t\t\t\t//for ( b = bevelSegments; b > 0; b -- ) {\n\n\t\t\t\t\tconst t = b / bevelSegments;\n\t\t\t\t\tconst z = bevelThickness * Math.cos( t * Math.PI / 2 );\n\t\t\t\t\tconst bs = bevelSize * Math.sin( t * Math.PI / 2 ) + bevelOffset;\n\n\t\t\t\t\t// contract shape\n\n\t\t\t\t\tfor ( let i = 0, il = contour.length; i < il; i ++ ) {\n\n\t\t\t\t\t\tconst vert = scalePt2( contour[ i ], contourMovements[ i ], bs );\n\n\t\t\t\t\t\tv( vert.x, vert.y, - z );\n\t\t\t\t\t\tif ( t === 0 ) contractedContourVertices.push( vert );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// expand holes\n\n\t\t\t\t\tfor ( let h = 0, hl = numHoles; h < hl; h ++ ) {\n\n\t\t\t\t\t\tconst ahole = holes[ h ];\n\t\t\t\t\t\toneHoleMovements = holesMovements[ h ];\n\t\t\t\t\t\tconst oneHoleVertices = [];\n\t\t\t\t\t\tfor ( let i = 0, il = ahole.length; i < il; i ++ ) {\n\n\t\t\t\t\t\t\tconst vert = scalePt2( ahole[ i ], oneHoleMovements[ i ], bs );\n\n\t\t\t\t\t\t\tv( vert.x, vert.y, - z );\n\t\t\t\t\t\t\tif ( t === 0 ) oneHoleVertices.push( vert );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tif ( t === 0 ) expandedHoleVertices.push( oneHoleVertices );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tfaces = ShapeUtils.triangulateShape( contractedContourVertices, expandedHoleVertices );\n\n\t\t\t}\n\n\t\t\tconst flen = faces.length;\n\n\t\t\tconst bs = bevelSize + bevelOffset;\n\n\t\t\t// Back facing vertices\n\n\t\t\tfor ( let i = 0; i < vlen; i ++ ) {\n\n\t\t\t\tconst vert = bevelEnabled ? scalePt2( vertices[ i ], verticesMovements[ i ], bs ) : vertices[ i ];\n\n\t\t\t\tif ( ! extrudeByPath ) {\n\n\t\t\t\t\tv( vert.x, vert.y, 0 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// v( vert.x, vert.y + extrudePts[ 0 ].y, extrudePts[ 0 ].x );\n\n\t\t\t\t\tnormal.copy( splineTube.normals[ 0 ] ).multiplyScalar( vert.x );\n\t\t\t\t\tbinormal.copy( splineTube.binormals[ 0 ] ).multiplyScalar( vert.y );\n\n\t\t\t\t\tposition2.copy( extrudePts[ 0 ] ).add( normal ).add( binormal );\n\n\t\t\t\t\tv( position2.x, position2.y, position2.z );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// Add stepped vertices...\n\t\t\t// Including front facing vertices\n\n\t\t\tfor ( let s = 1; s <= steps; s ++ ) {\n\n\t\t\t\tfor ( let i = 0; i < vlen; i ++ ) {\n\n\t\t\t\t\tconst vert = bevelEnabled ? scalePt2( vertices[ i ], verticesMovements[ i ], bs ) : vertices[ i ];\n\n\t\t\t\t\tif ( ! extrudeByPath ) {\n\n\t\t\t\t\t\tv( vert.x, vert.y, depth / steps * s );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// v( vert.x, vert.y + extrudePts[ s - 1 ].y, extrudePts[ s - 1 ].x );\n\n\t\t\t\t\t\tnormal.copy( splineTube.normals[ s ] ).multiplyScalar( vert.x );\n\t\t\t\t\t\tbinormal.copy( splineTube.binormals[ s ] ).multiplyScalar( vert.y );\n\n\t\t\t\t\t\tposition2.copy( extrudePts[ s ] ).add( normal ).add( binormal );\n\n\t\t\t\t\t\tv( position2.x, position2.y, position2.z );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\n\t\t\t// Add bevel segments planes\n\n\t\t\t//for ( b = 1; b <= bevelSegments; b ++ ) {\n\t\t\tfor ( let b = bevelSegments - 1; b >= 0; b -- ) {\n\n\t\t\t\tconst t = b / bevelSegments;\n\t\t\t\tconst z = bevelThickness * Math.cos( t * Math.PI / 2 );\n\t\t\t\tconst bs = bevelSize * Math.sin( t * Math.PI / 2 ) + bevelOffset;\n\n\t\t\t\t// contract shape\n\n\t\t\t\tfor ( let i = 0, il = contour.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst vert = scalePt2( contour[ i ], contourMovements[ i ], bs );\n\t\t\t\t\tv( vert.x, vert.y, depth + z );\n\n\t\t\t\t}\n\n\t\t\t\t// expand holes\n\n\t\t\t\tfor ( let h = 0, hl = holes.length; h < hl; h ++ ) {\n\n\t\t\t\t\tconst ahole = holes[ h ];\n\t\t\t\t\toneHoleMovements = holesMovements[ h ];\n\n\t\t\t\t\tfor ( let i = 0, il = ahole.length; i < il; i ++ ) {\n\n\t\t\t\t\t\tconst vert = scalePt2( ahole[ i ], oneHoleMovements[ i ], bs );\n\n\t\t\t\t\t\tif ( ! extrudeByPath ) {\n\n\t\t\t\t\t\t\tv( vert.x, vert.y, depth + z );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tv( vert.x, vert.y + extrudePts[ steps - 1 ].y, extrudePts[ steps - 1 ].x + z );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t/* Faces */\n\n\t\t\t// Top and bottom faces\n\n\t\t\tbuildLidFaces();\n\n\t\t\t// Sides faces\n\n\t\t\tbuildSideFaces();\n\n\n\t\t\t///// Internal functions\n\n\t\t\tfunction buildLidFaces() {\n\n\t\t\t\tconst start = verticesArray.length / 3;\n\n\t\t\t\tif ( bevelEnabled ) {\n\n\t\t\t\t\tlet layer = 0; // steps + 1\n\t\t\t\t\tlet offset = vlen * layer;\n\n\t\t\t\t\t// Bottom faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 2 ] + offset, face[ 1 ] + offset, face[ 0 ] + offset );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tlayer = steps + bevelSegments * 2;\n\t\t\t\t\toffset = vlen * layer;\n\n\t\t\t\t\t// Top faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 0 ] + offset, face[ 1 ] + offset, face[ 2 ] + offset );\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// Bottom faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 2 ], face[ 1 ], face[ 0 ] );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// Top faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 0 ] + vlen * steps, face[ 1 ] + vlen * steps, face[ 2 ] + vlen * steps );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tscope.addGroup( start, verticesArray.length / 3 - start, 0 );\n\n\t\t\t}\n\n\t\t\t// Create faces for the z-sides of the shape\n\n\t\t\tfunction buildSideFaces() {\n\n\t\t\t\tconst start = verticesArray.length / 3;\n\t\t\t\tlet layeroffset = 0;\n\t\t\t\tsidewalls( contour, layeroffset );\n\t\t\t\tlayeroffset += contour.length;\n\n\t\t\t\tfor ( let h = 0, hl = holes.length; h < hl; h ++ ) {\n\n\t\t\t\t\tconst ahole = holes[ h ];\n\t\t\t\t\tsidewalls( ahole, layeroffset );\n\n\t\t\t\t\t//, true\n\t\t\t\t\tlayeroffset += ahole.length;\n\n\t\t\t\t}\n\n\n\t\t\t\tscope.addGroup( start, verticesArray.length / 3 - start, 1 );\n\n\n\t\t\t}\n\n\t\t\tfunction sidewalls( contour, layeroffset ) {\n\n\t\t\t\tlet i = contour.length;\n\n\t\t\t\twhile ( -- i >= 0 ) {\n\n\t\t\t\t\tconst j = i;\n\t\t\t\t\tlet k = i - 1;\n\t\t\t\t\tif ( k < 0 ) k = contour.length - 1;\n\n\t\t\t\t\t//console.log('b', i,j, i-1, k,vertices.length);\n\n\t\t\t\t\tfor ( let s = 0, sl = ( steps + bevelSegments * 2 ); s < sl; s ++ ) {\n\n\t\t\t\t\t\tconst slen1 = vlen * s;\n\t\t\t\t\t\tconst slen2 = vlen * ( s + 1 );\n\n\t\t\t\t\t\tconst a = layeroffset + j + slen1,\n\t\t\t\t\t\t\tb = layeroffset + k + slen1,\n\t\t\t\t\t\t\tc = layeroffset + k + slen2,\n\t\t\t\t\t\t\td = layeroffset + j + slen2;\n\n\t\t\t\t\t\tf4( a, b, c, d );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tfunction v( x, y, z ) {\n\n\t\t\t\tplaceholder.push( x );\n\t\t\t\tplaceholder.push( y );\n\t\t\t\tplaceholder.push( z );\n\n\t\t\t}\n\n\n\t\t\tfunction f3( a, b, c ) {\n\n\t\t\t\taddVertex( a );\n\t\t\t\taddVertex( b );\n\t\t\t\taddVertex( c );\n\n\t\t\t\tconst nextIndex = verticesArray.length / 3;\n\t\t\t\tconst uvs = uvgen.generateTopUV( scope, verticesArray, nextIndex - 3, nextIndex - 2, nextIndex - 1 );\n\n\t\t\t\taddUV( uvs[ 0 ] );\n\t\t\t\taddUV( uvs[ 1 ] );\n\t\t\t\taddUV( uvs[ 2 ] );\n\n\t\t\t}\n\n\t\t\tfunction f4( a, b, c, d ) {\n\n\t\t\t\taddVertex( a );\n\t\t\t\taddVertex( b );\n\t\t\t\taddVertex( d );\n\n\t\t\t\taddVertex( b );\n\t\t\t\taddVertex( c );\n\t\t\t\taddVertex( d );\n\n\n\t\t\t\tconst nextIndex = verticesArray.length / 3;\n\t\t\t\tconst uvs = uvgen.generateSideWallUV( scope, verticesArray, nextIndex - 6, nextIndex - 3, nextIndex - 2, nextIndex - 1 );\n\n\t\t\t\taddUV( uvs[ 0 ] );\n\t\t\t\taddUV( uvs[ 1 ] );\n\t\t\t\taddUV( uvs[ 3 ] );\n\n\t\t\t\taddUV( uvs[ 1 ] );\n\t\t\t\taddUV( uvs[ 2 ] );\n\t\t\t\taddUV( uvs[ 3 ] );\n\n\t\t\t}\n\n\t\t\tfunction addVertex( index ) {\n\n\t\t\t\tverticesArray.push( placeholder[ index * 3 + 0 ] );\n\t\t\t\tverticesArray.push( placeholder[ index * 3 + 1 ] );\n\t\t\t\tverticesArray.push( placeholder[ index * 3 + 2 ] );\n\n\t\t\t}\n\n\n\t\t\tfunction addUV( vector2 ) {\n\n\t\t\t\tuvArray.push( vector2.x );\n\t\t\t\tuvArray.push( vector2.y );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tconst shapes = this.parameters.shapes;\n\t\tconst options = this.parameters.options;\n\n\t\treturn toJSON$1( shapes, options, data );\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @param {Array} shapes - An array of shapes.\n\t * @return {ExtrudeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data, shapes ) {\n\n\t\tconst geometryShapes = [];\n\n\t\tfor ( let j = 0, jl = data.shapes.length; j < jl; j ++ ) {\n\n\t\t\tconst shape = shapes[ data.shapes[ j ] ];\n\n\t\t\tgeometryShapes.push( shape );\n\n\t\t}\n\n\t\tconst extrudePath = data.options.extrudePath;\n\n\t\tif ( extrudePath !== undefined ) {\n\n\t\t\tdata.options.extrudePath = new Curves[ extrudePath.type ]().fromJSON( extrudePath );\n\n\t\t}\n\n\t\treturn new ExtrudeGeometry( geometryShapes, data.options );\n\n\t}\n\n}\n\nconst WorldUVGenerator = {\n\n\tgenerateTopUV: function ( geometry, vertices, indexA, indexB, indexC ) {\n\n\t\tconst a_x = vertices[ indexA * 3 ];\n\t\tconst a_y = vertices[ indexA * 3 + 1 ];\n\t\tconst b_x = vertices[ indexB * 3 ];\n\t\tconst b_y = vertices[ indexB * 3 + 1 ];\n\t\tconst c_x = vertices[ indexC * 3 ];\n\t\tconst c_y = vertices[ indexC * 3 + 1 ];\n\n\t\treturn [\n\t\t\tnew Vector2( a_x, a_y ),\n\t\t\tnew Vector2( b_x, b_y ),\n\t\t\tnew Vector2( c_x, c_y )\n\t\t];\n\n\t},\n\n\tgenerateSideWallUV: function ( geometry, vertices, indexA, indexB, indexC, indexD ) {\n\n\t\tconst a_x = vertices[ indexA * 3 ];\n\t\tconst a_y = vertices[ indexA * 3 + 1 ];\n\t\tconst a_z = vertices[ indexA * 3 + 2 ];\n\t\tconst b_x = vertices[ indexB * 3 ];\n\t\tconst b_y = vertices[ indexB * 3 + 1 ];\n\t\tconst b_z = vertices[ indexB * 3 + 2 ];\n\t\tconst c_x = vertices[ indexC * 3 ];\n\t\tconst c_y = vertices[ indexC * 3 + 1 ];\n\t\tconst c_z = vertices[ indexC * 3 + 2 ];\n\t\tconst d_x = vertices[ indexD * 3 ];\n\t\tconst d_y = vertices[ indexD * 3 + 1 ];\n\t\tconst d_z = vertices[ indexD * 3 + 2 ];\n\n\t\tif ( Math.abs( a_y - b_y ) < Math.abs( a_x - b_x ) ) {\n\n\t\t\treturn [\n\t\t\t\tnew Vector2( a_x, 1 - a_z ),\n\t\t\t\tnew Vector2( b_x, 1 - b_z ),\n\t\t\t\tnew Vector2( c_x, 1 - c_z ),\n\t\t\t\tnew Vector2( d_x, 1 - d_z )\n\t\t\t];\n\n\t\t} else {\n\n\t\t\treturn [\n\t\t\t\tnew Vector2( a_y, 1 - a_z ),\n\t\t\t\tnew Vector2( b_y, 1 - b_z ),\n\t\t\t\tnew Vector2( c_y, 1 - c_z ),\n\t\t\t\tnew Vector2( d_y, 1 - d_z )\n\t\t\t];\n\n\t\t}\n\n\t}\n\n};\n\nfunction toJSON$1( shapes, options, data ) {\n\n\tdata.shapes = [];\n\n\tif ( Array.isArray( shapes ) ) {\n\n\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\tconst shape = shapes[ i ];\n\n\t\t\tdata.shapes.push( shape.uuid );\n\n\t\t}\n\n\t} else {\n\n\t\tdata.shapes.push( shapes.uuid );\n\n\t}\n\n\tdata.options = Object.assign( {}, options );\n\n\tif ( options.extrudePath !== undefined ) data.options.extrudePath = options.extrudePath.toJSON();\n\n\treturn data;\n\n}\n\n/**\n * A geometry class for representing an icosahedron.\n *\n * ```js\n * const geometry = new THREE.IcosahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const icosahedron = new THREE.Mesh( geometry, material );\n * scene.add( icosahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass IcosahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new icosahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the icosahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a icosahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst t = ( 1 + Math.sqrt( 5 ) ) / 2;\n\n\t\tconst vertices = [\n\t\t\t-1, t, 0, \t1, t, 0, \t-1, - t, 0, \t1, - t, 0,\n\t\t\t0, -1, t, \t0, 1, t,\t0, -1, - t, \t0, 1, - t,\n\t\t\tt, 0, -1, \tt, 0, 1, \t- t, 0, -1, \t- t, 0, 1\n\t\t];\n\n\t\tconst indices = [\n\t\t\t0, 11, 5, \t0, 5, 1, \t0, 1, 7, \t0, 7, 10, \t0, 10, 11,\n\t\t\t1, 5, 9, \t5, 11, 4,\t11, 10, 2,\t10, 7, 6,\t7, 1, 8,\n\t\t\t3, 9, 4, \t3, 4, 2,\t3, 2, 6,\t3, 6, 8,\t3, 8, 9,\n\t\t\t4, 9, 5, \t2, 4, 11,\t6, 2, 10,\t8, 6, 7,\t9, 8, 1\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'IcosahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {IcosahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new IcosahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\n/**\n * Creates meshes with axial symmetry like vases. The lathe rotates around the Y axis.\n *\n * ```js\n * const points = [];\n * for ( let i = 0; i < 10; i ++ ) {\n * \tpoints.push( new THREE.Vector2( Math.sin( i * 0.2 ) * 10 + 5, ( i - 5 ) * 2 ) );\n * }\n * const geometry = new THREE.LatheGeometry( points );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const lathe = new THREE.Mesh( geometry, material );\n * scene.add( lathe );\n * ```\n *\n * @augments BufferGeometry\n */\nclass LatheGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new lathe geometry.\n\t *\n\t * @param {Array} [points] - An array of points in 2D space. The x-coordinate of each point\n\t * must be greater than zero.\n\t * @param {number} [segments=12] - The number of circumference segments to generate.\n\t * @param {number} [phiStart=0] - The starting angle in radians.\n\t * @param {number} [phiLength=Math.PI*2] - The radian (0 to 2PI) range of the lathed section 2PI is a\n\t * closed lathe, less than 2PI is a portion.\n\t */\n\tconstructor( points = [ new Vector2( 0, -0.5 ), new Vector2( 0.5, 0 ), new Vector2( 0, 0.5 ) ], segments = 12, phiStart = 0, phiLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'LatheGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tpoints: points,\n\t\t\tsegments: segments,\n\t\t\tphiStart: phiStart,\n\t\t\tphiLength: phiLength\n\t\t};\n\n\t\tsegments = Math.floor( segments );\n\n\t\t// clamp phiLength so it's in range of [ 0, 2PI ]\n\n\t\tphiLength = clamp( phiLength, 0, Math.PI * 2 );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst uvs = [];\n\t\tconst initNormals = [];\n\t\tconst normals = [];\n\n\t\t// helper variables\n\n\t\tconst inverseSegments = 1.0 / segments;\n\t\tconst vertex = new Vector3();\n\t\tconst uv = new Vector2();\n\t\tconst normal = new Vector3();\n\t\tconst curNormal = new Vector3();\n\t\tconst prevNormal = new Vector3();\n\t\tlet dx = 0;\n\t\tlet dy = 0;\n\n\t\t// pre-compute normals for initial \"meridian\"\n\n\t\tfor ( let j = 0; j <= ( points.length - 1 ); j ++ ) {\n\n\t\t\tswitch ( j ) {\n\n\t\t\t\tcase 0:\t\t\t\t// special handling for 1st vertex on path\n\n\t\t\t\t\tdx = points[ j + 1 ].x - points[ j ].x;\n\t\t\t\t\tdy = points[ j + 1 ].y - points[ j ].y;\n\n\t\t\t\t\tnormal.x = dy * 1.0;\n\t\t\t\t\tnormal.y = - dx;\n\t\t\t\t\tnormal.z = dy * 0.0;\n\n\t\t\t\t\tprevNormal.copy( normal );\n\n\t\t\t\t\tnormal.normalize();\n\n\t\t\t\t\tinitNormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase ( points.length - 1 ):\t// special handling for last Vertex on path\n\n\t\t\t\t\tinitNormals.push( prevNormal.x, prevNormal.y, prevNormal.z );\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\t\t\t// default handling for all vertices in between\n\n\t\t\t\t\tdx = points[ j + 1 ].x - points[ j ].x;\n\t\t\t\t\tdy = points[ j + 1 ].y - points[ j ].y;\n\n\t\t\t\t\tnormal.x = dy * 1.0;\n\t\t\t\t\tnormal.y = - dx;\n\t\t\t\t\tnormal.z = dy * 0.0;\n\n\t\t\t\t\tcurNormal.copy( normal );\n\n\t\t\t\t\tnormal.x += prevNormal.x;\n\t\t\t\t\tnormal.y += prevNormal.y;\n\t\t\t\t\tnormal.z += prevNormal.z;\n\n\t\t\t\t\tnormal.normalize();\n\n\t\t\t\t\tinitNormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t\tprevNormal.copy( curNormal );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// generate vertices, uvs and normals\n\n\t\tfor ( let i = 0; i <= segments; i ++ ) {\n\n\t\t\tconst phi = phiStart + i * inverseSegments * phiLength;\n\n\t\t\tconst sin = Math.sin( phi );\n\t\t\tconst cos = Math.cos( phi );\n\n\t\t\tfor ( let j = 0; j <= ( points.length - 1 ); j ++ ) {\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = points[ j ].x * sin;\n\t\t\t\tvertex.y = points[ j ].y;\n\t\t\t\tvertex.z = points[ j ].x * cos;\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuv.x = i / segments;\n\t\t\t\tuv.y = j / ( points.length - 1 );\n\n\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t\t// normal\n\n\t\t\t\tconst x = initNormals[ 3 * j + 0 ] * sin;\n\t\t\t\tconst y = initNormals[ 3 * j + 1 ];\n\t\t\t\tconst z = initNormals[ 3 * j + 0 ] * cos;\n\n\t\t\t\tnormals.push( x, y, z );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let i = 0; i < segments; i ++ ) {\n\n\t\t\tfor ( let j = 0; j < ( points.length - 1 ); j ++ ) {\n\n\t\t\t\tconst base = j + i * points.length;\n\n\t\t\t\tconst a = base;\n\t\t\t\tconst b = base + points.length;\n\t\t\t\tconst c = base + points.length + 1;\n\t\t\t\tconst d = base + 1;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( c, d, b );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {LatheGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new LatheGeometry( data.points, data.segments, data.phiStart, data.phiLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing an octahedron.\n *\n * ```js\n * const geometry = new THREE.OctahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const octahedron = new THREE.Mesh( geometry, material );\n * scene.add( octahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass OctahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new octahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the octahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a octahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst vertices = [\n\t\t\t1, 0, 0, \t-1, 0, 0,\t0, 1, 0,\n\t\t\t0, -1, 0, \t0, 0, 1,\t0, 0, -1\n\t\t];\n\n\t\tconst indices = [\n\t\t\t0, 2, 4,\t0, 4, 3,\t0, 3, 5,\n\t\t\t0, 5, 2,\t1, 2, 5,\t1, 5, 3,\n\t\t\t1, 3, 4,\t1, 4, 2\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'OctahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {OctahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new OctahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a plane.\n *\n * ```js\n * const geometry = new THREE.PlaneGeometry( 1, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00, side: THREE.DoubleSide } );\n * const plane = new THREE.Mesh( geometry, material );\n * scene.add( plane );\n * ```\n *\n * @augments BufferGeometry\n */\nclass PlaneGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new plane geometry.\n\t *\n\t * @param {number} [width=1] - The width along the X axis.\n\t * @param {number} [height=1] - The height along the Y axis\n\t * @param {number} [widthSegments=1] - The number of segments along the X axis.\n\t * @param {number} [heightSegments=1] - The number of segments along the Y axis.\n\t */\n\tconstructor( width = 1, height = 1, widthSegments = 1, heightSegments = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'PlaneGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\twidth: width,\n\t\t\theight: height,\n\t\t\twidthSegments: widthSegments,\n\t\t\theightSegments: heightSegments\n\t\t};\n\n\t\tconst width_half = width / 2;\n\t\tconst height_half = height / 2;\n\n\t\tconst gridX = Math.floor( widthSegments );\n\t\tconst gridY = Math.floor( heightSegments );\n\n\t\tconst gridX1 = gridX + 1;\n\t\tconst gridY1 = gridY + 1;\n\n\t\tconst segment_width = width / gridX;\n\t\tconst segment_height = height / gridY;\n\n\t\t//\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\tfor ( let iy = 0; iy < gridY1; iy ++ ) {\n\n\t\t\tconst y = iy * segment_height - height_half;\n\n\t\t\tfor ( let ix = 0; ix < gridX1; ix ++ ) {\n\n\t\t\t\tconst x = ix * segment_width - width_half;\n\n\t\t\t\tvertices.push( x, - y, 0 );\n\n\t\t\t\tnormals.push( 0, 0, 1 );\n\n\t\t\t\tuvs.push( ix / gridX );\n\t\t\t\tuvs.push( 1 - ( iy / gridY ) );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfor ( let iy = 0; iy < gridY; iy ++ ) {\n\n\t\t\tfor ( let ix = 0; ix < gridX; ix ++ ) {\n\n\t\t\t\tconst a = ix + gridX1 * iy;\n\t\t\t\tconst b = ix + gridX1 * ( iy + 1 );\n\t\t\t\tconst c = ( ix + 1 ) + gridX1 * ( iy + 1 );\n\t\t\t\tconst d = ( ix + 1 ) + gridX1 * iy;\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {PlaneGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new PlaneGeometry( data.width, data.height, data.widthSegments, data.heightSegments );\n\n\t}\n\n}\n\n/**\n * A class for generating a two-dimensional ring geometry.\n *\n * ```js\n * const geometry = new THREE.RingGeometry( 1, 5, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00, side: THREE.DoubleSide } );\n * const mesh = new THREE.Mesh( geometry, material );\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass RingGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new ring geometry.\n\t *\n\t * @param {number} [innerRadius=0.5] - The inner radius of the ring.\n\t * @param {number} [outerRadius=1] - The outer radius of the ring.\n\t * @param {number} [thetaSegments=32] - Number of segments. A higher number means the ring will be more round. Minimum is `3`.\n\t * @param {number} [phiSegments=1] - Number of segments per ring segment. Minimum is `1`.\n\t * @param {number} [thetaStart=0] - Starting angle in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - Central angle in radians.\n\t */\n\tconstructor( innerRadius = 0.5, outerRadius = 1, thetaSegments = 32, phiSegments = 1, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'RingGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tinnerRadius: innerRadius,\n\t\t\touterRadius: outerRadius,\n\t\t\tthetaSegments: thetaSegments,\n\t\t\tphiSegments: phiSegments,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\tthetaSegments = Math.max( 3, thetaSegments );\n\t\tphiSegments = Math.max( 1, phiSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// some helper variables\n\n\t\tlet radius = innerRadius;\n\t\tconst radiusStep = ( ( outerRadius - innerRadius ) / phiSegments );\n\t\tconst vertex = new Vector3();\n\t\tconst uv = new Vector2();\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let j = 0; j <= phiSegments; j ++ ) {\n\n\t\t\tfor ( let i = 0; i <= thetaSegments; i ++ ) {\n\n\t\t\t\t// values are generate from the inside of the ring to the outside\n\n\t\t\t\tconst segment = thetaStart + i / thetaSegments * thetaLength;\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = radius * Math.cos( segment );\n\t\t\t\tvertex.y = radius * Math.sin( segment );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormals.push( 0, 0, 1 );\n\n\t\t\t\t// uv\n\n\t\t\t\tuv.x = ( vertex.x / outerRadius + 1 ) / 2;\n\t\t\t\tuv.y = ( vertex.y / outerRadius + 1 ) / 2;\n\n\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t}\n\n\t\t\t// increase the radius for next row of vertices\n\n\t\t\tradius += radiusStep;\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let j = 0; j < phiSegments; j ++ ) {\n\n\t\t\tconst thetaSegmentLevel = j * ( thetaSegments + 1 );\n\n\t\t\tfor ( let i = 0; i < thetaSegments; i ++ ) {\n\n\t\t\t\tconst segment = i + thetaSegmentLevel;\n\n\t\t\t\tconst a = segment;\n\t\t\t\tconst b = segment + thetaSegments + 1;\n\t\t\t\tconst c = segment + thetaSegments + 2;\n\t\t\t\tconst d = segment + 1;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {RingGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new RingGeometry( data.innerRadius, data.outerRadius, data.thetaSegments, data.phiSegments, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * Creates an one-sided polygonal geometry from one or more path shapes.\n *\n * ```js\n * const arcShape = new THREE.Shape()\n *\t.moveTo( 5, 1 )\n *\t.absarc( 1, 1, 4, 0, Math.PI * 2, false );\n *\n * const geometry = new THREE.ShapeGeometry( arcShape );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00, side: THREE.DoubleSide } );\n * const mesh = new THREE.Mesh( geometry, material ) ;\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass ShapeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new shape geometry.\n\t *\n\t * @param {Shape|Array} [shapes] - A shape or an array of shapes.\n\t * @param {number} [curveSegments=12] - Number of segments per shape.\n\t */\n\tconstructor( shapes = new Shape( [ new Vector2( 0, 0.5 ), new Vector2( -0.5, -0.5 ), new Vector2( 0.5, -0.5 ) ] ), curveSegments = 12 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'ShapeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tshapes: shapes,\n\t\t\tcurveSegments: curveSegments\n\t\t};\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tlet groupStart = 0;\n\t\tlet groupCount = 0;\n\n\t\t// allow single and array values for \"shapes\" parameter\n\n\t\tif ( Array.isArray( shapes ) === false ) {\n\n\t\t\taddShape( shapes );\n\n\t\t} else {\n\n\t\t\tfor ( let i = 0; i < shapes.length; i ++ ) {\n\n\t\t\t\taddShape( shapes[ i ] );\n\n\t\t\t\tthis.addGroup( groupStart, groupCount, i ); // enables MultiMaterial support\n\n\t\t\t\tgroupStart += groupCount;\n\t\t\t\tgroupCount = 0;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\n\t\t// helper functions\n\n\t\tfunction addShape( shape ) {\n\n\t\t\tconst indexOffset = vertices.length / 3;\n\t\t\tconst points = shape.extractPoints( curveSegments );\n\n\t\t\tlet shapeVertices = points.shape;\n\t\t\tconst shapeHoles = points.holes;\n\n\t\t\t// check direction of vertices\n\n\t\t\tif ( ShapeUtils.isClockWise( shapeVertices ) === false ) {\n\n\t\t\t\tshapeVertices = shapeVertices.reverse();\n\n\t\t\t}\n\n\t\t\tfor ( let i = 0, l = shapeHoles.length; i < l; i ++ ) {\n\n\t\t\t\tconst shapeHole = shapeHoles[ i ];\n\n\t\t\t\tif ( ShapeUtils.isClockWise( shapeHole ) === true ) {\n\n\t\t\t\t\tshapeHoles[ i ] = shapeHole.reverse();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tconst faces = ShapeUtils.triangulateShape( shapeVertices, shapeHoles );\n\n\t\t\t// join vertices of inner and outer paths to a single array\n\n\t\t\tfor ( let i = 0, l = shapeHoles.length; i < l; i ++ ) {\n\n\t\t\t\tconst shapeHole = shapeHoles[ i ];\n\t\t\t\tshapeVertices = shapeVertices.concat( shapeHole );\n\n\t\t\t}\n\n\t\t\t// vertices, normals, uvs\n\n\t\t\tfor ( let i = 0, l = shapeVertices.length; i < l; i ++ ) {\n\n\t\t\t\tconst vertex = shapeVertices[ i ];\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, 0 );\n\t\t\t\tnormals.push( 0, 0, 1 );\n\t\t\t\tuvs.push( vertex.x, vertex.y ); // world uvs\n\n\t\t\t}\n\n\t\t\t// indices\n\n\t\t\tfor ( let i = 0, l = faces.length; i < l; i ++ ) {\n\n\t\t\t\tconst face = faces[ i ];\n\n\t\t\t\tconst a = face[ 0 ] + indexOffset;\n\t\t\t\tconst b = face[ 1 ] + indexOffset;\n\t\t\t\tconst c = face[ 2 ] + indexOffset;\n\n\t\t\t\tindices.push( a, b, c );\n\t\t\t\tgroupCount += 3;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tconst shapes = this.parameters.shapes;\n\n\t\treturn toJSON( shapes, data );\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @param {Array} shapes - An array of shapes.\n\t * @return {ShapeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data, shapes ) {\n\n\t\tconst geometryShapes = [];\n\n\t\tfor ( let j = 0, jl = data.shapes.length; j < jl; j ++ ) {\n\n\t\t\tconst shape = shapes[ data.shapes[ j ] ];\n\n\t\t\tgeometryShapes.push( shape );\n\n\t\t}\n\n\t\treturn new ShapeGeometry( geometryShapes, data.curveSegments );\n\n\t}\n\n}\n\nfunction toJSON( shapes, data ) {\n\n\tdata.shapes = [];\n\n\tif ( Array.isArray( shapes ) ) {\n\n\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\tconst shape = shapes[ i ];\n\n\t\t\tdata.shapes.push( shape.uuid );\n\n\t\t}\n\n\t} else {\n\n\t\tdata.shapes.push( shapes.uuid );\n\n\t}\n\n\treturn data;\n\n}\n\n/**\n * A class for generating a sphere geometry.\n *\n * ```js\n * const geometry = new THREE.SphereGeometry( 15, 32, 16 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const sphere = new THREE.Mesh( geometry, material );\n * scene.add( sphere );\n * ```\n *\n * @augments BufferGeometry\n */\nclass SphereGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new sphere geometry.\n\t *\n\t * @param {number} [radius=1] - The sphere radius.\n\t * @param {number} [widthSegments=32] - The number of horizontal segments. Minimum value is `3`.\n\t * @param {number} [heightSegments=16] - The number of vertical segments. Minimum value is `2`.\n\t * @param {number} [phiStart=0] - The horizontal starting angle in radians.\n\t * @param {number} [phiLength=Math.PI*2] - The horizontal sweep angle size.\n\t * @param {number} [thetaStart=0] - The vertical starting angle in radians.\n\t * @param {number} [thetaLength=Math.PI] - The vertical sweep angle size.\n\t */\n\tconstructor( radius = 1, widthSegments = 32, heightSegments = 16, phiStart = 0, phiLength = Math.PI * 2, thetaStart = 0, thetaLength = Math.PI ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'SphereGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\twidthSegments: widthSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\tphiStart: phiStart,\n\t\t\tphiLength: phiLength,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\twidthSegments = Math.max( 3, Math.floor( widthSegments ) );\n\t\theightSegments = Math.max( 2, Math.floor( heightSegments ) );\n\n\t\tconst thetaEnd = Math.min( thetaStart + thetaLength, Math.PI );\n\n\t\tlet index = 0;\n\t\tconst grid = [];\n\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let iy = 0; iy <= heightSegments; iy ++ ) {\n\n\t\t\tconst verticesRow = [];\n\n\t\t\tconst v = iy / heightSegments;\n\n\t\t\t// special case for the poles\n\n\t\t\tlet uOffset = 0;\n\n\t\t\tif ( iy === 0 && thetaStart === 0 ) {\n\n\t\t\t\tuOffset = 0.5 / widthSegments;\n\n\t\t\t} else if ( iy === heightSegments && thetaEnd === Math.PI ) {\n\n\t\t\t\tuOffset = -0.5 / widthSegments;\n\n\t\t\t}\n\n\t\t\tfor ( let ix = 0; ix <= widthSegments; ix ++ ) {\n\n\t\t\t\tconst u = ix / widthSegments;\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = - radius * Math.cos( phiStart + u * phiLength ) * Math.sin( thetaStart + v * thetaLength );\n\t\t\t\tvertex.y = radius * Math.cos( thetaStart + v * thetaLength );\n\t\t\t\tvertex.z = radius * Math.sin( phiStart + u * phiLength ) * Math.sin( thetaStart + v * thetaLength );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormal.copy( vertex ).normalize();\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( u + uOffset, 1 - v );\n\n\t\t\t\tverticesRow.push( index ++ );\n\n\t\t\t}\n\n\t\t\tgrid.push( verticesRow );\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let iy = 0; iy < heightSegments; iy ++ ) {\n\n\t\t\tfor ( let ix = 0; ix < widthSegments; ix ++ ) {\n\n\t\t\t\tconst a = grid[ iy ][ ix + 1 ];\n\t\t\t\tconst b = grid[ iy ][ ix ];\n\t\t\t\tconst c = grid[ iy + 1 ][ ix ];\n\t\t\t\tconst d = grid[ iy + 1 ][ ix + 1 ];\n\n\t\t\t\tif ( iy !== 0 || thetaStart > 0 ) indices.push( a, b, d );\n\t\t\t\tif ( iy !== heightSegments - 1 || thetaEnd < Math.PI ) indices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {SphereGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new SphereGeometry( data.radius, data.widthSegments, data.heightSegments, data.phiStart, data.phiLength, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing an tetrahedron.\n *\n * ```js\n * const geometry = new THREE.TetrahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const tetrahedron = new THREE.Mesh( geometry, material );\n * scene.add( tetrahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass TetrahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new tetrahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the tetrahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a tetrahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst vertices = [\n\t\t\t1, 1, 1, \t-1, -1, 1, \t-1, 1, -1, \t1, -1, -1\n\t\t];\n\n\t\tconst indices = [\n\t\t\t2, 1, 0, \t0, 3, 2,\t1, 3, 0,\t2, 3, 1\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'TetrahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TetrahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new TetrahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing an torus.\n *\n * ```js\n * const geometry = new THREE.TorusGeometry( 10, 3, 16, 100 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const torus = new THREE.Mesh( geometry, material );\n * scene.add( torus );\n * ```\n *\n * @augments BufferGeometry\n */\nclass TorusGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new torus geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the torus, from the center of the torus to the center of the tube.\n\t * @param {number} [tube=0.4] - Radius of the tube. Must be smaller than `radius`.\n\t * @param {number} [radialSegments=12] - The number of radial segments.\n\t * @param {number} [tubularSegments=48] - The number of tubular segments.\n\t * @param {number} [arc=Math.PI*2] - Central angle in radians.\n\t */\n\tconstructor( radius = 1, tube = 0.4, radialSegments = 12, tubularSegments = 48, arc = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'TorusGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\ttube: tube,\n\t\t\tradialSegments: radialSegments,\n\t\t\ttubularSegments: tubularSegments,\n\t\t\tarc: arc\n\t\t};\n\n\t\tradialSegments = Math.floor( radialSegments );\n\t\ttubularSegments = Math.floor( tubularSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst center = new Vector3();\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let j = 0; j <= radialSegments; j ++ ) {\n\n\t\t\tfor ( let i = 0; i <= tubularSegments; i ++ ) {\n\n\t\t\t\tconst u = i / tubularSegments * arc;\n\t\t\t\tconst v = j / radialSegments * Math.PI * 2;\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = ( radius + tube * Math.cos( v ) ) * Math.cos( u );\n\t\t\t\tvertex.y = ( radius + tube * Math.cos( v ) ) * Math.sin( u );\n\t\t\t\tvertex.z = tube * Math.sin( v );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tcenter.x = radius * Math.cos( u );\n\t\t\t\tcenter.y = radius * Math.sin( u );\n\t\t\t\tnormal.subVectors( vertex, center ).normalize();\n\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( i / tubularSegments );\n\t\t\t\tuvs.push( j / radialSegments );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// generate indices\n\n\t\tfor ( let j = 1; j <= radialSegments; j ++ ) {\n\n\t\t\tfor ( let i = 1; i <= tubularSegments; i ++ ) {\n\n\t\t\t\t// indices\n\n\t\t\t\tconst a = ( tubularSegments + 1 ) * j + i - 1;\n\t\t\t\tconst b = ( tubularSegments + 1 ) * ( j - 1 ) + i - 1;\n\t\t\t\tconst c = ( tubularSegments + 1 ) * ( j - 1 ) + i;\n\t\t\t\tconst d = ( tubularSegments + 1 ) * j + i;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TorusGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new TorusGeometry( data.radius, data.tube, data.radialSegments, data.tubularSegments, data.arc );\n\n\t}\n\n}\n\n/**\n * Creates a torus knot, the particular shape of which is defined by a pair\n * of coprime integers, p and q. If p and q are not coprime, the result will\n * be a torus link.\n *\n * ```js\n * const geometry = new THREE.TorusKnotGeometry( 10, 3, 100, 16 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const torusKnot = new THREE.Mesh( geometry, material );\n * scene.add( torusKnot );\n * ```\n *\n * @augments BufferGeometry\n */\nclass TorusKnotGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new torus knot geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the torus knot.\n\t * @param {number} [tube=0.4] - Radius of the tube.\n\t * @param {number} [tubularSegments=64] - The number of tubular segments.\n\t * @param {number} [radialSegments=8] - The number of radial segments.\n\t * @param {number} [p=2] - This value determines, how many times the geometry winds around its axis of rotational symmetry.\n\t * @param {number} [q=3] - This value determines, how many times the geometry winds around a circle in the interior of the torus.\n\t */\n\tconstructor( radius = 1, tube = 0.4, tubularSegments = 64, radialSegments = 8, p = 2, q = 3 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'TorusKnotGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\ttube: tube,\n\t\t\ttubularSegments: tubularSegments,\n\t\t\tradialSegments: radialSegments,\n\t\t\tp: p,\n\t\t\tq: q\n\t\t};\n\n\t\ttubularSegments = Math.floor( tubularSegments );\n\t\tradialSegments = Math.floor( radialSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\n\t\tconst P1 = new Vector3();\n\t\tconst P2 = new Vector3();\n\n\t\tconst B = new Vector3();\n\t\tconst T = new Vector3();\n\t\tconst N = new Vector3();\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let i = 0; i <= tubularSegments; ++ i ) {\n\n\t\t\t// the radian \"u\" is used to calculate the position on the torus curve of the current tubular segment\n\n\t\t\tconst u = i / tubularSegments * p * Math.PI * 2;\n\n\t\t\t// now we calculate two points. P1 is our current position on the curve, P2 is a little farther ahead.\n\t\t\t// these points are used to create a special \"coordinate space\", which is necessary to calculate the correct vertex positions\n\n\t\t\tcalculatePositionOnCurve( u, p, q, radius, P1 );\n\t\t\tcalculatePositionOnCurve( u + 0.01, p, q, radius, P2 );\n\n\t\t\t// calculate orthonormal basis\n\n\t\t\tT.subVectors( P2, P1 );\n\t\t\tN.addVectors( P2, P1 );\n\t\t\tB.crossVectors( T, N );\n\t\t\tN.crossVectors( B, T );\n\n\t\t\t// normalize B, N. T can be ignored, we don't use it\n\n\t\t\tB.normalize();\n\t\t\tN.normalize();\n\n\t\t\tfor ( let j = 0; j <= radialSegments; ++ j ) {\n\n\t\t\t\t// now calculate the vertices. they are nothing more than an extrusion of the torus curve.\n\t\t\t\t// because we extrude a shape in the xy-plane, there is no need to calculate a z-value.\n\n\t\t\t\tconst v = j / radialSegments * Math.PI * 2;\n\t\t\t\tconst cx = - tube * Math.cos( v );\n\t\t\t\tconst cy = tube * Math.sin( v );\n\n\t\t\t\t// now calculate the final vertex position.\n\t\t\t\t// first we orient the extrusion with our basis vectors, then we add it to the current position on the curve\n\n\t\t\t\tvertex.x = P1.x + ( cx * N.x + cy * B.x );\n\t\t\t\tvertex.y = P1.y + ( cx * N.y + cy * B.y );\n\t\t\t\tvertex.z = P1.z + ( cx * N.z + cy * B.z );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal (P1 is always the center/origin of the extrusion, thus we can use it to calculate the normal)\n\n\t\t\t\tnormal.subVectors( vertex, P1 ).normalize();\n\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( i / tubularSegments );\n\t\t\t\tuvs.push( j / radialSegments );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// generate indices\n\n\t\tfor ( let j = 1; j <= tubularSegments; j ++ ) {\n\n\t\t\tfor ( let i = 1; i <= radialSegments; i ++ ) {\n\n\t\t\t\t// indices\n\n\t\t\t\tconst a = ( radialSegments + 1 ) * ( j - 1 ) + ( i - 1 );\n\t\t\t\tconst b = ( radialSegments + 1 ) * j + ( i - 1 );\n\t\t\t\tconst c = ( radialSegments + 1 ) * j + i;\n\t\t\t\tconst d = ( radialSegments + 1 ) * ( j - 1 ) + i;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\t// this function calculates the current position on the torus curve\n\n\t\tfunction calculatePositionOnCurve( u, p, q, radius, position ) {\n\n\t\t\tconst cu = Math.cos( u );\n\t\t\tconst su = Math.sin( u );\n\t\t\tconst quOverP = q / p * u;\n\t\t\tconst cs = Math.cos( quOverP );\n\n\t\t\tposition.x = radius * ( 2 + cs ) * 0.5 * cu;\n\t\t\tposition.y = radius * ( 2 + cs ) * su * 0.5;\n\t\t\tposition.z = radius * Math.sin( quOverP ) * 0.5;\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TorusKnotGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new TorusKnotGeometry( data.radius, data.tube, data.tubularSegments, data.radialSegments, data.p, data.q );\n\n\t}\n\n}\n\n/**\n * Creates a tube that extrudes along a 3D curve.\n *\n * ```js\n * class CustomSinCurve extends THREE.Curve {\n *\n * \tgetPoint( t, optionalTarget = new THREE.Vector3() ) {\n *\n * \t\tconst tx = t * 3 - 1.5;\n * \t\tconst ty = Math.sin( 2 * Math.PI * t );\n * \t\tconst tz = 0;\n *\n * \t\treturn optionalTarget.set( tx, ty, tz );\n * \t}\n *\n * }\n *\n * const path = new CustomSinCurve( 10 );\n * const geometry = new THREE.TubeGeometry( path, 20, 2, 8, false );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const mesh = new THREE.Mesh( geometry, material );\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass TubeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new tube geometry.\n\t *\n\t * @param {Curve} [path=QuadraticBezierCurve3] - A 3D curve defining the path of the tube.\n\t * @param {number} [tubularSegments=64] - The number of segments that make up the tube.\n\t * @param {number} [radius=1] -The radius of the tube.\n\t * @param {number} [radialSegments=8] - The number of segments that make up the cross-section.\n\t * @param {boolean} [closed=false] - Whether the tube is closed or not.\n\t */\n\tconstructor( path = new QuadraticBezierCurve3( new Vector3( -1, -1, 0 ), new Vector3( -1, 1, 0 ), new Vector3( 1, 1, 0 ) ), tubularSegments = 64, radius = 1, radialSegments = 8, closed = false ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'TubeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tpath: path,\n\t\t\ttubularSegments: tubularSegments,\n\t\t\tradius: radius,\n\t\t\tradialSegments: radialSegments,\n\t\t\tclosed: closed\n\t\t};\n\n\t\tconst frames = path.computeFrenetFrames( tubularSegments, closed );\n\n\t\t// expose internals\n\n\t\tthis.tangents = frames.tangents;\n\t\tthis.normals = frames.normals;\n\t\tthis.binormals = frames.binormals;\n\n\t\t// helper variables\n\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\t\tconst uv = new Vector2();\n\t\tlet P = new Vector3();\n\n\t\t// buffer\n\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\t\tconst indices = [];\n\n\t\t// create buffer data\n\n\t\tgenerateBufferData();\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\t// functions\n\n\t\tfunction generateBufferData() {\n\n\t\t\tfor ( let i = 0; i < tubularSegments; i ++ ) {\n\n\t\t\t\tgenerateSegment( i );\n\n\t\t\t}\n\n\t\t\t// if the geometry is not closed, generate the last row of vertices and normals\n\t\t\t// at the regular position on the given path\n\t\t\t//\n\t\t\t// if the geometry is closed, duplicate the first row of vertices and normals (uvs will differ)\n\n\t\t\tgenerateSegment( ( closed === false ) ? tubularSegments : 0 );\n\n\t\t\t// uvs are generated in a separate function.\n\t\t\t// this makes it easy compute correct values for closed geometries\n\n\t\t\tgenerateUVs();\n\n\t\t\t// finally create faces\n\n\t\t\tgenerateIndices();\n\n\t\t}\n\n\t\tfunction generateSegment( i ) {\n\n\t\t\t// we use getPointAt to sample evenly distributed points from the given path\n\n\t\t\tP = path.getPointAt( i / tubularSegments, P );\n\n\t\t\t// retrieve corresponding normal and binormal\n\n\t\t\tconst N = frames.normals[ i ];\n\t\t\tconst B = frames.binormals[ i ];\n\n\t\t\t// generate normals and vertices for the current segment\n\n\t\t\tfor ( let j = 0; j <= radialSegments; j ++ ) {\n\n\t\t\t\tconst v = j / radialSegments * Math.PI * 2;\n\n\t\t\t\tconst sin = Math.sin( v );\n\t\t\t\tconst cos = - Math.cos( v );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormal.x = ( cos * N.x + sin * B.x );\n\t\t\t\tnormal.y = ( cos * N.y + sin * B.y );\n\t\t\t\tnormal.z = ( cos * N.z + sin * B.z );\n\t\t\t\tnormal.normalize();\n\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = P.x + radius * normal.x;\n\t\t\t\tvertex.y = P.y + radius * normal.y;\n\t\t\t\tvertex.z = P.z + radius * normal.z;\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction generateIndices() {\n\n\t\t\tfor ( let j = 1; j <= tubularSegments; j ++ ) {\n\n\t\t\t\tfor ( let i = 1; i <= radialSegments; i ++ ) {\n\n\t\t\t\t\tconst a = ( radialSegments + 1 ) * ( j - 1 ) + ( i - 1 );\n\t\t\t\t\tconst b = ( radialSegments + 1 ) * j + ( i - 1 );\n\t\t\t\t\tconst c = ( radialSegments + 1 ) * j + i;\n\t\t\t\t\tconst d = ( radialSegments + 1 ) * ( j - 1 ) + i;\n\n\t\t\t\t\t// faces\n\n\t\t\t\t\tindices.push( a, b, d );\n\t\t\t\t\tindices.push( b, c, d );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction generateUVs() {\n\n\t\t\tfor ( let i = 0; i <= tubularSegments; i ++ ) {\n\n\t\t\t\tfor ( let j = 0; j <= radialSegments; j ++ ) {\n\n\t\t\t\t\tuv.x = i / tubularSegments;\n\t\t\t\t\tuv.y = j / radialSegments;\n\n\t\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.path = this.parameters.path.toJSON();\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TubeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\t// This only works for built-in curves (e.g. CatmullRomCurve3).\n\t\t// User defined curves or instances of CurvePath will not be deserialized.\n\t\treturn new TubeGeometry(\n\t\t\tnew Curves[ data.path.type ]().fromJSON( data.path ),\n\t\t\tdata.tubularSegments,\n\t\t\tdata.radius,\n\t\t\tdata.radialSegments,\n\t\t\tdata.closed\n\t\t);\n\n\t}\n\n}\n\n/**\n * Can be used as a helper object to visualize a geometry as a wireframe.\n *\n * ```js\n * const geometry = new THREE.SphereGeometry();\n *\n * const wireframe = new THREE.WireframeGeometry( geometry );\n *\n * const line = new THREE.LineSegments( wireframe );\n * line.material.depthWrite = false;\n * line.material.opacity = 0.25;\n * line.material.transparent = true;\n *\n * scene.add( line );\n * ```\n *\n * Note: It is not yet possible to serialize/deserialize instances of this class.\n *\n * @augments BufferGeometry\n */\nclass WireframeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new wireframe geometry.\n\t *\n\t * @param {?BufferGeometry} [geometry=null] - The geometry.\n\t */\n\tconstructor( geometry = null ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'WireframeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tgeometry: geometry\n\t\t};\n\n\t\tif ( geometry !== null ) {\n\n\t\t\t// buffer\n\n\t\t\tconst vertices = [];\n\t\t\tconst edges = new Set();\n\n\t\t\t// helper variables\n\n\t\t\tconst start = new Vector3();\n\t\t\tconst end = new Vector3();\n\n\t\t\tif ( geometry.index !== null ) {\n\n\t\t\t\t// indexed BufferGeometry\n\n\t\t\t\tconst position = geometry.attributes.position;\n\t\t\t\tconst indices = geometry.index;\n\t\t\t\tlet groups = geometry.groups;\n\n\t\t\t\tif ( groups.length === 0 ) {\n\n\t\t\t\t\tgroups = [ { start: 0, count: indices.count, materialIndex: 0 } ];\n\n\t\t\t\t}\n\n\t\t\t\t// create a data structure that contains all edges without duplicates\n\n\t\t\t\tfor ( let o = 0, ol = groups.length; o < ol; ++ o ) {\n\n\t\t\t\t\tconst group = groups[ o ];\n\n\t\t\t\t\tconst groupStart = group.start;\n\t\t\t\t\tconst groupCount = group.count;\n\n\t\t\t\t\tfor ( let i = groupStart, l = ( groupStart + groupCount ); i < l; i += 3 ) {\n\n\t\t\t\t\t\tfor ( let j = 0; j < 3; j ++ ) {\n\n\t\t\t\t\t\t\tconst index1 = indices.getX( i + j );\n\t\t\t\t\t\t\tconst index2 = indices.getX( i + ( j + 1 ) % 3 );\n\n\t\t\t\t\t\t\tstart.fromBufferAttribute( position, index1 );\n\t\t\t\t\t\t\tend.fromBufferAttribute( position, index2 );\n\n\t\t\t\t\t\t\tif ( isUniqueEdge( start, end, edges ) === true ) {\n\n\t\t\t\t\t\t\t\tvertices.push( start.x, start.y, start.z );\n\t\t\t\t\t\t\t\tvertices.push( end.x, end.y, end.z );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// non-indexed BufferGeometry\n\n\t\t\t\tconst position = geometry.attributes.position;\n\n\t\t\t\tfor ( let i = 0, l = ( position.count / 3 ); i < l; i ++ ) {\n\n\t\t\t\t\tfor ( let j = 0; j < 3; j ++ ) {\n\n\t\t\t\t\t\t// three edges per triangle, an edge is represented as (index1, index2)\n\t\t\t\t\t\t// e.g. the first triangle has the following edges: (0,1),(1,2),(2,0)\n\n\t\t\t\t\t\tconst index1 = 3 * i + j;\n\t\t\t\t\t\tconst index2 = 3 * i + ( ( j + 1 ) % 3 );\n\n\t\t\t\t\t\tstart.fromBufferAttribute( position, index1 );\n\t\t\t\t\t\tend.fromBufferAttribute( position, index2 );\n\n\t\t\t\t\t\tif ( isUniqueEdge( start, end, edges ) === true ) {\n\n\t\t\t\t\t\t\tvertices.push( start.x, start.y, start.z );\n\t\t\t\t\t\t\tvertices.push( end.x, end.y, end.z );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// build geometry\n\n\t\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n}\n\nfunction isUniqueEdge( start, end, edges ) {\n\n\tconst hash1 = `${start.x},${start.y},${start.z}-${end.x},${end.y},${end.z}`;\n\tconst hash2 = `${end.x},${end.y},${end.z}-${start.x},${start.y},${start.z}`; // coincident edge\n\n\tif ( edges.has( hash1 ) === true || edges.has( hash2 ) === true ) {\n\n\t\treturn false;\n\n\t} else {\n\n\t\tedges.add( hash1 );\n\t\tedges.add( hash2 );\n\t\treturn true;\n\n\t}\n\n}\n\nvar Geometries = /*#__PURE__*/Object.freeze({\n\t__proto__: null,\n\tBoxGeometry: BoxGeometry,\n\tCapsuleGeometry: CapsuleGeometry,\n\tCircleGeometry: CircleGeometry,\n\tConeGeometry: ConeGeometry,\n\tCylinderGeometry: CylinderGeometry,\n\tDodecahedronGeometry: DodecahedronGeometry,\n\tEdgesGeometry: EdgesGeometry,\n\tExtrudeGeometry: ExtrudeGeometry,\n\tIcosahedronGeometry: IcosahedronGeometry,\n\tLatheGeometry: LatheGeometry,\n\tOctahedronGeometry: OctahedronGeometry,\n\tPlaneGeometry: PlaneGeometry,\n\tPolyhedronGeometry: PolyhedronGeometry,\n\tRingGeometry: RingGeometry,\n\tShapeGeometry: ShapeGeometry,\n\tSphereGeometry: SphereGeometry,\n\tTetrahedronGeometry: TetrahedronGeometry,\n\tTorusGeometry: TorusGeometry,\n\tTorusKnotGeometry: TorusKnotGeometry,\n\tTubeGeometry: TubeGeometry,\n\tWireframeGeometry: WireframeGeometry\n});\n\n/**\n * This material can receive shadows, but otherwise is completely transparent.\n *\n * ```js\n * const geometry = new THREE.PlaneGeometry( 2000, 2000 );\n * geometry.rotateX( - Math.PI / 2 );\n *\n * const material = new THREE.ShadowMaterial();\n * material.opacity = 0.2;\n *\n * const plane = new THREE.Mesh( geometry, material );\n * plane.position.y = -200;\n * plane.receiveShadow = true;\n * scene.add( plane );\n * ```\n *\n * @augments Material\n */\nclass ShadowMaterial extends Material {\n\n\t/**\n\t * Constructs a new shadow material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isShadowMaterial = true;\n\n\t\tthis.type = 'ShadowMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.color = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Overwritten since shadow materials are transparent\n\t\t * by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.transparent = true;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This class works just like {@link ShaderMaterial}, except that definitions\n * of built-in uniforms and attributes are not automatically prepended to the\n * GLSL shader code.\n *\n * `RawShaderMaterial` can only be used with {@link WebGLRenderer}.\n *\n * @augments ShaderMaterial\n */\nclass RawShaderMaterial extends ShaderMaterial {\n\n\t/**\n\t * Constructs a new raw shader material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper( parameters );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRawShaderMaterial = true;\n\n\t\tthis.type = 'RawShaderMaterial';\n\n\t}\n\n}\n\n/**\n * A standard physically based material, using Metallic-Roughness workflow.\n *\n * Physically based rendering (PBR) has recently become the standard in many\n * 3D applications, such as [Unity]{@link https://blogs.unity3d.com/2014/10/29/physically-based-shading-in-unity-5-a-primer/},\n * [Unreal]{@link https://docs.unrealengine.com/latest/INT/Engine/Rendering/Materials/PhysicallyBased/} and\n * [3D Studio Max]{@link http://area.autodesk.com/blogs/the-3ds-max-blog/what039s-new-for-rendering-in-3ds-max-2017}.\n *\n * This approach differs from older approaches in that instead of using\n * approximations for the way in which light interacts with a surface, a\n * physically correct model is used. The idea is that, instead of tweaking\n * materials to look good under specific lighting, a material can be created\n * that will react 'correctly' under all lighting scenarios.\n *\n * In practice this gives a more accurate and realistic looking result than\n * the {@link MeshLambertMaterial} or {@link MeshPhongMaterial}, at the cost of\n * being somewhat more computationally expensive. `MeshStandardMaterial` uses per-fragment\n * shading.\n *\n * Note that for best results you should always specify an environment map when using this material.\n *\n * For a non-technical introduction to the concept of PBR and how to set up a\n * PBR material, check out these articles by the people at [marmoset]{@link https://www.marmoset.co}:\n *\n * - [Basic Theory of Physically Based Rendering]{@link https://www.marmoset.co/posts/basic-theory-of-physically-based-rendering/}\n * - [Physically Based Rendering and You Can Too]{@link https://www.marmoset.co/posts/physically-based-rendering-and-you-can-too/}\n *\n * Technical details of the approach used in three.js (and most other PBR systems) can be found is this\n * [paper from Disney]{@link https://media.disneyanimation.com/uploads/production/publication_asset/48/asset/s2012_pbs_disney_brdf_notes_v3.pdf}\n * (pdf), by Brent Burley.\n *\n * @augments Material\n */\nclass MeshStandardMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh standard material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshStandardMaterial = true;\n\n\t\tthis.type = 'MeshStandardMaterial';\n\n\t\tthis.defines = { 'STANDARD': '' };\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * How rough the material appears. `0.0` means a smooth mirror reflection, `1.0`\n\t\t * means fully diffuse. If `roughnessMap` is also provided,\n\t\t * both values are multiplied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.roughness = 1.0;\n\n\t\t/**\n\t\t * How much the material is like a metal. Non-metallic materials such as wood\n\t\t * or stone use `0.0`, metallic use `1.0`, with nothing (usually) in between.\n\t\t * A value between `0.0` and `1.0` could be used for a rusty metal look.\n\t\t * If `metalnessMap` is also provided, both values are multiplied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.metalness = 0.0;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The green channel of this texture is used to alter the roughness of the\n\t\t * material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.roughnessMap = null;\n\n\t\t/**\n\t\t * The blue channel of this texture is used to alter the metalness of the\n\t\t * material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.metalnessMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map. To ensure a physically correct rendering, environment maps\n\t\t * are internally pre-processed with {@link PMREMGenerator}.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * Scales the effect of the environment map by multiplying its color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.envMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.defines = { 'STANDARD': '' };\n\n\t\tthis.color.copy( source.color );\n\t\tthis.roughness = source.roughness;\n\t\tthis.metalness = source.metalness;\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.roughnessMap = source.roughnessMap;\n\n\t\tthis.metalnessMap = source.metalnessMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.envMapIntensity = source.envMapIntensity;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * An extension of the {@link MeshStandardMaterial}, providing more advanced\n * physically-based rendering properties:\n *\n * - Anisotropy: Ability to represent the anisotropic property of materials\n * as observable with brushed metals.\n * - Clearcoat: Some materials — like car paints, carbon fiber, and wet surfaces — require\n * a clear, reflective layer on top of another layer that may be irregular or rough.\n * Clearcoat approximates this effect, without the need for a separate transparent surface.\n * - Iridescence: Allows to render the effect where hue varies depending on the viewing\n * angle and illumination angle. This can be seen on soap bubbles, oil films, or on the\n * wings of many insects.\n * - Physically-based transparency: One limitation of {@link Material#opacity} is that highly\n * transparent materials are less reflective. Physically-based transmission provides a more\n * realistic option for thin, transparent surfaces like glass.\n * - Advanced reflectivity: More flexible reflectivity for non-metallic materials.\n * - Sheen: Can be used for representing cloth and fabric materials.\n *\n * As a result of these complex shading features, `MeshPhysicalMaterial` has a\n * higher performance cost, per pixel, than other three.js materials. Most\n * effects are disabled by default, and add cost as they are enabled. For\n * best results, always specify an environment map when using this material.\n *\n * @augments MeshStandardMaterial\n */\nclass MeshPhysicalMaterial extends MeshStandardMaterial {\n\n\t/**\n\t * Constructs a new mesh physical material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshPhysicalMaterial = true;\n\n\t\tthis.defines = {\n\n\t\t\t'STANDARD': '',\n\t\t\t'PHYSICAL': ''\n\n\t\t};\n\n\t\tthis.type = 'MeshPhysicalMaterial';\n\n\t\t/**\n\t\t * The rotation of the anisotropy in tangent, bitangent space, measured in radians\n\t\t * counter-clockwise from the tangent. When `anisotropyMap` is present, this\n\t\t * property provides additional rotation to the vectors in the texture.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.anisotropyRotation = 0;\n\n\t\t/**\n\t\t * Red and green channels represent the anisotropy direction in `[-1, 1]` tangent,\n\t\t * bitangent space, to be rotated by `anisotropyRotation`. The blue channel\n\t\t * contains strength as `[0, 1]` to be multiplied by `anisotropy`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.anisotropyMap = null;\n\n\t\t/**\n\t\t * The red channel of this texture is multiplied against `clearcoat`,\n\t\t * for per-pixel control over a coating's intensity.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.clearcoatMap = null;\n\n\t\t/**\n\t\t * Roughness of the clear coat layer, from `0.0` to `1.0`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.clearcoatRoughness = 0.0;\n\n\t\t/**\n\t\t * The green channel of this texture is multiplied against\n\t\t * `clearcoatRoughness`, for per-pixel control over a coating's roughness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.clearcoatRoughnessMap = null;\n\n\t\t/**\n\t\t * How much `clearcoatNormalMap` affects the clear coat layer, from\n\t\t * `(0,0)` to `(1,1)`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.clearcoatNormalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * Can be used to enable independent normals for the clear coat layer.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.clearcoatNormalMap = null;\n\n\t\t/**\n\t\t * Index-of-refraction for non-metallic materials, from `1.0` to `2.333`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1.5\n\t\t */\n\t\tthis.ior = 1.5;\n\n\t\t/**\n\t\t * Degree of reflectivity, from `0.0` to `1.0`. Default is `0.5`, which\n\t\t * corresponds to an index-of-refraction of `1.5`.\n\t\t *\n\t\t * This models the reflectivity of non-metallic materials. It has no effect\n\t\t * when `metalness` is `1.0`\n\t\t *\n\t\t * @name MeshPhysicalMaterial#reflectivity\n\t\t * @type {number}\n\t\t * @default 0.5\n\t\t */\n\t\tObject.defineProperty( this, 'reflectivity', {\n\t\t\tget: function () {\n\n\t\t\t\treturn ( clamp( 2.5 * ( this.ior - 1 ) / ( this.ior + 1 ), 0, 1 ) );\n\n\t\t\t},\n\t\t\tset: function ( reflectivity ) {\n\n\t\t\t\tthis.ior = ( 1 + 0.4 * reflectivity ) / ( 1 - 0.4 * reflectivity );\n\n\t\t\t}\n\t\t} );\n\n\t\t/**\n\t\t * The red channel of this texture is multiplied against `iridescence`, for per-pixel\n\t\t * control over iridescence.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.iridescenceMap = null;\n\n\t\t/**\n\t\t * Strength of the iridescence RGB color shift effect, represented by an index-of-refraction.\n\t\t * Between `1.0` to `2.333`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1.3\n\t\t */\n\t\tthis.iridescenceIOR = 1.3;\n\n\t\t/**\n\t\t *Array of exactly 2 elements, specifying minimum and maximum thickness of the iridescence layer.\n\t\t Thickness of iridescence layer has an equivalent effect of the one `thickness` has on `ior`.\n\t\t *\n\t\t * @type {Array}\n\t\t * @default [100,400]\n\t\t */\n\t\tthis.iridescenceThicknessRange = [ 100, 400 ];\n\n\t\t/**\n\t\t * A texture that defines the thickness of the iridescence layer, stored in the green channel.\n\t\t * Minimum and maximum values of thickness are defined by `iridescenceThicknessRange` array:\n\t\t * - `0.0` in the green channel will result in thickness equal to first element of the array.\n\t\t * - `1.0` in the green channel will result in thickness equal to second element of the array.\n\t\t * - Values in-between will linearly interpolate between the elements of the array.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.iridescenceThicknessMap = null;\n\n\t\t/**\n\t\t * The sheen tint.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.sheenColor = new Color( 0x000000 );\n\n\t\t/**\n\t\t * The RGB channels of this texture are multiplied against `sheenColor`, for per-pixel control\n\t\t * over sheen tint.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.sheenColorMap = null;\n\n\t\t/**\n\t\t * Roughness of the sheen layer, from `0.0` to `1.0`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.sheenRoughness = 1.0;\n\n\t\t/**\n\t\t * The alpha channel of this texture is multiplied against `sheenRoughness`, for per-pixel control\n\t\t * over sheen roughness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.sheenRoughnessMap = null;\n\n\t\t/**\n\t\t * The red channel of this texture is multiplied against `transmission`, for per-pixel control over\n\t\t * optical transparency.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.transmissionMap = null;\n\n\t\t/**\n\t\t * The thickness of the volume beneath the surface. The value is given in the\n\t\t * coordinate space of the mesh. If the value is `0` the material is\n\t\t * thin-walled. Otherwise the material is a volume boundary.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.thickness = 0;\n\n\t\t/**\n\t\t * A texture that defines the thickness, stored in the green channel. This will\n\t\t * be multiplied by `thickness`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.thicknessMap = null;\n\n\t\t/**\n\t\t * Density of the medium given as the average distance that light travels in\n\t\t * the medium before interacting with a particle. The value is given in world\n\t\t * space units, and must be greater than zero.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.attenuationDistance = Infinity;\n\n\t\t/**\n\t\t * The color that white light turns into due to absorption when reaching the\n\t\t * attenuation distance.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.attenuationColor = new Color( 1, 1, 1 );\n\n\t\t/**\n\t\t * A float that scales the amount of specular reflection for non-metals only.\n\t\t * When set to zero, the model is effectively Lambertian. From `0.0` to `1.0`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.specularIntensity = 1.0;\n\n\t\t/**\n\t\t * The alpha channel of this texture is multiplied against `specularIntensity`,\n\t\t * for per-pixel control over specular intensity.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularIntensityMap = null;\n\n\t\t/**\n\t\t * Tints the specular reflection at normal incidence for non-metals only.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.specularColor = new Color( 1, 1, 1 );\n\n\t\t/**\n\t\t * The RGB channels of this texture are multiplied against `specularColor`,\n\t\t * for per-pixel control over specular color.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularColorMap = null;\n\n\t\tthis._anisotropy = 0;\n\t\tthis._clearcoat = 0;\n\t\tthis._dispersion = 0;\n\t\tthis._iridescence = 0;\n\t\tthis._sheen = 0.0;\n\t\tthis._transmission = 0;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\t/**\n\t * The anisotropy strength.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget anisotropy() {\n\n\t\treturn this._anisotropy;\n\n\t}\n\n\tset anisotropy( value ) {\n\n\t\tif ( this._anisotropy > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._anisotropy = value;\n\n\t}\n\n\t/**\n\t * Represents the intensity of the clear coat layer, from `0.0` to `1.0`. Use\n\t * clear coat related properties to enable multilayer materials that have a\n\t * thin translucent layer over the base layer.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget clearcoat() {\n\n\t\treturn this._clearcoat;\n\n\t}\n\n\tset clearcoat( value ) {\n\n\t\tif ( this._clearcoat > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._clearcoat = value;\n\n\t}\n\t/**\n\t * The intensity of the iridescence layer, simulating RGB color shift based on the angle between\n\t * the surface and the viewer, from `0.0` to `1.0`.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget iridescence() {\n\n\t\treturn this._iridescence;\n\n\t}\n\n\tset iridescence( value ) {\n\n\t\tif ( this._iridescence > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._iridescence = value;\n\n\t}\n\n\t/**\n\t * Defines the strength of the angular separation of colors (chromatic aberration) transmitting\n\t * through a relatively clear volume. Any value zero or larger is valid, the typical range of\n\t * realistic values is `[0, 1]`. This property can be only be used with transmissive objects.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget dispersion() {\n\n\t\treturn this._dispersion;\n\n\t}\n\n\tset dispersion( value ) {\n\n\t\tif ( this._dispersion > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._dispersion = value;\n\n\t}\n\n\t/**\n\t * The intensity of the sheen layer, from `0.0` to `1.0`.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget sheen() {\n\n\t\treturn this._sheen;\n\n\t}\n\n\tset sheen( value ) {\n\n\t\tif ( this._sheen > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._sheen = value;\n\n\t}\n\n\t/**\n\t * Degree of transmission (or optical transparency), from `0.0` to `1.0`.\n\t *\n\t * Thin, transparent or semitransparent, plastic or glass materials remain\n\t * largely reflective even if they are fully transmissive. The transmission\n\t * property can be used to model these materials.\n\t *\n\t * When transmission is non-zero, `opacity` should be set to `1`.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget transmission() {\n\n\t\treturn this._transmission;\n\n\t}\n\n\tset transmission( value ) {\n\n\t\tif ( this._transmission > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._transmission = value;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.defines = {\n\n\t\t\t'STANDARD': '',\n\t\t\t'PHYSICAL': ''\n\n\t\t};\n\n\t\tthis.anisotropy = source.anisotropy;\n\t\tthis.anisotropyRotation = source.anisotropyRotation;\n\t\tthis.anisotropyMap = source.anisotropyMap;\n\n\t\tthis.clearcoat = source.clearcoat;\n\t\tthis.clearcoatMap = source.clearcoatMap;\n\t\tthis.clearcoatRoughness = source.clearcoatRoughness;\n\t\tthis.clearcoatRoughnessMap = source.clearcoatRoughnessMap;\n\t\tthis.clearcoatNormalMap = source.clearcoatNormalMap;\n\t\tthis.clearcoatNormalScale.copy( source.clearcoatNormalScale );\n\n\t\tthis.dispersion = source.dispersion;\n\t\tthis.ior = source.ior;\n\n\t\tthis.iridescence = source.iridescence;\n\t\tthis.iridescenceMap = source.iridescenceMap;\n\t\tthis.iridescenceIOR = source.iridescenceIOR;\n\t\tthis.iridescenceThicknessRange = [ ...source.iridescenceThicknessRange ];\n\t\tthis.iridescenceThicknessMap = source.iridescenceThicknessMap;\n\n\t\tthis.sheen = source.sheen;\n\t\tthis.sheenColor.copy( source.sheenColor );\n\t\tthis.sheenColorMap = source.sheenColorMap;\n\t\tthis.sheenRoughness = source.sheenRoughness;\n\t\tthis.sheenRoughnessMap = source.sheenRoughnessMap;\n\n\t\tthis.transmission = source.transmission;\n\t\tthis.transmissionMap = source.transmissionMap;\n\n\t\tthis.thickness = source.thickness;\n\t\tthis.thicknessMap = source.thicknessMap;\n\t\tthis.attenuationDistance = source.attenuationDistance;\n\t\tthis.attenuationColor.copy( source.attenuationColor );\n\n\t\tthis.specularIntensity = source.specularIntensity;\n\t\tthis.specularIntensityMap = source.specularIntensityMap;\n\t\tthis.specularColor.copy( source.specularColor );\n\t\tthis.specularColorMap = source.specularColorMap;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for shiny surfaces with specular highlights.\n *\n * The material uses a non-physically based [Blinn-Phong]{@link https://en.wikipedia.org/wiki/Blinn-Phong_shading_model}\n * model for calculating reflectance. Unlike the Lambertian model used in the\n * {@link MeshLambertMaterial} this can simulate shiny surfaces with specular\n * highlights (such as varnished wood). `MeshPhongMaterial` uses per-fragment shading.\n *\n * Performance will generally be greater when using this material over the\n * {@link MeshStandardMaterial} or {@link MeshPhysicalMaterial}, at the cost of\n * some graphical accuracy.\n *\n * @augments Material\n */\nclass MeshPhongMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh phong material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshPhongMaterial = true;\n\n\t\tthis.type = 'MeshPhongMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * Specular color of the material. The default color is set to `0x111111` (very dark grey)\n\t\t *\n\t\t * This defines how shiny the material is and the color of its shine.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.specular = new Color( 0x111111 );\n\n\t\t/**\n\t\t * How shiny the specular highlight is; a higher value gives a sharper highlight.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 30\n\t\t */\n\t\tthis.shininess = 30;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The specular map value affects both how much the specular surface\n\t\t * highlight contributes and how much of the environment map affects the\n\t\t * surface.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * How to combine the result of the surface's color with the environment map, if any.\n\t\t *\n\t\t * When set to `MixOperation`, the {@link MeshBasicMaterial#reflectivity} is used to\n\t\t * blend between the two colors.\n\t\t *\n\t\t * @type {(MultiplyOperation|MixOperation|AddOperation)}\n\t\t * @default MultiplyOperation\n\t\t */\n\t\tthis.combine = MultiplyOperation;\n\n\t\t/**\n\t\t * How much the environment map affects the surface.\n\t\t * The valid range is between `0` (no reflections) and `1` (full reflections).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.reflectivity = 1;\n\n\t\t/**\n\t\t * The index of refraction (IOR) of air (approximately 1) divided by the\n\t\t * index of refraction of the material. It is used with environment mapping\n\t\t * modes {@link CubeRefractionMapping} and {@link EquirectangularRefractionMapping}.\n\t\t * The refraction ratio should not exceed `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.98\n\t\t */\n\t\tthis.refractionRatio = 0.98;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\t\tthis.specular.copy( source.specular );\n\t\tthis.shininess = source.shininess;\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.specularMap = source.specularMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.combine = source.combine;\n\t\tthis.reflectivity = source.reflectivity;\n\t\tthis.refractionRatio = source.refractionRatio;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material implementing toon shading.\n *\n * @augments Material\n */\nclass MeshToonMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh toon material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshToonMaterial = true;\n\n\t\tthis.defines = { 'TOON': '' };\n\n\t\tthis.type = 'MeshToonMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * Gradient map for toon shading. It's required to set\n\t\t * {@link Texture#minFilter} and {@link Texture#magFilter} to {@linkNearestFilter}\n\t\t * when using this type of texture.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.gradientMap = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\t\tthis.gradientMap = source.gradientMap;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material that maps the normal vectors to RGB colors.\n *\n * @augments Material\n */\nclass MeshNormalMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh normal material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshNormalMaterial = true;\n\n\t\tthis.type = 'MeshNormalMaterial';\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * WebGL and WebGPU ignore this property and always render\n\t\t * 1 pixel wide lines.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for non-shiny surfaces, without specular highlights.\n *\n * The material uses a non-physically based [Lambertian]{@link https://en.wikipedia.org/wiki/Lambertian_reflectance}\n * model for calculating reflectance. This can simulate some surfaces (such\n * as untreated wood or stone) well, but cannot simulate shiny surfaces with\n * specular highlights (such as varnished wood). `MeshLambertMaterial` uses per-fragment\n * shading.\n *\n * Due to the simplicity of the reflectance and illumination models,\n * performance will be greater when using this material over the\n * {@link MeshPhongMaterial}, {@link MeshStandardMaterial} or\n * {@link MeshPhysicalMaterial}, at the cost of some graphical accuracy.\n *\n * @augments Material\n */\nclass MeshLambertMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh lambert material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshLambertMaterial = true;\n\n\t\tthis.type = 'MeshLambertMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * Specular map used by the material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * How to combine the result of the surface's color with the environment map, if any.\n\t\t *\n\t\t * When set to `MixOperation`, the {@link MeshBasicMaterial#reflectivity} is used to\n\t\t * blend between the two colors.\n\t\t *\n\t\t * @type {(MultiplyOperation|MixOperation|AddOperation)}\n\t\t * @default MultiplyOperation\n\t\t */\n\t\tthis.combine = MultiplyOperation;\n\n\t\t/**\n\t\t * How much the environment map affects the surface.\n\t\t * The valid range is between `0` (no reflections) and `1` (full reflections).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.reflectivity = 1;\n\n\t\t/**\n\t\t * The index of refraction (IOR) of air (approximately 1) divided by the\n\t\t * index of refraction of the material. It is used with environment mapping\n\t\t * modes {@link CubeRefractionMapping} and {@link EquirectangularRefractionMapping}.\n\t\t * The refraction ratio should not exceed `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.98\n\t\t */\n\t\tthis.refractionRatio = 0.98;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.specularMap = source.specularMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.combine = source.combine;\n\t\tthis.reflectivity = source.reflectivity;\n\t\tthis.refractionRatio = source.refractionRatio;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for drawing geometry by depth. Depth is based off of the camera\n * near and far plane. White is nearest, black is farthest.\n *\n * @augments Material\n */\nclass MeshDepthMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh depth material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshDepthMaterial = true;\n\n\t\tthis.type = 'MeshDepthMaterial';\n\n\t\t/**\n\t\t * Type for depth packing.\n\t\t *\n\t\t * @type {(BasicDepthPacking|RGBADepthPacking|RGBDepthPacking|RGDepthPacking)}\n\t\t * @default BasicDepthPacking\n\t\t */\n\t\tthis.depthPacking = BasicDepthPacking;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * WebGL and WebGPU ignore this property and always render\n\t\t * 1 pixel wide lines.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.depthPacking = source.depthPacking;\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material used internally for implementing shadow mapping with\n * point lights.\n *\n * Can also be used to customize the shadow casting of an object by assigning\n * an instance of `MeshDistanceMaterial` to {@link Object3D#customDistanceMaterial}.\n * The following examples demonstrates this approach in order to ensure\n * transparent parts of objects do not cast shadows.\n *\n * @augments Material\n */\nclass MeshDistanceMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh distance material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshDistanceMaterial = true;\n\n\t\tthis.type = 'MeshDistanceMaterial';\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This material is defined by a MatCap (or Lit Sphere) texture, which encodes the\n * material color and shading.\n *\n * `MeshMatcapMaterial` does not respond to lights since the matcap image file encodes\n * baked lighting. It will cast a shadow onto an object that receives shadows\n * (and shadow clipping works), but it will not self-shadow or receive\n * shadows.\n *\n * @augments Material\n */\nclass MeshMatcapMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh matcap material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshMatcapMaterial = true;\n\n\t\tthis.defines = { 'MATCAP': '' };\n\n\t\tthis.type = 'MeshMatcapMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * The matcap map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.matcap = null;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.defines = { 'MATCAP': '' };\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.matcap = source.matcap;\n\n\t\tthis.map = source.map;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for rendering line primitives.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * ```js\n * const material = new THREE.LineDashedMaterial( {\n * \tcolor: 0xffffff,\n * \tscale: 1,\n * \tdashSize: 3,\n * \tgapSize: 1,\n * } );\n * ```\n *\n * @augments LineBasicMaterial\n */\nclass LineDashedMaterial extends LineBasicMaterial {\n\n\t/**\n\t * Constructs a new line dashed material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineDashedMaterial = true;\n\t\tthis.type = 'LineDashedMaterial';\n\n\t\t/**\n\t\t * The scale of the dashed part of a line.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.scale = 1;\n\n\t\t/**\n\t\t * The size of the dash. This is both the gap with the stroke.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 3\n\t\t */\n\t\tthis.dashSize = 3;\n\n\t\t/**\n\t\t * The size of the gap.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.gapSize = 1;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.scale = source.scale;\n\t\tthis.dashSize = source.dashSize;\n\t\tthis.gapSize = source.gapSize;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Converts an array to a specific type.\n *\n * @param {TypedArray|Array} array - The array to convert.\n * @param {TypedArray.constructor} type - The constructor of a typed array that defines the new type.\n * @return {TypedArray} The converted array.\n */\nfunction convertArray( array, type ) {\n\n\tif ( ! array || array.constructor === type ) return array;\n\n\tif ( typeof type.BYTES_PER_ELEMENT === 'number' ) {\n\n\t\treturn new type( array ); // create typed array\n\n\t}\n\n\treturn Array.prototype.slice.call( array ); // create Array\n\n}\n\n/**\n * Returns `true` if the given object is a typed array.\n *\n * @param {any} object - The object to check.\n * @return {boolean} Whether the given object is a typed array.\n */\nfunction isTypedArray( object ) {\n\n\treturn ArrayBuffer.isView( object ) && ! ( object instanceof DataView );\n\n}\n\n/**\n * Returns an array by which times and values can be sorted.\n *\n * @param {Array} times - The keyframe time values.\n * @return {Array} The array.\n */\nfunction getKeyframeOrder( times ) {\n\n\tfunction compareTime( i, j ) {\n\n\t\treturn times[ i ] - times[ j ];\n\n\t}\n\n\tconst n = times.length;\n\tconst result = new Array( n );\n\tfor ( let i = 0; i !== n; ++ i ) result[ i ] = i;\n\n\tresult.sort( compareTime );\n\n\treturn result;\n\n}\n\n/**\n * Sorts the given array by the previously computed order via `getKeyframeOrder()`.\n *\n * @param {Array} values - The values to sort.\n * @param {number} stride - The stride.\n * @param {Array} order - The sort order.\n * @return {Array} The sorted values.\n */\nfunction sortedArray( values, stride, order ) {\n\n\tconst nValues = values.length;\n\tconst result = new values.constructor( nValues );\n\n\tfor ( let i = 0, dstOffset = 0; dstOffset !== nValues; ++ i ) {\n\n\t\tconst srcOffset = order[ i ] * stride;\n\n\t\tfor ( let j = 0; j !== stride; ++ j ) {\n\n\t\t\tresult[ dstOffset ++ ] = values[ srcOffset + j ];\n\n\t\t}\n\n\t}\n\n\treturn result;\n\n}\n\n/**\n * Used for parsing AOS keyframe formats.\n *\n * @param {Array} jsonKeys - A list of JSON keyframes.\n * @param {Array} times - This array will be filled with keyframe times by this function.\n * @param {Array} values - This array will be filled with keyframe values by this function.\n * @param {string} valuePropertyName - The name of the property to use.\n */\nfunction flattenJSON( jsonKeys, times, values, valuePropertyName ) {\n\n\tlet i = 1, key = jsonKeys[ 0 ];\n\n\twhile ( key !== undefined && key[ valuePropertyName ] === undefined ) {\n\n\t\tkey = jsonKeys[ i ++ ];\n\n\t}\n\n\tif ( key === undefined ) return; // no data\n\n\tlet value = key[ valuePropertyName ];\n\tif ( value === undefined ) return; // no data\n\n\tif ( Array.isArray( value ) ) {\n\n\t\tdo {\n\n\t\t\tvalue = key[ valuePropertyName ];\n\n\t\t\tif ( value !== undefined ) {\n\n\t\t\t\ttimes.push( key.time );\n\t\t\t\tvalues.push( ...value ); // push all elements\n\n\t\t\t}\n\n\t\t\tkey = jsonKeys[ i ++ ];\n\n\t\t} while ( key !== undefined );\n\n\t} else if ( value.toArray !== undefined ) {\n\n\t\t// ...assume THREE.Math-ish\n\n\t\tdo {\n\n\t\t\tvalue = key[ valuePropertyName ];\n\n\t\t\tif ( value !== undefined ) {\n\n\t\t\t\ttimes.push( key.time );\n\t\t\t\tvalue.toArray( values, values.length );\n\n\t\t\t}\n\n\t\t\tkey = jsonKeys[ i ++ ];\n\n\t\t} while ( key !== undefined );\n\n\t} else {\n\n\t\t// otherwise push as-is\n\n\t\tdo {\n\n\t\t\tvalue = key[ valuePropertyName ];\n\n\t\t\tif ( value !== undefined ) {\n\n\t\t\t\ttimes.push( key.time );\n\t\t\t\tvalues.push( value );\n\n\t\t\t}\n\n\t\t\tkey = jsonKeys[ i ++ ];\n\n\t\t} while ( key !== undefined );\n\n\t}\n\n}\n\n/**\n * Creates a new clip, containing only the segment of the original clip between the given frames.\n *\n * @param {AnimationClip} sourceClip - The values to sort.\n * @param {string} name - The name of the clip.\n * @param {number} startFrame - The start frame.\n * @param {number} endFrame - The end frame.\n * @param {number} [fps=30] - The FPS.\n * @return {AnimationClip} The new sub clip.\n */\nfunction subclip( sourceClip, name, startFrame, endFrame, fps = 30 ) {\n\n\tconst clip = sourceClip.clone();\n\n\tclip.name = name;\n\n\tconst tracks = [];\n\n\tfor ( let i = 0; i < clip.tracks.length; ++ i ) {\n\n\t\tconst track = clip.tracks[ i ];\n\t\tconst valueSize = track.getValueSize();\n\n\t\tconst times = [];\n\t\tconst values = [];\n\n\t\tfor ( let j = 0; j < track.times.length; ++ j ) {\n\n\t\t\tconst frame = track.times[ j ] * fps;\n\n\t\t\tif ( frame < startFrame || frame >= endFrame ) continue;\n\n\t\t\ttimes.push( track.times[ j ] );\n\n\t\t\tfor ( let k = 0; k < valueSize; ++ k ) {\n\n\t\t\t\tvalues.push( track.values[ j * valueSize + k ] );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( times.length === 0 ) continue;\n\n\t\ttrack.times = convertArray( times, track.times.constructor );\n\t\ttrack.values = convertArray( values, track.values.constructor );\n\n\t\ttracks.push( track );\n\n\t}\n\n\tclip.tracks = tracks;\n\n\t// find minimum .times value across all tracks in the trimmed clip\n\n\tlet minStartTime = Infinity;\n\n\tfor ( let i = 0; i < clip.tracks.length; ++ i ) {\n\n\t\tif ( minStartTime > clip.tracks[ i ].times[ 0 ] ) {\n\n\t\t\tminStartTime = clip.tracks[ i ].times[ 0 ];\n\n\t\t}\n\n\t}\n\n\t// shift all tracks such that clip begins at t=0\n\n\tfor ( let i = 0; i < clip.tracks.length; ++ i ) {\n\n\t\tclip.tracks[ i ].shift( -1 * minStartTime );\n\n\t}\n\n\tclip.resetDuration();\n\n\treturn clip;\n\n}\n\n/**\n * Converts the keyframes of the given animation clip to an additive format.\n *\n * @param {AnimationClip} targetClip - The clip to make additive.\n * @param {number} [referenceFrame=0] - The reference frame.\n * @param {AnimationClip} [referenceClip=targetClip] - The reference clip.\n * @param {number} [fps=30] - The FPS.\n * @return {AnimationClip} The updated clip which is now additive.\n */\nfunction makeClipAdditive( targetClip, referenceFrame = 0, referenceClip = targetClip, fps = 30 ) {\n\n\tif ( fps <= 0 ) fps = 30;\n\n\tconst numTracks = referenceClip.tracks.length;\n\tconst referenceTime = referenceFrame / fps;\n\n\t// Make each track's values relative to the values at the reference frame\n\tfor ( let i = 0; i < numTracks; ++ i ) {\n\n\t\tconst referenceTrack = referenceClip.tracks[ i ];\n\t\tconst referenceTrackType = referenceTrack.ValueTypeName;\n\n\t\t// Skip this track if it's non-numeric\n\t\tif ( referenceTrackType === 'bool' || referenceTrackType === 'string' ) continue;\n\n\t\t// Find the track in the target clip whose name and type matches the reference track\n\t\tconst targetTrack = targetClip.tracks.find( function ( track ) {\n\n\t\t\treturn track.name === referenceTrack.name\n\t\t\t\t&& track.ValueTypeName === referenceTrackType;\n\n\t\t} );\n\n\t\tif ( targetTrack === undefined ) continue;\n\n\t\tlet referenceOffset = 0;\n\t\tconst referenceValueSize = referenceTrack.getValueSize();\n\n\t\tif ( referenceTrack.createInterpolant.isInterpolantFactoryMethodGLTFCubicSpline ) {\n\n\t\t\treferenceOffset = referenceValueSize / 3;\n\n\t\t}\n\n\t\tlet targetOffset = 0;\n\t\tconst targetValueSize = targetTrack.getValueSize();\n\n\t\tif ( targetTrack.createInterpolant.isInterpolantFactoryMethodGLTFCubicSpline ) {\n\n\t\t\ttargetOffset = targetValueSize / 3;\n\n\t\t}\n\n\t\tconst lastIndex = referenceTrack.times.length - 1;\n\t\tlet referenceValue;\n\n\t\t// Find the value to subtract out of the track\n\t\tif ( referenceTime <= referenceTrack.times[ 0 ] ) {\n\n\t\t\t// Reference frame is earlier than the first keyframe, so just use the first keyframe\n\t\t\tconst startIndex = referenceOffset;\n\t\t\tconst endIndex = referenceValueSize - referenceOffset;\n\t\t\treferenceValue = referenceTrack.values.slice( startIndex, endIndex );\n\n\t\t} else if ( referenceTime >= referenceTrack.times[ lastIndex ] ) {\n\n\t\t\t// Reference frame is after the last keyframe, so just use the last keyframe\n\t\t\tconst startIndex = lastIndex * referenceValueSize + referenceOffset;\n\t\t\tconst endIndex = startIndex + referenceValueSize - referenceOffset;\n\t\t\treferenceValue = referenceTrack.values.slice( startIndex, endIndex );\n\n\t\t} else {\n\n\t\t\t// Interpolate to the reference value\n\t\t\tconst interpolant = referenceTrack.createInterpolant();\n\t\t\tconst startIndex = referenceOffset;\n\t\t\tconst endIndex = referenceValueSize - referenceOffset;\n\t\t\tinterpolant.evaluate( referenceTime );\n\t\t\treferenceValue = interpolant.resultBuffer.slice( startIndex, endIndex );\n\n\t\t}\n\n\t\t// Conjugate the quaternion\n\t\tif ( referenceTrackType === 'quaternion' ) {\n\n\t\t\tconst referenceQuat = new Quaternion().fromArray( referenceValue ).normalize().conjugate();\n\t\t\treferenceQuat.toArray( referenceValue );\n\n\t\t}\n\n\t\t// Subtract the reference value from all of the track values\n\n\t\tconst numTimes = targetTrack.times.length;\n\t\tfor ( let j = 0; j < numTimes; ++ j ) {\n\n\t\t\tconst valueStart = j * targetValueSize + targetOffset;\n\n\t\t\tif ( referenceTrackType === 'quaternion' ) {\n\n\t\t\t\t// Multiply the conjugate for quaternion track types\n\t\t\t\tQuaternion.multiplyQuaternionsFlat(\n\t\t\t\t\ttargetTrack.values,\n\t\t\t\t\tvalueStart,\n\t\t\t\t\treferenceValue,\n\t\t\t\t\t0,\n\t\t\t\t\ttargetTrack.values,\n\t\t\t\t\tvalueStart\n\t\t\t\t);\n\n\t\t\t} else {\n\n\t\t\t\tconst valueEnd = targetValueSize - targetOffset * 2;\n\n\t\t\t\t// Subtract each value for all other numeric track types\n\t\t\t\tfor ( let k = 0; k < valueEnd; ++ k ) {\n\n\t\t\t\t\ttargetTrack.values[ valueStart + k ] -= referenceValue[ k ];\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\ttargetClip.blendMode = AdditiveAnimationBlendMode;\n\n\treturn targetClip;\n\n}\n\n/**\n * A class with various methods to assist with animations.\n *\n * @hideconstructor\n */\nclass AnimationUtils {\n\n\t/**\n\t * Converts an array to a specific type\n\t *\n\t * @static\n\t * @param {TypedArray|Array} array - The array to convert.\n\t * @param {TypedArray.constructor} type - The constructor of a type array.\n\t * @return {TypedArray} The converted array\n\t */\n\tstatic convertArray( array, type ) {\n\n\t\treturn convertArray( array, type );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given object is a typed array.\n\t *\n\t * @static\n\t * @param {any} object - The object to check.\n\t * @return {boolean} Whether the given object is a typed array.\n\t */\n\tstatic isTypedArray( object ) {\n\n\t\treturn isTypedArray( object );\n\n\t}\n\n\t/**\n\t * Returns an array by which times and values can be sorted.\n\t *\n\t * @static\n\t * @param {Array} times - The keyframe time values.\n\t * @return {Array} The array.\n\t */\n\tstatic getKeyframeOrder( times ) {\n\n\t\treturn getKeyframeOrder( times );\n\n\t}\n\n\t/**\n\t * Sorts the given array by the previously computed order via `getKeyframeOrder()`.\n\t *\n\t * @static\n\t * @param {Array} values - The values to sort.\n\t * @param {number} stride - The stride.\n\t * @param {Array} order - The sort order.\n\t * @return {Array} The sorted values.\n\t */\n\tstatic sortedArray( values, stride, order ) {\n\n\t\treturn sortedArray( values, stride, order );\n\n\t}\n\n\t/**\n\t * Used for parsing AOS keyframe formats.\n\t *\n\t * @static\n\t * @param {Array} jsonKeys - A list of JSON keyframes.\n\t * @param {Array} times - This array will be filled with keyframe times by this method.\n\t * @param {Array} values - This array will be filled with keyframe values by this method.\n\t * @param {string} valuePropertyName - The name of the property to use.\n\t */\n\tstatic flattenJSON( jsonKeys, times, values, valuePropertyName ) {\n\n\t\tflattenJSON( jsonKeys, times, values, valuePropertyName );\n\n\t}\n\n\t/**\n\t * Creates a new clip, containing only the segment of the original clip between the given frames.\n\t *\n\t * @static\n\t * @param {AnimationClip} sourceClip - The values to sort.\n\t * @param {string} name - The name of the clip.\n\t * @param {number} startFrame - The start frame.\n\t * @param {number} endFrame - The end frame.\n\t * @param {number} [fps=30] - The FPS.\n\t * @return {AnimationClip} The new sub clip.\n\t */\n\tstatic subclip( sourceClip, name, startFrame, endFrame, fps = 30 ) {\n\n\t\treturn subclip( sourceClip, name, startFrame, endFrame, fps );\n\n\t}\n\n\t/**\n\t * Converts the keyframes of the given animation clip to an additive format.\n\t *\n\t * @static\n\t * @param {AnimationClip} targetClip - The clip to make additive.\n\t * @param {number} [referenceFrame=0] - The reference frame.\n\t * @param {AnimationClip} [referenceClip=targetClip] - The reference clip.\n\t * @param {number} [fps=30] - The FPS.\n\t * @return {AnimationClip} The updated clip which is now additive.\n\t */\n\tstatic makeClipAdditive( targetClip, referenceFrame = 0, referenceClip = targetClip, fps = 30 ) {\n\n\t\treturn makeClipAdditive( targetClip, referenceFrame, referenceClip, fps );\n\n\t}\n\n}\n\n/**\n * Abstract base class of interpolants over parametric samples.\n *\n * The parameter domain is one dimensional, typically the time or a path\n * along a curve defined by the data.\n *\n * The sample values can have any dimensionality and derived classes may\n * apply special interpretations to the data.\n *\n * This class provides the interval seek in a Template Method, deferring\n * the actual interpolation to derived classes.\n *\n * Time complexity is O(1) for linear access crossing at most two points\n * and O(log N) for random access, where N is the number of positions.\n *\n * References: {@link http://www.oodesign.com/template-method-pattern.html}\n *\n * @abstract\n */\nclass Interpolant {\n\n\t/**\n\t * Constructs a new interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\t/**\n\t\t * The parameter positions.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.parameterPositions = parameterPositions;\n\n\t\t/**\n\t\t * A cache index.\n\t\t *\n\t\t * @private\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis._cachedIndex = 0;\n\n\t\t/**\n\t\t * The result buffer.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.resultBuffer = resultBuffer !== undefined ? resultBuffer : new sampleValues.constructor( sampleSize );\n\n\t\t/**\n\t\t * The sample values.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.sampleValues = sampleValues;\n\n\t\t/**\n\t\t * The value size.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.valueSize = sampleSize;\n\n\t\t/**\n\t\t * The interpolation settings.\n\t\t *\n\t\t * @type {?Object}\n\t\t * @default null\n\t\t */\n\t\tthis.settings = null;\n\n\t\t/**\n\t\t * The default settings object.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.DefaultSettings_ = {};\n\n\t}\n\n\t/**\n\t * Evaluate the interpolant at position `t`.\n\t *\n\t * @param {number} t - The interpolation factor.\n\t * @return {TypedArray} The result buffer.\n\t */\n\tevaluate( t ) {\n\n\t\tconst pp = this.parameterPositions;\n\t\tlet i1 = this._cachedIndex,\n\t\t\tt1 = pp[ i1 ],\n\t\t\tt0 = pp[ i1 - 1 ];\n\n\t\tvalidate_interval: {\n\n\t\t\tseek: {\n\n\t\t\t\tlet right;\n\n\t\t\t\tlinear_scan: {\n\n\t\t\t\t\t//- See http://jsperf.com/comparison-to-undefined/3\n\t\t\t\t\t//- slower code:\n\t\t\t\t\t//-\n\t\t\t\t\t//- \t\t\t\tif ( t >= t1 || t1 === undefined ) {\n\t\t\t\t\tforward_scan: if ( ! ( t < t1 ) ) {\n\n\t\t\t\t\t\tfor ( let giveUpAt = i1 + 2; ; ) {\n\n\t\t\t\t\t\t\tif ( t1 === undefined ) {\n\n\t\t\t\t\t\t\t\tif ( t < t0 ) break forward_scan;\n\n\t\t\t\t\t\t\t\t// after end\n\n\t\t\t\t\t\t\t\ti1 = pp.length;\n\t\t\t\t\t\t\t\tthis._cachedIndex = i1;\n\t\t\t\t\t\t\t\treturn this.copySampleValue_( i1 - 1 );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\tif ( i1 === giveUpAt ) break; // this loop\n\n\t\t\t\t\t\t\tt0 = t1;\n\t\t\t\t\t\t\tt1 = pp[ ++ i1 ];\n\n\t\t\t\t\t\t\tif ( t < t1 ) {\n\n\t\t\t\t\t\t\t\t// we have arrived at the sought interval\n\t\t\t\t\t\t\t\tbreak seek;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\t// prepare binary search on the right side of the index\n\t\t\t\t\t\tright = pp.length;\n\t\t\t\t\t\tbreak linear_scan;\n\n\t\t\t\t\t}\n\n\t\t\t\t\t//- slower code:\n\t\t\t\t\t//-\t\t\t\t\tif ( t < t0 || t0 === undefined ) {\n\t\t\t\t\tif ( ! ( t >= t0 ) ) {\n\n\t\t\t\t\t\t// looping?\n\n\t\t\t\t\t\tconst t1global = pp[ 1 ];\n\n\t\t\t\t\t\tif ( t < t1global ) {\n\n\t\t\t\t\t\t\ti1 = 2; // + 1, using the scan for the details\n\t\t\t\t\t\t\tt0 = t1global;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\t// linear reverse scan\n\n\t\t\t\t\t\tfor ( let giveUpAt = i1 - 2; ; ) {\n\n\t\t\t\t\t\t\tif ( t0 === undefined ) {\n\n\t\t\t\t\t\t\t\t// before start\n\n\t\t\t\t\t\t\t\tthis._cachedIndex = 0;\n\t\t\t\t\t\t\t\treturn this.copySampleValue_( 0 );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\tif ( i1 === giveUpAt ) break; // this loop\n\n\t\t\t\t\t\t\tt1 = t0;\n\t\t\t\t\t\t\tt0 = pp[ -- i1 - 1 ];\n\n\t\t\t\t\t\t\tif ( t >= t0 ) {\n\n\t\t\t\t\t\t\t\t// we have arrived at the sought interval\n\t\t\t\t\t\t\t\tbreak seek;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\t// prepare binary search on the left side of the index\n\t\t\t\t\t\tright = i1;\n\t\t\t\t\t\ti1 = 0;\n\t\t\t\t\t\tbreak linear_scan;\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// the interval is valid\n\n\t\t\t\t\tbreak validate_interval;\n\n\t\t\t\t} // linear scan\n\n\t\t\t\t// binary search\n\n\t\t\t\twhile ( i1 < right ) {\n\n\t\t\t\t\tconst mid = ( i1 + right ) >>> 1;\n\n\t\t\t\t\tif ( t < pp[ mid ] ) {\n\n\t\t\t\t\t\tright = mid;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ti1 = mid + 1;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tt1 = pp[ i1 ];\n\t\t\t\tt0 = pp[ i1 - 1 ];\n\n\t\t\t\t// check boundary cases, again\n\n\t\t\t\tif ( t0 === undefined ) {\n\n\t\t\t\t\tthis._cachedIndex = 0;\n\t\t\t\t\treturn this.copySampleValue_( 0 );\n\n\t\t\t\t}\n\n\t\t\t\tif ( t1 === undefined ) {\n\n\t\t\t\t\ti1 = pp.length;\n\t\t\t\t\tthis._cachedIndex = i1;\n\t\t\t\t\treturn this.copySampleValue_( i1 - 1 );\n\n\t\t\t\t}\n\n\t\t\t} // seek\n\n\t\t\tthis._cachedIndex = i1;\n\n\t\t\tthis.intervalChanged_( i1, t0, t1 );\n\n\t\t} // validate_interval\n\n\t\treturn this.interpolate_( i1, t0, t, t1 );\n\n\t}\n\n\t/**\n\t * Returns the interpolation settings.\n\t *\n\t * @return {Object} The interpolation settings.\n\t */\n\tgetSettings_() {\n\n\t\treturn this.settings || this.DefaultSettings_;\n\n\t}\n\n\t/**\n\t * Copies a sample value to the result buffer.\n\t *\n\t * @param {number} index - An index into the sample value buffer.\n\t * @return {TypedArray} The result buffer.\n\t */\n\tcopySampleValue_( index ) {\n\n\t\t// copies a sample value to the result buffer\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\t\t\toffset = index * stride;\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tresult[ i ] = values[ offset + i ];\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n\t/**\n\t * Copies a sample value to the result buffer.\n\t *\n\t * @abstract\n\t * @param {number} i1 - An index into the sample value buffer.\n\t * @param {number} t0 - The previous interpolation factor.\n\t * @param {number} t - The current interpolation factor.\n\t * @param {number} t1 - The next interpolation factor.\n\t * @return {TypedArray} The result buffer.\n\t */\n\tinterpolate_( /* i1, t0, t, t1 */ ) {\n\n\t\tthrow new Error( 'call to abstract method' );\n\t\t// implementations shall return this.resultBuffer\n\n\t}\n\n\t/**\n\t * Optional method that is executed when the interval has changed.\n\t *\n\t * @param {number} i1 - An index into the sample value buffer.\n\t * @param {number} t0 - The previous interpolation factor.\n\t * @param {number} t - The current interpolation factor.\n\t */\n\tintervalChanged_( /* i1, t0, t1 */ ) {\n\n\t\t// empty\n\n\t}\n\n}\n\n/**\n * Fast and simple cubic spline interpolant.\n *\n * It was derived from a Hermitian construction setting the first derivative\n * at each sample position to the linear slope between neighboring positions\n * over their parameter interval.\n *\n * @augments Interpolant\n */\nclass CubicInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new cubic interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t\tthis._weightPrev = -0;\n\t\tthis._offsetPrev = -0;\n\t\tthis._weightNext = -0;\n\t\tthis._offsetNext = -0;\n\n\t\tthis.DefaultSettings_ = {\n\n\t\t\tendingStart: ZeroCurvatureEnding,\n\t\t\tendingEnd: ZeroCurvatureEnding\n\n\t\t};\n\n\t}\n\n\tintervalChanged_( i1, t0, t1 ) {\n\n\t\tconst pp = this.parameterPositions;\n\t\tlet iPrev = i1 - 2,\n\t\t\tiNext = i1 + 1,\n\n\t\t\ttPrev = pp[ iPrev ],\n\t\t\ttNext = pp[ iNext ];\n\n\t\tif ( tPrev === undefined ) {\n\n\t\t\tswitch ( this.getSettings_().endingStart ) {\n\n\t\t\t\tcase ZeroSlopeEnding:\n\n\t\t\t\t\t// f'(t0) = 0\n\t\t\t\t\tiPrev = i1;\n\t\t\t\t\ttPrev = 2 * t0 - t1;\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase WrapAroundEnding:\n\n\t\t\t\t\t// use the other end of the curve\n\t\t\t\t\tiPrev = pp.length - 2;\n\t\t\t\t\ttPrev = t0 + pp[ iPrev ] - pp[ iPrev + 1 ];\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault: // ZeroCurvatureEnding\n\n\t\t\t\t\t// f''(t0) = 0 a.k.a. Natural Spline\n\t\t\t\t\tiPrev = i1;\n\t\t\t\t\ttPrev = t1;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( tNext === undefined ) {\n\n\t\t\tswitch ( this.getSettings_().endingEnd ) {\n\n\t\t\t\tcase ZeroSlopeEnding:\n\n\t\t\t\t\t// f'(tN) = 0\n\t\t\t\t\tiNext = i1;\n\t\t\t\t\ttNext = 2 * t1 - t0;\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase WrapAroundEnding:\n\n\t\t\t\t\t// use the other end of the curve\n\t\t\t\t\tiNext = 1;\n\t\t\t\t\ttNext = t1 + pp[ 1 ] - pp[ 0 ];\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault: // ZeroCurvatureEnding\n\n\t\t\t\t\t// f''(tN) = 0, a.k.a. Natural Spline\n\t\t\t\t\tiNext = i1 - 1;\n\t\t\t\t\ttNext = t0;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst halfDt = ( t1 - t0 ) * 0.5,\n\t\t\tstride = this.valueSize;\n\n\t\tthis._weightPrev = halfDt / ( t0 - tPrev );\n\t\tthis._weightNext = halfDt / ( tNext - t1 );\n\t\tthis._offsetPrev = iPrev * stride;\n\t\tthis._offsetNext = iNext * stride;\n\n\t}\n\n\tinterpolate_( i1, t0, t, t1 ) {\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\n\t\t\to1 = i1 * stride,\t\to0 = o1 - stride,\n\t\t\toP = this._offsetPrev, \toN = this._offsetNext,\n\t\t\twP = this._weightPrev,\twN = this._weightNext,\n\n\t\t\tp = ( t - t0 ) / ( t1 - t0 ),\n\t\t\tpp = p * p,\n\t\t\tppp = pp * p;\n\n\t\t// evaluate polynomials\n\n\t\tconst sP = - wP * ppp + 2 * wP * pp - wP * p;\n\t\tconst s0 = ( 1 + wP ) * ppp + ( -1.5 - 2 * wP ) * pp + ( -0.5 + wP ) * p + 1;\n\t\tconst s1 = ( -1 - wN ) * ppp + ( 1.5 + wN ) * pp + 0.5 * p;\n\t\tconst sN = wN * ppp - wN * pp;\n\n\t\t// combine data linearly\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tresult[ i ] =\n\t\t\t\t\tsP * values[ oP + i ] +\n\t\t\t\t\ts0 * values[ o0 + i ] +\n\t\t\t\t\ts1 * values[ o1 + i ] +\n\t\t\t\t\tsN * values[ oN + i ];\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n}\n\n/**\n * A basic linear interpolant.\n *\n * @augments Interpolant\n */\nclass LinearInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new linear interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t}\n\n\tinterpolate_( i1, t0, t, t1 ) {\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\n\t\t\toffset1 = i1 * stride,\n\t\t\toffset0 = offset1 - stride,\n\n\t\t\tweight1 = ( t - t0 ) / ( t1 - t0 ),\n\t\t\tweight0 = 1 - weight1;\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tresult[ i ] =\n\t\t\t\t\tvalues[ offset0 + i ] * weight0 +\n\t\t\t\t\tvalues[ offset1 + i ] * weight1;\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n}\n\n/**\n * Interpolant that evaluates to the sample value at the position preceding\n * the parameter.\n *\n * @augments Interpolant\n */\nclass DiscreteInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new discrete interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t}\n\n\tinterpolate_( i1 /*, t0, t, t1 */ ) {\n\n\t\treturn this.copySampleValue_( i1 - 1 );\n\n\t}\n\n}\n\n/**\n * Represents s a timed sequence of keyframes, which are composed of lists of\n * times and related values, and which are used to animate a specific property\n * of an object.\n */\nclass KeyframeTrack {\n\n\t/**\n\t * Constructs a new keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tif ( name === undefined ) throw new Error( 'THREE.KeyframeTrack: track name is undefined' );\n\t\tif ( times === undefined || times.length === 0 ) throw new Error( 'THREE.KeyframeTrack: no keyframes in track named ' + name );\n\n\t\t/**\n\t\t * The track's name can refer to morph targets or bones or\n\t\t * possibly other values within an animated object. See {@link PropertyBinding#parseTrackName}\n\t\t * for the forms of strings that can be parsed for property binding.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = name;\n\n\t\t/**\n\t\t * The keyframe times.\n\t\t *\n\t\t * @type {Float32Array}\n\t\t */\n\t\tthis.times = convertArray( times, this.TimeBufferType );\n\n\t\t/**\n\t\t * The keyframe values.\n\t\t *\n\t\t * @type {Float32Array}\n\t\t */\n\t\tthis.values = convertArray( values, this.ValueBufferType );\n\n\t\tthis.setInterpolation( interpolation || this.DefaultInterpolation );\n\n\t}\n\n\t/**\n\t * Converts the keyframe track to JSON.\n\t *\n\t * @static\n\t * @param {KeyframeTrack} track - The keyframe track to serialize.\n\t * @return {Object} The serialized keyframe track as JSON.\n\t */\n\tstatic toJSON( track ) {\n\n\t\tconst trackType = track.constructor;\n\n\t\tlet json;\n\n\t\t// derived classes can define a static toJSON method\n\t\tif ( trackType.toJSON !== this.toJSON ) {\n\n\t\t\tjson = trackType.toJSON( track );\n\n\t\t} else {\n\n\t\t\t// by default, we assume the data can be serialized as-is\n\t\t\tjson = {\n\n\t\t\t\t'name': track.name,\n\t\t\t\t'times': convertArray( track.times, Array ),\n\t\t\t\t'values': convertArray( track.values, Array )\n\n\t\t\t};\n\n\t\t\tconst interpolation = track.getInterpolation();\n\n\t\t\tif ( interpolation !== track.DefaultInterpolation ) {\n\n\t\t\t\tjson.interpolation = interpolation;\n\n\t\t\t}\n\n\t\t}\n\n\t\tjson.type = track.ValueTypeName; // mandatory\n\n\t\treturn json;\n\n\t}\n\n\t/**\n\t * Factory method for creating a new discrete interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {DiscreteInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodDiscrete( result ) {\n\n\t\treturn new DiscreteInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n\t/**\n\t * Factory method for creating a new linear interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {LinearInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodLinear( result ) {\n\n\t\treturn new LinearInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n\t/**\n\t * Factory method for creating a new smooth interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {CubicInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodSmooth( result ) {\n\n\t\treturn new CubicInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n\t/**\n\t * Defines the interpolation factor method for this keyframe track.\n\t *\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} interpolation - The interpolation type.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\tsetInterpolation( interpolation ) {\n\n\t\tlet factoryMethod;\n\n\t\tswitch ( interpolation ) {\n\n\t\t\tcase InterpolateDiscrete:\n\n\t\t\t\tfactoryMethod = this.InterpolantFactoryMethodDiscrete;\n\n\t\t\t\tbreak;\n\n\t\t\tcase InterpolateLinear:\n\n\t\t\t\tfactoryMethod = this.InterpolantFactoryMethodLinear;\n\n\t\t\t\tbreak;\n\n\t\t\tcase InterpolateSmooth:\n\n\t\t\t\tfactoryMethod = this.InterpolantFactoryMethodSmooth;\n\n\t\t\t\tbreak;\n\n\t\t}\n\n\t\tif ( factoryMethod === undefined ) {\n\n\t\t\tconst message = 'unsupported interpolation for ' +\n\t\t\t\tthis.ValueTypeName + ' keyframe track named ' + this.name;\n\n\t\t\tif ( this.createInterpolant === undefined ) {\n\n\t\t\t\t// fall back to default, unless the default itself is messed up\n\t\t\t\tif ( interpolation !== this.DefaultInterpolation ) {\n\n\t\t\t\t\tthis.setInterpolation( this.DefaultInterpolation );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthrow new Error( message ); // fatal, in this case\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tconsole.warn( 'THREE.KeyframeTrack:', message );\n\t\t\treturn this;\n\n\t\t}\n\n\t\tthis.createInterpolant = factoryMethod;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current interpolation type.\n\t *\n\t * @return {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} The interpolation type.\n\t */\n\tgetInterpolation() {\n\n\t\tswitch ( this.createInterpolant ) {\n\n\t\t\tcase this.InterpolantFactoryMethodDiscrete:\n\n\t\t\t\treturn InterpolateDiscrete;\n\n\t\t\tcase this.InterpolantFactoryMethodLinear:\n\n\t\t\t\treturn InterpolateLinear;\n\n\t\t\tcase this.InterpolantFactoryMethodSmooth:\n\n\t\t\t\treturn InterpolateSmooth;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns the value size.\n\t *\n\t * @return {number} The value size.\n\t */\n\tgetValueSize() {\n\n\t\treturn this.values.length / this.times.length;\n\n\t}\n\n\t/**\n\t * Moves all keyframes either forward or backward in time.\n\t *\n\t * @param {number} timeOffset - The offset to move the time values.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\tshift( timeOffset ) {\n\n\t\tif ( timeOffset !== 0.0 ) {\n\n\t\t\tconst times = this.times;\n\n\t\t\tfor ( let i = 0, n = times.length; i !== n; ++ i ) {\n\n\t\t\t\ttimes[ i ] += timeOffset;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scale all keyframe times by a factor (useful for frame - seconds conversions).\n\t *\n\t * @param {number} timeScale - The time scale.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\tscale( timeScale ) {\n\n\t\tif ( timeScale !== 1.0 ) {\n\n\t\t\tconst times = this.times;\n\n\t\t\tfor ( let i = 0, n = times.length; i !== n; ++ i ) {\n\n\t\t\t\ttimes[ i ] *= timeScale;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes keyframes before and after animation without changing any values within the defined time range.\n\t *\n\t * Note: The method does not shift around keys to the start of the track time, because for interpolated\n\t * keys this will change their values\n\t *\n\t * @param {number} startTime - The start time.\n\t * @param {number} endTime - The end time.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\ttrim( startTime, endTime ) {\n\n\t\tconst times = this.times,\n\t\t\tnKeys = times.length;\n\n\t\tlet from = 0,\n\t\t\tto = nKeys - 1;\n\n\t\twhile ( from !== nKeys && times[ from ] < startTime ) {\n\n\t\t\t++ from;\n\n\t\t}\n\n\t\twhile ( to !== -1 && times[ to ] > endTime ) {\n\n\t\t\t-- to;\n\n\t\t}\n\n\t\t++ to; // inclusive -> exclusive bound\n\n\t\tif ( from !== 0 || to !== nKeys ) {\n\n\t\t\t// empty tracks are forbidden, so keep at least one keyframe\n\t\t\tif ( from >= to ) {\n\n\t\t\t\tto = Math.max( to, 1 );\n\t\t\t\tfrom = to - 1;\n\n\t\t\t}\n\n\t\t\tconst stride = this.getValueSize();\n\t\t\tthis.times = times.slice( from, to );\n\t\t\tthis.values = this.values.slice( from * stride, to * stride );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs minimal validation on the keyframe track. Returns `true` if the values\n\t * are valid.\n\t *\n\t * @return {boolean} Whether the keyframes are valid or not.\n\t */\n\tvalidate() {\n\n\t\tlet valid = true;\n\n\t\tconst valueSize = this.getValueSize();\n\t\tif ( valueSize - Math.floor( valueSize ) !== 0 ) {\n\n\t\t\tconsole.error( 'THREE.KeyframeTrack: Invalid value size in track.', this );\n\t\t\tvalid = false;\n\n\t\t}\n\n\t\tconst times = this.times,\n\t\t\tvalues = this.values,\n\n\t\t\tnKeys = times.length;\n\n\t\tif ( nKeys === 0 ) {\n\n\t\t\tconsole.error( 'THREE.KeyframeTrack: Track is empty.', this );\n\t\t\tvalid = false;\n\n\t\t}\n\n\t\tlet prevTime = null;\n\n\t\tfor ( let i = 0; i !== nKeys; i ++ ) {\n\n\t\t\tconst currTime = times[ i ];\n\n\t\t\tif ( typeof currTime === 'number' && isNaN( currTime ) ) {\n\n\t\t\t\tconsole.error( 'THREE.KeyframeTrack: Time is not a valid number.', this, i, currTime );\n\t\t\t\tvalid = false;\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t\tif ( prevTime !== null && prevTime > currTime ) {\n\n\t\t\t\tconsole.error( 'THREE.KeyframeTrack: Out of order keys.', this, i, currTime, prevTime );\n\t\t\t\tvalid = false;\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t\tprevTime = currTime;\n\n\t\t}\n\n\t\tif ( values !== undefined ) {\n\n\t\t\tif ( isTypedArray( values ) ) {\n\n\t\t\t\tfor ( let i = 0, n = values.length; i !== n; ++ i ) {\n\n\t\t\t\t\tconst value = values[ i ];\n\n\t\t\t\t\tif ( isNaN( value ) ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.KeyframeTrack: Value is not a valid number.', this, i, value );\n\t\t\t\t\t\tvalid = false;\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn valid;\n\n\t}\n\n\t/**\n\t * Optimizes this keyframe track by removing equivalent sequential keys (which are\n\t * common in morph target sequences).\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\toptimize() {\n\n\t\t// (0,0,0,0,1,1,1,0,0,0,0,0,0,0) --> (0,0,1,1,0,0)\n\n\t\t// times or values may be shared with other tracks, so overwriting is unsafe\n\t\tconst times = this.times.slice(),\n\t\t\tvalues = this.values.slice(),\n\t\t\tstride = this.getValueSize(),\n\n\t\t\tsmoothInterpolation = this.getInterpolation() === InterpolateSmooth,\n\n\t\t\tlastIndex = times.length - 1;\n\n\t\tlet writeIndex = 1;\n\n\t\tfor ( let i = 1; i < lastIndex; ++ i ) {\n\n\t\t\tlet keep = false;\n\n\t\t\tconst time = times[ i ];\n\t\t\tconst timeNext = times[ i + 1 ];\n\n\t\t\t// remove adjacent keyframes scheduled at the same time\n\n\t\t\tif ( time !== timeNext && ( i !== 1 || time !== times[ 0 ] ) ) {\n\n\t\t\t\tif ( ! smoothInterpolation ) {\n\n\t\t\t\t\t// remove unnecessary keyframes same as their neighbors\n\n\t\t\t\t\tconst offset = i * stride,\n\t\t\t\t\t\toffsetP = offset - stride,\n\t\t\t\t\t\toffsetN = offset + stride;\n\n\t\t\t\t\tfor ( let j = 0; j !== stride; ++ j ) {\n\n\t\t\t\t\t\tconst value = values[ offset + j ];\n\n\t\t\t\t\t\tif ( value !== values[ offsetP + j ] ||\n\t\t\t\t\t\t\tvalue !== values[ offsetN + j ] ) {\n\n\t\t\t\t\t\t\tkeep = true;\n\t\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\tkeep = true;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// in-place compaction\n\n\t\t\tif ( keep ) {\n\n\t\t\t\tif ( i !== writeIndex ) {\n\n\t\t\t\t\ttimes[ writeIndex ] = times[ i ];\n\n\t\t\t\t\tconst readOffset = i * stride,\n\t\t\t\t\t\twriteOffset = writeIndex * stride;\n\n\t\t\t\t\tfor ( let j = 0; j !== stride; ++ j ) {\n\n\t\t\t\t\t\tvalues[ writeOffset + j ] = values[ readOffset + j ];\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\t++ writeIndex;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// flush last keyframe (compaction looks ahead)\n\n\t\tif ( lastIndex > 0 ) {\n\n\t\t\ttimes[ writeIndex ] = times[ lastIndex ];\n\n\t\t\tfor ( let readOffset = lastIndex * stride, writeOffset = writeIndex * stride, j = 0; j !== stride; ++ j ) {\n\n\t\t\t\tvalues[ writeOffset + j ] = values[ readOffset + j ];\n\n\t\t\t}\n\n\t\t\t++ writeIndex;\n\n\t\t}\n\n\t\tif ( writeIndex !== times.length ) {\n\n\t\t\tthis.times = times.slice( 0, writeIndex );\n\t\t\tthis.values = values.slice( 0, writeIndex * stride );\n\n\t\t} else {\n\n\t\t\tthis.times = times;\n\t\t\tthis.values = values;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new keyframe track with copied values from this instance.\n\t *\n\t * @return {KeyframeTrack} A clone of this instance.\n\t */\n\tclone() {\n\n\t\tconst times = this.times.slice();\n\t\tconst values = this.values.slice();\n\n\t\tconst TypedKeyframeTrack = this.constructor;\n\t\tconst track = new TypedKeyframeTrack( this.name, times, values );\n\n\t\t// Interpolant argument to constructor is not saved, so copy the factory method directly.\n\t\ttrack.createInterpolant = this.createInterpolant;\n\n\t\treturn track;\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default ''\n */\nKeyframeTrack.prototype.ValueTypeName = '';\n\n/**\n * The time buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Float32Array.constructor\n */\nKeyframeTrack.prototype.TimeBufferType = Float32Array;\n\n/**\n * The value buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Float32Array.constructor\n */\nKeyframeTrack.prototype.ValueBufferType = Float32Array;\n\n/**\n * The default interpolation type of this keyframe track.\n *\n * @type {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)}\n * @default InterpolateLinear\n */\nKeyframeTrack.prototype.DefaultInterpolation = InterpolateLinear;\n\n/**\n * A track for boolean keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass BooleanKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new boolean keyframe track.\n\t *\n\t * This keyframe track type has no `interpolation` parameter because the\n\t * interpolation is always discrete.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t */\n\tconstructor( name, times, values ) {\n\n\t\tsuper( name, times, values );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'bool'\n */\nBooleanKeyframeTrack.prototype.ValueTypeName = 'bool';\n\n/**\n * The value buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Array.constructor\n */\nBooleanKeyframeTrack.prototype.ValueBufferType = Array;\n\n/**\n * The default interpolation type of this keyframe track.\n *\n * @type {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)}\n * @default InterpolateDiscrete\n */\nBooleanKeyframeTrack.prototype.DefaultInterpolation = InterpolateDiscrete;\nBooleanKeyframeTrack.prototype.InterpolantFactoryMethodLinear = undefined;\nBooleanKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined;\n\n/**\n * A track for color keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass ColorKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new color keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'color'\n */\nColorKeyframeTrack.prototype.ValueTypeName = 'color';\n\n/**\n * A track for numeric keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass NumberKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new number keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'number'\n */\nNumberKeyframeTrack.prototype.ValueTypeName = 'number';\n\n/**\n * Spherical linear unit quaternion interpolant.\n *\n * @augments Interpolant\n */\nclass QuaternionLinearInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new SLERP interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t}\n\n\tinterpolate_( i1, t0, t, t1 ) {\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\n\t\t\talpha = ( t - t0 ) / ( t1 - t0 );\n\n\t\tlet offset = i1 * stride;\n\n\t\tfor ( let end = offset + stride; offset !== end; offset += 4 ) {\n\n\t\t\tQuaternion.slerpFlat( result, 0, values, offset - stride, values, offset, alpha );\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n}\n\n/**\n * A track for Quaternion keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass QuaternionKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new Quaternion keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n\t/**\n\t * Overwritten so the method returns Quaternion based interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {QuaternionLinearInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodLinear( result ) {\n\n\t\treturn new QuaternionLinearInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'quaternion'\n */\nQuaternionKeyframeTrack.prototype.ValueTypeName = 'quaternion';\n// ValueBufferType is inherited\n// DefaultInterpolation is inherited;\nQuaternionKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined;\n\n/**\n * A track for string keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass StringKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new string keyframe track.\n\t *\n\t * This keyframe track type has no `interpolation` parameter because the\n\t * interpolation is always discrete.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t */\n\tconstructor( name, times, values ) {\n\n\t\tsuper( name, times, values );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'string'\n */\nStringKeyframeTrack.prototype.ValueTypeName = 'string';\n\n/**\n * The value buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Array.constructor\n */\nStringKeyframeTrack.prototype.ValueBufferType = Array;\n\n/**\n * The default interpolation type of this keyframe track.\n *\n * @type {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)}\n * @default InterpolateDiscrete\n */\nStringKeyframeTrack.prototype.DefaultInterpolation = InterpolateDiscrete;\nStringKeyframeTrack.prototype.InterpolantFactoryMethodLinear = undefined;\nStringKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined;\n\n/**\n * A track for vector keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass VectorKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new vector keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'vector'\n */\nVectorKeyframeTrack.prototype.ValueTypeName = 'vector';\n\n/**\n * A reusable set of keyframe tracks which represent an animation.\n */\nclass AnimationClip {\n\n\t/**\n\t * Constructs a new animation clip.\n\t *\n\t * Note: Instead of instantiating an AnimationClip directly with the constructor, you can\n\t * use the static interface of this class for creating clips. In most cases though, animation clips\n\t * will automatically be created by loaders when importing animated 3D assets.\n\t *\n\t * @param {string} [name=''] - The clip's name.\n\t * @param {number} [duration=-1] - The clip's duration in seconds. If a negative value is passed,\n\t * the duration will be calculated from the passed keyframes.\n\t * @param {Array} tracks - An array of keyframe tracks.\n\t * @param {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)} [blendMode=NormalAnimationBlendMode] - Defines how the animation\n\t * is blended/combined when two or more animations are simultaneously played.\n\t */\n\tconstructor( name = '', duration = -1, tracks = [], blendMode = NormalAnimationBlendMode ) {\n\n\t\t/**\n\t\t * The clip's name.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = name;\n\n\t\t/**\n\t\t * An array of keyframe tracks.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.tracks = tracks;\n\n\t\t/**\n\t\t * The clip's duration in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.duration = duration;\n\n\t\t/**\n\t\t * Defines how the animation is blended/combined when two or more animations\n\t\t * are simultaneously played.\n\t\t *\n\t\t * @type {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)}\n\t\t */\n\t\tthis.blendMode = blendMode;\n\n\t\t/**\n\t\t * The UUID of the animation clip.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the animation clip.\n\t\t * It should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t\t// this means it should figure out its duration by scanning the tracks\n\t\tif ( this.duration < 0 ) {\n\n\t\t\tthis.resetDuration();\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Factory method for creating an animation clip from the given JSON.\n\t *\n\t * @static\n\t * @param {Object} json - The serialized animation clip.\n\t * @return {AnimationClip} The new animation clip.\n\t */\n\tstatic parse( json ) {\n\n\t\tconst tracks = [],\n\t\t\tjsonTracks = json.tracks,\n\t\t\tframeTime = 1.0 / ( json.fps || 1.0 );\n\n\t\tfor ( let i = 0, n = jsonTracks.length; i !== n; ++ i ) {\n\n\t\t\ttracks.push( parseKeyframeTrack( jsonTracks[ i ] ).scale( frameTime ) );\n\n\t\t}\n\n\t\tconst clip = new this( json.name, json.duration, tracks, json.blendMode );\n\t\tclip.uuid = json.uuid;\n\n\t\tclip.userData = JSON.parse( json.userData || '{}' );\n\n\t\treturn clip;\n\n\t}\n\n\t/**\n\t * Serializes the given animation clip into JSON.\n\t *\n\t * @static\n\t * @param {AnimationClip} clip - The animation clip to serialize.\n\t * @return {Object} The JSON object.\n\t */\n\tstatic toJSON( clip ) {\n\n\t\tconst tracks = [],\n\t\t\tclipTracks = clip.tracks;\n\n\t\tconst json = {\n\n\t\t\t'name': clip.name,\n\t\t\t'duration': clip.duration,\n\t\t\t'tracks': tracks,\n\t\t\t'uuid': clip.uuid,\n\t\t\t'blendMode': clip.blendMode,\n\t\t\t'userData': JSON.stringify( clip.userData ),\n\n\t\t};\n\n\t\tfor ( let i = 0, n = clipTracks.length; i !== n; ++ i ) {\n\n\t\t\ttracks.push( KeyframeTrack.toJSON( clipTracks[ i ] ) );\n\n\t\t}\n\n\t\treturn json;\n\n\t}\n\n\t/**\n\t * Returns a new animation clip from the passed morph targets array of a\n\t * geometry, taking a name and the number of frames per second.\n\t *\n\t * Note: The fps parameter is required, but the animation speed can be\n\t * overridden via {@link AnimationAction#setDuration}.\n\t *\n\t * @static\n\t * @param {string} name - The name of the animation clip.\n\t * @param {Array} morphTargetSequence - A sequence of morph targets.\n\t * @param {number} fps - The Frames-Per-Second value.\n\t * @param {boolean} noLoop - Whether the clip should be no loop or not.\n\t * @return {AnimationClip} The new animation clip.\n\t */\n\tstatic CreateFromMorphTargetSequence( name, morphTargetSequence, fps, noLoop ) {\n\n\t\tconst numMorphTargets = morphTargetSequence.length;\n\t\tconst tracks = [];\n\n\t\tfor ( let i = 0; i < numMorphTargets; i ++ ) {\n\n\t\t\tlet times = [];\n\t\t\tlet values = [];\n\n\t\t\ttimes.push(\n\t\t\t\t( i + numMorphTargets - 1 ) % numMorphTargets,\n\t\t\t\ti,\n\t\t\t\t( i + 1 ) % numMorphTargets );\n\n\t\t\tvalues.push( 0, 1, 0 );\n\n\t\t\tconst order = getKeyframeOrder( times );\n\t\t\ttimes = sortedArray( times, 1, order );\n\t\t\tvalues = sortedArray( values, 1, order );\n\n\t\t\t// if there is a key at the first frame, duplicate it as the\n\t\t\t// last frame as well for perfect loop.\n\t\t\tif ( ! noLoop && times[ 0 ] === 0 ) {\n\n\t\t\t\ttimes.push( numMorphTargets );\n\t\t\t\tvalues.push( values[ 0 ] );\n\n\t\t\t}\n\n\t\t\ttracks.push(\n\t\t\t\tnew NumberKeyframeTrack(\n\t\t\t\t\t'.morphTargetInfluences[' + morphTargetSequence[ i ].name + ']',\n\t\t\t\t\ttimes, values\n\t\t\t\t).scale( 1.0 / fps ) );\n\n\t\t}\n\n\t\treturn new this( name, -1, tracks );\n\n\t}\n\n\t/**\n\t * Searches for an animation clip by name, taking as its first parameter\n\t * either an array of clips, or a mesh or geometry that contains an\n\t * array named \"animations\" property.\n\t *\n\t * @static\n\t * @param {(Array|Object3D)} objectOrClipArray - The array or object to search through.\n\t * @param {string} name - The name to search for.\n\t * @return {?AnimationClip} The found animation clip. Returns `null` if no clip has been found.\n\t */\n\tstatic findByName( objectOrClipArray, name ) {\n\n\t\tlet clipArray = objectOrClipArray;\n\n\t\tif ( ! Array.isArray( objectOrClipArray ) ) {\n\n\t\t\tconst o = objectOrClipArray;\n\t\t\tclipArray = o.geometry && o.geometry.animations || o.animations;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < clipArray.length; i ++ ) {\n\n\t\t\tif ( clipArray[ i ].name === name ) {\n\n\t\t\t\treturn clipArray[ i ];\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t/**\n\t * Returns an array of new AnimationClips created from the morph target\n\t * sequences of a geometry, trying to sort morph target names into\n\t * animation-group-based patterns like \"Walk_001, Walk_002, Run_001, Run_002...\".\n\t *\n\t * See {@link MD2Loader#parse} as an example for how the method should be used.\n\t *\n\t * @static\n\t * @param {Array} morphTargets - A sequence of morph targets.\n\t * @param {number} fps - The Frames-Per-Second value.\n\t * @param {boolean} noLoop - Whether the clip should be no loop or not.\n\t * @return {Array} An array of new animation clips.\n\t */\n\tstatic CreateClipsFromMorphTargetSequences( morphTargets, fps, noLoop ) {\n\n\t\tconst animationToMorphTargets = {};\n\n\t\t// tested with https://regex101.com/ on trick sequences\n\t\t// such flamingo_flyA_003, flamingo_run1_003, crdeath0059\n\t\tconst pattern = /^([\\w-]*?)([\\d]+)$/;\n\n\t\t// sort morph target names into animation groups based\n\t\t// patterns like Walk_001, Walk_002, Run_001, Run_002\n\t\tfor ( let i = 0, il = morphTargets.length; i < il; i ++ ) {\n\n\t\t\tconst morphTarget = morphTargets[ i ];\n\t\t\tconst parts = morphTarget.name.match( pattern );\n\n\t\t\tif ( parts && parts.length > 1 ) {\n\n\t\t\t\tconst name = parts[ 1 ];\n\n\t\t\t\tlet animationMorphTargets = animationToMorphTargets[ name ];\n\n\t\t\t\tif ( ! animationMorphTargets ) {\n\n\t\t\t\t\tanimationToMorphTargets[ name ] = animationMorphTargets = [];\n\n\t\t\t\t}\n\n\t\t\t\tanimationMorphTargets.push( morphTarget );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst clips = [];\n\n\t\tfor ( const name in animationToMorphTargets ) {\n\n\t\t\tclips.push( this.CreateFromMorphTargetSequence( name, animationToMorphTargets[ name ], fps, noLoop ) );\n\n\t\t}\n\n\t\treturn clips;\n\n\t}\n\n\t/**\n\t * Parses the `animation.hierarchy` format and returns a new animation clip.\n\t *\n\t * @static\n\t * @deprecated since r175.\n\t * @param {Object} animation - A serialized animation clip as JSON.\n\t * @param {Array} bones - An array of bones.\n\t * @return {?AnimationClip} The new animation clip.\n\t */\n\tstatic parseAnimation( animation, bones ) {\n\n\t\tconsole.warn( 'THREE.AnimationClip: parseAnimation() is deprecated and will be removed with r185' );\n\n\t\tif ( ! animation ) {\n\n\t\t\tconsole.error( 'THREE.AnimationClip: No animation in JSONLoader data.' );\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst addNonemptyTrack = function ( trackType, trackName, animationKeys, propertyName, destTracks ) {\n\n\t\t\t// only return track if there are actually keys.\n\t\t\tif ( animationKeys.length !== 0 ) {\n\n\t\t\t\tconst times = [];\n\t\t\t\tconst values = [];\n\n\t\t\t\tflattenJSON( animationKeys, times, values, propertyName );\n\n\t\t\t\t// empty keys are filtered out, so check again\n\t\t\t\tif ( times.length !== 0 ) {\n\n\t\t\t\t\tdestTracks.push( new trackType( trackName, times, values ) );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t};\n\n\t\tconst tracks = [];\n\n\t\tconst clipName = animation.name || 'default';\n\t\tconst fps = animation.fps || 30;\n\t\tconst blendMode = animation.blendMode;\n\n\t\t// automatic length determination in AnimationClip.\n\t\tlet duration = animation.length || -1;\n\n\t\tconst hierarchyTracks = animation.hierarchy || [];\n\n\t\tfor ( let h = 0; h < hierarchyTracks.length; h ++ ) {\n\n\t\t\tconst animationKeys = hierarchyTracks[ h ].keys;\n\n\t\t\t// skip empty tracks\n\t\t\tif ( ! animationKeys || animationKeys.length === 0 ) continue;\n\n\t\t\t// process morph targets\n\t\t\tif ( animationKeys[ 0 ].morphTargets ) {\n\n\t\t\t\t// figure out all morph targets used in this track\n\t\t\t\tconst morphTargetNames = {};\n\n\t\t\t\tlet k;\n\n\t\t\t\tfor ( k = 0; k < animationKeys.length; k ++ ) {\n\n\t\t\t\t\tif ( animationKeys[ k ].morphTargets ) {\n\n\t\t\t\t\t\tfor ( let m = 0; m < animationKeys[ k ].morphTargets.length; m ++ ) {\n\n\t\t\t\t\t\t\tmorphTargetNames[ animationKeys[ k ].morphTargets[ m ] ] = -1;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\t// create a track for each morph target with all zero\n\t\t\t\t// morphTargetInfluences except for the keys in which\n\t\t\t\t// the morphTarget is named.\n\t\t\t\tfor ( const morphTargetName in morphTargetNames ) {\n\n\t\t\t\t\tconst times = [];\n\t\t\t\t\tconst values = [];\n\n\t\t\t\t\tfor ( let m = 0; m !== animationKeys[ k ].morphTargets.length; ++ m ) {\n\n\t\t\t\t\t\tconst animationKey = animationKeys[ k ];\n\n\t\t\t\t\t\ttimes.push( animationKey.time );\n\t\t\t\t\t\tvalues.push( ( animationKey.morphTarget === morphTargetName ) ? 1 : 0 );\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttracks.push( new NumberKeyframeTrack( '.morphTargetInfluence[' + morphTargetName + ']', times, values ) );\n\n\t\t\t\t}\n\n\t\t\t\tduration = morphTargetNames.length * fps;\n\n\t\t\t} else {\n\n\t\t\t\t// ...assume skeletal animation\n\n\t\t\t\tconst boneName = '.bones[' + bones[ h ].name + ']';\n\n\t\t\t\taddNonemptyTrack(\n\t\t\t\t\tVectorKeyframeTrack, boneName + '.position',\n\t\t\t\t\tanimationKeys, 'pos', tracks );\n\n\t\t\t\taddNonemptyTrack(\n\t\t\t\t\tQuaternionKeyframeTrack, boneName + '.quaternion',\n\t\t\t\t\tanimationKeys, 'rot', tracks );\n\n\t\t\t\taddNonemptyTrack(\n\t\t\t\t\tVectorKeyframeTrack, boneName + '.scale',\n\t\t\t\t\tanimationKeys, 'scl', tracks );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( tracks.length === 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst clip = new this( clipName, duration, tracks, blendMode );\n\n\t\treturn clip;\n\n\t}\n\n\t/**\n\t * Sets the duration of this clip to the duration of its longest keyframe track.\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\tresetDuration() {\n\n\t\tconst tracks = this.tracks;\n\t\tlet duration = 0;\n\n\t\tfor ( let i = 0, n = tracks.length; i !== n; ++ i ) {\n\n\t\t\tconst track = this.tracks[ i ];\n\n\t\t\tduration = Math.max( duration, track.times[ track.times.length - 1 ] );\n\n\t\t}\n\n\t\tthis.duration = duration;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Trims all tracks to the clip's duration.\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\ttrim() {\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\tthis.tracks[ i ].trim( 0, this.duration );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs minimal validation on each track in the clip. Returns `true` if all\n\t * tracks are valid.\n\t *\n\t * @return {boolean} Whether the clip's keyframes are valid or not.\n\t */\n\tvalidate() {\n\n\t\tlet valid = true;\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\tvalid = valid && this.tracks[ i ].validate();\n\n\t\t}\n\n\t\treturn valid;\n\n\t}\n\n\t/**\n\t * Optimizes each track by removing equivalent sequential keys (which are\n\t * common in morph target sequences).\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\toptimize() {\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\tthis.tracks[ i ].optimize();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new animation clip with copied values from this instance.\n\t *\n\t * @return {AnimationClip} A clone of this instance.\n\t */\n\tclone() {\n\n\t\tconst tracks = [];\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\ttracks.push( this.tracks[ i ].clone() );\n\n\t\t}\n\n\t\tconst clip = new this.constructor( this.name, this.duration, tracks, this.blendMode );\n\n\t\tclip.userData = JSON.parse( JSON.stringify( this.userData ) );\n\n\t\treturn clip;\n\n\t}\n\n\t/**\n\t * Serializes this animation clip into JSON.\n\t *\n\t * @return {Object} The JSON object.\n\t */\n\ttoJSON() {\n\n\t\treturn this.constructor.toJSON( this );\n\n\t}\n\n}\n\nfunction getTrackTypeForValueTypeName( typeName ) {\n\n\tswitch ( typeName.toLowerCase() ) {\n\n\t\tcase 'scalar':\n\t\tcase 'double':\n\t\tcase 'float':\n\t\tcase 'number':\n\t\tcase 'integer':\n\n\t\t\treturn NumberKeyframeTrack;\n\n\t\tcase 'vector':\n\t\tcase 'vector2':\n\t\tcase 'vector3':\n\t\tcase 'vector4':\n\n\t\t\treturn VectorKeyframeTrack;\n\n\t\tcase 'color':\n\n\t\t\treturn ColorKeyframeTrack;\n\n\t\tcase 'quaternion':\n\n\t\t\treturn QuaternionKeyframeTrack;\n\n\t\tcase 'bool':\n\t\tcase 'boolean':\n\n\t\t\treturn BooleanKeyframeTrack;\n\n\t\tcase 'string':\n\n\t\t\treturn StringKeyframeTrack;\n\n\t}\n\n\tthrow new Error( 'THREE.KeyframeTrack: Unsupported typeName: ' + typeName );\n\n}\n\nfunction parseKeyframeTrack( json ) {\n\n\tif ( json.type === undefined ) {\n\n\t\tthrow new Error( 'THREE.KeyframeTrack: track type undefined, can not parse' );\n\n\t}\n\n\tconst trackType = getTrackTypeForValueTypeName( json.type );\n\n\tif ( json.times === undefined ) {\n\n\t\tconst times = [], values = [];\n\n\t\tflattenJSON( json.keys, times, values, 'value' );\n\n\t\tjson.times = times;\n\t\tjson.values = values;\n\n\t}\n\n\t// derived classes can define a static parse method\n\tif ( trackType.parse !== undefined ) {\n\n\t\treturn trackType.parse( json );\n\n\t} else {\n\n\t\t// by default, we assume a constructor compatible with the base\n\t\treturn new trackType( json.name, json.times, json.values, json.interpolation );\n\n\t}\n\n}\n\n/**\n * @class\n * @classdesc A simple caching system, used internally by {@link FileLoader}.\n * To enable caching across all loaders that use {@link FileLoader}, add `THREE.Cache.enabled = true.` once in your app.\n * @hideconstructor\n */\nconst Cache = {\n\n\t/**\n\t * Whether caching is enabled or not.\n\t *\n\t * @static\n\t * @type {boolean}\n\t * @default false\n\t */\n\tenabled: false,\n\n\t/**\n\t * A dictionary that holds cached files.\n\t *\n\t * @static\n\t * @type {Object}\n\t */\n\tfiles: {},\n\n\t/**\n\t * Adds a cache entry with a key to reference the file. If this key already\n\t * holds a file, it is overwritten.\n\t *\n\t * @static\n\t * @param {string} key - The key to reference the cached file.\n\t * @param {Object} file - The file to be cached.\n\t */\n\tadd: function ( key, file ) {\n\n\t\tif ( this.enabled === false ) return;\n\n\t\t// console.log( 'THREE.Cache', 'Adding key:', key );\n\n\t\tthis.files[ key ] = file;\n\n\t},\n\n\t/**\n\t * Gets the cached value for the given key.\n\t *\n\t * @static\n\t * @param {string} key - The key to reference the cached file.\n\t * @return {Object|undefined} The cached file. If the key does not exist `undefined` is returned.\n\t */\n\tget: function ( key ) {\n\n\t\tif ( this.enabled === false ) return;\n\n\t\t// console.log( 'THREE.Cache', 'Checking key:', key );\n\n\t\treturn this.files[ key ];\n\n\t},\n\n\t/**\n\t * Removes the cached file associated with the given key.\n\t *\n\t * @static\n\t * @param {string} key - The key to reference the cached file.\n\t */\n\tremove: function ( key ) {\n\n\t\tdelete this.files[ key ];\n\n\t},\n\n\t/**\n\t * Remove all values from the cache.\n\t *\n\t * @static\n\t */\n\tclear: function () {\n\n\t\tthis.files = {};\n\n\t}\n\n};\n\n/**\n * Handles and keeps track of loaded and pending data. A default global\n * instance of this class is created and used by loaders if not supplied\n * manually.\n *\n * In general that should be sufficient, however there are times when it can\n * be useful to have separate loaders - for example if you want to show\n * separate loading bars for objects and textures.\n *\n * ```js\n * const manager = new THREE.LoadingManager();\n * manager.onLoad = () => console.log( 'Loading complete!' );\n *\n * const loader1 = new OBJLoader( manager );\n * const loader2 = new ColladaLoader( manager );\n * ```\n */\nclass LoadingManager {\n\n\t/**\n\t * Constructs a new loading manager.\n\t *\n\t * @param {Function} [onLoad] - Executes when all items have been loaded.\n\t * @param {Function} [onProgress] - Executes when single items have been loaded.\n\t * @param {Function} [onError] - Executes when an error occurs.\n\t */\n\tconstructor( onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tlet isLoading = false;\n\t\tlet itemsLoaded = 0;\n\t\tlet itemsTotal = 0;\n\t\tlet urlModifier = undefined;\n\t\tconst handlers = [];\n\n\t\t// Refer to #5689 for the reason why we don't set .onStart\n\t\t// in the constructor\n\n\t\t/**\n\t\t * Executes when an item starts loading.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onStart = undefined;\n\n\t\t/**\n\t\t * Executes when all items have been loaded.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onLoad = onLoad;\n\n\t\t/**\n\t\t * Executes when single items have been loaded.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onProgress = onProgress;\n\n\t\t/**\n\t\t * Executes when an error occurs.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onError = onError;\n\n\t\t/**\n\t\t * Used for aborting ongoing requests in loaders using this manager.\n\t\t *\n\t\t * @type {AbortController}\n\t\t */\n\t\tthis.abortController = new AbortController();\n\n\t\t/**\n\t\t * This should be called by any loader using the manager when the loader\n\t\t * starts loading an item.\n\t\t *\n\t\t * @param {string} url - The URL to load.\n\t\t */\n\t\tthis.itemStart = function ( url ) {\n\n\t\t\titemsTotal ++;\n\n\t\t\tif ( isLoading === false ) {\n\n\t\t\t\tif ( scope.onStart !== undefined ) {\n\n\t\t\t\t\tscope.onStart( url, itemsLoaded, itemsTotal );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tisLoading = true;\n\n\t\t};\n\n\t\t/**\n\t\t * This should be called by any loader using the manager when the loader\n\t\t * ended loading an item.\n\t\t *\n\t\t * @param {string} url - The URL of the loaded item.\n\t\t */\n\t\tthis.itemEnd = function ( url ) {\n\n\t\t\titemsLoaded ++;\n\n\t\t\tif ( scope.onProgress !== undefined ) {\n\n\t\t\t\tscope.onProgress( url, itemsLoaded, itemsTotal );\n\n\t\t\t}\n\n\t\t\tif ( itemsLoaded === itemsTotal ) {\n\n\t\t\t\tisLoading = false;\n\n\t\t\t\tif ( scope.onLoad !== undefined ) {\n\n\t\t\t\t\tscope.onLoad();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t};\n\n\t\t/**\n\t\t * This should be called by any loader using the manager when the loader\n\t\t * encounters an error when loading an item.\n\t\t *\n\t\t * @param {string} url - The URL of the item that produces an error.\n\t\t */\n\t\tthis.itemError = function ( url ) {\n\n\t\t\tif ( scope.onError !== undefined ) {\n\n\t\t\t\tscope.onError( url );\n\n\t\t\t}\n\n\t\t};\n\n\t\t/**\n\t\t * Given a URL, uses the URL modifier callback (if any) and returns a\n\t\t * resolved URL. If no URL modifier is set, returns the original URL.\n\t\t *\n\t\t * @param {string} url - The URL to load.\n\t\t * @return {string} The resolved URL.\n\t\t */\n\t\tthis.resolveURL = function ( url ) {\n\n\t\t\tif ( urlModifier ) {\n\n\t\t\t\treturn urlModifier( url );\n\n\t\t\t}\n\n\t\t\treturn url;\n\n\t\t};\n\n\t\t/**\n\t\t * If provided, the callback will be passed each resource URL before a\n\t\t * request is sent. The callback may return the original URL, or a new URL to\n\t\t * override loading behavior. This behavior can be used to load assets from\n\t\t * .ZIP files, drag-and-drop APIs, and Data URIs.\n\t\t *\n\t\t * ```js\n\t\t * const blobs = {'fish.gltf': blob1, 'diffuse.png': blob2, 'normal.png': blob3};\n\t\t *\n\t\t * const manager = new THREE.LoadingManager();\n\t\t *\n\t\t * // Initialize loading manager with URL callback.\n\t\t * const objectURLs = [];\n\t\t * manager.setURLModifier( ( url ) => {\n\t\t *\n\t\t * \turl = URL.createObjectURL( blobs[ url ] );\n\t\t * \tobjectURLs.push( url );\n\t\t * \treturn url;\n\t\t *\n\t\t * } );\n\t\t *\n\t\t * // Load as usual, then revoke the blob URLs.\n\t\t * const loader = new GLTFLoader( manager );\n\t\t * loader.load( 'fish.gltf', (gltf) => {\n\t\t *\n\t\t * \tscene.add( gltf.scene );\n\t\t * \tobjectURLs.forEach( ( url ) => URL.revokeObjectURL( url ) );\n\t\t *\n\t\t * } );\n\t\t * ```\n\t\t *\n\t\t * @param {function(string):string} transform - URL modifier callback. Called with an URL and must return a resolved URL.\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.setURLModifier = function ( transform ) {\n\n\t\t\turlModifier = transform;\n\n\t\t\treturn this;\n\n\t\t};\n\n\t\t/**\n\t\t * Registers a loader with the given regular expression. Can be used to\n\t\t * define what loader should be used in order to load specific files. A\n\t\t * typical use case is to overwrite the default loader for textures.\n\t\t *\n\t\t * ```js\n\t\t * // add handler for TGA textures\n\t\t * manager.addHandler( /\\.tga$/i, new TGALoader() );\n\t\t * ```\n\t\t *\n\t\t * @param {string} regex - A regular expression.\n\t\t * @param {Loader} loader - A loader that should handle matched cases.\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.addHandler = function ( regex, loader ) {\n\n\t\t\thandlers.push( regex, loader );\n\n\t\t\treturn this;\n\n\t\t};\n\n\t\t/**\n\t\t * Removes the loader for the given regular expression.\n\t\t *\n\t\t * @param {string} regex - A regular expression.\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.removeHandler = function ( regex ) {\n\n\t\t\tconst index = handlers.indexOf( regex );\n\n\t\t\tif ( index !== -1 ) {\n\n\t\t\t\thandlers.splice( index, 2 );\n\n\t\t\t}\n\n\t\t\treturn this;\n\n\t\t};\n\n\t\t/**\n\t\t * Can be used to retrieve the registered loader for the given file path.\n\t\t *\n\t\t * @param {string} file - The file path.\n\t\t * @return {?Loader} The registered loader. Returns `null` if no loader was found.\n\t\t */\n\t\tthis.getHandler = function ( file ) {\n\n\t\t\tfor ( let i = 0, l = handlers.length; i < l; i += 2 ) {\n\n\t\t\t\tconst regex = handlers[ i ];\n\t\t\t\tconst loader = handlers[ i + 1 ];\n\n\t\t\t\tif ( regex.global ) regex.lastIndex = 0; // see #17920\n\n\t\t\t\tif ( regex.test( file ) ) {\n\n\t\t\t\t\treturn loader;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn null;\n\n\t\t};\n\n\t\t/**\n\t\t * Can be used to abort ongoing loading requests in loaders using this manager.\n\t\t * The abort only works if the loaders implement {@link Loader#abort} and `AbortSignal.any()`\n\t\t * is supported in the browser.\n\t\t *\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.abort = function () {\n\n\t\t\tthis.abortController.abort();\n\t\t\tthis.abortController = new AbortController();\n\n\t\t\treturn this;\n\n\t\t};\n\n\t}\n\n}\n\n/**\n * The global default loading manager.\n *\n * @constant\n * @type {LoadingManager}\n */\nconst DefaultLoadingManager = /*@__PURE__*/ new LoadingManager();\n\n/**\n * Abstract base class for loaders.\n *\n * @abstract\n */\nclass Loader {\n\n\t/**\n\t * Constructs a new loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\t/**\n\t\t * The loading manager.\n\t\t *\n\t\t * @type {LoadingManager}\n\t\t * @default DefaultLoadingManager\n\t\t */\n\t\tthis.manager = ( manager !== undefined ) ? manager : DefaultLoadingManager;\n\n\t\t/**\n\t\t * The crossOrigin string to implement CORS for loading the url from a\n\t\t * different domain that allows CORS.\n\t\t *\n\t\t * @type {string}\n\t\t * @default 'anonymous'\n\t\t */\n\t\tthis.crossOrigin = 'anonymous';\n\n\t\t/**\n\t\t * Whether the XMLHttpRequest uses credentials.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.withCredentials = false;\n\n\t\t/**\n\t\t * The base path from which the asset will be loaded.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.path = '';\n\n\t\t/**\n\t\t * The base path from which additional resources like textures will be loaded.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.resourcePath = '';\n\n\t\t/**\n\t\t * The [request header]{@link https://developer.mozilla.org/en-US/docs/Glossary/Request_header}\n\t\t * used in HTTP request.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.requestHeader = {};\n\n\t}\n\n\t/**\n\t * This method needs to be implemented by all concrete loaders. It holds the\n\t * logic for loading assets from the backend.\n\t *\n\t * @abstract\n\t * @param {string} url - The path/URL of the file to be loaded.\n\t * @param {Function} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} [onProgress] - Executed while the loading is in progress.\n\t * @param {onErrorCallback} [onError] - Executed when errors occur.\n\t */\n\tload( /* url, onLoad, onProgress, onError */ ) {}\n\n\t/**\n\t * A async version of {@link Loader#load}.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded.\n\t * @param {onProgressCallback} [onProgress] - Executed while the loading is in progress.\n\t * @return {Promise} A Promise that resolves when the asset has been loaded.\n\t */\n\tloadAsync( url, onProgress ) {\n\n\t\tconst scope = this;\n\n\t\treturn new Promise( function ( resolve, reject ) {\n\n\t\t\tscope.load( url, resolve, onProgress, reject );\n\n\t\t} );\n\n\t}\n\n\t/**\n\t * This method needs to be implemented by all concrete loaders. It holds the\n\t * logic for parsing the asset into three.js entities.\n\t *\n\t * @abstract\n\t * @param {any} data - The data to parse.\n\t */\n\tparse( /* data */ ) {}\n\n\t/**\n\t * Sets the `crossOrigin` String to implement CORS for loading the URL\n\t * from a different domain that allows CORS.\n\t *\n\t * @param {string} crossOrigin - The `crossOrigin` value.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetCrossOrigin( crossOrigin ) {\n\n\t\tthis.crossOrigin = crossOrigin;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Whether the XMLHttpRequest uses credentials such as cookies, authorization\n\t * headers or TLS client certificates, see [XMLHttpRequest.withCredentials]{@link https://developer.mozilla.org/en-US/docs/Web/API/XMLHttpRequest/withCredentials}.\n\t *\n\t * Note: This setting has no effect if you are loading files locally or from the same domain.\n\t *\n\t * @param {boolean} value - The `withCredentials` value.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetWithCredentials( value ) {\n\n\t\tthis.withCredentials = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the base path for the asset.\n\t *\n\t * @param {string} path - The base path.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetPath( path ) {\n\n\t\tthis.path = path;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the base path for dependent resources like textures.\n\t *\n\t * @param {string} resourcePath - The resource path.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetResourcePath( resourcePath ) {\n\n\t\tthis.resourcePath = resourcePath;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given request header.\n\t *\n\t * @param {Object} requestHeader - A [request header]{@link https://developer.mozilla.org/en-US/docs/Glossary/Request_header}\n\t * for configuring the HTTP request.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetRequestHeader( requestHeader ) {\n\n\t\tthis.requestHeader = requestHeader;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This method can be implemented in loaders for aborting ongoing requests.\n\t *\n\t * @abstract\n\t * @return {Loader} A reference to this instance.\n\t */\n\tabort() {\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Callback for onProgress in loaders.\n *\n * @callback onProgressCallback\n * @param {ProgressEvent} event - An instance of `ProgressEvent` that represents the current loading status.\n */\n\n/**\n * Callback for onError in loaders.\n *\n * @callback onErrorCallback\n * @param {Error} error - The error which occurred during the loading process.\n */\n\n/**\n * The default material name that is used by loaders\n * when creating materials for loaded 3D objects.\n *\n * Note: Not all loaders might honor this setting.\n *\n * @static\n * @type {string}\n * @default '__DEFAULT'\n */\nLoader.DEFAULT_MATERIAL_NAME = '__DEFAULT';\n\nconst loading = {};\n\nclass HttpError extends Error {\n\n\tconstructor( message, response ) {\n\n\t\tsuper( message );\n\t\tthis.response = response;\n\n\t}\n\n}\n\n/**\n * A low level class for loading resources with the Fetch API, used internally by\n * most loaders. It can also be used directly to load any file type that does\n * not have a loader.\n *\n * This loader supports caching. If you want to use it, add `THREE.Cache.enabled = true;`\n * once to your application.\n *\n * ```js\n * const loader = new THREE.FileLoader();\n * const data = await loader.loadAsync( 'example.txt' );\n * ```\n *\n * @augments Loader\n */\nclass FileLoader extends Loader {\n\n\t/**\n\t * Constructs a new file loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t\t/**\n\t\t * The expected mime type. Valid values can be found\n\t\t * [here]{@link hhttps://developer.mozilla.org/en-US/docs/Web/API/DOMParser/parseFromString#mimetype}\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.mimeType = '';\n\n\t\t/**\n\t\t * The expected response type.\n\t\t *\n\t\t * @type {('arraybuffer'|'blob'|'document'|'json'|'')}\n\t\t * @default ''\n\t\t */\n\t\tthis.responseType = '';\n\n\t\t/**\n\t\t * Used for aborting requests.\n\t\t *\n\t\t * @private\n\t\t * @type {AbortController}\n\t\t */\n\t\tthis._abortController = new AbortController();\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded response to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(any)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} [onProgress] - Executed while the loading is in progress.\n\t * @param {onErrorCallback} [onError] - Executed when errors occur.\n\t * @return {any|undefined} The cached resource if available.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tif ( url === undefined ) url = '';\n\n\t\tif ( this.path !== undefined ) url = this.path + url;\n\n\t\turl = this.manager.resolveURL( url );\n\n\t\tconst cached = Cache.get( `file:${url}` );\n\n\t\tif ( cached !== undefined ) {\n\n\t\t\tthis.manager.itemStart( url );\n\n\t\t\tsetTimeout( () => {\n\n\t\t\t\tif ( onLoad ) onLoad( cached );\n\n\t\t\t\tthis.manager.itemEnd( url );\n\n\t\t\t}, 0 );\n\n\t\t\treturn cached;\n\n\t\t}\n\n\t\t// Check if request is duplicate\n\n\t\tif ( loading[ url ] !== undefined ) {\n\n\t\t\tloading[ url ].push( {\n\n\t\t\t\tonLoad: onLoad,\n\t\t\t\tonProgress: onProgress,\n\t\t\t\tonError: onError\n\n\t\t\t} );\n\n\t\t\treturn;\n\n\t\t}\n\n\t\t// Initialise array for duplicate requests\n\t\tloading[ url ] = [];\n\n\t\tloading[ url ].push( {\n\t\t\tonLoad: onLoad,\n\t\t\tonProgress: onProgress,\n\t\t\tonError: onError,\n\t\t} );\n\n\t\t// create request\n\t\tconst req = new Request( url, {\n\t\t\theaders: new Headers( this.requestHeader ),\n\t\t\tcredentials: this.withCredentials ? 'include' : 'same-origin',\n\t\t\tsignal: ( typeof AbortSignal.any === 'function' ) ? AbortSignal.any( [ this._abortController.signal, this.manager.abortController.signal ] ) : this._abortController.signal\n\t\t} );\n\n\t\t// record states ( avoid data race )\n\t\tconst mimeType = this.mimeType;\n\t\tconst responseType = this.responseType;\n\n\t\t// start the fetch\n\t\tfetch( req )\n\t\t\t.then( response => {\n\n\t\t\t\tif ( response.status === 200 || response.status === 0 ) {\n\n\t\t\t\t\t// Some browsers return HTTP Status 0 when using non-http protocol\n\t\t\t\t\t// e.g. 'file://' or 'data://'. Handle as success.\n\n\t\t\t\t\tif ( response.status === 0 ) {\n\n\t\t\t\t\t\tconsole.warn( 'THREE.FileLoader: HTTP Status 0 received.' );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// Workaround: Checking if response.body === undefined for Alipay browser #23548\n\n\t\t\t\t\tif ( typeof ReadableStream === 'undefined' || response.body === undefined || response.body.getReader === undefined ) {\n\n\t\t\t\t\t\treturn response;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tconst callbacks = loading[ url ];\n\t\t\t\t\tconst reader = response.body.getReader();\n\n\t\t\t\t\t// Nginx needs X-File-Size check\n\t\t\t\t\t// https://serverfault.com/questions/482875/why-does-nginx-remove-content-length-header-for-chunked-content\n\t\t\t\t\tconst contentLength = response.headers.get( 'X-File-Size' ) || response.headers.get( 'Content-Length' );\n\t\t\t\t\tconst total = contentLength ? parseInt( contentLength ) : 0;\n\t\t\t\t\tconst lengthComputable = total !== 0;\n\t\t\t\t\tlet loaded = 0;\n\n\t\t\t\t\t// periodically read data into the new stream tracking while download progress\n\t\t\t\t\tconst stream = new ReadableStream( {\n\t\t\t\t\t\tstart( controller ) {\n\n\t\t\t\t\t\t\treadData();\n\n\t\t\t\t\t\t\tfunction readData() {\n\n\t\t\t\t\t\t\t\treader.read().then( ( { done, value } ) => {\n\n\t\t\t\t\t\t\t\t\tif ( done ) {\n\n\t\t\t\t\t\t\t\t\t\tcontroller.close();\n\n\t\t\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\t\t\tloaded += value.byteLength;\n\n\t\t\t\t\t\t\t\t\t\tconst event = new ProgressEvent( 'progress', { lengthComputable, loaded, total } );\n\t\t\t\t\t\t\t\t\t\tfor ( let i = 0, il = callbacks.length; i < il; i ++ ) {\n\n\t\t\t\t\t\t\t\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\t\t\t\t\t\t\t\tif ( callback.onProgress ) callback.onProgress( event );\n\n\t\t\t\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\t\t\t\tcontroller.enqueue( value );\n\t\t\t\t\t\t\t\t\t\treadData();\n\n\t\t\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\t\t}, ( e ) => {\n\n\t\t\t\t\t\t\t\t\tcontroller.error( e );\n\n\t\t\t\t\t\t\t\t} );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t} );\n\n\t\t\t\t\treturn new Response( stream );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthrow new HttpError( `fetch for \"${response.url}\" responded with ${response.status}: ${response.statusText}`, response );\n\n\t\t\t\t}\n\n\t\t\t} )\n\t\t\t.then( response => {\n\n\t\t\t\tswitch ( responseType ) {\n\n\t\t\t\t\tcase 'arraybuffer':\n\n\t\t\t\t\t\treturn response.arrayBuffer();\n\n\t\t\t\t\tcase 'blob':\n\n\t\t\t\t\t\treturn response.blob();\n\n\t\t\t\t\tcase 'document':\n\n\t\t\t\t\t\treturn response.text()\n\t\t\t\t\t\t\t.then( text => {\n\n\t\t\t\t\t\t\t\tconst parser = new DOMParser();\n\t\t\t\t\t\t\t\treturn parser.parseFromString( text, mimeType );\n\n\t\t\t\t\t\t\t} );\n\n\t\t\t\t\tcase 'json':\n\n\t\t\t\t\t\treturn response.json();\n\n\t\t\t\t\tdefault:\n\n\t\t\t\t\t\tif ( mimeType === '' ) {\n\n\t\t\t\t\t\t\treturn response.text();\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t// sniff encoding\n\t\t\t\t\t\t\tconst re = /charset=\"?([^;\"\\s]*)\"?/i;\n\t\t\t\t\t\t\tconst exec = re.exec( mimeType );\n\t\t\t\t\t\t\tconst label = exec && exec[ 1 ] ? exec[ 1 ].toLowerCase() : undefined;\n\t\t\t\t\t\t\tconst decoder = new TextDecoder( label );\n\t\t\t\t\t\t\treturn response.arrayBuffer().then( ab => decoder.decode( ab ) );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} )\n\t\t\t.then( data => {\n\n\t\t\t\t// Add to cache only on HTTP success, so that we do not cache\n\t\t\t\t// error response bodies as proper responses to requests.\n\t\t\t\tCache.add( `file:${url}`, data );\n\n\t\t\t\tconst callbacks = loading[ url ];\n\t\t\t\tdelete loading[ url ];\n\n\t\t\t\tfor ( let i = 0, il = callbacks.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\t\tif ( callback.onLoad ) callback.onLoad( data );\n\n\t\t\t\t}\n\n\t\t\t} )\n\t\t\t.catch( err => {\n\n\t\t\t\t// Abort errors and other errors are handled the same\n\n\t\t\t\tconst callbacks = loading[ url ];\n\n\t\t\t\tif ( callbacks === undefined ) {\n\n\t\t\t\t\t// When onLoad was called and url was deleted in `loading`\n\t\t\t\t\tthis.manager.itemError( url );\n\t\t\t\t\tthrow err;\n\n\t\t\t\t}\n\n\t\t\t\tdelete loading[ url ];\n\n\t\t\t\tfor ( let i = 0, il = callbacks.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\t\tif ( callback.onError ) callback.onError( err );\n\n\t\t\t\t}\n\n\t\t\t\tthis.manager.itemError( url );\n\n\t\t\t} )\n\t\t\t.finally( () => {\n\n\t\t\t\tthis.manager.itemEnd( url );\n\n\t\t\t} );\n\n\t\tthis.manager.itemStart( url );\n\n\t}\n\n\t/**\n\t * Sets the expected response type.\n\t *\n\t * @param {('arraybuffer'|'blob'|'document'|'json'|'')} value - The response type.\n\t * @return {FileLoader} A reference to this file loader.\n\t */\n\tsetResponseType( value ) {\n\n\t\tthis.responseType = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the expected mime type of the loaded file.\n\t *\n\t * @param {string} value - The mime type.\n\t * @return {FileLoader} A reference to this file loader.\n\t */\n\tsetMimeType( value ) {\n\n\t\tthis.mimeType = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Aborts ongoing fetch requests.\n\t *\n\t * @return {FileLoader} A reference to this instance.\n\t */\n\tabort() {\n\n\t\tthis._abortController.abort();\n\t\tthis._abortController = new AbortController();\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Class for loading animation clips in the JSON format. The files are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.AnimationLoader();\n * const animations = await loader.loadAsync( 'animations/animation.js' );\n * ```\n *\n * @augments Loader\n */\nclass AnimationLoader extends Loader {\n\n\t/**\n\t * Constructs a new animation loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded animations as an array\n\t * holding instances of {@link AnimationClip} to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Array)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\ttry {\n\n\t\t\t\tonLoad( scope.parse( JSON.parse( text ) ) );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\tif ( onError ) {\n\n\t\t\t\t\tonError( e );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( e );\n\n\t\t\t\t}\n\n\t\t\t\tscope.manager.itemError( url );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Parses the given JSON object and returns an array of animation clips.\n\t *\n\t * @param {Object} json - The serialized animation clips.\n\t * @return {Array} The parsed animation clips.\n\t */\n\tparse( json ) {\n\n\t\tconst animations = [];\n\n\t\tfor ( let i = 0; i < json.length; i ++ ) {\n\n\t\t\tconst clip = AnimationClip.parse( json[ i ] );\n\n\t\t\tanimations.push( clip );\n\n\t\t}\n\n\t\treturn animations;\n\n\t}\n\n}\n\n/**\n * Abstract base class for loading compressed texture formats S3TC, ASTC or ETC.\n * Textures are internally loaded via {@link FileLoader}.\n *\n * Derived classes have to implement the `parse()` method which holds the parsing\n * for the respective format.\n *\n * @abstract\n * @augments Loader\n */\nclass CompressedTextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new compressed texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded compressed texture\n\t * to the `onLoad()` callback. The method also returns a new texture object which can\n\t * directly be used for material creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(CompressedTexture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {CompressedTexture} The compressed texture.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst images = [];\n\n\t\tconst texture = new CompressedTexture();\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setResponseType( 'arraybuffer' );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\n\t\tlet loaded = 0;\n\n\t\tfunction loadTexture( i ) {\n\n\t\t\tloader.load( url[ i ], function ( buffer ) {\n\n\t\t\t\tconst texDatas = scope.parse( buffer, true );\n\n\t\t\t\timages[ i ] = {\n\t\t\t\t\twidth: texDatas.width,\n\t\t\t\t\theight: texDatas.height,\n\t\t\t\t\tformat: texDatas.format,\n\t\t\t\t\tmipmaps: texDatas.mipmaps\n\t\t\t\t};\n\n\t\t\t\tloaded += 1;\n\n\t\t\t\tif ( loaded === 6 ) {\n\n\t\t\t\t\tif ( texDatas.mipmapCount === 1 ) texture.minFilter = LinearFilter;\n\n\t\t\t\t\ttexture.image = images;\n\t\t\t\t\ttexture.format = texDatas.format;\n\t\t\t\t\ttexture.needsUpdate = true;\n\n\t\t\t\t\tif ( onLoad ) onLoad( texture );\n\n\t\t\t\t}\n\n\t\t\t}, onProgress, onError );\n\n\t\t}\n\n\t\tif ( Array.isArray( url ) ) {\n\n\t\t\tfor ( let i = 0, il = url.length; i < il; ++ i ) {\n\n\t\t\t\tloadTexture( i );\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\t// compressed cubemap texture stored in a single DDS file\n\n\t\t\tloader.load( url, function ( buffer ) {\n\n\t\t\t\tconst texDatas = scope.parse( buffer, true );\n\n\t\t\t\tif ( texDatas.isCubemap ) {\n\n\t\t\t\t\tconst faces = texDatas.mipmaps.length / texDatas.mipmapCount;\n\n\t\t\t\t\tfor ( let f = 0; f < faces; f ++ ) {\n\n\t\t\t\t\t\timages[ f ] = { mipmaps: [] };\n\n\t\t\t\t\t\tfor ( let i = 0; i < texDatas.mipmapCount; i ++ ) {\n\n\t\t\t\t\t\t\timages[ f ].mipmaps.push( texDatas.mipmaps[ f * texDatas.mipmapCount + i ] );\n\t\t\t\t\t\t\timages[ f ].format = texDatas.format;\n\t\t\t\t\t\t\timages[ f ].width = texDatas.width;\n\t\t\t\t\t\t\timages[ f ].height = texDatas.height;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttexture.image = images;\n\n\t\t\t\t} else {\n\n\t\t\t\t\ttexture.image.width = texDatas.width;\n\t\t\t\t\ttexture.image.height = texDatas.height;\n\t\t\t\t\ttexture.mipmaps = texDatas.mipmaps;\n\n\t\t\t\t}\n\n\t\t\t\tif ( texDatas.mipmapCount === 1 ) {\n\n\t\t\t\t\ttexture.minFilter = LinearFilter;\n\n\t\t\t\t}\n\n\t\t\t\ttexture.format = texDatas.format;\n\t\t\t\ttexture.needsUpdate = true;\n\n\t\t\t\tif ( onLoad ) onLoad( texture );\n\n\t\t\t}, onProgress, onError );\n\n\t\t}\n\n\t\treturn texture;\n\n\t}\n\n}\n\nconst _loading = new WeakMap();\n\n/**\n * A loader for loading images. The class loads images with the HTML `Image` API.\n *\n * ```js\n * const loader = new THREE.ImageLoader();\n * const image = await loader.loadAsync( 'image.png' );\n * ```\n * Please note that `ImageLoader` has dropped support for progress\n * events in `r84`. For an `ImageLoader` that supports progress events, see\n * [this thread]{@link https://github.com/mrdoob/three.js/issues/10439#issuecomment-275785639}.\n *\n * @augments Loader\n */\nclass ImageLoader extends Loader {\n\n\t/**\n\t * Constructs a new image loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded image\n\t * to the `onLoad()` callback. The method also returns a new `Image` object which can\n\t * directly be used for texture creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Image)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {Image} The image.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tif ( this.path !== undefined ) url = this.path + url;\n\n\t\turl = this.manager.resolveURL( url );\n\n\t\tconst scope = this;\n\n\t\tconst cached = Cache.get( `image:${url}` );\n\n\t\tif ( cached !== undefined ) {\n\n\t\t\tif ( cached.complete === true ) {\n\n\t\t\t\tscope.manager.itemStart( url );\n\n\t\t\t\tsetTimeout( function () {\n\n\t\t\t\t\tif ( onLoad ) onLoad( cached );\n\n\t\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t\t}, 0 );\n\n\t\t\t} else {\n\n\t\t\t\tlet arr = _loading.get( cached );\n\n\t\t\t\tif ( arr === undefined ) {\n\n\t\t\t\t\tarr = [];\n\t\t\t\t\t_loading.set( cached, arr );\n\n\t\t\t\t}\n\n\t\t\t\tarr.push( { onLoad, onError } );\n\n\t\t\t}\n\n\t\t\treturn cached;\n\n\t\t}\n\n\t\tconst image = createElementNS( 'img' );\n\n\t\tfunction onImageLoad() {\n\n\t\t\tremoveEventListeners();\n\n\t\t\tif ( onLoad ) onLoad( this );\n\n\t\t\t//\n\n\t\t\tconst callbacks = _loading.get( this ) || [];\n\n\t\t\tfor ( let i = 0; i < callbacks.length; i ++ ) {\n\n\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\tif ( callback.onLoad ) callback.onLoad( this );\n\n\t\t\t}\n\n\t\t\t_loading.delete( this );\n\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t}\n\n\t\tfunction onImageError( event ) {\n\n\t\t\tremoveEventListeners();\n\n\t\t\tif ( onError ) onError( event );\n\n\t\t\tCache.remove( `image:${url}` );\n\n\t\t\t//\n\n\t\t\tconst callbacks = _loading.get( this ) || [];\n\n\t\t\tfor ( let i = 0; i < callbacks.length; i ++ ) {\n\n\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\tif ( callback.onError ) callback.onError( event );\n\n\t\t\t}\n\n\t\t\t_loading.delete( this );\n\n\n\t\t\tscope.manager.itemError( url );\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t}\n\n\t\tfunction removeEventListeners() {\n\n\t\t\timage.removeEventListener( 'load', onImageLoad, false );\n\t\t\timage.removeEventListener( 'error', onImageError, false );\n\n\t\t}\n\n\t\timage.addEventListener( 'load', onImageLoad, false );\n\t\timage.addEventListener( 'error', onImageError, false );\n\n\t\tif ( url.slice( 0, 5 ) !== 'data:' ) {\n\n\t\t\tif ( this.crossOrigin !== undefined ) image.crossOrigin = this.crossOrigin;\n\n\t\t}\n\n\t\tCache.add( `image:${url}`, image );\n\t\tscope.manager.itemStart( url );\n\n\t\timage.src = url;\n\n\t\treturn image;\n\n\t}\n\n}\n\n/**\n * Class for loading cube textures. Images are internally loaded via {@link ImageLoader}.\n *\n * The loader returns an instance of {@link CubeTexture} and expects the cube map to\n * be defined as six separate images representing the sides of a cube. Other cube map definitions\n * like vertical and horizontal cross, column and row layouts are not supported.\n *\n * Note that, by convention, cube maps are specified in a coordinate system\n * in which positive-x is to the right when looking up the positive-z axis --\n * in other words, using a left-handed coordinate system. Since three.js uses\n * a right-handed coordinate system, environment maps used in three.js will\n * have pos-x and neg-x swapped.\n *\n * The loaded cube texture is in sRGB color space. Meaning {@link Texture#colorSpace}\n * is set to `SRGBColorSpace` by default.\n *\n * ```js\n * const loader = new THREE.CubeTextureLoader().setPath( 'textures/cubeMaps/' );\n * const cubeTexture = await loader.loadAsync( [\n * \t'px.png', 'nx.png', 'py.png', 'ny.png', 'pz.png', 'nz.png'\n * ] );\n * scene.background = cubeTexture;\n * ```\n *\n * @augments Loader\n */\nclass CubeTextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new cube texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the fully loaded cube texture\n\t * to the `onLoad()` callback. The method also returns a new cube texture object which can\n\t * directly be used for material creation. If you do it this way, the cube texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {Array} urls - Array of 6 URLs to images, one for each side of the\n\t * cube texture. The urls should be specified in the following order: pos-x,\n\t * neg-x, pos-y, neg-y, pos-z, neg-z. An array of data URIs are allowed as well.\n\t * @param {function(CubeTexture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {CubeTexture} The cube texture.\n\t */\n\tload( urls, onLoad, onProgress, onError ) {\n\n\t\tconst texture = new CubeTexture();\n\t\ttexture.colorSpace = SRGBColorSpace;\n\n\t\tconst loader = new ImageLoader( this.manager );\n\t\tloader.setCrossOrigin( this.crossOrigin );\n\t\tloader.setPath( this.path );\n\n\t\tlet loaded = 0;\n\n\t\tfunction loadTexture( i ) {\n\n\t\t\tloader.load( urls[ i ], function ( image ) {\n\n\t\t\t\ttexture.images[ i ] = image;\n\n\t\t\t\tloaded ++;\n\n\t\t\t\tif ( loaded === 6 ) {\n\n\t\t\t\t\ttexture.needsUpdate = true;\n\n\t\t\t\t\tif ( onLoad ) onLoad( texture );\n\n\t\t\t\t}\n\n\t\t\t}, undefined, onError );\n\n\t\t}\n\n\t\tfor ( let i = 0; i < urls.length; ++ i ) {\n\n\t\t\tloadTexture( i );\n\n\t\t}\n\n\t\treturn texture;\n\n\t}\n\n}\n\n/**\n * Abstract base class for loading binary texture formats RGBE, EXR or TGA.\n * Textures are internally loaded via {@link FileLoader}.\n *\n * Derived classes have to implement the `parse()` method which holds the parsing\n * for the respective format.\n *\n * @abstract\n * @augments Loader\n */\nclass DataTextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new data texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded data texture\n\t * to the `onLoad()` callback. The method also returns a new texture object which can\n\t * directly be used for material creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(DataTexture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {DataTexture} The data texture.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst texture = new DataTexture();\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setResponseType( 'arraybuffer' );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setPath( this.path );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\t\tloader.load( url, function ( buffer ) {\n\n\t\t\tlet texData;\n\n\t\t\ttry {\n\n\t\t\t\ttexData = scope.parse( buffer );\n\n\t\t\t} catch ( error ) {\n\n\t\t\t\tif ( onError !== undefined ) {\n\n\t\t\t\t\tonError( error );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( error );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( texData.image !== undefined ) {\n\n\t\t\t\ttexture.image = texData.image;\n\n\t\t\t} else if ( texData.data !== undefined ) {\n\n\t\t\t\ttexture.image.width = texData.width;\n\t\t\t\ttexture.image.height = texData.height;\n\t\t\t\ttexture.image.data = texData.data;\n\n\t\t\t}\n\n\t\t\ttexture.wrapS = texData.wrapS !== undefined ? texData.wrapS : ClampToEdgeWrapping;\n\t\t\ttexture.wrapT = texData.wrapT !== undefined ? texData.wrapT : ClampToEdgeWrapping;\n\n\t\t\ttexture.magFilter = texData.magFilter !== undefined ? texData.magFilter : LinearFilter;\n\t\t\ttexture.minFilter = texData.minFilter !== undefined ? texData.minFilter : LinearFilter;\n\n\t\t\ttexture.anisotropy = texData.anisotropy !== undefined ? texData.anisotropy : 1;\n\n\t\t\tif ( texData.colorSpace !== undefined ) {\n\n\t\t\t\ttexture.colorSpace = texData.colorSpace;\n\n\t\t\t}\n\n\t\t\tif ( texData.flipY !== undefined ) {\n\n\t\t\t\ttexture.flipY = texData.flipY;\n\n\t\t\t}\n\n\t\t\tif ( texData.format !== undefined ) {\n\n\t\t\t\ttexture.format = texData.format;\n\n\t\t\t}\n\n\t\t\tif ( texData.type !== undefined ) {\n\n\t\t\t\ttexture.type = texData.type;\n\n\t\t\t}\n\n\t\t\tif ( texData.mipmaps !== undefined ) {\n\n\t\t\t\ttexture.mipmaps = texData.mipmaps;\n\t\t\t\ttexture.minFilter = LinearMipmapLinearFilter; // presumably...\n\n\t\t\t}\n\n\t\t\tif ( texData.mipmapCount === 1 ) {\n\n\t\t\t\ttexture.minFilter = LinearFilter;\n\n\t\t\t}\n\n\t\t\tif ( texData.generateMipmaps !== undefined ) {\n\n\t\t\t\ttexture.generateMipmaps = texData.generateMipmaps;\n\n\t\t\t}\n\n\t\t\ttexture.needsUpdate = true;\n\n\t\t\tif ( onLoad ) onLoad( texture, texData );\n\n\t\t}, onProgress, onError );\n\n\n\t\treturn texture;\n\n\t}\n\n}\n\n/**\n * Class for loading textures. Images are internally\n * loaded via {@link ImageLoader}.\n *\n * ```js\n * const loader = new THREE.TextureLoader();\n * const texture = await loader.loadAsync( 'textures/land_ocean_ice_cloud_2048.jpg' );\n *\n * const material = new THREE.MeshBasicMaterial( { map:texture } );\n * ```\n * Please note that `TextureLoader` has dropped support for progress\n * events in `r84`. For a `TextureLoader` that supports progress events, see\n * [this thread]{@link https://github.com/mrdoob/three.js/issues/10439#issuecomment-293260145}.\n *\n * @augments Loader\n */\nclass TextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the fully loaded texture\n\t * to the `onLoad()` callback. The method also returns a new texture object which can\n\t * directly be used for material creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Texture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {Texture} The texture.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst texture = new Texture();\n\n\t\tconst loader = new ImageLoader( this.manager );\n\t\tloader.setCrossOrigin( this.crossOrigin );\n\t\tloader.setPath( this.path );\n\n\t\tloader.load( url, function ( image ) {\n\n\t\t\ttexture.image = image;\n\t\t\ttexture.needsUpdate = true;\n\n\t\t\tif ( onLoad !== undefined ) {\n\n\t\t\t\tonLoad( texture );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t\treturn texture;\n\n\t}\n\n}\n\n/**\n * Abstract base class for lights - all other light types inherit the\n * properties and methods described here.\n *\n * @abstract\n * @augments Object3D\n */\nclass Light extends Object3D {\n\n\t/**\n\t * Constructs a new light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( color, intensity = 1 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLight = true;\n\n\t\tthis.type = 'Light';\n\n\t\t/**\n\t\t * The light's color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color( color );\n\n\t\t/**\n\t\t * The light's intensity.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.intensity = intensity;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\t// Empty here in base class; some subclasses override.\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.color.copy( source.color );\n\t\tthis.intensity = source.intensity;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.color = this.color.getHex();\n\t\tdata.object.intensity = this.intensity;\n\n\t\tif ( this.groundColor !== undefined ) data.object.groundColor = this.groundColor.getHex();\n\n\t\tif ( this.distance !== undefined ) data.object.distance = this.distance;\n\t\tif ( this.angle !== undefined ) data.object.angle = this.angle;\n\t\tif ( this.decay !== undefined ) data.object.decay = this.decay;\n\t\tif ( this.penumbra !== undefined ) data.object.penumbra = this.penumbra;\n\n\t\tif ( this.shadow !== undefined ) data.object.shadow = this.shadow.toJSON();\n\t\tif ( this.target !== undefined ) data.object.target = this.target.uuid;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * A light source positioned directly above the scene, with color fading from\n * the sky color to the ground color.\n *\n * This light cannot be used to cast shadows.\n *\n * ```js\n * const light = new THREE.HemisphereLight( 0xffffbb, 0x080820, 1 );\n * scene.add( light );\n * ```\n *\n * @augments Light\n */\nclass HemisphereLight extends Light {\n\n\t/**\n\t * Constructs a new hemisphere light.\n\t *\n\t * @param {(number|Color|string)} [skyColor=0xffffff] - The light's sky color.\n\t * @param {(number|Color|string)} [groundColor=0xffffff] - The light's ground color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( skyColor, groundColor, intensity ) {\n\n\t\tsuper( skyColor, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isHemisphereLight = true;\n\n\t\tthis.type = 'HemisphereLight';\n\n\t\tthis.position.copy( Object3D.DEFAULT_UP );\n\t\tthis.updateMatrix();\n\n\t\t/**\n\t\t * The light's ground color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.groundColor = new Color( groundColor );\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.groundColor.copy( source.groundColor );\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _projScreenMatrix$1 = /*@__PURE__*/ new Matrix4();\nconst _lightPositionWorld$1 = /*@__PURE__*/ new Vector3();\nconst _lookTarget$1 = /*@__PURE__*/ new Vector3();\n\n/**\n * Abstract base class for light shadow classes. These classes\n * represent the shadow configuration for different light types.\n *\n * @abstract\n */\nclass LightShadow {\n\n\t/**\n\t * Constructs a new light shadow.\n\t *\n\t * @param {Camera} camera - The light's view of the world.\n\t */\n\tconstructor( camera ) {\n\n\t\t/**\n\t\t * The light's view of the world.\n\t\t *\n\t\t * @type {Camera}\n\t\t */\n\t\tthis.camera = camera;\n\n\t\t/**\n\t\t * The intensity of the shadow. The default is `1`.\n\t\t * Valid values are in the range `[0, 1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.intensity = 1;\n\n\t\t/**\n\t\t * Shadow map bias, how much to add or subtract from the normalized depth\n\t\t * when deciding whether a surface is in shadow.\n\t\t *\n\t\t * The default is `0`. Very tiny adjustments here (in the order of `0.0001`)\n\t\t * may help reduce artifacts in shadows.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.bias = 0;\n\n\t\t/**\n\t\t * Defines how much the position used to query the shadow map is offset along\n\t\t * the object normal. The default is `0`. Increasing this value can be used to\n\t\t * reduce shadow acne especially in large scenes where light shines onto\n\t\t * geometry at a shallow angle. The cost is that shadows may appear distorted.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.normalBias = 0;\n\n\t\t/**\n\t\t * Setting this to values greater than 1 will blur the edges of the shadow.\n\t\t * High values will cause unwanted banding effects in the shadows - a greater\n\t\t * map size will allow for a higher value to be used here before these effects\n\t\t * become visible.\n\t\t *\n\t\t * The property has no effect when the shadow map type is `PCFSoftShadowMap` and\n\t\t * and it is recommended to increase softness by decreasing the shadow map size instead.\n\t\t *\n\t\t * The property has no effect when the shadow map type is `BasicShadowMap`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.radius = 1;\n\n\t\t/**\n\t\t * The amount of samples to use when blurring a VSM shadow map.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 8\n\t\t */\n\t\tthis.blurSamples = 8;\n\n\t\t/**\n\t\t * Defines the width and height of the shadow map. Higher values give better quality\n\t\t * shadows at the cost of computation time. Values must be powers of two.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (512,512)\n\t\t */\n\t\tthis.mapSize = new Vector2( 512, 512 );\n\n\t\t/**\n\t\t * The type of shadow texture. The default is `UnsignedByteType`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default UnsignedByteType\n\t\t */\n\t\tthis.mapType = UnsignedByteType;\n\n\t\t/**\n\t\t * The depth map generated using the internal camera; a location beyond a\n\t\t * pixel's depth is in shadow. Computed internally during rendering.\n\t\t *\n\t\t * @type {?RenderTarget}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The distribution map generated using the internal camera; an occlusion is\n\t\t * calculated based on the distribution of depths. Computed internally during\n\t\t * rendering.\n\t\t *\n\t\t * @type {?RenderTarget}\n\t\t * @default null\n\t\t */\n\t\tthis.mapPass = null;\n\n\t\t/**\n\t\t * Model to shadow camera space, to compute location and depth in shadow map.\n\t\t * This is computed internally during rendering.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrix = new Matrix4();\n\n\t\t/**\n\t\t * Enables automatic updates of the light's shadow. If you do not require dynamic\n\t\t * lighting / shadows, you may set this to `false`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.autoUpdate = true;\n\n\t\t/**\n\t\t * When set to `true`, shadow maps will be updated in the next `render` call.\n\t\t * If you have set {@link LightShadow#autoUpdate} to `false`, you will need to\n\t\t * set this property to `true` and then make a render call to update the light's shadow.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.needsUpdate = false;\n\n\t\tthis._frustum = new Frustum();\n\t\tthis._frameExtents = new Vector2( 1, 1 );\n\n\t\tthis._viewportCount = 1;\n\n\t\tthis._viewports = [\n\n\t\t\tnew Vector4( 0, 0, 1, 1 )\n\n\t\t];\n\n\t}\n\n\t/**\n\t * Used internally by the renderer to get the number of viewports that need\n\t * to be rendered for this shadow.\n\t *\n\t * @return {number} The viewport count.\n\t */\n\tgetViewportCount() {\n\n\t\treturn this._viewportCount;\n\n\t}\n\n\t/**\n\t * Gets the shadow cameras frustum. Used internally by the renderer to cull objects.\n\t *\n\t * @return {Frustum} The shadow camera frustum.\n\t */\n\tgetFrustum() {\n\n\t\treturn this._frustum;\n\n\t}\n\n\t/**\n\t * Update the matrices for the camera and shadow, used internally by the renderer.\n\t *\n\t * @param {Light} light - The light for which the shadow is being rendered.\n\t */\n\tupdateMatrices( light ) {\n\n\t\tconst shadowCamera = this.camera;\n\t\tconst shadowMatrix = this.matrix;\n\n\t\t_lightPositionWorld$1.setFromMatrixPosition( light.matrixWorld );\n\t\tshadowCamera.position.copy( _lightPositionWorld$1 );\n\n\t\t_lookTarget$1.setFromMatrixPosition( light.target.matrixWorld );\n\t\tshadowCamera.lookAt( _lookTarget$1 );\n\t\tshadowCamera.updateMatrixWorld();\n\n\t\t_projScreenMatrix$1.multiplyMatrices( shadowCamera.projectionMatrix, shadowCamera.matrixWorldInverse );\n\t\tthis._frustum.setFromProjectionMatrix( _projScreenMatrix$1, shadowCamera.coordinateSystem, shadowCamera.reversedDepth );\n\n\t\tif ( shadowCamera.reversedDepth ) {\n\n\t\t\tshadowMatrix.set(\n\t\t\t\t0.5, 0.0, 0.0, 0.5,\n\t\t\t\t0.0, 0.5, 0.0, 0.5,\n\t\t\t\t0.0, 0.0, 1.0, 0.0,\n\t\t\t\t0.0, 0.0, 0.0, 1.0\n\t\t\t);\n\n\t\t} else {\n\n\t\t\tshadowMatrix.set(\n\t\t\t\t0.5, 0.0, 0.0, 0.5,\n\t\t\t\t0.0, 0.5, 0.0, 0.5,\n\t\t\t\t0.0, 0.0, 0.5, 0.5,\n\t\t\t\t0.0, 0.0, 0.0, 1.0\n\t\t\t);\n\n\t\t}\n\n\t\tshadowMatrix.multiply( _projScreenMatrix$1 );\n\n\t}\n\n\t/**\n\t * Returns a viewport definition for the given viewport index.\n\t *\n\t * @param {number} viewportIndex - The viewport index.\n\t * @return {Vector4} The viewport.\n\t */\n\tgetViewport( viewportIndex ) {\n\n\t\treturn this._viewports[ viewportIndex ];\n\n\t}\n\n\t/**\n\t * Returns the frame extends.\n\t *\n\t * @return {Vector2} The frame extends.\n\t */\n\tgetFrameExtents() {\n\n\t\treturn this._frameExtents;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tif ( this.map ) {\n\n\t\t\tthis.map.dispose();\n\n\t\t}\n\n\t\tif ( this.mapPass ) {\n\n\t\t\tthis.mapPass.dispose();\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Copies the values of the given light shadow instance to this instance.\n\t *\n\t * @param {LightShadow} source - The light shadow to copy.\n\t * @return {LightShadow} A reference to this light shadow instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.camera = source.camera.clone();\n\n\t\tthis.intensity = source.intensity;\n\n\t\tthis.bias = source.bias;\n\t\tthis.radius = source.radius;\n\n\t\tthis.autoUpdate = source.autoUpdate;\n\t\tthis.needsUpdate = source.needsUpdate;\n\t\tthis.normalBias = source.normalBias;\n\t\tthis.blurSamples = source.blurSamples;\n\n\t\tthis.mapSize.copy( source.mapSize );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new light shadow instance with copied values from this instance.\n\t *\n\t * @return {LightShadow} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Serializes the light shadow into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized light shadow.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON() {\n\n\t\tconst object = {};\n\n\t\tif ( this.intensity !== 1 ) object.intensity = this.intensity;\n\t\tif ( this.bias !== 0 ) object.bias = this.bias;\n\t\tif ( this.normalBias !== 0 ) object.normalBias = this.normalBias;\n\t\tif ( this.radius !== 1 ) object.radius = this.radius;\n\t\tif ( this.mapSize.x !== 512 || this.mapSize.y !== 512 ) object.mapSize = this.mapSize.toArray();\n\n\t\tobject.camera = this.camera.toJSON( false ).object;\n\t\tdelete object.camera.matrix;\n\n\t\treturn object;\n\n\t}\n\n}\n\n/**\n * Represents the shadow configuration of directional lights.\n *\n * @augments LightShadow\n */\nclass SpotLightShadow extends LightShadow {\n\n\t/**\n\t * Constructs a new spot light shadow.\n\t */\n\tconstructor() {\n\n\t\tsuper( new PerspectiveCamera( 50, 1, 0.5, 500 ) );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSpotLightShadow = true;\n\n\t\t/**\n\t\t * Used to focus the shadow camera. The camera's field of view is set as a\n\t\t * percentage of the spotlight's field-of-view. Range is `[0, 1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.focus = 1;\n\n\t\t/**\n\t\t * Texture aspect ratio.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aspect = 1;\n\n\t}\n\n\tupdateMatrices( light ) {\n\n\t\tconst camera = this.camera;\n\n\t\tconst fov = RAD2DEG * 2 * light.angle * this.focus;\n\t\tconst aspect = ( this.mapSize.width / this.mapSize.height ) * this.aspect;\n\t\tconst far = light.distance || camera.far;\n\n\t\tif ( fov !== camera.fov || aspect !== camera.aspect || far !== camera.far ) {\n\n\t\t\tcamera.fov = fov;\n\t\t\tcamera.aspect = aspect;\n\t\t\tcamera.far = far;\n\t\t\tcamera.updateProjectionMatrix();\n\n\t\t}\n\n\t\tsuper.updateMatrices( light );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.focus = source.focus;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This light gets emitted from a single point in one direction, along a cone\n * that increases in size the further from the light it gets.\n *\n * This light can cast shadows - see the {@link SpotLightShadow} for details.\n *\n * ```js\n * // white spotlight shining from the side, modulated by a texture\n * const spotLight = new THREE.SpotLight( 0xffffff );\n * spotLight.position.set( 100, 1000, 100 );\n * spotLight.map = new THREE.TextureLoader().load( url );\n *\n * spotLight.castShadow = true;\n * spotLight.shadow.mapSize.width = 1024;\n * spotLight.shadow.mapSize.height = 1024;\n * spotLight.shadow.camera.near = 500;\n * spotLight.shadow.camera.far = 4000;\n * spotLight.shadow.camera.fov = 30;s\n * ```\n *\n * @augments Light\n */\nclass SpotLight extends Light {\n\n\t/**\n\t * Constructs a new spot light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity measured in candela (cd).\n\t * @param {number} [distance=0] - Maximum range of the light. `0` means no limit.\n\t * @param {number} [angle=Math.PI/3] - Maximum angle of light dispersion from its direction whose upper bound is `Math.PI/2`.\n\t * @param {number} [penumbra=0] - Percent of the spotlight cone that is attenuated due to penumbra. Value range is `[0,1]`.\n\t * @param {number} [decay=2] - The amount the light dims along the distance of the light.\n\t */\n\tconstructor( color, intensity, distance = 0, angle = Math.PI / 3, penumbra = 0, decay = 2 ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSpotLight = true;\n\n\t\tthis.type = 'SpotLight';\n\n\t\tthis.position.copy( Object3D.DEFAULT_UP );\n\t\tthis.updateMatrix();\n\n\t\t/**\n\t\t * The spot light points from its position to the\n\t\t * target's position.\n\t\t *\n\t\t * For the target's position to be changed to anything other\n\t\t * than the default, it must be added to the scene.\n\t\t *\n\t\t * It is also possible to set the target to be another 3D object\n\t\t * in the scene. The light will now track the target object.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.target = new Object3D();\n\n\t\t/**\n\t\t * Maximum range of the light. `0` means no limit.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.distance = distance;\n\n\t\t/**\n\t\t * Maximum angle of light dispersion from its direction whose upper bound is `Math.PI/2`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Math.PI/3\n\t\t */\n\t\tthis.angle = angle;\n\n\t\t/**\n\t\t * Percent of the spotlight cone that is attenuated due to penumbra.\n\t\t * Value range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.penumbra = penumbra;\n\n\t\t/**\n\t\t * The amount the light dims along the distance of the light. In context of\n\t\t * physically-correct rendering the default value should not be changed.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2\n\t\t */\n\t\tthis.decay = decay;\n\n\t\t/**\n\t\t * A texture used to modulate the color of the light. The spot light\n\t\t * color is mixed with the RGB value of this texture, with a ratio\n\t\t * corresponding to its alpha value. The cookie-like masking effect is\n\t\t * reproduced using pixel values (0, 0, 0, 1-cookie_value).\n\t\t *\n\t\t * *Warning*: This property is disabled if {@link Object3D#castShadow} is set to `false`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * This property holds the light's shadow configuration.\n\t\t *\n\t\t * @type {SpotLightShadow}\n\t\t */\n\t\tthis.shadow = new SpotLightShadow();\n\n\t}\n\n\t/**\n\t * The light's power. Power is the luminous power of the light measured in lumens (lm).\n\t * Changing the power will also change the light's intensity.\n\t *\n\t * @type {number}\n\t */\n\tget power() {\n\n\t\t// compute the light's luminous power (in lumens) from its intensity (in candela)\n\t\t// by convention for a spotlight, luminous power (lm) = π * luminous intensity (cd)\n\t\treturn this.intensity * Math.PI;\n\n\t}\n\n\tset power( power ) {\n\n\t\t// set the light's intensity (in candela) from the desired luminous power (in lumens)\n\t\tthis.intensity = power / Math.PI;\n\n\t}\n\n\tdispose() {\n\n\t\tthis.shadow.dispose();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.distance = source.distance;\n\t\tthis.angle = source.angle;\n\t\tthis.penumbra = source.penumbra;\n\t\tthis.decay = source.decay;\n\n\t\tthis.target = source.target.clone();\n\n\t\tthis.shadow = source.shadow.clone();\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _projScreenMatrix = /*@__PURE__*/ new Matrix4();\nconst _lightPositionWorld = /*@__PURE__*/ new Vector3();\nconst _lookTarget = /*@__PURE__*/ new Vector3();\n\n/**\n * Represents the shadow configuration of point lights.\n *\n * @augments LightShadow\n */\nclass PointLightShadow extends LightShadow {\n\n\t/**\n\t * Constructs a new point light shadow.\n\t */\n\tconstructor() {\n\n\t\tsuper( new PerspectiveCamera( 90, 1, 0.5, 500 ) );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPointLightShadow = true;\n\n\t\tthis._frameExtents = new Vector2( 4, 2 );\n\n\t\tthis._viewportCount = 6;\n\n\t\tthis._viewports = [\n\t\t\t// These viewports map a cube-map onto a 2D texture with the\n\t\t\t// following orientation:\n\t\t\t//\n\t\t\t// xzXZ\n\t\t\t// y Y\n\t\t\t//\n\t\t\t// X - Positive x direction\n\t\t\t// x - Negative x direction\n\t\t\t// Y - Positive y direction\n\t\t\t// y - Negative y direction\n\t\t\t// Z - Positive z direction\n\t\t\t// z - Negative z direction\n\n\t\t\t// positive X\n\t\t\tnew Vector4( 2, 1, 1, 1 ),\n\t\t\t// negative X\n\t\t\tnew Vector4( 0, 1, 1, 1 ),\n\t\t\t// positive Z\n\t\t\tnew Vector4( 3, 1, 1, 1 ),\n\t\t\t// negative Z\n\t\t\tnew Vector4( 1, 1, 1, 1 ),\n\t\t\t// positive Y\n\t\t\tnew Vector4( 3, 0, 1, 1 ),\n\t\t\t// negative Y\n\t\t\tnew Vector4( 1, 0, 1, 1 )\n\t\t];\n\n\t\tthis._cubeDirections = [\n\t\t\tnew Vector3( 1, 0, 0 ), new Vector3( -1, 0, 0 ), new Vector3( 0, 0, 1 ),\n\t\t\tnew Vector3( 0, 0, -1 ), new Vector3( 0, 1, 0 ), new Vector3( 0, -1, 0 )\n\t\t];\n\n\t\tthis._cubeUps = [\n\t\t\tnew Vector3( 0, 1, 0 ), new Vector3( 0, 1, 0 ), new Vector3( 0, 1, 0 ),\n\t\t\tnew Vector3( 0, 1, 0 ), new Vector3( 0, 0, 1 ),\tnew Vector3( 0, 0, -1 )\n\t\t];\n\n\t}\n\n\t/**\n\t * Update the matrices for the camera and shadow, used internally by the renderer.\n\t *\n\t * @param {Light} light - The light for which the shadow is being rendered.\n\t * @param {number} [viewportIndex=0] - The viewport index.\n\t */\n\tupdateMatrices( light, viewportIndex = 0 ) {\n\n\t\tconst camera = this.camera;\n\t\tconst shadowMatrix = this.matrix;\n\n\t\tconst far = light.distance || camera.far;\n\n\t\tif ( far !== camera.far ) {\n\n\t\t\tcamera.far = far;\n\t\t\tcamera.updateProjectionMatrix();\n\n\t\t}\n\n\t\t_lightPositionWorld.setFromMatrixPosition( light.matrixWorld );\n\t\tcamera.position.copy( _lightPositionWorld );\n\n\t\t_lookTarget.copy( camera.position );\n\t\t_lookTarget.add( this._cubeDirections[ viewportIndex ] );\n\t\tcamera.up.copy( this._cubeUps[ viewportIndex ] );\n\t\tcamera.lookAt( _lookTarget );\n\t\tcamera.updateMatrixWorld();\n\n\t\tshadowMatrix.makeTranslation( - _lightPositionWorld.x, - _lightPositionWorld.y, - _lightPositionWorld.z );\n\n\t\t_projScreenMatrix.multiplyMatrices( camera.projectionMatrix, camera.matrixWorldInverse );\n\t\tthis._frustum.setFromProjectionMatrix( _projScreenMatrix, camera.coordinateSystem, camera.reversedDepth );\n\n\t}\n\n}\n\n/**\n * A light that gets emitted from a single point in all directions. A common\n * use case for this is to replicate the light emitted from a bare\n * lightbulb.\n *\n * This light can cast shadows - see the {@link PointLightShadow} for details.\n *\n * ```js\n * const light = new THREE.PointLight( 0xff0000, 1, 100 );\n * light.position.set( 50, 50, 50 );\n * scene.add( light );\n * ```\n *\n * @augments Light\n */\nclass PointLight extends Light {\n\n\t/**\n\t * Constructs a new point light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity measured in candela (cd).\n\t * @param {number} [distance=0] - Maximum range of the light. `0` means no limit.\n\t * @param {number} [decay=2] - The amount the light dims along the distance of the light.\n\t */\n\tconstructor( color, intensity, distance = 0, decay = 2 ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPointLight = true;\n\n\t\tthis.type = 'PointLight';\n\n\t\t/**\n\t\t * When distance is zero, light will attenuate according to inverse-square\n\t\t * law to infinite distance. When distance is non-zero, light will attenuate\n\t\t * according to inverse-square law until near the distance cutoff, where it\n\t\t * will then attenuate quickly and smoothly to 0. Inherently, cutoffs are not\n\t\t * physically correct.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.distance = distance;\n\n\t\t/**\n\t\t * The amount the light dims along the distance of the light. In context of\n\t\t * physically-correct rendering the default value should not be changed.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2\n\t\t */\n\t\tthis.decay = decay;\n\n\t\t/**\n\t\t * This property holds the light's shadow configuration.\n\t\t *\n\t\t * @type {PointLightShadow}\n\t\t */\n\t\tthis.shadow = new PointLightShadow();\n\n\t}\n\n\t/**\n\t * The light's power. Power is the luminous power of the light measured in lumens (lm).\n\t * Changing the power will also change the light's intensity.\n\t *\n\t * @type {number}\n\t */\n\tget power() {\n\n\t\t// compute the light's luminous power (in lumens) from its intensity (in candela)\n\t\t// for an isotropic light source, luminous power (lm) = 4 π luminous intensity (cd)\n\t\treturn this.intensity * 4 * Math.PI;\n\n\t}\n\n\tset power( power ) {\n\n\t\t// set the light's intensity (in candela) from the desired luminous power (in lumens)\n\t\tthis.intensity = power / ( 4 * Math.PI );\n\n\t}\n\n\tdispose() {\n\n\t\tthis.shadow.dispose();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.distance = source.distance;\n\t\tthis.decay = source.decay;\n\n\t\tthis.shadow = source.shadow.clone();\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Camera that uses [orthographic projection]{@link https://en.wikipedia.org/wiki/Orthographic_projection}.\n *\n * In this projection mode, an object's size in the rendered image stays\n * constant regardless of its distance from the camera. This can be useful\n * for rendering 2D scenes and UI elements, amongst other things.\n *\n * ```js\n * const camera = new THREE.OrthographicCamera( width / - 2, width / 2, height / 2, height / - 2, 1, 1000 );\n * scene.add( camera );\n * ```\n *\n * @augments Camera\n */\nclass OrthographicCamera extends Camera {\n\n\t/**\n\t * Constructs a new orthographic camera.\n\t *\n\t * @param {number} [left=-1] - The left plane of the camera's frustum.\n\t * @param {number} [right=1] - The right plane of the camera's frustum.\n\t * @param {number} [top=1] - The top plane of the camera's frustum.\n\t * @param {number} [bottom=-1] - The bottom plane of the camera's frustum.\n\t * @param {number} [near=0.1] - The camera's near plane.\n\t * @param {number} [far=2000] - The camera's far plane.\n\t */\n\tconstructor( left = -1, right = 1, top = 1, bottom = -1, near = 0.1, far = 2000 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isOrthographicCamera = true;\n\n\t\tthis.type = 'OrthographicCamera';\n\n\t\t/**\n\t\t * The zoom factor of the camera.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.zoom = 1;\n\n\t\t/**\n\t\t * Represents the frustum window specification. This property should not be edited\n\t\t * directly but via {@link PerspectiveCamera#setViewOffset} and {@link PerspectiveCamera#clearViewOffset}.\n\t\t *\n\t\t * @type {?Object}\n\t\t * @default null\n\t\t */\n\t\tthis.view = null;\n\n\t\t/**\n\t\t * The left plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default -1\n\t\t */\n\t\tthis.left = left;\n\n\t\t/**\n\t\t * The right plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.right = right;\n\n\t\t/**\n\t\t * The top plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.top = top;\n\n\t\t/**\n\t\t * The bottom plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default -1\n\t\t */\n\t\tthis.bottom = bottom;\n\n\t\t/**\n\t\t * The camera's near plane. The valid range is greater than `0`\n\t\t * and less than the current value of {@link OrthographicCamera#far}.\n\t\t *\n\t\t * Note that, unlike for the {@link PerspectiveCamera}, `0` is a\n\t\t * valid value for an orthographic camera's near plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.1\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * The camera's far plane. Must be greater than the\n\t\t * current value of {@link OrthographicCamera#near}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2000\n\t\t */\n\t\tthis.far = far;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.left = source.left;\n\t\tthis.right = source.right;\n\t\tthis.top = source.top;\n\t\tthis.bottom = source.bottom;\n\t\tthis.near = source.near;\n\t\tthis.far = source.far;\n\n\t\tthis.zoom = source.zoom;\n\t\tthis.view = source.view === null ? null : Object.assign( {}, source.view );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets an offset in a larger frustum. This is useful for multi-window or\n\t * multi-monitor/multi-machine setups.\n\t *\n\t * @param {number} fullWidth - The full width of multiview setup.\n\t * @param {number} fullHeight - The full height of multiview setup.\n\t * @param {number} x - The horizontal offset of the subcamera.\n\t * @param {number} y - The vertical offset of the subcamera.\n\t * @param {number} width - The width of subcamera.\n\t * @param {number} height - The height of subcamera.\n\t * @see {@link PerspectiveCamera#setViewOffset}\n\t */\n\tsetViewOffset( fullWidth, fullHeight, x, y, width, height ) {\n\n\t\tif ( this.view === null ) {\n\n\t\t\tthis.view = {\n\t\t\t\tenabled: true,\n\t\t\t\tfullWidth: 1,\n\t\t\t\tfullHeight: 1,\n\t\t\t\toffsetX: 0,\n\t\t\t\toffsetY: 0,\n\t\t\t\twidth: 1,\n\t\t\t\theight: 1\n\t\t\t};\n\n\t\t}\n\n\t\tthis.view.enabled = true;\n\t\tthis.view.fullWidth = fullWidth;\n\t\tthis.view.fullHeight = fullHeight;\n\t\tthis.view.offsetX = x;\n\t\tthis.view.offsetY = y;\n\t\tthis.view.width = width;\n\t\tthis.view.height = height;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Removes the view offset from the projection matrix.\n\t */\n\tclearViewOffset() {\n\n\t\tif ( this.view !== null ) {\n\n\t\t\tthis.view.enabled = false;\n\n\t\t}\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Updates the camera's projection matrix. Must be called after any change of\n\t * camera properties.\n\t */\n\tupdateProjectionMatrix() {\n\n\t\tconst dx = ( this.right - this.left ) / ( 2 * this.zoom );\n\t\tconst dy = ( this.top - this.bottom ) / ( 2 * this.zoom );\n\t\tconst cx = ( this.right + this.left ) / 2;\n\t\tconst cy = ( this.top + this.bottom ) / 2;\n\n\t\tlet left = cx - dx;\n\t\tlet right = cx + dx;\n\t\tlet top = cy + dy;\n\t\tlet bottom = cy - dy;\n\n\t\tif ( this.view !== null && this.view.enabled ) {\n\n\t\t\tconst scaleW = ( this.right - this.left ) / this.view.fullWidth / this.zoom;\n\t\t\tconst scaleH = ( this.top - this.bottom ) / this.view.fullHeight / this.zoom;\n\n\t\t\tleft += scaleW * this.view.offsetX;\n\t\t\tright = left + scaleW * this.view.width;\n\t\t\ttop -= scaleH * this.view.offsetY;\n\t\t\tbottom = top - scaleH * this.view.height;\n\n\t\t}\n\n\t\tthis.projectionMatrix.makeOrthographic( left, right, top, bottom, this.near, this.far, this.coordinateSystem, this.reversedDepth );\n\n\t\tthis.projectionMatrixInverse.copy( this.projectionMatrix ).invert();\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.zoom = this.zoom;\n\t\tdata.object.left = this.left;\n\t\tdata.object.right = this.right;\n\t\tdata.object.top = this.top;\n\t\tdata.object.bottom = this.bottom;\n\t\tdata.object.near = this.near;\n\t\tdata.object.far = this.far;\n\n\t\tif ( this.view !== null ) data.object.view = Object.assign( {}, this.view );\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Represents the shadow configuration of directional lights.\n *\n * @augments LightShadow\n */\nclass DirectionalLightShadow extends LightShadow {\n\n\t/**\n\t * Constructs a new directional light shadow.\n\t */\n\tconstructor() {\n\n\t\tsuper( new OrthographicCamera( -5, 5, 5, -5, 0.5, 500 ) );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDirectionalLightShadow = true;\n\n\t}\n\n}\n\n/**\n * A light that gets emitted in a specific direction. This light will behave\n * as though it is infinitely far away and the rays produced from it are all\n * parallel. The common use case for this is to simulate daylight; the sun is\n * far enough away that its position can be considered to be infinite, and\n * all light rays coming from it are parallel.\n *\n * A common point of confusion for directional lights is that setting the\n * rotation has no effect. This is because three.js's DirectionalLight is the\n * equivalent to what is often called a 'Target Direct Light' in other\n * applications.\n *\n * This means that its direction is calculated as pointing from the light's\n * {@link Object3D#position} to the {@link DirectionalLight#target} position\n * (as opposed to a 'Free Direct Light' that just has a rotation\n * component).\n *\n * This light can cast shadows - see the {@link DirectionalLightShadow} for details.\n *\n * ```js\n * // White directional light at half intensity shining from the top.\n * const directionalLight = new THREE.DirectionalLight( 0xffffff, 0.5 );\n * scene.add( directionalLight );\n * ```\n *\n * @augments Light\n */\nclass DirectionalLight extends Light {\n\n\t/**\n\t * Constructs a new directional light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( color, intensity ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDirectionalLight = true;\n\n\t\tthis.type = 'DirectionalLight';\n\n\t\tthis.position.copy( Object3D.DEFAULT_UP );\n\t\tthis.updateMatrix();\n\n\t\t/**\n\t\t * The directional light points from its position to the\n\t\t * target's position.\n\t\t *\n\t\t * For the target's position to be changed to anything other\n\t\t * than the default, it must be added to the scene.\n\t\t *\n\t\t * It is also possible to set the target to be another 3D object\n\t\t * in the scene. The light will now track the target object.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.target = new Object3D();\n\n\t\t/**\n\t\t * This property holds the light's shadow configuration.\n\t\t *\n\t\t * @type {DirectionalLightShadow}\n\t\t */\n\t\tthis.shadow = new DirectionalLightShadow();\n\n\t}\n\n\tdispose() {\n\n\t\tthis.shadow.dispose();\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.target = source.target.clone();\n\t\tthis.shadow = source.shadow.clone();\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This light globally illuminates all objects in the scene equally.\n *\n * It cannot be used to cast shadows as it does not have a direction.\n *\n * ```js\n * const light = new THREE.AmbientLight( 0x404040 ); // soft white light\n * scene.add( light );\n * ```\n *\n * @augments Light\n */\nclass AmbientLight extends Light {\n\n\t/**\n\t * Constructs a new ambient light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( color, intensity ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isAmbientLight = true;\n\n\t\tthis.type = 'AmbientLight';\n\n\t}\n\n}\n\n/**\n * This class emits light uniformly across the face a rectangular plane.\n * This light type can be used to simulate light sources such as bright\n * windows or strip lighting.\n *\n * Important Notes:\n *\n * - There is no shadow support.\n * - Only PBR materials are supported.\n * - You have to include `RectAreaLightUniformsLib` (`WebGLRenderer`) or `RectAreaLightTexturesLib` (`WebGPURenderer`)\n * into your app and init the uniforms/textures.\n *\n * ```js\n * RectAreaLightUniformsLib.init(); // only relevant for WebGLRenderer\n * THREE.RectAreaLightNode.setLTC( RectAreaLightTexturesLib.init() ); // only relevant for WebGPURenderer\n *\n * const intensity = 1; const width = 10; const height = 10;\n * const rectLight = new THREE.RectAreaLight( 0xffffff, intensity, width, height );\n * rectLight.position.set( 5, 5, 0 );\n * rectLight.lookAt( 0, 0, 0 );\n * scene.add( rectLight )\n * ```\n *\n * @augments Light\n */\nclass RectAreaLight extends Light {\n\n\t/**\n\t * Constructs a new area light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t * @param {number} [width=10] - The width of the light.\n\t * @param {number} [height=10] - The height of the light.\n\t */\n\tconstructor( color, intensity, width = 10, height = 10 ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRectAreaLight = true;\n\n\t\tthis.type = 'RectAreaLight';\n\n\t\t/**\n\t\t * The width of the light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 10\n\t\t */\n\t\tthis.width = width;\n\n\t\t/**\n\t\t * The height of the light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 10\n\t\t */\n\t\tthis.height = height;\n\n\t}\n\n\t/**\n\t * The light's power. Power is the luminous power of the light measured in lumens (lm).\n\t * Changing the power will also change the light's intensity.\n\t *\n\t * @type {number}\n\t */\n\tget power() {\n\n\t\t// compute the light's luminous power (in lumens) from its intensity (in nits)\n\t\treturn this.intensity * this.width * this.height * Math.PI;\n\n\t}\n\n\tset power( power ) {\n\n\t\t// set the light's intensity (in nits) from the desired luminous power (in lumens)\n\t\tthis.intensity = power / ( this.width * this.height * Math.PI );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.width = source.width;\n\t\tthis.height = source.height;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.width = this.width;\n\t\tdata.object.height = this.height;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Represents a third-order spherical harmonics (SH). Light probes use this class\n * to encode lighting information.\n *\n * - Primary reference: {@link https://graphics.stanford.edu/papers/envmap/envmap.pdf}\n * - Secondary reference: {@link https://www.ppsloan.org/publications/StupidSH36.pdf}\n */\nclass SphericalHarmonics3 {\n\n\t/**\n\t * Constructs a new spherical harmonics.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSphericalHarmonics3 = true;\n\n\t\t/**\n\t\t * An array holding the (9) SH coefficients.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.coefficients = [];\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients.push( new Vector3() );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the given SH coefficients to this instance by copying\n\t * the values.\n\t *\n\t * @param {Array} coefficients - The SH coefficients.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tset( coefficients ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].copy( coefficients[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets all SH coefficients to `0`.\n\t *\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tzero() {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].set( 0, 0, 0 );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the radiance in the direction of the given normal.\n\t *\n\t * @param {Vector3} normal - The normal vector (assumed to be unit length)\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The radiance.\n\t */\n\tgetAt( normal, target ) {\n\n\t\t// normal is assumed to be unit length\n\n\t\tconst x = normal.x, y = normal.y, z = normal.z;\n\n\t\tconst coeff = this.coefficients;\n\n\t\t// band 0\n\t\ttarget.copy( coeff[ 0 ] ).multiplyScalar( 0.282095 );\n\n\t\t// band 1\n\t\ttarget.addScaledVector( coeff[ 1 ], 0.488603 * y );\n\t\ttarget.addScaledVector( coeff[ 2 ], 0.488603 * z );\n\t\ttarget.addScaledVector( coeff[ 3 ], 0.488603 * x );\n\n\t\t// band 2\n\t\ttarget.addScaledVector( coeff[ 4 ], 1.092548 * ( x * y ) );\n\t\ttarget.addScaledVector( coeff[ 5 ], 1.092548 * ( y * z ) );\n\t\ttarget.addScaledVector( coeff[ 6 ], 0.315392 * ( 3.0 * z * z - 1.0 ) );\n\t\ttarget.addScaledVector( coeff[ 7 ], 1.092548 * ( x * z ) );\n\t\ttarget.addScaledVector( coeff[ 8 ], 0.546274 * ( x * x - y * y ) );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the irradiance (radiance convolved with cosine lobe) in the\n\t * direction of the given normal.\n\t *\n\t * @param {Vector3} normal - The normal vector (assumed to be unit length)\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The irradiance.\n\t */\n\tgetIrradianceAt( normal, target ) {\n\n\t\t// normal is assumed to be unit length\n\n\t\tconst x = normal.x, y = normal.y, z = normal.z;\n\n\t\tconst coeff = this.coefficients;\n\n\t\t// band 0\n\t\ttarget.copy( coeff[ 0 ] ).multiplyScalar( 0.886227 ); // π * 0.282095\n\n\t\t// band 1\n\t\ttarget.addScaledVector( coeff[ 1 ], 2.0 * 0.511664 * y ); // ( 2 * π / 3 ) * 0.488603\n\t\ttarget.addScaledVector( coeff[ 2 ], 2.0 * 0.511664 * z );\n\t\ttarget.addScaledVector( coeff[ 3 ], 2.0 * 0.511664 * x );\n\n\t\t// band 2\n\t\ttarget.addScaledVector( coeff[ 4 ], 2.0 * 0.429043 * x * y ); // ( π / 4 ) * 1.092548\n\t\ttarget.addScaledVector( coeff[ 5 ], 2.0 * 0.429043 * y * z );\n\t\ttarget.addScaledVector( coeff[ 6 ], 0.743125 * z * z - 0.247708 ); // ( π / 4 ) * 0.315392 * 3\n\t\ttarget.addScaledVector( coeff[ 7 ], 2.0 * 0.429043 * x * z );\n\t\ttarget.addScaledVector( coeff[ 8 ], 0.429043 * ( x * x - y * y ) ); // ( π / 4 ) * 0.546274\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Adds the given SH to this instance.\n\t *\n\t * @param {SphericalHarmonics3} sh - The SH to add.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tadd( sh ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].add( sh.coefficients[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * A convenience method for performing {@link SphericalHarmonics3#add} and\n\t * {@link SphericalHarmonics3#scale} at once.\n\t *\n\t * @param {SphericalHarmonics3} sh - The SH to add.\n\t * @param {number} s - The scale factor.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\taddScaledSH( sh, s ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].addScaledVector( sh.coefficients[ i ], s );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scales this SH by the given scale factor.\n\t *\n\t * @param {number} s - The scale factor.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tscale( s ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].multiplyScalar( s );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linear interpolates between the given SH and this instance by the given\n\t * alpha factor.\n\t *\n\t * @param {SphericalHarmonics3} sh - The SH to interpolate with.\n\t * @param {number} alpha - The alpha factor.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tlerp( sh, alpha ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].lerp( sh.coefficients[ i ], alpha );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this spherical harmonics is equal with the given one.\n\t *\n\t * @param {SphericalHarmonics3} sh - The spherical harmonics to test for equality.\n\t * @return {boolean} Whether this spherical harmonics is equal with the given one.\n\t */\n\tequals( sh ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tif ( ! this.coefficients[ i ].equals( sh.coefficients[ i ] ) ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Copies the values of the given spherical harmonics to this instance.\n\t *\n\t * @param {SphericalHarmonics3} sh - The spherical harmonics to copy.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tcopy( sh ) {\n\n\t\treturn this.set( sh.coefficients );\n\n\t}\n\n\t/**\n\t * Returns a new spherical harmonics with copied values from this instance.\n\t *\n\t * @return {SphericalHarmonics3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Sets the SH coefficients of this instance from the given array.\n\t *\n\t * @param {Array} array - An array holding the SH coefficients.\n\t * @param {number} [offset=0] - The array offset where to start copying.\n\t * @return {SphericalHarmonics3} A clone of this instance.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tconst coefficients = this.coefficients;\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tcoefficients[ i ].fromArray( array, offset + ( i * 3 ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns an array with the SH coefficients, or copies them into the provided\n\t * array. The coefficients are represented as numbers.\n\t *\n\t * @param {Array} [array=[]] - The target array.\n\t * @param {number} [offset=0] - The array offset where to start copying.\n\t * @return {Array} An array with flat SH coefficients.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tconst coefficients = this.coefficients;\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tcoefficients[ i ].toArray( array, offset + ( i * 3 ) );\n\n\t\t}\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Computes the SH basis for the given normal vector.\n\t *\n\t * @param {Vector3} normal - The normal.\n\t * @param {Array} shBasis - The target array holding the SH basis.\n\t */\n\tstatic getBasisAt( normal, shBasis ) {\n\n\t\t// normal is assumed to be unit length\n\n\t\tconst x = normal.x, y = normal.y, z = normal.z;\n\n\t\t// band 0\n\t\tshBasis[ 0 ] = 0.282095;\n\n\t\t// band 1\n\t\tshBasis[ 1 ] = 0.488603 * y;\n\t\tshBasis[ 2 ] = 0.488603 * z;\n\t\tshBasis[ 3 ] = 0.488603 * x;\n\n\t\t// band 2\n\t\tshBasis[ 4 ] = 1.092548 * x * y;\n\t\tshBasis[ 5 ] = 1.092548 * y * z;\n\t\tshBasis[ 6 ] = 0.315392 * ( 3 * z * z - 1 );\n\t\tshBasis[ 7 ] = 1.092548 * x * z;\n\t\tshBasis[ 8 ] = 0.546274 * ( x * x - y * y );\n\n\t}\n\n}\n\n/**\n * Light probes are an alternative way of adding light to a 3D scene. Unlike\n * classical light sources (e.g. directional, point or spot lights), light\n * probes do not emit light. Instead they store information about light\n * passing through 3D space. During rendering, the light that hits a 3D\n * object is approximated by using the data from the light probe.\n *\n * Light probes are usually created from (radiance) environment maps. The\n * class {@link LightProbeGenerator} can be used to create light probes from\n * cube textures or render targets. However, light estimation data could also\n * be provided in other forms e.g. by WebXR. This enables the rendering of\n * augmented reality content that reacts to real world lighting.\n *\n * The current probe implementation in three.js supports so-called diffuse\n * light probes. This type of light probe is functionally equivalent to an\n * irradiance environment map.\n *\n * @augments Light\n */\nclass LightProbe extends Light {\n\n\t/**\n\t * Constructs a new light probe.\n\t *\n\t * @param {SphericalHarmonics3} sh - The spherical harmonics which represents encoded lighting information.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( sh = new SphericalHarmonics3(), intensity = 1 ) {\n\n\t\tsuper( undefined, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLightProbe = true;\n\n\t\t/**\n\t\t * A light probe uses spherical harmonics to encode lighting information.\n\t\t *\n\t\t * @type {SphericalHarmonics3}\n\t\t */\n\t\tthis.sh = sh;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.sh.copy( source.sh );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Deserializes the light prove from the given JSON.\n\t *\n\t * @param {Object} json - The JSON holding the serialized light probe.\n\t * @return {LightProbe} A reference to this light probe.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.intensity = json.intensity; // TODO: Move this bit to Light.fromJSON();\n\t\tthis.sh.fromArray( json.sh );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.sh = this.sh.toArray();\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Class for loading geometries. The files are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.MaterialLoader();\n * const material = await loader.loadAsync( 'material.json' );\n * ```\n * This loader does not support node materials. Use {@link NodeMaterialLoader} instead.\n *\n * @augments Loader\n */\nclass MaterialLoader extends Loader {\n\n\t/**\n\t * Constructs a new material loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t\t/**\n\t\t * A dictionary holding textures used by the material.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.textures = {};\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded material to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Material)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( scope.manager );\n\t\tloader.setPath( scope.path );\n\t\tloader.setRequestHeader( scope.requestHeader );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\ttry {\n\n\t\t\t\tonLoad( scope.parse( JSON.parse( text ) ) );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\tif ( onError ) {\n\n\t\t\t\t\tonError( e );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( e );\n\n\t\t\t\t}\n\n\t\t\t\tscope.manager.itemError( url );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Parses the given JSON object and returns a material.\n\t *\n\t * @param {Object} json - The serialized material.\n\t * @return {Material} The parsed material.\n\t */\n\tparse( json ) {\n\n\t\tconst textures = this.textures;\n\n\t\tfunction getTexture( name ) {\n\n\t\t\tif ( textures[ name ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.MaterialLoader: Undefined texture', name );\n\n\t\t\t}\n\n\t\t\treturn textures[ name ];\n\n\t\t}\n\n\t\tconst material = this.createMaterialFromType( json.type );\n\n\t\tif ( json.uuid !== undefined ) material.uuid = json.uuid;\n\t\tif ( json.name !== undefined ) material.name = json.name;\n\t\tif ( json.color !== undefined && material.color !== undefined ) material.color.setHex( json.color );\n\t\tif ( json.roughness !== undefined ) material.roughness = json.roughness;\n\t\tif ( json.metalness !== undefined ) material.metalness = json.metalness;\n\t\tif ( json.sheen !== undefined ) material.sheen = json.sheen;\n\t\tif ( json.sheenColor !== undefined ) material.sheenColor = new Color().setHex( json.sheenColor );\n\t\tif ( json.sheenRoughness !== undefined ) material.sheenRoughness = json.sheenRoughness;\n\t\tif ( json.emissive !== undefined && material.emissive !== undefined ) material.emissive.setHex( json.emissive );\n\t\tif ( json.specular !== undefined && material.specular !== undefined ) material.specular.setHex( json.specular );\n\t\tif ( json.specularIntensity !== undefined ) material.specularIntensity = json.specularIntensity;\n\t\tif ( json.specularColor !== undefined && material.specularColor !== undefined ) material.specularColor.setHex( json.specularColor );\n\t\tif ( json.shininess !== undefined ) material.shininess = json.shininess;\n\t\tif ( json.clearcoat !== undefined ) material.clearcoat = json.clearcoat;\n\t\tif ( json.clearcoatRoughness !== undefined ) material.clearcoatRoughness = json.clearcoatRoughness;\n\t\tif ( json.dispersion !== undefined ) material.dispersion = json.dispersion;\n\t\tif ( json.iridescence !== undefined ) material.iridescence = json.iridescence;\n\t\tif ( json.iridescenceIOR !== undefined ) material.iridescenceIOR = json.iridescenceIOR;\n\t\tif ( json.iridescenceThicknessRange !== undefined ) material.iridescenceThicknessRange = json.iridescenceThicknessRange;\n\t\tif ( json.transmission !== undefined ) material.transmission = json.transmission;\n\t\tif ( json.thickness !== undefined ) material.thickness = json.thickness;\n\t\tif ( json.attenuationDistance !== undefined ) material.attenuationDistance = json.attenuationDistance;\n\t\tif ( json.attenuationColor !== undefined && material.attenuationColor !== undefined ) material.attenuationColor.setHex( json.attenuationColor );\n\t\tif ( json.anisotropy !== undefined ) material.anisotropy = json.anisotropy;\n\t\tif ( json.anisotropyRotation !== undefined ) material.anisotropyRotation = json.anisotropyRotation;\n\t\tif ( json.fog !== undefined ) material.fog = json.fog;\n\t\tif ( json.flatShading !== undefined ) material.flatShading = json.flatShading;\n\t\tif ( json.blending !== undefined ) material.blending = json.blending;\n\t\tif ( json.combine !== undefined ) material.combine = json.combine;\n\t\tif ( json.side !== undefined ) material.side = json.side;\n\t\tif ( json.shadowSide !== undefined ) material.shadowSide = json.shadowSide;\n\t\tif ( json.opacity !== undefined ) material.opacity = json.opacity;\n\t\tif ( json.transparent !== undefined ) material.transparent = json.transparent;\n\t\tif ( json.alphaTest !== undefined ) material.alphaTest = json.alphaTest;\n\t\tif ( json.alphaHash !== undefined ) material.alphaHash = json.alphaHash;\n\t\tif ( json.depthFunc !== undefined ) material.depthFunc = json.depthFunc;\n\t\tif ( json.depthTest !== undefined ) material.depthTest = json.depthTest;\n\t\tif ( json.depthWrite !== undefined ) material.depthWrite = json.depthWrite;\n\t\tif ( json.colorWrite !== undefined ) material.colorWrite = json.colorWrite;\n\t\tif ( json.blendSrc !== undefined ) material.blendSrc = json.blendSrc;\n\t\tif ( json.blendDst !== undefined ) material.blendDst = json.blendDst;\n\t\tif ( json.blendEquation !== undefined ) material.blendEquation = json.blendEquation;\n\t\tif ( json.blendSrcAlpha !== undefined ) material.blendSrcAlpha = json.blendSrcAlpha;\n\t\tif ( json.blendDstAlpha !== undefined ) material.blendDstAlpha = json.blendDstAlpha;\n\t\tif ( json.blendEquationAlpha !== undefined ) material.blendEquationAlpha = json.blendEquationAlpha;\n\t\tif ( json.blendColor !== undefined && material.blendColor !== undefined ) material.blendColor.setHex( json.blendColor );\n\t\tif ( json.blendAlpha !== undefined ) material.blendAlpha = json.blendAlpha;\n\t\tif ( json.stencilWriteMask !== undefined ) material.stencilWriteMask = json.stencilWriteMask;\n\t\tif ( json.stencilFunc !== undefined ) material.stencilFunc = json.stencilFunc;\n\t\tif ( json.stencilRef !== undefined ) material.stencilRef = json.stencilRef;\n\t\tif ( json.stencilFuncMask !== undefined ) material.stencilFuncMask = json.stencilFuncMask;\n\t\tif ( json.stencilFail !== undefined ) material.stencilFail = json.stencilFail;\n\t\tif ( json.stencilZFail !== undefined ) material.stencilZFail = json.stencilZFail;\n\t\tif ( json.stencilZPass !== undefined ) material.stencilZPass = json.stencilZPass;\n\t\tif ( json.stencilWrite !== undefined ) material.stencilWrite = json.stencilWrite;\n\n\t\tif ( json.wireframe !== undefined ) material.wireframe = json.wireframe;\n\t\tif ( json.wireframeLinewidth !== undefined ) material.wireframeLinewidth = json.wireframeLinewidth;\n\t\tif ( json.wireframeLinecap !== undefined ) material.wireframeLinecap = json.wireframeLinecap;\n\t\tif ( json.wireframeLinejoin !== undefined ) material.wireframeLinejoin = json.wireframeLinejoin;\n\n\t\tif ( json.rotation !== undefined ) material.rotation = json.rotation;\n\n\t\tif ( json.linewidth !== undefined ) material.linewidth = json.linewidth;\n\t\tif ( json.dashSize !== undefined ) material.dashSize = json.dashSize;\n\t\tif ( json.gapSize !== undefined ) material.gapSize = json.gapSize;\n\t\tif ( json.scale !== undefined ) material.scale = json.scale;\n\n\t\tif ( json.polygonOffset !== undefined ) material.polygonOffset = json.polygonOffset;\n\t\tif ( json.polygonOffsetFactor !== undefined ) material.polygonOffsetFactor = json.polygonOffsetFactor;\n\t\tif ( json.polygonOffsetUnits !== undefined ) material.polygonOffsetUnits = json.polygonOffsetUnits;\n\n\t\tif ( json.dithering !== undefined ) material.dithering = json.dithering;\n\n\t\tif ( json.alphaToCoverage !== undefined ) material.alphaToCoverage = json.alphaToCoverage;\n\t\tif ( json.premultipliedAlpha !== undefined ) material.premultipliedAlpha = json.premultipliedAlpha;\n\t\tif ( json.forceSinglePass !== undefined ) material.forceSinglePass = json.forceSinglePass;\n\n\t\tif ( json.visible !== undefined ) material.visible = json.visible;\n\n\t\tif ( json.toneMapped !== undefined ) material.toneMapped = json.toneMapped;\n\n\t\tif ( json.userData !== undefined ) material.userData = json.userData;\n\n\t\tif ( json.vertexColors !== undefined ) {\n\n\t\t\tif ( typeof json.vertexColors === 'number' ) {\n\n\t\t\t\tmaterial.vertexColors = ( json.vertexColors > 0 ) ? true : false;\n\n\t\t\t} else {\n\n\t\t\t\tmaterial.vertexColors = json.vertexColors;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// Shader Material\n\n\t\tif ( json.uniforms !== undefined ) {\n\n\t\t\tfor ( const name in json.uniforms ) {\n\n\t\t\t\tconst uniform = json.uniforms[ name ];\n\n\t\t\t\tmaterial.uniforms[ name ] = {};\n\n\t\t\t\tswitch ( uniform.type ) {\n\n\t\t\t\t\tcase 't':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = getTexture( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'c':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Color().setHex( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'v2':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Vector2().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'v3':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Vector3().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'v4':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Vector4().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'm3':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Matrix3().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'm4':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Matrix4().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tdefault:\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = uniform.value;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json.defines !== undefined ) material.defines = json.defines;\n\t\tif ( json.vertexShader !== undefined ) material.vertexShader = json.vertexShader;\n\t\tif ( json.fragmentShader !== undefined ) material.fragmentShader = json.fragmentShader;\n\t\tif ( json.glslVersion !== undefined ) material.glslVersion = json.glslVersion;\n\n\t\tif ( json.extensions !== undefined ) {\n\n\t\t\tfor ( const key in json.extensions ) {\n\n\t\t\t\tmaterial.extensions[ key ] = json.extensions[ key ];\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json.lights !== undefined ) material.lights = json.lights;\n\t\tif ( json.clipping !== undefined ) material.clipping = json.clipping;\n\n\t\t// for PointsMaterial\n\n\t\tif ( json.size !== undefined ) material.size = json.size;\n\t\tif ( json.sizeAttenuation !== undefined ) material.sizeAttenuation = json.sizeAttenuation;\n\n\t\t// maps\n\n\t\tif ( json.map !== undefined ) material.map = getTexture( json.map );\n\t\tif ( json.matcap !== undefined ) material.matcap = getTexture( json.matcap );\n\n\t\tif ( json.alphaMap !== undefined ) material.alphaMap = getTexture( json.alphaMap );\n\n\t\tif ( json.bumpMap !== undefined ) material.bumpMap = getTexture( json.bumpMap );\n\t\tif ( json.bumpScale !== undefined ) material.bumpScale = json.bumpScale;\n\n\t\tif ( json.normalMap !== undefined ) material.normalMap = getTexture( json.normalMap );\n\t\tif ( json.normalMapType !== undefined ) material.normalMapType = json.normalMapType;\n\t\tif ( json.normalScale !== undefined ) {\n\n\t\t\tlet normalScale = json.normalScale;\n\n\t\t\tif ( Array.isArray( normalScale ) === false ) {\n\n\t\t\t\t// Blender exporter used to export a scalar. See #7459\n\n\t\t\t\tnormalScale = [ normalScale, normalScale ];\n\n\t\t\t}\n\n\t\t\tmaterial.normalScale = new Vector2().fromArray( normalScale );\n\n\t\t}\n\n\t\tif ( json.displacementMap !== undefined ) material.displacementMap = getTexture( json.displacementMap );\n\t\tif ( json.displacementScale !== undefined ) material.displacementScale = json.displacementScale;\n\t\tif ( json.displacementBias !== undefined ) material.displacementBias = json.displacementBias;\n\n\t\tif ( json.roughnessMap !== undefined ) material.roughnessMap = getTexture( json.roughnessMap );\n\t\tif ( json.metalnessMap !== undefined ) material.metalnessMap = getTexture( json.metalnessMap );\n\n\t\tif ( json.emissiveMap !== undefined ) material.emissiveMap = getTexture( json.emissiveMap );\n\t\tif ( json.emissiveIntensity !== undefined ) material.emissiveIntensity = json.emissiveIntensity;\n\n\t\tif ( json.specularMap !== undefined ) material.specularMap = getTexture( json.specularMap );\n\t\tif ( json.specularIntensityMap !== undefined ) material.specularIntensityMap = getTexture( json.specularIntensityMap );\n\t\tif ( json.specularColorMap !== undefined ) material.specularColorMap = getTexture( json.specularColorMap );\n\n\t\tif ( json.envMap !== undefined ) material.envMap = getTexture( json.envMap );\n\t\tif ( json.envMapRotation !== undefined ) material.envMapRotation.fromArray( json.envMapRotation );\n\t\tif ( json.envMapIntensity !== undefined ) material.envMapIntensity = json.envMapIntensity;\n\n\t\tif ( json.reflectivity !== undefined ) material.reflectivity = json.reflectivity;\n\t\tif ( json.refractionRatio !== undefined ) material.refractionRatio = json.refractionRatio;\n\n\t\tif ( json.lightMap !== undefined ) material.lightMap = getTexture( json.lightMap );\n\t\tif ( json.lightMapIntensity !== undefined ) material.lightMapIntensity = json.lightMapIntensity;\n\n\t\tif ( json.aoMap !== undefined ) material.aoMap = getTexture( json.aoMap );\n\t\tif ( json.aoMapIntensity !== undefined ) material.aoMapIntensity = json.aoMapIntensity;\n\n\t\tif ( json.gradientMap !== undefined ) material.gradientMap = getTexture( json.gradientMap );\n\n\t\tif ( json.clearcoatMap !== undefined ) material.clearcoatMap = getTexture( json.clearcoatMap );\n\t\tif ( json.clearcoatRoughnessMap !== undefined ) material.clearcoatRoughnessMap = getTexture( json.clearcoatRoughnessMap );\n\t\tif ( json.clearcoatNormalMap !== undefined ) material.clearcoatNormalMap = getTexture( json.clearcoatNormalMap );\n\t\tif ( json.clearcoatNormalScale !== undefined ) material.clearcoatNormalScale = new Vector2().fromArray( json.clearcoatNormalScale );\n\n\t\tif ( json.iridescenceMap !== undefined ) material.iridescenceMap = getTexture( json.iridescenceMap );\n\t\tif ( json.iridescenceThicknessMap !== undefined ) material.iridescenceThicknessMap = getTexture( json.iridescenceThicknessMap );\n\n\t\tif ( json.transmissionMap !== undefined ) material.transmissionMap = getTexture( json.transmissionMap );\n\t\tif ( json.thicknessMap !== undefined ) material.thicknessMap = getTexture( json.thicknessMap );\n\n\t\tif ( json.anisotropyMap !== undefined ) material.anisotropyMap = getTexture( json.anisotropyMap );\n\n\t\tif ( json.sheenColorMap !== undefined ) material.sheenColorMap = getTexture( json.sheenColorMap );\n\t\tif ( json.sheenRoughnessMap !== undefined ) material.sheenRoughnessMap = getTexture( json.sheenRoughnessMap );\n\n\t\treturn material;\n\n\t}\n\n\t/**\n\t * Textures are not embedded in the material JSON so they have\n\t * to be injected before the loading process starts.\n\t *\n\t * @param {Object} value - A dictionary holding textures for material properties.\n\t * @return {MaterialLoader} A reference to this material loader.\n\t */\n\tsetTextures( value ) {\n\n\t\tthis.textures = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Creates a material for the given type.\n\t *\n\t * @param {string} type - The material type.\n\t * @return {Material} The new material.\n\t */\n\tcreateMaterialFromType( type ) {\n\n\t\treturn MaterialLoader.createMaterialFromType( type );\n\n\t}\n\n\t/**\n\t * Creates a material for the given type.\n\t *\n\t * @static\n\t * @param {string} type - The material type.\n\t * @return {Material} The new material.\n\t */\n\tstatic createMaterialFromType( type ) {\n\n\t\tconst materialLib = {\n\t\t\tShadowMaterial,\n\t\t\tSpriteMaterial,\n\t\t\tRawShaderMaterial,\n\t\t\tShaderMaterial,\n\t\t\tPointsMaterial,\n\t\t\tMeshPhysicalMaterial,\n\t\t\tMeshStandardMaterial,\n\t\t\tMeshPhongMaterial,\n\t\t\tMeshToonMaterial,\n\t\t\tMeshNormalMaterial,\n\t\t\tMeshLambertMaterial,\n\t\t\tMeshDepthMaterial,\n\t\t\tMeshDistanceMaterial,\n\t\t\tMeshBasicMaterial,\n\t\t\tMeshMatcapMaterial,\n\t\t\tLineDashedMaterial,\n\t\t\tLineBasicMaterial,\n\t\t\tMaterial\n\t\t};\n\n\t\treturn new materialLib[ type ]();\n\n\t}\n\n}\n\n/**\n * A class with loader utility functions.\n */\nclass LoaderUtils {\n\n\t/**\n\t * Extracts the base URL from the given URL.\n\t *\n\t * @param {string} url -The URL to extract the base URL from.\n\t * @return {string} The extracted base URL.\n\t */\n\tstatic extractUrlBase( url ) {\n\n\t\tconst index = url.lastIndexOf( '/' );\n\n\t\tif ( index === -1 ) return './';\n\n\t\treturn url.slice( 0, index + 1 );\n\n\t}\n\n\t/**\n\t * Resolves relative URLs against the given path. Absolute paths, data urls,\n\t * and blob URLs will be returned as is. Invalid URLs will return an empty\n\t * string.\n\t *\n\t * @param {string} url -The URL to resolve.\n\t * @param {string} path - The base path for relative URLs to be resolved against.\n\t * @return {string} The resolved URL.\n\t */\n\tstatic resolveURL( url, path ) {\n\n\t\t// Invalid URL\n\t\tif ( typeof url !== 'string' || url === '' ) return '';\n\n\t\t// Host Relative URL\n\t\tif ( /^https?:\\/\\//i.test( path ) && /^\\//.test( url ) ) {\n\n\t\t\tpath = path.replace( /(^https?:\\/\\/[^\\/]+).*/i, '$1' );\n\n\t\t}\n\n\t\t// Absolute URL http://,https://,//\n\t\tif ( /^(https?:)?\\/\\//i.test( url ) ) return url;\n\n\t\t// Data URI\n\t\tif ( /^data:.*,.*$/i.test( url ) ) return url;\n\n\t\t// Blob URL\n\t\tif ( /^blob:.*$/i.test( url ) ) return url;\n\n\t\t// Relative URL\n\t\treturn path + url;\n\n\t}\n\n}\n\n/**\n * An instanced version of a geometry.\n */\nclass InstancedBufferGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new instanced buffer geometry.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedBufferGeometry = true;\n\n\t\tthis.type = 'InstancedBufferGeometry';\n\n\t\t/**\n\t\t * The instance count.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.instanceCount = Infinity;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.instanceCount = source.instanceCount;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.instanceCount = this.instanceCount;\n\n\t\tdata.isInstancedBufferGeometry = true;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Class for loading geometries. The files are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.BufferGeometryLoader();\n * const geometry = await loader.loadAsync( 'models/json/pressure.json' );\n *\n * const material = new THREE.MeshBasicMaterial( { color: 0xF5F5F5 } );\n * const object = new THREE.Mesh( geometry, material );\n * scene.add( object );\n * ```\n *\n * @augments Loader\n */\nclass BufferGeometryLoader extends Loader {\n\n\t/**\n\t * Constructs a new geometry loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded geometry to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(BufferGeometry)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( scope.manager );\n\t\tloader.setPath( scope.path );\n\t\tloader.setRequestHeader( scope.requestHeader );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\ttry {\n\n\t\t\t\tonLoad( scope.parse( JSON.parse( text ) ) );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\tif ( onError ) {\n\n\t\t\t\t\tonError( e );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( e );\n\n\t\t\t\t}\n\n\t\t\t\tscope.manager.itemError( url );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Parses the given JSON object and returns a geometry.\n\t *\n\t * @param {Object} json - The serialized geometry.\n\t * @return {BufferGeometry} The parsed geometry.\n\t */\n\tparse( json ) {\n\n\t\tconst interleavedBufferMap = {};\n\t\tconst arrayBufferMap = {};\n\n\t\tfunction getInterleavedBuffer( json, uuid ) {\n\n\t\t\tif ( interleavedBufferMap[ uuid ] !== undefined ) return interleavedBufferMap[ uuid ];\n\n\t\t\tconst interleavedBuffers = json.interleavedBuffers;\n\t\t\tconst interleavedBuffer = interleavedBuffers[ uuid ];\n\n\t\t\tconst buffer = getArrayBuffer( json, interleavedBuffer.buffer );\n\n\t\t\tconst array = getTypedArray( interleavedBuffer.type, buffer );\n\t\t\tconst ib = new InterleavedBuffer( array, interleavedBuffer.stride );\n\t\t\tib.uuid = interleavedBuffer.uuid;\n\n\t\t\tinterleavedBufferMap[ uuid ] = ib;\n\n\t\t\treturn ib;\n\n\t\t}\n\n\t\tfunction getArrayBuffer( json, uuid ) {\n\n\t\t\tif ( arrayBufferMap[ uuid ] !== undefined ) return arrayBufferMap[ uuid ];\n\n\t\t\tconst arrayBuffers = json.arrayBuffers;\n\t\t\tconst arrayBuffer = arrayBuffers[ uuid ];\n\n\t\t\tconst ab = new Uint32Array( arrayBuffer ).buffer;\n\n\t\t\tarrayBufferMap[ uuid ] = ab;\n\n\t\t\treturn ab;\n\n\t\t}\n\n\t\tconst geometry = json.isInstancedBufferGeometry ? new InstancedBufferGeometry() : new BufferGeometry();\n\n\t\tconst index = json.data.index;\n\n\t\tif ( index !== undefined ) {\n\n\t\t\tconst typedArray = getTypedArray( index.type, index.array );\n\t\t\tgeometry.setIndex( new BufferAttribute( typedArray, 1 ) );\n\n\t\t}\n\n\t\tconst attributes = json.data.attributes;\n\n\t\tfor ( const key in attributes ) {\n\n\t\t\tconst attribute = attributes[ key ];\n\t\t\tlet bufferAttribute;\n\n\t\t\tif ( attribute.isInterleavedBufferAttribute ) {\n\n\t\t\t\tconst interleavedBuffer = getInterleavedBuffer( json.data, attribute.data );\n\t\t\t\tbufferAttribute = new InterleavedBufferAttribute( interleavedBuffer, attribute.itemSize, attribute.offset, attribute.normalized );\n\n\t\t\t} else {\n\n\t\t\t\tconst typedArray = getTypedArray( attribute.type, attribute.array );\n\t\t\t\tconst bufferAttributeConstr = attribute.isInstancedBufferAttribute ? InstancedBufferAttribute : BufferAttribute;\n\t\t\t\tbufferAttribute = new bufferAttributeConstr( typedArray, attribute.itemSize, attribute.normalized );\n\n\t\t\t}\n\n\t\t\tif ( attribute.name !== undefined ) bufferAttribute.name = attribute.name;\n\t\t\tif ( attribute.usage !== undefined ) bufferAttribute.setUsage( attribute.usage );\n\n\t\t\tgeometry.setAttribute( key, bufferAttribute );\n\n\t\t}\n\n\t\tconst morphAttributes = json.data.morphAttributes;\n\n\t\tif ( morphAttributes ) {\n\n\t\t\tfor ( const key in morphAttributes ) {\n\n\t\t\t\tconst attributeArray = morphAttributes[ key ];\n\n\t\t\t\tconst array = [];\n\n\t\t\t\tfor ( let i = 0, il = attributeArray.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst attribute = attributeArray[ i ];\n\t\t\t\t\tlet bufferAttribute;\n\n\t\t\t\t\tif ( attribute.isInterleavedBufferAttribute ) {\n\n\t\t\t\t\t\tconst interleavedBuffer = getInterleavedBuffer( json.data, attribute.data );\n\t\t\t\t\t\tbufferAttribute = new InterleavedBufferAttribute( interleavedBuffer, attribute.itemSize, attribute.offset, attribute.normalized );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tconst typedArray = getTypedArray( attribute.type, attribute.array );\n\t\t\t\t\t\tbufferAttribute = new BufferAttribute( typedArray, attribute.itemSize, attribute.normalized );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( attribute.name !== undefined ) bufferAttribute.name = attribute.name;\n\t\t\t\t\tarray.push( bufferAttribute );\n\n\t\t\t\t}\n\n\t\t\t\tgeometry.morphAttributes[ key ] = array;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst morphTargetsRelative = json.data.morphTargetsRelative;\n\n\t\tif ( morphTargetsRelative ) {\n\n\t\t\tgeometry.morphTargetsRelative = true;\n\n\t\t}\n\n\t\tconst groups = json.data.groups || json.data.drawcalls || json.data.offsets;\n\n\t\tif ( groups !== undefined ) {\n\n\t\t\tfor ( let i = 0, n = groups.length; i !== n; ++ i ) {\n\n\t\t\t\tconst group = groups[ i ];\n\n\t\t\t\tgeometry.addGroup( group.start, group.count, group.materialIndex );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst boundingSphere = json.data.boundingSphere;\n\n\t\tif ( boundingSphere !== undefined ) {\n\n\t\t\tgeometry.boundingSphere = new Sphere().fromJSON( boundingSphere );\n\n\t\t}\n\n\t\tif ( json.name ) geometry.name = json.name;\n\t\tif ( json.userData ) geometry.userData = json.userData;\n\n\t\treturn geometry;\n\n\t}\n\n}\n\n/**\n * A loader for loading a JSON resource in the [JSON Object/Scene format]{@link https://github.com/mrdoob/three.js/wiki/JSON-Object-Scene-format-4}.\n * The files are internally loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.ObjectLoader();\n * const obj = await loader.loadAsync( 'models/json/example.json' );\n * scene.add( obj );\n *\n * // Alternatively, to parse a previously loaded JSON structure\n * const object = await loader.parseAsync( a_json_object );\n * scene.add( object );\n * ```\n *\n * @augments Loader\n */\nclass ObjectLoader extends Loader {\n\n\t/**\n\t * Constructs a new object loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded 3D object to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Object3D)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst path = ( this.path === '' ) ? LoaderUtils.extractUrlBase( url ) : this.path;\n\t\tthis.resourcePath = this.resourcePath || path;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\tlet json = null;\n\n\t\t\ttry {\n\n\t\t\t\tjson = JSON.parse( text );\n\n\t\t\t} catch ( error ) {\n\n\t\t\t\tif ( onError !== undefined ) onError( error );\n\n\t\t\t\tconsole.error( 'THREE:ObjectLoader: Can\\'t parse ' + url + '.', error.message );\n\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t\tconst metadata = json.metadata;\n\n\t\t\tif ( metadata === undefined || metadata.type === undefined || metadata.type.toLowerCase() === 'geometry' ) {\n\n\t\t\t\tif ( onError !== undefined ) onError( new Error( 'THREE.ObjectLoader: Can\\'t load ' + url ) );\n\n\t\t\t\tconsole.error( 'THREE.ObjectLoader: Can\\'t load ' + url );\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t\tscope.parse( json, onLoad );\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Async version of {@link ObjectLoader#load}.\n\t *\n\t * @async\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @return {Promise} A Promise that resolves with the loaded 3D object.\n\t */\n\tasync loadAsync( url, onProgress ) {\n\n\t\tconst scope = this;\n\n\t\tconst path = ( this.path === '' ) ? LoaderUtils.extractUrlBase( url ) : this.path;\n\t\tthis.resourcePath = this.resourcePath || path;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\n\t\tconst text = await loader.loadAsync( url, onProgress );\n\n\t\tconst json = JSON.parse( text );\n\n\t\tconst metadata = json.metadata;\n\n\t\tif ( metadata === undefined || metadata.type === undefined || metadata.type.toLowerCase() === 'geometry' ) {\n\n\t\t\tthrow new Error( 'THREE.ObjectLoader: Can\\'t load ' + url );\n\n\t\t}\n\n\t\treturn await scope.parseAsync( json );\n\n\t}\n\n\t/**\n\t * Parses the given JSON. This is used internally by {@link ObjectLoader#load}\n\t * but can also be used directly to parse a previously loaded JSON structure.\n\t *\n\t * @param {Object} json - The serialized 3D object.\n\t * @param {onLoad} onLoad - Executed when all resources (e.g. textures) have been fully loaded.\n\t * @return {Object3D} The parsed 3D object.\n\t */\n\tparse( json, onLoad ) {\n\n\t\tconst animations = this.parseAnimations( json.animations );\n\t\tconst shapes = this.parseShapes( json.shapes );\n\t\tconst geometries = this.parseGeometries( json.geometries, shapes );\n\n\t\tconst images = this.parseImages( json.images, function () {\n\n\t\t\tif ( onLoad !== undefined ) onLoad( object );\n\n\t\t} );\n\n\t\tconst textures = this.parseTextures( json.textures, images );\n\t\tconst materials = this.parseMaterials( json.materials, textures );\n\n\t\tconst object = this.parseObject( json.object, geometries, materials, textures, animations );\n\t\tconst skeletons = this.parseSkeletons( json.skeletons, object );\n\n\t\tthis.bindSkeletons( object, skeletons );\n\t\tthis.bindLightTargets( object );\n\n\t\t//\n\n\t\tif ( onLoad !== undefined ) {\n\n\t\t\tlet hasImages = false;\n\n\t\t\tfor ( const uuid in images ) {\n\n\t\t\t\tif ( images[ uuid ].data instanceof HTMLImageElement ) {\n\n\t\t\t\t\thasImages = true;\n\t\t\t\t\tbreak;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( hasImages === false ) onLoad( object );\n\n\t\t}\n\n\t\treturn object;\n\n\t}\n\n\t/**\n\t * Async version of {@link ObjectLoader#parse}.\n\t *\n\t * @param {Object} json - The serialized 3D object.\n\t * @return {Promise} A Promise that resolves with the parsed 3D object.\n\t */\n\tasync parseAsync( json ) {\n\n\t\tconst animations = this.parseAnimations( json.animations );\n\t\tconst shapes = this.parseShapes( json.shapes );\n\t\tconst geometries = this.parseGeometries( json.geometries, shapes );\n\n\t\tconst images = await this.parseImagesAsync( json.images );\n\n\t\tconst textures = this.parseTextures( json.textures, images );\n\t\tconst materials = this.parseMaterials( json.materials, textures );\n\n\t\tconst object = this.parseObject( json.object, geometries, materials, textures, animations );\n\t\tconst skeletons = this.parseSkeletons( json.skeletons, object );\n\n\t\tthis.bindSkeletons( object, skeletons );\n\t\tthis.bindLightTargets( object );\n\n\t\treturn object;\n\n\t}\n\n\t// internals\n\n\tparseShapes( json ) {\n\n\t\tconst shapes = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst shape = new Shape().fromJSON( json[ i ] );\n\n\t\t\t\tshapes[ shape.uuid ] = shape;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn shapes;\n\n\t}\n\n\tparseSkeletons( json, object ) {\n\n\t\tconst skeletons = {};\n\t\tconst bones = {};\n\n\t\t// generate bone lookup table\n\n\t\tobject.traverse( function ( child ) {\n\n\t\t\tif ( child.isBone ) bones[ child.uuid ] = child;\n\n\t\t} );\n\n\t\t// create skeletons\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst skeleton = new Skeleton().fromJSON( json[ i ], bones );\n\n\t\t\t\tskeletons[ skeleton.uuid ] = skeleton;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn skeletons;\n\n\t}\n\n\tparseGeometries( json, shapes ) {\n\n\t\tconst geometries = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tconst bufferGeometryLoader = new BufferGeometryLoader();\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tlet geometry;\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tswitch ( data.type ) {\n\n\t\t\t\t\tcase 'BufferGeometry':\n\t\t\t\t\tcase 'InstancedBufferGeometry':\n\n\t\t\t\t\t\tgeometry = bufferGeometryLoader.parse( data );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tdefault:\n\n\t\t\t\t\t\tif ( data.type in Geometries ) {\n\n\t\t\t\t\t\t\tgeometry = Geometries[ data.type ].fromJSON( data, shapes );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tconsole.warn( `THREE.ObjectLoader: Unsupported geometry type \"${ data.type }\"` );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tgeometry.uuid = data.uuid;\n\n\t\t\t\tif ( data.name !== undefined ) geometry.name = data.name;\n\t\t\t\tif ( data.userData !== undefined ) geometry.userData = data.userData;\n\n\t\t\t\tgeometries[ data.uuid ] = geometry;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn geometries;\n\n\t}\n\n\tparseMaterials( json, textures ) {\n\n\t\tconst cache = {}; // MultiMaterial\n\t\tconst materials = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tconst loader = new MaterialLoader();\n\t\t\tloader.setTextures( textures );\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tif ( cache[ data.uuid ] === undefined ) {\n\n\t\t\t\t\tcache[ data.uuid ] = loader.parse( data );\n\n\t\t\t\t}\n\n\t\t\t\tmaterials[ data.uuid ] = cache[ data.uuid ];\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn materials;\n\n\t}\n\n\tparseAnimations( json ) {\n\n\t\tconst animations = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0; i < json.length; i ++ ) {\n\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tconst clip = AnimationClip.parse( data );\n\n\t\t\t\tanimations[ clip.uuid ] = clip;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn animations;\n\n\t}\n\n\tparseImages( json, onLoad ) {\n\n\t\tconst scope = this;\n\t\tconst images = {};\n\n\t\tlet loader;\n\n\t\tfunction loadImage( url ) {\n\n\t\t\tscope.manager.itemStart( url );\n\n\t\t\treturn loader.load( url, function () {\n\n\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t}, undefined, function () {\n\n\t\t\t\tscope.manager.itemError( url );\n\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t} );\n\n\t\t}\n\n\t\tfunction deserializeImage( image ) {\n\n\t\t\tif ( typeof image === 'string' ) {\n\n\t\t\t\tconst url = image;\n\n\t\t\t\tconst path = /^(\\/\\/)|([a-z]+:(\\/\\/)?)/i.test( url ) ? url : scope.resourcePath + url;\n\n\t\t\t\treturn loadImage( path );\n\n\t\t\t} else {\n\n\t\t\t\tif ( image.data ) {\n\n\t\t\t\t\treturn {\n\t\t\t\t\t\tdata: getTypedArray( image.type, image.data ),\n\t\t\t\t\t\twidth: image.width,\n\t\t\t\t\t\theight: image.height\n\t\t\t\t\t};\n\n\t\t\t\t} else {\n\n\t\t\t\t\treturn null;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json !== undefined && json.length > 0 ) {\n\n\t\t\tconst manager = new LoadingManager( onLoad );\n\n\t\t\tloader = new ImageLoader( manager );\n\t\t\tloader.setCrossOrigin( this.crossOrigin );\n\n\t\t\tfor ( let i = 0, il = json.length; i < il; i ++ ) {\n\n\t\t\t\tconst image = json[ i ];\n\t\t\t\tconst url = image.url;\n\n\t\t\t\tif ( Array.isArray( url ) ) {\n\n\t\t\t\t\t// load array of images e.g CubeTexture\n\n\t\t\t\t\tconst imageArray = [];\n\n\t\t\t\t\tfor ( let j = 0, jl = url.length; j < jl; j ++ ) {\n\n\t\t\t\t\t\tconst currentUrl = url[ j ];\n\n\t\t\t\t\t\tconst deserializedImage = deserializeImage( currentUrl );\n\n\t\t\t\t\t\tif ( deserializedImage !== null ) {\n\n\t\t\t\t\t\t\tif ( deserializedImage instanceof HTMLImageElement ) {\n\n\t\t\t\t\t\t\t\timageArray.push( deserializedImage );\n\n\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\t// special case: handle array of data textures for cube textures\n\n\t\t\t\t\t\t\t\timageArray.push( new DataTexture( deserializedImage.data, deserializedImage.width, deserializedImage.height ) );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\timages[ image.uuid ] = new Source( imageArray );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// load single image\n\n\t\t\t\t\tconst deserializedImage = deserializeImage( image.url );\n\t\t\t\t\timages[ image.uuid ] = new Source( deserializedImage );\n\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn images;\n\n\t}\n\n\tasync parseImagesAsync( json ) {\n\n\t\tconst scope = this;\n\t\tconst images = {};\n\n\t\tlet loader;\n\n\t\tasync function deserializeImage( image ) {\n\n\t\t\tif ( typeof image === 'string' ) {\n\n\t\t\t\tconst url = image;\n\n\t\t\t\tconst path = /^(\\/\\/)|([a-z]+:(\\/\\/)?)/i.test( url ) ? url : scope.resourcePath + url;\n\n\t\t\t\treturn await loader.loadAsync( path );\n\n\t\t\t} else {\n\n\t\t\t\tif ( image.data ) {\n\n\t\t\t\t\treturn {\n\t\t\t\t\t\tdata: getTypedArray( image.type, image.data ),\n\t\t\t\t\t\twidth: image.width,\n\t\t\t\t\t\theight: image.height\n\t\t\t\t\t};\n\n\t\t\t\t} else {\n\n\t\t\t\t\treturn null;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json !== undefined && json.length > 0 ) {\n\n\t\t\tloader = new ImageLoader( this.manager );\n\t\t\tloader.setCrossOrigin( this.crossOrigin );\n\n\t\t\tfor ( let i = 0, il = json.length; i < il; i ++ ) {\n\n\t\t\t\tconst image = json[ i ];\n\t\t\t\tconst url = image.url;\n\n\t\t\t\tif ( Array.isArray( url ) ) {\n\n\t\t\t\t\t// load array of images e.g CubeTexture\n\n\t\t\t\t\tconst imageArray = [];\n\n\t\t\t\t\tfor ( let j = 0, jl = url.length; j < jl; j ++ ) {\n\n\t\t\t\t\t\tconst currentUrl = url[ j ];\n\n\t\t\t\t\t\tconst deserializedImage = await deserializeImage( currentUrl );\n\n\t\t\t\t\t\tif ( deserializedImage !== null ) {\n\n\t\t\t\t\t\t\tif ( deserializedImage instanceof HTMLImageElement ) {\n\n\t\t\t\t\t\t\t\timageArray.push( deserializedImage );\n\n\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\t// special case: handle array of data textures for cube textures\n\n\t\t\t\t\t\t\t\timageArray.push( new DataTexture( deserializedImage.data, deserializedImage.width, deserializedImage.height ) );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\timages[ image.uuid ] = new Source( imageArray );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// load single image\n\n\t\t\t\t\tconst deserializedImage = await deserializeImage( image.url );\n\t\t\t\t\timages[ image.uuid ] = new Source( deserializedImage );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn images;\n\n\t}\n\n\tparseTextures( json, images ) {\n\n\t\tfunction parseConstant( value, type ) {\n\n\t\t\tif ( typeof value === 'number' ) return value;\n\n\t\t\tconsole.warn( 'THREE.ObjectLoader.parseTexture: Constant should be in numeric form.', value );\n\n\t\t\treturn type[ value ];\n\n\t\t}\n\n\t\tconst textures = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tif ( data.image === undefined ) {\n\n\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: No \"image\" specified for', data.uuid );\n\n\t\t\t\t}\n\n\t\t\t\tif ( images[ data.image ] === undefined ) {\n\n\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined image', data.image );\n\n\t\t\t\t}\n\n\t\t\t\tconst source = images[ data.image ];\n\t\t\t\tconst image = source.data;\n\n\t\t\t\tlet texture;\n\n\t\t\t\tif ( Array.isArray( image ) ) {\n\n\t\t\t\t\ttexture = new CubeTexture();\n\n\t\t\t\t\tif ( image.length === 6 ) texture.needsUpdate = true;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tif ( image && image.data ) {\n\n\t\t\t\t\t\ttexture = new DataTexture();\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ttexture = new Texture();\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( image ) texture.needsUpdate = true; // textures can have undefined image data\n\n\t\t\t\t}\n\n\t\t\t\ttexture.source = source;\n\n\t\t\t\ttexture.uuid = data.uuid;\n\n\t\t\t\tif ( data.name !== undefined ) texture.name = data.name;\n\n\t\t\t\tif ( data.mapping !== undefined ) texture.mapping = parseConstant( data.mapping, TEXTURE_MAPPING );\n\t\t\t\tif ( data.channel !== undefined ) texture.channel = data.channel;\n\n\t\t\t\tif ( data.offset !== undefined ) texture.offset.fromArray( data.offset );\n\t\t\t\tif ( data.repeat !== undefined ) texture.repeat.fromArray( data.repeat );\n\t\t\t\tif ( data.center !== undefined ) texture.center.fromArray( data.center );\n\t\t\t\tif ( data.rotation !== undefined ) texture.rotation = data.rotation;\n\n\t\t\t\tif ( data.wrap !== undefined ) {\n\n\t\t\t\t\ttexture.wrapS = parseConstant( data.wrap[ 0 ], TEXTURE_WRAPPING );\n\t\t\t\t\ttexture.wrapT = parseConstant( data.wrap[ 1 ], TEXTURE_WRAPPING );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.format !== undefined ) texture.format = data.format;\n\t\t\t\tif ( data.internalFormat !== undefined ) texture.internalFormat = data.internalFormat;\n\t\t\t\tif ( data.type !== undefined ) texture.type = data.type;\n\t\t\t\tif ( data.colorSpace !== undefined ) texture.colorSpace = data.colorSpace;\n\n\t\t\t\tif ( data.minFilter !== undefined ) texture.minFilter = parseConstant( data.minFilter, TEXTURE_FILTER );\n\t\t\t\tif ( data.magFilter !== undefined ) texture.magFilter = parseConstant( data.magFilter, TEXTURE_FILTER );\n\t\t\t\tif ( data.anisotropy !== undefined ) texture.anisotropy = data.anisotropy;\n\n\t\t\t\tif ( data.flipY !== undefined ) texture.flipY = data.flipY;\n\n\t\t\t\tif ( data.generateMipmaps !== undefined ) texture.generateMipmaps = data.generateMipmaps;\n\t\t\t\tif ( data.premultiplyAlpha !== undefined ) texture.premultiplyAlpha = data.premultiplyAlpha;\n\t\t\t\tif ( data.unpackAlignment !== undefined ) texture.unpackAlignment = data.unpackAlignment;\n\t\t\t\tif ( data.compareFunction !== undefined ) texture.compareFunction = data.compareFunction;\n\n\t\t\t\tif ( data.userData !== undefined ) texture.userData = data.userData;\n\n\t\t\t\ttextures[ data.uuid ] = texture;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn textures;\n\n\t}\n\n\tparseObject( data, geometries, materials, textures, animations ) {\n\n\t\tlet object;\n\n\t\tfunction getGeometry( name ) {\n\n\t\t\tif ( geometries[ name ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined geometry', name );\n\n\t\t\t}\n\n\t\t\treturn geometries[ name ];\n\n\t\t}\n\n\t\tfunction getMaterial( name ) {\n\n\t\t\tif ( name === undefined ) return undefined;\n\n\t\t\tif ( Array.isArray( name ) ) {\n\n\t\t\t\tconst array = [];\n\n\t\t\t\tfor ( let i = 0, l = name.length; i < l; i ++ ) {\n\n\t\t\t\t\tconst uuid = name[ i ];\n\n\t\t\t\t\tif ( materials[ uuid ] === undefined ) {\n\n\t\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined material', uuid );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tarray.push( materials[ uuid ] );\n\n\t\t\t\t}\n\n\t\t\t\treturn array;\n\n\t\t\t}\n\n\t\t\tif ( materials[ name ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined material', name );\n\n\t\t\t}\n\n\t\t\treturn materials[ name ];\n\n\t\t}\n\n\t\tfunction getTexture( uuid ) {\n\n\t\t\tif ( textures[ uuid ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined texture', uuid );\n\n\t\t\t}\n\n\t\t\treturn textures[ uuid ];\n\n\t\t}\n\n\t\tlet geometry, material;\n\n\t\tswitch ( data.type ) {\n\n\t\t\tcase 'Scene':\n\n\t\t\t\tobject = new Scene();\n\n\t\t\t\tif ( data.background !== undefined ) {\n\n\t\t\t\t\tif ( Number.isInteger( data.background ) ) {\n\n\t\t\t\t\t\tobject.background = new Color( data.background );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tobject.background = getTexture( data.background );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.environment !== undefined ) {\n\n\t\t\t\t\tobject.environment = getTexture( data.environment );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.fog !== undefined ) {\n\n\t\t\t\t\tif ( data.fog.type === 'Fog' ) {\n\n\t\t\t\t\t\tobject.fog = new Fog( data.fog.color, data.fog.near, data.fog.far );\n\n\t\t\t\t\t} else if ( data.fog.type === 'FogExp2' ) {\n\n\t\t\t\t\t\tobject.fog = new FogExp2( data.fog.color, data.fog.density );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( data.fog.name !== '' ) {\n\n\t\t\t\t\t\tobject.fog.name = data.fog.name;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.backgroundBlurriness !== undefined ) object.backgroundBlurriness = data.backgroundBlurriness;\n\t\t\t\tif ( data.backgroundIntensity !== undefined ) object.backgroundIntensity = data.backgroundIntensity;\n\t\t\t\tif ( data.backgroundRotation !== undefined ) object.backgroundRotation.fromArray( data.backgroundRotation );\n\n\t\t\t\tif ( data.environmentIntensity !== undefined ) object.environmentIntensity = data.environmentIntensity;\n\t\t\t\tif ( data.environmentRotation !== undefined ) object.environmentRotation.fromArray( data.environmentRotation );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'PerspectiveCamera':\n\n\t\t\t\tobject = new PerspectiveCamera( data.fov, data.aspect, data.near, data.far );\n\n\t\t\t\tif ( data.focus !== undefined ) object.focus = data.focus;\n\t\t\t\tif ( data.zoom !== undefined ) object.zoom = data.zoom;\n\t\t\t\tif ( data.filmGauge !== undefined ) object.filmGauge = data.filmGauge;\n\t\t\t\tif ( data.filmOffset !== undefined ) object.filmOffset = data.filmOffset;\n\t\t\t\tif ( data.view !== undefined ) object.view = Object.assign( {}, data.view );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'OrthographicCamera':\n\n\t\t\t\tobject = new OrthographicCamera( data.left, data.right, data.top, data.bottom, data.near, data.far );\n\n\t\t\t\tif ( data.zoom !== undefined ) object.zoom = data.zoom;\n\t\t\t\tif ( data.view !== undefined ) object.view = Object.assign( {}, data.view );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'AmbientLight':\n\n\t\t\t\tobject = new AmbientLight( data.color, data.intensity );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'DirectionalLight':\n\n\t\t\t\tobject = new DirectionalLight( data.color, data.intensity );\n\t\t\t\tobject.target = data.target || '';\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'PointLight':\n\n\t\t\t\tobject = new PointLight( data.color, data.intensity, data.distance, data.decay );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'RectAreaLight':\n\n\t\t\t\tobject = new RectAreaLight( data.color, data.intensity, data.width, data.height );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'SpotLight':\n\n\t\t\t\tobject = new SpotLight( data.color, data.intensity, data.distance, data.angle, data.penumbra, data.decay );\n\t\t\t\tobject.target = data.target || '';\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'HemisphereLight':\n\n\t\t\t\tobject = new HemisphereLight( data.color, data.groundColor, data.intensity );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LightProbe':\n\n\t\t\t\tobject = new LightProbe().fromJSON( data );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'SkinnedMesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t \tmaterial = getMaterial( data.material );\n\n\t\t\t\tobject = new SkinnedMesh( geometry, material );\n\n\t\t\t\tif ( data.bindMode !== undefined ) object.bindMode = data.bindMode;\n\t\t\t\tif ( data.bindMatrix !== undefined ) object.bindMatrix.fromArray( data.bindMatrix );\n\t\t\t\tif ( data.skeleton !== undefined ) object.skeleton = data.skeleton;\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Mesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t\tmaterial = getMaterial( data.material );\n\n\t\t\t\tobject = new Mesh( geometry, material );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'InstancedMesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t\tmaterial = getMaterial( data.material );\n\t\t\t\tconst count = data.count;\n\t\t\t\tconst instanceMatrix = data.instanceMatrix;\n\t\t\t\tconst instanceColor = data.instanceColor;\n\n\t\t\t\tobject = new InstancedMesh( geometry, material, count );\n\t\t\t\tobject.instanceMatrix = new InstancedBufferAttribute( new Float32Array( instanceMatrix.array ), 16 );\n\t\t\t\tif ( instanceColor !== undefined ) object.instanceColor = new InstancedBufferAttribute( new Float32Array( instanceColor.array ), instanceColor.itemSize );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'BatchedMesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t\tmaterial = getMaterial( data.material );\n\n\t\t\t\tobject = new BatchedMesh( data.maxInstanceCount, data.maxVertexCount, data.maxIndexCount, material );\n\t\t\t\tobject.geometry = geometry;\n\t\t\t\tobject.perObjectFrustumCulled = data.perObjectFrustumCulled;\n\t\t\t\tobject.sortObjects = data.sortObjects;\n\n\t\t\t\tobject._drawRanges = data.drawRanges;\n\t\t\t\tobject._reservedRanges = data.reservedRanges;\n\n\t\t\t\tobject._geometryInfo = data.geometryInfo.map( info => {\n\n\t\t\t\t\tlet box = null;\n\t\t\t\t\tlet sphere = null;\n\t\t\t\t\tif ( info.boundingBox !== undefined ) {\n\n\t\t\t\t\t\tbox = new Box3().fromJSON( info.boundingBox );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( info.boundingSphere !== undefined ) {\n\n\t\t\t\t\t\tsphere = new Sphere().fromJSON( info.boundingSphere );\n\n\t\t\t\t\t}\n\n\t\t\t\t\treturn {\n\t\t\t\t\t\t...info,\n\t\t\t\t\t\tboundingBox: box,\n\t\t\t\t\t\tboundingSphere: sphere\n\t\t\t\t\t};\n\n\t\t\t\t} );\n\t\t\t\tobject._instanceInfo = data.instanceInfo;\n\n\t\t\t\tobject._availableInstanceIds = data._availableInstanceIds;\n\t\t\t\tobject._availableGeometryIds = data._availableGeometryIds;\n\n\t\t\t\tobject._nextIndexStart = data.nextIndexStart;\n\t\t\t\tobject._nextVertexStart = data.nextVertexStart;\n\t\t\t\tobject._geometryCount = data.geometryCount;\n\n\t\t\t\tobject._maxInstanceCount = data.maxInstanceCount;\n\t\t\t\tobject._maxVertexCount = data.maxVertexCount;\n\t\t\t\tobject._maxIndexCount = data.maxIndexCount;\n\n\t\t\t\tobject._geometryInitialized = data.geometryInitialized;\n\n\t\t\t\tobject._matricesTexture = getTexture( data.matricesTexture.uuid );\n\n\t\t\t\tobject._indirectTexture = getTexture( data.indirectTexture.uuid );\n\n\t\t\t\tif ( data.colorsTexture !== undefined ) {\n\n\t\t\t\t\tobject._colorsTexture = getTexture( data.colorsTexture.uuid );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.boundingSphere !== undefined ) {\n\n\t\t\t\t\tobject.boundingSphere = new Sphere().fromJSON( data.boundingSphere );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.boundingBox !== undefined ) {\n\n\t\t\t\t\tobject.boundingBox = new Box3().fromJSON( data.boundingBox );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LOD':\n\n\t\t\t\tobject = new LOD();\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Line':\n\n\t\t\t\tobject = new Line( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LineLoop':\n\n\t\t\t\tobject = new LineLoop( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LineSegments':\n\n\t\t\t\tobject = new LineSegments( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'PointCloud':\n\t\t\tcase 'Points':\n\n\t\t\t\tobject = new Points( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Sprite':\n\n\t\t\t\tobject = new Sprite( getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Group':\n\n\t\t\t\tobject = new Group();\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Bone':\n\n\t\t\t\tobject = new Bone();\n\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\n\t\t\t\tobject = new Object3D();\n\n\t\t}\n\n\t\tobject.uuid = data.uuid;\n\n\t\tif ( data.name !== undefined ) object.name = data.name;\n\n\t\tif ( data.matrix !== undefined ) {\n\n\t\t\tobject.matrix.fromArray( data.matrix );\n\n\t\t\tif ( data.matrixAutoUpdate !== undefined ) object.matrixAutoUpdate = data.matrixAutoUpdate;\n\t\t\tif ( object.matrixAutoUpdate ) object.matrix.decompose( object.position, object.quaternion, object.scale );\n\n\t\t} else {\n\n\t\t\tif ( data.position !== undefined ) object.position.fromArray( data.position );\n\t\t\tif ( data.rotation !== undefined ) object.rotation.fromArray( data.rotation );\n\t\t\tif ( data.quaternion !== undefined ) object.quaternion.fromArray( data.quaternion );\n\t\t\tif ( data.scale !== undefined ) object.scale.fromArray( data.scale );\n\n\t\t}\n\n\t\tif ( data.up !== undefined ) object.up.fromArray( data.up );\n\n\t\tif ( data.castShadow !== undefined ) object.castShadow = data.castShadow;\n\t\tif ( data.receiveShadow !== undefined ) object.receiveShadow = data.receiveShadow;\n\n\t\tif ( data.shadow ) {\n\n\t\t\tif ( data.shadow.intensity !== undefined ) object.shadow.intensity = data.shadow.intensity;\n\t\t\tif ( data.shadow.bias !== undefined ) object.shadow.bias = data.shadow.bias;\n\t\t\tif ( data.shadow.normalBias !== undefined ) object.shadow.normalBias = data.shadow.normalBias;\n\t\t\tif ( data.shadow.radius !== undefined ) object.shadow.radius = data.shadow.radius;\n\t\t\tif ( data.shadow.mapSize !== undefined ) object.shadow.mapSize.fromArray( data.shadow.mapSize );\n\t\t\tif ( data.shadow.camera !== undefined ) object.shadow.camera = this.parseObject( data.shadow.camera );\n\n\t\t}\n\n\t\tif ( data.visible !== undefined ) object.visible = data.visible;\n\t\tif ( data.frustumCulled !== undefined ) object.frustumCulled = data.frustumCulled;\n\t\tif ( data.renderOrder !== undefined ) object.renderOrder = data.renderOrder;\n\t\tif ( data.userData !== undefined ) object.userData = data.userData;\n\t\tif ( data.layers !== undefined ) object.layers.mask = data.layers;\n\n\t\tif ( data.children !== undefined ) {\n\n\t\t\tconst children = data.children;\n\n\t\t\tfor ( let i = 0; i < children.length; i ++ ) {\n\n\t\t\t\tobject.add( this.parseObject( children[ i ], geometries, materials, textures, animations ) );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( data.animations !== undefined ) {\n\n\t\t\tconst objectAnimations = data.animations;\n\n\t\t\tfor ( let i = 0; i < objectAnimations.length; i ++ ) {\n\n\t\t\t\tconst uuid = objectAnimations[ i ];\n\n\t\t\t\tobject.animations.push( animations[ uuid ] );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( data.type === 'LOD' ) {\n\n\t\t\tif ( data.autoUpdate !== undefined ) object.autoUpdate = data.autoUpdate;\n\n\t\t\tconst levels = data.levels;\n\n\t\t\tfor ( let l = 0; l < levels.length; l ++ ) {\n\n\t\t\t\tconst level = levels[ l ];\n\t\t\t\tconst child = object.getObjectByProperty( 'uuid', level.object );\n\n\t\t\t\tif ( child !== undefined ) {\n\n\t\t\t\t\tobject.addLevel( child, level.distance, level.hysteresis );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn object;\n\n\t}\n\n\tbindSkeletons( object, skeletons ) {\n\n\t\tif ( Object.keys( skeletons ).length === 0 ) return;\n\n\t\tobject.traverse( function ( child ) {\n\n\t\t\tif ( child.isSkinnedMesh === true && child.skeleton !== undefined ) {\n\n\t\t\t\tconst skeleton = skeletons[ child.skeleton ];\n\n\t\t\t\tif ( skeleton === undefined ) {\n\n\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: No skeleton found with UUID:', child.skeleton );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tchild.bind( skeleton, child.bindMatrix );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} );\n\n\t}\n\n\tbindLightTargets( object ) {\n\n\t\tobject.traverse( function ( child ) {\n\n\t\t\tif ( child.isDirectionalLight || child.isSpotLight ) {\n\n\t\t\t\tconst uuid = child.target;\n\n\t\t\t\tconst target = object.getObjectByProperty( 'uuid', uuid );\n\n\t\t\t\tif ( target !== undefined ) {\n\n\t\t\t\t\tchild.target = target;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tchild.target = new Object3D();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} );\n\n\t}\n\n}\n\nconst TEXTURE_MAPPING = {\n\tUVMapping: UVMapping,\n\tCubeReflectionMapping: CubeReflectionMapping,\n\tCubeRefractionMapping: CubeRefractionMapping,\n\tEquirectangularReflectionMapping: EquirectangularReflectionMapping,\n\tEquirectangularRefractionMapping: EquirectangularRefractionMapping,\n\tCubeUVReflectionMapping: CubeUVReflectionMapping\n};\n\nconst TEXTURE_WRAPPING = {\n\tRepeatWrapping: RepeatWrapping,\n\tClampToEdgeWrapping: ClampToEdgeWrapping,\n\tMirroredRepeatWrapping: MirroredRepeatWrapping\n};\n\nconst TEXTURE_FILTER = {\n\tNearestFilter: NearestFilter,\n\tNearestMipmapNearestFilter: NearestMipmapNearestFilter,\n\tNearestMipmapLinearFilter: NearestMipmapLinearFilter,\n\tLinearFilter: LinearFilter,\n\tLinearMipmapNearestFilter: LinearMipmapNearestFilter,\n\tLinearMipmapLinearFilter: LinearMipmapLinearFilter\n};\n\nconst _errorMap = new WeakMap();\n\n/**\n * A loader for loading images as an [ImageBitmap]{@link https://developer.mozilla.org/en-US/docs/Web/API/ImageBitmap}.\n * An `ImageBitmap` provides an asynchronous and resource efficient pathway to prepare\n * textures for rendering.\n *\n * Note that {@link Texture#flipY} and {@link Texture#premultiplyAlpha} are ignored with image bitmaps.\n * They needs these configuration on bitmap creation unlike regular images need them on uploading to GPU.\n *\n * You need to set the equivalent options via {@link ImageBitmapLoader#setOptions} instead.\n *\n * Also note that unlike {@link FileLoader}, this loader avoids multiple concurrent requests to the same URL only if `Cache` is enabled.\n *\n * ```js\n * const loader = new THREE.ImageBitmapLoader();\n * loader.setOptions( { imageOrientation: 'flipY' } ); // set options if needed\n * const imageBitmap = await loader.loadAsync( 'image.png' );\n *\n * const texture = new THREE.Texture( imageBitmap );\n * texture.needsUpdate = true;\n * ```\n *\n * @augments Loader\n */\nclass ImageBitmapLoader extends Loader {\n\n\t/**\n\t * Constructs a new image bitmap loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isImageBitmapLoader = true;\n\n\t\tif ( typeof createImageBitmap === 'undefined' ) {\n\n\t\t\tconsole.warn( 'THREE.ImageBitmapLoader: createImageBitmap() not supported.' );\n\n\t\t}\n\n\t\tif ( typeof fetch === 'undefined' ) {\n\n\t\t\tconsole.warn( 'THREE.ImageBitmapLoader: fetch() not supported.' );\n\n\t\t}\n\n\t\t/**\n\t\t * Represents the loader options.\n\t\t *\n\t\t * @type {Object}\n\t\t * @default {premultiplyAlpha:'none'}\n\t\t */\n\t\tthis.options = { premultiplyAlpha: 'none' };\n\n\t\t/**\n\t\t * Used for aborting requests.\n\t\t *\n\t\t * @private\n\t\t * @type {AbortController}\n\t\t */\n\t\tthis._abortController = new AbortController();\n\n\t}\n\n\t/**\n\t * Sets the given loader options. The structure of the object must match the `options` parameter of\n\t * [createImageBitmap]{@link https://developer.mozilla.org/en-US/docs/Web/API/Window/createImageBitmap}.\n\t *\n\t * @param {Object} options - The loader options to set.\n\t * @return {ImageBitmapLoader} A reference to this image bitmap loader.\n\t */\n\tsetOptions( options ) {\n\n\t\tthis.options = options;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded image bitmap to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(ImageBitmap)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {ImageBitmap|undefined} The image bitmap.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tif ( url === undefined ) url = '';\n\n\t\tif ( this.path !== undefined ) url = this.path + url;\n\n\t\turl = this.manager.resolveURL( url );\n\n\t\tconst scope = this;\n\n\t\tconst cached = Cache.get( `image-bitmap:${url}` );\n\n\t\tif ( cached !== undefined ) {\n\n\t\t\tscope.manager.itemStart( url );\n\n\t\t\t// If cached is a promise, wait for it to resolve\n\t\t\tif ( cached.then ) {\n\n\t\t\t\tcached.then( imageBitmap => {\n\n\t\t\t\t\t// check if there is an error for the cached promise\n\n\t\t\t\t\tif ( _errorMap.has( cached ) === true ) {\n\n\t\t\t\t\t\tif ( onError ) onError( _errorMap.get( cached ) );\n\n\t\t\t\t\t\tscope.manager.itemError( url );\n\t\t\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tif ( onLoad ) onLoad( imageBitmap );\n\n\t\t\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t\t\t\treturn imageBitmap;\n\n\t\t\t\t\t}\n\n\t\t\t\t} );\n\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t\t// If cached is not a promise (i.e., it's already an imageBitmap)\n\t\t\tsetTimeout( function () {\n\n\t\t\t\tif ( onLoad ) onLoad( cached );\n\n\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t}, 0 );\n\n\t\t\treturn cached;\n\n\t\t}\n\n\t\tconst fetchOptions = {};\n\t\tfetchOptions.credentials = ( this.crossOrigin === 'anonymous' ) ? 'same-origin' : 'include';\n\t\tfetchOptions.headers = this.requestHeader;\n\t\tfetchOptions.signal = ( typeof AbortSignal.any === 'function' ) ? AbortSignal.any( [ this._abortController.signal, this.manager.abortController.signal ] ) : this._abortController.signal;\n\n\t\tconst promise = fetch( url, fetchOptions ).then( function ( res ) {\n\n\t\t\treturn res.blob();\n\n\t\t} ).then( function ( blob ) {\n\n\t\t\treturn createImageBitmap( blob, Object.assign( scope.options, { colorSpaceConversion: 'none' } ) );\n\n\t\t} ).then( function ( imageBitmap ) {\n\n\t\t\tCache.add( `image-bitmap:${url}`, imageBitmap );\n\n\t\t\tif ( onLoad ) onLoad( imageBitmap );\n\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t\treturn imageBitmap;\n\n\t\t} ).catch( function ( e ) {\n\n\t\t\tif ( onError ) onError( e );\n\n\t\t\t_errorMap.set( promise, e );\n\n\t\t\tCache.remove( `image-bitmap:${url}` );\n\n\t\t\tscope.manager.itemError( url );\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t} );\n\n\t\tCache.add( `image-bitmap:${url}`, promise );\n\t\tscope.manager.itemStart( url );\n\n\t}\n\n\t/**\n\t * Aborts ongoing fetch requests.\n\t *\n\t * @return {ImageBitmapLoader} A reference to this instance.\n\t */\n\tabort() {\n\n\t\tthis._abortController.abort();\n\t\tthis._abortController = new AbortController();\n\n\t\treturn this;\n\n\t}\n\n}\n\nlet _context;\n\n/**\n * Manages the global audio context in the engine.\n *\n * @hideconstructor\n */\nclass AudioContext {\n\n\t/**\n\t * Returns the global native audio context.\n\t *\n\t * @return {AudioContext} The native audio context.\n\t */\n\tstatic getContext() {\n\n\t\tif ( _context === undefined ) {\n\n\t\t\t_context = new ( window.AudioContext || window.webkitAudioContext )();\n\n\t\t}\n\n\t\treturn _context;\n\n\t}\n\n\t/**\n\t * Allows to set the global native audio context from outside.\n\t *\n\t * @param {AudioContext} value - The native context to set.\n\t */\n\tstatic setContext( value ) {\n\n\t\t_context = value;\n\n\t}\n\n}\n\n/**\n * Class for loading audio buffers. Audios are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const audioListener = new THREE.AudioListener();\n * const ambientSound = new THREE.Audio( audioListener );\n *\n * const loader = new THREE.AudioLoader();\n * const audioBuffer = await loader.loadAsync( 'audio/ambient_ocean.ogg' );\n *\n * ambientSound.setBuffer( audioBuffer );\n * ambientSound.play();\n * ```\n *\n * @augments Loader\n */\nclass AudioLoader extends Loader {\n\n\t/**\n\t * Constructs a new audio loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded audio buffer\n\t * to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(AudioBuffer)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setResponseType( 'arraybuffer' );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\t\tloader.load( url, function ( buffer ) {\n\n\t\t\ttry {\n\n\t\t\t\t// Create a copy of the buffer. The `decodeAudioData` method\n\t\t\t\t// detaches the buffer when complete, preventing reuse.\n\t\t\t\tconst bufferCopy = buffer.slice( 0 );\n\n\t\t\t\tconst context = AudioContext.getContext();\n\t\t\t\tcontext.decodeAudioData( bufferCopy, function ( audioBuffer ) {\n\n\t\t\t\t\tonLoad( audioBuffer );\n\n\t\t\t\t} ).catch( handleError );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\thandleError( e );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t\tfunction handleError( e ) {\n\n\t\t\tif ( onError ) {\n\n\t\t\t\tonError( e );\n\n\t\t\t} else {\n\n\t\t\t\tconsole.error( e );\n\n\t\t\t}\n\n\t\t\tscope.manager.itemError( url );\n\n\t\t}\n\n\t}\n\n}\n\nconst _eyeRight = /*@__PURE__*/ new Matrix4();\nconst _eyeLeft = /*@__PURE__*/ new Matrix4();\nconst _projectionMatrix = /*@__PURE__*/ new Matrix4();\n\n/**\n * A special type of camera that uses two perspective cameras with\n * stereoscopic projection. Can be used for rendering stereo effects\n * like [3D Anaglyph]{@link https://en.wikipedia.org/wiki/Anaglyph_3D} or\n * [Parallax Barrier]{@link https://en.wikipedia.org/wiki/parallax_barrier}.\n */\nclass StereoCamera {\n\n\t/**\n\t * Constructs a new stereo camera.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'StereoCamera';\n\n\t\t/**\n\t\t * The aspect.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aspect = 1;\n\n\t\t/**\n\t\t * The eye separation which represents the distance\n\t\t * between the left and right camera.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.064\n\t\t */\n\t\tthis.eyeSep = 0.064;\n\n\t\t/**\n\t\t * The camera representing the left eye. This is added to layer `1` so objects to be\n\t\t * rendered by the left camera must also be added to this layer.\n\t\t *\n\t\t * @type {PerspectiveCamera}\n\t\t */\n\t\tthis.cameraL = new PerspectiveCamera();\n\t\tthis.cameraL.layers.enable( 1 );\n\t\tthis.cameraL.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The camera representing the right eye. This is added to layer `2` so objects to be\n\t\t * rendered by the right camera must also be added to this layer.\n\t\t *\n\t\t * @type {PerspectiveCamera}\n\t\t */\n\t\tthis.cameraR = new PerspectiveCamera();\n\t\tthis.cameraR.layers.enable( 2 );\n\t\tthis.cameraR.matrixAutoUpdate = false;\n\n\t\tthis._cache = {\n\t\t\tfocus: null,\n\t\t\tfov: null,\n\t\t\taspect: null,\n\t\t\tnear: null,\n\t\t\tfar: null,\n\t\t\tzoom: null,\n\t\t\teyeSep: null\n\t\t};\n\n\t}\n\n\t/**\n\t * Updates the stereo camera based on the given perspective camera.\n\t *\n\t * @param {PerspectiveCamera} camera - The perspective camera.\n\t */\n\tupdate( camera ) {\n\n\t\tconst cache = this._cache;\n\n\t\tconst needsUpdate = cache.focus !== camera.focus || cache.fov !== camera.fov ||\n\t\t\tcache.aspect !== camera.aspect * this.aspect || cache.near !== camera.near ||\n\t\t\tcache.far !== camera.far || cache.zoom !== camera.zoom || cache.eyeSep !== this.eyeSep;\n\n\t\tif ( needsUpdate ) {\n\n\t\t\tcache.focus = camera.focus;\n\t\t\tcache.fov = camera.fov;\n\t\t\tcache.aspect = camera.aspect * this.aspect;\n\t\t\tcache.near = camera.near;\n\t\t\tcache.far = camera.far;\n\t\t\tcache.zoom = camera.zoom;\n\t\t\tcache.eyeSep = this.eyeSep;\n\n\t\t\t// Off-axis stereoscopic effect based on\n\t\t\t// http://paulbourke.net/stereographics/stereorender/\n\n\t\t\t_projectionMatrix.copy( camera.projectionMatrix );\n\t\t\tconst eyeSepHalf = cache.eyeSep / 2;\n\t\t\tconst eyeSepOnProjection = eyeSepHalf * cache.near / cache.focus;\n\t\t\tconst ymax = ( cache.near * Math.tan( DEG2RAD * cache.fov * 0.5 ) ) / cache.zoom;\n\t\t\tlet xmin, xmax;\n\n\t\t\t// translate xOffset\n\n\t\t\t_eyeLeft.elements[ 12 ] = - eyeSepHalf;\n\t\t\t_eyeRight.elements[ 12 ] = eyeSepHalf;\n\n\t\t\t// for left eye\n\n\t\t\txmin = - ymax * cache.aspect + eyeSepOnProjection;\n\t\t\txmax = ymax * cache.aspect + eyeSepOnProjection;\n\n\t\t\t_projectionMatrix.elements[ 0 ] = 2 * cache.near / ( xmax - xmin );\n\t\t\t_projectionMatrix.elements[ 8 ] = ( xmax + xmin ) / ( xmax - xmin );\n\n\t\t\tthis.cameraL.projectionMatrix.copy( _projectionMatrix );\n\n\t\t\t// for right eye\n\n\t\t\txmin = - ymax * cache.aspect - eyeSepOnProjection;\n\t\t\txmax = ymax * cache.aspect - eyeSepOnProjection;\n\n\t\t\t_projectionMatrix.elements[ 0 ] = 2 * cache.near / ( xmax - xmin );\n\t\t\t_projectionMatrix.elements[ 8 ] = ( xmax + xmin ) / ( xmax - xmin );\n\n\t\t\tthis.cameraR.projectionMatrix.copy( _projectionMatrix );\n\n\t\t}\n\n\t\tthis.cameraL.matrixWorld.copy( camera.matrixWorld ).multiply( _eyeLeft );\n\t\tthis.cameraR.matrixWorld.copy( camera.matrixWorld ).multiply( _eyeRight );\n\n\t}\n\n}\n\n/**\n * This type of camera can be used in order to efficiently render a scene with a\n * predefined set of cameras. This is an important performance aspect for\n * rendering VR scenes.\n *\n * An instance of `ArrayCamera` always has an array of sub cameras. It's mandatory\n * to define for each sub camera the `viewport` property which determines the\n * part of the viewport that is rendered with this camera.\n *\n * @augments PerspectiveCamera\n */\nclass ArrayCamera extends PerspectiveCamera {\n\n\t/**\n\t * Constructs a new array camera.\n\t *\n\t * @param {Array} [array=[]] - An array of perspective sub cameras.\n\t */\n\tconstructor( array = [] ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isArrayCamera = true;\n\n\t\t/**\n\t\t * Whether this camera is used with multiview rendering or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isMultiViewCamera = false;\n\n\t\t/**\n\t\t * An array of perspective sub cameras.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.cameras = array;\n\n\t}\n\n}\n\n/**\n * Class for keeping track of time.\n */\nclass Clock {\n\n\t/**\n\t * Constructs a new clock.\n\t *\n\t * @param {boolean} [autoStart=true] - Whether to automatically start the clock when\n\t * `getDelta()` is called for the first time.\n\t */\n\tconstructor( autoStart = true ) {\n\n\t\t/**\n\t\t * If set to `true`, the clock starts automatically when `getDelta()` is called\n\t\t * for the first time.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.autoStart = autoStart;\n\n\t\t/**\n\t\t * Holds the time at which the clock's `start()` method was last called.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.startTime = 0;\n\n\t\t/**\n\t\t * Holds the time at which the clock's `start()`, `getElapsedTime()` or\n\t\t * `getDelta()` methods were last called.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.oldTime = 0;\n\n\t\t/**\n\t\t * Keeps track of the total time that the clock has been running.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.elapsedTime = 0;\n\n\t\t/**\n\t\t * Whether the clock is running or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.running = false;\n\n\t}\n\n\t/**\n\t * Starts the clock. When `autoStart` is set to `true`, the method is automatically\n\t * called by the class.\n\t */\n\tstart() {\n\n\t\tthis.startTime = performance.now();\n\n\t\tthis.oldTime = this.startTime;\n\t\tthis.elapsedTime = 0;\n\t\tthis.running = true;\n\n\t}\n\n\t/**\n\t * Stops the clock.\n\t */\n\tstop() {\n\n\t\tthis.getElapsedTime();\n\t\tthis.running = false;\n\t\tthis.autoStart = false;\n\n\t}\n\n\t/**\n\t * Returns the elapsed time in seconds.\n\t *\n\t * @return {number} The elapsed time.\n\t */\n\tgetElapsedTime() {\n\n\t\tthis.getDelta();\n\t\treturn this.elapsedTime;\n\n\t}\n\n\t/**\n\t * Returns the delta time in seconds.\n\t *\n\t * @return {number} The delta time.\n\t */\n\tgetDelta() {\n\n\t\tlet diff = 0;\n\n\t\tif ( this.autoStart && ! this.running ) {\n\n\t\t\tthis.start();\n\t\t\treturn 0;\n\n\t\t}\n\n\t\tif ( this.running ) {\n\n\t\t\tconst newTime = performance.now();\n\n\t\t\tdiff = ( newTime - this.oldTime ) / 1000;\n\t\t\tthis.oldTime = newTime;\n\n\t\t\tthis.elapsedTime += diff;\n\n\t\t}\n\n\t\treturn diff;\n\n\t}\n\n}\n\nconst _position$1 = /*@__PURE__*/ new Vector3();\nconst _quaternion$1 = /*@__PURE__*/ new Quaternion();\nconst _scale$1 = /*@__PURE__*/ new Vector3();\n\nconst _forward = /*@__PURE__*/ new Vector3();\nconst _up = /*@__PURE__*/ new Vector3();\n\n/**\n * The class represents a virtual listener of the all positional and non-positional audio effects\n * in the scene. A three.js application usually creates a single listener. It is a mandatory\n * constructor parameter for audios entities like {@link Audio} and {@link PositionalAudio}.\n *\n * In most cases, the listener object is a child of the camera. So the 3D transformation of the\n * camera represents the 3D transformation of the listener.\n *\n * @augments Object3D\n */\nclass AudioListener extends Object3D {\n\n\t/**\n\t * Constructs a new audio listener.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\tthis.type = 'AudioListener';\n\n\t\t/**\n\t\t * The native audio context.\n\t\t *\n\t\t * @type {AudioContext}\n\t\t * @readonly\n\t\t */\n\t\tthis.context = AudioContext.getContext();\n\n\t\t/**\n\t\t * The gain node used for volume control.\n\t\t *\n\t\t * @type {GainNode}\n\t\t * @readonly\n\t\t */\n\t\tthis.gain = this.context.createGain();\n\t\tthis.gain.connect( this.context.destination );\n\n\t\t/**\n\t\t * An optional filter.\n\t\t *\n\t\t * Defined via {@link AudioListener#setFilter}.\n\t\t *\n\t\t * @type {?AudioNode}\n\t\t * @default null\n\t\t * @readonly\n\t\t */\n\t\tthis.filter = null;\n\n\t\t/**\n\t\t * Time delta values required for `linearRampToValueAtTime()` usage.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t * @readonly\n\t\t */\n\t\tthis.timeDelta = 0;\n\n\t\t// private\n\n\t\tthis._clock = new Clock();\n\n\t}\n\n\t/**\n\t * Returns the listener's input node.\n\t *\n\t * This method is used by other audio nodes to connect to this listener.\n\t *\n\t * @return {GainNode} The input node.\n\t */\n\tgetInput() {\n\n\t\treturn this.gain;\n\n\t}\n\n\t/**\n\t * Removes the current filter from this listener.\n\t *\n\t * @return {AudioListener} A reference to this listener.\n\t */\n\tremoveFilter() {\n\n\t\tif ( this.filter !== null ) {\n\n\t\t\tthis.gain.disconnect( this.filter );\n\t\t\tthis.filter.disconnect( this.context.destination );\n\t\t\tthis.gain.connect( this.context.destination );\n\t\t\tthis.filter = null;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current set filter.\n\t *\n\t * @return {?AudioNode} The filter.\n\t */\n\tgetFilter() {\n\n\t\treturn this.filter;\n\n\t}\n\n\t/**\n\t * Sets the given filter to this listener.\n\t *\n\t * @param {AudioNode} value - The filter to set.\n\t * @return {AudioListener} A reference to this listener.\n\t */\n\tsetFilter( value ) {\n\n\t\tif ( this.filter !== null ) {\n\n\t\t\tthis.gain.disconnect( this.filter );\n\t\t\tthis.filter.disconnect( this.context.destination );\n\n\t\t} else {\n\n\t\t\tthis.gain.disconnect( this.context.destination );\n\n\t\t}\n\n\t\tthis.filter = value;\n\t\tthis.gain.connect( this.filter );\n\t\tthis.filter.connect( this.context.destination );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the applications master volume.\n\t *\n\t * @return {number} The master volume.\n\t */\n\tgetMasterVolume() {\n\n\t\treturn this.gain.gain.value;\n\n\t}\n\n\t/**\n\t * Sets the applications master volume. This volume setting affects\n\t * all audio nodes in the scene.\n\t *\n\t * @param {number} value - The master volume to set.\n\t * @return {AudioListener} A reference to this listener.\n\t */\n\tsetMasterVolume( value ) {\n\n\t\tthis.gain.gain.setTargetAtTime( value, this.context.currentTime, 0.01 );\n\n\t\treturn this;\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tconst listener = this.context.listener;\n\n\t\tthis.timeDelta = this._clock.getDelta();\n\n\t\tthis.matrixWorld.decompose( _position$1, _quaternion$1, _scale$1 );\n\n\t\t// the initial forward and up directions must be orthogonal\n\t\t_forward.set( 0, 0, -1 ).applyQuaternion( _quaternion$1 );\n\t\t_up.set( 0, 1, 0 ).applyQuaternion( _quaternion$1 );\n\n\t\tif ( listener.positionX ) {\n\n\t\t\t// code path for Chrome (see #14393)\n\n\t\t\tconst endTime = this.context.currentTime + this.timeDelta;\n\n\t\t\tlistener.positionX.linearRampToValueAtTime( _position$1.x, endTime );\n\t\t\tlistener.positionY.linearRampToValueAtTime( _position$1.y, endTime );\n\t\t\tlistener.positionZ.linearRampToValueAtTime( _position$1.z, endTime );\n\t\t\tlistener.forwardX.linearRampToValueAtTime( _forward.x, endTime );\n\t\t\tlistener.forwardY.linearRampToValueAtTime( _forward.y, endTime );\n\t\t\tlistener.forwardZ.linearRampToValueAtTime( _forward.z, endTime );\n\t\t\tlistener.upX.linearRampToValueAtTime( _up.x, endTime );\n\t\t\tlistener.upY.linearRampToValueAtTime( _up.y, endTime );\n\t\t\tlistener.upZ.linearRampToValueAtTime( _up.z, endTime );\n\n\t\t} else {\n\n\t\t\tlistener.setPosition( _position$1.x, _position$1.y, _position$1.z );\n\t\t\tlistener.setOrientation( _forward.x, _forward.y, _forward.z, _up.x, _up.y, _up.z );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * Represents a non-positional ( global ) audio object.\n *\n * This and related audio modules make use of the [Web Audio API]{@link https://www.w3.org/TR/webaudio-1.1/}.\n *\n * ```js\n * // create an AudioListener and add it to the camera\n * const listener = new THREE.AudioListener();\n * camera.add( listener );\n *\n * // create a global audio source\n * const sound = new THREE.Audio( listener );\n *\n * // load a sound and set it as the Audio object's buffer\n * const audioLoader = new THREE.AudioLoader();\n * audioLoader.load( 'sounds/ambient.ogg', function( buffer ) {\n * \tsound.setBuffer( buffer );\n * \tsound.setLoop( true );\n * \tsound.setVolume( 0.5 );\n * \tsound.play();\n * });\n * ```\n *\n * @augments Object3D\n */\nclass Audio extends Object3D {\n\n\t/**\n\t * Constructs a new audio.\n\t *\n\t * @param {AudioListener} listener - The global audio listener.\n\t */\n\tconstructor( listener ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'Audio';\n\n\t\t/**\n\t\t * The global audio listener.\n\t\t *\n\t\t * @type {AudioListener}\n\t\t * @readonly\n\t\t */\n\t\tthis.listener = listener;\n\n\t\t/**\n\t\t * The audio context.\n\t\t *\n\t\t * @type {AudioContext}\n\t\t * @readonly\n\t\t */\n\t\tthis.context = listener.context;\n\n\t\t/**\n\t\t * The gain node used for volume control.\n\t\t *\n\t\t * @type {GainNode}\n\t\t * @readonly\n\t\t */\n\t\tthis.gain = this.context.createGain();\n\t\tthis.gain.connect( listener.getInput() );\n\n\t\t/**\n\t\t * Whether to start playback automatically or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.autoplay = false;\n\n\t\t/**\n\t\t * A reference to an audio buffer.\n\t\t *\n\t\t * Defined via {@link Audio#setBuffer}.\n\t\t *\n\t\t * @type {?AudioBuffer}\n\t\t * @default null\n\t\t * @readonly\n\t\t */\n\t\tthis.buffer = null;\n\n\t\t/**\n\t\t * Modify pitch, measured in cents. +/- 100 is a semitone.\n\t\t * +/- 1200 is an octave.\n\t\t *\n\t\t * Defined via {@link Audio#setDetune}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t * @readonly\n\t\t */\n\t\tthis.detune = 0;\n\n\t\t/**\n\t\t * Whether the audio should loop or not.\n\t\t *\n\t\t * Defined via {@link Audio#setLoop}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t * @readonly\n\t\t */\n\t\tthis.loop = false;\n\n\t\t/**\n\t\t * Defines where in the audio buffer the replay should\n\t\t * start, in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.loopStart = 0;\n\n\t\t/**\n\t\t * Defines where in the audio buffer the replay should\n\t\t * stop, in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.loopEnd = 0;\n\n\t\t/**\n\t\t * An offset to the time within the audio buffer the playback\n\t\t * should begin, in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.offset = 0;\n\n\t\t/**\n\t\t * Overrides the default duration of the audio.\n\t\t *\n\t\t * @type {undefined|number}\n\t\t * @default undefined\n\t\t */\n\t\tthis.duration = undefined;\n\n\t\t/**\n\t\t * The playback speed.\n\t\t *\n\t\t * Defined via {@link Audio#setPlaybackRate}.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 1\n\t\t */\n\t\tthis.playbackRate = 1;\n\n\t\t/**\n\t\t * Indicates whether the audio is playing or not.\n\t\t *\n\t\t * This flag will be automatically set when using {@link Audio#play},\n\t\t * {@link Audio#pause}, {@link Audio#stop}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isPlaying = false;\n\n\t\t/**\n\t\t * Indicates whether the audio playback can be controlled\n\t\t * with method like {@link Audio#play} or {@link Audio#pause}.\n\t\t *\n\t\t * This flag will be automatically set when audio sources are\n\t\t * defined.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.hasPlaybackControl = true;\n\n\t\t/**\n\t\t * Holds a reference to the current audio source.\n\t\t *\n\t\t * The property is automatically by one of the `set*()` methods.\n\t\t *\n\t\t * @type {?AudioNode}\n\t\t * @readonly\n\t\t * @default null\n\t\t */\n\t\tthis.source = null;\n\n\t\t/**\n\t\t * Defines the source type.\n\t\t *\n\t\t * The property is automatically by one of the `set*()` methods.\n\t\t *\n\t\t * @type {('empty'|'audioNode'|'mediaNode'|'mediaStreamNode'|'buffer')}\n\t\t * @readonly\n\t\t * @default 'empty'\n\t\t */\n\t\tthis.sourceType = 'empty';\n\n\t\tthis._startedAt = 0;\n\t\tthis._progress = 0;\n\t\tthis._connected = false;\n\n\t\t/**\n\t\t * Can be used to apply a variety of low-order filters to create\n\t\t * more complex sound effects e.g. via `BiquadFilterNode`.\n\t\t *\n\t\t * The property is automatically set by {@link Audio#setFilters}.\n\t\t *\n\t\t * @type {Array}\n\t\t * @readonly\n\t\t */\n\t\tthis.filters = [];\n\n\t}\n\n\t/**\n\t * Returns the output audio node.\n\t *\n\t * @return {GainNode} The output node.\n\t */\n\tgetOutput() {\n\n\t\treturn this.gain;\n\n\t}\n\n\t/**\n\t * Sets the given audio node as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `audioNode` and {@link Audio#hasPlaybackControl} to `false`.\n\t *\n\t * @param {AudioNode} audioNode - The audio node like an instance of `OscillatorNode`.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetNodeSource( audioNode ) {\n\n\t\tthis.hasPlaybackControl = false;\n\t\tthis.sourceType = 'audioNode';\n\t\tthis.source = audioNode;\n\t\tthis.connect();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given media element as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `mediaNode` and {@link Audio#hasPlaybackControl} to `false`.\n\t *\n\t * @param {HTMLMediaElement} mediaElement - The media element.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetMediaElementSource( mediaElement ) {\n\n\t\tthis.hasPlaybackControl = false;\n\t\tthis.sourceType = 'mediaNode';\n\t\tthis.source = this.context.createMediaElementSource( mediaElement );\n\t\tthis.connect();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given media stream as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `mediaStreamNode` and {@link Audio#hasPlaybackControl} to `false`.\n\t *\n\t * @param {MediaStream} mediaStream - The media stream.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetMediaStreamSource( mediaStream ) {\n\n\t\tthis.hasPlaybackControl = false;\n\t\tthis.sourceType = 'mediaStreamNode';\n\t\tthis.source = this.context.createMediaStreamSource( mediaStream );\n\t\tthis.connect();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given audio buffer as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `buffer` and {@link Audio#hasPlaybackControl} to `true`.\n\t *\n\t * @param {AudioBuffer} audioBuffer - The audio buffer.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetBuffer( audioBuffer ) {\n\n\t\tthis.buffer = audioBuffer;\n\t\tthis.sourceType = 'buffer';\n\n\t\tif ( this.autoplay ) this.play();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Starts the playback of the audio.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {number} [delay=0] - The delay, in seconds, at which the audio should start playing.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tplay( delay = 0 ) {\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: Audio is already playing.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis._startedAt = this.context.currentTime + delay;\n\n\t\tconst source = this.context.createBufferSource();\n\t\tsource.buffer = this.buffer;\n\t\tsource.loop = this.loop;\n\t\tsource.loopStart = this.loopStart;\n\t\tsource.loopEnd = this.loopEnd;\n\t\tsource.onended = this.onEnded.bind( this );\n\t\tsource.start( this._startedAt, this._progress + this.offset, this.duration );\n\n\t\tthis.isPlaying = true;\n\n\t\tthis.source = source;\n\n\t\tthis.setDetune( this.detune );\n\t\tthis.setPlaybackRate( this.playbackRate );\n\n\t\treturn this.connect();\n\n\t}\n\n\t/**\n\t * Pauses the playback of the audio.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tpause() {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\t// update current progress\n\n\t\t\tthis._progress += Math.max( this.context.currentTime - this._startedAt, 0 ) * this.playbackRate;\n\n\t\t\tif ( this.loop === true ) {\n\n\t\t\t\t// ensure _progress does not exceed duration with looped audios\n\n\t\t\t\tthis._progress = this._progress % ( this.duration || this.buffer.duration );\n\n\t\t\t}\n\n\t\t\tthis.source.stop();\n\t\t\tthis.source.onended = null;\n\n\t\t\tthis.isPlaying = false;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Stops the playback of the audio.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {number} [delay=0] - The delay, in seconds, at which the audio should stop playing.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tstop( delay = 0 ) {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis._progress = 0;\n\n\t\tif ( this.source !== null ) {\n\n\t\t\tthis.source.stop( this.context.currentTime + delay );\n\t\t\tthis.source.onended = null;\n\n\t\t}\n\n\t\tthis.isPlaying = false;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Connects to the audio source. This is used internally on\n\t * initialisation and when setting / removing filters.\n\t *\n\t * @return {Audio} A reference to this instance.\n\t */\n\tconnect() {\n\n\t\tif ( this.filters.length > 0 ) {\n\n\t\t\tthis.source.connect( this.filters[ 0 ] );\n\n\t\t\tfor ( let i = 1, l = this.filters.length; i < l; i ++ ) {\n\n\t\t\t\tthis.filters[ i - 1 ].connect( this.filters[ i ] );\n\n\t\t\t}\n\n\t\t\tthis.filters[ this.filters.length - 1 ].connect( this.getOutput() );\n\n\t\t} else {\n\n\t\t\tthis.source.connect( this.getOutput() );\n\n\t\t}\n\n\t\tthis._connected = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Disconnects to the audio source. This is used internally on\n\t * initialisation and when setting / removing filters.\n\t *\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tdisconnect() {\n\n\t\tif ( this._connected === false ) {\n\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.filters.length > 0 ) {\n\n\t\t\tthis.source.disconnect( this.filters[ 0 ] );\n\n\t\t\tfor ( let i = 1, l = this.filters.length; i < l; i ++ ) {\n\n\t\t\t\tthis.filters[ i - 1 ].disconnect( this.filters[ i ] );\n\n\t\t\t}\n\n\t\t\tthis.filters[ this.filters.length - 1 ].disconnect( this.getOutput() );\n\n\t\t} else {\n\n\t\t\tthis.source.disconnect( this.getOutput() );\n\n\t\t}\n\n\t\tthis._connected = false;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current set filters.\n\t *\n\t * @return {Array} The list of filters.\n\t */\n\tgetFilters() {\n\n\t\treturn this.filters;\n\n\t}\n\n\t/**\n\t * Sets an array of filters and connects them with the audio source.\n\t *\n\t * @param {Array} [value] - A list of filters.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetFilters( value ) {\n\n\t\tif ( ! value ) value = [];\n\n\t\tif ( this._connected === true ) {\n\n\t\t\tthis.disconnect();\n\t\t\tthis.filters = value.slice();\n\t\t\tthis.connect();\n\n\t\t} else {\n\n\t\t\tthis.filters = value.slice();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Defines the detuning of oscillation in cents.\n\t *\n\t * @param {number} value - The detuning of oscillation in cents.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetDetune( value ) {\n\n\t\tthis.detune = value;\n\n\t\tif ( this.isPlaying === true && this.source.detune !== undefined ) {\n\n\t\t\tthis.source.detune.setTargetAtTime( this.detune, this.context.currentTime, 0.01 );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the detuning of oscillation in cents.\n\t *\n\t * @return {number} The detuning of oscillation in cents.\n\t */\n\tgetDetune() {\n\n\t\treturn this.detune;\n\n\t}\n\n\t/**\n\t * Returns the first filter in the list of filters.\n\t *\n\t * @return {AudioNode|undefined} The first filter in the list of filters.\n\t */\n\tgetFilter() {\n\n\t\treturn this.getFilters()[ 0 ];\n\n\t}\n\n\t/**\n\t * Applies a single filter node to the audio.\n\t *\n\t * @param {AudioNode} [filter] - The filter to set.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetFilter( filter ) {\n\n\t\treturn this.setFilters( filter ? [ filter ] : [] );\n\n\t}\n\n\t/**\n\t * Sets the playback rate.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {number} [value] - The playback rate to set.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tsetPlaybackRate( value ) {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis.playbackRate = value;\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\tthis.source.playbackRate.setTargetAtTime( this.playbackRate, this.context.currentTime, 0.01 );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current playback rate.\n\n\t * @return {number} The playback rate.\n\t */\n\tgetPlaybackRate() {\n\n\t\treturn this.playbackRate;\n\n\t}\n\n\t/**\n\t * Automatically called when playback finished.\n\t */\n\tonEnded() {\n\n\t\tthis.isPlaying = false;\n\t\tthis._progress = 0;\n\n\t}\n\n\t/**\n\t * Returns the loop flag.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @return {boolean} Whether the audio should loop or not.\n\t */\n\tgetLoop() {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn false;\n\n\t\t}\n\n\t\treturn this.loop;\n\n\t}\n\n\t/**\n\t * Sets the loop flag.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {boolean} value - Whether the audio should loop or not.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tsetLoop( value ) {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis.loop = value;\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\tthis.source.loop = this.loop;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the loop start value which defines where in the audio buffer the replay should\n\t * start, in seconds.\n\t *\n\t * @param {number} value - The loop start value.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetLoopStart( value ) {\n\n\t\tthis.loopStart = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the loop end value which defines where in the audio buffer the replay should\n\t * stop, in seconds.\n\t *\n\t * @param {number} value - The loop end value.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetLoopEnd( value ) {\n\n\t\tthis.loopEnd = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the volume.\n\t *\n\t * @return {number} The volume.\n\t */\n\tgetVolume() {\n\n\t\treturn this.gain.gain.value;\n\n\t}\n\n\t/**\n\t * Sets the volume.\n\t *\n\t * @param {number} value - The volume to set.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetVolume( value ) {\n\n\t\tthis.gain.gain.setTargetAtTime( value, this.context.currentTime, 0.01 );\n\n\t\treturn this;\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.sourceType !== 'buffer' ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: Audio source type cannot be copied.' );\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tthis.autoplay = source.autoplay;\n\n\t\tthis.buffer = source.buffer;\n\t\tthis.detune = source.detune;\n\t\tthis.loop = source.loop;\n\t\tthis.loopStart = source.loopStart;\n\t\tthis.loopEnd = source.loopEnd;\n\t\tthis.offset = source.offset;\n\t\tthis.duration = source.duration;\n\t\tthis.playbackRate = source.playbackRate;\n\t\tthis.hasPlaybackControl = source.hasPlaybackControl;\n\t\tthis.sourceType = source.sourceType;\n\n\t\tthis.filters = source.filters.slice();\n\n\t\treturn this;\n\n\t}\n\n\tclone( recursive ) {\n\n\t\treturn new this.constructor( this.listener ).copy( this, recursive );\n\n\t}\n\n}\n\nconst _position = /*@__PURE__*/ new Vector3();\nconst _quaternion = /*@__PURE__*/ new Quaternion();\nconst _scale = /*@__PURE__*/ new Vector3();\nconst _orientation = /*@__PURE__*/ new Vector3();\n\n/**\n * Represents a positional audio object.\n *\n * ```js\n * // create an AudioListener and add it to the camera\n * const listener = new THREE.AudioListener();\n * camera.add( listener );\n *\n * // create the PositionalAudio object (passing in the listener)\n * const sound = new THREE.PositionalAudio( listener );\n *\n * // load a sound and set it as the PositionalAudio object's buffer\n * const audioLoader = new THREE.AudioLoader();\n * audioLoader.load( 'sounds/song.ogg', function( buffer ) {\n * \tsound.setBuffer( buffer );\n * \tsound.setRefDistance( 20 );\n * \tsound.play();\n * });\n *\n * // create an object for the sound to play from\n * const sphere = new THREE.SphereGeometry( 20, 32, 16 );\n * const material = new THREE.MeshPhongMaterial( { color: 0xff2200 } );\n * const mesh = new THREE.Mesh( sphere, material );\n * scene.add( mesh );\n *\n * // finally add the sound to the mesh\n * mesh.add( sound );\n *\n * @augments Audio\n */\nclass PositionalAudio extends Audio {\n\n\t/**\n\t * Constructs a positional audio.\n\t *\n\t * @param {AudioListener} listener - The global audio listener.\n\t */\n\tconstructor( listener ) {\n\n\t\tsuper( listener );\n\n\t\t/**\n\t\t * The panner node represents the location, direction, and behavior of an audio\n\t\t * source in 3D space.\n\t\t *\n\t\t * @type {PannerNode}\n\t\t * @readonly\n\t\t */\n\t\tthis.panner = this.context.createPanner();\n\t\tthis.panner.panningModel = 'HRTF';\n\t\tthis.panner.connect( this.gain );\n\n\t}\n\n\tconnect() {\n\n\t\tsuper.connect();\n\n\t\tthis.panner.connect( this.gain );\n\n\t\treturn this;\n\n\t}\n\n\tdisconnect() {\n\n\t\tsuper.disconnect();\n\n\t\tthis.panner.disconnect( this.gain );\n\n\t\treturn this;\n\n\t}\n\n\tgetOutput() {\n\n\t\treturn this.panner;\n\n\t}\n\n\t/**\n\t * Returns the current reference distance.\n\t *\n\t * @return {number} The reference distance.\n\t */\n\tgetRefDistance() {\n\n\t\treturn this.panner.refDistance;\n\n\t}\n\n\t/**\n\t * Defines the reference distance for reducing volume as the audio source moves\n\t * further from the listener – i.e. the distance at which the volume reduction\n\t * starts taking effect.\n\t *\n\t * @param {number} value - The reference distance to set.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetRefDistance( value ) {\n\n\t\tthis.panner.refDistance = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current rolloff factor.\n\t *\n\t * @return {number} The rolloff factor.\n\t */\n\tgetRolloffFactor() {\n\n\t\treturn this.panner.rolloffFactor;\n\n\t}\n\n\t/**\n\t * Defines how quickly the volume is reduced as the source moves away from the listener.\n\t *\n\t * @param {number} value - The rolloff factor.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetRolloffFactor( value ) {\n\n\t\tthis.panner.rolloffFactor = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current distance model.\n\t *\n\t * @return {('linear'|'inverse'|'exponential')} The distance model.\n\t */\n\tgetDistanceModel() {\n\n\t\treturn this.panner.distanceModel;\n\n\t}\n\n\t/**\n\t * Defines which algorithm to use to reduce the volume of the audio source\n\t * as it moves away from the listener.\n\t *\n\t * Read [the spec]{@link https://www.w3.org/TR/webaudio-1.1/#enumdef-distancemodeltype}\n\t * for more details.\n\t *\n\t * @param {('linear'|'inverse'|'exponential')} value - The distance model to set.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetDistanceModel( value ) {\n\n\t\tthis.panner.distanceModel = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current max distance.\n\t *\n\t * @return {number} The max distance.\n\t */\n\tgetMaxDistance() {\n\n\t\treturn this.panner.maxDistance;\n\n\t}\n\n\t/**\n\t * Defines the maximum distance between the audio source and the listener,\n\t * after which the volume is not reduced any further.\n\t *\n\t * This value is used only by the `linear` distance model.\n\t *\n\t * @param {number} value - The max distance.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetMaxDistance( value ) {\n\n\t\tthis.panner.maxDistance = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the directional cone in which the audio can be listened.\n\t *\n\t * @param {number} coneInnerAngle - An angle, in degrees, of a cone inside of which there will be no volume reduction.\n\t * @param {number} coneOuterAngle - An angle, in degrees, of a cone outside of which the volume will be reduced by a constant value, defined by the `coneOuterGain` parameter.\n\t * @param {number} coneOuterGain - The amount of volume reduction outside the cone defined by the `coneOuterAngle`. When set to `0`, no sound can be heard.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetDirectionalCone( coneInnerAngle, coneOuterAngle, coneOuterGain ) {\n\n\t\tthis.panner.coneInnerAngle = coneInnerAngle;\n\t\tthis.panner.coneOuterAngle = coneOuterAngle;\n\t\tthis.panner.coneOuterGain = coneOuterGain;\n\n\t\treturn this;\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tif ( this.hasPlaybackControl === true && this.isPlaying === false ) return;\n\n\t\tthis.matrixWorld.decompose( _position, _quaternion, _scale );\n\n\t\t_orientation.set( 0, 0, 1 ).applyQuaternion( _quaternion );\n\n\t\tconst panner = this.panner;\n\n\t\tif ( panner.positionX ) {\n\n\t\t\t// code path for Chrome and Firefox (see #14393)\n\n\t\t\tconst endTime = this.context.currentTime + this.listener.timeDelta;\n\n\t\t\tpanner.positionX.linearRampToValueAtTime( _position.x, endTime );\n\t\t\tpanner.positionY.linearRampToValueAtTime( _position.y, endTime );\n\t\t\tpanner.positionZ.linearRampToValueAtTime( _position.z, endTime );\n\t\t\tpanner.orientationX.linearRampToValueAtTime( _orientation.x, endTime );\n\t\t\tpanner.orientationY.linearRampToValueAtTime( _orientation.y, endTime );\n\t\t\tpanner.orientationZ.linearRampToValueAtTime( _orientation.z, endTime );\n\n\t\t} else {\n\n\t\t\tpanner.setPosition( _position.x, _position.y, _position.z );\n\t\t\tpanner.setOrientation( _orientation.x, _orientation.y, _orientation.z );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * This class can be used to analyse audio data.\n *\n * ```js\n * // create an AudioListener and add it to the camera\n * const listener = new THREE.AudioListener();\n * camera.add( listener );\n *\n * // create an Audio source\n * const sound = new THREE.Audio( listener );\n *\n * // load a sound and set it as the Audio object's buffer\n * const audioLoader = new THREE.AudioLoader();\n * audioLoader.load( 'sounds/ambient.ogg', function( buffer ) {\n * \tsound.setBuffer( buffer );\n * \tsound.setLoop(true);\n * \tsound.setVolume(0.5);\n * \tsound.play();\n * });\n *\n * // create an AudioAnalyser, passing in the sound and desired fftSize\n * const analyser = new THREE.AudioAnalyser( sound, 32 );\n *\n * // get the average frequency of the sound\n * const data = analyser.getAverageFrequency();\n * ```\n */\nclass AudioAnalyser {\n\n\t/**\n\t * Constructs a new audio analyzer.\n\t *\n\t * @param {Audio} audio - The audio to analyze.\n\t * @param {number} [fftSize=2048] - The window size in samples that is used when performing a Fast Fourier Transform (FFT) to get frequency domain data.\n\t */\n\tconstructor( audio, fftSize = 2048 ) {\n\n\t\t/**\n\t\t * The global audio listener.\n\t\t *\n\t\t * @type {AnalyserNode}\n\t\t */\n\t\tthis.analyser = audio.context.createAnalyser();\n\t\tthis.analyser.fftSize = fftSize;\n\n\t\t/**\n\t\t * Holds the analyzed data.\n\t\t *\n\t\t * @type {Uint8Array}\n\t\t */\n\t\tthis.data = new Uint8Array( this.analyser.frequencyBinCount );\n\n\t\taudio.getOutput().connect( this.analyser );\n\n\t}\n\n\t/**\n\t * Returns an array with frequency data of the audio.\n\t *\n\t * Each item in the array represents the decibel value for a specific frequency.\n\t * The frequencies are spread linearly from 0 to 1/2 of the sample rate.\n\t * For example, for 48000 sample rate, the last item of the array will represent\n\t * the decibel value for 24000 Hz.\n\t *\n\t * @return {Uint8Array} The frequency data.\n\t */\n\tgetFrequencyData() {\n\n\t\tthis.analyser.getByteFrequencyData( this.data );\n\n\t\treturn this.data;\n\n\t}\n\n\t/**\n\t * Returns the average of the frequencies returned by {@link AudioAnalyser#getFrequencyData}.\n\t *\n\t * @return {number} The average frequency.\n\t */\n\tgetAverageFrequency() {\n\n\t\tlet value = 0;\n\t\tconst data = this.getFrequencyData();\n\n\t\tfor ( let i = 0; i < data.length; i ++ ) {\n\n\t\t\tvalue += data[ i ];\n\n\t\t}\n\n\t\treturn value / data.length;\n\n\t}\n\n}\n\n/**\n * Buffered scene graph property that allows weighted accumulation; used internally.\n */\nclass PropertyMixer {\n\n\t/**\n\t * Constructs a new property mixer.\n\t *\n\t * @param {PropertyBinding} binding - The property binding.\n\t * @param {string} typeName - The keyframe track type name.\n\t * @param {number} valueSize - The keyframe track value size.\n\t */\n\tconstructor( binding, typeName, valueSize ) {\n\n\t\t/**\n\t\t * The property binding.\n\t\t *\n\t\t * @type {PropertyBinding}\n\t\t */\n\t\tthis.binding = binding;\n\n\t\t/**\n\t\t * The keyframe track value size.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.valueSize = valueSize;\n\n\t\tlet mixFunction,\n\t\t\tmixFunctionAdditive,\n\t\t\tsetIdentity;\n\n\t\t// buffer layout: [ incoming | accu0 | accu1 | orig | addAccu | (optional work) ]\n\t\t//\n\t\t// interpolators can use .buffer as their .result\n\t\t// the data then goes to 'incoming'\n\t\t//\n\t\t// 'accu0' and 'accu1' are used frame-interleaved for\n\t\t// the cumulative result and are compared to detect\n\t\t// changes\n\t\t//\n\t\t// 'orig' stores the original state of the property\n\t\t//\n\t\t// 'add' is used for additive cumulative results\n\t\t//\n\t\t// 'work' is optional and is only present for quaternion types. It is used\n\t\t// to store intermediate quaternion multiplication results\n\n\t\tswitch ( typeName ) {\n\n\t\t\tcase 'quaternion':\n\t\t\t\tmixFunction = this._slerp;\n\t\t\t\tmixFunctionAdditive = this._slerpAdditive;\n\t\t\t\tsetIdentity = this._setAdditiveIdentityQuaternion;\n\n\t\t\t\tthis.buffer = new Float64Array( valueSize * 6 );\n\t\t\t\tthis._workIndex = 5;\n\t\t\t\tbreak;\n\n\t\t\tcase 'string':\n\t\t\tcase 'bool':\n\t\t\t\tmixFunction = this._select;\n\n\t\t\t\t// Use the regular mix function and for additive on these types,\n\t\t\t\t// additive is not relevant for non-numeric types\n\t\t\t\tmixFunctionAdditive = this._select;\n\n\t\t\t\tsetIdentity = this._setAdditiveIdentityOther;\n\n\t\t\t\tthis.buffer = new Array( valueSize * 5 );\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\t\t\t\tmixFunction = this._lerp;\n\t\t\t\tmixFunctionAdditive = this._lerpAdditive;\n\t\t\t\tsetIdentity = this._setAdditiveIdentityNumeric;\n\n\t\t\t\tthis.buffer = new Float64Array( valueSize * 5 );\n\n\t\t}\n\n\t\tthis._mixBufferRegion = mixFunction;\n\t\tthis._mixBufferRegionAdditive = mixFunctionAdditive;\n\t\tthis._setIdentity = setIdentity;\n\t\tthis._origIndex = 3;\n\t\tthis._addIndex = 4;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.cumulativeWeight = 0;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.cumulativeWeightAdditive = 0;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.useCount = 0;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.referenceCount = 0;\n\n\t}\n\n\t/**\n\t * Accumulates data in the `incoming` region into `accu`.\n\t *\n\t * @param {number} accuIndex - The accumulation index.\n\t * @param {number} weight - The weight.\n\t */\n\taccumulate( accuIndex, weight ) {\n\n\t\t// note: happily accumulating nothing when weight = 0, the caller knows\n\t\t// the weight and shouldn't have made the call in the first place\n\n\t\tconst buffer = this.buffer,\n\t\t\tstride = this.valueSize,\n\t\t\toffset = accuIndex * stride + stride;\n\n\t\tlet currentWeight = this.cumulativeWeight;\n\n\t\tif ( currentWeight === 0 ) {\n\n\t\t\t// accuN := incoming * weight\n\n\t\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\t\tbuffer[ offset + i ] = buffer[ i ];\n\n\t\t\t}\n\n\t\t\tcurrentWeight = weight;\n\n\t\t} else {\n\n\t\t\t// accuN := accuN + incoming * weight\n\n\t\t\tcurrentWeight += weight;\n\t\t\tconst mix = weight / currentWeight;\n\t\t\tthis._mixBufferRegion( buffer, offset, 0, mix, stride );\n\n\t\t}\n\n\t\tthis.cumulativeWeight = currentWeight;\n\n\t}\n\n\t/**\n\t * Accumulates data in the `incoming` region into `add`.\n\t *\n\t * @param {number} weight - The weight.\n\t */\n\taccumulateAdditive( weight ) {\n\n\t\tconst buffer = this.buffer,\n\t\t\tstride = this.valueSize,\n\t\t\toffset = stride * this._addIndex;\n\n\t\tif ( this.cumulativeWeightAdditive === 0 ) {\n\n\t\t\t// add = identity\n\n\t\t\tthis._setIdentity();\n\n\t\t}\n\n\t\t// add := add + incoming * weight\n\n\t\tthis._mixBufferRegionAdditive( buffer, offset, 0, weight, stride );\n\t\tthis.cumulativeWeightAdditive += weight;\n\n\t}\n\n\t/**\n\t * Applies the state of `accu` to the binding when accus differ.\n\t *\n\t * @param {number} accuIndex - The accumulation index.\n\t */\n\tapply( accuIndex ) {\n\n\t\tconst stride = this.valueSize,\n\t\t\tbuffer = this.buffer,\n\t\t\toffset = accuIndex * stride + stride,\n\n\t\t\tweight = this.cumulativeWeight,\n\t\t\tweightAdditive = this.cumulativeWeightAdditive,\n\n\t\t\tbinding = this.binding;\n\n\t\tthis.cumulativeWeight = 0;\n\t\tthis.cumulativeWeightAdditive = 0;\n\n\t\tif ( weight < 1 ) {\n\n\t\t\t// accuN := accuN + original * ( 1 - cumulativeWeight )\n\n\t\t\tconst originalValueOffset = stride * this._origIndex;\n\n\t\t\tthis._mixBufferRegion(\n\t\t\t\tbuffer, offset, originalValueOffset, 1 - weight, stride );\n\n\t\t}\n\n\t\tif ( weightAdditive > 0 ) {\n\n\t\t\t// accuN := accuN + additive accuN\n\n\t\t\tthis._mixBufferRegionAdditive( buffer, offset, this._addIndex * stride, 1, stride );\n\n\t\t}\n\n\t\tfor ( let i = stride, e = stride + stride; i !== e; ++ i ) {\n\n\t\t\tif ( buffer[ i ] !== buffer[ i + stride ] ) {\n\n\t\t\t\t// value has changed -> update scene graph\n\n\t\t\t\tbinding.setValue( buffer, offset );\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\n\t/**\n\t * Remembers the state of the bound property and copy it to both accus.\n\t */\n\tsaveOriginalState() {\n\n\t\tconst binding = this.binding;\n\n\t\tconst buffer = this.buffer,\n\t\t\tstride = this.valueSize,\n\n\t\t\toriginalValueOffset = stride * this._origIndex;\n\n\t\tbinding.getValue( buffer, originalValueOffset );\n\n\t\t// accu[0..1] := orig -- initially detect changes against the original\n\t\tfor ( let i = stride, e = originalValueOffset; i !== e; ++ i ) {\n\n\t\t\tbuffer[ i ] = buffer[ originalValueOffset + ( i % stride ) ];\n\n\t\t}\n\n\t\t// Add to identity for additive\n\t\tthis._setIdentity();\n\n\t\tthis.cumulativeWeight = 0;\n\t\tthis.cumulativeWeightAdditive = 0;\n\n\t}\n\n\t/**\n\t * Applies the state previously taken via {@link PropertyMixer#saveOriginalState} to the binding.\n\t */\n\trestoreOriginalState() {\n\n\t\tconst originalValueOffset = this.valueSize * 3;\n\t\tthis.binding.setValue( this.buffer, originalValueOffset );\n\n\t}\n\n\t// internals\n\n\t_setAdditiveIdentityNumeric() {\n\n\t\tconst startIndex = this._addIndex * this.valueSize;\n\t\tconst endIndex = startIndex + this.valueSize;\n\n\t\tfor ( let i = startIndex; i < endIndex; i ++ ) {\n\n\t\t\tthis.buffer[ i ] = 0;\n\n\t\t}\n\n\t}\n\n\t_setAdditiveIdentityQuaternion() {\n\n\t\tthis._setAdditiveIdentityNumeric();\n\t\tthis.buffer[ this._addIndex * this.valueSize + 3 ] = 1;\n\n\t}\n\n\t_setAdditiveIdentityOther() {\n\n\t\tconst startIndex = this._origIndex * this.valueSize;\n\t\tconst targetIndex = this._addIndex * this.valueSize;\n\n\t\tfor ( let i = 0; i < this.valueSize; i ++ ) {\n\n\t\t\tthis.buffer[ targetIndex + i ] = this.buffer[ startIndex + i ];\n\n\t\t}\n\n\t}\n\n\n\t// mix functions\n\n\t_select( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tif ( t >= 0.5 ) {\n\n\t\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\t\tbuffer[ dstOffset + i ] = buffer[ srcOffset + i ];\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_slerp( buffer, dstOffset, srcOffset, t ) {\n\n\t\tQuaternion.slerpFlat( buffer, dstOffset, buffer, dstOffset, buffer, srcOffset, t );\n\n\t}\n\n\t_slerpAdditive( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tconst workOffset = this._workIndex * stride;\n\n\t\t// Store result in intermediate buffer offset\n\t\tQuaternion.multiplyQuaternionsFlat( buffer, workOffset, buffer, dstOffset, buffer, srcOffset );\n\n\t\t// Slerp to the intermediate result\n\t\tQuaternion.slerpFlat( buffer, dstOffset, buffer, dstOffset, buffer, workOffset, t );\n\n\t}\n\n\t_lerp( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tconst s = 1 - t;\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tconst j = dstOffset + i;\n\n\t\t\tbuffer[ j ] = buffer[ j ] * s + buffer[ srcOffset + i ] * t;\n\n\t\t}\n\n\t}\n\n\t_lerpAdditive( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tconst j = dstOffset + i;\n\n\t\t\tbuffer[ j ] = buffer[ j ] + buffer[ srcOffset + i ] * t;\n\n\t\t}\n\n\t}\n\n}\n\n// Characters [].:/ are reserved for track binding syntax.\nconst _RESERVED_CHARS_RE = '\\\\[\\\\]\\\\.:\\\\/';\nconst _reservedRe = new RegExp( '[' + _RESERVED_CHARS_RE + ']', 'g' );\n\n// Attempts to allow node names from any language. ES5's `\\w` regexp matches\n// only latin characters, and the unicode \\p{L} is not yet supported. So\n// instead, we exclude reserved characters and match everything else.\nconst _wordChar = '[^' + _RESERVED_CHARS_RE + ']';\nconst _wordCharOrDot = '[^' + _RESERVED_CHARS_RE.replace( '\\\\.', '' ) + ']';\n\n// Parent directories, delimited by '/' or ':'. Currently unused, but must\n// be matched to parse the rest of the track name.\nconst _directoryRe = /*@__PURE__*/ /((?:WC+[\\/:])*)/.source.replace( 'WC', _wordChar );\n\n// Target node. May contain word characters (a-zA-Z0-9_) and '.' or '-'.\nconst _nodeRe = /*@__PURE__*/ /(WCOD+)?/.source.replace( 'WCOD', _wordCharOrDot );\n\n// Object on target node, and accessor. May not contain reserved\n// characters. Accessor may contain any character except closing bracket.\nconst _objectRe = /*@__PURE__*/ /(?:\\.(WC+)(?:\\[(.+)\\])?)?/.source.replace( 'WC', _wordChar );\n\n// Property and accessor. May not contain reserved characters. Accessor may\n// contain any non-bracket characters.\nconst _propertyRe = /*@__PURE__*/ /\\.(WC+)(?:\\[(.+)\\])?/.source.replace( 'WC', _wordChar );\n\nconst _trackRe = new RegExp( ''\n\t+ '^'\n\t+ _directoryRe\n\t+ _nodeRe\n\t+ _objectRe\n\t+ _propertyRe\n\t+ '$'\n);\n\nconst _supportedObjectNames = [ 'material', 'materials', 'bones', 'map' ];\n\nclass Composite {\n\n\tconstructor( targetGroup, path, optionalParsedPath ) {\n\n\t\tconst parsedPath = optionalParsedPath || PropertyBinding.parseTrackName( path );\n\n\t\tthis._targetGroup = targetGroup;\n\t\tthis._bindings = targetGroup.subscribe_( path, parsedPath );\n\n\t}\n\n\tgetValue( array, offset ) {\n\n\t\tthis.bind(); // bind all binding\n\n\t\tconst firstValidIndex = this._targetGroup.nCachedObjects_,\n\t\t\tbinding = this._bindings[ firstValidIndex ];\n\n\t\t// and only call .getValue on the first\n\t\tif ( binding !== undefined ) binding.getValue( array, offset );\n\n\t}\n\n\tsetValue( array, offset ) {\n\n\t\tconst bindings = this._bindings;\n\n\t\tfor ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tbindings[ i ].setValue( array, offset );\n\n\t\t}\n\n\t}\n\n\tbind() {\n\n\t\tconst bindings = this._bindings;\n\n\t\tfor ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tbindings[ i ].bind();\n\n\t\t}\n\n\t}\n\n\tunbind() {\n\n\t\tconst bindings = this._bindings;\n\n\t\tfor ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tbindings[ i ].unbind();\n\n\t\t}\n\n\t}\n\n}\n\n// Note: This class uses a State pattern on a per-method basis:\n// 'bind' sets 'this.getValue' / 'setValue' and shadows the\n// prototype version of these methods with one that represents\n// the bound state. When the property is not found, the methods\n// become no-ops.\n\n\n/**\n * This holds a reference to a real property in the scene graph; used internally.\n */\nclass PropertyBinding {\n\n\t/**\n\t * Constructs a new property binding.\n\t *\n\t * @param {Object} rootNode - The root node.\n\t * @param {string} path - The path.\n\t * @param {?Object} [parsedPath] - The parsed path.\n\t */\n\tconstructor( rootNode, path, parsedPath ) {\n\n\t\t/**\n\t\t * The object path to the animated property.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.path = path;\n\n\t\t/**\n\t\t * An object holding information about the path.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parsedPath = parsedPath || PropertyBinding.parseTrackName( path );\n\n\t\t/**\n\t\t * The object owns the animated property.\n\t\t *\n\t\t * @type {?Object}\n\t\t */\n\t\tthis.node = PropertyBinding.findNode( rootNode, this.parsedPath.nodeName );\n\n\t\t/**\n\t\t * The root node.\n\t\t *\n\t\t * @type {Object3D|Skeleton}\n\t\t */\n\t\tthis.rootNode = rootNode;\n\n\t\t// initial state of these methods that calls 'bind'\n\t\tthis.getValue = this._getValue_unbound;\n\t\tthis.setValue = this._setValue_unbound;\n\n\t}\n\n\n\t/**\n\t * Factory method for creating a property binding from the given parameters.\n\t *\n\t * @static\n\t * @param {Object} root - The root node.\n\t * @param {string} path - The path.\n\t * @param {?Object} [parsedPath] - The parsed path.\n\t * @return {PropertyBinding|Composite} The created property binding or composite.\n\t */\n\tstatic create( root, path, parsedPath ) {\n\n\t\tif ( ! ( root && root.isAnimationObjectGroup ) ) {\n\n\t\t\treturn new PropertyBinding( root, path, parsedPath );\n\n\t\t} else {\n\n\t\t\treturn new PropertyBinding.Composite( root, path, parsedPath );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Replaces spaces with underscores and removes unsupported characters from\n\t * node names, to ensure compatibility with parseTrackName().\n\t *\n\t * @param {string} name - Node name to be sanitized.\n\t * @return {string} The sanitized node name.\n\t */\n\tstatic sanitizeNodeName( name ) {\n\n\t\treturn name.replace( /\\s/g, '_' ).replace( _reservedRe, '' );\n\n\t}\n\n\t/**\n\t * Parses the given track name (an object path to an animated property) and\n\t * returns an object with information about the path. Matches strings in the following forms:\n\t *\n\t * - nodeName.property\n\t * - nodeName.property[accessor]\n\t * - nodeName.material.property[accessor]\n\t * - uuid.property[accessor]\n\t * - uuid.objectName[objectIndex].propertyName[propertyIndex]\n\t * - parentName/nodeName.property\n\t * - parentName/parentName/nodeName.property[index]\n\t * - .bone[Armature.DEF_cog].position\n\t * - scene:helium_balloon_model:helium_balloon_model.position\n\t *\n\t * @static\n\t * @param {string} trackName - The track name to parse.\n\t * @return {Object} The parsed track name as an object.\n\t */\n\tstatic parseTrackName( trackName ) {\n\n\t\tconst matches = _trackRe.exec( trackName );\n\n\t\tif ( matches === null ) {\n\n\t\t\tthrow new Error( 'PropertyBinding: Cannot parse trackName: ' + trackName );\n\n\t\t}\n\n\t\tconst results = {\n\t\t\t// directoryName: matches[ 1 ], // (tschw) currently unused\n\t\t\tnodeName: matches[ 2 ],\n\t\t\tobjectName: matches[ 3 ],\n\t\t\tobjectIndex: matches[ 4 ],\n\t\t\tpropertyName: matches[ 5 ], // required\n\t\t\tpropertyIndex: matches[ 6 ]\n\t\t};\n\n\t\tconst lastDot = results.nodeName && results.nodeName.lastIndexOf( '.' );\n\n\t\tif ( lastDot !== undefined && lastDot !== -1 ) {\n\n\t\t\tconst objectName = results.nodeName.substring( lastDot + 1 );\n\n\t\t\t// Object names must be checked against an allowlist. Otherwise, there\n\t\t\t// is no way to parse 'foo.bar.baz': 'baz' must be a property, but\n\t\t\t// 'bar' could be the objectName, or part of a nodeName (which can\n\t\t\t// include '.' characters).\n\t\t\tif ( _supportedObjectNames.indexOf( objectName ) !== -1 ) {\n\n\t\t\t\tresults.nodeName = results.nodeName.substring( 0, lastDot );\n\t\t\t\tresults.objectName = objectName;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( results.propertyName === null || results.propertyName.length === 0 ) {\n\n\t\t\tthrow new Error( 'PropertyBinding: can not parse propertyName from trackName: ' + trackName );\n\n\t\t}\n\n\t\treturn results;\n\n\t}\n\n\t/**\n\t * Searches for a node in the hierarchy of the given root object by the given\n\t * node name.\n\t *\n\t * @static\n\t * @param {Object} root - The root object.\n\t * @param {string|number} nodeName - The name of the node.\n\t * @return {?Object} The found node. Returns `null` if no object was found.\n\t */\n\tstatic findNode( root, nodeName ) {\n\n\t\tif ( nodeName === undefined || nodeName === '' || nodeName === '.' || nodeName === -1 || nodeName === root.name || nodeName === root.uuid ) {\n\n\t\t\treturn root;\n\n\t\t}\n\n\t\t// search into skeleton bones.\n\t\tif ( root.skeleton ) {\n\n\t\t\tconst bone = root.skeleton.getBoneByName( nodeName );\n\n\t\t\tif ( bone !== undefined ) {\n\n\t\t\t\treturn bone;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// search into node subtree.\n\t\tif ( root.children ) {\n\n\t\t\tconst searchNodeSubtree = function ( children ) {\n\n\t\t\t\tfor ( let i = 0; i < children.length; i ++ ) {\n\n\t\t\t\t\tconst childNode = children[ i ];\n\n\t\t\t\t\tif ( childNode.name === nodeName || childNode.uuid === nodeName ) {\n\n\t\t\t\t\t\treturn childNode;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tconst result = searchNodeSubtree( childNode.children );\n\n\t\t\t\t\tif ( result ) return result;\n\n\t\t\t\t}\n\n\t\t\t\treturn null;\n\n\t\t\t};\n\n\t\t\tconst subTreeNode = searchNodeSubtree( root.children );\n\n\t\t\tif ( subTreeNode ) {\n\n\t\t\t\treturn subTreeNode;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t// these are used to \"bind\" a nonexistent property\n\t_getValue_unavailable() {}\n\t_setValue_unavailable() {}\n\n\t// Getters\n\n\t_getValue_direct( buffer, offset ) {\n\n\t\tbuffer[ offset ] = this.targetObject[ this.propertyName ];\n\n\t}\n\n\t_getValue_array( buffer, offset ) {\n\n\t\tconst source = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = source.length; i !== n; ++ i ) {\n\n\t\t\tbuffer[ offset ++ ] = source[ i ];\n\n\t\t}\n\n\t}\n\n\t_getValue_arrayElement( buffer, offset ) {\n\n\t\tbuffer[ offset ] = this.resolvedProperty[ this.propertyIndex ];\n\n\t}\n\n\t_getValue_toArray( buffer, offset ) {\n\n\t\tthis.resolvedProperty.toArray( buffer, offset );\n\n\t}\n\n\t// Direct\n\n\t_setValue_direct( buffer, offset ) {\n\n\t\tthis.targetObject[ this.propertyName ] = buffer[ offset ];\n\n\t}\n\n\t_setValue_direct_setNeedsUpdate( buffer, offset ) {\n\n\t\tthis.targetObject[ this.propertyName ] = buffer[ offset ];\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_direct_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tthis.targetObject[ this.propertyName ] = buffer[ offset ];\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t// EntireArray\n\n\t_setValue_array( buffer, offset ) {\n\n\t\tconst dest = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = dest.length; i !== n; ++ i ) {\n\n\t\t\tdest[ i ] = buffer[ offset ++ ];\n\n\t\t}\n\n\t}\n\n\t_setValue_array_setNeedsUpdate( buffer, offset ) {\n\n\t\tconst dest = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = dest.length; i !== n; ++ i ) {\n\n\t\t\tdest[ i ] = buffer[ offset ++ ];\n\n\t\t}\n\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_array_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tconst dest = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = dest.length; i !== n; ++ i ) {\n\n\t\t\tdest[ i ] = buffer[ offset ++ ];\n\n\t\t}\n\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t// ArrayElement\n\n\t_setValue_arrayElement( buffer, offset ) {\n\n\t\tthis.resolvedProperty[ this.propertyIndex ] = buffer[ offset ];\n\n\t}\n\n\t_setValue_arrayElement_setNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty[ this.propertyIndex ] = buffer[ offset ];\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_arrayElement_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty[ this.propertyIndex ] = buffer[ offset ];\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t// HasToFromArray\n\n\t_setValue_fromArray( buffer, offset ) {\n\n\t\tthis.resolvedProperty.fromArray( buffer, offset );\n\n\t}\n\n\t_setValue_fromArray_setNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty.fromArray( buffer, offset );\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_fromArray_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty.fromArray( buffer, offset );\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t_getValue_unbound( targetArray, offset ) {\n\n\t\tthis.bind();\n\t\tthis.getValue( targetArray, offset );\n\n\t}\n\n\t_setValue_unbound( sourceArray, offset ) {\n\n\t\tthis.bind();\n\t\tthis.setValue( sourceArray, offset );\n\n\t}\n\n\t/**\n\t * Creates a getter / setter pair for the property tracked by this binding.\n\t */\n\tbind() {\n\n\t\tlet targetObject = this.node;\n\t\tconst parsedPath = this.parsedPath;\n\n\t\tconst objectName = parsedPath.objectName;\n\t\tconst propertyName = parsedPath.propertyName;\n\t\tlet propertyIndex = parsedPath.propertyIndex;\n\n\t\tif ( ! targetObject ) {\n\n\t\t\ttargetObject = PropertyBinding.findNode( this.rootNode, parsedPath.nodeName );\n\n\t\t\tthis.node = targetObject;\n\n\t\t}\n\n\t\t// set fail state so we can just 'return' on error\n\t\tthis.getValue = this._getValue_unavailable;\n\t\tthis.setValue = this._setValue_unavailable;\n\n\t\t// ensure there is a value node\n\t\tif ( ! targetObject ) {\n\n\t\t\tconsole.warn( 'THREE.PropertyBinding: No target node found for track: ' + this.path + '.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( objectName ) {\n\n\t\t\tlet objectIndex = parsedPath.objectIndex;\n\n\t\t\t// special cases were we need to reach deeper into the hierarchy to get the face materials....\n\t\t\tswitch ( objectName ) {\n\n\t\t\t\tcase 'materials':\n\n\t\t\t\t\tif ( ! targetObject.material ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material as node does not have a material.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! targetObject.material.materials ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material.materials as node.material does not have a materials array.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttargetObject = targetObject.material.materials;\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase 'bones':\n\n\t\t\t\t\tif ( ! targetObject.skeleton ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to bones as node does not have a skeleton.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// potential future optimization: skip this if propertyIndex is already an integer\n\t\t\t\t\t// and convert the integer string to a true integer.\n\n\t\t\t\t\ttargetObject = targetObject.skeleton.bones;\n\n\t\t\t\t\t// support resolving morphTarget names into indices.\n\t\t\t\t\tfor ( let i = 0; i < targetObject.length; i ++ ) {\n\n\t\t\t\t\t\tif ( targetObject[ i ].name === objectIndex ) {\n\n\t\t\t\t\t\t\tobjectIndex = i;\n\t\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase 'map':\n\n\t\t\t\t\tif ( 'map' in targetObject ) {\n\n\t\t\t\t\t\ttargetObject = targetObject.map;\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! targetObject.material ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material as node does not have a material.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! targetObject.material.map ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material.map as node.material does not have a map.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttargetObject = targetObject.material.map;\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\n\n\t\t\t\t\tif ( targetObject[ objectName ] === undefined ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to objectName of node undefined.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttargetObject = targetObject[ objectName ];\n\n\t\t\t}\n\n\n\t\t\tif ( objectIndex !== undefined ) {\n\n\t\t\t\tif ( targetObject[ objectIndex ] === undefined ) {\n\n\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Trying to bind to objectIndex of objectName, but is undefined.', this, targetObject );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t\ttargetObject = targetObject[ objectIndex ];\n\n\t\t\t}\n\n\t\t}\n\n\t\t// resolve property\n\t\tconst nodeProperty = targetObject[ propertyName ];\n\n\t\tif ( nodeProperty === undefined ) {\n\n\t\t\tconst nodeName = parsedPath.nodeName;\n\n\t\t\tconsole.error( 'THREE.PropertyBinding: Trying to update property for track: ' + nodeName +\n\t\t\t\t'.' + propertyName + ' but it wasn\\'t found.', targetObject );\n\t\t\treturn;\n\n\t\t}\n\n\t\t// determine versioning scheme\n\t\tlet versioning = this.Versioning.None;\n\n\t\tthis.targetObject = targetObject;\n\n\t\tif ( targetObject.isMaterial === true ) {\n\n\t\t\tversioning = this.Versioning.NeedsUpdate;\n\n\t\t} else if ( targetObject.isObject3D === true ) {\n\n\t\t\tversioning = this.Versioning.MatrixWorldNeedsUpdate;\n\n\t\t}\n\n\t\t// determine how the property gets bound\n\t\tlet bindingType = this.BindingType.Direct;\n\n\t\tif ( propertyIndex !== undefined ) {\n\n\t\t\t// access a sub element of the property array (only primitives are supported right now)\n\n\t\t\tif ( propertyName === 'morphTargetInfluences' ) {\n\n\t\t\t\t// potential optimization, skip this if propertyIndex is already an integer, and convert the integer string to a true integer.\n\n\t\t\t\t// support resolving morphTarget names into indices.\n\t\t\t\tif ( ! targetObject.geometry ) {\n\n\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to morphTargetInfluences because node does not have a geometry.', this );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t\tif ( ! targetObject.geometry.morphAttributes ) {\n\n\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to morphTargetInfluences because node does not have a geometry.morphAttributes.', this );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t\tif ( targetObject.morphTargetDictionary[ propertyIndex ] !== undefined ) {\n\n\t\t\t\t\tpropertyIndex = targetObject.morphTargetDictionary[ propertyIndex ];\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tbindingType = this.BindingType.ArrayElement;\n\n\t\t\tthis.resolvedProperty = nodeProperty;\n\t\t\tthis.propertyIndex = propertyIndex;\n\n\t\t} else if ( nodeProperty.fromArray !== undefined && nodeProperty.toArray !== undefined ) {\n\n\t\t\t// must use copy for Object3D.Euler/Quaternion\n\n\t\t\tbindingType = this.BindingType.HasFromToArray;\n\n\t\t\tthis.resolvedProperty = nodeProperty;\n\n\t\t} else if ( Array.isArray( nodeProperty ) ) {\n\n\t\t\tbindingType = this.BindingType.EntireArray;\n\n\t\t\tthis.resolvedProperty = nodeProperty;\n\n\t\t} else {\n\n\t\t\tthis.propertyName = propertyName;\n\n\t\t}\n\n\t\t// select getter / setter\n\t\tthis.getValue = this.GetterByBindingType[ bindingType ];\n\t\tthis.setValue = this.SetterByBindingTypeAndVersioning[ bindingType ][ versioning ];\n\n\t}\n\n\t/**\n\t * Unbinds the property.\n\t */\n\tunbind() {\n\n\t\tthis.node = null;\n\n\t\t// back to the prototype version of getValue / setValue\n\t\t// note: avoiding to mutate the shape of 'this' via 'delete'\n\t\tthis.getValue = this._getValue_unbound;\n\t\tthis.setValue = this._setValue_unbound;\n\n\t}\n\n}\n\nPropertyBinding.Composite = Composite;\n\nPropertyBinding.prototype.BindingType = {\n\tDirect: 0,\n\tEntireArray: 1,\n\tArrayElement: 2,\n\tHasFromToArray: 3\n};\n\nPropertyBinding.prototype.Versioning = {\n\tNone: 0,\n\tNeedsUpdate: 1,\n\tMatrixWorldNeedsUpdate: 2\n};\n\nPropertyBinding.prototype.GetterByBindingType = [\n\n\tPropertyBinding.prototype._getValue_direct,\n\tPropertyBinding.prototype._getValue_array,\n\tPropertyBinding.prototype._getValue_arrayElement,\n\tPropertyBinding.prototype._getValue_toArray,\n\n];\n\nPropertyBinding.prototype.SetterByBindingTypeAndVersioning = [\n\n\t[\n\t\t// Direct\n\t\tPropertyBinding.prototype._setValue_direct,\n\t\tPropertyBinding.prototype._setValue_direct_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_direct_setMatrixWorldNeedsUpdate,\n\n\t], [\n\n\t\t// EntireArray\n\n\t\tPropertyBinding.prototype._setValue_array,\n\t\tPropertyBinding.prototype._setValue_array_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_array_setMatrixWorldNeedsUpdate,\n\n\t], [\n\n\t\t// ArrayElement\n\t\tPropertyBinding.prototype._setValue_arrayElement,\n\t\tPropertyBinding.prototype._setValue_arrayElement_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_arrayElement_setMatrixWorldNeedsUpdate,\n\n\t], [\n\n\t\t// HasToFromArray\n\t\tPropertyBinding.prototype._setValue_fromArray,\n\t\tPropertyBinding.prototype._setValue_fromArray_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_fromArray_setMatrixWorldNeedsUpdate,\n\n\t]\n\n];\n\n/**\n * A group of objects that receives a shared animation state.\n *\n * Usage:\n *\n * - Add objects you would otherwise pass as 'root' to the\n * constructor or the .clipAction method of AnimationMixer.\n * - Instead pass this object as 'root'.\n * - You can also add and remove objects later when the mixer is running.\n *\n * Note:\n *\n * - Objects of this class appear as one object to the mixer,\n * so cache control of the individual objects must be done on the group.\n *\n * Limitation:\n *\n * - The animated properties must be compatible among the all objects in the group.\n * - A single property can either be controlled through a target group or directly, but not both.\n */\nclass AnimationObjectGroup {\n\n\t/**\n\t * Constructs a new animation group.\n\t *\n\t * @param {...Object3D} arguments - An arbitrary number of 3D objects that share the same animation state.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isAnimationObjectGroup = true;\n\n\t\t/**\n\t\t * The UUID of the 3D object.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t// cached objects followed by the active ones\n\t\tthis._objects = Array.prototype.slice.call( arguments );\n\n\t\tthis.nCachedObjects_ = 0; // threshold\n\t\t// note: read by PropertyBinding.Composite\n\n\t\tconst indices = {};\n\t\tthis._indicesByUUID = indices; // for bookkeeping\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tindices[ arguments[ i ].uuid ] = i;\n\n\t\t}\n\n\t\tthis._paths = []; // inside: string\n\t\tthis._parsedPaths = []; // inside: { we don't care, here }\n\t\tthis._bindings = []; // inside: Array< PropertyBinding >\n\t\tthis._bindingsIndicesByPath = {}; // inside: indices in these arrays\n\n\t\tconst scope = this;\n\n\t\tthis.stats = {\n\n\t\t\tobjects: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._objects.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn this.total - scope.nCachedObjects_;\n\n\t\t\t\t}\n\t\t\t},\n\t\t\tget bindingsPerObject() {\n\n\t\t\t\treturn scope._bindings.length;\n\n\t\t\t}\n\n\t\t};\n\n\t}\n\n\t/**\n\t * Adds an arbitrary number of objects to this animation group.\n\t *\n\t * @param {...Object3D} arguments - The 3D objects to add.\n\t */\n\tadd() {\n\n\t\tconst objects = this._objects,\n\t\t\tindicesByUUID = this._indicesByUUID,\n\t\t\tpaths = this._paths,\n\t\t\tparsedPaths = this._parsedPaths,\n\t\t\tbindings = this._bindings,\n\t\t\tnBindings = bindings.length;\n\n\t\tlet knownObject = undefined,\n\t\t\tnObjects = objects.length,\n\t\t\tnCachedObjects = this.nCachedObjects_;\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tconst object = arguments[ i ],\n\t\t\t\tuuid = object.uuid;\n\t\t\tlet index = indicesByUUID[ uuid ];\n\n\t\t\tif ( index === undefined ) {\n\n\t\t\t\t// unknown object -> add it to the ACTIVE region\n\n\t\t\t\tindex = nObjects ++;\n\t\t\t\tindicesByUUID[ uuid ] = index;\n\t\t\t\tobjects.push( object );\n\n\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\tbindings[ j ].push( new PropertyBinding( object, paths[ j ], parsedPaths[ j ] ) );\n\n\t\t\t\t}\n\n\t\t\t} else if ( index < nCachedObjects ) {\n\n\t\t\t\tknownObject = objects[ index ];\n\n\t\t\t\t// move existing object to the ACTIVE region\n\n\t\t\t\tconst firstActiveIndex = -- nCachedObjects,\n\t\t\t\t\tlastCachedObject = objects[ firstActiveIndex ];\n\n\t\t\t\tindicesByUUID[ lastCachedObject.uuid ] = index;\n\t\t\t\tobjects[ index ] = lastCachedObject;\n\n\t\t\t\tindicesByUUID[ uuid ] = firstActiveIndex;\n\t\t\t\tobjects[ firstActiveIndex ] = object;\n\n\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\tconst bindingsForPath = bindings[ j ],\n\t\t\t\t\t\tlastCached = bindingsForPath[ firstActiveIndex ];\n\n\t\t\t\t\tlet binding = bindingsForPath[ index ];\n\n\t\t\t\t\tbindingsForPath[ index ] = lastCached;\n\n\t\t\t\t\tif ( binding === undefined ) {\n\n\t\t\t\t\t\t// since we do not bother to create new bindings\n\t\t\t\t\t\t// for objects that are cached, the binding may\n\t\t\t\t\t\t// or may not exist\n\n\t\t\t\t\t\tbinding = new PropertyBinding( object, paths[ j ], parsedPaths[ j ] );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbindingsForPath[ firstActiveIndex ] = binding;\n\n\t\t\t\t}\n\n\t\t\t} else if ( objects[ index ] !== knownObject ) {\n\n\t\t\t\tconsole.error( 'THREE.AnimationObjectGroup: Different objects with the same UUID ' +\n\t\t\t\t\t'detected. Clean the caches or recreate your infrastructure when reloading scenes.' );\n\n\t\t\t} // else the object is already where we want it to be\n\n\t\t} // for arguments\n\n\t\tthis.nCachedObjects_ = nCachedObjects;\n\n\t}\n\n\t/**\n\t * Removes an arbitrary number of objects to this animation group\n\t *\n\t * @param {...Object3D} arguments - The 3D objects to remove.\n\t */\n\tremove() {\n\n\t\tconst objects = this._objects,\n\t\t\tindicesByUUID = this._indicesByUUID,\n\t\t\tbindings = this._bindings,\n\t\t\tnBindings = bindings.length;\n\n\t\tlet nCachedObjects = this.nCachedObjects_;\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tconst object = arguments[ i ],\n\t\t\t\tuuid = object.uuid,\n\t\t\t\tindex = indicesByUUID[ uuid ];\n\n\t\t\tif ( index !== undefined && index >= nCachedObjects ) {\n\n\t\t\t\t// move existing object into the CACHED region\n\n\t\t\t\tconst lastCachedIndex = nCachedObjects ++,\n\t\t\t\t\tfirstActiveObject = objects[ lastCachedIndex ];\n\n\t\t\t\tindicesByUUID[ firstActiveObject.uuid ] = index;\n\t\t\t\tobjects[ index ] = firstActiveObject;\n\n\t\t\t\tindicesByUUID[ uuid ] = lastCachedIndex;\n\t\t\t\tobjects[ lastCachedIndex ] = object;\n\n\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\tconst bindingsForPath = bindings[ j ],\n\t\t\t\t\t\tfirstActive = bindingsForPath[ lastCachedIndex ],\n\t\t\t\t\t\tbinding = bindingsForPath[ index ];\n\n\t\t\t\t\tbindingsForPath[ index ] = firstActive;\n\t\t\t\t\tbindingsForPath[ lastCachedIndex ] = binding;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} // for arguments\n\n\t\tthis.nCachedObjects_ = nCachedObjects;\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for the passed 3D objects of this animation group.\n\t *\n\t * @param {...Object3D} arguments - The 3D objects to uncache.\n\t */\n\tuncache() {\n\n\t\tconst objects = this._objects,\n\t\t\tindicesByUUID = this._indicesByUUID,\n\t\t\tbindings = this._bindings,\n\t\t\tnBindings = bindings.length;\n\n\t\tlet nCachedObjects = this.nCachedObjects_,\n\t\t\tnObjects = objects.length;\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tconst object = arguments[ i ],\n\t\t\t\tuuid = object.uuid,\n\t\t\t\tindex = indicesByUUID[ uuid ];\n\n\t\t\tif ( index !== undefined ) {\n\n\t\t\t\tdelete indicesByUUID[ uuid ];\n\n\t\t\t\tif ( index < nCachedObjects ) {\n\n\t\t\t\t\t// object is cached, shrink the CACHED region\n\n\t\t\t\t\tconst firstActiveIndex = -- nCachedObjects,\n\t\t\t\t\t\tlastCachedObject = objects[ firstActiveIndex ],\n\t\t\t\t\t\tlastIndex = -- nObjects,\n\t\t\t\t\t\tlastObject = objects[ lastIndex ];\n\n\t\t\t\t\t// last cached object takes this object's place\n\t\t\t\t\tindicesByUUID[ lastCachedObject.uuid ] = index;\n\t\t\t\t\tobjects[ index ] = lastCachedObject;\n\n\t\t\t\t\t// last object goes to the activated slot and pop\n\t\t\t\t\tindicesByUUID[ lastObject.uuid ] = firstActiveIndex;\n\t\t\t\t\tobjects[ firstActiveIndex ] = lastObject;\n\t\t\t\t\tobjects.pop();\n\n\t\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\t\tconst bindingsForPath = bindings[ j ],\n\t\t\t\t\t\t\tlastCached = bindingsForPath[ firstActiveIndex ],\n\t\t\t\t\t\t\tlast = bindingsForPath[ lastIndex ];\n\n\t\t\t\t\t\tbindingsForPath[ index ] = lastCached;\n\t\t\t\t\t\tbindingsForPath[ firstActiveIndex ] = last;\n\t\t\t\t\t\tbindingsForPath.pop();\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// object is active, just swap with the last and pop\n\n\t\t\t\t\tconst lastIndex = -- nObjects,\n\t\t\t\t\t\tlastObject = objects[ lastIndex ];\n\n\t\t\t\t\tif ( lastIndex > 0 ) {\n\n\t\t\t\t\t\tindicesByUUID[ lastObject.uuid ] = index;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tobjects[ index ] = lastObject;\n\t\t\t\t\tobjects.pop();\n\n\t\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\t\tconst bindingsForPath = bindings[ j ];\n\n\t\t\t\t\t\tbindingsForPath[ index ] = bindingsForPath[ lastIndex ];\n\t\t\t\t\t\tbindingsForPath.pop();\n\n\t\t\t\t\t}\n\n\t\t\t\t} // cached or active\n\n\t\t\t} // if object is known\n\n\t\t} // for arguments\n\n\t\tthis.nCachedObjects_ = nCachedObjects;\n\n\t}\n\n\t// Internal interface used by befriended PropertyBinding.Composite:\n\n\tsubscribe_( path, parsedPath ) {\n\n\t\t// returns an array of bindings for the given path that is changed\n\t\t// according to the contained objects in the group\n\n\t\tconst indicesByPath = this._bindingsIndicesByPath;\n\t\tlet index = indicesByPath[ path ];\n\t\tconst bindings = this._bindings;\n\n\t\tif ( index !== undefined ) return bindings[ index ];\n\n\t\tconst paths = this._paths,\n\t\t\tparsedPaths = this._parsedPaths,\n\t\t\tobjects = this._objects,\n\t\t\tnObjects = objects.length,\n\t\t\tnCachedObjects = this.nCachedObjects_,\n\t\t\tbindingsForPath = new Array( nObjects );\n\n\t\tindex = bindings.length;\n\n\t\tindicesByPath[ path ] = index;\n\n\t\tpaths.push( path );\n\t\tparsedPaths.push( parsedPath );\n\t\tbindings.push( bindingsForPath );\n\n\t\tfor ( let i = nCachedObjects, n = objects.length; i !== n; ++ i ) {\n\n\t\t\tconst object = objects[ i ];\n\t\t\tbindingsForPath[ i ] = new PropertyBinding( object, path, parsedPath );\n\n\t\t}\n\n\t\treturn bindingsForPath;\n\n\t}\n\n\tunsubscribe_( path ) {\n\n\t\t// tells the group to forget about a property path and no longer\n\t\t// update the array previously obtained with 'subscribe_'\n\n\t\tconst indicesByPath = this._bindingsIndicesByPath,\n\t\t\tindex = indicesByPath[ path ];\n\n\t\tif ( index !== undefined ) {\n\n\t\t\tconst paths = this._paths,\n\t\t\t\tparsedPaths = this._parsedPaths,\n\t\t\t\tbindings = this._bindings,\n\t\t\t\tlastBindingsIndex = bindings.length - 1,\n\t\t\t\tlastBindings = bindings[ lastBindingsIndex ],\n\t\t\t\tlastBindingsPath = path[ lastBindingsIndex ];\n\n\t\t\tindicesByPath[ lastBindingsPath ] = index;\n\n\t\t\tbindings[ index ] = lastBindings;\n\t\t\tbindings.pop();\n\n\t\t\tparsedPaths[ index ] = parsedPaths[ lastBindingsIndex ];\n\t\t\tparsedPaths.pop();\n\n\t\t\tpaths[ index ] = paths[ lastBindingsIndex ];\n\t\t\tpaths.pop();\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * An instance of `AnimationAction` schedules the playback of an animation which is\n * stored in {@link AnimationClip}.\n */\nclass AnimationAction {\n\n\t/**\n\t * Constructs a new animation action.\n\t *\n\t * @param {AnimationMixer} mixer - The mixer that is controlled by this action.\n\t * @param {AnimationClip} clip - The animation clip that holds the actual keyframes.\n\t * @param {?Object3D} [localRoot=null] - The root object on which this action is performed.\n\t * @param {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)} [blendMode] - The blend mode.\n\t */\n\tconstructor( mixer, clip, localRoot = null, blendMode = clip.blendMode ) {\n\n\t\tthis._mixer = mixer;\n\t\tthis._clip = clip;\n\t\tthis._localRoot = localRoot;\n\n\t\t/**\n\t\t * Defines how the animation is blended/combined when two or more animations\n\t\t * are simultaneously played.\n\t\t *\n\t\t * @type {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)}\n\t\t */\n\t\tthis.blendMode = blendMode;\n\n\t\tconst tracks = clip.tracks,\n\t\t\tnTracks = tracks.length,\n\t\t\tinterpolants = new Array( nTracks );\n\n\t\tconst interpolantSettings = {\n\t\t\tendingStart: ZeroCurvatureEnding,\n\t\t\tendingEnd: ZeroCurvatureEnding\n\t\t};\n\n\t\tfor ( let i = 0; i !== nTracks; ++ i ) {\n\n\t\t\tconst interpolant = tracks[ i ].createInterpolant( null );\n\t\t\tinterpolants[ i ] = interpolant;\n\t\t\tinterpolant.settings = interpolantSettings;\n\n\t\t}\n\n\t\tthis._interpolantSettings = interpolantSettings;\n\n\t\tthis._interpolants = interpolants; // bound by the mixer\n\n\t\t// inside: PropertyMixer (managed by the mixer)\n\t\tthis._propertyBindings = new Array( nTracks );\n\n\t\tthis._cacheIndex = null; // for the memory manager\n\t\tthis._byClipCacheIndex = null; // for the memory manager\n\n\t\tthis._timeScaleInterpolant = null;\n\t\tthis._weightInterpolant = null;\n\n\t\t/**\n\t\t * The loop mode, set via {@link AnimationAction#setLoop}.\n\t\t *\n\t\t * @type {(LoopRepeat|LoopOnce|LoopPingPong)}\n\t\t * @default LoopRepeat\n\t\t */\n\t\tthis.loop = LoopRepeat;\n\t\tthis._loopCount = -1;\n\n\t\t// global mixer time when the action is to be started\n\t\t// it's set back to 'null' upon start of the action\n\t\tthis._startTime = null;\n\n\t\t/**\n\t\t * The local time of this action (in seconds, starting with `0`).\n\t\t *\n\t\t * The value gets clamped or wrapped to `[0,clip.duration]` (according to the\n\t\t * loop state).\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.time = 0;\n\n\t\t/**\n\t\t * Scaling factor for the {@link AnimationAction#time}. A value of `0` causes the\n\t\t * animation to pause. Negative values cause the animation to play backwards.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.timeScale = 1;\n\t\tthis._effectiveTimeScale = 1;\n\n\t\t/**\n\t\t * The degree of influence of this action (in the interval `[0, 1]`). Values\n\t\t * between `0` (no impact) and `1` (full impact) can be used to blend between\n\t\t * several actions.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.weight = 1;\n\t\tthis._effectiveWeight = 1;\n\n\t\t/**\n\t\t * The number of repetitions of the performed clip over the course of this action.\n\t\t * Can be set via {@link AnimationAction#setLoop}.\n\t\t *\n\t\t * Setting this number has no effect if {@link AnimationAction#loop} is set to\n\t\t * `THREE:LoopOnce`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.repetitions = Infinity;\n\n\t\t/**\n\t\t * If set to `true`, the playback of the action is paused.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.paused = false;\n\n\t\t/**\n\t\t * If set to `false`, the action is disabled so it has no impact.\n\t\t *\n\t\t * When the action is re-enabled, the animation continues from its current\n\t\t * time (setting `enabled` to `false` doesn't reset the action).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.enabled = true;\n\n\t\t/**\n\t\t * If set to true the animation will automatically be paused on its last frame.\n\t\t *\n\t\t * If set to false, {@link AnimationAction#enabled} will automatically be switched\n\t\t * to `false` when the last loop of the action has finished, so that this action has\n\t\t * no further impact.\n\t\t *\n\t\t * Note: This member has no impact if the action is interrupted (it\n\t\t * has only an effect if its last loop has really finished).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clampWhenFinished = false;\n\n\t\t/**\n\t\t * Enables smooth interpolation without separate clips for start, loop and end.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.zeroSlopeAtStart = true;\n\n\t\t/**\n\t\t * Enables smooth interpolation without separate clips for start, loop and end.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.zeroSlopeAtEnd = true;\n\n\t}\n\n\t/**\n\t * Starts the playback of the animation.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tplay() {\n\n\t\tthis._mixer._activateAction( this );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Stops the playback of the animation.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstop() {\n\n\t\tthis._mixer._deactivateAction( this );\n\n\t\treturn this.reset();\n\n\t}\n\n\t/**\n\t * Resets the playback of the animation.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\treset() {\n\n\t\tthis.paused = false;\n\t\tthis.enabled = true;\n\n\t\tthis.time = 0; // restart clip\n\t\tthis._loopCount = -1;// forget previous loops\n\t\tthis._startTime = null;// forget scheduling\n\n\t\treturn this.stopFading().stopWarping();\n\n\t}\n\n\t/**\n\t * Returns `true` if the animation is running.\n\t *\n\t * @return {boolean} Whether the animation is running or not.\n\t */\n\tisRunning() {\n\n\t\treturn this.enabled && ! this.paused && this.timeScale !== 0 &&\n\t\t\tthis._startTime === null && this._mixer._isActiveAction( this );\n\n\t}\n\n\t/**\n\t * Returns `true` when {@link AnimationAction#play} has been called.\n\t *\n\t * @return {boolean} Whether the animation is scheduled or not.\n\t */\n\tisScheduled() {\n\n\t\treturn this._mixer._isActiveAction( this );\n\n\t}\n\n\t/**\n\t * Defines the time when the animation should start.\n\t *\n\t * @param {number} time - The start time in seconds.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstartAt( time ) {\n\n\t\tthis._startTime = time;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Configures the loop settings for this action.\n\t *\n\t * @param {(LoopRepeat|LoopOnce|LoopPingPong)} mode - The loop mode.\n\t * @param {number} repetitions - The number of repetitions.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetLoop( mode, repetitions ) {\n\n\t\tthis.loop = mode;\n\t\tthis.repetitions = repetitions;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the effective weight of this action.\n\t *\n\t * An action has no effect and thus an effective weight of zero when the\n\t * action is disabled.\n\t *\n\t * @param {number} weight - The weight to set.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetEffectiveWeight( weight ) {\n\n\t\tthis.weight = weight;\n\n\t\t// note: same logic as when updated at runtime\n\t\tthis._effectiveWeight = this.enabled ? weight : 0;\n\n\t\treturn this.stopFading();\n\n\t}\n\n\t/**\n\t * Returns the effective weight of this action.\n\t *\n\t * @return {number} The effective weight.\n\t */\n\tgetEffectiveWeight() {\n\n\t\treturn this._effectiveWeight;\n\n\t}\n\n\t/**\n\t * Fades the animation in by increasing its weight gradually from `0` to `1`,\n\t * within the passed time interval.\n\t *\n\t * @param {number} duration - The duration of the fade.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tfadeIn( duration ) {\n\n\t\treturn this._scheduleFading( duration, 0, 1 );\n\n\t}\n\n\t/**\n\t * Fades the animation out by decreasing its weight gradually from `1` to `0`,\n\t * within the passed time interval.\n\t *\n\t * @param {number} duration - The duration of the fade.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tfadeOut( duration ) {\n\n\t\treturn this._scheduleFading( duration, 1, 0 );\n\n\t}\n\n\t/**\n\t * Causes this action to fade in and the given action to fade out,\n\t * within the passed time interval.\n\t *\n\t * @param {AnimationAction} fadeOutAction - The animation action to fade out.\n\t * @param {number} duration - The duration of the fade.\n\t * @param {boolean} [warp=false] - Whether warping should be used or not.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tcrossFadeFrom( fadeOutAction, duration, warp = false ) {\n\n\t\tfadeOutAction.fadeOut( duration );\n\t\tthis.fadeIn( duration );\n\n\t\tif ( warp === true ) {\n\n\t\t\tconst fadeInDuration = this._clip.duration,\n\t\t\t\tfadeOutDuration = fadeOutAction._clip.duration,\n\n\t\t\t\tstartEndRatio = fadeOutDuration / fadeInDuration,\n\t\t\t\tendStartRatio = fadeInDuration / fadeOutDuration;\n\n\t\t\tfadeOutAction.warp( 1.0, startEndRatio, duration );\n\t\t\tthis.warp( endStartRatio, 1.0, duration );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Causes this action to fade out and the given action to fade in,\n\t * within the passed time interval.\n\t *\n\t * @param {AnimationAction} fadeInAction - The animation action to fade in.\n\t * @param {number} duration - The duration of the fade.\n\t * @param {boolean} [warp=false] - Whether warping should be used or not.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tcrossFadeTo( fadeInAction, duration, warp = false ) {\n\n\t\treturn fadeInAction.crossFadeFrom( this, duration, warp );\n\n\t}\n\n\t/**\n\t * Stops any fading which is applied to this action.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstopFading() {\n\n\t\tconst weightInterpolant = this._weightInterpolant;\n\n\t\tif ( weightInterpolant !== null ) {\n\n\t\t\tthis._weightInterpolant = null;\n\t\t\tthis._mixer._takeBackControlInterpolant( weightInterpolant );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the effective time scale of this action.\n\t *\n\t * An action has no effect and thus an effective time scale of zero when the\n\t * action is paused.\n\t *\n\t * @param {number} timeScale - The time scale to set.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetEffectiveTimeScale( timeScale ) {\n\n\t\tthis.timeScale = timeScale;\n\t\tthis._effectiveTimeScale = this.paused ? 0 : timeScale;\n\n\t\treturn this.stopWarping();\n\n\t}\n\n\t/**\n\t * Returns the effective time scale of this action.\n\t *\n\t * @return {number} The effective time scale.\n\t */\n\tgetEffectiveTimeScale() {\n\n\t\treturn this._effectiveTimeScale;\n\n\t}\n\n\t/**\n\t * Sets the duration for a single loop of this action.\n\t *\n\t * @param {number} duration - The duration to set.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetDuration( duration ) {\n\n\t\tthis.timeScale = this._clip.duration / duration;\n\n\t\treturn this.stopWarping();\n\n\t}\n\n\t/**\n\t * Synchronizes this action with the passed other action.\n\t *\n\t * @param {AnimationAction} action - The action to sync with.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsyncWith( action ) {\n\n\t\tthis.time = action.time;\n\t\tthis.timeScale = action.timeScale;\n\n\t\treturn this.stopWarping();\n\n\t}\n\n\t/**\n\t * Decelerates this animation's speed to `0` within the passed time interval.\n\t *\n\t * @param {number} duration - The duration.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\thalt( duration ) {\n\n\t\treturn this.warp( this._effectiveTimeScale, 0, duration );\n\n\t}\n\n\t/**\n\t * Changes the playback speed, within the passed time interval, by modifying\n\t * {@link AnimationAction#timeScale} gradually from `startTimeScale` to\n\t * `endTimeScale`.\n\t *\n\t * @param {number} startTimeScale - The start time scale.\n\t * @param {number} endTimeScale - The end time scale.\n\t * @param {number} duration - The duration.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\twarp( startTimeScale, endTimeScale, duration ) {\n\n\t\tconst mixer = this._mixer,\n\t\t\tnow = mixer.time,\n\t\t\ttimeScale = this.timeScale;\n\n\t\tlet interpolant = this._timeScaleInterpolant;\n\n\t\tif ( interpolant === null ) {\n\n\t\t\tinterpolant = mixer._lendControlInterpolant();\n\t\t\tthis._timeScaleInterpolant = interpolant;\n\n\t\t}\n\n\t\tconst times = interpolant.parameterPositions,\n\t\t\tvalues = interpolant.sampleValues;\n\n\t\ttimes[ 0 ] = now;\n\t\ttimes[ 1 ] = now + duration;\n\n\t\tvalues[ 0 ] = startTimeScale / timeScale;\n\t\tvalues[ 1 ] = endTimeScale / timeScale;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Stops any scheduled warping which is applied to this action.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstopWarping() {\n\n\t\tconst timeScaleInterpolant = this._timeScaleInterpolant;\n\n\t\tif ( timeScaleInterpolant !== null ) {\n\n\t\t\tthis._timeScaleInterpolant = null;\n\t\t\tthis._mixer._takeBackControlInterpolant( timeScaleInterpolant );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the animation mixer of this animation action.\n\t *\n\t * @return {AnimationMixer} The animation mixer.\n\t */\n\tgetMixer() {\n\n\t\treturn this._mixer;\n\n\t}\n\n\t/**\n\t * Returns the animation clip of this animation action.\n\t *\n\t * @return {AnimationClip} The animation clip.\n\t */\n\tgetClip() {\n\n\t\treturn this._clip;\n\n\t}\n\n\t/**\n\t * Returns the root object of this animation action.\n\t *\n\t * @return {Object3D} The root object.\n\t */\n\tgetRoot() {\n\n\t\treturn this._localRoot || this._mixer._root;\n\n\t}\n\n\t// Interna\n\n\t_update( time, deltaTime, timeDirection, accuIndex ) {\n\n\t\t// called by the mixer\n\n\t\tif ( ! this.enabled ) {\n\n\t\t\t// call ._updateWeight() to update ._effectiveWeight\n\n\t\t\tthis._updateWeight( time );\n\t\t\treturn;\n\n\t\t}\n\n\t\tconst startTime = this._startTime;\n\n\t\tif ( startTime !== null ) {\n\n\t\t\t// check for scheduled start of action\n\n\t\t\tconst timeRunning = ( time - startTime ) * timeDirection;\n\t\t\tif ( timeRunning < 0 || timeDirection === 0 ) {\n\n\t\t\t\tdeltaTime = 0;\n\n\t\t\t} else {\n\n\n\t\t\t\tthis._startTime = null; // unschedule\n\t\t\t\tdeltaTime = timeDirection * timeRunning;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// apply time scale and advance time\n\n\t\tdeltaTime *= this._updateTimeScale( time );\n\t\tconst clipTime = this._updateTime( deltaTime );\n\n\t\t// note: _updateTime may disable the action resulting in\n\t\t// an effective weight of 0\n\n\t\tconst weight = this._updateWeight( time );\n\n\t\tif ( weight > 0 ) {\n\n\t\t\tconst interpolants = this._interpolants;\n\t\t\tconst propertyMixers = this._propertyBindings;\n\n\t\t\tswitch ( this.blendMode ) {\n\n\t\t\t\tcase AdditiveAnimationBlendMode:\n\n\t\t\t\t\tfor ( let j = 0, m = interpolants.length; j !== m; ++ j ) {\n\n\t\t\t\t\t\tinterpolants[ j ].evaluate( clipTime );\n\t\t\t\t\t\tpropertyMixers[ j ].accumulateAdditive( weight );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase NormalAnimationBlendMode:\n\t\t\t\tdefault:\n\n\t\t\t\t\tfor ( let j = 0, m = interpolants.length; j !== m; ++ j ) {\n\n\t\t\t\t\t\tinterpolants[ j ].evaluate( clipTime );\n\t\t\t\t\t\tpropertyMixers[ j ].accumulate( accuIndex, weight );\n\n\t\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_updateWeight( time ) {\n\n\t\tlet weight = 0;\n\n\t\tif ( this.enabled ) {\n\n\t\t\tweight = this.weight;\n\t\t\tconst interpolant = this._weightInterpolant;\n\n\t\t\tif ( interpolant !== null ) {\n\n\t\t\t\tconst interpolantValue = interpolant.evaluate( time )[ 0 ];\n\n\t\t\t\tweight *= interpolantValue;\n\n\t\t\t\tif ( time > interpolant.parameterPositions[ 1 ] ) {\n\n\t\t\t\t\tthis.stopFading();\n\n\t\t\t\t\tif ( interpolantValue === 0 ) {\n\n\t\t\t\t\t\t// faded out, disable\n\t\t\t\t\t\tthis.enabled = false;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis._effectiveWeight = weight;\n\t\treturn weight;\n\n\t}\n\n\t_updateTimeScale( time ) {\n\n\t\tlet timeScale = 0;\n\n\t\tif ( ! this.paused ) {\n\n\t\t\ttimeScale = this.timeScale;\n\n\t\t\tconst interpolant = this._timeScaleInterpolant;\n\n\t\t\tif ( interpolant !== null ) {\n\n\t\t\t\tconst interpolantValue = interpolant.evaluate( time )[ 0 ];\n\n\t\t\t\ttimeScale *= interpolantValue;\n\n\t\t\t\tif ( time > interpolant.parameterPositions[ 1 ] ) {\n\n\t\t\t\t\tthis.stopWarping();\n\n\t\t\t\t\tif ( timeScale === 0 ) {\n\n\t\t\t\t\t\t// motion has halted, pause\n\t\t\t\t\t\tthis.paused = true;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// warp done - apply final time scale\n\t\t\t\t\t\tthis.timeScale = timeScale;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis._effectiveTimeScale = timeScale;\n\t\treturn timeScale;\n\n\t}\n\n\t_updateTime( deltaTime ) {\n\n\t\tconst duration = this._clip.duration;\n\t\tconst loop = this.loop;\n\n\t\tlet time = this.time + deltaTime;\n\t\tlet loopCount = this._loopCount;\n\n\t\tconst pingPong = ( loop === LoopPingPong );\n\n\t\tif ( deltaTime === 0 ) {\n\n\t\t\tif ( loopCount === -1 ) return time;\n\n\t\t\treturn ( pingPong && ( loopCount & 1 ) === 1 ) ? duration - time : time;\n\n\t\t}\n\n\t\tif ( loop === LoopOnce ) {\n\n\t\t\tif ( loopCount === -1 ) {\n\n\t\t\t\t// just started\n\n\t\t\t\tthis._loopCount = 0;\n\t\t\t\tthis._setEndings( true, true, false );\n\n\t\t\t}\n\n\t\t\thandle_stop: {\n\n\t\t\t\tif ( time >= duration ) {\n\n\t\t\t\t\ttime = duration;\n\n\t\t\t\t} else if ( time < 0 ) {\n\n\t\t\t\t\ttime = 0;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis.time = time;\n\n\t\t\t\t\tbreak handle_stop;\n\n\t\t\t\t}\n\n\t\t\t\tif ( this.clampWhenFinished ) this.paused = true;\n\t\t\t\telse this.enabled = false;\n\n\t\t\t\tthis.time = time;\n\n\t\t\t\tthis._mixer.dispatchEvent( {\n\t\t\t\t\ttype: 'finished', action: this,\n\t\t\t\t\tdirection: deltaTime < 0 ? -1 : 1\n\t\t\t\t} );\n\n\t\t\t}\n\n\t\t} else { // repetitive Repeat or PingPong\n\n\t\t\tif ( loopCount === -1 ) {\n\n\t\t\t\t// just started\n\n\t\t\t\tif ( deltaTime >= 0 ) {\n\n\t\t\t\t\tloopCount = 0;\n\n\t\t\t\t\tthis._setEndings( true, this.repetitions === 0, pingPong );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// when looping in reverse direction, the initial\n\t\t\t\t\t// transition through zero counts as a repetition,\n\t\t\t\t\t// so leave loopCount at -1\n\n\t\t\t\t\tthis._setEndings( this.repetitions === 0, true, pingPong );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( time >= duration || time < 0 ) {\n\n\t\t\t\t// wrap around\n\n\t\t\t\tconst loopDelta = Math.floor( time / duration ); // signed\n\t\t\t\ttime -= duration * loopDelta;\n\n\t\t\t\tloopCount += Math.abs( loopDelta );\n\n\t\t\t\tconst pending = this.repetitions - loopCount;\n\n\t\t\t\tif ( pending <= 0 ) {\n\n\t\t\t\t\t// have to stop (switch state, clamp time, fire event)\n\n\t\t\t\t\tif ( this.clampWhenFinished ) this.paused = true;\n\t\t\t\t\telse this.enabled = false;\n\n\t\t\t\t\ttime = deltaTime > 0 ? duration : 0;\n\n\t\t\t\t\tthis.time = time;\n\n\t\t\t\t\tthis._mixer.dispatchEvent( {\n\t\t\t\t\t\ttype: 'finished', action: this,\n\t\t\t\t\t\tdirection: deltaTime > 0 ? 1 : -1\n\t\t\t\t\t} );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// keep running\n\n\t\t\t\t\tif ( pending === 1 ) {\n\n\t\t\t\t\t\t// entering the last round\n\n\t\t\t\t\t\tconst atStart = deltaTime < 0;\n\t\t\t\t\t\tthis._setEndings( atStart, ! atStart, pingPong );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tthis._setEndings( false, false, pingPong );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tthis._loopCount = loopCount;\n\n\t\t\t\t\tthis.time = time;\n\n\t\t\t\t\tthis._mixer.dispatchEvent( {\n\t\t\t\t\t\ttype: 'loop', action: this, loopDelta: loopDelta\n\t\t\t\t\t} );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tthis.time = time;\n\n\t\t\t}\n\n\t\t\tif ( pingPong && ( loopCount & 1 ) === 1 ) {\n\n\t\t\t\t// invert time for the \"pong round\"\n\n\t\t\t\treturn duration - time;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn time;\n\n\t}\n\n\t_setEndings( atStart, atEnd, pingPong ) {\n\n\t\tconst settings = this._interpolantSettings;\n\n\t\tif ( pingPong ) {\n\n\t\t\tsettings.endingStart = ZeroSlopeEnding;\n\t\t\tsettings.endingEnd = ZeroSlopeEnding;\n\n\t\t} else {\n\n\t\t\t// assuming for LoopOnce atStart == atEnd == true\n\n\t\t\tif ( atStart ) {\n\n\t\t\t\tsettings.endingStart = this.zeroSlopeAtStart ? ZeroSlopeEnding : ZeroCurvatureEnding;\n\n\t\t\t} else {\n\n\t\t\t\tsettings.endingStart = WrapAroundEnding;\n\n\t\t\t}\n\n\t\t\tif ( atEnd ) {\n\n\t\t\t\tsettings.endingEnd = this.zeroSlopeAtEnd ? ZeroSlopeEnding : ZeroCurvatureEnding;\n\n\t\t\t} else {\n\n\t\t\t\tsettings.endingEnd \t = WrapAroundEnding;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_scheduleFading( duration, weightNow, weightThen ) {\n\n\t\tconst mixer = this._mixer, now = mixer.time;\n\t\tlet interpolant = this._weightInterpolant;\n\n\t\tif ( interpolant === null ) {\n\n\t\t\tinterpolant = mixer._lendControlInterpolant();\n\t\t\tthis._weightInterpolant = interpolant;\n\n\t\t}\n\n\t\tconst times = interpolant.parameterPositions,\n\t\t\tvalues = interpolant.sampleValues;\n\n\t\ttimes[ 0 ] = now;\n\t\tvalues[ 0 ] = weightNow;\n\t\ttimes[ 1 ] = now + duration;\n\t\tvalues[ 1 ] = weightThen;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _controlInterpolantsResultBuffer = new Float32Array( 1 );\n\n/**\n * `AnimationMixer` is a player for animations on a particular object in\n * the scene. When multiple objects in the scene are animated independently,\n * one `AnimationMixer` may be used for each object.\n */\nclass AnimationMixer extends EventDispatcher {\n\n\t/**\n\t * Constructs a new animation mixer.\n\t *\n\t * @param {Object3D} root - The object whose animations shall be played by this mixer.\n\t */\n\tconstructor( root ) {\n\n\t\tsuper();\n\n\t\tthis._root = root;\n\t\tthis._initMemoryManager();\n\t\tthis._accuIndex = 0;\n\n\t\t/**\n\t\t * The global mixer time (in seconds; starting with `0` on the mixer's creation).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.time = 0;\n\n\t\t/**\n\t\t * A scaling factor for the global time.\n\t\t *\n\t\t * Note: Setting this member to `0` and later back to `1` is a\n\t\t * possibility to pause/unpause all actions that are controlled by this\n\t\t * mixer.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.timeScale = 1.0;\n\n\t}\n\n\t_bindAction( action, prototypeAction ) {\n\n\t\tconst root = action._localRoot || this._root,\n\t\t\ttracks = action._clip.tracks,\n\t\t\tnTracks = tracks.length,\n\t\t\tbindings = action._propertyBindings,\n\t\t\tinterpolants = action._interpolants,\n\t\t\trootUuid = root.uuid,\n\t\t\tbindingsByRoot = this._bindingsByRootAndName;\n\n\t\tlet bindingsByName = bindingsByRoot[ rootUuid ];\n\n\t\tif ( bindingsByName === undefined ) {\n\n\t\t\tbindingsByName = {};\n\t\t\tbindingsByRoot[ rootUuid ] = bindingsByName;\n\n\t\t}\n\n\t\tfor ( let i = 0; i !== nTracks; ++ i ) {\n\n\t\t\tconst track = tracks[ i ],\n\t\t\t\ttrackName = track.name;\n\n\t\t\tlet binding = bindingsByName[ trackName ];\n\n\t\t\tif ( binding !== undefined ) {\n\n\t\t\t\t++ binding.referenceCount;\n\t\t\t\tbindings[ i ] = binding;\n\n\t\t\t} else {\n\n\t\t\t\tbinding = bindings[ i ];\n\n\t\t\t\tif ( binding !== undefined ) {\n\n\t\t\t\t\t// existing binding, make sure the cache knows\n\n\t\t\t\t\tif ( binding._cacheIndex === null ) {\n\n\t\t\t\t\t\t++ binding.referenceCount;\n\t\t\t\t\t\tthis._addInactiveBinding( binding, rootUuid, trackName );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tcontinue;\n\n\t\t\t\t}\n\n\t\t\t\tconst path = prototypeAction && prototypeAction.\n\t\t\t\t\t_propertyBindings[ i ].binding.parsedPath;\n\n\t\t\t\tbinding = new PropertyMixer(\n\t\t\t\t\tPropertyBinding.create( root, trackName, path ),\n\t\t\t\t\ttrack.ValueTypeName, track.getValueSize() );\n\n\t\t\t\t++ binding.referenceCount;\n\t\t\t\tthis._addInactiveBinding( binding, rootUuid, trackName );\n\n\t\t\t\tbindings[ i ] = binding;\n\n\t\t\t}\n\n\t\t\tinterpolants[ i ].resultBuffer = binding.buffer;\n\n\t\t}\n\n\t}\n\n\t_activateAction( action ) {\n\n\t\tif ( ! this._isActiveAction( action ) ) {\n\n\t\t\tif ( action._cacheIndex === null ) {\n\n\t\t\t\t// this action has been forgotten by the cache, but the user\n\t\t\t\t// appears to be still using it -> rebind\n\n\t\t\t\tconst rootUuid = ( action._localRoot || this._root ).uuid,\n\t\t\t\t\tclipUuid = action._clip.uuid,\n\t\t\t\t\tactionsForClip = this._actionsByClip[ clipUuid ];\n\n\t\t\t\tthis._bindAction( action,\n\t\t\t\t\tactionsForClip && actionsForClip.knownActions[ 0 ] );\n\n\t\t\t\tthis._addInactiveAction( action, clipUuid, rootUuid );\n\n\t\t\t}\n\n\t\t\tconst bindings = action._propertyBindings;\n\n\t\t\t// increment reference counts / sort out state\n\t\t\tfor ( let i = 0, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\t\tconst binding = bindings[ i ];\n\n\t\t\t\tif ( binding.useCount ++ === 0 ) {\n\n\t\t\t\t\tthis._lendBinding( binding );\n\t\t\t\t\tbinding.saveOriginalState();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis._lendAction( action );\n\n\t\t}\n\n\t}\n\n\t_deactivateAction( action ) {\n\n\t\tif ( this._isActiveAction( action ) ) {\n\n\t\t\tconst bindings = action._propertyBindings;\n\n\t\t\t// decrement reference counts / sort out state\n\t\t\tfor ( let i = 0, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\t\tconst binding = bindings[ i ];\n\n\t\t\t\tif ( -- binding.useCount === 0 ) {\n\n\t\t\t\t\tbinding.restoreOriginalState();\n\t\t\t\t\tthis._takeBackBinding( binding );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis._takeBackAction( action );\n\n\t\t}\n\n\t}\n\n\t// Memory manager\n\n\t_initMemoryManager() {\n\n\t\tthis._actions = []; // 'nActiveActions' followed by inactive ones\n\t\tthis._nActiveActions = 0;\n\n\t\tthis._actionsByClip = {};\n\t\t// inside:\n\t\t// {\n\t\t// \tknownActions: Array< AnimationAction > - used as prototypes\n\t\t// \tactionByRoot: AnimationAction - lookup\n\t\t// }\n\n\n\t\tthis._bindings = []; // 'nActiveBindings' followed by inactive ones\n\t\tthis._nActiveBindings = 0;\n\n\t\tthis._bindingsByRootAndName = {}; // inside: Map< name, PropertyMixer >\n\n\n\t\tthis._controlInterpolants = []; // same game as above\n\t\tthis._nActiveControlInterpolants = 0;\n\n\t\tconst scope = this;\n\n\t\tthis.stats = {\n\n\t\t\tactions: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._actions.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn scope._nActiveActions;\n\n\t\t\t\t}\n\t\t\t},\n\t\t\tbindings: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._bindings.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn scope._nActiveBindings;\n\n\t\t\t\t}\n\t\t\t},\n\t\t\tcontrolInterpolants: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._controlInterpolants.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn scope._nActiveControlInterpolants;\n\n\t\t\t\t}\n\t\t\t}\n\n\t\t};\n\n\t}\n\n\t// Memory management for AnimationAction objects\n\n\t_isActiveAction( action ) {\n\n\t\tconst index = action._cacheIndex;\n\t\treturn index !== null && index < this._nActiveActions;\n\n\t}\n\n\t_addInactiveAction( action, clipUuid, rootUuid ) {\n\n\t\tconst actions = this._actions,\n\t\t\tactionsByClip = this._actionsByClip;\n\n\t\tlet actionsForClip = actionsByClip[ clipUuid ];\n\n\t\tif ( actionsForClip === undefined ) {\n\n\t\t\tactionsForClip = {\n\n\t\t\t\tknownActions: [ action ],\n\t\t\t\tactionByRoot: {}\n\n\t\t\t};\n\n\t\t\taction._byClipCacheIndex = 0;\n\n\t\t\tactionsByClip[ clipUuid ] = actionsForClip;\n\n\t\t} else {\n\n\t\t\tconst knownActions = actionsForClip.knownActions;\n\n\t\t\taction._byClipCacheIndex = knownActions.length;\n\t\t\tknownActions.push( action );\n\n\t\t}\n\n\t\taction._cacheIndex = actions.length;\n\t\tactions.push( action );\n\n\t\tactionsForClip.actionByRoot[ rootUuid ] = action;\n\n\t}\n\n\t_removeInactiveAction( action ) {\n\n\t\tconst actions = this._actions,\n\t\t\tlastInactiveAction = actions[ actions.length - 1 ],\n\t\t\tcacheIndex = action._cacheIndex;\n\n\t\tlastInactiveAction._cacheIndex = cacheIndex;\n\t\tactions[ cacheIndex ] = lastInactiveAction;\n\t\tactions.pop();\n\n\t\taction._cacheIndex = null;\n\n\n\t\tconst clipUuid = action._clip.uuid,\n\t\t\tactionsByClip = this._actionsByClip,\n\t\t\tactionsForClip = actionsByClip[ clipUuid ],\n\t\t\tknownActionsForClip = actionsForClip.knownActions,\n\n\t\t\tlastKnownAction =\n\t\t\t\tknownActionsForClip[ knownActionsForClip.length - 1 ],\n\n\t\t\tbyClipCacheIndex = action._byClipCacheIndex;\n\n\t\tlastKnownAction._byClipCacheIndex = byClipCacheIndex;\n\t\tknownActionsForClip[ byClipCacheIndex ] = lastKnownAction;\n\t\tknownActionsForClip.pop();\n\n\t\taction._byClipCacheIndex = null;\n\n\n\t\tconst actionByRoot = actionsForClip.actionByRoot,\n\t\t\trootUuid = ( action._localRoot || this._root ).uuid;\n\n\t\tdelete actionByRoot[ rootUuid ];\n\n\t\tif ( knownActionsForClip.length === 0 ) {\n\n\t\t\tdelete actionsByClip[ clipUuid ];\n\n\t\t}\n\n\t\tthis._removeInactiveBindingsForAction( action );\n\n\t}\n\n\t_removeInactiveBindingsForAction( action ) {\n\n\t\tconst bindings = action._propertyBindings;\n\n\t\tfor ( let i = 0, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tconst binding = bindings[ i ];\n\n\t\t\tif ( -- binding.referenceCount === 0 ) {\n\n\t\t\t\tthis._removeInactiveBinding( binding );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_lendAction( action ) {\n\n\t\t// [ active actions | inactive actions ]\n\t\t// [ active actions >| inactive actions ]\n\t\t// s a\n\t\t// <-swap->\n\t\t// a s\n\n\t\tconst actions = this._actions,\n\t\t\tprevIndex = action._cacheIndex,\n\n\t\t\tlastActiveIndex = this._nActiveActions ++,\n\n\t\t\tfirstInactiveAction = actions[ lastActiveIndex ];\n\n\t\taction._cacheIndex = lastActiveIndex;\n\t\tactions[ lastActiveIndex ] = action;\n\n\t\tfirstInactiveAction._cacheIndex = prevIndex;\n\t\tactions[ prevIndex ] = firstInactiveAction;\n\n\t}\n\n\t_takeBackAction( action ) {\n\n\t\t// [ active actions | inactive actions ]\n\t\t// [ active actions |< inactive actions ]\n\t\t// a s\n\t\t// <-swap->\n\t\t// s a\n\n\t\tconst actions = this._actions,\n\t\t\tprevIndex = action._cacheIndex,\n\n\t\t\tfirstInactiveIndex = -- this._nActiveActions,\n\n\t\t\tlastActiveAction = actions[ firstInactiveIndex ];\n\n\t\taction._cacheIndex = firstInactiveIndex;\n\t\tactions[ firstInactiveIndex ] = action;\n\n\t\tlastActiveAction._cacheIndex = prevIndex;\n\t\tactions[ prevIndex ] = lastActiveAction;\n\n\t}\n\n\t// Memory management for PropertyMixer objects\n\n\t_addInactiveBinding( binding, rootUuid, trackName ) {\n\n\t\tconst bindingsByRoot = this._bindingsByRootAndName,\n\t\t\tbindings = this._bindings;\n\n\t\tlet bindingByName = bindingsByRoot[ rootUuid ];\n\n\t\tif ( bindingByName === undefined ) {\n\n\t\t\tbindingByName = {};\n\t\t\tbindingsByRoot[ rootUuid ] = bindingByName;\n\n\t\t}\n\n\t\tbindingByName[ trackName ] = binding;\n\n\t\tbinding._cacheIndex = bindings.length;\n\t\tbindings.push( binding );\n\n\t}\n\n\t_removeInactiveBinding( binding ) {\n\n\t\tconst bindings = this._bindings,\n\t\t\tpropBinding = binding.binding,\n\t\t\trootUuid = propBinding.rootNode.uuid,\n\t\t\ttrackName = propBinding.path,\n\t\t\tbindingsByRoot = this._bindingsByRootAndName,\n\t\t\tbindingByName = bindingsByRoot[ rootUuid ],\n\n\t\t\tlastInactiveBinding = bindings[ bindings.length - 1 ],\n\t\t\tcacheIndex = binding._cacheIndex;\n\n\t\tlastInactiveBinding._cacheIndex = cacheIndex;\n\t\tbindings[ cacheIndex ] = lastInactiveBinding;\n\t\tbindings.pop();\n\n\t\tdelete bindingByName[ trackName ];\n\n\t\tif ( Object.keys( bindingByName ).length === 0 ) {\n\n\t\t\tdelete bindingsByRoot[ rootUuid ];\n\n\t\t}\n\n\t}\n\n\t_lendBinding( binding ) {\n\n\t\tconst bindings = this._bindings,\n\t\t\tprevIndex = binding._cacheIndex,\n\n\t\t\tlastActiveIndex = this._nActiveBindings ++,\n\n\t\t\tfirstInactiveBinding = bindings[ lastActiveIndex ];\n\n\t\tbinding._cacheIndex = lastActiveIndex;\n\t\tbindings[ lastActiveIndex ] = binding;\n\n\t\tfirstInactiveBinding._cacheIndex = prevIndex;\n\t\tbindings[ prevIndex ] = firstInactiveBinding;\n\n\t}\n\n\t_takeBackBinding( binding ) {\n\n\t\tconst bindings = this._bindings,\n\t\t\tprevIndex = binding._cacheIndex,\n\n\t\t\tfirstInactiveIndex = -- this._nActiveBindings,\n\n\t\t\tlastActiveBinding = bindings[ firstInactiveIndex ];\n\n\t\tbinding._cacheIndex = firstInactiveIndex;\n\t\tbindings[ firstInactiveIndex ] = binding;\n\n\t\tlastActiveBinding._cacheIndex = prevIndex;\n\t\tbindings[ prevIndex ] = lastActiveBinding;\n\n\t}\n\n\n\t// Memory management of Interpolants for weight and time scale\n\n\t_lendControlInterpolant() {\n\n\t\tconst interpolants = this._controlInterpolants,\n\t\t\tlastActiveIndex = this._nActiveControlInterpolants ++;\n\n\t\tlet interpolant = interpolants[ lastActiveIndex ];\n\n\t\tif ( interpolant === undefined ) {\n\n\t\t\tinterpolant = new LinearInterpolant(\n\t\t\t\tnew Float32Array( 2 ), new Float32Array( 2 ),\n\t\t\t\t1, _controlInterpolantsResultBuffer );\n\n\t\t\tinterpolant.__cacheIndex = lastActiveIndex;\n\t\t\tinterpolants[ lastActiveIndex ] = interpolant;\n\n\t\t}\n\n\t\treturn interpolant;\n\n\t}\n\n\t_takeBackControlInterpolant( interpolant ) {\n\n\t\tconst interpolants = this._controlInterpolants,\n\t\t\tprevIndex = interpolant.__cacheIndex,\n\n\t\t\tfirstInactiveIndex = -- this._nActiveControlInterpolants,\n\n\t\t\tlastActiveInterpolant = interpolants[ firstInactiveIndex ];\n\n\t\tinterpolant.__cacheIndex = firstInactiveIndex;\n\t\tinterpolants[ firstInactiveIndex ] = interpolant;\n\n\t\tlastActiveInterpolant.__cacheIndex = prevIndex;\n\t\tinterpolants[ prevIndex ] = lastActiveInterpolant;\n\n\t}\n\n\t/**\n\t * Returns an instance of {@link AnimationAction} for the passed clip.\n\t *\n\t * If an action fitting the clip and root parameters doesn't yet exist, it\n\t * will be created by this method. Calling this method several times with the\n\t * same clip and root parameters always returns the same action.\n\t *\n\t * @param {AnimationClip|string} clip - An animation clip or alternatively the name of the animation clip.\n\t * @param {Object3D} [optionalRoot] - An alternative root object.\n\t * @param {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)} [blendMode] - The blend mode.\n\t * @return {?AnimationAction} The animation action.\n\t */\n\tclipAction( clip, optionalRoot, blendMode ) {\n\n\t\tconst root = optionalRoot || this._root,\n\t\t\trootUuid = root.uuid;\n\n\t\tlet clipObject = typeof clip === 'string' ? AnimationClip.findByName( root, clip ) : clip;\n\n\t\tconst clipUuid = clipObject !== null ? clipObject.uuid : clip;\n\n\t\tconst actionsForClip = this._actionsByClip[ clipUuid ];\n\t\tlet prototypeAction = null;\n\n\t\tif ( blendMode === undefined ) {\n\n\t\t\tif ( clipObject !== null ) {\n\n\t\t\t\tblendMode = clipObject.blendMode;\n\n\t\t\t} else {\n\n\t\t\t\tblendMode = NormalAnimationBlendMode;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( actionsForClip !== undefined ) {\n\n\t\t\tconst existingAction = actionsForClip.actionByRoot[ rootUuid ];\n\n\t\t\tif ( existingAction !== undefined && existingAction.blendMode === blendMode ) {\n\n\t\t\t\treturn existingAction;\n\n\t\t\t}\n\n\t\t\t// we know the clip, so we don't have to parse all\n\t\t\t// the bindings again but can just copy\n\t\t\tprototypeAction = actionsForClip.knownActions[ 0 ];\n\n\t\t\t// also, take the clip from the prototype action\n\t\t\tif ( clipObject === null )\n\t\t\t\tclipObject = prototypeAction._clip;\n\n\t\t}\n\n\t\t// clip must be known when specified via string\n\t\tif ( clipObject === null ) return null;\n\n\t\t// allocate all resources required to run it\n\t\tconst newAction = new AnimationAction( this, clipObject, optionalRoot, blendMode );\n\n\t\tthis._bindAction( newAction, prototypeAction );\n\n\t\t// and make the action known to the memory manager\n\t\tthis._addInactiveAction( newAction, clipUuid, rootUuid );\n\n\t\treturn newAction;\n\n\t}\n\n\t/**\n\t * Returns an existing animation action for the passed clip.\n\t *\n\t * @param {AnimationClip|string} clip - An animation clip or alternatively the name of the animation clip.\n\t * @param {Object3D} [optionalRoot] - An alternative root object.\n\t * @return {?AnimationAction} The animation action. Returns `null` if no action was found.\n\t */\n\texistingAction( clip, optionalRoot ) {\n\n\t\tconst root = optionalRoot || this._root,\n\t\t\trootUuid = root.uuid,\n\n\t\t\tclipObject = typeof clip === 'string' ?\n\t\t\t\tAnimationClip.findByName( root, clip ) : clip,\n\n\t\t\tclipUuid = clipObject ? clipObject.uuid : clip,\n\n\t\t\tactionsForClip = this._actionsByClip[ clipUuid ];\n\n\t\tif ( actionsForClip !== undefined ) {\n\n\t\t\treturn actionsForClip.actionByRoot[ rootUuid ] || null;\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t/**\n\t * Deactivates all previously scheduled actions on this mixer.\n\t *\n\t * @return {AnimationMixer} A reference to thi animation mixer.\n\t */\n\tstopAllAction() {\n\n\t\tconst actions = this._actions,\n\t\t\tnActions = this._nActiveActions;\n\n\t\tfor ( let i = nActions - 1; i >= 0; -- i ) {\n\n\t\t\tactions[ i ].stop();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Advances the global mixer time and updates the animation.\n\t *\n\t * This is usually done in the render loop by passing the delta\n\t * time from {@link Clock} or {@link Timer}.\n\t *\n\t * @param {number} deltaTime - The delta time in seconds.\n\t * @return {AnimationMixer} A reference to thi animation mixer.\n\t */\n\tupdate( deltaTime ) {\n\n\t\tdeltaTime *= this.timeScale;\n\n\t\tconst actions = this._actions,\n\t\t\tnActions = this._nActiveActions,\n\n\t\t\ttime = this.time += deltaTime,\n\t\t\ttimeDirection = Math.sign( deltaTime ),\n\n\t\t\taccuIndex = this._accuIndex ^= 1;\n\n\t\t// run active actions\n\n\t\tfor ( let i = 0; i !== nActions; ++ i ) {\n\n\t\t\tconst action = actions[ i ];\n\n\t\t\taction._update( time, deltaTime, timeDirection, accuIndex );\n\n\t\t}\n\n\t\t// update scene graph\n\n\t\tconst bindings = this._bindings,\n\t\t\tnBindings = this._nActiveBindings;\n\n\t\tfor ( let i = 0; i !== nBindings; ++ i ) {\n\n\t\t\tbindings[ i ].apply( accuIndex );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the global mixer to a specific time and updates the animation accordingly.\n\t *\n\t * This is useful when you need to jump to an exact time in an animation. The\n\t * input parameter will be scaled by {@link AnimationMixer#timeScale}\n\t *\n\t * @param {number} time - The time to set in seconds.\n\t * @return {AnimationMixer} A reference to thi animation mixer.\n\t */\n\tsetTime( time ) {\n\n\t\tthis.time = 0; // Zero out time attribute for AnimationMixer object;\n\t\tfor ( let i = 0; i < this._actions.length; i ++ ) {\n\n\t\t\tthis._actions[ i ].time = 0; // Zero out time attribute for all associated AnimationAction objects.\n\n\t\t}\n\n\t\treturn this.update( time ); // Update used to set exact time. Returns \"this\" AnimationMixer object.\n\n\t}\n\n\t/**\n\t * Returns this mixer's root object.\n\t *\n\t * @return {Object3D} The mixer's root object.\n\t */\n\tgetRoot() {\n\n\t\treturn this._root;\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for a clip. Before using this method make\n\t * sure to call {@link AnimationAction#stop} for all related actions.\n\t *\n\t * @param {AnimationClip} clip - The clip to uncache.\n\t */\n\tuncacheClip( clip ) {\n\n\t\tconst actions = this._actions,\n\t\t\tclipUuid = clip.uuid,\n\t\t\tactionsByClip = this._actionsByClip,\n\t\t\tactionsForClip = actionsByClip[ clipUuid ];\n\n\t\tif ( actionsForClip !== undefined ) {\n\n\t\t\t// note: just calling _removeInactiveAction would mess up the\n\t\t\t// iteration state and also require updating the state we can\n\t\t\t// just throw away\n\n\t\t\tconst actionsToRemove = actionsForClip.knownActions;\n\n\t\t\tfor ( let i = 0, n = actionsToRemove.length; i !== n; ++ i ) {\n\n\t\t\t\tconst action = actionsToRemove[ i ];\n\n\t\t\t\tthis._deactivateAction( action );\n\n\t\t\t\tconst cacheIndex = action._cacheIndex,\n\t\t\t\t\tlastInactiveAction = actions[ actions.length - 1 ];\n\n\t\t\t\taction._cacheIndex = null;\n\t\t\t\taction._byClipCacheIndex = null;\n\n\t\t\t\tlastInactiveAction._cacheIndex = cacheIndex;\n\t\t\t\tactions[ cacheIndex ] = lastInactiveAction;\n\t\t\t\tactions.pop();\n\n\t\t\t\tthis._removeInactiveBindingsForAction( action );\n\n\t\t\t}\n\n\t\t\tdelete actionsByClip[ clipUuid ];\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for a root object. Before using this\n\t * method make sure to call {@link AnimationAction#stop} for all related\n\t * actions or alternatively {@link AnimationMixer#stopAllAction} when the\n\t * mixer operates on a single root.\n\t *\n\t * @param {Object3D} root - The root object to uncache.\n\t */\n\tuncacheRoot( root ) {\n\n\t\tconst rootUuid = root.uuid,\n\t\t\tactionsByClip = this._actionsByClip;\n\n\t\tfor ( const clipUuid in actionsByClip ) {\n\n\t\t\tconst actionByRoot = actionsByClip[ clipUuid ].actionByRoot,\n\t\t\t\taction = actionByRoot[ rootUuid ];\n\n\t\t\tif ( action !== undefined ) {\n\n\t\t\t\tthis._deactivateAction( action );\n\t\t\t\tthis._removeInactiveAction( action );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst bindingsByRoot = this._bindingsByRootAndName,\n\t\t\tbindingByName = bindingsByRoot[ rootUuid ];\n\n\t\tif ( bindingByName !== undefined ) {\n\n\t\t\tfor ( const trackName in bindingByName ) {\n\n\t\t\t\tconst binding = bindingByName[ trackName ];\n\t\t\t\tbinding.restoreOriginalState();\n\t\t\t\tthis._removeInactiveBinding( binding );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for an action. The action is identified by the\n\t * given clip and an optional root object. Before using this method make\n\t * sure to call {@link AnimationAction#stop} to deactivate the action.\n\t *\n\t * @param {AnimationClip|string} clip - An animation clip or alternatively the name of the animation clip.\n\t * @param {Object3D} [optionalRoot] - An alternative root object.\n\t */\n\tuncacheAction( clip, optionalRoot ) {\n\n\t\tconst action = this.existingAction( clip, optionalRoot );\n\n\t\tif ( action !== null ) {\n\n\t\t\tthis._deactivateAction( action );\n\t\t\tthis._removeInactiveAction( action );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * Represents a 3D render target.\n *\n * @augments RenderTarget\n */\nclass RenderTarget3D extends RenderTarget {\n\n\t/**\n\t * Constructs a new 3D render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {number} [depth=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRenderTarget3D = true;\n\n\t\tthis.depth = depth;\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {Data3DTexture}\n\t\t */\n\t\tthis.texture = new Data3DTexture( null, width, height, depth );\n\t\tthis._setTextureOptions( options );\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n}\n\n/**\n * Represents a uniform which is a global shader variable. They are passed to shader programs.\n *\n * When declaring a uniform of a {@link ShaderMaterial}, it is declared by value or by object.\n * ```js\n * uniforms: {\n * \ttime: { value: 1.0 },\n * \tresolution: new Uniform( new Vector2() )\n * };\n * ```\n * Since this class can only be used in context of {@link ShaderMaterial}, it is only supported\n * in {@link WebGLRenderer}.\n */\nclass Uniform {\n\n\t/**\n\t * Constructs a new uniform.\n\t *\n\t * @param {any} value - The uniform value.\n\t */\n\tconstructor( value ) {\n\n\t\t/**\n\t\t * The uniform value.\n\t\t *\n\t\t * @type {any}\n\t\t */\n\t\tthis.value = value;\n\n\t}\n\n\t/**\n\t * Returns a new uniform with copied values from this instance.\n\t * If the value has a `clone()` method, the value is cloned as well.\n\t *\n\t * @return {Uniform} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Uniform( this.value.clone === undefined ? this.value : this.value.clone() );\n\n\t}\n\n}\n\nlet _id = 0;\n\n/**\n * A class for managing multiple uniforms in a single group. The renderer will process\n * such a definition as a single UBO.\n *\n * Since this class can only be used in context of {@link ShaderMaterial}, it is only supported\n * in {@link WebGLRenderer}.\n *\n * @augments EventDispatcher\n */\nclass UniformsGroup extends EventDispatcher {\n\n\t/**\n\t * Constructs a new uniforms group.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isUniformsGroup = true;\n\n\t\t/**\n\t\t * The ID of the 3D object.\n\t\t *\n\t\t * @name UniformsGroup#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _id ++ } );\n\n\t\t/**\n\t\t * The name of the uniforms group.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The buffer usage.\n\t\t *\n\t\t * @type {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)}\n\t\t * @default StaticDrawUsage\n\t\t */\n\t\tthis.usage = StaticDrawUsage;\n\n\t\t/**\n\t\t * An array holding the uniforms.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.uniforms = [];\n\n\t}\n\n\t/**\n\t * Adds the given uniform to this uniforms group.\n\t *\n\t * @param {Uniform} uniform - The uniform to add.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tadd( uniform ) {\n\n\t\tthis.uniforms.push( uniform );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes the given uniform from this uniforms group.\n\t *\n\t * @param {Uniform} uniform - The uniform to remove.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tremove( uniform ) {\n\n\t\tconst index = this.uniforms.indexOf( uniform );\n\n\t\tif ( index !== -1 ) this.uniforms.splice( index, 1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the name of this uniforms group.\n\t *\n\t * @param {string} name - The name to set.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tsetName( name ) {\n\n\t\tthis.name = name;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the usage of this uniforms group.\n\t *\n\t * @param {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)} value - The usage to set.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tsetUsage( value ) {\n\n\t\tthis.usage = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires Texture#dispose\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n\t/**\n\t * Copies the values of the given uniforms group to this instance.\n\t *\n\t * @param {UniformsGroup} source - The uniforms group to copy.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\t\tthis.usage = source.usage;\n\n\t\tconst uniformsSource = source.uniforms;\n\n\t\tthis.uniforms.length = 0;\n\n\t\tfor ( let i = 0, l = uniformsSource.length; i < l; i ++ ) {\n\n\t\t\tconst uniforms = Array.isArray( uniformsSource[ i ] ) ? uniformsSource[ i ] : [ uniformsSource[ i ] ];\n\n\t\t\tfor ( let j = 0; j < uniforms.length; j ++ ) {\n\n\t\t\t\tthis.uniforms.push( uniforms[ j ].clone() );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new uniforms group with copied values from this instance.\n\t *\n\t * @return {UniformsGroup} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * An instanced version of an interleaved buffer.\n *\n * @augments InterleavedBuffer\n */\nclass InstancedInterleavedBuffer extends InterleavedBuffer {\n\n\t/**\n\t * Constructs a new instanced interleaved buffer.\n\t *\n\t * @param {TypedArray} array - A typed array with a shared buffer storing attribute data.\n\t * @param {number} stride - The number of typed-array elements per vertex.\n\t * @param {number} [meshPerAttribute=1] - Defines how often a value of this interleaved buffer should be repeated.\n\t */\n\tconstructor( array, stride, meshPerAttribute = 1 ) {\n\n\t\tsuper( array, stride );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedInterleavedBuffer = true;\n\n\t\t/**\n\t\t * Defines how often a value of this buffer attribute should be repeated,\n\t\t * see {@link InstancedBufferAttribute#meshPerAttribute}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.meshPerAttribute = meshPerAttribute;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.meshPerAttribute = source.meshPerAttribute;\n\n\t\treturn this;\n\n\t}\n\n\tclone( data ) {\n\n\t\tconst ib = super.clone( data );\n\n\t\tib.meshPerAttribute = this.meshPerAttribute;\n\n\t\treturn ib;\n\n\t}\n\n\ttoJSON( data ) {\n\n\t\tconst json = super.toJSON( data );\n\n\t\tjson.isInstancedInterleavedBuffer = true;\n\t\tjson.meshPerAttribute = this.meshPerAttribute;\n\n\t\treturn json;\n\n\t}\n\n}\n\n/**\n * An alternative version of a buffer attribute with more control over the VBO.\n *\n * The renderer does not construct a VBO for this kind of attribute. Instead, it uses\n * whatever VBO is passed in constructor and can later be altered via the `buffer` property.\n *\n * The most common use case for this class is when some kind of GPGPU calculation interferes\n * or even produces the VBOs in question.\n *\n * Notice that this class can only be used with {@link WebGLRenderer}.\n */\nclass GLBufferAttribute {\n\n\t/**\n\t * Constructs a new GL buffer attribute.\n\t *\n\t * @param {WebGLBuffer} buffer - The native WebGL buffer.\n\t * @param {number} type - The native data type (e.g. `gl.FLOAT`).\n\t * @param {number} itemSize - The item size.\n\t * @param {number} elementSize - The corresponding size (in bytes) for the given `type` parameter.\n\t * @param {number} count - The expected number of vertices in VBO.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( buffer, type, itemSize, elementSize, count, normalized = false ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isGLBufferAttribute = true;\n\n\t\t/**\n\t\t * The name of the buffer attribute.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The native WebGL buffer.\n\t\t *\n\t\t * @type {WebGLBuffer}\n\t\t */\n\t\tthis.buffer = buffer;\n\n\t\t/**\n\t\t * The native data type.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.type = type;\n\n\t\t/**\n\t\t * The item size, see {@link BufferAttribute#itemSize}.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.itemSize = itemSize;\n\n\t\t/**\n\t\t * The corresponding size (in bytes) for the given `type` parameter.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.elementSize = elementSize;\n\n\t\t/**\n\t\t * The expected number of vertices in VBO.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.count = count;\n\n\t\t/**\n\t\t * Applies to integer data only. Indicates how the underlying data in the buffer maps to\n\t\t * the values in the GLSL code. For instance, if `buffer` contains data of `gl.UNSIGNED_SHORT`,\n\t\t * and `normalized` is `true`, the values `0 - +65535` in the buffer data will be mapped to\n\t\t * `0.0f - +1.0f` in the GLSL attribute. If `normalized` is `false`, the values will be converted\n\t\t * to floats unmodified, i.e. `65535` becomes `65535.0f`.\n\t\t *\n\t\t * @type {boolean}\n\t\t */\n\t\tthis.normalized = normalized;\n\n\t\t/**\n\t\t * A version number, incremented every time the `needsUpdate` is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.version = 0;\n\n\t}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Sets the given native WebGL buffer.\n\t *\n\t * @param {WebGLBuffer} buffer - The buffer to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetBuffer( buffer ) {\n\n\t\tthis.buffer = buffer;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given native data type and element size.\n\t *\n\t * @param {number} type - The native data type (e.g. `gl.FLOAT`).\n\t * @param {number} elementSize - The corresponding size (in bytes) for the given `type` parameter.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetType( type, elementSize ) {\n\n\t\tthis.type = type;\n\t\tthis.elementSize = elementSize;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the item size.\n\t *\n\t * @param {number} itemSize - The item size.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetItemSize( itemSize ) {\n\n\t\tthis.itemSize = itemSize;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the count (the expected number of vertices in VBO).\n\t *\n\t * @param {number} count - The count.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetCount( count ) {\n\n\t\tthis.count = count;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _matrix = /*@__PURE__*/ new Matrix4();\n\n/**\n * This class is designed to assist with raycasting. Raycasting is used for\n * mouse picking (working out what objects in the 3d space the mouse is over)\n * amongst other things.\n */\nclass Raycaster {\n\n\t/**\n\t * Constructs a new raycaster.\n\t *\n\t * @param {Vector3} origin - The origin vector where the ray casts from.\n\t * @param {Vector3} direction - The (normalized) direction vector that gives direction to the ray.\n\t * @param {number} [near=0] - All results returned are further away than near. Near can't be negative.\n\t * @param {number} [far=Infinity] - All results returned are closer than far. Far can't be lower than near.\n\t */\n\tconstructor( origin, direction, near = 0, far = Infinity ) {\n\n\t\t/**\n\t\t * The ray used for raycasting.\n\t\t *\n\t\t * @type {Ray}\n\t\t */\n\t\tthis.ray = new Ray( origin, direction );\n\n\t\t/**\n\t\t * All results returned are further away than near. Near can't be negative.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * All results returned are further away than near. Near can't be negative.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.far = far;\n\n\t\t/**\n\t\t * The camera to use when raycasting against view-dependent objects such as\n\t\t * billboarded objects like sprites. This field can be set manually or\n\t\t * is set when calling `setFromCamera()`.\n\t\t *\n\t\t * @type {?Camera}\n\t\t * @default null\n\t\t */\n\t\tthis.camera = null;\n\n\t\t/**\n\t\t * Allows to selectively ignore 3D objects when performing intersection tests.\n\t\t * The following code example ensures that only 3D objects on layer `1` will be\n\t\t * honored by raycaster.\n\t\t * ```js\n\t\t * raycaster.layers.set( 1 );\n\t\t * object.layers.enable( 1 );\n\t\t * ```\n\t\t *\n\t\t * @type {Layers}\n\t\t */\n\t\tthis.layers = new Layers();\n\n\n\t\t/**\n\t\t * A parameter object that configures the raycasting. It has the structure:\n\t\t *\n\t\t * ```\n\t\t * {\n\t\t * \tMesh: {},\n\t\t * \tLine: { threshold: 1 },\n\t\t * \tLOD: {},\n\t\t * \tPoints: { threshold: 1 },\n\t\t * \tSprite: {}\n\t\t * }\n\t\t * ```\n\t\t * Where `threshold` is the precision of the raycaster when intersecting objects, in world units.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.params = {\n\t\t\tMesh: {},\n\t\t\tLine: { threshold: 1 },\n\t\t\tLOD: {},\n\t\t\tPoints: { threshold: 1 },\n\t\t\tSprite: {}\n\t\t};\n\n\t}\n\n\t/**\n\t * Updates the ray with a new origin and direction by copying the values from the arguments.\n\t *\n\t * @param {Vector3} origin - The origin vector where the ray casts from.\n\t * @param {Vector3} direction - The (normalized) direction vector that gives direction to the ray.\n\t */\n\tset( origin, direction ) {\n\n\t\t// direction is assumed to be normalized (for accurate distance calculations)\n\n\t\tthis.ray.set( origin, direction );\n\n\t}\n\n\t/**\n\t * Uses the given coordinates and camera to compute a new origin and direction for the internal ray.\n\t *\n\t * @param {Vector2} coords - 2D coordinates of the mouse, in normalized device coordinates (NDC).\n\t * X and Y components should be between `-1` and `1`.\n\t * @param {Camera} camera - The camera from which the ray should originate.\n\t */\n\tsetFromCamera( coords, camera ) {\n\n\t\tif ( camera.isPerspectiveCamera ) {\n\n\t\t\tthis.ray.origin.setFromMatrixPosition( camera.matrixWorld );\n\t\t\tthis.ray.direction.set( coords.x, coords.y, 0.5 ).unproject( camera ).sub( this.ray.origin ).normalize();\n\t\t\tthis.camera = camera;\n\n\t\t} else if ( camera.isOrthographicCamera ) {\n\n\t\t\tthis.ray.origin.set( coords.x, coords.y, ( camera.near + camera.far ) / ( camera.near - camera.far ) ).unproject( camera ); // set origin in plane of camera\n\t\t\tthis.ray.direction.set( 0, 0, -1 ).transformDirection( camera.matrixWorld );\n\t\t\tthis.camera = camera;\n\n\t\t} else {\n\n\t\t\tconsole.error( 'THREE.Raycaster: Unsupported camera type: ' + camera.type );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Uses the given WebXR controller to compute a new origin and direction for the internal ray.\n\t *\n\t * @param {WebXRController} controller - The controller to copy the position and direction from.\n\t * @return {Raycaster} A reference to this raycaster.\n\t */\n\tsetFromXRController( controller ) {\n\n\t\t_matrix.identity().extractRotation( controller.matrixWorld );\n\n\t\tthis.ray.origin.setFromMatrixPosition( controller.matrixWorld );\n\t\tthis.ray.direction.set( 0, 0, -1 ).applyMatrix4( _matrix );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The intersection point of a raycaster intersection test.\n\t * @typedef {Object} Raycaster~Intersection\n\t * @property {number} distance - The distance from the ray's origin to the intersection point.\n\t * @property {number} distanceToRay - Some 3D objects e.g. {@link Points} provide the distance of the\n\t * intersection to the nearest point on the ray. For other objects it will be `undefined`.\n\t * @property {Vector3} point - The intersection point, in world coordinates.\n\t * @property {Object} face - The face that has been intersected.\n\t * @property {number} faceIndex - The face index.\n\t * @property {Object3D} object - The 3D object that has been intersected.\n\t * @property {Vector2} uv - U,V coordinates at point of intersection.\n\t * @property {Vector2} uv1 - Second set of U,V coordinates at point of intersection.\n\t * @property {Vector3} uv1 - Interpolated normal vector at point of intersection.\n\t * @property {number} instanceId - The index number of the instance where the ray\n\t * intersects the {@link InstancedMesh}.\n\t */\n\n\t/**\n\t * Checks all intersection between the ray and the object with or without the\n\t * descendants. Intersections are returned sorted by distance, closest first.\n\t *\n\t * `Raycaster` delegates to the `raycast()` method of the passed 3D object, when\n\t * evaluating whether the ray intersects the object or not. This allows meshes to respond\n\t * differently to ray casting than lines or points.\n\t *\n\t * Note that for meshes, faces must be pointed towards the origin of the ray in order\n\t * to be detected; intersections of the ray passing through the back of a face will not\n\t * be detected. To raycast against both faces of an object, you'll want to set {@link Material#side}\n\t * to `THREE.DoubleSide`.\n\t *\n\t * @param {Object3D} object - The 3D object to check for intersection with the ray.\n\t * @param {boolean} [recursive=true] - If set to `true`, it also checks all descendants.\n\t * Otherwise it only checks intersection with the object.\n\t * @param {Array} [intersects=[]] The target array that holds the result of the method.\n\t * @return {Array} An array holding the intersection points.\n\t */\n\tintersectObject( object, recursive = true, intersects = [] ) {\n\n\t\tintersect( object, this, intersects, recursive );\n\n\t\tintersects.sort( ascSort );\n\n\t\treturn intersects;\n\n\t}\n\n\t/**\n\t * Checks all intersection between the ray and the objects with or without\n\t * the descendants. Intersections are returned sorted by distance, closest first.\n\t *\n\t * @param {Array} objects - The 3D objects to check for intersection with the ray.\n\t * @param {boolean} [recursive=true] - If set to `true`, it also checks all descendants.\n\t * Otherwise it only checks intersection with the object.\n\t * @param {Array} [intersects=[]] The target array that holds the result of the method.\n\t * @return {Array} An array holding the intersection points.\n\t */\n\tintersectObjects( objects, recursive = true, intersects = [] ) {\n\n\t\tfor ( let i = 0, l = objects.length; i < l; i ++ ) {\n\n\t\t\tintersect( objects[ i ], this, intersects, recursive );\n\n\t\t}\n\n\t\tintersects.sort( ascSort );\n\n\t\treturn intersects;\n\n\t}\n\n}\n\nfunction ascSort( a, b ) {\n\n\treturn a.distance - b.distance;\n\n}\n\nfunction intersect( object, raycaster, intersects, recursive ) {\n\n\tlet propagate = true;\n\n\tif ( object.layers.test( raycaster.layers ) ) {\n\n\t\tconst result = object.raycast( raycaster, intersects );\n\n\t\tif ( result === false ) propagate = false;\n\n\t}\n\n\tif ( propagate === true && recursive === true ) {\n\n\t\tconst children = object.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tintersect( children[ i ], raycaster, intersects, true );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * This class is an alternative to {@link Clock} with a different API design and behavior.\n * The goal is to avoid the conceptual flaws that became apparent in `Clock` over time.\n *\n * - `Timer` has an `update()` method that updates its internal state. That makes it possible to\n * call `getDelta()` and `getElapsed()` multiple times per simulation step without getting different values.\n * - The class can make use of the Page Visibility API to avoid large time delta values when the app\n * is inactive (e.g. tab switched or browser hidden).\n *\n * ```js\n * const timer = new Timer();\n * timer.connect( document ); // use Page Visibility API\n * ```\n */\nclass Timer {\n\n\t/**\n\t * Constructs a new timer.\n\t */\n\tconstructor() {\n\n\t\tthis._previousTime = 0;\n\t\tthis._currentTime = 0;\n\t\tthis._startTime = performance.now();\n\n\t\tthis._delta = 0;\n\t\tthis._elapsed = 0;\n\n\t\tthis._timescale = 1;\n\n\t\tthis._document = null;\n\t\tthis._pageVisibilityHandler = null;\n\n\t}\n\n\t/**\n\t * Connect the timer to the given document.Calling this method is not mandatory to\n\t * use the timer but enables the usage of the Page Visibility API to avoid large time\n\t * delta values.\n\t *\n\t * @param {Document} document - The document.\n\t */\n\tconnect( document ) {\n\n\t\tthis._document = document;\n\n\t\t// use Page Visibility API to avoid large time delta values\n\n\t\tif ( document.hidden !== undefined ) {\n\n\t\t\tthis._pageVisibilityHandler = handleVisibilityChange.bind( this );\n\n\t\t\tdocument.addEventListener( 'visibilitychange', this._pageVisibilityHandler, false );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Disconnects the timer from the DOM and also disables the usage of the Page Visibility API.\n\t */\n\tdisconnect() {\n\n\t\tif ( this._pageVisibilityHandler !== null ) {\n\n\t\t\tthis._document.removeEventListener( 'visibilitychange', this._pageVisibilityHandler );\n\t\t\tthis._pageVisibilityHandler = null;\n\n\t\t}\n\n\t\tthis._document = null;\n\n\t}\n\n\t/**\n\t * Returns the time delta in seconds.\n\t *\n\t * @return {number} The time delta in second.\n\t */\n\tgetDelta() {\n\n\t\treturn this._delta / 1000;\n\n\t}\n\n\t/**\n\t * Returns the elapsed time in seconds.\n\t *\n\t * @return {number} The elapsed time in second.\n\t */\n\tgetElapsed() {\n\n\t\treturn this._elapsed / 1000;\n\n\t}\n\n\t/**\n\t * Returns the timescale.\n\t *\n\t * @return {number} The timescale.\n\t */\n\tgetTimescale() {\n\n\t\treturn this._timescale;\n\n\t}\n\n\t/**\n\t * Sets the given timescale which scale the time delta computation\n\t * in `update()`.\n\t *\n\t * @param {number} timescale - The timescale to set.\n\t * @return {Timer} A reference to this timer.\n\t */\n\tsetTimescale( timescale ) {\n\n\t\tthis._timescale = timescale;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Resets the time computation for the current simulation step.\n\t *\n\t * @return {Timer} A reference to this timer.\n\t */\n\treset() {\n\n\t\tthis._currentTime = performance.now() - this._startTime;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Can be used to free all internal resources. Usually called when\n\t * the timer instance isn't required anymore.\n\t */\n\tdispose() {\n\n\t\tthis.disconnect();\n\n\t}\n\n\t/**\n\t * Updates the internal state of the timer. This method should be called\n\t * once per simulation step and before you perform queries against the timer\n\t * (e.g. via `getDelta()`).\n\t *\n\t * @param {number} timestamp - The current time in milliseconds. Can be obtained\n\t * from the `requestAnimationFrame` callback argument. If not provided, the current\n\t * time will be determined with `performance.now`.\n\t * @return {Timer} A reference to this timer.\n\t */\n\tupdate( timestamp ) {\n\n\t\tif ( this._pageVisibilityHandler !== null && this._document.hidden === true ) {\n\n\t\t\tthis._delta = 0;\n\n\t\t} else {\n\n\t\t\tthis._previousTime = this._currentTime;\n\t\t\tthis._currentTime = ( timestamp !== undefined ? timestamp : performance.now() ) - this._startTime;\n\n\t\t\tthis._delta = ( this._currentTime - this._previousTime ) * this._timescale;\n\t\t\tthis._elapsed += this._delta; // _elapsed is the accumulation of all previous deltas\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\nfunction handleVisibilityChange() {\n\n\tif ( this._document.hidden === false ) this.reset();\n\n}\n\n/**\n * This class can be used to represent points in 3D space as\n * [Spherical coordinates]{@link https://en.wikipedia.org/wiki/Spherical_coordinate_system}.\n */\nclass Spherical {\n\n\t/**\n\t * Constructs a new spherical.\n\t *\n\t * @param {number} [radius=1] - The radius, or the Euclidean distance (straight-line distance) from the point to the origin.\n\t * @param {number} [phi=0] - The polar angle in radians from the y (up) axis.\n\t * @param {number} [theta=0] - The equator/azimuthal angle in radians around the y (up) axis.\n\t */\n\tconstructor( radius = 1, phi = 0, theta = 0 ) {\n\n\t\t/**\n\t\t * The radius, or the Euclidean distance (straight-line distance) from the point to the origin.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.radius = radius;\n\n\t\t/**\n\t\t * The polar angle in radians from the y (up) axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.phi = phi;\n\n\t\t/**\n\t\t * The equator/azimuthal angle in radians around the y (up) axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.theta = theta;\n\n\t}\n\n\t/**\n\t * Sets the spherical components by copying the given values.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} phi - The polar angle.\n\t * @param {number} theta - The azimuthal angle.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tset( radius, phi, theta ) {\n\n\t\tthis.radius = radius;\n\t\tthis.phi = phi;\n\t\tthis.theta = theta;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given spherical to this instance.\n\t *\n\t * @param {Spherical} other - The spherical to copy.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tcopy( other ) {\n\n\t\tthis.radius = other.radius;\n\t\tthis.phi = other.phi;\n\t\tthis.theta = other.theta;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Restricts the polar angle [page:.phi phi] to be between `0.000001` and pi -\n\t * `0.000001`.\n\t *\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tmakeSafe() {\n\n\t\tconst EPS = 0.000001;\n\t\tthis.phi = clamp( this.phi, EPS, Math.PI - EPS );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the spherical components from the given vector which is assumed to hold\n\t * Cartesian coordinates.\n\t *\n\t * @param {Vector3} v - The vector to set.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tsetFromVector3( v ) {\n\n\t\treturn this.setFromCartesianCoords( v.x, v.y, v.z );\n\n\t}\n\n\t/**\n\t * Sets the spherical components from the given Cartesian coordinates.\n\t *\n\t * @param {number} x - The x value.\n\t * @param {number} y - The y value.\n\t * @param {number} z - The z value.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tsetFromCartesianCoords( x, y, z ) {\n\n\t\tthis.radius = Math.sqrt( x * x + y * y + z * z );\n\n\t\tif ( this.radius === 0 ) {\n\n\t\t\tthis.theta = 0;\n\t\t\tthis.phi = 0;\n\n\t\t} else {\n\n\t\t\tthis.theta = Math.atan2( x, z );\n\t\t\tthis.phi = Math.acos( clamp( y / this.radius, -1, 1 ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new spherical with copied values from this instance.\n\t *\n\t * @return {Spherical} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * This class can be used to represent points in 3D space as\n * [Cylindrical coordinates]{@link https://en.wikipedia.org/wiki/Cylindrical_coordinate_system}.\n */\nclass Cylindrical {\n\n\t/**\n\t * Constructs a new cylindrical.\n\t *\n\t * @param {number} [radius=1] - The distance from the origin to a point in the x-z plane.\n\t * @param {number} [theta=0] - A counterclockwise angle in the x-z plane measured in radians from the positive z-axis.\n\t * @param {number} [y=0] - The height above the x-z plane.\n\t */\n\tconstructor( radius = 1, theta = 0, y = 0 ) {\n\n\t\t/**\n\t\t * The distance from the origin to a point in the x-z plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.radius = radius;\n\n\t\t/**\n\t\t * A counterclockwise angle in the x-z plane measured in radians from the positive z-axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.theta = theta;\n\n\t\t/**\n\t\t * The height above the x-z plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.y = y;\n\n\t}\n\n\t/**\n\t * Sets the cylindrical components by copying the given values.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} theta - The theta angle.\n\t * @param {number} y - The height value.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tset( radius, theta, y ) {\n\n\t\tthis.radius = radius;\n\t\tthis.theta = theta;\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given cylindrical to this instance.\n\t *\n\t * @param {Cylindrical} other - The cylindrical to copy.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tcopy( other ) {\n\n\t\tthis.radius = other.radius;\n\t\tthis.theta = other.theta;\n\t\tthis.y = other.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the cylindrical components from the given vector which is assumed to hold\n\t * Cartesian coordinates.\n\t *\n\t * @param {Vector3} v - The vector to set.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tsetFromVector3( v ) {\n\n\t\treturn this.setFromCartesianCoords( v.x, v.y, v.z );\n\n\t}\n\n\t/**\n\t * Sets the cylindrical components from the given Cartesian coordinates.\n\t *\n\t * @param {number} x - The x value.\n\t * @param {number} y - The x value.\n\t * @param {number} z - The x value.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tsetFromCartesianCoords( x, y, z ) {\n\n\t\tthis.radius = Math.sqrt( x * x + z * z );\n\t\tthis.theta = Math.atan2( x, z );\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new cylindrical with copied values from this instance.\n\t *\n\t * @return {Cylindrical} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * Represents a 2x2 matrix.\n *\n * A Note on Row-Major and Column-Major Ordering:\n *\n * The constructor and {@link Matrix2#set} method take arguments in\n * [row-major]{@link https://en.wikipedia.org/wiki/Row-_and_column-major_order#Column-major_order}\n * order, while internally they are stored in the {@link Matrix2#elements} array in column-major order.\n * This means that calling:\n * ```js\n * const m = new THREE.Matrix2();\n * m.set( 11, 12,\n * 21, 22 );\n * ```\n * will result in the elements array containing:\n * ```js\n * m.elements = [ 11, 21,\n * 12, 22 ];\n * ```\n * and internally all calculations are performed using column-major ordering.\n * However, as the actual ordering makes no difference mathematically and\n * most people are used to thinking about matrices in row-major order, the\n * three.js documentation shows matrices in row-major order. Just bear in\n * mind that if you are reading the source code, you'll have to take the\n * transpose of any matrices outlined here to make sense of the calculations.\n */\nclass Matrix2 {\n\n\t/**\n\t * Constructs a new 2x2 matrix. The arguments are supposed to be\n\t * in row-major order. If no arguments are provided, the constructor\n\t * initializes the matrix as an identity matrix.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t */\n\tconstructor( n11, n12, n21, n22 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tMatrix2.prototype.isMatrix2 = true;\n\n\t\t/**\n\t\t * A column-major list of matrix values.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.elements = [\n\t\t\t1, 0,\n\t\t\t0, 1,\n\t\t];\n\n\t\tif ( n11 !== undefined ) {\n\n\t\t\tthis.set( n11, n12, n21, n22 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets this matrix to the 2x2 identity matrix.\n\t *\n\t * @return {Matrix2} A reference to this matrix.\n\t */\n\tidentity() {\n\n\t\tthis.set(\n\t\t\t1, 0,\n\t\t\t0, 1,\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix from the given array.\n\t *\n\t * @param {Array} array - The matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Matrix2} A reference to this matrix.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tfor ( let i = 0; i < 4; i ++ ) {\n\n\t\t\tthis.elements[ i ] = array[ i + offset ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix.The arguments are supposed to be\n\t * in row-major order.\n\t *\n\t * @param {number} n11 - 1-1 matrix element.\n\t * @param {number} n12 - 1-2 matrix element.\n\t * @param {number} n21 - 2-1 matrix element.\n\t * @param {number} n22 - 2-2 matrix element.\n\t * @return {Matrix2} A reference to this matrix.\n\t */\n\tset( n11, n12, n21, n22 ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] = n11; te[ 2 ] = n12;\n\t\tte[ 1 ] = n21; te[ 3 ] = n22;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _vector$4 = /*@__PURE__*/ new Vector2();\n\n/**\n * Represents an axis-aligned bounding box (AABB) in 2D space.\n */\nclass Box2 {\n\n\t/**\n\t * Constructs a new bounding box.\n\t *\n\t * @param {Vector2} [min=(Infinity,Infinity)] - A vector representing the lower boundary of the box.\n\t * @param {Vector2} [max=(-Infinity,-Infinity)] - A vector representing the upper boundary of the box.\n\t */\n\tconstructor( min = new Vector2( + Infinity, + Infinity ), max = new Vector2( - Infinity, - Infinity ) ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBox2 = true;\n\n\t\t/**\n\t\t * The lower boundary of the box.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.min = min;\n\n\t\t/**\n\t\t * The upper boundary of the box.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.max = max;\n\n\t}\n\n\t/**\n\t * Sets the lower and upper boundaries of this box.\n\t * Please note that this method only copies the values from the given objects.\n\t *\n\t * @param {Vector2} min - The lower boundary of the box.\n\t * @param {Vector2} max - The upper boundary of the box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tset( min, max ) {\n\n\t\tthis.min.copy( min );\n\t\tthis.max.copy( max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given array.\n\t *\n\t * @param {Array} points - An array holding 2D position data as instances of {@link Vector2}.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = points.length; i < il; i ++ ) {\n\n\t\t\tthis.expandByPoint( points[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Centers this box on the given center vector and sets this box's width, height and\n\t * depth to the given size values.\n\t *\n\t * @param {Vector2} center - The center of the box.\n\t * @param {Vector2} size - The x and y dimensions of the box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tsetFromCenterAndSize( center, size ) {\n\n\t\tconst halfSize = _vector$4.copy( size ).multiplyScalar( 0.5 );\n\t\tthis.min.copy( center ).sub( halfSize );\n\t\tthis.max.copy( center ).add( halfSize );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new box with copied values from this instance.\n\t *\n\t * @return {Box2} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given box to this instance.\n\t *\n\t * @param {Box2} box - The box to copy.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tcopy( box ) {\n\n\t\tthis.min.copy( box.min );\n\t\tthis.max.copy( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Makes this box empty which means in encloses a zero space in 2D.\n\t *\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tmakeEmpty() {\n\n\t\tthis.min.x = this.min.y = + Infinity;\n\t\tthis.max.x = this.max.y = - Infinity;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns true if this box includes zero points within its bounds.\n\t * Note that a box with equal lower and upper bounds still includes one\n\t * point, the one both bounds share.\n\t *\n\t * @return {boolean} Whether this box is empty or not.\n\t */\n\tisEmpty() {\n\n\t\t// this is a more robust check for empty than ( volume <= 0 ) because volume can get positive with two negative axes\n\n\t\treturn ( this.max.x < this.min.x ) || ( this.max.y < this.min.y );\n\n\t}\n\n\t/**\n\t * Returns the center point of this box.\n\t *\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} The center point.\n\t */\n\tgetCenter( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0 ) : target.addVectors( this.min, this.max ).multiplyScalar( 0.5 );\n\n\t}\n\n\t/**\n\t * Returns the dimensions of this box.\n\t *\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} The size.\n\t */\n\tgetSize( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0 ) : target.subVectors( this.max, this.min );\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this box to include the given point.\n\t *\n\t * @param {Vector2} point - The point that should be included by the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\texpandByPoint( point ) {\n\n\t\tthis.min.min( point );\n\t\tthis.max.max( point );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands this box equilaterally by the given vector. The width of this\n\t * box will be expanded by the x component of the vector in both\n\t * directions. The height of this box will be expanded by the y component of\n\t * the vector in both directions.\n\t *\n\t * @param {Vector2} vector - The vector that should expand the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\texpandByVector( vector ) {\n\n\t\tthis.min.sub( vector );\n\t\tthis.max.add( vector );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands each dimension of the box by the given scalar. If negative, the\n\t * dimensions of the box will be contracted.\n\t *\n\t * @param {number} scalar - The scalar value that should expand the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\texpandByScalar( scalar ) {\n\n\t\tthis.min.addScalar( - scalar );\n\t\tthis.max.addScalar( scalar );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within or on the boundaries of this box.\n\t *\n\t * @param {Vector2} point - The point to test.\n\t * @return {boolean} Whether the bounding box contains the given point or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn point.x >= this.min.x && point.x <= this.max.x &&\n\t\t\tpoint.y >= this.min.y && point.y <= this.max.y;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box includes the entirety of the given bounding box.\n\t * If this box and the given one are identical, this function also returns `true`.\n\t *\n\t * @param {Box2} box - The bounding box to test.\n\t * @return {boolean} Whether the bounding box contains the given bounding box or not.\n\t */\n\tcontainsBox( box ) {\n\n\t\treturn this.min.x <= box.min.x && box.max.x <= this.max.x &&\n\t\t\tthis.min.y <= box.min.y && box.max.y <= this.max.y;\n\n\t}\n\n\t/**\n\t * Returns a point as a proportion of this box's width and height.\n\t *\n\t * @param {Vector2} point - A point in 2D space.\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} A point as a proportion of this box's width and height.\n\t */\n\tgetParameter( point, target ) {\n\n\t\t// This can potentially have a divide by zero if the box\n\t\t// has a size dimension of 0.\n\n\t\treturn target.set(\n\t\t\t( point.x - this.min.x ) / ( this.max.x - this.min.x ),\n\t\t\t( point.y - this.min.y ) / ( this.max.y - this.min.y )\n\t\t);\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box intersects with this bounding box.\n\t *\n\t * @param {Box2} box - The bounding box to test.\n\t * @return {boolean} Whether the given bounding box intersects with this bounding box.\n\t */\n\tintersectsBox( box ) {\n\n\t\t// using 4 splitting planes to rule out intersections\n\n\t\treturn box.max.x >= this.min.x && box.min.x <= this.max.x &&\n\t\t\tbox.max.y >= this.min.y && box.min.y <= this.max.y;\n\n\t}\n\n\t/**\n\t * Clamps the given point within the bounds of this box.\n\t *\n\t * @param {Vector2} point - The point to clamp.\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} The clamped point.\n\t */\n\tclampPoint( point, target ) {\n\n\t\treturn target.copy( point ).clamp( this.min, this.max );\n\n\t}\n\n\t/**\n\t * Returns the euclidean distance from any edge of this box to the specified point. If\n\t * the given point lies inside of this box, the distance will be `0`.\n\t *\n\t * @param {Vector2} point - The point to compute the distance to.\n\t * @return {number} The euclidean distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn this.clampPoint( point, _vector$4 ).distanceTo( point );\n\n\t}\n\n\t/**\n\t * Computes the intersection of this bounding box and the given one, setting the upper\n\t * bound of this box to the lesser of the two boxes' upper bounds and the\n\t * lower bound of this box to the greater of the two boxes' lower bounds. If\n\t * there's no overlap, makes this box empty.\n\t *\n\t * @param {Box2} box - The bounding box to intersect with.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tintersect( box ) {\n\n\t\tthis.min.max( box.min );\n\t\tthis.max.min( box.max );\n\n\t\tif ( this.isEmpty() ) this.makeEmpty();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the union of this box and another and the given one, setting the upper\n\t * bound of this box to the greater of the two boxes' upper bounds and the\n\t * lower bound of this box to the lesser of the two boxes' lower bounds.\n\t *\n\t * @param {Box2} box - The bounding box that will be unioned with this instance.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tunion( box ) {\n\n\t\tthis.min.min( box.min );\n\t\tthis.max.max( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given offset to both the upper and lower bounds of this bounding box,\n\t * effectively moving it in 2D space.\n\t *\n\t * @param {Vector2} offset - The offset that should be used to translate the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.min.add( offset );\n\t\tthis.max.add( offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box is equal with the given one.\n\t *\n\t * @param {Box2} box - The box to test for equality.\n\t * @return {boolean} Whether this bounding box is equal with the given one.\n\t */\n\tequals( box ) {\n\n\t\treturn box.min.equals( this.min ) && box.max.equals( this.max );\n\n\t}\n\n}\n\nconst _startP = /*@__PURE__*/ new Vector3();\nconst _startEnd = /*@__PURE__*/ new Vector3();\n\nconst _d1 = /*@__PURE__*/ new Vector3();\nconst _d2 = /*@__PURE__*/ new Vector3();\nconst _r = /*@__PURE__*/ new Vector3();\nconst _c1 = /*@__PURE__*/ new Vector3();\nconst _c2 = /*@__PURE__*/ new Vector3();\n\n/**\n * An analytical line segment in 3D space represented by a start and end point.\n */\nclass Line3 {\n\n\t/**\n\t * Constructs a new line segment.\n\t *\n\t * @param {Vector3} [start=(0,0,0)] - Start of the line segment.\n\t * @param {Vector3} [end=(0,0,0)] - End of the line segment.\n\t */\n\tconstructor( start = new Vector3(), end = new Vector3() ) {\n\n\t\t/**\n\t\t * Start of the line segment.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.start = start;\n\n\t\t/**\n\t\t * End of the line segment.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.end = end;\n\n\t}\n\n\t/**\n\t * Sets the start and end values by copying the given vectors.\n\t *\n\t * @param {Vector3} start - The start point.\n\t * @param {Vector3} end - The end point.\n\t * @return {Line3} A reference to this line segment.\n\t */\n\tset( start, end ) {\n\n\t\tthis.start.copy( start );\n\t\tthis.end.copy( end );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given line segment to this instance.\n\t *\n\t * @param {Line3} line - The line segment to copy.\n\t * @return {Line3} A reference to this line segment.\n\t */\n\tcopy( line ) {\n\n\t\tthis.start.copy( line.start );\n\t\tthis.end.copy( line.end );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the center of the line segment.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The center point.\n\t */\n\tgetCenter( target ) {\n\n\t\treturn target.addVectors( this.start, this.end ).multiplyScalar( 0.5 );\n\n\t}\n\n\t/**\n\t * Returns the delta vector of the line segment's start and end point.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The delta vector.\n\t */\n\tdelta( target ) {\n\n\t\treturn target.subVectors( this.end, this.start );\n\n\t}\n\n\t/**\n\t * Returns the squared Euclidean distance between the line' start and end point.\n\t *\n\t * @return {number} The squared Euclidean distance.\n\t */\n\tdistanceSq() {\n\n\t\treturn this.start.distanceToSquared( this.end );\n\n\t}\n\n\t/**\n\t * Returns the Euclidean distance between the line' start and end point.\n\t *\n\t * @return {number} The Euclidean distance.\n\t */\n\tdistance() {\n\n\t\treturn this.start.distanceTo( this.end );\n\n\t}\n\n\t/**\n\t * Returns a vector at a certain position along the line segment.\n\t *\n\t * @param {number} t - A value between `[0,1]` to represent a position along the line segment.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The delta vector.\n\t */\n\tat( t, target ) {\n\n\t\treturn this.delta( target ).multiplyScalar( t ).add( this.start );\n\n\t}\n\n\t/**\n\t * Returns a point parameter based on the closest point as projected on the line segment.\n\t *\n\t * @param {Vector3} point - The point for which to return a point parameter.\n\t * @param {boolean} clampToLine - Whether to clamp the result to the range `[0,1]` or not.\n\t * @return {number} The point parameter.\n\t */\n\tclosestPointToPointParameter( point, clampToLine ) {\n\n\t\t_startP.subVectors( point, this.start );\n\t\t_startEnd.subVectors( this.end, this.start );\n\n\t\tconst startEnd2 = _startEnd.dot( _startEnd );\n\t\tconst startEnd_startP = _startEnd.dot( _startP );\n\n\t\tlet t = startEnd_startP / startEnd2;\n\n\t\tif ( clampToLine ) {\n\n\t\t\tt = clamp( t, 0, 1 );\n\n\t\t}\n\n\t\treturn t;\n\n\t}\n\n\t/**\n\t * Returns the closest point on the line for a given point.\n\t *\n\t * @param {Vector3} point - The point to compute the closest point on the line for.\n\t * @param {boolean} clampToLine - Whether to clamp the result to the range `[0,1]` or not.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The closest point on the line.\n\t */\n\tclosestPointToPoint( point, clampToLine, target ) {\n\n\t\tconst t = this.closestPointToPointParameter( point, clampToLine );\n\n\t\treturn this.delta( target ).multiplyScalar( t ).add( this.start );\n\n\t}\n\n\t/**\n\t * Returns the closest squared distance between this line segment and the given one.\n\t *\n\t * @param {Line3} line - The line segment to compute the closest squared distance to.\n\t * @param {Vector3} [c1] - The closest point on this line segment.\n\t * @param {Vector3} [c2] - The closest point on the given line segment.\n\t * @return {number} The squared distance between this line segment and the given one.\n\t */\n\tdistanceSqToLine3( line, c1 = _c1, c2 = _c2 ) {\n\n\t\t// from Real-Time Collision Detection by Christer Ericson, chapter 5.1.9\n\n\t\t// Computes closest points C1 and C2 of S1(s)=P1+s*(Q1-P1) and\n\t\t// S2(t)=P2+t*(Q2-P2), returning s and t. Function result is squared\n\t\t// distance between between S1(s) and S2(t)\n\n\t\tconst EPSILON = 1e-8 * 1e-8; // must be squared since we compare squared length\n\t\tlet s, t;\n\n\t\tconst p1 = this.start;\n\t\tconst p2 = line.start;\n\t\tconst q1 = this.end;\n\t\tconst q2 = line.end;\n\n\t\t_d1.subVectors( q1, p1 ); // Direction vector of segment S1\n\t\t_d2.subVectors( q2, p2 ); // Direction vector of segment S2\n\t\t_r.subVectors( p1, p2 );\n\n\t\tconst a = _d1.dot( _d1 ); // Squared length of segment S1, always nonnegative\n\t\tconst e = _d2.dot( _d2 ); // Squared length of segment S2, always nonnegative\n\t\tconst f = _d2.dot( _r );\n\n\t\t// Check if either or both segments degenerate into points\n\n\t\tif ( a <= EPSILON && e <= EPSILON ) {\n\n\t\t\t// Both segments degenerate into points\n\n\t\t\tc1.copy( p1 );\n\t\t\tc2.copy( p2 );\n\n\t\t\tc1.sub( c2 );\n\n\t\t\treturn c1.dot( c1 );\n\n\t\t}\n\n\t\tif ( a <= EPSILON ) {\n\n\t\t\t// First segment degenerates into a point\n\n\t\t\ts = 0;\n\t\t\tt = f / e; // s = 0 => t = (b*s + f) / e = f / e\n\t\t\tt = clamp( t, 0, 1 );\n\n\n\t\t} else {\n\n\t\t\tconst c = _d1.dot( _r );\n\n\t\t\tif ( e <= EPSILON ) {\n\n\t\t\t\t// Second segment degenerates into a point\n\n\t\t\t\tt = 0;\n\t\t\t\ts = clamp( - c / a, 0, 1 ); // t = 0 => s = (b*t - c) / a = -c / a\n\n\t\t\t} else {\n\n\t\t\t\t// The general nondegenerate case starts here\n\n\t\t\t\tconst b = _d1.dot( _d2 );\n\t\t\t\tconst denom = a * e - b * b; // Always nonnegative\n\n\t\t\t\t// If segments not parallel, compute closest point on L1 to L2 and\n\t\t\t\t// clamp to segment S1. Else pick arbitrary s (here 0)\n\n\t\t\t\tif ( denom !== 0 ) {\n\n\t\t\t\t\ts = clamp( ( b * f - c * e ) / denom, 0, 1 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\ts = 0;\n\n\t\t\t\t}\n\n\t\t\t\t// Compute point on L2 closest to S1(s) using\n\t\t\t\t// t = Dot((P1 + D1*s) - P2,D2) / Dot(D2,D2) = (b*s + f) / e\n\n\t\t\t\tt = ( b * s + f ) / e;\n\n\t\t\t\t// If t in [0,1] done. Else clamp t, recompute s for the new value\n\t\t\t\t// of t using s = Dot((P2 + D2*t) - P1,D1) / Dot(D1,D1)= (t*b - c) / a\n\t\t\t\t// and clamp s to [0, 1]\n\n\t\t\t\tif ( t < 0 ) {\n\n\t\t\t\t\tt = 0.;\n\t\t\t\t\ts = clamp( - c / a, 0, 1 );\n\n\t\t\t\t} else if ( t > 1 ) {\n\n\t\t\t\t\tt = 1;\n\t\t\t\t\ts = clamp( ( b - c ) / a, 0, 1 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tc1.copy( p1 ).add( _d1.multiplyScalar( s ) );\n\t\tc2.copy( p2 ).add( _d2.multiplyScalar( t ) );\n\n\t\tc1.sub( c2 );\n\n\t\treturn c1.dot( c1 );\n\n\t}\n\n\t/**\n\t * Applies a 4x4 transformation matrix to this line segment.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @return {Line3} A reference to this line segment.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tthis.start.applyMatrix4( matrix );\n\t\tthis.end.applyMatrix4( matrix );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this line segment is equal with the given one.\n\t *\n\t * @param {Line3} line - The line segment to test for equality.\n\t * @return {boolean} Whether this line segment is equal with the given one.\n\t */\n\tequals( line ) {\n\n\t\treturn line.start.equals( this.start ) && line.end.equals( this.end );\n\n\t}\n\n\t/**\n\t * Returns a new line segment with copied values from this instance.\n\t *\n\t * @return {Line3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _vector$3 = /*@__PURE__*/ new Vector3();\n\n/**\n * This displays a cone shaped helper object for a {@link SpotLight}.\n *\n * ```js\n * const spotLight = new THREE.SpotLight( 0xffffff );\n * spotLight.position.set( 10, 10, 10 );\n * scene.add( spotLight );\n *\n * const spotLightHelper = new THREE.SpotLightHelper( spotLight );\n * scene.add( spotLightHelper );\n * ```\n *\n * @augments Object3D\n */\nclass SpotLightHelper extends Object3D {\n\n\t/**\n\t * Constructs a new spot light helper.\n\t *\n\t * @param {HemisphereLight} light - The light to be visualized.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, color ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {SpotLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'SpotLightHelper';\n\n\t\tconst geometry = new BufferGeometry();\n\n\t\tconst positions = [\n\t\t\t0, 0, 0, \t0, 0, 1,\n\t\t\t0, 0, 0, \t1, 0, 1,\n\t\t\t0, 0, 0,\t-1, 0, 1,\n\t\t\t0, 0, 0, \t0, 1, 1,\n\t\t\t0, 0, 0, \t0, -1, 1\n\t\t];\n\n\t\tfor ( let i = 0, j = 1, l = 32; i < l; i ++, j ++ ) {\n\n\t\t\tconst p1 = ( i / l ) * Math.PI * 2;\n\t\t\tconst p2 = ( j / l ) * Math.PI * 2;\n\n\t\t\tpositions.push(\n\t\t\t\tMath.cos( p1 ), Math.sin( p1 ), 1,\n\t\t\t\tMath.cos( p2 ), Math.sin( p2 ), 1\n\t\t\t);\n\n\t\t}\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( positions, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { fog: false, toneMapped: false } );\n\n\t\tthis.cone = new LineSegments( geometry, material );\n\t\tthis.add( this.cone );\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.cone.geometry.dispose();\n\t\tthis.cone.material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\t\tthis.light.target.updateWorldMatrix( true, false );\n\n\t\t// update the local matrix based on the parent and light target transforms\n\t\tif ( this.parent ) {\n\n\t\t\tthis.parent.updateWorldMatrix( true );\n\n\t\t\tthis.matrix\n\t\t\t\t.copy( this.parent.matrixWorld )\n\t\t\t\t.invert()\n\t\t\t\t.multiply( this.light.matrixWorld );\n\n\t\t} else {\n\n\t\t\tthis.matrix.copy( this.light.matrixWorld );\n\n\t\t}\n\n\t\tthis.matrixWorld.copy( this.light.matrixWorld );\n\n\t\tconst coneLength = this.light.distance ? this.light.distance : 1000;\n\t\tconst coneWidth = coneLength * Math.tan( this.light.angle );\n\n\t\tthis.cone.scale.set( coneWidth, coneWidth, coneLength );\n\n\t\t_vector$3.setFromMatrixPosition( this.light.target.matrixWorld );\n\n\t\tthis.cone.lookAt( _vector$3 );\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.cone.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tthis.cone.material.color.copy( this.light.color );\n\n\t\t}\n\n\t}\n\n}\n\nconst _vector$2 = /*@__PURE__*/ new Vector3();\nconst _boneMatrix = /*@__PURE__*/ new Matrix4();\nconst _matrixWorldInv = /*@__PURE__*/ new Matrix4();\n\n/**\n * A helper object to assist with visualizing a {@link Skeleton}.\n *\n * ```js\n * const helper = new THREE.SkeletonHelper( skinnedMesh );\n * scene.add( helper );\n * ```\n *\n * @augments LineSegments\n */\nclass SkeletonHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new skeleton helper.\n\t *\n\t * @param {Object3D} object - Usually an instance of {@link SkinnedMesh}. However, any 3D object\n\t * can be used if it represents a hierarchy of bones (see {@link Bone}).\n\t */\n\tconstructor( object ) {\n\n\t\tconst bones = getBoneList( object );\n\n\t\tconst geometry = new BufferGeometry();\n\n\t\tconst vertices = [];\n\t\tconst colors = [];\n\n\t\tfor ( let i = 0; i < bones.length; i ++ ) {\n\n\t\t\tconst bone = bones[ i ];\n\n\t\t\tif ( bone.parent && bone.parent.isBone ) {\n\n\t\t\t\tvertices.push( 0, 0, 0 );\n\t\t\t\tvertices.push( 0, 0, 0 );\n\t\t\t\tcolors.push( 0, 0, 0 );\n\t\t\t\tcolors.push( 0, 0, 0 );\n\n\t\t\t}\n\n\t\t}\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, depthTest: false, depthWrite: false, toneMapped: false, transparent: true } );\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSkeletonHelper = true;\n\n\t\tthis.type = 'SkeletonHelper';\n\n\t\t/**\n\t\t * The object being visualized.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.root = object;\n\n\t\t/**\n\t\t * The list of bones that the helper visualizes.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.bones = bones;\n\n\t\tthis.matrix = object.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t// colors\n\n\t\tconst color1 = new Color( 0x0000ff );\n\t\tconst color2 = new Color( 0x00ff00 );\n\n\t\tthis.setColors( color1, color2 );\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tconst bones = this.bones;\n\n\t\tconst geometry = this.geometry;\n\t\tconst position = geometry.getAttribute( 'position' );\n\n\t\t_matrixWorldInv.copy( this.root.matrixWorld ).invert();\n\n\t\tfor ( let i = 0, j = 0; i < bones.length; i ++ ) {\n\n\t\t\tconst bone = bones[ i ];\n\n\t\t\tif ( bone.parent && bone.parent.isBone ) {\n\n\t\t\t\t_boneMatrix.multiplyMatrices( _matrixWorldInv, bone.matrixWorld );\n\t\t\t\t_vector$2.setFromMatrixPosition( _boneMatrix );\n\t\t\t\tposition.setXYZ( j, _vector$2.x, _vector$2.y, _vector$2.z );\n\n\t\t\t\t_boneMatrix.multiplyMatrices( _matrixWorldInv, bone.parent.matrixWorld );\n\t\t\t\t_vector$2.setFromMatrixPosition( _boneMatrix );\n\t\t\t\tposition.setXYZ( j + 1, _vector$2.x, _vector$2.y, _vector$2.z );\n\n\t\t\t\tj += 2;\n\n\t\t\t}\n\n\t\t}\n\n\t\tgeometry.getAttribute( 'position' ).needsUpdate = true;\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t}\n\n\t/**\n\t * Defines the colors of the helper.\n\t *\n\t * @param {Color} color1 - The first line color for each bone.\n\t * @param {Color} color2 - The second line color for each bone.\n\t * @return {SkeletonHelper} A reference to this helper.\n\t */\n\tsetColors( color1, color2 ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst colorAttribute = geometry.getAttribute( 'color' );\n\n\t\tfor ( let i = 0; i < colorAttribute.count; i += 2 ) {\n\n\t\t\tcolorAttribute.setXYZ( i, color1.r, color1.g, color1.b );\n\t\t\tcolorAttribute.setXYZ( i + 1, color2.r, color2.g, color2.b );\n\n\t\t}\n\n\t\tcolorAttribute.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n\nfunction getBoneList( object ) {\n\n\tconst boneList = [];\n\n\tif ( object.isBone === true ) {\n\n\t\tboneList.push( object );\n\n\t}\n\n\tfor ( let i = 0; i < object.children.length; i ++ ) {\n\n\t\tboneList.push( ...getBoneList( object.children[ i ] ) );\n\n\t}\n\n\treturn boneList;\n\n}\n\n/**\n * This displays a helper object consisting of a spherical mesh for\n * visualizing an instance of {@link PointLight}.\n *\n * ```js\n * const pointLight = new THREE.PointLight( 0xff0000, 1, 100 );\n * pointLight.position.set( 10, 10, 10 );\n * scene.add( pointLight );\n *\n * const sphereSize = 1;\n * const pointLightHelper = new THREE.PointLightHelper( pointLight, sphereSize );\n * scene.add( pointLightHelper );\n * ```\n *\n * @augments Mesh\n */\nclass PointLightHelper extends Mesh {\n\n\t/**\n\t * Constructs a new point light helper.\n\t *\n\t * @param {PointLight} light - The light to be visualized.\n\t * @param {number} [sphereSize=1] - The size of the sphere helper.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, sphereSize, color ) {\n\n\t\tconst geometry = new SphereGeometry( sphereSize, 4, 2 );\n\t\tconst material = new MeshBasicMaterial( { wireframe: true, fog: false, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {HemisphereLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'PointLightHelper';\n\n\t\tthis.matrix = this.light.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\tthis.update();\n\n\n\t\t/*\n\t// TODO: delete this comment?\n\tconst distanceGeometry = new THREE.IcosahedronGeometry( 1, 2 );\n\tconst distanceMaterial = new THREE.MeshBasicMaterial( { color: hexColor, fog: false, wireframe: true, opacity: 0.1, transparent: true } );\n\n\tthis.lightSphere = new THREE.Mesh( bulbGeometry, bulbMaterial );\n\tthis.lightDistance = new THREE.Mesh( distanceGeometry, distanceMaterial );\n\n\tconst d = light.distance;\n\n\tif ( d === 0.0 ) {\n\n\t\tthis.lightDistance.visible = false;\n\n\t} else {\n\n\t\tthis.lightDistance.scale.set( d, d, d );\n\n\t}\n\n\tthis.add( this.lightDistance );\n\t*/\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tthis.material.color.copy( this.light.color );\n\n\t\t}\n\n\t\t/*\n\t\tconst d = this.light.distance;\n\n\t\tif ( d === 0.0 ) {\n\n\t\t\tthis.lightDistance.visible = false;\n\n\t\t} else {\n\n\t\t\tthis.lightDistance.visible = true;\n\t\t\tthis.lightDistance.scale.set( d, d, d );\n\n\t\t}\n\t\t*/\n\n\t}\n\n}\n\nconst _vector$1 = /*@__PURE__*/ new Vector3();\nconst _color1 = /*@__PURE__*/ new Color();\nconst _color2 = /*@__PURE__*/ new Color();\n\n/**\n * Creates a visual aid consisting of a spherical mesh for a\n * given {@link HemisphereLight}.\n *\n * ```js\n * const light = new THREE.HemisphereLight( 0xffffbb, 0x080820, 1 );\n * const helper = new THREE.HemisphereLightHelper( light, 5 );\n * scene.add( helper );\n * ```\n *\n * @augments Object3D\n */\nclass HemisphereLightHelper extends Object3D {\n\n\t/**\n\t * Constructs a new hemisphere light helper.\n\t *\n\t * @param {HemisphereLight} light - The light to be visualized.\n\t * @param {number} [size=1] - The size of the mesh used to visualize the light.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, size, color ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {HemisphereLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\tthis.matrix = light.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'HemisphereLightHelper';\n\n\t\tconst geometry = new OctahedronGeometry( size );\n\t\tgeometry.rotateY( Math.PI * 0.5 );\n\n\t\tthis.material = new MeshBasicMaterial( { wireframe: true, fog: false, toneMapped: false } );\n\t\tif ( this.color === undefined ) this.material.vertexColors = true;\n\n\t\tconst position = geometry.getAttribute( 'position' );\n\t\tconst colors = new Float32Array( position.count * 3 );\n\n\t\tgeometry.setAttribute( 'color', new BufferAttribute( colors, 3 ) );\n\n\t\tthis.add( new Mesh( geometry, this.material ) );\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.children[ 0 ].geometry.dispose();\n\t\tthis.children[ 0 ].material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tconst mesh = this.children[ 0 ];\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tconst colors = mesh.geometry.getAttribute( 'color' );\n\n\t\t\t_color1.copy( this.light.color );\n\t\t\t_color2.copy( this.light.groundColor );\n\n\t\t\tfor ( let i = 0, l = colors.count; i < l; i ++ ) {\n\n\t\t\t\tconst color = ( i < ( l / 2 ) ) ? _color1 : _color2;\n\n\t\t\t\tcolors.setXYZ( i, color.r, color.g, color.b );\n\n\t\t\t}\n\n\t\t\tcolors.needsUpdate = true;\n\n\t\t}\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\n\t\tmesh.lookAt( _vector$1.setFromMatrixPosition( this.light.matrixWorld ).negate() );\n\n\t}\n\n}\n\n/**\n * The helper is an object to define grids. Grids are two-dimensional\n * arrays of lines.\n *\n * ```js\n * const size = 10;\n * const divisions = 10;\n *\n * const gridHelper = new THREE.GridHelper( size, divisions );\n * scene.add( gridHelper );\n * ```\n *\n * @augments LineSegments\n */\nclass GridHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new grid helper.\n\t *\n\t * @param {number} [size=10] - The size of the grid.\n\t * @param {number} [divisions=10] - The number of divisions across the grid.\n\t * @param {number|Color|string} [color1=0x444444] - The color of the center line.\n\t * @param {number|Color|string} [color2=0x888888] - The color of the lines of the grid.\n\t */\n\tconstructor( size = 10, divisions = 10, color1 = 0x444444, color2 = 0x888888 ) {\n\n\t\tcolor1 = new Color( color1 );\n\t\tcolor2 = new Color( color2 );\n\n\t\tconst center = divisions / 2;\n\t\tconst step = size / divisions;\n\t\tconst halfSize = size / 2;\n\n\t\tconst vertices = [], colors = [];\n\n\t\tfor ( let i = 0, j = 0, k = - halfSize; i <= divisions; i ++, k += step ) {\n\n\t\t\tvertices.push( - halfSize, 0, k, halfSize, 0, k );\n\t\t\tvertices.push( k, 0, - halfSize, k, 0, halfSize );\n\n\t\t\tconst color = i === center ? color1 : color2;\n\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\n\t\t}\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'GridHelper';\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * This helper is an object to define polar grids. Grids are\n * two-dimensional arrays of lines.\n *\n * ```js\n * const radius = 10;\n * const sectors = 16;\n * const rings = 8;\n * const divisions = 64;\n *\n * const helper = new THREE.PolarGridHelper( radius, sectors, rings, divisions );\n * scene.add( helper );\n * ```\n *\n * @augments LineSegments\n */\nclass PolarGridHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new polar grid helper.\n\t *\n\t * @param {number} [radius=10] - The radius of the polar grid. This can be any positive number.\n\t * @param {number} [sectors=16] - The number of sectors the grid will be divided into. This can be any positive integer.\n\t * @param {number} [rings=16] - The number of rings. This can be any positive integer.\n\t * @param {number} [divisions=64] - The number of line segments used for each circle. This can be any positive integer.\n\t * @param {number|Color|string} [color1=0x444444] - The first color used for grid elements.\n\t * @param {number|Color|string} [color2=0x888888] - The second color used for grid elements.\n\t */\n\tconstructor( radius = 10, sectors = 16, rings = 8, divisions = 64, color1 = 0x444444, color2 = 0x888888 ) {\n\n\t\tcolor1 = new Color( color1 );\n\t\tcolor2 = new Color( color2 );\n\n\t\tconst vertices = [];\n\t\tconst colors = [];\n\n\t\t// create the sectors\n\n\t\tif ( sectors > 1 ) {\n\n\t\t\tfor ( let i = 0; i < sectors; i ++ ) {\n\n\t\t\t\tconst v = ( i / sectors ) * ( Math.PI * 2 );\n\n\t\t\t\tconst x = Math.sin( v ) * radius;\n\t\t\t\tconst z = Math.cos( v ) * radius;\n\n\t\t\t\tvertices.push( 0, 0, 0 );\n\t\t\t\tvertices.push( x, 0, z );\n\n\t\t\t\tconst color = ( i & 1 ) ? color1 : color2;\n\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// create the rings\n\n\t\tfor ( let i = 0; i < rings; i ++ ) {\n\n\t\t\tconst color = ( i & 1 ) ? color1 : color2;\n\n\t\t\tconst r = radius - ( radius / rings * i );\n\n\t\t\tfor ( let j = 0; j < divisions; j ++ ) {\n\n\t\t\t\t// first vertex\n\n\t\t\t\tlet v = ( j / divisions ) * ( Math.PI * 2 );\n\n\t\t\t\tlet x = Math.sin( v ) * r;\n\t\t\t\tlet z = Math.cos( v ) * r;\n\n\t\t\t\tvertices.push( x, 0, z );\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\n\t\t\t\t// second vertex\n\n\t\t\t\tv = ( ( j + 1 ) / divisions ) * ( Math.PI * 2 );\n\n\t\t\t\tx = Math.sin( v ) * r;\n\t\t\t\tz = Math.cos( v ) * r;\n\n\t\t\t\tvertices.push( x, 0, z );\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'PolarGridHelper';\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\nconst _v1 = /*@__PURE__*/ new Vector3();\nconst _v2 = /*@__PURE__*/ new Vector3();\nconst _v3 = /*@__PURE__*/ new Vector3();\n\n/**\n * Helper object to assist with visualizing a {@link DirectionalLight}'s\n * effect on the scene. This consists of plane and a line representing the\n * light's position and direction.\n *\n * ```js\n * const light = new THREE.DirectionalLight( 0xFFFFFF );\n * scene.add( light );\n *\n * const helper = new THREE.DirectionalLightHelper( light, 5 );\n * scene.add( helper );\n * ```\n *\n * @augments Object3D\n */\nclass DirectionalLightHelper extends Object3D {\n\n\t/**\n\t * Constructs a new directional light helper.\n\t *\n\t * @param {DirectionalLight} light - The light to be visualized.\n\t * @param {number} [size=1] - The dimensions of the plane.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, size, color ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {DirectionalLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\tthis.matrix = light.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'DirectionalLightHelper';\n\n\t\tif ( size === undefined ) size = 1;\n\n\t\tlet geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( [\n\t\t\t- size, size, 0,\n\t\t\tsize, size, 0,\n\t\t\tsize, - size, 0,\n\t\t\t- size, - size, 0,\n\t\t\t- size, size, 0\n\t\t], 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { fog: false, toneMapped: false } );\n\n\t\t/**\n\t\t * Contains the line showing the location of the directional light.\n\t\t *\n\t\t * @type {Line}\n\t\t */\n\t\tthis.lightPlane = new Line( geometry, material );\n\t\tthis.add( this.lightPlane );\n\n\t\tgeometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( [ 0, 0, 0, 0, 0, 1 ], 3 ) );\n\n\t\t/**\n\t\t * Represents the target line of the directional light.\n\t\t *\n\t\t * @type {Line}\n\t\t */\n\t\tthis.targetLine = new Line( geometry, material );\n\t\tthis.add( this.targetLine );\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.lightPlane.geometry.dispose();\n\t\tthis.lightPlane.material.dispose();\n\t\tthis.targetLine.geometry.dispose();\n\t\tthis.targetLine.material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\t\tthis.light.target.updateWorldMatrix( true, false );\n\n\t\t_v1.setFromMatrixPosition( this.light.matrixWorld );\n\t\t_v2.setFromMatrixPosition( this.light.target.matrixWorld );\n\t\t_v3.subVectors( _v2, _v1 );\n\n\t\tthis.lightPlane.lookAt( _v2 );\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.lightPlane.material.color.set( this.color );\n\t\t\tthis.targetLine.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tthis.lightPlane.material.color.copy( this.light.color );\n\t\t\tthis.targetLine.material.color.copy( this.light.color );\n\n\t\t}\n\n\t\tthis.targetLine.lookAt( _v2 );\n\t\tthis.targetLine.scale.z = _v3.length();\n\n\t}\n\n}\n\nconst _vector = /*@__PURE__*/ new Vector3();\nconst _camera = /*@__PURE__*/ new Camera();\n\n/**\n * This helps with visualizing what a camera contains in its frustum. It\n * visualizes the frustum of a camera using a line segments.\n *\n * Based on frustum visualization in [lightgl.js shadowmap example]{@link https://github.com/evanw/lightgl.js/blob/master/tests/shadowmap.html}.\n *\n * `CameraHelper` must be a child of the scene.\n *\n * ```js\n * const camera = new THREE.PerspectiveCamera( 75, window.innerWidth / window.innerHeight, 0.1, 1000 );\n * const helper = new THREE.CameraHelper( camera );\n * scene.add( helper );\n * ```\n *\n * @augments LineSegments\n */\nclass CameraHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new arrow helper.\n\t *\n\t * @param {Camera} camera - The camera to visualize.\n\t */\n\tconstructor( camera ) {\n\n\t\tconst geometry = new BufferGeometry();\n\t\tconst material = new LineBasicMaterial( { color: 0xffffff, vertexColors: true, toneMapped: false } );\n\n\t\tconst vertices = [];\n\t\tconst colors = [];\n\n\t\tconst pointMap = {};\n\n\t\t// near\n\n\t\taddLine( 'n1', 'n2' );\n\t\taddLine( 'n2', 'n4' );\n\t\taddLine( 'n4', 'n3' );\n\t\taddLine( 'n3', 'n1' );\n\n\t\t// far\n\n\t\taddLine( 'f1', 'f2' );\n\t\taddLine( 'f2', 'f4' );\n\t\taddLine( 'f4', 'f3' );\n\t\taddLine( 'f3', 'f1' );\n\n\t\t// sides\n\n\t\taddLine( 'n1', 'f1' );\n\t\taddLine( 'n2', 'f2' );\n\t\taddLine( 'n3', 'f3' );\n\t\taddLine( 'n4', 'f4' );\n\n\t\t// cone\n\n\t\taddLine( 'p', 'n1' );\n\t\taddLine( 'p', 'n2' );\n\t\taddLine( 'p', 'n3' );\n\t\taddLine( 'p', 'n4' );\n\n\t\t// up\n\n\t\taddLine( 'u1', 'u2' );\n\t\taddLine( 'u2', 'u3' );\n\t\taddLine( 'u3', 'u1' );\n\n\t\t// target\n\n\t\taddLine( 'c', 't' );\n\t\taddLine( 'p', 'c' );\n\n\t\t// cross\n\n\t\taddLine( 'cn1', 'cn2' );\n\t\taddLine( 'cn3', 'cn4' );\n\n\t\taddLine( 'cf1', 'cf2' );\n\t\taddLine( 'cf3', 'cf4' );\n\n\t\tfunction addLine( a, b ) {\n\n\t\t\taddPoint( a );\n\t\t\taddPoint( b );\n\n\t\t}\n\n\t\tfunction addPoint( id ) {\n\n\t\t\tvertices.push( 0, 0, 0 );\n\t\t\tcolors.push( 0, 0, 0 );\n\n\t\t\tif ( pointMap[ id ] === undefined ) {\n\n\t\t\t\tpointMap[ id ] = [];\n\n\t\t\t}\n\n\t\t\tpointMap[ id ].push( ( vertices.length / 3 ) - 1 );\n\n\t\t}\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'CameraHelper';\n\n\t\t/**\n\t\t * The camera being visualized.\n\t\t *\n\t\t * @type {Camera}\n\t\t */\n\t\tthis.camera = camera;\n\t\tif ( this.camera.updateProjectionMatrix ) this.camera.updateProjectionMatrix();\n\n\t\tthis.matrix = camera.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * This contains the points used to visualize the camera.\n\t\t *\n\t\t * @type {Object>}\n\t\t */\n\t\tthis.pointMap = pointMap;\n\n\t\tthis.update();\n\n\t\t// colors\n\n\t\tconst colorFrustum = new Color( 0xffaa00 );\n\t\tconst colorCone = new Color( 0xff0000 );\n\t\tconst colorUp = new Color( 0x00aaff );\n\t\tconst colorTarget = new Color( 0xffffff );\n\t\tconst colorCross = new Color( 0x333333 );\n\n\t\tthis.setColors( colorFrustum, colorCone, colorUp, colorTarget, colorCross );\n\n\t}\n\n\t/**\n\t * Defines the colors of the helper.\n\t *\n\t * @param {Color} frustum - The frustum line color.\n\t * @param {Color} cone - The cone line color.\n\t * @param {Color} up - The up line color.\n\t * @param {Color} target - The target line color.\n\t * @param {Color} cross - The cross line color.\n\t * @return {CameraHelper} A reference to this helper.\n\t */\n\tsetColors( frustum, cone, up, target, cross ) {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst colorAttribute = geometry.getAttribute( 'color' );\n\n\t\t// near\n\n\t\tcolorAttribute.setXYZ( 0, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 1, frustum.r, frustum.g, frustum.b ); // n1, n2\n\t\tcolorAttribute.setXYZ( 2, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 3, frustum.r, frustum.g, frustum.b ); // n2, n4\n\t\tcolorAttribute.setXYZ( 4, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 5, frustum.r, frustum.g, frustum.b ); // n4, n3\n\t\tcolorAttribute.setXYZ( 6, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 7, frustum.r, frustum.g, frustum.b ); // n3, n1\n\n\t\t// far\n\n\t\tcolorAttribute.setXYZ( 8, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 9, frustum.r, frustum.g, frustum.b ); // f1, f2\n\t\tcolorAttribute.setXYZ( 10, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 11, frustum.r, frustum.g, frustum.b ); // f2, f4\n\t\tcolorAttribute.setXYZ( 12, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 13, frustum.r, frustum.g, frustum.b ); // f4, f3\n\t\tcolorAttribute.setXYZ( 14, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 15, frustum.r, frustum.g, frustum.b ); // f3, f1\n\n\t\t// sides\n\n\t\tcolorAttribute.setXYZ( 16, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 17, frustum.r, frustum.g, frustum.b ); // n1, f1\n\t\tcolorAttribute.setXYZ( 18, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 19, frustum.r, frustum.g, frustum.b ); // n2, f2\n\t\tcolorAttribute.setXYZ( 20, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 21, frustum.r, frustum.g, frustum.b ); // n3, f3\n\t\tcolorAttribute.setXYZ( 22, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 23, frustum.r, frustum.g, frustum.b ); // n4, f4\n\n\t\t// cone\n\n\t\tcolorAttribute.setXYZ( 24, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 25, cone.r, cone.g, cone.b ); // p, n1\n\t\tcolorAttribute.setXYZ( 26, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 27, cone.r, cone.g, cone.b ); // p, n2\n\t\tcolorAttribute.setXYZ( 28, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 29, cone.r, cone.g, cone.b ); // p, n3\n\t\tcolorAttribute.setXYZ( 30, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 31, cone.r, cone.g, cone.b ); // p, n4\n\n\t\t// up\n\n\t\tcolorAttribute.setXYZ( 32, up.r, up.g, up.b ); colorAttribute.setXYZ( 33, up.r, up.g, up.b ); // u1, u2\n\t\tcolorAttribute.setXYZ( 34, up.r, up.g, up.b ); colorAttribute.setXYZ( 35, up.r, up.g, up.b ); // u2, u3\n\t\tcolorAttribute.setXYZ( 36, up.r, up.g, up.b ); colorAttribute.setXYZ( 37, up.r, up.g, up.b ); // u3, u1\n\n\t\t// target\n\n\t\tcolorAttribute.setXYZ( 38, target.r, target.g, target.b ); colorAttribute.setXYZ( 39, target.r, target.g, target.b ); // c, t\n\t\tcolorAttribute.setXYZ( 40, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 41, cross.r, cross.g, cross.b ); // p, c\n\n\t\t// cross\n\n\t\tcolorAttribute.setXYZ( 42, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 43, cross.r, cross.g, cross.b ); // cn1, cn2\n\t\tcolorAttribute.setXYZ( 44, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 45, cross.r, cross.g, cross.b ); // cn3, cn4\n\n\t\tcolorAttribute.setXYZ( 46, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 47, cross.r, cross.g, cross.b ); // cf1, cf2\n\t\tcolorAttribute.setXYZ( 48, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 49, cross.r, cross.g, cross.b ); // cf3, cf4\n\n\t\tcolorAttribute.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Updates the helper based on the projection matrix of the camera.\n\t */\n\tupdate() {\n\n\t\tconst geometry = this.geometry;\n\t\tconst pointMap = this.pointMap;\n\n\t\tconst w = 1, h = 1;\n\n\t\tlet nearZ, farZ;\n\n\t\t// we need just camera projection matrix inverse\n\t\t// world matrix must be identity\n\n\t\t_camera.projectionMatrixInverse.copy( this.camera.projectionMatrixInverse );\n\n\t\t// Adjust z values based on coordinate system\n\n\t\tif ( this.camera.reversedDepth === true ) {\n\n\t\t\tnearZ = 1;\n\t\t\tfarZ = 0;\n\n\t\t} else {\n\n\t\t\tif ( this.camera.coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tnearZ = -1;\n\t\t\t\tfarZ = 1;\n\n\t\t\t} else if ( this.camera.coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tnearZ = 0;\n\t\t\t\tfarZ = 1;\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.CameraHelper.update(): Invalid coordinate system: ' + this.camera.coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\n\t\t// center / target\n\t\tsetPoint( 'c', pointMap, geometry, _camera, 0, 0, nearZ );\n\t\tsetPoint( 't', pointMap, geometry, _camera, 0, 0, farZ );\n\n\t\t// near\n\n\t\tsetPoint( 'n1', pointMap, geometry, _camera, - w, - h, nearZ );\n\t\tsetPoint( 'n2', pointMap, geometry, _camera, w, - h, nearZ );\n\t\tsetPoint( 'n3', pointMap, geometry, _camera, - w, h, nearZ );\n\t\tsetPoint( 'n4', pointMap, geometry, _camera, w, h, nearZ );\n\n\t\t// far\n\n\t\tsetPoint( 'f1', pointMap, geometry, _camera, - w, - h, farZ );\n\t\tsetPoint( 'f2', pointMap, geometry, _camera, w, - h, farZ );\n\t\tsetPoint( 'f3', pointMap, geometry, _camera, - w, h, farZ );\n\t\tsetPoint( 'f4', pointMap, geometry, _camera, w, h, farZ );\n\n\t\t// up\n\n\t\tsetPoint( 'u1', pointMap, geometry, _camera, w * 0.7, h * 1.1, nearZ );\n\t\tsetPoint( 'u2', pointMap, geometry, _camera, - w * 0.7, h * 1.1, nearZ );\n\t\tsetPoint( 'u3', pointMap, geometry, _camera, 0, h * 2, nearZ );\n\n\t\t// cross\n\n\t\tsetPoint( 'cf1', pointMap, geometry, _camera, - w, 0, farZ );\n\t\tsetPoint( 'cf2', pointMap, geometry, _camera, w, 0, farZ );\n\t\tsetPoint( 'cf3', pointMap, geometry, _camera, 0, - h, farZ );\n\t\tsetPoint( 'cf4', pointMap, geometry, _camera, 0, h, farZ );\n\n\t\tsetPoint( 'cn1', pointMap, geometry, _camera, - w, 0, nearZ );\n\t\tsetPoint( 'cn2', pointMap, geometry, _camera, w, 0, nearZ );\n\t\tsetPoint( 'cn3', pointMap, geometry, _camera, 0, - h, nearZ );\n\t\tsetPoint( 'cn4', pointMap, geometry, _camera, 0, h, nearZ );\n\n\t\tgeometry.getAttribute( 'position' ).needsUpdate = true;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n\nfunction setPoint( point, pointMap, geometry, camera, x, y, z ) {\n\n\t_vector.set( x, y, z ).unproject( camera );\n\n\tconst points = pointMap[ point ];\n\n\tif ( points !== undefined ) {\n\n\t\tconst position = geometry.getAttribute( 'position' );\n\n\t\tfor ( let i = 0, l = points.length; i < l; i ++ ) {\n\n\t\t\tposition.setXYZ( points[ i ], _vector.x, _vector.y, _vector.z );\n\n\t\t}\n\n\t}\n\n}\n\nconst _box = /*@__PURE__*/ new Box3();\n\n/**\n * Helper object to graphically show the world-axis-aligned bounding box\n * around an object. The actual bounding box is handled with {@link Box3},\n * this is just a visual helper for debugging. It can be automatically\n * resized with {@link BoxHelper#update} when the object it's created from\n * is transformed. Note that the object must have a geometry for this to work,\n * so it won't work with sprites.\n *\n * ```js\n * const sphere = new THREE.SphereGeometry();\n * const object = new THREE.Mesh( sphere, new THREE.MeshBasicMaterial( 0xff0000 ) );\n * const box = new THREE.BoxHelper( object, 0xffff00 );\n * scene.add( box );\n * ```\n *\n * @augments LineSegments\n */\nclass BoxHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new box helper.\n\t *\n\t * @param {Object3D} [object] - The 3D object to show the world-axis-aligned bounding box.\n\t * @param {number|Color|string} [color=0xffff00] - The box's color.\n\t */\n\tconstructor( object, color = 0xffff00 ) {\n\n\t\tconst indices = new Uint16Array( [ 0, 1, 1, 2, 2, 3, 3, 0, 4, 5, 5, 6, 6, 7, 7, 4, 0, 4, 1, 5, 2, 6, 3, 7 ] );\n\t\tconst positions = new Float32Array( 8 * 3 );\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setIndex( new BufferAttribute( indices, 1 ) );\n\t\tgeometry.setAttribute( 'position', new BufferAttribute( positions, 3 ) );\n\n\t\tsuper( geometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\n\t\t/**\n\t\t * The 3D object being visualized.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.object = object;\n\t\tthis.type = 'BoxHelper';\n\n\t\tthis.matrixAutoUpdate = false;\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Updates the helper's geometry to match the dimensions of the object,\n\t * including any children.\n\t */\n\tupdate() {\n\n\t\tif ( this.object !== undefined ) {\n\n\t\t\t_box.setFromObject( this.object );\n\n\t\t}\n\n\t\tif ( _box.isEmpty() ) return;\n\n\t\tconst min = _box.min;\n\t\tconst max = _box.max;\n\n\t\t/*\n\t\t\t5____4\n\t\t1/___0/|\n\t\t| 6__|_7\n\t\t2/___3/\n\n\t\t0: max.x, max.y, max.z\n\t\t1: min.x, max.y, max.z\n\t\t2: min.x, min.y, max.z\n\t\t3: max.x, min.y, max.z\n\t\t4: max.x, max.y, min.z\n\t\t5: min.x, max.y, min.z\n\t\t6: min.x, min.y, min.z\n\t\t7: max.x, min.y, min.z\n\t\t*/\n\n\t\tconst position = this.geometry.attributes.position;\n\t\tconst array = position.array;\n\n\t\tarray[ 0 ] = max.x; array[ 1 ] = max.y; array[ 2 ] = max.z;\n\t\tarray[ 3 ] = min.x; array[ 4 ] = max.y; array[ 5 ] = max.z;\n\t\tarray[ 6 ] = min.x; array[ 7 ] = min.y; array[ 8 ] = max.z;\n\t\tarray[ 9 ] = max.x; array[ 10 ] = min.y; array[ 11 ] = max.z;\n\t\tarray[ 12 ] = max.x; array[ 13 ] = max.y; array[ 14 ] = min.z;\n\t\tarray[ 15 ] = min.x; array[ 16 ] = max.y; array[ 17 ] = min.z;\n\t\tarray[ 18 ] = min.x; array[ 19 ] = min.y; array[ 20 ] = min.z;\n\t\tarray[ 21 ] = max.x; array[ 22 ] = min.y; array[ 23 ] = min.z;\n\n\t\tposition.needsUpdate = true;\n\n\t\tthis.geometry.computeBoundingSphere();\n\n\t}\n\n\t/**\n\t * Updates the wireframe box for the passed object.\n\t *\n\t * @param {Object3D} object - The 3D object to create the helper for.\n\t * @return {BoxHelper} A reference to this instance.\n\t */\n\tsetFromObject( object ) {\n\n\t\tthis.object = object;\n\t\tthis.update();\n\n\t\treturn this;\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.object = source.object;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * A helper object to visualize an instance of {@link Box3}.\n *\n * ```js\n * const box = new THREE.Box3();\n * box.setFromCenterAndSize( new THREE.Vector3( 1, 1, 1 ), new THREE.Vector3( 2, 1, 3 ) );\n *\n * const helper = new THREE.Box3Helper( box, 0xffff00 );\n * scene.add( helper )\n * ```\n *\n * @augments LineSegments\n */\nclass Box3Helper extends LineSegments {\n\n\t/**\n\t * Constructs a new box3 helper.\n\t *\n\t * @param {Box3} box - The box to visualize.\n\t * @param {number|Color|string} [color=0xffff00] - The box's color.\n\t */\n\tconstructor( box, color = 0xffff00 ) {\n\n\t\tconst indices = new Uint16Array( [ 0, 1, 1, 2, 2, 3, 3, 0, 4, 5, 5, 6, 6, 7, 7, 4, 0, 4, 1, 5, 2, 6, 3, 7 ] );\n\n\t\tconst positions = [ 1, 1, 1, -1, 1, 1, -1, -1, 1, 1, -1, 1, 1, 1, -1, -1, 1, -1, -1, -1, -1, 1, -1, -1 ];\n\n\t\tconst geometry = new BufferGeometry();\n\n\t\tgeometry.setIndex( new BufferAttribute( indices, 1 ) );\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( positions, 3 ) );\n\n\t\tsuper( geometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\n\t\t/**\n\t\t * The box being visualized.\n\t\t *\n\t\t * @type {Box3}\n\t\t */\n\t\tthis.box = box;\n\n\t\tthis.type = 'Box3Helper';\n\n\t\tthis.geometry.computeBoundingSphere();\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tconst box = this.box;\n\n\t\tif ( box.isEmpty() ) return;\n\n\t\tbox.getCenter( this.position );\n\n\t\tbox.getSize( this.scale );\n\n\t\tthis.scale.multiplyScalar( 0.5 );\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * A helper object to visualize an instance of {@link Plane}.\n *\n * ```js\n * const plane = new THREE.Plane( new THREE.Vector3( 1, 1, 0.2 ), 3 );\n * const helper = new THREE.PlaneHelper( plane, 1, 0xffff00 );\n * scene.add( helper );\n * ```\n *\n * @augments Line\n */\nclass PlaneHelper extends Line {\n\n\t/**\n\t * Constructs a new plane helper.\n\t *\n\t * @param {Plane} plane - The plane to be visualized.\n\t * @param {number} [size=1] - The side length of plane helper.\n\t * @param {number|Color|string} [hex=0xffff00] - The helper's color.\n\t */\n\tconstructor( plane, size = 1, hex = 0xffff00 ) {\n\n\t\tconst color = hex;\n\n\t\tconst positions = [ 1, -1, 0, -1, 1, 0, -1, -1, 0, 1, 1, 0, -1, 1, 0, -1, -1, 0, 1, -1, 0, 1, 1, 0 ];\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( positions, 3 ) );\n\t\tgeometry.computeBoundingSphere();\n\n\t\tsuper( geometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\n\t\tthis.type = 'PlaneHelper';\n\n\t\t/**\n\t\t * The plane being visualized.\n\t\t *\n\t\t * @type {Plane}\n\t\t */\n\t\tthis.plane = plane;\n\n\t\t/**\n\t\t * The side length of plane helper.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.size = size;\n\n\t\tconst positions2 = [ 1, 1, 0, -1, 1, 0, -1, -1, 0, 1, 1, 0, -1, -1, 0, 1, -1, 0 ];\n\n\t\tconst geometry2 = new BufferGeometry();\n\t\tgeometry2.setAttribute( 'position', new Float32BufferAttribute( positions2, 3 ) );\n\t\tgeometry2.computeBoundingSphere();\n\n\t\tthis.add( new Mesh( geometry2, new MeshBasicMaterial( { color: color, opacity: 0.2, transparent: true, depthWrite: false, toneMapped: false } ) ) );\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tthis.position.set( 0, 0, 0 );\n\n\t\tthis.scale.set( 0.5 * this.size, 0.5 * this.size, 1 );\n\n\t\tthis.lookAt( this.plane.normal );\n\n\t\tthis.translateZ( - this.plane.constant );\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\t\tthis.children[ 0 ].geometry.dispose();\n\t\tthis.children[ 0 ].material.dispose();\n\n\t}\n\n}\n\nconst _axis = /*@__PURE__*/ new Vector3();\nlet _lineGeometry, _coneGeometry;\n\n/**\n * An 3D arrow object for visualizing directions.\n *\n * ```js\n * const dir = new THREE.Vector3( 1, 2, 0 );\n *\n * //normalize the direction vector (convert to vector of length 1)\n * dir.normalize();\n *\n * const origin = new THREE.Vector3( 0, 0, 0 );\n * const length = 1;\n * const hex = 0xffff00;\n *\n * const arrowHelper = new THREE.ArrowHelper( dir, origin, length, hex );\n * scene.add( arrowHelper );\n * ```\n *\n * @augments Object3D\n */\nclass ArrowHelper extends Object3D {\n\n\t/**\n\t * Constructs a new arrow helper.\n\t *\n\t * @param {Vector3} [dir=(0, 0, 1)] - The (normalized) direction vector.\n\t * @param {Vector3} [origin=(0, 0, 0)] - Point at which the arrow starts.\n\t * @param {number} [length=1] - Length of the arrow in world units.\n\t * @param {(number|Color|string)} [color=0xffff00] - Color of the arrow.\n\t * @param {number} [headLength=length*0.2] - The length of the head of the arrow.\n\t * @param {number} [headWidth=headLength*0.2] - The width of the head of the arrow.\n\t */\n\tconstructor( dir = new Vector3( 0, 0, 1 ), origin = new Vector3( 0, 0, 0 ), length = 1, color = 0xffff00, headLength = length * 0.2, headWidth = headLength * 0.2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'ArrowHelper';\n\n\t\tif ( _lineGeometry === undefined ) {\n\n\t\t\t_lineGeometry = new BufferGeometry();\n\t\t\t_lineGeometry.setAttribute( 'position', new Float32BufferAttribute( [ 0, 0, 0, 0, 1, 0 ], 3 ) );\n\n\t\t\t_coneGeometry = new ConeGeometry( 0.5, 1, 5, 1 );\n\t\t\t_coneGeometry.translate( 0, -0.5, 0 );\n\n\t\t}\n\n\t\tthis.position.copy( origin );\n\n\t\t/**\n\t\t * The line part of the arrow helper.\n\t\t *\n\t\t * @type {Line}\n\t\t */\n\t\tthis.line = new Line( _lineGeometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\t\tthis.line.matrixAutoUpdate = false;\n\t\tthis.add( this.line );\n\n\t\t/**\n\t\t * The cone part of the arrow helper.\n\t\t *\n\t\t * @type {Mesh}\n\t\t */\n\t\tthis.cone = new Mesh( _coneGeometry, new MeshBasicMaterial( { color: color, toneMapped: false } ) );\n\t\tthis.cone.matrixAutoUpdate = false;\n\t\tthis.add( this.cone );\n\n\t\tthis.setDirection( dir );\n\t\tthis.setLength( length, headLength, headWidth );\n\n\t}\n\n\t/**\n\t * Sets the direction of the helper.\n\t *\n\t * @param {Vector3} dir - The normalized direction vector.\n\t */\n\tsetDirection( dir ) {\n\n\t\t// dir is assumed to be normalized\n\n\t\tif ( dir.y > 0.99999 ) {\n\n\t\t\tthis.quaternion.set( 0, 0, 0, 1 );\n\n\t\t} else if ( dir.y < -0.99999 ) {\n\n\t\t\tthis.quaternion.set( 1, 0, 0, 0 );\n\n\t\t} else {\n\n\t\t\t_axis.set( dir.z, 0, - dir.x ).normalize();\n\n\t\t\tconst radians = Math.acos( dir.y );\n\n\t\t\tthis.quaternion.setFromAxisAngle( _axis, radians );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the length of the helper.\n\t *\n\t * @param {number} length - Length of the arrow in world units.\n\t * @param {number} [headLength=length*0.2] - The length of the head of the arrow.\n\t * @param {number} [headWidth=headLength*0.2] - The width of the head of the arrow.\n\t */\n\tsetLength( length, headLength = length * 0.2, headWidth = headLength * 0.2 ) {\n\n\t\tthis.line.scale.set( 1, Math.max( 0.0001, length - headLength ), 1 ); // see #17458\n\t\tthis.line.updateMatrix();\n\n\t\tthis.cone.scale.set( headWidth, headLength, headWidth );\n\t\tthis.cone.position.y = length;\n\t\tthis.cone.updateMatrix();\n\n\t}\n\n\t/**\n\t * Sets the color of the helper.\n\t *\n\t * @param {number|Color|string} color - The color to set.\n\t */\n\tsetColor( color ) {\n\n\t\tthis.line.material.color.set( color );\n\t\tthis.cone.material.color.set( color );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source, false );\n\n\t\tthis.line.copy( source.line );\n\t\tthis.cone.copy( source.cone );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.line.geometry.dispose();\n\t\tthis.line.material.dispose();\n\t\tthis.cone.geometry.dispose();\n\t\tthis.cone.material.dispose();\n\n\t}\n\n}\n\n/**\n * An axis object to visualize the 3 axes in a simple way.\n * The X axis is red. The Y axis is green. The Z axis is blue.\n *\n * ```js\n * const axesHelper = new THREE.AxesHelper( 5 );\n * scene.add( axesHelper );\n * ```\n *\n * @augments LineSegments\n */\nclass AxesHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new axes helper.\n\t *\n\t * @param {number} [size=1] - Size of the lines representing the axes.\n\t */\n\tconstructor( size = 1 ) {\n\n\t\tconst vertices = [\n\t\t\t0, 0, 0,\tsize, 0, 0,\n\t\t\t0, 0, 0,\t0, size, 0,\n\t\t\t0, 0, 0,\t0, 0, size\n\t\t];\n\n\t\tconst colors = [\n\t\t\t1, 0, 0,\t1, 0.6, 0,\n\t\t\t0, 1, 0,\t0.6, 1, 0,\n\t\t\t0, 0, 1,\t0, 0.6, 1\n\t\t];\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'AxesHelper';\n\n\t}\n\n\t/**\n\t * Defines the colors of the axes helper.\n\t *\n\t * @param {number|Color|string} xAxisColor - The color for the x axis.\n\t * @param {number|Color|string} yAxisColor - The color for the y axis.\n\t * @param {number|Color|string} zAxisColor - The color for the z axis.\n\t * @return {AxesHelper} A reference to this axes helper.\n\t */\n\tsetColors( xAxisColor, yAxisColor, zAxisColor ) {\n\n\t\tconst color = new Color();\n\t\tconst array = this.geometry.attributes.color.array;\n\n\t\tcolor.set( xAxisColor );\n\t\tcolor.toArray( array, 0 );\n\t\tcolor.toArray( array, 3 );\n\n\t\tcolor.set( yAxisColor );\n\t\tcolor.toArray( array, 6 );\n\t\tcolor.toArray( array, 9 );\n\n\t\tcolor.set( zAxisColor );\n\t\tcolor.toArray( array, 12 );\n\t\tcolor.toArray( array, 15 );\n\n\t\tthis.geometry.attributes.color.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * This class is used to convert a series of paths to an array of\n * shapes. It is specifically used in context of fonts and SVG.\n */\nclass ShapePath {\n\n\t/**\n\t * Constructs a new shape path.\n\t */\n\tconstructor() {\n\n\t\tthis.type = 'ShapePath';\n\n\t\t/**\n\t\t * The color of the shape.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color();\n\n\t\t/**\n\t\t * The paths that have been generated for this shape.\n\t\t *\n\t\t * @type {Array}\n\t\t * @default null\n\t\t */\n\t\tthis.subPaths = [];\n\n\t\t/**\n\t\t * The current path that is being generated.\n\t\t *\n\t\t * @type {?Path}\n\t\t * @default null\n\t\t */\n\t\tthis.currentPath = null;\n\n\t}\n\n\t/**\n\t * Creates a new path and moves it current point to the given one.\n\t *\n\t * @param {number} x - The x coordinate.\n\t * @param {number} y - The y coordinate.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tmoveTo( x, y ) {\n\n\t\tthis.currentPath = new Path();\n\t\tthis.subPaths.push( this.currentPath );\n\t\tthis.currentPath.moveTo( x, y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link LineCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} x - The x coordinate of the end point.\n\t * @param {number} y - The y coordinate of the end point.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tlineTo( x, y ) {\n\n\t\tthis.currentPath.lineTo( x, y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link QuadraticBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCPx - The x coordinate of the control point.\n\t * @param {number} aCPy - The y coordinate of the control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tquadraticCurveTo( aCPx, aCPy, aX, aY ) {\n\n\t\tthis.currentPath.quadraticCurveTo( aCPx, aCPy, aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link CubicBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCP1x - The x coordinate of the first control point.\n\t * @param {number} aCP1y - The y coordinate of the first control point.\n\t * @param {number} aCP2x - The x coordinate of the second control point.\n\t * @param {number} aCP2y - The y coordinate of the second control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tbezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY ) {\n\n\t\tthis.currentPath.bezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link SplineCurve} to the path by connecting\n\t * the current point with the given list of points.\n\t *\n\t * @param {Array} pts - An array of points in 2D space.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tsplineThru( pts ) {\n\n\t\tthis.currentPath.splineThru( pts );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Converts the paths into an array of shapes.\n\t *\n\t * @param {boolean} isCCW - By default solid shapes are defined clockwise (CW) and holes are defined counterclockwise (CCW).\n\t * If this flag is set to `true`, then those are flipped.\n\t * @return {Array} An array of shapes.\n\t */\n\ttoShapes( isCCW ) {\n\n\t\tfunction toShapesNoHoles( inSubpaths ) {\n\n\t\t\tconst shapes = [];\n\n\t\t\tfor ( let i = 0, l = inSubpaths.length; i < l; i ++ ) {\n\n\t\t\t\tconst tmpPath = inSubpaths[ i ];\n\n\t\t\t\tconst tmpShape = new Shape();\n\t\t\t\ttmpShape.curves = tmpPath.curves;\n\n\t\t\t\tshapes.push( tmpShape );\n\n\t\t\t}\n\n\t\t\treturn shapes;\n\n\t\t}\n\n\t\tfunction isPointInsidePolygon( inPt, inPolygon ) {\n\n\t\t\tconst polyLen = inPolygon.length;\n\n\t\t\t// inPt on polygon contour => immediate success or\n\t\t\t// toggling of inside/outside at every single! intersection point of an edge\n\t\t\t// with the horizontal line through inPt, left of inPt\n\t\t\t// not counting lowerY endpoints of edges and whole edges on that line\n\t\t\tlet inside = false;\n\t\t\tfor ( let p = polyLen - 1, q = 0; q < polyLen; p = q ++ ) {\n\n\t\t\t\tlet edgeLowPt = inPolygon[ p ];\n\t\t\t\tlet edgeHighPt = inPolygon[ q ];\n\n\t\t\t\tlet edgeDx = edgeHighPt.x - edgeLowPt.x;\n\t\t\t\tlet edgeDy = edgeHighPt.y - edgeLowPt.y;\n\n\t\t\t\tif ( Math.abs( edgeDy ) > Number.EPSILON ) {\n\n\t\t\t\t\t// not parallel\n\t\t\t\t\tif ( edgeDy < 0 ) {\n\n\t\t\t\t\t\tedgeLowPt = inPolygon[ q ]; edgeDx = - edgeDx;\n\t\t\t\t\t\tedgeHighPt = inPolygon[ p ]; edgeDy = - edgeDy;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ( inPt.y < edgeLowPt.y ) || ( inPt.y > edgeHighPt.y ) ) \t\tcontinue;\n\n\t\t\t\t\tif ( inPt.y === edgeLowPt.y ) {\n\n\t\t\t\t\t\tif ( inPt.x === edgeLowPt.x )\t\treturn\ttrue;\t\t// inPt is on contour ?\n\t\t\t\t\t\t// continue;\t\t\t\t// no intersection or edgeLowPt => doesn't count !!!\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tconst perpEdge = edgeDy * ( inPt.x - edgeLowPt.x ) - edgeDx * ( inPt.y - edgeLowPt.y );\n\t\t\t\t\t\tif ( perpEdge === 0 )\t\t\t\treturn\ttrue;\t\t// inPt is on contour ?\n\t\t\t\t\t\tif ( perpEdge < 0 ) \t\t\t\tcontinue;\n\t\t\t\t\t\tinside = ! inside;\t\t// true intersection left of inPt\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// parallel or collinear\n\t\t\t\t\tif ( inPt.y !== edgeLowPt.y ) \t\tcontinue;\t\t\t// parallel\n\t\t\t\t\t// edge lies on the same horizontal line as inPt\n\t\t\t\t\tif ( ( ( edgeHighPt.x <= inPt.x ) && ( inPt.x <= edgeLowPt.x ) ) ||\n\t\t\t\t\t\t ( ( edgeLowPt.x <= inPt.x ) && ( inPt.x <= edgeHighPt.x ) ) )\t\treturn\ttrue;\t// inPt: Point on contour !\n\t\t\t\t\t// continue;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn\tinside;\n\n\t\t}\n\n\t\tconst isClockWise = ShapeUtils.isClockWise;\n\n\t\tconst subPaths = this.subPaths;\n\t\tif ( subPaths.length === 0 ) return [];\n\n\t\tlet solid, tmpPath, tmpShape;\n\t\tconst shapes = [];\n\n\t\tif ( subPaths.length === 1 ) {\n\n\t\t\ttmpPath = subPaths[ 0 ];\n\t\t\ttmpShape = new Shape();\n\t\t\ttmpShape.curves = tmpPath.curves;\n\t\t\tshapes.push( tmpShape );\n\t\t\treturn shapes;\n\n\t\t}\n\n\t\tlet holesFirst = ! isClockWise( subPaths[ 0 ].getPoints() );\n\t\tholesFirst = isCCW ? ! holesFirst : holesFirst;\n\n\t\t// console.log(\"Holes first\", holesFirst);\n\n\t\tconst betterShapeHoles = [];\n\t\tconst newShapes = [];\n\t\tlet newShapeHoles = [];\n\t\tlet mainIdx = 0;\n\t\tlet tmpPoints;\n\n\t\tnewShapes[ mainIdx ] = undefined;\n\t\tnewShapeHoles[ mainIdx ] = [];\n\n\t\tfor ( let i = 0, l = subPaths.length; i < l; i ++ ) {\n\n\t\t\ttmpPath = subPaths[ i ];\n\t\t\ttmpPoints = tmpPath.getPoints();\n\t\t\tsolid = isClockWise( tmpPoints );\n\t\t\tsolid = isCCW ? ! solid : solid;\n\n\t\t\tif ( solid ) {\n\n\t\t\t\tif ( ( ! holesFirst ) && ( newShapes[ mainIdx ] ) )\tmainIdx ++;\n\n\t\t\t\tnewShapes[ mainIdx ] = { s: new Shape(), p: tmpPoints };\n\t\t\t\tnewShapes[ mainIdx ].s.curves = tmpPath.curves;\n\n\t\t\t\tif ( holesFirst )\tmainIdx ++;\n\t\t\t\tnewShapeHoles[ mainIdx ] = [];\n\n\t\t\t\t//console.log('cw', i);\n\n\t\t\t} else {\n\n\t\t\t\tnewShapeHoles[ mainIdx ].push( { h: tmpPath, p: tmpPoints[ 0 ] } );\n\n\t\t\t\t//console.log('ccw', i);\n\n\t\t\t}\n\n\t\t}\n\n\t\t// only Holes? -> probably all Shapes with wrong orientation\n\t\tif ( ! newShapes[ 0 ] )\treturn\ttoShapesNoHoles( subPaths );\n\n\n\t\tif ( newShapes.length > 1 ) {\n\n\t\t\tlet ambiguous = false;\n\t\t\tlet toChange = 0;\n\n\t\t\tfor ( let sIdx = 0, sLen = newShapes.length; sIdx < sLen; sIdx ++ ) {\n\n\t\t\t\tbetterShapeHoles[ sIdx ] = [];\n\n\t\t\t}\n\n\t\t\tfor ( let sIdx = 0, sLen = newShapes.length; sIdx < sLen; sIdx ++ ) {\n\n\t\t\t\tconst sho = newShapeHoles[ sIdx ];\n\n\t\t\t\tfor ( let hIdx = 0; hIdx < sho.length; hIdx ++ ) {\n\n\t\t\t\t\tconst ho = sho[ hIdx ];\n\t\t\t\t\tlet hole_unassigned = true;\n\n\t\t\t\t\tfor ( let s2Idx = 0; s2Idx < newShapes.length; s2Idx ++ ) {\n\n\t\t\t\t\t\tif ( isPointInsidePolygon( ho.p, newShapes[ s2Idx ].p ) ) {\n\n\t\t\t\t\t\t\tif ( sIdx !== s2Idx )\ttoChange ++;\n\n\t\t\t\t\t\t\tif ( hole_unassigned ) {\n\n\t\t\t\t\t\t\t\thole_unassigned = false;\n\t\t\t\t\t\t\t\tbetterShapeHoles[ s2Idx ].push( ho );\n\n\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\tambiguous = true;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( hole_unassigned ) {\n\n\t\t\t\t\t\tbetterShapeHoles[ sIdx ].push( ho );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( toChange > 0 && ambiguous === false ) {\n\n\t\t\t\tnewShapeHoles = betterShapeHoles;\n\n\t\t\t}\n\n\t\t}\n\n\t\tlet tmpHoles;\n\n\t\tfor ( let i = 0, il = newShapes.length; i < il; i ++ ) {\n\n\t\t\ttmpShape = newShapes[ i ].s;\n\t\t\tshapes.push( tmpShape );\n\t\t\ttmpHoles = newShapeHoles[ i ];\n\n\t\t\tfor ( let j = 0, jl = tmpHoles.length; j < jl; j ++ ) {\n\n\t\t\t\ttmpShape.holes.push( tmpHoles[ j ].h );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//console.log(\"shape\", shapes);\n\n\t\treturn shapes;\n\n\t}\n\n}\n\n/**\n * Abstract base class for controls.\n *\n * @abstract\n * @augments EventDispatcher\n */\nclass Controls extends EventDispatcher {\n\n\t/**\n\t * Constructs a new controls instance.\n\t *\n\t * @param {Object3D} object - The object that is managed by the controls.\n\t * @param {?HTMLDOMElement} domElement - The HTML element used for event listeners.\n\t */\n\tconstructor( object, domElement = null ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The object that is managed by the controls.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.object = object;\n\n\t\t/**\n\t\t * The HTML element used for event listeners.\n\t\t *\n\t\t * @type {?HTMLDOMElement}\n\t\t * @default null\n\t\t */\n\t\tthis.domElement = domElement;\n\n\t\t/**\n\t\t * Whether the controls responds to user input or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.enabled = true;\n\n\t\t/**\n\t\t * The internal state of the controls.\n\t\t *\n\t\t * @type {number}\n\t\t * @default -1\n\t\t */\n\t\tthis.state = -1;\n\n\t\t/**\n\t\t * This object defines the keyboard input of the controls.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.keys = {};\n\n\t\t/**\n\t\t * This object defines what type of actions are assigned to the available mouse buttons.\n\t\t * It depends on the control implementation what kind of mouse buttons and actions are supported.\n\t\t *\n\t\t * @type {{LEFT: ?number, MIDDLE: ?number, RIGHT: ?number}}\n\t\t */\n\t\tthis.mouseButtons = { LEFT: null, MIDDLE: null, RIGHT: null };\n\n\t\t/**\n\t\t * This object defines what type of actions are assigned to what kind of touch interaction.\n\t\t * It depends on the control implementation what kind of touch interaction and actions are supported.\n\t\t *\n\t\t * @type {{ONE: ?number, TWO: ?number}}\n\t\t */\n\t\tthis.touches = { ONE: null, TWO: null };\n\n\t}\n\n\t/**\n\t * Connects the controls to the DOM. This method has so called \"side effects\" since\n\t * it adds the module's event listeners to the DOM.\n\t *\n\t * @param {HTMLDOMElement} element - The DOM element to connect to.\n\t */\n\tconnect( element ) {\n\n\t\tif ( element === undefined ) {\n\n\t\t\tconsole.warn( 'THREE.Controls: connect() now requires an element.' ); // @deprecated, the warning can be removed with r185\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.domElement !== null ) this.disconnect();\n\n\t\tthis.domElement = element;\n\n\t}\n\n\t/**\n\t * Disconnects the controls from the DOM.\n\t */\n\tdisconnect() {}\n\n\t/**\n\t * Call this method if you no longer want use to the controls. It frees all internal\n\t * resources and removes all event listeners.\n\t */\n\tdispose() {}\n\n\t/**\n\t * Controls should implement this method if they have to update their internal state\n\t * per simulation step.\n\t *\n\t * @param {number} [delta] - The time delta in seconds.\n\t */\n\tupdate( /* delta */ ) {}\n\n}\n\n/**\n * Scales the texture as large as possible within its surface without cropping\n * or stretching the texture. The method preserves the original aspect ratio of\n * the texture. Akin to CSS `object-fit: contain`\n *\n * @param {Texture} texture - The texture.\n * @param {number} aspect - The texture's aspect ratio.\n * @return {Texture} The updated texture.\n */\nfunction contain( texture, aspect ) {\n\n\tconst imageAspect = ( texture.image && texture.image.width ) ? texture.image.width / texture.image.height : 1;\n\n\tif ( imageAspect > aspect ) {\n\n\t\ttexture.repeat.x = 1;\n\t\ttexture.repeat.y = imageAspect / aspect;\n\n\t\ttexture.offset.x = 0;\n\t\ttexture.offset.y = ( 1 - texture.repeat.y ) / 2;\n\n\t} else {\n\n\t\ttexture.repeat.x = aspect / imageAspect;\n\t\ttexture.repeat.y = 1;\n\n\t\ttexture.offset.x = ( 1 - texture.repeat.x ) / 2;\n\t\ttexture.offset.y = 0;\n\n\t}\n\n\treturn texture;\n\n}\n\n/**\n * Scales the texture to the smallest possible size to fill the surface, leaving\n * no empty space. The method preserves the original aspect ratio of the texture.\n * Akin to CSS `object-fit: cover`.\n *\n * @param {Texture} texture - The texture.\n * @param {number} aspect - The texture's aspect ratio.\n * @return {Texture} The updated texture.\n */\nfunction cover( texture, aspect ) {\n\n\tconst imageAspect = ( texture.image && texture.image.width ) ? texture.image.width / texture.image.height : 1;\n\n\tif ( imageAspect > aspect ) {\n\n\t\ttexture.repeat.x = aspect / imageAspect;\n\t\ttexture.repeat.y = 1;\n\n\t\ttexture.offset.x = ( 1 - texture.repeat.x ) / 2;\n\t\ttexture.offset.y = 0;\n\n\t} else {\n\n\t\ttexture.repeat.x = 1;\n\t\ttexture.repeat.y = imageAspect / aspect;\n\n\t\ttexture.offset.x = 0;\n\t\ttexture.offset.y = ( 1 - texture.repeat.y ) / 2;\n\n\t}\n\n\treturn texture;\n\n}\n\n/**\n * Configures the texture to the default transformation. Akin to CSS `object-fit: fill`.\n *\n * @param {Texture} texture - The texture.\n * @return {Texture} The updated texture.\n */\nfunction fill( texture ) {\n\n\ttexture.repeat.x = 1;\n\ttexture.repeat.y = 1;\n\n\ttexture.offset.x = 0;\n\ttexture.offset.y = 0;\n\n\treturn texture;\n\n}\n\n/**\n * Determines how many bytes must be used to represent the texture.\n *\n * @param {number} width - The width of the texture.\n * @param {number} height - The height of the texture.\n * @param {number} format - The texture's format.\n * @param {number} type - The texture's type.\n * @return {number} The byte length.\n */\nfunction getByteLength( width, height, format, type ) {\n\n\tconst typeByteLength = getTextureTypeByteLength( type );\n\n\tswitch ( format ) {\n\n\t\t// https://registry.khronos.org/OpenGL-Refpages/es3.0/html/glTexImage2D.xhtml\n\t\tcase AlphaFormat:\n\t\t\treturn width * height;\n\t\tcase RedFormat:\n\t\t\treturn ( ( width * height ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RedIntegerFormat:\n\t\t\treturn ( ( width * height ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGFormat:\n\t\t\treturn ( ( width * height * 2 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGIntegerFormat:\n\t\t\treturn ( ( width * height * 2 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGBFormat:\n\t\t\treturn ( ( width * height * 3 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGBAFormat:\n\t\t\treturn ( ( width * height * 4 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGBAIntegerFormat:\n\t\t\treturn ( ( width * height * 4 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_s3tc_srgb/\n\t\tcase RGB_S3TC_DXT1_Format:\n\t\tcase RGBA_S3TC_DXT1_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 8;\n\t\tcase RGBA_S3TC_DXT3_Format:\n\t\tcase RGBA_S3TC_DXT5_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_pvrtc/\n\t\tcase RGB_PVRTC_2BPPV1_Format:\n\t\tcase RGBA_PVRTC_2BPPV1_Format:\n\t\t\treturn ( Math.max( width, 16 ) * Math.max( height, 8 ) ) / 4;\n\t\tcase RGB_PVRTC_4BPPV1_Format:\n\t\tcase RGBA_PVRTC_4BPPV1_Format:\n\t\t\treturn ( Math.max( width, 8 ) * Math.max( height, 8 ) ) / 2;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_etc/\n\t\tcase RGB_ETC1_Format:\n\t\tcase RGB_ETC2_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 8;\n\t\tcase RGBA_ETC2_EAC_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_astc/\n\t\tcase RGBA_ASTC_4x4_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\t\tcase RGBA_ASTC_5x4_Format:\n\t\t\treturn Math.floor( ( width + 4 ) / 5 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\t\tcase RGBA_ASTC_5x5_Format:\n\t\t\treturn Math.floor( ( width + 4 ) / 5 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_6x5_Format:\n\t\t\treturn Math.floor( ( width + 5 ) / 6 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_6x6_Format:\n\t\t\treturn Math.floor( ( width + 5 ) / 6 ) * Math.floor( ( height + 5 ) / 6 ) * 16;\n\t\tcase RGBA_ASTC_8x5_Format:\n\t\t\treturn Math.floor( ( width + 7 ) / 8 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_8x6_Format:\n\t\t\treturn Math.floor( ( width + 7 ) / 8 ) * Math.floor( ( height + 5 ) / 6 ) * 16;\n\t\tcase RGBA_ASTC_8x8_Format:\n\t\t\treturn Math.floor( ( width + 7 ) / 8 ) * Math.floor( ( height + 7 ) / 8 ) * 16;\n\t\tcase RGBA_ASTC_10x5_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_10x6_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 5 ) / 6 ) * 16;\n\t\tcase RGBA_ASTC_10x8_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 7 ) / 8 ) * 16;\n\t\tcase RGBA_ASTC_10x10_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 9 ) / 10 ) * 16;\n\t\tcase RGBA_ASTC_12x10_Format:\n\t\t\treturn Math.floor( ( width + 11 ) / 12 ) * Math.floor( ( height + 9 ) / 10 ) * 16;\n\t\tcase RGBA_ASTC_12x12_Format:\n\t\t\treturn Math.floor( ( width + 11 ) / 12 ) * Math.floor( ( height + 11 ) / 12 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/EXT_texture_compression_bptc/\n\t\tcase RGBA_BPTC_Format:\n\t\tcase RGB_BPTC_SIGNED_Format:\n\t\tcase RGB_BPTC_UNSIGNED_Format:\n\t\t\treturn Math.ceil( width / 4 ) * Math.ceil( height / 4 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/EXT_texture_compression_rgtc/\n\t\tcase RED_RGTC1_Format:\n\t\tcase SIGNED_RED_RGTC1_Format:\n\t\t\treturn Math.ceil( width / 4 ) * Math.ceil( height / 4 ) * 8;\n\t\tcase RED_GREEN_RGTC2_Format:\n\t\tcase SIGNED_RED_GREEN_RGTC2_Format:\n\t\t\treturn Math.ceil( width / 4 ) * Math.ceil( height / 4 ) * 16;\n\n\t}\n\n\tthrow new Error(\n\t\t`Unable to determine texture byte length for ${format} format.`,\n\t);\n\n}\n\nfunction getTextureTypeByteLength( type ) {\n\n\tswitch ( type ) {\n\n\t\tcase UnsignedByteType:\n\t\tcase ByteType:\n\t\t\treturn { byteLength: 1, components: 1 };\n\t\tcase UnsignedShortType:\n\t\tcase ShortType:\n\t\tcase HalfFloatType:\n\t\t\treturn { byteLength: 2, components: 1 };\n\t\tcase UnsignedShort4444Type:\n\t\tcase UnsignedShort5551Type:\n\t\t\treturn { byteLength: 2, components: 4 };\n\t\tcase UnsignedIntType:\n\t\tcase IntType:\n\t\tcase FloatType:\n\t\t\treturn { byteLength: 4, components: 1 };\n\t\tcase UnsignedInt5999Type:\n\t\tcase UnsignedInt101111Type:\n\t\t\treturn { byteLength: 4, components: 3 };\n\n\t}\n\n\tthrow new Error( `Unknown texture type ${type}.` );\n\n}\n\n/**\n * A class containing utility functions for textures.\n *\n * @hideconstructor\n */\nclass TextureUtils {\n\n\t/**\n\t * Scales the texture as large as possible within its surface without cropping\n\t * or stretching the texture. The method preserves the original aspect ratio of\n\t * the texture. Akin to CSS `object-fit: contain`\n\t *\n\t * @param {Texture} texture - The texture.\n\t * @param {number} aspect - The texture's aspect ratio.\n\t * @return {Texture} The updated texture.\n\t */\n\tstatic contain( texture, aspect ) {\n\n\t\treturn contain( texture, aspect );\n\n\t}\n\n\t/**\n\t * Scales the texture to the smallest possible size to fill the surface, leaving\n\t * no empty space. The method preserves the original aspect ratio of the texture.\n\t * Akin to CSS `object-fit: cover`.\n\t *\n\t * @param {Texture} texture - The texture.\n\t * @param {number} aspect - The texture's aspect ratio.\n\t * @return {Texture} The updated texture.\n\t */\n\tstatic cover( texture, aspect ) {\n\n\t\treturn cover( texture, aspect );\n\n\t}\n\n\t/**\n\t * Configures the texture to the default transformation. Akin to CSS `object-fit: fill`.\n\t *\n\t * @param {Texture} texture - The texture.\n\t * @return {Texture} The updated texture.\n\t */\n\tstatic fill( texture ) {\n\n\t\treturn fill( texture );\n\n\t}\n\n\t/**\n\t * Determines how many bytes must be used to represent the texture.\n\t *\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} format - The texture's format.\n\t * @param {number} type - The texture's type.\n\t * @return {number} The byte length.\n\t */\n\tstatic getByteLength( width, height, format, type ) {\n\n\t\treturn getByteLength( width, height, format, type );\n\n\t}\n\n}\n\nif ( typeof __THREE_DEVTOOLS__ !== 'undefined' ) {\n\n\t__THREE_DEVTOOLS__.dispatchEvent( new CustomEvent( 'register', { detail: {\n\t\trevision: REVISION,\n\t} } ) );\n\n}\n\nif ( typeof window !== 'undefined' ) {\n\n\tif ( window.__THREE__ ) {\n\n\t\tconsole.warn( 'WARNING: Multiple instances of Three.js being imported.' );\n\n\t} else {\n\n\t\twindow.__THREE__ = REVISION;\n\n\t}\n\n}\n\nexport { ACESFilmicToneMapping, AddEquation, AddOperation, AdditiveAnimationBlendMode, AdditiveBlending, AgXToneMapping, AlphaFormat, AlwaysCompare, AlwaysDepth, AlwaysStencilFunc, AmbientLight, AnimationAction, AnimationClip, AnimationLoader, AnimationMixer, AnimationObjectGroup, AnimationUtils, ArcCurve, ArrayCamera, ArrowHelper, AttachedBindMode, Audio, AudioAnalyser, AudioContext, AudioListener, AudioLoader, AxesHelper, BackSide, BasicDepthPacking, BasicShadowMap, BatchedMesh, Bone, BooleanKeyframeTrack, Box2, Box3, Box3Helper, BoxGeometry, BoxHelper, BufferAttribute, BufferGeometry, BufferGeometryLoader, ByteType, Cache, Camera, CameraHelper, CanvasTexture, CapsuleGeometry, CatmullRomCurve3, CineonToneMapping, CircleGeometry, ClampToEdgeWrapping, Clock, Color, ColorKeyframeTrack, ColorManagement, CompressedArrayTexture, CompressedCubeTexture, CompressedTexture, CompressedTextureLoader, ConeGeometry, ConstantAlphaFactor, ConstantColorFactor, Controls, CubeCamera, CubeReflectionMapping, CubeRefractionMapping, CubeTexture, CubeTextureLoader, CubeUVReflectionMapping, CubicBezierCurve, CubicBezierCurve3, CubicInterpolant, CullFaceBack, CullFaceFront, CullFaceFrontBack, CullFaceNone, Curve, CurvePath, CustomBlending, CustomToneMapping, CylinderGeometry, Cylindrical, Data3DTexture, DataArrayTexture, DataTexture, DataTextureLoader, DataUtils, DecrementStencilOp, DecrementWrapStencilOp, DefaultLoadingManager, DepthFormat, DepthStencilFormat, DepthTexture, DetachedBindMode, DirectionalLight, DirectionalLightHelper, DiscreteInterpolant, DodecahedronGeometry, DoubleSide, DstAlphaFactor, DstColorFactor, DynamicCopyUsage, DynamicDrawUsage, DynamicReadUsage, EdgesGeometry, EllipseCurve, EqualCompare, EqualDepth, EqualStencilFunc, EquirectangularReflectionMapping, EquirectangularRefractionMapping, Euler, EventDispatcher, ExternalTexture, ExtrudeGeometry, FileLoader, Float16BufferAttribute, Float32BufferAttribute, FloatType, Fog, FogExp2, FramebufferTexture, FrontSide, Frustum, FrustumArray, GLBufferAttribute, GLSL1, GLSL3, GreaterCompare, GreaterDepth, GreaterEqualCompare, GreaterEqualDepth, GreaterEqualStencilFunc, GreaterStencilFunc, GridHelper, Group, HalfFloatType, HemisphereLight, HemisphereLightHelper, IcosahedronGeometry, ImageBitmapLoader, ImageLoader, ImageUtils, IncrementStencilOp, IncrementWrapStencilOp, InstancedBufferAttribute, InstancedBufferGeometry, InstancedInterleavedBuffer, InstancedMesh, Int16BufferAttribute, Int32BufferAttribute, Int8BufferAttribute, IntType, InterleavedBuffer, InterleavedBufferAttribute, Interpolant, InterpolateDiscrete, InterpolateLinear, InterpolateSmooth, InterpolationSamplingMode, InterpolationSamplingType, InvertStencilOp, KeepStencilOp, KeyframeTrack, LOD, LatheGeometry, Layers, LessCompare, LessDepth, LessEqualCompare, LessEqualDepth, LessEqualStencilFunc, LessStencilFunc, Light, LightProbe, Line, Line3, LineBasicMaterial, LineCurve, LineCurve3, LineDashedMaterial, LineLoop, LineSegments, LinearFilter, LinearInterpolant, LinearMipMapLinearFilter, LinearMipMapNearestFilter, LinearMipmapLinearFilter, LinearMipmapNearestFilter, LinearSRGBColorSpace, LinearToneMapping, LinearTransfer, Loader, LoaderUtils, LoadingManager, LoopOnce, LoopPingPong, LoopRepeat, MOUSE, Material, MaterialLoader, MathUtils, Matrix2, Matrix3, Matrix4, MaxEquation, Mesh, MeshBasicMaterial, MeshDepthMaterial, MeshDistanceMaterial, MeshLambertMaterial, MeshMatcapMaterial, MeshNormalMaterial, MeshPhongMaterial, MeshPhysicalMaterial, MeshStandardMaterial, MeshToonMaterial, MinEquation, MirroredRepeatWrapping, MixOperation, MultiplyBlending, MultiplyOperation, NearestFilter, NearestMipMapLinearFilter, NearestMipMapNearestFilter, NearestMipmapLinearFilter, NearestMipmapNearestFilter, NeutralToneMapping, NeverCompare, NeverDepth, NeverStencilFunc, NoBlending, NoColorSpace, NoToneMapping, NormalAnimationBlendMode, NormalBlending, NotEqualCompare, NotEqualDepth, NotEqualStencilFunc, NumberKeyframeTrack, Object3D, ObjectLoader, ObjectSpaceNormalMap, OctahedronGeometry, OneFactor, OneMinusConstantAlphaFactor, OneMinusConstantColorFactor, OneMinusDstAlphaFactor, OneMinusDstColorFactor, OneMinusSrcAlphaFactor, OneMinusSrcColorFactor, OrthographicCamera, PCFShadowMap, PCFSoftShadowMap, Path, PerspectiveCamera, Plane, PlaneGeometry, PlaneHelper, PointLight, PointLightHelper, Points, PointsMaterial, PolarGridHelper, PolyhedronGeometry, PositionalAudio, PropertyBinding, PropertyMixer, QuadraticBezierCurve, QuadraticBezierCurve3, Quaternion, QuaternionKeyframeTrack, QuaternionLinearInterpolant, RAD2DEG, RED_GREEN_RGTC2_Format, RED_RGTC1_Format, REVISION, RGBADepthPacking, RGBAFormat, RGBAIntegerFormat, RGBA_ASTC_10x10_Format, RGBA_ASTC_10x5_Format, RGBA_ASTC_10x6_Format, RGBA_ASTC_10x8_Format, RGBA_ASTC_12x10_Format, RGBA_ASTC_12x12_Format, RGBA_ASTC_4x4_Format, RGBA_ASTC_5x4_Format, RGBA_ASTC_5x5_Format, RGBA_ASTC_6x5_Format, RGBA_ASTC_6x6_Format, RGBA_ASTC_8x5_Format, RGBA_ASTC_8x6_Format, RGBA_ASTC_8x8_Format, RGBA_BPTC_Format, RGBA_ETC2_EAC_Format, RGBA_PVRTC_2BPPV1_Format, RGBA_PVRTC_4BPPV1_Format, RGBA_S3TC_DXT1_Format, RGBA_S3TC_DXT3_Format, RGBA_S3TC_DXT5_Format, RGBDepthPacking, RGBFormat, RGBIntegerFormat, RGB_BPTC_SIGNED_Format, RGB_BPTC_UNSIGNED_Format, RGB_ETC1_Format, RGB_ETC2_Format, RGB_PVRTC_2BPPV1_Format, RGB_PVRTC_4BPPV1_Format, RGB_S3TC_DXT1_Format, RGDepthPacking, RGFormat, RGIntegerFormat, RawShaderMaterial, Ray, Raycaster, RectAreaLight, RedFormat, RedIntegerFormat, ReinhardToneMapping, RenderTarget, RenderTarget3D, RepeatWrapping, ReplaceStencilOp, ReverseSubtractEquation, RingGeometry, SIGNED_RED_GREEN_RGTC2_Format, SIGNED_RED_RGTC1_Format, SRGBColorSpace, SRGBTransfer, Scene, ShaderMaterial, ShadowMaterial, Shape, ShapeGeometry, ShapePath, ShapeUtils, ShortType, Skeleton, SkeletonHelper, SkinnedMesh, Source, Sphere, SphereGeometry, Spherical, SphericalHarmonics3, SplineCurve, SpotLight, SpotLightHelper, Sprite, SpriteMaterial, SrcAlphaFactor, SrcAlphaSaturateFactor, SrcColorFactor, StaticCopyUsage, StaticDrawUsage, StaticReadUsage, StereoCamera, StreamCopyUsage, StreamDrawUsage, StreamReadUsage, StringKeyframeTrack, SubtractEquation, SubtractiveBlending, TOUCH, TangentSpaceNormalMap, TetrahedronGeometry, Texture, TextureLoader, TextureUtils, Timer, TimestampQuery, TorusGeometry, TorusKnotGeometry, Triangle, TriangleFanDrawMode, TriangleStripDrawMode, TrianglesDrawMode, TubeGeometry, UVMapping, Uint16BufferAttribute, Uint32BufferAttribute, Uint8BufferAttribute, Uint8ClampedBufferAttribute, Uniform, UniformsGroup, UniformsUtils, UnsignedByteType, UnsignedInt101111Type, UnsignedInt248Type, UnsignedInt5999Type, UnsignedIntType, UnsignedShort4444Type, UnsignedShort5551Type, UnsignedShortType, VSMShadowMap, Vector2, Vector3, Vector4, VectorKeyframeTrack, VideoFrameTexture, VideoTexture, WebGL3DRenderTarget, WebGLArrayRenderTarget, WebGLCoordinateSystem, WebGLCubeRenderTarget, WebGLRenderTarget, WebGPUCoordinateSystem, WebXRController, WireframeGeometry, WrapAroundEnding, ZeroCurvatureEnding, ZeroFactor, ZeroSlopeEnding, ZeroStencilOp, arrayNeedsUint32, cloneUniforms, createCanvasElement, createElementNS, getByteLength, getUnlitUniformColorSpace, mergeUniforms, probeAsync, warnOnce };\n","// LN_SCALE_MIN..LN_SCALE_MAX define the internal scale range of for Gsplats,\n// covering approx 0.0001..8000 in range with discrete steps 7% apart.\n// The value \"0\" is reserved for truly flat scales, indicating a 2DGS.\n// If these values are changed, the corresponding values in splatDefines.glsl\n// must also be updated to match.\n\nexport const LN_SCALE_MIN = -12.0;\nexport const LN_SCALE_MAX = 9.0;\nexport const SCALE_MIN = Math.exp(LN_SCALE_MIN);\nexport const SCALE_MAX = Math.exp(LN_SCALE_MAX);\n\nexport const LN_SCALE_ZERO = -30.0;\nexport const SCALE_ZERO = Math.exp(LN_SCALE_ZERO);\n\n// Gsplats are stored in textures that are 2^11 x 2^11 x up to 2^11\n// Most WebGL2 implementations support 2D textures up to 2^12 x 2^12 (max 16M Gsplats)\n// 2D array textures and 3D textures up to 2^11 x 2^11 x 2^11 (max 8G Gsplats),\n// so we use 2D array textures for our representation for higher limits.\n\nexport const SPLAT_TEX_WIDTH_BITS = 11;\nexport const SPLAT_TEX_HEIGHT_BITS = 11;\nexport const SPLAT_TEX_DEPTH_BITS = 11;\nexport const SPLAT_TEX_LAYER_BITS =\n SPLAT_TEX_WIDTH_BITS + SPLAT_TEX_HEIGHT_BITS;\n\nexport const SPLAT_TEX_WIDTH = 1 << SPLAT_TEX_WIDTH_BITS; // 2048\nexport const SPLAT_TEX_HEIGHT = 1 << SPLAT_TEX_HEIGHT_BITS; // 2048\nexport const SPLAT_TEX_DEPTH = 1 << SPLAT_TEX_DEPTH_BITS; // 2048\nexport const SPLAT_TEX_MIN_HEIGHT = 1;\n\nexport const SPLAT_TEX_WIDTH_MASK = SPLAT_TEX_WIDTH - 1;\nexport const SPLAT_TEX_HEIGHT_MASK = SPLAT_TEX_HEIGHT - 1;\nexport const SPLAT_TEX_DEPTH_MASK = SPLAT_TEX_DEPTH - 1;\n\n// Enable/disable Gsplat sorting via Rust WASM code. In testing the sorting\n// time between pure JS and WASM are minimal and don't make a big difference.\n\nexport const WASM_SPLAT_SORT = true;\n\n// Enable/disable compiling a dedicated parse function per element type\n// in the plyReader.\n\nexport const USE_COMPILED_PARSER_FUNCTION = true;\n\nexport enum SplatFileType {\n PLY = \"ply\",\n SPZ = \"spz\",\n SPLAT = \"splat\",\n KSPLAT = \"ksplat\",\n PCSOGS = \"pcsogs\",\n PCSOGSZIP = \"pcsogszip\",\n RAD = \"rad\",\n}\n\nexport type SplatEncoding = {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n sh1Max?: number;\n sh2Max?: number;\n sh3Max?: number;\n lodOpacity?: boolean;\n};\n\nexport const DEFAULT_SPLAT_ENCODING: SplatEncoding = {\n rgbMin: 0,\n rgbMax: 1,\n lnScaleMin: LN_SCALE_MIN,\n lnScaleMax: LN_SCALE_MAX,\n sh1Max: 1,\n sh2Max: 1,\n sh3Max: 1,\n lodOpacity: false,\n};\n\nexport type RadMeta = {\n version: number;\n type: string;\n count: number;\n maxSh?: number;\n lodTree?: boolean;\n chunkSize?: number;\n chunks: {\n offset: number;\n bytes: number;\n base?: number;\n count?: number;\n filename?: string;\n }[];\n splatEncoding?: SplatEncoding;\n};\n\nexport type PackedExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type PackedResult = {\n numSplats: number;\n packedArray: Uint32Array;\n extra: PackedExtra;\n splatEncoding: SplatEncoding;\n};\n\nexport type ExtExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3a?: Uint32Array;\n sh3b?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: [Uint32Array, Uint32Array];\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type ExtResult = {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: ExtExtra;\n};\n","import type { IUniform } from \"three\";\nimport type { DynoType } from \"./types\";\nimport {\n DynoLiteral,\n DynoOutput,\n type DynoVal,\n DynoValue,\n type HasDynoOut,\n valType,\n} from \"./value\";\n\nconst DEFAULT_INDENT = \" \";\n\nexport class Compilation {\n globals: Set = new Set();\n statements: string[] = [];\n uniforms: Record = {};\n declares: Set = new Set();\n updaters: (() => void)[] = [];\n sequence = 0;\n indent: string = DEFAULT_INDENT;\n\n constructor({ indent }: { indent?: string } = {}) {\n this.indent = indent ?? DEFAULT_INDENT;\n }\n\n nextSequence() {\n return this.sequence++;\n }\n}\n\nexport type IOTypes = Record;\ntype GenerateContext = {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n};\n\nexport class Dyno {\n inTypes: InTypes;\n outTypes: OutTypes;\n\n inputs: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n }) {\n this.inTypes = inTypes ?? ({} as InTypes);\n this.outTypes = outTypes ?? ({} as OutTypes);\n this.inputs = inputs ?? {};\n this.update = update;\n\n this.globals = globals;\n this.statements = statements;\n this.generate =\n generate ??\n (({ inputs, outputs, compile }) => {\n return {\n globals: this.globals?.({ inputs, outputs, compile }),\n statements: this.statements?.({ inputs, outputs, compile }),\n };\n });\n }\n\n get outputs(): { [K in keyof OutTypes]: DynoVal } {\n const outputs = {} as { [K in keyof OutTypes]: DynoVal };\n for (const key in this.outTypes) {\n outputs[key] = new DynoOutput(this, key);\n }\n return outputs;\n }\n\n apply(inputs: { [K in keyof InTypes]?: DynoVal }): {\n [K in keyof OutTypes]: DynoVal;\n } {\n Object.assign(this.inputs, inputs);\n return this.outputs;\n }\n\n compile({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }): string[] {\n const result = [\n `// ${this.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`,\n ];\n\n const declares: (keyof OutTypes)[] = [];\n for (const key in outputs) {\n const name = outputs[key];\n if (name && !compile.declares.has(name)) {\n compile.declares.add(name);\n declares.push(key);\n }\n }\n\n const { globals, statements, uniforms } = this.generate({\n inputs,\n outputs,\n compile,\n });\n for (const global of globals ?? []) {\n compile.globals.add(global);\n }\n for (const key in uniforms) {\n compile.uniforms[key] = uniforms[key];\n }\n if (this.update) {\n compile.updaters.push(this.update);\n }\n\n for (const key of declares) {\n const name = outputs[key];\n if (name) {\n if (!compile.uniforms[name]) {\n result.push(`${dynoDeclare(name, this.outTypes[key])};`);\n }\n }\n }\n\n if (statements?.length) {\n result.push(\"{\");\n result.push(...statements.map((line) => compile.indent + line));\n result.push(\"}\");\n }\n return result;\n }\n}\n\nexport type DynoBlockType = (\n inputs: { [K in keyof InTypes]?: DynoVal },\n outputs: { [K in keyof OutTypes]?: DynoVal },\n { roots }: { roots: Dyno[] },\n) => { [K in keyof OutTypes]?: DynoVal } | undefined;\n\nexport class DynoBlock<\n InTypes extends IOTypes,\n OutTypes extends IOTypes,\n> extends Dyno {\n construct: DynoBlockType;\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n construct,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n construct: DynoBlockType;\n }) {\n super({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n generate: (args) => this.generateBlock(args),\n });\n this.construct = construct;\n }\n\n generateBlock({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }) {\n const blockInputs: { [K in keyof InTypes]?: DynoVal } = {};\n const blockOutputs: { [K in keyof OutTypes]?: DynoVal } = {};\n\n for (const key in inputs) {\n if (inputs[key] != null) {\n blockInputs[key] = new DynoLiteral(this.inTypes[key], inputs[key]);\n }\n }\n for (const key in outputs) {\n if (outputs[key] != null) {\n blockOutputs[key] = new DynoValue(this.outTypes[key]);\n }\n }\n\n const options: { roots: Dyno[] } = { roots: [] };\n const returned = this.construct(blockInputs, blockOutputs, options);\n\n for (const global of this.globals?.({ inputs, outputs, compile }) ?? []) {\n compile.globals.add(global);\n }\n\n const ordering: Dyno[] = [];\n const nodeOuts = new Map<\n Dyno,\n { sequence: number; outNames: Map; newOuts: Set }\n >();\n\n function visit(\n node: Dyno,\n outKey?: string,\n outName?: string,\n ) {\n let outs = nodeOuts.get(node);\n if (!outs) {\n // First time visiting this node\n outs = {\n sequence: compile.nextSequence(),\n outNames: new Map(),\n newOuts: new Set(),\n };\n nodeOuts.set(node, outs);\n\n for (const key in node.inputs) {\n let input = node.inputs[key];\n while (input) {\n if (input instanceof DynoValue) {\n if (input instanceof DynoOutput) {\n visit(input.dyno, input.key);\n }\n break;\n }\n // Must be as HasDynoOut\n if (typeof input.dynoOut !== \"function\") {\n throw new Error(\n `dynoOut is not a function for ${input.constructor.name}`,\n );\n }\n input = input.dynoOut();\n }\n }\n ordering.push(node);\n }\n if (outKey) {\n if (!outName) {\n outs.newOuts.add(outKey);\n }\n outs.outNames.set(outKey, outName ?? `${outKey}_${outs.sequence}`);\n }\n }\n\n for (const root of options.roots) {\n visit(root);\n }\n\n for (const key in blockOutputs) {\n let value = returned?.[key] ?? blockOutputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoOutput) {\n visit(value.dyno, value.key, outputs[key]);\n }\n break;\n }\n // Must be as HasDynoOut\n value = value.dynoOut();\n }\n blockOutputs[key] = value;\n }\n\n const steps = [];\n\n for (const dyno of ordering) {\n // compile.statements.push(`// ${dyno.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`);\n\n const inputs: Record = {};\n const outputs: Record = {};\n\n for (const key in dyno.inputs) {\n let value = dyno.inputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoLiteral) {\n inputs[key] = value.getLiteral();\n } else if (value instanceof DynoOutput) {\n const source = nodeOuts.get(value.dyno)?.outNames.get(value.key);\n if (!source) {\n throw new Error(\n `Source not found for ${value.dyno.constructor.name}.${value.key}`,\n );\n }\n inputs[key] = source;\n }\n break;\n }\n // Must be as HasDynOut\n value = value.dynoOut();\n }\n }\n\n const outs = nodeOuts.get(dyno) ?? { outNames: new Map() };\n for (const [key, name] of outs.outNames.entries()) {\n outputs[key] = name;\n }\n\n const newSteps = dyno.compile({ inputs, outputs, compile });\n steps.push(newSteps);\n }\n\n const literalOutputs = [];\n for (const key in outputs) {\n if (blockOutputs[key] instanceof DynoLiteral) {\n literalOutputs.push(\n `${outputs[key]} = ${blockOutputs[key].getLiteral()};`,\n );\n }\n }\n if (literalOutputs.length > 0) {\n steps.push(literalOutputs);\n }\n\n const statements = steps.flatMap((step, index) => {\n // Add a blank line between steps\n return index === 0 ? step : [\"\", ...step];\n });\n return { statements };\n }\n}\n\nexport function dynoBlock<\n InTypes extends Record,\n OutTypes extends Record,\n>(\n inTypes: InTypes,\n outTypes: OutTypes,\n construct: DynoBlockType,\n { update, globals }: { update?: () => void; globals?: () => string[] } = {},\n) {\n return new DynoBlock({ inTypes, outTypes, construct, update, globals });\n}\n\nexport function dyno<\n InTypes extends Record,\n OutTypes extends Record,\n>({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n}: {\n inTypes: InTypes;\n outTypes: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n}) {\n return new Dyno({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n });\n}\n\nexport function dynoDeclare(name: string, type: DynoType, count?: number) {\n const typeStr = typeof type === \"string\" ? type : type.type;\n if (!typeStr) {\n throw new Error(`Invalid DynoType: ${String(type)}`);\n }\n return `${typeStr} ${name}${count != null ? `[${count}]` : \"\"}`;\n}\n\nexport function unindentLines(s: string): string[] {\n let seenNonEmpty = false;\n const lines = s\n .split(\"\\n\")\n .map((line) => {\n const trimmedLine = line.trimEnd();\n if (seenNonEmpty) {\n return trimmedLine;\n }\n if (trimmedLine.length > 0) {\n seenNonEmpty = true;\n return trimmedLine;\n }\n return null;\n })\n .filter((line) => line != null);\n while (lines.length > 0 && lines[lines.length - 1].length === 0) {\n lines.pop();\n }\n if (lines.length === 0) {\n return [];\n }\n\n const indent = lines[0].match(/^\\s*/)?.[0];\n if (!indent) {\n return lines; // No indent, return as is\n }\n // Remove indent from the beginning of each line\n const regex = new RegExp(`^${indent}`);\n return lines.map((line) => line.replace(regex, \"\"));\n}\n\nexport function unindent(s: string): string {\n return unindentLines(s).join(\"\\n\");\n}\n\nexport class UnaryOp<\n A extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n outKey,\n outTypeFunc,\n }: { a: DynoVal; outKey: OutKey; outTypeFunc: (aType: A) => OutType }) {\n const inTypes = { a: valType(a) };\n const outType = outTypeFunc(valType(a));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class BinaryOp<\n A extends DynoType,\n B extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b) };\n const outType = outTypeFunc(valType(a), valType(b));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class TrinaryOp<\n A extends DynoType,\n B extends DynoType,\n C extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B; c: C }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n c,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n c: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B, cType: C) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b), c: valType(c) };\n const outType = outTypeFunc(valType(a), valType(b), valType(c));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b, c } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n","import { Gunzip } from \"fflate\";\nimport * as THREE from \"three\";\n\n// Miscellaneous utility functions for Spark\n\nimport {\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SCALE_ZERO,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_MIN_HEIGHT,\n SPLAT_TEX_WIDTH,\n} from \"./defines.js\";\nimport { unindent } from \"./dyno/base.js\";\n\nexport const threeRevision = Number.parseInt(THREE.REVISION);\nexport const threeMrtArray = threeRevision >= 179;\n\nconst f32buffer = new Float32Array(1);\nconst u32buffer = new Uint32Array(f32buffer.buffer);\nconst supportsFloat16Array = \"Float16Array\" in globalThis;\nconst f16buffer = supportsFloat16Array\n ? new globalThis[\"Float16Array\" as keyof typeof globalThis](1)\n : null;\nconst u16buffer = new Uint16Array(f16buffer?.buffer);\n\n// Returns a normalized array of numbers\nexport function normalize(vec: number[]) {\n const norm = Math.sqrt(vec.reduce((acc, v) => acc + v * v, 0));\n return vec.map((v) => v / norm);\n}\n\n// Reinterpret the bits of a float32 as a uint32\nexport function floatBitsToUint(f: number): number {\n f32buffer[0] = f;\n return u32buffer[0];\n}\n\n// Reinterpret the bits of a uint32 as a float32\nexport function uintBitsToFloat(u: number): number {\n u32buffer[0] = u;\n return f32buffer[0];\n}\n\nexport const toHalf = supportsFloat16Array ? toHalfNative : toHalfJS;\nexport const fromHalf = supportsFloat16Array ? fromHalfNative : fromHalfJS;\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfNative(f: number): number {\n f16buffer[0] = f;\n return u16buffer[0];\n}\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfJS(f: number): number {\n // Store the value into the shared Float32 array.\n f32buffer[0] = f;\n const bits = u32buffer[0];\n\n // Extract sign (1 bit), exponent (8 bits), and fraction (23 bits)\n const sign = (bits >> 31) & 0x1;\n const exp = (bits >> 23) & 0xff;\n const frac = bits & 0x7fffff;\n const halfSign = sign << 15;\n\n // Handle special cases: NaN and Infinity\n if (exp === 0xff) {\n // NaN: set all exponent bits to 1 and some nonzero fraction bits.\n if (frac !== 0) {\n return halfSign | 0x7fff;\n }\n // Infinity\n return halfSign | 0x7c00;\n }\n\n // Adjust the exponent from float32 bias (127) to float16 bias (15)\n const newExp = exp - 127 + 15;\n\n // Handle overflow: too large to represent in half precision.\n if (newExp >= 0x1f) {\n return halfSign | 0x7c00; // Infinity\n }\n if (newExp <= 0) {\n // Handle subnormals and underflow.\n if (newExp < -10) {\n // Too small: underflows to zero.\n return halfSign;\n }\n // Convert to subnormal: add the implicit leading 1 to the fraction,\n // then shift to align with the half-precision's 10 fraction bits.\n const subFrac = (frac | 0x800000) >> (1 - newExp + 13);\n return halfSign | subFrac;\n }\n\n // Normalized half-precision number: shift fraction to fit into 10 bits.\n const halfFrac = frac >> 13;\n return halfSign | (newExp << 10) | halfFrac;\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfNative(u: number): number {\n u16buffer[0] = u;\n return f16buffer[0];\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfJS(h: number): number {\n // Extract the sign (1 bit), exponent (5 bits), and fraction (10 bits)\n const sign = (h >> 15) & 0x1;\n const exp = (h >> 10) & 0x1f;\n const frac = h & 0x3ff;\n\n let f32bits: number;\n\n if (exp === 0) {\n if (frac === 0) {\n // Zero (positive or negative)\n f32bits = sign << 31;\n } else {\n // Subnormal half-precision number.\n // Normalize the subnormal number:\n let mant = frac;\n let e = -14; // For half, the exponent for subnormals is fixed at -14.\n // Shift left until the implicit leading 1 is in place.\n while ((mant & 0x400) === 0) {\n // 0x400 === 1 << 10\n mant <<= 1;\n e--;\n }\n // Remove the leading 1 (which is now implicit)\n mant &= 0x3ff;\n // Convert the half exponent (e) to the 32-bit float exponent:\n const newExp = e + 127; // 32-bit float bias is 127.\n const newFrac = mant << 13; // Align to 23-bit fraction (23 - 10 = 13)\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n } else if (exp === 0x1f) {\n // Handle special cases for Infinity and NaN.\n if (frac === 0) {\n // Infinity\n f32bits = (sign << 31) | 0x7f800000;\n } else {\n // NaN (we choose a quiet NaN)\n f32bits = (sign << 31) | 0x7fc00000;\n }\n } else {\n // Normalized half-precision number.\n // Adjust exponent from half (bias 15) to float32 (bias 127)\n const newExp = exp - 15 + 127;\n const newFrac = frac << 13;\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n\n // Write the 32-bit bit pattern to the shared buffer,\n // then read it as a float32 to return a JavaScript number.\n u32buffer[0] = f32bits;\n return f32buffer[0];\n}\n\n// Convert a number 0..1 to a 0..255 uint\nexport function floatToUint8(v: number): number {\n // Converts from 0..1 float to 0..255 uint8\n return Math.max(0, Math.min(255, Math.round(v * 255)));\n}\n\n// Convert a number -1..1 to a -127..127 int\nexport function floatToSint8(v: number): number {\n // Converts from -1..1 float to -127..127 int8\n return Math.max(-127, Math.min(127, Math.round(v * 127)));\n}\n\n// Convert a 0..255 uint to a 0..1 float\nexport function Uint8ToFloat(v: number): number {\n // Converts from 0..255 uint8 to 0..1 float\n return v / 255;\n}\n\n// Convert a -127..127 int to a -1..1 float\nexport function Sint8ToFloat(v: number): number {\n // Converts from -127..127 int8 to -1..1 float\n return v / 127;\n}\n\n// A simple utility class for caching a fixed number of items\nexport class DataCache {\n // Maximum number of items to cache\n maxItems: number;\n\n // Function to fetch data for a key\n asyncFetch: (key: string) => Promise;\n\n // Function to dispose of data when it is no longer needed\n dispose?: (data: unknown) => void;\n\n // Array of cached items\n items: { key: string; data: unknown }[];\n\n // In-progress fetch promises\n pending: Map>;\n\n // Create a DataCache with a given function that fetches data not in the cache.\n constructor({\n asyncFetch,\n dispose,\n maxItems = 5,\n }: {\n asyncFetch: (key: string) => Promise;\n dispose?: (data: unknown) => void;\n maxItems?: number;\n }) {\n this.asyncFetch = asyncFetch;\n this.dispose = dispose;\n this.maxItems = maxItems;\n this.items = [];\n this.pending = new Map();\n }\n\n has(key: string): boolean {\n return this.items.some((item) => item.key === key);\n }\n\n getImmediate(key: string): unknown | undefined {\n const index = this.items.findIndex((item) => item.key === key);\n if (index >= 0) {\n // Data exists in our cache, move it to the end of the array\n const item = this.items.splice(index, 1)[0];\n this.items.push(item);\n // Return the cached data\n return item.data;\n }\n return undefined;\n }\n\n // Fetch data for the key, returning cached data if available.\n async getFetch(key: string): Promise {\n const immediate = this.getImmediate(key);\n if (immediate !== undefined) {\n return immediate;\n }\n\n let pending = this.pending.get(key);\n if (pending) {\n return pending;\n }\n\n pending = this.asyncFetch(key).then((data) => {\n this.pending.delete(key);\n\n // Add the data to the cache\n this.items.push({ key, data });\n // If the cache is too large, remove the oldest accessed item\n while (this.items.length > this.maxItems) {\n const removed = this.items.shift();\n if (removed && this.dispose) {\n this.dispose(removed.data);\n }\n }\n // Return the fetched data\n return data;\n });\n this.pending.set(key, pending);\n return pending;\n }\n}\n\n// Like Array.map but for objects\nexport function mapObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n const entries = Object.entries(obj).map(([key, value]) => [\n key,\n fn(value, key),\n ]);\n // Returns a new object with the mapped values\n return Object.fromEntries(entries);\n}\n\n// Like Array.map().filter() but for objects.\n// The callback fn() should return undefined to filter out the key.\nexport function mapFilterObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n // If no return (or return undefined), the key is not included in the result\n const entries = Object.entries(obj)\n .map(([key, value]) => [key, fn(value, key)])\n .filter(([_, value]) => value !== undefined);\n // Returns a new object with the filtered values\n return Object.fromEntries(entries);\n}\n\n// Recursively finds all ArrayBuffers in an object and returns them as an array\n// to use as transferable objects to send between workers.\nexport function getTransferable(ctx: unknown): Transferable[] {\n const buffers: Transferable[] = [];\n const seen = new Set();\n\n function traverse(obj: unknown) {\n if (obj && typeof obj === \"object\" && !seen.has(obj)) {\n seen.add(obj);\n\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n // Handles TypedArrays and DataView\n buffers.push(obj.buffer as ArrayBuffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n\n traverse(ctx);\n return buffers;\n}\n\n// Create an array of the given size and initialize element with initFunction()\nexport function newArray(\n n: number,\n initFunction: (index: number) => T,\n): T[] {\n // Creates a new array and calls a constructor function for each element with index\n return new Array(n).fill(null).map((_, i) => initFunction(i));\n}\n\n// A free list that has a pool of items of type T, with callbacks\n// for constructing, disposing, and checking if an item is valid for the given args.\nexport class FreeList {\n items: T[];\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n\n constructor({\n // Allocate a new item with the given args\n allocate,\n // Dispose of an item (optional, if GC is enough)\n dispose,\n // Check if an existing item in the list is valid for the given args,\n // allowing you to store heterogeneous items in the list.\n valid,\n }: {\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n }) {\n this.items = [];\n this.allocate = allocate;\n this.dispose = dispose;\n this.valid = valid;\n }\n\n // Allocate a new item from the free list, first checking if a existing item\n // on the freelist is valid for the given args.\n alloc(args: Args): T {\n while (true) {\n const item = this.items.pop();\n if (!item) {\n // No items in the free list, allocate a new one\n break;\n }\n if (this.valid(item, args)) {\n // Found a valid item, return it\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): found valid item. Reusing...`);\n return item;\n }\n // Item isn't valid for our args, dispose of it and try again\n if (this.dispose) {\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): disposing invalid item.`);\n this.dispose(item);\n }\n }\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): allocating new item`);\n return this.allocate(args);\n }\n\n free(item: T) {\n // Return item to the free list\n this.items.push(item);\n }\n\n disposeAll() {\n // Disposes of all items in the free list\n let item: T | undefined;\n item = this.items.pop();\n while (item) {\n if (this.dispose) {\n this.dispose(item);\n }\n item = this.items.pop();\n }\n }\n}\n\nexport function encodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) {\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n extA[i4] = floatBitsToUint(x);\n extA[i4 + 1] = floatBitsToUint(y);\n extA[i4 + 2] = floatBitsToUint(z);\n extA[i4 + 3] = toHalf(opacity);\n extB[i4] = toHalf(r) | (toHalf(g) << 16);\n extB[i4 + 1] = toHalf(b) | (toHalf(Math.log(scaleX)) << 16);\n extB[i4 + 2] = toHalf(Math.log(scaleY)) | (toHalf(Math.log(scaleZ)) << 16);\n extB[i4 + 3] = encodeQuatOctXy1010R12(quatX, quatY, quatZ, quatW);\n}\n\nexport function decodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n result.center.x = uintBitsToFloat(extA[i4]);\n result.center.y = uintBitsToFloat(extA[i4 + 1]);\n result.center.z = uintBitsToFloat(extA[i4 + 2]);\n result.opacity = fromHalf(extA[i4 + 3] & 0xffff);\n result.color.r = fromHalf(extB[i4] & 0xffff);\n result.color.g = fromHalf(extB[i4] >>> 16);\n result.color.b = fromHalf(extB[i4 + 1] & 0xffff);\n result.scales.x = Math.exp(fromHalf(extB[i4 + 1] >>> 16));\n result.scales.y = Math.exp(fromHalf(extB[i4 + 2] & 0xffff));\n result.scales.z = Math.exp(fromHalf(extB[i4 + 2] >>> 16));\n decodeQuatOctXy1010R12(extB[i4 + 3], result.quaternion);\n return result;\n}\n\n// Encode a PackedSplat as 4 consecutive Uint32 elements in the packedSplats array.\n// The center coordinates x,y,z are encoded as float16, the scales x,y,z as a\n// logarithmic uint8, rotation as three uint8s representing rotation axis and angle,\n// and RGBA as 4xuint8.\nexport function setPackedSplat(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * opacity : opacity);\n\n // Alternate internal encodings commented out below.\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n // Encode the splat as 4 consecutive Uint32 elements\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] =\n uScaleX | (uScaleY << 8) | (uScaleZ << 16) | (uQuatZ << 24);\n}\n\n// Encode the center coordinates x,y,z in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatCenter(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n) {\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n const i4 = index * 4;\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (packedSplats[i4 + 2] & 0xffff0000);\n}\n\n// Encode the scales x,y,z in the packedSplats Uint32Array, leaving all other fields as is.\nexport function setPackedSplatScales(\n packedSplats: Uint32Array,\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n encoding?: {\n lnScaleMin?: number;\n lnScaleMax?: number;\n },\n) {\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const i4 = index * 4;\n packedSplats[i4 + 3] =\n uScaleX |\n (uScaleY << 8) |\n (uScaleZ << 16) |\n (packedSplats[i4 + 3] & 0xff000000);\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempQuaternion = new THREE.Quaternion();\n\n// Encode the rotation quatX, quatY, quatZ, quatW in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatQuat(\n packedSplats: Uint32Array,\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n) {\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n const i4 = index * 4;\n packedSplats[i4 + 2] =\n (packedSplats[i4 + 2] & 0x0000ffff) | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] = (packedSplats[i4 + 3] & 0x00ffffff) | (uQuatZ << 24);\n}\n\n// Encode the RGBA color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgba(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n a: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * a : a);\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n}\n\n// Encode the RGB color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgb(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n\n const i4 = index * 4;\n packedSplats[i4] =\n uR | (uG << 8) | (uB << 16) | (packedSplats[i4] & 0xff000000);\n}\n\n// Encode the opacity in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatOpacity(\n packedSplats: Uint32Array,\n index: number,\n opacity: number,\n) {\n const uA = floatToUint8(opacity);\n\n const i4 = index * 4;\n packedSplats[i4] = (packedSplats[i4] & 0x00ffffff) | (uA << 24);\n}\n\nconst packedCenter = new THREE.Vector3();\nconst packedScales = new THREE.Vector3();\nconst packedQuaternion = new THREE.Quaternion();\nconst packedColor = new THREE.Color();\nconst packedFields = {\n center: packedCenter,\n scales: packedScales,\n quaternion: packedQuaternion,\n color: packedColor,\n opacity: 0.0,\n};\n\n// Unpack all components of a PackedSplat from the packedSplats Uint32Array into\n// THREE.js vector objects. The returned objects will be reused each call.\nexport function unpackSplat(\n packedSplats: Uint32Array,\n index: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n\n const i4 = index * 4;\n const word0 = packedSplats[i4];\n const word1 = packedSplats[i4 + 1];\n const word2 = packedSplats[i4 + 2];\n const word3 = packedSplats[i4 + 3];\n\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n result.color.set(\n rgbMin + ((word0 & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 8) & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 16) & 0xff) / 255) * rgbRange,\n );\n result.opacity = ((word0 >>> 24) & 0xff) / 255;\n if (encoding?.lodOpacity) {\n result.opacity = 2.0 * result.opacity;\n }\n result.center.set(\n fromHalf(word1 & 0xffff),\n fromHalf((word1 >>> 16) & 0xffff),\n fromHalf(word2 & 0xffff),\n );\n\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = (lnScaleMax - lnScaleMin) / 254.0;\n const uScalesX = word3 & 0xff;\n result.scales.x =\n uScalesX === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesX - 1) * lnScaleScale);\n const uScalesY = (word3 >>> 8) & 0xff;\n result.scales.y =\n uScalesY === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesY - 1) * lnScaleScale);\n const uScalesZ = (word3 >>> 16) & 0xff;\n result.scales.z =\n uScalesZ === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesZ - 1) * lnScaleScale);\n\n const uQuat = ((word2 >>> 16) & 0xffff) | ((word3 >>> 8) & 0xff0000);\n decodeQuatOctXy88R8(uQuat, result.quaternion);\n // decodeQuatXyz888(uQuat, result.quaternion);\n // decodeQuatEulerXyz888(uQuat, result.quaternion);\n\n return result;\n}\n\n// Compute a texture array size that is large enough to fit numSplats. The most\n// common 2D texture size in WebGL2 is 4096x4096 which only allows for 16M splats,\n// so Spark stores Gsplat data in a 2D texture array, which most platforms support\n// up to 2048x2048x2048 = 8G splats. Allocations that fit within a single 2D texture\n// array layer will be rounded up to fill an entire texture row. Once a texture\n// array layer is filled, the allocation will be rounded up to fill an entire layer.\n// This is done so the entire set of splats can be covered by min/max coords across\n// each dimension.\nexport function getTextureSize(numSplats: number): {\n width: number;\n height: number;\n depth: number;\n maxSplats: number;\n} {\n // Compute a texture array size that is large enough to fit numSplats.\n // The width is always 2048, the height sized to fit the splats but no larger than 2048.\n // The depth is the number of layers needed to fit the splats.\n // maxSplats is computed as the new total available splats that can be stored.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n const maxSplats = width * height * depth;\n return { width, height, depth, maxSplats };\n}\n\nexport function computeMaxSplats(numSplats: number): number {\n // Compute the size of a Gsplat array texture (2048x2048xD) that can fit\n // numSplats splats, and return the total number of splats that can be stored\n // in such a texture.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n return width * height * depth;\n}\n\n// Heuristic function to determine if we are running on a mobile device.\nexport function isMobile(): boolean {\n if (navigator.platform.toLowerCase().startsWith(\"win\")) {\n return false;\n }\n if (navigator.maxTouchPoints > 0) {\n // Touch-enabled device, assume it's mobile\n return true;\n }\n return /Mobi|Android|iPhone|iPad|iPod|Opera Mini|IEMobile/.test(\n navigator.userAgent,\n );\n}\n\n// Heuristic function to determine if we are running on an Android device.\n// (does not include Oculus Quest)\nexport function isAndroid(): boolean {\n return (\n /Android/.test(navigator.userAgent) || /Tizen/.test(navigator.userAgent)\n );\n}\n\n// Heuristic function to determine if we are running on an Oculus Quest device.\nexport function isOculus(): boolean {\n return !!navigator.xr && /Oculus/.test(navigator.userAgent);\n}\n\nexport function isQuest2() {\n return isOculus() && /Quest 2/.test(navigator.userAgent);\n}\n\nexport function isIos(): boolean {\n return /iPhone|iPad/.test(navigator.userAgent);\n}\n\nexport function isVisionPro(): boolean {\n return (\n !!navigator.xr &&\n isIos() &&\n /Safari/.test(navigator.userAgent) &&\n isMobile()\n );\n}\n\n// Take an array of RGBA8 encoded pixels and flip them vertically in-place.\n// This is useful for converting between top-left and bottom-left coordinate systems\n// in standard 2D images vs WebGL2.\nexport function flipPixels(\n pixels: Uint8Array,\n width: number,\n height: number,\n): Uint8Array {\n // Flips pixels vertically in-place, returns original array.\n const tempLine = new Uint8Array(width * 4);\n\n // Only need to process half the height since we're swapping\n for (let y = 0; y < height / 2; y++) {\n const topOffset = y * width * 4;\n const bottomOffset = (height - 1 - y) * width * 4;\n\n // Save top line to temp buffer\n tempLine.set(pixels.subarray(topOffset, topOffset + width * 4));\n // Move bottom line to top\n pixels.set(\n pixels.subarray(bottomOffset, bottomOffset + width * 4),\n topOffset,\n );\n // Move saved top line to bottom\n pixels.set(tempLine, bottomOffset);\n }\n return pixels;\n}\n\n// Utility to take an array of RGBA8 encoded pixels and convert them to a\n// PNG-encoded image data URL that can be downloaded to the client.\nexport function pixelsToPngUrl(\n pixels: Uint8Array,\n width: number,\n height: number,\n): string {\n const canvas = document.createElement(\"canvas\");\n canvas.width = width;\n canvas.height = height;\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n throw new Error(\"Can't get 2d context\");\n }\n const imageData = ctx.createImageData(width, height);\n imageData.data.set(pixels);\n ctx.putImageData(imageData, 0, 0);\n return canvas.toDataURL(\"image/png\");\n}\n\n// Manually clone a THREE.Clock object.\nexport function cloneClock(clock: THREE.Clock): THREE.Clock {\n const newClock = new THREE.Clock(clock.autoStart);\n newClock.startTime = clock.startTime;\n newClock.oldTime = clock.oldTime;\n newClock.elapsedTime = clock.elapsedTime;\n newClock.running = clock.running;\n return newClock;\n}\n\n// Utility to filter out an undefined values from an object.\nexport function omitUndefined(obj: T): Partial {\n return Object.fromEntries(\n Object.entries(obj).filter(([_, value]) => value !== undefined),\n ) as Partial;\n}\n\n// \"Identity\" vertex shader that just passes through the position.\nexport const IDENT_VERTEX_SHADER = unindent(`\n precision highp float;\n\n in vec3 position;\n\n void main() {\n gl_Position = vec4(position.xy, 0.0, 1.0);\n }\n`);\n\n// Returns the average position of an array of THREE.Vector3.\nexport function averagePositions(positions: THREE.Vector3[]): THREE.Vector3 {\n const sum = new THREE.Vector3();\n for (const position of positions) {\n sum.add(position);\n }\n return sum.divideScalar(positions.length);\n}\n\n// Returns an \"average\" of an array of THREE.Quaternion objects.\n// Note that this is not a spherical lerp between quaternions but\n// rather an arithmetic mean that is normalized to unit length.\nexport function averageQuaternions(\n quaternions: THREE.Quaternion[],\n): THREE.Quaternion {\n if (quaternions.length === 0) {\n return new THREE.Quaternion();\n }\n const sum = quaternions[0].clone();\n for (let i = 1; i < quaternions.length; i++) {\n if (quaternions[i].dot(quaternions[0]) < 0.0) {\n sum.x -= quaternions[i].x;\n sum.y -= quaternions[i].y;\n sum.z -= quaternions[i].z;\n sum.w -= quaternions[i].w;\n } else {\n sum.x += quaternions[i].x;\n sum.y += quaternions[i].y;\n sum.z += quaternions[i].z;\n sum.w += quaternions[i].w;\n }\n }\n return sum.normalize();\n}\n\n// Compare two coordinates given by matrix1 and matrix2, returning the distance\n// between their origins and the \"coincidence\" of their orientations, defined\n// as the dot product of their \"-z\" axes.\nexport function coinciDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n const direction1 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix1)\n .sub(origin1)\n .normalize();\n const direction2 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix2)\n .sub(origin2)\n .normalize();\n\n const distance = origin1.distanceTo(origin2);\n const coincidence = direction1.dot(direction2);\n return { distance, coincidence };\n}\n\n// Utility function that returns whether two coordinate system origins\n// given by matrix1 and matrix2 are within a certain maxDistance of each other.\nexport function withinDist({\n matrix1,\n matrix2,\n maxDistance,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n}): boolean {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n return origin1.distanceTo(origin2) <= maxDistance;\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined by a maxDistance and a minCoincidence.\nexport function withinCoinciDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoincidence,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoincidence?: number;\n}): boolean {\n const { distance, coincidence } = coinciDist(matrix1, matrix2);\n return (\n distance <= maxDistance &&\n (minCoincidence == null || coincidence >= minCoincidence)\n );\n}\n\n// Compare two coordinate systems given by matrix1 and matrix2, returning the\n// distance between their origins and the \"coorientation\" of their orientations,\n// define as the dot product of their quaternion transforms (flipping their\n// orientation to be on the same hemisphere if necessary).\nexport function coorientDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const [origin1, rotate1] = [new THREE.Vector3(), new THREE.Quaternion()];\n const [origin2, rotate2] = [new THREE.Vector3(), new THREE.Quaternion()];\n matrix1.decompose(origin1, rotate1, new THREE.Vector3());\n matrix2.decompose(origin2, rotate2, new THREE.Vector3());\n\n const distance = origin1.distanceTo(origin2);\n const coorient = Math.abs(rotate1.dot(rotate2));\n return { distance, coorient };\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined a maxDistance and a minCoorient.\nexport function withinCoorientDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoorient,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoorient?: number;\n}): boolean {\n const { distance, coorient } = coorientDist(matrix1, matrix2);\n return (\n distance <= maxDistance && (minCoorient == null || coorient >= minCoorient)\n );\n}\n\n// Like Math.sign but with a custom epsilon value.\nexport function epsilonSign(value: number, epsilon = 0.001): number {\n if (Math.abs(value) < epsilon) {\n return 0;\n }\n return Math.sign(value);\n}\n\n// Encode a THREE.Quaternion into a 24-bit integer, converting the xyz coordinates\n// to signed 8-bit integers (w can be derived from xyz), and flipping the sign\n// of the quaternion if necessary to make this possible (q == -q for quaternions).\nexport function encodeQuatXyz888(q: THREE.Quaternion): number {\n const negQuat = q.w < 0.0;\n const iQuatX = floatToSint8(negQuat ? -q.x : q.x);\n const iQuatY = floatToSint8(negQuat ? -q.y : q.y);\n const iQuatZ = floatToSint8(negQuat ? -q.z : q.z);\n const uQuatX = iQuatX & 0xff;\n const uQuatY = iQuatY & 0xff;\n const uQuatZ = iQuatZ & 0xff;\n return uQuatX | (uQuatY << 8) | (uQuatZ << 16);\n}\n\n// Decode a 24-bit integer of the quaternion's xyz coordinates into a THREE.Quaternion.\nexport function decodeQuatXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n const iQuatX = (encoded << 24) >> 24;\n const iQuatY = (encoded << 16) >> 24;\n const iQuatZ = (encoded << 8) >> 24;\n out.set(iQuatX / 127.0, iQuatY / 127.0, iQuatZ / 127.0, 0.0);\n const dotSelf = out.x * out.x + out.y * out.y + out.z * out.z;\n out.w = Math.sqrt(Math.max(0.0, 1.0 - dotSelf));\n return out;\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempNormalizedQuaternion = new THREE.Quaternion();\nconst tempAxis = new THREE.Vector3();\n\n/**\n * Encodes a THREE.Quaternion into a 24‐bit integer.\n *\n * Bit layout (LSB → MSB):\n * - Bits 0–7: quantized U (8 bits)\n * - Bits 8–15: quantized V (8 bits)\n * - Bits 16–23: quantized angle θ (8 bits) from [0,π]\n *\n * This version uses folded octahedral mapping (all inline).\n */\nexport function encodeQuatOctXy88R8(q: THREE.Quaternion): number {\n // Force the minimal representation (q.w >= 0)\n const qnorm = tempNormalizedQuaternion.copy(q).normalize();\n if (qnorm.w < 0) {\n qnorm.set(-qnorm.x, -qnorm.y, -qnorm.z, -qnorm.w);\n }\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnorm.w);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(\n qnorm.x * qnorm.x + qnorm.y * qnorm.y + qnorm.z * qnorm.z,\n );\n const axis =\n xyz_norm < 1e-6\n ? tempAxis.set(1, 0, 0)\n : tempAxis.set(qnorm.x, qnorm.y, qnorm.z).divideScalar(xyz_norm);\n // const foldAxis = (axis.z < 0);\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axis.x) + Math.abs(axis.y) + Math.abs(axis.z);\n let p_x = axis.x / sum;\n let p_y = axis.y / sum;\n // Fold the lower hemisphere.\n if (axis.z < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 7 bits (0..127)\n const quantU = Math.round(u_f * 255);\n const quantV = Math.round(v_f * 255);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 10 bits (0..1023) ---\n const angleInt = Math.round(theta * (255 / Math.PI));\n\n // Pack into 24 bits: bits [0–7]: quantU, [8–15]: quantV, [16–23]: angleInt.\n return (angleInt << 16) | (quantV << 8) | quantU;\n}\n\n/**\n * Decodes a 24‐bit encoded quaternion (packed in a number) back to a THREE.Quaternion.\n *\n * Assumes the same bit layout as in encodeQuatOctXy88R8.\n */\nexport function decodeQuatOctXy88R8(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 8‐bit quantU and quantV, and 8‐bit angleInt.\n const quantU = encoded & 0xff; // bits 0–7\n const quantV = (encoded >>> 8) & 0xff; // bits 8–15\n const angleInt = (encoded >>> 16) & 0xff; // bits 16–23\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 255;\n const v_f = quantV / 255;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axis = tempAxis.set(f_x, f_y, f_z).normalize();\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 255) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axis.x * s, axis.y * s, axis.z * s, w);\n return out;\n}\n\n/**\n * Encodes a THREE.Quaternion into a 24‑bit unsigned integer\n * by converting it to Euler angles (roll, pitch, yaw).\n * The Euler angles are assumed to be in radians in the range [-π, π].\n * Each angle is normalized to [0,1] and quantized to 8 bits.\n * Bit layout (LSB→MSB):\n * - Bits 0–7: roll (quantized)\n * - Bits 8–15: pitch (quantized)\n * - Bits 16–23: yaw (quantized)\n */\nexport function encodeQuatEulerXyz888(q: THREE.Quaternion): number {\n // Normalize quaternion to ensure a proper rotation.\n const qNorm = q.clone().normalize();\n\n // Tait–Bryan angles (roll, pitch, yaw)\n const sinr_cosp = 2.0 * (qNorm.w * qNorm.x + qNorm.y * qNorm.z);\n const cosr_cosp = 1.0 - 2.0 * (qNorm.x * qNorm.x + qNorm.y * qNorm.y);\n const roll = Math.atan2(sinr_cosp, cosr_cosp);\n\n const sinp = 2.0 * (qNorm.w * qNorm.y - qNorm.z * qNorm.x);\n const pitch =\n Math.abs(sinp) >= 1.0 ? Math.sign(sinp) * (Math.PI / 2) : Math.asin(sinp);\n\n const siny_cosp = 2.0 * (qNorm.w * qNorm.z + qNorm.x * qNorm.y);\n const cosy_cosp = 1.0 - 2.0 * (qNorm.y * qNorm.y + qNorm.z * qNorm.z);\n const yaw = Math.atan2(siny_cosp, cosy_cosp);\n\n // Map each angle from [-π, π] to [0, 1]\n const normRoll = (roll + Math.PI) / (2 * Math.PI);\n const normPitch = (pitch + Math.PI) / (2 * Math.PI);\n const normYaw = (yaw + Math.PI) / (2 * Math.PI);\n\n // Quantize to 8 bits (0 to 255)\n const rollQ = Math.round(normRoll * 255);\n const pitchQ = Math.round(normPitch * 255);\n const yawQ = Math.round(normYaw * 255);\n\n // Pack into a 24-bit unsigned integer:\n // Bits 0–7: rollQ, Bits 8–15: pitchQ, Bits 16–23: yawQ.\n return (yawQ << 16) | (pitchQ << 8) | rollQ;\n}\n\n/**\n * Decodes a 24‑bit unsigned integer into a THREE.Quaternion\n * by unpacking three 8‑bit values (roll, pitch, yaw) in the range [0,255]\n * and then converting them back to Euler angles in [-π, π] and to a quaternion.\n */\nexport function decodeQuatEulerXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Unpack 8‑bit values.\n const rollQ = encoded & 0xff;\n const pitchQ = (encoded >>> 8) & 0xff;\n const yawQ = (encoded >>> 16) & 0xff;\n\n // Convert quantized values back to normalized [0,1] values.\n const normRoll = rollQ / 255;\n const normPitch = pitchQ / 255;\n const normYaw = yawQ / 255;\n\n // Map from [0,1] to [-π, π]\n const roll = normRoll * (2 * Math.PI) - Math.PI;\n const pitch = normPitch * (2 * Math.PI) - Math.PI;\n const yaw = normYaw * (2 * Math.PI) - Math.PI;\n\n // Convert Euler angles to quaternion (Tait–Bryan: roll, pitch, yaw).\n const cr = Math.cos(roll * 0.5);\n const sr = Math.sin(roll * 0.5);\n const cp = Math.cos(pitch * 0.5);\n const sp = Math.sin(pitch * 0.5);\n const cy = Math.cos(yaw * 0.5);\n const sy = Math.sin(yaw * 0.5);\n\n out.w = cr * cp * cy + sr * sp * sy;\n out.x = sr * cp * cy - cr * sp * sy;\n out.y = cr * sp * cy + sr * cp * sy;\n out.z = cr * cp * sy - sr * sp * cy;\n out.normalize();\n return out;\n}\n\nexport function encodeQuatOctXy1010R12(\n qx: number,\n qy: number,\n qz: number,\n qw: number,\n): number {\n const qlen = Math.sqrt(qx * qx + qy * qy + qz * qz + qw * qw);\n // Force the minimal representation (q.w >= 0)\n const qnx = (qw < 0 ? -qx : qx) / qlen;\n const qny = (qw < 0 ? -qy : qy) / qlen;\n const qnz = (qw < 0 ? -qz : qz) / qlen;\n const qnw = (qw < 0 ? -qw : qw) / qlen;\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnw);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(qnx * qnx + qny * qny + qnz * qnz);\n const axisX = xyz_norm < 1e-6 ? 1 : qnx / xyz_norm;\n const axisY = xyz_norm < 1e-6 ? 0 : qny / xyz_norm;\n const axisZ = xyz_norm < 1e-6 ? 0 : qnz / xyz_norm;\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axisX) + Math.abs(axisY) + Math.abs(axisZ);\n let p_x = axisX / sum;\n let p_y = axisY / sum;\n // Fold the lower hemisphere.\n if (axisZ < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 10 bits (0..1023)\n const quantU = Math.round(u_f * 1023);\n const quantV = Math.round(v_f * 1023);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 12 bits (0..4095) ---\n const angleInt = Math.round(theta * (4095 / Math.PI));\n\n // Pack into 32 bits: bits [0–9]: quantU, [10–19]: quantV, [20–31]: angleInt.\n return (angleInt << 20) | (quantV << 10) | quantU;\n}\n\nexport function decodeQuatOctXy1010R12(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 10‐bit quantU and quantV, and 12‐bit angleInt.\n const quantU = encoded & 0x3ff; // bits 0–9\n const quantV = (encoded >>> 10) & 0x3ff; // bits 10–19\n const angleInt = (encoded >>> 20) & 0xfff; // bits 20–31\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 1023;\n const v_f = quantV / 1023;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axisLen = Math.sqrt(f_x * f_x + f_y * f_y + f_z * f_z);\n const axisX = axisLen < 1e-6 ? 0 : f_x / axisLen;\n const axisY = axisLen < 1e-6 ? 0 : f_y / axisLen;\n const axisZ = axisLen < 1e-6 ? 0 : f_z / axisLen;\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 4095) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axisX * s, axisY * s, axisZ * s, w);\n return out;\n}\n\n// Pack four signed 8-bit values into a single uint32.\nfunction packSint8Bytes(\n b0: number,\n b1: number,\n b2: number,\n b3: number,\n): number {\n const clampedB0 = Math.round(Math.max(-127, Math.min(127, b0 * 127)));\n const clampedB1 = Math.round(Math.max(-127, Math.min(127, b1 * 127)));\n const clampedB2 = Math.round(Math.max(-127, Math.min(127, b2 * 127)));\n const clampedB3 = Math.round(Math.max(-127, Math.min(127, b3 * 127)));\n return (\n (clampedB0 & 0xff) |\n ((clampedB1 & 0xff) << 8) |\n ((clampedB2 & 0xff) << 16) |\n ((clampedB3 & 0xff) << 24)\n );\n}\n\n// Encode an array of 9 signed RGB SH1 coefficients (clamped to [-1,1]) into\n// a pair of uint32 values, where each coefficient is stored as a sint7\nexport function encodeSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n encoding?: {\n sh1Max?: number;\n },\n) {\n const sh1Max = encoding?.sh1Max ?? 1;\n const sh1Scale = 63 / sh1Max;\n\n // Pack sint7 values into 2 x uint32\n const base = index * 2;\n for (let i = 0; i < 9; ++i) {\n const s = sh1Rgb[i] * sh1Scale;\n const value = Math.round(Math.max(-63, Math.min(63, s))) & 0x7f;\n const bitStart = i * 7;\n const bitEnd = bitStart + 7;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh1Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh1Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\n// Encode an array of 15 signed RGB SH2 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint8.\nexport function encodeSh2Rgb(\n sh2Array: Uint32Array,\n index: number,\n sh2Rgb: Float32Array,\n encoding?: {\n sh2Max?: number;\n },\n) {\n const sh2Max = encoding?.sh2Max ?? 1;\n const sh2Scale = 1 / sh2Max;\n\n // Pack sint8 values into 4 x uint32\n sh2Array[index * 4 + 0] = packSint8Bytes(\n sh2Rgb[0] * sh2Scale,\n sh2Rgb[1] * sh2Scale,\n sh2Rgb[2] * sh2Scale,\n sh2Rgb[3] * sh2Scale,\n );\n sh2Array[index * 4 + 1] = packSint8Bytes(\n sh2Rgb[4] * sh2Scale,\n sh2Rgb[5] * sh2Scale,\n sh2Rgb[6] * sh2Scale,\n sh2Rgb[7] * sh2Scale,\n );\n sh2Array[index * 4 + 2] = packSint8Bytes(\n sh2Rgb[8] * sh2Scale,\n sh2Rgb[9] * sh2Scale,\n sh2Rgb[10] * sh2Scale,\n sh2Rgb[11] * sh2Scale,\n );\n sh2Array[index * 4 + 3] = packSint8Bytes(\n sh2Rgb[12] * sh2Scale,\n sh2Rgb[13] * sh2Scale,\n sh2Rgb[14] * sh2Scale,\n 0,\n );\n}\n\n// Encode an array of 21 signed RGB SH3 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint6.\nexport function encodeSh3Rgb(\n sh3Array: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n encoding?: {\n sh3Max?: number;\n },\n) {\n const sh3Max = encoding?.sh3Max ?? 1;\n const sh3Scale = 31 / sh3Max;\n\n // Pack sint6 values into 4 x uint32\n const base = index * 4;\n for (let i = 0; i < 21; ++i) {\n const s = sh3Rgb[i] * sh3Scale;\n const value = Math.round(Math.max(-31, Math.min(31, s))) & 0x3f;\n const bitStart = i * 6;\n const bitEnd = bitStart + 6;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh3Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh3Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\nexport function encodeExtRgb(r: number, g: number, b: number): number {\n const ar = Math.abs(r);\n const ag = Math.abs(g);\n const ab = Math.abs(b);\n const maxAbs = Math.max(ar, ag, ab);\n const base = Math.floor(Math.log2(maxAbs));\n const biasedBase = Math.max(0, Math.min(31, base + 15));\n const divisor = 2 ** (biasedBase - 15) / 255;\n const uR = Math.round(Math.max(0, Math.min(255, ar / divisor)));\n const uG = Math.round(Math.max(0, Math.min(255, ag / divisor)));\n const uB = Math.round(Math.max(0, Math.min(255, ab / divisor)));\n const expSigns =\n (biasedBase << 3) |\n ((r < 0 ? 0x1 : 0) | (g < 0 ? 0x2 : 0) | (b < 0 ? 0x4 : 0));\n return uR | (uG << 8) | (uB << 16) | (expSigns << 24);\n}\n\nexport function decodeExtRgb(encoded: number): THREE.Color {\n const color = packedFields.color;\n const biasedBase = (encoded >>> 27) & 0x1f;\n const divisor = 2 ** (biasedBase - 15) / 255;\n const r = (encoded & 0xff) * divisor;\n const g = ((encoded >>> 8) & 0xff) * divisor;\n const b = ((encoded >>> 16) & 0xff) * divisor;\n color.r = encoded & 0x1000000 ? -r : r;\n color.g = encoded & 0x2000000 ? -g : g;\n color.b = encoded & 0x4000000 ? -b : b;\n return color;\n}\n\nexport function encodeExtSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n}\n\nexport function encodeExtSh12Rgb(\n sh1Array: Uint32Array,\n sh2Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n sh2Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n sh1Array[i4 + 3] = encodeExtRgb(sh2Rgb[0], sh2Rgb[1], sh2Rgb[2]);\n for (let k = 1; k < 5; ++k) {\n const k5 = k * 5;\n sh2Array[i4 + (k - 1)] = encodeExtRgb(\n sh2Rgb[k5],\n sh2Rgb[k5 + 1],\n sh2Rgb[k5 + 2],\n );\n }\n}\n\nexport function encodeExt3Rgb(\n sh3ArrayA: Uint32Array,\n sh3ArrayB: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 4; ++k) {\n const k3 = k * 3;\n sh3ArrayA[i4 + k] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n for (let k = 4; k < 7; ++k) {\n const k3 = k * 3;\n sh3ArrayB[i4 + (k - 4)] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n}\n\n// Partially decompress a gzip-encoded Uint8Array, returning a Uint8Array of\n// the specified numBytes from the start of the file.\nexport function decompressPartialGzip(\n fileBytes: Uint8Array,\n numBytes: number,\n): Uint8Array {\n const chunks: Uint8Array[] = [];\n let totalBytes = 0;\n let result: Uint8Array | null = null;\n\n const gunzip = new Gunzip((data, final) => {\n chunks.push(data);\n totalBytes += data.length;\n if (final || totalBytes >= numBytes) {\n const allBytes = new Uint8Array(totalBytes);\n let offset = 0;\n for (const chunk of chunks) {\n allBytes.set(chunk, offset);\n offset += chunk.length;\n }\n result = allBytes.slice(0, numBytes);\n }\n });\n\n const CHUNK_SIZE = 1024;\n let offset = 0;\n while (result == null && offset < fileBytes.length) {\n const chunk = fileBytes.slice(offset, offset + CHUNK_SIZE);\n gunzip.push(chunk, false);\n offset += CHUNK_SIZE;\n }\n\n if (result == null) {\n gunzip.push(new Uint8Array(), true);\n if (result == null) {\n throw new Error(\"Failed to decompress partial gzip\");\n }\n }\n return result;\n}\n\nexport class GunzipReader {\n fileBytes: Uint8Array;\n chunkBytes: number;\n\n chunks: Uint8Array[];\n totalBytes: number;\n reader: ReadableStreamDefaultReader;\n\n constructor({\n fileBytes,\n chunkBytes = 64 * 1024,\n }: { fileBytes: Uint8Array; chunkBytes?: number }) {\n this.fileBytes = fileBytes;\n this.chunkBytes = chunkBytes;\n this.chunks = [];\n this.totalBytes = 0;\n\n const ds = new DecompressionStream(\"gzip\");\n const decompressionStream = new Blob([fileBytes]).stream().pipeThrough(ds);\n this.reader = decompressionStream.getReader();\n }\n\n async read(numBytes: number): Promise {\n while (this.totalBytes < numBytes) {\n const { value: chunk, done: readerDone } = await this.reader.read();\n if (readerDone) {\n break;\n }\n\n this.chunks.push(chunk);\n this.totalBytes += chunk.length;\n }\n\n if (this.totalBytes < numBytes) {\n throw new Error(\n `Unexpected EOF: needed ${numBytes}, got ${this.totalBytes}`,\n );\n }\n\n const allBytes = new Uint8Array(this.totalBytes);\n let outOffset = 0;\n for (const chunk of this.chunks) {\n allBytes.set(chunk, outOffset);\n outOffset += chunk.length;\n }\n\n const result = allBytes.subarray(0, numBytes);\n this.chunks = [allBytes.subarray(numBytes)];\n this.totalBytes -= numBytes;\n return result;\n }\n}\n","import type { SplatEncoding } from \"./defines\";\nimport { computeMaxSplats, setPackedSplat } from \"./utils\";\n\nexport function decodeAntiSplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n) {\n const numSplats = Math.floor(fileBytes.length / 32); // 32 bytes per splat\n if (numSplats * 32 !== fileBytes.length) {\n throw new Error(\"Invalid .splat file size\");\n }\n initNumSplats(numSplats);\n\n const f32 = new Float32Array(fileBytes.buffer);\n for (let i = 0; i < numSplats; ++i) {\n const i32 = i * 32;\n const i8 = i * 8;\n const x = f32[i8 + 0];\n const y = f32[i8 + 1];\n const z = f32[i8 + 2];\n const scaleX = f32[i8 + 3];\n const scaleY = f32[i8 + 4];\n const scaleZ = f32[i8 + 5];\n const r = fileBytes[i32 + 24] / 255;\n const g = fileBytes[i32 + 25] / 255;\n const b = fileBytes[i32 + 26] / 255;\n const opacity = fileBytes[i32 + 27] / 255;\n const quatW = (fileBytes[i32 + 28] - 128) / 128;\n const quatX = (fileBytes[i32 + 29] - 128) / 128;\n const quatY = (fileBytes[i32 + 30] - 128) / 128;\n const quatZ = (fileBytes[i32 + 31] - 128) / 128;\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n }\n}\n\nexport function unpackAntiSplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n} {\n let numSplats = 0;\n let maxSplats = 0;\n let packedArray = new Uint32Array(0);\n decodeAntiSplat(\n fileBytes,\n (cbNumSplats) => {\n numSplats = cbNumSplats;\n maxSplats = computeMaxSplats(numSplats);\n packedArray = new Uint32Array(maxSplats * 4);\n },\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n setPackedSplat(\n packedArray,\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n },\n );\n return { packedArray, numSplats };\n}\n","import type { SplatEncoding } from \"./defines\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n fromHalf,\n setPackedSplat,\n} from \"./utils\";\n\ntype KsplatCompression = {\n bytesPerCenter: number;\n bytesPerScale: number;\n bytesPerRotation: number;\n bytesPerColor: number;\n bytesPerSphericalHarmonicsComponent: number;\n scaleOffsetBytes: number;\n rotationOffsetBytes: number;\n colorOffsetBytes: number;\n sphericalHarmonicsOffsetBytes: number;\n scaleRange: number;\n};\n\nconst KSPLAT_COMPRESSION: Record = {\n 0: {\n bytesPerCenter: 12,\n bytesPerScale: 12,\n bytesPerRotation: 16,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 4,\n scaleOffsetBytes: 12,\n rotationOffsetBytes: 24,\n colorOffsetBytes: 40,\n sphericalHarmonicsOffsetBytes: 44,\n scaleRange: 1,\n },\n 1: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 2,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n 2: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 1,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n};\n\nconst KSPLAT_SH_DEGREE_TO_COMPONENTS: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nexport function decodeKsplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n) {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n initNumSplats(numSplats);\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n\n if (sphericalHarmonicsDegree >= 1 && sh1) {\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n if (sh2) {\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n }\n if (sh3) {\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n sectionBase += storageSizeBytes;\n }\n}\n\nexport function unpackKsplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n} {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n setPackedSplat(\n packedArray,\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n\n if (sphericalHarmonicsDegree >= 1) {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, i, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, i, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, i, sh3, splatEncoding);\n }\n }\n }\n sectionBase += storageSizeBytes;\n }\n return { packedArray, numSplats, extra };\n}\n","// PLY file format reader\n\nimport { USE_COMPILED_PARSER_FUNCTION } from \"./defines\";\n\nconst PLY_PROPERTY_TYPES = [\n \"char\",\n \"uchar\",\n \"short\",\n \"ushort\",\n \"int\",\n \"uint\",\n \"float\",\n \"double\",\n] as const;\nexport type PlyPropertyType = (typeof PLY_PROPERTY_TYPES)[number];\n\nexport type PlyElement = {\n name: string;\n count: number;\n properties: Record;\n};\n\nexport type PlyProperty = {\n isList: boolean;\n type: PlyPropertyType;\n countType?: PlyPropertyType;\n};\n\n// Callback for parseSplats base Gsplat data\nexport type SplatCallback = (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) => void;\n\n// Callback for parseSplats SH coefficients\nexport type SplatShCallback = (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n) => void;\n\n// A PlyReader is used to parse PLY files for Gsplat data.\n// It takes a Uint8Array/ArrayBuffer as input fileBytes, parses the text header,\n// and provides a method parseData to iterate over the entire binary data\n// efficiently, or parseSplats to iterate over Gsplat data.\n\nexport class PlyReader {\n fileBytes: Uint8Array;\n header = \"\";\n littleEndian = true;\n elements: Record = {};\n comments: string[] = [];\n data: DataView | null = null;\n static defaultPointScale = 0.001;\n\n numSplats = 0;\n\n // Create a PlyReader from a Uint8Array/ArrayBuffer, no parsing done yet\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n }\n\n // Identify and parse the PLY text header (assumed to be <64KB in size).\n // this.elements will contain all the elements in the file, typically\n // \"vertex\" contains the Gsplat data.\n async parseHeader() {\n const bufferStream = new ReadableStream({\n start: (\n controller: ReadableStreamController>,\n ) => {\n // Assume the header is less than 64KB\n controller.enqueue(this.fileBytes.slice(0, 65536));\n controller.close();\n },\n });\n const decoder = bufferStream\n .pipeThrough(new TextDecoderStream())\n .getReader();\n\n // Find the end of the text section of the PLY file\n this.header = \"\";\n const headerTerminator = \"end_header\\n\";\n while (true) {\n const { value, done } = await decoder.read();\n if (done) {\n throw new Error(\"Failed to read header\");\n }\n\n this.header += value as string;\n const endHeader = this.header.indexOf(headerTerminator);\n if (endHeader >= 0) {\n this.header = this.header.slice(0, endHeader + headerTerminator.length);\n break;\n }\n }\n // Partition the file into header and binary data\n const headerLen = new TextEncoder().encode(this.header).length;\n this.data = new DataView(this.fileBytes.buffer, headerLen);\n\n this.elements = {};\n let curElement: PlyElement | null = null;\n this.comments = [];\n\n this.header\n .trim()\n .split(\"\\n\")\n .forEach((line: string, lineIndex: number) => {\n const trimmedLine = line.trim();\n if (lineIndex === 0) {\n if (trimmedLine !== \"ply\") {\n throw new Error(\"Invalid PLY header\");\n }\n return;\n }\n if (trimmedLine.length === 0) {\n return; // Skip empty lines\n }\n\n const fields = trimmedLine.split(\" \");\n switch (fields[0]) {\n case \"format\":\n if (fields[1] === \"binary_little_endian\") {\n this.littleEndian = true;\n } else if (fields[1] === \"binary_big_endian\") {\n this.littleEndian = false;\n } else {\n // ascii formats not supported\n throw new Error(`Unsupported PLY format: ${fields[1]}`);\n }\n if (fields[2] !== \"1.0\") {\n throw new Error(`Unsupported PLY version: ${fields[2]}`);\n }\n break;\n case \"end_header\":\n break;\n case \"comment\":\n this.comments.push(trimmedLine.slice(\"comment \".length));\n break;\n case \"element\": {\n const name = fields[1];\n curElement = {\n name,\n count: Number.parseInt(fields[2]),\n properties: {},\n };\n this.elements[name] = curElement;\n break;\n }\n case \"property\":\n if (curElement == null) {\n throw new Error(\"Property must be inside an element\");\n }\n if (fields[1] === \"list\") {\n curElement.properties[fields[4]] = {\n isList: true,\n type: fields[3] as PlyPropertyType,\n countType: fields[2] as PlyPropertyType,\n };\n } else {\n curElement.properties[fields[2]] = {\n isList: false,\n type: fields[1] as PlyPropertyType,\n };\n }\n break;\n default:\n // console.warn(`Skipping unsupported PLY keyword: ${fields[0]}`);\n }\n });\n\n if (this.elements.vertex) {\n this.numSplats = this.elements.vertex.count;\n }\n }\n\n parseData(\n elementCallback: (\n element: PlyElement,\n ) =>\n | null\n | ((index: number, item: Record) => void),\n ) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No data to parse\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const item = createEmptyItem(properties);\n // Construct a parse function\n const parseFn = createParseFn(properties, this.littleEndian);\n\n // Parse all the items in the element\n const callback = elementCallback(element) ?? (() => {});\n for (let index = 0; index < count; index++) {\n offset = parseFn(data, offset, item);\n callback(index, item);\n }\n }\n }\n\n // Parse all the Gsplat data in the PLY file in go, invoking the given\n // callbacks for each Gsplat.\n parseSplats(splatCallback: SplatCallback, shCallback?: SplatShCallback) {\n if (this.elements.vertex == null) {\n throw new Error(\"No vertex element found\");\n }\n\n let isSuperSplat = false;\n const ssChunks: SSChunk[] = [];\n\n let numSh = 0;\n let sh1Props: number[] = [];\n let sh2Props: number[] = [];\n let sh3Props: number[] = [];\n let sh1: Float32Array | undefined = undefined;\n let sh2: Float32Array | undefined = undefined;\n let sh3: Float32Array | undefined = undefined;\n\n function prepareSh() {\n // Prepare SH coefficient names and arrays for numSh total SH levels\n const num_f_rest = NUM_SH_TO_NUM_F_REST[numSh];\n sh1Props = new Array(3)\n .fill(null)\n .flatMap((_, k) => [0, 1, 2].map((_, d) => k + (d * num_f_rest) / 3));\n sh2Props = new Array(5)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 3 + k + (d * num_f_rest) / 3),\n );\n sh3Props = new Array(7)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 8 + k + (d * num_f_rest) / 3),\n );\n sh1 = numSh >= 1 ? new Float32Array(3 * 3) : undefined;\n sh2 = numSh >= 2 ? new Float32Array(5 * 3) : undefined;\n sh3 = numSh >= 3 ? new Float32Array(7 * 3) : undefined;\n }\n\n function ssShCallback(\n index: number,\n item: Record,\n ) {\n // Decode SH for SuperSplat compressed data\n if (!sh1) {\n throw new Error(\"Missing sh1\");\n }\n const sh = item.f_rest as number[];\n\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = (sh[sh1Props[i]] * 8) / 255 - 4;\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = (sh[sh2Props[i]] * 8) / 255 - 4;\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = (sh[sh3Props[i]] * 8) / 255 - 4;\n }\n }\n shCallback?.(index, sh1, sh2, sh3);\n }\n\n function initSuperSplat(element: PlyElement) {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n } = element.properties;\n if (\n !min_x ||\n !min_y ||\n !min_z ||\n !max_x ||\n !max_y ||\n !max_z ||\n !min_scale_x ||\n !min_scale_y ||\n !min_scale_z ||\n !max_scale_x ||\n !max_scale_y ||\n !max_scale_z\n ) {\n throw new Error(\"Missing PLY chunk properties\");\n }\n\n // SuperSplat chunks are used to quantize splat data, so we need to store them\n isSuperSplat = true;\n return (index: number, item: Record) => {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = item as Record;\n ssChunks.push({\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n });\n };\n }\n\n function decodeSuperSplat(element: PlyElement) {\n // Decode SuperSplat compressed data in vertex and sh elements\n if (shCallback && element.name === \"sh\") {\n numSh = getNumSh(element.properties);\n prepareSh();\n return ssShCallback;\n }\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n element.properties;\n if (\n !packed_position ||\n !packed_rotation ||\n !packed_scale ||\n !packed_color\n ) {\n throw new Error(\n \"Missing PLY properties: packed_position, packed_rotation, packed_scale, packed_color\",\n );\n }\n\n const SQRT2 = Math.sqrt(2);\n\n return (index: number, item: Record) => {\n // SuperSplat data are quantized within chunks with 256 Gsplats each\n const chunk = ssChunks[index >>> 8];\n if (chunk == null) {\n throw new Error(\"Missing PLY chunk\");\n }\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = chunk;\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n item as Record;\n\n const x =\n (((packed_position >>> 21) & 2047) / 2047) * (max_x - min_x) + min_x;\n const y =\n (((packed_position >>> 11) & 1023) / 1023) * (max_y - min_y) + min_y;\n const z = ((packed_position & 2047) / 2047) * (max_z - min_z) + min_z;\n\n const r0 = (((packed_rotation >>> 20) & 1023) / 1023 - 0.5) * SQRT2;\n const r1 = (((packed_rotation >>> 10) & 1023) / 1023 - 0.5) * SQRT2;\n const r2 = ((packed_rotation & 1023) / 1023 - 0.5) * SQRT2;\n const rr = Math.sqrt(Math.max(0, 1.0 - r0 * r0 - r1 * r1 - r2 * r2));\n\n const rOrder = packed_rotation >>> 30;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n\n const scaleX = Math.exp(\n (((packed_scale >>> 21) & 2047) / 2047) *\n (max_scale_x - min_scale_x) +\n min_scale_x,\n );\n const scaleY = Math.exp(\n (((packed_scale >>> 11) & 1023) / 1023) *\n (max_scale_y - min_scale_y) +\n min_scale_y,\n );\n const scaleZ = Math.exp(\n ((packed_scale & 2047) / 2047) * (max_scale_z - min_scale_z) +\n min_scale_z,\n );\n\n const r =\n (((packed_color >>> 24) & 255) / 255) *\n ((max_r ?? 1) - (min_r ?? 0)) +\n (min_r ?? 0);\n const g =\n (((packed_color >>> 16) & 255) / 255) *\n ((max_g ?? 1) - (min_g ?? 0)) +\n (min_g ?? 0);\n const b =\n (((packed_color >>> 8) & 255) / 255) * ((max_b ?? 1) - (min_b ?? 0)) +\n (min_b ?? 0);\n const opacity = (packed_color & 255) / 255;\n\n splatCallback(\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n };\n }\n\n const elementCallback = (element: PlyElement) => {\n if (element.name === \"chunk\") {\n // \"chunk\" could conceivably be used for other formats, and we would\n // ideally check for the comment: Generated by SuperSplat 2.*\n // but gsplat also outputs this format without such a comment.\n // In order to support both, let's assume a \"chunk\" element should\n // be interpreted as this format.\n return initSuperSplat(element);\n }\n if (isSuperSplat) {\n return decodeSuperSplat(element);\n }\n\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const {\n x,\n y,\n z,\n scale_0,\n scale_1,\n scale_2,\n rot_0,\n rot_1,\n rot_2,\n rot_3,\n opacity,\n f_dc_0,\n f_dc_1,\n f_dc_2,\n red,\n green,\n blue,\n alpha,\n } = element.properties;\n\n if (!x || !y || !z) {\n throw new Error(\"Missing PLY properties: x, y, z\");\n }\n // Pure point cloud PLY files have no scales or rotations\n const hasScales = scale_0 && scale_1 && scale_2;\n const hasRots = rot_0 && rot_1 && rot_2 && rot_3;\n // Quantization scale factor for argb values\n const alphaDiv = alpha != null ? FIELD_SCALE[alpha.type] : 1;\n const redDiv = red != null ? FIELD_SCALE[red.type] : 1;\n const greenDiv = green != null ? FIELD_SCALE[green.type] : 1;\n const blueDiv = blue != null ? FIELD_SCALE[blue.type] : 1;\n\n numSh = getNumSh(element.properties);\n prepareSh();\n\n return (index: number, item: Record) => {\n const scaleX = hasScales\n ? Math.exp(item.scale_0 as number)\n : PlyReader.defaultPointScale;\n const scaleY = hasScales\n ? Math.exp(item.scale_1 as number)\n : PlyReader.defaultPointScale;\n const scaleZ = hasScales\n ? Math.exp(item.scale_2 as number)\n : PlyReader.defaultPointScale;\n\n const quatX = hasRots ? (item.rot_1 as number) : 0;\n const quatY = hasRots ? (item.rot_2 as number) : 0;\n const quatZ = hasRots ? (item.rot_3 as number) : 0;\n const quatW = hasRots ? (item.rot_0 as number) : 1;\n\n const op =\n opacity != null\n ? 1.0 / (1.0 + Math.exp(-item.opacity as number))\n : alpha != null\n ? (item.alpha as number) / alphaDiv\n : 1.0;\n const r =\n f_dc_0 != null\n ? (item.f_dc_0 as number) * SH_C0 + 0.5\n : red != null\n ? (item.red as number) / redDiv\n : 1.0;\n const g =\n f_dc_1 != null\n ? (item.f_dc_1 as number) * SH_C0 + 0.5\n : green != null\n ? (item.green as number) / greenDiv\n : 1.0;\n const b =\n f_dc_2 != null\n ? (item.f_dc_2 as number) * SH_C0 + 0.5\n : blue != null\n ? (item.blue as number) / blueDiv\n : 1.0;\n\n splatCallback(\n index,\n item.x as number,\n item.y as number,\n item.z as number,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n op,\n r,\n g,\n b,\n );\n\n if (shCallback && sh1) {\n const sh = item.f_rest as number[];\n if (sh1) {\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = sh[sh1Props[i]];\n }\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = sh[sh2Props[i]];\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = sh[sh3Props[i]];\n }\n }\n shCallback(index, sh1, sh2, sh3);\n }\n };\n };\n\n this.parseData(elementCallback);\n }\n\n // Inject RGBA values into original PLY file, which can be used to modify\n // the color/opacity of the Gsplats and write out the modified PLY file.\n injectRgba(rgba: Uint8Array) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No parsed data\");\n }\n if (rgba.length !== this.numSplats * 4) {\n throw new Error(\"Invalid RGBA array length\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const parsers = [];\n\n let rgbaOffset = 0;\n const isVertex = elementName === \"vertex\";\n if (isVertex) {\n for (const name of [\"opacity\", \"f_dc_0\", \"f_dc_1\", \"f_dc_2\"]) {\n if (!properties[name] || properties[name].type !== \"float\") {\n throw new Error(`Can't injectRgba due to property: ${name}`);\n }\n }\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!property.isList) {\n if (isVertex) {\n if (\n propertyName === \"f_dc_0\" ||\n propertyName === \"f_dc_1\" ||\n propertyName === \"f_dc_2\"\n ) {\n const component = Number.parseInt(\n propertyName.slice(\"f_dc_\".length),\n );\n parsers.push(() => {\n // Inject DC coefficients\n const value =\n (rgba[rgbaOffset + component] / 255 - 0.5) / SH_C0;\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n } else if (propertyName === \"opacity\") {\n parsers.push(() => {\n // Inject opacity sigmoid, clamped to [-100, 100]\n const value = Math.max(\n -100,\n Math.min(\n 100,\n -Math.log(1.0 / (rgba[rgbaOffset + 3] / 255) - 1.0),\n ),\n );\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n }\n }\n parsers.push(() => {\n offset += FIELD_BYTES[property.type];\n });\n } else {\n parsers.push(() => {\n const length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n this.littleEndian,\n );\n offset += FIELD_BYTES[property.countType as PlyPropertyType];\n offset += length * FIELD_BYTES[property.type];\n });\n }\n }\n\n for (let index = 0; index < count; index++) {\n // Go through all the data and field parsers to compute offset\n for (const parser of parsers) {\n parser();\n }\n if (isVertex) {\n rgbaOffset += 4;\n }\n }\n }\n }\n}\n\nexport const SH_C0 = 0.28209479177387814;\n\ntype FieldParser = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n) => number;\ntype FieldSetter = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n) => void;\n\nconst PARSE_FIELD: Record = {\n char: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt8(offset);\n },\n uchar: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint8(offset);\n },\n short: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt16(offset, littleEndian);\n },\n ushort: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint16(offset, littleEndian);\n },\n int: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt32(offset, littleEndian);\n },\n uint: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint32(offset, littleEndian);\n },\n float: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat32(offset, littleEndian);\n },\n double: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat64(offset, littleEndian);\n },\n};\n\nconst SET_FIELD: Record = {\n char: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt8(offset, value);\n },\n uchar: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint8(offset, value);\n },\n short: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt16(offset, value, littleEndian);\n },\n ushort: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint16(offset, value, littleEndian);\n },\n int: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt32(offset, value, littleEndian);\n },\n uint: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint32(offset, value, littleEndian);\n },\n float: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat32(offset, value, littleEndian);\n },\n double: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat64(offset, value, littleEndian);\n },\n};\n\nconst FIELD_BYTES: Record = {\n char: 1,\n uchar: 1,\n short: 2,\n ushort: 2,\n int: 4,\n uint: 4,\n float: 4,\n double: 8,\n};\n\nconst FIELD_SCALE: Record = {\n char: 127,\n uchar: 255,\n short: 32767,\n ushort: 65535,\n int: 2147483647,\n uint: 4294967295,\n float: 1,\n double: 1,\n};\n\nconst NUM_F_REST_TO_NUM_SH: Record = {\n 0: 0,\n 9: 1,\n 24: 2,\n 45: 3,\n};\nconst NUM_SH_TO_NUM_F_REST: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nconst F_REST_REGEX = /^f_rest_([0-9]{1,2})$/;\n\nfunction createEmptyItem(\n properties: Record,\n): Record {\n const item: Record = {};\n for (const [propertyName, property] of Object.entries(properties)) {\n // Treat f_rest properties as a single array for performance\n if (F_REST_REGEX.test(propertyName)) {\n item.f_rest = new Array(getNumSh(properties));\n } else {\n item[propertyName] = property.isList ? [] : 0;\n }\n }\n return item;\n}\n\nfunction createParseFn(\n properties: Record,\n littleEndian: boolean,\n) {\n if (USE_COMPILED_PARSER_FUNCTION && safeToCompile(properties)) {\n return createCompiledParserFn(properties, littleEndian);\n }\n return createDynamicParserFn(properties, littleEndian);\n}\n\n// Detect if unsafe eval is allowed in the current execution context\nconst UNSAFE_EVAL_ALLOWED = (() => {\n try {\n new Function(\"return 42;\");\n } catch (e) {\n return false;\n }\n return true;\n})();\nconst PROPERTY_NAME_REGEX = /^[a-zA-Z0-9_]+$/;\n\nfunction safeToCompile(properties: Record) {\n if (!UNSAFE_EVAL_ALLOWED) {\n return false;\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!PROPERTY_NAME_REGEX.test(propertyName)) {\n return false;\n }\n\n if (\n property.isList &&\n !PLY_PROPERTY_TYPES.includes(property.countType as PlyPropertyType)\n ) {\n return false;\n }\n\n if (!PLY_PROPERTY_TYPES.includes(property.type)) {\n return false;\n }\n }\n return true;\n}\n\nfunction createCompiledParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct the parser function source.\n const parserSrc: string[] = [\"let list;\"];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parserSrc.push(/*js*/ `\n item.f_rest[${fRestIndex}] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else if (!property.isList) {\n parserSrc.push(/*js*/ `\n item['${propertyName}'] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else {\n // Property is a list, so parse the count first\n parserSrc.push(/*js*/ `\n list = item['${propertyName}'];\n list.length = PARSE_FIELD['${property.countType}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.countType as PlyPropertyType]};\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n }\n `);\n }\n }\n parserSrc.push(\"return offset;\");\n\n const fn = new Function(\n \"data\",\n \"offset\",\n \"item\",\n \"PARSE_FIELD\",\n parserSrc.join(\"\\n\"),\n );\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => fn(data, offset, item, PARSE_FIELD);\n}\n\nfunction createDynamicParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct an array of parser function to parse each property in an item\n const parsers: Array<\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => number\n > = [];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n (item.f_rest as number[])[fRestIndex] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else if (!property.isList) {\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n item[propertyName] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else {\n // Property is a list, so parse the count first\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n const list = item[propertyName] as number[];\n list.length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n littleEndian,\n );\n let currentOffset =\n offset + FIELD_BYTES[property.countType as PlyPropertyType];\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD[property.type](\n data,\n currentOffset,\n littleEndian,\n );\n currentOffset += FIELD_BYTES[property.type];\n }\n return currentOffset;\n },\n );\n }\n }\n\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n let currentOffset = offset;\n for (let parserIndex = 0; parserIndex < parsers.length; parserIndex++) {\n currentOffset = parsers[parserIndex](data, currentOffset, item);\n }\n return currentOffset;\n };\n}\n\nfunction getNumSh(properties: Record) {\n let num_f_rest = 0;\n while (properties[`f_rest_${num_f_rest}`]) {\n num_f_rest += 1;\n }\n const numSh = NUM_F_REST_TO_NUM_SH[num_f_rest];\n if (numSh == null) {\n throw new Error(`Unsupported number of SH coefficients: ${num_f_rest}`);\n }\n return numSh;\n}\n\ntype SSChunk = {\n min_x: number;\n min_y: number;\n min_z: number;\n max_x: number;\n max_y: number;\n max_z: number;\n min_scale_x: number;\n min_scale_y: number;\n min_scale_z: number;\n max_scale_x: number;\n max_scale_y: number;\n max_scale_z: number;\n min_r?: number;\n min_g?: number;\n min_b?: number;\n max_r?: number;\n max_g?: number;\n max_b?: number;\n};\n","import * as THREE from \"three\";\nimport {\n SplatData,\n type TranscodeSpzInput,\n getSplatFileType,\n getSplatFileTypeFromPath,\n} from \"./SplatLoader\";\nimport { GunzipReader, fromHalf, normalize } from \"./utils\";\n\nimport { decodeAntiSplat } from \"./antisplat\";\nimport { SplatFileType } from \"./defines\";\nimport { decodeKsplat } from \"./ksplat\";\nimport { PlyReader } from \"./ply\";\n\n// SPZ file format reader\n\nexport class SpzReader {\n fileBytes: Uint8Array;\n reader: GunzipReader;\n\n version = -1;\n numSplats = 0;\n shDegree = 0;\n fractionalBits = 0;\n flags = 0;\n flagAntiAlias = false;\n flagLod = false;\n reserved = 0;\n headerParsed = false;\n parsed = false;\n\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n this.reader = new GunzipReader({\n fileBytes: this.fileBytes as Uint8Array,\n });\n }\n\n async parseHeader() {\n if (this.headerParsed) {\n throw new Error(\"SPZ file header already parsed\");\n }\n\n const header = new DataView((await this.reader.read(16)).buffer);\n if (header.getUint32(0, true) !== 0x5053474e) {\n throw new Error(\"Invalid SPZ file\");\n }\n this.version = header.getUint32(4, true);\n if (this.version < 1 || this.version > 3) {\n throw new Error(`Unsupported SPZ version: ${this.version}`);\n }\n\n this.numSplats = header.getUint32(8, true);\n this.shDegree = header.getUint8(12);\n this.fractionalBits = header.getUint8(13);\n this.flags = header.getUint8(14);\n this.flagAntiAlias = (this.flags & 0x01) !== 0;\n this.flagLod = (this.flags & 0x80) !== 0;\n this.reserved = header.getUint8(15);\n this.headerParsed = true;\n this.parsed = false;\n }\n\n async parseSplats(\n centerCallback?: (index: number, x: number, y: number, z: number) => void,\n alphaCallback?: (index: number, alpha: number) => void,\n rgbCallback?: (index: number, r: number, g: number, b: number) => void,\n scalesCallback?: (\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n ) => void,\n quatCallback?: (\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n {\n childCounts,\n childStarts,\n }: {\n childCounts?: (index: number, count: number) => void;\n childStarts?: (index: number, start: number) => void;\n } = {},\n ) {\n if (!this.headerParsed) {\n throw new Error(\"SPZ file header must be parsed first\");\n }\n if (this.parsed) {\n throw new Error(\"SPZ file already parsed\");\n }\n this.parsed = true;\n\n if (this.version === 1) {\n // float16 centers\n const centerBytes = await this.reader.read(this.numSplats * 3 * 2);\n const centerUint16 = new Uint16Array(centerBytes.buffer);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const x = fromHalf(centerUint16[i3]);\n const y = fromHalf(centerUint16[i3 + 1]);\n const z = fromHalf(centerUint16[i3 + 2]);\n centerCallback?.(i, x, y, z);\n }\n } else if (this.version === 2 || this.version === 3) {\n // 24-bit fixed-point centers\n const fixed = 1 << this.fractionalBits;\n const centerBytes = await this.reader.read(this.numSplats * 3 * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i9 = i * 9;\n const x =\n (((centerBytes[i9 + 2] << 24) |\n (centerBytes[i9 + 1] << 16) |\n (centerBytes[i9] << 8)) >>\n 8) /\n fixed;\n const y =\n (((centerBytes[i9 + 5] << 24) |\n (centerBytes[i9 + 4] << 16) |\n (centerBytes[i9 + 3] << 8)) >>\n 8) /\n fixed;\n const z =\n (((centerBytes[i9 + 8] << 24) |\n (centerBytes[i9 + 7] << 16) |\n (centerBytes[i9 + 6] << 8)) >>\n 8) /\n fixed;\n centerCallback?.(i, x, y, z);\n }\n } else {\n throw new Error(\"Unreachable\");\n }\n\n {\n const bytes = await this.reader.read(this.numSplats);\n for (let i = 0; i < this.numSplats; i++) {\n alphaCallback?.(i, bytes[i] / 255);\n }\n }\n {\n const rgbBytes = await this.reader.read(this.numSplats * 3);\n const scale = SH_C0 / 0.15;\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const r = (rgbBytes[i3] / 255 - 0.5) * scale + 0.5;\n const g = (rgbBytes[i3 + 1] / 255 - 0.5) * scale + 0.5;\n const b = (rgbBytes[i3 + 2] / 255 - 0.5) * scale + 0.5;\n rgbCallback?.(i, r, g, b);\n }\n }\n {\n const scalesBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const scaleX = Math.exp(scalesBytes[i3] / 16 - 10);\n const scaleY = Math.exp(scalesBytes[i3 + 1] / 16 - 10);\n const scaleZ = Math.exp(scalesBytes[i3 + 2] / 16 - 10);\n scalesCallback?.(i, scaleX, scaleY, scaleZ);\n }\n }\n if (this.version === 3) {\n // Version 3 uses a trick called \"smallest three\" to compress the rotation quaternions\n // achieving better precision. \"Optimizing orientation\" section at https://gafferongames.com/post/snapshot_compression/ A quaternion length must be 1: x^2+y^2+z^2+w^2 = 1\n // We can drop one component and reconstruct it with the identity above.\n // Largest component is dropped for best numerical precision.\n // Quaternion stored in 32 bits\n // 10 bits singed integer for each of the 3 components + 2 bits indicating the index of dropped component.\n // vs 8 bits for each component uncompressed (spz version < 3)\n // Max Value after extracting largest component v is another component v\n // (v,v,0,0)\n // v^2 + v^2 = 1\n // v = 1 / sqrt(2);\n const maxValue = 1 / Math.sqrt(2); // 0.7071\n const quatBytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 4;\n const quaternion = [0, 0, 0, 0];\n const values = [\n quatBytes[i3],\n quatBytes[i3 + 1],\n quatBytes[i3 + 2],\n quatBytes[i3 + 3],\n ];\n // all values are packed in 32 bits (10 per each of 3 components + 2 bits of index of larged value)\n const combinedValues =\n values[0] + (values[1] << 8) + (values[2] << 16) + (values[3] << 24);\n // each component value is 9 bits + sign (1 bit)\n const valueMask = (1 << 9) - 1;\n // extract index of the largest element. 2 top bits.\n const largestIndex = combinedValues >>> 30;\n let remainingValues = combinedValues;\n let sumSquares = 0;\n\n for (let i = 3; i >= 0; --i) {\n if (i !== largestIndex) {\n // extract current value and sign.\n const value = remainingValues & valueMask;\n const sign = (remainingValues >>> 9) & 0x1;\n // each value is represented as 10 bits. Shift to next one.\n remainingValues = remainingValues >>> 10;\n // convert to range [0,1] and then to [0, 0.7071]\n quaternion[i] = maxValue * (value / valueMask);\n // apply sign.\n quaternion[i] = sign === 0 ? quaternion[i] : -quaternion[i];\n // accumulate the sum of squares\n sumSquares += quaternion[i] * quaternion[i];\n }\n }\n\n // quartenion length must be 1 (x^2+y^2+z^2+w^2 = 1)\n // so can reconstruct largest component from the other 3.\n // w = sqrt(1 - x^2 - y^2 - z^2);\n const square = 1 - sumSquares;\n quaternion[largestIndex] = Math.sqrt(Math.max(square, 0));\n\n quatCallback?.(\n i,\n quaternion[0],\n quaternion[1],\n quaternion[2],\n quaternion[3],\n );\n }\n } else {\n const quatBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const quatX = quatBytes[i3] / 127.5 - 1;\n const quatY = quatBytes[i3 + 1] / 127.5 - 1;\n const quatZ = quatBytes[i3 + 2] / 127.5 - 1;\n const quatW = Math.sqrt(\n Math.max(0, 1 - quatX * quatX - quatY * quatY - quatZ * quatZ),\n );\n quatCallback?.(i, quatX, quatY, quatZ, quatW);\n }\n }\n\n if (shCallback && this.shDegree >= 1) {\n const sh1 = new Float32Array(3 * 3);\n const sh2 = this.shDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 = this.shDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n const shBytes = await this.reader.read(\n this.numSplats * SH_DEGREE_TO_VECS[this.shDegree] * 3,\n );\n\n let offset = 0;\n for (let i = 0; i < this.numSplats; i++) {\n for (let j = 0; j < 9; ++j) {\n sh1[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 9;\n if (sh2) {\n for (let j = 0; j < 15; ++j) {\n sh2[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 15;\n }\n if (sh3) {\n for (let j = 0; j < 21; ++j) {\n sh3[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 21;\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n if (this.flagLod) {\n let bytes = await this.reader.read(this.numSplats * 2);\n for (let i = 0; i < this.numSplats; i++) {\n const i2 = i * 2;\n const count = bytes[i2] + (bytes[i2 + 1] << 8);\n childCounts?.(i, count);\n }\n\n bytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i4 = i * 4;\n const start =\n bytes[i4] +\n (bytes[i4 + 1] << 8) +\n (bytes[i4 + 2] << 16) +\n (bytes[i4 + 3] << 24);\n childStarts?.(i, start);\n }\n }\n }\n}\n\nconst SH_DEGREE_TO_VECS: Record = { 1: 3, 2: 8, 3: 15 };\nconst SH_C0 = 0.28209479177387814;\n\nexport const SPZ_MAGIC = 0x5053474e; // NGSP = Niantic gaussian splat\nexport const SPZ_VERSION = 3;\nexport const FLAG_ANTIALIASED = 0x1;\n\nexport class SpzWriter {\n buffer: ArrayBuffer;\n view: DataView;\n numSplats: number;\n shDegree: number;\n fractionalBits: number;\n fraction: number;\n flagAntiAlias: boolean;\n clippedCount = 0;\n\n constructor({\n numSplats,\n shDegree,\n fractionalBits = 12,\n flagAntiAlias = true,\n }: {\n numSplats: number;\n shDegree: number;\n fractionalBits?: number;\n flagAntiAlias?: boolean;\n }) {\n const splatSize =\n 9 + // Position\n 1 + // Opacity\n 3 + // Scale\n 3 + // DC-rgb\n 4 + // Rotation\n (shDegree >= 1 ? 9 : 0) +\n (shDegree >= 2 ? 15 : 0) +\n (shDegree >= 3 ? 21 : 0);\n const bufferSize = 16 + numSplats * splatSize;\n this.buffer = new ArrayBuffer(bufferSize);\n this.view = new DataView(this.buffer);\n\n this.view.setUint32(0, SPZ_MAGIC, true); // NGSP\n this.view.setUint32(4, SPZ_VERSION, true);\n this.view.setUint32(8, numSplats, true);\n this.view.setUint8(12, shDegree);\n this.view.setUint8(13, fractionalBits);\n this.view.setUint8(14, flagAntiAlias ? FLAG_ANTIALIASED : 0);\n this.view.setUint8(15, 0); // Reserved\n\n this.numSplats = numSplats;\n this.shDegree = shDegree;\n this.fractionalBits = fractionalBits;\n this.fraction = 1 << fractionalBits;\n this.flagAntiAlias = flagAntiAlias;\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n // Divide by this.fraction and round to nearest integer,\n // then write as 3-bytes per x then y then z.\n const xRounded = Math.round(x * this.fraction);\n const xInt = Math.max(-0x7fffff, Math.min(0x7fffff, xRounded));\n const yRounded = Math.round(y * this.fraction);\n const yInt = Math.max(-0x7fffff, Math.min(0x7fffff, yRounded));\n const zRounded = Math.round(z * this.fraction);\n const zInt = Math.max(-0x7fffff, Math.min(0x7fffff, zRounded));\n const clipped = xRounded !== xInt || yRounded !== yInt || zRounded !== zInt;\n if (clipped) {\n this.clippedCount += 1;\n // if (this.clippedCount < 10) {\n // // Write x y z also in hex\n // console.log(`Clipped ${index}: ${x}, ${y}, ${z} (0x${x.toString(16)}, 0x${y.toString(16)}, 0x${z.toString(16)}) -> ${xRounded}, ${yRounded}, ${zRounded} (0x${xRounded.toString(16)}, 0x${yRounded.toString(16)}, 0x${zRounded.toString(16)}) -> ${xInt}, ${yInt}, ${zInt} (0x${xInt.toString(16)}, 0x${yInt.toString(16)}, 0x${zInt.toString(16)})`);\n // }\n }\n const i9 = index * 9;\n const base = 16 + i9;\n this.view.setUint8(base, xInt & 0xff);\n this.view.setUint8(base + 1, (xInt >> 8) & 0xff);\n this.view.setUint8(base + 2, (xInt >> 16) & 0xff);\n this.view.setUint8(base + 3, yInt & 0xff);\n this.view.setUint8(base + 4, (yInt >> 8) & 0xff);\n this.view.setUint8(base + 5, (yInt >> 16) & 0xff);\n this.view.setUint8(base + 6, zInt & 0xff);\n this.view.setUint8(base + 7, (zInt >> 8) & 0xff);\n this.view.setUint8(base + 8, (zInt >> 16) & 0xff);\n }\n\n setAlpha(index: number, alpha: number) {\n const base = 16 + this.numSplats * 9 + index;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round(alpha * 255))),\n );\n }\n\n static scaleRgb(r: number) {\n const v = ((r - 0.5) / (SH_C0 / 0.15) + 0.5) * 255;\n return Math.max(0, Math.min(255, Math.round(v)));\n }\n\n setRgb(index: number, r: number, g: number, b: number) {\n const base = 16 + this.numSplats * 10 + index * 3;\n this.view.setUint8(base, SpzWriter.scaleRgb(r));\n this.view.setUint8(base + 1, SpzWriter.scaleRgb(g));\n this.view.setUint8(base + 2, SpzWriter.scaleRgb(b));\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n const base = 16 + this.numSplats * 13 + index * 3;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleX) + 10) * 16))),\n );\n this.view.setUint8(\n base + 1,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleY) + 10) * 16))),\n );\n this.view.setUint8(\n base + 2,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleZ) + 10) * 16))),\n );\n }\n\n setQuat(\n index: number,\n ...q: [number, number, number, number] // x, y, z, w\n ) {\n const base = 16 + this.numSplats * 16 + index * 4;\n\n const quat = normalize(q);\n\n // Find largest component\n let iLargest = 0;\n for (let i = 1; i < 4; ++i) {\n if (Math.abs(quat[i]) > Math.abs(quat[iLargest])) {\n iLargest = i;\n }\n }\n\n // Since -quat represents the same rotation as quat, transform the quaternion so the largest element\n // is positive. This avoids having to send its sign bit.\n const negate = quat[iLargest] < 0 ? 1 : 0;\n\n // Do compression using sign bit and 9-bit precision per element.\n let comp = iLargest;\n for (let i = 0; i < 4; ++i) {\n if (i !== iLargest) {\n const negbit = (quat[i] < 0 ? 1 : 0) ^ negate;\n const mag = Math.floor(\n ((1 << 9) - 1) * (Math.abs(quat[i]) / Math.SQRT1_2) + 0.5,\n );\n comp = (comp << 10) | (negbit << 9) | mag;\n }\n }\n\n this.view.setUint8(base, comp & 0xff);\n this.view.setUint8(base + 1, (comp >> 8) & 0xff);\n this.view.setUint8(base + 2, (comp >> 16) & 0xff);\n this.view.setUint8(base + 3, (comp >>> 24) & 0xff);\n }\n\n static quantizeSh(sh: number, bits: number) {\n const value = Math.round(sh * 128) + 128;\n const bucketSize = 1 << (8 - bits);\n const quantized =\n Math.floor((value + bucketSize / 2) / bucketSize) * bucketSize;\n return Math.max(0, Math.min(255, quantized));\n }\n\n setSh(\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) {\n const shVecs = SH_DEGREE_TO_VECS[this.shDegree] || 0;\n const base1 = 16 + this.numSplats * 20 + index * shVecs * 3;\n for (let j = 0; j < 9; ++j) {\n this.view.setUint8(base1 + j, SpzWriter.quantizeSh(sh1[j], 5));\n }\n if (sh2) {\n const base2 = base1 + 9;\n for (let j = 0; j < 15; ++j) {\n this.view.setUint8(base2 + j, SpzWriter.quantizeSh(sh2[j], 4));\n }\n if (sh3) {\n const base3 = base2 + 15;\n for (let j = 0; j < 21; ++j) {\n this.view.setUint8(base3 + j, SpzWriter.quantizeSh(sh3[j], 4));\n }\n }\n }\n }\n\n async finalize(): Promise {\n const input = new Uint8Array(this.buffer);\n const stream = new ReadableStream({\n async start(controller) {\n controller.enqueue(input);\n controller.close();\n },\n });\n const compressed = stream.pipeThrough(new CompressionStream(\"gzip\"));\n const response = new Response(compressed);\n const buffer = await response.arrayBuffer();\n console.log(\n \"Compressed\",\n input.length,\n \"bytes to\",\n buffer.byteLength,\n \"bytes\",\n );\n return new Uint8Array(buffer);\n }\n}\n\nexport async function transcodeSpz(input: TranscodeSpzInput) {\n const splats = new SplatData();\n const {\n inputs,\n clipXyz,\n maxSh,\n fractionalBits = 12,\n opacityThreshold,\n } = input;\n for (const input of inputs) {\n const scale = input.transform?.scale ?? 1;\n const quaternion = new THREE.Quaternion().fromArray(\n input.transform?.quaternion ?? [0, 0, 0, 1],\n );\n const translate = new THREE.Vector3().fromArray(\n input.transform?.translate ?? [0, 0, 0],\n );\n const clip = clipXyz\n ? new THREE.Box3(\n new THREE.Vector3().fromArray(clipXyz.min),\n new THREE.Vector3().fromArray(clipXyz.max),\n )\n : undefined;\n\n function transformPos(pos: THREE.Vector3) {\n pos.multiplyScalar(scale);\n pos.applyQuaternion(quaternion);\n pos.add(translate);\n return pos;\n }\n\n function transformScales(scales: THREE.Vector3) {\n scales.multiplyScalar(scale);\n return scales;\n }\n\n function transformQuaternion(quat: THREE.Quaternion) {\n quat.premultiply(quaternion);\n return quat;\n }\n\n function withinClip(p: THREE.Vector3) {\n return !clip || clip.containsPoint(p);\n }\n\n function withinOpacity(opacity: number) {\n return opacityThreshold !== undefined\n ? opacity >= opacityThreshold\n : true;\n }\n\n let fileType = input.fileType;\n if (!fileType) {\n fileType = getSplatFileType(input.fileBytes);\n if (!fileType && input.pathOrUrl) {\n fileType = getSplatFileTypeFromPath(input.pathOrUrl);\n }\n }\n switch (fileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes: input.fileBytes });\n await ply.parseHeader();\n let lastIndex: number | null = null;\n ply.parseSplats(\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (sh1 && lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n }\n if (sh2 && lastIndex !== null) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3 && lastIndex !== null) {\n splats.setSh3(lastIndex, sh3);\n }\n },\n );\n break;\n }\n case SplatFileType.SPZ: {\n const spz = new SpzReader({ fileBytes: input.fileBytes });\n await spz.parseHeader();\n const mapping = new Int32Array(spz.numSplats);\n mapping.fill(-1);\n const centers = new Float32Array(spz.numSplats * 3);\n const center = new THREE.Vector3();\n spz.parseSplats(\n (index, x, y, z) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n centers[index * 3] = center.x;\n centers[index * 3 + 1] = center.y;\n centers[index * 3 + 2] = center.z;\n },\n (index, alpha) => {\n center.fromArray(centers, index * 3);\n if (withinClip(center) && withinOpacity(alpha)) {\n mapping[index] = splats.pushSplat();\n splats.setCenter(mapping[index], center.x, center.y, center.z);\n splats.setOpacity(mapping[index], alpha);\n }\n },\n (index, r, g, b) => {\n if (mapping[index] >= 0) {\n splats.setColor(mapping[index], r, g, b);\n }\n },\n (index, scaleX, scaleY, scaleZ) => {\n if (mapping[index] >= 0) {\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(mapping[index], scales.x, scales.y, scales.z);\n }\n },\n (index, quatX, quatY, quatZ, quatW) => {\n if (mapping[index] >= 0) {\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n mapping[index],\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n }\n },\n (index, sh1, sh2, sh3) => {\n if (mapping[index] >= 0) {\n splats.setSh1(mapping[index], sh1);\n if (sh2) {\n splats.setSh2(mapping[index], sh2);\n }\n if (sh3) {\n splats.setSh3(mapping[index], sh3);\n }\n }\n },\n );\n break;\n }\n case SplatFileType.SPLAT:\n decodeAntiSplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n const index = splats.pushSplat();\n splats.setCenter(index, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(index, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n index,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(index, opacity);\n splats.setColor(index, r, g, b);\n }\n },\n );\n break;\n case SplatFileType.KSPLAT: {\n let lastIndex: number | null = null;\n decodeKsplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n if (sh2) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n },\n );\n break;\n }\n default:\n throw new Error(`transcodeSpz not implemented for ${fileType}`);\n }\n }\n\n const shDegree = Math.min(\n maxSh ?? 3,\n splats.sh3 ? 3 : splats.sh2 ? 2 : splats.sh1 ? 1 : 0,\n );\n const spz = new SpzWriter({\n numSplats: splats.numSplats,\n shDegree,\n fractionalBits,\n flagAntiAlias: true,\n });\n\n for (let i = 0; i < splats.numSplats; ++i) {\n const i3 = i * 3;\n const i4 = i * 4;\n spz.setCenter(\n i,\n splats.centers[i3],\n splats.centers[i3 + 1],\n splats.centers[i3 + 2],\n );\n spz.setScale(\n i,\n splats.scales[i3],\n splats.scales[i3 + 1],\n splats.scales[i3 + 2],\n );\n spz.setQuat(\n i,\n splats.quaternions[i4],\n splats.quaternions[i4 + 1],\n splats.quaternions[i4 + 2],\n splats.quaternions[i4 + 3],\n );\n spz.setAlpha(i, splats.opacities[i]);\n spz.setRgb(\n i,\n splats.colors[i3],\n splats.colors[i3 + 1],\n splats.colors[i3 + 2],\n );\n if (splats.sh1 && shDegree >= 1) {\n spz.setSh(\n i,\n splats.sh1.slice(i * 9, (i + 1) * 9),\n shDegree >= 2 && splats.sh2\n ? splats.sh2.slice(i * 15, (i + 1) * 15)\n : undefined,\n shDegree >= 3 && splats.sh3\n ? splats.sh3.slice(i * 21, (i + 1) * 21)\n : undefined,\n );\n }\n }\n\n const spzBytes = await spz.finalize();\n return { fileBytes: spzBytes, clippedCount: spz.clippedCount };\n}\n","import { unzipSync } from \"fflate\";\nimport { FileLoader, Loader, type LoadingManager } from \"three\";\nimport { ExtSplats, type ExtSplatsOptions } from \"./ExtSplats\";\nimport { withWorker } from \"./OldSplatWorker\";\nimport { PackedSplats, type PackedSplatsOptions } from \"./PackedSplats\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport { type SplatEncoding, SplatFileType } from \"./defines\";\nimport { PlyReader } from \"./ply\";\nimport { decompressPartialGzip, getTextureSize } from \"./utils\";\n\n// SplatLoader implements the THREE.Loader interface and supports loading a variety\n// of different Gsplat file formats. Formats .PLY and .SPZ can be auto-detected\n// from the file contents, while .SPLAT and .KSPLAT require either having the\n// appropriate file extension as part of the path, or it can be explicitly set\n// in the loader using the fileType property.\n\nexport class SplatLoader extends Loader {\n fileLoader: FileLoader;\n\n constructor(manager?: LoadingManager) {\n super(manager);\n this.fileLoader = new FileLoader(manager);\n }\n\n load(\n url: string,\n onLoad?: (decoded: PackedSplats | ExtSplats) => void,\n onProgress?: (event: ProgressEvent) => void,\n onError?: (error: unknown) => void,\n ) {\n return this.loadInternal({\n url,\n onLoad,\n onProgress,\n onError,\n });\n }\n\n async loadAsync(\n url: string,\n onProgress?: (event: ProgressEvent) => void,\n ): Promise {\n return new Promise((resolve, reject) => {\n this.load(\n url,\n (decoded) => {\n resolve(decoded);\n },\n onProgress,\n reject,\n );\n });\n }\n\n parse(packedSplats: PackedSplats): SplatMesh {\n return new SplatMesh({ packedSplats });\n }\n\n loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad,\n onProgress,\n onError,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onLoad?: (decoded: PackedSplats | ExtSplats) => void;\n onProgress?: (event: ProgressEvent) => void;\n onError?: (error: unknown) => void;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n if (fileBytes instanceof ArrayBuffer) {\n fileBytes = new Uint8Array(fileBytes);\n }\n const resolvedURL = fileBytes\n ? undefined\n : this.manager.resolveURL((this.path ?? \"\") + (url ?? \"\"));\n\n let readStream = stream?.getReader();\n\n this.manager.itemStart(resolvedURL ?? \"\");\n // let calledOnLoad = false;\n\n workerPool\n .withWorker(async (worker) => {\n // If LoD is set and not falsey\n const splatsLod = packedSplats?.lod ?? extSplats?.lod;\n if (splatsLod) {\n lod = splatsLod;\n }\n const splatsNonLod = packedSplats?.nonLod ?? extSplats?.nonLod;\n if (splatsNonLod !== undefined) {\n nonLod = splatsNonLod;\n }\n\n // let init: {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // } | null = null;\n // let initExt: {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // } | null = null;\n\n const onStatus = async (data: unknown) => {\n const { loaded, total } = data as { loaded: number; total: number };\n if (loaded !== undefined && onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n\n if ((data as { nextChunk?: boolean }).nextChunk) {\n let chunk: Uint8Array;\n if (!readStream) {\n chunk = new Uint8Array(0);\n } else {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n readStream = undefined;\n chunk = new Uint8Array(0);\n } else {\n chunk = value;\n }\n }\n worker.call(\"nextChunk\", { chunk });\n }\n\n // if ((data as { orig?: unknown }).orig) {\n // if (extSplats) {\n // initExt = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // };\n // extSplats.initialize({\n // numSplats: initExt?.numSplats,\n // extArrays: [initExt?.ext0, initExt?.ext1],\n // extra: initExt?.extra,\n // });\n // calledOnLoad = true;\n // onLoad?.(extSplats);\n // } else if (packedSplats) {\n // init = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // };\n // packedSplats.initialize({\n // numSplats: init?.numSplats,\n // packedArray: init?.packedArray,\n // extra: init?.extra,\n // splatEncoding: init?.splatEncoding,\n // });\n // calledOnLoad = true;\n // onLoad?.(packedSplats);\n // } else {\n // console.warn(\"No splats to initialize\");\n // }\n // }\n };\n\n const basedUrl = resolvedURL\n ? new URL(resolvedURL, window.location.href).toString()\n : undefined;\n const decoded = (await worker.call(\n extSplats ? \"loadExtSplats\" : \"loadPackedSplats\",\n {\n url: basedUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n fileBytes: fileBytes?.slice(),\n fileType,\n pathName: resolvedURL || fileName,\n chunked: stream !== undefined,\n chunkedLength: streamLength,\n encoding: packedSplats?.splatEncoding,\n lod,\n lodBase,\n nonLod,\n lodAbove,\n },\n { onStatus },\n )) as {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n lodSplats?:\n | {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n }\n | PackedSplats\n | ExtSplats;\n };\n\n if (decoded.lodSplats) {\n if (extSplats) {\n decoded.lodSplats = new ExtSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record;\n }),\n });\n } else {\n decoded.lodSplats = new PackedSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n packedArray: Uint32Array;\n extra: Record;\n splatEncoding: SplatEncoding;\n }),\n maxSplats: packedSplats?.maxSplats,\n });\n }\n }\n\n if (extSplats) {\n const initExtSplats = {\n // ...(initExt ?? {}),\n ...decoded,\n };\n extSplats.initialize(initExtSplats as ExtSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(extSplats);\n // }\n } else {\n const initSplats = {\n // ...(init ?? {}),\n ...decoded,\n };\n if (packedSplats) {\n packedSplats.initialize(initSplats as PackedSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(packedSplats);\n // }\n } else {\n // if (!calledOnLoad) {\n onLoad?.(new PackedSplats(initSplats as PackedSplatsOptions));\n // }\n }\n }\n })\n .catch((error) => {\n this.manager.itemError(resolvedURL ?? \"\");\n onError?.(error);\n })\n .finally(() => {\n this.manager.itemEnd(resolvedURL ?? \"\");\n });\n }\n\n async loadInternalAsync({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onProgress?: (event: ProgressEvent) => void;\n lod?: boolean;\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n return new Promise((resolve, reject) => {\n this.loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad: resolve,\n onProgress,\n onError: reject,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n });\n });\n }\n}\n\nasync function fetchWithProgress(\n request: Request,\n onProgress?: (event: ProgressEvent) => void,\n) {\n const response = await fetch(request);\n if (!response.ok) {\n throw new Error(\n `${response.status} \"${response.statusText}\" fetching URL: ${request.url}`,\n );\n }\n if (!response.body) {\n throw new Error(`Response body is null for URL: ${request.url}`);\n }\n\n const reader = response.body.getReader();\n let loaded = 0;\n const chunks: Uint8Array[] = [];\n try {\n const contentLength = Number.parseInt(\n response.headers.get(\"Content-Length\") || \"0\",\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n\n while (true) {\n const { done, value } = await reader.read();\n if (done) {\n break;\n }\n chunks.push(value);\n loaded += value.length;\n\n if (onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n }\n } catch (err) {\n try {\n const reason = err instanceof Error ? err.message : \"Unknown error\";\n await reader.cancel(reason);\n } catch {}\n throw err;\n }\n\n // Combine chunks into a single buffer\n const bytes = new Uint8Array(loaded);\n let offset = 0;\n for (const chunk of chunks) {\n bytes.set(chunk, offset);\n offset += chunk.length;\n }\n return bytes.buffer;\n}\n\nexport function getSplatFileType(\n fileBytes: Uint8Array,\n): SplatFileType | undefined {\n const view = new DataView(fileBytes.buffer);\n const magic = view.getUint32(0, true);\n if ((magic & 0x00ffffff) === 0x00796c70) {\n return SplatFileType.PLY;\n }\n if ((magic & 0x00ffffff) === 0x00088b1f) {\n // Gzipped file, unpack beginning to check magic number\n const header = decompressPartialGzip(fileBytes, 4);\n const gView = new DataView(header.buffer);\n if (gView.getUint32(0, true) === 0x5053474e) {\n return SplatFileType.SPZ;\n }\n // Unknown Gzipped file type\n return undefined;\n }\n if (magic === 0x04034b50) {\n // PKZip file\n if (tryPcSogsZip(fileBytes)) {\n return SplatFileType.PCSOGSZIP;\n }\n // Unknown PKZip file type\n return undefined;\n }\n if (magic === 0x30444152) {\n return SplatFileType.RAD;\n }\n // Unknown file type\n return undefined;\n}\n\n// Returns the lowercased file extension from a path or URL\nexport function getFileExtension(pathOrUrl: string): string {\n const noTrailing = pathOrUrl.split(/[?#]/, 1)[0];\n const lastSlash = Math.max(\n noTrailing.lastIndexOf(\"/\"),\n noTrailing.lastIndexOf(\"\\\\\"),\n );\n const filename = noTrailing.slice(lastSlash + 1);\n const lastDot = filename.lastIndexOf(\".\");\n if (lastDot <= 0 || lastDot === filename.length - 1) {\n return \"\"; // No extension\n }\n return filename.slice(lastDot + 1).toLowerCase();\n}\n\nexport function getSplatFileTypeFromPath(\n pathOrUrl: string,\n): SplatFileType | undefined {\n const extension = getFileExtension(pathOrUrl);\n if (extension === \"ply\") {\n return SplatFileType.PLY;\n }\n if (extension === \"spz\") {\n return SplatFileType.SPZ;\n }\n if (extension === \"splat\") {\n return SplatFileType.SPLAT;\n }\n if (extension === \"ksplat\") {\n return SplatFileType.KSPLAT;\n }\n if (extension === \"sog\") {\n return SplatFileType.PCSOGSZIP;\n }\n if (extension === \"rad\") {\n return SplatFileType.RAD;\n }\n return undefined;\n}\n\nexport type PcSogsJson = {\n means: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n quats: { shape: number[]; dtype: string; encoding?: string; files: string[] };\n sh0: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n shN?: {\n shape: number[];\n dtype: string;\n mins: number;\n maxs: number;\n quantization: number;\n files: string[];\n };\n};\n\nexport type PcSogsV2Json = {\n version: 2;\n count: number;\n antialias?: boolean;\n means: {\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n codebook: number[];\n files: string[];\n };\n quats: { files: string[] };\n sh0: {\n codebook: number[];\n files: string[];\n };\n shN?: {\n count: number;\n bands: number;\n codebook: number[];\n files: string[];\n };\n};\n\nexport function isPcSogs(input: ArrayBuffer | Uint8Array | string): boolean {\n // Returns true if the input seems to be a valid PC SOGS file\n return tryPcSogs(input) !== undefined;\n}\n\nexport function tryPcSogs(\n input: ArrayBuffer | Uint8Array | string,\n): PcSogsJson | PcSogsV2Json | undefined {\n // Try to parse input as SOGS JSON and see if it's valid\n try {\n let text: string;\n if (typeof input === \"string\") {\n text = input;\n } else {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n if (fileBytes.length > 65536) {\n // Should be only a few KB, definitely not a SOGS JSON file\n return undefined;\n }\n text = new TextDecoder().decode(fileBytes);\n }\n\n const json = JSON.parse(text);\n if (!json || typeof json !== \"object\" || Array.isArray(json)) {\n return undefined;\n }\n const isVersion2 = json.version === 2;\n\n for (const key of [\"means\", \"scales\", \"quats\", \"sh0\"]) {\n if (\n !json[key] ||\n typeof json[key] !== \"object\" ||\n Array.isArray(json[key])\n ) {\n return undefined;\n }\n if (isVersion2) {\n // Expect files\n if (!json[key].files) {\n return undefined;\n }\n\n // Scales and sh0 should have codebooks\n if ((key === \"scales\" || key === \"sh0\") && !json[key].codebook) {\n return undefined;\n }\n // Means should have mins and maxs defined\n if (key === \"means\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n } else {\n // Expect shape and files\n if (!json[key].shape || !json[key].files) {\n return undefined;\n }\n // Besides 'quats' all other properties have mins and maxs\n if (key !== \"quats\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n }\n }\n // This is probably a PC SOGS file\n return json as PcSogsJson | PcSogsV2Json;\n } catch {\n return undefined;\n }\n}\n\nexport function tryPcSogsZip(\n input: ArrayBuffer | Uint8Array,\n): { name: string; json: PcSogsJson | PcSogsV2Json } | undefined {\n try {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let metaFilename: string | null = null;\n\n const unzipped = unzipSync(fileBytes, {\n filter: ({ name }) => {\n const filename = name.split(/[\\\\/]/).pop() as string;\n if (filename === \"meta.json\") {\n metaFilename = name;\n return true;\n }\n return false;\n },\n });\n if (!metaFilename) {\n return undefined;\n }\n\n // Check for PC SOGS V1 and V2 (aka SOG)\n const json = tryPcSogs(unzipped[metaFilename]);\n if (!json) {\n return undefined;\n }\n return { name: metaFilename, json };\n } catch {\n return undefined;\n }\n}\n\nexport async function unpackSplats({\n input,\n extraFiles,\n fileType,\n pathOrUrl,\n splatEncoding,\n}: {\n input: Uint8Array | ArrayBuffer;\n extraFiles?: Record;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n splatEncoding?: SplatEncoding;\n}): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra?: Record;\n}> {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let splatFileType = fileType;\n if (!fileType) {\n splatFileType = getSplatFileType(fileBytes);\n if (!splatFileType && pathOrUrl) {\n splatFileType = getSplatFileTypeFromPath(pathOrUrl);\n }\n }\n\n switch (splatFileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n const maxSplats = getTextureSize(numSplats).maxSplats;\n const args = {\n fileBytes,\n packedArray: new Uint32Array(maxSplats * 4),\n splatEncoding,\n };\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"unpackPly\",\n args,\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPZ: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeSpz\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats } = (await worker.call(\n \"decodeAntiSplat\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as { packedArray: Uint32Array; numSplats: number };\n return { packedArray, numSplats };\n });\n }\n case SplatFileType.KSPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeKsplat\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGS: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogs\",\n { fileBytes, extraFiles, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGSZIP: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogsZip\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n default: {\n throw new Error(`Unknown splat file type: ${splatFileType}`);\n }\n }\n}\n\nexport class SplatData {\n numSplats: number;\n maxSplats: number;\n centers: Float32Array;\n scales: Float32Array;\n quaternions: Float32Array;\n opacities: Float32Array;\n colors: Float32Array;\n sh1?: Float32Array;\n sh2?: Float32Array;\n sh3?: Float32Array;\n\n constructor({ maxSplats = 1 }: { maxSplats?: number } = {}) {\n this.numSplats = 0;\n this.maxSplats = getTextureSize(maxSplats).maxSplats;\n this.centers = new Float32Array(this.maxSplats * 3);\n this.scales = new Float32Array(this.maxSplats * 3);\n this.quaternions = new Float32Array(this.maxSplats * 4);\n this.opacities = new Float32Array(this.maxSplats);\n this.colors = new Float32Array(this.maxSplats * 3);\n }\n\n pushSplat(): number {\n const index = this.numSplats;\n this.ensureIndex(index);\n this.numSplats += 1;\n return index;\n }\n\n unpushSplat(index: number) {\n if (index === this.numSplats - 1) {\n this.numSplats -= 1;\n } else {\n throw new Error(\"Cannot unpush splat from non-last position\");\n }\n }\n\n ensureCapacity(numSplats: number) {\n if (numSplats > this.maxSplats) {\n const targetSplats = Math.max(numSplats, this.maxSplats * 2);\n const newCenters = new Float32Array(targetSplats * 3);\n const newScales = new Float32Array(targetSplats * 3);\n const newQuaternions = new Float32Array(targetSplats * 4);\n const newOpacities = new Float32Array(targetSplats);\n const newColors = new Float32Array(targetSplats * 3);\n newCenters.set(this.centers);\n newScales.set(this.scales);\n newQuaternions.set(this.quaternions);\n newOpacities.set(this.opacities);\n newColors.set(this.colors);\n this.centers = newCenters;\n this.scales = newScales;\n this.quaternions = newQuaternions;\n this.opacities = newOpacities;\n this.colors = newColors;\n\n if (this.sh1) {\n const newSh1 = new Float32Array(targetSplats * 9);\n newSh1.set(this.sh1);\n this.sh1 = newSh1;\n }\n if (this.sh2) {\n const newSh2 = new Float32Array(targetSplats * 15);\n newSh2.set(this.sh2);\n this.sh2 = newSh2;\n }\n if (this.sh3) {\n const newSh3 = new Float32Array(targetSplats * 21);\n newSh3.set(this.sh3);\n this.sh3 = newSh3;\n }\n\n this.maxSplats = targetSplats;\n }\n }\n\n ensureIndex(index: number) {\n this.ensureCapacity(index + 1);\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n this.centers[index * 3] = x;\n this.centers[index * 3 + 1] = y;\n this.centers[index * 3 + 2] = z;\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n this.scales[index * 3] = scaleX;\n this.scales[index * 3 + 1] = scaleY;\n this.scales[index * 3 + 2] = scaleZ;\n }\n\n setQuaternion(index: number, x: number, y: number, z: number, w: number) {\n this.quaternions[index * 4] = x;\n this.quaternions[index * 4 + 1] = y;\n this.quaternions[index * 4 + 2] = z;\n this.quaternions[index * 4 + 3] = w;\n }\n\n setOpacity(index: number, opacity: number) {\n this.opacities[index] = opacity;\n }\n\n setColor(index: number, r: number, g: number, b: number) {\n this.colors[index * 3] = r;\n this.colors[index * 3 + 1] = g;\n this.colors[index * 3 + 2] = b;\n }\n\n setSh1(index: number, sh1: Float32Array) {\n if (!this.sh1) {\n this.sh1 = new Float32Array(this.maxSplats * 9);\n }\n for (let j = 0; j < 9; ++j) {\n this.sh1[index * 9 + j] = sh1[j];\n }\n }\n\n setSh2(index: number, sh2: Float32Array) {\n if (!this.sh2) {\n this.sh2 = new Float32Array(this.maxSplats * 15);\n }\n for (let j = 0; j < 15; ++j) {\n this.sh2[index * 15 + j] = sh2[j];\n }\n }\n\n setSh3(index: number, sh3: Float32Array) {\n if (!this.sh3) {\n this.sh3 = new Float32Array(this.maxSplats * 21);\n }\n for (let j = 0; j < 21; ++j) {\n this.sh3[index * 21 + j] = sh3[j];\n }\n }\n}\n\nexport async function transcodeSpz(\n input: TranscodeSpzInput,\n): Promise<{ input: TranscodeSpzInput; fileBytes: Uint8Array }> {\n return await withWorker(async (worker) => {\n const result = (await worker.call(\"transcodeSpz\", input)) as {\n input: TranscodeSpzInput;\n fileBytes: Uint8Array;\n };\n return result;\n });\n}\n\nexport type FileInput = {\n fileBytes: Uint8Array;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n transform?: { translate?: number[]; quaternion?: number[]; scale?: number };\n};\n\nexport type TranscodeSpzInput = {\n inputs: FileInput[];\n maxSh?: number;\n clipXyz?: { min: number[]; max: number[] };\n fractionalBits?: number;\n opacityThreshold?: number;\n};\n","import { unzip } from \"fflate\";\nimport {\n type PcSogsJson,\n type PcSogsV2Json,\n tryPcSogsZip,\n} from \"./SplatLoader\";\nimport type { SplatEncoding } from \"./defines\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n setPackedSplatCenter,\n setPackedSplatQuat,\n setPackedSplatRgba,\n setPackedSplatScales,\n} from \"./utils\";\n\nexport async function unpackPcSogs(\n json: PcSogsJson | PcSogsV2Json,\n extraFiles: Record,\n splatEncoding: SplatEncoding,\n): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const isVersion2 = \"version\" in json;\n\n if (!isVersion2 && json.quats.encoding !== \"quaternion_packed\") {\n throw new Error(\"Unsupported quaternion encoding\");\n }\n\n const numSplats = isVersion2 ? json.count : json.means.shape[0];\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n const meansPromise = Promise.all([\n decodeImageRgba(extraFiles[json.means.files[0]]),\n decodeImageRgba(extraFiles[json.means.files[1]]),\n ]).then((means) => {\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n const fx = (means[0][i4 + 0] + (means[1][i4 + 0] << 8)) / 65535;\n const fy = (means[0][i4 + 1] + (means[1][i4 + 1] << 8)) / 65535;\n const fz = (means[0][i4 + 2] + (means[1][i4 + 2] << 8)) / 65535;\n let x =\n json.means.mins[0] + (json.means.maxs[0] - json.means.mins[0]) * fx;\n let y =\n json.means.mins[1] + (json.means.maxs[1] - json.means.mins[1]) * fy;\n let z =\n json.means.mins[2] + (json.means.maxs[2] - json.means.mins[2]) * fz;\n x = Math.sign(x) * (Math.exp(Math.abs(x)) - 1);\n y = Math.sign(y) * (Math.exp(Math.abs(y)) - 1);\n z = Math.sign(z) * (Math.exp(Math.abs(z)) - 1);\n setPackedSplatCenter(packedArray, i, x, y, z);\n }\n });\n\n const scalesPromise = decodeImageRgba(extraFiles[json.scales.files[0]]).then(\n (scales) => {\n let xLookup: number[];\n let yLookup: number[];\n let zLookup: number[];\n\n if (isVersion2) {\n xLookup =\n yLookup =\n zLookup =\n json.scales.codebook.map((x) => Math.exp(x));\n } else {\n xLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.scales.mins[0] +\n (json.scales.maxs[0] - json.scales.mins[0]) * (i / 255),\n )\n .map((x) => Math.exp(x));\n yLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.scales.mins[1] +\n (json.scales.maxs[1] - json.scales.mins[1]) * (i / 255),\n )\n .map((x) => Math.exp(x));\n zLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.scales.mins[2] +\n (json.scales.maxs[2] - json.scales.mins[2]) * (i / 255),\n )\n .map((x) => Math.exp(x));\n }\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n setPackedSplatScales(\n packedArray,\n i,\n xLookup[scales[i4 + 0]],\n yLookup[scales[i4 + 1]],\n zLookup[scales[i4 + 2]],\n splatEncoding,\n );\n }\n },\n );\n\n const quatsPromise = decodeImageRgba(extraFiles[json.quats.files[0]]).then(\n (quats) => {\n const SQRT2 = Math.sqrt(2);\n const lookup = new Array(256)\n .fill(0)\n .map((_, i) => (i / 255 - 0.5) * SQRT2);\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n const r0 = lookup[quats[i4 + 0]];\n const r1 = lookup[quats[i4 + 1]];\n const r2 = lookup[quats[i4 + 2]];\n const rr = Math.sqrt(Math.max(0, 1.0 - r0 * r0 - r1 * r1 - r2 * r2));\n const rOrder = quats[i4 + 3] - 252;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n setPackedSplatQuat(packedArray, i, quatX, quatY, quatZ, quatW);\n }\n },\n );\n const sh0Promise = decodeImageRgba(extraFiles[json.sh0.files[0]]).then(\n (sh0) => {\n const SH_C0 = 0.28209479177387814;\n let rLookup: number[];\n let gLookup: number[];\n let bLookup: number[];\n let aLookup: number[];\n\n if (isVersion2) {\n rLookup =\n gLookup =\n bLookup =\n json.sh0.codebook.map((x) => SH_C0 * x + 0.5);\n aLookup = new Array(256).fill(0).map((_, i) => i / 255);\n } else {\n rLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[0] +\n (json.sh0.maxs[0] - json.sh0.mins[0]) * (i / 255),\n )\n .map((x) => SH_C0 * x + 0.5);\n gLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[1] +\n (json.sh0.maxs[1] - json.sh0.mins[1]) * (i / 255),\n )\n .map((x) => SH_C0 * x + 0.5);\n bLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[2] +\n (json.sh0.maxs[2] - json.sh0.mins[2]) * (i / 255),\n )\n .map((x) => SH_C0 * x + 0.5);\n aLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[3] +\n (json.sh0.maxs[3] - json.sh0.mins[3]) * (i / 255),\n )\n .map((x) => 1.0 / (1.0 + Math.exp(-x)));\n }\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n setPackedSplatRgba(\n packedArray,\n i,\n rLookup[sh0[i4 + 0]],\n gLookup[sh0[i4 + 1]],\n bLookup[sh0[i4 + 2]],\n aLookup[sh0[i4 + 3]],\n splatEncoding,\n );\n }\n },\n );\n\n const promises = [meansPromise, scalesPromise, quatsPromise, sh0Promise];\n if (json.shN) {\n const useSH3 = isVersion2\n ? json.shN.bands >= 3\n : json.shN.shape[1] >= 48 - 3;\n const useSH2 = isVersion2\n ? json.shN.bands >= 2\n : json.shN.shape[1] >= 27 - 3;\n const useSH1 = isVersion2\n ? json.shN.bands >= 1\n : json.shN.shape[1] >= 12 - 3;\n\n if (useSH1) extra.sh1 = new Uint32Array(numSplats * 2);\n if (useSH2) extra.sh2 = new Uint32Array(numSplats * 4);\n if (useSH3) extra.sh3 = new Uint32Array(numSplats * 4);\n\n const sh1 = new Float32Array(9);\n const sh2 = new Float32Array(15);\n const sh3 = new Float32Array(21);\n\n const shN = json.shN;\n const shNPromise = Promise.all([\n decodeImage(extraFiles[json.shN.files[0]]),\n decodeImage(extraFiles[json.shN.files[1]]),\n ]).then(([centroids, labels]) => {\n const lookup =\n \"codebook\" in shN\n ? shN.codebook\n : new Array(256)\n .fill(0)\n .map((_, i) => shN.mins + (shN.maxs - shN.mins) * (i / 255));\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n const label = labels.rgba[i4 + 0] + (labels.rgba[i4 + 1] << 8);\n const col = (label & 63) * 15;\n const row = label >>> 6;\n const offset = row * centroids.width + col;\n\n for (let d = 0; d < 3; ++d) {\n if (useSH1) {\n for (let k = 0; k < 3; ++k) {\n sh1[k * 3 + d] = lookup[centroids.rgba[(offset + k) * 4 + d]];\n }\n }\n\n if (useSH2) {\n for (let k = 0; k < 5; ++k) {\n sh2[k * 3 + d] = lookup[centroids.rgba[(offset + 3 + k) * 4 + d]];\n }\n }\n\n if (useSH3) {\n for (let k = 0; k < 7; ++k) {\n sh3[k * 3 + d] = lookup[centroids.rgba[(offset + 8 + k) * 4 + d]];\n }\n }\n }\n\n if (useSH1)\n encodeSh1Rgb(extra.sh1 as Uint32Array, i, sh1, splatEncoding);\n if (useSH2)\n encodeSh2Rgb(extra.sh2 as Uint32Array, i, sh2, splatEncoding);\n if (useSH3)\n encodeSh3Rgb(extra.sh3 as Uint32Array, i, sh3, splatEncoding);\n }\n });\n promises.push(shNPromise);\n }\n\n await Promise.all(promises);\n\n return { packedArray, numSplats, extra };\n}\n\n// WebGL context for reading raw pixel data of WebP images\nlet offscreenGlContext: WebGL2RenderingContext | null = null;\n\nasync function decodeImage(fileBytes: ArrayBuffer) {\n if (!offscreenGlContext) {\n const canvas = new OffscreenCanvas(1, 1);\n offscreenGlContext = canvas.getContext(\"webgl2\");\n if (!offscreenGlContext) {\n throw new Error(\"Failed to create WebGL2 context\");\n }\n }\n\n const imageBlob = new Blob([fileBytes]);\n const bitmap = await createImageBitmap(imageBlob, {\n premultiplyAlpha: \"none\",\n });\n\n const gl = offscreenGlContext;\n const texture = gl.createTexture();\n gl.bindTexture(gl.TEXTURE_2D, texture);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, true);\n gl.texImage2D(gl.TEXTURE_2D, 0, gl.RGBA, gl.RGBA, gl.UNSIGNED_BYTE, bitmap);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST);\n\n const framebuffer = gl.createFramebuffer();\n gl.bindFramebuffer(gl.FRAMEBUFFER, framebuffer);\n gl.framebufferTexture2D(\n gl.FRAMEBUFFER,\n gl.COLOR_ATTACHMENT0,\n gl.TEXTURE_2D,\n texture,\n 0,\n );\n\n const data = new Uint8Array(bitmap.width * bitmap.height * 4);\n gl.readPixels(\n 0,\n 0,\n bitmap.width,\n bitmap.height,\n gl.RGBA,\n gl.UNSIGNED_BYTE,\n data,\n );\n\n gl.deleteTexture(texture);\n gl.deleteFramebuffer(framebuffer);\n\n return { rgba: data, width: bitmap.width, height: bitmap.height };\n}\n\nasync function decodeImageRgba(fileBytes: ArrayBuffer) {\n const { rgba } = await decodeImage(fileBytes);\n return rgba;\n}\n\nexport async function unpackPcSogsZip(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const nameJson = tryPcSogsZip(fileBytes);\n if (!nameJson) {\n throw new Error(\"Invalid PC SOGS zip file\");\n }\n const { name, json } = nameJson;\n // Find path prefix, will be -1 if no / or \\\n const lastSlash = name.lastIndexOf(\"/\");\n const lastBackslash = name.lastIndexOf(\"\\\\\");\n const prefix = name.slice(0, Math.max(lastSlash, lastBackslash) + 1);\n\n const fileMap = new Map();\n const refFiles = [\n ...json.means.files,\n ...json.scales.files,\n ...json.quats.files,\n ...json.sh0.files,\n ...(json.shN?.files ?? []),\n ];\n for (const file of refFiles) {\n fileMap.set(prefix + file, file);\n }\n\n const unzipped = await new Promise>(\n (resolve, reject) => {\n unzip(\n fileBytes,\n {\n filter: ({ name }) => {\n return fileMap.has(name);\n },\n },\n (err, files) => {\n if (err) {\n reject(err);\n } else {\n resolve(files);\n }\n },\n );\n },\n );\n\n const extraFiles: Record = {};\n for (const [full, name] of fileMap.entries()) {\n extraFiles[name] = unzipped[full];\n }\n\n return await unpackPcSogs(json, extraFiles, splatEncoding);\n}\n","import init_wasm, { sort_splats, sort32_splats } from \"spark-worker-rs\";\nimport type { PcSogsJson, TranscodeSpzInput } from \"./SplatLoader\";\nimport { unpackAntiSplat } from \"./antisplat\";\nimport { type SplatEncoding, WASM_SPLAT_SORT } from \"./defines\";\nimport { unpackKsplat } from \"./ksplat\";\nimport { unpackPcSogs, unpackPcSogsZip } from \"./pcsogs\";\nimport { PlyReader } from \"./ply\";\nimport { SpzReader, transcodeSpz } from \"./spz\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n getTransferable,\n setPackedSplat,\n setPackedSplatCenter,\n setPackedSplatOpacity,\n setPackedSplatQuat,\n setPackedSplatRgb,\n setPackedSplatScales,\n toHalf,\n} from \"./utils\";\n\n// WebWorker for Spark's background CPU tasks, such as Gsplat file decoding\n// and sorting.\n\nasync function onMessage(event: MessageEvent) {\n // Unpack RPC function name, arguments, and ID from the main thread.\n const { name, args, id }: { name: string; args: unknown; id: number } =\n event.data;\n // console.log(`worker.onMessage(${id}, ${name}):`, args);\n\n // Initialize return result/error, to be filled out below.\n let result = undefined;\n let error = undefined;\n\n try {\n switch (name) {\n case \"unpackPly\": {\n const { packedArray, fileBytes, splatEncoding } = args as {\n packedArray: Uint32Array;\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = await unpackPly({\n packedArray,\n fileBytes,\n splatEncoding,\n });\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodeSpz\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = await unpackSpz(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodeAntiSplat\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = unpackAntiSplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n };\n break;\n }\n case \"decodeKsplat\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = unpackKsplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodePcSogs\": {\n const { fileBytes, extraFiles, splatEncoding } = args as {\n fileBytes: Uint8Array;\n extraFiles: Record;\n splatEncoding: SplatEncoding;\n };\n const json = JSON.parse(\n new TextDecoder().decode(fileBytes),\n ) as PcSogsJson;\n const decoded = await unpackPcSogs(json, extraFiles, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodePcSogsZip\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = await unpackPcSogsZip(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"sortSplats\": {\n // Sort maxSplats splats using readback data, which encodes one uint32 per\n // Gsplats, with the low bytes encoding a float16 distance sort metric.\n const { maxSplats, totalSplats, readback, ordering } = args as {\n maxSplats: number;\n totalSplats: number;\n readback: Uint8Array[];\n ordering: Uint32Array;\n };\n // Sort totalSplats splats each with 4 bytes of readback, and outputs Uint32Array ordering of splat indices\n result = {\n id,\n readback,\n ...sortSplats({ totalSplats, readback, ordering }),\n };\n break;\n }\n case \"sortDoubleSplats\": {\n // Sort numSplats splats using the readback distance metric, which encodes\n // one float16 per splat (no unused high bytes like for sortSplats).\n const { numSplats, readback, ordering } = args as {\n numSplats: number;\n readback: Uint16Array;\n ordering: Uint32Array;\n };\n if (WASM_SPLAT_SORT) {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort_splats(numSplats, readback, ordering),\n };\n } else {\n result = {\n id,\n readback,\n ...sortDoubleSplats({ numSplats, readback, ordering }),\n };\n }\n break;\n }\n case \"sort32Splats\": {\n const { maxSplats, numSplats, readback, ordering } = args as {\n maxSplats: number;\n numSplats: number;\n readback: Uint32Array;\n ordering: Uint32Array;\n };\n // Benchmark sort\n // benchmarkSort(numSplats, readback, ordering);\n if (WASM_SPLAT_SORT) {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort32_splats(numSplats, readback, ordering),\n };\n } else {\n result = {\n id,\n readback,\n ...sort32Splats({ maxSplats, numSplats, readback, ordering }),\n };\n }\n break;\n }\n case \"transcodeSpz\": {\n const input = args as TranscodeSpzInput;\n const spzBytes = await transcodeSpz(input);\n result = {\n id,\n fileBytes: spzBytes,\n input,\n };\n break;\n }\n default: {\n throw new Error(`Unknown name: ${name}`);\n }\n }\n } catch (e) {\n error = e;\n console.error(error);\n }\n\n // Send the result or error back to the main thread, making sure to transfer any ArrayBuffers\n self.postMessage(\n { id, result, error },\n { transfer: getTransferable(result) },\n );\n}\n\nfunction benchmarkSort(\n numSplats: number,\n readback32: Uint32Array,\n ordering: Uint32Array,\n) {\n if (numSplats > 0) {\n console.log(\"Running sort benchmark\");\n const readbackF32 = new Float32Array(readback32.buffer);\n const readback16 = new Uint16Array(readback32.length);\n for (let i = 0; i < numSplats; ++i) {\n readback16[i] = toHalf(readbackF32[i]);\n }\n\n const WARMUP = 10;\n for (let i = 0; i < WARMUP; ++i) {\n const activeSplats = sort_splats(numSplats, readback16, ordering);\n const activeSplats32 = sort32_splats(numSplats, readback32, ordering);\n const results = sortDoubleSplats({\n numSplats,\n readback: readback16,\n ordering,\n });\n const results32 = sort32Splats({\n maxSplats: numSplats,\n numSplats,\n readback: readback32,\n ordering,\n });\n }\n\n const TIMING_SAMPLES = 1000;\n let start: number;\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const activeSplats = sort_splats(numSplats, readback16, ordering);\n }\n const wasmTime = (performance.now() - start) / TIMING_SAMPLES;\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const results = sortDoubleSplats({\n numSplats,\n readback: readback16,\n ordering,\n });\n }\n const jsTime = (performance.now() - start) / TIMING_SAMPLES;\n\n console.log(\n `JS: ${jsTime} ms, WASM: ${wasmTime} ms, numSplats: ${numSplats}`,\n );\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const activeSplats32 = sort32_splats(numSplats, readback32, ordering);\n }\n const wasm32Time = (performance.now() - start) / TIMING_SAMPLES;\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const results = sort32Splats({\n maxSplats: numSplats,\n numSplats,\n readback: readback32,\n ordering,\n });\n }\n const js32Time = (performance.now() - start) / TIMING_SAMPLES;\n\n console.log(\n `JS32: ${js32Time} ms, WASM32: ${wasm32Time} ms, numSplats: ${numSplats}`,\n );\n }\n}\n\nasync function unpackPly({\n packedArray,\n fileBytes,\n splatEncoding,\n}: {\n packedArray: Uint32Array;\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n}): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n\n const extra: Record = {};\n\n ply.parseSplats(\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n setPackedSplat(\n packedArray,\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, index, sh3, splatEncoding);\n }\n },\n );\n\n return { packedArray, numSplats, extra };\n}\n\nasync function unpackSpz(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const spz = new SpzReader({ fileBytes });\n await spz.parseHeader();\n const numSplats = spz.numSplats;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let extraCallbacks = {};\n if (spz.flagLod) {\n const childCounts = new Uint16Array(numSplats);\n const childStarts = new Uint32Array(numSplats);\n extra.childCounts = childCounts;\n extra.childStarts = childStarts;\n extraCallbacks = {\n childCounts: (index: number, count: number) => {\n childCounts[index] = count;\n },\n childStarts: (index: number, start: number) => {\n childStarts[index] = start;\n },\n };\n }\n\n await spz.parseSplats(\n (index, x, y, z) => {\n setPackedSplatCenter(packedArray, index, x, y, z);\n },\n (index, alpha) => {\n setPackedSplatOpacity(packedArray, index, alpha);\n },\n (index, r, g, b) => {\n setPackedSplatRgb(packedArray, index, r, g, b, splatEncoding);\n },\n (index, scaleX, scaleY, scaleZ) => {\n setPackedSplatScales(\n packedArray,\n index,\n scaleX,\n scaleY,\n scaleZ,\n splatEncoding,\n );\n },\n (index, quatX, quatY, quatZ, quatW) => {\n setPackedSplatQuat(packedArray, index, quatX, quatY, quatZ, quatW);\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, index, sh3, splatEncoding);\n }\n },\n extraCallbacks,\n );\n return { packedArray, numSplats, extra };\n}\n\n// Array of buckets for sorting float16 distances with range [0, DEPTH_INFINITY].\nconst DEPTH_INFINITY_F16 = 0x7c00;\nconst DEPTH_SIZE_16 = DEPTH_INFINITY_F16 + 1;\nlet depthArray16: Uint32Array | null = null;\n\nfunction sortSplats({\n totalSplats,\n readback,\n ordering,\n}: { totalSplats: number; readback: Uint8Array[]; ordering: Uint32Array }): {\n activeSplats: number;\n ordering: Uint32Array;\n} {\n // Sort totalSplats Gsplats, each with 4 bytes of readback, and outputs Uint32Array\n // of indices from most distant to nearest. Each 4 bytes encode a float16 distance\n // and unused high bytes.\n if (!depthArray16) {\n depthArray16 = new Uint32Array(DEPTH_SIZE_16);\n }\n depthArray16.fill(0);\n\n const readbackUint32 = readback.map((layer) => new Uint32Array(layer.buffer));\n const layerSize = readbackUint32[0].length;\n const numLayers = Math.ceil(totalSplats / layerSize);\n\n let layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i = 0; i < layerSplats; ++i) {\n const pri = readbackLayer[i] & 0x7fff;\n if (pri < DEPTH_INFINITY_F16) {\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n\n let activeSplats = 0;\n for (let j = 0; j < DEPTH_SIZE_16; ++j) {\n const nextIndex = activeSplats + depthArray16[j];\n depthArray16[j] = activeSplats;\n activeSplats = nextIndex;\n }\n\n layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i = 0; i < layerSplats; ++i) {\n const pri = readbackLayer[i] & 0x7fff;\n if (pri < DEPTH_INFINITY_F16) {\n ordering[depthArray16[pri]] = layerBase + i;\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n if (depthArray16[DEPTH_SIZE_16 - 1] !== activeSplats) {\n throw new Error(\n `Expected ${activeSplats} active splats but got ${depthArray16[DEPTH_SIZE_16 - 1]}`,\n );\n }\n\n return { activeSplats, ordering };\n}\n\n// Sort numSplats splats, each with 2 bytes of float16 readback for distance metric,\n// using one bucket sort pass, outputting Uint32Array of indices.\nfunction sortDoubleSplats({\n numSplats,\n readback,\n ordering,\n}: { numSplats: number; readback: Uint16Array; ordering: Uint32Array }): {\n activeSplats: number;\n ordering: Uint32Array;\n} {\n // Ensure depthArray is allocated and zeroed out for our buckets.\n if 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\ No newline at end of file diff --git a/dist/assets/oldWorker-Ga0lx4u7.js.map b/dist/assets/oldWorker-Ga0lx4u7.js.map new file mode 100644 index 00000000..4674ab3e --- /dev/null +++ b/dist/assets/oldWorker-Ga0lx4u7.js.map @@ -0,0 +1 @@ +{"version":3,"file":"oldWorker-Ga0lx4u7.js","sources":["../rust/spark-worker-rs/pkg/spark_worker_rs.js","../node_modules/fflate/esm/browser.js","../node_modules/three/build/three.core.js","../src/defines.ts","../src/dyno/base.ts","../src/utils.ts","../src/antisplat.ts","../src/ksplat.ts","../src/ply.ts","../src/spz.ts","../src/SplatLoader.ts","../src/pcsogs.ts","../src/oldWorker.ts"],"sourcesContent":["/* @ts-self-types=\"./spark_worker_rs.d.ts\" */\n\nexport class ChunkDecoder {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(ChunkDecoder.prototype);\n obj.__wbg_ptr = ptr;\n ChunkDecoderFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n 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wasm.__wbg_get_csplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_csplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_csplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n}\nif (Symbol.dispose) CsplatArray.prototype[Symbol.dispose] = CsplatArray.prototype.free;\n\nexport class GsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(GsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n GsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n GsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_gsplatarray_free(ptr, 0);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_gsplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_gsplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.gsplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.gsplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.gsplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.gsplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.gsplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.gsplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.gsplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats_lod(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats_lod(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_gsplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_gsplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n}\nif (Symbol.dispose) GsplatArray.prototype[Symbol.dispose] = GsplatArray.prototype.free;\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function bhatt_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, rgba) {\n const ret = wasm.bhatt_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function bhatt_lod_packedsplats(num_splats, packed, extra, lod_base, rgba, encoding) {\n const ret = wasm.bhatt_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @returns {ChunkDecoder}\n */\nexport function decode_to_csplatarray(file_type, path_name, encoding) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_csplatarray(ptr0, len0, ptr1, len1, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_extsplats(file_type, path_name, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_extsplats(ptr0, len0, ptr1, len1, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_gsplatarray(file_type, path_name) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_gsplatarray(ptr0, len0, ptr1, len1);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Uint32Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_packedsplats(file_type, path_name, encoding, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_packedsplats(ptr0, len0, ptr1, len1, encoding, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n */\nexport function dispose_lod_tree(lod_id) {\n wasm.dispose_lod_tree(lod_id);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null} [extra]\n * @returns {GsplatArray}\n */\nexport function extsplats_to_gsplatarray(num_splats, ext1, ext2, extra) {\n const ret = wasm.extsplats_to_gsplatarray(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n * @param {number} level\n * @returns {object}\n */\nexport function get_lod_tree_level(lod_id, level) {\n const ret = wasm.get_lod_tree_level(lod_id, level);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} lod_tree\n * @returns {object}\n */\nexport function init_lod_tree(num_splats, lod_tree) {\n const ret = wasm.init_lod_tree(num_splats, lod_tree);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} capacity\n * @returns {object}\n */\nexport function new_lod_tree(capacity) {\n const ret = wasm.new_lod_tree(capacity);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} orig_lod_id\n * @returns {object}\n */\nexport function new_shared_lod_tree(orig_lod_id) {\n const ret = wasm.new_shared_lod_tree(orig_lod_id);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {CsplatArray}\n */\nexport function packedsplats_to_csplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_csplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return CsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {GsplatArray}\n */\nexport function packedsplats_to_gsplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_gsplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @returns {boolean}\n */\nexport function simd_enabled() {\n const ret = wasm.simd_enabled();\n return ret !== 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort32_splats(num_splats, readback, ordering) {\n const ret = wasm.sort32_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint16Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort_splats(num_splats, readback, ordering) {\n const ret = wasm.sort_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function tiny_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, merge_filter, rgba) {\n const ret = wasm.tiny_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function tiny_lod_packedsplats(num_splats, packed, extra, lod_base, merge_filter, rgba, encoding) {\n const ret = wasm.tiny_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} max_splats\n * @param {number} pixel_scale_limit\n * @param {number | null | undefined} _last_pixel_limit\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} root_pages\n * @param {Float32Array} view_to_objects\n * @param {Float32Array} lod_scales\n * @param {Float32Array} behind_foveates\n * @param {Float32Array} cone_foveates\n * @param {Float32Array} cone_fov0s\n * @param {Float32Array} cone_fovs\n * @returns {object}\n */\nexport function traverse_lod_trees(max_splats, pixel_scale_limit, _last_pixel_limit, lod_ids, root_pages, view_to_objects, lod_scales, behind_foveates, cone_foveates, cone_fov0s, cone_fovs) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(root_pages, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArrayF32ToWasm0(view_to_objects, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArrayF32ToWasm0(lod_scales, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ptr4 = passArrayF32ToWasm0(behind_foveates, wasm.__wbindgen_malloc);\n const len4 = WASM_VECTOR_LEN;\n const ptr5 = passArrayF32ToWasm0(cone_foveates, wasm.__wbindgen_malloc);\n const len5 = WASM_VECTOR_LEN;\n const ptr6 = passArrayF32ToWasm0(cone_fov0s, wasm.__wbindgen_malloc);\n const len6 = WASM_VECTOR_LEN;\n const ptr7 = passArrayF32ToWasm0(cone_fovs, wasm.__wbindgen_malloc);\n const len7 = WASM_VECTOR_LEN;\n const ret = wasm.traverse_lod_trees(max_splats, pixel_scale_limit, isLikeNone(_last_pixel_limit) ? 0x100000001 : Math.fround(_last_pixel_limit), ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, ptr4, len4, ptr5, len5, ptr6, len6, ptr7, len7);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} page_bases\n * @param {Uint32Array} chunk_bases\n * @param {Uint32Array} counts\n * @param {Array} lod_trees\n * @returns {object}\n */\nexport function update_lod_trees(lod_ids, page_bases, chunk_bases, counts, lod_trees) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(page_bases, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArray32ToWasm0(chunk_bases, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArray32ToWasm0(counts, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ret = wasm.update_lod_trees(ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, lod_trees);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\nexport function wasm_start() {\n wasm.wasm_start();\n}\n\nfunction __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_boolean_get_a86c216575a75c30: function(arg0) {\n const v = arg0;\n const ret = typeof(v) === 'boolean' ? v : undefined;\n return isLikeNone(ret) ? 0xFFFFFF : ret ? 1 : 0;\n },\n __wbg___wbindgen_debug_string_dd5d2d07ce9e6c57: function(arg0, arg1) {\n const ret = debugString(arg1);\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_in_4bd7a57e54337366: function(arg0, arg1) {\n const ret = arg0 in arg1;\n return ret;\n },\n __wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof(val) === 'object' && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === undefined;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'number' ? obj : undefined;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'string' ? obj : undefined;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() { return handleError(function (arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments); },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() { return handleError(function (arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments); },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n // Cast intrinsic for `F64 -> Externref`.\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n // Cast intrinsic for `Ref(String) -> Externref`.\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, undefined);\n table.set(offset + 0, undefined);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n },\n };\n return {\n __proto__: null,\n \"./spark_worker_rs_bg.js\": import0,\n };\n}\n\nconst ChunkDecoderFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\nconst CsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\nconst GsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n\nfunction addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n}\n\nfunction debugString(val) {\n // primitive types\n const type = typeof val;\n if (type == 'number' || type == 'boolean' || val == null) {\n return `${val}`;\n }\n if (type == 'string') {\n return `\"${val}\"`;\n }\n if (type == 'symbol') {\n const description = val.description;\n if (description == null) {\n return 'Symbol';\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == 'function') {\n const name = val.name;\n if (typeof name == 'string' && name.length > 0) {\n return `Function(${name})`;\n } else {\n return 'Function';\n }\n }\n // objects\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = '[';\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for(let i = 1; i < length; i++) {\n debug += ', ' + debugString(val[i]);\n }\n debug += ']';\n return debug;\n }\n // Test for built-in\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n // Failed to match the standard '[object ClassName]'\n return toString.call(val);\n }\n if (className == 'Object') {\n // we're a user defined class or Object\n // JSON.stringify avoids problems with cycles, and is generally much\n // easier than looping through ownProperties of `val`.\n try {\n return 'Object(' + JSON.stringify(val) + ')';\n } catch (_) {\n return 'Object';\n }\n }\n // errors\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\\n${val.stack}`;\n }\n // TODO we could test for more things here, like `Set`s and `Map`s.\n return className;\n}\n\nfunction getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n}\n\nfunction getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n}\n\nlet cachedDataViewMemory0 = null;\nfunction getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || (cachedDataViewMemory0.buffer.detached === undefined && cachedDataViewMemory0.buffer !== wasm.memory.buffer)) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n}\n\nlet cachedFloat32ArrayMemory0 = null;\nfunction getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n}\n\nfunction getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n}\n\nlet cachedUint16ArrayMemory0 = null;\nfunction getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n}\n\nlet cachedUint32ArrayMemory0 = null;\nfunction getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n}\n\nlet cachedUint8ArrayMemory0 = null;\nfunction getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n}\n\nfunction handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n}\n\nfunction isLikeNone(x) {\n return x === undefined || x === null;\n}\n\nfunction passArray32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getUint32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passArrayF32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getFloat32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passStringToWasm0(arg, malloc, realloc) {\n if (realloc === undefined) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr, ptr + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr;\n }\n\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n\n const mem = getUint8ArrayMemory0();\n\n let offset = 0;\n\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 0x7F) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n\n WASM_VECTOR_LEN = offset;\n return ptr;\n}\n\nfunction takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n}\n\nlet cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\ncachedTextDecoder.decode();\nconst MAX_SAFARI_DECODE_BYTES = 2146435072;\nlet numBytesDecoded = 0;\nfunction decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n}\n\nconst cachedTextEncoder = new TextEncoder();\n\nif (!('encodeInto' in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function (arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n}\n\nlet WASM_VECTOR_LEN = 0;\n\nlet wasmModule, wasm;\nfunction __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n wasmModule = module;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n}\n\nasync function __wbg_load(module, imports) {\n if (typeof Response === 'function' && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === 'function') {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n\n if (validResponse && module.headers.get('Content-Type') !== 'application/wasm') {\n console.warn(\"`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n\", e);\n\n } else { throw e; }\n }\n }\n\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n\n function expectedResponseType(type) {\n switch (type) {\n case 'basic': case 'cors': case 'default': return true;\n }\n return false;\n }\n}\n\nfunction initSync(module) {\n if (wasm !== undefined) return wasm;\n\n\n if (module !== undefined) {\n if (Object.getPrototypeOf(module) === Object.prototype) {\n ({module} = module)\n } else {\n console.warn('using deprecated parameters for `initSync()`; pass a single object instead')\n }\n }\n\n const imports = __wbg_get_imports();\n if (!(module instanceof WebAssembly.Module)) {\n module = new WebAssembly.Module(module);\n }\n const instance = new WebAssembly.Instance(module, imports);\n return __wbg_finalize_init(instance, module);\n}\n\nasync function __wbg_init(module_or_path) {\n if (wasm !== undefined) return wasm;\n\n\n if (module_or_path !== undefined) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({module_or_path} = module_or_path)\n } else {\n console.warn('using deprecated parameters for the initialization function; pass a single object instead')\n }\n }\n\n if (module_or_path === undefined) {\n module_or_path = new URL('spark_worker_rs_bg.wasm', import.meta.url);\n }\n const imports = __wbg_get_imports();\n\n if (typeof module_or_path === 'string' || (typeof Request === 'function' && module_or_path instanceof Request) || (typeof URL === 'function' && module_or_path instanceof URL)) {\n module_or_path = fetch(module_or_path);\n }\n\n const { instance, module } = await __wbg_load(await module_or_path, imports);\n\n return __wbg_finalize_init(instance, module);\n}\n\nexport { initSync, __wbg_init as default };\n","// DEFLATE is a complex format; to read this code, you should probably check the RFC first:\n// https://tools.ietf.org/html/rfc1951\n// You may also wish to take a look at the guide I made about this program:\n// https://gist.github.com/101arrowz/253f31eb5abc3d9275ab943003ffecad\n// Some of the following code is similar to that of UZIP.js:\n// https://github.com/photopea/UZIP.js\n// However, the vast majority of the codebase has diverged from UZIP.js to increase performance and reduce bundle size.\n// Sometimes 0 will appear where -1 would be more appropriate. This is because using a uint\n// is better for memory in most engines (I *think*).\nvar ch2 = {};\nvar wk = (function (c, id, msg, transfer, cb) {\n var w = new Worker(ch2[id] || (ch2[id] = URL.createObjectURL(new Blob([\n c + ';addEventListener(\"error\",function(e){e=e.error;postMessage({$e$:[e.message,e.code,e.stack]})})'\n ], { type: 'text/javascript' }))));\n w.onmessage = function (e) {\n var d = e.data, ed = d.$e$;\n if (ed) {\n var err = new Error(ed[0]);\n err['code'] = ed[1];\n err.stack = ed[2];\n cb(err, null);\n }\n else\n cb(null, d);\n };\n w.postMessage(msg, transfer);\n return w;\n});\n\n// aliases for shorter compressed code (most minifers don't do this)\nvar u8 = Uint8Array, u16 = Uint16Array, i32 = Int32Array;\n// fixed length extra bits\nvar fleb = new u8([0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0, /* unused */ 0, 0, /* impossible */ 0]);\n// fixed distance extra bits\nvar fdeb = new u8([0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, /* unused */ 0, 0]);\n// code length index map\nvar clim = new u8([16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15]);\n// get base, reverse index map from extra bits\nvar freb = function (eb, start) {\n var b = new u16(31);\n for (var i = 0; i < 31; ++i) {\n b[i] = start += 1 << eb[i - 1];\n }\n // numbers here are at max 18 bits\n var r = new i32(b[30]);\n for (var i = 1; i < 30; ++i) {\n for (var j = b[i]; j < b[i + 1]; ++j) {\n r[j] = ((j - b[i]) << 5) | i;\n }\n }\n return { b: b, r: r };\n};\nvar _a = freb(fleb, 2), fl = _a.b, revfl = _a.r;\n// we can ignore the fact that the other numbers are wrong; they never happen anyway\nfl[28] = 258, revfl[258] = 28;\nvar _b = freb(fdeb, 0), fd = _b.b, revfd = _b.r;\n// map of value to reverse (assuming 16 bits)\nvar rev = new u16(32768);\nfor (var i = 0; i < 32768; ++i) {\n // reverse table algorithm from SO\n var x = ((i & 0xAAAA) >> 1) | ((i & 0x5555) << 1);\n x = ((x & 0xCCCC) >> 2) | ((x & 0x3333) << 2);\n x = ((x & 0xF0F0) >> 4) | ((x & 0x0F0F) << 4);\n rev[i] = (((x & 0xFF00) >> 8) | ((x & 0x00FF) << 8)) >> 1;\n}\n// create huffman tree from u8 \"map\": index -> code length for code index\n// mb (max bits) must be at most 15\n// TODO: optimize/split up?\nvar hMap = (function (cd, mb, r) {\n var s = cd.length;\n // index\n var i = 0;\n // u16 \"map\": index -> # of codes with bit length = index\n var l = new u16(mb);\n // length of cd must be 288 (total # of codes)\n for (; i < s; ++i) {\n if (cd[i])\n ++l[cd[i] - 1];\n }\n // u16 \"map\": index -> minimum code for bit length = index\n var le = new u16(mb);\n for (i = 1; i < mb; ++i) {\n le[i] = (le[i - 1] + l[i - 1]) << 1;\n }\n var co;\n if (r) {\n // u16 \"map\": index -> number of actual bits, symbol for code\n co = new u16(1 << mb);\n // bits to remove for reverser\n var rvb = 15 - mb;\n for (i = 0; i < s; ++i) {\n // ignore 0 lengths\n if (cd[i]) {\n // num encoding both symbol and bits read\n var sv = (i << 4) | cd[i];\n // free bits\n var r_1 = mb - cd[i];\n // start value\n var v = le[cd[i] - 1]++ << r_1;\n // m is end value\n for (var m = v | ((1 << r_1) - 1); v <= m; ++v) {\n // every 16 bit value starting with the code yields the same result\n co[rev[v] >> rvb] = sv;\n }\n }\n }\n }\n else {\n co = new u16(s);\n for (i = 0; i < s; ++i) {\n if (cd[i]) {\n co[i] = rev[le[cd[i] - 1]++] >> (15 - cd[i]);\n }\n }\n }\n return co;\n});\n// fixed length tree\nvar flt = new u8(288);\nfor (var i = 0; i < 144; ++i)\n flt[i] = 8;\nfor (var i = 144; i < 256; ++i)\n flt[i] = 9;\nfor (var i = 256; i < 280; ++i)\n flt[i] = 7;\nfor (var i = 280; i < 288; ++i)\n flt[i] = 8;\n// fixed distance tree\nvar fdt = new u8(32);\nfor (var i = 0; i < 32; ++i)\n fdt[i] = 5;\n// fixed length map\nvar flm = /*#__PURE__*/ hMap(flt, 9, 0), flrm = /*#__PURE__*/ hMap(flt, 9, 1);\n// fixed distance map\nvar fdm = /*#__PURE__*/ hMap(fdt, 5, 0), fdrm = /*#__PURE__*/ hMap(fdt, 5, 1);\n// find max of array\nvar max = function (a) {\n var m = a[0];\n for (var i = 1; i < a.length; ++i) {\n if (a[i] > m)\n m = a[i];\n }\n return m;\n};\n// read d, starting at bit p and mask with m\nvar bits = function (d, p, m) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8)) >> (p & 7)) & m;\n};\n// read d, starting at bit p continuing for at least 16 bits\nvar bits16 = function (d, p) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8) | (d[o + 2] << 16)) >> (p & 7));\n};\n// get end of byte\nvar shft = function (p) { return ((p + 7) / 8) | 0; };\n// typed array slice - allows garbage collector to free original reference,\n// while being more compatible than .slice\nvar slc = function (v, s, e) {\n if (s == null || s < 0)\n s = 0;\n if (e == null || e > v.length)\n e = v.length;\n // can't use .constructor in case user-supplied\n return new u8(v.subarray(s, e));\n};\n/**\n * Codes for errors generated within this library\n */\nexport var FlateErrorCode = {\n UnexpectedEOF: 0,\n InvalidBlockType: 1,\n InvalidLengthLiteral: 2,\n InvalidDistance: 3,\n StreamFinished: 4,\n NoStreamHandler: 5,\n InvalidHeader: 6,\n NoCallback: 7,\n InvalidUTF8: 8,\n ExtraFieldTooLong: 9,\n InvalidDate: 10,\n FilenameTooLong: 11,\n StreamFinishing: 12,\n InvalidZipData: 13,\n UnknownCompressionMethod: 14\n};\n// error codes\nvar ec = [\n 'unexpected EOF',\n 'invalid block type',\n 'invalid length/literal',\n 'invalid distance',\n 'stream finished',\n 'no stream handler',\n ,\n 'no callback',\n 'invalid UTF-8 data',\n 'extra field too long',\n 'date not in range 1980-2099',\n 'filename too long',\n 'stream finishing',\n 'invalid zip data'\n // determined by unknown compression method\n];\n;\nvar err = function (ind, msg, nt) {\n var e = new Error(msg || ec[ind]);\n e.code = ind;\n if (Error.captureStackTrace)\n Error.captureStackTrace(e, err);\n if (!nt)\n throw e;\n return e;\n};\n// expands raw DEFLATE data\nvar inflt = function (dat, st, buf, dict) {\n // source length dict length\n var sl = dat.length, dl = dict ? dict.length : 0;\n if (!sl || st.f && !st.l)\n return buf || new u8(0);\n var noBuf = !buf;\n // have to estimate size\n var resize = noBuf || st.i != 2;\n // no state\n var noSt = st.i;\n // Assumes roughly 33% compression ratio average\n if (noBuf)\n buf = new u8(sl * 3);\n // ensure buffer can fit at least l elements\n var cbuf = function (l) {\n var bl = buf.length;\n // need to increase size to fit\n if (l > bl) {\n // Double or set to necessary, whichever is greater\n var nbuf = new u8(Math.max(bl * 2, l));\n nbuf.set(buf);\n buf = nbuf;\n }\n };\n // last chunk bitpos bytes\n var final = st.f || 0, pos = st.p || 0, bt = st.b || 0, lm = st.l, dm = st.d, lbt = st.m, dbt = st.n;\n // total bits\n var tbts = sl * 8;\n do {\n if (!lm) {\n // BFINAL - this is only 1 when last chunk is next\n final = bits(dat, pos, 1);\n // type: 0 = no compression, 1 = fixed huffman, 2 = dynamic huffman\n var type = bits(dat, pos + 1, 3);\n pos += 3;\n if (!type) {\n // go to end of byte boundary\n var s = shft(pos) + 4, l = dat[s - 4] | (dat[s - 3] << 8), t = s + l;\n if (t > sl) {\n if (noSt)\n err(0);\n break;\n }\n // ensure size\n if (resize)\n cbuf(bt + l);\n // Copy over uncompressed data\n buf.set(dat.subarray(s, t), bt);\n // Get new bitpos, update byte count\n st.b = bt += l, st.p = pos = t * 8, st.f = final;\n continue;\n }\n else if (type == 1)\n lm = flrm, dm = fdrm, lbt = 9, dbt = 5;\n else if (type == 2) {\n // literal lengths\n var hLit = bits(dat, pos, 31) + 257, hcLen = bits(dat, pos + 10, 15) + 4;\n var tl = hLit + bits(dat, pos + 5, 31) + 1;\n pos += 14;\n // length+distance tree\n var ldt = new u8(tl);\n // code length tree\n var clt = new u8(19);\n for (var i = 0; i < hcLen; ++i) {\n // use index map to get real code\n clt[clim[i]] = bits(dat, pos + i * 3, 7);\n }\n pos += hcLen * 3;\n // code lengths bits\n var clb = max(clt), clbmsk = (1 << clb) - 1;\n // code lengths map\n var clm = hMap(clt, clb, 1);\n for (var i = 0; i < tl;) {\n var r = clm[bits(dat, pos, clbmsk)];\n // bits read\n pos += r & 15;\n // symbol\n var s = r >> 4;\n // code length to copy\n if (s < 16) {\n ldt[i++] = s;\n }\n else {\n // copy count\n var c = 0, n = 0;\n if (s == 16)\n n = 3 + bits(dat, pos, 3), pos += 2, c = ldt[i - 1];\n else if (s == 17)\n n = 3 + bits(dat, pos, 7), pos += 3;\n else if (s == 18)\n n = 11 + bits(dat, pos, 127), pos += 7;\n while (n--)\n ldt[i++] = c;\n }\n }\n // length tree distance tree\n var lt = ldt.subarray(0, hLit), dt = ldt.subarray(hLit);\n // max length bits\n lbt = max(lt);\n // max dist bits\n dbt = max(dt);\n lm = hMap(lt, lbt, 1);\n dm = hMap(dt, dbt, 1);\n }\n else\n err(1);\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n }\n // Make sure the buffer can hold this + the largest possible addition\n // Maximum chunk size (practically, theoretically infinite) is 2^17\n if (resize)\n cbuf(bt + 131072);\n var lms = (1 << lbt) - 1, dms = (1 << dbt) - 1;\n var lpos = pos;\n for (;; lpos = pos) {\n // bits read, code\n var c = lm[bits16(dat, pos) & lms], sym = c >> 4;\n pos += c & 15;\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (!c)\n err(2);\n if (sym < 256)\n buf[bt++] = sym;\n else if (sym == 256) {\n lpos = pos, lm = null;\n break;\n }\n else {\n var add = sym - 254;\n // no extra bits needed if less\n if (sym > 264) {\n // index\n var i = sym - 257, b = fleb[i];\n add = bits(dat, pos, (1 << b) - 1) + fl[i];\n pos += b;\n }\n // dist\n var d = dm[bits16(dat, pos) & dms], dsym = d >> 4;\n if (!d)\n err(3);\n pos += d & 15;\n var dt = fd[dsym];\n if (dsym > 3) {\n var b = fdeb[dsym];\n dt += bits16(dat, pos) & (1 << b) - 1, pos += b;\n }\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + 131072);\n var end = bt + add;\n if (bt < dt) {\n var shift = dl - dt, dend = Math.min(dt, end);\n if (shift + bt < 0)\n err(3);\n for (; bt < dend; ++bt)\n buf[bt] = dict[shift + bt];\n }\n for (; bt < end; ++bt)\n buf[bt] = buf[bt - dt];\n }\n }\n st.l = lm, st.p = lpos, st.b = bt, st.f = final;\n if (lm)\n final = 1, st.m = lbt, st.d = dm, st.n = dbt;\n } while (!final);\n // don't reallocate for streams or user buffers\n return bt != buf.length && noBuf ? slc(buf, 0, bt) : buf.subarray(0, bt);\n};\n// starting at p, write the minimum number of bits that can hold v to d\nvar wbits = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n};\n// starting at p, write the minimum number of bits (>8) that can hold v to d\nvar wbits16 = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n d[o + 2] |= v >> 16;\n};\n// creates code lengths from a frequency table\nvar hTree = function (d, mb) {\n // Need extra info to make a tree\n var t = [];\n for (var i = 0; i < d.length; ++i) {\n if (d[i])\n t.push({ s: i, f: d[i] });\n }\n var s = t.length;\n var t2 = t.slice();\n if (!s)\n return { t: et, l: 0 };\n if (s == 1) {\n var v = new u8(t[0].s + 1);\n v[t[0].s] = 1;\n return { t: v, l: 1 };\n }\n t.sort(function (a, b) { return a.f - b.f; });\n // after i2 reaches last ind, will be stopped\n // freq must be greater than largest possible number of symbols\n t.push({ s: -1, f: 25001 });\n var l = t[0], r = t[1], i0 = 0, i1 = 1, i2 = 2;\n t[0] = { s: -1, f: l.f + r.f, l: l, r: r };\n // efficient algorithm from UZIP.js\n // i0 is lookbehind, i2 is lookahead - after processing two low-freq\n // symbols that combined have high freq, will start processing i2 (high-freq,\n // non-composite) symbols instead\n // see https://reddit.com/r/photopea/comments/ikekht/uzipjs_questions/\n while (i1 != s - 1) {\n l = t[t[i0].f < t[i2].f ? i0++ : i2++];\n r = t[i0 != i1 && t[i0].f < t[i2].f ? i0++ : i2++];\n t[i1++] = { s: -1, f: l.f + r.f, l: l, r: r };\n }\n var maxSym = t2[0].s;\n for (var i = 1; i < s; ++i) {\n if (t2[i].s > maxSym)\n maxSym = t2[i].s;\n }\n // code lengths\n var tr = new u16(maxSym + 1);\n // max bits in tree\n var mbt = ln(t[i1 - 1], tr, 0);\n if (mbt > mb) {\n // more algorithms from UZIP.js\n // TODO: find out how this code works (debt)\n // ind debt\n var i = 0, dt = 0;\n // left cost\n var lft = mbt - mb, cst = 1 << lft;\n t2.sort(function (a, b) { return tr[b.s] - tr[a.s] || a.f - b.f; });\n for (; i < s; ++i) {\n var i2_1 = t2[i].s;\n if (tr[i2_1] > mb) {\n dt += cst - (1 << (mbt - tr[i2_1]));\n tr[i2_1] = mb;\n }\n else\n break;\n }\n dt >>= lft;\n while (dt > 0) {\n var i2_2 = t2[i].s;\n if (tr[i2_2] < mb)\n dt -= 1 << (mb - tr[i2_2]++ - 1);\n else\n ++i;\n }\n for (; i >= 0 && dt; --i) {\n var i2_3 = t2[i].s;\n if (tr[i2_3] == mb) {\n --tr[i2_3];\n ++dt;\n }\n }\n mbt = mb;\n }\n return { t: new u8(tr), l: mbt };\n};\n// get the max length and assign length codes\nvar ln = function (n, l, d) {\n return n.s == -1\n ? Math.max(ln(n.l, l, d + 1), ln(n.r, l, d + 1))\n : (l[n.s] = d);\n};\n// length codes generation\nvar lc = function (c) {\n var s = c.length;\n // Note that the semicolon was intentional\n while (s && !c[--s])\n ;\n var cl = new u16(++s);\n // ind num streak\n var cli = 0, cln = c[0], cls = 1;\n var w = function (v) { cl[cli++] = v; };\n for (var i = 1; i <= s; ++i) {\n if (c[i] == cln && i != s)\n ++cls;\n else {\n if (!cln && cls > 2) {\n for (; cls > 138; cls -= 138)\n w(32754);\n if (cls > 2) {\n w(cls > 10 ? ((cls - 11) << 5) | 28690 : ((cls - 3) << 5) | 12305);\n cls = 0;\n }\n }\n else if (cls > 3) {\n w(cln), --cls;\n for (; cls > 6; cls -= 6)\n w(8304);\n if (cls > 2)\n w(((cls - 3) << 5) | 8208), cls = 0;\n }\n while (cls--)\n w(cln);\n cls = 1;\n cln = c[i];\n }\n }\n return { c: cl.subarray(0, cli), n: s };\n};\n// calculate the length of output from tree, code lengths\nvar clen = function (cf, cl) {\n var l = 0;\n for (var i = 0; i < cl.length; ++i)\n l += cf[i] * cl[i];\n return l;\n};\n// writes a fixed block\n// returns the new bit pos\nvar wfblk = function (out, pos, dat) {\n // no need to write 00 as type: TypedArray defaults to 0\n var s = dat.length;\n var o = shft(pos + 2);\n out[o] = s & 255;\n out[o + 1] = s >> 8;\n out[o + 2] = out[o] ^ 255;\n out[o + 3] = out[o + 1] ^ 255;\n for (var i = 0; i < s; ++i)\n out[o + i + 4] = dat[i];\n return (o + 4 + s) * 8;\n};\n// writes a block\nvar wblk = function (dat, out, final, syms, lf, df, eb, li, bs, bl, p) {\n wbits(out, p++, final);\n ++lf[256];\n var _a = hTree(lf, 15), dlt = _a.t, mlb = _a.l;\n var _b = hTree(df, 15), ddt = _b.t, mdb = _b.l;\n var _c = lc(dlt), lclt = _c.c, nlc = _c.n;\n var _d = lc(ddt), lcdt = _d.c, ndc = _d.n;\n var lcfreq = new u16(19);\n for (var i = 0; i < lclt.length; ++i)\n ++lcfreq[lclt[i] & 31];\n for (var i = 0; i < lcdt.length; ++i)\n ++lcfreq[lcdt[i] & 31];\n var _e = hTree(lcfreq, 7), lct = _e.t, mlcb = _e.l;\n var nlcc = 19;\n for (; nlcc > 4 && !lct[clim[nlcc - 1]]; --nlcc)\n ;\n var flen = (bl + 5) << 3;\n var ftlen = clen(lf, flt) + clen(df, fdt) + eb;\n var dtlen = clen(lf, dlt) + clen(df, ddt) + eb + 14 + 3 * nlcc + clen(lcfreq, lct) + 2 * lcfreq[16] + 3 * lcfreq[17] + 7 * lcfreq[18];\n if (bs >= 0 && flen <= ftlen && flen <= dtlen)\n return wfblk(out, p, dat.subarray(bs, bs + bl));\n var lm, ll, dm, dl;\n wbits(out, p, 1 + (dtlen < ftlen)), p += 2;\n if (dtlen < ftlen) {\n lm = hMap(dlt, mlb, 0), ll = dlt, dm = hMap(ddt, mdb, 0), dl = ddt;\n var llm = hMap(lct, mlcb, 0);\n wbits(out, p, nlc - 257);\n wbits(out, p + 5, ndc - 1);\n wbits(out, p + 10, nlcc - 4);\n p += 14;\n for (var i = 0; i < nlcc; ++i)\n wbits(out, p + 3 * i, lct[clim[i]]);\n p += 3 * nlcc;\n var lcts = [lclt, lcdt];\n for (var it = 0; it < 2; ++it) {\n var clct = lcts[it];\n for (var i = 0; i < clct.length; ++i) {\n var len = clct[i] & 31;\n wbits(out, p, llm[len]), p += lct[len];\n if (len > 15)\n wbits(out, p, (clct[i] >> 5) & 127), p += clct[i] >> 12;\n }\n }\n }\n else {\n lm = flm, ll = flt, dm = fdm, dl = fdt;\n }\n for (var i = 0; i < li; ++i) {\n var sym = syms[i];\n if (sym > 255) {\n var len = (sym >> 18) & 31;\n wbits16(out, p, lm[len + 257]), p += ll[len + 257];\n if (len > 7)\n wbits(out, p, (sym >> 23) & 31), p += fleb[len];\n var dst = sym & 31;\n wbits16(out, p, dm[dst]), p += dl[dst];\n if (dst > 3)\n wbits16(out, p, (sym >> 5) & 8191), p += fdeb[dst];\n }\n else {\n wbits16(out, p, lm[sym]), p += ll[sym];\n }\n }\n wbits16(out, p, lm[256]);\n return p + ll[256];\n};\n// deflate options (nice << 13) | chain\nvar deo = /*#__PURE__*/ new i32([65540, 131080, 131088, 131104, 262176, 1048704, 1048832, 2114560, 2117632]);\n// empty\nvar et = /*#__PURE__*/ new u8(0);\n// compresses data into a raw DEFLATE buffer\nvar dflt = function (dat, lvl, plvl, pre, post, st) {\n var s = st.z || dat.length;\n var o = new u8(pre + s + 5 * (1 + Math.ceil(s / 7000)) + post);\n // writing to this writes to the output buffer\n var w = o.subarray(pre, o.length - post);\n var lst = st.l;\n var pos = (st.r || 0) & 7;\n if (lvl) {\n if (pos)\n w[0] = st.r >> 3;\n var opt = deo[lvl - 1];\n var n = opt >> 13, c = opt & 8191;\n var msk_1 = (1 << plvl) - 1;\n // prev 2-byte val map curr 2-byte val map\n var prev = st.p || new u16(32768), head = st.h || new u16(msk_1 + 1);\n var bs1_1 = Math.ceil(plvl / 3), bs2_1 = 2 * bs1_1;\n var hsh = function (i) { return (dat[i] ^ (dat[i + 1] << bs1_1) ^ (dat[i + 2] << bs2_1)) & msk_1; };\n // 24576 is an arbitrary number of maximum symbols per block\n // 424 buffer for last block\n var syms = new i32(25000);\n // length/literal freq distance freq\n var lf = new u16(288), df = new u16(32);\n // l/lcnt exbits index l/lind waitdx blkpos\n var lc_1 = 0, eb = 0, i = st.i || 0, li = 0, wi = st.w || 0, bs = 0;\n for (; i + 2 < s; ++i) {\n // hash value\n var hv = hsh(i);\n // index mod 32768 previous index mod\n var imod = i & 32767, pimod = head[hv];\n prev[imod] = pimod;\n head[hv] = imod;\n // We always should modify head and prev, but only add symbols if\n // this data is not yet processed (\"wait\" for wait index)\n if (wi <= i) {\n // bytes remaining\n var rem = s - i;\n if ((lc_1 > 7000 || li > 24576) && (rem > 423 || !lst)) {\n pos = wblk(dat, w, 0, syms, lf, df, eb, li, bs, i - bs, pos);\n li = lc_1 = eb = 0, bs = i;\n for (var j = 0; j < 286; ++j)\n lf[j] = 0;\n for (var j = 0; j < 30; ++j)\n df[j] = 0;\n }\n // len dist chain\n var l = 2, d = 0, ch_1 = c, dif = imod - pimod & 32767;\n if (rem > 2 && hv == hsh(i - dif)) {\n var maxn = Math.min(n, rem) - 1;\n var maxd = Math.min(32767, i);\n // max possible length\n // not capped at dif because decompressors implement \"rolling\" index population\n var ml = Math.min(258, rem);\n while (dif <= maxd && --ch_1 && imod != pimod) {\n if (dat[i + l] == dat[i + l - dif]) {\n var nl = 0;\n for (; nl < ml && dat[i + nl] == dat[i + nl - dif]; ++nl)\n ;\n if (nl > l) {\n l = nl, d = dif;\n // break out early when we reach \"nice\" (we are satisfied enough)\n if (nl > maxn)\n break;\n // now, find the rarest 2-byte sequence within this\n // length of literals and search for that instead.\n // Much faster than just using the start\n var mmd = Math.min(dif, nl - 2);\n var md = 0;\n for (var j = 0; j < mmd; ++j) {\n var ti = i - dif + j & 32767;\n var pti = prev[ti];\n var cd = ti - pti & 32767;\n if (cd > md)\n md = cd, pimod = ti;\n }\n }\n }\n // check the previous match\n imod = pimod, pimod = prev[imod];\n dif += imod - pimod & 32767;\n }\n }\n // d will be nonzero only when a match was found\n if (d) {\n // store both dist and len data in one int32\n // Make sure this is recognized as a len/dist with 28th bit (2^28)\n syms[li++] = 268435456 | (revfl[l] << 18) | revfd[d];\n var lin = revfl[l] & 31, din = revfd[d] & 31;\n eb += fleb[lin] + fdeb[din];\n ++lf[257 + lin];\n ++df[din];\n wi = i + l;\n ++lc_1;\n }\n else {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n }\n }\n for (i = Math.max(i, wi); i < s; ++i) {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n pos = wblk(dat, w, lst, syms, lf, df, eb, li, bs, i - bs, pos);\n if (!lst) {\n st.r = (pos & 7) | w[(pos / 8) | 0] << 3;\n // shft(pos) now 1 less if pos & 7 != 0\n pos -= 7;\n st.h = head, st.p = prev, st.i = i, st.w = wi;\n }\n }\n else {\n for (var i = st.w || 0; i < s + lst; i += 65535) {\n // end\n var e = i + 65535;\n if (e >= s) {\n // write final block\n w[(pos / 8) | 0] = lst;\n e = s;\n }\n pos = wfblk(w, pos + 1, dat.subarray(i, e));\n }\n st.i = s;\n }\n return slc(o, 0, pre + shft(pos) + post);\n};\n// CRC32 table\nvar crct = /*#__PURE__*/ (function () {\n var t = new Int32Array(256);\n for (var i = 0; i < 256; ++i) {\n var c = i, k = 9;\n while (--k)\n c = ((c & 1) && -306674912) ^ (c >>> 1);\n t[i] = c;\n }\n return t;\n})();\n// CRC32\nvar crc = function () {\n var c = -1;\n return {\n p: function (d) {\n // closures have awful performance\n var cr = c;\n for (var i = 0; i < d.length; ++i)\n cr = crct[(cr & 255) ^ d[i]] ^ (cr >>> 8);\n c = cr;\n },\n d: function () { return ~c; }\n };\n};\n// Adler32\nvar adler = function () {\n var a = 1, b = 0;\n return {\n p: function (d) {\n // closures have awful performance\n var n = a, m = b;\n var l = d.length | 0;\n for (var i = 0; i != l;) {\n var e = Math.min(i + 2655, l);\n for (; i < e; ++i)\n m += n += d[i];\n n = (n & 65535) + 15 * (n >> 16), m = (m & 65535) + 15 * (m >> 16);\n }\n a = n, b = m;\n },\n d: function () {\n a %= 65521, b %= 65521;\n return (a & 255) << 24 | (a & 0xFF00) << 8 | (b & 255) << 8 | (b >> 8);\n }\n };\n};\n;\n// deflate with opts\nvar dopt = function (dat, opt, pre, post, st) {\n if (!st) {\n st = { l: 1 };\n if (opt.dictionary) {\n var dict = opt.dictionary.subarray(-32768);\n var newDat = new u8(dict.length + dat.length);\n newDat.set(dict);\n newDat.set(dat, dict.length);\n dat = newDat;\n st.w = dict.length;\n }\n }\n return dflt(dat, opt.level == null ? 6 : opt.level, opt.mem == null ? (st.l ? Math.ceil(Math.max(8, Math.min(13, Math.log(dat.length))) * 1.5) : 20) : (12 + opt.mem), pre, post, st);\n};\n// Walmart object spread\nvar mrg = function (a, b) {\n var o = {};\n for (var k in a)\n o[k] = a[k];\n for (var k in b)\n o[k] = b[k];\n return o;\n};\n// worker clone\n// This is possibly the craziest part of the entire codebase, despite how simple it may seem.\n// The only parameter to this function is a closure that returns an array of variables outside of the function scope.\n// We're going to try to figure out the variable names used in the closure as strings because that is crucial for workerization.\n// We will return an object mapping of true variable name to value (basically, the current scope as a JS object).\n// The reason we can't just use the original variable names is minifiers mangling the toplevel scope.\n// This took me three weeks to figure out how to do.\nvar wcln = function (fn, fnStr, td) {\n var dt = fn();\n var st = fn.toString();\n var ks = st.slice(st.indexOf('[') + 1, st.lastIndexOf(']')).replace(/\\s+/g, '').split(',');\n for (var i = 0; i < dt.length; ++i) {\n var v = dt[i], k = ks[i];\n if (typeof v == 'function') {\n fnStr += ';' + k + '=';\n var st_1 = v.toString();\n if (v.prototype) {\n // for global objects\n if (st_1.indexOf('[native code]') != -1) {\n var spInd = st_1.indexOf(' ', 8) + 1;\n fnStr += st_1.slice(spInd, st_1.indexOf('(', spInd));\n }\n else {\n fnStr += st_1;\n for (var t in v.prototype)\n fnStr += ';' + k + '.prototype.' + t + '=' + v.prototype[t].toString();\n }\n }\n else\n fnStr += st_1;\n }\n else\n td[k] = v;\n }\n return fnStr;\n};\nvar ch = [];\n// clone bufs\nvar cbfs = function (v) {\n var tl = [];\n for (var k in v) {\n if (v[k].buffer) {\n tl.push((v[k] = new v[k].constructor(v[k])).buffer);\n }\n }\n return tl;\n};\n// use a worker to execute code\nvar wrkr = function (fns, init, id, cb) {\n if (!ch[id]) {\n var fnStr = '', td_1 = {}, m = fns.length - 1;\n for (var i = 0; i < m; ++i)\n fnStr = wcln(fns[i], fnStr, td_1);\n ch[id] = { c: wcln(fns[m], fnStr, td_1), e: td_1 };\n }\n var td = mrg({}, ch[id].e);\n return wk(ch[id].c + ';onmessage=function(e){for(var k in e.data)self[k]=e.data[k];onmessage=' + init.toString() + '}', id, td, cbfs(td), cb);\n};\n// base async inflate fn\nvar bInflt = function () { return [u8, u16, i32, fleb, fdeb, clim, fl, fd, flrm, fdrm, rev, ec, hMap, max, bits, bits16, shft, slc, err, inflt, inflateSync, pbf, gopt]; };\nvar bDflt = function () { return [u8, u16, i32, fleb, fdeb, clim, revfl, revfd, flm, flt, fdm, fdt, rev, deo, et, hMap, wbits, wbits16, hTree, ln, lc, clen, wfblk, wblk, shft, slc, dflt, dopt, deflateSync, pbf]; };\n// gzip extra\nvar gze = function () { return [gzh, gzhl, wbytes, crc, crct]; };\n// gunzip extra\nvar guze = function () { return [gzs, gzl]; };\n// zlib extra\nvar zle = function () { return [zlh, wbytes, adler]; };\n// unzlib extra\nvar zule = function () { return [zls]; };\n// post buf\nvar pbf = function (msg) { return postMessage(msg, [msg.buffer]); };\n// get opts\nvar gopt = function (o) { return o && {\n out: o.size && new u8(o.size),\n dictionary: o.dictionary\n}; };\n// async helper\nvar cbify = function (dat, opts, fns, init, id, cb) {\n var w = wrkr(fns, init, id, function (err, dat) {\n w.terminate();\n cb(err, dat);\n });\n w.postMessage([dat, opts], opts.consume ? [dat.buffer] : []);\n return function () { w.terminate(); };\n};\n// auto stream\nvar astrm = function (strm) {\n strm.ondata = function (dat, final) { return postMessage([dat, final], [dat.buffer]); };\n return function (ev) {\n if (ev.data.length) {\n strm.push(ev.data[0], ev.data[1]);\n postMessage([ev.data[0].length]);\n }\n else\n strm.flush();\n };\n};\n// async stream attach\nvar astrmify = function (fns, strm, opts, init, id, flush, ext) {\n var t;\n var w = wrkr(fns, init, id, function (err, dat) {\n if (err)\n w.terminate(), strm.ondata.call(strm, err);\n else if (!Array.isArray(dat))\n ext(dat);\n else if (dat.length == 1) {\n strm.queuedSize -= dat[0];\n if (strm.ondrain)\n strm.ondrain(dat[0]);\n }\n else {\n if (dat[1])\n w.terminate();\n strm.ondata.call(strm, err, dat[0], dat[1]);\n }\n });\n w.postMessage(opts);\n strm.queuedSize = 0;\n strm.push = function (d, f) {\n if (!strm.ondata)\n err(5);\n if (t)\n strm.ondata(err(4, 0, 1), null, !!f);\n strm.queuedSize += d.length;\n w.postMessage([d, t = f], [d.buffer]);\n };\n strm.terminate = function () { w.terminate(); };\n if (flush) {\n strm.flush = function () { w.postMessage([]); };\n }\n};\n// read 2 bytes\nvar b2 = function (d, b) { return d[b] | (d[b + 1] << 8); };\n// read 4 bytes\nvar b4 = function (d, b) { return (d[b] | (d[b + 1] << 8) | (d[b + 2] << 16) | (d[b + 3] << 24)) >>> 0; };\nvar b8 = function (d, b) { return b4(d, b) + (b4(d, b + 4) * 4294967296); };\n// write bytes\nvar wbytes = function (d, b, v) {\n for (; v; ++b)\n d[b] = v, v >>>= 8;\n};\n// gzip header\nvar gzh = function (c, o) {\n var fn = o.filename;\n c[0] = 31, c[1] = 139, c[2] = 8, c[8] = o.level < 2 ? 4 : o.level == 9 ? 2 : 0, c[9] = 3; // assume Unix\n if (o.mtime != 0)\n wbytes(c, 4, Math.floor(new Date(o.mtime || Date.now()) / 1000));\n if (fn) {\n c[3] = 8;\n for (var i = 0; i <= fn.length; ++i)\n c[i + 10] = fn.charCodeAt(i);\n }\n};\n// gzip footer: -8 to -4 = CRC, -4 to -0 is length\n// gzip start\nvar gzs = function (d) {\n if (d[0] != 31 || d[1] != 139 || d[2] != 8)\n err(6, 'invalid gzip data');\n var flg = d[3];\n var st = 10;\n if (flg & 4)\n st += (d[10] | d[11] << 8) + 2;\n for (var zs = (flg >> 3 & 1) + (flg >> 4 & 1); zs > 0; zs -= !d[st++])\n ;\n return st + (flg & 2);\n};\n// gzip length\nvar gzl = function (d) {\n var l = d.length;\n return (d[l - 4] | d[l - 3] << 8 | d[l - 2] << 16 | d[l - 1] << 24) >>> 0;\n};\n// gzip header length\nvar gzhl = function (o) { return 10 + (o.filename ? o.filename.length + 1 : 0); };\n// zlib header\nvar zlh = function (c, o) {\n var lv = o.level, fl = lv == 0 ? 0 : lv < 6 ? 1 : lv == 9 ? 3 : 2;\n c[0] = 120, c[1] = (fl << 6) | (o.dictionary && 32);\n c[1] |= 31 - ((c[0] << 8) | c[1]) % 31;\n if (o.dictionary) {\n var h = adler();\n h.p(o.dictionary);\n wbytes(c, 2, h.d());\n }\n};\n// zlib start\nvar zls = function (d, dict) {\n if ((d[0] & 15) != 8 || (d[0] >> 4) > 7 || ((d[0] << 8 | d[1]) % 31))\n err(6, 'invalid zlib data');\n if ((d[1] >> 5 & 1) == +!dict)\n err(6, 'invalid zlib data: ' + (d[1] & 32 ? 'need' : 'unexpected') + ' dictionary');\n return (d[1] >> 3 & 4) + 2;\n};\nfunction StrmOpt(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n return opts;\n}\n/**\n * Streaming DEFLATE compression\n */\nvar Deflate = /*#__PURE__*/ (function () {\n function Deflate(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n this.o = opts || {};\n this.s = { l: 0, i: 32768, w: 32768, z: 32768 };\n // Buffer length must always be 0 mod 32768 for index calculations to be correct when modifying head and prev\n // 98304 = 32768 (lookback) + 65536 (common chunk size)\n this.b = new u8(98304);\n if (this.o.dictionary) {\n var dict = this.o.dictionary.subarray(-32768);\n this.b.set(dict, 32768 - dict.length);\n this.s.i = 32768 - dict.length;\n }\n }\n Deflate.prototype.p = function (c, f) {\n this.ondata(dopt(c, this.o, 0, 0, this.s), f);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Deflate.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n var endLen = chunk.length + this.s.z;\n if (endLen > this.b.length) {\n if (endLen > 2 * this.b.length - 32768) {\n var newBuf = new u8(endLen & -32768);\n newBuf.set(this.b.subarray(0, this.s.z));\n this.b = newBuf;\n }\n var split = this.b.length - this.s.z;\n this.b.set(chunk.subarray(0, split), this.s.z);\n this.s.z = this.b.length;\n this.p(this.b, false);\n this.b.set(this.b.subarray(-32768));\n this.b.set(chunk.subarray(split), 32768);\n this.s.z = chunk.length - split + 32768;\n this.s.i = 32766, this.s.w = 32768;\n }\n else {\n this.b.set(chunk, this.s.z);\n this.s.z += chunk.length;\n }\n this.s.l = final & 1;\n if (this.s.z > this.s.w + 8191 || final) {\n this.p(this.b, final || false);\n this.s.w = this.s.i, this.s.i -= 2;\n }\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * deflated output for small inputs.\n */\n Deflate.prototype.flush = function () {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n this.p(this.b, false);\n this.s.w = this.s.i, this.s.i -= 2;\n };\n return Deflate;\n}());\nexport { Deflate };\n/**\n * Asynchronous streaming DEFLATE compression\n */\nvar AsyncDeflate = /*#__PURE__*/ (function () {\n function AsyncDeflate(opts, cb) {\n astrmify([\n bDflt,\n function () { return [astrm, Deflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Deflate(ev.data);\n onmessage = astrm(strm);\n }, 6, 1);\n }\n return AsyncDeflate;\n}());\nexport { AsyncDeflate };\nexport function deflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n ], function (ev) { return pbf(deflateSync(ev.data[0], ev.data[1])); }, 0, cb);\n}\n/**\n * Compresses data with DEFLATE without any wrapper\n * @param data The data to compress\n * @param opts The compression options\n * @returns The deflated version of the data\n */\nexport function deflateSync(data, opts) {\n return dopt(data, opts || {}, 0, 0);\n}\n/**\n * Streaming DEFLATE decompression\n */\nvar Inflate = /*#__PURE__*/ (function () {\n function Inflate(opts, cb) {\n // no StrmOpt here to avoid adding to workerizer\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n var dict = opts && opts.dictionary && opts.dictionary.subarray(-32768);\n this.s = { i: 0, b: dict ? dict.length : 0 };\n this.o = new u8(32768);\n this.p = new u8(0);\n if (dict)\n this.o.set(dict);\n }\n Inflate.prototype.e = function (c) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n if (!this.p.length)\n this.p = c;\n else if (c.length) {\n var n = new u8(this.p.length + c.length);\n n.set(this.p), n.set(c, this.p.length), this.p = n;\n }\n };\n Inflate.prototype.c = function (final) {\n this.s.i = +(this.d = final || false);\n var bts = this.s.b;\n var dt = inflt(this.p, this.s, this.o);\n this.ondata(slc(dt, bts, this.s.b), this.d);\n this.o = slc(dt, this.s.b - 32768), this.s.b = this.o.length;\n this.p = slc(this.p, (this.s.p / 8) | 0), this.s.p &= 7;\n };\n /**\n * Pushes a chunk to be inflated\n * @param chunk The chunk to push\n * @param final Whether this is the final chunk\n */\n Inflate.prototype.push = function (chunk, final) {\n this.e(chunk), this.c(final);\n };\n return Inflate;\n}());\nexport { Inflate };\n/**\n * Asynchronous streaming DEFLATE decompression\n */\nvar AsyncInflate = /*#__PURE__*/ (function () {\n function AsyncInflate(opts, cb) {\n astrmify([\n bInflt,\n function () { return [astrm, Inflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Inflate(ev.data);\n onmessage = astrm(strm);\n }, 7, 0);\n }\n return AsyncInflate;\n}());\nexport { AsyncInflate };\nexport function inflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt\n ], function (ev) { return pbf(inflateSync(ev.data[0], gopt(ev.data[1]))); }, 1, cb);\n}\n/**\n * Expands DEFLATE data with no wrapper\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function inflateSync(data, opts) {\n return inflt(data, { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// before you yell at me for not just using extends, my reason is that TS inheritance is hard to workerize.\n/**\n * Streaming GZIP compression\n */\nvar Gzip = /*#__PURE__*/ (function () {\n function Gzip(opts, cb) {\n this.c = crc();\n this.l = 0;\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gzip.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n this.l += chunk.length;\n Deflate.prototype.push.call(this, chunk, final);\n };\n Gzip.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && gzhl(this.o), f && 8, this.s);\n if (this.v)\n gzh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 8, this.c.d()), wbytes(raw, raw.length - 4, this.l);\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * GZIPped output for small inputs.\n */\n Gzip.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Gzip;\n}());\nexport { Gzip };\n/**\n * Asynchronous streaming GZIP compression\n */\nvar AsyncGzip = /*#__PURE__*/ (function () {\n function AsyncGzip(opts, cb) {\n astrmify([\n bDflt,\n gze,\n function () { return [astrm, Deflate, Gzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gzip(ev.data);\n onmessage = astrm(strm);\n }, 8, 1);\n }\n return AsyncGzip;\n}());\nexport { AsyncGzip };\nexport function gzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n gze,\n function () { return [gzipSync]; }\n ], function (ev) { return pbf(gzipSync(ev.data[0], ev.data[1])); }, 2, cb);\n}\n/**\n * Compresses data with GZIP\n * @param data The data to compress\n * @param opts The compression options\n * @returns The gzipped version of the data\n */\nexport function gzipSync(data, opts) {\n if (!opts)\n opts = {};\n var c = crc(), l = data.length;\n c.p(data);\n var d = dopt(data, opts, gzhl(opts), 8), s = d.length;\n return gzh(d, opts), wbytes(d, s - 8, c.d()), wbytes(d, s - 4, l), d;\n}\n/**\n * Streaming single or multi-member GZIP decompression\n */\nvar Gunzip = /*#__PURE__*/ (function () {\n function Gunzip(opts, cb) {\n this.v = 1;\n this.r = 0;\n Inflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GUNZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gunzip.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n this.r += chunk.length;\n if (this.v) {\n var p = this.p.subarray(this.v - 1);\n var s = p.length > 3 ? gzs(p) : 4;\n if (s > p.length) {\n if (!final)\n return;\n }\n else if (this.v > 1 && this.onmember) {\n this.onmember(this.r - p.length);\n }\n this.p = p.subarray(s), this.v = 0;\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n // process concatenated GZIP\n if (this.s.f && !this.s.l && !final) {\n this.v = shft(this.s.p) + 9;\n this.s = { i: 0 };\n this.o = new u8(0);\n this.push(new u8(0), final);\n }\n };\n return Gunzip;\n}());\nexport { Gunzip };\n/**\n * Asynchronous streaming single or multi-member GZIP decompression\n */\nvar AsyncGunzip = /*#__PURE__*/ (function () {\n function AsyncGunzip(opts, cb) {\n var _this = this;\n astrmify([\n bInflt,\n guze,\n function () { return [astrm, Inflate, Gunzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gunzip(ev.data);\n strm.onmember = function (offset) { return postMessage(offset); };\n onmessage = astrm(strm);\n }, 9, 0, function (offset) { return _this.onmember && _this.onmember(offset); });\n }\n return AsyncGunzip;\n}());\nexport { AsyncGunzip };\nexport function gunzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n guze,\n function () { return [gunzipSync]; }\n ], function (ev) { return pbf(gunzipSync(ev.data[0], ev.data[1])); }, 3, cb);\n}\n/**\n * Expands GZIP data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function gunzipSync(data, opts) {\n var st = gzs(data);\n if (st + 8 > data.length)\n err(6, 'invalid gzip data');\n return inflt(data.subarray(st, -8), { i: 2 }, opts && opts.out || new u8(gzl(data)), opts && opts.dictionary);\n}\n/**\n * Streaming Zlib compression\n */\nvar Zlib = /*#__PURE__*/ (function () {\n function Zlib(opts, cb) {\n this.c = adler();\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be zlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Zlib.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n Deflate.prototype.push.call(this, chunk, final);\n };\n Zlib.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && (this.o.dictionary ? 6 : 2), f && 4, this.s);\n if (this.v)\n zlh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 4, this.c.d());\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * zlibbed output for small inputs.\n */\n Zlib.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Zlib;\n}());\nexport { Zlib };\n/**\n * Asynchronous streaming Zlib compression\n */\nvar AsyncZlib = /*#__PURE__*/ (function () {\n function AsyncZlib(opts, cb) {\n astrmify([\n bDflt,\n zle,\n function () { return [astrm, Deflate, Zlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Zlib(ev.data);\n onmessage = astrm(strm);\n }, 10, 1);\n }\n return AsyncZlib;\n}());\nexport { AsyncZlib };\nexport function zlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n zle,\n function () { return [zlibSync]; }\n ], function (ev) { return pbf(zlibSync(ev.data[0], ev.data[1])); }, 4, cb);\n}\n/**\n * Compress data with Zlib\n * @param data The data to compress\n * @param opts The compression options\n * @returns The zlib-compressed version of the data\n */\nexport function zlibSync(data, opts) {\n if (!opts)\n opts = {};\n var a = adler();\n a.p(data);\n var d = dopt(data, opts, opts.dictionary ? 6 : 2, 4);\n return zlh(d, opts), wbytes(d, d.length - 4, a.d()), d;\n}\n/**\n * Streaming Zlib decompression\n */\nvar Unzlib = /*#__PURE__*/ (function () {\n function Unzlib(opts, cb) {\n Inflate.call(this, opts, cb);\n this.v = opts && opts.dictionary ? 2 : 1;\n }\n /**\n * Pushes a chunk to be unzlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzlib.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n if (this.v) {\n if (this.p.length < 6 && !final)\n return;\n this.p = this.p.subarray(zls(this.p, this.v - 1)), this.v = 0;\n }\n if (final) {\n if (this.p.length < 4)\n err(6, 'invalid zlib data');\n this.p = this.p.subarray(0, -4);\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n };\n return Unzlib;\n}());\nexport { Unzlib };\n/**\n * Asynchronous streaming Zlib decompression\n */\nvar AsyncUnzlib = /*#__PURE__*/ (function () {\n function AsyncUnzlib(opts, cb) {\n astrmify([\n bInflt,\n zule,\n function () { return [astrm, Inflate, Unzlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Unzlib(ev.data);\n onmessage = astrm(strm);\n }, 11, 0);\n }\n return AsyncUnzlib;\n}());\nexport { AsyncUnzlib };\nexport function unzlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n zule,\n function () { return [unzlibSync]; }\n ], function (ev) { return pbf(unzlibSync(ev.data[0], gopt(ev.data[1]))); }, 5, cb);\n}\n/**\n * Expands Zlib data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function unzlibSync(data, opts) {\n return inflt(data.subarray(zls(data, opts && opts.dictionary), -4), { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// Default algorithm for compression (used because having a known output size allows faster decompression)\nexport { gzip as compress, AsyncGzip as AsyncCompress };\nexport { gzipSync as compressSync, Gzip as Compress };\n/**\n * Streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar Decompress = /*#__PURE__*/ (function () {\n function Decompress(opts, cb) {\n this.o = StrmOpt.call(this, opts, cb) || {};\n this.G = Gunzip;\n this.I = Inflate;\n this.Z = Unzlib;\n }\n // init substream\n // overriden by AsyncDecompress\n Decompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (dat, final) {\n _this.ondata(dat, final);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Decompress.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (!this.s) {\n if (this.p && this.p.length) {\n var n = new u8(this.p.length + chunk.length);\n n.set(this.p), n.set(chunk, this.p.length);\n }\n else\n this.p = chunk;\n if (this.p.length > 2) {\n this.s = (this.p[0] == 31 && this.p[1] == 139 && this.p[2] == 8)\n ? new this.G(this.o)\n : ((this.p[0] & 15) != 8 || (this.p[0] >> 4) > 7 || ((this.p[0] << 8 | this.p[1]) % 31))\n ? new this.I(this.o)\n : new this.Z(this.o);\n this.i();\n this.s.push(this.p, final);\n this.p = null;\n }\n }\n else\n this.s.push(chunk, final);\n };\n return Decompress;\n}());\nexport { Decompress };\n/**\n * Asynchronous streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar AsyncDecompress = /*#__PURE__*/ (function () {\n function AsyncDecompress(opts, cb) {\n Decompress.call(this, opts, cb);\n this.queuedSize = 0;\n this.G = AsyncGunzip;\n this.I = AsyncInflate;\n this.Z = AsyncUnzlib;\n }\n AsyncDecompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (err, dat, final) {\n _this.ondata(err, dat, final);\n };\n this.s.ondrain = function (size) {\n _this.queuedSize -= size;\n if (_this.ondrain)\n _this.ondrain(size);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncDecompress.prototype.push = function (chunk, final) {\n this.queuedSize += chunk.length;\n Decompress.prototype.push.call(this, chunk, final);\n };\n return AsyncDecompress;\n}());\nexport { AsyncDecompress };\nexport function decompress(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzip(data, opts, cb)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflate(data, opts, cb)\n : unzlib(data, opts, cb);\n}\n/**\n * Expands compressed GZIP, Zlib, or raw DEFLATE data, automatically detecting the format\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function decompressSync(data, opts) {\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzipSync(data, opts)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflateSync(data, opts)\n : unzlibSync(data, opts);\n}\n// flatten a directory structure\nvar fltn = function (d, p, t, o) {\n for (var k in d) {\n var val = d[k], n = p + k, op = o;\n if (Array.isArray(val))\n op = mrg(o, val[1]), val = val[0];\n if (val instanceof u8)\n t[n] = [val, op];\n else {\n t[n += '/'] = [new u8(0), op];\n fltn(val, n, t, o);\n }\n }\n};\n// text encoder\nvar te = typeof TextEncoder != 'undefined' && /*#__PURE__*/ new TextEncoder();\n// text decoder\nvar td = typeof TextDecoder != 'undefined' && /*#__PURE__*/ new TextDecoder();\n// text decoder stream\nvar tds = 0;\ntry {\n td.decode(et, { stream: true });\n tds = 1;\n}\ncatch (e) { }\n// decode UTF8\nvar dutf8 = function (d) {\n for (var r = '', i = 0;;) {\n var c = d[i++];\n var eb = (c > 127) + (c > 223) + (c > 239);\n if (i + eb > d.length)\n return { s: r, r: slc(d, i - 1) };\n if (!eb)\n r += String.fromCharCode(c);\n else if (eb == 3) {\n c = ((c & 15) << 18 | (d[i++] & 63) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63)) - 65536,\n r += String.fromCharCode(55296 | (c >> 10), 56320 | (c & 1023));\n }\n else if (eb & 1)\n r += String.fromCharCode((c & 31) << 6 | (d[i++] & 63));\n else\n r += String.fromCharCode((c & 15) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63));\n }\n};\n/**\n * Streaming UTF-8 decoding\n */\nvar DecodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is decoded\n */\n function DecodeUTF8(cb) {\n this.ondata = cb;\n if (tds)\n this.t = new TextDecoder();\n else\n this.p = et;\n }\n /**\n * Pushes a chunk to be decoded from UTF-8 binary\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n DecodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n final = !!final;\n if (this.t) {\n this.ondata(this.t.decode(chunk, { stream: true }), final);\n if (final) {\n if (this.t.decode().length)\n err(8);\n this.t = null;\n }\n return;\n }\n if (!this.p)\n err(4);\n var dat = new u8(this.p.length + chunk.length);\n dat.set(this.p);\n dat.set(chunk, this.p.length);\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (final) {\n if (r.length)\n err(8);\n this.p = null;\n }\n else\n this.p = r;\n this.ondata(s, final);\n };\n return DecodeUTF8;\n}());\nexport { DecodeUTF8 };\n/**\n * Streaming UTF-8 encoding\n */\nvar EncodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is encoded\n */\n function EncodeUTF8(cb) {\n this.ondata = cb;\n }\n /**\n * Pushes a chunk to be encoded to UTF-8\n * @param chunk The string data to push\n * @param final Whether this is the last chunk\n */\n EncodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n this.ondata(strToU8(chunk), this.d = final || false);\n };\n return EncodeUTF8;\n}());\nexport { EncodeUTF8 };\n/**\n * Converts a string into a Uint8Array for use with compression/decompression methods\n * @param str The string to encode\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless decoding a binary string.\n * @returns The string encoded in UTF-8/Latin-1 binary\n */\nexport function strToU8(str, latin1) {\n if (latin1) {\n var ar_1 = new u8(str.length);\n for (var i = 0; i < str.length; ++i)\n ar_1[i] = str.charCodeAt(i);\n return ar_1;\n }\n if (te)\n return te.encode(str);\n var l = str.length;\n var ar = new u8(str.length + (str.length >> 1));\n var ai = 0;\n var w = function (v) { ar[ai++] = v; };\n for (var i = 0; i < l; ++i) {\n if (ai + 5 > ar.length) {\n var n = new u8(ai + 8 + ((l - i) << 1));\n n.set(ar);\n ar = n;\n }\n var c = str.charCodeAt(i);\n if (c < 128 || latin1)\n w(c);\n else if (c < 2048)\n w(192 | (c >> 6)), w(128 | (c & 63));\n else if (c > 55295 && c < 57344)\n c = 65536 + (c & 1023 << 10) | (str.charCodeAt(++i) & 1023),\n w(240 | (c >> 18)), w(128 | ((c >> 12) & 63)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n else\n w(224 | (c >> 12)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n }\n return slc(ar, 0, ai);\n}\n/**\n * Converts a Uint8Array to a string\n * @param dat The data to decode to string\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless encoding to binary string.\n * @returns The original UTF-8/Latin-1 string\n */\nexport function strFromU8(dat, latin1) {\n if (latin1) {\n var r = '';\n for (var i = 0; i < dat.length; i += 16384)\n r += String.fromCharCode.apply(null, dat.subarray(i, i + 16384));\n return r;\n }\n else if (td) {\n return td.decode(dat);\n }\n else {\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (r.length)\n err(8);\n return s;\n }\n}\n;\n// deflate bit flag\nvar dbf = function (l) { return l == 1 ? 3 : l < 6 ? 2 : l == 9 ? 1 : 0; };\n// skip local zip header\nvar slzh = function (d, b) { return b + 30 + b2(d, b + 26) + b2(d, b + 28); };\n// read zip header\nvar zh = function (d, b, z) {\n var fnl = b2(d, b + 28), fn = strFromU8(d.subarray(b + 46, b + 46 + fnl), !(b2(d, b + 8) & 2048)), es = b + 46 + fnl, bs = b4(d, b + 20);\n var _a = z && bs == 4294967295 ? z64e(d, es) : [bs, b4(d, b + 24), b4(d, b + 42)], sc = _a[0], su = _a[1], off = _a[2];\n return [b2(d, b + 10), sc, su, fn, es + b2(d, b + 30) + b2(d, b + 32), off];\n};\n// read zip64 extra field\nvar z64e = function (d, b) {\n for (; b2(d, b) != 1; b += 4 + b2(d, b + 2))\n ;\n return [b8(d, b + 12), b8(d, b + 4), b8(d, b + 20)];\n};\n// extra field length\nvar exfl = function (ex) {\n var le = 0;\n if (ex) {\n for (var k in ex) {\n var l = ex[k].length;\n if (l > 65535)\n err(9);\n le += l + 4;\n }\n }\n return le;\n};\n// write zip header\nvar wzh = function (d, b, f, fn, u, c, ce, co) {\n var fl = fn.length, ex = f.extra, col = co && co.length;\n var exl = exfl(ex);\n wbytes(d, b, ce != null ? 0x2014B50 : 0x4034B50), b += 4;\n if (ce != null)\n d[b++] = 20, d[b++] = f.os;\n d[b] = 20, b += 2; // spec compliance? what's that?\n d[b++] = (f.flag << 1) | (c < 0 && 8), d[b++] = u && 8;\n d[b++] = f.compression & 255, d[b++] = f.compression >> 8;\n var dt = new Date(f.mtime == null ? Date.now() : f.mtime), y = dt.getFullYear() - 1980;\n if (y < 0 || y > 119)\n err(10);\n wbytes(d, b, (y << 25) | ((dt.getMonth() + 1) << 21) | (dt.getDate() << 16) | (dt.getHours() << 11) | (dt.getMinutes() << 5) | (dt.getSeconds() >> 1)), b += 4;\n if (c != -1) {\n wbytes(d, b, f.crc);\n wbytes(d, b + 4, c < 0 ? -c - 2 : c);\n wbytes(d, b + 8, f.size);\n }\n wbytes(d, b + 12, fl);\n wbytes(d, b + 14, exl), b += 16;\n if (ce != null) {\n wbytes(d, b, col);\n wbytes(d, b + 6, f.attrs);\n wbytes(d, b + 10, ce), b += 14;\n }\n d.set(fn, b);\n b += fl;\n if (exl) {\n for (var k in ex) {\n var exf = ex[k], l = exf.length;\n wbytes(d, b, +k);\n wbytes(d, b + 2, l);\n d.set(exf, b + 4), b += 4 + l;\n }\n }\n if (col)\n d.set(co, b), b += col;\n return b;\n};\n// write zip footer (end of central directory)\nvar wzf = function (o, b, c, d, e) {\n wbytes(o, b, 0x6054B50); // skip disk\n wbytes(o, b + 8, c);\n wbytes(o, b + 10, c);\n wbytes(o, b + 12, d);\n wbytes(o, b + 16, e);\n};\n/**\n * A pass-through stream to keep data uncompressed in a ZIP archive.\n */\nvar ZipPassThrough = /*#__PURE__*/ (function () {\n /**\n * Creates a pass-through stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n */\n function ZipPassThrough(filename) {\n this.filename = filename;\n this.c = crc();\n this.size = 0;\n this.compression = 0;\n }\n /**\n * Processes a chunk and pushes to the output stream. You can override this\n * method in a subclass for custom behavior, but by default this passes\n * the data through. You must call this.ondata(err, chunk, final) at some\n * point in this method.\n * @param chunk The chunk to process\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.process = function (chunk, final) {\n this.ondata(null, chunk, final);\n };\n /**\n * Pushes a chunk to be added. If you are subclassing this with a custom\n * compression algorithm, note that you must push data from the source\n * file only, pre-compression.\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n this.c.p(chunk);\n this.size += chunk.length;\n if (final)\n this.crc = this.c.d();\n this.process(chunk, final || false);\n };\n return ZipPassThrough;\n}());\nexport { ZipPassThrough };\n// I don't extend because TypeScript extension adds 1kB of runtime bloat\n/**\n * Streaming DEFLATE compression for ZIP archives. Prefer using AsyncZipDeflate\n * for better performance\n */\nvar ZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function ZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new Deflate(opts, function (dat, final) {\n _this.ondata(null, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n }\n ZipDeflate.prototype.process = function (chunk, final) {\n try {\n this.d.push(chunk, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return ZipDeflate;\n}());\nexport { ZipDeflate };\n/**\n * Asynchronous streaming DEFLATE compression for ZIP archives\n */\nvar AsyncZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates an asynchronous DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function AsyncZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new AsyncDeflate(opts, function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n this.terminate = this.d.terminate;\n }\n AsyncZipDeflate.prototype.process = function (chunk, final) {\n this.d.push(chunk, final);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return AsyncZipDeflate;\n}());\nexport { AsyncZipDeflate };\n// TODO: Better tree shaking\n/**\n * A zippable archive to which files can incrementally be added\n */\nvar Zip = /*#__PURE__*/ (function () {\n /**\n * Creates an empty ZIP archive to which files can be added\n * @param cb The callback to call whenever data for the generated ZIP archive\n * is available\n */\n function Zip(cb) {\n this.ondata = cb;\n this.u = [];\n this.d = 1;\n }\n /**\n * Adds a file to the ZIP archive\n * @param file The file stream to add\n */\n Zip.prototype.add = function (file) {\n var _this = this;\n if (!this.ondata)\n err(5);\n // finishing or finished\n if (this.d & 2)\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, false);\n else {\n var f = strToU8(file.filename), fl_1 = f.length;\n var com = file.comment, o = com && strToU8(com);\n var u = fl_1 != file.filename.length || (o && (com.length != o.length));\n var hl_1 = fl_1 + exfl(file.extra) + 30;\n if (fl_1 > 65535)\n this.ondata(err(11, 0, 1), null, false);\n var header = new u8(hl_1);\n wzh(header, 0, file, f, u, -1);\n var chks_1 = [header];\n var pAll_1 = function () {\n for (var _i = 0, chks_2 = chks_1; _i < chks_2.length; _i++) {\n var chk = chks_2[_i];\n _this.ondata(null, chk, false);\n }\n chks_1 = [];\n };\n var tr_1 = this.d;\n this.d = 0;\n var ind_1 = this.u.length;\n var uf_1 = mrg(file, {\n f: f,\n u: u,\n o: o,\n t: function () {\n if (file.terminate)\n file.terminate();\n },\n r: function () {\n pAll_1();\n if (tr_1) {\n var nxt = _this.u[ind_1 + 1];\n if (nxt)\n nxt.r();\n else\n _this.d = 1;\n }\n tr_1 = 1;\n }\n });\n var cl_1 = 0;\n file.ondata = function (err, dat, final) {\n if (err) {\n _this.ondata(err, dat, final);\n _this.terminate();\n }\n else {\n cl_1 += dat.length;\n chks_1.push(dat);\n if (final) {\n var dd = new u8(16);\n wbytes(dd, 0, 0x8074B50);\n wbytes(dd, 4, file.crc);\n wbytes(dd, 8, cl_1);\n wbytes(dd, 12, file.size);\n chks_1.push(dd);\n uf_1.c = cl_1, uf_1.b = hl_1 + cl_1 + 16, uf_1.crc = file.crc, uf_1.size = file.size;\n if (tr_1)\n uf_1.r();\n tr_1 = 1;\n }\n else if (tr_1)\n pAll_1();\n }\n };\n this.u.push(uf_1);\n }\n };\n /**\n * Ends the process of adding files and prepares to emit the final chunks.\n * This *must* be called after adding all desired files for the resulting\n * ZIP file to work properly.\n */\n Zip.prototype.end = function () {\n var _this = this;\n if (this.d & 2) {\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, true);\n return;\n }\n if (this.d)\n this.e();\n else\n this.u.push({\n r: function () {\n if (!(_this.d & 1))\n return;\n _this.u.splice(-1, 1);\n _this.e();\n },\n t: function () { }\n });\n this.d = 3;\n };\n Zip.prototype.e = function () {\n var bt = 0, l = 0, tl = 0;\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n tl += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0);\n }\n var out = new u8(tl + 22);\n for (var _b = 0, _c = this.u; _b < _c.length; _b++) {\n var f = _c[_b];\n wzh(out, bt, f, f.f, f.u, -f.c - 2, l, f.o);\n bt += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0), l += f.b;\n }\n wzf(out, bt, this.u.length, tl, l);\n this.ondata(null, out, true);\n this.d = 2;\n };\n /**\n * A method to terminate any internal workers used by the stream. Subsequent\n * calls to add() will fail.\n */\n Zip.prototype.terminate = function () {\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n f.t();\n }\n this.d = 2;\n };\n return Zip;\n}());\nexport { Zip };\nexport function zip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var r = {};\n fltn(data, '', r, opts);\n var k = Object.keys(r);\n var lft = k.length, o = 0, tot = 0;\n var slft = lft, files = new Array(lft);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var cbf = function () {\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n tot = 0;\n for (var i = 0; i < slft; ++i) {\n var f = files[i];\n try {\n var l = f.c.length;\n wzh(out, tot, f, f.f, f.u, l);\n var badd = 30 + f.f.length + exfl(f.extra);\n var loc = tot + badd;\n out.set(f.c, loc);\n wzh(out, o, f, f.f, f.u, l, tot, f.m), o += 16 + badd + (f.m ? f.m.length : 0), tot = loc + l;\n }\n catch (e) {\n return cbd(e, null);\n }\n }\n wzf(out, o, files.length, cdl, oe);\n cbd(null, out);\n };\n if (!lft)\n cbf();\n var _loop_1 = function (i) {\n var fn = k[i];\n var _a = r[fn], file = _a[0], p = _a[1];\n var c = crc(), size = file.length;\n c.p(file);\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n var compression = p.level == 0 ? 0 : 8;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n var l = d.length;\n files[i] = mrg(p, {\n size: size,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n compression: compression\n });\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n if (!--lft)\n cbf();\n }\n };\n if (s > 65535)\n cbl(err(11, 0, 1), null);\n if (!compression)\n cbl(null, file);\n else if (size < 160000) {\n try {\n cbl(null, deflateSync(file, p));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(deflate(file, p, cbl));\n };\n // Cannot use lft because it can decrease\n for (var i = 0; i < slft; ++i) {\n _loop_1(i);\n }\n return tAll;\n}\n/**\n * Synchronously creates a ZIP file. Prefer using `zip` for better performance\n * with more than one file.\n * @param data The directory structure for the ZIP archive\n * @param opts The main options, merged with per-file options\n * @returns The generated ZIP archive\n */\nexport function zipSync(data, opts) {\n if (!opts)\n opts = {};\n var r = {};\n var files = [];\n fltn(data, '', r, opts);\n var o = 0;\n var tot = 0;\n for (var fn in r) {\n var _a = r[fn], file = _a[0], p = _a[1];\n var compression = p.level == 0 ? 0 : 8;\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n if (s > 65535)\n err(11);\n var d = compression ? deflateSync(file, p) : file, l = d.length;\n var c = crc();\n c.p(file);\n files.push(mrg(p, {\n size: file.length,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n o: o,\n compression: compression\n }));\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n }\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n for (var i = 0; i < files.length; ++i) {\n var f = files[i];\n wzh(out, f.o, f, f.f, f.u, f.c.length);\n var badd = 30 + f.f.length + exfl(f.extra);\n out.set(f.c, f.o + badd);\n wzh(out, o, f, f.f, f.u, f.c.length, f.o, f.m), o += 16 + badd + (f.m ? f.m.length : 0);\n }\n wzf(out, o, files.length, cdl, oe);\n return out;\n}\n/**\n * Streaming pass-through decompression for ZIP archives\n */\nvar UnzipPassThrough = /*#__PURE__*/ (function () {\n function UnzipPassThrough() {\n }\n UnzipPassThrough.prototype.push = function (data, final) {\n this.ondata(null, data, final);\n };\n UnzipPassThrough.compression = 0;\n return UnzipPassThrough;\n}());\nexport { UnzipPassThrough };\n/**\n * Streaming DEFLATE decompression for ZIP archives. Prefer AsyncZipInflate for\n * better performance.\n */\nvar UnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function UnzipInflate() {\n var _this = this;\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n UnzipInflate.prototype.push = function (data, final) {\n try {\n this.i.push(data, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n UnzipInflate.compression = 8;\n return UnzipInflate;\n}());\nexport { UnzipInflate };\n/**\n * Asynchronous streaming DEFLATE decompression for ZIP archives\n */\nvar AsyncUnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function AsyncUnzipInflate(_, sz) {\n var _this = this;\n if (sz < 320000) {\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n else {\n this.i = new AsyncInflate(function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.terminate = this.i.terminate;\n }\n }\n AsyncUnzipInflate.prototype.push = function (data, final) {\n if (this.i.terminate)\n data = slc(data, 0);\n this.i.push(data, final);\n };\n AsyncUnzipInflate.compression = 8;\n return AsyncUnzipInflate;\n}());\nexport { AsyncUnzipInflate };\n/**\n * A ZIP archive decompression stream that emits files as they are discovered\n */\nvar Unzip = /*#__PURE__*/ (function () {\n /**\n * Creates a ZIP decompression stream\n * @param cb The callback to call whenever a file in the ZIP archive is found\n */\n function Unzip(cb) {\n this.onfile = cb;\n this.k = [];\n this.o = {\n 0: UnzipPassThrough\n };\n this.p = et;\n }\n /**\n * Pushes a chunk to be unzipped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzip.prototype.push = function (chunk, final) {\n var _this = this;\n if (!this.onfile)\n err(5);\n if (!this.p)\n err(4);\n if (this.c > 0) {\n var len = Math.min(this.c, chunk.length);\n var toAdd = chunk.subarray(0, len);\n this.c -= len;\n if (this.d)\n this.d.push(toAdd, !this.c);\n else\n this.k[0].push(toAdd);\n chunk = chunk.subarray(len);\n if (chunk.length)\n return this.push(chunk, final);\n }\n else {\n var f = 0, i = 0, is = void 0, buf = void 0;\n if (!this.p.length)\n buf = chunk;\n else if (!chunk.length)\n buf = this.p;\n else {\n buf = new u8(this.p.length + chunk.length);\n buf.set(this.p), buf.set(chunk, this.p.length);\n }\n var l = buf.length, oc = this.c, add = oc && this.d;\n var _loop_2 = function () {\n var _a;\n var sig = b4(buf, i);\n if (sig == 0x4034B50) {\n f = 1, is = i;\n this_1.d = null;\n this_1.c = 0;\n var bf = b2(buf, i + 6), cmp_1 = b2(buf, i + 8), u = bf & 2048, dd = bf & 8, fnl = b2(buf, i + 26), es = b2(buf, i + 28);\n if (l > i + 30 + fnl + es) {\n var chks_3 = [];\n this_1.k.unshift(chks_3);\n f = 2;\n var sc_1 = b4(buf, i + 18), su_1 = b4(buf, i + 22);\n var fn_1 = strFromU8(buf.subarray(i + 30, i += 30 + fnl), !u);\n if (sc_1 == 4294967295) {\n _a = dd ? [-2] : z64e(buf, i), sc_1 = _a[0], su_1 = _a[1];\n }\n else if (dd)\n sc_1 = -1;\n i += es;\n this_1.c = sc_1;\n var d_1;\n var file_1 = {\n name: fn_1,\n compression: cmp_1,\n start: function () {\n if (!file_1.ondata)\n err(5);\n if (!sc_1)\n file_1.ondata(null, et, true);\n else {\n var ctr = _this.o[cmp_1];\n if (!ctr)\n file_1.ondata(err(14, 'unknown compression type ' + cmp_1, 1), null, false);\n d_1 = sc_1 < 0 ? new ctr(fn_1) : new ctr(fn_1, sc_1, su_1);\n d_1.ondata = function (err, dat, final) { file_1.ondata(err, dat, final); };\n for (var _i = 0, chks_4 = chks_3; _i < chks_4.length; _i++) {\n var dat = chks_4[_i];\n d_1.push(dat, false);\n }\n if (_this.k[0] == chks_3 && _this.c)\n _this.d = d_1;\n else\n d_1.push(et, true);\n }\n },\n terminate: function () {\n if (d_1 && d_1.terminate)\n d_1.terminate();\n }\n };\n if (sc_1 >= 0)\n file_1.size = sc_1, file_1.originalSize = su_1;\n this_1.onfile(file_1);\n }\n return \"break\";\n }\n else if (oc) {\n if (sig == 0x8074B50) {\n is = i += 12 + (oc == -2 && 8), f = 3, this_1.c = 0;\n return \"break\";\n }\n else if (sig == 0x2014B50) {\n is = i -= 4, f = 3, this_1.c = 0;\n return \"break\";\n }\n }\n };\n var this_1 = this;\n for (; i < l - 4; ++i) {\n var state_1 = _loop_2();\n if (state_1 === \"break\")\n break;\n }\n this.p = et;\n if (oc < 0) {\n var dat = f ? buf.subarray(0, is - 12 - (oc == -2 && 8) - (b4(buf, is - 16) == 0x8074B50 && 4)) : buf.subarray(0, i);\n if (add)\n add.push(dat, !!f);\n else\n this.k[+(f == 2)].push(dat);\n }\n if (f & 2)\n return this.push(buf.subarray(i), final);\n this.p = buf.subarray(i);\n }\n if (final) {\n if (this.c)\n err(13);\n this.p = null;\n }\n };\n /**\n * Registers a decoder with the stream, allowing for files compressed with\n * the compression type provided to be expanded correctly\n * @param decoder The decoder constructor\n */\n Unzip.prototype.register = function (decoder) {\n this.o[decoder.compression] = decoder;\n };\n return Unzip;\n}());\nexport { Unzip };\nvar mt = typeof queueMicrotask == 'function' ? queueMicrotask : typeof setTimeout == 'function' ? setTimeout : function (fn) { fn(); };\nexport function unzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var files = {};\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558) {\n cbd(err(13, 0, 1), null);\n return tAll;\n }\n }\n ;\n var lft = b2(data, e + 8);\n if (lft) {\n var c = lft;\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = lft = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n var _loop_3 = function (i) {\n var _a = zh(data, o, z), c_1 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n if (d)\n files[fn] = d;\n if (!--lft)\n cbd(null, files);\n }\n };\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_1\n })) {\n if (!c_1)\n cbl(null, slc(data, b, b + sc));\n else if (c_1 == 8) {\n var infl = data.subarray(b, b + sc);\n // Synchronously decompress under 512KB, or barely-compressed data\n if (su < 524288 || sc > 0.8 * su) {\n try {\n cbl(null, inflateSync(infl, { out: new u8(su) }));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(inflate(infl, { size: su }, cbl));\n }\n else\n cbl(err(14, 'unknown compression type ' + c_1, 1), null);\n }\n else\n cbl(null, null);\n };\n for (var i = 0; i < c; ++i) {\n _loop_3(i);\n }\n }\n else\n cbd(null, {});\n return tAll;\n}\n/**\n * Synchronously decompresses a ZIP archive. Prefer using `unzip` for better\n * performance with more than one file.\n * @param data The raw compressed ZIP file\n * @param opts The ZIP extraction options\n * @returns The decompressed files\n */\nexport function unzipSync(data, opts) {\n var files = {};\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558)\n err(13);\n }\n ;\n var c = b2(data, e + 8);\n if (!c)\n return {};\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n for (var i = 0; i < c; ++i) {\n var _a = zh(data, o, z), c_2 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_2\n })) {\n if (!c_2)\n files[fn] = slc(data, b, b + sc);\n else if (c_2 == 8)\n files[fn] = inflateSync(data.subarray(b, b + sc), { out: new u8(su) });\n else\n err(14, 'unknown compression type ' + c_2);\n }\n }\n return files;\n}\n","/**\n * @license\n * Copyright 2010-2025 Three.js Authors\n * SPDX-License-Identifier: MIT\n */\nconst REVISION = '180';\n\n/**\n * Represents mouse buttons and interaction types in context of controls.\n *\n * @type {ConstantsMouse}\n * @constant\n */\nconst MOUSE = { LEFT: 0, MIDDLE: 1, RIGHT: 2, ROTATE: 0, DOLLY: 1, PAN: 2 };\n\n/**\n * Represents touch interaction types in context of controls.\n *\n * @type {ConstantsTouch}\n * @constant\n */\nconst TOUCH = { ROTATE: 0, PAN: 1, DOLLY_PAN: 2, DOLLY_ROTATE: 3 };\n\n/**\n * Disables face culling.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceNone = 0;\n\n/**\n * Culls back faces.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceBack = 1;\n\n/**\n * Culls front faces.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceFront = 2;\n\n/**\n * Culls both front and back faces.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceFrontBack = 3;\n\n/**\n * Gives unfiltered shadow maps - fastest, but lowest quality.\n *\n * @type {number}\n * @constant\n */\nconst BasicShadowMap = 0;\n\n/**\n * Filters shadow maps using the Percentage-Closer Filtering (PCF) algorithm.\n *\n * @type {number}\n * @constant\n */\nconst PCFShadowMap = 1;\n\n/**\n * Filters shadow maps using the Percentage-Closer Filtering (PCF) algorithm with\n * better soft shadows especially when using low-resolution shadow maps.\n *\n * @type {number}\n * @constant\n */\nconst PCFSoftShadowMap = 2;\n\n/**\n * Filters shadow maps using the Variance Shadow Map (VSM) algorithm.\n * When using VSMShadowMap all shadow receivers will also cast shadows.\n *\n * @type {number}\n * @constant\n */\nconst VSMShadowMap = 3;\n\n/**\n * Only front faces are rendered.\n *\n * @type {number}\n * @constant\n */\nconst FrontSide = 0;\n\n/**\n * Only back faces are rendered.\n *\n * @type {number}\n * @constant\n */\nconst BackSide = 1;\n\n/**\n * Both front and back faces are rendered.\n *\n * @type {number}\n * @constant\n */\nconst DoubleSide = 2;\n\n/**\n * No blending is performed which effectively disables\n * alpha transparency.\n *\n * @type {number}\n * @constant\n */\nconst NoBlending = 0;\n\n/**\n * The default blending.\n *\n * @type {number}\n * @constant\n */\nconst NormalBlending = 1;\n\n/**\n * Represents additive blending.\n *\n * @type {number}\n * @constant\n */\nconst AdditiveBlending = 2;\n\n/**\n * Represents subtractive blending.\n *\n * @type {number}\n * @constant\n */\nconst SubtractiveBlending = 3;\n\n/**\n * Represents multiply blending.\n *\n * @type {number}\n * @constant\n */\nconst MultiplyBlending = 4;\n\n/**\n * Represents custom blending.\n *\n * @type {number}\n * @constant\n */\nconst CustomBlending = 5;\n\n/**\n * A `source + destination` blending equation.\n *\n * @type {number}\n * @constant\n */\nconst AddEquation = 100;\n\n/**\n * A `source - destination` blending equation.\n *\n * @type {number}\n * @constant\n */\nconst SubtractEquation = 101;\n\n/**\n * A `destination - source` blending equation.\n *\n * @type {number}\n * @constant\n */\nconst ReverseSubtractEquation = 102;\n\n/**\n * A blend equation that uses the minimum of source and destination.\n *\n * @type {number}\n * @constant\n */\nconst MinEquation = 103;\n\n/**\n * A blend equation that uses the maximum of source and destination.\n *\n * @type {number}\n * @constant\n */\nconst MaxEquation = 104;\n\n/**\n * Multiplies all colors by `0`.\n *\n * @type {number}\n * @constant\n */\nconst ZeroFactor = 200;\n\n/**\n * Multiplies all colors by `1`.\n *\n * @type {number}\n * @constant\n */\nconst OneFactor = 201;\n\n/**\n * Multiplies all colors by the source colors.\n *\n * @type {number}\n * @constant\n */\nconst SrcColorFactor = 202;\n\n/**\n * Multiplies all colors by `1` minus each source color.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusSrcColorFactor = 203;\n\n/**\n * Multiplies all colors by the source alpha value.\n *\n * @type {number}\n * @constant\n */\nconst SrcAlphaFactor = 204;\n\n/**\n * Multiplies all colors by 1 minus the source alpha value.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusSrcAlphaFactor = 205;\n\n/**\n * Multiplies all colors by the destination alpha value.\n *\n * @type {number}\n * @constant\n */\nconst DstAlphaFactor = 206;\n\n/**\n * Multiplies all colors by `1` minus the destination alpha value.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusDstAlphaFactor = 207;\n\n/**\n * Multiplies all colors by the destination color.\n *\n * @type {number}\n * @constant\n */\nconst DstColorFactor = 208;\n\n/**\n * Multiplies all colors by `1` minus each destination color.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusDstColorFactor = 209;\n\n/**\n * Multiplies the RGB colors by the smaller of either the source alpha\n * value or the value of `1` minus the destination alpha value. The alpha\n * value is multiplied by `1`.\n *\n * @type {number}\n * @constant\n */\nconst SrcAlphaSaturateFactor = 210;\n\n/**\n * Multiplies all colors by a constant color.\n *\n * @type {number}\n * @constant\n */\nconst ConstantColorFactor = 211;\n\n/**\n * Multiplies all colors by `1` minus a constant color.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusConstantColorFactor = 212;\n\n/**\n * Multiplies all colors by a constant alpha value.\n *\n * @type {number}\n * @constant\n */\nconst ConstantAlphaFactor = 213;\n\n/**\n * Multiplies all colors by 1 minus a constant alpha value.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusConstantAlphaFactor = 214;\n\n/**\n * Never pass.\n *\n * @type {number}\n * @constant\n */\nconst NeverDepth = 0;\n\n/**\n * Always pass.\n *\n * @type {number}\n * @constant\n */\nconst AlwaysDepth = 1;\n\n/**\n * Pass if the incoming value is less than the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst LessDepth = 2;\n\n/**\n * Pass if the incoming value is less than or equal to the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst LessEqualDepth = 3;\n\n/**\n * Pass if the incoming value equals the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst EqualDepth = 4;\n\n/**\n * Pass if the incoming value is greater than or equal to the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterEqualDepth = 5;\n\n/**\n * Pass if the incoming value is greater than the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterDepth = 6;\n\n/**\n * Pass if the incoming value is not equal to the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst NotEqualDepth = 7;\n\n/**\n * Multiplies the environment map color with the surface color.\n *\n * @type {number}\n * @constant\n */\nconst MultiplyOperation = 0;\n\n/**\n * Uses reflectivity to blend between the two colors.\n *\n * @type {number}\n * @constant\n */\nconst MixOperation = 1;\n\n/**\n * Adds the two colors.\n *\n * @type {number}\n * @constant\n */\nconst AddOperation = 2;\n\n/**\n * No tone mapping is applied.\n *\n * @type {number}\n * @constant\n */\nconst NoToneMapping = 0;\n\n/**\n * Linear tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst LinearToneMapping = 1;\n\n/**\n * Reinhard tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst ReinhardToneMapping = 2;\n\n/**\n * Cineon tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst CineonToneMapping = 3;\n\n/**\n * ACES Filmic tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst ACESFilmicToneMapping = 4;\n\n/**\n * Custom tone mapping.\n *\n * Expects a custom implementation by modifying shader code of the material's fragment shader.\n *\n * @type {number}\n * @constant\n */\nconst CustomToneMapping = 5;\n\n/**\n * AgX tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst AgXToneMapping = 6;\n\n/**\n * Neutral tone mapping.\n *\n * Implementation based on the Khronos 3D Commerce Group standard tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst NeutralToneMapping = 7;\n\n/**\n * The skinned mesh shares the same world space as the skeleton.\n *\n * @type {string}\n * @constant\n */\nconst AttachedBindMode = 'attached';\n\n/**\n * The skinned mesh does not share the same world space as the skeleton.\n * This is useful when a skeleton is shared across multiple skinned meshes.\n *\n * @type {string}\n * @constant\n */\nconst DetachedBindMode = 'detached';\n\n/**\n * Maps textures using the geometry's UV coordinates.\n *\n * @type {number}\n * @constant\n */\nconst UVMapping = 300;\n\n/**\n * Reflection mapping for cube textures.\n *\n * @type {number}\n * @constant\n */\nconst CubeReflectionMapping = 301;\n\n/**\n * Refraction mapping for cube textures.\n *\n * @type {number}\n * @constant\n */\nconst CubeRefractionMapping = 302;\n\n/**\n * Reflection mapping for equirectangular textures.\n *\n * @type {number}\n * @constant\n */\nconst EquirectangularReflectionMapping = 303;\n\n/**\n * Refraction mapping for equirectangular textures.\n *\n * @type {number}\n * @constant\n */\nconst EquirectangularRefractionMapping = 304;\n\n/**\n * Reflection mapping for PMREM textures.\n *\n * @type {number}\n * @constant\n */\nconst CubeUVReflectionMapping = 306;\n\n/**\n * The texture will simply repeat to infinity.\n *\n * @type {number}\n * @constant\n */\nconst RepeatWrapping = 1000;\n\n/**\n * The last pixel of the texture stretches to the edge of the mesh.\n *\n * @type {number}\n * @constant\n */\nconst ClampToEdgeWrapping = 1001;\n\n/**\n * The texture will repeats to infinity, mirroring on each repeat.\n *\n * @type {number}\n * @constant\n */\nconst MirroredRepeatWrapping = 1002;\n\n/**\n * Returns the value of the texture element that is nearest (in Manhattan distance)\n * to the specified texture coordinates.\n *\n * @type {number}\n * @constant\n */\nconst NearestFilter = 1003;\n\n/**\n * Chooses the mipmap that most closely matches the size of the pixel being textured\n * and uses the `NearestFilter` criterion (the texel nearest to the center of the pixel)\n * to produce a texture value.\n *\n * @type {number}\n * @constant\n */\nconst NearestMipmapNearestFilter = 1004;\nconst NearestMipMapNearestFilter = 1004; // legacy\n\n/**\n * Chooses the two mipmaps that most closely match the size of the pixel being textured and\n * uses the `NearestFilter` criterion to produce a texture value from each mipmap.\n * The final texture value is a weighted average of those two values.\n *\n * @type {number}\n * @constant\n */\nconst NearestMipmapLinearFilter = 1005;\nconst NearestMipMapLinearFilter = 1005; // legacy\n\n/**\n * Returns the weighted average of the four texture elements that are closest to the specified\n * texture coordinates, and can include items wrapped or repeated from other parts of a texture,\n * depending on the values of `wrapS` and `wrapT`, and on the exact mapping.\n *\n * @type {number}\n * @constant\n */\nconst LinearFilter = 1006;\n\n/**\n * Chooses the mipmap that most closely matches the size of the pixel being textured and uses\n * the `LinearFilter` criterion (a weighted average of the four texels that are closest to the\n * center of the pixel) to produce a texture value.\n *\n * @type {number}\n * @constant\n */\nconst LinearMipmapNearestFilter = 1007;\nconst LinearMipMapNearestFilter = 1007; // legacy\n\n/**\n * Chooses the two mipmaps that most closely match the size of the pixel being textured and uses\n * the `LinearFilter` criterion to produce a texture value from each mipmap. The final texture value\n * is a weighted average of those two values.\n *\n * @type {number}\n * @constant\n */\nconst LinearMipmapLinearFilter = 1008;\nconst LinearMipMapLinearFilter = 1008; // legacy\n\n/**\n * An unsigned byte data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedByteType = 1009;\n\n/**\n * A byte data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst ByteType = 1010;\n\n/**\n * A short data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst ShortType = 1011;\n\n/**\n * An unsigned short data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedShortType = 1012;\n\n/**\n * An int data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst IntType = 1013;\n\n/**\n * An unsigned int data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedIntType = 1014;\n\n/**\n * A float data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst FloatType = 1015;\n\n/**\n * A half float data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst HalfFloatType = 1016;\n\n/**\n * An unsigned short 4_4_4_4 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedShort4444Type = 1017;\n\n/**\n * An unsigned short 5_5_5_1 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedShort5551Type = 1018;\n\n/**\n * An unsigned int 24_8 data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedInt248Type = 1020;\n\n/**\n * An unsigned int 5_9_9_9 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedInt5999Type = 35902;\n\n/**\n * An unsigned int 10_11_11 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedInt101111Type = 35899;\n\n/**\n * Discards the red, green and blue components and reads just the alpha component.\n *\n * @type {number}\n * @constant\n */\nconst AlphaFormat = 1021;\n\n/**\n * Discards the alpha component and reads the red, green and blue component.\n *\n * @type {number}\n * @constant\n */\nconst RGBFormat = 1022;\n\n/**\n * Reads the red, green, blue and alpha components.\n *\n * @type {number}\n * @constant\n */\nconst RGBAFormat = 1023;\n\n/**\n * Reads each element as a single depth value, converts it to floating point, and clamps to the range `[0,1]`.\n *\n * @type {number}\n * @constant\n */\nconst DepthFormat = 1026;\n\n/**\n * Reads each element is a pair of depth and stencil values. The depth component of the pair is interpreted as\n * in `DepthFormat`. The stencil component is interpreted based on the depth + stencil internal format.\n *\n * @type {number}\n * @constant\n */\nconst DepthStencilFormat = 1027;\n\n/**\n * Discards the green, blue and alpha components and reads just the red component.\n *\n * @type {number}\n * @constant\n */\nconst RedFormat = 1028;\n\n/**\n * Discards the green, blue and alpha components and reads just the red component. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RedIntegerFormat = 1029;\n\n/**\n * Discards the alpha, and blue components and reads the red, and green components.\n *\n * @type {number}\n * @constant\n */\nconst RGFormat = 1030;\n\n/**\n * Discards the alpha, and blue components and reads the red, and green components. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RGIntegerFormat = 1031;\n\n/**\n * Discards the alpha component and reads the red, green and blue component. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RGBIntegerFormat = 1032;\n\n/**\n * Reads the red, green, blue and alpha components. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RGBAIntegerFormat = 1033;\n\n/**\n * A DXT1-compressed image in an RGB image format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_S3TC_DXT1_Format = 33776;\n\n/**\n * A DXT1-compressed image in an RGB image format with a simple on/off alpha value.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_S3TC_DXT1_Format = 33777;\n\n/**\n * A DXT3-compressed image in an RGBA image format. Compared to a 32-bit RGBA texture, it offers 4:1 compression.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_S3TC_DXT3_Format = 33778;\n\n/**\n * A DXT5-compressed image in an RGBA image format. It also provides a 4:1 compression, but differs to the DXT3\n * compression in how the alpha compression is done.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_S3TC_DXT5_Format = 33779;\n\n/**\n * PVRTC RGB compression in 4-bit mode. One block for each 4×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGB_PVRTC_4BPPV1_Format = 35840;\n\n/**\n * PVRTC RGB compression in 2-bit mode. One block for each 8×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGB_PVRTC_2BPPV1_Format = 35841;\n\n/**\n * PVRTC RGBA compression in 4-bit mode. One block for each 4×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_PVRTC_4BPPV1_Format = 35842;\n\n/**\n * PVRTC RGBA compression in 2-bit mode. One block for each 8×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_PVRTC_2BPPV1_Format = 35843;\n\n/**\n * ETC1 RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_ETC1_Format = 36196;\n\n/**\n * ETC2 RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_ETC2_Format = 37492;\n\n/**\n * ETC2 RGBA format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ETC2_EAC_Format = 37496;\n\n/**\n * ASTC RGBA 4x4 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_4x4_Format = 37808;\n\n/**\n * ASTC RGBA 5x4 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_5x4_Format = 37809;\n\n/**\n * ASTC RGBA 5x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_5x5_Format = 37810;\n\n/**\n * ASTC RGBA 6x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_6x5_Format = 37811;\n\n/**\n * ASTC RGBA 6x6 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_6x6_Format = 37812;\n\n/**\n * ASTC RGBA 8x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_8x5_Format = 37813;\n\n/**\n * ASTC RGBA 8x6 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_8x6_Format = 37814;\n\n/**\n * ASTC RGBA 8x8 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_8x8_Format = 37815;\n\n/**\n * ASTC RGBA 10x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x5_Format = 37816;\n\n/**\n * ASTC RGBA 10x6 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x6_Format = 37817;\n\n/**\n * ASTC RGBA 10x8 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x8_Format = 37818;\n\n/**\n * ASTC RGBA 10x10 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x10_Format = 37819;\n\n/**\n * ASTC RGBA 12x10 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_12x10_Format = 37820;\n\n/**\n * ASTC RGBA 12x12 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_12x12_Format = 37821;\n\n/**\n * BPTC RGBA format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_BPTC_Format = 36492;\n\n/**\n * BPTC Signed RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_BPTC_SIGNED_Format = 36494;\n\n/**\n * BPTC Unsigned RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_BPTC_UNSIGNED_Format = 36495;\n\n/**\n * RGTC1 Red format.\n *\n * @type {number}\n * @constant\n */\nconst RED_RGTC1_Format = 36283;\n\n/**\n * RGTC1 Signed Red format.\n *\n * @type {number}\n * @constant\n */\nconst SIGNED_RED_RGTC1_Format = 36284;\n\n/**\n * RGTC2 Red Green format.\n *\n * @type {number}\n * @constant\n */\nconst RED_GREEN_RGTC2_Format = 36285;\n\n/**\n * RGTC2 Signed Red Green format.\n *\n * @type {number}\n * @constant\n */\nconst SIGNED_RED_GREEN_RGTC2_Format = 36286;\n\n/**\n * Animations are played once.\n *\n * @type {number}\n * @constant\n */\nconst LoopOnce = 2200;\n\n/**\n * Animations are played with a chosen number of repetitions, each time jumping from\n * the end of the clip directly to its beginning.\n *\n * @type {number}\n * @constant\n */\nconst LoopRepeat = 2201;\n\n/**\n * Animations are played with a chosen number of repetitions, alternately playing forward\n * and backward.\n *\n * @type {number}\n * @constant\n */\nconst LoopPingPong = 2202;\n\n/**\n * Discrete interpolation mode for keyframe tracks.\n *\n * @type {number}\n * @constant\n */\nconst InterpolateDiscrete = 2300;\n\n/**\n * Linear interpolation mode for keyframe tracks.\n *\n * @type {number}\n * @constant\n */\nconst InterpolateLinear = 2301;\n\n/**\n * Smooth interpolation mode for keyframe tracks.\n *\n * @type {number}\n * @constant\n */\nconst InterpolateSmooth = 2302;\n\n/**\n * Zero curvature ending for animations.\n *\n * @type {number}\n * @constant\n */\nconst ZeroCurvatureEnding = 2400;\n\n/**\n * Zero slope ending for animations.\n *\n * @type {number}\n * @constant\n */\nconst ZeroSlopeEnding = 2401;\n\n/**\n * Wrap around ending for animations.\n *\n * @type {number}\n * @constant\n */\nconst WrapAroundEnding = 2402;\n\n/**\n * Default animation blend mode.\n *\n * @type {number}\n * @constant\n */\nconst NormalAnimationBlendMode = 2500;\n\n/**\n * Additive animation blend mode. Can be used to layer motions on top of\n * each other to build complex performances from smaller re-usable assets.\n *\n * @type {number}\n * @constant\n */\nconst AdditiveAnimationBlendMode = 2501;\n\n/**\n * For every three vertices draw a single triangle.\n *\n * @type {number}\n * @constant\n */\nconst TrianglesDrawMode = 0;\n\n/**\n * For each vertex draw a triangle from the last three vertices.\n *\n * @type {number}\n * @constant\n */\nconst TriangleStripDrawMode = 1;\n\n/**\n * For each vertex draw a triangle from the first vertex and the last two vertices.\n *\n * @type {number}\n * @constant\n */\nconst TriangleFanDrawMode = 2;\n\n/**\n * Basic depth packing.\n *\n * @type {number}\n * @constant\n */\nconst BasicDepthPacking = 3200;\n\n/**\n * A depth value is packed into 32 bit RGBA.\n *\n * @type {number}\n * @constant\n */\nconst RGBADepthPacking = 3201;\n\n/**\n * A depth value is packed into 24 bit RGB.\n *\n * @type {number}\n * @constant\n */\nconst RGBDepthPacking = 3202;\n\n/**\n * A depth value is packed into 16 bit RG.\n *\n * @type {number}\n * @constant\n */\nconst RGDepthPacking = 3203;\n\n/**\n * Normal information is relative to the underlying surface.\n *\n * @type {number}\n * @constant\n */\nconst TangentSpaceNormalMap = 0;\n\n/**\n * Normal information is relative to the object orientation.\n *\n * @type {number}\n * @constant\n */\nconst ObjectSpaceNormalMap = 1;\n\n// Color space string identifiers, matching CSS Color Module Level 4 and WebGPU names where available.\n\n/**\n * No color space.\n *\n * @type {string}\n * @constant\n */\nconst NoColorSpace = '';\n\n/**\n * sRGB color space.\n *\n * @type {string}\n * @constant\n */\nconst SRGBColorSpace = 'srgb';\n\n/**\n * sRGB-linear color space.\n *\n * @type {string}\n * @constant\n */\nconst LinearSRGBColorSpace = 'srgb-linear';\n\n/**\n * Linear transfer function.\n *\n * @type {string}\n * @constant\n */\nconst LinearTransfer = 'linear';\n\n/**\n * sRGB transfer function.\n *\n * @type {string}\n * @constant\n */\nconst SRGBTransfer = 'srgb';\n\n/**\n * Sets the stencil buffer value to `0`.\n *\n * @type {number}\n * @constant\n */\nconst ZeroStencilOp = 0;\n\n/**\n * Keeps the current value.\n *\n * @type {number}\n * @constant\n */\nconst KeepStencilOp = 7680;\n\n/**\n * Sets the stencil buffer value to the specified reference value.\n *\n * @type {number}\n * @constant\n */\nconst ReplaceStencilOp = 7681;\n\n/**\n * Increments the current stencil buffer value. Clamps to the maximum representable unsigned value.\n *\n * @type {number}\n * @constant\n */\nconst IncrementStencilOp = 7682;\n\n/**\n * Decrements the current stencil buffer value. Clamps to `0`.\n *\n * @type {number}\n * @constant\n */\nconst DecrementStencilOp = 7683;\n\n/**\n * Increments the current stencil buffer value. Wraps stencil buffer value to zero when incrementing\n * the maximum representable unsigned value.\n *\n * @type {number}\n * @constant\n */\nconst IncrementWrapStencilOp = 34055;\n\n/**\n * Decrements the current stencil buffer value. Wraps stencil buffer value to the maximum representable\n * unsigned value when decrementing a stencil buffer value of `0`.\n *\n * @type {number}\n * @constant\n */\nconst DecrementWrapStencilOp = 34056;\n\n/**\n * Inverts the current stencil buffer value bitwise.\n *\n * @type {number}\n * @constant\n */\nconst InvertStencilOp = 5386;\n\n/**\n * Will never return true.\n *\n * @type {number}\n * @constant\n */\nconst NeverStencilFunc = 512;\n\n/**\n * Will return true if the stencil reference value is less than the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst LessStencilFunc = 513;\n\n/**\n * Will return true if the stencil reference value is equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst EqualStencilFunc = 514;\n\n/**\n * Will return true if the stencil reference value is less than or equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst LessEqualStencilFunc = 515;\n\n/**\n * Will return true if the stencil reference value is greater than the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterStencilFunc = 516;\n\n/**\n * Will return true if the stencil reference value is not equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst NotEqualStencilFunc = 517;\n\n/**\n * Will return true if the stencil reference value is greater than or equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterEqualStencilFunc = 518;\n\n/**\n * Will always return true.\n *\n * @type {number}\n * @constant\n */\nconst AlwaysStencilFunc = 519;\n\n/**\n * Never pass.\n *\n * @type {number}\n * @constant\n */\nconst NeverCompare = 512;\n\n/**\n * Pass if the incoming value is less than the texture value.\n *\n * @type {number}\n * @constant\n */\nconst LessCompare = 513;\n\n/**\n * Pass if the incoming value equals the texture value.\n *\n * @type {number}\n * @constant\n */\nconst EqualCompare = 514;\n\n/**\n * Pass if the incoming value is less than or equal to the texture value.\n *\n * @type {number}\n * @constant\n */\nconst LessEqualCompare = 515;\n\n/**\n * Pass if the incoming value is greater than the texture value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterCompare = 516;\n\n/**\n * Pass if the incoming value is not equal to the texture value.\n *\n * @type {number}\n * @constant\n */\nconst NotEqualCompare = 517;\n\n/**\n * Pass if the incoming value is greater than or equal to the texture value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterEqualCompare = 518;\n\n/**\n * Always pass.\n *\n * @type {number}\n * @constant\n */\nconst AlwaysCompare = 519;\n\n/**\n * The contents are intended to be specified once by the application, and used many\n * times as the source for drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StaticDrawUsage = 35044;\n\n/**\n * The contents are intended to be respecified repeatedly by the application, and\n * used many times as the source for drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst DynamicDrawUsage = 35048;\n\n/**\n * The contents are intended to be specified once by the application, and used at most\n * a few times as the source for drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StreamDrawUsage = 35040;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and queried\n * many times by the application.\n *\n * @type {number}\n * @constant\n */\nconst StaticReadUsage = 35045;\n\n/**\n * The contents are intended to be respecified repeatedly by reading data from the 3D API, and queried\n * many times by the application.\n *\n * @type {number}\n * @constant\n */\nconst DynamicReadUsage = 35049;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and queried at most\n * a few times by the application\n *\n * @type {number}\n * @constant\n */\nconst StreamReadUsage = 35041;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and used many times as\n * the source for WebGL drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StaticCopyUsage = 35046;\n\n/**\n * The contents are intended to be respecified repeatedly by reading data from the 3D API, and used many times\n * as the source for WebGL drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst DynamicCopyUsage = 35050;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and used at most a few times\n * as the source for WebGL drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StreamCopyUsage = 35042;\n\n/**\n * GLSL 1 shader code.\n *\n * @type {string}\n * @constant\n */\nconst GLSL1 = '100';\n\n/**\n * GLSL 3 shader code.\n *\n * @type {string}\n * @constant\n */\nconst GLSL3 = '300 es';\n\n/**\n * WebGL coordinate system.\n *\n * @type {number}\n * @constant\n */\nconst WebGLCoordinateSystem = 2000;\n\n/**\n * WebGPU coordinate system.\n *\n * @type {number}\n * @constant\n */\nconst WebGPUCoordinateSystem = 2001;\n\n/**\n * Represents the different timestamp query types.\n *\n * @type {ConstantsTimestampQuery}\n * @constant\n */\nconst TimestampQuery = {\n\tCOMPUTE: 'compute',\n\tRENDER: 'render'\n};\n\n/**\n * Represents mouse buttons and interaction types in context of controls.\n *\n * @type {ConstantsInterpolationSamplingType}\n * @constant\n */\nconst InterpolationSamplingType = {\n\tPERSPECTIVE: 'perspective',\n\tLINEAR: 'linear',\n\tFLAT: 'flat'\n};\n\n/**\n * Represents the different interpolation sampling modes.\n *\n * @type {ConstantsInterpolationSamplingMode}\n * @constant\n */\nconst InterpolationSamplingMode = {\n\tNORMAL: 'normal',\n\tCENTROID: 'centroid',\n\tSAMPLE: 'sample',\n\tFIRST: 'first',\n\tEITHER: 'either'\n};\n\n/**\n * This type represents mouse buttons and interaction types in context of controls.\n *\n * @typedef {Object} ConstantsMouse\n * @property {number} MIDDLE - The left mouse button.\n * @property {number} LEFT - The middle mouse button.\n * @property {number} RIGHT - The right mouse button.\n * @property {number} ROTATE - A rotate interaction.\n * @property {number} DOLLY - A dolly interaction.\n * @property {number} PAN - A pan interaction.\n **/\n\n/**\n * This type represents touch interaction types in context of controls.\n *\n * @typedef {Object} ConstantsTouch\n * @property {number} ROTATE - A rotate interaction.\n * @property {number} PAN - A pan interaction.\n * @property {number} DOLLY_PAN - The dolly-pan interaction.\n * @property {number} DOLLY_ROTATE - A dolly-rotate interaction.\n **/\n\n/**\n * This type represents the different timestamp query types.\n *\n * @typedef {Object} ConstantsTimestampQuery\n * @property {string} COMPUTE - A `compute` timestamp query.\n * @property {string} RENDER - A `render` timestamp query.\n **/\n\n/**\n * Represents the different interpolation sampling types.\n *\n * @typedef {Object} ConstantsInterpolationSamplingType\n * @property {string} PERSPECTIVE - Perspective-correct interpolation.\n * @property {string} LINEAR - Linear interpolation.\n * @property {string} FLAT - Flat interpolation.\n */\n\n/**\n * Represents the different interpolation sampling modes.\n *\n * @typedef {Object} ConstantsInterpolationSamplingMode\n * @property {string} NORMAL - Normal sampling mode.\n * @property {string} CENTROID - Centroid sampling mode.\n * @property {string} SAMPLE - Sample-specific sampling mode.\n * @property {string} FIRST - Flat interpolation using the first vertex.\n * @property {string} EITHER - Flat interpolation using either vertex.\n */\n\n/**\n * This modules allows to dispatch event objects on custom JavaScript objects.\n *\n * Main repository: [eventdispatcher.js]{@link https://github.com/mrdoob/eventdispatcher.js/}\n *\n * Code Example:\n * ```js\n * class Car extends EventDispatcher {\n * \tstart() {\n *\t\tthis.dispatchEvent( { type: 'start', message: 'vroom vroom!' } );\n *\t}\n *};\n *\n * // Using events with the custom object\n * const car = new Car();\n * car.addEventListener( 'start', function ( event ) {\n * \talert( event.message );\n * } );\n *\n * car.start();\n * ```\n */\nclass EventDispatcher {\n\n\t/**\n\t * Adds the given event listener to the given event type.\n\t *\n\t * @param {string} type - The type of event to listen to.\n\t * @param {Function} listener - The function that gets called when the event is fired.\n\t */\n\taddEventListener( type, listener ) {\n\n\t\tif ( this._listeners === undefined ) this._listeners = {};\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners[ type ] === undefined ) {\n\n\t\t\tlisteners[ type ] = [];\n\n\t\t}\n\n\t\tif ( listeners[ type ].indexOf( listener ) === -1 ) {\n\n\t\t\tlisteners[ type ].push( listener );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns `true` if the given event listener has been added to the given event type.\n\t *\n\t * @param {string} type - The type of event.\n\t * @param {Function} listener - The listener to check.\n\t * @return {boolean} Whether the given event listener has been added to the given event type.\n\t */\n\thasEventListener( type, listener ) {\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners === undefined ) return false;\n\n\t\treturn listeners[ type ] !== undefined && listeners[ type ].indexOf( listener ) !== -1;\n\n\t}\n\n\t/**\n\t * Removes the given event listener from the given event type.\n\t *\n\t * @param {string} type - The type of event.\n\t * @param {Function} listener - The listener to remove.\n\t */\n\tremoveEventListener( type, listener ) {\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners === undefined ) return;\n\n\t\tconst listenerArray = listeners[ type ];\n\n\t\tif ( listenerArray !== undefined ) {\n\n\t\t\tconst index = listenerArray.indexOf( listener );\n\n\t\t\tif ( index !== -1 ) {\n\n\t\t\t\tlistenerArray.splice( index, 1 );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Dispatches an event object.\n\t *\n\t * @param {Object} event - The event that gets fired.\n\t */\n\tdispatchEvent( event ) {\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners === undefined ) return;\n\n\t\tconst listenerArray = listeners[ event.type ];\n\n\t\tif ( listenerArray !== undefined ) {\n\n\t\t\tevent.target = this;\n\n\t\t\t// Make a copy, in case listeners are removed while iterating.\n\t\t\tconst array = listenerArray.slice( 0 );\n\n\t\t\tfor ( let i = 0, l = array.length; i < l; i ++ ) {\n\n\t\t\t\tarray[ i ].call( this, event );\n\n\t\t\t}\n\n\t\t\tevent.target = null;\n\n\t\t}\n\n\t}\n\n}\n\nconst _lut = [ '00', '01', '02', '03', '04', '05', '06', '07', '08', '09', '0a', '0b', '0c', '0d', '0e', '0f', '10', '11', '12', '13', '14', '15', '16', '17', '18', '19', '1a', '1b', '1c', '1d', '1e', '1f', '20', '21', '22', '23', '24', '25', '26', '27', '28', '29', '2a', '2b', '2c', '2d', '2e', '2f', '30', '31', '32', '33', '34', '35', '36', '37', '38', '39', '3a', '3b', '3c', '3d', '3e', '3f', '40', '41', '42', '43', '44', '45', '46', '47', '48', '49', '4a', '4b', '4c', '4d', '4e', '4f', '50', '51', '52', '53', '54', '55', '56', '57', '58', '59', '5a', '5b', '5c', '5d', '5e', '5f', '60', '61', '62', '63', '64', '65', '66', '67', '68', '69', '6a', '6b', '6c', '6d', '6e', '6f', '70', '71', '72', '73', '74', '75', '76', '77', '78', '79', '7a', '7b', '7c', '7d', '7e', '7f', '80', '81', '82', '83', '84', '85', '86', '87', '88', '89', '8a', '8b', '8c', '8d', '8e', '8f', '90', '91', '92', '93', '94', '95', '96', '97', '98', '99', '9a', '9b', '9c', '9d', '9e', '9f', 'a0', 'a1', 'a2', 'a3', 'a4', 'a5', 'a6', 'a7', 'a8', 'a9', 'aa', 'ab', 'ac', 'ad', 'ae', 'af', 'b0', 'b1', 'b2', 'b3', 'b4', 'b5', 'b6', 'b7', 'b8', 'b9', 'ba', 'bb', 'bc', 'bd', 'be', 'bf', 'c0', 'c1', 'c2', 'c3', 'c4', 'c5', 'c6', 'c7', 'c8', 'c9', 'ca', 'cb', 'cc', 'cd', 'ce', 'cf', 'd0', 'd1', 'd2', 'd3', 'd4', 'd5', 'd6', 'd7', 'd8', 'd9', 'da', 'db', 'dc', 'dd', 'de', 'df', 'e0', 'e1', 'e2', 'e3', 'e4', 'e5', 'e6', 'e7', 'e8', 'e9', 'ea', 'eb', 'ec', 'ed', 'ee', 'ef', 'f0', 'f1', 'f2', 'f3', 'f4', 'f5', 'f6', 'f7', 'f8', 'f9', 'fa', 'fb', 'fc', 'fd', 'fe', 'ff' ];\n\nlet _seed = 1234567;\n\n\nconst DEG2RAD = Math.PI / 180;\nconst RAD2DEG = 180 / Math.PI;\n\n/**\n * Generate a [UUID]{@link https://en.wikipedia.org/wiki/Universally_unique_identifier}\n * (universally unique identifier).\n *\n * @return {string} The UUID.\n */\nfunction generateUUID() {\n\n\t// http://stackoverflow.com/questions/105034/how-to-create-a-guid-uuid-in-javascript/21963136#21963136\n\n\tconst d0 = Math.random() * 0xffffffff | 0;\n\tconst d1 = Math.random() * 0xffffffff | 0;\n\tconst d2 = Math.random() * 0xffffffff | 0;\n\tconst d3 = Math.random() * 0xffffffff | 0;\n\tconst uuid = _lut[ d0 & 0xff ] + _lut[ d0 >> 8 & 0xff ] + _lut[ d0 >> 16 & 0xff ] + _lut[ d0 >> 24 & 0xff ] + '-' +\n\t\t\t_lut[ d1 & 0xff ] + _lut[ d1 >> 8 & 0xff ] + '-' + _lut[ d1 >> 16 & 0x0f | 0x40 ] + _lut[ d1 >> 24 & 0xff ] + '-' +\n\t\t\t_lut[ d2 & 0x3f | 0x80 ] + _lut[ d2 >> 8 & 0xff ] + '-' + _lut[ d2 >> 16 & 0xff ] + _lut[ d2 >> 24 & 0xff ] +\n\t\t\t_lut[ d3 & 0xff ] + _lut[ d3 >> 8 & 0xff ] + _lut[ d3 >> 16 & 0xff ] + _lut[ d3 >> 24 & 0xff ];\n\n\t// .toLowerCase() here flattens concatenated strings to save heap memory space.\n\treturn uuid.toLowerCase();\n\n}\n\n/**\n * Clamps the given value between min and max.\n *\n * @param {number} value - The value to clamp.\n * @param {number} min - The min value.\n * @param {number} max - The max value.\n * @return {number} The clamped value.\n */\nfunction clamp( value, min, max ) {\n\n\treturn Math.max( min, Math.min( max, value ) );\n\n}\n\n/**\n * Computes the Euclidean modulo of the given parameters that\n * is `( ( n % m ) + m ) % m`.\n *\n * @param {number} n - The first parameter.\n * @param {number} m - The second parameter.\n * @return {number} The Euclidean modulo.\n */\nfunction euclideanModulo( n, m ) {\n\n\t// https://en.wikipedia.org/wiki/Modulo_operation\n\n\treturn ( ( n % m ) + m ) % m;\n\n}\n\n/**\n * Performs a linear mapping from range `` to range ``\n * for the given value.\n *\n * @param {number} x - The value to be mapped.\n * @param {number} a1 - Minimum value for range A.\n * @param {number} a2 - Maximum value for range A.\n * @param {number} b1 - Minimum value for range B.\n * @param {number} b2 - Maximum value for range B.\n * @return {number} The mapped value.\n */\nfunction mapLinear( x, a1, a2, b1, b2 ) {\n\n\treturn b1 + ( x - a1 ) * ( b2 - b1 ) / ( a2 - a1 );\n\n}\n\n/**\n * Returns the percentage in the closed interval `[0, 1]` of the given value\n * between the start and end point.\n *\n * @param {number} x - The start point\n * @param {number} y - The end point.\n * @param {number} value - A value between start and end.\n * @return {number} The interpolation factor.\n */\nfunction inverseLerp( x, y, value ) {\n\n\t// https://www.gamedev.net/tutorials/programming/general-and-gameplay-programming/inverse-lerp-a-super-useful-yet-often-overlooked-function-r5230/\n\n\tif ( x !== y ) {\n\n\t\treturn ( value - x ) / ( y - x );\n\n\t} else {\n\n\t\treturn 0;\n\n\t}\n\n}\n\n/**\n * Returns a value linearly interpolated from two known points based on the given interval -\n * `t = 0` will return `x` and `t = 1` will return `y`.\n *\n * @param {number} x - The start point\n * @param {number} y - The end point.\n * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n * @return {number} The interpolated value.\n */\nfunction lerp( x, y, t ) {\n\n\treturn ( 1 - t ) * x + t * y;\n\n}\n\n/**\n * Smoothly interpolate a number from `x` to `y` in a spring-like manner using a delta\n * time to maintain frame rate independent movement. For details, see\n * [Frame rate independent damping using lerp]{@link http://www.rorydriscoll.com/2016/03/07/frame-rate-independent-damping-using-lerp/}.\n *\n * @param {number} x - The current point.\n * @param {number} y - The target point.\n * @param {number} lambda - A higher lambda value will make the movement more sudden,\n * and a lower value will make the movement more gradual.\n * @param {number} dt - Delta time in seconds.\n * @return {number} The interpolated value.\n */\nfunction damp( x, y, lambda, dt ) {\n\n\treturn lerp( x, y, 1 - Math.exp( - lambda * dt ) );\n\n}\n\n/**\n * Returns a value that alternates between `0` and the given `length` parameter.\n *\n * @param {number} x - The value to pingpong.\n * @param {number} [length=1] - The positive value the function will pingpong to.\n * @return {number} The alternated value.\n */\nfunction pingpong( x, length = 1 ) {\n\n\t// https://www.desmos.com/calculator/vcsjnyz7x4\n\n\treturn length - Math.abs( euclideanModulo( x, length * 2 ) - length );\n\n}\n\n/**\n * Returns a value in the range `[0,1]` that represents the percentage that `x` has\n * moved between `min` and `max`, but smoothed or slowed down the closer `x` is to\n * the `min` and `max`.\n *\n * See [Smoothstep]{@link http://en.wikipedia.org/wiki/Smoothstep} for more details.\n *\n * @param {number} x - The value to evaluate based on its position between min and max.\n * @param {number} min - The min value. Any x value below min will be `0`.\n * @param {number} max - The max value. Any x value above max will be `1`.\n * @return {number} The alternated value.\n */\nfunction smoothstep( x, min, max ) {\n\n\tif ( x <= min ) return 0;\n\tif ( x >= max ) return 1;\n\n\tx = ( x - min ) / ( max - min );\n\n\treturn x * x * ( 3 - 2 * x );\n\n}\n\n/**\n * A [variation on smoothstep]{@link https://en.wikipedia.org/wiki/Smoothstep#Variations}\n * that has zero 1st and 2nd order derivatives at x=0 and x=1.\n *\n * @param {number} x - The value to evaluate based on its position between min and max.\n * @param {number} min - The min value. Any x value below min will be `0`.\n * @param {number} max - The max value. Any x value above max will be `1`.\n * @return {number} The alternated value.\n */\nfunction smootherstep( x, min, max ) {\n\n\tif ( x <= min ) return 0;\n\tif ( x >= max ) return 1;\n\n\tx = ( x - min ) / ( max - min );\n\n\treturn x * x * x * ( x * ( x * 6 - 15 ) + 10 );\n\n}\n\n/**\n * Returns a random integer from `` interval.\n *\n * @param {number} low - The lower value boundary.\n * @param {number} high - The upper value boundary\n * @return {number} A random integer.\n */\nfunction randInt( low, high ) {\n\n\treturn low + Math.floor( Math.random() * ( high - low + 1 ) );\n\n}\n\n/**\n * Returns a random float from `` interval.\n *\n * @param {number} low - The lower value boundary.\n * @param {number} high - The upper value boundary\n * @return {number} A random float.\n */\nfunction randFloat( low, high ) {\n\n\treturn low + Math.random() * ( high - low );\n\n}\n\n/**\n * Returns a random integer from `<-range/2, range/2>` interval.\n *\n * @param {number} range - Defines the value range.\n * @return {number} A random float.\n */\nfunction randFloatSpread( range ) {\n\n\treturn range * ( 0.5 - Math.random() );\n\n}\n\n/**\n * Returns a deterministic pseudo-random float in the interval `[0, 1]`.\n *\n * @param {number} [s] - The integer seed.\n * @return {number} A random float.\n */\nfunction seededRandom( s ) {\n\n\tif ( s !== undefined ) _seed = s;\n\n\t// Mulberry32 generator\n\n\tlet t = _seed += 0x6D2B79F5;\n\n\tt = Math.imul( t ^ t >>> 15, t | 1 );\n\n\tt ^= t + Math.imul( t ^ t >>> 7, t | 61 );\n\n\treturn ( ( t ^ t >>> 14 ) >>> 0 ) / 4294967296;\n\n}\n\n/**\n * Converts degrees to radians.\n *\n * @param {number} degrees - A value in degrees.\n * @return {number} The converted value in radians.\n */\nfunction degToRad( degrees ) {\n\n\treturn degrees * DEG2RAD;\n\n}\n\n/**\n * Converts radians to degrees.\n *\n * @param {number} radians - A value in radians.\n * @return {number} The converted value in degrees.\n */\nfunction radToDeg( radians ) {\n\n\treturn radians * RAD2DEG;\n\n}\n\n/**\n * Returns `true` if the given number is a power of two.\n *\n * @param {number} value - The value to check.\n * @return {boolean} Whether the given number is a power of two or not.\n */\nfunction isPowerOfTwo( value ) {\n\n\treturn ( value & ( value - 1 ) ) === 0 && value !== 0;\n\n}\n\n/**\n * Returns the smallest power of two that is greater than or equal to the given number.\n *\n * @param {number} value - The value to find a POT for.\n * @return {number} The smallest power of two that is greater than or equal to the given number.\n */\nfunction ceilPowerOfTwo( value ) {\n\n\treturn Math.pow( 2, Math.ceil( Math.log( value ) / Math.LN2 ) );\n\n}\n\n/**\n * Returns the largest power of two that is less than or equal to the given number.\n *\n * @param {number} value - The value to find a POT for.\n * @return {number} The largest power of two that is less than or equal to the given number.\n */\nfunction floorPowerOfTwo( value ) {\n\n\treturn Math.pow( 2, Math.floor( Math.log( value ) / Math.LN2 ) );\n\n}\n\n/**\n * Sets the given quaternion from the [Intrinsic Proper Euler Angles]{@link https://en.wikipedia.org/wiki/Euler_angles}\n * defined by the given angles and order.\n *\n * Rotations are applied to the axes in the order specified by order:\n * rotation by angle `a` is applied first, then by angle `b`, then by angle `c`.\n *\n * @param {Quaternion} q - The quaternion to set.\n * @param {number} a - The rotation applied to the first axis, in radians.\n * @param {number} b - The rotation applied to the second axis, in radians.\n * @param {number} c - The rotation applied to the third axis, in radians.\n * @param {('XYX'|'XZX'|'YXY'|'YZY'|'ZXZ'|'ZYZ')} order - A string specifying the axes order.\n */\nfunction setQuaternionFromProperEuler( q, a, b, c, order ) {\n\n\tconst cos = Math.cos;\n\tconst sin = Math.sin;\n\n\tconst c2 = cos( b / 2 );\n\tconst s2 = sin( b / 2 );\n\n\tconst c13 = cos( ( a + c ) / 2 );\n\tconst s13 = sin( ( a + c ) / 2 );\n\n\tconst c1_3 = cos( ( a - c ) / 2 );\n\tconst s1_3 = sin( ( a - c ) / 2 );\n\n\tconst c3_1 = cos( ( c - a ) / 2 );\n\tconst s3_1 = sin( ( c - a ) / 2 );\n\n\tswitch ( order ) {\n\n\t\tcase 'XYX':\n\t\t\tq.set( c2 * s13, s2 * c1_3, s2 * s1_3, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'YZY':\n\t\t\tq.set( s2 * s1_3, c2 * s13, s2 * c1_3, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'ZXZ':\n\t\t\tq.set( s2 * c1_3, s2 * s1_3, c2 * s13, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'XZX':\n\t\t\tq.set( c2 * s13, s2 * s3_1, s2 * c3_1, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'YXY':\n\t\t\tq.set( s2 * c3_1, c2 * s13, s2 * s3_1, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'ZYZ':\n\t\t\tq.set( s2 * s3_1, s2 * c3_1, c2 * s13, c2 * c13 );\n\t\t\tbreak;\n\n\t\tdefault:\n\t\t\tconsole.warn( 'THREE.MathUtils: .setQuaternionFromProperEuler() encountered an unknown order: ' + order );\n\n\t}\n\n}\n\n/**\n * Denormalizes the given value according to the given typed array.\n *\n * @param {number} value - The value to denormalize.\n * @param {TypedArray} array - The typed array that defines the data type of the value.\n * @return {number} The denormalize (float) value in the range `[0,1]`.\n */\nfunction denormalize( value, array ) {\n\n\tswitch ( array.constructor ) {\n\n\t\tcase Float32Array:\n\n\t\t\treturn value;\n\n\t\tcase Uint32Array:\n\n\t\t\treturn value / 4294967295.0;\n\n\t\tcase Uint16Array:\n\n\t\t\treturn value / 65535.0;\n\n\t\tcase Uint8Array:\n\n\t\t\treturn value / 255.0;\n\n\t\tcase Int32Array:\n\n\t\t\treturn Math.max( value / 2147483647.0, -1 );\n\n\t\tcase Int16Array:\n\n\t\t\treturn Math.max( value / 32767.0, -1 );\n\n\t\tcase Int8Array:\n\n\t\t\treturn Math.max( value / 127.0, -1 );\n\n\t\tdefault:\n\n\t\t\tthrow new Error( 'Invalid component type.' );\n\n\t}\n\n}\n\n/**\n * Normalizes the given value according to the given typed array.\n *\n * @param {number} value - The float value in the range `[0,1]` to normalize.\n * @param {TypedArray} array - The typed array that defines the data type of the value.\n * @return {number} The normalize value.\n */\nfunction normalize( value, array ) {\n\n\tswitch ( array.constructor ) {\n\n\t\tcase Float32Array:\n\n\t\t\treturn value;\n\n\t\tcase Uint32Array:\n\n\t\t\treturn Math.round( value * 4294967295.0 );\n\n\t\tcase Uint16Array:\n\n\t\t\treturn Math.round( value * 65535.0 );\n\n\t\tcase Uint8Array:\n\n\t\t\treturn Math.round( value * 255.0 );\n\n\t\tcase Int32Array:\n\n\t\t\treturn Math.round( value * 2147483647.0 );\n\n\t\tcase Int16Array:\n\n\t\t\treturn Math.round( value * 32767.0 );\n\n\t\tcase Int8Array:\n\n\t\t\treturn Math.round( value * 127.0 );\n\n\t\tdefault:\n\n\t\t\tthrow new Error( 'Invalid component type.' );\n\n\t}\n\n}\n\n/**\n * @class\n * @classdesc A collection of math utility functions.\n * @hideconstructor\n */\nconst MathUtils = {\n\tDEG2RAD: DEG2RAD,\n\tRAD2DEG: RAD2DEG,\n\t/**\n\t * Generate a [UUID]{@link https://en.wikipedia.org/wiki/Universally_unique_identifier}\n\t * (universally unique identifier).\n\t *\n\t * @static\n\t * @method\n\t * @return {string} The UUID.\n\t */\n\tgenerateUUID: generateUUID,\n\t/**\n\t * Clamps the given value between min and max.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to clamp.\n\t * @param {number} min - The min value.\n\t * @param {number} max - The max value.\n\t * @return {number} The clamped value.\n\t */\n\tclamp: clamp,\n\t/**\n\t * Computes the Euclidean modulo of the given parameters that\n\t * is `( ( n % m ) + m ) % m`.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} n - The first parameter.\n\t * @param {number} m - The second parameter.\n\t * @return {number} The Euclidean modulo.\n\t */\n\teuclideanModulo: euclideanModulo,\n\t/**\n\t * Performs a linear mapping from range `` to range ``\n\t * for the given value.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to be mapped.\n\t * @param {number} a1 - Minimum value for range A.\n\t * @param {number} a2 - Maximum value for range A.\n\t * @param {number} b1 - Minimum value for range B.\n\t * @param {number} b2 - Maximum value for range B.\n\t * @return {number} The mapped value.\n\t */\n\tmapLinear: mapLinear,\n\t/**\n\t * Returns the percentage in the closed interval `[0, 1]` of the given value\n\t * between the start and end point.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The start point\n\t * @param {number} y - The end point.\n\t * @param {number} value - A value between start and end.\n\t * @return {number} The interpolation factor.\n\t */\n\tinverseLerp: inverseLerp,\n\t/**\n\t * Returns a value linearly interpolated from two known points based on the given interval -\n\t * `t = 0` will return `x` and `t = 1` will return `y`.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The start point\n\t * @param {number} y - The end point.\n\t * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n\t * @return {number} The interpolated value.\n\t */\n\tlerp: lerp,\n\t/**\n\t * Smoothly interpolate a number from `x` to `y` in a spring-like manner using a delta\n\t * time to maintain frame rate independent movement. For details, see\n\t * [Frame rate independent damping using lerp]{@link http://www.rorydriscoll.com/2016/03/07/frame-rate-independent-damping-using-lerp/}.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The current point.\n\t * @param {number} y - The target point.\n\t * @param {number} lambda - A higher lambda value will make the movement more sudden,\n\t * and a lower value will make the movement more gradual.\n\t * @param {number} dt - Delta time in seconds.\n\t * @return {number} The interpolated value.\n\t */\n\tdamp: damp,\n\t/**\n\t * Returns a value that alternates between `0` and the given `length` parameter.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to pingpong.\n\t * @param {number} [length=1] - The positive value the function will pingpong to.\n\t * @return {number} The alternated value.\n\t */\n\tpingpong: pingpong,\n\t/**\n\t * Returns a value in the range `[0,1]` that represents the percentage that `x` has\n\t * moved between `min` and `max`, but smoothed or slowed down the closer `x` is to\n\t * the `min` and `max`.\n\t *\n\t * See [Smoothstep]{@link http://en.wikipedia.org/wiki/Smoothstep} for more details.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to evaluate based on its position between min and max.\n\t * @param {number} min - The min value. Any x value below min will be `0`.\n\t * @param {number} max - The max value. Any x value above max will be `1`.\n\t * @return {number} The alternated value.\n\t */\n\tsmoothstep: smoothstep,\n\t/**\n\t * A [variation on smoothstep]{@link https://en.wikipedia.org/wiki/Smoothstep#Variations}\n\t * that has zero 1st and 2nd order derivatives at x=0 and x=1.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to evaluate based on its position between min and max.\n\t * @param {number} min - The min value. Any x value below min will be `0`.\n\t * @param {number} max - The max value. Any x value above max will be `1`.\n\t * @return {number} The alternated value.\n\t */\n\tsmootherstep: smootherstep,\n\t/**\n\t * Returns a random integer from `` interval.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} low - The lower value boundary.\n\t * @param {number} high - The upper value boundary\n\t * @return {number} A random integer.\n\t */\n\trandInt: randInt,\n\t/**\n\t * Returns a random float from `` interval.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} low - The lower value boundary.\n\t * @param {number} high - The upper value boundary\n\t * @return {number} A random float.\n\t */\n\trandFloat: randFloat,\n\t/**\n\t * Returns a random integer from `<-range/2, range/2>` interval.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} range - Defines the value range.\n\t * @return {number} A random float.\n\t */\n\trandFloatSpread: randFloatSpread,\n\t/**\n\t * Returns a deterministic pseudo-random float in the interval `[0, 1]`.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} [s] - The integer seed.\n\t * @return {number} A random float.\n\t */\n\tseededRandom: seededRandom,\n\t/**\n\t * Converts degrees to radians.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} degrees - A value in degrees.\n\t * @return {number} The converted value in radians.\n\t */\n\tdegToRad: degToRad,\n\t/**\n\t * Converts radians to degrees.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} radians - A value in radians.\n\t * @return {number} The converted value in degrees.\n\t */\n\tradToDeg: radToDeg,\n\t/**\n\t * Returns `true` if the given number is a power of two.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to check.\n\t * @return {boolean} Whether the given number is a power of two or not.\n\t */\n\tisPowerOfTwo: isPowerOfTwo,\n\t/**\n\t * Returns the smallest power of two that is greater than or equal to the given number.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to find a POT for.\n\t * @return {number} The smallest power of two that is greater than or equal to the given number.\n\t */\n\tceilPowerOfTwo: ceilPowerOfTwo,\n\t/**\n\t * Returns the largest power of two that is less than or equal to the given number.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to find a POT for.\n\t * @return {number} The largest power of two that is less than or equal to the given number.\n\t */\n\tfloorPowerOfTwo: floorPowerOfTwo,\n\t/**\n\t * Sets the given quaternion from the [Intrinsic Proper Euler Angles]{@link https://en.wikipedia.org/wiki/Euler_angles}\n\t * defined by the given angles and order.\n\t *\n\t * Rotations are applied to the axes in the order specified by order:\n\t * rotation by angle `a` is applied first, then by angle `b`, then by angle `c`.\n\t *\n\t * @static\n\t * @method\n\t * @param {Quaternion} q - The quaternion to set.\n\t * @param {number} a - The rotation applied to the first axis, in radians.\n\t * @param {number} b - The rotation applied to the second axis, in radians.\n\t * @param {number} c - The rotation applied to the third axis, in radians.\n\t * @param {('XYX'|'XZX'|'YXY'|'YZY'|'ZXZ'|'ZYZ')} order - A string specifying the axes order.\n\t */\n\tsetQuaternionFromProperEuler: setQuaternionFromProperEuler,\n\t/**\n\t * Normalizes the given value according to the given typed array.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The float value in the range `[0,1]` to normalize.\n\t * @param {TypedArray} array - The typed array that defines the data type of the value.\n\t * @return {number} The normalize value.\n\t */\n\tnormalize: normalize,\n\t/**\n\t * Denormalizes the given value according to the given typed array.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to denormalize.\n\t * @param {TypedArray} array - The typed array that defines the data type of the value.\n\t * @return {number} The denormalize (float) value in the range `[0,1]`.\n\t */\n\tdenormalize: denormalize\n};\n\n/**\n * Class representing a 2D vector. A 2D vector is an ordered pair of numbers\n * (labeled x and y), which can be used to represent a number of things, such as:\n *\n * - A point in 2D space (i.e. a position on a plane).\n * - A direction and length across a plane. In three.js the length will\n * always be the Euclidean distance(straight-line distance) from `(0, 0)` to `(x, y)`\n * and the direction is also measured from `(0, 0)` towards `(x, y)`.\n * - Any arbitrary ordered pair of numbers.\n *\n * There are other things a 2D vector can be used to represent, such as\n * momentum vectors, complex numbers and so on, however these are the most\n * common uses in three.js.\n *\n * Iterating through a vector instance will yield its components `(x, y)` in\n * the corresponding order.\n * ```js\n * const a = new THREE.Vector2( 0, 1 );\n *\n * //no arguments; will be initialised to (0, 0)\n * const b = new THREE.Vector2( );\n *\n * const d = a.distanceTo( b );\n * ```\n */\nclass Vector2 {\n\n\t/**\n\t * Constructs a new 2D vector.\n\t *\n\t * @param {number} [x=0] - The x value of this vector.\n\t * @param {number} [y=0] - The y value of this vector.\n\t */\n\tconstructor( x = 0, y = 0 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tVector2.prototype.isVector2 = true;\n\n\t\t/**\n\t\t * The x value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.x = x;\n\n\t\t/**\n\t\t * The y value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.y = y;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector2#x}.\n\t *\n\t * @type {number}\n\t */\n\tget width() {\n\n\t\treturn this.x;\n\n\t}\n\n\tset width( value ) {\n\n\t\tthis.x = value;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector2#y}.\n\t *\n\t * @type {number}\n\t */\n\tget height() {\n\n\t\treturn this.y;\n\n\t}\n\n\tset height( value ) {\n\n\t\tthis.y = value;\n\n\t}\n\n\t/**\n\t * Sets the vector components.\n\t *\n\t * @param {number} x - The value of the x component.\n\t * @param {number} y - The value of the y component.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tset( x, y ) {\n\n\t\tthis.x = x;\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the same value.\n\t *\n\t * @param {number} scalar - The value to set for all vector components.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.x = scalar;\n\t\tthis.y = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's x component to the given value\n\t *\n\t * @param {number} x - The value to set.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetX( x ) {\n\n\t\tthis.x = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's y component to the given value\n\t *\n\t * @param {number} y - The value to set.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetY( y ) {\n\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Allows to set a vector component with an index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y.\n\t * @param {number} value - The value to set.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetComponent( index, value ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: this.x = value; break;\n\t\t\tcase 1: this.y = value; break;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the value of the vector component which matches the given index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y.\n\t * @return {number} A vector component value.\n\t */\n\tgetComponent( index ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: return this.x;\n\t\t\tcase 1: return this.y;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new vector with copied values from this instance.\n\t *\n\t * @return {Vector2} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.x, this.y );\n\n\t}\n\n\t/**\n\t * Copies the values of the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to copy.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tcopy( v ) {\n\n\t\tthis.x = v.x;\n\t\tthis.y = v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to add.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tadd( v ) {\n\n\t\tthis.x += v.x;\n\t\tthis.y += v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to all components of this instance.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.x += s;\n\t\tthis.y += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector2} a - The first vector.\n\t * @param {Vector2} b - The second vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\taddVectors( a, b ) {\n\n\t\tthis.x = a.x + b.x;\n\t\tthis.y = a.y + b.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector scaled by the given factor to this instance.\n\t *\n\t * @param {Vector2} v - The vector.\n\t * @param {number} s - The factor that scales `v`.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\taddScaledVector( v, s ) {\n\n\t\tthis.x += v.x * s;\n\t\tthis.y += v.y * s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vector from this instance.\n\t *\n\t * @param {Vector2} v - The vector to subtract.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsub( v ) {\n\n\t\tthis.x -= v.x;\n\t\tthis.y -= v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given scalar value from all components of this instance.\n\t *\n\t * @param {number} s - The scalar to subtract.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsubScalar( s ) {\n\n\t\tthis.x -= s;\n\t\tthis.y -= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector2} a - The first vector.\n\t * @param {Vector2} b - The second vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsubVectors( a, b ) {\n\n\t\tthis.x = a.x - b.x;\n\t\tthis.y = a.y - b.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vector with this instance.\n\t *\n\t * @param {Vector2} v - The vector to multiply.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmultiply( v ) {\n\n\t\tthis.x *= v.x;\n\t\tthis.y *= v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with all components of this instance.\n\t *\n\t * @param {number} scalar - The scalar to multiply.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmultiplyScalar( scalar ) {\n\n\t\tthis.x *= scalar;\n\t\tthis.y *= scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this instance by the given vector.\n\t *\n\t * @param {Vector2} v - The vector to divide.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tdivide( v ) {\n\n\t\tthis.x /= v.x;\n\t\tthis.y /= v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this vector by the given scalar.\n\t *\n\t * @param {number} scalar - The scalar to divide.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tdivideScalar( scalar ) {\n\n\t\treturn this.multiplyScalar( 1 / scalar );\n\n\t}\n\n\t/**\n\t * Multiplies this vector (with an implicit 1 as the 3rd component) by\n\t * the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix to apply.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tconst x = this.x, y = this.y;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 3 ] * y + e[ 6 ];\n\t\tthis.y = e[ 1 ] * x + e[ 4 ] * y + e[ 7 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y value is greater than the given vector's x or y\n\t * value, replace that value with the corresponding min value.\n\t *\n\t * @param {Vector2} v - The vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmin( v ) {\n\n\t\tthis.x = Math.min( this.x, v.x );\n\t\tthis.y = Math.min( this.y, v.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y value is less than the given vector's x or y\n\t * value, replace that value with the corresponding max value.\n\t *\n\t * @param {Vector2} v - The vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmax( v ) {\n\n\t\tthis.x = Math.max( this.x, v.x );\n\t\tthis.y = Math.max( this.y, v.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y value is greater than the max vector's x or y\n\t * value, it is replaced by the corresponding value.\n\t * If this vector's x or y value is less than the min vector's x or y value,\n\t * it is replaced by the corresponding value.\n\t *\n\t * @param {Vector2} min - The minimum x and y values.\n\t * @param {Vector2} max - The maximum x and y values in the desired range.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tclamp( min, max ) {\n\n\t\t// assumes min < max, componentwise\n\n\t\tthis.x = clamp( this.x, min.x, max.x );\n\t\tthis.y = clamp( this.y, min.y, max.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y values are greater than the max value, they are\n\t * replaced by the max value.\n\t * If this vector's x or y values are less than the min value, they are\n\t * replaced by the min value.\n\t *\n\t * @param {number} minVal - The minimum value the components will be clamped to.\n\t * @param {number} maxVal - The maximum value the components will be clamped to.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tclampScalar( minVal, maxVal ) {\n\n\t\tthis.x = clamp( this.x, minVal, maxVal );\n\t\tthis.y = clamp( this.y, minVal, maxVal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's length is greater than the max value, it is replaced by\n\t * the max value.\n\t * If this vector's length is less than the min value, it is replaced by the\n\t * min value.\n\t *\n\t * @param {number} min - The minimum value the vector length will be clamped to.\n\t * @param {number} max - The maximum value the vector length will be clamped to.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tclampLength( min, max ) {\n\n\t\tconst length = this.length();\n\n\t\treturn this.divideScalar( length || 1 ).multiplyScalar( clamp( length, min, max ) );\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded down to the nearest integer value.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tfloor() {\n\n\t\tthis.x = Math.floor( this.x );\n\t\tthis.y = Math.floor( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded up to the nearest integer value.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tceil() {\n\n\t\tthis.x = Math.ceil( this.x );\n\t\tthis.y = Math.ceil( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded to the nearest integer value\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tround() {\n\n\t\tthis.x = Math.round( this.x );\n\t\tthis.y = Math.round( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded towards zero (up if negative,\n\t * down if positive) to an integer value.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\troundToZero() {\n\n\t\tthis.x = Math.trunc( this.x );\n\t\tthis.y = Math.trunc( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this vector - i.e. sets x = -x and y = -y.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tnegate() {\n\n\t\tthis.x = - this.x;\n\t\tthis.y = - this.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of the given vector with this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this.x * v.x + this.y * v.y;\n\n\t}\n\n\t/**\n\t * Calculates the cross product of the given vector with this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the cross product with.\n\t * @return {number} The result of the cross product.\n\t */\n\tcross( v ) {\n\n\t\treturn this.x * v.y - this.y * v.x;\n\n\t}\n\n\t/**\n\t * Computes the square of the Euclidean length (straight-line length) from\n\t * (0, 0) to (x, y). If you are comparing the lengths of vectors, you should\n\t * compare the length squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @return {number} The square length of this vector.\n\t */\n\tlengthSq() {\n\n\t\treturn this.x * this.x + this.y * this.y;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) from (0, 0) to (x, y).\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this.x * this.x + this.y * this.y );\n\n\t}\n\n\t/**\n\t * Computes the Manhattan length of this vector.\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tmanhattanLength() {\n\n\t\treturn Math.abs( this.x ) + Math.abs( this.y );\n\n\t}\n\n\t/**\n\t * Converts this vector to a unit vector - that is, sets it equal to a vector\n\t * with the same direction as this one, but with a vector length of `1`.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tnormalize() {\n\n\t\treturn this.divideScalar( this.length() || 1 );\n\n\t}\n\n\t/**\n\t * Computes the angle in radians of this vector with respect to the positive x-axis.\n\t *\n\t * @return {number} The angle in radians.\n\t */\n\tangle() {\n\n\t\tconst angle = Math.atan2( - this.y, - this.x ) + Math.PI;\n\n\t\treturn angle;\n\n\t}\n\n\t/**\n\t * Returns the angle between the given vector and this instance in radians.\n\t *\n\t * @param {Vector2} v - The vector to compute the angle with.\n\t * @return {number} The angle in radians.\n\t */\n\tangleTo( v ) {\n\n\t\tconst denominator = Math.sqrt( this.lengthSq() * v.lengthSq() );\n\n\t\tif ( denominator === 0 ) return Math.PI / 2;\n\n\t\tconst theta = this.dot( v ) / denominator;\n\n\t\t// clamp, to handle numerical problems\n\n\t\treturn Math.acos( clamp( theta, -1, 1 ) );\n\n\t}\n\n\t/**\n\t * Computes the distance from the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the distance to.\n\t * @return {number} The distance.\n\t */\n\tdistanceTo( v ) {\n\n\t\treturn Math.sqrt( this.distanceToSquared( v ) );\n\n\t}\n\n\t/**\n\t * Computes the squared distance from the given vector to this instance.\n\t * If you are just comparing the distance with another distance, you should compare\n\t * the distance squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @param {Vector2} v - The vector to compute the squared distance to.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceToSquared( v ) {\n\n\t\tconst dx = this.x - v.x, dy = this.y - v.y;\n\t\treturn dx * dx + dy * dy;\n\n\t}\n\n\t/**\n\t * Computes the Manhattan distance from the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the Manhattan distance to.\n\t * @return {number} The Manhattan distance.\n\t */\n\tmanhattanDistanceTo( v ) {\n\n\t\treturn Math.abs( this.x - v.x ) + Math.abs( this.y - v.y );\n\n\t}\n\n\t/**\n\t * Sets this vector to a vector with the same direction as this one, but\n\t * with the specified length.\n\t *\n\t * @param {number} length - The new length of this vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetLength( length ) {\n\n\t\treturn this.normalize().multiplyScalar( length );\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vector and this instance, where\n\t * alpha is the percent distance along the line - alpha = 0 will be this\n\t * vector, and alpha = 1 will be the given one.\n\t *\n\t * @param {Vector2} v - The vector to interpolate towards.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tlerp( v, alpha ) {\n\n\t\tthis.x += ( v.x - this.x ) * alpha;\n\t\tthis.y += ( v.y - this.y ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vectors, where alpha is the percent\n\t * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n\t * be the second one. The result is stored in this instance.\n\t *\n\t * @param {Vector2} v1 - The first vector.\n\t * @param {Vector2} v2 - The second vector.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tlerpVectors( v1, v2, alpha ) {\n\n\t\tthis.x = v1.x + ( v2.x - v1.x ) * alpha;\n\t\tthis.y = v1.y + ( v2.y - v1.y ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this vector is equal with the given one.\n\t *\n\t * @param {Vector2} v - The vector to test for equality.\n\t * @return {boolean} Whether this vector is equal with the given one.\n\t */\n\tequals( v ) {\n\n\t\treturn ( ( v.x === this.x ) && ( v.y === this.y ) );\n\n\t}\n\n\t/**\n\t * Sets this vector's x value to be `array[ offset ]` and y\n\t * value to be `array[ offset + 1 ]`.\n\t *\n\t * @param {Array} array - An array holding the vector component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.x = array[ offset ];\n\t\tthis.y = array[ offset + 1 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this vector to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the vector components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The vector components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.x;\n\t\tarray[ offset + 1 ] = this.y;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this vector from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.x = attribute.getX( index );\n\t\tthis.y = attribute.getY( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates this vector around the given center by the given angle.\n\t *\n\t * @param {Vector2} center - The point around which to rotate.\n\t * @param {number} angle - The angle to rotate, in radians.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\trotateAround( center, angle ) {\n\n\t\tconst c = Math.cos( angle ), s = Math.sin( angle );\n\n\t\tconst x = this.x - center.x;\n\t\tconst y = this.y - center.y;\n\n\t\tthis.x = x * c - y * s + center.x;\n\t\tthis.y = x * s + y * c + center.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets each component of this vector to a pseudo-random value between `0` and\n\t * `1`, excluding `1`.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\trandom() {\n\n\t\tthis.x = Math.random();\n\t\tthis.y = Math.random();\n\n\t\treturn this;\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.x;\n\t\tyield this.y;\n\n\t}\n\n}\n\n/**\n * Class for representing a Quaternion. Quaternions are used in three.js to represent rotations.\n *\n * Iterating through a vector instance will yield its components `(x, y, z, w)` in\n * the corresponding order.\n *\n * Note that three.js expects Quaternions to be normalized.\n * ```js\n * const quaternion = new THREE.Quaternion();\n * quaternion.setFromAxisAngle( new THREE.Vector3( 0, 1, 0 ), Math.PI / 2 );\n *\n * const vector = new THREE.Vector3( 1, 0, 0 );\n * vector.applyQuaternion( quaternion );\n * ```\n */\nclass Quaternion {\n\n\t/**\n\t * Constructs a new quaternion.\n\t *\n\t * @param {number} [x=0] - The x value of this quaternion.\n\t * @param {number} [y=0] - The y value of this quaternion.\n\t * @param {number} [z=0] - The z value of this quaternion.\n\t * @param {number} [w=1] - The w value of this quaternion.\n\t */\n\tconstructor( x = 0, y = 0, z = 0, w = 1 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isQuaternion = true;\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._w = w;\n\n\t}\n\n\t/**\n\t * Interpolates between two quaternions via SLERP. This implementation assumes the\n\t * quaternion data are managed in flat arrays.\n\t *\n\t * @param {Array} dst - The destination array.\n\t * @param {number} dstOffset - An offset into the destination array.\n\t * @param {Array} src0 - The source array of the first quaternion.\n\t * @param {number} srcOffset0 - An offset into the first source array.\n\t * @param {Array} src1 - The source array of the second quaternion.\n\t * @param {number} srcOffset1 - An offset into the second source array.\n\t * @param {number} t - The interpolation factor in the range `[0,1]`.\n\t * @see {@link Quaternion#slerp}\n\t */\n\tstatic slerpFlat( dst, dstOffset, src0, srcOffset0, src1, srcOffset1, t ) {\n\n\t\t// fuzz-free, array-based Quaternion SLERP operation\n\n\t\tlet x0 = src0[ srcOffset0 + 0 ],\n\t\t\ty0 = src0[ srcOffset0 + 1 ],\n\t\t\tz0 = src0[ srcOffset0 + 2 ],\n\t\t\tw0 = src0[ srcOffset0 + 3 ];\n\n\t\tconst x1 = src1[ srcOffset1 + 0 ],\n\t\t\ty1 = src1[ srcOffset1 + 1 ],\n\t\t\tz1 = src1[ srcOffset1 + 2 ],\n\t\t\tw1 = src1[ srcOffset1 + 3 ];\n\n\t\tif ( t === 0 ) {\n\n\t\t\tdst[ dstOffset + 0 ] = x0;\n\t\t\tdst[ dstOffset + 1 ] = y0;\n\t\t\tdst[ dstOffset + 2 ] = z0;\n\t\t\tdst[ dstOffset + 3 ] = w0;\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( t === 1 ) {\n\n\t\t\tdst[ dstOffset + 0 ] = x1;\n\t\t\tdst[ dstOffset + 1 ] = y1;\n\t\t\tdst[ dstOffset + 2 ] = z1;\n\t\t\tdst[ dstOffset + 3 ] = w1;\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( w0 !== w1 || x0 !== x1 || y0 !== y1 || z0 !== z1 ) {\n\n\t\t\tlet s = 1 - t;\n\t\t\tconst cos = x0 * x1 + y0 * y1 + z0 * z1 + w0 * w1,\n\t\t\t\tdir = ( cos >= 0 ? 1 : -1 ),\n\t\t\t\tsqrSin = 1 - cos * cos;\n\n\t\t\t// Skip the Slerp for tiny steps to avoid numeric problems:\n\t\t\tif ( sqrSin > Number.EPSILON ) {\n\n\t\t\t\tconst sin = Math.sqrt( sqrSin ),\n\t\t\t\t\tlen = Math.atan2( sin, cos * dir );\n\n\t\t\t\ts = Math.sin( s * len ) / sin;\n\t\t\t\tt = Math.sin( t * len ) / sin;\n\n\t\t\t}\n\n\t\t\tconst tDir = t * dir;\n\n\t\t\tx0 = x0 * s + x1 * tDir;\n\t\t\ty0 = y0 * s + y1 * tDir;\n\t\t\tz0 = z0 * s + z1 * tDir;\n\t\t\tw0 = w0 * s + w1 * tDir;\n\n\t\t\t// Normalize in case we just did a lerp:\n\t\t\tif ( s === 1 - t ) {\n\n\t\t\t\tconst f = 1 / Math.sqrt( x0 * x0 + y0 * y0 + z0 * z0 + w0 * w0 );\n\n\t\t\t\tx0 *= f;\n\t\t\t\ty0 *= f;\n\t\t\t\tz0 *= f;\n\t\t\t\tw0 *= f;\n\n\t\t\t}\n\n\t\t}\n\n\t\tdst[ dstOffset ] = x0;\n\t\tdst[ dstOffset + 1 ] = y0;\n\t\tdst[ dstOffset + 2 ] = z0;\n\t\tdst[ dstOffset + 3 ] = w0;\n\n\t}\n\n\t/**\n\t * Multiplies two quaternions. This implementation assumes the quaternion data are managed\n\t * in flat arrays.\n\t *\n\t * @param {Array} dst - The destination array.\n\t * @param {number} dstOffset - An offset into the destination array.\n\t * @param {Array} src0 - The source array of the first quaternion.\n\t * @param {number} srcOffset0 - An offset into the first source array.\n\t * @param {Array} src1 - The source array of the second quaternion.\n\t * @param {number} srcOffset1 - An offset into the second source array.\n\t * @return {Array} The destination array.\n\t * @see {@link Quaternion#multiplyQuaternions}.\n\t */\n\tstatic multiplyQuaternionsFlat( dst, dstOffset, src0, srcOffset0, src1, srcOffset1 ) {\n\n\t\tconst x0 = src0[ srcOffset0 ];\n\t\tconst y0 = src0[ srcOffset0 + 1 ];\n\t\tconst z0 = src0[ srcOffset0 + 2 ];\n\t\tconst w0 = src0[ srcOffset0 + 3 ];\n\n\t\tconst x1 = src1[ srcOffset1 ];\n\t\tconst y1 = src1[ srcOffset1 + 1 ];\n\t\tconst z1 = src1[ srcOffset1 + 2 ];\n\t\tconst w1 = src1[ srcOffset1 + 3 ];\n\n\t\tdst[ dstOffset ] = x0 * w1 + w0 * x1 + y0 * z1 - z0 * y1;\n\t\tdst[ dstOffset + 1 ] = y0 * w1 + w0 * y1 + z0 * x1 - x0 * z1;\n\t\tdst[ dstOffset + 2 ] = z0 * w1 + w0 * z1 + x0 * y1 - y0 * x1;\n\t\tdst[ dstOffset + 3 ] = w0 * w1 - x0 * x1 - y0 * y1 - z0 * z1;\n\n\t\treturn dst;\n\n\t}\n\n\t/**\n\t * The x value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget x() {\n\n\t\treturn this._x;\n\n\t}\n\n\tset x( value ) {\n\n\t\tthis._x = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The y value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget y() {\n\n\t\treturn this._y;\n\n\t}\n\n\tset y( value ) {\n\n\t\tthis._y = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The z value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget z() {\n\n\t\treturn this._z;\n\n\t}\n\n\tset z( value ) {\n\n\t\tthis._z = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The w value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 1\n\t */\n\tget w() {\n\n\t\treturn this._w;\n\n\t}\n\n\tset w( value ) {\n\n\t\tthis._w = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * Sets the quaternion components.\n\t *\n\t * @param {number} x - The x value of this quaternion.\n\t * @param {number} y - The y value of this quaternion.\n\t * @param {number} z - The z value of this quaternion.\n\t * @param {number} w - The w value of this quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tset( x, y, z, w ) {\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._w = w;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new quaternion with copied values from this instance.\n\t *\n\t * @return {Quaternion} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this._x, this._y, this._z, this._w );\n\n\t}\n\n\t/**\n\t * Copies the values of the given quaternion to this instance.\n\t *\n\t * @param {Quaternion} quaternion - The quaternion to copy.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tcopy( quaternion ) {\n\n\t\tthis._x = quaternion.x;\n\t\tthis._y = quaternion.y;\n\t\tthis._z = quaternion.z;\n\t\tthis._w = quaternion.w;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion from the rotation specified by the given\n\t * Euler angles.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromEuler( euler, update = true ) {\n\n\t\tconst x = euler._x, y = euler._y, z = euler._z, order = euler._order;\n\n\t\t// http://www.mathworks.com/matlabcentral/fileexchange/\n\t\t// \t20696-function-to-convert-between-dcm-euler-angles-quaternions-and-euler-vectors/\n\t\t//\tcontent/SpinCalc.m\n\n\t\tconst cos = Math.cos;\n\t\tconst sin = Math.sin;\n\n\t\tconst c1 = cos( x / 2 );\n\t\tconst c2 = cos( y / 2 );\n\t\tconst c3 = cos( z / 2 );\n\n\t\tconst s1 = sin( x / 2 );\n\t\tconst s2 = sin( y / 2 );\n\t\tconst s3 = sin( z / 2 );\n\n\t\tswitch ( order ) {\n\n\t\t\tcase 'XYZ':\n\t\t\t\tthis._x = s1 * c2 * c3 + c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 - s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 + s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 - s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'YXZ':\n\t\t\t\tthis._x = s1 * c2 * c3 + c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 - s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 - s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 + s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZXY':\n\t\t\t\tthis._x = s1 * c2 * c3 - c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 + s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 + s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 - s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZYX':\n\t\t\t\tthis._x = s1 * c2 * c3 - c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 + s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 - s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 + s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'YZX':\n\t\t\t\tthis._x = s1 * c2 * c3 + c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 + s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 - s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 - s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'XZY':\n\t\t\t\tthis._x = s1 * c2 * c3 - c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 - s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 + s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 + s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\t\t\t\tconsole.warn( 'THREE.Quaternion: .setFromEuler() encountered an unknown order: ' + order );\n\n\t\t}\n\n\t\tif ( update === true ) this._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion from the given axis and angle.\n\t *\n\t * @param {Vector3} axis - The normalized axis.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromAxisAngle( axis, angle ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/angleToQuaternion/index.htm\n\n\t\tconst halfAngle = angle / 2, s = Math.sin( halfAngle );\n\n\t\tthis._x = axis.x * s;\n\t\tthis._y = axis.y * s;\n\t\tthis._z = axis.z * s;\n\t\tthis._w = Math.cos( halfAngle );\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion from the given rotation matrix.\n\t *\n\t * @param {Matrix4} m - A 4x4 matrix of which the upper 3x3 of matrix is a pure rotation matrix (i.e. unscaled).\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromRotationMatrix( m ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/matrixToQuaternion/index.htm\n\n\t\t// assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled)\n\n\t\tconst te = m.elements,\n\n\t\t\tm11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ],\n\t\t\tm21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ],\n\t\t\tm31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ],\n\n\t\t\ttrace = m11 + m22 + m33;\n\n\t\tif ( trace > 0 ) {\n\n\t\t\tconst s = 0.5 / Math.sqrt( trace + 1.0 );\n\n\t\t\tthis._w = 0.25 / s;\n\t\t\tthis._x = ( m32 - m23 ) * s;\n\t\t\tthis._y = ( m13 - m31 ) * s;\n\t\t\tthis._z = ( m21 - m12 ) * s;\n\n\t\t} else if ( m11 > m22 && m11 > m33 ) {\n\n\t\t\tconst s = 2.0 * Math.sqrt( 1.0 + m11 - m22 - m33 );\n\n\t\t\tthis._w = ( m32 - m23 ) / s;\n\t\t\tthis._x = 0.25 * s;\n\t\t\tthis._y = ( m12 + m21 ) / s;\n\t\t\tthis._z = ( m13 + m31 ) / s;\n\n\t\t} else if ( m22 > m33 ) {\n\n\t\t\tconst s = 2.0 * Math.sqrt( 1.0 + m22 - m11 - m33 );\n\n\t\t\tthis._w = ( m13 - m31 ) / s;\n\t\t\tthis._x = ( m12 + m21 ) / s;\n\t\t\tthis._y = 0.25 * s;\n\t\t\tthis._z = ( m23 + m32 ) / s;\n\n\t\t} else {\n\n\t\t\tconst s = 2.0 * Math.sqrt( 1.0 + m33 - m11 - m22 );\n\n\t\t\tthis._w = ( m21 - m12 ) / s;\n\t\t\tthis._x = ( m13 + m31 ) / s;\n\t\t\tthis._y = ( m23 + m32 ) / s;\n\t\t\tthis._z = 0.25 * s;\n\n\t\t}\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion to the rotation required to rotate the direction vector\n\t * `vFrom` to the direction vector `vTo`.\n\t *\n\t * @param {Vector3} vFrom - The first (normalized) direction vector.\n\t * @param {Vector3} vTo - The second (normalized) direction vector.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromUnitVectors( vFrom, vTo ) {\n\n\t\t// assumes direction vectors vFrom and vTo are normalized\n\n\t\tlet r = vFrom.dot( vTo ) + 1;\n\n\t\tif ( r < 1e-8 ) { // the epsilon value has been discussed in #31286\n\n\t\t\t// vFrom and vTo point in opposite directions\n\n\t\t\tr = 0;\n\n\t\t\tif ( Math.abs( vFrom.x ) > Math.abs( vFrom.z ) ) {\n\n\t\t\t\tthis._x = - vFrom.y;\n\t\t\t\tthis._y = vFrom.x;\n\t\t\t\tthis._z = 0;\n\t\t\t\tthis._w = r;\n\n\t\t\t} else {\n\n\t\t\t\tthis._x = 0;\n\t\t\t\tthis._y = - vFrom.z;\n\t\t\t\tthis._z = vFrom.y;\n\t\t\t\tthis._w = r;\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\t// crossVectors( vFrom, vTo ); // inlined to avoid cyclic dependency on Vector3\n\n\t\t\tthis._x = vFrom.y * vTo.z - vFrom.z * vTo.y;\n\t\t\tthis._y = vFrom.z * vTo.x - vFrom.x * vTo.z;\n\t\t\tthis._z = vFrom.x * vTo.y - vFrom.y * vTo.x;\n\t\t\tthis._w = r;\n\n\t\t}\n\n\t\treturn this.normalize();\n\n\t}\n\n\t/**\n\t * Returns the angle between this quaternion and the given one in radians.\n\t *\n\t * @param {Quaternion} q - The quaternion to compute the angle with.\n\t * @return {number} The angle in radians.\n\t */\n\tangleTo( q ) {\n\n\t\treturn 2 * Math.acos( Math.abs( clamp( this.dot( q ), -1, 1 ) ) );\n\n\t}\n\n\t/**\n\t * Rotates this quaternion by a given angular step to the given quaternion.\n\t * The method ensures that the final quaternion will not overshoot `q`.\n\t *\n\t * @param {Quaternion} q - The target quaternion.\n\t * @param {number} step - The angular step in radians.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\trotateTowards( q, step ) {\n\n\t\tconst angle = this.angleTo( q );\n\n\t\tif ( angle === 0 ) return this;\n\n\t\tconst t = Math.min( 1, step / angle );\n\n\t\tthis.slerp( q, t );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion to the identity quaternion; that is, to the\n\t * quaternion that represents \"no rotation\".\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tidentity() {\n\n\t\treturn this.set( 0, 0, 0, 1 );\n\n\t}\n\n\t/**\n\t * Inverts this quaternion via {@link Quaternion#conjugate}. The\n\t * quaternion is assumed to have unit length.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tinvert() {\n\n\t\treturn this.conjugate();\n\n\t}\n\n\t/**\n\t * Returns the rotational conjugate of this quaternion. The conjugate of a\n\t * quaternion represents the same rotation in the opposite direction about\n\t * the rotational axis.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tconjugate() {\n\n\t\tthis._x *= -1;\n\t\tthis._y *= -1;\n\t\tthis._z *= -1;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of this quaternion and the given one.\n\t *\n\t * @param {Quaternion} v - The quaternion to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this._x * v._x + this._y * v._y + this._z * v._z + this._w * v._w;\n\n\t}\n\n\t/**\n\t * Computes the squared Euclidean length (straight-line length) of this quaternion,\n\t * considered as a 4 dimensional vector. This can be useful if you are comparing the\n\t * lengths of two quaternions, as this is a slightly more efficient calculation than\n\t * {@link Quaternion#length}.\n\t *\n\t * @return {number} The squared Euclidean length.\n\t */\n\tlengthSq() {\n\n\t\treturn this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) of this quaternion,\n\t * considered as a 4 dimensional vector.\n\t *\n\t * @return {number} The Euclidean length.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w );\n\n\t}\n\n\t/**\n\t * Normalizes this quaternion - that is, calculated the quaternion that performs\n\t * the same rotation as this one, but has a length equal to `1`.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tnormalize() {\n\n\t\tlet l = this.length();\n\n\t\tif ( l === 0 ) {\n\n\t\t\tthis._x = 0;\n\t\t\tthis._y = 0;\n\t\t\tthis._z = 0;\n\t\t\tthis._w = 1;\n\n\t\t} else {\n\n\t\t\tl = 1 / l;\n\n\t\t\tthis._x = this._x * l;\n\t\t\tthis._y = this._y * l;\n\t\t\tthis._z = this._z * l;\n\t\t\tthis._w = this._w * l;\n\n\t\t}\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies this quaternion by the given one.\n\t *\n\t * @param {Quaternion} q - The quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tmultiply( q ) {\n\n\t\treturn this.multiplyQuaternions( this, q );\n\n\t}\n\n\t/**\n\t * Pre-multiplies this quaternion by the given one.\n\t *\n\t * @param {Quaternion} q - The quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tpremultiply( q ) {\n\n\t\treturn this.multiplyQuaternions( q, this );\n\n\t}\n\n\t/**\n\t * Multiplies the given quaternions and stores the result in this instance.\n\t *\n\t * @param {Quaternion} a - The first quaternion.\n\t * @param {Quaternion} b - The second quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tmultiplyQuaternions( a, b ) {\n\n\t\t// from http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/code/index.htm\n\n\t\tconst qax = a._x, qay = a._y, qaz = a._z, qaw = a._w;\n\t\tconst qbx = b._x, qby = b._y, qbz = b._z, qbw = b._w;\n\n\t\tthis._x = qax * qbw + qaw * qbx + qay * qbz - qaz * qby;\n\t\tthis._y = qay * qbw + qaw * qby + qaz * qbx - qax * qbz;\n\t\tthis._z = qaz * qbw + qaw * qbz + qax * qby - qay * qbx;\n\t\tthis._w = qaw * qbw - qax * qbx - qay * qby - qaz * qbz;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs a spherical linear interpolation between quaternions.\n\t *\n\t * @param {Quaternion} qb - The target quaternion.\n\t * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tslerp( qb, t ) {\n\n\t\tif ( t === 0 ) return this;\n\t\tif ( t === 1 ) return this.copy( qb );\n\n\t\tconst x = this._x, y = this._y, z = this._z, w = this._w;\n\n\t\t// http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/slerp/\n\n\t\tlet cosHalfTheta = w * qb._w + x * qb._x + y * qb._y + z * qb._z;\n\n\t\tif ( cosHalfTheta < 0 ) {\n\n\t\t\tthis._w = - qb._w;\n\t\t\tthis._x = - qb._x;\n\t\t\tthis._y = - qb._y;\n\t\t\tthis._z = - qb._z;\n\n\t\t\tcosHalfTheta = - cosHalfTheta;\n\n\t\t} else {\n\n\t\t\tthis.copy( qb );\n\n\t\t}\n\n\t\tif ( cosHalfTheta >= 1.0 ) {\n\n\t\t\tthis._w = w;\n\t\t\tthis._x = x;\n\t\t\tthis._y = y;\n\t\t\tthis._z = z;\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst sqrSinHalfTheta = 1.0 - cosHalfTheta * cosHalfTheta;\n\n\t\tif ( sqrSinHalfTheta <= Number.EPSILON ) {\n\n\t\t\tconst s = 1 - t;\n\t\t\tthis._w = s * w + t * this._w;\n\t\t\tthis._x = s * x + t * this._x;\n\t\t\tthis._y = s * y + t * this._y;\n\t\t\tthis._z = s * z + t * this._z;\n\n\t\t\tthis.normalize(); // normalize calls _onChangeCallback()\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst sinHalfTheta = Math.sqrt( sqrSinHalfTheta );\n\t\tconst halfTheta = Math.atan2( sinHalfTheta, cosHalfTheta );\n\t\tconst ratioA = Math.sin( ( 1 - t ) * halfTheta ) / sinHalfTheta,\n\t\t\tratioB = Math.sin( t * halfTheta ) / sinHalfTheta;\n\n\t\tthis._w = ( w * ratioA + this._w * ratioB );\n\t\tthis._x = ( x * ratioA + this._x * ratioB );\n\t\tthis._y = ( y * ratioA + this._y * ratioB );\n\t\tthis._z = ( z * ratioA + this._z * ratioB );\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs a spherical linear interpolation between the given quaternions\n\t * and stores the result in this quaternion.\n\t *\n\t * @param {Quaternion} qa - The source quaternion.\n\t * @param {Quaternion} qb - The target quaternion.\n\t * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tslerpQuaternions( qa, qb, t ) {\n\n\t\treturn this.copy( qa ).slerp( qb, t );\n\n\t}\n\n\t/**\n\t * Sets this quaternion to a uniformly random, normalized quaternion.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\trandom() {\n\n\t\t// Ken Shoemake\n\t\t// Uniform random rotations\n\t\t// D. Kirk, editor, Graphics Gems III, pages 124-132. Academic Press, New York, 1992.\n\n\t\tconst theta1 = 2 * Math.PI * Math.random();\n\t\tconst theta2 = 2 * Math.PI * Math.random();\n\n\t\tconst x0 = Math.random();\n\t\tconst r1 = Math.sqrt( 1 - x0 );\n\t\tconst r2 = Math.sqrt( x0 );\n\n\t\treturn this.set(\n\t\t\tr1 * Math.sin( theta1 ),\n\t\t\tr1 * Math.cos( theta1 ),\n\t\t\tr2 * Math.sin( theta2 ),\n\t\t\tr2 * Math.cos( theta2 ),\n\t\t);\n\n\t}\n\n\t/**\n\t * Returns `true` if this quaternion is equal with the given one.\n\t *\n\t * @param {Quaternion} quaternion - The quaternion to test for equality.\n\t * @return {boolean} Whether this quaternion is equal with the given one.\n\t */\n\tequals( quaternion ) {\n\n\t\treturn ( quaternion._x === this._x ) && ( quaternion._y === this._y ) && ( quaternion._z === this._z ) && ( quaternion._w === this._w );\n\n\t}\n\n\t/**\n\t * Sets this quaternion's components from the given array.\n\t *\n\t * @param {Array} array - An array holding the quaternion component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis._x = array[ offset ];\n\t\tthis._y = array[ offset + 1 ];\n\t\tthis._z = array[ offset + 2 ];\n\t\tthis._w = array[ offset + 3 ];\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this quaternion to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the quaternion components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The quaternion components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this._x;\n\t\tarray[ offset + 1 ] = this._y;\n\t\tarray[ offset + 2 ] = this._z;\n\t\tarray[ offset + 3 ] = this._w;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this quaternion from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding quaternion data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis._x = attribute.getX( index );\n\t\tthis._y = attribute.getY( index );\n\t\tthis._z = attribute.getZ( index );\n\t\tthis._w = attribute.getW( index );\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This methods defines the serialization result of this class. Returns the\n\t * numerical elements of this quaternion in an array of format `[x, y, z, w]`.\n\t *\n\t * @return {Array} The serialized quaternion.\n\t */\n\ttoJSON() {\n\n\t\treturn this.toArray();\n\n\t}\n\n\t_onChange( callback ) {\n\n\t\tthis._onChangeCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t_onChangeCallback() {}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this._x;\n\t\tyield this._y;\n\t\tyield this._z;\n\t\tyield this._w;\n\n\t}\n\n}\n\n/**\n * Class representing a 3D vector. A 3D vector is an ordered triplet of numbers\n * (labeled x, y and z), which can be used to represent a number of things, such as:\n *\n * - A point in 3D space.\n * - A direction and length in 3D space. In three.js the length will\n * always be the Euclidean distance(straight-line distance) from `(0, 0, 0)` to `(x, y, z)`\n * and the direction is also measured from `(0, 0, 0)` towards `(x, y, z)`.\n * - Any arbitrary ordered triplet of numbers.\n *\n * There are other things a 3D vector can be used to represent, such as\n * momentum vectors and so on, however these are the most\n * common uses in three.js.\n *\n * Iterating through a vector instance will yield its components `(x, y, z)` in\n * the corresponding order.\n * ```js\n * const a = new THREE.Vector3( 0, 1, 0 );\n *\n * //no arguments; will be initialised to (0, 0, 0)\n * const b = new THREE.Vector3( );\n *\n * const d = a.distanceTo( b );\n * ```\n */\nclass Vector3 {\n\n\t/**\n\t * Constructs a new 3D vector.\n\t *\n\t * @param {number} [x=0] - The x value of this vector.\n\t * @param {number} [y=0] - The y value of this vector.\n\t * @param {number} [z=0] - The z value of this vector.\n\t */\n\tconstructor( x = 0, y = 0, z = 0 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tVector3.prototype.isVector3 = true;\n\n\t\t/**\n\t\t * The x value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.x = x;\n\n\t\t/**\n\t\t * The y value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.y = y;\n\n\t\t/**\n\t\t * The z value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.z = z;\n\n\t}\n\n\t/**\n\t * Sets the vector components.\n\t *\n\t * @param {number} x - The value of the x component.\n\t * @param {number} y - The value of the y component.\n\t * @param {number} z - The value of the z component.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tset( x, y, z ) {\n\n\t\tif ( z === undefined ) z = this.z; // sprite.scale.set(x,y)\n\n\t\tthis.x = x;\n\t\tthis.y = y;\n\t\tthis.z = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the same value.\n\t *\n\t * @param {number} scalar - The value to set for all vector components.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.x = scalar;\n\t\tthis.y = scalar;\n\t\tthis.z = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's x component to the given value\n\t *\n\t * @param {number} x - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetX( x ) {\n\n\t\tthis.x = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's y component to the given value\n\t *\n\t * @param {number} y - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetY( y ) {\n\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's z component to the given value\n\t *\n\t * @param {number} z - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetZ( z ) {\n\n\t\tthis.z = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Allows to set a vector component with an index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n\t * @param {number} value - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetComponent( index, value ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: this.x = value; break;\n\t\t\tcase 1: this.y = value; break;\n\t\t\tcase 2: this.z = value; break;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the value of the vector component which matches the given index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n\t * @return {number} A vector component value.\n\t */\n\tgetComponent( index ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: return this.x;\n\t\t\tcase 1: return this.y;\n\t\t\tcase 2: return this.z;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new vector with copied values from this instance.\n\t *\n\t * @return {Vector3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.x, this.y, this.z );\n\n\t}\n\n\t/**\n\t * Copies the values of the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to copy.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tcopy( v ) {\n\n\t\tthis.x = v.x;\n\t\tthis.y = v.y;\n\t\tthis.z = v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to add.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tadd( v ) {\n\n\t\tthis.x += v.x;\n\t\tthis.y += v.y;\n\t\tthis.z += v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to all components of this instance.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.x += s;\n\t\tthis.y += s;\n\t\tthis.z += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\taddVectors( a, b ) {\n\n\t\tthis.x = a.x + b.x;\n\t\tthis.y = a.y + b.y;\n\t\tthis.z = a.z + b.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector scaled by the given factor to this instance.\n\t *\n\t * @param {Vector3|Vector4} v - The vector.\n\t * @param {number} s - The factor that scales `v`.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\taddScaledVector( v, s ) {\n\n\t\tthis.x += v.x * s;\n\t\tthis.y += v.y * s;\n\t\tthis.z += v.z * s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vector from this instance.\n\t *\n\t * @param {Vector3} v - The vector to subtract.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsub( v ) {\n\n\t\tthis.x -= v.x;\n\t\tthis.y -= v.y;\n\t\tthis.z -= v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given scalar value from all components of this instance.\n\t *\n\t * @param {number} s - The scalar to subtract.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsubScalar( s ) {\n\n\t\tthis.x -= s;\n\t\tthis.y -= s;\n\t\tthis.z -= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsubVectors( a, b ) {\n\n\t\tthis.x = a.x - b.x;\n\t\tthis.y = a.y - b.y;\n\t\tthis.z = a.z - b.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vector with this instance.\n\t *\n\t * @param {Vector3} v - The vector to multiply.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmultiply( v ) {\n\n\t\tthis.x *= v.x;\n\t\tthis.y *= v.y;\n\t\tthis.z *= v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with all components of this instance.\n\t *\n\t * @param {number} scalar - The scalar to multiply.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmultiplyScalar( scalar ) {\n\n\t\tthis.x *= scalar;\n\t\tthis.y *= scalar;\n\t\tthis.z *= scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmultiplyVectors( a, b ) {\n\n\t\tthis.x = a.x * b.x;\n\t\tthis.y = a.y * b.y;\n\t\tthis.z = a.z * b.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given Euler rotation to this vector.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyEuler( euler ) {\n\n\t\treturn this.applyQuaternion( _quaternion$4.setFromEuler( euler ) );\n\n\t}\n\n\t/**\n\t * Applies a rotation specified by an axis and an angle to this vector.\n\t *\n\t * @param {Vector3} axis - A normalized vector representing the rotation axis.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyAxisAngle( axis, angle ) {\n\n\t\treturn this.applyQuaternion( _quaternion$4.setFromAxisAngle( axis, angle ) );\n\n\t}\n\n\t/**\n\t * Multiplies this vector with the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The 3x3 matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tconst x = this.x, y = this.y, z = this.z;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 3 ] * y + e[ 6 ] * z;\n\t\tthis.y = e[ 1 ] * x + e[ 4 ] * y + e[ 7 ] * z;\n\t\tthis.z = e[ 2 ] * x + e[ 5 ] * y + e[ 8 ] * z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies this vector by the given normal matrix and normalizes\n\t * the result.\n\t *\n\t * @param {Matrix3} m - The normal matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyNormalMatrix( m ) {\n\n\t\treturn this.applyMatrix3( m ).normalize();\n\n\t}\n\n\t/**\n\t * Multiplies this vector (with an implicit 1 in the 4th dimension) by m, and\n\t * divides by perspective.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tconst x = this.x, y = this.y, z = this.z;\n\t\tconst e = m.elements;\n\n\t\tconst w = 1 / ( e[ 3 ] * x + e[ 7 ] * y + e[ 11 ] * z + e[ 15 ] );\n\n\t\tthis.x = ( e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z + e[ 12 ] ) * w;\n\t\tthis.y = ( e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z + e[ 13 ] ) * w;\n\t\tthis.z = ( e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z + e[ 14 ] ) * w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given Quaternion to this vector.\n\t *\n\t * @param {Quaternion} q - The Quaternion.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyQuaternion( q ) {\n\n\t\t// quaternion q is assumed to have unit length\n\n\t\tconst vx = this.x, vy = this.y, vz = this.z;\n\t\tconst qx = q.x, qy = q.y, qz = q.z, qw = q.w;\n\n\t\t// t = 2 * cross( q.xyz, v );\n\t\tconst tx = 2 * ( qy * vz - qz * vy );\n\t\tconst ty = 2 * ( qz * vx - qx * vz );\n\t\tconst tz = 2 * ( qx * vy - qy * vx );\n\n\t\t// v + q.w * t + cross( q.xyz, t );\n\t\tthis.x = vx + qw * tx + qy * tz - qz * ty;\n\t\tthis.y = vy + qw * ty + qz * tx - qx * tz;\n\t\tthis.z = vz + qw * tz + qx * ty - qy * tx;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Projects this vector from world space into the camera's normalized\n\t * device coordinate (NDC) space.\n\t *\n\t * @param {Camera} camera - The camera.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tproject( camera ) {\n\n\t\treturn this.applyMatrix4( camera.matrixWorldInverse ).applyMatrix4( camera.projectionMatrix );\n\n\t}\n\n\t/**\n\t * Unprojects this vector from the camera's normalized device coordinate (NDC)\n\t * space into world space.\n\t *\n\t * @param {Camera} camera - The camera.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tunproject( camera ) {\n\n\t\treturn this.applyMatrix4( camera.projectionMatrixInverse ).applyMatrix4( camera.matrixWorld );\n\n\t}\n\n\t/**\n\t * Transforms the direction of this vector by a matrix (the upper left 3 x 3\n\t * subset of the given 4x4 matrix and then normalizes the result.\n\t *\n\t * @param {Matrix4} m - The matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\ttransformDirection( m ) {\n\n\t\t// input: THREE.Matrix4 affine matrix\n\t\t// vector interpreted as a direction\n\n\t\tconst x = this.x, y = this.y, z = this.z;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z;\n\t\tthis.y = e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z;\n\t\tthis.z = e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z;\n\n\t\treturn this.normalize();\n\n\t}\n\n\t/**\n\t * Divides this instance by the given vector.\n\t *\n\t * @param {Vector3} v - The vector to divide.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tdivide( v ) {\n\n\t\tthis.x /= v.x;\n\t\tthis.y /= v.y;\n\t\tthis.z /= v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this vector by the given scalar.\n\t *\n\t * @param {number} scalar - The scalar to divide.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tdivideScalar( scalar ) {\n\n\t\treturn this.multiplyScalar( 1 / scalar );\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z value is greater than the given vector's x, y or z\n\t * value, replace that value with the corresponding min value.\n\t *\n\t * @param {Vector3} v - The vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmin( v ) {\n\n\t\tthis.x = Math.min( this.x, v.x );\n\t\tthis.y = Math.min( this.y, v.y );\n\t\tthis.z = Math.min( this.z, v.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z value is less than the given vector's x, y or z\n\t * value, replace that value with the corresponding max value.\n\t *\n\t * @param {Vector3} v - The vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmax( v ) {\n\n\t\tthis.x = Math.max( this.x, v.x );\n\t\tthis.y = Math.max( this.y, v.y );\n\t\tthis.z = Math.max( this.z, v.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z value is greater than the max vector's x, y or z\n\t * value, it is replaced by the corresponding value.\n\t * If this vector's x, y or z value is less than the min vector's x, y or z value,\n\t * it is replaced by the corresponding value.\n\t *\n\t * @param {Vector3} min - The minimum x, y and z values.\n\t * @param {Vector3} max - The maximum x, y and z values in the desired range.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tclamp( min, max ) {\n\n\t\t// assumes min < max, componentwise\n\n\t\tthis.x = clamp( this.x, min.x, max.x );\n\t\tthis.y = clamp( this.y, min.y, max.y );\n\t\tthis.z = clamp( this.z, min.z, max.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z values are greater than the max value, they are\n\t * replaced by the max value.\n\t * If this vector's x, y or z values are less than the min value, they are\n\t * replaced by the min value.\n\t *\n\t * @param {number} minVal - The minimum value the components will be clamped to.\n\t * @param {number} maxVal - The maximum value the components will be clamped to.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tclampScalar( minVal, maxVal ) {\n\n\t\tthis.x = clamp( this.x, minVal, maxVal );\n\t\tthis.y = clamp( this.y, minVal, maxVal );\n\t\tthis.z = clamp( this.z, minVal, maxVal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's length is greater than the max value, it is replaced by\n\t * the max value.\n\t * If this vector's length is less than the min value, it is replaced by the\n\t * min value.\n\t *\n\t * @param {number} min - The minimum value the vector length will be clamped to.\n\t * @param {number} max - The maximum value the vector length will be clamped to.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tclampLength( min, max ) {\n\n\t\tconst length = this.length();\n\n\t\treturn this.divideScalar( length || 1 ).multiplyScalar( clamp( length, min, max ) );\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded down to the nearest integer value.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tfloor() {\n\n\t\tthis.x = Math.floor( this.x );\n\t\tthis.y = Math.floor( this.y );\n\t\tthis.z = Math.floor( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded up to the nearest integer value.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tceil() {\n\n\t\tthis.x = Math.ceil( this.x );\n\t\tthis.y = Math.ceil( this.y );\n\t\tthis.z = Math.ceil( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded to the nearest integer value\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tround() {\n\n\t\tthis.x = Math.round( this.x );\n\t\tthis.y = Math.round( this.y );\n\t\tthis.z = Math.round( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded towards zero (up if negative,\n\t * down if positive) to an integer value.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\troundToZero() {\n\n\t\tthis.x = Math.trunc( this.x );\n\t\tthis.y = Math.trunc( this.y );\n\t\tthis.z = Math.trunc( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this vector - i.e. sets x = -x, y = -y and z = -z.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tnegate() {\n\n\t\tthis.x = - this.x;\n\t\tthis.y = - this.y;\n\t\tthis.z = - this.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of the given vector with this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this.x * v.x + this.y * v.y + this.z * v.z;\n\n\t}\n\n\t// TODO lengthSquared?\n\n\t/**\n\t * Computes the square of the Euclidean length (straight-line length) from\n\t * (0, 0, 0) to (x, y, z). If you are comparing the lengths of vectors, you should\n\t * compare the length squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @return {number} The square length of this vector.\n\t */\n\tlengthSq() {\n\n\t\treturn this.x * this.x + this.y * this.y + this.z * this.z;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) from (0, 0, 0) to (x, y, z).\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this.x * this.x + this.y * this.y + this.z * this.z );\n\n\t}\n\n\t/**\n\t * Computes the Manhattan length of this vector.\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tmanhattanLength() {\n\n\t\treturn Math.abs( this.x ) + Math.abs( this.y ) + Math.abs( this.z );\n\n\t}\n\n\t/**\n\t * Converts this vector to a unit vector - that is, sets it equal to a vector\n\t * with the same direction as this one, but with a vector length of `1`.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tnormalize() {\n\n\t\treturn this.divideScalar( this.length() || 1 );\n\n\t}\n\n\t/**\n\t * Sets this vector to a vector with the same direction as this one, but\n\t * with the specified length.\n\t *\n\t * @param {number} length - The new length of this vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetLength( length ) {\n\n\t\treturn this.normalize().multiplyScalar( length );\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vector and this instance, where\n\t * alpha is the percent distance along the line - alpha = 0 will be this\n\t * vector, and alpha = 1 will be the given one.\n\t *\n\t * @param {Vector3} v - The vector to interpolate towards.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tlerp( v, alpha ) {\n\n\t\tthis.x += ( v.x - this.x ) * alpha;\n\t\tthis.y += ( v.y - this.y ) * alpha;\n\t\tthis.z += ( v.z - this.z ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vectors, where alpha is the percent\n\t * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n\t * be the second one. The result is stored in this instance.\n\t *\n\t * @param {Vector3} v1 - The first vector.\n\t * @param {Vector3} v2 - The second vector.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tlerpVectors( v1, v2, alpha ) {\n\n\t\tthis.x = v1.x + ( v2.x - v1.x ) * alpha;\n\t\tthis.y = v1.y + ( v2.y - v1.y ) * alpha;\n\t\tthis.z = v1.z + ( v2.z - v1.z ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the cross product of the given vector with this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the cross product with.\n\t * @return {Vector3} The result of the cross product.\n\t */\n\tcross( v ) {\n\n\t\treturn this.crossVectors( this, v );\n\n\t}\n\n\t/**\n\t * Calculates the cross product of the given vectors and stores the result\n\t * in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tcrossVectors( a, b ) {\n\n\t\tconst ax = a.x, ay = a.y, az = a.z;\n\t\tconst bx = b.x, by = b.y, bz = b.z;\n\n\t\tthis.x = ay * bz - az * by;\n\t\tthis.y = az * bx - ax * bz;\n\t\tthis.z = ax * by - ay * bx;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Projects this vector onto the given one.\n\t *\n\t * @param {Vector3} v - The vector to project to.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tprojectOnVector( v ) {\n\n\t\tconst denominator = v.lengthSq();\n\n\t\tif ( denominator === 0 ) return this.set( 0, 0, 0 );\n\n\t\tconst scalar = v.dot( this ) / denominator;\n\n\t\treturn this.copy( v ).multiplyScalar( scalar );\n\n\t}\n\n\t/**\n\t * Projects this vector onto a plane by subtracting this\n\t * vector projected onto the plane's normal from this vector.\n\t *\n\t * @param {Vector3} planeNormal - The plane normal.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tprojectOnPlane( planeNormal ) {\n\n\t\t_vector$c.copy( this ).projectOnVector( planeNormal );\n\n\t\treturn this.sub( _vector$c );\n\n\t}\n\n\t/**\n\t * Reflects this vector off a plane orthogonal to the given normal vector.\n\t *\n\t * @param {Vector3} normal - The (normalized) normal vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\treflect( normal ) {\n\n\t\treturn this.sub( _vector$c.copy( normal ).multiplyScalar( 2 * this.dot( normal ) ) );\n\n\t}\n\t/**\n\t * Returns the angle between the given vector and this instance in radians.\n\t *\n\t * @param {Vector3} v - The vector to compute the angle with.\n\t * @return {number} The angle in radians.\n\t */\n\tangleTo( v ) {\n\n\t\tconst denominator = Math.sqrt( this.lengthSq() * v.lengthSq() );\n\n\t\tif ( denominator === 0 ) return Math.PI / 2;\n\n\t\tconst theta = this.dot( v ) / denominator;\n\n\t\t// clamp, to handle numerical problems\n\n\t\treturn Math.acos( clamp( theta, -1, 1 ) );\n\n\t}\n\n\t/**\n\t * Computes the distance from the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the distance to.\n\t * @return {number} The distance.\n\t */\n\tdistanceTo( v ) {\n\n\t\treturn Math.sqrt( this.distanceToSquared( v ) );\n\n\t}\n\n\t/**\n\t * Computes the squared distance from the given vector to this instance.\n\t * If you are just comparing the distance with another distance, you should compare\n\t * the distance squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @param {Vector3} v - The vector to compute the squared distance to.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceToSquared( v ) {\n\n\t\tconst dx = this.x - v.x, dy = this.y - v.y, dz = this.z - v.z;\n\n\t\treturn dx * dx + dy * dy + dz * dz;\n\n\t}\n\n\t/**\n\t * Computes the Manhattan distance from the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the Manhattan distance to.\n\t * @return {number} The Manhattan distance.\n\t */\n\tmanhattanDistanceTo( v ) {\n\n\t\treturn Math.abs( this.x - v.x ) + Math.abs( this.y - v.y ) + Math.abs( this.z - v.z );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given spherical coordinates.\n\t *\n\t * @param {Spherical} s - The spherical coordinates.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromSpherical( s ) {\n\n\t\treturn this.setFromSphericalCoords( s.radius, s.phi, s.theta );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given spherical coordinates.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} phi - The phi angle in radians.\n\t * @param {number} theta - The theta angle in radians.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromSphericalCoords( radius, phi, theta ) {\n\n\t\tconst sinPhiRadius = Math.sin( phi ) * radius;\n\n\t\tthis.x = sinPhiRadius * Math.sin( theta );\n\t\tthis.y = Math.cos( phi ) * radius;\n\t\tthis.z = sinPhiRadius * Math.cos( theta );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given cylindrical coordinates.\n\t *\n\t * @param {Cylindrical} c - The cylindrical coordinates.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromCylindrical( c ) {\n\n\t\treturn this.setFromCylindricalCoords( c.radius, c.theta, c.y );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given cylindrical coordinates.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} theta - The theta angle in radians.\n\t * @param {number} y - The y value.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromCylindricalCoords( radius, theta, y ) {\n\n\t\tthis.x = radius * Math.sin( theta );\n\t\tthis.y = y;\n\t\tthis.z = radius * Math.cos( theta );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the position elements of the\n\t * given transformation matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrixPosition( m ) {\n\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 12 ];\n\t\tthis.y = e[ 13 ];\n\t\tthis.z = e[ 14 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the scale elements of the\n\t * given transformation matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrixScale( m ) {\n\n\t\tconst sx = this.setFromMatrixColumn( m, 0 ).length();\n\t\tconst sy = this.setFromMatrixColumn( m, 1 ).length();\n\t\tconst sz = this.setFromMatrixColumn( m, 2 ).length();\n\n\t\tthis.x = sx;\n\t\tthis.y = sy;\n\t\tthis.z = sz;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components from the specified matrix column.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @param {number} index - The column index.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrixColumn( m, index ) {\n\n\t\treturn this.fromArray( m.elements, index * 4 );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the specified matrix column.\n\t *\n\t * @param {Matrix3} m - The 3x3 matrix.\n\t * @param {number} index - The column index.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrix3Column( m, index ) {\n\n\t\treturn this.fromArray( m.elements, index * 3 );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given Euler angles.\n\t *\n\t * @param {Euler} e - The Euler angles to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromEuler( e ) {\n\n\t\tthis.x = e._x;\n\t\tthis.y = e._y;\n\t\tthis.z = e._z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components from the RGB components of the\n\t * given color.\n\t *\n\t * @param {Color} c - The color to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromColor( c ) {\n\n\t\tthis.x = c.r;\n\t\tthis.y = c.g;\n\t\tthis.z = c.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this vector is equal with the given one.\n\t *\n\t * @param {Vector3} v - The vector to test for equality.\n\t * @return {boolean} Whether this vector is equal with the given one.\n\t */\n\tequals( v ) {\n\n\t\treturn ( ( v.x === this.x ) && ( v.y === this.y ) && ( v.z === this.z ) );\n\n\t}\n\n\t/**\n\t * Sets this vector's x value to be `array[ offset ]`, y value to be `array[ offset + 1 ]`\n\t * and z value to be `array[ offset + 2 ]`.\n\t *\n\t * @param {Array} array - An array holding the vector component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.x = array[ offset ];\n\t\tthis.y = array[ offset + 1 ];\n\t\tthis.z = array[ offset + 2 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this vector to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the vector components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The vector components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.x;\n\t\tarray[ offset + 1 ] = this.y;\n\t\tarray[ offset + 2 ] = this.z;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this vector from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.x = attribute.getX( index );\n\t\tthis.y = attribute.getY( index );\n\t\tthis.z = attribute.getZ( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets each component of this vector to a pseudo-random value between `0` and\n\t * `1`, excluding `1`.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\trandom() {\n\n\t\tthis.x = Math.random();\n\t\tthis.y = Math.random();\n\t\tthis.z = Math.random();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this vector to a uniformly random point on a unit sphere.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\trandomDirection() {\n\n\t\t// https://mathworld.wolfram.com/SpherePointPicking.html\n\n\t\tconst theta = Math.random() * Math.PI * 2;\n\t\tconst u = Math.random() * 2 - 1;\n\t\tconst c = Math.sqrt( 1 - u * u );\n\n\t\tthis.x = c * Math.cos( theta );\n\t\tthis.y = u;\n\t\tthis.z = c * Math.sin( theta );\n\n\t\treturn this;\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.x;\n\t\tyield this.y;\n\t\tyield this.z;\n\n\t}\n\n}\n\nconst _vector$c = /*@__PURE__*/ new Vector3();\nconst _quaternion$4 = /*@__PURE__*/ new Quaternion();\n\n/**\n * Represents a 3x3 matrix.\n *\n * A Note on Row-Major and Column-Major Ordering:\n *\n * The constructor and {@link Matrix3#set} method take arguments in\n * [row-major]{@link https://en.wikipedia.org/wiki/Row-_and_column-major_order#Column-major_order}\n * order, while internally they are stored in the {@link Matrix3#elements} array in column-major order.\n * This means that calling:\n * ```js\n * const m = new THREE.Matrix();\n * m.set( 11, 12, 13,\n * 21, 22, 23,\n * 31, 32, 33 );\n * ```\n * will result in the elements array containing:\n * ```js\n * m.elements = [ 11, 21, 31,\n * 12, 22, 32,\n * 13, 23, 33 ];\n * ```\n * and internally all calculations are performed using column-major ordering.\n * However, as the actual ordering makes no difference mathematically and\n * most people are used to thinking about matrices in row-major order, the\n * three.js documentation shows matrices in row-major order. Just bear in\n * mind that if you are reading the source code, you'll have to take the\n * transpose of any matrices outlined here to make sense of the calculations.\n */\nclass Matrix3 {\n\n\t/**\n\t * Constructs a new 3x3 matrix. The arguments are supposed to be\n\t * in row-major order. If no arguments are provided, the constructor\n\t * initializes the matrix as an identity matrix.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t */\n\tconstructor( n11, n12, n13, n21, n22, n23, n31, n32, n33 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tMatrix3.prototype.isMatrix3 = true;\n\n\t\t/**\n\t\t * A column-major list of matrix values.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.elements = [\n\n\t\t\t1, 0, 0,\n\t\t\t0, 1, 0,\n\t\t\t0, 0, 1\n\n\t\t];\n\n\t\tif ( n11 !== undefined ) {\n\n\t\t\tthis.set( n11, n12, n13, n21, n22, n23, n31, n32, n33 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix.The arguments are supposed to be\n\t * in row-major order.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tset( n11, n12, n13, n21, n22, n23, n31, n32, n33 ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] = n11; te[ 1 ] = n21; te[ 2 ] = n31;\n\t\tte[ 3 ] = n12; te[ 4 ] = n22; te[ 5 ] = n32;\n\t\tte[ 6 ] = n13; te[ 7 ] = n23; te[ 8 ] = n33;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix to the 3x3 identity matrix.\n\t *\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tidentity() {\n\n\t\tthis.set(\n\n\t\t\t1, 0, 0,\n\t\t\t0, 1, 0,\n\t\t\t0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given matrix to this instance.\n\t *\n\t * @param {Matrix3} m - The matrix to copy.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tcopy( m ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = m.elements;\n\n\t\tte[ 0 ] = me[ 0 ]; te[ 1 ] = me[ 1 ]; te[ 2 ] = me[ 2 ];\n\t\tte[ 3 ] = me[ 3 ]; te[ 4 ] = me[ 4 ]; te[ 5 ] = me[ 5 ];\n\t\tte[ 6 ] = me[ 6 ]; te[ 7 ] = me[ 7 ]; te[ 8 ] = me[ 8 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Extracts the basis of this matrix into the three axis vectors provided.\n\t *\n\t * @param {Vector3} xAxis - The basis's x axis.\n\t * @param {Vector3} yAxis - The basis's y axis.\n\t * @param {Vector3} zAxis - The basis's z axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\textractBasis( xAxis, yAxis, zAxis ) {\n\n\t\txAxis.setFromMatrix3Column( this, 0 );\n\t\tyAxis.setFromMatrix3Column( this, 1 );\n\t\tzAxis.setFromMatrix3Column( this, 2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Set this matrix to the upper 3x3 matrix of the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tsetFromMatrix4( m ) {\n\n\t\tconst me = m.elements;\n\n\t\tthis.set(\n\n\t\t\tme[ 0 ], me[ 4 ], me[ 8 ],\n\t\t\tme[ 1 ], me[ 5 ], me[ 9 ],\n\t\t\tme[ 2 ], me[ 6 ], me[ 10 ]\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Post-multiplies this matrix by the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix to multiply with.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmultiply( m ) {\n\n\t\treturn this.multiplyMatrices( this, m );\n\n\t}\n\n\t/**\n\t * Pre-multiplies this matrix by the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix to multiply with.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tpremultiply( m ) {\n\n\t\treturn this.multiplyMatrices( m, this );\n\n\t}\n\n\t/**\n\t * Multiples the given 3x3 matrices and stores the result\n\t * in this matrix.\n\t *\n\t * @param {Matrix3} a - The first matrix.\n\t * @param {Matrix3} b - The second matrix.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmultiplyMatrices( a, b ) {\n\n\t\tconst ae = a.elements;\n\t\tconst be = b.elements;\n\t\tconst te = this.elements;\n\n\t\tconst a11 = ae[ 0 ], a12 = ae[ 3 ], a13 = ae[ 6 ];\n\t\tconst a21 = ae[ 1 ], a22 = ae[ 4 ], a23 = ae[ 7 ];\n\t\tconst a31 = ae[ 2 ], a32 = ae[ 5 ], a33 = ae[ 8 ];\n\n\t\tconst b11 = be[ 0 ], b12 = be[ 3 ], b13 = be[ 6 ];\n\t\tconst b21 = be[ 1 ], b22 = be[ 4 ], b23 = be[ 7 ];\n\t\tconst b31 = be[ 2 ], b32 = be[ 5 ], b33 = be[ 8 ];\n\n\t\tte[ 0 ] = a11 * b11 + a12 * b21 + a13 * b31;\n\t\tte[ 3 ] = a11 * b12 + a12 * b22 + a13 * b32;\n\t\tte[ 6 ] = a11 * b13 + a12 * b23 + a13 * b33;\n\n\t\tte[ 1 ] = a21 * b11 + a22 * b21 + a23 * b31;\n\t\tte[ 4 ] = a21 * b12 + a22 * b22 + a23 * b32;\n\t\tte[ 7 ] = a21 * b13 + a22 * b23 + a23 * b33;\n\n\t\tte[ 2 ] = a31 * b11 + a32 * b21 + a33 * b31;\n\t\tte[ 5 ] = a31 * b12 + a32 * b22 + a33 * b32;\n\t\tte[ 8 ] = a31 * b13 + a32 * b23 + a33 * b33;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies every component of the matrix by the given scalar.\n\t *\n\t * @param {number} s - The scalar.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmultiplyScalar( s ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] *= s; te[ 3 ] *= s; te[ 6 ] *= s;\n\t\tte[ 1 ] *= s; te[ 4 ] *= s; te[ 7 ] *= s;\n\t\tte[ 2 ] *= s; te[ 5 ] *= s; te[ 8 ] *= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes and returns the determinant of this matrix.\n\t *\n\t * @return {number} The determinant.\n\t */\n\tdeterminant() {\n\n\t\tconst te = this.elements;\n\n\t\tconst a = te[ 0 ], b = te[ 1 ], c = te[ 2 ],\n\t\t\td = te[ 3 ], e = te[ 4 ], f = te[ 5 ],\n\t\t\tg = te[ 6 ], h = te[ 7 ], i = te[ 8 ];\n\n\t\treturn a * e * i - a * f * h - b * d * i + b * f * g + c * d * h - c * e * g;\n\n\t}\n\n\t/**\n\t * Inverts this matrix, using the [analytic method]{@link https://en.wikipedia.org/wiki/Invertible_matrix#Analytic_solution}.\n\t * You can not invert with a determinant of zero. If you attempt this, the method produces\n\t * a zero matrix instead.\n\t *\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tinvert() {\n\n\t\tconst te = this.elements,\n\n\t\t\tn11 = te[ 0 ], n21 = te[ 1 ], n31 = te[ 2 ],\n\t\t\tn12 = te[ 3 ], n22 = te[ 4 ], n32 = te[ 5 ],\n\t\t\tn13 = te[ 6 ], n23 = te[ 7 ], n33 = te[ 8 ],\n\n\t\t\tt11 = n33 * n22 - n32 * n23,\n\t\t\tt12 = n32 * n13 - n33 * n12,\n\t\t\tt13 = n23 * n12 - n22 * n13,\n\n\t\t\tdet = n11 * t11 + n21 * t12 + n31 * t13;\n\n\t\tif ( det === 0 ) return this.set( 0, 0, 0, 0, 0, 0, 0, 0, 0 );\n\n\t\tconst detInv = 1 / det;\n\n\t\tte[ 0 ] = t11 * detInv;\n\t\tte[ 1 ] = ( n31 * n23 - n33 * n21 ) * detInv;\n\t\tte[ 2 ] = ( n32 * n21 - n31 * n22 ) * detInv;\n\n\t\tte[ 3 ] = t12 * detInv;\n\t\tte[ 4 ] = ( n33 * n11 - n31 * n13 ) * detInv;\n\t\tte[ 5 ] = ( n31 * n12 - n32 * n11 ) * detInv;\n\n\t\tte[ 6 ] = t13 * detInv;\n\t\tte[ 7 ] = ( n21 * n13 - n23 * n11 ) * detInv;\n\t\tte[ 8 ] = ( n22 * n11 - n21 * n12 ) * detInv;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Transposes this matrix in place.\n\t *\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\ttranspose() {\n\n\t\tlet tmp;\n\t\tconst m = this.elements;\n\n\t\ttmp = m[ 1 ]; m[ 1 ] = m[ 3 ]; m[ 3 ] = tmp;\n\t\ttmp = m[ 2 ]; m[ 2 ] = m[ 6 ]; m[ 6 ] = tmp;\n\t\ttmp = m[ 5 ]; m[ 5 ] = m[ 7 ]; m[ 7 ] = tmp;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the normal matrix which is the inverse transpose of the upper\n\t * left 3x3 portion of the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} matrix4 - The 4x4 matrix.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tgetNormalMatrix( matrix4 ) {\n\n\t\treturn this.setFromMatrix4( matrix4 ).invert().transpose();\n\n\t}\n\n\t/**\n\t * Transposes this matrix into the supplied array, and returns itself unchanged.\n\t *\n\t * @param {Array} r - An array to store the transposed matrix elements.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\ttransposeIntoArray( r ) {\n\n\t\tconst m = this.elements;\n\n\t\tr[ 0 ] = m[ 0 ];\n\t\tr[ 1 ] = m[ 3 ];\n\t\tr[ 2 ] = m[ 6 ];\n\t\tr[ 3 ] = m[ 1 ];\n\t\tr[ 4 ] = m[ 4 ];\n\t\tr[ 5 ] = m[ 7 ];\n\t\tr[ 6 ] = m[ 2 ];\n\t\tr[ 7 ] = m[ 5 ];\n\t\tr[ 8 ] = m[ 8 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the UV transform matrix from offset, repeat, rotation, and center.\n\t *\n\t * @param {number} tx - Offset x.\n\t * @param {number} ty - Offset y.\n\t * @param {number} sx - Repeat x.\n\t * @param {number} sy - Repeat y.\n\t * @param {number} rotation - Rotation, in radians. Positive values rotate counterclockwise.\n\t * @param {number} cx - Center x of rotation.\n\t * @param {number} cy - Center y of rotation\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tsetUvTransform( tx, ty, sx, sy, rotation, cx, cy ) {\n\n\t\tconst c = Math.cos( rotation );\n\t\tconst s = Math.sin( rotation );\n\n\t\tthis.set(\n\t\t\tsx * c, sx * s, - sx * ( c * cx + s * cy ) + cx + tx,\n\t\t\t- sy * s, sy * c, - sy * ( - s * cx + c * cy ) + cy + ty,\n\t\t\t0, 0, 1\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scales this matrix with the given scalar values.\n\t *\n\t * @param {number} sx - The amount to scale in the X axis.\n\t * @param {number} sy - The amount to scale in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tscale( sx, sy ) {\n\n\t\tthis.premultiply( _m3.makeScale( sx, sy ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates this matrix by the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\trotate( theta ) {\n\n\t\tthis.premultiply( _m3.makeRotation( - theta ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates this matrix by the given scalar values.\n\t *\n\t * @param {number} tx - The amount to translate in the X axis.\n\t * @param {number} ty - The amount to translate in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\ttranslate( tx, ty ) {\n\n\t\tthis.premultiply( _m3.makeTranslation( tx, ty ) );\n\n\t\treturn this;\n\n\t}\n\n\t// for 2D Transforms\n\n\t/**\n\t * Sets this matrix as a 2D translation transform.\n\t *\n\t * @param {number|Vector2} x - The amount to translate in the X axis or alternatively a translation vector.\n\t * @param {number} y - The amount to translate in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmakeTranslation( x, y ) {\n\n\t\tif ( x.isVector2 ) {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, x.x,\n\t\t\t\t0, 1, x.y,\n\t\t\t\t0, 0, 1\n\n\t\t\t);\n\n\t\t} else {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, x,\n\t\t\t\t0, 1, y,\n\t\t\t\t0, 0, 1\n\n\t\t\t);\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a 2D rotational transformation.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmakeRotation( theta ) {\n\n\t\t// counterclockwise\n\n\t\tconst c = Math.cos( theta );\n\t\tconst s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\tc, - s, 0,\n\t\t\ts, c, 0,\n\t\t\t0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a 2D scale transform.\n\t *\n\t * @param {number} x - The amount to scale in the X axis.\n\t * @param {number} y - The amount to scale in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmakeScale( x, y ) {\n\n\t\tthis.set(\n\n\t\t\tx, 0, 0,\n\t\t\t0, y, 0,\n\t\t\t0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this matrix is equal with the given one.\n\t *\n\t * @param {Matrix3} matrix - The matrix to test for equality.\n\t * @return {boolean} Whether this matrix is equal with the given one.\n\t */\n\tequals( matrix ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = matrix.elements;\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tif ( te[ i ] !== me[ i ] ) return false;\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix from the given array.\n\t *\n\t * @param {Array} array - The matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.elements[ i ] = array[ i + offset ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the elements of this matrix to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The matrix elements in column-major order.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tconst te = this.elements;\n\n\t\tarray[ offset ] = te[ 0 ];\n\t\tarray[ offset + 1 ] = te[ 1 ];\n\t\tarray[ offset + 2 ] = te[ 2 ];\n\n\t\tarray[ offset + 3 ] = te[ 3 ];\n\t\tarray[ offset + 4 ] = te[ 4 ];\n\t\tarray[ offset + 5 ] = te[ 5 ];\n\n\t\tarray[ offset + 6 ] = te[ 6 ];\n\t\tarray[ offset + 7 ] = te[ 7 ];\n\t\tarray[ offset + 8 ] = te[ 8 ];\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Returns a matrix with copied values from this instance.\n\t *\n\t * @return {Matrix3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().fromArray( this.elements );\n\n\t}\n\n}\n\nconst _m3 = /*@__PURE__*/ new Matrix3();\n\nfunction arrayNeedsUint32( array ) {\n\n\t// assumes larger values usually on last\n\n\tfor ( let i = array.length - 1; i >= 0; -- i ) {\n\n\t\tif ( array[ i ] >= 65535 ) return true; // account for PRIMITIVE_RESTART_FIXED_INDEX, #24565\n\n\t}\n\n\treturn false;\n\n}\n\nconst TYPED_ARRAYS = {\n\tInt8Array: Int8Array,\n\tUint8Array: Uint8Array,\n\tUint8ClampedArray: Uint8ClampedArray,\n\tInt16Array: Int16Array,\n\tUint16Array: Uint16Array,\n\tInt32Array: Int32Array,\n\tUint32Array: Uint32Array,\n\tFloat32Array: Float32Array,\n\tFloat64Array: Float64Array\n};\n\nfunction getTypedArray( type, buffer ) {\n\n\treturn new TYPED_ARRAYS[ type ]( buffer );\n\n}\n\nfunction createElementNS( name ) {\n\n\treturn document.createElementNS( 'http://www.w3.org/1999/xhtml', name );\n\n}\n\nfunction createCanvasElement() {\n\n\tconst canvas = createElementNS( 'canvas' );\n\tcanvas.style.display = 'block';\n\treturn canvas;\n\n}\n\nconst _cache = {};\n\nfunction warnOnce( message ) {\n\n\tif ( message in _cache ) return;\n\n\t_cache[ message ] = true;\n\n\tconsole.warn( message );\n\n}\n\nfunction probeAsync( gl, sync, interval ) {\n\n\treturn new Promise( function ( resolve, reject ) {\n\n\t\tfunction probe() {\n\n\t\t\tswitch ( gl.clientWaitSync( sync, gl.SYNC_FLUSH_COMMANDS_BIT, 0 ) ) {\n\n\t\t\t\tcase gl.WAIT_FAILED:\n\t\t\t\t\treject();\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase gl.TIMEOUT_EXPIRED:\n\t\t\t\t\tsetTimeout( probe, interval );\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\n\t\t\t\t\tresolve();\n\n\t\t\t}\n\n\t\t}\n\n\t\tsetTimeout( probe, interval );\n\n\t} );\n\n}\n\nconst LINEAR_REC709_TO_XYZ = /*@__PURE__*/ new Matrix3().set(\n\t0.4123908, 0.3575843, 0.1804808,\n\t0.2126390, 0.7151687, 0.0721923,\n\t0.0193308, 0.1191948, 0.9505322\n);\n\nconst XYZ_TO_LINEAR_REC709 = /*@__PURE__*/ new Matrix3().set(\n\t3.2409699, -1.5373832, -0.4986108,\n\t-0.9692436, 1.8759675, 0.0415551,\n\t0.0556301, -0.203977, 1.0569715\n);\n\nfunction createColorManagement() {\n\n\tconst ColorManagement = {\n\n\t\tenabled: true,\n\n\t\tworkingColorSpace: LinearSRGBColorSpace,\n\n\t\t/**\n\t\t * Implementations of supported color spaces.\n\t\t *\n\t\t * Required:\n\t\t *\t- primaries: chromaticity coordinates [ rx ry gx gy bx by ]\n\t\t *\t- whitePoint: reference white [ x y ]\n\t\t *\t- transfer: transfer function (pre-defined)\n\t\t *\t- toXYZ: Matrix3 RGB to XYZ transform\n\t\t *\t- fromXYZ: Matrix3 XYZ to RGB transform\n\t\t *\t- luminanceCoefficients: RGB luminance coefficients\n\t\t *\n\t\t * Optional:\n\t\t * - outputColorSpaceConfig: { drawingBufferColorSpace: ColorSpace, toneMappingMode: 'extended' | 'standard' }\n\t\t * - workingColorSpaceConfig: { unpackColorSpace: ColorSpace }\n\t\t *\n\t\t * Reference:\n\t\t * - https://www.russellcottrell.com/photo/matrixCalculator.htm\n\t\t */\n\t\tspaces: {},\n\n\t\tconvert: function ( color, sourceColorSpace, targetColorSpace ) {\n\n\t\t\tif ( this.enabled === false || sourceColorSpace === targetColorSpace || ! sourceColorSpace || ! targetColorSpace ) {\n\n\t\t\t\treturn color;\n\n\t\t\t}\n\n\t\t\tif ( this.spaces[ sourceColorSpace ].transfer === SRGBTransfer ) {\n\n\t\t\t\tcolor.r = SRGBToLinear( color.r );\n\t\t\t\tcolor.g = SRGBToLinear( color.g );\n\t\t\t\tcolor.b = SRGBToLinear( color.b );\n\n\t\t\t}\n\n\t\t\tif ( this.spaces[ sourceColorSpace ].primaries !== this.spaces[ targetColorSpace ].primaries ) {\n\n\t\t\t\tcolor.applyMatrix3( this.spaces[ sourceColorSpace ].toXYZ );\n\t\t\t\tcolor.applyMatrix3( this.spaces[ targetColorSpace ].fromXYZ );\n\n\t\t\t}\n\n\t\t\tif ( this.spaces[ targetColorSpace ].transfer === SRGBTransfer ) {\n\n\t\t\t\tcolor.r = LinearToSRGB( color.r );\n\t\t\t\tcolor.g = LinearToSRGB( color.g );\n\t\t\t\tcolor.b = LinearToSRGB( color.b );\n\n\t\t\t}\n\n\t\t\treturn color;\n\n\t\t},\n\n\t\tworkingToColorSpace: function ( color, targetColorSpace ) {\n\n\t\t\treturn this.convert( color, this.workingColorSpace, targetColorSpace );\n\n\t\t},\n\n\t\tcolorSpaceToWorking: function ( color, sourceColorSpace ) {\n\n\t\t\treturn this.convert( color, sourceColorSpace, this.workingColorSpace );\n\n\t\t},\n\n\t\tgetPrimaries: function ( colorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].primaries;\n\n\t\t},\n\n\t\tgetTransfer: function ( colorSpace ) {\n\n\t\t\tif ( colorSpace === NoColorSpace ) return LinearTransfer;\n\n\t\t\treturn this.spaces[ colorSpace ].transfer;\n\n\t\t},\n\n\t\tgetToneMappingMode: function ( colorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].outputColorSpaceConfig.toneMappingMode || 'standard';\n\n\t\t},\n\n\t\tgetLuminanceCoefficients: function ( target, colorSpace = this.workingColorSpace ) {\n\n\t\t\treturn target.fromArray( this.spaces[ colorSpace ].luminanceCoefficients );\n\n\t\t},\n\n\t\tdefine: function ( colorSpaces ) {\n\n\t\t\tObject.assign( this.spaces, colorSpaces );\n\n\t\t},\n\n\t\t// Internal APIs\n\n\t\t_getMatrix: function ( targetMatrix, sourceColorSpace, targetColorSpace ) {\n\n\t\t\treturn targetMatrix\n\t\t\t\t.copy( this.spaces[ sourceColorSpace ].toXYZ )\n\t\t\t\t.multiply( this.spaces[ targetColorSpace ].fromXYZ );\n\n\t\t},\n\n\t\t_getDrawingBufferColorSpace: function ( colorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].outputColorSpaceConfig.drawingBufferColorSpace;\n\n\t\t},\n\n\t\t_getUnpackColorSpace: function ( colorSpace = this.workingColorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].workingColorSpaceConfig.unpackColorSpace;\n\n\t\t},\n\n\t\t// Deprecated\n\n\t\tfromWorkingColorSpace: function ( color, targetColorSpace ) {\n\n\t\t\twarnOnce( 'THREE.ColorManagement: .fromWorkingColorSpace() has been renamed to .workingToColorSpace().' ); // @deprecated, r177\n\n\t\t\treturn ColorManagement.workingToColorSpace( color, targetColorSpace );\n\n\t\t},\n\n\t\ttoWorkingColorSpace: function ( color, sourceColorSpace ) {\n\n\t\t\twarnOnce( 'THREE.ColorManagement: .toWorkingColorSpace() has been renamed to .colorSpaceToWorking().' ); // @deprecated, r177\n\n\t\t\treturn ColorManagement.colorSpaceToWorking( color, sourceColorSpace );\n\n\t\t},\n\n\t};\n\n\t/******************************************************************************\n\t * sRGB definitions\n\t */\n\n\tconst REC709_PRIMARIES = [ 0.640, 0.330, 0.300, 0.600, 0.150, 0.060 ];\n\tconst REC709_LUMINANCE_COEFFICIENTS = [ 0.2126, 0.7152, 0.0722 ];\n\tconst D65 = [ 0.3127, 0.3290 ];\n\n\tColorManagement.define( {\n\n\t\t[ LinearSRGBColorSpace ]: {\n\t\t\tprimaries: REC709_PRIMARIES,\n\t\t\twhitePoint: D65,\n\t\t\ttransfer: LinearTransfer,\n\t\t\ttoXYZ: LINEAR_REC709_TO_XYZ,\n\t\t\tfromXYZ: XYZ_TO_LINEAR_REC709,\n\t\t\tluminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n\t\t\tworkingColorSpaceConfig: { unpackColorSpace: SRGBColorSpace },\n\t\t\toutputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n\t\t},\n\n\t\t[ SRGBColorSpace ]: {\n\t\t\tprimaries: REC709_PRIMARIES,\n\t\t\twhitePoint: D65,\n\t\t\ttransfer: SRGBTransfer,\n\t\t\ttoXYZ: LINEAR_REC709_TO_XYZ,\n\t\t\tfromXYZ: XYZ_TO_LINEAR_REC709,\n\t\t\tluminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n\t\t\toutputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n\t\t},\n\n\t} );\n\n\treturn ColorManagement;\n\n}\n\nconst ColorManagement = /*@__PURE__*/ createColorManagement();\n\nfunction SRGBToLinear( c ) {\n\n\treturn ( c < 0.04045 ) ? c * 0.0773993808 : Math.pow( c * 0.9478672986 + 0.0521327014, 2.4 );\n\n}\n\nfunction LinearToSRGB( c ) {\n\n\treturn ( c < 0.0031308 ) ? c * 12.92 : 1.055 * ( Math.pow( c, 0.41666 ) ) - 0.055;\n\n}\n\nlet _canvas;\n\n/**\n * A class containing utility functions for images.\n *\n * @hideconstructor\n */\nclass ImageUtils {\n\n\t/**\n\t * Returns a data URI containing a representation of the given image.\n\t *\n\t * @param {(HTMLImageElement|HTMLCanvasElement)} image - The image object.\n\t * @param {string} [type='image/png'] - Indicates the image format.\n\t * @return {string} The data URI.\n\t */\n\tstatic getDataURL( image, type = 'image/png' ) {\n\n\t\tif ( /^data:/i.test( image.src ) ) {\n\n\t\t\treturn image.src;\n\n\t\t}\n\n\t\tif ( typeof HTMLCanvasElement === 'undefined' ) {\n\n\t\t\treturn image.src;\n\n\t\t}\n\n\t\tlet canvas;\n\n\t\tif ( image instanceof HTMLCanvasElement ) {\n\n\t\t\tcanvas = image;\n\n\t\t} else {\n\n\t\t\tif ( _canvas === undefined ) _canvas = createElementNS( 'canvas' );\n\n\t\t\t_canvas.width = image.width;\n\t\t\t_canvas.height = image.height;\n\n\t\t\tconst context = _canvas.getContext( '2d' );\n\n\t\t\tif ( image instanceof ImageData ) {\n\n\t\t\t\tcontext.putImageData( image, 0, 0 );\n\n\t\t\t} else {\n\n\t\t\t\tcontext.drawImage( image, 0, 0, image.width, image.height );\n\n\t\t\t}\n\n\t\t\tcanvas = _canvas;\n\n\t\t}\n\n\t\treturn canvas.toDataURL( type );\n\n\t}\n\n\t/**\n\t * Converts the given sRGB image data to linear color space.\n\t *\n\t * @param {(HTMLImageElement|HTMLCanvasElement|ImageBitmap|Object)} image - The image object.\n\t * @return {HTMLCanvasElement|Object} The converted image.\n\t */\n\tstatic sRGBToLinear( image ) {\n\n\t\tif ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) ||\n\t\t\t( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) ||\n\t\t\t( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) ) {\n\n\t\t\tconst canvas = createElementNS( 'canvas' );\n\n\t\t\tcanvas.width = image.width;\n\t\t\tcanvas.height = image.height;\n\n\t\t\tconst context = canvas.getContext( '2d' );\n\t\t\tcontext.drawImage( image, 0, 0, image.width, image.height );\n\n\t\t\tconst imageData = context.getImageData( 0, 0, image.width, image.height );\n\t\t\tconst data = imageData.data;\n\n\t\t\tfor ( let i = 0; i < data.length; i ++ ) {\n\n\t\t\t\tdata[ i ] = SRGBToLinear( data[ i ] / 255 ) * 255;\n\n\t\t\t}\n\n\t\t\tcontext.putImageData( imageData, 0, 0 );\n\n\t\t\treturn canvas;\n\n\t\t} else if ( image.data ) {\n\n\t\t\tconst data = image.data.slice( 0 );\n\n\t\t\tfor ( let i = 0; i < data.length; i ++ ) {\n\n\t\t\t\tif ( data instanceof Uint8Array || data instanceof Uint8ClampedArray ) {\n\n\t\t\t\t\tdata[ i ] = Math.floor( SRGBToLinear( data[ i ] / 255 ) * 255 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// assuming float\n\n\t\t\t\t\tdata[ i ] = SRGBToLinear( data[ i ] );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn {\n\t\t\t\tdata: data,\n\t\t\t\twidth: image.width,\n\t\t\t\theight: image.height\n\t\t\t};\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.ImageUtils.sRGBToLinear(): Unsupported image type. No color space conversion applied.' );\n\t\t\treturn image;\n\n\t\t}\n\n\t}\n\n}\n\nlet _sourceId = 0;\n\n/**\n * Represents the data source of a texture.\n *\n * The main purpose of this class is to decouple the data definition from the texture\n * definition so the same data can be used with multiple texture instances.\n */\nclass Source {\n\n\t/**\n\t * Constructs a new video texture.\n\t *\n\t * @param {any} [data=null] - The data definition of a texture.\n\t */\n\tconstructor( data = null ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSource = true;\n\n\t\t/**\n\t\t * The ID of the source.\n\t\t *\n\t\t * @name Source#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _sourceId ++ } );\n\n\t\t/**\n\t\t * The UUID of the source.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The data definition of a texture.\n\t\t *\n\t\t * @type {any}\n\t\t */\n\t\tthis.data = data;\n\n\t\t/**\n\t\t * This property is only relevant when {@link Source#needsUpdate} is set to `true` and\n\t\t * provides more control on how texture data should be processed. When `dataReady` is set\n\t\t * to `false`, the engine performs the memory allocation (if necessary) but does not transfer\n\t\t * the data into the GPU memory.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.dataReady = true;\n\n\t\t/**\n\t\t * This starts at `0` and counts how many times {@link Source#needsUpdate} is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.version = 0;\n\n\t}\n\n\t/**\n\t * Returns the dimensions of the source into the given target vector.\n\t *\n\t * @param {(Vector2|Vector3)} target - The target object the result is written into.\n\t * @return {(Vector2|Vector3)} The dimensions of the source.\n\t */\n\tgetSize( target ) {\n\n\t\tconst data = this.data;\n\n\t\tif ( ( typeof HTMLVideoElement !== 'undefined' ) && ( data instanceof HTMLVideoElement ) ) {\n\n\t\t\ttarget.set( data.videoWidth, data.videoHeight, 0 );\n\n\t\t} else if ( data instanceof VideoFrame ) {\n\n\t\t\ttarget.set( data.displayHeight, data.displayWidth, 0 );\n\n\t\t} else if ( data !== null ) {\n\n\t\t\ttarget.set( data.width, data.height, data.depth || 0 );\n\n\t\t} else {\n\n\t\t\ttarget.set( 0, 0, 0 );\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * When the property is set to `true`, the engine allocates the memory\n\t * for the texture (if necessary) and triggers the actual texture upload\n\t * to the GPU next time the source is used.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Serializes the source into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized source.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tif ( ! isRootObject && meta.images[ this.uuid ] !== undefined ) {\n\n\t\t\treturn meta.images[ this.uuid ];\n\n\t\t}\n\n\t\tconst output = {\n\t\t\tuuid: this.uuid,\n\t\t\turl: ''\n\t\t};\n\n\t\tconst data = this.data;\n\n\t\tif ( data !== null ) {\n\n\t\t\tlet url;\n\n\t\t\tif ( Array.isArray( data ) ) {\n\n\t\t\t\t// cube texture\n\n\t\t\t\turl = [];\n\n\t\t\t\tfor ( let i = 0, l = data.length; i < l; i ++ ) {\n\n\t\t\t\t\tif ( data[ i ].isDataTexture ) {\n\n\t\t\t\t\t\turl.push( serializeImage( data[ i ].image ) );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\turl.push( serializeImage( data[ i ] ) );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// texture\n\n\t\t\t\turl = serializeImage( data );\n\n\t\t\t}\n\n\t\t\toutput.url = url;\n\n\t\t}\n\n\t\tif ( ! isRootObject ) {\n\n\t\t\tmeta.images[ this.uuid ] = output;\n\n\t\t}\n\n\t\treturn output;\n\n\t}\n\n}\n\nfunction serializeImage( image ) {\n\n\tif ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) ||\n\t\t( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) ||\n\t\t( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) ) {\n\n\t\t// default images\n\n\t\treturn ImageUtils.getDataURL( image );\n\n\t} else {\n\n\t\tif ( image.data ) {\n\n\t\t\t// images of DataTexture\n\n\t\t\treturn {\n\t\t\t\tdata: Array.from( image.data ),\n\t\t\t\twidth: image.width,\n\t\t\t\theight: image.height,\n\t\t\t\ttype: image.data.constructor.name\n\t\t\t};\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.Texture: Unable to serialize Texture.' );\n\t\t\treturn {};\n\n\t\t}\n\n\t}\n\n}\n\nlet _textureId = 0;\n\nconst _tempVec3 = /*@__PURE__*/ new Vector3();\n\n/**\n * Base class for all textures.\n *\n * Note: After the initial use of a texture, its dimensions, format, and type\n * cannot be changed. Instead, call {@link Texture#dispose} on the texture and instantiate a new one.\n *\n * @augments EventDispatcher\n */\nclass Texture extends EventDispatcher {\n\n\t/**\n\t * Constructs a new texture.\n\t *\n\t * @param {?Object} [image=Texture.DEFAULT_IMAGE] - The image holding the texture data.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space.\n\t */\n\tconstructor( image = Texture.DEFAULT_IMAGE, mapping = Texture.DEFAULT_MAPPING, wrapS = ClampToEdgeWrapping, wrapT = ClampToEdgeWrapping, magFilter = LinearFilter, minFilter = LinearMipmapLinearFilter, format = RGBAFormat, type = UnsignedByteType, anisotropy = Texture.DEFAULT_ANISOTROPY, colorSpace = NoColorSpace ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isTexture = true;\n\n\t\t/**\n\t\t * The ID of the texture.\n\t\t *\n\t\t * @name Texture#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _textureId ++ } );\n\n\t\t/**\n\t\t * The UUID of the material.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the material.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The data definition of a texture. A reference to the data source can be\n\t\t * shared across textures. This is often useful in context of spritesheets\n\t\t * where multiple textures render the same data but with different texture\n\t\t * transformations.\n\t\t *\n\t\t * @type {Source}\n\t\t */\n\t\tthis.source = new Source( image );\n\n\t\t/**\n\t\t * An array holding user-defined mipmaps.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.mipmaps = [];\n\n\t\t/**\n\t\t * How the texture is applied to the object. The value `UVMapping`\n\t\t * is the default, where texture or uv coordinates are used to apply the map.\n\t\t *\n\t\t * @type {(UVMapping|CubeReflectionMapping|CubeRefractionMapping|EquirectangularReflectionMapping|EquirectangularRefractionMapping|CubeUVReflectionMapping)}\n\t\t * @default UVMapping\n\t\t*/\n\t\tthis.mapping = mapping;\n\n\t\t/**\n\t\t * Lets you select the uv attribute to map the texture to. `0` for `uv`,\n\t\t * `1` for `uv1`, `2` for `uv2` and `3` for `uv3`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.channel = 0;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped horizontally and corresponds to\n\t\t * *U* in UV mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapS = wrapS;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped horizontally and corresponds to\n\t\t * *V* in UV mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapT = wrapT;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default LinearFilter\n\t\t */\n\t\tthis.magFilter = magFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default LinearMipmapLinearFilter\n\t\t */\n\t\tthis.minFilter = minFilter;\n\n\t\t/**\n\t\t * The number of samples taken along the axis through the pixel that has the\n\t\t * highest density of texels. By default, this value is `1`. A higher value\n\t\t * gives a less blurry result than a basic mipmap, at the cost of more\n\t\t * texture samples being used.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.anisotropy = anisotropy;\n\n\t\t/**\n\t\t * The format of the texture.\n\t\t *\n\t\t * @type {number}\n\t\t * @default RGBAFormat\n\t\t */\n\t\tthis.format = format;\n\n\t\t/**\n\t\t * The default internal format is derived from {@link Texture#format} and {@link Texture#type} and\n\t\t * defines how the texture data is going to be stored on the GPU.\n\t\t *\n\t\t * This property allows to overwrite the default format.\n\t\t *\n\t\t * @type {?string}\n\t\t * @default null\n\t\t */\n\t\tthis.internalFormat = null;\n\n\t\t/**\n\t\t * The data type of the texture.\n\t\t *\n\t\t * @type {number}\n\t\t * @default UnsignedByteType\n\t\t */\n\t\tthis.type = type;\n\n\t\t/**\n\t\t * How much a single repetition of the texture is offset from the beginning,\n\t\t * in each direction U and V. Typical range is `0.0` to `1.0`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (0,0)\n\t\t */\n\t\tthis.offset = new Vector2( 0, 0 );\n\n\t\t/**\n\t\t * How many times the texture is repeated across the surface, in each\n\t\t * direction U and V. If repeat is set greater than `1` in either direction,\n\t\t * the corresponding wrap parameter should also be set to `RepeatWrapping`\n\t\t * or `MirroredRepeatWrapping` to achieve the desired tiling effect.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.repeat = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The point around which rotation occurs. A value of `(0.5, 0.5)` corresponds\n\t\t * to the center of the texture. Default is `(0, 0)`, the lower left.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (0,0)\n\t\t */\n\t\tthis.center = new Vector2( 0, 0 );\n\n\t\t/**\n\t\t * How much the texture is rotated around the center point, in radians.\n\t\t * Positive values are counter-clockwise.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.rotation = 0;\n\n\t\t/**\n\t\t * Whether to update the texture's uv-transformation {@link Texture#matrix}\n\t\t * from the properties {@link Texture#offset}, {@link Texture#repeat},\n\t\t * {@link Texture#rotation}, and {@link Texture#center}.\n\t\t *\n\t\t * Set this to `false` if you are specifying the uv-transform matrix directly.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.matrixAutoUpdate = true;\n\n\t\t/**\n\t\t * The uv-transformation matrix of the texture.\n\t\t *\n\t\t * @type {Matrix3}\n\t\t */\n\t\tthis.matrix = new Matrix3();\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Set this to `false` if you are creating mipmaps manually.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.generateMipmaps = true;\n\n\t\t/**\n\t\t * If set to `true`, the alpha channel, if present, is multiplied into the\n\t\t * color channels when the texture is uploaded to the GPU.\n\t\t *\n\t\t * Note that this property has no effect when using `ImageBitmap`. You need to\n\t\t * configure premultiply alpha on bitmap creation instead.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.premultiplyAlpha = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Note that this property has no effect when using `ImageBitmap`. You need to\n\t\t * configure the flip on bitmap creation instead.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.flipY = true;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t * The allowable values are `1` (byte-alignment), `2` (rows aligned to even-numbered bytes),\n\t\t * `4` (word-alignment), and `8` (rows start on double-word boundaries).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 4\n\t\t */\n\t\tthis.unpackAlignment = 4;\t// valid values: 1, 2, 4, 8 (see http://www.khronos.org/opengles/sdk/docs/man/xhtml/glPixelStorei.xml)\n\n\t\t/**\n\t\t * Textures containing color data should be annotated with `SRGBColorSpace` or `LinearSRGBColorSpace`.\n\t\t *\n\t\t * @type {string}\n\t\t * @default NoColorSpace\n\t\t */\n\t\tthis.colorSpace = colorSpace;\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the texture. It\n\t\t * should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t\t/**\n\t\t * This can be used to only update a subregion or specific rows of the texture (for example, just the\n\t\t * first 3 rows). Use the `addUpdateRange()` function to add ranges to this array.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.updateRanges = [];\n\n\t\t/**\n\t\t * This starts at `0` and counts how many times {@link Texture#needsUpdate} is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.version = 0;\n\n\t\t/**\n\t\t * A callback function, called when the texture is updated (e.g., when\n\t\t * {@link Texture#needsUpdate} has been set to true and then the texture is used).\n\t\t *\n\t\t * @type {?Function}\n\t\t * @default null\n\t\t */\n\t\tthis.onUpdate = null;\n\n\t\t/**\n\t\t * An optional back reference to the textures render target.\n\t\t *\n\t\t * @type {?(RenderTarget|WebGLRenderTarget)}\n\t\t * @default null\n\t\t */\n\t\tthis.renderTarget = null;\n\n\t\t/**\n\t\t * Indicates whether a texture belongs to a render target or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isRenderTargetTexture = false;\n\n\t\t/**\n\t\t * Indicates if a texture should be handled like a texture array.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isArrayTexture = image && image.depth && image.depth > 1 ? true : false;\n\n\t\t/**\n\t\t * Indicates whether this texture should be processed by `PMREMGenerator` or not\n\t\t * (only relevant for render target textures).\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.pmremVersion = 0;\n\n\t}\n\n\t/**\n\t * The width of the texture in pixels.\n\t */\n\tget width() {\n\n\t\treturn this.source.getSize( _tempVec3 ).x;\n\n\t}\n\n\t/**\n\t * The height of the texture in pixels.\n\t */\n\tget height() {\n\n\t\treturn this.source.getSize( _tempVec3 ).y;\n\n\t}\n\n\t/**\n\t * The depth of the texture in pixels.\n\t */\n\tget depth() {\n\n\t\treturn this.source.getSize( _tempVec3 ).z;\n\n\t}\n\n\t/**\n\t * The image object holding the texture data.\n\t *\n\t * @type {?Object}\n\t */\n\tget image() {\n\n\t\treturn this.source.data;\n\n\t}\n\n\tset image( value = null ) {\n\n\t\tthis.source.data = value;\n\n\t}\n\n\t/**\n\t * Updates the texture transformation matrix from the from the properties {@link Texture#offset},\n\t * {@link Texture#repeat}, {@link Texture#rotation}, and {@link Texture#center}.\n\t */\n\tupdateMatrix() {\n\n\t\tthis.matrix.setUvTransform( this.offset.x, this.offset.y, this.repeat.x, this.repeat.y, this.rotation, this.center.x, this.center.y );\n\n\t}\n\n\t/**\n\t * Adds a range of data in the data texture to be updated on the GPU.\n\t *\n\t * @param {number} start - Position at which to start update.\n\t * @param {number} count - The number of components to update.\n\t */\n\taddUpdateRange( start, count ) {\n\n\t\tthis.updateRanges.push( { start, count } );\n\n\t}\n\n\t/**\n\t * Clears the update ranges.\n\t */\n\tclearUpdateRanges() {\n\n\t\tthis.updateRanges.length = 0;\n\n\t}\n\n\t/**\n\t * Returns a new texture with copied values from this instance.\n\t *\n\t * @return {Texture} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given texture to this instance.\n\t *\n\t * @param {Texture} source - The texture to copy.\n\t * @return {Texture} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\n\t\tthis.source = source.source;\n\t\tthis.mipmaps = source.mipmaps.slice( 0 );\n\n\t\tthis.mapping = source.mapping;\n\t\tthis.channel = source.channel;\n\n\t\tthis.wrapS = source.wrapS;\n\t\tthis.wrapT = source.wrapT;\n\n\t\tthis.magFilter = source.magFilter;\n\t\tthis.minFilter = source.minFilter;\n\n\t\tthis.anisotropy = source.anisotropy;\n\n\t\tthis.format = source.format;\n\t\tthis.internalFormat = source.internalFormat;\n\t\tthis.type = source.type;\n\n\t\tthis.offset.copy( source.offset );\n\t\tthis.repeat.copy( source.repeat );\n\t\tthis.center.copy( source.center );\n\t\tthis.rotation = source.rotation;\n\n\t\tthis.matrixAutoUpdate = source.matrixAutoUpdate;\n\t\tthis.matrix.copy( source.matrix );\n\n\t\tthis.generateMipmaps = source.generateMipmaps;\n\t\tthis.premultiplyAlpha = source.premultiplyAlpha;\n\t\tthis.flipY = source.flipY;\n\t\tthis.unpackAlignment = source.unpackAlignment;\n\t\tthis.colorSpace = source.colorSpace;\n\n\t\tthis.renderTarget = source.renderTarget;\n\t\tthis.isRenderTargetTexture = source.isRenderTargetTexture;\n\t\tthis.isArrayTexture = source.isArrayTexture;\n\n\t\tthis.userData = JSON.parse( JSON.stringify( source.userData ) );\n\n\t\tthis.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this texture's properties based on `values`.\n\t * @param {Object} values - A container with texture parameters.\n\t */\n\tsetValues( values ) {\n\n\t\tfor ( const key in values ) {\n\n\t\t\tconst newValue = values[ key ];\n\n\t\t\tif ( newValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Texture.setValues(): parameter '${ key }' has value of undefined.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tconst currentValue = this[ key ];\n\n\t\t\tif ( currentValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Texture.setValues(): property '${ key }' does not exist.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tif ( ( currentValue && newValue ) && ( currentValue.isVector2 && newValue.isVector2 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else if ( ( currentValue && newValue ) && ( currentValue.isVector3 && newValue.isVector3 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else if ( ( currentValue && newValue ) && ( currentValue.isMatrix3 && newValue.isMatrix3 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else {\n\n\t\t\t\tthis[ key ] = newValue;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the texture into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized texture.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tif ( ! isRootObject && meta.textures[ this.uuid ] !== undefined ) {\n\n\t\t\treturn meta.textures[ this.uuid ];\n\n\t\t}\n\n\t\tconst output = {\n\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Texture',\n\t\t\t\tgenerator: 'Texture.toJSON'\n\t\t\t},\n\n\t\t\tuuid: this.uuid,\n\t\t\tname: this.name,\n\n\t\t\timage: this.source.toJSON( meta ).uuid,\n\n\t\t\tmapping: this.mapping,\n\t\t\tchannel: this.channel,\n\n\t\t\trepeat: [ this.repeat.x, this.repeat.y ],\n\t\t\toffset: [ this.offset.x, this.offset.y ],\n\t\t\tcenter: [ this.center.x, this.center.y ],\n\t\t\trotation: this.rotation,\n\n\t\t\twrap: [ this.wrapS, this.wrapT ],\n\n\t\t\tformat: this.format,\n\t\t\tinternalFormat: this.internalFormat,\n\t\t\ttype: this.type,\n\t\t\tcolorSpace: this.colorSpace,\n\n\t\t\tminFilter: this.minFilter,\n\t\t\tmagFilter: this.magFilter,\n\t\t\tanisotropy: this.anisotropy,\n\n\t\t\tflipY: this.flipY,\n\n\t\t\tgenerateMipmaps: this.generateMipmaps,\n\t\t\tpremultiplyAlpha: this.premultiplyAlpha,\n\t\t\tunpackAlignment: this.unpackAlignment\n\n\t\t};\n\n\t\tif ( Object.keys( this.userData ).length > 0 ) output.userData = this.userData;\n\n\t\tif ( ! isRootObject ) {\n\n\t\t\tmeta.textures[ this.uuid ] = output;\n\n\t\t}\n\n\t\treturn output;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires Texture#dispose\n\t */\n\tdispose() {\n\n\t\t/**\n\t\t * Fires when the texture has been disposed of.\n\t\t *\n\t\t * @event Texture#dispose\n\t\t * @type {Object}\n\t\t */\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n\t/**\n\t * Transforms the given uv vector with the textures uv transformation matrix.\n\t *\n\t * @param {Vector2} uv - The uv vector.\n\t * @return {Vector2} The transformed uv vector.\n\t */\n\ttransformUv( uv ) {\n\n\t\tif ( this.mapping !== UVMapping ) return uv;\n\n\t\tuv.applyMatrix3( this.matrix );\n\n\t\tif ( uv.x < 0 || uv.x > 1 ) {\n\n\t\t\tswitch ( this.wrapS ) {\n\n\t\t\t\tcase RepeatWrapping:\n\n\t\t\t\t\tuv.x = uv.x - Math.floor( uv.x );\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase ClampToEdgeWrapping:\n\n\t\t\t\t\tuv.x = uv.x < 0 ? 0 : 1;\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase MirroredRepeatWrapping:\n\n\t\t\t\t\tif ( Math.abs( Math.floor( uv.x ) % 2 ) === 1 ) {\n\n\t\t\t\t\t\tuv.x = Math.ceil( uv.x ) - uv.x;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tuv.x = uv.x - Math.floor( uv.x );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( uv.y < 0 || uv.y > 1 ) {\n\n\t\t\tswitch ( this.wrapT ) {\n\n\t\t\t\tcase RepeatWrapping:\n\n\t\t\t\t\tuv.y = uv.y - Math.floor( uv.y );\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase ClampToEdgeWrapping:\n\n\t\t\t\t\tuv.y = uv.y < 0 ? 0 : 1;\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase MirroredRepeatWrapping:\n\n\t\t\t\t\tif ( Math.abs( Math.floor( uv.y ) % 2 ) === 1 ) {\n\n\t\t\t\t\t\tuv.y = Math.ceil( uv.y ) - uv.y;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tuv.y = uv.y - Math.floor( uv.y );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.flipY ) {\n\n\t\t\tuv.y = 1 - uv.y;\n\n\t\t}\n\n\t\treturn uv;\n\n\t}\n\n\t/**\n\t * Setting this property to `true` indicates the engine the texture\n\t * must be updated in the next render. This triggers a texture upload\n\t * to the GPU and ensures correct texture parameter configuration.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) {\n\n\t\t\tthis.version ++;\n\t\t\tthis.source.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Setting this property to `true` indicates the engine the PMREM\n\t * must be regenerated.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsPMREMUpdate( value ) {\n\n\t\tif ( value === true ) {\n\n\t\t\tthis.pmremVersion ++;\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * The default image for all textures.\n *\n * @static\n * @type {?Image}\n * @default null\n */\nTexture.DEFAULT_IMAGE = null;\n\n/**\n * The default mapping for all textures.\n *\n * @static\n * @type {number}\n * @default UVMapping\n */\nTexture.DEFAULT_MAPPING = UVMapping;\n\n/**\n * The default anisotropy value for all textures.\n *\n * @static\n * @type {number}\n * @default 1\n */\nTexture.DEFAULT_ANISOTROPY = 1;\n\n/**\n * Class representing a 4D vector. A 4D vector is an ordered quadruplet of numbers\n * (labeled x, y, z and w), which can be used to represent a number of things, such as:\n *\n * - A point in 4D space.\n * - A direction and length in 4D space. In three.js the length will\n * always be the Euclidean distance(straight-line distance) from `(0, 0, 0, 0)` to `(x, y, z, w)`\n * and the direction is also measured from `(0, 0, 0, 0)` towards `(x, y, z, w)`.\n * - Any arbitrary ordered quadruplet of numbers.\n *\n * There are other things a 4D vector can be used to represent, however these\n * are the most common uses in *three.js*.\n *\n * Iterating through a vector instance will yield its components `(x, y, z, w)` in\n * the corresponding order.\n * ```js\n * const a = new THREE.Vector4( 0, 1, 0, 0 );\n *\n * //no arguments; will be initialised to (0, 0, 0, 1)\n * const b = new THREE.Vector4( );\n *\n * const d = a.dot( b );\n * ```\n */\nclass Vector4 {\n\n\t/**\n\t * Constructs a new 4D vector.\n\t *\n\t * @param {number} [x=0] - The x value of this vector.\n\t * @param {number} [y=0] - The y value of this vector.\n\t * @param {number} [z=0] - The z value of this vector.\n\t * @param {number} [w=1] - The w value of this vector.\n\t */\n\tconstructor( x = 0, y = 0, z = 0, w = 1 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tVector4.prototype.isVector4 = true;\n\n\t\t/**\n\t\t * The x value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.x = x;\n\n\t\t/**\n\t\t * The y value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.y = y;\n\n\t\t/**\n\t\t * The z value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.z = z;\n\n\t\t/**\n\t\t * The w value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.w = w;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector4#z}.\n\t *\n\t * @type {number}\n\t */\n\tget width() {\n\n\t\treturn this.z;\n\n\t}\n\n\tset width( value ) {\n\n\t\tthis.z = value;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector4#w}.\n\t *\n\t * @type {number}\n\t */\n\tget height() {\n\n\t\treturn this.w;\n\n\t}\n\n\tset height( value ) {\n\n\t\tthis.w = value;\n\n\t}\n\n\t/**\n\t * Sets the vector components.\n\t *\n\t * @param {number} x - The value of the x component.\n\t * @param {number} y - The value of the y component.\n\t * @param {number} z - The value of the z component.\n\t * @param {number} w - The value of the w component.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tset( x, y, z, w ) {\n\n\t\tthis.x = x;\n\t\tthis.y = y;\n\t\tthis.z = z;\n\t\tthis.w = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the same value.\n\t *\n\t * @param {number} scalar - The value to set for all vector components.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.x = scalar;\n\t\tthis.y = scalar;\n\t\tthis.z = scalar;\n\t\tthis.w = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's x component to the given value\n\t *\n\t * @param {number} x - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetX( x ) {\n\n\t\tthis.x = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's y component to the given value\n\t *\n\t * @param {number} y - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetY( y ) {\n\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's z component to the given value\n\t *\n\t * @param {number} z - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetZ( z ) {\n\n\t\tthis.z = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's w component to the given value\n\t *\n\t * @param {number} w - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetW( w ) {\n\n\t\tthis.w = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Allows to set a vector component with an index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y,\n\t * `2` equals to z, `3` equals to w.\n\t * @param {number} value - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetComponent( index, value ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: this.x = value; break;\n\t\t\tcase 1: this.y = value; break;\n\t\t\tcase 2: this.z = value; break;\n\t\t\tcase 3: this.w = value; break;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the value of the vector component which matches the given index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y,\n\t * `2` equals to z, `3` equals to w.\n\t * @return {number} A vector component value.\n\t */\n\tgetComponent( index ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: return this.x;\n\t\t\tcase 1: return this.y;\n\t\t\tcase 2: return this.z;\n\t\t\tcase 3: return this.w;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new vector with copied values from this instance.\n\t *\n\t * @return {Vector4} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.x, this.y, this.z, this.w );\n\n\t}\n\n\t/**\n\t * Copies the values of the given vector to this instance.\n\t *\n\t * @param {Vector3|Vector4} v - The vector to copy.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tcopy( v ) {\n\n\t\tthis.x = v.x;\n\t\tthis.y = v.y;\n\t\tthis.z = v.z;\n\t\tthis.w = ( v.w !== undefined ) ? v.w : 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector to this instance.\n\t *\n\t * @param {Vector4} v - The vector to add.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tadd( v ) {\n\n\t\tthis.x += v.x;\n\t\tthis.y += v.y;\n\t\tthis.z += v.z;\n\t\tthis.w += v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to all components of this instance.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.x += s;\n\t\tthis.y += s;\n\t\tthis.z += s;\n\t\tthis.w += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector4} a - The first vector.\n\t * @param {Vector4} b - The second vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\taddVectors( a, b ) {\n\n\t\tthis.x = a.x + b.x;\n\t\tthis.y = a.y + b.y;\n\t\tthis.z = a.z + b.z;\n\t\tthis.w = a.w + b.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector scaled by the given factor to this instance.\n\t *\n\t * @param {Vector4} v - The vector.\n\t * @param {number} s - The factor that scales `v`.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\taddScaledVector( v, s ) {\n\n\t\tthis.x += v.x * s;\n\t\tthis.y += v.y * s;\n\t\tthis.z += v.z * s;\n\t\tthis.w += v.w * s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vector from this instance.\n\t *\n\t * @param {Vector4} v - The vector to subtract.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsub( v ) {\n\n\t\tthis.x -= v.x;\n\t\tthis.y -= v.y;\n\t\tthis.z -= v.z;\n\t\tthis.w -= v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given scalar value from all components of this instance.\n\t *\n\t * @param {number} s - The scalar to subtract.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsubScalar( s ) {\n\n\t\tthis.x -= s;\n\t\tthis.y -= s;\n\t\tthis.z -= s;\n\t\tthis.w -= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector4} a - The first vector.\n\t * @param {Vector4} b - The second vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsubVectors( a, b ) {\n\n\t\tthis.x = a.x - b.x;\n\t\tthis.y = a.y - b.y;\n\t\tthis.z = a.z - b.z;\n\t\tthis.w = a.w - b.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vector with this instance.\n\t *\n\t * @param {Vector4} v - The vector to multiply.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmultiply( v ) {\n\n\t\tthis.x *= v.x;\n\t\tthis.y *= v.y;\n\t\tthis.z *= v.z;\n\t\tthis.w *= v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with all components of this instance.\n\t *\n\t * @param {number} scalar - The scalar to multiply.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmultiplyScalar( scalar ) {\n\n\t\tthis.x *= scalar;\n\t\tthis.y *= scalar;\n\t\tthis.z *= scalar;\n\t\tthis.w *= scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies this vector with the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tconst x = this.x, y = this.y, z = this.z, w = this.w;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z + e[ 12 ] * w;\n\t\tthis.y = e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z + e[ 13 ] * w;\n\t\tthis.z = e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z + e[ 14 ] * w;\n\t\tthis.w = e[ 3 ] * x + e[ 7 ] * y + e[ 11 ] * z + e[ 15 ] * w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this instance by the given vector.\n\t *\n\t * @param {Vector4} v - The vector to divide.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tdivide( v ) {\n\n\t\tthis.x /= v.x;\n\t\tthis.y /= v.y;\n\t\tthis.z /= v.z;\n\t\tthis.w /= v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this vector by the given scalar.\n\t *\n\t * @param {number} scalar - The scalar to divide.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tdivideScalar( scalar ) {\n\n\t\treturn this.multiplyScalar( 1 / scalar );\n\n\t}\n\n\t/**\n\t * Sets the x, y and z components of this\n\t * vector to the quaternion's axis and w to the angle.\n\t *\n\t * @param {Quaternion} q - The Quaternion to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetAxisAngleFromQuaternion( q ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/quaternionToAngle/index.htm\n\n\t\t// q is assumed to be normalized\n\n\t\tthis.w = 2 * Math.acos( q.w );\n\n\t\tconst s = Math.sqrt( 1 - q.w * q.w );\n\n\t\tif ( s < 0.0001 ) {\n\n\t\t\tthis.x = 1;\n\t\t\tthis.y = 0;\n\t\t\tthis.z = 0;\n\n\t\t} else {\n\n\t\t\tthis.x = q.x / s;\n\t\t\tthis.y = q.y / s;\n\t\t\tthis.z = q.z / s;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y and z components of this\n\t * vector to the axis of rotation and w to the angle.\n\t *\n\t * @param {Matrix4} m - A 4x4 matrix of which the upper left 3x3 matrix is a pure rotation matrix.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetAxisAngleFromRotationMatrix( m ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/matrixToAngle/index.htm\n\n\t\t// assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled)\n\n\t\tlet angle, x, y, z; // variables for result\n\t\tconst epsilon = 0.01,\t\t// margin to allow for rounding errors\n\t\t\tepsilon2 = 0.1,\t\t// margin to distinguish between 0 and 180 degrees\n\n\t\t\tte = m.elements,\n\n\t\t\tm11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ],\n\t\t\tm21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ],\n\t\t\tm31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ];\n\n\t\tif ( ( Math.abs( m12 - m21 ) < epsilon ) &&\n\t\t ( Math.abs( m13 - m31 ) < epsilon ) &&\n\t\t ( Math.abs( m23 - m32 ) < epsilon ) ) {\n\n\t\t\t// singularity found\n\t\t\t// first check for identity matrix which must have +1 for all terms\n\t\t\t// in leading diagonal and zero in other terms\n\n\t\t\tif ( ( Math.abs( m12 + m21 ) < epsilon2 ) &&\n\t\t\t ( Math.abs( m13 + m31 ) < epsilon2 ) &&\n\t\t\t ( Math.abs( m23 + m32 ) < epsilon2 ) &&\n\t\t\t ( Math.abs( m11 + m22 + m33 - 3 ) < epsilon2 ) ) {\n\n\t\t\t\t// this singularity is identity matrix so angle = 0\n\n\t\t\t\tthis.set( 1, 0, 0, 0 );\n\n\t\t\t\treturn this; // zero angle, arbitrary axis\n\n\t\t\t}\n\n\t\t\t// otherwise this singularity is angle = 180\n\n\t\t\tangle = Math.PI;\n\n\t\t\tconst xx = ( m11 + 1 ) / 2;\n\t\t\tconst yy = ( m22 + 1 ) / 2;\n\t\t\tconst zz = ( m33 + 1 ) / 2;\n\t\t\tconst xy = ( m12 + m21 ) / 4;\n\t\t\tconst xz = ( m13 + m31 ) / 4;\n\t\t\tconst yz = ( m23 + m32 ) / 4;\n\n\t\t\tif ( ( xx > yy ) && ( xx > zz ) ) {\n\n\t\t\t\t// m11 is the largest diagonal term\n\n\t\t\t\tif ( xx < epsilon ) {\n\n\t\t\t\t\tx = 0;\n\t\t\t\t\ty = 0.707106781;\n\t\t\t\t\tz = 0.707106781;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tx = Math.sqrt( xx );\n\t\t\t\t\ty = xy / x;\n\t\t\t\t\tz = xz / x;\n\n\t\t\t\t}\n\n\t\t\t} else if ( yy > zz ) {\n\n\t\t\t\t// m22 is the largest diagonal term\n\n\t\t\t\tif ( yy < epsilon ) {\n\n\t\t\t\t\tx = 0.707106781;\n\t\t\t\t\ty = 0;\n\t\t\t\t\tz = 0.707106781;\n\n\t\t\t\t} else {\n\n\t\t\t\t\ty = Math.sqrt( yy );\n\t\t\t\t\tx = xy / y;\n\t\t\t\t\tz = yz / y;\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// m33 is the largest diagonal term so base result on this\n\n\t\t\t\tif ( zz < epsilon ) {\n\n\t\t\t\t\tx = 0.707106781;\n\t\t\t\t\ty = 0.707106781;\n\t\t\t\t\tz = 0;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tz = Math.sqrt( zz );\n\t\t\t\t\tx = xz / z;\n\t\t\t\t\ty = yz / z;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.set( x, y, z, angle );\n\n\t\t\treturn this; // return 180 deg rotation\n\n\t\t}\n\n\t\t// as we have reached here there are no singularities so we can handle normally\n\n\t\tlet s = Math.sqrt( ( m32 - m23 ) * ( m32 - m23 ) +\n\t\t\t( m13 - m31 ) * ( m13 - m31 ) +\n\t\t\t( m21 - m12 ) * ( m21 - m12 ) ); // used to normalize\n\n\t\tif ( Math.abs( s ) < 0.001 ) s = 1;\n\n\t\t// prevent divide by zero, should not happen if matrix is orthogonal and should be\n\t\t// caught by singularity test above, but I've left it in just in case\n\n\t\tthis.x = ( m32 - m23 ) / s;\n\t\tthis.y = ( m13 - m31 ) / s;\n\t\tthis.z = ( m21 - m12 ) / s;\n\t\tthis.w = Math.acos( ( m11 + m22 + m33 - 1 ) / 2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the position elements of the\n\t * given transformation matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetFromMatrixPosition( m ) {\n\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 12 ];\n\t\tthis.y = e[ 13 ];\n\t\tthis.z = e[ 14 ];\n\t\tthis.w = e[ 15 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w value is greater than the given vector's x, y, z or w\n\t * value, replace that value with the corresponding min value.\n\t *\n\t * @param {Vector4} v - The vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmin( v ) {\n\n\t\tthis.x = Math.min( this.x, v.x );\n\t\tthis.y = Math.min( this.y, v.y );\n\t\tthis.z = Math.min( this.z, v.z );\n\t\tthis.w = Math.min( this.w, v.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w value is less than the given vector's x, y, z or w\n\t * value, replace that value with the corresponding max value.\n\t *\n\t * @param {Vector4} v - The vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmax( v ) {\n\n\t\tthis.x = Math.max( this.x, v.x );\n\t\tthis.y = Math.max( this.y, v.y );\n\t\tthis.z = Math.max( this.z, v.z );\n\t\tthis.w = Math.max( this.w, v.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w value is greater than the max vector's x, y, z or w\n\t * value, it is replaced by the corresponding value.\n\t * If this vector's x, y, z or w value is less than the min vector's x, y, z or w value,\n\t * it is replaced by the corresponding value.\n\t *\n\t * @param {Vector4} min - The minimum x, y and z values.\n\t * @param {Vector4} max - The maximum x, y and z values in the desired range.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tclamp( min, max ) {\n\n\t\t// assumes min < max, componentwise\n\n\t\tthis.x = clamp( this.x, min.x, max.x );\n\t\tthis.y = clamp( this.y, min.y, max.y );\n\t\tthis.z = clamp( this.z, min.z, max.z );\n\t\tthis.w = clamp( this.w, min.w, max.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w values are greater than the max value, they are\n\t * replaced by the max value.\n\t * If this vector's x, y, z or w values are less than the min value, they are\n\t * replaced by the min value.\n\t *\n\t * @param {number} minVal - The minimum value the components will be clamped to.\n\t * @param {number} maxVal - The maximum value the components will be clamped to.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tclampScalar( minVal, maxVal ) {\n\n\t\tthis.x = clamp( this.x, minVal, maxVal );\n\t\tthis.y = clamp( this.y, minVal, maxVal );\n\t\tthis.z = clamp( this.z, minVal, maxVal );\n\t\tthis.w = clamp( this.w, minVal, maxVal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's length is greater than the max value, it is replaced by\n\t * the max value.\n\t * If this vector's length is less than the min value, it is replaced by the\n\t * min value.\n\t *\n\t * @param {number} min - The minimum value the vector length will be clamped to.\n\t * @param {number} max - The maximum value the vector length will be clamped to.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tclampLength( min, max ) {\n\n\t\tconst length = this.length();\n\n\t\treturn this.divideScalar( length || 1 ).multiplyScalar( clamp( length, min, max ) );\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded down to the nearest integer value.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tfloor() {\n\n\t\tthis.x = Math.floor( this.x );\n\t\tthis.y = Math.floor( this.y );\n\t\tthis.z = Math.floor( this.z );\n\t\tthis.w = Math.floor( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded up to the nearest integer value.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tceil() {\n\n\t\tthis.x = Math.ceil( this.x );\n\t\tthis.y = Math.ceil( this.y );\n\t\tthis.z = Math.ceil( this.z );\n\t\tthis.w = Math.ceil( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded to the nearest integer value\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tround() {\n\n\t\tthis.x = Math.round( this.x );\n\t\tthis.y = Math.round( this.y );\n\t\tthis.z = Math.round( this.z );\n\t\tthis.w = Math.round( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded towards zero (up if negative,\n\t * down if positive) to an integer value.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\troundToZero() {\n\n\t\tthis.x = Math.trunc( this.x );\n\t\tthis.y = Math.trunc( this.y );\n\t\tthis.z = Math.trunc( this.z );\n\t\tthis.w = Math.trunc( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this vector - i.e. sets x = -x, y = -y, z = -z, w = -w.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tnegate() {\n\n\t\tthis.x = - this.x;\n\t\tthis.y = - this.y;\n\t\tthis.z = - this.z;\n\t\tthis.w = - this.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of the given vector with this instance.\n\t *\n\t * @param {Vector4} v - The vector to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this.x * v.x + this.y * v.y + this.z * v.z + this.w * v.w;\n\n\t}\n\n\t/**\n\t * Computes the square of the Euclidean length (straight-line length) from\n\t * (0, 0, 0, 0) to (x, y, z, w). If you are comparing the lengths of vectors, you should\n\t * compare the length squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @return {number} The square length of this vector.\n\t */\n\tlengthSq() {\n\n\t\treturn this.x * this.x + this.y * this.y + this.z * this.z + this.w * this.w;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) from (0, 0, 0, 0) to (x, y, z, w).\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this.x * this.x + this.y * this.y + this.z * this.z + this.w * this.w );\n\n\t}\n\n\t/**\n\t * Computes the Manhattan length of this vector.\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tmanhattanLength() {\n\n\t\treturn Math.abs( this.x ) + Math.abs( this.y ) + Math.abs( this.z ) + Math.abs( this.w );\n\n\t}\n\n\t/**\n\t * Converts this vector to a unit vector - that is, sets it equal to a vector\n\t * with the same direction as this one, but with a vector length of `1`.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tnormalize() {\n\n\t\treturn this.divideScalar( this.length() || 1 );\n\n\t}\n\n\t/**\n\t * Sets this vector to a vector with the same direction as this one, but\n\t * with the specified length.\n\t *\n\t * @param {number} length - The new length of this vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetLength( length ) {\n\n\t\treturn this.normalize().multiplyScalar( length );\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vector and this instance, where\n\t * alpha is the percent distance along the line - alpha = 0 will be this\n\t * vector, and alpha = 1 will be the given one.\n\t *\n\t * @param {Vector4} v - The vector to interpolate towards.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tlerp( v, alpha ) {\n\n\t\tthis.x += ( v.x - this.x ) * alpha;\n\t\tthis.y += ( v.y - this.y ) * alpha;\n\t\tthis.z += ( v.z - this.z ) * alpha;\n\t\tthis.w += ( v.w - this.w ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vectors, where alpha is the percent\n\t * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n\t * be the second one. The result is stored in this instance.\n\t *\n\t * @param {Vector4} v1 - The first vector.\n\t * @param {Vector4} v2 - The second vector.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tlerpVectors( v1, v2, alpha ) {\n\n\t\tthis.x = v1.x + ( v2.x - v1.x ) * alpha;\n\t\tthis.y = v1.y + ( v2.y - v1.y ) * alpha;\n\t\tthis.z = v1.z + ( v2.z - v1.z ) * alpha;\n\t\tthis.w = v1.w + ( v2.w - v1.w ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this vector is equal with the given one.\n\t *\n\t * @param {Vector4} v - The vector to test for equality.\n\t * @return {boolean} Whether this vector is equal with the given one.\n\t */\n\tequals( v ) {\n\n\t\treturn ( ( v.x === this.x ) && ( v.y === this.y ) && ( v.z === this.z ) && ( v.w === this.w ) );\n\n\t}\n\n\t/**\n\t * Sets this vector's x value to be `array[ offset ]`, y value to be `array[ offset + 1 ]`,\n\t * z value to be `array[ offset + 2 ]`, w value to be `array[ offset + 3 ]`.\n\t *\n\t * @param {Array} array - An array holding the vector component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.x = array[ offset ];\n\t\tthis.y = array[ offset + 1 ];\n\t\tthis.z = array[ offset + 2 ];\n\t\tthis.w = array[ offset + 3 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this vector to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the vector components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The vector components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.x;\n\t\tarray[ offset + 1 ] = this.y;\n\t\tarray[ offset + 2 ] = this.z;\n\t\tarray[ offset + 3 ] = this.w;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this vector from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.x = attribute.getX( index );\n\t\tthis.y = attribute.getY( index );\n\t\tthis.z = attribute.getZ( index );\n\t\tthis.w = attribute.getW( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets each component of this vector to a pseudo-random value between `0` and\n\t * `1`, excluding `1`.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\trandom() {\n\n\t\tthis.x = Math.random();\n\t\tthis.y = Math.random();\n\t\tthis.z = Math.random();\n\t\tthis.w = Math.random();\n\n\t\treturn this;\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.x;\n\t\tyield this.y;\n\t\tyield this.z;\n\t\tyield this.w;\n\n\t}\n\n}\n\n/**\n * A render target is a buffer where the video card draws pixels for a scene\n * that is being rendered in the background. It is used in different effects,\n * such as applying postprocessing to a rendered image before displaying it\n * on the screen.\n *\n * @augments EventDispatcher\n */\nclass RenderTarget extends EventDispatcher {\n\n\t/**\n\t * Render target options.\n\t *\n\t * @typedef {Object} RenderTarget~Options\n\t * @property {boolean} [generateMipmaps=false] - Whether to generate mipmaps or not.\n\t * @property {number} [magFilter=LinearFilter] - The mag filter.\n\t * @property {number} [minFilter=LinearFilter] - The min filter.\n\t * @property {number} [format=RGBAFormat] - The texture format.\n\t * @property {number} [type=UnsignedByteType] - The texture type.\n\t * @property {?string} [internalFormat=null] - The texture's internal format.\n\t * @property {number} [wrapS=ClampToEdgeWrapping] - The texture's uv wrapping mode.\n\t * @property {number} [wrapT=ClampToEdgeWrapping] - The texture's uv wrapping mode.\n\t * @property {number} [anisotropy=1] - The texture's anisotropy value.\n\t * @property {string} [colorSpace=NoColorSpace] - The texture's color space.\n\t * @property {boolean} [depthBuffer=true] - Whether to allocate a depth buffer or not.\n\t * @property {boolean} [stencilBuffer=false] - Whether to allocate a stencil buffer or not.\n\t * @property {boolean} [resolveDepthBuffer=true] - Whether to resolve the depth buffer or not.\n\t * @property {boolean} [resolveStencilBuffer=true] - Whether to resolve the stencil buffer or not.\n\t * @property {?Texture} [depthTexture=null] - Reference to a depth texture.\n\t * @property {number} [samples=0] - The MSAA samples count.\n\t * @property {number} [count=1] - Defines the number of color attachments . Must be at least `1`.\n\t * @property {number} [depth=1] - The texture depth.\n\t * @property {boolean} [multiview=false] - Whether this target is used for multiview rendering.\n\t */\n\n\t/**\n\t * Constructs a new render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, options = {} ) {\n\n\t\tsuper();\n\n\t\toptions = Object.assign( {\n\t\t\tgenerateMipmaps: false,\n\t\t\tinternalFormat: null,\n\t\t\tminFilter: LinearFilter,\n\t\t\tdepthBuffer: true,\n\t\t\tstencilBuffer: false,\n\t\t\tresolveDepthBuffer: true,\n\t\t\tresolveStencilBuffer: true,\n\t\t\tdepthTexture: null,\n\t\t\tsamples: 0,\n\t\t\tcount: 1,\n\t\t\tdepth: 1,\n\t\t\tmultiview: false\n\t\t}, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRenderTarget = true;\n\n\t\t/**\n\t\t * The width of the render target.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.width = width;\n\n\t\t/**\n\t\t * The height of the render target.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.height = height;\n\n\t\t/**\n\t\t * The depth of the render target.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.depth = options.depth;\n\n\t\t/**\n\t\t * A rectangular area inside the render target's viewport. Fragments that are\n\t\t * outside the area will be discarded.\n\t\t *\n\t\t * @type {Vector4}\n\t\t * @default (0,0,width,height)\n\t\t */\n\t\tthis.scissor = new Vector4( 0, 0, width, height );\n\n\t\t/**\n\t\t * Indicates whether the scissor test should be enabled when rendering into\n\t\t * this render target or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.scissorTest = false;\n\n\t\t/**\n\t\t * A rectangular area representing the render target's viewport.\n\t\t *\n\t\t * @type {Vector4}\n\t\t * @default (0,0,width,height)\n\t\t */\n\t\tthis.viewport = new Vector4( 0, 0, width, height );\n\n\t\tconst image = { width: width, height: height, depth: options.depth };\n\n\t\tconst texture = new Texture( image );\n\n\t\t/**\n\t\t * An array of textures. Each color attachment is represented as a separate texture.\n\t\t * Has at least a single entry for the default color attachment.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.textures = [];\n\n\t\tconst count = options.count;\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.textures[ i ] = texture.clone();\n\t\t\tthis.textures[ i ].isRenderTargetTexture = true;\n\t\t\tthis.textures[ i ].renderTarget = this;\n\n\t\t}\n\n\t\tthis._setTextureOptions( options );\n\n\t\t/**\n\t\t * Whether to allocate a depth buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.depthBuffer = options.depthBuffer;\n\n\t\t/**\n\t\t * Whether to allocate a stencil buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.stencilBuffer = options.stencilBuffer;\n\n\t\t/**\n\t\t * Whether to resolve the depth buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.resolveDepthBuffer = options.resolveDepthBuffer;\n\n\t\t/**\n\t\t * Whether to resolve the stencil buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.resolveStencilBuffer = options.resolveStencilBuffer;\n\n\t\tthis._depthTexture = null;\n\t\tthis.depthTexture = options.depthTexture;\n\n\t\t/**\n\t\t * The number of MSAA samples.\n\t\t *\n\t\t * A value of `0` disables MSAA.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.samples = options.samples;\n\n\t\t/**\n\t\t * Whether to this target is used in multiview rendering.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.multiview = options.multiview;\n\n\t}\n\n\t_setTextureOptions( options = {} ) {\n\n\t\tconst values = {\n\t\t\tminFilter: LinearFilter,\n\t\t\tgenerateMipmaps: false,\n\t\t\tflipY: false,\n\t\t\tinternalFormat: null\n\t\t};\n\n\t\tif ( options.mapping !== undefined ) values.mapping = options.mapping;\n\t\tif ( options.wrapS !== undefined ) values.wrapS = options.wrapS;\n\t\tif ( options.wrapT !== undefined ) values.wrapT = options.wrapT;\n\t\tif ( options.wrapR !== undefined ) values.wrapR = options.wrapR;\n\t\tif ( options.magFilter !== undefined ) values.magFilter = options.magFilter;\n\t\tif ( options.minFilter !== undefined ) values.minFilter = options.minFilter;\n\t\tif ( options.format !== undefined ) values.format = options.format;\n\t\tif ( options.type !== undefined ) values.type = options.type;\n\t\tif ( options.anisotropy !== undefined ) values.anisotropy = options.anisotropy;\n\t\tif ( options.colorSpace !== undefined ) values.colorSpace = options.colorSpace;\n\t\tif ( options.flipY !== undefined ) values.flipY = options.flipY;\n\t\tif ( options.generateMipmaps !== undefined ) values.generateMipmaps = options.generateMipmaps;\n\t\tif ( options.internalFormat !== undefined ) values.internalFormat = options.internalFormat;\n\n\t\tfor ( let i = 0; i < this.textures.length; i ++ ) {\n\n\t\t\tconst texture = this.textures[ i ];\n\t\t\ttexture.setValues( values );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * The texture representing the default color attachment.\n\t *\n\t * @type {Texture}\n\t */\n\tget texture() {\n\n\t\treturn this.textures[ 0 ];\n\n\t}\n\n\tset texture( value ) {\n\n\t\tthis.textures[ 0 ] = value;\n\n\t}\n\n\tset depthTexture( current ) {\n\n\t\tif ( this._depthTexture !== null ) this._depthTexture.renderTarget = null;\n\t\tif ( current !== null ) current.renderTarget = this;\n\n\t\tthis._depthTexture = current;\n\n\t}\n\n\t/**\n\t * Instead of saving the depth in a renderbuffer, a texture\n\t * can be used instead which is useful for further processing\n\t * e.g. in context of post-processing.\n\t *\n\t * @type {?DepthTexture}\n\t * @default null\n\t */\n\tget depthTexture() {\n\n\t\treturn this._depthTexture;\n\n\t}\n\n\t/**\n\t * Sets the size of this render target.\n\t *\n\t * @param {number} width - The width.\n\t * @param {number} height - The height.\n\t * @param {number} [depth=1] - The depth.\n\t */\n\tsetSize( width, height, depth = 1 ) {\n\n\t\tif ( this.width !== width || this.height !== height || this.depth !== depth ) {\n\n\t\t\tthis.width = width;\n\t\t\tthis.height = height;\n\t\t\tthis.depth = depth;\n\n\t\t\tfor ( let i = 0, il = this.textures.length; i < il; i ++ ) {\n\n\t\t\t\tthis.textures[ i ].image.width = width;\n\t\t\t\tthis.textures[ i ].image.height = height;\n\t\t\t\tthis.textures[ i ].image.depth = depth;\n\t\t\t\tthis.textures[ i ].isArrayTexture = this.textures[ i ].image.depth > 1;\n\n\t\t\t}\n\n\t\t\tthis.dispose();\n\n\t\t}\n\n\t\tthis.viewport.set( 0, 0, width, height );\n\t\tthis.scissor.set( 0, 0, width, height );\n\n\t}\n\n\t/**\n\t * Returns a new render target with copied values from this instance.\n\t *\n\t * @return {RenderTarget} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the settings of the given render target. This is a structural copy so\n\t * no resources are shared between render targets after the copy. That includes\n\t * all MRT textures and the depth texture.\n\t *\n\t * @param {RenderTarget} source - The render target to copy.\n\t * @return {RenderTarget} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.width = source.width;\n\t\tthis.height = source.height;\n\t\tthis.depth = source.depth;\n\n\t\tthis.scissor.copy( source.scissor );\n\t\tthis.scissorTest = source.scissorTest;\n\n\t\tthis.viewport.copy( source.viewport );\n\n\t\tthis.textures.length = 0;\n\n\t\tfor ( let i = 0, il = source.textures.length; i < il; i ++ ) {\n\n\t\t\tthis.textures[ i ] = source.textures[ i ].clone();\n\t\t\tthis.textures[ i ].isRenderTargetTexture = true;\n\t\t\tthis.textures[ i ].renderTarget = this;\n\n\t\t\t// ensure image object is not shared, see #20328\n\n\t\t\tconst image = Object.assign( {}, source.textures[ i ].image );\n\t\t\tthis.textures[ i ].source = new Source( image );\n\n\t\t}\n\n\t\tthis.depthBuffer = source.depthBuffer;\n\t\tthis.stencilBuffer = source.stencilBuffer;\n\n\t\tthis.resolveDepthBuffer = source.resolveDepthBuffer;\n\t\tthis.resolveStencilBuffer = source.resolveStencilBuffer;\n\n\t\tif ( source.depthTexture !== null ) this.depthTexture = source.depthTexture.clone();\n\n\t\tthis.samples = source.samples;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires RenderTarget#dispose\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n}\n\n/**\n * A render target used in context of {@link WebGLRenderer}.\n *\n * @augments RenderTarget\n */\nclass WebGLRenderTarget extends RenderTarget {\n\n\t/**\n\t * Constructs a new 3D render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGLRenderTarget = true;\n\n\t}\n\n}\n\n/**\n * Creates an array of textures directly from raw buffer data.\n *\n * @augments Texture\n */\nclass DataArrayTexture extends Texture {\n\n\t/**\n\t * Constructs a new data array texture.\n\t *\n\t * @param {?TypedArray} [data=null] - The buffer data.\n\t * @param {number} [width=1] - The width of the texture.\n\t * @param {number} [height=1] - The height of the texture.\n\t * @param {number} [depth=1] - The depth of the texture.\n\t */\n\tconstructor( data = null, width = 1, height = 1, depth = 1 ) {\n\n\t\tsuper( null );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDataArrayTexture = true;\n\n\t\t/**\n\t\t * The image definition of a data texture.\n\t\t *\n\t\t * @type {{data:TypedArray,width:number,height:number,depth:number}}\n\t\t */\n\t\tthis.image = { data, width, height, depth };\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.magFilter = NearestFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.minFilter = NearestFilter;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped in the depth and corresponds to\n\t\t * *W* in UVW mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapR = ClampToEdgeWrapping;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t *\n\t\t * Overwritten and set to `1` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default 1\n\t\t */\n\t\tthis.unpackAlignment = 1;\n\n\t\t/**\n\t\t * A set of all layers which need to be updated in the texture.\n\t\t *\n\t\t * @type {Set}\n\t\t */\n\t\tthis.layerUpdates = new Set();\n\n\t}\n\n\t/**\n\t * Describes that a specific layer of the texture needs to be updated.\n\t * Normally when {@link Texture#needsUpdate} is set to `true`, the\n\t * entire data texture array is sent to the GPU. Marking specific\n\t * layers will only transmit subsets of all mipmaps associated with a\n\t * specific depth in the array which is often much more performant.\n\t *\n\t * @param {number} layerIndex - The layer index that should be updated.\n\t */\n\taddLayerUpdate( layerIndex ) {\n\n\t\tthis.layerUpdates.add( layerIndex );\n\n\t}\n\n\t/**\n\t * Resets the layer updates registry.\n\t */\n\tclearLayerUpdates() {\n\n\t\tthis.layerUpdates.clear();\n\n\t}\n\n}\n\n/**\n * An array render target used in context of {@link WebGLRenderer}.\n *\n * @augments WebGLRenderTarget\n */\nclass WebGLArrayRenderTarget extends WebGLRenderTarget {\n\n\t/**\n\t * Constructs a new array render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {number} [depth=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGLArrayRenderTarget = true;\n\n\t\tthis.depth = depth;\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {DataArrayTexture}\n\t\t */\n\t\tthis.texture = new DataArrayTexture( null, width, height, depth );\n\t\tthis._setTextureOptions( options );\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n}\n\n/**\n * Creates a three-dimensional texture from raw data, with parameters to\n * divide it into width, height, and depth.\n *\n * @augments Texture\n */\nclass Data3DTexture extends Texture {\n\n\t/**\n\t * Constructs a new data array texture.\n\t *\n\t * @param {?TypedArray} [data=null] - The buffer data.\n\t * @param {number} [width=1] - The width of the texture.\n\t * @param {number} [height=1] - The height of the texture.\n\t * @param {number} [depth=1] - The depth of the texture.\n\t */\n\tconstructor( data = null, width = 1, height = 1, depth = 1 ) {\n\n\t\t// We're going to add .setXXX() methods for setting properties later.\n\t\t// Users can still set in Data3DTexture directly.\n\t\t//\n\t\t//\tconst texture = new THREE.Data3DTexture( data, width, height, depth );\n\t\t// \ttexture.anisotropy = 16;\n\t\t//\n\t\t// See #14839\n\n\t\tsuper( null );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isData3DTexture = true;\n\n\t\t/**\n\t\t * The image definition of a data texture.\n\t\t *\n\t\t * @type {{data:TypedArray,width:number,height:number,depth:number}}\n\t\t */\n\t\tthis.image = { data, width, height, depth };\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.magFilter = NearestFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.minFilter = NearestFilter;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped in the depth and corresponds to\n\t\t * *W* in UVW mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapR = ClampToEdgeWrapping;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t *\n\t\t * Overwritten and set to `1` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default 1\n\t\t */\n\t\tthis.unpackAlignment = 1;\n\n\t}\n\n}\n\n/**\n * A 3D render target used in context of {@link WebGLRenderer}.\n *\n * @augments WebGLRenderTarget\n */\nclass WebGL3DRenderTarget extends WebGLRenderTarget {\n\n\t/**\n\t * Constructs a new 3D render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {number} [depth=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGL3DRenderTarget = true;\n\n\t\tthis.depth = depth;\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {Data3DTexture}\n\t\t */\n\t\tthis.texture = new Data3DTexture( null, width, height, depth );\n\t\tthis._setTextureOptions( options );\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n}\n\n/**\n * Represents an axis-aligned bounding box (AABB) in 3D space.\n */\nclass Box3 {\n\n\t/**\n\t * Constructs a new bounding box.\n\t *\n\t * @param {Vector3} [min=(Infinity,Infinity,Infinity)] - A vector representing the lower boundary of the box.\n\t * @param {Vector3} [max=(-Infinity,-Infinity,-Infinity)] - A vector representing the upper boundary of the box.\n\t */\n\tconstructor( min = new Vector3( + Infinity, + Infinity, + Infinity ), max = new Vector3( - Infinity, - Infinity, - Infinity ) ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBox3 = true;\n\n\t\t/**\n\t\t * The lower boundary of the box.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.min = min;\n\n\t\t/**\n\t\t * The upper boundary of the box.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.max = max;\n\n\t}\n\n\t/**\n\t * Sets the lower and upper boundaries of this box.\n\t * Please note that this method only copies the values from the given objects.\n\t *\n\t * @param {Vector3} min - The lower boundary of the box.\n\t * @param {Vector3} max - The upper boundary of the box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tset( min, max ) {\n\n\t\tthis.min.copy( min );\n\t\tthis.max.copy( max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given array.\n\t *\n\t * @param {Array} array - An array holding 3D position data.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromArray( array ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = array.length; i < il; i += 3 ) {\n\n\t\t\tthis.expandByPoint( _vector$b.fromArray( array, i ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - A buffer attribute holding 3D position data.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromBufferAttribute( attribute ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = attribute.count; i < il; i ++ ) {\n\n\t\t\tthis.expandByPoint( _vector$b.fromBufferAttribute( attribute, i ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given array.\n\t *\n\t * @param {Array} points - An array holding 3D position data as instances of {@link Vector3}.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = points.length; i < il; i ++ ) {\n\n\t\t\tthis.expandByPoint( points[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Centers this box on the given center vector and sets this box's width, height and\n\t * depth to the given size values.\n\t *\n\t * @param {Vector3} center - The center of the box.\n\t * @param {Vector3} size - The x, y and z dimensions of the box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromCenterAndSize( center, size ) {\n\n\t\tconst halfSize = _vector$b.copy( size ).multiplyScalar( 0.5 );\n\n\t\tthis.min.copy( center ).sub( halfSize );\n\t\tthis.max.copy( center ).add( halfSize );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the world-axis-aligned bounding box for the given 3D object\n\t * (including its children), accounting for the object's, and children's,\n\t * world transforms. The function may result in a larger box than strictly necessary.\n\t *\n\t * @param {Object3D} object - The 3D object to compute the bounding box for.\n\t * @param {boolean} [precise=false] - If set to `true`, the method computes the smallest\n\t * world-axis-aligned bounding box at the expense of more computation.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromObject( object, precise = false ) {\n\n\t\tthis.makeEmpty();\n\n\t\treturn this.expandByObject( object, precise );\n\n\t}\n\n\t/**\n\t * Returns a new box with copied values from this instance.\n\t *\n\t * @return {Box3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given box to this instance.\n\t *\n\t * @param {Box3} box - The box to copy.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tcopy( box ) {\n\n\t\tthis.min.copy( box.min );\n\t\tthis.max.copy( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Makes this box empty which means in encloses a zero space in 3D.\n\t *\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tmakeEmpty() {\n\n\t\tthis.min.x = this.min.y = this.min.z = + Infinity;\n\t\tthis.max.x = this.max.y = this.max.z = - Infinity;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns true if this box includes zero points within its bounds.\n\t * Note that a box with equal lower and upper bounds still includes one\n\t * point, the one both bounds share.\n\t *\n\t * @return {boolean} Whether this box is empty or not.\n\t */\n\tisEmpty() {\n\n\t\t// this is a more robust check for empty than ( volume <= 0 ) because volume can get positive with two negative axes\n\n\t\treturn ( this.max.x < this.min.x ) || ( this.max.y < this.min.y ) || ( this.max.z < this.min.z );\n\n\t}\n\n\t/**\n\t * Returns the center point of this box.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The center point.\n\t */\n\tgetCenter( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0, 0 ) : target.addVectors( this.min, this.max ).multiplyScalar( 0.5 );\n\n\t}\n\n\t/**\n\t * Returns the dimensions of this box.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The size.\n\t */\n\tgetSize( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0, 0 ) : target.subVectors( this.max, this.min );\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this box to include the given point.\n\t *\n\t * @param {Vector3} point - The point that should be included by the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByPoint( point ) {\n\n\t\tthis.min.min( point );\n\t\tthis.max.max( point );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands this box equilaterally by the given vector. The width of this\n\t * box will be expanded by the x component of the vector in both\n\t * directions. The height of this box will be expanded by the y component of\n\t * the vector in both directions. The depth of this box will be\n\t * expanded by the z component of the vector in both directions.\n\t *\n\t * @param {Vector3} vector - The vector that should expand the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByVector( vector ) {\n\n\t\tthis.min.sub( vector );\n\t\tthis.max.add( vector );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands each dimension of the box by the given scalar. If negative, the\n\t * dimensions of the box will be contracted.\n\t *\n\t * @param {number} scalar - The scalar value that should expand the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByScalar( scalar ) {\n\n\t\tthis.min.addScalar( - scalar );\n\t\tthis.max.addScalar( scalar );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this box to include the given 3D object and\n\t * its children, accounting for the object's, and children's, world\n\t * transforms. The function may result in a larger box than strictly\n\t * necessary (unless the precise parameter is set to true).\n\t *\n\t * @param {Object3D} object - The 3D object that should expand the bounding box.\n\t * @param {boolean} precise - If set to `true`, the method expands the bounding box\n\t * as little as necessary at the expense of more computation.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByObject( object, precise = false ) {\n\n\t\t// Computes the world-axis-aligned bounding box of an object (including its children),\n\t\t// accounting for both the object's, and children's, world transforms\n\n\t\tobject.updateWorldMatrix( false, false );\n\n\t\tconst geometry = object.geometry;\n\n\t\tif ( geometry !== undefined ) {\n\n\t\t\tconst positionAttribute = geometry.getAttribute( 'position' );\n\n\t\t\t// precise AABB computation based on vertex data requires at least a position attribute.\n\t\t\t// instancing isn't supported so far and uses the normal (conservative) code path.\n\n\t\t\tif ( precise === true && positionAttribute !== undefined && object.isInstancedMesh !== true ) {\n\n\t\t\t\tfor ( let i = 0, l = positionAttribute.count; i < l; i ++ ) {\n\n\t\t\t\t\tif ( object.isMesh === true ) {\n\n\t\t\t\t\t\tobject.getVertexPosition( i, _vector$b );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t_vector$b.fromBufferAttribute( positionAttribute, i );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t_vector$b.applyMatrix4( object.matrixWorld );\n\t\t\t\t\tthis.expandByPoint( _vector$b );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tif ( object.boundingBox !== undefined ) {\n\n\t\t\t\t\t// object-level bounding box\n\n\t\t\t\t\tif ( object.boundingBox === null ) {\n\n\t\t\t\t\t\tobject.computeBoundingBox();\n\n\t\t\t\t\t}\n\n\t\t\t\t\t_box$4.copy( object.boundingBox );\n\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// geometry-level bounding box\n\n\t\t\t\t\tif ( geometry.boundingBox === null ) {\n\n\t\t\t\t\t\tgeometry.computeBoundingBox();\n\n\t\t\t\t\t}\n\n\t\t\t\t\t_box$4.copy( geometry.boundingBox );\n\n\t\t\t\t}\n\n\t\t\t\t_box$4.applyMatrix4( object.matrixWorld );\n\n\t\t\t\tthis.union( _box$4 );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst children = object.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tthis.expandByObject( children[ i ], precise );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within or on the boundaries of this box.\n\t *\n\t * @param {Vector3} point - The point to test.\n\t * @return {boolean} Whether the bounding box contains the given point or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn point.x >= this.min.x && point.x <= this.max.x &&\n\t\t\tpoint.y >= this.min.y && point.y <= this.max.y &&\n\t\t\tpoint.z >= this.min.z && point.z <= this.max.z;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box includes the entirety of the given bounding box.\n\t * If this box and the given one are identical, this function also returns `true`.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the bounding box contains the given bounding box or not.\n\t */\n\tcontainsBox( box ) {\n\n\t\treturn this.min.x <= box.min.x && box.max.x <= this.max.x &&\n\t\t\tthis.min.y <= box.min.y && box.max.y <= this.max.y &&\n\t\t\tthis.min.z <= box.min.z && box.max.z <= this.max.z;\n\n\t}\n\n\t/**\n\t * Returns a point as a proportion of this box's width, height and depth.\n\t *\n\t * @param {Vector3} point - A point in 3D space.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} A point as a proportion of this box's width, height and depth.\n\t */\n\tgetParameter( point, target ) {\n\n\t\t// This can potentially have a divide by zero if the box\n\t\t// has a size dimension of 0.\n\n\t\treturn target.set(\n\t\t\t( point.x - this.min.x ) / ( this.max.x - this.min.x ),\n\t\t\t( point.y - this.min.y ) / ( this.max.y - this.min.y ),\n\t\t\t( point.z - this.min.z ) / ( this.max.z - this.min.z )\n\t\t);\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box intersects with this bounding box.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the given bounding box intersects with this bounding box.\n\t */\n\tintersectsBox( box ) {\n\n\t\t// using 6 splitting planes to rule out intersections.\n\t\treturn box.max.x >= this.min.x && box.min.x <= this.max.x &&\n\t\t\tbox.max.y >= this.min.y && box.min.y <= this.max.y &&\n\t\t\tbox.max.z >= this.min.z && box.min.z <= this.max.z;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere intersects with this bounding box.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @return {boolean} Whether the given bounding sphere intersects with this bounding box.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\t// Find the point on the AABB closest to the sphere center.\n\t\tthis.clampPoint( sphere.center, _vector$b );\n\n\t\t// If that point is inside the sphere, the AABB and sphere intersect.\n\t\treturn _vector$b.distanceToSquared( sphere.center ) <= ( sphere.radius * sphere.radius );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given plane intersects with this bounding box.\n\t *\n\t * @param {Plane} plane - The plane to test.\n\t * @return {boolean} Whether the given plane intersects with this bounding box.\n\t */\n\tintersectsPlane( plane ) {\n\n\t\t// We compute the minimum and maximum dot product values. If those values\n\t\t// are on the same side (back or front) of the plane, then there is no intersection.\n\n\t\tlet min, max;\n\n\t\tif ( plane.normal.x > 0 ) {\n\n\t\t\tmin = plane.normal.x * this.min.x;\n\t\t\tmax = plane.normal.x * this.max.x;\n\n\t\t} else {\n\n\t\t\tmin = plane.normal.x * this.max.x;\n\t\t\tmax = plane.normal.x * this.min.x;\n\n\t\t}\n\n\t\tif ( plane.normal.y > 0 ) {\n\n\t\t\tmin += plane.normal.y * this.min.y;\n\t\t\tmax += plane.normal.y * this.max.y;\n\n\t\t} else {\n\n\t\t\tmin += plane.normal.y * this.max.y;\n\t\t\tmax += plane.normal.y * this.min.y;\n\n\t\t}\n\n\t\tif ( plane.normal.z > 0 ) {\n\n\t\t\tmin += plane.normal.z * this.min.z;\n\t\t\tmax += plane.normal.z * this.max.z;\n\n\t\t} else {\n\n\t\t\tmin += plane.normal.z * this.max.z;\n\t\t\tmax += plane.normal.z * this.min.z;\n\n\t\t}\n\n\t\treturn ( min <= - plane.constant && max >= - plane.constant );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given triangle intersects with this bounding box.\n\t *\n\t * @param {Triangle} triangle - The triangle to test.\n\t * @return {boolean} Whether the given triangle intersects with this bounding box.\n\t */\n\tintersectsTriangle( triangle ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\t// compute box center and extents\n\t\tthis.getCenter( _center );\n\t\t_extents.subVectors( this.max, _center );\n\n\t\t// translate triangle to aabb origin\n\t\t_v0$2.subVectors( triangle.a, _center );\n\t\t_v1$7.subVectors( triangle.b, _center );\n\t\t_v2$4.subVectors( triangle.c, _center );\n\n\t\t// compute edge vectors for triangle\n\t\t_f0.subVectors( _v1$7, _v0$2 );\n\t\t_f1.subVectors( _v2$4, _v1$7 );\n\t\t_f2.subVectors( _v0$2, _v2$4 );\n\n\t\t// test against axes that are given by cross product combinations of the edges of the triangle and the edges of the aabb\n\t\t// make an axis testing of each of the 3 sides of the aabb against each of the 3 sides of the triangle = 9 axis of separation\n\t\t// axis_ij = u_i x f_j (u0, u1, u2 = face normals of aabb = x,y,z axes vectors since aabb is axis aligned)\n\t\tlet axes = [\n\t\t\t0, - _f0.z, _f0.y, 0, - _f1.z, _f1.y, 0, - _f2.z, _f2.y,\n\t\t\t_f0.z, 0, - _f0.x, _f1.z, 0, - _f1.x, _f2.z, 0, - _f2.x,\n\t\t\t- _f0.y, _f0.x, 0, - _f1.y, _f1.x, 0, - _f2.y, _f2.x, 0\n\t\t];\n\t\tif ( ! satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents ) ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\t// test 3 face normals from the aabb\n\t\taxes = [ 1, 0, 0, 0, 1, 0, 0, 0, 1 ];\n\t\tif ( ! satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents ) ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\t// finally testing the face normal of the triangle\n\t\t// use already existing triangle edge vectors here\n\t\t_triangleNormal.crossVectors( _f0, _f1 );\n\t\taxes = [ _triangleNormal.x, _triangleNormal.y, _triangleNormal.z ];\n\n\t\treturn satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents );\n\n\t}\n\n\t/**\n\t * Clamps the given point within the bounds of this box.\n\t *\n\t * @param {Vector3} point - The point to clamp.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The clamped point.\n\t */\n\tclampPoint( point, target ) {\n\n\t\treturn target.copy( point ).clamp( this.min, this.max );\n\n\t}\n\n\t/**\n\t * Returns the euclidean distance from any edge of this box to the specified point. If\n\t * the given point lies inside of this box, the distance will be `0`.\n\t *\n\t * @param {Vector3} point - The point to compute the distance to.\n\t * @return {number} The euclidean distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn this.clampPoint( point, _vector$b ).distanceTo( point );\n\n\t}\n\n\t/**\n\t * Returns a bounding sphere that encloses this bounding box.\n\t *\n\t * @param {Sphere} target - The target sphere that is used to store the method's result.\n\t * @return {Sphere} The bounding sphere that encloses this bounding box.\n\t */\n\tgetBoundingSphere( target ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\ttarget.makeEmpty();\n\n\t\t} else {\n\n\t\t\tthis.getCenter( target.center );\n\n\t\t\ttarget.radius = this.getSize( _vector$b ).length() * 0.5;\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Computes the intersection of this bounding box and the given one, setting the upper\n\t * bound of this box to the lesser of the two boxes' upper bounds and the\n\t * lower bound of this box to the greater of the two boxes' lower bounds. If\n\t * there's no overlap, makes this box empty.\n\t *\n\t * @param {Box3} box - The bounding box to intersect with.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tintersect( box ) {\n\n\t\tthis.min.max( box.min );\n\t\tthis.max.min( box.max );\n\n\t\t// ensure that if there is no overlap, the result is fully empty, not slightly empty with non-inf/+inf values that will cause subsequence intersects to erroneously return valid values.\n\t\tif ( this.isEmpty() ) this.makeEmpty();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the union of this box and another and the given one, setting the upper\n\t * bound of this box to the greater of the two boxes' upper bounds and the\n\t * lower bound of this box to the lesser of the two boxes' lower bounds.\n\t *\n\t * @param {Box3} box - The bounding box that will be unioned with this instance.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tunion( box ) {\n\n\t\tthis.min.min( box.min );\n\t\tthis.max.max( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Transforms this bounding box by the given 4x4 transformation matrix.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\t// transform of empty box is an empty box.\n\t\tif ( this.isEmpty() ) return this;\n\n\t\t// NOTE: I am using a binary pattern to specify all 2^3 combinations below\n\t\t_points[ 0 ].set( this.min.x, this.min.y, this.min.z ).applyMatrix4( matrix ); // 000\n\t\t_points[ 1 ].set( this.min.x, this.min.y, this.max.z ).applyMatrix4( matrix ); // 001\n\t\t_points[ 2 ].set( this.min.x, this.max.y, this.min.z ).applyMatrix4( matrix ); // 010\n\t\t_points[ 3 ].set( this.min.x, this.max.y, this.max.z ).applyMatrix4( matrix ); // 011\n\t\t_points[ 4 ].set( this.max.x, this.min.y, this.min.z ).applyMatrix4( matrix ); // 100\n\t\t_points[ 5 ].set( this.max.x, this.min.y, this.max.z ).applyMatrix4( matrix ); // 101\n\t\t_points[ 6 ].set( this.max.x, this.max.y, this.min.z ).applyMatrix4( matrix ); // 110\n\t\t_points[ 7 ].set( this.max.x, this.max.y, this.max.z ).applyMatrix4( matrix ); // 111\n\n\t\tthis.setFromPoints( _points );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given offset to both the upper and lower bounds of this bounding box,\n\t * effectively moving it in 3D space.\n\t *\n\t * @param {Vector3} offset - The offset that should be used to translate the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.min.add( offset );\n\t\tthis.max.add( offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box is equal with the given one.\n\t *\n\t * @param {Box3} box - The box to test for equality.\n\t * @return {boolean} Whether this bounding box is equal with the given one.\n\t */\n\tequals( box ) {\n\n\t\treturn box.min.equals( this.min ) && box.max.equals( this.max );\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding box.\n\t *\n\t * @return {Object} Serialized structure with fields representing the object state.\n\t */\n\ttoJSON() {\n\n\t\treturn {\n\t\t\tmin: this.min.toArray(),\n\t\t\tmax: this.max.toArray()\n\t\t};\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding box.\n\t *\n\t * @param {Object} json - The serialized json to set the box from.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.min.fromArray( json.min );\n\t\tthis.max.fromArray( json.max );\n\t\treturn this;\n\n\t}\n\n}\n\nconst _points = [\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3()\n];\n\nconst _vector$b = /*@__PURE__*/ new Vector3();\n\nconst _box$4 = /*@__PURE__*/ new Box3();\n\n// triangle centered vertices\n\nconst _v0$2 = /*@__PURE__*/ new Vector3();\nconst _v1$7 = /*@__PURE__*/ new Vector3();\nconst _v2$4 = /*@__PURE__*/ new Vector3();\n\n// triangle edge vectors\n\nconst _f0 = /*@__PURE__*/ new Vector3();\nconst _f1 = /*@__PURE__*/ new Vector3();\nconst _f2 = /*@__PURE__*/ new Vector3();\n\nconst _center = /*@__PURE__*/ new Vector3();\nconst _extents = /*@__PURE__*/ new Vector3();\nconst _triangleNormal = /*@__PURE__*/ new Vector3();\nconst _testAxis = /*@__PURE__*/ new Vector3();\n\nfunction satForAxes( axes, v0, v1, v2, extents ) {\n\n\tfor ( let i = 0, j = axes.length - 3; i <= j; i += 3 ) {\n\n\t\t_testAxis.fromArray( axes, i );\n\t\t// project the aabb onto the separating axis\n\t\tconst r = extents.x * Math.abs( _testAxis.x ) + extents.y * Math.abs( _testAxis.y ) + extents.z * Math.abs( _testAxis.z );\n\t\t// project all 3 vertices of the triangle onto the separating axis\n\t\tconst p0 = v0.dot( _testAxis );\n\t\tconst p1 = v1.dot( _testAxis );\n\t\tconst p2 = v2.dot( _testAxis );\n\t\t// actual test, basically see if either of the most extreme of the triangle points intersects r\n\t\tif ( Math.max( - Math.max( p0, p1, p2 ), Math.min( p0, p1, p2 ) ) > r ) {\n\n\t\t\t// points of the projected triangle are outside the projected half-length of the aabb\n\t\t\t// the axis is separating and we can exit\n\t\t\treturn false;\n\n\t\t}\n\n\t}\n\n\treturn true;\n\n}\n\nconst _box$3 = /*@__PURE__*/ new Box3();\nconst _v1$6 = /*@__PURE__*/ new Vector3();\nconst _v2$3 = /*@__PURE__*/ new Vector3();\n\n/**\n * An analytical 3D sphere defined by a center and radius. This class is mainly\n * used as a Bounding Sphere for 3D objects.\n */\nclass Sphere {\n\n\t/**\n\t * Constructs a new sphere.\n\t *\n\t * @param {Vector3} [center=(0,0,0)] - The center of the sphere\n\t * @param {number} [radius=-1] - The radius of the sphere.\n\t */\n\tconstructor( center = new Vector3(), radius = -1 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSphere = true;\n\n\t\t/**\n\t\t * The center of the sphere\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.center = center;\n\n\t\t/**\n\t\t * The radius of the sphere.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.radius = radius;\n\n\t}\n\n\t/**\n\t * Sets the sphere's components by copying the given values.\n\t *\n\t * @param {Vector3} center - The center.\n\t * @param {number} radius - The radius.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tset( center, radius ) {\n\n\t\tthis.center.copy( center );\n\t\tthis.radius = radius;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the minimum bounding sphere for list of points.\n\t * If the optional center point is given, it is used as the sphere's\n\t * center. Otherwise, the center of the axis-aligned bounding box\n\t * encompassing the points is calculated.\n\t *\n\t * @param {Array} points - A list of points in 3D space.\n\t * @param {Vector3} [optionalCenter] - The center of the sphere.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tsetFromPoints( points, optionalCenter ) {\n\n\t\tconst center = this.center;\n\n\t\tif ( optionalCenter !== undefined ) {\n\n\t\t\tcenter.copy( optionalCenter );\n\n\t\t} else {\n\n\t\t\t_box$3.setFromPoints( points ).getCenter( center );\n\n\t\t}\n\n\t\tlet maxRadiusSq = 0;\n\n\t\tfor ( let i = 0, il = points.length; i < il; i ++ ) {\n\n\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( points[ i ] ) );\n\n\t\t}\n\n\t\tthis.radius = Math.sqrt( maxRadiusSq );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given sphere to this instance.\n\t *\n\t * @param {Sphere} sphere - The sphere to copy.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tcopy( sphere ) {\n\n\t\tthis.center.copy( sphere.center );\n\t\tthis.radius = sphere.radius;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the sphere is empty (the radius set to a negative number).\n\t *\n\t * Spheres with a radius of `0` contain only their center point and are not\n\t * considered to be empty.\n\t *\n\t * @return {boolean} Whether this sphere is empty or not.\n\t */\n\tisEmpty() {\n\n\t\treturn ( this.radius < 0 );\n\n\t}\n\n\t/**\n\t * Makes this sphere empty which means in encloses a zero space in 3D.\n\t *\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tmakeEmpty() {\n\n\t\tthis.center.set( 0, 0, 0 );\n\t\tthis.radius = -1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere contains the given point inclusive of\n\t * the surface of the sphere.\n\t *\n\t * @param {Vector3} point - The point to check.\n\t * @return {boolean} Whether this sphere contains the given point or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn ( point.distanceToSquared( this.center ) <= ( this.radius * this.radius ) );\n\n\t}\n\n\t/**\n\t * Returns the closest distance from the boundary of the sphere to the\n\t * given point. If the sphere contains the point, the distance will\n\t * be negative.\n\t *\n\t * @param {Vector3} point - The point to compute the distance to.\n\t * @return {number} The distance to the point.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn ( point.distanceTo( this.center ) - this.radius );\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere intersects with the given one.\n\t *\n\t * @param {Sphere} sphere - The sphere to test.\n\t * @return {boolean} Whether this sphere intersects with the given one or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\tconst radiusSum = this.radius + sphere.radius;\n\n\t\treturn sphere.center.distanceToSquared( this.center ) <= ( radiusSum * radiusSum );\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere intersects with the given box.\n\t *\n\t * @param {Box3} box - The box to test.\n\t * @return {boolean} Whether this sphere intersects with the given box or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn box.intersectsSphere( this );\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere intersects with the given plane.\n\t *\n\t * @param {Plane} plane - The plane to test.\n\t * @return {boolean} Whether this sphere intersects with the given plane or not.\n\t */\n\tintersectsPlane( plane ) {\n\n\t\treturn Math.abs( plane.distanceToPoint( this.center ) ) <= this.radius;\n\n\t}\n\n\t/**\n\t * Clamps a point within the sphere. If the point is outside the sphere, it\n\t * will clamp it to the closest point on the edge of the sphere. Points\n\t * already inside the sphere will not be affected.\n\t *\n\t * @param {Vector3} point - The plane to clamp.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The clamped point.\n\t */\n\tclampPoint( point, target ) {\n\n\t\tconst deltaLengthSq = this.center.distanceToSquared( point );\n\n\t\ttarget.copy( point );\n\n\t\tif ( deltaLengthSq > ( this.radius * this.radius ) ) {\n\n\t\t\ttarget.sub( this.center ).normalize();\n\t\t\ttarget.multiplyScalar( this.radius ).add( this.center );\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns a bounding box that encloses this sphere.\n\t *\n\t * @param {Box3} target - The target box that is used to store the method's result.\n\t * @return {Box3} The bounding box that encloses this sphere.\n\t */\n\tgetBoundingBox( target ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\t// Empty sphere produces empty bounding box\n\t\t\ttarget.makeEmpty();\n\t\t\treturn target;\n\n\t\t}\n\n\t\ttarget.set( this.center, this.center );\n\t\ttarget.expandByScalar( this.radius );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Transforms this sphere with the given 4x4 transformation matrix.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tthis.center.applyMatrix4( matrix );\n\t\tthis.radius = this.radius * matrix.getMaxScaleOnAxis();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates the sphere's center by the given offset.\n\t *\n\t * @param {Vector3} offset - The offset.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.center.add( offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this sphere to include the given point.\n\t *\n\t * @param {Vector3} point - The point to include.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\texpandByPoint( point ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\tthis.center.copy( point );\n\n\t\t\tthis.radius = 0;\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\t_v1$6.subVectors( point, this.center );\n\n\t\tconst lengthSq = _v1$6.lengthSq();\n\n\t\tif ( lengthSq > ( this.radius * this.radius ) ) {\n\n\t\t\t// calculate the minimal sphere\n\n\t\t\tconst length = Math.sqrt( lengthSq );\n\n\t\t\tconst delta = ( length - this.radius ) * 0.5;\n\n\t\t\tthis.center.addScaledVector( _v1$6, delta / length );\n\n\t\t\tthis.radius += delta;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands this sphere to enclose both the original sphere and the given sphere.\n\t *\n\t * @param {Sphere} sphere - The sphere to include.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tunion( sphere ) {\n\n\t\tif ( sphere.isEmpty() ) {\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\tthis.copy( sphere );\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( this.center.equals( sphere.center ) === true ) {\n\n\t\t\t this.radius = Math.max( this.radius, sphere.radius );\n\n\t\t} else {\n\n\t\t\t_v2$3.subVectors( sphere.center, this.center ).setLength( sphere.radius );\n\n\t\t\tthis.expandByPoint( _v1$6.copy( sphere.center ).add( _v2$3 ) );\n\n\t\t\tthis.expandByPoint( _v1$6.copy( sphere.center ).sub( _v2$3 ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere is equal with the given one.\n\t *\n\t * @param {Sphere} sphere - The sphere to test for equality.\n\t * @return {boolean} Whether this bounding sphere is equal with the given one.\n\t */\n\tequals( sphere ) {\n\n\t\treturn sphere.center.equals( this.center ) && ( sphere.radius === this.radius );\n\n\t}\n\n\t/**\n\t * Returns a new sphere with copied values from this instance.\n\t *\n\t * @return {Sphere} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding sphere.\n\t *\n\t * @return {Object} Serialized structure with fields representing the object state.\n\t */\n\ttoJSON() {\n\n\t\treturn {\n\t\t\tradius: this.radius,\n\t\t\tcenter: this.center.toArray()\n\t\t};\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding sphere.\n\t *\n\t * @param {Object} json - The serialized json to set the sphere from.\n\t * @return {Box3} A reference to this bounding sphere.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.radius = json.radius;\n\t\tthis.center.fromArray( json.center );\n\t\treturn this;\n\n\t}\n\n}\n\nconst _vector$a = /*@__PURE__*/ new Vector3();\nconst _segCenter = /*@__PURE__*/ new Vector3();\nconst _segDir = /*@__PURE__*/ new Vector3();\nconst _diff = /*@__PURE__*/ new Vector3();\n\nconst _edge1 = /*@__PURE__*/ new Vector3();\nconst _edge2 = /*@__PURE__*/ new Vector3();\nconst _normal$1 = /*@__PURE__*/ new Vector3();\n\n/**\n * A ray that emits from an origin in a certain direction. The class is used by\n * {@link Raycaster} to assist with raycasting. Raycasting is used for\n * mouse picking (working out what objects in the 3D space the mouse is over)\n * amongst other things.\n */\nclass Ray {\n\n\t/**\n\t * Constructs a new ray.\n\t *\n\t * @param {Vector3} [origin=(0,0,0)] - The origin of the ray.\n\t * @param {Vector3} [direction=(0,0,-1)] - The (normalized) direction of the ray.\n\t */\n\tconstructor( origin = new Vector3(), direction = new Vector3( 0, 0, -1 ) ) {\n\n\t\t/**\n\t\t * The origin of the ray.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.origin = origin;\n\n\t\t/**\n\t\t * The (normalized) direction of the ray.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.direction = direction;\n\n\t}\n\n\t/**\n\t * Sets the ray's components by copying the given values.\n\t *\n\t * @param {Vector3} origin - The origin.\n\t * @param {Vector3} direction - The direction.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tset( origin, direction ) {\n\n\t\tthis.origin.copy( origin );\n\t\tthis.direction.copy( direction );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given ray to this instance.\n\t *\n\t * @param {Ray} ray - The ray to copy.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tcopy( ray ) {\n\n\t\tthis.origin.copy( ray.origin );\n\t\tthis.direction.copy( ray.direction );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a vector that is located at a given distance along this ray.\n\t *\n\t * @param {number} t - The distance along the ray to retrieve a position for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} A position on the ray.\n\t */\n\tat( t, target ) {\n\n\t\treturn target.copy( this.origin ).addScaledVector( this.direction, t );\n\n\t}\n\n\t/**\n\t * Adjusts the direction of the ray to point at the given vector in world space.\n\t *\n\t * @param {Vector3} v - The target position.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tlookAt( v ) {\n\n\t\tthis.direction.copy( v ).sub( this.origin ).normalize();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Shift the origin of this ray along its direction by the given distance.\n\t *\n\t * @param {number} t - The distance along the ray to interpolate.\n\t * @return {Ray} A reference to this ray.\n\t */\n\trecast( t ) {\n\n\t\tthis.origin.copy( this.at( t, _vector$a ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the point along this ray that is closest to the given point.\n\t *\n\t * @param {Vector3} point - A point in 3D space to get the closet location on the ray for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The closest point on this ray.\n\t */\n\tclosestPointToPoint( point, target ) {\n\n\t\ttarget.subVectors( point, this.origin );\n\n\t\tconst directionDistance = target.dot( this.direction );\n\n\t\tif ( directionDistance < 0 ) {\n\n\t\t\treturn target.copy( this.origin );\n\n\t\t}\n\n\t\treturn target.copy( this.origin ).addScaledVector( this.direction, directionDistance );\n\n\t}\n\n\t/**\n\t * Returns the distance of the closest approach between this ray and the given point.\n\t *\n\t * @param {Vector3} point - A point in 3D space to compute the distance to.\n\t * @return {number} The distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn Math.sqrt( this.distanceSqToPoint( point ) );\n\n\t}\n\n\t/**\n\t * Returns the squared distance of the closest approach between this ray and the given point.\n\t *\n\t * @param {Vector3} point - A point in 3D space to compute the distance to.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceSqToPoint( point ) {\n\n\t\tconst directionDistance = _vector$a.subVectors( point, this.origin ).dot( this.direction );\n\n\t\t// point behind the ray\n\n\t\tif ( directionDistance < 0 ) {\n\n\t\t\treturn this.origin.distanceToSquared( point );\n\n\t\t}\n\n\t\t_vector$a.copy( this.origin ).addScaledVector( this.direction, directionDistance );\n\n\t\treturn _vector$a.distanceToSquared( point );\n\n\t}\n\n\t/**\n\t * Returns the squared distance between this ray and the given line segment.\n\t *\n\t * @param {Vector3} v0 - The start point of the line segment.\n\t * @param {Vector3} v1 - The end point of the line segment.\n\t * @param {Vector3} [optionalPointOnRay] - When provided, it receives the point on this ray that is closest to the segment.\n\t * @param {Vector3} [optionalPointOnSegment] - When provided, it receives the point on the line segment that is closest to this ray.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceSqToSegment( v0, v1, optionalPointOnRay, optionalPointOnSegment ) {\n\n\t\t// from https://github.com/pmjoniak/GeometricTools/blob/master/GTEngine/Include/Mathematics/GteDistRaySegment.h\n\t\t// It returns the min distance between the ray and the segment\n\t\t// defined by v0 and v1\n\t\t// It can also set two optional targets :\n\t\t// - The closest point on the ray\n\t\t// - The closest point on the segment\n\n\t\t_segCenter.copy( v0 ).add( v1 ).multiplyScalar( 0.5 );\n\t\t_segDir.copy( v1 ).sub( v0 ).normalize();\n\t\t_diff.copy( this.origin ).sub( _segCenter );\n\n\t\tconst segExtent = v0.distanceTo( v1 ) * 0.5;\n\t\tconst a01 = - this.direction.dot( _segDir );\n\t\tconst b0 = _diff.dot( this.direction );\n\t\tconst b1 = - _diff.dot( _segDir );\n\t\tconst c = _diff.lengthSq();\n\t\tconst det = Math.abs( 1 - a01 * a01 );\n\t\tlet s0, s1, sqrDist, extDet;\n\n\t\tif ( det > 0 ) {\n\n\t\t\t// The ray and segment are not parallel.\n\n\t\t\ts0 = a01 * b1 - b0;\n\t\t\ts1 = a01 * b0 - b1;\n\t\t\textDet = segExtent * det;\n\n\t\t\tif ( s0 >= 0 ) {\n\n\t\t\t\tif ( s1 >= - extDet ) {\n\n\t\t\t\t\tif ( s1 <= extDet ) {\n\n\t\t\t\t\t\t// region 0\n\t\t\t\t\t\t// Minimum at interior points of ray and segment.\n\n\t\t\t\t\t\tconst invDet = 1 / det;\n\t\t\t\t\t\ts0 *= invDet;\n\t\t\t\t\t\ts1 *= invDet;\n\t\t\t\t\t\tsqrDist = s0 * ( s0 + a01 * s1 + 2 * b0 ) + s1 * ( a01 * s0 + s1 + 2 * b1 ) + c;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// region 1\n\n\t\t\t\t\t\ts1 = segExtent;\n\t\t\t\t\t\ts0 = Math.max( 0, - ( a01 * s1 + b0 ) );\n\t\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// region 5\n\n\t\t\t\t\ts1 = - segExtent;\n\t\t\t\t\ts0 = Math.max( 0, - ( a01 * s1 + b0 ) );\n\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tif ( s1 <= - extDet ) {\n\n\t\t\t\t\t// region 4\n\n\t\t\t\t\ts0 = Math.max( 0, - ( - a01 * segExtent + b0 ) );\n\t\t\t\t\ts1 = ( s0 > 0 ) ? - segExtent : Math.min( Math.max( - segExtent, - b1 ), segExtent );\n\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t} else if ( s1 <= extDet ) {\n\n\t\t\t\t\t// region 3\n\n\t\t\t\t\ts0 = 0;\n\t\t\t\t\ts1 = Math.min( Math.max( - segExtent, - b1 ), segExtent );\n\t\t\t\t\tsqrDist = s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// region 2\n\n\t\t\t\t\ts0 = Math.max( 0, - ( a01 * segExtent + b0 ) );\n\t\t\t\t\ts1 = ( s0 > 0 ) ? segExtent : Math.min( Math.max( - segExtent, - b1 ), segExtent );\n\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\t// Ray and segment are parallel.\n\n\t\t\ts1 = ( a01 > 0 ) ? - segExtent : segExtent;\n\t\t\ts0 = Math.max( 0, - ( a01 * s1 + b0 ) );\n\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t}\n\n\t\tif ( optionalPointOnRay ) {\n\n\t\t\toptionalPointOnRay.copy( this.origin ).addScaledVector( this.direction, s0 );\n\n\t\t}\n\n\t\tif ( optionalPointOnSegment ) {\n\n\t\t\toptionalPointOnSegment.copy( _segCenter ).addScaledVector( _segDir, s1 );\n\n\t\t}\n\n\t\treturn sqrDist;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given sphere, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Sphere} sphere - The sphere to intersect.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectSphere( sphere, target ) {\n\n\t\t_vector$a.subVectors( sphere.center, this.origin );\n\t\tconst tca = _vector$a.dot( this.direction );\n\t\tconst d2 = _vector$a.dot( _vector$a ) - tca * tca;\n\t\tconst radius2 = sphere.radius * sphere.radius;\n\n\t\tif ( d2 > radius2 ) return null;\n\n\t\tconst thc = Math.sqrt( radius2 - d2 );\n\n\t\t// t0 = first intersect point - entrance on front of sphere\n\t\tconst t0 = tca - thc;\n\n\t\t// t1 = second intersect point - exit point on back of sphere\n\t\tconst t1 = tca + thc;\n\n\t\t// test to see if t1 is behind the ray - if so, return null\n\t\tif ( t1 < 0 ) return null;\n\n\t\t// test to see if t0 is behind the ray:\n\t\t// if it is, the ray is inside the sphere, so return the second exit point scaled by t1,\n\t\t// in order to always return an intersect point that is in front of the ray.\n\t\tif ( t0 < 0 ) return this.at( t1, target );\n\n\t\t// else t0 is in front of the ray, so return the first collision point scaled by t0\n\t\treturn this.at( t0, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray intersects with the given sphere.\n\t *\n\t * @param {Sphere} sphere - The sphere to intersect.\n\t * @return {boolean} Whether this ray intersects with the given sphere or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\tif ( sphere.radius < 0 ) return false; // handle empty spheres, see #31187\n\n\t\treturn this.distanceSqToPoint( sphere.center ) <= ( sphere.radius * sphere.radius );\n\n\t}\n\n\t/**\n\t * Computes the distance from the ray's origin to the given plane. Returns `null` if the ray\n\t * does not intersect with the plane.\n\t *\n\t * @param {Plane} plane - The plane to compute the distance to.\n\t * @return {?number} Whether this ray intersects with the given sphere or not.\n\t */\n\tdistanceToPlane( plane ) {\n\n\t\tconst denominator = plane.normal.dot( this.direction );\n\n\t\tif ( denominator === 0 ) {\n\n\t\t\t// line is coplanar, return origin\n\t\t\tif ( plane.distanceToPoint( this.origin ) === 0 ) {\n\n\t\t\t\treturn 0;\n\n\t\t\t}\n\n\t\t\t// Null is preferable to undefined since undefined means.... it is undefined\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst t = - ( this.origin.dot( plane.normal ) + plane.constant ) / denominator;\n\n\t\t// Return if the ray never intersects the plane\n\n\t\treturn t >= 0 ? t : null;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given plane, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Plane} plane - The plane to intersect.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectPlane( plane, target ) {\n\n\t\tconst t = this.distanceToPlane( plane );\n\n\t\tif ( t === null ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\treturn this.at( t, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray intersects with the given plane.\n\t *\n\t * @param {Plane} plane - The plane to intersect.\n\t * @return {boolean} Whether this ray intersects with the given plane or not.\n\t */\n\tintersectsPlane( plane ) {\n\n\t\t// check if the ray lies on the plane first\n\n\t\tconst distToPoint = plane.distanceToPoint( this.origin );\n\n\t\tif ( distToPoint === 0 ) {\n\n\t\t\treturn true;\n\n\t\t}\n\n\t\tconst denominator = plane.normal.dot( this.direction );\n\n\t\tif ( denominator * distToPoint < 0 ) {\n\n\t\t\treturn true;\n\n\t\t}\n\n\t\t// ray origin is behind the plane (and is pointing behind it)\n\n\t\treturn false;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given bounding box, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Box3} box - The box to intersect.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectBox( box, target ) {\n\n\t\tlet tmin, tmax, tymin, tymax, tzmin, tzmax;\n\n\t\tconst invdirx = 1 / this.direction.x,\n\t\t\tinvdiry = 1 / this.direction.y,\n\t\t\tinvdirz = 1 / this.direction.z;\n\n\t\tconst origin = this.origin;\n\n\t\tif ( invdirx >= 0 ) {\n\n\t\t\ttmin = ( box.min.x - origin.x ) * invdirx;\n\t\t\ttmax = ( box.max.x - origin.x ) * invdirx;\n\n\t\t} else {\n\n\t\t\ttmin = ( box.max.x - origin.x ) * invdirx;\n\t\t\ttmax = ( box.min.x - origin.x ) * invdirx;\n\n\t\t}\n\n\t\tif ( invdiry >= 0 ) {\n\n\t\t\ttymin = ( box.min.y - origin.y ) * invdiry;\n\t\t\ttymax = ( box.max.y - origin.y ) * invdiry;\n\n\t\t} else {\n\n\t\t\ttymin = ( box.max.y - origin.y ) * invdiry;\n\t\t\ttymax = ( box.min.y - origin.y ) * invdiry;\n\n\t\t}\n\n\t\tif ( ( tmin > tymax ) || ( tymin > tmax ) ) return null;\n\n\t\tif ( tymin > tmin || isNaN( tmin ) ) tmin = tymin;\n\n\t\tif ( tymax < tmax || isNaN( tmax ) ) tmax = tymax;\n\n\t\tif ( invdirz >= 0 ) {\n\n\t\t\ttzmin = ( box.min.z - origin.z ) * invdirz;\n\t\t\ttzmax = ( box.max.z - origin.z ) * invdirz;\n\n\t\t} else {\n\n\t\t\ttzmin = ( box.max.z - origin.z ) * invdirz;\n\t\t\ttzmax = ( box.min.z - origin.z ) * invdirz;\n\n\t\t}\n\n\t\tif ( ( tmin > tzmax ) || ( tzmin > tmax ) ) return null;\n\n\t\tif ( tzmin > tmin || tmin !== tmin ) tmin = tzmin;\n\n\t\tif ( tzmax < tmax || tmax !== tmax ) tmax = tzmax;\n\n\t\t//return point closest to the ray (positive side)\n\n\t\tif ( tmax < 0 ) return null;\n\n\t\treturn this.at( tmin >= 0 ? tmin : tmax, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray intersects with the given box.\n\t *\n\t * @param {Box3} box - The box to intersect.\n\t * @return {boolean} Whether this ray intersects with the given box or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn this.intersectBox( box, _vector$a ) !== null;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given triangle, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Vector3} a - The first vertex of the triangle.\n\t * @param {Vector3} b - The second vertex of the triangle.\n\t * @param {Vector3} c - The third vertex of the triangle.\n\t * @param {boolean} backfaceCulling - Whether to use backface culling or not.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectTriangle( a, b, c, backfaceCulling, target ) {\n\n\t\t// Compute the offset origin, edges, and normal.\n\n\t\t// from https://github.com/pmjoniak/GeometricTools/blob/master/GTEngine/Include/Mathematics/GteIntrRay3Triangle3.h\n\n\t\t_edge1.subVectors( b, a );\n\t\t_edge2.subVectors( c, a );\n\t\t_normal$1.crossVectors( _edge1, _edge2 );\n\n\t\t// Solve Q + t*D = b1*E1 + b2*E2 (Q = kDiff, D = ray direction,\n\t\t// E1 = kEdge1, E2 = kEdge2, N = Cross(E1,E2)) by\n\t\t// |Dot(D,N)|*b1 = sign(Dot(D,N))*Dot(D,Cross(Q,E2))\n\t\t// |Dot(D,N)|*b2 = sign(Dot(D,N))*Dot(D,Cross(E1,Q))\n\t\t// |Dot(D,N)|*t = -sign(Dot(D,N))*Dot(Q,N)\n\t\tlet DdN = this.direction.dot( _normal$1 );\n\t\tlet sign;\n\n\t\tif ( DdN > 0 ) {\n\n\t\t\tif ( backfaceCulling ) return null;\n\t\t\tsign = 1;\n\n\t\t} else if ( DdN < 0 ) {\n\n\t\t\tsign = -1;\n\t\t\tDdN = - DdN;\n\n\t\t} else {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t_diff.subVectors( this.origin, a );\n\t\tconst DdQxE2 = sign * this.direction.dot( _edge2.crossVectors( _diff, _edge2 ) );\n\n\t\t// b1 < 0, no intersection\n\t\tif ( DdQxE2 < 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst DdE1xQ = sign * this.direction.dot( _edge1.cross( _diff ) );\n\n\t\t// b2 < 0, no intersection\n\t\tif ( DdE1xQ < 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// b1+b2 > 1, no intersection\n\t\tif ( DdQxE2 + DdE1xQ > DdN ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// Line intersects triangle, check if ray does.\n\t\tconst QdN = - sign * _diff.dot( _normal$1 );\n\n\t\t// t < 0, no intersection\n\t\tif ( QdN < 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// Ray intersects triangle.\n\t\treturn this.at( QdN / DdN, target );\n\n\t}\n\n\t/**\n\t * Transforms this ray with the given 4x4 transformation matrix.\n\t *\n\t * @param {Matrix4} matrix4 - The transformation matrix.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tapplyMatrix4( matrix4 ) {\n\n\t\tthis.origin.applyMatrix4( matrix4 );\n\t\tthis.direction.transformDirection( matrix4 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray is equal with the given one.\n\t *\n\t * @param {Ray} ray - The ray to test for equality.\n\t * @return {boolean} Whether this ray is equal with the given one.\n\t */\n\tequals( ray ) {\n\n\t\treturn ray.origin.equals( this.origin ) && ray.direction.equals( this.direction );\n\n\t}\n\n\t/**\n\t * Returns a new ray with copied values from this instance.\n\t *\n\t * @return {Ray} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * Represents a 4x4 matrix.\n *\n * The most common use of a 4x4 matrix in 3D computer graphics is as a transformation matrix.\n * For an introduction to transformation matrices as used in WebGL, check out [this tutorial]{@link https://www.opengl-tutorial.org/beginners-tutorials/tutorial-3-matrices}\n *\n * This allows a 3D vector representing a point in 3D space to undergo\n * transformations such as translation, rotation, shear, scale, reflection,\n * orthogonal or perspective projection and so on, by being multiplied by the\n * matrix. This is known as `applying` the matrix to the vector.\n *\n * A Note on Row-Major and Column-Major Ordering:\n *\n * The constructor and {@link Matrix3#set} method take arguments in\n * [row-major]{@link https://en.wikipedia.org/wiki/Row-_and_column-major_order#Column-major_order}\n * order, while internally they are stored in the {@link Matrix3#elements} array in column-major order.\n * This means that calling:\n * ```js\n * const m = new THREE.Matrix4();\n * m.set( 11, 12, 13, 14,\n * 21, 22, 23, 24,\n * 31, 32, 33, 34,\n * 41, 42, 43, 44 );\n * ```\n * will result in the elements array containing:\n * ```js\n * m.elements = [ 11, 21, 31, 41,\n * 12, 22, 32, 42,\n * 13, 23, 33, 43,\n * 14, 24, 34, 44 ];\n * ```\n * and internally all calculations are performed using column-major ordering.\n * However, as the actual ordering makes no difference mathematically and\n * most people are used to thinking about matrices in row-major order, the\n * three.js documentation shows matrices in row-major order. Just bear in\n * mind that if you are reading the source code, you'll have to take the\n * transpose of any matrices outlined here to make sense of the calculations.\n */\nclass Matrix4 {\n\n\t/**\n\t * Constructs a new 4x4 matrix. The arguments are supposed to be\n\t * in row-major order. If no arguments are provided, the constructor\n\t * initializes the matrix as an identity matrix.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n14] - 1-4 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n24] - 2-4 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t * @param {number} [n34] - 3-4 matrix element.\n\t * @param {number} [n41] - 4-1 matrix element.\n\t * @param {number} [n42] - 4-2 matrix element.\n\t * @param {number} [n43] - 4-3 matrix element.\n\t * @param {number} [n44] - 4-4 matrix element.\n\t */\n\tconstructor( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tMatrix4.prototype.isMatrix4 = true;\n\n\t\t/**\n\t\t * A column-major list of matrix values.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.elements = [\n\n\t\t\t1, 0, 0, 0,\n\t\t\t0, 1, 0, 0,\n\t\t\t0, 0, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t];\n\n\t\tif ( n11 !== undefined ) {\n\n\t\t\tthis.set( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix.The arguments are supposed to be\n\t * in row-major order.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n14] - 1-4 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n24] - 2-4 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t * @param {number} [n34] - 3-4 matrix element.\n\t * @param {number} [n41] - 4-1 matrix element.\n\t * @param {number} [n42] - 4-2 matrix element.\n\t * @param {number} [n43] - 4-3 matrix element.\n\t * @param {number} [n44] - 4-4 matrix element.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tset( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] = n11; te[ 4 ] = n12; te[ 8 ] = n13; te[ 12 ] = n14;\n\t\tte[ 1 ] = n21; te[ 5 ] = n22; te[ 9 ] = n23; te[ 13 ] = n24;\n\t\tte[ 2 ] = n31; te[ 6 ] = n32; te[ 10 ] = n33; te[ 14 ] = n34;\n\t\tte[ 3 ] = n41; te[ 7 ] = n42; te[ 11 ] = n43; te[ 15 ] = n44;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix to the 4x4 identity matrix.\n\t *\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tidentity() {\n\n\t\tthis.set(\n\n\t\t\t1, 0, 0, 0,\n\t\t\t0, 1, 0, 0,\n\t\t\t0, 0, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a matrix with copied values from this instance.\n\t *\n\t * @return {Matrix4} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Matrix4().fromArray( this.elements );\n\n\t}\n\n\t/**\n\t * Copies the values of the given matrix to this instance.\n\t *\n\t * @param {Matrix4} m - The matrix to copy.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tcopy( m ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = m.elements;\n\n\t\tte[ 0 ] = me[ 0 ]; te[ 1 ] = me[ 1 ]; te[ 2 ] = me[ 2 ]; te[ 3 ] = me[ 3 ];\n\t\tte[ 4 ] = me[ 4 ]; te[ 5 ] = me[ 5 ]; te[ 6 ] = me[ 6 ]; te[ 7 ] = me[ 7 ];\n\t\tte[ 8 ] = me[ 8 ]; te[ 9 ] = me[ 9 ]; te[ 10 ] = me[ 10 ]; te[ 11 ] = me[ 11 ];\n\t\tte[ 12 ] = me[ 12 ]; te[ 13 ] = me[ 13 ]; te[ 14 ] = me[ 14 ]; te[ 15 ] = me[ 15 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the translation component of the given matrix\n\t * into this matrix's translation component.\n\t *\n\t * @param {Matrix4} m - The matrix to copy the translation component.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tcopyPosition( m ) {\n\n\t\tconst te = this.elements, me = m.elements;\n\n\t\tte[ 12 ] = me[ 12 ];\n\t\tte[ 13 ] = me[ 13 ];\n\t\tte[ 14 ] = me[ 14 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Set the upper 3x3 elements of this matrix to the values of given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The 3x3 matrix.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tsetFromMatrix3( m ) {\n\n\t\tconst me = m.elements;\n\n\t\tthis.set(\n\n\t\t\tme[ 0 ], me[ 3 ], me[ 6 ], 0,\n\t\t\tme[ 1 ], me[ 4 ], me[ 7 ], 0,\n\t\t\tme[ 2 ], me[ 5 ], me[ 8 ], 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Extracts the basis of this matrix into the three axis vectors provided.\n\t *\n\t * @param {Vector3} xAxis - The basis's x axis.\n\t * @param {Vector3} yAxis - The basis's y axis.\n\t * @param {Vector3} zAxis - The basis's z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\textractBasis( xAxis, yAxis, zAxis ) {\n\n\t\txAxis.setFromMatrixColumn( this, 0 );\n\t\tyAxis.setFromMatrixColumn( this, 1 );\n\t\tzAxis.setFromMatrixColumn( this, 2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given basis vectors to this matrix.\n\t *\n\t * @param {Vector3} xAxis - The basis's x axis.\n\t * @param {Vector3} yAxis - The basis's y axis.\n\t * @param {Vector3} zAxis - The basis's z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeBasis( xAxis, yAxis, zAxis ) {\n\n\t\tthis.set(\n\t\t\txAxis.x, yAxis.x, zAxis.x, 0,\n\t\t\txAxis.y, yAxis.y, zAxis.y, 0,\n\t\t\txAxis.z, yAxis.z, zAxis.z, 0,\n\t\t\t0, 0, 0, 1\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Extracts the rotation component of the given matrix\n\t * into this matrix's rotation component.\n\t *\n\t * Note: This method does not support reflection matrices.\n\t *\n\t * @param {Matrix4} m - The matrix.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\textractRotation( m ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = m.elements;\n\n\t\tconst scaleX = 1 / _v1$5.setFromMatrixColumn( m, 0 ).length();\n\t\tconst scaleY = 1 / _v1$5.setFromMatrixColumn( m, 1 ).length();\n\t\tconst scaleZ = 1 / _v1$5.setFromMatrixColumn( m, 2 ).length();\n\n\t\tte[ 0 ] = me[ 0 ] * scaleX;\n\t\tte[ 1 ] = me[ 1 ] * scaleX;\n\t\tte[ 2 ] = me[ 2 ] * scaleX;\n\t\tte[ 3 ] = 0;\n\n\t\tte[ 4 ] = me[ 4 ] * scaleY;\n\t\tte[ 5 ] = me[ 5 ] * scaleY;\n\t\tte[ 6 ] = me[ 6 ] * scaleY;\n\t\tte[ 7 ] = 0;\n\n\t\tte[ 8 ] = me[ 8 ] * scaleZ;\n\t\tte[ 9 ] = me[ 9 ] * scaleZ;\n\t\tte[ 10 ] = me[ 10 ] * scaleZ;\n\t\tte[ 11 ] = 0;\n\n\t\tte[ 12 ] = 0;\n\t\tte[ 13 ] = 0;\n\t\tte[ 14 ] = 0;\n\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the rotation component (the upper left 3x3 matrix) of this matrix to\n\t * the rotation specified by the given Euler angles. The rest of\n\t * the matrix is set to the identity. Depending on the {@link Euler#order},\n\t * there are six possible outcomes. See [this page]{@link https://en.wikipedia.org/wiki/Euler_angles#Rotation_matrix}\n\t * for a complete list.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationFromEuler( euler ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = euler.x, y = euler.y, z = euler.z;\n\t\tconst a = Math.cos( x ), b = Math.sin( x );\n\t\tconst c = Math.cos( y ), d = Math.sin( y );\n\t\tconst e = Math.cos( z ), f = Math.sin( z );\n\n\t\tif ( euler.order === 'XYZ' ) {\n\n\t\t\tconst ae = a * e, af = a * f, be = b * e, bf = b * f;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = - c * f;\n\t\t\tte[ 8 ] = d;\n\n\t\t\tte[ 1 ] = af + be * d;\n\t\t\tte[ 5 ] = ae - bf * d;\n\t\t\tte[ 9 ] = - b * c;\n\n\t\t\tte[ 2 ] = bf - ae * d;\n\t\t\tte[ 6 ] = be + af * d;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'YXZ' ) {\n\n\t\t\tconst ce = c * e, cf = c * f, de = d * e, df = d * f;\n\n\t\t\tte[ 0 ] = ce + df * b;\n\t\t\tte[ 4 ] = de * b - cf;\n\t\t\tte[ 8 ] = a * d;\n\n\t\t\tte[ 1 ] = a * f;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = - b;\n\n\t\t\tte[ 2 ] = cf * b - de;\n\t\t\tte[ 6 ] = df + ce * b;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'ZXY' ) {\n\n\t\t\tconst ce = c * e, cf = c * f, de = d * e, df = d * f;\n\n\t\t\tte[ 0 ] = ce - df * b;\n\t\t\tte[ 4 ] = - a * f;\n\t\t\tte[ 8 ] = de + cf * b;\n\n\t\t\tte[ 1 ] = cf + de * b;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = df - ce * b;\n\n\t\t\tte[ 2 ] = - a * d;\n\t\t\tte[ 6 ] = b;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'ZYX' ) {\n\n\t\t\tconst ae = a * e, af = a * f, be = b * e, bf = b * f;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = be * d - af;\n\t\t\tte[ 8 ] = ae * d + bf;\n\n\t\t\tte[ 1 ] = c * f;\n\t\t\tte[ 5 ] = bf * d + ae;\n\t\t\tte[ 9 ] = af * d - be;\n\n\t\t\tte[ 2 ] = - d;\n\t\t\tte[ 6 ] = b * c;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'YZX' ) {\n\n\t\t\tconst ac = a * c, ad = a * d, bc = b * c, bd = b * d;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = bd - ac * f;\n\t\t\tte[ 8 ] = bc * f + ad;\n\n\t\t\tte[ 1 ] = f;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = - b * e;\n\n\t\t\tte[ 2 ] = - d * e;\n\t\t\tte[ 6 ] = ad * f + bc;\n\t\t\tte[ 10 ] = ac - bd * f;\n\n\t\t} else if ( euler.order === 'XZY' ) {\n\n\t\t\tconst ac = a * c, ad = a * d, bc = b * c, bd = b * d;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = - f;\n\t\t\tte[ 8 ] = d * e;\n\n\t\t\tte[ 1 ] = ac * f + bd;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = ad * f - bc;\n\n\t\t\tte[ 2 ] = bc * f - ad;\n\t\t\tte[ 6 ] = b * e;\n\t\t\tte[ 10 ] = bd * f + ac;\n\n\t\t}\n\n\t\t// bottom row\n\t\tte[ 3 ] = 0;\n\t\tte[ 7 ] = 0;\n\t\tte[ 11 ] = 0;\n\n\t\t// last column\n\t\tte[ 12 ] = 0;\n\t\tte[ 13 ] = 0;\n\t\tte[ 14 ] = 0;\n\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the rotation component of this matrix to the rotation specified by\n\t * the given Quaternion as outlined [here]{@link https://en.wikipedia.org/wiki/Rotation_matrix#Quaternion}\n\t * The rest of the matrix is set to the identity.\n\t *\n\t * @param {Quaternion} q - The Quaternion.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationFromQuaternion( q ) {\n\n\t\treturn this.compose( _zero, q, _one );\n\n\t}\n\n\t/**\n\t * Sets the rotation component of the transformation matrix, looking from `eye` towards\n\t * `target`, and oriented by the up-direction.\n\t *\n\t * @param {Vector3} eye - The eye vector.\n\t * @param {Vector3} target - The target vector.\n\t * @param {Vector3} up - The up vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tlookAt( eye, target, up ) {\n\n\t\tconst te = this.elements;\n\n\t\t_z.subVectors( eye, target );\n\n\t\tif ( _z.lengthSq() === 0 ) {\n\n\t\t\t// eye and target are in the same position\n\n\t\t\t_z.z = 1;\n\n\t\t}\n\n\t\t_z.normalize();\n\t\t_x.crossVectors( up, _z );\n\n\t\tif ( _x.lengthSq() === 0 ) {\n\n\t\t\t// up and z are parallel\n\n\t\t\tif ( Math.abs( up.z ) === 1 ) {\n\n\t\t\t\t_z.x += 0.0001;\n\n\t\t\t} else {\n\n\t\t\t\t_z.z += 0.0001;\n\n\t\t\t}\n\n\t\t\t_z.normalize();\n\t\t\t_x.crossVectors( up, _z );\n\n\t\t}\n\n\t\t_x.normalize();\n\t\t_y.crossVectors( _z, _x );\n\n\t\tte[ 0 ] = _x.x; te[ 4 ] = _y.x; te[ 8 ] = _z.x;\n\t\tte[ 1 ] = _x.y; te[ 5 ] = _y.y; te[ 9 ] = _z.y;\n\t\tte[ 2 ] = _x.z; te[ 6 ] = _y.z; te[ 10 ] = _z.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Post-multiplies this matrix by the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The matrix to multiply with.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmultiply( m ) {\n\n\t\treturn this.multiplyMatrices( this, m );\n\n\t}\n\n\t/**\n\t * Pre-multiplies this matrix by the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The matrix to multiply with.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tpremultiply( m ) {\n\n\t\treturn this.multiplyMatrices( m, this );\n\n\t}\n\n\t/**\n\t * Multiples the given 4x4 matrices and stores the result\n\t * in this matrix.\n\t *\n\t * @param {Matrix4} a - The first matrix.\n\t * @param {Matrix4} b - The second matrix.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmultiplyMatrices( a, b ) {\n\n\t\tconst ae = a.elements;\n\t\tconst be = b.elements;\n\t\tconst te = this.elements;\n\n\t\tconst a11 = ae[ 0 ], a12 = ae[ 4 ], a13 = ae[ 8 ], a14 = ae[ 12 ];\n\t\tconst a21 = ae[ 1 ], a22 = ae[ 5 ], a23 = ae[ 9 ], a24 = ae[ 13 ];\n\t\tconst a31 = ae[ 2 ], a32 = ae[ 6 ], a33 = ae[ 10 ], a34 = ae[ 14 ];\n\t\tconst a41 = ae[ 3 ], a42 = ae[ 7 ], a43 = ae[ 11 ], a44 = ae[ 15 ];\n\n\t\tconst b11 = be[ 0 ], b12 = be[ 4 ], b13 = be[ 8 ], b14 = be[ 12 ];\n\t\tconst b21 = be[ 1 ], b22 = be[ 5 ], b23 = be[ 9 ], b24 = be[ 13 ];\n\t\tconst b31 = be[ 2 ], b32 = be[ 6 ], b33 = be[ 10 ], b34 = be[ 14 ];\n\t\tconst b41 = be[ 3 ], b42 = be[ 7 ], b43 = be[ 11 ], b44 = be[ 15 ];\n\n\t\tte[ 0 ] = a11 * b11 + a12 * b21 + a13 * b31 + a14 * b41;\n\t\tte[ 4 ] = a11 * b12 + a12 * b22 + a13 * b32 + a14 * b42;\n\t\tte[ 8 ] = a11 * b13 + a12 * b23 + a13 * b33 + a14 * b43;\n\t\tte[ 12 ] = a11 * b14 + a12 * b24 + a13 * b34 + a14 * b44;\n\n\t\tte[ 1 ] = a21 * b11 + a22 * b21 + a23 * b31 + a24 * b41;\n\t\tte[ 5 ] = a21 * b12 + a22 * b22 + a23 * b32 + a24 * b42;\n\t\tte[ 9 ] = a21 * b13 + a22 * b23 + a23 * b33 + a24 * b43;\n\t\tte[ 13 ] = a21 * b14 + a22 * b24 + a23 * b34 + a24 * b44;\n\n\t\tte[ 2 ] = a31 * b11 + a32 * b21 + a33 * b31 + a34 * b41;\n\t\tte[ 6 ] = a31 * b12 + a32 * b22 + a33 * b32 + a34 * b42;\n\t\tte[ 10 ] = a31 * b13 + a32 * b23 + a33 * b33 + a34 * b43;\n\t\tte[ 14 ] = a31 * b14 + a32 * b24 + a33 * b34 + a34 * b44;\n\n\t\tte[ 3 ] = a41 * b11 + a42 * b21 + a43 * b31 + a44 * b41;\n\t\tte[ 7 ] = a41 * b12 + a42 * b22 + a43 * b32 + a44 * b42;\n\t\tte[ 11 ] = a41 * b13 + a42 * b23 + a43 * b33 + a44 * b43;\n\t\tte[ 15 ] = a41 * b14 + a42 * b24 + a43 * b34 + a44 * b44;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies every component of the matrix by the given scalar.\n\t *\n\t * @param {number} s - The scalar.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmultiplyScalar( s ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] *= s; te[ 4 ] *= s; te[ 8 ] *= s; te[ 12 ] *= s;\n\t\tte[ 1 ] *= s; te[ 5 ] *= s; te[ 9 ] *= s; te[ 13 ] *= s;\n\t\tte[ 2 ] *= s; te[ 6 ] *= s; te[ 10 ] *= s; te[ 14 ] *= s;\n\t\tte[ 3 ] *= s; te[ 7 ] *= s; te[ 11 ] *= s; te[ 15 ] *= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes and returns the determinant of this matrix.\n\t *\n\t * Based on the method outlined [here]{@link http://www.euclideanspace.com/maths/algebra/matrix/functions/inverse/fourD/index.html}.\n\t *\n\t * @return {number} The determinant.\n\t */\n\tdeterminant() {\n\n\t\tconst te = this.elements;\n\n\t\tconst n11 = te[ 0 ], n12 = te[ 4 ], n13 = te[ 8 ], n14 = te[ 12 ];\n\t\tconst n21 = te[ 1 ], n22 = te[ 5 ], n23 = te[ 9 ], n24 = te[ 13 ];\n\t\tconst n31 = te[ 2 ], n32 = te[ 6 ], n33 = te[ 10 ], n34 = te[ 14 ];\n\t\tconst n41 = te[ 3 ], n42 = te[ 7 ], n43 = te[ 11 ], n44 = te[ 15 ];\n\n\t\t//TODO: make this more efficient\n\n\t\treturn (\n\t\t\tn41 * (\n\t\t\t\t+ n14 * n23 * n32\n\t\t\t\t - n13 * n24 * n32\n\t\t\t\t - n14 * n22 * n33\n\t\t\t\t + n12 * n24 * n33\n\t\t\t\t + n13 * n22 * n34\n\t\t\t\t - n12 * n23 * n34\n\t\t\t) +\n\t\t\tn42 * (\n\t\t\t\t+ n11 * n23 * n34\n\t\t\t\t - n11 * n24 * n33\n\t\t\t\t + n14 * n21 * n33\n\t\t\t\t - n13 * n21 * n34\n\t\t\t\t + n13 * n24 * n31\n\t\t\t\t - n14 * n23 * n31\n\t\t\t) +\n\t\t\tn43 * (\n\t\t\t\t+ n11 * n24 * n32\n\t\t\t\t - n11 * n22 * n34\n\t\t\t\t - n14 * n21 * n32\n\t\t\t\t + n12 * n21 * n34\n\t\t\t\t + n14 * n22 * n31\n\t\t\t\t - n12 * n24 * n31\n\t\t\t) +\n\t\t\tn44 * (\n\t\t\t\t- n13 * n22 * n31\n\t\t\t\t - n11 * n23 * n32\n\t\t\t\t + n11 * n22 * n33\n\t\t\t\t + n13 * n21 * n32\n\t\t\t\t - n12 * n21 * n33\n\t\t\t\t + n12 * n23 * n31\n\t\t\t)\n\n\t\t);\n\n\t}\n\n\t/**\n\t * Transposes this matrix in place.\n\t *\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\ttranspose() {\n\n\t\tconst te = this.elements;\n\t\tlet tmp;\n\n\t\ttmp = te[ 1 ]; te[ 1 ] = te[ 4 ]; te[ 4 ] = tmp;\n\t\ttmp = te[ 2 ]; te[ 2 ] = te[ 8 ]; te[ 8 ] = tmp;\n\t\ttmp = te[ 6 ]; te[ 6 ] = te[ 9 ]; te[ 9 ] = tmp;\n\n\t\ttmp = te[ 3 ]; te[ 3 ] = te[ 12 ]; te[ 12 ] = tmp;\n\t\ttmp = te[ 7 ]; te[ 7 ] = te[ 13 ]; te[ 13 ] = tmp;\n\t\ttmp = te[ 11 ]; te[ 11 ] = te[ 14 ]; te[ 14 ] = tmp;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the position component for this matrix from the given vector,\n\t * without affecting the rest of the matrix.\n\t *\n\t * @param {number|Vector3} x - The x component of the vector or alternatively the vector object.\n\t * @param {number} y - The y component of the vector.\n\t * @param {number} z - The z component of the vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tsetPosition( x, y, z ) {\n\n\t\tconst te = this.elements;\n\n\t\tif ( x.isVector3 ) {\n\n\t\t\tte[ 12 ] = x.x;\n\t\t\tte[ 13 ] = x.y;\n\t\t\tte[ 14 ] = x.z;\n\n\t\t} else {\n\n\t\t\tte[ 12 ] = x;\n\t\t\tte[ 13 ] = y;\n\t\t\tte[ 14 ] = z;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this matrix, using the [analytic method]{@link https://en.wikipedia.org/wiki/Invertible_matrix#Analytic_solution}.\n\t * You can not invert with a determinant of zero. If you attempt this, the method produces\n\t * a zero matrix instead.\n\t *\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tinvert() {\n\n\t\t// based on http://www.euclideanspace.com/maths/algebra/matrix/functions/inverse/fourD/index.htm\n\t\tconst te = this.elements,\n\n\t\t\tn11 = te[ 0 ], n21 = te[ 1 ], n31 = te[ 2 ], n41 = te[ 3 ],\n\t\t\tn12 = te[ 4 ], n22 = te[ 5 ], n32 = te[ 6 ], n42 = te[ 7 ],\n\t\t\tn13 = te[ 8 ], n23 = te[ 9 ], n33 = te[ 10 ], n43 = te[ 11 ],\n\t\t\tn14 = te[ 12 ], n24 = te[ 13 ], n34 = te[ 14 ], n44 = te[ 15 ],\n\n\t\t\tt11 = n23 * n34 * n42 - n24 * n33 * n42 + n24 * n32 * n43 - n22 * n34 * n43 - n23 * n32 * n44 + n22 * n33 * n44,\n\t\t\tt12 = n14 * n33 * n42 - n13 * n34 * n42 - n14 * n32 * n43 + n12 * n34 * n43 + n13 * n32 * n44 - n12 * n33 * n44,\n\t\t\tt13 = n13 * n24 * n42 - n14 * n23 * n42 + n14 * n22 * n43 - n12 * n24 * n43 - n13 * n22 * n44 + n12 * n23 * n44,\n\t\t\tt14 = n14 * n23 * n32 - n13 * n24 * n32 - n14 * n22 * n33 + n12 * n24 * n33 + n13 * n22 * n34 - n12 * n23 * n34;\n\n\t\tconst det = n11 * t11 + n21 * t12 + n31 * t13 + n41 * t14;\n\n\t\tif ( det === 0 ) return this.set( 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 );\n\n\t\tconst detInv = 1 / det;\n\n\t\tte[ 0 ] = t11 * detInv;\n\t\tte[ 1 ] = ( n24 * n33 * n41 - n23 * n34 * n41 - n24 * n31 * n43 + n21 * n34 * n43 + n23 * n31 * n44 - n21 * n33 * n44 ) * detInv;\n\t\tte[ 2 ] = ( n22 * n34 * n41 - n24 * n32 * n41 + n24 * n31 * n42 - n21 * n34 * n42 - n22 * n31 * n44 + n21 * n32 * n44 ) * detInv;\n\t\tte[ 3 ] = ( n23 * n32 * n41 - n22 * n33 * n41 - n23 * n31 * n42 + n21 * n33 * n42 + n22 * n31 * n43 - n21 * n32 * n43 ) * detInv;\n\n\t\tte[ 4 ] = t12 * detInv;\n\t\tte[ 5 ] = ( n13 * n34 * n41 - n14 * n33 * n41 + n14 * n31 * n43 - n11 * n34 * n43 - n13 * n31 * n44 + n11 * n33 * n44 ) * detInv;\n\t\tte[ 6 ] = ( n14 * n32 * n41 - n12 * n34 * n41 - n14 * n31 * n42 + n11 * n34 * n42 + n12 * n31 * n44 - n11 * n32 * n44 ) * detInv;\n\t\tte[ 7 ] = ( n12 * n33 * n41 - n13 * n32 * n41 + n13 * n31 * n42 - n11 * n33 * n42 - n12 * n31 * n43 + n11 * n32 * n43 ) * detInv;\n\n\t\tte[ 8 ] = t13 * detInv;\n\t\tte[ 9 ] = ( n14 * n23 * n41 - n13 * n24 * n41 - n14 * n21 * n43 + n11 * n24 * n43 + n13 * n21 * n44 - n11 * n23 * n44 ) * detInv;\n\t\tte[ 10 ] = ( n12 * n24 * n41 - n14 * n22 * n41 + n14 * n21 * n42 - n11 * n24 * n42 - n12 * n21 * n44 + n11 * n22 * n44 ) * detInv;\n\t\tte[ 11 ] = ( n13 * n22 * n41 - n12 * n23 * n41 - n13 * n21 * n42 + n11 * n23 * n42 + n12 * n21 * n43 - n11 * n22 * n43 ) * detInv;\n\n\t\tte[ 12 ] = t14 * detInv;\n\t\tte[ 13 ] = ( n13 * n24 * n31 - n14 * n23 * n31 + n14 * n21 * n33 - n11 * n24 * n33 - n13 * n21 * n34 + n11 * n23 * n34 ) * detInv;\n\t\tte[ 14 ] = ( n14 * n22 * n31 - n12 * n24 * n31 - n14 * n21 * n32 + n11 * n24 * n32 + n12 * n21 * n34 - n11 * n22 * n34 ) * detInv;\n\t\tte[ 15 ] = ( n12 * n23 * n31 - n13 * n22 * n31 + n13 * n21 * n32 - n11 * n23 * n32 - n12 * n21 * n33 + n11 * n22 * n33 ) * detInv;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the columns of this matrix by the given vector.\n\t *\n\t * @param {Vector3} v - The scale vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tscale( v ) {\n\n\t\tconst te = this.elements;\n\t\tconst x = v.x, y = v.y, z = v.z;\n\n\t\tte[ 0 ] *= x; te[ 4 ] *= y; te[ 8 ] *= z;\n\t\tte[ 1 ] *= x; te[ 5 ] *= y; te[ 9 ] *= z;\n\t\tte[ 2 ] *= x; te[ 6 ] *= y; te[ 10 ] *= z;\n\t\tte[ 3 ] *= x; te[ 7 ] *= y; te[ 11 ] *= z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Gets the maximum scale value of the three axes.\n\t *\n\t * @return {number} The maximum scale.\n\t */\n\tgetMaxScaleOnAxis() {\n\n\t\tconst te = this.elements;\n\n\t\tconst scaleXSq = te[ 0 ] * te[ 0 ] + te[ 1 ] * te[ 1 ] + te[ 2 ] * te[ 2 ];\n\t\tconst scaleYSq = te[ 4 ] * te[ 4 ] + te[ 5 ] * te[ 5 ] + te[ 6 ] * te[ 6 ];\n\t\tconst scaleZSq = te[ 8 ] * te[ 8 ] + te[ 9 ] * te[ 9 ] + te[ 10 ] * te[ 10 ];\n\n\t\treturn Math.sqrt( Math.max( scaleXSq, scaleYSq, scaleZSq ) );\n\n\t}\n\n\t/**\n\t * Sets this matrix as a translation transform from the given vector.\n\t *\n\t * @param {number|Vector3} x - The amount to translate in the X axis or alternatively a translation vector.\n\t * @param {number} y - The amount to translate in the Y axis.\n\t * @param {number} z - The amount to translate in the z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeTranslation( x, y, z ) {\n\n\t\tif ( x.isVector3 ) {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, 0, x.x,\n\t\t\t\t0, 1, 0, x.y,\n\t\t\t\t0, 0, 1, x.z,\n\t\t\t\t0, 0, 0, 1\n\n\t\t\t);\n\n\t\t} else {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, 0, x,\n\t\t\t\t0, 1, 0, y,\n\t\t\t\t0, 0, 1, z,\n\t\t\t\t0, 0, 0, 1\n\n\t\t\t);\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the X axis by\n\t * the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationX( theta ) {\n\n\t\tconst c = Math.cos( theta ), s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\t1, 0, 0, 0,\n\t\t\t0, c, - s, 0,\n\t\t\t0, s, c, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the Y axis by\n\t * the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationY( theta ) {\n\n\t\tconst c = Math.cos( theta ), s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\t c, 0, s, 0,\n\t\t\t 0, 1, 0, 0,\n\t\t\t- s, 0, c, 0,\n\t\t\t 0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the Z axis by\n\t * the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationZ( theta ) {\n\n\t\tconst c = Math.cos( theta ), s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\tc, - s, 0, 0,\n\t\t\ts, c, 0, 0,\n\t\t\t0, 0, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the given axis by\n\t * the given angle.\n\t *\n\t * This is a somewhat controversial but mathematically sound alternative to\n\t * rotating via Quaternions. See the discussion [here]{@link https://www.gamedev.net/articles/programming/math-and-physics/do-we-really-need-quaternions-r1199}.\n\t *\n\t * @param {Vector3} axis - The normalized rotation axis.\n\t * @param {number} angle - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationAxis( axis, angle ) {\n\n\t\t// Based on http://www.gamedev.net/reference/articles/article1199.asp\n\n\t\tconst c = Math.cos( angle );\n\t\tconst s = Math.sin( angle );\n\t\tconst t = 1 - c;\n\t\tconst x = axis.x, y = axis.y, z = axis.z;\n\t\tconst tx = t * x, ty = t * y;\n\n\t\tthis.set(\n\n\t\t\ttx * x + c, tx * y - s * z, tx * z + s * y, 0,\n\t\t\ttx * y + s * z, ty * y + c, ty * z - s * x, 0,\n\t\t\ttx * z - s * y, ty * z + s * x, t * z * z + c, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a scale transformation.\n\t *\n\t * @param {number} x - The amount to scale in the X axis.\n\t * @param {number} y - The amount to scale in the Y axis.\n\t * @param {number} z - The amount to scale in the Z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeScale( x, y, z ) {\n\n\t\tthis.set(\n\n\t\t\tx, 0, 0, 0,\n\t\t\t0, y, 0, 0,\n\t\t\t0, 0, z, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a shear transformation.\n\t *\n\t * @param {number} xy - The amount to shear X by Y.\n\t * @param {number} xz - The amount to shear X by Z.\n\t * @param {number} yx - The amount to shear Y by X.\n\t * @param {number} yz - The amount to shear Y by Z.\n\t * @param {number} zx - The amount to shear Z by X.\n\t * @param {number} zy - The amount to shear Z by Y.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeShear( xy, xz, yx, yz, zx, zy ) {\n\n\t\tthis.set(\n\n\t\t\t1, yx, zx, 0,\n\t\t\txy, 1, zy, 0,\n\t\t\txz, yz, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix to the transformation composed of the given position,\n\t * rotation (Quaternion) and scale.\n\t *\n\t * @param {Vector3} position - The position vector.\n\t * @param {Quaternion} quaternion - The rotation as a Quaternion.\n\t * @param {Vector3} scale - The scale vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tcompose( position, quaternion, scale ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = quaternion._x, y = quaternion._y, z = quaternion._z, w = quaternion._w;\n\t\tconst x2 = x + x,\ty2 = y + y, z2 = z + z;\n\t\tconst xx = x * x2, xy = x * y2, xz = x * z2;\n\t\tconst yy = y * y2, yz = y * z2, zz = z * z2;\n\t\tconst wx = w * x2, wy = w * y2, wz = w * z2;\n\n\t\tconst sx = scale.x, sy = scale.y, sz = scale.z;\n\n\t\tte[ 0 ] = ( 1 - ( yy + zz ) ) * sx;\n\t\tte[ 1 ] = ( xy + wz ) * sx;\n\t\tte[ 2 ] = ( xz - wy ) * sx;\n\t\tte[ 3 ] = 0;\n\n\t\tte[ 4 ] = ( xy - wz ) * sy;\n\t\tte[ 5 ] = ( 1 - ( xx + zz ) ) * sy;\n\t\tte[ 6 ] = ( yz + wx ) * sy;\n\t\tte[ 7 ] = 0;\n\n\t\tte[ 8 ] = ( xz + wy ) * sz;\n\t\tte[ 9 ] = ( yz - wx ) * sz;\n\t\tte[ 10 ] = ( 1 - ( xx + yy ) ) * sz;\n\t\tte[ 11 ] = 0;\n\n\t\tte[ 12 ] = position.x;\n\t\tte[ 13 ] = position.y;\n\t\tte[ 14 ] = position.z;\n\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Decomposes this matrix into its position, rotation and scale components\n\t * and provides the result in the given objects.\n\t *\n\t * Note: Not all matrices are decomposable in this way. For example, if an\n\t * object has a non-uniformly scaled parent, then the object's world matrix\n\t * may not be decomposable, and this method may not be appropriate.\n\t *\n\t * @param {Vector3} position - The position vector.\n\t * @param {Quaternion} quaternion - The rotation as a Quaternion.\n\t * @param {Vector3} scale - The scale vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tdecompose( position, quaternion, scale ) {\n\n\t\tconst te = this.elements;\n\n\t\tlet sx = _v1$5.set( te[ 0 ], te[ 1 ], te[ 2 ] ).length();\n\t\tconst sy = _v1$5.set( te[ 4 ], te[ 5 ], te[ 6 ] ).length();\n\t\tconst sz = _v1$5.set( te[ 8 ], te[ 9 ], te[ 10 ] ).length();\n\n\t\t// if determine is negative, we need to invert one scale\n\t\tconst det = this.determinant();\n\t\tif ( det < 0 ) sx = - sx;\n\n\t\tposition.x = te[ 12 ];\n\t\tposition.y = te[ 13 ];\n\t\tposition.z = te[ 14 ];\n\n\t\t// scale the rotation part\n\t\t_m1$2.copy( this );\n\n\t\tconst invSX = 1 / sx;\n\t\tconst invSY = 1 / sy;\n\t\tconst invSZ = 1 / sz;\n\n\t\t_m1$2.elements[ 0 ] *= invSX;\n\t\t_m1$2.elements[ 1 ] *= invSX;\n\t\t_m1$2.elements[ 2 ] *= invSX;\n\n\t\t_m1$2.elements[ 4 ] *= invSY;\n\t\t_m1$2.elements[ 5 ] *= invSY;\n\t\t_m1$2.elements[ 6 ] *= invSY;\n\n\t\t_m1$2.elements[ 8 ] *= invSZ;\n\t\t_m1$2.elements[ 9 ] *= invSZ;\n\t\t_m1$2.elements[ 10 ] *= invSZ;\n\n\t\tquaternion.setFromRotationMatrix( _m1$2 );\n\n\t\tscale.x = sx;\n\t\tscale.y = sy;\n\t\tscale.z = sz;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Creates a perspective projection matrix. This is used internally by\n\t * {@link PerspectiveCamera#updateProjectionMatrix}.\n\n\t * @param {number} left - Left boundary of the viewing frustum at the near plane.\n\t * @param {number} right - Right boundary of the viewing frustum at the near plane.\n\t * @param {number} top - Top boundary of the viewing frustum at the near plane.\n\t * @param {number} bottom - Bottom boundary of the viewing frustum at the near plane.\n\t * @param {number} near - The distance from the camera to the near plane.\n\t * @param {number} far - The distance from the camera to the far plane.\n\t * @param {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} [coordinateSystem=WebGLCoordinateSystem] - The coordinate system.\n\t * @param {boolean} [reversedDepth=false] - Whether to use a reversed depth.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakePerspective( left, right, top, bottom, near, far, coordinateSystem = WebGLCoordinateSystem, reversedDepth = false ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = 2 * near / ( right - left );\n\t\tconst y = 2 * near / ( top - bottom );\n\n\t\tconst a = ( right + left ) / ( right - left );\n\t\tconst b = ( top + bottom ) / ( top - bottom );\n\n\t\tlet c, d;\n\n\t\tif ( reversedDepth ) {\n\n\t\t\tc = near / ( far - near );\n\t\t\td = ( far * near ) / ( far - near );\n\n\t\t} else {\n\n\t\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tc = - ( far + near ) / ( far - near );\n\t\t\t\td = ( -2 * far * near ) / ( far - near );\n\n\t\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tc = - far / ( far - near );\n\t\t\t\td = ( - far * near ) / ( far - near );\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.Matrix4.makePerspective(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\t\tte[ 0 ] = x;\tte[ 4 ] = 0;\tte[ 8 ] = a; \tte[ 12 ] = 0;\n\t\tte[ 1 ] = 0;\tte[ 5 ] = y;\tte[ 9 ] = b; \tte[ 13 ] = 0;\n\t\tte[ 2 ] = 0;\tte[ 6 ] = 0;\tte[ 10 ] = c; \tte[ 14 ] = d;\n\t\tte[ 3 ] = 0;\tte[ 7 ] = 0;\tte[ 11 ] = -1;\tte[ 15 ] = 0;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Creates a orthographic projection matrix. This is used internally by\n\t * {@link OrthographicCamera#updateProjectionMatrix}.\n\n\t * @param {number} left - Left boundary of the viewing frustum at the near plane.\n\t * @param {number} right - Right boundary of the viewing frustum at the near plane.\n\t * @param {number} top - Top boundary of the viewing frustum at the near plane.\n\t * @param {number} bottom - Bottom boundary of the viewing frustum at the near plane.\n\t * @param {number} near - The distance from the camera to the near plane.\n\t * @param {number} far - The distance from the camera to the far plane.\n\t * @param {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} [coordinateSystem=WebGLCoordinateSystem] - The coordinate system.\n\t * @param {boolean} [reversedDepth=false] - Whether to use a reversed depth.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeOrthographic( left, right, top, bottom, near, far, coordinateSystem = WebGLCoordinateSystem, reversedDepth = false ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = 2 / ( right - left );\n\t\tconst y = 2 / ( top - bottom );\n\n\t\tconst a = - ( right + left ) / ( right - left );\n\t\tconst b = - ( top + bottom ) / ( top - bottom );\n\n\t\tlet c, d;\n\n\t\tif ( reversedDepth ) {\n\n\t\t\tc = 1 / ( far - near );\n\t\t\td = far / ( far - near );\n\n\t\t} else {\n\n\t\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tc = -2 / ( far - near );\n\t\t\t\td = - ( far + near ) / ( far - near );\n\n\t\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tc = -1 / ( far - near );\n\t\t\t\td = - near / ( far - near );\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.Matrix4.makeOrthographic(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\t\tte[ 0 ] = x;\t\tte[ 4 ] = 0;\t\tte[ 8 ] = 0; \t\tte[ 12 ] = a;\n\t\tte[ 1 ] = 0; \t\tte[ 5 ] = y;\t\tte[ 9 ] = 0; \t\tte[ 13 ] = b;\n\t\tte[ 2 ] = 0; \t\tte[ 6 ] = 0;\t\tte[ 10 ] = c;\t\tte[ 14 ] = d;\n\t\tte[ 3 ] = 0; \t\tte[ 7 ] = 0;\t\tte[ 11 ] = 0;\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this matrix is equal with the given one.\n\t *\n\t * @param {Matrix4} matrix - The matrix to test for equality.\n\t * @return {boolean} Whether this matrix is equal with the given one.\n\t */\n\tequals( matrix ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = matrix.elements;\n\n\t\tfor ( let i = 0; i < 16; i ++ ) {\n\n\t\t\tif ( te[ i ] !== me[ i ] ) return false;\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix from the given array.\n\t *\n\t * @param {Array} array - The matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tfor ( let i = 0; i < 16; i ++ ) {\n\n\t\t\tthis.elements[ i ] = array[ i + offset ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the elements of this matrix to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The matrix elements in column-major order.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tconst te = this.elements;\n\n\t\tarray[ offset ] = te[ 0 ];\n\t\tarray[ offset + 1 ] = te[ 1 ];\n\t\tarray[ offset + 2 ] = te[ 2 ];\n\t\tarray[ offset + 3 ] = te[ 3 ];\n\n\t\tarray[ offset + 4 ] = te[ 4 ];\n\t\tarray[ offset + 5 ] = te[ 5 ];\n\t\tarray[ offset + 6 ] = te[ 6 ];\n\t\tarray[ offset + 7 ] = te[ 7 ];\n\n\t\tarray[ offset + 8 ] = te[ 8 ];\n\t\tarray[ offset + 9 ] = te[ 9 ];\n\t\tarray[ offset + 10 ] = te[ 10 ];\n\t\tarray[ offset + 11 ] = te[ 11 ];\n\n\t\tarray[ offset + 12 ] = te[ 12 ];\n\t\tarray[ offset + 13 ] = te[ 13 ];\n\t\tarray[ offset + 14 ] = te[ 14 ];\n\t\tarray[ offset + 15 ] = te[ 15 ];\n\n\t\treturn array;\n\n\t}\n\n}\n\nconst _v1$5 = /*@__PURE__*/ new Vector3();\nconst _m1$2 = /*@__PURE__*/ new Matrix4();\nconst _zero = /*@__PURE__*/ new Vector3( 0, 0, 0 );\nconst _one = /*@__PURE__*/ new Vector3( 1, 1, 1 );\nconst _x = /*@__PURE__*/ new Vector3();\nconst _y = /*@__PURE__*/ new Vector3();\nconst _z = /*@__PURE__*/ new Vector3();\n\nconst _matrix$2 = /*@__PURE__*/ new Matrix4();\nconst _quaternion$3 = /*@__PURE__*/ new Quaternion();\n\n/**\n * A class representing Euler angles.\n *\n * Euler angles describe a rotational transformation by rotating an object on\n * its various axes in specified amounts per axis, and a specified axis\n * order.\n *\n * Iterating through an instance will yield its components (x, y, z,\n * order) in the corresponding order.\n *\n * ```js\n * const a = new THREE.Euler( 0, 1, 1.57, 'XYZ' );\n * const b = new THREE.Vector3( 1, 0, 1 );\n * b.applyEuler(a);\n * ```\n */\nclass Euler {\n\n\t/**\n\t * Constructs a new euler instance.\n\t *\n\t * @param {number} [x=0] - The angle of the x axis in radians.\n\t * @param {number} [y=0] - The angle of the y axis in radians.\n\t * @param {number} [z=0] - The angle of the z axis in radians.\n\t * @param {string} [order=Euler.DEFAULT_ORDER] - A string representing the order that the rotations are applied.\n\t */\n\tconstructor( x = 0, y = 0, z = 0, order = Euler.DEFAULT_ORDER ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isEuler = true;\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._order = order;\n\n\t}\n\n\t/**\n\t * The angle of the x axis in radians.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget x() {\n\n\t\treturn this._x;\n\n\t}\n\n\tset x( value ) {\n\n\t\tthis._x = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The angle of the y axis in radians.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget y() {\n\n\t\treturn this._y;\n\n\t}\n\n\tset y( value ) {\n\n\t\tthis._y = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The angle of the z axis in radians.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget z() {\n\n\t\treturn this._z;\n\n\t}\n\n\tset z( value ) {\n\n\t\tthis._z = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * A string representing the order that the rotations are applied.\n\t *\n\t * @type {string}\n\t * @default 'XYZ'\n\t */\n\tget order() {\n\n\t\treturn this._order;\n\n\t}\n\n\tset order( value ) {\n\n\t\tthis._order = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * Sets the Euler components.\n\t *\n\t * @param {number} x - The angle of the x axis in radians.\n\t * @param {number} y - The angle of the y axis in radians.\n\t * @param {number} z - The angle of the z axis in radians.\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tset( x, y, z, order = this._order ) {\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._order = order;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new Euler instance with copied values from this instance.\n\t *\n\t * @return {Euler} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this._x, this._y, this._z, this._order );\n\n\t}\n\n\t/**\n\t * Copies the values of the given Euler instance to this instance.\n\t *\n\t * @param {Euler} euler - The Euler instance to copy.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tcopy( euler ) {\n\n\t\tthis._x = euler._x;\n\t\tthis._y = euler._y;\n\t\tthis._z = euler._z;\n\t\tthis._order = euler._order;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the angles of this Euler instance from a pure rotation matrix.\n\t *\n\t * @param {Matrix4} m - A 4x4 matrix of which the upper 3x3 of matrix is a pure rotation matrix (i.e. unscaled).\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tsetFromRotationMatrix( m, order = this._order, update = true ) {\n\n\t\tconst te = m.elements;\n\t\tconst m11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ];\n\t\tconst m21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ];\n\t\tconst m31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ];\n\n\t\tswitch ( order ) {\n\n\t\t\tcase 'XYZ':\n\n\t\t\t\tthis._y = Math.asin( clamp( m13, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m13 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( - m23, m33 );\n\t\t\t\t\tthis._z = Math.atan2( - m12, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = Math.atan2( m32, m22 );\n\t\t\t\t\tthis._z = 0;\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'YXZ':\n\n\t\t\t\tthis._x = Math.asin( - clamp( m23, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m23 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._y = Math.atan2( m13, m33 );\n\t\t\t\t\tthis._z = Math.atan2( m21, m22 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._y = Math.atan2( - m31, m11 );\n\t\t\t\t\tthis._z = 0;\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZXY':\n\n\t\t\t\tthis._x = Math.asin( clamp( m32, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m32 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._y = Math.atan2( - m31, m33 );\n\t\t\t\t\tthis._z = Math.atan2( - m12, m22 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._y = 0;\n\t\t\t\t\tthis._z = Math.atan2( m21, m11 );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZYX':\n\n\t\t\t\tthis._y = Math.asin( - clamp( m31, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m31 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( m32, m33 );\n\t\t\t\t\tthis._z = Math.atan2( m21, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = 0;\n\t\t\t\t\tthis._z = Math.atan2( - m12, m22 );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'YZX':\n\n\t\t\t\tthis._z = Math.asin( clamp( m21, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m21 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( - m23, m22 );\n\t\t\t\t\tthis._y = Math.atan2( - m31, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = 0;\n\t\t\t\t\tthis._y = Math.atan2( m13, m33 );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'XZY':\n\n\t\t\t\tthis._z = Math.asin( - clamp( m12, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m12 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( m32, m22 );\n\t\t\t\t\tthis._y = Math.atan2( m13, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = Math.atan2( - m23, m33 );\n\t\t\t\t\tthis._y = 0;\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\n\t\t\t\tconsole.warn( 'THREE.Euler: .setFromRotationMatrix() encountered an unknown order: ' + order );\n\n\t\t}\n\n\t\tthis._order = order;\n\n\t\tif ( update === true ) this._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the angles of this Euler instance from a normalized quaternion.\n\t *\n\t * @param {Quaternion} q - A normalized Quaternion.\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tsetFromQuaternion( q, order, update ) {\n\n\t\t_matrix$2.makeRotationFromQuaternion( q );\n\n\t\treturn this.setFromRotationMatrix( _matrix$2, order, update );\n\n\t}\n\n\t/**\n\t * Sets the angles of this Euler instance from the given vector.\n\t *\n\t * @param {Vector3} v - The vector.\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tsetFromVector3( v, order = this._order ) {\n\n\t\treturn this.set( v.x, v.y, v.z, order );\n\n\t}\n\n\t/**\n\t * Resets the euler angle with a new order by creating a quaternion from this\n\t * euler angle and then setting this euler angle with the quaternion and the\n\t * new order.\n\t *\n\t * Warning: This discards revolution information.\n\t *\n\t * @param {string} [newOrder] - A string representing the new order that the rotations are applied.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\treorder( newOrder ) {\n\n\t\t_quaternion$3.setFromEuler( this );\n\n\t\treturn this.setFromQuaternion( _quaternion$3, newOrder );\n\n\t}\n\n\t/**\n\t * Returns `true` if this Euler instance is equal with the given one.\n\t *\n\t * @param {Euler} euler - The Euler instance to test for equality.\n\t * @return {boolean} Whether this Euler instance is equal with the given one.\n\t */\n\tequals( euler ) {\n\n\t\treturn ( euler._x === this._x ) && ( euler._y === this._y ) && ( euler._z === this._z ) && ( euler._order === this._order );\n\n\t}\n\n\t/**\n\t * Sets this Euler instance's components to values from the given array. The first three\n\t * entries of the array are assign to the x,y and z components. An optional fourth entry\n\t * defines the Euler order.\n\t *\n\t * @param {Array} array - An array holding the Euler component values.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tfromArray( array ) {\n\n\t\tthis._x = array[ 0 ];\n\t\tthis._y = array[ 1 ];\n\t\tthis._z = array[ 2 ];\n\t\tif ( array[ 3 ] !== undefined ) this._order = array[ 3 ];\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this Euler instance to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the Euler components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The Euler components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this._x;\n\t\tarray[ offset + 1 ] = this._y;\n\t\tarray[ offset + 2 ] = this._z;\n\t\tarray[ offset + 3 ] = this._order;\n\n\t\treturn array;\n\n\t}\n\n\t_onChange( callback ) {\n\n\t\tthis._onChangeCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t_onChangeCallback() {}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this._x;\n\t\tyield this._y;\n\t\tyield this._z;\n\t\tyield this._order;\n\n\t}\n\n}\n\n/**\n * The default Euler angle order.\n *\n * @static\n * @type {string}\n * @default 'XYZ'\n */\nEuler.DEFAULT_ORDER = 'XYZ';\n\n/**\n * A layers object assigns an 3D object to 1 or more of 32\n * layers numbered `0` to `31` - internally the layers are stored as a\n * bit mask], and by default all 3D objects are a member of layer `0`.\n *\n * This can be used to control visibility - an object must share a layer with\n * a camera to be visible when that camera's view is\n * rendered.\n *\n * All classes that inherit from {@link Object3D} have an `layers` property which\n * is an instance of this class.\n */\nclass Layers {\n\n\t/**\n\t * Constructs a new layers instance, with membership\n\t * initially set to layer `0`.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * A bit mask storing which of the 32 layers this layers object is currently\n\t\t * a member of.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.mask = 1 | 0;\n\n\t}\n\n\t/**\n\t * Sets membership to the given layer, and remove membership all other layers.\n\t *\n\t * @param {number} layer - The layer to set.\n\t */\n\tset( layer ) {\n\n\t\tthis.mask = ( 1 << layer | 0 ) >>> 0;\n\n\t}\n\n\t/**\n\t * Adds membership of the given layer.\n\t *\n\t * @param {number} layer - The layer to enable.\n\t */\n\tenable( layer ) {\n\n\t\tthis.mask |= 1 << layer | 0;\n\n\t}\n\n\t/**\n\t * Adds membership to all layers.\n\t */\n\tenableAll() {\n\n\t\tthis.mask = 0xffffffff | 0;\n\n\t}\n\n\t/**\n\t * Toggles the membership of the given layer.\n\t *\n\t * @param {number} layer - The layer to toggle.\n\t */\n\ttoggle( layer ) {\n\n\t\tthis.mask ^= 1 << layer | 0;\n\n\t}\n\n\t/**\n\t * Removes membership of the given layer.\n\t *\n\t * @param {number} layer - The layer to enable.\n\t */\n\tdisable( layer ) {\n\n\t\tthis.mask &= ~ ( 1 << layer | 0 );\n\n\t}\n\n\t/**\n\t * Removes the membership from all layers.\n\t */\n\tdisableAll() {\n\n\t\tthis.mask = 0;\n\n\t}\n\n\t/**\n\t * Returns `true` if this and the given layers object have at least one\n\t * layer in common.\n\t *\n\t * @param {Layers} layers - The layers to test.\n\t * @return {boolean } Whether this and the given layers object have at least one layer in common or not.\n\t */\n\ttest( layers ) {\n\n\t\treturn ( this.mask & layers.mask ) !== 0;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given layer is enabled.\n\t *\n\t * @param {number} layer - The layer to test.\n\t * @return {boolean } Whether the given layer is enabled or not.\n\t */\n\tisEnabled( layer ) {\n\n\t\treturn ( this.mask & ( 1 << layer | 0 ) ) !== 0;\n\n\t}\n\n}\n\nlet _object3DId = 0;\n\nconst _v1$4 = /*@__PURE__*/ new Vector3();\nconst _q1 = /*@__PURE__*/ new Quaternion();\nconst _m1$1 = /*@__PURE__*/ new Matrix4();\nconst _target = /*@__PURE__*/ new Vector3();\n\nconst _position$3 = /*@__PURE__*/ new Vector3();\nconst _scale$2 = /*@__PURE__*/ new Vector3();\nconst _quaternion$2 = /*@__PURE__*/ new Quaternion();\n\nconst _xAxis = /*@__PURE__*/ new Vector3( 1, 0, 0 );\nconst _yAxis = /*@__PURE__*/ new Vector3( 0, 1, 0 );\nconst _zAxis = /*@__PURE__*/ new Vector3( 0, 0, 1 );\n\n/**\n * Fires when the object has been added to its parent object.\n *\n * @event Object3D#added\n * @type {Object}\n */\nconst _addedEvent = { type: 'added' };\n\n/**\n * Fires when the object has been removed from its parent object.\n *\n * @event Object3D#removed\n * @type {Object}\n */\nconst _removedEvent = { type: 'removed' };\n\n/**\n * Fires when a new child object has been added.\n *\n * @event Object3D#childadded\n * @type {Object}\n */\nconst _childaddedEvent = { type: 'childadded', child: null };\n\n/**\n * Fires when a child object has been removed.\n *\n * @event Object3D#childremoved\n * @type {Object}\n */\nconst _childremovedEvent = { type: 'childremoved', child: null };\n\n/**\n * This is the base class for most objects in three.js and provides a set of\n * properties and methods for manipulating objects in 3D space.\n *\n * @augments EventDispatcher\n */\nclass Object3D extends EventDispatcher {\n\n\t/**\n\t * Constructs a new 3D object.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isObject3D = true;\n\n\t\t/**\n\t\t * The ID of the 3D object.\n\t\t *\n\t\t * @name Object3D#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _object3DId ++ } );\n\n\t\t/**\n\t\t * The UUID of the 3D object.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the 3D object.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'Object3D';\n\n\t\t/**\n\t\t * A reference to the parent object.\n\t\t *\n\t\t * @type {?Object3D}\n\t\t * @default null\n\t\t */\n\t\tthis.parent = null;\n\n\t\t/**\n\t\t * An array holding the child 3D objects of this instance.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.children = [];\n\n\t\t/**\n\t\t * Defines the `up` direction of the 3D object which influences\n\t\t * the orientation via methods like {@link Object3D#lookAt}.\n\t\t *\n\t\t * The default values for all 3D objects is defined by `Object3D.DEFAULT_UP`.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.up = Object3D.DEFAULT_UP.clone();\n\n\t\tconst position = new Vector3();\n\t\tconst rotation = new Euler();\n\t\tconst quaternion = new Quaternion();\n\t\tconst scale = new Vector3( 1, 1, 1 );\n\n\t\tfunction onRotationChange() {\n\n\t\t\tquaternion.setFromEuler( rotation, false );\n\n\t\t}\n\n\t\tfunction onQuaternionChange() {\n\n\t\t\trotation.setFromQuaternion( quaternion, undefined, false );\n\n\t\t}\n\n\t\trotation._onChange( onRotationChange );\n\t\tquaternion._onChange( onQuaternionChange );\n\n\t\tObject.defineProperties( this, {\n\t\t\t/**\n\t\t\t * Represents the object's local position.\n\t\t\t *\n\t\t\t * @name Object3D#position\n\t\t\t * @type {Vector3}\n\t\t\t * @default (0,0,0)\n\t\t\t */\n\t\t\tposition: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: position\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's local rotation as Euler angles, in radians.\n\t\t\t *\n\t\t\t * @name Object3D#rotation\n\t\t\t * @type {Euler}\n\t\t\t * @default (0,0,0)\n\t\t\t */\n\t\t\trotation: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: rotation\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's local rotation as Quaternions.\n\t\t\t *\n\t\t\t * @name Object3D#quaternion\n\t\t\t * @type {Quaternion}\n\t\t\t */\n\t\t\tquaternion: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: quaternion\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's local scale.\n\t\t\t *\n\t\t\t * @name Object3D#scale\n\t\t\t * @type {Vector3}\n\t\t\t * @default (1,1,1)\n\t\t\t */\n\t\t\tscale: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: scale\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's model-view matrix.\n\t\t\t *\n\t\t\t * @name Object3D#modelViewMatrix\n\t\t\t * @type {Matrix4}\n\t\t\t */\n\t\t\tmodelViewMatrix: {\n\t\t\t\tvalue: new Matrix4()\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's normal matrix.\n\t\t\t *\n\t\t\t * @name Object3D#normalMatrix\n\t\t\t * @type {Matrix3}\n\t\t\t */\n\t\t\tnormalMatrix: {\n\t\t\t\tvalue: new Matrix3()\n\t\t\t}\n\t\t} );\n\n\t\t/**\n\t\t * Represents the object's transformation matrix in local space.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrix = new Matrix4();\n\n\t\t/**\n\t\t * Represents the object's transformation matrix in world space.\n\t\t * If the 3D object has no parent, then it's identical to the local transformation matrix\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrixWorld = new Matrix4();\n\n\t\t/**\n\t\t * When set to `true`, the engine automatically computes the local matrix from position,\n\t\t * rotation and scale every frame.\n\t\t *\n\t\t * The default values for all 3D objects is defined by `Object3D.DEFAULT_MATRIX_AUTO_UPDATE`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.matrixAutoUpdate = Object3D.DEFAULT_MATRIX_AUTO_UPDATE;\n\n\t\t/**\n\t\t * When set to `true`, the engine automatically computes the world matrix from the current local\n\t\t * matrix and the object's transformation hierarchy.\n\t\t *\n\t\t * The default values for all 3D objects is defined by `Object3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.matrixWorldAutoUpdate = Object3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE; // checked by the renderer\n\n\t\t/**\n\t\t * When set to `true`, it calculates the world matrix in that frame and resets this property\n\t\t * to `false`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.matrixWorldNeedsUpdate = false;\n\n\t\t/**\n\t\t * The layer membership of the 3D object. The 3D object is only visible if it has\n\t\t * at least one layer in common with the camera in use. This property can also be\n\t\t * used to filter out unwanted objects in ray-intersection tests when using {@link Raycaster}.\n\t\t *\n\t\t * @type {Layers}\n\t\t */\n\t\tthis.layers = new Layers();\n\n\t\t/**\n\t\t * When set to `true`, the 3D object gets rendered.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.visible = true;\n\n\t\t/**\n\t\t * When set to `true`, the 3D object gets rendered into shadow maps.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.castShadow = false;\n\n\t\t/**\n\t\t * When set to `true`, the 3D object is affected by shadows in the scene.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.receiveShadow = false;\n\n\t\t/**\n\t\t * When set to `true`, the 3D object is honored by view frustum culling.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.frustumCulled = true;\n\n\t\t/**\n\t\t * This value allows the default rendering order of scene graph objects to be\n\t\t * overridden although opaque and transparent objects remain sorted independently.\n\t\t * When this property is set for an instance of {@link Group},all descendants\n\t\t * objects will be sorted and rendered together. Sorting is from lowest to highest\n\t\t * render order.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.renderOrder = 0;\n\n\t\t/**\n\t\t * An array holding the animation clips of the 3D object.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.animations = [];\n\n\t\t/**\n\t\t * Custom depth material to be used when rendering to the depth map. Can only be used\n\t\t * in context of meshes. When shadow-casting with a {@link DirectionalLight} or {@link SpotLight},\n\t\t * if you are modifying vertex positions in the vertex shader you must specify a custom depth\n\t\t * material for proper shadows.\n\t\t *\n\t\t * Only relevant in context of {@link WebGLRenderer}.\n\t\t *\n\t\t * @type {(Material|undefined)}\n\t\t * @default undefined\n\t\t */\n\t\tthis.customDepthMaterial = undefined;\n\n\t\t/**\n\t\t * Same as {@link Object3D#customDepthMaterial}, but used with {@link PointLight}.\n\t\t *\n\t\t * Only relevant in context of {@link WebGLRenderer}.\n\t\t *\n\t\t * @type {(Material|undefined)}\n\t\t * @default undefined\n\t\t */\n\t\tthis.customDistanceMaterial = undefined;\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the 3D object. It\n\t\t * should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t}\n\n\t/**\n\t * A callback that is executed immediately before a 3D object is rendered to a shadow map.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {Camera} shadowCamera - The shadow camera.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} depthMaterial - The depth material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonBeforeShadow( /* renderer, object, camera, shadowCamera, geometry, depthMaterial, group */ ) {}\n\n\t/**\n\t * A callback that is executed immediately after a 3D object is rendered to a shadow map.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {Camera} shadowCamera - The shadow camera.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} depthMaterial - The depth material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonAfterShadow( /* renderer, object, camera, shadowCamera, geometry, depthMaterial, group */ ) {}\n\n\t/**\n\t * A callback that is executed immediately before a 3D object is rendered.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} material - The 3D object's material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonBeforeRender( /* renderer, scene, camera, geometry, material, group */ ) {}\n\n\t/**\n\t * A callback that is executed immediately after a 3D object is rendered.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} material - The 3D object's material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonAfterRender( /* renderer, scene, camera, geometry, material, group */ ) {}\n\n\t/**\n\t * Applies the given transformation matrix to the object and updates the object's position,\n\t * rotation and scale.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tif ( this.matrixAutoUpdate ) this.updateMatrix();\n\n\t\tthis.matrix.premultiply( matrix );\n\n\t\tthis.matrix.decompose( this.position, this.quaternion, this.scale );\n\n\t}\n\n\t/**\n\t * Applies a rotation represented by given the quaternion to the 3D object.\n\t *\n\t * @param {Quaternion} q - The quaternion.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tapplyQuaternion( q ) {\n\n\t\tthis.quaternion.premultiply( q );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as an axis/angle couple to the 3D object.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} angle - The angle in radians.\n\t */\n\tsetRotationFromAxisAngle( axis, angle ) {\n\n\t\t// assumes axis is normalized\n\n\t\tthis.quaternion.setFromAxisAngle( axis, angle );\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as Euler angles to the 3D object.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t */\n\tsetRotationFromEuler( euler ) {\n\n\t\tthis.quaternion.setFromEuler( euler, true );\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as rotation matrix to the 3D object.\n\t *\n\t * @param {Matrix4} m - Although a 4x4 matrix is expected, the upper 3x3 portion must be\n\t * a pure rotation matrix (i.e, unscaled).\n\t */\n\tsetRotationFromMatrix( m ) {\n\n\t\t// assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled)\n\n\t\tthis.quaternion.setFromRotationMatrix( m );\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as a Quaternion to the 3D object.\n\t *\n\t * @param {Quaternion} q - The Quaternion\n\t */\n\tsetRotationFromQuaternion( q ) {\n\n\t\t// assumes q is normalized\n\n\t\tthis.quaternion.copy( q );\n\n\t}\n\n\t/**\n\t * Rotates the 3D object along an axis in local space.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateOnAxis( axis, angle ) {\n\n\t\t// rotate object on axis in object space\n\t\t// axis is assumed to be normalized\n\n\t\t_q1.setFromAxisAngle( axis, angle );\n\n\t\tthis.quaternion.multiply( _q1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the 3D object along an axis in world space.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateOnWorldAxis( axis, angle ) {\n\n\t\t// rotate object on axis in world space\n\t\t// axis is assumed to be normalized\n\t\t// method assumes no rotated parent\n\n\t\t_q1.setFromAxisAngle( axis, angle );\n\n\t\tthis.quaternion.premultiply( _q1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the 3D object around its X axis in local space.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateX( angle ) {\n\n\t\treturn this.rotateOnAxis( _xAxis, angle );\n\n\t}\n\n\t/**\n\t * Rotates the 3D object around its Y axis in local space.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateY( angle ) {\n\n\t\treturn this.rotateOnAxis( _yAxis, angle );\n\n\t}\n\n\t/**\n\t * Rotates the 3D object around its Z axis in local space.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateZ( angle ) {\n\n\t\treturn this.rotateOnAxis( _zAxis, angle );\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along the given axis in local space.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateOnAxis( axis, distance ) {\n\n\t\t// translate object by distance along axis in object space\n\t\t// axis is assumed to be normalized\n\n\t\t_v1$4.copy( axis ).applyQuaternion( this.quaternion );\n\n\t\tthis.position.add( _v1$4.multiplyScalar( distance ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along its X-axis in local space.\n\t *\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateX( distance ) {\n\n\t\treturn this.translateOnAxis( _xAxis, distance );\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along its Y-axis in local space.\n\t *\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateY( distance ) {\n\n\t\treturn this.translateOnAxis( _yAxis, distance );\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along its Z-axis in local space.\n\t *\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateZ( distance ) {\n\n\t\treturn this.translateOnAxis( _zAxis, distance );\n\n\t}\n\n\t/**\n\t * Converts the given vector from this 3D object's local space to world space.\n\t *\n\t * @param {Vector3} vector - The vector to convert.\n\t * @return {Vector3} The converted vector.\n\t */\n\tlocalToWorld( vector ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\treturn vector.applyMatrix4( this.matrixWorld );\n\n\t}\n\n\t/**\n\t * Converts the given vector from this 3D object's word space to local space.\n\t *\n\t * @param {Vector3} vector - The vector to convert.\n\t * @return {Vector3} The converted vector.\n\t */\n\tworldToLocal( vector ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\treturn vector.applyMatrix4( _m1$1.copy( this.matrixWorld ).invert() );\n\n\t}\n\n\t/**\n\t * Rotates the object to face a point in world space.\n\t *\n\t * This method does not support objects having non-uniformly-scaled parent(s).\n\t *\n\t * @param {number|Vector3} x - The x coordinate in world space. Alternatively, a vector representing a position in world space\n\t * @param {number} [y] - The y coordinate in world space.\n\t * @param {number} [z] - The z coordinate in world space.\n\t */\n\tlookAt( x, y, z ) {\n\n\t\t// This method does not support objects having non-uniformly-scaled parent(s)\n\n\t\tif ( x.isVector3 ) {\n\n\t\t\t_target.copy( x );\n\n\t\t} else {\n\n\t\t\t_target.set( x, y, z );\n\n\t\t}\n\n\t\tconst parent = this.parent;\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\t_position$3.setFromMatrixPosition( this.matrixWorld );\n\n\t\tif ( this.isCamera || this.isLight ) {\n\n\t\t\t_m1$1.lookAt( _position$3, _target, this.up );\n\n\t\t} else {\n\n\t\t\t_m1$1.lookAt( _target, _position$3, this.up );\n\n\t\t}\n\n\t\tthis.quaternion.setFromRotationMatrix( _m1$1 );\n\n\t\tif ( parent ) {\n\n\t\t\t_m1$1.extractRotation( parent.matrixWorld );\n\t\t\t_q1.setFromRotationMatrix( _m1$1 );\n\t\t\tthis.quaternion.premultiply( _q1.invert() );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Adds the given 3D object as a child to this 3D object. An arbitrary number of\n\t * objects may be added. Any current parent on an object passed in here will be\n\t * removed, since an object can have at most one parent.\n\t *\n\t * @fires Object3D#added\n\t * @fires Object3D#childadded\n\t * @param {Object3D} object - The 3D object to add.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tadd( object ) {\n\n\t\tif ( arguments.length > 1 ) {\n\n\t\t\tfor ( let i = 0; i < arguments.length; i ++ ) {\n\n\t\t\t\tthis.add( arguments[ i ] );\n\n\t\t\t}\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( object === this ) {\n\n\t\t\tconsole.error( 'THREE.Object3D.add: object can\\'t be added as a child of itself.', object );\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( object && object.isObject3D ) {\n\n\t\t\tobject.removeFromParent();\n\t\t\tobject.parent = this;\n\t\t\tthis.children.push( object );\n\n\t\t\tobject.dispatchEvent( _addedEvent );\n\n\t\t\t_childaddedEvent.child = object;\n\t\t\tthis.dispatchEvent( _childaddedEvent );\n\t\t\t_childaddedEvent.child = null;\n\n\t\t} else {\n\n\t\t\tconsole.error( 'THREE.Object3D.add: object not an instance of THREE.Object3D.', object );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes the given 3D object as child from this 3D object.\n\t * An arbitrary number of objects may be removed.\n\t *\n\t * @fires Object3D#removed\n\t * @fires Object3D#childremoved\n\t * @param {Object3D} object - The 3D object to remove.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tremove( object ) {\n\n\t\tif ( arguments.length > 1 ) {\n\n\t\t\tfor ( let i = 0; i < arguments.length; i ++ ) {\n\n\t\t\t\tthis.remove( arguments[ i ] );\n\n\t\t\t}\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst index = this.children.indexOf( object );\n\n\t\tif ( index !== -1 ) {\n\n\t\t\tobject.parent = null;\n\t\t\tthis.children.splice( index, 1 );\n\n\t\t\tobject.dispatchEvent( _removedEvent );\n\n\t\t\t_childremovedEvent.child = object;\n\t\t\tthis.dispatchEvent( _childremovedEvent );\n\t\t\t_childremovedEvent.child = null;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes this 3D object from its current parent.\n\t *\n\t * @fires Object3D#removed\n\t * @fires Object3D#childremoved\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tremoveFromParent() {\n\n\t\tconst parent = this.parent;\n\n\t\tif ( parent !== null ) {\n\n\t\t\tparent.remove( this );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes all child objects.\n\t *\n\t * @fires Object3D#removed\n\t * @fires Object3D#childremoved\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tclear() {\n\n\t\treturn this.remove( ... this.children );\n\n\t}\n\n\t/**\n\t * Adds the given 3D object as a child of this 3D object, while maintaining the object's world\n\t * transform. This method does not support scene graphs having non-uniformly-scaled nodes(s).\n\t *\n\t * @fires Object3D#added\n\t * @fires Object3D#childadded\n\t * @param {Object3D} object - The 3D object to attach.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tattach( object ) {\n\n\t\t// adds object as a child of this, while maintaining the object's world transform\n\n\t\t// Note: This method does not support scene graphs having non-uniformly-scaled nodes(s)\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\t_m1$1.copy( this.matrixWorld ).invert();\n\n\t\tif ( object.parent !== null ) {\n\n\t\t\tobject.parent.updateWorldMatrix( true, false );\n\n\t\t\t_m1$1.multiply( object.parent.matrixWorld );\n\n\t\t}\n\n\t\tobject.applyMatrix4( _m1$1 );\n\n\t\tobject.removeFromParent();\n\t\tobject.parent = this;\n\t\tthis.children.push( object );\n\n\t\tobject.updateWorldMatrix( false, true );\n\n\t\tobject.dispatchEvent( _addedEvent );\n\n\t\t_childaddedEvent.child = object;\n\t\tthis.dispatchEvent( _childaddedEvent );\n\t\t_childaddedEvent.child = null;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns the first with a matching ID.\n\t *\n\t * @param {number} id - The id.\n\t * @return {Object3D|undefined} The found 3D object. Returns `undefined` if no 3D object has been found.\n\t */\n\tgetObjectById( id ) {\n\n\t\treturn this.getObjectByProperty( 'id', id );\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns the first with a matching name.\n\t *\n\t * @param {string} name - The name.\n\t * @return {Object3D|undefined} The found 3D object. Returns `undefined` if no 3D object has been found.\n\t */\n\tgetObjectByName( name ) {\n\n\t\treturn this.getObjectByProperty( 'name', name );\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns the first with a matching property value.\n\t *\n\t * @param {string} name - The name of the property.\n\t * @param {any} value - The value.\n\t * @return {Object3D|undefined} The found 3D object. Returns `undefined` if no 3D object has been found.\n\t */\n\tgetObjectByProperty( name, value ) {\n\n\t\tif ( this[ name ] === value ) return this;\n\n\t\tfor ( let i = 0, l = this.children.length; i < l; i ++ ) {\n\n\t\t\tconst child = this.children[ i ];\n\t\t\tconst object = child.getObjectByProperty( name, value );\n\n\t\t\tif ( object !== undefined ) {\n\n\t\t\t\treturn object;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn undefined;\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns all 3D objects with a matching property value.\n\t *\n\t * @param {string} name - The name of the property.\n\t * @param {any} value - The value.\n\t * @param {Array} result - The method stores the result in this array.\n\t * @return {Array} The found 3D objects.\n\t */\n\tgetObjectsByProperty( name, value, result = [] ) {\n\n\t\tif ( this[ name ] === value ) result.push( this );\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tchildren[ i ].getObjectsByProperty( name, value, result );\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the position of the 3D object in world space.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's position in world space.\n\t */\n\tgetWorldPosition( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\treturn target.setFromMatrixPosition( this.matrixWorld );\n\n\t}\n\n\t/**\n\t * Returns a Quaternion representing the position of the 3D object in world space.\n\t *\n\t * @param {Quaternion} target - The target Quaternion the result is stored to.\n\t * @return {Quaternion} The 3D object's rotation in world space.\n\t */\n\tgetWorldQuaternion( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\tthis.matrixWorld.decompose( _position$3, target, _scale$2 );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the scale of the 3D object in world space.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's scale in world space.\n\t */\n\tgetWorldScale( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\tthis.matrixWorld.decompose( _position$3, _quaternion$2, target );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the (\"look\") direction of the 3D object in world space.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's direction in world space.\n\t */\n\tgetWorldDirection( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\tconst e = this.matrixWorld.elements;\n\n\t\treturn target.set( e[ 8 ], e[ 9 ], e[ 10 ] ).normalize();\n\n\t}\n\n\t/**\n\t * Abstract method to get intersections between a casted ray and this\n\t * 3D object. Renderable 3D objects such as {@link Mesh}, {@link Line} or {@link Points}\n\t * implement this method in order to use raycasting.\n\t *\n\t * @abstract\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - An array holding the result of the method.\n\t */\n\traycast( /* raycaster, intersects */ ) {}\n\n\t/**\n\t * Executes the callback on this 3D object and all descendants.\n\t *\n\t * Note: Modifying the scene graph inside the callback is discouraged.\n\t *\n\t * @param {Function} callback - A callback function that allows to process the current 3D object.\n\t */\n\ttraverse( callback ) {\n\n\t\tcallback( this );\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tchildren[ i ].traverse( callback );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Like {@link Object3D#traverse}, but the callback will only be executed for visible 3D objects.\n\t * Descendants of invisible 3D objects are not traversed.\n\t *\n\t * Note: Modifying the scene graph inside the callback is discouraged.\n\t *\n\t * @param {Function} callback - A callback function that allows to process the current 3D object.\n\t */\n\ttraverseVisible( callback ) {\n\n\t\tif ( this.visible === false ) return;\n\n\t\tcallback( this );\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tchildren[ i ].traverseVisible( callback );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Like {@link Object3D#traverse}, but the callback will only be executed for all ancestors.\n\t *\n\t * Note: Modifying the scene graph inside the callback is discouraged.\n\t *\n\t * @param {Function} callback - A callback function that allows to process the current 3D object.\n\t */\n\ttraverseAncestors( callback ) {\n\n\t\tconst parent = this.parent;\n\n\t\tif ( parent !== null ) {\n\n\t\t\tcallback( parent );\n\n\t\t\tparent.traverseAncestors( callback );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Updates the transformation matrix in local space by computing it from the current\n\t * position, rotation and scale values.\n\t */\n\tupdateMatrix() {\n\n\t\tthis.matrix.compose( this.position, this.quaternion, this.scale );\n\n\t\tthis.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t/**\n\t * Updates the transformation matrix in world space of this 3D objects and its descendants.\n\t *\n\t * To ensure correct results, this method also recomputes the 3D object's transformation matrix in\n\t * local space. The computation of the local and world matrix can be controlled with the\n\t * {@link Object3D#matrixAutoUpdate} and {@link Object3D#matrixWorldAutoUpdate} flags which are both\n\t * `true` by default. Set these flags to `false` if you need more control over the update matrix process.\n\t *\n\t * @param {boolean} [force=false] - When set to `true`, a recomputation of world matrices is forced even\n\t * when {@link Object3D#matrixWorldAutoUpdate} is set to `false`.\n\t */\n\tupdateMatrixWorld( force ) {\n\n\t\tif ( this.matrixAutoUpdate ) this.updateMatrix();\n\n\t\tif ( this.matrixWorldNeedsUpdate || force ) {\n\n\t\t\tif ( this.matrixWorldAutoUpdate === true ) {\n\n\t\t\t\tif ( this.parent === null ) {\n\n\t\t\t\t\tthis.matrixWorld.copy( this.matrix );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis.matrixWorld.multiplyMatrices( this.parent.matrixWorld, this.matrix );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.matrixWorldNeedsUpdate = false;\n\n\t\t\tforce = true;\n\n\t\t}\n\n\t\t// make sure descendants are updated if required\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tconst child = children[ i ];\n\n\t\t\tchild.updateMatrixWorld( force );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * An alternative version of {@link Object3D#updateMatrixWorld} with more control over the\n\t * update of ancestor and descendant nodes.\n\t *\n\t * @param {boolean} [updateParents=false] Whether ancestor nodes should be updated or not.\n\t * @param {boolean} [updateChildren=false] Whether descendant nodes should be updated or not.\n\t */\n\tupdateWorldMatrix( updateParents, updateChildren ) {\n\n\t\tconst parent = this.parent;\n\n\t\tif ( updateParents === true && parent !== null ) {\n\n\t\t\tparent.updateWorldMatrix( true, false );\n\n\t\t}\n\n\t\tif ( this.matrixAutoUpdate ) this.updateMatrix();\n\n\t\tif ( this.matrixWorldAutoUpdate === true ) {\n\n\t\t\tif ( this.parent === null ) {\n\n\t\t\t\tthis.matrixWorld.copy( this.matrix );\n\n\t\t\t} else {\n\n\t\t\t\tthis.matrixWorld.multiplyMatrices( this.parent.matrixWorld, this.matrix );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// make sure descendants are updated\n\n\t\tif ( updateChildren === true ) {\n\n\t\t\tconst children = this.children;\n\n\t\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\t\tconst child = children[ i ];\n\n\t\t\t\tchild.updateWorldMatrix( false, true );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the 3D object into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized 3D object.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\t// meta is a string when called from JSON.stringify\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tconst output = {};\n\n\t\t// meta is a hash used to collect geometries, materials.\n\t\t// not providing it implies that this is the root object\n\t\t// being serialized.\n\t\tif ( isRootObject ) {\n\n\t\t\t// initialize meta obj\n\t\t\tmeta = {\n\t\t\t\tgeometries: {},\n\t\t\t\tmaterials: {},\n\t\t\t\ttextures: {},\n\t\t\t\timages: {},\n\t\t\t\tshapes: {},\n\t\t\t\tskeletons: {},\n\t\t\t\tanimations: {},\n\t\t\t\tnodes: {}\n\t\t\t};\n\n\t\t\toutput.metadata = {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Object',\n\t\t\t\tgenerator: 'Object3D.toJSON'\n\t\t\t};\n\n\t\t}\n\n\t\t// standard Object3D serialization\n\n\t\tconst object = {};\n\n\t\tobject.uuid = this.uuid;\n\t\tobject.type = this.type;\n\n\t\tif ( this.name !== '' ) object.name = this.name;\n\t\tif ( this.castShadow === true ) object.castShadow = true;\n\t\tif ( this.receiveShadow === true ) object.receiveShadow = true;\n\t\tif ( this.visible === false ) object.visible = false;\n\t\tif ( this.frustumCulled === false ) object.frustumCulled = false;\n\t\tif ( this.renderOrder !== 0 ) object.renderOrder = this.renderOrder;\n\t\tif ( Object.keys( this.userData ).length > 0 ) object.userData = this.userData;\n\n\t\tobject.layers = this.layers.mask;\n\t\tobject.matrix = this.matrix.toArray();\n\t\tobject.up = this.up.toArray();\n\n\t\tif ( this.matrixAutoUpdate === false ) object.matrixAutoUpdate = false;\n\n\t\t// object specific properties\n\n\t\tif ( this.isInstancedMesh ) {\n\n\t\t\tobject.type = 'InstancedMesh';\n\t\t\tobject.count = this.count;\n\t\t\tobject.instanceMatrix = this.instanceMatrix.toJSON();\n\t\t\tif ( this.instanceColor !== null ) object.instanceColor = this.instanceColor.toJSON();\n\n\t\t}\n\n\t\tif ( this.isBatchedMesh ) {\n\n\t\t\tobject.type = 'BatchedMesh';\n\t\t\tobject.perObjectFrustumCulled = this.perObjectFrustumCulled;\n\t\t\tobject.sortObjects = this.sortObjects;\n\n\t\t\tobject.drawRanges = this._drawRanges;\n\t\t\tobject.reservedRanges = this._reservedRanges;\n\n\t\t\tobject.geometryInfo = this._geometryInfo.map( info => ( {\n\t\t\t\t...info,\n\t\t\t\tboundingBox: info.boundingBox ? info.boundingBox.toJSON() : undefined,\n\t\t\t\tboundingSphere: info.boundingSphere ? info.boundingSphere.toJSON() : undefined\n\t\t\t} ) );\n\t\t\tobject.instanceInfo = this._instanceInfo.map( info => ( { ...info } ) );\n\n\t\t\tobject.availableInstanceIds = this._availableInstanceIds.slice();\n\t\t\tobject.availableGeometryIds = this._availableGeometryIds.slice();\n\n\t\t\tobject.nextIndexStart = this._nextIndexStart;\n\t\t\tobject.nextVertexStart = this._nextVertexStart;\n\t\t\tobject.geometryCount = this._geometryCount;\n\n\t\t\tobject.maxInstanceCount = this._maxInstanceCount;\n\t\t\tobject.maxVertexCount = this._maxVertexCount;\n\t\t\tobject.maxIndexCount = this._maxIndexCount;\n\n\t\t\tobject.geometryInitialized = this._geometryInitialized;\n\n\t\t\tobject.matricesTexture = this._matricesTexture.toJSON( meta );\n\n\t\t\tobject.indirectTexture = this._indirectTexture.toJSON( meta );\n\n\t\t\tif ( this._colorsTexture !== null ) {\n\n\t\t\t\tobject.colorsTexture = this._colorsTexture.toJSON( meta );\n\n\t\t\t}\n\n\t\t\tif ( this.boundingSphere !== null ) {\n\n\t\t\t\tobject.boundingSphere = this.boundingSphere.toJSON();\n\n\t\t\t}\n\n\t\t\tif ( this.boundingBox !== null ) {\n\n\t\t\t\tobject.boundingBox = this.boundingBox.toJSON();\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\tfunction serialize( library, element ) {\n\n\t\t\tif ( library[ element.uuid ] === undefined ) {\n\n\t\t\t\tlibrary[ element.uuid ] = element.toJSON( meta );\n\n\t\t\t}\n\n\t\t\treturn element.uuid;\n\n\t\t}\n\n\t\tif ( this.isScene ) {\n\n\t\t\tif ( this.background ) {\n\n\t\t\t\tif ( this.background.isColor ) {\n\n\t\t\t\t\tobject.background = this.background.toJSON();\n\n\t\t\t\t} else if ( this.background.isTexture ) {\n\n\t\t\t\t\tobject.background = this.background.toJSON( meta ).uuid;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( this.environment && this.environment.isTexture && this.environment.isRenderTargetTexture !== true ) {\n\n\t\t\t\tobject.environment = this.environment.toJSON( meta ).uuid;\n\n\t\t\t}\n\n\t\t} else if ( this.isMesh || this.isLine || this.isPoints ) {\n\n\t\t\tobject.geometry = serialize( meta.geometries, this.geometry );\n\n\t\t\tconst parameters = this.geometry.parameters;\n\n\t\t\tif ( parameters !== undefined && parameters.shapes !== undefined ) {\n\n\t\t\t\tconst shapes = parameters.shapes;\n\n\t\t\t\tif ( Array.isArray( shapes ) ) {\n\n\t\t\t\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\t\t\t\tconst shape = shapes[ i ];\n\n\t\t\t\t\t\tserialize( meta.shapes, shape );\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\tserialize( meta.shapes, shapes );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.isSkinnedMesh ) {\n\n\t\t\tobject.bindMode = this.bindMode;\n\t\t\tobject.bindMatrix = this.bindMatrix.toArray();\n\n\t\t\tif ( this.skeleton !== undefined ) {\n\n\t\t\t\tserialize( meta.skeletons, this.skeleton );\n\n\t\t\t\tobject.skeleton = this.skeleton.uuid;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.material !== undefined ) {\n\n\t\t\tif ( Array.isArray( this.material ) ) {\n\n\t\t\t\tconst uuids = [];\n\n\t\t\t\tfor ( let i = 0, l = this.material.length; i < l; i ++ ) {\n\n\t\t\t\t\tuuids.push( serialize( meta.materials, this.material[ i ] ) );\n\n\t\t\t\t}\n\n\t\t\t\tobject.material = uuids;\n\n\t\t\t} else {\n\n\t\t\t\tobject.material = serialize( meta.materials, this.material );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\tif ( this.children.length > 0 ) {\n\n\t\t\tobject.children = [];\n\n\t\t\tfor ( let i = 0; i < this.children.length; i ++ ) {\n\n\t\t\t\tobject.children.push( this.children[ i ].toJSON( meta ).object );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\tif ( this.animations.length > 0 ) {\n\n\t\t\tobject.animations = [];\n\n\t\t\tfor ( let i = 0; i < this.animations.length; i ++ ) {\n\n\t\t\t\tconst animation = this.animations[ i ];\n\n\t\t\t\tobject.animations.push( serialize( meta.animations, animation ) );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( isRootObject ) {\n\n\t\t\tconst geometries = extractFromCache( meta.geometries );\n\t\t\tconst materials = extractFromCache( meta.materials );\n\t\t\tconst textures = extractFromCache( meta.textures );\n\t\t\tconst images = extractFromCache( meta.images );\n\t\t\tconst shapes = extractFromCache( meta.shapes );\n\t\t\tconst skeletons = extractFromCache( meta.skeletons );\n\t\t\tconst animations = extractFromCache( meta.animations );\n\t\t\tconst nodes = extractFromCache( meta.nodes );\n\n\t\t\tif ( geometries.length > 0 ) output.geometries = geometries;\n\t\t\tif ( materials.length > 0 ) output.materials = materials;\n\t\t\tif ( textures.length > 0 ) output.textures = textures;\n\t\t\tif ( images.length > 0 ) output.images = images;\n\t\t\tif ( shapes.length > 0 ) output.shapes = shapes;\n\t\t\tif ( skeletons.length > 0 ) output.skeletons = skeletons;\n\t\t\tif ( animations.length > 0 ) output.animations = animations;\n\t\t\tif ( nodes.length > 0 ) output.nodes = nodes;\n\n\t\t}\n\n\t\toutput.object = object;\n\n\t\treturn output;\n\n\t\t// extract data from the cache hash\n\t\t// remove metadata on each item\n\t\t// and return as array\n\t\tfunction extractFromCache( cache ) {\n\n\t\t\tconst values = [];\n\t\t\tfor ( const key in cache ) {\n\n\t\t\t\tconst data = cache[ key ];\n\t\t\t\tdelete data.metadata;\n\t\t\t\tvalues.push( data );\n\n\t\t\t}\n\n\t\t\treturn values;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new 3D object with copied values from this instance.\n\t *\n\t * @param {boolean} [recursive=true] - When set to `true`, descendants of the 3D object are also cloned.\n\t * @return {Object3D} A clone of this instance.\n\t */\n\tclone( recursive ) {\n\n\t\treturn new this.constructor().copy( this, recursive );\n\n\t}\n\n\t/**\n\t * Copies the values of the given 3D object to this instance.\n\t *\n\t * @param {Object3D} source - The 3D object to copy.\n\t * @param {boolean} [recursive=true] - When set to `true`, descendants of the 3D object are cloned.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tcopy( source, recursive = true ) {\n\n\t\tthis.name = source.name;\n\n\t\tthis.up.copy( source.up );\n\n\t\tthis.position.copy( source.position );\n\t\tthis.rotation.order = source.rotation.order;\n\t\tthis.quaternion.copy( source.quaternion );\n\t\tthis.scale.copy( source.scale );\n\n\t\tthis.matrix.copy( source.matrix );\n\t\tthis.matrixWorld.copy( source.matrixWorld );\n\n\t\tthis.matrixAutoUpdate = source.matrixAutoUpdate;\n\n\t\tthis.matrixWorldAutoUpdate = source.matrixWorldAutoUpdate;\n\t\tthis.matrixWorldNeedsUpdate = source.matrixWorldNeedsUpdate;\n\n\t\tthis.layers.mask = source.layers.mask;\n\t\tthis.visible = source.visible;\n\n\t\tthis.castShadow = source.castShadow;\n\t\tthis.receiveShadow = source.receiveShadow;\n\n\t\tthis.frustumCulled = source.frustumCulled;\n\t\tthis.renderOrder = source.renderOrder;\n\n\t\tthis.animations = source.animations.slice();\n\n\t\tthis.userData = JSON.parse( JSON.stringify( source.userData ) );\n\n\t\tif ( recursive === true ) {\n\n\t\t\tfor ( let i = 0; i < source.children.length; i ++ ) {\n\n\t\t\t\tconst child = source.children[ i ];\n\t\t\t\tthis.add( child.clone() );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * The default up direction for objects, also used as the default\n * position for {@link DirectionalLight} and {@link HemisphereLight}.\n *\n * @static\n * @type {Vector3}\n * @default (0,1,0)\n */\nObject3D.DEFAULT_UP = /*@__PURE__*/ new Vector3( 0, 1, 0 );\n\n/**\n * The default setting for {@link Object3D#matrixAutoUpdate} for\n * newly created 3D objects.\n *\n * @static\n * @type {boolean}\n * @default true\n */\nObject3D.DEFAULT_MATRIX_AUTO_UPDATE = true;\n\n/**\n * The default setting for {@link Object3D#matrixWorldAutoUpdate} for\n * newly created 3D objects.\n *\n * @static\n * @type {boolean}\n * @default true\n */\nObject3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE = true;\n\nconst _v0$1 = /*@__PURE__*/ new Vector3();\nconst _v1$3 = /*@__PURE__*/ new Vector3();\nconst _v2$2 = /*@__PURE__*/ new Vector3();\nconst _v3$2 = /*@__PURE__*/ new Vector3();\n\nconst _vab = /*@__PURE__*/ new Vector3();\nconst _vac = /*@__PURE__*/ new Vector3();\nconst _vbc = /*@__PURE__*/ new Vector3();\nconst _vap = /*@__PURE__*/ new Vector3();\nconst _vbp = /*@__PURE__*/ new Vector3();\nconst _vcp = /*@__PURE__*/ new Vector3();\n\nconst _v40 = /*@__PURE__*/ new Vector4();\nconst _v41 = /*@__PURE__*/ new Vector4();\nconst _v42 = /*@__PURE__*/ new Vector4();\n\n/**\n * A geometric triangle as defined by three vectors representing its three corners.\n */\nclass Triangle {\n\n\t/**\n\t * Constructs a new triangle.\n\t *\n\t * @param {Vector3} [a=(0,0,0)] - The first corner of the triangle.\n\t * @param {Vector3} [b=(0,0,0)] - The second corner of the triangle.\n\t * @param {Vector3} [c=(0,0,0)] - The third corner of the triangle.\n\t */\n\tconstructor( a = new Vector3(), b = new Vector3(), c = new Vector3() ) {\n\n\t\t/**\n\t\t * The first corner of the triangle.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.a = a;\n\n\t\t/**\n\t\t * The second corner of the triangle.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.b = b;\n\n\t\t/**\n\t\t * The third corner of the triangle.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.c = c;\n\n\t}\n\n\t/**\n\t * Computes the normal vector of a triangle.\n\t *\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The triangle's normal.\n\t */\n\tstatic getNormal( a, b, c, target ) {\n\n\t\ttarget.subVectors( c, b );\n\t\t_v0$1.subVectors( a, b );\n\t\ttarget.cross( _v0$1 );\n\n\t\tconst targetLengthSq = target.lengthSq();\n\t\tif ( targetLengthSq > 0 ) {\n\n\t\t\treturn target.multiplyScalar( 1 / Math.sqrt( targetLengthSq ) );\n\n\t\t}\n\n\t\treturn target.set( 0, 0, 0 );\n\n\t}\n\n\t/**\n\t * Computes a barycentric coordinates from the given vector.\n\t * Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - A point in 3D space.\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The barycentric coordinates for the given point\n\t */\n\tstatic getBarycoord( point, a, b, c, target ) {\n\n\t\t// based on: http://www.blackpawn.com/texts/pointinpoly/default.html\n\n\t\t_v0$1.subVectors( c, a );\n\t\t_v1$3.subVectors( b, a );\n\t\t_v2$2.subVectors( point, a );\n\n\t\tconst dot00 = _v0$1.dot( _v0$1 );\n\t\tconst dot01 = _v0$1.dot( _v1$3 );\n\t\tconst dot02 = _v0$1.dot( _v2$2 );\n\t\tconst dot11 = _v1$3.dot( _v1$3 );\n\t\tconst dot12 = _v1$3.dot( _v2$2 );\n\n\t\tconst denom = ( dot00 * dot11 - dot01 * dot01 );\n\n\t\t// collinear or singular triangle\n\t\tif ( denom === 0 ) {\n\n\t\t\ttarget.set( 0, 0, 0 );\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst invDenom = 1 / denom;\n\t\tconst u = ( dot11 * dot02 - dot01 * dot12 ) * invDenom;\n\t\tconst v = ( dot00 * dot12 - dot01 * dot02 ) * invDenom;\n\n\t\t// barycentric coordinates must always sum to 1\n\t\treturn target.set( 1 - u - v, v, u );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle.\n\t *\n\t * @param {Vector3} point - The point in 3D space to test.\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @return {boolean} Whether the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle or not.\n\t */\n\tstatic containsPoint( point, a, b, c ) {\n\n\t\t// if the triangle is degenerate then we can't contain a point\n\t\tif ( this.getBarycoord( point, a, b, c, _v3$2 ) === null ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\treturn ( _v3$2.x >= 0 ) && ( _v3$2.y >= 0 ) && ( ( _v3$2.x + _v3$2.y ) <= 1 );\n\n\t}\n\n\t/**\n\t * Computes the value barycentrically interpolated for the given point on the\n\t * triangle. Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - Position of interpolated point.\n\t * @param {Vector3} p1 - The first corner of the triangle.\n\t * @param {Vector3} p2 - The second corner of the triangle.\n\t * @param {Vector3} p3 - The third corner of the triangle.\n\t * @param {Vector3} v1 - Value to interpolate of first vertex.\n\t * @param {Vector3} v2 - Value to interpolate of second vertex.\n\t * @param {Vector3} v3 - Value to interpolate of third vertex.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The interpolated value.\n\t */\n\tstatic getInterpolation( point, p1, p2, p3, v1, v2, v3, target ) {\n\n\t\tif ( this.getBarycoord( point, p1, p2, p3, _v3$2 ) === null ) {\n\n\t\t\ttarget.x = 0;\n\t\t\ttarget.y = 0;\n\t\t\tif ( 'z' in target ) target.z = 0;\n\t\t\tif ( 'w' in target ) target.w = 0;\n\t\t\treturn null;\n\n\t\t}\n\n\t\ttarget.setScalar( 0 );\n\t\ttarget.addScaledVector( v1, _v3$2.x );\n\t\ttarget.addScaledVector( v2, _v3$2.y );\n\t\ttarget.addScaledVector( v3, _v3$2.z );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Computes the value barycentrically interpolated for the given attribute and indices.\n\t *\n\t * @param {BufferAttribute} attr - The attribute to interpolate.\n\t * @param {number} i1 - Index of first vertex.\n\t * @param {number} i2 - Index of second vertex.\n\t * @param {number} i3 - Index of third vertex.\n\t * @param {Vector3} barycoord - The barycoordinate value to use to interpolate.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The interpolated attribute value.\n\t */\n\tstatic getInterpolatedAttribute( attr, i1, i2, i3, barycoord, target ) {\n\n\t\t_v40.setScalar( 0 );\n\t\t_v41.setScalar( 0 );\n\t\t_v42.setScalar( 0 );\n\n\t\t_v40.fromBufferAttribute( attr, i1 );\n\t\t_v41.fromBufferAttribute( attr, i2 );\n\t\t_v42.fromBufferAttribute( attr, i3 );\n\n\t\ttarget.setScalar( 0 );\n\t\ttarget.addScaledVector( _v40, barycoord.x );\n\t\ttarget.addScaledVector( _v41, barycoord.y );\n\t\ttarget.addScaledVector( _v42, barycoord.z );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns `true` if the triangle is oriented towards the given direction.\n\t *\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @param {Vector3} direction - The (normalized) direction vector.\n\t * @return {boolean} Whether the triangle is oriented towards the given direction or not.\n\t */\n\tstatic isFrontFacing( a, b, c, direction ) {\n\n\t\t_v0$1.subVectors( c, b );\n\t\t_v1$3.subVectors( a, b );\n\n\t\t// strictly front facing\n\t\treturn ( _v0$1.cross( _v1$3 ).dot( direction ) < 0 ) ? true : false;\n\n\t}\n\n\t/**\n\t * Sets the triangle's vertices by copying the given values.\n\t *\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tset( a, b, c ) {\n\n\t\tthis.a.copy( a );\n\t\tthis.b.copy( b );\n\t\tthis.c.copy( c );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the triangle's vertices by copying the given array values.\n\t *\n\t * @param {Array} points - An array with 3D points.\n\t * @param {number} i0 - The array index representing the first corner of the triangle.\n\t * @param {number} i1 - The array index representing the second corner of the triangle.\n\t * @param {number} i2 - The array index representing the third corner of the triangle.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tsetFromPointsAndIndices( points, i0, i1, i2 ) {\n\n\t\tthis.a.copy( points[ i0 ] );\n\t\tthis.b.copy( points[ i1 ] );\n\t\tthis.c.copy( points[ i2 ] );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the triangle's vertices by copying the given attribute values.\n\t *\n\t * @param {BufferAttribute} attribute - A buffer attribute with 3D points data.\n\t * @param {number} i0 - The attribute index representing the first corner of the triangle.\n\t * @param {number} i1 - The attribute index representing the second corner of the triangle.\n\t * @param {number} i2 - The attribute index representing the third corner of the triangle.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tsetFromAttributeAndIndices( attribute, i0, i1, i2 ) {\n\n\t\tthis.a.fromBufferAttribute( attribute, i0 );\n\t\tthis.b.fromBufferAttribute( attribute, i1 );\n\t\tthis.c.fromBufferAttribute( attribute, i2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new triangle with copied values from this instance.\n\t *\n\t * @return {Triangle} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given triangle to this instance.\n\t *\n\t * @param {Triangle} triangle - The triangle to copy.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tcopy( triangle ) {\n\n\t\tthis.a.copy( triangle.a );\n\t\tthis.b.copy( triangle.b );\n\t\tthis.c.copy( triangle.c );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the area of the triangle.\n\t *\n\t * @return {number} The triangle's area.\n\t */\n\tgetArea() {\n\n\t\t_v0$1.subVectors( this.c, this.b );\n\t\t_v1$3.subVectors( this.a, this.b );\n\n\t\treturn _v0$1.cross( _v1$3 ).length() * 0.5;\n\n\t}\n\n\t/**\n\t * Computes the midpoint of the triangle.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The triangle's midpoint.\n\t */\n\tgetMidpoint( target ) {\n\n\t\treturn target.addVectors( this.a, this.b ).add( this.c ).multiplyScalar( 1 / 3 );\n\n\t}\n\n\t/**\n\t * Computes the normal of the triangle.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The triangle's normal.\n\t */\n\tgetNormal( target ) {\n\n\t\treturn Triangle.getNormal( this.a, this.b, this.c, target );\n\n\t}\n\n\t/**\n\t * Computes a plane the triangle lies within.\n\t *\n\t * @param {Plane} target - The target vector that is used to store the method's result.\n\t * @return {Plane} The plane the triangle lies within.\n\t */\n\tgetPlane( target ) {\n\n\t\treturn target.setFromCoplanarPoints( this.a, this.b, this.c );\n\n\t}\n\n\t/**\n\t * Computes a barycentric coordinates from the given vector.\n\t * Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - A point in 3D space.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The barycentric coordinates for the given point\n\t */\n\tgetBarycoord( point, target ) {\n\n\t\treturn Triangle.getBarycoord( point, this.a, this.b, this.c, target );\n\n\t}\n\n\t/**\n\t * Computes the value barycentrically interpolated for the given point on the\n\t * triangle. Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - Position of interpolated point.\n\t * @param {Vector3} v1 - Value to interpolate of first vertex.\n\t * @param {Vector3} v2 - Value to interpolate of second vertex.\n\t * @param {Vector3} v3 - Value to interpolate of third vertex.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The interpolated value.\n\t */\n\tgetInterpolation( point, v1, v2, v3, target ) {\n\n\t\treturn Triangle.getInterpolation( point, this.a, this.b, this.c, v1, v2, v3, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle.\n\t *\n\t * @param {Vector3} point - The point in 3D space to test.\n\t * @return {boolean} Whether the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn Triangle.containsPoint( point, this.a, this.b, this.c );\n\n\t}\n\n\t/**\n\t * Returns `true` if the triangle is oriented towards the given direction.\n\t *\n\t * @param {Vector3} direction - The (normalized) direction vector.\n\t * @return {boolean} Whether the triangle is oriented towards the given direction or not.\n\t */\n\tisFrontFacing( direction ) {\n\n\t\treturn Triangle.isFrontFacing( this.a, this.b, this.c, direction );\n\n\t}\n\n\t/**\n\t * Returns `true` if this triangle intersects with the given box.\n\t *\n\t * @param {Box3} box - The box to intersect.\n\t * @return {boolean} Whether this triangle intersects with the given box or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn box.intersectsTriangle( this );\n\n\t}\n\n\t/**\n\t * Returns the closest point on the triangle to the given point.\n\t *\n\t * @param {Vector3} p - The point to compute the closest point for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The closest point on the triangle.\n\t */\n\tclosestPointToPoint( p, target ) {\n\n\t\tconst a = this.a, b = this.b, c = this.c;\n\t\tlet v, w;\n\n\t\t// algorithm thanks to Real-Time Collision Detection by Christer Ericson,\n\t\t// published by Morgan Kaufmann Publishers, (c) 2005 Elsevier Inc.,\n\t\t// under the accompanying license; see chapter 5.1.5 for detailed explanation.\n\t\t// basically, we're distinguishing which of the voronoi regions of the triangle\n\t\t// the point lies in with the minimum amount of redundant computation.\n\n\t\t_vab.subVectors( b, a );\n\t\t_vac.subVectors( c, a );\n\t\t_vap.subVectors( p, a );\n\t\tconst d1 = _vab.dot( _vap );\n\t\tconst d2 = _vac.dot( _vap );\n\t\tif ( d1 <= 0 && d2 <= 0 ) {\n\n\t\t\t// vertex region of A; barycentric coords (1, 0, 0)\n\t\t\treturn target.copy( a );\n\n\t\t}\n\n\t\t_vbp.subVectors( p, b );\n\t\tconst d3 = _vab.dot( _vbp );\n\t\tconst d4 = _vac.dot( _vbp );\n\t\tif ( d3 >= 0 && d4 <= d3 ) {\n\n\t\t\t// vertex region of B; barycentric coords (0, 1, 0)\n\t\t\treturn target.copy( b );\n\n\t\t}\n\n\t\tconst vc = d1 * d4 - d3 * d2;\n\t\tif ( vc <= 0 && d1 >= 0 && d3 <= 0 ) {\n\n\t\t\tv = d1 / ( d1 - d3 );\n\t\t\t// edge region of AB; barycentric coords (1-v, v, 0)\n\t\t\treturn target.copy( a ).addScaledVector( _vab, v );\n\n\t\t}\n\n\t\t_vcp.subVectors( p, c );\n\t\tconst d5 = _vab.dot( _vcp );\n\t\tconst d6 = _vac.dot( _vcp );\n\t\tif ( d6 >= 0 && d5 <= d6 ) {\n\n\t\t\t// vertex region of C; barycentric coords (0, 0, 1)\n\t\t\treturn target.copy( c );\n\n\t\t}\n\n\t\tconst vb = d5 * d2 - d1 * d6;\n\t\tif ( vb <= 0 && d2 >= 0 && d6 <= 0 ) {\n\n\t\t\tw = d2 / ( d2 - d6 );\n\t\t\t// edge region of AC; barycentric coords (1-w, 0, w)\n\t\t\treturn target.copy( a ).addScaledVector( _vac, w );\n\n\t\t}\n\n\t\tconst va = d3 * d6 - d5 * d4;\n\t\tif ( va <= 0 && ( d4 - d3 ) >= 0 && ( d5 - d6 ) >= 0 ) {\n\n\t\t\t_vbc.subVectors( c, b );\n\t\t\tw = ( d4 - d3 ) / ( ( d4 - d3 ) + ( d5 - d6 ) );\n\t\t\t// edge region of BC; barycentric coords (0, 1-w, w)\n\t\t\treturn target.copy( b ).addScaledVector( _vbc, w ); // edge region of BC\n\n\t\t}\n\n\t\t// face region\n\t\tconst denom = 1 / ( va + vb + vc );\n\t\t// u = va * denom\n\t\tv = vb * denom;\n\t\tw = vc * denom;\n\n\t\treturn target.copy( a ).addScaledVector( _vab, v ).addScaledVector( _vac, w );\n\n\t}\n\n\t/**\n\t * Returns `true` if this triangle is equal with the given one.\n\t *\n\t * @param {Triangle} triangle - The triangle to test for equality.\n\t * @return {boolean} Whether this triangle is equal with the given one.\n\t */\n\tequals( triangle ) {\n\n\t\treturn triangle.a.equals( this.a ) && triangle.b.equals( this.b ) && triangle.c.equals( this.c );\n\n\t}\n\n}\n\nconst _colorKeywords = { 'aliceblue': 0xF0F8FF, 'antiquewhite': 0xFAEBD7, 'aqua': 0x00FFFF, 'aquamarine': 0x7FFFD4, 'azure': 0xF0FFFF,\n\t'beige': 0xF5F5DC, 'bisque': 0xFFE4C4, 'black': 0x000000, 'blanchedalmond': 0xFFEBCD, 'blue': 0x0000FF, 'blueviolet': 0x8A2BE2,\n\t'brown': 0xA52A2A, 'burlywood': 0xDEB887, 'cadetblue': 0x5F9EA0, 'chartreuse': 0x7FFF00, 'chocolate': 0xD2691E, 'coral': 0xFF7F50,\n\t'cornflowerblue': 0x6495ED, 'cornsilk': 0xFFF8DC, 'crimson': 0xDC143C, 'cyan': 0x00FFFF, 'darkblue': 0x00008B, 'darkcyan': 0x008B8B,\n\t'darkgoldenrod': 0xB8860B, 'darkgray': 0xA9A9A9, 'darkgreen': 0x006400, 'darkgrey': 0xA9A9A9, 'darkkhaki': 0xBDB76B, 'darkmagenta': 0x8B008B,\n\t'darkolivegreen': 0x556B2F, 'darkorange': 0xFF8C00, 'darkorchid': 0x9932CC, 'darkred': 0x8B0000, 'darksalmon': 0xE9967A, 'darkseagreen': 0x8FBC8F,\n\t'darkslateblue': 0x483D8B, 'darkslategray': 0x2F4F4F, 'darkslategrey': 0x2F4F4F, 'darkturquoise': 0x00CED1, 'darkviolet': 0x9400D3,\n\t'deeppink': 0xFF1493, 'deepskyblue': 0x00BFFF, 'dimgray': 0x696969, 'dimgrey': 0x696969, 'dodgerblue': 0x1E90FF, 'firebrick': 0xB22222,\n\t'floralwhite': 0xFFFAF0, 'forestgreen': 0x228B22, 'fuchsia': 0xFF00FF, 'gainsboro': 0xDCDCDC, 'ghostwhite': 0xF8F8FF, 'gold': 0xFFD700,\n\t'goldenrod': 0xDAA520, 'gray': 0x808080, 'green': 0x008000, 'greenyellow': 0xADFF2F, 'grey': 0x808080, 'honeydew': 0xF0FFF0, 'hotpink': 0xFF69B4,\n\t'indianred': 0xCD5C5C, 'indigo': 0x4B0082, 'ivory': 0xFFFFF0, 'khaki': 0xF0E68C, 'lavender': 0xE6E6FA, 'lavenderblush': 0xFFF0F5, 'lawngreen': 0x7CFC00,\n\t'lemonchiffon': 0xFFFACD, 'lightblue': 0xADD8E6, 'lightcoral': 0xF08080, 'lightcyan': 0xE0FFFF, 'lightgoldenrodyellow': 0xFAFAD2, 'lightgray': 0xD3D3D3,\n\t'lightgreen': 0x90EE90, 'lightgrey': 0xD3D3D3, 'lightpink': 0xFFB6C1, 'lightsalmon': 0xFFA07A, 'lightseagreen': 0x20B2AA, 'lightskyblue': 0x87CEFA,\n\t'lightslategray': 0x778899, 'lightslategrey': 0x778899, 'lightsteelblue': 0xB0C4DE, 'lightyellow': 0xFFFFE0, 'lime': 0x00FF00, 'limegreen': 0x32CD32,\n\t'linen': 0xFAF0E6, 'magenta': 0xFF00FF, 'maroon': 0x800000, 'mediumaquamarine': 0x66CDAA, 'mediumblue': 0x0000CD, 'mediumorchid': 0xBA55D3,\n\t'mediumpurple': 0x9370DB, 'mediumseagreen': 0x3CB371, 'mediumslateblue': 0x7B68EE, 'mediumspringgreen': 0x00FA9A, 'mediumturquoise': 0x48D1CC,\n\t'mediumvioletred': 0xC71585, 'midnightblue': 0x191970, 'mintcream': 0xF5FFFA, 'mistyrose': 0xFFE4E1, 'moccasin': 0xFFE4B5, 'navajowhite': 0xFFDEAD,\n\t'navy': 0x000080, 'oldlace': 0xFDF5E6, 'olive': 0x808000, 'olivedrab': 0x6B8E23, 'orange': 0xFFA500, 'orangered': 0xFF4500, 'orchid': 0xDA70D6,\n\t'palegoldenrod': 0xEEE8AA, 'palegreen': 0x98FB98, 'paleturquoise': 0xAFEEEE, 'palevioletred': 0xDB7093, 'papayawhip': 0xFFEFD5, 'peachpuff': 0xFFDAB9,\n\t'peru': 0xCD853F, 'pink': 0xFFC0CB, 'plum': 0xDDA0DD, 'powderblue': 0xB0E0E6, 'purple': 0x800080, 'rebeccapurple': 0x663399, 'red': 0xFF0000, 'rosybrown': 0xBC8F8F,\n\t'royalblue': 0x4169E1, 'saddlebrown': 0x8B4513, 'salmon': 0xFA8072, 'sandybrown': 0xF4A460, 'seagreen': 0x2E8B57, 'seashell': 0xFFF5EE,\n\t'sienna': 0xA0522D, 'silver': 0xC0C0C0, 'skyblue': 0x87CEEB, 'slateblue': 0x6A5ACD, 'slategray': 0x708090, 'slategrey': 0x708090, 'snow': 0xFFFAFA,\n\t'springgreen': 0x00FF7F, 'steelblue': 0x4682B4, 'tan': 0xD2B48C, 'teal': 0x008080, 'thistle': 0xD8BFD8, 'tomato': 0xFF6347, 'turquoise': 0x40E0D0,\n\t'violet': 0xEE82EE, 'wheat': 0xF5DEB3, 'white': 0xFFFFFF, 'whitesmoke': 0xF5F5F5, 'yellow': 0xFFFF00, 'yellowgreen': 0x9ACD32 };\n\nconst _hslA = { h: 0, s: 0, l: 0 };\nconst _hslB = { h: 0, s: 0, l: 0 };\n\nfunction hue2rgb( p, q, t ) {\n\n\tif ( t < 0 ) t += 1;\n\tif ( t > 1 ) t -= 1;\n\tif ( t < 1 / 6 ) return p + ( q - p ) * 6 * t;\n\tif ( t < 1 / 2 ) return q;\n\tif ( t < 2 / 3 ) return p + ( q - p ) * 6 * ( 2 / 3 - t );\n\treturn p;\n\n}\n\n/**\n * A Color instance is represented by RGB components in the linear working\n * color space, which defaults to `LinearSRGBColorSpace`. Inputs\n * conventionally using `SRGBColorSpace` (such as hexadecimals and CSS\n * strings) are converted to the working color space automatically.\n *\n * ```js\n * // converted automatically from SRGBColorSpace to LinearSRGBColorSpace\n * const color = new THREE.Color().setHex( 0x112233 );\n * ```\n * Source color spaces may be specified explicitly, to ensure correct conversions.\n * ```js\n * // assumed already LinearSRGBColorSpace; no conversion\n * const color = new THREE.Color().setRGB( 0.5, 0.5, 0.5 );\n *\n * // converted explicitly from SRGBColorSpace to LinearSRGBColorSpace\n * const color = new THREE.Color().setRGB( 0.5, 0.5, 0.5, SRGBColorSpace );\n * ```\n * If THREE.ColorManagement is disabled, no conversions occur. For details,\n * see Color management. Iterating through a Color instance will yield\n * its components (r, g, b) in the corresponding order. A Color can be initialised\n * in any of the following ways:\n * ```js\n * //empty constructor - will default white\n * const color1 = new THREE.Color();\n *\n * //Hexadecimal color (recommended)\n * const color2 = new THREE.Color( 0xff0000 );\n *\n * //RGB string\n * const color3 = new THREE.Color(\"rgb(255, 0, 0)\");\n * const color4 = new THREE.Color(\"rgb(100%, 0%, 0%)\");\n *\n * //X11 color name - all 140 color names are supported.\n * //Note the lack of CamelCase in the name\n * const color5 = new THREE.Color( 'skyblue' );\n * //HSL string\n * const color6 = new THREE.Color(\"hsl(0, 100%, 50%)\");\n *\n * //Separate RGB values between 0 and 1\n * const color7 = new THREE.Color( 1, 0, 0 );\n * ```\n */\nclass Color {\n\n\t/**\n\t * Constructs a new color.\n\t *\n\t * Note that standard method of specifying color in three.js is with a hexadecimal triplet,\n\t * and that method is used throughout the rest of the documentation.\n\t *\n\t * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n\t * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n\t * @param {number} [g] - The green component.\n\t * @param {number} [b] - The blue component.\n\t */\n\tconstructor( r, g, b ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isColor = true;\n\n\t\t/**\n\t\t * The red component.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.r = 1;\n\n\t\t/**\n\t\t * The green component.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.g = 1;\n\n\t\t/**\n\t\t * The blue component.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.b = 1;\n\n\t\treturn this.set( r, g, b );\n\n\t}\n\n\t/**\n\t * Sets the colors's components from the given values.\n\t *\n\t * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n\t * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n\t * @param {number} [g] - The green component.\n\t * @param {number} [b] - The blue component.\n\t * @return {Color} A reference to this color.\n\t */\n\tset( r, g, b ) {\n\n\t\tif ( g === undefined && b === undefined ) {\n\n\t\t\t// r is THREE.Color, hex or string\n\n\t\t\tconst value = r;\n\n\t\t\tif ( value && value.isColor ) {\n\n\t\t\t\tthis.copy( value );\n\n\t\t\t} else if ( typeof value === 'number' ) {\n\n\t\t\t\tthis.setHex( value );\n\n\t\t\t} else if ( typeof value === 'string' ) {\n\n\t\t\t\tthis.setStyle( value );\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tthis.setRGB( r, g, b );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the colors's components to the given scalar value.\n\t *\n\t * @param {number} scalar - The scalar value.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.r = scalar;\n\t\tthis.g = scalar;\n\t\tthis.b = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from a hexadecimal value.\n\t *\n\t * @param {number} hex - The hexadecimal value.\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetHex( hex, colorSpace = SRGBColorSpace ) {\n\n\t\thex = Math.floor( hex );\n\n\t\tthis.r = ( hex >> 16 & 255 ) / 255;\n\t\tthis.g = ( hex >> 8 & 255 ) / 255;\n\t\tthis.b = ( hex & 255 ) / 255;\n\n\t\tColorManagement.colorSpaceToWorking( this, colorSpace );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from RGB values.\n\t *\n\t * @param {number} r - Red channel value between `0.0` and `1.0`.\n\t * @param {number} g - Green channel value between `0.0` and `1.0`.\n\t * @param {number} b - Blue channel value between `0.0` and `1.0`.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetRGB( r, g, b, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\tthis.r = r;\n\t\tthis.g = g;\n\t\tthis.b = b;\n\n\t\tColorManagement.colorSpaceToWorking( this, colorSpace );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from RGB values.\n\t *\n\t * @param {number} h - Hue value between `0.0` and `1.0`.\n\t * @param {number} s - Saturation value between `0.0` and `1.0`.\n\t * @param {number} l - Lightness value between `0.0` and `1.0`.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetHSL( h, s, l, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\t// h,s,l ranges are in 0.0 - 1.0\n\t\th = euclideanModulo( h, 1 );\n\t\ts = clamp( s, 0, 1 );\n\t\tl = clamp( l, 0, 1 );\n\n\t\tif ( s === 0 ) {\n\n\t\t\tthis.r = this.g = this.b = l;\n\n\t\t} else {\n\n\t\t\tconst p = l <= 0.5 ? l * ( 1 + s ) : l + s - ( l * s );\n\t\t\tconst q = ( 2 * l ) - p;\n\n\t\t\tthis.r = hue2rgb( q, p, h + 1 / 3 );\n\t\t\tthis.g = hue2rgb( q, p, h );\n\t\t\tthis.b = hue2rgb( q, p, h - 1 / 3 );\n\n\t\t}\n\n\t\tColorManagement.colorSpaceToWorking( this, colorSpace );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from a CSS-style string. For example, `rgb(250, 0,0)`,\n\t * `rgb(100%, 0%, 0%)`, `hsl(0, 100%, 50%)`, `#ff0000`, `#f00`, or `red` ( or\n\t * any [X11 color name]{@link https://en.wikipedia.org/wiki/X11_color_names#Color_name_chart} -\n\t * all 140 color names are supported).\n\t *\n\t * @param {string} style - Color as a CSS-style string.\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetStyle( style, colorSpace = SRGBColorSpace ) {\n\n\t\tfunction handleAlpha( string ) {\n\n\t\t\tif ( string === undefined ) return;\n\n\t\t\tif ( parseFloat( string ) < 1 ) {\n\n\t\t\t\tconsole.warn( 'THREE.Color: Alpha component of ' + style + ' will be ignored.' );\n\n\t\t\t}\n\n\t\t}\n\n\n\t\tlet m;\n\n\t\tif ( m = /^(\\w+)\\(([^\\)]*)\\)/.exec( style ) ) {\n\n\t\t\t// rgb / hsl\n\n\t\t\tlet color;\n\t\t\tconst name = m[ 1 ];\n\t\t\tconst components = m[ 2 ];\n\n\t\t\tswitch ( name ) {\n\n\t\t\t\tcase 'rgb':\n\t\t\t\tcase 'rgba':\n\n\t\t\t\t\tif ( color = /^\\s*(\\d+)\\s*,\\s*(\\d+)\\s*,\\s*(\\d+)\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec( components ) ) {\n\n\t\t\t\t\t\t// rgb(255,0,0) rgba(255,0,0,0.5)\n\n\t\t\t\t\t\thandleAlpha( color[ 4 ] );\n\n\t\t\t\t\t\treturn this.setRGB(\n\t\t\t\t\t\t\tMath.min( 255, parseInt( color[ 1 ], 10 ) ) / 255,\n\t\t\t\t\t\t\tMath.min( 255, parseInt( color[ 2 ], 10 ) ) / 255,\n\t\t\t\t\t\t\tMath.min( 255, parseInt( color[ 3 ], 10 ) ) / 255,\n\t\t\t\t\t\t\tcolorSpace\n\t\t\t\t\t\t);\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( color = /^\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec( components ) ) {\n\n\t\t\t\t\t\t// rgb(100%,0%,0%) rgba(100%,0%,0%,0.5)\n\n\t\t\t\t\t\thandleAlpha( color[ 4 ] );\n\n\t\t\t\t\t\treturn this.setRGB(\n\t\t\t\t\t\t\tMath.min( 100, parseInt( color[ 1 ], 10 ) ) / 100,\n\t\t\t\t\t\t\tMath.min( 100, parseInt( color[ 2 ], 10 ) ) / 100,\n\t\t\t\t\t\t\tMath.min( 100, parseInt( color[ 3 ], 10 ) ) / 100,\n\t\t\t\t\t\t\tcolorSpace\n\t\t\t\t\t\t);\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase 'hsl':\n\t\t\t\tcase 'hsla':\n\n\t\t\t\t\tif ( color = /^\\s*(\\d*\\.?\\d+)\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec( components ) ) {\n\n\t\t\t\t\t\t// hsl(120,50%,50%) hsla(120,50%,50%,0.5)\n\n\t\t\t\t\t\thandleAlpha( color[ 4 ] );\n\n\t\t\t\t\t\treturn this.setHSL(\n\t\t\t\t\t\t\tparseFloat( color[ 1 ] ) / 360,\n\t\t\t\t\t\t\tparseFloat( color[ 2 ] ) / 100,\n\t\t\t\t\t\t\tparseFloat( color[ 3 ] ) / 100,\n\t\t\t\t\t\t\tcolorSpace\n\t\t\t\t\t\t);\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\n\n\t\t\t\t\tconsole.warn( 'THREE.Color: Unknown color model ' + style );\n\n\t\t\t}\n\n\t\t} else if ( m = /^\\#([A-Fa-f\\d]+)$/.exec( style ) ) {\n\n\t\t\t// hex color\n\n\t\t\tconst hex = m[ 1 ];\n\t\t\tconst size = hex.length;\n\n\t\t\tif ( size === 3 ) {\n\n\t\t\t\t// #ff0\n\t\t\t\treturn this.setRGB(\n\t\t\t\t\tparseInt( hex.charAt( 0 ), 16 ) / 15,\n\t\t\t\t\tparseInt( hex.charAt( 1 ), 16 ) / 15,\n\t\t\t\t\tparseInt( hex.charAt( 2 ), 16 ) / 15,\n\t\t\t\t\tcolorSpace\n\t\t\t\t);\n\n\t\t\t} else if ( size === 6 ) {\n\n\t\t\t\t// #ff0000\n\t\t\t\treturn this.setHex( parseInt( hex, 16 ), colorSpace );\n\n\t\t\t} else {\n\n\t\t\t\tconsole.warn( 'THREE.Color: Invalid hex color ' + style );\n\n\t\t\t}\n\n\t\t} else if ( style && style.length > 0 ) {\n\n\t\t\treturn this.setColorName( style, colorSpace );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from a color name. Faster than {@link Color#setStyle} if\n\t * you don't need the other CSS-style formats.\n\t *\n\t * For convenience, the list of names is exposed in `Color.NAMES` as a hash.\n\t * ```js\n\t * Color.NAMES.aliceblue // returns 0xF0F8FF\n\t * ```\n\t *\n\t * @param {string} style - The color name.\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetColorName( style, colorSpace = SRGBColorSpace ) {\n\n\t\t// color keywords\n\t\tconst hex = _colorKeywords[ style.toLowerCase() ];\n\n\t\tif ( hex !== undefined ) {\n\n\t\t\t// red\n\t\t\tthis.setHex( hex, colorSpace );\n\n\t\t} else {\n\n\t\t\t// unknown color\n\t\t\tconsole.warn( 'THREE.Color: Unknown color ' + style );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new color with copied values from this instance.\n\t *\n\t * @return {Color} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.r, this.g, this.b );\n\n\t}\n\n\t/**\n\t * Copies the values of the given color to this instance.\n\t *\n\t * @param {Color} color - The color to copy.\n\t * @return {Color} A reference to this color.\n\t */\n\tcopy( color ) {\n\n\t\tthis.r = color.r;\n\t\tthis.g = color.g;\n\t\tthis.b = color.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the given color into this color, and then converts this color from\n\t * `SRGBColorSpace` to `LinearSRGBColorSpace`.\n\t *\n\t * @param {Color} color - The color to copy/convert.\n\t * @return {Color} A reference to this color.\n\t */\n\tcopySRGBToLinear( color ) {\n\n\t\tthis.r = SRGBToLinear( color.r );\n\t\tthis.g = SRGBToLinear( color.g );\n\t\tthis.b = SRGBToLinear( color.b );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the given color into this color, and then converts this color from\n\t * `LinearSRGBColorSpace` to `SRGBColorSpace`.\n\t *\n\t * @param {Color} color - The color to copy/convert.\n\t * @return {Color} A reference to this color.\n\t */\n\tcopyLinearToSRGB( color ) {\n\n\t\tthis.r = LinearToSRGB( color.r );\n\t\tthis.g = LinearToSRGB( color.g );\n\t\tthis.b = LinearToSRGB( color.b );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Converts this color from `SRGBColorSpace` to `LinearSRGBColorSpace`.\n\t *\n\t * @return {Color} A reference to this color.\n\t */\n\tconvertSRGBToLinear() {\n\n\t\tthis.copySRGBToLinear( this );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Converts this color from `LinearSRGBColorSpace` to `SRGBColorSpace`.\n\t *\n\t * @return {Color} A reference to this color.\n\t */\n\tconvertLinearToSRGB() {\n\n\t\tthis.copyLinearToSRGB( this );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the hexadecimal value of this color.\n\t *\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {number} The hexadecimal value.\n\t */\n\tgetHex( colorSpace = SRGBColorSpace ) {\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\treturn Math.round( clamp( _color.r * 255, 0, 255 ) ) * 65536 + Math.round( clamp( _color.g * 255, 0, 255 ) ) * 256 + Math.round( clamp( _color.b * 255, 0, 255 ) );\n\n\t}\n\n\t/**\n\t * Returns the hexadecimal value of this color as a string (for example, 'FFFFFF').\n\t *\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {string} The hexadecimal value as a string.\n\t */\n\tgetHexString( colorSpace = SRGBColorSpace ) {\n\n\t\treturn ( '000000' + this.getHex( colorSpace ).toString( 16 ) ).slice( -6 );\n\n\t}\n\n\t/**\n\t * Converts the colors RGB values into the HSL format and stores them into the\n\t * given target object.\n\t *\n\t * @param {{h:number,s:number,l:number}} target - The target object that is used to store the method's result.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {{h:number,s:number,l:number}} The HSL representation of this color.\n\t */\n\tgetHSL( target, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\t// h,s,l ranges are in 0.0 - 1.0\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\tconst r = _color.r, g = _color.g, b = _color.b;\n\n\t\tconst max = Math.max( r, g, b );\n\t\tconst min = Math.min( r, g, b );\n\n\t\tlet hue, saturation;\n\t\tconst lightness = ( min + max ) / 2.0;\n\n\t\tif ( min === max ) {\n\n\t\t\thue = 0;\n\t\t\tsaturation = 0;\n\n\t\t} else {\n\n\t\t\tconst delta = max - min;\n\n\t\t\tsaturation = lightness <= 0.5 ? delta / ( max + min ) : delta / ( 2 - max - min );\n\n\t\t\tswitch ( max ) {\n\n\t\t\t\tcase r: hue = ( g - b ) / delta + ( g < b ? 6 : 0 ); break;\n\t\t\t\tcase g: hue = ( b - r ) / delta + 2; break;\n\t\t\t\tcase b: hue = ( r - g ) / delta + 4; break;\n\n\t\t\t}\n\n\t\t\thue /= 6;\n\n\t\t}\n\n\t\ttarget.h = hue;\n\t\ttarget.s = saturation;\n\t\ttarget.l = lightness;\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the RGB values of this color and stores them into the given target object.\n\t *\n\t * @param {Color} target - The target color that is used to store the method's result.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {Color} The RGB representation of this color.\n\t */\n\tgetRGB( target, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\ttarget.r = _color.r;\n\t\ttarget.g = _color.g;\n\t\ttarget.b = _color.b;\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the value of this color as a CSS style string. Example: `rgb(255,0,0)`.\n\t *\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {string} The CSS representation of this color.\n\t */\n\tgetStyle( colorSpace = SRGBColorSpace ) {\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\tconst r = _color.r, g = _color.g, b = _color.b;\n\n\t\tif ( colorSpace !== SRGBColorSpace ) {\n\n\t\t\t// Requires CSS Color Module Level 4 (https://www.w3.org/TR/css-color-4/).\n\t\t\treturn `color(${ colorSpace } ${ r.toFixed( 3 ) } ${ g.toFixed( 3 ) } ${ b.toFixed( 3 ) })`;\n\n\t\t}\n\n\t\treturn `rgb(${ Math.round( r * 255 ) },${ Math.round( g * 255 ) },${ Math.round( b * 255 ) })`;\n\n\t}\n\n\t/**\n\t * Adds the given HSL values to this color's values.\n\t * Internally, this converts the color's RGB values to HSL, adds HSL\n\t * and then converts the color back to RGB.\n\t *\n\t * @param {number} h - Hue value between `0.0` and `1.0`.\n\t * @param {number} s - Saturation value between `0.0` and `1.0`.\n\t * @param {number} l - Lightness value between `0.0` and `1.0`.\n\t * @return {Color} A reference to this color.\n\t */\n\toffsetHSL( h, s, l ) {\n\n\t\tthis.getHSL( _hslA );\n\n\t\treturn this.setHSL( _hslA.h + h, _hslA.s + s, _hslA.l + l );\n\n\t}\n\n\t/**\n\t * Adds the RGB values of the given color to the RGB values of this color.\n\t *\n\t * @param {Color} color - The color to add.\n\t * @return {Color} A reference to this color.\n\t */\n\tadd( color ) {\n\n\t\tthis.r += color.r;\n\t\tthis.g += color.g;\n\t\tthis.b += color.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the RGB values of the given colors and stores the result in this instance.\n\t *\n\t * @param {Color} color1 - The first color.\n\t * @param {Color} color2 - The second color.\n\t * @return {Color} A reference to this color.\n\t */\n\taddColors( color1, color2 ) {\n\n\t\tthis.r = color1.r + color2.r;\n\t\tthis.g = color1.g + color2.g;\n\t\tthis.b = color1.b + color2.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to the RGB values of this color.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Color} A reference to this color.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.r += s;\n\t\tthis.g += s;\n\t\tthis.b += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the RGB values of the given color from the RGB values of this color.\n\t *\n\t * @param {Color} color - The color to subtract.\n\t * @return {Color} A reference to this color.\n\t */\n\tsub( color ) {\n\n\t\tthis.r = Math.max( 0, this.r - color.r );\n\t\tthis.g = Math.max( 0, this.g - color.g );\n\t\tthis.b = Math.max( 0, this.b - color.b );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the RGB values of the given color with the RGB values of this color.\n\t *\n\t * @param {Color} color - The color to multiply.\n\t * @return {Color} A reference to this color.\n\t */\n\tmultiply( color ) {\n\n\t\tthis.r *= color.r;\n\t\tthis.g *= color.g;\n\t\tthis.b *= color.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with the RGB values of this color.\n\t *\n\t * @param {number} s - The scalar to multiply.\n\t * @return {Color} A reference to this color.\n\t */\n\tmultiplyScalar( s ) {\n\n\t\tthis.r *= s;\n\t\tthis.g *= s;\n\t\tthis.b *= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates this color's RGB values toward the RGB values of the\n\t * given color. The alpha argument can be thought of as the ratio between\n\t * the two colors, where `0.0` is this color and `1.0` is the first argument.\n\t *\n\t * @param {Color} color - The color to converge on.\n\t * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n\t * @return {Color} A reference to this color.\n\t */\n\tlerp( color, alpha ) {\n\n\t\tthis.r += ( color.r - this.r ) * alpha;\n\t\tthis.g += ( color.g - this.g ) * alpha;\n\t\tthis.b += ( color.b - this.b ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given colors and stores the result in this instance.\n\t * The alpha argument can be thought of as the ratio between the two colors, where `0.0`\n\t * is the first and `1.0` is the second color.\n\t *\n\t * @param {Color} color1 - The first color.\n\t * @param {Color} color2 - The second color.\n\t * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n\t * @return {Color} A reference to this color.\n\t */\n\tlerpColors( color1, color2, alpha ) {\n\n\t\tthis.r = color1.r + ( color2.r - color1.r ) * alpha;\n\t\tthis.g = color1.g + ( color2.g - color1.g ) * alpha;\n\t\tthis.b = color1.b + ( color2.b - color1.b ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates this color's HSL values toward the HSL values of the\n\t * given color. It differs from {@link Color#lerp} by not interpolating straight\n\t * from one color to the other, but instead going through all the hues in between\n\t * those two colors. The alpha argument can be thought of as the ratio between\n\t * the two colors, where 0.0 is this color and 1.0 is the first argument.\n\t *\n\t * @param {Color} color - The color to converge on.\n\t * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n\t * @return {Color} A reference to this color.\n\t */\n\tlerpHSL( color, alpha ) {\n\n\t\tthis.getHSL( _hslA );\n\t\tcolor.getHSL( _hslB );\n\n\t\tconst h = lerp( _hslA.h, _hslB.h, alpha );\n\t\tconst s = lerp( _hslA.s, _hslB.s, alpha );\n\t\tconst l = lerp( _hslA.l, _hslB.l, alpha );\n\n\t\tthis.setHSL( h, s, l );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the color's RGB components from the given 3D vector.\n\t *\n\t * @param {Vector3} v - The vector to set.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetFromVector3( v ) {\n\n\t\tthis.r = v.x;\n\t\tthis.g = v.y;\n\t\tthis.b = v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Transforms this color with the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix.\n\t * @return {Color} A reference to this color.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tconst r = this.r, g = this.g, b = this.b;\n\t\tconst e = m.elements;\n\n\t\tthis.r = e[ 0 ] * r + e[ 3 ] * g + e[ 6 ] * b;\n\t\tthis.g = e[ 1 ] * r + e[ 4 ] * g + e[ 7 ] * b;\n\t\tthis.b = e[ 2 ] * r + e[ 5 ] * g + e[ 8 ] * b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this color is equal with the given one.\n\t *\n\t * @param {Color} c - The color to test for equality.\n\t * @return {boolean} Whether this bounding color is equal with the given one.\n\t */\n\tequals( c ) {\n\n\t\treturn ( c.r === this.r ) && ( c.g === this.g ) && ( c.b === this.b );\n\n\t}\n\n\t/**\n\t * Sets this color's RGB components from the given array.\n\t *\n\t * @param {Array} array - An array holding the RGB values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Color} A reference to this color.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.r = array[ offset ];\n\t\tthis.g = array[ offset + 1 ];\n\t\tthis.b = array[ offset + 2 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the RGB components of this color to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the color components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The color components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.r;\n\t\tarray[ offset + 1 ] = this.g;\n\t\tarray[ offset + 2 ] = this.b;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this color from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding color data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Color} A reference to this color.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.r = attribute.getX( index );\n\t\tthis.g = attribute.getY( index );\n\t\tthis.b = attribute.getZ( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This methods defines the serialization result of this class. Returns the color\n\t * as a hexadecimal value.\n\t *\n\t * @return {number} The hexadecimal value.\n\t */\n\ttoJSON() {\n\n\t\treturn this.getHex();\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.r;\n\t\tyield this.g;\n\t\tyield this.b;\n\n\t}\n\n}\n\nconst _color = /*@__PURE__*/ new Color();\n\n/**\n * A dictionary with X11 color names.\n *\n * Note that multiple words such as Dark Orange become the string 'darkorange'.\n *\n * @static\n * @type {Object}\n */\nColor.NAMES = _colorKeywords;\n\nlet _materialId = 0;\n\n/**\n * Abstract base class for materials.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * @abstract\n * @augments EventDispatcher\n */\nclass Material extends EventDispatcher {\n\n\t/**\n\t * Constructs a new material.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMaterial = true;\n\n\t\t/**\n\t\t * The ID of the material.\n\t\t *\n\t\t * @name Material#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _materialId ++ } );\n\n\t\t/**\n\t\t * The UUID of the material.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the material.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'Material';\n\n\t\t/**\n\t\t * Defines the blending type of the material.\n\t\t *\n\t\t * It must be set to `CustomBlending` if custom blending properties like\n\t\t * {@link Material#blendSrc}, {@link Material#blendDst} or {@link Material#blendEquation}\n\t\t * should have any effect.\n\t\t *\n\t\t * @type {(NoBlending|NormalBlending|AdditiveBlending|SubtractiveBlending|MultiplyBlending|CustomBlending)}\n\t\t * @default NormalBlending\n\t\t */\n\t\tthis.blending = NormalBlending;\n\n\t\t/**\n\t\t * Defines which side of faces will be rendered - front, back or both.\n\t\t *\n\t\t * @type {(FrontSide|BackSide|DoubleSide)}\n\t\t * @default FrontSide\n\t\t */\n\t\tthis.side = FrontSide;\n\n\t\t/**\n\t\t * If set to `true`, vertex colors should be used.\n\t\t *\n\t\t * The engine supports RGB and RGBA vertex colors depending on whether a three (RGB) or\n\t\t * four (RGBA) component color buffer attribute is used.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.vertexColors = false;\n\n\t\t/**\n\t\t * Defines how transparent the material is.\n\t\t * A value of `0.0` indicates fully transparent, `1.0` is fully opaque.\n\t\t *\n\t\t * If the {@link Material#transparent} is not set to `true`,\n\t\t * the material will remain fully opaque and this value will only affect its color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.opacity = 1;\n\n\t\t/**\n\t\t * Defines whether this material is transparent. This has an effect on\n\t\t * rendering as transparent objects need special treatment and are rendered\n\t\t * after non-transparent objects.\n\t\t *\n\t\t * When set to true, the extent to which the material is transparent is\n\t\t * controlled by {@link Material#opacity}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.transparent = false;\n\n\t\t/**\n\t\t * Enables alpha hashed transparency, an alternative to {@link Material#transparent} or\n\t\t * {@link Material#alphaTest}. The material will not be rendered if opacity is lower than\n\t\t * a random threshold. Randomization introduces some grain or noise, but approximates alpha\n\t\t * blending without the associated problems of sorting. Using TAA can reduce the resulting noise.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.alphaHash = false;\n\n\t\t/**\n\t\t * Defines the blending source factor.\n\t\t *\n\t\t * @type {(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default SrcAlphaFactor\n\t\t */\n\t\tthis.blendSrc = SrcAlphaFactor;\n\n\t\t/**\n\t\t * Defines the blending destination factor.\n\t\t *\n\t\t * @type {(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default OneMinusSrcAlphaFactor\n\t\t */\n\t\tthis.blendDst = OneMinusSrcAlphaFactor;\n\n\t\t/**\n\t\t * Defines the blending equation.\n\t\t *\n\t\t * @type {(AddEquation|SubtractEquation|ReverseSubtractEquation|MinEquation|MaxEquation)}\n\t\t * @default AddEquation\n\t\t */\n\t\tthis.blendEquation = AddEquation;\n\n\t\t/**\n\t\t * Defines the blending source alpha factor.\n\t\t *\n\t\t * @type {?(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default null\n\t\t */\n\t\tthis.blendSrcAlpha = null;\n\n\t\t/**\n\t\t * Defines the blending destination alpha factor.\n\t\t *\n\t\t * @type {?(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default null\n\t\t */\n\t\tthis.blendDstAlpha = null;\n\n\t\t/**\n\t\t * Defines the blending equation of the alpha channel.\n\t\t *\n\t\t * @type {?(AddEquation|SubtractEquation|ReverseSubtractEquation|MinEquation|MaxEquation)}\n\t\t * @default null\n\t\t */\n\t\tthis.blendEquationAlpha = null;\n\n\t\t/**\n\t\t * Represents the RGB values of the constant blend color.\n\t\t *\n\t\t * This property has only an effect when using custom blending with `ConstantColor` or `OneMinusConstantColor`.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.blendColor = new Color( 0, 0, 0 );\n\n\t\t/**\n\t\t * Represents the alpha value of the constant blend color.\n\t\t *\n\t\t * This property has only an effect when using custom blending with `ConstantAlpha` or `OneMinusConstantAlpha`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.blendAlpha = 0;\n\n\t\t/**\n\t\t * Defines the depth function.\n\t\t *\n\t\t * @type {(NeverDepth|AlwaysDepth|LessDepth|LessEqualDepth|EqualDepth|GreaterEqualDepth|GreaterDepth|NotEqualDepth)}\n\t\t * @default LessEqualDepth\n\t\t */\n\t\tthis.depthFunc = LessEqualDepth;\n\n\t\t/**\n\t\t * Whether to have depth test enabled when rendering this material.\n\t\t * When the depth test is disabled, the depth write will also be implicitly disabled.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.depthTest = true;\n\n\t\t/**\n\t\t * Whether rendering this material has any effect on the depth buffer.\n\t\t *\n\t\t * When drawing 2D overlays it can be useful to disable the depth writing in\n\t\t * order to layer several things together without creating z-index artifacts.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.depthWrite = true;\n\n\t\t/**\n\t\t * The bit mask to use when writing to the stencil buffer.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0xff\n\t\t */\n\t\tthis.stencilWriteMask = 0xff;\n\n\t\t/**\n\t\t * The stencil comparison function to use.\n\t\t *\n\t\t * @type {NeverStencilFunc|LessStencilFunc|EqualStencilFunc|LessEqualStencilFunc|GreaterStencilFunc|NotEqualStencilFunc|GreaterEqualStencilFunc|AlwaysStencilFunc}\n\t\t * @default AlwaysStencilFunc\n\t\t */\n\t\tthis.stencilFunc = AlwaysStencilFunc;\n\n\t\t/**\n\t\t * The value to use when performing stencil comparisons or stencil operations.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.stencilRef = 0;\n\n\t\t/**\n\t\t * The bit mask to use when comparing against the stencil buffer.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0xff\n\t\t */\n\t\tthis.stencilFuncMask = 0xff;\n\n\t\t/**\n\t\t * Which stencil operation to perform when the comparison function returns `false`.\n\t\t *\n\t\t * @type {ZeroStencilOp|KeepStencilOp|ReplaceStencilOp|IncrementStencilOp|DecrementStencilOp|IncrementWrapStencilOp|DecrementWrapStencilOp|InvertStencilOp}\n\t\t * @default KeepStencilOp\n\t\t */\n\t\tthis.stencilFail = KeepStencilOp;\n\n\t\t/**\n\t\t * Which stencil operation to perform when the comparison function returns\n\t\t * `true` but the depth test fails.\n\t\t *\n\t\t * @type {ZeroStencilOp|KeepStencilOp|ReplaceStencilOp|IncrementStencilOp|DecrementStencilOp|IncrementWrapStencilOp|DecrementWrapStencilOp|InvertStencilOp}\n\t\t * @default KeepStencilOp\n\t\t */\n\t\tthis.stencilZFail = KeepStencilOp;\n\n\t\t/**\n\t\t * Which stencil operation to perform when the comparison function returns\n\t\t * `true` and the depth test passes.\n\t\t *\n\t\t * @type {ZeroStencilOp|KeepStencilOp|ReplaceStencilOp|IncrementStencilOp|DecrementStencilOp|IncrementWrapStencilOp|DecrementWrapStencilOp|InvertStencilOp}\n\t\t * @default KeepStencilOp\n\t\t */\n\t\tthis.stencilZPass = KeepStencilOp;\n\n\t\t/**\n\t\t * Whether stencil operations are performed against the stencil buffer. In\n\t\t * order to perform writes or comparisons against the stencil buffer this\n\t\t * value must be `true`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.stencilWrite = false;\n\n\t\t/**\n\t\t * User-defined clipping planes specified as THREE.Plane objects in world\n\t\t * space. These planes apply to the objects this material is attached to.\n\t\t * Points in space whose signed distance to the plane is negative are clipped\n\t\t * (not rendered). This requires {@link WebGLRenderer#localClippingEnabled} to\n\t\t * be `true`.\n\t\t *\n\t\t * @type {?Array}\n\t\t * @default null\n\t\t */\n\t\tthis.clippingPlanes = null;\n\n\t\t/**\n\t\t * Changes the behavior of clipping planes so that only their intersection is\n\t\t * clipped, rather than their union.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clipIntersection = false;\n\n\t\t/**\n\t\t * Defines whether to clip shadows according to the clipping planes specified\n\t\t * on this material.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clipShadows = false;\n\n\t\t/**\n\t\t * Defines which side of faces cast shadows. If `null`, the side casting shadows\n\t\t * is determined as follows:\n\t\t *\n\t\t * - When {@link Material#side} is set to `FrontSide`, the back side cast shadows.\n\t\t * - When {@link Material#side} is set to `BackSide`, the front side cast shadows.\n\t\t * - When {@link Material#side} is set to `DoubleSide`, both sides cast shadows.\n\t\t *\n\t\t * @type {?(FrontSide|BackSide|DoubleSide)}\n\t\t * @default null\n\t\t */\n\t\tthis.shadowSide = null;\n\n\t\t/**\n\t\t * Whether to render the material's color.\n\t\t *\n\t\t * This can be used in conjunction with {@link Object3D#renderOder} to create invisible\n\t\t * objects that occlude other objects.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.colorWrite = true;\n\n\t\t/**\n\t\t * Override the renderer's default precision for this material.\n\t\t *\n\t\t * @type {?('highp'|'mediump'|'lowp')}\n\t\t * @default null\n\t\t */\n\t\tthis.precision = null;\n\n\t\t/**\n\t\t * Whether to use polygon offset or not. When enabled, each fragment's depth value will\n\t\t * be offset after it is interpolated from the depth values of the appropriate vertices.\n\t\t * The offset is added before the depth test is performed and before the value is written\n\t\t * into the depth buffer.\n\t\t *\n\t\t * Can be useful for rendering hidden-line images, for applying decals to surfaces, and for\n\t\t * rendering solids with highlighted edges.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.polygonOffset = false;\n\n\t\t/**\n\t\t * Specifies a scale factor that is used to create a variable depth offset for each polygon.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.polygonOffsetFactor = 0;\n\n\t\t/**\n\t\t * Is multiplied by an implementation-specific value to create a constant depth offset.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.polygonOffsetUnits = 0;\n\n\t\t/**\n\t\t * Whether to apply dithering to the color to remove the appearance of banding.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.dithering = false;\n\n\t\t/**\n\t\t * Whether alpha to coverage should be enabled or not. Can only be used with MSAA-enabled contexts\n\t\t * (meaning when the renderer was created with *antialias* parameter set to `true`). Enabling this\n\t\t * will smooth aliasing on clip plane edges and alphaTest-clipped edges.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.alphaToCoverage = false;\n\n\t\t/**\n\t\t * Whether to premultiply the alpha (transparency) value.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.premultipliedAlpha = false;\n\n\t\t/**\n\t\t * Whether double-sided, transparent objects should be rendered with a single pass or not.\n\t\t *\n\t\t * The engine renders double-sided, transparent objects with two draw calls (back faces first,\n\t\t * then front faces) to mitigate transparency artifacts. There are scenarios however where this\n\t\t * approach produces no quality gains but still doubles draw calls e.g. when rendering flat\n\t\t * vegetation like grass sprites. In these cases, set the `forceSinglePass` flag to `true` to\n\t\t * disable the two pass rendering to avoid performance issues.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.forceSinglePass = false;\n\n\t\t/**\n\t\t * Whether it's possible to override the material with {@link Scene#overrideMaterial} or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.allowOverride = true;\n\n\t\t/**\n\t\t * Defines whether 3D objects using this material are visible.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.visible = true;\n\n\t\t/**\n\t\t * Defines whether this material is tone mapped according to the renderer's tone mapping setting.\n\t\t *\n\t\t * It is ignored when rendering to a render target or using post processing or when using\n\t\t * `WebGPURenderer`. In all these cases, all materials are honored by tone mapping.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.toneMapped = true;\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the Material. It\n\t\t * should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t\t/**\n\t\t * This starts at `0` and counts how many times {@link Material#needsUpdate} is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.version = 0;\n\n\t\tthis._alphaTest = 0;\n\n\t}\n\n\t/**\n\t * Sets the alpha value to be used when running an alpha test. The material\n\t * will not be rendered if the opacity is lower than this value.\n\t *\n\t * @type {number}\n\t * @readonly\n\t * @default 0\n\t */\n\tget alphaTest() {\n\n\t\treturn this._alphaTest;\n\n\t}\n\n\tset alphaTest( value ) {\n\n\t\tif ( this._alphaTest > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._alphaTest = value;\n\n\t}\n\n\t/**\n\t * An optional callback that is executed immediately before the material is used to render a 3D object.\n\t *\n\t * This method can only be used when rendering with {@link WebGLRenderer}.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {Scene} scene - The scene.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonBeforeRender( /* renderer, scene, camera, geometry, object, group */ ) {}\n\n\t/**\n\t * An optional callback that is executed immediately before the shader\n\t * program is compiled. This function is called with the shader source code\n\t * as a parameter. Useful for the modification of built-in materials.\n\t *\n\t * This method can only be used when rendering with {@link WebGLRenderer}. The\n\t * recommended approach when customizing materials is to use `WebGPURenderer` with the new\n\t * Node Material system and [TSL]{@link https://github.com/mrdoob/three.js/wiki/Three.js-Shading-Language}.\n\t *\n\t * @param {{vertexShader:string,fragmentShader:string,uniforms:Object}} shaderobject - The object holds the uniforms and the vertex and fragment shader source.\n\t * @param {WebGLRenderer} renderer - A reference to the renderer.\n\t */\n\tonBeforeCompile( /* shaderobject, renderer */ ) {}\n\n\t/**\n\t * In case {@link Material#onBeforeCompile} is used, this callback can be used to identify\n\t * values of settings used in `onBeforeCompile()`, so three.js can reuse a cached\n\t * shader or recompile the shader for this material as needed.\n\t *\n\t * This method can only be used when rendering with {@link WebGLRenderer}.\n\t *\n\t * @return {string} The custom program cache key.\n\t */\n\tcustomProgramCacheKey() {\n\n\t\treturn this.onBeforeCompile.toString();\n\n\t}\n\n\t/**\n\t * This method can be used to set default values from parameter objects.\n\t * It is a generic implementation so it can be used with different types\n\t * of materials.\n\t *\n\t * @param {Object} [values] - The material values to set.\n\t */\n\tsetValues( values ) {\n\n\t\tif ( values === undefined ) return;\n\n\t\tfor ( const key in values ) {\n\n\t\t\tconst newValue = values[ key ];\n\n\t\t\tif ( newValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Material: parameter '${ key }' has value of undefined.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tconst currentValue = this[ key ];\n\n\t\t\tif ( currentValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Material: '${ key }' is not a property of THREE.${ this.type }.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tif ( currentValue && currentValue.isColor ) {\n\n\t\t\t\tcurrentValue.set( newValue );\n\n\t\t\t} else if ( ( currentValue && currentValue.isVector3 ) && ( newValue && newValue.isVector3 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else {\n\n\t\t\t\tthis[ key ] = newValue;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the material into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized material.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tif ( isRootObject ) {\n\n\t\t\tmeta = {\n\t\t\t\ttextures: {},\n\t\t\t\timages: {}\n\t\t\t};\n\n\t\t}\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Material',\n\t\t\t\tgenerator: 'Material.toJSON'\n\t\t\t}\n\t\t};\n\n\t\t// standard Material serialization\n\t\tdata.uuid = this.uuid;\n\t\tdata.type = this.type;\n\n\t\tif ( this.name !== '' ) data.name = this.name;\n\n\t\tif ( this.color && this.color.isColor ) data.color = this.color.getHex();\n\n\t\tif ( this.roughness !== undefined ) data.roughness = this.roughness;\n\t\tif ( this.metalness !== undefined ) data.metalness = this.metalness;\n\n\t\tif ( this.sheen !== undefined ) data.sheen = this.sheen;\n\t\tif ( this.sheenColor && this.sheenColor.isColor ) data.sheenColor = this.sheenColor.getHex();\n\t\tif ( this.sheenRoughness !== undefined ) data.sheenRoughness = this.sheenRoughness;\n\t\tif ( this.emissive && this.emissive.isColor ) data.emissive = this.emissive.getHex();\n\t\tif ( this.emissiveIntensity !== undefined && this.emissiveIntensity !== 1 ) data.emissiveIntensity = this.emissiveIntensity;\n\n\t\tif ( this.specular && this.specular.isColor ) data.specular = this.specular.getHex();\n\t\tif ( this.specularIntensity !== undefined ) data.specularIntensity = this.specularIntensity;\n\t\tif ( this.specularColor && this.specularColor.isColor ) data.specularColor = this.specularColor.getHex();\n\t\tif ( this.shininess !== undefined ) data.shininess = this.shininess;\n\t\tif ( this.clearcoat !== undefined ) data.clearcoat = this.clearcoat;\n\t\tif ( this.clearcoatRoughness !== undefined ) data.clearcoatRoughness = this.clearcoatRoughness;\n\n\t\tif ( this.clearcoatMap && this.clearcoatMap.isTexture ) {\n\n\t\t\tdata.clearcoatMap = this.clearcoatMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.clearcoatRoughnessMap && this.clearcoatRoughnessMap.isTexture ) {\n\n\t\t\tdata.clearcoatRoughnessMap = this.clearcoatRoughnessMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.clearcoatNormalMap && this.clearcoatNormalMap.isTexture ) {\n\n\t\t\tdata.clearcoatNormalMap = this.clearcoatNormalMap.toJSON( meta ).uuid;\n\t\t\tdata.clearcoatNormalScale = this.clearcoatNormalScale.toArray();\n\n\t\t}\n\n\t\tif ( this.sheenColorMap && this.sheenColorMap.isTexture ) {\n\n\t\t\tdata.sheenColorMap = this.sheenColorMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.sheenRoughnessMap && this.sheenRoughnessMap.isTexture ) {\n\n\t\t\tdata.sheenRoughnessMap = this.sheenRoughnessMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.dispersion !== undefined ) data.dispersion = this.dispersion;\n\n\t\tif ( this.iridescence !== undefined ) data.iridescence = this.iridescence;\n\t\tif ( this.iridescenceIOR !== undefined ) data.iridescenceIOR = this.iridescenceIOR;\n\t\tif ( this.iridescenceThicknessRange !== undefined ) data.iridescenceThicknessRange = this.iridescenceThicknessRange;\n\n\t\tif ( this.iridescenceMap && this.iridescenceMap.isTexture ) {\n\n\t\t\tdata.iridescenceMap = this.iridescenceMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.iridescenceThicknessMap && this.iridescenceThicknessMap.isTexture ) {\n\n\t\t\tdata.iridescenceThicknessMap = this.iridescenceThicknessMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.anisotropy !== undefined ) data.anisotropy = this.anisotropy;\n\t\tif ( this.anisotropyRotation !== undefined ) data.anisotropyRotation = this.anisotropyRotation;\n\n\t\tif ( this.anisotropyMap && this.anisotropyMap.isTexture ) {\n\n\t\t\tdata.anisotropyMap = this.anisotropyMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.map && this.map.isTexture ) data.map = this.map.toJSON( meta ).uuid;\n\t\tif ( this.matcap && this.matcap.isTexture ) data.matcap = this.matcap.toJSON( meta ).uuid;\n\t\tif ( this.alphaMap && this.alphaMap.isTexture ) data.alphaMap = this.alphaMap.toJSON( meta ).uuid;\n\n\t\tif ( this.lightMap && this.lightMap.isTexture ) {\n\n\t\t\tdata.lightMap = this.lightMap.toJSON( meta ).uuid;\n\t\t\tdata.lightMapIntensity = this.lightMapIntensity;\n\n\t\t}\n\n\t\tif ( this.aoMap && this.aoMap.isTexture ) {\n\n\t\t\tdata.aoMap = this.aoMap.toJSON( meta ).uuid;\n\t\t\tdata.aoMapIntensity = this.aoMapIntensity;\n\n\t\t}\n\n\t\tif ( this.bumpMap && this.bumpMap.isTexture ) {\n\n\t\t\tdata.bumpMap = this.bumpMap.toJSON( meta ).uuid;\n\t\t\tdata.bumpScale = this.bumpScale;\n\n\t\t}\n\n\t\tif ( this.normalMap && this.normalMap.isTexture ) {\n\n\t\t\tdata.normalMap = this.normalMap.toJSON( meta ).uuid;\n\t\t\tdata.normalMapType = this.normalMapType;\n\t\t\tdata.normalScale = this.normalScale.toArray();\n\n\t\t}\n\n\t\tif ( this.displacementMap && this.displacementMap.isTexture ) {\n\n\t\t\tdata.displacementMap = this.displacementMap.toJSON( meta ).uuid;\n\t\t\tdata.displacementScale = this.displacementScale;\n\t\t\tdata.displacementBias = this.displacementBias;\n\n\t\t}\n\n\t\tif ( this.roughnessMap && this.roughnessMap.isTexture ) data.roughnessMap = this.roughnessMap.toJSON( meta ).uuid;\n\t\tif ( this.metalnessMap && this.metalnessMap.isTexture ) data.metalnessMap = this.metalnessMap.toJSON( meta ).uuid;\n\n\t\tif ( this.emissiveMap && this.emissiveMap.isTexture ) data.emissiveMap = this.emissiveMap.toJSON( meta ).uuid;\n\t\tif ( this.specularMap && this.specularMap.isTexture ) data.specularMap = this.specularMap.toJSON( meta ).uuid;\n\t\tif ( this.specularIntensityMap && this.specularIntensityMap.isTexture ) data.specularIntensityMap = this.specularIntensityMap.toJSON( meta ).uuid;\n\t\tif ( this.specularColorMap && this.specularColorMap.isTexture ) data.specularColorMap = this.specularColorMap.toJSON( meta ).uuid;\n\n\t\tif ( this.envMap && this.envMap.isTexture ) {\n\n\t\t\tdata.envMap = this.envMap.toJSON( meta ).uuid;\n\n\t\t\tif ( this.combine !== undefined ) data.combine = this.combine;\n\n\t\t}\n\n\t\tif ( this.envMapRotation !== undefined ) data.envMapRotation = this.envMapRotation.toArray();\n\t\tif ( this.envMapIntensity !== undefined ) data.envMapIntensity = this.envMapIntensity;\n\t\tif ( this.reflectivity !== undefined ) data.reflectivity = this.reflectivity;\n\t\tif ( this.refractionRatio !== undefined ) data.refractionRatio = this.refractionRatio;\n\n\t\tif ( this.gradientMap && this.gradientMap.isTexture ) {\n\n\t\t\tdata.gradientMap = this.gradientMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.transmission !== undefined ) data.transmission = this.transmission;\n\t\tif ( this.transmissionMap && this.transmissionMap.isTexture ) data.transmissionMap = this.transmissionMap.toJSON( meta ).uuid;\n\t\tif ( this.thickness !== undefined ) data.thickness = this.thickness;\n\t\tif ( this.thicknessMap && this.thicknessMap.isTexture ) data.thicknessMap = this.thicknessMap.toJSON( meta ).uuid;\n\t\tif ( this.attenuationDistance !== undefined && this.attenuationDistance !== Infinity ) data.attenuationDistance = this.attenuationDistance;\n\t\tif ( this.attenuationColor !== undefined ) data.attenuationColor = this.attenuationColor.getHex();\n\n\t\tif ( this.size !== undefined ) data.size = this.size;\n\t\tif ( this.shadowSide !== null ) data.shadowSide = this.shadowSide;\n\t\tif ( this.sizeAttenuation !== undefined ) data.sizeAttenuation = this.sizeAttenuation;\n\n\t\tif ( this.blending !== NormalBlending ) data.blending = this.blending;\n\t\tif ( this.side !== FrontSide ) data.side = this.side;\n\t\tif ( this.vertexColors === true ) data.vertexColors = true;\n\n\t\tif ( this.opacity < 1 ) data.opacity = this.opacity;\n\t\tif ( this.transparent === true ) data.transparent = true;\n\n\t\tif ( this.blendSrc !== SrcAlphaFactor ) data.blendSrc = this.blendSrc;\n\t\tif ( this.blendDst !== OneMinusSrcAlphaFactor ) data.blendDst = this.blendDst;\n\t\tif ( this.blendEquation !== AddEquation ) data.blendEquation = this.blendEquation;\n\t\tif ( this.blendSrcAlpha !== null ) data.blendSrcAlpha = this.blendSrcAlpha;\n\t\tif ( this.blendDstAlpha !== null ) data.blendDstAlpha = this.blendDstAlpha;\n\t\tif ( this.blendEquationAlpha !== null ) data.blendEquationAlpha = this.blendEquationAlpha;\n\t\tif ( this.blendColor && this.blendColor.isColor ) data.blendColor = this.blendColor.getHex();\n\t\tif ( this.blendAlpha !== 0 ) data.blendAlpha = this.blendAlpha;\n\n\t\tif ( this.depthFunc !== LessEqualDepth ) data.depthFunc = this.depthFunc;\n\t\tif ( this.depthTest === false ) data.depthTest = this.depthTest;\n\t\tif ( this.depthWrite === false ) data.depthWrite = this.depthWrite;\n\t\tif ( this.colorWrite === false ) data.colorWrite = this.colorWrite;\n\n\t\tif ( this.stencilWriteMask !== 0xff ) data.stencilWriteMask = this.stencilWriteMask;\n\t\tif ( this.stencilFunc !== AlwaysStencilFunc ) data.stencilFunc = this.stencilFunc;\n\t\tif ( this.stencilRef !== 0 ) data.stencilRef = this.stencilRef;\n\t\tif ( this.stencilFuncMask !== 0xff ) data.stencilFuncMask = this.stencilFuncMask;\n\t\tif ( this.stencilFail !== KeepStencilOp ) data.stencilFail = this.stencilFail;\n\t\tif ( this.stencilZFail !== KeepStencilOp ) data.stencilZFail = this.stencilZFail;\n\t\tif ( this.stencilZPass !== KeepStencilOp ) data.stencilZPass = this.stencilZPass;\n\t\tif ( this.stencilWrite === true ) data.stencilWrite = this.stencilWrite;\n\n\t\t// rotation (SpriteMaterial)\n\t\tif ( this.rotation !== undefined && this.rotation !== 0 ) data.rotation = this.rotation;\n\n\t\tif ( this.polygonOffset === true ) data.polygonOffset = true;\n\t\tif ( this.polygonOffsetFactor !== 0 ) data.polygonOffsetFactor = this.polygonOffsetFactor;\n\t\tif ( this.polygonOffsetUnits !== 0 ) data.polygonOffsetUnits = this.polygonOffsetUnits;\n\n\t\tif ( this.linewidth !== undefined && this.linewidth !== 1 ) data.linewidth = this.linewidth;\n\t\tif ( this.dashSize !== undefined ) data.dashSize = this.dashSize;\n\t\tif ( this.gapSize !== undefined ) data.gapSize = this.gapSize;\n\t\tif ( this.scale !== undefined ) data.scale = this.scale;\n\n\t\tif ( this.dithering === true ) data.dithering = true;\n\n\t\tif ( this.alphaTest > 0 ) data.alphaTest = this.alphaTest;\n\t\tif ( this.alphaHash === true ) data.alphaHash = true;\n\t\tif ( this.alphaToCoverage === true ) data.alphaToCoverage = true;\n\t\tif ( this.premultipliedAlpha === true ) data.premultipliedAlpha = true;\n\t\tif ( this.forceSinglePass === true ) data.forceSinglePass = true;\n\n\t\tif ( this.wireframe === true ) data.wireframe = true;\n\t\tif ( this.wireframeLinewidth > 1 ) data.wireframeLinewidth = this.wireframeLinewidth;\n\t\tif ( this.wireframeLinecap !== 'round' ) data.wireframeLinecap = this.wireframeLinecap;\n\t\tif ( this.wireframeLinejoin !== 'round' ) data.wireframeLinejoin = this.wireframeLinejoin;\n\n\t\tif ( this.flatShading === true ) data.flatShading = true;\n\n\t\tif ( this.visible === false ) data.visible = false;\n\n\t\tif ( this.toneMapped === false ) data.toneMapped = false;\n\n\t\tif ( this.fog === false ) data.fog = false;\n\n\t\tif ( Object.keys( this.userData ).length > 0 ) data.userData = this.userData;\n\n\t\t// TODO: Copied from Object3D.toJSON\n\n\t\tfunction extractFromCache( cache ) {\n\n\t\t\tconst values = [];\n\n\t\t\tfor ( const key in cache ) {\n\n\t\t\t\tconst data = cache[ key ];\n\t\t\t\tdelete data.metadata;\n\t\t\t\tvalues.push( data );\n\n\t\t\t}\n\n\t\t\treturn values;\n\n\t\t}\n\n\t\tif ( isRootObject ) {\n\n\t\t\tconst textures = extractFromCache( meta.textures );\n\t\t\tconst images = extractFromCache( meta.images );\n\n\t\t\tif ( textures.length > 0 ) data.textures = textures;\n\t\t\tif ( images.length > 0 ) data.images = images;\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Returns a new material with copied values from this instance.\n\t *\n\t * @return {Material} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given material to this instance.\n\t *\n\t * @param {Material} source - The material to copy.\n\t * @return {Material} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\n\t\tthis.blending = source.blending;\n\t\tthis.side = source.side;\n\t\tthis.vertexColors = source.vertexColors;\n\n\t\tthis.opacity = source.opacity;\n\t\tthis.transparent = source.transparent;\n\n\t\tthis.blendSrc = source.blendSrc;\n\t\tthis.blendDst = source.blendDst;\n\t\tthis.blendEquation = source.blendEquation;\n\t\tthis.blendSrcAlpha = source.blendSrcAlpha;\n\t\tthis.blendDstAlpha = source.blendDstAlpha;\n\t\tthis.blendEquationAlpha = source.blendEquationAlpha;\n\t\tthis.blendColor.copy( source.blendColor );\n\t\tthis.blendAlpha = source.blendAlpha;\n\n\t\tthis.depthFunc = source.depthFunc;\n\t\tthis.depthTest = source.depthTest;\n\t\tthis.depthWrite = source.depthWrite;\n\n\t\tthis.stencilWriteMask = source.stencilWriteMask;\n\t\tthis.stencilFunc = source.stencilFunc;\n\t\tthis.stencilRef = source.stencilRef;\n\t\tthis.stencilFuncMask = source.stencilFuncMask;\n\t\tthis.stencilFail = source.stencilFail;\n\t\tthis.stencilZFail = source.stencilZFail;\n\t\tthis.stencilZPass = source.stencilZPass;\n\t\tthis.stencilWrite = source.stencilWrite;\n\n\t\tconst srcPlanes = source.clippingPlanes;\n\t\tlet dstPlanes = null;\n\n\t\tif ( srcPlanes !== null ) {\n\n\t\t\tconst n = srcPlanes.length;\n\t\t\tdstPlanes = new Array( n );\n\n\t\t\tfor ( let i = 0; i !== n; ++ i ) {\n\n\t\t\t\tdstPlanes[ i ] = srcPlanes[ i ].clone();\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.clippingPlanes = dstPlanes;\n\t\tthis.clipIntersection = source.clipIntersection;\n\t\tthis.clipShadows = source.clipShadows;\n\n\t\tthis.shadowSide = source.shadowSide;\n\n\t\tthis.colorWrite = source.colorWrite;\n\n\t\tthis.precision = source.precision;\n\n\t\tthis.polygonOffset = source.polygonOffset;\n\t\tthis.polygonOffsetFactor = source.polygonOffsetFactor;\n\t\tthis.polygonOffsetUnits = source.polygonOffsetUnits;\n\n\t\tthis.dithering = source.dithering;\n\n\t\tthis.alphaTest = source.alphaTest;\n\t\tthis.alphaHash = source.alphaHash;\n\t\tthis.alphaToCoverage = source.alphaToCoverage;\n\t\tthis.premultipliedAlpha = source.premultipliedAlpha;\n\t\tthis.forceSinglePass = source.forceSinglePass;\n\n\t\tthis.visible = source.visible;\n\n\t\tthis.toneMapped = source.toneMapped;\n\n\t\tthis.userData = JSON.parse( JSON.stringify( source.userData ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires Material#dispose\n\t */\n\tdispose() {\n\n\t\t/**\n\t\t * Fires when the material has been disposed of.\n\t\t *\n\t\t * @event Material#dispose\n\t\t * @type {Object}\n\t\t */\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n\t/**\n\t * Setting this property to `true` indicates the engine the material\n\t * needs to be recompiled.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n}\n\n/**\n * A material for drawing geometries in a simple shaded (flat or wireframe) way.\n *\n * This material is not affected by lights.\n *\n * @augments Material\n */\nclass MeshBasicMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh basic material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshBasicMaterial = true;\n\n\t\tthis.type = 'MeshBasicMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Specular map used by the material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * How to combine the result of the surface's color with the environment map, if any.\n\t\t *\n\t\t * When set to `MixOperation`, the {@link MeshBasicMaterial#reflectivity} is used to\n\t\t * blend between the two colors.\n\t\t *\n\t\t * @type {(MultiplyOperation|MixOperation|AddOperation)}\n\t\t * @default MultiplyOperation\n\t\t */\n\t\tthis.combine = MultiplyOperation;\n\n\t\t/**\n\t\t * How much the environment map affects the surface.\n\t\t * The valid range is between `0` (no reflections) and `1` (full reflections).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.reflectivity = 1;\n\n\t\t/**\n\t\t * The index of refraction (IOR) of air (approximately 1) divided by the\n\t\t * index of refraction of the material. It is used with environment mapping\n\t\t * modes {@link CubeRefractionMapping} and {@link EquirectangularRefractionMapping}.\n\t\t * The refraction ratio should not exceed `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.98\n\t\t */\n\t\tthis.refractionRatio = 0.98;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.specularMap = source.specularMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.combine = source.combine;\n\t\tthis.reflectivity = source.reflectivity;\n\t\tthis.refractionRatio = source.refractionRatio;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n// Fast Half Float Conversions, http://www.fox-toolkit.org/ftp/fasthalffloatconversion.pdf\n\nconst _tables = /*@__PURE__*/ _generateTables();\n\nfunction _generateTables() {\n\n\t// float32 to float16 helpers\n\n\tconst buffer = new ArrayBuffer( 4 );\n\tconst floatView = new Float32Array( buffer );\n\tconst uint32View = new Uint32Array( buffer );\n\n\tconst baseTable = new Uint32Array( 512 );\n\tconst shiftTable = new Uint32Array( 512 );\n\n\tfor ( let i = 0; i < 256; ++ i ) {\n\n\t\tconst e = i - 127;\n\n\t\t// very small number (0, -0)\n\n\t\tif ( e < -27 ) {\n\n\t\t\tbaseTable[ i ] = 0x0000;\n\t\t\tbaseTable[ i | 0x100 ] = 0x8000;\n\t\t\tshiftTable[ i ] = 24;\n\t\t\tshiftTable[ i | 0x100 ] = 24;\n\n\t\t\t// small number (denorm)\n\n\t\t} else if ( e < -14 ) {\n\n\t\t\tbaseTable[ i ] = 0x0400 >> ( - e - 14 );\n\t\t\tbaseTable[ i | 0x100 ] = ( 0x0400 >> ( - e - 14 ) ) | 0x8000;\n\t\t\tshiftTable[ i ] = - e - 1;\n\t\t\tshiftTable[ i | 0x100 ] = - e - 1;\n\n\t\t\t// normal number\n\n\t\t} else if ( e <= 15 ) {\n\n\t\t\tbaseTable[ i ] = ( e + 15 ) << 10;\n\t\t\tbaseTable[ i | 0x100 ] = ( ( e + 15 ) << 10 ) | 0x8000;\n\t\t\tshiftTable[ i ] = 13;\n\t\t\tshiftTable[ i | 0x100 ] = 13;\n\n\t\t\t// large number (Infinity, -Infinity)\n\n\t\t} else if ( e < 128 ) {\n\n\t\t\tbaseTable[ i ] = 0x7c00;\n\t\t\tbaseTable[ i | 0x100 ] = 0xfc00;\n\t\t\tshiftTable[ i ] = 24;\n\t\t\tshiftTable[ i | 0x100 ] = 24;\n\n\t\t\t// stay (NaN, Infinity, -Infinity)\n\n\t\t} else {\n\n\t\t\tbaseTable[ i ] = 0x7c00;\n\t\t\tbaseTable[ i | 0x100 ] = 0xfc00;\n\t\t\tshiftTable[ i ] = 13;\n\t\t\tshiftTable[ i | 0x100 ] = 13;\n\n\t\t}\n\n\t}\n\n\t// float16 to float32 helpers\n\n\tconst mantissaTable = new Uint32Array( 2048 );\n\tconst exponentTable = new Uint32Array( 64 );\n\tconst offsetTable = new Uint32Array( 64 );\n\n\tfor ( let i = 1; i < 1024; ++ i ) {\n\n\t\tlet m = i << 13; // zero pad mantissa bits\n\t\tlet e = 0; // zero exponent\n\n\t\t// normalized\n\t\twhile ( ( m & 0x00800000 ) === 0 ) {\n\n\t\t\tm <<= 1;\n\t\t\te -= 0x00800000; // decrement exponent\n\n\t\t}\n\n\t\tm &= -8388609; // clear leading 1 bit\n\t\te += 0x38800000; // adjust bias\n\n\t\tmantissaTable[ i ] = m | e;\n\n\t}\n\n\tfor ( let i = 1024; i < 2048; ++ i ) {\n\n\t\tmantissaTable[ i ] = 0x38000000 + ( ( i - 1024 ) << 13 );\n\n\t}\n\n\tfor ( let i = 1; i < 31; ++ i ) {\n\n\t\texponentTable[ i ] = i << 23;\n\n\t}\n\n\texponentTable[ 31 ] = 0x47800000;\n\texponentTable[ 32 ] = 0x80000000;\n\n\tfor ( let i = 33; i < 63; ++ i ) {\n\n\t\texponentTable[ i ] = 0x80000000 + ( ( i - 32 ) << 23 );\n\n\t}\n\n\texponentTable[ 63 ] = 0xc7800000;\n\n\tfor ( let i = 1; i < 64; ++ i ) {\n\n\t\tif ( i !== 32 ) {\n\n\t\t\toffsetTable[ i ] = 1024;\n\n\t\t}\n\n\t}\n\n\treturn {\n\t\tfloatView: floatView,\n\t\tuint32View: uint32View,\n\t\tbaseTable: baseTable,\n\t\tshiftTable: shiftTable,\n\t\tmantissaTable: mantissaTable,\n\t\texponentTable: exponentTable,\n\t\toffsetTable: offsetTable\n\t};\n\n}\n\n/**\n * Returns a half precision floating point value (FP16) from the given single\n * precision floating point value (FP32).\n *\n * @param {number} val - A single precision floating point value.\n * @return {number} The FP16 value.\n */\nfunction toHalfFloat( val ) {\n\n\tif ( Math.abs( val ) > 65504 ) console.warn( 'THREE.DataUtils.toHalfFloat(): Value out of range.' );\n\n\tval = clamp( val, -65504, 65504 );\n\n\t_tables.floatView[ 0 ] = val;\n\tconst f = _tables.uint32View[ 0 ];\n\tconst e = ( f >> 23 ) & 0x1ff;\n\treturn _tables.baseTable[ e ] + ( ( f & 0x007fffff ) >> _tables.shiftTable[ e ] );\n\n}\n\n/**\n * Returns a single precision floating point value (FP32) from the given half\n * precision floating point value (FP16).\n *\n * @param {number} val - A half precision floating point value.\n * @return {number} The FP32 value.\n */\nfunction fromHalfFloat( val ) {\n\n\tconst m = val >> 10;\n\t_tables.uint32View[ 0 ] = _tables.mantissaTable[ _tables.offsetTable[ m ] + ( val & 0x3ff ) ] + _tables.exponentTable[ m ];\n\treturn _tables.floatView[ 0 ];\n\n}\n\n/**\n * A class containing utility functions for data.\n *\n * @hideconstructor\n */\nclass DataUtils {\n\n\t/**\n\t * Returns a half precision floating point value (FP16) from the given single\n\t * precision floating point value (FP32).\n\t *\n\t * @param {number} val - A single precision floating point value.\n\t * @return {number} The FP16 value.\n\t */\n\tstatic toHalfFloat( val ) {\n\n\t\treturn toHalfFloat( val );\n\n\t}\n\n\t/**\n\t * Returns a single precision floating point value (FP32) from the given half\n\t * precision floating point value (FP16).\n\t *\n\t * @param {number} val - A half precision floating point value.\n\t * @return {number} The FP32 value.\n\t */\n\tstatic fromHalfFloat( val ) {\n\n\t\treturn fromHalfFloat( val );\n\n\t}\n\n}\n\nconst _vector$9 = /*@__PURE__*/ new Vector3();\nconst _vector2$1 = /*@__PURE__*/ new Vector2();\n\nlet _id$2 = 0;\n\n/**\n * This class stores data for an attribute (such as vertex positions, face\n * indices, normals, colors, UVs, and any custom attributes ) associated with\n * a geometry, which allows for more efficient passing of data to the GPU.\n *\n * When working with vector-like data, the `fromBufferAttribute( attribute, index )`\n * helper methods on vector and color class might be helpful. E.g. {@link Vector3#fromBufferAttribute}.\n */\nclass BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {TypedArray} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized = false ) {\n\n\t\tif ( Array.isArray( array ) ) {\n\n\t\t\tthrow new TypeError( 'THREE.BufferAttribute: array should be a Typed Array.' );\n\n\t\t}\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBufferAttribute = true;\n\n\t\t/**\n\t\t * The ID of the buffer attribute.\n\t\t *\n\t\t * @name BufferAttribute#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _id$2 ++ } );\n\n\t\t/**\n\t\t * The name of the buffer attribute.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The array holding the attribute data. It should have `itemSize * numVertices`\n\t\t * elements, where `numVertices` is the number of vertices in the associated geometry.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.array = array;\n\n\t\t/**\n\t\t * The number of values of the array that should be associated with a particular vertex.\n\t\t * For instance, if this attribute is storing a 3-component vector (such as a position,\n\t\t * normal, or color), then the value should be `3`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.itemSize = itemSize;\n\n\t\t/**\n\t\t * Represents the number of items this buffer attribute stores. It is internally computed\n\t\t * by dividing the `array` length by the `itemSize`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tthis.count = array !== undefined ? array.length / itemSize : 0;\n\n\t\t/**\n\t\t * Applies to integer data only. Indicates how the underlying data in the buffer maps to\n\t\t * the values in the GLSL code. For instance, if `array` is an instance of `UInt16Array`,\n\t\t * and `normalized` is `true`, the values `0 - +65535` in the array data will be mapped to\n\t\t * `0.0f - +1.0f` in the GLSL attribute. If `normalized` is `false`, the values will be converted\n\t\t * to floats unmodified, i.e. `65535` becomes `65535.0f`.\n\t\t *\n\t\t * @type {boolean}\n\t\t */\n\t\tthis.normalized = normalized;\n\n\t\t/**\n\t\t * Defines the intended usage pattern of the data store for optimization purposes.\n\t\t *\n\t\t * Note: After the initial use of a buffer, its usage cannot be changed. Instead,\n\t\t * instantiate a new one and set the desired usage before the next render.\n\t\t *\n\t\t * @type {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)}\n\t\t * @default StaticDrawUsage\n\t\t */\n\t\tthis.usage = StaticDrawUsage;\n\n\t\t/**\n\t\t * This can be used to only update some components of stored vectors (for example, just the\n\t\t * component related to color). Use the `addUpdateRange()` function to add ranges to this array.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.updateRanges = [];\n\n\t\t/**\n\t\t * Configures the bound GPU type for use in shaders.\n\t\t *\n\t\t * Note: this only has an effect for integer arrays and is not configurable for float arrays.\n\t\t * For lower precision float types, use `Float16BufferAttribute`.\n\t\t *\n\t\t * @type {(FloatType|IntType)}\n\t\t * @default FloatType\n\t\t */\n\t\tthis.gpuType = FloatType;\n\n\t\t/**\n\t\t * A version number, incremented every time the `needsUpdate` is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.version = 0;\n\n\t}\n\n\t/**\n\t * A callback function that is executed after the renderer has transferred the attribute\n\t * array data to the GPU.\n\t */\n\tonUploadCallback() {}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Sets the usage of this buffer attribute.\n\t *\n\t * @param {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)} value - The usage to set.\n\t * @return {BufferAttribute} A reference to this buffer attribute.\n\t */\n\tsetUsage( value ) {\n\n\t\tthis.usage = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds a range of data in the data array to be updated on the GPU.\n\t *\n\t * @param {number} start - Position at which to start update.\n\t * @param {number} count - The number of components to update.\n\t */\n\taddUpdateRange( start, count ) {\n\n\t\tthis.updateRanges.push( { start, count } );\n\n\t}\n\n\t/**\n\t * Clears the update ranges.\n\t */\n\tclearUpdateRanges() {\n\n\t\tthis.updateRanges.length = 0;\n\n\t}\n\n\t/**\n\t * Copies the values of the given buffer attribute to this instance.\n\t *\n\t * @param {BufferAttribute} source - The buffer attribute to copy.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\t\tthis.array = new source.array.constructor( source.array );\n\t\tthis.itemSize = source.itemSize;\n\t\tthis.count = source.count;\n\t\tthis.normalized = source.normalized;\n\n\t\tthis.usage = source.usage;\n\t\tthis.gpuType = source.gpuType;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies a vector from the given buffer attribute to this one. The start\n\t * and destination position in the attribute buffers are represented by the\n\t * given indices.\n\t *\n\t * @param {number} index1 - The destination index into this buffer attribute.\n\t * @param {BufferAttribute} attribute - The buffer attribute to copy from.\n\t * @param {number} index2 - The source index into the given buffer attribute.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tcopyAt( index1, attribute, index2 ) {\n\n\t\tindex1 *= this.itemSize;\n\t\tindex2 *= attribute.itemSize;\n\n\t\tfor ( let i = 0, l = this.itemSize; i < l; i ++ ) {\n\n\t\t\tthis.array[ index1 + i ] = attribute.array[ index2 + i ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the given array data into this buffer attribute.\n\t *\n\t * @param {(TypedArray|Array)} array - The array to copy.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tcopyArray( array ) {\n\n\t\tthis.array.set( array );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 3x3 matrix to the given attribute. Works with\n\t * item size `2` and `3`.\n\t *\n\t * @param {Matrix3} m - The matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tif ( this.itemSize === 2 ) {\n\n\t\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t\t_vector2$1.fromBufferAttribute( this, i );\n\t\t\t\t_vector2$1.applyMatrix3( m );\n\n\t\t\t\tthis.setXY( i, _vector2$1.x, _vector2$1.y );\n\n\t\t\t}\n\n\t\t} else if ( this.itemSize === 3 ) {\n\n\t\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t\t_vector$9.fromBufferAttribute( this, i );\n\t\t\t\t_vector$9.applyMatrix3( m );\n\n\t\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$9.fromBufferAttribute( this, i );\n\n\t\t\t_vector$9.applyMatrix4( m );\n\n\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 3x3 normal matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix3} m - The normal matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tapplyNormalMatrix( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$9.fromBufferAttribute( this, i );\n\n\t\t\t_vector$9.applyNormalMatrix( m );\n\n\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3` and with direction vectors.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\ttransformDirection( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$9.fromBufferAttribute( this, i );\n\n\t\t\t_vector$9.transformDirection( m );\n\n\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given array data in the buffer attribute.\n\t *\n\t * @param {(TypedArray|Array)} value - The array data to set.\n\t * @param {number} [offset=0] - The offset in this buffer attribute's array.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tset( value, offset = 0 ) {\n\n\t\t// Matching BufferAttribute constructor, do not normalize the array.\n\t\tthis.array.set( value, offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @return {number} The returned value.\n\t */\n\tgetComponent( index, component ) {\n\n\t\tlet value = this.array[ index * this.itemSize + component ];\n\n\t\tif ( this.normalized ) value = denormalize( value, this.array );\n\n\t\treturn value;\n\n\t}\n\n\t/**\n\t * Sets the given value to the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @param {number} value - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetComponent( index, component, value ) {\n\n\t\tif ( this.normalized ) value = normalize( value, this.array );\n\n\t\tthis.array[ index * this.itemSize + component ] = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The x component.\n\t */\n\tgetX( index ) {\n\n\t\tlet x = this.array[ index * this.itemSize ];\n\n\t\tif ( this.normalized ) x = denormalize( x, this.array );\n\n\t\treturn x;\n\n\t}\n\n\t/**\n\t * Sets the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetX( index, x ) {\n\n\t\tif ( this.normalized ) x = normalize( x, this.array );\n\n\t\tthis.array[ index * this.itemSize ] = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The y component.\n\t */\n\tgetY( index ) {\n\n\t\tlet y = this.array[ index * this.itemSize + 1 ];\n\n\t\tif ( this.normalized ) y = denormalize( y, this.array );\n\n\t\treturn y;\n\n\t}\n\n\t/**\n\t * Sets the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} y - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetY( index, y ) {\n\n\t\tif ( this.normalized ) y = normalize( y, this.array );\n\n\t\tthis.array[ index * this.itemSize + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The z component.\n\t */\n\tgetZ( index ) {\n\n\t\tlet z = this.array[ index * this.itemSize + 2 ];\n\n\t\tif ( this.normalized ) z = denormalize( z, this.array );\n\n\t\treturn z;\n\n\t}\n\n\t/**\n\t * Sets the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} z - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetZ( index, z ) {\n\n\t\tif ( this.normalized ) z = normalize( z, this.array );\n\n\t\tthis.array[ index * this.itemSize + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The w component.\n\t */\n\tgetW( index ) {\n\n\t\tlet w = this.array[ index * this.itemSize + 3 ];\n\n\t\tif ( this.normalized ) w = denormalize( w, this.array );\n\n\t\treturn w;\n\n\t}\n\n\t/**\n\t * Sets the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} w - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetW( index, w ) {\n\n\t\tif ( this.normalized ) w = normalize( w, this.array );\n\n\t\tthis.array[ index * this.itemSize + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x and y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetXY( index, x, y ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = x;\n\t\tthis.array[ index + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y and z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetXYZ( index, x, y, z ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = x;\n\t\tthis.array[ index + 1 ] = y;\n\t\tthis.array[ index + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y, z and w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @param {number} w - The value for the w component to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetXYZW( index, x, y, z, w ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\t\t\tw = normalize( w, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = x;\n\t\tthis.array[ index + 1 ] = y;\n\t\tthis.array[ index + 2 ] = z;\n\t\tthis.array[ index + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given callback function that is executed after the Renderer has transferred\n\t * the attribute array data to the GPU. Can be used to perform clean-up operations after\n\t * the upload when attribute data are not needed anymore on the CPU side.\n\t *\n\t * @param {Function} callback - The `onUpload()` callback.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tonUpload( callback ) {\n\n\t\tthis.onUploadCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new buffer attribute with copied values from this instance.\n\t *\n\t * @return {BufferAttribute} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.array, this.itemSize ).copy( this );\n\n\t}\n\n\t/**\n\t * Serializes the buffer attribute into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized buffer attribute.\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\titemSize: this.itemSize,\n\t\t\ttype: this.array.constructor.name,\n\t\t\tarray: Array.from( this.array ),\n\t\t\tnormalized: this.normalized\n\t\t};\n\n\t\tif ( this.name !== '' ) data.name = this.name;\n\t\tif ( this.usage !== StaticDrawUsage ) data.usage = this.usage;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Int8` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Int8BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Int8Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Int8Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt8` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint8BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint8Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint8Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt8Clamped` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint8ClampedBufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint8ClampedArray)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint8ClampedArray( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Int16` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Int16BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Int16Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Int16Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt16` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint16BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint16Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint16Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Int32` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Int32BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Int32Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Int32Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt32` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint32BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint32Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint32Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Float16` buffer attribute with\n * a plain `Array` instance.\n *\n * This class automatically converts to and from FP16 via `Uint16Array` since `Float16Array`\n * browser support is still problematic.\n *\n * @augments BufferAttribute\n */\nclass Float16BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint16Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint16Array( array ), itemSize, normalized );\n\n\t\tthis.isFloat16BufferAttribute = true;\n\n\t}\n\n\tgetX( index ) {\n\n\t\tlet x = fromHalfFloat( this.array[ index * this.itemSize ] );\n\n\t\tif ( this.normalized ) x = denormalize( x, this.array );\n\n\t\treturn x;\n\n\t}\n\n\tsetX( index, x ) {\n\n\t\tif ( this.normalized ) x = normalize( x, this.array );\n\n\t\tthis.array[ index * this.itemSize ] = toHalfFloat( x );\n\n\t\treturn this;\n\n\t}\n\n\tgetY( index ) {\n\n\t\tlet y = fromHalfFloat( this.array[ index * this.itemSize + 1 ] );\n\n\t\tif ( this.normalized ) y = denormalize( y, this.array );\n\n\t\treturn y;\n\n\t}\n\n\tsetY( index, y ) {\n\n\t\tif ( this.normalized ) y = normalize( y, this.array );\n\n\t\tthis.array[ index * this.itemSize + 1 ] = toHalfFloat( y );\n\n\t\treturn this;\n\n\t}\n\n\tgetZ( index ) {\n\n\t\tlet z = fromHalfFloat( this.array[ index * this.itemSize + 2 ] );\n\n\t\tif ( this.normalized ) z = denormalize( z, this.array );\n\n\t\treturn z;\n\n\t}\n\n\tsetZ( index, z ) {\n\n\t\tif ( this.normalized ) z = normalize( z, this.array );\n\n\t\tthis.array[ index * this.itemSize + 2 ] = toHalfFloat( z );\n\n\t\treturn this;\n\n\t}\n\n\tgetW( index ) {\n\n\t\tlet w = fromHalfFloat( this.array[ index * this.itemSize + 3 ] );\n\n\t\tif ( this.normalized ) w = denormalize( w, this.array );\n\n\t\treturn w;\n\n\t}\n\n\tsetW( index, w ) {\n\n\t\tif ( this.normalized ) w = normalize( w, this.array );\n\n\t\tthis.array[ index * this.itemSize + 3 ] = toHalfFloat( w );\n\n\t\treturn this;\n\n\t}\n\n\tsetXY( index, x, y ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = toHalfFloat( x );\n\t\tthis.array[ index + 1 ] = toHalfFloat( y );\n\n\t\treturn this;\n\n\t}\n\n\tsetXYZ( index, x, y, z ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = toHalfFloat( x );\n\t\tthis.array[ index + 1 ] = toHalfFloat( y );\n\t\tthis.array[ index + 2 ] = toHalfFloat( z );\n\n\t\treturn this;\n\n\t}\n\n\tsetXYZW( index, x, y, z, w ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\t\t\tw = normalize( w, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = toHalfFloat( x );\n\t\tthis.array[ index + 1 ] = toHalfFloat( y );\n\t\tthis.array[ index + 2 ] = toHalfFloat( z );\n\t\tthis.array[ index + 3 ] = toHalfFloat( w );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Float32` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Float32BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Float32Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Float32Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\nlet _id$1 = 0;\n\nconst _m1 = /*@__PURE__*/ new Matrix4();\nconst _obj = /*@__PURE__*/ new Object3D();\nconst _offset = /*@__PURE__*/ new Vector3();\nconst _box$2 = /*@__PURE__*/ new Box3();\nconst _boxMorphTargets = /*@__PURE__*/ new Box3();\nconst _vector$8 = /*@__PURE__*/ new Vector3();\n\n/**\n * A representation of mesh, line, or point geometry. Includes vertex\n * positions, face indices, normals, colors, UVs, and custom attributes\n * within buffers, reducing the cost of passing all this data to the GPU.\n *\n * ```js\n * const geometry = new THREE.BufferGeometry();\n * // create a simple square shape. We duplicate the top left and bottom right\n * // vertices because each vertex needs to appear once per triangle.\n * const vertices = new Float32Array( [\n * \t-1.0, -1.0, 1.0, // v0\n * \t 1.0, -1.0, 1.0, // v1\n * \t 1.0, 1.0, 1.0, // v2\n *\n * \t 1.0, 1.0, 1.0, // v3\n * \t-1.0, 1.0, 1.0, // v4\n * \t-1.0, -1.0, 1.0 // v5\n * ] );\n * // itemSize = 3 because there are 3 values (components) per vertex\n * geometry.setAttribute( 'position', new THREE.BufferAttribute( vertices, 3 ) );\n * const material = new THREE.MeshBasicMaterial( { color: 0xff0000 } );\n * const mesh = new THREE.Mesh( geometry, material );\n * ```\n *\n * @augments EventDispatcher\n */\nclass BufferGeometry extends EventDispatcher {\n\n\t/**\n\t * Constructs a new geometry.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBufferGeometry = true;\n\n\t\t/**\n\t\t * The ID of the geometry.\n\t\t *\n\t\t * @name BufferGeometry#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _id$1 ++ } );\n\n\t\t/**\n\t\t * The UUID of the geometry.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the geometry.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\t\tthis.type = 'BufferGeometry';\n\n\t\t/**\n\t\t * Allows for vertices to be re-used across multiple triangles; this is\n\t\t * called using \"indexed triangles\". Each triangle is associated with the\n\t\t * indices of three vertices. This attribute therefore stores the index of\n\t\t * each vertex for each triangular face. If this attribute is not set, the\n\t\t * renderer assumes that each three contiguous positions represent a single triangle.\n\t\t *\n\t\t * @type {?BufferAttribute}\n\t\t * @default null\n\t\t */\n\t\tthis.index = null;\n\n\t\t/**\n\t\t * A (storage) buffer attribute which was generated with a compute shader and\n\t\t * now defines indirect draw calls.\n\t\t *\n\t\t * Can only be used with {@link WebGPURenderer} and a WebGPU backend.\n\t\t *\n\t\t * @type {?BufferAttribute}\n\t\t * @default null\n\t\t */\n\t\tthis.indirect = null;\n\n\t\t/**\n\t\t * This dictionary has as id the name of the attribute to be set and as value\n\t\t * the buffer attribute to set it to. Rather than accessing this property directly,\n\t\t * use `setAttribute()` and `getAttribute()` to access attributes of this geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.attributes = {};\n\n\t\t/**\n\t\t * This dictionary holds the morph targets of the geometry.\n\t\t *\n\t\t * Note: Once the geometry has been rendered, the morph attribute data cannot\n\t\t * be changed. You will have to call `dispose()?, and create a new geometry instance.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.morphAttributes = {};\n\n\t\t/**\n\t\t * Used to control the morph target behavior; when set to `true`, the morph\n\t\t * target data is treated as relative offsets, rather than as absolute\n\t\t * positions/normals.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.morphTargetsRelative = false;\n\n\t\t/**\n\t\t * Split the geometry into groups, each of which will be rendered in a\n\t\t * separate draw call. This allows an array of materials to be used with the geometry.\n\t\t *\n\t\t * Use `addGroup()` and `clearGroups()` to edit groups, rather than modifying this array directly.\n\t\t *\n\t\t * Every vertex and index must belong to exactly one group — groups must not share vertices or\n\t\t * indices, and must not leave vertices or indices unused.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.groups = [];\n\n\t\t/**\n\t\t * Bounding box for the geometry which can be calculated with `computeBoundingBox()`.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * Bounding sphere for the geometry which can be calculated with `computeBoundingSphere()`.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t\t/**\n\t\t * Determines the part of the geometry to render. This should not be set directly,\n\t\t * instead use `setDrawRange()`.\n\t\t *\n\t\t * @type {{start:number,count:number}}\n\t\t */\n\t\tthis.drawRange = { start: 0, count: Infinity };\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the geometry.\n\t\t * It should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t}\n\n\t/**\n\t * Returns the index of this geometry.\n\t *\n\t * @return {?BufferAttribute} The index. Returns `null` if no index is defined.\n\t */\n\tgetIndex() {\n\n\t\treturn this.index;\n\n\t}\n\n\t/**\n\t * Sets the given index to this geometry.\n\t *\n\t * @param {Array|BufferAttribute} index - The index to set.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetIndex( index ) {\n\n\t\tif ( Array.isArray( index ) ) {\n\n\t\t\tthis.index = new ( arrayNeedsUint32( index ) ? Uint32BufferAttribute : Uint16BufferAttribute )( index, 1 );\n\n\t\t} else {\n\n\t\t\tthis.index = index;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given indirect attribute to this geometry.\n\t *\n\t * @param {BufferAttribute} indirect - The attribute holding indirect draw calls.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetIndirect( indirect ) {\n\n\t\tthis.indirect = indirect;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the indirect attribute of this geometry.\n\t *\n\t * @return {?BufferAttribute} The indirect attribute. Returns `null` if no indirect attribute is defined.\n\t */\n\tgetIndirect() {\n\n\t\treturn this.indirect;\n\n\t}\n\n\t/**\n\t * Returns the buffer attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name.\n\t * @return {BufferAttribute|InterleavedBufferAttribute|undefined} The buffer attribute.\n\t * Returns `undefined` if not attribute has been found.\n\t */\n\tgetAttribute( name ) {\n\n\t\treturn this.attributes[ name ];\n\n\t}\n\n\t/**\n\t * Sets the given attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name.\n\t * @param {BufferAttribute|InterleavedBufferAttribute} attribute - The attribute to set.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetAttribute( name, attribute ) {\n\n\t\tthis.attributes[ name ] = attribute;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Deletes the attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name to delete.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tdeleteAttribute( name ) {\n\n\t\tdelete this.attributes[ name ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this geometry has an attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name.\n\t * @return {boolean} Whether this geometry has an attribute for the given name or not.\n\t */\n\thasAttribute( name ) {\n\n\t\treturn this.attributes[ name ] !== undefined;\n\n\t}\n\n\t/**\n\t * Adds a group to this geometry.\n\t *\n\t * @param {number} start - The first element in this draw call. That is the first\n\t * vertex for non-indexed geometry, otherwise the first triangle index.\n\t * @param {number} count - Specifies how many vertices (or indices) are part of this group.\n\t * @param {number} [materialIndex=0] - The material array index to use.\n\t */\n\taddGroup( start, count, materialIndex = 0 ) {\n\n\t\tthis.groups.push( {\n\n\t\t\tstart: start,\n\t\t\tcount: count,\n\t\t\tmaterialIndex: materialIndex\n\n\t\t} );\n\n\t}\n\n\t/**\n\t * Clears all groups.\n\t */\n\tclearGroups() {\n\n\t\tthis.groups = [];\n\n\t}\n\n\t/**\n\t * Sets the draw range for this geometry.\n\t *\n\t * @param {number} start - The first vertex for non-indexed geometry, otherwise the first triangle index.\n\t * @param {number} count - For non-indexed BufferGeometry, `count` is the number of vertices to render.\n\t * For indexed BufferGeometry, `count` is the number of indices to render.\n\t */\n\tsetDrawRange( start, count ) {\n\n\t\tthis.drawRange.start = start;\n\t\tthis.drawRange.count = count;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 transformation matrix to the geometry.\n\t *\n\t * @param {Matrix4} matrix - The matrix to apply.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tconst position = this.attributes.position;\n\n\t\tif ( position !== undefined ) {\n\n\t\t\tposition.applyMatrix4( matrix );\n\n\t\t\tposition.needsUpdate = true;\n\n\t\t}\n\n\t\tconst normal = this.attributes.normal;\n\n\t\tif ( normal !== undefined ) {\n\n\t\t\tconst normalMatrix = new Matrix3().getNormalMatrix( matrix );\n\n\t\t\tnormal.applyNormalMatrix( normalMatrix );\n\n\t\t\tnormal.needsUpdate = true;\n\n\t\t}\n\n\t\tconst tangent = this.attributes.tangent;\n\n\t\tif ( tangent !== undefined ) {\n\n\t\t\ttangent.transformDirection( matrix );\n\n\t\t\ttangent.needsUpdate = true;\n\n\t\t}\n\n\t\tif ( this.boundingBox !== null ) {\n\n\t\t\tthis.computeBoundingBox();\n\n\t\t}\n\n\t\tif ( this.boundingSphere !== null ) {\n\n\t\t\tthis.computeBoundingSphere();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the rotation represented by the Quaternion to the geometry.\n\t *\n\t * @param {Quaternion} q - The Quaternion to apply.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tapplyQuaternion( q ) {\n\n\t\t_m1.makeRotationFromQuaternion( q );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry about the X axis. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#rotation} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\trotateX( angle ) {\n\n\t\t// rotate geometry around world x-axis\n\n\t\t_m1.makeRotationX( angle );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry about the Y axis. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#rotation} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\trotateY( angle ) {\n\n\t\t// rotate geometry around world y-axis\n\n\t\t_m1.makeRotationY( angle );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry about the Z axis. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#rotation} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\trotateZ( angle ) {\n\n\t\t// rotate geometry around world z-axis\n\n\t\t_m1.makeRotationZ( angle );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates the geometry. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#position} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} x - The x offset.\n\t * @param {number} y - The y offset.\n\t * @param {number} z - The z offset.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\ttranslate( x, y, z ) {\n\n\t\t// translate geometry\n\n\t\t_m1.makeTranslation( x, y, z );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scales the geometry. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#scale} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} x - The x scale.\n\t * @param {number} y - The y scale.\n\t * @param {number} z - The z scale.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tscale( x, y, z ) {\n\n\t\t// scale geometry\n\n\t\t_m1.makeScale( x, y, z );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry to face a point in 3D space. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#lookAt} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {Vector3} vector - The target point.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tlookAt( vector ) {\n\n\t\t_obj.lookAt( vector );\n\n\t\t_obj.updateMatrix();\n\n\t\tthis.applyMatrix4( _obj.matrix );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Center the geometry based on its bounding box.\n\t *\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tcenter() {\n\n\t\tthis.computeBoundingBox();\n\n\t\tthis.boundingBox.getCenter( _offset ).negate();\n\n\t\tthis.translate( _offset.x, _offset.y, _offset.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Defines a geometry by creating a `position` attribute based on the given array of points. The array\n\t * can hold 2D or 3D vectors. When using two-dimensional data, the `z` coordinate for all vertices is\n\t * set to `0`.\n\t *\n\t * If the method is used with an existing `position` attribute, the vertex data are overwritten with the\n\t * data from the array. The length of the array must match the vertex count.\n\t *\n\t * @param {Array|Array} points - The points.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tconst positionAttribute = this.getAttribute( 'position' );\n\n\t\tif ( positionAttribute === undefined ) {\n\n\t\t\tconst position = [];\n\n\t\t\tfor ( let i = 0, l = points.length; i < l; i ++ ) {\n\n\t\t\t\tconst point = points[ i ];\n\t\t\t\tposition.push( point.x, point.y, point.z || 0 );\n\n\t\t\t}\n\n\t\t\tthis.setAttribute( 'position', new Float32BufferAttribute( position, 3 ) );\n\n\t\t} else {\n\n\t\t\tconst l = Math.min( points.length, positionAttribute.count ); // make sure data do not exceed buffer size\n\n\t\t\tfor ( let i = 0; i < l; i ++ ) {\n\n\t\t\t\tconst point = points[ i ];\n\t\t\t\tpositionAttribute.setXYZ( i, point.x, point.y, point.z || 0 );\n\n\t\t\t}\n\n\t\t\tif ( points.length > positionAttribute.count ) {\n\n\t\t\t\tconsole.warn( 'THREE.BufferGeometry: Buffer size too small for points data. Use .dispose() and create a new geometry.' );\n\n\t\t\t}\n\n\t\t\tpositionAttribute.needsUpdate = true;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the bounding box of the geometry, and updates the `boundingBox` member.\n\t * The bounding box is not computed by the engine; it must be computed by your app.\n\t * You may need to recompute the bounding box if the geometry vertices are modified.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tconst position = this.attributes.position;\n\t\tconst morphAttributesPosition = this.morphAttributes.position;\n\n\t\tif ( position && position.isGLBufferAttribute ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingBox(): GLBufferAttribute requires a manual bounding box.', this );\n\n\t\t\tthis.boundingBox.set(\n\t\t\t\tnew Vector3( - Infinity, - Infinity, - Infinity ),\n\t\t\t\tnew Vector3( + Infinity, + Infinity, + Infinity )\n\t\t\t);\n\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( position !== undefined ) {\n\n\t\t\tthis.boundingBox.setFromBufferAttribute( position );\n\n\t\t\t// process morph attributes if present\n\n\t\t\tif ( morphAttributesPosition ) {\n\n\t\t\t\tfor ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst morphAttribute = morphAttributesPosition[ i ];\n\t\t\t\t\t_box$2.setFromBufferAttribute( morphAttribute );\n\n\t\t\t\t\tif ( this.morphTargetsRelative ) {\n\n\t\t\t\t\t\t_vector$8.addVectors( this.boundingBox.min, _box$2.min );\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _vector$8 );\n\n\t\t\t\t\t\t_vector$8.addVectors( this.boundingBox.max, _box$2.max );\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _vector$8 );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _box$2.min );\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _box$2.max );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tthis.boundingBox.makeEmpty();\n\n\t\t}\n\n\t\tif ( isNaN( this.boundingBox.min.x ) || isNaN( this.boundingBox.min.y ) || isNaN( this.boundingBox.min.z ) ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingBox(): Computed min/max have NaN values. The \"position\" attribute is likely to have NaN values.', this );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere of the geometry, and updates the `boundingSphere` member.\n\t * The engine automatically computes the bounding sphere when it is needed, e.g., for ray casting or view frustum culling.\n\t * You may need to recompute the bounding sphere if the geometry vertices are modified.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tconst position = this.attributes.position;\n\t\tconst morphAttributesPosition = this.morphAttributes.position;\n\n\t\tif ( position && position.isGLBufferAttribute ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingSphere(): GLBufferAttribute requires a manual bounding sphere.', this );\n\n\t\t\tthis.boundingSphere.set( new Vector3(), Infinity );\n\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( position ) {\n\n\t\t\t// first, find the center of the bounding sphere\n\n\t\t\tconst center = this.boundingSphere.center;\n\n\t\t\t_box$2.setFromBufferAttribute( position );\n\n\t\t\t// process morph attributes if present\n\n\t\t\tif ( morphAttributesPosition ) {\n\n\t\t\t\tfor ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst morphAttribute = morphAttributesPosition[ i ];\n\t\t\t\t\t_boxMorphTargets.setFromBufferAttribute( morphAttribute );\n\n\t\t\t\t\tif ( this.morphTargetsRelative ) {\n\n\t\t\t\t\t\t_vector$8.addVectors( _box$2.min, _boxMorphTargets.min );\n\t\t\t\t\t\t_box$2.expandByPoint( _vector$8 );\n\n\t\t\t\t\t\t_vector$8.addVectors( _box$2.max, _boxMorphTargets.max );\n\t\t\t\t\t\t_box$2.expandByPoint( _vector$8 );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t_box$2.expandByPoint( _boxMorphTargets.min );\n\t\t\t\t\t\t_box$2.expandByPoint( _boxMorphTargets.max );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t_box$2.getCenter( center );\n\n\t\t\t// second, try to find a boundingSphere with a radius smaller than the\n\t\t\t// boundingSphere of the boundingBox: sqrt(3) smaller in the best case\n\n\t\t\tlet maxRadiusSq = 0;\n\n\t\t\tfor ( let i = 0, il = position.count; i < il; i ++ ) {\n\n\t\t\t\t_vector$8.fromBufferAttribute( position, i );\n\n\t\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( _vector$8 ) );\n\n\t\t\t}\n\n\t\t\t// process morph attributes if present\n\n\t\t\tif ( morphAttributesPosition ) {\n\n\t\t\t\tfor ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst morphAttribute = morphAttributesPosition[ i ];\n\t\t\t\t\tconst morphTargetsRelative = this.morphTargetsRelative;\n\n\t\t\t\t\tfor ( let j = 0, jl = morphAttribute.count; j < jl; j ++ ) {\n\n\t\t\t\t\t\t_vector$8.fromBufferAttribute( morphAttribute, j );\n\n\t\t\t\t\t\tif ( morphTargetsRelative ) {\n\n\t\t\t\t\t\t\t_offset.fromBufferAttribute( position, j );\n\t\t\t\t\t\t\t_vector$8.add( _offset );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( _vector$8 ) );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.boundingSphere.radius = Math.sqrt( maxRadiusSq );\n\n\t\t\tif ( isNaN( this.boundingSphere.radius ) ) {\n\n\t\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingSphere(): Computed radius is NaN. The \"position\" attribute is likely to have NaN values.', this );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Calculates and adds a tangent attribute to this geometry.\n\t *\n\t * The computation is only supported for indexed geometries and if position, normal, and uv attributes\n\t * are defined. When using a tangent space normal map, prefer the MikkTSpace algorithm provided by\n\t * {@link BufferGeometryUtils#computeMikkTSpaceTangents} instead.\n\t */\n\tcomputeTangents() {\n\n\t\tconst index = this.index;\n\t\tconst attributes = this.attributes;\n\n\t\t// based on http://www.terathon.com/code/tangent.html\n\t\t// (per vertex tangents)\n\n\t\tif ( index === null ||\n\t\t\t attributes.position === undefined ||\n\t\t\t attributes.normal === undefined ||\n\t\t\t attributes.uv === undefined ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry: .computeTangents() failed. Missing required attributes (index, position, normal or uv)' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tconst positionAttribute = attributes.position;\n\t\tconst normalAttribute = attributes.normal;\n\t\tconst uvAttribute = attributes.uv;\n\n\t\tif ( this.hasAttribute( 'tangent' ) === false ) {\n\n\t\t\tthis.setAttribute( 'tangent', new BufferAttribute( new Float32Array( 4 * positionAttribute.count ), 4 ) );\n\n\t\t}\n\n\t\tconst tangentAttribute = this.getAttribute( 'tangent' );\n\n\t\tconst tan1 = [], tan2 = [];\n\n\t\tfor ( let i = 0; i < positionAttribute.count; i ++ ) {\n\n\t\t\ttan1[ i ] = new Vector3();\n\t\t\ttan2[ i ] = new Vector3();\n\n\t\t}\n\n\t\tconst vA = new Vector3(),\n\t\t\tvB = new Vector3(),\n\t\t\tvC = new Vector3(),\n\n\t\t\tuvA = new Vector2(),\n\t\t\tuvB = new Vector2(),\n\t\t\tuvC = new Vector2(),\n\n\t\t\tsdir = new Vector3(),\n\t\t\ttdir = new Vector3();\n\n\t\tfunction handleTriangle( a, b, c ) {\n\n\t\t\tvA.fromBufferAttribute( positionAttribute, a );\n\t\t\tvB.fromBufferAttribute( positionAttribute, b );\n\t\t\tvC.fromBufferAttribute( positionAttribute, c );\n\n\t\t\tuvA.fromBufferAttribute( uvAttribute, a );\n\t\t\tuvB.fromBufferAttribute( uvAttribute, b );\n\t\t\tuvC.fromBufferAttribute( uvAttribute, c );\n\n\t\t\tvB.sub( vA );\n\t\t\tvC.sub( vA );\n\n\t\t\tuvB.sub( uvA );\n\t\t\tuvC.sub( uvA );\n\n\t\t\tconst r = 1.0 / ( uvB.x * uvC.y - uvC.x * uvB.y );\n\n\t\t\t// silently ignore degenerate uv triangles having coincident or colinear vertices\n\n\t\t\tif ( ! isFinite( r ) ) return;\n\n\t\t\tsdir.copy( vB ).multiplyScalar( uvC.y ).addScaledVector( vC, - uvB.y ).multiplyScalar( r );\n\t\t\ttdir.copy( vC ).multiplyScalar( uvB.x ).addScaledVector( vB, - uvC.x ).multiplyScalar( r );\n\n\t\t\ttan1[ a ].add( sdir );\n\t\t\ttan1[ b ].add( sdir );\n\t\t\ttan1[ c ].add( sdir );\n\n\t\t\ttan2[ a ].add( tdir );\n\t\t\ttan2[ b ].add( tdir );\n\t\t\ttan2[ c ].add( tdir );\n\n\t\t}\n\n\t\tlet groups = this.groups;\n\n\t\tif ( groups.length === 0 ) {\n\n\t\t\tgroups = [ {\n\t\t\t\tstart: 0,\n\t\t\t\tcount: index.count\n\t\t\t} ];\n\n\t\t}\n\n\t\tfor ( let i = 0, il = groups.length; i < il; ++ i ) {\n\n\t\t\tconst group = groups[ i ];\n\n\t\t\tconst start = group.start;\n\t\t\tconst count = group.count;\n\n\t\t\tfor ( let j = start, jl = start + count; j < jl; j += 3 ) {\n\n\t\t\t\thandleTriangle(\n\t\t\t\t\tindex.getX( j + 0 ),\n\t\t\t\t\tindex.getX( j + 1 ),\n\t\t\t\t\tindex.getX( j + 2 )\n\t\t\t\t);\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst tmp = new Vector3(), tmp2 = new Vector3();\n\t\tconst n = new Vector3(), n2 = new Vector3();\n\n\t\tfunction handleVertex( v ) {\n\n\t\t\tn.fromBufferAttribute( normalAttribute, v );\n\t\t\tn2.copy( n );\n\n\t\t\tconst t = tan1[ v ];\n\n\t\t\t// Gram-Schmidt orthogonalize\n\n\t\t\ttmp.copy( t );\n\t\t\ttmp.sub( n.multiplyScalar( n.dot( t ) ) ).normalize();\n\n\t\t\t// Calculate handedness\n\n\t\t\ttmp2.crossVectors( n2, t );\n\t\t\tconst test = tmp2.dot( tan2[ v ] );\n\t\t\tconst w = ( test < 0.0 ) ? -1 : 1.0;\n\n\t\t\ttangentAttribute.setXYZW( v, tmp.x, tmp.y, tmp.z, w );\n\n\t\t}\n\n\t\tfor ( let i = 0, il = groups.length; i < il; ++ i ) {\n\n\t\t\tconst group = groups[ i ];\n\n\t\t\tconst start = group.start;\n\t\t\tconst count = group.count;\n\n\t\t\tfor ( let j = start, jl = start + count; j < jl; j += 3 ) {\n\n\t\t\t\thandleVertex( index.getX( j + 0 ) );\n\t\t\t\thandleVertex( index.getX( j + 1 ) );\n\t\t\t\thandleVertex( index.getX( j + 2 ) );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes vertex normals for the given vertex data. For indexed geometries, the method sets\n\t * each vertex normal to be the average of the face normals of the faces that share that vertex.\n\t * For non-indexed geometries, vertices are not shared, and the method sets each vertex normal\n\t * to be the same as the face normal.\n\t */\n\tcomputeVertexNormals() {\n\n\t\tconst index = this.index;\n\t\tconst positionAttribute = this.getAttribute( 'position' );\n\n\t\tif ( positionAttribute !== undefined ) {\n\n\t\t\tlet normalAttribute = this.getAttribute( 'normal' );\n\n\t\t\tif ( normalAttribute === undefined ) {\n\n\t\t\t\tnormalAttribute = new BufferAttribute( new Float32Array( positionAttribute.count * 3 ), 3 );\n\t\t\t\tthis.setAttribute( 'normal', normalAttribute );\n\n\t\t\t} else {\n\n\t\t\t\t// reset existing normals to zero\n\n\t\t\t\tfor ( let i = 0, il = normalAttribute.count; i < il; i ++ ) {\n\n\t\t\t\t\tnormalAttribute.setXYZ( i, 0, 0, 0 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tconst pA = new Vector3(), pB = new Vector3(), pC = new Vector3();\n\t\t\tconst nA = new Vector3(), nB = new Vector3(), nC = new Vector3();\n\t\t\tconst cb = new Vector3(), ab = new Vector3();\n\n\t\t\t// indexed elements\n\n\t\t\tif ( index ) {\n\n\t\t\t\tfor ( let i = 0, il = index.count; i < il; i += 3 ) {\n\n\t\t\t\t\tconst vA = index.getX( i + 0 );\n\t\t\t\t\tconst vB = index.getX( i + 1 );\n\t\t\t\t\tconst vC = index.getX( i + 2 );\n\n\t\t\t\t\tpA.fromBufferAttribute( positionAttribute, vA );\n\t\t\t\t\tpB.fromBufferAttribute( positionAttribute, vB );\n\t\t\t\t\tpC.fromBufferAttribute( positionAttribute, vC );\n\n\t\t\t\t\tcb.subVectors( pC, pB );\n\t\t\t\t\tab.subVectors( pA, pB );\n\t\t\t\t\tcb.cross( ab );\n\n\t\t\t\t\tnA.fromBufferAttribute( normalAttribute, vA );\n\t\t\t\t\tnB.fromBufferAttribute( normalAttribute, vB );\n\t\t\t\t\tnC.fromBufferAttribute( normalAttribute, vC );\n\n\t\t\t\t\tnA.add( cb );\n\t\t\t\t\tnB.add( cb );\n\t\t\t\t\tnC.add( cb );\n\n\t\t\t\t\tnormalAttribute.setXYZ( vA, nA.x, nA.y, nA.z );\n\t\t\t\t\tnormalAttribute.setXYZ( vB, nB.x, nB.y, nB.z );\n\t\t\t\t\tnormalAttribute.setXYZ( vC, nC.x, nC.y, nC.z );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// non-indexed elements (unconnected triangle soup)\n\n\t\t\t\tfor ( let i = 0, il = positionAttribute.count; i < il; i += 3 ) {\n\n\t\t\t\t\tpA.fromBufferAttribute( positionAttribute, i + 0 );\n\t\t\t\t\tpB.fromBufferAttribute( positionAttribute, i + 1 );\n\t\t\t\t\tpC.fromBufferAttribute( positionAttribute, i + 2 );\n\n\t\t\t\t\tcb.subVectors( pC, pB );\n\t\t\t\t\tab.subVectors( pA, pB );\n\t\t\t\t\tcb.cross( ab );\n\n\t\t\t\t\tnormalAttribute.setXYZ( i + 0, cb.x, cb.y, cb.z );\n\t\t\t\t\tnormalAttribute.setXYZ( i + 1, cb.x, cb.y, cb.z );\n\t\t\t\t\tnormalAttribute.setXYZ( i + 2, cb.x, cb.y, cb.z );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.normalizeNormals();\n\n\t\t\tnormalAttribute.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Ensures every normal vector in a geometry will have a magnitude of `1`. This will\n\t * correct lighting on the geometry surfaces.\n\t */\n\tnormalizeNormals() {\n\n\t\tconst normals = this.attributes.normal;\n\n\t\tfor ( let i = 0, il = normals.count; i < il; i ++ ) {\n\n\t\t\t_vector$8.fromBufferAttribute( normals, i );\n\n\t\t\t_vector$8.normalize();\n\n\t\t\tnormals.setXYZ( i, _vector$8.x, _vector$8.y, _vector$8.z );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Return a new non-index version of this indexed geometry. If the geometry\n\t * is already non-indexed, the method is a NOOP.\n\t *\n\t * @return {BufferGeometry} The non-indexed version of this indexed geometry.\n\t */\n\ttoNonIndexed() {\n\n\t\tfunction convertBufferAttribute( attribute, indices ) {\n\n\t\t\tconst array = attribute.array;\n\t\t\tconst itemSize = attribute.itemSize;\n\t\t\tconst normalized = attribute.normalized;\n\n\t\t\tconst array2 = new array.constructor( indices.length * itemSize );\n\n\t\t\tlet index = 0, index2 = 0;\n\n\t\t\tfor ( let i = 0, l = indices.length; i < l; i ++ ) {\n\n\t\t\t\tif ( attribute.isInterleavedBufferAttribute ) {\n\n\t\t\t\t\tindex = indices[ i ] * attribute.data.stride + attribute.offset;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tindex = indices[ i ] * itemSize;\n\n\t\t\t\t}\n\n\t\t\t\tfor ( let j = 0; j < itemSize; j ++ ) {\n\n\t\t\t\t\tarray2[ index2 ++ ] = array[ index ++ ];\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn new BufferAttribute( array2, itemSize, normalized );\n\n\t\t}\n\n\t\t//\n\n\t\tif ( this.index === null ) {\n\n\t\t\tconsole.warn( 'THREE.BufferGeometry.toNonIndexed(): BufferGeometry is already non-indexed.' );\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst geometry2 = new BufferGeometry();\n\n\t\tconst indices = this.index.array;\n\t\tconst attributes = this.attributes;\n\n\t\t// attributes\n\n\t\tfor ( const name in attributes ) {\n\n\t\t\tconst attribute = attributes[ name ];\n\n\t\t\tconst newAttribute = convertBufferAttribute( attribute, indices );\n\n\t\t\tgeometry2.setAttribute( name, newAttribute );\n\n\t\t}\n\n\t\t// morph attributes\n\n\t\tconst morphAttributes = this.morphAttributes;\n\n\t\tfor ( const name in morphAttributes ) {\n\n\t\t\tconst morphArray = [];\n\t\t\tconst morphAttribute = morphAttributes[ name ]; // morphAttribute: array of Float32BufferAttributes\n\n\t\t\tfor ( let i = 0, il = morphAttribute.length; i < il; i ++ ) {\n\n\t\t\t\tconst attribute = morphAttribute[ i ];\n\n\t\t\t\tconst newAttribute = convertBufferAttribute( attribute, indices );\n\n\t\t\t\tmorphArray.push( newAttribute );\n\n\t\t\t}\n\n\t\t\tgeometry2.morphAttributes[ name ] = morphArray;\n\n\t\t}\n\n\t\tgeometry2.morphTargetsRelative = this.morphTargetsRelative;\n\n\t\t// groups\n\n\t\tconst groups = this.groups;\n\n\t\tfor ( let i = 0, l = groups.length; i < l; i ++ ) {\n\n\t\t\tconst group = groups[ i ];\n\t\t\tgeometry2.addGroup( group.start, group.count, group.materialIndex );\n\n\t\t}\n\n\t\treturn geometry2;\n\n\t}\n\n\t/**\n\t * Serializes the geometry into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized geometry.\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'BufferGeometry',\n\t\t\t\tgenerator: 'BufferGeometry.toJSON'\n\t\t\t}\n\t\t};\n\n\t\t// standard BufferGeometry serialization\n\n\t\tdata.uuid = this.uuid;\n\t\tdata.type = this.type;\n\t\tif ( this.name !== '' ) data.name = this.name;\n\t\tif ( Object.keys( this.userData ).length > 0 ) data.userData = this.userData;\n\n\t\tif ( this.parameters !== undefined ) {\n\n\t\t\tconst parameters = this.parameters;\n\n\t\t\tfor ( const key in parameters ) {\n\n\t\t\t\tif ( parameters[ key ] !== undefined ) data[ key ] = parameters[ key ];\n\n\t\t\t}\n\n\t\t\treturn data;\n\n\t\t}\n\n\t\t// for simplicity the code assumes attributes are not shared across geometries, see #15811\n\n\t\tdata.data = { attributes: {} };\n\n\t\tconst index = this.index;\n\n\t\tif ( index !== null ) {\n\n\t\t\tdata.data.index = {\n\t\t\t\ttype: index.array.constructor.name,\n\t\t\t\tarray: Array.prototype.slice.call( index.array )\n\t\t\t};\n\n\t\t}\n\n\t\tconst attributes = this.attributes;\n\n\t\tfor ( const key in attributes ) {\n\n\t\t\tconst attribute = attributes[ key ];\n\n\t\t\tdata.data.attributes[ key ] = attribute.toJSON( data.data );\n\n\t\t}\n\n\t\tconst morphAttributes = {};\n\t\tlet hasMorphAttributes = false;\n\n\t\tfor ( const key in this.morphAttributes ) {\n\n\t\t\tconst attributeArray = this.morphAttributes[ key ];\n\n\t\t\tconst array = [];\n\n\t\t\tfor ( let i = 0, il = attributeArray.length; i < il; i ++ ) {\n\n\t\t\t\tconst attribute = attributeArray[ i ];\n\n\t\t\t\tarray.push( attribute.toJSON( data.data ) );\n\n\t\t\t}\n\n\t\t\tif ( array.length > 0 ) {\n\n\t\t\t\tmorphAttributes[ key ] = array;\n\n\t\t\t\thasMorphAttributes = true;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( hasMorphAttributes ) {\n\n\t\t\tdata.data.morphAttributes = morphAttributes;\n\t\t\tdata.data.morphTargetsRelative = this.morphTargetsRelative;\n\n\t\t}\n\n\t\tconst groups = this.groups;\n\n\t\tif ( groups.length > 0 ) {\n\n\t\t\tdata.data.groups = JSON.parse( JSON.stringify( groups ) );\n\n\t\t}\n\n\t\tconst boundingSphere = this.boundingSphere;\n\n\t\tif ( boundingSphere !== null ) {\n\n\t\t\tdata.data.boundingSphere = boundingSphere.toJSON();\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Returns a new geometry with copied values from this instance.\n\t *\n\t * @return {BufferGeometry} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given geometry to this instance.\n\t *\n\t * @param {BufferGeometry} source - The geometry to copy.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\t// reset\n\n\t\tthis.index = null;\n\t\tthis.attributes = {};\n\t\tthis.morphAttributes = {};\n\t\tthis.groups = [];\n\t\tthis.boundingBox = null;\n\t\tthis.boundingSphere = null;\n\n\t\t// used for storing cloned, shared data\n\n\t\tconst data = {};\n\n\t\t// name\n\n\t\tthis.name = source.name;\n\n\t\t// index\n\n\t\tconst index = source.index;\n\n\t\tif ( index !== null ) {\n\n\t\t\tthis.setIndex( index.clone() );\n\n\t\t}\n\n\t\t// attributes\n\n\t\tconst attributes = source.attributes;\n\n\t\tfor ( const name in attributes ) {\n\n\t\t\tconst attribute = attributes[ name ];\n\t\t\tthis.setAttribute( name, attribute.clone( data ) );\n\n\t\t}\n\n\t\t// morph attributes\n\n\t\tconst morphAttributes = source.morphAttributes;\n\n\t\tfor ( const name in morphAttributes ) {\n\n\t\t\tconst array = [];\n\t\t\tconst morphAttribute = morphAttributes[ name ]; // morphAttribute: array of Float32BufferAttributes\n\n\t\t\tfor ( let i = 0, l = morphAttribute.length; i < l; i ++ ) {\n\n\t\t\t\tarray.push( morphAttribute[ i ].clone( data ) );\n\n\t\t\t}\n\n\t\t\tthis.morphAttributes[ name ] = array;\n\n\t\t}\n\n\t\tthis.morphTargetsRelative = source.morphTargetsRelative;\n\n\t\t// groups\n\n\t\tconst groups = source.groups;\n\n\t\tfor ( let i = 0, l = groups.length; i < l; i ++ ) {\n\n\t\t\tconst group = groups[ i ];\n\t\t\tthis.addGroup( group.start, group.count, group.materialIndex );\n\n\t\t}\n\n\t\t// bounding box\n\n\t\tconst boundingBox = source.boundingBox;\n\n\t\tif ( boundingBox !== null ) {\n\n\t\t\tthis.boundingBox = boundingBox.clone();\n\n\t\t}\n\n\t\t// bounding sphere\n\n\t\tconst boundingSphere = source.boundingSphere;\n\n\t\tif ( boundingSphere !== null ) {\n\n\t\t\tthis.boundingSphere = boundingSphere.clone();\n\n\t\t}\n\n\t\t// draw range\n\n\t\tthis.drawRange.start = source.drawRange.start;\n\t\tthis.drawRange.count = source.drawRange.count;\n\n\t\t// user data\n\n\t\tthis.userData = source.userData;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires BufferGeometry#dispose\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n}\n\nconst _inverseMatrix$3 = /*@__PURE__*/ new Matrix4();\nconst _ray$3 = /*@__PURE__*/ new Ray();\nconst _sphere$6 = /*@__PURE__*/ new Sphere();\nconst _sphereHitAt = /*@__PURE__*/ new Vector3();\n\nconst _vA$1 = /*@__PURE__*/ new Vector3();\nconst _vB$1 = /*@__PURE__*/ new Vector3();\nconst _vC$1 = /*@__PURE__*/ new Vector3();\n\nconst _tempA = /*@__PURE__*/ new Vector3();\nconst _morphA = /*@__PURE__*/ new Vector3();\n\nconst _intersectionPoint = /*@__PURE__*/ new Vector3();\nconst _intersectionPointWorld = /*@__PURE__*/ new Vector3();\n\n/**\n * Class representing triangular polygon mesh based objects.\n *\n * ```js\n * const geometry = new THREE.BoxGeometry( 1, 1, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const mesh = new THREE.Mesh( geometry, material );\n * scene.add( mesh );\n * ```\n *\n * @augments Object3D\n */\nclass Mesh extends Object3D {\n\n\t/**\n\t * Constructs a new mesh.\n\t *\n\t * @param {BufferGeometry} [geometry] - The mesh geometry.\n\t * @param {Material|Array} [material] - The mesh material.\n\t */\n\tconstructor( geometry = new BufferGeometry(), material = new MeshBasicMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMesh = true;\n\n\t\tthis.type = 'Mesh';\n\n\t\t/**\n\t\t * The mesh geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = geometry;\n\n\t\t/**\n\t\t * The mesh material.\n\t\t *\n\t\t * @type {Material|Array}\n\t\t * @default MeshBasicMaterial\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * A dictionary representing the morph targets in the geometry. The key is the\n\t\t * morph targets name, the value its attribute index. This member is `undefined`\n\t\t * by default and only set when morph targets are detected in the geometry.\n\t\t *\n\t\t * @type {Object|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetDictionary = undefined;\n\n\t\t/**\n\t\t * An array of weights typically in the range `[0,1]` that specify how much of the morph\n\t\t * is applied. This member is `undefined` by default and only set when morph targets are\n\t\t * detected in the geometry.\n\t\t *\n\t\t * @type {Array|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetInfluences = undefined;\n\n\t\t/**\n\t\t * The number of instances of this mesh.\n\t\t * Can only be used with {@link WebGPURenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.count = 1;\n\n\t\tthis.updateMorphTargets();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.morphTargetInfluences !== undefined ) {\n\n\t\t\tthis.morphTargetInfluences = source.morphTargetInfluences.slice();\n\n\t\t}\n\n\t\tif ( source.morphTargetDictionary !== undefined ) {\n\n\t\t\tthis.morphTargetDictionary = Object.assign( {}, source.morphTargetDictionary );\n\n\t\t}\n\n\t\tthis.material = Array.isArray( source.material ) ? source.material.slice() : source.material;\n\t\tthis.geometry = source.geometry;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the values of {@link Mesh#morphTargetDictionary} and {@link Mesh#morphTargetInfluences}\n\t * to make sure existing morph targets can influence this 3D object.\n\t */\n\tupdateMorphTargets() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst morphAttributes = geometry.morphAttributes;\n\t\tconst keys = Object.keys( morphAttributes );\n\n\t\tif ( keys.length > 0 ) {\n\n\t\t\tconst morphAttribute = morphAttributes[ keys[ 0 ] ];\n\n\t\t\tif ( morphAttribute !== undefined ) {\n\n\t\t\t\tthis.morphTargetInfluences = [];\n\t\t\t\tthis.morphTargetDictionary = {};\n\n\t\t\t\tfor ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) {\n\n\t\t\t\t\tconst name = morphAttribute[ m ].name || String( m );\n\n\t\t\t\t\tthis.morphTargetInfluences.push( 0 );\n\t\t\t\t\tthis.morphTargetDictionary[ name ] = m;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns the local-space position of the vertex at the given index, taking into\n\t * account the current animation state of both morph targets and skinning.\n\t *\n\t * @param {number} index - The vertex index.\n\t * @param {Vector3} target - The target object that is used to store the method's result.\n\t * @return {Vector3} The vertex position in local space.\n\t */\n\tgetVertexPosition( index, target ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst position = geometry.attributes.position;\n\t\tconst morphPosition = geometry.morphAttributes.position;\n\t\tconst morphTargetsRelative = geometry.morphTargetsRelative;\n\n\t\ttarget.fromBufferAttribute( position, index );\n\n\t\tconst morphInfluences = this.morphTargetInfluences;\n\n\t\tif ( morphPosition && morphInfluences ) {\n\n\t\t\t_morphA.set( 0, 0, 0 );\n\n\t\t\tfor ( let i = 0, il = morphPosition.length; i < il; i ++ ) {\n\n\t\t\t\tconst influence = morphInfluences[ i ];\n\t\t\t\tconst morphAttribute = morphPosition[ i ];\n\n\t\t\t\tif ( influence === 0 ) continue;\n\n\t\t\t\t_tempA.fromBufferAttribute( morphAttribute, index );\n\n\t\t\t\tif ( morphTargetsRelative ) {\n\n\t\t\t\t\t_morphA.addScaledVector( _tempA, influence );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t_morphA.addScaledVector( _tempA.sub( target ), influence );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\ttarget.add( _morphA );\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this line.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst material = this.material;\n\t\tconst matrixWorld = this.matrixWorld;\n\n\t\tif ( material === undefined ) return;\n\n\t\t// test with bounding sphere in world space\n\n\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t_sphere$6.copy( geometry.boundingSphere );\n\t\t_sphere$6.applyMatrix4( matrixWorld );\n\n\t\t// check distance from ray origin to bounding sphere\n\n\t\t_ray$3.copy( raycaster.ray ).recast( raycaster.near );\n\n\t\tif ( _sphere$6.containsPoint( _ray$3.origin ) === false ) {\n\n\t\t\tif ( _ray$3.intersectSphere( _sphere$6, _sphereHitAt ) === null ) return;\n\n\t\t\tif ( _ray$3.origin.distanceToSquared( _sphereHitAt ) > ( raycaster.far - raycaster.near ) ** 2 ) return;\n\n\t\t}\n\n\t\t// convert ray to local space of mesh\n\n\t\t_inverseMatrix$3.copy( matrixWorld ).invert();\n\t\t_ray$3.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$3 );\n\n\t\t// test with bounding box in local space\n\n\t\tif ( geometry.boundingBox !== null ) {\n\n\t\t\tif ( _ray$3.intersectsBox( geometry.boundingBox ) === false ) return;\n\n\t\t}\n\n\t\t// test for intersections with geometry\n\n\t\tthis._computeIntersections( raycaster, intersects, _ray$3 );\n\n\t}\n\n\t_computeIntersections( raycaster, intersects, rayLocalSpace ) {\n\n\t\tlet intersection;\n\n\t\tconst geometry = this.geometry;\n\t\tconst material = this.material;\n\n\t\tconst index = geometry.index;\n\t\tconst position = geometry.attributes.position;\n\t\tconst uv = geometry.attributes.uv;\n\t\tconst uv1 = geometry.attributes.uv1;\n\t\tconst normal = geometry.attributes.normal;\n\t\tconst groups = geometry.groups;\n\t\tconst drawRange = geometry.drawRange;\n\n\t\tif ( index !== null ) {\n\n\t\t\t// indexed buffer geometry\n\n\t\t\tif ( Array.isArray( material ) ) {\n\n\t\t\t\tfor ( let i = 0, il = groups.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst group = groups[ i ];\n\t\t\t\t\tconst groupMaterial = material[ group.materialIndex ];\n\n\t\t\t\t\tconst start = Math.max( group.start, drawRange.start );\n\t\t\t\t\tconst end = Math.min( index.count, Math.min( ( group.start + group.count ), ( drawRange.start + drawRange.count ) ) );\n\n\t\t\t\t\tfor ( let j = start, jl = end; j < jl; j += 3 ) {\n\n\t\t\t\t\t\tconst a = index.getX( j );\n\t\t\t\t\t\tconst b = index.getX( j + 1 );\n\t\t\t\t\t\tconst c = index.getX( j + 2 );\n\n\t\t\t\t\t\tintersection = checkGeometryIntersection( this, groupMaterial, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\t\tintersection.faceIndex = Math.floor( j / 3 ); // triangle number in indexed buffer semantics\n\t\t\t\t\t\t\tintersection.face.materialIndex = group.materialIndex;\n\t\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\t\tconst end = Math.min( index.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\t\tfor ( let i = start, il = end; i < il; i += 3 ) {\n\n\t\t\t\t\tconst a = index.getX( i );\n\t\t\t\t\tconst b = index.getX( i + 1 );\n\t\t\t\t\tconst c = index.getX( i + 2 );\n\n\t\t\t\t\tintersection = checkGeometryIntersection( this, material, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\tintersection.faceIndex = Math.floor( i / 3 ); // triangle number in indexed buffer semantics\n\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else if ( position !== undefined ) {\n\n\t\t\t// non-indexed buffer geometry\n\n\t\t\tif ( Array.isArray( material ) ) {\n\n\t\t\t\tfor ( let i = 0, il = groups.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst group = groups[ i ];\n\t\t\t\t\tconst groupMaterial = material[ group.materialIndex ];\n\n\t\t\t\t\tconst start = Math.max( group.start, drawRange.start );\n\t\t\t\t\tconst end = Math.min( position.count, Math.min( ( group.start + group.count ), ( drawRange.start + drawRange.count ) ) );\n\n\t\t\t\t\tfor ( let j = start, jl = end; j < jl; j += 3 ) {\n\n\t\t\t\t\t\tconst a = j;\n\t\t\t\t\t\tconst b = j + 1;\n\t\t\t\t\t\tconst c = j + 2;\n\n\t\t\t\t\t\tintersection = checkGeometryIntersection( this, groupMaterial, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\t\tintersection.faceIndex = Math.floor( j / 3 ); // triangle number in non-indexed buffer semantics\n\t\t\t\t\t\t\tintersection.face.materialIndex = group.materialIndex;\n\t\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\t\tconst end = Math.min( position.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\t\tfor ( let i = start, il = end; i < il; i += 3 ) {\n\n\t\t\t\t\tconst a = i;\n\t\t\t\t\tconst b = i + 1;\n\t\t\t\t\tconst c = i + 2;\n\n\t\t\t\t\tintersection = checkGeometryIntersection( this, material, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\tintersection.faceIndex = Math.floor( i / 3 ); // triangle number in non-indexed buffer semantics\n\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n}\n\nfunction checkIntersection$1( object, material, raycaster, ray, pA, pB, pC, point ) {\n\n\tlet intersect;\n\n\tif ( material.side === BackSide ) {\n\n\t\tintersect = ray.intersectTriangle( pC, pB, pA, true, point );\n\n\t} else {\n\n\t\tintersect = ray.intersectTriangle( pA, pB, pC, ( material.side === FrontSide ), point );\n\n\t}\n\n\tif ( intersect === null ) return null;\n\n\t_intersectionPointWorld.copy( point );\n\t_intersectionPointWorld.applyMatrix4( object.matrixWorld );\n\n\tconst distance = raycaster.ray.origin.distanceTo( _intersectionPointWorld );\n\n\tif ( distance < raycaster.near || distance > raycaster.far ) return null;\n\n\treturn {\n\t\tdistance: distance,\n\t\tpoint: _intersectionPointWorld.clone(),\n\t\tobject: object\n\t};\n\n}\n\nfunction checkGeometryIntersection( object, material, raycaster, ray, uv, uv1, normal, a, b, c ) {\n\n\tobject.getVertexPosition( a, _vA$1 );\n\tobject.getVertexPosition( b, _vB$1 );\n\tobject.getVertexPosition( c, _vC$1 );\n\n\tconst intersection = checkIntersection$1( object, material, raycaster, ray, _vA$1, _vB$1, _vC$1, _intersectionPoint );\n\n\tif ( intersection ) {\n\n\t\tconst barycoord = new Vector3();\n\t\tTriangle.getBarycoord( _intersectionPoint, _vA$1, _vB$1, _vC$1, barycoord );\n\n\t\tif ( uv ) {\n\n\t\t\tintersection.uv = Triangle.getInterpolatedAttribute( uv, a, b, c, barycoord, new Vector2() );\n\n\t\t}\n\n\t\tif ( uv1 ) {\n\n\t\t\tintersection.uv1 = Triangle.getInterpolatedAttribute( uv1, a, b, c, barycoord, new Vector2() );\n\n\t\t}\n\n\t\tif ( normal ) {\n\n\t\t\tintersection.normal = Triangle.getInterpolatedAttribute( normal, a, b, c, barycoord, new Vector3() );\n\n\t\t\tif ( intersection.normal.dot( ray.direction ) > 0 ) {\n\n\t\t\t\tintersection.normal.multiplyScalar( -1 );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst face = {\n\t\t\ta: a,\n\t\t\tb: b,\n\t\t\tc: c,\n\t\t\tnormal: new Vector3(),\n\t\t\tmaterialIndex: 0\n\t\t};\n\n\t\tTriangle.getNormal( _vA$1, _vB$1, _vC$1, face.normal );\n\n\t\tintersection.face = face;\n\t\tintersection.barycoord = barycoord;\n\n\t}\n\n\treturn intersection;\n\n}\n\n/**\n * A geometry class for a rectangular cuboid with a given width, height, and depth.\n * On creation, the cuboid is centred on the origin, with each edge parallel to one\n * of the axes.\n *\n * ```js\n * const geometry = new THREE.BoxGeometry( 1, 1, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const cube = new THREE.Mesh( geometry, material );\n * scene.add( cube );\n * ```\n *\n * @augments BufferGeometry\n */\nclass BoxGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new box geometry.\n\t *\n\t * @param {number} [width=1] - The width. That is, the length of the edges parallel to the X axis.\n\t * @param {number} [height=1] - The height. That is, the length of the edges parallel to the Y axis.\n\t * @param {number} [depth=1] - The depth. That is, the length of the edges parallel to the Z axis.\n\t * @param {number} [widthSegments=1] - Number of segmented rectangular faces along the width of the sides.\n\t * @param {number} [heightSegments=1] - Number of segmented rectangular faces along the height of the sides.\n\t * @param {number} [depthSegments=1] - Number of segmented rectangular faces along the depth of the sides.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, widthSegments = 1, heightSegments = 1, depthSegments = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'BoxGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\twidth: width,\n\t\t\theight: height,\n\t\t\tdepth: depth,\n\t\t\twidthSegments: widthSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\tdepthSegments: depthSegments\n\t\t};\n\n\t\tconst scope = this;\n\n\t\t// segments\n\n\t\twidthSegments = Math.floor( widthSegments );\n\t\theightSegments = Math.floor( heightSegments );\n\t\tdepthSegments = Math.floor( depthSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tlet numberOfVertices = 0;\n\t\tlet groupStart = 0;\n\n\t\t// build each side of the box geometry\n\n\t\tbuildPlane( 'z', 'y', 'x', -1, -1, depth, height, width, depthSegments, heightSegments, 0 ); // px\n\t\tbuildPlane( 'z', 'y', 'x', 1, -1, depth, height, - width, depthSegments, heightSegments, 1 ); // nx\n\t\tbuildPlane( 'x', 'z', 'y', 1, 1, width, depth, height, widthSegments, depthSegments, 2 ); // py\n\t\tbuildPlane( 'x', 'z', 'y', 1, -1, width, depth, - height, widthSegments, depthSegments, 3 ); // ny\n\t\tbuildPlane( 'x', 'y', 'z', 1, -1, width, height, depth, widthSegments, heightSegments, 4 ); // pz\n\t\tbuildPlane( 'x', 'y', 'z', -1, -1, width, height, - depth, widthSegments, heightSegments, 5 ); // nz\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\tfunction buildPlane( u, v, w, udir, vdir, width, height, depth, gridX, gridY, materialIndex ) {\n\n\t\t\tconst segmentWidth = width / gridX;\n\t\t\tconst segmentHeight = height / gridY;\n\n\t\t\tconst widthHalf = width / 2;\n\t\t\tconst heightHalf = height / 2;\n\t\t\tconst depthHalf = depth / 2;\n\n\t\t\tconst gridX1 = gridX + 1;\n\t\t\tconst gridY1 = gridY + 1;\n\n\t\t\tlet vertexCounter = 0;\n\t\t\tlet groupCount = 0;\n\n\t\t\tconst vector = new Vector3();\n\n\t\t\t// generate vertices, normals and uvs\n\n\t\t\tfor ( let iy = 0; iy < gridY1; iy ++ ) {\n\n\t\t\t\tconst y = iy * segmentHeight - heightHalf;\n\n\t\t\t\tfor ( let ix = 0; ix < gridX1; ix ++ ) {\n\n\t\t\t\t\tconst x = ix * segmentWidth - widthHalf;\n\n\t\t\t\t\t// set values to correct vector component\n\n\t\t\t\t\tvector[ u ] = x * udir;\n\t\t\t\t\tvector[ v ] = y * vdir;\n\t\t\t\t\tvector[ w ] = depthHalf;\n\n\t\t\t\t\t// now apply vector to vertex buffer\n\n\t\t\t\t\tvertices.push( vector.x, vector.y, vector.z );\n\n\t\t\t\t\t// set values to correct vector component\n\n\t\t\t\t\tvector[ u ] = 0;\n\t\t\t\t\tvector[ v ] = 0;\n\t\t\t\t\tvector[ w ] = depth > 0 ? 1 : -1;\n\n\t\t\t\t\t// now apply vector to normal buffer\n\n\t\t\t\t\tnormals.push( vector.x, vector.y, vector.z );\n\n\t\t\t\t\t// uvs\n\n\t\t\t\t\tuvs.push( ix / gridX );\n\t\t\t\t\tuvs.push( 1 - ( iy / gridY ) );\n\n\t\t\t\t\t// counters\n\n\t\t\t\t\tvertexCounter += 1;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// indices\n\n\t\t\t// 1. you need three indices to draw a single face\n\t\t\t// 2. a single segment consists of two faces\n\t\t\t// 3. so we need to generate six (2*3) indices per segment\n\n\t\t\tfor ( let iy = 0; iy < gridY; iy ++ ) {\n\n\t\t\t\tfor ( let ix = 0; ix < gridX; ix ++ ) {\n\n\t\t\t\t\tconst a = numberOfVertices + ix + gridX1 * iy;\n\t\t\t\t\tconst b = numberOfVertices + ix + gridX1 * ( iy + 1 );\n\t\t\t\t\tconst c = numberOfVertices + ( ix + 1 ) + gridX1 * ( iy + 1 );\n\t\t\t\t\tconst d = numberOfVertices + ( ix + 1 ) + gridX1 * iy;\n\n\t\t\t\t\t// faces\n\n\t\t\t\t\tindices.push( a, b, d );\n\t\t\t\t\tindices.push( b, c, d );\n\n\t\t\t\t\t// increase counter\n\n\t\t\t\t\tgroupCount += 6;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// add a group to the geometry. this will ensure multi material support\n\n\t\t\tscope.addGroup( groupStart, groupCount, materialIndex );\n\n\t\t\t// calculate new start value for groups\n\n\t\t\tgroupStart += groupCount;\n\n\t\t\t// update total number of vertices\n\n\t\t\tnumberOfVertices += vertexCounter;\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {BoxGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new BoxGeometry( data.width, data.height, data.depth, data.widthSegments, data.heightSegments, data.depthSegments );\n\n\t}\n\n}\n\n// Uniform Utilities\n\nfunction cloneUniforms( src ) {\n\n\tconst dst = {};\n\n\tfor ( const u in src ) {\n\n\t\tdst[ u ] = {};\n\n\t\tfor ( const p in src[ u ] ) {\n\n\t\t\tconst property = src[ u ][ p ];\n\n\t\t\tif ( property && ( property.isColor ||\n\t\t\t\tproperty.isMatrix3 || property.isMatrix4 ||\n\t\t\t\tproperty.isVector2 || property.isVector3 || property.isVector4 ||\n\t\t\t\tproperty.isTexture || property.isQuaternion ) ) {\n\n\t\t\t\tif ( property.isRenderTargetTexture ) {\n\n\t\t\t\t\tconsole.warn( 'UniformsUtils: Textures of render targets cannot be cloned via cloneUniforms() or mergeUniforms().' );\n\t\t\t\t\tdst[ u ][ p ] = null;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tdst[ u ][ p ] = property.clone();\n\n\t\t\t\t}\n\n\t\t\t} else if ( Array.isArray( property ) ) {\n\n\t\t\t\tdst[ u ][ p ] = property.slice();\n\n\t\t\t} else {\n\n\t\t\t\tdst[ u ][ p ] = property;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\treturn dst;\n\n}\n\nfunction mergeUniforms( uniforms ) {\n\n\tconst merged = {};\n\n\tfor ( let u = 0; u < uniforms.length; u ++ ) {\n\n\t\tconst tmp = cloneUniforms( uniforms[ u ] );\n\n\t\tfor ( const p in tmp ) {\n\n\t\t\tmerged[ p ] = tmp[ p ];\n\n\t\t}\n\n\t}\n\n\treturn merged;\n\n}\n\nfunction cloneUniformsGroups( src ) {\n\n\tconst dst = [];\n\n\tfor ( let u = 0; u < src.length; u ++ ) {\n\n\t\tdst.push( src[ u ].clone() );\n\n\t}\n\n\treturn dst;\n\n}\n\nfunction getUnlitUniformColorSpace( renderer ) {\n\n\tconst currentRenderTarget = renderer.getRenderTarget();\n\n\tif ( currentRenderTarget === null ) {\n\n\t\t// https://github.com/mrdoob/three.js/pull/23937#issuecomment-1111067398\n\t\treturn renderer.outputColorSpace;\n\n\t}\n\n\t// https://github.com/mrdoob/three.js/issues/27868\n\tif ( currentRenderTarget.isXRRenderTarget === true ) {\n\n\t\treturn currentRenderTarget.texture.colorSpace;\n\n\t}\n\n\treturn ColorManagement.workingColorSpace;\n\n}\n\n// Legacy\n\nconst UniformsUtils = { clone: cloneUniforms, merge: mergeUniforms };\n\nvar default_vertex = \"void main() {\\n\\tgl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );\\n}\";\n\nvar default_fragment = \"void main() {\\n\\tgl_FragColor = vec4( 1.0, 0.0, 0.0, 1.0 );\\n}\";\n\n/**\n * A material rendered with custom shaders. A shader is a small program written in GLSL.\n * that runs on the GPU. You may want to use a custom shader if you need to implement an\n * effect not included with any of the built-in materials.\n *\n * There are the following notes to bear in mind when using a `ShaderMaterial`:\n *\n * - `ShaderMaterial` can only be used with {@link WebGLRenderer}.\n * - Built in attributes and uniforms are passed to the shaders along with your code. If\n * you don't want that, use {@link RawShaderMaterial} instead.\n * - You can use the directive `#pragma unroll_loop_start` and `#pragma unroll_loop_end`\n * in order to unroll a `for` loop in GLSL by the shader preprocessor. The directive has\n * to be placed right above the loop. The loop formatting has to correspond to a defined standard.\n * - The loop has to be [normalized]{@link https://en.wikipedia.org/wiki/Normalized_loop}.\n * - The loop variable has to be *i*.\n * - The value `UNROLLED_LOOP_INDEX` will be replaced with the explicitly\n * value of *i* for the given iteration and can be used in preprocessor\n * statements.\n *\n * ```js\n * const material = new THREE.ShaderMaterial( {\n * \tuniforms: {\n * \t\ttime: { value: 1.0 },\n * \t\tresolution: { value: new THREE.Vector2() }\n * \t},\n * \tvertexShader: document.getElementById( 'vertexShader' ).textContent,\n * \tfragmentShader: document.getElementById( 'fragmentShader' ).textContent\n * } );\n * ```\n *\n * @augments Material\n */\nclass ShaderMaterial extends Material {\n\n\t/**\n\t * Constructs a new shader material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isShaderMaterial = true;\n\n\t\tthis.type = 'ShaderMaterial';\n\n\t\t/**\n\t\t * Defines custom constants using `#define` directives within the GLSL code\n\t\t * for both the vertex shader and the fragment shader; each key/value pair\n\t\t * yields another directive.\n\t\t * ```js\n\t\t * defines: {\n\t\t * \tFOO: 15,\n\t\t * \tBAR: true\n\t\t * }\n\t\t * ```\n\t\t * Yields the lines:\n\t\t * ```\n\t\t * #define FOO 15\n\t\t * #define BAR true\n\t\t * ```\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.defines = {};\n\n\t\t/**\n\t\t * An object of the form:\n\t\t * ```js\n\t\t * {\n\t\t * \t\"uniform1\": { value: 1.0 },\n\t\t * \t\"uniform2\": { value: 2 }\n\t\t * }\n\t\t * ```\n\t\t * specifying the uniforms to be passed to the shader code; keys are uniform\n\t\t * names, values are definitions of the form\n\t\t * ```\n\t\t * {\n\t\t * \tvalue: 1.0\n\t\t * }\n\t\t * ```\n\t\t * where `value` is the value of the uniform. Names must match the name of\n\t\t * the uniform, as defined in the GLSL code. Note that uniforms are refreshed\n\t\t * on every frame, so updating the value of the uniform will immediately\n\t\t * update the value available to the GLSL code.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.uniforms = {};\n\n\t\t/**\n\t\t * An array holding uniforms groups for configuring UBOs.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.uniformsGroups = [];\n\n\t\t/**\n\t\t * Vertex shader GLSL code. This is the actual code for the shader.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.vertexShader = default_vertex;\n\n\t\t/**\n\t\t * Fragment shader GLSL code. This is the actual code for the shader.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.fragmentShader = default_fragment;\n\n\t\t/**\n\t\t * Controls line thickness or lines.\n\t\t *\n\t\t * WebGL and WebGPU ignore this setting and always render line primitives with a\n\t\t * width of one pixel.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.linewidth = 1;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * WebGL and WebGPU ignore this property and always render\n\t\t * 1 pixel wide lines.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Define whether the material color is affected by global fog settings; `true`\n\t\t * to pass fog uniforms to the shader.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.fog = false;\n\n\t\t/**\n\t\t * Defines whether this material uses lighting; `true` to pass uniform data\n\t\t * related to lighting to this shader.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.lights = false;\n\n\t\t/**\n\t\t * Defines whether this material supports clipping; `true` to let the renderer\n\t\t * pass the clippingPlanes uniform.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clipping = false;\n\n\t\t/**\n\t\t * Overwritten and set to `true` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.forceSinglePass = true;\n\n\t\t/**\n\t\t * This object allows to enable certain WebGL 2 extensions.\n\t\t *\n\t\t * - clipCullDistance: set to `true` to use vertex shader clipping\n\t\t * - multiDraw: set to `true` to use vertex shader multi_draw / enable gl_DrawID\n\t\t *\n\t\t * @type {{clipCullDistance:false,multiDraw:false}}\n\t\t */\n\t\tthis.extensions = {\n\t\t\tclipCullDistance: false, // set to use vertex shader clipping\n\t\t\tmultiDraw: false // set to use vertex shader multi_draw / enable gl_DrawID\n\t\t};\n\n\t\t/**\n\t\t * When the rendered geometry doesn't include these attributes but the\n\t\t * material does, these default values will be passed to the shaders. This\n\t\t * avoids errors when buffer data is missing.\n\t\t *\n\t\t * - color: [ 1, 1, 1 ]\n\t\t * - uv: [ 0, 0 ]\n\t\t * - uv1: [ 0, 0 ]\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.defaultAttributeValues = {\n\t\t\t'color': [ 1, 1, 1 ],\n\t\t\t'uv': [ 0, 0 ],\n\t\t\t'uv1': [ 0, 0 ]\n\t\t};\n\n\t\t/**\n\t\t * If set, this calls [gl.bindAttribLocation]{@link https://developer.mozilla.org/en-US/docs/Web/API/WebGLRenderingContext/bindAttribLocation}\n\t\t * to bind a generic vertex index to an attribute variable.\n\t\t *\n\t\t * @type {string|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.index0AttributeName = undefined;\n\n\t\t/**\n\t\t * Can be used to force a uniform update while changing uniforms in\n\t\t * {@link Object3D#onBeforeRender}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.uniformsNeedUpdate = false;\n\n\t\t/**\n\t\t * Defines the GLSL version of custom shader code.\n\t\t *\n\t\t * @type {?(GLSL1|GLSL3)}\n\t\t * @default null\n\t\t */\n\t\tthis.glslVersion = null;\n\n\t\tif ( parameters !== undefined ) {\n\n\t\t\tthis.setValues( parameters );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.fragmentShader = source.fragmentShader;\n\t\tthis.vertexShader = source.vertexShader;\n\n\t\tthis.uniforms = cloneUniforms( source.uniforms );\n\t\tthis.uniformsGroups = cloneUniformsGroups( source.uniformsGroups );\n\n\t\tthis.defines = Object.assign( {}, source.defines );\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\n\t\tthis.fog = source.fog;\n\t\tthis.lights = source.lights;\n\t\tthis.clipping = source.clipping;\n\n\t\tthis.extensions = Object.assign( {}, source.extensions );\n\n\t\tthis.glslVersion = source.glslVersion;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.glslVersion = this.glslVersion;\n\t\tdata.uniforms = {};\n\n\t\tfor ( const name in this.uniforms ) {\n\n\t\t\tconst uniform = this.uniforms[ name ];\n\t\t\tconst value = uniform.value;\n\n\t\t\tif ( value && value.isTexture ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 't',\n\t\t\t\t\tvalue: value.toJSON( meta ).uuid\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isColor ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'c',\n\t\t\t\t\tvalue: value.getHex()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isVector2 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'v2',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isVector3 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'v3',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isVector4 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'v4',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isMatrix3 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'm3',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isMatrix4 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'm4',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\tvalue: value\n\t\t\t\t};\n\n\t\t\t\t// note: the array variants v2v, v3v, v4v, m4v and tv are not supported so far\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( Object.keys( this.defines ).length > 0 ) data.defines = this.defines;\n\n\t\tdata.vertexShader = this.vertexShader;\n\t\tdata.fragmentShader = this.fragmentShader;\n\n\t\tdata.lights = this.lights;\n\t\tdata.clipping = this.clipping;\n\n\t\tconst extensions = {};\n\n\t\tfor ( const key in this.extensions ) {\n\n\t\t\tif ( this.extensions[ key ] === true ) extensions[ key ] = true;\n\n\t\t}\n\n\t\tif ( Object.keys( extensions ).length > 0 ) data.extensions = extensions;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Abstract base class for cameras. This class should always be inherited\n * when you build a new camera.\n *\n * @abstract\n * @augments Object3D\n */\nclass Camera extends Object3D {\n\n\t/**\n\t * Constructs a new camera.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCamera = true;\n\n\t\tthis.type = 'Camera';\n\n\t\t/**\n\t\t * The inverse of the camera's world matrix.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrixWorldInverse = new Matrix4();\n\n\t\t/**\n\t\t * The camera's projection matrix.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.projectionMatrix = new Matrix4();\n\n\t\t/**\n\t\t * The inverse of the camera's projection matrix.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.projectionMatrixInverse = new Matrix4();\n\n\t\t/**\n\t\t * The coordinate system in which the camera is used.\n\t\t *\n\t\t * @type {(WebGLCoordinateSystem|WebGPUCoordinateSystem)}\n\t\t */\n\t\tthis.coordinateSystem = WebGLCoordinateSystem;\n\n\t\tthis._reversedDepth = false;\n\n\t}\n\n\t/**\n\t * The flag that indicates whether the camera uses a reversed depth buffer.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t */\n\tget reversedDepth() {\n\n\t\treturn this._reversedDepth;\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.matrixWorldInverse.copy( source.matrixWorldInverse );\n\n\t\tthis.projectionMatrix.copy( source.projectionMatrix );\n\t\tthis.projectionMatrixInverse.copy( source.projectionMatrixInverse );\n\n\t\tthis.coordinateSystem = source.coordinateSystem;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the (\"look\") direction of the 3D object in world space.\n\t *\n\t * This method is overwritten since cameras have a different forward vector compared to other\n\t * 3D objects. A camera looks down its local, negative z-axis by default.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's direction in world space.\n\t */\n\tgetWorldDirection( target ) {\n\n\t\treturn super.getWorldDirection( target ).negate();\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tthis.matrixWorldInverse.copy( this.matrixWorld ).invert();\n\n\t}\n\n\tupdateWorldMatrix( updateParents, updateChildren ) {\n\n\t\tsuper.updateWorldMatrix( updateParents, updateChildren );\n\n\t\tthis.matrixWorldInverse.copy( this.matrixWorld ).invert();\n\n\t}\n\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _v3$1 = /*@__PURE__*/ new Vector3();\nconst _minTarget = /*@__PURE__*/ new Vector2();\nconst _maxTarget = /*@__PURE__*/ new Vector2();\n\n/**\n * Camera that uses [perspective projection]{@link https://en.wikipedia.org/wiki/Perspective_(graphical)}.\n *\n * This projection mode is designed to mimic the way the human eye sees. It\n * is the most common projection mode used for rendering a 3D scene.\n *\n * ```js\n * const camera = new THREE.PerspectiveCamera( 45, width / height, 1, 1000 );\n * scene.add( camera );\n * ```\n *\n * @augments Camera\n */\nclass PerspectiveCamera extends Camera {\n\n\t/**\n\t * Constructs a new perspective camera.\n\t *\n\t * @param {number} [fov=50] - The vertical field of view.\n\t * @param {number} [aspect=1] - The aspect ratio.\n\t * @param {number} [near=0.1] - The camera's near plane.\n\t * @param {number} [far=2000] - The camera's far plane.\n\t */\n\tconstructor( fov = 50, aspect = 1, near = 0.1, far = 2000 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPerspectiveCamera = true;\n\n\t\tthis.type = 'PerspectiveCamera';\n\n\t\t/**\n\t\t * The vertical field of view, from bottom to top of view,\n\t\t * in degrees.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 50\n\t\t */\n\t\tthis.fov = fov;\n\n\t\t/**\n\t\t * The zoom factor of the camera.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.zoom = 1;\n\n\t\t/**\n\t\t * The camera's near plane. The valid range is greater than `0`\n\t\t * and less than the current value of {@link PerspectiveCamera#far}.\n\t\t *\n\t\t * Note that, unlike for the {@link OrthographicCamera}, `0` is not a\n\t\t * valid value for a perspective camera's near plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.1\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * The camera's far plane. Must be greater than the\n\t\t * current value of {@link PerspectiveCamera#near}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2000\n\t\t */\n\t\tthis.far = far;\n\n\t\t/**\n\t\t * Object distance used for stereoscopy and depth-of-field effects. This\n\t\t * parameter does not influence the projection matrix unless a\n\t\t * {@link StereoCamera} is being used.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 10\n\t\t */\n\t\tthis.focus = 10;\n\n\t\t/**\n\t\t * The aspect ratio, usually the canvas width / canvas height.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aspect = aspect;\n\n\t\t/**\n\t\t * Represents the frustum window specification. This property should not be edited\n\t\t * directly but via {@link PerspectiveCamera#setViewOffset} and {@link PerspectiveCamera#clearViewOffset}.\n\t\t *\n\t\t * @type {?Object}\n\t\t * @default null\n\t\t */\n\t\tthis.view = null;\n\n\t\t/**\n\t\t * Film size used for the larger axis. Default is `35` (millimeters). This\n\t\t * parameter does not influence the projection matrix unless {@link PerspectiveCamera#filmOffset}\n\t\t * is set to a nonzero value.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 35\n\t\t */\n\t\tthis.filmGauge = 35;\n\n\t\t/**\n\t\t * Horizontal off-center offset in the same unit as {@link PerspectiveCamera#filmGauge}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.filmOffset = 0;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.fov = source.fov;\n\t\tthis.zoom = source.zoom;\n\n\t\tthis.near = source.near;\n\t\tthis.far = source.far;\n\t\tthis.focus = source.focus;\n\n\t\tthis.aspect = source.aspect;\n\t\tthis.view = source.view === null ? null : Object.assign( {}, source.view );\n\n\t\tthis.filmGauge = source.filmGauge;\n\t\tthis.filmOffset = source.filmOffset;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the FOV by focal length in respect to the current {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * The default film gauge is 35, so that the focal length can be specified for\n\t * a 35mm (full frame) camera.\n\t *\n\t * @param {number} focalLength - Values for focal length and film gauge must have the same unit.\n\t */\n\tsetFocalLength( focalLength ) {\n\n\t\t/** see {@link http://www.bobatkins.com/photography/technical/field_of_view.html} */\n\t\tconst vExtentSlope = 0.5 * this.getFilmHeight() / focalLength;\n\n\t\tthis.fov = RAD2DEG * 2 * Math.atan( vExtentSlope );\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Returns the focal length from the current {@link PerspectiveCamera#fov} and\n\t * {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * @return {number} The computed focal length.\n\t */\n\tgetFocalLength() {\n\n\t\tconst vExtentSlope = Math.tan( DEG2RAD * 0.5 * this.fov );\n\n\t\treturn 0.5 * this.getFilmHeight() / vExtentSlope;\n\n\t}\n\n\t/**\n\t * Returns the current vertical field of view angle in degrees considering {@link PerspectiveCamera#zoom}.\n\t *\n\t * @return {number} The effective FOV.\n\t */\n\tgetEffectiveFOV() {\n\n\t\treturn RAD2DEG * 2 * Math.atan(\n\t\t\tMath.tan( DEG2RAD * 0.5 * this.fov ) / this.zoom );\n\n\t}\n\n\t/**\n\t * Returns the width of the image on the film. If {@link PerspectiveCamera#aspect} is greater than or\n\t * equal to one (landscape format), the result equals {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * @return {number} The film width.\n\t */\n\tgetFilmWidth() {\n\n\t\t// film not completely covered in portrait format (aspect < 1)\n\t\treturn this.filmGauge * Math.min( this.aspect, 1 );\n\n\t}\n\n\t/**\n\t * Returns the height of the image on the film. If {@link PerspectiveCamera#aspect} is greater than or\n\t * equal to one (landscape format), the result equals {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * @return {number} The film width.\n\t */\n\tgetFilmHeight() {\n\n\t\t// film not completely covered in landscape format (aspect > 1)\n\t\treturn this.filmGauge / Math.max( this.aspect, 1 );\n\n\t}\n\n\t/**\n\t * Computes the 2D bounds of the camera's viewable rectangle at a given distance along the viewing direction.\n\t * Sets `minTarget` and `maxTarget` to the coordinates of the lower-left and upper-right corners of the view rectangle.\n\t *\n\t * @param {number} distance - The viewing distance.\n\t * @param {Vector2} minTarget - The lower-left corner of the view rectangle is written into this vector.\n\t * @param {Vector2} maxTarget - The upper-right corner of the view rectangle is written into this vector.\n\t */\n\tgetViewBounds( distance, minTarget, maxTarget ) {\n\n\t\t_v3$1.set( -1, -1, 0.5 ).applyMatrix4( this.projectionMatrixInverse );\n\n\t\tminTarget.set( _v3$1.x, _v3$1.y ).multiplyScalar( - distance / _v3$1.z );\n\n\t\t_v3$1.set( 1, 1, 0.5 ).applyMatrix4( this.projectionMatrixInverse );\n\n\t\tmaxTarget.set( _v3$1.x, _v3$1.y ).multiplyScalar( - distance / _v3$1.z );\n\n\t}\n\n\t/**\n\t * Computes the width and height of the camera's viewable rectangle at a given distance along the viewing direction.\n\t *\n\t * @param {number} distance - The viewing distance.\n\t * @param {Vector2} target - The target vector that is used to store result where x is width and y is height.\n\t * @returns {Vector2} The view size.\n\t */\n\tgetViewSize( distance, target ) {\n\n\t\tthis.getViewBounds( distance, _minTarget, _maxTarget );\n\n\t\treturn target.subVectors( _maxTarget, _minTarget );\n\n\t}\n\n\t/**\n\t * Sets an offset in a larger frustum. This is useful for multi-window or\n\t * multi-monitor/multi-machine setups.\n\t *\n\t * For example, if you have 3x2 monitors and each monitor is 1920x1080 and\n\t * the monitors are in grid like this\n\t *```\n\t * +---+---+---+\n\t * | A | B | C |\n\t * +---+---+---+\n\t * | D | E | F |\n\t * +---+---+---+\n\t *```\n\t * then for each monitor you would call it like this:\n\t *```js\n\t * const w = 1920;\n\t * const h = 1080;\n\t * const fullWidth = w * 3;\n\t * const fullHeight = h * 2;\n\t *\n\t * // --A--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 0, h * 0, w, h );\n\t * // --B--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 1, h * 0, w, h );\n\t * // --C--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 2, h * 0, w, h );\n\t * // --D--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 0, h * 1, w, h );\n\t * // --E--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 1, h * 1, w, h );\n\t * // --F--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 2, h * 1, w, h );\n\t * ```\n\t *\n\t * Note there is no reason monitors have to be the same size or in a grid.\n\t *\n\t * @param {number} fullWidth - The full width of multiview setup.\n\t * @param {number} fullHeight - The full height of multiview setup.\n\t * @param {number} x - The horizontal offset of the subcamera.\n\t * @param {number} y - The vertical offset of the subcamera.\n\t * @param {number} width - The width of subcamera.\n\t * @param {number} height - The height of subcamera.\n\t */\n\tsetViewOffset( fullWidth, fullHeight, x, y, width, height ) {\n\n\t\tthis.aspect = fullWidth / fullHeight;\n\n\t\tif ( this.view === null ) {\n\n\t\t\tthis.view = {\n\t\t\t\tenabled: true,\n\t\t\t\tfullWidth: 1,\n\t\t\t\tfullHeight: 1,\n\t\t\t\toffsetX: 0,\n\t\t\t\toffsetY: 0,\n\t\t\t\twidth: 1,\n\t\t\t\theight: 1\n\t\t\t};\n\n\t\t}\n\n\t\tthis.view.enabled = true;\n\t\tthis.view.fullWidth = fullWidth;\n\t\tthis.view.fullHeight = fullHeight;\n\t\tthis.view.offsetX = x;\n\t\tthis.view.offsetY = y;\n\t\tthis.view.width = width;\n\t\tthis.view.height = height;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Removes the view offset from the projection matrix.\n\t */\n\tclearViewOffset() {\n\n\t\tif ( this.view !== null ) {\n\n\t\t\tthis.view.enabled = false;\n\n\t\t}\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Updates the camera's projection matrix. Must be called after any change of\n\t * camera properties.\n\t */\n\tupdateProjectionMatrix() {\n\n\t\tconst near = this.near;\n\t\tlet top = near * Math.tan( DEG2RAD * 0.5 * this.fov ) / this.zoom;\n\t\tlet height = 2 * top;\n\t\tlet width = this.aspect * height;\n\t\tlet left = -0.5 * width;\n\t\tconst view = this.view;\n\n\t\tif ( this.view !== null && this.view.enabled ) {\n\n\t\t\tconst fullWidth = view.fullWidth,\n\t\t\t\tfullHeight = view.fullHeight;\n\n\t\t\tleft += view.offsetX * width / fullWidth;\n\t\t\ttop -= view.offsetY * height / fullHeight;\n\t\t\twidth *= view.width / fullWidth;\n\t\t\theight *= view.height / fullHeight;\n\n\t\t}\n\n\t\tconst skew = this.filmOffset;\n\t\tif ( skew !== 0 ) left += near * skew / this.getFilmWidth();\n\n\t\tthis.projectionMatrix.makePerspective( left, left + width, top, top - height, near, this.far, this.coordinateSystem, this.reversedDepth );\n\n\t\tthis.projectionMatrixInverse.copy( this.projectionMatrix ).invert();\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.fov = this.fov;\n\t\tdata.object.zoom = this.zoom;\n\n\t\tdata.object.near = this.near;\n\t\tdata.object.far = this.far;\n\t\tdata.object.focus = this.focus;\n\n\t\tdata.object.aspect = this.aspect;\n\n\t\tif ( this.view !== null ) data.object.view = Object.assign( {}, this.view );\n\n\t\tdata.object.filmGauge = this.filmGauge;\n\t\tdata.object.filmOffset = this.filmOffset;\n\n\t\treturn data;\n\n\t}\n\n}\n\nconst fov = -90; // negative fov is not an error\nconst aspect = 1;\n\n/**\n * A special type of camera that is positioned in 3D space to render its surroundings into a\n * cube render target. The render target can then be used as an environment map for rendering\n * realtime reflections in your scene.\n *\n * ```js\n * // Create cube render target\n * const cubeRenderTarget = new THREE.WebGLCubeRenderTarget( 256, { generateMipmaps: true, minFilter: THREE.LinearMipmapLinearFilter } );\n *\n * // Create cube camera\n * const cubeCamera = new THREE.CubeCamera( 1, 100000, cubeRenderTarget );\n * scene.add( cubeCamera );\n *\n * // Create car\n * const chromeMaterial = new THREE.MeshLambertMaterial( { color: 0xffffff, envMap: cubeRenderTarget.texture } );\n * const car = new THREE.Mesh( carGeometry, chromeMaterial );\n * scene.add( car );\n *\n * // Update the render target cube\n * car.visible = false;\n * cubeCamera.position.copy( car.position );\n * cubeCamera.update( renderer, scene );\n *\n * // Render the scene\n * car.visible = true;\n * renderer.render( scene, camera );\n * ```\n *\n * @augments Object3D\n */\nclass CubeCamera extends Object3D {\n\n\t/**\n\t * Constructs a new cube camera.\n\t *\n\t * @param {number} near - The camera's near plane.\n\t * @param {number} far - The camera's far plane.\n\t * @param {WebGLCubeRenderTarget} renderTarget - The cube render target.\n\t */\n\tconstructor( near, far, renderTarget ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CubeCamera';\n\n\t\t/**\n\t\t * A reference to the cube render target.\n\t\t *\n\t\t * @type {WebGLCubeRenderTarget}\n\t\t */\n\t\tthis.renderTarget = renderTarget;\n\n\t\t/**\n\t\t * The current active coordinate system.\n\t\t *\n\t\t * @type {?(WebGLCoordinateSystem|WebGPUCoordinateSystem)}\n\t\t * @default null\n\t\t */\n\t\tthis.coordinateSystem = null;\n\n\t\t/**\n\t\t * The current active mipmap level\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.activeMipmapLevel = 0;\n\n\t\tconst cameraPX = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraPX.layers = this.layers;\n\t\tthis.add( cameraPX );\n\n\t\tconst cameraNX = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraNX.layers = this.layers;\n\t\tthis.add( cameraNX );\n\n\t\tconst cameraPY = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraPY.layers = this.layers;\n\t\tthis.add( cameraPY );\n\n\t\tconst cameraNY = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraNY.layers = this.layers;\n\t\tthis.add( cameraNY );\n\n\t\tconst cameraPZ = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraPZ.layers = this.layers;\n\t\tthis.add( cameraPZ );\n\n\t\tconst cameraNZ = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraNZ.layers = this.layers;\n\t\tthis.add( cameraNZ );\n\n\t}\n\n\t/**\n\t * Must be called when the coordinate system of the cube camera is changed.\n\t */\n\tupdateCoordinateSystem() {\n\n\t\tconst coordinateSystem = this.coordinateSystem;\n\n\t\tconst cameras = this.children.concat();\n\n\t\tconst [ cameraPX, cameraNX, cameraPY, cameraNY, cameraPZ, cameraNZ ] = cameras;\n\n\t\tfor ( const camera of cameras ) this.remove( camera );\n\n\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\tcameraPX.up.set( 0, 1, 0 );\n\t\t\tcameraPX.lookAt( 1, 0, 0 );\n\n\t\t\tcameraNX.up.set( 0, 1, 0 );\n\t\t\tcameraNX.lookAt( -1, 0, 0 );\n\n\t\t\tcameraPY.up.set( 0, 0, -1 );\n\t\t\tcameraPY.lookAt( 0, 1, 0 );\n\n\t\t\tcameraNY.up.set( 0, 0, 1 );\n\t\t\tcameraNY.lookAt( 0, -1, 0 );\n\n\t\t\tcameraPZ.up.set( 0, 1, 0 );\n\t\t\tcameraPZ.lookAt( 0, 0, 1 );\n\n\t\t\tcameraNZ.up.set( 0, 1, 0 );\n\t\t\tcameraNZ.lookAt( 0, 0, -1 );\n\n\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\tcameraPX.up.set( 0, -1, 0 );\n\t\t\tcameraPX.lookAt( -1, 0, 0 );\n\n\t\t\tcameraNX.up.set( 0, -1, 0 );\n\t\t\tcameraNX.lookAt( 1, 0, 0 );\n\n\t\t\tcameraPY.up.set( 0, 0, 1 );\n\t\t\tcameraPY.lookAt( 0, 1, 0 );\n\n\t\t\tcameraNY.up.set( 0, 0, -1 );\n\t\t\tcameraNY.lookAt( 0, -1, 0 );\n\n\t\t\tcameraPZ.up.set( 0, -1, 0 );\n\t\t\tcameraPZ.lookAt( 0, 0, 1 );\n\n\t\t\tcameraNZ.up.set( 0, -1, 0 );\n\t\t\tcameraNZ.lookAt( 0, 0, -1 );\n\n\t\t} else {\n\n\t\t\tthrow new Error( 'THREE.CubeCamera.updateCoordinateSystem(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t}\n\n\t\tfor ( const camera of cameras ) {\n\n\t\t\tthis.add( camera );\n\n\t\t\tcamera.updateMatrixWorld();\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Calling this method will render the given scene with the given renderer\n\t * into the cube render target of the camera.\n\t *\n\t * @param {(Renderer|WebGLRenderer)} renderer - The renderer.\n\t * @param {Scene} scene - The scene to render.\n\t */\n\tupdate( renderer, scene ) {\n\n\t\tif ( this.parent === null ) this.updateMatrixWorld();\n\n\t\tconst { renderTarget, activeMipmapLevel } = this;\n\n\t\tif ( this.coordinateSystem !== renderer.coordinateSystem ) {\n\n\t\t\tthis.coordinateSystem = renderer.coordinateSystem;\n\n\t\t\tthis.updateCoordinateSystem();\n\n\t\t}\n\n\t\tconst [ cameraPX, cameraNX, cameraPY, cameraNY, cameraPZ, cameraNZ ] = this.children;\n\n\t\tconst currentRenderTarget = renderer.getRenderTarget();\n\t\tconst currentActiveCubeFace = renderer.getActiveCubeFace();\n\t\tconst currentActiveMipmapLevel = renderer.getActiveMipmapLevel();\n\n\t\tconst currentXrEnabled = renderer.xr.enabled;\n\n\t\trenderer.xr.enabled = false;\n\n\t\tconst generateMipmaps = renderTarget.texture.generateMipmaps;\n\n\t\trenderTarget.texture.generateMipmaps = false;\n\n\t\trenderer.setRenderTarget( renderTarget, 0, activeMipmapLevel );\n\t\trenderer.render( scene, cameraPX );\n\n\t\trenderer.setRenderTarget( renderTarget, 1, activeMipmapLevel );\n\t\trenderer.render( scene, cameraNX );\n\n\t\trenderer.setRenderTarget( renderTarget, 2, activeMipmapLevel );\n\t\trenderer.render( scene, cameraPY );\n\n\t\trenderer.setRenderTarget( renderTarget, 3, activeMipmapLevel );\n\t\trenderer.render( scene, cameraNY );\n\n\t\trenderer.setRenderTarget( renderTarget, 4, activeMipmapLevel );\n\t\trenderer.render( scene, cameraPZ );\n\n\t\t// mipmaps are generated during the last call of render()\n\t\t// at this point, all sides of the cube render target are defined\n\n\t\trenderTarget.texture.generateMipmaps = generateMipmaps;\n\n\t\trenderer.setRenderTarget( renderTarget, 5, activeMipmapLevel );\n\t\trenderer.render( scene, cameraNZ );\n\n\t\trenderer.setRenderTarget( currentRenderTarget, currentActiveCubeFace, currentActiveMipmapLevel );\n\n\t\trenderer.xr.enabled = currentXrEnabled;\n\n\t\trenderTarget.texture.needsPMREMUpdate = true;\n\n\t}\n\n}\n\n/**\n * Creates a cube texture made up of six images.\n *\n * ```js\n * const loader = new THREE.CubeTextureLoader();\n * loader.setPath( 'textures/cube/pisa/' );\n *\n * const textureCube = loader.load( [\n * \t'px.png', 'nx.png', 'py.png', 'ny.png', 'pz.png', 'nz.png'\n * ] );\n *\n * const material = new THREE.MeshBasicMaterial( { color: 0xffffff, envMap: textureCube } );\n * ```\n *\n * @augments Texture\n */\nclass CubeTexture extends Texture {\n\n\t/**\n\t * Constructs a new cube texture.\n\t *\n\t * @param {Array} [images=[]] - An array holding a image for each side of a cube.\n\t * @param {number} [mapping=CubeReflectionMapping] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space value.\n\t */\n\tconstructor( images = [], mapping = CubeReflectionMapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace ) {\n\n\t\tsuper( images, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubeTexture = true;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t}\n\n\t/**\n\t * Alias for {@link CubeTexture#image}.\n\t *\n\t * @type {Array}\n\t */\n\tget images() {\n\n\t\treturn this.image;\n\n\t}\n\n\tset images( value ) {\n\n\t\tthis.image = value;\n\n\t}\n\n}\n\n/**\n * A cube render target used in context of {@link WebGLRenderer}.\n *\n * @augments WebGLRenderTarget\n */\nclass WebGLCubeRenderTarget extends WebGLRenderTarget {\n\n\t/**\n\t * Constructs a new cube render target.\n\t *\n\t * @param {number} [size=1] - The size of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( size = 1, options = {} ) {\n\n\t\tsuper( size, size, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGLCubeRenderTarget = true;\n\n\t\tconst image = { width: size, height: size, depth: 1 };\n\t\tconst images = [ image, image, image, image, image, image ];\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {DataArrayTexture}\n\t\t */\n\t\tthis.texture = new CubeTexture( images );\n\t\tthis._setTextureOptions( options );\n\n\t\t// By convention -- likely based on the RenderMan spec from the 1990's -- cube maps are specified by WebGL (and three.js)\n\t\t// in a coordinate system in which positive-x is to the right when looking up the positive-z axis -- in other words,\n\t\t// in a left-handed coordinate system. By continuing this convention, preexisting cube maps continued to render correctly.\n\n\t\t// three.js uses a right-handed coordinate system. So environment maps used in three.js appear to have px and nx swapped\n\t\t// and the flag isRenderTargetTexture controls this conversion. The flip is not required when using WebGLCubeRenderTarget.texture\n\t\t// as a cube texture (this is detected when isRenderTargetTexture is set to true for cube textures).\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n\t/**\n\t * Converts the given equirectangular texture to a cube map.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {Texture} texture - The equirectangular texture.\n\t * @return {WebGLCubeRenderTarget} A reference to this cube render target.\n\t */\n\tfromEquirectangularTexture( renderer, texture ) {\n\n\t\tthis.texture.type = texture.type;\n\t\tthis.texture.colorSpace = texture.colorSpace;\n\n\t\tthis.texture.generateMipmaps = texture.generateMipmaps;\n\t\tthis.texture.minFilter = texture.minFilter;\n\t\tthis.texture.magFilter = texture.magFilter;\n\n\t\tconst shader = {\n\n\t\t\tuniforms: {\n\t\t\t\ttEquirect: { value: null },\n\t\t\t},\n\n\t\t\tvertexShader: /* glsl */`\n\n\t\t\t\tvarying vec3 vWorldDirection;\n\n\t\t\t\tvec3 transformDirection( in vec3 dir, in mat4 matrix ) {\n\n\t\t\t\t\treturn normalize( ( matrix * vec4( dir, 0.0 ) ).xyz );\n\n\t\t\t\t}\n\n\t\t\t\tvoid main() {\n\n\t\t\t\t\tvWorldDirection = transformDirection( position, modelMatrix );\n\n\t\t\t\t\t#include \n\t\t\t\t\t#include \n\n\t\t\t\t}\n\t\t\t`,\n\n\t\t\tfragmentShader: /* glsl */`\n\n\t\t\t\tuniform sampler2D tEquirect;\n\n\t\t\t\tvarying vec3 vWorldDirection;\n\n\t\t\t\t#include \n\n\t\t\t\tvoid main() {\n\n\t\t\t\t\tvec3 direction = normalize( vWorldDirection );\n\n\t\t\t\t\tvec2 sampleUV = equirectUv( direction );\n\n\t\t\t\t\tgl_FragColor = texture2D( tEquirect, sampleUV );\n\n\t\t\t\t}\n\t\t\t`\n\t\t};\n\n\t\tconst geometry = new BoxGeometry( 5, 5, 5 );\n\n\t\tconst material = new ShaderMaterial( {\n\n\t\t\tname: 'CubemapFromEquirect',\n\n\t\t\tuniforms: cloneUniforms( shader.uniforms ),\n\t\t\tvertexShader: shader.vertexShader,\n\t\t\tfragmentShader: shader.fragmentShader,\n\t\t\tside: BackSide,\n\t\t\tblending: NoBlending\n\n\t\t} );\n\n\t\tmaterial.uniforms.tEquirect.value = texture;\n\n\t\tconst mesh = new Mesh( geometry, material );\n\n\t\tconst currentMinFilter = texture.minFilter;\n\n\t\t// Avoid blurred poles\n\t\tif ( texture.minFilter === LinearMipmapLinearFilter ) texture.minFilter = LinearFilter;\n\n\t\tconst camera = new CubeCamera( 1, 10, this );\n\t\tcamera.update( renderer, mesh );\n\n\t\ttexture.minFilter = currentMinFilter;\n\n\t\tmesh.geometry.dispose();\n\t\tmesh.material.dispose();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Clears this cube render target.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {boolean} [color=true] - Whether the color buffer should be cleared or not.\n\t * @param {boolean} [depth=true] - Whether the depth buffer should be cleared or not.\n\t * @param {boolean} [stencil=true] - Whether the stencil buffer should be cleared or not.\n\t */\n\tclear( renderer, color = true, depth = true, stencil = true ) {\n\n\t\tconst currentRenderTarget = renderer.getRenderTarget();\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\trenderer.setRenderTarget( this, i );\n\n\t\t\trenderer.clear( color, depth, stencil );\n\n\t\t}\n\n\t\trenderer.setRenderTarget( currentRenderTarget );\n\n\t}\n\n}\n\n/**\n * This is almost identical to an {@link Object3D}. Its purpose is to\n * make working with groups of objects syntactically clearer.\n *\n * ```js\n * // Create a group and add the two cubes.\n * // These cubes can now be rotated / scaled etc as a group.\n * const group = new THREE.Group();\n *\n * group.add( meshA );\n * group.add( meshB );\n *\n * scene.add( group );\n * ```\n *\n * @augments Object3D\n */\nclass Group extends Object3D {\n\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isGroup = true;\n\n\t\tthis.type = 'Group';\n\n\t}\n\n}\n\nconst _moveEvent = { type: 'move' };\n\n/**\n * Class for representing a XR controller with its\n * different coordinate systems.\n *\n * @private\n */\nclass WebXRController {\n\n\t/**\n\t * Constructs a new XR controller.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * A group representing the target ray space\n\t\t * of the XR controller.\n\t\t *\n\t\t * @private\n\t\t * @type {?Group}\n\t\t * @default null\n\t\t */\n\t\tthis._targetRay = null;\n\n\t\t/**\n\t\t * A group representing the grip space\n\t\t * of the XR controller.\n\t\t *\n\t\t * @private\n\t\t * @type {?Group}\n\t\t * @default null\n\t\t */\n\t\tthis._grip = null;\n\n\t\t/**\n\t\t * A group representing the hand space\n\t\t * of the XR controller.\n\t\t *\n\t\t * @private\n\t\t * @type {?Group}\n\t\t * @default null\n\t\t */\n\t\tthis._hand = null;\n\n\t}\n\n\t/**\n\t * Returns a group representing the hand space of the XR controller.\n\t *\n\t * @return {Group} A group representing the hand space of the XR controller.\n\t */\n\tgetHandSpace() {\n\n\t\tif ( this._hand === null ) {\n\n\t\t\tthis._hand = new Group();\n\t\t\tthis._hand.matrixAutoUpdate = false;\n\t\t\tthis._hand.visible = false;\n\n\t\t\tthis._hand.joints = {};\n\t\t\tthis._hand.inputState = { pinching: false };\n\n\t\t}\n\n\t\treturn this._hand;\n\n\t}\n\n\t/**\n\t * Returns a group representing the target ray space of the XR controller.\n\t *\n\t * @return {Group} A group representing the target ray space of the XR controller.\n\t */\n\tgetTargetRaySpace() {\n\n\t\tif ( this._targetRay === null ) {\n\n\t\t\tthis._targetRay = new Group();\n\t\t\tthis._targetRay.matrixAutoUpdate = false;\n\t\t\tthis._targetRay.visible = false;\n\t\t\tthis._targetRay.hasLinearVelocity = false;\n\t\t\tthis._targetRay.linearVelocity = new Vector3();\n\t\t\tthis._targetRay.hasAngularVelocity = false;\n\t\t\tthis._targetRay.angularVelocity = new Vector3();\n\n\t\t}\n\n\t\treturn this._targetRay;\n\n\t}\n\n\t/**\n\t * Returns a group representing the grip space of the XR controller.\n\t *\n\t * @return {Group} A group representing the grip space of the XR controller.\n\t */\n\tgetGripSpace() {\n\n\t\tif ( this._grip === null ) {\n\n\t\t\tthis._grip = new Group();\n\t\t\tthis._grip.matrixAutoUpdate = false;\n\t\t\tthis._grip.visible = false;\n\t\t\tthis._grip.hasLinearVelocity = false;\n\t\t\tthis._grip.linearVelocity = new Vector3();\n\t\t\tthis._grip.hasAngularVelocity = false;\n\t\t\tthis._grip.angularVelocity = new Vector3();\n\n\t\t}\n\n\t\treturn this._grip;\n\n\t}\n\n\t/**\n\t * Dispatches the given event to the groups representing\n\t * the different coordinate spaces of the XR controller.\n\t *\n\t * @param {Object} event - The event to dispatch.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tdispatchEvent( event ) {\n\n\t\tif ( this._targetRay !== null ) {\n\n\t\t\tthis._targetRay.dispatchEvent( event );\n\n\t\t}\n\n\t\tif ( this._grip !== null ) {\n\n\t\t\tthis._grip.dispatchEvent( event );\n\n\t\t}\n\n\t\tif ( this._hand !== null ) {\n\n\t\t\tthis._hand.dispatchEvent( event );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Connects the controller with the given XR input source.\n\t *\n\t * @param {XRInputSource} inputSource - The input source.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tconnect( inputSource ) {\n\n\t\tif ( inputSource && inputSource.hand ) {\n\n\t\t\tconst hand = this._hand;\n\n\t\t\tif ( hand ) {\n\n\t\t\t\tfor ( const inputjoint of inputSource.hand.values() ) {\n\n\t\t\t\t\t// Initialize hand with joints when connected\n\t\t\t\t\tthis._getHandJoint( hand, inputjoint );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.dispatchEvent( { type: 'connected', data: inputSource } );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Disconnects the controller from the given XR input source.\n\t *\n\t * @param {XRInputSource} inputSource - The input source.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tdisconnect( inputSource ) {\n\n\t\tthis.dispatchEvent( { type: 'disconnected', data: inputSource } );\n\n\t\tif ( this._targetRay !== null ) {\n\n\t\t\tthis._targetRay.visible = false;\n\n\t\t}\n\n\t\tif ( this._grip !== null ) {\n\n\t\t\tthis._grip.visible = false;\n\n\t\t}\n\n\t\tif ( this._hand !== null ) {\n\n\t\t\tthis._hand.visible = false;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Updates the controller with the given input source, XR frame and reference space.\n\t * This updates the transformations of the groups that represent the different\n\t * coordinate systems of the controller.\n\t *\n\t * @param {XRInputSource} inputSource - The input source.\n\t * @param {XRFrame} frame - The XR frame.\n\t * @param {XRReferenceSpace} referenceSpace - The reference space.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tupdate( inputSource, frame, referenceSpace ) {\n\n\t\tlet inputPose = null;\n\t\tlet gripPose = null;\n\t\tlet handPose = null;\n\n\t\tconst targetRay = this._targetRay;\n\t\tconst grip = this._grip;\n\t\tconst hand = this._hand;\n\n\t\tif ( inputSource && frame.session.visibilityState !== 'visible-blurred' ) {\n\n\t\t\tif ( hand && inputSource.hand ) {\n\n\t\t\t\thandPose = true;\n\n\t\t\t\tfor ( const inputjoint of inputSource.hand.values() ) {\n\n\t\t\t\t\t// Update the joints groups with the XRJoint poses\n\t\t\t\t\tconst jointPose = frame.getJointPose( inputjoint, referenceSpace );\n\n\t\t\t\t\t// The transform of this joint will be updated with the joint pose on each frame\n\t\t\t\t\tconst joint = this._getHandJoint( hand, inputjoint );\n\n\t\t\t\t\tif ( jointPose !== null ) {\n\n\t\t\t\t\t\tjoint.matrix.fromArray( jointPose.transform.matrix );\n\t\t\t\t\t\tjoint.matrix.decompose( joint.position, joint.rotation, joint.scale );\n\t\t\t\t\t\tjoint.matrixWorldNeedsUpdate = true;\n\t\t\t\t\t\tjoint.jointRadius = jointPose.radius;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tjoint.visible = jointPose !== null;\n\n\t\t\t\t}\n\n\t\t\t\t// Custom events\n\n\t\t\t\t// Check pinchz\n\t\t\t\tconst indexTip = hand.joints[ 'index-finger-tip' ];\n\t\t\t\tconst thumbTip = hand.joints[ 'thumb-tip' ];\n\t\t\t\tconst distance = indexTip.position.distanceTo( thumbTip.position );\n\n\t\t\t\tconst distanceToPinch = 0.02;\n\t\t\t\tconst threshold = 0.005;\n\n\t\t\t\tif ( hand.inputState.pinching && distance > distanceToPinch + threshold ) {\n\n\t\t\t\t\thand.inputState.pinching = false;\n\t\t\t\t\tthis.dispatchEvent( {\n\t\t\t\t\t\ttype: 'pinchend',\n\t\t\t\t\t\thandedness: inputSource.handedness,\n\t\t\t\t\t\ttarget: this\n\t\t\t\t\t} );\n\n\t\t\t\t} else if ( ! hand.inputState.pinching && distance <= distanceToPinch - threshold ) {\n\n\t\t\t\t\thand.inputState.pinching = true;\n\t\t\t\t\tthis.dispatchEvent( {\n\t\t\t\t\t\ttype: 'pinchstart',\n\t\t\t\t\t\thandedness: inputSource.handedness,\n\t\t\t\t\t\ttarget: this\n\t\t\t\t\t} );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tif ( grip !== null && inputSource.gripSpace ) {\n\n\t\t\t\t\tgripPose = frame.getPose( inputSource.gripSpace, referenceSpace );\n\n\t\t\t\t\tif ( gripPose !== null ) {\n\n\t\t\t\t\t\tgrip.matrix.fromArray( gripPose.transform.matrix );\n\t\t\t\t\t\tgrip.matrix.decompose( grip.position, grip.rotation, grip.scale );\n\t\t\t\t\t\tgrip.matrixWorldNeedsUpdate = true;\n\n\t\t\t\t\t\tif ( gripPose.linearVelocity ) {\n\n\t\t\t\t\t\t\tgrip.hasLinearVelocity = true;\n\t\t\t\t\t\t\tgrip.linearVelocity.copy( gripPose.linearVelocity );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tgrip.hasLinearVelocity = false;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tif ( gripPose.angularVelocity ) {\n\n\t\t\t\t\t\t\tgrip.hasAngularVelocity = true;\n\t\t\t\t\t\t\tgrip.angularVelocity.copy( gripPose.angularVelocity );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tgrip.hasAngularVelocity = false;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( targetRay !== null ) {\n\n\t\t\t\tinputPose = frame.getPose( inputSource.targetRaySpace, referenceSpace );\n\n\t\t\t\t// Some runtimes (namely Vive Cosmos with Vive OpenXR Runtime) have only grip space and ray space is equal to it\n\t\t\t\tif ( inputPose === null && gripPose !== null ) {\n\n\t\t\t\t\tinputPose = gripPose;\n\n\t\t\t\t}\n\n\t\t\t\tif ( inputPose !== null ) {\n\n\t\t\t\t\ttargetRay.matrix.fromArray( inputPose.transform.matrix );\n\t\t\t\t\ttargetRay.matrix.decompose( targetRay.position, targetRay.rotation, targetRay.scale );\n\t\t\t\t\ttargetRay.matrixWorldNeedsUpdate = true;\n\n\t\t\t\t\tif ( inputPose.linearVelocity ) {\n\n\t\t\t\t\t\ttargetRay.hasLinearVelocity = true;\n\t\t\t\t\t\ttargetRay.linearVelocity.copy( inputPose.linearVelocity );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ttargetRay.hasLinearVelocity = false;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( inputPose.angularVelocity ) {\n\n\t\t\t\t\t\ttargetRay.hasAngularVelocity = true;\n\t\t\t\t\t\ttargetRay.angularVelocity.copy( inputPose.angularVelocity );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ttargetRay.hasAngularVelocity = false;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tthis.dispatchEvent( _moveEvent );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\n\t\t}\n\n\t\tif ( targetRay !== null ) {\n\n\t\t\ttargetRay.visible = ( inputPose !== null );\n\n\t\t}\n\n\t\tif ( grip !== null ) {\n\n\t\t\tgrip.visible = ( gripPose !== null );\n\n\t\t}\n\n\t\tif ( hand !== null ) {\n\n\t\t\thand.visible = ( handPose !== null );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a group representing the hand joint for the given input joint.\n\t *\n\t * @private\n\t * @param {Group} hand - The group representing the hand space.\n\t * @param {XRJointSpace} inputjoint - The hand joint data.\n\t * @return {Group} A group representing the hand joint for the given input joint.\n\t */\n\t_getHandJoint( hand, inputjoint ) {\n\n\t\tif ( hand.joints[ inputjoint.jointName ] === undefined ) {\n\n\t\t\tconst joint = new Group();\n\t\t\tjoint.matrixAutoUpdate = false;\n\t\t\tjoint.visible = false;\n\t\t\thand.joints[ inputjoint.jointName ] = joint;\n\n\t\t\thand.add( joint );\n\n\t\t}\n\n\t\treturn hand.joints[ inputjoint.jointName ];\n\n\t}\n\n}\n\n/**\n * This class can be used to define an exponential squared fog,\n * which gives a clear view near the camera and a faster than exponentially\n * densening fog farther from the camera.\n *\n * ```js\n * const scene = new THREE.Scene();\n * scene.fog = new THREE.FogExp2( 0xcccccc, 0.002 );\n * ```\n */\nclass FogExp2 {\n\n\t/**\n\t * Constructs a new fog.\n\t *\n\t * @param {number|Color} color - The fog's color.\n\t * @param {number} [density=0.00025] - Defines how fast the fog will grow dense.\n\t */\n\tconstructor( color, density = 0.00025 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isFogExp2 = true;\n\n\t\t/**\n\t\t * The name of the fog.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The fog's color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color( color );\n\n\t\t/**\n\t\t * Defines how fast the fog will grow dense.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.00025\n\t\t */\n\t\tthis.density = density;\n\n\t}\n\n\t/**\n\t * Returns a new fog with copied values from this instance.\n\t *\n\t * @return {FogExp2} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new FogExp2( this.color, this.density );\n\n\t}\n\n\t/**\n\t * Serializes the fog into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized fog\n\t */\n\ttoJSON( /* meta */ ) {\n\n\t\treturn {\n\t\t\ttype: 'FogExp2',\n\t\t\tname: this.name,\n\t\t\tcolor: this.color.getHex(),\n\t\t\tdensity: this.density\n\t\t};\n\n\t}\n\n}\n\n/**\n * This class can be used to define a linear fog that grows linearly denser\n * with the distance.\n *\n * ```js\n * const scene = new THREE.Scene();\n * scene.fog = new THREE.Fog( 0xcccccc, 10, 15 );\n * ```\n */\nclass Fog {\n\n\t/**\n\t * Constructs a new fog.\n\t *\n\t * @param {number|Color} color - The fog's color.\n\t * @param {number} [near=1] - The minimum distance to start applying fog.\n\t * @param {number} [far=1000] - The maximum distance at which fog stops being calculated and applied.\n\t */\n\tconstructor( color, near = 1, far = 1000 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isFog = true;\n\n\t\t/**\n\t\t * The name of the fog.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The fog's color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color( color );\n\n\t\t/**\n\t\t * The minimum distance to start applying fog. Objects that are less than\n\t\t * `near` units from the active camera won't be affected by fog.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * The maximum distance at which fog stops being calculated and applied.\n\t\t * Objects that are more than `far` units away from the active camera won't\n\t\t * be affected by fog.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1000\n\t\t */\n\t\tthis.far = far;\n\n\t}\n\n\t/**\n\t * Returns a new fog with copied values from this instance.\n\t *\n\t * @return {Fog} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Fog( this.color, this.near, this.far );\n\n\t}\n\n\t/**\n\t * Serializes the fog into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized fog\n\t */\n\ttoJSON( /* meta */ ) {\n\n\t\treturn {\n\t\t\ttype: 'Fog',\n\t\t\tname: this.name,\n\t\t\tcolor: this.color.getHex(),\n\t\t\tnear: this.near,\n\t\t\tfar: this.far\n\t\t};\n\n\t}\n\n}\n\n/**\n * Scenes allow you to set up what is to be rendered and where by three.js.\n * This is where you place 3D objects like meshes, lines or lights.\n *\n * @augments Object3D\n */\nclass Scene extends Object3D {\n\n\t/**\n\t * Constructs a new scene.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isScene = true;\n\n\t\tthis.type = 'Scene';\n\n\t\t/**\n\t\t * Defines the background of the scene. Valid inputs are:\n\t\t *\n\t\t * - A color for defining a uniform colored background.\n\t\t * - A texture for defining a (flat) textured background.\n\t\t * - Cube textures or equirectangular textures for defining a skybox.\n\t\t *\n\t\t * @type {?(Color|Texture)}\n\t\t * @default null\n\t\t */\n\t\tthis.background = null;\n\n\t\t/**\n\t\t * Sets the environment map for all physical materials in the scene. However,\n\t\t * it's not possible to overwrite an existing texture assigned to the `envMap`\n\t\t * material property.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.environment = null;\n\n\t\t/**\n\t\t * A fog instance defining the type of fog that affects everything\n\t\t * rendered in the scene.\n\t\t *\n\t\t * @type {?(Fog|FogExp2)}\n\t\t * @default null\n\t\t */\n\t\tthis.fog = null;\n\n\t\t/**\n\t\t * Sets the blurriness of the background. Only influences environment maps\n\t\t * assigned to {@link Scene#background}. Valid input is a float between `0`\n\t\t * and `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.backgroundBlurriness = 0;\n\n\t\t/**\n\t\t * Attenuates the color of the background. Only applies to background textures.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.backgroundIntensity = 1;\n\n\t\t/**\n\t\t * The rotation of the background in radians. Only influences environment maps\n\t\t * assigned to {@link Scene#background}.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.backgroundRotation = new Euler();\n\n\t\t/**\n\t\t * Attenuates the color of the environment. Only influences environment maps\n\t\t * assigned to {@link Scene#environment}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.environmentIntensity = 1;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians. Only influences physical materials\n\t\t * in the scene when {@link Scene#environment} is used.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.environmentRotation = new Euler();\n\n\t\t/**\n\t\t * Forces everything in the scene to be rendered with the defined material. It is possible\n\t\t * to exclude materials from override by setting {@link Material#allowOverride} to `false`.\n\t\t *\n\t\t * @type {?Material}\n\t\t * @default null\n\t\t */\n\t\tthis.overrideMaterial = null;\n\n\t\tif ( typeof __THREE_DEVTOOLS__ !== 'undefined' ) {\n\n\t\t\t__THREE_DEVTOOLS__.dispatchEvent( new CustomEvent( 'observe', { detail: this } ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.background !== null ) this.background = source.background.clone();\n\t\tif ( source.environment !== null ) this.environment = source.environment.clone();\n\t\tif ( source.fog !== null ) this.fog = source.fog.clone();\n\n\t\tthis.backgroundBlurriness = source.backgroundBlurriness;\n\t\tthis.backgroundIntensity = source.backgroundIntensity;\n\t\tthis.backgroundRotation.copy( source.backgroundRotation );\n\n\t\tthis.environmentIntensity = source.environmentIntensity;\n\t\tthis.environmentRotation.copy( source.environmentRotation );\n\n\t\tif ( source.overrideMaterial !== null ) this.overrideMaterial = source.overrideMaterial.clone();\n\n\t\tthis.matrixAutoUpdate = source.matrixAutoUpdate;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tif ( this.fog !== null ) data.object.fog = this.fog.toJSON();\n\n\t\tif ( this.backgroundBlurriness > 0 ) data.object.backgroundBlurriness = this.backgroundBlurriness;\n\t\tif ( this.backgroundIntensity !== 1 ) data.object.backgroundIntensity = this.backgroundIntensity;\n\t\tdata.object.backgroundRotation = this.backgroundRotation.toArray();\n\n\t\tif ( this.environmentIntensity !== 1 ) data.object.environmentIntensity = this.environmentIntensity;\n\t\tdata.object.environmentRotation = this.environmentRotation.toArray();\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * \"Interleaved\" means that multiple attributes, possibly of different types,\n * (e.g., position, normal, uv, color) are packed into a single array buffer.\n *\n * An introduction into interleaved arrays can be found here: [Interleaved array basics]{@link https://blog.tojicode.com/2011/05/interleaved-array-basics.html}\n */\nclass InterleavedBuffer {\n\n\t/**\n\t * Constructs a new interleaved buffer.\n\t *\n\t * @param {TypedArray} array - A typed array with a shared buffer storing attribute data.\n\t * @param {number} stride - The number of typed-array elements per vertex.\n\t */\n\tconstructor( array, stride ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInterleavedBuffer = true;\n\n\t\t/**\n\t\t * A typed array with a shared buffer storing attribute data.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.array = array;\n\n\t\t/**\n\t\t * The number of typed-array elements per vertex.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.stride = stride;\n\n\t\t/**\n\t\t * The total number of elements in the array\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tthis.count = array !== undefined ? array.length / stride : 0;\n\n\t\t/**\n\t\t * Defines the intended usage pattern of the data store for optimization purposes.\n\t\t *\n\t\t * Note: After the initial use of a buffer, its usage cannot be changed. Instead,\n\t\t * instantiate a new one and set the desired usage before the next render.\n\t\t *\n\t\t * @type {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)}\n\t\t * @default StaticDrawUsage\n\t\t */\n\t\tthis.usage = StaticDrawUsage;\n\n\t\t/**\n\t\t * This can be used to only update some components of stored vectors (for example, just the\n\t\t * component related to color). Use the `addUpdateRange()` function to add ranges to this array.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.updateRanges = [];\n\n\t\t/**\n\t\t * A version number, incremented every time the `needsUpdate` is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.version = 0;\n\n\t\t/**\n\t\t * The UUID of the interleaved buffer.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t}\n\n\t/**\n\t * A callback function that is executed after the renderer has transferred the attribute array\n\t * data to the GPU.\n\t */\n\tonUploadCallback() {}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Sets the usage of this interleaved buffer.\n\t *\n\t * @param {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)} value - The usage to set.\n\t * @return {InterleavedBuffer} A reference to this interleaved buffer.\n\t */\n\tsetUsage( value ) {\n\n\t\tthis.usage = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds a range of data in the data array to be updated on the GPU.\n\t *\n\t * @param {number} start - Position at which to start update.\n\t * @param {number} count - The number of components to update.\n\t */\n\taddUpdateRange( start, count ) {\n\n\t\tthis.updateRanges.push( { start, count } );\n\n\t}\n\n\t/**\n\t * Clears the update ranges.\n\t */\n\tclearUpdateRanges() {\n\n\t\tthis.updateRanges.length = 0;\n\n\t}\n\n\t/**\n\t * Copies the values of the given interleaved buffer to this instance.\n\t *\n\t * @param {InterleavedBuffer} source - The interleaved buffer to copy.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.array = new source.array.constructor( source.array );\n\t\tthis.count = source.count;\n\t\tthis.stride = source.stride;\n\t\tthis.usage = source.usage;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies a vector from the given interleaved buffer to this one. The start\n\t * and destination position in the attribute buffers are represented by the\n\t * given indices.\n\t *\n\t * @param {number} index1 - The destination index into this interleaved buffer.\n\t * @param {InterleavedBuffer} interleavedBuffer - The interleaved buffer to copy from.\n\t * @param {number} index2 - The source index into the given interleaved buffer.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tcopyAt( index1, interleavedBuffer, index2 ) {\n\n\t\tindex1 *= this.stride;\n\t\tindex2 *= interleavedBuffer.stride;\n\n\t\tfor ( let i = 0, l = this.stride; i < l; i ++ ) {\n\n\t\t\tthis.array[ index1 + i ] = interleavedBuffer.array[ index2 + i ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given array data in the interleaved buffer.\n\t *\n\t * @param {(TypedArray|Array)} value - The array data to set.\n\t * @param {number} [offset=0] - The offset in this interleaved buffer's array.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tset( value, offset = 0 ) {\n\n\t\tthis.array.set( value, offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new interleaved buffer with copied values from this instance.\n\t *\n\t * @param {Object} [data] - An object with shared array buffers that allows to retain shared structures.\n\t * @return {InterleavedBuffer} A clone of this instance.\n\t */\n\tclone( data ) {\n\n\t\tif ( data.arrayBuffers === undefined ) {\n\n\t\t\tdata.arrayBuffers = {};\n\n\t\t}\n\n\t\tif ( this.array.buffer._uuid === undefined ) {\n\n\t\t\tthis.array.buffer._uuid = generateUUID();\n\n\t\t}\n\n\t\tif ( data.arrayBuffers[ this.array.buffer._uuid ] === undefined ) {\n\n\t\t\tdata.arrayBuffers[ this.array.buffer._uuid ] = this.array.slice( 0 ).buffer;\n\n\t\t}\n\n\t\tconst array = new this.array.constructor( data.arrayBuffers[ this.array.buffer._uuid ] );\n\n\t\tconst ib = new this.constructor( array, this.stride );\n\t\tib.setUsage( this.usage );\n\n\t\treturn ib;\n\n\t}\n\n\t/**\n\t * Sets the given callback function that is executed after the Renderer has transferred\n\t * the array data to the GPU. Can be used to perform clean-up operations after\n\t * the upload when data are not needed anymore on the CPU side.\n\t *\n\t * @param {Function} callback - The `onUpload()` callback.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tonUpload( callback ) {\n\n\t\tthis.onUploadCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Serializes the interleaved buffer into JSON.\n\t *\n\t * @param {Object} [data] - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized interleaved buffer.\n\t */\n\ttoJSON( data ) {\n\n\t\tif ( data.arrayBuffers === undefined ) {\n\n\t\t\tdata.arrayBuffers = {};\n\n\t\t}\n\n\t\t// generate UUID for array buffer if necessary\n\n\t\tif ( this.array.buffer._uuid === undefined ) {\n\n\t\t\tthis.array.buffer._uuid = generateUUID();\n\n\t\t}\n\n\t\tif ( data.arrayBuffers[ this.array.buffer._uuid ] === undefined ) {\n\n\t\t\tdata.arrayBuffers[ this.array.buffer._uuid ] = Array.from( new Uint32Array( this.array.buffer ) );\n\n\t\t}\n\n\t\t//\n\n\t\treturn {\n\t\t\tuuid: this.uuid,\n\t\t\tbuffer: this.array.buffer._uuid,\n\t\t\ttype: this.array.constructor.name,\n\t\t\tstride: this.stride\n\t\t};\n\n\t}\n\n}\n\nconst _vector$7 = /*@__PURE__*/ new Vector3();\n\n/**\n * An alternative version of a buffer attribute with interleaved data. Interleaved\n * attributes share a common interleaved data storage ({@link InterleavedBuffer}) and refer with\n * different offsets into the buffer.\n */\nclass InterleavedBufferAttribute {\n\n\t/**\n\t * Constructs a new interleaved buffer attribute.\n\t *\n\t * @param {InterleavedBuffer} interleavedBuffer - The buffer holding the interleaved data.\n\t * @param {number} itemSize - The item size.\n\t * @param {number} offset - The attribute offset into the buffer.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( interleavedBuffer, itemSize, offset, normalized = false ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInterleavedBufferAttribute = true;\n\n\t\t/**\n\t\t * The name of the buffer attribute.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The buffer holding the interleaved data.\n\t\t *\n\t\t * @type {InterleavedBuffer}\n\t\t */\n\t\tthis.data = interleavedBuffer;\n\n\t\t/**\n\t\t * The item size, see {@link BufferAttribute#itemSize}.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.itemSize = itemSize;\n\n\t\t/**\n\t\t * The attribute offset into the buffer.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.offset = offset;\n\n\t\t/**\n\t\t * Whether the data are normalized or not, see {@link BufferAttribute#normalized}\n\t\t *\n\t\t * @type {InterleavedBuffer}\n\t\t */\n\t\tthis.normalized = normalized;\n\n\t}\n\n\t/**\n\t * The item count of this buffer attribute.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget count() {\n\n\t\treturn this.data.count;\n\n\t}\n\n\t/**\n\t * The array holding the interleaved buffer attribute data.\n\t *\n\t * @type {TypedArray}\n\t */\n\tget array() {\n\n\t\treturn this.data.array;\n\n\t}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tthis.data.needsUpdate = value;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tfor ( let i = 0, l = this.data.count; i < l; i ++ ) {\n\n\t\t\t_vector$7.fromBufferAttribute( this, i );\n\n\t\t\t_vector$7.applyMatrix4( m );\n\n\t\t\tthis.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 3x3 normal matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix3} m - The normal matrix to apply.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tapplyNormalMatrix( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$7.fromBufferAttribute( this, i );\n\n\t\t\t_vector$7.applyNormalMatrix( m );\n\n\t\t\tthis.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3` and with direction vectors.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\ttransformDirection( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$7.fromBufferAttribute( this, i );\n\n\t\t\t_vector$7.transformDirection( m );\n\n\t\t\tthis.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @return {number} The returned value.\n\t */\n\tgetComponent( index, component ) {\n\n\t\tlet value = this.array[ index * this.data.stride + this.offset + component ];\n\n\t\tif ( this.normalized ) value = denormalize( value, this.array );\n\n\t\treturn value;\n\n\t}\n\n\t/**\n\t * Sets the given value to the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @param {number} value - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetComponent( index, component, value ) {\n\n\t\tif ( this.normalized ) value = normalize( value, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + component ] = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetX( index, x ) {\n\n\t\tif ( this.normalized ) x = normalize( x, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset ] = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} y - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetY( index, y ) {\n\n\t\tif ( this.normalized ) y = normalize( y, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} z - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetZ( index, z ) {\n\n\t\tif ( this.normalized ) z = normalize( z, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} w - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetW( index, w ) {\n\n\t\tif ( this.normalized ) w = normalize( w, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The x component.\n\t */\n\tgetX( index ) {\n\n\t\tlet x = this.data.array[ index * this.data.stride + this.offset ];\n\n\t\tif ( this.normalized ) x = denormalize( x, this.array );\n\n\t\treturn x;\n\n\t}\n\n\t/**\n\t * Returns the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The y component.\n\t */\n\tgetY( index ) {\n\n\t\tlet y = this.data.array[ index * this.data.stride + this.offset + 1 ];\n\n\t\tif ( this.normalized ) y = denormalize( y, this.array );\n\n\t\treturn y;\n\n\t}\n\n\t/**\n\t * Returns the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The z component.\n\t */\n\tgetZ( index ) {\n\n\t\tlet z = this.data.array[ index * this.data.stride + this.offset + 2 ];\n\n\t\tif ( this.normalized ) z = denormalize( z, this.array );\n\n\t\treturn z;\n\n\t}\n\n\t/**\n\t * Returns the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The w component.\n\t */\n\tgetW( index ) {\n\n\t\tlet w = this.data.array[ index * this.data.stride + this.offset + 3 ];\n\n\t\tif ( this.normalized ) w = denormalize( w, this.array );\n\n\t\treturn w;\n\n\t}\n\n\t/**\n\t * Sets the x and y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetXY( index, x, y ) {\n\n\t\tindex = index * this.data.stride + this.offset;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\n\t\t}\n\n\t\tthis.data.array[ index + 0 ] = x;\n\t\tthis.data.array[ index + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y and z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetXYZ( index, x, y, z ) {\n\n\t\tindex = index * this.data.stride + this.offset;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\n\t\t}\n\n\t\tthis.data.array[ index + 0 ] = x;\n\t\tthis.data.array[ index + 1 ] = y;\n\t\tthis.data.array[ index + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y, z and w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @param {number} w - The value for the w component to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetXYZW( index, x, y, z, w ) {\n\n\t\tindex = index * this.data.stride + this.offset;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\t\t\tw = normalize( w, this.array );\n\n\t\t}\n\n\t\tthis.data.array[ index + 0 ] = x;\n\t\tthis.data.array[ index + 1 ] = y;\n\t\tthis.data.array[ index + 2 ] = z;\n\t\tthis.data.array[ index + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new buffer attribute with copied values from this instance.\n\t *\n\t * If no parameter is provided, cloning an interleaved buffer attribute will de-interleave buffer data.\n\t *\n\t * @param {Object} [data] - An object with interleaved buffers that allows to retain the interleaved property.\n\t * @return {BufferAttribute|InterleavedBufferAttribute} A clone of this instance.\n\t */\n\tclone( data ) {\n\n\t\tif ( data === undefined ) {\n\n\t\t\tconsole.log( 'THREE.InterleavedBufferAttribute.clone(): Cloning an interleaved buffer attribute will de-interleave buffer data.' );\n\n\t\t\tconst array = [];\n\n\t\t\tfor ( let i = 0; i < this.count; i ++ ) {\n\n\t\t\t\tconst index = i * this.data.stride + this.offset;\n\n\t\t\t\tfor ( let j = 0; j < this.itemSize; j ++ ) {\n\n\t\t\t\t\tarray.push( this.data.array[ index + j ] );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn new BufferAttribute( new this.array.constructor( array ), this.itemSize, this.normalized );\n\n\t\t} else {\n\n\t\t\tif ( data.interleavedBuffers === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers = {};\n\n\t\t\t}\n\n\t\t\tif ( data.interleavedBuffers[ this.data.uuid ] === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers[ this.data.uuid ] = this.data.clone( data );\n\n\t\t\t}\n\n\t\t\treturn new InterleavedBufferAttribute( data.interleavedBuffers[ this.data.uuid ], this.itemSize, this.offset, this.normalized );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the buffer attribute into JSON.\n\t *\n\t * If no parameter is provided, cloning an interleaved buffer attribute will de-interleave buffer data.\n\t *\n\t * @param {Object} [data] - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized buffer attribute.\n\t */\n\ttoJSON( data ) {\n\n\t\tif ( data === undefined ) {\n\n\t\t\tconsole.log( 'THREE.InterleavedBufferAttribute.toJSON(): Serializing an interleaved buffer attribute will de-interleave buffer data.' );\n\n\t\t\tconst array = [];\n\n\t\t\tfor ( let i = 0; i < this.count; i ++ ) {\n\n\t\t\t\tconst index = i * this.data.stride + this.offset;\n\n\t\t\t\tfor ( let j = 0; j < this.itemSize; j ++ ) {\n\n\t\t\t\t\tarray.push( this.data.array[ index + j ] );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// de-interleave data and save it as an ordinary buffer attribute for now\n\n\t\t\treturn {\n\t\t\t\titemSize: this.itemSize,\n\t\t\t\ttype: this.array.constructor.name,\n\t\t\t\tarray: array,\n\t\t\t\tnormalized: this.normalized\n\t\t\t};\n\n\t\t} else {\n\n\t\t\t// save as true interleaved attribute\n\n\t\t\tif ( data.interleavedBuffers === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers = {};\n\n\t\t\t}\n\n\t\t\tif ( data.interleavedBuffers[ this.data.uuid ] === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers[ this.data.uuid ] = this.data.toJSON( data );\n\n\t\t\t}\n\n\t\t\treturn {\n\t\t\t\tisInterleavedBufferAttribute: true,\n\t\t\t\titemSize: this.itemSize,\n\t\t\t\tdata: this.data.uuid,\n\t\t\t\toffset: this.offset,\n\t\t\t\tnormalized: this.normalized\n\t\t\t};\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * A material for rendering instances of {@link Sprite}.\n *\n * ```js\n * const map = new THREE.TextureLoader().load( 'textures/sprite.png' );\n * const material = new THREE.SpriteMaterial( { map: map, color: 0xffffff } );\n *\n * const sprite = new THREE.Sprite( material );\n * sprite.scale.set(200, 200, 1)\n * scene.add( sprite );\n * ```\n *\n * @augments Material\n */\nclass SpriteMaterial extends Material {\n\n\t/**\n\t * Constructs a new sprite material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSpriteMaterial = true;\n\n\t\tthis.type = 'SpriteMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The rotation of the sprite in radians.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.rotation = 0;\n\n\t\t/**\n\t\t * Specifies whether size of the sprite is attenuated by the camera depth (perspective camera only).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.sizeAttenuation = true;\n\n\t\t/**\n\t\t * Overwritten since sprite materials are transparent\n\t\t * by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.transparent = true;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.rotation = source.rotation;\n\n\t\tthis.sizeAttenuation = source.sizeAttenuation;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\nlet _geometry;\n\nconst _intersectPoint = /*@__PURE__*/ new Vector3();\nconst _worldScale = /*@__PURE__*/ new Vector3();\nconst _mvPosition = /*@__PURE__*/ new Vector3();\n\nconst _alignedPosition = /*@__PURE__*/ new Vector2();\nconst _rotatedPosition = /*@__PURE__*/ new Vector2();\nconst _viewWorldMatrix = /*@__PURE__*/ new Matrix4();\n\nconst _vA = /*@__PURE__*/ new Vector3();\nconst _vB = /*@__PURE__*/ new Vector3();\nconst _vC = /*@__PURE__*/ new Vector3();\n\nconst _uvA = /*@__PURE__*/ new Vector2();\nconst _uvB = /*@__PURE__*/ new Vector2();\nconst _uvC = /*@__PURE__*/ new Vector2();\n\n/**\n * A sprite is a plane that always faces towards the camera, generally with a\n * partially transparent texture applied.\n *\n * Sprites do not cast shadows, setting {@link Object3D#castShadow} to `true` will\n * have no effect.\n *\n * ```js\n * const map = new THREE.TextureLoader().load( 'sprite.png' );\n * const material = new THREE.SpriteMaterial( { map: map } );\n *\n * const sprite = new THREE.Sprite( material );\n * scene.add( sprite );\n * ```\n *\n * @augments Object3D\n */\nclass Sprite extends Object3D {\n\n\t/**\n\t * Constructs a new sprite.\n\t *\n\t * @param {(SpriteMaterial|SpriteNodeMaterial)} [material] - The sprite material.\n\t */\n\tconstructor( material = new SpriteMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSprite = true;\n\n\t\tthis.type = 'Sprite';\n\n\t\tif ( _geometry === undefined ) {\n\n\t\t\t_geometry = new BufferGeometry();\n\n\t\t\tconst float32Array = new Float32Array( [\n\t\t\t\t-0.5, -0.5, 0, 0, 0,\n\t\t\t\t0.5, -0.5, 0, 1, 0,\n\t\t\t\t0.5, 0.5, 0, 1, 1,\n\t\t\t\t-0.5, 0.5, 0, 0, 1\n\t\t\t] );\n\n\t\t\tconst interleavedBuffer = new InterleavedBuffer( float32Array, 5 );\n\n\t\t\t_geometry.setIndex( [ 0, 1, 2,\t0, 2, 3 ] );\n\t\t\t_geometry.setAttribute( 'position', new InterleavedBufferAttribute( interleavedBuffer, 3, 0, false ) );\n\t\t\t_geometry.setAttribute( 'uv', new InterleavedBufferAttribute( interleavedBuffer, 2, 3, false ) );\n\n\t\t}\n\n\t\t/**\n\t\t * The sprite geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = _geometry;\n\n\t\t/**\n\t\t * The sprite material.\n\t\t *\n\t\t * @type {(SpriteMaterial|SpriteNodeMaterial)}\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * The sprite's anchor point, and the point around which the sprite rotates.\n\t\t * A value of `(0.5, 0.5)` corresponds to the midpoint of the sprite. A value\n\t\t * of `(0, 0)` corresponds to the lower left corner of the sprite.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (0.5,0.5)\n\t\t */\n\t\tthis.center = new Vector2( 0.5, 0.5 );\n\n\t\t/**\n\t\t * The number of instances of this sprite.\n\t\t * Can only be used with {@link WebGPURenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.count = 1;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this sprite.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tif ( raycaster.camera === null ) {\n\n\t\t\tconsole.error( 'THREE.Sprite: \"Raycaster.camera\" needs to be set in order to raycast against sprites.' );\n\n\t\t}\n\n\t\t_worldScale.setFromMatrixScale( this.matrixWorld );\n\n\t\t_viewWorldMatrix.copy( raycaster.camera.matrixWorld );\n\t\tthis.modelViewMatrix.multiplyMatrices( raycaster.camera.matrixWorldInverse, this.matrixWorld );\n\n\t\t_mvPosition.setFromMatrixPosition( this.modelViewMatrix );\n\n\t\tif ( raycaster.camera.isPerspectiveCamera && this.material.sizeAttenuation === false ) {\n\n\t\t\t_worldScale.multiplyScalar( - _mvPosition.z );\n\n\t\t}\n\n\t\tconst rotation = this.material.rotation;\n\t\tlet sin, cos;\n\n\t\tif ( rotation !== 0 ) {\n\n\t\t\tcos = Math.cos( rotation );\n\t\t\tsin = Math.sin( rotation );\n\n\t\t}\n\n\t\tconst center = this.center;\n\n\t\ttransformVertex( _vA.set( -0.5, -0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\t\ttransformVertex( _vB.set( 0.5, -0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\t\ttransformVertex( _vC.set( 0.5, 0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\n\t\t_uvA.set( 0, 0 );\n\t\t_uvB.set( 1, 0 );\n\t\t_uvC.set( 1, 1 );\n\n\t\t// check first triangle\n\t\tlet intersect = raycaster.ray.intersectTriangle( _vA, _vB, _vC, false, _intersectPoint );\n\n\t\tif ( intersect === null ) {\n\n\t\t\t// check second triangle\n\t\t\ttransformVertex( _vB.set( -0.5, 0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\t\t\t_uvB.set( 0, 1 );\n\n\t\t\tintersect = raycaster.ray.intersectTriangle( _vA, _vC, _vB, false, _intersectPoint );\n\t\t\tif ( intersect === null ) {\n\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst distance = raycaster.ray.origin.distanceTo( _intersectPoint );\n\n\t\tif ( distance < raycaster.near || distance > raycaster.far ) return;\n\n\t\tintersects.push( {\n\n\t\t\tdistance: distance,\n\t\t\tpoint: _intersectPoint.clone(),\n\t\t\tuv: Triangle.getInterpolation( _intersectPoint, _vA, _vB, _vC, _uvA, _uvB, _uvC, new Vector2() ),\n\t\t\tface: null,\n\t\t\tobject: this\n\n\t\t} );\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.center !== undefined ) this.center.copy( source.center );\n\n\t\tthis.material = source.material;\n\n\t\treturn this;\n\n\t}\n\n}\n\nfunction transformVertex( vertexPosition, mvPosition, center, scale, sin, cos ) {\n\n\t// compute position in camera space\n\t_alignedPosition.subVectors( vertexPosition, center ).addScalar( 0.5 ).multiply( scale );\n\n\t// to check if rotation is not zero\n\tif ( sin !== undefined ) {\n\n\t\t_rotatedPosition.x = ( cos * _alignedPosition.x ) - ( sin * _alignedPosition.y );\n\t\t_rotatedPosition.y = ( sin * _alignedPosition.x ) + ( cos * _alignedPosition.y );\n\n\t} else {\n\n\t\t_rotatedPosition.copy( _alignedPosition );\n\n\t}\n\n\n\tvertexPosition.copy( mvPosition );\n\tvertexPosition.x += _rotatedPosition.x;\n\tvertexPosition.y += _rotatedPosition.y;\n\n\t// transform to world space\n\tvertexPosition.applyMatrix4( _viewWorldMatrix );\n\n}\n\nconst _v1$2 = /*@__PURE__*/ new Vector3();\nconst _v2$1 = /*@__PURE__*/ new Vector3();\n\n/**\n * A component for providing a basic Level of Detail (LOD) mechanism.\n *\n * Every LOD level is associated with an object, and rendering can be switched\n * between them at the distances specified. Typically you would create, say,\n * three meshes, one for far away (low detail), one for mid range (medium\n * detail) and one for close up (high detail).\n *\n * ```js\n * const lod = new THREE.LOD();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n *\n * //Create spheres with 3 levels of detail and create new LOD levels for them\n * for( let i = 0; i < 3; i++ ) {\n *\n * \tconst geometry = new THREE.IcosahedronGeometry( 10, 3 - i );\n * \tconst mesh = new THREE.Mesh( geometry, material );\n * \tlod.addLevel( mesh, i * 75 );\n *\n * }\n *\n * scene.add( lod );\n * ```\n *\n * @augments Object3D\n */\nclass LOD extends Object3D {\n\n\t/**\n\t * Constructs a new LOD.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLOD = true;\n\n\t\t/**\n\t\t * The current LOD index.\n\t\t *\n\t\t * @private\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis._currentLevel = 0;\n\n\t\tthis.type = 'LOD';\n\n\t\tObject.defineProperties( this, {\n\t\t\t/**\n\t\t\t * This array holds the LOD levels.\n\t\t\t *\n\t\t\t * @name LOD#levels\n\t\t\t * @type {Array<{object:Object3D,distance:number,hysteresis:number}>}\n\t\t\t */\n\t\t\tlevels: {\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: []\n\t\t\t}\n\t\t} );\n\n\t\t/**\n\t\t * Whether the LOD object is updated automatically by the renderer per frame\n\t\t * or not. If set to `false`, you have to call {@link LOD#update} in the\n\t\t * render loop by yourself.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.autoUpdate = true;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source, false );\n\n\t\tconst levels = source.levels;\n\n\t\tfor ( let i = 0, l = levels.length; i < l; i ++ ) {\n\n\t\t\tconst level = levels[ i ];\n\n\t\t\tthis.addLevel( level.object.clone(), level.distance, level.hysteresis );\n\n\t\t}\n\n\t\tthis.autoUpdate = source.autoUpdate;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds a mesh that will display at a certain distance and greater. Typically\n\t * the further away the distance, the lower the detail on the mesh.\n\t *\n\t * @param {Object3D} object - The 3D object to display at this level.\n\t * @param {number} [distance=0] - The distance at which to display this level of detail.\n\t * @param {number} [hysteresis=0] - Threshold used to avoid flickering at LOD boundaries, as a fraction of distance.\n\t * @return {LOD} A reference to this instance.\n\t */\n\taddLevel( object, distance = 0, hysteresis = 0 ) {\n\n\t\tdistance = Math.abs( distance );\n\n\t\tconst levels = this.levels;\n\n\t\tlet l;\n\n\t\tfor ( l = 0; l < levels.length; l ++ ) {\n\n\t\t\tif ( distance < levels[ l ].distance ) {\n\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t\tlevels.splice( l, 0, { distance: distance, hysteresis: hysteresis, object: object } );\n\n\t\tthis.add( object );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes an existing level, based on the distance from the camera.\n\t * Returns `true` when the level has been removed. Otherwise `false`.\n\t *\n\t * @param {number} distance - Distance of the level to remove.\n\t * @return {boolean} Whether the level has been removed or not.\n\t */\n\tremoveLevel( distance ) {\n\n\t\tconst levels = this.levels;\n\n\t\tfor ( let i = 0; i < levels.length; i ++ ) {\n\n\t\t\tif ( levels[ i ].distance === distance ) {\n\n\t\t\t\tconst removedElements = levels.splice( i, 1 );\n\t\t\t\tthis.remove( removedElements[ 0 ].object );\n\n\t\t\t\treturn true;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false;\n\n\t}\n\n\t/**\n\t * Returns the currently active LOD level index.\n\t *\n\t * @return {number} The current active LOD level index.\n\t */\n\tgetCurrentLevel() {\n\n\t\treturn this._currentLevel;\n\n\t}\n\n\t/**\n\t * Returns a reference to the first 3D object that is greater than\n\t * the given distance.\n\t *\n\t * @param {number} distance - The LOD distance.\n\t * @return {?Object3D} The found 3D object. `null` if no 3D object has been found.\n\t */\n\tgetObjectForDistance( distance ) {\n\n\t\tconst levels = this.levels;\n\n\t\tif ( levels.length > 0 ) {\n\n\t\t\tlet i, l;\n\n\t\t\tfor ( i = 1, l = levels.length; i < l; i ++ ) {\n\n\t\t\t\tlet levelDistance = levels[ i ].distance;\n\n\t\t\t\tif ( levels[ i ].object.visible ) {\n\n\t\t\t\t\tlevelDistance -= levelDistance * levels[ i ].hysteresis;\n\n\t\t\t\t}\n\n\t\t\t\tif ( distance < levelDistance ) {\n\n\t\t\t\t\tbreak;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn levels[ i - 1 ].object;\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this LOD.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst levels = this.levels;\n\n\t\tif ( levels.length > 0 ) {\n\n\t\t\t_v1$2.setFromMatrixPosition( this.matrixWorld );\n\n\t\t\tconst distance = raycaster.ray.origin.distanceTo( _v1$2 );\n\n\t\t\tthis.getObjectForDistance( distance ).raycast( raycaster, intersects );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Updates the LOD by computing which LOD level should be visible according\n\t * to the current distance of the given camera.\n\t *\n\t * @param {Camera} camera - The camera the scene is rendered with.\n\t */\n\tupdate( camera ) {\n\n\t\tconst levels = this.levels;\n\n\t\tif ( levels.length > 1 ) {\n\n\t\t\t_v1$2.setFromMatrixPosition( camera.matrixWorld );\n\t\t\t_v2$1.setFromMatrixPosition( this.matrixWorld );\n\n\t\t\tconst distance = _v1$2.distanceTo( _v2$1 ) / camera.zoom;\n\n\t\t\tlevels[ 0 ].object.visible = true;\n\n\t\t\tlet i, l;\n\n\t\t\tfor ( i = 1, l = levels.length; i < l; i ++ ) {\n\n\t\t\t\tlet levelDistance = levels[ i ].distance;\n\n\t\t\t\tif ( levels[ i ].object.visible ) {\n\n\t\t\t\t\tlevelDistance -= levelDistance * levels[ i ].hysteresis;\n\n\t\t\t\t}\n\n\t\t\t\tif ( distance >= levelDistance ) {\n\n\t\t\t\t\tlevels[ i - 1 ].object.visible = false;\n\t\t\t\t\tlevels[ i ].object.visible = true;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tbreak;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis._currentLevel = i - 1;\n\n\t\t\tfor ( ; i < l; i ++ ) {\n\n\t\t\t\tlevels[ i ].object.visible = false;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tif ( this.autoUpdate === false ) data.object.autoUpdate = false;\n\n\t\tdata.object.levels = [];\n\n\t\tconst levels = this.levels;\n\n\t\tfor ( let i = 0, l = levels.length; i < l; i ++ ) {\n\n\t\t\tconst level = levels[ i ];\n\n\t\t\tdata.object.levels.push( {\n\t\t\t\tobject: level.object.uuid,\n\t\t\t\tdistance: level.distance,\n\t\t\t\thysteresis: level.hysteresis\n\t\t\t} );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n}\n\nconst _basePosition = /*@__PURE__*/ new Vector3();\n\nconst _skinIndex = /*@__PURE__*/ new Vector4();\nconst _skinWeight = /*@__PURE__*/ new Vector4();\n\nconst _vector3 = /*@__PURE__*/ new Vector3();\nconst _matrix4 = /*@__PURE__*/ new Matrix4();\nconst _vertex = /*@__PURE__*/ new Vector3();\n\nconst _sphere$5 = /*@__PURE__*/ new Sphere();\nconst _inverseMatrix$2 = /*@__PURE__*/ new Matrix4();\nconst _ray$2 = /*@__PURE__*/ new Ray();\n\n/**\n * A mesh that has a {@link Skeleton} that can then be used to animate the\n * vertices of the geometry with skinning/skeleton animation.\n *\n * Next to a valid skeleton, the skinned mesh requires skin indices and weights\n * as buffer attributes in its geometry. These attribute define which bones affect a single\n * vertex to a certain extend.\n *\n * Typically skinned meshes are not created manually but loaders like {@link GLTFLoader}\n * or {@link FBXLoader } import respective models.\n *\n * @augments Mesh\n */\nclass SkinnedMesh extends Mesh {\n\n\t/**\n\t * Constructs a new skinned mesh.\n\t *\n\t * @param {BufferGeometry} [geometry] - The mesh geometry.\n\t * @param {Material|Array} [material] - The mesh material.\n\t */\n\tconstructor( geometry, material ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSkinnedMesh = true;\n\n\t\tthis.type = 'SkinnedMesh';\n\n\t\t/**\n\t\t * `AttachedBindMode` means the skinned mesh shares the same world space as the skeleton.\n\t\t * This is not true when using `DetachedBindMode` which is useful when sharing a skeleton\n\t\t * across multiple skinned meshes.\n\t\t *\n\t\t * @type {(AttachedBindMode|DetachedBindMode)}\n\t\t * @default AttachedBindMode\n\t\t */\n\t\tthis.bindMode = AttachedBindMode;\n\n\t\t/**\n\t\t * The base matrix that is used for the bound bone transforms.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.bindMatrix = new Matrix4();\n\n\t\t/**\n\t\t * The base matrix that is used for resetting the bound bone transforms.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.bindMatrixInverse = new Matrix4();\n\n\t\t/**\n\t\t * The bounding box of the skinned mesh. Can be computed via {@link SkinnedMesh#computeBoundingBox}.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * The bounding sphere of the skinned mesh. Can be computed via {@link SkinnedMesh#computeBoundingSphere}.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t}\n\n\t/**\n\t * Computes the bounding box of the skinned mesh, and updates {@link SkinnedMesh#boundingBox}.\n\t * The bounding box is not automatically computed by the engine; this method must be called by your app.\n\t * If the skinned mesh is animated, the bounding box should be recomputed per frame in order to reflect\n\t * the current animation state.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tthis.boundingBox.makeEmpty();\n\n\t\tconst positionAttribute = geometry.getAttribute( 'position' );\n\n\t\tfor ( let i = 0; i < positionAttribute.count; i ++ ) {\n\n\t\t\tthis.getVertexPosition( i, _vertex );\n\t\t\tthis.boundingBox.expandByPoint( _vertex );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere of the skinned mesh, and updates {@link SkinnedMesh#boundingSphere}.\n\t * The bounding sphere is automatically computed by the engine once when it is needed, e.g., for ray casting\n\t * and view frustum culling. If the skinned mesh is animated, the bounding sphere should be recomputed\n\t * per frame in order to reflect the current animation state.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tthis.boundingSphere.makeEmpty();\n\n\t\tconst positionAttribute = geometry.getAttribute( 'position' );\n\n\t\tfor ( let i = 0; i < positionAttribute.count; i ++ ) {\n\n\t\t\tthis.getVertexPosition( i, _vertex );\n\t\t\tthis.boundingSphere.expandByPoint( _vertex );\n\n\t\t}\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.bindMode = source.bindMode;\n\t\tthis.bindMatrix.copy( source.bindMatrix );\n\t\tthis.bindMatrixInverse.copy( source.bindMatrixInverse );\n\n\t\tthis.skeleton = source.skeleton;\n\n\t\tif ( source.boundingBox !== null ) this.boundingBox = source.boundingBox.clone();\n\t\tif ( source.boundingSphere !== null ) this.boundingSphere = source.boundingSphere.clone();\n\n\t\treturn this;\n\n\t}\n\n\traycast( raycaster, intersects ) {\n\n\t\tconst material = this.material;\n\t\tconst matrixWorld = this.matrixWorld;\n\n\t\tif ( material === undefined ) return;\n\n\t\t// test with bounding sphere in world space\n\n\t\tif ( this.boundingSphere === null ) this.computeBoundingSphere();\n\n\t\t_sphere$5.copy( this.boundingSphere );\n\t\t_sphere$5.applyMatrix4( matrixWorld );\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere$5 ) === false ) return;\n\n\t\t// convert ray to local space of skinned mesh\n\n\t\t_inverseMatrix$2.copy( matrixWorld ).invert();\n\t\t_ray$2.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$2 );\n\n\t\t// test with bounding box in local space\n\n\t\tif ( this.boundingBox !== null ) {\n\n\t\t\tif ( _ray$2.intersectsBox( this.boundingBox ) === false ) return;\n\n\t\t}\n\n\t\t// test for intersections with geometry\n\n\t\tthis._computeIntersections( raycaster, intersects, _ray$2 );\n\n\t}\n\n\tgetVertexPosition( index, target ) {\n\n\t\tsuper.getVertexPosition( index, target );\n\n\t\tthis.applyBoneTransform( index, target );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Binds the given skeleton to the skinned mesh.\n\t *\n\t * @param {Skeleton} skeleton - The skeleton to bind.\n\t * @param {Matrix4} [bindMatrix] - The bind matrix. If no bind matrix is provided,\n\t * the skinned mesh's world matrix will be used instead.\n\t */\n\tbind( skeleton, bindMatrix ) {\n\n\t\tthis.skeleton = skeleton;\n\n\t\tif ( bindMatrix === undefined ) {\n\n\t\t\tthis.updateMatrixWorld( true );\n\n\t\t\tthis.skeleton.calculateInverses();\n\n\t\t\tbindMatrix = this.matrixWorld;\n\n\t\t}\n\n\t\tthis.bindMatrix.copy( bindMatrix );\n\t\tthis.bindMatrixInverse.copy( bindMatrix ).invert();\n\n\t}\n\n\t/**\n\t * This method sets the skinned mesh in the rest pose).\n\t */\n\tpose() {\n\n\t\tthis.skeleton.pose();\n\n\t}\n\n\t/**\n\t * Normalizes the skin weights which are defined as a buffer attribute\n\t * in the skinned mesh's geometry.\n\t */\n\tnormalizeSkinWeights() {\n\n\t\tconst vector = new Vector4();\n\n\t\tconst skinWeight = this.geometry.attributes.skinWeight;\n\n\t\tfor ( let i = 0, l = skinWeight.count; i < l; i ++ ) {\n\n\t\t\tvector.fromBufferAttribute( skinWeight, i );\n\n\t\t\tconst scale = 1.0 / vector.manhattanLength();\n\n\t\t\tif ( scale !== Infinity ) {\n\n\t\t\t\tvector.multiplyScalar( scale );\n\n\t\t\t} else {\n\n\t\t\t\tvector.set( 1, 0, 0, 0 ); // do something reasonable\n\n\t\t\t}\n\n\t\t\tskinWeight.setXYZW( i, vector.x, vector.y, vector.z, vector.w );\n\n\t\t}\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tif ( this.bindMode === AttachedBindMode ) {\n\n\t\t\tthis.bindMatrixInverse.copy( this.matrixWorld ).invert();\n\n\t\t} else if ( this.bindMode === DetachedBindMode ) {\n\n\t\t\tthis.bindMatrixInverse.copy( this.bindMatrix ).invert();\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.SkinnedMesh: Unrecognized bindMode: ' + this.bindMode );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Applies the bone transform associated with the given index to the given\n\t * vertex position. Returns the updated vector.\n\t *\n\t * @param {number} index - The vertex index.\n\t * @param {Vector3} target - The target object that is used to store the method's result.\n\t * the skinned mesh's world matrix will be used instead.\n\t * @return {Vector3} The updated vertex position.\n\t */\n\tapplyBoneTransform( index, target ) {\n\n\t\tconst skeleton = this.skeleton;\n\t\tconst geometry = this.geometry;\n\n\t\t_skinIndex.fromBufferAttribute( geometry.attributes.skinIndex, index );\n\t\t_skinWeight.fromBufferAttribute( geometry.attributes.skinWeight, index );\n\n\t\t_basePosition.copy( target ).applyMatrix4( this.bindMatrix );\n\n\t\ttarget.set( 0, 0, 0 );\n\n\t\tfor ( let i = 0; i < 4; i ++ ) {\n\n\t\t\tconst weight = _skinWeight.getComponent( i );\n\n\t\t\tif ( weight !== 0 ) {\n\n\t\t\t\tconst boneIndex = _skinIndex.getComponent( i );\n\n\t\t\t\t_matrix4.multiplyMatrices( skeleton.bones[ boneIndex ].matrixWorld, skeleton.boneInverses[ boneIndex ] );\n\n\t\t\t\ttarget.addScaledVector( _vector3.copy( _basePosition ).applyMatrix4( _matrix4 ), weight );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn target.applyMatrix4( this.bindMatrixInverse );\n\n\t}\n\n}\n\n/**\n * A bone which is part of a {@link Skeleton}. The skeleton in turn is used by\n * the {@link SkinnedMesh}.\n *\n * ```js\n * const root = new THREE.Bone();\n * const child = new THREE.Bone();\n *\n * root.add( child );\n * child.position.y = 5;\n * ```\n *\n * @augments Object3D\n */\nclass Bone extends Object3D {\n\n\t/**\n\t * Constructs a new bone.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBone = true;\n\n\t\tthis.type = 'Bone';\n\n\t}\n\n}\n\n/**\n * Creates a texture directly from raw buffer data.\n *\n * The interpretation of the data depends on type and format: If the type is\n * `UnsignedByteType`, a `Uint8Array` will be useful for addressing the\n * texel data. If the format is `RGBAFormat`, data needs four values for\n * one texel; Red, Green, Blue and Alpha (typically the opacity).\n *\n * @augments Texture\n */\nclass DataTexture extends Texture {\n\n\t/**\n\t * Constructs a new data texture.\n\t *\n\t * @param {?TypedArray} [data=null] - The buffer data.\n\t * @param {number} [width=1] - The width of the texture.\n\t * @param {number} [height=1] - The height of the texture.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=NearestFilter] - The mag filter value.\n\t * @param {number} [minFilter=NearestFilter] - The min filter value.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space.\n\t */\n\tconstructor( data = null, width = 1, height = 1, format, type, mapping, wrapS, wrapT, magFilter = NearestFilter, minFilter = NearestFilter, anisotropy, colorSpace ) {\n\n\t\tsuper( null, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDataTexture = true;\n\n\t\t/**\n\t\t * The image definition of a data texture.\n\t\t *\n\t\t * @type {{data:TypedArray,width:number,height:number}}\n\t\t */\n\t\tthis.image = { data: data, width: width, height: height };\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t *\n\t\t * Overwritten and set to `1` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default 1\n\t\t */\n\t\tthis.unpackAlignment = 1;\n\n\t}\n\n}\n\nconst _offsetMatrix = /*@__PURE__*/ new Matrix4();\nconst _identityMatrix = /*@__PURE__*/ new Matrix4();\n\n/**\n * Class for representing the armatures in `three.js`. The skeleton\n * is defined by a hierarchy of bones.\n *\n * ```js\n * const bones = [];\n *\n * const shoulder = new THREE.Bone();\n * const elbow = new THREE.Bone();\n * const hand = new THREE.Bone();\n *\n * shoulder.add( elbow );\n * elbow.add( hand );\n *\n * bones.push( shoulder , elbow, hand);\n *\n * shoulder.position.y = -5;\n * elbow.position.y = 0;\n * hand.position.y = 5;\n *\n * const armSkeleton = new THREE.Skeleton( bones );\n * ```\n */\nclass Skeleton {\n\n\t/**\n\t * Constructs a new skeleton.\n\t *\n\t * @param {Array} [bones] - An array of bones.\n\t * @param {Array} [boneInverses] - An array of bone inverse matrices.\n\t * If not provided, these matrices will be computed automatically via {@link Skeleton#calculateInverses}.\n\t */\n\tconstructor( bones = [], boneInverses = [] ) {\n\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * An array of bones defining the skeleton.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.bones = bones.slice( 0 );\n\n\t\t/**\n\t\t * An array of bone inverse matrices.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.boneInverses = boneInverses;\n\n\t\t/**\n\t\t * An array buffer holding the bone data.\n\t\t * Input data for {@link Skeleton#boneTexture}.\n\t\t *\n\t\t * @type {?Float32Array}\n\t\t * @default null\n\t\t */\n\t\tthis.boneMatrices = null;\n\n\t\t/**\n\t\t * A texture holding the bone data for use\n\t\t * in the vertex shader.\n\t\t *\n\t\t * @type {?DataTexture}\n\t\t * @default null\n\t\t */\n\t\tthis.boneTexture = null;\n\n\t\tthis.init();\n\n\t}\n\n\t/**\n\t * Initializes the skeleton. This method gets automatically called by the constructor\n\t * but depending on how the skeleton is created it might be necessary to call this method\n\t * manually.\n\t */\n\tinit() {\n\n\t\tconst bones = this.bones;\n\t\tconst boneInverses = this.boneInverses;\n\n\t\tthis.boneMatrices = new Float32Array( bones.length * 16 );\n\n\t\t// calculate inverse bone matrices if necessary\n\n\t\tif ( boneInverses.length === 0 ) {\n\n\t\t\tthis.calculateInverses();\n\n\t\t} else {\n\n\t\t\t// handle special case\n\n\t\t\tif ( bones.length !== boneInverses.length ) {\n\n\t\t\t\tconsole.warn( 'THREE.Skeleton: Number of inverse bone matrices does not match amount of bones.' );\n\n\t\t\t\tthis.boneInverses = [];\n\n\t\t\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\t\t\tthis.boneInverses.push( new Matrix4() );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bone inverse matrices. This method resets {@link Skeleton#boneInverses}\n\t * and fills it with new matrices.\n\t */\n\tcalculateInverses() {\n\n\t\tthis.boneInverses.length = 0;\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst inverse = new Matrix4();\n\n\t\t\tif ( this.bones[ i ] ) {\n\n\t\t\t\tinverse.copy( this.bones[ i ].matrixWorld ).invert();\n\n\t\t\t}\n\n\t\t\tthis.boneInverses.push( inverse );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Resets the skeleton to the base pose.\n\t */\n\tpose() {\n\n\t\t// recover the bind-time world matrices\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst bone = this.bones[ i ];\n\n\t\t\tif ( bone ) {\n\n\t\t\t\tbone.matrixWorld.copy( this.boneInverses[ i ] ).invert();\n\n\t\t\t}\n\n\t\t}\n\n\t\t// compute the local matrices, positions, rotations and scales\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst bone = this.bones[ i ];\n\n\t\t\tif ( bone ) {\n\n\t\t\t\tif ( bone.parent && bone.parent.isBone ) {\n\n\t\t\t\t\tbone.matrix.copy( bone.parent.matrixWorld ).invert();\n\t\t\t\t\tbone.matrix.multiply( bone.matrixWorld );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tbone.matrix.copy( bone.matrixWorld );\n\n\t\t\t\t}\n\n\t\t\t\tbone.matrix.decompose( bone.position, bone.quaternion, bone.scale );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Resets the skeleton to the base pose.\n\t */\n\tupdate() {\n\n\t\tconst bones = this.bones;\n\t\tconst boneInverses = this.boneInverses;\n\t\tconst boneMatrices = this.boneMatrices;\n\t\tconst boneTexture = this.boneTexture;\n\n\t\t// flatten bone matrices to array\n\n\t\tfor ( let i = 0, il = bones.length; i < il; i ++ ) {\n\n\t\t\t// compute the offset between the current and the original transform\n\n\t\t\tconst matrix = bones[ i ] ? bones[ i ].matrixWorld : _identityMatrix;\n\n\t\t\t_offsetMatrix.multiplyMatrices( matrix, boneInverses[ i ] );\n\t\t\t_offsetMatrix.toArray( boneMatrices, i * 16 );\n\n\t\t}\n\n\t\tif ( boneTexture !== null ) {\n\n\t\t\tboneTexture.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new skeleton with copied values from this instance.\n\t *\n\t * @return {Skeleton} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Skeleton( this.bones, this.boneInverses );\n\n\t}\n\n\t/**\n\t * Computes a data texture for passing bone data to the vertex shader.\n\t *\n\t * @return {Skeleton} A reference of this instance.\n\t */\n\tcomputeBoneTexture() {\n\n\t\t// layout (1 matrix = 4 pixels)\n\t\t// RGBA RGBA RGBA RGBA (=> column1, column2, column3, column4)\n\t\t// with 8x8 pixel texture max 16 bones * 4 pixels = (8 * 8)\n\t\t// 16x16 pixel texture max 64 bones * 4 pixels = (16 * 16)\n\t\t// 32x32 pixel texture max 256 bones * 4 pixels = (32 * 32)\n\t\t// 64x64 pixel texture max 1024 bones * 4 pixels = (64 * 64)\n\n\t\tlet size = Math.sqrt( this.bones.length * 4 ); // 4 pixels needed for 1 matrix\n\t\tsize = Math.ceil( size / 4 ) * 4;\n\t\tsize = Math.max( size, 4 );\n\n\t\tconst boneMatrices = new Float32Array( size * size * 4 ); // 4 floats per RGBA pixel\n\t\tboneMatrices.set( this.boneMatrices ); // copy current values\n\n\t\tconst boneTexture = new DataTexture( boneMatrices, size, size, RGBAFormat, FloatType );\n\t\tboneTexture.needsUpdate = true;\n\n\t\tthis.boneMatrices = boneMatrices;\n\t\tthis.boneTexture = boneTexture;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Searches through the skeleton's bone array and returns the first with a\n\t * matching name.\n\t *\n\t * @param {string} name - The name of the bone.\n\t * @return {Bone|undefined} The found bone. `undefined` if no bone has been found.\n\t */\n\tgetBoneByName( name ) {\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst bone = this.bones[ i ];\n\n\t\t\tif ( bone.name === name ) {\n\n\t\t\t\treturn bone;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn undefined;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose( ) {\n\n\t\tif ( this.boneTexture !== null ) {\n\n\t\t\tthis.boneTexture.dispose();\n\n\t\t\tthis.boneTexture = null;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Setups the skeleton by the given JSON and bones.\n\t *\n\t * @param {Object} json - The skeleton as serialized JSON.\n\t * @param {Object} bones - An array of bones.\n\t * @return {Skeleton} A reference of this instance.\n\t */\n\tfromJSON( json, bones ) {\n\n\t\tthis.uuid = json.uuid;\n\n\t\tfor ( let i = 0, l = json.bones.length; i < l; i ++ ) {\n\n\t\t\tconst uuid = json.bones[ i ];\n\t\t\tlet bone = bones[ uuid ];\n\n\t\t\tif ( bone === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.Skeleton: No bone found with UUID:', uuid );\n\t\t\t\tbone = new Bone();\n\n\t\t\t}\n\n\t\t\tthis.bones.push( bone );\n\t\t\tthis.boneInverses.push( new Matrix4().fromArray( json.boneInverses[ i ] ) );\n\n\t\t}\n\n\t\tthis.init();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Serializes the skeleton into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized skeleton.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Skeleton',\n\t\t\t\tgenerator: 'Skeleton.toJSON'\n\t\t\t},\n\t\t\tbones: [],\n\t\t\tboneInverses: []\n\t\t};\n\n\t\tdata.uuid = this.uuid;\n\n\t\tconst bones = this.bones;\n\t\tconst boneInverses = this.boneInverses;\n\n\t\tfor ( let i = 0, l = bones.length; i < l; i ++ ) {\n\n\t\t\tconst bone = bones[ i ];\n\t\t\tdata.bones.push( bone.uuid );\n\n\t\t\tconst boneInverse = boneInverses[ i ];\n\t\t\tdata.boneInverses.push( boneInverse.toArray() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * An instanced version of a buffer attribute.\n *\n * @augments BufferAttribute\n */\nclass InstancedBufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new instanced buffer attribute.\n\t *\n\t * @param {TypedArray} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t * @param {number} [meshPerAttribute=1] - How often a value of this buffer attribute should be repeated.\n\t */\n\tconstructor( array, itemSize, normalized, meshPerAttribute = 1 ) {\n\n\t\tsuper( array, itemSize, normalized );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedBufferAttribute = true;\n\n\t\t/**\n\t\t * Defines how often a value of this buffer attribute should be repeated. A\n\t\t * value of one means that each value of the instanced attribute is used for\n\t\t * a single instance. A value of two means that each value is used for two\n\t\t * consecutive instances (and so on).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.meshPerAttribute = meshPerAttribute;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.meshPerAttribute = source.meshPerAttribute;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.meshPerAttribute = this.meshPerAttribute;\n\n\t\tdata.isInstancedBufferAttribute = true;\n\n\t\treturn data;\n\n\t}\n\n}\n\nconst _instanceLocalMatrix = /*@__PURE__*/ new Matrix4();\nconst _instanceWorldMatrix = /*@__PURE__*/ new Matrix4();\n\nconst _instanceIntersects = [];\n\nconst _box3 = /*@__PURE__*/ new Box3();\nconst _identity = /*@__PURE__*/ new Matrix4();\nconst _mesh$1 = /*@__PURE__*/ new Mesh();\nconst _sphere$4 = /*@__PURE__*/ new Sphere();\n\n/**\n * A special version of a mesh with instanced rendering support. Use\n * this class if you have to render a large number of objects with the same\n * geometry and material(s) but with different world transformations. The usage\n * of 'InstancedMesh' will help you to reduce the number of draw calls and thus\n * improve the overall rendering performance in your application.\n *\n * @augments Mesh\n */\nclass InstancedMesh extends Mesh {\n\n\t/**\n\t * Constructs a new instanced mesh.\n\t *\n\t * @param {BufferGeometry} [geometry] - The mesh geometry.\n\t * @param {Material|Array} [material] - The mesh material.\n\t * @param {number} count - The number of instances.\n\t */\n\tconstructor( geometry, material, count ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedMesh = true;\n\n\t\t/**\n\t\t * Represents the local transformation of all instances. You have to set its\n\t\t * {@link BufferAttribute#needsUpdate} flag to true if you modify instanced data\n\t\t * via {@link InstancedMesh#setMatrixAt}.\n\t\t *\n\t\t * @type {InstancedBufferAttribute}\n\t\t */\n\t\tthis.instanceMatrix = new InstancedBufferAttribute( new Float32Array( count * 16 ), 16 );\n\n\t\t/**\n\t\t * Represents the color of all instances. You have to set its\n\t\t * {@link BufferAttribute#needsUpdate} flag to true if you modify instanced data\n\t\t * via {@link InstancedMesh#setColorAt}.\n\t\t *\n\t\t * @type {?InstancedBufferAttribute}\n\t\t * @default null\n\t\t */\n\t\tthis.instanceColor = null;\n\n\t\t/**\n\t\t * Represents the morph target weights of all instances. You have to set its\n\t\t * {@link Texture#needsUpdate} flag to true if you modify instanced data\n\t\t * via {@link InstancedMesh#setMorphAt}.\n\t\t *\n\t\t * @type {?DataTexture}\n\t\t * @default null\n\t\t */\n\t\tthis.morphTexture = null;\n\n\t\t/**\n\t\t * The number of instances.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.count = count;\n\n\t\t/**\n\t\t * The bounding box of the instanced mesh. Can be computed via {@link InstancedMesh#computeBoundingBox}.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * The bounding sphere of the instanced mesh. Can be computed via {@link InstancedMesh#computeBoundingSphere}.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.setMatrixAt( i, _identity );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding box of the instanced mesh, and updates {@link InstancedMesh#boundingBox}.\n\t * The bounding box is not automatically computed by the engine; this method must be called by your app.\n\t * You may need to recompute the bounding box if an instance is transformed via {@link InstancedMesh#setMatrixAt}.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tconst geometry = this.geometry;\n\t\tconst count = this.count;\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tif ( geometry.boundingBox === null ) {\n\n\t\t\tgeometry.computeBoundingBox();\n\n\t\t}\n\n\t\tthis.boundingBox.makeEmpty();\n\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.getMatrixAt( i, _instanceLocalMatrix );\n\n\t\t\t_box3.copy( geometry.boundingBox ).applyMatrix4( _instanceLocalMatrix );\n\n\t\t\tthis.boundingBox.union( _box3 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere of the instanced mesh, and updates {@link InstancedMesh#boundingSphere}\n\t * The engine automatically computes the bounding sphere when it is needed, e.g., for ray casting or view frustum culling.\n\t * You may need to recompute the bounding sphere if an instance is transformed via {@link InstancedMesh#setMatrixAt}.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tconst geometry = this.geometry;\n\t\tconst count = this.count;\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tif ( geometry.boundingSphere === null ) {\n\n\t\t\tgeometry.computeBoundingSphere();\n\n\t\t}\n\n\t\tthis.boundingSphere.makeEmpty();\n\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.getMatrixAt( i, _instanceLocalMatrix );\n\n\t\t\t_sphere$4.copy( geometry.boundingSphere ).applyMatrix4( _instanceLocalMatrix );\n\n\t\t\tthis.boundingSphere.union( _sphere$4 );\n\n\t\t}\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.instanceMatrix.copy( source.instanceMatrix );\n\n\t\tif ( source.morphTexture !== null ) this.morphTexture = source.morphTexture.clone();\n\t\tif ( source.instanceColor !== null ) this.instanceColor = source.instanceColor.clone();\n\n\t\tthis.count = source.count;\n\n\t\tif ( source.boundingBox !== null ) this.boundingBox = source.boundingBox.clone();\n\t\tif ( source.boundingSphere !== null ) this.boundingSphere = source.boundingSphere.clone();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Gets the color of the defined instance.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Color} color - The target object that is used to store the method's result.\n\t */\n\tgetColorAt( index, color ) {\n\n\t\tcolor.fromArray( this.instanceColor.array, index * 3 );\n\n\t}\n\n\t/**\n\t * Gets the local transformation matrix of the defined instance.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Matrix4} matrix - The target object that is used to store the method's result.\n\t */\n\tgetMatrixAt( index, matrix ) {\n\n\t\tmatrix.fromArray( this.instanceMatrix.array, index * 16 );\n\n\t}\n\n\t/**\n\t * Gets the morph target weights of the defined instance.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Mesh} object - The target object that is used to store the method's result.\n\t */\n\tgetMorphAt( index, object ) {\n\n\t\tconst objectInfluences = object.morphTargetInfluences;\n\n\t\tconst array = this.morphTexture.source.data.data;\n\n\t\tconst len = objectInfluences.length + 1; // All influences + the baseInfluenceSum\n\n\t\tconst dataIndex = index * len + 1; // Skip the baseInfluenceSum at the beginning\n\n\t\tfor ( let i = 0; i < objectInfluences.length; i ++ ) {\n\n\t\t\tobjectInfluences[ i ] = array[ dataIndex + i ];\n\n\t\t}\n\n\t}\n\n\traycast( raycaster, intersects ) {\n\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst raycastTimes = this.count;\n\n\t\t_mesh$1.geometry = this.geometry;\n\t\t_mesh$1.material = this.material;\n\n\t\tif ( _mesh$1.material === undefined ) return;\n\n\t\t// test with bounding sphere first\n\n\t\tif ( this.boundingSphere === null ) this.computeBoundingSphere();\n\n\t\t_sphere$4.copy( this.boundingSphere );\n\t\t_sphere$4.applyMatrix4( matrixWorld );\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere$4 ) === false ) return;\n\n\t\t// now test each instance\n\n\t\tfor ( let instanceId = 0; instanceId < raycastTimes; instanceId ++ ) {\n\n\t\t\t// calculate the world matrix for each instance\n\n\t\t\tthis.getMatrixAt( instanceId, _instanceLocalMatrix );\n\n\t\t\t_instanceWorldMatrix.multiplyMatrices( matrixWorld, _instanceLocalMatrix );\n\n\t\t\t// the mesh represents this single instance\n\n\t\t\t_mesh$1.matrixWorld = _instanceWorldMatrix;\n\n\t\t\t_mesh$1.raycast( raycaster, _instanceIntersects );\n\n\t\t\t// process the result of raycast\n\n\t\t\tfor ( let i = 0, l = _instanceIntersects.length; i < l; i ++ ) {\n\n\t\t\t\tconst intersect = _instanceIntersects[ i ];\n\t\t\t\tintersect.instanceId = instanceId;\n\t\t\t\tintersect.object = this;\n\t\t\t\tintersects.push( intersect );\n\n\t\t\t}\n\n\t\t\t_instanceIntersects.length = 0;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the given color to the defined instance. Make sure you set the `needsUpdate` flag of\n\t * {@link InstancedMesh#instanceColor} to `true` after updating all the colors.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Color} color - The instance color.\n\t */\n\tsetColorAt( index, color ) {\n\n\t\tif ( this.instanceColor === null ) {\n\n\t\t\tthis.instanceColor = new InstancedBufferAttribute( new Float32Array( this.instanceMatrix.count * 3 ).fill( 1 ), 3 );\n\n\t\t}\n\n\t\tcolor.toArray( this.instanceColor.array, index * 3 );\n\n\t}\n\n\t/**\n\t * Sets the given local transformation matrix to the defined instance. Make sure you set the `needsUpdate` flag of\n\t * {@link InstancedMesh#instanceMatrix} to `true` after updating all the colors.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Matrix4} matrix - The local transformation.\n\t */\n\tsetMatrixAt( index, matrix ) {\n\n\t\tmatrix.toArray( this.instanceMatrix.array, index * 16 );\n\n\t}\n\n\t/**\n\t * Sets the morph target weights to the defined instance. Make sure you set the `needsUpdate` flag of\n\t * {@link InstancedMesh#morphTexture} to `true` after updating all the influences.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Mesh} object - A mesh which `morphTargetInfluences` property containing the morph target weights\n\t * of a single instance.\n\t */\n\tsetMorphAt( index, object ) {\n\n\t\tconst objectInfluences = object.morphTargetInfluences;\n\n\t\tconst len = objectInfluences.length + 1; // morphBaseInfluence + all influences\n\n\t\tif ( this.morphTexture === null ) {\n\n\t\t\tthis.morphTexture = new DataTexture( new Float32Array( len * this.count ), len, this.count, RedFormat, FloatType );\n\n\t\t}\n\n\t\tconst array = this.morphTexture.source.data.data;\n\n\t\tlet morphInfluencesSum = 0;\n\n\t\tfor ( let i = 0; i < objectInfluences.length; i ++ ) {\n\n\t\t\tmorphInfluencesSum += objectInfluences[ i ];\n\n\t\t}\n\n\t\tconst morphBaseInfluence = this.geometry.morphTargetsRelative ? 1 : 1 - morphInfluencesSum;\n\n\t\tconst dataIndex = len * index;\n\n\t\tarray[ dataIndex ] = morphBaseInfluence;\n\n\t\tarray.set( objectInfluences, dataIndex + 1 );\n\n\t}\n\n\tupdateMorphTargets() {\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t\tif ( this.morphTexture !== null ) {\n\n\t\t\tthis.morphTexture.dispose();\n\t\t\tthis.morphTexture = null;\n\n\t\t}\n\n\t}\n\n}\n\nconst _vector1 = /*@__PURE__*/ new Vector3();\nconst _vector2 = /*@__PURE__*/ new Vector3();\nconst _normalMatrix = /*@__PURE__*/ new Matrix3();\n\n/**\n * A two dimensional surface that extends infinitely in 3D space, represented\n * in [Hessian normal form]{@link http://mathworld.wolfram.com/HessianNormalForm.html}\n * by a unit length normal vector and a constant.\n */\nclass Plane {\n\n\t/**\n\t * Constructs a new plane.\n\t *\n\t * @param {Vector3} [normal=(1,0,0)] - A unit length vector defining the normal of the plane.\n\t * @param {number} [constant=0] - The signed distance from the origin to the plane.\n\t */\n\tconstructor( normal = new Vector3( 1, 0, 0 ), constant = 0 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPlane = true;\n\n\t\t/**\n\t\t * A unit length vector defining the normal of the plane.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.normal = normal;\n\n\t\t/**\n\t\t * The signed distance from the origin to the plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.constant = constant;\n\n\t}\n\n\t/**\n\t * Sets the plane components by copying the given values.\n\t *\n\t * @param {Vector3} normal - The normal.\n\t * @param {number} constant - The constant.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tset( normal, constant ) {\n\n\t\tthis.normal.copy( normal );\n\t\tthis.constant = constant;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the plane components by defining `x`, `y`, `z` as the\n\t * plane normal and `w` as the constant.\n\t *\n\t * @param {number} x - The value for the normal's x component.\n\t * @param {number} y - The value for the normal's y component.\n\t * @param {number} z - The value for the normal's z component.\n\t * @param {number} w - The constant value.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tsetComponents( x, y, z, w ) {\n\n\t\tthis.normal.set( x, y, z );\n\t\tthis.constant = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the plane from the given normal and coplanar point (that is a point\n\t * that lies onto the plane).\n\t *\n\t * @param {Vector3} normal - The normal.\n\t * @param {Vector3} point - A coplanar point.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tsetFromNormalAndCoplanarPoint( normal, point ) {\n\n\t\tthis.normal.copy( normal );\n\t\tthis.constant = - point.dot( this.normal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the plane from three coplanar points. The winding order is\n\t * assumed to be counter-clockwise, and determines the direction of\n\t * the plane normal.\n\t *\n\t * @param {Vector3} a - The first coplanar point.\n\t * @param {Vector3} b - The second coplanar point.\n\t * @param {Vector3} c - The third coplanar point.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tsetFromCoplanarPoints( a, b, c ) {\n\n\t\tconst normal = _vector1.subVectors( c, b ).cross( _vector2.subVectors( a, b ) ).normalize();\n\n\t\t// Q: should an error be thrown if normal is zero (e.g. degenerate plane)?\n\n\t\tthis.setFromNormalAndCoplanarPoint( normal, a );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given plane to this instance.\n\t *\n\t * @param {Plane} plane - The plane to copy.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tcopy( plane ) {\n\n\t\tthis.normal.copy( plane.normal );\n\t\tthis.constant = plane.constant;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Normalizes the plane normal and adjusts the constant accordingly.\n\t *\n\t * @return {Plane} A reference to this plane.\n\t */\n\tnormalize() {\n\n\t\t// Note: will lead to a divide by zero if the plane is invalid.\n\n\t\tconst inverseNormalLength = 1.0 / this.normal.length();\n\t\tthis.normal.multiplyScalar( inverseNormalLength );\n\t\tthis.constant *= inverseNormalLength;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Negates both the plane normal and the constant.\n\t *\n\t * @return {Plane} A reference to this plane.\n\t */\n\tnegate() {\n\n\t\tthis.constant *= -1;\n\t\tthis.normal.negate();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the signed distance from the given point to this plane.\n\t *\n\t * @param {Vector3} point - The point to compute the distance for.\n\t * @return {number} The signed distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn this.normal.dot( point ) + this.constant;\n\n\t}\n\n\t/**\n\t * Returns the signed distance from the given sphere to this plane.\n\t *\n\t * @param {Sphere} sphere - The sphere to compute the distance for.\n\t * @return {number} The signed distance.\n\t */\n\tdistanceToSphere( sphere ) {\n\n\t\treturn this.distanceToPoint( sphere.center ) - sphere.radius;\n\n\t}\n\n\t/**\n\t * Projects a the given point onto the plane.\n\t *\n\t * @param {Vector3} point - The point to project.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The projected point on the plane.\n\t */\n\tprojectPoint( point, target ) {\n\n\t\treturn target.copy( point ).addScaledVector( this.normal, - this.distanceToPoint( point ) );\n\n\t}\n\n\t/**\n\t * Returns the intersection point of the passed line and the plane. Returns\n\t * `null` if the line does not intersect. Returns the line's starting point if\n\t * the line is coplanar with the plane.\n\t *\n\t * @param {Line3} line - The line to compute the intersection for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectLine( line, target ) {\n\n\t\tconst direction = line.delta( _vector1 );\n\n\t\tconst denominator = this.normal.dot( direction );\n\n\t\tif ( denominator === 0 ) {\n\n\t\t\t// line is coplanar, return origin\n\t\t\tif ( this.distanceToPoint( line.start ) === 0 ) {\n\n\t\t\t\treturn target.copy( line.start );\n\n\t\t\t}\n\n\t\t\t// Unsure if this is the correct method to handle this case.\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst t = - ( line.start.dot( this.normal ) + this.constant ) / denominator;\n\n\t\tif ( t < 0 || t > 1 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\treturn target.copy( line.start ).addScaledVector( direction, t );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given line segment intersects with (passes through) the plane.\n\t *\n\t * @param {Line3} line - The line to test.\n\t * @return {boolean} Whether the given line segment intersects with the plane or not.\n\t */\n\tintersectsLine( line ) {\n\n\t\t// Note: this tests if a line intersects the plane, not whether it (or its end-points) are coplanar with it.\n\n\t\tconst startSign = this.distanceToPoint( line.start );\n\t\tconst endSign = this.distanceToPoint( line.end );\n\n\t\treturn ( startSign < 0 && endSign > 0 ) || ( endSign < 0 && startSign > 0 );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box intersects with the plane.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the given bounding box intersects with the plane or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn box.intersectsPlane( this );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere intersects with the plane.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @return {boolean} Whether the given bounding sphere intersects with the plane or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\treturn sphere.intersectsPlane( this );\n\n\t}\n\n\t/**\n\t * Returns a coplanar vector to the plane, by calculating the\n\t * projection of the normal at the origin onto the plane.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The coplanar point.\n\t */\n\tcoplanarPoint( target ) {\n\n\t\treturn target.copy( this.normal ).multiplyScalar( - this.constant );\n\n\t}\n\n\t/**\n\t * Apply a 4x4 matrix to the plane. The matrix must be an affine, homogeneous transform.\n\t *\n\t * The optional normal matrix can be pre-computed like so:\n\t * ```js\n\t * const optionalNormalMatrix = new THREE.Matrix3().getNormalMatrix( matrix );\n\t * ```\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @param {Matrix4} [optionalNormalMatrix] - A pre-computed normal matrix.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tapplyMatrix4( matrix, optionalNormalMatrix ) {\n\n\t\tconst normalMatrix = optionalNormalMatrix || _normalMatrix.getNormalMatrix( matrix );\n\n\t\tconst referencePoint = this.coplanarPoint( _vector1 ).applyMatrix4( matrix );\n\n\t\tconst normal = this.normal.applyMatrix3( normalMatrix ).normalize();\n\n\t\tthis.constant = - referencePoint.dot( normal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates the plane by the distance defined by the given offset vector.\n\t * Note that this only affects the plane constant and will not affect the normal vector.\n\t *\n\t * @param {Vector3} offset - The offset vector.\n\t * @return {Plane} A reference to this plane.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.constant -= offset.dot( this.normal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this plane is equal with the given one.\n\t *\n\t * @param {Plane} plane - The plane to test for equality.\n\t * @return {boolean} Whether this plane is equal with the given one.\n\t */\n\tequals( plane ) {\n\n\t\treturn plane.normal.equals( this.normal ) && ( plane.constant === this.constant );\n\n\t}\n\n\t/**\n\t * Returns a new plane with copied values from this instance.\n\t *\n\t * @return {Plane} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _sphere$3 = /*@__PURE__*/ new Sphere();\nconst _defaultSpriteCenter = /*@__PURE__*/ new Vector2( 0.5, 0.5 );\nconst _vector$6 = /*@__PURE__*/ new Vector3();\n\n/**\n * Frustums are used to determine what is inside the camera's field of view.\n * They help speed up the rendering process - objects which lie outside a camera's\n * frustum can safely be excluded from rendering.\n *\n * This class is mainly intended for use internally by a renderer.\n */\nclass Frustum {\n\n\t/**\n\t * Constructs a new frustum.\n\t *\n\t * @param {Plane} [p0] - The first plane that encloses the frustum.\n\t * @param {Plane} [p1] - The second plane that encloses the frustum.\n\t * @param {Plane} [p2] - The third plane that encloses the frustum.\n\t * @param {Plane} [p3] - The fourth plane that encloses the frustum.\n\t * @param {Plane} [p4] - The fifth plane that encloses the frustum.\n\t * @param {Plane} [p5] - The sixth plane that encloses the frustum.\n\t */\n\tconstructor( p0 = new Plane(), p1 = new Plane(), p2 = new Plane(), p3 = new Plane(), p4 = new Plane(), p5 = new Plane() ) {\n\n\t\t/**\n\t\t * This array holds the planes that enclose the frustum.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.planes = [ p0, p1, p2, p3, p4, p5 ];\n\n\t}\n\n\t/**\n\t * Sets the frustum planes by copying the given planes.\n\t *\n\t * @param {Plane} [p0] - The first plane that encloses the frustum.\n\t * @param {Plane} [p1] - The second plane that encloses the frustum.\n\t * @param {Plane} [p2] - The third plane that encloses the frustum.\n\t * @param {Plane} [p3] - The fourth plane that encloses the frustum.\n\t * @param {Plane} [p4] - The fifth plane that encloses the frustum.\n\t * @param {Plane} [p5] - The sixth plane that encloses the frustum.\n\t * @return {Frustum} A reference to this frustum.\n\t */\n\tset( p0, p1, p2, p3, p4, p5 ) {\n\n\t\tconst planes = this.planes;\n\n\t\tplanes[ 0 ].copy( p0 );\n\t\tplanes[ 1 ].copy( p1 );\n\t\tplanes[ 2 ].copy( p2 );\n\t\tplanes[ 3 ].copy( p3 );\n\t\tplanes[ 4 ].copy( p4 );\n\t\tplanes[ 5 ].copy( p5 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given frustum to this instance.\n\t *\n\t * @param {Frustum} frustum - The frustum to copy.\n\t * @return {Frustum} A reference to this frustum.\n\t */\n\tcopy( frustum ) {\n\n\t\tconst planes = this.planes;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tplanes[ i ].copy( frustum.planes[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the frustum planes from the given projection matrix.\n\t *\n\t * @param {Matrix4} m - The projection matrix.\n\t * @param {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} coordinateSystem - The coordinate system.\n\t * @param {boolean} [reversedDepth=false] - Whether to use a reversed depth.\n\t * @return {Frustum} A reference to this frustum.\n\t */\n\tsetFromProjectionMatrix( m, coordinateSystem = WebGLCoordinateSystem, reversedDepth = false ) {\n\n\t\tconst planes = this.planes;\n\t\tconst me = m.elements;\n\t\tconst me0 = me[ 0 ], me1 = me[ 1 ], me2 = me[ 2 ], me3 = me[ 3 ];\n\t\tconst me4 = me[ 4 ], me5 = me[ 5 ], me6 = me[ 6 ], me7 = me[ 7 ];\n\t\tconst me8 = me[ 8 ], me9 = me[ 9 ], me10 = me[ 10 ], me11 = me[ 11 ];\n\t\tconst me12 = me[ 12 ], me13 = me[ 13 ], me14 = me[ 14 ], me15 = me[ 15 ];\n\n\t\tplanes[ 0 ].setComponents( me3 - me0, me7 - me4, me11 - me8, me15 - me12 ).normalize();\n\t\tplanes[ 1 ].setComponents( me3 + me0, me7 + me4, me11 + me8, me15 + me12 ).normalize();\n\t\tplanes[ 2 ].setComponents( me3 + me1, me7 + me5, me11 + me9, me15 + me13 ).normalize();\n\t\tplanes[ 3 ].setComponents( me3 - me1, me7 - me5, me11 - me9, me15 - me13 ).normalize();\n\n\t\tif ( reversedDepth ) {\n\n\t\t\tplanes[ 4 ].setComponents( me2, me6, me10, me14 ).normalize(); // far\n\t\t\tplanes[ 5 ].setComponents( me3 - me2, me7 - me6, me11 - me10, me15 - me14 ).normalize(); // near\n\n\t\t} else {\n\n\t\t\tplanes[ 4 ].setComponents( me3 - me2, me7 - me6, me11 - me10, me15 - me14 ).normalize(); // far\n\n\t\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tplanes[ 5 ].setComponents( me3 + me2, me7 + me6, me11 + me10, me15 + me14 ).normalize(); // near\n\n\t\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tplanes[ 5 ].setComponents( me2, me6, me10, me14 ).normalize(); // near\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.Frustum.setFromProjectionMatrix(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the 3D object's bounding sphere is intersecting this frustum.\n\t *\n\t * Note that the 3D object must have a geometry so that the bounding sphere can be calculated.\n\t *\n\t * @param {Object3D} object - The 3D object to test.\n\t * @return {boolean} Whether the 3D object's bounding sphere is intersecting this frustum or not.\n\t */\n\tintersectsObject( object ) {\n\n\t\tif ( object.boundingSphere !== undefined ) {\n\n\t\t\tif ( object.boundingSphere === null ) object.computeBoundingSphere();\n\n\t\t\t_sphere$3.copy( object.boundingSphere ).applyMatrix4( object.matrixWorld );\n\n\t\t} else {\n\n\t\t\tconst geometry = object.geometry;\n\n\t\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t\t_sphere$3.copy( geometry.boundingSphere ).applyMatrix4( object.matrixWorld );\n\n\t\t}\n\n\t\treturn this.intersectsSphere( _sphere$3 );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given sprite is intersecting this frustum.\n\t *\n\t * @param {Sprite} sprite - The sprite to test.\n\t * @return {boolean} Whether the sprite is intersecting this frustum or not.\n\t */\n\tintersectsSprite( sprite ) {\n\n\t\t_sphere$3.center.set( 0, 0, 0 );\n\n\t\tconst offset = _defaultSpriteCenter.distanceTo( sprite.center );\n\n\t\t_sphere$3.radius = 0.7071067811865476 + offset;\n\t\t_sphere$3.applyMatrix4( sprite.matrixWorld );\n\n\t\treturn this.intersectsSphere( _sphere$3 );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere is intersecting this frustum.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @return {boolean} Whether the bounding sphere is intersecting this frustum or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\tconst planes = this.planes;\n\t\tconst center = sphere.center;\n\t\tconst negRadius = - sphere.radius;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tconst distance = planes[ i ].distanceToPoint( center );\n\n\t\t\tif ( distance < negRadius ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box is intersecting this frustum.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the bounding box is intersecting this frustum or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\tconst planes = this.planes;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tconst plane = planes[ i ];\n\n\t\t\t// corner at max distance\n\n\t\t\t_vector$6.x = plane.normal.x > 0 ? box.max.x : box.min.x;\n\t\t\t_vector$6.y = plane.normal.y > 0 ? box.max.y : box.min.y;\n\t\t\t_vector$6.z = plane.normal.z > 0 ? box.max.z : box.min.z;\n\n\t\t\tif ( plane.distanceToPoint( _vector$6 ) < 0 ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within the frustum.\n\t *\n\t * @param {Vector3} point - The point to test.\n\t * @return {boolean} Whether the point lies within this frustum or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\tconst planes = this.planes;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tif ( planes[ i ].distanceToPoint( point ) < 0 ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Returns a new frustum with copied values from this instance.\n\t *\n\t * @return {Frustum} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _projScreenMatrix$2 = /*@__PURE__*/ new Matrix4();\nconst _frustum$1 = /*@__PURE__*/ new Frustum();\n\n/**\n * FrustumArray is used to determine if an object is visible in at least one camera\n * from an array of cameras. This is particularly useful for multi-view renderers.\n*/\nclass FrustumArray {\n\n\t/**\n\t * Constructs a new frustum array.\n\t *\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * The coordinate system to use.\n\t\t *\n\t\t * @type {WebGLCoordinateSystem|WebGPUCoordinateSystem}\n\t\t * @default WebGLCoordinateSystem\n\t\t */\n\t\tthis.coordinateSystem = WebGLCoordinateSystem;\n\n\t}\n\n\t/**\n\t * Returns `true` if the 3D object's bounding sphere is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Object3D} object - The 3D object to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the 3D object is visible in any camera.\n\t */\n\tintersectsObject( object, cameraArray ) {\n\n\t\tif ( ! cameraArray.isArrayCamera || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsObject( object ) ) {\n\n\t\t\t\treturn true; // Object is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given sprite is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Sprite} sprite - The sprite to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the sprite is visible in any camera.\n\t */\n\tintersectsSprite( sprite, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsSprite( sprite ) ) {\n\n\t\t\t\treturn true; // Sprite is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the sphere is visible in any camera.\n\t */\n\tintersectsSphere( sphere, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsSphere( sphere ) ) {\n\n\t\t\t\treturn true; // Sphere is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the box is visible in any camera.\n\t */\n\tintersectsBox( box, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsBox( box ) ) {\n\n\t\t\t\treturn true; // Box is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within any frustum\n\t * from the camera array.\n\t *\n\t * @param {Vector3} point - The point to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the point is visible in any camera.\n\t */\n\tcontainsPoint( point, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.containsPoint( point ) ) {\n\n\t\t\t\treturn true; // Point is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns a new frustum array with copied values from this instance.\n\t *\n\t * @return {FrustumArray} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new FrustumArray();\n\n\t}\n\n}\n\nfunction ascIdSort( a, b ) {\n\n\treturn a - b;\n\n}\n\nfunction sortOpaque( a, b ) {\n\n\treturn a.z - b.z;\n\n}\n\nfunction sortTransparent( a, b ) {\n\n\treturn b.z - a.z;\n\n}\n\nclass MultiDrawRenderList {\n\n\tconstructor() {\n\n\t\tthis.index = 0;\n\t\tthis.pool = [];\n\t\tthis.list = [];\n\n\t}\n\n\tpush( start, count, z, index ) {\n\n\t\tconst pool = this.pool;\n\t\tconst list = this.list;\n\t\tif ( this.index >= pool.length ) {\n\n\t\t\tpool.push( {\n\n\t\t\t\tstart: -1,\n\t\t\t\tcount: -1,\n\t\t\t\tz: -1,\n\t\t\t\tindex: -1,\n\n\t\t\t} );\n\n\t\t}\n\n\t\tconst item = pool[ this.index ];\n\t\tlist.push( item );\n\t\tthis.index ++;\n\n\t\titem.start = start;\n\t\titem.count = count;\n\t\titem.z = z;\n\t\titem.index = index;\n\n\t}\n\n\treset() {\n\n\t\tthis.list.length = 0;\n\t\tthis.index = 0;\n\n\t}\n\n}\n\nconst _matrix$1 = /*@__PURE__*/ new Matrix4();\nconst _whiteColor = /*@__PURE__*/ new Color( 1, 1, 1 );\nconst _frustum = /*@__PURE__*/ new Frustum();\nconst _frustumArray = /*@__PURE__*/ new FrustumArray();\nconst _box$1 = /*@__PURE__*/ new Box3();\nconst _sphere$2 = /*@__PURE__*/ new Sphere();\nconst _vector$5 = /*@__PURE__*/ new Vector3();\nconst _forward$1 = /*@__PURE__*/ new Vector3();\nconst _temp = /*@__PURE__*/ new Vector3();\nconst _renderList = /*@__PURE__*/ new MultiDrawRenderList();\nconst _mesh = /*@__PURE__*/ new Mesh();\nconst _batchIntersects = [];\n\n// copies data from attribute \"src\" into \"target\" starting at \"targetOffset\"\nfunction copyAttributeData( src, target, targetOffset = 0 ) {\n\n\tconst itemSize = target.itemSize;\n\tif ( src.isInterleavedBufferAttribute || src.array.constructor !== target.array.constructor ) {\n\n\t\t// use the component getters and setters if the array data cannot\n\t\t// be copied directly\n\t\tconst vertexCount = src.count;\n\t\tfor ( let i = 0; i < vertexCount; i ++ ) {\n\n\t\t\tfor ( let c = 0; c < itemSize; c ++ ) {\n\n\t\t\t\ttarget.setComponent( i + targetOffset, c, src.getComponent( i, c ) );\n\n\t\t\t}\n\n\t\t}\n\n\t} else {\n\n\t\t// faster copy approach using typed array set function\n\t\ttarget.array.set( src.array, targetOffset * itemSize );\n\n\t}\n\n\ttarget.needsUpdate = true;\n\n}\n\n// safely copies array contents to a potentially smaller array\nfunction copyArrayContents( src, target ) {\n\n\tif ( src.constructor !== target.constructor ) {\n\n\t\t// if arrays are of a different type (eg due to index size increasing) then data must be per-element copied\n\t\tconst len = Math.min( src.length, target.length );\n\t\tfor ( let i = 0; i < len; i ++ ) {\n\n\t\t\ttarget[ i ] = src[ i ];\n\n\t\t}\n\n\t} else {\n\n\t\t// if the arrays use the same data layout we can use a fast block copy\n\t\tconst len = Math.min( src.length, target.length );\n\t\ttarget.set( new src.constructor( src.buffer, 0, len ) );\n\n\t}\n\n}\n\n/**\n * A special version of a mesh with multi draw batch rendering support. Use\n * this class if you have to render a large number of objects with the same\n * material but with different geometries or world transformations. The usage of\n * `BatchedMesh` will help you to reduce the number of draw calls and thus improve the overall\n * rendering performance in your application.\n *\n * ```js\n * const box = new THREE.BoxGeometry( 1, 1, 1 );\n * const sphere = new THREE.SphereGeometry( 1, 12, 12 );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n *\n * // initialize and add geometries into the batched mesh\n * const batchedMesh = new BatchedMesh( 10, 5000, 10000, material );\n * const boxGeometryId = batchedMesh.addGeometry( box );\n * const sphereGeometryId = batchedMesh.addGeometry( sphere );\n *\n * // create instances of those geometries\n * const boxInstancedId1 = batchedMesh.addInstance( boxGeometryId );\n * const boxInstancedId2 = batchedMesh.addInstance( boxGeometryId );\n *\n * const sphereInstancedId1 = batchedMesh.addInstance( sphereGeometryId );\n * const sphereInstancedId2 = batchedMesh.addInstance( sphereGeometryId );\n *\n * // position the geometries\n * batchedMesh.setMatrixAt( boxInstancedId1, boxMatrix1 );\n * batchedMesh.setMatrixAt( boxInstancedId2, boxMatrix2 );\n *\n * batchedMesh.setMatrixAt( sphereInstancedId1, sphereMatrix1 );\n * batchedMesh.setMatrixAt( sphereInstancedId2, sphereMatrix2 );\n *\n * scene.add( batchedMesh );\n * ```\n *\n * @augments Mesh\n */\nclass BatchedMesh extends Mesh {\n\n\t/**\n\t * Constructs a new batched mesh.\n\t *\n\t * @param {number} maxInstanceCount - The maximum number of individual instances planned to be added and rendered.\n\t * @param {number} maxVertexCount - The maximum number of vertices to be used by all unique geometries.\n\t * @param {number} [maxIndexCount=maxVertexCount*2] - The maximum number of indices to be used by all unique geometries\n\t * @param {Material|Array} [material] - The mesh material.\n\t */\n\tconstructor( maxInstanceCount, maxVertexCount, maxIndexCount = maxVertexCount * 2, material ) {\n\n\t\tsuper( new BufferGeometry(), material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBatchedMesh = true;\n\n\t\t/**\n\t\t * When set ot `true`, the individual objects of a batch are frustum culled.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.perObjectFrustumCulled = true;\n\n\t\t/**\n\t\t * When set to `true`, the individual objects of a batch are sorted to improve overdraw-related artifacts.\n\t\t * If the material is marked as \"transparent\" objects are rendered back to front and if not then they are\n\t\t * rendered front to back.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.sortObjects = true;\n\n\t\t/**\n\t\t * The bounding box of the batched mesh. Can be computed via {@link BatchedMesh#computeBoundingBox}.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * The bounding sphere of the batched mesh. Can be computed via {@link BatchedMesh#computeBoundingSphere}.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t\t/**\n\t\t * Takes a sort a function that is run before render. The function takes a list of instances to\n\t\t * sort and a camera. The objects in the list include a \"z\" field to perform a depth-ordered\n\t\t * sort with.\n\t\t *\n\t\t * @type {?Function}\n\t\t * @default null\n\t\t */\n\t\tthis.customSort = null;\n\n\t\t// stores visible, active, and geometry id per instance and reserved buffer ranges for geometries\n\t\tthis._instanceInfo = [];\n\t\tthis._geometryInfo = [];\n\n\t\t// instance, geometry ids that have been set as inactive, and are available to be overwritten\n\t\tthis._availableInstanceIds = [];\n\t\tthis._availableGeometryIds = [];\n\n\t\t// used to track where the next point is that geometry should be inserted\n\t\tthis._nextIndexStart = 0;\n\t\tthis._nextVertexStart = 0;\n\t\tthis._geometryCount = 0;\n\n\t\t// flags\n\t\tthis._visibilityChanged = true;\n\t\tthis._geometryInitialized = false;\n\n\t\t// cached user options\n\t\tthis._maxInstanceCount = maxInstanceCount;\n\t\tthis._maxVertexCount = maxVertexCount;\n\t\tthis._maxIndexCount = maxIndexCount;\n\n\t\t// buffers for multi draw\n\t\tthis._multiDrawCounts = new Int32Array( maxInstanceCount );\n\t\tthis._multiDrawStarts = new Int32Array( maxInstanceCount );\n\t\tthis._multiDrawCount = 0;\n\t\tthis._multiDrawInstances = null;\n\n\t\t// Local matrix per geometry by using data texture\n\t\tthis._matricesTexture = null;\n\t\tthis._indirectTexture = null;\n\t\tthis._colorsTexture = null;\n\n\t\tthis._initMatricesTexture();\n\t\tthis._initIndirectTexture();\n\n\t}\n\n\t/**\n\t * The maximum number of individual instances that can be stored in the batch.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget maxInstanceCount() {\n\n\t\treturn this._maxInstanceCount;\n\n\t}\n\n\t/**\n\t * The instance count.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget instanceCount() {\n\n\t\treturn this._instanceInfo.length - this._availableInstanceIds.length;\n\n\t}\n\n\t/**\n\t * The number of unused vertices.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget unusedVertexCount() {\n\n\t\treturn this._maxVertexCount - this._nextVertexStart;\n\n\t}\n\n\t/**\n\t * The number of unused indices.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget unusedIndexCount() {\n\n\t\treturn this._maxIndexCount - this._nextIndexStart;\n\n\t}\n\n\t_initMatricesTexture() {\n\n\t\t// layout (1 matrix = 4 pixels)\n\t\t// RGBA RGBA RGBA RGBA (=> column1, column2, column3, column4)\n\t\t// with 8x8 pixel texture max 16 matrices * 4 pixels = (8 * 8)\n\t\t// 16x16 pixel texture max 64 matrices * 4 pixels = (16 * 16)\n\t\t// 32x32 pixel texture max 256 matrices * 4 pixels = (32 * 32)\n\t\t// 64x64 pixel texture max 1024 matrices * 4 pixels = (64 * 64)\n\n\t\tlet size = Math.sqrt( this._maxInstanceCount * 4 ); // 4 pixels needed for 1 matrix\n\t\tsize = Math.ceil( size / 4 ) * 4;\n\t\tsize = Math.max( size, 4 );\n\n\t\tconst matricesArray = new Float32Array( size * size * 4 ); // 4 floats per RGBA pixel\n\t\tconst matricesTexture = new DataTexture( matricesArray, size, size, RGBAFormat, FloatType );\n\n\t\tthis._matricesTexture = matricesTexture;\n\n\t}\n\n\t_initIndirectTexture() {\n\n\t\tlet size = Math.sqrt( this._maxInstanceCount );\n\t\tsize = Math.ceil( size );\n\n\t\tconst indirectArray = new Uint32Array( size * size );\n\t\tconst indirectTexture = new DataTexture( indirectArray, size, size, RedIntegerFormat, UnsignedIntType );\n\n\t\tthis._indirectTexture = indirectTexture;\n\n\t}\n\n\t_initColorsTexture() {\n\n\t\tlet size = Math.sqrt( this._maxInstanceCount );\n\t\tsize = Math.ceil( size );\n\n\t\t// 4 floats per RGBA pixel initialized to white\n\t\tconst colorsArray = new Float32Array( size * size * 4 ).fill( 1 );\n\t\tconst colorsTexture = new DataTexture( colorsArray, size, size, RGBAFormat, FloatType );\n\t\tcolorsTexture.colorSpace = ColorManagement.workingColorSpace;\n\n\t\tthis._colorsTexture = colorsTexture;\n\n\t}\n\n\t_initializeGeometry( reference ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst maxVertexCount = this._maxVertexCount;\n\t\tconst maxIndexCount = this._maxIndexCount;\n\t\tif ( this._geometryInitialized === false ) {\n\n\t\t\tfor ( const attributeName in reference.attributes ) {\n\n\t\t\t\tconst srcAttribute = reference.getAttribute( attributeName );\n\t\t\t\tconst { array, itemSize, normalized } = srcAttribute;\n\n\t\t\t\tconst dstArray = new array.constructor( maxVertexCount * itemSize );\n\t\t\t\tconst dstAttribute = new BufferAttribute( dstArray, itemSize, normalized );\n\n\t\t\t\tgeometry.setAttribute( attributeName, dstAttribute );\n\n\t\t\t}\n\n\t\t\tif ( reference.getIndex() !== null ) {\n\n\t\t\t\t// Reserve last u16 index for primitive restart.\n\t\t\t\tconst indexArray = maxVertexCount > 65535\n\t\t\t\t\t? new Uint32Array( maxIndexCount )\n\t\t\t\t\t: new Uint16Array( maxIndexCount );\n\n\t\t\t\tgeometry.setIndex( new BufferAttribute( indexArray, 1 ) );\n\n\t\t\t}\n\n\t\t\tthis._geometryInitialized = true;\n\n\t\t}\n\n\t}\n\n\t// Make sure the geometry is compatible with the existing combined geometry attributes\n\t_validateGeometry( geometry ) {\n\n\t\t// check to ensure the geometries are using consistent attributes and indices\n\t\tconst batchGeometry = this.geometry;\n\t\tif ( Boolean( geometry.getIndex() ) !== Boolean( batchGeometry.getIndex() ) ) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: All geometries must consistently have \"index\".' );\n\n\t\t}\n\n\t\tfor ( const attributeName in batchGeometry.attributes ) {\n\n\t\t\tif ( ! geometry.hasAttribute( attributeName ) ) {\n\n\t\t\t\tthrow new Error( `THREE.BatchedMesh: Added geometry missing \"${ attributeName }\". All geometries must have consistent attributes.` );\n\n\t\t\t}\n\n\t\t\tconst srcAttribute = geometry.getAttribute( attributeName );\n\t\t\tconst dstAttribute = batchGeometry.getAttribute( attributeName );\n\t\t\tif ( srcAttribute.itemSize !== dstAttribute.itemSize || srcAttribute.normalized !== dstAttribute.normalized ) {\n\n\t\t\t\tthrow new Error( 'THREE.BatchedMesh: All attributes must have a consistent itemSize and normalized value.' );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Validates the instance defined by the given ID.\n\t *\n\t * @param {number} instanceId - The instance to validate.\n\t */\n\tvalidateInstanceId( instanceId ) {\n\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tif ( instanceId < 0 || instanceId >= instanceInfo.length || instanceInfo[ instanceId ].active === false ) {\n\n\t\t\tthrow new Error( `THREE.BatchedMesh: Invalid instanceId ${instanceId}. Instance is either out of range or has been deleted.` );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Validates the geometry defined by the given ID.\n\t *\n\t * @param {number} geometryId - The geometry to validate.\n\t */\n\tvalidateGeometryId( geometryId ) {\n\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tif ( geometryId < 0 || geometryId >= geometryInfoList.length || geometryInfoList[ geometryId ].active === false ) {\n\n\t\t\tthrow new Error( `THREE.BatchedMesh: Invalid geometryId ${geometryId}. Geometry is either out of range or has been deleted.` );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Takes a sort a function that is run before render. The function takes a list of instances to\n\t * sort and a camera. The objects in the list include a \"z\" field to perform a depth-ordered sort with.\n\t *\n\t * @param {Function} func - The custom sort function.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetCustomSort( func ) {\n\n\t\tthis.customSort = func;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the bounding box, updating {@link BatchedMesh#boundingBox}.\n\t * Bounding boxes aren't computed by default. They need to be explicitly computed,\n\t * otherwise they are `null`.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tconst boundingBox = this.boundingBox;\n\t\tconst instanceInfo = this._instanceInfo;\n\n\t\tboundingBox.makeEmpty();\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( instanceInfo[ i ].active === false ) continue;\n\n\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\tthis.getBoundingBoxAt( geometryId, _box$1 ).applyMatrix4( _matrix$1 );\n\t\t\tboundingBox.union( _box$1 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere, updating {@link BatchedMesh#boundingSphere}.\n\t * Bounding spheres aren't computed by default. They need to be explicitly computed,\n\t * otherwise they are `null`.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tconst boundingSphere = this.boundingSphere;\n\t\tconst instanceInfo = this._instanceInfo;\n\n\t\tboundingSphere.makeEmpty();\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( instanceInfo[ i ].active === false ) continue;\n\n\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\tthis.getBoundingSphereAt( geometryId, _sphere$2 ).applyMatrix4( _matrix$1 );\n\t\t\tboundingSphere.union( _sphere$2 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Adds a new instance to the batch using the geometry of the given ID and returns\n\t * a new id referring to the new instance to be used by other functions.\n\t *\n\t * @param {number} geometryId - The ID of a previously added geometry via {@link BatchedMesh#addGeometry}.\n\t * @return {number} The instance ID.\n\t */\n\taddInstance( geometryId ) {\n\n\t\tconst atCapacity = this._instanceInfo.length >= this.maxInstanceCount;\n\n\t\t// ensure we're not over geometry\n\t\tif ( atCapacity && this._availableInstanceIds.length === 0 ) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Maximum item count reached.' );\n\n\t\t}\n\n\t\tconst instanceInfo = {\n\t\t\tvisible: true,\n\t\t\tactive: true,\n\t\t\tgeometryIndex: geometryId,\n\t\t};\n\n\t\tlet drawId = null;\n\n\t\t// Prioritize using previously freed instance ids\n\t\tif ( this._availableInstanceIds.length > 0 ) {\n\n\t\t\tthis._availableInstanceIds.sort( ascIdSort );\n\n\t\t\tdrawId = this._availableInstanceIds.shift();\n\t\t\tthis._instanceInfo[ drawId ] = instanceInfo;\n\n\t\t} else {\n\n\t\t\tdrawId = this._instanceInfo.length;\n\t\t\tthis._instanceInfo.push( instanceInfo );\n\n\t\t}\n\n\t\tconst matricesTexture = this._matricesTexture;\n\t\t_matrix$1.identity().toArray( matricesTexture.image.data, drawId * 16 );\n\t\tmatricesTexture.needsUpdate = true;\n\n\t\tconst colorsTexture = this._colorsTexture;\n\t\tif ( colorsTexture ) {\n\n\t\t\t_whiteColor.toArray( colorsTexture.image.data, drawId * 4 );\n\t\t\tcolorsTexture.needsUpdate = true;\n\n\t\t}\n\n\t\tthis._visibilityChanged = true;\n\t\treturn drawId;\n\n\t}\n\n\t/**\n\t * Adds the given geometry to the batch and returns the associated\n\t * geometry id referring to it to be used in other functions.\n\t *\n\t * @param {BufferGeometry} geometry - The geometry to add.\n\t * @param {number} [reservedVertexCount=-1] - Optional parameter specifying the amount of\n\t * vertex buffer space to reserve for the added geometry. This is necessary if it is planned\n\t * to set a new geometry at this index at a later time that is larger than the original geometry.\n\t * Defaults to the length of the given geometry vertex buffer.\n\t * @param {number} [reservedIndexCount=-1] - Optional parameter specifying the amount of index\n\t * buffer space to reserve for the added geometry. This is necessary if it is planned to set a\n\t * new geometry at this index at a later time that is larger than the original geometry. Defaults to\n\t * the length of the given geometry index buffer.\n\t * @return {number} The geometry ID.\n\t */\n\taddGeometry( geometry, reservedVertexCount = -1, reservedIndexCount = -1 ) {\n\n\t\tthis._initializeGeometry( geometry );\n\n\t\tthis._validateGeometry( geometry );\n\n\t\tconst geometryInfo = {\n\t\t\t// geometry information\n\t\t\tvertexStart: -1,\n\t\t\tvertexCount: -1,\n\t\t\treservedVertexCount: -1,\n\n\t\t\tindexStart: -1,\n\t\t\tindexCount: -1,\n\t\t\treservedIndexCount: -1,\n\n\t\t\t// draw range information\n\t\t\tstart: -1,\n\t\t\tcount: -1,\n\n\t\t\t// state\n\t\t\tboundingBox: null,\n\t\t\tboundingSphere: null,\n\t\t\tactive: true,\n\t\t};\n\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tgeometryInfo.vertexStart = this._nextVertexStart;\n\t\tgeometryInfo.reservedVertexCount = reservedVertexCount === -1 ? geometry.getAttribute( 'position' ).count : reservedVertexCount;\n\n\t\tconst index = geometry.getIndex();\n\t\tconst hasIndex = index !== null;\n\t\tif ( hasIndex ) {\n\n\t\t\tgeometryInfo.indexStart = this._nextIndexStart;\n\t\t\tgeometryInfo.reservedIndexCount = reservedIndexCount === -1 ? index.count : reservedIndexCount;\n\n\t\t}\n\n\t\tif (\n\t\t\tgeometryInfo.indexStart !== -1 &&\n\t\t\tgeometryInfo.indexStart + geometryInfo.reservedIndexCount > this._maxIndexCount ||\n\t\t\tgeometryInfo.vertexStart + geometryInfo.reservedVertexCount > this._maxVertexCount\n\t\t) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Reserved space request exceeds the maximum buffer size.' );\n\n\t\t}\n\n\t\t// update id\n\t\tlet geometryId;\n\t\tif ( this._availableGeometryIds.length > 0 ) {\n\n\t\t\tthis._availableGeometryIds.sort( ascIdSort );\n\n\t\t\tgeometryId = this._availableGeometryIds.shift();\n\t\t\tgeometryInfoList[ geometryId ] = geometryInfo;\n\n\n\t\t} else {\n\n\t\t\tgeometryId = this._geometryCount;\n\t\t\tthis._geometryCount ++;\n\t\t\tgeometryInfoList.push( geometryInfo );\n\n\t\t}\n\n\t\t// update the geometry\n\t\tthis.setGeometryAt( geometryId, geometry );\n\n\t\t// increment the next geometry position\n\t\tthis._nextIndexStart = geometryInfo.indexStart + geometryInfo.reservedIndexCount;\n\t\tthis._nextVertexStart = geometryInfo.vertexStart + geometryInfo.reservedVertexCount;\n\n\t\treturn geometryId;\n\n\t}\n\n\t/**\n\t * Replaces the geometry at the given ID with the provided geometry. Throws an error if there\n\t * is not enough space reserved for geometry. Calling this will change all instances that are\n\t * rendering that geometry.\n\t *\n\t * @param {number} geometryId - The ID of the geometry that should be replaced with the given geometry.\n\t * @param {BufferGeometry} geometry - The new geometry.\n\t * @return {number} The geometry ID.\n\t */\n\tsetGeometryAt( geometryId, geometry ) {\n\n\t\tif ( geometryId >= this._geometryCount ) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Maximum geometry count reached.' );\n\n\t\t}\n\n\t\tthis._validateGeometry( geometry );\n\n\t\tconst batchGeometry = this.geometry;\n\t\tconst hasIndex = batchGeometry.getIndex() !== null;\n\t\tconst dstIndex = batchGeometry.getIndex();\n\t\tconst srcIndex = geometry.getIndex();\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\tif (\n\t\t\thasIndex &&\n\t\t\tsrcIndex.count > geometryInfo.reservedIndexCount ||\n\t\t\tgeometry.attributes.position.count > geometryInfo.reservedVertexCount\n\t\t) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Reserved space not large enough for provided geometry.' );\n\n\t\t}\n\n\t\t// copy geometry buffer data over\n\t\tconst vertexStart = geometryInfo.vertexStart;\n\t\tconst reservedVertexCount = geometryInfo.reservedVertexCount;\n\t\tgeometryInfo.vertexCount = geometry.getAttribute( 'position' ).count;\n\n\t\tfor ( const attributeName in batchGeometry.attributes ) {\n\n\t\t\t// copy attribute data\n\t\t\tconst srcAttribute = geometry.getAttribute( attributeName );\n\t\t\tconst dstAttribute = batchGeometry.getAttribute( attributeName );\n\t\t\tcopyAttributeData( srcAttribute, dstAttribute, vertexStart );\n\n\t\t\t// fill the rest in with zeroes\n\t\t\tconst itemSize = srcAttribute.itemSize;\n\t\t\tfor ( let i = srcAttribute.count, l = reservedVertexCount; i < l; i ++ ) {\n\n\t\t\t\tconst index = vertexStart + i;\n\t\t\t\tfor ( let c = 0; c < itemSize; c ++ ) {\n\n\t\t\t\t\tdstAttribute.setComponent( index, c, 0 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tdstAttribute.needsUpdate = true;\n\t\t\tdstAttribute.addUpdateRange( vertexStart * itemSize, reservedVertexCount * itemSize );\n\n\t\t}\n\n\t\t// copy index\n\t\tif ( hasIndex ) {\n\n\t\t\tconst indexStart = geometryInfo.indexStart;\n\t\t\tconst reservedIndexCount = geometryInfo.reservedIndexCount;\n\t\t\tgeometryInfo.indexCount = geometry.getIndex().count;\n\n\t\t\t// copy index data over\n\t\t\tfor ( let i = 0; i < srcIndex.count; i ++ ) {\n\n\t\t\t\tdstIndex.setX( indexStart + i, vertexStart + srcIndex.getX( i ) );\n\n\t\t\t}\n\n\t\t\t// fill the rest in with zeroes\n\t\t\tfor ( let i = srcIndex.count, l = reservedIndexCount; i < l; i ++ ) {\n\n\t\t\t\tdstIndex.setX( indexStart + i, vertexStart );\n\n\t\t\t}\n\n\t\t\tdstIndex.needsUpdate = true;\n\t\t\tdstIndex.addUpdateRange( indexStart, geometryInfo.reservedIndexCount );\n\n\t\t}\n\n\t\t// update the draw range\n\t\tgeometryInfo.start = hasIndex ? geometryInfo.indexStart : geometryInfo.vertexStart;\n\t\tgeometryInfo.count = hasIndex ? geometryInfo.indexCount : geometryInfo.vertexCount;\n\n\t\t// store the bounding boxes\n\t\tgeometryInfo.boundingBox = null;\n\t\tif ( geometry.boundingBox !== null ) {\n\n\t\t\tgeometryInfo.boundingBox = geometry.boundingBox.clone();\n\n\t\t}\n\n\t\tgeometryInfo.boundingSphere = null;\n\t\tif ( geometry.boundingSphere !== null ) {\n\n\t\t\tgeometryInfo.boundingSphere = geometry.boundingSphere.clone();\n\n\t\t}\n\n\t\tthis._visibilityChanged = true;\n\t\treturn geometryId;\n\n\t}\n\n\t/**\n\t * Deletes the geometry defined by the given ID from this batch. Any instances referencing\n\t * this geometry will also be removed as a side effect.\n\t *\n\t * @param {number} geometryId - The ID of the geometry to remove from the batch.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tdeleteGeometry( geometryId ) {\n\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tif ( geometryId >= geometryInfoList.length || geometryInfoList[ geometryId ].active === false ) {\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\t// delete any instances associated with this geometry\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( instanceInfo[ i ].active && instanceInfo[ i ].geometryIndex === geometryId ) {\n\n\t\t\t\tthis.deleteInstance( i );\n\n\t\t\t}\n\n\t\t}\n\n\t\tgeometryInfoList[ geometryId ].active = false;\n\t\tthis._availableGeometryIds.push( geometryId );\n\t\tthis._visibilityChanged = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Deletes an existing instance from the batch using the given ID.\n\t *\n\t * @param {number} instanceId - The ID of the instance to remove from the batch.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tdeleteInstance( instanceId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tthis._instanceInfo[ instanceId ].active = false;\n\t\tthis._availableInstanceIds.push( instanceId );\n\t\tthis._visibilityChanged = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Repacks the sub geometries in [name] to remove any unused space remaining from\n\t * previously deleted geometry, freeing up space to add new geometry.\n\t *\n\t * @param {number} instanceId - The ID of the instance to remove from the batch.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\toptimize() {\n\n\t\t// track the next indices to copy data to\n\t\tlet nextVertexStart = 0;\n\t\tlet nextIndexStart = 0;\n\n\t\t// Iterate over all geometry ranges in order sorted from earliest in the geometry buffer to latest\n\t\t// in the geometry buffer. Because draw range objects can be reused there is no guarantee of their order.\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tconst indices = geometryInfoList\n\t\t\t.map( ( e, i ) => i )\n\t\t\t.sort( ( a, b ) => {\n\n\t\t\t\treturn geometryInfoList[ a ].vertexStart - geometryInfoList[ b ].vertexStart;\n\n\t\t\t} );\n\n\t\tconst geometry = this.geometry;\n\t\tfor ( let i = 0, l = geometryInfoList.length; i < l; i ++ ) {\n\n\t\t\t// if a geometry range is inactive then don't copy anything\n\t\t\tconst index = indices[ i ];\n\t\t\tconst geometryInfo = geometryInfoList[ index ];\n\t\t\tif ( geometryInfo.active === false ) {\n\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\t// if a geometry contains an index buffer then shift it, as well\n\t\t\tif ( geometry.index !== null ) {\n\n\t\t\t\tif ( geometryInfo.indexStart !== nextIndexStart ) {\n\n\t\t\t\t\tconst { indexStart, vertexStart, reservedIndexCount } = geometryInfo;\n\t\t\t\t\tconst index = geometry.index;\n\t\t\t\t\tconst array = index.array;\n\n\t\t\t\t\t// shift the index pointers based on how the vertex data will shift\n\t\t\t\t\t// adjusting the index must happen first so the original vertex start value is available\n\t\t\t\t\tconst elementDelta = nextVertexStart - vertexStart;\n\t\t\t\t\tfor ( let j = indexStart; j < indexStart + reservedIndexCount; j ++ ) {\n\n\t\t\t\t\t\tarray[ j ] = array[ j ] + elementDelta;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tindex.array.copyWithin( nextIndexStart, indexStart, indexStart + reservedIndexCount );\n\t\t\t\t\tindex.addUpdateRange( nextIndexStart, reservedIndexCount );\n\n\t\t\t\t\tgeometryInfo.indexStart = nextIndexStart;\n\n\t\t\t\t}\n\n\t\t\t\tnextIndexStart += geometryInfo.reservedIndexCount;\n\n\t\t\t}\n\n\t\t\t// if a geometry needs to be moved then copy attribute data to overwrite unused space\n\t\t\tif ( geometryInfo.vertexStart !== nextVertexStart ) {\n\n\t\t\t\tconst { vertexStart, reservedVertexCount } = geometryInfo;\n\t\t\t\tconst attributes = geometry.attributes;\n\t\t\t\tfor ( const key in attributes ) {\n\n\t\t\t\t\tconst attribute = attributes[ key ];\n\t\t\t\t\tconst { array, itemSize } = attribute;\n\t\t\t\t\tarray.copyWithin( nextVertexStart * itemSize, vertexStart * itemSize, ( vertexStart + reservedVertexCount ) * itemSize );\n\t\t\t\t\tattribute.addUpdateRange( nextVertexStart * itemSize, reservedVertexCount * itemSize );\n\n\t\t\t\t}\n\n\t\t\t\tgeometryInfo.vertexStart = nextVertexStart;\n\n\t\t\t}\n\n\t\t\tnextVertexStart += geometryInfo.reservedVertexCount;\n\t\t\tgeometryInfo.start = geometry.index ? geometryInfo.indexStart : geometryInfo.vertexStart;\n\n\t\t\t// step the next geometry points to the shifted position\n\t\t\tthis._nextIndexStart = geometry.index ? geometryInfo.indexStart + geometryInfo.reservedIndexCount : 0;\n\t\t\tthis._nextVertexStart = geometryInfo.vertexStart + geometryInfo.reservedVertexCount;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the bounding box for the given geometry.\n\t *\n\t * @param {number} geometryId - The ID of the geometry to return the bounding box for.\n\t * @param {Box3} target - The target object that is used to store the method's result.\n\t * @return {?Box3} The geometry's bounding box. Returns `null` if no geometry has been found for the given ID.\n\t */\n\tgetBoundingBoxAt( geometryId, target ) {\n\n\t\tif ( geometryId >= this._geometryCount ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// compute bounding box\n\t\tconst geometry = this.geometry;\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\tif ( geometryInfo.boundingBox === null ) {\n\n\t\t\tconst box = new Box3();\n\t\t\tconst index = geometry.index;\n\t\t\tconst position = geometry.attributes.position;\n\t\t\tfor ( let i = geometryInfo.start, l = geometryInfo.start + geometryInfo.count; i < l; i ++ ) {\n\n\t\t\t\tlet iv = i;\n\t\t\t\tif ( index ) {\n\n\t\t\t\t\tiv = index.getX( iv );\n\n\t\t\t\t}\n\n\t\t\t\tbox.expandByPoint( _vector$5.fromBufferAttribute( position, iv ) );\n\n\t\t\t}\n\n\t\t\tgeometryInfo.boundingBox = box;\n\n\t\t}\n\n\t\ttarget.copy( geometryInfo.boundingBox );\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the bounding sphere for the given geometry.\n\t *\n\t * @param {number} geometryId - The ID of the geometry to return the bounding sphere for.\n\t * @param {Sphere} target - The target object that is used to store the method's result.\n\t * @return {?Sphere} The geometry's bounding sphere. Returns `null` if no geometry has been found for the given ID.\n\t */\n\tgetBoundingSphereAt( geometryId, target ) {\n\n\t\tif ( geometryId >= this._geometryCount ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// compute bounding sphere\n\t\tconst geometry = this.geometry;\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\tif ( geometryInfo.boundingSphere === null ) {\n\n\t\t\tconst sphere = new Sphere();\n\t\t\tthis.getBoundingBoxAt( geometryId, _box$1 );\n\t\t\t_box$1.getCenter( sphere.center );\n\n\t\t\tconst index = geometry.index;\n\t\t\tconst position = geometry.attributes.position;\n\n\t\t\tlet maxRadiusSq = 0;\n\t\t\tfor ( let i = geometryInfo.start, l = geometryInfo.start + geometryInfo.count; i < l; i ++ ) {\n\n\t\t\t\tlet iv = i;\n\t\t\t\tif ( index ) {\n\n\t\t\t\t\tiv = index.getX( iv );\n\n\t\t\t\t}\n\n\t\t\t\t_vector$5.fromBufferAttribute( position, iv );\n\t\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, sphere.center.distanceToSquared( _vector$5 ) );\n\n\t\t\t}\n\n\t\t\tsphere.radius = Math.sqrt( maxRadiusSq );\n\t\t\tgeometryInfo.boundingSphere = sphere;\n\n\t\t}\n\n\t\ttarget.copy( geometryInfo.boundingSphere );\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Sets the given local transformation matrix to the defined instance.\n\t * Negatively scaled matrices are not supported.\n\t *\n\t * @param {number} instanceId - The ID of an instance to set the matrix of.\n\t * @param {Matrix4} matrix - A 4x4 matrix representing the local transformation of a single instance.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetMatrixAt( instanceId, matrix ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tconst matricesTexture = this._matricesTexture;\n\t\tconst matricesArray = this._matricesTexture.image.data;\n\t\tmatrix.toArray( matricesArray, instanceId * 16 );\n\t\tmatricesTexture.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the local transformation matrix of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the matrix of.\n\t * @param {Matrix4} matrix - The target object that is used to store the method's result.\n\t * @return {Matrix4} The instance's local transformation matrix.\n\t */\n\tgetMatrixAt( instanceId, matrix ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\t\treturn matrix.fromArray( this._matricesTexture.image.data, instanceId * 16 );\n\n\t}\n\n\t/**\n\t * Sets the given color to the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to set the color of.\n\t * @param {Color} color - The color to set the instance to.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetColorAt( instanceId, color ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tif ( this._colorsTexture === null ) {\n\n\t\t\tthis._initColorsTexture();\n\n\t\t}\n\n\t\tcolor.toArray( this._colorsTexture.image.data, instanceId * 4 );\n\t\tthis._colorsTexture.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the color of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the color of.\n\t * @param {Color} color - The target object that is used to store the method's result.\n\t * @return {Color} The instance's color.\n\t */\n\tgetColorAt( instanceId, color ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\t\treturn color.fromArray( this._colorsTexture.image.data, instanceId * 4 );\n\n\t}\n\n\t/**\n\t * Sets the visibility of the instance.\n\t *\n\t * @param {number} instanceId - The id of the instance to set the visibility of.\n\t * @param {boolean} visible - Whether the instance is visible or not.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetVisibleAt( instanceId, visible ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tif ( this._instanceInfo[ instanceId ].visible === visible ) {\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tthis._instanceInfo[ instanceId ].visible = visible;\n\t\tthis._visibilityChanged = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the visibility state of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the visibility state of.\n\t * @return {boolean} Whether the instance is visible or not.\n\t */\n\tgetVisibleAt( instanceId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\treturn this._instanceInfo[ instanceId ].visible;\n\n\t}\n\n\t/**\n\t * Sets the geometry ID of the instance at the given index.\n\t *\n\t * @param {number} instanceId - The ID of the instance to set the geometry ID of.\n\t * @param {number} geometryId - The geometry ID to be use by the instance.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetGeometryIdAt( instanceId, geometryId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\t\tthis.validateGeometryId( geometryId );\n\n\t\tthis._instanceInfo[ instanceId ].geometryIndex = geometryId;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the geometry ID of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the geometry ID of.\n\t * @return {number} The instance's geometry ID.\n\t */\n\tgetGeometryIdAt( instanceId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\treturn this._instanceInfo[ instanceId ].geometryIndex;\n\n\t}\n\n\t/**\n\t * Get the range representing the subset of triangles related to the attached geometry,\n\t * indicating the starting offset and count, or `null` if invalid.\n\t *\n\t * @param {number} geometryId - The id of the geometry to get the range of.\n\t * @param {Object} [target] - The target object that is used to store the method's result.\n\t * @return {{\n\t * \tvertexStart:number,vertexCount:number,reservedVertexCount:number,\n\t * \tindexStart:number,indexCount:number,reservedIndexCount:number,\n\t * \tstart:number,count:number\n\t * }} The result object with range data.\n\t */\n\tgetGeometryRangeAt( geometryId, target = {} ) {\n\n\t\tthis.validateGeometryId( geometryId );\n\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\ttarget.vertexStart = geometryInfo.vertexStart;\n\t\ttarget.vertexCount = geometryInfo.vertexCount;\n\t\ttarget.reservedVertexCount = geometryInfo.reservedVertexCount;\n\n\t\ttarget.indexStart = geometryInfo.indexStart;\n\t\ttarget.indexCount = geometryInfo.indexCount;\n\t\ttarget.reservedIndexCount = geometryInfo.reservedIndexCount;\n\n\t\ttarget.start = geometryInfo.start;\n\t\ttarget.count = geometryInfo.count;\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Resizes the necessary buffers to support the provided number of instances.\n\t * If the provided arguments shrink the number of instances but there are not enough\n\t * unused Ids at the end of the list then an error is thrown.\n\t *\n\t * @param {number} maxInstanceCount - The max number of individual instances that can be added and rendered by the batch.\n\t*/\n\tsetInstanceCount( maxInstanceCount ) {\n\n\t\t// shrink the available instances as much as possible\n\t\tconst availableInstanceIds = this._availableInstanceIds;\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tavailableInstanceIds.sort( ascIdSort );\n\t\twhile ( availableInstanceIds[ availableInstanceIds.length - 1 ] === instanceInfo.length - 1 ) {\n\n\t\t\tinstanceInfo.pop();\n\t\t\tavailableInstanceIds.pop();\n\n\t\t}\n\n\t\t// throw an error if it can't be shrunk to the desired size\n\t\tif ( maxInstanceCount < instanceInfo.length ) {\n\n\t\t\tthrow new Error( `BatchedMesh: Instance ids outside the range ${ maxInstanceCount } are being used. Cannot shrink instance count.` );\n\n\t\t}\n\n\t\t// copy the multi draw counts\n\t\tconst multiDrawCounts = new Int32Array( maxInstanceCount );\n\t\tconst multiDrawStarts = new Int32Array( maxInstanceCount );\n\t\tcopyArrayContents( this._multiDrawCounts, multiDrawCounts );\n\t\tcopyArrayContents( this._multiDrawStarts, multiDrawStarts );\n\n\t\tthis._multiDrawCounts = multiDrawCounts;\n\t\tthis._multiDrawStarts = multiDrawStarts;\n\t\tthis._maxInstanceCount = maxInstanceCount;\n\n\t\t// update texture data for instance sampling\n\t\tconst indirectTexture = this._indirectTexture;\n\t\tconst matricesTexture = this._matricesTexture;\n\t\tconst colorsTexture = this._colorsTexture;\n\n\t\tindirectTexture.dispose();\n\t\tthis._initIndirectTexture();\n\t\tcopyArrayContents( indirectTexture.image.data, this._indirectTexture.image.data );\n\n\t\tmatricesTexture.dispose();\n\t\tthis._initMatricesTexture();\n\t\tcopyArrayContents( matricesTexture.image.data, this._matricesTexture.image.data );\n\n\t\tif ( colorsTexture ) {\n\n\t\t\tcolorsTexture.dispose();\n\t\t\tthis._initColorsTexture();\n\t\t\tcopyArrayContents( colorsTexture.image.data, this._colorsTexture.image.data );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Resizes the available space in the batch's vertex and index buffer attributes to the provided sizes.\n\t * If the provided arguments shrink the geometry buffers but there is not enough unused space at the\n\t * end of the geometry attributes then an error is thrown.\n\t *\n\t * @param {number} maxVertexCount - The maximum number of vertices to be used by all unique geometries to resize to.\n\t * @param {number} maxIndexCount - The maximum number of indices to be used by all unique geometries to resize to.\n\t*/\n\tsetGeometrySize( maxVertexCount, maxIndexCount ) {\n\n\t\t// Check if we can shrink to the requested vertex attribute size\n\t\tconst validRanges = [ ...this._geometryInfo ].filter( info => info.active );\n\t\tconst requiredVertexLength = Math.max( ...validRanges.map( range => range.vertexStart + range.reservedVertexCount ) );\n\t\tif ( requiredVertexLength > maxVertexCount ) {\n\n\t\t\tthrow new Error( `BatchedMesh: Geometry vertex values are being used outside the range ${ maxIndexCount }. Cannot shrink further.` );\n\n\t\t}\n\n\t\t// Check if we can shrink to the requested index attribute size\n\t\tif ( this.geometry.index ) {\n\n\t\t\tconst requiredIndexLength = Math.max( ...validRanges.map( range => range.indexStart + range.reservedIndexCount ) );\n\t\t\tif ( requiredIndexLength > maxIndexCount ) {\n\n\t\t\t\tthrow new Error( `BatchedMesh: Geometry index values are being used outside the range ${ maxIndexCount }. Cannot shrink further.` );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\t// dispose of the previous geometry\n\t\tconst oldGeometry = this.geometry;\n\t\toldGeometry.dispose();\n\n\t\t// recreate the geometry needed based on the previous variant\n\t\tthis._maxVertexCount = maxVertexCount;\n\t\tthis._maxIndexCount = maxIndexCount;\n\n\t\tif ( this._geometryInitialized ) {\n\n\t\t\tthis._geometryInitialized = false;\n\t\t\tthis.geometry = new BufferGeometry();\n\t\t\tthis._initializeGeometry( oldGeometry );\n\n\t\t}\n\n\t\t// copy data from the previous geometry\n\t\tconst geometry = this.geometry;\n\t\tif ( oldGeometry.index ) {\n\n\t\t\tcopyArrayContents( oldGeometry.index.array, geometry.index.array );\n\n\t\t}\n\n\t\tfor ( const key in oldGeometry.attributes ) {\n\n\t\t\tcopyArrayContents( oldGeometry.attributes[ key ].array, geometry.attributes[ key ].array );\n\n\t\t}\n\n\t}\n\n\traycast( raycaster, intersects ) {\n\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst batchGeometry = this.geometry;\n\n\t\t// iterate over each geometry\n\t\t_mesh.material = this.material;\n\t\t_mesh.geometry.index = batchGeometry.index;\n\t\t_mesh.geometry.attributes = batchGeometry.attributes;\n\t\tif ( _mesh.geometry.boundingBox === null ) {\n\n\t\t\t_mesh.geometry.boundingBox = new Box3();\n\n\t\t}\n\n\t\tif ( _mesh.geometry.boundingSphere === null ) {\n\n\t\t\t_mesh.geometry.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( ! instanceInfo[ i ].visible || ! instanceInfo[ i ].active ) {\n\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\t\t\tconst geometryInfo = geometryInfoList[ geometryId ];\n\t\t\t_mesh.geometry.setDrawRange( geometryInfo.start, geometryInfo.count );\n\n\t\t\t// get the intersects\n\t\t\tthis.getMatrixAt( i, _mesh.matrixWorld ).premultiply( matrixWorld );\n\t\t\tthis.getBoundingBoxAt( geometryId, _mesh.geometry.boundingBox );\n\t\t\tthis.getBoundingSphereAt( geometryId, _mesh.geometry.boundingSphere );\n\t\t\t_mesh.raycast( raycaster, _batchIntersects );\n\n\t\t\t// add batch id to the intersects\n\t\t\tfor ( let j = 0, l = _batchIntersects.length; j < l; j ++ ) {\n\n\t\t\t\tconst intersect = _batchIntersects[ j ];\n\t\t\t\tintersect.object = this;\n\t\t\t\tintersect.batchId = i;\n\t\t\t\tintersects.push( intersect );\n\n\t\t\t}\n\n\t\t\t_batchIntersects.length = 0;\n\n\t\t}\n\n\t\t_mesh.material = null;\n\t\t_mesh.geometry.index = null;\n\t\t_mesh.geometry.attributes = {};\n\t\t_mesh.geometry.setDrawRange( 0, Infinity );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.geometry = source.geometry.clone();\n\t\tthis.perObjectFrustumCulled = source.perObjectFrustumCulled;\n\t\tthis.sortObjects = source.sortObjects;\n\t\tthis.boundingBox = source.boundingBox !== null ? source.boundingBox.clone() : null;\n\t\tthis.boundingSphere = source.boundingSphere !== null ? source.boundingSphere.clone() : null;\n\n\t\tthis._geometryInfo = source._geometryInfo.map( info => ( {\n\t\t\t...info,\n\n\t\t\tboundingBox: info.boundingBox !== null ? info.boundingBox.clone() : null,\n\t\t\tboundingSphere: info.boundingSphere !== null ? info.boundingSphere.clone() : null,\n\t\t} ) );\n\t\tthis._instanceInfo = source._instanceInfo.map( info => ( { ...info } ) );\n\n\t\tthis._availableInstanceIds = source._availableInstanceIds.slice();\n\t\tthis._availableGeometryIds = source._availableGeometryIds.slice();\n\n\t\tthis._nextIndexStart = source._nextIndexStart;\n\t\tthis._nextVertexStart = source._nextVertexStart;\n\t\tthis._geometryCount = source._geometryCount;\n\n\t\tthis._maxInstanceCount = source._maxInstanceCount;\n\t\tthis._maxVertexCount = source._maxVertexCount;\n\t\tthis._maxIndexCount = source._maxIndexCount;\n\n\t\tthis._geometryInitialized = source._geometryInitialized;\n\t\tthis._multiDrawCounts = source._multiDrawCounts.slice();\n\t\tthis._multiDrawStarts = source._multiDrawStarts.slice();\n\n\t\tthis._indirectTexture = source._indirectTexture.clone();\n\t\tthis._indirectTexture.image.data = this._indirectTexture.image.data.slice();\n\n\t\tthis._matricesTexture = source._matricesTexture.clone();\n\t\tthis._matricesTexture.image.data = this._matricesTexture.image.data.slice();\n\n\t\tif ( this._colorsTexture !== null ) {\n\n\t\t\tthis._colorsTexture = source._colorsTexture.clone();\n\t\t\tthis._colorsTexture.image.data = this._colorsTexture.image.data.slice();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\t// Assuming the geometry is not shared with other meshes\n\t\tthis.geometry.dispose();\n\n\t\tthis._matricesTexture.dispose();\n\t\tthis._matricesTexture = null;\n\n\t\tthis._indirectTexture.dispose();\n\t\tthis._indirectTexture = null;\n\n\t\tif ( this._colorsTexture !== null ) {\n\n\t\t\tthis._colorsTexture.dispose();\n\t\t\tthis._colorsTexture = null;\n\n\t\t}\n\n\t}\n\n\tonBeforeRender( renderer, scene, camera, geometry, material/*, _group*/ ) {\n\n\t\t// if visibility has not changed and frustum culling and object sorting is not required\n\t\t// then skip iterating over all items\n\t\tif ( ! this._visibilityChanged && ! this.perObjectFrustumCulled && ! this.sortObjects ) {\n\n\t\t\treturn;\n\n\t\t}\n\n\t\t// the indexed version of the multi draw function requires specifying the start\n\t\t// offset in bytes.\n\t\tconst index = geometry.getIndex();\n\t\tconst bytesPerElement = index === null ? 1 : index.array.BYTES_PER_ELEMENT;\n\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tconst multiDrawStarts = this._multiDrawStarts;\n\t\tconst multiDrawCounts = this._multiDrawCounts;\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tconst perObjectFrustumCulled = this.perObjectFrustumCulled;\n\t\tconst indirectTexture = this._indirectTexture;\n\t\tconst indirectArray = indirectTexture.image.data;\n\n\t\tconst frustum = camera.isArrayCamera ? _frustumArray : _frustum;\n\t\t// prepare the frustum in the local frame\n\t\tif ( perObjectFrustumCulled && ! camera.isArrayCamera ) {\n\n\t\t\t_matrix$1\n\t\t\t\t.multiplyMatrices( camera.projectionMatrix, camera.matrixWorldInverse )\n\t\t\t\t.multiply( this.matrixWorld );\n\n\t\t\t_frustum.setFromProjectionMatrix(\n\t\t\t\t_matrix$1,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t}\n\n\t\tlet multiDrawCount = 0;\n\t\tif ( this.sortObjects ) {\n\n\t\t\t// get the camera position in the local frame\n\t\t\t_matrix$1.copy( this.matrixWorld ).invert();\n\t\t\t_vector$5.setFromMatrixPosition( camera.matrixWorld ).applyMatrix4( _matrix$1 );\n\t\t\t_forward$1.set( 0, 0, -1 ).transformDirection( camera.matrixWorld ).transformDirection( _matrix$1 );\n\n\t\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\t\tif ( instanceInfo[ i ].visible && instanceInfo[ i ].active ) {\n\n\t\t\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\n\t\t\t\t\t// get the bounds in world space\n\t\t\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\t\t\tthis.getBoundingSphereAt( geometryId, _sphere$2 ).applyMatrix4( _matrix$1 );\n\n\t\t\t\t\t// determine whether the batched geometry is within the frustum\n\t\t\t\t\tlet culled = false;\n\t\t\t\t\tif ( perObjectFrustumCulled ) {\n\n\t\t\t\t\t\tculled = ! frustum.intersectsSphere( _sphere$2, camera );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! culled ) {\n\n\t\t\t\t\t\t// get the distance from camera used for sorting\n\t\t\t\t\t\tconst geometryInfo = geometryInfoList[ geometryId ];\n\t\t\t\t\t\tconst z = _temp.subVectors( _sphere$2.center, _vector$5 ).dot( _forward$1 );\n\t\t\t\t\t\t_renderList.push( geometryInfo.start, geometryInfo.count, z, i );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// Sort the draw ranges and prep for rendering\n\t\t\tconst list = _renderList.list;\n\t\t\tconst customSort = this.customSort;\n\t\t\tif ( customSort === null ) {\n\n\t\t\t\tlist.sort( material.transparent ? sortTransparent : sortOpaque );\n\n\t\t\t} else {\n\n\t\t\t\tcustomSort.call( this, list, camera );\n\n\t\t\t}\n\n\t\t\tfor ( let i = 0, l = list.length; i < l; i ++ ) {\n\n\t\t\t\tconst item = list[ i ];\n\t\t\t\tmultiDrawStarts[ multiDrawCount ] = item.start * bytesPerElement;\n\t\t\t\tmultiDrawCounts[ multiDrawCount ] = item.count;\n\t\t\t\tindirectArray[ multiDrawCount ] = item.index;\n\t\t\t\tmultiDrawCount ++;\n\n\t\t\t}\n\n\t\t\t_renderList.reset();\n\n\t\t} else {\n\n\t\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\t\tif ( instanceInfo[ i ].visible && instanceInfo[ i ].active ) {\n\n\t\t\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\n\t\t\t\t\t// determine whether the batched geometry is within the frustum\n\t\t\t\t\tlet culled = false;\n\t\t\t\t\tif ( perObjectFrustumCulled ) {\n\n\t\t\t\t\t\t// get the bounds in world space\n\t\t\t\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\t\t\t\tthis.getBoundingSphereAt( geometryId, _sphere$2 ).applyMatrix4( _matrix$1 );\n\t\t\t\t\t\tculled = ! frustum.intersectsSphere( _sphere$2, camera );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! culled ) {\n\n\t\t\t\t\t\tconst geometryInfo = geometryInfoList[ geometryId ];\n\t\t\t\t\t\tmultiDrawStarts[ multiDrawCount ] = geometryInfo.start * bytesPerElement;\n\t\t\t\t\t\tmultiDrawCounts[ multiDrawCount ] = geometryInfo.count;\n\t\t\t\t\t\tindirectArray[ multiDrawCount ] = i;\n\t\t\t\t\t\tmultiDrawCount ++;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tindirectTexture.needsUpdate = true;\n\t\tthis._multiDrawCount = multiDrawCount;\n\t\tthis._visibilityChanged = false;\n\n\t}\n\n\tonBeforeShadow( renderer, object, camera, shadowCamera, geometry, depthMaterial/* , group */ ) {\n\n\t\tthis.onBeforeRender( renderer, null, shadowCamera, geometry, depthMaterial );\n\n\t}\n\n}\n\n/**\n * A material for rendering line primitives.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * ```js\n * const material = new THREE.LineBasicMaterial( { color: 0xffffff } );\n * ```\n *\n * @augments Material\n */\nclass LineBasicMaterial extends Material {\n\n\t/**\n\t * Constructs a new line basic material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineBasicMaterial = true;\n\n\t\tthis.type = 'LineBasicMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * Sets the color of the lines using data from a texture. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * Controls line thickness or lines.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}. WebGL and WebGPU\n\t\t * ignore this setting and always render line primitives with a\n\t\t * width of one pixel.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.linewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of line ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('butt'|'round'|'square')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.linecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of line joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.linejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.linewidth = source.linewidth;\n\t\tthis.linecap = source.linecap;\n\t\tthis.linejoin = source.linejoin;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _vStart = /*@__PURE__*/ new Vector3();\nconst _vEnd = /*@__PURE__*/ new Vector3();\n\nconst _inverseMatrix$1 = /*@__PURE__*/ new Matrix4();\nconst _ray$1 = /*@__PURE__*/ new Ray();\nconst _sphere$1 = /*@__PURE__*/ new Sphere();\n\nconst _intersectPointOnRay = /*@__PURE__*/ new Vector3();\nconst _intersectPointOnSegment = /*@__PURE__*/ new Vector3();\n\n/**\n * A continuous line. The line are rendered by connecting consecutive\n * vertices with straight lines.\n *\n * ```js\n * const material = new THREE.LineBasicMaterial( { color: 0x0000ff } );\n *\n * const points = [];\n * points.push( new THREE.Vector3( - 10, 0, 0 ) );\n * points.push( new THREE.Vector3( 0, 10, 0 ) );\n * points.push( new THREE.Vector3( 10, 0, 0 ) );\n *\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const line = new THREE.Line( geometry, material );\n * scene.add( line );\n * ```\n *\n * @augments Object3D\n */\nclass Line extends Object3D {\n\n\t/**\n\t * Constructs a new line.\n\t *\n\t * @param {BufferGeometry} [geometry] - The line geometry.\n\t * @param {Material|Array} [material] - The line material.\n\t */\n\tconstructor( geometry = new BufferGeometry(), material = new LineBasicMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLine = true;\n\n\t\tthis.type = 'Line';\n\n\t\t/**\n\t\t * The line geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = geometry;\n\n\t\t/**\n\t\t * The line material.\n\t\t *\n\t\t * @type {Material|Array}\n\t\t * @default LineBasicMaterial\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * A dictionary representing the morph targets in the geometry. The key is the\n\t\t * morph targets name, the value its attribute index. This member is `undefined`\n\t\t * by default and only set when morph targets are detected in the geometry.\n\t\t *\n\t\t * @type {Object|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetDictionary = undefined;\n\n\t\t/**\n\t\t * An array of weights typically in the range `[0,1]` that specify how much of the morph\n\t\t * is applied. This member is `undefined` by default and only set when morph targets are\n\t\t * detected in the geometry.\n\t\t *\n\t\t * @type {Array|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetInfluences = undefined;\n\n\t\tthis.updateMorphTargets();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.material = Array.isArray( source.material ) ? source.material.slice() : source.material;\n\t\tthis.geometry = source.geometry;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes an array of distance values which are necessary for rendering dashed lines.\n\t * For each vertex in the geometry, the method calculates the cumulative length from the\n\t * current point to the very beginning of the line.\n\t *\n\t * @return {Line} A reference to this line.\n\t */\n\tcomputeLineDistances() {\n\n\t\tconst geometry = this.geometry;\n\n\t\t// we assume non-indexed geometry\n\n\t\tif ( geometry.index === null ) {\n\n\t\t\tconst positionAttribute = geometry.attributes.position;\n\t\t\tconst lineDistances = [ 0 ];\n\n\t\t\tfor ( let i = 1, l = positionAttribute.count; i < l; i ++ ) {\n\n\t\t\t\t_vStart.fromBufferAttribute( positionAttribute, i - 1 );\n\t\t\t\t_vEnd.fromBufferAttribute( positionAttribute, i );\n\n\t\t\t\tlineDistances[ i ] = lineDistances[ i - 1 ];\n\t\t\t\tlineDistances[ i ] += _vStart.distanceTo( _vEnd );\n\n\t\t\t}\n\n\t\t\tgeometry.setAttribute( 'lineDistance', new Float32BufferAttribute( lineDistances, 1 ) );\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.Line.computeLineDistances(): Computation only possible with non-indexed BufferGeometry.' );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this line.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst threshold = raycaster.params.Line.threshold;\n\t\tconst drawRange = geometry.drawRange;\n\n\t\t// Checking boundingSphere distance to ray\n\n\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t_sphere$1.copy( geometry.boundingSphere );\n\t\t_sphere$1.applyMatrix4( matrixWorld );\n\t\t_sphere$1.radius += threshold;\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere$1 ) === false ) return;\n\n\t\t//\n\n\t\t_inverseMatrix$1.copy( matrixWorld ).invert();\n\t\t_ray$1.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$1 );\n\n\t\tconst localThreshold = threshold / ( ( this.scale.x + this.scale.y + this.scale.z ) / 3 );\n\t\tconst localThresholdSq = localThreshold * localThreshold;\n\n\t\tconst step = this.isLineSegments ? 2 : 1;\n\n\t\tconst index = geometry.index;\n\t\tconst attributes = geometry.attributes;\n\t\tconst positionAttribute = attributes.position;\n\n\t\tif ( index !== null ) {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( index.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, l = end - 1; i < l; i += step ) {\n\n\t\t\t\tconst a = index.getX( i );\n\t\t\t\tconst b = index.getX( i + 1 );\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, a, b, i );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( this.isLineLoop ) {\n\n\t\t\t\tconst a = index.getX( end - 1 );\n\t\t\t\tconst b = index.getX( start );\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, a, b, end - 1 );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( positionAttribute.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, l = end - 1; i < l; i += step ) {\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, i, i + 1, i );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( this.isLineLoop ) {\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, end - 1, start, end - 1 );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the values of {@link Line#morphTargetDictionary} and {@link Line#morphTargetInfluences}\n\t * to make sure existing morph targets can influence this 3D object.\n\t */\n\tupdateMorphTargets() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst morphAttributes = geometry.morphAttributes;\n\t\tconst keys = Object.keys( morphAttributes );\n\n\t\tif ( keys.length > 0 ) {\n\n\t\t\tconst morphAttribute = morphAttributes[ keys[ 0 ] ];\n\n\t\t\tif ( morphAttribute !== undefined ) {\n\n\t\t\t\tthis.morphTargetInfluences = [];\n\t\t\t\tthis.morphTargetDictionary = {};\n\n\t\t\t\tfor ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) {\n\n\t\t\t\t\tconst name = morphAttribute[ m ].name || String( m );\n\n\t\t\t\t\tthis.morphTargetInfluences.push( 0 );\n\t\t\t\t\tthis.morphTargetDictionary[ name ] = m;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n}\n\nfunction checkIntersection( object, raycaster, ray, thresholdSq, a, b, i ) {\n\n\tconst positionAttribute = object.geometry.attributes.position;\n\n\t_vStart.fromBufferAttribute( positionAttribute, a );\n\t_vEnd.fromBufferAttribute( positionAttribute, b );\n\n\tconst distSq = ray.distanceSqToSegment( _vStart, _vEnd, _intersectPointOnRay, _intersectPointOnSegment );\n\n\tif ( distSq > thresholdSq ) return;\n\n\t_intersectPointOnRay.applyMatrix4( object.matrixWorld ); // Move back to world space for distance calculation\n\n\tconst distance = raycaster.ray.origin.distanceTo( _intersectPointOnRay );\n\n\tif ( distance < raycaster.near || distance > raycaster.far ) return;\n\n\treturn {\n\n\t\tdistance: distance,\n\t\t// What do we want? intersection point on the ray or on the segment??\n\t\t// point: raycaster.ray.at( distance ),\n\t\tpoint: _intersectPointOnSegment.clone().applyMatrix4( object.matrixWorld ),\n\t\tindex: i,\n\t\tface: null,\n\t\tfaceIndex: null,\n\t\tbarycoord: null,\n\t\tobject: object\n\n\t};\n\n}\n\nconst _start = /*@__PURE__*/ new Vector3();\nconst _end = /*@__PURE__*/ new Vector3();\n\n/**\n * A series of lines drawn between pairs of vertices.\n *\n * @augments Line\n */\nclass LineSegments extends Line {\n\n\t/**\n\t * Constructs a new line segments.\n\t *\n\t * @param {BufferGeometry} [geometry] - The line geometry.\n\t * @param {Material|Array} [material] - The line material.\n\t */\n\tconstructor( geometry, material ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineSegments = true;\n\n\t\tthis.type = 'LineSegments';\n\n\t}\n\n\tcomputeLineDistances() {\n\n\t\tconst geometry = this.geometry;\n\n\t\t// we assume non-indexed geometry\n\n\t\tif ( geometry.index === null ) {\n\n\t\t\tconst positionAttribute = geometry.attributes.position;\n\t\t\tconst lineDistances = [];\n\n\t\t\tfor ( let i = 0, l = positionAttribute.count; i < l; i += 2 ) {\n\n\t\t\t\t_start.fromBufferAttribute( positionAttribute, i );\n\t\t\t\t_end.fromBufferAttribute( positionAttribute, i + 1 );\n\n\t\t\t\tlineDistances[ i ] = ( i === 0 ) ? 0 : lineDistances[ i - 1 ];\n\t\t\t\tlineDistances[ i + 1 ] = lineDistances[ i ] + _start.distanceTo( _end );\n\n\t\t\t}\n\n\t\t\tgeometry.setAttribute( 'lineDistance', new Float32BufferAttribute( lineDistances, 1 ) );\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.LineSegments.computeLineDistances(): Computation only possible with non-indexed BufferGeometry.' );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A continuous line. This is nearly the same as {@link Line} the only difference\n * is that the last vertex is connected with the first vertex in order to close\n * the line to form a loop.\n *\n * @augments Line\n */\nclass LineLoop extends Line {\n\n\t/**\n\t * Constructs a new line loop.\n\t *\n\t * @param {BufferGeometry} [geometry] - The line geometry.\n\t * @param {Material|Array} [material] - The line material.\n\t */\n\tconstructor( geometry, material ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineLoop = true;\n\n\t\tthis.type = 'LineLoop';\n\n\t}\n\n}\n\n/**\n * A material for rendering point primitives.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * ```js\n * const vertices = [];\n *\n * for ( let i = 0; i < 10000; i ++ ) {\n * \tconst x = THREE.MathUtils.randFloatSpread( 2000 );\n * \tconst y = THREE.MathUtils.randFloatSpread( 2000 );\n * \tconst z = THREE.MathUtils.randFloatSpread( 2000 );\n *\n * \tvertices.push( x, y, z );\n * }\n *\n * const geometry = new THREE.BufferGeometry();\n * geometry.setAttribute( 'position', new THREE.Float32BufferAttribute( vertices, 3 ) );\n * const material = new THREE.PointsMaterial( { color: 0x888888 } );\n * const points = new THREE.Points( geometry, material );\n * scene.add( points );\n * ```\n *\n * @augments Material\n */\nclass PointsMaterial extends Material {\n\n\t/**\n\t * Constructs a new points material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPointsMaterial = true;\n\n\t\tthis.type = 'PointsMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * Defines the size of the points in pixels.\n\t\t *\n\t\t * Might be capped if the value exceeds hardware dependent parameters like [gl.ALIASED_POINT_SIZE_RANGE]{@link https://developer.mozilla.org/en-US/docs/Web/API/WebGLRenderingContext/getParamete}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.size = 1;\n\n\t\t/**\n\t\t * Specifies whether size of individual points is attenuated by the camera depth (perspective camera only).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.sizeAttenuation = true;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.size = source.size;\n\t\tthis.sizeAttenuation = source.sizeAttenuation;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _inverseMatrix = /*@__PURE__*/ new Matrix4();\nconst _ray = /*@__PURE__*/ new Ray();\nconst _sphere = /*@__PURE__*/ new Sphere();\nconst _position$2 = /*@__PURE__*/ new Vector3();\n\n/**\n * A class for displaying points or point clouds.\n *\n * @augments Object3D\n */\nclass Points extends Object3D {\n\n\t/**\n\t * Constructs a new point cloud.\n\t *\n\t * @param {BufferGeometry} [geometry] - The points geometry.\n\t * @param {Material|Array} [material] - The points material.\n\t */\n\tconstructor( geometry = new BufferGeometry(), material = new PointsMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPoints = true;\n\n\t\tthis.type = 'Points';\n\n\t\t/**\n\t\t * The points geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = geometry;\n\n\t\t/**\n\t\t * The line material.\n\t\t *\n\t\t * @type {Material|Array}\n\t\t * @default PointsMaterial\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * A dictionary representing the morph targets in the geometry. The key is the\n\t\t * morph targets name, the value its attribute index. This member is `undefined`\n\t\t * by default and only set when morph targets are detected in the geometry.\n\t\t *\n\t\t * @type {Object|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetDictionary = undefined;\n\n\t\t/**\n\t\t * An array of weights typically in the range `[0,1]` that specify how much of the morph\n\t\t * is applied. This member is `undefined` by default and only set when morph targets are\n\t\t * detected in the geometry.\n\t\t *\n\t\t * @type {Array|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetInfluences = undefined;\n\n\t\tthis.updateMorphTargets();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.material = Array.isArray( source.material ) ? source.material.slice() : source.material;\n\t\tthis.geometry = source.geometry;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this point cloud.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst threshold = raycaster.params.Points.threshold;\n\t\tconst drawRange = geometry.drawRange;\n\n\t\t// Checking boundingSphere distance to ray\n\n\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t_sphere.copy( geometry.boundingSphere );\n\t\t_sphere.applyMatrix4( matrixWorld );\n\t\t_sphere.radius += threshold;\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere ) === false ) return;\n\n\t\t//\n\n\t\t_inverseMatrix.copy( matrixWorld ).invert();\n\t\t_ray.copy( raycaster.ray ).applyMatrix4( _inverseMatrix );\n\n\t\tconst localThreshold = threshold / ( ( this.scale.x + this.scale.y + this.scale.z ) / 3 );\n\t\tconst localThresholdSq = localThreshold * localThreshold;\n\n\t\tconst index = geometry.index;\n\t\tconst attributes = geometry.attributes;\n\t\tconst positionAttribute = attributes.position;\n\n\t\tif ( index !== null ) {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( index.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, il = end; i < il; i ++ ) {\n\n\t\t\t\tconst a = index.getX( i );\n\n\t\t\t\t_position$2.fromBufferAttribute( positionAttribute, a );\n\n\t\t\t\ttestPoint( _position$2, a, localThresholdSq, matrixWorld, raycaster, intersects, this );\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( positionAttribute.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, l = end; i < l; i ++ ) {\n\n\t\t\t\t_position$2.fromBufferAttribute( positionAttribute, i );\n\n\t\t\t\ttestPoint( _position$2, i, localThresholdSq, matrixWorld, raycaster, intersects, this );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the values of {@link Points#morphTargetDictionary} and {@link Points#morphTargetInfluences}\n\t * to make sure existing morph targets can influence this 3D object.\n\t */\n\tupdateMorphTargets() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst morphAttributes = geometry.morphAttributes;\n\t\tconst keys = Object.keys( morphAttributes );\n\n\t\tif ( keys.length > 0 ) {\n\n\t\t\tconst morphAttribute = morphAttributes[ keys[ 0 ] ];\n\n\t\t\tif ( morphAttribute !== undefined ) {\n\n\t\t\t\tthis.morphTargetInfluences = [];\n\t\t\t\tthis.morphTargetDictionary = {};\n\n\t\t\t\tfor ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) {\n\n\t\t\t\t\tconst name = morphAttribute[ m ].name || String( m );\n\n\t\t\t\t\tthis.morphTargetInfluences.push( 0 );\n\t\t\t\t\tthis.morphTargetDictionary[ name ] = m;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n}\n\nfunction testPoint( point, index, localThresholdSq, matrixWorld, raycaster, intersects, object ) {\n\n\tconst rayPointDistanceSq = _ray.distanceSqToPoint( point );\n\n\tif ( rayPointDistanceSq < localThresholdSq ) {\n\n\t\tconst intersectPoint = new Vector3();\n\n\t\t_ray.closestPointToPoint( point, intersectPoint );\n\t\tintersectPoint.applyMatrix4( matrixWorld );\n\n\t\tconst distance = raycaster.ray.origin.distanceTo( intersectPoint );\n\n\t\tif ( distance < raycaster.near || distance > raycaster.far ) return;\n\n\t\tintersects.push( {\n\n\t\t\tdistance: distance,\n\t\t\tdistanceToRay: Math.sqrt( rayPointDistanceSq ),\n\t\t\tpoint: intersectPoint,\n\t\t\tindex: index,\n\t\t\tface: null,\n\t\t\tfaceIndex: null,\n\t\t\tbarycoord: null,\n\t\t\tobject: object\n\n\t\t} );\n\n\t}\n\n}\n\n/**\n * A texture for use with a video.\n *\n * ```js\n * // assuming you have created a HTML video element with id=\"video\"\n * const video = document.getElementById( 'video' );\n * const texture = new THREE.VideoTexture( video );\n * ```\n *\n * Note: When using video textures with {@link WebGPURenderer}, {@link Texture#colorSpace} must be\n * set to THREE.SRGBColorSpace.\n *\n * Note: After the initial use of a texture, its dimensions, format, and type\n * cannot be changed. Instead, call {@link Texture#dispose} on the texture and instantiate a new one.\n *\n * @augments Texture\n */\nclass VideoTexture extends Texture {\n\n\t/**\n\t * Constructs a new video texture.\n\t *\n\t * @param {HTMLVideoElement} video - The video element to use as a data source for the texture.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t */\n\tconstructor( video, mapping, wrapS, wrapT, magFilter = LinearFilter, minFilter = LinearFilter, format, type, anisotropy ) {\n\n\t\tsuper( video, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isVideoTexture = true;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * The video frame request callback identifier, which is a positive integer.\n\t\t *\n\t\t * Value of 0 represents no scheduled rVFC.\n\t\t *\n\t\t * @private\n\t\t * @type {number}\n\t\t */\n\t\tthis._requestVideoFrameCallbackId = 0;\n\n\t\tconst scope = this;\n\n\t\tfunction updateVideo() {\n\n\t\t\tscope.needsUpdate = true;\n\t\t\tscope._requestVideoFrameCallbackId = video.requestVideoFrameCallback( updateVideo );\n\n\t\t}\n\n\t\tif ( 'requestVideoFrameCallback' in video ) {\n\n\t\t\tthis._requestVideoFrameCallbackId = video.requestVideoFrameCallback( updateVideo );\n\n\t\t}\n\n\t}\n\n\tclone() {\n\n\t\treturn new this.constructor( this.image ).copy( this );\n\n\t}\n\n\t/**\n\t * This method is called automatically by the renderer and sets {@link Texture#needsUpdate}\n\t * to `true` every time a new frame is available.\n\t *\n\t * Only relevant if `requestVideoFrameCallback` is not supported in the browser.\n\t */\n\tupdate() {\n\n\t\tconst video = this.image;\n\t\tconst hasVideoFrameCallback = 'requestVideoFrameCallback' in video;\n\n\t\tif ( hasVideoFrameCallback === false && video.readyState >= video.HAVE_CURRENT_DATA ) {\n\n\t\t\tthis.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\tdispose() {\n\n\t\tif ( this._requestVideoFrameCallbackId !== 0 ) {\n\n\t\t\tthis.source.data.cancelVideoFrameCallback( this._requestVideoFrameCallbackId );\n\n\t\t}\n\n\t\tsuper.dispose();\n\n\t}\n\n}\n\n/**\n * This class can be used as an alternative way to define video data. Instead of using\n * an instance of `HTMLVideoElement` like with `VideoTexture`, `VideoFrameTexture` expects each frame is\n * defined manually via {@link VideoFrameTexture#setFrame}. A typical use case for this module is when\n * video frames are decoded with the WebCodecs API.\n *\n * ```js\n * const texture = new THREE.VideoFrameTexture();\n * texture.setFrame( frame );\n * ```\n *\n * @augments VideoTexture\n */\nclass VideoFrameTexture extends VideoTexture {\n\n\t/**\n\t * Constructs a new video frame texture.\n\t *\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t */\n\tconstructor( mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ) {\n\n\t\tsuper( {}, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isVideoFrameTexture = true;\n\n\t}\n\n\t/**\n\t * This method overwritten with an empty implementation since\n\t * this type of texture is updated via `setFrame()`.\n\t */\n\tupdate() {}\n\n\tclone() {\n\n\t\treturn new this.constructor().copy( this ); // restoring Texture.clone()\n\n\t}\n\n\t/**\n\t * Sets the current frame of the video. This will automatically update the texture\n\t * so the data can be used for rendering.\n\t *\n\t * @param {VideoFrame} frame - The video frame.\n\t */\n\tsetFrame( frame ) {\n\n\t\tthis.image = frame;\n\t\tthis.needsUpdate = true;\n\n\t}\n\n}\n\n/**\n * This class can only be used in combination with `copyFramebufferToTexture()` methods\n * of renderers. It extracts the contents of the current bound framebuffer and provides it\n * as a texture for further usage.\n *\n * ```js\n * const pixelRatio = window.devicePixelRatio;\n * const textureSize = 128 * pixelRatio;\n *\n * const frameTexture = new FramebufferTexture( textureSize, textureSize );\n *\n * // calculate start position for copying part of the frame data\n * const vector = new Vector2();\n * vector.x = ( window.innerWidth * pixelRatio / 2 ) - ( textureSize / 2 );\n * vector.y = ( window.innerHeight * pixelRatio / 2 ) - ( textureSize / 2 );\n *\n * renderer.render( scene, camera );\n *\n * // copy part of the rendered frame into the framebuffer texture\n * renderer.copyFramebufferToTexture( frameTexture, vector );\n * ```\n *\n * @augments Texture\n */\nclass FramebufferTexture extends Texture {\n\n\t/**\n\t * Constructs a new framebuffer texture.\n\t *\n\t * @param {number} [width] - The width of the texture.\n\t * @param {number} [height] - The height of the texture.\n\t */\n\tconstructor( width, height ) {\n\n\t\tsuper( { width, height } );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isFramebufferTexture = true;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default to disable filtering.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.magFilter = NearestFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default to disable filtering.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.minFilter = NearestFilter;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\tthis.needsUpdate = true;\n\n\t}\n\n}\n\n/**\n * Creates a texture based on data in compressed form.\n *\n * These texture are usually loaded with {@link CompressedTextureLoader}.\n *\n * @augments Texture\n */\nclass CompressedTexture extends Texture {\n\n\t/**\n\t * Constructs a new compressed texture.\n\t *\n\t * @param {Array} mipmaps - This array holds for all mipmaps (including the bases mip)\n\t * the data and dimensions.\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space.\n\t */\n\tconstructor( mipmaps, width, height, format, type, mapping, wrapS, wrapT, magFilter, minFilter, anisotropy, colorSpace ) {\n\n\t\tsuper( null, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCompressedTexture = true;\n\n\t\t/**\n\t\t * The image property of a compressed texture just defines its dimensions.\n\t\t *\n\t\t * @type {{width:number,height:number}}\n\t\t */\n\t\tthis.image = { width: width, height: height };\n\n\t\t/**\n\t\t * This array holds for all mipmaps (including the bases mip) the data and dimensions.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.mipmaps = mipmaps;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default since it is not possible to\n\t\t * flip compressed textures.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t * @readonly\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default since it is not\n\t\t * possible to generate mipmaps for compressed data. Mipmaps\n\t\t * must be embedded in the compressed texture file.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t * @readonly\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t}\n\n}\n\n/**\n * Creates a texture 2D array based on data in compressed form.\n *\n * These texture are usually loaded with {@link CompressedTextureLoader}.\n *\n * @augments CompressedTexture\n */\nclass CompressedArrayTexture extends CompressedTexture {\n\n\t/**\n\t * Constructs a new compressed array texture.\n\t *\n\t * @param {Array} mipmaps - This array holds for all mipmaps (including the bases mip)\n\t * the data and dimensions.\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} depth - The depth of the texture.\n\t * @param {number} [format=RGBAFormat] - The min filter value.\n\t * @param {number} [type=UnsignedByteType] - The min filter value.\n\t */\n\tconstructor( mipmaps, width, height, depth, format, type ) {\n\n\t\tsuper( mipmaps, width, height, format, type );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCompressedArrayTexture = true;\n\n\t\t/**\n\t\t * The image property of a compressed texture just defines its dimensions.\n\t\t *\n\t\t * @name CompressedArrayTexture#image\n\t\t * @type {{width:number,height:number,depth:number}}\n\t\t */\n\t\tthis.image.depth = depth;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped in the depth and corresponds to\n\t\t * *W* in UVW mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapR = ClampToEdgeWrapping;\n\n\t\t/**\n\t\t * A set of all layers which need to be updated in the texture.\n\t\t *\n\t\t * @type {Set}\n\t\t */\n\t\tthis.layerUpdates = new Set();\n\n\t}\n\n\t/**\n\t * Describes that a specific layer of the texture needs to be updated.\n\t * Normally when {@link Texture#needsUpdate} is set to `true`, the\n\t * entire compressed texture array is sent to the GPU. Marking specific\n\t * layers will only transmit subsets of all mipmaps associated with a\n\t * specific depth in the array which is often much more performant.\n\t *\n\t * @param {number} layerIndex - The layer index that should be updated.\n\t */\n\taddLayerUpdate( layerIndex ) {\n\n\t\tthis.layerUpdates.add( layerIndex );\n\n\t}\n\n\t/**\n\t * Resets the layer updates registry.\n\t */\n\tclearLayerUpdates() {\n\n\t\tthis.layerUpdates.clear();\n\n\t}\n\n}\n\n/**\n * Creates a cube texture based on data in compressed form.\n *\n * These texture are usually loaded with {@link CompressedTextureLoader}.\n *\n * @augments CompressedTexture\n */\nclass CompressedCubeTexture extends CompressedTexture {\n\n\t/**\n\t * Constructs a new compressed texture.\n\t *\n\t * @param {Array} images - An array of compressed textures.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t */\n\tconstructor( images, format, type ) {\n\n\t\tsuper( undefined, images[ 0 ].width, images[ 0 ].height, format, type, CubeReflectionMapping );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCompressedCubeTexture = true;\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubeTexture = true;\n\n\t\tthis.image = images;\n\n\t}\n\n}\n\n/**\n * Creates a texture from a canvas element.\n *\n * This is almost the same as the base texture class, except that it sets {@link Texture#needsUpdate}\n * to `true` immediately since a canvas can directly be used for rendering.\n *\n * @augments Texture\n */\nclass CanvasTexture extends Texture {\n\n\t/**\n\t * Constructs a new texture.\n\t *\n\t * @param {HTMLCanvasElement} [canvas] - The HTML canvas element.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t */\n\tconstructor( canvas, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ) {\n\n\t\tsuper( canvas, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCanvasTexture = true;\n\n\t\tthis.needsUpdate = true;\n\n\t}\n\n}\n\n/**\n * This class can be used to automatically save the depth information of a\n * rendering into a texture.\n *\n * @augments Texture\n */\nclass DepthTexture extends Texture {\n\n\t/**\n\t * Constructs a new depth texture.\n\t *\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} [type=UnsignedIntType] - The texture type.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearFilter] - The min filter value.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {number} [format=DepthFormat] - The texture format.\n\t * @param {number} [depth=1] - The depth of the texture.\n\t */\n\tconstructor( width, height, type = UnsignedIntType, mapping, wrapS, wrapT, magFilter = NearestFilter, minFilter = NearestFilter, anisotropy, format = DepthFormat, depth = 1 ) {\n\n\t\tif ( format !== DepthFormat && format !== DepthStencilFormat ) {\n\n\t\t\tthrow new Error( 'DepthTexture format must be either THREE.DepthFormat or THREE.DepthStencilFormat' );\n\n\t\t}\n\n\t\tconst image = { width: width, height: height, depth: depth };\n\n\t\tsuper( image, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDepthTexture = true;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * Code corresponding to the depth compare function.\n\t\t *\n\t\t * @type {?(NeverCompare|LessCompare|EqualCompare|LessEqualCompare|GreaterCompare|NotEqualCompare|GreaterEqualCompare|AlwaysCompare)}\n\t\t * @default null\n\t\t */\n\t\tthis.compareFunction = null;\n\n\t}\n\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.source = new Source( Object.assign( {}, source.image ) ); // see #30540\n\t\tthis.compareFunction = source.compareFunction;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tif ( this.compareFunction !== null ) data.compareFunction = this.compareFunction;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Represents a texture created externally with the same renderer context.\n *\n * This may be a texture from a protected media stream, device camera feed,\n * or other data feeds like a depth sensor.\n *\n * Note that this class is only supported in {@link WebGLRenderer}, and in\n * the {@link WebGPURenderer} WebGPU backend.\n *\n * @augments Texture\n */\nclass ExternalTexture extends Texture {\n\n\t/**\n\t * Creates a new raw texture.\n\t *\n\t * @param {?(WebGLTexture|GPUTexture)} [sourceTexture=null] - The external texture.\n\t */\n\tconstructor( sourceTexture = null ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The external source texture.\n\t\t *\n\t\t * @type {?(WebGLTexture|GPUTexture)}\n\t\t * @default null\n\t\t */\n\t\tthis.sourceTexture = sourceTexture;\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isExternalTexture = true;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.sourceTexture = source.sourceTexture;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a capsule.\n *\n * ```js\n * const geometry = new THREE.CapsuleGeometry( 1, 1, 4, 8, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const capsule = new THREE.Mesh( geometry, material );\n * scene.add( capsule );\n * ```\n *\n * @augments BufferGeometry\n */\nclass CapsuleGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new capsule geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the capsule.\n\t * @param {number} [height=1] - Height of the middle section.\n\t * @param {number} [capSegments=4] - Number of curve segments used to build each cap.\n\t * @param {number} [radialSegments=8] - Number of segmented faces around the circumference of the capsule. Must be an integer >= 3.\n\t * @param {number} [heightSegments=1] - Number of rows of faces along the height of the middle section. Must be an integer >= 1.\n\t */\n\tconstructor( radius = 1, height = 1, capSegments = 4, radialSegments = 8, heightSegments = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CapsuleGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\theight: height,\n\t\t\tcapSegments: capSegments,\n\t\t\tradialSegments: radialSegments,\n\t\t\theightSegments: heightSegments,\n\t\t};\n\n\t\theight = Math.max( 0, height );\n\t\tcapSegments = Math.max( 1, Math.floor( capSegments ) );\n\t\tradialSegments = Math.max( 3, Math.floor( radialSegments ) );\n\t\theightSegments = Math.max( 1, Math.floor( heightSegments ) );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst halfHeight = height / 2;\n\t\tconst capArcLength = ( Math.PI / 2 ) * radius;\n\t\tconst cylinderPartLength = height;\n\t\tconst totalArcLength = 2 * capArcLength + cylinderPartLength;\n\n\t\tconst numVerticalSegments = capSegments * 2 + heightSegments;\n\t\tconst verticesPerRow = radialSegments + 1;\n\n\t\tconst normal = new Vector3();\n\t\tconst vertex = new Vector3();\n\n\t\t// generate vertices, normals, and uvs\n\n\t\tfor ( let iy = 0; iy <= numVerticalSegments; iy ++ ) {\n\n\t\t\tlet currentArcLength = 0;\n\t\t\tlet profileY = 0;\n\t\t\tlet profileRadius = 0;\n\t\t\tlet normalYComponent = 0;\n\n\t\t\tif ( iy <= capSegments ) {\n\n\t\t\t\t// bottom cap\n\t\t\t\tconst segmentProgress = iy / capSegments;\n\t\t\t\tconst angle = ( segmentProgress * Math.PI ) / 2;\n\t\t\t\tprofileY = - halfHeight - radius * Math.cos( angle );\n\t\t\t\tprofileRadius = radius * Math.sin( angle );\n\t\t\t\tnormalYComponent = - radius * Math.cos( angle );\n\t\t\t\tcurrentArcLength = segmentProgress * capArcLength;\n\n\t\t\t} else if ( iy <= capSegments + heightSegments ) {\n\n\t\t\t\t// middle section\n\t\t\t\tconst segmentProgress = ( iy - capSegments ) / heightSegments;\n\t\t\t\tprofileY = - halfHeight + segmentProgress * height;\n\t\t\t\tprofileRadius = radius;\n\t\t\t\tnormalYComponent = 0;\n\t\t\t\tcurrentArcLength = capArcLength + segmentProgress * cylinderPartLength;\n\n\t\t\t} else {\n\n\t\t\t\t// top cap\n\t\t\t\tconst segmentProgress =\n\t\t\t\t\t( iy - capSegments - heightSegments ) / capSegments;\n\t\t\t\tconst angle = ( segmentProgress * Math.PI ) / 2;\n\t\t\t\tprofileY = halfHeight + radius * Math.sin( angle );\n\t\t\t\tprofileRadius = radius * Math.cos( angle );\n\t\t\t\tnormalYComponent = radius * Math.sin( angle );\n\t\t\t\tcurrentArcLength =\n\t\t\t\t\tcapArcLength + cylinderPartLength + segmentProgress * capArcLength;\n\n\t\t\t}\n\n\t\t\tconst v = Math.max( 0, Math.min( 1, currentArcLength / totalArcLength ) );\n\n\n\t\t\t// special case for the poles\n\n\t\t\tlet uOffset = 0;\n\n\t\t\tif ( iy === 0 ) {\n\n\t\t\t\tuOffset = 0.5 / radialSegments;\n\n\t\t\t} else if ( iy === numVerticalSegments ) {\n\n\t\t\t\tuOffset = -0.5 / radialSegments;\n\n\t\t\t}\n\n\t\t\tfor ( let ix = 0; ix <= radialSegments; ix ++ ) {\n\n\t\t\t\tconst u = ix / radialSegments;\n\t\t\t\tconst theta = u * Math.PI * 2;\n\n\t\t\t\tconst sinTheta = Math.sin( theta );\n\t\t\t\tconst cosTheta = Math.cos( theta );\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = - profileRadius * cosTheta;\n\t\t\t\tvertex.y = profileY;\n\t\t\t\tvertex.z = profileRadius * sinTheta;\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormal.set(\n\t\t\t\t\t- profileRadius * cosTheta,\n\t\t\t\t\tnormalYComponent,\n\t\t\t\t\tprofileRadius * sinTheta\n\t\t\t\t);\n\t\t\t\tnormal.normalize();\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( u + uOffset, v );\n\n\t\t\t}\n\n\t\t\tif ( iy > 0 ) {\n\n\t\t\t\tconst prevIndexRow = ( iy - 1 ) * verticesPerRow;\n\t\t\t\tfor ( let ix = 0; ix < radialSegments; ix ++ ) {\n\n\t\t\t\t\tconst i1 = prevIndexRow + ix;\n\t\t\t\t\tconst i2 = prevIndexRow + ix + 1;\n\t\t\t\t\tconst i3 = iy * verticesPerRow + ix;\n\t\t\t\t\tconst i4 = iy * verticesPerRow + ix + 1;\n\n\t\t\t\t\tindices.push( i1, i2, i3 );\n\t\t\t\t\tindices.push( i2, i4, i3 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {CapsuleGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new CapsuleGeometry( data.radius, data.height, data.capSegments, data.radialSegments, data.heightSegments );\n\n\t}\n\n}\n\n/**\n * A simple shape of Euclidean geometry. It is constructed from a\n * number of triangular segments that are oriented around a central point and\n * extend as far out as a given radius. It is built counter-clockwise from a\n * start angle and a given central angle. It can also be used to create\n * regular polygons, where the number of segments determines the number of\n * sides.\n *\n * ```js\n * const geometry = new THREE.CircleGeometry( 5, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const circle = new THREE.Mesh( geometry, material );\n * scene.add( circle )\n * ```\n *\n * @augments BufferGeometry\n */\nclass CircleGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new circle geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the circle.\n\t * @param {number} [segments=32] - Number of segments (triangles), minimum = `3`.\n\t * @param {number} [thetaStart=0] - Start angle for first segment in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - The central angle, often called theta,\n\t * of the circular sector in radians. The default value results in a complete circle.\n\t */\n\tconstructor( radius = 1, segments = 32, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CircleGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tsegments: segments,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\tsegments = Math.max( 3, segments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst vertex = new Vector3();\n\t\tconst uv = new Vector2();\n\n\t\t// center point\n\n\t\tvertices.push( 0, 0, 0 );\n\t\tnormals.push( 0, 0, 1 );\n\t\tuvs.push( 0.5, 0.5 );\n\n\t\tfor ( let s = 0, i = 3; s <= segments; s ++, i += 3 ) {\n\n\t\t\tconst segment = thetaStart + s / segments * thetaLength;\n\n\t\t\t// vertex\n\n\t\t\tvertex.x = radius * Math.cos( segment );\n\t\t\tvertex.y = radius * Math.sin( segment );\n\n\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t// normal\n\n\t\t\tnormals.push( 0, 0, 1 );\n\n\t\t\t// uvs\n\n\t\t\tuv.x = ( vertices[ i ] / radius + 1 ) / 2;\n\t\t\tuv.y = ( vertices[ i + 1 ] / radius + 1 ) / 2;\n\n\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let i = 1; i <= segments; i ++ ) {\n\n\t\t\tindices.push( i, i + 1, 0 );\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {CircleGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new CircleGeometry( data.radius, data.segments, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a cylinder.\n *\n * ```js\n * const geometry = new THREE.CylinderGeometry( 5, 5, 20, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const cylinder = new THREE.Mesh( geometry, material );\n * scene.add( cylinder );\n * ```\n *\n * @augments BufferGeometry\n */\nclass CylinderGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new cylinder geometry.\n\t *\n\t * @param {number} [radiusTop=1] - Radius of the cylinder at the top.\n\t * @param {number} [radiusBottom=1] - Radius of the cylinder at the bottom.\n\t * @param {number} [height=1] - Height of the cylinder.\n\t * @param {number} [radialSegments=32] - Number of segmented faces around the circumference of the cylinder.\n\t * @param {number} [heightSegments=1] - Number of rows of faces along the height of the cylinder.\n\t * @param {boolean} [openEnded=false] - Whether the base of the cylinder is open or capped.\n\t * @param {number} [thetaStart=0] - Start angle for first segment, in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - The central angle, often called theta, of the circular sector, in radians.\n\t * The default value results in a complete cylinder.\n\t */\n\tconstructor( radiusTop = 1, radiusBottom = 1, height = 1, radialSegments = 32, heightSegments = 1, openEnded = false, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CylinderGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradiusTop: radiusTop,\n\t\t\tradiusBottom: radiusBottom,\n\t\t\theight: height,\n\t\t\tradialSegments: radialSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\topenEnded: openEnded,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\tconst scope = this;\n\n\t\tradialSegments = Math.floor( radialSegments );\n\t\theightSegments = Math.floor( heightSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tlet index = 0;\n\t\tconst indexArray = [];\n\t\tconst halfHeight = height / 2;\n\t\tlet groupStart = 0;\n\n\t\t// generate geometry\n\n\t\tgenerateTorso();\n\n\t\tif ( openEnded === false ) {\n\n\t\t\tif ( radiusTop > 0 ) generateCap( true );\n\t\t\tif ( radiusBottom > 0 ) generateCap( false );\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\tfunction generateTorso() {\n\n\t\t\tconst normal = new Vector3();\n\t\t\tconst vertex = new Vector3();\n\n\t\t\tlet groupCount = 0;\n\n\t\t\t// this will be used to calculate the normal\n\t\t\tconst slope = ( radiusBottom - radiusTop ) / height;\n\n\t\t\t// generate vertices, normals and uvs\n\n\t\t\tfor ( let y = 0; y <= heightSegments; y ++ ) {\n\n\t\t\t\tconst indexRow = [];\n\n\t\t\t\tconst v = y / heightSegments;\n\n\t\t\t\t// calculate the radius of the current row\n\n\t\t\t\tconst radius = v * ( radiusBottom - radiusTop ) + radiusTop;\n\n\t\t\t\tfor ( let x = 0; x <= radialSegments; x ++ ) {\n\n\t\t\t\t\tconst u = x / radialSegments;\n\n\t\t\t\t\tconst theta = u * thetaLength + thetaStart;\n\n\t\t\t\t\tconst sinTheta = Math.sin( theta );\n\t\t\t\t\tconst cosTheta = Math.cos( theta );\n\n\t\t\t\t\t// vertex\n\n\t\t\t\t\tvertex.x = radius * sinTheta;\n\t\t\t\t\tvertex.y = - v * height + halfHeight;\n\t\t\t\t\tvertex.z = radius * cosTheta;\n\t\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t\t// normal\n\n\t\t\t\t\tnormal.set( sinTheta, slope, cosTheta ).normalize();\n\t\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t\t// uv\n\n\t\t\t\t\tuvs.push( u, 1 - v );\n\n\t\t\t\t\t// save index of vertex in respective row\n\n\t\t\t\t\tindexRow.push( index ++ );\n\n\t\t\t\t}\n\n\t\t\t\t// now save vertices of the row in our index array\n\n\t\t\t\tindexArray.push( indexRow );\n\n\t\t\t}\n\n\t\t\t// generate indices\n\n\t\t\tfor ( let x = 0; x < radialSegments; x ++ ) {\n\n\t\t\t\tfor ( let y = 0; y < heightSegments; y ++ ) {\n\n\t\t\t\t\t// we use the index array to access the correct indices\n\n\t\t\t\t\tconst a = indexArray[ y ][ x ];\n\t\t\t\t\tconst b = indexArray[ y + 1 ][ x ];\n\t\t\t\t\tconst c = indexArray[ y + 1 ][ x + 1 ];\n\t\t\t\t\tconst d = indexArray[ y ][ x + 1 ];\n\n\t\t\t\t\t// faces\n\n\t\t\t\t\tif ( radiusTop > 0 || y !== 0 ) {\n\n\t\t\t\t\t\tindices.push( a, b, d );\n\t\t\t\t\t\tgroupCount += 3;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( radiusBottom > 0 || y !== heightSegments - 1 ) {\n\n\t\t\t\t\t\tindices.push( b, c, d );\n\t\t\t\t\t\tgroupCount += 3;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// add a group to the geometry. this will ensure multi material support\n\n\t\t\tscope.addGroup( groupStart, groupCount, 0 );\n\n\t\t\t// calculate new start value for groups\n\n\t\t\tgroupStart += groupCount;\n\n\t\t}\n\n\t\tfunction generateCap( top ) {\n\n\t\t\t// save the index of the first center vertex\n\t\t\tconst centerIndexStart = index;\n\n\t\t\tconst uv = new Vector2();\n\t\t\tconst vertex = new Vector3();\n\n\t\t\tlet groupCount = 0;\n\n\t\t\tconst radius = ( top === true ) ? radiusTop : radiusBottom;\n\t\t\tconst sign = ( top === true ) ? 1 : -1;\n\n\t\t\t// first we generate the center vertex data of the cap.\n\t\t\t// because the geometry needs one set of uvs per face,\n\t\t\t// we must generate a center vertex per face/segment\n\n\t\t\tfor ( let x = 1; x <= radialSegments; x ++ ) {\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertices.push( 0, halfHeight * sign, 0 );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormals.push( 0, sign, 0 );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( 0.5, 0.5 );\n\n\t\t\t\t// increase index\n\n\t\t\t\tindex ++;\n\n\t\t\t}\n\n\t\t\t// save the index of the last center vertex\n\t\t\tconst centerIndexEnd = index;\n\n\t\t\t// now we generate the surrounding vertices, normals and uvs\n\n\t\t\tfor ( let x = 0; x <= radialSegments; x ++ ) {\n\n\t\t\t\tconst u = x / radialSegments;\n\t\t\t\tconst theta = u * thetaLength + thetaStart;\n\n\t\t\t\tconst cosTheta = Math.cos( theta );\n\t\t\t\tconst sinTheta = Math.sin( theta );\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = radius * sinTheta;\n\t\t\t\tvertex.y = halfHeight * sign;\n\t\t\t\tvertex.z = radius * cosTheta;\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormals.push( 0, sign, 0 );\n\n\t\t\t\t// uv\n\n\t\t\t\tuv.x = ( cosTheta * 0.5 ) + 0.5;\n\t\t\t\tuv.y = ( sinTheta * 0.5 * sign ) + 0.5;\n\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t\t// increase index\n\n\t\t\t\tindex ++;\n\n\t\t\t}\n\n\t\t\t// generate indices\n\n\t\t\tfor ( let x = 0; x < radialSegments; x ++ ) {\n\n\t\t\t\tconst c = centerIndexStart + x;\n\t\t\t\tconst i = centerIndexEnd + x;\n\n\t\t\t\tif ( top === true ) {\n\n\t\t\t\t\t// face top\n\n\t\t\t\t\tindices.push( i, i + 1, c );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// face bottom\n\n\t\t\t\t\tindices.push( i + 1, i, c );\n\n\t\t\t\t}\n\n\t\t\t\tgroupCount += 3;\n\n\t\t\t}\n\n\t\t\t// add a group to the geometry. this will ensure multi material support\n\n\t\t\tscope.addGroup( groupStart, groupCount, top === true ? 1 : 2 );\n\n\t\t\t// calculate new start value for groups\n\n\t\t\tgroupStart += groupCount;\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {CylinderGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new CylinderGeometry( data.radiusTop, data.radiusBottom, data.height, data.radialSegments, data.heightSegments, data.openEnded, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a cone.\n *\n * ```js\n * const geometry = new THREE.ConeGeometry( 5, 20, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const cone = new THREE.Mesh(geometry, material );\n * scene.add( cone );\n * ```\n *\n * @augments CylinderGeometry\n */\nclass ConeGeometry extends CylinderGeometry {\n\n\t/**\n\t * Constructs a new cone geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the cone base.\n\t * @param {number} [height=1] - Height of the cone.\n\t * @param {number} [radialSegments=32] - Number of segmented faces around the circumference of the cone.\n\t * @param {number} [heightSegments=1] - Number of rows of faces along the height of the cone.\n\t * @param {boolean} [openEnded=false] - Whether the base of the cone is open or capped.\n\t * @param {number} [thetaStart=0] - Start angle for first segment, in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - The central angle, often called theta, of the circular sector, in radians.\n\t * The default value results in a complete cone.\n\t */\n\tconstructor( radius = 1, height = 1, radialSegments = 32, heightSegments = 1, openEnded = false, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper( 0, radius, height, radialSegments, heightSegments, openEnded, thetaStart, thetaLength );\n\n\t\tthis.type = 'ConeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\theight: height,\n\t\t\tradialSegments: radialSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\topenEnded: openEnded,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {ConeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new ConeGeometry( data.radius, data.height, data.radialSegments, data.heightSegments, data.openEnded, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A polyhedron is a solid in three dimensions with flat faces. This class\n * will take an array of vertices, project them onto a sphere, and then\n * divide them up to the desired level of detail.\n *\n * @augments BufferGeometry\n */\nclass PolyhedronGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new polyhedron geometry.\n\t *\n\t * @param {Array} [vertices] - A flat array of vertices describing the base shape.\n\t * @param {Array} [indices] - A flat array of indices describing the base shape.\n\t * @param {number} [radius=1] - The radius of the shape.\n\t * @param {number} [detail=0] - How many levels to subdivide the geometry. The more detail, the smoother the shape.\n\t */\n\tconstructor( vertices = [], indices = [], radius = 1, detail = 0 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'PolyhedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tvertices: vertices,\n\t\t\tindices: indices,\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t\t// default buffer data\n\n\t\tconst vertexBuffer = [];\n\t\tconst uvBuffer = [];\n\n\t\t// the subdivision creates the vertex buffer data\n\n\t\tsubdivide( detail );\n\n\t\t// all vertices should lie on a conceptual sphere with a given radius\n\n\t\tapplyRadius( radius );\n\n\t\t// finally, create the uv data\n\n\t\tgenerateUVs();\n\n\t\t// build non-indexed geometry\n\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertexBuffer, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( vertexBuffer.slice(), 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvBuffer, 2 ) );\n\n\t\tif ( detail === 0 ) {\n\n\t\t\tthis.computeVertexNormals(); // flat normals\n\n\t\t} else {\n\n\t\t\tthis.normalizeNormals(); // smooth normals\n\n\t\t}\n\n\t\t// helper functions\n\n\t\tfunction subdivide( detail ) {\n\n\t\t\tconst a = new Vector3();\n\t\t\tconst b = new Vector3();\n\t\t\tconst c = new Vector3();\n\n\t\t\t// iterate over all faces and apply a subdivision with the given detail value\n\n\t\t\tfor ( let i = 0; i < indices.length; i += 3 ) {\n\n\t\t\t\t// get the vertices of the face\n\n\t\t\t\tgetVertexByIndex( indices[ i + 0 ], a );\n\t\t\t\tgetVertexByIndex( indices[ i + 1 ], b );\n\t\t\t\tgetVertexByIndex( indices[ i + 2 ], c );\n\n\t\t\t\t// perform subdivision\n\n\t\t\t\tsubdivideFace( a, b, c, detail );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction subdivideFace( a, b, c, detail ) {\n\n\t\t\tconst cols = detail + 1;\n\n\t\t\t// we use this multidimensional array as a data structure for creating the subdivision\n\n\t\t\tconst v = [];\n\n\t\t\t// construct all of the vertices for this subdivision\n\n\t\t\tfor ( let i = 0; i <= cols; i ++ ) {\n\n\t\t\t\tv[ i ] = [];\n\n\t\t\t\tconst aj = a.clone().lerp( c, i / cols );\n\t\t\t\tconst bj = b.clone().lerp( c, i / cols );\n\n\t\t\t\tconst rows = cols - i;\n\n\t\t\t\tfor ( let j = 0; j <= rows; j ++ ) {\n\n\t\t\t\t\tif ( j === 0 && i === cols ) {\n\n\t\t\t\t\t\tv[ i ][ j ] = aj;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tv[ i ][ j ] = aj.clone().lerp( bj, j / rows );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// construct all of the faces\n\n\t\t\tfor ( let i = 0; i < cols; i ++ ) {\n\n\t\t\t\tfor ( let j = 0; j < 2 * ( cols - i ) - 1; j ++ ) {\n\n\t\t\t\t\tconst k = Math.floor( j / 2 );\n\n\t\t\t\t\tif ( j % 2 === 0 ) {\n\n\t\t\t\t\t\tpushVertex( v[ i ][ k + 1 ] );\n\t\t\t\t\t\tpushVertex( v[ i + 1 ][ k ] );\n\t\t\t\t\t\tpushVertex( v[ i ][ k ] );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tpushVertex( v[ i ][ k + 1 ] );\n\t\t\t\t\t\tpushVertex( v[ i + 1 ][ k + 1 ] );\n\t\t\t\t\t\tpushVertex( v[ i + 1 ][ k ] );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction applyRadius( radius ) {\n\n\t\t\tconst vertex = new Vector3();\n\n\t\t\t// iterate over the entire buffer and apply the radius to each vertex\n\n\t\t\tfor ( let i = 0; i < vertexBuffer.length; i += 3 ) {\n\n\t\t\t\tvertex.x = vertexBuffer[ i + 0 ];\n\t\t\t\tvertex.y = vertexBuffer[ i + 1 ];\n\t\t\t\tvertex.z = vertexBuffer[ i + 2 ];\n\n\t\t\t\tvertex.normalize().multiplyScalar( radius );\n\n\t\t\t\tvertexBuffer[ i + 0 ] = vertex.x;\n\t\t\t\tvertexBuffer[ i + 1 ] = vertex.y;\n\t\t\t\tvertexBuffer[ i + 2 ] = vertex.z;\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction generateUVs() {\n\n\t\t\tconst vertex = new Vector3();\n\n\t\t\tfor ( let i = 0; i < vertexBuffer.length; i += 3 ) {\n\n\t\t\t\tvertex.x = vertexBuffer[ i + 0 ];\n\t\t\t\tvertex.y = vertexBuffer[ i + 1 ];\n\t\t\t\tvertex.z = vertexBuffer[ i + 2 ];\n\n\t\t\t\tconst u = azimuth( vertex ) / 2 / Math.PI + 0.5;\n\t\t\t\tconst v = inclination( vertex ) / Math.PI + 0.5;\n\t\t\t\tuvBuffer.push( u, 1 - v );\n\n\t\t\t}\n\n\t\t\tcorrectUVs();\n\n\t\t\tcorrectSeam();\n\n\t\t}\n\n\t\tfunction correctSeam() {\n\n\t\t\t// handle case when face straddles the seam, see #3269\n\n\t\t\tfor ( let i = 0; i < uvBuffer.length; i += 6 ) {\n\n\t\t\t\t// uv data of a single face\n\n\t\t\t\tconst x0 = uvBuffer[ i + 0 ];\n\t\t\t\tconst x1 = uvBuffer[ i + 2 ];\n\t\t\t\tconst x2 = uvBuffer[ i + 4 ];\n\n\t\t\t\tconst max = Math.max( x0, x1, x2 );\n\t\t\t\tconst min = Math.min( x0, x1, x2 );\n\n\t\t\t\t// 0.9 is somewhat arbitrary\n\n\t\t\t\tif ( max > 0.9 && min < 0.1 ) {\n\n\t\t\t\t\tif ( x0 < 0.2 ) uvBuffer[ i + 0 ] += 1;\n\t\t\t\t\tif ( x1 < 0.2 ) uvBuffer[ i + 2 ] += 1;\n\t\t\t\t\tif ( x2 < 0.2 ) uvBuffer[ i + 4 ] += 1;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction pushVertex( vertex ) {\n\n\t\t\tvertexBuffer.push( vertex.x, vertex.y, vertex.z );\n\n\t\t}\n\n\t\tfunction getVertexByIndex( index, vertex ) {\n\n\t\t\tconst stride = index * 3;\n\n\t\t\tvertex.x = vertices[ stride + 0 ];\n\t\t\tvertex.y = vertices[ stride + 1 ];\n\t\t\tvertex.z = vertices[ stride + 2 ];\n\n\t\t}\n\n\t\tfunction correctUVs() {\n\n\t\t\tconst a = new Vector3();\n\t\t\tconst b = new Vector3();\n\t\t\tconst c = new Vector3();\n\n\t\t\tconst centroid = new Vector3();\n\n\t\t\tconst uvA = new Vector2();\n\t\t\tconst uvB = new Vector2();\n\t\t\tconst uvC = new Vector2();\n\n\t\t\tfor ( let i = 0, j = 0; i < vertexBuffer.length; i += 9, j += 6 ) {\n\n\t\t\t\ta.set( vertexBuffer[ i + 0 ], vertexBuffer[ i + 1 ], vertexBuffer[ i + 2 ] );\n\t\t\t\tb.set( vertexBuffer[ i + 3 ], vertexBuffer[ i + 4 ], vertexBuffer[ i + 5 ] );\n\t\t\t\tc.set( vertexBuffer[ i + 6 ], vertexBuffer[ i + 7 ], vertexBuffer[ i + 8 ] );\n\n\t\t\t\tuvA.set( uvBuffer[ j + 0 ], uvBuffer[ j + 1 ] );\n\t\t\t\tuvB.set( uvBuffer[ j + 2 ], uvBuffer[ j + 3 ] );\n\t\t\t\tuvC.set( uvBuffer[ j + 4 ], uvBuffer[ j + 5 ] );\n\n\t\t\t\tcentroid.copy( a ).add( b ).add( c ).divideScalar( 3 );\n\n\t\t\t\tconst azi = azimuth( centroid );\n\n\t\t\t\tcorrectUV( uvA, j + 0, a, azi );\n\t\t\t\tcorrectUV( uvB, j + 2, b, azi );\n\t\t\t\tcorrectUV( uvC, j + 4, c, azi );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction correctUV( uv, stride, vector, azimuth ) {\n\n\t\t\tif ( ( azimuth < 0 ) && ( uv.x === 1 ) ) {\n\n\t\t\t\tuvBuffer[ stride ] = uv.x - 1;\n\n\t\t\t}\n\n\t\t\tif ( ( vector.x === 0 ) && ( vector.z === 0 ) ) {\n\n\t\t\t\tuvBuffer[ stride ] = azimuth / 2 / Math.PI + 0.5;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// Angle around the Y axis, counter-clockwise when looking from above.\n\n\t\tfunction azimuth( vector ) {\n\n\t\t\treturn Math.atan2( vector.z, - vector.x );\n\n\t\t}\n\n\n\t\t// Angle above the XZ plane.\n\n\t\tfunction inclination( vector ) {\n\n\t\t\treturn Math.atan2( - vector.y, Math.sqrt( ( vector.x * vector.x ) + ( vector.z * vector.z ) ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {PolyhedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new PolyhedronGeometry( data.vertices, data.indices, data.radius, data.details );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a dodecahedron.\n *\n * ```js\n * const geometry = new THREE.DodecahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const dodecahedron = new THREE.Mesh( geometry, material );\n * scene.add( dodecahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass DodecahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new dodecahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the dodecahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a dodecahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst t = ( 1 + Math.sqrt( 5 ) ) / 2;\n\t\tconst r = 1 / t;\n\n\t\tconst vertices = [\n\n\t\t\t// (±1, ±1, ±1)\n\t\t\t-1, -1, -1,\t-1, -1, 1,\n\t\t\t-1, 1, -1, -1, 1, 1,\n\t\t\t1, -1, -1, 1, -1, 1,\n\t\t\t1, 1, -1, 1, 1, 1,\n\n\t\t\t// (0, ±1/φ, ±φ)\n\t\t\t0, - r, - t, 0, - r, t,\n\t\t\t0, r, - t, 0, r, t,\n\n\t\t\t// (±1/φ, ±φ, 0)\n\t\t\t- r, - t, 0, - r, t, 0,\n\t\t\tr, - t, 0, r, t, 0,\n\n\t\t\t// (±φ, 0, ±1/φ)\n\t\t\t- t, 0, - r, t, 0, - r,\n\t\t\t- t, 0, r, t, 0, r\n\t\t];\n\n\t\tconst indices = [\n\t\t\t3, 11, 7, \t3, 7, 15, \t3, 15, 13,\n\t\t\t7, 19, 17, \t7, 17, 6, \t7, 6, 15,\n\t\t\t17, 4, 8, \t17, 8, 10, \t17, 10, 6,\n\t\t\t8, 0, 16, \t8, 16, 2, \t8, 2, 10,\n\t\t\t0, 12, 1, \t0, 1, 18, \t0, 18, 16,\n\t\t\t6, 10, 2, \t6, 2, 13, \t6, 13, 15,\n\t\t\t2, 16, 18, \t2, 18, 3, \t2, 3, 13,\n\t\t\t18, 1, 9, \t18, 9, 11, \t18, 11, 3,\n\t\t\t4, 14, 12, \t4, 12, 0, \t4, 0, 8,\n\t\t\t11, 9, 5, \t11, 5, 19, \t11, 19, 7,\n\t\t\t19, 5, 14, \t19, 14, 4, \t19, 4, 17,\n\t\t\t1, 12, 14, \t1, 14, 5, \t1, 5, 9\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'DodecahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {DodecahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new DodecahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\nconst _v0 = /*@__PURE__*/ new Vector3();\nconst _v1$1 = /*@__PURE__*/ new Vector3();\nconst _normal = /*@__PURE__*/ new Vector3();\nconst _triangle = /*@__PURE__*/ new Triangle();\n\n/**\n * Can be used as a helper object to view the edges of a geometry.\n *\n * ```js\n * const geometry = new THREE.BoxGeometry();\n * const edges = new THREE.EdgesGeometry( geometry );\n * const line = new THREE.LineSegments( edges );\n * scene.add( line );\n * ```\n *\n * Note: It is not yet possible to serialize/deserialize instances of this class.\n *\n * @augments BufferGeometry\n */\nclass EdgesGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new edges geometry.\n\t *\n\t * @param {?BufferGeometry} [geometry=null] - The geometry.\n\t * @param {number} [thresholdAngle=1] - An edge is only rendered if the angle (in degrees)\n\t * between the face normals of the adjoining faces exceeds this value.\n\t */\n\tconstructor( geometry = null, thresholdAngle = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'EdgesGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tgeometry: geometry,\n\t\t\tthresholdAngle: thresholdAngle\n\t\t};\n\n\t\tif ( geometry !== null ) {\n\n\t\t\tconst precisionPoints = 4;\n\t\t\tconst precision = Math.pow( 10, precisionPoints );\n\t\t\tconst thresholdDot = Math.cos( DEG2RAD * thresholdAngle );\n\n\t\t\tconst indexAttr = geometry.getIndex();\n\t\t\tconst positionAttr = geometry.getAttribute( 'position' );\n\t\t\tconst indexCount = indexAttr ? indexAttr.count : positionAttr.count;\n\n\t\t\tconst indexArr = [ 0, 0, 0 ];\n\t\t\tconst vertKeys = [ 'a', 'b', 'c' ];\n\t\t\tconst hashes = new Array( 3 );\n\n\t\t\tconst edgeData = {};\n\t\t\tconst vertices = [];\n\t\t\tfor ( let i = 0; i < indexCount; i += 3 ) {\n\n\t\t\t\tif ( indexAttr ) {\n\n\t\t\t\t\tindexArr[ 0 ] = indexAttr.getX( i );\n\t\t\t\t\tindexArr[ 1 ] = indexAttr.getX( i + 1 );\n\t\t\t\t\tindexArr[ 2 ] = indexAttr.getX( i + 2 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tindexArr[ 0 ] = i;\n\t\t\t\t\tindexArr[ 1 ] = i + 1;\n\t\t\t\t\tindexArr[ 2 ] = i + 2;\n\n\t\t\t\t}\n\n\t\t\t\tconst { a, b, c } = _triangle;\n\t\t\t\ta.fromBufferAttribute( positionAttr, indexArr[ 0 ] );\n\t\t\t\tb.fromBufferAttribute( positionAttr, indexArr[ 1 ] );\n\t\t\t\tc.fromBufferAttribute( positionAttr, indexArr[ 2 ] );\n\t\t\t\t_triangle.getNormal( _normal );\n\n\t\t\t\t// create hashes for the edge from the vertices\n\t\t\t\thashes[ 0 ] = `${ Math.round( a.x * precision ) },${ Math.round( a.y * precision ) },${ Math.round( a.z * precision ) }`;\n\t\t\t\thashes[ 1 ] = `${ Math.round( b.x * precision ) },${ Math.round( b.y * precision ) },${ Math.round( b.z * precision ) }`;\n\t\t\t\thashes[ 2 ] = `${ Math.round( c.x * precision ) },${ Math.round( c.y * precision ) },${ Math.round( c.z * precision ) }`;\n\n\t\t\t\t// skip degenerate triangles\n\t\t\t\tif ( hashes[ 0 ] === hashes[ 1 ] || hashes[ 1 ] === hashes[ 2 ] || hashes[ 2 ] === hashes[ 0 ] ) {\n\n\t\t\t\t\tcontinue;\n\n\t\t\t\t}\n\n\t\t\t\t// iterate over every edge\n\t\t\t\tfor ( let j = 0; j < 3; j ++ ) {\n\n\t\t\t\t\t// get the first and next vertex making up the edge\n\t\t\t\t\tconst jNext = ( j + 1 ) % 3;\n\t\t\t\t\tconst vecHash0 = hashes[ j ];\n\t\t\t\t\tconst vecHash1 = hashes[ jNext ];\n\t\t\t\t\tconst v0 = _triangle[ vertKeys[ j ] ];\n\t\t\t\t\tconst v1 = _triangle[ vertKeys[ jNext ] ];\n\n\t\t\t\t\tconst hash = `${ vecHash0 }_${ vecHash1 }`;\n\t\t\t\t\tconst reverseHash = `${ vecHash1 }_${ vecHash0 }`;\n\n\t\t\t\t\tif ( reverseHash in edgeData && edgeData[ reverseHash ] ) {\n\n\t\t\t\t\t\t// if we found a sibling edge add it into the vertex array if\n\t\t\t\t\t\t// it meets the angle threshold and delete the edge from the map.\n\t\t\t\t\t\tif ( _normal.dot( edgeData[ reverseHash ].normal ) <= thresholdDot ) {\n\n\t\t\t\t\t\t\tvertices.push( v0.x, v0.y, v0.z );\n\t\t\t\t\t\t\tvertices.push( v1.x, v1.y, v1.z );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tedgeData[ reverseHash ] = null;\n\n\t\t\t\t\t} else if ( ! ( hash in edgeData ) ) {\n\n\t\t\t\t\t\t// if we've already got an edge here then skip adding a new one\n\t\t\t\t\t\tedgeData[ hash ] = {\n\n\t\t\t\t\t\t\tindex0: indexArr[ j ],\n\t\t\t\t\t\t\tindex1: indexArr[ jNext ],\n\t\t\t\t\t\t\tnormal: _normal.clone(),\n\n\t\t\t\t\t\t};\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// iterate over all remaining, unmatched edges and add them to the vertex array\n\t\t\tfor ( const key in edgeData ) {\n\n\t\t\t\tif ( edgeData[ key ] ) {\n\n\t\t\t\t\tconst { index0, index1 } = edgeData[ key ];\n\t\t\t\t\t_v0.fromBufferAttribute( positionAttr, index0 );\n\t\t\t\t\t_v1$1.fromBufferAttribute( positionAttr, index1 );\n\n\t\t\t\t\tvertices.push( _v0.x, _v0.y, _v0.z );\n\t\t\t\t\tvertices.push( _v1$1.x, _v1$1.y, _v1$1.z );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * An abstract base class for creating an analytic curve object that contains methods\n * for interpolation.\n *\n * @abstract\n */\nclass Curve {\n\n\t/**\n\t * Constructs a new curve.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'Curve';\n\n\t\t/**\n\t\t * This value determines the amount of divisions when calculating the\n\t\t * cumulative segment lengths of a curve via {@link Curve#getLengths}. To ensure\n\t\t * precision when using methods like {@link Curve#getSpacedPoints}, it is\n\t\t * recommended to increase the value of this property if the curve is very large.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 200\n\t\t */\n\t\tthis.arcLengthDivisions = 200;\n\n\t\t/**\n\t\t * Must be set to `true` if the curve parameters have changed.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.needsUpdate = false;\n\n\t\t/**\n\t\t * An internal cache that holds precomputed curve length values.\n\t\t *\n\t\t * @private\n\t\t * @type {?Array}\n\t\t * @default null\n\t\t */\n\t\tthis.cacheArcLengths = null;\n\n\t}\n\n\t/**\n\t * This method returns a vector in 2D or 3D space (depending on the curve definition)\n\t * for the given interpolation factor.\n\t *\n\t * @abstract\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The position on the curve. It can be a 2D or 3D vector depending on the curve definition.\n\t */\n\tgetPoint( /* t, optionalTarget */ ) {\n\n\t\tconsole.warn( 'THREE.Curve: .getPoint() not implemented.' );\n\n\t}\n\n\t/**\n\t * This method returns a vector in 2D or 3D space (depending on the curve definition)\n\t * for the given interpolation factor. Unlike {@link Curve#getPoint}, this method honors the length\n\t * of the curve which equidistant samples.\n\t *\n\t * @param {number} u - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The position on the curve. It can be a 2D or 3D vector depending on the curve definition.\n\t */\n\tgetPointAt( u, optionalTarget ) {\n\n\t\tconst t = this.getUtoTmapping( u );\n\t\treturn this.getPoint( t, optionalTarget );\n\n\t}\n\n\t/**\n\t * This method samples the curve via {@link Curve#getPoint} and returns an array of points representing\n\t * the curve shape.\n\t *\n\t * @param {number} [divisions=5] - The number of divisions.\n\t * @return {Array<(Vector2|Vector3)>} An array holding the sampled curve values. The number of points is `divisions + 1`.\n\t */\n\tgetPoints( divisions = 5 ) {\n\n\t\tconst points = [];\n\n\t\tfor ( let d = 0; d <= divisions; d ++ ) {\n\n\t\t\tpoints.push( this.getPoint( d / divisions ) );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\t// Get sequence of points using getPointAt( u )\n\n\t/**\n\t * This method samples the curve via {@link Curve#getPointAt} and returns an array of points representing\n\t * the curve shape. Unlike {@link Curve#getPoints}, this method returns equi-spaced points across the entire\n\t * curve.\n\t *\n\t * @param {number} [divisions=5] - The number of divisions.\n\t * @return {Array<(Vector2|Vector3)>} An array holding the sampled curve values. The number of points is `divisions + 1`.\n\t */\n\tgetSpacedPoints( divisions = 5 ) {\n\n\t\tconst points = [];\n\n\t\tfor ( let d = 0; d <= divisions; d ++ ) {\n\n\t\t\tpoints.push( this.getPointAt( d / divisions ) );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\t/**\n\t * Returns the total arc length of the curve.\n\t *\n\t * @return {number} The length of the curve.\n\t */\n\tgetLength() {\n\n\t\tconst lengths = this.getLengths();\n\t\treturn lengths[ lengths.length - 1 ];\n\n\t}\n\n\t/**\n\t * Returns an array of cumulative segment lengths of the curve.\n\t *\n\t * @param {number} [divisions=this.arcLengthDivisions] - The number of divisions.\n\t * @return {Array} An array holding the cumulative segment lengths.\n\t */\n\tgetLengths( divisions = this.arcLengthDivisions ) {\n\n\t\tif ( this.cacheArcLengths &&\n\t\t\t( this.cacheArcLengths.length === divisions + 1 ) &&\n\t\t\t! this.needsUpdate ) {\n\n\t\t\treturn this.cacheArcLengths;\n\n\t\t}\n\n\t\tthis.needsUpdate = false;\n\n\t\tconst cache = [];\n\t\tlet current, last = this.getPoint( 0 );\n\t\tlet sum = 0;\n\n\t\tcache.push( 0 );\n\n\t\tfor ( let p = 1; p <= divisions; p ++ ) {\n\n\t\t\tcurrent = this.getPoint( p / divisions );\n\t\t\tsum += current.distanceTo( last );\n\t\t\tcache.push( sum );\n\t\t\tlast = current;\n\n\t\t}\n\n\t\tthis.cacheArcLengths = cache;\n\n\t\treturn cache; // { sums: cache, sum: sum }; Sum is in the last element.\n\n\t}\n\n\t/**\n\t * Update the cumulative segment distance cache. The method must be called\n\t * every time curve parameters are changed. If an updated curve is part of a\n\t * composed curve like {@link CurvePath}, this method must be called on the\n\t * composed curve, too.\n\t */\n\tupdateArcLengths() {\n\n\t\tthis.needsUpdate = true;\n\t\tthis.getLengths();\n\n\t}\n\n\t/**\n\t * Given an interpolation factor in the range `[0,1]`, this method returns an updated\n\t * interpolation factor in the same range that can be ued to sample equidistant points\n\t * from a curve.\n\t *\n\t * @param {number} u - The interpolation factor.\n\t * @param {?number} distance - An optional distance on the curve.\n\t * @return {number} The updated interpolation factor.\n\t */\n\tgetUtoTmapping( u, distance = null ) {\n\n\t\tconst arcLengths = this.getLengths();\n\n\t\tlet i = 0;\n\t\tconst il = arcLengths.length;\n\n\t\tlet targetArcLength; // The targeted u distance value to get\n\n\t\tif ( distance ) {\n\n\t\t\ttargetArcLength = distance;\n\n\t\t} else {\n\n\t\t\ttargetArcLength = u * arcLengths[ il - 1 ];\n\n\t\t}\n\n\t\t// binary search for the index with largest value smaller than target u distance\n\n\t\tlet low = 0, high = il - 1, comparison;\n\n\t\twhile ( low <= high ) {\n\n\t\t\ti = Math.floor( low + ( high - low ) / 2 ); // less likely to overflow, though probably not issue here, JS doesn't really have integers, all numbers are floats\n\n\t\t\tcomparison = arcLengths[ i ] - targetArcLength;\n\n\t\t\tif ( comparison < 0 ) {\n\n\t\t\t\tlow = i + 1;\n\n\t\t\t} else if ( comparison > 0 ) {\n\n\t\t\t\thigh = i - 1;\n\n\t\t\t} else {\n\n\t\t\t\thigh = i;\n\t\t\t\tbreak;\n\n\t\t\t\t// DONE\n\n\t\t\t}\n\n\t\t}\n\n\t\ti = high;\n\n\t\tif ( arcLengths[ i ] === targetArcLength ) {\n\n\t\t\treturn i / ( il - 1 );\n\n\t\t}\n\n\t\t// we could get finer grain at lengths, or use simple interpolation between two points\n\n\t\tconst lengthBefore = arcLengths[ i ];\n\t\tconst lengthAfter = arcLengths[ i + 1 ];\n\n\t\tconst segmentLength = lengthAfter - lengthBefore;\n\n\t\t// determine where we are between the 'before' and 'after' points\n\n\t\tconst segmentFraction = ( targetArcLength - lengthBefore ) / segmentLength;\n\n\t\t// add that fractional amount to t\n\n\t\tconst t = ( i + segmentFraction ) / ( il - 1 );\n\n\t\treturn t;\n\n\t}\n\n\t/**\n\t * Returns a unit vector tangent for the given interpolation factor.\n\t * If the derived curve does not implement its tangent derivation,\n\t * two points a small delta apart will be used to find its gradient\n\t * which seems to give a reasonable approximation.\n\t *\n\t * @param {number} t - The interpolation factor.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The tangent vector.\n\t */\n\tgetTangent( t, optionalTarget ) {\n\n\t\tconst delta = 0.0001;\n\t\tlet t1 = t - delta;\n\t\tlet t2 = t + delta;\n\n\t\t// Capping in case of danger\n\n\t\tif ( t1 < 0 ) t1 = 0;\n\t\tif ( t2 > 1 ) t2 = 1;\n\n\t\tconst pt1 = this.getPoint( t1 );\n\t\tconst pt2 = this.getPoint( t2 );\n\n\t\tconst tangent = optionalTarget || ( ( pt1.isVector2 ) ? new Vector2() : new Vector3() );\n\n\t\ttangent.copy( pt2 ).sub( pt1 ).normalize();\n\n\t\treturn tangent;\n\n\t}\n\n\t/**\n\t * Same as {@link Curve#getTangent} but with equidistant samples.\n\t *\n\t * @param {number} u - The interpolation factor.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The tangent vector.\n\t * @see {@link Curve#getPointAt}\n\t */\n\tgetTangentAt( u, optionalTarget ) {\n\n\t\tconst t = this.getUtoTmapping( u );\n\t\treturn this.getTangent( t, optionalTarget );\n\n\t}\n\n\t/**\n\t * Generates the Frenet Frames. Requires a curve definition in 3D space. Used\n\t * in geometries like {@link TubeGeometry} or {@link ExtrudeGeometry}.\n\t *\n\t * @param {number} segments - The number of segments.\n\t * @param {boolean} [closed=false] - Whether the curve is closed or not.\n\t * @return {{tangents: Array, normals: Array, binormals: Array}} The Frenet Frames.\n\t */\n\tcomputeFrenetFrames( segments, closed = false ) {\n\n\t\t// see http://www.cs.indiana.edu/pub/techreports/TR425.pdf\n\n\t\tconst normal = new Vector3();\n\n\t\tconst tangents = [];\n\t\tconst normals = [];\n\t\tconst binormals = [];\n\n\t\tconst vec = new Vector3();\n\t\tconst mat = new Matrix4();\n\n\t\t// compute the tangent vectors for each segment on the curve\n\n\t\tfor ( let i = 0; i <= segments; i ++ ) {\n\n\t\t\tconst u = i / segments;\n\n\t\t\ttangents[ i ] = this.getTangentAt( u, new Vector3() );\n\n\t\t}\n\n\t\t// select an initial normal vector perpendicular to the first tangent vector,\n\t\t// and in the direction of the minimum tangent xyz component\n\n\t\tnormals[ 0 ] = new Vector3();\n\t\tbinormals[ 0 ] = new Vector3();\n\t\tlet min = Number.MAX_VALUE;\n\t\tconst tx = Math.abs( tangents[ 0 ].x );\n\t\tconst ty = Math.abs( tangents[ 0 ].y );\n\t\tconst tz = Math.abs( tangents[ 0 ].z );\n\n\t\tif ( tx <= min ) {\n\n\t\t\tmin = tx;\n\t\t\tnormal.set( 1, 0, 0 );\n\n\t\t}\n\n\t\tif ( ty <= min ) {\n\n\t\t\tmin = ty;\n\t\t\tnormal.set( 0, 1, 0 );\n\n\t\t}\n\n\t\tif ( tz <= min ) {\n\n\t\t\tnormal.set( 0, 0, 1 );\n\n\t\t}\n\n\t\tvec.crossVectors( tangents[ 0 ], normal ).normalize();\n\n\t\tnormals[ 0 ].crossVectors( tangents[ 0 ], vec );\n\t\tbinormals[ 0 ].crossVectors( tangents[ 0 ], normals[ 0 ] );\n\n\n\t\t// compute the slowly-varying normal and binormal vectors for each segment on the curve\n\n\t\tfor ( let i = 1; i <= segments; i ++ ) {\n\n\t\t\tnormals[ i ] = normals[ i - 1 ].clone();\n\n\t\t\tbinormals[ i ] = binormals[ i - 1 ].clone();\n\n\t\t\tvec.crossVectors( tangents[ i - 1 ], tangents[ i ] );\n\n\t\t\tif ( vec.length() > Number.EPSILON ) {\n\n\t\t\t\tvec.normalize();\n\n\t\t\t\tconst theta = Math.acos( clamp( tangents[ i - 1 ].dot( tangents[ i ] ), -1, 1 ) ); // clamp for floating pt errors\n\n\t\t\t\tnormals[ i ].applyMatrix4( mat.makeRotationAxis( vec, theta ) );\n\n\t\t\t}\n\n\t\t\tbinormals[ i ].crossVectors( tangents[ i ], normals[ i ] );\n\n\t\t}\n\n\t\t// if the curve is closed, postprocess the vectors so the first and last normal vectors are the same\n\n\t\tif ( closed === true ) {\n\n\t\t\tlet theta = Math.acos( clamp( normals[ 0 ].dot( normals[ segments ] ), -1, 1 ) );\n\t\t\ttheta /= segments;\n\n\t\t\tif ( tangents[ 0 ].dot( vec.crossVectors( normals[ 0 ], normals[ segments ] ) ) > 0 ) {\n\n\t\t\t\ttheta = - theta;\n\n\t\t\t}\n\n\t\t\tfor ( let i = 1; i <= segments; i ++ ) {\n\n\t\t\t\t// twist a little...\n\t\t\t\tnormals[ i ].applyMatrix4( mat.makeRotationAxis( tangents[ i ], theta * i ) );\n\t\t\t\tbinormals[ i ].crossVectors( tangents[ i ], normals[ i ] );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn {\n\t\t\ttangents: tangents,\n\t\t\tnormals: normals,\n\t\t\tbinormals: binormals\n\t\t};\n\n\t}\n\n\t/**\n\t * Returns a new curve with copied values from this instance.\n\t *\n\t * @return {Curve} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given curve to this instance.\n\t *\n\t * @param {Curve} source - The curve to copy.\n\t * @return {Curve} A reference to this curve.\n\t */\n\tcopy( source ) {\n\n\t\tthis.arcLengthDivisions = source.arcLengthDivisions;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Serializes the curve into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized curve.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Curve',\n\t\t\t\tgenerator: 'Curve.toJSON'\n\t\t\t}\n\t\t};\n\n\t\tdata.arcLengthDivisions = this.arcLengthDivisions;\n\t\tdata.type = this.type;\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Deserializes the curve from the given JSON.\n\t *\n\t * @param {Object} json - The JSON holding the serialized curve.\n\t * @return {Curve} A reference to this curve.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.arcLengthDivisions = json.arcLengthDivisions;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing an ellipse.\n *\n * ```js\n * const curve = new THREE.EllipseCurve(\n * \t0, 0,\n * \t10, 10,\n * \t0, 2 * Math.PI,\n * \tfalse,\n * \t0\n * );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const ellipse = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass EllipseCurve extends Curve {\n\n\t/**\n\t * Constructs a new ellipse curve.\n\t *\n\t * @param {number} [aX=0] - The X center of the ellipse.\n\t * @param {number} [aY=0] - The Y center of the ellipse.\n\t * @param {number} [xRadius=1] - The radius of the ellipse in the x direction.\n\t * @param {number} [yRadius=1] - The radius of the ellipse in the y direction.\n\t * @param {number} [aStartAngle=0] - The start angle of the curve in radians starting from the positive X axis.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle of the curve in radians starting from the positive X axis.\n\t * @param {boolean} [aClockwise=false] - Whether the ellipse is drawn clockwise or not.\n\t * @param {number} [aRotation=0] - The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t */\n\tconstructor( aX = 0, aY = 0, xRadius = 1, yRadius = 1, aStartAngle = 0, aEndAngle = Math.PI * 2, aClockwise = false, aRotation = 0 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isEllipseCurve = true;\n\n\t\tthis.type = 'EllipseCurve';\n\n\t\t/**\n\t\t * The X center of the ellipse.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aX = aX;\n\n\t\t/**\n\t\t * The Y center of the ellipse.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aY = aY;\n\n\t\t/**\n\t\t * The radius of the ellipse in the x direction.\n\t\t * Setting the this value equal to the {@link EllipseCurve#yRadius} will result in a circle.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.xRadius = xRadius;\n\n\t\t/**\n\t\t * The radius of the ellipse in the y direction.\n\t\t * Setting the this value equal to the {@link EllipseCurve#xRadius} will result in a circle.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.yRadius = yRadius;\n\n\t\t/**\n\t\t * The start angle of the curve in radians starting from the positive X axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aStartAngle = aStartAngle;\n\n\t\t/**\n\t\t * The end angle of the curve in radians starting from the positive X axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Math.PI*2\n\t\t */\n\t\tthis.aEndAngle = aEndAngle;\n\n\t\t/**\n\t\t * Whether the ellipse is drawn clockwise or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.aClockwise = aClockwise;\n\n\t\t/**\n\t\t * The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aRotation = aRotation;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst twoPi = Math.PI * 2;\n\t\tlet deltaAngle = this.aEndAngle - this.aStartAngle;\n\t\tconst samePoints = Math.abs( deltaAngle ) < Number.EPSILON;\n\n\t\t// ensures that deltaAngle is 0 .. 2 PI\n\t\twhile ( deltaAngle < 0 ) deltaAngle += twoPi;\n\t\twhile ( deltaAngle > twoPi ) deltaAngle -= twoPi;\n\n\t\tif ( deltaAngle < Number.EPSILON ) {\n\n\t\t\tif ( samePoints ) {\n\n\t\t\t\tdeltaAngle = 0;\n\n\t\t\t} else {\n\n\t\t\t\tdeltaAngle = twoPi;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.aClockwise === true && ! samePoints ) {\n\n\t\t\tif ( deltaAngle === twoPi ) {\n\n\t\t\t\tdeltaAngle = - twoPi;\n\n\t\t\t} else {\n\n\t\t\t\tdeltaAngle = deltaAngle - twoPi;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst angle = this.aStartAngle + t * deltaAngle;\n\t\tlet x = this.aX + this.xRadius * Math.cos( angle );\n\t\tlet y = this.aY + this.yRadius * Math.sin( angle );\n\n\t\tif ( this.aRotation !== 0 ) {\n\n\t\t\tconst cos = Math.cos( this.aRotation );\n\t\t\tconst sin = Math.sin( this.aRotation );\n\n\t\t\tconst tx = x - this.aX;\n\t\t\tconst ty = y - this.aY;\n\n\t\t\t// Rotate the point about the center of the ellipse.\n\t\t\tx = tx * cos - ty * sin + this.aX;\n\t\t\ty = tx * sin + ty * cos + this.aY;\n\n\t\t}\n\n\t\treturn point.set( x, y );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.aX = source.aX;\n\t\tthis.aY = source.aY;\n\n\t\tthis.xRadius = source.xRadius;\n\t\tthis.yRadius = source.yRadius;\n\n\t\tthis.aStartAngle = source.aStartAngle;\n\t\tthis.aEndAngle = source.aEndAngle;\n\n\t\tthis.aClockwise = source.aClockwise;\n\n\t\tthis.aRotation = source.aRotation;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.aX = this.aX;\n\t\tdata.aY = this.aY;\n\n\t\tdata.xRadius = this.xRadius;\n\t\tdata.yRadius = this.yRadius;\n\n\t\tdata.aStartAngle = this.aStartAngle;\n\t\tdata.aEndAngle = this.aEndAngle;\n\n\t\tdata.aClockwise = this.aClockwise;\n\n\t\tdata.aRotation = this.aRotation;\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.aX = json.aX;\n\t\tthis.aY = json.aY;\n\n\t\tthis.xRadius = json.xRadius;\n\t\tthis.yRadius = json.yRadius;\n\n\t\tthis.aStartAngle = json.aStartAngle;\n\t\tthis.aEndAngle = json.aEndAngle;\n\n\t\tthis.aClockwise = json.aClockwise;\n\n\t\tthis.aRotation = json.aRotation;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing an arc.\n *\n * @augments EllipseCurve\n */\nclass ArcCurve extends EllipseCurve {\n\n\t/**\n\t * Constructs a new arc curve.\n\t *\n\t * @param {number} [aX=0] - The X center of the ellipse.\n\t * @param {number} [aY=0] - The Y center of the ellipse.\n\t * @param {number} [aRadius=1] - The radius of the ellipse in the x direction.\n\t * @param {number} [aStartAngle=0] - The start angle of the curve in radians starting from the positive X axis.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle of the curve in radians starting from the positive X axis.\n\t * @param {boolean} [aClockwise=false] - Whether the ellipse is drawn clockwise or not.\n\t */\n\tconstructor( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) {\n\n\t\tsuper( aX, aY, aRadius, aRadius, aStartAngle, aEndAngle, aClockwise );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isArcCurve = true;\n\n\t\tthis.type = 'ArcCurve';\n\n\t}\n\n}\n\nfunction CubicPoly() {\n\n\t/**\n\t * Centripetal CatmullRom Curve - which is useful for avoiding\n\t* cusps and self-intersections in non-uniform catmull rom curves.\n\t* http://www.cemyuksel.com/research/catmullrom_param/catmullrom.pdf\n\t*\n\t* curve.type accepts centripetal(default), chordal and catmullrom\n\t* curve.tension is used for catmullrom which defaults to 0.5\n\t*/\n\n\t/*\n\tBased on an optimized c++ solution in\n\t- http://stackoverflow.com/questions/9489736/catmull-rom-curve-with-no-cusps-and-no-self-intersections/\n\t- http://ideone.com/NoEbVM\n\n\tThis CubicPoly class could be used for reusing some variables and calculations,\n\tbut for three.js curve use, it could be possible inlined and flatten into a single function call\n\twhich can be placed in CurveUtils.\n\t*/\n\n\tlet c0 = 0, c1 = 0, c2 = 0, c3 = 0;\n\n\t/*\n\t * Compute coefficients for a cubic polynomial\n\t * p(s) = c0 + c1*s + c2*s^2 + c3*s^3\n\t * such that\n\t * p(0) = x0, p(1) = x1\n\t * and\n\t * p'(0) = t0, p'(1) = t1.\n\t */\n\tfunction init( x0, x1, t0, t1 ) {\n\n\t\tc0 = x0;\n\t\tc1 = t0;\n\t\tc2 = -3 * x0 + 3 * x1 - 2 * t0 - t1;\n\t\tc3 = 2 * x0 - 2 * x1 + t0 + t1;\n\n\t}\n\n\treturn {\n\n\t\tinitCatmullRom: function ( x0, x1, x2, x3, tension ) {\n\n\t\t\tinit( x1, x2, tension * ( x2 - x0 ), tension * ( x3 - x1 ) );\n\n\t\t},\n\n\t\tinitNonuniformCatmullRom: function ( x0, x1, x2, x3, dt0, dt1, dt2 ) {\n\n\t\t\t// compute tangents when parameterized in [t1,t2]\n\t\t\tlet t1 = ( x1 - x0 ) / dt0 - ( x2 - x0 ) / ( dt0 + dt1 ) + ( x2 - x1 ) / dt1;\n\t\t\tlet t2 = ( x2 - x1 ) / dt1 - ( x3 - x1 ) / ( dt1 + dt2 ) + ( x3 - x2 ) / dt2;\n\n\t\t\t// rescale tangents for parametrization in [0,1]\n\t\t\tt1 *= dt1;\n\t\t\tt2 *= dt1;\n\n\t\t\tinit( x1, x2, t1, t2 );\n\n\t\t},\n\n\t\tcalc: function ( t ) {\n\n\t\t\tconst t2 = t * t;\n\t\t\tconst t3 = t2 * t;\n\t\t\treturn c0 + c1 * t + c2 * t2 + c3 * t3;\n\n\t\t}\n\n\t};\n\n}\n\n//\n\nconst tmp = /*@__PURE__*/ new Vector3();\nconst px = /*@__PURE__*/ new CubicPoly();\nconst py = /*@__PURE__*/ new CubicPoly();\nconst pz = /*@__PURE__*/ new CubicPoly();\n\n/**\n * A curve representing a Catmull-Rom spline.\n *\n * ```js\n * //Create a closed wavey loop\n * const curve = new THREE.CatmullRomCurve3( [\n * \tnew THREE.Vector3( -10, 0, 10 ),\n * \tnew THREE.Vector3( -5, 5, 5 ),\n * \tnew THREE.Vector3( 0, 0, 0 ),\n * \tnew THREE.Vector3( 5, -5, 5 ),\n * \tnew THREE.Vector3( 10, 0, 10 )\n * ] );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const curveObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass CatmullRomCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new Catmull-Rom curve.\n\t *\n\t * @param {Array} [points] - An array of 3D points defining the curve.\n\t * @param {boolean} [closed=false] - Whether the curve is closed or not.\n\t * @param {('centripetal'|'chordal'|'catmullrom')} [curveType='centripetal'] - The curve type.\n\t * @param {number} [tension=0.5] - Tension of the curve.\n\t */\n\tconstructor( points = [], closed = false, curveType = 'centripetal', tension = 0.5 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCatmullRomCurve3 = true;\n\n\t\tthis.type = 'CatmullRomCurve3';\n\n\t\t/**\n\t\t * An array of 3D points defining the curve.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.points = points;\n\n\t\t/**\n\t\t * Whether the curve is closed or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.closed = closed;\n\n\t\t/**\n\t\t * The curve type.\n\t\t *\n\t\t * @type {('centripetal'|'chordal'|'catmullrom')}\n\t\t * @default 'centripetal'\n\t\t */\n\t\tthis.curveType = curveType;\n\n\t\t/**\n\t\t * Tension of the curve.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.5\n\t\t */\n\t\tthis.tension = tension;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst points = this.points;\n\t\tconst l = points.length;\n\n\t\tconst p = ( l - ( this.closed ? 0 : 1 ) ) * t;\n\t\tlet intPoint = Math.floor( p );\n\t\tlet weight = p - intPoint;\n\n\t\tif ( this.closed ) {\n\n\t\t\tintPoint += intPoint > 0 ? 0 : ( Math.floor( Math.abs( intPoint ) / l ) + 1 ) * l;\n\n\t\t} else if ( weight === 0 && intPoint === l - 1 ) {\n\n\t\t\tintPoint = l - 2;\n\t\t\tweight = 1;\n\n\t\t}\n\n\t\tlet p0, p3; // 4 points (p1 & p2 defined below)\n\n\t\tif ( this.closed || intPoint > 0 ) {\n\n\t\t\tp0 = points[ ( intPoint - 1 ) % l ];\n\n\t\t} else {\n\n\t\t\t// extrapolate first point\n\t\t\ttmp.subVectors( points[ 0 ], points[ 1 ] ).add( points[ 0 ] );\n\t\t\tp0 = tmp;\n\n\t\t}\n\n\t\tconst p1 = points[ intPoint % l ];\n\t\tconst p2 = points[ ( intPoint + 1 ) % l ];\n\n\t\tif ( this.closed || intPoint + 2 < l ) {\n\n\t\t\tp3 = points[ ( intPoint + 2 ) % l ];\n\n\t\t} else {\n\n\t\t\t// extrapolate last point\n\t\t\ttmp.subVectors( points[ l - 1 ], points[ l - 2 ] ).add( points[ l - 1 ] );\n\t\t\tp3 = tmp;\n\n\t\t}\n\n\t\tif ( this.curveType === 'centripetal' || this.curveType === 'chordal' ) {\n\n\t\t\t// init Centripetal / Chordal Catmull-Rom\n\t\t\tconst pow = this.curveType === 'chordal' ? 0.5 : 0.25;\n\t\t\tlet dt0 = Math.pow( p0.distanceToSquared( p1 ), pow );\n\t\t\tlet dt1 = Math.pow( p1.distanceToSquared( p2 ), pow );\n\t\t\tlet dt2 = Math.pow( p2.distanceToSquared( p3 ), pow );\n\n\t\t\t// safety check for repeated points\n\t\t\tif ( dt1 < 1e-4 ) dt1 = 1.0;\n\t\t\tif ( dt0 < 1e-4 ) dt0 = dt1;\n\t\t\tif ( dt2 < 1e-4 ) dt2 = dt1;\n\n\t\t\tpx.initNonuniformCatmullRom( p0.x, p1.x, p2.x, p3.x, dt0, dt1, dt2 );\n\t\t\tpy.initNonuniformCatmullRom( p0.y, p1.y, p2.y, p3.y, dt0, dt1, dt2 );\n\t\t\tpz.initNonuniformCatmullRom( p0.z, p1.z, p2.z, p3.z, dt0, dt1, dt2 );\n\n\t\t} else if ( this.curveType === 'catmullrom' ) {\n\n\t\t\tpx.initCatmullRom( p0.x, p1.x, p2.x, p3.x, this.tension );\n\t\t\tpy.initCatmullRom( p0.y, p1.y, p2.y, p3.y, this.tension );\n\t\t\tpz.initCatmullRom( p0.z, p1.z, p2.z, p3.z, this.tension );\n\n\t\t}\n\n\t\tpoint.set(\n\t\t\tpx.calc( weight ),\n\t\t\tpy.calc( weight ),\n\t\t\tpz.calc( weight )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = source.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = source.points[ i ];\n\n\t\t\tthis.points.push( point.clone() );\n\n\t\t}\n\n\t\tthis.closed = source.closed;\n\t\tthis.curveType = source.curveType;\n\t\tthis.tension = source.tension;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.points = [];\n\n\t\tfor ( let i = 0, l = this.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = this.points[ i ];\n\t\t\tdata.points.push( point.toArray() );\n\n\t\t}\n\n\t\tdata.closed = this.closed;\n\t\tdata.curveType = this.curveType;\n\t\tdata.tension = this.tension;\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = json.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = json.points[ i ];\n\t\t\tthis.points.push( new Vector3().fromArray( point ) );\n\n\t\t}\n\n\t\tthis.closed = json.closed;\n\t\tthis.curveType = json.curveType;\n\t\tthis.tension = json.tension;\n\n\t\treturn this;\n\n\t}\n\n}\n\n// Bezier Curves formulas obtained from: https://en.wikipedia.org/wiki/B%C3%A9zier_curve\n\n/**\n * Computes a point on a Catmull-Rom spline.\n *\n * @param {number} t - The interpolation factor.\n * @param {number} p0 - The first control point.\n * @param {number} p1 - The second control point.\n * @param {number} p2 - The third control point.\n * @param {number} p3 - The fourth control point.\n * @return {number} The calculated point on a Catmull-Rom spline.\n */\nfunction CatmullRom( t, p0, p1, p2, p3 ) {\n\n\tconst v0 = ( p2 - p0 ) * 0.5;\n\tconst v1 = ( p3 - p1 ) * 0.5;\n\tconst t2 = t * t;\n\tconst t3 = t * t2;\n\treturn ( 2 * p1 - 2 * p2 + v0 + v1 ) * t3 + ( -3 * p1 + 3 * p2 - 2 * v0 - v1 ) * t2 + v0 * t + p1;\n\n}\n\n//\n\nfunction QuadraticBezierP0( t, p ) {\n\n\tconst k = 1 - t;\n\treturn k * k * p;\n\n}\n\nfunction QuadraticBezierP1( t, p ) {\n\n\treturn 2 * ( 1 - t ) * t * p;\n\n}\n\nfunction QuadraticBezierP2( t, p ) {\n\n\treturn t * t * p;\n\n}\n\n/**\n * Computes a point on a Quadratic Bezier curve.\n *\n * @param {number} t - The interpolation factor.\n * @param {number} p0 - The first control point.\n * @param {number} p1 - The second control point.\n * @param {number} p2 - The third control point.\n * @return {number} The calculated point on a Quadratic Bezier curve.\n */\nfunction QuadraticBezier( t, p0, p1, p2 ) {\n\n\treturn QuadraticBezierP0( t, p0 ) + QuadraticBezierP1( t, p1 ) +\n\t\tQuadraticBezierP2( t, p2 );\n\n}\n\n//\n\nfunction CubicBezierP0( t, p ) {\n\n\tconst k = 1 - t;\n\treturn k * k * k * p;\n\n}\n\nfunction CubicBezierP1( t, p ) {\n\n\tconst k = 1 - t;\n\treturn 3 * k * k * t * p;\n\n}\n\nfunction CubicBezierP2( t, p ) {\n\n\treturn 3 * ( 1 - t ) * t * t * p;\n\n}\n\nfunction CubicBezierP3( t, p ) {\n\n\treturn t * t * t * p;\n\n}\n\n/**\n * Computes a point on a Cubic Bezier curve.\n *\n * @param {number} t - The interpolation factor.\n * @param {number} p0 - The first control point.\n * @param {number} p1 - The second control point.\n * @param {number} p2 - The third control point.\n * @param {number} p3 - The fourth control point.\n * @return {number} The calculated point on a Cubic Bezier curve.\n */\nfunction CubicBezier( t, p0, p1, p2, p3 ) {\n\n\treturn CubicBezierP0( t, p0 ) + CubicBezierP1( t, p1 ) + CubicBezierP2( t, p2 ) +\n\t\tCubicBezierP3( t, p3 );\n\n}\n\n/**\n * A curve representing a 2D Cubic Bezier curve.\n *\n * ```js\n * const curve = new THREE.CubicBezierCurve(\n * \tnew THREE.Vector2( - 0, 0 ),\n * \tnew THREE.Vector2( - 5, 15 ),\n * \tnew THREE.Vector2( 20, 15 ),\n * \tnew THREE.Vector2( 10, 0 )\n * );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const curveObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass CubicBezierCurve extends Curve {\n\n\t/**\n\t * Constructs a new Cubic Bezier curve.\n\t *\n\t * @param {Vector2} [v0] - The start point.\n\t * @param {Vector2} [v1] - The first control point.\n\t * @param {Vector2} [v2] - The second control point.\n\t * @param {Vector2} [v3] - The end point.\n\t */\n\tconstructor( v0 = new Vector2(), v1 = new Vector2(), v2 = new Vector2(), v3 = new Vector2() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubicBezierCurve = true;\n\n\t\tthis.type = 'CubicBezierCurve';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The first control point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The second control point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v3 = v3;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2, v3 = this.v3;\n\n\t\tpoint.set(\n\t\t\tCubicBezier( t, v0.x, v1.x, v2.x, v3.x ),\n\t\t\tCubicBezier( t, v0.y, v1.y, v2.y, v3.y )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\t\tthis.v3.copy( source.v3 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\t\tdata.v3 = this.v3.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\t\tthis.v3.fromArray( json.v3 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 3D Cubic Bezier curve.\n *\n * @augments Curve\n */\nclass CubicBezierCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new Cubic Bezier curve.\n\t *\n\t * @param {Vector3} [v0] - The start point.\n\t * @param {Vector3} [v1] - The first control point.\n\t * @param {Vector3} [v2] - The second control point.\n\t * @param {Vector3} [v3] - The end point.\n\t */\n\tconstructor( v0 = new Vector3(), v1 = new Vector3(), v2 = new Vector3(), v3 = new Vector3() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubicBezierCurve3 = true;\n\n\t\tthis.type = 'CubicBezierCurve3';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The first control point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The second control point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v3 = v3;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2, v3 = this.v3;\n\n\t\tpoint.set(\n\t\t\tCubicBezier( t, v0.x, v1.x, v2.x, v3.x ),\n\t\t\tCubicBezier( t, v0.y, v1.y, v2.y, v3.y ),\n\t\t\tCubicBezier( t, v0.z, v1.z, v2.z, v3.z )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\t\tthis.v3.copy( source.v3 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\t\tdata.v3 = this.v3.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\t\tthis.v3.fromArray( json.v3 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 2D line segment.\n *\n * @augments Curve\n */\nclass LineCurve extends Curve {\n\n\t/**\n\t * Constructs a new line curve.\n\t *\n\t * @param {Vector2} [v1] - The start point.\n\t * @param {Vector2} [v2] - The end point.\n\t */\n\tconstructor( v1 = new Vector2(), v2 = new Vector2() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineCurve = true;\n\n\t\tthis.type = 'LineCurve';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the line.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the line. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the line.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tif ( t === 1 ) {\n\n\t\t\tpoint.copy( this.v2 );\n\n\t\t} else {\n\n\t\t\tpoint.copy( this.v2 ).sub( this.v1 );\n\t\t\tpoint.multiplyScalar( t ).add( this.v1 );\n\n\t\t}\n\n\t\treturn point;\n\n\t}\n\n\t// Line curve is linear, so we can overwrite default getPointAt\n\tgetPointAt( u, optionalTarget ) {\n\n\t\treturn this.getPoint( u, optionalTarget );\n\n\t}\n\n\tgetTangent( t, optionalTarget = new Vector2() ) {\n\n\t\treturn optionalTarget.subVectors( this.v2, this.v1 ).normalize();\n\n\t}\n\n\tgetTangentAt( u, optionalTarget ) {\n\n\t\treturn this.getTangent( u, optionalTarget );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 3D line segment.\n *\n * @augments Curve\n */\nclass LineCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new line curve.\n\t *\n\t * @param {Vector3} [v1] - The start point.\n\t * @param {Vector3} [v2] - The end point.\n\t */\n\tconstructor( v1 = new Vector3(), v2 = new Vector3() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineCurve3 = true;\n\n\t\tthis.type = 'LineCurve3';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the line.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the line. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the line.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tif ( t === 1 ) {\n\n\t\t\tpoint.copy( this.v2 );\n\n\t\t} else {\n\n\t\t\tpoint.copy( this.v2 ).sub( this.v1 );\n\t\t\tpoint.multiplyScalar( t ).add( this.v1 );\n\n\t\t}\n\n\t\treturn point;\n\n\t}\n\n\t// Line curve is linear, so we can overwrite default getPointAt\n\tgetPointAt( u, optionalTarget ) {\n\n\t\treturn this.getPoint( u, optionalTarget );\n\n\t}\n\n\tgetTangent( t, optionalTarget = new Vector3() ) {\n\n\t\treturn optionalTarget.subVectors( this.v2, this.v1 ).normalize();\n\n\t}\n\n\tgetTangentAt( u, optionalTarget ) {\n\n\t\treturn this.getTangent( u, optionalTarget );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 2D Quadratic Bezier curve.\n *\n * ```js\n * const curve = new THREE.QuadraticBezierCurve(\n * \tnew THREE.Vector2( - 10, 0 ),\n * \tnew THREE.Vector2( 20, 15 ),\n * \tnew THREE.Vector2( 10, 0 )\n * )\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const curveObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass QuadraticBezierCurve extends Curve {\n\n\t/**\n\t * Constructs a new Quadratic Bezier curve.\n\t *\n\t * @param {Vector2} [v0] - The start point.\n\t * @param {Vector2} [v1] - The control point.\n\t * @param {Vector2} [v2] - The end point.\n\t */\n\tconstructor( v0 = new Vector2(), v1 = new Vector2(), v2 = new Vector2() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isQuadraticBezierCurve = true;\n\n\t\tthis.type = 'QuadraticBezierCurve';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The control point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2;\n\n\t\tpoint.set(\n\t\t\tQuadraticBezier( t, v0.x, v1.x, v2.x ),\n\t\t\tQuadraticBezier( t, v0.y, v1.y, v2.y )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 3D Quadratic Bezier curve.\n *\n * @augments Curve\n */\nclass QuadraticBezierCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new Quadratic Bezier curve.\n\t *\n\t * @param {Vector3} [v0] - The start point.\n\t * @param {Vector3} [v1] - The control point.\n\t * @param {Vector3} [v2] - The end point.\n\t */\n\tconstructor( v0 = new Vector3(), v1 = new Vector3(), v2 = new Vector3() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isQuadraticBezierCurve3 = true;\n\n\t\tthis.type = 'QuadraticBezierCurve3';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The control point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2;\n\n\t\tpoint.set(\n\t\t\tQuadraticBezier( t, v0.x, v1.x, v2.x ),\n\t\t\tQuadraticBezier( t, v0.y, v1.y, v2.y ),\n\t\t\tQuadraticBezier( t, v0.z, v1.z, v2.z )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 2D spline curve.\n *\n * ```js\n * // Create a sine-like wave\n * const curve = new THREE.SplineCurve( [\n * \tnew THREE.Vector2( -10, 0 ),\n * \tnew THREE.Vector2( -5, 5 ),\n * \tnew THREE.Vector2( 0, 0 ),\n * \tnew THREE.Vector2( 5, -5 ),\n * \tnew THREE.Vector2( 10, 0 )\n * ] );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const splineObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass SplineCurve extends Curve {\n\n\t/**\n\t * Constructs a new 2D spline curve.\n\t *\n\t * @param {Array} [points] - An array of 2D points defining the curve.\n\t */\n\tconstructor( points = [] ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSplineCurve = true;\n\n\t\tthis.type = 'SplineCurve';\n\n\t\t/**\n\t\t * An array of 2D points defining the curve.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.points = points;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst points = this.points;\n\t\tconst p = ( points.length - 1 ) * t;\n\n\t\tconst intPoint = Math.floor( p );\n\t\tconst weight = p - intPoint;\n\n\t\tconst p0 = points[ intPoint === 0 ? intPoint : intPoint - 1 ];\n\t\tconst p1 = points[ intPoint ];\n\t\tconst p2 = points[ intPoint > points.length - 2 ? points.length - 1 : intPoint + 1 ];\n\t\tconst p3 = points[ intPoint > points.length - 3 ? points.length - 1 : intPoint + 2 ];\n\n\t\tpoint.set(\n\t\t\tCatmullRom( weight, p0.x, p1.x, p2.x, p3.x ),\n\t\t\tCatmullRom( weight, p0.y, p1.y, p2.y, p3.y )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = source.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = source.points[ i ];\n\n\t\t\tthis.points.push( point.clone() );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.points = [];\n\n\t\tfor ( let i = 0, l = this.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = this.points[ i ];\n\t\t\tdata.points.push( point.toArray() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = json.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = json.points[ i ];\n\t\t\tthis.points.push( new Vector2().fromArray( point ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\nvar Curves = /*#__PURE__*/Object.freeze({\n\t__proto__: null,\n\tArcCurve: ArcCurve,\n\tCatmullRomCurve3: CatmullRomCurve3,\n\tCubicBezierCurve: CubicBezierCurve,\n\tCubicBezierCurve3: CubicBezierCurve3,\n\tEllipseCurve: EllipseCurve,\n\tLineCurve: LineCurve,\n\tLineCurve3: LineCurve3,\n\tQuadraticBezierCurve: QuadraticBezierCurve,\n\tQuadraticBezierCurve3: QuadraticBezierCurve3,\n\tSplineCurve: SplineCurve\n});\n\n/**\n * A base class extending {@link Curve}. `CurvePath` is simply an\n * array of connected curves, but retains the API of a curve.\n *\n * @augments Curve\n */\nclass CurvePath extends Curve {\n\n\t/**\n\t * Constructs a new curve path.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\tthis.type = 'CurvePath';\n\n\t\t/**\n\t\t * An array of curves defining the\n\t\t * path.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.curves = [];\n\n\t\t/**\n\t\t * Whether the path should automatically be closed\n\t\t * by a line curve.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.autoClose = false;\n\n\t}\n\n\t/**\n\t * Adds a curve to this curve path.\n\t *\n\t * @param {Curve} curve - The curve to add.\n\t */\n\tadd( curve ) {\n\n\t\tthis.curves.push( curve );\n\n\t}\n\n\t/**\n\t * Adds a line curve to close the path.\n\t *\n\t * @return {CurvePath} A reference to this curve path.\n\t */\n\tclosePath() {\n\n\t\t// Add a line curve if start and end of lines are not connected\n\t\tconst startPoint = this.curves[ 0 ].getPoint( 0 );\n\t\tconst endPoint = this.curves[ this.curves.length - 1 ].getPoint( 1 );\n\n\t\tif ( ! startPoint.equals( endPoint ) ) {\n\n\t\t\tconst lineType = ( startPoint.isVector2 === true ) ? 'LineCurve' : 'LineCurve3';\n\t\t\tthis.curves.push( new Curves[ lineType ]( endPoint, startPoint ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This method returns a vector in 2D or 3D space (depending on the curve definitions)\n\t * for the given interpolation factor.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {?(Vector2|Vector3)} The position on the curve. It can be a 2D or 3D vector depending on the curve definition.\n\t */\n\tgetPoint( t, optionalTarget ) {\n\n\t\t// To get accurate point with reference to\n\t\t// entire path distance at time t,\n\t\t// following has to be done:\n\n\t\t// 1. Length of each sub path have to be known\n\t\t// 2. Locate and identify type of curve\n\t\t// 3. Get t for the curve\n\t\t// 4. Return curve.getPointAt(t')\n\n\t\tconst d = t * this.getLength();\n\t\tconst curveLengths = this.getCurveLengths();\n\t\tlet i = 0;\n\n\t\t// To think about boundaries points.\n\n\t\twhile ( i < curveLengths.length ) {\n\n\t\t\tif ( curveLengths[ i ] >= d ) {\n\n\t\t\t\tconst diff = curveLengths[ i ] - d;\n\t\t\t\tconst curve = this.curves[ i ];\n\n\t\t\t\tconst segmentLength = curve.getLength();\n\t\t\t\tconst u = segmentLength === 0 ? 0 : 1 - diff / segmentLength;\n\n\t\t\t\treturn curve.getPointAt( u, optionalTarget );\n\n\t\t\t}\n\n\t\t\ti ++;\n\n\t\t}\n\n\t\treturn null;\n\n\t\t// loop where sum != 0, sum > d , sum+1 } The curve lengths.\n\t */\n\tgetCurveLengths() {\n\n\t\t// Compute lengths and cache them\n\t\t// We cannot overwrite getLengths() because UtoT mapping uses it.\n\t\t// We use cache values if curves and cache array are same length\n\n\t\tif ( this.cacheLengths && this.cacheLengths.length === this.curves.length ) {\n\n\t\t\treturn this.cacheLengths;\n\n\t\t}\n\n\t\t// Get length of sub-curve\n\t\t// Push sums into cached array\n\n\t\tconst lengths = [];\n\t\tlet sums = 0;\n\n\t\tfor ( let i = 0, l = this.curves.length; i < l; i ++ ) {\n\n\t\t\tsums += this.curves[ i ].getLength();\n\t\t\tlengths.push( sums );\n\n\t\t}\n\n\t\tthis.cacheLengths = lengths;\n\n\t\treturn lengths;\n\n\t}\n\n\tgetSpacedPoints( divisions = 40 ) {\n\n\t\tconst points = [];\n\n\t\tfor ( let i = 0; i <= divisions; i ++ ) {\n\n\t\t\tpoints.push( this.getPoint( i / divisions ) );\n\n\t\t}\n\n\t\tif ( this.autoClose ) {\n\n\t\t\tpoints.push( points[ 0 ] );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\tgetPoints( divisions = 12 ) {\n\n\t\tconst points = [];\n\t\tlet last;\n\n\t\tfor ( let i = 0, curves = this.curves; i < curves.length; i ++ ) {\n\n\t\t\tconst curve = curves[ i ];\n\t\t\tconst resolution = curve.isEllipseCurve ? divisions * 2\n\t\t\t\t: ( curve.isLineCurve || curve.isLineCurve3 ) ? 1\n\t\t\t\t\t: curve.isSplineCurve ? divisions * curve.points.length\n\t\t\t\t\t\t: divisions;\n\n\t\t\tconst pts = curve.getPoints( resolution );\n\n\t\t\tfor ( let j = 0; j < pts.length; j ++ ) {\n\n\t\t\t\tconst point = pts[ j ];\n\n\t\t\t\tif ( last && last.equals( point ) ) continue; // ensures no consecutive points are duplicates\n\n\t\t\t\tpoints.push( point );\n\t\t\t\tlast = point;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.autoClose && points.length > 1 && ! points[ points.length - 1 ].equals( points[ 0 ] ) ) {\n\n\t\t\tpoints.push( points[ 0 ] );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.curves = [];\n\n\t\tfor ( let i = 0, l = source.curves.length; i < l; i ++ ) {\n\n\t\t\tconst curve = source.curves[ i ];\n\n\t\t\tthis.curves.push( curve.clone() );\n\n\t\t}\n\n\t\tthis.autoClose = source.autoClose;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.autoClose = this.autoClose;\n\t\tdata.curves = [];\n\n\t\tfor ( let i = 0, l = this.curves.length; i < l; i ++ ) {\n\n\t\t\tconst curve = this.curves[ i ];\n\t\t\tdata.curves.push( curve.toJSON() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.autoClose = json.autoClose;\n\t\tthis.curves = [];\n\n\t\tfor ( let i = 0, l = json.curves.length; i < l; i ++ ) {\n\n\t\t\tconst curve = json.curves[ i ];\n\t\t\tthis.curves.push( new Curves[ curve.type ]().fromJSON( curve ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A 2D path representation. The class provides methods for creating paths\n * and contours of 2D shapes similar to the 2D Canvas API.\n *\n * ```js\n * const path = new THREE.Path();\n *\n * path.lineTo( 0, 0.8 );\n * path.quadraticCurveTo( 0, 1, 0.2, 1 );\n * path.lineTo( 1, 1 );\n *\n * const points = path.getPoints();\n *\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n * const material = new THREE.LineBasicMaterial( { color: 0xffffff } );\n *\n * const line = new THREE.Line( geometry, material );\n * scene.add( line );\n * ```\n *\n * @augments CurvePath\n */\nclass Path extends CurvePath {\n\n\t/**\n\t * Constructs a new path.\n\t *\n\t * @param {Array} [points] - An array of 2D points defining the path.\n\t */\n\tconstructor( points ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'Path';\n\n\t\t/**\n\t\t * The current offset of the path. Any new curve added will start here.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.currentPoint = new Vector2();\n\n\t\tif ( points ) {\n\n\t\t\tthis.setFromPoints( points );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Creates a path from the given list of points. The points are added\n\t * to the path as instances of {@link LineCurve}.\n\t *\n\t * @param {Array} points - An array of 2D points.\n\t * @return {Path} A reference to this path.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tthis.moveTo( points[ 0 ].x, points[ 0 ].y );\n\n\t\tfor ( let i = 1, l = points.length; i < l; i ++ ) {\n\n\t\t\tthis.lineTo( points[ i ].x, points[ i ].y );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Moves {@link Path#currentPoint} to the given point.\n\t *\n\t * @param {number} x - The x coordinate.\n\t * @param {number} y - The y coordinate.\n\t * @return {Path} A reference to this path.\n\t */\n\tmoveTo( x, y ) {\n\n\t\tthis.currentPoint.set( x, y ); // TODO consider referencing vectors instead of copying?\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link LineCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} x - The x coordinate of the end point.\n\t * @param {number} y - The y coordinate of the end point.\n\t * @return {Path} A reference to this path.\n\t */\n\tlineTo( x, y ) {\n\n\t\tconst curve = new LineCurve( this.currentPoint.clone(), new Vector2( x, y ) );\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.set( x, y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link QuadraticBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCPx - The x coordinate of the control point.\n\t * @param {number} aCPy - The y coordinate of the control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {Path} A reference to this path.\n\t */\n\tquadraticCurveTo( aCPx, aCPy, aX, aY ) {\n\n\t\tconst curve = new QuadraticBezierCurve(\n\t\t\tthis.currentPoint.clone(),\n\t\t\tnew Vector2( aCPx, aCPy ),\n\t\t\tnew Vector2( aX, aY )\n\t\t);\n\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.set( aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link CubicBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCP1x - The x coordinate of the first control point.\n\t * @param {number} aCP1y - The y coordinate of the first control point.\n\t * @param {number} aCP2x - The x coordinate of the second control point.\n\t * @param {number} aCP2y - The y coordinate of the second control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {Path} A reference to this path.\n\t */\n\tbezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY ) {\n\n\t\tconst curve = new CubicBezierCurve(\n\t\t\tthis.currentPoint.clone(),\n\t\t\tnew Vector2( aCP1x, aCP1y ),\n\t\t\tnew Vector2( aCP2x, aCP2y ),\n\t\t\tnew Vector2( aX, aY )\n\t\t);\n\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.set( aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link SplineCurve} to the path by connecting\n\t * the current point with the given list of points.\n\t *\n\t * @param {Array} pts - An array of points in 2D space.\n\t * @return {Path} A reference to this path.\n\t */\n\tsplineThru( pts ) {\n\n\t\tconst npts = [ this.currentPoint.clone() ].concat( pts );\n\n\t\tconst curve = new SplineCurve( npts );\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.copy( pts[ pts.length - 1 ] );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an arc as an instance of {@link EllipseCurve} to the path, positioned relative\n\t * to the current point.\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the center of the arc offsetted from the previous curve.\n\t * @param {number} [aY=0] - The y coordinate of the center of the arc offsetted from the previous curve.\n\t * @param {number} [aRadius=1] - The radius of the arc.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the arc clockwise or not.\n\t * @return {Path} A reference to this path.\n\t */\n\tarc( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) {\n\n\t\tconst x0 = this.currentPoint.x;\n\t\tconst y0 = this.currentPoint.y;\n\n\t\tthis.absarc( aX + x0, aY + y0, aRadius,\n\t\t\taStartAngle, aEndAngle, aClockwise );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an absolutely positioned arc as an instance of {@link EllipseCurve} to the path.\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the center of the arc.\n\t * @param {number} [aY=0] - The y coordinate of the center of the arc.\n\t * @param {number} [aRadius=1] - The radius of the arc.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the arc clockwise or not.\n\t * @return {Path} A reference to this path.\n\t */\n\tabsarc( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) {\n\n\t\tthis.absellipse( aX, aY, aRadius, aRadius, aStartAngle, aEndAngle, aClockwise );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an ellipse as an instance of {@link EllipseCurve} to the path, positioned relative\n\t * to the current point\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the center of the ellipse offsetted from the previous curve.\n\t * @param {number} [aY=0] - The y coordinate of the center of the ellipse offsetted from the previous curve.\n\t * @param {number} [xRadius=1] - The radius of the ellipse in the x axis.\n\t * @param {number} [yRadius=1] - The radius of the ellipse in the y axis.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the ellipse clockwise or not.\n\t * @param {number} [aRotation=0] - The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t * @return {Path} A reference to this path.\n\t */\n\tellipse( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ) {\n\n\t\tconst x0 = this.currentPoint.x;\n\t\tconst y0 = this.currentPoint.y;\n\n\t\tthis.absellipse( aX + x0, aY + y0, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an absolutely positioned ellipse as an instance of {@link EllipseCurve} to the path.\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the absolute center of the ellipse.\n\t * @param {number} [aY=0] - The y coordinate of the absolute center of the ellipse.\n\t * @param {number} [xRadius=1] - The radius of the ellipse in the x axis.\n\t * @param {number} [yRadius=1] - The radius of the ellipse in the y axis.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the ellipse clockwise or not.\n\t * @param {number} [aRotation=0] - The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t * @return {Path} A reference to this path.\n\t */\n\tabsellipse( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ) {\n\n\t\tconst curve = new EllipseCurve( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation );\n\n\t\tif ( this.curves.length > 0 ) {\n\n\t\t\t// if a previous curve is present, attempt to join\n\t\t\tconst firstPoint = curve.getPoint( 0 );\n\n\t\t\tif ( ! firstPoint.equals( this.currentPoint ) ) {\n\n\t\t\t\tthis.lineTo( firstPoint.x, firstPoint.y );\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.curves.push( curve );\n\n\t\tconst lastPoint = curve.getPoint( 1 );\n\t\tthis.currentPoint.copy( lastPoint );\n\n\t\treturn this;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.currentPoint.copy( source.currentPoint );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.currentPoint = this.currentPoint.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.currentPoint.fromArray( json.currentPoint );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Defines an arbitrary 2d shape plane using paths with optional holes. It\n * can be used with {@link ExtrudeGeometry}, {@link ShapeGeometry}, to get\n * points, or to get triangulated faces.\n *\n * ```js\n * const heartShape = new THREE.Shape();\n *\n * heartShape.moveTo( 25, 25 );\n * heartShape.bezierCurveTo( 25, 25, 20, 0, 0, 0 );\n * heartShape.bezierCurveTo( - 30, 0, - 30, 35, - 30, 35 );\n * heartShape.bezierCurveTo( - 30, 55, - 10, 77, 25, 95 );\n * heartShape.bezierCurveTo( 60, 77, 80, 55, 80, 35 );\n * heartShape.bezierCurveTo( 80, 35, 80, 0, 50, 0 );\n * heartShape.bezierCurveTo( 35, 0, 25, 25, 25, 25 );\n *\n * const extrudeSettings = {\n * \tdepth: 8,\n * \tbevelEnabled: true,\n * \tbevelSegments: 2,\n * \tsteps: 2,\n * \tbevelSize: 1,\n * \tbevelThickness: 1\n * };\n *\n * const geometry = new THREE.ExtrudeGeometry( heartShape, extrudeSettings );\n * const mesh = new THREE.Mesh( geometry, new THREE.MeshBasicMaterial() );\n * ```\n *\n * @augments Path\n */\nclass Shape extends Path {\n\n\t/**\n\t * Constructs a new shape.\n\t *\n\t * @param {Array} [points] - An array of 2D points defining the shape.\n\t */\n\tconstructor( points ) {\n\n\t\tsuper( points );\n\n\t\t/**\n\t\t * The UUID of the shape.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\tthis.type = 'Shape';\n\n\t\t/**\n\t\t * Defines the holes in the shape. Hole definitions must use the\n\t\t * opposite winding order (CW/CCW) than the outer shape.\n\t\t *\n\t\t * @type {Array}\n\t\t * @readonly\n\t\t */\n\t\tthis.holes = [];\n\n\t}\n\n\t/**\n\t * Returns an array representing each contour of the holes\n\t * as a list of 2D points.\n\t *\n\t * @param {number} divisions - The fineness of the result.\n\t * @return {Array>} The holes as a series of 2D points.\n\t */\n\tgetPointsHoles( divisions ) {\n\n\t\tconst holesPts = [];\n\n\t\tfor ( let i = 0, l = this.holes.length; i < l; i ++ ) {\n\n\t\t\tholesPts[ i ] = this.holes[ i ].getPoints( divisions );\n\n\t\t}\n\n\t\treturn holesPts;\n\n\t}\n\n\t// get points of shape and holes (keypoints based on segments parameter)\n\n\t/**\n\t * Returns an object that holds contour data for the shape and its holes as\n\t * arrays of 2D points.\n\t *\n\t * @param {number} divisions - The fineness of the result.\n\t * @return {{shape:Array,holes:Array>}} An object with contour data.\n\t */\n\textractPoints( divisions ) {\n\n\t\treturn {\n\n\t\t\tshape: this.getPoints( divisions ),\n\t\t\tholes: this.getPointsHoles( divisions )\n\n\t\t};\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.holes = [];\n\n\t\tfor ( let i = 0, l = source.holes.length; i < l; i ++ ) {\n\n\t\t\tconst hole = source.holes[ i ];\n\n\t\t\tthis.holes.push( hole.clone() );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.uuid = this.uuid;\n\t\tdata.holes = [];\n\n\t\tfor ( let i = 0, l = this.holes.length; i < l; i ++ ) {\n\n\t\t\tconst hole = this.holes[ i ];\n\t\t\tdata.holes.push( hole.toJSON() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.uuid = json.uuid;\n\t\tthis.holes = [];\n\n\t\tfor ( let i = 0, l = json.holes.length; i < l; i ++ ) {\n\n\t\t\tconst hole = json.holes[ i ];\n\t\t\tthis.holes.push( new Path().fromJSON( hole ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/* eslint-disable */\n// copy of mapbox/earcut version 3.0.1\n// https://github.com/mapbox/earcut/tree/v3.0.1\n\nfunction earcut(data, holeIndices, dim = 2) {\n\n const hasHoles = holeIndices && holeIndices.length;\n const outerLen = hasHoles ? holeIndices[0] * dim : data.length;\n let outerNode = linkedList(data, 0, outerLen, dim, true);\n const triangles = [];\n\n if (!outerNode || outerNode.next === outerNode.prev) return triangles;\n\n let minX, minY, invSize;\n\n if (hasHoles) outerNode = eliminateHoles(data, holeIndices, outerNode, dim);\n\n // if the shape is not too simple, we'll use z-order curve hash later; calculate polygon bbox\n if (data.length > 80 * dim) {\n minX = Infinity;\n minY = Infinity;\n let maxX = -Infinity;\n let maxY = -Infinity;\n\n for (let i = dim; i < outerLen; i += dim) {\n const x = data[i];\n const y = data[i + 1];\n if (x < minX) minX = x;\n if (y < minY) minY = y;\n if (x > maxX) maxX = x;\n if (y > maxY) maxY = y;\n }\n\n // minX, minY and invSize are later used to transform coords into integers for z-order calculation\n invSize = Math.max(maxX - minX, maxY - minY);\n invSize = invSize !== 0 ? 32767 / invSize : 0;\n }\n\n earcutLinked(outerNode, triangles, dim, minX, minY, invSize, 0);\n\n return triangles;\n}\n\n// create a circular doubly linked list from polygon points in the specified winding order\nfunction linkedList(data, start, end, dim, clockwise) {\n let last;\n\n if (clockwise === (signedArea(data, start, end, dim) > 0)) {\n for (let i = start; i < end; i += dim) last = insertNode(i / dim | 0, data[i], data[i + 1], last);\n } else {\n for (let i = end - dim; i >= start; i -= dim) last = insertNode(i / dim | 0, data[i], data[i + 1], last);\n }\n\n if (last && equals(last, last.next)) {\n removeNode(last);\n last = last.next;\n }\n\n return last;\n}\n\n// eliminate colinear or duplicate points\nfunction filterPoints(start, end) {\n if (!start) return start;\n if (!end) end = start;\n\n let p = start,\n again;\n do {\n again = false;\n\n if (!p.steiner && (equals(p, p.next) || area(p.prev, p, p.next) === 0)) {\n removeNode(p);\n p = end = p.prev;\n if (p === p.next) break;\n again = true;\n\n } else {\n p = p.next;\n }\n } while (again || p !== end);\n\n return end;\n}\n\n// main ear slicing loop which triangulates a polygon (given as a linked list)\nfunction earcutLinked(ear, triangles, dim, minX, minY, invSize, pass) {\n if (!ear) return;\n\n // interlink polygon nodes in z-order\n if (!pass && invSize) indexCurve(ear, minX, minY, invSize);\n\n let stop = ear;\n\n // iterate through ears, slicing them one by one\n while (ear.prev !== ear.next) {\n const prev = ear.prev;\n const next = ear.next;\n\n if (invSize ? isEarHashed(ear, minX, minY, invSize) : isEar(ear)) {\n triangles.push(prev.i, ear.i, next.i); // cut off the triangle\n\n removeNode(ear);\n\n // skipping the next vertex leads to less sliver triangles\n ear = next.next;\n stop = next.next;\n\n continue;\n }\n\n ear = next;\n\n // if we looped through the whole remaining polygon and can't find any more ears\n if (ear === stop) {\n // try filtering points and slicing again\n if (!pass) {\n earcutLinked(filterPoints(ear), triangles, dim, minX, minY, invSize, 1);\n\n // if this didn't work, try curing all small self-intersections locally\n } else if (pass === 1) {\n ear = cureLocalIntersections(filterPoints(ear), triangles);\n earcutLinked(ear, triangles, dim, minX, minY, invSize, 2);\n\n // as a last resort, try splitting the remaining polygon into two\n } else if (pass === 2) {\n splitEarcut(ear, triangles, dim, minX, minY, invSize);\n }\n\n break;\n }\n }\n}\n\n// check whether a polygon node forms a valid ear with adjacent nodes\nfunction isEar(ear) {\n const a = ear.prev,\n b = ear,\n c = ear.next;\n\n if (area(a, b, c) >= 0) return false; // reflex, can't be an ear\n\n // now make sure we don't have other points inside the potential ear\n const ax = a.x, bx = b.x, cx = c.x, ay = a.y, by = b.y, cy = c.y;\n\n // triangle bbox\n const x0 = Math.min(ax, bx, cx),\n y0 = Math.min(ay, by, cy),\n x1 = Math.max(ax, bx, cx),\n y1 = Math.max(ay, by, cy);\n\n let p = c.next;\n while (p !== a) {\n if (p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, p.x, p.y) &&\n area(p.prev, p, p.next) >= 0) return false;\n p = p.next;\n }\n\n return true;\n}\n\nfunction isEarHashed(ear, minX, minY, invSize) {\n const a = ear.prev,\n b = ear,\n c = ear.next;\n\n if (area(a, b, c) >= 0) return false; // reflex, can't be an ear\n\n const ax = a.x, bx = b.x, cx = c.x, ay = a.y, by = b.y, cy = c.y;\n\n // triangle bbox\n const x0 = Math.min(ax, bx, cx),\n y0 = Math.min(ay, by, cy),\n x1 = Math.max(ax, bx, cx),\n y1 = Math.max(ay, by, cy);\n\n // z-order range for the current triangle bbox;\n const minZ = zOrder(x0, y0, minX, minY, invSize),\n maxZ = zOrder(x1, y1, minX, minY, invSize);\n\n let p = ear.prevZ,\n n = ear.nextZ;\n\n // look for points inside the triangle in both directions\n while (p && p.z >= minZ && n && n.z <= maxZ) {\n if (p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 && p !== a && p !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, p.x, p.y) && area(p.prev, p, p.next) >= 0) return false;\n p = p.prevZ;\n\n if (n.x >= x0 && n.x <= x1 && n.y >= y0 && n.y <= y1 && n !== a && n !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, n.x, n.y) && area(n.prev, n, n.next) >= 0) return false;\n n = n.nextZ;\n }\n\n // look for remaining points in decreasing z-order\n while (p && p.z >= minZ) {\n if (p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 && p !== a && p !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, p.x, p.y) && area(p.prev, p, p.next) >= 0) return false;\n p = p.prevZ;\n }\n\n // look for remaining points in increasing z-order\n while (n && n.z <= maxZ) {\n if (n.x >= x0 && n.x <= x1 && n.y >= y0 && n.y <= y1 && n !== a && n !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, n.x, n.y) && area(n.prev, n, n.next) >= 0) return false;\n n = n.nextZ;\n }\n\n return true;\n}\n\n// go through all polygon nodes and cure small local self-intersections\nfunction cureLocalIntersections(start, triangles) {\n let p = start;\n do {\n const a = p.prev,\n b = p.next.next;\n\n if (!equals(a, b) && intersects(a, p, p.next, b) && locallyInside(a, b) && locallyInside(b, a)) {\n\n triangles.push(a.i, p.i, b.i);\n\n // remove two nodes involved\n removeNode(p);\n removeNode(p.next);\n\n p = start = b;\n }\n p = p.next;\n } while (p !== start);\n\n return filterPoints(p);\n}\n\n// try splitting polygon into two and triangulate them independently\nfunction splitEarcut(start, triangles, dim, minX, minY, invSize) {\n // look for a valid diagonal that divides the polygon into two\n let a = start;\n do {\n let b = a.next.next;\n while (b !== a.prev) {\n if (a.i !== b.i && isValidDiagonal(a, b)) {\n // split the polygon in two by the diagonal\n let c = splitPolygon(a, b);\n\n // filter colinear points around the cuts\n a = filterPoints(a, a.next);\n c = filterPoints(c, c.next);\n\n // run earcut on each half\n earcutLinked(a, triangles, dim, minX, minY, invSize, 0);\n earcutLinked(c, triangles, dim, minX, minY, invSize, 0);\n return;\n }\n b = b.next;\n }\n a = a.next;\n } while (a !== start);\n}\n\n// link every hole into the outer loop, producing a single-ring polygon without holes\nfunction eliminateHoles(data, holeIndices, outerNode, dim) {\n const queue = [];\n\n for (let i = 0, len = holeIndices.length; i < len; i++) {\n const start = holeIndices[i] * dim;\n const end = i < len - 1 ? holeIndices[i + 1] * dim : data.length;\n const list = linkedList(data, start, end, dim, false);\n if (list === list.next) list.steiner = true;\n queue.push(getLeftmost(list));\n }\n\n queue.sort(compareXYSlope);\n\n // process holes from left to right\n for (let i = 0; i < queue.length; i++) {\n outerNode = eliminateHole(queue[i], outerNode);\n }\n\n return outerNode;\n}\n\nfunction compareXYSlope(a, b) {\n let result = a.x - b.x;\n // when the left-most point of 2 holes meet at a vertex, sort the holes counterclockwise so that when we find\n // the bridge to the outer shell is always the point that they meet at.\n if (result === 0) {\n result = a.y - b.y;\n if (result === 0) {\n const aSlope = (a.next.y - a.y) / (a.next.x - a.x);\n const bSlope = (b.next.y - b.y) / (b.next.x - b.x);\n result = aSlope - bSlope;\n }\n }\n return result;\n}\n\n// find a bridge between vertices that connects hole with an outer ring and and link it\nfunction eliminateHole(hole, outerNode) {\n const bridge = findHoleBridge(hole, outerNode);\n if (!bridge) {\n return outerNode;\n }\n\n const bridgeReverse = splitPolygon(bridge, hole);\n\n // filter collinear points around the cuts\n filterPoints(bridgeReverse, bridgeReverse.next);\n return filterPoints(bridge, bridge.next);\n}\n\n// David Eberly's algorithm for finding a bridge between hole and outer polygon\nfunction findHoleBridge(hole, outerNode) {\n let p = outerNode;\n const hx = hole.x;\n const hy = hole.y;\n let qx = -Infinity;\n let m;\n\n // find a segment intersected by a ray from the hole's leftmost point to the left;\n // segment's endpoint with lesser x will be potential connection point\n // unless they intersect at a vertex, then choose the vertex\n if (equals(hole, p)) return p;\n do {\n if (equals(hole, p.next)) return p.next;\n else if (hy <= p.y && hy >= p.next.y && p.next.y !== p.y) {\n const x = p.x + (hy - p.y) * (p.next.x - p.x) / (p.next.y - p.y);\n if (x <= hx && x > qx) {\n qx = x;\n m = p.x < p.next.x ? p : p.next;\n if (x === hx) return m; // hole touches outer segment; pick leftmost endpoint\n }\n }\n p = p.next;\n } while (p !== outerNode);\n\n if (!m) return null;\n\n // look for points inside the triangle of hole point, segment intersection and endpoint;\n // if there are no points found, we have a valid connection;\n // otherwise choose the point of the minimum angle with the ray as connection point\n\n const stop = m;\n const mx = m.x;\n const my = m.y;\n let tanMin = Infinity;\n\n p = m;\n\n do {\n if (hx >= p.x && p.x >= mx && hx !== p.x &&\n pointInTriangle(hy < my ? hx : qx, hy, mx, my, hy < my ? qx : hx, hy, p.x, p.y)) {\n\n const tan = Math.abs(hy - p.y) / (hx - p.x); // tangential\n\n if (locallyInside(p, hole) &&\n (tan < tanMin || (tan === tanMin && (p.x > m.x || (p.x === m.x && sectorContainsSector(m, p)))))) {\n m = p;\n tanMin = tan;\n }\n }\n\n p = p.next;\n } while (p !== stop);\n\n return m;\n}\n\n// whether sector in vertex m contains sector in vertex p in the same coordinates\nfunction sectorContainsSector(m, p) {\n return area(m.prev, m, p.prev) < 0 && area(p.next, m, m.next) < 0;\n}\n\n// interlink polygon nodes in z-order\nfunction indexCurve(start, minX, minY, invSize) {\n let p = start;\n do {\n if (p.z === 0) p.z = zOrder(p.x, p.y, minX, minY, invSize);\n p.prevZ = p.prev;\n p.nextZ = p.next;\n p = p.next;\n } while (p !== start);\n\n p.prevZ.nextZ = null;\n p.prevZ = null;\n\n sortLinked(p);\n}\n\n// Simon Tatham's linked list merge sort algorithm\n// http://www.chiark.greenend.org.uk/~sgtatham/algorithms/listsort.html\nfunction sortLinked(list) {\n let numMerges;\n let inSize = 1;\n\n do {\n let p = list;\n let e;\n list = null;\n let tail = null;\n numMerges = 0;\n\n while (p) {\n numMerges++;\n let q = p;\n let pSize = 0;\n for (let i = 0; i < inSize; i++) {\n pSize++;\n q = q.nextZ;\n if (!q) break;\n }\n let qSize = inSize;\n\n while (pSize > 0 || (qSize > 0 && q)) {\n\n if (pSize !== 0 && (qSize === 0 || !q || p.z <= q.z)) {\n e = p;\n p = p.nextZ;\n pSize--;\n } else {\n e = q;\n q = q.nextZ;\n qSize--;\n }\n\n if (tail) tail.nextZ = e;\n else list = e;\n\n e.prevZ = tail;\n tail = e;\n }\n\n p = q;\n }\n\n tail.nextZ = null;\n inSize *= 2;\n\n } while (numMerges > 1);\n\n return list;\n}\n\n// z-order of a point given coords and inverse of the longer side of data bbox\nfunction zOrder(x, y, minX, minY, invSize) {\n // coords are transformed into non-negative 15-bit integer range\n x = (x - minX) * invSize | 0;\n y = (y - minY) * invSize | 0;\n\n x = (x | (x << 8)) & 0x00FF00FF;\n x = (x | (x << 4)) & 0x0F0F0F0F;\n x = (x | (x << 2)) & 0x33333333;\n x = (x | (x << 1)) & 0x55555555;\n\n y = (y | (y << 8)) & 0x00FF00FF;\n y = (y | (y << 4)) & 0x0F0F0F0F;\n y = (y | (y << 2)) & 0x33333333;\n y = (y | (y << 1)) & 0x55555555;\n\n return x | (y << 1);\n}\n\n// find the leftmost node of a polygon ring\nfunction getLeftmost(start) {\n let p = start,\n leftmost = start;\n do {\n if (p.x < leftmost.x || (p.x === leftmost.x && p.y < leftmost.y)) leftmost = p;\n p = p.next;\n } while (p !== start);\n\n return leftmost;\n}\n\n// check if a point lies within a convex triangle\nfunction pointInTriangle(ax, ay, bx, by, cx, cy, px, py) {\n return (cx - px) * (ay - py) >= (ax - px) * (cy - py) &&\n (ax - px) * (by - py) >= (bx - px) * (ay - py) &&\n (bx - px) * (cy - py) >= (cx - px) * (by - py);\n}\n\n// check if a point lies within a convex triangle but false if its equal to the first point of the triangle\nfunction pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, px, py) {\n return !(ax === px && ay === py) && pointInTriangle(ax, ay, bx, by, cx, cy, px, py);\n}\n\n// check if a diagonal between two polygon nodes is valid (lies in polygon interior)\nfunction isValidDiagonal(a, b) {\n return a.next.i !== b.i && a.prev.i !== b.i && !intersectsPolygon(a, b) && // doesn't intersect other edges\n (locallyInside(a, b) && locallyInside(b, a) && middleInside(a, b) && // locally visible\n (area(a.prev, a, b.prev) || area(a, b.prev, b)) || // does not create opposite-facing sectors\n equals(a, b) && area(a.prev, a, a.next) > 0 && area(b.prev, b, b.next) > 0); // special zero-length case\n}\n\n// signed area of a triangle\nfunction area(p, q, r) {\n return (q.y - p.y) * (r.x - q.x) - (q.x - p.x) * (r.y - q.y);\n}\n\n// check if two points are equal\nfunction equals(p1, p2) {\n return p1.x === p2.x && p1.y === p2.y;\n}\n\n// check if two segments intersect\nfunction intersects(p1, q1, p2, q2) {\n const o1 = sign(area(p1, q1, p2));\n const o2 = sign(area(p1, q1, q2));\n const o3 = sign(area(p2, q2, p1));\n const o4 = sign(area(p2, q2, q1));\n\n if (o1 !== o2 && o3 !== o4) return true; // general case\n\n if (o1 === 0 && onSegment(p1, p2, q1)) return true; // p1, q1 and p2 are collinear and p2 lies on p1q1\n if (o2 === 0 && onSegment(p1, q2, q1)) return true; // p1, q1 and q2 are collinear and q2 lies on p1q1\n if (o3 === 0 && onSegment(p2, p1, q2)) return true; // p2, q2 and p1 are collinear and p1 lies on p2q2\n if (o4 === 0 && onSegment(p2, q1, q2)) return true; // p2, q2 and q1 are collinear and q1 lies on p2q2\n\n return false;\n}\n\n// for collinear points p, q, r, check if point q lies on segment pr\nfunction onSegment(p, q, r) {\n return q.x <= Math.max(p.x, r.x) && q.x >= Math.min(p.x, r.x) && q.y <= Math.max(p.y, r.y) && q.y >= Math.min(p.y, r.y);\n}\n\nfunction sign(num) {\n return num > 0 ? 1 : num < 0 ? -1 : 0;\n}\n\n// check if a polygon diagonal intersects any polygon segments\nfunction intersectsPolygon(a, b) {\n let p = a;\n do {\n if (p.i !== a.i && p.next.i !== a.i && p.i !== b.i && p.next.i !== b.i &&\n intersects(p, p.next, a, b)) return true;\n p = p.next;\n } while (p !== a);\n\n return false;\n}\n\n// check if a polygon diagonal is locally inside the polygon\nfunction locallyInside(a, b) {\n return area(a.prev, a, a.next) < 0 ?\n area(a, b, a.next) >= 0 && area(a, a.prev, b) >= 0 :\n area(a, b, a.prev) < 0 || area(a, a.next, b) < 0;\n}\n\n// check if the middle point of a polygon diagonal is inside the polygon\nfunction middleInside(a, b) {\n let p = a;\n let inside = false;\n const px = (a.x + b.x) / 2;\n const py = (a.y + b.y) / 2;\n do {\n if (((p.y > py) !== (p.next.y > py)) && p.next.y !== p.y &&\n (px < (p.next.x - p.x) * (py - p.y) / (p.next.y - p.y) + p.x))\n inside = !inside;\n p = p.next;\n } while (p !== a);\n\n return inside;\n}\n\n// link two polygon vertices with a bridge; if the vertices belong to the same ring, it splits polygon into two;\n// if one belongs to the outer ring and another to a hole, it merges it into a single ring\nfunction splitPolygon(a, b) {\n const a2 = createNode(a.i, a.x, a.y),\n b2 = createNode(b.i, b.x, b.y),\n an = a.next,\n bp = b.prev;\n\n a.next = b;\n b.prev = a;\n\n a2.next = an;\n an.prev = a2;\n\n b2.next = a2;\n a2.prev = b2;\n\n bp.next = b2;\n b2.prev = bp;\n\n return b2;\n}\n\n// create a node and optionally link it with previous one (in a circular doubly linked list)\nfunction insertNode(i, x, y, last) {\n const p = createNode(i, x, y);\n\n if (!last) {\n p.prev = p;\n p.next = p;\n\n } else {\n p.next = last.next;\n p.prev = last;\n last.next.prev = p;\n last.next = p;\n }\n return p;\n}\n\nfunction removeNode(p) {\n p.next.prev = p.prev;\n p.prev.next = p.next;\n\n if (p.prevZ) p.prevZ.nextZ = p.nextZ;\n if (p.nextZ) p.nextZ.prevZ = p.prevZ;\n}\n\nfunction createNode(i, x, y) {\n return {\n i, // vertex index in coordinates array\n x, y, // vertex coordinates\n prev: null, // previous and next vertex nodes in a polygon ring\n next: null,\n z: 0, // z-order curve value\n prevZ: null, // previous and next nodes in z-order\n nextZ: null,\n steiner: false // indicates whether this is a steiner point\n };\n}\n\nfunction signedArea(data, start, end, dim) {\n let sum = 0;\n for (let i = start, j = end - dim; i < end; i += dim) {\n sum += (data[j] - data[i]) * (data[i + 1] + data[j + 1]);\n j = i;\n }\n return sum;\n}\n\nclass Earcut {\n\n\t/**\n\t * Triangulates the given shape definition by returning an array of triangles.\n\t *\n\t * @param {Array} data - An array with 2D points.\n\t * @param {Array} holeIndices - An array with indices defining holes.\n\t * @param {number} [dim=2] - The number of coordinates per vertex in the input array.\n\t * @return {Array} An array representing the triangulated faces. Each face is defined by three consecutive numbers\n\t * representing vertex indices.\n\t */\n\tstatic triangulate( data, holeIndices, dim = 2 ) {\n\n\t\treturn earcut( data, holeIndices, dim );\n\n\t}\n\n}\n\n/**\n * A class containing utility functions for shapes.\n *\n * @hideconstructor\n */\nclass ShapeUtils {\n\n\t/**\n\t * Calculate area of a ( 2D ) contour polygon.\n\t *\n\t * @param {Array} contour - An array of 2D points.\n\t * @return {number} The area.\n\t */\n\tstatic area( contour ) {\n\n\t\tconst n = contour.length;\n\t\tlet a = 0.0;\n\n\t\tfor ( let p = n - 1, q = 0; q < n; p = q ++ ) {\n\n\t\t\ta += contour[ p ].x * contour[ q ].y - contour[ q ].x * contour[ p ].y;\n\n\t\t}\n\n\t\treturn a * 0.5;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given contour uses a clockwise winding order.\n\t *\n\t * @param {Array} pts - An array of 2D points defining a polygon.\n\t * @return {boolean} Whether the given contour uses a clockwise winding order or not.\n\t */\n\tstatic isClockWise( pts ) {\n\n\t\treturn ShapeUtils.area( pts ) < 0;\n\n\t}\n\n\t/**\n\t * Triangulates the given shape definition.\n\t *\n\t * @param {Array} contour - An array of 2D points defining the contour.\n\t * @param {Array>} holes - An array that holds arrays of 2D points defining the holes.\n\t * @return {Array>} An array that holds for each face definition an array with three indices.\n\t */\n\tstatic triangulateShape( contour, holes ) {\n\n\t\tconst vertices = []; // flat array of vertices like [ x0,y0, x1,y1, x2,y2, ... ]\n\t\tconst holeIndices = []; // array of hole indices\n\t\tconst faces = []; // final array of vertex indices like [ [ a,b,d ], [ b,c,d ] ]\n\n\t\tremoveDupEndPts( contour );\n\t\taddContour( vertices, contour );\n\n\t\t//\n\n\t\tlet holeIndex = contour.length;\n\n\t\tholes.forEach( removeDupEndPts );\n\n\t\tfor ( let i = 0; i < holes.length; i ++ ) {\n\n\t\t\tholeIndices.push( holeIndex );\n\t\t\tholeIndex += holes[ i ].length;\n\t\t\taddContour( vertices, holes[ i ] );\n\n\t\t}\n\n\t\t//\n\n\t\tconst triangles = Earcut.triangulate( vertices, holeIndices );\n\n\t\t//\n\n\t\tfor ( let i = 0; i < triangles.length; i += 3 ) {\n\n\t\t\tfaces.push( triangles.slice( i, i + 3 ) );\n\n\t\t}\n\n\t\treturn faces;\n\n\t}\n\n}\n\nfunction removeDupEndPts( points ) {\n\n\tconst l = points.length;\n\n\tif ( l > 2 && points[ l - 1 ].equals( points[ 0 ] ) ) {\n\n\t\tpoints.pop();\n\n\t}\n\n}\n\nfunction addContour( vertices, contour ) {\n\n\tfor ( let i = 0; i < contour.length; i ++ ) {\n\n\t\tvertices.push( contour[ i ].x );\n\t\tvertices.push( contour[ i ].y );\n\n\t}\n\n}\n\n/**\n * Creates extruded geometry from a path shape.\n *\n * ```js\n * const length = 12, width = 8;\n *\n * const shape = new THREE.Shape();\n * shape.moveTo( 0,0 );\n * shape.lineTo( 0, width );\n * shape.lineTo( length, width );\n * shape.lineTo( length, 0 );\n * shape.lineTo( 0, 0 );\n *\n * const geometry = new THREE.ExtrudeGeometry( shape );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const mesh = new THREE.Mesh( geometry, material ) ;\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass ExtrudeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new extrude geometry.\n\t *\n\t * @param {Shape|Array} [shapes] - A shape or an array of shapes.\n\t * @param {ExtrudeGeometry~Options} [options] - The extrude settings.\n\t */\n\tconstructor( shapes = new Shape( [ new Vector2( 0.5, 0.5 ), new Vector2( -0.5, 0.5 ), new Vector2( -0.5, -0.5 ), new Vector2( 0.5, -0.5 ) ] ), options = {} ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'ExtrudeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tshapes: shapes,\n\t\t\toptions: options\n\t\t};\n\n\t\tshapes = Array.isArray( shapes ) ? shapes : [ shapes ];\n\n\t\tconst scope = this;\n\n\t\tconst verticesArray = [];\n\t\tconst uvArray = [];\n\n\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\tconst shape = shapes[ i ];\n\t\t\taddShape( shape );\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( verticesArray, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvArray, 2 ) );\n\n\t\tthis.computeVertexNormals();\n\n\t\t// functions\n\n\t\tfunction addShape( shape ) {\n\n\t\t\tconst placeholder = [];\n\n\t\t\t// options\n\n\t\t\tconst curveSegments = options.curveSegments !== undefined ? options.curveSegments : 12;\n\t\t\tconst steps = options.steps !== undefined ? options.steps : 1;\n\t\t\tconst depth = options.depth !== undefined ? options.depth : 1;\n\n\t\t\tlet bevelEnabled = options.bevelEnabled !== undefined ? options.bevelEnabled : true;\n\t\t\tlet bevelThickness = options.bevelThickness !== undefined ? options.bevelThickness : 0.2;\n\t\t\tlet bevelSize = options.bevelSize !== undefined ? options.bevelSize : bevelThickness - 0.1;\n\t\t\tlet bevelOffset = options.bevelOffset !== undefined ? options.bevelOffset : 0;\n\t\t\tlet bevelSegments = options.bevelSegments !== undefined ? options.bevelSegments : 3;\n\n\t\t\tconst extrudePath = options.extrudePath;\n\n\t\t\tconst uvgen = options.UVGenerator !== undefined ? options.UVGenerator : WorldUVGenerator;\n\n\t\t\t//\n\n\t\t\tlet extrudePts, extrudeByPath = false;\n\t\t\tlet splineTube, binormal, normal, position2;\n\n\t\t\tif ( extrudePath ) {\n\n\t\t\t\textrudePts = extrudePath.getSpacedPoints( steps );\n\n\t\t\t\textrudeByPath = true;\n\t\t\t\tbevelEnabled = false; // bevels not supported for path extrusion\n\n\t\t\t\t// SETUP TNB variables\n\n\t\t\t\t// TODO1 - have a .isClosed in spline?\n\n\t\t\t\tsplineTube = extrudePath.computeFrenetFrames( steps, false );\n\n\t\t\t\t// console.log(splineTube, 'splineTube', splineTube.normals.length, 'steps', steps, 'extrudePts', extrudePts.length);\n\n\t\t\t\tbinormal = new Vector3();\n\t\t\t\tnormal = new Vector3();\n\t\t\t\tposition2 = new Vector3();\n\n\t\t\t}\n\n\t\t\t// Safeguards if bevels are not enabled\n\n\t\t\tif ( ! bevelEnabled ) {\n\n\t\t\t\tbevelSegments = 0;\n\t\t\t\tbevelThickness = 0;\n\t\t\t\tbevelSize = 0;\n\t\t\t\tbevelOffset = 0;\n\n\t\t\t}\n\n\t\t\t// Variables initialization\n\n\t\t\tconst shapePoints = shape.extractPoints( curveSegments );\n\n\t\t\tlet vertices = shapePoints.shape;\n\t\t\tconst holes = shapePoints.holes;\n\n\t\t\tconst reverse = ! ShapeUtils.isClockWise( vertices );\n\n\t\t\tif ( reverse ) {\n\n\t\t\t\tvertices = vertices.reverse();\n\n\t\t\t\t// Maybe we should also check if holes are in the opposite direction, just to be safe ...\n\n\t\t\t\tfor ( let h = 0, hl = holes.length; h < hl; h ++ ) {\n\n\t\t\t\t\tconst ahole = holes[ h ];\n\n\t\t\t\t\tif ( ShapeUtils.isClockWise( ahole ) ) {\n\n\t\t\t\t\t\tholes[ h ] = ahole.reverse();\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t/**Merges index-adjacent points that are within a threshold distance of each other. Array is modified in-place. Threshold distance is empirical, and scaled based on the magnitude of point coordinates.\n\t\t\t * @param {Array} points\n\t\t\t*/\n\t\t\tfunction mergeOverlappingPoints( points ) {\n\n\t\t\t\tconst THRESHOLD = 1e-10;\n\t\t\t\tconst THRESHOLD_SQ = THRESHOLD * THRESHOLD;\n\t\t\t\tlet prevPos = points[ 0 ];\n\t\t\t\tfor ( let i = 1; i <= points.length; i ++ ) {\n\n\t\t\t\t\tconst currentIndex = i % points.length;\n\t\t\t\t\tconst currentPos = points[ currentIndex ];\n\t\t\t\t\tconst dx = currentPos.x - prevPos.x;\n\t\t\t\t\tconst dy = currentPos.y - prevPos.y;\n\t\t\t\t\tconst distSq = dx * dx + dy * dy;\n\n\t\t\t\t\tconst scalingFactorSqrt = Math.max(\n\t\t\t\t\t\tMath.abs( currentPos.x ),\n\t\t\t\t\t\tMath.abs( currentPos.y ),\n\t\t\t\t\t\tMath.abs( prevPos.x ),\n\t\t\t\t\t\tMath.abs( prevPos.y )\n\t\t\t\t\t);\n\t\t\t\t\tconst thresholdSqScaled = THRESHOLD_SQ * scalingFactorSqrt * scalingFactorSqrt;\n\t\t\t\t\tif ( distSq <= thresholdSqScaled ) {\n\n\t\t\t\t\t\tpoints.splice( currentIndex, 1 );\n\t\t\t\t\t\ti --;\n\t\t\t\t\t\tcontinue;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tprevPos = currentPos;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tmergeOverlappingPoints( vertices );\n\t\t\tholes.forEach( mergeOverlappingPoints );\n\n\t\t\tconst numHoles = holes.length;\n\n\t\t\t/* Vertices */\n\n\t\t\tconst contour = vertices; // vertices has all points but contour has only points of circumference\n\n\t\t\tfor ( let h = 0; h < numHoles; h ++ ) {\n\n\t\t\t\tconst ahole = holes[ h ];\n\n\t\t\t\tvertices = vertices.concat( ahole );\n\n\t\t\t}\n\n\n\t\t\tfunction scalePt2( pt, vec, size ) {\n\n\t\t\t\tif ( ! vec ) console.error( 'THREE.ExtrudeGeometry: vec does not exist' );\n\n\t\t\t\treturn pt.clone().addScaledVector( vec, size );\n\n\t\t\t}\n\n\t\t\tconst vlen = vertices.length;\n\n\n\t\t\t// Find directions for point movement\n\n\n\t\t\tfunction getBevelVec( inPt, inPrev, inNext ) {\n\n\t\t\t\t// computes for inPt the corresponding point inPt' on a new contour\n\t\t\t\t// shifted by 1 unit (length of normalized vector) to the left\n\t\t\t\t// if we walk along contour clockwise, this new contour is outside the old one\n\t\t\t\t//\n\t\t\t\t// inPt' is the intersection of the two lines parallel to the two\n\t\t\t\t// adjacent edges of inPt at a distance of 1 unit on the left side.\n\n\t\t\t\tlet v_trans_x, v_trans_y, shrink_by; // resulting translation vector for inPt\n\n\t\t\t\t// good reading for geometry algorithms (here: line-line intersection)\n\t\t\t\t// http://geomalgorithms.com/a05-_intersect-1.html\n\n\t\t\t\tconst v_prev_x = inPt.x - inPrev.x,\n\t\t\t\t\tv_prev_y = inPt.y - inPrev.y;\n\t\t\t\tconst v_next_x = inNext.x - inPt.x,\n\t\t\t\t\tv_next_y = inNext.y - inPt.y;\n\n\t\t\t\tconst v_prev_lensq = ( v_prev_x * v_prev_x + v_prev_y * v_prev_y );\n\n\t\t\t\t// check for collinear edges\n\t\t\t\tconst collinear0 = ( v_prev_x * v_next_y - v_prev_y * v_next_x );\n\n\t\t\t\tif ( Math.abs( collinear0 ) > Number.EPSILON ) {\n\n\t\t\t\t\t// not collinear\n\n\t\t\t\t\t// length of vectors for normalizing\n\n\t\t\t\t\tconst v_prev_len = Math.sqrt( v_prev_lensq );\n\t\t\t\t\tconst v_next_len = Math.sqrt( v_next_x * v_next_x + v_next_y * v_next_y );\n\n\t\t\t\t\t// shift adjacent points by unit vectors to the left\n\n\t\t\t\t\tconst ptPrevShift_x = ( inPrev.x - v_prev_y / v_prev_len );\n\t\t\t\t\tconst ptPrevShift_y = ( inPrev.y + v_prev_x / v_prev_len );\n\n\t\t\t\t\tconst ptNextShift_x = ( inNext.x - v_next_y / v_next_len );\n\t\t\t\t\tconst ptNextShift_y = ( inNext.y + v_next_x / v_next_len );\n\n\t\t\t\t\t// scaling factor for v_prev to intersection point\n\n\t\t\t\t\tconst sf = ( ( ptNextShift_x - ptPrevShift_x ) * v_next_y -\n\t\t\t\t\t\t\t( ptNextShift_y - ptPrevShift_y ) * v_next_x ) /\n\t\t\t\t\t\t( v_prev_x * v_next_y - v_prev_y * v_next_x );\n\n\t\t\t\t\t// vector from inPt to intersection point\n\n\t\t\t\t\tv_trans_x = ( ptPrevShift_x + v_prev_x * sf - inPt.x );\n\t\t\t\t\tv_trans_y = ( ptPrevShift_y + v_prev_y * sf - inPt.y );\n\n\t\t\t\t\t// Don't normalize!, otherwise sharp corners become ugly\n\t\t\t\t\t// but prevent crazy spikes\n\t\t\t\t\tconst v_trans_lensq = ( v_trans_x * v_trans_x + v_trans_y * v_trans_y );\n\t\t\t\t\tif ( v_trans_lensq <= 2 ) {\n\n\t\t\t\t\t\treturn new Vector2( v_trans_x, v_trans_y );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tshrink_by = Math.sqrt( v_trans_lensq / 2 );\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// handle special case of collinear edges\n\n\t\t\t\t\tlet direction_eq = false; // assumes: opposite\n\n\t\t\t\t\tif ( v_prev_x > Number.EPSILON ) {\n\n\t\t\t\t\t\tif ( v_next_x > Number.EPSILON ) {\n\n\t\t\t\t\t\t\tdirection_eq = true;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tif ( v_prev_x < - Number.EPSILON ) {\n\n\t\t\t\t\t\t\tif ( v_next_x < - Number.EPSILON ) {\n\n\t\t\t\t\t\t\t\tdirection_eq = true;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tif ( Math.sign( v_prev_y ) === Math.sign( v_next_y ) ) {\n\n\t\t\t\t\t\t\t\tdirection_eq = true;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( direction_eq ) {\n\n\t\t\t\t\t\t// console.log(\"Warning: lines are a straight sequence\");\n\t\t\t\t\t\tv_trans_x = - v_prev_y;\n\t\t\t\t\t\tv_trans_y = v_prev_x;\n\t\t\t\t\t\tshrink_by = Math.sqrt( v_prev_lensq );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// console.log(\"Warning: lines are a straight spike\");\n\t\t\t\t\t\tv_trans_x = v_prev_x;\n\t\t\t\t\t\tv_trans_y = v_prev_y;\n\t\t\t\t\t\tshrink_by = Math.sqrt( v_prev_lensq / 2 );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\treturn new Vector2( v_trans_x / shrink_by, v_trans_y / shrink_by );\n\n\t\t\t}\n\n\n\t\t\tconst contourMovements = [];\n\n\t\t\tfor ( let i = 0, il = contour.length, j = il - 1, k = i + 1; i < il; i ++, j ++, k ++ ) {\n\n\t\t\t\tif ( j === il ) j = 0;\n\t\t\t\tif ( k === il ) k = 0;\n\n\t\t\t\t// (j)---(i)---(k)\n\t\t\t\t// console.log('i,j,k', i, j , k)\n\n\t\t\t\tcontourMovements[ i ] = getBevelVec( contour[ i ], contour[ j ], contour[ k ] );\n\n\t\t\t}\n\n\t\t\tconst holesMovements = [];\n\t\t\tlet oneHoleMovements, verticesMovements = contourMovements.concat();\n\n\t\t\tfor ( let h = 0, hl = numHoles; h < hl; h ++ ) {\n\n\t\t\t\tconst ahole = holes[ h ];\n\n\t\t\t\toneHoleMovements = [];\n\n\t\t\t\tfor ( let i = 0, il = ahole.length, j = il - 1, k = i + 1; i < il; i ++, j ++, k ++ ) {\n\n\t\t\t\t\tif ( j === il ) j = 0;\n\t\t\t\t\tif ( k === il ) k = 0;\n\n\t\t\t\t\t// (j)---(i)---(k)\n\t\t\t\t\toneHoleMovements[ i ] = getBevelVec( ahole[ i ], ahole[ j ], ahole[ k ] );\n\n\t\t\t\t}\n\n\t\t\t\tholesMovements.push( oneHoleMovements );\n\t\t\t\tverticesMovements = verticesMovements.concat( oneHoleMovements );\n\n\t\t\t}\n\n\t\t\tlet faces;\n\n\t\t\tif ( bevelSegments === 0 ) {\n\n\t\t\t\tfaces = ShapeUtils.triangulateShape( contour, holes );\n\n\t\t\t} else {\n\n\t\t\t\tconst contractedContourVertices = [];\n\t\t\t\tconst expandedHoleVertices = [];\n\n\t\t\t\t// Loop bevelSegments, 1 for the front, 1 for the back\n\n\t\t\t\tfor ( let b = 0; b < bevelSegments; b ++ ) {\n\n\t\t\t\t\t//for ( b = bevelSegments; b > 0; b -- ) {\n\n\t\t\t\t\tconst t = b / bevelSegments;\n\t\t\t\t\tconst z = bevelThickness * Math.cos( t * Math.PI / 2 );\n\t\t\t\t\tconst bs = bevelSize * Math.sin( t * Math.PI / 2 ) + bevelOffset;\n\n\t\t\t\t\t// contract shape\n\n\t\t\t\t\tfor ( let i = 0, il = contour.length; i < il; i ++ ) {\n\n\t\t\t\t\t\tconst vert = scalePt2( contour[ i ], contourMovements[ i ], bs );\n\n\t\t\t\t\t\tv( vert.x, vert.y, - z );\n\t\t\t\t\t\tif ( t === 0 ) contractedContourVertices.push( vert );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// expand holes\n\n\t\t\t\t\tfor ( let h = 0, hl = numHoles; h < hl; h ++ ) {\n\n\t\t\t\t\t\tconst ahole = holes[ h ];\n\t\t\t\t\t\toneHoleMovements = holesMovements[ h ];\n\t\t\t\t\t\tconst oneHoleVertices = [];\n\t\t\t\t\t\tfor ( let i = 0, il = ahole.length; i < il; i ++ ) {\n\n\t\t\t\t\t\t\tconst vert = scalePt2( ahole[ i ], oneHoleMovements[ i ], bs );\n\n\t\t\t\t\t\t\tv( vert.x, vert.y, - z );\n\t\t\t\t\t\t\tif ( t === 0 ) oneHoleVertices.push( vert );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tif ( t === 0 ) expandedHoleVertices.push( oneHoleVertices );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tfaces = ShapeUtils.triangulateShape( contractedContourVertices, expandedHoleVertices );\n\n\t\t\t}\n\n\t\t\tconst flen = faces.length;\n\n\t\t\tconst bs = bevelSize + bevelOffset;\n\n\t\t\t// Back facing vertices\n\n\t\t\tfor ( let i = 0; i < vlen; i ++ ) {\n\n\t\t\t\tconst vert = bevelEnabled ? scalePt2( vertices[ i ], verticesMovements[ i ], bs ) : vertices[ i ];\n\n\t\t\t\tif ( ! extrudeByPath ) {\n\n\t\t\t\t\tv( vert.x, vert.y, 0 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// v( vert.x, vert.y + extrudePts[ 0 ].y, extrudePts[ 0 ].x );\n\n\t\t\t\t\tnormal.copy( splineTube.normals[ 0 ] ).multiplyScalar( vert.x );\n\t\t\t\t\tbinormal.copy( splineTube.binormals[ 0 ] ).multiplyScalar( vert.y );\n\n\t\t\t\t\tposition2.copy( extrudePts[ 0 ] ).add( normal ).add( binormal );\n\n\t\t\t\t\tv( position2.x, position2.y, position2.z );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// Add stepped vertices...\n\t\t\t// Including front facing vertices\n\n\t\t\tfor ( let s = 1; s <= steps; s ++ ) {\n\n\t\t\t\tfor ( let i = 0; i < vlen; i ++ ) {\n\n\t\t\t\t\tconst vert = bevelEnabled ? scalePt2( vertices[ i ], verticesMovements[ i ], bs ) : vertices[ i ];\n\n\t\t\t\t\tif ( ! extrudeByPath ) {\n\n\t\t\t\t\t\tv( vert.x, vert.y, depth / steps * s );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// v( vert.x, vert.y + extrudePts[ s - 1 ].y, extrudePts[ s - 1 ].x );\n\n\t\t\t\t\t\tnormal.copy( splineTube.normals[ s ] ).multiplyScalar( vert.x );\n\t\t\t\t\t\tbinormal.copy( splineTube.binormals[ s ] ).multiplyScalar( vert.y );\n\n\t\t\t\t\t\tposition2.copy( extrudePts[ s ] ).add( normal ).add( binormal );\n\n\t\t\t\t\t\tv( position2.x, position2.y, position2.z );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\n\t\t\t// Add bevel segments planes\n\n\t\t\t//for ( b = 1; b <= bevelSegments; b ++ ) {\n\t\t\tfor ( let b = bevelSegments - 1; b >= 0; b -- ) {\n\n\t\t\t\tconst t = b / bevelSegments;\n\t\t\t\tconst z = bevelThickness * Math.cos( t * Math.PI / 2 );\n\t\t\t\tconst bs = bevelSize * Math.sin( t * Math.PI / 2 ) + bevelOffset;\n\n\t\t\t\t// contract shape\n\n\t\t\t\tfor ( let i = 0, il = contour.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst vert = scalePt2( contour[ i ], contourMovements[ i ], bs );\n\t\t\t\t\tv( vert.x, vert.y, depth + z );\n\n\t\t\t\t}\n\n\t\t\t\t// expand holes\n\n\t\t\t\tfor ( let h = 0, hl = holes.length; h < hl; h ++ ) {\n\n\t\t\t\t\tconst ahole = holes[ h ];\n\t\t\t\t\toneHoleMovements = holesMovements[ h ];\n\n\t\t\t\t\tfor ( let i = 0, il = ahole.length; i < il; i ++ ) {\n\n\t\t\t\t\t\tconst vert = scalePt2( ahole[ i ], oneHoleMovements[ i ], bs );\n\n\t\t\t\t\t\tif ( ! extrudeByPath ) {\n\n\t\t\t\t\t\t\tv( vert.x, vert.y, depth + z );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tv( vert.x, vert.y + extrudePts[ steps - 1 ].y, extrudePts[ steps - 1 ].x + z );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t/* Faces */\n\n\t\t\t// Top and bottom faces\n\n\t\t\tbuildLidFaces();\n\n\t\t\t// Sides faces\n\n\t\t\tbuildSideFaces();\n\n\n\t\t\t///// Internal functions\n\n\t\t\tfunction buildLidFaces() {\n\n\t\t\t\tconst start = verticesArray.length / 3;\n\n\t\t\t\tif ( bevelEnabled ) {\n\n\t\t\t\t\tlet layer = 0; // steps + 1\n\t\t\t\t\tlet offset = vlen * layer;\n\n\t\t\t\t\t// Bottom faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 2 ] + offset, face[ 1 ] + offset, face[ 0 ] + offset );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tlayer = steps + bevelSegments * 2;\n\t\t\t\t\toffset = vlen * layer;\n\n\t\t\t\t\t// Top faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 0 ] + offset, face[ 1 ] + offset, face[ 2 ] + offset );\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// Bottom faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 2 ], face[ 1 ], face[ 0 ] );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// Top faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 0 ] + vlen * steps, face[ 1 ] + vlen * steps, face[ 2 ] + vlen * steps );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tscope.addGroup( start, verticesArray.length / 3 - start, 0 );\n\n\t\t\t}\n\n\t\t\t// Create faces for the z-sides of the shape\n\n\t\t\tfunction buildSideFaces() {\n\n\t\t\t\tconst start = verticesArray.length / 3;\n\t\t\t\tlet layeroffset = 0;\n\t\t\t\tsidewalls( contour, layeroffset );\n\t\t\t\tlayeroffset += contour.length;\n\n\t\t\t\tfor ( let h = 0, hl = holes.length; h < hl; h ++ ) {\n\n\t\t\t\t\tconst ahole = holes[ h ];\n\t\t\t\t\tsidewalls( ahole, layeroffset );\n\n\t\t\t\t\t//, true\n\t\t\t\t\tlayeroffset += ahole.length;\n\n\t\t\t\t}\n\n\n\t\t\t\tscope.addGroup( start, verticesArray.length / 3 - start, 1 );\n\n\n\t\t\t}\n\n\t\t\tfunction sidewalls( contour, layeroffset ) {\n\n\t\t\t\tlet i = contour.length;\n\n\t\t\t\twhile ( -- i >= 0 ) {\n\n\t\t\t\t\tconst j = i;\n\t\t\t\t\tlet k = i - 1;\n\t\t\t\t\tif ( k < 0 ) k = contour.length - 1;\n\n\t\t\t\t\t//console.log('b', i,j, i-1, k,vertices.length);\n\n\t\t\t\t\tfor ( let s = 0, sl = ( steps + bevelSegments * 2 ); s < sl; s ++ ) {\n\n\t\t\t\t\t\tconst slen1 = vlen * s;\n\t\t\t\t\t\tconst slen2 = vlen * ( s + 1 );\n\n\t\t\t\t\t\tconst a = layeroffset + j + slen1,\n\t\t\t\t\t\t\tb = layeroffset + k + slen1,\n\t\t\t\t\t\t\tc = layeroffset + k + slen2,\n\t\t\t\t\t\t\td = layeroffset + j + slen2;\n\n\t\t\t\t\t\tf4( a, b, c, d );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tfunction v( x, y, z ) {\n\n\t\t\t\tplaceholder.push( x );\n\t\t\t\tplaceholder.push( y );\n\t\t\t\tplaceholder.push( z );\n\n\t\t\t}\n\n\n\t\t\tfunction f3( a, b, c ) {\n\n\t\t\t\taddVertex( a );\n\t\t\t\taddVertex( b );\n\t\t\t\taddVertex( c );\n\n\t\t\t\tconst nextIndex = verticesArray.length / 3;\n\t\t\t\tconst uvs = uvgen.generateTopUV( scope, verticesArray, nextIndex - 3, nextIndex - 2, nextIndex - 1 );\n\n\t\t\t\taddUV( uvs[ 0 ] );\n\t\t\t\taddUV( uvs[ 1 ] );\n\t\t\t\taddUV( uvs[ 2 ] );\n\n\t\t\t}\n\n\t\t\tfunction f4( a, b, c, d ) {\n\n\t\t\t\taddVertex( a );\n\t\t\t\taddVertex( b );\n\t\t\t\taddVertex( d );\n\n\t\t\t\taddVertex( b );\n\t\t\t\taddVertex( c );\n\t\t\t\taddVertex( d );\n\n\n\t\t\t\tconst nextIndex = verticesArray.length / 3;\n\t\t\t\tconst uvs = uvgen.generateSideWallUV( scope, verticesArray, nextIndex - 6, nextIndex - 3, nextIndex - 2, nextIndex - 1 );\n\n\t\t\t\taddUV( uvs[ 0 ] );\n\t\t\t\taddUV( uvs[ 1 ] );\n\t\t\t\taddUV( uvs[ 3 ] );\n\n\t\t\t\taddUV( uvs[ 1 ] );\n\t\t\t\taddUV( uvs[ 2 ] );\n\t\t\t\taddUV( uvs[ 3 ] );\n\n\t\t\t}\n\n\t\t\tfunction addVertex( index ) {\n\n\t\t\t\tverticesArray.push( placeholder[ index * 3 + 0 ] );\n\t\t\t\tverticesArray.push( placeholder[ index * 3 + 1 ] );\n\t\t\t\tverticesArray.push( placeholder[ index * 3 + 2 ] );\n\n\t\t\t}\n\n\n\t\t\tfunction addUV( vector2 ) {\n\n\t\t\t\tuvArray.push( vector2.x );\n\t\t\t\tuvArray.push( vector2.y );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tconst shapes = this.parameters.shapes;\n\t\tconst options = this.parameters.options;\n\n\t\treturn toJSON$1( shapes, options, data );\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @param {Array} shapes - An array of shapes.\n\t * @return {ExtrudeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data, shapes ) {\n\n\t\tconst geometryShapes = [];\n\n\t\tfor ( let j = 0, jl = data.shapes.length; j < jl; j ++ ) {\n\n\t\t\tconst shape = shapes[ data.shapes[ j ] ];\n\n\t\t\tgeometryShapes.push( shape );\n\n\t\t}\n\n\t\tconst extrudePath = data.options.extrudePath;\n\n\t\tif ( extrudePath !== undefined ) {\n\n\t\t\tdata.options.extrudePath = new Curves[ extrudePath.type ]().fromJSON( extrudePath );\n\n\t\t}\n\n\t\treturn new ExtrudeGeometry( geometryShapes, data.options );\n\n\t}\n\n}\n\nconst WorldUVGenerator = {\n\n\tgenerateTopUV: function ( geometry, vertices, indexA, indexB, indexC ) {\n\n\t\tconst a_x = vertices[ indexA * 3 ];\n\t\tconst a_y = vertices[ indexA * 3 + 1 ];\n\t\tconst b_x = vertices[ indexB * 3 ];\n\t\tconst b_y = vertices[ indexB * 3 + 1 ];\n\t\tconst c_x = vertices[ indexC * 3 ];\n\t\tconst c_y = vertices[ indexC * 3 + 1 ];\n\n\t\treturn [\n\t\t\tnew Vector2( a_x, a_y ),\n\t\t\tnew Vector2( b_x, b_y ),\n\t\t\tnew Vector2( c_x, c_y )\n\t\t];\n\n\t},\n\n\tgenerateSideWallUV: function ( geometry, vertices, indexA, indexB, indexC, indexD ) {\n\n\t\tconst a_x = vertices[ indexA * 3 ];\n\t\tconst a_y = vertices[ indexA * 3 + 1 ];\n\t\tconst a_z = vertices[ indexA * 3 + 2 ];\n\t\tconst b_x = vertices[ indexB * 3 ];\n\t\tconst b_y = vertices[ indexB * 3 + 1 ];\n\t\tconst b_z = vertices[ indexB * 3 + 2 ];\n\t\tconst c_x = vertices[ indexC * 3 ];\n\t\tconst c_y = vertices[ indexC * 3 + 1 ];\n\t\tconst c_z = vertices[ indexC * 3 + 2 ];\n\t\tconst d_x = vertices[ indexD * 3 ];\n\t\tconst d_y = vertices[ indexD * 3 + 1 ];\n\t\tconst d_z = vertices[ indexD * 3 + 2 ];\n\n\t\tif ( Math.abs( a_y - b_y ) < Math.abs( a_x - b_x ) ) {\n\n\t\t\treturn [\n\t\t\t\tnew Vector2( a_x, 1 - a_z ),\n\t\t\t\tnew Vector2( b_x, 1 - b_z ),\n\t\t\t\tnew Vector2( c_x, 1 - c_z ),\n\t\t\t\tnew Vector2( d_x, 1 - d_z )\n\t\t\t];\n\n\t\t} else {\n\n\t\t\treturn [\n\t\t\t\tnew Vector2( a_y, 1 - a_z ),\n\t\t\t\tnew Vector2( b_y, 1 - b_z ),\n\t\t\t\tnew Vector2( c_y, 1 - c_z ),\n\t\t\t\tnew Vector2( d_y, 1 - d_z )\n\t\t\t];\n\n\t\t}\n\n\t}\n\n};\n\nfunction toJSON$1( shapes, options, data ) {\n\n\tdata.shapes = [];\n\n\tif ( Array.isArray( shapes ) ) {\n\n\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\tconst shape = shapes[ i ];\n\n\t\t\tdata.shapes.push( shape.uuid );\n\n\t\t}\n\n\t} else {\n\n\t\tdata.shapes.push( shapes.uuid );\n\n\t}\n\n\tdata.options = Object.assign( {}, options );\n\n\tif ( options.extrudePath !== undefined ) data.options.extrudePath = options.extrudePath.toJSON();\n\n\treturn data;\n\n}\n\n/**\n * A geometry class for representing an icosahedron.\n *\n * ```js\n * const geometry = new THREE.IcosahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const icosahedron = new THREE.Mesh( geometry, material );\n * scene.add( icosahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass IcosahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new icosahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the icosahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a icosahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst t = ( 1 + Math.sqrt( 5 ) ) / 2;\n\n\t\tconst vertices = [\n\t\t\t-1, t, 0, \t1, t, 0, \t-1, - t, 0, \t1, - t, 0,\n\t\t\t0, -1, t, \t0, 1, t,\t0, -1, - t, \t0, 1, - t,\n\t\t\tt, 0, -1, \tt, 0, 1, \t- t, 0, -1, \t- t, 0, 1\n\t\t];\n\n\t\tconst indices = [\n\t\t\t0, 11, 5, \t0, 5, 1, \t0, 1, 7, \t0, 7, 10, \t0, 10, 11,\n\t\t\t1, 5, 9, \t5, 11, 4,\t11, 10, 2,\t10, 7, 6,\t7, 1, 8,\n\t\t\t3, 9, 4, \t3, 4, 2,\t3, 2, 6,\t3, 6, 8,\t3, 8, 9,\n\t\t\t4, 9, 5, \t2, 4, 11,\t6, 2, 10,\t8, 6, 7,\t9, 8, 1\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'IcosahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {IcosahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new IcosahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\n/**\n * Creates meshes with axial symmetry like vases. The lathe rotates around the Y axis.\n *\n * ```js\n * const points = [];\n * for ( let i = 0; i < 10; i ++ ) {\n * \tpoints.push( new THREE.Vector2( Math.sin( i * 0.2 ) * 10 + 5, ( i - 5 ) * 2 ) );\n * }\n * const geometry = new THREE.LatheGeometry( points );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const lathe = new THREE.Mesh( geometry, material );\n * scene.add( lathe );\n * ```\n *\n * @augments BufferGeometry\n */\nclass LatheGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new lathe geometry.\n\t *\n\t * @param {Array} [points] - An array of points in 2D space. The x-coordinate of each point\n\t * must be greater than zero.\n\t * @param {number} [segments=12] - The number of circumference segments to generate.\n\t * @param {number} [phiStart=0] - The starting angle in radians.\n\t * @param {number} [phiLength=Math.PI*2] - The radian (0 to 2PI) range of the lathed section 2PI is a\n\t * closed lathe, less than 2PI is a portion.\n\t */\n\tconstructor( points = [ new Vector2( 0, -0.5 ), new Vector2( 0.5, 0 ), new Vector2( 0, 0.5 ) ], segments = 12, phiStart = 0, phiLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'LatheGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tpoints: points,\n\t\t\tsegments: segments,\n\t\t\tphiStart: phiStart,\n\t\t\tphiLength: phiLength\n\t\t};\n\n\t\tsegments = Math.floor( segments );\n\n\t\t// clamp phiLength so it's in range of [ 0, 2PI ]\n\n\t\tphiLength = clamp( phiLength, 0, Math.PI * 2 );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst uvs = [];\n\t\tconst initNormals = [];\n\t\tconst normals = [];\n\n\t\t// helper variables\n\n\t\tconst inverseSegments = 1.0 / segments;\n\t\tconst vertex = new Vector3();\n\t\tconst uv = new Vector2();\n\t\tconst normal = new Vector3();\n\t\tconst curNormal = new Vector3();\n\t\tconst prevNormal = new Vector3();\n\t\tlet dx = 0;\n\t\tlet dy = 0;\n\n\t\t// pre-compute normals for initial \"meridian\"\n\n\t\tfor ( let j = 0; j <= ( points.length - 1 ); j ++ ) {\n\n\t\t\tswitch ( j ) {\n\n\t\t\t\tcase 0:\t\t\t\t// special handling for 1st vertex on path\n\n\t\t\t\t\tdx = points[ j + 1 ].x - points[ j ].x;\n\t\t\t\t\tdy = points[ j + 1 ].y - points[ j ].y;\n\n\t\t\t\t\tnormal.x = dy * 1.0;\n\t\t\t\t\tnormal.y = - dx;\n\t\t\t\t\tnormal.z = dy * 0.0;\n\n\t\t\t\t\tprevNormal.copy( normal );\n\n\t\t\t\t\tnormal.normalize();\n\n\t\t\t\t\tinitNormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase ( points.length - 1 ):\t// special handling for last Vertex on path\n\n\t\t\t\t\tinitNormals.push( prevNormal.x, prevNormal.y, prevNormal.z );\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\t\t\t// default handling for all vertices in between\n\n\t\t\t\t\tdx = points[ j + 1 ].x - points[ j ].x;\n\t\t\t\t\tdy = points[ j + 1 ].y - points[ j ].y;\n\n\t\t\t\t\tnormal.x = dy * 1.0;\n\t\t\t\t\tnormal.y = - dx;\n\t\t\t\t\tnormal.z = dy * 0.0;\n\n\t\t\t\t\tcurNormal.copy( normal );\n\n\t\t\t\t\tnormal.x += prevNormal.x;\n\t\t\t\t\tnormal.y += prevNormal.y;\n\t\t\t\t\tnormal.z += prevNormal.z;\n\n\t\t\t\t\tnormal.normalize();\n\n\t\t\t\t\tinitNormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t\tprevNormal.copy( curNormal );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// generate vertices, uvs and normals\n\n\t\tfor ( let i = 0; i <= segments; i ++ ) {\n\n\t\t\tconst phi = phiStart + i * inverseSegments * phiLength;\n\n\t\t\tconst sin = Math.sin( phi );\n\t\t\tconst cos = Math.cos( phi );\n\n\t\t\tfor ( let j = 0; j <= ( points.length - 1 ); j ++ ) {\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = points[ j ].x * sin;\n\t\t\t\tvertex.y = points[ j ].y;\n\t\t\t\tvertex.z = points[ j ].x * cos;\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuv.x = i / segments;\n\t\t\t\tuv.y = j / ( points.length - 1 );\n\n\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t\t// normal\n\n\t\t\t\tconst x = initNormals[ 3 * j + 0 ] * sin;\n\t\t\t\tconst y = initNormals[ 3 * j + 1 ];\n\t\t\t\tconst z = initNormals[ 3 * j + 0 ] * cos;\n\n\t\t\t\tnormals.push( x, y, z );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let i = 0; i < segments; i ++ ) {\n\n\t\t\tfor ( let j = 0; j < ( points.length - 1 ); j ++ ) {\n\n\t\t\t\tconst base = j + i * points.length;\n\n\t\t\t\tconst a = base;\n\t\t\t\tconst b = base + points.length;\n\t\t\t\tconst c = base + points.length + 1;\n\t\t\t\tconst d = base + 1;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( c, d, b );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {LatheGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new LatheGeometry( data.points, data.segments, data.phiStart, data.phiLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing an octahedron.\n *\n * ```js\n * const geometry = new THREE.OctahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const octahedron = new THREE.Mesh( geometry, material );\n * scene.add( octahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass OctahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new octahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the octahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a octahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst vertices = [\n\t\t\t1, 0, 0, \t-1, 0, 0,\t0, 1, 0,\n\t\t\t0, -1, 0, \t0, 0, 1,\t0, 0, -1\n\t\t];\n\n\t\tconst indices = [\n\t\t\t0, 2, 4,\t0, 4, 3,\t0, 3, 5,\n\t\t\t0, 5, 2,\t1, 2, 5,\t1, 5, 3,\n\t\t\t1, 3, 4,\t1, 4, 2\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'OctahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {OctahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new OctahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a plane.\n *\n * ```js\n * const geometry = new THREE.PlaneGeometry( 1, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00, side: THREE.DoubleSide } );\n * const plane = new THREE.Mesh( geometry, material );\n * scene.add( plane );\n * ```\n *\n * @augments BufferGeometry\n */\nclass PlaneGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new plane geometry.\n\t *\n\t * @param {number} [width=1] - The width along the X axis.\n\t * @param {number} [height=1] - The height along the Y axis\n\t * @param {number} [widthSegments=1] - The number of segments along the X axis.\n\t * @param {number} [heightSegments=1] - The number of segments along the Y axis.\n\t */\n\tconstructor( width = 1, height = 1, widthSegments = 1, heightSegments = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'PlaneGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\twidth: width,\n\t\t\theight: height,\n\t\t\twidthSegments: widthSegments,\n\t\t\theightSegments: heightSegments\n\t\t};\n\n\t\tconst width_half = width / 2;\n\t\tconst height_half = height / 2;\n\n\t\tconst gridX = Math.floor( widthSegments );\n\t\tconst gridY = Math.floor( heightSegments );\n\n\t\tconst gridX1 = gridX + 1;\n\t\tconst gridY1 = gridY + 1;\n\n\t\tconst segment_width = width / gridX;\n\t\tconst segment_height = height / gridY;\n\n\t\t//\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\tfor ( let iy = 0; iy < gridY1; iy ++ ) {\n\n\t\t\tconst y = iy * segment_height - height_half;\n\n\t\t\tfor ( let ix = 0; ix < gridX1; ix ++ ) {\n\n\t\t\t\tconst x = ix * segment_width - width_half;\n\n\t\t\t\tvertices.push( x, - y, 0 );\n\n\t\t\t\tnormals.push( 0, 0, 1 );\n\n\t\t\t\tuvs.push( ix / gridX );\n\t\t\t\tuvs.push( 1 - ( iy / gridY ) );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfor ( let iy = 0; iy < gridY; iy ++ ) {\n\n\t\t\tfor ( let ix = 0; ix < gridX; ix ++ ) {\n\n\t\t\t\tconst a = ix + gridX1 * iy;\n\t\t\t\tconst b = ix + gridX1 * ( iy + 1 );\n\t\t\t\tconst c = ( ix + 1 ) + gridX1 * ( iy + 1 );\n\t\t\t\tconst d = ( ix + 1 ) + gridX1 * iy;\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {PlaneGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new PlaneGeometry( data.width, data.height, data.widthSegments, data.heightSegments );\n\n\t}\n\n}\n\n/**\n * A class for generating a two-dimensional ring geometry.\n *\n * ```js\n * const geometry = new THREE.RingGeometry( 1, 5, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00, side: THREE.DoubleSide } );\n * const mesh = new THREE.Mesh( geometry, material );\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass RingGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new ring geometry.\n\t *\n\t * @param {number} [innerRadius=0.5] - The inner radius of the ring.\n\t * @param {number} [outerRadius=1] - The outer radius of the ring.\n\t * @param {number} [thetaSegments=32] - Number of segments. A higher number means the ring will be more round. Minimum is `3`.\n\t * @param {number} [phiSegments=1] - Number of segments per ring segment. Minimum is `1`.\n\t * @param {number} [thetaStart=0] - Starting angle in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - Central angle in radians.\n\t */\n\tconstructor( innerRadius = 0.5, outerRadius = 1, thetaSegments = 32, phiSegments = 1, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'RingGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tinnerRadius: innerRadius,\n\t\t\touterRadius: outerRadius,\n\t\t\tthetaSegments: thetaSegments,\n\t\t\tphiSegments: phiSegments,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\tthetaSegments = Math.max( 3, thetaSegments );\n\t\tphiSegments = Math.max( 1, phiSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// some helper variables\n\n\t\tlet radius = innerRadius;\n\t\tconst radiusStep = ( ( outerRadius - innerRadius ) / phiSegments );\n\t\tconst vertex = new Vector3();\n\t\tconst uv = new Vector2();\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let j = 0; j <= phiSegments; j ++ ) {\n\n\t\t\tfor ( let i = 0; i <= thetaSegments; i ++ ) {\n\n\t\t\t\t// values are generate from the inside of the ring to the outside\n\n\t\t\t\tconst segment = thetaStart + i / thetaSegments * thetaLength;\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = radius * Math.cos( segment );\n\t\t\t\tvertex.y = radius * Math.sin( segment );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormals.push( 0, 0, 1 );\n\n\t\t\t\t// uv\n\n\t\t\t\tuv.x = ( vertex.x / outerRadius + 1 ) / 2;\n\t\t\t\tuv.y = ( vertex.y / outerRadius + 1 ) / 2;\n\n\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t}\n\n\t\t\t// increase the radius for next row of vertices\n\n\t\t\tradius += radiusStep;\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let j = 0; j < phiSegments; j ++ ) {\n\n\t\t\tconst thetaSegmentLevel = j * ( thetaSegments + 1 );\n\n\t\t\tfor ( let i = 0; i < thetaSegments; i ++ ) {\n\n\t\t\t\tconst segment = i + thetaSegmentLevel;\n\n\t\t\t\tconst a = segment;\n\t\t\t\tconst b = segment + thetaSegments + 1;\n\t\t\t\tconst c = segment + thetaSegments + 2;\n\t\t\t\tconst d = segment + 1;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {RingGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new RingGeometry( data.innerRadius, data.outerRadius, data.thetaSegments, data.phiSegments, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * Creates an one-sided polygonal geometry from one or more path shapes.\n *\n * ```js\n * const arcShape = new THREE.Shape()\n *\t.moveTo( 5, 1 )\n *\t.absarc( 1, 1, 4, 0, Math.PI * 2, false );\n *\n * const geometry = new THREE.ShapeGeometry( arcShape );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00, side: THREE.DoubleSide } );\n * const mesh = new THREE.Mesh( geometry, material ) ;\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass ShapeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new shape geometry.\n\t *\n\t * @param {Shape|Array} [shapes] - A shape or an array of shapes.\n\t * @param {number} [curveSegments=12] - Number of segments per shape.\n\t */\n\tconstructor( shapes = new Shape( [ new Vector2( 0, 0.5 ), new Vector2( -0.5, -0.5 ), new Vector2( 0.5, -0.5 ) ] ), curveSegments = 12 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'ShapeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tshapes: shapes,\n\t\t\tcurveSegments: curveSegments\n\t\t};\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tlet groupStart = 0;\n\t\tlet groupCount = 0;\n\n\t\t// allow single and array values for \"shapes\" parameter\n\n\t\tif ( Array.isArray( shapes ) === false ) {\n\n\t\t\taddShape( shapes );\n\n\t\t} else {\n\n\t\t\tfor ( let i = 0; i < shapes.length; i ++ ) {\n\n\t\t\t\taddShape( shapes[ i ] );\n\n\t\t\t\tthis.addGroup( groupStart, groupCount, i ); // enables MultiMaterial support\n\n\t\t\t\tgroupStart += groupCount;\n\t\t\t\tgroupCount = 0;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\n\t\t// helper functions\n\n\t\tfunction addShape( shape ) {\n\n\t\t\tconst indexOffset = vertices.length / 3;\n\t\t\tconst points = shape.extractPoints( curveSegments );\n\n\t\t\tlet shapeVertices = points.shape;\n\t\t\tconst shapeHoles = points.holes;\n\n\t\t\t// check direction of vertices\n\n\t\t\tif ( ShapeUtils.isClockWise( shapeVertices ) === false ) {\n\n\t\t\t\tshapeVertices = shapeVertices.reverse();\n\n\t\t\t}\n\n\t\t\tfor ( let i = 0, l = shapeHoles.length; i < l; i ++ ) {\n\n\t\t\t\tconst shapeHole = shapeHoles[ i ];\n\n\t\t\t\tif ( ShapeUtils.isClockWise( shapeHole ) === true ) {\n\n\t\t\t\t\tshapeHoles[ i ] = shapeHole.reverse();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tconst faces = ShapeUtils.triangulateShape( shapeVertices, shapeHoles );\n\n\t\t\t// join vertices of inner and outer paths to a single array\n\n\t\t\tfor ( let i = 0, l = shapeHoles.length; i < l; i ++ ) {\n\n\t\t\t\tconst shapeHole = shapeHoles[ i ];\n\t\t\t\tshapeVertices = shapeVertices.concat( shapeHole );\n\n\t\t\t}\n\n\t\t\t// vertices, normals, uvs\n\n\t\t\tfor ( let i = 0, l = shapeVertices.length; i < l; i ++ ) {\n\n\t\t\t\tconst vertex = shapeVertices[ i ];\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, 0 );\n\t\t\t\tnormals.push( 0, 0, 1 );\n\t\t\t\tuvs.push( vertex.x, vertex.y ); // world uvs\n\n\t\t\t}\n\n\t\t\t// indices\n\n\t\t\tfor ( let i = 0, l = faces.length; i < l; i ++ ) {\n\n\t\t\t\tconst face = faces[ i ];\n\n\t\t\t\tconst a = face[ 0 ] + indexOffset;\n\t\t\t\tconst b = face[ 1 ] + indexOffset;\n\t\t\t\tconst c = face[ 2 ] + indexOffset;\n\n\t\t\t\tindices.push( a, b, c );\n\t\t\t\tgroupCount += 3;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tconst shapes = this.parameters.shapes;\n\n\t\treturn toJSON( shapes, data );\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @param {Array} shapes - An array of shapes.\n\t * @return {ShapeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data, shapes ) {\n\n\t\tconst geometryShapes = [];\n\n\t\tfor ( let j = 0, jl = data.shapes.length; j < jl; j ++ ) {\n\n\t\t\tconst shape = shapes[ data.shapes[ j ] ];\n\n\t\t\tgeometryShapes.push( shape );\n\n\t\t}\n\n\t\treturn new ShapeGeometry( geometryShapes, data.curveSegments );\n\n\t}\n\n}\n\nfunction toJSON( shapes, data ) {\n\n\tdata.shapes = [];\n\n\tif ( Array.isArray( shapes ) ) {\n\n\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\tconst shape = shapes[ i ];\n\n\t\t\tdata.shapes.push( shape.uuid );\n\n\t\t}\n\n\t} else {\n\n\t\tdata.shapes.push( shapes.uuid );\n\n\t}\n\n\treturn data;\n\n}\n\n/**\n * A class for generating a sphere geometry.\n *\n * ```js\n * const geometry = new THREE.SphereGeometry( 15, 32, 16 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const sphere = new THREE.Mesh( geometry, material );\n * scene.add( sphere );\n * ```\n *\n * @augments BufferGeometry\n */\nclass SphereGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new sphere geometry.\n\t *\n\t * @param {number} [radius=1] - The sphere radius.\n\t * @param {number} [widthSegments=32] - The number of horizontal segments. Minimum value is `3`.\n\t * @param {number} [heightSegments=16] - The number of vertical segments. Minimum value is `2`.\n\t * @param {number} [phiStart=0] - The horizontal starting angle in radians.\n\t * @param {number} [phiLength=Math.PI*2] - The horizontal sweep angle size.\n\t * @param {number} [thetaStart=0] - The vertical starting angle in radians.\n\t * @param {number} [thetaLength=Math.PI] - The vertical sweep angle size.\n\t */\n\tconstructor( radius = 1, widthSegments = 32, heightSegments = 16, phiStart = 0, phiLength = Math.PI * 2, thetaStart = 0, thetaLength = Math.PI ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'SphereGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\twidthSegments: widthSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\tphiStart: phiStart,\n\t\t\tphiLength: phiLength,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\twidthSegments = Math.max( 3, Math.floor( widthSegments ) );\n\t\theightSegments = Math.max( 2, Math.floor( heightSegments ) );\n\n\t\tconst thetaEnd = Math.min( thetaStart + thetaLength, Math.PI );\n\n\t\tlet index = 0;\n\t\tconst grid = [];\n\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let iy = 0; iy <= heightSegments; iy ++ ) {\n\n\t\t\tconst verticesRow = [];\n\n\t\t\tconst v = iy / heightSegments;\n\n\t\t\t// special case for the poles\n\n\t\t\tlet uOffset = 0;\n\n\t\t\tif ( iy === 0 && thetaStart === 0 ) {\n\n\t\t\t\tuOffset = 0.5 / widthSegments;\n\n\t\t\t} else if ( iy === heightSegments && thetaEnd === Math.PI ) {\n\n\t\t\t\tuOffset = -0.5 / widthSegments;\n\n\t\t\t}\n\n\t\t\tfor ( let ix = 0; ix <= widthSegments; ix ++ ) {\n\n\t\t\t\tconst u = ix / widthSegments;\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = - radius * Math.cos( phiStart + u * phiLength ) * Math.sin( thetaStart + v * thetaLength );\n\t\t\t\tvertex.y = radius * Math.cos( thetaStart + v * thetaLength );\n\t\t\t\tvertex.z = radius * Math.sin( phiStart + u * phiLength ) * Math.sin( thetaStart + v * thetaLength );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormal.copy( vertex ).normalize();\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( u + uOffset, 1 - v );\n\n\t\t\t\tverticesRow.push( index ++ );\n\n\t\t\t}\n\n\t\t\tgrid.push( verticesRow );\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let iy = 0; iy < heightSegments; iy ++ ) {\n\n\t\t\tfor ( let ix = 0; ix < widthSegments; ix ++ ) {\n\n\t\t\t\tconst a = grid[ iy ][ ix + 1 ];\n\t\t\t\tconst b = grid[ iy ][ ix ];\n\t\t\t\tconst c = grid[ iy + 1 ][ ix ];\n\t\t\t\tconst d = grid[ iy + 1 ][ ix + 1 ];\n\n\t\t\t\tif ( iy !== 0 || thetaStart > 0 ) indices.push( a, b, d );\n\t\t\t\tif ( iy !== heightSegments - 1 || thetaEnd < Math.PI ) indices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {SphereGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new SphereGeometry( data.radius, data.widthSegments, data.heightSegments, data.phiStart, data.phiLength, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing an tetrahedron.\n *\n * ```js\n * const geometry = new THREE.TetrahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const tetrahedron = new THREE.Mesh( geometry, material );\n * scene.add( tetrahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass TetrahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new tetrahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the tetrahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a tetrahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst vertices = [\n\t\t\t1, 1, 1, \t-1, -1, 1, \t-1, 1, -1, \t1, -1, -1\n\t\t];\n\n\t\tconst indices = [\n\t\t\t2, 1, 0, \t0, 3, 2,\t1, 3, 0,\t2, 3, 1\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'TetrahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TetrahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new TetrahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing an torus.\n *\n * ```js\n * const geometry = new THREE.TorusGeometry( 10, 3, 16, 100 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const torus = new THREE.Mesh( geometry, material );\n * scene.add( torus );\n * ```\n *\n * @augments BufferGeometry\n */\nclass TorusGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new torus geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the torus, from the center of the torus to the center of the tube.\n\t * @param {number} [tube=0.4] - Radius of the tube. Must be smaller than `radius`.\n\t * @param {number} [radialSegments=12] - The number of radial segments.\n\t * @param {number} [tubularSegments=48] - The number of tubular segments.\n\t * @param {number} [arc=Math.PI*2] - Central angle in radians.\n\t */\n\tconstructor( radius = 1, tube = 0.4, radialSegments = 12, tubularSegments = 48, arc = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'TorusGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\ttube: tube,\n\t\t\tradialSegments: radialSegments,\n\t\t\ttubularSegments: tubularSegments,\n\t\t\tarc: arc\n\t\t};\n\n\t\tradialSegments = Math.floor( radialSegments );\n\t\ttubularSegments = Math.floor( tubularSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst center = new Vector3();\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let j = 0; j <= radialSegments; j ++ ) {\n\n\t\t\tfor ( let i = 0; i <= tubularSegments; i ++ ) {\n\n\t\t\t\tconst u = i / tubularSegments * arc;\n\t\t\t\tconst v = j / radialSegments * Math.PI * 2;\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = ( radius + tube * Math.cos( v ) ) * Math.cos( u );\n\t\t\t\tvertex.y = ( radius + tube * Math.cos( v ) ) * Math.sin( u );\n\t\t\t\tvertex.z = tube * Math.sin( v );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tcenter.x = radius * Math.cos( u );\n\t\t\t\tcenter.y = radius * Math.sin( u );\n\t\t\t\tnormal.subVectors( vertex, center ).normalize();\n\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( i / tubularSegments );\n\t\t\t\tuvs.push( j / radialSegments );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// generate indices\n\n\t\tfor ( let j = 1; j <= radialSegments; j ++ ) {\n\n\t\t\tfor ( let i = 1; i <= tubularSegments; i ++ ) {\n\n\t\t\t\t// indices\n\n\t\t\t\tconst a = ( tubularSegments + 1 ) * j + i - 1;\n\t\t\t\tconst b = ( tubularSegments + 1 ) * ( j - 1 ) + i - 1;\n\t\t\t\tconst c = ( tubularSegments + 1 ) * ( j - 1 ) + i;\n\t\t\t\tconst d = ( tubularSegments + 1 ) * j + i;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TorusGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new TorusGeometry( data.radius, data.tube, data.radialSegments, data.tubularSegments, data.arc );\n\n\t}\n\n}\n\n/**\n * Creates a torus knot, the particular shape of which is defined by a pair\n * of coprime integers, p and q. If p and q are not coprime, the result will\n * be a torus link.\n *\n * ```js\n * const geometry = new THREE.TorusKnotGeometry( 10, 3, 100, 16 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const torusKnot = new THREE.Mesh( geometry, material );\n * scene.add( torusKnot );\n * ```\n *\n * @augments BufferGeometry\n */\nclass TorusKnotGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new torus knot geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the torus knot.\n\t * @param {number} [tube=0.4] - Radius of the tube.\n\t * @param {number} [tubularSegments=64] - The number of tubular segments.\n\t * @param {number} [radialSegments=8] - The number of radial segments.\n\t * @param {number} [p=2] - This value determines, how many times the geometry winds around its axis of rotational symmetry.\n\t * @param {number} [q=3] - This value determines, how many times the geometry winds around a circle in the interior of the torus.\n\t */\n\tconstructor( radius = 1, tube = 0.4, tubularSegments = 64, radialSegments = 8, p = 2, q = 3 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'TorusKnotGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\ttube: tube,\n\t\t\ttubularSegments: tubularSegments,\n\t\t\tradialSegments: radialSegments,\n\t\t\tp: p,\n\t\t\tq: q\n\t\t};\n\n\t\ttubularSegments = Math.floor( tubularSegments );\n\t\tradialSegments = Math.floor( radialSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\n\t\tconst P1 = new Vector3();\n\t\tconst P2 = new Vector3();\n\n\t\tconst B = new Vector3();\n\t\tconst T = new Vector3();\n\t\tconst N = new Vector3();\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let i = 0; i <= tubularSegments; ++ i ) {\n\n\t\t\t// the radian \"u\" is used to calculate the position on the torus curve of the current tubular segment\n\n\t\t\tconst u = i / tubularSegments * p * Math.PI * 2;\n\n\t\t\t// now we calculate two points. P1 is our current position on the curve, P2 is a little farther ahead.\n\t\t\t// these points are used to create a special \"coordinate space\", which is necessary to calculate the correct vertex positions\n\n\t\t\tcalculatePositionOnCurve( u, p, q, radius, P1 );\n\t\t\tcalculatePositionOnCurve( u + 0.01, p, q, radius, P2 );\n\n\t\t\t// calculate orthonormal basis\n\n\t\t\tT.subVectors( P2, P1 );\n\t\t\tN.addVectors( P2, P1 );\n\t\t\tB.crossVectors( T, N );\n\t\t\tN.crossVectors( B, T );\n\n\t\t\t// normalize B, N. T can be ignored, we don't use it\n\n\t\t\tB.normalize();\n\t\t\tN.normalize();\n\n\t\t\tfor ( let j = 0; j <= radialSegments; ++ j ) {\n\n\t\t\t\t// now calculate the vertices. they are nothing more than an extrusion of the torus curve.\n\t\t\t\t// because we extrude a shape in the xy-plane, there is no need to calculate a z-value.\n\n\t\t\t\tconst v = j / radialSegments * Math.PI * 2;\n\t\t\t\tconst cx = - tube * Math.cos( v );\n\t\t\t\tconst cy = tube * Math.sin( v );\n\n\t\t\t\t// now calculate the final vertex position.\n\t\t\t\t// first we orient the extrusion with our basis vectors, then we add it to the current position on the curve\n\n\t\t\t\tvertex.x = P1.x + ( cx * N.x + cy * B.x );\n\t\t\t\tvertex.y = P1.y + ( cx * N.y + cy * B.y );\n\t\t\t\tvertex.z = P1.z + ( cx * N.z + cy * B.z );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal (P1 is always the center/origin of the extrusion, thus we can use it to calculate the normal)\n\n\t\t\t\tnormal.subVectors( vertex, P1 ).normalize();\n\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( i / tubularSegments );\n\t\t\t\tuvs.push( j / radialSegments );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// generate indices\n\n\t\tfor ( let j = 1; j <= tubularSegments; j ++ ) {\n\n\t\t\tfor ( let i = 1; i <= radialSegments; i ++ ) {\n\n\t\t\t\t// indices\n\n\t\t\t\tconst a = ( radialSegments + 1 ) * ( j - 1 ) + ( i - 1 );\n\t\t\t\tconst b = ( radialSegments + 1 ) * j + ( i - 1 );\n\t\t\t\tconst c = ( radialSegments + 1 ) * j + i;\n\t\t\t\tconst d = ( radialSegments + 1 ) * ( j - 1 ) + i;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\t// this function calculates the current position on the torus curve\n\n\t\tfunction calculatePositionOnCurve( u, p, q, radius, position ) {\n\n\t\t\tconst cu = Math.cos( u );\n\t\t\tconst su = Math.sin( u );\n\t\t\tconst quOverP = q / p * u;\n\t\t\tconst cs = Math.cos( quOverP );\n\n\t\t\tposition.x = radius * ( 2 + cs ) * 0.5 * cu;\n\t\t\tposition.y = radius * ( 2 + cs ) * su * 0.5;\n\t\t\tposition.z = radius * Math.sin( quOverP ) * 0.5;\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TorusKnotGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new TorusKnotGeometry( data.radius, data.tube, data.tubularSegments, data.radialSegments, data.p, data.q );\n\n\t}\n\n}\n\n/**\n * Creates a tube that extrudes along a 3D curve.\n *\n * ```js\n * class CustomSinCurve extends THREE.Curve {\n *\n * \tgetPoint( t, optionalTarget = new THREE.Vector3() ) {\n *\n * \t\tconst tx = t * 3 - 1.5;\n * \t\tconst ty = Math.sin( 2 * Math.PI * t );\n * \t\tconst tz = 0;\n *\n * \t\treturn optionalTarget.set( tx, ty, tz );\n * \t}\n *\n * }\n *\n * const path = new CustomSinCurve( 10 );\n * const geometry = new THREE.TubeGeometry( path, 20, 2, 8, false );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const mesh = new THREE.Mesh( geometry, material );\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass TubeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new tube geometry.\n\t *\n\t * @param {Curve} [path=QuadraticBezierCurve3] - A 3D curve defining the path of the tube.\n\t * @param {number} [tubularSegments=64] - The number of segments that make up the tube.\n\t * @param {number} [radius=1] -The radius of the tube.\n\t * @param {number} [radialSegments=8] - The number of segments that make up the cross-section.\n\t * @param {boolean} [closed=false] - Whether the tube is closed or not.\n\t */\n\tconstructor( path = new QuadraticBezierCurve3( new Vector3( -1, -1, 0 ), new Vector3( -1, 1, 0 ), new Vector3( 1, 1, 0 ) ), tubularSegments = 64, radius = 1, radialSegments = 8, closed = false ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'TubeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tpath: path,\n\t\t\ttubularSegments: tubularSegments,\n\t\t\tradius: radius,\n\t\t\tradialSegments: radialSegments,\n\t\t\tclosed: closed\n\t\t};\n\n\t\tconst frames = path.computeFrenetFrames( tubularSegments, closed );\n\n\t\t// expose internals\n\n\t\tthis.tangents = frames.tangents;\n\t\tthis.normals = frames.normals;\n\t\tthis.binormals = frames.binormals;\n\n\t\t// helper variables\n\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\t\tconst uv = new Vector2();\n\t\tlet P = new Vector3();\n\n\t\t// buffer\n\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\t\tconst indices = [];\n\n\t\t// create buffer data\n\n\t\tgenerateBufferData();\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\t// functions\n\n\t\tfunction generateBufferData() {\n\n\t\t\tfor ( let i = 0; i < tubularSegments; i ++ ) {\n\n\t\t\t\tgenerateSegment( i );\n\n\t\t\t}\n\n\t\t\t// if the geometry is not closed, generate the last row of vertices and normals\n\t\t\t// at the regular position on the given path\n\t\t\t//\n\t\t\t// if the geometry is closed, duplicate the first row of vertices and normals (uvs will differ)\n\n\t\t\tgenerateSegment( ( closed === false ) ? tubularSegments : 0 );\n\n\t\t\t// uvs are generated in a separate function.\n\t\t\t// this makes it easy compute correct values for closed geometries\n\n\t\t\tgenerateUVs();\n\n\t\t\t// finally create faces\n\n\t\t\tgenerateIndices();\n\n\t\t}\n\n\t\tfunction generateSegment( i ) {\n\n\t\t\t// we use getPointAt to sample evenly distributed points from the given path\n\n\t\t\tP = path.getPointAt( i / tubularSegments, P );\n\n\t\t\t// retrieve corresponding normal and binormal\n\n\t\t\tconst N = frames.normals[ i ];\n\t\t\tconst B = frames.binormals[ i ];\n\n\t\t\t// generate normals and vertices for the current segment\n\n\t\t\tfor ( let j = 0; j <= radialSegments; j ++ ) {\n\n\t\t\t\tconst v = j / radialSegments * Math.PI * 2;\n\n\t\t\t\tconst sin = Math.sin( v );\n\t\t\t\tconst cos = - Math.cos( v );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormal.x = ( cos * N.x + sin * B.x );\n\t\t\t\tnormal.y = ( cos * N.y + sin * B.y );\n\t\t\t\tnormal.z = ( cos * N.z + sin * B.z );\n\t\t\t\tnormal.normalize();\n\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = P.x + radius * normal.x;\n\t\t\t\tvertex.y = P.y + radius * normal.y;\n\t\t\t\tvertex.z = P.z + radius * normal.z;\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction generateIndices() {\n\n\t\t\tfor ( let j = 1; j <= tubularSegments; j ++ ) {\n\n\t\t\t\tfor ( let i = 1; i <= radialSegments; i ++ ) {\n\n\t\t\t\t\tconst a = ( radialSegments + 1 ) * ( j - 1 ) + ( i - 1 );\n\t\t\t\t\tconst b = ( radialSegments + 1 ) * j + ( i - 1 );\n\t\t\t\t\tconst c = ( radialSegments + 1 ) * j + i;\n\t\t\t\t\tconst d = ( radialSegments + 1 ) * ( j - 1 ) + i;\n\n\t\t\t\t\t// faces\n\n\t\t\t\t\tindices.push( a, b, d );\n\t\t\t\t\tindices.push( b, c, d );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction generateUVs() {\n\n\t\t\tfor ( let i = 0; i <= tubularSegments; i ++ ) {\n\n\t\t\t\tfor ( let j = 0; j <= radialSegments; j ++ ) {\n\n\t\t\t\t\tuv.x = i / tubularSegments;\n\t\t\t\t\tuv.y = j / radialSegments;\n\n\t\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.path = this.parameters.path.toJSON();\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TubeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\t// This only works for built-in curves (e.g. CatmullRomCurve3).\n\t\t// User defined curves or instances of CurvePath will not be deserialized.\n\t\treturn new TubeGeometry(\n\t\t\tnew Curves[ data.path.type ]().fromJSON( data.path ),\n\t\t\tdata.tubularSegments,\n\t\t\tdata.radius,\n\t\t\tdata.radialSegments,\n\t\t\tdata.closed\n\t\t);\n\n\t}\n\n}\n\n/**\n * Can be used as a helper object to visualize a geometry as a wireframe.\n *\n * ```js\n * const geometry = new THREE.SphereGeometry();\n *\n * const wireframe = new THREE.WireframeGeometry( geometry );\n *\n * const line = new THREE.LineSegments( wireframe );\n * line.material.depthWrite = false;\n * line.material.opacity = 0.25;\n * line.material.transparent = true;\n *\n * scene.add( line );\n * ```\n *\n * Note: It is not yet possible to serialize/deserialize instances of this class.\n *\n * @augments BufferGeometry\n */\nclass WireframeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new wireframe geometry.\n\t *\n\t * @param {?BufferGeometry} [geometry=null] - The geometry.\n\t */\n\tconstructor( geometry = null ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'WireframeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tgeometry: geometry\n\t\t};\n\n\t\tif ( geometry !== null ) {\n\n\t\t\t// buffer\n\n\t\t\tconst vertices = [];\n\t\t\tconst edges = new Set();\n\n\t\t\t// helper variables\n\n\t\t\tconst start = new Vector3();\n\t\t\tconst end = new Vector3();\n\n\t\t\tif ( geometry.index !== null ) {\n\n\t\t\t\t// indexed BufferGeometry\n\n\t\t\t\tconst position = geometry.attributes.position;\n\t\t\t\tconst indices = geometry.index;\n\t\t\t\tlet groups = geometry.groups;\n\n\t\t\t\tif ( groups.length === 0 ) {\n\n\t\t\t\t\tgroups = [ { start: 0, count: indices.count, materialIndex: 0 } ];\n\n\t\t\t\t}\n\n\t\t\t\t// create a data structure that contains all edges without duplicates\n\n\t\t\t\tfor ( let o = 0, ol = groups.length; o < ol; ++ o ) {\n\n\t\t\t\t\tconst group = groups[ o ];\n\n\t\t\t\t\tconst groupStart = group.start;\n\t\t\t\t\tconst groupCount = group.count;\n\n\t\t\t\t\tfor ( let i = groupStart, l = ( groupStart + groupCount ); i < l; i += 3 ) {\n\n\t\t\t\t\t\tfor ( let j = 0; j < 3; j ++ ) {\n\n\t\t\t\t\t\t\tconst index1 = indices.getX( i + j );\n\t\t\t\t\t\t\tconst index2 = indices.getX( i + ( j + 1 ) % 3 );\n\n\t\t\t\t\t\t\tstart.fromBufferAttribute( position, index1 );\n\t\t\t\t\t\t\tend.fromBufferAttribute( position, index2 );\n\n\t\t\t\t\t\t\tif ( isUniqueEdge( start, end, edges ) === true ) {\n\n\t\t\t\t\t\t\t\tvertices.push( start.x, start.y, start.z );\n\t\t\t\t\t\t\t\tvertices.push( end.x, end.y, end.z );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// non-indexed BufferGeometry\n\n\t\t\t\tconst position = geometry.attributes.position;\n\n\t\t\t\tfor ( let i = 0, l = ( position.count / 3 ); i < l; i ++ ) {\n\n\t\t\t\t\tfor ( let j = 0; j < 3; j ++ ) {\n\n\t\t\t\t\t\t// three edges per triangle, an edge is represented as (index1, index2)\n\t\t\t\t\t\t// e.g. the first triangle has the following edges: (0,1),(1,2),(2,0)\n\n\t\t\t\t\t\tconst index1 = 3 * i + j;\n\t\t\t\t\t\tconst index2 = 3 * i + ( ( j + 1 ) % 3 );\n\n\t\t\t\t\t\tstart.fromBufferAttribute( position, index1 );\n\t\t\t\t\t\tend.fromBufferAttribute( position, index2 );\n\n\t\t\t\t\t\tif ( isUniqueEdge( start, end, edges ) === true ) {\n\n\t\t\t\t\t\t\tvertices.push( start.x, start.y, start.z );\n\t\t\t\t\t\t\tvertices.push( end.x, end.y, end.z );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// build geometry\n\n\t\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n}\n\nfunction isUniqueEdge( start, end, edges ) {\n\n\tconst hash1 = `${start.x},${start.y},${start.z}-${end.x},${end.y},${end.z}`;\n\tconst hash2 = `${end.x},${end.y},${end.z}-${start.x},${start.y},${start.z}`; // coincident edge\n\n\tif ( edges.has( hash1 ) === true || edges.has( hash2 ) === true ) {\n\n\t\treturn false;\n\n\t} else {\n\n\t\tedges.add( hash1 );\n\t\tedges.add( hash2 );\n\t\treturn true;\n\n\t}\n\n}\n\nvar Geometries = /*#__PURE__*/Object.freeze({\n\t__proto__: null,\n\tBoxGeometry: BoxGeometry,\n\tCapsuleGeometry: CapsuleGeometry,\n\tCircleGeometry: CircleGeometry,\n\tConeGeometry: ConeGeometry,\n\tCylinderGeometry: CylinderGeometry,\n\tDodecahedronGeometry: DodecahedronGeometry,\n\tEdgesGeometry: EdgesGeometry,\n\tExtrudeGeometry: ExtrudeGeometry,\n\tIcosahedronGeometry: IcosahedronGeometry,\n\tLatheGeometry: LatheGeometry,\n\tOctahedronGeometry: OctahedronGeometry,\n\tPlaneGeometry: PlaneGeometry,\n\tPolyhedronGeometry: PolyhedronGeometry,\n\tRingGeometry: RingGeometry,\n\tShapeGeometry: ShapeGeometry,\n\tSphereGeometry: SphereGeometry,\n\tTetrahedronGeometry: TetrahedronGeometry,\n\tTorusGeometry: TorusGeometry,\n\tTorusKnotGeometry: TorusKnotGeometry,\n\tTubeGeometry: TubeGeometry,\n\tWireframeGeometry: WireframeGeometry\n});\n\n/**\n * This material can receive shadows, but otherwise is completely transparent.\n *\n * ```js\n * const geometry = new THREE.PlaneGeometry( 2000, 2000 );\n * geometry.rotateX( - Math.PI / 2 );\n *\n * const material = new THREE.ShadowMaterial();\n * material.opacity = 0.2;\n *\n * const plane = new THREE.Mesh( geometry, material );\n * plane.position.y = -200;\n * plane.receiveShadow = true;\n * scene.add( plane );\n * ```\n *\n * @augments Material\n */\nclass ShadowMaterial extends Material {\n\n\t/**\n\t * Constructs a new shadow material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isShadowMaterial = true;\n\n\t\tthis.type = 'ShadowMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.color = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Overwritten since shadow materials are transparent\n\t\t * by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.transparent = true;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This class works just like {@link ShaderMaterial}, except that definitions\n * of built-in uniforms and attributes are not automatically prepended to the\n * GLSL shader code.\n *\n * `RawShaderMaterial` can only be used with {@link WebGLRenderer}.\n *\n * @augments ShaderMaterial\n */\nclass RawShaderMaterial extends ShaderMaterial {\n\n\t/**\n\t * Constructs a new raw shader material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper( parameters );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRawShaderMaterial = true;\n\n\t\tthis.type = 'RawShaderMaterial';\n\n\t}\n\n}\n\n/**\n * A standard physically based material, using Metallic-Roughness workflow.\n *\n * Physically based rendering (PBR) has recently become the standard in many\n * 3D applications, such as [Unity]{@link https://blogs.unity3d.com/2014/10/29/physically-based-shading-in-unity-5-a-primer/},\n * [Unreal]{@link https://docs.unrealengine.com/latest/INT/Engine/Rendering/Materials/PhysicallyBased/} and\n * [3D Studio Max]{@link http://area.autodesk.com/blogs/the-3ds-max-blog/what039s-new-for-rendering-in-3ds-max-2017}.\n *\n * This approach differs from older approaches in that instead of using\n * approximations for the way in which light interacts with a surface, a\n * physically correct model is used. The idea is that, instead of tweaking\n * materials to look good under specific lighting, a material can be created\n * that will react 'correctly' under all lighting scenarios.\n *\n * In practice this gives a more accurate and realistic looking result than\n * the {@link MeshLambertMaterial} or {@link MeshPhongMaterial}, at the cost of\n * being somewhat more computationally expensive. `MeshStandardMaterial` uses per-fragment\n * shading.\n *\n * Note that for best results you should always specify an environment map when using this material.\n *\n * For a non-technical introduction to the concept of PBR and how to set up a\n * PBR material, check out these articles by the people at [marmoset]{@link https://www.marmoset.co}:\n *\n * - [Basic Theory of Physically Based Rendering]{@link https://www.marmoset.co/posts/basic-theory-of-physically-based-rendering/}\n * - [Physically Based Rendering and You Can Too]{@link https://www.marmoset.co/posts/physically-based-rendering-and-you-can-too/}\n *\n * Technical details of the approach used in three.js (and most other PBR systems) can be found is this\n * [paper from Disney]{@link https://media.disneyanimation.com/uploads/production/publication_asset/48/asset/s2012_pbs_disney_brdf_notes_v3.pdf}\n * (pdf), by Brent Burley.\n *\n * @augments Material\n */\nclass MeshStandardMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh standard material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshStandardMaterial = true;\n\n\t\tthis.type = 'MeshStandardMaterial';\n\n\t\tthis.defines = { 'STANDARD': '' };\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * How rough the material appears. `0.0` means a smooth mirror reflection, `1.0`\n\t\t * means fully diffuse. If `roughnessMap` is also provided,\n\t\t * both values are multiplied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.roughness = 1.0;\n\n\t\t/**\n\t\t * How much the material is like a metal. Non-metallic materials such as wood\n\t\t * or stone use `0.0`, metallic use `1.0`, with nothing (usually) in between.\n\t\t * A value between `0.0` and `1.0` could be used for a rusty metal look.\n\t\t * If `metalnessMap` is also provided, both values are multiplied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.metalness = 0.0;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The green channel of this texture is used to alter the roughness of the\n\t\t * material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.roughnessMap = null;\n\n\t\t/**\n\t\t * The blue channel of this texture is used to alter the metalness of the\n\t\t * material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.metalnessMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map. To ensure a physically correct rendering, environment maps\n\t\t * are internally pre-processed with {@link PMREMGenerator}.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * Scales the effect of the environment map by multiplying its color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.envMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.defines = { 'STANDARD': '' };\n\n\t\tthis.color.copy( source.color );\n\t\tthis.roughness = source.roughness;\n\t\tthis.metalness = source.metalness;\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.roughnessMap = source.roughnessMap;\n\n\t\tthis.metalnessMap = source.metalnessMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.envMapIntensity = source.envMapIntensity;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * An extension of the {@link MeshStandardMaterial}, providing more advanced\n * physically-based rendering properties:\n *\n * - Anisotropy: Ability to represent the anisotropic property of materials\n * as observable with brushed metals.\n * - Clearcoat: Some materials — like car paints, carbon fiber, and wet surfaces — require\n * a clear, reflective layer on top of another layer that may be irregular or rough.\n * Clearcoat approximates this effect, without the need for a separate transparent surface.\n * - Iridescence: Allows to render the effect where hue varies depending on the viewing\n * angle and illumination angle. This can be seen on soap bubbles, oil films, or on the\n * wings of many insects.\n * - Physically-based transparency: One limitation of {@link Material#opacity} is that highly\n * transparent materials are less reflective. Physically-based transmission provides a more\n * realistic option for thin, transparent surfaces like glass.\n * - Advanced reflectivity: More flexible reflectivity for non-metallic materials.\n * - Sheen: Can be used for representing cloth and fabric materials.\n *\n * As a result of these complex shading features, `MeshPhysicalMaterial` has a\n * higher performance cost, per pixel, than other three.js materials. Most\n * effects are disabled by default, and add cost as they are enabled. For\n * best results, always specify an environment map when using this material.\n *\n * @augments MeshStandardMaterial\n */\nclass MeshPhysicalMaterial extends MeshStandardMaterial {\n\n\t/**\n\t * Constructs a new mesh physical material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshPhysicalMaterial = true;\n\n\t\tthis.defines = {\n\n\t\t\t'STANDARD': '',\n\t\t\t'PHYSICAL': ''\n\n\t\t};\n\n\t\tthis.type = 'MeshPhysicalMaterial';\n\n\t\t/**\n\t\t * The rotation of the anisotropy in tangent, bitangent space, measured in radians\n\t\t * counter-clockwise from the tangent. When `anisotropyMap` is present, this\n\t\t * property provides additional rotation to the vectors in the texture.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.anisotropyRotation = 0;\n\n\t\t/**\n\t\t * Red and green channels represent the anisotropy direction in `[-1, 1]` tangent,\n\t\t * bitangent space, to be rotated by `anisotropyRotation`. The blue channel\n\t\t * contains strength as `[0, 1]` to be multiplied by `anisotropy`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.anisotropyMap = null;\n\n\t\t/**\n\t\t * The red channel of this texture is multiplied against `clearcoat`,\n\t\t * for per-pixel control over a coating's intensity.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.clearcoatMap = null;\n\n\t\t/**\n\t\t * Roughness of the clear coat layer, from `0.0` to `1.0`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.clearcoatRoughness = 0.0;\n\n\t\t/**\n\t\t * The green channel of this texture is multiplied against\n\t\t * `clearcoatRoughness`, for per-pixel control over a coating's roughness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.clearcoatRoughnessMap = null;\n\n\t\t/**\n\t\t * How much `clearcoatNormalMap` affects the clear coat layer, from\n\t\t * `(0,0)` to `(1,1)`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.clearcoatNormalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * Can be used to enable independent normals for the clear coat layer.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.clearcoatNormalMap = null;\n\n\t\t/**\n\t\t * Index-of-refraction for non-metallic materials, from `1.0` to `2.333`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1.5\n\t\t */\n\t\tthis.ior = 1.5;\n\n\t\t/**\n\t\t * Degree of reflectivity, from `0.0` to `1.0`. Default is `0.5`, which\n\t\t * corresponds to an index-of-refraction of `1.5`.\n\t\t *\n\t\t * This models the reflectivity of non-metallic materials. It has no effect\n\t\t * when `metalness` is `1.0`\n\t\t *\n\t\t * @name MeshPhysicalMaterial#reflectivity\n\t\t * @type {number}\n\t\t * @default 0.5\n\t\t */\n\t\tObject.defineProperty( this, 'reflectivity', {\n\t\t\tget: function () {\n\n\t\t\t\treturn ( clamp( 2.5 * ( this.ior - 1 ) / ( this.ior + 1 ), 0, 1 ) );\n\n\t\t\t},\n\t\t\tset: function ( reflectivity ) {\n\n\t\t\t\tthis.ior = ( 1 + 0.4 * reflectivity ) / ( 1 - 0.4 * reflectivity );\n\n\t\t\t}\n\t\t} );\n\n\t\t/**\n\t\t * The red channel of this texture is multiplied against `iridescence`, for per-pixel\n\t\t * control over iridescence.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.iridescenceMap = null;\n\n\t\t/**\n\t\t * Strength of the iridescence RGB color shift effect, represented by an index-of-refraction.\n\t\t * Between `1.0` to `2.333`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1.3\n\t\t */\n\t\tthis.iridescenceIOR = 1.3;\n\n\t\t/**\n\t\t *Array of exactly 2 elements, specifying minimum and maximum thickness of the iridescence layer.\n\t\t Thickness of iridescence layer has an equivalent effect of the one `thickness` has on `ior`.\n\t\t *\n\t\t * @type {Array}\n\t\t * @default [100,400]\n\t\t */\n\t\tthis.iridescenceThicknessRange = [ 100, 400 ];\n\n\t\t/**\n\t\t * A texture that defines the thickness of the iridescence layer, stored in the green channel.\n\t\t * Minimum and maximum values of thickness are defined by `iridescenceThicknessRange` array:\n\t\t * - `0.0` in the green channel will result in thickness equal to first element of the array.\n\t\t * - `1.0` in the green channel will result in thickness equal to second element of the array.\n\t\t * - Values in-between will linearly interpolate between the elements of the array.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.iridescenceThicknessMap = null;\n\n\t\t/**\n\t\t * The sheen tint.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.sheenColor = new Color( 0x000000 );\n\n\t\t/**\n\t\t * The RGB channels of this texture are multiplied against `sheenColor`, for per-pixel control\n\t\t * over sheen tint.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.sheenColorMap = null;\n\n\t\t/**\n\t\t * Roughness of the sheen layer, from `0.0` to `1.0`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.sheenRoughness = 1.0;\n\n\t\t/**\n\t\t * The alpha channel of this texture is multiplied against `sheenRoughness`, for per-pixel control\n\t\t * over sheen roughness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.sheenRoughnessMap = null;\n\n\t\t/**\n\t\t * The red channel of this texture is multiplied against `transmission`, for per-pixel control over\n\t\t * optical transparency.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.transmissionMap = null;\n\n\t\t/**\n\t\t * The thickness of the volume beneath the surface. The value is given in the\n\t\t * coordinate space of the mesh. If the value is `0` the material is\n\t\t * thin-walled. Otherwise the material is a volume boundary.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.thickness = 0;\n\n\t\t/**\n\t\t * A texture that defines the thickness, stored in the green channel. This will\n\t\t * be multiplied by `thickness`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.thicknessMap = null;\n\n\t\t/**\n\t\t * Density of the medium given as the average distance that light travels in\n\t\t * the medium before interacting with a particle. The value is given in world\n\t\t * space units, and must be greater than zero.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.attenuationDistance = Infinity;\n\n\t\t/**\n\t\t * The color that white light turns into due to absorption when reaching the\n\t\t * attenuation distance.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.attenuationColor = new Color( 1, 1, 1 );\n\n\t\t/**\n\t\t * A float that scales the amount of specular reflection for non-metals only.\n\t\t * When set to zero, the model is effectively Lambertian. From `0.0` to `1.0`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.specularIntensity = 1.0;\n\n\t\t/**\n\t\t * The alpha channel of this texture is multiplied against `specularIntensity`,\n\t\t * for per-pixel control over specular intensity.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularIntensityMap = null;\n\n\t\t/**\n\t\t * Tints the specular reflection at normal incidence for non-metals only.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.specularColor = new Color( 1, 1, 1 );\n\n\t\t/**\n\t\t * The RGB channels of this texture are multiplied against `specularColor`,\n\t\t * for per-pixel control over specular color.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularColorMap = null;\n\n\t\tthis._anisotropy = 0;\n\t\tthis._clearcoat = 0;\n\t\tthis._dispersion = 0;\n\t\tthis._iridescence = 0;\n\t\tthis._sheen = 0.0;\n\t\tthis._transmission = 0;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\t/**\n\t * The anisotropy strength.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget anisotropy() {\n\n\t\treturn this._anisotropy;\n\n\t}\n\n\tset anisotropy( value ) {\n\n\t\tif ( this._anisotropy > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._anisotropy = value;\n\n\t}\n\n\t/**\n\t * Represents the intensity of the clear coat layer, from `0.0` to `1.0`. Use\n\t * clear coat related properties to enable multilayer materials that have a\n\t * thin translucent layer over the base layer.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget clearcoat() {\n\n\t\treturn this._clearcoat;\n\n\t}\n\n\tset clearcoat( value ) {\n\n\t\tif ( this._clearcoat > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._clearcoat = value;\n\n\t}\n\t/**\n\t * The intensity of the iridescence layer, simulating RGB color shift based on the angle between\n\t * the surface and the viewer, from `0.0` to `1.0`.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget iridescence() {\n\n\t\treturn this._iridescence;\n\n\t}\n\n\tset iridescence( value ) {\n\n\t\tif ( this._iridescence > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._iridescence = value;\n\n\t}\n\n\t/**\n\t * Defines the strength of the angular separation of colors (chromatic aberration) transmitting\n\t * through a relatively clear volume. Any value zero or larger is valid, the typical range of\n\t * realistic values is `[0, 1]`. This property can be only be used with transmissive objects.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget dispersion() {\n\n\t\treturn this._dispersion;\n\n\t}\n\n\tset dispersion( value ) {\n\n\t\tif ( this._dispersion > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._dispersion = value;\n\n\t}\n\n\t/**\n\t * The intensity of the sheen layer, from `0.0` to `1.0`.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget sheen() {\n\n\t\treturn this._sheen;\n\n\t}\n\n\tset sheen( value ) {\n\n\t\tif ( this._sheen > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._sheen = value;\n\n\t}\n\n\t/**\n\t * Degree of transmission (or optical transparency), from `0.0` to `1.0`.\n\t *\n\t * Thin, transparent or semitransparent, plastic or glass materials remain\n\t * largely reflective even if they are fully transmissive. The transmission\n\t * property can be used to model these materials.\n\t *\n\t * When transmission is non-zero, `opacity` should be set to `1`.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget transmission() {\n\n\t\treturn this._transmission;\n\n\t}\n\n\tset transmission( value ) {\n\n\t\tif ( this._transmission > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._transmission = value;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.defines = {\n\n\t\t\t'STANDARD': '',\n\t\t\t'PHYSICAL': ''\n\n\t\t};\n\n\t\tthis.anisotropy = source.anisotropy;\n\t\tthis.anisotropyRotation = source.anisotropyRotation;\n\t\tthis.anisotropyMap = source.anisotropyMap;\n\n\t\tthis.clearcoat = source.clearcoat;\n\t\tthis.clearcoatMap = source.clearcoatMap;\n\t\tthis.clearcoatRoughness = source.clearcoatRoughness;\n\t\tthis.clearcoatRoughnessMap = source.clearcoatRoughnessMap;\n\t\tthis.clearcoatNormalMap = source.clearcoatNormalMap;\n\t\tthis.clearcoatNormalScale.copy( source.clearcoatNormalScale );\n\n\t\tthis.dispersion = source.dispersion;\n\t\tthis.ior = source.ior;\n\n\t\tthis.iridescence = source.iridescence;\n\t\tthis.iridescenceMap = source.iridescenceMap;\n\t\tthis.iridescenceIOR = source.iridescenceIOR;\n\t\tthis.iridescenceThicknessRange = [ ...source.iridescenceThicknessRange ];\n\t\tthis.iridescenceThicknessMap = source.iridescenceThicknessMap;\n\n\t\tthis.sheen = source.sheen;\n\t\tthis.sheenColor.copy( source.sheenColor );\n\t\tthis.sheenColorMap = source.sheenColorMap;\n\t\tthis.sheenRoughness = source.sheenRoughness;\n\t\tthis.sheenRoughnessMap = source.sheenRoughnessMap;\n\n\t\tthis.transmission = source.transmission;\n\t\tthis.transmissionMap = source.transmissionMap;\n\n\t\tthis.thickness = source.thickness;\n\t\tthis.thicknessMap = source.thicknessMap;\n\t\tthis.attenuationDistance = source.attenuationDistance;\n\t\tthis.attenuationColor.copy( source.attenuationColor );\n\n\t\tthis.specularIntensity = source.specularIntensity;\n\t\tthis.specularIntensityMap = source.specularIntensityMap;\n\t\tthis.specularColor.copy( source.specularColor );\n\t\tthis.specularColorMap = source.specularColorMap;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for shiny surfaces with specular highlights.\n *\n * The material uses a non-physically based [Blinn-Phong]{@link https://en.wikipedia.org/wiki/Blinn-Phong_shading_model}\n * model for calculating reflectance. Unlike the Lambertian model used in the\n * {@link MeshLambertMaterial} this can simulate shiny surfaces with specular\n * highlights (such as varnished wood). `MeshPhongMaterial` uses per-fragment shading.\n *\n * Performance will generally be greater when using this material over the\n * {@link MeshStandardMaterial} or {@link MeshPhysicalMaterial}, at the cost of\n * some graphical accuracy.\n *\n * @augments Material\n */\nclass MeshPhongMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh phong material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshPhongMaterial = true;\n\n\t\tthis.type = 'MeshPhongMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * Specular color of the material. The default color is set to `0x111111` (very dark grey)\n\t\t *\n\t\t * This defines how shiny the material is and the color of its shine.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.specular = new Color( 0x111111 );\n\n\t\t/**\n\t\t * How shiny the specular highlight is; a higher value gives a sharper highlight.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 30\n\t\t */\n\t\tthis.shininess = 30;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The specular map value affects both how much the specular surface\n\t\t * highlight contributes and how much of the environment map affects the\n\t\t * surface.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * How to combine the result of the surface's color with the environment map, if any.\n\t\t *\n\t\t * When set to `MixOperation`, the {@link MeshBasicMaterial#reflectivity} is used to\n\t\t * blend between the two colors.\n\t\t *\n\t\t * @type {(MultiplyOperation|MixOperation|AddOperation)}\n\t\t * @default MultiplyOperation\n\t\t */\n\t\tthis.combine = MultiplyOperation;\n\n\t\t/**\n\t\t * How much the environment map affects the surface.\n\t\t * The valid range is between `0` (no reflections) and `1` (full reflections).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.reflectivity = 1;\n\n\t\t/**\n\t\t * The index of refraction (IOR) of air (approximately 1) divided by the\n\t\t * index of refraction of the material. It is used with environment mapping\n\t\t * modes {@link CubeRefractionMapping} and {@link EquirectangularRefractionMapping}.\n\t\t * The refraction ratio should not exceed `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.98\n\t\t */\n\t\tthis.refractionRatio = 0.98;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\t\tthis.specular.copy( source.specular );\n\t\tthis.shininess = source.shininess;\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.specularMap = source.specularMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.combine = source.combine;\n\t\tthis.reflectivity = source.reflectivity;\n\t\tthis.refractionRatio = source.refractionRatio;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material implementing toon shading.\n *\n * @augments Material\n */\nclass MeshToonMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh toon material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshToonMaterial = true;\n\n\t\tthis.defines = { 'TOON': '' };\n\n\t\tthis.type = 'MeshToonMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * Gradient map for toon shading. It's required to set\n\t\t * {@link Texture#minFilter} and {@link Texture#magFilter} to {@linkNearestFilter}\n\t\t * when using this type of texture.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.gradientMap = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\t\tthis.gradientMap = source.gradientMap;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material that maps the normal vectors to RGB colors.\n *\n * @augments Material\n */\nclass MeshNormalMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh normal material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshNormalMaterial = true;\n\n\t\tthis.type = 'MeshNormalMaterial';\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * WebGL and WebGPU ignore this property and always render\n\t\t * 1 pixel wide lines.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for non-shiny surfaces, without specular highlights.\n *\n * The material uses a non-physically based [Lambertian]{@link https://en.wikipedia.org/wiki/Lambertian_reflectance}\n * model for calculating reflectance. This can simulate some surfaces (such\n * as untreated wood or stone) well, but cannot simulate shiny surfaces with\n * specular highlights (such as varnished wood). `MeshLambertMaterial` uses per-fragment\n * shading.\n *\n * Due to the simplicity of the reflectance and illumination models,\n * performance will be greater when using this material over the\n * {@link MeshPhongMaterial}, {@link MeshStandardMaterial} or\n * {@link MeshPhysicalMaterial}, at the cost of some graphical accuracy.\n *\n * @augments Material\n */\nclass MeshLambertMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh lambert material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshLambertMaterial = true;\n\n\t\tthis.type = 'MeshLambertMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * Specular map used by the material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * How to combine the result of the surface's color with the environment map, if any.\n\t\t *\n\t\t * When set to `MixOperation`, the {@link MeshBasicMaterial#reflectivity} is used to\n\t\t * blend between the two colors.\n\t\t *\n\t\t * @type {(MultiplyOperation|MixOperation|AddOperation)}\n\t\t * @default MultiplyOperation\n\t\t */\n\t\tthis.combine = MultiplyOperation;\n\n\t\t/**\n\t\t * How much the environment map affects the surface.\n\t\t * The valid range is between `0` (no reflections) and `1` (full reflections).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.reflectivity = 1;\n\n\t\t/**\n\t\t * The index of refraction (IOR) of air (approximately 1) divided by the\n\t\t * index of refraction of the material. It is used with environment mapping\n\t\t * modes {@link CubeRefractionMapping} and {@link EquirectangularRefractionMapping}.\n\t\t * The refraction ratio should not exceed `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.98\n\t\t */\n\t\tthis.refractionRatio = 0.98;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.specularMap = source.specularMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.combine = source.combine;\n\t\tthis.reflectivity = source.reflectivity;\n\t\tthis.refractionRatio = source.refractionRatio;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for drawing geometry by depth. Depth is based off of the camera\n * near and far plane. White is nearest, black is farthest.\n *\n * @augments Material\n */\nclass MeshDepthMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh depth material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshDepthMaterial = true;\n\n\t\tthis.type = 'MeshDepthMaterial';\n\n\t\t/**\n\t\t * Type for depth packing.\n\t\t *\n\t\t * @type {(BasicDepthPacking|RGBADepthPacking|RGBDepthPacking|RGDepthPacking)}\n\t\t * @default BasicDepthPacking\n\t\t */\n\t\tthis.depthPacking = BasicDepthPacking;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * WebGL and WebGPU ignore this property and always render\n\t\t * 1 pixel wide lines.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.depthPacking = source.depthPacking;\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material used internally for implementing shadow mapping with\n * point lights.\n *\n * Can also be used to customize the shadow casting of an object by assigning\n * an instance of `MeshDistanceMaterial` to {@link Object3D#customDistanceMaterial}.\n * The following examples demonstrates this approach in order to ensure\n * transparent parts of objects do not cast shadows.\n *\n * @augments Material\n */\nclass MeshDistanceMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh distance material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshDistanceMaterial = true;\n\n\t\tthis.type = 'MeshDistanceMaterial';\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This material is defined by a MatCap (or Lit Sphere) texture, which encodes the\n * material color and shading.\n *\n * `MeshMatcapMaterial` does not respond to lights since the matcap image file encodes\n * baked lighting. It will cast a shadow onto an object that receives shadows\n * (and shadow clipping works), but it will not self-shadow or receive\n * shadows.\n *\n * @augments Material\n */\nclass MeshMatcapMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh matcap material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshMatcapMaterial = true;\n\n\t\tthis.defines = { 'MATCAP': '' };\n\n\t\tthis.type = 'MeshMatcapMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * The matcap map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.matcap = null;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.defines = { 'MATCAP': '' };\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.matcap = source.matcap;\n\n\t\tthis.map = source.map;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for rendering line primitives.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * ```js\n * const material = new THREE.LineDashedMaterial( {\n * \tcolor: 0xffffff,\n * \tscale: 1,\n * \tdashSize: 3,\n * \tgapSize: 1,\n * } );\n * ```\n *\n * @augments LineBasicMaterial\n */\nclass LineDashedMaterial extends LineBasicMaterial {\n\n\t/**\n\t * Constructs a new line dashed material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineDashedMaterial = true;\n\t\tthis.type = 'LineDashedMaterial';\n\n\t\t/**\n\t\t * The scale of the dashed part of a line.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.scale = 1;\n\n\t\t/**\n\t\t * The size of the dash. This is both the gap with the stroke.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 3\n\t\t */\n\t\tthis.dashSize = 3;\n\n\t\t/**\n\t\t * The size of the gap.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.gapSize = 1;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.scale = source.scale;\n\t\tthis.dashSize = source.dashSize;\n\t\tthis.gapSize = source.gapSize;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Converts an array to a specific type.\n *\n * @param {TypedArray|Array} array - The array to convert.\n * @param {TypedArray.constructor} type - The constructor of a typed array that defines the new type.\n * @return {TypedArray} The converted array.\n */\nfunction convertArray( array, type ) {\n\n\tif ( ! array || array.constructor === type ) return array;\n\n\tif ( typeof type.BYTES_PER_ELEMENT === 'number' ) {\n\n\t\treturn new type( array ); // create typed array\n\n\t}\n\n\treturn Array.prototype.slice.call( array ); // create Array\n\n}\n\n/**\n * Returns `true` if the given object is a typed array.\n *\n * @param {any} object - The object to check.\n * @return {boolean} Whether the given object is a typed array.\n */\nfunction isTypedArray( object ) {\n\n\treturn ArrayBuffer.isView( object ) && ! ( object instanceof DataView );\n\n}\n\n/**\n * Returns an array by which times and values can be sorted.\n *\n * @param {Array} times - The keyframe time values.\n * @return {Array} The array.\n */\nfunction getKeyframeOrder( times ) {\n\n\tfunction compareTime( i, j ) {\n\n\t\treturn times[ i ] - times[ j ];\n\n\t}\n\n\tconst n = times.length;\n\tconst result = new Array( n );\n\tfor ( let i = 0; i !== n; ++ i ) result[ i ] = i;\n\n\tresult.sort( compareTime );\n\n\treturn result;\n\n}\n\n/**\n * Sorts the given array by the previously computed order via `getKeyframeOrder()`.\n *\n * @param {Array} values - The values to sort.\n * @param {number} stride - The stride.\n * @param {Array} order - The sort order.\n * @return {Array} The sorted values.\n */\nfunction sortedArray( values, stride, order ) {\n\n\tconst nValues = values.length;\n\tconst result = new values.constructor( nValues );\n\n\tfor ( let i = 0, dstOffset = 0; dstOffset !== nValues; ++ i ) {\n\n\t\tconst srcOffset = order[ i ] * stride;\n\n\t\tfor ( let j = 0; j !== stride; ++ j ) {\n\n\t\t\tresult[ dstOffset ++ ] = values[ srcOffset + j ];\n\n\t\t}\n\n\t}\n\n\treturn result;\n\n}\n\n/**\n * Used for parsing AOS keyframe formats.\n *\n * @param {Array} jsonKeys - A list of JSON keyframes.\n * @param {Array} times - This array will be filled with keyframe times by this function.\n * @param {Array} values - This array will be filled with keyframe values by this function.\n * @param {string} valuePropertyName - The name of the property to use.\n */\nfunction flattenJSON( jsonKeys, times, values, valuePropertyName ) {\n\n\tlet i = 1, key = jsonKeys[ 0 ];\n\n\twhile ( key !== undefined && key[ valuePropertyName ] === undefined ) {\n\n\t\tkey = jsonKeys[ i ++ ];\n\n\t}\n\n\tif ( key === undefined ) return; // no data\n\n\tlet value = key[ valuePropertyName ];\n\tif ( value === undefined ) return; // no data\n\n\tif ( Array.isArray( value ) ) {\n\n\t\tdo {\n\n\t\t\tvalue = key[ valuePropertyName ];\n\n\t\t\tif ( value !== undefined ) {\n\n\t\t\t\ttimes.push( key.time );\n\t\t\t\tvalues.push( ...value ); // push all elements\n\n\t\t\t}\n\n\t\t\tkey = jsonKeys[ i ++ ];\n\n\t\t} while ( key !== undefined );\n\n\t} else if ( value.toArray !== undefined ) {\n\n\t\t// ...assume THREE.Math-ish\n\n\t\tdo {\n\n\t\t\tvalue = key[ valuePropertyName ];\n\n\t\t\tif ( value !== undefined ) {\n\n\t\t\t\ttimes.push( key.time );\n\t\t\t\tvalue.toArray( values, values.length );\n\n\t\t\t}\n\n\t\t\tkey = jsonKeys[ i ++ ];\n\n\t\t} while ( key !== undefined );\n\n\t} else {\n\n\t\t// otherwise push as-is\n\n\t\tdo {\n\n\t\t\tvalue = key[ valuePropertyName ];\n\n\t\t\tif ( value !== undefined ) {\n\n\t\t\t\ttimes.push( key.time );\n\t\t\t\tvalues.push( value );\n\n\t\t\t}\n\n\t\t\tkey = jsonKeys[ i ++ ];\n\n\t\t} while ( key !== undefined );\n\n\t}\n\n}\n\n/**\n * Creates a new clip, containing only the segment of the original clip between the given frames.\n *\n * @param {AnimationClip} sourceClip - The values to sort.\n * @param {string} name - The name of the clip.\n * @param {number} startFrame - The start frame.\n * @param {number} endFrame - The end frame.\n * @param {number} [fps=30] - The FPS.\n * @return {AnimationClip} The new sub clip.\n */\nfunction subclip( sourceClip, name, startFrame, endFrame, fps = 30 ) {\n\n\tconst clip = sourceClip.clone();\n\n\tclip.name = name;\n\n\tconst tracks = [];\n\n\tfor ( let i = 0; i < clip.tracks.length; ++ i ) {\n\n\t\tconst track = clip.tracks[ i ];\n\t\tconst valueSize = track.getValueSize();\n\n\t\tconst times = [];\n\t\tconst values = [];\n\n\t\tfor ( let j = 0; j < track.times.length; ++ j ) {\n\n\t\t\tconst frame = track.times[ j ] * fps;\n\n\t\t\tif ( frame < startFrame || frame >= endFrame ) continue;\n\n\t\t\ttimes.push( track.times[ j ] );\n\n\t\t\tfor ( let k = 0; k < valueSize; ++ k ) {\n\n\t\t\t\tvalues.push( track.values[ j * valueSize + k ] );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( times.length === 0 ) continue;\n\n\t\ttrack.times = convertArray( times, track.times.constructor );\n\t\ttrack.values = convertArray( values, track.values.constructor );\n\n\t\ttracks.push( track );\n\n\t}\n\n\tclip.tracks = tracks;\n\n\t// find minimum .times value across all tracks in the trimmed clip\n\n\tlet minStartTime = Infinity;\n\n\tfor ( let i = 0; i < clip.tracks.length; ++ i ) {\n\n\t\tif ( minStartTime > clip.tracks[ i ].times[ 0 ] ) {\n\n\t\t\tminStartTime = clip.tracks[ i ].times[ 0 ];\n\n\t\t}\n\n\t}\n\n\t// shift all tracks such that clip begins at t=0\n\n\tfor ( let i = 0; i < clip.tracks.length; ++ i ) {\n\n\t\tclip.tracks[ i ].shift( -1 * minStartTime );\n\n\t}\n\n\tclip.resetDuration();\n\n\treturn clip;\n\n}\n\n/**\n * Converts the keyframes of the given animation clip to an additive format.\n *\n * @param {AnimationClip} targetClip - The clip to make additive.\n * @param {number} [referenceFrame=0] - The reference frame.\n * @param {AnimationClip} [referenceClip=targetClip] - The reference clip.\n * @param {number} [fps=30] - The FPS.\n * @return {AnimationClip} The updated clip which is now additive.\n */\nfunction makeClipAdditive( targetClip, referenceFrame = 0, referenceClip = targetClip, fps = 30 ) {\n\n\tif ( fps <= 0 ) fps = 30;\n\n\tconst numTracks = referenceClip.tracks.length;\n\tconst referenceTime = referenceFrame / fps;\n\n\t// Make each track's values relative to the values at the reference frame\n\tfor ( let i = 0; i < numTracks; ++ i ) {\n\n\t\tconst referenceTrack = referenceClip.tracks[ i ];\n\t\tconst referenceTrackType = referenceTrack.ValueTypeName;\n\n\t\t// Skip this track if it's non-numeric\n\t\tif ( referenceTrackType === 'bool' || referenceTrackType === 'string' ) continue;\n\n\t\t// Find the track in the target clip whose name and type matches the reference track\n\t\tconst targetTrack = targetClip.tracks.find( function ( track ) {\n\n\t\t\treturn track.name === referenceTrack.name\n\t\t\t\t&& track.ValueTypeName === referenceTrackType;\n\n\t\t} );\n\n\t\tif ( targetTrack === undefined ) continue;\n\n\t\tlet referenceOffset = 0;\n\t\tconst referenceValueSize = referenceTrack.getValueSize();\n\n\t\tif ( referenceTrack.createInterpolant.isInterpolantFactoryMethodGLTFCubicSpline ) {\n\n\t\t\treferenceOffset = referenceValueSize / 3;\n\n\t\t}\n\n\t\tlet targetOffset = 0;\n\t\tconst targetValueSize = targetTrack.getValueSize();\n\n\t\tif ( targetTrack.createInterpolant.isInterpolantFactoryMethodGLTFCubicSpline ) {\n\n\t\t\ttargetOffset = targetValueSize / 3;\n\n\t\t}\n\n\t\tconst lastIndex = referenceTrack.times.length - 1;\n\t\tlet referenceValue;\n\n\t\t// Find the value to subtract out of the track\n\t\tif ( referenceTime <= referenceTrack.times[ 0 ] ) {\n\n\t\t\t// Reference frame is earlier than the first keyframe, so just use the first keyframe\n\t\t\tconst startIndex = referenceOffset;\n\t\t\tconst endIndex = referenceValueSize - referenceOffset;\n\t\t\treferenceValue = referenceTrack.values.slice( startIndex, endIndex );\n\n\t\t} else if ( referenceTime >= referenceTrack.times[ lastIndex ] ) {\n\n\t\t\t// Reference frame is after the last keyframe, so just use the last keyframe\n\t\t\tconst startIndex = lastIndex * referenceValueSize + referenceOffset;\n\t\t\tconst endIndex = startIndex + referenceValueSize - referenceOffset;\n\t\t\treferenceValue = referenceTrack.values.slice( startIndex, endIndex );\n\n\t\t} else {\n\n\t\t\t// Interpolate to the reference value\n\t\t\tconst interpolant = referenceTrack.createInterpolant();\n\t\t\tconst startIndex = referenceOffset;\n\t\t\tconst endIndex = referenceValueSize - referenceOffset;\n\t\t\tinterpolant.evaluate( referenceTime );\n\t\t\treferenceValue = interpolant.resultBuffer.slice( startIndex, endIndex );\n\n\t\t}\n\n\t\t// Conjugate the quaternion\n\t\tif ( referenceTrackType === 'quaternion' ) {\n\n\t\t\tconst referenceQuat = new Quaternion().fromArray( referenceValue ).normalize().conjugate();\n\t\t\treferenceQuat.toArray( referenceValue );\n\n\t\t}\n\n\t\t// Subtract the reference value from all of the track values\n\n\t\tconst numTimes = targetTrack.times.length;\n\t\tfor ( let j = 0; j < numTimes; ++ j ) {\n\n\t\t\tconst valueStart = j * targetValueSize + targetOffset;\n\n\t\t\tif ( referenceTrackType === 'quaternion' ) {\n\n\t\t\t\t// Multiply the conjugate for quaternion track types\n\t\t\t\tQuaternion.multiplyQuaternionsFlat(\n\t\t\t\t\ttargetTrack.values,\n\t\t\t\t\tvalueStart,\n\t\t\t\t\treferenceValue,\n\t\t\t\t\t0,\n\t\t\t\t\ttargetTrack.values,\n\t\t\t\t\tvalueStart\n\t\t\t\t);\n\n\t\t\t} else {\n\n\t\t\t\tconst valueEnd = targetValueSize - targetOffset * 2;\n\n\t\t\t\t// Subtract each value for all other numeric track types\n\t\t\t\tfor ( let k = 0; k < valueEnd; ++ k ) {\n\n\t\t\t\t\ttargetTrack.values[ valueStart + k ] -= referenceValue[ k ];\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\ttargetClip.blendMode = AdditiveAnimationBlendMode;\n\n\treturn targetClip;\n\n}\n\n/**\n * A class with various methods to assist with animations.\n *\n * @hideconstructor\n */\nclass AnimationUtils {\n\n\t/**\n\t * Converts an array to a specific type\n\t *\n\t * @static\n\t * @param {TypedArray|Array} array - The array to convert.\n\t * @param {TypedArray.constructor} type - The constructor of a type array.\n\t * @return {TypedArray} The converted array\n\t */\n\tstatic convertArray( array, type ) {\n\n\t\treturn convertArray( array, type );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given object is a typed array.\n\t *\n\t * @static\n\t * @param {any} object - The object to check.\n\t * @return {boolean} Whether the given object is a typed array.\n\t */\n\tstatic isTypedArray( object ) {\n\n\t\treturn isTypedArray( object );\n\n\t}\n\n\t/**\n\t * Returns an array by which times and values can be sorted.\n\t *\n\t * @static\n\t * @param {Array} times - The keyframe time values.\n\t * @return {Array} The array.\n\t */\n\tstatic getKeyframeOrder( times ) {\n\n\t\treturn getKeyframeOrder( times );\n\n\t}\n\n\t/**\n\t * Sorts the given array by the previously computed order via `getKeyframeOrder()`.\n\t *\n\t * @static\n\t * @param {Array} values - The values to sort.\n\t * @param {number} stride - The stride.\n\t * @param {Array} order - The sort order.\n\t * @return {Array} The sorted values.\n\t */\n\tstatic sortedArray( values, stride, order ) {\n\n\t\treturn sortedArray( values, stride, order );\n\n\t}\n\n\t/**\n\t * Used for parsing AOS keyframe formats.\n\t *\n\t * @static\n\t * @param {Array} jsonKeys - A list of JSON keyframes.\n\t * @param {Array} times - This array will be filled with keyframe times by this method.\n\t * @param {Array} values - This array will be filled with keyframe values by this method.\n\t * @param {string} valuePropertyName - The name of the property to use.\n\t */\n\tstatic flattenJSON( jsonKeys, times, values, valuePropertyName ) {\n\n\t\tflattenJSON( jsonKeys, times, values, valuePropertyName );\n\n\t}\n\n\t/**\n\t * Creates a new clip, containing only the segment of the original clip between the given frames.\n\t *\n\t * @static\n\t * @param {AnimationClip} sourceClip - The values to sort.\n\t * @param {string} name - The name of the clip.\n\t * @param {number} startFrame - The start frame.\n\t * @param {number} endFrame - The end frame.\n\t * @param {number} [fps=30] - The FPS.\n\t * @return {AnimationClip} The new sub clip.\n\t */\n\tstatic subclip( sourceClip, name, startFrame, endFrame, fps = 30 ) {\n\n\t\treturn subclip( sourceClip, name, startFrame, endFrame, fps );\n\n\t}\n\n\t/**\n\t * Converts the keyframes of the given animation clip to an additive format.\n\t *\n\t * @static\n\t * @param {AnimationClip} targetClip - The clip to make additive.\n\t * @param {number} [referenceFrame=0] - The reference frame.\n\t * @param {AnimationClip} [referenceClip=targetClip] - The reference clip.\n\t * @param {number} [fps=30] - The FPS.\n\t * @return {AnimationClip} The updated clip which is now additive.\n\t */\n\tstatic makeClipAdditive( targetClip, referenceFrame = 0, referenceClip = targetClip, fps = 30 ) {\n\n\t\treturn makeClipAdditive( targetClip, referenceFrame, referenceClip, fps );\n\n\t}\n\n}\n\n/**\n * Abstract base class of interpolants over parametric samples.\n *\n * The parameter domain is one dimensional, typically the time or a path\n * along a curve defined by the data.\n *\n * The sample values can have any dimensionality and derived classes may\n * apply special interpretations to the data.\n *\n * This class provides the interval seek in a Template Method, deferring\n * the actual interpolation to derived classes.\n *\n * Time complexity is O(1) for linear access crossing at most two points\n * and O(log N) for random access, where N is the number of positions.\n *\n * References: {@link http://www.oodesign.com/template-method-pattern.html}\n *\n * @abstract\n */\nclass Interpolant {\n\n\t/**\n\t * Constructs a new interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\t/**\n\t\t * The parameter positions.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.parameterPositions = parameterPositions;\n\n\t\t/**\n\t\t * A cache index.\n\t\t *\n\t\t * @private\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis._cachedIndex = 0;\n\n\t\t/**\n\t\t * The result buffer.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.resultBuffer = resultBuffer !== undefined ? resultBuffer : new sampleValues.constructor( sampleSize );\n\n\t\t/**\n\t\t * The sample values.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.sampleValues = sampleValues;\n\n\t\t/**\n\t\t * The value size.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.valueSize = sampleSize;\n\n\t\t/**\n\t\t * The interpolation settings.\n\t\t *\n\t\t * @type {?Object}\n\t\t * @default null\n\t\t */\n\t\tthis.settings = null;\n\n\t\t/**\n\t\t * The default settings object.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.DefaultSettings_ = {};\n\n\t}\n\n\t/**\n\t * Evaluate the interpolant at position `t`.\n\t *\n\t * @param {number} t - The interpolation factor.\n\t * @return {TypedArray} The result buffer.\n\t */\n\tevaluate( t ) {\n\n\t\tconst pp = this.parameterPositions;\n\t\tlet i1 = this._cachedIndex,\n\t\t\tt1 = pp[ i1 ],\n\t\t\tt0 = pp[ i1 - 1 ];\n\n\t\tvalidate_interval: {\n\n\t\t\tseek: {\n\n\t\t\t\tlet right;\n\n\t\t\t\tlinear_scan: {\n\n\t\t\t\t\t//- See http://jsperf.com/comparison-to-undefined/3\n\t\t\t\t\t//- slower code:\n\t\t\t\t\t//-\n\t\t\t\t\t//- \t\t\t\tif ( t >= t1 || t1 === undefined ) {\n\t\t\t\t\tforward_scan: if ( ! ( t < t1 ) ) {\n\n\t\t\t\t\t\tfor ( let giveUpAt = i1 + 2; ; ) {\n\n\t\t\t\t\t\t\tif ( t1 === undefined ) {\n\n\t\t\t\t\t\t\t\tif ( t < t0 ) break forward_scan;\n\n\t\t\t\t\t\t\t\t// after end\n\n\t\t\t\t\t\t\t\ti1 = pp.length;\n\t\t\t\t\t\t\t\tthis._cachedIndex = i1;\n\t\t\t\t\t\t\t\treturn this.copySampleValue_( i1 - 1 );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\tif ( i1 === giveUpAt ) break; // this loop\n\n\t\t\t\t\t\t\tt0 = t1;\n\t\t\t\t\t\t\tt1 = pp[ ++ i1 ];\n\n\t\t\t\t\t\t\tif ( t < t1 ) {\n\n\t\t\t\t\t\t\t\t// we have arrived at the sought interval\n\t\t\t\t\t\t\t\tbreak seek;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\t// prepare binary search on the right side of the index\n\t\t\t\t\t\tright = pp.length;\n\t\t\t\t\t\tbreak linear_scan;\n\n\t\t\t\t\t}\n\n\t\t\t\t\t//- slower code:\n\t\t\t\t\t//-\t\t\t\t\tif ( t < t0 || t0 === undefined ) {\n\t\t\t\t\tif ( ! ( t >= t0 ) ) {\n\n\t\t\t\t\t\t// looping?\n\n\t\t\t\t\t\tconst t1global = pp[ 1 ];\n\n\t\t\t\t\t\tif ( t < t1global ) {\n\n\t\t\t\t\t\t\ti1 = 2; // + 1, using the scan for the details\n\t\t\t\t\t\t\tt0 = t1global;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\t// linear reverse scan\n\n\t\t\t\t\t\tfor ( let giveUpAt = i1 - 2; ; ) {\n\n\t\t\t\t\t\t\tif ( t0 === undefined ) {\n\n\t\t\t\t\t\t\t\t// before start\n\n\t\t\t\t\t\t\t\tthis._cachedIndex = 0;\n\t\t\t\t\t\t\t\treturn this.copySampleValue_( 0 );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\tif ( i1 === giveUpAt ) break; // this loop\n\n\t\t\t\t\t\t\tt1 = t0;\n\t\t\t\t\t\t\tt0 = pp[ -- i1 - 1 ];\n\n\t\t\t\t\t\t\tif ( t >= t0 ) {\n\n\t\t\t\t\t\t\t\t// we have arrived at the sought interval\n\t\t\t\t\t\t\t\tbreak seek;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\t// prepare binary search on the left side of the index\n\t\t\t\t\t\tright = i1;\n\t\t\t\t\t\ti1 = 0;\n\t\t\t\t\t\tbreak linear_scan;\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// the interval is valid\n\n\t\t\t\t\tbreak validate_interval;\n\n\t\t\t\t} // linear scan\n\n\t\t\t\t// binary search\n\n\t\t\t\twhile ( i1 < right ) {\n\n\t\t\t\t\tconst mid = ( i1 + right ) >>> 1;\n\n\t\t\t\t\tif ( t < pp[ mid ] ) {\n\n\t\t\t\t\t\tright = mid;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ti1 = mid + 1;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tt1 = pp[ i1 ];\n\t\t\t\tt0 = pp[ i1 - 1 ];\n\n\t\t\t\t// check boundary cases, again\n\n\t\t\t\tif ( t0 === undefined ) {\n\n\t\t\t\t\tthis._cachedIndex = 0;\n\t\t\t\t\treturn this.copySampleValue_( 0 );\n\n\t\t\t\t}\n\n\t\t\t\tif ( t1 === undefined ) {\n\n\t\t\t\t\ti1 = pp.length;\n\t\t\t\t\tthis._cachedIndex = i1;\n\t\t\t\t\treturn this.copySampleValue_( i1 - 1 );\n\n\t\t\t\t}\n\n\t\t\t} // seek\n\n\t\t\tthis._cachedIndex = i1;\n\n\t\t\tthis.intervalChanged_( i1, t0, t1 );\n\n\t\t} // validate_interval\n\n\t\treturn this.interpolate_( i1, t0, t, t1 );\n\n\t}\n\n\t/**\n\t * Returns the interpolation settings.\n\t *\n\t * @return {Object} The interpolation settings.\n\t */\n\tgetSettings_() {\n\n\t\treturn this.settings || this.DefaultSettings_;\n\n\t}\n\n\t/**\n\t * Copies a sample value to the result buffer.\n\t *\n\t * @param {number} index - An index into the sample value buffer.\n\t * @return {TypedArray} The result buffer.\n\t */\n\tcopySampleValue_( index ) {\n\n\t\t// copies a sample value to the result buffer\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\t\t\toffset = index * stride;\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tresult[ i ] = values[ offset + i ];\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n\t/**\n\t * Copies a sample value to the result buffer.\n\t *\n\t * @abstract\n\t * @param {number} i1 - An index into the sample value buffer.\n\t * @param {number} t0 - The previous interpolation factor.\n\t * @param {number} t - The current interpolation factor.\n\t * @param {number} t1 - The next interpolation factor.\n\t * @return {TypedArray} The result buffer.\n\t */\n\tinterpolate_( /* i1, t0, t, t1 */ ) {\n\n\t\tthrow new Error( 'call to abstract method' );\n\t\t// implementations shall return this.resultBuffer\n\n\t}\n\n\t/**\n\t * Optional method that is executed when the interval has changed.\n\t *\n\t * @param {number} i1 - An index into the sample value buffer.\n\t * @param {number} t0 - The previous interpolation factor.\n\t * @param {number} t - The current interpolation factor.\n\t */\n\tintervalChanged_( /* i1, t0, t1 */ ) {\n\n\t\t// empty\n\n\t}\n\n}\n\n/**\n * Fast and simple cubic spline interpolant.\n *\n * It was derived from a Hermitian construction setting the first derivative\n * at each sample position to the linear slope between neighboring positions\n * over their parameter interval.\n *\n * @augments Interpolant\n */\nclass CubicInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new cubic interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t\tthis._weightPrev = -0;\n\t\tthis._offsetPrev = -0;\n\t\tthis._weightNext = -0;\n\t\tthis._offsetNext = -0;\n\n\t\tthis.DefaultSettings_ = {\n\n\t\t\tendingStart: ZeroCurvatureEnding,\n\t\t\tendingEnd: ZeroCurvatureEnding\n\n\t\t};\n\n\t}\n\n\tintervalChanged_( i1, t0, t1 ) {\n\n\t\tconst pp = this.parameterPositions;\n\t\tlet iPrev = i1 - 2,\n\t\t\tiNext = i1 + 1,\n\n\t\t\ttPrev = pp[ iPrev ],\n\t\t\ttNext = pp[ iNext ];\n\n\t\tif ( tPrev === undefined ) {\n\n\t\t\tswitch ( this.getSettings_().endingStart ) {\n\n\t\t\t\tcase ZeroSlopeEnding:\n\n\t\t\t\t\t// f'(t0) = 0\n\t\t\t\t\tiPrev = i1;\n\t\t\t\t\ttPrev = 2 * t0 - t1;\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase WrapAroundEnding:\n\n\t\t\t\t\t// use the other end of the curve\n\t\t\t\t\tiPrev = pp.length - 2;\n\t\t\t\t\ttPrev = t0 + pp[ iPrev ] - pp[ iPrev + 1 ];\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault: // ZeroCurvatureEnding\n\n\t\t\t\t\t// f''(t0) = 0 a.k.a. Natural Spline\n\t\t\t\t\tiPrev = i1;\n\t\t\t\t\ttPrev = t1;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( tNext === undefined ) {\n\n\t\t\tswitch ( this.getSettings_().endingEnd ) {\n\n\t\t\t\tcase ZeroSlopeEnding:\n\n\t\t\t\t\t// f'(tN) = 0\n\t\t\t\t\tiNext = i1;\n\t\t\t\t\ttNext = 2 * t1 - t0;\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase WrapAroundEnding:\n\n\t\t\t\t\t// use the other end of the curve\n\t\t\t\t\tiNext = 1;\n\t\t\t\t\ttNext = t1 + pp[ 1 ] - pp[ 0 ];\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault: // ZeroCurvatureEnding\n\n\t\t\t\t\t// f''(tN) = 0, a.k.a. Natural Spline\n\t\t\t\t\tiNext = i1 - 1;\n\t\t\t\t\ttNext = t0;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst halfDt = ( t1 - t0 ) * 0.5,\n\t\t\tstride = this.valueSize;\n\n\t\tthis._weightPrev = halfDt / ( t0 - tPrev );\n\t\tthis._weightNext = halfDt / ( tNext - t1 );\n\t\tthis._offsetPrev = iPrev * stride;\n\t\tthis._offsetNext = iNext * stride;\n\n\t}\n\n\tinterpolate_( i1, t0, t, t1 ) {\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\n\t\t\to1 = i1 * stride,\t\to0 = o1 - stride,\n\t\t\toP = this._offsetPrev, \toN = this._offsetNext,\n\t\t\twP = this._weightPrev,\twN = this._weightNext,\n\n\t\t\tp = ( t - t0 ) / ( t1 - t0 ),\n\t\t\tpp = p * p,\n\t\t\tppp = pp * p;\n\n\t\t// evaluate polynomials\n\n\t\tconst sP = - wP * ppp + 2 * wP * pp - wP * p;\n\t\tconst s0 = ( 1 + wP ) * ppp + ( -1.5 - 2 * wP ) * pp + ( -0.5 + wP ) * p + 1;\n\t\tconst s1 = ( -1 - wN ) * ppp + ( 1.5 + wN ) * pp + 0.5 * p;\n\t\tconst sN = wN * ppp - wN * pp;\n\n\t\t// combine data linearly\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tresult[ i ] =\n\t\t\t\t\tsP * values[ oP + i ] +\n\t\t\t\t\ts0 * values[ o0 + i ] +\n\t\t\t\t\ts1 * values[ o1 + i ] +\n\t\t\t\t\tsN * values[ oN + i ];\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n}\n\n/**\n * A basic linear interpolant.\n *\n * @augments Interpolant\n */\nclass LinearInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new linear interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t}\n\n\tinterpolate_( i1, t0, t, t1 ) {\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\n\t\t\toffset1 = i1 * stride,\n\t\t\toffset0 = offset1 - stride,\n\n\t\t\tweight1 = ( t - t0 ) / ( t1 - t0 ),\n\t\t\tweight0 = 1 - weight1;\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tresult[ i ] =\n\t\t\t\t\tvalues[ offset0 + i ] * weight0 +\n\t\t\t\t\tvalues[ offset1 + i ] * weight1;\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n}\n\n/**\n * Interpolant that evaluates to the sample value at the position preceding\n * the parameter.\n *\n * @augments Interpolant\n */\nclass DiscreteInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new discrete interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t}\n\n\tinterpolate_( i1 /*, t0, t, t1 */ ) {\n\n\t\treturn this.copySampleValue_( i1 - 1 );\n\n\t}\n\n}\n\n/**\n * Represents s a timed sequence of keyframes, which are composed of lists of\n * times and related values, and which are used to animate a specific property\n * of an object.\n */\nclass KeyframeTrack {\n\n\t/**\n\t * Constructs a new keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tif ( name === undefined ) throw new Error( 'THREE.KeyframeTrack: track name is undefined' );\n\t\tif ( times === undefined || times.length === 0 ) throw new Error( 'THREE.KeyframeTrack: no keyframes in track named ' + name );\n\n\t\t/**\n\t\t * The track's name can refer to morph targets or bones or\n\t\t * possibly other values within an animated object. See {@link PropertyBinding#parseTrackName}\n\t\t * for the forms of strings that can be parsed for property binding.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = name;\n\n\t\t/**\n\t\t * The keyframe times.\n\t\t *\n\t\t * @type {Float32Array}\n\t\t */\n\t\tthis.times = convertArray( times, this.TimeBufferType );\n\n\t\t/**\n\t\t * The keyframe values.\n\t\t *\n\t\t * @type {Float32Array}\n\t\t */\n\t\tthis.values = convertArray( values, this.ValueBufferType );\n\n\t\tthis.setInterpolation( interpolation || this.DefaultInterpolation );\n\n\t}\n\n\t/**\n\t * Converts the keyframe track to JSON.\n\t *\n\t * @static\n\t * @param {KeyframeTrack} track - The keyframe track to serialize.\n\t * @return {Object} The serialized keyframe track as JSON.\n\t */\n\tstatic toJSON( track ) {\n\n\t\tconst trackType = track.constructor;\n\n\t\tlet json;\n\n\t\t// derived classes can define a static toJSON method\n\t\tif ( trackType.toJSON !== this.toJSON ) {\n\n\t\t\tjson = trackType.toJSON( track );\n\n\t\t} else {\n\n\t\t\t// by default, we assume the data can be serialized as-is\n\t\t\tjson = {\n\n\t\t\t\t'name': track.name,\n\t\t\t\t'times': convertArray( track.times, Array ),\n\t\t\t\t'values': convertArray( track.values, Array )\n\n\t\t\t};\n\n\t\t\tconst interpolation = track.getInterpolation();\n\n\t\t\tif ( interpolation !== track.DefaultInterpolation ) {\n\n\t\t\t\tjson.interpolation = interpolation;\n\n\t\t\t}\n\n\t\t}\n\n\t\tjson.type = track.ValueTypeName; // mandatory\n\n\t\treturn json;\n\n\t}\n\n\t/**\n\t * Factory method for creating a new discrete interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {DiscreteInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodDiscrete( result ) {\n\n\t\treturn new DiscreteInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n\t/**\n\t * Factory method for creating a new linear interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {LinearInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodLinear( result ) {\n\n\t\treturn new LinearInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n\t/**\n\t * Factory method for creating a new smooth interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {CubicInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodSmooth( result ) {\n\n\t\treturn new CubicInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n\t/**\n\t * Defines the interpolation factor method for this keyframe track.\n\t *\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} interpolation - The interpolation type.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\tsetInterpolation( interpolation ) {\n\n\t\tlet factoryMethod;\n\n\t\tswitch ( interpolation ) {\n\n\t\t\tcase InterpolateDiscrete:\n\n\t\t\t\tfactoryMethod = this.InterpolantFactoryMethodDiscrete;\n\n\t\t\t\tbreak;\n\n\t\t\tcase InterpolateLinear:\n\n\t\t\t\tfactoryMethod = this.InterpolantFactoryMethodLinear;\n\n\t\t\t\tbreak;\n\n\t\t\tcase InterpolateSmooth:\n\n\t\t\t\tfactoryMethod = this.InterpolantFactoryMethodSmooth;\n\n\t\t\t\tbreak;\n\n\t\t}\n\n\t\tif ( factoryMethod === undefined ) {\n\n\t\t\tconst message = 'unsupported interpolation for ' +\n\t\t\t\tthis.ValueTypeName + ' keyframe track named ' + this.name;\n\n\t\t\tif ( this.createInterpolant === undefined ) {\n\n\t\t\t\t// fall back to default, unless the default itself is messed up\n\t\t\t\tif ( interpolation !== this.DefaultInterpolation ) {\n\n\t\t\t\t\tthis.setInterpolation( this.DefaultInterpolation );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthrow new Error( message ); // fatal, in this case\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tconsole.warn( 'THREE.KeyframeTrack:', message );\n\t\t\treturn this;\n\n\t\t}\n\n\t\tthis.createInterpolant = factoryMethod;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current interpolation type.\n\t *\n\t * @return {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} The interpolation type.\n\t */\n\tgetInterpolation() {\n\n\t\tswitch ( this.createInterpolant ) {\n\n\t\t\tcase this.InterpolantFactoryMethodDiscrete:\n\n\t\t\t\treturn InterpolateDiscrete;\n\n\t\t\tcase this.InterpolantFactoryMethodLinear:\n\n\t\t\t\treturn InterpolateLinear;\n\n\t\t\tcase this.InterpolantFactoryMethodSmooth:\n\n\t\t\t\treturn InterpolateSmooth;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns the value size.\n\t *\n\t * @return {number} The value size.\n\t */\n\tgetValueSize() {\n\n\t\treturn this.values.length / this.times.length;\n\n\t}\n\n\t/**\n\t * Moves all keyframes either forward or backward in time.\n\t *\n\t * @param {number} timeOffset - The offset to move the time values.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\tshift( timeOffset ) {\n\n\t\tif ( timeOffset !== 0.0 ) {\n\n\t\t\tconst times = this.times;\n\n\t\t\tfor ( let i = 0, n = times.length; i !== n; ++ i ) {\n\n\t\t\t\ttimes[ i ] += timeOffset;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scale all keyframe times by a factor (useful for frame - seconds conversions).\n\t *\n\t * @param {number} timeScale - The time scale.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\tscale( timeScale ) {\n\n\t\tif ( timeScale !== 1.0 ) {\n\n\t\t\tconst times = this.times;\n\n\t\t\tfor ( let i = 0, n = times.length; i !== n; ++ i ) {\n\n\t\t\t\ttimes[ i ] *= timeScale;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes keyframes before and after animation without changing any values within the defined time range.\n\t *\n\t * Note: The method does not shift around keys to the start of the track time, because for interpolated\n\t * keys this will change their values\n\t *\n\t * @param {number} startTime - The start time.\n\t * @param {number} endTime - The end time.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\ttrim( startTime, endTime ) {\n\n\t\tconst times = this.times,\n\t\t\tnKeys = times.length;\n\n\t\tlet from = 0,\n\t\t\tto = nKeys - 1;\n\n\t\twhile ( from !== nKeys && times[ from ] < startTime ) {\n\n\t\t\t++ from;\n\n\t\t}\n\n\t\twhile ( to !== -1 && times[ to ] > endTime ) {\n\n\t\t\t-- to;\n\n\t\t}\n\n\t\t++ to; // inclusive -> exclusive bound\n\n\t\tif ( from !== 0 || to !== nKeys ) {\n\n\t\t\t// empty tracks are forbidden, so keep at least one keyframe\n\t\t\tif ( from >= to ) {\n\n\t\t\t\tto = Math.max( to, 1 );\n\t\t\t\tfrom = to - 1;\n\n\t\t\t}\n\n\t\t\tconst stride = this.getValueSize();\n\t\t\tthis.times = times.slice( from, to );\n\t\t\tthis.values = this.values.slice( from * stride, to * stride );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs minimal validation on the keyframe track. Returns `true` if the values\n\t * are valid.\n\t *\n\t * @return {boolean} Whether the keyframes are valid or not.\n\t */\n\tvalidate() {\n\n\t\tlet valid = true;\n\n\t\tconst valueSize = this.getValueSize();\n\t\tif ( valueSize - Math.floor( valueSize ) !== 0 ) {\n\n\t\t\tconsole.error( 'THREE.KeyframeTrack: Invalid value size in track.', this );\n\t\t\tvalid = false;\n\n\t\t}\n\n\t\tconst times = this.times,\n\t\t\tvalues = this.values,\n\n\t\t\tnKeys = times.length;\n\n\t\tif ( nKeys === 0 ) {\n\n\t\t\tconsole.error( 'THREE.KeyframeTrack: Track is empty.', this );\n\t\t\tvalid = false;\n\n\t\t}\n\n\t\tlet prevTime = null;\n\n\t\tfor ( let i = 0; i !== nKeys; i ++ ) {\n\n\t\t\tconst currTime = times[ i ];\n\n\t\t\tif ( typeof currTime === 'number' && isNaN( currTime ) ) {\n\n\t\t\t\tconsole.error( 'THREE.KeyframeTrack: Time is not a valid number.', this, i, currTime );\n\t\t\t\tvalid = false;\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t\tif ( prevTime !== null && prevTime > currTime ) {\n\n\t\t\t\tconsole.error( 'THREE.KeyframeTrack: Out of order keys.', this, i, currTime, prevTime );\n\t\t\t\tvalid = false;\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t\tprevTime = currTime;\n\n\t\t}\n\n\t\tif ( values !== undefined ) {\n\n\t\t\tif ( isTypedArray( values ) ) {\n\n\t\t\t\tfor ( let i = 0, n = values.length; i !== n; ++ i ) {\n\n\t\t\t\t\tconst value = values[ i ];\n\n\t\t\t\t\tif ( isNaN( value ) ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.KeyframeTrack: Value is not a valid number.', this, i, value );\n\t\t\t\t\t\tvalid = false;\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn valid;\n\n\t}\n\n\t/**\n\t * Optimizes this keyframe track by removing equivalent sequential keys (which are\n\t * common in morph target sequences).\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\toptimize() {\n\n\t\t// (0,0,0,0,1,1,1,0,0,0,0,0,0,0) --> (0,0,1,1,0,0)\n\n\t\t// times or values may be shared with other tracks, so overwriting is unsafe\n\t\tconst times = this.times.slice(),\n\t\t\tvalues = this.values.slice(),\n\t\t\tstride = this.getValueSize(),\n\n\t\t\tsmoothInterpolation = this.getInterpolation() === InterpolateSmooth,\n\n\t\t\tlastIndex = times.length - 1;\n\n\t\tlet writeIndex = 1;\n\n\t\tfor ( let i = 1; i < lastIndex; ++ i ) {\n\n\t\t\tlet keep = false;\n\n\t\t\tconst time = times[ i ];\n\t\t\tconst timeNext = times[ i + 1 ];\n\n\t\t\t// remove adjacent keyframes scheduled at the same time\n\n\t\t\tif ( time !== timeNext && ( i !== 1 || time !== times[ 0 ] ) ) {\n\n\t\t\t\tif ( ! smoothInterpolation ) {\n\n\t\t\t\t\t// remove unnecessary keyframes same as their neighbors\n\n\t\t\t\t\tconst offset = i * stride,\n\t\t\t\t\t\toffsetP = offset - stride,\n\t\t\t\t\t\toffsetN = offset + stride;\n\n\t\t\t\t\tfor ( let j = 0; j !== stride; ++ j ) {\n\n\t\t\t\t\t\tconst value = values[ offset + j ];\n\n\t\t\t\t\t\tif ( value !== values[ offsetP + j ] ||\n\t\t\t\t\t\t\tvalue !== values[ offsetN + j ] ) {\n\n\t\t\t\t\t\t\tkeep = true;\n\t\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\tkeep = true;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// in-place compaction\n\n\t\t\tif ( keep ) {\n\n\t\t\t\tif ( i !== writeIndex ) {\n\n\t\t\t\t\ttimes[ writeIndex ] = times[ i ];\n\n\t\t\t\t\tconst readOffset = i * stride,\n\t\t\t\t\t\twriteOffset = writeIndex * stride;\n\n\t\t\t\t\tfor ( let j = 0; j !== stride; ++ j ) {\n\n\t\t\t\t\t\tvalues[ writeOffset + j ] = values[ readOffset + j ];\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\t++ writeIndex;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// flush last keyframe (compaction looks ahead)\n\n\t\tif ( lastIndex > 0 ) {\n\n\t\t\ttimes[ writeIndex ] = times[ lastIndex ];\n\n\t\t\tfor ( let readOffset = lastIndex * stride, writeOffset = writeIndex * stride, j = 0; j !== stride; ++ j ) {\n\n\t\t\t\tvalues[ writeOffset + j ] = values[ readOffset + j ];\n\n\t\t\t}\n\n\t\t\t++ writeIndex;\n\n\t\t}\n\n\t\tif ( writeIndex !== times.length ) {\n\n\t\t\tthis.times = times.slice( 0, writeIndex );\n\t\t\tthis.values = values.slice( 0, writeIndex * stride );\n\n\t\t} else {\n\n\t\t\tthis.times = times;\n\t\t\tthis.values = values;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new keyframe track with copied values from this instance.\n\t *\n\t * @return {KeyframeTrack} A clone of this instance.\n\t */\n\tclone() {\n\n\t\tconst times = this.times.slice();\n\t\tconst values = this.values.slice();\n\n\t\tconst TypedKeyframeTrack = this.constructor;\n\t\tconst track = new TypedKeyframeTrack( this.name, times, values );\n\n\t\t// Interpolant argument to constructor is not saved, so copy the factory method directly.\n\t\ttrack.createInterpolant = this.createInterpolant;\n\n\t\treturn track;\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default ''\n */\nKeyframeTrack.prototype.ValueTypeName = '';\n\n/**\n * The time buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Float32Array.constructor\n */\nKeyframeTrack.prototype.TimeBufferType = Float32Array;\n\n/**\n * The value buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Float32Array.constructor\n */\nKeyframeTrack.prototype.ValueBufferType = Float32Array;\n\n/**\n * The default interpolation type of this keyframe track.\n *\n * @type {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)}\n * @default InterpolateLinear\n */\nKeyframeTrack.prototype.DefaultInterpolation = InterpolateLinear;\n\n/**\n * A track for boolean keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass BooleanKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new boolean keyframe track.\n\t *\n\t * This keyframe track type has no `interpolation` parameter because the\n\t * interpolation is always discrete.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t */\n\tconstructor( name, times, values ) {\n\n\t\tsuper( name, times, values );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'bool'\n */\nBooleanKeyframeTrack.prototype.ValueTypeName = 'bool';\n\n/**\n * The value buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Array.constructor\n */\nBooleanKeyframeTrack.prototype.ValueBufferType = Array;\n\n/**\n * The default interpolation type of this keyframe track.\n *\n * @type {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)}\n * @default InterpolateDiscrete\n */\nBooleanKeyframeTrack.prototype.DefaultInterpolation = InterpolateDiscrete;\nBooleanKeyframeTrack.prototype.InterpolantFactoryMethodLinear = undefined;\nBooleanKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined;\n\n/**\n * A track for color keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass ColorKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new color keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'color'\n */\nColorKeyframeTrack.prototype.ValueTypeName = 'color';\n\n/**\n * A track for numeric keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass NumberKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new number keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'number'\n */\nNumberKeyframeTrack.prototype.ValueTypeName = 'number';\n\n/**\n * Spherical linear unit quaternion interpolant.\n *\n * @augments Interpolant\n */\nclass QuaternionLinearInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new SLERP interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t}\n\n\tinterpolate_( i1, t0, t, t1 ) {\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\n\t\t\talpha = ( t - t0 ) / ( t1 - t0 );\n\n\t\tlet offset = i1 * stride;\n\n\t\tfor ( let end = offset + stride; offset !== end; offset += 4 ) {\n\n\t\t\tQuaternion.slerpFlat( result, 0, values, offset - stride, values, offset, alpha );\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n}\n\n/**\n * A track for Quaternion keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass QuaternionKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new Quaternion keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n\t/**\n\t * Overwritten so the method returns Quaternion based interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {QuaternionLinearInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodLinear( result ) {\n\n\t\treturn new QuaternionLinearInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'quaternion'\n */\nQuaternionKeyframeTrack.prototype.ValueTypeName = 'quaternion';\n// ValueBufferType is inherited\n// DefaultInterpolation is inherited;\nQuaternionKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined;\n\n/**\n * A track for string keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass StringKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new string keyframe track.\n\t *\n\t * This keyframe track type has no `interpolation` parameter because the\n\t * interpolation is always discrete.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t */\n\tconstructor( name, times, values ) {\n\n\t\tsuper( name, times, values );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'string'\n */\nStringKeyframeTrack.prototype.ValueTypeName = 'string';\n\n/**\n * The value buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Array.constructor\n */\nStringKeyframeTrack.prototype.ValueBufferType = Array;\n\n/**\n * The default interpolation type of this keyframe track.\n *\n * @type {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)}\n * @default InterpolateDiscrete\n */\nStringKeyframeTrack.prototype.DefaultInterpolation = InterpolateDiscrete;\nStringKeyframeTrack.prototype.InterpolantFactoryMethodLinear = undefined;\nStringKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined;\n\n/**\n * A track for vector keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass VectorKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new vector keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'vector'\n */\nVectorKeyframeTrack.prototype.ValueTypeName = 'vector';\n\n/**\n * A reusable set of keyframe tracks which represent an animation.\n */\nclass AnimationClip {\n\n\t/**\n\t * Constructs a new animation clip.\n\t *\n\t * Note: Instead of instantiating an AnimationClip directly with the constructor, you can\n\t * use the static interface of this class for creating clips. In most cases though, animation clips\n\t * will automatically be created by loaders when importing animated 3D assets.\n\t *\n\t * @param {string} [name=''] - The clip's name.\n\t * @param {number} [duration=-1] - The clip's duration in seconds. If a negative value is passed,\n\t * the duration will be calculated from the passed keyframes.\n\t * @param {Array} tracks - An array of keyframe tracks.\n\t * @param {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)} [blendMode=NormalAnimationBlendMode] - Defines how the animation\n\t * is blended/combined when two or more animations are simultaneously played.\n\t */\n\tconstructor( name = '', duration = -1, tracks = [], blendMode = NormalAnimationBlendMode ) {\n\n\t\t/**\n\t\t * The clip's name.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = name;\n\n\t\t/**\n\t\t * An array of keyframe tracks.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.tracks = tracks;\n\n\t\t/**\n\t\t * The clip's duration in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.duration = duration;\n\n\t\t/**\n\t\t * Defines how the animation is blended/combined when two or more animations\n\t\t * are simultaneously played.\n\t\t *\n\t\t * @type {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)}\n\t\t */\n\t\tthis.blendMode = blendMode;\n\n\t\t/**\n\t\t * The UUID of the animation clip.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the animation clip.\n\t\t * It should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t\t// this means it should figure out its duration by scanning the tracks\n\t\tif ( this.duration < 0 ) {\n\n\t\t\tthis.resetDuration();\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Factory method for creating an animation clip from the given JSON.\n\t *\n\t * @static\n\t * @param {Object} json - The serialized animation clip.\n\t * @return {AnimationClip} The new animation clip.\n\t */\n\tstatic parse( json ) {\n\n\t\tconst tracks = [],\n\t\t\tjsonTracks = json.tracks,\n\t\t\tframeTime = 1.0 / ( json.fps || 1.0 );\n\n\t\tfor ( let i = 0, n = jsonTracks.length; i !== n; ++ i ) {\n\n\t\t\ttracks.push( parseKeyframeTrack( jsonTracks[ i ] ).scale( frameTime ) );\n\n\t\t}\n\n\t\tconst clip = new this( json.name, json.duration, tracks, json.blendMode );\n\t\tclip.uuid = json.uuid;\n\n\t\tclip.userData = JSON.parse( json.userData || '{}' );\n\n\t\treturn clip;\n\n\t}\n\n\t/**\n\t * Serializes the given animation clip into JSON.\n\t *\n\t * @static\n\t * @param {AnimationClip} clip - The animation clip to serialize.\n\t * @return {Object} The JSON object.\n\t */\n\tstatic toJSON( clip ) {\n\n\t\tconst tracks = [],\n\t\t\tclipTracks = clip.tracks;\n\n\t\tconst json = {\n\n\t\t\t'name': clip.name,\n\t\t\t'duration': clip.duration,\n\t\t\t'tracks': tracks,\n\t\t\t'uuid': clip.uuid,\n\t\t\t'blendMode': clip.blendMode,\n\t\t\t'userData': JSON.stringify( clip.userData ),\n\n\t\t};\n\n\t\tfor ( let i = 0, n = clipTracks.length; i !== n; ++ i ) {\n\n\t\t\ttracks.push( KeyframeTrack.toJSON( clipTracks[ i ] ) );\n\n\t\t}\n\n\t\treturn json;\n\n\t}\n\n\t/**\n\t * Returns a new animation clip from the passed morph targets array of a\n\t * geometry, taking a name and the number of frames per second.\n\t *\n\t * Note: The fps parameter is required, but the animation speed can be\n\t * overridden via {@link AnimationAction#setDuration}.\n\t *\n\t * @static\n\t * @param {string} name - The name of the animation clip.\n\t * @param {Array} morphTargetSequence - A sequence of morph targets.\n\t * @param {number} fps - The Frames-Per-Second value.\n\t * @param {boolean} noLoop - Whether the clip should be no loop or not.\n\t * @return {AnimationClip} The new animation clip.\n\t */\n\tstatic CreateFromMorphTargetSequence( name, morphTargetSequence, fps, noLoop ) {\n\n\t\tconst numMorphTargets = morphTargetSequence.length;\n\t\tconst tracks = [];\n\n\t\tfor ( let i = 0; i < numMorphTargets; i ++ ) {\n\n\t\t\tlet times = [];\n\t\t\tlet values = [];\n\n\t\t\ttimes.push(\n\t\t\t\t( i + numMorphTargets - 1 ) % numMorphTargets,\n\t\t\t\ti,\n\t\t\t\t( i + 1 ) % numMorphTargets );\n\n\t\t\tvalues.push( 0, 1, 0 );\n\n\t\t\tconst order = getKeyframeOrder( times );\n\t\t\ttimes = sortedArray( times, 1, order );\n\t\t\tvalues = sortedArray( values, 1, order );\n\n\t\t\t// if there is a key at the first frame, duplicate it as the\n\t\t\t// last frame as well for perfect loop.\n\t\t\tif ( ! noLoop && times[ 0 ] === 0 ) {\n\n\t\t\t\ttimes.push( numMorphTargets );\n\t\t\t\tvalues.push( values[ 0 ] );\n\n\t\t\t}\n\n\t\t\ttracks.push(\n\t\t\t\tnew NumberKeyframeTrack(\n\t\t\t\t\t'.morphTargetInfluences[' + morphTargetSequence[ i ].name + ']',\n\t\t\t\t\ttimes, values\n\t\t\t\t).scale( 1.0 / fps ) );\n\n\t\t}\n\n\t\treturn new this( name, -1, tracks );\n\n\t}\n\n\t/**\n\t * Searches for an animation clip by name, taking as its first parameter\n\t * either an array of clips, or a mesh or geometry that contains an\n\t * array named \"animations\" property.\n\t *\n\t * @static\n\t * @param {(Array|Object3D)} objectOrClipArray - The array or object to search through.\n\t * @param {string} name - The name to search for.\n\t * @return {?AnimationClip} The found animation clip. Returns `null` if no clip has been found.\n\t */\n\tstatic findByName( objectOrClipArray, name ) {\n\n\t\tlet clipArray = objectOrClipArray;\n\n\t\tif ( ! Array.isArray( objectOrClipArray ) ) {\n\n\t\t\tconst o = objectOrClipArray;\n\t\t\tclipArray = o.geometry && o.geometry.animations || o.animations;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < clipArray.length; i ++ ) {\n\n\t\t\tif ( clipArray[ i ].name === name ) {\n\n\t\t\t\treturn clipArray[ i ];\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t/**\n\t * Returns an array of new AnimationClips created from the morph target\n\t * sequences of a geometry, trying to sort morph target names into\n\t * animation-group-based patterns like \"Walk_001, Walk_002, Run_001, Run_002...\".\n\t *\n\t * See {@link MD2Loader#parse} as an example for how the method should be used.\n\t *\n\t * @static\n\t * @param {Array} morphTargets - A sequence of morph targets.\n\t * @param {number} fps - The Frames-Per-Second value.\n\t * @param {boolean} noLoop - Whether the clip should be no loop or not.\n\t * @return {Array} An array of new animation clips.\n\t */\n\tstatic CreateClipsFromMorphTargetSequences( morphTargets, fps, noLoop ) {\n\n\t\tconst animationToMorphTargets = {};\n\n\t\t// tested with https://regex101.com/ on trick sequences\n\t\t// such flamingo_flyA_003, flamingo_run1_003, crdeath0059\n\t\tconst pattern = /^([\\w-]*?)([\\d]+)$/;\n\n\t\t// sort morph target names into animation groups based\n\t\t// patterns like Walk_001, Walk_002, Run_001, Run_002\n\t\tfor ( let i = 0, il = morphTargets.length; i < il; i ++ ) {\n\n\t\t\tconst morphTarget = morphTargets[ i ];\n\t\t\tconst parts = morphTarget.name.match( pattern );\n\n\t\t\tif ( parts && parts.length > 1 ) {\n\n\t\t\t\tconst name = parts[ 1 ];\n\n\t\t\t\tlet animationMorphTargets = animationToMorphTargets[ name ];\n\n\t\t\t\tif ( ! animationMorphTargets ) {\n\n\t\t\t\t\tanimationToMorphTargets[ name ] = animationMorphTargets = [];\n\n\t\t\t\t}\n\n\t\t\t\tanimationMorphTargets.push( morphTarget );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst clips = [];\n\n\t\tfor ( const name in animationToMorphTargets ) {\n\n\t\t\tclips.push( this.CreateFromMorphTargetSequence( name, animationToMorphTargets[ name ], fps, noLoop ) );\n\n\t\t}\n\n\t\treturn clips;\n\n\t}\n\n\t/**\n\t * Parses the `animation.hierarchy` format and returns a new animation clip.\n\t *\n\t * @static\n\t * @deprecated since r175.\n\t * @param {Object} animation - A serialized animation clip as JSON.\n\t * @param {Array} bones - An array of bones.\n\t * @return {?AnimationClip} The new animation clip.\n\t */\n\tstatic parseAnimation( animation, bones ) {\n\n\t\tconsole.warn( 'THREE.AnimationClip: parseAnimation() is deprecated and will be removed with r185' );\n\n\t\tif ( ! animation ) {\n\n\t\t\tconsole.error( 'THREE.AnimationClip: No animation in JSONLoader data.' );\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst addNonemptyTrack = function ( trackType, trackName, animationKeys, propertyName, destTracks ) {\n\n\t\t\t// only return track if there are actually keys.\n\t\t\tif ( animationKeys.length !== 0 ) {\n\n\t\t\t\tconst times = [];\n\t\t\t\tconst values = [];\n\n\t\t\t\tflattenJSON( animationKeys, times, values, propertyName );\n\n\t\t\t\t// empty keys are filtered out, so check again\n\t\t\t\tif ( times.length !== 0 ) {\n\n\t\t\t\t\tdestTracks.push( new trackType( trackName, times, values ) );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t};\n\n\t\tconst tracks = [];\n\n\t\tconst clipName = animation.name || 'default';\n\t\tconst fps = animation.fps || 30;\n\t\tconst blendMode = animation.blendMode;\n\n\t\t// automatic length determination in AnimationClip.\n\t\tlet duration = animation.length || -1;\n\n\t\tconst hierarchyTracks = animation.hierarchy || [];\n\n\t\tfor ( let h = 0; h < hierarchyTracks.length; h ++ ) {\n\n\t\t\tconst animationKeys = hierarchyTracks[ h ].keys;\n\n\t\t\t// skip empty tracks\n\t\t\tif ( ! animationKeys || animationKeys.length === 0 ) continue;\n\n\t\t\t// process morph targets\n\t\t\tif ( animationKeys[ 0 ].morphTargets ) {\n\n\t\t\t\t// figure out all morph targets used in this track\n\t\t\t\tconst morphTargetNames = {};\n\n\t\t\t\tlet k;\n\n\t\t\t\tfor ( k = 0; k < animationKeys.length; k ++ ) {\n\n\t\t\t\t\tif ( animationKeys[ k ].morphTargets ) {\n\n\t\t\t\t\t\tfor ( let m = 0; m < animationKeys[ k ].morphTargets.length; m ++ ) {\n\n\t\t\t\t\t\t\tmorphTargetNames[ animationKeys[ k ].morphTargets[ m ] ] = -1;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\t// create a track for each morph target with all zero\n\t\t\t\t// morphTargetInfluences except for the keys in which\n\t\t\t\t// the morphTarget is named.\n\t\t\t\tfor ( const morphTargetName in morphTargetNames ) {\n\n\t\t\t\t\tconst times = [];\n\t\t\t\t\tconst values = [];\n\n\t\t\t\t\tfor ( let m = 0; m !== animationKeys[ k ].morphTargets.length; ++ m ) {\n\n\t\t\t\t\t\tconst animationKey = animationKeys[ k ];\n\n\t\t\t\t\t\ttimes.push( animationKey.time );\n\t\t\t\t\t\tvalues.push( ( animationKey.morphTarget === morphTargetName ) ? 1 : 0 );\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttracks.push( new NumberKeyframeTrack( '.morphTargetInfluence[' + morphTargetName + ']', times, values ) );\n\n\t\t\t\t}\n\n\t\t\t\tduration = morphTargetNames.length * fps;\n\n\t\t\t} else {\n\n\t\t\t\t// ...assume skeletal animation\n\n\t\t\t\tconst boneName = '.bones[' + bones[ h ].name + ']';\n\n\t\t\t\taddNonemptyTrack(\n\t\t\t\t\tVectorKeyframeTrack, boneName + '.position',\n\t\t\t\t\tanimationKeys, 'pos', tracks );\n\n\t\t\t\taddNonemptyTrack(\n\t\t\t\t\tQuaternionKeyframeTrack, boneName + '.quaternion',\n\t\t\t\t\tanimationKeys, 'rot', tracks );\n\n\t\t\t\taddNonemptyTrack(\n\t\t\t\t\tVectorKeyframeTrack, boneName + '.scale',\n\t\t\t\t\tanimationKeys, 'scl', tracks );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( tracks.length === 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst clip = new this( clipName, duration, tracks, blendMode );\n\n\t\treturn clip;\n\n\t}\n\n\t/**\n\t * Sets the duration of this clip to the duration of its longest keyframe track.\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\tresetDuration() {\n\n\t\tconst tracks = this.tracks;\n\t\tlet duration = 0;\n\n\t\tfor ( let i = 0, n = tracks.length; i !== n; ++ i ) {\n\n\t\t\tconst track = this.tracks[ i ];\n\n\t\t\tduration = Math.max( duration, track.times[ track.times.length - 1 ] );\n\n\t\t}\n\n\t\tthis.duration = duration;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Trims all tracks to the clip's duration.\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\ttrim() {\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\tthis.tracks[ i ].trim( 0, this.duration );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs minimal validation on each track in the clip. Returns `true` if all\n\t * tracks are valid.\n\t *\n\t * @return {boolean} Whether the clip's keyframes are valid or not.\n\t */\n\tvalidate() {\n\n\t\tlet valid = true;\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\tvalid = valid && this.tracks[ i ].validate();\n\n\t\t}\n\n\t\treturn valid;\n\n\t}\n\n\t/**\n\t * Optimizes each track by removing equivalent sequential keys (which are\n\t * common in morph target sequences).\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\toptimize() {\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\tthis.tracks[ i ].optimize();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new animation clip with copied values from this instance.\n\t *\n\t * @return {AnimationClip} A clone of this instance.\n\t */\n\tclone() {\n\n\t\tconst tracks = [];\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\ttracks.push( this.tracks[ i ].clone() );\n\n\t\t}\n\n\t\tconst clip = new this.constructor( this.name, this.duration, tracks, this.blendMode );\n\n\t\tclip.userData = JSON.parse( JSON.stringify( this.userData ) );\n\n\t\treturn clip;\n\n\t}\n\n\t/**\n\t * Serializes this animation clip into JSON.\n\t *\n\t * @return {Object} The JSON object.\n\t */\n\ttoJSON() {\n\n\t\treturn this.constructor.toJSON( this );\n\n\t}\n\n}\n\nfunction getTrackTypeForValueTypeName( typeName ) {\n\n\tswitch ( typeName.toLowerCase() ) {\n\n\t\tcase 'scalar':\n\t\tcase 'double':\n\t\tcase 'float':\n\t\tcase 'number':\n\t\tcase 'integer':\n\n\t\t\treturn NumberKeyframeTrack;\n\n\t\tcase 'vector':\n\t\tcase 'vector2':\n\t\tcase 'vector3':\n\t\tcase 'vector4':\n\n\t\t\treturn VectorKeyframeTrack;\n\n\t\tcase 'color':\n\n\t\t\treturn ColorKeyframeTrack;\n\n\t\tcase 'quaternion':\n\n\t\t\treturn QuaternionKeyframeTrack;\n\n\t\tcase 'bool':\n\t\tcase 'boolean':\n\n\t\t\treturn BooleanKeyframeTrack;\n\n\t\tcase 'string':\n\n\t\t\treturn StringKeyframeTrack;\n\n\t}\n\n\tthrow new Error( 'THREE.KeyframeTrack: Unsupported typeName: ' + typeName );\n\n}\n\nfunction parseKeyframeTrack( json ) {\n\n\tif ( json.type === undefined ) {\n\n\t\tthrow new Error( 'THREE.KeyframeTrack: track type undefined, can not parse' );\n\n\t}\n\n\tconst trackType = getTrackTypeForValueTypeName( json.type );\n\n\tif ( json.times === undefined ) {\n\n\t\tconst times = [], values = [];\n\n\t\tflattenJSON( json.keys, times, values, 'value' );\n\n\t\tjson.times = times;\n\t\tjson.values = values;\n\n\t}\n\n\t// derived classes can define a static parse method\n\tif ( trackType.parse !== undefined ) {\n\n\t\treturn trackType.parse( json );\n\n\t} else {\n\n\t\t// by default, we assume a constructor compatible with the base\n\t\treturn new trackType( json.name, json.times, json.values, json.interpolation );\n\n\t}\n\n}\n\n/**\n * @class\n * @classdesc A simple caching system, used internally by {@link FileLoader}.\n * To enable caching across all loaders that use {@link FileLoader}, add `THREE.Cache.enabled = true.` once in your app.\n * @hideconstructor\n */\nconst Cache = {\n\n\t/**\n\t * Whether caching is enabled or not.\n\t *\n\t * @static\n\t * @type {boolean}\n\t * @default false\n\t */\n\tenabled: false,\n\n\t/**\n\t * A dictionary that holds cached files.\n\t *\n\t * @static\n\t * @type {Object}\n\t */\n\tfiles: {},\n\n\t/**\n\t * Adds a cache entry with a key to reference the file. If this key already\n\t * holds a file, it is overwritten.\n\t *\n\t * @static\n\t * @param {string} key - The key to reference the cached file.\n\t * @param {Object} file - The file to be cached.\n\t */\n\tadd: function ( key, file ) {\n\n\t\tif ( this.enabled === false ) return;\n\n\t\t// console.log( 'THREE.Cache', 'Adding key:', key );\n\n\t\tthis.files[ key ] = file;\n\n\t},\n\n\t/**\n\t * Gets the cached value for the given key.\n\t *\n\t * @static\n\t * @param {string} key - The key to reference the cached file.\n\t * @return {Object|undefined} The cached file. If the key does not exist `undefined` is returned.\n\t */\n\tget: function ( key ) {\n\n\t\tif ( this.enabled === false ) return;\n\n\t\t// console.log( 'THREE.Cache', 'Checking key:', key );\n\n\t\treturn this.files[ key ];\n\n\t},\n\n\t/**\n\t * Removes the cached file associated with the given key.\n\t *\n\t * @static\n\t * @param {string} key - The key to reference the cached file.\n\t */\n\tremove: function ( key ) {\n\n\t\tdelete this.files[ key ];\n\n\t},\n\n\t/**\n\t * Remove all values from the cache.\n\t *\n\t * @static\n\t */\n\tclear: function () {\n\n\t\tthis.files = {};\n\n\t}\n\n};\n\n/**\n * Handles and keeps track of loaded and pending data. A default global\n * instance of this class is created and used by loaders if not supplied\n * manually.\n *\n * In general that should be sufficient, however there are times when it can\n * be useful to have separate loaders - for example if you want to show\n * separate loading bars for objects and textures.\n *\n * ```js\n * const manager = new THREE.LoadingManager();\n * manager.onLoad = () => console.log( 'Loading complete!' );\n *\n * const loader1 = new OBJLoader( manager );\n * const loader2 = new ColladaLoader( manager );\n * ```\n */\nclass LoadingManager {\n\n\t/**\n\t * Constructs a new loading manager.\n\t *\n\t * @param {Function} [onLoad] - Executes when all items have been loaded.\n\t * @param {Function} [onProgress] - Executes when single items have been loaded.\n\t * @param {Function} [onError] - Executes when an error occurs.\n\t */\n\tconstructor( onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tlet isLoading = false;\n\t\tlet itemsLoaded = 0;\n\t\tlet itemsTotal = 0;\n\t\tlet urlModifier = undefined;\n\t\tconst handlers = [];\n\n\t\t// Refer to #5689 for the reason why we don't set .onStart\n\t\t// in the constructor\n\n\t\t/**\n\t\t * Executes when an item starts loading.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onStart = undefined;\n\n\t\t/**\n\t\t * Executes when all items have been loaded.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onLoad = onLoad;\n\n\t\t/**\n\t\t * Executes when single items have been loaded.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onProgress = onProgress;\n\n\t\t/**\n\t\t * Executes when an error occurs.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onError = onError;\n\n\t\t/**\n\t\t * Used for aborting ongoing requests in loaders using this manager.\n\t\t *\n\t\t * @type {AbortController}\n\t\t */\n\t\tthis.abortController = new AbortController();\n\n\t\t/**\n\t\t * This should be called by any loader using the manager when the loader\n\t\t * starts loading an item.\n\t\t *\n\t\t * @param {string} url - The URL to load.\n\t\t */\n\t\tthis.itemStart = function ( url ) {\n\n\t\t\titemsTotal ++;\n\n\t\t\tif ( isLoading === false ) {\n\n\t\t\t\tif ( scope.onStart !== undefined ) {\n\n\t\t\t\t\tscope.onStart( url, itemsLoaded, itemsTotal );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tisLoading = true;\n\n\t\t};\n\n\t\t/**\n\t\t * This should be called by any loader using the manager when the loader\n\t\t * ended loading an item.\n\t\t *\n\t\t * @param {string} url - The URL of the loaded item.\n\t\t */\n\t\tthis.itemEnd = function ( url ) {\n\n\t\t\titemsLoaded ++;\n\n\t\t\tif ( scope.onProgress !== undefined ) {\n\n\t\t\t\tscope.onProgress( url, itemsLoaded, itemsTotal );\n\n\t\t\t}\n\n\t\t\tif ( itemsLoaded === itemsTotal ) {\n\n\t\t\t\tisLoading = false;\n\n\t\t\t\tif ( scope.onLoad !== undefined ) {\n\n\t\t\t\t\tscope.onLoad();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t};\n\n\t\t/**\n\t\t * This should be called by any loader using the manager when the loader\n\t\t * encounters an error when loading an item.\n\t\t *\n\t\t * @param {string} url - The URL of the item that produces an error.\n\t\t */\n\t\tthis.itemError = function ( url ) {\n\n\t\t\tif ( scope.onError !== undefined ) {\n\n\t\t\t\tscope.onError( url );\n\n\t\t\t}\n\n\t\t};\n\n\t\t/**\n\t\t * Given a URL, uses the URL modifier callback (if any) and returns a\n\t\t * resolved URL. If no URL modifier is set, returns the original URL.\n\t\t *\n\t\t * @param {string} url - The URL to load.\n\t\t * @return {string} The resolved URL.\n\t\t */\n\t\tthis.resolveURL = function ( url ) {\n\n\t\t\tif ( urlModifier ) {\n\n\t\t\t\treturn urlModifier( url );\n\n\t\t\t}\n\n\t\t\treturn url;\n\n\t\t};\n\n\t\t/**\n\t\t * If provided, the callback will be passed each resource URL before a\n\t\t * request is sent. The callback may return the original URL, or a new URL to\n\t\t * override loading behavior. This behavior can be used to load assets from\n\t\t * .ZIP files, drag-and-drop APIs, and Data URIs.\n\t\t *\n\t\t * ```js\n\t\t * const blobs = {'fish.gltf': blob1, 'diffuse.png': blob2, 'normal.png': blob3};\n\t\t *\n\t\t * const manager = new THREE.LoadingManager();\n\t\t *\n\t\t * // Initialize loading manager with URL callback.\n\t\t * const objectURLs = [];\n\t\t * manager.setURLModifier( ( url ) => {\n\t\t *\n\t\t * \turl = URL.createObjectURL( blobs[ url ] );\n\t\t * \tobjectURLs.push( url );\n\t\t * \treturn url;\n\t\t *\n\t\t * } );\n\t\t *\n\t\t * // Load as usual, then revoke the blob URLs.\n\t\t * const loader = new GLTFLoader( manager );\n\t\t * loader.load( 'fish.gltf', (gltf) => {\n\t\t *\n\t\t * \tscene.add( gltf.scene );\n\t\t * \tobjectURLs.forEach( ( url ) => URL.revokeObjectURL( url ) );\n\t\t *\n\t\t * } );\n\t\t * ```\n\t\t *\n\t\t * @param {function(string):string} transform - URL modifier callback. Called with an URL and must return a resolved URL.\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.setURLModifier = function ( transform ) {\n\n\t\t\turlModifier = transform;\n\n\t\t\treturn this;\n\n\t\t};\n\n\t\t/**\n\t\t * Registers a loader with the given regular expression. Can be used to\n\t\t * define what loader should be used in order to load specific files. A\n\t\t * typical use case is to overwrite the default loader for textures.\n\t\t *\n\t\t * ```js\n\t\t * // add handler for TGA textures\n\t\t * manager.addHandler( /\\.tga$/i, new TGALoader() );\n\t\t * ```\n\t\t *\n\t\t * @param {string} regex - A regular expression.\n\t\t * @param {Loader} loader - A loader that should handle matched cases.\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.addHandler = function ( regex, loader ) {\n\n\t\t\thandlers.push( regex, loader );\n\n\t\t\treturn this;\n\n\t\t};\n\n\t\t/**\n\t\t * Removes the loader for the given regular expression.\n\t\t *\n\t\t * @param {string} regex - A regular expression.\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.removeHandler = function ( regex ) {\n\n\t\t\tconst index = handlers.indexOf( regex );\n\n\t\t\tif ( index !== -1 ) {\n\n\t\t\t\thandlers.splice( index, 2 );\n\n\t\t\t}\n\n\t\t\treturn this;\n\n\t\t};\n\n\t\t/**\n\t\t * Can be used to retrieve the registered loader for the given file path.\n\t\t *\n\t\t * @param {string} file - The file path.\n\t\t * @return {?Loader} The registered loader. Returns `null` if no loader was found.\n\t\t */\n\t\tthis.getHandler = function ( file ) {\n\n\t\t\tfor ( let i = 0, l = handlers.length; i < l; i += 2 ) {\n\n\t\t\t\tconst regex = handlers[ i ];\n\t\t\t\tconst loader = handlers[ i + 1 ];\n\n\t\t\t\tif ( regex.global ) regex.lastIndex = 0; // see #17920\n\n\t\t\t\tif ( regex.test( file ) ) {\n\n\t\t\t\t\treturn loader;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn null;\n\n\t\t};\n\n\t\t/**\n\t\t * Can be used to abort ongoing loading requests in loaders using this manager.\n\t\t * The abort only works if the loaders implement {@link Loader#abort} and `AbortSignal.any()`\n\t\t * is supported in the browser.\n\t\t *\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.abort = function () {\n\n\t\t\tthis.abortController.abort();\n\t\t\tthis.abortController = new AbortController();\n\n\t\t\treturn this;\n\n\t\t};\n\n\t}\n\n}\n\n/**\n * The global default loading manager.\n *\n * @constant\n * @type {LoadingManager}\n */\nconst DefaultLoadingManager = /*@__PURE__*/ new LoadingManager();\n\n/**\n * Abstract base class for loaders.\n *\n * @abstract\n */\nclass Loader {\n\n\t/**\n\t * Constructs a new loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\t/**\n\t\t * The loading manager.\n\t\t *\n\t\t * @type {LoadingManager}\n\t\t * @default DefaultLoadingManager\n\t\t */\n\t\tthis.manager = ( manager !== undefined ) ? manager : DefaultLoadingManager;\n\n\t\t/**\n\t\t * The crossOrigin string to implement CORS for loading the url from a\n\t\t * different domain that allows CORS.\n\t\t *\n\t\t * @type {string}\n\t\t * @default 'anonymous'\n\t\t */\n\t\tthis.crossOrigin = 'anonymous';\n\n\t\t/**\n\t\t * Whether the XMLHttpRequest uses credentials.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.withCredentials = false;\n\n\t\t/**\n\t\t * The base path from which the asset will be loaded.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.path = '';\n\n\t\t/**\n\t\t * The base path from which additional resources like textures will be loaded.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.resourcePath = '';\n\n\t\t/**\n\t\t * The [request header]{@link https://developer.mozilla.org/en-US/docs/Glossary/Request_header}\n\t\t * used in HTTP request.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.requestHeader = {};\n\n\t}\n\n\t/**\n\t * This method needs to be implemented by all concrete loaders. It holds the\n\t * logic for loading assets from the backend.\n\t *\n\t * @abstract\n\t * @param {string} url - The path/URL of the file to be loaded.\n\t * @param {Function} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} [onProgress] - Executed while the loading is in progress.\n\t * @param {onErrorCallback} [onError] - Executed when errors occur.\n\t */\n\tload( /* url, onLoad, onProgress, onError */ ) {}\n\n\t/**\n\t * A async version of {@link Loader#load}.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded.\n\t * @param {onProgressCallback} [onProgress] - Executed while the loading is in progress.\n\t * @return {Promise} A Promise that resolves when the asset has been loaded.\n\t */\n\tloadAsync( url, onProgress ) {\n\n\t\tconst scope = this;\n\n\t\treturn new Promise( function ( resolve, reject ) {\n\n\t\t\tscope.load( url, resolve, onProgress, reject );\n\n\t\t} );\n\n\t}\n\n\t/**\n\t * This method needs to be implemented by all concrete loaders. It holds the\n\t * logic for parsing the asset into three.js entities.\n\t *\n\t * @abstract\n\t * @param {any} data - The data to parse.\n\t */\n\tparse( /* data */ ) {}\n\n\t/**\n\t * Sets the `crossOrigin` String to implement CORS for loading the URL\n\t * from a different domain that allows CORS.\n\t *\n\t * @param {string} crossOrigin - The `crossOrigin` value.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetCrossOrigin( crossOrigin ) {\n\n\t\tthis.crossOrigin = crossOrigin;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Whether the XMLHttpRequest uses credentials such as cookies, authorization\n\t * headers or TLS client certificates, see [XMLHttpRequest.withCredentials]{@link https://developer.mozilla.org/en-US/docs/Web/API/XMLHttpRequest/withCredentials}.\n\t *\n\t * Note: This setting has no effect if you are loading files locally or from the same domain.\n\t *\n\t * @param {boolean} value - The `withCredentials` value.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetWithCredentials( value ) {\n\n\t\tthis.withCredentials = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the base path for the asset.\n\t *\n\t * @param {string} path - The base path.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetPath( path ) {\n\n\t\tthis.path = path;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the base path for dependent resources like textures.\n\t *\n\t * @param {string} resourcePath - The resource path.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetResourcePath( resourcePath ) {\n\n\t\tthis.resourcePath = resourcePath;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given request header.\n\t *\n\t * @param {Object} requestHeader - A [request header]{@link https://developer.mozilla.org/en-US/docs/Glossary/Request_header}\n\t * for configuring the HTTP request.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetRequestHeader( requestHeader ) {\n\n\t\tthis.requestHeader = requestHeader;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This method can be implemented in loaders for aborting ongoing requests.\n\t *\n\t * @abstract\n\t * @return {Loader} A reference to this instance.\n\t */\n\tabort() {\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Callback for onProgress in loaders.\n *\n * @callback onProgressCallback\n * @param {ProgressEvent} event - An instance of `ProgressEvent` that represents the current loading status.\n */\n\n/**\n * Callback for onError in loaders.\n *\n * @callback onErrorCallback\n * @param {Error} error - The error which occurred during the loading process.\n */\n\n/**\n * The default material name that is used by loaders\n * when creating materials for loaded 3D objects.\n *\n * Note: Not all loaders might honor this setting.\n *\n * @static\n * @type {string}\n * @default '__DEFAULT'\n */\nLoader.DEFAULT_MATERIAL_NAME = '__DEFAULT';\n\nconst loading = {};\n\nclass HttpError extends Error {\n\n\tconstructor( message, response ) {\n\n\t\tsuper( message );\n\t\tthis.response = response;\n\n\t}\n\n}\n\n/**\n * A low level class for loading resources with the Fetch API, used internally by\n * most loaders. It can also be used directly to load any file type that does\n * not have a loader.\n *\n * This loader supports caching. If you want to use it, add `THREE.Cache.enabled = true;`\n * once to your application.\n *\n * ```js\n * const loader = new THREE.FileLoader();\n * const data = await loader.loadAsync( 'example.txt' );\n * ```\n *\n * @augments Loader\n */\nclass FileLoader extends Loader {\n\n\t/**\n\t * Constructs a new file loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t\t/**\n\t\t * The expected mime type. Valid values can be found\n\t\t * [here]{@link hhttps://developer.mozilla.org/en-US/docs/Web/API/DOMParser/parseFromString#mimetype}\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.mimeType = '';\n\n\t\t/**\n\t\t * The expected response type.\n\t\t *\n\t\t * @type {('arraybuffer'|'blob'|'document'|'json'|'')}\n\t\t * @default ''\n\t\t */\n\t\tthis.responseType = '';\n\n\t\t/**\n\t\t * Used for aborting requests.\n\t\t *\n\t\t * @private\n\t\t * @type {AbortController}\n\t\t */\n\t\tthis._abortController = new AbortController();\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded response to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(any)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} [onProgress] - Executed while the loading is in progress.\n\t * @param {onErrorCallback} [onError] - Executed when errors occur.\n\t * @return {any|undefined} The cached resource if available.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tif ( url === undefined ) url = '';\n\n\t\tif ( this.path !== undefined ) url = this.path + url;\n\n\t\turl = this.manager.resolveURL( url );\n\n\t\tconst cached = Cache.get( `file:${url}` );\n\n\t\tif ( cached !== undefined ) {\n\n\t\t\tthis.manager.itemStart( url );\n\n\t\t\tsetTimeout( () => {\n\n\t\t\t\tif ( onLoad ) onLoad( cached );\n\n\t\t\t\tthis.manager.itemEnd( url );\n\n\t\t\t}, 0 );\n\n\t\t\treturn cached;\n\n\t\t}\n\n\t\t// Check if request is duplicate\n\n\t\tif ( loading[ url ] !== undefined ) {\n\n\t\t\tloading[ url ].push( {\n\n\t\t\t\tonLoad: onLoad,\n\t\t\t\tonProgress: onProgress,\n\t\t\t\tonError: onError\n\n\t\t\t} );\n\n\t\t\treturn;\n\n\t\t}\n\n\t\t// Initialise array for duplicate requests\n\t\tloading[ url ] = [];\n\n\t\tloading[ url ].push( {\n\t\t\tonLoad: onLoad,\n\t\t\tonProgress: onProgress,\n\t\t\tonError: onError,\n\t\t} );\n\n\t\t// create request\n\t\tconst req = new Request( url, {\n\t\t\theaders: new Headers( this.requestHeader ),\n\t\t\tcredentials: this.withCredentials ? 'include' : 'same-origin',\n\t\t\tsignal: ( typeof AbortSignal.any === 'function' ) ? AbortSignal.any( [ this._abortController.signal, this.manager.abortController.signal ] ) : this._abortController.signal\n\t\t} );\n\n\t\t// record states ( avoid data race )\n\t\tconst mimeType = this.mimeType;\n\t\tconst responseType = this.responseType;\n\n\t\t// start the fetch\n\t\tfetch( req )\n\t\t\t.then( response => {\n\n\t\t\t\tif ( response.status === 200 || response.status === 0 ) {\n\n\t\t\t\t\t// Some browsers return HTTP Status 0 when using non-http protocol\n\t\t\t\t\t// e.g. 'file://' or 'data://'. Handle as success.\n\n\t\t\t\t\tif ( response.status === 0 ) {\n\n\t\t\t\t\t\tconsole.warn( 'THREE.FileLoader: HTTP Status 0 received.' );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// Workaround: Checking if response.body === undefined for Alipay browser #23548\n\n\t\t\t\t\tif ( typeof ReadableStream === 'undefined' || response.body === undefined || response.body.getReader === undefined ) {\n\n\t\t\t\t\t\treturn response;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tconst callbacks = loading[ url ];\n\t\t\t\t\tconst reader = response.body.getReader();\n\n\t\t\t\t\t// Nginx needs X-File-Size check\n\t\t\t\t\t// https://serverfault.com/questions/482875/why-does-nginx-remove-content-length-header-for-chunked-content\n\t\t\t\t\tconst contentLength = response.headers.get( 'X-File-Size' ) || response.headers.get( 'Content-Length' );\n\t\t\t\t\tconst total = contentLength ? parseInt( contentLength ) : 0;\n\t\t\t\t\tconst lengthComputable = total !== 0;\n\t\t\t\t\tlet loaded = 0;\n\n\t\t\t\t\t// periodically read data into the new stream tracking while download progress\n\t\t\t\t\tconst stream = new ReadableStream( {\n\t\t\t\t\t\tstart( controller ) {\n\n\t\t\t\t\t\t\treadData();\n\n\t\t\t\t\t\t\tfunction readData() {\n\n\t\t\t\t\t\t\t\treader.read().then( ( { done, value } ) => {\n\n\t\t\t\t\t\t\t\t\tif ( done ) {\n\n\t\t\t\t\t\t\t\t\t\tcontroller.close();\n\n\t\t\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\t\t\tloaded += value.byteLength;\n\n\t\t\t\t\t\t\t\t\t\tconst event = new ProgressEvent( 'progress', { lengthComputable, loaded, total } );\n\t\t\t\t\t\t\t\t\t\tfor ( let i = 0, il = callbacks.length; i < il; i ++ ) {\n\n\t\t\t\t\t\t\t\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\t\t\t\t\t\t\t\tif ( callback.onProgress ) callback.onProgress( event );\n\n\t\t\t\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\t\t\t\tcontroller.enqueue( value );\n\t\t\t\t\t\t\t\t\t\treadData();\n\n\t\t\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\t\t}, ( e ) => {\n\n\t\t\t\t\t\t\t\t\tcontroller.error( e );\n\n\t\t\t\t\t\t\t\t} );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t} );\n\n\t\t\t\t\treturn new Response( stream );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthrow new HttpError( `fetch for \"${response.url}\" responded with ${response.status}: ${response.statusText}`, response );\n\n\t\t\t\t}\n\n\t\t\t} )\n\t\t\t.then( response => {\n\n\t\t\t\tswitch ( responseType ) {\n\n\t\t\t\t\tcase 'arraybuffer':\n\n\t\t\t\t\t\treturn response.arrayBuffer();\n\n\t\t\t\t\tcase 'blob':\n\n\t\t\t\t\t\treturn response.blob();\n\n\t\t\t\t\tcase 'document':\n\n\t\t\t\t\t\treturn response.text()\n\t\t\t\t\t\t\t.then( text => {\n\n\t\t\t\t\t\t\t\tconst parser = new DOMParser();\n\t\t\t\t\t\t\t\treturn parser.parseFromString( text, mimeType );\n\n\t\t\t\t\t\t\t} );\n\n\t\t\t\t\tcase 'json':\n\n\t\t\t\t\t\treturn response.json();\n\n\t\t\t\t\tdefault:\n\n\t\t\t\t\t\tif ( mimeType === '' ) {\n\n\t\t\t\t\t\t\treturn response.text();\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t// sniff encoding\n\t\t\t\t\t\t\tconst re = /charset=\"?([^;\"\\s]*)\"?/i;\n\t\t\t\t\t\t\tconst exec = re.exec( mimeType );\n\t\t\t\t\t\t\tconst label = exec && exec[ 1 ] ? exec[ 1 ].toLowerCase() : undefined;\n\t\t\t\t\t\t\tconst decoder = new TextDecoder( label );\n\t\t\t\t\t\t\treturn response.arrayBuffer().then( ab => decoder.decode( ab ) );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} )\n\t\t\t.then( data => {\n\n\t\t\t\t// Add to cache only on HTTP success, so that we do not cache\n\t\t\t\t// error response bodies as proper responses to requests.\n\t\t\t\tCache.add( `file:${url}`, data );\n\n\t\t\t\tconst callbacks = loading[ url ];\n\t\t\t\tdelete loading[ url ];\n\n\t\t\t\tfor ( let i = 0, il = callbacks.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\t\tif ( callback.onLoad ) callback.onLoad( data );\n\n\t\t\t\t}\n\n\t\t\t} )\n\t\t\t.catch( err => {\n\n\t\t\t\t// Abort errors and other errors are handled the same\n\n\t\t\t\tconst callbacks = loading[ url ];\n\n\t\t\t\tif ( callbacks === undefined ) {\n\n\t\t\t\t\t// When onLoad was called and url was deleted in `loading`\n\t\t\t\t\tthis.manager.itemError( url );\n\t\t\t\t\tthrow err;\n\n\t\t\t\t}\n\n\t\t\t\tdelete loading[ url ];\n\n\t\t\t\tfor ( let i = 0, il = callbacks.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\t\tif ( callback.onError ) callback.onError( err );\n\n\t\t\t\t}\n\n\t\t\t\tthis.manager.itemError( url );\n\n\t\t\t} )\n\t\t\t.finally( () => {\n\n\t\t\t\tthis.manager.itemEnd( url );\n\n\t\t\t} );\n\n\t\tthis.manager.itemStart( url );\n\n\t}\n\n\t/**\n\t * Sets the expected response type.\n\t *\n\t * @param {('arraybuffer'|'blob'|'document'|'json'|'')} value - The response type.\n\t * @return {FileLoader} A reference to this file loader.\n\t */\n\tsetResponseType( value ) {\n\n\t\tthis.responseType = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the expected mime type of the loaded file.\n\t *\n\t * @param {string} value - The mime type.\n\t * @return {FileLoader} A reference to this file loader.\n\t */\n\tsetMimeType( value ) {\n\n\t\tthis.mimeType = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Aborts ongoing fetch requests.\n\t *\n\t * @return {FileLoader} A reference to this instance.\n\t */\n\tabort() {\n\n\t\tthis._abortController.abort();\n\t\tthis._abortController = new AbortController();\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Class for loading animation clips in the JSON format. The files are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.AnimationLoader();\n * const animations = await loader.loadAsync( 'animations/animation.js' );\n * ```\n *\n * @augments Loader\n */\nclass AnimationLoader extends Loader {\n\n\t/**\n\t * Constructs a new animation loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded animations as an array\n\t * holding instances of {@link AnimationClip} to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Array)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\ttry {\n\n\t\t\t\tonLoad( scope.parse( JSON.parse( text ) ) );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\tif ( onError ) {\n\n\t\t\t\t\tonError( e );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( e );\n\n\t\t\t\t}\n\n\t\t\t\tscope.manager.itemError( url );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Parses the given JSON object and returns an array of animation clips.\n\t *\n\t * @param {Object} json - The serialized animation clips.\n\t * @return {Array} The parsed animation clips.\n\t */\n\tparse( json ) {\n\n\t\tconst animations = [];\n\n\t\tfor ( let i = 0; i < json.length; i ++ ) {\n\n\t\t\tconst clip = AnimationClip.parse( json[ i ] );\n\n\t\t\tanimations.push( clip );\n\n\t\t}\n\n\t\treturn animations;\n\n\t}\n\n}\n\n/**\n * Abstract base class for loading compressed texture formats S3TC, ASTC or ETC.\n * Textures are internally loaded via {@link FileLoader}.\n *\n * Derived classes have to implement the `parse()` method which holds the parsing\n * for the respective format.\n *\n * @abstract\n * @augments Loader\n */\nclass CompressedTextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new compressed texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded compressed texture\n\t * to the `onLoad()` callback. The method also returns a new texture object which can\n\t * directly be used for material creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(CompressedTexture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {CompressedTexture} The compressed texture.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst images = [];\n\n\t\tconst texture = new CompressedTexture();\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setResponseType( 'arraybuffer' );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\n\t\tlet loaded = 0;\n\n\t\tfunction loadTexture( i ) {\n\n\t\t\tloader.load( url[ i ], function ( buffer ) {\n\n\t\t\t\tconst texDatas = scope.parse( buffer, true );\n\n\t\t\t\timages[ i ] = {\n\t\t\t\t\twidth: texDatas.width,\n\t\t\t\t\theight: texDatas.height,\n\t\t\t\t\tformat: texDatas.format,\n\t\t\t\t\tmipmaps: texDatas.mipmaps\n\t\t\t\t};\n\n\t\t\t\tloaded += 1;\n\n\t\t\t\tif ( loaded === 6 ) {\n\n\t\t\t\t\tif ( texDatas.mipmapCount === 1 ) texture.minFilter = LinearFilter;\n\n\t\t\t\t\ttexture.image = images;\n\t\t\t\t\ttexture.format = texDatas.format;\n\t\t\t\t\ttexture.needsUpdate = true;\n\n\t\t\t\t\tif ( onLoad ) onLoad( texture );\n\n\t\t\t\t}\n\n\t\t\t}, onProgress, onError );\n\n\t\t}\n\n\t\tif ( Array.isArray( url ) ) {\n\n\t\t\tfor ( let i = 0, il = url.length; i < il; ++ i ) {\n\n\t\t\t\tloadTexture( i );\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\t// compressed cubemap texture stored in a single DDS file\n\n\t\t\tloader.load( url, function ( buffer ) {\n\n\t\t\t\tconst texDatas = scope.parse( buffer, true );\n\n\t\t\t\tif ( texDatas.isCubemap ) {\n\n\t\t\t\t\tconst faces = texDatas.mipmaps.length / texDatas.mipmapCount;\n\n\t\t\t\t\tfor ( let f = 0; f < faces; f ++ ) {\n\n\t\t\t\t\t\timages[ f ] = { mipmaps: [] };\n\n\t\t\t\t\t\tfor ( let i = 0; i < texDatas.mipmapCount; i ++ ) {\n\n\t\t\t\t\t\t\timages[ f ].mipmaps.push( texDatas.mipmaps[ f * texDatas.mipmapCount + i ] );\n\t\t\t\t\t\t\timages[ f ].format = texDatas.format;\n\t\t\t\t\t\t\timages[ f ].width = texDatas.width;\n\t\t\t\t\t\t\timages[ f ].height = texDatas.height;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttexture.image = images;\n\n\t\t\t\t} else {\n\n\t\t\t\t\ttexture.image.width = texDatas.width;\n\t\t\t\t\ttexture.image.height = texDatas.height;\n\t\t\t\t\ttexture.mipmaps = texDatas.mipmaps;\n\n\t\t\t\t}\n\n\t\t\t\tif ( texDatas.mipmapCount === 1 ) {\n\n\t\t\t\t\ttexture.minFilter = LinearFilter;\n\n\t\t\t\t}\n\n\t\t\t\ttexture.format = texDatas.format;\n\t\t\t\ttexture.needsUpdate = true;\n\n\t\t\t\tif ( onLoad ) onLoad( texture );\n\n\t\t\t}, onProgress, onError );\n\n\t\t}\n\n\t\treturn texture;\n\n\t}\n\n}\n\nconst _loading = new WeakMap();\n\n/**\n * A loader for loading images. The class loads images with the HTML `Image` API.\n *\n * ```js\n * const loader = new THREE.ImageLoader();\n * const image = await loader.loadAsync( 'image.png' );\n * ```\n * Please note that `ImageLoader` has dropped support for progress\n * events in `r84`. For an `ImageLoader` that supports progress events, see\n * [this thread]{@link https://github.com/mrdoob/three.js/issues/10439#issuecomment-275785639}.\n *\n * @augments Loader\n */\nclass ImageLoader extends Loader {\n\n\t/**\n\t * Constructs a new image loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded image\n\t * to the `onLoad()` callback. The method also returns a new `Image` object which can\n\t * directly be used for texture creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Image)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {Image} The image.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tif ( this.path !== undefined ) url = this.path + url;\n\n\t\turl = this.manager.resolveURL( url );\n\n\t\tconst scope = this;\n\n\t\tconst cached = Cache.get( `image:${url}` );\n\n\t\tif ( cached !== undefined ) {\n\n\t\t\tif ( cached.complete === true ) {\n\n\t\t\t\tscope.manager.itemStart( url );\n\n\t\t\t\tsetTimeout( function () {\n\n\t\t\t\t\tif ( onLoad ) onLoad( cached );\n\n\t\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t\t}, 0 );\n\n\t\t\t} else {\n\n\t\t\t\tlet arr = _loading.get( cached );\n\n\t\t\t\tif ( arr === undefined ) {\n\n\t\t\t\t\tarr = [];\n\t\t\t\t\t_loading.set( cached, arr );\n\n\t\t\t\t}\n\n\t\t\t\tarr.push( { onLoad, onError } );\n\n\t\t\t}\n\n\t\t\treturn cached;\n\n\t\t}\n\n\t\tconst image = createElementNS( 'img' );\n\n\t\tfunction onImageLoad() {\n\n\t\t\tremoveEventListeners();\n\n\t\t\tif ( onLoad ) onLoad( this );\n\n\t\t\t//\n\n\t\t\tconst callbacks = _loading.get( this ) || [];\n\n\t\t\tfor ( let i = 0; i < callbacks.length; i ++ ) {\n\n\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\tif ( callback.onLoad ) callback.onLoad( this );\n\n\t\t\t}\n\n\t\t\t_loading.delete( this );\n\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t}\n\n\t\tfunction onImageError( event ) {\n\n\t\t\tremoveEventListeners();\n\n\t\t\tif ( onError ) onError( event );\n\n\t\t\tCache.remove( `image:${url}` );\n\n\t\t\t//\n\n\t\t\tconst callbacks = _loading.get( this ) || [];\n\n\t\t\tfor ( let i = 0; i < callbacks.length; i ++ ) {\n\n\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\tif ( callback.onError ) callback.onError( event );\n\n\t\t\t}\n\n\t\t\t_loading.delete( this );\n\n\n\t\t\tscope.manager.itemError( url );\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t}\n\n\t\tfunction removeEventListeners() {\n\n\t\t\timage.removeEventListener( 'load', onImageLoad, false );\n\t\t\timage.removeEventListener( 'error', onImageError, false );\n\n\t\t}\n\n\t\timage.addEventListener( 'load', onImageLoad, false );\n\t\timage.addEventListener( 'error', onImageError, false );\n\n\t\tif ( url.slice( 0, 5 ) !== 'data:' ) {\n\n\t\t\tif ( this.crossOrigin !== undefined ) image.crossOrigin = this.crossOrigin;\n\n\t\t}\n\n\t\tCache.add( `image:${url}`, image );\n\t\tscope.manager.itemStart( url );\n\n\t\timage.src = url;\n\n\t\treturn image;\n\n\t}\n\n}\n\n/**\n * Class for loading cube textures. Images are internally loaded via {@link ImageLoader}.\n *\n * The loader returns an instance of {@link CubeTexture} and expects the cube map to\n * be defined as six separate images representing the sides of a cube. Other cube map definitions\n * like vertical and horizontal cross, column and row layouts are not supported.\n *\n * Note that, by convention, cube maps are specified in a coordinate system\n * in which positive-x is to the right when looking up the positive-z axis --\n * in other words, using a left-handed coordinate system. Since three.js uses\n * a right-handed coordinate system, environment maps used in three.js will\n * have pos-x and neg-x swapped.\n *\n * The loaded cube texture is in sRGB color space. Meaning {@link Texture#colorSpace}\n * is set to `SRGBColorSpace` by default.\n *\n * ```js\n * const loader = new THREE.CubeTextureLoader().setPath( 'textures/cubeMaps/' );\n * const cubeTexture = await loader.loadAsync( [\n * \t'px.png', 'nx.png', 'py.png', 'ny.png', 'pz.png', 'nz.png'\n * ] );\n * scene.background = cubeTexture;\n * ```\n *\n * @augments Loader\n */\nclass CubeTextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new cube texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the fully loaded cube texture\n\t * to the `onLoad()` callback. The method also returns a new cube texture object which can\n\t * directly be used for material creation. If you do it this way, the cube texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {Array} urls - Array of 6 URLs to images, one for each side of the\n\t * cube texture. The urls should be specified in the following order: pos-x,\n\t * neg-x, pos-y, neg-y, pos-z, neg-z. An array of data URIs are allowed as well.\n\t * @param {function(CubeTexture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {CubeTexture} The cube texture.\n\t */\n\tload( urls, onLoad, onProgress, onError ) {\n\n\t\tconst texture = new CubeTexture();\n\t\ttexture.colorSpace = SRGBColorSpace;\n\n\t\tconst loader = new ImageLoader( this.manager );\n\t\tloader.setCrossOrigin( this.crossOrigin );\n\t\tloader.setPath( this.path );\n\n\t\tlet loaded = 0;\n\n\t\tfunction loadTexture( i ) {\n\n\t\t\tloader.load( urls[ i ], function ( image ) {\n\n\t\t\t\ttexture.images[ i ] = image;\n\n\t\t\t\tloaded ++;\n\n\t\t\t\tif ( loaded === 6 ) {\n\n\t\t\t\t\ttexture.needsUpdate = true;\n\n\t\t\t\t\tif ( onLoad ) onLoad( texture );\n\n\t\t\t\t}\n\n\t\t\t}, undefined, onError );\n\n\t\t}\n\n\t\tfor ( let i = 0; i < urls.length; ++ i ) {\n\n\t\t\tloadTexture( i );\n\n\t\t}\n\n\t\treturn texture;\n\n\t}\n\n}\n\n/**\n * Abstract base class for loading binary texture formats RGBE, EXR or TGA.\n * Textures are internally loaded via {@link FileLoader}.\n *\n * Derived classes have to implement the `parse()` method which holds the parsing\n * for the respective format.\n *\n * @abstract\n * @augments Loader\n */\nclass DataTextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new data texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded data texture\n\t * to the `onLoad()` callback. The method also returns a new texture object which can\n\t * directly be used for material creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(DataTexture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {DataTexture} The data texture.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst texture = new DataTexture();\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setResponseType( 'arraybuffer' );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setPath( this.path );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\t\tloader.load( url, function ( buffer ) {\n\n\t\t\tlet texData;\n\n\t\t\ttry {\n\n\t\t\t\ttexData = scope.parse( buffer );\n\n\t\t\t} catch ( error ) {\n\n\t\t\t\tif ( onError !== undefined ) {\n\n\t\t\t\t\tonError( error );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( error );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( texData.image !== undefined ) {\n\n\t\t\t\ttexture.image = texData.image;\n\n\t\t\t} else if ( texData.data !== undefined ) {\n\n\t\t\t\ttexture.image.width = texData.width;\n\t\t\t\ttexture.image.height = texData.height;\n\t\t\t\ttexture.image.data = texData.data;\n\n\t\t\t}\n\n\t\t\ttexture.wrapS = texData.wrapS !== undefined ? texData.wrapS : ClampToEdgeWrapping;\n\t\t\ttexture.wrapT = texData.wrapT !== undefined ? texData.wrapT : ClampToEdgeWrapping;\n\n\t\t\ttexture.magFilter = texData.magFilter !== undefined ? texData.magFilter : LinearFilter;\n\t\t\ttexture.minFilter = texData.minFilter !== undefined ? texData.minFilter : LinearFilter;\n\n\t\t\ttexture.anisotropy = texData.anisotropy !== undefined ? texData.anisotropy : 1;\n\n\t\t\tif ( texData.colorSpace !== undefined ) {\n\n\t\t\t\ttexture.colorSpace = texData.colorSpace;\n\n\t\t\t}\n\n\t\t\tif ( texData.flipY !== undefined ) {\n\n\t\t\t\ttexture.flipY = texData.flipY;\n\n\t\t\t}\n\n\t\t\tif ( texData.format !== undefined ) {\n\n\t\t\t\ttexture.format = texData.format;\n\n\t\t\t}\n\n\t\t\tif ( texData.type !== undefined ) {\n\n\t\t\t\ttexture.type = texData.type;\n\n\t\t\t}\n\n\t\t\tif ( texData.mipmaps !== undefined ) {\n\n\t\t\t\ttexture.mipmaps = texData.mipmaps;\n\t\t\t\ttexture.minFilter = LinearMipmapLinearFilter; // presumably...\n\n\t\t\t}\n\n\t\t\tif ( texData.mipmapCount === 1 ) {\n\n\t\t\t\ttexture.minFilter = LinearFilter;\n\n\t\t\t}\n\n\t\t\tif ( texData.generateMipmaps !== undefined ) {\n\n\t\t\t\ttexture.generateMipmaps = texData.generateMipmaps;\n\n\t\t\t}\n\n\t\t\ttexture.needsUpdate = true;\n\n\t\t\tif ( onLoad ) onLoad( texture, texData );\n\n\t\t}, onProgress, onError );\n\n\n\t\treturn texture;\n\n\t}\n\n}\n\n/**\n * Class for loading textures. Images are internally\n * loaded via {@link ImageLoader}.\n *\n * ```js\n * const loader = new THREE.TextureLoader();\n * const texture = await loader.loadAsync( 'textures/land_ocean_ice_cloud_2048.jpg' );\n *\n * const material = new THREE.MeshBasicMaterial( { map:texture } );\n * ```\n * Please note that `TextureLoader` has dropped support for progress\n * events in `r84`. For a `TextureLoader` that supports progress events, see\n * [this thread]{@link https://github.com/mrdoob/three.js/issues/10439#issuecomment-293260145}.\n *\n * @augments Loader\n */\nclass TextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the fully loaded texture\n\t * to the `onLoad()` callback. The method also returns a new texture object which can\n\t * directly be used for material creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Texture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {Texture} The texture.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst texture = new Texture();\n\n\t\tconst loader = new ImageLoader( this.manager );\n\t\tloader.setCrossOrigin( this.crossOrigin );\n\t\tloader.setPath( this.path );\n\n\t\tloader.load( url, function ( image ) {\n\n\t\t\ttexture.image = image;\n\t\t\ttexture.needsUpdate = true;\n\n\t\t\tif ( onLoad !== undefined ) {\n\n\t\t\t\tonLoad( texture );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t\treturn texture;\n\n\t}\n\n}\n\n/**\n * Abstract base class for lights - all other light types inherit the\n * properties and methods described here.\n *\n * @abstract\n * @augments Object3D\n */\nclass Light extends Object3D {\n\n\t/**\n\t * Constructs a new light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( color, intensity = 1 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLight = true;\n\n\t\tthis.type = 'Light';\n\n\t\t/**\n\t\t * The light's color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color( color );\n\n\t\t/**\n\t\t * The light's intensity.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.intensity = intensity;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\t// Empty here in base class; some subclasses override.\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.color.copy( source.color );\n\t\tthis.intensity = source.intensity;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.color = this.color.getHex();\n\t\tdata.object.intensity = this.intensity;\n\n\t\tif ( this.groundColor !== undefined ) data.object.groundColor = this.groundColor.getHex();\n\n\t\tif ( this.distance !== undefined ) data.object.distance = this.distance;\n\t\tif ( this.angle !== undefined ) data.object.angle = this.angle;\n\t\tif ( this.decay !== undefined ) data.object.decay = this.decay;\n\t\tif ( this.penumbra !== undefined ) data.object.penumbra = this.penumbra;\n\n\t\tif ( this.shadow !== undefined ) data.object.shadow = this.shadow.toJSON();\n\t\tif ( this.target !== undefined ) data.object.target = this.target.uuid;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * A light source positioned directly above the scene, with color fading from\n * the sky color to the ground color.\n *\n * This light cannot be used to cast shadows.\n *\n * ```js\n * const light = new THREE.HemisphereLight( 0xffffbb, 0x080820, 1 );\n * scene.add( light );\n * ```\n *\n * @augments Light\n */\nclass HemisphereLight extends Light {\n\n\t/**\n\t * Constructs a new hemisphere light.\n\t *\n\t * @param {(number|Color|string)} [skyColor=0xffffff] - The light's sky color.\n\t * @param {(number|Color|string)} [groundColor=0xffffff] - The light's ground color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( skyColor, groundColor, intensity ) {\n\n\t\tsuper( skyColor, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isHemisphereLight = true;\n\n\t\tthis.type = 'HemisphereLight';\n\n\t\tthis.position.copy( Object3D.DEFAULT_UP );\n\t\tthis.updateMatrix();\n\n\t\t/**\n\t\t * The light's ground color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.groundColor = new Color( groundColor );\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.groundColor.copy( source.groundColor );\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _projScreenMatrix$1 = /*@__PURE__*/ new Matrix4();\nconst _lightPositionWorld$1 = /*@__PURE__*/ new Vector3();\nconst _lookTarget$1 = /*@__PURE__*/ new Vector3();\n\n/**\n * Abstract base class for light shadow classes. These classes\n * represent the shadow configuration for different light types.\n *\n * @abstract\n */\nclass LightShadow {\n\n\t/**\n\t * Constructs a new light shadow.\n\t *\n\t * @param {Camera} camera - The light's view of the world.\n\t */\n\tconstructor( camera ) {\n\n\t\t/**\n\t\t * The light's view of the world.\n\t\t *\n\t\t * @type {Camera}\n\t\t */\n\t\tthis.camera = camera;\n\n\t\t/**\n\t\t * The intensity of the shadow. The default is `1`.\n\t\t * Valid values are in the range `[0, 1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.intensity = 1;\n\n\t\t/**\n\t\t * Shadow map bias, how much to add or subtract from the normalized depth\n\t\t * when deciding whether a surface is in shadow.\n\t\t *\n\t\t * The default is `0`. Very tiny adjustments here (in the order of `0.0001`)\n\t\t * may help reduce artifacts in shadows.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.bias = 0;\n\n\t\t/**\n\t\t * Defines how much the position used to query the shadow map is offset along\n\t\t * the object normal. The default is `0`. Increasing this value can be used to\n\t\t * reduce shadow acne especially in large scenes where light shines onto\n\t\t * geometry at a shallow angle. The cost is that shadows may appear distorted.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.normalBias = 0;\n\n\t\t/**\n\t\t * Setting this to values greater than 1 will blur the edges of the shadow.\n\t\t * High values will cause unwanted banding effects in the shadows - a greater\n\t\t * map size will allow for a higher value to be used here before these effects\n\t\t * become visible.\n\t\t *\n\t\t * The property has no effect when the shadow map type is `PCFSoftShadowMap` and\n\t\t * and it is recommended to increase softness by decreasing the shadow map size instead.\n\t\t *\n\t\t * The property has no effect when the shadow map type is `BasicShadowMap`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.radius = 1;\n\n\t\t/**\n\t\t * The amount of samples to use when blurring a VSM shadow map.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 8\n\t\t */\n\t\tthis.blurSamples = 8;\n\n\t\t/**\n\t\t * Defines the width and height of the shadow map. Higher values give better quality\n\t\t * shadows at the cost of computation time. Values must be powers of two.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (512,512)\n\t\t */\n\t\tthis.mapSize = new Vector2( 512, 512 );\n\n\t\t/**\n\t\t * The type of shadow texture. The default is `UnsignedByteType`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default UnsignedByteType\n\t\t */\n\t\tthis.mapType = UnsignedByteType;\n\n\t\t/**\n\t\t * The depth map generated using the internal camera; a location beyond a\n\t\t * pixel's depth is in shadow. Computed internally during rendering.\n\t\t *\n\t\t * @type {?RenderTarget}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The distribution map generated using the internal camera; an occlusion is\n\t\t * calculated based on the distribution of depths. Computed internally during\n\t\t * rendering.\n\t\t *\n\t\t * @type {?RenderTarget}\n\t\t * @default null\n\t\t */\n\t\tthis.mapPass = null;\n\n\t\t/**\n\t\t * Model to shadow camera space, to compute location and depth in shadow map.\n\t\t * This is computed internally during rendering.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrix = new Matrix4();\n\n\t\t/**\n\t\t * Enables automatic updates of the light's shadow. If you do not require dynamic\n\t\t * lighting / shadows, you may set this to `false`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.autoUpdate = true;\n\n\t\t/**\n\t\t * When set to `true`, shadow maps will be updated in the next `render` call.\n\t\t * If you have set {@link LightShadow#autoUpdate} to `false`, you will need to\n\t\t * set this property to `true` and then make a render call to update the light's shadow.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.needsUpdate = false;\n\n\t\tthis._frustum = new Frustum();\n\t\tthis._frameExtents = new Vector2( 1, 1 );\n\n\t\tthis._viewportCount = 1;\n\n\t\tthis._viewports = [\n\n\t\t\tnew Vector4( 0, 0, 1, 1 )\n\n\t\t];\n\n\t}\n\n\t/**\n\t * Used internally by the renderer to get the number of viewports that need\n\t * to be rendered for this shadow.\n\t *\n\t * @return {number} The viewport count.\n\t */\n\tgetViewportCount() {\n\n\t\treturn this._viewportCount;\n\n\t}\n\n\t/**\n\t * Gets the shadow cameras frustum. Used internally by the renderer to cull objects.\n\t *\n\t * @return {Frustum} The shadow camera frustum.\n\t */\n\tgetFrustum() {\n\n\t\treturn this._frustum;\n\n\t}\n\n\t/**\n\t * Update the matrices for the camera and shadow, used internally by the renderer.\n\t *\n\t * @param {Light} light - The light for which the shadow is being rendered.\n\t */\n\tupdateMatrices( light ) {\n\n\t\tconst shadowCamera = this.camera;\n\t\tconst shadowMatrix = this.matrix;\n\n\t\t_lightPositionWorld$1.setFromMatrixPosition( light.matrixWorld );\n\t\tshadowCamera.position.copy( _lightPositionWorld$1 );\n\n\t\t_lookTarget$1.setFromMatrixPosition( light.target.matrixWorld );\n\t\tshadowCamera.lookAt( _lookTarget$1 );\n\t\tshadowCamera.updateMatrixWorld();\n\n\t\t_projScreenMatrix$1.multiplyMatrices( shadowCamera.projectionMatrix, shadowCamera.matrixWorldInverse );\n\t\tthis._frustum.setFromProjectionMatrix( _projScreenMatrix$1, shadowCamera.coordinateSystem, shadowCamera.reversedDepth );\n\n\t\tif ( shadowCamera.reversedDepth ) {\n\n\t\t\tshadowMatrix.set(\n\t\t\t\t0.5, 0.0, 0.0, 0.5,\n\t\t\t\t0.0, 0.5, 0.0, 0.5,\n\t\t\t\t0.0, 0.0, 1.0, 0.0,\n\t\t\t\t0.0, 0.0, 0.0, 1.0\n\t\t\t);\n\n\t\t} else {\n\n\t\t\tshadowMatrix.set(\n\t\t\t\t0.5, 0.0, 0.0, 0.5,\n\t\t\t\t0.0, 0.5, 0.0, 0.5,\n\t\t\t\t0.0, 0.0, 0.5, 0.5,\n\t\t\t\t0.0, 0.0, 0.0, 1.0\n\t\t\t);\n\n\t\t}\n\n\t\tshadowMatrix.multiply( _projScreenMatrix$1 );\n\n\t}\n\n\t/**\n\t * Returns a viewport definition for the given viewport index.\n\t *\n\t * @param {number} viewportIndex - The viewport index.\n\t * @return {Vector4} The viewport.\n\t */\n\tgetViewport( viewportIndex ) {\n\n\t\treturn this._viewports[ viewportIndex ];\n\n\t}\n\n\t/**\n\t * Returns the frame extends.\n\t *\n\t * @return {Vector2} The frame extends.\n\t */\n\tgetFrameExtents() {\n\n\t\treturn this._frameExtents;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tif ( this.map ) {\n\n\t\t\tthis.map.dispose();\n\n\t\t}\n\n\t\tif ( this.mapPass ) {\n\n\t\t\tthis.mapPass.dispose();\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Copies the values of the given light shadow instance to this instance.\n\t *\n\t * @param {LightShadow} source - The light shadow to copy.\n\t * @return {LightShadow} A reference to this light shadow instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.camera = source.camera.clone();\n\n\t\tthis.intensity = source.intensity;\n\n\t\tthis.bias = source.bias;\n\t\tthis.radius = source.radius;\n\n\t\tthis.autoUpdate = source.autoUpdate;\n\t\tthis.needsUpdate = source.needsUpdate;\n\t\tthis.normalBias = source.normalBias;\n\t\tthis.blurSamples = source.blurSamples;\n\n\t\tthis.mapSize.copy( source.mapSize );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new light shadow instance with copied values from this instance.\n\t *\n\t * @return {LightShadow} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Serializes the light shadow into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized light shadow.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON() {\n\n\t\tconst object = {};\n\n\t\tif ( this.intensity !== 1 ) object.intensity = this.intensity;\n\t\tif ( this.bias !== 0 ) object.bias = this.bias;\n\t\tif ( this.normalBias !== 0 ) object.normalBias = this.normalBias;\n\t\tif ( this.radius !== 1 ) object.radius = this.radius;\n\t\tif ( this.mapSize.x !== 512 || this.mapSize.y !== 512 ) object.mapSize = this.mapSize.toArray();\n\n\t\tobject.camera = this.camera.toJSON( false ).object;\n\t\tdelete object.camera.matrix;\n\n\t\treturn object;\n\n\t}\n\n}\n\n/**\n * Represents the shadow configuration of directional lights.\n *\n * @augments LightShadow\n */\nclass SpotLightShadow extends LightShadow {\n\n\t/**\n\t * Constructs a new spot light shadow.\n\t */\n\tconstructor() {\n\n\t\tsuper( new PerspectiveCamera( 50, 1, 0.5, 500 ) );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSpotLightShadow = true;\n\n\t\t/**\n\t\t * Used to focus the shadow camera. The camera's field of view is set as a\n\t\t * percentage of the spotlight's field-of-view. Range is `[0, 1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.focus = 1;\n\n\t\t/**\n\t\t * Texture aspect ratio.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aspect = 1;\n\n\t}\n\n\tupdateMatrices( light ) {\n\n\t\tconst camera = this.camera;\n\n\t\tconst fov = RAD2DEG * 2 * light.angle * this.focus;\n\t\tconst aspect = ( this.mapSize.width / this.mapSize.height ) * this.aspect;\n\t\tconst far = light.distance || camera.far;\n\n\t\tif ( fov !== camera.fov || aspect !== camera.aspect || far !== camera.far ) {\n\n\t\t\tcamera.fov = fov;\n\t\t\tcamera.aspect = aspect;\n\t\t\tcamera.far = far;\n\t\t\tcamera.updateProjectionMatrix();\n\n\t\t}\n\n\t\tsuper.updateMatrices( light );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.focus = source.focus;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This light gets emitted from a single point in one direction, along a cone\n * that increases in size the further from the light it gets.\n *\n * This light can cast shadows - see the {@link SpotLightShadow} for details.\n *\n * ```js\n * // white spotlight shining from the side, modulated by a texture\n * const spotLight = new THREE.SpotLight( 0xffffff );\n * spotLight.position.set( 100, 1000, 100 );\n * spotLight.map = new THREE.TextureLoader().load( url );\n *\n * spotLight.castShadow = true;\n * spotLight.shadow.mapSize.width = 1024;\n * spotLight.shadow.mapSize.height = 1024;\n * spotLight.shadow.camera.near = 500;\n * spotLight.shadow.camera.far = 4000;\n * spotLight.shadow.camera.fov = 30;s\n * ```\n *\n * @augments Light\n */\nclass SpotLight extends Light {\n\n\t/**\n\t * Constructs a new spot light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity measured in candela (cd).\n\t * @param {number} [distance=0] - Maximum range of the light. `0` means no limit.\n\t * @param {number} [angle=Math.PI/3] - Maximum angle of light dispersion from its direction whose upper bound is `Math.PI/2`.\n\t * @param {number} [penumbra=0] - Percent of the spotlight cone that is attenuated due to penumbra. Value range is `[0,1]`.\n\t * @param {number} [decay=2] - The amount the light dims along the distance of the light.\n\t */\n\tconstructor( color, intensity, distance = 0, angle = Math.PI / 3, penumbra = 0, decay = 2 ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSpotLight = true;\n\n\t\tthis.type = 'SpotLight';\n\n\t\tthis.position.copy( Object3D.DEFAULT_UP );\n\t\tthis.updateMatrix();\n\n\t\t/**\n\t\t * The spot light points from its position to the\n\t\t * target's position.\n\t\t *\n\t\t * For the target's position to be changed to anything other\n\t\t * than the default, it must be added to the scene.\n\t\t *\n\t\t * It is also possible to set the target to be another 3D object\n\t\t * in the scene. The light will now track the target object.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.target = new Object3D();\n\n\t\t/**\n\t\t * Maximum range of the light. `0` means no limit.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.distance = distance;\n\n\t\t/**\n\t\t * Maximum angle of light dispersion from its direction whose upper bound is `Math.PI/2`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Math.PI/3\n\t\t */\n\t\tthis.angle = angle;\n\n\t\t/**\n\t\t * Percent of the spotlight cone that is attenuated due to penumbra.\n\t\t * Value range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.penumbra = penumbra;\n\n\t\t/**\n\t\t * The amount the light dims along the distance of the light. In context of\n\t\t * physically-correct rendering the default value should not be changed.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2\n\t\t */\n\t\tthis.decay = decay;\n\n\t\t/**\n\t\t * A texture used to modulate the color of the light. The spot light\n\t\t * color is mixed with the RGB value of this texture, with a ratio\n\t\t * corresponding to its alpha value. The cookie-like masking effect is\n\t\t * reproduced using pixel values (0, 0, 0, 1-cookie_value).\n\t\t *\n\t\t * *Warning*: This property is disabled if {@link Object3D#castShadow} is set to `false`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * This property holds the light's shadow configuration.\n\t\t *\n\t\t * @type {SpotLightShadow}\n\t\t */\n\t\tthis.shadow = new SpotLightShadow();\n\n\t}\n\n\t/**\n\t * The light's power. Power is the luminous power of the light measured in lumens (lm).\n\t * Changing the power will also change the light's intensity.\n\t *\n\t * @type {number}\n\t */\n\tget power() {\n\n\t\t// compute the light's luminous power (in lumens) from its intensity (in candela)\n\t\t// by convention for a spotlight, luminous power (lm) = π * luminous intensity (cd)\n\t\treturn this.intensity * Math.PI;\n\n\t}\n\n\tset power( power ) {\n\n\t\t// set the light's intensity (in candela) from the desired luminous power (in lumens)\n\t\tthis.intensity = power / Math.PI;\n\n\t}\n\n\tdispose() {\n\n\t\tthis.shadow.dispose();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.distance = source.distance;\n\t\tthis.angle = source.angle;\n\t\tthis.penumbra = source.penumbra;\n\t\tthis.decay = source.decay;\n\n\t\tthis.target = source.target.clone();\n\n\t\tthis.shadow = source.shadow.clone();\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _projScreenMatrix = /*@__PURE__*/ new Matrix4();\nconst _lightPositionWorld = /*@__PURE__*/ new Vector3();\nconst _lookTarget = /*@__PURE__*/ new Vector3();\n\n/**\n * Represents the shadow configuration of point lights.\n *\n * @augments LightShadow\n */\nclass PointLightShadow extends LightShadow {\n\n\t/**\n\t * Constructs a new point light shadow.\n\t */\n\tconstructor() {\n\n\t\tsuper( new PerspectiveCamera( 90, 1, 0.5, 500 ) );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPointLightShadow = true;\n\n\t\tthis._frameExtents = new Vector2( 4, 2 );\n\n\t\tthis._viewportCount = 6;\n\n\t\tthis._viewports = [\n\t\t\t// These viewports map a cube-map onto a 2D texture with the\n\t\t\t// following orientation:\n\t\t\t//\n\t\t\t// xzXZ\n\t\t\t// y Y\n\t\t\t//\n\t\t\t// X - Positive x direction\n\t\t\t// x - Negative x direction\n\t\t\t// Y - Positive y direction\n\t\t\t// y - Negative y direction\n\t\t\t// Z - Positive z direction\n\t\t\t// z - Negative z direction\n\n\t\t\t// positive X\n\t\t\tnew Vector4( 2, 1, 1, 1 ),\n\t\t\t// negative X\n\t\t\tnew Vector4( 0, 1, 1, 1 ),\n\t\t\t// positive Z\n\t\t\tnew Vector4( 3, 1, 1, 1 ),\n\t\t\t// negative Z\n\t\t\tnew Vector4( 1, 1, 1, 1 ),\n\t\t\t// positive Y\n\t\t\tnew Vector4( 3, 0, 1, 1 ),\n\t\t\t// negative Y\n\t\t\tnew Vector4( 1, 0, 1, 1 )\n\t\t];\n\n\t\tthis._cubeDirections = [\n\t\t\tnew Vector3( 1, 0, 0 ), new Vector3( -1, 0, 0 ), new Vector3( 0, 0, 1 ),\n\t\t\tnew Vector3( 0, 0, -1 ), new Vector3( 0, 1, 0 ), new Vector3( 0, -1, 0 )\n\t\t];\n\n\t\tthis._cubeUps = [\n\t\t\tnew Vector3( 0, 1, 0 ), new Vector3( 0, 1, 0 ), new Vector3( 0, 1, 0 ),\n\t\t\tnew Vector3( 0, 1, 0 ), new Vector3( 0, 0, 1 ),\tnew Vector3( 0, 0, -1 )\n\t\t];\n\n\t}\n\n\t/**\n\t * Update the matrices for the camera and shadow, used internally by the renderer.\n\t *\n\t * @param {Light} light - The light for which the shadow is being rendered.\n\t * @param {number} [viewportIndex=0] - The viewport index.\n\t */\n\tupdateMatrices( light, viewportIndex = 0 ) {\n\n\t\tconst camera = this.camera;\n\t\tconst shadowMatrix = this.matrix;\n\n\t\tconst far = light.distance || camera.far;\n\n\t\tif ( far !== camera.far ) {\n\n\t\t\tcamera.far = far;\n\t\t\tcamera.updateProjectionMatrix();\n\n\t\t}\n\n\t\t_lightPositionWorld.setFromMatrixPosition( light.matrixWorld );\n\t\tcamera.position.copy( _lightPositionWorld );\n\n\t\t_lookTarget.copy( camera.position );\n\t\t_lookTarget.add( this._cubeDirections[ viewportIndex ] );\n\t\tcamera.up.copy( this._cubeUps[ viewportIndex ] );\n\t\tcamera.lookAt( _lookTarget );\n\t\tcamera.updateMatrixWorld();\n\n\t\tshadowMatrix.makeTranslation( - _lightPositionWorld.x, - _lightPositionWorld.y, - _lightPositionWorld.z );\n\n\t\t_projScreenMatrix.multiplyMatrices( camera.projectionMatrix, camera.matrixWorldInverse );\n\t\tthis._frustum.setFromProjectionMatrix( _projScreenMatrix, camera.coordinateSystem, camera.reversedDepth );\n\n\t}\n\n}\n\n/**\n * A light that gets emitted from a single point in all directions. A common\n * use case for this is to replicate the light emitted from a bare\n * lightbulb.\n *\n * This light can cast shadows - see the {@link PointLightShadow} for details.\n *\n * ```js\n * const light = new THREE.PointLight( 0xff0000, 1, 100 );\n * light.position.set( 50, 50, 50 );\n * scene.add( light );\n * ```\n *\n * @augments Light\n */\nclass PointLight extends Light {\n\n\t/**\n\t * Constructs a new point light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity measured in candela (cd).\n\t * @param {number} [distance=0] - Maximum range of the light. `0` means no limit.\n\t * @param {number} [decay=2] - The amount the light dims along the distance of the light.\n\t */\n\tconstructor( color, intensity, distance = 0, decay = 2 ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPointLight = true;\n\n\t\tthis.type = 'PointLight';\n\n\t\t/**\n\t\t * When distance is zero, light will attenuate according to inverse-square\n\t\t * law to infinite distance. When distance is non-zero, light will attenuate\n\t\t * according to inverse-square law until near the distance cutoff, where it\n\t\t * will then attenuate quickly and smoothly to 0. Inherently, cutoffs are not\n\t\t * physically correct.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.distance = distance;\n\n\t\t/**\n\t\t * The amount the light dims along the distance of the light. In context of\n\t\t * physically-correct rendering the default value should not be changed.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2\n\t\t */\n\t\tthis.decay = decay;\n\n\t\t/**\n\t\t * This property holds the light's shadow configuration.\n\t\t *\n\t\t * @type {PointLightShadow}\n\t\t */\n\t\tthis.shadow = new PointLightShadow();\n\n\t}\n\n\t/**\n\t * The light's power. Power is the luminous power of the light measured in lumens (lm).\n\t * Changing the power will also change the light's intensity.\n\t *\n\t * @type {number}\n\t */\n\tget power() {\n\n\t\t// compute the light's luminous power (in lumens) from its intensity (in candela)\n\t\t// for an isotropic light source, luminous power (lm) = 4 π luminous intensity (cd)\n\t\treturn this.intensity * 4 * Math.PI;\n\n\t}\n\n\tset power( power ) {\n\n\t\t// set the light's intensity (in candela) from the desired luminous power (in lumens)\n\t\tthis.intensity = power / ( 4 * Math.PI );\n\n\t}\n\n\tdispose() {\n\n\t\tthis.shadow.dispose();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.distance = source.distance;\n\t\tthis.decay = source.decay;\n\n\t\tthis.shadow = source.shadow.clone();\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Camera that uses [orthographic projection]{@link https://en.wikipedia.org/wiki/Orthographic_projection}.\n *\n * In this projection mode, an object's size in the rendered image stays\n * constant regardless of its distance from the camera. This can be useful\n * for rendering 2D scenes and UI elements, amongst other things.\n *\n * ```js\n * const camera = new THREE.OrthographicCamera( width / - 2, width / 2, height / 2, height / - 2, 1, 1000 );\n * scene.add( camera );\n * ```\n *\n * @augments Camera\n */\nclass OrthographicCamera extends Camera {\n\n\t/**\n\t * Constructs a new orthographic camera.\n\t *\n\t * @param {number} [left=-1] - The left plane of the camera's frustum.\n\t * @param {number} [right=1] - The right plane of the camera's frustum.\n\t * @param {number} [top=1] - The top plane of the camera's frustum.\n\t * @param {number} [bottom=-1] - The bottom plane of the camera's frustum.\n\t * @param {number} [near=0.1] - The camera's near plane.\n\t * @param {number} [far=2000] - The camera's far plane.\n\t */\n\tconstructor( left = -1, right = 1, top = 1, bottom = -1, near = 0.1, far = 2000 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isOrthographicCamera = true;\n\n\t\tthis.type = 'OrthographicCamera';\n\n\t\t/**\n\t\t * The zoom factor of the camera.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.zoom = 1;\n\n\t\t/**\n\t\t * Represents the frustum window specification. This property should not be edited\n\t\t * directly but via {@link PerspectiveCamera#setViewOffset} and {@link PerspectiveCamera#clearViewOffset}.\n\t\t *\n\t\t * @type {?Object}\n\t\t * @default null\n\t\t */\n\t\tthis.view = null;\n\n\t\t/**\n\t\t * The left plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default -1\n\t\t */\n\t\tthis.left = left;\n\n\t\t/**\n\t\t * The right plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.right = right;\n\n\t\t/**\n\t\t * The top plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.top = top;\n\n\t\t/**\n\t\t * The bottom plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default -1\n\t\t */\n\t\tthis.bottom = bottom;\n\n\t\t/**\n\t\t * The camera's near plane. The valid range is greater than `0`\n\t\t * and less than the current value of {@link OrthographicCamera#far}.\n\t\t *\n\t\t * Note that, unlike for the {@link PerspectiveCamera}, `0` is a\n\t\t * valid value for an orthographic camera's near plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.1\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * The camera's far plane. Must be greater than the\n\t\t * current value of {@link OrthographicCamera#near}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2000\n\t\t */\n\t\tthis.far = far;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.left = source.left;\n\t\tthis.right = source.right;\n\t\tthis.top = source.top;\n\t\tthis.bottom = source.bottom;\n\t\tthis.near = source.near;\n\t\tthis.far = source.far;\n\n\t\tthis.zoom = source.zoom;\n\t\tthis.view = source.view === null ? null : Object.assign( {}, source.view );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets an offset in a larger frustum. This is useful for multi-window or\n\t * multi-monitor/multi-machine setups.\n\t *\n\t * @param {number} fullWidth - The full width of multiview setup.\n\t * @param {number} fullHeight - The full height of multiview setup.\n\t * @param {number} x - The horizontal offset of the subcamera.\n\t * @param {number} y - The vertical offset of the subcamera.\n\t * @param {number} width - The width of subcamera.\n\t * @param {number} height - The height of subcamera.\n\t * @see {@link PerspectiveCamera#setViewOffset}\n\t */\n\tsetViewOffset( fullWidth, fullHeight, x, y, width, height ) {\n\n\t\tif ( this.view === null ) {\n\n\t\t\tthis.view = {\n\t\t\t\tenabled: true,\n\t\t\t\tfullWidth: 1,\n\t\t\t\tfullHeight: 1,\n\t\t\t\toffsetX: 0,\n\t\t\t\toffsetY: 0,\n\t\t\t\twidth: 1,\n\t\t\t\theight: 1\n\t\t\t};\n\n\t\t}\n\n\t\tthis.view.enabled = true;\n\t\tthis.view.fullWidth = fullWidth;\n\t\tthis.view.fullHeight = fullHeight;\n\t\tthis.view.offsetX = x;\n\t\tthis.view.offsetY = y;\n\t\tthis.view.width = width;\n\t\tthis.view.height = height;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Removes the view offset from the projection matrix.\n\t */\n\tclearViewOffset() {\n\n\t\tif ( this.view !== null ) {\n\n\t\t\tthis.view.enabled = false;\n\n\t\t}\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Updates the camera's projection matrix. Must be called after any change of\n\t * camera properties.\n\t */\n\tupdateProjectionMatrix() {\n\n\t\tconst dx = ( this.right - this.left ) / ( 2 * this.zoom );\n\t\tconst dy = ( this.top - this.bottom ) / ( 2 * this.zoom );\n\t\tconst cx = ( this.right + this.left ) / 2;\n\t\tconst cy = ( this.top + this.bottom ) / 2;\n\n\t\tlet left = cx - dx;\n\t\tlet right = cx + dx;\n\t\tlet top = cy + dy;\n\t\tlet bottom = cy - dy;\n\n\t\tif ( this.view !== null && this.view.enabled ) {\n\n\t\t\tconst scaleW = ( this.right - this.left ) / this.view.fullWidth / this.zoom;\n\t\t\tconst scaleH = ( this.top - this.bottom ) / this.view.fullHeight / this.zoom;\n\n\t\t\tleft += scaleW * this.view.offsetX;\n\t\t\tright = left + scaleW * this.view.width;\n\t\t\ttop -= scaleH * this.view.offsetY;\n\t\t\tbottom = top - scaleH * this.view.height;\n\n\t\t}\n\n\t\tthis.projectionMatrix.makeOrthographic( left, right, top, bottom, this.near, this.far, this.coordinateSystem, this.reversedDepth );\n\n\t\tthis.projectionMatrixInverse.copy( this.projectionMatrix ).invert();\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.zoom = this.zoom;\n\t\tdata.object.left = this.left;\n\t\tdata.object.right = this.right;\n\t\tdata.object.top = this.top;\n\t\tdata.object.bottom = this.bottom;\n\t\tdata.object.near = this.near;\n\t\tdata.object.far = this.far;\n\n\t\tif ( this.view !== null ) data.object.view = Object.assign( {}, this.view );\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Represents the shadow configuration of directional lights.\n *\n * @augments LightShadow\n */\nclass DirectionalLightShadow extends LightShadow {\n\n\t/**\n\t * Constructs a new directional light shadow.\n\t */\n\tconstructor() {\n\n\t\tsuper( new OrthographicCamera( -5, 5, 5, -5, 0.5, 500 ) );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDirectionalLightShadow = true;\n\n\t}\n\n}\n\n/**\n * A light that gets emitted in a specific direction. This light will behave\n * as though it is infinitely far away and the rays produced from it are all\n * parallel. The common use case for this is to simulate daylight; the sun is\n * far enough away that its position can be considered to be infinite, and\n * all light rays coming from it are parallel.\n *\n * A common point of confusion for directional lights is that setting the\n * rotation has no effect. This is because three.js's DirectionalLight is the\n * equivalent to what is often called a 'Target Direct Light' in other\n * applications.\n *\n * This means that its direction is calculated as pointing from the light's\n * {@link Object3D#position} to the {@link DirectionalLight#target} position\n * (as opposed to a 'Free Direct Light' that just has a rotation\n * component).\n *\n * This light can cast shadows - see the {@link DirectionalLightShadow} for details.\n *\n * ```js\n * // White directional light at half intensity shining from the top.\n * const directionalLight = new THREE.DirectionalLight( 0xffffff, 0.5 );\n * scene.add( directionalLight );\n * ```\n *\n * @augments Light\n */\nclass DirectionalLight extends Light {\n\n\t/**\n\t * Constructs a new directional light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( color, intensity ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDirectionalLight = true;\n\n\t\tthis.type = 'DirectionalLight';\n\n\t\tthis.position.copy( Object3D.DEFAULT_UP );\n\t\tthis.updateMatrix();\n\n\t\t/**\n\t\t * The directional light points from its position to the\n\t\t * target's position.\n\t\t *\n\t\t * For the target's position to be changed to anything other\n\t\t * than the default, it must be added to the scene.\n\t\t *\n\t\t * It is also possible to set the target to be another 3D object\n\t\t * in the scene. The light will now track the target object.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.target = new Object3D();\n\n\t\t/**\n\t\t * This property holds the light's shadow configuration.\n\t\t *\n\t\t * @type {DirectionalLightShadow}\n\t\t */\n\t\tthis.shadow = new DirectionalLightShadow();\n\n\t}\n\n\tdispose() {\n\n\t\tthis.shadow.dispose();\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.target = source.target.clone();\n\t\tthis.shadow = source.shadow.clone();\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This light globally illuminates all objects in the scene equally.\n *\n * It cannot be used to cast shadows as it does not have a direction.\n *\n * ```js\n * const light = new THREE.AmbientLight( 0x404040 ); // soft white light\n * scene.add( light );\n * ```\n *\n * @augments Light\n */\nclass AmbientLight extends Light {\n\n\t/**\n\t * Constructs a new ambient light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( color, intensity ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isAmbientLight = true;\n\n\t\tthis.type = 'AmbientLight';\n\n\t}\n\n}\n\n/**\n * This class emits light uniformly across the face a rectangular plane.\n * This light type can be used to simulate light sources such as bright\n * windows or strip lighting.\n *\n * Important Notes:\n *\n * - There is no shadow support.\n * - Only PBR materials are supported.\n * - You have to include `RectAreaLightUniformsLib` (`WebGLRenderer`) or `RectAreaLightTexturesLib` (`WebGPURenderer`)\n * into your app and init the uniforms/textures.\n *\n * ```js\n * RectAreaLightUniformsLib.init(); // only relevant for WebGLRenderer\n * THREE.RectAreaLightNode.setLTC( RectAreaLightTexturesLib.init() ); // only relevant for WebGPURenderer\n *\n * const intensity = 1; const width = 10; const height = 10;\n * const rectLight = new THREE.RectAreaLight( 0xffffff, intensity, width, height );\n * rectLight.position.set( 5, 5, 0 );\n * rectLight.lookAt( 0, 0, 0 );\n * scene.add( rectLight )\n * ```\n *\n * @augments Light\n */\nclass RectAreaLight extends Light {\n\n\t/**\n\t * Constructs a new area light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t * @param {number} [width=10] - The width of the light.\n\t * @param {number} [height=10] - The height of the light.\n\t */\n\tconstructor( color, intensity, width = 10, height = 10 ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRectAreaLight = true;\n\n\t\tthis.type = 'RectAreaLight';\n\n\t\t/**\n\t\t * The width of the light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 10\n\t\t */\n\t\tthis.width = width;\n\n\t\t/**\n\t\t * The height of the light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 10\n\t\t */\n\t\tthis.height = height;\n\n\t}\n\n\t/**\n\t * The light's power. Power is the luminous power of the light measured in lumens (lm).\n\t * Changing the power will also change the light's intensity.\n\t *\n\t * @type {number}\n\t */\n\tget power() {\n\n\t\t// compute the light's luminous power (in lumens) from its intensity (in nits)\n\t\treturn this.intensity * this.width * this.height * Math.PI;\n\n\t}\n\n\tset power( power ) {\n\n\t\t// set the light's intensity (in nits) from the desired luminous power (in lumens)\n\t\tthis.intensity = power / ( this.width * this.height * Math.PI );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.width = source.width;\n\t\tthis.height = source.height;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.width = this.width;\n\t\tdata.object.height = this.height;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Represents a third-order spherical harmonics (SH). Light probes use this class\n * to encode lighting information.\n *\n * - Primary reference: {@link https://graphics.stanford.edu/papers/envmap/envmap.pdf}\n * - Secondary reference: {@link https://www.ppsloan.org/publications/StupidSH36.pdf}\n */\nclass SphericalHarmonics3 {\n\n\t/**\n\t * Constructs a new spherical harmonics.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSphericalHarmonics3 = true;\n\n\t\t/**\n\t\t * An array holding the (9) SH coefficients.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.coefficients = [];\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients.push( new Vector3() );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the given SH coefficients to this instance by copying\n\t * the values.\n\t *\n\t * @param {Array} coefficients - The SH coefficients.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tset( coefficients ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].copy( coefficients[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets all SH coefficients to `0`.\n\t *\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tzero() {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].set( 0, 0, 0 );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the radiance in the direction of the given normal.\n\t *\n\t * @param {Vector3} normal - The normal vector (assumed to be unit length)\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The radiance.\n\t */\n\tgetAt( normal, target ) {\n\n\t\t// normal is assumed to be unit length\n\n\t\tconst x = normal.x, y = normal.y, z = normal.z;\n\n\t\tconst coeff = this.coefficients;\n\n\t\t// band 0\n\t\ttarget.copy( coeff[ 0 ] ).multiplyScalar( 0.282095 );\n\n\t\t// band 1\n\t\ttarget.addScaledVector( coeff[ 1 ], 0.488603 * y );\n\t\ttarget.addScaledVector( coeff[ 2 ], 0.488603 * z );\n\t\ttarget.addScaledVector( coeff[ 3 ], 0.488603 * x );\n\n\t\t// band 2\n\t\ttarget.addScaledVector( coeff[ 4 ], 1.092548 * ( x * y ) );\n\t\ttarget.addScaledVector( coeff[ 5 ], 1.092548 * ( y * z ) );\n\t\ttarget.addScaledVector( coeff[ 6 ], 0.315392 * ( 3.0 * z * z - 1.0 ) );\n\t\ttarget.addScaledVector( coeff[ 7 ], 1.092548 * ( x * z ) );\n\t\ttarget.addScaledVector( coeff[ 8 ], 0.546274 * ( x * x - y * y ) );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the irradiance (radiance convolved with cosine lobe) in the\n\t * direction of the given normal.\n\t *\n\t * @param {Vector3} normal - The normal vector (assumed to be unit length)\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The irradiance.\n\t */\n\tgetIrradianceAt( normal, target ) {\n\n\t\t// normal is assumed to be unit length\n\n\t\tconst x = normal.x, y = normal.y, z = normal.z;\n\n\t\tconst coeff = this.coefficients;\n\n\t\t// band 0\n\t\ttarget.copy( coeff[ 0 ] ).multiplyScalar( 0.886227 ); // π * 0.282095\n\n\t\t// band 1\n\t\ttarget.addScaledVector( coeff[ 1 ], 2.0 * 0.511664 * y ); // ( 2 * π / 3 ) * 0.488603\n\t\ttarget.addScaledVector( coeff[ 2 ], 2.0 * 0.511664 * z );\n\t\ttarget.addScaledVector( coeff[ 3 ], 2.0 * 0.511664 * x );\n\n\t\t// band 2\n\t\ttarget.addScaledVector( coeff[ 4 ], 2.0 * 0.429043 * x * y ); // ( π / 4 ) * 1.092548\n\t\ttarget.addScaledVector( coeff[ 5 ], 2.0 * 0.429043 * y * z );\n\t\ttarget.addScaledVector( coeff[ 6 ], 0.743125 * z * z - 0.247708 ); // ( π / 4 ) * 0.315392 * 3\n\t\ttarget.addScaledVector( coeff[ 7 ], 2.0 * 0.429043 * x * z );\n\t\ttarget.addScaledVector( coeff[ 8 ], 0.429043 * ( x * x - y * y ) ); // ( π / 4 ) * 0.546274\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Adds the given SH to this instance.\n\t *\n\t * @param {SphericalHarmonics3} sh - The SH to add.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tadd( sh ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].add( sh.coefficients[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * A convenience method for performing {@link SphericalHarmonics3#add} and\n\t * {@link SphericalHarmonics3#scale} at once.\n\t *\n\t * @param {SphericalHarmonics3} sh - The SH to add.\n\t * @param {number} s - The scale factor.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\taddScaledSH( sh, s ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].addScaledVector( sh.coefficients[ i ], s );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scales this SH by the given scale factor.\n\t *\n\t * @param {number} s - The scale factor.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tscale( s ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].multiplyScalar( s );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linear interpolates between the given SH and this instance by the given\n\t * alpha factor.\n\t *\n\t * @param {SphericalHarmonics3} sh - The SH to interpolate with.\n\t * @param {number} alpha - The alpha factor.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tlerp( sh, alpha ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].lerp( sh.coefficients[ i ], alpha );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this spherical harmonics is equal with the given one.\n\t *\n\t * @param {SphericalHarmonics3} sh - The spherical harmonics to test for equality.\n\t * @return {boolean} Whether this spherical harmonics is equal with the given one.\n\t */\n\tequals( sh ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tif ( ! this.coefficients[ i ].equals( sh.coefficients[ i ] ) ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Copies the values of the given spherical harmonics to this instance.\n\t *\n\t * @param {SphericalHarmonics3} sh - The spherical harmonics to copy.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tcopy( sh ) {\n\n\t\treturn this.set( sh.coefficients );\n\n\t}\n\n\t/**\n\t * Returns a new spherical harmonics with copied values from this instance.\n\t *\n\t * @return {SphericalHarmonics3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Sets the SH coefficients of this instance from the given array.\n\t *\n\t * @param {Array} array - An array holding the SH coefficients.\n\t * @param {number} [offset=0] - The array offset where to start copying.\n\t * @return {SphericalHarmonics3} A clone of this instance.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tconst coefficients = this.coefficients;\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tcoefficients[ i ].fromArray( array, offset + ( i * 3 ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns an array with the SH coefficients, or copies them into the provided\n\t * array. The coefficients are represented as numbers.\n\t *\n\t * @param {Array} [array=[]] - The target array.\n\t * @param {number} [offset=0] - The array offset where to start copying.\n\t * @return {Array} An array with flat SH coefficients.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tconst coefficients = this.coefficients;\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tcoefficients[ i ].toArray( array, offset + ( i * 3 ) );\n\n\t\t}\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Computes the SH basis for the given normal vector.\n\t *\n\t * @param {Vector3} normal - The normal.\n\t * @param {Array} shBasis - The target array holding the SH basis.\n\t */\n\tstatic getBasisAt( normal, shBasis ) {\n\n\t\t// normal is assumed to be unit length\n\n\t\tconst x = normal.x, y = normal.y, z = normal.z;\n\n\t\t// band 0\n\t\tshBasis[ 0 ] = 0.282095;\n\n\t\t// band 1\n\t\tshBasis[ 1 ] = 0.488603 * y;\n\t\tshBasis[ 2 ] = 0.488603 * z;\n\t\tshBasis[ 3 ] = 0.488603 * x;\n\n\t\t// band 2\n\t\tshBasis[ 4 ] = 1.092548 * x * y;\n\t\tshBasis[ 5 ] = 1.092548 * y * z;\n\t\tshBasis[ 6 ] = 0.315392 * ( 3 * z * z - 1 );\n\t\tshBasis[ 7 ] = 1.092548 * x * z;\n\t\tshBasis[ 8 ] = 0.546274 * ( x * x - y * y );\n\n\t}\n\n}\n\n/**\n * Light probes are an alternative way of adding light to a 3D scene. Unlike\n * classical light sources (e.g. directional, point or spot lights), light\n * probes do not emit light. Instead they store information about light\n * passing through 3D space. During rendering, the light that hits a 3D\n * object is approximated by using the data from the light probe.\n *\n * Light probes are usually created from (radiance) environment maps. The\n * class {@link LightProbeGenerator} can be used to create light probes from\n * cube textures or render targets. However, light estimation data could also\n * be provided in other forms e.g. by WebXR. This enables the rendering of\n * augmented reality content that reacts to real world lighting.\n *\n * The current probe implementation in three.js supports so-called diffuse\n * light probes. This type of light probe is functionally equivalent to an\n * irradiance environment map.\n *\n * @augments Light\n */\nclass LightProbe extends Light {\n\n\t/**\n\t * Constructs a new light probe.\n\t *\n\t * @param {SphericalHarmonics3} sh - The spherical harmonics which represents encoded lighting information.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( sh = new SphericalHarmonics3(), intensity = 1 ) {\n\n\t\tsuper( undefined, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLightProbe = true;\n\n\t\t/**\n\t\t * A light probe uses spherical harmonics to encode lighting information.\n\t\t *\n\t\t * @type {SphericalHarmonics3}\n\t\t */\n\t\tthis.sh = sh;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.sh.copy( source.sh );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Deserializes the light prove from the given JSON.\n\t *\n\t * @param {Object} json - The JSON holding the serialized light probe.\n\t * @return {LightProbe} A reference to this light probe.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.intensity = json.intensity; // TODO: Move this bit to Light.fromJSON();\n\t\tthis.sh.fromArray( json.sh );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.sh = this.sh.toArray();\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Class for loading geometries. The files are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.MaterialLoader();\n * const material = await loader.loadAsync( 'material.json' );\n * ```\n * This loader does not support node materials. Use {@link NodeMaterialLoader} instead.\n *\n * @augments Loader\n */\nclass MaterialLoader extends Loader {\n\n\t/**\n\t * Constructs a new material loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t\t/**\n\t\t * A dictionary holding textures used by the material.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.textures = {};\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded material to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Material)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( scope.manager );\n\t\tloader.setPath( scope.path );\n\t\tloader.setRequestHeader( scope.requestHeader );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\ttry {\n\n\t\t\t\tonLoad( scope.parse( JSON.parse( text ) ) );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\tif ( onError ) {\n\n\t\t\t\t\tonError( e );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( e );\n\n\t\t\t\t}\n\n\t\t\t\tscope.manager.itemError( url );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Parses the given JSON object and returns a material.\n\t *\n\t * @param {Object} json - The serialized material.\n\t * @return {Material} The parsed material.\n\t */\n\tparse( json ) {\n\n\t\tconst textures = this.textures;\n\n\t\tfunction getTexture( name ) {\n\n\t\t\tif ( textures[ name ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.MaterialLoader: Undefined texture', name );\n\n\t\t\t}\n\n\t\t\treturn textures[ name ];\n\n\t\t}\n\n\t\tconst material = this.createMaterialFromType( json.type );\n\n\t\tif ( json.uuid !== undefined ) material.uuid = json.uuid;\n\t\tif ( json.name !== undefined ) material.name = json.name;\n\t\tif ( json.color !== undefined && material.color !== undefined ) material.color.setHex( json.color );\n\t\tif ( json.roughness !== undefined ) material.roughness = json.roughness;\n\t\tif ( json.metalness !== undefined ) material.metalness = json.metalness;\n\t\tif ( json.sheen !== undefined ) material.sheen = json.sheen;\n\t\tif ( json.sheenColor !== undefined ) material.sheenColor = new Color().setHex( json.sheenColor );\n\t\tif ( json.sheenRoughness !== undefined ) material.sheenRoughness = json.sheenRoughness;\n\t\tif ( json.emissive !== undefined && material.emissive !== undefined ) material.emissive.setHex( json.emissive );\n\t\tif ( json.specular !== undefined && material.specular !== undefined ) material.specular.setHex( json.specular );\n\t\tif ( json.specularIntensity !== undefined ) material.specularIntensity = json.specularIntensity;\n\t\tif ( json.specularColor !== undefined && material.specularColor !== undefined ) material.specularColor.setHex( json.specularColor );\n\t\tif ( json.shininess !== undefined ) material.shininess = json.shininess;\n\t\tif ( json.clearcoat !== undefined ) material.clearcoat = json.clearcoat;\n\t\tif ( json.clearcoatRoughness !== undefined ) material.clearcoatRoughness = json.clearcoatRoughness;\n\t\tif ( json.dispersion !== undefined ) material.dispersion = json.dispersion;\n\t\tif ( json.iridescence !== undefined ) material.iridescence = json.iridescence;\n\t\tif ( json.iridescenceIOR !== undefined ) material.iridescenceIOR = json.iridescenceIOR;\n\t\tif ( json.iridescenceThicknessRange !== undefined ) material.iridescenceThicknessRange = json.iridescenceThicknessRange;\n\t\tif ( json.transmission !== undefined ) material.transmission = json.transmission;\n\t\tif ( json.thickness !== undefined ) material.thickness = json.thickness;\n\t\tif ( json.attenuationDistance !== undefined ) material.attenuationDistance = json.attenuationDistance;\n\t\tif ( json.attenuationColor !== undefined && material.attenuationColor !== undefined ) material.attenuationColor.setHex( json.attenuationColor );\n\t\tif ( json.anisotropy !== undefined ) material.anisotropy = json.anisotropy;\n\t\tif ( json.anisotropyRotation !== undefined ) material.anisotropyRotation = json.anisotropyRotation;\n\t\tif ( json.fog !== undefined ) material.fog = json.fog;\n\t\tif ( json.flatShading !== undefined ) material.flatShading = json.flatShading;\n\t\tif ( json.blending !== undefined ) material.blending = json.blending;\n\t\tif ( json.combine !== undefined ) material.combine = json.combine;\n\t\tif ( json.side !== undefined ) material.side = json.side;\n\t\tif ( json.shadowSide !== undefined ) material.shadowSide = json.shadowSide;\n\t\tif ( json.opacity !== undefined ) material.opacity = json.opacity;\n\t\tif ( json.transparent !== undefined ) material.transparent = json.transparent;\n\t\tif ( json.alphaTest !== undefined ) material.alphaTest = json.alphaTest;\n\t\tif ( json.alphaHash !== undefined ) material.alphaHash = json.alphaHash;\n\t\tif ( json.depthFunc !== undefined ) material.depthFunc = json.depthFunc;\n\t\tif ( json.depthTest !== undefined ) material.depthTest = json.depthTest;\n\t\tif ( json.depthWrite !== undefined ) material.depthWrite = json.depthWrite;\n\t\tif ( json.colorWrite !== undefined ) material.colorWrite = json.colorWrite;\n\t\tif ( json.blendSrc !== undefined ) material.blendSrc = json.blendSrc;\n\t\tif ( json.blendDst !== undefined ) material.blendDst = json.blendDst;\n\t\tif ( json.blendEquation !== undefined ) material.blendEquation = json.blendEquation;\n\t\tif ( json.blendSrcAlpha !== undefined ) material.blendSrcAlpha = json.blendSrcAlpha;\n\t\tif ( json.blendDstAlpha !== undefined ) material.blendDstAlpha = json.blendDstAlpha;\n\t\tif ( json.blendEquationAlpha !== undefined ) material.blendEquationAlpha = json.blendEquationAlpha;\n\t\tif ( json.blendColor !== undefined && material.blendColor !== undefined ) material.blendColor.setHex( json.blendColor );\n\t\tif ( json.blendAlpha !== undefined ) material.blendAlpha = json.blendAlpha;\n\t\tif ( json.stencilWriteMask !== undefined ) material.stencilWriteMask = json.stencilWriteMask;\n\t\tif ( json.stencilFunc !== undefined ) material.stencilFunc = json.stencilFunc;\n\t\tif ( json.stencilRef !== undefined ) material.stencilRef = json.stencilRef;\n\t\tif ( json.stencilFuncMask !== undefined ) material.stencilFuncMask = json.stencilFuncMask;\n\t\tif ( json.stencilFail !== undefined ) material.stencilFail = json.stencilFail;\n\t\tif ( json.stencilZFail !== undefined ) material.stencilZFail = json.stencilZFail;\n\t\tif ( json.stencilZPass !== undefined ) material.stencilZPass = json.stencilZPass;\n\t\tif ( json.stencilWrite !== undefined ) material.stencilWrite = json.stencilWrite;\n\n\t\tif ( json.wireframe !== undefined ) material.wireframe = json.wireframe;\n\t\tif ( json.wireframeLinewidth !== undefined ) material.wireframeLinewidth = json.wireframeLinewidth;\n\t\tif ( json.wireframeLinecap !== undefined ) material.wireframeLinecap = json.wireframeLinecap;\n\t\tif ( json.wireframeLinejoin !== undefined ) material.wireframeLinejoin = json.wireframeLinejoin;\n\n\t\tif ( json.rotation !== undefined ) material.rotation = json.rotation;\n\n\t\tif ( json.linewidth !== undefined ) material.linewidth = json.linewidth;\n\t\tif ( json.dashSize !== undefined ) material.dashSize = json.dashSize;\n\t\tif ( json.gapSize !== undefined ) material.gapSize = json.gapSize;\n\t\tif ( json.scale !== undefined ) material.scale = json.scale;\n\n\t\tif ( json.polygonOffset !== undefined ) material.polygonOffset = json.polygonOffset;\n\t\tif ( json.polygonOffsetFactor !== undefined ) material.polygonOffsetFactor = json.polygonOffsetFactor;\n\t\tif ( json.polygonOffsetUnits !== undefined ) material.polygonOffsetUnits = json.polygonOffsetUnits;\n\n\t\tif ( json.dithering !== undefined ) material.dithering = json.dithering;\n\n\t\tif ( json.alphaToCoverage !== undefined ) material.alphaToCoverage = json.alphaToCoverage;\n\t\tif ( json.premultipliedAlpha !== undefined ) material.premultipliedAlpha = json.premultipliedAlpha;\n\t\tif ( json.forceSinglePass !== undefined ) material.forceSinglePass = json.forceSinglePass;\n\n\t\tif ( json.visible !== undefined ) material.visible = json.visible;\n\n\t\tif ( json.toneMapped !== undefined ) material.toneMapped = json.toneMapped;\n\n\t\tif ( json.userData !== undefined ) material.userData = json.userData;\n\n\t\tif ( json.vertexColors !== undefined ) {\n\n\t\t\tif ( typeof json.vertexColors === 'number' ) {\n\n\t\t\t\tmaterial.vertexColors = ( json.vertexColors > 0 ) ? true : false;\n\n\t\t\t} else {\n\n\t\t\t\tmaterial.vertexColors = json.vertexColors;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// Shader Material\n\n\t\tif ( json.uniforms !== undefined ) {\n\n\t\t\tfor ( const name in json.uniforms ) {\n\n\t\t\t\tconst uniform = json.uniforms[ name ];\n\n\t\t\t\tmaterial.uniforms[ name ] = {};\n\n\t\t\t\tswitch ( uniform.type ) {\n\n\t\t\t\t\tcase 't':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = getTexture( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'c':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Color().setHex( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'v2':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Vector2().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'v3':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Vector3().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'v4':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Vector4().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'm3':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Matrix3().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'm4':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Matrix4().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tdefault:\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = uniform.value;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json.defines !== undefined ) material.defines = json.defines;\n\t\tif ( json.vertexShader !== undefined ) material.vertexShader = json.vertexShader;\n\t\tif ( json.fragmentShader !== undefined ) material.fragmentShader = json.fragmentShader;\n\t\tif ( json.glslVersion !== undefined ) material.glslVersion = json.glslVersion;\n\n\t\tif ( json.extensions !== undefined ) {\n\n\t\t\tfor ( const key in json.extensions ) {\n\n\t\t\t\tmaterial.extensions[ key ] = json.extensions[ key ];\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json.lights !== undefined ) material.lights = json.lights;\n\t\tif ( json.clipping !== undefined ) material.clipping = json.clipping;\n\n\t\t// for PointsMaterial\n\n\t\tif ( json.size !== undefined ) material.size = json.size;\n\t\tif ( json.sizeAttenuation !== undefined ) material.sizeAttenuation = json.sizeAttenuation;\n\n\t\t// maps\n\n\t\tif ( json.map !== undefined ) material.map = getTexture( json.map );\n\t\tif ( json.matcap !== undefined ) material.matcap = getTexture( json.matcap );\n\n\t\tif ( json.alphaMap !== undefined ) material.alphaMap = getTexture( json.alphaMap );\n\n\t\tif ( json.bumpMap !== undefined ) material.bumpMap = getTexture( json.bumpMap );\n\t\tif ( json.bumpScale !== undefined ) material.bumpScale = json.bumpScale;\n\n\t\tif ( json.normalMap !== undefined ) material.normalMap = getTexture( json.normalMap );\n\t\tif ( json.normalMapType !== undefined ) material.normalMapType = json.normalMapType;\n\t\tif ( json.normalScale !== undefined ) {\n\n\t\t\tlet normalScale = json.normalScale;\n\n\t\t\tif ( Array.isArray( normalScale ) === false ) {\n\n\t\t\t\t// Blender exporter used to export a scalar. See #7459\n\n\t\t\t\tnormalScale = [ normalScale, normalScale ];\n\n\t\t\t}\n\n\t\t\tmaterial.normalScale = new Vector2().fromArray( normalScale );\n\n\t\t}\n\n\t\tif ( json.displacementMap !== undefined ) material.displacementMap = getTexture( json.displacementMap );\n\t\tif ( json.displacementScale !== undefined ) material.displacementScale = json.displacementScale;\n\t\tif ( json.displacementBias !== undefined ) material.displacementBias = json.displacementBias;\n\n\t\tif ( json.roughnessMap !== undefined ) material.roughnessMap = getTexture( json.roughnessMap );\n\t\tif ( json.metalnessMap !== undefined ) material.metalnessMap = getTexture( json.metalnessMap );\n\n\t\tif ( json.emissiveMap !== undefined ) material.emissiveMap = getTexture( json.emissiveMap );\n\t\tif ( json.emissiveIntensity !== undefined ) material.emissiveIntensity = json.emissiveIntensity;\n\n\t\tif ( json.specularMap !== undefined ) material.specularMap = getTexture( json.specularMap );\n\t\tif ( json.specularIntensityMap !== undefined ) material.specularIntensityMap = getTexture( json.specularIntensityMap );\n\t\tif ( json.specularColorMap !== undefined ) material.specularColorMap = getTexture( json.specularColorMap );\n\n\t\tif ( json.envMap !== undefined ) material.envMap = getTexture( json.envMap );\n\t\tif ( json.envMapRotation !== undefined ) material.envMapRotation.fromArray( json.envMapRotation );\n\t\tif ( json.envMapIntensity !== undefined ) material.envMapIntensity = json.envMapIntensity;\n\n\t\tif ( json.reflectivity !== undefined ) material.reflectivity = json.reflectivity;\n\t\tif ( json.refractionRatio !== undefined ) material.refractionRatio = json.refractionRatio;\n\n\t\tif ( json.lightMap !== undefined ) material.lightMap = getTexture( json.lightMap );\n\t\tif ( json.lightMapIntensity !== undefined ) material.lightMapIntensity = json.lightMapIntensity;\n\n\t\tif ( json.aoMap !== undefined ) material.aoMap = getTexture( json.aoMap );\n\t\tif ( json.aoMapIntensity !== undefined ) material.aoMapIntensity = json.aoMapIntensity;\n\n\t\tif ( json.gradientMap !== undefined ) material.gradientMap = getTexture( json.gradientMap );\n\n\t\tif ( json.clearcoatMap !== undefined ) material.clearcoatMap = getTexture( json.clearcoatMap );\n\t\tif ( json.clearcoatRoughnessMap !== undefined ) material.clearcoatRoughnessMap = getTexture( json.clearcoatRoughnessMap );\n\t\tif ( json.clearcoatNormalMap !== undefined ) material.clearcoatNormalMap = getTexture( json.clearcoatNormalMap );\n\t\tif ( json.clearcoatNormalScale !== undefined ) material.clearcoatNormalScale = new Vector2().fromArray( json.clearcoatNormalScale );\n\n\t\tif ( json.iridescenceMap !== undefined ) material.iridescenceMap = getTexture( json.iridescenceMap );\n\t\tif ( json.iridescenceThicknessMap !== undefined ) material.iridescenceThicknessMap = getTexture( json.iridescenceThicknessMap );\n\n\t\tif ( json.transmissionMap !== undefined ) material.transmissionMap = getTexture( json.transmissionMap );\n\t\tif ( json.thicknessMap !== undefined ) material.thicknessMap = getTexture( json.thicknessMap );\n\n\t\tif ( json.anisotropyMap !== undefined ) material.anisotropyMap = getTexture( json.anisotropyMap );\n\n\t\tif ( json.sheenColorMap !== undefined ) material.sheenColorMap = getTexture( json.sheenColorMap );\n\t\tif ( json.sheenRoughnessMap !== undefined ) material.sheenRoughnessMap = getTexture( json.sheenRoughnessMap );\n\n\t\treturn material;\n\n\t}\n\n\t/**\n\t * Textures are not embedded in the material JSON so they have\n\t * to be injected before the loading process starts.\n\t *\n\t * @param {Object} value - A dictionary holding textures for material properties.\n\t * @return {MaterialLoader} A reference to this material loader.\n\t */\n\tsetTextures( value ) {\n\n\t\tthis.textures = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Creates a material for the given type.\n\t *\n\t * @param {string} type - The material type.\n\t * @return {Material} The new material.\n\t */\n\tcreateMaterialFromType( type ) {\n\n\t\treturn MaterialLoader.createMaterialFromType( type );\n\n\t}\n\n\t/**\n\t * Creates a material for the given type.\n\t *\n\t * @static\n\t * @param {string} type - The material type.\n\t * @return {Material} The new material.\n\t */\n\tstatic createMaterialFromType( type ) {\n\n\t\tconst materialLib = {\n\t\t\tShadowMaterial,\n\t\t\tSpriteMaterial,\n\t\t\tRawShaderMaterial,\n\t\t\tShaderMaterial,\n\t\t\tPointsMaterial,\n\t\t\tMeshPhysicalMaterial,\n\t\t\tMeshStandardMaterial,\n\t\t\tMeshPhongMaterial,\n\t\t\tMeshToonMaterial,\n\t\t\tMeshNormalMaterial,\n\t\t\tMeshLambertMaterial,\n\t\t\tMeshDepthMaterial,\n\t\t\tMeshDistanceMaterial,\n\t\t\tMeshBasicMaterial,\n\t\t\tMeshMatcapMaterial,\n\t\t\tLineDashedMaterial,\n\t\t\tLineBasicMaterial,\n\t\t\tMaterial\n\t\t};\n\n\t\treturn new materialLib[ type ]();\n\n\t}\n\n}\n\n/**\n * A class with loader utility functions.\n */\nclass LoaderUtils {\n\n\t/**\n\t * Extracts the base URL from the given URL.\n\t *\n\t * @param {string} url -The URL to extract the base URL from.\n\t * @return {string} The extracted base URL.\n\t */\n\tstatic extractUrlBase( url ) {\n\n\t\tconst index = url.lastIndexOf( '/' );\n\n\t\tif ( index === -1 ) return './';\n\n\t\treturn url.slice( 0, index + 1 );\n\n\t}\n\n\t/**\n\t * Resolves relative URLs against the given path. Absolute paths, data urls,\n\t * and blob URLs will be returned as is. Invalid URLs will return an empty\n\t * string.\n\t *\n\t * @param {string} url -The URL to resolve.\n\t * @param {string} path - The base path for relative URLs to be resolved against.\n\t * @return {string} The resolved URL.\n\t */\n\tstatic resolveURL( url, path ) {\n\n\t\t// Invalid URL\n\t\tif ( typeof url !== 'string' || url === '' ) return '';\n\n\t\t// Host Relative URL\n\t\tif ( /^https?:\\/\\//i.test( path ) && /^\\//.test( url ) ) {\n\n\t\t\tpath = path.replace( /(^https?:\\/\\/[^\\/]+).*/i, '$1' );\n\n\t\t}\n\n\t\t// Absolute URL http://,https://,//\n\t\tif ( /^(https?:)?\\/\\//i.test( url ) ) return url;\n\n\t\t// Data URI\n\t\tif ( /^data:.*,.*$/i.test( url ) ) return url;\n\n\t\t// Blob URL\n\t\tif ( /^blob:.*$/i.test( url ) ) return url;\n\n\t\t// Relative URL\n\t\treturn path + url;\n\n\t}\n\n}\n\n/**\n * An instanced version of a geometry.\n */\nclass InstancedBufferGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new instanced buffer geometry.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedBufferGeometry = true;\n\n\t\tthis.type = 'InstancedBufferGeometry';\n\n\t\t/**\n\t\t * The instance count.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.instanceCount = Infinity;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.instanceCount = source.instanceCount;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.instanceCount = this.instanceCount;\n\n\t\tdata.isInstancedBufferGeometry = true;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Class for loading geometries. The files are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.BufferGeometryLoader();\n * const geometry = await loader.loadAsync( 'models/json/pressure.json' );\n *\n * const material = new THREE.MeshBasicMaterial( { color: 0xF5F5F5 } );\n * const object = new THREE.Mesh( geometry, material );\n * scene.add( object );\n * ```\n *\n * @augments Loader\n */\nclass BufferGeometryLoader extends Loader {\n\n\t/**\n\t * Constructs a new geometry loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded geometry to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(BufferGeometry)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( scope.manager );\n\t\tloader.setPath( scope.path );\n\t\tloader.setRequestHeader( scope.requestHeader );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\ttry {\n\n\t\t\t\tonLoad( scope.parse( JSON.parse( text ) ) );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\tif ( onError ) {\n\n\t\t\t\t\tonError( e );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( e );\n\n\t\t\t\t}\n\n\t\t\t\tscope.manager.itemError( url );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Parses the given JSON object and returns a geometry.\n\t *\n\t * @param {Object} json - The serialized geometry.\n\t * @return {BufferGeometry} The parsed geometry.\n\t */\n\tparse( json ) {\n\n\t\tconst interleavedBufferMap = {};\n\t\tconst arrayBufferMap = {};\n\n\t\tfunction getInterleavedBuffer( json, uuid ) {\n\n\t\t\tif ( interleavedBufferMap[ uuid ] !== undefined ) return interleavedBufferMap[ uuid ];\n\n\t\t\tconst interleavedBuffers = json.interleavedBuffers;\n\t\t\tconst interleavedBuffer = interleavedBuffers[ uuid ];\n\n\t\t\tconst buffer = getArrayBuffer( json, interleavedBuffer.buffer );\n\n\t\t\tconst array = getTypedArray( interleavedBuffer.type, buffer );\n\t\t\tconst ib = new InterleavedBuffer( array, interleavedBuffer.stride );\n\t\t\tib.uuid = interleavedBuffer.uuid;\n\n\t\t\tinterleavedBufferMap[ uuid ] = ib;\n\n\t\t\treturn ib;\n\n\t\t}\n\n\t\tfunction getArrayBuffer( json, uuid ) {\n\n\t\t\tif ( arrayBufferMap[ uuid ] !== undefined ) return arrayBufferMap[ uuid ];\n\n\t\t\tconst arrayBuffers = json.arrayBuffers;\n\t\t\tconst arrayBuffer = arrayBuffers[ uuid ];\n\n\t\t\tconst ab = new Uint32Array( arrayBuffer ).buffer;\n\n\t\t\tarrayBufferMap[ uuid ] = ab;\n\n\t\t\treturn ab;\n\n\t\t}\n\n\t\tconst geometry = json.isInstancedBufferGeometry ? new InstancedBufferGeometry() : new BufferGeometry();\n\n\t\tconst index = json.data.index;\n\n\t\tif ( index !== undefined ) {\n\n\t\t\tconst typedArray = getTypedArray( index.type, index.array );\n\t\t\tgeometry.setIndex( new BufferAttribute( typedArray, 1 ) );\n\n\t\t}\n\n\t\tconst attributes = json.data.attributes;\n\n\t\tfor ( const key in attributes ) {\n\n\t\t\tconst attribute = attributes[ key ];\n\t\t\tlet bufferAttribute;\n\n\t\t\tif ( attribute.isInterleavedBufferAttribute ) {\n\n\t\t\t\tconst interleavedBuffer = getInterleavedBuffer( json.data, attribute.data );\n\t\t\t\tbufferAttribute = new InterleavedBufferAttribute( interleavedBuffer, attribute.itemSize, attribute.offset, attribute.normalized );\n\n\t\t\t} else {\n\n\t\t\t\tconst typedArray = getTypedArray( attribute.type, attribute.array );\n\t\t\t\tconst bufferAttributeConstr = attribute.isInstancedBufferAttribute ? InstancedBufferAttribute : BufferAttribute;\n\t\t\t\tbufferAttribute = new bufferAttributeConstr( typedArray, attribute.itemSize, attribute.normalized );\n\n\t\t\t}\n\n\t\t\tif ( attribute.name !== undefined ) bufferAttribute.name = attribute.name;\n\t\t\tif ( attribute.usage !== undefined ) bufferAttribute.setUsage( attribute.usage );\n\n\t\t\tgeometry.setAttribute( key, bufferAttribute );\n\n\t\t}\n\n\t\tconst morphAttributes = json.data.morphAttributes;\n\n\t\tif ( morphAttributes ) {\n\n\t\t\tfor ( const key in morphAttributes ) {\n\n\t\t\t\tconst attributeArray = morphAttributes[ key ];\n\n\t\t\t\tconst array = [];\n\n\t\t\t\tfor ( let i = 0, il = attributeArray.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst attribute = attributeArray[ i ];\n\t\t\t\t\tlet bufferAttribute;\n\n\t\t\t\t\tif ( attribute.isInterleavedBufferAttribute ) {\n\n\t\t\t\t\t\tconst interleavedBuffer = getInterleavedBuffer( json.data, attribute.data );\n\t\t\t\t\t\tbufferAttribute = new InterleavedBufferAttribute( interleavedBuffer, attribute.itemSize, attribute.offset, attribute.normalized );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tconst typedArray = getTypedArray( attribute.type, attribute.array );\n\t\t\t\t\t\tbufferAttribute = new BufferAttribute( typedArray, attribute.itemSize, attribute.normalized );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( attribute.name !== undefined ) bufferAttribute.name = attribute.name;\n\t\t\t\t\tarray.push( bufferAttribute );\n\n\t\t\t\t}\n\n\t\t\t\tgeometry.morphAttributes[ key ] = array;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst morphTargetsRelative = json.data.morphTargetsRelative;\n\n\t\tif ( morphTargetsRelative ) {\n\n\t\t\tgeometry.morphTargetsRelative = true;\n\n\t\t}\n\n\t\tconst groups = json.data.groups || json.data.drawcalls || json.data.offsets;\n\n\t\tif ( groups !== undefined ) {\n\n\t\t\tfor ( let i = 0, n = groups.length; i !== n; ++ i ) {\n\n\t\t\t\tconst group = groups[ i ];\n\n\t\t\t\tgeometry.addGroup( group.start, group.count, group.materialIndex );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst boundingSphere = json.data.boundingSphere;\n\n\t\tif ( boundingSphere !== undefined ) {\n\n\t\t\tgeometry.boundingSphere = new Sphere().fromJSON( boundingSphere );\n\n\t\t}\n\n\t\tif ( json.name ) geometry.name = json.name;\n\t\tif ( json.userData ) geometry.userData = json.userData;\n\n\t\treturn geometry;\n\n\t}\n\n}\n\n/**\n * A loader for loading a JSON resource in the [JSON Object/Scene format]{@link https://github.com/mrdoob/three.js/wiki/JSON-Object-Scene-format-4}.\n * The files are internally loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.ObjectLoader();\n * const obj = await loader.loadAsync( 'models/json/example.json' );\n * scene.add( obj );\n *\n * // Alternatively, to parse a previously loaded JSON structure\n * const object = await loader.parseAsync( a_json_object );\n * scene.add( object );\n * ```\n *\n * @augments Loader\n */\nclass ObjectLoader extends Loader {\n\n\t/**\n\t * Constructs a new object loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded 3D object to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Object3D)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst path = ( this.path === '' ) ? LoaderUtils.extractUrlBase( url ) : this.path;\n\t\tthis.resourcePath = this.resourcePath || path;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\tlet json = null;\n\n\t\t\ttry {\n\n\t\t\t\tjson = JSON.parse( text );\n\n\t\t\t} catch ( error ) {\n\n\t\t\t\tif ( onError !== undefined ) onError( error );\n\n\t\t\t\tconsole.error( 'THREE:ObjectLoader: Can\\'t parse ' + url + '.', error.message );\n\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t\tconst metadata = json.metadata;\n\n\t\t\tif ( metadata === undefined || metadata.type === undefined || metadata.type.toLowerCase() === 'geometry' ) {\n\n\t\t\t\tif ( onError !== undefined ) onError( new Error( 'THREE.ObjectLoader: Can\\'t load ' + url ) );\n\n\t\t\t\tconsole.error( 'THREE.ObjectLoader: Can\\'t load ' + url );\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t\tscope.parse( json, onLoad );\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Async version of {@link ObjectLoader#load}.\n\t *\n\t * @async\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @return {Promise} A Promise that resolves with the loaded 3D object.\n\t */\n\tasync loadAsync( url, onProgress ) {\n\n\t\tconst scope = this;\n\n\t\tconst path = ( this.path === '' ) ? LoaderUtils.extractUrlBase( url ) : this.path;\n\t\tthis.resourcePath = this.resourcePath || path;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\n\t\tconst text = await loader.loadAsync( url, onProgress );\n\n\t\tconst json = JSON.parse( text );\n\n\t\tconst metadata = json.metadata;\n\n\t\tif ( metadata === undefined || metadata.type === undefined || metadata.type.toLowerCase() === 'geometry' ) {\n\n\t\t\tthrow new Error( 'THREE.ObjectLoader: Can\\'t load ' + url );\n\n\t\t}\n\n\t\treturn await scope.parseAsync( json );\n\n\t}\n\n\t/**\n\t * Parses the given JSON. This is used internally by {@link ObjectLoader#load}\n\t * but can also be used directly to parse a previously loaded JSON structure.\n\t *\n\t * @param {Object} json - The serialized 3D object.\n\t * @param {onLoad} onLoad - Executed when all resources (e.g. textures) have been fully loaded.\n\t * @return {Object3D} The parsed 3D object.\n\t */\n\tparse( json, onLoad ) {\n\n\t\tconst animations = this.parseAnimations( json.animations );\n\t\tconst shapes = this.parseShapes( json.shapes );\n\t\tconst geometries = this.parseGeometries( json.geometries, shapes );\n\n\t\tconst images = this.parseImages( json.images, function () {\n\n\t\t\tif ( onLoad !== undefined ) onLoad( object );\n\n\t\t} );\n\n\t\tconst textures = this.parseTextures( json.textures, images );\n\t\tconst materials = this.parseMaterials( json.materials, textures );\n\n\t\tconst object = this.parseObject( json.object, geometries, materials, textures, animations );\n\t\tconst skeletons = this.parseSkeletons( json.skeletons, object );\n\n\t\tthis.bindSkeletons( object, skeletons );\n\t\tthis.bindLightTargets( object );\n\n\t\t//\n\n\t\tif ( onLoad !== undefined ) {\n\n\t\t\tlet hasImages = false;\n\n\t\t\tfor ( const uuid in images ) {\n\n\t\t\t\tif ( images[ uuid ].data instanceof HTMLImageElement ) {\n\n\t\t\t\t\thasImages = true;\n\t\t\t\t\tbreak;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( hasImages === false ) onLoad( object );\n\n\t\t}\n\n\t\treturn object;\n\n\t}\n\n\t/**\n\t * Async version of {@link ObjectLoader#parse}.\n\t *\n\t * @param {Object} json - The serialized 3D object.\n\t * @return {Promise} A Promise that resolves with the parsed 3D object.\n\t */\n\tasync parseAsync( json ) {\n\n\t\tconst animations = this.parseAnimations( json.animations );\n\t\tconst shapes = this.parseShapes( json.shapes );\n\t\tconst geometries = this.parseGeometries( json.geometries, shapes );\n\n\t\tconst images = await this.parseImagesAsync( json.images );\n\n\t\tconst textures = this.parseTextures( json.textures, images );\n\t\tconst materials = this.parseMaterials( json.materials, textures );\n\n\t\tconst object = this.parseObject( json.object, geometries, materials, textures, animations );\n\t\tconst skeletons = this.parseSkeletons( json.skeletons, object );\n\n\t\tthis.bindSkeletons( object, skeletons );\n\t\tthis.bindLightTargets( object );\n\n\t\treturn object;\n\n\t}\n\n\t// internals\n\n\tparseShapes( json ) {\n\n\t\tconst shapes = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst shape = new Shape().fromJSON( json[ i ] );\n\n\t\t\t\tshapes[ shape.uuid ] = shape;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn shapes;\n\n\t}\n\n\tparseSkeletons( json, object ) {\n\n\t\tconst skeletons = {};\n\t\tconst bones = {};\n\n\t\t// generate bone lookup table\n\n\t\tobject.traverse( function ( child ) {\n\n\t\t\tif ( child.isBone ) bones[ child.uuid ] = child;\n\n\t\t} );\n\n\t\t// create skeletons\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst skeleton = new Skeleton().fromJSON( json[ i ], bones );\n\n\t\t\t\tskeletons[ skeleton.uuid ] = skeleton;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn skeletons;\n\n\t}\n\n\tparseGeometries( json, shapes ) {\n\n\t\tconst geometries = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tconst bufferGeometryLoader = new BufferGeometryLoader();\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tlet geometry;\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tswitch ( data.type ) {\n\n\t\t\t\t\tcase 'BufferGeometry':\n\t\t\t\t\tcase 'InstancedBufferGeometry':\n\n\t\t\t\t\t\tgeometry = bufferGeometryLoader.parse( data );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tdefault:\n\n\t\t\t\t\t\tif ( data.type in Geometries ) {\n\n\t\t\t\t\t\t\tgeometry = Geometries[ data.type ].fromJSON( data, shapes );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tconsole.warn( `THREE.ObjectLoader: Unsupported geometry type \"${ data.type }\"` );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tgeometry.uuid = data.uuid;\n\n\t\t\t\tif ( data.name !== undefined ) geometry.name = data.name;\n\t\t\t\tif ( data.userData !== undefined ) geometry.userData = data.userData;\n\n\t\t\t\tgeometries[ data.uuid ] = geometry;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn geometries;\n\n\t}\n\n\tparseMaterials( json, textures ) {\n\n\t\tconst cache = {}; // MultiMaterial\n\t\tconst materials = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tconst loader = new MaterialLoader();\n\t\t\tloader.setTextures( textures );\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tif ( cache[ data.uuid ] === undefined ) {\n\n\t\t\t\t\tcache[ data.uuid ] = loader.parse( data );\n\n\t\t\t\t}\n\n\t\t\t\tmaterials[ data.uuid ] = cache[ data.uuid ];\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn materials;\n\n\t}\n\n\tparseAnimations( json ) {\n\n\t\tconst animations = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0; i < json.length; i ++ ) {\n\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tconst clip = AnimationClip.parse( data );\n\n\t\t\t\tanimations[ clip.uuid ] = clip;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn animations;\n\n\t}\n\n\tparseImages( json, onLoad ) {\n\n\t\tconst scope = this;\n\t\tconst images = {};\n\n\t\tlet loader;\n\n\t\tfunction loadImage( url ) {\n\n\t\t\tscope.manager.itemStart( url );\n\n\t\t\treturn loader.load( url, function () {\n\n\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t}, undefined, function () {\n\n\t\t\t\tscope.manager.itemError( url );\n\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t} );\n\n\t\t}\n\n\t\tfunction deserializeImage( image ) {\n\n\t\t\tif ( typeof image === 'string' ) {\n\n\t\t\t\tconst url = image;\n\n\t\t\t\tconst path = /^(\\/\\/)|([a-z]+:(\\/\\/)?)/i.test( url ) ? url : scope.resourcePath + url;\n\n\t\t\t\treturn loadImage( path );\n\n\t\t\t} else {\n\n\t\t\t\tif ( image.data ) {\n\n\t\t\t\t\treturn {\n\t\t\t\t\t\tdata: getTypedArray( image.type, image.data ),\n\t\t\t\t\t\twidth: image.width,\n\t\t\t\t\t\theight: image.height\n\t\t\t\t\t};\n\n\t\t\t\t} else {\n\n\t\t\t\t\treturn null;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json !== undefined && json.length > 0 ) {\n\n\t\t\tconst manager = new LoadingManager( onLoad );\n\n\t\t\tloader = new ImageLoader( manager );\n\t\t\tloader.setCrossOrigin( this.crossOrigin );\n\n\t\t\tfor ( let i = 0, il = json.length; i < il; i ++ ) {\n\n\t\t\t\tconst image = json[ i ];\n\t\t\t\tconst url = image.url;\n\n\t\t\t\tif ( Array.isArray( url ) ) {\n\n\t\t\t\t\t// load array of images e.g CubeTexture\n\n\t\t\t\t\tconst imageArray = [];\n\n\t\t\t\t\tfor ( let j = 0, jl = url.length; j < jl; j ++ ) {\n\n\t\t\t\t\t\tconst currentUrl = url[ j ];\n\n\t\t\t\t\t\tconst deserializedImage = deserializeImage( currentUrl );\n\n\t\t\t\t\t\tif ( deserializedImage !== null ) {\n\n\t\t\t\t\t\t\tif ( deserializedImage instanceof HTMLImageElement ) {\n\n\t\t\t\t\t\t\t\timageArray.push( deserializedImage );\n\n\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\t// special case: handle array of data textures for cube textures\n\n\t\t\t\t\t\t\t\timageArray.push( new DataTexture( deserializedImage.data, deserializedImage.width, deserializedImage.height ) );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\timages[ image.uuid ] = new Source( imageArray );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// load single image\n\n\t\t\t\t\tconst deserializedImage = deserializeImage( image.url );\n\t\t\t\t\timages[ image.uuid ] = new Source( deserializedImage );\n\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn images;\n\n\t}\n\n\tasync parseImagesAsync( json ) {\n\n\t\tconst scope = this;\n\t\tconst images = {};\n\n\t\tlet loader;\n\n\t\tasync function deserializeImage( image ) {\n\n\t\t\tif ( typeof image === 'string' ) {\n\n\t\t\t\tconst url = image;\n\n\t\t\t\tconst path = /^(\\/\\/)|([a-z]+:(\\/\\/)?)/i.test( url ) ? url : scope.resourcePath + url;\n\n\t\t\t\treturn await loader.loadAsync( path );\n\n\t\t\t} else {\n\n\t\t\t\tif ( image.data ) {\n\n\t\t\t\t\treturn {\n\t\t\t\t\t\tdata: getTypedArray( image.type, image.data ),\n\t\t\t\t\t\twidth: image.width,\n\t\t\t\t\t\theight: image.height\n\t\t\t\t\t};\n\n\t\t\t\t} else {\n\n\t\t\t\t\treturn null;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json !== undefined && json.length > 0 ) {\n\n\t\t\tloader = new ImageLoader( this.manager );\n\t\t\tloader.setCrossOrigin( this.crossOrigin );\n\n\t\t\tfor ( let i = 0, il = json.length; i < il; i ++ ) {\n\n\t\t\t\tconst image = json[ i ];\n\t\t\t\tconst url = image.url;\n\n\t\t\t\tif ( Array.isArray( url ) ) {\n\n\t\t\t\t\t// load array of images e.g CubeTexture\n\n\t\t\t\t\tconst imageArray = [];\n\n\t\t\t\t\tfor ( let j = 0, jl = url.length; j < jl; j ++ ) {\n\n\t\t\t\t\t\tconst currentUrl = url[ j ];\n\n\t\t\t\t\t\tconst deserializedImage = await deserializeImage( currentUrl );\n\n\t\t\t\t\t\tif ( deserializedImage !== null ) {\n\n\t\t\t\t\t\t\tif ( deserializedImage instanceof HTMLImageElement ) {\n\n\t\t\t\t\t\t\t\timageArray.push( deserializedImage );\n\n\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\t// special case: handle array of data textures for cube textures\n\n\t\t\t\t\t\t\t\timageArray.push( new DataTexture( deserializedImage.data, deserializedImage.width, deserializedImage.height ) );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\timages[ image.uuid ] = new Source( imageArray );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// load single image\n\n\t\t\t\t\tconst deserializedImage = await deserializeImage( image.url );\n\t\t\t\t\timages[ image.uuid ] = new Source( deserializedImage );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn images;\n\n\t}\n\n\tparseTextures( json, images ) {\n\n\t\tfunction parseConstant( value, type ) {\n\n\t\t\tif ( typeof value === 'number' ) return value;\n\n\t\t\tconsole.warn( 'THREE.ObjectLoader.parseTexture: Constant should be in numeric form.', value );\n\n\t\t\treturn type[ value ];\n\n\t\t}\n\n\t\tconst textures = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tif ( data.image === undefined ) {\n\n\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: No \"image\" specified for', data.uuid );\n\n\t\t\t\t}\n\n\t\t\t\tif ( images[ data.image ] === undefined ) {\n\n\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined image', data.image );\n\n\t\t\t\t}\n\n\t\t\t\tconst source = images[ data.image ];\n\t\t\t\tconst image = source.data;\n\n\t\t\t\tlet texture;\n\n\t\t\t\tif ( Array.isArray( image ) ) {\n\n\t\t\t\t\ttexture = new CubeTexture();\n\n\t\t\t\t\tif ( image.length === 6 ) texture.needsUpdate = true;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tif ( image && image.data ) {\n\n\t\t\t\t\t\ttexture = new DataTexture();\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ttexture = new Texture();\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( image ) texture.needsUpdate = true; // textures can have undefined image data\n\n\t\t\t\t}\n\n\t\t\t\ttexture.source = source;\n\n\t\t\t\ttexture.uuid = data.uuid;\n\n\t\t\t\tif ( data.name !== undefined ) texture.name = data.name;\n\n\t\t\t\tif ( data.mapping !== undefined ) texture.mapping = parseConstant( data.mapping, TEXTURE_MAPPING );\n\t\t\t\tif ( data.channel !== undefined ) texture.channel = data.channel;\n\n\t\t\t\tif ( data.offset !== undefined ) texture.offset.fromArray( data.offset );\n\t\t\t\tif ( data.repeat !== undefined ) texture.repeat.fromArray( data.repeat );\n\t\t\t\tif ( data.center !== undefined ) texture.center.fromArray( data.center );\n\t\t\t\tif ( data.rotation !== undefined ) texture.rotation = data.rotation;\n\n\t\t\t\tif ( data.wrap !== undefined ) {\n\n\t\t\t\t\ttexture.wrapS = parseConstant( data.wrap[ 0 ], TEXTURE_WRAPPING );\n\t\t\t\t\ttexture.wrapT = parseConstant( data.wrap[ 1 ], TEXTURE_WRAPPING );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.format !== undefined ) texture.format = data.format;\n\t\t\t\tif ( data.internalFormat !== undefined ) texture.internalFormat = data.internalFormat;\n\t\t\t\tif ( data.type !== undefined ) texture.type = data.type;\n\t\t\t\tif ( data.colorSpace !== undefined ) texture.colorSpace = data.colorSpace;\n\n\t\t\t\tif ( data.minFilter !== undefined ) texture.minFilter = parseConstant( data.minFilter, TEXTURE_FILTER );\n\t\t\t\tif ( data.magFilter !== undefined ) texture.magFilter = parseConstant( data.magFilter, TEXTURE_FILTER );\n\t\t\t\tif ( data.anisotropy !== undefined ) texture.anisotropy = data.anisotropy;\n\n\t\t\t\tif ( data.flipY !== undefined ) texture.flipY = data.flipY;\n\n\t\t\t\tif ( data.generateMipmaps !== undefined ) texture.generateMipmaps = data.generateMipmaps;\n\t\t\t\tif ( data.premultiplyAlpha !== undefined ) texture.premultiplyAlpha = data.premultiplyAlpha;\n\t\t\t\tif ( data.unpackAlignment !== undefined ) texture.unpackAlignment = data.unpackAlignment;\n\t\t\t\tif ( data.compareFunction !== undefined ) texture.compareFunction = data.compareFunction;\n\n\t\t\t\tif ( data.userData !== undefined ) texture.userData = data.userData;\n\n\t\t\t\ttextures[ data.uuid ] = texture;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn textures;\n\n\t}\n\n\tparseObject( data, geometries, materials, textures, animations ) {\n\n\t\tlet object;\n\n\t\tfunction getGeometry( name ) {\n\n\t\t\tif ( geometries[ name ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined geometry', name );\n\n\t\t\t}\n\n\t\t\treturn geometries[ name ];\n\n\t\t}\n\n\t\tfunction getMaterial( name ) {\n\n\t\t\tif ( name === undefined ) return undefined;\n\n\t\t\tif ( Array.isArray( name ) ) {\n\n\t\t\t\tconst array = [];\n\n\t\t\t\tfor ( let i = 0, l = name.length; i < l; i ++ ) {\n\n\t\t\t\t\tconst uuid = name[ i ];\n\n\t\t\t\t\tif ( materials[ uuid ] === undefined ) {\n\n\t\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined material', uuid );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tarray.push( materials[ uuid ] );\n\n\t\t\t\t}\n\n\t\t\t\treturn array;\n\n\t\t\t}\n\n\t\t\tif ( materials[ name ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined material', name );\n\n\t\t\t}\n\n\t\t\treturn materials[ name ];\n\n\t\t}\n\n\t\tfunction getTexture( uuid ) {\n\n\t\t\tif ( textures[ uuid ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined texture', uuid );\n\n\t\t\t}\n\n\t\t\treturn textures[ uuid ];\n\n\t\t}\n\n\t\tlet geometry, material;\n\n\t\tswitch ( data.type ) {\n\n\t\t\tcase 'Scene':\n\n\t\t\t\tobject = new Scene();\n\n\t\t\t\tif ( data.background !== undefined ) {\n\n\t\t\t\t\tif ( Number.isInteger( data.background ) ) {\n\n\t\t\t\t\t\tobject.background = new Color( data.background );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tobject.background = getTexture( data.background );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.environment !== undefined ) {\n\n\t\t\t\t\tobject.environment = getTexture( data.environment );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.fog !== undefined ) {\n\n\t\t\t\t\tif ( data.fog.type === 'Fog' ) {\n\n\t\t\t\t\t\tobject.fog = new Fog( data.fog.color, data.fog.near, data.fog.far );\n\n\t\t\t\t\t} else if ( data.fog.type === 'FogExp2' ) {\n\n\t\t\t\t\t\tobject.fog = new FogExp2( data.fog.color, data.fog.density );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( data.fog.name !== '' ) {\n\n\t\t\t\t\t\tobject.fog.name = data.fog.name;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.backgroundBlurriness !== undefined ) object.backgroundBlurriness = data.backgroundBlurriness;\n\t\t\t\tif ( data.backgroundIntensity !== undefined ) object.backgroundIntensity = data.backgroundIntensity;\n\t\t\t\tif ( data.backgroundRotation !== undefined ) object.backgroundRotation.fromArray( data.backgroundRotation );\n\n\t\t\t\tif ( data.environmentIntensity !== undefined ) object.environmentIntensity = data.environmentIntensity;\n\t\t\t\tif ( data.environmentRotation !== undefined ) object.environmentRotation.fromArray( data.environmentRotation );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'PerspectiveCamera':\n\n\t\t\t\tobject = new PerspectiveCamera( data.fov, data.aspect, data.near, data.far );\n\n\t\t\t\tif ( data.focus !== undefined ) object.focus = data.focus;\n\t\t\t\tif ( data.zoom !== undefined ) object.zoom = data.zoom;\n\t\t\t\tif ( data.filmGauge !== undefined ) object.filmGauge = data.filmGauge;\n\t\t\t\tif ( data.filmOffset !== undefined ) object.filmOffset = data.filmOffset;\n\t\t\t\tif ( data.view !== undefined ) object.view = Object.assign( {}, data.view );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'OrthographicCamera':\n\n\t\t\t\tobject = new OrthographicCamera( data.left, data.right, data.top, data.bottom, data.near, data.far );\n\n\t\t\t\tif ( data.zoom !== undefined ) object.zoom = data.zoom;\n\t\t\t\tif ( data.view !== undefined ) object.view = Object.assign( {}, data.view );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'AmbientLight':\n\n\t\t\t\tobject = new AmbientLight( data.color, data.intensity );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'DirectionalLight':\n\n\t\t\t\tobject = new DirectionalLight( data.color, data.intensity );\n\t\t\t\tobject.target = data.target || '';\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'PointLight':\n\n\t\t\t\tobject = new PointLight( data.color, data.intensity, data.distance, data.decay );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'RectAreaLight':\n\n\t\t\t\tobject = new RectAreaLight( data.color, data.intensity, data.width, data.height );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'SpotLight':\n\n\t\t\t\tobject = new SpotLight( data.color, data.intensity, data.distance, data.angle, data.penumbra, data.decay );\n\t\t\t\tobject.target = data.target || '';\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'HemisphereLight':\n\n\t\t\t\tobject = new HemisphereLight( data.color, data.groundColor, data.intensity );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LightProbe':\n\n\t\t\t\tobject = new LightProbe().fromJSON( data );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'SkinnedMesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t \tmaterial = getMaterial( data.material );\n\n\t\t\t\tobject = new SkinnedMesh( geometry, material );\n\n\t\t\t\tif ( data.bindMode !== undefined ) object.bindMode = data.bindMode;\n\t\t\t\tif ( data.bindMatrix !== undefined ) object.bindMatrix.fromArray( data.bindMatrix );\n\t\t\t\tif ( data.skeleton !== undefined ) object.skeleton = data.skeleton;\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Mesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t\tmaterial = getMaterial( data.material );\n\n\t\t\t\tobject = new Mesh( geometry, material );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'InstancedMesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t\tmaterial = getMaterial( data.material );\n\t\t\t\tconst count = data.count;\n\t\t\t\tconst instanceMatrix = data.instanceMatrix;\n\t\t\t\tconst instanceColor = data.instanceColor;\n\n\t\t\t\tobject = new InstancedMesh( geometry, material, count );\n\t\t\t\tobject.instanceMatrix = new InstancedBufferAttribute( new Float32Array( instanceMatrix.array ), 16 );\n\t\t\t\tif ( instanceColor !== undefined ) object.instanceColor = new InstancedBufferAttribute( new Float32Array( instanceColor.array ), instanceColor.itemSize );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'BatchedMesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t\tmaterial = getMaterial( data.material );\n\n\t\t\t\tobject = new BatchedMesh( data.maxInstanceCount, data.maxVertexCount, data.maxIndexCount, material );\n\t\t\t\tobject.geometry = geometry;\n\t\t\t\tobject.perObjectFrustumCulled = data.perObjectFrustumCulled;\n\t\t\t\tobject.sortObjects = data.sortObjects;\n\n\t\t\t\tobject._drawRanges = data.drawRanges;\n\t\t\t\tobject._reservedRanges = data.reservedRanges;\n\n\t\t\t\tobject._geometryInfo = data.geometryInfo.map( info => {\n\n\t\t\t\t\tlet box = null;\n\t\t\t\t\tlet sphere = null;\n\t\t\t\t\tif ( info.boundingBox !== undefined ) {\n\n\t\t\t\t\t\tbox = new Box3().fromJSON( info.boundingBox );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( info.boundingSphere !== undefined ) {\n\n\t\t\t\t\t\tsphere = new Sphere().fromJSON( info.boundingSphere );\n\n\t\t\t\t\t}\n\n\t\t\t\t\treturn {\n\t\t\t\t\t\t...info,\n\t\t\t\t\t\tboundingBox: box,\n\t\t\t\t\t\tboundingSphere: sphere\n\t\t\t\t\t};\n\n\t\t\t\t} );\n\t\t\t\tobject._instanceInfo = data.instanceInfo;\n\n\t\t\t\tobject._availableInstanceIds = data._availableInstanceIds;\n\t\t\t\tobject._availableGeometryIds = data._availableGeometryIds;\n\n\t\t\t\tobject._nextIndexStart = data.nextIndexStart;\n\t\t\t\tobject._nextVertexStart = data.nextVertexStart;\n\t\t\t\tobject._geometryCount = data.geometryCount;\n\n\t\t\t\tobject._maxInstanceCount = data.maxInstanceCount;\n\t\t\t\tobject._maxVertexCount = data.maxVertexCount;\n\t\t\t\tobject._maxIndexCount = data.maxIndexCount;\n\n\t\t\t\tobject._geometryInitialized = data.geometryInitialized;\n\n\t\t\t\tobject._matricesTexture = getTexture( data.matricesTexture.uuid );\n\n\t\t\t\tobject._indirectTexture = getTexture( data.indirectTexture.uuid );\n\n\t\t\t\tif ( data.colorsTexture !== undefined ) {\n\n\t\t\t\t\tobject._colorsTexture = getTexture( data.colorsTexture.uuid );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.boundingSphere !== undefined ) {\n\n\t\t\t\t\tobject.boundingSphere = new Sphere().fromJSON( data.boundingSphere );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.boundingBox !== undefined ) {\n\n\t\t\t\t\tobject.boundingBox = new Box3().fromJSON( data.boundingBox );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LOD':\n\n\t\t\t\tobject = new LOD();\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Line':\n\n\t\t\t\tobject = new Line( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LineLoop':\n\n\t\t\t\tobject = new LineLoop( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LineSegments':\n\n\t\t\t\tobject = new LineSegments( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'PointCloud':\n\t\t\tcase 'Points':\n\n\t\t\t\tobject = new Points( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Sprite':\n\n\t\t\t\tobject = new Sprite( getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Group':\n\n\t\t\t\tobject = new Group();\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Bone':\n\n\t\t\t\tobject = new Bone();\n\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\n\t\t\t\tobject = new Object3D();\n\n\t\t}\n\n\t\tobject.uuid = data.uuid;\n\n\t\tif ( data.name !== undefined ) object.name = data.name;\n\n\t\tif ( data.matrix !== undefined ) {\n\n\t\t\tobject.matrix.fromArray( data.matrix );\n\n\t\t\tif ( data.matrixAutoUpdate !== undefined ) object.matrixAutoUpdate = data.matrixAutoUpdate;\n\t\t\tif ( object.matrixAutoUpdate ) object.matrix.decompose( object.position, object.quaternion, object.scale );\n\n\t\t} else {\n\n\t\t\tif ( data.position !== undefined ) object.position.fromArray( data.position );\n\t\t\tif ( data.rotation !== undefined ) object.rotation.fromArray( data.rotation );\n\t\t\tif ( data.quaternion !== undefined ) object.quaternion.fromArray( data.quaternion );\n\t\t\tif ( data.scale !== undefined ) object.scale.fromArray( data.scale );\n\n\t\t}\n\n\t\tif ( data.up !== undefined ) object.up.fromArray( data.up );\n\n\t\tif ( data.castShadow !== undefined ) object.castShadow = data.castShadow;\n\t\tif ( data.receiveShadow !== undefined ) object.receiveShadow = data.receiveShadow;\n\n\t\tif ( data.shadow ) {\n\n\t\t\tif ( data.shadow.intensity !== undefined ) object.shadow.intensity = data.shadow.intensity;\n\t\t\tif ( data.shadow.bias !== undefined ) object.shadow.bias = data.shadow.bias;\n\t\t\tif ( data.shadow.normalBias !== undefined ) object.shadow.normalBias = data.shadow.normalBias;\n\t\t\tif ( data.shadow.radius !== undefined ) object.shadow.radius = data.shadow.radius;\n\t\t\tif ( data.shadow.mapSize !== undefined ) object.shadow.mapSize.fromArray( data.shadow.mapSize );\n\t\t\tif ( data.shadow.camera !== undefined ) object.shadow.camera = this.parseObject( data.shadow.camera );\n\n\t\t}\n\n\t\tif ( data.visible !== undefined ) object.visible = data.visible;\n\t\tif ( data.frustumCulled !== undefined ) object.frustumCulled = data.frustumCulled;\n\t\tif ( data.renderOrder !== undefined ) object.renderOrder = data.renderOrder;\n\t\tif ( data.userData !== undefined ) object.userData = data.userData;\n\t\tif ( data.layers !== undefined ) object.layers.mask = data.layers;\n\n\t\tif ( data.children !== undefined ) {\n\n\t\t\tconst children = data.children;\n\n\t\t\tfor ( let i = 0; i < children.length; i ++ ) {\n\n\t\t\t\tobject.add( this.parseObject( children[ i ], geometries, materials, textures, animations ) );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( data.animations !== undefined ) {\n\n\t\t\tconst objectAnimations = data.animations;\n\n\t\t\tfor ( let i = 0; i < objectAnimations.length; i ++ ) {\n\n\t\t\t\tconst uuid = objectAnimations[ i ];\n\n\t\t\t\tobject.animations.push( animations[ uuid ] );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( data.type === 'LOD' ) {\n\n\t\t\tif ( data.autoUpdate !== undefined ) object.autoUpdate = data.autoUpdate;\n\n\t\t\tconst levels = data.levels;\n\n\t\t\tfor ( let l = 0; l < levels.length; l ++ ) {\n\n\t\t\t\tconst level = levels[ l ];\n\t\t\t\tconst child = object.getObjectByProperty( 'uuid', level.object );\n\n\t\t\t\tif ( child !== undefined ) {\n\n\t\t\t\t\tobject.addLevel( child, level.distance, level.hysteresis );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn object;\n\n\t}\n\n\tbindSkeletons( object, skeletons ) {\n\n\t\tif ( Object.keys( skeletons ).length === 0 ) return;\n\n\t\tobject.traverse( function ( child ) {\n\n\t\t\tif ( child.isSkinnedMesh === true && child.skeleton !== undefined ) {\n\n\t\t\t\tconst skeleton = skeletons[ child.skeleton ];\n\n\t\t\t\tif ( skeleton === undefined ) {\n\n\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: No skeleton found with UUID:', child.skeleton );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tchild.bind( skeleton, child.bindMatrix );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} );\n\n\t}\n\n\tbindLightTargets( object ) {\n\n\t\tobject.traverse( function ( child ) {\n\n\t\t\tif ( child.isDirectionalLight || child.isSpotLight ) {\n\n\t\t\t\tconst uuid = child.target;\n\n\t\t\t\tconst target = object.getObjectByProperty( 'uuid', uuid );\n\n\t\t\t\tif ( target !== undefined ) {\n\n\t\t\t\t\tchild.target = target;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tchild.target = new Object3D();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} );\n\n\t}\n\n}\n\nconst TEXTURE_MAPPING = {\n\tUVMapping: UVMapping,\n\tCubeReflectionMapping: CubeReflectionMapping,\n\tCubeRefractionMapping: CubeRefractionMapping,\n\tEquirectangularReflectionMapping: EquirectangularReflectionMapping,\n\tEquirectangularRefractionMapping: EquirectangularRefractionMapping,\n\tCubeUVReflectionMapping: CubeUVReflectionMapping\n};\n\nconst TEXTURE_WRAPPING = {\n\tRepeatWrapping: RepeatWrapping,\n\tClampToEdgeWrapping: ClampToEdgeWrapping,\n\tMirroredRepeatWrapping: MirroredRepeatWrapping\n};\n\nconst TEXTURE_FILTER = {\n\tNearestFilter: NearestFilter,\n\tNearestMipmapNearestFilter: NearestMipmapNearestFilter,\n\tNearestMipmapLinearFilter: NearestMipmapLinearFilter,\n\tLinearFilter: LinearFilter,\n\tLinearMipmapNearestFilter: LinearMipmapNearestFilter,\n\tLinearMipmapLinearFilter: LinearMipmapLinearFilter\n};\n\nconst _errorMap = new WeakMap();\n\n/**\n * A loader for loading images as an [ImageBitmap]{@link https://developer.mozilla.org/en-US/docs/Web/API/ImageBitmap}.\n * An `ImageBitmap` provides an asynchronous and resource efficient pathway to prepare\n * textures for rendering.\n *\n * Note that {@link Texture#flipY} and {@link Texture#premultiplyAlpha} are ignored with image bitmaps.\n * They needs these configuration on bitmap creation unlike regular images need them on uploading to GPU.\n *\n * You need to set the equivalent options via {@link ImageBitmapLoader#setOptions} instead.\n *\n * Also note that unlike {@link FileLoader}, this loader avoids multiple concurrent requests to the same URL only if `Cache` is enabled.\n *\n * ```js\n * const loader = new THREE.ImageBitmapLoader();\n * loader.setOptions( { imageOrientation: 'flipY' } ); // set options if needed\n * const imageBitmap = await loader.loadAsync( 'image.png' );\n *\n * const texture = new THREE.Texture( imageBitmap );\n * texture.needsUpdate = true;\n * ```\n *\n * @augments Loader\n */\nclass ImageBitmapLoader extends Loader {\n\n\t/**\n\t * Constructs a new image bitmap loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isImageBitmapLoader = true;\n\n\t\tif ( typeof createImageBitmap === 'undefined' ) {\n\n\t\t\tconsole.warn( 'THREE.ImageBitmapLoader: createImageBitmap() not supported.' );\n\n\t\t}\n\n\t\tif ( typeof fetch === 'undefined' ) {\n\n\t\t\tconsole.warn( 'THREE.ImageBitmapLoader: fetch() not supported.' );\n\n\t\t}\n\n\t\t/**\n\t\t * Represents the loader options.\n\t\t *\n\t\t * @type {Object}\n\t\t * @default {premultiplyAlpha:'none'}\n\t\t */\n\t\tthis.options = { premultiplyAlpha: 'none' };\n\n\t\t/**\n\t\t * Used for aborting requests.\n\t\t *\n\t\t * @private\n\t\t * @type {AbortController}\n\t\t */\n\t\tthis._abortController = new AbortController();\n\n\t}\n\n\t/**\n\t * Sets the given loader options. The structure of the object must match the `options` parameter of\n\t * [createImageBitmap]{@link https://developer.mozilla.org/en-US/docs/Web/API/Window/createImageBitmap}.\n\t *\n\t * @param {Object} options - The loader options to set.\n\t * @return {ImageBitmapLoader} A reference to this image bitmap loader.\n\t */\n\tsetOptions( options ) {\n\n\t\tthis.options = options;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded image bitmap to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(ImageBitmap)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {ImageBitmap|undefined} The image bitmap.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tif ( url === undefined ) url = '';\n\n\t\tif ( this.path !== undefined ) url = this.path + url;\n\n\t\turl = this.manager.resolveURL( url );\n\n\t\tconst scope = this;\n\n\t\tconst cached = Cache.get( `image-bitmap:${url}` );\n\n\t\tif ( cached !== undefined ) {\n\n\t\t\tscope.manager.itemStart( url );\n\n\t\t\t// If cached is a promise, wait for it to resolve\n\t\t\tif ( cached.then ) {\n\n\t\t\t\tcached.then( imageBitmap => {\n\n\t\t\t\t\t// check if there is an error for the cached promise\n\n\t\t\t\t\tif ( _errorMap.has( cached ) === true ) {\n\n\t\t\t\t\t\tif ( onError ) onError( _errorMap.get( cached ) );\n\n\t\t\t\t\t\tscope.manager.itemError( url );\n\t\t\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tif ( onLoad ) onLoad( imageBitmap );\n\n\t\t\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t\t\t\treturn imageBitmap;\n\n\t\t\t\t\t}\n\n\t\t\t\t} );\n\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t\t// If cached is not a promise (i.e., it's already an imageBitmap)\n\t\t\tsetTimeout( function () {\n\n\t\t\t\tif ( onLoad ) onLoad( cached );\n\n\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t}, 0 );\n\n\t\t\treturn cached;\n\n\t\t}\n\n\t\tconst fetchOptions = {};\n\t\tfetchOptions.credentials = ( this.crossOrigin === 'anonymous' ) ? 'same-origin' : 'include';\n\t\tfetchOptions.headers = this.requestHeader;\n\t\tfetchOptions.signal = ( typeof AbortSignal.any === 'function' ) ? AbortSignal.any( [ this._abortController.signal, this.manager.abortController.signal ] ) : this._abortController.signal;\n\n\t\tconst promise = fetch( url, fetchOptions ).then( function ( res ) {\n\n\t\t\treturn res.blob();\n\n\t\t} ).then( function ( blob ) {\n\n\t\t\treturn createImageBitmap( blob, Object.assign( scope.options, { colorSpaceConversion: 'none' } ) );\n\n\t\t} ).then( function ( imageBitmap ) {\n\n\t\t\tCache.add( `image-bitmap:${url}`, imageBitmap );\n\n\t\t\tif ( onLoad ) onLoad( imageBitmap );\n\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t\treturn imageBitmap;\n\n\t\t} ).catch( function ( e ) {\n\n\t\t\tif ( onError ) onError( e );\n\n\t\t\t_errorMap.set( promise, e );\n\n\t\t\tCache.remove( `image-bitmap:${url}` );\n\n\t\t\tscope.manager.itemError( url );\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t} );\n\n\t\tCache.add( `image-bitmap:${url}`, promise );\n\t\tscope.manager.itemStart( url );\n\n\t}\n\n\t/**\n\t * Aborts ongoing fetch requests.\n\t *\n\t * @return {ImageBitmapLoader} A reference to this instance.\n\t */\n\tabort() {\n\n\t\tthis._abortController.abort();\n\t\tthis._abortController = new AbortController();\n\n\t\treturn this;\n\n\t}\n\n}\n\nlet _context;\n\n/**\n * Manages the global audio context in the engine.\n *\n * @hideconstructor\n */\nclass AudioContext {\n\n\t/**\n\t * Returns the global native audio context.\n\t *\n\t * @return {AudioContext} The native audio context.\n\t */\n\tstatic getContext() {\n\n\t\tif ( _context === undefined ) {\n\n\t\t\t_context = new ( window.AudioContext || window.webkitAudioContext )();\n\n\t\t}\n\n\t\treturn _context;\n\n\t}\n\n\t/**\n\t * Allows to set the global native audio context from outside.\n\t *\n\t * @param {AudioContext} value - The native context to set.\n\t */\n\tstatic setContext( value ) {\n\n\t\t_context = value;\n\n\t}\n\n}\n\n/**\n * Class for loading audio buffers. Audios are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const audioListener = new THREE.AudioListener();\n * const ambientSound = new THREE.Audio( audioListener );\n *\n * const loader = new THREE.AudioLoader();\n * const audioBuffer = await loader.loadAsync( 'audio/ambient_ocean.ogg' );\n *\n * ambientSound.setBuffer( audioBuffer );\n * ambientSound.play();\n * ```\n *\n * @augments Loader\n */\nclass AudioLoader extends Loader {\n\n\t/**\n\t * Constructs a new audio loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded audio buffer\n\t * to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(AudioBuffer)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setResponseType( 'arraybuffer' );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\t\tloader.load( url, function ( buffer ) {\n\n\t\t\ttry {\n\n\t\t\t\t// Create a copy of the buffer. The `decodeAudioData` method\n\t\t\t\t// detaches the buffer when complete, preventing reuse.\n\t\t\t\tconst bufferCopy = buffer.slice( 0 );\n\n\t\t\t\tconst context = AudioContext.getContext();\n\t\t\t\tcontext.decodeAudioData( bufferCopy, function ( audioBuffer ) {\n\n\t\t\t\t\tonLoad( audioBuffer );\n\n\t\t\t\t} ).catch( handleError );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\thandleError( e );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t\tfunction handleError( e ) {\n\n\t\t\tif ( onError ) {\n\n\t\t\t\tonError( e );\n\n\t\t\t} else {\n\n\t\t\t\tconsole.error( e );\n\n\t\t\t}\n\n\t\t\tscope.manager.itemError( url );\n\n\t\t}\n\n\t}\n\n}\n\nconst _eyeRight = /*@__PURE__*/ new Matrix4();\nconst _eyeLeft = /*@__PURE__*/ new Matrix4();\nconst _projectionMatrix = /*@__PURE__*/ new Matrix4();\n\n/**\n * A special type of camera that uses two perspective cameras with\n * stereoscopic projection. Can be used for rendering stereo effects\n * like [3D Anaglyph]{@link https://en.wikipedia.org/wiki/Anaglyph_3D} or\n * [Parallax Barrier]{@link https://en.wikipedia.org/wiki/parallax_barrier}.\n */\nclass StereoCamera {\n\n\t/**\n\t * Constructs a new stereo camera.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'StereoCamera';\n\n\t\t/**\n\t\t * The aspect.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aspect = 1;\n\n\t\t/**\n\t\t * The eye separation which represents the distance\n\t\t * between the left and right camera.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.064\n\t\t */\n\t\tthis.eyeSep = 0.064;\n\n\t\t/**\n\t\t * The camera representing the left eye. This is added to layer `1` so objects to be\n\t\t * rendered by the left camera must also be added to this layer.\n\t\t *\n\t\t * @type {PerspectiveCamera}\n\t\t */\n\t\tthis.cameraL = new PerspectiveCamera();\n\t\tthis.cameraL.layers.enable( 1 );\n\t\tthis.cameraL.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The camera representing the right eye. This is added to layer `2` so objects to be\n\t\t * rendered by the right camera must also be added to this layer.\n\t\t *\n\t\t * @type {PerspectiveCamera}\n\t\t */\n\t\tthis.cameraR = new PerspectiveCamera();\n\t\tthis.cameraR.layers.enable( 2 );\n\t\tthis.cameraR.matrixAutoUpdate = false;\n\n\t\tthis._cache = {\n\t\t\tfocus: null,\n\t\t\tfov: null,\n\t\t\taspect: null,\n\t\t\tnear: null,\n\t\t\tfar: null,\n\t\t\tzoom: null,\n\t\t\teyeSep: null\n\t\t};\n\n\t}\n\n\t/**\n\t * Updates the stereo camera based on the given perspective camera.\n\t *\n\t * @param {PerspectiveCamera} camera - The perspective camera.\n\t */\n\tupdate( camera ) {\n\n\t\tconst cache = this._cache;\n\n\t\tconst needsUpdate = cache.focus !== camera.focus || cache.fov !== camera.fov ||\n\t\t\tcache.aspect !== camera.aspect * this.aspect || cache.near !== camera.near ||\n\t\t\tcache.far !== camera.far || cache.zoom !== camera.zoom || cache.eyeSep !== this.eyeSep;\n\n\t\tif ( needsUpdate ) {\n\n\t\t\tcache.focus = camera.focus;\n\t\t\tcache.fov = camera.fov;\n\t\t\tcache.aspect = camera.aspect * this.aspect;\n\t\t\tcache.near = camera.near;\n\t\t\tcache.far = camera.far;\n\t\t\tcache.zoom = camera.zoom;\n\t\t\tcache.eyeSep = this.eyeSep;\n\n\t\t\t// Off-axis stereoscopic effect based on\n\t\t\t// http://paulbourke.net/stereographics/stereorender/\n\n\t\t\t_projectionMatrix.copy( camera.projectionMatrix );\n\t\t\tconst eyeSepHalf = cache.eyeSep / 2;\n\t\t\tconst eyeSepOnProjection = eyeSepHalf * cache.near / cache.focus;\n\t\t\tconst ymax = ( cache.near * Math.tan( DEG2RAD * cache.fov * 0.5 ) ) / cache.zoom;\n\t\t\tlet xmin, xmax;\n\n\t\t\t// translate xOffset\n\n\t\t\t_eyeLeft.elements[ 12 ] = - eyeSepHalf;\n\t\t\t_eyeRight.elements[ 12 ] = eyeSepHalf;\n\n\t\t\t// for left eye\n\n\t\t\txmin = - ymax * cache.aspect + eyeSepOnProjection;\n\t\t\txmax = ymax * cache.aspect + eyeSepOnProjection;\n\n\t\t\t_projectionMatrix.elements[ 0 ] = 2 * cache.near / ( xmax - xmin );\n\t\t\t_projectionMatrix.elements[ 8 ] = ( xmax + xmin ) / ( xmax - xmin );\n\n\t\t\tthis.cameraL.projectionMatrix.copy( _projectionMatrix );\n\n\t\t\t// for right eye\n\n\t\t\txmin = - ymax * cache.aspect - eyeSepOnProjection;\n\t\t\txmax = ymax * cache.aspect - eyeSepOnProjection;\n\n\t\t\t_projectionMatrix.elements[ 0 ] = 2 * cache.near / ( xmax - xmin );\n\t\t\t_projectionMatrix.elements[ 8 ] = ( xmax + xmin ) / ( xmax - xmin );\n\n\t\t\tthis.cameraR.projectionMatrix.copy( _projectionMatrix );\n\n\t\t}\n\n\t\tthis.cameraL.matrixWorld.copy( camera.matrixWorld ).multiply( _eyeLeft );\n\t\tthis.cameraR.matrixWorld.copy( camera.matrixWorld ).multiply( _eyeRight );\n\n\t}\n\n}\n\n/**\n * This type of camera can be used in order to efficiently render a scene with a\n * predefined set of cameras. This is an important performance aspect for\n * rendering VR scenes.\n *\n * An instance of `ArrayCamera` always has an array of sub cameras. It's mandatory\n * to define for each sub camera the `viewport` property which determines the\n * part of the viewport that is rendered with this camera.\n *\n * @augments PerspectiveCamera\n */\nclass ArrayCamera extends PerspectiveCamera {\n\n\t/**\n\t * Constructs a new array camera.\n\t *\n\t * @param {Array} [array=[]] - An array of perspective sub cameras.\n\t */\n\tconstructor( array = [] ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isArrayCamera = true;\n\n\t\t/**\n\t\t * Whether this camera is used with multiview rendering or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isMultiViewCamera = false;\n\n\t\t/**\n\t\t * An array of perspective sub cameras.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.cameras = array;\n\n\t}\n\n}\n\n/**\n * Class for keeping track of time.\n */\nclass Clock {\n\n\t/**\n\t * Constructs a new clock.\n\t *\n\t * @param {boolean} [autoStart=true] - Whether to automatically start the clock when\n\t * `getDelta()` is called for the first time.\n\t */\n\tconstructor( autoStart = true ) {\n\n\t\t/**\n\t\t * If set to `true`, the clock starts automatically when `getDelta()` is called\n\t\t * for the first time.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.autoStart = autoStart;\n\n\t\t/**\n\t\t * Holds the time at which the clock's `start()` method was last called.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.startTime = 0;\n\n\t\t/**\n\t\t * Holds the time at which the clock's `start()`, `getElapsedTime()` or\n\t\t * `getDelta()` methods were last called.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.oldTime = 0;\n\n\t\t/**\n\t\t * Keeps track of the total time that the clock has been running.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.elapsedTime = 0;\n\n\t\t/**\n\t\t * Whether the clock is running or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.running = false;\n\n\t}\n\n\t/**\n\t * Starts the clock. When `autoStart` is set to `true`, the method is automatically\n\t * called by the class.\n\t */\n\tstart() {\n\n\t\tthis.startTime = performance.now();\n\n\t\tthis.oldTime = this.startTime;\n\t\tthis.elapsedTime = 0;\n\t\tthis.running = true;\n\n\t}\n\n\t/**\n\t * Stops the clock.\n\t */\n\tstop() {\n\n\t\tthis.getElapsedTime();\n\t\tthis.running = false;\n\t\tthis.autoStart = false;\n\n\t}\n\n\t/**\n\t * Returns the elapsed time in seconds.\n\t *\n\t * @return {number} The elapsed time.\n\t */\n\tgetElapsedTime() {\n\n\t\tthis.getDelta();\n\t\treturn this.elapsedTime;\n\n\t}\n\n\t/**\n\t * Returns the delta time in seconds.\n\t *\n\t * @return {number} The delta time.\n\t */\n\tgetDelta() {\n\n\t\tlet diff = 0;\n\n\t\tif ( this.autoStart && ! this.running ) {\n\n\t\t\tthis.start();\n\t\t\treturn 0;\n\n\t\t}\n\n\t\tif ( this.running ) {\n\n\t\t\tconst newTime = performance.now();\n\n\t\t\tdiff = ( newTime - this.oldTime ) / 1000;\n\t\t\tthis.oldTime = newTime;\n\n\t\t\tthis.elapsedTime += diff;\n\n\t\t}\n\n\t\treturn diff;\n\n\t}\n\n}\n\nconst _position$1 = /*@__PURE__*/ new Vector3();\nconst _quaternion$1 = /*@__PURE__*/ new Quaternion();\nconst _scale$1 = /*@__PURE__*/ new Vector3();\n\nconst _forward = /*@__PURE__*/ new Vector3();\nconst _up = /*@__PURE__*/ new Vector3();\n\n/**\n * The class represents a virtual listener of the all positional and non-positional audio effects\n * in the scene. A three.js application usually creates a single listener. It is a mandatory\n * constructor parameter for audios entities like {@link Audio} and {@link PositionalAudio}.\n *\n * In most cases, the listener object is a child of the camera. So the 3D transformation of the\n * camera represents the 3D transformation of the listener.\n *\n * @augments Object3D\n */\nclass AudioListener extends Object3D {\n\n\t/**\n\t * Constructs a new audio listener.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\tthis.type = 'AudioListener';\n\n\t\t/**\n\t\t * The native audio context.\n\t\t *\n\t\t * @type {AudioContext}\n\t\t * @readonly\n\t\t */\n\t\tthis.context = AudioContext.getContext();\n\n\t\t/**\n\t\t * The gain node used for volume control.\n\t\t *\n\t\t * @type {GainNode}\n\t\t * @readonly\n\t\t */\n\t\tthis.gain = this.context.createGain();\n\t\tthis.gain.connect( this.context.destination );\n\n\t\t/**\n\t\t * An optional filter.\n\t\t *\n\t\t * Defined via {@link AudioListener#setFilter}.\n\t\t *\n\t\t * @type {?AudioNode}\n\t\t * @default null\n\t\t * @readonly\n\t\t */\n\t\tthis.filter = null;\n\n\t\t/**\n\t\t * Time delta values required for `linearRampToValueAtTime()` usage.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t * @readonly\n\t\t */\n\t\tthis.timeDelta = 0;\n\n\t\t// private\n\n\t\tthis._clock = new Clock();\n\n\t}\n\n\t/**\n\t * Returns the listener's input node.\n\t *\n\t * This method is used by other audio nodes to connect to this listener.\n\t *\n\t * @return {GainNode} The input node.\n\t */\n\tgetInput() {\n\n\t\treturn this.gain;\n\n\t}\n\n\t/**\n\t * Removes the current filter from this listener.\n\t *\n\t * @return {AudioListener} A reference to this listener.\n\t */\n\tremoveFilter() {\n\n\t\tif ( this.filter !== null ) {\n\n\t\t\tthis.gain.disconnect( this.filter );\n\t\t\tthis.filter.disconnect( this.context.destination );\n\t\t\tthis.gain.connect( this.context.destination );\n\t\t\tthis.filter = null;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current set filter.\n\t *\n\t * @return {?AudioNode} The filter.\n\t */\n\tgetFilter() {\n\n\t\treturn this.filter;\n\n\t}\n\n\t/**\n\t * Sets the given filter to this listener.\n\t *\n\t * @param {AudioNode} value - The filter to set.\n\t * @return {AudioListener} A reference to this listener.\n\t */\n\tsetFilter( value ) {\n\n\t\tif ( this.filter !== null ) {\n\n\t\t\tthis.gain.disconnect( this.filter );\n\t\t\tthis.filter.disconnect( this.context.destination );\n\n\t\t} else {\n\n\t\t\tthis.gain.disconnect( this.context.destination );\n\n\t\t}\n\n\t\tthis.filter = value;\n\t\tthis.gain.connect( this.filter );\n\t\tthis.filter.connect( this.context.destination );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the applications master volume.\n\t *\n\t * @return {number} The master volume.\n\t */\n\tgetMasterVolume() {\n\n\t\treturn this.gain.gain.value;\n\n\t}\n\n\t/**\n\t * Sets the applications master volume. This volume setting affects\n\t * all audio nodes in the scene.\n\t *\n\t * @param {number} value - The master volume to set.\n\t * @return {AudioListener} A reference to this listener.\n\t */\n\tsetMasterVolume( value ) {\n\n\t\tthis.gain.gain.setTargetAtTime( value, this.context.currentTime, 0.01 );\n\n\t\treturn this;\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tconst listener = this.context.listener;\n\n\t\tthis.timeDelta = this._clock.getDelta();\n\n\t\tthis.matrixWorld.decompose( _position$1, _quaternion$1, _scale$1 );\n\n\t\t// the initial forward and up directions must be orthogonal\n\t\t_forward.set( 0, 0, -1 ).applyQuaternion( _quaternion$1 );\n\t\t_up.set( 0, 1, 0 ).applyQuaternion( _quaternion$1 );\n\n\t\tif ( listener.positionX ) {\n\n\t\t\t// code path for Chrome (see #14393)\n\n\t\t\tconst endTime = this.context.currentTime + this.timeDelta;\n\n\t\t\tlistener.positionX.linearRampToValueAtTime( _position$1.x, endTime );\n\t\t\tlistener.positionY.linearRampToValueAtTime( _position$1.y, endTime );\n\t\t\tlistener.positionZ.linearRampToValueAtTime( _position$1.z, endTime );\n\t\t\tlistener.forwardX.linearRampToValueAtTime( _forward.x, endTime );\n\t\t\tlistener.forwardY.linearRampToValueAtTime( _forward.y, endTime );\n\t\t\tlistener.forwardZ.linearRampToValueAtTime( _forward.z, endTime );\n\t\t\tlistener.upX.linearRampToValueAtTime( _up.x, endTime );\n\t\t\tlistener.upY.linearRampToValueAtTime( _up.y, endTime );\n\t\t\tlistener.upZ.linearRampToValueAtTime( _up.z, endTime );\n\n\t\t} else {\n\n\t\t\tlistener.setPosition( _position$1.x, _position$1.y, _position$1.z );\n\t\t\tlistener.setOrientation( _forward.x, _forward.y, _forward.z, _up.x, _up.y, _up.z );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * Represents a non-positional ( global ) audio object.\n *\n * This and related audio modules make use of the [Web Audio API]{@link https://www.w3.org/TR/webaudio-1.1/}.\n *\n * ```js\n * // create an AudioListener and add it to the camera\n * const listener = new THREE.AudioListener();\n * camera.add( listener );\n *\n * // create a global audio source\n * const sound = new THREE.Audio( listener );\n *\n * // load a sound and set it as the Audio object's buffer\n * const audioLoader = new THREE.AudioLoader();\n * audioLoader.load( 'sounds/ambient.ogg', function( buffer ) {\n * \tsound.setBuffer( buffer );\n * \tsound.setLoop( true );\n * \tsound.setVolume( 0.5 );\n * \tsound.play();\n * });\n * ```\n *\n * @augments Object3D\n */\nclass Audio extends Object3D {\n\n\t/**\n\t * Constructs a new audio.\n\t *\n\t * @param {AudioListener} listener - The global audio listener.\n\t */\n\tconstructor( listener ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'Audio';\n\n\t\t/**\n\t\t * The global audio listener.\n\t\t *\n\t\t * @type {AudioListener}\n\t\t * @readonly\n\t\t */\n\t\tthis.listener = listener;\n\n\t\t/**\n\t\t * The audio context.\n\t\t *\n\t\t * @type {AudioContext}\n\t\t * @readonly\n\t\t */\n\t\tthis.context = listener.context;\n\n\t\t/**\n\t\t * The gain node used for volume control.\n\t\t *\n\t\t * @type {GainNode}\n\t\t * @readonly\n\t\t */\n\t\tthis.gain = this.context.createGain();\n\t\tthis.gain.connect( listener.getInput() );\n\n\t\t/**\n\t\t * Whether to start playback automatically or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.autoplay = false;\n\n\t\t/**\n\t\t * A reference to an audio buffer.\n\t\t *\n\t\t * Defined via {@link Audio#setBuffer}.\n\t\t *\n\t\t * @type {?AudioBuffer}\n\t\t * @default null\n\t\t * @readonly\n\t\t */\n\t\tthis.buffer = null;\n\n\t\t/**\n\t\t * Modify pitch, measured in cents. +/- 100 is a semitone.\n\t\t * +/- 1200 is an octave.\n\t\t *\n\t\t * Defined via {@link Audio#setDetune}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t * @readonly\n\t\t */\n\t\tthis.detune = 0;\n\n\t\t/**\n\t\t * Whether the audio should loop or not.\n\t\t *\n\t\t * Defined via {@link Audio#setLoop}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t * @readonly\n\t\t */\n\t\tthis.loop = false;\n\n\t\t/**\n\t\t * Defines where in the audio buffer the replay should\n\t\t * start, in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.loopStart = 0;\n\n\t\t/**\n\t\t * Defines where in the audio buffer the replay should\n\t\t * stop, in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.loopEnd = 0;\n\n\t\t/**\n\t\t * An offset to the time within the audio buffer the playback\n\t\t * should begin, in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.offset = 0;\n\n\t\t/**\n\t\t * Overrides the default duration of the audio.\n\t\t *\n\t\t * @type {undefined|number}\n\t\t * @default undefined\n\t\t */\n\t\tthis.duration = undefined;\n\n\t\t/**\n\t\t * The playback speed.\n\t\t *\n\t\t * Defined via {@link Audio#setPlaybackRate}.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 1\n\t\t */\n\t\tthis.playbackRate = 1;\n\n\t\t/**\n\t\t * Indicates whether the audio is playing or not.\n\t\t *\n\t\t * This flag will be automatically set when using {@link Audio#play},\n\t\t * {@link Audio#pause}, {@link Audio#stop}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isPlaying = false;\n\n\t\t/**\n\t\t * Indicates whether the audio playback can be controlled\n\t\t * with method like {@link Audio#play} or {@link Audio#pause}.\n\t\t *\n\t\t * This flag will be automatically set when audio sources are\n\t\t * defined.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.hasPlaybackControl = true;\n\n\t\t/**\n\t\t * Holds a reference to the current audio source.\n\t\t *\n\t\t * The property is automatically by one of the `set*()` methods.\n\t\t *\n\t\t * @type {?AudioNode}\n\t\t * @readonly\n\t\t * @default null\n\t\t */\n\t\tthis.source = null;\n\n\t\t/**\n\t\t * Defines the source type.\n\t\t *\n\t\t * The property is automatically by one of the `set*()` methods.\n\t\t *\n\t\t * @type {('empty'|'audioNode'|'mediaNode'|'mediaStreamNode'|'buffer')}\n\t\t * @readonly\n\t\t * @default 'empty'\n\t\t */\n\t\tthis.sourceType = 'empty';\n\n\t\tthis._startedAt = 0;\n\t\tthis._progress = 0;\n\t\tthis._connected = false;\n\n\t\t/**\n\t\t * Can be used to apply a variety of low-order filters to create\n\t\t * more complex sound effects e.g. via `BiquadFilterNode`.\n\t\t *\n\t\t * The property is automatically set by {@link Audio#setFilters}.\n\t\t *\n\t\t * @type {Array}\n\t\t * @readonly\n\t\t */\n\t\tthis.filters = [];\n\n\t}\n\n\t/**\n\t * Returns the output audio node.\n\t *\n\t * @return {GainNode} The output node.\n\t */\n\tgetOutput() {\n\n\t\treturn this.gain;\n\n\t}\n\n\t/**\n\t * Sets the given audio node as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `audioNode` and {@link Audio#hasPlaybackControl} to `false`.\n\t *\n\t * @param {AudioNode} audioNode - The audio node like an instance of `OscillatorNode`.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetNodeSource( audioNode ) {\n\n\t\tthis.hasPlaybackControl = false;\n\t\tthis.sourceType = 'audioNode';\n\t\tthis.source = audioNode;\n\t\tthis.connect();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given media element as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `mediaNode` and {@link Audio#hasPlaybackControl} to `false`.\n\t *\n\t * @param {HTMLMediaElement} mediaElement - The media element.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetMediaElementSource( mediaElement ) {\n\n\t\tthis.hasPlaybackControl = false;\n\t\tthis.sourceType = 'mediaNode';\n\t\tthis.source = this.context.createMediaElementSource( mediaElement );\n\t\tthis.connect();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given media stream as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `mediaStreamNode` and {@link Audio#hasPlaybackControl} to `false`.\n\t *\n\t * @param {MediaStream} mediaStream - The media stream.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetMediaStreamSource( mediaStream ) {\n\n\t\tthis.hasPlaybackControl = false;\n\t\tthis.sourceType = 'mediaStreamNode';\n\t\tthis.source = this.context.createMediaStreamSource( mediaStream );\n\t\tthis.connect();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given audio buffer as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `buffer` and {@link Audio#hasPlaybackControl} to `true`.\n\t *\n\t * @param {AudioBuffer} audioBuffer - The audio buffer.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetBuffer( audioBuffer ) {\n\n\t\tthis.buffer = audioBuffer;\n\t\tthis.sourceType = 'buffer';\n\n\t\tif ( this.autoplay ) this.play();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Starts the playback of the audio.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {number} [delay=0] - The delay, in seconds, at which the audio should start playing.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tplay( delay = 0 ) {\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: Audio is already playing.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis._startedAt = this.context.currentTime + delay;\n\n\t\tconst source = this.context.createBufferSource();\n\t\tsource.buffer = this.buffer;\n\t\tsource.loop = this.loop;\n\t\tsource.loopStart = this.loopStart;\n\t\tsource.loopEnd = this.loopEnd;\n\t\tsource.onended = this.onEnded.bind( this );\n\t\tsource.start( this._startedAt, this._progress + this.offset, this.duration );\n\n\t\tthis.isPlaying = true;\n\n\t\tthis.source = source;\n\n\t\tthis.setDetune( this.detune );\n\t\tthis.setPlaybackRate( this.playbackRate );\n\n\t\treturn this.connect();\n\n\t}\n\n\t/**\n\t * Pauses the playback of the audio.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tpause() {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\t// update current progress\n\n\t\t\tthis._progress += Math.max( this.context.currentTime - this._startedAt, 0 ) * this.playbackRate;\n\n\t\t\tif ( this.loop === true ) {\n\n\t\t\t\t// ensure _progress does not exceed duration with looped audios\n\n\t\t\t\tthis._progress = this._progress % ( this.duration || this.buffer.duration );\n\n\t\t\t}\n\n\t\t\tthis.source.stop();\n\t\t\tthis.source.onended = null;\n\n\t\t\tthis.isPlaying = false;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Stops the playback of the audio.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {number} [delay=0] - The delay, in seconds, at which the audio should stop playing.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tstop( delay = 0 ) {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis._progress = 0;\n\n\t\tif ( this.source !== null ) {\n\n\t\t\tthis.source.stop( this.context.currentTime + delay );\n\t\t\tthis.source.onended = null;\n\n\t\t}\n\n\t\tthis.isPlaying = false;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Connects to the audio source. This is used internally on\n\t * initialisation and when setting / removing filters.\n\t *\n\t * @return {Audio} A reference to this instance.\n\t */\n\tconnect() {\n\n\t\tif ( this.filters.length > 0 ) {\n\n\t\t\tthis.source.connect( this.filters[ 0 ] );\n\n\t\t\tfor ( let i = 1, l = this.filters.length; i < l; i ++ ) {\n\n\t\t\t\tthis.filters[ i - 1 ].connect( this.filters[ i ] );\n\n\t\t\t}\n\n\t\t\tthis.filters[ this.filters.length - 1 ].connect( this.getOutput() );\n\n\t\t} else {\n\n\t\t\tthis.source.connect( this.getOutput() );\n\n\t\t}\n\n\t\tthis._connected = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Disconnects to the audio source. This is used internally on\n\t * initialisation and when setting / removing filters.\n\t *\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tdisconnect() {\n\n\t\tif ( this._connected === false ) {\n\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.filters.length > 0 ) {\n\n\t\t\tthis.source.disconnect( this.filters[ 0 ] );\n\n\t\t\tfor ( let i = 1, l = this.filters.length; i < l; i ++ ) {\n\n\t\t\t\tthis.filters[ i - 1 ].disconnect( this.filters[ i ] );\n\n\t\t\t}\n\n\t\t\tthis.filters[ this.filters.length - 1 ].disconnect( this.getOutput() );\n\n\t\t} else {\n\n\t\t\tthis.source.disconnect( this.getOutput() );\n\n\t\t}\n\n\t\tthis._connected = false;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current set filters.\n\t *\n\t * @return {Array} The list of filters.\n\t */\n\tgetFilters() {\n\n\t\treturn this.filters;\n\n\t}\n\n\t/**\n\t * Sets an array of filters and connects them with the audio source.\n\t *\n\t * @param {Array} [value] - A list of filters.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetFilters( value ) {\n\n\t\tif ( ! value ) value = [];\n\n\t\tif ( this._connected === true ) {\n\n\t\t\tthis.disconnect();\n\t\t\tthis.filters = value.slice();\n\t\t\tthis.connect();\n\n\t\t} else {\n\n\t\t\tthis.filters = value.slice();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Defines the detuning of oscillation in cents.\n\t *\n\t * @param {number} value - The detuning of oscillation in cents.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetDetune( value ) {\n\n\t\tthis.detune = value;\n\n\t\tif ( this.isPlaying === true && this.source.detune !== undefined ) {\n\n\t\t\tthis.source.detune.setTargetAtTime( this.detune, this.context.currentTime, 0.01 );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the detuning of oscillation in cents.\n\t *\n\t * @return {number} The detuning of oscillation in cents.\n\t */\n\tgetDetune() {\n\n\t\treturn this.detune;\n\n\t}\n\n\t/**\n\t * Returns the first filter in the list of filters.\n\t *\n\t * @return {AudioNode|undefined} The first filter in the list of filters.\n\t */\n\tgetFilter() {\n\n\t\treturn this.getFilters()[ 0 ];\n\n\t}\n\n\t/**\n\t * Applies a single filter node to the audio.\n\t *\n\t * @param {AudioNode} [filter] - The filter to set.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetFilter( filter ) {\n\n\t\treturn this.setFilters( filter ? [ filter ] : [] );\n\n\t}\n\n\t/**\n\t * Sets the playback rate.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {number} [value] - The playback rate to set.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tsetPlaybackRate( value ) {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis.playbackRate = value;\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\tthis.source.playbackRate.setTargetAtTime( this.playbackRate, this.context.currentTime, 0.01 );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current playback rate.\n\n\t * @return {number} The playback rate.\n\t */\n\tgetPlaybackRate() {\n\n\t\treturn this.playbackRate;\n\n\t}\n\n\t/**\n\t * Automatically called when playback finished.\n\t */\n\tonEnded() {\n\n\t\tthis.isPlaying = false;\n\t\tthis._progress = 0;\n\n\t}\n\n\t/**\n\t * Returns the loop flag.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @return {boolean} Whether the audio should loop or not.\n\t */\n\tgetLoop() {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn false;\n\n\t\t}\n\n\t\treturn this.loop;\n\n\t}\n\n\t/**\n\t * Sets the loop flag.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {boolean} value - Whether the audio should loop or not.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tsetLoop( value ) {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis.loop = value;\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\tthis.source.loop = this.loop;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the loop start value which defines where in the audio buffer the replay should\n\t * start, in seconds.\n\t *\n\t * @param {number} value - The loop start value.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetLoopStart( value ) {\n\n\t\tthis.loopStart = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the loop end value which defines where in the audio buffer the replay should\n\t * stop, in seconds.\n\t *\n\t * @param {number} value - The loop end value.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetLoopEnd( value ) {\n\n\t\tthis.loopEnd = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the volume.\n\t *\n\t * @return {number} The volume.\n\t */\n\tgetVolume() {\n\n\t\treturn this.gain.gain.value;\n\n\t}\n\n\t/**\n\t * Sets the volume.\n\t *\n\t * @param {number} value - The volume to set.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetVolume( value ) {\n\n\t\tthis.gain.gain.setTargetAtTime( value, this.context.currentTime, 0.01 );\n\n\t\treturn this;\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.sourceType !== 'buffer' ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: Audio source type cannot be copied.' );\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tthis.autoplay = source.autoplay;\n\n\t\tthis.buffer = source.buffer;\n\t\tthis.detune = source.detune;\n\t\tthis.loop = source.loop;\n\t\tthis.loopStart = source.loopStart;\n\t\tthis.loopEnd = source.loopEnd;\n\t\tthis.offset = source.offset;\n\t\tthis.duration = source.duration;\n\t\tthis.playbackRate = source.playbackRate;\n\t\tthis.hasPlaybackControl = source.hasPlaybackControl;\n\t\tthis.sourceType = source.sourceType;\n\n\t\tthis.filters = source.filters.slice();\n\n\t\treturn this;\n\n\t}\n\n\tclone( recursive ) {\n\n\t\treturn new this.constructor( this.listener ).copy( this, recursive );\n\n\t}\n\n}\n\nconst _position = /*@__PURE__*/ new Vector3();\nconst _quaternion = /*@__PURE__*/ new Quaternion();\nconst _scale = /*@__PURE__*/ new Vector3();\nconst _orientation = /*@__PURE__*/ new Vector3();\n\n/**\n * Represents a positional audio object.\n *\n * ```js\n * // create an AudioListener and add it to the camera\n * const listener = new THREE.AudioListener();\n * camera.add( listener );\n *\n * // create the PositionalAudio object (passing in the listener)\n * const sound = new THREE.PositionalAudio( listener );\n *\n * // load a sound and set it as the PositionalAudio object's buffer\n * const audioLoader = new THREE.AudioLoader();\n * audioLoader.load( 'sounds/song.ogg', function( buffer ) {\n * \tsound.setBuffer( buffer );\n * \tsound.setRefDistance( 20 );\n * \tsound.play();\n * });\n *\n * // create an object for the sound to play from\n * const sphere = new THREE.SphereGeometry( 20, 32, 16 );\n * const material = new THREE.MeshPhongMaterial( { color: 0xff2200 } );\n * const mesh = new THREE.Mesh( sphere, material );\n * scene.add( mesh );\n *\n * // finally add the sound to the mesh\n * mesh.add( sound );\n *\n * @augments Audio\n */\nclass PositionalAudio extends Audio {\n\n\t/**\n\t * Constructs a positional audio.\n\t *\n\t * @param {AudioListener} listener - The global audio listener.\n\t */\n\tconstructor( listener ) {\n\n\t\tsuper( listener );\n\n\t\t/**\n\t\t * The panner node represents the location, direction, and behavior of an audio\n\t\t * source in 3D space.\n\t\t *\n\t\t * @type {PannerNode}\n\t\t * @readonly\n\t\t */\n\t\tthis.panner = this.context.createPanner();\n\t\tthis.panner.panningModel = 'HRTF';\n\t\tthis.panner.connect( this.gain );\n\n\t}\n\n\tconnect() {\n\n\t\tsuper.connect();\n\n\t\tthis.panner.connect( this.gain );\n\n\t\treturn this;\n\n\t}\n\n\tdisconnect() {\n\n\t\tsuper.disconnect();\n\n\t\tthis.panner.disconnect( this.gain );\n\n\t\treturn this;\n\n\t}\n\n\tgetOutput() {\n\n\t\treturn this.panner;\n\n\t}\n\n\t/**\n\t * Returns the current reference distance.\n\t *\n\t * @return {number} The reference distance.\n\t */\n\tgetRefDistance() {\n\n\t\treturn this.panner.refDistance;\n\n\t}\n\n\t/**\n\t * Defines the reference distance for reducing volume as the audio source moves\n\t * further from the listener – i.e. the distance at which the volume reduction\n\t * starts taking effect.\n\t *\n\t * @param {number} value - The reference distance to set.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetRefDistance( value ) {\n\n\t\tthis.panner.refDistance = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current rolloff factor.\n\t *\n\t * @return {number} The rolloff factor.\n\t */\n\tgetRolloffFactor() {\n\n\t\treturn this.panner.rolloffFactor;\n\n\t}\n\n\t/**\n\t * Defines how quickly the volume is reduced as the source moves away from the listener.\n\t *\n\t * @param {number} value - The rolloff factor.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetRolloffFactor( value ) {\n\n\t\tthis.panner.rolloffFactor = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current distance model.\n\t *\n\t * @return {('linear'|'inverse'|'exponential')} The distance model.\n\t */\n\tgetDistanceModel() {\n\n\t\treturn this.panner.distanceModel;\n\n\t}\n\n\t/**\n\t * Defines which algorithm to use to reduce the volume of the audio source\n\t * as it moves away from the listener.\n\t *\n\t * Read [the spec]{@link https://www.w3.org/TR/webaudio-1.1/#enumdef-distancemodeltype}\n\t * for more details.\n\t *\n\t * @param {('linear'|'inverse'|'exponential')} value - The distance model to set.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetDistanceModel( value ) {\n\n\t\tthis.panner.distanceModel = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current max distance.\n\t *\n\t * @return {number} The max distance.\n\t */\n\tgetMaxDistance() {\n\n\t\treturn this.panner.maxDistance;\n\n\t}\n\n\t/**\n\t * Defines the maximum distance between the audio source and the listener,\n\t * after which the volume is not reduced any further.\n\t *\n\t * This value is used only by the `linear` distance model.\n\t *\n\t * @param {number} value - The max distance.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetMaxDistance( value ) {\n\n\t\tthis.panner.maxDistance = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the directional cone in which the audio can be listened.\n\t *\n\t * @param {number} coneInnerAngle - An angle, in degrees, of a cone inside of which there will be no volume reduction.\n\t * @param {number} coneOuterAngle - An angle, in degrees, of a cone outside of which the volume will be reduced by a constant value, defined by the `coneOuterGain` parameter.\n\t * @param {number} coneOuterGain - The amount of volume reduction outside the cone defined by the `coneOuterAngle`. When set to `0`, no sound can be heard.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetDirectionalCone( coneInnerAngle, coneOuterAngle, coneOuterGain ) {\n\n\t\tthis.panner.coneInnerAngle = coneInnerAngle;\n\t\tthis.panner.coneOuterAngle = coneOuterAngle;\n\t\tthis.panner.coneOuterGain = coneOuterGain;\n\n\t\treturn this;\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tif ( this.hasPlaybackControl === true && this.isPlaying === false ) return;\n\n\t\tthis.matrixWorld.decompose( _position, _quaternion, _scale );\n\n\t\t_orientation.set( 0, 0, 1 ).applyQuaternion( _quaternion );\n\n\t\tconst panner = this.panner;\n\n\t\tif ( panner.positionX ) {\n\n\t\t\t// code path for Chrome and Firefox (see #14393)\n\n\t\t\tconst endTime = this.context.currentTime + this.listener.timeDelta;\n\n\t\t\tpanner.positionX.linearRampToValueAtTime( _position.x, endTime );\n\t\t\tpanner.positionY.linearRampToValueAtTime( _position.y, endTime );\n\t\t\tpanner.positionZ.linearRampToValueAtTime( _position.z, endTime );\n\t\t\tpanner.orientationX.linearRampToValueAtTime( _orientation.x, endTime );\n\t\t\tpanner.orientationY.linearRampToValueAtTime( _orientation.y, endTime );\n\t\t\tpanner.orientationZ.linearRampToValueAtTime( _orientation.z, endTime );\n\n\t\t} else {\n\n\t\t\tpanner.setPosition( _position.x, _position.y, _position.z );\n\t\t\tpanner.setOrientation( _orientation.x, _orientation.y, _orientation.z );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * This class can be used to analyse audio data.\n *\n * ```js\n * // create an AudioListener and add it to the camera\n * const listener = new THREE.AudioListener();\n * camera.add( listener );\n *\n * // create an Audio source\n * const sound = new THREE.Audio( listener );\n *\n * // load a sound and set it as the Audio object's buffer\n * const audioLoader = new THREE.AudioLoader();\n * audioLoader.load( 'sounds/ambient.ogg', function( buffer ) {\n * \tsound.setBuffer( buffer );\n * \tsound.setLoop(true);\n * \tsound.setVolume(0.5);\n * \tsound.play();\n * });\n *\n * // create an AudioAnalyser, passing in the sound and desired fftSize\n * const analyser = new THREE.AudioAnalyser( sound, 32 );\n *\n * // get the average frequency of the sound\n * const data = analyser.getAverageFrequency();\n * ```\n */\nclass AudioAnalyser {\n\n\t/**\n\t * Constructs a new audio analyzer.\n\t *\n\t * @param {Audio} audio - The audio to analyze.\n\t * @param {number} [fftSize=2048] - The window size in samples that is used when performing a Fast Fourier Transform (FFT) to get frequency domain data.\n\t */\n\tconstructor( audio, fftSize = 2048 ) {\n\n\t\t/**\n\t\t * The global audio listener.\n\t\t *\n\t\t * @type {AnalyserNode}\n\t\t */\n\t\tthis.analyser = audio.context.createAnalyser();\n\t\tthis.analyser.fftSize = fftSize;\n\n\t\t/**\n\t\t * Holds the analyzed data.\n\t\t *\n\t\t * @type {Uint8Array}\n\t\t */\n\t\tthis.data = new Uint8Array( this.analyser.frequencyBinCount );\n\n\t\taudio.getOutput().connect( this.analyser );\n\n\t}\n\n\t/**\n\t * Returns an array with frequency data of the audio.\n\t *\n\t * Each item in the array represents the decibel value for a specific frequency.\n\t * The frequencies are spread linearly from 0 to 1/2 of the sample rate.\n\t * For example, for 48000 sample rate, the last item of the array will represent\n\t * the decibel value for 24000 Hz.\n\t *\n\t * @return {Uint8Array} The frequency data.\n\t */\n\tgetFrequencyData() {\n\n\t\tthis.analyser.getByteFrequencyData( this.data );\n\n\t\treturn this.data;\n\n\t}\n\n\t/**\n\t * Returns the average of the frequencies returned by {@link AudioAnalyser#getFrequencyData}.\n\t *\n\t * @return {number} The average frequency.\n\t */\n\tgetAverageFrequency() {\n\n\t\tlet value = 0;\n\t\tconst data = this.getFrequencyData();\n\n\t\tfor ( let i = 0; i < data.length; i ++ ) {\n\n\t\t\tvalue += data[ i ];\n\n\t\t}\n\n\t\treturn value / data.length;\n\n\t}\n\n}\n\n/**\n * Buffered scene graph property that allows weighted accumulation; used internally.\n */\nclass PropertyMixer {\n\n\t/**\n\t * Constructs a new property mixer.\n\t *\n\t * @param {PropertyBinding} binding - The property binding.\n\t * @param {string} typeName - The keyframe track type name.\n\t * @param {number} valueSize - The keyframe track value size.\n\t */\n\tconstructor( binding, typeName, valueSize ) {\n\n\t\t/**\n\t\t * The property binding.\n\t\t *\n\t\t * @type {PropertyBinding}\n\t\t */\n\t\tthis.binding = binding;\n\n\t\t/**\n\t\t * The keyframe track value size.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.valueSize = valueSize;\n\n\t\tlet mixFunction,\n\t\t\tmixFunctionAdditive,\n\t\t\tsetIdentity;\n\n\t\t// buffer layout: [ incoming | accu0 | accu1 | orig | addAccu | (optional work) ]\n\t\t//\n\t\t// interpolators can use .buffer as their .result\n\t\t// the data then goes to 'incoming'\n\t\t//\n\t\t// 'accu0' and 'accu1' are used frame-interleaved for\n\t\t// the cumulative result and are compared to detect\n\t\t// changes\n\t\t//\n\t\t// 'orig' stores the original state of the property\n\t\t//\n\t\t// 'add' is used for additive cumulative results\n\t\t//\n\t\t// 'work' is optional and is only present for quaternion types. It is used\n\t\t// to store intermediate quaternion multiplication results\n\n\t\tswitch ( typeName ) {\n\n\t\t\tcase 'quaternion':\n\t\t\t\tmixFunction = this._slerp;\n\t\t\t\tmixFunctionAdditive = this._slerpAdditive;\n\t\t\t\tsetIdentity = this._setAdditiveIdentityQuaternion;\n\n\t\t\t\tthis.buffer = new Float64Array( valueSize * 6 );\n\t\t\t\tthis._workIndex = 5;\n\t\t\t\tbreak;\n\n\t\t\tcase 'string':\n\t\t\tcase 'bool':\n\t\t\t\tmixFunction = this._select;\n\n\t\t\t\t// Use the regular mix function and for additive on these types,\n\t\t\t\t// additive is not relevant for non-numeric types\n\t\t\t\tmixFunctionAdditive = this._select;\n\n\t\t\t\tsetIdentity = this._setAdditiveIdentityOther;\n\n\t\t\t\tthis.buffer = new Array( valueSize * 5 );\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\t\t\t\tmixFunction = this._lerp;\n\t\t\t\tmixFunctionAdditive = this._lerpAdditive;\n\t\t\t\tsetIdentity = this._setAdditiveIdentityNumeric;\n\n\t\t\t\tthis.buffer = new Float64Array( valueSize * 5 );\n\n\t\t}\n\n\t\tthis._mixBufferRegion = mixFunction;\n\t\tthis._mixBufferRegionAdditive = mixFunctionAdditive;\n\t\tthis._setIdentity = setIdentity;\n\t\tthis._origIndex = 3;\n\t\tthis._addIndex = 4;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.cumulativeWeight = 0;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.cumulativeWeightAdditive = 0;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.useCount = 0;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.referenceCount = 0;\n\n\t}\n\n\t/**\n\t * Accumulates data in the `incoming` region into `accu`.\n\t *\n\t * @param {number} accuIndex - The accumulation index.\n\t * @param {number} weight - The weight.\n\t */\n\taccumulate( accuIndex, weight ) {\n\n\t\t// note: happily accumulating nothing when weight = 0, the caller knows\n\t\t// the weight and shouldn't have made the call in the first place\n\n\t\tconst buffer = this.buffer,\n\t\t\tstride = this.valueSize,\n\t\t\toffset = accuIndex * stride + stride;\n\n\t\tlet currentWeight = this.cumulativeWeight;\n\n\t\tif ( currentWeight === 0 ) {\n\n\t\t\t// accuN := incoming * weight\n\n\t\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\t\tbuffer[ offset + i ] = buffer[ i ];\n\n\t\t\t}\n\n\t\t\tcurrentWeight = weight;\n\n\t\t} else {\n\n\t\t\t// accuN := accuN + incoming * weight\n\n\t\t\tcurrentWeight += weight;\n\t\t\tconst mix = weight / currentWeight;\n\t\t\tthis._mixBufferRegion( buffer, offset, 0, mix, stride );\n\n\t\t}\n\n\t\tthis.cumulativeWeight = currentWeight;\n\n\t}\n\n\t/**\n\t * Accumulates data in the `incoming` region into `add`.\n\t *\n\t * @param {number} weight - The weight.\n\t */\n\taccumulateAdditive( weight ) {\n\n\t\tconst buffer = this.buffer,\n\t\t\tstride = this.valueSize,\n\t\t\toffset = stride * this._addIndex;\n\n\t\tif ( this.cumulativeWeightAdditive === 0 ) {\n\n\t\t\t// add = identity\n\n\t\t\tthis._setIdentity();\n\n\t\t}\n\n\t\t// add := add + incoming * weight\n\n\t\tthis._mixBufferRegionAdditive( buffer, offset, 0, weight, stride );\n\t\tthis.cumulativeWeightAdditive += weight;\n\n\t}\n\n\t/**\n\t * Applies the state of `accu` to the binding when accus differ.\n\t *\n\t * @param {number} accuIndex - The accumulation index.\n\t */\n\tapply( accuIndex ) {\n\n\t\tconst stride = this.valueSize,\n\t\t\tbuffer = this.buffer,\n\t\t\toffset = accuIndex * stride + stride,\n\n\t\t\tweight = this.cumulativeWeight,\n\t\t\tweightAdditive = this.cumulativeWeightAdditive,\n\n\t\t\tbinding = this.binding;\n\n\t\tthis.cumulativeWeight = 0;\n\t\tthis.cumulativeWeightAdditive = 0;\n\n\t\tif ( weight < 1 ) {\n\n\t\t\t// accuN := accuN + original * ( 1 - cumulativeWeight )\n\n\t\t\tconst originalValueOffset = stride * this._origIndex;\n\n\t\t\tthis._mixBufferRegion(\n\t\t\t\tbuffer, offset, originalValueOffset, 1 - weight, stride );\n\n\t\t}\n\n\t\tif ( weightAdditive > 0 ) {\n\n\t\t\t// accuN := accuN + additive accuN\n\n\t\t\tthis._mixBufferRegionAdditive( buffer, offset, this._addIndex * stride, 1, stride );\n\n\t\t}\n\n\t\tfor ( let i = stride, e = stride + stride; i !== e; ++ i ) {\n\n\t\t\tif ( buffer[ i ] !== buffer[ i + stride ] ) {\n\n\t\t\t\t// value has changed -> update scene graph\n\n\t\t\t\tbinding.setValue( buffer, offset );\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\n\t/**\n\t * Remembers the state of the bound property and copy it to both accus.\n\t */\n\tsaveOriginalState() {\n\n\t\tconst binding = this.binding;\n\n\t\tconst buffer = this.buffer,\n\t\t\tstride = this.valueSize,\n\n\t\t\toriginalValueOffset = stride * this._origIndex;\n\n\t\tbinding.getValue( buffer, originalValueOffset );\n\n\t\t// accu[0..1] := orig -- initially detect changes against the original\n\t\tfor ( let i = stride, e = originalValueOffset; i !== e; ++ i ) {\n\n\t\t\tbuffer[ i ] = buffer[ originalValueOffset + ( i % stride ) ];\n\n\t\t}\n\n\t\t// Add to identity for additive\n\t\tthis._setIdentity();\n\n\t\tthis.cumulativeWeight = 0;\n\t\tthis.cumulativeWeightAdditive = 0;\n\n\t}\n\n\t/**\n\t * Applies the state previously taken via {@link PropertyMixer#saveOriginalState} to the binding.\n\t */\n\trestoreOriginalState() {\n\n\t\tconst originalValueOffset = this.valueSize * 3;\n\t\tthis.binding.setValue( this.buffer, originalValueOffset );\n\n\t}\n\n\t// internals\n\n\t_setAdditiveIdentityNumeric() {\n\n\t\tconst startIndex = this._addIndex * this.valueSize;\n\t\tconst endIndex = startIndex + this.valueSize;\n\n\t\tfor ( let i = startIndex; i < endIndex; i ++ ) {\n\n\t\t\tthis.buffer[ i ] = 0;\n\n\t\t}\n\n\t}\n\n\t_setAdditiveIdentityQuaternion() {\n\n\t\tthis._setAdditiveIdentityNumeric();\n\t\tthis.buffer[ this._addIndex * this.valueSize + 3 ] = 1;\n\n\t}\n\n\t_setAdditiveIdentityOther() {\n\n\t\tconst startIndex = this._origIndex * this.valueSize;\n\t\tconst targetIndex = this._addIndex * this.valueSize;\n\n\t\tfor ( let i = 0; i < this.valueSize; i ++ ) {\n\n\t\t\tthis.buffer[ targetIndex + i ] = this.buffer[ startIndex + i ];\n\n\t\t}\n\n\t}\n\n\n\t// mix functions\n\n\t_select( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tif ( t >= 0.5 ) {\n\n\t\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\t\tbuffer[ dstOffset + i ] = buffer[ srcOffset + i ];\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_slerp( buffer, dstOffset, srcOffset, t ) {\n\n\t\tQuaternion.slerpFlat( buffer, dstOffset, buffer, dstOffset, buffer, srcOffset, t );\n\n\t}\n\n\t_slerpAdditive( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tconst workOffset = this._workIndex * stride;\n\n\t\t// Store result in intermediate buffer offset\n\t\tQuaternion.multiplyQuaternionsFlat( buffer, workOffset, buffer, dstOffset, buffer, srcOffset );\n\n\t\t// Slerp to the intermediate result\n\t\tQuaternion.slerpFlat( buffer, dstOffset, buffer, dstOffset, buffer, workOffset, t );\n\n\t}\n\n\t_lerp( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tconst s = 1 - t;\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tconst j = dstOffset + i;\n\n\t\t\tbuffer[ j ] = buffer[ j ] * s + buffer[ srcOffset + i ] * t;\n\n\t\t}\n\n\t}\n\n\t_lerpAdditive( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tconst j = dstOffset + i;\n\n\t\t\tbuffer[ j ] = buffer[ j ] + buffer[ srcOffset + i ] * t;\n\n\t\t}\n\n\t}\n\n}\n\n// Characters [].:/ are reserved for track binding syntax.\nconst _RESERVED_CHARS_RE = '\\\\[\\\\]\\\\.:\\\\/';\nconst _reservedRe = new RegExp( '[' + _RESERVED_CHARS_RE + ']', 'g' );\n\n// Attempts to allow node names from any language. ES5's `\\w` regexp matches\n// only latin characters, and the unicode \\p{L} is not yet supported. So\n// instead, we exclude reserved characters and match everything else.\nconst _wordChar = '[^' + _RESERVED_CHARS_RE + ']';\nconst _wordCharOrDot = '[^' + _RESERVED_CHARS_RE.replace( '\\\\.', '' ) + ']';\n\n// Parent directories, delimited by '/' or ':'. Currently unused, but must\n// be matched to parse the rest of the track name.\nconst _directoryRe = /*@__PURE__*/ /((?:WC+[\\/:])*)/.source.replace( 'WC', _wordChar );\n\n// Target node. May contain word characters (a-zA-Z0-9_) and '.' or '-'.\nconst _nodeRe = /*@__PURE__*/ /(WCOD+)?/.source.replace( 'WCOD', _wordCharOrDot );\n\n// Object on target node, and accessor. May not contain reserved\n// characters. Accessor may contain any character except closing bracket.\nconst _objectRe = /*@__PURE__*/ /(?:\\.(WC+)(?:\\[(.+)\\])?)?/.source.replace( 'WC', _wordChar );\n\n// Property and accessor. May not contain reserved characters. Accessor may\n// contain any non-bracket characters.\nconst _propertyRe = /*@__PURE__*/ /\\.(WC+)(?:\\[(.+)\\])?/.source.replace( 'WC', _wordChar );\n\nconst _trackRe = new RegExp( ''\n\t+ '^'\n\t+ _directoryRe\n\t+ _nodeRe\n\t+ _objectRe\n\t+ _propertyRe\n\t+ '$'\n);\n\nconst _supportedObjectNames = [ 'material', 'materials', 'bones', 'map' ];\n\nclass Composite {\n\n\tconstructor( targetGroup, path, optionalParsedPath ) {\n\n\t\tconst parsedPath = optionalParsedPath || PropertyBinding.parseTrackName( path );\n\n\t\tthis._targetGroup = targetGroup;\n\t\tthis._bindings = targetGroup.subscribe_( path, parsedPath );\n\n\t}\n\n\tgetValue( array, offset ) {\n\n\t\tthis.bind(); // bind all binding\n\n\t\tconst firstValidIndex = this._targetGroup.nCachedObjects_,\n\t\t\tbinding = this._bindings[ firstValidIndex ];\n\n\t\t// and only call .getValue on the first\n\t\tif ( binding !== undefined ) binding.getValue( array, offset );\n\n\t}\n\n\tsetValue( array, offset ) {\n\n\t\tconst bindings = this._bindings;\n\n\t\tfor ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tbindings[ i ].setValue( array, offset );\n\n\t\t}\n\n\t}\n\n\tbind() {\n\n\t\tconst bindings = this._bindings;\n\n\t\tfor ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tbindings[ i ].bind();\n\n\t\t}\n\n\t}\n\n\tunbind() {\n\n\t\tconst bindings = this._bindings;\n\n\t\tfor ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tbindings[ i ].unbind();\n\n\t\t}\n\n\t}\n\n}\n\n// Note: This class uses a State pattern on a per-method basis:\n// 'bind' sets 'this.getValue' / 'setValue' and shadows the\n// prototype version of these methods with one that represents\n// the bound state. When the property is not found, the methods\n// become no-ops.\n\n\n/**\n * This holds a reference to a real property in the scene graph; used internally.\n */\nclass PropertyBinding {\n\n\t/**\n\t * Constructs a new property binding.\n\t *\n\t * @param {Object} rootNode - The root node.\n\t * @param {string} path - The path.\n\t * @param {?Object} [parsedPath] - The parsed path.\n\t */\n\tconstructor( rootNode, path, parsedPath ) {\n\n\t\t/**\n\t\t * The object path to the animated property.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.path = path;\n\n\t\t/**\n\t\t * An object holding information about the path.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parsedPath = parsedPath || PropertyBinding.parseTrackName( path );\n\n\t\t/**\n\t\t * The object owns the animated property.\n\t\t *\n\t\t * @type {?Object}\n\t\t */\n\t\tthis.node = PropertyBinding.findNode( rootNode, this.parsedPath.nodeName );\n\n\t\t/**\n\t\t * The root node.\n\t\t *\n\t\t * @type {Object3D|Skeleton}\n\t\t */\n\t\tthis.rootNode = rootNode;\n\n\t\t// initial state of these methods that calls 'bind'\n\t\tthis.getValue = this._getValue_unbound;\n\t\tthis.setValue = this._setValue_unbound;\n\n\t}\n\n\n\t/**\n\t * Factory method for creating a property binding from the given parameters.\n\t *\n\t * @static\n\t * @param {Object} root - The root node.\n\t * @param {string} path - The path.\n\t * @param {?Object} [parsedPath] - The parsed path.\n\t * @return {PropertyBinding|Composite} The created property binding or composite.\n\t */\n\tstatic create( root, path, parsedPath ) {\n\n\t\tif ( ! ( root && root.isAnimationObjectGroup ) ) {\n\n\t\t\treturn new PropertyBinding( root, path, parsedPath );\n\n\t\t} else {\n\n\t\t\treturn new PropertyBinding.Composite( root, path, parsedPath );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Replaces spaces with underscores and removes unsupported characters from\n\t * node names, to ensure compatibility with parseTrackName().\n\t *\n\t * @param {string} name - Node name to be sanitized.\n\t * @return {string} The sanitized node name.\n\t */\n\tstatic sanitizeNodeName( name ) {\n\n\t\treturn name.replace( /\\s/g, '_' ).replace( _reservedRe, '' );\n\n\t}\n\n\t/**\n\t * Parses the given track name (an object path to an animated property) and\n\t * returns an object with information about the path. Matches strings in the following forms:\n\t *\n\t * - nodeName.property\n\t * - nodeName.property[accessor]\n\t * - nodeName.material.property[accessor]\n\t * - uuid.property[accessor]\n\t * - uuid.objectName[objectIndex].propertyName[propertyIndex]\n\t * - parentName/nodeName.property\n\t * - parentName/parentName/nodeName.property[index]\n\t * - .bone[Armature.DEF_cog].position\n\t * - scene:helium_balloon_model:helium_balloon_model.position\n\t *\n\t * @static\n\t * @param {string} trackName - The track name to parse.\n\t * @return {Object} The parsed track name as an object.\n\t */\n\tstatic parseTrackName( trackName ) {\n\n\t\tconst matches = _trackRe.exec( trackName );\n\n\t\tif ( matches === null ) {\n\n\t\t\tthrow new Error( 'PropertyBinding: Cannot parse trackName: ' + trackName );\n\n\t\t}\n\n\t\tconst results = {\n\t\t\t// directoryName: matches[ 1 ], // (tschw) currently unused\n\t\t\tnodeName: matches[ 2 ],\n\t\t\tobjectName: matches[ 3 ],\n\t\t\tobjectIndex: matches[ 4 ],\n\t\t\tpropertyName: matches[ 5 ], // required\n\t\t\tpropertyIndex: matches[ 6 ]\n\t\t};\n\n\t\tconst lastDot = results.nodeName && results.nodeName.lastIndexOf( '.' );\n\n\t\tif ( lastDot !== undefined && lastDot !== -1 ) {\n\n\t\t\tconst objectName = results.nodeName.substring( lastDot + 1 );\n\n\t\t\t// Object names must be checked against an allowlist. Otherwise, there\n\t\t\t// is no way to parse 'foo.bar.baz': 'baz' must be a property, but\n\t\t\t// 'bar' could be the objectName, or part of a nodeName (which can\n\t\t\t// include '.' characters).\n\t\t\tif ( _supportedObjectNames.indexOf( objectName ) !== -1 ) {\n\n\t\t\t\tresults.nodeName = results.nodeName.substring( 0, lastDot );\n\t\t\t\tresults.objectName = objectName;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( results.propertyName === null || results.propertyName.length === 0 ) {\n\n\t\t\tthrow new Error( 'PropertyBinding: can not parse propertyName from trackName: ' + trackName );\n\n\t\t}\n\n\t\treturn results;\n\n\t}\n\n\t/**\n\t * Searches for a node in the hierarchy of the given root object by the given\n\t * node name.\n\t *\n\t * @static\n\t * @param {Object} root - The root object.\n\t * @param {string|number} nodeName - The name of the node.\n\t * @return {?Object} The found node. Returns `null` if no object was found.\n\t */\n\tstatic findNode( root, nodeName ) {\n\n\t\tif ( nodeName === undefined || nodeName === '' || nodeName === '.' || nodeName === -1 || nodeName === root.name || nodeName === root.uuid ) {\n\n\t\t\treturn root;\n\n\t\t}\n\n\t\t// search into skeleton bones.\n\t\tif ( root.skeleton ) {\n\n\t\t\tconst bone = root.skeleton.getBoneByName( nodeName );\n\n\t\t\tif ( bone !== undefined ) {\n\n\t\t\t\treturn bone;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// search into node subtree.\n\t\tif ( root.children ) {\n\n\t\t\tconst searchNodeSubtree = function ( children ) {\n\n\t\t\t\tfor ( let i = 0; i < children.length; i ++ ) {\n\n\t\t\t\t\tconst childNode = children[ i ];\n\n\t\t\t\t\tif ( childNode.name === nodeName || childNode.uuid === nodeName ) {\n\n\t\t\t\t\t\treturn childNode;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tconst result = searchNodeSubtree( childNode.children );\n\n\t\t\t\t\tif ( result ) return result;\n\n\t\t\t\t}\n\n\t\t\t\treturn null;\n\n\t\t\t};\n\n\t\t\tconst subTreeNode = searchNodeSubtree( root.children );\n\n\t\t\tif ( subTreeNode ) {\n\n\t\t\t\treturn subTreeNode;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t// these are used to \"bind\" a nonexistent property\n\t_getValue_unavailable() {}\n\t_setValue_unavailable() {}\n\n\t// Getters\n\n\t_getValue_direct( buffer, offset ) {\n\n\t\tbuffer[ offset ] = this.targetObject[ this.propertyName ];\n\n\t}\n\n\t_getValue_array( buffer, offset ) {\n\n\t\tconst source = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = source.length; i !== n; ++ i ) {\n\n\t\t\tbuffer[ offset ++ ] = source[ i ];\n\n\t\t}\n\n\t}\n\n\t_getValue_arrayElement( buffer, offset ) {\n\n\t\tbuffer[ offset ] = this.resolvedProperty[ this.propertyIndex ];\n\n\t}\n\n\t_getValue_toArray( buffer, offset ) {\n\n\t\tthis.resolvedProperty.toArray( buffer, offset );\n\n\t}\n\n\t// Direct\n\n\t_setValue_direct( buffer, offset ) {\n\n\t\tthis.targetObject[ this.propertyName ] = buffer[ offset ];\n\n\t}\n\n\t_setValue_direct_setNeedsUpdate( buffer, offset ) {\n\n\t\tthis.targetObject[ this.propertyName ] = buffer[ offset ];\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_direct_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tthis.targetObject[ this.propertyName ] = buffer[ offset ];\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t// EntireArray\n\n\t_setValue_array( buffer, offset ) {\n\n\t\tconst dest = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = dest.length; i !== n; ++ i ) {\n\n\t\t\tdest[ i ] = buffer[ offset ++ ];\n\n\t\t}\n\n\t}\n\n\t_setValue_array_setNeedsUpdate( buffer, offset ) {\n\n\t\tconst dest = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = dest.length; i !== n; ++ i ) {\n\n\t\t\tdest[ i ] = buffer[ offset ++ ];\n\n\t\t}\n\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_array_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tconst dest = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = dest.length; i !== n; ++ i ) {\n\n\t\t\tdest[ i ] = buffer[ offset ++ ];\n\n\t\t}\n\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t// ArrayElement\n\n\t_setValue_arrayElement( buffer, offset ) {\n\n\t\tthis.resolvedProperty[ this.propertyIndex ] = buffer[ offset ];\n\n\t}\n\n\t_setValue_arrayElement_setNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty[ this.propertyIndex ] = buffer[ offset ];\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_arrayElement_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty[ this.propertyIndex ] = buffer[ offset ];\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t// HasToFromArray\n\n\t_setValue_fromArray( buffer, offset ) {\n\n\t\tthis.resolvedProperty.fromArray( buffer, offset );\n\n\t}\n\n\t_setValue_fromArray_setNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty.fromArray( buffer, offset );\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_fromArray_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty.fromArray( buffer, offset );\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t_getValue_unbound( targetArray, offset ) {\n\n\t\tthis.bind();\n\t\tthis.getValue( targetArray, offset );\n\n\t}\n\n\t_setValue_unbound( sourceArray, offset ) {\n\n\t\tthis.bind();\n\t\tthis.setValue( sourceArray, offset );\n\n\t}\n\n\t/**\n\t * Creates a getter / setter pair for the property tracked by this binding.\n\t */\n\tbind() {\n\n\t\tlet targetObject = this.node;\n\t\tconst parsedPath = this.parsedPath;\n\n\t\tconst objectName = parsedPath.objectName;\n\t\tconst propertyName = parsedPath.propertyName;\n\t\tlet propertyIndex = parsedPath.propertyIndex;\n\n\t\tif ( ! targetObject ) {\n\n\t\t\ttargetObject = PropertyBinding.findNode( this.rootNode, parsedPath.nodeName );\n\n\t\t\tthis.node = targetObject;\n\n\t\t}\n\n\t\t// set fail state so we can just 'return' on error\n\t\tthis.getValue = this._getValue_unavailable;\n\t\tthis.setValue = this._setValue_unavailable;\n\n\t\t// ensure there is a value node\n\t\tif ( ! targetObject ) {\n\n\t\t\tconsole.warn( 'THREE.PropertyBinding: No target node found for track: ' + this.path + '.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( objectName ) {\n\n\t\t\tlet objectIndex = parsedPath.objectIndex;\n\n\t\t\t// special cases were we need to reach deeper into the hierarchy to get the face materials....\n\t\t\tswitch ( objectName ) {\n\n\t\t\t\tcase 'materials':\n\n\t\t\t\t\tif ( ! targetObject.material ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material as node does not have a material.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! targetObject.material.materials ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material.materials as node.material does not have a materials array.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttargetObject = targetObject.material.materials;\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase 'bones':\n\n\t\t\t\t\tif ( ! targetObject.skeleton ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to bones as node does not have a skeleton.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// potential future optimization: skip this if propertyIndex is already an integer\n\t\t\t\t\t// and convert the integer string to a true integer.\n\n\t\t\t\t\ttargetObject = targetObject.skeleton.bones;\n\n\t\t\t\t\t// support resolving morphTarget names into indices.\n\t\t\t\t\tfor ( let i = 0; i < targetObject.length; i ++ ) {\n\n\t\t\t\t\t\tif ( targetObject[ i ].name === objectIndex ) {\n\n\t\t\t\t\t\t\tobjectIndex = i;\n\t\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase 'map':\n\n\t\t\t\t\tif ( 'map' in targetObject ) {\n\n\t\t\t\t\t\ttargetObject = targetObject.map;\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! targetObject.material ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material as node does not have a material.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! targetObject.material.map ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material.map as node.material does not have a map.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttargetObject = targetObject.material.map;\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\n\n\t\t\t\t\tif ( targetObject[ objectName ] === undefined ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to objectName of node undefined.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttargetObject = targetObject[ objectName ];\n\n\t\t\t}\n\n\n\t\t\tif ( objectIndex !== undefined ) {\n\n\t\t\t\tif ( targetObject[ objectIndex ] === undefined ) {\n\n\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Trying to bind to objectIndex of objectName, but is undefined.', this, targetObject );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t\ttargetObject = targetObject[ objectIndex ];\n\n\t\t\t}\n\n\t\t}\n\n\t\t// resolve property\n\t\tconst nodeProperty = targetObject[ propertyName ];\n\n\t\tif ( nodeProperty === undefined ) {\n\n\t\t\tconst nodeName = parsedPath.nodeName;\n\n\t\t\tconsole.error( 'THREE.PropertyBinding: Trying to update property for track: ' + nodeName +\n\t\t\t\t'.' + propertyName + ' but it wasn\\'t found.', targetObject );\n\t\t\treturn;\n\n\t\t}\n\n\t\t// determine versioning scheme\n\t\tlet versioning = this.Versioning.None;\n\n\t\tthis.targetObject = targetObject;\n\n\t\tif ( targetObject.isMaterial === true ) {\n\n\t\t\tversioning = this.Versioning.NeedsUpdate;\n\n\t\t} else if ( targetObject.isObject3D === true ) {\n\n\t\t\tversioning = this.Versioning.MatrixWorldNeedsUpdate;\n\n\t\t}\n\n\t\t// determine how the property gets bound\n\t\tlet bindingType = this.BindingType.Direct;\n\n\t\tif ( propertyIndex !== undefined ) {\n\n\t\t\t// access a sub element of the property array (only primitives are supported right now)\n\n\t\t\tif ( propertyName === 'morphTargetInfluences' ) {\n\n\t\t\t\t// potential optimization, skip this if propertyIndex is already an integer, and convert the integer string to a true integer.\n\n\t\t\t\t// support resolving morphTarget names into indices.\n\t\t\t\tif ( ! targetObject.geometry ) {\n\n\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to morphTargetInfluences because node does not have a geometry.', this );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t\tif ( ! targetObject.geometry.morphAttributes ) {\n\n\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to morphTargetInfluences because node does not have a geometry.morphAttributes.', this );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t\tif ( targetObject.morphTargetDictionary[ propertyIndex ] !== undefined ) {\n\n\t\t\t\t\tpropertyIndex = targetObject.morphTargetDictionary[ propertyIndex ];\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tbindingType = this.BindingType.ArrayElement;\n\n\t\t\tthis.resolvedProperty = nodeProperty;\n\t\t\tthis.propertyIndex = propertyIndex;\n\n\t\t} else if ( nodeProperty.fromArray !== undefined && nodeProperty.toArray !== undefined ) {\n\n\t\t\t// must use copy for Object3D.Euler/Quaternion\n\n\t\t\tbindingType = this.BindingType.HasFromToArray;\n\n\t\t\tthis.resolvedProperty = nodeProperty;\n\n\t\t} else if ( Array.isArray( nodeProperty ) ) {\n\n\t\t\tbindingType = this.BindingType.EntireArray;\n\n\t\t\tthis.resolvedProperty = nodeProperty;\n\n\t\t} else {\n\n\t\t\tthis.propertyName = propertyName;\n\n\t\t}\n\n\t\t// select getter / setter\n\t\tthis.getValue = this.GetterByBindingType[ bindingType ];\n\t\tthis.setValue = this.SetterByBindingTypeAndVersioning[ bindingType ][ versioning ];\n\n\t}\n\n\t/**\n\t * Unbinds the property.\n\t */\n\tunbind() {\n\n\t\tthis.node = null;\n\n\t\t// back to the prototype version of getValue / setValue\n\t\t// note: avoiding to mutate the shape of 'this' via 'delete'\n\t\tthis.getValue = this._getValue_unbound;\n\t\tthis.setValue = this._setValue_unbound;\n\n\t}\n\n}\n\nPropertyBinding.Composite = Composite;\n\nPropertyBinding.prototype.BindingType = {\n\tDirect: 0,\n\tEntireArray: 1,\n\tArrayElement: 2,\n\tHasFromToArray: 3\n};\n\nPropertyBinding.prototype.Versioning = {\n\tNone: 0,\n\tNeedsUpdate: 1,\n\tMatrixWorldNeedsUpdate: 2\n};\n\nPropertyBinding.prototype.GetterByBindingType = [\n\n\tPropertyBinding.prototype._getValue_direct,\n\tPropertyBinding.prototype._getValue_array,\n\tPropertyBinding.prototype._getValue_arrayElement,\n\tPropertyBinding.prototype._getValue_toArray,\n\n];\n\nPropertyBinding.prototype.SetterByBindingTypeAndVersioning = [\n\n\t[\n\t\t// Direct\n\t\tPropertyBinding.prototype._setValue_direct,\n\t\tPropertyBinding.prototype._setValue_direct_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_direct_setMatrixWorldNeedsUpdate,\n\n\t], [\n\n\t\t// EntireArray\n\n\t\tPropertyBinding.prototype._setValue_array,\n\t\tPropertyBinding.prototype._setValue_array_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_array_setMatrixWorldNeedsUpdate,\n\n\t], [\n\n\t\t// ArrayElement\n\t\tPropertyBinding.prototype._setValue_arrayElement,\n\t\tPropertyBinding.prototype._setValue_arrayElement_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_arrayElement_setMatrixWorldNeedsUpdate,\n\n\t], [\n\n\t\t// HasToFromArray\n\t\tPropertyBinding.prototype._setValue_fromArray,\n\t\tPropertyBinding.prototype._setValue_fromArray_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_fromArray_setMatrixWorldNeedsUpdate,\n\n\t]\n\n];\n\n/**\n * A group of objects that receives a shared animation state.\n *\n * Usage:\n *\n * - Add objects you would otherwise pass as 'root' to the\n * constructor or the .clipAction method of AnimationMixer.\n * - Instead pass this object as 'root'.\n * - You can also add and remove objects later when the mixer is running.\n *\n * Note:\n *\n * - Objects of this class appear as one object to the mixer,\n * so cache control of the individual objects must be done on the group.\n *\n * Limitation:\n *\n * - The animated properties must be compatible among the all objects in the group.\n * - A single property can either be controlled through a target group or directly, but not both.\n */\nclass AnimationObjectGroup {\n\n\t/**\n\t * Constructs a new animation group.\n\t *\n\t * @param {...Object3D} arguments - An arbitrary number of 3D objects that share the same animation state.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isAnimationObjectGroup = true;\n\n\t\t/**\n\t\t * The UUID of the 3D object.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t// cached objects followed by the active ones\n\t\tthis._objects = Array.prototype.slice.call( arguments );\n\n\t\tthis.nCachedObjects_ = 0; // threshold\n\t\t// note: read by PropertyBinding.Composite\n\n\t\tconst indices = {};\n\t\tthis._indicesByUUID = indices; // for bookkeeping\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tindices[ arguments[ i ].uuid ] = i;\n\n\t\t}\n\n\t\tthis._paths = []; // inside: string\n\t\tthis._parsedPaths = []; // inside: { we don't care, here }\n\t\tthis._bindings = []; // inside: Array< PropertyBinding >\n\t\tthis._bindingsIndicesByPath = {}; // inside: indices in these arrays\n\n\t\tconst scope = this;\n\n\t\tthis.stats = {\n\n\t\t\tobjects: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._objects.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn this.total - scope.nCachedObjects_;\n\n\t\t\t\t}\n\t\t\t},\n\t\t\tget bindingsPerObject() {\n\n\t\t\t\treturn scope._bindings.length;\n\n\t\t\t}\n\n\t\t};\n\n\t}\n\n\t/**\n\t * Adds an arbitrary number of objects to this animation group.\n\t *\n\t * @param {...Object3D} arguments - The 3D objects to add.\n\t */\n\tadd() {\n\n\t\tconst objects = this._objects,\n\t\t\tindicesByUUID = this._indicesByUUID,\n\t\t\tpaths = this._paths,\n\t\t\tparsedPaths = this._parsedPaths,\n\t\t\tbindings = this._bindings,\n\t\t\tnBindings = bindings.length;\n\n\t\tlet knownObject = undefined,\n\t\t\tnObjects = objects.length,\n\t\t\tnCachedObjects = this.nCachedObjects_;\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tconst object = arguments[ i ],\n\t\t\t\tuuid = object.uuid;\n\t\t\tlet index = indicesByUUID[ uuid ];\n\n\t\t\tif ( index === undefined ) {\n\n\t\t\t\t// unknown object -> add it to the ACTIVE region\n\n\t\t\t\tindex = nObjects ++;\n\t\t\t\tindicesByUUID[ uuid ] = index;\n\t\t\t\tobjects.push( object );\n\n\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\tbindings[ j ].push( new PropertyBinding( object, paths[ j ], parsedPaths[ j ] ) );\n\n\t\t\t\t}\n\n\t\t\t} else if ( index < nCachedObjects ) {\n\n\t\t\t\tknownObject = objects[ index ];\n\n\t\t\t\t// move existing object to the ACTIVE region\n\n\t\t\t\tconst firstActiveIndex = -- nCachedObjects,\n\t\t\t\t\tlastCachedObject = objects[ firstActiveIndex ];\n\n\t\t\t\tindicesByUUID[ lastCachedObject.uuid ] = index;\n\t\t\t\tobjects[ index ] = lastCachedObject;\n\n\t\t\t\tindicesByUUID[ uuid ] = firstActiveIndex;\n\t\t\t\tobjects[ firstActiveIndex ] = object;\n\n\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\tconst bindingsForPath = bindings[ j ],\n\t\t\t\t\t\tlastCached = bindingsForPath[ firstActiveIndex ];\n\n\t\t\t\t\tlet binding = bindingsForPath[ index ];\n\n\t\t\t\t\tbindingsForPath[ index ] = lastCached;\n\n\t\t\t\t\tif ( binding === undefined ) {\n\n\t\t\t\t\t\t// since we do not bother to create new bindings\n\t\t\t\t\t\t// for objects that are cached, the binding may\n\t\t\t\t\t\t// or may not exist\n\n\t\t\t\t\t\tbinding = new PropertyBinding( object, paths[ j ], parsedPaths[ j ] );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbindingsForPath[ firstActiveIndex ] = binding;\n\n\t\t\t\t}\n\n\t\t\t} else if ( objects[ index ] !== knownObject ) {\n\n\t\t\t\tconsole.error( 'THREE.AnimationObjectGroup: Different objects with the same UUID ' +\n\t\t\t\t\t'detected. Clean the caches or recreate your infrastructure when reloading scenes.' );\n\n\t\t\t} // else the object is already where we want it to be\n\n\t\t} // for arguments\n\n\t\tthis.nCachedObjects_ = nCachedObjects;\n\n\t}\n\n\t/**\n\t * Removes an arbitrary number of objects to this animation group\n\t *\n\t * @param {...Object3D} arguments - The 3D objects to remove.\n\t */\n\tremove() {\n\n\t\tconst objects = this._objects,\n\t\t\tindicesByUUID = this._indicesByUUID,\n\t\t\tbindings = this._bindings,\n\t\t\tnBindings = bindings.length;\n\n\t\tlet nCachedObjects = this.nCachedObjects_;\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tconst object = arguments[ i ],\n\t\t\t\tuuid = object.uuid,\n\t\t\t\tindex = indicesByUUID[ uuid ];\n\n\t\t\tif ( index !== undefined && index >= nCachedObjects ) {\n\n\t\t\t\t// move existing object into the CACHED region\n\n\t\t\t\tconst lastCachedIndex = nCachedObjects ++,\n\t\t\t\t\tfirstActiveObject = objects[ lastCachedIndex ];\n\n\t\t\t\tindicesByUUID[ firstActiveObject.uuid ] = index;\n\t\t\t\tobjects[ index ] = firstActiveObject;\n\n\t\t\t\tindicesByUUID[ uuid ] = lastCachedIndex;\n\t\t\t\tobjects[ lastCachedIndex ] = object;\n\n\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\tconst bindingsForPath = bindings[ j ],\n\t\t\t\t\t\tfirstActive = bindingsForPath[ lastCachedIndex ],\n\t\t\t\t\t\tbinding = bindingsForPath[ index ];\n\n\t\t\t\t\tbindingsForPath[ index ] = firstActive;\n\t\t\t\t\tbindingsForPath[ lastCachedIndex ] = binding;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} // for arguments\n\n\t\tthis.nCachedObjects_ = nCachedObjects;\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for the passed 3D objects of this animation group.\n\t *\n\t * @param {...Object3D} arguments - The 3D objects to uncache.\n\t */\n\tuncache() {\n\n\t\tconst objects = this._objects,\n\t\t\tindicesByUUID = this._indicesByUUID,\n\t\t\tbindings = this._bindings,\n\t\t\tnBindings = bindings.length;\n\n\t\tlet nCachedObjects = this.nCachedObjects_,\n\t\t\tnObjects = objects.length;\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tconst object = arguments[ i ],\n\t\t\t\tuuid = object.uuid,\n\t\t\t\tindex = indicesByUUID[ uuid ];\n\n\t\t\tif ( index !== undefined ) {\n\n\t\t\t\tdelete indicesByUUID[ uuid ];\n\n\t\t\t\tif ( index < nCachedObjects ) {\n\n\t\t\t\t\t// object is cached, shrink the CACHED region\n\n\t\t\t\t\tconst firstActiveIndex = -- nCachedObjects,\n\t\t\t\t\t\tlastCachedObject = objects[ firstActiveIndex ],\n\t\t\t\t\t\tlastIndex = -- nObjects,\n\t\t\t\t\t\tlastObject = objects[ lastIndex ];\n\n\t\t\t\t\t// last cached object takes this object's place\n\t\t\t\t\tindicesByUUID[ lastCachedObject.uuid ] = index;\n\t\t\t\t\tobjects[ index ] = lastCachedObject;\n\n\t\t\t\t\t// last object goes to the activated slot and pop\n\t\t\t\t\tindicesByUUID[ lastObject.uuid ] = firstActiveIndex;\n\t\t\t\t\tobjects[ firstActiveIndex ] = lastObject;\n\t\t\t\t\tobjects.pop();\n\n\t\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\t\tconst bindingsForPath = bindings[ j ],\n\t\t\t\t\t\t\tlastCached = bindingsForPath[ firstActiveIndex ],\n\t\t\t\t\t\t\tlast = bindingsForPath[ lastIndex ];\n\n\t\t\t\t\t\tbindingsForPath[ index ] = lastCached;\n\t\t\t\t\t\tbindingsForPath[ firstActiveIndex ] = last;\n\t\t\t\t\t\tbindingsForPath.pop();\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// object is active, just swap with the last and pop\n\n\t\t\t\t\tconst lastIndex = -- nObjects,\n\t\t\t\t\t\tlastObject = objects[ lastIndex ];\n\n\t\t\t\t\tif ( lastIndex > 0 ) {\n\n\t\t\t\t\t\tindicesByUUID[ lastObject.uuid ] = index;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tobjects[ index ] = lastObject;\n\t\t\t\t\tobjects.pop();\n\n\t\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\t\tconst bindingsForPath = bindings[ j ];\n\n\t\t\t\t\t\tbindingsForPath[ index ] = bindingsForPath[ lastIndex ];\n\t\t\t\t\t\tbindingsForPath.pop();\n\n\t\t\t\t\t}\n\n\t\t\t\t} // cached or active\n\n\t\t\t} // if object is known\n\n\t\t} // for arguments\n\n\t\tthis.nCachedObjects_ = nCachedObjects;\n\n\t}\n\n\t// Internal interface used by befriended PropertyBinding.Composite:\n\n\tsubscribe_( path, parsedPath ) {\n\n\t\t// returns an array of bindings for the given path that is changed\n\t\t// according to the contained objects in the group\n\n\t\tconst indicesByPath = this._bindingsIndicesByPath;\n\t\tlet index = indicesByPath[ path ];\n\t\tconst bindings = this._bindings;\n\n\t\tif ( index !== undefined ) return bindings[ index ];\n\n\t\tconst paths = this._paths,\n\t\t\tparsedPaths = this._parsedPaths,\n\t\t\tobjects = this._objects,\n\t\t\tnObjects = objects.length,\n\t\t\tnCachedObjects = this.nCachedObjects_,\n\t\t\tbindingsForPath = new Array( nObjects );\n\n\t\tindex = bindings.length;\n\n\t\tindicesByPath[ path ] = index;\n\n\t\tpaths.push( path );\n\t\tparsedPaths.push( parsedPath );\n\t\tbindings.push( bindingsForPath );\n\n\t\tfor ( let i = nCachedObjects, n = objects.length; i !== n; ++ i ) {\n\n\t\t\tconst object = objects[ i ];\n\t\t\tbindingsForPath[ i ] = new PropertyBinding( object, path, parsedPath );\n\n\t\t}\n\n\t\treturn bindingsForPath;\n\n\t}\n\n\tunsubscribe_( path ) {\n\n\t\t// tells the group to forget about a property path and no longer\n\t\t// update the array previously obtained with 'subscribe_'\n\n\t\tconst indicesByPath = this._bindingsIndicesByPath,\n\t\t\tindex = indicesByPath[ path ];\n\n\t\tif ( index !== undefined ) {\n\n\t\t\tconst paths = this._paths,\n\t\t\t\tparsedPaths = this._parsedPaths,\n\t\t\t\tbindings = this._bindings,\n\t\t\t\tlastBindingsIndex = bindings.length - 1,\n\t\t\t\tlastBindings = bindings[ lastBindingsIndex ],\n\t\t\t\tlastBindingsPath = path[ lastBindingsIndex ];\n\n\t\t\tindicesByPath[ lastBindingsPath ] = index;\n\n\t\t\tbindings[ index ] = lastBindings;\n\t\t\tbindings.pop();\n\n\t\t\tparsedPaths[ index ] = parsedPaths[ lastBindingsIndex ];\n\t\t\tparsedPaths.pop();\n\n\t\t\tpaths[ index ] = paths[ lastBindingsIndex ];\n\t\t\tpaths.pop();\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * An instance of `AnimationAction` schedules the playback of an animation which is\n * stored in {@link AnimationClip}.\n */\nclass AnimationAction {\n\n\t/**\n\t * Constructs a new animation action.\n\t *\n\t * @param {AnimationMixer} mixer - The mixer that is controlled by this action.\n\t * @param {AnimationClip} clip - The animation clip that holds the actual keyframes.\n\t * @param {?Object3D} [localRoot=null] - The root object on which this action is performed.\n\t * @param {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)} [blendMode] - The blend mode.\n\t */\n\tconstructor( mixer, clip, localRoot = null, blendMode = clip.blendMode ) {\n\n\t\tthis._mixer = mixer;\n\t\tthis._clip = clip;\n\t\tthis._localRoot = localRoot;\n\n\t\t/**\n\t\t * Defines how the animation is blended/combined when two or more animations\n\t\t * are simultaneously played.\n\t\t *\n\t\t * @type {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)}\n\t\t */\n\t\tthis.blendMode = blendMode;\n\n\t\tconst tracks = clip.tracks,\n\t\t\tnTracks = tracks.length,\n\t\t\tinterpolants = new Array( nTracks );\n\n\t\tconst interpolantSettings = {\n\t\t\tendingStart: ZeroCurvatureEnding,\n\t\t\tendingEnd: ZeroCurvatureEnding\n\t\t};\n\n\t\tfor ( let i = 0; i !== nTracks; ++ i ) {\n\n\t\t\tconst interpolant = tracks[ i ].createInterpolant( null );\n\t\t\tinterpolants[ i ] = interpolant;\n\t\t\tinterpolant.settings = interpolantSettings;\n\n\t\t}\n\n\t\tthis._interpolantSettings = interpolantSettings;\n\n\t\tthis._interpolants = interpolants; // bound by the mixer\n\n\t\t// inside: PropertyMixer (managed by the mixer)\n\t\tthis._propertyBindings = new Array( nTracks );\n\n\t\tthis._cacheIndex = null; // for the memory manager\n\t\tthis._byClipCacheIndex = null; // for the memory manager\n\n\t\tthis._timeScaleInterpolant = null;\n\t\tthis._weightInterpolant = null;\n\n\t\t/**\n\t\t * The loop mode, set via {@link AnimationAction#setLoop}.\n\t\t *\n\t\t * @type {(LoopRepeat|LoopOnce|LoopPingPong)}\n\t\t * @default LoopRepeat\n\t\t */\n\t\tthis.loop = LoopRepeat;\n\t\tthis._loopCount = -1;\n\n\t\t// global mixer time when the action is to be started\n\t\t// it's set back to 'null' upon start of the action\n\t\tthis._startTime = null;\n\n\t\t/**\n\t\t * The local time of this action (in seconds, starting with `0`).\n\t\t *\n\t\t * The value gets clamped or wrapped to `[0,clip.duration]` (according to the\n\t\t * loop state).\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.time = 0;\n\n\t\t/**\n\t\t * Scaling factor for the {@link AnimationAction#time}. A value of `0` causes the\n\t\t * animation to pause. Negative values cause the animation to play backwards.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.timeScale = 1;\n\t\tthis._effectiveTimeScale = 1;\n\n\t\t/**\n\t\t * The degree of influence of this action (in the interval `[0, 1]`). Values\n\t\t * between `0` (no impact) and `1` (full impact) can be used to blend between\n\t\t * several actions.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.weight = 1;\n\t\tthis._effectiveWeight = 1;\n\n\t\t/**\n\t\t * The number of repetitions of the performed clip over the course of this action.\n\t\t * Can be set via {@link AnimationAction#setLoop}.\n\t\t *\n\t\t * Setting this number has no effect if {@link AnimationAction#loop} is set to\n\t\t * `THREE:LoopOnce`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.repetitions = Infinity;\n\n\t\t/**\n\t\t * If set to `true`, the playback of the action is paused.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.paused = false;\n\n\t\t/**\n\t\t * If set to `false`, the action is disabled so it has no impact.\n\t\t *\n\t\t * When the action is re-enabled, the animation continues from its current\n\t\t * time (setting `enabled` to `false` doesn't reset the action).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.enabled = true;\n\n\t\t/**\n\t\t * If set to true the animation will automatically be paused on its last frame.\n\t\t *\n\t\t * If set to false, {@link AnimationAction#enabled} will automatically be switched\n\t\t * to `false` when the last loop of the action has finished, so that this action has\n\t\t * no further impact.\n\t\t *\n\t\t * Note: This member has no impact if the action is interrupted (it\n\t\t * has only an effect if its last loop has really finished).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clampWhenFinished = false;\n\n\t\t/**\n\t\t * Enables smooth interpolation without separate clips for start, loop and end.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.zeroSlopeAtStart = true;\n\n\t\t/**\n\t\t * Enables smooth interpolation without separate clips for start, loop and end.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.zeroSlopeAtEnd = true;\n\n\t}\n\n\t/**\n\t * Starts the playback of the animation.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tplay() {\n\n\t\tthis._mixer._activateAction( this );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Stops the playback of the animation.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstop() {\n\n\t\tthis._mixer._deactivateAction( this );\n\n\t\treturn this.reset();\n\n\t}\n\n\t/**\n\t * Resets the playback of the animation.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\treset() {\n\n\t\tthis.paused = false;\n\t\tthis.enabled = true;\n\n\t\tthis.time = 0; // restart clip\n\t\tthis._loopCount = -1;// forget previous loops\n\t\tthis._startTime = null;// forget scheduling\n\n\t\treturn this.stopFading().stopWarping();\n\n\t}\n\n\t/**\n\t * Returns `true` if the animation is running.\n\t *\n\t * @return {boolean} Whether the animation is running or not.\n\t */\n\tisRunning() {\n\n\t\treturn this.enabled && ! this.paused && this.timeScale !== 0 &&\n\t\t\tthis._startTime === null && this._mixer._isActiveAction( this );\n\n\t}\n\n\t/**\n\t * Returns `true` when {@link AnimationAction#play} has been called.\n\t *\n\t * @return {boolean} Whether the animation is scheduled or not.\n\t */\n\tisScheduled() {\n\n\t\treturn this._mixer._isActiveAction( this );\n\n\t}\n\n\t/**\n\t * Defines the time when the animation should start.\n\t *\n\t * @param {number} time - The start time in seconds.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstartAt( time ) {\n\n\t\tthis._startTime = time;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Configures the loop settings for this action.\n\t *\n\t * @param {(LoopRepeat|LoopOnce|LoopPingPong)} mode - The loop mode.\n\t * @param {number} repetitions - The number of repetitions.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetLoop( mode, repetitions ) {\n\n\t\tthis.loop = mode;\n\t\tthis.repetitions = repetitions;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the effective weight of this action.\n\t *\n\t * An action has no effect and thus an effective weight of zero when the\n\t * action is disabled.\n\t *\n\t * @param {number} weight - The weight to set.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetEffectiveWeight( weight ) {\n\n\t\tthis.weight = weight;\n\n\t\t// note: same logic as when updated at runtime\n\t\tthis._effectiveWeight = this.enabled ? weight : 0;\n\n\t\treturn this.stopFading();\n\n\t}\n\n\t/**\n\t * Returns the effective weight of this action.\n\t *\n\t * @return {number} The effective weight.\n\t */\n\tgetEffectiveWeight() {\n\n\t\treturn this._effectiveWeight;\n\n\t}\n\n\t/**\n\t * Fades the animation in by increasing its weight gradually from `0` to `1`,\n\t * within the passed time interval.\n\t *\n\t * @param {number} duration - The duration of the fade.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tfadeIn( duration ) {\n\n\t\treturn this._scheduleFading( duration, 0, 1 );\n\n\t}\n\n\t/**\n\t * Fades the animation out by decreasing its weight gradually from `1` to `0`,\n\t * within the passed time interval.\n\t *\n\t * @param {number} duration - The duration of the fade.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tfadeOut( duration ) {\n\n\t\treturn this._scheduleFading( duration, 1, 0 );\n\n\t}\n\n\t/**\n\t * Causes this action to fade in and the given action to fade out,\n\t * within the passed time interval.\n\t *\n\t * @param {AnimationAction} fadeOutAction - The animation action to fade out.\n\t * @param {number} duration - The duration of the fade.\n\t * @param {boolean} [warp=false] - Whether warping should be used or not.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tcrossFadeFrom( fadeOutAction, duration, warp = false ) {\n\n\t\tfadeOutAction.fadeOut( duration );\n\t\tthis.fadeIn( duration );\n\n\t\tif ( warp === true ) {\n\n\t\t\tconst fadeInDuration = this._clip.duration,\n\t\t\t\tfadeOutDuration = fadeOutAction._clip.duration,\n\n\t\t\t\tstartEndRatio = fadeOutDuration / fadeInDuration,\n\t\t\t\tendStartRatio = fadeInDuration / fadeOutDuration;\n\n\t\t\tfadeOutAction.warp( 1.0, startEndRatio, duration );\n\t\t\tthis.warp( endStartRatio, 1.0, duration );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Causes this action to fade out and the given action to fade in,\n\t * within the passed time interval.\n\t *\n\t * @param {AnimationAction} fadeInAction - The animation action to fade in.\n\t * @param {number} duration - The duration of the fade.\n\t * @param {boolean} [warp=false] - Whether warping should be used or not.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tcrossFadeTo( fadeInAction, duration, warp = false ) {\n\n\t\treturn fadeInAction.crossFadeFrom( this, duration, warp );\n\n\t}\n\n\t/**\n\t * Stops any fading which is applied to this action.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstopFading() {\n\n\t\tconst weightInterpolant = this._weightInterpolant;\n\n\t\tif ( weightInterpolant !== null ) {\n\n\t\t\tthis._weightInterpolant = null;\n\t\t\tthis._mixer._takeBackControlInterpolant( weightInterpolant );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the effective time scale of this action.\n\t *\n\t * An action has no effect and thus an effective time scale of zero when the\n\t * action is paused.\n\t *\n\t * @param {number} timeScale - The time scale to set.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetEffectiveTimeScale( timeScale ) {\n\n\t\tthis.timeScale = timeScale;\n\t\tthis._effectiveTimeScale = this.paused ? 0 : timeScale;\n\n\t\treturn this.stopWarping();\n\n\t}\n\n\t/**\n\t * Returns the effective time scale of this action.\n\t *\n\t * @return {number} The effective time scale.\n\t */\n\tgetEffectiveTimeScale() {\n\n\t\treturn this._effectiveTimeScale;\n\n\t}\n\n\t/**\n\t * Sets the duration for a single loop of this action.\n\t *\n\t * @param {number} duration - The duration to set.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetDuration( duration ) {\n\n\t\tthis.timeScale = this._clip.duration / duration;\n\n\t\treturn this.stopWarping();\n\n\t}\n\n\t/**\n\t * Synchronizes this action with the passed other action.\n\t *\n\t * @param {AnimationAction} action - The action to sync with.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsyncWith( action ) {\n\n\t\tthis.time = action.time;\n\t\tthis.timeScale = action.timeScale;\n\n\t\treturn this.stopWarping();\n\n\t}\n\n\t/**\n\t * Decelerates this animation's speed to `0` within the passed time interval.\n\t *\n\t * @param {number} duration - The duration.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\thalt( duration ) {\n\n\t\treturn this.warp( this._effectiveTimeScale, 0, duration );\n\n\t}\n\n\t/**\n\t * Changes the playback speed, within the passed time interval, by modifying\n\t * {@link AnimationAction#timeScale} gradually from `startTimeScale` to\n\t * `endTimeScale`.\n\t *\n\t * @param {number} startTimeScale - The start time scale.\n\t * @param {number} endTimeScale - The end time scale.\n\t * @param {number} duration - The duration.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\twarp( startTimeScale, endTimeScale, duration ) {\n\n\t\tconst mixer = this._mixer,\n\t\t\tnow = mixer.time,\n\t\t\ttimeScale = this.timeScale;\n\n\t\tlet interpolant = this._timeScaleInterpolant;\n\n\t\tif ( interpolant === null ) {\n\n\t\t\tinterpolant = mixer._lendControlInterpolant();\n\t\t\tthis._timeScaleInterpolant = interpolant;\n\n\t\t}\n\n\t\tconst times = interpolant.parameterPositions,\n\t\t\tvalues = interpolant.sampleValues;\n\n\t\ttimes[ 0 ] = now;\n\t\ttimes[ 1 ] = now + duration;\n\n\t\tvalues[ 0 ] = startTimeScale / timeScale;\n\t\tvalues[ 1 ] = endTimeScale / timeScale;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Stops any scheduled warping which is applied to this action.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstopWarping() {\n\n\t\tconst timeScaleInterpolant = this._timeScaleInterpolant;\n\n\t\tif ( timeScaleInterpolant !== null ) {\n\n\t\t\tthis._timeScaleInterpolant = null;\n\t\t\tthis._mixer._takeBackControlInterpolant( timeScaleInterpolant );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the animation mixer of this animation action.\n\t *\n\t * @return {AnimationMixer} The animation mixer.\n\t */\n\tgetMixer() {\n\n\t\treturn this._mixer;\n\n\t}\n\n\t/**\n\t * Returns the animation clip of this animation action.\n\t *\n\t * @return {AnimationClip} The animation clip.\n\t */\n\tgetClip() {\n\n\t\treturn this._clip;\n\n\t}\n\n\t/**\n\t * Returns the root object of this animation action.\n\t *\n\t * @return {Object3D} The root object.\n\t */\n\tgetRoot() {\n\n\t\treturn this._localRoot || this._mixer._root;\n\n\t}\n\n\t// Interna\n\n\t_update( time, deltaTime, timeDirection, accuIndex ) {\n\n\t\t// called by the mixer\n\n\t\tif ( ! this.enabled ) {\n\n\t\t\t// call ._updateWeight() to update ._effectiveWeight\n\n\t\t\tthis._updateWeight( time );\n\t\t\treturn;\n\n\t\t}\n\n\t\tconst startTime = this._startTime;\n\n\t\tif ( startTime !== null ) {\n\n\t\t\t// check for scheduled start of action\n\n\t\t\tconst timeRunning = ( time - startTime ) * timeDirection;\n\t\t\tif ( timeRunning < 0 || timeDirection === 0 ) {\n\n\t\t\t\tdeltaTime = 0;\n\n\t\t\t} else {\n\n\n\t\t\t\tthis._startTime = null; // unschedule\n\t\t\t\tdeltaTime = timeDirection * timeRunning;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// apply time scale and advance time\n\n\t\tdeltaTime *= this._updateTimeScale( time );\n\t\tconst clipTime = this._updateTime( deltaTime );\n\n\t\t// note: _updateTime may disable the action resulting in\n\t\t// an effective weight of 0\n\n\t\tconst weight = this._updateWeight( time );\n\n\t\tif ( weight > 0 ) {\n\n\t\t\tconst interpolants = this._interpolants;\n\t\t\tconst propertyMixers = this._propertyBindings;\n\n\t\t\tswitch ( this.blendMode ) {\n\n\t\t\t\tcase AdditiveAnimationBlendMode:\n\n\t\t\t\t\tfor ( let j = 0, m = interpolants.length; j !== m; ++ j ) {\n\n\t\t\t\t\t\tinterpolants[ j ].evaluate( clipTime );\n\t\t\t\t\t\tpropertyMixers[ j ].accumulateAdditive( weight );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase NormalAnimationBlendMode:\n\t\t\t\tdefault:\n\n\t\t\t\t\tfor ( let j = 0, m = interpolants.length; j !== m; ++ j ) {\n\n\t\t\t\t\t\tinterpolants[ j ].evaluate( clipTime );\n\t\t\t\t\t\tpropertyMixers[ j ].accumulate( accuIndex, weight );\n\n\t\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_updateWeight( time ) {\n\n\t\tlet weight = 0;\n\n\t\tif ( this.enabled ) {\n\n\t\t\tweight = this.weight;\n\t\t\tconst interpolant = this._weightInterpolant;\n\n\t\t\tif ( interpolant !== null ) {\n\n\t\t\t\tconst interpolantValue = interpolant.evaluate( time )[ 0 ];\n\n\t\t\t\tweight *= interpolantValue;\n\n\t\t\t\tif ( time > interpolant.parameterPositions[ 1 ] ) {\n\n\t\t\t\t\tthis.stopFading();\n\n\t\t\t\t\tif ( interpolantValue === 0 ) {\n\n\t\t\t\t\t\t// faded out, disable\n\t\t\t\t\t\tthis.enabled = false;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis._effectiveWeight = weight;\n\t\treturn weight;\n\n\t}\n\n\t_updateTimeScale( time ) {\n\n\t\tlet timeScale = 0;\n\n\t\tif ( ! this.paused ) {\n\n\t\t\ttimeScale = this.timeScale;\n\n\t\t\tconst interpolant = this._timeScaleInterpolant;\n\n\t\t\tif ( interpolant !== null ) {\n\n\t\t\t\tconst interpolantValue = interpolant.evaluate( time )[ 0 ];\n\n\t\t\t\ttimeScale *= interpolantValue;\n\n\t\t\t\tif ( time > interpolant.parameterPositions[ 1 ] ) {\n\n\t\t\t\t\tthis.stopWarping();\n\n\t\t\t\t\tif ( timeScale === 0 ) {\n\n\t\t\t\t\t\t// motion has halted, pause\n\t\t\t\t\t\tthis.paused = true;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// warp done - apply final time scale\n\t\t\t\t\t\tthis.timeScale = timeScale;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis._effectiveTimeScale = timeScale;\n\t\treturn timeScale;\n\n\t}\n\n\t_updateTime( deltaTime ) {\n\n\t\tconst duration = this._clip.duration;\n\t\tconst loop = this.loop;\n\n\t\tlet time = this.time + deltaTime;\n\t\tlet loopCount = this._loopCount;\n\n\t\tconst pingPong = ( loop === LoopPingPong );\n\n\t\tif ( deltaTime === 0 ) {\n\n\t\t\tif ( loopCount === -1 ) return time;\n\n\t\t\treturn ( pingPong && ( loopCount & 1 ) === 1 ) ? duration - time : time;\n\n\t\t}\n\n\t\tif ( loop === LoopOnce ) {\n\n\t\t\tif ( loopCount === -1 ) {\n\n\t\t\t\t// just started\n\n\t\t\t\tthis._loopCount = 0;\n\t\t\t\tthis._setEndings( true, true, false );\n\n\t\t\t}\n\n\t\t\thandle_stop: {\n\n\t\t\t\tif ( time >= duration ) {\n\n\t\t\t\t\ttime = duration;\n\n\t\t\t\t} else if ( time < 0 ) {\n\n\t\t\t\t\ttime = 0;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis.time = time;\n\n\t\t\t\t\tbreak handle_stop;\n\n\t\t\t\t}\n\n\t\t\t\tif ( this.clampWhenFinished ) this.paused = true;\n\t\t\t\telse this.enabled = false;\n\n\t\t\t\tthis.time = time;\n\n\t\t\t\tthis._mixer.dispatchEvent( {\n\t\t\t\t\ttype: 'finished', action: this,\n\t\t\t\t\tdirection: deltaTime < 0 ? -1 : 1\n\t\t\t\t} );\n\n\t\t\t}\n\n\t\t} else { // repetitive Repeat or PingPong\n\n\t\t\tif ( loopCount === -1 ) {\n\n\t\t\t\t// just started\n\n\t\t\t\tif ( deltaTime >= 0 ) {\n\n\t\t\t\t\tloopCount = 0;\n\n\t\t\t\t\tthis._setEndings( true, this.repetitions === 0, pingPong );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// when looping in reverse direction, the initial\n\t\t\t\t\t// transition through zero counts as a repetition,\n\t\t\t\t\t// so leave loopCount at -1\n\n\t\t\t\t\tthis._setEndings( this.repetitions === 0, true, pingPong );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( time >= duration || time < 0 ) {\n\n\t\t\t\t// wrap around\n\n\t\t\t\tconst loopDelta = Math.floor( time / duration ); // signed\n\t\t\t\ttime -= duration * loopDelta;\n\n\t\t\t\tloopCount += Math.abs( loopDelta );\n\n\t\t\t\tconst pending = this.repetitions - loopCount;\n\n\t\t\t\tif ( pending <= 0 ) {\n\n\t\t\t\t\t// have to stop (switch state, clamp time, fire event)\n\n\t\t\t\t\tif ( this.clampWhenFinished ) this.paused = true;\n\t\t\t\t\telse this.enabled = false;\n\n\t\t\t\t\ttime = deltaTime > 0 ? duration : 0;\n\n\t\t\t\t\tthis.time = time;\n\n\t\t\t\t\tthis._mixer.dispatchEvent( {\n\t\t\t\t\t\ttype: 'finished', action: this,\n\t\t\t\t\t\tdirection: deltaTime > 0 ? 1 : -1\n\t\t\t\t\t} );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// keep running\n\n\t\t\t\t\tif ( pending === 1 ) {\n\n\t\t\t\t\t\t// entering the last round\n\n\t\t\t\t\t\tconst atStart = deltaTime < 0;\n\t\t\t\t\t\tthis._setEndings( atStart, ! atStart, pingPong );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tthis._setEndings( false, false, pingPong );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tthis._loopCount = loopCount;\n\n\t\t\t\t\tthis.time = time;\n\n\t\t\t\t\tthis._mixer.dispatchEvent( {\n\t\t\t\t\t\ttype: 'loop', action: this, loopDelta: loopDelta\n\t\t\t\t\t} );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tthis.time = time;\n\n\t\t\t}\n\n\t\t\tif ( pingPong && ( loopCount & 1 ) === 1 ) {\n\n\t\t\t\t// invert time for the \"pong round\"\n\n\t\t\t\treturn duration - time;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn time;\n\n\t}\n\n\t_setEndings( atStart, atEnd, pingPong ) {\n\n\t\tconst settings = this._interpolantSettings;\n\n\t\tif ( pingPong ) {\n\n\t\t\tsettings.endingStart = ZeroSlopeEnding;\n\t\t\tsettings.endingEnd = ZeroSlopeEnding;\n\n\t\t} else {\n\n\t\t\t// assuming for LoopOnce atStart == atEnd == true\n\n\t\t\tif ( atStart ) {\n\n\t\t\t\tsettings.endingStart = this.zeroSlopeAtStart ? ZeroSlopeEnding : ZeroCurvatureEnding;\n\n\t\t\t} else {\n\n\t\t\t\tsettings.endingStart = WrapAroundEnding;\n\n\t\t\t}\n\n\t\t\tif ( atEnd ) {\n\n\t\t\t\tsettings.endingEnd = this.zeroSlopeAtEnd ? ZeroSlopeEnding : ZeroCurvatureEnding;\n\n\t\t\t} else {\n\n\t\t\t\tsettings.endingEnd \t = WrapAroundEnding;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_scheduleFading( duration, weightNow, weightThen ) {\n\n\t\tconst mixer = this._mixer, now = mixer.time;\n\t\tlet interpolant = this._weightInterpolant;\n\n\t\tif ( interpolant === null ) {\n\n\t\t\tinterpolant = mixer._lendControlInterpolant();\n\t\t\tthis._weightInterpolant = interpolant;\n\n\t\t}\n\n\t\tconst times = interpolant.parameterPositions,\n\t\t\tvalues = interpolant.sampleValues;\n\n\t\ttimes[ 0 ] = now;\n\t\tvalues[ 0 ] = weightNow;\n\t\ttimes[ 1 ] = now + duration;\n\t\tvalues[ 1 ] = weightThen;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _controlInterpolantsResultBuffer = new Float32Array( 1 );\n\n/**\n * `AnimationMixer` is a player for animations on a particular object in\n * the scene. When multiple objects in the scene are animated independently,\n * one `AnimationMixer` may be used for each object.\n */\nclass AnimationMixer extends EventDispatcher {\n\n\t/**\n\t * Constructs a new animation mixer.\n\t *\n\t * @param {Object3D} root - The object whose animations shall be played by this mixer.\n\t */\n\tconstructor( root ) {\n\n\t\tsuper();\n\n\t\tthis._root = root;\n\t\tthis._initMemoryManager();\n\t\tthis._accuIndex = 0;\n\n\t\t/**\n\t\t * The global mixer time (in seconds; starting with `0` on the mixer's creation).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.time = 0;\n\n\t\t/**\n\t\t * A scaling factor for the global time.\n\t\t *\n\t\t * Note: Setting this member to `0` and later back to `1` is a\n\t\t * possibility to pause/unpause all actions that are controlled by this\n\t\t * mixer.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.timeScale = 1.0;\n\n\t}\n\n\t_bindAction( action, prototypeAction ) {\n\n\t\tconst root = action._localRoot || this._root,\n\t\t\ttracks = action._clip.tracks,\n\t\t\tnTracks = tracks.length,\n\t\t\tbindings = action._propertyBindings,\n\t\t\tinterpolants = action._interpolants,\n\t\t\trootUuid = root.uuid,\n\t\t\tbindingsByRoot = this._bindingsByRootAndName;\n\n\t\tlet bindingsByName = bindingsByRoot[ rootUuid ];\n\n\t\tif ( bindingsByName === undefined ) {\n\n\t\t\tbindingsByName = {};\n\t\t\tbindingsByRoot[ rootUuid ] = bindingsByName;\n\n\t\t}\n\n\t\tfor ( let i = 0; i !== nTracks; ++ i ) {\n\n\t\t\tconst track = tracks[ i ],\n\t\t\t\ttrackName = track.name;\n\n\t\t\tlet binding = bindingsByName[ trackName ];\n\n\t\t\tif ( binding !== undefined ) {\n\n\t\t\t\t++ binding.referenceCount;\n\t\t\t\tbindings[ i ] = binding;\n\n\t\t\t} else {\n\n\t\t\t\tbinding = bindings[ i ];\n\n\t\t\t\tif ( binding !== undefined ) {\n\n\t\t\t\t\t// existing binding, make sure the cache knows\n\n\t\t\t\t\tif ( binding._cacheIndex === null ) {\n\n\t\t\t\t\t\t++ binding.referenceCount;\n\t\t\t\t\t\tthis._addInactiveBinding( binding, rootUuid, trackName );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tcontinue;\n\n\t\t\t\t}\n\n\t\t\t\tconst path = prototypeAction && prototypeAction.\n\t\t\t\t\t_propertyBindings[ i ].binding.parsedPath;\n\n\t\t\t\tbinding = new PropertyMixer(\n\t\t\t\t\tPropertyBinding.create( root, trackName, path ),\n\t\t\t\t\ttrack.ValueTypeName, track.getValueSize() );\n\n\t\t\t\t++ binding.referenceCount;\n\t\t\t\tthis._addInactiveBinding( binding, rootUuid, trackName );\n\n\t\t\t\tbindings[ i ] = binding;\n\n\t\t\t}\n\n\t\t\tinterpolants[ i ].resultBuffer = binding.buffer;\n\n\t\t}\n\n\t}\n\n\t_activateAction( action ) {\n\n\t\tif ( ! this._isActiveAction( action ) ) {\n\n\t\t\tif ( action._cacheIndex === null ) {\n\n\t\t\t\t// this action has been forgotten by the cache, but the user\n\t\t\t\t// appears to be still using it -> rebind\n\n\t\t\t\tconst rootUuid = ( action._localRoot || this._root ).uuid,\n\t\t\t\t\tclipUuid = action._clip.uuid,\n\t\t\t\t\tactionsForClip = this._actionsByClip[ clipUuid ];\n\n\t\t\t\tthis._bindAction( action,\n\t\t\t\t\tactionsForClip && actionsForClip.knownActions[ 0 ] );\n\n\t\t\t\tthis._addInactiveAction( action, clipUuid, rootUuid );\n\n\t\t\t}\n\n\t\t\tconst bindings = action._propertyBindings;\n\n\t\t\t// increment reference counts / sort out state\n\t\t\tfor ( let i = 0, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\t\tconst binding = bindings[ i ];\n\n\t\t\t\tif ( binding.useCount ++ === 0 ) {\n\n\t\t\t\t\tthis._lendBinding( binding );\n\t\t\t\t\tbinding.saveOriginalState();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis._lendAction( action );\n\n\t\t}\n\n\t}\n\n\t_deactivateAction( action ) {\n\n\t\tif ( this._isActiveAction( action ) ) {\n\n\t\t\tconst bindings = action._propertyBindings;\n\n\t\t\t// decrement reference counts / sort out state\n\t\t\tfor ( let i = 0, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\t\tconst binding = bindings[ i ];\n\n\t\t\t\tif ( -- binding.useCount === 0 ) {\n\n\t\t\t\t\tbinding.restoreOriginalState();\n\t\t\t\t\tthis._takeBackBinding( binding );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis._takeBackAction( action );\n\n\t\t}\n\n\t}\n\n\t// Memory manager\n\n\t_initMemoryManager() {\n\n\t\tthis._actions = []; // 'nActiveActions' followed by inactive ones\n\t\tthis._nActiveActions = 0;\n\n\t\tthis._actionsByClip = {};\n\t\t// inside:\n\t\t// {\n\t\t// \tknownActions: Array< AnimationAction > - used as prototypes\n\t\t// \tactionByRoot: AnimationAction - lookup\n\t\t// }\n\n\n\t\tthis._bindings = []; // 'nActiveBindings' followed by inactive ones\n\t\tthis._nActiveBindings = 0;\n\n\t\tthis._bindingsByRootAndName = {}; // inside: Map< name, PropertyMixer >\n\n\n\t\tthis._controlInterpolants = []; // same game as above\n\t\tthis._nActiveControlInterpolants = 0;\n\n\t\tconst scope = this;\n\n\t\tthis.stats = {\n\n\t\t\tactions: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._actions.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn scope._nActiveActions;\n\n\t\t\t\t}\n\t\t\t},\n\t\t\tbindings: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._bindings.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn scope._nActiveBindings;\n\n\t\t\t\t}\n\t\t\t},\n\t\t\tcontrolInterpolants: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._controlInterpolants.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn scope._nActiveControlInterpolants;\n\n\t\t\t\t}\n\t\t\t}\n\n\t\t};\n\n\t}\n\n\t// Memory management for AnimationAction objects\n\n\t_isActiveAction( action ) {\n\n\t\tconst index = action._cacheIndex;\n\t\treturn index !== null && index < this._nActiveActions;\n\n\t}\n\n\t_addInactiveAction( action, clipUuid, rootUuid ) {\n\n\t\tconst actions = this._actions,\n\t\t\tactionsByClip = this._actionsByClip;\n\n\t\tlet actionsForClip = actionsByClip[ clipUuid ];\n\n\t\tif ( actionsForClip === undefined ) {\n\n\t\t\tactionsForClip = {\n\n\t\t\t\tknownActions: [ action ],\n\t\t\t\tactionByRoot: {}\n\n\t\t\t};\n\n\t\t\taction._byClipCacheIndex = 0;\n\n\t\t\tactionsByClip[ clipUuid ] = actionsForClip;\n\n\t\t} else {\n\n\t\t\tconst knownActions = actionsForClip.knownActions;\n\n\t\t\taction._byClipCacheIndex = knownActions.length;\n\t\t\tknownActions.push( action );\n\n\t\t}\n\n\t\taction._cacheIndex = actions.length;\n\t\tactions.push( action );\n\n\t\tactionsForClip.actionByRoot[ rootUuid ] = action;\n\n\t}\n\n\t_removeInactiveAction( action ) {\n\n\t\tconst actions = this._actions,\n\t\t\tlastInactiveAction = actions[ actions.length - 1 ],\n\t\t\tcacheIndex = action._cacheIndex;\n\n\t\tlastInactiveAction._cacheIndex = cacheIndex;\n\t\tactions[ cacheIndex ] = lastInactiveAction;\n\t\tactions.pop();\n\n\t\taction._cacheIndex = null;\n\n\n\t\tconst clipUuid = action._clip.uuid,\n\t\t\tactionsByClip = this._actionsByClip,\n\t\t\tactionsForClip = actionsByClip[ clipUuid ],\n\t\t\tknownActionsForClip = actionsForClip.knownActions,\n\n\t\t\tlastKnownAction =\n\t\t\t\tknownActionsForClip[ knownActionsForClip.length - 1 ],\n\n\t\t\tbyClipCacheIndex = action._byClipCacheIndex;\n\n\t\tlastKnownAction._byClipCacheIndex = byClipCacheIndex;\n\t\tknownActionsForClip[ byClipCacheIndex ] = lastKnownAction;\n\t\tknownActionsForClip.pop();\n\n\t\taction._byClipCacheIndex = null;\n\n\n\t\tconst actionByRoot = actionsForClip.actionByRoot,\n\t\t\trootUuid = ( action._localRoot || this._root ).uuid;\n\n\t\tdelete actionByRoot[ rootUuid ];\n\n\t\tif ( knownActionsForClip.length === 0 ) {\n\n\t\t\tdelete actionsByClip[ clipUuid ];\n\n\t\t}\n\n\t\tthis._removeInactiveBindingsForAction( action );\n\n\t}\n\n\t_removeInactiveBindingsForAction( action ) {\n\n\t\tconst bindings = action._propertyBindings;\n\n\t\tfor ( let i = 0, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tconst binding = bindings[ i ];\n\n\t\t\tif ( -- binding.referenceCount === 0 ) {\n\n\t\t\t\tthis._removeInactiveBinding( binding );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_lendAction( action ) {\n\n\t\t// [ active actions | inactive actions ]\n\t\t// [ active actions >| inactive actions ]\n\t\t// s a\n\t\t// <-swap->\n\t\t// a s\n\n\t\tconst actions = this._actions,\n\t\t\tprevIndex = action._cacheIndex,\n\n\t\t\tlastActiveIndex = this._nActiveActions ++,\n\n\t\t\tfirstInactiveAction = actions[ lastActiveIndex ];\n\n\t\taction._cacheIndex = lastActiveIndex;\n\t\tactions[ lastActiveIndex ] = action;\n\n\t\tfirstInactiveAction._cacheIndex = prevIndex;\n\t\tactions[ prevIndex ] = firstInactiveAction;\n\n\t}\n\n\t_takeBackAction( action ) {\n\n\t\t// [ active actions | inactive actions ]\n\t\t// [ active actions |< inactive actions ]\n\t\t// a s\n\t\t// <-swap->\n\t\t// s a\n\n\t\tconst actions = this._actions,\n\t\t\tprevIndex = action._cacheIndex,\n\n\t\t\tfirstInactiveIndex = -- this._nActiveActions,\n\n\t\t\tlastActiveAction = actions[ firstInactiveIndex ];\n\n\t\taction._cacheIndex = firstInactiveIndex;\n\t\tactions[ firstInactiveIndex ] = action;\n\n\t\tlastActiveAction._cacheIndex = prevIndex;\n\t\tactions[ prevIndex ] = lastActiveAction;\n\n\t}\n\n\t// Memory management for PropertyMixer objects\n\n\t_addInactiveBinding( binding, rootUuid, trackName ) {\n\n\t\tconst bindingsByRoot = this._bindingsByRootAndName,\n\t\t\tbindings = this._bindings;\n\n\t\tlet bindingByName = bindingsByRoot[ rootUuid ];\n\n\t\tif ( bindingByName === undefined ) {\n\n\t\t\tbindingByName = {};\n\t\t\tbindingsByRoot[ rootUuid ] = bindingByName;\n\n\t\t}\n\n\t\tbindingByName[ trackName ] = binding;\n\n\t\tbinding._cacheIndex = bindings.length;\n\t\tbindings.push( binding );\n\n\t}\n\n\t_removeInactiveBinding( binding ) {\n\n\t\tconst bindings = this._bindings,\n\t\t\tpropBinding = binding.binding,\n\t\t\trootUuid = propBinding.rootNode.uuid,\n\t\t\ttrackName = propBinding.path,\n\t\t\tbindingsByRoot = this._bindingsByRootAndName,\n\t\t\tbindingByName = bindingsByRoot[ rootUuid ],\n\n\t\t\tlastInactiveBinding = bindings[ bindings.length - 1 ],\n\t\t\tcacheIndex = binding._cacheIndex;\n\n\t\tlastInactiveBinding._cacheIndex = cacheIndex;\n\t\tbindings[ cacheIndex ] = lastInactiveBinding;\n\t\tbindings.pop();\n\n\t\tdelete bindingByName[ trackName ];\n\n\t\tif ( Object.keys( bindingByName ).length === 0 ) {\n\n\t\t\tdelete bindingsByRoot[ rootUuid ];\n\n\t\t}\n\n\t}\n\n\t_lendBinding( binding ) {\n\n\t\tconst bindings = this._bindings,\n\t\t\tprevIndex = binding._cacheIndex,\n\n\t\t\tlastActiveIndex = this._nActiveBindings ++,\n\n\t\t\tfirstInactiveBinding = bindings[ lastActiveIndex ];\n\n\t\tbinding._cacheIndex = lastActiveIndex;\n\t\tbindings[ lastActiveIndex ] = binding;\n\n\t\tfirstInactiveBinding._cacheIndex = prevIndex;\n\t\tbindings[ prevIndex ] = firstInactiveBinding;\n\n\t}\n\n\t_takeBackBinding( binding ) {\n\n\t\tconst bindings = this._bindings,\n\t\t\tprevIndex = binding._cacheIndex,\n\n\t\t\tfirstInactiveIndex = -- this._nActiveBindings,\n\n\t\t\tlastActiveBinding = bindings[ firstInactiveIndex ];\n\n\t\tbinding._cacheIndex = firstInactiveIndex;\n\t\tbindings[ firstInactiveIndex ] = binding;\n\n\t\tlastActiveBinding._cacheIndex = prevIndex;\n\t\tbindings[ prevIndex ] = lastActiveBinding;\n\n\t}\n\n\n\t// Memory management of Interpolants for weight and time scale\n\n\t_lendControlInterpolant() {\n\n\t\tconst interpolants = this._controlInterpolants,\n\t\t\tlastActiveIndex = this._nActiveControlInterpolants ++;\n\n\t\tlet interpolant = interpolants[ lastActiveIndex ];\n\n\t\tif ( interpolant === undefined ) {\n\n\t\t\tinterpolant = new LinearInterpolant(\n\t\t\t\tnew Float32Array( 2 ), new Float32Array( 2 ),\n\t\t\t\t1, _controlInterpolantsResultBuffer );\n\n\t\t\tinterpolant.__cacheIndex = lastActiveIndex;\n\t\t\tinterpolants[ lastActiveIndex ] = interpolant;\n\n\t\t}\n\n\t\treturn interpolant;\n\n\t}\n\n\t_takeBackControlInterpolant( interpolant ) {\n\n\t\tconst interpolants = this._controlInterpolants,\n\t\t\tprevIndex = interpolant.__cacheIndex,\n\n\t\t\tfirstInactiveIndex = -- this._nActiveControlInterpolants,\n\n\t\t\tlastActiveInterpolant = interpolants[ firstInactiveIndex ];\n\n\t\tinterpolant.__cacheIndex = firstInactiveIndex;\n\t\tinterpolants[ firstInactiveIndex ] = interpolant;\n\n\t\tlastActiveInterpolant.__cacheIndex = prevIndex;\n\t\tinterpolants[ prevIndex ] = lastActiveInterpolant;\n\n\t}\n\n\t/**\n\t * Returns an instance of {@link AnimationAction} for the passed clip.\n\t *\n\t * If an action fitting the clip and root parameters doesn't yet exist, it\n\t * will be created by this method. Calling this method several times with the\n\t * same clip and root parameters always returns the same action.\n\t *\n\t * @param {AnimationClip|string} clip - An animation clip or alternatively the name of the animation clip.\n\t * @param {Object3D} [optionalRoot] - An alternative root object.\n\t * @param {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)} [blendMode] - The blend mode.\n\t * @return {?AnimationAction} The animation action.\n\t */\n\tclipAction( clip, optionalRoot, blendMode ) {\n\n\t\tconst root = optionalRoot || this._root,\n\t\t\trootUuid = root.uuid;\n\n\t\tlet clipObject = typeof clip === 'string' ? AnimationClip.findByName( root, clip ) : clip;\n\n\t\tconst clipUuid = clipObject !== null ? clipObject.uuid : clip;\n\n\t\tconst actionsForClip = this._actionsByClip[ clipUuid ];\n\t\tlet prototypeAction = null;\n\n\t\tif ( blendMode === undefined ) {\n\n\t\t\tif ( clipObject !== null ) {\n\n\t\t\t\tblendMode = clipObject.blendMode;\n\n\t\t\t} else {\n\n\t\t\t\tblendMode = NormalAnimationBlendMode;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( actionsForClip !== undefined ) {\n\n\t\t\tconst existingAction = actionsForClip.actionByRoot[ rootUuid ];\n\n\t\t\tif ( existingAction !== undefined && existingAction.blendMode === blendMode ) {\n\n\t\t\t\treturn existingAction;\n\n\t\t\t}\n\n\t\t\t// we know the clip, so we don't have to parse all\n\t\t\t// the bindings again but can just copy\n\t\t\tprototypeAction = actionsForClip.knownActions[ 0 ];\n\n\t\t\t// also, take the clip from the prototype action\n\t\t\tif ( clipObject === null )\n\t\t\t\tclipObject = prototypeAction._clip;\n\n\t\t}\n\n\t\t// clip must be known when specified via string\n\t\tif ( clipObject === null ) return null;\n\n\t\t// allocate all resources required to run it\n\t\tconst newAction = new AnimationAction( this, clipObject, optionalRoot, blendMode );\n\n\t\tthis._bindAction( newAction, prototypeAction );\n\n\t\t// and make the action known to the memory manager\n\t\tthis._addInactiveAction( newAction, clipUuid, rootUuid );\n\n\t\treturn newAction;\n\n\t}\n\n\t/**\n\t * Returns an existing animation action for the passed clip.\n\t *\n\t * @param {AnimationClip|string} clip - An animation clip or alternatively the name of the animation clip.\n\t * @param {Object3D} [optionalRoot] - An alternative root object.\n\t * @return {?AnimationAction} The animation action. Returns `null` if no action was found.\n\t */\n\texistingAction( clip, optionalRoot ) {\n\n\t\tconst root = optionalRoot || this._root,\n\t\t\trootUuid = root.uuid,\n\n\t\t\tclipObject = typeof clip === 'string' ?\n\t\t\t\tAnimationClip.findByName( root, clip ) : clip,\n\n\t\t\tclipUuid = clipObject ? clipObject.uuid : clip,\n\n\t\t\tactionsForClip = this._actionsByClip[ clipUuid ];\n\n\t\tif ( actionsForClip !== undefined ) {\n\n\t\t\treturn actionsForClip.actionByRoot[ rootUuid ] || null;\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t/**\n\t * Deactivates all previously scheduled actions on this mixer.\n\t *\n\t * @return {AnimationMixer} A reference to thi animation mixer.\n\t */\n\tstopAllAction() {\n\n\t\tconst actions = this._actions,\n\t\t\tnActions = this._nActiveActions;\n\n\t\tfor ( let i = nActions - 1; i >= 0; -- i ) {\n\n\t\t\tactions[ i ].stop();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Advances the global mixer time and updates the animation.\n\t *\n\t * This is usually done in the render loop by passing the delta\n\t * time from {@link Clock} or {@link Timer}.\n\t *\n\t * @param {number} deltaTime - The delta time in seconds.\n\t * @return {AnimationMixer} A reference to thi animation mixer.\n\t */\n\tupdate( deltaTime ) {\n\n\t\tdeltaTime *= this.timeScale;\n\n\t\tconst actions = this._actions,\n\t\t\tnActions = this._nActiveActions,\n\n\t\t\ttime = this.time += deltaTime,\n\t\t\ttimeDirection = Math.sign( deltaTime ),\n\n\t\t\taccuIndex = this._accuIndex ^= 1;\n\n\t\t// run active actions\n\n\t\tfor ( let i = 0; i !== nActions; ++ i ) {\n\n\t\t\tconst action = actions[ i ];\n\n\t\t\taction._update( time, deltaTime, timeDirection, accuIndex );\n\n\t\t}\n\n\t\t// update scene graph\n\n\t\tconst bindings = this._bindings,\n\t\t\tnBindings = this._nActiveBindings;\n\n\t\tfor ( let i = 0; i !== nBindings; ++ i ) {\n\n\t\t\tbindings[ i ].apply( accuIndex );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the global mixer to a specific time and updates the animation accordingly.\n\t *\n\t * This is useful when you need to jump to an exact time in an animation. The\n\t * input parameter will be scaled by {@link AnimationMixer#timeScale}\n\t *\n\t * @param {number} time - The time to set in seconds.\n\t * @return {AnimationMixer} A reference to thi animation mixer.\n\t */\n\tsetTime( time ) {\n\n\t\tthis.time = 0; // Zero out time attribute for AnimationMixer object;\n\t\tfor ( let i = 0; i < this._actions.length; i ++ ) {\n\n\t\t\tthis._actions[ i ].time = 0; // Zero out time attribute for all associated AnimationAction objects.\n\n\t\t}\n\n\t\treturn this.update( time ); // Update used to set exact time. Returns \"this\" AnimationMixer object.\n\n\t}\n\n\t/**\n\t * Returns this mixer's root object.\n\t *\n\t * @return {Object3D} The mixer's root object.\n\t */\n\tgetRoot() {\n\n\t\treturn this._root;\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for a clip. Before using this method make\n\t * sure to call {@link AnimationAction#stop} for all related actions.\n\t *\n\t * @param {AnimationClip} clip - The clip to uncache.\n\t */\n\tuncacheClip( clip ) {\n\n\t\tconst actions = this._actions,\n\t\t\tclipUuid = clip.uuid,\n\t\t\tactionsByClip = this._actionsByClip,\n\t\t\tactionsForClip = actionsByClip[ clipUuid ];\n\n\t\tif ( actionsForClip !== undefined ) {\n\n\t\t\t// note: just calling _removeInactiveAction would mess up the\n\t\t\t// iteration state and also require updating the state we can\n\t\t\t// just throw away\n\n\t\t\tconst actionsToRemove = actionsForClip.knownActions;\n\n\t\t\tfor ( let i = 0, n = actionsToRemove.length; i !== n; ++ i ) {\n\n\t\t\t\tconst action = actionsToRemove[ i ];\n\n\t\t\t\tthis._deactivateAction( action );\n\n\t\t\t\tconst cacheIndex = action._cacheIndex,\n\t\t\t\t\tlastInactiveAction = actions[ actions.length - 1 ];\n\n\t\t\t\taction._cacheIndex = null;\n\t\t\t\taction._byClipCacheIndex = null;\n\n\t\t\t\tlastInactiveAction._cacheIndex = cacheIndex;\n\t\t\t\tactions[ cacheIndex ] = lastInactiveAction;\n\t\t\t\tactions.pop();\n\n\t\t\t\tthis._removeInactiveBindingsForAction( action );\n\n\t\t\t}\n\n\t\t\tdelete actionsByClip[ clipUuid ];\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for a root object. Before using this\n\t * method make sure to call {@link AnimationAction#stop} for all related\n\t * actions or alternatively {@link AnimationMixer#stopAllAction} when the\n\t * mixer operates on a single root.\n\t *\n\t * @param {Object3D} root - The root object to uncache.\n\t */\n\tuncacheRoot( root ) {\n\n\t\tconst rootUuid = root.uuid,\n\t\t\tactionsByClip = this._actionsByClip;\n\n\t\tfor ( const clipUuid in actionsByClip ) {\n\n\t\t\tconst actionByRoot = actionsByClip[ clipUuid ].actionByRoot,\n\t\t\t\taction = actionByRoot[ rootUuid ];\n\n\t\t\tif ( action !== undefined ) {\n\n\t\t\t\tthis._deactivateAction( action );\n\t\t\t\tthis._removeInactiveAction( action );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst bindingsByRoot = this._bindingsByRootAndName,\n\t\t\tbindingByName = bindingsByRoot[ rootUuid ];\n\n\t\tif ( bindingByName !== undefined ) {\n\n\t\t\tfor ( const trackName in bindingByName ) {\n\n\t\t\t\tconst binding = bindingByName[ trackName ];\n\t\t\t\tbinding.restoreOriginalState();\n\t\t\t\tthis._removeInactiveBinding( binding );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for an action. The action is identified by the\n\t * given clip and an optional root object. Before using this method make\n\t * sure to call {@link AnimationAction#stop} to deactivate the action.\n\t *\n\t * @param {AnimationClip|string} clip - An animation clip or alternatively the name of the animation clip.\n\t * @param {Object3D} [optionalRoot] - An alternative root object.\n\t */\n\tuncacheAction( clip, optionalRoot ) {\n\n\t\tconst action = this.existingAction( clip, optionalRoot );\n\n\t\tif ( action !== null ) {\n\n\t\t\tthis._deactivateAction( action );\n\t\t\tthis._removeInactiveAction( action );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * Represents a 3D render target.\n *\n * @augments RenderTarget\n */\nclass RenderTarget3D extends RenderTarget {\n\n\t/**\n\t * Constructs a new 3D render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {number} [depth=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRenderTarget3D = true;\n\n\t\tthis.depth = depth;\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {Data3DTexture}\n\t\t */\n\t\tthis.texture = new Data3DTexture( null, width, height, depth );\n\t\tthis._setTextureOptions( options );\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n}\n\n/**\n * Represents a uniform which is a global shader variable. They are passed to shader programs.\n *\n * When declaring a uniform of a {@link ShaderMaterial}, it is declared by value or by object.\n * ```js\n * uniforms: {\n * \ttime: { value: 1.0 },\n * \tresolution: new Uniform( new Vector2() )\n * };\n * ```\n * Since this class can only be used in context of {@link ShaderMaterial}, it is only supported\n * in {@link WebGLRenderer}.\n */\nclass Uniform {\n\n\t/**\n\t * Constructs a new uniform.\n\t *\n\t * @param {any} value - The uniform value.\n\t */\n\tconstructor( value ) {\n\n\t\t/**\n\t\t * The uniform value.\n\t\t *\n\t\t * @type {any}\n\t\t */\n\t\tthis.value = value;\n\n\t}\n\n\t/**\n\t * Returns a new uniform with copied values from this instance.\n\t * If the value has a `clone()` method, the value is cloned as well.\n\t *\n\t * @return {Uniform} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Uniform( this.value.clone === undefined ? this.value : this.value.clone() );\n\n\t}\n\n}\n\nlet _id = 0;\n\n/**\n * A class for managing multiple uniforms in a single group. The renderer will process\n * such a definition as a single UBO.\n *\n * Since this class can only be used in context of {@link ShaderMaterial}, it is only supported\n * in {@link WebGLRenderer}.\n *\n * @augments EventDispatcher\n */\nclass UniformsGroup extends EventDispatcher {\n\n\t/**\n\t * Constructs a new uniforms group.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isUniformsGroup = true;\n\n\t\t/**\n\t\t * The ID of the 3D object.\n\t\t *\n\t\t * @name UniformsGroup#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _id ++ } );\n\n\t\t/**\n\t\t * The name of the uniforms group.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The buffer usage.\n\t\t *\n\t\t * @type {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)}\n\t\t * @default StaticDrawUsage\n\t\t */\n\t\tthis.usage = StaticDrawUsage;\n\n\t\t/**\n\t\t * An array holding the uniforms.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.uniforms = [];\n\n\t}\n\n\t/**\n\t * Adds the given uniform to this uniforms group.\n\t *\n\t * @param {Uniform} uniform - The uniform to add.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tadd( uniform ) {\n\n\t\tthis.uniforms.push( uniform );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes the given uniform from this uniforms group.\n\t *\n\t * @param {Uniform} uniform - The uniform to remove.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tremove( uniform ) {\n\n\t\tconst index = this.uniforms.indexOf( uniform );\n\n\t\tif ( index !== -1 ) this.uniforms.splice( index, 1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the name of this uniforms group.\n\t *\n\t * @param {string} name - The name to set.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tsetName( name ) {\n\n\t\tthis.name = name;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the usage of this uniforms group.\n\t *\n\t * @param {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)} value - The usage to set.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tsetUsage( value ) {\n\n\t\tthis.usage = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires Texture#dispose\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n\t/**\n\t * Copies the values of the given uniforms group to this instance.\n\t *\n\t * @param {UniformsGroup} source - The uniforms group to copy.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\t\tthis.usage = source.usage;\n\n\t\tconst uniformsSource = source.uniforms;\n\n\t\tthis.uniforms.length = 0;\n\n\t\tfor ( let i = 0, l = uniformsSource.length; i < l; i ++ ) {\n\n\t\t\tconst uniforms = Array.isArray( uniformsSource[ i ] ) ? uniformsSource[ i ] : [ uniformsSource[ i ] ];\n\n\t\t\tfor ( let j = 0; j < uniforms.length; j ++ ) {\n\n\t\t\t\tthis.uniforms.push( uniforms[ j ].clone() );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new uniforms group with copied values from this instance.\n\t *\n\t * @return {UniformsGroup} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * An instanced version of an interleaved buffer.\n *\n * @augments InterleavedBuffer\n */\nclass InstancedInterleavedBuffer extends InterleavedBuffer {\n\n\t/**\n\t * Constructs a new instanced interleaved buffer.\n\t *\n\t * @param {TypedArray} array - A typed array with a shared buffer storing attribute data.\n\t * @param {number} stride - The number of typed-array elements per vertex.\n\t * @param {number} [meshPerAttribute=1] - Defines how often a value of this interleaved buffer should be repeated.\n\t */\n\tconstructor( array, stride, meshPerAttribute = 1 ) {\n\n\t\tsuper( array, stride );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedInterleavedBuffer = true;\n\n\t\t/**\n\t\t * Defines how often a value of this buffer attribute should be repeated,\n\t\t * see {@link InstancedBufferAttribute#meshPerAttribute}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.meshPerAttribute = meshPerAttribute;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.meshPerAttribute = source.meshPerAttribute;\n\n\t\treturn this;\n\n\t}\n\n\tclone( data ) {\n\n\t\tconst ib = super.clone( data );\n\n\t\tib.meshPerAttribute = this.meshPerAttribute;\n\n\t\treturn ib;\n\n\t}\n\n\ttoJSON( data ) {\n\n\t\tconst json = super.toJSON( data );\n\n\t\tjson.isInstancedInterleavedBuffer = true;\n\t\tjson.meshPerAttribute = this.meshPerAttribute;\n\n\t\treturn json;\n\n\t}\n\n}\n\n/**\n * An alternative version of a buffer attribute with more control over the VBO.\n *\n * The renderer does not construct a VBO for this kind of attribute. Instead, it uses\n * whatever VBO is passed in constructor and can later be altered via the `buffer` property.\n *\n * The most common use case for this class is when some kind of GPGPU calculation interferes\n * or even produces the VBOs in question.\n *\n * Notice that this class can only be used with {@link WebGLRenderer}.\n */\nclass GLBufferAttribute {\n\n\t/**\n\t * Constructs a new GL buffer attribute.\n\t *\n\t * @param {WebGLBuffer} buffer - The native WebGL buffer.\n\t * @param {number} type - The native data type (e.g. `gl.FLOAT`).\n\t * @param {number} itemSize - The item size.\n\t * @param {number} elementSize - The corresponding size (in bytes) for the given `type` parameter.\n\t * @param {number} count - The expected number of vertices in VBO.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( buffer, type, itemSize, elementSize, count, normalized = false ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isGLBufferAttribute = true;\n\n\t\t/**\n\t\t * The name of the buffer attribute.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The native WebGL buffer.\n\t\t *\n\t\t * @type {WebGLBuffer}\n\t\t */\n\t\tthis.buffer = buffer;\n\n\t\t/**\n\t\t * The native data type.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.type = type;\n\n\t\t/**\n\t\t * The item size, see {@link BufferAttribute#itemSize}.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.itemSize = itemSize;\n\n\t\t/**\n\t\t * The corresponding size (in bytes) for the given `type` parameter.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.elementSize = elementSize;\n\n\t\t/**\n\t\t * The expected number of vertices in VBO.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.count = count;\n\n\t\t/**\n\t\t * Applies to integer data only. Indicates how the underlying data in the buffer maps to\n\t\t * the values in the GLSL code. For instance, if `buffer` contains data of `gl.UNSIGNED_SHORT`,\n\t\t * and `normalized` is `true`, the values `0 - +65535` in the buffer data will be mapped to\n\t\t * `0.0f - +1.0f` in the GLSL attribute. If `normalized` is `false`, the values will be converted\n\t\t * to floats unmodified, i.e. `65535` becomes `65535.0f`.\n\t\t *\n\t\t * @type {boolean}\n\t\t */\n\t\tthis.normalized = normalized;\n\n\t\t/**\n\t\t * A version number, incremented every time the `needsUpdate` is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.version = 0;\n\n\t}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Sets the given native WebGL buffer.\n\t *\n\t * @param {WebGLBuffer} buffer - The buffer to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetBuffer( buffer ) {\n\n\t\tthis.buffer = buffer;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given native data type and element size.\n\t *\n\t * @param {number} type - The native data type (e.g. `gl.FLOAT`).\n\t * @param {number} elementSize - The corresponding size (in bytes) for the given `type` parameter.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetType( type, elementSize ) {\n\n\t\tthis.type = type;\n\t\tthis.elementSize = elementSize;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the item size.\n\t *\n\t * @param {number} itemSize - The item size.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetItemSize( itemSize ) {\n\n\t\tthis.itemSize = itemSize;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the count (the expected number of vertices in VBO).\n\t *\n\t * @param {number} count - The count.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetCount( count ) {\n\n\t\tthis.count = count;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _matrix = /*@__PURE__*/ new Matrix4();\n\n/**\n * This class is designed to assist with raycasting. Raycasting is used for\n * mouse picking (working out what objects in the 3d space the mouse is over)\n * amongst other things.\n */\nclass Raycaster {\n\n\t/**\n\t * Constructs a new raycaster.\n\t *\n\t * @param {Vector3} origin - The origin vector where the ray casts from.\n\t * @param {Vector3} direction - The (normalized) direction vector that gives direction to the ray.\n\t * @param {number} [near=0] - All results returned are further away than near. Near can't be negative.\n\t * @param {number} [far=Infinity] - All results returned are closer than far. Far can't be lower than near.\n\t */\n\tconstructor( origin, direction, near = 0, far = Infinity ) {\n\n\t\t/**\n\t\t * The ray used for raycasting.\n\t\t *\n\t\t * @type {Ray}\n\t\t */\n\t\tthis.ray = new Ray( origin, direction );\n\n\t\t/**\n\t\t * All results returned are further away than near. Near can't be negative.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * All results returned are further away than near. Near can't be negative.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.far = far;\n\n\t\t/**\n\t\t * The camera to use when raycasting against view-dependent objects such as\n\t\t * billboarded objects like sprites. This field can be set manually or\n\t\t * is set when calling `setFromCamera()`.\n\t\t *\n\t\t * @type {?Camera}\n\t\t * @default null\n\t\t */\n\t\tthis.camera = null;\n\n\t\t/**\n\t\t * Allows to selectively ignore 3D objects when performing intersection tests.\n\t\t * The following code example ensures that only 3D objects on layer `1` will be\n\t\t * honored by raycaster.\n\t\t * ```js\n\t\t * raycaster.layers.set( 1 );\n\t\t * object.layers.enable( 1 );\n\t\t * ```\n\t\t *\n\t\t * @type {Layers}\n\t\t */\n\t\tthis.layers = new Layers();\n\n\n\t\t/**\n\t\t * A parameter object that configures the raycasting. It has the structure:\n\t\t *\n\t\t * ```\n\t\t * {\n\t\t * \tMesh: {},\n\t\t * \tLine: { threshold: 1 },\n\t\t * \tLOD: {},\n\t\t * \tPoints: { threshold: 1 },\n\t\t * \tSprite: {}\n\t\t * }\n\t\t * ```\n\t\t * Where `threshold` is the precision of the raycaster when intersecting objects, in world units.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.params = {\n\t\t\tMesh: {},\n\t\t\tLine: { threshold: 1 },\n\t\t\tLOD: {},\n\t\t\tPoints: { threshold: 1 },\n\t\t\tSprite: {}\n\t\t};\n\n\t}\n\n\t/**\n\t * Updates the ray with a new origin and direction by copying the values from the arguments.\n\t *\n\t * @param {Vector3} origin - The origin vector where the ray casts from.\n\t * @param {Vector3} direction - The (normalized) direction vector that gives direction to the ray.\n\t */\n\tset( origin, direction ) {\n\n\t\t// direction is assumed to be normalized (for accurate distance calculations)\n\n\t\tthis.ray.set( origin, direction );\n\n\t}\n\n\t/**\n\t * Uses the given coordinates and camera to compute a new origin and direction for the internal ray.\n\t *\n\t * @param {Vector2} coords - 2D coordinates of the mouse, in normalized device coordinates (NDC).\n\t * X and Y components should be between `-1` and `1`.\n\t * @param {Camera} camera - The camera from which the ray should originate.\n\t */\n\tsetFromCamera( coords, camera ) {\n\n\t\tif ( camera.isPerspectiveCamera ) {\n\n\t\t\tthis.ray.origin.setFromMatrixPosition( camera.matrixWorld );\n\t\t\tthis.ray.direction.set( coords.x, coords.y, 0.5 ).unproject( camera ).sub( this.ray.origin ).normalize();\n\t\t\tthis.camera = camera;\n\n\t\t} else if ( camera.isOrthographicCamera ) {\n\n\t\t\tthis.ray.origin.set( coords.x, coords.y, ( camera.near + camera.far ) / ( camera.near - camera.far ) ).unproject( camera ); // set origin in plane of camera\n\t\t\tthis.ray.direction.set( 0, 0, -1 ).transformDirection( camera.matrixWorld );\n\t\t\tthis.camera = camera;\n\n\t\t} else {\n\n\t\t\tconsole.error( 'THREE.Raycaster: Unsupported camera type: ' + camera.type );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Uses the given WebXR controller to compute a new origin and direction for the internal ray.\n\t *\n\t * @param {WebXRController} controller - The controller to copy the position and direction from.\n\t * @return {Raycaster} A reference to this raycaster.\n\t */\n\tsetFromXRController( controller ) {\n\n\t\t_matrix.identity().extractRotation( controller.matrixWorld );\n\n\t\tthis.ray.origin.setFromMatrixPosition( controller.matrixWorld );\n\t\tthis.ray.direction.set( 0, 0, -1 ).applyMatrix4( _matrix );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The intersection point of a raycaster intersection test.\n\t * @typedef {Object} Raycaster~Intersection\n\t * @property {number} distance - The distance from the ray's origin to the intersection point.\n\t * @property {number} distanceToRay - Some 3D objects e.g. {@link Points} provide the distance of the\n\t * intersection to the nearest point on the ray. For other objects it will be `undefined`.\n\t * @property {Vector3} point - The intersection point, in world coordinates.\n\t * @property {Object} face - The face that has been intersected.\n\t * @property {number} faceIndex - The face index.\n\t * @property {Object3D} object - The 3D object that has been intersected.\n\t * @property {Vector2} uv - U,V coordinates at point of intersection.\n\t * @property {Vector2} uv1 - Second set of U,V coordinates at point of intersection.\n\t * @property {Vector3} uv1 - Interpolated normal vector at point of intersection.\n\t * @property {number} instanceId - The index number of the instance where the ray\n\t * intersects the {@link InstancedMesh}.\n\t */\n\n\t/**\n\t * Checks all intersection between the ray and the object with or without the\n\t * descendants. Intersections are returned sorted by distance, closest first.\n\t *\n\t * `Raycaster` delegates to the `raycast()` method of the passed 3D object, when\n\t * evaluating whether the ray intersects the object or not. This allows meshes to respond\n\t * differently to ray casting than lines or points.\n\t *\n\t * Note that for meshes, faces must be pointed towards the origin of the ray in order\n\t * to be detected; intersections of the ray passing through the back of a face will not\n\t * be detected. To raycast against both faces of an object, you'll want to set {@link Material#side}\n\t * to `THREE.DoubleSide`.\n\t *\n\t * @param {Object3D} object - The 3D object to check for intersection with the ray.\n\t * @param {boolean} [recursive=true] - If set to `true`, it also checks all descendants.\n\t * Otherwise it only checks intersection with the object.\n\t * @param {Array} [intersects=[]] The target array that holds the result of the method.\n\t * @return {Array} An array holding the intersection points.\n\t */\n\tintersectObject( object, recursive = true, intersects = [] ) {\n\n\t\tintersect( object, this, intersects, recursive );\n\n\t\tintersects.sort( ascSort );\n\n\t\treturn intersects;\n\n\t}\n\n\t/**\n\t * Checks all intersection between the ray and the objects with or without\n\t * the descendants. Intersections are returned sorted by distance, closest first.\n\t *\n\t * @param {Array} objects - The 3D objects to check for intersection with the ray.\n\t * @param {boolean} [recursive=true] - If set to `true`, it also checks all descendants.\n\t * Otherwise it only checks intersection with the object.\n\t * @param {Array} [intersects=[]] The target array that holds the result of the method.\n\t * @return {Array} An array holding the intersection points.\n\t */\n\tintersectObjects( objects, recursive = true, intersects = [] ) {\n\n\t\tfor ( let i = 0, l = objects.length; i < l; i ++ ) {\n\n\t\t\tintersect( objects[ i ], this, intersects, recursive );\n\n\t\t}\n\n\t\tintersects.sort( ascSort );\n\n\t\treturn intersects;\n\n\t}\n\n}\n\nfunction ascSort( a, b ) {\n\n\treturn a.distance - b.distance;\n\n}\n\nfunction intersect( object, raycaster, intersects, recursive ) {\n\n\tlet propagate = true;\n\n\tif ( object.layers.test( raycaster.layers ) ) {\n\n\t\tconst result = object.raycast( raycaster, intersects );\n\n\t\tif ( result === false ) propagate = false;\n\n\t}\n\n\tif ( propagate === true && recursive === true ) {\n\n\t\tconst children = object.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tintersect( children[ i ], raycaster, intersects, true );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * This class is an alternative to {@link Clock} with a different API design and behavior.\n * The goal is to avoid the conceptual flaws that became apparent in `Clock` over time.\n *\n * - `Timer` has an `update()` method that updates its internal state. That makes it possible to\n * call `getDelta()` and `getElapsed()` multiple times per simulation step without getting different values.\n * - The class can make use of the Page Visibility API to avoid large time delta values when the app\n * is inactive (e.g. tab switched or browser hidden).\n *\n * ```js\n * const timer = new Timer();\n * timer.connect( document ); // use Page Visibility API\n * ```\n */\nclass Timer {\n\n\t/**\n\t * Constructs a new timer.\n\t */\n\tconstructor() {\n\n\t\tthis._previousTime = 0;\n\t\tthis._currentTime = 0;\n\t\tthis._startTime = performance.now();\n\n\t\tthis._delta = 0;\n\t\tthis._elapsed = 0;\n\n\t\tthis._timescale = 1;\n\n\t\tthis._document = null;\n\t\tthis._pageVisibilityHandler = null;\n\n\t}\n\n\t/**\n\t * Connect the timer to the given document.Calling this method is not mandatory to\n\t * use the timer but enables the usage of the Page Visibility API to avoid large time\n\t * delta values.\n\t *\n\t * @param {Document} document - The document.\n\t */\n\tconnect( document ) {\n\n\t\tthis._document = document;\n\n\t\t// use Page Visibility API to avoid large time delta values\n\n\t\tif ( document.hidden !== undefined ) {\n\n\t\t\tthis._pageVisibilityHandler = handleVisibilityChange.bind( this );\n\n\t\t\tdocument.addEventListener( 'visibilitychange', this._pageVisibilityHandler, false );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Disconnects the timer from the DOM and also disables the usage of the Page Visibility API.\n\t */\n\tdisconnect() {\n\n\t\tif ( this._pageVisibilityHandler !== null ) {\n\n\t\t\tthis._document.removeEventListener( 'visibilitychange', this._pageVisibilityHandler );\n\t\t\tthis._pageVisibilityHandler = null;\n\n\t\t}\n\n\t\tthis._document = null;\n\n\t}\n\n\t/**\n\t * Returns the time delta in seconds.\n\t *\n\t * @return {number} The time delta in second.\n\t */\n\tgetDelta() {\n\n\t\treturn this._delta / 1000;\n\n\t}\n\n\t/**\n\t * Returns the elapsed time in seconds.\n\t *\n\t * @return {number} The elapsed time in second.\n\t */\n\tgetElapsed() {\n\n\t\treturn this._elapsed / 1000;\n\n\t}\n\n\t/**\n\t * Returns the timescale.\n\t *\n\t * @return {number} The timescale.\n\t */\n\tgetTimescale() {\n\n\t\treturn this._timescale;\n\n\t}\n\n\t/**\n\t * Sets the given timescale which scale the time delta computation\n\t * in `update()`.\n\t *\n\t * @param {number} timescale - The timescale to set.\n\t * @return {Timer} A reference to this timer.\n\t */\n\tsetTimescale( timescale ) {\n\n\t\tthis._timescale = timescale;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Resets the time computation for the current simulation step.\n\t *\n\t * @return {Timer} A reference to this timer.\n\t */\n\treset() {\n\n\t\tthis._currentTime = performance.now() - this._startTime;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Can be used to free all internal resources. Usually called when\n\t * the timer instance isn't required anymore.\n\t */\n\tdispose() {\n\n\t\tthis.disconnect();\n\n\t}\n\n\t/**\n\t * Updates the internal state of the timer. This method should be called\n\t * once per simulation step and before you perform queries against the timer\n\t * (e.g. via `getDelta()`).\n\t *\n\t * @param {number} timestamp - The current time in milliseconds. Can be obtained\n\t * from the `requestAnimationFrame` callback argument. If not provided, the current\n\t * time will be determined with `performance.now`.\n\t * @return {Timer} A reference to this timer.\n\t */\n\tupdate( timestamp ) {\n\n\t\tif ( this._pageVisibilityHandler !== null && this._document.hidden === true ) {\n\n\t\t\tthis._delta = 0;\n\n\t\t} else {\n\n\t\t\tthis._previousTime = this._currentTime;\n\t\t\tthis._currentTime = ( timestamp !== undefined ? timestamp : performance.now() ) - this._startTime;\n\n\t\t\tthis._delta = ( this._currentTime - this._previousTime ) * this._timescale;\n\t\t\tthis._elapsed += this._delta; // _elapsed is the accumulation of all previous deltas\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\nfunction handleVisibilityChange() {\n\n\tif ( this._document.hidden === false ) this.reset();\n\n}\n\n/**\n * This class can be used to represent points in 3D space as\n * [Spherical coordinates]{@link https://en.wikipedia.org/wiki/Spherical_coordinate_system}.\n */\nclass Spherical {\n\n\t/**\n\t * Constructs a new spherical.\n\t *\n\t * @param {number} [radius=1] - The radius, or the Euclidean distance (straight-line distance) from the point to the origin.\n\t * @param {number} [phi=0] - The polar angle in radians from the y (up) axis.\n\t * @param {number} [theta=0] - The equator/azimuthal angle in radians around the y (up) axis.\n\t */\n\tconstructor( radius = 1, phi = 0, theta = 0 ) {\n\n\t\t/**\n\t\t * The radius, or the Euclidean distance (straight-line distance) from the point to the origin.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.radius = radius;\n\n\t\t/**\n\t\t * The polar angle in radians from the y (up) axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.phi = phi;\n\n\t\t/**\n\t\t * The equator/azimuthal angle in radians around the y (up) axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.theta = theta;\n\n\t}\n\n\t/**\n\t * Sets the spherical components by copying the given values.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} phi - The polar angle.\n\t * @param {number} theta - The azimuthal angle.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tset( radius, phi, theta ) {\n\n\t\tthis.radius = radius;\n\t\tthis.phi = phi;\n\t\tthis.theta = theta;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given spherical to this instance.\n\t *\n\t * @param {Spherical} other - The spherical to copy.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tcopy( other ) {\n\n\t\tthis.radius = other.radius;\n\t\tthis.phi = other.phi;\n\t\tthis.theta = other.theta;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Restricts the polar angle [page:.phi phi] to be between `0.000001` and pi -\n\t * `0.000001`.\n\t *\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tmakeSafe() {\n\n\t\tconst EPS = 0.000001;\n\t\tthis.phi = clamp( this.phi, EPS, Math.PI - EPS );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the spherical components from the given vector which is assumed to hold\n\t * Cartesian coordinates.\n\t *\n\t * @param {Vector3} v - The vector to set.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tsetFromVector3( v ) {\n\n\t\treturn this.setFromCartesianCoords( v.x, v.y, v.z );\n\n\t}\n\n\t/**\n\t * Sets the spherical components from the given Cartesian coordinates.\n\t *\n\t * @param {number} x - The x value.\n\t * @param {number} y - The y value.\n\t * @param {number} z - The z value.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tsetFromCartesianCoords( x, y, z ) {\n\n\t\tthis.radius = Math.sqrt( x * x + y * y + z * z );\n\n\t\tif ( this.radius === 0 ) {\n\n\t\t\tthis.theta = 0;\n\t\t\tthis.phi = 0;\n\n\t\t} else {\n\n\t\t\tthis.theta = Math.atan2( x, z );\n\t\t\tthis.phi = Math.acos( clamp( y / this.radius, -1, 1 ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new spherical with copied values from this instance.\n\t *\n\t * @return {Spherical} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * This class can be used to represent points in 3D space as\n * [Cylindrical coordinates]{@link https://en.wikipedia.org/wiki/Cylindrical_coordinate_system}.\n */\nclass Cylindrical {\n\n\t/**\n\t * Constructs a new cylindrical.\n\t *\n\t * @param {number} [radius=1] - The distance from the origin to a point in the x-z plane.\n\t * @param {number} [theta=0] - A counterclockwise angle in the x-z plane measured in radians from the positive z-axis.\n\t * @param {number} [y=0] - The height above the x-z plane.\n\t */\n\tconstructor( radius = 1, theta = 0, y = 0 ) {\n\n\t\t/**\n\t\t * The distance from the origin to a point in the x-z plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.radius = radius;\n\n\t\t/**\n\t\t * A counterclockwise angle in the x-z plane measured in radians from the positive z-axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.theta = theta;\n\n\t\t/**\n\t\t * The height above the x-z plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.y = y;\n\n\t}\n\n\t/**\n\t * Sets the cylindrical components by copying the given values.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} theta - The theta angle.\n\t * @param {number} y - The height value.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tset( radius, theta, y ) {\n\n\t\tthis.radius = radius;\n\t\tthis.theta = theta;\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given cylindrical to this instance.\n\t *\n\t * @param {Cylindrical} other - The cylindrical to copy.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tcopy( other ) {\n\n\t\tthis.radius = other.radius;\n\t\tthis.theta = other.theta;\n\t\tthis.y = other.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the cylindrical components from the given vector which is assumed to hold\n\t * Cartesian coordinates.\n\t *\n\t * @param {Vector3} v - The vector to set.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tsetFromVector3( v ) {\n\n\t\treturn this.setFromCartesianCoords( v.x, v.y, v.z );\n\n\t}\n\n\t/**\n\t * Sets the cylindrical components from the given Cartesian coordinates.\n\t *\n\t * @param {number} x - The x value.\n\t * @param {number} y - The x value.\n\t * @param {number} z - The x value.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tsetFromCartesianCoords( x, y, z ) {\n\n\t\tthis.radius = Math.sqrt( x * x + z * z );\n\t\tthis.theta = Math.atan2( x, z );\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new cylindrical with copied values from this instance.\n\t *\n\t * @return {Cylindrical} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * Represents a 2x2 matrix.\n *\n * A Note on Row-Major and Column-Major Ordering:\n *\n * The constructor and {@link Matrix2#set} method take arguments in\n * [row-major]{@link https://en.wikipedia.org/wiki/Row-_and_column-major_order#Column-major_order}\n * order, while internally they are stored in the {@link Matrix2#elements} array in column-major order.\n * This means that calling:\n * ```js\n * const m = new THREE.Matrix2();\n * m.set( 11, 12,\n * 21, 22 );\n * ```\n * will result in the elements array containing:\n * ```js\n * m.elements = [ 11, 21,\n * 12, 22 ];\n * ```\n * and internally all calculations are performed using column-major ordering.\n * However, as the actual ordering makes no difference mathematically and\n * most people are used to thinking about matrices in row-major order, the\n * three.js documentation shows matrices in row-major order. Just bear in\n * mind that if you are reading the source code, you'll have to take the\n * transpose of any matrices outlined here to make sense of the calculations.\n */\nclass Matrix2 {\n\n\t/**\n\t * Constructs a new 2x2 matrix. The arguments are supposed to be\n\t * in row-major order. If no arguments are provided, the constructor\n\t * initializes the matrix as an identity matrix.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t */\n\tconstructor( n11, n12, n21, n22 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tMatrix2.prototype.isMatrix2 = true;\n\n\t\t/**\n\t\t * A column-major list of matrix values.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.elements = [\n\t\t\t1, 0,\n\t\t\t0, 1,\n\t\t];\n\n\t\tif ( n11 !== undefined ) {\n\n\t\t\tthis.set( n11, n12, n21, n22 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets this matrix to the 2x2 identity matrix.\n\t *\n\t * @return {Matrix2} A reference to this matrix.\n\t */\n\tidentity() {\n\n\t\tthis.set(\n\t\t\t1, 0,\n\t\t\t0, 1,\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix from the given array.\n\t *\n\t * @param {Array} array - The matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Matrix2} A reference to this matrix.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tfor ( let i = 0; i < 4; i ++ ) {\n\n\t\t\tthis.elements[ i ] = array[ i + offset ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix.The arguments are supposed to be\n\t * in row-major order.\n\t *\n\t * @param {number} n11 - 1-1 matrix element.\n\t * @param {number} n12 - 1-2 matrix element.\n\t * @param {number} n21 - 2-1 matrix element.\n\t * @param {number} n22 - 2-2 matrix element.\n\t * @return {Matrix2} A reference to this matrix.\n\t */\n\tset( n11, n12, n21, n22 ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] = n11; te[ 2 ] = n12;\n\t\tte[ 1 ] = n21; te[ 3 ] = n22;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _vector$4 = /*@__PURE__*/ new Vector2();\n\n/**\n * Represents an axis-aligned bounding box (AABB) in 2D space.\n */\nclass Box2 {\n\n\t/**\n\t * Constructs a new bounding box.\n\t *\n\t * @param {Vector2} [min=(Infinity,Infinity)] - A vector representing the lower boundary of the box.\n\t * @param {Vector2} [max=(-Infinity,-Infinity)] - A vector representing the upper boundary of the box.\n\t */\n\tconstructor( min = new Vector2( + Infinity, + Infinity ), max = new Vector2( - Infinity, - Infinity ) ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBox2 = true;\n\n\t\t/**\n\t\t * The lower boundary of the box.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.min = min;\n\n\t\t/**\n\t\t * The upper boundary of the box.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.max = max;\n\n\t}\n\n\t/**\n\t * Sets the lower and upper boundaries of this box.\n\t * Please note that this method only copies the values from the given objects.\n\t *\n\t * @param {Vector2} min - The lower boundary of the box.\n\t * @param {Vector2} max - The upper boundary of the box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tset( min, max ) {\n\n\t\tthis.min.copy( min );\n\t\tthis.max.copy( max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given array.\n\t *\n\t * @param {Array} points - An array holding 2D position data as instances of {@link Vector2}.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = points.length; i < il; i ++ ) {\n\n\t\t\tthis.expandByPoint( points[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Centers this box on the given center vector and sets this box's width, height and\n\t * depth to the given size values.\n\t *\n\t * @param {Vector2} center - The center of the box.\n\t * @param {Vector2} size - The x and y dimensions of the box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tsetFromCenterAndSize( center, size ) {\n\n\t\tconst halfSize = _vector$4.copy( size ).multiplyScalar( 0.5 );\n\t\tthis.min.copy( center ).sub( halfSize );\n\t\tthis.max.copy( center ).add( halfSize );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new box with copied values from this instance.\n\t *\n\t * @return {Box2} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given box to this instance.\n\t *\n\t * @param {Box2} box - The box to copy.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tcopy( box ) {\n\n\t\tthis.min.copy( box.min );\n\t\tthis.max.copy( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Makes this box empty which means in encloses a zero space in 2D.\n\t *\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tmakeEmpty() {\n\n\t\tthis.min.x = this.min.y = + Infinity;\n\t\tthis.max.x = this.max.y = - Infinity;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns true if this box includes zero points within its bounds.\n\t * Note that a box with equal lower and upper bounds still includes one\n\t * point, the one both bounds share.\n\t *\n\t * @return {boolean} Whether this box is empty or not.\n\t */\n\tisEmpty() {\n\n\t\t// this is a more robust check for empty than ( volume <= 0 ) because volume can get positive with two negative axes\n\n\t\treturn ( this.max.x < this.min.x ) || ( this.max.y < this.min.y );\n\n\t}\n\n\t/**\n\t * Returns the center point of this box.\n\t *\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} The center point.\n\t */\n\tgetCenter( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0 ) : target.addVectors( this.min, this.max ).multiplyScalar( 0.5 );\n\n\t}\n\n\t/**\n\t * Returns the dimensions of this box.\n\t *\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} The size.\n\t */\n\tgetSize( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0 ) : target.subVectors( this.max, this.min );\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this box to include the given point.\n\t *\n\t * @param {Vector2} point - The point that should be included by the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\texpandByPoint( point ) {\n\n\t\tthis.min.min( point );\n\t\tthis.max.max( point );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands this box equilaterally by the given vector. The width of this\n\t * box will be expanded by the x component of the vector in both\n\t * directions. The height of this box will be expanded by the y component of\n\t * the vector in both directions.\n\t *\n\t * @param {Vector2} vector - The vector that should expand the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\texpandByVector( vector ) {\n\n\t\tthis.min.sub( vector );\n\t\tthis.max.add( vector );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands each dimension of the box by the given scalar. If negative, the\n\t * dimensions of the box will be contracted.\n\t *\n\t * @param {number} scalar - The scalar value that should expand the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\texpandByScalar( scalar ) {\n\n\t\tthis.min.addScalar( - scalar );\n\t\tthis.max.addScalar( scalar );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within or on the boundaries of this box.\n\t *\n\t * @param {Vector2} point - The point to test.\n\t * @return {boolean} Whether the bounding box contains the given point or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn point.x >= this.min.x && point.x <= this.max.x &&\n\t\t\tpoint.y >= this.min.y && point.y <= this.max.y;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box includes the entirety of the given bounding box.\n\t * If this box and the given one are identical, this function also returns `true`.\n\t *\n\t * @param {Box2} box - The bounding box to test.\n\t * @return {boolean} Whether the bounding box contains the given bounding box or not.\n\t */\n\tcontainsBox( box ) {\n\n\t\treturn this.min.x <= box.min.x && box.max.x <= this.max.x &&\n\t\t\tthis.min.y <= box.min.y && box.max.y <= this.max.y;\n\n\t}\n\n\t/**\n\t * Returns a point as a proportion of this box's width and height.\n\t *\n\t * @param {Vector2} point - A point in 2D space.\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} A point as a proportion of this box's width and height.\n\t */\n\tgetParameter( point, target ) {\n\n\t\t// This can potentially have a divide by zero if the box\n\t\t// has a size dimension of 0.\n\n\t\treturn target.set(\n\t\t\t( point.x - this.min.x ) / ( this.max.x - this.min.x ),\n\t\t\t( point.y - this.min.y ) / ( this.max.y - this.min.y )\n\t\t);\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box intersects with this bounding box.\n\t *\n\t * @param {Box2} box - The bounding box to test.\n\t * @return {boolean} Whether the given bounding box intersects with this bounding box.\n\t */\n\tintersectsBox( box ) {\n\n\t\t// using 4 splitting planes to rule out intersections\n\n\t\treturn box.max.x >= this.min.x && box.min.x <= this.max.x &&\n\t\t\tbox.max.y >= this.min.y && box.min.y <= this.max.y;\n\n\t}\n\n\t/**\n\t * Clamps the given point within the bounds of this box.\n\t *\n\t * @param {Vector2} point - The point to clamp.\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} The clamped point.\n\t */\n\tclampPoint( point, target ) {\n\n\t\treturn target.copy( point ).clamp( this.min, this.max );\n\n\t}\n\n\t/**\n\t * Returns the euclidean distance from any edge of this box to the specified point. If\n\t * the given point lies inside of this box, the distance will be `0`.\n\t *\n\t * @param {Vector2} point - The point to compute the distance to.\n\t * @return {number} The euclidean distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn this.clampPoint( point, _vector$4 ).distanceTo( point );\n\n\t}\n\n\t/**\n\t * Computes the intersection of this bounding box and the given one, setting the upper\n\t * bound of this box to the lesser of the two boxes' upper bounds and the\n\t * lower bound of this box to the greater of the two boxes' lower bounds. If\n\t * there's no overlap, makes this box empty.\n\t *\n\t * @param {Box2} box - The bounding box to intersect with.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tintersect( box ) {\n\n\t\tthis.min.max( box.min );\n\t\tthis.max.min( box.max );\n\n\t\tif ( this.isEmpty() ) this.makeEmpty();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the union of this box and another and the given one, setting the upper\n\t * bound of this box to the greater of the two boxes' upper bounds and the\n\t * lower bound of this box to the lesser of the two boxes' lower bounds.\n\t *\n\t * @param {Box2} box - The bounding box that will be unioned with this instance.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tunion( box ) {\n\n\t\tthis.min.min( box.min );\n\t\tthis.max.max( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given offset to both the upper and lower bounds of this bounding box,\n\t * effectively moving it in 2D space.\n\t *\n\t * @param {Vector2} offset - The offset that should be used to translate the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.min.add( offset );\n\t\tthis.max.add( offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box is equal with the given one.\n\t *\n\t * @param {Box2} box - The box to test for equality.\n\t * @return {boolean} Whether this bounding box is equal with the given one.\n\t */\n\tequals( box ) {\n\n\t\treturn box.min.equals( this.min ) && box.max.equals( this.max );\n\n\t}\n\n}\n\nconst _startP = /*@__PURE__*/ new Vector3();\nconst _startEnd = /*@__PURE__*/ new Vector3();\n\nconst _d1 = /*@__PURE__*/ new Vector3();\nconst _d2 = /*@__PURE__*/ new Vector3();\nconst _r = /*@__PURE__*/ new Vector3();\nconst _c1 = /*@__PURE__*/ new Vector3();\nconst _c2 = /*@__PURE__*/ new Vector3();\n\n/**\n * An analytical line segment in 3D space represented by a start and end point.\n */\nclass Line3 {\n\n\t/**\n\t * Constructs a new line segment.\n\t *\n\t * @param {Vector3} [start=(0,0,0)] - Start of the line segment.\n\t * @param {Vector3} [end=(0,0,0)] - End of the line segment.\n\t */\n\tconstructor( start = new Vector3(), end = new Vector3() ) {\n\n\t\t/**\n\t\t * Start of the line segment.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.start = start;\n\n\t\t/**\n\t\t * End of the line segment.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.end = end;\n\n\t}\n\n\t/**\n\t * Sets the start and end values by copying the given vectors.\n\t *\n\t * @param {Vector3} start - The start point.\n\t * @param {Vector3} end - The end point.\n\t * @return {Line3} A reference to this line segment.\n\t */\n\tset( start, end ) {\n\n\t\tthis.start.copy( start );\n\t\tthis.end.copy( end );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given line segment to this instance.\n\t *\n\t * @param {Line3} line - The line segment to copy.\n\t * @return {Line3} A reference to this line segment.\n\t */\n\tcopy( line ) {\n\n\t\tthis.start.copy( line.start );\n\t\tthis.end.copy( line.end );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the center of the line segment.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The center point.\n\t */\n\tgetCenter( target ) {\n\n\t\treturn target.addVectors( this.start, this.end ).multiplyScalar( 0.5 );\n\n\t}\n\n\t/**\n\t * Returns the delta vector of the line segment's start and end point.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The delta vector.\n\t */\n\tdelta( target ) {\n\n\t\treturn target.subVectors( this.end, this.start );\n\n\t}\n\n\t/**\n\t * Returns the squared Euclidean distance between the line' start and end point.\n\t *\n\t * @return {number} The squared Euclidean distance.\n\t */\n\tdistanceSq() {\n\n\t\treturn this.start.distanceToSquared( this.end );\n\n\t}\n\n\t/**\n\t * Returns the Euclidean distance between the line' start and end point.\n\t *\n\t * @return {number} The Euclidean distance.\n\t */\n\tdistance() {\n\n\t\treturn this.start.distanceTo( this.end );\n\n\t}\n\n\t/**\n\t * Returns a vector at a certain position along the line segment.\n\t *\n\t * @param {number} t - A value between `[0,1]` to represent a position along the line segment.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The delta vector.\n\t */\n\tat( t, target ) {\n\n\t\treturn this.delta( target ).multiplyScalar( t ).add( this.start );\n\n\t}\n\n\t/**\n\t * Returns a point parameter based on the closest point as projected on the line segment.\n\t *\n\t * @param {Vector3} point - The point for which to return a point parameter.\n\t * @param {boolean} clampToLine - Whether to clamp the result to the range `[0,1]` or not.\n\t * @return {number} The point parameter.\n\t */\n\tclosestPointToPointParameter( point, clampToLine ) {\n\n\t\t_startP.subVectors( point, this.start );\n\t\t_startEnd.subVectors( this.end, this.start );\n\n\t\tconst startEnd2 = _startEnd.dot( _startEnd );\n\t\tconst startEnd_startP = _startEnd.dot( _startP );\n\n\t\tlet t = startEnd_startP / startEnd2;\n\n\t\tif ( clampToLine ) {\n\n\t\t\tt = clamp( t, 0, 1 );\n\n\t\t}\n\n\t\treturn t;\n\n\t}\n\n\t/**\n\t * Returns the closest point on the line for a given point.\n\t *\n\t * @param {Vector3} point - The point to compute the closest point on the line for.\n\t * @param {boolean} clampToLine - Whether to clamp the result to the range `[0,1]` or not.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The closest point on the line.\n\t */\n\tclosestPointToPoint( point, clampToLine, target ) {\n\n\t\tconst t = this.closestPointToPointParameter( point, clampToLine );\n\n\t\treturn this.delta( target ).multiplyScalar( t ).add( this.start );\n\n\t}\n\n\t/**\n\t * Returns the closest squared distance between this line segment and the given one.\n\t *\n\t * @param {Line3} line - The line segment to compute the closest squared distance to.\n\t * @param {Vector3} [c1] - The closest point on this line segment.\n\t * @param {Vector3} [c2] - The closest point on the given line segment.\n\t * @return {number} The squared distance between this line segment and the given one.\n\t */\n\tdistanceSqToLine3( line, c1 = _c1, c2 = _c2 ) {\n\n\t\t// from Real-Time Collision Detection by Christer Ericson, chapter 5.1.9\n\n\t\t// Computes closest points C1 and C2 of S1(s)=P1+s*(Q1-P1) and\n\t\t// S2(t)=P2+t*(Q2-P2), returning s and t. Function result is squared\n\t\t// distance between between S1(s) and S2(t)\n\n\t\tconst EPSILON = 1e-8 * 1e-8; // must be squared since we compare squared length\n\t\tlet s, t;\n\n\t\tconst p1 = this.start;\n\t\tconst p2 = line.start;\n\t\tconst q1 = this.end;\n\t\tconst q2 = line.end;\n\n\t\t_d1.subVectors( q1, p1 ); // Direction vector of segment S1\n\t\t_d2.subVectors( q2, p2 ); // Direction vector of segment S2\n\t\t_r.subVectors( p1, p2 );\n\n\t\tconst a = _d1.dot( _d1 ); // Squared length of segment S1, always nonnegative\n\t\tconst e = _d2.dot( _d2 ); // Squared length of segment S2, always nonnegative\n\t\tconst f = _d2.dot( _r );\n\n\t\t// Check if either or both segments degenerate into points\n\n\t\tif ( a <= EPSILON && e <= EPSILON ) {\n\n\t\t\t// Both segments degenerate into points\n\n\t\t\tc1.copy( p1 );\n\t\t\tc2.copy( p2 );\n\n\t\t\tc1.sub( c2 );\n\n\t\t\treturn c1.dot( c1 );\n\n\t\t}\n\n\t\tif ( a <= EPSILON ) {\n\n\t\t\t// First segment degenerates into a point\n\n\t\t\ts = 0;\n\t\t\tt = f / e; // s = 0 => t = (b*s + f) / e = f / e\n\t\t\tt = clamp( t, 0, 1 );\n\n\n\t\t} else {\n\n\t\t\tconst c = _d1.dot( _r );\n\n\t\t\tif ( e <= EPSILON ) {\n\n\t\t\t\t// Second segment degenerates into a point\n\n\t\t\t\tt = 0;\n\t\t\t\ts = clamp( - c / a, 0, 1 ); // t = 0 => s = (b*t - c) / a = -c / a\n\n\t\t\t} else {\n\n\t\t\t\t// The general nondegenerate case starts here\n\n\t\t\t\tconst b = _d1.dot( _d2 );\n\t\t\t\tconst denom = a * e - b * b; // Always nonnegative\n\n\t\t\t\t// If segments not parallel, compute closest point on L1 to L2 and\n\t\t\t\t// clamp to segment S1. Else pick arbitrary s (here 0)\n\n\t\t\t\tif ( denom !== 0 ) {\n\n\t\t\t\t\ts = clamp( ( b * f - c * e ) / denom, 0, 1 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\ts = 0;\n\n\t\t\t\t}\n\n\t\t\t\t// Compute point on L2 closest to S1(s) using\n\t\t\t\t// t = Dot((P1 + D1*s) - P2,D2) / Dot(D2,D2) = (b*s + f) / e\n\n\t\t\t\tt = ( b * s + f ) / e;\n\n\t\t\t\t// If t in [0,1] done. Else clamp t, recompute s for the new value\n\t\t\t\t// of t using s = Dot((P2 + D2*t) - P1,D1) / Dot(D1,D1)= (t*b - c) / a\n\t\t\t\t// and clamp s to [0, 1]\n\n\t\t\t\tif ( t < 0 ) {\n\n\t\t\t\t\tt = 0.;\n\t\t\t\t\ts = clamp( - c / a, 0, 1 );\n\n\t\t\t\t} else if ( t > 1 ) {\n\n\t\t\t\t\tt = 1;\n\t\t\t\t\ts = clamp( ( b - c ) / a, 0, 1 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tc1.copy( p1 ).add( _d1.multiplyScalar( s ) );\n\t\tc2.copy( p2 ).add( _d2.multiplyScalar( t ) );\n\n\t\tc1.sub( c2 );\n\n\t\treturn c1.dot( c1 );\n\n\t}\n\n\t/**\n\t * Applies a 4x4 transformation matrix to this line segment.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @return {Line3} A reference to this line segment.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tthis.start.applyMatrix4( matrix );\n\t\tthis.end.applyMatrix4( matrix );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this line segment is equal with the given one.\n\t *\n\t * @param {Line3} line - The line segment to test for equality.\n\t * @return {boolean} Whether this line segment is equal with the given one.\n\t */\n\tequals( line ) {\n\n\t\treturn line.start.equals( this.start ) && line.end.equals( this.end );\n\n\t}\n\n\t/**\n\t * Returns a new line segment with copied values from this instance.\n\t *\n\t * @return {Line3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _vector$3 = /*@__PURE__*/ new Vector3();\n\n/**\n * This displays a cone shaped helper object for a {@link SpotLight}.\n *\n * ```js\n * const spotLight = new THREE.SpotLight( 0xffffff );\n * spotLight.position.set( 10, 10, 10 );\n * scene.add( spotLight );\n *\n * const spotLightHelper = new THREE.SpotLightHelper( spotLight );\n * scene.add( spotLightHelper );\n * ```\n *\n * @augments Object3D\n */\nclass SpotLightHelper extends Object3D {\n\n\t/**\n\t * Constructs a new spot light helper.\n\t *\n\t * @param {HemisphereLight} light - The light to be visualized.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, color ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {SpotLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'SpotLightHelper';\n\n\t\tconst geometry = new BufferGeometry();\n\n\t\tconst positions = [\n\t\t\t0, 0, 0, \t0, 0, 1,\n\t\t\t0, 0, 0, \t1, 0, 1,\n\t\t\t0, 0, 0,\t-1, 0, 1,\n\t\t\t0, 0, 0, \t0, 1, 1,\n\t\t\t0, 0, 0, \t0, -1, 1\n\t\t];\n\n\t\tfor ( let i = 0, j = 1, l = 32; i < l; i ++, j ++ ) {\n\n\t\t\tconst p1 = ( i / l ) * Math.PI * 2;\n\t\t\tconst p2 = ( j / l ) * Math.PI * 2;\n\n\t\t\tpositions.push(\n\t\t\t\tMath.cos( p1 ), Math.sin( p1 ), 1,\n\t\t\t\tMath.cos( p2 ), Math.sin( p2 ), 1\n\t\t\t);\n\n\t\t}\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( positions, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { fog: false, toneMapped: false } );\n\n\t\tthis.cone = new LineSegments( geometry, material );\n\t\tthis.add( this.cone );\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.cone.geometry.dispose();\n\t\tthis.cone.material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\t\tthis.light.target.updateWorldMatrix( true, false );\n\n\t\t// update the local matrix based on the parent and light target transforms\n\t\tif ( this.parent ) {\n\n\t\t\tthis.parent.updateWorldMatrix( true );\n\n\t\t\tthis.matrix\n\t\t\t\t.copy( this.parent.matrixWorld )\n\t\t\t\t.invert()\n\t\t\t\t.multiply( this.light.matrixWorld );\n\n\t\t} else {\n\n\t\t\tthis.matrix.copy( this.light.matrixWorld );\n\n\t\t}\n\n\t\tthis.matrixWorld.copy( this.light.matrixWorld );\n\n\t\tconst coneLength = this.light.distance ? this.light.distance : 1000;\n\t\tconst coneWidth = coneLength * Math.tan( this.light.angle );\n\n\t\tthis.cone.scale.set( coneWidth, coneWidth, coneLength );\n\n\t\t_vector$3.setFromMatrixPosition( this.light.target.matrixWorld );\n\n\t\tthis.cone.lookAt( _vector$3 );\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.cone.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tthis.cone.material.color.copy( this.light.color );\n\n\t\t}\n\n\t}\n\n}\n\nconst _vector$2 = /*@__PURE__*/ new Vector3();\nconst _boneMatrix = /*@__PURE__*/ new Matrix4();\nconst _matrixWorldInv = /*@__PURE__*/ new Matrix4();\n\n/**\n * A helper object to assist with visualizing a {@link Skeleton}.\n *\n * ```js\n * const helper = new THREE.SkeletonHelper( skinnedMesh );\n * scene.add( helper );\n * ```\n *\n * @augments LineSegments\n */\nclass SkeletonHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new skeleton helper.\n\t *\n\t * @param {Object3D} object - Usually an instance of {@link SkinnedMesh}. However, any 3D object\n\t * can be used if it represents a hierarchy of bones (see {@link Bone}).\n\t */\n\tconstructor( object ) {\n\n\t\tconst bones = getBoneList( object );\n\n\t\tconst geometry = new BufferGeometry();\n\n\t\tconst vertices = [];\n\t\tconst colors = [];\n\n\t\tfor ( let i = 0; i < bones.length; i ++ ) {\n\n\t\t\tconst bone = bones[ i ];\n\n\t\t\tif ( bone.parent && bone.parent.isBone ) {\n\n\t\t\t\tvertices.push( 0, 0, 0 );\n\t\t\t\tvertices.push( 0, 0, 0 );\n\t\t\t\tcolors.push( 0, 0, 0 );\n\t\t\t\tcolors.push( 0, 0, 0 );\n\n\t\t\t}\n\n\t\t}\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, depthTest: false, depthWrite: false, toneMapped: false, transparent: true } );\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSkeletonHelper = true;\n\n\t\tthis.type = 'SkeletonHelper';\n\n\t\t/**\n\t\t * The object being visualized.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.root = object;\n\n\t\t/**\n\t\t * The list of bones that the helper visualizes.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.bones = bones;\n\n\t\tthis.matrix = object.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t// colors\n\n\t\tconst color1 = new Color( 0x0000ff );\n\t\tconst color2 = new Color( 0x00ff00 );\n\n\t\tthis.setColors( color1, color2 );\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tconst bones = this.bones;\n\n\t\tconst geometry = this.geometry;\n\t\tconst position = geometry.getAttribute( 'position' );\n\n\t\t_matrixWorldInv.copy( this.root.matrixWorld ).invert();\n\n\t\tfor ( let i = 0, j = 0; i < bones.length; i ++ ) {\n\n\t\t\tconst bone = bones[ i ];\n\n\t\t\tif ( bone.parent && bone.parent.isBone ) {\n\n\t\t\t\t_boneMatrix.multiplyMatrices( _matrixWorldInv, bone.matrixWorld );\n\t\t\t\t_vector$2.setFromMatrixPosition( _boneMatrix );\n\t\t\t\tposition.setXYZ( j, _vector$2.x, _vector$2.y, _vector$2.z );\n\n\t\t\t\t_boneMatrix.multiplyMatrices( _matrixWorldInv, bone.parent.matrixWorld );\n\t\t\t\t_vector$2.setFromMatrixPosition( _boneMatrix );\n\t\t\t\tposition.setXYZ( j + 1, _vector$2.x, _vector$2.y, _vector$2.z );\n\n\t\t\t\tj += 2;\n\n\t\t\t}\n\n\t\t}\n\n\t\tgeometry.getAttribute( 'position' ).needsUpdate = true;\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t}\n\n\t/**\n\t * Defines the colors of the helper.\n\t *\n\t * @param {Color} color1 - The first line color for each bone.\n\t * @param {Color} color2 - The second line color for each bone.\n\t * @return {SkeletonHelper} A reference to this helper.\n\t */\n\tsetColors( color1, color2 ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst colorAttribute = geometry.getAttribute( 'color' );\n\n\t\tfor ( let i = 0; i < colorAttribute.count; i += 2 ) {\n\n\t\t\tcolorAttribute.setXYZ( i, color1.r, color1.g, color1.b );\n\t\t\tcolorAttribute.setXYZ( i + 1, color2.r, color2.g, color2.b );\n\n\t\t}\n\n\t\tcolorAttribute.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n\nfunction getBoneList( object ) {\n\n\tconst boneList = [];\n\n\tif ( object.isBone === true ) {\n\n\t\tboneList.push( object );\n\n\t}\n\n\tfor ( let i = 0; i < object.children.length; i ++ ) {\n\n\t\tboneList.push( ...getBoneList( object.children[ i ] ) );\n\n\t}\n\n\treturn boneList;\n\n}\n\n/**\n * This displays a helper object consisting of a spherical mesh for\n * visualizing an instance of {@link PointLight}.\n *\n * ```js\n * const pointLight = new THREE.PointLight( 0xff0000, 1, 100 );\n * pointLight.position.set( 10, 10, 10 );\n * scene.add( pointLight );\n *\n * const sphereSize = 1;\n * const pointLightHelper = new THREE.PointLightHelper( pointLight, sphereSize );\n * scene.add( pointLightHelper );\n * ```\n *\n * @augments Mesh\n */\nclass PointLightHelper extends Mesh {\n\n\t/**\n\t * Constructs a new point light helper.\n\t *\n\t * @param {PointLight} light - The light to be visualized.\n\t * @param {number} [sphereSize=1] - The size of the sphere helper.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, sphereSize, color ) {\n\n\t\tconst geometry = new SphereGeometry( sphereSize, 4, 2 );\n\t\tconst material = new MeshBasicMaterial( { wireframe: true, fog: false, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {HemisphereLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'PointLightHelper';\n\n\t\tthis.matrix = this.light.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\tthis.update();\n\n\n\t\t/*\n\t// TODO: delete this comment?\n\tconst distanceGeometry = new THREE.IcosahedronGeometry( 1, 2 );\n\tconst distanceMaterial = new THREE.MeshBasicMaterial( { color: hexColor, fog: false, wireframe: true, opacity: 0.1, transparent: true } );\n\n\tthis.lightSphere = new THREE.Mesh( bulbGeometry, bulbMaterial );\n\tthis.lightDistance = new THREE.Mesh( distanceGeometry, distanceMaterial );\n\n\tconst d = light.distance;\n\n\tif ( d === 0.0 ) {\n\n\t\tthis.lightDistance.visible = false;\n\n\t} else {\n\n\t\tthis.lightDistance.scale.set( d, d, d );\n\n\t}\n\n\tthis.add( this.lightDistance );\n\t*/\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tthis.material.color.copy( this.light.color );\n\n\t\t}\n\n\t\t/*\n\t\tconst d = this.light.distance;\n\n\t\tif ( d === 0.0 ) {\n\n\t\t\tthis.lightDistance.visible = false;\n\n\t\t} else {\n\n\t\t\tthis.lightDistance.visible = true;\n\t\t\tthis.lightDistance.scale.set( d, d, d );\n\n\t\t}\n\t\t*/\n\n\t}\n\n}\n\nconst _vector$1 = /*@__PURE__*/ new Vector3();\nconst _color1 = /*@__PURE__*/ new Color();\nconst _color2 = /*@__PURE__*/ new Color();\n\n/**\n * Creates a visual aid consisting of a spherical mesh for a\n * given {@link HemisphereLight}.\n *\n * ```js\n * const light = new THREE.HemisphereLight( 0xffffbb, 0x080820, 1 );\n * const helper = new THREE.HemisphereLightHelper( light, 5 );\n * scene.add( helper );\n * ```\n *\n * @augments Object3D\n */\nclass HemisphereLightHelper extends Object3D {\n\n\t/**\n\t * Constructs a new hemisphere light helper.\n\t *\n\t * @param {HemisphereLight} light - The light to be visualized.\n\t * @param {number} [size=1] - The size of the mesh used to visualize the light.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, size, color ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {HemisphereLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\tthis.matrix = light.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'HemisphereLightHelper';\n\n\t\tconst geometry = new OctahedronGeometry( size );\n\t\tgeometry.rotateY( Math.PI * 0.5 );\n\n\t\tthis.material = new MeshBasicMaterial( { wireframe: true, fog: false, toneMapped: false } );\n\t\tif ( this.color === undefined ) this.material.vertexColors = true;\n\n\t\tconst position = geometry.getAttribute( 'position' );\n\t\tconst colors = new Float32Array( position.count * 3 );\n\n\t\tgeometry.setAttribute( 'color', new BufferAttribute( colors, 3 ) );\n\n\t\tthis.add( new Mesh( geometry, this.material ) );\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.children[ 0 ].geometry.dispose();\n\t\tthis.children[ 0 ].material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tconst mesh = this.children[ 0 ];\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tconst colors = mesh.geometry.getAttribute( 'color' );\n\n\t\t\t_color1.copy( this.light.color );\n\t\t\t_color2.copy( this.light.groundColor );\n\n\t\t\tfor ( let i = 0, l = colors.count; i < l; i ++ ) {\n\n\t\t\t\tconst color = ( i < ( l / 2 ) ) ? _color1 : _color2;\n\n\t\t\t\tcolors.setXYZ( i, color.r, color.g, color.b );\n\n\t\t\t}\n\n\t\t\tcolors.needsUpdate = true;\n\n\t\t}\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\n\t\tmesh.lookAt( _vector$1.setFromMatrixPosition( this.light.matrixWorld ).negate() );\n\n\t}\n\n}\n\n/**\n * The helper is an object to define grids. Grids are two-dimensional\n * arrays of lines.\n *\n * ```js\n * const size = 10;\n * const divisions = 10;\n *\n * const gridHelper = new THREE.GridHelper( size, divisions );\n * scene.add( gridHelper );\n * ```\n *\n * @augments LineSegments\n */\nclass GridHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new grid helper.\n\t *\n\t * @param {number} [size=10] - The size of the grid.\n\t * @param {number} [divisions=10] - The number of divisions across the grid.\n\t * @param {number|Color|string} [color1=0x444444] - The color of the center line.\n\t * @param {number|Color|string} [color2=0x888888] - The color of the lines of the grid.\n\t */\n\tconstructor( size = 10, divisions = 10, color1 = 0x444444, color2 = 0x888888 ) {\n\n\t\tcolor1 = new Color( color1 );\n\t\tcolor2 = new Color( color2 );\n\n\t\tconst center = divisions / 2;\n\t\tconst step = size / divisions;\n\t\tconst halfSize = size / 2;\n\n\t\tconst vertices = [], colors = [];\n\n\t\tfor ( let i = 0, j = 0, k = - halfSize; i <= divisions; i ++, k += step ) {\n\n\t\t\tvertices.push( - halfSize, 0, k, halfSize, 0, k );\n\t\t\tvertices.push( k, 0, - halfSize, k, 0, halfSize );\n\n\t\t\tconst color = i === center ? color1 : color2;\n\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\n\t\t}\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'GridHelper';\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * This helper is an object to define polar grids. Grids are\n * two-dimensional arrays of lines.\n *\n * ```js\n * const radius = 10;\n * const sectors = 16;\n * const rings = 8;\n * const divisions = 64;\n *\n * const helper = new THREE.PolarGridHelper( radius, sectors, rings, divisions );\n * scene.add( helper );\n * ```\n *\n * @augments LineSegments\n */\nclass PolarGridHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new polar grid helper.\n\t *\n\t * @param {number} [radius=10] - The radius of the polar grid. This can be any positive number.\n\t * @param {number} [sectors=16] - The number of sectors the grid will be divided into. This can be any positive integer.\n\t * @param {number} [rings=16] - The number of rings. This can be any positive integer.\n\t * @param {number} [divisions=64] - The number of line segments used for each circle. This can be any positive integer.\n\t * @param {number|Color|string} [color1=0x444444] - The first color used for grid elements.\n\t * @param {number|Color|string} [color2=0x888888] - The second color used for grid elements.\n\t */\n\tconstructor( radius = 10, sectors = 16, rings = 8, divisions = 64, color1 = 0x444444, color2 = 0x888888 ) {\n\n\t\tcolor1 = new Color( color1 );\n\t\tcolor2 = new Color( color2 );\n\n\t\tconst vertices = [];\n\t\tconst colors = [];\n\n\t\t// create the sectors\n\n\t\tif ( sectors > 1 ) {\n\n\t\t\tfor ( let i = 0; i < sectors; i ++ ) {\n\n\t\t\t\tconst v = ( i / sectors ) * ( Math.PI * 2 );\n\n\t\t\t\tconst x = Math.sin( v ) * radius;\n\t\t\t\tconst z = Math.cos( v ) * radius;\n\n\t\t\t\tvertices.push( 0, 0, 0 );\n\t\t\t\tvertices.push( x, 0, z );\n\n\t\t\t\tconst color = ( i & 1 ) ? color1 : color2;\n\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// create the rings\n\n\t\tfor ( let i = 0; i < rings; i ++ ) {\n\n\t\t\tconst color = ( i & 1 ) ? color1 : color2;\n\n\t\t\tconst r = radius - ( radius / rings * i );\n\n\t\t\tfor ( let j = 0; j < divisions; j ++ ) {\n\n\t\t\t\t// first vertex\n\n\t\t\t\tlet v = ( j / divisions ) * ( Math.PI * 2 );\n\n\t\t\t\tlet x = Math.sin( v ) * r;\n\t\t\t\tlet z = Math.cos( v ) * r;\n\n\t\t\t\tvertices.push( x, 0, z );\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\n\t\t\t\t// second vertex\n\n\t\t\t\tv = ( ( j + 1 ) / divisions ) * ( Math.PI * 2 );\n\n\t\t\t\tx = Math.sin( v ) * r;\n\t\t\t\tz = Math.cos( v ) * r;\n\n\t\t\t\tvertices.push( x, 0, z );\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'PolarGridHelper';\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\nconst _v1 = /*@__PURE__*/ new Vector3();\nconst _v2 = /*@__PURE__*/ new Vector3();\nconst _v3 = /*@__PURE__*/ new Vector3();\n\n/**\n * Helper object to assist with visualizing a {@link DirectionalLight}'s\n * effect on the scene. This consists of plane and a line representing the\n * light's position and direction.\n *\n * ```js\n * const light = new THREE.DirectionalLight( 0xFFFFFF );\n * scene.add( light );\n *\n * const helper = new THREE.DirectionalLightHelper( light, 5 );\n * scene.add( helper );\n * ```\n *\n * @augments Object3D\n */\nclass DirectionalLightHelper extends Object3D {\n\n\t/**\n\t * Constructs a new directional light helper.\n\t *\n\t * @param {DirectionalLight} light - The light to be visualized.\n\t * @param {number} [size=1] - The dimensions of the plane.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, size, color ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {DirectionalLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\tthis.matrix = light.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'DirectionalLightHelper';\n\n\t\tif ( size === undefined ) size = 1;\n\n\t\tlet geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( [\n\t\t\t- size, size, 0,\n\t\t\tsize, size, 0,\n\t\t\tsize, - size, 0,\n\t\t\t- size, - size, 0,\n\t\t\t- size, size, 0\n\t\t], 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { fog: false, toneMapped: false } );\n\n\t\t/**\n\t\t * Contains the line showing the location of the directional light.\n\t\t *\n\t\t * @type {Line}\n\t\t */\n\t\tthis.lightPlane = new Line( geometry, material );\n\t\tthis.add( this.lightPlane );\n\n\t\tgeometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( [ 0, 0, 0, 0, 0, 1 ], 3 ) );\n\n\t\t/**\n\t\t * Represents the target line of the directional light.\n\t\t *\n\t\t * @type {Line}\n\t\t */\n\t\tthis.targetLine = new Line( geometry, material );\n\t\tthis.add( this.targetLine );\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.lightPlane.geometry.dispose();\n\t\tthis.lightPlane.material.dispose();\n\t\tthis.targetLine.geometry.dispose();\n\t\tthis.targetLine.material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\t\tthis.light.target.updateWorldMatrix( true, false );\n\n\t\t_v1.setFromMatrixPosition( this.light.matrixWorld );\n\t\t_v2.setFromMatrixPosition( this.light.target.matrixWorld );\n\t\t_v3.subVectors( _v2, _v1 );\n\n\t\tthis.lightPlane.lookAt( _v2 );\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.lightPlane.material.color.set( this.color );\n\t\t\tthis.targetLine.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tthis.lightPlane.material.color.copy( this.light.color );\n\t\t\tthis.targetLine.material.color.copy( this.light.color );\n\n\t\t}\n\n\t\tthis.targetLine.lookAt( _v2 );\n\t\tthis.targetLine.scale.z = _v3.length();\n\n\t}\n\n}\n\nconst _vector = /*@__PURE__*/ new Vector3();\nconst _camera = /*@__PURE__*/ new Camera();\n\n/**\n * This helps with visualizing what a camera contains in its frustum. It\n * visualizes the frustum of a camera using a line segments.\n *\n * Based on frustum visualization in [lightgl.js shadowmap example]{@link https://github.com/evanw/lightgl.js/blob/master/tests/shadowmap.html}.\n *\n * `CameraHelper` must be a child of the scene.\n *\n * ```js\n * const camera = new THREE.PerspectiveCamera( 75, window.innerWidth / window.innerHeight, 0.1, 1000 );\n * const helper = new THREE.CameraHelper( camera );\n * scene.add( helper );\n * ```\n *\n * @augments LineSegments\n */\nclass CameraHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new arrow helper.\n\t *\n\t * @param {Camera} camera - The camera to visualize.\n\t */\n\tconstructor( camera ) {\n\n\t\tconst geometry = new BufferGeometry();\n\t\tconst material = new LineBasicMaterial( { color: 0xffffff, vertexColors: true, toneMapped: false } );\n\n\t\tconst vertices = [];\n\t\tconst colors = [];\n\n\t\tconst pointMap = {};\n\n\t\t// near\n\n\t\taddLine( 'n1', 'n2' );\n\t\taddLine( 'n2', 'n4' );\n\t\taddLine( 'n4', 'n3' );\n\t\taddLine( 'n3', 'n1' );\n\n\t\t// far\n\n\t\taddLine( 'f1', 'f2' );\n\t\taddLine( 'f2', 'f4' );\n\t\taddLine( 'f4', 'f3' );\n\t\taddLine( 'f3', 'f1' );\n\n\t\t// sides\n\n\t\taddLine( 'n1', 'f1' );\n\t\taddLine( 'n2', 'f2' );\n\t\taddLine( 'n3', 'f3' );\n\t\taddLine( 'n4', 'f4' );\n\n\t\t// cone\n\n\t\taddLine( 'p', 'n1' );\n\t\taddLine( 'p', 'n2' );\n\t\taddLine( 'p', 'n3' );\n\t\taddLine( 'p', 'n4' );\n\n\t\t// up\n\n\t\taddLine( 'u1', 'u2' );\n\t\taddLine( 'u2', 'u3' );\n\t\taddLine( 'u3', 'u1' );\n\n\t\t// target\n\n\t\taddLine( 'c', 't' );\n\t\taddLine( 'p', 'c' );\n\n\t\t// cross\n\n\t\taddLine( 'cn1', 'cn2' );\n\t\taddLine( 'cn3', 'cn4' );\n\n\t\taddLine( 'cf1', 'cf2' );\n\t\taddLine( 'cf3', 'cf4' );\n\n\t\tfunction addLine( a, b ) {\n\n\t\t\taddPoint( a );\n\t\t\taddPoint( b );\n\n\t\t}\n\n\t\tfunction addPoint( id ) {\n\n\t\t\tvertices.push( 0, 0, 0 );\n\t\t\tcolors.push( 0, 0, 0 );\n\n\t\t\tif ( pointMap[ id ] === undefined ) {\n\n\t\t\t\tpointMap[ id ] = [];\n\n\t\t\t}\n\n\t\t\tpointMap[ id ].push( ( vertices.length / 3 ) - 1 );\n\n\t\t}\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'CameraHelper';\n\n\t\t/**\n\t\t * The camera being visualized.\n\t\t *\n\t\t * @type {Camera}\n\t\t */\n\t\tthis.camera = camera;\n\t\tif ( this.camera.updateProjectionMatrix ) this.camera.updateProjectionMatrix();\n\n\t\tthis.matrix = camera.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * This contains the points used to visualize the camera.\n\t\t *\n\t\t * @type {Object>}\n\t\t */\n\t\tthis.pointMap = pointMap;\n\n\t\tthis.update();\n\n\t\t// colors\n\n\t\tconst colorFrustum = new Color( 0xffaa00 );\n\t\tconst colorCone = new Color( 0xff0000 );\n\t\tconst colorUp = new Color( 0x00aaff );\n\t\tconst colorTarget = new Color( 0xffffff );\n\t\tconst colorCross = new Color( 0x333333 );\n\n\t\tthis.setColors( colorFrustum, colorCone, colorUp, colorTarget, colorCross );\n\n\t}\n\n\t/**\n\t * Defines the colors of the helper.\n\t *\n\t * @param {Color} frustum - The frustum line color.\n\t * @param {Color} cone - The cone line color.\n\t * @param {Color} up - The up line color.\n\t * @param {Color} target - The target line color.\n\t * @param {Color} cross - The cross line color.\n\t * @return {CameraHelper} A reference to this helper.\n\t */\n\tsetColors( frustum, cone, up, target, cross ) {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst colorAttribute = geometry.getAttribute( 'color' );\n\n\t\t// near\n\n\t\tcolorAttribute.setXYZ( 0, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 1, frustum.r, frustum.g, frustum.b ); // n1, n2\n\t\tcolorAttribute.setXYZ( 2, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 3, frustum.r, frustum.g, frustum.b ); // n2, n4\n\t\tcolorAttribute.setXYZ( 4, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 5, frustum.r, frustum.g, frustum.b ); // n4, n3\n\t\tcolorAttribute.setXYZ( 6, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 7, frustum.r, frustum.g, frustum.b ); // n3, n1\n\n\t\t// far\n\n\t\tcolorAttribute.setXYZ( 8, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 9, frustum.r, frustum.g, frustum.b ); // f1, f2\n\t\tcolorAttribute.setXYZ( 10, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 11, frustum.r, frustum.g, frustum.b ); // f2, f4\n\t\tcolorAttribute.setXYZ( 12, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 13, frustum.r, frustum.g, frustum.b ); // f4, f3\n\t\tcolorAttribute.setXYZ( 14, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 15, frustum.r, frustum.g, frustum.b ); // f3, f1\n\n\t\t// sides\n\n\t\tcolorAttribute.setXYZ( 16, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 17, frustum.r, frustum.g, frustum.b ); // n1, f1\n\t\tcolorAttribute.setXYZ( 18, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 19, frustum.r, frustum.g, frustum.b ); // n2, f2\n\t\tcolorAttribute.setXYZ( 20, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 21, frustum.r, frustum.g, frustum.b ); // n3, f3\n\t\tcolorAttribute.setXYZ( 22, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 23, frustum.r, frustum.g, frustum.b ); // n4, f4\n\n\t\t// cone\n\n\t\tcolorAttribute.setXYZ( 24, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 25, cone.r, cone.g, cone.b ); // p, n1\n\t\tcolorAttribute.setXYZ( 26, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 27, cone.r, cone.g, cone.b ); // p, n2\n\t\tcolorAttribute.setXYZ( 28, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 29, cone.r, cone.g, cone.b ); // p, n3\n\t\tcolorAttribute.setXYZ( 30, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 31, cone.r, cone.g, cone.b ); // p, n4\n\n\t\t// up\n\n\t\tcolorAttribute.setXYZ( 32, up.r, up.g, up.b ); colorAttribute.setXYZ( 33, up.r, up.g, up.b ); // u1, u2\n\t\tcolorAttribute.setXYZ( 34, up.r, up.g, up.b ); colorAttribute.setXYZ( 35, up.r, up.g, up.b ); // u2, u3\n\t\tcolorAttribute.setXYZ( 36, up.r, up.g, up.b ); colorAttribute.setXYZ( 37, up.r, up.g, up.b ); // u3, u1\n\n\t\t// target\n\n\t\tcolorAttribute.setXYZ( 38, target.r, target.g, target.b ); colorAttribute.setXYZ( 39, target.r, target.g, target.b ); // c, t\n\t\tcolorAttribute.setXYZ( 40, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 41, cross.r, cross.g, cross.b ); // p, c\n\n\t\t// cross\n\n\t\tcolorAttribute.setXYZ( 42, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 43, cross.r, cross.g, cross.b ); // cn1, cn2\n\t\tcolorAttribute.setXYZ( 44, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 45, cross.r, cross.g, cross.b ); // cn3, cn4\n\n\t\tcolorAttribute.setXYZ( 46, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 47, cross.r, cross.g, cross.b ); // cf1, cf2\n\t\tcolorAttribute.setXYZ( 48, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 49, cross.r, cross.g, cross.b ); // cf3, cf4\n\n\t\tcolorAttribute.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Updates the helper based on the projection matrix of the camera.\n\t */\n\tupdate() {\n\n\t\tconst geometry = this.geometry;\n\t\tconst pointMap = this.pointMap;\n\n\t\tconst w = 1, h = 1;\n\n\t\tlet nearZ, farZ;\n\n\t\t// we need just camera projection matrix inverse\n\t\t// world matrix must be identity\n\n\t\t_camera.projectionMatrixInverse.copy( this.camera.projectionMatrixInverse );\n\n\t\t// Adjust z values based on coordinate system\n\n\t\tif ( this.camera.reversedDepth === true ) {\n\n\t\t\tnearZ = 1;\n\t\t\tfarZ = 0;\n\n\t\t} else {\n\n\t\t\tif ( this.camera.coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tnearZ = -1;\n\t\t\t\tfarZ = 1;\n\n\t\t\t} else if ( this.camera.coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tnearZ = 0;\n\t\t\t\tfarZ = 1;\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.CameraHelper.update(): Invalid coordinate system: ' + this.camera.coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\n\t\t// center / target\n\t\tsetPoint( 'c', pointMap, geometry, _camera, 0, 0, nearZ );\n\t\tsetPoint( 't', pointMap, geometry, _camera, 0, 0, farZ );\n\n\t\t// near\n\n\t\tsetPoint( 'n1', pointMap, geometry, _camera, - w, - h, nearZ );\n\t\tsetPoint( 'n2', pointMap, geometry, _camera, w, - h, nearZ );\n\t\tsetPoint( 'n3', pointMap, geometry, _camera, - w, h, nearZ );\n\t\tsetPoint( 'n4', pointMap, geometry, _camera, w, h, nearZ );\n\n\t\t// far\n\n\t\tsetPoint( 'f1', pointMap, geometry, _camera, - w, - h, farZ );\n\t\tsetPoint( 'f2', pointMap, geometry, _camera, w, - h, farZ );\n\t\tsetPoint( 'f3', pointMap, geometry, _camera, - w, h, farZ );\n\t\tsetPoint( 'f4', pointMap, geometry, _camera, w, h, farZ );\n\n\t\t// up\n\n\t\tsetPoint( 'u1', pointMap, geometry, _camera, w * 0.7, h * 1.1, nearZ );\n\t\tsetPoint( 'u2', pointMap, geometry, _camera, - w * 0.7, h * 1.1, nearZ );\n\t\tsetPoint( 'u3', pointMap, geometry, _camera, 0, h * 2, nearZ );\n\n\t\t// cross\n\n\t\tsetPoint( 'cf1', pointMap, geometry, _camera, - w, 0, farZ );\n\t\tsetPoint( 'cf2', pointMap, geometry, _camera, w, 0, farZ );\n\t\tsetPoint( 'cf3', pointMap, geometry, _camera, 0, - h, farZ );\n\t\tsetPoint( 'cf4', pointMap, geometry, _camera, 0, h, farZ );\n\n\t\tsetPoint( 'cn1', pointMap, geometry, _camera, - w, 0, nearZ );\n\t\tsetPoint( 'cn2', pointMap, geometry, _camera, w, 0, nearZ );\n\t\tsetPoint( 'cn3', pointMap, geometry, _camera, 0, - h, nearZ );\n\t\tsetPoint( 'cn4', pointMap, geometry, _camera, 0, h, nearZ );\n\n\t\tgeometry.getAttribute( 'position' ).needsUpdate = true;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n\nfunction setPoint( point, pointMap, geometry, camera, x, y, z ) {\n\n\t_vector.set( x, y, z ).unproject( camera );\n\n\tconst points = pointMap[ point ];\n\n\tif ( points !== undefined ) {\n\n\t\tconst position = geometry.getAttribute( 'position' );\n\n\t\tfor ( let i = 0, l = points.length; i < l; i ++ ) {\n\n\t\t\tposition.setXYZ( points[ i ], _vector.x, _vector.y, _vector.z );\n\n\t\t}\n\n\t}\n\n}\n\nconst _box = /*@__PURE__*/ new Box3();\n\n/**\n * Helper object to graphically show the world-axis-aligned bounding box\n * around an object. The actual bounding box is handled with {@link Box3},\n * this is just a visual helper for debugging. It can be automatically\n * resized with {@link BoxHelper#update} when the object it's created from\n * is transformed. Note that the object must have a geometry for this to work,\n * so it won't work with sprites.\n *\n * ```js\n * const sphere = new THREE.SphereGeometry();\n * const object = new THREE.Mesh( sphere, new THREE.MeshBasicMaterial( 0xff0000 ) );\n * const box = new THREE.BoxHelper( object, 0xffff00 );\n * scene.add( box );\n * ```\n *\n * @augments LineSegments\n */\nclass BoxHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new box helper.\n\t *\n\t * @param {Object3D} [object] - The 3D object to show the world-axis-aligned bounding box.\n\t * @param {number|Color|string} [color=0xffff00] - The box's color.\n\t */\n\tconstructor( object, color = 0xffff00 ) {\n\n\t\tconst indices = new Uint16Array( [ 0, 1, 1, 2, 2, 3, 3, 0, 4, 5, 5, 6, 6, 7, 7, 4, 0, 4, 1, 5, 2, 6, 3, 7 ] );\n\t\tconst positions = new Float32Array( 8 * 3 );\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setIndex( new BufferAttribute( indices, 1 ) );\n\t\tgeometry.setAttribute( 'position', new BufferAttribute( positions, 3 ) );\n\n\t\tsuper( geometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\n\t\t/**\n\t\t * The 3D object being visualized.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.object = object;\n\t\tthis.type = 'BoxHelper';\n\n\t\tthis.matrixAutoUpdate = false;\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Updates the helper's geometry to match the dimensions of the object,\n\t * including any children.\n\t */\n\tupdate() {\n\n\t\tif ( this.object !== undefined ) {\n\n\t\t\t_box.setFromObject( this.object );\n\n\t\t}\n\n\t\tif ( _box.isEmpty() ) return;\n\n\t\tconst min = _box.min;\n\t\tconst max = _box.max;\n\n\t\t/*\n\t\t\t5____4\n\t\t1/___0/|\n\t\t| 6__|_7\n\t\t2/___3/\n\n\t\t0: max.x, max.y, max.z\n\t\t1: min.x, max.y, max.z\n\t\t2: min.x, min.y, max.z\n\t\t3: max.x, min.y, max.z\n\t\t4: max.x, max.y, min.z\n\t\t5: min.x, max.y, min.z\n\t\t6: min.x, min.y, min.z\n\t\t7: max.x, min.y, min.z\n\t\t*/\n\n\t\tconst position = this.geometry.attributes.position;\n\t\tconst array = position.array;\n\n\t\tarray[ 0 ] = max.x; array[ 1 ] = max.y; array[ 2 ] = max.z;\n\t\tarray[ 3 ] = min.x; array[ 4 ] = max.y; array[ 5 ] = max.z;\n\t\tarray[ 6 ] = min.x; array[ 7 ] = min.y; array[ 8 ] = max.z;\n\t\tarray[ 9 ] = max.x; array[ 10 ] = min.y; array[ 11 ] = max.z;\n\t\tarray[ 12 ] = max.x; array[ 13 ] = max.y; array[ 14 ] = min.z;\n\t\tarray[ 15 ] = min.x; array[ 16 ] = max.y; array[ 17 ] = min.z;\n\t\tarray[ 18 ] = min.x; array[ 19 ] = min.y; array[ 20 ] = min.z;\n\t\tarray[ 21 ] = max.x; array[ 22 ] = min.y; array[ 23 ] = min.z;\n\n\t\tposition.needsUpdate = true;\n\n\t\tthis.geometry.computeBoundingSphere();\n\n\t}\n\n\t/**\n\t * Updates the wireframe box for the passed object.\n\t *\n\t * @param {Object3D} object - The 3D object to create the helper for.\n\t * @return {BoxHelper} A reference to this instance.\n\t */\n\tsetFromObject( object ) {\n\n\t\tthis.object = object;\n\t\tthis.update();\n\n\t\treturn this;\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.object = source.object;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * A helper object to visualize an instance of {@link Box3}.\n *\n * ```js\n * const box = new THREE.Box3();\n * box.setFromCenterAndSize( new THREE.Vector3( 1, 1, 1 ), new THREE.Vector3( 2, 1, 3 ) );\n *\n * const helper = new THREE.Box3Helper( box, 0xffff00 );\n * scene.add( helper )\n * ```\n *\n * @augments LineSegments\n */\nclass Box3Helper extends LineSegments {\n\n\t/**\n\t * Constructs a new box3 helper.\n\t *\n\t * @param {Box3} box - The box to visualize.\n\t * @param {number|Color|string} [color=0xffff00] - The box's color.\n\t */\n\tconstructor( box, color = 0xffff00 ) {\n\n\t\tconst indices = new Uint16Array( [ 0, 1, 1, 2, 2, 3, 3, 0, 4, 5, 5, 6, 6, 7, 7, 4, 0, 4, 1, 5, 2, 6, 3, 7 ] );\n\n\t\tconst positions = [ 1, 1, 1, -1, 1, 1, -1, -1, 1, 1, -1, 1, 1, 1, -1, -1, 1, -1, -1, -1, -1, 1, -1, -1 ];\n\n\t\tconst geometry = new BufferGeometry();\n\n\t\tgeometry.setIndex( new BufferAttribute( indices, 1 ) );\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( positions, 3 ) );\n\n\t\tsuper( geometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\n\t\t/**\n\t\t * The box being visualized.\n\t\t *\n\t\t * @type {Box3}\n\t\t */\n\t\tthis.box = box;\n\n\t\tthis.type = 'Box3Helper';\n\n\t\tthis.geometry.computeBoundingSphere();\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tconst box = this.box;\n\n\t\tif ( box.isEmpty() ) return;\n\n\t\tbox.getCenter( this.position );\n\n\t\tbox.getSize( this.scale );\n\n\t\tthis.scale.multiplyScalar( 0.5 );\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * A helper object to visualize an instance of {@link Plane}.\n *\n * ```js\n * const plane = new THREE.Plane( new THREE.Vector3( 1, 1, 0.2 ), 3 );\n * const helper = new THREE.PlaneHelper( plane, 1, 0xffff00 );\n * scene.add( helper );\n * ```\n *\n * @augments Line\n */\nclass PlaneHelper extends Line {\n\n\t/**\n\t * Constructs a new plane helper.\n\t *\n\t * @param {Plane} plane - The plane to be visualized.\n\t * @param {number} [size=1] - The side length of plane helper.\n\t * @param {number|Color|string} [hex=0xffff00] - The helper's color.\n\t */\n\tconstructor( plane, size = 1, hex = 0xffff00 ) {\n\n\t\tconst color = hex;\n\n\t\tconst positions = [ 1, -1, 0, -1, 1, 0, -1, -1, 0, 1, 1, 0, -1, 1, 0, -1, -1, 0, 1, -1, 0, 1, 1, 0 ];\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( positions, 3 ) );\n\t\tgeometry.computeBoundingSphere();\n\n\t\tsuper( geometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\n\t\tthis.type = 'PlaneHelper';\n\n\t\t/**\n\t\t * The plane being visualized.\n\t\t *\n\t\t * @type {Plane}\n\t\t */\n\t\tthis.plane = plane;\n\n\t\t/**\n\t\t * The side length of plane helper.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.size = size;\n\n\t\tconst positions2 = [ 1, 1, 0, -1, 1, 0, -1, -1, 0, 1, 1, 0, -1, -1, 0, 1, -1, 0 ];\n\n\t\tconst geometry2 = new BufferGeometry();\n\t\tgeometry2.setAttribute( 'position', new Float32BufferAttribute( positions2, 3 ) );\n\t\tgeometry2.computeBoundingSphere();\n\n\t\tthis.add( new Mesh( geometry2, new MeshBasicMaterial( { color: color, opacity: 0.2, transparent: true, depthWrite: false, toneMapped: false } ) ) );\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tthis.position.set( 0, 0, 0 );\n\n\t\tthis.scale.set( 0.5 * this.size, 0.5 * this.size, 1 );\n\n\t\tthis.lookAt( this.plane.normal );\n\n\t\tthis.translateZ( - this.plane.constant );\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\t\tthis.children[ 0 ].geometry.dispose();\n\t\tthis.children[ 0 ].material.dispose();\n\n\t}\n\n}\n\nconst _axis = /*@__PURE__*/ new Vector3();\nlet _lineGeometry, _coneGeometry;\n\n/**\n * An 3D arrow object for visualizing directions.\n *\n * ```js\n * const dir = new THREE.Vector3( 1, 2, 0 );\n *\n * //normalize the direction vector (convert to vector of length 1)\n * dir.normalize();\n *\n * const origin = new THREE.Vector3( 0, 0, 0 );\n * const length = 1;\n * const hex = 0xffff00;\n *\n * const arrowHelper = new THREE.ArrowHelper( dir, origin, length, hex );\n * scene.add( arrowHelper );\n * ```\n *\n * @augments Object3D\n */\nclass ArrowHelper extends Object3D {\n\n\t/**\n\t * Constructs a new arrow helper.\n\t *\n\t * @param {Vector3} [dir=(0, 0, 1)] - The (normalized) direction vector.\n\t * @param {Vector3} [origin=(0, 0, 0)] - Point at which the arrow starts.\n\t * @param {number} [length=1] - Length of the arrow in world units.\n\t * @param {(number|Color|string)} [color=0xffff00] - Color of the arrow.\n\t * @param {number} [headLength=length*0.2] - The length of the head of the arrow.\n\t * @param {number} [headWidth=headLength*0.2] - The width of the head of the arrow.\n\t */\n\tconstructor( dir = new Vector3( 0, 0, 1 ), origin = new Vector3( 0, 0, 0 ), length = 1, color = 0xffff00, headLength = length * 0.2, headWidth = headLength * 0.2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'ArrowHelper';\n\n\t\tif ( _lineGeometry === undefined ) {\n\n\t\t\t_lineGeometry = new BufferGeometry();\n\t\t\t_lineGeometry.setAttribute( 'position', new Float32BufferAttribute( [ 0, 0, 0, 0, 1, 0 ], 3 ) );\n\n\t\t\t_coneGeometry = new ConeGeometry( 0.5, 1, 5, 1 );\n\t\t\t_coneGeometry.translate( 0, -0.5, 0 );\n\n\t\t}\n\n\t\tthis.position.copy( origin );\n\n\t\t/**\n\t\t * The line part of the arrow helper.\n\t\t *\n\t\t * @type {Line}\n\t\t */\n\t\tthis.line = new Line( _lineGeometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\t\tthis.line.matrixAutoUpdate = false;\n\t\tthis.add( this.line );\n\n\t\t/**\n\t\t * The cone part of the arrow helper.\n\t\t *\n\t\t * @type {Mesh}\n\t\t */\n\t\tthis.cone = new Mesh( _coneGeometry, new MeshBasicMaterial( { color: color, toneMapped: false } ) );\n\t\tthis.cone.matrixAutoUpdate = false;\n\t\tthis.add( this.cone );\n\n\t\tthis.setDirection( dir );\n\t\tthis.setLength( length, headLength, headWidth );\n\n\t}\n\n\t/**\n\t * Sets the direction of the helper.\n\t *\n\t * @param {Vector3} dir - The normalized direction vector.\n\t */\n\tsetDirection( dir ) {\n\n\t\t// dir is assumed to be normalized\n\n\t\tif ( dir.y > 0.99999 ) {\n\n\t\t\tthis.quaternion.set( 0, 0, 0, 1 );\n\n\t\t} else if ( dir.y < -0.99999 ) {\n\n\t\t\tthis.quaternion.set( 1, 0, 0, 0 );\n\n\t\t} else {\n\n\t\t\t_axis.set( dir.z, 0, - dir.x ).normalize();\n\n\t\t\tconst radians = Math.acos( dir.y );\n\n\t\t\tthis.quaternion.setFromAxisAngle( _axis, radians );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the length of the helper.\n\t *\n\t * @param {number} length - Length of the arrow in world units.\n\t * @param {number} [headLength=length*0.2] - The length of the head of the arrow.\n\t * @param {number} [headWidth=headLength*0.2] - The width of the head of the arrow.\n\t */\n\tsetLength( length, headLength = length * 0.2, headWidth = headLength * 0.2 ) {\n\n\t\tthis.line.scale.set( 1, Math.max( 0.0001, length - headLength ), 1 ); // see #17458\n\t\tthis.line.updateMatrix();\n\n\t\tthis.cone.scale.set( headWidth, headLength, headWidth );\n\t\tthis.cone.position.y = length;\n\t\tthis.cone.updateMatrix();\n\n\t}\n\n\t/**\n\t * Sets the color of the helper.\n\t *\n\t * @param {number|Color|string} color - The color to set.\n\t */\n\tsetColor( color ) {\n\n\t\tthis.line.material.color.set( color );\n\t\tthis.cone.material.color.set( color );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source, false );\n\n\t\tthis.line.copy( source.line );\n\t\tthis.cone.copy( source.cone );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.line.geometry.dispose();\n\t\tthis.line.material.dispose();\n\t\tthis.cone.geometry.dispose();\n\t\tthis.cone.material.dispose();\n\n\t}\n\n}\n\n/**\n * An axis object to visualize the 3 axes in a simple way.\n * The X axis is red. The Y axis is green. The Z axis is blue.\n *\n * ```js\n * const axesHelper = new THREE.AxesHelper( 5 );\n * scene.add( axesHelper );\n * ```\n *\n * @augments LineSegments\n */\nclass AxesHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new axes helper.\n\t *\n\t * @param {number} [size=1] - Size of the lines representing the axes.\n\t */\n\tconstructor( size = 1 ) {\n\n\t\tconst vertices = [\n\t\t\t0, 0, 0,\tsize, 0, 0,\n\t\t\t0, 0, 0,\t0, size, 0,\n\t\t\t0, 0, 0,\t0, 0, size\n\t\t];\n\n\t\tconst colors = [\n\t\t\t1, 0, 0,\t1, 0.6, 0,\n\t\t\t0, 1, 0,\t0.6, 1, 0,\n\t\t\t0, 0, 1,\t0, 0.6, 1\n\t\t];\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'AxesHelper';\n\n\t}\n\n\t/**\n\t * Defines the colors of the axes helper.\n\t *\n\t * @param {number|Color|string} xAxisColor - The color for the x axis.\n\t * @param {number|Color|string} yAxisColor - The color for the y axis.\n\t * @param {number|Color|string} zAxisColor - The color for the z axis.\n\t * @return {AxesHelper} A reference to this axes helper.\n\t */\n\tsetColors( xAxisColor, yAxisColor, zAxisColor ) {\n\n\t\tconst color = new Color();\n\t\tconst array = this.geometry.attributes.color.array;\n\n\t\tcolor.set( xAxisColor );\n\t\tcolor.toArray( array, 0 );\n\t\tcolor.toArray( array, 3 );\n\n\t\tcolor.set( yAxisColor );\n\t\tcolor.toArray( array, 6 );\n\t\tcolor.toArray( array, 9 );\n\n\t\tcolor.set( zAxisColor );\n\t\tcolor.toArray( array, 12 );\n\t\tcolor.toArray( array, 15 );\n\n\t\tthis.geometry.attributes.color.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * This class is used to convert a series of paths to an array of\n * shapes. It is specifically used in context of fonts and SVG.\n */\nclass ShapePath {\n\n\t/**\n\t * Constructs a new shape path.\n\t */\n\tconstructor() {\n\n\t\tthis.type = 'ShapePath';\n\n\t\t/**\n\t\t * The color of the shape.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color();\n\n\t\t/**\n\t\t * The paths that have been generated for this shape.\n\t\t *\n\t\t * @type {Array}\n\t\t * @default null\n\t\t */\n\t\tthis.subPaths = [];\n\n\t\t/**\n\t\t * The current path that is being generated.\n\t\t *\n\t\t * @type {?Path}\n\t\t * @default null\n\t\t */\n\t\tthis.currentPath = null;\n\n\t}\n\n\t/**\n\t * Creates a new path and moves it current point to the given one.\n\t *\n\t * @param {number} x - The x coordinate.\n\t * @param {number} y - The y coordinate.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tmoveTo( x, y ) {\n\n\t\tthis.currentPath = new Path();\n\t\tthis.subPaths.push( this.currentPath );\n\t\tthis.currentPath.moveTo( x, y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link LineCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} x - The x coordinate of the end point.\n\t * @param {number} y - The y coordinate of the end point.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tlineTo( x, y ) {\n\n\t\tthis.currentPath.lineTo( x, y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link QuadraticBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCPx - The x coordinate of the control point.\n\t * @param {number} aCPy - The y coordinate of the control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tquadraticCurveTo( aCPx, aCPy, aX, aY ) {\n\n\t\tthis.currentPath.quadraticCurveTo( aCPx, aCPy, aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link CubicBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCP1x - The x coordinate of the first control point.\n\t * @param {number} aCP1y - The y coordinate of the first control point.\n\t * @param {number} aCP2x - The x coordinate of the second control point.\n\t * @param {number} aCP2y - The y coordinate of the second control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tbezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY ) {\n\n\t\tthis.currentPath.bezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link SplineCurve} to the path by connecting\n\t * the current point with the given list of points.\n\t *\n\t * @param {Array} pts - An array of points in 2D space.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tsplineThru( pts ) {\n\n\t\tthis.currentPath.splineThru( pts );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Converts the paths into an array of shapes.\n\t *\n\t * @param {boolean} isCCW - By default solid shapes are defined clockwise (CW) and holes are defined counterclockwise (CCW).\n\t * If this flag is set to `true`, then those are flipped.\n\t * @return {Array} An array of shapes.\n\t */\n\ttoShapes( isCCW ) {\n\n\t\tfunction toShapesNoHoles( inSubpaths ) {\n\n\t\t\tconst shapes = [];\n\n\t\t\tfor ( let i = 0, l = inSubpaths.length; i < l; i ++ ) {\n\n\t\t\t\tconst tmpPath = inSubpaths[ i ];\n\n\t\t\t\tconst tmpShape = new Shape();\n\t\t\t\ttmpShape.curves = tmpPath.curves;\n\n\t\t\t\tshapes.push( tmpShape );\n\n\t\t\t}\n\n\t\t\treturn shapes;\n\n\t\t}\n\n\t\tfunction isPointInsidePolygon( inPt, inPolygon ) {\n\n\t\t\tconst polyLen = inPolygon.length;\n\n\t\t\t// inPt on polygon contour => immediate success or\n\t\t\t// toggling of inside/outside at every single! intersection point of an edge\n\t\t\t// with the horizontal line through inPt, left of inPt\n\t\t\t// not counting lowerY endpoints of edges and whole edges on that line\n\t\t\tlet inside = false;\n\t\t\tfor ( let p = polyLen - 1, q = 0; q < polyLen; p = q ++ ) {\n\n\t\t\t\tlet edgeLowPt = inPolygon[ p ];\n\t\t\t\tlet edgeHighPt = inPolygon[ q ];\n\n\t\t\t\tlet edgeDx = edgeHighPt.x - edgeLowPt.x;\n\t\t\t\tlet edgeDy = edgeHighPt.y - edgeLowPt.y;\n\n\t\t\t\tif ( Math.abs( edgeDy ) > Number.EPSILON ) {\n\n\t\t\t\t\t// not parallel\n\t\t\t\t\tif ( edgeDy < 0 ) {\n\n\t\t\t\t\t\tedgeLowPt = inPolygon[ q ]; edgeDx = - edgeDx;\n\t\t\t\t\t\tedgeHighPt = inPolygon[ p ]; edgeDy = - edgeDy;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ( inPt.y < edgeLowPt.y ) || ( inPt.y > edgeHighPt.y ) ) \t\tcontinue;\n\n\t\t\t\t\tif ( inPt.y === edgeLowPt.y ) {\n\n\t\t\t\t\t\tif ( inPt.x === edgeLowPt.x )\t\treturn\ttrue;\t\t// inPt is on contour ?\n\t\t\t\t\t\t// continue;\t\t\t\t// no intersection or edgeLowPt => doesn't count !!!\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tconst perpEdge = edgeDy * ( inPt.x - edgeLowPt.x ) - edgeDx * ( inPt.y - edgeLowPt.y );\n\t\t\t\t\t\tif ( perpEdge === 0 )\t\t\t\treturn\ttrue;\t\t// inPt is on contour ?\n\t\t\t\t\t\tif ( perpEdge < 0 ) \t\t\t\tcontinue;\n\t\t\t\t\t\tinside = ! inside;\t\t// true intersection left of inPt\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// parallel or collinear\n\t\t\t\t\tif ( inPt.y !== edgeLowPt.y ) \t\tcontinue;\t\t\t// parallel\n\t\t\t\t\t// edge lies on the same horizontal line as inPt\n\t\t\t\t\tif ( ( ( edgeHighPt.x <= inPt.x ) && ( inPt.x <= edgeLowPt.x ) ) ||\n\t\t\t\t\t\t ( ( edgeLowPt.x <= inPt.x ) && ( inPt.x <= edgeHighPt.x ) ) )\t\treturn\ttrue;\t// inPt: Point on contour !\n\t\t\t\t\t// continue;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn\tinside;\n\n\t\t}\n\n\t\tconst isClockWise = ShapeUtils.isClockWise;\n\n\t\tconst subPaths = this.subPaths;\n\t\tif ( subPaths.length === 0 ) return [];\n\n\t\tlet solid, tmpPath, tmpShape;\n\t\tconst shapes = [];\n\n\t\tif ( subPaths.length === 1 ) {\n\n\t\t\ttmpPath = subPaths[ 0 ];\n\t\t\ttmpShape = new Shape();\n\t\t\ttmpShape.curves = tmpPath.curves;\n\t\t\tshapes.push( tmpShape );\n\t\t\treturn shapes;\n\n\t\t}\n\n\t\tlet holesFirst = ! isClockWise( subPaths[ 0 ].getPoints() );\n\t\tholesFirst = isCCW ? ! holesFirst : holesFirst;\n\n\t\t// console.log(\"Holes first\", holesFirst);\n\n\t\tconst betterShapeHoles = [];\n\t\tconst newShapes = [];\n\t\tlet newShapeHoles = [];\n\t\tlet mainIdx = 0;\n\t\tlet tmpPoints;\n\n\t\tnewShapes[ mainIdx ] = undefined;\n\t\tnewShapeHoles[ mainIdx ] = [];\n\n\t\tfor ( let i = 0, l = subPaths.length; i < l; i ++ ) {\n\n\t\t\ttmpPath = subPaths[ i ];\n\t\t\ttmpPoints = tmpPath.getPoints();\n\t\t\tsolid = isClockWise( tmpPoints );\n\t\t\tsolid = isCCW ? ! solid : solid;\n\n\t\t\tif ( solid ) {\n\n\t\t\t\tif ( ( ! holesFirst ) && ( newShapes[ mainIdx ] ) )\tmainIdx ++;\n\n\t\t\t\tnewShapes[ mainIdx ] = { s: new Shape(), p: tmpPoints };\n\t\t\t\tnewShapes[ mainIdx ].s.curves = tmpPath.curves;\n\n\t\t\t\tif ( holesFirst )\tmainIdx ++;\n\t\t\t\tnewShapeHoles[ mainIdx ] = [];\n\n\t\t\t\t//console.log('cw', i);\n\n\t\t\t} else {\n\n\t\t\t\tnewShapeHoles[ mainIdx ].push( { h: tmpPath, p: tmpPoints[ 0 ] } );\n\n\t\t\t\t//console.log('ccw', i);\n\n\t\t\t}\n\n\t\t}\n\n\t\t// only Holes? -> probably all Shapes with wrong orientation\n\t\tif ( ! newShapes[ 0 ] )\treturn\ttoShapesNoHoles( subPaths );\n\n\n\t\tif ( newShapes.length > 1 ) {\n\n\t\t\tlet ambiguous = false;\n\t\t\tlet toChange = 0;\n\n\t\t\tfor ( let sIdx = 0, sLen = newShapes.length; sIdx < sLen; sIdx ++ ) {\n\n\t\t\t\tbetterShapeHoles[ sIdx ] = [];\n\n\t\t\t}\n\n\t\t\tfor ( let sIdx = 0, sLen = newShapes.length; sIdx < sLen; sIdx ++ ) {\n\n\t\t\t\tconst sho = newShapeHoles[ sIdx ];\n\n\t\t\t\tfor ( let hIdx = 0; hIdx < sho.length; hIdx ++ ) {\n\n\t\t\t\t\tconst ho = sho[ hIdx ];\n\t\t\t\t\tlet hole_unassigned = true;\n\n\t\t\t\t\tfor ( let s2Idx = 0; s2Idx < newShapes.length; s2Idx ++ ) {\n\n\t\t\t\t\t\tif ( isPointInsidePolygon( ho.p, newShapes[ s2Idx ].p ) ) {\n\n\t\t\t\t\t\t\tif ( sIdx !== s2Idx )\ttoChange ++;\n\n\t\t\t\t\t\t\tif ( hole_unassigned ) {\n\n\t\t\t\t\t\t\t\thole_unassigned = false;\n\t\t\t\t\t\t\t\tbetterShapeHoles[ s2Idx ].push( ho );\n\n\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\tambiguous = true;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( hole_unassigned ) {\n\n\t\t\t\t\t\tbetterShapeHoles[ sIdx ].push( ho );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( toChange > 0 && ambiguous === false ) {\n\n\t\t\t\tnewShapeHoles = betterShapeHoles;\n\n\t\t\t}\n\n\t\t}\n\n\t\tlet tmpHoles;\n\n\t\tfor ( let i = 0, il = newShapes.length; i < il; i ++ ) {\n\n\t\t\ttmpShape = newShapes[ i ].s;\n\t\t\tshapes.push( tmpShape );\n\t\t\ttmpHoles = newShapeHoles[ i ];\n\n\t\t\tfor ( let j = 0, jl = tmpHoles.length; j < jl; j ++ ) {\n\n\t\t\t\ttmpShape.holes.push( tmpHoles[ j ].h );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//console.log(\"shape\", shapes);\n\n\t\treturn shapes;\n\n\t}\n\n}\n\n/**\n * Abstract base class for controls.\n *\n * @abstract\n * @augments EventDispatcher\n */\nclass Controls extends EventDispatcher {\n\n\t/**\n\t * Constructs a new controls instance.\n\t *\n\t * @param {Object3D} object - The object that is managed by the controls.\n\t * @param {?HTMLDOMElement} domElement - The HTML element used for event listeners.\n\t */\n\tconstructor( object, domElement = null ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The object that is managed by the controls.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.object = object;\n\n\t\t/**\n\t\t * The HTML element used for event listeners.\n\t\t *\n\t\t * @type {?HTMLDOMElement}\n\t\t * @default null\n\t\t */\n\t\tthis.domElement = domElement;\n\n\t\t/**\n\t\t * Whether the controls responds to user input or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.enabled = true;\n\n\t\t/**\n\t\t * The internal state of the controls.\n\t\t *\n\t\t * @type {number}\n\t\t * @default -1\n\t\t */\n\t\tthis.state = -1;\n\n\t\t/**\n\t\t * This object defines the keyboard input of the controls.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.keys = {};\n\n\t\t/**\n\t\t * This object defines what type of actions are assigned to the available mouse buttons.\n\t\t * It depends on the control implementation what kind of mouse buttons and actions are supported.\n\t\t *\n\t\t * @type {{LEFT: ?number, MIDDLE: ?number, RIGHT: ?number}}\n\t\t */\n\t\tthis.mouseButtons = { LEFT: null, MIDDLE: null, RIGHT: null };\n\n\t\t/**\n\t\t * This object defines what type of actions are assigned to what kind of touch interaction.\n\t\t * It depends on the control implementation what kind of touch interaction and actions are supported.\n\t\t *\n\t\t * @type {{ONE: ?number, TWO: ?number}}\n\t\t */\n\t\tthis.touches = { ONE: null, TWO: null };\n\n\t}\n\n\t/**\n\t * Connects the controls to the DOM. This method has so called \"side effects\" since\n\t * it adds the module's event listeners to the DOM.\n\t *\n\t * @param {HTMLDOMElement} element - The DOM element to connect to.\n\t */\n\tconnect( element ) {\n\n\t\tif ( element === undefined ) {\n\n\t\t\tconsole.warn( 'THREE.Controls: connect() now requires an element.' ); // @deprecated, the warning can be removed with r185\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.domElement !== null ) this.disconnect();\n\n\t\tthis.domElement = element;\n\n\t}\n\n\t/**\n\t * Disconnects the controls from the DOM.\n\t */\n\tdisconnect() {}\n\n\t/**\n\t * Call this method if you no longer want use to the controls. It frees all internal\n\t * resources and removes all event listeners.\n\t */\n\tdispose() {}\n\n\t/**\n\t * Controls should implement this method if they have to update their internal state\n\t * per simulation step.\n\t *\n\t * @param {number} [delta] - The time delta in seconds.\n\t */\n\tupdate( /* delta */ ) {}\n\n}\n\n/**\n * Scales the texture as large as possible within its surface without cropping\n * or stretching the texture. The method preserves the original aspect ratio of\n * the texture. Akin to CSS `object-fit: contain`\n *\n * @param {Texture} texture - The texture.\n * @param {number} aspect - The texture's aspect ratio.\n * @return {Texture} The updated texture.\n */\nfunction contain( texture, aspect ) {\n\n\tconst imageAspect = ( texture.image && texture.image.width ) ? texture.image.width / texture.image.height : 1;\n\n\tif ( imageAspect > aspect ) {\n\n\t\ttexture.repeat.x = 1;\n\t\ttexture.repeat.y = imageAspect / aspect;\n\n\t\ttexture.offset.x = 0;\n\t\ttexture.offset.y = ( 1 - texture.repeat.y ) / 2;\n\n\t} else {\n\n\t\ttexture.repeat.x = aspect / imageAspect;\n\t\ttexture.repeat.y = 1;\n\n\t\ttexture.offset.x = ( 1 - texture.repeat.x ) / 2;\n\t\ttexture.offset.y = 0;\n\n\t}\n\n\treturn texture;\n\n}\n\n/**\n * Scales the texture to the smallest possible size to fill the surface, leaving\n * no empty space. The method preserves the original aspect ratio of the texture.\n * Akin to CSS `object-fit: cover`.\n *\n * @param {Texture} texture - The texture.\n * @param {number} aspect - The texture's aspect ratio.\n * @return {Texture} The updated texture.\n */\nfunction cover( texture, aspect ) {\n\n\tconst imageAspect = ( texture.image && texture.image.width ) ? texture.image.width / texture.image.height : 1;\n\n\tif ( imageAspect > aspect ) {\n\n\t\ttexture.repeat.x = aspect / imageAspect;\n\t\ttexture.repeat.y = 1;\n\n\t\ttexture.offset.x = ( 1 - texture.repeat.x ) / 2;\n\t\ttexture.offset.y = 0;\n\n\t} else {\n\n\t\ttexture.repeat.x = 1;\n\t\ttexture.repeat.y = imageAspect / aspect;\n\n\t\ttexture.offset.x = 0;\n\t\ttexture.offset.y = ( 1 - texture.repeat.y ) / 2;\n\n\t}\n\n\treturn texture;\n\n}\n\n/**\n * Configures the texture to the default transformation. Akin to CSS `object-fit: fill`.\n *\n * @param {Texture} texture - The texture.\n * @return {Texture} The updated texture.\n */\nfunction fill( texture ) {\n\n\ttexture.repeat.x = 1;\n\ttexture.repeat.y = 1;\n\n\ttexture.offset.x = 0;\n\ttexture.offset.y = 0;\n\n\treturn texture;\n\n}\n\n/**\n * Determines how many bytes must be used to represent the texture.\n *\n * @param {number} width - The width of the texture.\n * @param {number} height - The height of the texture.\n * @param {number} format - The texture's format.\n * @param {number} type - The texture's type.\n * @return {number} The byte length.\n */\nfunction getByteLength( width, height, format, type ) {\n\n\tconst typeByteLength = getTextureTypeByteLength( type );\n\n\tswitch ( format ) {\n\n\t\t// https://registry.khronos.org/OpenGL-Refpages/es3.0/html/glTexImage2D.xhtml\n\t\tcase AlphaFormat:\n\t\t\treturn width * height;\n\t\tcase RedFormat:\n\t\t\treturn ( ( width * height ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RedIntegerFormat:\n\t\t\treturn ( ( width * height ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGFormat:\n\t\t\treturn ( ( width * height * 2 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGIntegerFormat:\n\t\t\treturn ( ( width * height * 2 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGBFormat:\n\t\t\treturn ( ( width * height * 3 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGBAFormat:\n\t\t\treturn ( ( width * height * 4 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGBAIntegerFormat:\n\t\t\treturn ( ( width * height * 4 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_s3tc_srgb/\n\t\tcase RGB_S3TC_DXT1_Format:\n\t\tcase RGBA_S3TC_DXT1_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 8;\n\t\tcase RGBA_S3TC_DXT3_Format:\n\t\tcase RGBA_S3TC_DXT5_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_pvrtc/\n\t\tcase RGB_PVRTC_2BPPV1_Format:\n\t\tcase RGBA_PVRTC_2BPPV1_Format:\n\t\t\treturn ( Math.max( width, 16 ) * Math.max( height, 8 ) ) / 4;\n\t\tcase RGB_PVRTC_4BPPV1_Format:\n\t\tcase RGBA_PVRTC_4BPPV1_Format:\n\t\t\treturn ( Math.max( width, 8 ) * Math.max( height, 8 ) ) / 2;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_etc/\n\t\tcase RGB_ETC1_Format:\n\t\tcase RGB_ETC2_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 8;\n\t\tcase RGBA_ETC2_EAC_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_astc/\n\t\tcase RGBA_ASTC_4x4_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\t\tcase RGBA_ASTC_5x4_Format:\n\t\t\treturn Math.floor( ( width + 4 ) / 5 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\t\tcase RGBA_ASTC_5x5_Format:\n\t\t\treturn Math.floor( ( width + 4 ) / 5 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_6x5_Format:\n\t\t\treturn Math.floor( ( width + 5 ) / 6 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_6x6_Format:\n\t\t\treturn Math.floor( ( width + 5 ) / 6 ) * Math.floor( ( height + 5 ) / 6 ) * 16;\n\t\tcase RGBA_ASTC_8x5_Format:\n\t\t\treturn Math.floor( ( width + 7 ) / 8 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_8x6_Format:\n\t\t\treturn Math.floor( ( width + 7 ) / 8 ) * Math.floor( ( height + 5 ) / 6 ) * 16;\n\t\tcase RGBA_ASTC_8x8_Format:\n\t\t\treturn Math.floor( ( width + 7 ) / 8 ) * Math.floor( ( height + 7 ) / 8 ) * 16;\n\t\tcase RGBA_ASTC_10x5_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_10x6_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 5 ) / 6 ) * 16;\n\t\tcase RGBA_ASTC_10x8_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 7 ) / 8 ) * 16;\n\t\tcase RGBA_ASTC_10x10_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 9 ) / 10 ) * 16;\n\t\tcase RGBA_ASTC_12x10_Format:\n\t\t\treturn Math.floor( ( width + 11 ) / 12 ) * Math.floor( ( height + 9 ) / 10 ) * 16;\n\t\tcase RGBA_ASTC_12x12_Format:\n\t\t\treturn Math.floor( ( width + 11 ) / 12 ) * Math.floor( ( height + 11 ) / 12 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/EXT_texture_compression_bptc/\n\t\tcase RGBA_BPTC_Format:\n\t\tcase RGB_BPTC_SIGNED_Format:\n\t\tcase RGB_BPTC_UNSIGNED_Format:\n\t\t\treturn Math.ceil( width / 4 ) * Math.ceil( height / 4 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/EXT_texture_compression_rgtc/\n\t\tcase RED_RGTC1_Format:\n\t\tcase SIGNED_RED_RGTC1_Format:\n\t\t\treturn Math.ceil( width / 4 ) * Math.ceil( height / 4 ) * 8;\n\t\tcase RED_GREEN_RGTC2_Format:\n\t\tcase SIGNED_RED_GREEN_RGTC2_Format:\n\t\t\treturn Math.ceil( width / 4 ) * Math.ceil( height / 4 ) * 16;\n\n\t}\n\n\tthrow new Error(\n\t\t`Unable to determine texture byte length for ${format} format.`,\n\t);\n\n}\n\nfunction getTextureTypeByteLength( type ) {\n\n\tswitch ( type ) {\n\n\t\tcase UnsignedByteType:\n\t\tcase ByteType:\n\t\t\treturn { byteLength: 1, components: 1 };\n\t\tcase UnsignedShortType:\n\t\tcase ShortType:\n\t\tcase HalfFloatType:\n\t\t\treturn { byteLength: 2, components: 1 };\n\t\tcase UnsignedShort4444Type:\n\t\tcase UnsignedShort5551Type:\n\t\t\treturn { byteLength: 2, components: 4 };\n\t\tcase UnsignedIntType:\n\t\tcase IntType:\n\t\tcase FloatType:\n\t\t\treturn { byteLength: 4, components: 1 };\n\t\tcase UnsignedInt5999Type:\n\t\tcase UnsignedInt101111Type:\n\t\t\treturn { byteLength: 4, components: 3 };\n\n\t}\n\n\tthrow new Error( `Unknown texture type ${type}.` );\n\n}\n\n/**\n * A class containing utility functions for textures.\n *\n * @hideconstructor\n */\nclass TextureUtils {\n\n\t/**\n\t * Scales the texture as large as possible within its surface without cropping\n\t * or stretching the texture. The method preserves the original aspect ratio of\n\t * the texture. Akin to CSS `object-fit: contain`\n\t *\n\t * @param {Texture} texture - The texture.\n\t * @param {number} aspect - The texture's aspect ratio.\n\t * @return {Texture} The updated texture.\n\t */\n\tstatic contain( texture, aspect ) {\n\n\t\treturn contain( texture, aspect );\n\n\t}\n\n\t/**\n\t * Scales the texture to the smallest possible size to fill the surface, leaving\n\t * no empty space. The method preserves the original aspect ratio of the texture.\n\t * Akin to CSS `object-fit: cover`.\n\t *\n\t * @param {Texture} texture - The texture.\n\t * @param {number} aspect - The texture's aspect ratio.\n\t * @return {Texture} The updated texture.\n\t */\n\tstatic cover( texture, aspect ) {\n\n\t\treturn cover( texture, aspect );\n\n\t}\n\n\t/**\n\t * Configures the texture to the default transformation. Akin to CSS `object-fit: fill`.\n\t *\n\t * @param {Texture} texture - The texture.\n\t * @return {Texture} The updated texture.\n\t */\n\tstatic fill( texture ) {\n\n\t\treturn fill( texture );\n\n\t}\n\n\t/**\n\t * Determines how many bytes must be used to represent the texture.\n\t *\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} format - The texture's format.\n\t * @param {number} type - The texture's type.\n\t * @return {number} The byte length.\n\t */\n\tstatic getByteLength( width, height, format, type ) {\n\n\t\treturn getByteLength( width, height, format, type );\n\n\t}\n\n}\n\nif ( typeof __THREE_DEVTOOLS__ !== 'undefined' ) {\n\n\t__THREE_DEVTOOLS__.dispatchEvent( new CustomEvent( 'register', { detail: {\n\t\trevision: REVISION,\n\t} } ) );\n\n}\n\nif ( typeof window !== 'undefined' ) {\n\n\tif ( window.__THREE__ ) {\n\n\t\tconsole.warn( 'WARNING: Multiple instances of Three.js being imported.' );\n\n\t} else {\n\n\t\twindow.__THREE__ = REVISION;\n\n\t}\n\n}\n\nexport { ACESFilmicToneMapping, AddEquation, AddOperation, AdditiveAnimationBlendMode, AdditiveBlending, AgXToneMapping, AlphaFormat, AlwaysCompare, AlwaysDepth, AlwaysStencilFunc, AmbientLight, AnimationAction, AnimationClip, AnimationLoader, AnimationMixer, AnimationObjectGroup, AnimationUtils, ArcCurve, ArrayCamera, ArrowHelper, AttachedBindMode, Audio, AudioAnalyser, AudioContext, AudioListener, AudioLoader, AxesHelper, BackSide, BasicDepthPacking, BasicShadowMap, BatchedMesh, Bone, BooleanKeyframeTrack, Box2, Box3, Box3Helper, BoxGeometry, BoxHelper, BufferAttribute, BufferGeometry, BufferGeometryLoader, ByteType, Cache, Camera, CameraHelper, CanvasTexture, CapsuleGeometry, CatmullRomCurve3, CineonToneMapping, CircleGeometry, ClampToEdgeWrapping, Clock, Color, ColorKeyframeTrack, ColorManagement, CompressedArrayTexture, CompressedCubeTexture, CompressedTexture, CompressedTextureLoader, ConeGeometry, ConstantAlphaFactor, ConstantColorFactor, Controls, CubeCamera, CubeReflectionMapping, CubeRefractionMapping, CubeTexture, CubeTextureLoader, CubeUVReflectionMapping, CubicBezierCurve, CubicBezierCurve3, CubicInterpolant, CullFaceBack, CullFaceFront, CullFaceFrontBack, CullFaceNone, Curve, CurvePath, CustomBlending, CustomToneMapping, CylinderGeometry, Cylindrical, Data3DTexture, DataArrayTexture, DataTexture, DataTextureLoader, DataUtils, DecrementStencilOp, DecrementWrapStencilOp, DefaultLoadingManager, DepthFormat, DepthStencilFormat, DepthTexture, DetachedBindMode, DirectionalLight, DirectionalLightHelper, DiscreteInterpolant, DodecahedronGeometry, DoubleSide, DstAlphaFactor, DstColorFactor, DynamicCopyUsage, DynamicDrawUsage, DynamicReadUsage, EdgesGeometry, EllipseCurve, EqualCompare, EqualDepth, EqualStencilFunc, EquirectangularReflectionMapping, EquirectangularRefractionMapping, Euler, EventDispatcher, ExternalTexture, ExtrudeGeometry, FileLoader, Float16BufferAttribute, Float32BufferAttribute, FloatType, Fog, FogExp2, FramebufferTexture, FrontSide, Frustum, FrustumArray, GLBufferAttribute, GLSL1, GLSL3, GreaterCompare, GreaterDepth, GreaterEqualCompare, GreaterEqualDepth, GreaterEqualStencilFunc, GreaterStencilFunc, GridHelper, Group, HalfFloatType, HemisphereLight, HemisphereLightHelper, IcosahedronGeometry, ImageBitmapLoader, ImageLoader, ImageUtils, IncrementStencilOp, IncrementWrapStencilOp, InstancedBufferAttribute, InstancedBufferGeometry, InstancedInterleavedBuffer, InstancedMesh, Int16BufferAttribute, Int32BufferAttribute, Int8BufferAttribute, IntType, InterleavedBuffer, InterleavedBufferAttribute, Interpolant, InterpolateDiscrete, InterpolateLinear, InterpolateSmooth, InterpolationSamplingMode, InterpolationSamplingType, InvertStencilOp, KeepStencilOp, KeyframeTrack, LOD, LatheGeometry, Layers, LessCompare, LessDepth, LessEqualCompare, LessEqualDepth, LessEqualStencilFunc, LessStencilFunc, Light, LightProbe, Line, Line3, LineBasicMaterial, LineCurve, LineCurve3, LineDashedMaterial, LineLoop, LineSegments, LinearFilter, LinearInterpolant, LinearMipMapLinearFilter, LinearMipMapNearestFilter, LinearMipmapLinearFilter, LinearMipmapNearestFilter, LinearSRGBColorSpace, LinearToneMapping, LinearTransfer, Loader, LoaderUtils, LoadingManager, LoopOnce, LoopPingPong, LoopRepeat, MOUSE, Material, MaterialLoader, MathUtils, Matrix2, Matrix3, Matrix4, MaxEquation, Mesh, MeshBasicMaterial, MeshDepthMaterial, MeshDistanceMaterial, MeshLambertMaterial, MeshMatcapMaterial, MeshNormalMaterial, MeshPhongMaterial, MeshPhysicalMaterial, MeshStandardMaterial, MeshToonMaterial, MinEquation, MirroredRepeatWrapping, MixOperation, MultiplyBlending, MultiplyOperation, NearestFilter, NearestMipMapLinearFilter, NearestMipMapNearestFilter, NearestMipmapLinearFilter, NearestMipmapNearestFilter, NeutralToneMapping, NeverCompare, NeverDepth, NeverStencilFunc, NoBlending, NoColorSpace, NoToneMapping, NormalAnimationBlendMode, NormalBlending, NotEqualCompare, NotEqualDepth, NotEqualStencilFunc, NumberKeyframeTrack, Object3D, ObjectLoader, ObjectSpaceNormalMap, OctahedronGeometry, OneFactor, OneMinusConstantAlphaFactor, OneMinusConstantColorFactor, OneMinusDstAlphaFactor, OneMinusDstColorFactor, OneMinusSrcAlphaFactor, OneMinusSrcColorFactor, OrthographicCamera, PCFShadowMap, PCFSoftShadowMap, Path, PerspectiveCamera, Plane, PlaneGeometry, PlaneHelper, PointLight, PointLightHelper, Points, PointsMaterial, PolarGridHelper, PolyhedronGeometry, PositionalAudio, PropertyBinding, PropertyMixer, QuadraticBezierCurve, QuadraticBezierCurve3, Quaternion, QuaternionKeyframeTrack, QuaternionLinearInterpolant, RAD2DEG, RED_GREEN_RGTC2_Format, RED_RGTC1_Format, REVISION, RGBADepthPacking, RGBAFormat, RGBAIntegerFormat, RGBA_ASTC_10x10_Format, RGBA_ASTC_10x5_Format, RGBA_ASTC_10x6_Format, RGBA_ASTC_10x8_Format, RGBA_ASTC_12x10_Format, RGBA_ASTC_12x12_Format, RGBA_ASTC_4x4_Format, RGBA_ASTC_5x4_Format, RGBA_ASTC_5x5_Format, RGBA_ASTC_6x5_Format, RGBA_ASTC_6x6_Format, RGBA_ASTC_8x5_Format, RGBA_ASTC_8x6_Format, RGBA_ASTC_8x8_Format, RGBA_BPTC_Format, RGBA_ETC2_EAC_Format, RGBA_PVRTC_2BPPV1_Format, RGBA_PVRTC_4BPPV1_Format, RGBA_S3TC_DXT1_Format, RGBA_S3TC_DXT3_Format, RGBA_S3TC_DXT5_Format, RGBDepthPacking, RGBFormat, RGBIntegerFormat, RGB_BPTC_SIGNED_Format, RGB_BPTC_UNSIGNED_Format, RGB_ETC1_Format, RGB_ETC2_Format, RGB_PVRTC_2BPPV1_Format, RGB_PVRTC_4BPPV1_Format, RGB_S3TC_DXT1_Format, RGDepthPacking, RGFormat, RGIntegerFormat, RawShaderMaterial, Ray, Raycaster, RectAreaLight, RedFormat, RedIntegerFormat, ReinhardToneMapping, RenderTarget, RenderTarget3D, RepeatWrapping, ReplaceStencilOp, ReverseSubtractEquation, RingGeometry, SIGNED_RED_GREEN_RGTC2_Format, SIGNED_RED_RGTC1_Format, SRGBColorSpace, SRGBTransfer, Scene, ShaderMaterial, ShadowMaterial, Shape, ShapeGeometry, ShapePath, ShapeUtils, ShortType, Skeleton, SkeletonHelper, SkinnedMesh, Source, Sphere, SphereGeometry, Spherical, SphericalHarmonics3, SplineCurve, SpotLight, SpotLightHelper, Sprite, SpriteMaterial, SrcAlphaFactor, SrcAlphaSaturateFactor, SrcColorFactor, StaticCopyUsage, StaticDrawUsage, StaticReadUsage, StereoCamera, StreamCopyUsage, StreamDrawUsage, StreamReadUsage, StringKeyframeTrack, SubtractEquation, SubtractiveBlending, TOUCH, TangentSpaceNormalMap, TetrahedronGeometry, Texture, TextureLoader, TextureUtils, Timer, TimestampQuery, TorusGeometry, TorusKnotGeometry, Triangle, TriangleFanDrawMode, TriangleStripDrawMode, TrianglesDrawMode, TubeGeometry, UVMapping, Uint16BufferAttribute, Uint32BufferAttribute, Uint8BufferAttribute, Uint8ClampedBufferAttribute, Uniform, UniformsGroup, UniformsUtils, UnsignedByteType, UnsignedInt101111Type, UnsignedInt248Type, UnsignedInt5999Type, UnsignedIntType, UnsignedShort4444Type, UnsignedShort5551Type, UnsignedShortType, VSMShadowMap, Vector2, Vector3, Vector4, VectorKeyframeTrack, VideoFrameTexture, VideoTexture, WebGL3DRenderTarget, WebGLArrayRenderTarget, WebGLCoordinateSystem, WebGLCubeRenderTarget, WebGLRenderTarget, WebGPUCoordinateSystem, WebXRController, WireframeGeometry, WrapAroundEnding, ZeroCurvatureEnding, ZeroFactor, ZeroSlopeEnding, ZeroStencilOp, arrayNeedsUint32, cloneUniforms, createCanvasElement, createElementNS, getByteLength, getUnlitUniformColorSpace, mergeUniforms, probeAsync, warnOnce };\n","// LN_SCALE_MIN..LN_SCALE_MAX define the internal scale range of for Gsplats,\n// covering approx 0.0001..8000 in range with discrete steps 7% apart.\n// The value \"0\" is reserved for truly flat scales, indicating a 2DGS.\n// If these values are changed, the corresponding values in splatDefines.glsl\n// must also be updated to match.\n\nexport const LN_SCALE_MIN = -12.0;\nexport const LN_SCALE_MAX = 9.0;\nexport const SCALE_MIN = Math.exp(LN_SCALE_MIN);\nexport const SCALE_MAX = Math.exp(LN_SCALE_MAX);\n\nexport const LN_SCALE_ZERO = -30.0;\nexport const SCALE_ZERO = Math.exp(LN_SCALE_ZERO);\n\n// Gsplats are stored in textures that are 2^11 x 2^11 x up to 2^11\n// Most WebGL2 implementations support 2D textures up to 2^12 x 2^12 (max 16M Gsplats)\n// 2D array textures and 3D textures up to 2^11 x 2^11 x 2^11 (max 8G Gsplats),\n// so we use 2D array textures for our representation for higher limits.\n\nexport const SPLAT_TEX_WIDTH_BITS = 11;\nexport const SPLAT_TEX_HEIGHT_BITS = 11;\nexport const SPLAT_TEX_DEPTH_BITS = 11;\nexport const SPLAT_TEX_LAYER_BITS =\n SPLAT_TEX_WIDTH_BITS + SPLAT_TEX_HEIGHT_BITS;\n\nexport const SPLAT_TEX_WIDTH = 1 << SPLAT_TEX_WIDTH_BITS; // 2048\nexport const SPLAT_TEX_HEIGHT = 1 << SPLAT_TEX_HEIGHT_BITS; // 2048\nexport const SPLAT_TEX_DEPTH = 1 << SPLAT_TEX_DEPTH_BITS; // 2048\nexport const SPLAT_TEX_MIN_HEIGHT = 1;\n\nexport const SPLAT_TEX_WIDTH_MASK = SPLAT_TEX_WIDTH - 1;\nexport const SPLAT_TEX_HEIGHT_MASK = SPLAT_TEX_HEIGHT - 1;\nexport const SPLAT_TEX_DEPTH_MASK = SPLAT_TEX_DEPTH - 1;\n\n// Enable/disable Gsplat sorting via Rust WASM code. In testing the sorting\n// time between pure JS and WASM are minimal and don't make a big difference.\n\nexport const WASM_SPLAT_SORT = true;\n\n// Enable/disable compiling a dedicated parse function per element type\n// in the plyReader.\n\nexport const USE_COMPILED_PARSER_FUNCTION = true;\n\nexport enum SplatFileType {\n PLY = \"ply\",\n SPZ = \"spz\",\n SPLAT = \"splat\",\n KSPLAT = \"ksplat\",\n PCSOGS = \"pcsogs\",\n PCSOGSZIP = \"pcsogszip\",\n RAD = \"rad\",\n}\n\nexport type SplatEncoding = {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n sh1Max?: number;\n sh2Max?: number;\n sh3Max?: number;\n lodOpacity?: boolean;\n};\n\nexport const DEFAULT_SPLAT_ENCODING: SplatEncoding = {\n rgbMin: 0,\n rgbMax: 1,\n lnScaleMin: LN_SCALE_MIN,\n lnScaleMax: LN_SCALE_MAX,\n sh1Max: 1,\n sh2Max: 1,\n sh3Max: 1,\n lodOpacity: false,\n};\n\nexport type RadMeta = {\n version: number;\n type: string;\n count: number;\n maxSh?: number;\n lodTree?: boolean;\n chunkSize?: number;\n chunks: {\n offset: number;\n bytes: number;\n base?: number;\n count?: number;\n filename?: string;\n }[];\n splatEncoding?: SplatEncoding;\n};\n\nexport type PackedExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type PackedResult = {\n numSplats: number;\n packedArray: Uint32Array;\n extra: PackedExtra;\n splatEncoding: SplatEncoding;\n};\n\nexport type ExtExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3a?: Uint32Array;\n sh3b?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: [Uint32Array, Uint32Array];\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type ExtResult = {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: ExtExtra;\n};\n","import type { IUniform } from \"three\";\nimport type { DynoType } from \"./types\";\nimport {\n DynoLiteral,\n DynoOutput,\n type DynoVal,\n DynoValue,\n type HasDynoOut,\n valType,\n} from \"./value\";\n\nconst DEFAULT_INDENT = \" \";\n\nexport class Compilation {\n globals: Set = new Set();\n statements: string[] = [];\n uniforms: Record = {};\n declares: Set = new Set();\n updaters: (() => void)[] = [];\n sequence = 0;\n indent: string = DEFAULT_INDENT;\n\n constructor({ indent }: { indent?: string } = {}) {\n this.indent = indent ?? DEFAULT_INDENT;\n }\n\n nextSequence() {\n return this.sequence++;\n }\n}\n\nexport type IOTypes = Record;\ntype GenerateContext = {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n};\n\nexport class Dyno {\n inTypes: InTypes;\n outTypes: OutTypes;\n\n inputs: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n }) {\n this.inTypes = inTypes ?? ({} as InTypes);\n this.outTypes = outTypes ?? ({} as OutTypes);\n this.inputs = inputs ?? {};\n this.update = update;\n\n this.globals = globals;\n this.statements = statements;\n this.generate =\n generate ??\n (({ inputs, outputs, compile }) => {\n return {\n globals: this.globals?.({ inputs, outputs, compile }),\n statements: this.statements?.({ inputs, outputs, compile }),\n };\n });\n }\n\n get outputs(): { [K in keyof OutTypes]: DynoVal } {\n const outputs = {} as { [K in keyof OutTypes]: DynoVal };\n for (const key in this.outTypes) {\n outputs[key] = new DynoOutput(this, key);\n }\n return outputs;\n }\n\n apply(inputs: { [K in keyof InTypes]?: DynoVal }): {\n [K in keyof OutTypes]: DynoVal;\n } {\n Object.assign(this.inputs, inputs);\n return this.outputs;\n }\n\n compile({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }): string[] {\n const result = [\n `// ${this.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`,\n ];\n\n const declares: (keyof OutTypes)[] = [];\n for (const key in outputs) {\n const name = outputs[key];\n if (name && !compile.declares.has(name)) {\n compile.declares.add(name);\n declares.push(key);\n }\n }\n\n const { globals, statements, uniforms } = this.generate({\n inputs,\n outputs,\n compile,\n });\n for (const global of globals ?? []) {\n compile.globals.add(global);\n }\n for (const key in uniforms) {\n compile.uniforms[key] = uniforms[key];\n }\n if (this.update) {\n compile.updaters.push(this.update);\n }\n\n for (const key of declares) {\n const name = outputs[key];\n if (name) {\n if (!compile.uniforms[name]) {\n result.push(`${dynoDeclare(name, this.outTypes[key])};`);\n }\n }\n }\n\n if (statements?.length) {\n result.push(\"{\");\n result.push(...statements.map((line) => compile.indent + line));\n result.push(\"}\");\n }\n return result;\n }\n}\n\nexport type DynoBlockType = (\n inputs: { [K in keyof InTypes]?: DynoVal },\n outputs: { [K in keyof OutTypes]?: DynoVal },\n { roots }: { roots: Dyno[] },\n) => { [K in keyof OutTypes]?: DynoVal } | undefined;\n\nexport class DynoBlock<\n InTypes extends IOTypes,\n OutTypes extends IOTypes,\n> extends Dyno {\n construct: DynoBlockType;\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n construct,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n construct: DynoBlockType;\n }) {\n super({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n generate: (args) => this.generateBlock(args),\n });\n this.construct = construct;\n }\n\n generateBlock({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }) {\n const blockInputs: { [K in keyof InTypes]?: DynoVal } = {};\n const blockOutputs: { [K in keyof OutTypes]?: DynoVal } = {};\n\n for (const key in inputs) {\n if (inputs[key] != null) {\n blockInputs[key] = new DynoLiteral(this.inTypes[key], inputs[key]);\n }\n }\n for (const key in outputs) {\n if (outputs[key] != null) {\n blockOutputs[key] = new DynoValue(this.outTypes[key]);\n }\n }\n\n const options: { roots: Dyno[] } = { roots: [] };\n const returned = this.construct(blockInputs, blockOutputs, options);\n\n for (const global of this.globals?.({ inputs, outputs, compile }) ?? []) {\n compile.globals.add(global);\n }\n\n const ordering: Dyno[] = [];\n const nodeOuts = new Map<\n Dyno,\n { sequence: number; outNames: Map; newOuts: Set }\n >();\n\n function visit(\n node: Dyno,\n outKey?: string,\n outName?: string,\n ) {\n let outs = nodeOuts.get(node);\n if (!outs) {\n // First time visiting this node\n outs = {\n sequence: compile.nextSequence(),\n outNames: new Map(),\n newOuts: new Set(),\n };\n nodeOuts.set(node, outs);\n\n for (const key in node.inputs) {\n let input = node.inputs[key];\n while (input) {\n if (input instanceof DynoValue) {\n if (input instanceof DynoOutput) {\n visit(input.dyno, input.key);\n }\n break;\n }\n // Must be as HasDynoOut\n if (typeof input.dynoOut !== \"function\") {\n throw new Error(\n `dynoOut is not a function for ${input.constructor.name}`,\n );\n }\n input = input.dynoOut();\n }\n }\n ordering.push(node);\n }\n if (outKey) {\n if (!outName) {\n outs.newOuts.add(outKey);\n }\n outs.outNames.set(outKey, outName ?? `${outKey}_${outs.sequence}`);\n }\n }\n\n for (const root of options.roots) {\n visit(root);\n }\n\n for (const key in blockOutputs) {\n let value = returned?.[key] ?? blockOutputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoOutput) {\n visit(value.dyno, value.key, outputs[key]);\n }\n break;\n }\n // Must be as HasDynoOut\n value = value.dynoOut();\n }\n blockOutputs[key] = value;\n }\n\n const steps = [];\n\n for (const dyno of ordering) {\n // compile.statements.push(`// ${dyno.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`);\n\n const inputs: Record = {};\n const outputs: Record = {};\n\n for (const key in dyno.inputs) {\n let value = dyno.inputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoLiteral) {\n inputs[key] = value.getLiteral();\n } else if (value instanceof DynoOutput) {\n const source = nodeOuts.get(value.dyno)?.outNames.get(value.key);\n if (!source) {\n throw new Error(\n `Source not found for ${value.dyno.constructor.name}.${value.key}`,\n );\n }\n inputs[key] = source;\n }\n break;\n }\n // Must be as HasDynOut\n value = value.dynoOut();\n }\n }\n\n const outs = nodeOuts.get(dyno) ?? { outNames: new Map() };\n for (const [key, name] of outs.outNames.entries()) {\n outputs[key] = name;\n }\n\n const newSteps = dyno.compile({ inputs, outputs, compile });\n steps.push(newSteps);\n }\n\n const literalOutputs = [];\n for (const key in outputs) {\n if (blockOutputs[key] instanceof DynoLiteral) {\n literalOutputs.push(\n `${outputs[key]} = ${blockOutputs[key].getLiteral()};`,\n );\n }\n }\n if (literalOutputs.length > 0) {\n steps.push(literalOutputs);\n }\n\n const statements = steps.flatMap((step, index) => {\n // Add a blank line between steps\n return index === 0 ? step : [\"\", ...step];\n });\n return { statements };\n }\n}\n\nexport function dynoBlock<\n InTypes extends Record,\n OutTypes extends Record,\n>(\n inTypes: InTypes,\n outTypes: OutTypes,\n construct: DynoBlockType,\n { update, globals }: { update?: () => void; globals?: () => string[] } = {},\n) {\n return new DynoBlock({ inTypes, outTypes, construct, update, globals });\n}\n\nexport function dyno<\n InTypes extends Record,\n OutTypes extends Record,\n>({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n}: {\n inTypes: InTypes;\n outTypes: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n}) {\n return new Dyno({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n });\n}\n\nexport function dynoDeclare(name: string, type: DynoType, count?: number) {\n const typeStr = typeof type === \"string\" ? type : type.type;\n if (!typeStr) {\n throw new Error(`Invalid DynoType: ${String(type)}`);\n }\n return `${typeStr} ${name}${count != null ? `[${count}]` : \"\"}`;\n}\n\nexport function unindentLines(s: string): string[] {\n let seenNonEmpty = false;\n const lines = s\n .split(\"\\n\")\n .map((line) => {\n const trimmedLine = line.trimEnd();\n if (seenNonEmpty) {\n return trimmedLine;\n }\n if (trimmedLine.length > 0) {\n seenNonEmpty = true;\n return trimmedLine;\n }\n return null;\n })\n .filter((line) => line != null);\n while (lines.length > 0 && lines[lines.length - 1].length === 0) {\n lines.pop();\n }\n if (lines.length === 0) {\n return [];\n }\n\n const indent = lines[0].match(/^\\s*/)?.[0];\n if (!indent) {\n return lines; // No indent, return as is\n }\n // Remove indent from the beginning of each line\n const regex = new RegExp(`^${indent}`);\n return lines.map((line) => line.replace(regex, \"\"));\n}\n\nexport function unindent(s: string): string {\n return unindentLines(s).join(\"\\n\");\n}\n\nexport class UnaryOp<\n A extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n outKey,\n outTypeFunc,\n }: { a: DynoVal; outKey: OutKey; outTypeFunc: (aType: A) => OutType }) {\n const inTypes = { a: valType(a) };\n const outType = outTypeFunc(valType(a));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class BinaryOp<\n A extends DynoType,\n B extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b) };\n const outType = outTypeFunc(valType(a), valType(b));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class TrinaryOp<\n A extends DynoType,\n B extends DynoType,\n C extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B; c: C }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n c,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n c: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B, cType: C) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b), c: valType(c) };\n const outType = outTypeFunc(valType(a), valType(b), valType(c));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b, c } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n","import { Gunzip } from \"fflate\";\nimport * as THREE from \"three\";\n\n// Miscellaneous utility functions for Spark\n\nimport {\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SCALE_ZERO,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_MIN_HEIGHT,\n SPLAT_TEX_WIDTH,\n} from \"./defines.js\";\nimport { unindent } from \"./dyno/base.js\";\n\nexport const threeRevision = Number.parseInt(THREE.REVISION);\nexport const threeMrtArray = threeRevision >= 179;\n\nconst f32buffer = new Float32Array(1);\nconst u32buffer = new Uint32Array(f32buffer.buffer);\nconst supportsFloat16Array = \"Float16Array\" in globalThis;\nconst f16buffer = supportsFloat16Array\n ? new globalThis[\"Float16Array\" as keyof typeof globalThis](1)\n : null;\nconst u16buffer = new Uint16Array(f16buffer?.buffer);\n\n// Returns a normalized array of numbers\nexport function normalize(vec: number[]) {\n const norm = Math.sqrt(vec.reduce((acc, v) => acc + v * v, 0));\n return vec.map((v) => v / norm);\n}\n\n// Reinterpret the bits of a float32 as a uint32\nexport function floatBitsToUint(f: number): number {\n f32buffer[0] = f;\n return u32buffer[0];\n}\n\n// Reinterpret the bits of a uint32 as a float32\nexport function uintBitsToFloat(u: number): number {\n u32buffer[0] = u;\n return f32buffer[0];\n}\n\nexport const toHalf = supportsFloat16Array ? toHalfNative : toHalfJS;\nexport const fromHalf = supportsFloat16Array ? fromHalfNative : fromHalfJS;\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfNative(f: number): number {\n f16buffer[0] = f;\n return u16buffer[0];\n}\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfJS(f: number): number {\n // Store the value into the shared Float32 array.\n f32buffer[0] = f;\n const bits = u32buffer[0];\n\n // Extract sign (1 bit), exponent (8 bits), and fraction (23 bits)\n const sign = (bits >> 31) & 0x1;\n const exp = (bits >> 23) & 0xff;\n const frac = bits & 0x7fffff;\n const halfSign = sign << 15;\n\n // Handle special cases: NaN and Infinity\n if (exp === 0xff) {\n // NaN: set all exponent bits to 1 and some nonzero fraction bits.\n if (frac !== 0) {\n return halfSign | 0x7fff;\n }\n // Infinity\n return halfSign | 0x7c00;\n }\n\n // Adjust the exponent from float32 bias (127) to float16 bias (15)\n const newExp = exp - 127 + 15;\n\n // Handle overflow: too large to represent in half precision.\n if (newExp >= 0x1f) {\n return halfSign | 0x7c00; // Infinity\n }\n if (newExp <= 0) {\n // Handle subnormals and underflow.\n if (newExp < -10) {\n // Too small: underflows to zero.\n return halfSign;\n }\n // Convert to subnormal: add the implicit leading 1 to the fraction,\n // then shift to align with the half-precision's 10 fraction bits.\n const subFrac = (frac | 0x800000) >> (1 - newExp + 13);\n return halfSign | subFrac;\n }\n\n // Normalized half-precision number: shift fraction to fit into 10 bits.\n const halfFrac = frac >> 13;\n return halfSign | (newExp << 10) | halfFrac;\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfNative(u: number): number {\n u16buffer[0] = u;\n return f16buffer[0];\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfJS(h: number): number {\n // Extract the sign (1 bit), exponent (5 bits), and fraction (10 bits)\n const sign = (h >> 15) & 0x1;\n const exp = (h >> 10) & 0x1f;\n const frac = h & 0x3ff;\n\n let f32bits: number;\n\n if (exp === 0) {\n if (frac === 0) {\n // Zero (positive or negative)\n f32bits = sign << 31;\n } else {\n // Subnormal half-precision number.\n // Normalize the subnormal number:\n let mant = frac;\n let e = -14; // For half, the exponent for subnormals is fixed at -14.\n // Shift left until the implicit leading 1 is in place.\n while ((mant & 0x400) === 0) {\n // 0x400 === 1 << 10\n mant <<= 1;\n e--;\n }\n // Remove the leading 1 (which is now implicit)\n mant &= 0x3ff;\n // Convert the half exponent (e) to the 32-bit float exponent:\n const newExp = e + 127; // 32-bit float bias is 127.\n const newFrac = mant << 13; // Align to 23-bit fraction (23 - 10 = 13)\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n } else if (exp === 0x1f) {\n // Handle special cases for Infinity and NaN.\n if (frac === 0) {\n // Infinity\n f32bits = (sign << 31) | 0x7f800000;\n } else {\n // NaN (we choose a quiet NaN)\n f32bits = (sign << 31) | 0x7fc00000;\n }\n } else {\n // Normalized half-precision number.\n // Adjust exponent from half (bias 15) to float32 (bias 127)\n const newExp = exp - 15 + 127;\n const newFrac = frac << 13;\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n\n // Write the 32-bit bit pattern to the shared buffer,\n // then read it as a float32 to return a JavaScript number.\n u32buffer[0] = f32bits;\n return f32buffer[0];\n}\n\n// Convert a number 0..1 to a 0..255 uint\nexport function floatToUint8(v: number): number {\n // Converts from 0..1 float to 0..255 uint8\n return Math.max(0, Math.min(255, Math.round(v * 255)));\n}\n\n// Convert a number -1..1 to a -127..127 int\nexport function floatToSint8(v: number): number {\n // Converts from -1..1 float to -127..127 int8\n return Math.max(-127, Math.min(127, Math.round(v * 127)));\n}\n\n// Convert a 0..255 uint to a 0..1 float\nexport function Uint8ToFloat(v: number): number {\n // Converts from 0..255 uint8 to 0..1 float\n return v / 255;\n}\n\n// Convert a -127..127 int to a -1..1 float\nexport function Sint8ToFloat(v: number): number {\n // Converts from -127..127 int8 to -1..1 float\n return v / 127;\n}\n\n// A simple utility class for caching a fixed number of items\nexport class DataCache {\n // Maximum number of items to cache\n maxItems: number;\n\n // Function to fetch data for a key\n asyncFetch: (key: string) => Promise;\n\n // Function to dispose of data when it is no longer needed\n dispose?: (data: unknown) => void;\n\n // Array of cached items\n items: { key: string; data: unknown }[];\n\n // In-progress fetch promises\n pending: Map>;\n\n // Create a DataCache with a given function that fetches data not in the cache.\n constructor({\n asyncFetch,\n dispose,\n maxItems = 5,\n }: {\n asyncFetch: (key: string) => Promise;\n dispose?: (data: unknown) => void;\n maxItems?: number;\n }) {\n this.asyncFetch = asyncFetch;\n this.dispose = dispose;\n this.maxItems = maxItems;\n this.items = [];\n this.pending = new Map();\n }\n\n has(key: string): boolean {\n return this.items.some((item) => item.key === key);\n }\n\n getImmediate(key: string): unknown | undefined {\n const index = this.items.findIndex((item) => item.key === key);\n if (index >= 0) {\n // Data exists in our cache, move it to the end of the array\n const item = this.items.splice(index, 1)[0];\n this.items.push(item);\n // Return the cached data\n return item.data;\n }\n return undefined;\n }\n\n // Fetch data for the key, returning cached data if available.\n async getFetch(key: string): Promise {\n const immediate = this.getImmediate(key);\n if (immediate !== undefined) {\n return immediate;\n }\n\n let pending = this.pending.get(key);\n if (pending) {\n return pending;\n }\n\n pending = this.asyncFetch(key).then((data) => {\n this.pending.delete(key);\n\n // Add the data to the cache\n this.items.push({ key, data });\n // If the cache is too large, remove the oldest accessed item\n while (this.items.length > this.maxItems) {\n const removed = this.items.shift();\n if (removed && this.dispose) {\n this.dispose(removed.data);\n }\n }\n // Return the fetched data\n return data;\n });\n this.pending.set(key, pending);\n return pending;\n }\n}\n\n// Like Array.map but for objects\nexport function mapObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n const entries = Object.entries(obj).map(([key, value]) => [\n key,\n fn(value, key),\n ]);\n // Returns a new object with the mapped values\n return Object.fromEntries(entries);\n}\n\n// Like Array.map().filter() but for objects.\n// The callback fn() should return undefined to filter out the key.\nexport function mapFilterObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n // If no return (or return undefined), the key is not included in the result\n const entries = Object.entries(obj)\n .map(([key, value]) => [key, fn(value, key)])\n .filter(([_, value]) => value !== undefined);\n // Returns a new object with the filtered values\n return Object.fromEntries(entries);\n}\n\n// Recursively finds all ArrayBuffers in an object and returns them as an array\n// to use as transferable objects to send between workers.\nexport function getTransferable(ctx: unknown): Transferable[] {\n const buffers: Transferable[] = [];\n const seen = new Set();\n\n function traverse(obj: unknown) {\n if (obj && typeof obj === \"object\" && !seen.has(obj)) {\n seen.add(obj);\n\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n // Handles TypedArrays and DataView\n buffers.push(obj.buffer as ArrayBuffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n\n traverse(ctx);\n return buffers;\n}\n\n// Create an array of the given size and initialize element with initFunction()\nexport function newArray(\n n: number,\n initFunction: (index: number) => T,\n): T[] {\n // Creates a new array and calls a constructor function for each element with index\n return new Array(n).fill(null).map((_, i) => initFunction(i));\n}\n\n// A free list that has a pool of items of type T, with callbacks\n// for constructing, disposing, and checking if an item is valid for the given args.\nexport class FreeList {\n items: T[];\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n\n constructor({\n // Allocate a new item with the given args\n allocate,\n // Dispose of an item (optional, if GC is enough)\n dispose,\n // Check if an existing item in the list is valid for the given args,\n // allowing you to store heterogeneous items in the list.\n valid,\n }: {\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n }) {\n this.items = [];\n this.allocate = allocate;\n this.dispose = dispose;\n this.valid = valid;\n }\n\n // Allocate a new item from the free list, first checking if a existing item\n // on the freelist is valid for the given args.\n alloc(args: Args): T {\n while (true) {\n const item = this.items.pop();\n if (!item) {\n // No items in the free list, allocate a new one\n break;\n }\n if (this.valid(item, args)) {\n // Found a valid item, return it\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): found valid item. Reusing...`);\n return item;\n }\n // Item isn't valid for our args, dispose of it and try again\n if (this.dispose) {\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): disposing invalid item.`);\n this.dispose(item);\n }\n }\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): allocating new item`);\n return this.allocate(args);\n }\n\n free(item: T) {\n // Return item to the free list\n this.items.push(item);\n }\n\n disposeAll() {\n // Disposes of all items in the free list\n let item: T | undefined;\n item = this.items.pop();\n while (item) {\n if (this.dispose) {\n this.dispose(item);\n }\n item = this.items.pop();\n }\n }\n}\n\nexport function encodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) {\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n extA[i4] = floatBitsToUint(x);\n extA[i4 + 1] = floatBitsToUint(y);\n extA[i4 + 2] = floatBitsToUint(z);\n extA[i4 + 3] = toHalf(opacity);\n extB[i4] = toHalf(r) | (toHalf(g) << 16);\n extB[i4 + 1] = toHalf(b) | (toHalf(Math.log(scaleX)) << 16);\n extB[i4 + 2] = toHalf(Math.log(scaleY)) | (toHalf(Math.log(scaleZ)) << 16);\n extB[i4 + 3] = encodeQuatOctXy1010R12(quatX, quatY, quatZ, quatW);\n}\n\nexport function decodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n result.center.x = uintBitsToFloat(extA[i4]);\n result.center.y = uintBitsToFloat(extA[i4 + 1]);\n result.center.z = uintBitsToFloat(extA[i4 + 2]);\n result.opacity = fromHalf(extA[i4 + 3] & 0xffff);\n result.color.r = fromHalf(extB[i4] & 0xffff);\n result.color.g = fromHalf(extB[i4] >>> 16);\n result.color.b = fromHalf(extB[i4 + 1] & 0xffff);\n result.scales.x = Math.exp(fromHalf(extB[i4 + 1] >>> 16));\n result.scales.y = Math.exp(fromHalf(extB[i4 + 2] & 0xffff));\n result.scales.z = Math.exp(fromHalf(extB[i4 + 2] >>> 16));\n decodeQuatOctXy1010R12(extB[i4 + 3], result.quaternion);\n return result;\n}\n\n// Encode a PackedSplat as 4 consecutive Uint32 elements in the packedSplats array.\n// The center coordinates x,y,z are encoded as float16, the scales x,y,z as a\n// logarithmic uint8, rotation as three uint8s representing rotation axis and angle,\n// and RGBA as 4xuint8.\nexport function setPackedSplat(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * opacity : opacity);\n\n // Alternate internal encodings commented out below.\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n // Encode the splat as 4 consecutive Uint32 elements\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] =\n uScaleX | (uScaleY << 8) | (uScaleZ << 16) | (uQuatZ << 24);\n}\n\n// Encode the center coordinates x,y,z in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatCenter(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n) {\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n const i4 = index * 4;\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (packedSplats[i4 + 2] & 0xffff0000);\n}\n\n// Encode the scales x,y,z in the packedSplats Uint32Array, leaving all other fields as is.\nexport function setPackedSplatScales(\n packedSplats: Uint32Array,\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n encoding?: {\n lnScaleMin?: number;\n lnScaleMax?: number;\n },\n) {\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const i4 = index * 4;\n packedSplats[i4 + 3] =\n uScaleX |\n (uScaleY << 8) |\n (uScaleZ << 16) |\n (packedSplats[i4 + 3] & 0xff000000);\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempQuaternion = new THREE.Quaternion();\n\n// Encode the rotation quatX, quatY, quatZ, quatW in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatQuat(\n packedSplats: Uint32Array,\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n) {\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n const i4 = index * 4;\n packedSplats[i4 + 2] =\n (packedSplats[i4 + 2] & 0x0000ffff) | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] = (packedSplats[i4 + 3] & 0x00ffffff) | (uQuatZ << 24);\n}\n\n// Encode the RGBA color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgba(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n a: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * a : a);\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n}\n\n// Encode the RGB color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgb(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n\n const i4 = index * 4;\n packedSplats[i4] =\n uR | (uG << 8) | (uB << 16) | (packedSplats[i4] & 0xff000000);\n}\n\n// Encode the opacity in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatOpacity(\n packedSplats: Uint32Array,\n index: number,\n opacity: number,\n) {\n const uA = floatToUint8(opacity);\n\n const i4 = index * 4;\n packedSplats[i4] = (packedSplats[i4] & 0x00ffffff) | (uA << 24);\n}\n\nconst packedCenter = new THREE.Vector3();\nconst packedScales = new THREE.Vector3();\nconst packedQuaternion = new THREE.Quaternion();\nconst packedColor = new THREE.Color();\nconst packedFields = {\n center: packedCenter,\n scales: packedScales,\n quaternion: packedQuaternion,\n color: packedColor,\n opacity: 0.0,\n};\n\n// Unpack all components of a PackedSplat from the packedSplats Uint32Array into\n// THREE.js vector objects. The returned objects will be reused each call.\nexport function unpackSplat(\n packedSplats: Uint32Array,\n index: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n\n const i4 = index * 4;\n const word0 = packedSplats[i4];\n const word1 = packedSplats[i4 + 1];\n const word2 = packedSplats[i4 + 2];\n const word3 = packedSplats[i4 + 3];\n\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n result.color.set(\n rgbMin + ((word0 & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 8) & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 16) & 0xff) / 255) * rgbRange,\n );\n result.opacity = ((word0 >>> 24) & 0xff) / 255;\n if (encoding?.lodOpacity) {\n result.opacity = 2.0 * result.opacity;\n }\n result.center.set(\n fromHalf(word1 & 0xffff),\n fromHalf((word1 >>> 16) & 0xffff),\n fromHalf(word2 & 0xffff),\n );\n\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = (lnScaleMax - lnScaleMin) / 254.0;\n const uScalesX = word3 & 0xff;\n result.scales.x =\n uScalesX === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesX - 1) * lnScaleScale);\n const uScalesY = (word3 >>> 8) & 0xff;\n result.scales.y =\n uScalesY === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesY - 1) * lnScaleScale);\n const uScalesZ = (word3 >>> 16) & 0xff;\n result.scales.z =\n uScalesZ === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesZ - 1) * lnScaleScale);\n\n const uQuat = ((word2 >>> 16) & 0xffff) | ((word3 >>> 8) & 0xff0000);\n decodeQuatOctXy88R8(uQuat, result.quaternion);\n // decodeQuatXyz888(uQuat, result.quaternion);\n // decodeQuatEulerXyz888(uQuat, result.quaternion);\n\n return result;\n}\n\n// Compute a texture array size that is large enough to fit numSplats. The most\n// common 2D texture size in WebGL2 is 4096x4096 which only allows for 16M splats,\n// so Spark stores Gsplat data in a 2D texture array, which most platforms support\n// up to 2048x2048x2048 = 8G splats. Allocations that fit within a single 2D texture\n// array layer will be rounded up to fill an entire texture row. Once a texture\n// array layer is filled, the allocation will be rounded up to fill an entire layer.\n// This is done so the entire set of splats can be covered by min/max coords across\n// each dimension.\nexport function getTextureSize(numSplats: number): {\n width: number;\n height: number;\n depth: number;\n maxSplats: number;\n} {\n // Compute a texture array size that is large enough to fit numSplats.\n // The width is always 2048, the height sized to fit the splats but no larger than 2048.\n // The depth is the number of layers needed to fit the splats.\n // maxSplats is computed as the new total available splats that can be stored.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n const maxSplats = width * height * depth;\n return { width, height, depth, maxSplats };\n}\n\nexport function computeMaxSplats(numSplats: number): number {\n // Compute the size of a Gsplat array texture (2048x2048xD) that can fit\n // numSplats splats, and return the total number of splats that can be stored\n // in such a texture.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n return width * height * depth;\n}\n\n// Heuristic function to determine if we are running on a mobile device.\nexport function isMobile(): boolean {\n if (navigator.platform.toLowerCase().startsWith(\"win\")) {\n return false;\n }\n if (navigator.maxTouchPoints > 0) {\n // Touch-enabled device, assume it's mobile\n return true;\n }\n return /Mobi|Android|iPhone|iPad|iPod|Opera Mini|IEMobile/.test(\n navigator.userAgent,\n );\n}\n\n// Heuristic function to determine if we are running on an Android device.\n// (does not include Oculus Quest)\nexport function isAndroid(): boolean {\n return (\n /Android/.test(navigator.userAgent) || /Tizen/.test(navigator.userAgent)\n );\n}\n\n// Heuristic function to determine if we are running on an Oculus Quest device.\nexport function isOculus(): boolean {\n return !!navigator.xr && /Oculus/.test(navigator.userAgent);\n}\n\nexport function isQuest2() {\n return isOculus() && /Quest 2/.test(navigator.userAgent);\n}\n\nexport function isIos(): boolean {\n return /iPhone|iPad/.test(navigator.userAgent);\n}\n\nexport function isVisionPro(): boolean {\n return (\n !!navigator.xr &&\n isIos() &&\n /Safari/.test(navigator.userAgent) &&\n isMobile()\n );\n}\n\n// Take an array of RGBA8 encoded pixels and flip them vertically in-place.\n// This is useful for converting between top-left and bottom-left coordinate systems\n// in standard 2D images vs WebGL2.\nexport function flipPixels(\n pixels: Uint8Array,\n width: number,\n height: number,\n): Uint8Array {\n // Flips pixels vertically in-place, returns original array.\n const tempLine = new Uint8Array(width * 4);\n\n // Only need to process half the height since we're swapping\n for (let y = 0; y < height / 2; y++) {\n const topOffset = y * width * 4;\n const bottomOffset = (height - 1 - y) * width * 4;\n\n // Save top line to temp buffer\n tempLine.set(pixels.subarray(topOffset, topOffset + width * 4));\n // Move bottom line to top\n pixels.set(\n pixels.subarray(bottomOffset, bottomOffset + width * 4),\n topOffset,\n );\n // Move saved top line to bottom\n pixels.set(tempLine, bottomOffset);\n }\n return pixels;\n}\n\n// Utility to take an array of RGBA8 encoded pixels and convert them to a\n// PNG-encoded image data URL that can be downloaded to the client.\nexport function pixelsToPngUrl(\n pixels: Uint8Array,\n width: number,\n height: number,\n): string {\n const canvas = document.createElement(\"canvas\");\n canvas.width = width;\n canvas.height = height;\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n throw new Error(\"Can't get 2d context\");\n }\n const imageData = ctx.createImageData(width, height);\n imageData.data.set(pixels);\n ctx.putImageData(imageData, 0, 0);\n return canvas.toDataURL(\"image/png\");\n}\n\n// Manually clone a THREE.Clock object.\nexport function cloneClock(clock: THREE.Clock): THREE.Clock {\n const newClock = new THREE.Clock(clock.autoStart);\n newClock.startTime = clock.startTime;\n newClock.oldTime = clock.oldTime;\n newClock.elapsedTime = clock.elapsedTime;\n newClock.running = clock.running;\n return newClock;\n}\n\n// Utility to filter out an undefined values from an object.\nexport function omitUndefined(obj: T): Partial {\n return Object.fromEntries(\n Object.entries(obj).filter(([_, value]) => value !== undefined),\n ) as Partial;\n}\n\n// \"Identity\" vertex shader that just passes through the position.\nexport const IDENT_VERTEX_SHADER = unindent(`\n precision highp float;\n\n in vec3 position;\n\n void main() {\n gl_Position = vec4(position.xy, 0.0, 1.0);\n }\n`);\n\n// Returns the average position of an array of THREE.Vector3.\nexport function averagePositions(positions: THREE.Vector3[]): THREE.Vector3 {\n const sum = new THREE.Vector3();\n for (const position of positions) {\n sum.add(position);\n }\n return sum.divideScalar(positions.length);\n}\n\n// Returns an \"average\" of an array of THREE.Quaternion objects.\n// Note that this is not a spherical lerp between quaternions but\n// rather an arithmetic mean that is normalized to unit length.\nexport function averageQuaternions(\n quaternions: THREE.Quaternion[],\n): THREE.Quaternion {\n if (quaternions.length === 0) {\n return new THREE.Quaternion();\n }\n const sum = quaternions[0].clone();\n for (let i = 1; i < quaternions.length; i++) {\n if (quaternions[i].dot(quaternions[0]) < 0.0) {\n sum.x -= quaternions[i].x;\n sum.y -= quaternions[i].y;\n sum.z -= quaternions[i].z;\n sum.w -= quaternions[i].w;\n } else {\n sum.x += quaternions[i].x;\n sum.y += quaternions[i].y;\n sum.z += quaternions[i].z;\n sum.w += quaternions[i].w;\n }\n }\n return sum.normalize();\n}\n\n// Compare two coordinates given by matrix1 and matrix2, returning the distance\n// between their origins and the \"coincidence\" of their orientations, defined\n// as the dot product of their \"-z\" axes.\nexport function coinciDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n const direction1 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix1)\n .sub(origin1)\n .normalize();\n const direction2 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix2)\n .sub(origin2)\n .normalize();\n\n const distance = origin1.distanceTo(origin2);\n const coincidence = direction1.dot(direction2);\n return { distance, coincidence };\n}\n\n// Utility function that returns whether two coordinate system origins\n// given by matrix1 and matrix2 are within a certain maxDistance of each other.\nexport function withinDist({\n matrix1,\n matrix2,\n maxDistance,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n}): boolean {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n return origin1.distanceTo(origin2) <= maxDistance;\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined by a maxDistance and a minCoincidence.\nexport function withinCoinciDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoincidence,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoincidence?: number;\n}): boolean {\n const { distance, coincidence } = coinciDist(matrix1, matrix2);\n return (\n distance <= maxDistance &&\n (minCoincidence == null || coincidence >= minCoincidence)\n );\n}\n\n// Compare two coordinate systems given by matrix1 and matrix2, returning the\n// distance between their origins and the \"coorientation\" of their orientations,\n// define as the dot product of their quaternion transforms (flipping their\n// orientation to be on the same hemisphere if necessary).\nexport function coorientDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const [origin1, rotate1] = [new THREE.Vector3(), new THREE.Quaternion()];\n const [origin2, rotate2] = [new THREE.Vector3(), new THREE.Quaternion()];\n matrix1.decompose(origin1, rotate1, new THREE.Vector3());\n matrix2.decompose(origin2, rotate2, new THREE.Vector3());\n\n const distance = origin1.distanceTo(origin2);\n const coorient = Math.abs(rotate1.dot(rotate2));\n return { distance, coorient };\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined a maxDistance and a minCoorient.\nexport function withinCoorientDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoorient,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoorient?: number;\n}): boolean {\n const { distance, coorient } = coorientDist(matrix1, matrix2);\n return (\n distance <= maxDistance && (minCoorient == null || coorient >= minCoorient)\n );\n}\n\n// Like Math.sign but with a custom epsilon value.\nexport function epsilonSign(value: number, epsilon = 0.001): number {\n if (Math.abs(value) < epsilon) {\n return 0;\n }\n return Math.sign(value);\n}\n\n// Encode a THREE.Quaternion into a 24-bit integer, converting the xyz coordinates\n// to signed 8-bit integers (w can be derived from xyz), and flipping the sign\n// of the quaternion if necessary to make this possible (q == -q for quaternions).\nexport function encodeQuatXyz888(q: THREE.Quaternion): number {\n const negQuat = q.w < 0.0;\n const iQuatX = floatToSint8(negQuat ? -q.x : q.x);\n const iQuatY = floatToSint8(negQuat ? -q.y : q.y);\n const iQuatZ = floatToSint8(negQuat ? -q.z : q.z);\n const uQuatX = iQuatX & 0xff;\n const uQuatY = iQuatY & 0xff;\n const uQuatZ = iQuatZ & 0xff;\n return uQuatX | (uQuatY << 8) | (uQuatZ << 16);\n}\n\n// Decode a 24-bit integer of the quaternion's xyz coordinates into a THREE.Quaternion.\nexport function decodeQuatXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n const iQuatX = (encoded << 24) >> 24;\n const iQuatY = (encoded << 16) >> 24;\n const iQuatZ = (encoded << 8) >> 24;\n out.set(iQuatX / 127.0, iQuatY / 127.0, iQuatZ / 127.0, 0.0);\n const dotSelf = out.x * out.x + out.y * out.y + out.z * out.z;\n out.w = Math.sqrt(Math.max(0.0, 1.0 - dotSelf));\n return out;\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempNormalizedQuaternion = new THREE.Quaternion();\nconst tempAxis = new THREE.Vector3();\n\n/**\n * Encodes a THREE.Quaternion into a 24‐bit integer.\n *\n * Bit layout (LSB → MSB):\n * - Bits 0–7: quantized U (8 bits)\n * - Bits 8–15: quantized V (8 bits)\n * - Bits 16–23: quantized angle θ (8 bits) from [0,π]\n *\n * This version uses folded octahedral mapping (all inline).\n */\nexport function encodeQuatOctXy88R8(q: THREE.Quaternion): number {\n // Force the minimal representation (q.w >= 0)\n const qnorm = tempNormalizedQuaternion.copy(q).normalize();\n if (qnorm.w < 0) {\n qnorm.set(-qnorm.x, -qnorm.y, -qnorm.z, -qnorm.w);\n }\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnorm.w);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(\n qnorm.x * qnorm.x + qnorm.y * qnorm.y + qnorm.z * qnorm.z,\n );\n const axis =\n xyz_norm < 1e-6\n ? tempAxis.set(1, 0, 0)\n : tempAxis.set(qnorm.x, qnorm.y, qnorm.z).divideScalar(xyz_norm);\n // const foldAxis = (axis.z < 0);\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axis.x) + Math.abs(axis.y) + Math.abs(axis.z);\n let p_x = axis.x / sum;\n let p_y = axis.y / sum;\n // Fold the lower hemisphere.\n if (axis.z < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 7 bits (0..127)\n const quantU = Math.round(u_f * 255);\n const quantV = Math.round(v_f * 255);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 10 bits (0..1023) ---\n const angleInt = Math.round(theta * (255 / Math.PI));\n\n // Pack into 24 bits: bits [0–7]: quantU, [8–15]: quantV, [16–23]: angleInt.\n return (angleInt << 16) | (quantV << 8) | quantU;\n}\n\n/**\n * Decodes a 24‐bit encoded quaternion (packed in a number) back to a THREE.Quaternion.\n *\n * Assumes the same bit layout as in encodeQuatOctXy88R8.\n */\nexport function decodeQuatOctXy88R8(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 8‐bit quantU and quantV, and 8‐bit angleInt.\n const quantU = encoded & 0xff; // bits 0–7\n const quantV = (encoded >>> 8) & 0xff; // bits 8–15\n const angleInt = (encoded >>> 16) & 0xff; // bits 16–23\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 255;\n const v_f = quantV / 255;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axis = tempAxis.set(f_x, f_y, f_z).normalize();\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 255) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axis.x * s, axis.y * s, axis.z * s, w);\n return out;\n}\n\n/**\n * Encodes a THREE.Quaternion into a 24‑bit unsigned integer\n * by converting it to Euler angles (roll, pitch, yaw).\n * The Euler angles are assumed to be in radians in the range [-π, π].\n * Each angle is normalized to [0,1] and quantized to 8 bits.\n * Bit layout (LSB→MSB):\n * - Bits 0–7: roll (quantized)\n * - Bits 8–15: pitch (quantized)\n * - Bits 16–23: yaw (quantized)\n */\nexport function encodeQuatEulerXyz888(q: THREE.Quaternion): number {\n // Normalize quaternion to ensure a proper rotation.\n const qNorm = q.clone().normalize();\n\n // Tait–Bryan angles (roll, pitch, yaw)\n const sinr_cosp = 2.0 * (qNorm.w * qNorm.x + qNorm.y * qNorm.z);\n const cosr_cosp = 1.0 - 2.0 * (qNorm.x * qNorm.x + qNorm.y * qNorm.y);\n const roll = Math.atan2(sinr_cosp, cosr_cosp);\n\n const sinp = 2.0 * (qNorm.w * qNorm.y - qNorm.z * qNorm.x);\n const pitch =\n Math.abs(sinp) >= 1.0 ? Math.sign(sinp) * (Math.PI / 2) : Math.asin(sinp);\n\n const siny_cosp = 2.0 * (qNorm.w * qNorm.z + qNorm.x * qNorm.y);\n const cosy_cosp = 1.0 - 2.0 * (qNorm.y * qNorm.y + qNorm.z * qNorm.z);\n const yaw = Math.atan2(siny_cosp, cosy_cosp);\n\n // Map each angle from [-π, π] to [0, 1]\n const normRoll = (roll + Math.PI) / (2 * Math.PI);\n const normPitch = (pitch + Math.PI) / (2 * Math.PI);\n const normYaw = (yaw + Math.PI) / (2 * Math.PI);\n\n // Quantize to 8 bits (0 to 255)\n const rollQ = Math.round(normRoll * 255);\n const pitchQ = Math.round(normPitch * 255);\n const yawQ = Math.round(normYaw * 255);\n\n // Pack into a 24-bit unsigned integer:\n // Bits 0–7: rollQ, Bits 8–15: pitchQ, Bits 16–23: yawQ.\n return (yawQ << 16) | (pitchQ << 8) | rollQ;\n}\n\n/**\n * Decodes a 24‑bit unsigned integer into a THREE.Quaternion\n * by unpacking three 8‑bit values (roll, pitch, yaw) in the range [0,255]\n * and then converting them back to Euler angles in [-π, π] and to a quaternion.\n */\nexport function decodeQuatEulerXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Unpack 8‑bit values.\n const rollQ = encoded & 0xff;\n const pitchQ = (encoded >>> 8) & 0xff;\n const yawQ = (encoded >>> 16) & 0xff;\n\n // Convert quantized values back to normalized [0,1] values.\n const normRoll = rollQ / 255;\n const normPitch = pitchQ / 255;\n const normYaw = yawQ / 255;\n\n // Map from [0,1] to [-π, π]\n const roll = normRoll * (2 * Math.PI) - Math.PI;\n const pitch = normPitch * (2 * Math.PI) - Math.PI;\n const yaw = normYaw * (2 * Math.PI) - Math.PI;\n\n // Convert Euler angles to quaternion (Tait–Bryan: roll, pitch, yaw).\n const cr = Math.cos(roll * 0.5);\n const sr = Math.sin(roll * 0.5);\n const cp = Math.cos(pitch * 0.5);\n const sp = Math.sin(pitch * 0.5);\n const cy = Math.cos(yaw * 0.5);\n const sy = Math.sin(yaw * 0.5);\n\n out.w = cr * cp * cy + sr * sp * sy;\n out.x = sr * cp * cy - cr * sp * sy;\n out.y = cr * sp * cy + sr * cp * sy;\n out.z = cr * cp * sy - sr * sp * cy;\n out.normalize();\n return out;\n}\n\nexport function encodeQuatOctXy1010R12(\n qx: number,\n qy: number,\n qz: number,\n qw: number,\n): number {\n const qlen = Math.sqrt(qx * qx + qy * qy + qz * qz + qw * qw);\n // Force the minimal representation (q.w >= 0)\n const qnx = (qw < 0 ? -qx : qx) / qlen;\n const qny = (qw < 0 ? -qy : qy) / qlen;\n const qnz = (qw < 0 ? -qz : qz) / qlen;\n const qnw = (qw < 0 ? -qw : qw) / qlen;\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnw);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(qnx * qnx + qny * qny + qnz * qnz);\n const axisX = xyz_norm < 1e-6 ? 1 : qnx / xyz_norm;\n const axisY = xyz_norm < 1e-6 ? 0 : qny / xyz_norm;\n const axisZ = xyz_norm < 1e-6 ? 0 : qnz / xyz_norm;\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axisX) + Math.abs(axisY) + Math.abs(axisZ);\n let p_x = axisX / sum;\n let p_y = axisY / sum;\n // Fold the lower hemisphere.\n if (axisZ < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 10 bits (0..1023)\n const quantU = Math.round(u_f * 1023);\n const quantV = Math.round(v_f * 1023);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 12 bits (0..4095) ---\n const angleInt = Math.round(theta * (4095 / Math.PI));\n\n // Pack into 32 bits: bits [0–9]: quantU, [10–19]: quantV, [20–31]: angleInt.\n return (angleInt << 20) | (quantV << 10) | quantU;\n}\n\nexport function decodeQuatOctXy1010R12(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 10‐bit quantU and quantV, and 12‐bit angleInt.\n const quantU = encoded & 0x3ff; // bits 0–9\n const quantV = (encoded >>> 10) & 0x3ff; // bits 10–19\n const angleInt = (encoded >>> 20) & 0xfff; // bits 20–31\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 1023;\n const v_f = quantV / 1023;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axisLen = Math.sqrt(f_x * f_x + f_y * f_y + f_z * f_z);\n const axisX = axisLen < 1e-6 ? 0 : f_x / axisLen;\n const axisY = axisLen < 1e-6 ? 0 : f_y / axisLen;\n const axisZ = axisLen < 1e-6 ? 0 : f_z / axisLen;\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 4095) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axisX * s, axisY * s, axisZ * s, w);\n return out;\n}\n\n// Pack four signed 8-bit values into a single uint32.\nfunction packSint8Bytes(\n b0: number,\n b1: number,\n b2: number,\n b3: number,\n): number {\n const clampedB0 = Math.round(Math.max(-127, Math.min(127, b0 * 127)));\n const clampedB1 = Math.round(Math.max(-127, Math.min(127, b1 * 127)));\n const clampedB2 = Math.round(Math.max(-127, Math.min(127, b2 * 127)));\n const clampedB3 = Math.round(Math.max(-127, Math.min(127, b3 * 127)));\n return (\n (clampedB0 & 0xff) |\n ((clampedB1 & 0xff) << 8) |\n ((clampedB2 & 0xff) << 16) |\n ((clampedB3 & 0xff) << 24)\n );\n}\n\n// Encode an array of 9 signed RGB SH1 coefficients (clamped to [-1,1]) into\n// a pair of uint32 values, where each coefficient is stored as a sint7\nexport function encodeSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n encoding?: {\n sh1Max?: number;\n },\n) {\n const sh1Max = encoding?.sh1Max ?? 1;\n const sh1Scale = 63 / sh1Max;\n\n // Pack sint7 values into 2 x uint32\n const base = index * 2;\n for (let i = 0; i < 9; ++i) {\n const s = sh1Rgb[i] * sh1Scale;\n const value = Math.round(Math.max(-63, Math.min(63, s))) & 0x7f;\n const bitStart = i * 7;\n const bitEnd = bitStart + 7;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh1Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh1Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\n// Encode an array of 15 signed RGB SH2 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint8.\nexport function encodeSh2Rgb(\n sh2Array: Uint32Array,\n index: number,\n sh2Rgb: Float32Array,\n encoding?: {\n sh2Max?: number;\n },\n) {\n const sh2Max = encoding?.sh2Max ?? 1;\n const sh2Scale = 1 / sh2Max;\n\n // Pack sint8 values into 4 x uint32\n sh2Array[index * 4 + 0] = packSint8Bytes(\n sh2Rgb[0] * sh2Scale,\n sh2Rgb[1] * sh2Scale,\n sh2Rgb[2] * sh2Scale,\n sh2Rgb[3] * sh2Scale,\n );\n sh2Array[index * 4 + 1] = packSint8Bytes(\n sh2Rgb[4] * sh2Scale,\n sh2Rgb[5] * sh2Scale,\n sh2Rgb[6] * sh2Scale,\n sh2Rgb[7] * sh2Scale,\n );\n sh2Array[index * 4 + 2] = packSint8Bytes(\n sh2Rgb[8] * sh2Scale,\n sh2Rgb[9] * sh2Scale,\n sh2Rgb[10] * sh2Scale,\n sh2Rgb[11] * sh2Scale,\n );\n sh2Array[index * 4 + 3] = packSint8Bytes(\n sh2Rgb[12] * sh2Scale,\n sh2Rgb[13] * sh2Scale,\n sh2Rgb[14] * sh2Scale,\n 0,\n );\n}\n\n// Encode an array of 21 signed RGB SH3 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint6.\nexport function encodeSh3Rgb(\n sh3Array: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n encoding?: {\n sh3Max?: number;\n },\n) {\n const sh3Max = encoding?.sh3Max ?? 1;\n const sh3Scale = 31 / sh3Max;\n\n // Pack sint6 values into 4 x uint32\n const base = index * 4;\n for (let i = 0; i < 21; ++i) {\n const s = sh3Rgb[i] * sh3Scale;\n const value = Math.round(Math.max(-31, Math.min(31, s))) & 0x3f;\n const bitStart = i * 6;\n const bitEnd = bitStart + 6;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh3Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh3Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\nexport function encodeExtRgb(r: number, g: number, b: number): number {\n const ar = Math.abs(r);\n const ag = Math.abs(g);\n const ab = Math.abs(b);\n const maxAbs = Math.max(ar, ag, ab);\n const base = Math.floor(Math.log2(maxAbs));\n const biasedBase = Math.max(0, Math.min(31, base + 15));\n const divisor = 2 ** (biasedBase - 15) / 255;\n const uR = Math.round(Math.max(0, Math.min(255, ar / divisor)));\n const uG = Math.round(Math.max(0, Math.min(255, ag / divisor)));\n const uB = Math.round(Math.max(0, Math.min(255, ab / divisor)));\n const expSigns =\n (biasedBase << 3) |\n ((r < 0 ? 0x1 : 0) | (g < 0 ? 0x2 : 0) | (b < 0 ? 0x4 : 0));\n return uR | (uG << 8) | (uB << 16) | (expSigns << 24);\n}\n\nexport function decodeExtRgb(encoded: number): THREE.Color {\n const color = packedFields.color;\n const biasedBase = (encoded >>> 27) & 0x1f;\n const divisor = 2 ** (biasedBase - 15) / 255;\n const r = (encoded & 0xff) * divisor;\n const g = ((encoded >>> 8) & 0xff) * divisor;\n const b = ((encoded >>> 16) & 0xff) * divisor;\n color.r = encoded & 0x1000000 ? -r : r;\n color.g = encoded & 0x2000000 ? -g : g;\n color.b = encoded & 0x4000000 ? -b : b;\n return color;\n}\n\nexport function encodeExtSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n}\n\nexport function encodeExtSh12Rgb(\n sh1Array: Uint32Array,\n sh2Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n sh2Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n sh1Array[i4 + 3] = encodeExtRgb(sh2Rgb[0], sh2Rgb[1], sh2Rgb[2]);\n for (let k = 1; k < 5; ++k) {\n const k5 = k * 5;\n sh2Array[i4 + (k - 1)] = encodeExtRgb(\n sh2Rgb[k5],\n sh2Rgb[k5 + 1],\n sh2Rgb[k5 + 2],\n );\n }\n}\n\nexport function encodeExt3Rgb(\n sh3ArrayA: Uint32Array,\n sh3ArrayB: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 4; ++k) {\n const k3 = k * 3;\n sh3ArrayA[i4 + k] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n for (let k = 4; k < 7; ++k) {\n const k3 = k * 3;\n sh3ArrayB[i4 + (k - 4)] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n}\n\n// Partially decompress a gzip-encoded Uint8Array, returning a Uint8Array of\n// the specified numBytes from the start of the file.\nexport function decompressPartialGzip(\n fileBytes: Uint8Array,\n numBytes: number,\n): Uint8Array {\n const chunks: Uint8Array[] = [];\n let totalBytes = 0;\n let result: Uint8Array | null = null;\n\n const gunzip = new Gunzip((data, final) => {\n chunks.push(data);\n totalBytes += data.length;\n if (final || totalBytes >= numBytes) {\n const allBytes = new Uint8Array(totalBytes);\n let offset = 0;\n for (const chunk of chunks) {\n allBytes.set(chunk, offset);\n offset += chunk.length;\n }\n result = allBytes.slice(0, numBytes);\n }\n });\n\n const CHUNK_SIZE = 1024;\n let offset = 0;\n while (result == null && offset < fileBytes.length) {\n const chunk = fileBytes.slice(offset, offset + CHUNK_SIZE);\n gunzip.push(chunk, false);\n offset += CHUNK_SIZE;\n }\n\n if (result == null) {\n gunzip.push(new Uint8Array(), true);\n if (result == null) {\n throw new Error(\"Failed to decompress partial gzip\");\n }\n }\n return result;\n}\n\nexport class GunzipReader {\n fileBytes: Uint8Array;\n chunkBytes: number;\n\n chunks: Uint8Array[];\n totalBytes: number;\n reader: ReadableStreamDefaultReader;\n\n constructor({\n fileBytes,\n chunkBytes = 64 * 1024,\n }: { fileBytes: Uint8Array; chunkBytes?: number }) {\n this.fileBytes = fileBytes;\n this.chunkBytes = chunkBytes;\n this.chunks = [];\n this.totalBytes = 0;\n\n const ds = new DecompressionStream(\"gzip\");\n const decompressionStream = new Blob([fileBytes]).stream().pipeThrough(ds);\n this.reader = decompressionStream.getReader();\n }\n\n async read(numBytes: number): Promise {\n while (this.totalBytes < numBytes) {\n const { value: chunk, done: readerDone } = await this.reader.read();\n if (readerDone) {\n break;\n }\n\n this.chunks.push(chunk);\n this.totalBytes += chunk.length;\n }\n\n if (this.totalBytes < numBytes) {\n throw new Error(\n `Unexpected EOF: needed ${numBytes}, got ${this.totalBytes}`,\n );\n }\n\n const allBytes = new Uint8Array(this.totalBytes);\n let outOffset = 0;\n for (const chunk of this.chunks) {\n allBytes.set(chunk, outOffset);\n outOffset += chunk.length;\n }\n\n const result = allBytes.subarray(0, numBytes);\n this.chunks = [allBytes.subarray(numBytes)];\n this.totalBytes -= numBytes;\n return result;\n }\n}\n","import type { SplatEncoding } from \"./defines\";\nimport { computeMaxSplats, setPackedSplat } from \"./utils\";\n\nexport function decodeAntiSplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n) {\n const numSplats = Math.floor(fileBytes.length / 32); // 32 bytes per splat\n if (numSplats * 32 !== fileBytes.length) {\n throw new Error(\"Invalid .splat file size\");\n }\n initNumSplats(numSplats);\n\n const f32 = new Float32Array(fileBytes.buffer);\n for (let i = 0; i < numSplats; ++i) {\n const i32 = i * 32;\n const i8 = i * 8;\n const x = f32[i8 + 0];\n const y = f32[i8 + 1];\n const z = f32[i8 + 2];\n const scaleX = f32[i8 + 3];\n const scaleY = f32[i8 + 4];\n const scaleZ = f32[i8 + 5];\n const r = fileBytes[i32 + 24] / 255;\n const g = fileBytes[i32 + 25] / 255;\n const b = fileBytes[i32 + 26] / 255;\n const opacity = fileBytes[i32 + 27] / 255;\n const quatW = (fileBytes[i32 + 28] - 128) / 128;\n const quatX = (fileBytes[i32 + 29] - 128) / 128;\n const quatY = (fileBytes[i32 + 30] - 128) / 128;\n const quatZ = (fileBytes[i32 + 31] - 128) / 128;\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n }\n}\n\nexport function unpackAntiSplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n} {\n let numSplats = 0;\n let maxSplats = 0;\n let packedArray = new Uint32Array(0);\n decodeAntiSplat(\n fileBytes,\n (cbNumSplats) => {\n numSplats = cbNumSplats;\n maxSplats = computeMaxSplats(numSplats);\n packedArray = new Uint32Array(maxSplats * 4);\n },\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n setPackedSplat(\n packedArray,\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n },\n );\n return { packedArray, numSplats };\n}\n","import type { SplatEncoding } from \"./defines\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n fromHalf,\n setPackedSplat,\n} from \"./utils\";\n\ntype KsplatCompression = {\n bytesPerCenter: number;\n bytesPerScale: number;\n bytesPerRotation: number;\n bytesPerColor: number;\n bytesPerSphericalHarmonicsComponent: number;\n scaleOffsetBytes: number;\n rotationOffsetBytes: number;\n colorOffsetBytes: number;\n sphericalHarmonicsOffsetBytes: number;\n scaleRange: number;\n};\n\nconst KSPLAT_COMPRESSION: Record = {\n 0: {\n bytesPerCenter: 12,\n bytesPerScale: 12,\n bytesPerRotation: 16,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 4,\n scaleOffsetBytes: 12,\n rotationOffsetBytes: 24,\n colorOffsetBytes: 40,\n sphericalHarmonicsOffsetBytes: 44,\n scaleRange: 1,\n },\n 1: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 2,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n 2: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 1,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n};\n\nconst KSPLAT_SH_DEGREE_TO_COMPONENTS: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nexport function decodeKsplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n) {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n initNumSplats(numSplats);\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n\n if (sphericalHarmonicsDegree >= 1 && sh1) {\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n if (sh2) {\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n }\n if (sh3) {\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n sectionBase += storageSizeBytes;\n }\n}\n\nexport function unpackKsplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n} {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n setPackedSplat(\n packedArray,\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n\n if (sphericalHarmonicsDegree >= 1) {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, i, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, i, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, i, sh3, splatEncoding);\n }\n }\n }\n sectionBase += storageSizeBytes;\n }\n return { packedArray, numSplats, extra };\n}\n","// PLY file format reader\n\nimport { USE_COMPILED_PARSER_FUNCTION } from \"./defines\";\n\nconst PLY_PROPERTY_TYPES = [\n \"char\",\n \"uchar\",\n \"short\",\n \"ushort\",\n \"int\",\n \"uint\",\n \"float\",\n \"double\",\n] as const;\nexport type PlyPropertyType = (typeof PLY_PROPERTY_TYPES)[number];\n\nexport type PlyElement = {\n name: string;\n count: number;\n properties: Record;\n};\n\nexport type PlyProperty = {\n isList: boolean;\n type: PlyPropertyType;\n countType?: PlyPropertyType;\n};\n\n// Callback for parseSplats base Gsplat data\nexport type SplatCallback = (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) => void;\n\n// Callback for parseSplats SH coefficients\nexport type SplatShCallback = (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n) => void;\n\n// A PlyReader is used to parse PLY files for Gsplat data.\n// It takes a Uint8Array/ArrayBuffer as input fileBytes, parses the text header,\n// and provides a method parseData to iterate over the entire binary data\n// efficiently, or parseSplats to iterate over Gsplat data.\n\nexport class PlyReader {\n fileBytes: Uint8Array;\n header = \"\";\n littleEndian = true;\n elements: Record = {};\n comments: string[] = [];\n data: DataView | null = null;\n static defaultPointScale = 0.001;\n\n numSplats = 0;\n\n // Create a PlyReader from a Uint8Array/ArrayBuffer, no parsing done yet\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n }\n\n // Identify and parse the PLY text header (assumed to be <64KB in size).\n // this.elements will contain all the elements in the file, typically\n // \"vertex\" contains the Gsplat data.\n async parseHeader() {\n const bufferStream = new ReadableStream({\n start: (\n controller: ReadableStreamController>,\n ) => {\n // Assume the header is less than 64KB\n controller.enqueue(this.fileBytes.slice(0, 65536));\n controller.close();\n },\n });\n const decoder = bufferStream\n .pipeThrough(new TextDecoderStream())\n .getReader();\n\n // Find the end of the text section of the PLY file\n this.header = \"\";\n const headerTerminator = \"end_header\\n\";\n while (true) {\n const { value, done } = await decoder.read();\n if (done) {\n throw new Error(\"Failed to read header\");\n }\n\n this.header += value as string;\n const endHeader = this.header.indexOf(headerTerminator);\n if (endHeader >= 0) {\n this.header = this.header.slice(0, endHeader + headerTerminator.length);\n break;\n }\n }\n // Partition the file into header and binary data\n const headerLen = new TextEncoder().encode(this.header).length;\n this.data = new DataView(this.fileBytes.buffer, headerLen);\n\n this.elements = {};\n let curElement: PlyElement | null = null;\n this.comments = [];\n\n this.header\n .trim()\n .split(\"\\n\")\n .forEach((line: string, lineIndex: number) => {\n const trimmedLine = line.trim();\n if (lineIndex === 0) {\n if (trimmedLine !== \"ply\") {\n throw new Error(\"Invalid PLY header\");\n }\n return;\n }\n if (trimmedLine.length === 0) {\n return; // Skip empty lines\n }\n\n const fields = trimmedLine.split(\" \");\n switch (fields[0]) {\n case \"format\":\n if (fields[1] === \"binary_little_endian\") {\n this.littleEndian = true;\n } else if (fields[1] === \"binary_big_endian\") {\n this.littleEndian = false;\n } else {\n // ascii formats not supported\n throw new Error(`Unsupported PLY format: ${fields[1]}`);\n }\n if (fields[2] !== \"1.0\") {\n throw new Error(`Unsupported PLY version: ${fields[2]}`);\n }\n break;\n case \"end_header\":\n break;\n case \"comment\":\n this.comments.push(trimmedLine.slice(\"comment \".length));\n break;\n case \"element\": {\n const name = fields[1];\n curElement = {\n name,\n count: Number.parseInt(fields[2]),\n properties: {},\n };\n this.elements[name] = curElement;\n break;\n }\n case \"property\":\n if (curElement == null) {\n throw new Error(\"Property must be inside an element\");\n }\n if (fields[1] === \"list\") {\n curElement.properties[fields[4]] = {\n isList: true,\n type: fields[3] as PlyPropertyType,\n countType: fields[2] as PlyPropertyType,\n };\n } else {\n curElement.properties[fields[2]] = {\n isList: false,\n type: fields[1] as PlyPropertyType,\n };\n }\n break;\n default:\n // console.warn(`Skipping unsupported PLY keyword: ${fields[0]}`);\n }\n });\n\n if (this.elements.vertex) {\n this.numSplats = this.elements.vertex.count;\n }\n }\n\n parseData(\n elementCallback: (\n element: PlyElement,\n ) =>\n | null\n | ((index: number, item: Record) => void),\n ) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No data to parse\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const item = createEmptyItem(properties);\n // Construct a parse function\n const parseFn = createParseFn(properties, this.littleEndian);\n\n // Parse all the items in the element\n const callback = elementCallback(element) ?? (() => {});\n for (let index = 0; index < count; index++) {\n offset = parseFn(data, offset, item);\n callback(index, item);\n }\n }\n }\n\n // Parse all the Gsplat data in the PLY file in go, invoking the given\n // callbacks for each Gsplat.\n parseSplats(splatCallback: SplatCallback, shCallback?: SplatShCallback) {\n if (this.elements.vertex == null) {\n throw new Error(\"No vertex element found\");\n }\n\n let isSuperSplat = false;\n const ssChunks: SSChunk[] = [];\n\n let numSh = 0;\n let sh1Props: number[] = [];\n let sh2Props: number[] = [];\n let sh3Props: number[] = [];\n let sh1: Float32Array | undefined = undefined;\n let sh2: Float32Array | undefined = undefined;\n let sh3: Float32Array | undefined = undefined;\n\n function prepareSh() {\n // Prepare SH coefficient names and arrays for numSh total SH levels\n const num_f_rest = NUM_SH_TO_NUM_F_REST[numSh];\n sh1Props = new Array(3)\n .fill(null)\n .flatMap((_, k) => [0, 1, 2].map((_, d) => k + (d * num_f_rest) / 3));\n sh2Props = new Array(5)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 3 + k + (d * num_f_rest) / 3),\n );\n sh3Props = new Array(7)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 8 + k + (d * num_f_rest) / 3),\n );\n sh1 = numSh >= 1 ? new Float32Array(3 * 3) : undefined;\n sh2 = numSh >= 2 ? new Float32Array(5 * 3) : undefined;\n sh3 = numSh >= 3 ? new Float32Array(7 * 3) : undefined;\n }\n\n function ssShCallback(\n index: number,\n item: Record,\n ) {\n // Decode SH for SuperSplat compressed data\n if (!sh1) {\n throw new Error(\"Missing sh1\");\n }\n const sh = item.f_rest as number[];\n\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = (sh[sh1Props[i]] * 8) / 255 - 4;\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = (sh[sh2Props[i]] * 8) / 255 - 4;\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = (sh[sh3Props[i]] * 8) / 255 - 4;\n }\n }\n shCallback?.(index, sh1, sh2, sh3);\n }\n\n function initSuperSplat(element: PlyElement) {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n } = element.properties;\n if (\n !min_x ||\n !min_y ||\n !min_z ||\n !max_x ||\n !max_y ||\n !max_z ||\n !min_scale_x ||\n !min_scale_y ||\n !min_scale_z ||\n !max_scale_x ||\n !max_scale_y ||\n !max_scale_z\n ) {\n throw new Error(\"Missing PLY chunk properties\");\n }\n\n // SuperSplat chunks are used to quantize splat data, so we need to store them\n isSuperSplat = true;\n return (index: number, item: Record) => {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = item as Record;\n ssChunks.push({\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n });\n };\n }\n\n function decodeSuperSplat(element: PlyElement) {\n // Decode SuperSplat compressed data in vertex and sh elements\n if (shCallback && element.name === \"sh\") {\n numSh = getNumSh(element.properties);\n prepareSh();\n return ssShCallback;\n }\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n element.properties;\n if (\n !packed_position ||\n !packed_rotation ||\n !packed_scale ||\n !packed_color\n ) {\n throw new Error(\n \"Missing PLY properties: packed_position, packed_rotation, packed_scale, packed_color\",\n );\n }\n\n const SQRT2 = Math.sqrt(2);\n\n return (index: number, item: Record) => {\n // SuperSplat data are quantized within chunks with 256 Gsplats each\n const chunk = ssChunks[index >>> 8];\n if (chunk == null) {\n throw new Error(\"Missing PLY chunk\");\n }\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = chunk;\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n item as Record;\n\n const x =\n (((packed_position >>> 21) & 2047) / 2047) * (max_x - min_x) + min_x;\n const y =\n (((packed_position >>> 11) & 1023) / 1023) * (max_y - min_y) + min_y;\n const z = ((packed_position & 2047) / 2047) * (max_z - min_z) + min_z;\n\n const r0 = (((packed_rotation >>> 20) & 1023) / 1023 - 0.5) * SQRT2;\n const r1 = (((packed_rotation >>> 10) & 1023) / 1023 - 0.5) * SQRT2;\n const r2 = ((packed_rotation & 1023) / 1023 - 0.5) * SQRT2;\n const rr = Math.sqrt(Math.max(0, 1.0 - r0 * r0 - r1 * r1 - r2 * r2));\n\n const rOrder = packed_rotation >>> 30;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n\n const scaleX = Math.exp(\n (((packed_scale >>> 21) & 2047) / 2047) *\n (max_scale_x - min_scale_x) +\n min_scale_x,\n );\n const scaleY = Math.exp(\n (((packed_scale >>> 11) & 1023) / 1023) *\n (max_scale_y - min_scale_y) +\n min_scale_y,\n );\n const scaleZ = Math.exp(\n ((packed_scale & 2047) / 2047) * (max_scale_z - min_scale_z) +\n min_scale_z,\n );\n\n const r =\n (((packed_color >>> 24) & 255) / 255) *\n ((max_r ?? 1) - (min_r ?? 0)) +\n (min_r ?? 0);\n const g =\n (((packed_color >>> 16) & 255) / 255) *\n ((max_g ?? 1) - (min_g ?? 0)) +\n (min_g ?? 0);\n const b =\n (((packed_color >>> 8) & 255) / 255) * ((max_b ?? 1) - (min_b ?? 0)) +\n (min_b ?? 0);\n const opacity = (packed_color & 255) / 255;\n\n splatCallback(\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n };\n }\n\n const elementCallback = (element: PlyElement) => {\n if (element.name === \"chunk\") {\n // \"chunk\" could conceivably be used for other formats, and we would\n // ideally check for the comment: Generated by SuperSplat 2.*\n // but gsplat also outputs this format without such a comment.\n // In order to support both, let's assume a \"chunk\" element should\n // be interpreted as this format.\n return initSuperSplat(element);\n }\n if (isSuperSplat) {\n return decodeSuperSplat(element);\n }\n\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const {\n x,\n y,\n z,\n scale_0,\n scale_1,\n scale_2,\n rot_0,\n rot_1,\n rot_2,\n rot_3,\n opacity,\n f_dc_0,\n f_dc_1,\n f_dc_2,\n red,\n green,\n blue,\n alpha,\n } = element.properties;\n\n if (!x || !y || !z) {\n throw new Error(\"Missing PLY properties: x, y, z\");\n }\n // Pure point cloud PLY files have no scales or rotations\n const hasScales = scale_0 && scale_1 && scale_2;\n const hasRots = rot_0 && rot_1 && rot_2 && rot_3;\n // Quantization scale factor for argb values\n const alphaDiv = alpha != null ? FIELD_SCALE[alpha.type] : 1;\n const redDiv = red != null ? FIELD_SCALE[red.type] : 1;\n const greenDiv = green != null ? FIELD_SCALE[green.type] : 1;\n const blueDiv = blue != null ? FIELD_SCALE[blue.type] : 1;\n\n numSh = getNumSh(element.properties);\n prepareSh();\n\n return (index: number, item: Record) => {\n const scaleX = hasScales\n ? Math.exp(item.scale_0 as number)\n : PlyReader.defaultPointScale;\n const scaleY = hasScales\n ? Math.exp(item.scale_1 as number)\n : PlyReader.defaultPointScale;\n const scaleZ = hasScales\n ? Math.exp(item.scale_2 as number)\n : PlyReader.defaultPointScale;\n\n const quatX = hasRots ? (item.rot_1 as number) : 0;\n const quatY = hasRots ? (item.rot_2 as number) : 0;\n const quatZ = hasRots ? (item.rot_3 as number) : 0;\n const quatW = hasRots ? (item.rot_0 as number) : 1;\n\n const op =\n opacity != null\n ? 1.0 / (1.0 + Math.exp(-item.opacity as number))\n : alpha != null\n ? (item.alpha as number) / alphaDiv\n : 1.0;\n const r =\n f_dc_0 != null\n ? (item.f_dc_0 as number) * SH_C0 + 0.5\n : red != null\n ? (item.red as number) / redDiv\n : 1.0;\n const g =\n f_dc_1 != null\n ? (item.f_dc_1 as number) * SH_C0 + 0.5\n : green != null\n ? (item.green as number) / greenDiv\n : 1.0;\n const b =\n f_dc_2 != null\n ? (item.f_dc_2 as number) * SH_C0 + 0.5\n : blue != null\n ? (item.blue as number) / blueDiv\n : 1.0;\n\n splatCallback(\n index,\n item.x as number,\n item.y as number,\n item.z as number,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n op,\n r,\n g,\n b,\n );\n\n if (shCallback && sh1) {\n const sh = item.f_rest as number[];\n if (sh1) {\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = sh[sh1Props[i]];\n }\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = sh[sh2Props[i]];\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = sh[sh3Props[i]];\n }\n }\n shCallback(index, sh1, sh2, sh3);\n }\n };\n };\n\n this.parseData(elementCallback);\n }\n\n // Inject RGBA values into original PLY file, which can be used to modify\n // the color/opacity of the Gsplats and write out the modified PLY file.\n injectRgba(rgba: Uint8Array) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No parsed data\");\n }\n if (rgba.length !== this.numSplats * 4) {\n throw new Error(\"Invalid RGBA array length\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const parsers = [];\n\n let rgbaOffset = 0;\n const isVertex = elementName === \"vertex\";\n if (isVertex) {\n for (const name of [\"opacity\", \"f_dc_0\", \"f_dc_1\", \"f_dc_2\"]) {\n if (!properties[name] || properties[name].type !== \"float\") {\n throw new Error(`Can't injectRgba due to property: ${name}`);\n }\n }\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!property.isList) {\n if (isVertex) {\n if (\n propertyName === \"f_dc_0\" ||\n propertyName === \"f_dc_1\" ||\n propertyName === \"f_dc_2\"\n ) {\n const component = Number.parseInt(\n propertyName.slice(\"f_dc_\".length),\n );\n parsers.push(() => {\n // Inject DC coefficients\n const value =\n (rgba[rgbaOffset + component] / 255 - 0.5) / SH_C0;\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n } else if (propertyName === \"opacity\") {\n parsers.push(() => {\n // Inject opacity sigmoid, clamped to [-100, 100]\n const value = Math.max(\n -100,\n Math.min(\n 100,\n -Math.log(1.0 / (rgba[rgbaOffset + 3] / 255) - 1.0),\n ),\n );\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n }\n }\n parsers.push(() => {\n offset += FIELD_BYTES[property.type];\n });\n } else {\n parsers.push(() => {\n const length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n this.littleEndian,\n );\n offset += FIELD_BYTES[property.countType as PlyPropertyType];\n offset += length * FIELD_BYTES[property.type];\n });\n }\n }\n\n for (let index = 0; index < count; index++) {\n // Go through all the data and field parsers to compute offset\n for (const parser of parsers) {\n parser();\n }\n if (isVertex) {\n rgbaOffset += 4;\n }\n }\n }\n }\n}\n\nexport const SH_C0 = 0.28209479177387814;\n\ntype FieldParser = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n) => number;\ntype FieldSetter = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n) => void;\n\nconst PARSE_FIELD: Record = {\n char: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt8(offset);\n },\n uchar: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint8(offset);\n },\n short: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt16(offset, littleEndian);\n },\n ushort: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint16(offset, littleEndian);\n },\n int: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt32(offset, littleEndian);\n },\n uint: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint32(offset, littleEndian);\n },\n float: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat32(offset, littleEndian);\n },\n double: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat64(offset, littleEndian);\n },\n};\n\nconst SET_FIELD: Record = {\n char: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt8(offset, value);\n },\n uchar: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint8(offset, value);\n },\n short: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt16(offset, value, littleEndian);\n },\n ushort: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint16(offset, value, littleEndian);\n },\n int: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt32(offset, value, littleEndian);\n },\n uint: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint32(offset, value, littleEndian);\n },\n float: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat32(offset, value, littleEndian);\n },\n double: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat64(offset, value, littleEndian);\n },\n};\n\nconst FIELD_BYTES: Record = {\n char: 1,\n uchar: 1,\n short: 2,\n ushort: 2,\n int: 4,\n uint: 4,\n float: 4,\n double: 8,\n};\n\nconst FIELD_SCALE: Record = {\n char: 127,\n uchar: 255,\n short: 32767,\n ushort: 65535,\n int: 2147483647,\n uint: 4294967295,\n float: 1,\n double: 1,\n};\n\nconst NUM_F_REST_TO_NUM_SH: Record = {\n 0: 0,\n 9: 1,\n 24: 2,\n 45: 3,\n};\nconst NUM_SH_TO_NUM_F_REST: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nconst F_REST_REGEX = /^f_rest_([0-9]{1,2})$/;\n\nfunction createEmptyItem(\n properties: Record,\n): Record {\n const item: Record = {};\n for (const [propertyName, property] of Object.entries(properties)) {\n // Treat f_rest properties as a single array for performance\n if (F_REST_REGEX.test(propertyName)) {\n item.f_rest = new Array(getNumSh(properties));\n } else {\n item[propertyName] = property.isList ? [] : 0;\n }\n }\n return item;\n}\n\nfunction createParseFn(\n properties: Record,\n littleEndian: boolean,\n) {\n if (USE_COMPILED_PARSER_FUNCTION && safeToCompile(properties)) {\n return createCompiledParserFn(properties, littleEndian);\n }\n return createDynamicParserFn(properties, littleEndian);\n}\n\n// Detect if unsafe eval is allowed in the current execution context\nconst UNSAFE_EVAL_ALLOWED = (() => {\n try {\n new Function(\"return 42;\");\n } catch (e) {\n return false;\n }\n return true;\n})();\nconst PROPERTY_NAME_REGEX = /^[a-zA-Z0-9_]+$/;\n\nfunction safeToCompile(properties: Record) {\n if (!UNSAFE_EVAL_ALLOWED) {\n return false;\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!PROPERTY_NAME_REGEX.test(propertyName)) {\n return false;\n }\n\n if (\n property.isList &&\n !PLY_PROPERTY_TYPES.includes(property.countType as PlyPropertyType)\n ) {\n return false;\n }\n\n if (!PLY_PROPERTY_TYPES.includes(property.type)) {\n return false;\n }\n }\n return true;\n}\n\nfunction createCompiledParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct the parser function source.\n const parserSrc: string[] = [\"let list;\"];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parserSrc.push(/*js*/ `\n item.f_rest[${fRestIndex}] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else if (!property.isList) {\n parserSrc.push(/*js*/ `\n item['${propertyName}'] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else {\n // Property is a list, so parse the count first\n parserSrc.push(/*js*/ `\n list = item['${propertyName}'];\n list.length = PARSE_FIELD['${property.countType}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.countType as PlyPropertyType]};\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n }\n `);\n }\n }\n parserSrc.push(\"return offset;\");\n\n const fn = new Function(\n \"data\",\n \"offset\",\n \"item\",\n \"PARSE_FIELD\",\n parserSrc.join(\"\\n\"),\n );\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => fn(data, offset, item, PARSE_FIELD);\n}\n\nfunction createDynamicParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct an array of parser function to parse each property in an item\n const parsers: Array<\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => number\n > = [];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n (item.f_rest as number[])[fRestIndex] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else if (!property.isList) {\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n item[propertyName] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else {\n // Property is a list, so parse the count first\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n const list = item[propertyName] as number[];\n list.length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n littleEndian,\n );\n let currentOffset =\n offset + FIELD_BYTES[property.countType as PlyPropertyType];\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD[property.type](\n data,\n currentOffset,\n littleEndian,\n );\n currentOffset += FIELD_BYTES[property.type];\n }\n return currentOffset;\n },\n );\n }\n }\n\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n let currentOffset = offset;\n for (let parserIndex = 0; parserIndex < parsers.length; parserIndex++) {\n currentOffset = parsers[parserIndex](data, currentOffset, item);\n }\n return currentOffset;\n };\n}\n\nfunction getNumSh(properties: Record) {\n let num_f_rest = 0;\n while (properties[`f_rest_${num_f_rest}`]) {\n num_f_rest += 1;\n }\n const numSh = NUM_F_REST_TO_NUM_SH[num_f_rest];\n if (numSh == null) {\n throw new Error(`Unsupported number of SH coefficients: ${num_f_rest}`);\n }\n return numSh;\n}\n\ntype SSChunk = {\n min_x: number;\n min_y: number;\n min_z: number;\n max_x: number;\n max_y: number;\n max_z: number;\n min_scale_x: number;\n min_scale_y: number;\n min_scale_z: number;\n max_scale_x: number;\n max_scale_y: number;\n max_scale_z: number;\n min_r?: number;\n min_g?: number;\n min_b?: number;\n max_r?: number;\n max_g?: number;\n max_b?: number;\n};\n","import * as THREE from \"three\";\nimport {\n SplatData,\n type TranscodeSpzInput,\n getSplatFileType,\n getSplatFileTypeFromPath,\n} from \"./SplatLoader\";\nimport { GunzipReader, fromHalf, normalize } from \"./utils\";\n\nimport { decodeAntiSplat } from \"./antisplat\";\nimport { SplatFileType } from \"./defines\";\nimport { decodeKsplat } from \"./ksplat\";\nimport { PlyReader } from \"./ply\";\n\n// SPZ file format reader\n\nexport class SpzReader {\n fileBytes: Uint8Array;\n reader: GunzipReader;\n\n version = -1;\n numSplats = 0;\n shDegree = 0;\n fractionalBits = 0;\n flags = 0;\n flagAntiAlias = false;\n flagLod = false;\n reserved = 0;\n headerParsed = false;\n parsed = false;\n\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n this.reader = new GunzipReader({\n fileBytes: this.fileBytes as Uint8Array,\n });\n }\n\n async parseHeader() {\n if (this.headerParsed) {\n throw new Error(\"SPZ file header already parsed\");\n }\n\n const header = new DataView((await this.reader.read(16)).buffer);\n if (header.getUint32(0, true) !== 0x5053474e) {\n throw new Error(\"Invalid SPZ file\");\n }\n this.version = header.getUint32(4, true);\n if (this.version < 1 || this.version > 3) {\n throw new Error(`Unsupported SPZ version: ${this.version}`);\n }\n\n this.numSplats = header.getUint32(8, true);\n this.shDegree = header.getUint8(12);\n this.fractionalBits = header.getUint8(13);\n this.flags = header.getUint8(14);\n this.flagAntiAlias = (this.flags & 0x01) !== 0;\n this.flagLod = (this.flags & 0x80) !== 0;\n this.reserved = header.getUint8(15);\n this.headerParsed = true;\n this.parsed = false;\n }\n\n async parseSplats(\n centerCallback?: (index: number, x: number, y: number, z: number) => void,\n alphaCallback?: (index: number, alpha: number) => void,\n rgbCallback?: (index: number, r: number, g: number, b: number) => void,\n scalesCallback?: (\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n ) => void,\n quatCallback?: (\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n {\n childCounts,\n childStarts,\n }: {\n childCounts?: (index: number, count: number) => void;\n childStarts?: (index: number, start: number) => void;\n } = {},\n ) {\n if (!this.headerParsed) {\n throw new Error(\"SPZ file header must be parsed first\");\n }\n if (this.parsed) {\n throw new Error(\"SPZ file already parsed\");\n }\n this.parsed = true;\n\n if (this.version === 1) {\n // float16 centers\n const centerBytes = await this.reader.read(this.numSplats * 3 * 2);\n const centerUint16 = new Uint16Array(centerBytes.buffer);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const x = fromHalf(centerUint16[i3]);\n const y = fromHalf(centerUint16[i3 + 1]);\n const z = fromHalf(centerUint16[i3 + 2]);\n centerCallback?.(i, x, y, z);\n }\n } else if (this.version === 2 || this.version === 3) {\n // 24-bit fixed-point centers\n const fixed = 1 << this.fractionalBits;\n const centerBytes = await this.reader.read(this.numSplats * 3 * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i9 = i * 9;\n const x =\n (((centerBytes[i9 + 2] << 24) |\n (centerBytes[i9 + 1] << 16) |\n (centerBytes[i9] << 8)) >>\n 8) /\n fixed;\n const y =\n (((centerBytes[i9 + 5] << 24) |\n (centerBytes[i9 + 4] << 16) |\n (centerBytes[i9 + 3] << 8)) >>\n 8) /\n fixed;\n const z =\n (((centerBytes[i9 + 8] << 24) |\n (centerBytes[i9 + 7] << 16) |\n (centerBytes[i9 + 6] << 8)) >>\n 8) /\n fixed;\n centerCallback?.(i, x, y, z);\n }\n } else {\n throw new Error(\"Unreachable\");\n }\n\n {\n const bytes = await this.reader.read(this.numSplats);\n for (let i = 0; i < this.numSplats; i++) {\n alphaCallback?.(i, bytes[i] / 255);\n }\n }\n {\n const rgbBytes = await this.reader.read(this.numSplats * 3);\n const scale = SH_C0 / 0.15;\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const r = (rgbBytes[i3] / 255 - 0.5) * scale + 0.5;\n const g = (rgbBytes[i3 + 1] / 255 - 0.5) * scale + 0.5;\n const b = (rgbBytes[i3 + 2] / 255 - 0.5) * scale + 0.5;\n rgbCallback?.(i, r, g, b);\n }\n }\n {\n const scalesBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const scaleX = Math.exp(scalesBytes[i3] / 16 - 10);\n const scaleY = Math.exp(scalesBytes[i3 + 1] / 16 - 10);\n const scaleZ = Math.exp(scalesBytes[i3 + 2] / 16 - 10);\n scalesCallback?.(i, scaleX, scaleY, scaleZ);\n }\n }\n if (this.version === 3) {\n // Version 3 uses a trick called \"smallest three\" to compress the rotation quaternions\n // achieving better precision. \"Optimizing orientation\" section at https://gafferongames.com/post/snapshot_compression/ A quaternion length must be 1: x^2+y^2+z^2+w^2 = 1\n // We can drop one component and reconstruct it with the identity above.\n // Largest component is dropped for best numerical precision.\n // Quaternion stored in 32 bits\n // 10 bits singed integer for each of the 3 components + 2 bits indicating the index of dropped component.\n // vs 8 bits for each component uncompressed (spz version < 3)\n // Max Value after extracting largest component v is another component v\n // (v,v,0,0)\n // v^2 + v^2 = 1\n // v = 1 / sqrt(2);\n const maxValue = 1 / Math.sqrt(2); // 0.7071\n const quatBytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 4;\n const quaternion = [0, 0, 0, 0];\n const values = [\n quatBytes[i3],\n quatBytes[i3 + 1],\n quatBytes[i3 + 2],\n quatBytes[i3 + 3],\n ];\n // all values are packed in 32 bits (10 per each of 3 components + 2 bits of index of larged value)\n const combinedValues =\n values[0] + (values[1] << 8) + (values[2] << 16) + (values[3] << 24);\n // each component value is 9 bits + sign (1 bit)\n const valueMask = (1 << 9) - 1;\n // extract index of the largest element. 2 top bits.\n const largestIndex = combinedValues >>> 30;\n let remainingValues = combinedValues;\n let sumSquares = 0;\n\n for (let i = 3; i >= 0; --i) {\n if (i !== largestIndex) {\n // extract current value and sign.\n const value = remainingValues & valueMask;\n const sign = (remainingValues >>> 9) & 0x1;\n // each value is represented as 10 bits. Shift to next one.\n remainingValues = remainingValues >>> 10;\n // convert to range [0,1] and then to [0, 0.7071]\n quaternion[i] = maxValue * (value / valueMask);\n // apply sign.\n quaternion[i] = sign === 0 ? quaternion[i] : -quaternion[i];\n // accumulate the sum of squares\n sumSquares += quaternion[i] * quaternion[i];\n }\n }\n\n // quartenion length must be 1 (x^2+y^2+z^2+w^2 = 1)\n // so can reconstruct largest component from the other 3.\n // w = sqrt(1 - x^2 - y^2 - z^2);\n const square = 1 - sumSquares;\n quaternion[largestIndex] = Math.sqrt(Math.max(square, 0));\n\n quatCallback?.(\n i,\n quaternion[0],\n quaternion[1],\n quaternion[2],\n quaternion[3],\n );\n }\n } else {\n const quatBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const quatX = quatBytes[i3] / 127.5 - 1;\n const quatY = quatBytes[i3 + 1] / 127.5 - 1;\n const quatZ = quatBytes[i3 + 2] / 127.5 - 1;\n const quatW = Math.sqrt(\n Math.max(0, 1 - quatX * quatX - quatY * quatY - quatZ * quatZ),\n );\n quatCallback?.(i, quatX, quatY, quatZ, quatW);\n }\n }\n\n if (shCallback && this.shDegree >= 1) {\n const sh1 = new Float32Array(3 * 3);\n const sh2 = this.shDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 = this.shDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n const shBytes = await this.reader.read(\n this.numSplats * SH_DEGREE_TO_VECS[this.shDegree] * 3,\n );\n\n let offset = 0;\n for (let i = 0; i < this.numSplats; i++) {\n for (let j = 0; j < 9; ++j) {\n sh1[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 9;\n if (sh2) {\n for (let j = 0; j < 15; ++j) {\n sh2[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 15;\n }\n if (sh3) {\n for (let j = 0; j < 21; ++j) {\n sh3[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 21;\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n if (this.flagLod) {\n let bytes = await this.reader.read(this.numSplats * 2);\n for (let i = 0; i < this.numSplats; i++) {\n const i2 = i * 2;\n const count = bytes[i2] + (bytes[i2 + 1] << 8);\n childCounts?.(i, count);\n }\n\n bytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i4 = i * 4;\n const start =\n bytes[i4] +\n (bytes[i4 + 1] << 8) +\n (bytes[i4 + 2] << 16) +\n (bytes[i4 + 3] << 24);\n childStarts?.(i, start);\n }\n }\n }\n}\n\nconst SH_DEGREE_TO_VECS: Record = { 1: 3, 2: 8, 3: 15 };\nconst SH_C0 = 0.28209479177387814;\n\nexport const SPZ_MAGIC = 0x5053474e; // NGSP = Niantic gaussian splat\nexport const SPZ_VERSION = 3;\nexport const FLAG_ANTIALIASED = 0x1;\n\nexport class SpzWriter {\n buffer: ArrayBuffer;\n view: DataView;\n numSplats: number;\n shDegree: number;\n fractionalBits: number;\n fraction: number;\n flagAntiAlias: boolean;\n clippedCount = 0;\n\n constructor({\n numSplats,\n shDegree,\n fractionalBits = 12,\n flagAntiAlias = true,\n }: {\n numSplats: number;\n shDegree: number;\n fractionalBits?: number;\n flagAntiAlias?: boolean;\n }) {\n const splatSize =\n 9 + // Position\n 1 + // Opacity\n 3 + // Scale\n 3 + // DC-rgb\n 4 + // Rotation\n (shDegree >= 1 ? 9 : 0) +\n (shDegree >= 2 ? 15 : 0) +\n (shDegree >= 3 ? 21 : 0);\n const bufferSize = 16 + numSplats * splatSize;\n this.buffer = new ArrayBuffer(bufferSize);\n this.view = new DataView(this.buffer);\n\n this.view.setUint32(0, SPZ_MAGIC, true); // NGSP\n this.view.setUint32(4, SPZ_VERSION, true);\n this.view.setUint32(8, numSplats, true);\n this.view.setUint8(12, shDegree);\n this.view.setUint8(13, fractionalBits);\n this.view.setUint8(14, flagAntiAlias ? FLAG_ANTIALIASED : 0);\n this.view.setUint8(15, 0); // Reserved\n\n this.numSplats = numSplats;\n this.shDegree = shDegree;\n this.fractionalBits = fractionalBits;\n this.fraction = 1 << fractionalBits;\n this.flagAntiAlias = flagAntiAlias;\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n // Divide by this.fraction and round to nearest integer,\n // then write as 3-bytes per x then y then z.\n const xRounded = Math.round(x * this.fraction);\n const xInt = Math.max(-0x7fffff, Math.min(0x7fffff, xRounded));\n const yRounded = Math.round(y * this.fraction);\n const yInt = Math.max(-0x7fffff, Math.min(0x7fffff, yRounded));\n const zRounded = Math.round(z * this.fraction);\n const zInt = Math.max(-0x7fffff, Math.min(0x7fffff, zRounded));\n const clipped = xRounded !== xInt || yRounded !== yInt || zRounded !== zInt;\n if (clipped) {\n this.clippedCount += 1;\n // if (this.clippedCount < 10) {\n // // Write x y z also in hex\n // console.log(`Clipped ${index}: ${x}, ${y}, ${z} (0x${x.toString(16)}, 0x${y.toString(16)}, 0x${z.toString(16)}) -> ${xRounded}, ${yRounded}, ${zRounded} (0x${xRounded.toString(16)}, 0x${yRounded.toString(16)}, 0x${zRounded.toString(16)}) -> ${xInt}, ${yInt}, ${zInt} (0x${xInt.toString(16)}, 0x${yInt.toString(16)}, 0x${zInt.toString(16)})`);\n // }\n }\n const i9 = index * 9;\n const base = 16 + i9;\n this.view.setUint8(base, xInt & 0xff);\n this.view.setUint8(base + 1, (xInt >> 8) & 0xff);\n this.view.setUint8(base + 2, (xInt >> 16) & 0xff);\n this.view.setUint8(base + 3, yInt & 0xff);\n this.view.setUint8(base + 4, (yInt >> 8) & 0xff);\n this.view.setUint8(base + 5, (yInt >> 16) & 0xff);\n this.view.setUint8(base + 6, zInt & 0xff);\n this.view.setUint8(base + 7, (zInt >> 8) & 0xff);\n this.view.setUint8(base + 8, (zInt >> 16) & 0xff);\n }\n\n setAlpha(index: number, alpha: number) {\n const base = 16 + this.numSplats * 9 + index;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round(alpha * 255))),\n );\n }\n\n static scaleRgb(r: number) {\n const v = ((r - 0.5) / (SH_C0 / 0.15) + 0.5) * 255;\n return Math.max(0, Math.min(255, Math.round(v)));\n }\n\n setRgb(index: number, r: number, g: number, b: number) {\n const base = 16 + this.numSplats * 10 + index * 3;\n this.view.setUint8(base, SpzWriter.scaleRgb(r));\n this.view.setUint8(base + 1, SpzWriter.scaleRgb(g));\n this.view.setUint8(base + 2, SpzWriter.scaleRgb(b));\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n const base = 16 + this.numSplats * 13 + index * 3;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleX) + 10) * 16))),\n );\n this.view.setUint8(\n base + 1,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleY) + 10) * 16))),\n );\n this.view.setUint8(\n base + 2,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleZ) + 10) * 16))),\n );\n }\n\n setQuat(\n index: number,\n ...q: [number, number, number, number] // x, y, z, w\n ) {\n const base = 16 + this.numSplats * 16 + index * 4;\n\n const quat = normalize(q);\n\n // Find largest component\n let iLargest = 0;\n for (let i = 1; i < 4; ++i) {\n if (Math.abs(quat[i]) > Math.abs(quat[iLargest])) {\n iLargest = i;\n }\n }\n\n // Since -quat represents the same rotation as quat, transform the quaternion so the largest element\n // is positive. This avoids having to send its sign bit.\n const negate = quat[iLargest] < 0 ? 1 : 0;\n\n // Do compression using sign bit and 9-bit precision per element.\n let comp = iLargest;\n for (let i = 0; i < 4; ++i) {\n if (i !== iLargest) {\n const negbit = (quat[i] < 0 ? 1 : 0) ^ negate;\n const mag = Math.floor(\n ((1 << 9) - 1) * (Math.abs(quat[i]) / Math.SQRT1_2) + 0.5,\n );\n comp = (comp << 10) | (negbit << 9) | mag;\n }\n }\n\n this.view.setUint8(base, comp & 0xff);\n this.view.setUint8(base + 1, (comp >> 8) & 0xff);\n this.view.setUint8(base + 2, (comp >> 16) & 0xff);\n this.view.setUint8(base + 3, (comp >>> 24) & 0xff);\n }\n\n static quantizeSh(sh: number, bits: number) {\n const value = Math.round(sh * 128) + 128;\n const bucketSize = 1 << (8 - bits);\n const quantized =\n Math.floor((value + bucketSize / 2) / bucketSize) * bucketSize;\n return Math.max(0, Math.min(255, quantized));\n }\n\n setSh(\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) {\n const shVecs = SH_DEGREE_TO_VECS[this.shDegree] || 0;\n const base1 = 16 + this.numSplats * 20 + index * shVecs * 3;\n for (let j = 0; j < 9; ++j) {\n this.view.setUint8(base1 + j, SpzWriter.quantizeSh(sh1[j], 5));\n }\n if (sh2) {\n const base2 = base1 + 9;\n for (let j = 0; j < 15; ++j) {\n this.view.setUint8(base2 + j, SpzWriter.quantizeSh(sh2[j], 4));\n }\n if (sh3) {\n const base3 = base2 + 15;\n for (let j = 0; j < 21; ++j) {\n this.view.setUint8(base3 + j, SpzWriter.quantizeSh(sh3[j], 4));\n }\n }\n }\n }\n\n async finalize(): Promise {\n const input = new Uint8Array(this.buffer);\n const stream = new ReadableStream({\n async start(controller) {\n controller.enqueue(input);\n controller.close();\n },\n });\n const compressed = stream.pipeThrough(new CompressionStream(\"gzip\"));\n const response = new Response(compressed);\n const buffer = await response.arrayBuffer();\n console.log(\n \"Compressed\",\n input.length,\n \"bytes to\",\n buffer.byteLength,\n \"bytes\",\n );\n return new Uint8Array(buffer);\n }\n}\n\nexport async function transcodeSpz(input: TranscodeSpzInput) {\n const splats = new SplatData();\n const {\n inputs,\n clipXyz,\n maxSh,\n fractionalBits = 12,\n opacityThreshold,\n } = input;\n for (const input of inputs) {\n const scale = input.transform?.scale ?? 1;\n const quaternion = new THREE.Quaternion().fromArray(\n input.transform?.quaternion ?? [0, 0, 0, 1],\n );\n const translate = new THREE.Vector3().fromArray(\n input.transform?.translate ?? [0, 0, 0],\n );\n const clip = clipXyz\n ? new THREE.Box3(\n new THREE.Vector3().fromArray(clipXyz.min),\n new THREE.Vector3().fromArray(clipXyz.max),\n )\n : undefined;\n\n function transformPos(pos: THREE.Vector3) {\n pos.multiplyScalar(scale);\n pos.applyQuaternion(quaternion);\n pos.add(translate);\n return pos;\n }\n\n function transformScales(scales: THREE.Vector3) {\n scales.multiplyScalar(scale);\n return scales;\n }\n\n function transformQuaternion(quat: THREE.Quaternion) {\n quat.premultiply(quaternion);\n return quat;\n }\n\n function withinClip(p: THREE.Vector3) {\n return !clip || clip.containsPoint(p);\n }\n\n function withinOpacity(opacity: number) {\n return opacityThreshold !== undefined\n ? opacity >= opacityThreshold\n : true;\n }\n\n let fileType = input.fileType;\n if (!fileType) {\n fileType = getSplatFileType(input.fileBytes);\n if (!fileType && input.pathOrUrl) {\n fileType = getSplatFileTypeFromPath(input.pathOrUrl);\n }\n }\n switch (fileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes: input.fileBytes });\n await ply.parseHeader();\n let lastIndex: number | null = null;\n ply.parseSplats(\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (sh1 && lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n }\n if (sh2 && lastIndex !== null) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3 && lastIndex !== null) {\n splats.setSh3(lastIndex, sh3);\n }\n },\n );\n break;\n }\n case SplatFileType.SPZ: {\n const spz = new SpzReader({ fileBytes: input.fileBytes });\n await spz.parseHeader();\n const mapping = new Int32Array(spz.numSplats);\n mapping.fill(-1);\n const centers = new Float32Array(spz.numSplats * 3);\n const center = new THREE.Vector3();\n spz.parseSplats(\n (index, x, y, z) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n centers[index * 3] = center.x;\n centers[index * 3 + 1] = center.y;\n centers[index * 3 + 2] = center.z;\n },\n (index, alpha) => {\n center.fromArray(centers, index * 3);\n if (withinClip(center) && withinOpacity(alpha)) {\n mapping[index] = splats.pushSplat();\n splats.setCenter(mapping[index], center.x, center.y, center.z);\n splats.setOpacity(mapping[index], alpha);\n }\n },\n (index, r, g, b) => {\n if (mapping[index] >= 0) {\n splats.setColor(mapping[index], r, g, b);\n }\n },\n (index, scaleX, scaleY, scaleZ) => {\n if (mapping[index] >= 0) {\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(mapping[index], scales.x, scales.y, scales.z);\n }\n },\n (index, quatX, quatY, quatZ, quatW) => {\n if (mapping[index] >= 0) {\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n mapping[index],\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n }\n },\n (index, sh1, sh2, sh3) => {\n if (mapping[index] >= 0) {\n splats.setSh1(mapping[index], sh1);\n if (sh2) {\n splats.setSh2(mapping[index], sh2);\n }\n if (sh3) {\n splats.setSh3(mapping[index], sh3);\n }\n }\n },\n );\n break;\n }\n case SplatFileType.SPLAT:\n decodeAntiSplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n const index = splats.pushSplat();\n splats.setCenter(index, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(index, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n index,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(index, opacity);\n splats.setColor(index, r, g, b);\n }\n },\n );\n break;\n case SplatFileType.KSPLAT: {\n let lastIndex: number | null = null;\n decodeKsplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n if (sh2) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n },\n );\n break;\n }\n default:\n throw new Error(`transcodeSpz not implemented for ${fileType}`);\n }\n }\n\n const shDegree = Math.min(\n maxSh ?? 3,\n splats.sh3 ? 3 : splats.sh2 ? 2 : splats.sh1 ? 1 : 0,\n );\n const spz = new SpzWriter({\n numSplats: splats.numSplats,\n shDegree,\n fractionalBits,\n flagAntiAlias: true,\n });\n\n for (let i = 0; i < splats.numSplats; ++i) {\n const i3 = i * 3;\n const i4 = i * 4;\n spz.setCenter(\n i,\n splats.centers[i3],\n splats.centers[i3 + 1],\n splats.centers[i3 + 2],\n );\n spz.setScale(\n i,\n splats.scales[i3],\n splats.scales[i3 + 1],\n splats.scales[i3 + 2],\n );\n spz.setQuat(\n i,\n splats.quaternions[i4],\n splats.quaternions[i4 + 1],\n splats.quaternions[i4 + 2],\n splats.quaternions[i4 + 3],\n );\n spz.setAlpha(i, splats.opacities[i]);\n spz.setRgb(\n i,\n splats.colors[i3],\n splats.colors[i3 + 1],\n splats.colors[i3 + 2],\n );\n if (splats.sh1 && shDegree >= 1) {\n spz.setSh(\n i,\n splats.sh1.slice(i * 9, (i + 1) * 9),\n shDegree >= 2 && splats.sh2\n ? splats.sh2.slice(i * 15, (i + 1) * 15)\n : undefined,\n shDegree >= 3 && splats.sh3\n ? splats.sh3.slice(i * 21, (i + 1) * 21)\n : undefined,\n );\n }\n }\n\n const spzBytes = await spz.finalize();\n return { fileBytes: spzBytes, clippedCount: spz.clippedCount };\n}\n","import { unzipSync } from \"fflate\";\nimport { FileLoader, Loader, type LoadingManager } from \"three\";\nimport { ExtSplats, type ExtSplatsOptions } from \"./ExtSplats\";\nimport { withWorker } from \"./OldSplatWorker\";\nimport { PackedSplats, type PackedSplatsOptions } from \"./PackedSplats\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport { type SplatEncoding, SplatFileType } from \"./defines\";\nimport { PlyReader } from \"./ply\";\nimport { decompressPartialGzip, getTextureSize } from \"./utils\";\n\n// SplatLoader implements the THREE.Loader interface and supports loading a variety\n// of different Gsplat file formats. Formats .PLY and .SPZ can be auto-detected\n// from the file contents, while .SPLAT and .KSPLAT require either having the\n// appropriate file extension as part of the path, or it can be explicitly set\n// in the loader using the fileType property.\n\nexport class SplatLoader extends Loader {\n fileLoader: FileLoader;\n\n constructor(manager?: LoadingManager) {\n super(manager);\n this.fileLoader = new FileLoader(manager);\n }\n\n load(\n url: string,\n onLoad?: (decoded: PackedSplats | ExtSplats) => void,\n onProgress?: (event: ProgressEvent) => void,\n onError?: (error: unknown) => void,\n ) {\n return this.loadInternal({\n url,\n onLoad,\n onProgress,\n onError,\n });\n }\n\n async loadAsync(\n url: string,\n onProgress?: (event: ProgressEvent) => void,\n ): Promise {\n return new Promise((resolve, reject) => {\n this.load(\n url,\n (decoded) => {\n resolve(decoded);\n },\n onProgress,\n reject,\n );\n });\n }\n\n parse(packedSplats: PackedSplats): SplatMesh {\n return new SplatMesh({ packedSplats });\n }\n\n loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad,\n onProgress,\n onError,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onLoad?: (decoded: PackedSplats | ExtSplats) => void;\n onProgress?: (event: ProgressEvent) => void;\n onError?: (error: unknown) => void;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n if (fileBytes instanceof ArrayBuffer) {\n fileBytes = new Uint8Array(fileBytes);\n }\n const resolvedURL = fileBytes\n ? undefined\n : this.manager.resolveURL((this.path ?? \"\") + (url ?? \"\"));\n\n let readStream = stream?.getReader();\n\n this.manager.itemStart(resolvedURL ?? \"\");\n // let calledOnLoad = false;\n\n workerPool\n .withWorker(async (worker) => {\n // If LoD is set and not falsey\n const splatsLod = packedSplats?.lod ?? extSplats?.lod;\n if (splatsLod) {\n lod = splatsLod;\n }\n const splatsNonLod = packedSplats?.nonLod ?? extSplats?.nonLod;\n if (splatsNonLod !== undefined) {\n nonLod = splatsNonLod;\n }\n\n // let init: {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // } | null = null;\n // let initExt: {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // } | null = null;\n\n const onStatus = async (data: unknown) => {\n const { loaded, total } = data as { loaded: number; total: number };\n if (loaded !== undefined && onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n\n if ((data as { nextChunk?: boolean }).nextChunk) {\n let chunk: Uint8Array;\n if (!readStream) {\n chunk = new Uint8Array(0);\n } else {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n readStream = undefined;\n chunk = new Uint8Array(0);\n } else {\n chunk = value;\n }\n }\n worker.call(\"nextChunk\", { chunk });\n }\n\n // if ((data as { orig?: unknown }).orig) {\n // if (extSplats) {\n // initExt = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // };\n // extSplats.initialize({\n // numSplats: initExt?.numSplats,\n // extArrays: [initExt?.ext0, initExt?.ext1],\n // extra: initExt?.extra,\n // });\n // calledOnLoad = true;\n // onLoad?.(extSplats);\n // } else if (packedSplats) {\n // init = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // };\n // packedSplats.initialize({\n // numSplats: init?.numSplats,\n // packedArray: init?.packedArray,\n // extra: init?.extra,\n // splatEncoding: init?.splatEncoding,\n // });\n // calledOnLoad = true;\n // onLoad?.(packedSplats);\n // } else {\n // console.warn(\"No splats to initialize\");\n // }\n // }\n };\n\n const basedUrl = resolvedURL\n ? new URL(resolvedURL, window.location.href).toString()\n : undefined;\n const decoded = (await worker.call(\n extSplats ? \"loadExtSplats\" : \"loadPackedSplats\",\n {\n url: basedUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n fileBytes: fileBytes?.slice(),\n fileType,\n pathName: resolvedURL || fileName,\n chunked: stream !== undefined,\n chunkedLength: streamLength,\n encoding: packedSplats?.splatEncoding,\n lod,\n lodBase,\n nonLod,\n lodAbove,\n },\n { onStatus },\n )) as {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n lodSplats?:\n | {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n }\n | PackedSplats\n | ExtSplats;\n };\n\n if (decoded.lodSplats) {\n if (extSplats) {\n decoded.lodSplats = new ExtSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record;\n }),\n });\n } else {\n decoded.lodSplats = new PackedSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n packedArray: Uint32Array;\n extra: Record;\n splatEncoding: SplatEncoding;\n }),\n maxSplats: packedSplats?.maxSplats,\n });\n }\n }\n\n if (extSplats) {\n const initExtSplats = {\n // ...(initExt ?? {}),\n ...decoded,\n };\n extSplats.initialize(initExtSplats as ExtSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(extSplats);\n // }\n } else {\n const initSplats = {\n // ...(init ?? {}),\n ...decoded,\n };\n if (packedSplats) {\n packedSplats.initialize(initSplats as PackedSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(packedSplats);\n // }\n } else {\n // if (!calledOnLoad) {\n onLoad?.(new PackedSplats(initSplats as PackedSplatsOptions));\n // }\n }\n }\n })\n .catch((error) => {\n this.manager.itemError(resolvedURL ?? \"\");\n onError?.(error);\n })\n .finally(() => {\n this.manager.itemEnd(resolvedURL ?? \"\");\n });\n }\n\n async loadInternalAsync({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onProgress?: (event: ProgressEvent) => void;\n lod?: boolean;\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n return new Promise((resolve, reject) => {\n this.loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad: resolve,\n onProgress,\n onError: reject,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n });\n });\n }\n}\n\nasync function fetchWithProgress(\n request: Request,\n onProgress?: (event: ProgressEvent) => void,\n) {\n const response = await fetch(request);\n if (!response.ok) {\n throw new Error(\n `${response.status} \"${response.statusText}\" fetching URL: ${request.url}`,\n );\n }\n if (!response.body) {\n throw new Error(`Response body is null for URL: ${request.url}`);\n }\n\n const reader = response.body.getReader();\n let loaded = 0;\n const chunks: Uint8Array[] = [];\n try {\n const contentLength = Number.parseInt(\n response.headers.get(\"Content-Length\") || \"0\",\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n\n while (true) {\n const { done, value } = await reader.read();\n if (done) {\n break;\n }\n chunks.push(value);\n loaded += value.length;\n\n if (onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n }\n } catch (err) {\n try {\n const reason = err instanceof Error ? err.message : \"Unknown error\";\n await reader.cancel(reason);\n } catch {}\n throw err;\n }\n\n // Combine chunks into a single buffer\n const bytes = new Uint8Array(loaded);\n let offset = 0;\n for (const chunk of chunks) {\n bytes.set(chunk, offset);\n offset += chunk.length;\n }\n return bytes.buffer;\n}\n\nexport function getSplatFileType(\n fileBytes: Uint8Array,\n): SplatFileType | undefined {\n const view = new DataView(fileBytes.buffer);\n const magic = view.getUint32(0, true);\n if ((magic & 0x00ffffff) === 0x00796c70) {\n return SplatFileType.PLY;\n }\n if ((magic & 0x00ffffff) === 0x00088b1f) {\n // Gzipped file, unpack beginning to check magic number\n const header = decompressPartialGzip(fileBytes, 4);\n const gView = new DataView(header.buffer);\n if (gView.getUint32(0, true) === 0x5053474e) {\n return SplatFileType.SPZ;\n }\n // Unknown Gzipped file type\n return undefined;\n }\n if (magic === 0x04034b50) {\n // PKZip file\n if (tryPcSogsZip(fileBytes)) {\n return SplatFileType.PCSOGSZIP;\n }\n // Unknown PKZip file type\n return undefined;\n }\n if (magic === 0x30444152) {\n return SplatFileType.RAD;\n }\n // Unknown file type\n return undefined;\n}\n\n// Returns the lowercased file extension from a path or URL\nexport function getFileExtension(pathOrUrl: string): string {\n const noTrailing = pathOrUrl.split(/[?#]/, 1)[0];\n const lastSlash = Math.max(\n noTrailing.lastIndexOf(\"/\"),\n noTrailing.lastIndexOf(\"\\\\\"),\n );\n const filename = noTrailing.slice(lastSlash + 1);\n const lastDot = filename.lastIndexOf(\".\");\n if (lastDot <= 0 || lastDot === filename.length - 1) {\n return \"\"; // No extension\n }\n return filename.slice(lastDot + 1).toLowerCase();\n}\n\nexport function getSplatFileTypeFromPath(\n pathOrUrl: string,\n): SplatFileType | undefined {\n const extension = getFileExtension(pathOrUrl);\n if (extension === \"ply\") {\n return SplatFileType.PLY;\n }\n if (extension === \"spz\") {\n return SplatFileType.SPZ;\n }\n if (extension === \"splat\") {\n return SplatFileType.SPLAT;\n }\n if (extension === \"ksplat\") {\n return SplatFileType.KSPLAT;\n }\n if (extension === \"sog\") {\n return SplatFileType.PCSOGSZIP;\n }\n if (extension === \"rad\") {\n return SplatFileType.RAD;\n }\n return undefined;\n}\n\nexport type PcSogsJson = {\n means: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n quats: { shape: number[]; dtype: string; encoding?: string; files: string[] };\n sh0: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n shN?: {\n shape: number[];\n dtype: string;\n mins: number;\n maxs: number;\n quantization: number;\n files: string[];\n };\n};\n\nexport type PcSogsV2Json = {\n version: 2;\n count: number;\n antialias?: boolean;\n means: {\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n codebook: number[];\n files: string[];\n };\n quats: { files: string[] };\n sh0: {\n codebook: number[];\n files: string[];\n };\n shN?: {\n count: number;\n bands: number;\n codebook: number[];\n files: string[];\n };\n};\n\nexport function isPcSogs(input: ArrayBuffer | Uint8Array | string): boolean {\n // Returns true if the input seems to be a valid PC SOGS file\n return tryPcSogs(input) !== undefined;\n}\n\nexport function tryPcSogs(\n input: ArrayBuffer | Uint8Array | string,\n): PcSogsJson | PcSogsV2Json | undefined {\n // Try to parse input as SOGS JSON and see if it's valid\n try {\n let text: string;\n if (typeof input === \"string\") {\n text = input;\n } else {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n if (fileBytes.length > 65536) {\n // Should be only a few KB, definitely not a SOGS JSON file\n return undefined;\n }\n text = new TextDecoder().decode(fileBytes);\n }\n\n const json = JSON.parse(text);\n if (!json || typeof json !== \"object\" || Array.isArray(json)) {\n return undefined;\n }\n const isVersion2 = json.version === 2;\n\n for (const key of [\"means\", \"scales\", \"quats\", \"sh0\"]) {\n if (\n !json[key] ||\n typeof json[key] !== \"object\" ||\n Array.isArray(json[key])\n ) {\n return undefined;\n }\n if (isVersion2) {\n // Expect files\n if (!json[key].files) {\n return undefined;\n }\n\n // Scales and sh0 should have codebooks\n if ((key === \"scales\" || key === \"sh0\") && !json[key].codebook) {\n return undefined;\n }\n // Means should have mins and maxs defined\n if (key === \"means\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n } else {\n // Expect shape and files\n if (!json[key].shape || !json[key].files) {\n return undefined;\n }\n // Besides 'quats' all other properties have mins and maxs\n if (key !== \"quats\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n }\n }\n // This is probably a PC SOGS file\n return json as PcSogsJson | PcSogsV2Json;\n } catch {\n return undefined;\n }\n}\n\nexport function tryPcSogsZip(\n input: ArrayBuffer | Uint8Array,\n): { name: string; json: PcSogsJson | PcSogsV2Json } | undefined {\n try {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let metaFilename: string | null = null;\n\n const unzipped = unzipSync(fileBytes, {\n filter: ({ name }) => {\n const filename = name.split(/[\\\\/]/).pop() as string;\n if (filename === \"meta.json\") {\n metaFilename = name;\n return true;\n }\n return false;\n },\n });\n if (!metaFilename) {\n return undefined;\n }\n\n // Check for PC SOGS V1 and V2 (aka SOG)\n const json = tryPcSogs(unzipped[metaFilename]);\n if (!json) {\n return undefined;\n }\n return { name: metaFilename, json };\n } catch {\n return undefined;\n }\n}\n\nexport async function unpackSplats({\n input,\n extraFiles,\n fileType,\n pathOrUrl,\n splatEncoding,\n}: {\n input: Uint8Array | ArrayBuffer;\n extraFiles?: Record;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n splatEncoding?: SplatEncoding;\n}): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra?: Record;\n}> {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let splatFileType = fileType;\n if (!fileType) {\n splatFileType = getSplatFileType(fileBytes);\n if (!splatFileType && pathOrUrl) {\n splatFileType = getSplatFileTypeFromPath(pathOrUrl);\n }\n }\n\n switch (splatFileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n const maxSplats = getTextureSize(numSplats).maxSplats;\n const args = {\n fileBytes,\n packedArray: new Uint32Array(maxSplats * 4),\n splatEncoding,\n };\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"unpackPly\",\n args,\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPZ: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeSpz\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats } = (await worker.call(\n \"decodeAntiSplat\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as { packedArray: Uint32Array; numSplats: number };\n return { packedArray, numSplats };\n });\n }\n case SplatFileType.KSPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeKsplat\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGS: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogs\",\n { fileBytes, extraFiles, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGSZIP: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogsZip\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n default: {\n throw new Error(`Unknown splat file type: ${splatFileType}`);\n }\n }\n}\n\nexport class SplatData {\n numSplats: number;\n maxSplats: number;\n centers: Float32Array;\n scales: Float32Array;\n quaternions: Float32Array;\n opacities: Float32Array;\n colors: Float32Array;\n sh1?: Float32Array;\n sh2?: Float32Array;\n sh3?: Float32Array;\n\n constructor({ maxSplats = 1 }: { maxSplats?: number } = {}) {\n this.numSplats = 0;\n this.maxSplats = getTextureSize(maxSplats).maxSplats;\n this.centers = new Float32Array(this.maxSplats * 3);\n this.scales = new Float32Array(this.maxSplats * 3);\n this.quaternions = new Float32Array(this.maxSplats * 4);\n this.opacities = new Float32Array(this.maxSplats);\n this.colors = new Float32Array(this.maxSplats * 3);\n }\n\n pushSplat(): number {\n const index = this.numSplats;\n this.ensureIndex(index);\n this.numSplats += 1;\n return index;\n }\n\n unpushSplat(index: number) {\n if (index === this.numSplats - 1) {\n this.numSplats -= 1;\n } else {\n throw new Error(\"Cannot unpush splat from non-last position\");\n }\n }\n\n ensureCapacity(numSplats: number) {\n if (numSplats > this.maxSplats) {\n const targetSplats = Math.max(numSplats, this.maxSplats * 2);\n const newCenters = new Float32Array(targetSplats * 3);\n const newScales = new Float32Array(targetSplats * 3);\n const newQuaternions = new Float32Array(targetSplats * 4);\n const newOpacities = new Float32Array(targetSplats);\n const newColors = new Float32Array(targetSplats * 3);\n newCenters.set(this.centers);\n newScales.set(this.scales);\n newQuaternions.set(this.quaternions);\n newOpacities.set(this.opacities);\n newColors.set(this.colors);\n this.centers = newCenters;\n this.scales = newScales;\n this.quaternions = newQuaternions;\n this.opacities = newOpacities;\n this.colors = newColors;\n\n if (this.sh1) {\n const newSh1 = new Float32Array(targetSplats * 9);\n newSh1.set(this.sh1);\n this.sh1 = newSh1;\n }\n if (this.sh2) {\n const newSh2 = new Float32Array(targetSplats * 15);\n newSh2.set(this.sh2);\n this.sh2 = newSh2;\n }\n if (this.sh3) {\n const newSh3 = new Float32Array(targetSplats * 21);\n newSh3.set(this.sh3);\n this.sh3 = newSh3;\n }\n\n this.maxSplats = targetSplats;\n }\n }\n\n ensureIndex(index: number) {\n this.ensureCapacity(index + 1);\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n this.centers[index * 3] = x;\n this.centers[index * 3 + 1] = y;\n this.centers[index * 3 + 2] = z;\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n this.scales[index * 3] = scaleX;\n this.scales[index * 3 + 1] = scaleY;\n this.scales[index * 3 + 2] = scaleZ;\n }\n\n setQuaternion(index: number, x: number, y: number, z: number, w: number) {\n this.quaternions[index * 4] = x;\n this.quaternions[index * 4 + 1] = y;\n this.quaternions[index * 4 + 2] = z;\n this.quaternions[index * 4 + 3] = w;\n }\n\n setOpacity(index: number, opacity: number) {\n this.opacities[index] = opacity;\n }\n\n setColor(index: number, r: number, g: number, b: number) {\n this.colors[index * 3] = r;\n this.colors[index * 3 + 1] = g;\n this.colors[index * 3 + 2] = b;\n }\n\n setSh1(index: number, sh1: Float32Array) {\n if (!this.sh1) {\n this.sh1 = new Float32Array(this.maxSplats * 9);\n }\n for (let j = 0; j < 9; ++j) {\n this.sh1[index * 9 + j] = sh1[j];\n }\n }\n\n setSh2(index: number, sh2: Float32Array) {\n if (!this.sh2) {\n this.sh2 = new Float32Array(this.maxSplats * 15);\n }\n for (let j = 0; j < 15; ++j) {\n this.sh2[index * 15 + j] = sh2[j];\n }\n }\n\n setSh3(index: number, sh3: Float32Array) {\n if (!this.sh3) {\n this.sh3 = new Float32Array(this.maxSplats * 21);\n }\n for (let j = 0; j < 21; ++j) {\n this.sh3[index * 21 + j] = sh3[j];\n }\n }\n}\n\nexport async function transcodeSpz(\n input: TranscodeSpzInput,\n): Promise<{ input: TranscodeSpzInput; fileBytes: Uint8Array }> {\n return await withWorker(async (worker) => {\n const result = (await worker.call(\"transcodeSpz\", input)) as {\n input: TranscodeSpzInput;\n fileBytes: Uint8Array;\n };\n return result;\n });\n}\n\nexport type FileInput = {\n fileBytes: Uint8Array;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n transform?: { translate?: number[]; quaternion?: number[]; scale?: number };\n};\n\nexport type TranscodeSpzInput = {\n inputs: FileInput[];\n maxSh?: number;\n clipXyz?: { min: number[]; max: number[] };\n fractionalBits?: number;\n opacityThreshold?: number;\n};\n","import { unzip } from \"fflate\";\nimport {\n type PcSogsJson,\n type PcSogsV2Json,\n tryPcSogsZip,\n} from \"./SplatLoader\";\nimport type { SplatEncoding } from \"./defines\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n setPackedSplatCenter,\n setPackedSplatQuat,\n setPackedSplatRgba,\n setPackedSplatScales,\n} from \"./utils\";\n\nexport async function unpackPcSogs(\n json: PcSogsJson | PcSogsV2Json,\n extraFiles: Record,\n splatEncoding: SplatEncoding,\n): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const isVersion2 = \"version\" in json;\n\n if (!isVersion2 && json.quats.encoding !== \"quaternion_packed\") {\n throw new Error(\"Unsupported quaternion encoding\");\n }\n\n const numSplats = isVersion2 ? json.count : json.means.shape[0];\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n const meansPromise = Promise.all([\n decodeImageRgba(extraFiles[json.means.files[0]]),\n decodeImageRgba(extraFiles[json.means.files[1]]),\n ]).then((means) => {\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n const fx = (means[0][i4 + 0] + (means[1][i4 + 0] << 8)) / 65535;\n const fy = (means[0][i4 + 1] + (means[1][i4 + 1] << 8)) / 65535;\n const fz = (means[0][i4 + 2] + (means[1][i4 + 2] << 8)) / 65535;\n let x =\n json.means.mins[0] + (json.means.maxs[0] - json.means.mins[0]) * fx;\n let y =\n json.means.mins[1] + (json.means.maxs[1] - json.means.mins[1]) * fy;\n let z =\n json.means.mins[2] + (json.means.maxs[2] - json.means.mins[2]) * fz;\n x = Math.sign(x) * (Math.exp(Math.abs(x)) - 1);\n y = Math.sign(y) * (Math.exp(Math.abs(y)) - 1);\n z = Math.sign(z) * (Math.exp(Math.abs(z)) - 1);\n setPackedSplatCenter(packedArray, i, x, y, z);\n }\n });\n\n const scalesPromise = decodeImageRgba(extraFiles[json.scales.files[0]]).then(\n (scales) => {\n let xLookup: number[];\n let yLookup: number[];\n let zLookup: number[];\n\n if (isVersion2) {\n xLookup =\n yLookup =\n zLookup =\n json.scales.codebook.map((x) => Math.exp(x));\n } else {\n xLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.scales.mins[0] +\n (json.scales.maxs[0] - json.scales.mins[0]) * (i / 255),\n )\n .map((x) => Math.exp(x));\n yLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.scales.mins[1] +\n (json.scales.maxs[1] - json.scales.mins[1]) * (i / 255),\n )\n .map((x) => Math.exp(x));\n zLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.scales.mins[2] +\n (json.scales.maxs[2] - json.scales.mins[2]) * (i / 255),\n )\n .map((x) => Math.exp(x));\n }\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n setPackedSplatScales(\n packedArray,\n i,\n xLookup[scales[i4 + 0]],\n yLookup[scales[i4 + 1]],\n zLookup[scales[i4 + 2]],\n splatEncoding,\n );\n }\n },\n );\n\n const quatsPromise = decodeImageRgba(extraFiles[json.quats.files[0]]).then(\n (quats) => {\n const SQRT2 = Math.sqrt(2);\n const lookup = new Array(256)\n .fill(0)\n .map((_, i) => (i / 255 - 0.5) * SQRT2);\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n const r0 = lookup[quats[i4 + 0]];\n const r1 = lookup[quats[i4 + 1]];\n const r2 = lookup[quats[i4 + 2]];\n const rr = Math.sqrt(Math.max(0, 1.0 - r0 * r0 - r1 * r1 - r2 * r2));\n const rOrder = quats[i4 + 3] - 252;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n setPackedSplatQuat(packedArray, i, quatX, quatY, quatZ, quatW);\n }\n },\n );\n const sh0Promise = decodeImageRgba(extraFiles[json.sh0.files[0]]).then(\n (sh0) => {\n const SH_C0 = 0.28209479177387814;\n let rLookup: number[];\n let gLookup: number[];\n let bLookup: number[];\n let aLookup: number[];\n\n if (isVersion2) {\n rLookup =\n gLookup =\n bLookup =\n json.sh0.codebook.map((x) => SH_C0 * x + 0.5);\n aLookup = new Array(256).fill(0).map((_, i) => i / 255);\n } else {\n rLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[0] +\n (json.sh0.maxs[0] - json.sh0.mins[0]) * (i / 255),\n )\n .map((x) => SH_C0 * x + 0.5);\n gLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[1] +\n (json.sh0.maxs[1] - json.sh0.mins[1]) * (i / 255),\n )\n .map((x) => SH_C0 * x + 0.5);\n bLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[2] +\n (json.sh0.maxs[2] - json.sh0.mins[2]) * (i / 255),\n )\n .map((x) => SH_C0 * x + 0.5);\n aLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[3] +\n (json.sh0.maxs[3] - json.sh0.mins[3]) * (i / 255),\n )\n .map((x) => 1.0 / (1.0 + Math.exp(-x)));\n }\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n setPackedSplatRgba(\n packedArray,\n i,\n rLookup[sh0[i4 + 0]],\n gLookup[sh0[i4 + 1]],\n bLookup[sh0[i4 + 2]],\n aLookup[sh0[i4 + 3]],\n splatEncoding,\n );\n }\n },\n );\n\n const promises = [meansPromise, scalesPromise, quatsPromise, sh0Promise];\n if (json.shN) {\n const useSH3 = isVersion2\n ? json.shN.bands >= 3\n : json.shN.shape[1] >= 48 - 3;\n const useSH2 = isVersion2\n ? json.shN.bands >= 2\n : json.shN.shape[1] >= 27 - 3;\n const useSH1 = isVersion2\n ? json.shN.bands >= 1\n : json.shN.shape[1] >= 12 - 3;\n\n if (useSH1) extra.sh1 = new Uint32Array(numSplats * 2);\n if (useSH2) extra.sh2 = new Uint32Array(numSplats * 4);\n if (useSH3) extra.sh3 = new Uint32Array(numSplats * 4);\n\n const sh1 = new Float32Array(9);\n const sh2 = new Float32Array(15);\n const sh3 = new Float32Array(21);\n\n const shN = json.shN;\n const shNPromise = Promise.all([\n decodeImage(extraFiles[json.shN.files[0]]),\n decodeImage(extraFiles[json.shN.files[1]]),\n ]).then(([centroids, labels]) => {\n const lookup =\n \"codebook\" in shN\n ? shN.codebook\n : new Array(256)\n .fill(0)\n .map((_, i) => shN.mins + (shN.maxs - shN.mins) * (i / 255));\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n const label = labels.rgba[i4 + 0] + (labels.rgba[i4 + 1] << 8);\n const col = (label & 63) * 15;\n const row = label >>> 6;\n const offset = row * centroids.width + col;\n\n for (let d = 0; d < 3; ++d) {\n if (useSH1) {\n for (let k = 0; k < 3; ++k) {\n sh1[k * 3 + d] = lookup[centroids.rgba[(offset + k) * 4 + d]];\n }\n }\n\n if (useSH2) {\n for (let k = 0; k < 5; ++k) {\n sh2[k * 3 + d] = lookup[centroids.rgba[(offset + 3 + k) * 4 + d]];\n }\n }\n\n if (useSH3) {\n for (let k = 0; k < 7; ++k) {\n sh3[k * 3 + d] = lookup[centroids.rgba[(offset + 8 + k) * 4 + d]];\n }\n }\n }\n\n if (useSH1)\n encodeSh1Rgb(extra.sh1 as Uint32Array, i, sh1, splatEncoding);\n if (useSH2)\n encodeSh2Rgb(extra.sh2 as Uint32Array, i, sh2, splatEncoding);\n if (useSH3)\n encodeSh3Rgb(extra.sh3 as Uint32Array, i, sh3, splatEncoding);\n }\n });\n promises.push(shNPromise);\n }\n\n await Promise.all(promises);\n\n return { packedArray, numSplats, extra };\n}\n\n// WebGL context for reading raw pixel data of WebP images\nlet offscreenGlContext: WebGL2RenderingContext | null = null;\n\nasync function decodeImage(fileBytes: ArrayBuffer) {\n if (!offscreenGlContext) {\n const canvas = new OffscreenCanvas(1, 1);\n offscreenGlContext = canvas.getContext(\"webgl2\");\n if (!offscreenGlContext) {\n throw new Error(\"Failed to create WebGL2 context\");\n }\n }\n\n const imageBlob = new Blob([fileBytes]);\n const bitmap = await createImageBitmap(imageBlob, {\n premultiplyAlpha: \"none\",\n });\n\n const gl = offscreenGlContext;\n const texture = gl.createTexture();\n gl.bindTexture(gl.TEXTURE_2D, texture);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, true);\n gl.texImage2D(gl.TEXTURE_2D, 0, gl.RGBA, gl.RGBA, gl.UNSIGNED_BYTE, bitmap);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST);\n\n const framebuffer = gl.createFramebuffer();\n gl.bindFramebuffer(gl.FRAMEBUFFER, framebuffer);\n gl.framebufferTexture2D(\n gl.FRAMEBUFFER,\n gl.COLOR_ATTACHMENT0,\n gl.TEXTURE_2D,\n texture,\n 0,\n );\n\n const data = new Uint8Array(bitmap.width * bitmap.height * 4);\n gl.readPixels(\n 0,\n 0,\n bitmap.width,\n bitmap.height,\n gl.RGBA,\n gl.UNSIGNED_BYTE,\n data,\n );\n\n gl.deleteTexture(texture);\n gl.deleteFramebuffer(framebuffer);\n\n return { rgba: data, width: bitmap.width, height: bitmap.height };\n}\n\nasync function decodeImageRgba(fileBytes: ArrayBuffer) {\n const { rgba } = await decodeImage(fileBytes);\n return rgba;\n}\n\nexport async function unpackPcSogsZip(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const nameJson = tryPcSogsZip(fileBytes);\n if (!nameJson) {\n throw new Error(\"Invalid PC SOGS zip file\");\n }\n const { name, json } = nameJson;\n // Find path prefix, will be -1 if no / or \\\n const lastSlash = name.lastIndexOf(\"/\");\n const lastBackslash = name.lastIndexOf(\"\\\\\");\n const prefix = name.slice(0, Math.max(lastSlash, lastBackslash) + 1);\n\n const fileMap = new Map();\n const refFiles = [\n ...json.means.files,\n ...json.scales.files,\n ...json.quats.files,\n ...json.sh0.files,\n ...(json.shN?.files ?? []),\n ];\n for (const file of refFiles) {\n fileMap.set(prefix + file, file);\n }\n\n const unzipped = await new Promise>(\n (resolve, reject) => {\n unzip(\n fileBytes,\n {\n filter: ({ name }) => {\n return fileMap.has(name);\n },\n },\n (err, files) => {\n if (err) {\n reject(err);\n } else {\n resolve(files);\n }\n },\n );\n },\n );\n\n const extraFiles: Record = {};\n for (const [full, name] of fileMap.entries()) {\n extraFiles[name] = unzipped[full];\n }\n\n return await unpackPcSogs(json, extraFiles, splatEncoding);\n}\n","import init_wasm, { sort_splats, sort32_splats } from \"spark-worker-rs\";\nimport type { PcSogsJson, TranscodeSpzInput } from \"./SplatLoader\";\nimport { unpackAntiSplat } from \"./antisplat\";\nimport { type SplatEncoding, WASM_SPLAT_SORT } from \"./defines\";\nimport { unpackKsplat } from \"./ksplat\";\nimport { unpackPcSogs, unpackPcSogsZip } from \"./pcsogs\";\nimport { PlyReader } from \"./ply\";\nimport { SpzReader, transcodeSpz } from \"./spz\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n getTransferable,\n setPackedSplat,\n setPackedSplatCenter,\n setPackedSplatOpacity,\n setPackedSplatQuat,\n setPackedSplatRgb,\n setPackedSplatScales,\n toHalf,\n} from \"./utils\";\n\n// WebWorker for Spark's background CPU tasks, such as Gsplat file decoding\n// and sorting.\n\nasync function onMessage(event: MessageEvent) {\n // Unpack RPC function name, arguments, and ID from the main thread.\n const { name, args, id }: { name: string; args: unknown; id: number } =\n event.data;\n // console.log(`worker.onMessage(${id}, ${name}):`, args);\n\n // Initialize return result/error, to be filled out below.\n let result = undefined;\n let error = undefined;\n\n try {\n switch (name) {\n case \"unpackPly\": {\n const { packedArray, fileBytes, splatEncoding } = args as {\n packedArray: Uint32Array;\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = await unpackPly({\n packedArray,\n fileBytes,\n splatEncoding,\n });\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodeSpz\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = await unpackSpz(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodeAntiSplat\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = unpackAntiSplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n };\n break;\n }\n case \"decodeKsplat\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = unpackKsplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodePcSogs\": {\n const { fileBytes, extraFiles, splatEncoding } = args as {\n fileBytes: Uint8Array;\n extraFiles: Record;\n splatEncoding: SplatEncoding;\n };\n const json = JSON.parse(\n new TextDecoder().decode(fileBytes),\n ) as PcSogsJson;\n const decoded = await unpackPcSogs(json, extraFiles, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodePcSogsZip\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = await unpackPcSogsZip(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"sortSplats\": {\n // Sort maxSplats splats using readback data, which encodes one uint32 per\n // Gsplats, with the low bytes encoding a float16 distance sort metric.\n const { maxSplats, totalSplats, readback, ordering } = args as {\n maxSplats: number;\n totalSplats: number;\n readback: Uint8Array[];\n ordering: Uint32Array;\n };\n // Sort totalSplats splats each with 4 bytes of readback, and outputs Uint32Array ordering of splat indices\n result = {\n id,\n readback,\n ...sortSplats({ totalSplats, readback, ordering }),\n };\n break;\n }\n case \"sortDoubleSplats\": {\n // Sort numSplats splats using the readback distance metric, which encodes\n // one float16 per splat (no unused high bytes like for sortSplats).\n const { numSplats, readback, ordering } = args as {\n numSplats: number;\n readback: Uint16Array;\n ordering: Uint32Array;\n };\n if (WASM_SPLAT_SORT) {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort_splats(numSplats, readback, ordering),\n };\n } else {\n result = {\n id,\n readback,\n ...sortDoubleSplats({ numSplats, readback, ordering }),\n };\n }\n break;\n }\n case \"sort32Splats\": {\n const { maxSplats, numSplats, readback, ordering } = args as {\n maxSplats: number;\n numSplats: number;\n readback: Uint32Array;\n ordering: Uint32Array;\n };\n // Benchmark sort\n // benchmarkSort(numSplats, readback, ordering);\n if (WASM_SPLAT_SORT) {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort32_splats(numSplats, readback, ordering),\n };\n } else {\n result = {\n id,\n readback,\n ...sort32Splats({ maxSplats, numSplats, readback, ordering }),\n };\n }\n break;\n }\n case \"transcodeSpz\": {\n const input = args as TranscodeSpzInput;\n const spzBytes = await transcodeSpz(input);\n result = {\n id,\n fileBytes: spzBytes,\n input,\n };\n break;\n }\n default: {\n throw new Error(`Unknown name: ${name}`);\n }\n }\n } catch (e) {\n error = e;\n console.error(error);\n }\n\n // Send the result or error back to the main thread, making sure to transfer any ArrayBuffers\n self.postMessage(\n { id, result, error },\n { transfer: getTransferable(result) },\n );\n}\n\nfunction benchmarkSort(\n numSplats: number,\n readback32: Uint32Array,\n ordering: Uint32Array,\n) {\n if (numSplats > 0) {\n console.log(\"Running sort benchmark\");\n const readbackF32 = new Float32Array(readback32.buffer);\n const readback16 = new Uint16Array(readback32.length);\n for (let i = 0; i < numSplats; ++i) {\n readback16[i] = toHalf(readbackF32[i]);\n }\n\n const WARMUP = 10;\n for (let i = 0; i < WARMUP; ++i) {\n const activeSplats = sort_splats(numSplats, readback16, ordering);\n const activeSplats32 = sort32_splats(numSplats, readback32, ordering);\n const results = sortDoubleSplats({\n numSplats,\n readback: readback16,\n ordering,\n });\n const results32 = sort32Splats({\n maxSplats: numSplats,\n numSplats,\n readback: readback32,\n ordering,\n });\n }\n\n const TIMING_SAMPLES = 1000;\n let start: number;\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const activeSplats = sort_splats(numSplats, readback16, ordering);\n }\n const wasmTime = (performance.now() - start) / TIMING_SAMPLES;\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const results = sortDoubleSplats({\n numSplats,\n readback: readback16,\n ordering,\n });\n }\n const jsTime = (performance.now() - start) / TIMING_SAMPLES;\n\n console.log(\n `JS: ${jsTime} ms, WASM: ${wasmTime} ms, numSplats: ${numSplats}`,\n );\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const activeSplats32 = sort32_splats(numSplats, readback32, ordering);\n }\n const wasm32Time = (performance.now() - start) / TIMING_SAMPLES;\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const results = sort32Splats({\n maxSplats: numSplats,\n numSplats,\n readback: readback32,\n ordering,\n });\n }\n const js32Time = (performance.now() - start) / TIMING_SAMPLES;\n\n console.log(\n `JS32: ${js32Time} ms, WASM32: ${wasm32Time} ms, numSplats: ${numSplats}`,\n );\n }\n}\n\nasync function unpackPly({\n packedArray,\n fileBytes,\n splatEncoding,\n}: {\n packedArray: Uint32Array;\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n}): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n\n const extra: Record = {};\n\n ply.parseSplats(\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n setPackedSplat(\n packedArray,\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, index, sh3, splatEncoding);\n }\n },\n );\n\n return { packedArray, numSplats, extra };\n}\n\nasync function unpackSpz(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const spz = new SpzReader({ fileBytes });\n await spz.parseHeader();\n const numSplats = spz.numSplats;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let extraCallbacks = {};\n if (spz.flagLod) {\n const childCounts = new Uint16Array(numSplats);\n const childStarts = new Uint32Array(numSplats);\n extra.childCounts = childCounts;\n extra.childStarts = childStarts;\n extraCallbacks = {\n childCounts: (index: number, count: number) => {\n childCounts[index] = count;\n },\n childStarts: (index: number, start: number) => {\n childStarts[index] = start;\n },\n };\n }\n\n await spz.parseSplats(\n (index, x, y, z) => {\n setPackedSplatCenter(packedArray, index, x, y, z);\n },\n (index, alpha) => {\n setPackedSplatOpacity(packedArray, index, alpha);\n },\n (index, r, g, b) => {\n setPackedSplatRgb(packedArray, index, r, g, b, splatEncoding);\n },\n (index, scaleX, scaleY, scaleZ) => {\n setPackedSplatScales(\n packedArray,\n index,\n scaleX,\n scaleY,\n scaleZ,\n splatEncoding,\n );\n },\n (index, quatX, quatY, quatZ, quatW) => {\n setPackedSplatQuat(packedArray, index, quatX, quatY, quatZ, quatW);\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, index, sh3, splatEncoding);\n }\n },\n extraCallbacks,\n );\n return { packedArray, numSplats, extra };\n}\n\n// Array of buckets for sorting float16 distances with range [0, DEPTH_INFINITY].\nconst DEPTH_INFINITY_F16 = 0x7c00;\nconst DEPTH_SIZE_16 = DEPTH_INFINITY_F16 + 1;\nlet depthArray16: Uint32Array | null = null;\n\nfunction sortSplats({\n totalSplats,\n readback,\n ordering,\n}: { totalSplats: number; readback: Uint8Array[]; ordering: Uint32Array }): {\n activeSplats: number;\n ordering: Uint32Array;\n} {\n // Sort totalSplats Gsplats, each with 4 bytes of readback, and outputs Uint32Array\n // of indices from most distant to nearest. Each 4 bytes encode a float16 distance\n // and unused high bytes.\n if (!depthArray16) {\n depthArray16 = new Uint32Array(DEPTH_SIZE_16);\n }\n depthArray16.fill(0);\n\n const readbackUint32 = readback.map((layer) => new Uint32Array(layer.buffer));\n const layerSize = readbackUint32[0].length;\n const numLayers = Math.ceil(totalSplats / layerSize);\n\n let layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i = 0; i < layerSplats; ++i) {\n const pri = readbackLayer[i] & 0x7fff;\n if (pri < DEPTH_INFINITY_F16) {\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n\n let activeSplats = 0;\n for (let j = 0; j < DEPTH_SIZE_16; ++j) {\n const nextIndex = activeSplats + depthArray16[j];\n depthArray16[j] = activeSplats;\n activeSplats = nextIndex;\n }\n\n layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i = 0; i < layerSplats; ++i) {\n const pri = readbackLayer[i] & 0x7fff;\n if (pri < DEPTH_INFINITY_F16) {\n ordering[depthArray16[pri]] = layerBase + i;\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n if (depthArray16[DEPTH_SIZE_16 - 1] !== activeSplats) {\n throw new Error(\n `Expected ${activeSplats} active splats but got ${depthArray16[DEPTH_SIZE_16 - 1]}`,\n );\n }\n\n return { activeSplats, ordering };\n}\n\n// Sort numSplats splats, each with 2 bytes of float16 readback for distance metric,\n// using one bucket sort pass, outputting Uint32Array of indices.\nfunction sortDoubleSplats({\n numSplats,\n readback,\n ordering,\n}: { numSplats: number; readback: Uint16Array; ordering: Uint32Array }): {\n activeSplats: number;\n ordering: Uint32Array;\n} {\n // Ensure depthArray is allocated and zeroed out for our buckets.\n if 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\ No newline at end of file diff --git a/dist/assets/oldWorker-gPs-Rff0.js.map b/dist/assets/oldWorker-gPs-Rff0.js.map new file mode 100644 index 00000000..dec04d97 --- /dev/null +++ b/dist/assets/oldWorker-gPs-Rff0.js.map @@ -0,0 +1 @@ +{"version":3,"file":"oldWorker-gPs-Rff0.js","sources":["../rust/spark-worker-rs/pkg/spark_worker_rs.js","../node_modules/fflate/esm/browser.js","../node_modules/three/build/three.core.js","../src/defines.ts","../src/dyno/base.ts","../src/utils.ts","../src/antisplat.ts","../src/ksplat.ts","../src/ply.ts","../src/spz.ts","../src/SplatLoader.ts","../src/pcsogs.ts","../src/oldWorker.ts"],"sourcesContent":["/* @ts-self-types=\"./spark_worker_rs.d.ts\" */\n\nexport class ChunkDecoder {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(ChunkDecoder.prototype);\n obj.__wbg_ptr = ptr;\n ChunkDecoderFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n 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wasm.__wbg_get_csplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_csplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_csplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n}\nif (Symbol.dispose) CsplatArray.prototype[Symbol.dispose] = CsplatArray.prototype.free;\n\nexport class GsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(GsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n GsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n GsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_gsplatarray_free(ptr, 0);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_gsplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_gsplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.gsplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.gsplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.gsplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.gsplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.gsplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.gsplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.gsplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats_lod(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats_lod(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_gsplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_gsplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n}\nif (Symbol.dispose) GsplatArray.prototype[Symbol.dispose] = GsplatArray.prototype.free;\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function bhatt_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, rgba) {\n const ret = wasm.bhatt_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function bhatt_lod_packedsplats(num_splats, packed, extra, lod_base, rgba, encoding) {\n const ret = wasm.bhatt_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @returns {ChunkDecoder}\n */\nexport function decode_to_csplatarray(file_type, path_name, encoding) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_csplatarray(ptr0, len0, ptr1, len1, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_extsplats(file_type, path_name, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_extsplats(ptr0, len0, ptr1, len1, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_gsplatarray(file_type, path_name) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_gsplatarray(ptr0, len0, ptr1, len1);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Uint32Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_packedsplats(file_type, path_name, encoding, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_packedsplats(ptr0, len0, ptr1, len1, encoding, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n */\nexport function dispose_lod_tree(lod_id) {\n wasm.dispose_lod_tree(lod_id);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null} [extra]\n * @returns {GsplatArray}\n */\nexport function extsplats_to_gsplatarray(num_splats, ext1, ext2, extra) {\n const ret = wasm.extsplats_to_gsplatarray(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n * @param {number} level\n * @returns {object}\n */\nexport function get_lod_tree_level(lod_id, level) {\n const ret = wasm.get_lod_tree_level(lod_id, level);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} lod_tree\n * @returns {object}\n */\nexport function init_lod_tree(num_splats, lod_tree) {\n const ret = wasm.init_lod_tree(num_splats, lod_tree);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} capacity\n * @returns {object}\n */\nexport function new_lod_tree(capacity) {\n const ret = wasm.new_lod_tree(capacity);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} orig_lod_id\n * @returns {object}\n */\nexport function new_shared_lod_tree(orig_lod_id) {\n const ret = wasm.new_shared_lod_tree(orig_lod_id);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {CsplatArray}\n */\nexport function packedsplats_to_csplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_csplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return CsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {GsplatArray}\n */\nexport function packedsplats_to_gsplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_gsplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @returns {boolean}\n */\nexport function simd_enabled() {\n const ret = wasm.simd_enabled();\n return ret !== 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort32_splats(num_splats, readback, ordering) {\n const ret = wasm.sort32_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint16Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort_splats(num_splats, readback, ordering) {\n const ret = wasm.sort_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function tiny_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, merge_filter, rgba) {\n const ret = wasm.tiny_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function tiny_lod_packedsplats(num_splats, packed, extra, lod_base, merge_filter, rgba, encoding) {\n const ret = wasm.tiny_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} max_splats\n * @param {number} pixel_scale_limit\n * @param {number | null | undefined} _last_pixel_limit\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} root_pages\n * @param {Float32Array} view_to_objects\n * @param {Float32Array} lod_scales\n * @param {Float32Array} behind_foveates\n * @param {Float32Array} cone_foveates\n * @param {Float32Array} cone_fov0s\n * @param {Float32Array} cone_fovs\n * @returns {object}\n */\nexport function traverse_lod_trees(max_splats, pixel_scale_limit, _last_pixel_limit, lod_ids, root_pages, view_to_objects, lod_scales, behind_foveates, cone_foveates, cone_fov0s, cone_fovs) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(root_pages, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArrayF32ToWasm0(view_to_objects, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArrayF32ToWasm0(lod_scales, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ptr4 = passArrayF32ToWasm0(behind_foveates, wasm.__wbindgen_malloc);\n const len4 = WASM_VECTOR_LEN;\n const ptr5 = passArrayF32ToWasm0(cone_foveates, wasm.__wbindgen_malloc);\n const len5 = WASM_VECTOR_LEN;\n const ptr6 = passArrayF32ToWasm0(cone_fov0s, wasm.__wbindgen_malloc);\n const len6 = WASM_VECTOR_LEN;\n const ptr7 = passArrayF32ToWasm0(cone_fovs, wasm.__wbindgen_malloc);\n const len7 = WASM_VECTOR_LEN;\n const ret = wasm.traverse_lod_trees(max_splats, pixel_scale_limit, isLikeNone(_last_pixel_limit) ? 0x100000001 : Math.fround(_last_pixel_limit), ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, ptr4, len4, ptr5, len5, ptr6, len6, ptr7, len7);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} page_bases\n * @param {Uint32Array} chunk_bases\n * @param {Uint32Array} counts\n * @param {Array} lod_trees\n * @returns {object}\n */\nexport function update_lod_trees(lod_ids, page_bases, chunk_bases, counts, lod_trees) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(page_bases, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArray32ToWasm0(chunk_bases, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArray32ToWasm0(counts, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ret = wasm.update_lod_trees(ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, lod_trees);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\nexport function wasm_start() {\n wasm.wasm_start();\n}\n\nfunction __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_boolean_get_a86c216575a75c30: function(arg0) {\n const v = arg0;\n const ret = typeof(v) === 'boolean' ? v : undefined;\n return isLikeNone(ret) ? 0xFFFFFF : ret ? 1 : 0;\n },\n __wbg___wbindgen_debug_string_dd5d2d07ce9e6c57: function(arg0, arg1) {\n const ret = debugString(arg1);\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_in_4bd7a57e54337366: function(arg0, arg1) {\n const ret = arg0 in arg1;\n return ret;\n },\n __wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof(val) === 'object' && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === undefined;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'number' ? obj : undefined;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'string' ? obj : undefined;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() { return handleError(function (arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments); },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() { return handleError(function (arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments); },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n // Cast intrinsic for `F64 -> Externref`.\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n // Cast intrinsic for `Ref(String) -> Externref`.\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, undefined);\n table.set(offset + 0, undefined);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n },\n };\n return {\n __proto__: null,\n \"./spark_worker_rs_bg.js\": import0,\n };\n}\n\nconst ChunkDecoderFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\nconst CsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\nconst GsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n\nfunction addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n}\n\nfunction debugString(val) {\n // primitive types\n const type = typeof val;\n if (type == 'number' || type == 'boolean' || val == null) {\n return `${val}`;\n }\n if (type == 'string') {\n return `\"${val}\"`;\n }\n if (type == 'symbol') {\n const description = val.description;\n if (description == null) {\n return 'Symbol';\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == 'function') {\n const name = val.name;\n if (typeof name == 'string' && name.length > 0) {\n return `Function(${name})`;\n } else {\n return 'Function';\n }\n }\n // objects\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = '[';\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for(let i = 1; i < length; i++) {\n debug += ', ' + debugString(val[i]);\n }\n debug += ']';\n return debug;\n }\n // Test for built-in\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n // Failed to match the standard '[object ClassName]'\n return toString.call(val);\n }\n if (className == 'Object') {\n // we're a user defined class or Object\n // JSON.stringify avoids problems with cycles, and is generally much\n // easier than looping through ownProperties of `val`.\n try {\n return 'Object(' + JSON.stringify(val) + ')';\n } catch (_) {\n return 'Object';\n }\n }\n // errors\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\\n${val.stack}`;\n }\n // TODO we could test for more things here, like `Set`s and `Map`s.\n return className;\n}\n\nfunction getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n}\n\nfunction getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n}\n\nlet cachedDataViewMemory0 = null;\nfunction getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || (cachedDataViewMemory0.buffer.detached === undefined && cachedDataViewMemory0.buffer !== wasm.memory.buffer)) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n}\n\nlet cachedFloat32ArrayMemory0 = null;\nfunction getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n}\n\nfunction getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n}\n\nlet cachedUint16ArrayMemory0 = null;\nfunction getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n}\n\nlet cachedUint32ArrayMemory0 = null;\nfunction getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n}\n\nlet cachedUint8ArrayMemory0 = null;\nfunction getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n}\n\nfunction handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n}\n\nfunction isLikeNone(x) {\n return x === undefined || x === null;\n}\n\nfunction passArray32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getUint32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passArrayF32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getFloat32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passStringToWasm0(arg, malloc, realloc) {\n if (realloc === undefined) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr, ptr + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr;\n }\n\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n\n const mem = getUint8ArrayMemory0();\n\n let offset = 0;\n\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 0x7F) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n\n WASM_VECTOR_LEN = offset;\n return ptr;\n}\n\nfunction takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n}\n\nlet cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\ncachedTextDecoder.decode();\nconst MAX_SAFARI_DECODE_BYTES = 2146435072;\nlet numBytesDecoded = 0;\nfunction decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n}\n\nconst cachedTextEncoder = new TextEncoder();\n\nif (!('encodeInto' in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function (arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n}\n\nlet WASM_VECTOR_LEN = 0;\n\nlet wasmModule, wasm;\nfunction __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n wasmModule = module;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n}\n\nasync function __wbg_load(module, imports) {\n if (typeof Response === 'function' && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === 'function') {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n\n if (validResponse && module.headers.get('Content-Type') !== 'application/wasm') {\n console.warn(\"`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n\", e);\n\n } else { throw e; }\n }\n }\n\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n\n function expectedResponseType(type) {\n switch (type) {\n case 'basic': case 'cors': case 'default': return true;\n }\n return false;\n }\n}\n\nfunction initSync(module) {\n if (wasm !== undefined) return wasm;\n\n\n if (module !== undefined) {\n if (Object.getPrototypeOf(module) === Object.prototype) {\n ({module} = module)\n } else {\n console.warn('using deprecated parameters for `initSync()`; pass a single object instead')\n }\n }\n\n const imports = __wbg_get_imports();\n if (!(module instanceof WebAssembly.Module)) {\n module = new WebAssembly.Module(module);\n }\n const instance = new WebAssembly.Instance(module, imports);\n return __wbg_finalize_init(instance, module);\n}\n\nasync function __wbg_init(module_or_path) {\n if (wasm !== undefined) return wasm;\n\n\n if (module_or_path !== undefined) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({module_or_path} = module_or_path)\n } else {\n console.warn('using deprecated parameters for the initialization function; pass a single object instead')\n }\n }\n\n if (module_or_path === undefined) {\n module_or_path = new URL('spark_worker_rs_bg.wasm', import.meta.url);\n }\n const imports = __wbg_get_imports();\n\n if (typeof module_or_path === 'string' || (typeof Request === 'function' && module_or_path instanceof Request) || (typeof URL === 'function' && module_or_path instanceof URL)) {\n module_or_path = fetch(module_or_path);\n }\n\n const { instance, module } = await __wbg_load(await module_or_path, imports);\n\n return __wbg_finalize_init(instance, module);\n}\n\nexport { initSync, __wbg_init as default };\n","// DEFLATE is a complex format; to read this code, you should probably check the RFC first:\n// https://tools.ietf.org/html/rfc1951\n// You may also wish to take a look at the guide I made about this program:\n// https://gist.github.com/101arrowz/253f31eb5abc3d9275ab943003ffecad\n// Some of the following code is similar to that of UZIP.js:\n// https://github.com/photopea/UZIP.js\n// However, the vast majority of the codebase has diverged from UZIP.js to increase performance and reduce bundle size.\n// Sometimes 0 will appear where -1 would be more appropriate. This is because using a uint\n// is better for memory in most engines (I *think*).\nvar ch2 = {};\nvar wk = (function (c, id, msg, transfer, cb) {\n var w = new Worker(ch2[id] || (ch2[id] = URL.createObjectURL(new Blob([\n c + ';addEventListener(\"error\",function(e){e=e.error;postMessage({$e$:[e.message,e.code,e.stack]})})'\n ], { type: 'text/javascript' }))));\n w.onmessage = function (e) {\n var d = e.data, ed = d.$e$;\n if (ed) {\n var err = new Error(ed[0]);\n err['code'] = ed[1];\n err.stack = ed[2];\n cb(err, null);\n }\n else\n cb(null, d);\n };\n w.postMessage(msg, transfer);\n return w;\n});\n\n// aliases for shorter compressed code (most minifers don't do this)\nvar u8 = Uint8Array, u16 = Uint16Array, i32 = Int32Array;\n// fixed length extra bits\nvar fleb = new u8([0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0, /* unused */ 0, 0, /* impossible */ 0]);\n// fixed distance extra bits\nvar fdeb = new u8([0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, /* unused */ 0, 0]);\n// code length index map\nvar clim = new u8([16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15]);\n// get base, reverse index map from extra bits\nvar freb = function (eb, start) {\n var b = new u16(31);\n for (var i = 0; i < 31; ++i) {\n b[i] = start += 1 << eb[i - 1];\n }\n // numbers here are at max 18 bits\n var r = new i32(b[30]);\n for (var i = 1; i < 30; ++i) {\n for (var j = b[i]; j < b[i + 1]; ++j) {\n r[j] = ((j - b[i]) << 5) | i;\n }\n }\n return { b: b, r: r };\n};\nvar _a = freb(fleb, 2), fl = _a.b, revfl = _a.r;\n// we can ignore the fact that the other numbers are wrong; they never happen anyway\nfl[28] = 258, revfl[258] = 28;\nvar _b = freb(fdeb, 0), fd = _b.b, revfd = _b.r;\n// map of value to reverse (assuming 16 bits)\nvar rev = new u16(32768);\nfor (var i = 0; i < 32768; ++i) {\n // reverse table algorithm from SO\n var x = ((i & 0xAAAA) >> 1) | ((i & 0x5555) << 1);\n x = ((x & 0xCCCC) >> 2) | ((x & 0x3333) << 2);\n x = ((x & 0xF0F0) >> 4) | ((x & 0x0F0F) << 4);\n rev[i] = (((x & 0xFF00) >> 8) | ((x & 0x00FF) << 8)) >> 1;\n}\n// create huffman tree from u8 \"map\": index -> code length for code index\n// mb (max bits) must be at most 15\n// TODO: optimize/split up?\nvar hMap = (function (cd, mb, r) {\n var s = cd.length;\n // index\n var i = 0;\n // u16 \"map\": index -> # of codes with bit length = index\n var l = new u16(mb);\n // length of cd must be 288 (total # of codes)\n for (; i < s; ++i) {\n if (cd[i])\n ++l[cd[i] - 1];\n }\n // u16 \"map\": index -> minimum code for bit length = index\n var le = new u16(mb);\n for (i = 1; i < mb; ++i) {\n le[i] = (le[i - 1] + l[i - 1]) << 1;\n }\n var co;\n if (r) {\n // u16 \"map\": index -> number of actual bits, symbol for code\n co = new u16(1 << mb);\n // bits to remove for reverser\n var rvb = 15 - mb;\n for (i = 0; i < s; ++i) {\n // ignore 0 lengths\n if (cd[i]) {\n // num encoding both symbol and bits read\n var sv = (i << 4) | cd[i];\n // free bits\n var r_1 = mb - cd[i];\n // start value\n var v = le[cd[i] - 1]++ << r_1;\n // m is end value\n for (var m = v | ((1 << r_1) - 1); v <= m; ++v) {\n // every 16 bit value starting with the code yields the same result\n co[rev[v] >> rvb] = sv;\n }\n }\n }\n }\n else {\n co = new u16(s);\n for (i = 0; i < s; ++i) {\n if (cd[i]) {\n co[i] = rev[le[cd[i] - 1]++] >> (15 - cd[i]);\n }\n }\n }\n return co;\n});\n// fixed length tree\nvar flt = new u8(288);\nfor (var i = 0; i < 144; ++i)\n flt[i] = 8;\nfor (var i = 144; i < 256; ++i)\n flt[i] = 9;\nfor (var i = 256; i < 280; ++i)\n flt[i] = 7;\nfor (var i = 280; i < 288; ++i)\n flt[i] = 8;\n// fixed distance tree\nvar fdt = new u8(32);\nfor (var i = 0; i < 32; ++i)\n fdt[i] = 5;\n// fixed length map\nvar flm = /*#__PURE__*/ hMap(flt, 9, 0), flrm = /*#__PURE__*/ hMap(flt, 9, 1);\n// fixed distance map\nvar fdm = /*#__PURE__*/ hMap(fdt, 5, 0), fdrm = /*#__PURE__*/ hMap(fdt, 5, 1);\n// find max of array\nvar max = function (a) {\n var m = a[0];\n for (var i = 1; i < a.length; ++i) {\n if (a[i] > m)\n m = a[i];\n }\n return m;\n};\n// read d, starting at bit p and mask with m\nvar bits = function (d, p, m) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8)) >> (p & 7)) & m;\n};\n// read d, starting at bit p continuing for at least 16 bits\nvar bits16 = function (d, p) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8) | (d[o + 2] << 16)) >> (p & 7));\n};\n// get end of byte\nvar shft = function (p) { return ((p + 7) / 8) | 0; };\n// typed array slice - allows garbage collector to free original reference,\n// while being more compatible than .slice\nvar slc = function (v, s, e) {\n if (s == null || s < 0)\n s = 0;\n if (e == null || e > v.length)\n e = v.length;\n // can't use .constructor in case user-supplied\n return new u8(v.subarray(s, e));\n};\n/**\n * Codes for errors generated within this library\n */\nexport var FlateErrorCode = {\n UnexpectedEOF: 0,\n InvalidBlockType: 1,\n InvalidLengthLiteral: 2,\n InvalidDistance: 3,\n StreamFinished: 4,\n NoStreamHandler: 5,\n InvalidHeader: 6,\n NoCallback: 7,\n InvalidUTF8: 8,\n ExtraFieldTooLong: 9,\n InvalidDate: 10,\n FilenameTooLong: 11,\n StreamFinishing: 12,\n InvalidZipData: 13,\n UnknownCompressionMethod: 14\n};\n// error codes\nvar ec = [\n 'unexpected EOF',\n 'invalid block type',\n 'invalid length/literal',\n 'invalid distance',\n 'stream finished',\n 'no stream handler',\n ,\n 'no callback',\n 'invalid UTF-8 data',\n 'extra field too long',\n 'date not in range 1980-2099',\n 'filename too long',\n 'stream finishing',\n 'invalid zip data'\n // determined by unknown compression method\n];\n;\nvar err = function (ind, msg, nt) {\n var e = new Error(msg || ec[ind]);\n e.code = ind;\n if (Error.captureStackTrace)\n Error.captureStackTrace(e, err);\n if (!nt)\n throw e;\n return e;\n};\n// expands raw DEFLATE data\nvar inflt = function (dat, st, buf, dict) {\n // source length dict length\n var sl = dat.length, dl = dict ? dict.length : 0;\n if (!sl || st.f && !st.l)\n return buf || new u8(0);\n var noBuf = !buf;\n // have to estimate size\n var resize = noBuf || st.i != 2;\n // no state\n var noSt = st.i;\n // Assumes roughly 33% compression ratio average\n if (noBuf)\n buf = new u8(sl * 3);\n // ensure buffer can fit at least l elements\n var cbuf = function (l) {\n var bl = buf.length;\n // need to increase size to fit\n if (l > bl) {\n // Double or set to necessary, whichever is greater\n var nbuf = new u8(Math.max(bl * 2, l));\n nbuf.set(buf);\n buf = nbuf;\n }\n };\n // last chunk bitpos bytes\n var final = st.f || 0, pos = st.p || 0, bt = st.b || 0, lm = st.l, dm = st.d, lbt = st.m, dbt = st.n;\n // total bits\n var tbts = sl * 8;\n do {\n if (!lm) {\n // BFINAL - this is only 1 when last chunk is next\n final = bits(dat, pos, 1);\n // type: 0 = no compression, 1 = fixed huffman, 2 = dynamic huffman\n var type = bits(dat, pos + 1, 3);\n pos += 3;\n if (!type) {\n // go to end of byte boundary\n var s = shft(pos) + 4, l = dat[s - 4] | (dat[s - 3] << 8), t = s + l;\n if (t > sl) {\n if (noSt)\n err(0);\n break;\n }\n // ensure size\n if (resize)\n cbuf(bt + l);\n // Copy over uncompressed data\n buf.set(dat.subarray(s, t), bt);\n // Get new bitpos, update byte count\n st.b = bt += l, st.p = pos = t * 8, st.f = final;\n continue;\n }\n else if (type == 1)\n lm = flrm, dm = fdrm, lbt = 9, dbt = 5;\n else if (type == 2) {\n // literal lengths\n var hLit = bits(dat, pos, 31) + 257, hcLen = bits(dat, pos + 10, 15) + 4;\n var tl = hLit + bits(dat, pos + 5, 31) + 1;\n pos += 14;\n // length+distance tree\n var ldt = new u8(tl);\n // code length tree\n var clt = new u8(19);\n for (var i = 0; i < hcLen; ++i) {\n // use index map to get real code\n clt[clim[i]] = bits(dat, pos + i * 3, 7);\n }\n pos += hcLen * 3;\n // code lengths bits\n var clb = max(clt), clbmsk = (1 << clb) - 1;\n // code lengths map\n var clm = hMap(clt, clb, 1);\n for (var i = 0; i < tl;) {\n var r = clm[bits(dat, pos, clbmsk)];\n // bits read\n pos += r & 15;\n // symbol\n var s = r >> 4;\n // code length to copy\n if (s < 16) {\n ldt[i++] = s;\n }\n else {\n // copy count\n var c = 0, n = 0;\n if (s == 16)\n n = 3 + bits(dat, pos, 3), pos += 2, c = ldt[i - 1];\n else if (s == 17)\n n = 3 + bits(dat, pos, 7), pos += 3;\n else if (s == 18)\n n = 11 + bits(dat, pos, 127), pos += 7;\n while (n--)\n ldt[i++] = c;\n }\n }\n // length tree distance tree\n var lt = ldt.subarray(0, hLit), dt = ldt.subarray(hLit);\n // max length bits\n lbt = max(lt);\n // max dist bits\n dbt = max(dt);\n lm = hMap(lt, lbt, 1);\n dm = hMap(dt, dbt, 1);\n }\n else\n err(1);\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n }\n // Make sure the buffer can hold this + the largest possible addition\n // Maximum chunk size (practically, theoretically infinite) is 2^17\n if (resize)\n cbuf(bt + 131072);\n var lms = (1 << lbt) - 1, dms = (1 << dbt) - 1;\n var lpos = pos;\n for (;; lpos = pos) {\n // bits read, code\n var c = lm[bits16(dat, pos) & lms], sym = c >> 4;\n pos += c & 15;\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (!c)\n err(2);\n if (sym < 256)\n buf[bt++] = sym;\n else if (sym == 256) {\n lpos = pos, lm = null;\n break;\n }\n else {\n var add = sym - 254;\n // no extra bits needed if less\n if (sym > 264) {\n // index\n var i = sym - 257, b = fleb[i];\n add = bits(dat, pos, (1 << b) - 1) + fl[i];\n pos += b;\n }\n // dist\n var d = dm[bits16(dat, pos) & dms], dsym = d >> 4;\n if (!d)\n err(3);\n pos += d & 15;\n var dt = fd[dsym];\n if (dsym > 3) {\n var b = fdeb[dsym];\n dt += bits16(dat, pos) & (1 << b) - 1, pos += b;\n }\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + 131072);\n var end = bt + add;\n if (bt < dt) {\n var shift = dl - dt, dend = Math.min(dt, end);\n if (shift + bt < 0)\n err(3);\n for (; bt < dend; ++bt)\n buf[bt] = dict[shift + bt];\n }\n for (; bt < end; ++bt)\n buf[bt] = buf[bt - dt];\n }\n }\n st.l = lm, st.p = lpos, st.b = bt, st.f = final;\n if (lm)\n final = 1, st.m = lbt, st.d = dm, st.n = dbt;\n } while (!final);\n // don't reallocate for streams or user buffers\n return bt != buf.length && noBuf ? slc(buf, 0, bt) : buf.subarray(0, bt);\n};\n// starting at p, write the minimum number of bits that can hold v to d\nvar wbits = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n};\n// starting at p, write the minimum number of bits (>8) that can hold v to d\nvar wbits16 = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n d[o + 2] |= v >> 16;\n};\n// creates code lengths from a frequency table\nvar hTree = function (d, mb) {\n // Need extra info to make a tree\n var t = [];\n for (var i = 0; i < d.length; ++i) {\n if (d[i])\n t.push({ s: i, f: d[i] });\n }\n var s = t.length;\n var t2 = t.slice();\n if (!s)\n return { t: et, l: 0 };\n if (s == 1) {\n var v = new u8(t[0].s + 1);\n v[t[0].s] = 1;\n return { t: v, l: 1 };\n }\n t.sort(function (a, b) { return a.f - b.f; });\n // after i2 reaches last ind, will be stopped\n // freq must be greater than largest possible number of symbols\n t.push({ s: -1, f: 25001 });\n var l = t[0], r = t[1], i0 = 0, i1 = 1, i2 = 2;\n t[0] = { s: -1, f: l.f + r.f, l: l, r: r };\n // efficient algorithm from UZIP.js\n // i0 is lookbehind, i2 is lookahead - after processing two low-freq\n // symbols that combined have high freq, will start processing i2 (high-freq,\n // non-composite) symbols instead\n // see https://reddit.com/r/photopea/comments/ikekht/uzipjs_questions/\n while (i1 != s - 1) {\n l = t[t[i0].f < t[i2].f ? i0++ : i2++];\n r = t[i0 != i1 && t[i0].f < t[i2].f ? i0++ : i2++];\n t[i1++] = { s: -1, f: l.f + r.f, l: l, r: r };\n }\n var maxSym = t2[0].s;\n for (var i = 1; i < s; ++i) {\n if (t2[i].s > maxSym)\n maxSym = t2[i].s;\n }\n // code lengths\n var tr = new u16(maxSym + 1);\n // max bits in tree\n var mbt = ln(t[i1 - 1], tr, 0);\n if (mbt > mb) {\n // more algorithms from UZIP.js\n // TODO: find out how this code works (debt)\n // ind debt\n var i = 0, dt = 0;\n // left cost\n var lft = mbt - mb, cst = 1 << lft;\n t2.sort(function (a, b) { return tr[b.s] - tr[a.s] || a.f - b.f; });\n for (; i < s; ++i) {\n var i2_1 = t2[i].s;\n if (tr[i2_1] > mb) {\n dt += cst - (1 << (mbt - tr[i2_1]));\n tr[i2_1] = mb;\n }\n else\n break;\n }\n dt >>= lft;\n while (dt > 0) {\n var i2_2 = t2[i].s;\n if (tr[i2_2] < mb)\n dt -= 1 << (mb - tr[i2_2]++ - 1);\n else\n ++i;\n }\n for (; i >= 0 && dt; --i) {\n var i2_3 = t2[i].s;\n if (tr[i2_3] == mb) {\n --tr[i2_3];\n ++dt;\n }\n }\n mbt = mb;\n }\n return { t: new u8(tr), l: mbt };\n};\n// get the max length and assign length codes\nvar ln = function (n, l, d) {\n return n.s == -1\n ? Math.max(ln(n.l, l, d + 1), ln(n.r, l, d + 1))\n : (l[n.s] = d);\n};\n// length codes generation\nvar lc = function (c) {\n var s = c.length;\n // Note that the semicolon was intentional\n while (s && !c[--s])\n ;\n var cl = new u16(++s);\n // ind num streak\n var cli = 0, cln = c[0], cls = 1;\n var w = function (v) { cl[cli++] = v; };\n for (var i = 1; i <= s; ++i) {\n if (c[i] == cln && i != s)\n ++cls;\n else {\n if (!cln && cls > 2) {\n for (; cls > 138; cls -= 138)\n w(32754);\n if (cls > 2) {\n w(cls > 10 ? ((cls - 11) << 5) | 28690 : ((cls - 3) << 5) | 12305);\n cls = 0;\n }\n }\n else if (cls > 3) {\n w(cln), --cls;\n for (; cls > 6; cls -= 6)\n w(8304);\n if (cls > 2)\n w(((cls - 3) << 5) | 8208), cls = 0;\n }\n while (cls--)\n w(cln);\n cls = 1;\n cln = c[i];\n }\n }\n return { c: cl.subarray(0, cli), n: s };\n};\n// calculate the length of output from tree, code lengths\nvar clen = function (cf, cl) {\n var l = 0;\n for (var i = 0; i < cl.length; ++i)\n l += cf[i] * cl[i];\n return l;\n};\n// writes a fixed block\n// returns the new bit pos\nvar wfblk = function (out, pos, dat) {\n // no need to write 00 as type: TypedArray defaults to 0\n var s = dat.length;\n var o = shft(pos + 2);\n out[o] = s & 255;\n out[o + 1] = s >> 8;\n out[o + 2] = out[o] ^ 255;\n out[o + 3] = out[o + 1] ^ 255;\n for (var i = 0; i < s; ++i)\n out[o + i + 4] = dat[i];\n return (o + 4 + s) * 8;\n};\n// writes a block\nvar wblk = function (dat, out, final, syms, lf, df, eb, li, bs, bl, p) {\n wbits(out, p++, final);\n ++lf[256];\n var _a = hTree(lf, 15), dlt = _a.t, mlb = _a.l;\n var _b = hTree(df, 15), ddt = _b.t, mdb = _b.l;\n var _c = lc(dlt), lclt = _c.c, nlc = _c.n;\n var _d = lc(ddt), lcdt = _d.c, ndc = _d.n;\n var lcfreq = new u16(19);\n for (var i = 0; i < lclt.length; ++i)\n ++lcfreq[lclt[i] & 31];\n for (var i = 0; i < lcdt.length; ++i)\n ++lcfreq[lcdt[i] & 31];\n var _e = hTree(lcfreq, 7), lct = _e.t, mlcb = _e.l;\n var nlcc = 19;\n for (; nlcc > 4 && !lct[clim[nlcc - 1]]; --nlcc)\n ;\n var flen = (bl + 5) << 3;\n var ftlen = clen(lf, flt) + clen(df, fdt) + eb;\n var dtlen = clen(lf, dlt) + clen(df, ddt) + eb + 14 + 3 * nlcc + clen(lcfreq, lct) + 2 * lcfreq[16] + 3 * lcfreq[17] + 7 * lcfreq[18];\n if (bs >= 0 && flen <= ftlen && flen <= dtlen)\n return wfblk(out, p, dat.subarray(bs, bs + bl));\n var lm, ll, dm, dl;\n wbits(out, p, 1 + (dtlen < ftlen)), p += 2;\n if (dtlen < ftlen) {\n lm = hMap(dlt, mlb, 0), ll = dlt, dm = hMap(ddt, mdb, 0), dl = ddt;\n var llm = hMap(lct, mlcb, 0);\n wbits(out, p, nlc - 257);\n wbits(out, p + 5, ndc - 1);\n wbits(out, p + 10, nlcc - 4);\n p += 14;\n for (var i = 0; i < nlcc; ++i)\n wbits(out, p + 3 * i, lct[clim[i]]);\n p += 3 * nlcc;\n var lcts = [lclt, lcdt];\n for (var it = 0; it < 2; ++it) {\n var clct = lcts[it];\n for (var i = 0; i < clct.length; ++i) {\n var len = clct[i] & 31;\n wbits(out, p, llm[len]), p += lct[len];\n if (len > 15)\n wbits(out, p, (clct[i] >> 5) & 127), p += clct[i] >> 12;\n }\n }\n }\n else {\n lm = flm, ll = flt, dm = fdm, dl = fdt;\n }\n for (var i = 0; i < li; ++i) {\n var sym = syms[i];\n if (sym > 255) {\n var len = (sym >> 18) & 31;\n wbits16(out, p, lm[len + 257]), p += ll[len + 257];\n if (len > 7)\n wbits(out, p, (sym >> 23) & 31), p += fleb[len];\n var dst = sym & 31;\n wbits16(out, p, dm[dst]), p += dl[dst];\n if (dst > 3)\n wbits16(out, p, (sym >> 5) & 8191), p += fdeb[dst];\n }\n else {\n wbits16(out, p, lm[sym]), p += ll[sym];\n }\n }\n wbits16(out, p, lm[256]);\n return p + ll[256];\n};\n// deflate options (nice << 13) | chain\nvar deo = /*#__PURE__*/ new i32([65540, 131080, 131088, 131104, 262176, 1048704, 1048832, 2114560, 2117632]);\n// empty\nvar et = /*#__PURE__*/ new u8(0);\n// compresses data into a raw DEFLATE buffer\nvar dflt = function (dat, lvl, plvl, pre, post, st) {\n var s = st.z || dat.length;\n var o = new u8(pre + s + 5 * (1 + Math.ceil(s / 7000)) + post);\n // writing to this writes to the output buffer\n var w = o.subarray(pre, o.length - post);\n var lst = st.l;\n var pos = (st.r || 0) & 7;\n if (lvl) {\n if (pos)\n w[0] = st.r >> 3;\n var opt = deo[lvl - 1];\n var n = opt >> 13, c = opt & 8191;\n var msk_1 = (1 << plvl) - 1;\n // prev 2-byte val map curr 2-byte val map\n var prev = st.p || new u16(32768), head = st.h || new u16(msk_1 + 1);\n var bs1_1 = Math.ceil(plvl / 3), bs2_1 = 2 * bs1_1;\n var hsh = function (i) { return (dat[i] ^ (dat[i + 1] << bs1_1) ^ (dat[i + 2] << bs2_1)) & msk_1; };\n // 24576 is an arbitrary number of maximum symbols per block\n // 424 buffer for last block\n var syms = new i32(25000);\n // length/literal freq distance freq\n var lf = new u16(288), df = new u16(32);\n // l/lcnt exbits index l/lind waitdx blkpos\n var lc_1 = 0, eb = 0, i = st.i || 0, li = 0, wi = st.w || 0, bs = 0;\n for (; i + 2 < s; ++i) {\n // hash value\n var hv = hsh(i);\n // index mod 32768 previous index mod\n var imod = i & 32767, pimod = head[hv];\n prev[imod] = pimod;\n head[hv] = imod;\n // We always should modify head and prev, but only add symbols if\n // this data is not yet processed (\"wait\" for wait index)\n if (wi <= i) {\n // bytes remaining\n var rem = s - i;\n if ((lc_1 > 7000 || li > 24576) && (rem > 423 || !lst)) {\n pos = wblk(dat, w, 0, syms, lf, df, eb, li, bs, i - bs, pos);\n li = lc_1 = eb = 0, bs = i;\n for (var j = 0; j < 286; ++j)\n lf[j] = 0;\n for (var j = 0; j < 30; ++j)\n df[j] = 0;\n }\n // len dist chain\n var l = 2, d = 0, ch_1 = c, dif = imod - pimod & 32767;\n if (rem > 2 && hv == hsh(i - dif)) {\n var maxn = Math.min(n, rem) - 1;\n var maxd = Math.min(32767, i);\n // max possible length\n // not capped at dif because decompressors implement \"rolling\" index population\n var ml = Math.min(258, rem);\n while (dif <= maxd && --ch_1 && imod != pimod) {\n if (dat[i + l] == dat[i + l - dif]) {\n var nl = 0;\n for (; nl < ml && dat[i + nl] == dat[i + nl - dif]; ++nl)\n ;\n if (nl > l) {\n l = nl, d = dif;\n // break out early when we reach \"nice\" (we are satisfied enough)\n if (nl > maxn)\n break;\n // now, find the rarest 2-byte sequence within this\n // length of literals and search for that instead.\n // Much faster than just using the start\n var mmd = Math.min(dif, nl - 2);\n var md = 0;\n for (var j = 0; j < mmd; ++j) {\n var ti = i - dif + j & 32767;\n var pti = prev[ti];\n var cd = ti - pti & 32767;\n if (cd > md)\n md = cd, pimod = ti;\n }\n }\n }\n // check the previous match\n imod = pimod, pimod = prev[imod];\n dif += imod - pimod & 32767;\n }\n }\n // d will be nonzero only when a match was found\n if (d) {\n // store both dist and len data in one int32\n // Make sure this is recognized as a len/dist with 28th bit (2^28)\n syms[li++] = 268435456 | (revfl[l] << 18) | revfd[d];\n var lin = revfl[l] & 31, din = revfd[d] & 31;\n eb += fleb[lin] + fdeb[din];\n ++lf[257 + lin];\n ++df[din];\n wi = i + l;\n ++lc_1;\n }\n else {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n }\n }\n for (i = Math.max(i, wi); i < s; ++i) {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n pos = wblk(dat, w, lst, syms, lf, df, eb, li, bs, i - bs, pos);\n if (!lst) {\n st.r = (pos & 7) | w[(pos / 8) | 0] << 3;\n // shft(pos) now 1 less if pos & 7 != 0\n pos -= 7;\n st.h = head, st.p = prev, st.i = i, st.w = wi;\n }\n }\n else {\n for (var i = st.w || 0; i < s + lst; i += 65535) {\n // end\n var e = i + 65535;\n if (e >= s) {\n // write final block\n w[(pos / 8) | 0] = lst;\n e = s;\n }\n pos = wfblk(w, pos + 1, dat.subarray(i, e));\n }\n st.i = s;\n }\n return slc(o, 0, pre + shft(pos) + post);\n};\n// CRC32 table\nvar crct = /*#__PURE__*/ (function () {\n var t = new Int32Array(256);\n for (var i = 0; i < 256; ++i) {\n var c = i, k = 9;\n while (--k)\n c = ((c & 1) && -306674912) ^ (c >>> 1);\n t[i] = c;\n }\n return t;\n})();\n// CRC32\nvar crc = function () {\n var c = -1;\n return {\n p: function (d) {\n // closures have awful performance\n var cr = c;\n for (var i = 0; i < d.length; ++i)\n cr = crct[(cr & 255) ^ d[i]] ^ (cr >>> 8);\n c = cr;\n },\n d: function () { return ~c; }\n };\n};\n// Adler32\nvar adler = function () {\n var a = 1, b = 0;\n return {\n p: function (d) {\n // closures have awful performance\n var n = a, m = b;\n var l = d.length | 0;\n for (var i = 0; i != l;) {\n var e = Math.min(i + 2655, l);\n for (; i < e; ++i)\n m += n += d[i];\n n = (n & 65535) + 15 * (n >> 16), m = (m & 65535) + 15 * (m >> 16);\n }\n a = n, b = m;\n },\n d: function () {\n a %= 65521, b %= 65521;\n return (a & 255) << 24 | (a & 0xFF00) << 8 | (b & 255) << 8 | (b >> 8);\n }\n };\n};\n;\n// deflate with opts\nvar dopt = function (dat, opt, pre, post, st) {\n if (!st) {\n st = { l: 1 };\n if (opt.dictionary) {\n var dict = opt.dictionary.subarray(-32768);\n var newDat = new u8(dict.length + dat.length);\n newDat.set(dict);\n newDat.set(dat, dict.length);\n dat = newDat;\n st.w = dict.length;\n }\n }\n return dflt(dat, opt.level == null ? 6 : opt.level, opt.mem == null ? (st.l ? Math.ceil(Math.max(8, Math.min(13, Math.log(dat.length))) * 1.5) : 20) : (12 + opt.mem), pre, post, st);\n};\n// Walmart object spread\nvar mrg = function (a, b) {\n var o = {};\n for (var k in a)\n o[k] = a[k];\n for (var k in b)\n o[k] = b[k];\n return o;\n};\n// worker clone\n// This is possibly the craziest part of the entire codebase, despite how simple it may seem.\n// The only parameter to this function is a closure that returns an array of variables outside of the function scope.\n// We're going to try to figure out the variable names used in the closure as strings because that is crucial for workerization.\n// We will return an object mapping of true variable name to value (basically, the current scope as a JS object).\n// The reason we can't just use the original variable names is minifiers mangling the toplevel scope.\n// This took me three weeks to figure out how to do.\nvar wcln = function (fn, fnStr, td) {\n var dt = fn();\n var st = fn.toString();\n var ks = st.slice(st.indexOf('[') + 1, st.lastIndexOf(']')).replace(/\\s+/g, '').split(',');\n for (var i = 0; i < dt.length; ++i) {\n var v = dt[i], k = ks[i];\n if (typeof v == 'function') {\n fnStr += ';' + k + '=';\n var st_1 = v.toString();\n if (v.prototype) {\n // for global objects\n if (st_1.indexOf('[native code]') != -1) {\n var spInd = st_1.indexOf(' ', 8) + 1;\n fnStr += st_1.slice(spInd, st_1.indexOf('(', spInd));\n }\n else {\n fnStr += st_1;\n for (var t in v.prototype)\n fnStr += ';' + k + '.prototype.' + t + '=' + v.prototype[t].toString();\n }\n }\n else\n fnStr += st_1;\n }\n else\n td[k] = v;\n }\n return fnStr;\n};\nvar ch = [];\n// clone bufs\nvar cbfs = function (v) {\n var tl = [];\n for (var k in v) {\n if (v[k].buffer) {\n tl.push((v[k] = new v[k].constructor(v[k])).buffer);\n }\n }\n return tl;\n};\n// use a worker to execute code\nvar wrkr = function (fns, init, id, cb) {\n if (!ch[id]) {\n var fnStr = '', td_1 = {}, m = fns.length - 1;\n for (var i = 0; i < m; ++i)\n fnStr = wcln(fns[i], fnStr, td_1);\n ch[id] = { c: wcln(fns[m], fnStr, td_1), e: td_1 };\n }\n var td = mrg({}, ch[id].e);\n return wk(ch[id].c + ';onmessage=function(e){for(var k in e.data)self[k]=e.data[k];onmessage=' + init.toString() + '}', id, td, cbfs(td), cb);\n};\n// base async inflate fn\nvar bInflt = function () { return [u8, u16, i32, fleb, fdeb, clim, fl, fd, flrm, fdrm, rev, ec, hMap, max, bits, bits16, shft, slc, err, inflt, inflateSync, pbf, gopt]; };\nvar bDflt = function () { return [u8, u16, i32, fleb, fdeb, clim, revfl, revfd, flm, flt, fdm, fdt, rev, deo, et, hMap, wbits, wbits16, hTree, ln, lc, clen, wfblk, wblk, shft, slc, dflt, dopt, deflateSync, pbf]; };\n// gzip extra\nvar gze = function () { return [gzh, gzhl, wbytes, crc, crct]; };\n// gunzip extra\nvar guze = function () { return [gzs, gzl]; };\n// zlib extra\nvar zle = function () { return [zlh, wbytes, adler]; };\n// unzlib extra\nvar zule = function () { return [zls]; };\n// post buf\nvar pbf = function (msg) { return postMessage(msg, [msg.buffer]); };\n// get opts\nvar gopt = function (o) { return o && {\n out: o.size && new u8(o.size),\n dictionary: o.dictionary\n}; };\n// async helper\nvar cbify = function (dat, opts, fns, init, id, cb) {\n var w = wrkr(fns, init, id, function (err, dat) {\n w.terminate();\n cb(err, dat);\n });\n w.postMessage([dat, opts], opts.consume ? [dat.buffer] : []);\n return function () { w.terminate(); };\n};\n// auto stream\nvar astrm = function (strm) {\n strm.ondata = function (dat, final) { return postMessage([dat, final], [dat.buffer]); };\n return function (ev) {\n if (ev.data.length) {\n strm.push(ev.data[0], ev.data[1]);\n postMessage([ev.data[0].length]);\n }\n else\n strm.flush();\n };\n};\n// async stream attach\nvar astrmify = function (fns, strm, opts, init, id, flush, ext) {\n var t;\n var w = wrkr(fns, init, id, function (err, dat) {\n if (err)\n w.terminate(), strm.ondata.call(strm, err);\n else if (!Array.isArray(dat))\n ext(dat);\n else if (dat.length == 1) {\n strm.queuedSize -= dat[0];\n if (strm.ondrain)\n strm.ondrain(dat[0]);\n }\n else {\n if (dat[1])\n w.terminate();\n strm.ondata.call(strm, err, dat[0], dat[1]);\n }\n });\n w.postMessage(opts);\n strm.queuedSize = 0;\n strm.push = function (d, f) {\n if (!strm.ondata)\n err(5);\n if (t)\n strm.ondata(err(4, 0, 1), null, !!f);\n strm.queuedSize += d.length;\n w.postMessage([d, t = f], [d.buffer]);\n };\n strm.terminate = function () { w.terminate(); };\n if (flush) {\n strm.flush = function () { w.postMessage([]); };\n }\n};\n// read 2 bytes\nvar b2 = function (d, b) { return d[b] | (d[b + 1] << 8); };\n// read 4 bytes\nvar b4 = function (d, b) { return (d[b] | (d[b + 1] << 8) | (d[b + 2] << 16) | (d[b + 3] << 24)) >>> 0; };\nvar b8 = function (d, b) { return b4(d, b) + (b4(d, b + 4) * 4294967296); };\n// write bytes\nvar wbytes = function (d, b, v) {\n for (; v; ++b)\n d[b] = v, v >>>= 8;\n};\n// gzip header\nvar gzh = function (c, o) {\n var fn = o.filename;\n c[0] = 31, c[1] = 139, c[2] = 8, c[8] = o.level < 2 ? 4 : o.level == 9 ? 2 : 0, c[9] = 3; // assume Unix\n if (o.mtime != 0)\n wbytes(c, 4, Math.floor(new Date(o.mtime || Date.now()) / 1000));\n if (fn) {\n c[3] = 8;\n for (var i = 0; i <= fn.length; ++i)\n c[i + 10] = fn.charCodeAt(i);\n }\n};\n// gzip footer: -8 to -4 = CRC, -4 to -0 is length\n// gzip start\nvar gzs = function (d) {\n if (d[0] != 31 || d[1] != 139 || d[2] != 8)\n err(6, 'invalid gzip data');\n var flg = d[3];\n var st = 10;\n if (flg & 4)\n st += (d[10] | d[11] << 8) + 2;\n for (var zs = (flg >> 3 & 1) + (flg >> 4 & 1); zs > 0; zs -= !d[st++])\n ;\n return st + (flg & 2);\n};\n// gzip length\nvar gzl = function (d) {\n var l = d.length;\n return (d[l - 4] | d[l - 3] << 8 | d[l - 2] << 16 | d[l - 1] << 24) >>> 0;\n};\n// gzip header length\nvar gzhl = function (o) { return 10 + (o.filename ? o.filename.length + 1 : 0); };\n// zlib header\nvar zlh = function (c, o) {\n var lv = o.level, fl = lv == 0 ? 0 : lv < 6 ? 1 : lv == 9 ? 3 : 2;\n c[0] = 120, c[1] = (fl << 6) | (o.dictionary && 32);\n c[1] |= 31 - ((c[0] << 8) | c[1]) % 31;\n if (o.dictionary) {\n var h = adler();\n h.p(o.dictionary);\n wbytes(c, 2, h.d());\n }\n};\n// zlib start\nvar zls = function (d, dict) {\n if ((d[0] & 15) != 8 || (d[0] >> 4) > 7 || ((d[0] << 8 | d[1]) % 31))\n err(6, 'invalid zlib data');\n if ((d[1] >> 5 & 1) == +!dict)\n err(6, 'invalid zlib data: ' + (d[1] & 32 ? 'need' : 'unexpected') + ' dictionary');\n return (d[1] >> 3 & 4) + 2;\n};\nfunction StrmOpt(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n return opts;\n}\n/**\n * Streaming DEFLATE compression\n */\nvar Deflate = /*#__PURE__*/ (function () {\n function Deflate(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n this.o = opts || {};\n this.s = { l: 0, i: 32768, w: 32768, z: 32768 };\n // Buffer length must always be 0 mod 32768 for index calculations to be correct when modifying head and prev\n // 98304 = 32768 (lookback) + 65536 (common chunk size)\n this.b = new u8(98304);\n if (this.o.dictionary) {\n var dict = this.o.dictionary.subarray(-32768);\n this.b.set(dict, 32768 - dict.length);\n this.s.i = 32768 - dict.length;\n }\n }\n Deflate.prototype.p = function (c, f) {\n this.ondata(dopt(c, this.o, 0, 0, this.s), f);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Deflate.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n var endLen = chunk.length + this.s.z;\n if (endLen > this.b.length) {\n if (endLen > 2 * this.b.length - 32768) {\n var newBuf = new u8(endLen & -32768);\n newBuf.set(this.b.subarray(0, this.s.z));\n this.b = newBuf;\n }\n var split = this.b.length - this.s.z;\n this.b.set(chunk.subarray(0, split), this.s.z);\n this.s.z = this.b.length;\n this.p(this.b, false);\n this.b.set(this.b.subarray(-32768));\n this.b.set(chunk.subarray(split), 32768);\n this.s.z = chunk.length - split + 32768;\n this.s.i = 32766, this.s.w = 32768;\n }\n else {\n this.b.set(chunk, this.s.z);\n this.s.z += chunk.length;\n }\n this.s.l = final & 1;\n if (this.s.z > this.s.w + 8191 || final) {\n this.p(this.b, final || false);\n this.s.w = this.s.i, this.s.i -= 2;\n }\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * deflated output for small inputs.\n */\n Deflate.prototype.flush = function () {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n this.p(this.b, false);\n this.s.w = this.s.i, this.s.i -= 2;\n };\n return Deflate;\n}());\nexport { Deflate };\n/**\n * Asynchronous streaming DEFLATE compression\n */\nvar AsyncDeflate = /*#__PURE__*/ (function () {\n function AsyncDeflate(opts, cb) {\n astrmify([\n bDflt,\n function () { return [astrm, Deflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Deflate(ev.data);\n onmessage = astrm(strm);\n }, 6, 1);\n }\n return AsyncDeflate;\n}());\nexport { AsyncDeflate };\nexport function deflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n ], function (ev) { return pbf(deflateSync(ev.data[0], ev.data[1])); }, 0, cb);\n}\n/**\n * Compresses data with DEFLATE without any wrapper\n * @param data The data to compress\n * @param opts The compression options\n * @returns The deflated version of the data\n */\nexport function deflateSync(data, opts) {\n return dopt(data, opts || {}, 0, 0);\n}\n/**\n * Streaming DEFLATE decompression\n */\nvar Inflate = /*#__PURE__*/ (function () {\n function Inflate(opts, cb) {\n // no StrmOpt here to avoid adding to workerizer\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n var dict = opts && opts.dictionary && opts.dictionary.subarray(-32768);\n this.s = { i: 0, b: dict ? dict.length : 0 };\n this.o = new u8(32768);\n this.p = new u8(0);\n if (dict)\n this.o.set(dict);\n }\n Inflate.prototype.e = function (c) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n if (!this.p.length)\n this.p = c;\n else if (c.length) {\n var n = new u8(this.p.length + c.length);\n n.set(this.p), n.set(c, this.p.length), this.p = n;\n }\n };\n Inflate.prototype.c = function (final) {\n this.s.i = +(this.d = final || false);\n var bts = this.s.b;\n var dt = inflt(this.p, this.s, this.o);\n this.ondata(slc(dt, bts, this.s.b), this.d);\n this.o = slc(dt, this.s.b - 32768), this.s.b = this.o.length;\n this.p = slc(this.p, (this.s.p / 8) | 0), this.s.p &= 7;\n };\n /**\n * Pushes a chunk to be inflated\n * @param chunk The chunk to push\n * @param final Whether this is the final chunk\n */\n Inflate.prototype.push = function (chunk, final) {\n this.e(chunk), this.c(final);\n };\n return Inflate;\n}());\nexport { Inflate };\n/**\n * Asynchronous streaming DEFLATE decompression\n */\nvar AsyncInflate = /*#__PURE__*/ (function () {\n function AsyncInflate(opts, cb) {\n astrmify([\n bInflt,\n function () { return [astrm, Inflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Inflate(ev.data);\n onmessage = astrm(strm);\n }, 7, 0);\n }\n return AsyncInflate;\n}());\nexport { AsyncInflate };\nexport function inflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt\n ], function (ev) { return pbf(inflateSync(ev.data[0], gopt(ev.data[1]))); }, 1, cb);\n}\n/**\n * Expands DEFLATE data with no wrapper\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function inflateSync(data, opts) {\n return inflt(data, { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// before you yell at me for not just using extends, my reason is that TS inheritance is hard to workerize.\n/**\n * Streaming GZIP compression\n */\nvar Gzip = /*#__PURE__*/ (function () {\n function Gzip(opts, cb) {\n this.c = crc();\n this.l = 0;\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gzip.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n this.l += chunk.length;\n Deflate.prototype.push.call(this, chunk, final);\n };\n Gzip.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && gzhl(this.o), f && 8, this.s);\n if (this.v)\n gzh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 8, this.c.d()), wbytes(raw, raw.length - 4, this.l);\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * GZIPped output for small inputs.\n */\n Gzip.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Gzip;\n}());\nexport { Gzip };\n/**\n * Asynchronous streaming GZIP compression\n */\nvar AsyncGzip = /*#__PURE__*/ (function () {\n function AsyncGzip(opts, cb) {\n astrmify([\n bDflt,\n gze,\n function () { return [astrm, Deflate, Gzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gzip(ev.data);\n onmessage = astrm(strm);\n }, 8, 1);\n }\n return AsyncGzip;\n}());\nexport { AsyncGzip };\nexport function gzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n gze,\n function () { return [gzipSync]; }\n ], function (ev) { return pbf(gzipSync(ev.data[0], ev.data[1])); }, 2, cb);\n}\n/**\n * Compresses data with GZIP\n * @param data The data to compress\n * @param opts The compression options\n * @returns The gzipped version of the data\n */\nexport function gzipSync(data, opts) {\n if (!opts)\n opts = {};\n var c = crc(), l = data.length;\n c.p(data);\n var d = dopt(data, opts, gzhl(opts), 8), s = d.length;\n return gzh(d, opts), wbytes(d, s - 8, c.d()), wbytes(d, s - 4, l), d;\n}\n/**\n * Streaming single or multi-member GZIP decompression\n */\nvar Gunzip = /*#__PURE__*/ (function () {\n function Gunzip(opts, cb) {\n this.v = 1;\n this.r = 0;\n Inflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GUNZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gunzip.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n this.r += chunk.length;\n if (this.v) {\n var p = this.p.subarray(this.v - 1);\n var s = p.length > 3 ? gzs(p) : 4;\n if (s > p.length) {\n if (!final)\n return;\n }\n else if (this.v > 1 && this.onmember) {\n this.onmember(this.r - p.length);\n }\n this.p = p.subarray(s), this.v = 0;\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n // process concatenated GZIP\n if (this.s.f && !this.s.l && !final) {\n this.v = shft(this.s.p) + 9;\n this.s = { i: 0 };\n this.o = new u8(0);\n this.push(new u8(0), final);\n }\n };\n return Gunzip;\n}());\nexport { Gunzip };\n/**\n * Asynchronous streaming single or multi-member GZIP decompression\n */\nvar AsyncGunzip = /*#__PURE__*/ (function () {\n function AsyncGunzip(opts, cb) {\n var _this = this;\n astrmify([\n bInflt,\n guze,\n function () { return [astrm, Inflate, Gunzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gunzip(ev.data);\n strm.onmember = function (offset) { return postMessage(offset); };\n onmessage = astrm(strm);\n }, 9, 0, function (offset) { return _this.onmember && _this.onmember(offset); });\n }\n return AsyncGunzip;\n}());\nexport { AsyncGunzip };\nexport function gunzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n guze,\n function () { return [gunzipSync]; }\n ], function (ev) { return pbf(gunzipSync(ev.data[0], ev.data[1])); }, 3, cb);\n}\n/**\n * Expands GZIP data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function gunzipSync(data, opts) {\n var st = gzs(data);\n if (st + 8 > data.length)\n err(6, 'invalid gzip data');\n return inflt(data.subarray(st, -8), { i: 2 }, opts && opts.out || new u8(gzl(data)), opts && opts.dictionary);\n}\n/**\n * Streaming Zlib compression\n */\nvar Zlib = /*#__PURE__*/ (function () {\n function Zlib(opts, cb) {\n this.c = adler();\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be zlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Zlib.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n Deflate.prototype.push.call(this, chunk, final);\n };\n Zlib.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && (this.o.dictionary ? 6 : 2), f && 4, this.s);\n if (this.v)\n zlh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 4, this.c.d());\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * zlibbed output for small inputs.\n */\n Zlib.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Zlib;\n}());\nexport { Zlib };\n/**\n * Asynchronous streaming Zlib compression\n */\nvar AsyncZlib = /*#__PURE__*/ (function () {\n function AsyncZlib(opts, cb) {\n astrmify([\n bDflt,\n zle,\n function () { return [astrm, Deflate, Zlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Zlib(ev.data);\n onmessage = astrm(strm);\n }, 10, 1);\n }\n return AsyncZlib;\n}());\nexport { AsyncZlib };\nexport function zlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n zle,\n function () { return [zlibSync]; }\n ], function (ev) { return pbf(zlibSync(ev.data[0], ev.data[1])); }, 4, cb);\n}\n/**\n * Compress data with Zlib\n * @param data The data to compress\n * @param opts The compression options\n * @returns The zlib-compressed version of the data\n */\nexport function zlibSync(data, opts) {\n if (!opts)\n opts = {};\n var a = adler();\n a.p(data);\n var d = dopt(data, opts, opts.dictionary ? 6 : 2, 4);\n return zlh(d, opts), wbytes(d, d.length - 4, a.d()), d;\n}\n/**\n * Streaming Zlib decompression\n */\nvar Unzlib = /*#__PURE__*/ (function () {\n function Unzlib(opts, cb) {\n Inflate.call(this, opts, cb);\n this.v = opts && opts.dictionary ? 2 : 1;\n }\n /**\n * Pushes a chunk to be unzlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzlib.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n if (this.v) {\n if (this.p.length < 6 && !final)\n return;\n this.p = this.p.subarray(zls(this.p, this.v - 1)), this.v = 0;\n }\n if (final) {\n if (this.p.length < 4)\n err(6, 'invalid zlib data');\n this.p = this.p.subarray(0, -4);\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n };\n return Unzlib;\n}());\nexport { Unzlib };\n/**\n * Asynchronous streaming Zlib decompression\n */\nvar AsyncUnzlib = /*#__PURE__*/ (function () {\n function AsyncUnzlib(opts, cb) {\n astrmify([\n bInflt,\n zule,\n function () { return [astrm, Inflate, Unzlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Unzlib(ev.data);\n onmessage = astrm(strm);\n }, 11, 0);\n }\n return AsyncUnzlib;\n}());\nexport { AsyncUnzlib };\nexport function unzlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n zule,\n function () { return [unzlibSync]; }\n ], function (ev) { return pbf(unzlibSync(ev.data[0], gopt(ev.data[1]))); }, 5, cb);\n}\n/**\n * Expands Zlib data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function unzlibSync(data, opts) {\n return inflt(data.subarray(zls(data, opts && opts.dictionary), -4), { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// Default algorithm for compression (used because having a known output size allows faster decompression)\nexport { gzip as compress, AsyncGzip as AsyncCompress };\nexport { gzipSync as compressSync, Gzip as Compress };\n/**\n * Streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar Decompress = /*#__PURE__*/ (function () {\n function Decompress(opts, cb) {\n this.o = StrmOpt.call(this, opts, cb) || {};\n this.G = Gunzip;\n this.I = Inflate;\n this.Z = Unzlib;\n }\n // init substream\n // overriden by AsyncDecompress\n Decompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (dat, final) {\n _this.ondata(dat, final);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Decompress.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (!this.s) {\n if (this.p && this.p.length) {\n var n = new u8(this.p.length + chunk.length);\n n.set(this.p), n.set(chunk, this.p.length);\n }\n else\n this.p = chunk;\n if (this.p.length > 2) {\n this.s = (this.p[0] == 31 && this.p[1] == 139 && this.p[2] == 8)\n ? new this.G(this.o)\n : ((this.p[0] & 15) != 8 || (this.p[0] >> 4) > 7 || ((this.p[0] << 8 | this.p[1]) % 31))\n ? new this.I(this.o)\n : new this.Z(this.o);\n this.i();\n this.s.push(this.p, final);\n this.p = null;\n }\n }\n else\n this.s.push(chunk, final);\n };\n return Decompress;\n}());\nexport { Decompress };\n/**\n * Asynchronous streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar AsyncDecompress = /*#__PURE__*/ (function () {\n function AsyncDecompress(opts, cb) {\n Decompress.call(this, opts, cb);\n this.queuedSize = 0;\n this.G = AsyncGunzip;\n this.I = AsyncInflate;\n this.Z = AsyncUnzlib;\n }\n AsyncDecompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (err, dat, final) {\n _this.ondata(err, dat, final);\n };\n this.s.ondrain = function (size) {\n _this.queuedSize -= size;\n if (_this.ondrain)\n _this.ondrain(size);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncDecompress.prototype.push = function (chunk, final) {\n this.queuedSize += chunk.length;\n Decompress.prototype.push.call(this, chunk, final);\n };\n return AsyncDecompress;\n}());\nexport { AsyncDecompress };\nexport function decompress(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzip(data, opts, cb)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflate(data, opts, cb)\n : unzlib(data, opts, cb);\n}\n/**\n * Expands compressed GZIP, Zlib, or raw DEFLATE data, automatically detecting the format\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function decompressSync(data, opts) {\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzipSync(data, opts)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflateSync(data, opts)\n : unzlibSync(data, opts);\n}\n// flatten a directory structure\nvar fltn = function (d, p, t, o) {\n for (var k in d) {\n var val = d[k], n = p + k, op = o;\n if (Array.isArray(val))\n op = mrg(o, val[1]), val = val[0];\n if (val instanceof u8)\n t[n] = [val, op];\n else {\n t[n += '/'] = [new u8(0), op];\n fltn(val, n, t, o);\n }\n }\n};\n// text encoder\nvar te = typeof TextEncoder != 'undefined' && /*#__PURE__*/ new TextEncoder();\n// text decoder\nvar td = typeof TextDecoder != 'undefined' && /*#__PURE__*/ new TextDecoder();\n// text decoder stream\nvar tds = 0;\ntry {\n td.decode(et, { stream: true });\n tds = 1;\n}\ncatch (e) { }\n// decode UTF8\nvar dutf8 = function (d) {\n for (var r = '', i = 0;;) {\n var c = d[i++];\n var eb = (c > 127) + (c > 223) + (c > 239);\n if (i + eb > d.length)\n return { s: r, r: slc(d, i - 1) };\n if (!eb)\n r += String.fromCharCode(c);\n else if (eb == 3) {\n c = ((c & 15) << 18 | (d[i++] & 63) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63)) - 65536,\n r += String.fromCharCode(55296 | (c >> 10), 56320 | (c & 1023));\n }\n else if (eb & 1)\n r += String.fromCharCode((c & 31) << 6 | (d[i++] & 63));\n else\n r += String.fromCharCode((c & 15) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63));\n }\n};\n/**\n * Streaming UTF-8 decoding\n */\nvar DecodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is decoded\n */\n function DecodeUTF8(cb) {\n this.ondata = cb;\n if (tds)\n this.t = new TextDecoder();\n else\n this.p = et;\n }\n /**\n * Pushes a chunk to be decoded from UTF-8 binary\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n DecodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n final = !!final;\n if (this.t) {\n this.ondata(this.t.decode(chunk, { stream: true }), final);\n if (final) {\n if (this.t.decode().length)\n err(8);\n this.t = null;\n }\n return;\n }\n if (!this.p)\n err(4);\n var dat = new u8(this.p.length + chunk.length);\n dat.set(this.p);\n dat.set(chunk, this.p.length);\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (final) {\n if (r.length)\n err(8);\n this.p = null;\n }\n else\n this.p = r;\n this.ondata(s, final);\n };\n return DecodeUTF8;\n}());\nexport { DecodeUTF8 };\n/**\n * Streaming UTF-8 encoding\n */\nvar EncodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is encoded\n */\n function EncodeUTF8(cb) {\n this.ondata = cb;\n }\n /**\n * Pushes a chunk to be encoded to UTF-8\n * @param chunk The string data to push\n * @param final Whether this is the last chunk\n */\n EncodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n this.ondata(strToU8(chunk), this.d = final || false);\n };\n return EncodeUTF8;\n}());\nexport { EncodeUTF8 };\n/**\n * Converts a string into a Uint8Array for use with compression/decompression methods\n * @param str The string to encode\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless decoding a binary string.\n * @returns The string encoded in UTF-8/Latin-1 binary\n */\nexport function strToU8(str, latin1) {\n if (latin1) {\n var ar_1 = new u8(str.length);\n for (var i = 0; i < str.length; ++i)\n ar_1[i] = str.charCodeAt(i);\n return ar_1;\n }\n if (te)\n return te.encode(str);\n var l = str.length;\n var ar = new u8(str.length + (str.length >> 1));\n var ai = 0;\n var w = function (v) { ar[ai++] = v; };\n for (var i = 0; i < l; ++i) {\n if (ai + 5 > ar.length) {\n var n = new u8(ai + 8 + ((l - i) << 1));\n n.set(ar);\n ar = n;\n }\n var c = str.charCodeAt(i);\n if (c < 128 || latin1)\n w(c);\n else if (c < 2048)\n w(192 | (c >> 6)), w(128 | (c & 63));\n else if (c > 55295 && c < 57344)\n c = 65536 + (c & 1023 << 10) | (str.charCodeAt(++i) & 1023),\n w(240 | (c >> 18)), w(128 | ((c >> 12) & 63)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n else\n w(224 | (c >> 12)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n }\n return slc(ar, 0, ai);\n}\n/**\n * Converts a Uint8Array to a string\n * @param dat The data to decode to string\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless encoding to binary string.\n * @returns The original UTF-8/Latin-1 string\n */\nexport function strFromU8(dat, latin1) {\n if (latin1) {\n var r = '';\n for (var i = 0; i < dat.length; i += 16384)\n r += String.fromCharCode.apply(null, dat.subarray(i, i + 16384));\n return r;\n }\n else if (td) {\n return td.decode(dat);\n }\n else {\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (r.length)\n err(8);\n return s;\n }\n}\n;\n// deflate bit flag\nvar dbf = function (l) { return l == 1 ? 3 : l < 6 ? 2 : l == 9 ? 1 : 0; };\n// skip local zip header\nvar slzh = function (d, b) { return b + 30 + b2(d, b + 26) + b2(d, b + 28); };\n// read zip header\nvar zh = function (d, b, z) {\n var fnl = b2(d, b + 28), fn = strFromU8(d.subarray(b + 46, b + 46 + fnl), !(b2(d, b + 8) & 2048)), es = b + 46 + fnl, bs = b4(d, b + 20);\n var _a = z && bs == 4294967295 ? z64e(d, es) : [bs, b4(d, b + 24), b4(d, b + 42)], sc = _a[0], su = _a[1], off = _a[2];\n return [b2(d, b + 10), sc, su, fn, es + b2(d, b + 30) + b2(d, b + 32), off];\n};\n// read zip64 extra field\nvar z64e = function (d, b) {\n for (; b2(d, b) != 1; b += 4 + b2(d, b + 2))\n ;\n return [b8(d, b + 12), b8(d, b + 4), b8(d, b + 20)];\n};\n// extra field length\nvar exfl = function (ex) {\n var le = 0;\n if (ex) {\n for (var k in ex) {\n var l = ex[k].length;\n if (l > 65535)\n err(9);\n le += l + 4;\n }\n }\n return le;\n};\n// write zip header\nvar wzh = function (d, b, f, fn, u, c, ce, co) {\n var fl = fn.length, ex = f.extra, col = co && co.length;\n var exl = exfl(ex);\n wbytes(d, b, ce != null ? 0x2014B50 : 0x4034B50), b += 4;\n if (ce != null)\n d[b++] = 20, d[b++] = f.os;\n d[b] = 20, b += 2; // spec compliance? what's that?\n d[b++] = (f.flag << 1) | (c < 0 && 8), d[b++] = u && 8;\n d[b++] = f.compression & 255, d[b++] = f.compression >> 8;\n var dt = new Date(f.mtime == null ? Date.now() : f.mtime), y = dt.getFullYear() - 1980;\n if (y < 0 || y > 119)\n err(10);\n wbytes(d, b, (y << 25) | ((dt.getMonth() + 1) << 21) | (dt.getDate() << 16) | (dt.getHours() << 11) | (dt.getMinutes() << 5) | (dt.getSeconds() >> 1)), b += 4;\n if (c != -1) {\n wbytes(d, b, f.crc);\n wbytes(d, b + 4, c < 0 ? -c - 2 : c);\n wbytes(d, b + 8, f.size);\n }\n wbytes(d, b + 12, fl);\n wbytes(d, b + 14, exl), b += 16;\n if (ce != null) {\n wbytes(d, b, col);\n wbytes(d, b + 6, f.attrs);\n wbytes(d, b + 10, ce), b += 14;\n }\n d.set(fn, b);\n b += fl;\n if (exl) {\n for (var k in ex) {\n var exf = ex[k], l = exf.length;\n wbytes(d, b, +k);\n wbytes(d, b + 2, l);\n d.set(exf, b + 4), b += 4 + l;\n }\n }\n if (col)\n d.set(co, b), b += col;\n return b;\n};\n// write zip footer (end of central directory)\nvar wzf = function (o, b, c, d, e) {\n wbytes(o, b, 0x6054B50); // skip disk\n wbytes(o, b + 8, c);\n wbytes(o, b + 10, c);\n wbytes(o, b + 12, d);\n wbytes(o, b + 16, e);\n};\n/**\n * A pass-through stream to keep data uncompressed in a ZIP archive.\n */\nvar ZipPassThrough = /*#__PURE__*/ (function () {\n /**\n * Creates a pass-through stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n */\n function ZipPassThrough(filename) {\n this.filename = filename;\n this.c = crc();\n this.size = 0;\n this.compression = 0;\n }\n /**\n * Processes a chunk and pushes to the output stream. You can override this\n * method in a subclass for custom behavior, but by default this passes\n * the data through. You must call this.ondata(err, chunk, final) at some\n * point in this method.\n * @param chunk The chunk to process\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.process = function (chunk, final) {\n this.ondata(null, chunk, final);\n };\n /**\n * Pushes a chunk to be added. If you are subclassing this with a custom\n * compression algorithm, note that you must push data from the source\n * file only, pre-compression.\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n this.c.p(chunk);\n this.size += chunk.length;\n if (final)\n this.crc = this.c.d();\n this.process(chunk, final || false);\n };\n return ZipPassThrough;\n}());\nexport { ZipPassThrough };\n// I don't extend because TypeScript extension adds 1kB of runtime bloat\n/**\n * Streaming DEFLATE compression for ZIP archives. Prefer using AsyncZipDeflate\n * for better performance\n */\nvar ZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function ZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new Deflate(opts, function (dat, final) {\n _this.ondata(null, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n }\n ZipDeflate.prototype.process = function (chunk, final) {\n try {\n this.d.push(chunk, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return ZipDeflate;\n}());\nexport { ZipDeflate };\n/**\n * Asynchronous streaming DEFLATE compression for ZIP archives\n */\nvar AsyncZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates an asynchronous DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function AsyncZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new AsyncDeflate(opts, function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n this.terminate = this.d.terminate;\n }\n AsyncZipDeflate.prototype.process = function (chunk, final) {\n this.d.push(chunk, final);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return AsyncZipDeflate;\n}());\nexport { AsyncZipDeflate };\n// TODO: Better tree shaking\n/**\n * A zippable archive to which files can incrementally be added\n */\nvar Zip = /*#__PURE__*/ (function () {\n /**\n * Creates an empty ZIP archive to which files can be added\n * @param cb The callback to call whenever data for the generated ZIP archive\n * is available\n */\n function Zip(cb) {\n this.ondata = cb;\n this.u = [];\n this.d = 1;\n }\n /**\n * Adds a file to the ZIP archive\n * @param file The file stream to add\n */\n Zip.prototype.add = function (file) {\n var _this = this;\n if (!this.ondata)\n err(5);\n // finishing or finished\n if (this.d & 2)\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, false);\n else {\n var f = strToU8(file.filename), fl_1 = f.length;\n var com = file.comment, o = com && strToU8(com);\n var u = fl_1 != file.filename.length || (o && (com.length != o.length));\n var hl_1 = fl_1 + exfl(file.extra) + 30;\n if (fl_1 > 65535)\n this.ondata(err(11, 0, 1), null, false);\n var header = new u8(hl_1);\n wzh(header, 0, file, f, u, -1);\n var chks_1 = [header];\n var pAll_1 = function () {\n for (var _i = 0, chks_2 = chks_1; _i < chks_2.length; _i++) {\n var chk = chks_2[_i];\n _this.ondata(null, chk, false);\n }\n chks_1 = [];\n };\n var tr_1 = this.d;\n this.d = 0;\n var ind_1 = this.u.length;\n var uf_1 = mrg(file, {\n f: f,\n u: u,\n o: o,\n t: function () {\n if (file.terminate)\n file.terminate();\n },\n r: function () {\n pAll_1();\n if (tr_1) {\n var nxt = _this.u[ind_1 + 1];\n if (nxt)\n nxt.r();\n else\n _this.d = 1;\n }\n tr_1 = 1;\n }\n });\n var cl_1 = 0;\n file.ondata = function (err, dat, final) {\n if (err) {\n _this.ondata(err, dat, final);\n _this.terminate();\n }\n else {\n cl_1 += dat.length;\n chks_1.push(dat);\n if (final) {\n var dd = new u8(16);\n wbytes(dd, 0, 0x8074B50);\n wbytes(dd, 4, file.crc);\n wbytes(dd, 8, cl_1);\n wbytes(dd, 12, file.size);\n chks_1.push(dd);\n uf_1.c = cl_1, uf_1.b = hl_1 + cl_1 + 16, uf_1.crc = file.crc, uf_1.size = file.size;\n if (tr_1)\n uf_1.r();\n tr_1 = 1;\n }\n else if (tr_1)\n pAll_1();\n }\n };\n this.u.push(uf_1);\n }\n };\n /**\n * Ends the process of adding files and prepares to emit the final chunks.\n * This *must* be called after adding all desired files for the resulting\n * ZIP file to work properly.\n */\n Zip.prototype.end = function () {\n var _this = this;\n if (this.d & 2) {\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, true);\n return;\n }\n if (this.d)\n this.e();\n else\n this.u.push({\n r: function () {\n if (!(_this.d & 1))\n return;\n _this.u.splice(-1, 1);\n _this.e();\n },\n t: function () { }\n });\n this.d = 3;\n };\n Zip.prototype.e = function () {\n var bt = 0, l = 0, tl = 0;\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n tl += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0);\n }\n var out = new u8(tl + 22);\n for (var _b = 0, _c = this.u; _b < _c.length; _b++) {\n var f = _c[_b];\n wzh(out, bt, f, f.f, f.u, -f.c - 2, l, f.o);\n bt += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0), l += f.b;\n }\n wzf(out, bt, this.u.length, tl, l);\n this.ondata(null, out, true);\n this.d = 2;\n };\n /**\n * A method to terminate any internal workers used by the stream. Subsequent\n * calls to add() will fail.\n */\n Zip.prototype.terminate = function () {\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n f.t();\n }\n this.d = 2;\n };\n return Zip;\n}());\nexport { Zip };\nexport function zip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var r = {};\n fltn(data, '', r, opts);\n var k = Object.keys(r);\n var lft = k.length, o = 0, tot = 0;\n var slft = lft, files = new Array(lft);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var cbf = function () {\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n tot = 0;\n for (var i = 0; i < slft; ++i) {\n var f = files[i];\n try {\n var l = f.c.length;\n wzh(out, tot, f, f.f, f.u, l);\n var badd = 30 + f.f.length + exfl(f.extra);\n var loc = tot + badd;\n out.set(f.c, loc);\n wzh(out, o, f, f.f, f.u, l, tot, f.m), o += 16 + badd + (f.m ? f.m.length : 0), tot = loc + l;\n }\n catch (e) {\n return cbd(e, null);\n }\n }\n wzf(out, o, files.length, cdl, oe);\n cbd(null, out);\n };\n if (!lft)\n cbf();\n var _loop_1 = function (i) {\n var fn = k[i];\n var _a = r[fn], file = _a[0], p = _a[1];\n var c = crc(), size = file.length;\n c.p(file);\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n var compression = p.level == 0 ? 0 : 8;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n var l = d.length;\n files[i] = mrg(p, {\n size: size,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n compression: compression\n });\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n if (!--lft)\n cbf();\n }\n };\n if (s > 65535)\n cbl(err(11, 0, 1), null);\n if (!compression)\n cbl(null, file);\n else if (size < 160000) {\n try {\n cbl(null, deflateSync(file, p));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(deflate(file, p, cbl));\n };\n // Cannot use lft because it can decrease\n for (var i = 0; i < slft; ++i) {\n _loop_1(i);\n }\n return tAll;\n}\n/**\n * Synchronously creates a ZIP file. Prefer using `zip` for better performance\n * with more than one file.\n * @param data The directory structure for the ZIP archive\n * @param opts The main options, merged with per-file options\n * @returns The generated ZIP archive\n */\nexport function zipSync(data, opts) {\n if (!opts)\n opts = {};\n var r = {};\n var files = [];\n fltn(data, '', r, opts);\n var o = 0;\n var tot = 0;\n for (var fn in r) {\n var _a = r[fn], file = _a[0], p = _a[1];\n var compression = p.level == 0 ? 0 : 8;\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n if (s > 65535)\n err(11);\n var d = compression ? deflateSync(file, p) : file, l = d.length;\n var c = crc();\n c.p(file);\n files.push(mrg(p, {\n size: file.length,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n o: o,\n compression: compression\n }));\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n }\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n for (var i = 0; i < files.length; ++i) {\n var f = files[i];\n wzh(out, f.o, f, f.f, f.u, f.c.length);\n var badd = 30 + f.f.length + exfl(f.extra);\n out.set(f.c, f.o + badd);\n wzh(out, o, f, f.f, f.u, f.c.length, f.o, f.m), o += 16 + badd + (f.m ? f.m.length : 0);\n }\n wzf(out, o, files.length, cdl, oe);\n return out;\n}\n/**\n * Streaming pass-through decompression for ZIP archives\n */\nvar UnzipPassThrough = /*#__PURE__*/ (function () {\n function UnzipPassThrough() {\n }\n UnzipPassThrough.prototype.push = function (data, final) {\n this.ondata(null, data, final);\n };\n UnzipPassThrough.compression = 0;\n return UnzipPassThrough;\n}());\nexport { UnzipPassThrough };\n/**\n * Streaming DEFLATE decompression for ZIP archives. Prefer AsyncZipInflate for\n * better performance.\n */\nvar UnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function UnzipInflate() {\n var _this = this;\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n UnzipInflate.prototype.push = function (data, final) {\n try {\n this.i.push(data, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n UnzipInflate.compression = 8;\n return UnzipInflate;\n}());\nexport { UnzipInflate };\n/**\n * Asynchronous streaming DEFLATE decompression for ZIP archives\n */\nvar AsyncUnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function AsyncUnzipInflate(_, sz) {\n var _this = this;\n if (sz < 320000) {\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n else {\n this.i = new AsyncInflate(function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.terminate = this.i.terminate;\n }\n }\n AsyncUnzipInflate.prototype.push = function (data, final) {\n if (this.i.terminate)\n data = slc(data, 0);\n this.i.push(data, final);\n };\n AsyncUnzipInflate.compression = 8;\n return AsyncUnzipInflate;\n}());\nexport { AsyncUnzipInflate };\n/**\n * A ZIP archive decompression stream that emits files as they are discovered\n */\nvar Unzip = /*#__PURE__*/ (function () {\n /**\n * Creates a ZIP decompression stream\n * @param cb The callback to call whenever a file in the ZIP archive is found\n */\n function Unzip(cb) {\n this.onfile = cb;\n this.k = [];\n this.o = {\n 0: UnzipPassThrough\n };\n this.p = et;\n }\n /**\n * Pushes a chunk to be unzipped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzip.prototype.push = function (chunk, final) {\n var _this = this;\n if (!this.onfile)\n err(5);\n if (!this.p)\n err(4);\n if (this.c > 0) {\n var len = Math.min(this.c, chunk.length);\n var toAdd = chunk.subarray(0, len);\n this.c -= len;\n if (this.d)\n this.d.push(toAdd, !this.c);\n else\n this.k[0].push(toAdd);\n chunk = chunk.subarray(len);\n if (chunk.length)\n return this.push(chunk, final);\n }\n else {\n var f = 0, i = 0, is = void 0, buf = void 0;\n if (!this.p.length)\n buf = chunk;\n else if (!chunk.length)\n buf = this.p;\n else {\n buf = new u8(this.p.length + chunk.length);\n buf.set(this.p), buf.set(chunk, this.p.length);\n }\n var l = buf.length, oc = this.c, add = oc && this.d;\n var _loop_2 = function () {\n var _a;\n var sig = b4(buf, i);\n if (sig == 0x4034B50) {\n f = 1, is = i;\n this_1.d = null;\n this_1.c = 0;\n var bf = b2(buf, i + 6), cmp_1 = b2(buf, i + 8), u = bf & 2048, dd = bf & 8, fnl = b2(buf, i + 26), es = b2(buf, i + 28);\n if (l > i + 30 + fnl + es) {\n var chks_3 = [];\n this_1.k.unshift(chks_3);\n f = 2;\n var sc_1 = b4(buf, i + 18), su_1 = b4(buf, i + 22);\n var fn_1 = strFromU8(buf.subarray(i + 30, i += 30 + fnl), !u);\n if (sc_1 == 4294967295) {\n _a = dd ? [-2] : z64e(buf, i), sc_1 = _a[0], su_1 = _a[1];\n }\n else if (dd)\n sc_1 = -1;\n i += es;\n this_1.c = sc_1;\n var d_1;\n var file_1 = {\n name: fn_1,\n compression: cmp_1,\n start: function () {\n if (!file_1.ondata)\n err(5);\n if (!sc_1)\n file_1.ondata(null, et, true);\n else {\n var ctr = _this.o[cmp_1];\n if (!ctr)\n file_1.ondata(err(14, 'unknown compression type ' + cmp_1, 1), null, false);\n d_1 = sc_1 < 0 ? new ctr(fn_1) : new ctr(fn_1, sc_1, su_1);\n d_1.ondata = function (err, dat, final) { file_1.ondata(err, dat, final); };\n for (var _i = 0, chks_4 = chks_3; _i < chks_4.length; _i++) {\n var dat = chks_4[_i];\n d_1.push(dat, false);\n }\n if (_this.k[0] == chks_3 && _this.c)\n _this.d = d_1;\n else\n d_1.push(et, true);\n }\n },\n terminate: function () {\n if (d_1 && d_1.terminate)\n d_1.terminate();\n }\n };\n if (sc_1 >= 0)\n file_1.size = sc_1, file_1.originalSize = su_1;\n this_1.onfile(file_1);\n }\n return \"break\";\n }\n else if (oc) {\n if (sig == 0x8074B50) {\n is = i += 12 + (oc == -2 && 8), f = 3, this_1.c = 0;\n return \"break\";\n }\n else if (sig == 0x2014B50) {\n is = i -= 4, f = 3, this_1.c = 0;\n return \"break\";\n }\n }\n };\n var this_1 = this;\n for (; i < l - 4; ++i) {\n var state_1 = _loop_2();\n if (state_1 === \"break\")\n break;\n }\n this.p = et;\n if (oc < 0) {\n var dat = f ? buf.subarray(0, is - 12 - (oc == -2 && 8) - (b4(buf, is - 16) == 0x8074B50 && 4)) : buf.subarray(0, i);\n if (add)\n add.push(dat, !!f);\n else\n this.k[+(f == 2)].push(dat);\n }\n if (f & 2)\n return this.push(buf.subarray(i), final);\n this.p = buf.subarray(i);\n }\n if (final) {\n if (this.c)\n err(13);\n this.p = null;\n }\n };\n /**\n * Registers a decoder with the stream, allowing for files compressed with\n * the compression type provided to be expanded correctly\n * @param decoder The decoder constructor\n */\n Unzip.prototype.register = function (decoder) {\n this.o[decoder.compression] = decoder;\n };\n return Unzip;\n}());\nexport { Unzip };\nvar mt = typeof queueMicrotask == 'function' ? queueMicrotask : typeof setTimeout == 'function' ? setTimeout : function (fn) { fn(); };\nexport function unzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var files = {};\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558) {\n cbd(err(13, 0, 1), null);\n return tAll;\n }\n }\n ;\n var lft = b2(data, e + 8);\n if (lft) {\n var c = lft;\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = lft = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n var _loop_3 = function (i) {\n var _a = zh(data, o, z), c_1 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n if (d)\n files[fn] = d;\n if (!--lft)\n cbd(null, files);\n }\n };\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_1\n })) {\n if (!c_1)\n cbl(null, slc(data, b, b + sc));\n else if (c_1 == 8) {\n var infl = data.subarray(b, b + sc);\n // Synchronously decompress under 512KB, or barely-compressed data\n if (su < 524288 || sc > 0.8 * su) {\n try {\n cbl(null, inflateSync(infl, { out: new u8(su) }));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(inflate(infl, { size: su }, cbl));\n }\n else\n cbl(err(14, 'unknown compression type ' + c_1, 1), null);\n }\n else\n cbl(null, null);\n };\n for (var i = 0; i < c; ++i) {\n _loop_3(i);\n }\n }\n else\n cbd(null, {});\n return tAll;\n}\n/**\n * Synchronously decompresses a ZIP archive. Prefer using `unzip` for better\n * performance with more than one file.\n * @param data The raw compressed ZIP file\n * @param opts The ZIP extraction options\n * @returns The decompressed files\n */\nexport function unzipSync(data, opts) {\n var files = {};\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558)\n err(13);\n }\n ;\n var c = b2(data, e + 8);\n if (!c)\n return {};\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n for (var i = 0; i < c; ++i) {\n var _a = zh(data, o, z), c_2 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_2\n })) {\n if (!c_2)\n files[fn] = slc(data, b, b + sc);\n else if (c_2 == 8)\n files[fn] = inflateSync(data.subarray(b, b + sc), { out: new u8(su) });\n else\n err(14, 'unknown compression type ' + c_2);\n }\n }\n return files;\n}\n","/**\n * @license\n * Copyright 2010-2025 Three.js Authors\n * SPDX-License-Identifier: MIT\n */\nconst REVISION = '180';\n\n/**\n * Represents mouse buttons and interaction types in context of controls.\n *\n * @type {ConstantsMouse}\n * @constant\n */\nconst MOUSE = { LEFT: 0, MIDDLE: 1, RIGHT: 2, ROTATE: 0, DOLLY: 1, PAN: 2 };\n\n/**\n * Represents touch interaction types in context of controls.\n *\n * @type {ConstantsTouch}\n * @constant\n */\nconst TOUCH = { ROTATE: 0, PAN: 1, DOLLY_PAN: 2, DOLLY_ROTATE: 3 };\n\n/**\n * Disables face culling.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceNone = 0;\n\n/**\n * Culls back faces.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceBack = 1;\n\n/**\n * Culls front faces.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceFront = 2;\n\n/**\n * Culls both front and back faces.\n *\n * @type {number}\n * @constant\n */\nconst CullFaceFrontBack = 3;\n\n/**\n * Gives unfiltered shadow maps - fastest, but lowest quality.\n *\n * @type {number}\n * @constant\n */\nconst BasicShadowMap = 0;\n\n/**\n * Filters shadow maps using the Percentage-Closer Filtering (PCF) algorithm.\n *\n * @type {number}\n * @constant\n */\nconst PCFShadowMap = 1;\n\n/**\n * Filters shadow maps using the Percentage-Closer Filtering (PCF) algorithm with\n * better soft shadows especially when using low-resolution shadow maps.\n *\n * @type {number}\n * @constant\n */\nconst PCFSoftShadowMap = 2;\n\n/**\n * Filters shadow maps using the Variance Shadow Map (VSM) algorithm.\n * When using VSMShadowMap all shadow receivers will also cast shadows.\n *\n * @type {number}\n * @constant\n */\nconst VSMShadowMap = 3;\n\n/**\n * Only front faces are rendered.\n *\n * @type {number}\n * @constant\n */\nconst FrontSide = 0;\n\n/**\n * Only back faces are rendered.\n *\n * @type {number}\n * @constant\n */\nconst BackSide = 1;\n\n/**\n * Both front and back faces are rendered.\n *\n * @type {number}\n * @constant\n */\nconst DoubleSide = 2;\n\n/**\n * No blending is performed which effectively disables\n * alpha transparency.\n *\n * @type {number}\n * @constant\n */\nconst NoBlending = 0;\n\n/**\n * The default blending.\n *\n * @type {number}\n * @constant\n */\nconst NormalBlending = 1;\n\n/**\n * Represents additive blending.\n *\n * @type {number}\n * @constant\n */\nconst AdditiveBlending = 2;\n\n/**\n * Represents subtractive blending.\n *\n * @type {number}\n * @constant\n */\nconst SubtractiveBlending = 3;\n\n/**\n * Represents multiply blending.\n *\n * @type {number}\n * @constant\n */\nconst MultiplyBlending = 4;\n\n/**\n * Represents custom blending.\n *\n * @type {number}\n * @constant\n */\nconst CustomBlending = 5;\n\n/**\n * A `source + destination` blending equation.\n *\n * @type {number}\n * @constant\n */\nconst AddEquation = 100;\n\n/**\n * A `source - destination` blending equation.\n *\n * @type {number}\n * @constant\n */\nconst SubtractEquation = 101;\n\n/**\n * A `destination - source` blending equation.\n *\n * @type {number}\n * @constant\n */\nconst ReverseSubtractEquation = 102;\n\n/**\n * A blend equation that uses the minimum of source and destination.\n *\n * @type {number}\n * @constant\n */\nconst MinEquation = 103;\n\n/**\n * A blend equation that uses the maximum of source and destination.\n *\n * @type {number}\n * @constant\n */\nconst MaxEquation = 104;\n\n/**\n * Multiplies all colors by `0`.\n *\n * @type {number}\n * @constant\n */\nconst ZeroFactor = 200;\n\n/**\n * Multiplies all colors by `1`.\n *\n * @type {number}\n * @constant\n */\nconst OneFactor = 201;\n\n/**\n * Multiplies all colors by the source colors.\n *\n * @type {number}\n * @constant\n */\nconst SrcColorFactor = 202;\n\n/**\n * Multiplies all colors by `1` minus each source color.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusSrcColorFactor = 203;\n\n/**\n * Multiplies all colors by the source alpha value.\n *\n * @type {number}\n * @constant\n */\nconst SrcAlphaFactor = 204;\n\n/**\n * Multiplies all colors by 1 minus the source alpha value.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusSrcAlphaFactor = 205;\n\n/**\n * Multiplies all colors by the destination alpha value.\n *\n * @type {number}\n * @constant\n */\nconst DstAlphaFactor = 206;\n\n/**\n * Multiplies all colors by `1` minus the destination alpha value.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusDstAlphaFactor = 207;\n\n/**\n * Multiplies all colors by the destination color.\n *\n * @type {number}\n * @constant\n */\nconst DstColorFactor = 208;\n\n/**\n * Multiplies all colors by `1` minus each destination color.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusDstColorFactor = 209;\n\n/**\n * Multiplies the RGB colors by the smaller of either the source alpha\n * value or the value of `1` minus the destination alpha value. The alpha\n * value is multiplied by `1`.\n *\n * @type {number}\n * @constant\n */\nconst SrcAlphaSaturateFactor = 210;\n\n/**\n * Multiplies all colors by a constant color.\n *\n * @type {number}\n * @constant\n */\nconst ConstantColorFactor = 211;\n\n/**\n * Multiplies all colors by `1` minus a constant color.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusConstantColorFactor = 212;\n\n/**\n * Multiplies all colors by a constant alpha value.\n *\n * @type {number}\n * @constant\n */\nconst ConstantAlphaFactor = 213;\n\n/**\n * Multiplies all colors by 1 minus a constant alpha value.\n *\n * @type {number}\n * @constant\n */\nconst OneMinusConstantAlphaFactor = 214;\n\n/**\n * Never pass.\n *\n * @type {number}\n * @constant\n */\nconst NeverDepth = 0;\n\n/**\n * Always pass.\n *\n * @type {number}\n * @constant\n */\nconst AlwaysDepth = 1;\n\n/**\n * Pass if the incoming value is less than the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst LessDepth = 2;\n\n/**\n * Pass if the incoming value is less than or equal to the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst LessEqualDepth = 3;\n\n/**\n * Pass if the incoming value equals the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst EqualDepth = 4;\n\n/**\n * Pass if the incoming value is greater than or equal to the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterEqualDepth = 5;\n\n/**\n * Pass if the incoming value is greater than the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterDepth = 6;\n\n/**\n * Pass if the incoming value is not equal to the depth buffer value.\n *\n * @type {number}\n * @constant\n */\nconst NotEqualDepth = 7;\n\n/**\n * Multiplies the environment map color with the surface color.\n *\n * @type {number}\n * @constant\n */\nconst MultiplyOperation = 0;\n\n/**\n * Uses reflectivity to blend between the two colors.\n *\n * @type {number}\n * @constant\n */\nconst MixOperation = 1;\n\n/**\n * Adds the two colors.\n *\n * @type {number}\n * @constant\n */\nconst AddOperation = 2;\n\n/**\n * No tone mapping is applied.\n *\n * @type {number}\n * @constant\n */\nconst NoToneMapping = 0;\n\n/**\n * Linear tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst LinearToneMapping = 1;\n\n/**\n * Reinhard tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst ReinhardToneMapping = 2;\n\n/**\n * Cineon tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst CineonToneMapping = 3;\n\n/**\n * ACES Filmic tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst ACESFilmicToneMapping = 4;\n\n/**\n * Custom tone mapping.\n *\n * Expects a custom implementation by modifying shader code of the material's fragment shader.\n *\n * @type {number}\n * @constant\n */\nconst CustomToneMapping = 5;\n\n/**\n * AgX tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst AgXToneMapping = 6;\n\n/**\n * Neutral tone mapping.\n *\n * Implementation based on the Khronos 3D Commerce Group standard tone mapping.\n *\n * @type {number}\n * @constant\n */\nconst NeutralToneMapping = 7;\n\n/**\n * The skinned mesh shares the same world space as the skeleton.\n *\n * @type {string}\n * @constant\n */\nconst AttachedBindMode = 'attached';\n\n/**\n * The skinned mesh does not share the same world space as the skeleton.\n * This is useful when a skeleton is shared across multiple skinned meshes.\n *\n * @type {string}\n * @constant\n */\nconst DetachedBindMode = 'detached';\n\n/**\n * Maps textures using the geometry's UV coordinates.\n *\n * @type {number}\n * @constant\n */\nconst UVMapping = 300;\n\n/**\n * Reflection mapping for cube textures.\n *\n * @type {number}\n * @constant\n */\nconst CubeReflectionMapping = 301;\n\n/**\n * Refraction mapping for cube textures.\n *\n * @type {number}\n * @constant\n */\nconst CubeRefractionMapping = 302;\n\n/**\n * Reflection mapping for equirectangular textures.\n *\n * @type {number}\n * @constant\n */\nconst EquirectangularReflectionMapping = 303;\n\n/**\n * Refraction mapping for equirectangular textures.\n *\n * @type {number}\n * @constant\n */\nconst EquirectangularRefractionMapping = 304;\n\n/**\n * Reflection mapping for PMREM textures.\n *\n * @type {number}\n * @constant\n */\nconst CubeUVReflectionMapping = 306;\n\n/**\n * The texture will simply repeat to infinity.\n *\n * @type {number}\n * @constant\n */\nconst RepeatWrapping = 1000;\n\n/**\n * The last pixel of the texture stretches to the edge of the mesh.\n *\n * @type {number}\n * @constant\n */\nconst ClampToEdgeWrapping = 1001;\n\n/**\n * The texture will repeats to infinity, mirroring on each repeat.\n *\n * @type {number}\n * @constant\n */\nconst MirroredRepeatWrapping = 1002;\n\n/**\n * Returns the value of the texture element that is nearest (in Manhattan distance)\n * to the specified texture coordinates.\n *\n * @type {number}\n * @constant\n */\nconst NearestFilter = 1003;\n\n/**\n * Chooses the mipmap that most closely matches the size of the pixel being textured\n * and uses the `NearestFilter` criterion (the texel nearest to the center of the pixel)\n * to produce a texture value.\n *\n * @type {number}\n * @constant\n */\nconst NearestMipmapNearestFilter = 1004;\nconst NearestMipMapNearestFilter = 1004; // legacy\n\n/**\n * Chooses the two mipmaps that most closely match the size of the pixel being textured and\n * uses the `NearestFilter` criterion to produce a texture value from each mipmap.\n * The final texture value is a weighted average of those two values.\n *\n * @type {number}\n * @constant\n */\nconst NearestMipmapLinearFilter = 1005;\nconst NearestMipMapLinearFilter = 1005; // legacy\n\n/**\n * Returns the weighted average of the four texture elements that are closest to the specified\n * texture coordinates, and can include items wrapped or repeated from other parts of a texture,\n * depending on the values of `wrapS` and `wrapT`, and on the exact mapping.\n *\n * @type {number}\n * @constant\n */\nconst LinearFilter = 1006;\n\n/**\n * Chooses the mipmap that most closely matches the size of the pixel being textured and uses\n * the `LinearFilter` criterion (a weighted average of the four texels that are closest to the\n * center of the pixel) to produce a texture value.\n *\n * @type {number}\n * @constant\n */\nconst LinearMipmapNearestFilter = 1007;\nconst LinearMipMapNearestFilter = 1007; // legacy\n\n/**\n * Chooses the two mipmaps that most closely match the size of the pixel being textured and uses\n * the `LinearFilter` criterion to produce a texture value from each mipmap. The final texture value\n * is a weighted average of those two values.\n *\n * @type {number}\n * @constant\n */\nconst LinearMipmapLinearFilter = 1008;\nconst LinearMipMapLinearFilter = 1008; // legacy\n\n/**\n * An unsigned byte data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedByteType = 1009;\n\n/**\n * A byte data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst ByteType = 1010;\n\n/**\n * A short data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst ShortType = 1011;\n\n/**\n * An unsigned short data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedShortType = 1012;\n\n/**\n * An int data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst IntType = 1013;\n\n/**\n * An unsigned int data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedIntType = 1014;\n\n/**\n * A float data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst FloatType = 1015;\n\n/**\n * A half float data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst HalfFloatType = 1016;\n\n/**\n * An unsigned short 4_4_4_4 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedShort4444Type = 1017;\n\n/**\n * An unsigned short 5_5_5_1 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedShort5551Type = 1018;\n\n/**\n * An unsigned int 24_8 data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedInt248Type = 1020;\n\n/**\n * An unsigned int 5_9_9_9 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedInt5999Type = 35902;\n\n/**\n * An unsigned int 10_11_11 (packed) data type for textures.\n *\n * @type {number}\n * @constant\n */\nconst UnsignedInt101111Type = 35899;\n\n/**\n * Discards the red, green and blue components and reads just the alpha component.\n *\n * @type {number}\n * @constant\n */\nconst AlphaFormat = 1021;\n\n/**\n * Discards the alpha component and reads the red, green and blue component.\n *\n * @type {number}\n * @constant\n */\nconst RGBFormat = 1022;\n\n/**\n * Reads the red, green, blue and alpha components.\n *\n * @type {number}\n * @constant\n */\nconst RGBAFormat = 1023;\n\n/**\n * Reads each element as a single depth value, converts it to floating point, and clamps to the range `[0,1]`.\n *\n * @type {number}\n * @constant\n */\nconst DepthFormat = 1026;\n\n/**\n * Reads each element is a pair of depth and stencil values. The depth component of the pair is interpreted as\n * in `DepthFormat`. The stencil component is interpreted based on the depth + stencil internal format.\n *\n * @type {number}\n * @constant\n */\nconst DepthStencilFormat = 1027;\n\n/**\n * Discards the green, blue and alpha components and reads just the red component.\n *\n * @type {number}\n * @constant\n */\nconst RedFormat = 1028;\n\n/**\n * Discards the green, blue and alpha components and reads just the red component. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RedIntegerFormat = 1029;\n\n/**\n * Discards the alpha, and blue components and reads the red, and green components.\n *\n * @type {number}\n * @constant\n */\nconst RGFormat = 1030;\n\n/**\n * Discards the alpha, and blue components and reads the red, and green components. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RGIntegerFormat = 1031;\n\n/**\n * Discards the alpha component and reads the red, green and blue component. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RGBIntegerFormat = 1032;\n\n/**\n * Reads the red, green, blue and alpha components. The texels are read as integers instead of floating point.\n *\n * @type {number}\n * @constant\n */\nconst RGBAIntegerFormat = 1033;\n\n/**\n * A DXT1-compressed image in an RGB image format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_S3TC_DXT1_Format = 33776;\n\n/**\n * A DXT1-compressed image in an RGB image format with a simple on/off alpha value.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_S3TC_DXT1_Format = 33777;\n\n/**\n * A DXT3-compressed image in an RGBA image format. Compared to a 32-bit RGBA texture, it offers 4:1 compression.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_S3TC_DXT3_Format = 33778;\n\n/**\n * A DXT5-compressed image in an RGBA image format. It also provides a 4:1 compression, but differs to the DXT3\n * compression in how the alpha compression is done.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_S3TC_DXT5_Format = 33779;\n\n/**\n * PVRTC RGB compression in 4-bit mode. One block for each 4×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGB_PVRTC_4BPPV1_Format = 35840;\n\n/**\n * PVRTC RGB compression in 2-bit mode. One block for each 8×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGB_PVRTC_2BPPV1_Format = 35841;\n\n/**\n * PVRTC RGBA compression in 4-bit mode. One block for each 4×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_PVRTC_4BPPV1_Format = 35842;\n\n/**\n * PVRTC RGBA compression in 2-bit mode. One block for each 8×4 pixels.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_PVRTC_2BPPV1_Format = 35843;\n\n/**\n * ETC1 RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_ETC1_Format = 36196;\n\n/**\n * ETC2 RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_ETC2_Format = 37492;\n\n/**\n * ETC2 RGBA format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ETC2_EAC_Format = 37496;\n\n/**\n * ASTC RGBA 4x4 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_4x4_Format = 37808;\n\n/**\n * ASTC RGBA 5x4 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_5x4_Format = 37809;\n\n/**\n * ASTC RGBA 5x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_5x5_Format = 37810;\n\n/**\n * ASTC RGBA 6x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_6x5_Format = 37811;\n\n/**\n * ASTC RGBA 6x6 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_6x6_Format = 37812;\n\n/**\n * ASTC RGBA 8x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_8x5_Format = 37813;\n\n/**\n * ASTC RGBA 8x6 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_8x6_Format = 37814;\n\n/**\n * ASTC RGBA 8x8 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_8x8_Format = 37815;\n\n/**\n * ASTC RGBA 10x5 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x5_Format = 37816;\n\n/**\n * ASTC RGBA 10x6 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x6_Format = 37817;\n\n/**\n * ASTC RGBA 10x8 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x8_Format = 37818;\n\n/**\n * ASTC RGBA 10x10 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_10x10_Format = 37819;\n\n/**\n * ASTC RGBA 12x10 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_12x10_Format = 37820;\n\n/**\n * ASTC RGBA 12x12 format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_ASTC_12x12_Format = 37821;\n\n/**\n * BPTC RGBA format.\n *\n * @type {number}\n * @constant\n */\nconst RGBA_BPTC_Format = 36492;\n\n/**\n * BPTC Signed RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_BPTC_SIGNED_Format = 36494;\n\n/**\n * BPTC Unsigned RGB format.\n *\n * @type {number}\n * @constant\n */\nconst RGB_BPTC_UNSIGNED_Format = 36495;\n\n/**\n * RGTC1 Red format.\n *\n * @type {number}\n * @constant\n */\nconst RED_RGTC1_Format = 36283;\n\n/**\n * RGTC1 Signed Red format.\n *\n * @type {number}\n * @constant\n */\nconst SIGNED_RED_RGTC1_Format = 36284;\n\n/**\n * RGTC2 Red Green format.\n *\n * @type {number}\n * @constant\n */\nconst RED_GREEN_RGTC2_Format = 36285;\n\n/**\n * RGTC2 Signed Red Green format.\n *\n * @type {number}\n * @constant\n */\nconst SIGNED_RED_GREEN_RGTC2_Format = 36286;\n\n/**\n * Animations are played once.\n *\n * @type {number}\n * @constant\n */\nconst LoopOnce = 2200;\n\n/**\n * Animations are played with a chosen number of repetitions, each time jumping from\n * the end of the clip directly to its beginning.\n *\n * @type {number}\n * @constant\n */\nconst LoopRepeat = 2201;\n\n/**\n * Animations are played with a chosen number of repetitions, alternately playing forward\n * and backward.\n *\n * @type {number}\n * @constant\n */\nconst LoopPingPong = 2202;\n\n/**\n * Discrete interpolation mode for keyframe tracks.\n *\n * @type {number}\n * @constant\n */\nconst InterpolateDiscrete = 2300;\n\n/**\n * Linear interpolation mode for keyframe tracks.\n *\n * @type {number}\n * @constant\n */\nconst InterpolateLinear = 2301;\n\n/**\n * Smooth interpolation mode for keyframe tracks.\n *\n * @type {number}\n * @constant\n */\nconst InterpolateSmooth = 2302;\n\n/**\n * Zero curvature ending for animations.\n *\n * @type {number}\n * @constant\n */\nconst ZeroCurvatureEnding = 2400;\n\n/**\n * Zero slope ending for animations.\n *\n * @type {number}\n * @constant\n */\nconst ZeroSlopeEnding = 2401;\n\n/**\n * Wrap around ending for animations.\n *\n * @type {number}\n * @constant\n */\nconst WrapAroundEnding = 2402;\n\n/**\n * Default animation blend mode.\n *\n * @type {number}\n * @constant\n */\nconst NormalAnimationBlendMode = 2500;\n\n/**\n * Additive animation blend mode. Can be used to layer motions on top of\n * each other to build complex performances from smaller re-usable assets.\n *\n * @type {number}\n * @constant\n */\nconst AdditiveAnimationBlendMode = 2501;\n\n/**\n * For every three vertices draw a single triangle.\n *\n * @type {number}\n * @constant\n */\nconst TrianglesDrawMode = 0;\n\n/**\n * For each vertex draw a triangle from the last three vertices.\n *\n * @type {number}\n * @constant\n */\nconst TriangleStripDrawMode = 1;\n\n/**\n * For each vertex draw a triangle from the first vertex and the last two vertices.\n *\n * @type {number}\n * @constant\n */\nconst TriangleFanDrawMode = 2;\n\n/**\n * Basic depth packing.\n *\n * @type {number}\n * @constant\n */\nconst BasicDepthPacking = 3200;\n\n/**\n * A depth value is packed into 32 bit RGBA.\n *\n * @type {number}\n * @constant\n */\nconst RGBADepthPacking = 3201;\n\n/**\n * A depth value is packed into 24 bit RGB.\n *\n * @type {number}\n * @constant\n */\nconst RGBDepthPacking = 3202;\n\n/**\n * A depth value is packed into 16 bit RG.\n *\n * @type {number}\n * @constant\n */\nconst RGDepthPacking = 3203;\n\n/**\n * Normal information is relative to the underlying surface.\n *\n * @type {number}\n * @constant\n */\nconst TangentSpaceNormalMap = 0;\n\n/**\n * Normal information is relative to the object orientation.\n *\n * @type {number}\n * @constant\n */\nconst ObjectSpaceNormalMap = 1;\n\n// Color space string identifiers, matching CSS Color Module Level 4 and WebGPU names where available.\n\n/**\n * No color space.\n *\n * @type {string}\n * @constant\n */\nconst NoColorSpace = '';\n\n/**\n * sRGB color space.\n *\n * @type {string}\n * @constant\n */\nconst SRGBColorSpace = 'srgb';\n\n/**\n * sRGB-linear color space.\n *\n * @type {string}\n * @constant\n */\nconst LinearSRGBColorSpace = 'srgb-linear';\n\n/**\n * Linear transfer function.\n *\n * @type {string}\n * @constant\n */\nconst LinearTransfer = 'linear';\n\n/**\n * sRGB transfer function.\n *\n * @type {string}\n * @constant\n */\nconst SRGBTransfer = 'srgb';\n\n/**\n * Sets the stencil buffer value to `0`.\n *\n * @type {number}\n * @constant\n */\nconst ZeroStencilOp = 0;\n\n/**\n * Keeps the current value.\n *\n * @type {number}\n * @constant\n */\nconst KeepStencilOp = 7680;\n\n/**\n * Sets the stencil buffer value to the specified reference value.\n *\n * @type {number}\n * @constant\n */\nconst ReplaceStencilOp = 7681;\n\n/**\n * Increments the current stencil buffer value. Clamps to the maximum representable unsigned value.\n *\n * @type {number}\n * @constant\n */\nconst IncrementStencilOp = 7682;\n\n/**\n * Decrements the current stencil buffer value. Clamps to `0`.\n *\n * @type {number}\n * @constant\n */\nconst DecrementStencilOp = 7683;\n\n/**\n * Increments the current stencil buffer value. Wraps stencil buffer value to zero when incrementing\n * the maximum representable unsigned value.\n *\n * @type {number}\n * @constant\n */\nconst IncrementWrapStencilOp = 34055;\n\n/**\n * Decrements the current stencil buffer value. Wraps stencil buffer value to the maximum representable\n * unsigned value when decrementing a stencil buffer value of `0`.\n *\n * @type {number}\n * @constant\n */\nconst DecrementWrapStencilOp = 34056;\n\n/**\n * Inverts the current stencil buffer value bitwise.\n *\n * @type {number}\n * @constant\n */\nconst InvertStencilOp = 5386;\n\n/**\n * Will never return true.\n *\n * @type {number}\n * @constant\n */\nconst NeverStencilFunc = 512;\n\n/**\n * Will return true if the stencil reference value is less than the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst LessStencilFunc = 513;\n\n/**\n * Will return true if the stencil reference value is equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst EqualStencilFunc = 514;\n\n/**\n * Will return true if the stencil reference value is less than or equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst LessEqualStencilFunc = 515;\n\n/**\n * Will return true if the stencil reference value is greater than the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterStencilFunc = 516;\n\n/**\n * Will return true if the stencil reference value is not equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst NotEqualStencilFunc = 517;\n\n/**\n * Will return true if the stencil reference value is greater than or equal to the current stencil value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterEqualStencilFunc = 518;\n\n/**\n * Will always return true.\n *\n * @type {number}\n * @constant\n */\nconst AlwaysStencilFunc = 519;\n\n/**\n * Never pass.\n *\n * @type {number}\n * @constant\n */\nconst NeverCompare = 512;\n\n/**\n * Pass if the incoming value is less than the texture value.\n *\n * @type {number}\n * @constant\n */\nconst LessCompare = 513;\n\n/**\n * Pass if the incoming value equals the texture value.\n *\n * @type {number}\n * @constant\n */\nconst EqualCompare = 514;\n\n/**\n * Pass if the incoming value is less than or equal to the texture value.\n *\n * @type {number}\n * @constant\n */\nconst LessEqualCompare = 515;\n\n/**\n * Pass if the incoming value is greater than the texture value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterCompare = 516;\n\n/**\n * Pass if the incoming value is not equal to the texture value.\n *\n * @type {number}\n * @constant\n */\nconst NotEqualCompare = 517;\n\n/**\n * Pass if the incoming value is greater than or equal to the texture value.\n *\n * @type {number}\n * @constant\n */\nconst GreaterEqualCompare = 518;\n\n/**\n * Always pass.\n *\n * @type {number}\n * @constant\n */\nconst AlwaysCompare = 519;\n\n/**\n * The contents are intended to be specified once by the application, and used many\n * times as the source for drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StaticDrawUsage = 35044;\n\n/**\n * The contents are intended to be respecified repeatedly by the application, and\n * used many times as the source for drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst DynamicDrawUsage = 35048;\n\n/**\n * The contents are intended to be specified once by the application, and used at most\n * a few times as the source for drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StreamDrawUsage = 35040;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and queried\n * many times by the application.\n *\n * @type {number}\n * @constant\n */\nconst StaticReadUsage = 35045;\n\n/**\n * The contents are intended to be respecified repeatedly by reading data from the 3D API, and queried\n * many times by the application.\n *\n * @type {number}\n * @constant\n */\nconst DynamicReadUsage = 35049;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and queried at most\n * a few times by the application\n *\n * @type {number}\n * @constant\n */\nconst StreamReadUsage = 35041;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and used many times as\n * the source for WebGL drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StaticCopyUsage = 35046;\n\n/**\n * The contents are intended to be respecified repeatedly by reading data from the 3D API, and used many times\n * as the source for WebGL drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst DynamicCopyUsage = 35050;\n\n/**\n * The contents are intended to be specified once by reading data from the 3D API, and used at most a few times\n * as the source for WebGL drawing and image specification commands.\n *\n * @type {number}\n * @constant\n */\nconst StreamCopyUsage = 35042;\n\n/**\n * GLSL 1 shader code.\n *\n * @type {string}\n * @constant\n */\nconst GLSL1 = '100';\n\n/**\n * GLSL 3 shader code.\n *\n * @type {string}\n * @constant\n */\nconst GLSL3 = '300 es';\n\n/**\n * WebGL coordinate system.\n *\n * @type {number}\n * @constant\n */\nconst WebGLCoordinateSystem = 2000;\n\n/**\n * WebGPU coordinate system.\n *\n * @type {number}\n * @constant\n */\nconst WebGPUCoordinateSystem = 2001;\n\n/**\n * Represents the different timestamp query types.\n *\n * @type {ConstantsTimestampQuery}\n * @constant\n */\nconst TimestampQuery = {\n\tCOMPUTE: 'compute',\n\tRENDER: 'render'\n};\n\n/**\n * Represents mouse buttons and interaction types in context of controls.\n *\n * @type {ConstantsInterpolationSamplingType}\n * @constant\n */\nconst InterpolationSamplingType = {\n\tPERSPECTIVE: 'perspective',\n\tLINEAR: 'linear',\n\tFLAT: 'flat'\n};\n\n/**\n * Represents the different interpolation sampling modes.\n *\n * @type {ConstantsInterpolationSamplingMode}\n * @constant\n */\nconst InterpolationSamplingMode = {\n\tNORMAL: 'normal',\n\tCENTROID: 'centroid',\n\tSAMPLE: 'sample',\n\tFIRST: 'first',\n\tEITHER: 'either'\n};\n\n/**\n * This type represents mouse buttons and interaction types in context of controls.\n *\n * @typedef {Object} ConstantsMouse\n * @property {number} MIDDLE - The left mouse button.\n * @property {number} LEFT - The middle mouse button.\n * @property {number} RIGHT - The right mouse button.\n * @property {number} ROTATE - A rotate interaction.\n * @property {number} DOLLY - A dolly interaction.\n * @property {number} PAN - A pan interaction.\n **/\n\n/**\n * This type represents touch interaction types in context of controls.\n *\n * @typedef {Object} ConstantsTouch\n * @property {number} ROTATE - A rotate interaction.\n * @property {number} PAN - A pan interaction.\n * @property {number} DOLLY_PAN - The dolly-pan interaction.\n * @property {number} DOLLY_ROTATE - A dolly-rotate interaction.\n **/\n\n/**\n * This type represents the different timestamp query types.\n *\n * @typedef {Object} ConstantsTimestampQuery\n * @property {string} COMPUTE - A `compute` timestamp query.\n * @property {string} RENDER - A `render` timestamp query.\n **/\n\n/**\n * Represents the different interpolation sampling types.\n *\n * @typedef {Object} ConstantsInterpolationSamplingType\n * @property {string} PERSPECTIVE - Perspective-correct interpolation.\n * @property {string} LINEAR - Linear interpolation.\n * @property {string} FLAT - Flat interpolation.\n */\n\n/**\n * Represents the different interpolation sampling modes.\n *\n * @typedef {Object} ConstantsInterpolationSamplingMode\n * @property {string} NORMAL - Normal sampling mode.\n * @property {string} CENTROID - Centroid sampling mode.\n * @property {string} SAMPLE - Sample-specific sampling mode.\n * @property {string} FIRST - Flat interpolation using the first vertex.\n * @property {string} EITHER - Flat interpolation using either vertex.\n */\n\n/**\n * This modules allows to dispatch event objects on custom JavaScript objects.\n *\n * Main repository: [eventdispatcher.js]{@link https://github.com/mrdoob/eventdispatcher.js/}\n *\n * Code Example:\n * ```js\n * class Car extends EventDispatcher {\n * \tstart() {\n *\t\tthis.dispatchEvent( { type: 'start', message: 'vroom vroom!' } );\n *\t}\n *};\n *\n * // Using events with the custom object\n * const car = new Car();\n * car.addEventListener( 'start', function ( event ) {\n * \talert( event.message );\n * } );\n *\n * car.start();\n * ```\n */\nclass EventDispatcher {\n\n\t/**\n\t * Adds the given event listener to the given event type.\n\t *\n\t * @param {string} type - The type of event to listen to.\n\t * @param {Function} listener - The function that gets called when the event is fired.\n\t */\n\taddEventListener( type, listener ) {\n\n\t\tif ( this._listeners === undefined ) this._listeners = {};\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners[ type ] === undefined ) {\n\n\t\t\tlisteners[ type ] = [];\n\n\t\t}\n\n\t\tif ( listeners[ type ].indexOf( listener ) === -1 ) {\n\n\t\t\tlisteners[ type ].push( listener );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns `true` if the given event listener has been added to the given event type.\n\t *\n\t * @param {string} type - The type of event.\n\t * @param {Function} listener - The listener to check.\n\t * @return {boolean} Whether the given event listener has been added to the given event type.\n\t */\n\thasEventListener( type, listener ) {\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners === undefined ) return false;\n\n\t\treturn listeners[ type ] !== undefined && listeners[ type ].indexOf( listener ) !== -1;\n\n\t}\n\n\t/**\n\t * Removes the given event listener from the given event type.\n\t *\n\t * @param {string} type - The type of event.\n\t * @param {Function} listener - The listener to remove.\n\t */\n\tremoveEventListener( type, listener ) {\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners === undefined ) return;\n\n\t\tconst listenerArray = listeners[ type ];\n\n\t\tif ( listenerArray !== undefined ) {\n\n\t\t\tconst index = listenerArray.indexOf( listener );\n\n\t\t\tif ( index !== -1 ) {\n\n\t\t\t\tlistenerArray.splice( index, 1 );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Dispatches an event object.\n\t *\n\t * @param {Object} event - The event that gets fired.\n\t */\n\tdispatchEvent( event ) {\n\n\t\tconst listeners = this._listeners;\n\n\t\tif ( listeners === undefined ) return;\n\n\t\tconst listenerArray = listeners[ event.type ];\n\n\t\tif ( listenerArray !== undefined ) {\n\n\t\t\tevent.target = this;\n\n\t\t\t// Make a copy, in case listeners are removed while iterating.\n\t\t\tconst array = listenerArray.slice( 0 );\n\n\t\t\tfor ( let i = 0, l = array.length; i < l; i ++ ) {\n\n\t\t\t\tarray[ i ].call( this, event );\n\n\t\t\t}\n\n\t\t\tevent.target = null;\n\n\t\t}\n\n\t}\n\n}\n\nconst _lut = [ '00', '01', '02', '03', '04', '05', '06', '07', '08', '09', '0a', '0b', '0c', '0d', '0e', '0f', '10', '11', '12', '13', '14', '15', '16', '17', '18', '19', '1a', '1b', '1c', '1d', '1e', '1f', '20', '21', '22', '23', '24', '25', '26', '27', '28', '29', '2a', '2b', '2c', '2d', '2e', '2f', '30', '31', '32', '33', '34', '35', '36', '37', '38', '39', '3a', '3b', '3c', '3d', '3e', '3f', '40', '41', '42', '43', '44', '45', '46', '47', '48', '49', '4a', '4b', '4c', '4d', '4e', '4f', '50', '51', '52', '53', '54', '55', '56', '57', '58', '59', '5a', '5b', '5c', '5d', '5e', '5f', '60', '61', '62', '63', '64', '65', '66', '67', '68', '69', '6a', '6b', '6c', '6d', '6e', '6f', '70', '71', '72', '73', '74', '75', '76', '77', '78', '79', '7a', '7b', '7c', '7d', '7e', '7f', '80', '81', '82', '83', '84', '85', '86', '87', '88', '89', '8a', '8b', '8c', '8d', '8e', '8f', '90', '91', '92', '93', '94', '95', '96', '97', '98', '99', '9a', '9b', '9c', '9d', '9e', '9f', 'a0', 'a1', 'a2', 'a3', 'a4', 'a5', 'a6', 'a7', 'a8', 'a9', 'aa', 'ab', 'ac', 'ad', 'ae', 'af', 'b0', 'b1', 'b2', 'b3', 'b4', 'b5', 'b6', 'b7', 'b8', 'b9', 'ba', 'bb', 'bc', 'bd', 'be', 'bf', 'c0', 'c1', 'c2', 'c3', 'c4', 'c5', 'c6', 'c7', 'c8', 'c9', 'ca', 'cb', 'cc', 'cd', 'ce', 'cf', 'd0', 'd1', 'd2', 'd3', 'd4', 'd5', 'd6', 'd7', 'd8', 'd9', 'da', 'db', 'dc', 'dd', 'de', 'df', 'e0', 'e1', 'e2', 'e3', 'e4', 'e5', 'e6', 'e7', 'e8', 'e9', 'ea', 'eb', 'ec', 'ed', 'ee', 'ef', 'f0', 'f1', 'f2', 'f3', 'f4', 'f5', 'f6', 'f7', 'f8', 'f9', 'fa', 'fb', 'fc', 'fd', 'fe', 'ff' ];\n\nlet _seed = 1234567;\n\n\nconst DEG2RAD = Math.PI / 180;\nconst RAD2DEG = 180 / Math.PI;\n\n/**\n * Generate a [UUID]{@link https://en.wikipedia.org/wiki/Universally_unique_identifier}\n * (universally unique identifier).\n *\n * @return {string} The UUID.\n */\nfunction generateUUID() {\n\n\t// http://stackoverflow.com/questions/105034/how-to-create-a-guid-uuid-in-javascript/21963136#21963136\n\n\tconst d0 = Math.random() * 0xffffffff | 0;\n\tconst d1 = Math.random() * 0xffffffff | 0;\n\tconst d2 = Math.random() * 0xffffffff | 0;\n\tconst d3 = Math.random() * 0xffffffff | 0;\n\tconst uuid = _lut[ d0 & 0xff ] + _lut[ d0 >> 8 & 0xff ] + _lut[ d0 >> 16 & 0xff ] + _lut[ d0 >> 24 & 0xff ] + '-' +\n\t\t\t_lut[ d1 & 0xff ] + _lut[ d1 >> 8 & 0xff ] + '-' + _lut[ d1 >> 16 & 0x0f | 0x40 ] + _lut[ d1 >> 24 & 0xff ] + '-' +\n\t\t\t_lut[ d2 & 0x3f | 0x80 ] + _lut[ d2 >> 8 & 0xff ] + '-' + _lut[ d2 >> 16 & 0xff ] + _lut[ d2 >> 24 & 0xff ] +\n\t\t\t_lut[ d3 & 0xff ] + _lut[ d3 >> 8 & 0xff ] + _lut[ d3 >> 16 & 0xff ] + _lut[ d3 >> 24 & 0xff ];\n\n\t// .toLowerCase() here flattens concatenated strings to save heap memory space.\n\treturn uuid.toLowerCase();\n\n}\n\n/**\n * Clamps the given value between min and max.\n *\n * @param {number} value - The value to clamp.\n * @param {number} min - The min value.\n * @param {number} max - The max value.\n * @return {number} The clamped value.\n */\nfunction clamp( value, min, max ) {\n\n\treturn Math.max( min, Math.min( max, value ) );\n\n}\n\n/**\n * Computes the Euclidean modulo of the given parameters that\n * is `( ( n % m ) + m ) % m`.\n *\n * @param {number} n - The first parameter.\n * @param {number} m - The second parameter.\n * @return {number} The Euclidean modulo.\n */\nfunction euclideanModulo( n, m ) {\n\n\t// https://en.wikipedia.org/wiki/Modulo_operation\n\n\treturn ( ( n % m ) + m ) % m;\n\n}\n\n/**\n * Performs a linear mapping from range `` to range ``\n * for the given value.\n *\n * @param {number} x - The value to be mapped.\n * @param {number} a1 - Minimum value for range A.\n * @param {number} a2 - Maximum value for range A.\n * @param {number} b1 - Minimum value for range B.\n * @param {number} b2 - Maximum value for range B.\n * @return {number} The mapped value.\n */\nfunction mapLinear( x, a1, a2, b1, b2 ) {\n\n\treturn b1 + ( x - a1 ) * ( b2 - b1 ) / ( a2 - a1 );\n\n}\n\n/**\n * Returns the percentage in the closed interval `[0, 1]` of the given value\n * between the start and end point.\n *\n * @param {number} x - The start point\n * @param {number} y - The end point.\n * @param {number} value - A value between start and end.\n * @return {number} The interpolation factor.\n */\nfunction inverseLerp( x, y, value ) {\n\n\t// https://www.gamedev.net/tutorials/programming/general-and-gameplay-programming/inverse-lerp-a-super-useful-yet-often-overlooked-function-r5230/\n\n\tif ( x !== y ) {\n\n\t\treturn ( value - x ) / ( y - x );\n\n\t} else {\n\n\t\treturn 0;\n\n\t}\n\n}\n\n/**\n * Returns a value linearly interpolated from two known points based on the given interval -\n * `t = 0` will return `x` and `t = 1` will return `y`.\n *\n * @param {number} x - The start point\n * @param {number} y - The end point.\n * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n * @return {number} The interpolated value.\n */\nfunction lerp( x, y, t ) {\n\n\treturn ( 1 - t ) * x + t * y;\n\n}\n\n/**\n * Smoothly interpolate a number from `x` to `y` in a spring-like manner using a delta\n * time to maintain frame rate independent movement. For details, see\n * [Frame rate independent damping using lerp]{@link http://www.rorydriscoll.com/2016/03/07/frame-rate-independent-damping-using-lerp/}.\n *\n * @param {number} x - The current point.\n * @param {number} y - The target point.\n * @param {number} lambda - A higher lambda value will make the movement more sudden,\n * and a lower value will make the movement more gradual.\n * @param {number} dt - Delta time in seconds.\n * @return {number} The interpolated value.\n */\nfunction damp( x, y, lambda, dt ) {\n\n\treturn lerp( x, y, 1 - Math.exp( - lambda * dt ) );\n\n}\n\n/**\n * Returns a value that alternates between `0` and the given `length` parameter.\n *\n * @param {number} x - The value to pingpong.\n * @param {number} [length=1] - The positive value the function will pingpong to.\n * @return {number} The alternated value.\n */\nfunction pingpong( x, length = 1 ) {\n\n\t// https://www.desmos.com/calculator/vcsjnyz7x4\n\n\treturn length - Math.abs( euclideanModulo( x, length * 2 ) - length );\n\n}\n\n/**\n * Returns a value in the range `[0,1]` that represents the percentage that `x` has\n * moved between `min` and `max`, but smoothed or slowed down the closer `x` is to\n * the `min` and `max`.\n *\n * See [Smoothstep]{@link http://en.wikipedia.org/wiki/Smoothstep} for more details.\n *\n * @param {number} x - The value to evaluate based on its position between min and max.\n * @param {number} min - The min value. Any x value below min will be `0`.\n * @param {number} max - The max value. Any x value above max will be `1`.\n * @return {number} The alternated value.\n */\nfunction smoothstep( x, min, max ) {\n\n\tif ( x <= min ) return 0;\n\tif ( x >= max ) return 1;\n\n\tx = ( x - min ) / ( max - min );\n\n\treturn x * x * ( 3 - 2 * x );\n\n}\n\n/**\n * A [variation on smoothstep]{@link https://en.wikipedia.org/wiki/Smoothstep#Variations}\n * that has zero 1st and 2nd order derivatives at x=0 and x=1.\n *\n * @param {number} x - The value to evaluate based on its position between min and max.\n * @param {number} min - The min value. Any x value below min will be `0`.\n * @param {number} max - The max value. Any x value above max will be `1`.\n * @return {number} The alternated value.\n */\nfunction smootherstep( x, min, max ) {\n\n\tif ( x <= min ) return 0;\n\tif ( x >= max ) return 1;\n\n\tx = ( x - min ) / ( max - min );\n\n\treturn x * x * x * ( x * ( x * 6 - 15 ) + 10 );\n\n}\n\n/**\n * Returns a random integer from `` interval.\n *\n * @param {number} low - The lower value boundary.\n * @param {number} high - The upper value boundary\n * @return {number} A random integer.\n */\nfunction randInt( low, high ) {\n\n\treturn low + Math.floor( Math.random() * ( high - low + 1 ) );\n\n}\n\n/**\n * Returns a random float from `` interval.\n *\n * @param {number} low - The lower value boundary.\n * @param {number} high - The upper value boundary\n * @return {number} A random float.\n */\nfunction randFloat( low, high ) {\n\n\treturn low + Math.random() * ( high - low );\n\n}\n\n/**\n * Returns a random integer from `<-range/2, range/2>` interval.\n *\n * @param {number} range - Defines the value range.\n * @return {number} A random float.\n */\nfunction randFloatSpread( range ) {\n\n\treturn range * ( 0.5 - Math.random() );\n\n}\n\n/**\n * Returns a deterministic pseudo-random float in the interval `[0, 1]`.\n *\n * @param {number} [s] - The integer seed.\n * @return {number} A random float.\n */\nfunction seededRandom( s ) {\n\n\tif ( s !== undefined ) _seed = s;\n\n\t// Mulberry32 generator\n\n\tlet t = _seed += 0x6D2B79F5;\n\n\tt = Math.imul( t ^ t >>> 15, t | 1 );\n\n\tt ^= t + Math.imul( t ^ t >>> 7, t | 61 );\n\n\treturn ( ( t ^ t >>> 14 ) >>> 0 ) / 4294967296;\n\n}\n\n/**\n * Converts degrees to radians.\n *\n * @param {number} degrees - A value in degrees.\n * @return {number} The converted value in radians.\n */\nfunction degToRad( degrees ) {\n\n\treturn degrees * DEG2RAD;\n\n}\n\n/**\n * Converts radians to degrees.\n *\n * @param {number} radians - A value in radians.\n * @return {number} The converted value in degrees.\n */\nfunction radToDeg( radians ) {\n\n\treturn radians * RAD2DEG;\n\n}\n\n/**\n * Returns `true` if the given number is a power of two.\n *\n * @param {number} value - The value to check.\n * @return {boolean} Whether the given number is a power of two or not.\n */\nfunction isPowerOfTwo( value ) {\n\n\treturn ( value & ( value - 1 ) ) === 0 && value !== 0;\n\n}\n\n/**\n * Returns the smallest power of two that is greater than or equal to the given number.\n *\n * @param {number} value - The value to find a POT for.\n * @return {number} The smallest power of two that is greater than or equal to the given number.\n */\nfunction ceilPowerOfTwo( value ) {\n\n\treturn Math.pow( 2, Math.ceil( Math.log( value ) / Math.LN2 ) );\n\n}\n\n/**\n * Returns the largest power of two that is less than or equal to the given number.\n *\n * @param {number} value - The value to find a POT for.\n * @return {number} The largest power of two that is less than or equal to the given number.\n */\nfunction floorPowerOfTwo( value ) {\n\n\treturn Math.pow( 2, Math.floor( Math.log( value ) / Math.LN2 ) );\n\n}\n\n/**\n * Sets the given quaternion from the [Intrinsic Proper Euler Angles]{@link https://en.wikipedia.org/wiki/Euler_angles}\n * defined by the given angles and order.\n *\n * Rotations are applied to the axes in the order specified by order:\n * rotation by angle `a` is applied first, then by angle `b`, then by angle `c`.\n *\n * @param {Quaternion} q - The quaternion to set.\n * @param {number} a - The rotation applied to the first axis, in radians.\n * @param {number} b - The rotation applied to the second axis, in radians.\n * @param {number} c - The rotation applied to the third axis, in radians.\n * @param {('XYX'|'XZX'|'YXY'|'YZY'|'ZXZ'|'ZYZ')} order - A string specifying the axes order.\n */\nfunction setQuaternionFromProperEuler( q, a, b, c, order ) {\n\n\tconst cos = Math.cos;\n\tconst sin = Math.sin;\n\n\tconst c2 = cos( b / 2 );\n\tconst s2 = sin( b / 2 );\n\n\tconst c13 = cos( ( a + c ) / 2 );\n\tconst s13 = sin( ( a + c ) / 2 );\n\n\tconst c1_3 = cos( ( a - c ) / 2 );\n\tconst s1_3 = sin( ( a - c ) / 2 );\n\n\tconst c3_1 = cos( ( c - a ) / 2 );\n\tconst s3_1 = sin( ( c - a ) / 2 );\n\n\tswitch ( order ) {\n\n\t\tcase 'XYX':\n\t\t\tq.set( c2 * s13, s2 * c1_3, s2 * s1_3, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'YZY':\n\t\t\tq.set( s2 * s1_3, c2 * s13, s2 * c1_3, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'ZXZ':\n\t\t\tq.set( s2 * c1_3, s2 * s1_3, c2 * s13, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'XZX':\n\t\t\tq.set( c2 * s13, s2 * s3_1, s2 * c3_1, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'YXY':\n\t\t\tq.set( s2 * c3_1, c2 * s13, s2 * s3_1, c2 * c13 );\n\t\t\tbreak;\n\n\t\tcase 'ZYZ':\n\t\t\tq.set( s2 * s3_1, s2 * c3_1, c2 * s13, c2 * c13 );\n\t\t\tbreak;\n\n\t\tdefault:\n\t\t\tconsole.warn( 'THREE.MathUtils: .setQuaternionFromProperEuler() encountered an unknown order: ' + order );\n\n\t}\n\n}\n\n/**\n * Denormalizes the given value according to the given typed array.\n *\n * @param {number} value - The value to denormalize.\n * @param {TypedArray} array - The typed array that defines the data type of the value.\n * @return {number} The denormalize (float) value in the range `[0,1]`.\n */\nfunction denormalize( value, array ) {\n\n\tswitch ( array.constructor ) {\n\n\t\tcase Float32Array:\n\n\t\t\treturn value;\n\n\t\tcase Uint32Array:\n\n\t\t\treturn value / 4294967295.0;\n\n\t\tcase Uint16Array:\n\n\t\t\treturn value / 65535.0;\n\n\t\tcase Uint8Array:\n\n\t\t\treturn value / 255.0;\n\n\t\tcase Int32Array:\n\n\t\t\treturn Math.max( value / 2147483647.0, -1 );\n\n\t\tcase Int16Array:\n\n\t\t\treturn Math.max( value / 32767.0, -1 );\n\n\t\tcase Int8Array:\n\n\t\t\treturn Math.max( value / 127.0, -1 );\n\n\t\tdefault:\n\n\t\t\tthrow new Error( 'Invalid component type.' );\n\n\t}\n\n}\n\n/**\n * Normalizes the given value according to the given typed array.\n *\n * @param {number} value - The float value in the range `[0,1]` to normalize.\n * @param {TypedArray} array - The typed array that defines the data type of the value.\n * @return {number} The normalize value.\n */\nfunction normalize( value, array ) {\n\n\tswitch ( array.constructor ) {\n\n\t\tcase Float32Array:\n\n\t\t\treturn value;\n\n\t\tcase Uint32Array:\n\n\t\t\treturn Math.round( value * 4294967295.0 );\n\n\t\tcase Uint16Array:\n\n\t\t\treturn Math.round( value * 65535.0 );\n\n\t\tcase Uint8Array:\n\n\t\t\treturn Math.round( value * 255.0 );\n\n\t\tcase Int32Array:\n\n\t\t\treturn Math.round( value * 2147483647.0 );\n\n\t\tcase Int16Array:\n\n\t\t\treturn Math.round( value * 32767.0 );\n\n\t\tcase Int8Array:\n\n\t\t\treturn Math.round( value * 127.0 );\n\n\t\tdefault:\n\n\t\t\tthrow new Error( 'Invalid component type.' );\n\n\t}\n\n}\n\n/**\n * @class\n * @classdesc A collection of math utility functions.\n * @hideconstructor\n */\nconst MathUtils = {\n\tDEG2RAD: DEG2RAD,\n\tRAD2DEG: RAD2DEG,\n\t/**\n\t * Generate a [UUID]{@link https://en.wikipedia.org/wiki/Universally_unique_identifier}\n\t * (universally unique identifier).\n\t *\n\t * @static\n\t * @method\n\t * @return {string} The UUID.\n\t */\n\tgenerateUUID: generateUUID,\n\t/**\n\t * Clamps the given value between min and max.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to clamp.\n\t * @param {number} min - The min value.\n\t * @param {number} max - The max value.\n\t * @return {number} The clamped value.\n\t */\n\tclamp: clamp,\n\t/**\n\t * Computes the Euclidean modulo of the given parameters that\n\t * is `( ( n % m ) + m ) % m`.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} n - The first parameter.\n\t * @param {number} m - The second parameter.\n\t * @return {number} The Euclidean modulo.\n\t */\n\teuclideanModulo: euclideanModulo,\n\t/**\n\t * Performs a linear mapping from range `` to range ``\n\t * for the given value.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to be mapped.\n\t * @param {number} a1 - Minimum value for range A.\n\t * @param {number} a2 - Maximum value for range A.\n\t * @param {number} b1 - Minimum value for range B.\n\t * @param {number} b2 - Maximum value for range B.\n\t * @return {number} The mapped value.\n\t */\n\tmapLinear: mapLinear,\n\t/**\n\t * Returns the percentage in the closed interval `[0, 1]` of the given value\n\t * between the start and end point.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The start point\n\t * @param {number} y - The end point.\n\t * @param {number} value - A value between start and end.\n\t * @return {number} The interpolation factor.\n\t */\n\tinverseLerp: inverseLerp,\n\t/**\n\t * Returns a value linearly interpolated from two known points based on the given interval -\n\t * `t = 0` will return `x` and `t = 1` will return `y`.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The start point\n\t * @param {number} y - The end point.\n\t * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n\t * @return {number} The interpolated value.\n\t */\n\tlerp: lerp,\n\t/**\n\t * Smoothly interpolate a number from `x` to `y` in a spring-like manner using a delta\n\t * time to maintain frame rate independent movement. For details, see\n\t * [Frame rate independent damping using lerp]{@link http://www.rorydriscoll.com/2016/03/07/frame-rate-independent-damping-using-lerp/}.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The current point.\n\t * @param {number} y - The target point.\n\t * @param {number} lambda - A higher lambda value will make the movement more sudden,\n\t * and a lower value will make the movement more gradual.\n\t * @param {number} dt - Delta time in seconds.\n\t * @return {number} The interpolated value.\n\t */\n\tdamp: damp,\n\t/**\n\t * Returns a value that alternates between `0` and the given `length` parameter.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to pingpong.\n\t * @param {number} [length=1] - The positive value the function will pingpong to.\n\t * @return {number} The alternated value.\n\t */\n\tpingpong: pingpong,\n\t/**\n\t * Returns a value in the range `[0,1]` that represents the percentage that `x` has\n\t * moved between `min` and `max`, but smoothed or slowed down the closer `x` is to\n\t * the `min` and `max`.\n\t *\n\t * See [Smoothstep]{@link http://en.wikipedia.org/wiki/Smoothstep} for more details.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to evaluate based on its position between min and max.\n\t * @param {number} min - The min value. Any x value below min will be `0`.\n\t * @param {number} max - The max value. Any x value above max will be `1`.\n\t * @return {number} The alternated value.\n\t */\n\tsmoothstep: smoothstep,\n\t/**\n\t * A [variation on smoothstep]{@link https://en.wikipedia.org/wiki/Smoothstep#Variations}\n\t * that has zero 1st and 2nd order derivatives at x=0 and x=1.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} x - The value to evaluate based on its position between min and max.\n\t * @param {number} min - The min value. Any x value below min will be `0`.\n\t * @param {number} max - The max value. Any x value above max will be `1`.\n\t * @return {number} The alternated value.\n\t */\n\tsmootherstep: smootherstep,\n\t/**\n\t * Returns a random integer from `` interval.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} low - The lower value boundary.\n\t * @param {number} high - The upper value boundary\n\t * @return {number} A random integer.\n\t */\n\trandInt: randInt,\n\t/**\n\t * Returns a random float from `` interval.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} low - The lower value boundary.\n\t * @param {number} high - The upper value boundary\n\t * @return {number} A random float.\n\t */\n\trandFloat: randFloat,\n\t/**\n\t * Returns a random integer from `<-range/2, range/2>` interval.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} range - Defines the value range.\n\t * @return {number} A random float.\n\t */\n\trandFloatSpread: randFloatSpread,\n\t/**\n\t * Returns a deterministic pseudo-random float in the interval `[0, 1]`.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} [s] - The integer seed.\n\t * @return {number} A random float.\n\t */\n\tseededRandom: seededRandom,\n\t/**\n\t * Converts degrees to radians.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} degrees - A value in degrees.\n\t * @return {number} The converted value in radians.\n\t */\n\tdegToRad: degToRad,\n\t/**\n\t * Converts radians to degrees.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} radians - A value in radians.\n\t * @return {number} The converted value in degrees.\n\t */\n\tradToDeg: radToDeg,\n\t/**\n\t * Returns `true` if the given number is a power of two.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to check.\n\t * @return {boolean} Whether the given number is a power of two or not.\n\t */\n\tisPowerOfTwo: isPowerOfTwo,\n\t/**\n\t * Returns the smallest power of two that is greater than or equal to the given number.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to find a POT for.\n\t * @return {number} The smallest power of two that is greater than or equal to the given number.\n\t */\n\tceilPowerOfTwo: ceilPowerOfTwo,\n\t/**\n\t * Returns the largest power of two that is less than or equal to the given number.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to find a POT for.\n\t * @return {number} The largest power of two that is less than or equal to the given number.\n\t */\n\tfloorPowerOfTwo: floorPowerOfTwo,\n\t/**\n\t * Sets the given quaternion from the [Intrinsic Proper Euler Angles]{@link https://en.wikipedia.org/wiki/Euler_angles}\n\t * defined by the given angles and order.\n\t *\n\t * Rotations are applied to the axes in the order specified by order:\n\t * rotation by angle `a` is applied first, then by angle `b`, then by angle `c`.\n\t *\n\t * @static\n\t * @method\n\t * @param {Quaternion} q - The quaternion to set.\n\t * @param {number} a - The rotation applied to the first axis, in radians.\n\t * @param {number} b - The rotation applied to the second axis, in radians.\n\t * @param {number} c - The rotation applied to the third axis, in radians.\n\t * @param {('XYX'|'XZX'|'YXY'|'YZY'|'ZXZ'|'ZYZ')} order - A string specifying the axes order.\n\t */\n\tsetQuaternionFromProperEuler: setQuaternionFromProperEuler,\n\t/**\n\t * Normalizes the given value according to the given typed array.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The float value in the range `[0,1]` to normalize.\n\t * @param {TypedArray} array - The typed array that defines the data type of the value.\n\t * @return {number} The normalize value.\n\t */\n\tnormalize: normalize,\n\t/**\n\t * Denormalizes the given value according to the given typed array.\n\t *\n\t * @static\n\t * @method\n\t * @param {number} value - The value to denormalize.\n\t * @param {TypedArray} array - The typed array that defines the data type of the value.\n\t * @return {number} The denormalize (float) value in the range `[0,1]`.\n\t */\n\tdenormalize: denormalize\n};\n\n/**\n * Class representing a 2D vector. A 2D vector is an ordered pair of numbers\n * (labeled x and y), which can be used to represent a number of things, such as:\n *\n * - A point in 2D space (i.e. a position on a plane).\n * - A direction and length across a plane. In three.js the length will\n * always be the Euclidean distance(straight-line distance) from `(0, 0)` to `(x, y)`\n * and the direction is also measured from `(0, 0)` towards `(x, y)`.\n * - Any arbitrary ordered pair of numbers.\n *\n * There are other things a 2D vector can be used to represent, such as\n * momentum vectors, complex numbers and so on, however these are the most\n * common uses in three.js.\n *\n * Iterating through a vector instance will yield its components `(x, y)` in\n * the corresponding order.\n * ```js\n * const a = new THREE.Vector2( 0, 1 );\n *\n * //no arguments; will be initialised to (0, 0)\n * const b = new THREE.Vector2( );\n *\n * const d = a.distanceTo( b );\n * ```\n */\nclass Vector2 {\n\n\t/**\n\t * Constructs a new 2D vector.\n\t *\n\t * @param {number} [x=0] - The x value of this vector.\n\t * @param {number} [y=0] - The y value of this vector.\n\t */\n\tconstructor( x = 0, y = 0 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tVector2.prototype.isVector2 = true;\n\n\t\t/**\n\t\t * The x value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.x = x;\n\n\t\t/**\n\t\t * The y value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.y = y;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector2#x}.\n\t *\n\t * @type {number}\n\t */\n\tget width() {\n\n\t\treturn this.x;\n\n\t}\n\n\tset width( value ) {\n\n\t\tthis.x = value;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector2#y}.\n\t *\n\t * @type {number}\n\t */\n\tget height() {\n\n\t\treturn this.y;\n\n\t}\n\n\tset height( value ) {\n\n\t\tthis.y = value;\n\n\t}\n\n\t/**\n\t * Sets the vector components.\n\t *\n\t * @param {number} x - The value of the x component.\n\t * @param {number} y - The value of the y component.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tset( x, y ) {\n\n\t\tthis.x = x;\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the same value.\n\t *\n\t * @param {number} scalar - The value to set for all vector components.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.x = scalar;\n\t\tthis.y = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's x component to the given value\n\t *\n\t * @param {number} x - The value to set.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetX( x ) {\n\n\t\tthis.x = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's y component to the given value\n\t *\n\t * @param {number} y - The value to set.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetY( y ) {\n\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Allows to set a vector component with an index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y.\n\t * @param {number} value - The value to set.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetComponent( index, value ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: this.x = value; break;\n\t\t\tcase 1: this.y = value; break;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the value of the vector component which matches the given index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y.\n\t * @return {number} A vector component value.\n\t */\n\tgetComponent( index ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: return this.x;\n\t\t\tcase 1: return this.y;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new vector with copied values from this instance.\n\t *\n\t * @return {Vector2} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.x, this.y );\n\n\t}\n\n\t/**\n\t * Copies the values of the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to copy.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tcopy( v ) {\n\n\t\tthis.x = v.x;\n\t\tthis.y = v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to add.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tadd( v ) {\n\n\t\tthis.x += v.x;\n\t\tthis.y += v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to all components of this instance.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.x += s;\n\t\tthis.y += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector2} a - The first vector.\n\t * @param {Vector2} b - The second vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\taddVectors( a, b ) {\n\n\t\tthis.x = a.x + b.x;\n\t\tthis.y = a.y + b.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector scaled by the given factor to this instance.\n\t *\n\t * @param {Vector2} v - The vector.\n\t * @param {number} s - The factor that scales `v`.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\taddScaledVector( v, s ) {\n\n\t\tthis.x += v.x * s;\n\t\tthis.y += v.y * s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vector from this instance.\n\t *\n\t * @param {Vector2} v - The vector to subtract.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsub( v ) {\n\n\t\tthis.x -= v.x;\n\t\tthis.y -= v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given scalar value from all components of this instance.\n\t *\n\t * @param {number} s - The scalar to subtract.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsubScalar( s ) {\n\n\t\tthis.x -= s;\n\t\tthis.y -= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector2} a - The first vector.\n\t * @param {Vector2} b - The second vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsubVectors( a, b ) {\n\n\t\tthis.x = a.x - b.x;\n\t\tthis.y = a.y - b.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vector with this instance.\n\t *\n\t * @param {Vector2} v - The vector to multiply.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmultiply( v ) {\n\n\t\tthis.x *= v.x;\n\t\tthis.y *= v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with all components of this instance.\n\t *\n\t * @param {number} scalar - The scalar to multiply.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmultiplyScalar( scalar ) {\n\n\t\tthis.x *= scalar;\n\t\tthis.y *= scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this instance by the given vector.\n\t *\n\t * @param {Vector2} v - The vector to divide.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tdivide( v ) {\n\n\t\tthis.x /= v.x;\n\t\tthis.y /= v.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this vector by the given scalar.\n\t *\n\t * @param {number} scalar - The scalar to divide.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tdivideScalar( scalar ) {\n\n\t\treturn this.multiplyScalar( 1 / scalar );\n\n\t}\n\n\t/**\n\t * Multiplies this vector (with an implicit 1 as the 3rd component) by\n\t * the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix to apply.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tconst x = this.x, y = this.y;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 3 ] * y + e[ 6 ];\n\t\tthis.y = e[ 1 ] * x + e[ 4 ] * y + e[ 7 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y value is greater than the given vector's x or y\n\t * value, replace that value with the corresponding min value.\n\t *\n\t * @param {Vector2} v - The vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmin( v ) {\n\n\t\tthis.x = Math.min( this.x, v.x );\n\t\tthis.y = Math.min( this.y, v.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y value is less than the given vector's x or y\n\t * value, replace that value with the corresponding max value.\n\t *\n\t * @param {Vector2} v - The vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tmax( v ) {\n\n\t\tthis.x = Math.max( this.x, v.x );\n\t\tthis.y = Math.max( this.y, v.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y value is greater than the max vector's x or y\n\t * value, it is replaced by the corresponding value.\n\t * If this vector's x or y value is less than the min vector's x or y value,\n\t * it is replaced by the corresponding value.\n\t *\n\t * @param {Vector2} min - The minimum x and y values.\n\t * @param {Vector2} max - The maximum x and y values in the desired range.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tclamp( min, max ) {\n\n\t\t// assumes min < max, componentwise\n\n\t\tthis.x = clamp( this.x, min.x, max.x );\n\t\tthis.y = clamp( this.y, min.y, max.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x or y values are greater than the max value, they are\n\t * replaced by the max value.\n\t * If this vector's x or y values are less than the min value, they are\n\t * replaced by the min value.\n\t *\n\t * @param {number} minVal - The minimum value the components will be clamped to.\n\t * @param {number} maxVal - The maximum value the components will be clamped to.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tclampScalar( minVal, maxVal ) {\n\n\t\tthis.x = clamp( this.x, minVal, maxVal );\n\t\tthis.y = clamp( this.y, minVal, maxVal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's length is greater than the max value, it is replaced by\n\t * the max value.\n\t * If this vector's length is less than the min value, it is replaced by the\n\t * min value.\n\t *\n\t * @param {number} min - The minimum value the vector length will be clamped to.\n\t * @param {number} max - The maximum value the vector length will be clamped to.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tclampLength( min, max ) {\n\n\t\tconst length = this.length();\n\n\t\treturn this.divideScalar( length || 1 ).multiplyScalar( clamp( length, min, max ) );\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded down to the nearest integer value.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tfloor() {\n\n\t\tthis.x = Math.floor( this.x );\n\t\tthis.y = Math.floor( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded up to the nearest integer value.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tceil() {\n\n\t\tthis.x = Math.ceil( this.x );\n\t\tthis.y = Math.ceil( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded to the nearest integer value\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tround() {\n\n\t\tthis.x = Math.round( this.x );\n\t\tthis.y = Math.round( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded towards zero (up if negative,\n\t * down if positive) to an integer value.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\troundToZero() {\n\n\t\tthis.x = Math.trunc( this.x );\n\t\tthis.y = Math.trunc( this.y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this vector - i.e. sets x = -x and y = -y.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tnegate() {\n\n\t\tthis.x = - this.x;\n\t\tthis.y = - this.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of the given vector with this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this.x * v.x + this.y * v.y;\n\n\t}\n\n\t/**\n\t * Calculates the cross product of the given vector with this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the cross product with.\n\t * @return {number} The result of the cross product.\n\t */\n\tcross( v ) {\n\n\t\treturn this.x * v.y - this.y * v.x;\n\n\t}\n\n\t/**\n\t * Computes the square of the Euclidean length (straight-line length) from\n\t * (0, 0) to (x, y). If you are comparing the lengths of vectors, you should\n\t * compare the length squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @return {number} The square length of this vector.\n\t */\n\tlengthSq() {\n\n\t\treturn this.x * this.x + this.y * this.y;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) from (0, 0) to (x, y).\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this.x * this.x + this.y * this.y );\n\n\t}\n\n\t/**\n\t * Computes the Manhattan length of this vector.\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tmanhattanLength() {\n\n\t\treturn Math.abs( this.x ) + Math.abs( this.y );\n\n\t}\n\n\t/**\n\t * Converts this vector to a unit vector - that is, sets it equal to a vector\n\t * with the same direction as this one, but with a vector length of `1`.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tnormalize() {\n\n\t\treturn this.divideScalar( this.length() || 1 );\n\n\t}\n\n\t/**\n\t * Computes the angle in radians of this vector with respect to the positive x-axis.\n\t *\n\t * @return {number} The angle in radians.\n\t */\n\tangle() {\n\n\t\tconst angle = Math.atan2( - this.y, - this.x ) + Math.PI;\n\n\t\treturn angle;\n\n\t}\n\n\t/**\n\t * Returns the angle between the given vector and this instance in radians.\n\t *\n\t * @param {Vector2} v - The vector to compute the angle with.\n\t * @return {number} The angle in radians.\n\t */\n\tangleTo( v ) {\n\n\t\tconst denominator = Math.sqrt( this.lengthSq() * v.lengthSq() );\n\n\t\tif ( denominator === 0 ) return Math.PI / 2;\n\n\t\tconst theta = this.dot( v ) / denominator;\n\n\t\t// clamp, to handle numerical problems\n\n\t\treturn Math.acos( clamp( theta, -1, 1 ) );\n\n\t}\n\n\t/**\n\t * Computes the distance from the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the distance to.\n\t * @return {number} The distance.\n\t */\n\tdistanceTo( v ) {\n\n\t\treturn Math.sqrt( this.distanceToSquared( v ) );\n\n\t}\n\n\t/**\n\t * Computes the squared distance from the given vector to this instance.\n\t * If you are just comparing the distance with another distance, you should compare\n\t * the distance squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @param {Vector2} v - The vector to compute the squared distance to.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceToSquared( v ) {\n\n\t\tconst dx = this.x - v.x, dy = this.y - v.y;\n\t\treturn dx * dx + dy * dy;\n\n\t}\n\n\t/**\n\t * Computes the Manhattan distance from the given vector to this instance.\n\t *\n\t * @param {Vector2} v - The vector to compute the Manhattan distance to.\n\t * @return {number} The Manhattan distance.\n\t */\n\tmanhattanDistanceTo( v ) {\n\n\t\treturn Math.abs( this.x - v.x ) + Math.abs( this.y - v.y );\n\n\t}\n\n\t/**\n\t * Sets this vector to a vector with the same direction as this one, but\n\t * with the specified length.\n\t *\n\t * @param {number} length - The new length of this vector.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tsetLength( length ) {\n\n\t\treturn this.normalize().multiplyScalar( length );\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vector and this instance, where\n\t * alpha is the percent distance along the line - alpha = 0 will be this\n\t * vector, and alpha = 1 will be the given one.\n\t *\n\t * @param {Vector2} v - The vector to interpolate towards.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tlerp( v, alpha ) {\n\n\t\tthis.x += ( v.x - this.x ) * alpha;\n\t\tthis.y += ( v.y - this.y ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vectors, where alpha is the percent\n\t * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n\t * be the second one. The result is stored in this instance.\n\t *\n\t * @param {Vector2} v1 - The first vector.\n\t * @param {Vector2} v2 - The second vector.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tlerpVectors( v1, v2, alpha ) {\n\n\t\tthis.x = v1.x + ( v2.x - v1.x ) * alpha;\n\t\tthis.y = v1.y + ( v2.y - v1.y ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this vector is equal with the given one.\n\t *\n\t * @param {Vector2} v - The vector to test for equality.\n\t * @return {boolean} Whether this vector is equal with the given one.\n\t */\n\tequals( v ) {\n\n\t\treturn ( ( v.x === this.x ) && ( v.y === this.y ) );\n\n\t}\n\n\t/**\n\t * Sets this vector's x value to be `array[ offset ]` and y\n\t * value to be `array[ offset + 1 ]`.\n\t *\n\t * @param {Array} array - An array holding the vector component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.x = array[ offset ];\n\t\tthis.y = array[ offset + 1 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this vector to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the vector components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The vector components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.x;\n\t\tarray[ offset + 1 ] = this.y;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this vector from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.x = attribute.getX( index );\n\t\tthis.y = attribute.getY( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates this vector around the given center by the given angle.\n\t *\n\t * @param {Vector2} center - The point around which to rotate.\n\t * @param {number} angle - The angle to rotate, in radians.\n\t * @return {Vector2} A reference to this vector.\n\t */\n\trotateAround( center, angle ) {\n\n\t\tconst c = Math.cos( angle ), s = Math.sin( angle );\n\n\t\tconst x = this.x - center.x;\n\t\tconst y = this.y - center.y;\n\n\t\tthis.x = x * c - y * s + center.x;\n\t\tthis.y = x * s + y * c + center.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets each component of this vector to a pseudo-random value between `0` and\n\t * `1`, excluding `1`.\n\t *\n\t * @return {Vector2} A reference to this vector.\n\t */\n\trandom() {\n\n\t\tthis.x = Math.random();\n\t\tthis.y = Math.random();\n\n\t\treturn this;\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.x;\n\t\tyield this.y;\n\n\t}\n\n}\n\n/**\n * Class for representing a Quaternion. Quaternions are used in three.js to represent rotations.\n *\n * Iterating through a vector instance will yield its components `(x, y, z, w)` in\n * the corresponding order.\n *\n * Note that three.js expects Quaternions to be normalized.\n * ```js\n * const quaternion = new THREE.Quaternion();\n * quaternion.setFromAxisAngle( new THREE.Vector3( 0, 1, 0 ), Math.PI / 2 );\n *\n * const vector = new THREE.Vector3( 1, 0, 0 );\n * vector.applyQuaternion( quaternion );\n * ```\n */\nclass Quaternion {\n\n\t/**\n\t * Constructs a new quaternion.\n\t *\n\t * @param {number} [x=0] - The x value of this quaternion.\n\t * @param {number} [y=0] - The y value of this quaternion.\n\t * @param {number} [z=0] - The z value of this quaternion.\n\t * @param {number} [w=1] - The w value of this quaternion.\n\t */\n\tconstructor( x = 0, y = 0, z = 0, w = 1 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isQuaternion = true;\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._w = w;\n\n\t}\n\n\t/**\n\t * Interpolates between two quaternions via SLERP. This implementation assumes the\n\t * quaternion data are managed in flat arrays.\n\t *\n\t * @param {Array} dst - The destination array.\n\t * @param {number} dstOffset - An offset into the destination array.\n\t * @param {Array} src0 - The source array of the first quaternion.\n\t * @param {number} srcOffset0 - An offset into the first source array.\n\t * @param {Array} src1 - The source array of the second quaternion.\n\t * @param {number} srcOffset1 - An offset into the second source array.\n\t * @param {number} t - The interpolation factor in the range `[0,1]`.\n\t * @see {@link Quaternion#slerp}\n\t */\n\tstatic slerpFlat( dst, dstOffset, src0, srcOffset0, src1, srcOffset1, t ) {\n\n\t\t// fuzz-free, array-based Quaternion SLERP operation\n\n\t\tlet x0 = src0[ srcOffset0 + 0 ],\n\t\t\ty0 = src0[ srcOffset0 + 1 ],\n\t\t\tz0 = src0[ srcOffset0 + 2 ],\n\t\t\tw0 = src0[ srcOffset0 + 3 ];\n\n\t\tconst x1 = src1[ srcOffset1 + 0 ],\n\t\t\ty1 = src1[ srcOffset1 + 1 ],\n\t\t\tz1 = src1[ srcOffset1 + 2 ],\n\t\t\tw1 = src1[ srcOffset1 + 3 ];\n\n\t\tif ( t === 0 ) {\n\n\t\t\tdst[ dstOffset + 0 ] = x0;\n\t\t\tdst[ dstOffset + 1 ] = y0;\n\t\t\tdst[ dstOffset + 2 ] = z0;\n\t\t\tdst[ dstOffset + 3 ] = w0;\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( t === 1 ) {\n\n\t\t\tdst[ dstOffset + 0 ] = x1;\n\t\t\tdst[ dstOffset + 1 ] = y1;\n\t\t\tdst[ dstOffset + 2 ] = z1;\n\t\t\tdst[ dstOffset + 3 ] = w1;\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( w0 !== w1 || x0 !== x1 || y0 !== y1 || z0 !== z1 ) {\n\n\t\t\tlet s = 1 - t;\n\t\t\tconst cos = x0 * x1 + y0 * y1 + z0 * z1 + w0 * w1,\n\t\t\t\tdir = ( cos >= 0 ? 1 : -1 ),\n\t\t\t\tsqrSin = 1 - cos * cos;\n\n\t\t\t// Skip the Slerp for tiny steps to avoid numeric problems:\n\t\t\tif ( sqrSin > Number.EPSILON ) {\n\n\t\t\t\tconst sin = Math.sqrt( sqrSin ),\n\t\t\t\t\tlen = Math.atan2( sin, cos * dir );\n\n\t\t\t\ts = Math.sin( s * len ) / sin;\n\t\t\t\tt = Math.sin( t * len ) / sin;\n\n\t\t\t}\n\n\t\t\tconst tDir = t * dir;\n\n\t\t\tx0 = x0 * s + x1 * tDir;\n\t\t\ty0 = y0 * s + y1 * tDir;\n\t\t\tz0 = z0 * s + z1 * tDir;\n\t\t\tw0 = w0 * s + w1 * tDir;\n\n\t\t\t// Normalize in case we just did a lerp:\n\t\t\tif ( s === 1 - t ) {\n\n\t\t\t\tconst f = 1 / Math.sqrt( x0 * x0 + y0 * y0 + z0 * z0 + w0 * w0 );\n\n\t\t\t\tx0 *= f;\n\t\t\t\ty0 *= f;\n\t\t\t\tz0 *= f;\n\t\t\t\tw0 *= f;\n\n\t\t\t}\n\n\t\t}\n\n\t\tdst[ dstOffset ] = x0;\n\t\tdst[ dstOffset + 1 ] = y0;\n\t\tdst[ dstOffset + 2 ] = z0;\n\t\tdst[ dstOffset + 3 ] = w0;\n\n\t}\n\n\t/**\n\t * Multiplies two quaternions. This implementation assumes the quaternion data are managed\n\t * in flat arrays.\n\t *\n\t * @param {Array} dst - The destination array.\n\t * @param {number} dstOffset - An offset into the destination array.\n\t * @param {Array} src0 - The source array of the first quaternion.\n\t * @param {number} srcOffset0 - An offset into the first source array.\n\t * @param {Array} src1 - The source array of the second quaternion.\n\t * @param {number} srcOffset1 - An offset into the second source array.\n\t * @return {Array} The destination array.\n\t * @see {@link Quaternion#multiplyQuaternions}.\n\t */\n\tstatic multiplyQuaternionsFlat( dst, dstOffset, src0, srcOffset0, src1, srcOffset1 ) {\n\n\t\tconst x0 = src0[ srcOffset0 ];\n\t\tconst y0 = src0[ srcOffset0 + 1 ];\n\t\tconst z0 = src0[ srcOffset0 + 2 ];\n\t\tconst w0 = src0[ srcOffset0 + 3 ];\n\n\t\tconst x1 = src1[ srcOffset1 ];\n\t\tconst y1 = src1[ srcOffset1 + 1 ];\n\t\tconst z1 = src1[ srcOffset1 + 2 ];\n\t\tconst w1 = src1[ srcOffset1 + 3 ];\n\n\t\tdst[ dstOffset ] = x0 * w1 + w0 * x1 + y0 * z1 - z0 * y1;\n\t\tdst[ dstOffset + 1 ] = y0 * w1 + w0 * y1 + z0 * x1 - x0 * z1;\n\t\tdst[ dstOffset + 2 ] = z0 * w1 + w0 * z1 + x0 * y1 - y0 * x1;\n\t\tdst[ dstOffset + 3 ] = w0 * w1 - x0 * x1 - y0 * y1 - z0 * z1;\n\n\t\treturn dst;\n\n\t}\n\n\t/**\n\t * The x value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget x() {\n\n\t\treturn this._x;\n\n\t}\n\n\tset x( value ) {\n\n\t\tthis._x = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The y value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget y() {\n\n\t\treturn this._y;\n\n\t}\n\n\tset y( value ) {\n\n\t\tthis._y = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The z value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget z() {\n\n\t\treturn this._z;\n\n\t}\n\n\tset z( value ) {\n\n\t\tthis._z = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The w value of this quaternion.\n\t *\n\t * @type {number}\n\t * @default 1\n\t */\n\tget w() {\n\n\t\treturn this._w;\n\n\t}\n\n\tset w( value ) {\n\n\t\tthis._w = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * Sets the quaternion components.\n\t *\n\t * @param {number} x - The x value of this quaternion.\n\t * @param {number} y - The y value of this quaternion.\n\t * @param {number} z - The z value of this quaternion.\n\t * @param {number} w - The w value of this quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tset( x, y, z, w ) {\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._w = w;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new quaternion with copied values from this instance.\n\t *\n\t * @return {Quaternion} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this._x, this._y, this._z, this._w );\n\n\t}\n\n\t/**\n\t * Copies the values of the given quaternion to this instance.\n\t *\n\t * @param {Quaternion} quaternion - The quaternion to copy.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tcopy( quaternion ) {\n\n\t\tthis._x = quaternion.x;\n\t\tthis._y = quaternion.y;\n\t\tthis._z = quaternion.z;\n\t\tthis._w = quaternion.w;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion from the rotation specified by the given\n\t * Euler angles.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromEuler( euler, update = true ) {\n\n\t\tconst x = euler._x, y = euler._y, z = euler._z, order = euler._order;\n\n\t\t// http://www.mathworks.com/matlabcentral/fileexchange/\n\t\t// \t20696-function-to-convert-between-dcm-euler-angles-quaternions-and-euler-vectors/\n\t\t//\tcontent/SpinCalc.m\n\n\t\tconst cos = Math.cos;\n\t\tconst sin = Math.sin;\n\n\t\tconst c1 = cos( x / 2 );\n\t\tconst c2 = cos( y / 2 );\n\t\tconst c3 = cos( z / 2 );\n\n\t\tconst s1 = sin( x / 2 );\n\t\tconst s2 = sin( y / 2 );\n\t\tconst s3 = sin( z / 2 );\n\n\t\tswitch ( order ) {\n\n\t\t\tcase 'XYZ':\n\t\t\t\tthis._x = s1 * c2 * c3 + c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 - s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 + s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 - s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'YXZ':\n\t\t\t\tthis._x = s1 * c2 * c3 + c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 - s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 - s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 + s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZXY':\n\t\t\t\tthis._x = s1 * c2 * c3 - c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 + s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 + s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 - s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZYX':\n\t\t\t\tthis._x = s1 * c2 * c3 - c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 + s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 - s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 + s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'YZX':\n\t\t\t\tthis._x = s1 * c2 * c3 + c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 + s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 - s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 - s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tcase 'XZY':\n\t\t\t\tthis._x = s1 * c2 * c3 - c1 * s2 * s3;\n\t\t\t\tthis._y = c1 * s2 * c3 - s1 * c2 * s3;\n\t\t\t\tthis._z = c1 * c2 * s3 + s1 * s2 * c3;\n\t\t\t\tthis._w = c1 * c2 * c3 + s1 * s2 * s3;\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\t\t\t\tconsole.warn( 'THREE.Quaternion: .setFromEuler() encountered an unknown order: ' + order );\n\n\t\t}\n\n\t\tif ( update === true ) this._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion from the given axis and angle.\n\t *\n\t * @param {Vector3} axis - The normalized axis.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromAxisAngle( axis, angle ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/angleToQuaternion/index.htm\n\n\t\tconst halfAngle = angle / 2, s = Math.sin( halfAngle );\n\n\t\tthis._x = axis.x * s;\n\t\tthis._y = axis.y * s;\n\t\tthis._z = axis.z * s;\n\t\tthis._w = Math.cos( halfAngle );\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion from the given rotation matrix.\n\t *\n\t * @param {Matrix4} m - A 4x4 matrix of which the upper 3x3 of matrix is a pure rotation matrix (i.e. unscaled).\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromRotationMatrix( m ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/matrixToQuaternion/index.htm\n\n\t\t// assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled)\n\n\t\tconst te = m.elements,\n\n\t\t\tm11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ],\n\t\t\tm21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ],\n\t\t\tm31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ],\n\n\t\t\ttrace = m11 + m22 + m33;\n\n\t\tif ( trace > 0 ) {\n\n\t\t\tconst s = 0.5 / Math.sqrt( trace + 1.0 );\n\n\t\t\tthis._w = 0.25 / s;\n\t\t\tthis._x = ( m32 - m23 ) * s;\n\t\t\tthis._y = ( m13 - m31 ) * s;\n\t\t\tthis._z = ( m21 - m12 ) * s;\n\n\t\t} else if ( m11 > m22 && m11 > m33 ) {\n\n\t\t\tconst s = 2.0 * Math.sqrt( 1.0 + m11 - m22 - m33 );\n\n\t\t\tthis._w = ( m32 - m23 ) / s;\n\t\t\tthis._x = 0.25 * s;\n\t\t\tthis._y = ( m12 + m21 ) / s;\n\t\t\tthis._z = ( m13 + m31 ) / s;\n\n\t\t} else if ( m22 > m33 ) {\n\n\t\t\tconst s = 2.0 * Math.sqrt( 1.0 + m22 - m11 - m33 );\n\n\t\t\tthis._w = ( m13 - m31 ) / s;\n\t\t\tthis._x = ( m12 + m21 ) / s;\n\t\t\tthis._y = 0.25 * s;\n\t\t\tthis._z = ( m23 + m32 ) / s;\n\n\t\t} else {\n\n\t\t\tconst s = 2.0 * Math.sqrt( 1.0 + m33 - m11 - m22 );\n\n\t\t\tthis._w = ( m21 - m12 ) / s;\n\t\t\tthis._x = ( m13 + m31 ) / s;\n\t\t\tthis._y = ( m23 + m32 ) / s;\n\t\t\tthis._z = 0.25 * s;\n\n\t\t}\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion to the rotation required to rotate the direction vector\n\t * `vFrom` to the direction vector `vTo`.\n\t *\n\t * @param {Vector3} vFrom - The first (normalized) direction vector.\n\t * @param {Vector3} vTo - The second (normalized) direction vector.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tsetFromUnitVectors( vFrom, vTo ) {\n\n\t\t// assumes direction vectors vFrom and vTo are normalized\n\n\t\tlet r = vFrom.dot( vTo ) + 1;\n\n\t\tif ( r < 1e-8 ) { // the epsilon value has been discussed in #31286\n\n\t\t\t// vFrom and vTo point in opposite directions\n\n\t\t\tr = 0;\n\n\t\t\tif ( Math.abs( vFrom.x ) > Math.abs( vFrom.z ) ) {\n\n\t\t\t\tthis._x = - vFrom.y;\n\t\t\t\tthis._y = vFrom.x;\n\t\t\t\tthis._z = 0;\n\t\t\t\tthis._w = r;\n\n\t\t\t} else {\n\n\t\t\t\tthis._x = 0;\n\t\t\t\tthis._y = - vFrom.z;\n\t\t\t\tthis._z = vFrom.y;\n\t\t\t\tthis._w = r;\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\t// crossVectors( vFrom, vTo ); // inlined to avoid cyclic dependency on Vector3\n\n\t\t\tthis._x = vFrom.y * vTo.z - vFrom.z * vTo.y;\n\t\t\tthis._y = vFrom.z * vTo.x - vFrom.x * vTo.z;\n\t\t\tthis._z = vFrom.x * vTo.y - vFrom.y * vTo.x;\n\t\t\tthis._w = r;\n\n\t\t}\n\n\t\treturn this.normalize();\n\n\t}\n\n\t/**\n\t * Returns the angle between this quaternion and the given one in radians.\n\t *\n\t * @param {Quaternion} q - The quaternion to compute the angle with.\n\t * @return {number} The angle in radians.\n\t */\n\tangleTo( q ) {\n\n\t\treturn 2 * Math.acos( Math.abs( clamp( this.dot( q ), -1, 1 ) ) );\n\n\t}\n\n\t/**\n\t * Rotates this quaternion by a given angular step to the given quaternion.\n\t * The method ensures that the final quaternion will not overshoot `q`.\n\t *\n\t * @param {Quaternion} q - The target quaternion.\n\t * @param {number} step - The angular step in radians.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\trotateTowards( q, step ) {\n\n\t\tconst angle = this.angleTo( q );\n\n\t\tif ( angle === 0 ) return this;\n\n\t\tconst t = Math.min( 1, step / angle );\n\n\t\tthis.slerp( q, t );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this quaternion to the identity quaternion; that is, to the\n\t * quaternion that represents \"no rotation\".\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tidentity() {\n\n\t\treturn this.set( 0, 0, 0, 1 );\n\n\t}\n\n\t/**\n\t * Inverts this quaternion via {@link Quaternion#conjugate}. The\n\t * quaternion is assumed to have unit length.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tinvert() {\n\n\t\treturn this.conjugate();\n\n\t}\n\n\t/**\n\t * Returns the rotational conjugate of this quaternion. The conjugate of a\n\t * quaternion represents the same rotation in the opposite direction about\n\t * the rotational axis.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tconjugate() {\n\n\t\tthis._x *= -1;\n\t\tthis._y *= -1;\n\t\tthis._z *= -1;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of this quaternion and the given one.\n\t *\n\t * @param {Quaternion} v - The quaternion to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this._x * v._x + this._y * v._y + this._z * v._z + this._w * v._w;\n\n\t}\n\n\t/**\n\t * Computes the squared Euclidean length (straight-line length) of this quaternion,\n\t * considered as a 4 dimensional vector. This can be useful if you are comparing the\n\t * lengths of two quaternions, as this is a slightly more efficient calculation than\n\t * {@link Quaternion#length}.\n\t *\n\t * @return {number} The squared Euclidean length.\n\t */\n\tlengthSq() {\n\n\t\treturn this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) of this quaternion,\n\t * considered as a 4 dimensional vector.\n\t *\n\t * @return {number} The Euclidean length.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w );\n\n\t}\n\n\t/**\n\t * Normalizes this quaternion - that is, calculated the quaternion that performs\n\t * the same rotation as this one, but has a length equal to `1`.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tnormalize() {\n\n\t\tlet l = this.length();\n\n\t\tif ( l === 0 ) {\n\n\t\t\tthis._x = 0;\n\t\t\tthis._y = 0;\n\t\t\tthis._z = 0;\n\t\t\tthis._w = 1;\n\n\t\t} else {\n\n\t\t\tl = 1 / l;\n\n\t\t\tthis._x = this._x * l;\n\t\t\tthis._y = this._y * l;\n\t\t\tthis._z = this._z * l;\n\t\t\tthis._w = this._w * l;\n\n\t\t}\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies this quaternion by the given one.\n\t *\n\t * @param {Quaternion} q - The quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tmultiply( q ) {\n\n\t\treturn this.multiplyQuaternions( this, q );\n\n\t}\n\n\t/**\n\t * Pre-multiplies this quaternion by the given one.\n\t *\n\t * @param {Quaternion} q - The quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tpremultiply( q ) {\n\n\t\treturn this.multiplyQuaternions( q, this );\n\n\t}\n\n\t/**\n\t * Multiplies the given quaternions and stores the result in this instance.\n\t *\n\t * @param {Quaternion} a - The first quaternion.\n\t * @param {Quaternion} b - The second quaternion.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tmultiplyQuaternions( a, b ) {\n\n\t\t// from http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/code/index.htm\n\n\t\tconst qax = a._x, qay = a._y, qaz = a._z, qaw = a._w;\n\t\tconst qbx = b._x, qby = b._y, qbz = b._z, qbw = b._w;\n\n\t\tthis._x = qax * qbw + qaw * qbx + qay * qbz - qaz * qby;\n\t\tthis._y = qay * qbw + qaw * qby + qaz * qbx - qax * qbz;\n\t\tthis._z = qaz * qbw + qaw * qbz + qax * qby - qay * qbx;\n\t\tthis._w = qaw * qbw - qax * qbx - qay * qby - qaz * qbz;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs a spherical linear interpolation between quaternions.\n\t *\n\t * @param {Quaternion} qb - The target quaternion.\n\t * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tslerp( qb, t ) {\n\n\t\tif ( t === 0 ) return this;\n\t\tif ( t === 1 ) return this.copy( qb );\n\n\t\tconst x = this._x, y = this._y, z = this._z, w = this._w;\n\n\t\t// http://www.euclideanspace.com/maths/algebra/realNormedAlgebra/quaternions/slerp/\n\n\t\tlet cosHalfTheta = w * qb._w + x * qb._x + y * qb._y + z * qb._z;\n\n\t\tif ( cosHalfTheta < 0 ) {\n\n\t\t\tthis._w = - qb._w;\n\t\t\tthis._x = - qb._x;\n\t\t\tthis._y = - qb._y;\n\t\t\tthis._z = - qb._z;\n\n\t\t\tcosHalfTheta = - cosHalfTheta;\n\n\t\t} else {\n\n\t\t\tthis.copy( qb );\n\n\t\t}\n\n\t\tif ( cosHalfTheta >= 1.0 ) {\n\n\t\t\tthis._w = w;\n\t\t\tthis._x = x;\n\t\t\tthis._y = y;\n\t\t\tthis._z = z;\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst sqrSinHalfTheta = 1.0 - cosHalfTheta * cosHalfTheta;\n\n\t\tif ( sqrSinHalfTheta <= Number.EPSILON ) {\n\n\t\t\tconst s = 1 - t;\n\t\t\tthis._w = s * w + t * this._w;\n\t\t\tthis._x = s * x + t * this._x;\n\t\t\tthis._y = s * y + t * this._y;\n\t\t\tthis._z = s * z + t * this._z;\n\n\t\t\tthis.normalize(); // normalize calls _onChangeCallback()\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst sinHalfTheta = Math.sqrt( sqrSinHalfTheta );\n\t\tconst halfTheta = Math.atan2( sinHalfTheta, cosHalfTheta );\n\t\tconst ratioA = Math.sin( ( 1 - t ) * halfTheta ) / sinHalfTheta,\n\t\t\tratioB = Math.sin( t * halfTheta ) / sinHalfTheta;\n\n\t\tthis._w = ( w * ratioA + this._w * ratioB );\n\t\tthis._x = ( x * ratioA + this._x * ratioB );\n\t\tthis._y = ( y * ratioA + this._y * ratioB );\n\t\tthis._z = ( z * ratioA + this._z * ratioB );\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs a spherical linear interpolation between the given quaternions\n\t * and stores the result in this quaternion.\n\t *\n\t * @param {Quaternion} qa - The source quaternion.\n\t * @param {Quaternion} qb - The target quaternion.\n\t * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tslerpQuaternions( qa, qb, t ) {\n\n\t\treturn this.copy( qa ).slerp( qb, t );\n\n\t}\n\n\t/**\n\t * Sets this quaternion to a uniformly random, normalized quaternion.\n\t *\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\trandom() {\n\n\t\t// Ken Shoemake\n\t\t// Uniform random rotations\n\t\t// D. Kirk, editor, Graphics Gems III, pages 124-132. Academic Press, New York, 1992.\n\n\t\tconst theta1 = 2 * Math.PI * Math.random();\n\t\tconst theta2 = 2 * Math.PI * Math.random();\n\n\t\tconst x0 = Math.random();\n\t\tconst r1 = Math.sqrt( 1 - x0 );\n\t\tconst r2 = Math.sqrt( x0 );\n\n\t\treturn this.set(\n\t\t\tr1 * Math.sin( theta1 ),\n\t\t\tr1 * Math.cos( theta1 ),\n\t\t\tr2 * Math.sin( theta2 ),\n\t\t\tr2 * Math.cos( theta2 ),\n\t\t);\n\n\t}\n\n\t/**\n\t * Returns `true` if this quaternion is equal with the given one.\n\t *\n\t * @param {Quaternion} quaternion - The quaternion to test for equality.\n\t * @return {boolean} Whether this quaternion is equal with the given one.\n\t */\n\tequals( quaternion ) {\n\n\t\treturn ( quaternion._x === this._x ) && ( quaternion._y === this._y ) && ( quaternion._z === this._z ) && ( quaternion._w === this._w );\n\n\t}\n\n\t/**\n\t * Sets this quaternion's components from the given array.\n\t *\n\t * @param {Array} array - An array holding the quaternion component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis._x = array[ offset ];\n\t\tthis._y = array[ offset + 1 ];\n\t\tthis._z = array[ offset + 2 ];\n\t\tthis._w = array[ offset + 3 ];\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this quaternion to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the quaternion components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The quaternion components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this._x;\n\t\tarray[ offset + 1 ] = this._y;\n\t\tarray[ offset + 2 ] = this._z;\n\t\tarray[ offset + 3 ] = this._w;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this quaternion from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding quaternion data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Quaternion} A reference to this quaternion.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis._x = attribute.getX( index );\n\t\tthis._y = attribute.getY( index );\n\t\tthis._z = attribute.getZ( index );\n\t\tthis._w = attribute.getW( index );\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This methods defines the serialization result of this class. Returns the\n\t * numerical elements of this quaternion in an array of format `[x, y, z, w]`.\n\t *\n\t * @return {Array} The serialized quaternion.\n\t */\n\ttoJSON() {\n\n\t\treturn this.toArray();\n\n\t}\n\n\t_onChange( callback ) {\n\n\t\tthis._onChangeCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t_onChangeCallback() {}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this._x;\n\t\tyield this._y;\n\t\tyield this._z;\n\t\tyield this._w;\n\n\t}\n\n}\n\n/**\n * Class representing a 3D vector. A 3D vector is an ordered triplet of numbers\n * (labeled x, y and z), which can be used to represent a number of things, such as:\n *\n * - A point in 3D space.\n * - A direction and length in 3D space. In three.js the length will\n * always be the Euclidean distance(straight-line distance) from `(0, 0, 0)` to `(x, y, z)`\n * and the direction is also measured from `(0, 0, 0)` towards `(x, y, z)`.\n * - Any arbitrary ordered triplet of numbers.\n *\n * There are other things a 3D vector can be used to represent, such as\n * momentum vectors and so on, however these are the most\n * common uses in three.js.\n *\n * Iterating through a vector instance will yield its components `(x, y, z)` in\n * the corresponding order.\n * ```js\n * const a = new THREE.Vector3( 0, 1, 0 );\n *\n * //no arguments; will be initialised to (0, 0, 0)\n * const b = new THREE.Vector3( );\n *\n * const d = a.distanceTo( b );\n * ```\n */\nclass Vector3 {\n\n\t/**\n\t * Constructs a new 3D vector.\n\t *\n\t * @param {number} [x=0] - The x value of this vector.\n\t * @param {number} [y=0] - The y value of this vector.\n\t * @param {number} [z=0] - The z value of this vector.\n\t */\n\tconstructor( x = 0, y = 0, z = 0 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tVector3.prototype.isVector3 = true;\n\n\t\t/**\n\t\t * The x value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.x = x;\n\n\t\t/**\n\t\t * The y value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.y = y;\n\n\t\t/**\n\t\t * The z value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.z = z;\n\n\t}\n\n\t/**\n\t * Sets the vector components.\n\t *\n\t * @param {number} x - The value of the x component.\n\t * @param {number} y - The value of the y component.\n\t * @param {number} z - The value of the z component.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tset( x, y, z ) {\n\n\t\tif ( z === undefined ) z = this.z; // sprite.scale.set(x,y)\n\n\t\tthis.x = x;\n\t\tthis.y = y;\n\t\tthis.z = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the same value.\n\t *\n\t * @param {number} scalar - The value to set for all vector components.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.x = scalar;\n\t\tthis.y = scalar;\n\t\tthis.z = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's x component to the given value\n\t *\n\t * @param {number} x - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetX( x ) {\n\n\t\tthis.x = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's y component to the given value\n\t *\n\t * @param {number} y - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetY( y ) {\n\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's z component to the given value\n\t *\n\t * @param {number} z - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetZ( z ) {\n\n\t\tthis.z = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Allows to set a vector component with an index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n\t * @param {number} value - The value to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetComponent( index, value ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: this.x = value; break;\n\t\t\tcase 1: this.y = value; break;\n\t\t\tcase 2: this.z = value; break;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the value of the vector component which matches the given index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n\t * @return {number} A vector component value.\n\t */\n\tgetComponent( index ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: return this.x;\n\t\t\tcase 1: return this.y;\n\t\t\tcase 2: return this.z;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new vector with copied values from this instance.\n\t *\n\t * @return {Vector3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.x, this.y, this.z );\n\n\t}\n\n\t/**\n\t * Copies the values of the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to copy.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tcopy( v ) {\n\n\t\tthis.x = v.x;\n\t\tthis.y = v.y;\n\t\tthis.z = v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to add.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tadd( v ) {\n\n\t\tthis.x += v.x;\n\t\tthis.y += v.y;\n\t\tthis.z += v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to all components of this instance.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.x += s;\n\t\tthis.y += s;\n\t\tthis.z += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\taddVectors( a, b ) {\n\n\t\tthis.x = a.x + b.x;\n\t\tthis.y = a.y + b.y;\n\t\tthis.z = a.z + b.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector scaled by the given factor to this instance.\n\t *\n\t * @param {Vector3|Vector4} v - The vector.\n\t * @param {number} s - The factor that scales `v`.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\taddScaledVector( v, s ) {\n\n\t\tthis.x += v.x * s;\n\t\tthis.y += v.y * s;\n\t\tthis.z += v.z * s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vector from this instance.\n\t *\n\t * @param {Vector3} v - The vector to subtract.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsub( v ) {\n\n\t\tthis.x -= v.x;\n\t\tthis.y -= v.y;\n\t\tthis.z -= v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given scalar value from all components of this instance.\n\t *\n\t * @param {number} s - The scalar to subtract.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsubScalar( s ) {\n\n\t\tthis.x -= s;\n\t\tthis.y -= s;\n\t\tthis.z -= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsubVectors( a, b ) {\n\n\t\tthis.x = a.x - b.x;\n\t\tthis.y = a.y - b.y;\n\t\tthis.z = a.z - b.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vector with this instance.\n\t *\n\t * @param {Vector3} v - The vector to multiply.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmultiply( v ) {\n\n\t\tthis.x *= v.x;\n\t\tthis.y *= v.y;\n\t\tthis.z *= v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with all components of this instance.\n\t *\n\t * @param {number} scalar - The scalar to multiply.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmultiplyScalar( scalar ) {\n\n\t\tthis.x *= scalar;\n\t\tthis.y *= scalar;\n\t\tthis.z *= scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmultiplyVectors( a, b ) {\n\n\t\tthis.x = a.x * b.x;\n\t\tthis.y = a.y * b.y;\n\t\tthis.z = a.z * b.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given Euler rotation to this vector.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyEuler( euler ) {\n\n\t\treturn this.applyQuaternion( _quaternion$4.setFromEuler( euler ) );\n\n\t}\n\n\t/**\n\t * Applies a rotation specified by an axis and an angle to this vector.\n\t *\n\t * @param {Vector3} axis - A normalized vector representing the rotation axis.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyAxisAngle( axis, angle ) {\n\n\t\treturn this.applyQuaternion( _quaternion$4.setFromAxisAngle( axis, angle ) );\n\n\t}\n\n\t/**\n\t * Multiplies this vector with the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The 3x3 matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tconst x = this.x, y = this.y, z = this.z;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 3 ] * y + e[ 6 ] * z;\n\t\tthis.y = e[ 1 ] * x + e[ 4 ] * y + e[ 7 ] * z;\n\t\tthis.z = e[ 2 ] * x + e[ 5 ] * y + e[ 8 ] * z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies this vector by the given normal matrix and normalizes\n\t * the result.\n\t *\n\t * @param {Matrix3} m - The normal matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyNormalMatrix( m ) {\n\n\t\treturn this.applyMatrix3( m ).normalize();\n\n\t}\n\n\t/**\n\t * Multiplies this vector (with an implicit 1 in the 4th dimension) by m, and\n\t * divides by perspective.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tconst x = this.x, y = this.y, z = this.z;\n\t\tconst e = m.elements;\n\n\t\tconst w = 1 / ( e[ 3 ] * x + e[ 7 ] * y + e[ 11 ] * z + e[ 15 ] );\n\n\t\tthis.x = ( e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z + e[ 12 ] ) * w;\n\t\tthis.y = ( e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z + e[ 13 ] ) * w;\n\t\tthis.z = ( e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z + e[ 14 ] ) * w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given Quaternion to this vector.\n\t *\n\t * @param {Quaternion} q - The Quaternion.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tapplyQuaternion( q ) {\n\n\t\t// quaternion q is assumed to have unit length\n\n\t\tconst vx = this.x, vy = this.y, vz = this.z;\n\t\tconst qx = q.x, qy = q.y, qz = q.z, qw = q.w;\n\n\t\t// t = 2 * cross( q.xyz, v );\n\t\tconst tx = 2 * ( qy * vz - qz * vy );\n\t\tconst ty = 2 * ( qz * vx - qx * vz );\n\t\tconst tz = 2 * ( qx * vy - qy * vx );\n\n\t\t// v + q.w * t + cross( q.xyz, t );\n\t\tthis.x = vx + qw * tx + qy * tz - qz * ty;\n\t\tthis.y = vy + qw * ty + qz * tx - qx * tz;\n\t\tthis.z = vz + qw * tz + qx * ty - qy * tx;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Projects this vector from world space into the camera's normalized\n\t * device coordinate (NDC) space.\n\t *\n\t * @param {Camera} camera - The camera.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tproject( camera ) {\n\n\t\treturn this.applyMatrix4( camera.matrixWorldInverse ).applyMatrix4( camera.projectionMatrix );\n\n\t}\n\n\t/**\n\t * Unprojects this vector from the camera's normalized device coordinate (NDC)\n\t * space into world space.\n\t *\n\t * @param {Camera} camera - The camera.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tunproject( camera ) {\n\n\t\treturn this.applyMatrix4( camera.projectionMatrixInverse ).applyMatrix4( camera.matrixWorld );\n\n\t}\n\n\t/**\n\t * Transforms the direction of this vector by a matrix (the upper left 3 x 3\n\t * subset of the given 4x4 matrix and then normalizes the result.\n\t *\n\t * @param {Matrix4} m - The matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\ttransformDirection( m ) {\n\n\t\t// input: THREE.Matrix4 affine matrix\n\t\t// vector interpreted as a direction\n\n\t\tconst x = this.x, y = this.y, z = this.z;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z;\n\t\tthis.y = e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z;\n\t\tthis.z = e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z;\n\n\t\treturn this.normalize();\n\n\t}\n\n\t/**\n\t * Divides this instance by the given vector.\n\t *\n\t * @param {Vector3} v - The vector to divide.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tdivide( v ) {\n\n\t\tthis.x /= v.x;\n\t\tthis.y /= v.y;\n\t\tthis.z /= v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this vector by the given scalar.\n\t *\n\t * @param {number} scalar - The scalar to divide.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tdivideScalar( scalar ) {\n\n\t\treturn this.multiplyScalar( 1 / scalar );\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z value is greater than the given vector's x, y or z\n\t * value, replace that value with the corresponding min value.\n\t *\n\t * @param {Vector3} v - The vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmin( v ) {\n\n\t\tthis.x = Math.min( this.x, v.x );\n\t\tthis.y = Math.min( this.y, v.y );\n\t\tthis.z = Math.min( this.z, v.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z value is less than the given vector's x, y or z\n\t * value, replace that value with the corresponding max value.\n\t *\n\t * @param {Vector3} v - The vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tmax( v ) {\n\n\t\tthis.x = Math.max( this.x, v.x );\n\t\tthis.y = Math.max( this.y, v.y );\n\t\tthis.z = Math.max( this.z, v.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z value is greater than the max vector's x, y or z\n\t * value, it is replaced by the corresponding value.\n\t * If this vector's x, y or z value is less than the min vector's x, y or z value,\n\t * it is replaced by the corresponding value.\n\t *\n\t * @param {Vector3} min - The minimum x, y and z values.\n\t * @param {Vector3} max - The maximum x, y and z values in the desired range.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tclamp( min, max ) {\n\n\t\t// assumes min < max, componentwise\n\n\t\tthis.x = clamp( this.x, min.x, max.x );\n\t\tthis.y = clamp( this.y, min.y, max.y );\n\t\tthis.z = clamp( this.z, min.z, max.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y or z values are greater than the max value, they are\n\t * replaced by the max value.\n\t * If this vector's x, y or z values are less than the min value, they are\n\t * replaced by the min value.\n\t *\n\t * @param {number} minVal - The minimum value the components will be clamped to.\n\t * @param {number} maxVal - The maximum value the components will be clamped to.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tclampScalar( minVal, maxVal ) {\n\n\t\tthis.x = clamp( this.x, minVal, maxVal );\n\t\tthis.y = clamp( this.y, minVal, maxVal );\n\t\tthis.z = clamp( this.z, minVal, maxVal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's length is greater than the max value, it is replaced by\n\t * the max value.\n\t * If this vector's length is less than the min value, it is replaced by the\n\t * min value.\n\t *\n\t * @param {number} min - The minimum value the vector length will be clamped to.\n\t * @param {number} max - The maximum value the vector length will be clamped to.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tclampLength( min, max ) {\n\n\t\tconst length = this.length();\n\n\t\treturn this.divideScalar( length || 1 ).multiplyScalar( clamp( length, min, max ) );\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded down to the nearest integer value.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tfloor() {\n\n\t\tthis.x = Math.floor( this.x );\n\t\tthis.y = Math.floor( this.y );\n\t\tthis.z = Math.floor( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded up to the nearest integer value.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tceil() {\n\n\t\tthis.x = Math.ceil( this.x );\n\t\tthis.y = Math.ceil( this.y );\n\t\tthis.z = Math.ceil( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded to the nearest integer value\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tround() {\n\n\t\tthis.x = Math.round( this.x );\n\t\tthis.y = Math.round( this.y );\n\t\tthis.z = Math.round( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded towards zero (up if negative,\n\t * down if positive) to an integer value.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\troundToZero() {\n\n\t\tthis.x = Math.trunc( this.x );\n\t\tthis.y = Math.trunc( this.y );\n\t\tthis.z = Math.trunc( this.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this vector - i.e. sets x = -x, y = -y and z = -z.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tnegate() {\n\n\t\tthis.x = - this.x;\n\t\tthis.y = - this.y;\n\t\tthis.z = - this.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of the given vector with this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this.x * v.x + this.y * v.y + this.z * v.z;\n\n\t}\n\n\t// TODO lengthSquared?\n\n\t/**\n\t * Computes the square of the Euclidean length (straight-line length) from\n\t * (0, 0, 0) to (x, y, z). If you are comparing the lengths of vectors, you should\n\t * compare the length squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @return {number} The square length of this vector.\n\t */\n\tlengthSq() {\n\n\t\treturn this.x * this.x + this.y * this.y + this.z * this.z;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) from (0, 0, 0) to (x, y, z).\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this.x * this.x + this.y * this.y + this.z * this.z );\n\n\t}\n\n\t/**\n\t * Computes the Manhattan length of this vector.\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tmanhattanLength() {\n\n\t\treturn Math.abs( this.x ) + Math.abs( this.y ) + Math.abs( this.z );\n\n\t}\n\n\t/**\n\t * Converts this vector to a unit vector - that is, sets it equal to a vector\n\t * with the same direction as this one, but with a vector length of `1`.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tnormalize() {\n\n\t\treturn this.divideScalar( this.length() || 1 );\n\n\t}\n\n\t/**\n\t * Sets this vector to a vector with the same direction as this one, but\n\t * with the specified length.\n\t *\n\t * @param {number} length - The new length of this vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetLength( length ) {\n\n\t\treturn this.normalize().multiplyScalar( length );\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vector and this instance, where\n\t * alpha is the percent distance along the line - alpha = 0 will be this\n\t * vector, and alpha = 1 will be the given one.\n\t *\n\t * @param {Vector3} v - The vector to interpolate towards.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tlerp( v, alpha ) {\n\n\t\tthis.x += ( v.x - this.x ) * alpha;\n\t\tthis.y += ( v.y - this.y ) * alpha;\n\t\tthis.z += ( v.z - this.z ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vectors, where alpha is the percent\n\t * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n\t * be the second one. The result is stored in this instance.\n\t *\n\t * @param {Vector3} v1 - The first vector.\n\t * @param {Vector3} v2 - The second vector.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tlerpVectors( v1, v2, alpha ) {\n\n\t\tthis.x = v1.x + ( v2.x - v1.x ) * alpha;\n\t\tthis.y = v1.y + ( v2.y - v1.y ) * alpha;\n\t\tthis.z = v1.z + ( v2.z - v1.z ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the cross product of the given vector with this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the cross product with.\n\t * @return {Vector3} The result of the cross product.\n\t */\n\tcross( v ) {\n\n\t\treturn this.crossVectors( this, v );\n\n\t}\n\n\t/**\n\t * Calculates the cross product of the given vectors and stores the result\n\t * in this instance.\n\t *\n\t * @param {Vector3} a - The first vector.\n\t * @param {Vector3} b - The second vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tcrossVectors( a, b ) {\n\n\t\tconst ax = a.x, ay = a.y, az = a.z;\n\t\tconst bx = b.x, by = b.y, bz = b.z;\n\n\t\tthis.x = ay * bz - az * by;\n\t\tthis.y = az * bx - ax * bz;\n\t\tthis.z = ax * by - ay * bx;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Projects this vector onto the given one.\n\t *\n\t * @param {Vector3} v - The vector to project to.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tprojectOnVector( v ) {\n\n\t\tconst denominator = v.lengthSq();\n\n\t\tif ( denominator === 0 ) return this.set( 0, 0, 0 );\n\n\t\tconst scalar = v.dot( this ) / denominator;\n\n\t\treturn this.copy( v ).multiplyScalar( scalar );\n\n\t}\n\n\t/**\n\t * Projects this vector onto a plane by subtracting this\n\t * vector projected onto the plane's normal from this vector.\n\t *\n\t * @param {Vector3} planeNormal - The plane normal.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tprojectOnPlane( planeNormal ) {\n\n\t\t_vector$c.copy( this ).projectOnVector( planeNormal );\n\n\t\treturn this.sub( _vector$c );\n\n\t}\n\n\t/**\n\t * Reflects this vector off a plane orthogonal to the given normal vector.\n\t *\n\t * @param {Vector3} normal - The (normalized) normal vector.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\treflect( normal ) {\n\n\t\treturn this.sub( _vector$c.copy( normal ).multiplyScalar( 2 * this.dot( normal ) ) );\n\n\t}\n\t/**\n\t * Returns the angle between the given vector and this instance in radians.\n\t *\n\t * @param {Vector3} v - The vector to compute the angle with.\n\t * @return {number} The angle in radians.\n\t */\n\tangleTo( v ) {\n\n\t\tconst denominator = Math.sqrt( this.lengthSq() * v.lengthSq() );\n\n\t\tif ( denominator === 0 ) return Math.PI / 2;\n\n\t\tconst theta = this.dot( v ) / denominator;\n\n\t\t// clamp, to handle numerical problems\n\n\t\treturn Math.acos( clamp( theta, -1, 1 ) );\n\n\t}\n\n\t/**\n\t * Computes the distance from the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the distance to.\n\t * @return {number} The distance.\n\t */\n\tdistanceTo( v ) {\n\n\t\treturn Math.sqrt( this.distanceToSquared( v ) );\n\n\t}\n\n\t/**\n\t * Computes the squared distance from the given vector to this instance.\n\t * If you are just comparing the distance with another distance, you should compare\n\t * the distance squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @param {Vector3} v - The vector to compute the squared distance to.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceToSquared( v ) {\n\n\t\tconst dx = this.x - v.x, dy = this.y - v.y, dz = this.z - v.z;\n\n\t\treturn dx * dx + dy * dy + dz * dz;\n\n\t}\n\n\t/**\n\t * Computes the Manhattan distance from the given vector to this instance.\n\t *\n\t * @param {Vector3} v - The vector to compute the Manhattan distance to.\n\t * @return {number} The Manhattan distance.\n\t */\n\tmanhattanDistanceTo( v ) {\n\n\t\treturn Math.abs( this.x - v.x ) + Math.abs( this.y - v.y ) + Math.abs( this.z - v.z );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given spherical coordinates.\n\t *\n\t * @param {Spherical} s - The spherical coordinates.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromSpherical( s ) {\n\n\t\treturn this.setFromSphericalCoords( s.radius, s.phi, s.theta );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given spherical coordinates.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} phi - The phi angle in radians.\n\t * @param {number} theta - The theta angle in radians.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromSphericalCoords( radius, phi, theta ) {\n\n\t\tconst sinPhiRadius = Math.sin( phi ) * radius;\n\n\t\tthis.x = sinPhiRadius * Math.sin( theta );\n\t\tthis.y = Math.cos( phi ) * radius;\n\t\tthis.z = sinPhiRadius * Math.cos( theta );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given cylindrical coordinates.\n\t *\n\t * @param {Cylindrical} c - The cylindrical coordinates.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromCylindrical( c ) {\n\n\t\treturn this.setFromCylindricalCoords( c.radius, c.theta, c.y );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given cylindrical coordinates.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} theta - The theta angle in radians.\n\t * @param {number} y - The y value.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromCylindricalCoords( radius, theta, y ) {\n\n\t\tthis.x = radius * Math.sin( theta );\n\t\tthis.y = y;\n\t\tthis.z = radius * Math.cos( theta );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the position elements of the\n\t * given transformation matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrixPosition( m ) {\n\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 12 ];\n\t\tthis.y = e[ 13 ];\n\t\tthis.z = e[ 14 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the scale elements of the\n\t * given transformation matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrixScale( m ) {\n\n\t\tconst sx = this.setFromMatrixColumn( m, 0 ).length();\n\t\tconst sy = this.setFromMatrixColumn( m, 1 ).length();\n\t\tconst sz = this.setFromMatrixColumn( m, 2 ).length();\n\n\t\tthis.x = sx;\n\t\tthis.y = sy;\n\t\tthis.z = sz;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components from the specified matrix column.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @param {number} index - The column index.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrixColumn( m, index ) {\n\n\t\treturn this.fromArray( m.elements, index * 4 );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the specified matrix column.\n\t *\n\t * @param {Matrix3} m - The 3x3 matrix.\n\t * @param {number} index - The column index.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromMatrix3Column( m, index ) {\n\n\t\treturn this.fromArray( m.elements, index * 3 );\n\n\t}\n\n\t/**\n\t * Sets the vector components from the given Euler angles.\n\t *\n\t * @param {Euler} e - The Euler angles to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromEuler( e ) {\n\n\t\tthis.x = e._x;\n\t\tthis.y = e._y;\n\t\tthis.z = e._z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components from the RGB components of the\n\t * given color.\n\t *\n\t * @param {Color} c - The color to set.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tsetFromColor( c ) {\n\n\t\tthis.x = c.r;\n\t\tthis.y = c.g;\n\t\tthis.z = c.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this vector is equal with the given one.\n\t *\n\t * @param {Vector3} v - The vector to test for equality.\n\t * @return {boolean} Whether this vector is equal with the given one.\n\t */\n\tequals( v ) {\n\n\t\treturn ( ( v.x === this.x ) && ( v.y === this.y ) && ( v.z === this.z ) );\n\n\t}\n\n\t/**\n\t * Sets this vector's x value to be `array[ offset ]`, y value to be `array[ offset + 1 ]`\n\t * and z value to be `array[ offset + 2 ]`.\n\t *\n\t * @param {Array} array - An array holding the vector component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.x = array[ offset ];\n\t\tthis.y = array[ offset + 1 ];\n\t\tthis.z = array[ offset + 2 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this vector to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the vector components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The vector components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.x;\n\t\tarray[ offset + 1 ] = this.y;\n\t\tarray[ offset + 2 ] = this.z;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this vector from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Vector3} A reference to this vector.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.x = attribute.getX( index );\n\t\tthis.y = attribute.getY( index );\n\t\tthis.z = attribute.getZ( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets each component of this vector to a pseudo-random value between `0` and\n\t * `1`, excluding `1`.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\trandom() {\n\n\t\tthis.x = Math.random();\n\t\tthis.y = Math.random();\n\t\tthis.z = Math.random();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this vector to a uniformly random point on a unit sphere.\n\t *\n\t * @return {Vector3} A reference to this vector.\n\t */\n\trandomDirection() {\n\n\t\t// https://mathworld.wolfram.com/SpherePointPicking.html\n\n\t\tconst theta = Math.random() * Math.PI * 2;\n\t\tconst u = Math.random() * 2 - 1;\n\t\tconst c = Math.sqrt( 1 - u * u );\n\n\t\tthis.x = c * Math.cos( theta );\n\t\tthis.y = u;\n\t\tthis.z = c * Math.sin( theta );\n\n\t\treturn this;\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.x;\n\t\tyield this.y;\n\t\tyield this.z;\n\n\t}\n\n}\n\nconst _vector$c = /*@__PURE__*/ new Vector3();\nconst _quaternion$4 = /*@__PURE__*/ new Quaternion();\n\n/**\n * Represents a 3x3 matrix.\n *\n * A Note on Row-Major and Column-Major Ordering:\n *\n * The constructor and {@link Matrix3#set} method take arguments in\n * [row-major]{@link https://en.wikipedia.org/wiki/Row-_and_column-major_order#Column-major_order}\n * order, while internally they are stored in the {@link Matrix3#elements} array in column-major order.\n * This means that calling:\n * ```js\n * const m = new THREE.Matrix();\n * m.set( 11, 12, 13,\n * 21, 22, 23,\n * 31, 32, 33 );\n * ```\n * will result in the elements array containing:\n * ```js\n * m.elements = [ 11, 21, 31,\n * 12, 22, 32,\n * 13, 23, 33 ];\n * ```\n * and internally all calculations are performed using column-major ordering.\n * However, as the actual ordering makes no difference mathematically and\n * most people are used to thinking about matrices in row-major order, the\n * three.js documentation shows matrices in row-major order. Just bear in\n * mind that if you are reading the source code, you'll have to take the\n * transpose of any matrices outlined here to make sense of the calculations.\n */\nclass Matrix3 {\n\n\t/**\n\t * Constructs a new 3x3 matrix. The arguments are supposed to be\n\t * in row-major order. If no arguments are provided, the constructor\n\t * initializes the matrix as an identity matrix.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t */\n\tconstructor( n11, n12, n13, n21, n22, n23, n31, n32, n33 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tMatrix3.prototype.isMatrix3 = true;\n\n\t\t/**\n\t\t * A column-major list of matrix values.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.elements = [\n\n\t\t\t1, 0, 0,\n\t\t\t0, 1, 0,\n\t\t\t0, 0, 1\n\n\t\t];\n\n\t\tif ( n11 !== undefined ) {\n\n\t\t\tthis.set( n11, n12, n13, n21, n22, n23, n31, n32, n33 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix.The arguments are supposed to be\n\t * in row-major order.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tset( n11, n12, n13, n21, n22, n23, n31, n32, n33 ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] = n11; te[ 1 ] = n21; te[ 2 ] = n31;\n\t\tte[ 3 ] = n12; te[ 4 ] = n22; te[ 5 ] = n32;\n\t\tte[ 6 ] = n13; te[ 7 ] = n23; te[ 8 ] = n33;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix to the 3x3 identity matrix.\n\t *\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tidentity() {\n\n\t\tthis.set(\n\n\t\t\t1, 0, 0,\n\t\t\t0, 1, 0,\n\t\t\t0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given matrix to this instance.\n\t *\n\t * @param {Matrix3} m - The matrix to copy.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tcopy( m ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = m.elements;\n\n\t\tte[ 0 ] = me[ 0 ]; te[ 1 ] = me[ 1 ]; te[ 2 ] = me[ 2 ];\n\t\tte[ 3 ] = me[ 3 ]; te[ 4 ] = me[ 4 ]; te[ 5 ] = me[ 5 ];\n\t\tte[ 6 ] = me[ 6 ]; te[ 7 ] = me[ 7 ]; te[ 8 ] = me[ 8 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Extracts the basis of this matrix into the three axis vectors provided.\n\t *\n\t * @param {Vector3} xAxis - The basis's x axis.\n\t * @param {Vector3} yAxis - The basis's y axis.\n\t * @param {Vector3} zAxis - The basis's z axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\textractBasis( xAxis, yAxis, zAxis ) {\n\n\t\txAxis.setFromMatrix3Column( this, 0 );\n\t\tyAxis.setFromMatrix3Column( this, 1 );\n\t\tzAxis.setFromMatrix3Column( this, 2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Set this matrix to the upper 3x3 matrix of the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tsetFromMatrix4( m ) {\n\n\t\tconst me = m.elements;\n\n\t\tthis.set(\n\n\t\t\tme[ 0 ], me[ 4 ], me[ 8 ],\n\t\t\tme[ 1 ], me[ 5 ], me[ 9 ],\n\t\t\tme[ 2 ], me[ 6 ], me[ 10 ]\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Post-multiplies this matrix by the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix to multiply with.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmultiply( m ) {\n\n\t\treturn this.multiplyMatrices( this, m );\n\n\t}\n\n\t/**\n\t * Pre-multiplies this matrix by the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix to multiply with.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tpremultiply( m ) {\n\n\t\treturn this.multiplyMatrices( m, this );\n\n\t}\n\n\t/**\n\t * Multiples the given 3x3 matrices and stores the result\n\t * in this matrix.\n\t *\n\t * @param {Matrix3} a - The first matrix.\n\t * @param {Matrix3} b - The second matrix.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmultiplyMatrices( a, b ) {\n\n\t\tconst ae = a.elements;\n\t\tconst be = b.elements;\n\t\tconst te = this.elements;\n\n\t\tconst a11 = ae[ 0 ], a12 = ae[ 3 ], a13 = ae[ 6 ];\n\t\tconst a21 = ae[ 1 ], a22 = ae[ 4 ], a23 = ae[ 7 ];\n\t\tconst a31 = ae[ 2 ], a32 = ae[ 5 ], a33 = ae[ 8 ];\n\n\t\tconst b11 = be[ 0 ], b12 = be[ 3 ], b13 = be[ 6 ];\n\t\tconst b21 = be[ 1 ], b22 = be[ 4 ], b23 = be[ 7 ];\n\t\tconst b31 = be[ 2 ], b32 = be[ 5 ], b33 = be[ 8 ];\n\n\t\tte[ 0 ] = a11 * b11 + a12 * b21 + a13 * b31;\n\t\tte[ 3 ] = a11 * b12 + a12 * b22 + a13 * b32;\n\t\tte[ 6 ] = a11 * b13 + a12 * b23 + a13 * b33;\n\n\t\tte[ 1 ] = a21 * b11 + a22 * b21 + a23 * b31;\n\t\tte[ 4 ] = a21 * b12 + a22 * b22 + a23 * b32;\n\t\tte[ 7 ] = a21 * b13 + a22 * b23 + a23 * b33;\n\n\t\tte[ 2 ] = a31 * b11 + a32 * b21 + a33 * b31;\n\t\tte[ 5 ] = a31 * b12 + a32 * b22 + a33 * b32;\n\t\tte[ 8 ] = a31 * b13 + a32 * b23 + a33 * b33;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies every component of the matrix by the given scalar.\n\t *\n\t * @param {number} s - The scalar.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmultiplyScalar( s ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] *= s; te[ 3 ] *= s; te[ 6 ] *= s;\n\t\tte[ 1 ] *= s; te[ 4 ] *= s; te[ 7 ] *= s;\n\t\tte[ 2 ] *= s; te[ 5 ] *= s; te[ 8 ] *= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes and returns the determinant of this matrix.\n\t *\n\t * @return {number} The determinant.\n\t */\n\tdeterminant() {\n\n\t\tconst te = this.elements;\n\n\t\tconst a = te[ 0 ], b = te[ 1 ], c = te[ 2 ],\n\t\t\td = te[ 3 ], e = te[ 4 ], f = te[ 5 ],\n\t\t\tg = te[ 6 ], h = te[ 7 ], i = te[ 8 ];\n\n\t\treturn a * e * i - a * f * h - b * d * i + b * f * g + c * d * h - c * e * g;\n\n\t}\n\n\t/**\n\t * Inverts this matrix, using the [analytic method]{@link https://en.wikipedia.org/wiki/Invertible_matrix#Analytic_solution}.\n\t * You can not invert with a determinant of zero. If you attempt this, the method produces\n\t * a zero matrix instead.\n\t *\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tinvert() {\n\n\t\tconst te = this.elements,\n\n\t\t\tn11 = te[ 0 ], n21 = te[ 1 ], n31 = te[ 2 ],\n\t\t\tn12 = te[ 3 ], n22 = te[ 4 ], n32 = te[ 5 ],\n\t\t\tn13 = te[ 6 ], n23 = te[ 7 ], n33 = te[ 8 ],\n\n\t\t\tt11 = n33 * n22 - n32 * n23,\n\t\t\tt12 = n32 * n13 - n33 * n12,\n\t\t\tt13 = n23 * n12 - n22 * n13,\n\n\t\t\tdet = n11 * t11 + n21 * t12 + n31 * t13;\n\n\t\tif ( det === 0 ) return this.set( 0, 0, 0, 0, 0, 0, 0, 0, 0 );\n\n\t\tconst detInv = 1 / det;\n\n\t\tte[ 0 ] = t11 * detInv;\n\t\tte[ 1 ] = ( n31 * n23 - n33 * n21 ) * detInv;\n\t\tte[ 2 ] = ( n32 * n21 - n31 * n22 ) * detInv;\n\n\t\tte[ 3 ] = t12 * detInv;\n\t\tte[ 4 ] = ( n33 * n11 - n31 * n13 ) * detInv;\n\t\tte[ 5 ] = ( n31 * n12 - n32 * n11 ) * detInv;\n\n\t\tte[ 6 ] = t13 * detInv;\n\t\tte[ 7 ] = ( n21 * n13 - n23 * n11 ) * detInv;\n\t\tte[ 8 ] = ( n22 * n11 - n21 * n12 ) * detInv;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Transposes this matrix in place.\n\t *\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\ttranspose() {\n\n\t\tlet tmp;\n\t\tconst m = this.elements;\n\n\t\ttmp = m[ 1 ]; m[ 1 ] = m[ 3 ]; m[ 3 ] = tmp;\n\t\ttmp = m[ 2 ]; m[ 2 ] = m[ 6 ]; m[ 6 ] = tmp;\n\t\ttmp = m[ 5 ]; m[ 5 ] = m[ 7 ]; m[ 7 ] = tmp;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the normal matrix which is the inverse transpose of the upper\n\t * left 3x3 portion of the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} matrix4 - The 4x4 matrix.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tgetNormalMatrix( matrix4 ) {\n\n\t\treturn this.setFromMatrix4( matrix4 ).invert().transpose();\n\n\t}\n\n\t/**\n\t * Transposes this matrix into the supplied array, and returns itself unchanged.\n\t *\n\t * @param {Array} r - An array to store the transposed matrix elements.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\ttransposeIntoArray( r ) {\n\n\t\tconst m = this.elements;\n\n\t\tr[ 0 ] = m[ 0 ];\n\t\tr[ 1 ] = m[ 3 ];\n\t\tr[ 2 ] = m[ 6 ];\n\t\tr[ 3 ] = m[ 1 ];\n\t\tr[ 4 ] = m[ 4 ];\n\t\tr[ 5 ] = m[ 7 ];\n\t\tr[ 6 ] = m[ 2 ];\n\t\tr[ 7 ] = m[ 5 ];\n\t\tr[ 8 ] = m[ 8 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the UV transform matrix from offset, repeat, rotation, and center.\n\t *\n\t * @param {number} tx - Offset x.\n\t * @param {number} ty - Offset y.\n\t * @param {number} sx - Repeat x.\n\t * @param {number} sy - Repeat y.\n\t * @param {number} rotation - Rotation, in radians. Positive values rotate counterclockwise.\n\t * @param {number} cx - Center x of rotation.\n\t * @param {number} cy - Center y of rotation\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tsetUvTransform( tx, ty, sx, sy, rotation, cx, cy ) {\n\n\t\tconst c = Math.cos( rotation );\n\t\tconst s = Math.sin( rotation );\n\n\t\tthis.set(\n\t\t\tsx * c, sx * s, - sx * ( c * cx + s * cy ) + cx + tx,\n\t\t\t- sy * s, sy * c, - sy * ( - s * cx + c * cy ) + cy + ty,\n\t\t\t0, 0, 1\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scales this matrix with the given scalar values.\n\t *\n\t * @param {number} sx - The amount to scale in the X axis.\n\t * @param {number} sy - The amount to scale in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tscale( sx, sy ) {\n\n\t\tthis.premultiply( _m3.makeScale( sx, sy ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates this matrix by the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\trotate( theta ) {\n\n\t\tthis.premultiply( _m3.makeRotation( - theta ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates this matrix by the given scalar values.\n\t *\n\t * @param {number} tx - The amount to translate in the X axis.\n\t * @param {number} ty - The amount to translate in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\ttranslate( tx, ty ) {\n\n\t\tthis.premultiply( _m3.makeTranslation( tx, ty ) );\n\n\t\treturn this;\n\n\t}\n\n\t// for 2D Transforms\n\n\t/**\n\t * Sets this matrix as a 2D translation transform.\n\t *\n\t * @param {number|Vector2} x - The amount to translate in the X axis or alternatively a translation vector.\n\t * @param {number} y - The amount to translate in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmakeTranslation( x, y ) {\n\n\t\tif ( x.isVector2 ) {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, x.x,\n\t\t\t\t0, 1, x.y,\n\t\t\t\t0, 0, 1\n\n\t\t\t);\n\n\t\t} else {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, x,\n\t\t\t\t0, 1, y,\n\t\t\t\t0, 0, 1\n\n\t\t\t);\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a 2D rotational transformation.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmakeRotation( theta ) {\n\n\t\t// counterclockwise\n\n\t\tconst c = Math.cos( theta );\n\t\tconst s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\tc, - s, 0,\n\t\t\ts, c, 0,\n\t\t\t0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a 2D scale transform.\n\t *\n\t * @param {number} x - The amount to scale in the X axis.\n\t * @param {number} y - The amount to scale in the Y axis.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tmakeScale( x, y ) {\n\n\t\tthis.set(\n\n\t\t\tx, 0, 0,\n\t\t\t0, y, 0,\n\t\t\t0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this matrix is equal with the given one.\n\t *\n\t * @param {Matrix3} matrix - The matrix to test for equality.\n\t * @return {boolean} Whether this matrix is equal with the given one.\n\t */\n\tequals( matrix ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = matrix.elements;\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tif ( te[ i ] !== me[ i ] ) return false;\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix from the given array.\n\t *\n\t * @param {Array} array - The matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Matrix3} A reference to this matrix.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.elements[ i ] = array[ i + offset ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the elements of this matrix to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The matrix elements in column-major order.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tconst te = this.elements;\n\n\t\tarray[ offset ] = te[ 0 ];\n\t\tarray[ offset + 1 ] = te[ 1 ];\n\t\tarray[ offset + 2 ] = te[ 2 ];\n\n\t\tarray[ offset + 3 ] = te[ 3 ];\n\t\tarray[ offset + 4 ] = te[ 4 ];\n\t\tarray[ offset + 5 ] = te[ 5 ];\n\n\t\tarray[ offset + 6 ] = te[ 6 ];\n\t\tarray[ offset + 7 ] = te[ 7 ];\n\t\tarray[ offset + 8 ] = te[ 8 ];\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Returns a matrix with copied values from this instance.\n\t *\n\t * @return {Matrix3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().fromArray( this.elements );\n\n\t}\n\n}\n\nconst _m3 = /*@__PURE__*/ new Matrix3();\n\nfunction arrayNeedsUint32( array ) {\n\n\t// assumes larger values usually on last\n\n\tfor ( let i = array.length - 1; i >= 0; -- i ) {\n\n\t\tif ( array[ i ] >= 65535 ) return true; // account for PRIMITIVE_RESTART_FIXED_INDEX, #24565\n\n\t}\n\n\treturn false;\n\n}\n\nconst TYPED_ARRAYS = {\n\tInt8Array: Int8Array,\n\tUint8Array: Uint8Array,\n\tUint8ClampedArray: Uint8ClampedArray,\n\tInt16Array: Int16Array,\n\tUint16Array: Uint16Array,\n\tInt32Array: Int32Array,\n\tUint32Array: Uint32Array,\n\tFloat32Array: Float32Array,\n\tFloat64Array: Float64Array\n};\n\nfunction getTypedArray( type, buffer ) {\n\n\treturn new TYPED_ARRAYS[ type ]( buffer );\n\n}\n\nfunction createElementNS( name ) {\n\n\treturn document.createElementNS( 'http://www.w3.org/1999/xhtml', name );\n\n}\n\nfunction createCanvasElement() {\n\n\tconst canvas = createElementNS( 'canvas' );\n\tcanvas.style.display = 'block';\n\treturn canvas;\n\n}\n\nconst _cache = {};\n\nfunction warnOnce( message ) {\n\n\tif ( message in _cache ) return;\n\n\t_cache[ message ] = true;\n\n\tconsole.warn( message );\n\n}\n\nfunction probeAsync( gl, sync, interval ) {\n\n\treturn new Promise( function ( resolve, reject ) {\n\n\t\tfunction probe() {\n\n\t\t\tswitch ( gl.clientWaitSync( sync, gl.SYNC_FLUSH_COMMANDS_BIT, 0 ) ) {\n\n\t\t\t\tcase gl.WAIT_FAILED:\n\t\t\t\t\treject();\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase gl.TIMEOUT_EXPIRED:\n\t\t\t\t\tsetTimeout( probe, interval );\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\n\t\t\t\t\tresolve();\n\n\t\t\t}\n\n\t\t}\n\n\t\tsetTimeout( probe, interval );\n\n\t} );\n\n}\n\nconst LINEAR_REC709_TO_XYZ = /*@__PURE__*/ new Matrix3().set(\n\t0.4123908, 0.3575843, 0.1804808,\n\t0.2126390, 0.7151687, 0.0721923,\n\t0.0193308, 0.1191948, 0.9505322\n);\n\nconst XYZ_TO_LINEAR_REC709 = /*@__PURE__*/ new Matrix3().set(\n\t3.2409699, -1.5373832, -0.4986108,\n\t-0.9692436, 1.8759675, 0.0415551,\n\t0.0556301, -0.203977, 1.0569715\n);\n\nfunction createColorManagement() {\n\n\tconst ColorManagement = {\n\n\t\tenabled: true,\n\n\t\tworkingColorSpace: LinearSRGBColorSpace,\n\n\t\t/**\n\t\t * Implementations of supported color spaces.\n\t\t *\n\t\t * Required:\n\t\t *\t- primaries: chromaticity coordinates [ rx ry gx gy bx by ]\n\t\t *\t- whitePoint: reference white [ x y ]\n\t\t *\t- transfer: transfer function (pre-defined)\n\t\t *\t- toXYZ: Matrix3 RGB to XYZ transform\n\t\t *\t- fromXYZ: Matrix3 XYZ to RGB transform\n\t\t *\t- luminanceCoefficients: RGB luminance coefficients\n\t\t *\n\t\t * Optional:\n\t\t * - outputColorSpaceConfig: { drawingBufferColorSpace: ColorSpace, toneMappingMode: 'extended' | 'standard' }\n\t\t * - workingColorSpaceConfig: { unpackColorSpace: ColorSpace }\n\t\t *\n\t\t * Reference:\n\t\t * - https://www.russellcottrell.com/photo/matrixCalculator.htm\n\t\t */\n\t\tspaces: {},\n\n\t\tconvert: function ( color, sourceColorSpace, targetColorSpace ) {\n\n\t\t\tif ( this.enabled === false || sourceColorSpace === targetColorSpace || ! sourceColorSpace || ! targetColorSpace ) {\n\n\t\t\t\treturn color;\n\n\t\t\t}\n\n\t\t\tif ( this.spaces[ sourceColorSpace ].transfer === SRGBTransfer ) {\n\n\t\t\t\tcolor.r = SRGBToLinear( color.r );\n\t\t\t\tcolor.g = SRGBToLinear( color.g );\n\t\t\t\tcolor.b = SRGBToLinear( color.b );\n\n\t\t\t}\n\n\t\t\tif ( this.spaces[ sourceColorSpace ].primaries !== this.spaces[ targetColorSpace ].primaries ) {\n\n\t\t\t\tcolor.applyMatrix3( this.spaces[ sourceColorSpace ].toXYZ );\n\t\t\t\tcolor.applyMatrix3( this.spaces[ targetColorSpace ].fromXYZ );\n\n\t\t\t}\n\n\t\t\tif ( this.spaces[ targetColorSpace ].transfer === SRGBTransfer ) {\n\n\t\t\t\tcolor.r = LinearToSRGB( color.r );\n\t\t\t\tcolor.g = LinearToSRGB( color.g );\n\t\t\t\tcolor.b = LinearToSRGB( color.b );\n\n\t\t\t}\n\n\t\t\treturn color;\n\n\t\t},\n\n\t\tworkingToColorSpace: function ( color, targetColorSpace ) {\n\n\t\t\treturn this.convert( color, this.workingColorSpace, targetColorSpace );\n\n\t\t},\n\n\t\tcolorSpaceToWorking: function ( color, sourceColorSpace ) {\n\n\t\t\treturn this.convert( color, sourceColorSpace, this.workingColorSpace );\n\n\t\t},\n\n\t\tgetPrimaries: function ( colorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].primaries;\n\n\t\t},\n\n\t\tgetTransfer: function ( colorSpace ) {\n\n\t\t\tif ( colorSpace === NoColorSpace ) return LinearTransfer;\n\n\t\t\treturn this.spaces[ colorSpace ].transfer;\n\n\t\t},\n\n\t\tgetToneMappingMode: function ( colorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].outputColorSpaceConfig.toneMappingMode || 'standard';\n\n\t\t},\n\n\t\tgetLuminanceCoefficients: function ( target, colorSpace = this.workingColorSpace ) {\n\n\t\t\treturn target.fromArray( this.spaces[ colorSpace ].luminanceCoefficients );\n\n\t\t},\n\n\t\tdefine: function ( colorSpaces ) {\n\n\t\t\tObject.assign( this.spaces, colorSpaces );\n\n\t\t},\n\n\t\t// Internal APIs\n\n\t\t_getMatrix: function ( targetMatrix, sourceColorSpace, targetColorSpace ) {\n\n\t\t\treturn targetMatrix\n\t\t\t\t.copy( this.spaces[ sourceColorSpace ].toXYZ )\n\t\t\t\t.multiply( this.spaces[ targetColorSpace ].fromXYZ );\n\n\t\t},\n\n\t\t_getDrawingBufferColorSpace: function ( colorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].outputColorSpaceConfig.drawingBufferColorSpace;\n\n\t\t},\n\n\t\t_getUnpackColorSpace: function ( colorSpace = this.workingColorSpace ) {\n\n\t\t\treturn this.spaces[ colorSpace ].workingColorSpaceConfig.unpackColorSpace;\n\n\t\t},\n\n\t\t// Deprecated\n\n\t\tfromWorkingColorSpace: function ( color, targetColorSpace ) {\n\n\t\t\twarnOnce( 'THREE.ColorManagement: .fromWorkingColorSpace() has been renamed to .workingToColorSpace().' ); // @deprecated, r177\n\n\t\t\treturn ColorManagement.workingToColorSpace( color, targetColorSpace );\n\n\t\t},\n\n\t\ttoWorkingColorSpace: function ( color, sourceColorSpace ) {\n\n\t\t\twarnOnce( 'THREE.ColorManagement: .toWorkingColorSpace() has been renamed to .colorSpaceToWorking().' ); // @deprecated, r177\n\n\t\t\treturn ColorManagement.colorSpaceToWorking( color, sourceColorSpace );\n\n\t\t},\n\n\t};\n\n\t/******************************************************************************\n\t * sRGB definitions\n\t */\n\n\tconst REC709_PRIMARIES = [ 0.640, 0.330, 0.300, 0.600, 0.150, 0.060 ];\n\tconst REC709_LUMINANCE_COEFFICIENTS = [ 0.2126, 0.7152, 0.0722 ];\n\tconst D65 = [ 0.3127, 0.3290 ];\n\n\tColorManagement.define( {\n\n\t\t[ LinearSRGBColorSpace ]: {\n\t\t\tprimaries: REC709_PRIMARIES,\n\t\t\twhitePoint: D65,\n\t\t\ttransfer: LinearTransfer,\n\t\t\ttoXYZ: LINEAR_REC709_TO_XYZ,\n\t\t\tfromXYZ: XYZ_TO_LINEAR_REC709,\n\t\t\tluminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n\t\t\tworkingColorSpaceConfig: { unpackColorSpace: SRGBColorSpace },\n\t\t\toutputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n\t\t},\n\n\t\t[ SRGBColorSpace ]: {\n\t\t\tprimaries: REC709_PRIMARIES,\n\t\t\twhitePoint: D65,\n\t\t\ttransfer: SRGBTransfer,\n\t\t\ttoXYZ: LINEAR_REC709_TO_XYZ,\n\t\t\tfromXYZ: XYZ_TO_LINEAR_REC709,\n\t\t\tluminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n\t\t\toutputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n\t\t},\n\n\t} );\n\n\treturn ColorManagement;\n\n}\n\nconst ColorManagement = /*@__PURE__*/ createColorManagement();\n\nfunction SRGBToLinear( c ) {\n\n\treturn ( c < 0.04045 ) ? c * 0.0773993808 : Math.pow( c * 0.9478672986 + 0.0521327014, 2.4 );\n\n}\n\nfunction LinearToSRGB( c ) {\n\n\treturn ( c < 0.0031308 ) ? c * 12.92 : 1.055 * ( Math.pow( c, 0.41666 ) ) - 0.055;\n\n}\n\nlet _canvas;\n\n/**\n * A class containing utility functions for images.\n *\n * @hideconstructor\n */\nclass ImageUtils {\n\n\t/**\n\t * Returns a data URI containing a representation of the given image.\n\t *\n\t * @param {(HTMLImageElement|HTMLCanvasElement)} image - The image object.\n\t * @param {string} [type='image/png'] - Indicates the image format.\n\t * @return {string} The data URI.\n\t */\n\tstatic getDataURL( image, type = 'image/png' ) {\n\n\t\tif ( /^data:/i.test( image.src ) ) {\n\n\t\t\treturn image.src;\n\n\t\t}\n\n\t\tif ( typeof HTMLCanvasElement === 'undefined' ) {\n\n\t\t\treturn image.src;\n\n\t\t}\n\n\t\tlet canvas;\n\n\t\tif ( image instanceof HTMLCanvasElement ) {\n\n\t\t\tcanvas = image;\n\n\t\t} else {\n\n\t\t\tif ( _canvas === undefined ) _canvas = createElementNS( 'canvas' );\n\n\t\t\t_canvas.width = image.width;\n\t\t\t_canvas.height = image.height;\n\n\t\t\tconst context = _canvas.getContext( '2d' );\n\n\t\t\tif ( image instanceof ImageData ) {\n\n\t\t\t\tcontext.putImageData( image, 0, 0 );\n\n\t\t\t} else {\n\n\t\t\t\tcontext.drawImage( image, 0, 0, image.width, image.height );\n\n\t\t\t}\n\n\t\t\tcanvas = _canvas;\n\n\t\t}\n\n\t\treturn canvas.toDataURL( type );\n\n\t}\n\n\t/**\n\t * Converts the given sRGB image data to linear color space.\n\t *\n\t * @param {(HTMLImageElement|HTMLCanvasElement|ImageBitmap|Object)} image - The image object.\n\t * @return {HTMLCanvasElement|Object} The converted image.\n\t */\n\tstatic sRGBToLinear( image ) {\n\n\t\tif ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) ||\n\t\t\t( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) ||\n\t\t\t( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) ) {\n\n\t\t\tconst canvas = createElementNS( 'canvas' );\n\n\t\t\tcanvas.width = image.width;\n\t\t\tcanvas.height = image.height;\n\n\t\t\tconst context = canvas.getContext( '2d' );\n\t\t\tcontext.drawImage( image, 0, 0, image.width, image.height );\n\n\t\t\tconst imageData = context.getImageData( 0, 0, image.width, image.height );\n\t\t\tconst data = imageData.data;\n\n\t\t\tfor ( let i = 0; i < data.length; i ++ ) {\n\n\t\t\t\tdata[ i ] = SRGBToLinear( data[ i ] / 255 ) * 255;\n\n\t\t\t}\n\n\t\t\tcontext.putImageData( imageData, 0, 0 );\n\n\t\t\treturn canvas;\n\n\t\t} else if ( image.data ) {\n\n\t\t\tconst data = image.data.slice( 0 );\n\n\t\t\tfor ( let i = 0; i < data.length; i ++ ) {\n\n\t\t\t\tif ( data instanceof Uint8Array || data instanceof Uint8ClampedArray ) {\n\n\t\t\t\t\tdata[ i ] = Math.floor( SRGBToLinear( data[ i ] / 255 ) * 255 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// assuming float\n\n\t\t\t\t\tdata[ i ] = SRGBToLinear( data[ i ] );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn {\n\t\t\t\tdata: data,\n\t\t\t\twidth: image.width,\n\t\t\t\theight: image.height\n\t\t\t};\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.ImageUtils.sRGBToLinear(): Unsupported image type. No color space conversion applied.' );\n\t\t\treturn image;\n\n\t\t}\n\n\t}\n\n}\n\nlet _sourceId = 0;\n\n/**\n * Represents the data source of a texture.\n *\n * The main purpose of this class is to decouple the data definition from the texture\n * definition so the same data can be used with multiple texture instances.\n */\nclass Source {\n\n\t/**\n\t * Constructs a new video texture.\n\t *\n\t * @param {any} [data=null] - The data definition of a texture.\n\t */\n\tconstructor( data = null ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSource = true;\n\n\t\t/**\n\t\t * The ID of the source.\n\t\t *\n\t\t * @name Source#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _sourceId ++ } );\n\n\t\t/**\n\t\t * The UUID of the source.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The data definition of a texture.\n\t\t *\n\t\t * @type {any}\n\t\t */\n\t\tthis.data = data;\n\n\t\t/**\n\t\t * This property is only relevant when {@link Source#needsUpdate} is set to `true` and\n\t\t * provides more control on how texture data should be processed. When `dataReady` is set\n\t\t * to `false`, the engine performs the memory allocation (if necessary) but does not transfer\n\t\t * the data into the GPU memory.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.dataReady = true;\n\n\t\t/**\n\t\t * This starts at `0` and counts how many times {@link Source#needsUpdate} is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.version = 0;\n\n\t}\n\n\t/**\n\t * Returns the dimensions of the source into the given target vector.\n\t *\n\t * @param {(Vector2|Vector3)} target - The target object the result is written into.\n\t * @return {(Vector2|Vector3)} The dimensions of the source.\n\t */\n\tgetSize( target ) {\n\n\t\tconst data = this.data;\n\n\t\tif ( ( typeof HTMLVideoElement !== 'undefined' ) && ( data instanceof HTMLVideoElement ) ) {\n\n\t\t\ttarget.set( data.videoWidth, data.videoHeight, 0 );\n\n\t\t} else if ( data instanceof VideoFrame ) {\n\n\t\t\ttarget.set( data.displayHeight, data.displayWidth, 0 );\n\n\t\t} else if ( data !== null ) {\n\n\t\t\ttarget.set( data.width, data.height, data.depth || 0 );\n\n\t\t} else {\n\n\t\t\ttarget.set( 0, 0, 0 );\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * When the property is set to `true`, the engine allocates the memory\n\t * for the texture (if necessary) and triggers the actual texture upload\n\t * to the GPU next time the source is used.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Serializes the source into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized source.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tif ( ! isRootObject && meta.images[ this.uuid ] !== undefined ) {\n\n\t\t\treturn meta.images[ this.uuid ];\n\n\t\t}\n\n\t\tconst output = {\n\t\t\tuuid: this.uuid,\n\t\t\turl: ''\n\t\t};\n\n\t\tconst data = this.data;\n\n\t\tif ( data !== null ) {\n\n\t\t\tlet url;\n\n\t\t\tif ( Array.isArray( data ) ) {\n\n\t\t\t\t// cube texture\n\n\t\t\t\turl = [];\n\n\t\t\t\tfor ( let i = 0, l = data.length; i < l; i ++ ) {\n\n\t\t\t\t\tif ( data[ i ].isDataTexture ) {\n\n\t\t\t\t\t\turl.push( serializeImage( data[ i ].image ) );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\turl.push( serializeImage( data[ i ] ) );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// texture\n\n\t\t\t\turl = serializeImage( data );\n\n\t\t\t}\n\n\t\t\toutput.url = url;\n\n\t\t}\n\n\t\tif ( ! isRootObject ) {\n\n\t\t\tmeta.images[ this.uuid ] = output;\n\n\t\t}\n\n\t\treturn output;\n\n\t}\n\n}\n\nfunction serializeImage( image ) {\n\n\tif ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) ||\n\t\t( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) ||\n\t\t( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) ) {\n\n\t\t// default images\n\n\t\treturn ImageUtils.getDataURL( image );\n\n\t} else {\n\n\t\tif ( image.data ) {\n\n\t\t\t// images of DataTexture\n\n\t\t\treturn {\n\t\t\t\tdata: Array.from( image.data ),\n\t\t\t\twidth: image.width,\n\t\t\t\theight: image.height,\n\t\t\t\ttype: image.data.constructor.name\n\t\t\t};\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.Texture: Unable to serialize Texture.' );\n\t\t\treturn {};\n\n\t\t}\n\n\t}\n\n}\n\nlet _textureId = 0;\n\nconst _tempVec3 = /*@__PURE__*/ new Vector3();\n\n/**\n * Base class for all textures.\n *\n * Note: After the initial use of a texture, its dimensions, format, and type\n * cannot be changed. Instead, call {@link Texture#dispose} on the texture and instantiate a new one.\n *\n * @augments EventDispatcher\n */\nclass Texture extends EventDispatcher {\n\n\t/**\n\t * Constructs a new texture.\n\t *\n\t * @param {?Object} [image=Texture.DEFAULT_IMAGE] - The image holding the texture data.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space.\n\t */\n\tconstructor( image = Texture.DEFAULT_IMAGE, mapping = Texture.DEFAULT_MAPPING, wrapS = ClampToEdgeWrapping, wrapT = ClampToEdgeWrapping, magFilter = LinearFilter, minFilter = LinearMipmapLinearFilter, format = RGBAFormat, type = UnsignedByteType, anisotropy = Texture.DEFAULT_ANISOTROPY, colorSpace = NoColorSpace ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isTexture = true;\n\n\t\t/**\n\t\t * The ID of the texture.\n\t\t *\n\t\t * @name Texture#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _textureId ++ } );\n\n\t\t/**\n\t\t * The UUID of the material.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the material.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The data definition of a texture. A reference to the data source can be\n\t\t * shared across textures. This is often useful in context of spritesheets\n\t\t * where multiple textures render the same data but with different texture\n\t\t * transformations.\n\t\t *\n\t\t * @type {Source}\n\t\t */\n\t\tthis.source = new Source( image );\n\n\t\t/**\n\t\t * An array holding user-defined mipmaps.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.mipmaps = [];\n\n\t\t/**\n\t\t * How the texture is applied to the object. The value `UVMapping`\n\t\t * is the default, where texture or uv coordinates are used to apply the map.\n\t\t *\n\t\t * @type {(UVMapping|CubeReflectionMapping|CubeRefractionMapping|EquirectangularReflectionMapping|EquirectangularRefractionMapping|CubeUVReflectionMapping)}\n\t\t * @default UVMapping\n\t\t*/\n\t\tthis.mapping = mapping;\n\n\t\t/**\n\t\t * Lets you select the uv attribute to map the texture to. `0` for `uv`,\n\t\t * `1` for `uv1`, `2` for `uv2` and `3` for `uv3`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.channel = 0;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped horizontally and corresponds to\n\t\t * *U* in UV mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapS = wrapS;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped horizontally and corresponds to\n\t\t * *V* in UV mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapT = wrapT;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default LinearFilter\n\t\t */\n\t\tthis.magFilter = magFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default LinearMipmapLinearFilter\n\t\t */\n\t\tthis.minFilter = minFilter;\n\n\t\t/**\n\t\t * The number of samples taken along the axis through the pixel that has the\n\t\t * highest density of texels. By default, this value is `1`. A higher value\n\t\t * gives a less blurry result than a basic mipmap, at the cost of more\n\t\t * texture samples being used.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.anisotropy = anisotropy;\n\n\t\t/**\n\t\t * The format of the texture.\n\t\t *\n\t\t * @type {number}\n\t\t * @default RGBAFormat\n\t\t */\n\t\tthis.format = format;\n\n\t\t/**\n\t\t * The default internal format is derived from {@link Texture#format} and {@link Texture#type} and\n\t\t * defines how the texture data is going to be stored on the GPU.\n\t\t *\n\t\t * This property allows to overwrite the default format.\n\t\t *\n\t\t * @type {?string}\n\t\t * @default null\n\t\t */\n\t\tthis.internalFormat = null;\n\n\t\t/**\n\t\t * The data type of the texture.\n\t\t *\n\t\t * @type {number}\n\t\t * @default UnsignedByteType\n\t\t */\n\t\tthis.type = type;\n\n\t\t/**\n\t\t * How much a single repetition of the texture is offset from the beginning,\n\t\t * in each direction U and V. Typical range is `0.0` to `1.0`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (0,0)\n\t\t */\n\t\tthis.offset = new Vector2( 0, 0 );\n\n\t\t/**\n\t\t * How many times the texture is repeated across the surface, in each\n\t\t * direction U and V. If repeat is set greater than `1` in either direction,\n\t\t * the corresponding wrap parameter should also be set to `RepeatWrapping`\n\t\t * or `MirroredRepeatWrapping` to achieve the desired tiling effect.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.repeat = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The point around which rotation occurs. A value of `(0.5, 0.5)` corresponds\n\t\t * to the center of the texture. Default is `(0, 0)`, the lower left.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (0,0)\n\t\t */\n\t\tthis.center = new Vector2( 0, 0 );\n\n\t\t/**\n\t\t * How much the texture is rotated around the center point, in radians.\n\t\t * Positive values are counter-clockwise.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.rotation = 0;\n\n\t\t/**\n\t\t * Whether to update the texture's uv-transformation {@link Texture#matrix}\n\t\t * from the properties {@link Texture#offset}, {@link Texture#repeat},\n\t\t * {@link Texture#rotation}, and {@link Texture#center}.\n\t\t *\n\t\t * Set this to `false` if you are specifying the uv-transform matrix directly.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.matrixAutoUpdate = true;\n\n\t\t/**\n\t\t * The uv-transformation matrix of the texture.\n\t\t *\n\t\t * @type {Matrix3}\n\t\t */\n\t\tthis.matrix = new Matrix3();\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Set this to `false` if you are creating mipmaps manually.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.generateMipmaps = true;\n\n\t\t/**\n\t\t * If set to `true`, the alpha channel, if present, is multiplied into the\n\t\t * color channels when the texture is uploaded to the GPU.\n\t\t *\n\t\t * Note that this property has no effect when using `ImageBitmap`. You need to\n\t\t * configure premultiply alpha on bitmap creation instead.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.premultiplyAlpha = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Note that this property has no effect when using `ImageBitmap`. You need to\n\t\t * configure the flip on bitmap creation instead.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.flipY = true;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t * The allowable values are `1` (byte-alignment), `2` (rows aligned to even-numbered bytes),\n\t\t * `4` (word-alignment), and `8` (rows start on double-word boundaries).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 4\n\t\t */\n\t\tthis.unpackAlignment = 4;\t// valid values: 1, 2, 4, 8 (see http://www.khronos.org/opengles/sdk/docs/man/xhtml/glPixelStorei.xml)\n\n\t\t/**\n\t\t * Textures containing color data should be annotated with `SRGBColorSpace` or `LinearSRGBColorSpace`.\n\t\t *\n\t\t * @type {string}\n\t\t * @default NoColorSpace\n\t\t */\n\t\tthis.colorSpace = colorSpace;\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the texture. It\n\t\t * should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t\t/**\n\t\t * This can be used to only update a subregion or specific rows of the texture (for example, just the\n\t\t * first 3 rows). Use the `addUpdateRange()` function to add ranges to this array.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.updateRanges = [];\n\n\t\t/**\n\t\t * This starts at `0` and counts how many times {@link Texture#needsUpdate} is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.version = 0;\n\n\t\t/**\n\t\t * A callback function, called when the texture is updated (e.g., when\n\t\t * {@link Texture#needsUpdate} has been set to true and then the texture is used).\n\t\t *\n\t\t * @type {?Function}\n\t\t * @default null\n\t\t */\n\t\tthis.onUpdate = null;\n\n\t\t/**\n\t\t * An optional back reference to the textures render target.\n\t\t *\n\t\t * @type {?(RenderTarget|WebGLRenderTarget)}\n\t\t * @default null\n\t\t */\n\t\tthis.renderTarget = null;\n\n\t\t/**\n\t\t * Indicates whether a texture belongs to a render target or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isRenderTargetTexture = false;\n\n\t\t/**\n\t\t * Indicates if a texture should be handled like a texture array.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isArrayTexture = image && image.depth && image.depth > 1 ? true : false;\n\n\t\t/**\n\t\t * Indicates whether this texture should be processed by `PMREMGenerator` or not\n\t\t * (only relevant for render target textures).\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.pmremVersion = 0;\n\n\t}\n\n\t/**\n\t * The width of the texture in pixels.\n\t */\n\tget width() {\n\n\t\treturn this.source.getSize( _tempVec3 ).x;\n\n\t}\n\n\t/**\n\t * The height of the texture in pixels.\n\t */\n\tget height() {\n\n\t\treturn this.source.getSize( _tempVec3 ).y;\n\n\t}\n\n\t/**\n\t * The depth of the texture in pixels.\n\t */\n\tget depth() {\n\n\t\treturn this.source.getSize( _tempVec3 ).z;\n\n\t}\n\n\t/**\n\t * The image object holding the texture data.\n\t *\n\t * @type {?Object}\n\t */\n\tget image() {\n\n\t\treturn this.source.data;\n\n\t}\n\n\tset image( value = null ) {\n\n\t\tthis.source.data = value;\n\n\t}\n\n\t/**\n\t * Updates the texture transformation matrix from the from the properties {@link Texture#offset},\n\t * {@link Texture#repeat}, {@link Texture#rotation}, and {@link Texture#center}.\n\t */\n\tupdateMatrix() {\n\n\t\tthis.matrix.setUvTransform( this.offset.x, this.offset.y, this.repeat.x, this.repeat.y, this.rotation, this.center.x, this.center.y );\n\n\t}\n\n\t/**\n\t * Adds a range of data in the data texture to be updated on the GPU.\n\t *\n\t * @param {number} start - Position at which to start update.\n\t * @param {number} count - The number of components to update.\n\t */\n\taddUpdateRange( start, count ) {\n\n\t\tthis.updateRanges.push( { start, count } );\n\n\t}\n\n\t/**\n\t * Clears the update ranges.\n\t */\n\tclearUpdateRanges() {\n\n\t\tthis.updateRanges.length = 0;\n\n\t}\n\n\t/**\n\t * Returns a new texture with copied values from this instance.\n\t *\n\t * @return {Texture} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given texture to this instance.\n\t *\n\t * @param {Texture} source - The texture to copy.\n\t * @return {Texture} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\n\t\tthis.source = source.source;\n\t\tthis.mipmaps = source.mipmaps.slice( 0 );\n\n\t\tthis.mapping = source.mapping;\n\t\tthis.channel = source.channel;\n\n\t\tthis.wrapS = source.wrapS;\n\t\tthis.wrapT = source.wrapT;\n\n\t\tthis.magFilter = source.magFilter;\n\t\tthis.minFilter = source.minFilter;\n\n\t\tthis.anisotropy = source.anisotropy;\n\n\t\tthis.format = source.format;\n\t\tthis.internalFormat = source.internalFormat;\n\t\tthis.type = source.type;\n\n\t\tthis.offset.copy( source.offset );\n\t\tthis.repeat.copy( source.repeat );\n\t\tthis.center.copy( source.center );\n\t\tthis.rotation = source.rotation;\n\n\t\tthis.matrixAutoUpdate = source.matrixAutoUpdate;\n\t\tthis.matrix.copy( source.matrix );\n\n\t\tthis.generateMipmaps = source.generateMipmaps;\n\t\tthis.premultiplyAlpha = source.premultiplyAlpha;\n\t\tthis.flipY = source.flipY;\n\t\tthis.unpackAlignment = source.unpackAlignment;\n\t\tthis.colorSpace = source.colorSpace;\n\n\t\tthis.renderTarget = source.renderTarget;\n\t\tthis.isRenderTargetTexture = source.isRenderTargetTexture;\n\t\tthis.isArrayTexture = source.isArrayTexture;\n\n\t\tthis.userData = JSON.parse( JSON.stringify( source.userData ) );\n\n\t\tthis.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this texture's properties based on `values`.\n\t * @param {Object} values - A container with texture parameters.\n\t */\n\tsetValues( values ) {\n\n\t\tfor ( const key in values ) {\n\n\t\t\tconst newValue = values[ key ];\n\n\t\t\tif ( newValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Texture.setValues(): parameter '${ key }' has value of undefined.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tconst currentValue = this[ key ];\n\n\t\t\tif ( currentValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Texture.setValues(): property '${ key }' does not exist.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tif ( ( currentValue && newValue ) && ( currentValue.isVector2 && newValue.isVector2 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else if ( ( currentValue && newValue ) && ( currentValue.isVector3 && newValue.isVector3 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else if ( ( currentValue && newValue ) && ( currentValue.isMatrix3 && newValue.isMatrix3 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else {\n\n\t\t\t\tthis[ key ] = newValue;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the texture into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized texture.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tif ( ! isRootObject && meta.textures[ this.uuid ] !== undefined ) {\n\n\t\t\treturn meta.textures[ this.uuid ];\n\n\t\t}\n\n\t\tconst output = {\n\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Texture',\n\t\t\t\tgenerator: 'Texture.toJSON'\n\t\t\t},\n\n\t\t\tuuid: this.uuid,\n\t\t\tname: this.name,\n\n\t\t\timage: this.source.toJSON( meta ).uuid,\n\n\t\t\tmapping: this.mapping,\n\t\t\tchannel: this.channel,\n\n\t\t\trepeat: [ this.repeat.x, this.repeat.y ],\n\t\t\toffset: [ this.offset.x, this.offset.y ],\n\t\t\tcenter: [ this.center.x, this.center.y ],\n\t\t\trotation: this.rotation,\n\n\t\t\twrap: [ this.wrapS, this.wrapT ],\n\n\t\t\tformat: this.format,\n\t\t\tinternalFormat: this.internalFormat,\n\t\t\ttype: this.type,\n\t\t\tcolorSpace: this.colorSpace,\n\n\t\t\tminFilter: this.minFilter,\n\t\t\tmagFilter: this.magFilter,\n\t\t\tanisotropy: this.anisotropy,\n\n\t\t\tflipY: this.flipY,\n\n\t\t\tgenerateMipmaps: this.generateMipmaps,\n\t\t\tpremultiplyAlpha: this.premultiplyAlpha,\n\t\t\tunpackAlignment: this.unpackAlignment\n\n\t\t};\n\n\t\tif ( Object.keys( this.userData ).length > 0 ) output.userData = this.userData;\n\n\t\tif ( ! isRootObject ) {\n\n\t\t\tmeta.textures[ this.uuid ] = output;\n\n\t\t}\n\n\t\treturn output;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires Texture#dispose\n\t */\n\tdispose() {\n\n\t\t/**\n\t\t * Fires when the texture has been disposed of.\n\t\t *\n\t\t * @event Texture#dispose\n\t\t * @type {Object}\n\t\t */\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n\t/**\n\t * Transforms the given uv vector with the textures uv transformation matrix.\n\t *\n\t * @param {Vector2} uv - The uv vector.\n\t * @return {Vector2} The transformed uv vector.\n\t */\n\ttransformUv( uv ) {\n\n\t\tif ( this.mapping !== UVMapping ) return uv;\n\n\t\tuv.applyMatrix3( this.matrix );\n\n\t\tif ( uv.x < 0 || uv.x > 1 ) {\n\n\t\t\tswitch ( this.wrapS ) {\n\n\t\t\t\tcase RepeatWrapping:\n\n\t\t\t\t\tuv.x = uv.x - Math.floor( uv.x );\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase ClampToEdgeWrapping:\n\n\t\t\t\t\tuv.x = uv.x < 0 ? 0 : 1;\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase MirroredRepeatWrapping:\n\n\t\t\t\t\tif ( Math.abs( Math.floor( uv.x ) % 2 ) === 1 ) {\n\n\t\t\t\t\t\tuv.x = Math.ceil( uv.x ) - uv.x;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tuv.x = uv.x - Math.floor( uv.x );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( uv.y < 0 || uv.y > 1 ) {\n\n\t\t\tswitch ( this.wrapT ) {\n\n\t\t\t\tcase RepeatWrapping:\n\n\t\t\t\t\tuv.y = uv.y - Math.floor( uv.y );\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase ClampToEdgeWrapping:\n\n\t\t\t\t\tuv.y = uv.y < 0 ? 0 : 1;\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase MirroredRepeatWrapping:\n\n\t\t\t\t\tif ( Math.abs( Math.floor( uv.y ) % 2 ) === 1 ) {\n\n\t\t\t\t\t\tuv.y = Math.ceil( uv.y ) - uv.y;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tuv.y = uv.y - Math.floor( uv.y );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.flipY ) {\n\n\t\t\tuv.y = 1 - uv.y;\n\n\t\t}\n\n\t\treturn uv;\n\n\t}\n\n\t/**\n\t * Setting this property to `true` indicates the engine the texture\n\t * must be updated in the next render. This triggers a texture upload\n\t * to the GPU and ensures correct texture parameter configuration.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) {\n\n\t\t\tthis.version ++;\n\t\t\tthis.source.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Setting this property to `true` indicates the engine the PMREM\n\t * must be regenerated.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsPMREMUpdate( value ) {\n\n\t\tif ( value === true ) {\n\n\t\t\tthis.pmremVersion ++;\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * The default image for all textures.\n *\n * @static\n * @type {?Image}\n * @default null\n */\nTexture.DEFAULT_IMAGE = null;\n\n/**\n * The default mapping for all textures.\n *\n * @static\n * @type {number}\n * @default UVMapping\n */\nTexture.DEFAULT_MAPPING = UVMapping;\n\n/**\n * The default anisotropy value for all textures.\n *\n * @static\n * @type {number}\n * @default 1\n */\nTexture.DEFAULT_ANISOTROPY = 1;\n\n/**\n * Class representing a 4D vector. A 4D vector is an ordered quadruplet of numbers\n * (labeled x, y, z and w), which can be used to represent a number of things, such as:\n *\n * - A point in 4D space.\n * - A direction and length in 4D space. In three.js the length will\n * always be the Euclidean distance(straight-line distance) from `(0, 0, 0, 0)` to `(x, y, z, w)`\n * and the direction is also measured from `(0, 0, 0, 0)` towards `(x, y, z, w)`.\n * - Any arbitrary ordered quadruplet of numbers.\n *\n * There are other things a 4D vector can be used to represent, however these\n * are the most common uses in *three.js*.\n *\n * Iterating through a vector instance will yield its components `(x, y, z, w)` in\n * the corresponding order.\n * ```js\n * const a = new THREE.Vector4( 0, 1, 0, 0 );\n *\n * //no arguments; will be initialised to (0, 0, 0, 1)\n * const b = new THREE.Vector4( );\n *\n * const d = a.dot( b );\n * ```\n */\nclass Vector4 {\n\n\t/**\n\t * Constructs a new 4D vector.\n\t *\n\t * @param {number} [x=0] - The x value of this vector.\n\t * @param {number} [y=0] - The y value of this vector.\n\t * @param {number} [z=0] - The z value of this vector.\n\t * @param {number} [w=1] - The w value of this vector.\n\t */\n\tconstructor( x = 0, y = 0, z = 0, w = 1 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tVector4.prototype.isVector4 = true;\n\n\t\t/**\n\t\t * The x value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.x = x;\n\n\t\t/**\n\t\t * The y value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.y = y;\n\n\t\t/**\n\t\t * The z value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.z = z;\n\n\t\t/**\n\t\t * The w value of this vector.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.w = w;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector4#z}.\n\t *\n\t * @type {number}\n\t */\n\tget width() {\n\n\t\treturn this.z;\n\n\t}\n\n\tset width( value ) {\n\n\t\tthis.z = value;\n\n\t}\n\n\t/**\n\t * Alias for {@link Vector4#w}.\n\t *\n\t * @type {number}\n\t */\n\tget height() {\n\n\t\treturn this.w;\n\n\t}\n\n\tset height( value ) {\n\n\t\tthis.w = value;\n\n\t}\n\n\t/**\n\t * Sets the vector components.\n\t *\n\t * @param {number} x - The value of the x component.\n\t * @param {number} y - The value of the y component.\n\t * @param {number} z - The value of the z component.\n\t * @param {number} w - The value of the w component.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tset( x, y, z, w ) {\n\n\t\tthis.x = x;\n\t\tthis.y = y;\n\t\tthis.z = z;\n\t\tthis.w = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the same value.\n\t *\n\t * @param {number} scalar - The value to set for all vector components.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.x = scalar;\n\t\tthis.y = scalar;\n\t\tthis.z = scalar;\n\t\tthis.w = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's x component to the given value\n\t *\n\t * @param {number} x - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetX( x ) {\n\n\t\tthis.x = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's y component to the given value\n\t *\n\t * @param {number} y - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetY( y ) {\n\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's z component to the given value\n\t *\n\t * @param {number} z - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetZ( z ) {\n\n\t\tthis.z = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector's w component to the given value\n\t *\n\t * @param {number} w - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetW( w ) {\n\n\t\tthis.w = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Allows to set a vector component with an index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y,\n\t * `2` equals to z, `3` equals to w.\n\t * @param {number} value - The value to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetComponent( index, value ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: this.x = value; break;\n\t\t\tcase 1: this.y = value; break;\n\t\t\tcase 2: this.z = value; break;\n\t\t\tcase 3: this.w = value; break;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the value of the vector component which matches the given index.\n\t *\n\t * @param {number} index - The component index. `0` equals to x, `1` equals to y,\n\t * `2` equals to z, `3` equals to w.\n\t * @return {number} A vector component value.\n\t */\n\tgetComponent( index ) {\n\n\t\tswitch ( index ) {\n\n\t\t\tcase 0: return this.x;\n\t\t\tcase 1: return this.y;\n\t\t\tcase 2: return this.z;\n\t\t\tcase 3: return this.w;\n\t\t\tdefault: throw new Error( 'index is out of range: ' + index );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new vector with copied values from this instance.\n\t *\n\t * @return {Vector4} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.x, this.y, this.z, this.w );\n\n\t}\n\n\t/**\n\t * Copies the values of the given vector to this instance.\n\t *\n\t * @param {Vector3|Vector4} v - The vector to copy.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tcopy( v ) {\n\n\t\tthis.x = v.x;\n\t\tthis.y = v.y;\n\t\tthis.z = v.z;\n\t\tthis.w = ( v.w !== undefined ) ? v.w : 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector to this instance.\n\t *\n\t * @param {Vector4} v - The vector to add.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tadd( v ) {\n\n\t\tthis.x += v.x;\n\t\tthis.y += v.y;\n\t\tthis.z += v.z;\n\t\tthis.w += v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to all components of this instance.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.x += s;\n\t\tthis.y += s;\n\t\tthis.z += s;\n\t\tthis.w += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector4} a - The first vector.\n\t * @param {Vector4} b - The second vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\taddVectors( a, b ) {\n\n\t\tthis.x = a.x + b.x;\n\t\tthis.y = a.y + b.y;\n\t\tthis.z = a.z + b.z;\n\t\tthis.w = a.w + b.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given vector scaled by the given factor to this instance.\n\t *\n\t * @param {Vector4} v - The vector.\n\t * @param {number} s - The factor that scales `v`.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\taddScaledVector( v, s ) {\n\n\t\tthis.x += v.x * s;\n\t\tthis.y += v.y * s;\n\t\tthis.z += v.z * s;\n\t\tthis.w += v.w * s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vector from this instance.\n\t *\n\t * @param {Vector4} v - The vector to subtract.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsub( v ) {\n\n\t\tthis.x -= v.x;\n\t\tthis.y -= v.y;\n\t\tthis.z -= v.z;\n\t\tthis.w -= v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given scalar value from all components of this instance.\n\t *\n\t * @param {number} s - The scalar to subtract.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsubScalar( s ) {\n\n\t\tthis.x -= s;\n\t\tthis.y -= s;\n\t\tthis.z -= s;\n\t\tthis.w -= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the given vectors and stores the result in this instance.\n\t *\n\t * @param {Vector4} a - The first vector.\n\t * @param {Vector4} b - The second vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsubVectors( a, b ) {\n\n\t\tthis.x = a.x - b.x;\n\t\tthis.y = a.y - b.y;\n\t\tthis.z = a.z - b.z;\n\t\tthis.w = a.w - b.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given vector with this instance.\n\t *\n\t * @param {Vector4} v - The vector to multiply.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmultiply( v ) {\n\n\t\tthis.x *= v.x;\n\t\tthis.y *= v.y;\n\t\tthis.z *= v.z;\n\t\tthis.w *= v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with all components of this instance.\n\t *\n\t * @param {number} scalar - The scalar to multiply.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmultiplyScalar( scalar ) {\n\n\t\tthis.x *= scalar;\n\t\tthis.y *= scalar;\n\t\tthis.z *= scalar;\n\t\tthis.w *= scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies this vector with the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tconst x = this.x, y = this.y, z = this.z, w = this.w;\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 0 ] * x + e[ 4 ] * y + e[ 8 ] * z + e[ 12 ] * w;\n\t\tthis.y = e[ 1 ] * x + e[ 5 ] * y + e[ 9 ] * z + e[ 13 ] * w;\n\t\tthis.z = e[ 2 ] * x + e[ 6 ] * y + e[ 10 ] * z + e[ 14 ] * w;\n\t\tthis.w = e[ 3 ] * x + e[ 7 ] * y + e[ 11 ] * z + e[ 15 ] * w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this instance by the given vector.\n\t *\n\t * @param {Vector4} v - The vector to divide.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tdivide( v ) {\n\n\t\tthis.x /= v.x;\n\t\tthis.y /= v.y;\n\t\tthis.z /= v.z;\n\t\tthis.w /= v.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Divides this vector by the given scalar.\n\t *\n\t * @param {number} scalar - The scalar to divide.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tdivideScalar( scalar ) {\n\n\t\treturn this.multiplyScalar( 1 / scalar );\n\n\t}\n\n\t/**\n\t * Sets the x, y and z components of this\n\t * vector to the quaternion's axis and w to the angle.\n\t *\n\t * @param {Quaternion} q - The Quaternion to set.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetAxisAngleFromQuaternion( q ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/quaternionToAngle/index.htm\n\n\t\t// q is assumed to be normalized\n\n\t\tthis.w = 2 * Math.acos( q.w );\n\n\t\tconst s = Math.sqrt( 1 - q.w * q.w );\n\n\t\tif ( s < 0.0001 ) {\n\n\t\t\tthis.x = 1;\n\t\t\tthis.y = 0;\n\t\t\tthis.z = 0;\n\n\t\t} else {\n\n\t\t\tthis.x = q.x / s;\n\t\t\tthis.y = q.y / s;\n\t\t\tthis.z = q.z / s;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y and z components of this\n\t * vector to the axis of rotation and w to the angle.\n\t *\n\t * @param {Matrix4} m - A 4x4 matrix of which the upper left 3x3 matrix is a pure rotation matrix.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetAxisAngleFromRotationMatrix( m ) {\n\n\t\t// http://www.euclideanspace.com/maths/geometry/rotations/conversions/matrixToAngle/index.htm\n\n\t\t// assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled)\n\n\t\tlet angle, x, y, z; // variables for result\n\t\tconst epsilon = 0.01,\t\t// margin to allow for rounding errors\n\t\t\tepsilon2 = 0.1,\t\t// margin to distinguish between 0 and 180 degrees\n\n\t\t\tte = m.elements,\n\n\t\t\tm11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ],\n\t\t\tm21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ],\n\t\t\tm31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ];\n\n\t\tif ( ( Math.abs( m12 - m21 ) < epsilon ) &&\n\t\t ( Math.abs( m13 - m31 ) < epsilon ) &&\n\t\t ( Math.abs( m23 - m32 ) < epsilon ) ) {\n\n\t\t\t// singularity found\n\t\t\t// first check for identity matrix which must have +1 for all terms\n\t\t\t// in leading diagonal and zero in other terms\n\n\t\t\tif ( ( Math.abs( m12 + m21 ) < epsilon2 ) &&\n\t\t\t ( Math.abs( m13 + m31 ) < epsilon2 ) &&\n\t\t\t ( Math.abs( m23 + m32 ) < epsilon2 ) &&\n\t\t\t ( Math.abs( m11 + m22 + m33 - 3 ) < epsilon2 ) ) {\n\n\t\t\t\t// this singularity is identity matrix so angle = 0\n\n\t\t\t\tthis.set( 1, 0, 0, 0 );\n\n\t\t\t\treturn this; // zero angle, arbitrary axis\n\n\t\t\t}\n\n\t\t\t// otherwise this singularity is angle = 180\n\n\t\t\tangle = Math.PI;\n\n\t\t\tconst xx = ( m11 + 1 ) / 2;\n\t\t\tconst yy = ( m22 + 1 ) / 2;\n\t\t\tconst zz = ( m33 + 1 ) / 2;\n\t\t\tconst xy = ( m12 + m21 ) / 4;\n\t\t\tconst xz = ( m13 + m31 ) / 4;\n\t\t\tconst yz = ( m23 + m32 ) / 4;\n\n\t\t\tif ( ( xx > yy ) && ( xx > zz ) ) {\n\n\t\t\t\t// m11 is the largest diagonal term\n\n\t\t\t\tif ( xx < epsilon ) {\n\n\t\t\t\t\tx = 0;\n\t\t\t\t\ty = 0.707106781;\n\t\t\t\t\tz = 0.707106781;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tx = Math.sqrt( xx );\n\t\t\t\t\ty = xy / x;\n\t\t\t\t\tz = xz / x;\n\n\t\t\t\t}\n\n\t\t\t} else if ( yy > zz ) {\n\n\t\t\t\t// m22 is the largest diagonal term\n\n\t\t\t\tif ( yy < epsilon ) {\n\n\t\t\t\t\tx = 0.707106781;\n\t\t\t\t\ty = 0;\n\t\t\t\t\tz = 0.707106781;\n\n\t\t\t\t} else {\n\n\t\t\t\t\ty = Math.sqrt( yy );\n\t\t\t\t\tx = xy / y;\n\t\t\t\t\tz = yz / y;\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// m33 is the largest diagonal term so base result on this\n\n\t\t\t\tif ( zz < epsilon ) {\n\n\t\t\t\t\tx = 0.707106781;\n\t\t\t\t\ty = 0.707106781;\n\t\t\t\t\tz = 0;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tz = Math.sqrt( zz );\n\t\t\t\t\tx = xz / z;\n\t\t\t\t\ty = yz / z;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.set( x, y, z, angle );\n\n\t\t\treturn this; // return 180 deg rotation\n\n\t\t}\n\n\t\t// as we have reached here there are no singularities so we can handle normally\n\n\t\tlet s = Math.sqrt( ( m32 - m23 ) * ( m32 - m23 ) +\n\t\t\t( m13 - m31 ) * ( m13 - m31 ) +\n\t\t\t( m21 - m12 ) * ( m21 - m12 ) ); // used to normalize\n\n\t\tif ( Math.abs( s ) < 0.001 ) s = 1;\n\n\t\t// prevent divide by zero, should not happen if matrix is orthogonal and should be\n\t\t// caught by singularity test above, but I've left it in just in case\n\n\t\tthis.x = ( m32 - m23 ) / s;\n\t\tthis.y = ( m13 - m31 ) / s;\n\t\tthis.z = ( m21 - m12 ) / s;\n\t\tthis.w = Math.acos( ( m11 + m22 + m33 - 1 ) / 2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the vector components to the position elements of the\n\t * given transformation matrix.\n\t *\n\t * @param {Matrix4} m - The 4x4 matrix.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetFromMatrixPosition( m ) {\n\n\t\tconst e = m.elements;\n\n\t\tthis.x = e[ 12 ];\n\t\tthis.y = e[ 13 ];\n\t\tthis.z = e[ 14 ];\n\t\tthis.w = e[ 15 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w value is greater than the given vector's x, y, z or w\n\t * value, replace that value with the corresponding min value.\n\t *\n\t * @param {Vector4} v - The vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmin( v ) {\n\n\t\tthis.x = Math.min( this.x, v.x );\n\t\tthis.y = Math.min( this.y, v.y );\n\t\tthis.z = Math.min( this.z, v.z );\n\t\tthis.w = Math.min( this.w, v.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w value is less than the given vector's x, y, z or w\n\t * value, replace that value with the corresponding max value.\n\t *\n\t * @param {Vector4} v - The vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tmax( v ) {\n\n\t\tthis.x = Math.max( this.x, v.x );\n\t\tthis.y = Math.max( this.y, v.y );\n\t\tthis.z = Math.max( this.z, v.z );\n\t\tthis.w = Math.max( this.w, v.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w value is greater than the max vector's x, y, z or w\n\t * value, it is replaced by the corresponding value.\n\t * If this vector's x, y, z or w value is less than the min vector's x, y, z or w value,\n\t * it is replaced by the corresponding value.\n\t *\n\t * @param {Vector4} min - The minimum x, y and z values.\n\t * @param {Vector4} max - The maximum x, y and z values in the desired range.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tclamp( min, max ) {\n\n\t\t// assumes min < max, componentwise\n\n\t\tthis.x = clamp( this.x, min.x, max.x );\n\t\tthis.y = clamp( this.y, min.y, max.y );\n\t\tthis.z = clamp( this.z, min.z, max.z );\n\t\tthis.w = clamp( this.w, min.w, max.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's x, y, z or w values are greater than the max value, they are\n\t * replaced by the max value.\n\t * If this vector's x, y, z or w values are less than the min value, they are\n\t * replaced by the min value.\n\t *\n\t * @param {number} minVal - The minimum value the components will be clamped to.\n\t * @param {number} maxVal - The maximum value the components will be clamped to.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tclampScalar( minVal, maxVal ) {\n\n\t\tthis.x = clamp( this.x, minVal, maxVal );\n\t\tthis.y = clamp( this.y, minVal, maxVal );\n\t\tthis.z = clamp( this.z, minVal, maxVal );\n\t\tthis.w = clamp( this.w, minVal, maxVal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * If this vector's length is greater than the max value, it is replaced by\n\t * the max value.\n\t * If this vector's length is less than the min value, it is replaced by the\n\t * min value.\n\t *\n\t * @param {number} min - The minimum value the vector length will be clamped to.\n\t * @param {number} max - The maximum value the vector length will be clamped to.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tclampLength( min, max ) {\n\n\t\tconst length = this.length();\n\n\t\treturn this.divideScalar( length || 1 ).multiplyScalar( clamp( length, min, max ) );\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded down to the nearest integer value.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tfloor() {\n\n\t\tthis.x = Math.floor( this.x );\n\t\tthis.y = Math.floor( this.y );\n\t\tthis.z = Math.floor( this.z );\n\t\tthis.w = Math.floor( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded up to the nearest integer value.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tceil() {\n\n\t\tthis.x = Math.ceil( this.x );\n\t\tthis.y = Math.ceil( this.y );\n\t\tthis.z = Math.ceil( this.z );\n\t\tthis.w = Math.ceil( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded to the nearest integer value\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tround() {\n\n\t\tthis.x = Math.round( this.x );\n\t\tthis.y = Math.round( this.y );\n\t\tthis.z = Math.round( this.z );\n\t\tthis.w = Math.round( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The components of this vector are rounded towards zero (up if negative,\n\t * down if positive) to an integer value.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\troundToZero() {\n\n\t\tthis.x = Math.trunc( this.x );\n\t\tthis.y = Math.trunc( this.y );\n\t\tthis.z = Math.trunc( this.z );\n\t\tthis.w = Math.trunc( this.w );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this vector - i.e. sets x = -x, y = -y, z = -z, w = -w.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tnegate() {\n\n\t\tthis.x = - this.x;\n\t\tthis.y = - this.y;\n\t\tthis.z = - this.z;\n\t\tthis.w = - this.w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Calculates the dot product of the given vector with this instance.\n\t *\n\t * @param {Vector4} v - The vector to compute the dot product with.\n\t * @return {number} The result of the dot product.\n\t */\n\tdot( v ) {\n\n\t\treturn this.x * v.x + this.y * v.y + this.z * v.z + this.w * v.w;\n\n\t}\n\n\t/**\n\t * Computes the square of the Euclidean length (straight-line length) from\n\t * (0, 0, 0, 0) to (x, y, z, w). If you are comparing the lengths of vectors, you should\n\t * compare the length squared instead as it is slightly more efficient to calculate.\n\t *\n\t * @return {number} The square length of this vector.\n\t */\n\tlengthSq() {\n\n\t\treturn this.x * this.x + this.y * this.y + this.z * this.z + this.w * this.w;\n\n\t}\n\n\t/**\n\t * Computes the Euclidean length (straight-line length) from (0, 0, 0, 0) to (x, y, z, w).\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tlength() {\n\n\t\treturn Math.sqrt( this.x * this.x + this.y * this.y + this.z * this.z + this.w * this.w );\n\n\t}\n\n\t/**\n\t * Computes the Manhattan length of this vector.\n\t *\n\t * @return {number} The length of this vector.\n\t */\n\tmanhattanLength() {\n\n\t\treturn Math.abs( this.x ) + Math.abs( this.y ) + Math.abs( this.z ) + Math.abs( this.w );\n\n\t}\n\n\t/**\n\t * Converts this vector to a unit vector - that is, sets it equal to a vector\n\t * with the same direction as this one, but with a vector length of `1`.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tnormalize() {\n\n\t\treturn this.divideScalar( this.length() || 1 );\n\n\t}\n\n\t/**\n\t * Sets this vector to a vector with the same direction as this one, but\n\t * with the specified length.\n\t *\n\t * @param {number} length - The new length of this vector.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tsetLength( length ) {\n\n\t\treturn this.normalize().multiplyScalar( length );\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vector and this instance, where\n\t * alpha is the percent distance along the line - alpha = 0 will be this\n\t * vector, and alpha = 1 will be the given one.\n\t *\n\t * @param {Vector4} v - The vector to interpolate towards.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tlerp( v, alpha ) {\n\n\t\tthis.x += ( v.x - this.x ) * alpha;\n\t\tthis.y += ( v.y - this.y ) * alpha;\n\t\tthis.z += ( v.z - this.z ) * alpha;\n\t\tthis.w += ( v.w - this.w ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given vectors, where alpha is the percent\n\t * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n\t * be the second one. The result is stored in this instance.\n\t *\n\t * @param {Vector4} v1 - The first vector.\n\t * @param {Vector4} v2 - The second vector.\n\t * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tlerpVectors( v1, v2, alpha ) {\n\n\t\tthis.x = v1.x + ( v2.x - v1.x ) * alpha;\n\t\tthis.y = v1.y + ( v2.y - v1.y ) * alpha;\n\t\tthis.z = v1.z + ( v2.z - v1.z ) * alpha;\n\t\tthis.w = v1.w + ( v2.w - v1.w ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this vector is equal with the given one.\n\t *\n\t * @param {Vector4} v - The vector to test for equality.\n\t * @return {boolean} Whether this vector is equal with the given one.\n\t */\n\tequals( v ) {\n\n\t\treturn ( ( v.x === this.x ) && ( v.y === this.y ) && ( v.z === this.z ) && ( v.w === this.w ) );\n\n\t}\n\n\t/**\n\t * Sets this vector's x value to be `array[ offset ]`, y value to be `array[ offset + 1 ]`,\n\t * z value to be `array[ offset + 2 ]`, w value to be `array[ offset + 3 ]`.\n\t *\n\t * @param {Array} array - An array holding the vector component values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.x = array[ offset ];\n\t\tthis.y = array[ offset + 1 ];\n\t\tthis.z = array[ offset + 2 ];\n\t\tthis.w = array[ offset + 3 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this vector to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the vector components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The vector components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.x;\n\t\tarray[ offset + 1 ] = this.y;\n\t\tarray[ offset + 2 ] = this.z;\n\t\tarray[ offset + 3 ] = this.w;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this vector from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Vector4} A reference to this vector.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.x = attribute.getX( index );\n\t\tthis.y = attribute.getY( index );\n\t\tthis.z = attribute.getZ( index );\n\t\tthis.w = attribute.getW( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets each component of this vector to a pseudo-random value between `0` and\n\t * `1`, excluding `1`.\n\t *\n\t * @return {Vector4} A reference to this vector.\n\t */\n\trandom() {\n\n\t\tthis.x = Math.random();\n\t\tthis.y = Math.random();\n\t\tthis.z = Math.random();\n\t\tthis.w = Math.random();\n\n\t\treturn this;\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.x;\n\t\tyield this.y;\n\t\tyield this.z;\n\t\tyield this.w;\n\n\t}\n\n}\n\n/**\n * A render target is a buffer where the video card draws pixels for a scene\n * that is being rendered in the background. It is used in different effects,\n * such as applying postprocessing to a rendered image before displaying it\n * on the screen.\n *\n * @augments EventDispatcher\n */\nclass RenderTarget extends EventDispatcher {\n\n\t/**\n\t * Render target options.\n\t *\n\t * @typedef {Object} RenderTarget~Options\n\t * @property {boolean} [generateMipmaps=false] - Whether to generate mipmaps or not.\n\t * @property {number} [magFilter=LinearFilter] - The mag filter.\n\t * @property {number} [minFilter=LinearFilter] - The min filter.\n\t * @property {number} [format=RGBAFormat] - The texture format.\n\t * @property {number} [type=UnsignedByteType] - The texture type.\n\t * @property {?string} [internalFormat=null] - The texture's internal format.\n\t * @property {number} [wrapS=ClampToEdgeWrapping] - The texture's uv wrapping mode.\n\t * @property {number} [wrapT=ClampToEdgeWrapping] - The texture's uv wrapping mode.\n\t * @property {number} [anisotropy=1] - The texture's anisotropy value.\n\t * @property {string} [colorSpace=NoColorSpace] - The texture's color space.\n\t * @property {boolean} [depthBuffer=true] - Whether to allocate a depth buffer or not.\n\t * @property {boolean} [stencilBuffer=false] - Whether to allocate a stencil buffer or not.\n\t * @property {boolean} [resolveDepthBuffer=true] - Whether to resolve the depth buffer or not.\n\t * @property {boolean} [resolveStencilBuffer=true] - Whether to resolve the stencil buffer or not.\n\t * @property {?Texture} [depthTexture=null] - Reference to a depth texture.\n\t * @property {number} [samples=0] - The MSAA samples count.\n\t * @property {number} [count=1] - Defines the number of color attachments . Must be at least `1`.\n\t * @property {number} [depth=1] - The texture depth.\n\t * @property {boolean} [multiview=false] - Whether this target is used for multiview rendering.\n\t */\n\n\t/**\n\t * Constructs a new render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, options = {} ) {\n\n\t\tsuper();\n\n\t\toptions = Object.assign( {\n\t\t\tgenerateMipmaps: false,\n\t\t\tinternalFormat: null,\n\t\t\tminFilter: LinearFilter,\n\t\t\tdepthBuffer: true,\n\t\t\tstencilBuffer: false,\n\t\t\tresolveDepthBuffer: true,\n\t\t\tresolveStencilBuffer: true,\n\t\t\tdepthTexture: null,\n\t\t\tsamples: 0,\n\t\t\tcount: 1,\n\t\t\tdepth: 1,\n\t\t\tmultiview: false\n\t\t}, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRenderTarget = true;\n\n\t\t/**\n\t\t * The width of the render target.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.width = width;\n\n\t\t/**\n\t\t * The height of the render target.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.height = height;\n\n\t\t/**\n\t\t * The depth of the render target.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.depth = options.depth;\n\n\t\t/**\n\t\t * A rectangular area inside the render target's viewport. Fragments that are\n\t\t * outside the area will be discarded.\n\t\t *\n\t\t * @type {Vector4}\n\t\t * @default (0,0,width,height)\n\t\t */\n\t\tthis.scissor = new Vector4( 0, 0, width, height );\n\n\t\t/**\n\t\t * Indicates whether the scissor test should be enabled when rendering into\n\t\t * this render target or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.scissorTest = false;\n\n\t\t/**\n\t\t * A rectangular area representing the render target's viewport.\n\t\t *\n\t\t * @type {Vector4}\n\t\t * @default (0,0,width,height)\n\t\t */\n\t\tthis.viewport = new Vector4( 0, 0, width, height );\n\n\t\tconst image = { width: width, height: height, depth: options.depth };\n\n\t\tconst texture = new Texture( image );\n\n\t\t/**\n\t\t * An array of textures. Each color attachment is represented as a separate texture.\n\t\t * Has at least a single entry for the default color attachment.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.textures = [];\n\n\t\tconst count = options.count;\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.textures[ i ] = texture.clone();\n\t\t\tthis.textures[ i ].isRenderTargetTexture = true;\n\t\t\tthis.textures[ i ].renderTarget = this;\n\n\t\t}\n\n\t\tthis._setTextureOptions( options );\n\n\t\t/**\n\t\t * Whether to allocate a depth buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.depthBuffer = options.depthBuffer;\n\n\t\t/**\n\t\t * Whether to allocate a stencil buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.stencilBuffer = options.stencilBuffer;\n\n\t\t/**\n\t\t * Whether to resolve the depth buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.resolveDepthBuffer = options.resolveDepthBuffer;\n\n\t\t/**\n\t\t * Whether to resolve the stencil buffer or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.resolveStencilBuffer = options.resolveStencilBuffer;\n\n\t\tthis._depthTexture = null;\n\t\tthis.depthTexture = options.depthTexture;\n\n\t\t/**\n\t\t * The number of MSAA samples.\n\t\t *\n\t\t * A value of `0` disables MSAA.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.samples = options.samples;\n\n\t\t/**\n\t\t * Whether to this target is used in multiview rendering.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.multiview = options.multiview;\n\n\t}\n\n\t_setTextureOptions( options = {} ) {\n\n\t\tconst values = {\n\t\t\tminFilter: LinearFilter,\n\t\t\tgenerateMipmaps: false,\n\t\t\tflipY: false,\n\t\t\tinternalFormat: null\n\t\t};\n\n\t\tif ( options.mapping !== undefined ) values.mapping = options.mapping;\n\t\tif ( options.wrapS !== undefined ) values.wrapS = options.wrapS;\n\t\tif ( options.wrapT !== undefined ) values.wrapT = options.wrapT;\n\t\tif ( options.wrapR !== undefined ) values.wrapR = options.wrapR;\n\t\tif ( options.magFilter !== undefined ) values.magFilter = options.magFilter;\n\t\tif ( options.minFilter !== undefined ) values.minFilter = options.minFilter;\n\t\tif ( options.format !== undefined ) values.format = options.format;\n\t\tif ( options.type !== undefined ) values.type = options.type;\n\t\tif ( options.anisotropy !== undefined ) values.anisotropy = options.anisotropy;\n\t\tif ( options.colorSpace !== undefined ) values.colorSpace = options.colorSpace;\n\t\tif ( options.flipY !== undefined ) values.flipY = options.flipY;\n\t\tif ( options.generateMipmaps !== undefined ) values.generateMipmaps = options.generateMipmaps;\n\t\tif ( options.internalFormat !== undefined ) values.internalFormat = options.internalFormat;\n\n\t\tfor ( let i = 0; i < this.textures.length; i ++ ) {\n\n\t\t\tconst texture = this.textures[ i ];\n\t\t\ttexture.setValues( values );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * The texture representing the default color attachment.\n\t *\n\t * @type {Texture}\n\t */\n\tget texture() {\n\n\t\treturn this.textures[ 0 ];\n\n\t}\n\n\tset texture( value ) {\n\n\t\tthis.textures[ 0 ] = value;\n\n\t}\n\n\tset depthTexture( current ) {\n\n\t\tif ( this._depthTexture !== null ) this._depthTexture.renderTarget = null;\n\t\tif ( current !== null ) current.renderTarget = this;\n\n\t\tthis._depthTexture = current;\n\n\t}\n\n\t/**\n\t * Instead of saving the depth in a renderbuffer, a texture\n\t * can be used instead which is useful for further processing\n\t * e.g. in context of post-processing.\n\t *\n\t * @type {?DepthTexture}\n\t * @default null\n\t */\n\tget depthTexture() {\n\n\t\treturn this._depthTexture;\n\n\t}\n\n\t/**\n\t * Sets the size of this render target.\n\t *\n\t * @param {number} width - The width.\n\t * @param {number} height - The height.\n\t * @param {number} [depth=1] - The depth.\n\t */\n\tsetSize( width, height, depth = 1 ) {\n\n\t\tif ( this.width !== width || this.height !== height || this.depth !== depth ) {\n\n\t\t\tthis.width = width;\n\t\t\tthis.height = height;\n\t\t\tthis.depth = depth;\n\n\t\t\tfor ( let i = 0, il = this.textures.length; i < il; i ++ ) {\n\n\t\t\t\tthis.textures[ i ].image.width = width;\n\t\t\t\tthis.textures[ i ].image.height = height;\n\t\t\t\tthis.textures[ i ].image.depth = depth;\n\t\t\t\tthis.textures[ i ].isArrayTexture = this.textures[ i ].image.depth > 1;\n\n\t\t\t}\n\n\t\t\tthis.dispose();\n\n\t\t}\n\n\t\tthis.viewport.set( 0, 0, width, height );\n\t\tthis.scissor.set( 0, 0, width, height );\n\n\t}\n\n\t/**\n\t * Returns a new render target with copied values from this instance.\n\t *\n\t * @return {RenderTarget} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the settings of the given render target. This is a structural copy so\n\t * no resources are shared between render targets after the copy. That includes\n\t * all MRT textures and the depth texture.\n\t *\n\t * @param {RenderTarget} source - The render target to copy.\n\t * @return {RenderTarget} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.width = source.width;\n\t\tthis.height = source.height;\n\t\tthis.depth = source.depth;\n\n\t\tthis.scissor.copy( source.scissor );\n\t\tthis.scissorTest = source.scissorTest;\n\n\t\tthis.viewport.copy( source.viewport );\n\n\t\tthis.textures.length = 0;\n\n\t\tfor ( let i = 0, il = source.textures.length; i < il; i ++ ) {\n\n\t\t\tthis.textures[ i ] = source.textures[ i ].clone();\n\t\t\tthis.textures[ i ].isRenderTargetTexture = true;\n\t\t\tthis.textures[ i ].renderTarget = this;\n\n\t\t\t// ensure image object is not shared, see #20328\n\n\t\t\tconst image = Object.assign( {}, source.textures[ i ].image );\n\t\t\tthis.textures[ i ].source = new Source( image );\n\n\t\t}\n\n\t\tthis.depthBuffer = source.depthBuffer;\n\t\tthis.stencilBuffer = source.stencilBuffer;\n\n\t\tthis.resolveDepthBuffer = source.resolveDepthBuffer;\n\t\tthis.resolveStencilBuffer = source.resolveStencilBuffer;\n\n\t\tif ( source.depthTexture !== null ) this.depthTexture = source.depthTexture.clone();\n\n\t\tthis.samples = source.samples;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires RenderTarget#dispose\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n}\n\n/**\n * A render target used in context of {@link WebGLRenderer}.\n *\n * @augments RenderTarget\n */\nclass WebGLRenderTarget extends RenderTarget {\n\n\t/**\n\t * Constructs a new 3D render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGLRenderTarget = true;\n\n\t}\n\n}\n\n/**\n * Creates an array of textures directly from raw buffer data.\n *\n * @augments Texture\n */\nclass DataArrayTexture extends Texture {\n\n\t/**\n\t * Constructs a new data array texture.\n\t *\n\t * @param {?TypedArray} [data=null] - The buffer data.\n\t * @param {number} [width=1] - The width of the texture.\n\t * @param {number} [height=1] - The height of the texture.\n\t * @param {number} [depth=1] - The depth of the texture.\n\t */\n\tconstructor( data = null, width = 1, height = 1, depth = 1 ) {\n\n\t\tsuper( null );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDataArrayTexture = true;\n\n\t\t/**\n\t\t * The image definition of a data texture.\n\t\t *\n\t\t * @type {{data:TypedArray,width:number,height:number,depth:number}}\n\t\t */\n\t\tthis.image = { data, width, height, depth };\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.magFilter = NearestFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.minFilter = NearestFilter;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped in the depth and corresponds to\n\t\t * *W* in UVW mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapR = ClampToEdgeWrapping;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t *\n\t\t * Overwritten and set to `1` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default 1\n\t\t */\n\t\tthis.unpackAlignment = 1;\n\n\t\t/**\n\t\t * A set of all layers which need to be updated in the texture.\n\t\t *\n\t\t * @type {Set}\n\t\t */\n\t\tthis.layerUpdates = new Set();\n\n\t}\n\n\t/**\n\t * Describes that a specific layer of the texture needs to be updated.\n\t * Normally when {@link Texture#needsUpdate} is set to `true`, the\n\t * entire data texture array is sent to the GPU. Marking specific\n\t * layers will only transmit subsets of all mipmaps associated with a\n\t * specific depth in the array which is often much more performant.\n\t *\n\t * @param {number} layerIndex - The layer index that should be updated.\n\t */\n\taddLayerUpdate( layerIndex ) {\n\n\t\tthis.layerUpdates.add( layerIndex );\n\n\t}\n\n\t/**\n\t * Resets the layer updates registry.\n\t */\n\tclearLayerUpdates() {\n\n\t\tthis.layerUpdates.clear();\n\n\t}\n\n}\n\n/**\n * An array render target used in context of {@link WebGLRenderer}.\n *\n * @augments WebGLRenderTarget\n */\nclass WebGLArrayRenderTarget extends WebGLRenderTarget {\n\n\t/**\n\t * Constructs a new array render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {number} [depth=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGLArrayRenderTarget = true;\n\n\t\tthis.depth = depth;\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {DataArrayTexture}\n\t\t */\n\t\tthis.texture = new DataArrayTexture( null, width, height, depth );\n\t\tthis._setTextureOptions( options );\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n}\n\n/**\n * Creates a three-dimensional texture from raw data, with parameters to\n * divide it into width, height, and depth.\n *\n * @augments Texture\n */\nclass Data3DTexture extends Texture {\n\n\t/**\n\t * Constructs a new data array texture.\n\t *\n\t * @param {?TypedArray} [data=null] - The buffer data.\n\t * @param {number} [width=1] - The width of the texture.\n\t * @param {number} [height=1] - The height of the texture.\n\t * @param {number} [depth=1] - The depth of the texture.\n\t */\n\tconstructor( data = null, width = 1, height = 1, depth = 1 ) {\n\n\t\t// We're going to add .setXXX() methods for setting properties later.\n\t\t// Users can still set in Data3DTexture directly.\n\t\t//\n\t\t//\tconst texture = new THREE.Data3DTexture( data, width, height, depth );\n\t\t// \ttexture.anisotropy = 16;\n\t\t//\n\t\t// See #14839\n\n\t\tsuper( null );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isData3DTexture = true;\n\n\t\t/**\n\t\t * The image definition of a data texture.\n\t\t *\n\t\t * @type {{data:TypedArray,width:number,height:number,depth:number}}\n\t\t */\n\t\tthis.image = { data, width, height, depth };\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.magFilter = NearestFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.minFilter = NearestFilter;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped in the depth and corresponds to\n\t\t * *W* in UVW mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapR = ClampToEdgeWrapping;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t *\n\t\t * Overwritten and set to `1` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default 1\n\t\t */\n\t\tthis.unpackAlignment = 1;\n\n\t}\n\n}\n\n/**\n * A 3D render target used in context of {@link WebGLRenderer}.\n *\n * @augments WebGLRenderTarget\n */\nclass WebGL3DRenderTarget extends WebGLRenderTarget {\n\n\t/**\n\t * Constructs a new 3D render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {number} [depth=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGL3DRenderTarget = true;\n\n\t\tthis.depth = depth;\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {Data3DTexture}\n\t\t */\n\t\tthis.texture = new Data3DTexture( null, width, height, depth );\n\t\tthis._setTextureOptions( options );\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n}\n\n/**\n * Represents an axis-aligned bounding box (AABB) in 3D space.\n */\nclass Box3 {\n\n\t/**\n\t * Constructs a new bounding box.\n\t *\n\t * @param {Vector3} [min=(Infinity,Infinity,Infinity)] - A vector representing the lower boundary of the box.\n\t * @param {Vector3} [max=(-Infinity,-Infinity,-Infinity)] - A vector representing the upper boundary of the box.\n\t */\n\tconstructor( min = new Vector3( + Infinity, + Infinity, + Infinity ), max = new Vector3( - Infinity, - Infinity, - Infinity ) ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBox3 = true;\n\n\t\t/**\n\t\t * The lower boundary of the box.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.min = min;\n\n\t\t/**\n\t\t * The upper boundary of the box.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.max = max;\n\n\t}\n\n\t/**\n\t * Sets the lower and upper boundaries of this box.\n\t * Please note that this method only copies the values from the given objects.\n\t *\n\t * @param {Vector3} min - The lower boundary of the box.\n\t * @param {Vector3} max - The upper boundary of the box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tset( min, max ) {\n\n\t\tthis.min.copy( min );\n\t\tthis.max.copy( max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given array.\n\t *\n\t * @param {Array} array - An array holding 3D position data.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromArray( array ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = array.length; i < il; i += 3 ) {\n\n\t\t\tthis.expandByPoint( _vector$b.fromArray( array, i ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - A buffer attribute holding 3D position data.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromBufferAttribute( attribute ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = attribute.count; i < il; i ++ ) {\n\n\t\t\tthis.expandByPoint( _vector$b.fromBufferAttribute( attribute, i ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given array.\n\t *\n\t * @param {Array} points - An array holding 3D position data as instances of {@link Vector3}.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = points.length; i < il; i ++ ) {\n\n\t\t\tthis.expandByPoint( points[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Centers this box on the given center vector and sets this box's width, height and\n\t * depth to the given size values.\n\t *\n\t * @param {Vector3} center - The center of the box.\n\t * @param {Vector3} size - The x, y and z dimensions of the box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromCenterAndSize( center, size ) {\n\n\t\tconst halfSize = _vector$b.copy( size ).multiplyScalar( 0.5 );\n\n\t\tthis.min.copy( center ).sub( halfSize );\n\t\tthis.max.copy( center ).add( halfSize );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the world-axis-aligned bounding box for the given 3D object\n\t * (including its children), accounting for the object's, and children's,\n\t * world transforms. The function may result in a larger box than strictly necessary.\n\t *\n\t * @param {Object3D} object - The 3D object to compute the bounding box for.\n\t * @param {boolean} [precise=false] - If set to `true`, the method computes the smallest\n\t * world-axis-aligned bounding box at the expense of more computation.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tsetFromObject( object, precise = false ) {\n\n\t\tthis.makeEmpty();\n\n\t\treturn this.expandByObject( object, precise );\n\n\t}\n\n\t/**\n\t * Returns a new box with copied values from this instance.\n\t *\n\t * @return {Box3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given box to this instance.\n\t *\n\t * @param {Box3} box - The box to copy.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tcopy( box ) {\n\n\t\tthis.min.copy( box.min );\n\t\tthis.max.copy( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Makes this box empty which means in encloses a zero space in 3D.\n\t *\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tmakeEmpty() {\n\n\t\tthis.min.x = this.min.y = this.min.z = + Infinity;\n\t\tthis.max.x = this.max.y = this.max.z = - Infinity;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns true if this box includes zero points within its bounds.\n\t * Note that a box with equal lower and upper bounds still includes one\n\t * point, the one both bounds share.\n\t *\n\t * @return {boolean} Whether this box is empty or not.\n\t */\n\tisEmpty() {\n\n\t\t// this is a more robust check for empty than ( volume <= 0 ) because volume can get positive with two negative axes\n\n\t\treturn ( this.max.x < this.min.x ) || ( this.max.y < this.min.y ) || ( this.max.z < this.min.z );\n\n\t}\n\n\t/**\n\t * Returns the center point of this box.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The center point.\n\t */\n\tgetCenter( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0, 0 ) : target.addVectors( this.min, this.max ).multiplyScalar( 0.5 );\n\n\t}\n\n\t/**\n\t * Returns the dimensions of this box.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The size.\n\t */\n\tgetSize( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0, 0 ) : target.subVectors( this.max, this.min );\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this box to include the given point.\n\t *\n\t * @param {Vector3} point - The point that should be included by the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByPoint( point ) {\n\n\t\tthis.min.min( point );\n\t\tthis.max.max( point );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands this box equilaterally by the given vector. The width of this\n\t * box will be expanded by the x component of the vector in both\n\t * directions. The height of this box will be expanded by the y component of\n\t * the vector in both directions. The depth of this box will be\n\t * expanded by the z component of the vector in both directions.\n\t *\n\t * @param {Vector3} vector - The vector that should expand the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByVector( vector ) {\n\n\t\tthis.min.sub( vector );\n\t\tthis.max.add( vector );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands each dimension of the box by the given scalar. If negative, the\n\t * dimensions of the box will be contracted.\n\t *\n\t * @param {number} scalar - The scalar value that should expand the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByScalar( scalar ) {\n\n\t\tthis.min.addScalar( - scalar );\n\t\tthis.max.addScalar( scalar );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this box to include the given 3D object and\n\t * its children, accounting for the object's, and children's, world\n\t * transforms. The function may result in a larger box than strictly\n\t * necessary (unless the precise parameter is set to true).\n\t *\n\t * @param {Object3D} object - The 3D object that should expand the bounding box.\n\t * @param {boolean} precise - If set to `true`, the method expands the bounding box\n\t * as little as necessary at the expense of more computation.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\texpandByObject( object, precise = false ) {\n\n\t\t// Computes the world-axis-aligned bounding box of an object (including its children),\n\t\t// accounting for both the object's, and children's, world transforms\n\n\t\tobject.updateWorldMatrix( false, false );\n\n\t\tconst geometry = object.geometry;\n\n\t\tif ( geometry !== undefined ) {\n\n\t\t\tconst positionAttribute = geometry.getAttribute( 'position' );\n\n\t\t\t// precise AABB computation based on vertex data requires at least a position attribute.\n\t\t\t// instancing isn't supported so far and uses the normal (conservative) code path.\n\n\t\t\tif ( precise === true && positionAttribute !== undefined && object.isInstancedMesh !== true ) {\n\n\t\t\t\tfor ( let i = 0, l = positionAttribute.count; i < l; i ++ ) {\n\n\t\t\t\t\tif ( object.isMesh === true ) {\n\n\t\t\t\t\t\tobject.getVertexPosition( i, _vector$b );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t_vector$b.fromBufferAttribute( positionAttribute, i );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t_vector$b.applyMatrix4( object.matrixWorld );\n\t\t\t\t\tthis.expandByPoint( _vector$b );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tif ( object.boundingBox !== undefined ) {\n\n\t\t\t\t\t// object-level bounding box\n\n\t\t\t\t\tif ( object.boundingBox === null ) {\n\n\t\t\t\t\t\tobject.computeBoundingBox();\n\n\t\t\t\t\t}\n\n\t\t\t\t\t_box$4.copy( object.boundingBox );\n\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// geometry-level bounding box\n\n\t\t\t\t\tif ( geometry.boundingBox === null ) {\n\n\t\t\t\t\t\tgeometry.computeBoundingBox();\n\n\t\t\t\t\t}\n\n\t\t\t\t\t_box$4.copy( geometry.boundingBox );\n\n\t\t\t\t}\n\n\t\t\t\t_box$4.applyMatrix4( object.matrixWorld );\n\n\t\t\t\tthis.union( _box$4 );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst children = object.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tthis.expandByObject( children[ i ], precise );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within or on the boundaries of this box.\n\t *\n\t * @param {Vector3} point - The point to test.\n\t * @return {boolean} Whether the bounding box contains the given point or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn point.x >= this.min.x && point.x <= this.max.x &&\n\t\t\tpoint.y >= this.min.y && point.y <= this.max.y &&\n\t\t\tpoint.z >= this.min.z && point.z <= this.max.z;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box includes the entirety of the given bounding box.\n\t * If this box and the given one are identical, this function also returns `true`.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the bounding box contains the given bounding box or not.\n\t */\n\tcontainsBox( box ) {\n\n\t\treturn this.min.x <= box.min.x && box.max.x <= this.max.x &&\n\t\t\tthis.min.y <= box.min.y && box.max.y <= this.max.y &&\n\t\t\tthis.min.z <= box.min.z && box.max.z <= this.max.z;\n\n\t}\n\n\t/**\n\t * Returns a point as a proportion of this box's width, height and depth.\n\t *\n\t * @param {Vector3} point - A point in 3D space.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} A point as a proportion of this box's width, height and depth.\n\t */\n\tgetParameter( point, target ) {\n\n\t\t// This can potentially have a divide by zero if the box\n\t\t// has a size dimension of 0.\n\n\t\treturn target.set(\n\t\t\t( point.x - this.min.x ) / ( this.max.x - this.min.x ),\n\t\t\t( point.y - this.min.y ) / ( this.max.y - this.min.y ),\n\t\t\t( point.z - this.min.z ) / ( this.max.z - this.min.z )\n\t\t);\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box intersects with this bounding box.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the given bounding box intersects with this bounding box.\n\t */\n\tintersectsBox( box ) {\n\n\t\t// using 6 splitting planes to rule out intersections.\n\t\treturn box.max.x >= this.min.x && box.min.x <= this.max.x &&\n\t\t\tbox.max.y >= this.min.y && box.min.y <= this.max.y &&\n\t\t\tbox.max.z >= this.min.z && box.min.z <= this.max.z;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere intersects with this bounding box.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @return {boolean} Whether the given bounding sphere intersects with this bounding box.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\t// Find the point on the AABB closest to the sphere center.\n\t\tthis.clampPoint( sphere.center, _vector$b );\n\n\t\t// If that point is inside the sphere, the AABB and sphere intersect.\n\t\treturn _vector$b.distanceToSquared( sphere.center ) <= ( sphere.radius * sphere.radius );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given plane intersects with this bounding box.\n\t *\n\t * @param {Plane} plane - The plane to test.\n\t * @return {boolean} Whether the given plane intersects with this bounding box.\n\t */\n\tintersectsPlane( plane ) {\n\n\t\t// We compute the minimum and maximum dot product values. If those values\n\t\t// are on the same side (back or front) of the plane, then there is no intersection.\n\n\t\tlet min, max;\n\n\t\tif ( plane.normal.x > 0 ) {\n\n\t\t\tmin = plane.normal.x * this.min.x;\n\t\t\tmax = plane.normal.x * this.max.x;\n\n\t\t} else {\n\n\t\t\tmin = plane.normal.x * this.max.x;\n\t\t\tmax = plane.normal.x * this.min.x;\n\n\t\t}\n\n\t\tif ( plane.normal.y > 0 ) {\n\n\t\t\tmin += plane.normal.y * this.min.y;\n\t\t\tmax += plane.normal.y * this.max.y;\n\n\t\t} else {\n\n\t\t\tmin += plane.normal.y * this.max.y;\n\t\t\tmax += plane.normal.y * this.min.y;\n\n\t\t}\n\n\t\tif ( plane.normal.z > 0 ) {\n\n\t\t\tmin += plane.normal.z * this.min.z;\n\t\t\tmax += plane.normal.z * this.max.z;\n\n\t\t} else {\n\n\t\t\tmin += plane.normal.z * this.max.z;\n\t\t\tmax += plane.normal.z * this.min.z;\n\n\t\t}\n\n\t\treturn ( min <= - plane.constant && max >= - plane.constant );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given triangle intersects with this bounding box.\n\t *\n\t * @param {Triangle} triangle - The triangle to test.\n\t * @return {boolean} Whether the given triangle intersects with this bounding box.\n\t */\n\tintersectsTriangle( triangle ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\t// compute box center and extents\n\t\tthis.getCenter( _center );\n\t\t_extents.subVectors( this.max, _center );\n\n\t\t// translate triangle to aabb origin\n\t\t_v0$2.subVectors( triangle.a, _center );\n\t\t_v1$7.subVectors( triangle.b, _center );\n\t\t_v2$4.subVectors( triangle.c, _center );\n\n\t\t// compute edge vectors for triangle\n\t\t_f0.subVectors( _v1$7, _v0$2 );\n\t\t_f1.subVectors( _v2$4, _v1$7 );\n\t\t_f2.subVectors( _v0$2, _v2$4 );\n\n\t\t// test against axes that are given by cross product combinations of the edges of the triangle and the edges of the aabb\n\t\t// make an axis testing of each of the 3 sides of the aabb against each of the 3 sides of the triangle = 9 axis of separation\n\t\t// axis_ij = u_i x f_j (u0, u1, u2 = face normals of aabb = x,y,z axes vectors since aabb is axis aligned)\n\t\tlet axes = [\n\t\t\t0, - _f0.z, _f0.y, 0, - _f1.z, _f1.y, 0, - _f2.z, _f2.y,\n\t\t\t_f0.z, 0, - _f0.x, _f1.z, 0, - _f1.x, _f2.z, 0, - _f2.x,\n\t\t\t- _f0.y, _f0.x, 0, - _f1.y, _f1.x, 0, - _f2.y, _f2.x, 0\n\t\t];\n\t\tif ( ! satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents ) ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\t// test 3 face normals from the aabb\n\t\taxes = [ 1, 0, 0, 0, 1, 0, 0, 0, 1 ];\n\t\tif ( ! satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents ) ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\t// finally testing the face normal of the triangle\n\t\t// use already existing triangle edge vectors here\n\t\t_triangleNormal.crossVectors( _f0, _f1 );\n\t\taxes = [ _triangleNormal.x, _triangleNormal.y, _triangleNormal.z ];\n\n\t\treturn satForAxes( axes, _v0$2, _v1$7, _v2$4, _extents );\n\n\t}\n\n\t/**\n\t * Clamps the given point within the bounds of this box.\n\t *\n\t * @param {Vector3} point - The point to clamp.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The clamped point.\n\t */\n\tclampPoint( point, target ) {\n\n\t\treturn target.copy( point ).clamp( this.min, this.max );\n\n\t}\n\n\t/**\n\t * Returns the euclidean distance from any edge of this box to the specified point. If\n\t * the given point lies inside of this box, the distance will be `0`.\n\t *\n\t * @param {Vector3} point - The point to compute the distance to.\n\t * @return {number} The euclidean distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn this.clampPoint( point, _vector$b ).distanceTo( point );\n\n\t}\n\n\t/**\n\t * Returns a bounding sphere that encloses this bounding box.\n\t *\n\t * @param {Sphere} target - The target sphere that is used to store the method's result.\n\t * @return {Sphere} The bounding sphere that encloses this bounding box.\n\t */\n\tgetBoundingSphere( target ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\ttarget.makeEmpty();\n\n\t\t} else {\n\n\t\t\tthis.getCenter( target.center );\n\n\t\t\ttarget.radius = this.getSize( _vector$b ).length() * 0.5;\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Computes the intersection of this bounding box and the given one, setting the upper\n\t * bound of this box to the lesser of the two boxes' upper bounds and the\n\t * lower bound of this box to the greater of the two boxes' lower bounds. If\n\t * there's no overlap, makes this box empty.\n\t *\n\t * @param {Box3} box - The bounding box to intersect with.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tintersect( box ) {\n\n\t\tthis.min.max( box.min );\n\t\tthis.max.min( box.max );\n\n\t\t// ensure that if there is no overlap, the result is fully empty, not slightly empty with non-inf/+inf values that will cause subsequence intersects to erroneously return valid values.\n\t\tif ( this.isEmpty() ) this.makeEmpty();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the union of this box and another and the given one, setting the upper\n\t * bound of this box to the greater of the two boxes' upper bounds and the\n\t * lower bound of this box to the lesser of the two boxes' lower bounds.\n\t *\n\t * @param {Box3} box - The bounding box that will be unioned with this instance.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tunion( box ) {\n\n\t\tthis.min.min( box.min );\n\t\tthis.max.max( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Transforms this bounding box by the given 4x4 transformation matrix.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\t// transform of empty box is an empty box.\n\t\tif ( this.isEmpty() ) return this;\n\n\t\t// NOTE: I am using a binary pattern to specify all 2^3 combinations below\n\t\t_points[ 0 ].set( this.min.x, this.min.y, this.min.z ).applyMatrix4( matrix ); // 000\n\t\t_points[ 1 ].set( this.min.x, this.min.y, this.max.z ).applyMatrix4( matrix ); // 001\n\t\t_points[ 2 ].set( this.min.x, this.max.y, this.min.z ).applyMatrix4( matrix ); // 010\n\t\t_points[ 3 ].set( this.min.x, this.max.y, this.max.z ).applyMatrix4( matrix ); // 011\n\t\t_points[ 4 ].set( this.max.x, this.min.y, this.min.z ).applyMatrix4( matrix ); // 100\n\t\t_points[ 5 ].set( this.max.x, this.min.y, this.max.z ).applyMatrix4( matrix ); // 101\n\t\t_points[ 6 ].set( this.max.x, this.max.y, this.min.z ).applyMatrix4( matrix ); // 110\n\t\t_points[ 7 ].set( this.max.x, this.max.y, this.max.z ).applyMatrix4( matrix ); // 111\n\n\t\tthis.setFromPoints( _points );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given offset to both the upper and lower bounds of this bounding box,\n\t * effectively moving it in 3D space.\n\t *\n\t * @param {Vector3} offset - The offset that should be used to translate the bounding box.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.min.add( offset );\n\t\tthis.max.add( offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box is equal with the given one.\n\t *\n\t * @param {Box3} box - The box to test for equality.\n\t * @return {boolean} Whether this bounding box is equal with the given one.\n\t */\n\tequals( box ) {\n\n\t\treturn box.min.equals( this.min ) && box.max.equals( this.max );\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding box.\n\t *\n\t * @return {Object} Serialized structure with fields representing the object state.\n\t */\n\ttoJSON() {\n\n\t\treturn {\n\t\t\tmin: this.min.toArray(),\n\t\t\tmax: this.max.toArray()\n\t\t};\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding box.\n\t *\n\t * @param {Object} json - The serialized json to set the box from.\n\t * @return {Box3} A reference to this bounding box.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.min.fromArray( json.min );\n\t\tthis.max.fromArray( json.max );\n\t\treturn this;\n\n\t}\n\n}\n\nconst _points = [\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3(),\n\t/*@__PURE__*/ new Vector3()\n];\n\nconst _vector$b = /*@__PURE__*/ new Vector3();\n\nconst _box$4 = /*@__PURE__*/ new Box3();\n\n// triangle centered vertices\n\nconst _v0$2 = /*@__PURE__*/ new Vector3();\nconst _v1$7 = /*@__PURE__*/ new Vector3();\nconst _v2$4 = /*@__PURE__*/ new Vector3();\n\n// triangle edge vectors\n\nconst _f0 = /*@__PURE__*/ new Vector3();\nconst _f1 = /*@__PURE__*/ new Vector3();\nconst _f2 = /*@__PURE__*/ new Vector3();\n\nconst _center = /*@__PURE__*/ new Vector3();\nconst _extents = /*@__PURE__*/ new Vector3();\nconst _triangleNormal = /*@__PURE__*/ new Vector3();\nconst _testAxis = /*@__PURE__*/ new Vector3();\n\nfunction satForAxes( axes, v0, v1, v2, extents ) {\n\n\tfor ( let i = 0, j = axes.length - 3; i <= j; i += 3 ) {\n\n\t\t_testAxis.fromArray( axes, i );\n\t\t// project the aabb onto the separating axis\n\t\tconst r = extents.x * Math.abs( _testAxis.x ) + extents.y * Math.abs( _testAxis.y ) + extents.z * Math.abs( _testAxis.z );\n\t\t// project all 3 vertices of the triangle onto the separating axis\n\t\tconst p0 = v0.dot( _testAxis );\n\t\tconst p1 = v1.dot( _testAxis );\n\t\tconst p2 = v2.dot( _testAxis );\n\t\t// actual test, basically see if either of the most extreme of the triangle points intersects r\n\t\tif ( Math.max( - Math.max( p0, p1, p2 ), Math.min( p0, p1, p2 ) ) > r ) {\n\n\t\t\t// points of the projected triangle are outside the projected half-length of the aabb\n\t\t\t// the axis is separating and we can exit\n\t\t\treturn false;\n\n\t\t}\n\n\t}\n\n\treturn true;\n\n}\n\nconst _box$3 = /*@__PURE__*/ new Box3();\nconst _v1$6 = /*@__PURE__*/ new Vector3();\nconst _v2$3 = /*@__PURE__*/ new Vector3();\n\n/**\n * An analytical 3D sphere defined by a center and radius. This class is mainly\n * used as a Bounding Sphere for 3D objects.\n */\nclass Sphere {\n\n\t/**\n\t * Constructs a new sphere.\n\t *\n\t * @param {Vector3} [center=(0,0,0)] - The center of the sphere\n\t * @param {number} [radius=-1] - The radius of the sphere.\n\t */\n\tconstructor( center = new Vector3(), radius = -1 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSphere = true;\n\n\t\t/**\n\t\t * The center of the sphere\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.center = center;\n\n\t\t/**\n\t\t * The radius of the sphere.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.radius = radius;\n\n\t}\n\n\t/**\n\t * Sets the sphere's components by copying the given values.\n\t *\n\t * @param {Vector3} center - The center.\n\t * @param {number} radius - The radius.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tset( center, radius ) {\n\n\t\tthis.center.copy( center );\n\t\tthis.radius = radius;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the minimum bounding sphere for list of points.\n\t * If the optional center point is given, it is used as the sphere's\n\t * center. Otherwise, the center of the axis-aligned bounding box\n\t * encompassing the points is calculated.\n\t *\n\t * @param {Array} points - A list of points in 3D space.\n\t * @param {Vector3} [optionalCenter] - The center of the sphere.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tsetFromPoints( points, optionalCenter ) {\n\n\t\tconst center = this.center;\n\n\t\tif ( optionalCenter !== undefined ) {\n\n\t\t\tcenter.copy( optionalCenter );\n\n\t\t} else {\n\n\t\t\t_box$3.setFromPoints( points ).getCenter( center );\n\n\t\t}\n\n\t\tlet maxRadiusSq = 0;\n\n\t\tfor ( let i = 0, il = points.length; i < il; i ++ ) {\n\n\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( points[ i ] ) );\n\n\t\t}\n\n\t\tthis.radius = Math.sqrt( maxRadiusSq );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given sphere to this instance.\n\t *\n\t * @param {Sphere} sphere - The sphere to copy.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tcopy( sphere ) {\n\n\t\tthis.center.copy( sphere.center );\n\t\tthis.radius = sphere.radius;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the sphere is empty (the radius set to a negative number).\n\t *\n\t * Spheres with a radius of `0` contain only their center point and are not\n\t * considered to be empty.\n\t *\n\t * @return {boolean} Whether this sphere is empty or not.\n\t */\n\tisEmpty() {\n\n\t\treturn ( this.radius < 0 );\n\n\t}\n\n\t/**\n\t * Makes this sphere empty which means in encloses a zero space in 3D.\n\t *\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tmakeEmpty() {\n\n\t\tthis.center.set( 0, 0, 0 );\n\t\tthis.radius = -1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere contains the given point inclusive of\n\t * the surface of the sphere.\n\t *\n\t * @param {Vector3} point - The point to check.\n\t * @return {boolean} Whether this sphere contains the given point or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn ( point.distanceToSquared( this.center ) <= ( this.radius * this.radius ) );\n\n\t}\n\n\t/**\n\t * Returns the closest distance from the boundary of the sphere to the\n\t * given point. If the sphere contains the point, the distance will\n\t * be negative.\n\t *\n\t * @param {Vector3} point - The point to compute the distance to.\n\t * @return {number} The distance to the point.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn ( point.distanceTo( this.center ) - this.radius );\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere intersects with the given one.\n\t *\n\t * @param {Sphere} sphere - The sphere to test.\n\t * @return {boolean} Whether this sphere intersects with the given one or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\tconst radiusSum = this.radius + sphere.radius;\n\n\t\treturn sphere.center.distanceToSquared( this.center ) <= ( radiusSum * radiusSum );\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere intersects with the given box.\n\t *\n\t * @param {Box3} box - The box to test.\n\t * @return {boolean} Whether this sphere intersects with the given box or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn box.intersectsSphere( this );\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere intersects with the given plane.\n\t *\n\t * @param {Plane} plane - The plane to test.\n\t * @return {boolean} Whether this sphere intersects with the given plane or not.\n\t */\n\tintersectsPlane( plane ) {\n\n\t\treturn Math.abs( plane.distanceToPoint( this.center ) ) <= this.radius;\n\n\t}\n\n\t/**\n\t * Clamps a point within the sphere. If the point is outside the sphere, it\n\t * will clamp it to the closest point on the edge of the sphere. Points\n\t * already inside the sphere will not be affected.\n\t *\n\t * @param {Vector3} point - The plane to clamp.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The clamped point.\n\t */\n\tclampPoint( point, target ) {\n\n\t\tconst deltaLengthSq = this.center.distanceToSquared( point );\n\n\t\ttarget.copy( point );\n\n\t\tif ( deltaLengthSq > ( this.radius * this.radius ) ) {\n\n\t\t\ttarget.sub( this.center ).normalize();\n\t\t\ttarget.multiplyScalar( this.radius ).add( this.center );\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns a bounding box that encloses this sphere.\n\t *\n\t * @param {Box3} target - The target box that is used to store the method's result.\n\t * @return {Box3} The bounding box that encloses this sphere.\n\t */\n\tgetBoundingBox( target ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\t// Empty sphere produces empty bounding box\n\t\t\ttarget.makeEmpty();\n\t\t\treturn target;\n\n\t\t}\n\n\t\ttarget.set( this.center, this.center );\n\t\ttarget.expandByScalar( this.radius );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Transforms this sphere with the given 4x4 transformation matrix.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tthis.center.applyMatrix4( matrix );\n\t\tthis.radius = this.radius * matrix.getMaxScaleOnAxis();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates the sphere's center by the given offset.\n\t *\n\t * @param {Vector3} offset - The offset.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.center.add( offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this sphere to include the given point.\n\t *\n\t * @param {Vector3} point - The point to include.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\texpandByPoint( point ) {\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\tthis.center.copy( point );\n\n\t\t\tthis.radius = 0;\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\t_v1$6.subVectors( point, this.center );\n\n\t\tconst lengthSq = _v1$6.lengthSq();\n\n\t\tif ( lengthSq > ( this.radius * this.radius ) ) {\n\n\t\t\t// calculate the minimal sphere\n\n\t\t\tconst length = Math.sqrt( lengthSq );\n\n\t\t\tconst delta = ( length - this.radius ) * 0.5;\n\n\t\t\tthis.center.addScaledVector( _v1$6, delta / length );\n\n\t\t\tthis.radius += delta;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands this sphere to enclose both the original sphere and the given sphere.\n\t *\n\t * @param {Sphere} sphere - The sphere to include.\n\t * @return {Sphere} A reference to this sphere.\n\t */\n\tunion( sphere ) {\n\n\t\tif ( sphere.isEmpty() ) {\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( this.isEmpty() ) {\n\n\t\t\tthis.copy( sphere );\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( this.center.equals( sphere.center ) === true ) {\n\n\t\t\t this.radius = Math.max( this.radius, sphere.radius );\n\n\t\t} else {\n\n\t\t\t_v2$3.subVectors( sphere.center, this.center ).setLength( sphere.radius );\n\n\t\t\tthis.expandByPoint( _v1$6.copy( sphere.center ).add( _v2$3 ) );\n\n\t\t\tthis.expandByPoint( _v1$6.copy( sphere.center ).sub( _v2$3 ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this sphere is equal with the given one.\n\t *\n\t * @param {Sphere} sphere - The sphere to test for equality.\n\t * @return {boolean} Whether this bounding sphere is equal with the given one.\n\t */\n\tequals( sphere ) {\n\n\t\treturn sphere.center.equals( this.center ) && ( sphere.radius === this.radius );\n\n\t}\n\n\t/**\n\t * Returns a new sphere with copied values from this instance.\n\t *\n\t * @return {Sphere} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding sphere.\n\t *\n\t * @return {Object} Serialized structure with fields representing the object state.\n\t */\n\ttoJSON() {\n\n\t\treturn {\n\t\t\tradius: this.radius,\n\t\t\tcenter: this.center.toArray()\n\t\t};\n\n\t}\n\n\t/**\n\t * Returns a serialized structure of the bounding sphere.\n\t *\n\t * @param {Object} json - The serialized json to set the sphere from.\n\t * @return {Box3} A reference to this bounding sphere.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.radius = json.radius;\n\t\tthis.center.fromArray( json.center );\n\t\treturn this;\n\n\t}\n\n}\n\nconst _vector$a = /*@__PURE__*/ new Vector3();\nconst _segCenter = /*@__PURE__*/ new Vector3();\nconst _segDir = /*@__PURE__*/ new Vector3();\nconst _diff = /*@__PURE__*/ new Vector3();\n\nconst _edge1 = /*@__PURE__*/ new Vector3();\nconst _edge2 = /*@__PURE__*/ new Vector3();\nconst _normal$1 = /*@__PURE__*/ new Vector3();\n\n/**\n * A ray that emits from an origin in a certain direction. The class is used by\n * {@link Raycaster} to assist with raycasting. Raycasting is used for\n * mouse picking (working out what objects in the 3D space the mouse is over)\n * amongst other things.\n */\nclass Ray {\n\n\t/**\n\t * Constructs a new ray.\n\t *\n\t * @param {Vector3} [origin=(0,0,0)] - The origin of the ray.\n\t * @param {Vector3} [direction=(0,0,-1)] - The (normalized) direction of the ray.\n\t */\n\tconstructor( origin = new Vector3(), direction = new Vector3( 0, 0, -1 ) ) {\n\n\t\t/**\n\t\t * The origin of the ray.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.origin = origin;\n\n\t\t/**\n\t\t * The (normalized) direction of the ray.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.direction = direction;\n\n\t}\n\n\t/**\n\t * Sets the ray's components by copying the given values.\n\t *\n\t * @param {Vector3} origin - The origin.\n\t * @param {Vector3} direction - The direction.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tset( origin, direction ) {\n\n\t\tthis.origin.copy( origin );\n\t\tthis.direction.copy( direction );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given ray to this instance.\n\t *\n\t * @param {Ray} ray - The ray to copy.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tcopy( ray ) {\n\n\t\tthis.origin.copy( ray.origin );\n\t\tthis.direction.copy( ray.direction );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a vector that is located at a given distance along this ray.\n\t *\n\t * @param {number} t - The distance along the ray to retrieve a position for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} A position on the ray.\n\t */\n\tat( t, target ) {\n\n\t\treturn target.copy( this.origin ).addScaledVector( this.direction, t );\n\n\t}\n\n\t/**\n\t * Adjusts the direction of the ray to point at the given vector in world space.\n\t *\n\t * @param {Vector3} v - The target position.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tlookAt( v ) {\n\n\t\tthis.direction.copy( v ).sub( this.origin ).normalize();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Shift the origin of this ray along its direction by the given distance.\n\t *\n\t * @param {number} t - The distance along the ray to interpolate.\n\t * @return {Ray} A reference to this ray.\n\t */\n\trecast( t ) {\n\n\t\tthis.origin.copy( this.at( t, _vector$a ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the point along this ray that is closest to the given point.\n\t *\n\t * @param {Vector3} point - A point in 3D space to get the closet location on the ray for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The closest point on this ray.\n\t */\n\tclosestPointToPoint( point, target ) {\n\n\t\ttarget.subVectors( point, this.origin );\n\n\t\tconst directionDistance = target.dot( this.direction );\n\n\t\tif ( directionDistance < 0 ) {\n\n\t\t\treturn target.copy( this.origin );\n\n\t\t}\n\n\t\treturn target.copy( this.origin ).addScaledVector( this.direction, directionDistance );\n\n\t}\n\n\t/**\n\t * Returns the distance of the closest approach between this ray and the given point.\n\t *\n\t * @param {Vector3} point - A point in 3D space to compute the distance to.\n\t * @return {number} The distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn Math.sqrt( this.distanceSqToPoint( point ) );\n\n\t}\n\n\t/**\n\t * Returns the squared distance of the closest approach between this ray and the given point.\n\t *\n\t * @param {Vector3} point - A point in 3D space to compute the distance to.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceSqToPoint( point ) {\n\n\t\tconst directionDistance = _vector$a.subVectors( point, this.origin ).dot( this.direction );\n\n\t\t// point behind the ray\n\n\t\tif ( directionDistance < 0 ) {\n\n\t\t\treturn this.origin.distanceToSquared( point );\n\n\t\t}\n\n\t\t_vector$a.copy( this.origin ).addScaledVector( this.direction, directionDistance );\n\n\t\treturn _vector$a.distanceToSquared( point );\n\n\t}\n\n\t/**\n\t * Returns the squared distance between this ray and the given line segment.\n\t *\n\t * @param {Vector3} v0 - The start point of the line segment.\n\t * @param {Vector3} v1 - The end point of the line segment.\n\t * @param {Vector3} [optionalPointOnRay] - When provided, it receives the point on this ray that is closest to the segment.\n\t * @param {Vector3} [optionalPointOnSegment] - When provided, it receives the point on the line segment that is closest to this ray.\n\t * @return {number} The squared distance.\n\t */\n\tdistanceSqToSegment( v0, v1, optionalPointOnRay, optionalPointOnSegment ) {\n\n\t\t// from https://github.com/pmjoniak/GeometricTools/blob/master/GTEngine/Include/Mathematics/GteDistRaySegment.h\n\t\t// It returns the min distance between the ray and the segment\n\t\t// defined by v0 and v1\n\t\t// It can also set two optional targets :\n\t\t// - The closest point on the ray\n\t\t// - The closest point on the segment\n\n\t\t_segCenter.copy( v0 ).add( v1 ).multiplyScalar( 0.5 );\n\t\t_segDir.copy( v1 ).sub( v0 ).normalize();\n\t\t_diff.copy( this.origin ).sub( _segCenter );\n\n\t\tconst segExtent = v0.distanceTo( v1 ) * 0.5;\n\t\tconst a01 = - this.direction.dot( _segDir );\n\t\tconst b0 = _diff.dot( this.direction );\n\t\tconst b1 = - _diff.dot( _segDir );\n\t\tconst c = _diff.lengthSq();\n\t\tconst det = Math.abs( 1 - a01 * a01 );\n\t\tlet s0, s1, sqrDist, extDet;\n\n\t\tif ( det > 0 ) {\n\n\t\t\t// The ray and segment are not parallel.\n\n\t\t\ts0 = a01 * b1 - b0;\n\t\t\ts1 = a01 * b0 - b1;\n\t\t\textDet = segExtent * det;\n\n\t\t\tif ( s0 >= 0 ) {\n\n\t\t\t\tif ( s1 >= - extDet ) {\n\n\t\t\t\t\tif ( s1 <= extDet ) {\n\n\t\t\t\t\t\t// region 0\n\t\t\t\t\t\t// Minimum at interior points of ray and segment.\n\n\t\t\t\t\t\tconst invDet = 1 / det;\n\t\t\t\t\t\ts0 *= invDet;\n\t\t\t\t\t\ts1 *= invDet;\n\t\t\t\t\t\tsqrDist = s0 * ( s0 + a01 * s1 + 2 * b0 ) + s1 * ( a01 * s0 + s1 + 2 * b1 ) + c;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// region 1\n\n\t\t\t\t\t\ts1 = segExtent;\n\t\t\t\t\t\ts0 = Math.max( 0, - ( a01 * s1 + b0 ) );\n\t\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// region 5\n\n\t\t\t\t\ts1 = - segExtent;\n\t\t\t\t\ts0 = Math.max( 0, - ( a01 * s1 + b0 ) );\n\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tif ( s1 <= - extDet ) {\n\n\t\t\t\t\t// region 4\n\n\t\t\t\t\ts0 = Math.max( 0, - ( - a01 * segExtent + b0 ) );\n\t\t\t\t\ts1 = ( s0 > 0 ) ? - segExtent : Math.min( Math.max( - segExtent, - b1 ), segExtent );\n\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t} else if ( s1 <= extDet ) {\n\n\t\t\t\t\t// region 3\n\n\t\t\t\t\ts0 = 0;\n\t\t\t\t\ts1 = Math.min( Math.max( - segExtent, - b1 ), segExtent );\n\t\t\t\t\tsqrDist = s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// region 2\n\n\t\t\t\t\ts0 = Math.max( 0, - ( a01 * segExtent + b0 ) );\n\t\t\t\t\ts1 = ( s0 > 0 ) ? segExtent : Math.min( Math.max( - segExtent, - b1 ), segExtent );\n\t\t\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\t// Ray and segment are parallel.\n\n\t\t\ts1 = ( a01 > 0 ) ? - segExtent : segExtent;\n\t\t\ts0 = Math.max( 0, - ( a01 * s1 + b0 ) );\n\t\t\tsqrDist = - s0 * s0 + s1 * ( s1 + 2 * b1 ) + c;\n\n\t\t}\n\n\t\tif ( optionalPointOnRay ) {\n\n\t\t\toptionalPointOnRay.copy( this.origin ).addScaledVector( this.direction, s0 );\n\n\t\t}\n\n\t\tif ( optionalPointOnSegment ) {\n\n\t\t\toptionalPointOnSegment.copy( _segCenter ).addScaledVector( _segDir, s1 );\n\n\t\t}\n\n\t\treturn sqrDist;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given sphere, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Sphere} sphere - The sphere to intersect.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectSphere( sphere, target ) {\n\n\t\t_vector$a.subVectors( sphere.center, this.origin );\n\t\tconst tca = _vector$a.dot( this.direction );\n\t\tconst d2 = _vector$a.dot( _vector$a ) - tca * tca;\n\t\tconst radius2 = sphere.radius * sphere.radius;\n\n\t\tif ( d2 > radius2 ) return null;\n\n\t\tconst thc = Math.sqrt( radius2 - d2 );\n\n\t\t// t0 = first intersect point - entrance on front of sphere\n\t\tconst t0 = tca - thc;\n\n\t\t// t1 = second intersect point - exit point on back of sphere\n\t\tconst t1 = tca + thc;\n\n\t\t// test to see if t1 is behind the ray - if so, return null\n\t\tif ( t1 < 0 ) return null;\n\n\t\t// test to see if t0 is behind the ray:\n\t\t// if it is, the ray is inside the sphere, so return the second exit point scaled by t1,\n\t\t// in order to always return an intersect point that is in front of the ray.\n\t\tif ( t0 < 0 ) return this.at( t1, target );\n\n\t\t// else t0 is in front of the ray, so return the first collision point scaled by t0\n\t\treturn this.at( t0, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray intersects with the given sphere.\n\t *\n\t * @param {Sphere} sphere - The sphere to intersect.\n\t * @return {boolean} Whether this ray intersects with the given sphere or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\tif ( sphere.radius < 0 ) return false; // handle empty spheres, see #31187\n\n\t\treturn this.distanceSqToPoint( sphere.center ) <= ( sphere.radius * sphere.radius );\n\n\t}\n\n\t/**\n\t * Computes the distance from the ray's origin to the given plane. Returns `null` if the ray\n\t * does not intersect with the plane.\n\t *\n\t * @param {Plane} plane - The plane to compute the distance to.\n\t * @return {?number} Whether this ray intersects with the given sphere or not.\n\t */\n\tdistanceToPlane( plane ) {\n\n\t\tconst denominator = plane.normal.dot( this.direction );\n\n\t\tif ( denominator === 0 ) {\n\n\t\t\t// line is coplanar, return origin\n\t\t\tif ( plane.distanceToPoint( this.origin ) === 0 ) {\n\n\t\t\t\treturn 0;\n\n\t\t\t}\n\n\t\t\t// Null is preferable to undefined since undefined means.... it is undefined\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst t = - ( this.origin.dot( plane.normal ) + plane.constant ) / denominator;\n\n\t\t// Return if the ray never intersects the plane\n\n\t\treturn t >= 0 ? t : null;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given plane, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Plane} plane - The plane to intersect.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectPlane( plane, target ) {\n\n\t\tconst t = this.distanceToPlane( plane );\n\n\t\tif ( t === null ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\treturn this.at( t, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray intersects with the given plane.\n\t *\n\t * @param {Plane} plane - The plane to intersect.\n\t * @return {boolean} Whether this ray intersects with the given plane or not.\n\t */\n\tintersectsPlane( plane ) {\n\n\t\t// check if the ray lies on the plane first\n\n\t\tconst distToPoint = plane.distanceToPoint( this.origin );\n\n\t\tif ( distToPoint === 0 ) {\n\n\t\t\treturn true;\n\n\t\t}\n\n\t\tconst denominator = plane.normal.dot( this.direction );\n\n\t\tif ( denominator * distToPoint < 0 ) {\n\n\t\t\treturn true;\n\n\t\t}\n\n\t\t// ray origin is behind the plane (and is pointing behind it)\n\n\t\treturn false;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given bounding box, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Box3} box - The box to intersect.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectBox( box, target ) {\n\n\t\tlet tmin, tmax, tymin, tymax, tzmin, tzmax;\n\n\t\tconst invdirx = 1 / this.direction.x,\n\t\t\tinvdiry = 1 / this.direction.y,\n\t\t\tinvdirz = 1 / this.direction.z;\n\n\t\tconst origin = this.origin;\n\n\t\tif ( invdirx >= 0 ) {\n\n\t\t\ttmin = ( box.min.x - origin.x ) * invdirx;\n\t\t\ttmax = ( box.max.x - origin.x ) * invdirx;\n\n\t\t} else {\n\n\t\t\ttmin = ( box.max.x - origin.x ) * invdirx;\n\t\t\ttmax = ( box.min.x - origin.x ) * invdirx;\n\n\t\t}\n\n\t\tif ( invdiry >= 0 ) {\n\n\t\t\ttymin = ( box.min.y - origin.y ) * invdiry;\n\t\t\ttymax = ( box.max.y - origin.y ) * invdiry;\n\n\t\t} else {\n\n\t\t\ttymin = ( box.max.y - origin.y ) * invdiry;\n\t\t\ttymax = ( box.min.y - origin.y ) * invdiry;\n\n\t\t}\n\n\t\tif ( ( tmin > tymax ) || ( tymin > tmax ) ) return null;\n\n\t\tif ( tymin > tmin || isNaN( tmin ) ) tmin = tymin;\n\n\t\tif ( tymax < tmax || isNaN( tmax ) ) tmax = tymax;\n\n\t\tif ( invdirz >= 0 ) {\n\n\t\t\ttzmin = ( box.min.z - origin.z ) * invdirz;\n\t\t\ttzmax = ( box.max.z - origin.z ) * invdirz;\n\n\t\t} else {\n\n\t\t\ttzmin = ( box.max.z - origin.z ) * invdirz;\n\t\t\ttzmax = ( box.min.z - origin.z ) * invdirz;\n\n\t\t}\n\n\t\tif ( ( tmin > tzmax ) || ( tzmin > tmax ) ) return null;\n\n\t\tif ( tzmin > tmin || tmin !== tmin ) tmin = tzmin;\n\n\t\tif ( tzmax < tmax || tmax !== tmax ) tmax = tzmax;\n\n\t\t//return point closest to the ray (positive side)\n\n\t\tif ( tmax < 0 ) return null;\n\n\t\treturn this.at( tmin >= 0 ? tmin : tmax, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray intersects with the given box.\n\t *\n\t * @param {Box3} box - The box to intersect.\n\t * @return {boolean} Whether this ray intersects with the given box or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn this.intersectBox( box, _vector$a ) !== null;\n\n\t}\n\n\t/**\n\t * Intersects this ray with the given triangle, returning the intersection\n\t * point or `null` if there is no intersection.\n\t *\n\t * @param {Vector3} a - The first vertex of the triangle.\n\t * @param {Vector3} b - The second vertex of the triangle.\n\t * @param {Vector3} c - The third vertex of the triangle.\n\t * @param {boolean} backfaceCulling - Whether to use backface culling or not.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectTriangle( a, b, c, backfaceCulling, target ) {\n\n\t\t// Compute the offset origin, edges, and normal.\n\n\t\t// from https://github.com/pmjoniak/GeometricTools/blob/master/GTEngine/Include/Mathematics/GteIntrRay3Triangle3.h\n\n\t\t_edge1.subVectors( b, a );\n\t\t_edge2.subVectors( c, a );\n\t\t_normal$1.crossVectors( _edge1, _edge2 );\n\n\t\t// Solve Q + t*D = b1*E1 + b2*E2 (Q = kDiff, D = ray direction,\n\t\t// E1 = kEdge1, E2 = kEdge2, N = Cross(E1,E2)) by\n\t\t// |Dot(D,N)|*b1 = sign(Dot(D,N))*Dot(D,Cross(Q,E2))\n\t\t// |Dot(D,N)|*b2 = sign(Dot(D,N))*Dot(D,Cross(E1,Q))\n\t\t// |Dot(D,N)|*t = -sign(Dot(D,N))*Dot(Q,N)\n\t\tlet DdN = this.direction.dot( _normal$1 );\n\t\tlet sign;\n\n\t\tif ( DdN > 0 ) {\n\n\t\t\tif ( backfaceCulling ) return null;\n\t\t\tsign = 1;\n\n\t\t} else if ( DdN < 0 ) {\n\n\t\t\tsign = -1;\n\t\t\tDdN = - DdN;\n\n\t\t} else {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t_diff.subVectors( this.origin, a );\n\t\tconst DdQxE2 = sign * this.direction.dot( _edge2.crossVectors( _diff, _edge2 ) );\n\n\t\t// b1 < 0, no intersection\n\t\tif ( DdQxE2 < 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst DdE1xQ = sign * this.direction.dot( _edge1.cross( _diff ) );\n\n\t\t// b2 < 0, no intersection\n\t\tif ( DdE1xQ < 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// b1+b2 > 1, no intersection\n\t\tif ( DdQxE2 + DdE1xQ > DdN ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// Line intersects triangle, check if ray does.\n\t\tconst QdN = - sign * _diff.dot( _normal$1 );\n\n\t\t// t < 0, no intersection\n\t\tif ( QdN < 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// Ray intersects triangle.\n\t\treturn this.at( QdN / DdN, target );\n\n\t}\n\n\t/**\n\t * Transforms this ray with the given 4x4 transformation matrix.\n\t *\n\t * @param {Matrix4} matrix4 - The transformation matrix.\n\t * @return {Ray} A reference to this ray.\n\t */\n\tapplyMatrix4( matrix4 ) {\n\n\t\tthis.origin.applyMatrix4( matrix4 );\n\t\tthis.direction.transformDirection( matrix4 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this ray is equal with the given one.\n\t *\n\t * @param {Ray} ray - The ray to test for equality.\n\t * @return {boolean} Whether this ray is equal with the given one.\n\t */\n\tequals( ray ) {\n\n\t\treturn ray.origin.equals( this.origin ) && ray.direction.equals( this.direction );\n\n\t}\n\n\t/**\n\t * Returns a new ray with copied values from this instance.\n\t *\n\t * @return {Ray} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * Represents a 4x4 matrix.\n *\n * The most common use of a 4x4 matrix in 3D computer graphics is as a transformation matrix.\n * For an introduction to transformation matrices as used in WebGL, check out [this tutorial]{@link https://www.opengl-tutorial.org/beginners-tutorials/tutorial-3-matrices}\n *\n * This allows a 3D vector representing a point in 3D space to undergo\n * transformations such as translation, rotation, shear, scale, reflection,\n * orthogonal or perspective projection and so on, by being multiplied by the\n * matrix. This is known as `applying` the matrix to the vector.\n *\n * A Note on Row-Major and Column-Major Ordering:\n *\n * The constructor and {@link Matrix3#set} method take arguments in\n * [row-major]{@link https://en.wikipedia.org/wiki/Row-_and_column-major_order#Column-major_order}\n * order, while internally they are stored in the {@link Matrix3#elements} array in column-major order.\n * This means that calling:\n * ```js\n * const m = new THREE.Matrix4();\n * m.set( 11, 12, 13, 14,\n * 21, 22, 23, 24,\n * 31, 32, 33, 34,\n * 41, 42, 43, 44 );\n * ```\n * will result in the elements array containing:\n * ```js\n * m.elements = [ 11, 21, 31, 41,\n * 12, 22, 32, 42,\n * 13, 23, 33, 43,\n * 14, 24, 34, 44 ];\n * ```\n * and internally all calculations are performed using column-major ordering.\n * However, as the actual ordering makes no difference mathematically and\n * most people are used to thinking about matrices in row-major order, the\n * three.js documentation shows matrices in row-major order. Just bear in\n * mind that if you are reading the source code, you'll have to take the\n * transpose of any matrices outlined here to make sense of the calculations.\n */\nclass Matrix4 {\n\n\t/**\n\t * Constructs a new 4x4 matrix. The arguments are supposed to be\n\t * in row-major order. If no arguments are provided, the constructor\n\t * initializes the matrix as an identity matrix.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n14] - 1-4 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n24] - 2-4 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t * @param {number} [n34] - 3-4 matrix element.\n\t * @param {number} [n41] - 4-1 matrix element.\n\t * @param {number} [n42] - 4-2 matrix element.\n\t * @param {number} [n43] - 4-3 matrix element.\n\t * @param {number} [n44] - 4-4 matrix element.\n\t */\n\tconstructor( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tMatrix4.prototype.isMatrix4 = true;\n\n\t\t/**\n\t\t * A column-major list of matrix values.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.elements = [\n\n\t\t\t1, 0, 0, 0,\n\t\t\t0, 1, 0, 0,\n\t\t\t0, 0, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t];\n\n\t\tif ( n11 !== undefined ) {\n\n\t\t\tthis.set( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix.The arguments are supposed to be\n\t * in row-major order.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n13] - 1-3 matrix element.\n\t * @param {number} [n14] - 1-4 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t * @param {number} [n23] - 2-3 matrix element.\n\t * @param {number} [n24] - 2-4 matrix element.\n\t * @param {number} [n31] - 3-1 matrix element.\n\t * @param {number} [n32] - 3-2 matrix element.\n\t * @param {number} [n33] - 3-3 matrix element.\n\t * @param {number} [n34] - 3-4 matrix element.\n\t * @param {number} [n41] - 4-1 matrix element.\n\t * @param {number} [n42] - 4-2 matrix element.\n\t * @param {number} [n43] - 4-3 matrix element.\n\t * @param {number} [n44] - 4-4 matrix element.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tset( n11, n12, n13, n14, n21, n22, n23, n24, n31, n32, n33, n34, n41, n42, n43, n44 ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] = n11; te[ 4 ] = n12; te[ 8 ] = n13; te[ 12 ] = n14;\n\t\tte[ 1 ] = n21; te[ 5 ] = n22; te[ 9 ] = n23; te[ 13 ] = n24;\n\t\tte[ 2 ] = n31; te[ 6 ] = n32; te[ 10 ] = n33; te[ 14 ] = n34;\n\t\tte[ 3 ] = n41; te[ 7 ] = n42; te[ 11 ] = n43; te[ 15 ] = n44;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix to the 4x4 identity matrix.\n\t *\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tidentity() {\n\n\t\tthis.set(\n\n\t\t\t1, 0, 0, 0,\n\t\t\t0, 1, 0, 0,\n\t\t\t0, 0, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a matrix with copied values from this instance.\n\t *\n\t * @return {Matrix4} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Matrix4().fromArray( this.elements );\n\n\t}\n\n\t/**\n\t * Copies the values of the given matrix to this instance.\n\t *\n\t * @param {Matrix4} m - The matrix to copy.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tcopy( m ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = m.elements;\n\n\t\tte[ 0 ] = me[ 0 ]; te[ 1 ] = me[ 1 ]; te[ 2 ] = me[ 2 ]; te[ 3 ] = me[ 3 ];\n\t\tte[ 4 ] = me[ 4 ]; te[ 5 ] = me[ 5 ]; te[ 6 ] = me[ 6 ]; te[ 7 ] = me[ 7 ];\n\t\tte[ 8 ] = me[ 8 ]; te[ 9 ] = me[ 9 ]; te[ 10 ] = me[ 10 ]; te[ 11 ] = me[ 11 ];\n\t\tte[ 12 ] = me[ 12 ]; te[ 13 ] = me[ 13 ]; te[ 14 ] = me[ 14 ]; te[ 15 ] = me[ 15 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the translation component of the given matrix\n\t * into this matrix's translation component.\n\t *\n\t * @param {Matrix4} m - The matrix to copy the translation component.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tcopyPosition( m ) {\n\n\t\tconst te = this.elements, me = m.elements;\n\n\t\tte[ 12 ] = me[ 12 ];\n\t\tte[ 13 ] = me[ 13 ];\n\t\tte[ 14 ] = me[ 14 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Set the upper 3x3 elements of this matrix to the values of given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The 3x3 matrix.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tsetFromMatrix3( m ) {\n\n\t\tconst me = m.elements;\n\n\t\tthis.set(\n\n\t\t\tme[ 0 ], me[ 3 ], me[ 6 ], 0,\n\t\t\tme[ 1 ], me[ 4 ], me[ 7 ], 0,\n\t\t\tme[ 2 ], me[ 5 ], me[ 8 ], 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Extracts the basis of this matrix into the three axis vectors provided.\n\t *\n\t * @param {Vector3} xAxis - The basis's x axis.\n\t * @param {Vector3} yAxis - The basis's y axis.\n\t * @param {Vector3} zAxis - The basis's z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\textractBasis( xAxis, yAxis, zAxis ) {\n\n\t\txAxis.setFromMatrixColumn( this, 0 );\n\t\tyAxis.setFromMatrixColumn( this, 1 );\n\t\tzAxis.setFromMatrixColumn( this, 2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given basis vectors to this matrix.\n\t *\n\t * @param {Vector3} xAxis - The basis's x axis.\n\t * @param {Vector3} yAxis - The basis's y axis.\n\t * @param {Vector3} zAxis - The basis's z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeBasis( xAxis, yAxis, zAxis ) {\n\n\t\tthis.set(\n\t\t\txAxis.x, yAxis.x, zAxis.x, 0,\n\t\t\txAxis.y, yAxis.y, zAxis.y, 0,\n\t\t\txAxis.z, yAxis.z, zAxis.z, 0,\n\t\t\t0, 0, 0, 1\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Extracts the rotation component of the given matrix\n\t * into this matrix's rotation component.\n\t *\n\t * Note: This method does not support reflection matrices.\n\t *\n\t * @param {Matrix4} m - The matrix.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\textractRotation( m ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = m.elements;\n\n\t\tconst scaleX = 1 / _v1$5.setFromMatrixColumn( m, 0 ).length();\n\t\tconst scaleY = 1 / _v1$5.setFromMatrixColumn( m, 1 ).length();\n\t\tconst scaleZ = 1 / _v1$5.setFromMatrixColumn( m, 2 ).length();\n\n\t\tte[ 0 ] = me[ 0 ] * scaleX;\n\t\tte[ 1 ] = me[ 1 ] * scaleX;\n\t\tte[ 2 ] = me[ 2 ] * scaleX;\n\t\tte[ 3 ] = 0;\n\n\t\tte[ 4 ] = me[ 4 ] * scaleY;\n\t\tte[ 5 ] = me[ 5 ] * scaleY;\n\t\tte[ 6 ] = me[ 6 ] * scaleY;\n\t\tte[ 7 ] = 0;\n\n\t\tte[ 8 ] = me[ 8 ] * scaleZ;\n\t\tte[ 9 ] = me[ 9 ] * scaleZ;\n\t\tte[ 10 ] = me[ 10 ] * scaleZ;\n\t\tte[ 11 ] = 0;\n\n\t\tte[ 12 ] = 0;\n\t\tte[ 13 ] = 0;\n\t\tte[ 14 ] = 0;\n\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the rotation component (the upper left 3x3 matrix) of this matrix to\n\t * the rotation specified by the given Euler angles. The rest of\n\t * the matrix is set to the identity. Depending on the {@link Euler#order},\n\t * there are six possible outcomes. See [this page]{@link https://en.wikipedia.org/wiki/Euler_angles#Rotation_matrix}\n\t * for a complete list.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationFromEuler( euler ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = euler.x, y = euler.y, z = euler.z;\n\t\tconst a = Math.cos( x ), b = Math.sin( x );\n\t\tconst c = Math.cos( y ), d = Math.sin( y );\n\t\tconst e = Math.cos( z ), f = Math.sin( z );\n\n\t\tif ( euler.order === 'XYZ' ) {\n\n\t\t\tconst ae = a * e, af = a * f, be = b * e, bf = b * f;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = - c * f;\n\t\t\tte[ 8 ] = d;\n\n\t\t\tte[ 1 ] = af + be * d;\n\t\t\tte[ 5 ] = ae - bf * d;\n\t\t\tte[ 9 ] = - b * c;\n\n\t\t\tte[ 2 ] = bf - ae * d;\n\t\t\tte[ 6 ] = be + af * d;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'YXZ' ) {\n\n\t\t\tconst ce = c * e, cf = c * f, de = d * e, df = d * f;\n\n\t\t\tte[ 0 ] = ce + df * b;\n\t\t\tte[ 4 ] = de * b - cf;\n\t\t\tte[ 8 ] = a * d;\n\n\t\t\tte[ 1 ] = a * f;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = - b;\n\n\t\t\tte[ 2 ] = cf * b - de;\n\t\t\tte[ 6 ] = df + ce * b;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'ZXY' ) {\n\n\t\t\tconst ce = c * e, cf = c * f, de = d * e, df = d * f;\n\n\t\t\tte[ 0 ] = ce - df * b;\n\t\t\tte[ 4 ] = - a * f;\n\t\t\tte[ 8 ] = de + cf * b;\n\n\t\t\tte[ 1 ] = cf + de * b;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = df - ce * b;\n\n\t\t\tte[ 2 ] = - a * d;\n\t\t\tte[ 6 ] = b;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'ZYX' ) {\n\n\t\t\tconst ae = a * e, af = a * f, be = b * e, bf = b * f;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = be * d - af;\n\t\t\tte[ 8 ] = ae * d + bf;\n\n\t\t\tte[ 1 ] = c * f;\n\t\t\tte[ 5 ] = bf * d + ae;\n\t\t\tte[ 9 ] = af * d - be;\n\n\t\t\tte[ 2 ] = - d;\n\t\t\tte[ 6 ] = b * c;\n\t\t\tte[ 10 ] = a * c;\n\n\t\t} else if ( euler.order === 'YZX' ) {\n\n\t\t\tconst ac = a * c, ad = a * d, bc = b * c, bd = b * d;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = bd - ac * f;\n\t\t\tte[ 8 ] = bc * f + ad;\n\n\t\t\tte[ 1 ] = f;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = - b * e;\n\n\t\t\tte[ 2 ] = - d * e;\n\t\t\tte[ 6 ] = ad * f + bc;\n\t\t\tte[ 10 ] = ac - bd * f;\n\n\t\t} else if ( euler.order === 'XZY' ) {\n\n\t\t\tconst ac = a * c, ad = a * d, bc = b * c, bd = b * d;\n\n\t\t\tte[ 0 ] = c * e;\n\t\t\tte[ 4 ] = - f;\n\t\t\tte[ 8 ] = d * e;\n\n\t\t\tte[ 1 ] = ac * f + bd;\n\t\t\tte[ 5 ] = a * e;\n\t\t\tte[ 9 ] = ad * f - bc;\n\n\t\t\tte[ 2 ] = bc * f - ad;\n\t\t\tte[ 6 ] = b * e;\n\t\t\tte[ 10 ] = bd * f + ac;\n\n\t\t}\n\n\t\t// bottom row\n\t\tte[ 3 ] = 0;\n\t\tte[ 7 ] = 0;\n\t\tte[ 11 ] = 0;\n\n\t\t// last column\n\t\tte[ 12 ] = 0;\n\t\tte[ 13 ] = 0;\n\t\tte[ 14 ] = 0;\n\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the rotation component of this matrix to the rotation specified by\n\t * the given Quaternion as outlined [here]{@link https://en.wikipedia.org/wiki/Rotation_matrix#Quaternion}\n\t * The rest of the matrix is set to the identity.\n\t *\n\t * @param {Quaternion} q - The Quaternion.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationFromQuaternion( q ) {\n\n\t\treturn this.compose( _zero, q, _one );\n\n\t}\n\n\t/**\n\t * Sets the rotation component of the transformation matrix, looking from `eye` towards\n\t * `target`, and oriented by the up-direction.\n\t *\n\t * @param {Vector3} eye - The eye vector.\n\t * @param {Vector3} target - The target vector.\n\t * @param {Vector3} up - The up vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tlookAt( eye, target, up ) {\n\n\t\tconst te = this.elements;\n\n\t\t_z.subVectors( eye, target );\n\n\t\tif ( _z.lengthSq() === 0 ) {\n\n\t\t\t// eye and target are in the same position\n\n\t\t\t_z.z = 1;\n\n\t\t}\n\n\t\t_z.normalize();\n\t\t_x.crossVectors( up, _z );\n\n\t\tif ( _x.lengthSq() === 0 ) {\n\n\t\t\t// up and z are parallel\n\n\t\t\tif ( Math.abs( up.z ) === 1 ) {\n\n\t\t\t\t_z.x += 0.0001;\n\n\t\t\t} else {\n\n\t\t\t\t_z.z += 0.0001;\n\n\t\t\t}\n\n\t\t\t_z.normalize();\n\t\t\t_x.crossVectors( up, _z );\n\n\t\t}\n\n\t\t_x.normalize();\n\t\t_y.crossVectors( _z, _x );\n\n\t\tte[ 0 ] = _x.x; te[ 4 ] = _y.x; te[ 8 ] = _z.x;\n\t\tte[ 1 ] = _x.y; te[ 5 ] = _y.y; te[ 9 ] = _z.y;\n\t\tte[ 2 ] = _x.z; te[ 6 ] = _y.z; te[ 10 ] = _z.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Post-multiplies this matrix by the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The matrix to multiply with.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmultiply( m ) {\n\n\t\treturn this.multiplyMatrices( this, m );\n\n\t}\n\n\t/**\n\t * Pre-multiplies this matrix by the given 4x4 matrix.\n\t *\n\t * @param {Matrix4} m - The matrix to multiply with.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tpremultiply( m ) {\n\n\t\treturn this.multiplyMatrices( m, this );\n\n\t}\n\n\t/**\n\t * Multiples the given 4x4 matrices and stores the result\n\t * in this matrix.\n\t *\n\t * @param {Matrix4} a - The first matrix.\n\t * @param {Matrix4} b - The second matrix.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmultiplyMatrices( a, b ) {\n\n\t\tconst ae = a.elements;\n\t\tconst be = b.elements;\n\t\tconst te = this.elements;\n\n\t\tconst a11 = ae[ 0 ], a12 = ae[ 4 ], a13 = ae[ 8 ], a14 = ae[ 12 ];\n\t\tconst a21 = ae[ 1 ], a22 = ae[ 5 ], a23 = ae[ 9 ], a24 = ae[ 13 ];\n\t\tconst a31 = ae[ 2 ], a32 = ae[ 6 ], a33 = ae[ 10 ], a34 = ae[ 14 ];\n\t\tconst a41 = ae[ 3 ], a42 = ae[ 7 ], a43 = ae[ 11 ], a44 = ae[ 15 ];\n\n\t\tconst b11 = be[ 0 ], b12 = be[ 4 ], b13 = be[ 8 ], b14 = be[ 12 ];\n\t\tconst b21 = be[ 1 ], b22 = be[ 5 ], b23 = be[ 9 ], b24 = be[ 13 ];\n\t\tconst b31 = be[ 2 ], b32 = be[ 6 ], b33 = be[ 10 ], b34 = be[ 14 ];\n\t\tconst b41 = be[ 3 ], b42 = be[ 7 ], b43 = be[ 11 ], b44 = be[ 15 ];\n\n\t\tte[ 0 ] = a11 * b11 + a12 * b21 + a13 * b31 + a14 * b41;\n\t\tte[ 4 ] = a11 * b12 + a12 * b22 + a13 * b32 + a14 * b42;\n\t\tte[ 8 ] = a11 * b13 + a12 * b23 + a13 * b33 + a14 * b43;\n\t\tte[ 12 ] = a11 * b14 + a12 * b24 + a13 * b34 + a14 * b44;\n\n\t\tte[ 1 ] = a21 * b11 + a22 * b21 + a23 * b31 + a24 * b41;\n\t\tte[ 5 ] = a21 * b12 + a22 * b22 + a23 * b32 + a24 * b42;\n\t\tte[ 9 ] = a21 * b13 + a22 * b23 + a23 * b33 + a24 * b43;\n\t\tte[ 13 ] = a21 * b14 + a22 * b24 + a23 * b34 + a24 * b44;\n\n\t\tte[ 2 ] = a31 * b11 + a32 * b21 + a33 * b31 + a34 * b41;\n\t\tte[ 6 ] = a31 * b12 + a32 * b22 + a33 * b32 + a34 * b42;\n\t\tte[ 10 ] = a31 * b13 + a32 * b23 + a33 * b33 + a34 * b43;\n\t\tte[ 14 ] = a31 * b14 + a32 * b24 + a33 * b34 + a34 * b44;\n\n\t\tte[ 3 ] = a41 * b11 + a42 * b21 + a43 * b31 + a44 * b41;\n\t\tte[ 7 ] = a41 * b12 + a42 * b22 + a43 * b32 + a44 * b42;\n\t\tte[ 11 ] = a41 * b13 + a42 * b23 + a43 * b33 + a44 * b43;\n\t\tte[ 15 ] = a41 * b14 + a42 * b24 + a43 * b34 + a44 * b44;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies every component of the matrix by the given scalar.\n\t *\n\t * @param {number} s - The scalar.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmultiplyScalar( s ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] *= s; te[ 4 ] *= s; te[ 8 ] *= s; te[ 12 ] *= s;\n\t\tte[ 1 ] *= s; te[ 5 ] *= s; te[ 9 ] *= s; te[ 13 ] *= s;\n\t\tte[ 2 ] *= s; te[ 6 ] *= s; te[ 10 ] *= s; te[ 14 ] *= s;\n\t\tte[ 3 ] *= s; te[ 7 ] *= s; te[ 11 ] *= s; te[ 15 ] *= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes and returns the determinant of this matrix.\n\t *\n\t * Based on the method outlined [here]{@link http://www.euclideanspace.com/maths/algebra/matrix/functions/inverse/fourD/index.html}.\n\t *\n\t * @return {number} The determinant.\n\t */\n\tdeterminant() {\n\n\t\tconst te = this.elements;\n\n\t\tconst n11 = te[ 0 ], n12 = te[ 4 ], n13 = te[ 8 ], n14 = te[ 12 ];\n\t\tconst n21 = te[ 1 ], n22 = te[ 5 ], n23 = te[ 9 ], n24 = te[ 13 ];\n\t\tconst n31 = te[ 2 ], n32 = te[ 6 ], n33 = te[ 10 ], n34 = te[ 14 ];\n\t\tconst n41 = te[ 3 ], n42 = te[ 7 ], n43 = te[ 11 ], n44 = te[ 15 ];\n\n\t\t//TODO: make this more efficient\n\n\t\treturn (\n\t\t\tn41 * (\n\t\t\t\t+ n14 * n23 * n32\n\t\t\t\t - n13 * n24 * n32\n\t\t\t\t - n14 * n22 * n33\n\t\t\t\t + n12 * n24 * n33\n\t\t\t\t + n13 * n22 * n34\n\t\t\t\t - n12 * n23 * n34\n\t\t\t) +\n\t\t\tn42 * (\n\t\t\t\t+ n11 * n23 * n34\n\t\t\t\t - n11 * n24 * n33\n\t\t\t\t + n14 * n21 * n33\n\t\t\t\t - n13 * n21 * n34\n\t\t\t\t + n13 * n24 * n31\n\t\t\t\t - n14 * n23 * n31\n\t\t\t) +\n\t\t\tn43 * (\n\t\t\t\t+ n11 * n24 * n32\n\t\t\t\t - n11 * n22 * n34\n\t\t\t\t - n14 * n21 * n32\n\t\t\t\t + n12 * n21 * n34\n\t\t\t\t + n14 * n22 * n31\n\t\t\t\t - n12 * n24 * n31\n\t\t\t) +\n\t\t\tn44 * (\n\t\t\t\t- n13 * n22 * n31\n\t\t\t\t - n11 * n23 * n32\n\t\t\t\t + n11 * n22 * n33\n\t\t\t\t + n13 * n21 * n32\n\t\t\t\t - n12 * n21 * n33\n\t\t\t\t + n12 * n23 * n31\n\t\t\t)\n\n\t\t);\n\n\t}\n\n\t/**\n\t * Transposes this matrix in place.\n\t *\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\ttranspose() {\n\n\t\tconst te = this.elements;\n\t\tlet tmp;\n\n\t\ttmp = te[ 1 ]; te[ 1 ] = te[ 4 ]; te[ 4 ] = tmp;\n\t\ttmp = te[ 2 ]; te[ 2 ] = te[ 8 ]; te[ 8 ] = tmp;\n\t\ttmp = te[ 6 ]; te[ 6 ] = te[ 9 ]; te[ 9 ] = tmp;\n\n\t\ttmp = te[ 3 ]; te[ 3 ] = te[ 12 ]; te[ 12 ] = tmp;\n\t\ttmp = te[ 7 ]; te[ 7 ] = te[ 13 ]; te[ 13 ] = tmp;\n\t\ttmp = te[ 11 ]; te[ 11 ] = te[ 14 ]; te[ 14 ] = tmp;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the position component for this matrix from the given vector,\n\t * without affecting the rest of the matrix.\n\t *\n\t * @param {number|Vector3} x - The x component of the vector or alternatively the vector object.\n\t * @param {number} y - The y component of the vector.\n\t * @param {number} z - The z component of the vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tsetPosition( x, y, z ) {\n\n\t\tconst te = this.elements;\n\n\t\tif ( x.isVector3 ) {\n\n\t\t\tte[ 12 ] = x.x;\n\t\t\tte[ 13 ] = x.y;\n\t\t\tte[ 14 ] = x.z;\n\n\t\t} else {\n\n\t\t\tte[ 12 ] = x;\n\t\t\tte[ 13 ] = y;\n\t\t\tte[ 14 ] = z;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Inverts this matrix, using the [analytic method]{@link https://en.wikipedia.org/wiki/Invertible_matrix#Analytic_solution}.\n\t * You can not invert with a determinant of zero. If you attempt this, the method produces\n\t * a zero matrix instead.\n\t *\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tinvert() {\n\n\t\t// based on http://www.euclideanspace.com/maths/algebra/matrix/functions/inverse/fourD/index.htm\n\t\tconst te = this.elements,\n\n\t\t\tn11 = te[ 0 ], n21 = te[ 1 ], n31 = te[ 2 ], n41 = te[ 3 ],\n\t\t\tn12 = te[ 4 ], n22 = te[ 5 ], n32 = te[ 6 ], n42 = te[ 7 ],\n\t\t\tn13 = te[ 8 ], n23 = te[ 9 ], n33 = te[ 10 ], n43 = te[ 11 ],\n\t\t\tn14 = te[ 12 ], n24 = te[ 13 ], n34 = te[ 14 ], n44 = te[ 15 ],\n\n\t\t\tt11 = n23 * n34 * n42 - n24 * n33 * n42 + n24 * n32 * n43 - n22 * n34 * n43 - n23 * n32 * n44 + n22 * n33 * n44,\n\t\t\tt12 = n14 * n33 * n42 - n13 * n34 * n42 - n14 * n32 * n43 + n12 * n34 * n43 + n13 * n32 * n44 - n12 * n33 * n44,\n\t\t\tt13 = n13 * n24 * n42 - n14 * n23 * n42 + n14 * n22 * n43 - n12 * n24 * n43 - n13 * n22 * n44 + n12 * n23 * n44,\n\t\t\tt14 = n14 * n23 * n32 - n13 * n24 * n32 - n14 * n22 * n33 + n12 * n24 * n33 + n13 * n22 * n34 - n12 * n23 * n34;\n\n\t\tconst det = n11 * t11 + n21 * t12 + n31 * t13 + n41 * t14;\n\n\t\tif ( det === 0 ) return this.set( 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 );\n\n\t\tconst detInv = 1 / det;\n\n\t\tte[ 0 ] = t11 * detInv;\n\t\tte[ 1 ] = ( n24 * n33 * n41 - n23 * n34 * n41 - n24 * n31 * n43 + n21 * n34 * n43 + n23 * n31 * n44 - n21 * n33 * n44 ) * detInv;\n\t\tte[ 2 ] = ( n22 * n34 * n41 - n24 * n32 * n41 + n24 * n31 * n42 - n21 * n34 * n42 - n22 * n31 * n44 + n21 * n32 * n44 ) * detInv;\n\t\tte[ 3 ] = ( n23 * n32 * n41 - n22 * n33 * n41 - n23 * n31 * n42 + n21 * n33 * n42 + n22 * n31 * n43 - n21 * n32 * n43 ) * detInv;\n\n\t\tte[ 4 ] = t12 * detInv;\n\t\tte[ 5 ] = ( n13 * n34 * n41 - n14 * n33 * n41 + n14 * n31 * n43 - n11 * n34 * n43 - n13 * n31 * n44 + n11 * n33 * n44 ) * detInv;\n\t\tte[ 6 ] = ( n14 * n32 * n41 - n12 * n34 * n41 - n14 * n31 * n42 + n11 * n34 * n42 + n12 * n31 * n44 - n11 * n32 * n44 ) * detInv;\n\t\tte[ 7 ] = ( n12 * n33 * n41 - n13 * n32 * n41 + n13 * n31 * n42 - n11 * n33 * n42 - n12 * n31 * n43 + n11 * n32 * n43 ) * detInv;\n\n\t\tte[ 8 ] = t13 * detInv;\n\t\tte[ 9 ] = ( n14 * n23 * n41 - n13 * n24 * n41 - n14 * n21 * n43 + n11 * n24 * n43 + n13 * n21 * n44 - n11 * n23 * n44 ) * detInv;\n\t\tte[ 10 ] = ( n12 * n24 * n41 - n14 * n22 * n41 + n14 * n21 * n42 - n11 * n24 * n42 - n12 * n21 * n44 + n11 * n22 * n44 ) * detInv;\n\t\tte[ 11 ] = ( n13 * n22 * n41 - n12 * n23 * n41 - n13 * n21 * n42 + n11 * n23 * n42 + n12 * n21 * n43 - n11 * n22 * n43 ) * detInv;\n\n\t\tte[ 12 ] = t14 * detInv;\n\t\tte[ 13 ] = ( n13 * n24 * n31 - n14 * n23 * n31 + n14 * n21 * n33 - n11 * n24 * n33 - n13 * n21 * n34 + n11 * n23 * n34 ) * detInv;\n\t\tte[ 14 ] = ( n14 * n22 * n31 - n12 * n24 * n31 - n14 * n21 * n32 + n11 * n24 * n32 + n12 * n21 * n34 - n11 * n22 * n34 ) * detInv;\n\t\tte[ 15 ] = ( n12 * n23 * n31 - n13 * n22 * n31 + n13 * n21 * n32 - n11 * n23 * n32 - n12 * n21 * n33 + n11 * n22 * n33 ) * detInv;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the columns of this matrix by the given vector.\n\t *\n\t * @param {Vector3} v - The scale vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tscale( v ) {\n\n\t\tconst te = this.elements;\n\t\tconst x = v.x, y = v.y, z = v.z;\n\n\t\tte[ 0 ] *= x; te[ 4 ] *= y; te[ 8 ] *= z;\n\t\tte[ 1 ] *= x; te[ 5 ] *= y; te[ 9 ] *= z;\n\t\tte[ 2 ] *= x; te[ 6 ] *= y; te[ 10 ] *= z;\n\t\tte[ 3 ] *= x; te[ 7 ] *= y; te[ 11 ] *= z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Gets the maximum scale value of the three axes.\n\t *\n\t * @return {number} The maximum scale.\n\t */\n\tgetMaxScaleOnAxis() {\n\n\t\tconst te = this.elements;\n\n\t\tconst scaleXSq = te[ 0 ] * te[ 0 ] + te[ 1 ] * te[ 1 ] + te[ 2 ] * te[ 2 ];\n\t\tconst scaleYSq = te[ 4 ] * te[ 4 ] + te[ 5 ] * te[ 5 ] + te[ 6 ] * te[ 6 ];\n\t\tconst scaleZSq = te[ 8 ] * te[ 8 ] + te[ 9 ] * te[ 9 ] + te[ 10 ] * te[ 10 ];\n\n\t\treturn Math.sqrt( Math.max( scaleXSq, scaleYSq, scaleZSq ) );\n\n\t}\n\n\t/**\n\t * Sets this matrix as a translation transform from the given vector.\n\t *\n\t * @param {number|Vector3} x - The amount to translate in the X axis or alternatively a translation vector.\n\t * @param {number} y - The amount to translate in the Y axis.\n\t * @param {number} z - The amount to translate in the z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeTranslation( x, y, z ) {\n\n\t\tif ( x.isVector3 ) {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, 0, x.x,\n\t\t\t\t0, 1, 0, x.y,\n\t\t\t\t0, 0, 1, x.z,\n\t\t\t\t0, 0, 0, 1\n\n\t\t\t);\n\n\t\t} else {\n\n\t\t\tthis.set(\n\n\t\t\t\t1, 0, 0, x,\n\t\t\t\t0, 1, 0, y,\n\t\t\t\t0, 0, 1, z,\n\t\t\t\t0, 0, 0, 1\n\n\t\t\t);\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the X axis by\n\t * the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationX( theta ) {\n\n\t\tconst c = Math.cos( theta ), s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\t1, 0, 0, 0,\n\t\t\t0, c, - s, 0,\n\t\t\t0, s, c, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the Y axis by\n\t * the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationY( theta ) {\n\n\t\tconst c = Math.cos( theta ), s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\t c, 0, s, 0,\n\t\t\t 0, 1, 0, 0,\n\t\t\t- s, 0, c, 0,\n\t\t\t 0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the Z axis by\n\t * the given angle.\n\t *\n\t * @param {number} theta - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationZ( theta ) {\n\n\t\tconst c = Math.cos( theta ), s = Math.sin( theta );\n\n\t\tthis.set(\n\n\t\t\tc, - s, 0, 0,\n\t\t\ts, c, 0, 0,\n\t\t\t0, 0, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a rotational transformation around the given axis by\n\t * the given angle.\n\t *\n\t * This is a somewhat controversial but mathematically sound alternative to\n\t * rotating via Quaternions. See the discussion [here]{@link https://www.gamedev.net/articles/programming/math-and-physics/do-we-really-need-quaternions-r1199}.\n\t *\n\t * @param {Vector3} axis - The normalized rotation axis.\n\t * @param {number} angle - The rotation in radians.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeRotationAxis( axis, angle ) {\n\n\t\t// Based on http://www.gamedev.net/reference/articles/article1199.asp\n\n\t\tconst c = Math.cos( angle );\n\t\tconst s = Math.sin( angle );\n\t\tconst t = 1 - c;\n\t\tconst x = axis.x, y = axis.y, z = axis.z;\n\t\tconst tx = t * x, ty = t * y;\n\n\t\tthis.set(\n\n\t\t\ttx * x + c, tx * y - s * z, tx * z + s * y, 0,\n\t\t\ttx * y + s * z, ty * y + c, ty * z - s * x, 0,\n\t\t\ttx * z - s * y, ty * z + s * x, t * z * z + c, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a scale transformation.\n\t *\n\t * @param {number} x - The amount to scale in the X axis.\n\t * @param {number} y - The amount to scale in the Y axis.\n\t * @param {number} z - The amount to scale in the Z axis.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeScale( x, y, z ) {\n\n\t\tthis.set(\n\n\t\t\tx, 0, 0, 0,\n\t\t\t0, y, 0, 0,\n\t\t\t0, 0, z, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix as a shear transformation.\n\t *\n\t * @param {number} xy - The amount to shear X by Y.\n\t * @param {number} xz - The amount to shear X by Z.\n\t * @param {number} yx - The amount to shear Y by X.\n\t * @param {number} yz - The amount to shear Y by Z.\n\t * @param {number} zx - The amount to shear Z by X.\n\t * @param {number} zy - The amount to shear Z by Y.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeShear( xy, xz, yx, yz, zx, zy ) {\n\n\t\tthis.set(\n\n\t\t\t1, yx, zx, 0,\n\t\t\txy, 1, zy, 0,\n\t\t\txz, yz, 1, 0,\n\t\t\t0, 0, 0, 1\n\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this matrix to the transformation composed of the given position,\n\t * rotation (Quaternion) and scale.\n\t *\n\t * @param {Vector3} position - The position vector.\n\t * @param {Quaternion} quaternion - The rotation as a Quaternion.\n\t * @param {Vector3} scale - The scale vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tcompose( position, quaternion, scale ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = quaternion._x, y = quaternion._y, z = quaternion._z, w = quaternion._w;\n\t\tconst x2 = x + x,\ty2 = y + y, z2 = z + z;\n\t\tconst xx = x * x2, xy = x * y2, xz = x * z2;\n\t\tconst yy = y * y2, yz = y * z2, zz = z * z2;\n\t\tconst wx = w * x2, wy = w * y2, wz = w * z2;\n\n\t\tconst sx = scale.x, sy = scale.y, sz = scale.z;\n\n\t\tte[ 0 ] = ( 1 - ( yy + zz ) ) * sx;\n\t\tte[ 1 ] = ( xy + wz ) * sx;\n\t\tte[ 2 ] = ( xz - wy ) * sx;\n\t\tte[ 3 ] = 0;\n\n\t\tte[ 4 ] = ( xy - wz ) * sy;\n\t\tte[ 5 ] = ( 1 - ( xx + zz ) ) * sy;\n\t\tte[ 6 ] = ( yz + wx ) * sy;\n\t\tte[ 7 ] = 0;\n\n\t\tte[ 8 ] = ( xz + wy ) * sz;\n\t\tte[ 9 ] = ( yz - wx ) * sz;\n\t\tte[ 10 ] = ( 1 - ( xx + yy ) ) * sz;\n\t\tte[ 11 ] = 0;\n\n\t\tte[ 12 ] = position.x;\n\t\tte[ 13 ] = position.y;\n\t\tte[ 14 ] = position.z;\n\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Decomposes this matrix into its position, rotation and scale components\n\t * and provides the result in the given objects.\n\t *\n\t * Note: Not all matrices are decomposable in this way. For example, if an\n\t * object has a non-uniformly scaled parent, then the object's world matrix\n\t * may not be decomposable, and this method may not be appropriate.\n\t *\n\t * @param {Vector3} position - The position vector.\n\t * @param {Quaternion} quaternion - The rotation as a Quaternion.\n\t * @param {Vector3} scale - The scale vector.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tdecompose( position, quaternion, scale ) {\n\n\t\tconst te = this.elements;\n\n\t\tlet sx = _v1$5.set( te[ 0 ], te[ 1 ], te[ 2 ] ).length();\n\t\tconst sy = _v1$5.set( te[ 4 ], te[ 5 ], te[ 6 ] ).length();\n\t\tconst sz = _v1$5.set( te[ 8 ], te[ 9 ], te[ 10 ] ).length();\n\n\t\t// if determine is negative, we need to invert one scale\n\t\tconst det = this.determinant();\n\t\tif ( det < 0 ) sx = - sx;\n\n\t\tposition.x = te[ 12 ];\n\t\tposition.y = te[ 13 ];\n\t\tposition.z = te[ 14 ];\n\n\t\t// scale the rotation part\n\t\t_m1$2.copy( this );\n\n\t\tconst invSX = 1 / sx;\n\t\tconst invSY = 1 / sy;\n\t\tconst invSZ = 1 / sz;\n\n\t\t_m1$2.elements[ 0 ] *= invSX;\n\t\t_m1$2.elements[ 1 ] *= invSX;\n\t\t_m1$2.elements[ 2 ] *= invSX;\n\n\t\t_m1$2.elements[ 4 ] *= invSY;\n\t\t_m1$2.elements[ 5 ] *= invSY;\n\t\t_m1$2.elements[ 6 ] *= invSY;\n\n\t\t_m1$2.elements[ 8 ] *= invSZ;\n\t\t_m1$2.elements[ 9 ] *= invSZ;\n\t\t_m1$2.elements[ 10 ] *= invSZ;\n\n\t\tquaternion.setFromRotationMatrix( _m1$2 );\n\n\t\tscale.x = sx;\n\t\tscale.y = sy;\n\t\tscale.z = sz;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Creates a perspective projection matrix. This is used internally by\n\t * {@link PerspectiveCamera#updateProjectionMatrix}.\n\n\t * @param {number} left - Left boundary of the viewing frustum at the near plane.\n\t * @param {number} right - Right boundary of the viewing frustum at the near plane.\n\t * @param {number} top - Top boundary of the viewing frustum at the near plane.\n\t * @param {number} bottom - Bottom boundary of the viewing frustum at the near plane.\n\t * @param {number} near - The distance from the camera to the near plane.\n\t * @param {number} far - The distance from the camera to the far plane.\n\t * @param {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} [coordinateSystem=WebGLCoordinateSystem] - The coordinate system.\n\t * @param {boolean} [reversedDepth=false] - Whether to use a reversed depth.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakePerspective( left, right, top, bottom, near, far, coordinateSystem = WebGLCoordinateSystem, reversedDepth = false ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = 2 * near / ( right - left );\n\t\tconst y = 2 * near / ( top - bottom );\n\n\t\tconst a = ( right + left ) / ( right - left );\n\t\tconst b = ( top + bottom ) / ( top - bottom );\n\n\t\tlet c, d;\n\n\t\tif ( reversedDepth ) {\n\n\t\t\tc = near / ( far - near );\n\t\t\td = ( far * near ) / ( far - near );\n\n\t\t} else {\n\n\t\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tc = - ( far + near ) / ( far - near );\n\t\t\t\td = ( -2 * far * near ) / ( far - near );\n\n\t\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tc = - far / ( far - near );\n\t\t\t\td = ( - far * near ) / ( far - near );\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.Matrix4.makePerspective(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\t\tte[ 0 ] = x;\tte[ 4 ] = 0;\tte[ 8 ] = a; \tte[ 12 ] = 0;\n\t\tte[ 1 ] = 0;\tte[ 5 ] = y;\tte[ 9 ] = b; \tte[ 13 ] = 0;\n\t\tte[ 2 ] = 0;\tte[ 6 ] = 0;\tte[ 10 ] = c; \tte[ 14 ] = d;\n\t\tte[ 3 ] = 0;\tte[ 7 ] = 0;\tte[ 11 ] = -1;\tte[ 15 ] = 0;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Creates a orthographic projection matrix. This is used internally by\n\t * {@link OrthographicCamera#updateProjectionMatrix}.\n\n\t * @param {number} left - Left boundary of the viewing frustum at the near plane.\n\t * @param {number} right - Right boundary of the viewing frustum at the near plane.\n\t * @param {number} top - Top boundary of the viewing frustum at the near plane.\n\t * @param {number} bottom - Bottom boundary of the viewing frustum at the near plane.\n\t * @param {number} near - The distance from the camera to the near plane.\n\t * @param {number} far - The distance from the camera to the far plane.\n\t * @param {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} [coordinateSystem=WebGLCoordinateSystem] - The coordinate system.\n\t * @param {boolean} [reversedDepth=false] - Whether to use a reversed depth.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tmakeOrthographic( left, right, top, bottom, near, far, coordinateSystem = WebGLCoordinateSystem, reversedDepth = false ) {\n\n\t\tconst te = this.elements;\n\n\t\tconst x = 2 / ( right - left );\n\t\tconst y = 2 / ( top - bottom );\n\n\t\tconst a = - ( right + left ) / ( right - left );\n\t\tconst b = - ( top + bottom ) / ( top - bottom );\n\n\t\tlet c, d;\n\n\t\tif ( reversedDepth ) {\n\n\t\t\tc = 1 / ( far - near );\n\t\t\td = far / ( far - near );\n\n\t\t} else {\n\n\t\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tc = -2 / ( far - near );\n\t\t\t\td = - ( far + near ) / ( far - near );\n\n\t\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tc = -1 / ( far - near );\n\t\t\t\td = - near / ( far - near );\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.Matrix4.makeOrthographic(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\t\tte[ 0 ] = x;\t\tte[ 4 ] = 0;\t\tte[ 8 ] = 0; \t\tte[ 12 ] = a;\n\t\tte[ 1 ] = 0; \t\tte[ 5 ] = y;\t\tte[ 9 ] = 0; \t\tte[ 13 ] = b;\n\t\tte[ 2 ] = 0; \t\tte[ 6 ] = 0;\t\tte[ 10 ] = c;\t\tte[ 14 ] = d;\n\t\tte[ 3 ] = 0; \t\tte[ 7 ] = 0;\t\tte[ 11 ] = 0;\t\tte[ 15 ] = 1;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this matrix is equal with the given one.\n\t *\n\t * @param {Matrix4} matrix - The matrix to test for equality.\n\t * @return {boolean} Whether this matrix is equal with the given one.\n\t */\n\tequals( matrix ) {\n\n\t\tconst te = this.elements;\n\t\tconst me = matrix.elements;\n\n\t\tfor ( let i = 0; i < 16; i ++ ) {\n\n\t\t\tif ( te[ i ] !== me[ i ] ) return false;\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix from the given array.\n\t *\n\t * @param {Array} array - The matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Matrix4} A reference to this matrix.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tfor ( let i = 0; i < 16; i ++ ) {\n\n\t\t\tthis.elements[ i ] = array[ i + offset ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the elements of this matrix to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The matrix elements in column-major order.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tconst te = this.elements;\n\n\t\tarray[ offset ] = te[ 0 ];\n\t\tarray[ offset + 1 ] = te[ 1 ];\n\t\tarray[ offset + 2 ] = te[ 2 ];\n\t\tarray[ offset + 3 ] = te[ 3 ];\n\n\t\tarray[ offset + 4 ] = te[ 4 ];\n\t\tarray[ offset + 5 ] = te[ 5 ];\n\t\tarray[ offset + 6 ] = te[ 6 ];\n\t\tarray[ offset + 7 ] = te[ 7 ];\n\n\t\tarray[ offset + 8 ] = te[ 8 ];\n\t\tarray[ offset + 9 ] = te[ 9 ];\n\t\tarray[ offset + 10 ] = te[ 10 ];\n\t\tarray[ offset + 11 ] = te[ 11 ];\n\n\t\tarray[ offset + 12 ] = te[ 12 ];\n\t\tarray[ offset + 13 ] = te[ 13 ];\n\t\tarray[ offset + 14 ] = te[ 14 ];\n\t\tarray[ offset + 15 ] = te[ 15 ];\n\n\t\treturn array;\n\n\t}\n\n}\n\nconst _v1$5 = /*@__PURE__*/ new Vector3();\nconst _m1$2 = /*@__PURE__*/ new Matrix4();\nconst _zero = /*@__PURE__*/ new Vector3( 0, 0, 0 );\nconst _one = /*@__PURE__*/ new Vector3( 1, 1, 1 );\nconst _x = /*@__PURE__*/ new Vector3();\nconst _y = /*@__PURE__*/ new Vector3();\nconst _z = /*@__PURE__*/ new Vector3();\n\nconst _matrix$2 = /*@__PURE__*/ new Matrix4();\nconst _quaternion$3 = /*@__PURE__*/ new Quaternion();\n\n/**\n * A class representing Euler angles.\n *\n * Euler angles describe a rotational transformation by rotating an object on\n * its various axes in specified amounts per axis, and a specified axis\n * order.\n *\n * Iterating through an instance will yield its components (x, y, z,\n * order) in the corresponding order.\n *\n * ```js\n * const a = new THREE.Euler( 0, 1, 1.57, 'XYZ' );\n * const b = new THREE.Vector3( 1, 0, 1 );\n * b.applyEuler(a);\n * ```\n */\nclass Euler {\n\n\t/**\n\t * Constructs a new euler instance.\n\t *\n\t * @param {number} [x=0] - The angle of the x axis in radians.\n\t * @param {number} [y=0] - The angle of the y axis in radians.\n\t * @param {number} [z=0] - The angle of the z axis in radians.\n\t * @param {string} [order=Euler.DEFAULT_ORDER] - A string representing the order that the rotations are applied.\n\t */\n\tconstructor( x = 0, y = 0, z = 0, order = Euler.DEFAULT_ORDER ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isEuler = true;\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._order = order;\n\n\t}\n\n\t/**\n\t * The angle of the x axis in radians.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget x() {\n\n\t\treturn this._x;\n\n\t}\n\n\tset x( value ) {\n\n\t\tthis._x = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The angle of the y axis in radians.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget y() {\n\n\t\treturn this._y;\n\n\t}\n\n\tset y( value ) {\n\n\t\tthis._y = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * The angle of the z axis in radians.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget z() {\n\n\t\treturn this._z;\n\n\t}\n\n\tset z( value ) {\n\n\t\tthis._z = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * A string representing the order that the rotations are applied.\n\t *\n\t * @type {string}\n\t * @default 'XYZ'\n\t */\n\tget order() {\n\n\t\treturn this._order;\n\n\t}\n\n\tset order( value ) {\n\n\t\tthis._order = value;\n\t\tthis._onChangeCallback();\n\n\t}\n\n\t/**\n\t * Sets the Euler components.\n\t *\n\t * @param {number} x - The angle of the x axis in radians.\n\t * @param {number} y - The angle of the y axis in radians.\n\t * @param {number} z - The angle of the z axis in radians.\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tset( x, y, z, order = this._order ) {\n\n\t\tthis._x = x;\n\t\tthis._y = y;\n\t\tthis._z = z;\n\t\tthis._order = order;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new Euler instance with copied values from this instance.\n\t *\n\t * @return {Euler} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this._x, this._y, this._z, this._order );\n\n\t}\n\n\t/**\n\t * Copies the values of the given Euler instance to this instance.\n\t *\n\t * @param {Euler} euler - The Euler instance to copy.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tcopy( euler ) {\n\n\t\tthis._x = euler._x;\n\t\tthis._y = euler._y;\n\t\tthis._z = euler._z;\n\t\tthis._order = euler._order;\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the angles of this Euler instance from a pure rotation matrix.\n\t *\n\t * @param {Matrix4} m - A 4x4 matrix of which the upper 3x3 of matrix is a pure rotation matrix (i.e. unscaled).\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tsetFromRotationMatrix( m, order = this._order, update = true ) {\n\n\t\tconst te = m.elements;\n\t\tconst m11 = te[ 0 ], m12 = te[ 4 ], m13 = te[ 8 ];\n\t\tconst m21 = te[ 1 ], m22 = te[ 5 ], m23 = te[ 9 ];\n\t\tconst m31 = te[ 2 ], m32 = te[ 6 ], m33 = te[ 10 ];\n\n\t\tswitch ( order ) {\n\n\t\t\tcase 'XYZ':\n\n\t\t\t\tthis._y = Math.asin( clamp( m13, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m13 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( - m23, m33 );\n\t\t\t\t\tthis._z = Math.atan2( - m12, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = Math.atan2( m32, m22 );\n\t\t\t\t\tthis._z = 0;\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'YXZ':\n\n\t\t\t\tthis._x = Math.asin( - clamp( m23, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m23 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._y = Math.atan2( m13, m33 );\n\t\t\t\t\tthis._z = Math.atan2( m21, m22 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._y = Math.atan2( - m31, m11 );\n\t\t\t\t\tthis._z = 0;\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZXY':\n\n\t\t\t\tthis._x = Math.asin( clamp( m32, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m32 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._y = Math.atan2( - m31, m33 );\n\t\t\t\t\tthis._z = Math.atan2( - m12, m22 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._y = 0;\n\t\t\t\t\tthis._z = Math.atan2( m21, m11 );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'ZYX':\n\n\t\t\t\tthis._y = Math.asin( - clamp( m31, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m31 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( m32, m33 );\n\t\t\t\t\tthis._z = Math.atan2( m21, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = 0;\n\t\t\t\t\tthis._z = Math.atan2( - m12, m22 );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'YZX':\n\n\t\t\t\tthis._z = Math.asin( clamp( m21, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m21 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( - m23, m22 );\n\t\t\t\t\tthis._y = Math.atan2( - m31, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = 0;\n\t\t\t\t\tthis._y = Math.atan2( m13, m33 );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'XZY':\n\n\t\t\t\tthis._z = Math.asin( - clamp( m12, -1, 1 ) );\n\n\t\t\t\tif ( Math.abs( m12 ) < 0.9999999 ) {\n\n\t\t\t\t\tthis._x = Math.atan2( m32, m22 );\n\t\t\t\t\tthis._y = Math.atan2( m13, m11 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis._x = Math.atan2( - m23, m33 );\n\t\t\t\t\tthis._y = 0;\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\n\t\t\t\tconsole.warn( 'THREE.Euler: .setFromRotationMatrix() encountered an unknown order: ' + order );\n\n\t\t}\n\n\t\tthis._order = order;\n\n\t\tif ( update === true ) this._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the angles of this Euler instance from a normalized quaternion.\n\t *\n\t * @param {Quaternion} q - A normalized Quaternion.\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tsetFromQuaternion( q, order, update ) {\n\n\t\t_matrix$2.makeRotationFromQuaternion( q );\n\n\t\treturn this.setFromRotationMatrix( _matrix$2, order, update );\n\n\t}\n\n\t/**\n\t * Sets the angles of this Euler instance from the given vector.\n\t *\n\t * @param {Vector3} v - The vector.\n\t * @param {string} [order] - A string representing the order that the rotations are applied.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tsetFromVector3( v, order = this._order ) {\n\n\t\treturn this.set( v.x, v.y, v.z, order );\n\n\t}\n\n\t/**\n\t * Resets the euler angle with a new order by creating a quaternion from this\n\t * euler angle and then setting this euler angle with the quaternion and the\n\t * new order.\n\t *\n\t * Warning: This discards revolution information.\n\t *\n\t * @param {string} [newOrder] - A string representing the new order that the rotations are applied.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\treorder( newOrder ) {\n\n\t\t_quaternion$3.setFromEuler( this );\n\n\t\treturn this.setFromQuaternion( _quaternion$3, newOrder );\n\n\t}\n\n\t/**\n\t * Returns `true` if this Euler instance is equal with the given one.\n\t *\n\t * @param {Euler} euler - The Euler instance to test for equality.\n\t * @return {boolean} Whether this Euler instance is equal with the given one.\n\t */\n\tequals( euler ) {\n\n\t\treturn ( euler._x === this._x ) && ( euler._y === this._y ) && ( euler._z === this._z ) && ( euler._order === this._order );\n\n\t}\n\n\t/**\n\t * Sets this Euler instance's components to values from the given array. The first three\n\t * entries of the array are assign to the x,y and z components. An optional fourth entry\n\t * defines the Euler order.\n\t *\n\t * @param {Array} array - An array holding the Euler component values.\n\t * @return {Euler} A reference to this Euler instance.\n\t */\n\tfromArray( array ) {\n\n\t\tthis._x = array[ 0 ];\n\t\tthis._y = array[ 1 ];\n\t\tthis._z = array[ 2 ];\n\t\tif ( array[ 3 ] !== undefined ) this._order = array[ 3 ];\n\n\t\tthis._onChangeCallback();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the components of this Euler instance to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the Euler components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The Euler components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this._x;\n\t\tarray[ offset + 1 ] = this._y;\n\t\tarray[ offset + 2 ] = this._z;\n\t\tarray[ offset + 3 ] = this._order;\n\n\t\treturn array;\n\n\t}\n\n\t_onChange( callback ) {\n\n\t\tthis._onChangeCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t_onChangeCallback() {}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this._x;\n\t\tyield this._y;\n\t\tyield this._z;\n\t\tyield this._order;\n\n\t}\n\n}\n\n/**\n * The default Euler angle order.\n *\n * @static\n * @type {string}\n * @default 'XYZ'\n */\nEuler.DEFAULT_ORDER = 'XYZ';\n\n/**\n * A layers object assigns an 3D object to 1 or more of 32\n * layers numbered `0` to `31` - internally the layers are stored as a\n * bit mask], and by default all 3D objects are a member of layer `0`.\n *\n * This can be used to control visibility - an object must share a layer with\n * a camera to be visible when that camera's view is\n * rendered.\n *\n * All classes that inherit from {@link Object3D} have an `layers` property which\n * is an instance of this class.\n */\nclass Layers {\n\n\t/**\n\t * Constructs a new layers instance, with membership\n\t * initially set to layer `0`.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * A bit mask storing which of the 32 layers this layers object is currently\n\t\t * a member of.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.mask = 1 | 0;\n\n\t}\n\n\t/**\n\t * Sets membership to the given layer, and remove membership all other layers.\n\t *\n\t * @param {number} layer - The layer to set.\n\t */\n\tset( layer ) {\n\n\t\tthis.mask = ( 1 << layer | 0 ) >>> 0;\n\n\t}\n\n\t/**\n\t * Adds membership of the given layer.\n\t *\n\t * @param {number} layer - The layer to enable.\n\t */\n\tenable( layer ) {\n\n\t\tthis.mask |= 1 << layer | 0;\n\n\t}\n\n\t/**\n\t * Adds membership to all layers.\n\t */\n\tenableAll() {\n\n\t\tthis.mask = 0xffffffff | 0;\n\n\t}\n\n\t/**\n\t * Toggles the membership of the given layer.\n\t *\n\t * @param {number} layer - The layer to toggle.\n\t */\n\ttoggle( layer ) {\n\n\t\tthis.mask ^= 1 << layer | 0;\n\n\t}\n\n\t/**\n\t * Removes membership of the given layer.\n\t *\n\t * @param {number} layer - The layer to enable.\n\t */\n\tdisable( layer ) {\n\n\t\tthis.mask &= ~ ( 1 << layer | 0 );\n\n\t}\n\n\t/**\n\t * Removes the membership from all layers.\n\t */\n\tdisableAll() {\n\n\t\tthis.mask = 0;\n\n\t}\n\n\t/**\n\t * Returns `true` if this and the given layers object have at least one\n\t * layer in common.\n\t *\n\t * @param {Layers} layers - The layers to test.\n\t * @return {boolean } Whether this and the given layers object have at least one layer in common or not.\n\t */\n\ttest( layers ) {\n\n\t\treturn ( this.mask & layers.mask ) !== 0;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given layer is enabled.\n\t *\n\t * @param {number} layer - The layer to test.\n\t * @return {boolean } Whether the given layer is enabled or not.\n\t */\n\tisEnabled( layer ) {\n\n\t\treturn ( this.mask & ( 1 << layer | 0 ) ) !== 0;\n\n\t}\n\n}\n\nlet _object3DId = 0;\n\nconst _v1$4 = /*@__PURE__*/ new Vector3();\nconst _q1 = /*@__PURE__*/ new Quaternion();\nconst _m1$1 = /*@__PURE__*/ new Matrix4();\nconst _target = /*@__PURE__*/ new Vector3();\n\nconst _position$3 = /*@__PURE__*/ new Vector3();\nconst _scale$2 = /*@__PURE__*/ new Vector3();\nconst _quaternion$2 = /*@__PURE__*/ new Quaternion();\n\nconst _xAxis = /*@__PURE__*/ new Vector3( 1, 0, 0 );\nconst _yAxis = /*@__PURE__*/ new Vector3( 0, 1, 0 );\nconst _zAxis = /*@__PURE__*/ new Vector3( 0, 0, 1 );\n\n/**\n * Fires when the object has been added to its parent object.\n *\n * @event Object3D#added\n * @type {Object}\n */\nconst _addedEvent = { type: 'added' };\n\n/**\n * Fires when the object has been removed from its parent object.\n *\n * @event Object3D#removed\n * @type {Object}\n */\nconst _removedEvent = { type: 'removed' };\n\n/**\n * Fires when a new child object has been added.\n *\n * @event Object3D#childadded\n * @type {Object}\n */\nconst _childaddedEvent = { type: 'childadded', child: null };\n\n/**\n * Fires when a child object has been removed.\n *\n * @event Object3D#childremoved\n * @type {Object}\n */\nconst _childremovedEvent = { type: 'childremoved', child: null };\n\n/**\n * This is the base class for most objects in three.js and provides a set of\n * properties and methods for manipulating objects in 3D space.\n *\n * @augments EventDispatcher\n */\nclass Object3D extends EventDispatcher {\n\n\t/**\n\t * Constructs a new 3D object.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isObject3D = true;\n\n\t\t/**\n\t\t * The ID of the 3D object.\n\t\t *\n\t\t * @name Object3D#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _object3DId ++ } );\n\n\t\t/**\n\t\t * The UUID of the 3D object.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the 3D object.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'Object3D';\n\n\t\t/**\n\t\t * A reference to the parent object.\n\t\t *\n\t\t * @type {?Object3D}\n\t\t * @default null\n\t\t */\n\t\tthis.parent = null;\n\n\t\t/**\n\t\t * An array holding the child 3D objects of this instance.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.children = [];\n\n\t\t/**\n\t\t * Defines the `up` direction of the 3D object which influences\n\t\t * the orientation via methods like {@link Object3D#lookAt}.\n\t\t *\n\t\t * The default values for all 3D objects is defined by `Object3D.DEFAULT_UP`.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.up = Object3D.DEFAULT_UP.clone();\n\n\t\tconst position = new Vector3();\n\t\tconst rotation = new Euler();\n\t\tconst quaternion = new Quaternion();\n\t\tconst scale = new Vector3( 1, 1, 1 );\n\n\t\tfunction onRotationChange() {\n\n\t\t\tquaternion.setFromEuler( rotation, false );\n\n\t\t}\n\n\t\tfunction onQuaternionChange() {\n\n\t\t\trotation.setFromQuaternion( quaternion, undefined, false );\n\n\t\t}\n\n\t\trotation._onChange( onRotationChange );\n\t\tquaternion._onChange( onQuaternionChange );\n\n\t\tObject.defineProperties( this, {\n\t\t\t/**\n\t\t\t * Represents the object's local position.\n\t\t\t *\n\t\t\t * @name Object3D#position\n\t\t\t * @type {Vector3}\n\t\t\t * @default (0,0,0)\n\t\t\t */\n\t\t\tposition: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: position\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's local rotation as Euler angles, in radians.\n\t\t\t *\n\t\t\t * @name Object3D#rotation\n\t\t\t * @type {Euler}\n\t\t\t * @default (0,0,0)\n\t\t\t */\n\t\t\trotation: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: rotation\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's local rotation as Quaternions.\n\t\t\t *\n\t\t\t * @name Object3D#quaternion\n\t\t\t * @type {Quaternion}\n\t\t\t */\n\t\t\tquaternion: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: quaternion\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's local scale.\n\t\t\t *\n\t\t\t * @name Object3D#scale\n\t\t\t * @type {Vector3}\n\t\t\t * @default (1,1,1)\n\t\t\t */\n\t\t\tscale: {\n\t\t\t\tconfigurable: true,\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: scale\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's model-view matrix.\n\t\t\t *\n\t\t\t * @name Object3D#modelViewMatrix\n\t\t\t * @type {Matrix4}\n\t\t\t */\n\t\t\tmodelViewMatrix: {\n\t\t\t\tvalue: new Matrix4()\n\t\t\t},\n\t\t\t/**\n\t\t\t * Represents the object's normal matrix.\n\t\t\t *\n\t\t\t * @name Object3D#normalMatrix\n\t\t\t * @type {Matrix3}\n\t\t\t */\n\t\t\tnormalMatrix: {\n\t\t\t\tvalue: new Matrix3()\n\t\t\t}\n\t\t} );\n\n\t\t/**\n\t\t * Represents the object's transformation matrix in local space.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrix = new Matrix4();\n\n\t\t/**\n\t\t * Represents the object's transformation matrix in world space.\n\t\t * If the 3D object has no parent, then it's identical to the local transformation matrix\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrixWorld = new Matrix4();\n\n\t\t/**\n\t\t * When set to `true`, the engine automatically computes the local matrix from position,\n\t\t * rotation and scale every frame.\n\t\t *\n\t\t * The default values for all 3D objects is defined by `Object3D.DEFAULT_MATRIX_AUTO_UPDATE`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.matrixAutoUpdate = Object3D.DEFAULT_MATRIX_AUTO_UPDATE;\n\n\t\t/**\n\t\t * When set to `true`, the engine automatically computes the world matrix from the current local\n\t\t * matrix and the object's transformation hierarchy.\n\t\t *\n\t\t * The default values for all 3D objects is defined by `Object3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.matrixWorldAutoUpdate = Object3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE; // checked by the renderer\n\n\t\t/**\n\t\t * When set to `true`, it calculates the world matrix in that frame and resets this property\n\t\t * to `false`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.matrixWorldNeedsUpdate = false;\n\n\t\t/**\n\t\t * The layer membership of the 3D object. The 3D object is only visible if it has\n\t\t * at least one layer in common with the camera in use. This property can also be\n\t\t * used to filter out unwanted objects in ray-intersection tests when using {@link Raycaster}.\n\t\t *\n\t\t * @type {Layers}\n\t\t */\n\t\tthis.layers = new Layers();\n\n\t\t/**\n\t\t * When set to `true`, the 3D object gets rendered.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.visible = true;\n\n\t\t/**\n\t\t * When set to `true`, the 3D object gets rendered into shadow maps.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.castShadow = false;\n\n\t\t/**\n\t\t * When set to `true`, the 3D object is affected by shadows in the scene.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.receiveShadow = false;\n\n\t\t/**\n\t\t * When set to `true`, the 3D object is honored by view frustum culling.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.frustumCulled = true;\n\n\t\t/**\n\t\t * This value allows the default rendering order of scene graph objects to be\n\t\t * overridden although opaque and transparent objects remain sorted independently.\n\t\t * When this property is set for an instance of {@link Group},all descendants\n\t\t * objects will be sorted and rendered together. Sorting is from lowest to highest\n\t\t * render order.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.renderOrder = 0;\n\n\t\t/**\n\t\t * An array holding the animation clips of the 3D object.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.animations = [];\n\n\t\t/**\n\t\t * Custom depth material to be used when rendering to the depth map. Can only be used\n\t\t * in context of meshes. When shadow-casting with a {@link DirectionalLight} or {@link SpotLight},\n\t\t * if you are modifying vertex positions in the vertex shader you must specify a custom depth\n\t\t * material for proper shadows.\n\t\t *\n\t\t * Only relevant in context of {@link WebGLRenderer}.\n\t\t *\n\t\t * @type {(Material|undefined)}\n\t\t * @default undefined\n\t\t */\n\t\tthis.customDepthMaterial = undefined;\n\n\t\t/**\n\t\t * Same as {@link Object3D#customDepthMaterial}, but used with {@link PointLight}.\n\t\t *\n\t\t * Only relevant in context of {@link WebGLRenderer}.\n\t\t *\n\t\t * @type {(Material|undefined)}\n\t\t * @default undefined\n\t\t */\n\t\tthis.customDistanceMaterial = undefined;\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the 3D object. It\n\t\t * should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t}\n\n\t/**\n\t * A callback that is executed immediately before a 3D object is rendered to a shadow map.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {Camera} shadowCamera - The shadow camera.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} depthMaterial - The depth material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonBeforeShadow( /* renderer, object, camera, shadowCamera, geometry, depthMaterial, group */ ) {}\n\n\t/**\n\t * A callback that is executed immediately after a 3D object is rendered to a shadow map.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {Camera} shadowCamera - The shadow camera.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} depthMaterial - The depth material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonAfterShadow( /* renderer, object, camera, shadowCamera, geometry, depthMaterial, group */ ) {}\n\n\t/**\n\t * A callback that is executed immediately before a 3D object is rendered.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} material - The 3D object's material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonBeforeRender( /* renderer, scene, camera, geometry, material, group */ ) {}\n\n\t/**\n\t * A callback that is executed immediately after a 3D object is rendered.\n\t *\n\t * @param {Renderer|WebGLRenderer} renderer - The renderer.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Material} material - The 3D object's material.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonAfterRender( /* renderer, scene, camera, geometry, material, group */ ) {}\n\n\t/**\n\t * Applies the given transformation matrix to the object and updates the object's position,\n\t * rotation and scale.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tif ( this.matrixAutoUpdate ) this.updateMatrix();\n\n\t\tthis.matrix.premultiply( matrix );\n\n\t\tthis.matrix.decompose( this.position, this.quaternion, this.scale );\n\n\t}\n\n\t/**\n\t * Applies a rotation represented by given the quaternion to the 3D object.\n\t *\n\t * @param {Quaternion} q - The quaternion.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tapplyQuaternion( q ) {\n\n\t\tthis.quaternion.premultiply( q );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as an axis/angle couple to the 3D object.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} angle - The angle in radians.\n\t */\n\tsetRotationFromAxisAngle( axis, angle ) {\n\n\t\t// assumes axis is normalized\n\n\t\tthis.quaternion.setFromAxisAngle( axis, angle );\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as Euler angles to the 3D object.\n\t *\n\t * @param {Euler} euler - The Euler angles.\n\t */\n\tsetRotationFromEuler( euler ) {\n\n\t\tthis.quaternion.setFromEuler( euler, true );\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as rotation matrix to the 3D object.\n\t *\n\t * @param {Matrix4} m - Although a 4x4 matrix is expected, the upper 3x3 portion must be\n\t * a pure rotation matrix (i.e, unscaled).\n\t */\n\tsetRotationFromMatrix( m ) {\n\n\t\t// assumes the upper 3x3 of m is a pure rotation matrix (i.e, unscaled)\n\n\t\tthis.quaternion.setFromRotationMatrix( m );\n\n\t}\n\n\t/**\n\t * Sets the given rotation represented as a Quaternion to the 3D object.\n\t *\n\t * @param {Quaternion} q - The Quaternion\n\t */\n\tsetRotationFromQuaternion( q ) {\n\n\t\t// assumes q is normalized\n\n\t\tthis.quaternion.copy( q );\n\n\t}\n\n\t/**\n\t * Rotates the 3D object along an axis in local space.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateOnAxis( axis, angle ) {\n\n\t\t// rotate object on axis in object space\n\t\t// axis is assumed to be normalized\n\n\t\t_q1.setFromAxisAngle( axis, angle );\n\n\t\tthis.quaternion.multiply( _q1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the 3D object along an axis in world space.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateOnWorldAxis( axis, angle ) {\n\n\t\t// rotate object on axis in world space\n\t\t// axis is assumed to be normalized\n\t\t// method assumes no rotated parent\n\n\t\t_q1.setFromAxisAngle( axis, angle );\n\n\t\tthis.quaternion.premultiply( _q1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the 3D object around its X axis in local space.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateX( angle ) {\n\n\t\treturn this.rotateOnAxis( _xAxis, angle );\n\n\t}\n\n\t/**\n\t * Rotates the 3D object around its Y axis in local space.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateY( angle ) {\n\n\t\treturn this.rotateOnAxis( _yAxis, angle );\n\n\t}\n\n\t/**\n\t * Rotates the 3D object around its Z axis in local space.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\trotateZ( angle ) {\n\n\t\treturn this.rotateOnAxis( _zAxis, angle );\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along the given axis in local space.\n\t *\n\t * @param {Vector3} axis - The (normalized) axis vector.\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateOnAxis( axis, distance ) {\n\n\t\t// translate object by distance along axis in object space\n\t\t// axis is assumed to be normalized\n\n\t\t_v1$4.copy( axis ).applyQuaternion( this.quaternion );\n\n\t\tthis.position.add( _v1$4.multiplyScalar( distance ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along its X-axis in local space.\n\t *\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateX( distance ) {\n\n\t\treturn this.translateOnAxis( _xAxis, distance );\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along its Y-axis in local space.\n\t *\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateY( distance ) {\n\n\t\treturn this.translateOnAxis( _yAxis, distance );\n\n\t}\n\n\t/**\n\t * Translate the 3D object by a distance along its Z-axis in local space.\n\t *\n\t * @param {number} distance - The distance in world units.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\ttranslateZ( distance ) {\n\n\t\treturn this.translateOnAxis( _zAxis, distance );\n\n\t}\n\n\t/**\n\t * Converts the given vector from this 3D object's local space to world space.\n\t *\n\t * @param {Vector3} vector - The vector to convert.\n\t * @return {Vector3} The converted vector.\n\t */\n\tlocalToWorld( vector ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\treturn vector.applyMatrix4( this.matrixWorld );\n\n\t}\n\n\t/**\n\t * Converts the given vector from this 3D object's word space to local space.\n\t *\n\t * @param {Vector3} vector - The vector to convert.\n\t * @return {Vector3} The converted vector.\n\t */\n\tworldToLocal( vector ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\treturn vector.applyMatrix4( _m1$1.copy( this.matrixWorld ).invert() );\n\n\t}\n\n\t/**\n\t * Rotates the object to face a point in world space.\n\t *\n\t * This method does not support objects having non-uniformly-scaled parent(s).\n\t *\n\t * @param {number|Vector3} x - The x coordinate in world space. Alternatively, a vector representing a position in world space\n\t * @param {number} [y] - The y coordinate in world space.\n\t * @param {number} [z] - The z coordinate in world space.\n\t */\n\tlookAt( x, y, z ) {\n\n\t\t// This method does not support objects having non-uniformly-scaled parent(s)\n\n\t\tif ( x.isVector3 ) {\n\n\t\t\t_target.copy( x );\n\n\t\t} else {\n\n\t\t\t_target.set( x, y, z );\n\n\t\t}\n\n\t\tconst parent = this.parent;\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\t_position$3.setFromMatrixPosition( this.matrixWorld );\n\n\t\tif ( this.isCamera || this.isLight ) {\n\n\t\t\t_m1$1.lookAt( _position$3, _target, this.up );\n\n\t\t} else {\n\n\t\t\t_m1$1.lookAt( _target, _position$3, this.up );\n\n\t\t}\n\n\t\tthis.quaternion.setFromRotationMatrix( _m1$1 );\n\n\t\tif ( parent ) {\n\n\t\t\t_m1$1.extractRotation( parent.matrixWorld );\n\t\t\t_q1.setFromRotationMatrix( _m1$1 );\n\t\t\tthis.quaternion.premultiply( _q1.invert() );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Adds the given 3D object as a child to this 3D object. An arbitrary number of\n\t * objects may be added. Any current parent on an object passed in here will be\n\t * removed, since an object can have at most one parent.\n\t *\n\t * @fires Object3D#added\n\t * @fires Object3D#childadded\n\t * @param {Object3D} object - The 3D object to add.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tadd( object ) {\n\n\t\tif ( arguments.length > 1 ) {\n\n\t\t\tfor ( let i = 0; i < arguments.length; i ++ ) {\n\n\t\t\t\tthis.add( arguments[ i ] );\n\n\t\t\t}\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( object === this ) {\n\n\t\t\tconsole.error( 'THREE.Object3D.add: object can\\'t be added as a child of itself.', object );\n\t\t\treturn this;\n\n\t\t}\n\n\t\tif ( object && object.isObject3D ) {\n\n\t\t\tobject.removeFromParent();\n\t\t\tobject.parent = this;\n\t\t\tthis.children.push( object );\n\n\t\t\tobject.dispatchEvent( _addedEvent );\n\n\t\t\t_childaddedEvent.child = object;\n\t\t\tthis.dispatchEvent( _childaddedEvent );\n\t\t\t_childaddedEvent.child = null;\n\n\t\t} else {\n\n\t\t\tconsole.error( 'THREE.Object3D.add: object not an instance of THREE.Object3D.', object );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes the given 3D object as child from this 3D object.\n\t * An arbitrary number of objects may be removed.\n\t *\n\t * @fires Object3D#removed\n\t * @fires Object3D#childremoved\n\t * @param {Object3D} object - The 3D object to remove.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tremove( object ) {\n\n\t\tif ( arguments.length > 1 ) {\n\n\t\t\tfor ( let i = 0; i < arguments.length; i ++ ) {\n\n\t\t\t\tthis.remove( arguments[ i ] );\n\n\t\t\t}\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst index = this.children.indexOf( object );\n\n\t\tif ( index !== -1 ) {\n\n\t\t\tobject.parent = null;\n\t\t\tthis.children.splice( index, 1 );\n\n\t\t\tobject.dispatchEvent( _removedEvent );\n\n\t\t\t_childremovedEvent.child = object;\n\t\t\tthis.dispatchEvent( _childremovedEvent );\n\t\t\t_childremovedEvent.child = null;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes this 3D object from its current parent.\n\t *\n\t * @fires Object3D#removed\n\t * @fires Object3D#childremoved\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tremoveFromParent() {\n\n\t\tconst parent = this.parent;\n\n\t\tif ( parent !== null ) {\n\n\t\t\tparent.remove( this );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes all child objects.\n\t *\n\t * @fires Object3D#removed\n\t * @fires Object3D#childremoved\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tclear() {\n\n\t\treturn this.remove( ... this.children );\n\n\t}\n\n\t/**\n\t * Adds the given 3D object as a child of this 3D object, while maintaining the object's world\n\t * transform. This method does not support scene graphs having non-uniformly-scaled nodes(s).\n\t *\n\t * @fires Object3D#added\n\t * @fires Object3D#childadded\n\t * @param {Object3D} object - The 3D object to attach.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tattach( object ) {\n\n\t\t// adds object as a child of this, while maintaining the object's world transform\n\n\t\t// Note: This method does not support scene graphs having non-uniformly-scaled nodes(s)\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\t_m1$1.copy( this.matrixWorld ).invert();\n\n\t\tif ( object.parent !== null ) {\n\n\t\t\tobject.parent.updateWorldMatrix( true, false );\n\n\t\t\t_m1$1.multiply( object.parent.matrixWorld );\n\n\t\t}\n\n\t\tobject.applyMatrix4( _m1$1 );\n\n\t\tobject.removeFromParent();\n\t\tobject.parent = this;\n\t\tthis.children.push( object );\n\n\t\tobject.updateWorldMatrix( false, true );\n\n\t\tobject.dispatchEvent( _addedEvent );\n\n\t\t_childaddedEvent.child = object;\n\t\tthis.dispatchEvent( _childaddedEvent );\n\t\t_childaddedEvent.child = null;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns the first with a matching ID.\n\t *\n\t * @param {number} id - The id.\n\t * @return {Object3D|undefined} The found 3D object. Returns `undefined` if no 3D object has been found.\n\t */\n\tgetObjectById( id ) {\n\n\t\treturn this.getObjectByProperty( 'id', id );\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns the first with a matching name.\n\t *\n\t * @param {string} name - The name.\n\t * @return {Object3D|undefined} The found 3D object. Returns `undefined` if no 3D object has been found.\n\t */\n\tgetObjectByName( name ) {\n\n\t\treturn this.getObjectByProperty( 'name', name );\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns the first with a matching property value.\n\t *\n\t * @param {string} name - The name of the property.\n\t * @param {any} value - The value.\n\t * @return {Object3D|undefined} The found 3D object. Returns `undefined` if no 3D object has been found.\n\t */\n\tgetObjectByProperty( name, value ) {\n\n\t\tif ( this[ name ] === value ) return this;\n\n\t\tfor ( let i = 0, l = this.children.length; i < l; i ++ ) {\n\n\t\t\tconst child = this.children[ i ];\n\t\t\tconst object = child.getObjectByProperty( name, value );\n\n\t\t\tif ( object !== undefined ) {\n\n\t\t\t\treturn object;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn undefined;\n\n\t}\n\n\t/**\n\t * Searches through the 3D object and its children, starting with the 3D object\n\t * itself, and returns all 3D objects with a matching property value.\n\t *\n\t * @param {string} name - The name of the property.\n\t * @param {any} value - The value.\n\t * @param {Array} result - The method stores the result in this array.\n\t * @return {Array} The found 3D objects.\n\t */\n\tgetObjectsByProperty( name, value, result = [] ) {\n\n\t\tif ( this[ name ] === value ) result.push( this );\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tchildren[ i ].getObjectsByProperty( name, value, result );\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the position of the 3D object in world space.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's position in world space.\n\t */\n\tgetWorldPosition( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\treturn target.setFromMatrixPosition( this.matrixWorld );\n\n\t}\n\n\t/**\n\t * Returns a Quaternion representing the position of the 3D object in world space.\n\t *\n\t * @param {Quaternion} target - The target Quaternion the result is stored to.\n\t * @return {Quaternion} The 3D object's rotation in world space.\n\t */\n\tgetWorldQuaternion( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\tthis.matrixWorld.decompose( _position$3, target, _scale$2 );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the scale of the 3D object in world space.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's scale in world space.\n\t */\n\tgetWorldScale( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\tthis.matrixWorld.decompose( _position$3, _quaternion$2, target );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the (\"look\") direction of the 3D object in world space.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's direction in world space.\n\t */\n\tgetWorldDirection( target ) {\n\n\t\tthis.updateWorldMatrix( true, false );\n\n\t\tconst e = this.matrixWorld.elements;\n\n\t\treturn target.set( e[ 8 ], e[ 9 ], e[ 10 ] ).normalize();\n\n\t}\n\n\t/**\n\t * Abstract method to get intersections between a casted ray and this\n\t * 3D object. Renderable 3D objects such as {@link Mesh}, {@link Line} or {@link Points}\n\t * implement this method in order to use raycasting.\n\t *\n\t * @abstract\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - An array holding the result of the method.\n\t */\n\traycast( /* raycaster, intersects */ ) {}\n\n\t/**\n\t * Executes the callback on this 3D object and all descendants.\n\t *\n\t * Note: Modifying the scene graph inside the callback is discouraged.\n\t *\n\t * @param {Function} callback - A callback function that allows to process the current 3D object.\n\t */\n\ttraverse( callback ) {\n\n\t\tcallback( this );\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tchildren[ i ].traverse( callback );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Like {@link Object3D#traverse}, but the callback will only be executed for visible 3D objects.\n\t * Descendants of invisible 3D objects are not traversed.\n\t *\n\t * Note: Modifying the scene graph inside the callback is discouraged.\n\t *\n\t * @param {Function} callback - A callback function that allows to process the current 3D object.\n\t */\n\ttraverseVisible( callback ) {\n\n\t\tif ( this.visible === false ) return;\n\n\t\tcallback( this );\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tchildren[ i ].traverseVisible( callback );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Like {@link Object3D#traverse}, but the callback will only be executed for all ancestors.\n\t *\n\t * Note: Modifying the scene graph inside the callback is discouraged.\n\t *\n\t * @param {Function} callback - A callback function that allows to process the current 3D object.\n\t */\n\ttraverseAncestors( callback ) {\n\n\t\tconst parent = this.parent;\n\n\t\tif ( parent !== null ) {\n\n\t\t\tcallback( parent );\n\n\t\t\tparent.traverseAncestors( callback );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Updates the transformation matrix in local space by computing it from the current\n\t * position, rotation and scale values.\n\t */\n\tupdateMatrix() {\n\n\t\tthis.matrix.compose( this.position, this.quaternion, this.scale );\n\n\t\tthis.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t/**\n\t * Updates the transformation matrix in world space of this 3D objects and its descendants.\n\t *\n\t * To ensure correct results, this method also recomputes the 3D object's transformation matrix in\n\t * local space. The computation of the local and world matrix can be controlled with the\n\t * {@link Object3D#matrixAutoUpdate} and {@link Object3D#matrixWorldAutoUpdate} flags which are both\n\t * `true` by default. Set these flags to `false` if you need more control over the update matrix process.\n\t *\n\t * @param {boolean} [force=false] - When set to `true`, a recomputation of world matrices is forced even\n\t * when {@link Object3D#matrixWorldAutoUpdate} is set to `false`.\n\t */\n\tupdateMatrixWorld( force ) {\n\n\t\tif ( this.matrixAutoUpdate ) this.updateMatrix();\n\n\t\tif ( this.matrixWorldNeedsUpdate || force ) {\n\n\t\t\tif ( this.matrixWorldAutoUpdate === true ) {\n\n\t\t\t\tif ( this.parent === null ) {\n\n\t\t\t\t\tthis.matrixWorld.copy( this.matrix );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis.matrixWorld.multiplyMatrices( this.parent.matrixWorld, this.matrix );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.matrixWorldNeedsUpdate = false;\n\n\t\t\tforce = true;\n\n\t\t}\n\n\t\t// make sure descendants are updated if required\n\n\t\tconst children = this.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tconst child = children[ i ];\n\n\t\t\tchild.updateMatrixWorld( force );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * An alternative version of {@link Object3D#updateMatrixWorld} with more control over the\n\t * update of ancestor and descendant nodes.\n\t *\n\t * @param {boolean} [updateParents=false] Whether ancestor nodes should be updated or not.\n\t * @param {boolean} [updateChildren=false] Whether descendant nodes should be updated or not.\n\t */\n\tupdateWorldMatrix( updateParents, updateChildren ) {\n\n\t\tconst parent = this.parent;\n\n\t\tif ( updateParents === true && parent !== null ) {\n\n\t\t\tparent.updateWorldMatrix( true, false );\n\n\t\t}\n\n\t\tif ( this.matrixAutoUpdate ) this.updateMatrix();\n\n\t\tif ( this.matrixWorldAutoUpdate === true ) {\n\n\t\t\tif ( this.parent === null ) {\n\n\t\t\t\tthis.matrixWorld.copy( this.matrix );\n\n\t\t\t} else {\n\n\t\t\t\tthis.matrixWorld.multiplyMatrices( this.parent.matrixWorld, this.matrix );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// make sure descendants are updated\n\n\t\tif ( updateChildren === true ) {\n\n\t\t\tconst children = this.children;\n\n\t\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\t\tconst child = children[ i ];\n\n\t\t\t\tchild.updateWorldMatrix( false, true );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the 3D object into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized 3D object.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\t// meta is a string when called from JSON.stringify\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tconst output = {};\n\n\t\t// meta is a hash used to collect geometries, materials.\n\t\t// not providing it implies that this is the root object\n\t\t// being serialized.\n\t\tif ( isRootObject ) {\n\n\t\t\t// initialize meta obj\n\t\t\tmeta = {\n\t\t\t\tgeometries: {},\n\t\t\t\tmaterials: {},\n\t\t\t\ttextures: {},\n\t\t\t\timages: {},\n\t\t\t\tshapes: {},\n\t\t\t\tskeletons: {},\n\t\t\t\tanimations: {},\n\t\t\t\tnodes: {}\n\t\t\t};\n\n\t\t\toutput.metadata = {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Object',\n\t\t\t\tgenerator: 'Object3D.toJSON'\n\t\t\t};\n\n\t\t}\n\n\t\t// standard Object3D serialization\n\n\t\tconst object = {};\n\n\t\tobject.uuid = this.uuid;\n\t\tobject.type = this.type;\n\n\t\tif ( this.name !== '' ) object.name = this.name;\n\t\tif ( this.castShadow === true ) object.castShadow = true;\n\t\tif ( this.receiveShadow === true ) object.receiveShadow = true;\n\t\tif ( this.visible === false ) object.visible = false;\n\t\tif ( this.frustumCulled === false ) object.frustumCulled = false;\n\t\tif ( this.renderOrder !== 0 ) object.renderOrder = this.renderOrder;\n\t\tif ( Object.keys( this.userData ).length > 0 ) object.userData = this.userData;\n\n\t\tobject.layers = this.layers.mask;\n\t\tobject.matrix = this.matrix.toArray();\n\t\tobject.up = this.up.toArray();\n\n\t\tif ( this.matrixAutoUpdate === false ) object.matrixAutoUpdate = false;\n\n\t\t// object specific properties\n\n\t\tif ( this.isInstancedMesh ) {\n\n\t\t\tobject.type = 'InstancedMesh';\n\t\t\tobject.count = this.count;\n\t\t\tobject.instanceMatrix = this.instanceMatrix.toJSON();\n\t\t\tif ( this.instanceColor !== null ) object.instanceColor = this.instanceColor.toJSON();\n\n\t\t}\n\n\t\tif ( this.isBatchedMesh ) {\n\n\t\t\tobject.type = 'BatchedMesh';\n\t\t\tobject.perObjectFrustumCulled = this.perObjectFrustumCulled;\n\t\t\tobject.sortObjects = this.sortObjects;\n\n\t\t\tobject.drawRanges = this._drawRanges;\n\t\t\tobject.reservedRanges = this._reservedRanges;\n\n\t\t\tobject.geometryInfo = this._geometryInfo.map( info => ( {\n\t\t\t\t...info,\n\t\t\t\tboundingBox: info.boundingBox ? info.boundingBox.toJSON() : undefined,\n\t\t\t\tboundingSphere: info.boundingSphere ? info.boundingSphere.toJSON() : undefined\n\t\t\t} ) );\n\t\t\tobject.instanceInfo = this._instanceInfo.map( info => ( { ...info } ) );\n\n\t\t\tobject.availableInstanceIds = this._availableInstanceIds.slice();\n\t\t\tobject.availableGeometryIds = this._availableGeometryIds.slice();\n\n\t\t\tobject.nextIndexStart = this._nextIndexStart;\n\t\t\tobject.nextVertexStart = this._nextVertexStart;\n\t\t\tobject.geometryCount = this._geometryCount;\n\n\t\t\tobject.maxInstanceCount = this._maxInstanceCount;\n\t\t\tobject.maxVertexCount = this._maxVertexCount;\n\t\t\tobject.maxIndexCount = this._maxIndexCount;\n\n\t\t\tobject.geometryInitialized = this._geometryInitialized;\n\n\t\t\tobject.matricesTexture = this._matricesTexture.toJSON( meta );\n\n\t\t\tobject.indirectTexture = this._indirectTexture.toJSON( meta );\n\n\t\t\tif ( this._colorsTexture !== null ) {\n\n\t\t\t\tobject.colorsTexture = this._colorsTexture.toJSON( meta );\n\n\t\t\t}\n\n\t\t\tif ( this.boundingSphere !== null ) {\n\n\t\t\t\tobject.boundingSphere = this.boundingSphere.toJSON();\n\n\t\t\t}\n\n\t\t\tif ( this.boundingBox !== null ) {\n\n\t\t\t\tobject.boundingBox = this.boundingBox.toJSON();\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\tfunction serialize( library, element ) {\n\n\t\t\tif ( library[ element.uuid ] === undefined ) {\n\n\t\t\t\tlibrary[ element.uuid ] = element.toJSON( meta );\n\n\t\t\t}\n\n\t\t\treturn element.uuid;\n\n\t\t}\n\n\t\tif ( this.isScene ) {\n\n\t\t\tif ( this.background ) {\n\n\t\t\t\tif ( this.background.isColor ) {\n\n\t\t\t\t\tobject.background = this.background.toJSON();\n\n\t\t\t\t} else if ( this.background.isTexture ) {\n\n\t\t\t\t\tobject.background = this.background.toJSON( meta ).uuid;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( this.environment && this.environment.isTexture && this.environment.isRenderTargetTexture !== true ) {\n\n\t\t\t\tobject.environment = this.environment.toJSON( meta ).uuid;\n\n\t\t\t}\n\n\t\t} else if ( this.isMesh || this.isLine || this.isPoints ) {\n\n\t\t\tobject.geometry = serialize( meta.geometries, this.geometry );\n\n\t\t\tconst parameters = this.geometry.parameters;\n\n\t\t\tif ( parameters !== undefined && parameters.shapes !== undefined ) {\n\n\t\t\t\tconst shapes = parameters.shapes;\n\n\t\t\t\tif ( Array.isArray( shapes ) ) {\n\n\t\t\t\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\t\t\t\tconst shape = shapes[ i ];\n\n\t\t\t\t\t\tserialize( meta.shapes, shape );\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\tserialize( meta.shapes, shapes );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.isSkinnedMesh ) {\n\n\t\t\tobject.bindMode = this.bindMode;\n\t\t\tobject.bindMatrix = this.bindMatrix.toArray();\n\n\t\t\tif ( this.skeleton !== undefined ) {\n\n\t\t\t\tserialize( meta.skeletons, this.skeleton );\n\n\t\t\t\tobject.skeleton = this.skeleton.uuid;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.material !== undefined ) {\n\n\t\t\tif ( Array.isArray( this.material ) ) {\n\n\t\t\t\tconst uuids = [];\n\n\t\t\t\tfor ( let i = 0, l = this.material.length; i < l; i ++ ) {\n\n\t\t\t\t\tuuids.push( serialize( meta.materials, this.material[ i ] ) );\n\n\t\t\t\t}\n\n\t\t\t\tobject.material = uuids;\n\n\t\t\t} else {\n\n\t\t\t\tobject.material = serialize( meta.materials, this.material );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\tif ( this.children.length > 0 ) {\n\n\t\t\tobject.children = [];\n\n\t\t\tfor ( let i = 0; i < this.children.length; i ++ ) {\n\n\t\t\t\tobject.children.push( this.children[ i ].toJSON( meta ).object );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\tif ( this.animations.length > 0 ) {\n\n\t\t\tobject.animations = [];\n\n\t\t\tfor ( let i = 0; i < this.animations.length; i ++ ) {\n\n\t\t\t\tconst animation = this.animations[ i ];\n\n\t\t\t\tobject.animations.push( serialize( meta.animations, animation ) );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( isRootObject ) {\n\n\t\t\tconst geometries = extractFromCache( meta.geometries );\n\t\t\tconst materials = extractFromCache( meta.materials );\n\t\t\tconst textures = extractFromCache( meta.textures );\n\t\t\tconst images = extractFromCache( meta.images );\n\t\t\tconst shapes = extractFromCache( meta.shapes );\n\t\t\tconst skeletons = extractFromCache( meta.skeletons );\n\t\t\tconst animations = extractFromCache( meta.animations );\n\t\t\tconst nodes = extractFromCache( meta.nodes );\n\n\t\t\tif ( geometries.length > 0 ) output.geometries = geometries;\n\t\t\tif ( materials.length > 0 ) output.materials = materials;\n\t\t\tif ( textures.length > 0 ) output.textures = textures;\n\t\t\tif ( images.length > 0 ) output.images = images;\n\t\t\tif ( shapes.length > 0 ) output.shapes = shapes;\n\t\t\tif ( skeletons.length > 0 ) output.skeletons = skeletons;\n\t\t\tif ( animations.length > 0 ) output.animations = animations;\n\t\t\tif ( nodes.length > 0 ) output.nodes = nodes;\n\n\t\t}\n\n\t\toutput.object = object;\n\n\t\treturn output;\n\n\t\t// extract data from the cache hash\n\t\t// remove metadata on each item\n\t\t// and return as array\n\t\tfunction extractFromCache( cache ) {\n\n\t\t\tconst values = [];\n\t\t\tfor ( const key in cache ) {\n\n\t\t\t\tconst data = cache[ key ];\n\t\t\t\tdelete data.metadata;\n\t\t\t\tvalues.push( data );\n\n\t\t\t}\n\n\t\t\treturn values;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new 3D object with copied values from this instance.\n\t *\n\t * @param {boolean} [recursive=true] - When set to `true`, descendants of the 3D object are also cloned.\n\t * @return {Object3D} A clone of this instance.\n\t */\n\tclone( recursive ) {\n\n\t\treturn new this.constructor().copy( this, recursive );\n\n\t}\n\n\t/**\n\t * Copies the values of the given 3D object to this instance.\n\t *\n\t * @param {Object3D} source - The 3D object to copy.\n\t * @param {boolean} [recursive=true] - When set to `true`, descendants of the 3D object are cloned.\n\t * @return {Object3D} A reference to this instance.\n\t */\n\tcopy( source, recursive = true ) {\n\n\t\tthis.name = source.name;\n\n\t\tthis.up.copy( source.up );\n\n\t\tthis.position.copy( source.position );\n\t\tthis.rotation.order = source.rotation.order;\n\t\tthis.quaternion.copy( source.quaternion );\n\t\tthis.scale.copy( source.scale );\n\n\t\tthis.matrix.copy( source.matrix );\n\t\tthis.matrixWorld.copy( source.matrixWorld );\n\n\t\tthis.matrixAutoUpdate = source.matrixAutoUpdate;\n\n\t\tthis.matrixWorldAutoUpdate = source.matrixWorldAutoUpdate;\n\t\tthis.matrixWorldNeedsUpdate = source.matrixWorldNeedsUpdate;\n\n\t\tthis.layers.mask = source.layers.mask;\n\t\tthis.visible = source.visible;\n\n\t\tthis.castShadow = source.castShadow;\n\t\tthis.receiveShadow = source.receiveShadow;\n\n\t\tthis.frustumCulled = source.frustumCulled;\n\t\tthis.renderOrder = source.renderOrder;\n\n\t\tthis.animations = source.animations.slice();\n\n\t\tthis.userData = JSON.parse( JSON.stringify( source.userData ) );\n\n\t\tif ( recursive === true ) {\n\n\t\t\tfor ( let i = 0; i < source.children.length; i ++ ) {\n\n\t\t\t\tconst child = source.children[ i ];\n\t\t\t\tthis.add( child.clone() );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * The default up direction for objects, also used as the default\n * position for {@link DirectionalLight} and {@link HemisphereLight}.\n *\n * @static\n * @type {Vector3}\n * @default (0,1,0)\n */\nObject3D.DEFAULT_UP = /*@__PURE__*/ new Vector3( 0, 1, 0 );\n\n/**\n * The default setting for {@link Object3D#matrixAutoUpdate} for\n * newly created 3D objects.\n *\n * @static\n * @type {boolean}\n * @default true\n */\nObject3D.DEFAULT_MATRIX_AUTO_UPDATE = true;\n\n/**\n * The default setting for {@link Object3D#matrixWorldAutoUpdate} for\n * newly created 3D objects.\n *\n * @static\n * @type {boolean}\n * @default true\n */\nObject3D.DEFAULT_MATRIX_WORLD_AUTO_UPDATE = true;\n\nconst _v0$1 = /*@__PURE__*/ new Vector3();\nconst _v1$3 = /*@__PURE__*/ new Vector3();\nconst _v2$2 = /*@__PURE__*/ new Vector3();\nconst _v3$2 = /*@__PURE__*/ new Vector3();\n\nconst _vab = /*@__PURE__*/ new Vector3();\nconst _vac = /*@__PURE__*/ new Vector3();\nconst _vbc = /*@__PURE__*/ new Vector3();\nconst _vap = /*@__PURE__*/ new Vector3();\nconst _vbp = /*@__PURE__*/ new Vector3();\nconst _vcp = /*@__PURE__*/ new Vector3();\n\nconst _v40 = /*@__PURE__*/ new Vector4();\nconst _v41 = /*@__PURE__*/ new Vector4();\nconst _v42 = /*@__PURE__*/ new Vector4();\n\n/**\n * A geometric triangle as defined by three vectors representing its three corners.\n */\nclass Triangle {\n\n\t/**\n\t * Constructs a new triangle.\n\t *\n\t * @param {Vector3} [a=(0,0,0)] - The first corner of the triangle.\n\t * @param {Vector3} [b=(0,0,0)] - The second corner of the triangle.\n\t * @param {Vector3} [c=(0,0,0)] - The third corner of the triangle.\n\t */\n\tconstructor( a = new Vector3(), b = new Vector3(), c = new Vector3() ) {\n\n\t\t/**\n\t\t * The first corner of the triangle.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.a = a;\n\n\t\t/**\n\t\t * The second corner of the triangle.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.b = b;\n\n\t\t/**\n\t\t * The third corner of the triangle.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.c = c;\n\n\t}\n\n\t/**\n\t * Computes the normal vector of a triangle.\n\t *\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The triangle's normal.\n\t */\n\tstatic getNormal( a, b, c, target ) {\n\n\t\ttarget.subVectors( c, b );\n\t\t_v0$1.subVectors( a, b );\n\t\ttarget.cross( _v0$1 );\n\n\t\tconst targetLengthSq = target.lengthSq();\n\t\tif ( targetLengthSq > 0 ) {\n\n\t\t\treturn target.multiplyScalar( 1 / Math.sqrt( targetLengthSq ) );\n\n\t\t}\n\n\t\treturn target.set( 0, 0, 0 );\n\n\t}\n\n\t/**\n\t * Computes a barycentric coordinates from the given vector.\n\t * Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - A point in 3D space.\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The barycentric coordinates for the given point\n\t */\n\tstatic getBarycoord( point, a, b, c, target ) {\n\n\t\t// based on: http://www.blackpawn.com/texts/pointinpoly/default.html\n\n\t\t_v0$1.subVectors( c, a );\n\t\t_v1$3.subVectors( b, a );\n\t\t_v2$2.subVectors( point, a );\n\n\t\tconst dot00 = _v0$1.dot( _v0$1 );\n\t\tconst dot01 = _v0$1.dot( _v1$3 );\n\t\tconst dot02 = _v0$1.dot( _v2$2 );\n\t\tconst dot11 = _v1$3.dot( _v1$3 );\n\t\tconst dot12 = _v1$3.dot( _v2$2 );\n\n\t\tconst denom = ( dot00 * dot11 - dot01 * dot01 );\n\n\t\t// collinear or singular triangle\n\t\tif ( denom === 0 ) {\n\n\t\t\ttarget.set( 0, 0, 0 );\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst invDenom = 1 / denom;\n\t\tconst u = ( dot11 * dot02 - dot01 * dot12 ) * invDenom;\n\t\tconst v = ( dot00 * dot12 - dot01 * dot02 ) * invDenom;\n\n\t\t// barycentric coordinates must always sum to 1\n\t\treturn target.set( 1 - u - v, v, u );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle.\n\t *\n\t * @param {Vector3} point - The point in 3D space to test.\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @return {boolean} Whether the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle or not.\n\t */\n\tstatic containsPoint( point, a, b, c ) {\n\n\t\t// if the triangle is degenerate then we can't contain a point\n\t\tif ( this.getBarycoord( point, a, b, c, _v3$2 ) === null ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\treturn ( _v3$2.x >= 0 ) && ( _v3$2.y >= 0 ) && ( ( _v3$2.x + _v3$2.y ) <= 1 );\n\n\t}\n\n\t/**\n\t * Computes the value barycentrically interpolated for the given point on the\n\t * triangle. Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - Position of interpolated point.\n\t * @param {Vector3} p1 - The first corner of the triangle.\n\t * @param {Vector3} p2 - The second corner of the triangle.\n\t * @param {Vector3} p3 - The third corner of the triangle.\n\t * @param {Vector3} v1 - Value to interpolate of first vertex.\n\t * @param {Vector3} v2 - Value to interpolate of second vertex.\n\t * @param {Vector3} v3 - Value to interpolate of third vertex.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The interpolated value.\n\t */\n\tstatic getInterpolation( point, p1, p2, p3, v1, v2, v3, target ) {\n\n\t\tif ( this.getBarycoord( point, p1, p2, p3, _v3$2 ) === null ) {\n\n\t\t\ttarget.x = 0;\n\t\t\ttarget.y = 0;\n\t\t\tif ( 'z' in target ) target.z = 0;\n\t\t\tif ( 'w' in target ) target.w = 0;\n\t\t\treturn null;\n\n\t\t}\n\n\t\ttarget.setScalar( 0 );\n\t\ttarget.addScaledVector( v1, _v3$2.x );\n\t\ttarget.addScaledVector( v2, _v3$2.y );\n\t\ttarget.addScaledVector( v3, _v3$2.z );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Computes the value barycentrically interpolated for the given attribute and indices.\n\t *\n\t * @param {BufferAttribute} attr - The attribute to interpolate.\n\t * @param {number} i1 - Index of first vertex.\n\t * @param {number} i2 - Index of second vertex.\n\t * @param {number} i3 - Index of third vertex.\n\t * @param {Vector3} barycoord - The barycoordinate value to use to interpolate.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The interpolated attribute value.\n\t */\n\tstatic getInterpolatedAttribute( attr, i1, i2, i3, barycoord, target ) {\n\n\t\t_v40.setScalar( 0 );\n\t\t_v41.setScalar( 0 );\n\t\t_v42.setScalar( 0 );\n\n\t\t_v40.fromBufferAttribute( attr, i1 );\n\t\t_v41.fromBufferAttribute( attr, i2 );\n\t\t_v42.fromBufferAttribute( attr, i3 );\n\n\t\ttarget.setScalar( 0 );\n\t\ttarget.addScaledVector( _v40, barycoord.x );\n\t\ttarget.addScaledVector( _v41, barycoord.y );\n\t\ttarget.addScaledVector( _v42, barycoord.z );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns `true` if the triangle is oriented towards the given direction.\n\t *\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @param {Vector3} direction - The (normalized) direction vector.\n\t * @return {boolean} Whether the triangle is oriented towards the given direction or not.\n\t */\n\tstatic isFrontFacing( a, b, c, direction ) {\n\n\t\t_v0$1.subVectors( c, b );\n\t\t_v1$3.subVectors( a, b );\n\n\t\t// strictly front facing\n\t\treturn ( _v0$1.cross( _v1$3 ).dot( direction ) < 0 ) ? true : false;\n\n\t}\n\n\t/**\n\t * Sets the triangle's vertices by copying the given values.\n\t *\n\t * @param {Vector3} a - The first corner of the triangle.\n\t * @param {Vector3} b - The second corner of the triangle.\n\t * @param {Vector3} c - The third corner of the triangle.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tset( a, b, c ) {\n\n\t\tthis.a.copy( a );\n\t\tthis.b.copy( b );\n\t\tthis.c.copy( c );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the triangle's vertices by copying the given array values.\n\t *\n\t * @param {Array} points - An array with 3D points.\n\t * @param {number} i0 - The array index representing the first corner of the triangle.\n\t * @param {number} i1 - The array index representing the second corner of the triangle.\n\t * @param {number} i2 - The array index representing the third corner of the triangle.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tsetFromPointsAndIndices( points, i0, i1, i2 ) {\n\n\t\tthis.a.copy( points[ i0 ] );\n\t\tthis.b.copy( points[ i1 ] );\n\t\tthis.c.copy( points[ i2 ] );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the triangle's vertices by copying the given attribute values.\n\t *\n\t * @param {BufferAttribute} attribute - A buffer attribute with 3D points data.\n\t * @param {number} i0 - The attribute index representing the first corner of the triangle.\n\t * @param {number} i1 - The attribute index representing the second corner of the triangle.\n\t * @param {number} i2 - The attribute index representing the third corner of the triangle.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tsetFromAttributeAndIndices( attribute, i0, i1, i2 ) {\n\n\t\tthis.a.fromBufferAttribute( attribute, i0 );\n\t\tthis.b.fromBufferAttribute( attribute, i1 );\n\t\tthis.c.fromBufferAttribute( attribute, i2 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new triangle with copied values from this instance.\n\t *\n\t * @return {Triangle} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given triangle to this instance.\n\t *\n\t * @param {Triangle} triangle - The triangle to copy.\n\t * @return {Triangle} A reference to this triangle.\n\t */\n\tcopy( triangle ) {\n\n\t\tthis.a.copy( triangle.a );\n\t\tthis.b.copy( triangle.b );\n\t\tthis.c.copy( triangle.c );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the area of the triangle.\n\t *\n\t * @return {number} The triangle's area.\n\t */\n\tgetArea() {\n\n\t\t_v0$1.subVectors( this.c, this.b );\n\t\t_v1$3.subVectors( this.a, this.b );\n\n\t\treturn _v0$1.cross( _v1$3 ).length() * 0.5;\n\n\t}\n\n\t/**\n\t * Computes the midpoint of the triangle.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The triangle's midpoint.\n\t */\n\tgetMidpoint( target ) {\n\n\t\treturn target.addVectors( this.a, this.b ).add( this.c ).multiplyScalar( 1 / 3 );\n\n\t}\n\n\t/**\n\t * Computes the normal of the triangle.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The triangle's normal.\n\t */\n\tgetNormal( target ) {\n\n\t\treturn Triangle.getNormal( this.a, this.b, this.c, target );\n\n\t}\n\n\t/**\n\t * Computes a plane the triangle lies within.\n\t *\n\t * @param {Plane} target - The target vector that is used to store the method's result.\n\t * @return {Plane} The plane the triangle lies within.\n\t */\n\tgetPlane( target ) {\n\n\t\treturn target.setFromCoplanarPoints( this.a, this.b, this.c );\n\n\t}\n\n\t/**\n\t * Computes a barycentric coordinates from the given vector.\n\t * Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - A point in 3D space.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The barycentric coordinates for the given point\n\t */\n\tgetBarycoord( point, target ) {\n\n\t\treturn Triangle.getBarycoord( point, this.a, this.b, this.c, target );\n\n\t}\n\n\t/**\n\t * Computes the value barycentrically interpolated for the given point on the\n\t * triangle. Returns `null` if the triangle is degenerate.\n\t *\n\t * @param {Vector3} point - Position of interpolated point.\n\t * @param {Vector3} v1 - Value to interpolate of first vertex.\n\t * @param {Vector3} v2 - Value to interpolate of second vertex.\n\t * @param {Vector3} v3 - Value to interpolate of third vertex.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The interpolated value.\n\t */\n\tgetInterpolation( point, v1, v2, v3, target ) {\n\n\t\treturn Triangle.getInterpolation( point, this.a, this.b, this.c, v1, v2, v3, target );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle.\n\t *\n\t * @param {Vector3} point - The point in 3D space to test.\n\t * @return {boolean} Whether the given point, when projected onto the plane of the\n\t * triangle, lies within the triangle or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn Triangle.containsPoint( point, this.a, this.b, this.c );\n\n\t}\n\n\t/**\n\t * Returns `true` if the triangle is oriented towards the given direction.\n\t *\n\t * @param {Vector3} direction - The (normalized) direction vector.\n\t * @return {boolean} Whether the triangle is oriented towards the given direction or not.\n\t */\n\tisFrontFacing( direction ) {\n\n\t\treturn Triangle.isFrontFacing( this.a, this.b, this.c, direction );\n\n\t}\n\n\t/**\n\t * Returns `true` if this triangle intersects with the given box.\n\t *\n\t * @param {Box3} box - The box to intersect.\n\t * @return {boolean} Whether this triangle intersects with the given box or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn box.intersectsTriangle( this );\n\n\t}\n\n\t/**\n\t * Returns the closest point on the triangle to the given point.\n\t *\n\t * @param {Vector3} p - The point to compute the closest point for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The closest point on the triangle.\n\t */\n\tclosestPointToPoint( p, target ) {\n\n\t\tconst a = this.a, b = this.b, c = this.c;\n\t\tlet v, w;\n\n\t\t// algorithm thanks to Real-Time Collision Detection by Christer Ericson,\n\t\t// published by Morgan Kaufmann Publishers, (c) 2005 Elsevier Inc.,\n\t\t// under the accompanying license; see chapter 5.1.5 for detailed explanation.\n\t\t// basically, we're distinguishing which of the voronoi regions of the triangle\n\t\t// the point lies in with the minimum amount of redundant computation.\n\n\t\t_vab.subVectors( b, a );\n\t\t_vac.subVectors( c, a );\n\t\t_vap.subVectors( p, a );\n\t\tconst d1 = _vab.dot( _vap );\n\t\tconst d2 = _vac.dot( _vap );\n\t\tif ( d1 <= 0 && d2 <= 0 ) {\n\n\t\t\t// vertex region of A; barycentric coords (1, 0, 0)\n\t\t\treturn target.copy( a );\n\n\t\t}\n\n\t\t_vbp.subVectors( p, b );\n\t\tconst d3 = _vab.dot( _vbp );\n\t\tconst d4 = _vac.dot( _vbp );\n\t\tif ( d3 >= 0 && d4 <= d3 ) {\n\n\t\t\t// vertex region of B; barycentric coords (0, 1, 0)\n\t\t\treturn target.copy( b );\n\n\t\t}\n\n\t\tconst vc = d1 * d4 - d3 * d2;\n\t\tif ( vc <= 0 && d1 >= 0 && d3 <= 0 ) {\n\n\t\t\tv = d1 / ( d1 - d3 );\n\t\t\t// edge region of AB; barycentric coords (1-v, v, 0)\n\t\t\treturn target.copy( a ).addScaledVector( _vab, v );\n\n\t\t}\n\n\t\t_vcp.subVectors( p, c );\n\t\tconst d5 = _vab.dot( _vcp );\n\t\tconst d6 = _vac.dot( _vcp );\n\t\tif ( d6 >= 0 && d5 <= d6 ) {\n\n\t\t\t// vertex region of C; barycentric coords (0, 0, 1)\n\t\t\treturn target.copy( c );\n\n\t\t}\n\n\t\tconst vb = d5 * d2 - d1 * d6;\n\t\tif ( vb <= 0 && d2 >= 0 && d6 <= 0 ) {\n\n\t\t\tw = d2 / ( d2 - d6 );\n\t\t\t// edge region of AC; barycentric coords (1-w, 0, w)\n\t\t\treturn target.copy( a ).addScaledVector( _vac, w );\n\n\t\t}\n\n\t\tconst va = d3 * d6 - d5 * d4;\n\t\tif ( va <= 0 && ( d4 - d3 ) >= 0 && ( d5 - d6 ) >= 0 ) {\n\n\t\t\t_vbc.subVectors( c, b );\n\t\t\tw = ( d4 - d3 ) / ( ( d4 - d3 ) + ( d5 - d6 ) );\n\t\t\t// edge region of BC; barycentric coords (0, 1-w, w)\n\t\t\treturn target.copy( b ).addScaledVector( _vbc, w ); // edge region of BC\n\n\t\t}\n\n\t\t// face region\n\t\tconst denom = 1 / ( va + vb + vc );\n\t\t// u = va * denom\n\t\tv = vb * denom;\n\t\tw = vc * denom;\n\n\t\treturn target.copy( a ).addScaledVector( _vab, v ).addScaledVector( _vac, w );\n\n\t}\n\n\t/**\n\t * Returns `true` if this triangle is equal with the given one.\n\t *\n\t * @param {Triangle} triangle - The triangle to test for equality.\n\t * @return {boolean} Whether this triangle is equal with the given one.\n\t */\n\tequals( triangle ) {\n\n\t\treturn triangle.a.equals( this.a ) && triangle.b.equals( this.b ) && triangle.c.equals( this.c );\n\n\t}\n\n}\n\nconst _colorKeywords = { 'aliceblue': 0xF0F8FF, 'antiquewhite': 0xFAEBD7, 'aqua': 0x00FFFF, 'aquamarine': 0x7FFFD4, 'azure': 0xF0FFFF,\n\t'beige': 0xF5F5DC, 'bisque': 0xFFE4C4, 'black': 0x000000, 'blanchedalmond': 0xFFEBCD, 'blue': 0x0000FF, 'blueviolet': 0x8A2BE2,\n\t'brown': 0xA52A2A, 'burlywood': 0xDEB887, 'cadetblue': 0x5F9EA0, 'chartreuse': 0x7FFF00, 'chocolate': 0xD2691E, 'coral': 0xFF7F50,\n\t'cornflowerblue': 0x6495ED, 'cornsilk': 0xFFF8DC, 'crimson': 0xDC143C, 'cyan': 0x00FFFF, 'darkblue': 0x00008B, 'darkcyan': 0x008B8B,\n\t'darkgoldenrod': 0xB8860B, 'darkgray': 0xA9A9A9, 'darkgreen': 0x006400, 'darkgrey': 0xA9A9A9, 'darkkhaki': 0xBDB76B, 'darkmagenta': 0x8B008B,\n\t'darkolivegreen': 0x556B2F, 'darkorange': 0xFF8C00, 'darkorchid': 0x9932CC, 'darkred': 0x8B0000, 'darksalmon': 0xE9967A, 'darkseagreen': 0x8FBC8F,\n\t'darkslateblue': 0x483D8B, 'darkslategray': 0x2F4F4F, 'darkslategrey': 0x2F4F4F, 'darkturquoise': 0x00CED1, 'darkviolet': 0x9400D3,\n\t'deeppink': 0xFF1493, 'deepskyblue': 0x00BFFF, 'dimgray': 0x696969, 'dimgrey': 0x696969, 'dodgerblue': 0x1E90FF, 'firebrick': 0xB22222,\n\t'floralwhite': 0xFFFAF0, 'forestgreen': 0x228B22, 'fuchsia': 0xFF00FF, 'gainsboro': 0xDCDCDC, 'ghostwhite': 0xF8F8FF, 'gold': 0xFFD700,\n\t'goldenrod': 0xDAA520, 'gray': 0x808080, 'green': 0x008000, 'greenyellow': 0xADFF2F, 'grey': 0x808080, 'honeydew': 0xF0FFF0, 'hotpink': 0xFF69B4,\n\t'indianred': 0xCD5C5C, 'indigo': 0x4B0082, 'ivory': 0xFFFFF0, 'khaki': 0xF0E68C, 'lavender': 0xE6E6FA, 'lavenderblush': 0xFFF0F5, 'lawngreen': 0x7CFC00,\n\t'lemonchiffon': 0xFFFACD, 'lightblue': 0xADD8E6, 'lightcoral': 0xF08080, 'lightcyan': 0xE0FFFF, 'lightgoldenrodyellow': 0xFAFAD2, 'lightgray': 0xD3D3D3,\n\t'lightgreen': 0x90EE90, 'lightgrey': 0xD3D3D3, 'lightpink': 0xFFB6C1, 'lightsalmon': 0xFFA07A, 'lightseagreen': 0x20B2AA, 'lightskyblue': 0x87CEFA,\n\t'lightslategray': 0x778899, 'lightslategrey': 0x778899, 'lightsteelblue': 0xB0C4DE, 'lightyellow': 0xFFFFE0, 'lime': 0x00FF00, 'limegreen': 0x32CD32,\n\t'linen': 0xFAF0E6, 'magenta': 0xFF00FF, 'maroon': 0x800000, 'mediumaquamarine': 0x66CDAA, 'mediumblue': 0x0000CD, 'mediumorchid': 0xBA55D3,\n\t'mediumpurple': 0x9370DB, 'mediumseagreen': 0x3CB371, 'mediumslateblue': 0x7B68EE, 'mediumspringgreen': 0x00FA9A, 'mediumturquoise': 0x48D1CC,\n\t'mediumvioletred': 0xC71585, 'midnightblue': 0x191970, 'mintcream': 0xF5FFFA, 'mistyrose': 0xFFE4E1, 'moccasin': 0xFFE4B5, 'navajowhite': 0xFFDEAD,\n\t'navy': 0x000080, 'oldlace': 0xFDF5E6, 'olive': 0x808000, 'olivedrab': 0x6B8E23, 'orange': 0xFFA500, 'orangered': 0xFF4500, 'orchid': 0xDA70D6,\n\t'palegoldenrod': 0xEEE8AA, 'palegreen': 0x98FB98, 'paleturquoise': 0xAFEEEE, 'palevioletred': 0xDB7093, 'papayawhip': 0xFFEFD5, 'peachpuff': 0xFFDAB9,\n\t'peru': 0xCD853F, 'pink': 0xFFC0CB, 'plum': 0xDDA0DD, 'powderblue': 0xB0E0E6, 'purple': 0x800080, 'rebeccapurple': 0x663399, 'red': 0xFF0000, 'rosybrown': 0xBC8F8F,\n\t'royalblue': 0x4169E1, 'saddlebrown': 0x8B4513, 'salmon': 0xFA8072, 'sandybrown': 0xF4A460, 'seagreen': 0x2E8B57, 'seashell': 0xFFF5EE,\n\t'sienna': 0xA0522D, 'silver': 0xC0C0C0, 'skyblue': 0x87CEEB, 'slateblue': 0x6A5ACD, 'slategray': 0x708090, 'slategrey': 0x708090, 'snow': 0xFFFAFA,\n\t'springgreen': 0x00FF7F, 'steelblue': 0x4682B4, 'tan': 0xD2B48C, 'teal': 0x008080, 'thistle': 0xD8BFD8, 'tomato': 0xFF6347, 'turquoise': 0x40E0D0,\n\t'violet': 0xEE82EE, 'wheat': 0xF5DEB3, 'white': 0xFFFFFF, 'whitesmoke': 0xF5F5F5, 'yellow': 0xFFFF00, 'yellowgreen': 0x9ACD32 };\n\nconst _hslA = { h: 0, s: 0, l: 0 };\nconst _hslB = { h: 0, s: 0, l: 0 };\n\nfunction hue2rgb( p, q, t ) {\n\n\tif ( t < 0 ) t += 1;\n\tif ( t > 1 ) t -= 1;\n\tif ( t < 1 / 6 ) return p + ( q - p ) * 6 * t;\n\tif ( t < 1 / 2 ) return q;\n\tif ( t < 2 / 3 ) return p + ( q - p ) * 6 * ( 2 / 3 - t );\n\treturn p;\n\n}\n\n/**\n * A Color instance is represented by RGB components in the linear working\n * color space, which defaults to `LinearSRGBColorSpace`. Inputs\n * conventionally using `SRGBColorSpace` (such as hexadecimals and CSS\n * strings) are converted to the working color space automatically.\n *\n * ```js\n * // converted automatically from SRGBColorSpace to LinearSRGBColorSpace\n * const color = new THREE.Color().setHex( 0x112233 );\n * ```\n * Source color spaces may be specified explicitly, to ensure correct conversions.\n * ```js\n * // assumed already LinearSRGBColorSpace; no conversion\n * const color = new THREE.Color().setRGB( 0.5, 0.5, 0.5 );\n *\n * // converted explicitly from SRGBColorSpace to LinearSRGBColorSpace\n * const color = new THREE.Color().setRGB( 0.5, 0.5, 0.5, SRGBColorSpace );\n * ```\n * If THREE.ColorManagement is disabled, no conversions occur. For details,\n * see Color management. Iterating through a Color instance will yield\n * its components (r, g, b) in the corresponding order. A Color can be initialised\n * in any of the following ways:\n * ```js\n * //empty constructor - will default white\n * const color1 = new THREE.Color();\n *\n * //Hexadecimal color (recommended)\n * const color2 = new THREE.Color( 0xff0000 );\n *\n * //RGB string\n * const color3 = new THREE.Color(\"rgb(255, 0, 0)\");\n * const color4 = new THREE.Color(\"rgb(100%, 0%, 0%)\");\n *\n * //X11 color name - all 140 color names are supported.\n * //Note the lack of CamelCase in the name\n * const color5 = new THREE.Color( 'skyblue' );\n * //HSL string\n * const color6 = new THREE.Color(\"hsl(0, 100%, 50%)\");\n *\n * //Separate RGB values between 0 and 1\n * const color7 = new THREE.Color( 1, 0, 0 );\n * ```\n */\nclass Color {\n\n\t/**\n\t * Constructs a new color.\n\t *\n\t * Note that standard method of specifying color in three.js is with a hexadecimal triplet,\n\t * and that method is used throughout the rest of the documentation.\n\t *\n\t * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n\t * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n\t * @param {number} [g] - The green component.\n\t * @param {number} [b] - The blue component.\n\t */\n\tconstructor( r, g, b ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isColor = true;\n\n\t\t/**\n\t\t * The red component.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.r = 1;\n\n\t\t/**\n\t\t * The green component.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.g = 1;\n\n\t\t/**\n\t\t * The blue component.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.b = 1;\n\n\t\treturn this.set( r, g, b );\n\n\t}\n\n\t/**\n\t * Sets the colors's components from the given values.\n\t *\n\t * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n\t * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n\t * @param {number} [g] - The green component.\n\t * @param {number} [b] - The blue component.\n\t * @return {Color} A reference to this color.\n\t */\n\tset( r, g, b ) {\n\n\t\tif ( g === undefined && b === undefined ) {\n\n\t\t\t// r is THREE.Color, hex or string\n\n\t\t\tconst value = r;\n\n\t\t\tif ( value && value.isColor ) {\n\n\t\t\t\tthis.copy( value );\n\n\t\t\t} else if ( typeof value === 'number' ) {\n\n\t\t\t\tthis.setHex( value );\n\n\t\t\t} else if ( typeof value === 'string' ) {\n\n\t\t\t\tthis.setStyle( value );\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tthis.setRGB( r, g, b );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the colors's components to the given scalar value.\n\t *\n\t * @param {number} scalar - The scalar value.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetScalar( scalar ) {\n\n\t\tthis.r = scalar;\n\t\tthis.g = scalar;\n\t\tthis.b = scalar;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from a hexadecimal value.\n\t *\n\t * @param {number} hex - The hexadecimal value.\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetHex( hex, colorSpace = SRGBColorSpace ) {\n\n\t\thex = Math.floor( hex );\n\n\t\tthis.r = ( hex >> 16 & 255 ) / 255;\n\t\tthis.g = ( hex >> 8 & 255 ) / 255;\n\t\tthis.b = ( hex & 255 ) / 255;\n\n\t\tColorManagement.colorSpaceToWorking( this, colorSpace );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from RGB values.\n\t *\n\t * @param {number} r - Red channel value between `0.0` and `1.0`.\n\t * @param {number} g - Green channel value between `0.0` and `1.0`.\n\t * @param {number} b - Blue channel value between `0.0` and `1.0`.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetRGB( r, g, b, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\tthis.r = r;\n\t\tthis.g = g;\n\t\tthis.b = b;\n\n\t\tColorManagement.colorSpaceToWorking( this, colorSpace );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from RGB values.\n\t *\n\t * @param {number} h - Hue value between `0.0` and `1.0`.\n\t * @param {number} s - Saturation value between `0.0` and `1.0`.\n\t * @param {number} l - Lightness value between `0.0` and `1.0`.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetHSL( h, s, l, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\t// h,s,l ranges are in 0.0 - 1.0\n\t\th = euclideanModulo( h, 1 );\n\t\ts = clamp( s, 0, 1 );\n\t\tl = clamp( l, 0, 1 );\n\n\t\tif ( s === 0 ) {\n\n\t\t\tthis.r = this.g = this.b = l;\n\n\t\t} else {\n\n\t\t\tconst p = l <= 0.5 ? l * ( 1 + s ) : l + s - ( l * s );\n\t\t\tconst q = ( 2 * l ) - p;\n\n\t\t\tthis.r = hue2rgb( q, p, h + 1 / 3 );\n\t\t\tthis.g = hue2rgb( q, p, h );\n\t\t\tthis.b = hue2rgb( q, p, h - 1 / 3 );\n\n\t\t}\n\n\t\tColorManagement.colorSpaceToWorking( this, colorSpace );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from a CSS-style string. For example, `rgb(250, 0,0)`,\n\t * `rgb(100%, 0%, 0%)`, `hsl(0, 100%, 50%)`, `#ff0000`, `#f00`, or `red` ( or\n\t * any [X11 color name]{@link https://en.wikipedia.org/wiki/X11_color_names#Color_name_chart} -\n\t * all 140 color names are supported).\n\t *\n\t * @param {string} style - Color as a CSS-style string.\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetStyle( style, colorSpace = SRGBColorSpace ) {\n\n\t\tfunction handleAlpha( string ) {\n\n\t\t\tif ( string === undefined ) return;\n\n\t\t\tif ( parseFloat( string ) < 1 ) {\n\n\t\t\t\tconsole.warn( 'THREE.Color: Alpha component of ' + style + ' will be ignored.' );\n\n\t\t\t}\n\n\t\t}\n\n\n\t\tlet m;\n\n\t\tif ( m = /^(\\w+)\\(([^\\)]*)\\)/.exec( style ) ) {\n\n\t\t\t// rgb / hsl\n\n\t\t\tlet color;\n\t\t\tconst name = m[ 1 ];\n\t\t\tconst components = m[ 2 ];\n\n\t\t\tswitch ( name ) {\n\n\t\t\t\tcase 'rgb':\n\t\t\t\tcase 'rgba':\n\n\t\t\t\t\tif ( color = /^\\s*(\\d+)\\s*,\\s*(\\d+)\\s*,\\s*(\\d+)\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec( components ) ) {\n\n\t\t\t\t\t\t// rgb(255,0,0) rgba(255,0,0,0.5)\n\n\t\t\t\t\t\thandleAlpha( color[ 4 ] );\n\n\t\t\t\t\t\treturn this.setRGB(\n\t\t\t\t\t\t\tMath.min( 255, parseInt( color[ 1 ], 10 ) ) / 255,\n\t\t\t\t\t\t\tMath.min( 255, parseInt( color[ 2 ], 10 ) ) / 255,\n\t\t\t\t\t\t\tMath.min( 255, parseInt( color[ 3 ], 10 ) ) / 255,\n\t\t\t\t\t\t\tcolorSpace\n\t\t\t\t\t\t);\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( color = /^\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec( components ) ) {\n\n\t\t\t\t\t\t// rgb(100%,0%,0%) rgba(100%,0%,0%,0.5)\n\n\t\t\t\t\t\thandleAlpha( color[ 4 ] );\n\n\t\t\t\t\t\treturn this.setRGB(\n\t\t\t\t\t\t\tMath.min( 100, parseInt( color[ 1 ], 10 ) ) / 100,\n\t\t\t\t\t\t\tMath.min( 100, parseInt( color[ 2 ], 10 ) ) / 100,\n\t\t\t\t\t\t\tMath.min( 100, parseInt( color[ 3 ], 10 ) ) / 100,\n\t\t\t\t\t\t\tcolorSpace\n\t\t\t\t\t\t);\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase 'hsl':\n\t\t\t\tcase 'hsla':\n\n\t\t\t\t\tif ( color = /^\\s*(\\d*\\.?\\d+)\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec( components ) ) {\n\n\t\t\t\t\t\t// hsl(120,50%,50%) hsla(120,50%,50%,0.5)\n\n\t\t\t\t\t\thandleAlpha( color[ 4 ] );\n\n\t\t\t\t\t\treturn this.setHSL(\n\t\t\t\t\t\t\tparseFloat( color[ 1 ] ) / 360,\n\t\t\t\t\t\t\tparseFloat( color[ 2 ] ) / 100,\n\t\t\t\t\t\t\tparseFloat( color[ 3 ] ) / 100,\n\t\t\t\t\t\t\tcolorSpace\n\t\t\t\t\t\t);\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\n\n\t\t\t\t\tconsole.warn( 'THREE.Color: Unknown color model ' + style );\n\n\t\t\t}\n\n\t\t} else if ( m = /^\\#([A-Fa-f\\d]+)$/.exec( style ) ) {\n\n\t\t\t// hex color\n\n\t\t\tconst hex = m[ 1 ];\n\t\t\tconst size = hex.length;\n\n\t\t\tif ( size === 3 ) {\n\n\t\t\t\t// #ff0\n\t\t\t\treturn this.setRGB(\n\t\t\t\t\tparseInt( hex.charAt( 0 ), 16 ) / 15,\n\t\t\t\t\tparseInt( hex.charAt( 1 ), 16 ) / 15,\n\t\t\t\t\tparseInt( hex.charAt( 2 ), 16 ) / 15,\n\t\t\t\t\tcolorSpace\n\t\t\t\t);\n\n\t\t\t} else if ( size === 6 ) {\n\n\t\t\t\t// #ff0000\n\t\t\t\treturn this.setHex( parseInt( hex, 16 ), colorSpace );\n\n\t\t\t} else {\n\n\t\t\t\tconsole.warn( 'THREE.Color: Invalid hex color ' + style );\n\n\t\t\t}\n\n\t\t} else if ( style && style.length > 0 ) {\n\n\t\t\treturn this.setColorName( style, colorSpace );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets this color from a color name. Faster than {@link Color#setStyle} if\n\t * you don't need the other CSS-style formats.\n\t *\n\t * For convenience, the list of names is exposed in `Color.NAMES` as a hash.\n\t * ```js\n\t * Color.NAMES.aliceblue // returns 0xF0F8FF\n\t * ```\n\t *\n\t * @param {string} style - The color name.\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetColorName( style, colorSpace = SRGBColorSpace ) {\n\n\t\t// color keywords\n\t\tconst hex = _colorKeywords[ style.toLowerCase() ];\n\n\t\tif ( hex !== undefined ) {\n\n\t\t\t// red\n\t\t\tthis.setHex( hex, colorSpace );\n\n\t\t} else {\n\n\t\t\t// unknown color\n\t\t\tconsole.warn( 'THREE.Color: Unknown color ' + style );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new color with copied values from this instance.\n\t *\n\t * @return {Color} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.r, this.g, this.b );\n\n\t}\n\n\t/**\n\t * Copies the values of the given color to this instance.\n\t *\n\t * @param {Color} color - The color to copy.\n\t * @return {Color} A reference to this color.\n\t */\n\tcopy( color ) {\n\n\t\tthis.r = color.r;\n\t\tthis.g = color.g;\n\t\tthis.b = color.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the given color into this color, and then converts this color from\n\t * `SRGBColorSpace` to `LinearSRGBColorSpace`.\n\t *\n\t * @param {Color} color - The color to copy/convert.\n\t * @return {Color} A reference to this color.\n\t */\n\tcopySRGBToLinear( color ) {\n\n\t\tthis.r = SRGBToLinear( color.r );\n\t\tthis.g = SRGBToLinear( color.g );\n\t\tthis.b = SRGBToLinear( color.b );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the given color into this color, and then converts this color from\n\t * `LinearSRGBColorSpace` to `SRGBColorSpace`.\n\t *\n\t * @param {Color} color - The color to copy/convert.\n\t * @return {Color} A reference to this color.\n\t */\n\tcopyLinearToSRGB( color ) {\n\n\t\tthis.r = LinearToSRGB( color.r );\n\t\tthis.g = LinearToSRGB( color.g );\n\t\tthis.b = LinearToSRGB( color.b );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Converts this color from `SRGBColorSpace` to `LinearSRGBColorSpace`.\n\t *\n\t * @return {Color} A reference to this color.\n\t */\n\tconvertSRGBToLinear() {\n\n\t\tthis.copySRGBToLinear( this );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Converts this color from `LinearSRGBColorSpace` to `SRGBColorSpace`.\n\t *\n\t * @return {Color} A reference to this color.\n\t */\n\tconvertLinearToSRGB() {\n\n\t\tthis.copyLinearToSRGB( this );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the hexadecimal value of this color.\n\t *\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {number} The hexadecimal value.\n\t */\n\tgetHex( colorSpace = SRGBColorSpace ) {\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\treturn Math.round( clamp( _color.r * 255, 0, 255 ) ) * 65536 + Math.round( clamp( _color.g * 255, 0, 255 ) ) * 256 + Math.round( clamp( _color.b * 255, 0, 255 ) );\n\n\t}\n\n\t/**\n\t * Returns the hexadecimal value of this color as a string (for example, 'FFFFFF').\n\t *\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {string} The hexadecimal value as a string.\n\t */\n\tgetHexString( colorSpace = SRGBColorSpace ) {\n\n\t\treturn ( '000000' + this.getHex( colorSpace ).toString( 16 ) ).slice( -6 );\n\n\t}\n\n\t/**\n\t * Converts the colors RGB values into the HSL format and stores them into the\n\t * given target object.\n\t *\n\t * @param {{h:number,s:number,l:number}} target - The target object that is used to store the method's result.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {{h:number,s:number,l:number}} The HSL representation of this color.\n\t */\n\tgetHSL( target, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\t// h,s,l ranges are in 0.0 - 1.0\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\tconst r = _color.r, g = _color.g, b = _color.b;\n\n\t\tconst max = Math.max( r, g, b );\n\t\tconst min = Math.min( r, g, b );\n\n\t\tlet hue, saturation;\n\t\tconst lightness = ( min + max ) / 2.0;\n\n\t\tif ( min === max ) {\n\n\t\t\thue = 0;\n\t\t\tsaturation = 0;\n\n\t\t} else {\n\n\t\t\tconst delta = max - min;\n\n\t\t\tsaturation = lightness <= 0.5 ? delta / ( max + min ) : delta / ( 2 - max - min );\n\n\t\t\tswitch ( max ) {\n\n\t\t\t\tcase r: hue = ( g - b ) / delta + ( g < b ? 6 : 0 ); break;\n\t\t\t\tcase g: hue = ( b - r ) / delta + 2; break;\n\t\t\t\tcase b: hue = ( r - g ) / delta + 4; break;\n\n\t\t\t}\n\n\t\t\thue /= 6;\n\n\t\t}\n\n\t\ttarget.h = hue;\n\t\ttarget.s = saturation;\n\t\ttarget.l = lightness;\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the RGB values of this color and stores them into the given target object.\n\t *\n\t * @param {Color} target - The target color that is used to store the method's result.\n\t * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n\t * @return {Color} The RGB representation of this color.\n\t */\n\tgetRGB( target, colorSpace = ColorManagement.workingColorSpace ) {\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\ttarget.r = _color.r;\n\t\ttarget.g = _color.g;\n\t\ttarget.b = _color.b;\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the value of this color as a CSS style string. Example: `rgb(255,0,0)`.\n\t *\n\t * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n\t * @return {string} The CSS representation of this color.\n\t */\n\tgetStyle( colorSpace = SRGBColorSpace ) {\n\n\t\tColorManagement.workingToColorSpace( _color.copy( this ), colorSpace );\n\n\t\tconst r = _color.r, g = _color.g, b = _color.b;\n\n\t\tif ( colorSpace !== SRGBColorSpace ) {\n\n\t\t\t// Requires CSS Color Module Level 4 (https://www.w3.org/TR/css-color-4/).\n\t\t\treturn `color(${ colorSpace } ${ r.toFixed( 3 ) } ${ g.toFixed( 3 ) } ${ b.toFixed( 3 ) })`;\n\n\t\t}\n\n\t\treturn `rgb(${ Math.round( r * 255 ) },${ Math.round( g * 255 ) },${ Math.round( b * 255 ) })`;\n\n\t}\n\n\t/**\n\t * Adds the given HSL values to this color's values.\n\t * Internally, this converts the color's RGB values to HSL, adds HSL\n\t * and then converts the color back to RGB.\n\t *\n\t * @param {number} h - Hue value between `0.0` and `1.0`.\n\t * @param {number} s - Saturation value between `0.0` and `1.0`.\n\t * @param {number} l - Lightness value between `0.0` and `1.0`.\n\t * @return {Color} A reference to this color.\n\t */\n\toffsetHSL( h, s, l ) {\n\n\t\tthis.getHSL( _hslA );\n\n\t\treturn this.setHSL( _hslA.h + h, _hslA.s + s, _hslA.l + l );\n\n\t}\n\n\t/**\n\t * Adds the RGB values of the given color to the RGB values of this color.\n\t *\n\t * @param {Color} color - The color to add.\n\t * @return {Color} A reference to this color.\n\t */\n\tadd( color ) {\n\n\t\tthis.r += color.r;\n\t\tthis.g += color.g;\n\t\tthis.b += color.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the RGB values of the given colors and stores the result in this instance.\n\t *\n\t * @param {Color} color1 - The first color.\n\t * @param {Color} color2 - The second color.\n\t * @return {Color} A reference to this color.\n\t */\n\taddColors( color1, color2 ) {\n\n\t\tthis.r = color1.r + color2.r;\n\t\tthis.g = color1.g + color2.g;\n\t\tthis.b = color1.b + color2.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given scalar value to the RGB values of this color.\n\t *\n\t * @param {number} s - The scalar to add.\n\t * @return {Color} A reference to this color.\n\t */\n\taddScalar( s ) {\n\n\t\tthis.r += s;\n\t\tthis.g += s;\n\t\tthis.b += s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Subtracts the RGB values of the given color from the RGB values of this color.\n\t *\n\t * @param {Color} color - The color to subtract.\n\t * @return {Color} A reference to this color.\n\t */\n\tsub( color ) {\n\n\t\tthis.r = Math.max( 0, this.r - color.r );\n\t\tthis.g = Math.max( 0, this.g - color.g );\n\t\tthis.b = Math.max( 0, this.b - color.b );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the RGB values of the given color with the RGB values of this color.\n\t *\n\t * @param {Color} color - The color to multiply.\n\t * @return {Color} A reference to this color.\n\t */\n\tmultiply( color ) {\n\n\t\tthis.r *= color.r;\n\t\tthis.g *= color.g;\n\t\tthis.b *= color.b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Multiplies the given scalar value with the RGB values of this color.\n\t *\n\t * @param {number} s - The scalar to multiply.\n\t * @return {Color} A reference to this color.\n\t */\n\tmultiplyScalar( s ) {\n\n\t\tthis.r *= s;\n\t\tthis.g *= s;\n\t\tthis.b *= s;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates this color's RGB values toward the RGB values of the\n\t * given color. The alpha argument can be thought of as the ratio between\n\t * the two colors, where `0.0` is this color and `1.0` is the first argument.\n\t *\n\t * @param {Color} color - The color to converge on.\n\t * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n\t * @return {Color} A reference to this color.\n\t */\n\tlerp( color, alpha ) {\n\n\t\tthis.r += ( color.r - this.r ) * alpha;\n\t\tthis.g += ( color.g - this.g ) * alpha;\n\t\tthis.b += ( color.b - this.b ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates between the given colors and stores the result in this instance.\n\t * The alpha argument can be thought of as the ratio between the two colors, where `0.0`\n\t * is the first and `1.0` is the second color.\n\t *\n\t * @param {Color} color1 - The first color.\n\t * @param {Color} color2 - The second color.\n\t * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n\t * @return {Color} A reference to this color.\n\t */\n\tlerpColors( color1, color2, alpha ) {\n\n\t\tthis.r = color1.r + ( color2.r - color1.r ) * alpha;\n\t\tthis.g = color1.g + ( color2.g - color1.g ) * alpha;\n\t\tthis.b = color1.b + ( color2.b - color1.b ) * alpha;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linearly interpolates this color's HSL values toward the HSL values of the\n\t * given color. It differs from {@link Color#lerp} by not interpolating straight\n\t * from one color to the other, but instead going through all the hues in between\n\t * those two colors. The alpha argument can be thought of as the ratio between\n\t * the two colors, where 0.0 is this color and 1.0 is the first argument.\n\t *\n\t * @param {Color} color - The color to converge on.\n\t * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n\t * @return {Color} A reference to this color.\n\t */\n\tlerpHSL( color, alpha ) {\n\n\t\tthis.getHSL( _hslA );\n\t\tcolor.getHSL( _hslB );\n\n\t\tconst h = lerp( _hslA.h, _hslB.h, alpha );\n\t\tconst s = lerp( _hslA.s, _hslB.s, alpha );\n\t\tconst l = lerp( _hslA.l, _hslB.l, alpha );\n\n\t\tthis.setHSL( h, s, l );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the color's RGB components from the given 3D vector.\n\t *\n\t * @param {Vector3} v - The vector to set.\n\t * @return {Color} A reference to this color.\n\t */\n\tsetFromVector3( v ) {\n\n\t\tthis.r = v.x;\n\t\tthis.g = v.y;\n\t\tthis.b = v.z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Transforms this color with the given 3x3 matrix.\n\t *\n\t * @param {Matrix3} m - The matrix.\n\t * @return {Color} A reference to this color.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tconst r = this.r, g = this.g, b = this.b;\n\t\tconst e = m.elements;\n\n\t\tthis.r = e[ 0 ] * r + e[ 3 ] * g + e[ 6 ] * b;\n\t\tthis.g = e[ 1 ] * r + e[ 4 ] * g + e[ 7 ] * b;\n\t\tthis.b = e[ 2 ] * r + e[ 5 ] * g + e[ 8 ] * b;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this color is equal with the given one.\n\t *\n\t * @param {Color} c - The color to test for equality.\n\t * @return {boolean} Whether this bounding color is equal with the given one.\n\t */\n\tequals( c ) {\n\n\t\treturn ( c.r === this.r ) && ( c.g === this.g ) && ( c.b === this.b );\n\n\t}\n\n\t/**\n\t * Sets this color's RGB components from the given array.\n\t *\n\t * @param {Array} array - An array holding the RGB values.\n\t * @param {number} [offset=0] - The offset into the array.\n\t * @return {Color} A reference to this color.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tthis.r = array[ offset ];\n\t\tthis.g = array[ offset + 1 ];\n\t\tthis.b = array[ offset + 2 ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Writes the RGB components of this color to the given array. If no array is provided,\n\t * the method returns a new instance.\n\t *\n\t * @param {Array} [array=[]] - The target array holding the color components.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Array} The color components.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tarray[ offset ] = this.r;\n\t\tarray[ offset + 1 ] = this.g;\n\t\tarray[ offset + 2 ] = this.b;\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Sets the components of this color from the given buffer attribute.\n\t *\n\t * @param {BufferAttribute} attribute - The buffer attribute holding color data.\n\t * @param {number} index - The index into the attribute.\n\t * @return {Color} A reference to this color.\n\t */\n\tfromBufferAttribute( attribute, index ) {\n\n\t\tthis.r = attribute.getX( index );\n\t\tthis.g = attribute.getY( index );\n\t\tthis.b = attribute.getZ( index );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This methods defines the serialization result of this class. Returns the color\n\t * as a hexadecimal value.\n\t *\n\t * @return {number} The hexadecimal value.\n\t */\n\ttoJSON() {\n\n\t\treturn this.getHex();\n\n\t}\n\n\t*[ Symbol.iterator ]() {\n\n\t\tyield this.r;\n\t\tyield this.g;\n\t\tyield this.b;\n\n\t}\n\n}\n\nconst _color = /*@__PURE__*/ new Color();\n\n/**\n * A dictionary with X11 color names.\n *\n * Note that multiple words such as Dark Orange become the string 'darkorange'.\n *\n * @static\n * @type {Object}\n */\nColor.NAMES = _colorKeywords;\n\nlet _materialId = 0;\n\n/**\n * Abstract base class for materials.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * @abstract\n * @augments EventDispatcher\n */\nclass Material extends EventDispatcher {\n\n\t/**\n\t * Constructs a new material.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMaterial = true;\n\n\t\t/**\n\t\t * The ID of the material.\n\t\t *\n\t\t * @name Material#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _materialId ++ } );\n\n\t\t/**\n\t\t * The UUID of the material.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the material.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'Material';\n\n\t\t/**\n\t\t * Defines the blending type of the material.\n\t\t *\n\t\t * It must be set to `CustomBlending` if custom blending properties like\n\t\t * {@link Material#blendSrc}, {@link Material#blendDst} or {@link Material#blendEquation}\n\t\t * should have any effect.\n\t\t *\n\t\t * @type {(NoBlending|NormalBlending|AdditiveBlending|SubtractiveBlending|MultiplyBlending|CustomBlending)}\n\t\t * @default NormalBlending\n\t\t */\n\t\tthis.blending = NormalBlending;\n\n\t\t/**\n\t\t * Defines which side of faces will be rendered - front, back or both.\n\t\t *\n\t\t * @type {(FrontSide|BackSide|DoubleSide)}\n\t\t * @default FrontSide\n\t\t */\n\t\tthis.side = FrontSide;\n\n\t\t/**\n\t\t * If set to `true`, vertex colors should be used.\n\t\t *\n\t\t * The engine supports RGB and RGBA vertex colors depending on whether a three (RGB) or\n\t\t * four (RGBA) component color buffer attribute is used.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.vertexColors = false;\n\n\t\t/**\n\t\t * Defines how transparent the material is.\n\t\t * A value of `0.0` indicates fully transparent, `1.0` is fully opaque.\n\t\t *\n\t\t * If the {@link Material#transparent} is not set to `true`,\n\t\t * the material will remain fully opaque and this value will only affect its color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.opacity = 1;\n\n\t\t/**\n\t\t * Defines whether this material is transparent. This has an effect on\n\t\t * rendering as transparent objects need special treatment and are rendered\n\t\t * after non-transparent objects.\n\t\t *\n\t\t * When set to true, the extent to which the material is transparent is\n\t\t * controlled by {@link Material#opacity}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.transparent = false;\n\n\t\t/**\n\t\t * Enables alpha hashed transparency, an alternative to {@link Material#transparent} or\n\t\t * {@link Material#alphaTest}. The material will not be rendered if opacity is lower than\n\t\t * a random threshold. Randomization introduces some grain or noise, but approximates alpha\n\t\t * blending without the associated problems of sorting. Using TAA can reduce the resulting noise.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.alphaHash = false;\n\n\t\t/**\n\t\t * Defines the blending source factor.\n\t\t *\n\t\t * @type {(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default SrcAlphaFactor\n\t\t */\n\t\tthis.blendSrc = SrcAlphaFactor;\n\n\t\t/**\n\t\t * Defines the blending destination factor.\n\t\t *\n\t\t * @type {(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default OneMinusSrcAlphaFactor\n\t\t */\n\t\tthis.blendDst = OneMinusSrcAlphaFactor;\n\n\t\t/**\n\t\t * Defines the blending equation.\n\t\t *\n\t\t * @type {(AddEquation|SubtractEquation|ReverseSubtractEquation|MinEquation|MaxEquation)}\n\t\t * @default AddEquation\n\t\t */\n\t\tthis.blendEquation = AddEquation;\n\n\t\t/**\n\t\t * Defines the blending source alpha factor.\n\t\t *\n\t\t * @type {?(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default null\n\t\t */\n\t\tthis.blendSrcAlpha = null;\n\n\t\t/**\n\t\t * Defines the blending destination alpha factor.\n\t\t *\n\t\t * @type {?(ZeroFactor|OneFactor|SrcColorFactor|OneMinusSrcColorFactor|SrcAlphaFactor|OneMinusSrcAlphaFactor|DstAlphaFactor|OneMinusDstAlphaFactor|DstColorFactor|OneMinusDstColorFactor|SrcAlphaSaturateFactor|ConstantColorFactor|OneMinusConstantColorFactor|ConstantAlphaFactor|OneMinusConstantAlphaFactor)}\n\t\t * @default null\n\t\t */\n\t\tthis.blendDstAlpha = null;\n\n\t\t/**\n\t\t * Defines the blending equation of the alpha channel.\n\t\t *\n\t\t * @type {?(AddEquation|SubtractEquation|ReverseSubtractEquation|MinEquation|MaxEquation)}\n\t\t * @default null\n\t\t */\n\t\tthis.blendEquationAlpha = null;\n\n\t\t/**\n\t\t * Represents the RGB values of the constant blend color.\n\t\t *\n\t\t * This property has only an effect when using custom blending with `ConstantColor` or `OneMinusConstantColor`.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.blendColor = new Color( 0, 0, 0 );\n\n\t\t/**\n\t\t * Represents the alpha value of the constant blend color.\n\t\t *\n\t\t * This property has only an effect when using custom blending with `ConstantAlpha` or `OneMinusConstantAlpha`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.blendAlpha = 0;\n\n\t\t/**\n\t\t * Defines the depth function.\n\t\t *\n\t\t * @type {(NeverDepth|AlwaysDepth|LessDepth|LessEqualDepth|EqualDepth|GreaterEqualDepth|GreaterDepth|NotEqualDepth)}\n\t\t * @default LessEqualDepth\n\t\t */\n\t\tthis.depthFunc = LessEqualDepth;\n\n\t\t/**\n\t\t * Whether to have depth test enabled when rendering this material.\n\t\t * When the depth test is disabled, the depth write will also be implicitly disabled.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.depthTest = true;\n\n\t\t/**\n\t\t * Whether rendering this material has any effect on the depth buffer.\n\t\t *\n\t\t * When drawing 2D overlays it can be useful to disable the depth writing in\n\t\t * order to layer several things together without creating z-index artifacts.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.depthWrite = true;\n\n\t\t/**\n\t\t * The bit mask to use when writing to the stencil buffer.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0xff\n\t\t */\n\t\tthis.stencilWriteMask = 0xff;\n\n\t\t/**\n\t\t * The stencil comparison function to use.\n\t\t *\n\t\t * @type {NeverStencilFunc|LessStencilFunc|EqualStencilFunc|LessEqualStencilFunc|GreaterStencilFunc|NotEqualStencilFunc|GreaterEqualStencilFunc|AlwaysStencilFunc}\n\t\t * @default AlwaysStencilFunc\n\t\t */\n\t\tthis.stencilFunc = AlwaysStencilFunc;\n\n\t\t/**\n\t\t * The value to use when performing stencil comparisons or stencil operations.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.stencilRef = 0;\n\n\t\t/**\n\t\t * The bit mask to use when comparing against the stencil buffer.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0xff\n\t\t */\n\t\tthis.stencilFuncMask = 0xff;\n\n\t\t/**\n\t\t * Which stencil operation to perform when the comparison function returns `false`.\n\t\t *\n\t\t * @type {ZeroStencilOp|KeepStencilOp|ReplaceStencilOp|IncrementStencilOp|DecrementStencilOp|IncrementWrapStencilOp|DecrementWrapStencilOp|InvertStencilOp}\n\t\t * @default KeepStencilOp\n\t\t */\n\t\tthis.stencilFail = KeepStencilOp;\n\n\t\t/**\n\t\t * Which stencil operation to perform when the comparison function returns\n\t\t * `true` but the depth test fails.\n\t\t *\n\t\t * @type {ZeroStencilOp|KeepStencilOp|ReplaceStencilOp|IncrementStencilOp|DecrementStencilOp|IncrementWrapStencilOp|DecrementWrapStencilOp|InvertStencilOp}\n\t\t * @default KeepStencilOp\n\t\t */\n\t\tthis.stencilZFail = KeepStencilOp;\n\n\t\t/**\n\t\t * Which stencil operation to perform when the comparison function returns\n\t\t * `true` and the depth test passes.\n\t\t *\n\t\t * @type {ZeroStencilOp|KeepStencilOp|ReplaceStencilOp|IncrementStencilOp|DecrementStencilOp|IncrementWrapStencilOp|DecrementWrapStencilOp|InvertStencilOp}\n\t\t * @default KeepStencilOp\n\t\t */\n\t\tthis.stencilZPass = KeepStencilOp;\n\n\t\t/**\n\t\t * Whether stencil operations are performed against the stencil buffer. In\n\t\t * order to perform writes or comparisons against the stencil buffer this\n\t\t * value must be `true`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.stencilWrite = false;\n\n\t\t/**\n\t\t * User-defined clipping planes specified as THREE.Plane objects in world\n\t\t * space. These planes apply to the objects this material is attached to.\n\t\t * Points in space whose signed distance to the plane is negative are clipped\n\t\t * (not rendered). This requires {@link WebGLRenderer#localClippingEnabled} to\n\t\t * be `true`.\n\t\t *\n\t\t * @type {?Array}\n\t\t * @default null\n\t\t */\n\t\tthis.clippingPlanes = null;\n\n\t\t/**\n\t\t * Changes the behavior of clipping planes so that only their intersection is\n\t\t * clipped, rather than their union.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clipIntersection = false;\n\n\t\t/**\n\t\t * Defines whether to clip shadows according to the clipping planes specified\n\t\t * on this material.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clipShadows = false;\n\n\t\t/**\n\t\t * Defines which side of faces cast shadows. If `null`, the side casting shadows\n\t\t * is determined as follows:\n\t\t *\n\t\t * - When {@link Material#side} is set to `FrontSide`, the back side cast shadows.\n\t\t * - When {@link Material#side} is set to `BackSide`, the front side cast shadows.\n\t\t * - When {@link Material#side} is set to `DoubleSide`, both sides cast shadows.\n\t\t *\n\t\t * @type {?(FrontSide|BackSide|DoubleSide)}\n\t\t * @default null\n\t\t */\n\t\tthis.shadowSide = null;\n\n\t\t/**\n\t\t * Whether to render the material's color.\n\t\t *\n\t\t * This can be used in conjunction with {@link Object3D#renderOder} to create invisible\n\t\t * objects that occlude other objects.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.colorWrite = true;\n\n\t\t/**\n\t\t * Override the renderer's default precision for this material.\n\t\t *\n\t\t * @type {?('highp'|'mediump'|'lowp')}\n\t\t * @default null\n\t\t */\n\t\tthis.precision = null;\n\n\t\t/**\n\t\t * Whether to use polygon offset or not. When enabled, each fragment's depth value will\n\t\t * be offset after it is interpolated from the depth values of the appropriate vertices.\n\t\t * The offset is added before the depth test is performed and before the value is written\n\t\t * into the depth buffer.\n\t\t *\n\t\t * Can be useful for rendering hidden-line images, for applying decals to surfaces, and for\n\t\t * rendering solids with highlighted edges.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.polygonOffset = false;\n\n\t\t/**\n\t\t * Specifies a scale factor that is used to create a variable depth offset for each polygon.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.polygonOffsetFactor = 0;\n\n\t\t/**\n\t\t * Is multiplied by an implementation-specific value to create a constant depth offset.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.polygonOffsetUnits = 0;\n\n\t\t/**\n\t\t * Whether to apply dithering to the color to remove the appearance of banding.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.dithering = false;\n\n\t\t/**\n\t\t * Whether alpha to coverage should be enabled or not. Can only be used with MSAA-enabled contexts\n\t\t * (meaning when the renderer was created with *antialias* parameter set to `true`). Enabling this\n\t\t * will smooth aliasing on clip plane edges and alphaTest-clipped edges.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.alphaToCoverage = false;\n\n\t\t/**\n\t\t * Whether to premultiply the alpha (transparency) value.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.premultipliedAlpha = false;\n\n\t\t/**\n\t\t * Whether double-sided, transparent objects should be rendered with a single pass or not.\n\t\t *\n\t\t * The engine renders double-sided, transparent objects with two draw calls (back faces first,\n\t\t * then front faces) to mitigate transparency artifacts. There are scenarios however where this\n\t\t * approach produces no quality gains but still doubles draw calls e.g. when rendering flat\n\t\t * vegetation like grass sprites. In these cases, set the `forceSinglePass` flag to `true` to\n\t\t * disable the two pass rendering to avoid performance issues.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.forceSinglePass = false;\n\n\t\t/**\n\t\t * Whether it's possible to override the material with {@link Scene#overrideMaterial} or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.allowOverride = true;\n\n\t\t/**\n\t\t * Defines whether 3D objects using this material are visible.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.visible = true;\n\n\t\t/**\n\t\t * Defines whether this material is tone mapped according to the renderer's tone mapping setting.\n\t\t *\n\t\t * It is ignored when rendering to a render target or using post processing or when using\n\t\t * `WebGPURenderer`. In all these cases, all materials are honored by tone mapping.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.toneMapped = true;\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the Material. It\n\t\t * should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t\t/**\n\t\t * This starts at `0` and counts how many times {@link Material#needsUpdate} is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 0\n\t\t */\n\t\tthis.version = 0;\n\n\t\tthis._alphaTest = 0;\n\n\t}\n\n\t/**\n\t * Sets the alpha value to be used when running an alpha test. The material\n\t * will not be rendered if the opacity is lower than this value.\n\t *\n\t * @type {number}\n\t * @readonly\n\t * @default 0\n\t */\n\tget alphaTest() {\n\n\t\treturn this._alphaTest;\n\n\t}\n\n\tset alphaTest( value ) {\n\n\t\tif ( this._alphaTest > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._alphaTest = value;\n\n\t}\n\n\t/**\n\t * An optional callback that is executed immediately before the material is used to render a 3D object.\n\t *\n\t * This method can only be used when rendering with {@link WebGLRenderer}.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {Scene} scene - The scene.\n\t * @param {Camera} camera - The camera that is used to render the scene.\n\t * @param {BufferGeometry} geometry - The 3D object's geometry.\n\t * @param {Object3D} object - The 3D object.\n\t * @param {Object} group - The geometry group data.\n\t */\n\tonBeforeRender( /* renderer, scene, camera, geometry, object, group */ ) {}\n\n\t/**\n\t * An optional callback that is executed immediately before the shader\n\t * program is compiled. This function is called with the shader source code\n\t * as a parameter. Useful for the modification of built-in materials.\n\t *\n\t * This method can only be used when rendering with {@link WebGLRenderer}. The\n\t * recommended approach when customizing materials is to use `WebGPURenderer` with the new\n\t * Node Material system and [TSL]{@link https://github.com/mrdoob/three.js/wiki/Three.js-Shading-Language}.\n\t *\n\t * @param {{vertexShader:string,fragmentShader:string,uniforms:Object}} shaderobject - The object holds the uniforms and the vertex and fragment shader source.\n\t * @param {WebGLRenderer} renderer - A reference to the renderer.\n\t */\n\tonBeforeCompile( /* shaderobject, renderer */ ) {}\n\n\t/**\n\t * In case {@link Material#onBeforeCompile} is used, this callback can be used to identify\n\t * values of settings used in `onBeforeCompile()`, so three.js can reuse a cached\n\t * shader or recompile the shader for this material as needed.\n\t *\n\t * This method can only be used when rendering with {@link WebGLRenderer}.\n\t *\n\t * @return {string} The custom program cache key.\n\t */\n\tcustomProgramCacheKey() {\n\n\t\treturn this.onBeforeCompile.toString();\n\n\t}\n\n\t/**\n\t * This method can be used to set default values from parameter objects.\n\t * It is a generic implementation so it can be used with different types\n\t * of materials.\n\t *\n\t * @param {Object} [values] - The material values to set.\n\t */\n\tsetValues( values ) {\n\n\t\tif ( values === undefined ) return;\n\n\t\tfor ( const key in values ) {\n\n\t\t\tconst newValue = values[ key ];\n\n\t\t\tif ( newValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Material: parameter '${ key }' has value of undefined.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tconst currentValue = this[ key ];\n\n\t\t\tif ( currentValue === undefined ) {\n\n\t\t\t\tconsole.warn( `THREE.Material: '${ key }' is not a property of THREE.${ this.type }.` );\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tif ( currentValue && currentValue.isColor ) {\n\n\t\t\t\tcurrentValue.set( newValue );\n\n\t\t\t} else if ( ( currentValue && currentValue.isVector3 ) && ( newValue && newValue.isVector3 ) ) {\n\n\t\t\t\tcurrentValue.copy( newValue );\n\n\t\t\t} else {\n\n\t\t\t\tthis[ key ] = newValue;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the material into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized material.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON( meta ) {\n\n\t\tconst isRootObject = ( meta === undefined || typeof meta === 'string' );\n\n\t\tif ( isRootObject ) {\n\n\t\t\tmeta = {\n\t\t\t\ttextures: {},\n\t\t\t\timages: {}\n\t\t\t};\n\n\t\t}\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Material',\n\t\t\t\tgenerator: 'Material.toJSON'\n\t\t\t}\n\t\t};\n\n\t\t// standard Material serialization\n\t\tdata.uuid = this.uuid;\n\t\tdata.type = this.type;\n\n\t\tif ( this.name !== '' ) data.name = this.name;\n\n\t\tif ( this.color && this.color.isColor ) data.color = this.color.getHex();\n\n\t\tif ( this.roughness !== undefined ) data.roughness = this.roughness;\n\t\tif ( this.metalness !== undefined ) data.metalness = this.metalness;\n\n\t\tif ( this.sheen !== undefined ) data.sheen = this.sheen;\n\t\tif ( this.sheenColor && this.sheenColor.isColor ) data.sheenColor = this.sheenColor.getHex();\n\t\tif ( this.sheenRoughness !== undefined ) data.sheenRoughness = this.sheenRoughness;\n\t\tif ( this.emissive && this.emissive.isColor ) data.emissive = this.emissive.getHex();\n\t\tif ( this.emissiveIntensity !== undefined && this.emissiveIntensity !== 1 ) data.emissiveIntensity = this.emissiveIntensity;\n\n\t\tif ( this.specular && this.specular.isColor ) data.specular = this.specular.getHex();\n\t\tif ( this.specularIntensity !== undefined ) data.specularIntensity = this.specularIntensity;\n\t\tif ( this.specularColor && this.specularColor.isColor ) data.specularColor = this.specularColor.getHex();\n\t\tif ( this.shininess !== undefined ) data.shininess = this.shininess;\n\t\tif ( this.clearcoat !== undefined ) data.clearcoat = this.clearcoat;\n\t\tif ( this.clearcoatRoughness !== undefined ) data.clearcoatRoughness = this.clearcoatRoughness;\n\n\t\tif ( this.clearcoatMap && this.clearcoatMap.isTexture ) {\n\n\t\t\tdata.clearcoatMap = this.clearcoatMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.clearcoatRoughnessMap && this.clearcoatRoughnessMap.isTexture ) {\n\n\t\t\tdata.clearcoatRoughnessMap = this.clearcoatRoughnessMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.clearcoatNormalMap && this.clearcoatNormalMap.isTexture ) {\n\n\t\t\tdata.clearcoatNormalMap = this.clearcoatNormalMap.toJSON( meta ).uuid;\n\t\t\tdata.clearcoatNormalScale = this.clearcoatNormalScale.toArray();\n\n\t\t}\n\n\t\tif ( this.sheenColorMap && this.sheenColorMap.isTexture ) {\n\n\t\t\tdata.sheenColorMap = this.sheenColorMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.sheenRoughnessMap && this.sheenRoughnessMap.isTexture ) {\n\n\t\t\tdata.sheenRoughnessMap = this.sheenRoughnessMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.dispersion !== undefined ) data.dispersion = this.dispersion;\n\n\t\tif ( this.iridescence !== undefined ) data.iridescence = this.iridescence;\n\t\tif ( this.iridescenceIOR !== undefined ) data.iridescenceIOR = this.iridescenceIOR;\n\t\tif ( this.iridescenceThicknessRange !== undefined ) data.iridescenceThicknessRange = this.iridescenceThicknessRange;\n\n\t\tif ( this.iridescenceMap && this.iridescenceMap.isTexture ) {\n\n\t\t\tdata.iridescenceMap = this.iridescenceMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.iridescenceThicknessMap && this.iridescenceThicknessMap.isTexture ) {\n\n\t\t\tdata.iridescenceThicknessMap = this.iridescenceThicknessMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.anisotropy !== undefined ) data.anisotropy = this.anisotropy;\n\t\tif ( this.anisotropyRotation !== undefined ) data.anisotropyRotation = this.anisotropyRotation;\n\n\t\tif ( this.anisotropyMap && this.anisotropyMap.isTexture ) {\n\n\t\t\tdata.anisotropyMap = this.anisotropyMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.map && this.map.isTexture ) data.map = this.map.toJSON( meta ).uuid;\n\t\tif ( this.matcap && this.matcap.isTexture ) data.matcap = this.matcap.toJSON( meta ).uuid;\n\t\tif ( this.alphaMap && this.alphaMap.isTexture ) data.alphaMap = this.alphaMap.toJSON( meta ).uuid;\n\n\t\tif ( this.lightMap && this.lightMap.isTexture ) {\n\n\t\t\tdata.lightMap = this.lightMap.toJSON( meta ).uuid;\n\t\t\tdata.lightMapIntensity = this.lightMapIntensity;\n\n\t\t}\n\n\t\tif ( this.aoMap && this.aoMap.isTexture ) {\n\n\t\t\tdata.aoMap = this.aoMap.toJSON( meta ).uuid;\n\t\t\tdata.aoMapIntensity = this.aoMapIntensity;\n\n\t\t}\n\n\t\tif ( this.bumpMap && this.bumpMap.isTexture ) {\n\n\t\t\tdata.bumpMap = this.bumpMap.toJSON( meta ).uuid;\n\t\t\tdata.bumpScale = this.bumpScale;\n\n\t\t}\n\n\t\tif ( this.normalMap && this.normalMap.isTexture ) {\n\n\t\t\tdata.normalMap = this.normalMap.toJSON( meta ).uuid;\n\t\t\tdata.normalMapType = this.normalMapType;\n\t\t\tdata.normalScale = this.normalScale.toArray();\n\n\t\t}\n\n\t\tif ( this.displacementMap && this.displacementMap.isTexture ) {\n\n\t\t\tdata.displacementMap = this.displacementMap.toJSON( meta ).uuid;\n\t\t\tdata.displacementScale = this.displacementScale;\n\t\t\tdata.displacementBias = this.displacementBias;\n\n\t\t}\n\n\t\tif ( this.roughnessMap && this.roughnessMap.isTexture ) data.roughnessMap = this.roughnessMap.toJSON( meta ).uuid;\n\t\tif ( this.metalnessMap && this.metalnessMap.isTexture ) data.metalnessMap = this.metalnessMap.toJSON( meta ).uuid;\n\n\t\tif ( this.emissiveMap && this.emissiveMap.isTexture ) data.emissiveMap = this.emissiveMap.toJSON( meta ).uuid;\n\t\tif ( this.specularMap && this.specularMap.isTexture ) data.specularMap = this.specularMap.toJSON( meta ).uuid;\n\t\tif ( this.specularIntensityMap && this.specularIntensityMap.isTexture ) data.specularIntensityMap = this.specularIntensityMap.toJSON( meta ).uuid;\n\t\tif ( this.specularColorMap && this.specularColorMap.isTexture ) data.specularColorMap = this.specularColorMap.toJSON( meta ).uuid;\n\n\t\tif ( this.envMap && this.envMap.isTexture ) {\n\n\t\t\tdata.envMap = this.envMap.toJSON( meta ).uuid;\n\n\t\t\tif ( this.combine !== undefined ) data.combine = this.combine;\n\n\t\t}\n\n\t\tif ( this.envMapRotation !== undefined ) data.envMapRotation = this.envMapRotation.toArray();\n\t\tif ( this.envMapIntensity !== undefined ) data.envMapIntensity = this.envMapIntensity;\n\t\tif ( this.reflectivity !== undefined ) data.reflectivity = this.reflectivity;\n\t\tif ( this.refractionRatio !== undefined ) data.refractionRatio = this.refractionRatio;\n\n\t\tif ( this.gradientMap && this.gradientMap.isTexture ) {\n\n\t\t\tdata.gradientMap = this.gradientMap.toJSON( meta ).uuid;\n\n\t\t}\n\n\t\tif ( this.transmission !== undefined ) data.transmission = this.transmission;\n\t\tif ( this.transmissionMap && this.transmissionMap.isTexture ) data.transmissionMap = this.transmissionMap.toJSON( meta ).uuid;\n\t\tif ( this.thickness !== undefined ) data.thickness = this.thickness;\n\t\tif ( this.thicknessMap && this.thicknessMap.isTexture ) data.thicknessMap = this.thicknessMap.toJSON( meta ).uuid;\n\t\tif ( this.attenuationDistance !== undefined && this.attenuationDistance !== Infinity ) data.attenuationDistance = this.attenuationDistance;\n\t\tif ( this.attenuationColor !== undefined ) data.attenuationColor = this.attenuationColor.getHex();\n\n\t\tif ( this.size !== undefined ) data.size = this.size;\n\t\tif ( this.shadowSide !== null ) data.shadowSide = this.shadowSide;\n\t\tif ( this.sizeAttenuation !== undefined ) data.sizeAttenuation = this.sizeAttenuation;\n\n\t\tif ( this.blending !== NormalBlending ) data.blending = this.blending;\n\t\tif ( this.side !== FrontSide ) data.side = this.side;\n\t\tif ( this.vertexColors === true ) data.vertexColors = true;\n\n\t\tif ( this.opacity < 1 ) data.opacity = this.opacity;\n\t\tif ( this.transparent === true ) data.transparent = true;\n\n\t\tif ( this.blendSrc !== SrcAlphaFactor ) data.blendSrc = this.blendSrc;\n\t\tif ( this.blendDst !== OneMinusSrcAlphaFactor ) data.blendDst = this.blendDst;\n\t\tif ( this.blendEquation !== AddEquation ) data.blendEquation = this.blendEquation;\n\t\tif ( this.blendSrcAlpha !== null ) data.blendSrcAlpha = this.blendSrcAlpha;\n\t\tif ( this.blendDstAlpha !== null ) data.blendDstAlpha = this.blendDstAlpha;\n\t\tif ( this.blendEquationAlpha !== null ) data.blendEquationAlpha = this.blendEquationAlpha;\n\t\tif ( this.blendColor && this.blendColor.isColor ) data.blendColor = this.blendColor.getHex();\n\t\tif ( this.blendAlpha !== 0 ) data.blendAlpha = this.blendAlpha;\n\n\t\tif ( this.depthFunc !== LessEqualDepth ) data.depthFunc = this.depthFunc;\n\t\tif ( this.depthTest === false ) data.depthTest = this.depthTest;\n\t\tif ( this.depthWrite === false ) data.depthWrite = this.depthWrite;\n\t\tif ( this.colorWrite === false ) data.colorWrite = this.colorWrite;\n\n\t\tif ( this.stencilWriteMask !== 0xff ) data.stencilWriteMask = this.stencilWriteMask;\n\t\tif ( this.stencilFunc !== AlwaysStencilFunc ) data.stencilFunc = this.stencilFunc;\n\t\tif ( this.stencilRef !== 0 ) data.stencilRef = this.stencilRef;\n\t\tif ( this.stencilFuncMask !== 0xff ) data.stencilFuncMask = this.stencilFuncMask;\n\t\tif ( this.stencilFail !== KeepStencilOp ) data.stencilFail = this.stencilFail;\n\t\tif ( this.stencilZFail !== KeepStencilOp ) data.stencilZFail = this.stencilZFail;\n\t\tif ( this.stencilZPass !== KeepStencilOp ) data.stencilZPass = this.stencilZPass;\n\t\tif ( this.stencilWrite === true ) data.stencilWrite = this.stencilWrite;\n\n\t\t// rotation (SpriteMaterial)\n\t\tif ( this.rotation !== undefined && this.rotation !== 0 ) data.rotation = this.rotation;\n\n\t\tif ( this.polygonOffset === true ) data.polygonOffset = true;\n\t\tif ( this.polygonOffsetFactor !== 0 ) data.polygonOffsetFactor = this.polygonOffsetFactor;\n\t\tif ( this.polygonOffsetUnits !== 0 ) data.polygonOffsetUnits = this.polygonOffsetUnits;\n\n\t\tif ( this.linewidth !== undefined && this.linewidth !== 1 ) data.linewidth = this.linewidth;\n\t\tif ( this.dashSize !== undefined ) data.dashSize = this.dashSize;\n\t\tif ( this.gapSize !== undefined ) data.gapSize = this.gapSize;\n\t\tif ( this.scale !== undefined ) data.scale = this.scale;\n\n\t\tif ( this.dithering === true ) data.dithering = true;\n\n\t\tif ( this.alphaTest > 0 ) data.alphaTest = this.alphaTest;\n\t\tif ( this.alphaHash === true ) data.alphaHash = true;\n\t\tif ( this.alphaToCoverage === true ) data.alphaToCoverage = true;\n\t\tif ( this.premultipliedAlpha === true ) data.premultipliedAlpha = true;\n\t\tif ( this.forceSinglePass === true ) data.forceSinglePass = true;\n\n\t\tif ( this.wireframe === true ) data.wireframe = true;\n\t\tif ( this.wireframeLinewidth > 1 ) data.wireframeLinewidth = this.wireframeLinewidth;\n\t\tif ( this.wireframeLinecap !== 'round' ) data.wireframeLinecap = this.wireframeLinecap;\n\t\tif ( this.wireframeLinejoin !== 'round' ) data.wireframeLinejoin = this.wireframeLinejoin;\n\n\t\tif ( this.flatShading === true ) data.flatShading = true;\n\n\t\tif ( this.visible === false ) data.visible = false;\n\n\t\tif ( this.toneMapped === false ) data.toneMapped = false;\n\n\t\tif ( this.fog === false ) data.fog = false;\n\n\t\tif ( Object.keys( this.userData ).length > 0 ) data.userData = this.userData;\n\n\t\t// TODO: Copied from Object3D.toJSON\n\n\t\tfunction extractFromCache( cache ) {\n\n\t\t\tconst values = [];\n\n\t\t\tfor ( const key in cache ) {\n\n\t\t\t\tconst data = cache[ key ];\n\t\t\t\tdelete data.metadata;\n\t\t\t\tvalues.push( data );\n\n\t\t\t}\n\n\t\t\treturn values;\n\n\t\t}\n\n\t\tif ( isRootObject ) {\n\n\t\t\tconst textures = extractFromCache( meta.textures );\n\t\t\tconst images = extractFromCache( meta.images );\n\n\t\t\tif ( textures.length > 0 ) data.textures = textures;\n\t\t\tif ( images.length > 0 ) data.images = images;\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Returns a new material with copied values from this instance.\n\t *\n\t * @return {Material} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given material to this instance.\n\t *\n\t * @param {Material} source - The material to copy.\n\t * @return {Material} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\n\t\tthis.blending = source.blending;\n\t\tthis.side = source.side;\n\t\tthis.vertexColors = source.vertexColors;\n\n\t\tthis.opacity = source.opacity;\n\t\tthis.transparent = source.transparent;\n\n\t\tthis.blendSrc = source.blendSrc;\n\t\tthis.blendDst = source.blendDst;\n\t\tthis.blendEquation = source.blendEquation;\n\t\tthis.blendSrcAlpha = source.blendSrcAlpha;\n\t\tthis.blendDstAlpha = source.blendDstAlpha;\n\t\tthis.blendEquationAlpha = source.blendEquationAlpha;\n\t\tthis.blendColor.copy( source.blendColor );\n\t\tthis.blendAlpha = source.blendAlpha;\n\n\t\tthis.depthFunc = source.depthFunc;\n\t\tthis.depthTest = source.depthTest;\n\t\tthis.depthWrite = source.depthWrite;\n\n\t\tthis.stencilWriteMask = source.stencilWriteMask;\n\t\tthis.stencilFunc = source.stencilFunc;\n\t\tthis.stencilRef = source.stencilRef;\n\t\tthis.stencilFuncMask = source.stencilFuncMask;\n\t\tthis.stencilFail = source.stencilFail;\n\t\tthis.stencilZFail = source.stencilZFail;\n\t\tthis.stencilZPass = source.stencilZPass;\n\t\tthis.stencilWrite = source.stencilWrite;\n\n\t\tconst srcPlanes = source.clippingPlanes;\n\t\tlet dstPlanes = null;\n\n\t\tif ( srcPlanes !== null ) {\n\n\t\t\tconst n = srcPlanes.length;\n\t\t\tdstPlanes = new Array( n );\n\n\t\t\tfor ( let i = 0; i !== n; ++ i ) {\n\n\t\t\t\tdstPlanes[ i ] = srcPlanes[ i ].clone();\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.clippingPlanes = dstPlanes;\n\t\tthis.clipIntersection = source.clipIntersection;\n\t\tthis.clipShadows = source.clipShadows;\n\n\t\tthis.shadowSide = source.shadowSide;\n\n\t\tthis.colorWrite = source.colorWrite;\n\n\t\tthis.precision = source.precision;\n\n\t\tthis.polygonOffset = source.polygonOffset;\n\t\tthis.polygonOffsetFactor = source.polygonOffsetFactor;\n\t\tthis.polygonOffsetUnits = source.polygonOffsetUnits;\n\n\t\tthis.dithering = source.dithering;\n\n\t\tthis.alphaTest = source.alphaTest;\n\t\tthis.alphaHash = source.alphaHash;\n\t\tthis.alphaToCoverage = source.alphaToCoverage;\n\t\tthis.premultipliedAlpha = source.premultipliedAlpha;\n\t\tthis.forceSinglePass = source.forceSinglePass;\n\n\t\tthis.visible = source.visible;\n\n\t\tthis.toneMapped = source.toneMapped;\n\n\t\tthis.userData = JSON.parse( JSON.stringify( source.userData ) );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires Material#dispose\n\t */\n\tdispose() {\n\n\t\t/**\n\t\t * Fires when the material has been disposed of.\n\t\t *\n\t\t * @event Material#dispose\n\t\t * @type {Object}\n\t\t */\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n\t/**\n\t * Setting this property to `true` indicates the engine the material\n\t * needs to be recompiled.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n}\n\n/**\n * A material for drawing geometries in a simple shaded (flat or wireframe) way.\n *\n * This material is not affected by lights.\n *\n * @augments Material\n */\nclass MeshBasicMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh basic material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshBasicMaterial = true;\n\n\t\tthis.type = 'MeshBasicMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Specular map used by the material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * How to combine the result of the surface's color with the environment map, if any.\n\t\t *\n\t\t * When set to `MixOperation`, the {@link MeshBasicMaterial#reflectivity} is used to\n\t\t * blend between the two colors.\n\t\t *\n\t\t * @type {(MultiplyOperation|MixOperation|AddOperation)}\n\t\t * @default MultiplyOperation\n\t\t */\n\t\tthis.combine = MultiplyOperation;\n\n\t\t/**\n\t\t * How much the environment map affects the surface.\n\t\t * The valid range is between `0` (no reflections) and `1` (full reflections).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.reflectivity = 1;\n\n\t\t/**\n\t\t * The index of refraction (IOR) of air (approximately 1) divided by the\n\t\t * index of refraction of the material. It is used with environment mapping\n\t\t * modes {@link CubeRefractionMapping} and {@link EquirectangularRefractionMapping}.\n\t\t * The refraction ratio should not exceed `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.98\n\t\t */\n\t\tthis.refractionRatio = 0.98;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.specularMap = source.specularMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.combine = source.combine;\n\t\tthis.reflectivity = source.reflectivity;\n\t\tthis.refractionRatio = source.refractionRatio;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n// Fast Half Float Conversions, http://www.fox-toolkit.org/ftp/fasthalffloatconversion.pdf\n\nconst _tables = /*@__PURE__*/ _generateTables();\n\nfunction _generateTables() {\n\n\t// float32 to float16 helpers\n\n\tconst buffer = new ArrayBuffer( 4 );\n\tconst floatView = new Float32Array( buffer );\n\tconst uint32View = new Uint32Array( buffer );\n\n\tconst baseTable = new Uint32Array( 512 );\n\tconst shiftTable = new Uint32Array( 512 );\n\n\tfor ( let i = 0; i < 256; ++ i ) {\n\n\t\tconst e = i - 127;\n\n\t\t// very small number (0, -0)\n\n\t\tif ( e < -27 ) {\n\n\t\t\tbaseTable[ i ] = 0x0000;\n\t\t\tbaseTable[ i | 0x100 ] = 0x8000;\n\t\t\tshiftTable[ i ] = 24;\n\t\t\tshiftTable[ i | 0x100 ] = 24;\n\n\t\t\t// small number (denorm)\n\n\t\t} else if ( e < -14 ) {\n\n\t\t\tbaseTable[ i ] = 0x0400 >> ( - e - 14 );\n\t\t\tbaseTable[ i | 0x100 ] = ( 0x0400 >> ( - e - 14 ) ) | 0x8000;\n\t\t\tshiftTable[ i ] = - e - 1;\n\t\t\tshiftTable[ i | 0x100 ] = - e - 1;\n\n\t\t\t// normal number\n\n\t\t} else if ( e <= 15 ) {\n\n\t\t\tbaseTable[ i ] = ( e + 15 ) << 10;\n\t\t\tbaseTable[ i | 0x100 ] = ( ( e + 15 ) << 10 ) | 0x8000;\n\t\t\tshiftTable[ i ] = 13;\n\t\t\tshiftTable[ i | 0x100 ] = 13;\n\n\t\t\t// large number (Infinity, -Infinity)\n\n\t\t} else if ( e < 128 ) {\n\n\t\t\tbaseTable[ i ] = 0x7c00;\n\t\t\tbaseTable[ i | 0x100 ] = 0xfc00;\n\t\t\tshiftTable[ i ] = 24;\n\t\t\tshiftTable[ i | 0x100 ] = 24;\n\n\t\t\t// stay (NaN, Infinity, -Infinity)\n\n\t\t} else {\n\n\t\t\tbaseTable[ i ] = 0x7c00;\n\t\t\tbaseTable[ i | 0x100 ] = 0xfc00;\n\t\t\tshiftTable[ i ] = 13;\n\t\t\tshiftTable[ i | 0x100 ] = 13;\n\n\t\t}\n\n\t}\n\n\t// float16 to float32 helpers\n\n\tconst mantissaTable = new Uint32Array( 2048 );\n\tconst exponentTable = new Uint32Array( 64 );\n\tconst offsetTable = new Uint32Array( 64 );\n\n\tfor ( let i = 1; i < 1024; ++ i ) {\n\n\t\tlet m = i << 13; // zero pad mantissa bits\n\t\tlet e = 0; // zero exponent\n\n\t\t// normalized\n\t\twhile ( ( m & 0x00800000 ) === 0 ) {\n\n\t\t\tm <<= 1;\n\t\t\te -= 0x00800000; // decrement exponent\n\n\t\t}\n\n\t\tm &= -8388609; // clear leading 1 bit\n\t\te += 0x38800000; // adjust bias\n\n\t\tmantissaTable[ i ] = m | e;\n\n\t}\n\n\tfor ( let i = 1024; i < 2048; ++ i ) {\n\n\t\tmantissaTable[ i ] = 0x38000000 + ( ( i - 1024 ) << 13 );\n\n\t}\n\n\tfor ( let i = 1; i < 31; ++ i ) {\n\n\t\texponentTable[ i ] = i << 23;\n\n\t}\n\n\texponentTable[ 31 ] = 0x47800000;\n\texponentTable[ 32 ] = 0x80000000;\n\n\tfor ( let i = 33; i < 63; ++ i ) {\n\n\t\texponentTable[ i ] = 0x80000000 + ( ( i - 32 ) << 23 );\n\n\t}\n\n\texponentTable[ 63 ] = 0xc7800000;\n\n\tfor ( let i = 1; i < 64; ++ i ) {\n\n\t\tif ( i !== 32 ) {\n\n\t\t\toffsetTable[ i ] = 1024;\n\n\t\t}\n\n\t}\n\n\treturn {\n\t\tfloatView: floatView,\n\t\tuint32View: uint32View,\n\t\tbaseTable: baseTable,\n\t\tshiftTable: shiftTable,\n\t\tmantissaTable: mantissaTable,\n\t\texponentTable: exponentTable,\n\t\toffsetTable: offsetTable\n\t};\n\n}\n\n/**\n * Returns a half precision floating point value (FP16) from the given single\n * precision floating point value (FP32).\n *\n * @param {number} val - A single precision floating point value.\n * @return {number} The FP16 value.\n */\nfunction toHalfFloat( val ) {\n\n\tif ( Math.abs( val ) > 65504 ) console.warn( 'THREE.DataUtils.toHalfFloat(): Value out of range.' );\n\n\tval = clamp( val, -65504, 65504 );\n\n\t_tables.floatView[ 0 ] = val;\n\tconst f = _tables.uint32View[ 0 ];\n\tconst e = ( f >> 23 ) & 0x1ff;\n\treturn _tables.baseTable[ e ] + ( ( f & 0x007fffff ) >> _tables.shiftTable[ e ] );\n\n}\n\n/**\n * Returns a single precision floating point value (FP32) from the given half\n * precision floating point value (FP16).\n *\n * @param {number} val - A half precision floating point value.\n * @return {number} The FP32 value.\n */\nfunction fromHalfFloat( val ) {\n\n\tconst m = val >> 10;\n\t_tables.uint32View[ 0 ] = _tables.mantissaTable[ _tables.offsetTable[ m ] + ( val & 0x3ff ) ] + _tables.exponentTable[ m ];\n\treturn _tables.floatView[ 0 ];\n\n}\n\n/**\n * A class containing utility functions for data.\n *\n * @hideconstructor\n */\nclass DataUtils {\n\n\t/**\n\t * Returns a half precision floating point value (FP16) from the given single\n\t * precision floating point value (FP32).\n\t *\n\t * @param {number} val - A single precision floating point value.\n\t * @return {number} The FP16 value.\n\t */\n\tstatic toHalfFloat( val ) {\n\n\t\treturn toHalfFloat( val );\n\n\t}\n\n\t/**\n\t * Returns a single precision floating point value (FP32) from the given half\n\t * precision floating point value (FP16).\n\t *\n\t * @param {number} val - A half precision floating point value.\n\t * @return {number} The FP32 value.\n\t */\n\tstatic fromHalfFloat( val ) {\n\n\t\treturn fromHalfFloat( val );\n\n\t}\n\n}\n\nconst _vector$9 = /*@__PURE__*/ new Vector3();\nconst _vector2$1 = /*@__PURE__*/ new Vector2();\n\nlet _id$2 = 0;\n\n/**\n * This class stores data for an attribute (such as vertex positions, face\n * indices, normals, colors, UVs, and any custom attributes ) associated with\n * a geometry, which allows for more efficient passing of data to the GPU.\n *\n * When working with vector-like data, the `fromBufferAttribute( attribute, index )`\n * helper methods on vector and color class might be helpful. E.g. {@link Vector3#fromBufferAttribute}.\n */\nclass BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {TypedArray} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized = false ) {\n\n\t\tif ( Array.isArray( array ) ) {\n\n\t\t\tthrow new TypeError( 'THREE.BufferAttribute: array should be a Typed Array.' );\n\n\t\t}\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBufferAttribute = true;\n\n\t\t/**\n\t\t * The ID of the buffer attribute.\n\t\t *\n\t\t * @name BufferAttribute#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _id$2 ++ } );\n\n\t\t/**\n\t\t * The name of the buffer attribute.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The array holding the attribute data. It should have `itemSize * numVertices`\n\t\t * elements, where `numVertices` is the number of vertices in the associated geometry.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.array = array;\n\n\t\t/**\n\t\t * The number of values of the array that should be associated with a particular vertex.\n\t\t * For instance, if this attribute is storing a 3-component vector (such as a position,\n\t\t * normal, or color), then the value should be `3`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.itemSize = itemSize;\n\n\t\t/**\n\t\t * Represents the number of items this buffer attribute stores. It is internally computed\n\t\t * by dividing the `array` length by the `itemSize`.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tthis.count = array !== undefined ? array.length / itemSize : 0;\n\n\t\t/**\n\t\t * Applies to integer data only. Indicates how the underlying data in the buffer maps to\n\t\t * the values in the GLSL code. For instance, if `array` is an instance of `UInt16Array`,\n\t\t * and `normalized` is `true`, the values `0 - +65535` in the array data will be mapped to\n\t\t * `0.0f - +1.0f` in the GLSL attribute. If `normalized` is `false`, the values will be converted\n\t\t * to floats unmodified, i.e. `65535` becomes `65535.0f`.\n\t\t *\n\t\t * @type {boolean}\n\t\t */\n\t\tthis.normalized = normalized;\n\n\t\t/**\n\t\t * Defines the intended usage pattern of the data store for optimization purposes.\n\t\t *\n\t\t * Note: After the initial use of a buffer, its usage cannot be changed. Instead,\n\t\t * instantiate a new one and set the desired usage before the next render.\n\t\t *\n\t\t * @type {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)}\n\t\t * @default StaticDrawUsage\n\t\t */\n\t\tthis.usage = StaticDrawUsage;\n\n\t\t/**\n\t\t * This can be used to only update some components of stored vectors (for example, just the\n\t\t * component related to color). Use the `addUpdateRange()` function to add ranges to this array.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.updateRanges = [];\n\n\t\t/**\n\t\t * Configures the bound GPU type for use in shaders.\n\t\t *\n\t\t * Note: this only has an effect for integer arrays and is not configurable for float arrays.\n\t\t * For lower precision float types, use `Float16BufferAttribute`.\n\t\t *\n\t\t * @type {(FloatType|IntType)}\n\t\t * @default FloatType\n\t\t */\n\t\tthis.gpuType = FloatType;\n\n\t\t/**\n\t\t * A version number, incremented every time the `needsUpdate` is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.version = 0;\n\n\t}\n\n\t/**\n\t * A callback function that is executed after the renderer has transferred the attribute\n\t * array data to the GPU.\n\t */\n\tonUploadCallback() {}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Sets the usage of this buffer attribute.\n\t *\n\t * @param {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)} value - The usage to set.\n\t * @return {BufferAttribute} A reference to this buffer attribute.\n\t */\n\tsetUsage( value ) {\n\n\t\tthis.usage = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds a range of data in the data array to be updated on the GPU.\n\t *\n\t * @param {number} start - Position at which to start update.\n\t * @param {number} count - The number of components to update.\n\t */\n\taddUpdateRange( start, count ) {\n\n\t\tthis.updateRanges.push( { start, count } );\n\n\t}\n\n\t/**\n\t * Clears the update ranges.\n\t */\n\tclearUpdateRanges() {\n\n\t\tthis.updateRanges.length = 0;\n\n\t}\n\n\t/**\n\t * Copies the values of the given buffer attribute to this instance.\n\t *\n\t * @param {BufferAttribute} source - The buffer attribute to copy.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\t\tthis.array = new source.array.constructor( source.array );\n\t\tthis.itemSize = source.itemSize;\n\t\tthis.count = source.count;\n\t\tthis.normalized = source.normalized;\n\n\t\tthis.usage = source.usage;\n\t\tthis.gpuType = source.gpuType;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies a vector from the given buffer attribute to this one. The start\n\t * and destination position in the attribute buffers are represented by the\n\t * given indices.\n\t *\n\t * @param {number} index1 - The destination index into this buffer attribute.\n\t * @param {BufferAttribute} attribute - The buffer attribute to copy from.\n\t * @param {number} index2 - The source index into the given buffer attribute.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tcopyAt( index1, attribute, index2 ) {\n\n\t\tindex1 *= this.itemSize;\n\t\tindex2 *= attribute.itemSize;\n\n\t\tfor ( let i = 0, l = this.itemSize; i < l; i ++ ) {\n\n\t\t\tthis.array[ index1 + i ] = attribute.array[ index2 + i ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the given array data into this buffer attribute.\n\t *\n\t * @param {(TypedArray|Array)} array - The array to copy.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tcopyArray( array ) {\n\n\t\tthis.array.set( array );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 3x3 matrix to the given attribute. Works with\n\t * item size `2` and `3`.\n\t *\n\t * @param {Matrix3} m - The matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tapplyMatrix3( m ) {\n\n\t\tif ( this.itemSize === 2 ) {\n\n\t\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t\t_vector2$1.fromBufferAttribute( this, i );\n\t\t\t\t_vector2$1.applyMatrix3( m );\n\n\t\t\t\tthis.setXY( i, _vector2$1.x, _vector2$1.y );\n\n\t\t\t}\n\n\t\t} else if ( this.itemSize === 3 ) {\n\n\t\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t\t_vector$9.fromBufferAttribute( this, i );\n\t\t\t\t_vector$9.applyMatrix3( m );\n\n\t\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$9.fromBufferAttribute( this, i );\n\n\t\t\t_vector$9.applyMatrix4( m );\n\n\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 3x3 normal matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix3} m - The normal matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tapplyNormalMatrix( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$9.fromBufferAttribute( this, i );\n\n\t\t\t_vector$9.applyNormalMatrix( m );\n\n\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3` and with direction vectors.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\ttransformDirection( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$9.fromBufferAttribute( this, i );\n\n\t\t\t_vector$9.transformDirection( m );\n\n\t\t\tthis.setXYZ( i, _vector$9.x, _vector$9.y, _vector$9.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given array data in the buffer attribute.\n\t *\n\t * @param {(TypedArray|Array)} value - The array data to set.\n\t * @param {number} [offset=0] - The offset in this buffer attribute's array.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tset( value, offset = 0 ) {\n\n\t\t// Matching BufferAttribute constructor, do not normalize the array.\n\t\tthis.array.set( value, offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @return {number} The returned value.\n\t */\n\tgetComponent( index, component ) {\n\n\t\tlet value = this.array[ index * this.itemSize + component ];\n\n\t\tif ( this.normalized ) value = denormalize( value, this.array );\n\n\t\treturn value;\n\n\t}\n\n\t/**\n\t * Sets the given value to the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @param {number} value - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetComponent( index, component, value ) {\n\n\t\tif ( this.normalized ) value = normalize( value, this.array );\n\n\t\tthis.array[ index * this.itemSize + component ] = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The x component.\n\t */\n\tgetX( index ) {\n\n\t\tlet x = this.array[ index * this.itemSize ];\n\n\t\tif ( this.normalized ) x = denormalize( x, this.array );\n\n\t\treturn x;\n\n\t}\n\n\t/**\n\t * Sets the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetX( index, x ) {\n\n\t\tif ( this.normalized ) x = normalize( x, this.array );\n\n\t\tthis.array[ index * this.itemSize ] = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The y component.\n\t */\n\tgetY( index ) {\n\n\t\tlet y = this.array[ index * this.itemSize + 1 ];\n\n\t\tif ( this.normalized ) y = denormalize( y, this.array );\n\n\t\treturn y;\n\n\t}\n\n\t/**\n\t * Sets the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} y - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetY( index, y ) {\n\n\t\tif ( this.normalized ) y = normalize( y, this.array );\n\n\t\tthis.array[ index * this.itemSize + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The z component.\n\t */\n\tgetZ( index ) {\n\n\t\tlet z = this.array[ index * this.itemSize + 2 ];\n\n\t\tif ( this.normalized ) z = denormalize( z, this.array );\n\n\t\treturn z;\n\n\t}\n\n\t/**\n\t * Sets the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} z - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetZ( index, z ) {\n\n\t\tif ( this.normalized ) z = normalize( z, this.array );\n\n\t\tthis.array[ index * this.itemSize + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The w component.\n\t */\n\tgetW( index ) {\n\n\t\tlet w = this.array[ index * this.itemSize + 3 ];\n\n\t\tif ( this.normalized ) w = denormalize( w, this.array );\n\n\t\treturn w;\n\n\t}\n\n\t/**\n\t * Sets the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} w - The value to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetW( index, w ) {\n\n\t\tif ( this.normalized ) w = normalize( w, this.array );\n\n\t\tthis.array[ index * this.itemSize + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x and y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetXY( index, x, y ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = x;\n\t\tthis.array[ index + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y and z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetXYZ( index, x, y, z ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = x;\n\t\tthis.array[ index + 1 ] = y;\n\t\tthis.array[ index + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y, z and w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @param {number} w - The value for the w component to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetXYZW( index, x, y, z, w ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\t\t\tw = normalize( w, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = x;\n\t\tthis.array[ index + 1 ] = y;\n\t\tthis.array[ index + 2 ] = z;\n\t\tthis.array[ index + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given callback function that is executed after the Renderer has transferred\n\t * the attribute array data to the GPU. Can be used to perform clean-up operations after\n\t * the upload when attribute data are not needed anymore on the CPU side.\n\t *\n\t * @param {Function} callback - The `onUpload()` callback.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tonUpload( callback ) {\n\n\t\tthis.onUploadCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new buffer attribute with copied values from this instance.\n\t *\n\t * @return {BufferAttribute} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor( this.array, this.itemSize ).copy( this );\n\n\t}\n\n\t/**\n\t * Serializes the buffer attribute into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized buffer attribute.\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\titemSize: this.itemSize,\n\t\t\ttype: this.array.constructor.name,\n\t\t\tarray: Array.from( this.array ),\n\t\t\tnormalized: this.normalized\n\t\t};\n\n\t\tif ( this.name !== '' ) data.name = this.name;\n\t\tif ( this.usage !== StaticDrawUsage ) data.usage = this.usage;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Int8` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Int8BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Int8Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Int8Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt8` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint8BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint8Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint8Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt8Clamped` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint8ClampedBufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint8ClampedArray)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint8ClampedArray( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Int16` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Int16BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Int16Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Int16Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt16` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint16BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint16Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint16Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Int32` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Int32BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Int32Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Int32Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `UInt32` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Uint32BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint32Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint32Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Float16` buffer attribute with\n * a plain `Array` instance.\n *\n * This class automatically converts to and from FP16 via `Uint16Array` since `Float16Array`\n * browser support is still problematic.\n *\n * @augments BufferAttribute\n */\nclass Float16BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Uint16Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Uint16Array( array ), itemSize, normalized );\n\n\t\tthis.isFloat16BufferAttribute = true;\n\n\t}\n\n\tgetX( index ) {\n\n\t\tlet x = fromHalfFloat( this.array[ index * this.itemSize ] );\n\n\t\tif ( this.normalized ) x = denormalize( x, this.array );\n\n\t\treturn x;\n\n\t}\n\n\tsetX( index, x ) {\n\n\t\tif ( this.normalized ) x = normalize( x, this.array );\n\n\t\tthis.array[ index * this.itemSize ] = toHalfFloat( x );\n\n\t\treturn this;\n\n\t}\n\n\tgetY( index ) {\n\n\t\tlet y = fromHalfFloat( this.array[ index * this.itemSize + 1 ] );\n\n\t\tif ( this.normalized ) y = denormalize( y, this.array );\n\n\t\treturn y;\n\n\t}\n\n\tsetY( index, y ) {\n\n\t\tif ( this.normalized ) y = normalize( y, this.array );\n\n\t\tthis.array[ index * this.itemSize + 1 ] = toHalfFloat( y );\n\n\t\treturn this;\n\n\t}\n\n\tgetZ( index ) {\n\n\t\tlet z = fromHalfFloat( this.array[ index * this.itemSize + 2 ] );\n\n\t\tif ( this.normalized ) z = denormalize( z, this.array );\n\n\t\treturn z;\n\n\t}\n\n\tsetZ( index, z ) {\n\n\t\tif ( this.normalized ) z = normalize( z, this.array );\n\n\t\tthis.array[ index * this.itemSize + 2 ] = toHalfFloat( z );\n\n\t\treturn this;\n\n\t}\n\n\tgetW( index ) {\n\n\t\tlet w = fromHalfFloat( this.array[ index * this.itemSize + 3 ] );\n\n\t\tif ( this.normalized ) w = denormalize( w, this.array );\n\n\t\treturn w;\n\n\t}\n\n\tsetW( index, w ) {\n\n\t\tif ( this.normalized ) w = normalize( w, this.array );\n\n\t\tthis.array[ index * this.itemSize + 3 ] = toHalfFloat( w );\n\n\t\treturn this;\n\n\t}\n\n\tsetXY( index, x, y ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = toHalfFloat( x );\n\t\tthis.array[ index + 1 ] = toHalfFloat( y );\n\n\t\treturn this;\n\n\t}\n\n\tsetXYZ( index, x, y, z ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = toHalfFloat( x );\n\t\tthis.array[ index + 1 ] = toHalfFloat( y );\n\t\tthis.array[ index + 2 ] = toHalfFloat( z );\n\n\t\treturn this;\n\n\t}\n\n\tsetXYZW( index, x, y, z, w ) {\n\n\t\tindex *= this.itemSize;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\t\t\tw = normalize( w, this.array );\n\n\t\t}\n\n\t\tthis.array[ index + 0 ] = toHalfFloat( x );\n\t\tthis.array[ index + 1 ] = toHalfFloat( y );\n\t\tthis.array[ index + 2 ] = toHalfFloat( z );\n\t\tthis.array[ index + 3 ] = toHalfFloat( w );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Convenient class that can be used when creating a `Float32` buffer attribute with\n * a plain `Array` instance.\n *\n * @augments BufferAttribute\n */\nclass Float32BufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new buffer attribute.\n\t *\n\t * @param {(Array|Float32Array)} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( array, itemSize, normalized ) {\n\n\t\tsuper( new Float32Array( array ), itemSize, normalized );\n\n\t}\n\n}\n\nlet _id$1 = 0;\n\nconst _m1 = /*@__PURE__*/ new Matrix4();\nconst _obj = /*@__PURE__*/ new Object3D();\nconst _offset = /*@__PURE__*/ new Vector3();\nconst _box$2 = /*@__PURE__*/ new Box3();\nconst _boxMorphTargets = /*@__PURE__*/ new Box3();\nconst _vector$8 = /*@__PURE__*/ new Vector3();\n\n/**\n * A representation of mesh, line, or point geometry. Includes vertex\n * positions, face indices, normals, colors, UVs, and custom attributes\n * within buffers, reducing the cost of passing all this data to the GPU.\n *\n * ```js\n * const geometry = new THREE.BufferGeometry();\n * // create a simple square shape. We duplicate the top left and bottom right\n * // vertices because each vertex needs to appear once per triangle.\n * const vertices = new Float32Array( [\n * \t-1.0, -1.0, 1.0, // v0\n * \t 1.0, -1.0, 1.0, // v1\n * \t 1.0, 1.0, 1.0, // v2\n *\n * \t 1.0, 1.0, 1.0, // v3\n * \t-1.0, 1.0, 1.0, // v4\n * \t-1.0, -1.0, 1.0 // v5\n * ] );\n * // itemSize = 3 because there are 3 values (components) per vertex\n * geometry.setAttribute( 'position', new THREE.BufferAttribute( vertices, 3 ) );\n * const material = new THREE.MeshBasicMaterial( { color: 0xff0000 } );\n * const mesh = new THREE.Mesh( geometry, material );\n * ```\n *\n * @augments EventDispatcher\n */\nclass BufferGeometry extends EventDispatcher {\n\n\t/**\n\t * Constructs a new geometry.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBufferGeometry = true;\n\n\t\t/**\n\t\t * The ID of the geometry.\n\t\t *\n\t\t * @name BufferGeometry#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _id$1 ++ } );\n\n\t\t/**\n\t\t * The UUID of the geometry.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * The name of the geometry.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\t\tthis.type = 'BufferGeometry';\n\n\t\t/**\n\t\t * Allows for vertices to be re-used across multiple triangles; this is\n\t\t * called using \"indexed triangles\". Each triangle is associated with the\n\t\t * indices of three vertices. This attribute therefore stores the index of\n\t\t * each vertex for each triangular face. If this attribute is not set, the\n\t\t * renderer assumes that each three contiguous positions represent a single triangle.\n\t\t *\n\t\t * @type {?BufferAttribute}\n\t\t * @default null\n\t\t */\n\t\tthis.index = null;\n\n\t\t/**\n\t\t * A (storage) buffer attribute which was generated with a compute shader and\n\t\t * now defines indirect draw calls.\n\t\t *\n\t\t * Can only be used with {@link WebGPURenderer} and a WebGPU backend.\n\t\t *\n\t\t * @type {?BufferAttribute}\n\t\t * @default null\n\t\t */\n\t\tthis.indirect = null;\n\n\t\t/**\n\t\t * This dictionary has as id the name of the attribute to be set and as value\n\t\t * the buffer attribute to set it to. Rather than accessing this property directly,\n\t\t * use `setAttribute()` and `getAttribute()` to access attributes of this geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.attributes = {};\n\n\t\t/**\n\t\t * This dictionary holds the morph targets of the geometry.\n\t\t *\n\t\t * Note: Once the geometry has been rendered, the morph attribute data cannot\n\t\t * be changed. You will have to call `dispose()?, and create a new geometry instance.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.morphAttributes = {};\n\n\t\t/**\n\t\t * Used to control the morph target behavior; when set to `true`, the morph\n\t\t * target data is treated as relative offsets, rather than as absolute\n\t\t * positions/normals.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.morphTargetsRelative = false;\n\n\t\t/**\n\t\t * Split the geometry into groups, each of which will be rendered in a\n\t\t * separate draw call. This allows an array of materials to be used with the geometry.\n\t\t *\n\t\t * Use `addGroup()` and `clearGroups()` to edit groups, rather than modifying this array directly.\n\t\t *\n\t\t * Every vertex and index must belong to exactly one group — groups must not share vertices or\n\t\t * indices, and must not leave vertices or indices unused.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.groups = [];\n\n\t\t/**\n\t\t * Bounding box for the geometry which can be calculated with `computeBoundingBox()`.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * Bounding sphere for the geometry which can be calculated with `computeBoundingSphere()`.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t\t/**\n\t\t * Determines the part of the geometry to render. This should not be set directly,\n\t\t * instead use `setDrawRange()`.\n\t\t *\n\t\t * @type {{start:number,count:number}}\n\t\t */\n\t\tthis.drawRange = { start: 0, count: Infinity };\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the geometry.\n\t\t * It should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t}\n\n\t/**\n\t * Returns the index of this geometry.\n\t *\n\t * @return {?BufferAttribute} The index. Returns `null` if no index is defined.\n\t */\n\tgetIndex() {\n\n\t\treturn this.index;\n\n\t}\n\n\t/**\n\t * Sets the given index to this geometry.\n\t *\n\t * @param {Array|BufferAttribute} index - The index to set.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetIndex( index ) {\n\n\t\tif ( Array.isArray( index ) ) {\n\n\t\t\tthis.index = new ( arrayNeedsUint32( index ) ? Uint32BufferAttribute : Uint16BufferAttribute )( index, 1 );\n\n\t\t} else {\n\n\t\t\tthis.index = index;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given indirect attribute to this geometry.\n\t *\n\t * @param {BufferAttribute} indirect - The attribute holding indirect draw calls.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetIndirect( indirect ) {\n\n\t\tthis.indirect = indirect;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the indirect attribute of this geometry.\n\t *\n\t * @return {?BufferAttribute} The indirect attribute. Returns `null` if no indirect attribute is defined.\n\t */\n\tgetIndirect() {\n\n\t\treturn this.indirect;\n\n\t}\n\n\t/**\n\t * Returns the buffer attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name.\n\t * @return {BufferAttribute|InterleavedBufferAttribute|undefined} The buffer attribute.\n\t * Returns `undefined` if not attribute has been found.\n\t */\n\tgetAttribute( name ) {\n\n\t\treturn this.attributes[ name ];\n\n\t}\n\n\t/**\n\t * Sets the given attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name.\n\t * @param {BufferAttribute|InterleavedBufferAttribute} attribute - The attribute to set.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetAttribute( name, attribute ) {\n\n\t\tthis.attributes[ name ] = attribute;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Deletes the attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name to delete.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tdeleteAttribute( name ) {\n\n\t\tdelete this.attributes[ name ];\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this geometry has an attribute for the given name.\n\t *\n\t * @param {string} name - The attribute name.\n\t * @return {boolean} Whether this geometry has an attribute for the given name or not.\n\t */\n\thasAttribute( name ) {\n\n\t\treturn this.attributes[ name ] !== undefined;\n\n\t}\n\n\t/**\n\t * Adds a group to this geometry.\n\t *\n\t * @param {number} start - The first element in this draw call. That is the first\n\t * vertex for non-indexed geometry, otherwise the first triangle index.\n\t * @param {number} count - Specifies how many vertices (or indices) are part of this group.\n\t * @param {number} [materialIndex=0] - The material array index to use.\n\t */\n\taddGroup( start, count, materialIndex = 0 ) {\n\n\t\tthis.groups.push( {\n\n\t\t\tstart: start,\n\t\t\tcount: count,\n\t\t\tmaterialIndex: materialIndex\n\n\t\t} );\n\n\t}\n\n\t/**\n\t * Clears all groups.\n\t */\n\tclearGroups() {\n\n\t\tthis.groups = [];\n\n\t}\n\n\t/**\n\t * Sets the draw range for this geometry.\n\t *\n\t * @param {number} start - The first vertex for non-indexed geometry, otherwise the first triangle index.\n\t * @param {number} count - For non-indexed BufferGeometry, `count` is the number of vertices to render.\n\t * For indexed BufferGeometry, `count` is the number of indices to render.\n\t */\n\tsetDrawRange( start, count ) {\n\n\t\tthis.drawRange.start = start;\n\t\tthis.drawRange.count = count;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 transformation matrix to the geometry.\n\t *\n\t * @param {Matrix4} matrix - The matrix to apply.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tconst position = this.attributes.position;\n\n\t\tif ( position !== undefined ) {\n\n\t\t\tposition.applyMatrix4( matrix );\n\n\t\t\tposition.needsUpdate = true;\n\n\t\t}\n\n\t\tconst normal = this.attributes.normal;\n\n\t\tif ( normal !== undefined ) {\n\n\t\t\tconst normalMatrix = new Matrix3().getNormalMatrix( matrix );\n\n\t\t\tnormal.applyNormalMatrix( normalMatrix );\n\n\t\t\tnormal.needsUpdate = true;\n\n\t\t}\n\n\t\tconst tangent = this.attributes.tangent;\n\n\t\tif ( tangent !== undefined ) {\n\n\t\t\ttangent.transformDirection( matrix );\n\n\t\t\ttangent.needsUpdate = true;\n\n\t\t}\n\n\t\tif ( this.boundingBox !== null ) {\n\n\t\t\tthis.computeBoundingBox();\n\n\t\t}\n\n\t\tif ( this.boundingSphere !== null ) {\n\n\t\t\tthis.computeBoundingSphere();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the rotation represented by the Quaternion to the geometry.\n\t *\n\t * @param {Quaternion} q - The Quaternion to apply.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tapplyQuaternion( q ) {\n\n\t\t_m1.makeRotationFromQuaternion( q );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry about the X axis. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#rotation} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\trotateX( angle ) {\n\n\t\t// rotate geometry around world x-axis\n\n\t\t_m1.makeRotationX( angle );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry about the Y axis. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#rotation} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\trotateY( angle ) {\n\n\t\t// rotate geometry around world y-axis\n\n\t\t_m1.makeRotationY( angle );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry about the Z axis. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#rotation} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} angle - The angle in radians.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\trotateZ( angle ) {\n\n\t\t// rotate geometry around world z-axis\n\n\t\t_m1.makeRotationZ( angle );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates the geometry. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#position} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} x - The x offset.\n\t * @param {number} y - The y offset.\n\t * @param {number} z - The z offset.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\ttranslate( x, y, z ) {\n\n\t\t// translate geometry\n\n\t\t_m1.makeTranslation( x, y, z );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scales the geometry. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#scale} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {number} x - The x scale.\n\t * @param {number} y - The y scale.\n\t * @param {number} z - The z scale.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tscale( x, y, z ) {\n\n\t\t// scale geometry\n\n\t\t_m1.makeScale( x, y, z );\n\n\t\tthis.applyMatrix4( _m1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Rotates the geometry to face a point in 3D space. This is typically done as a one time\n\t * operation, and not during a loop. Use {@link Object3D#lookAt} for typical\n\t * real-time mesh rotation.\n\t *\n\t * @param {Vector3} vector - The target point.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tlookAt( vector ) {\n\n\t\t_obj.lookAt( vector );\n\n\t\t_obj.updateMatrix();\n\n\t\tthis.applyMatrix4( _obj.matrix );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Center the geometry based on its bounding box.\n\t *\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tcenter() {\n\n\t\tthis.computeBoundingBox();\n\n\t\tthis.boundingBox.getCenter( _offset ).negate();\n\n\t\tthis.translate( _offset.x, _offset.y, _offset.z );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Defines a geometry by creating a `position` attribute based on the given array of points. The array\n\t * can hold 2D or 3D vectors. When using two-dimensional data, the `z` coordinate for all vertices is\n\t * set to `0`.\n\t *\n\t * If the method is used with an existing `position` attribute, the vertex data are overwritten with the\n\t * data from the array. The length of the array must match the vertex count.\n\t *\n\t * @param {Array|Array} points - The points.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tconst positionAttribute = this.getAttribute( 'position' );\n\n\t\tif ( positionAttribute === undefined ) {\n\n\t\t\tconst position = [];\n\n\t\t\tfor ( let i = 0, l = points.length; i < l; i ++ ) {\n\n\t\t\t\tconst point = points[ i ];\n\t\t\t\tposition.push( point.x, point.y, point.z || 0 );\n\n\t\t\t}\n\n\t\t\tthis.setAttribute( 'position', new Float32BufferAttribute( position, 3 ) );\n\n\t\t} else {\n\n\t\t\tconst l = Math.min( points.length, positionAttribute.count ); // make sure data do not exceed buffer size\n\n\t\t\tfor ( let i = 0; i < l; i ++ ) {\n\n\t\t\t\tconst point = points[ i ];\n\t\t\t\tpositionAttribute.setXYZ( i, point.x, point.y, point.z || 0 );\n\n\t\t\t}\n\n\t\t\tif ( points.length > positionAttribute.count ) {\n\n\t\t\t\tconsole.warn( 'THREE.BufferGeometry: Buffer size too small for points data. Use .dispose() and create a new geometry.' );\n\n\t\t\t}\n\n\t\t\tpositionAttribute.needsUpdate = true;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the bounding box of the geometry, and updates the `boundingBox` member.\n\t * The bounding box is not computed by the engine; it must be computed by your app.\n\t * You may need to recompute the bounding box if the geometry vertices are modified.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tconst position = this.attributes.position;\n\t\tconst morphAttributesPosition = this.morphAttributes.position;\n\n\t\tif ( position && position.isGLBufferAttribute ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingBox(): GLBufferAttribute requires a manual bounding box.', this );\n\n\t\t\tthis.boundingBox.set(\n\t\t\t\tnew Vector3( - Infinity, - Infinity, - Infinity ),\n\t\t\t\tnew Vector3( + Infinity, + Infinity, + Infinity )\n\t\t\t);\n\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( position !== undefined ) {\n\n\t\t\tthis.boundingBox.setFromBufferAttribute( position );\n\n\t\t\t// process morph attributes if present\n\n\t\t\tif ( morphAttributesPosition ) {\n\n\t\t\t\tfor ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst morphAttribute = morphAttributesPosition[ i ];\n\t\t\t\t\t_box$2.setFromBufferAttribute( morphAttribute );\n\n\t\t\t\t\tif ( this.morphTargetsRelative ) {\n\n\t\t\t\t\t\t_vector$8.addVectors( this.boundingBox.min, _box$2.min );\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _vector$8 );\n\n\t\t\t\t\t\t_vector$8.addVectors( this.boundingBox.max, _box$2.max );\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _vector$8 );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _box$2.min );\n\t\t\t\t\t\tthis.boundingBox.expandByPoint( _box$2.max );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tthis.boundingBox.makeEmpty();\n\n\t\t}\n\n\t\tif ( isNaN( this.boundingBox.min.x ) || isNaN( this.boundingBox.min.y ) || isNaN( this.boundingBox.min.z ) ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingBox(): Computed min/max have NaN values. The \"position\" attribute is likely to have NaN values.', this );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere of the geometry, and updates the `boundingSphere` member.\n\t * The engine automatically computes the bounding sphere when it is needed, e.g., for ray casting or view frustum culling.\n\t * You may need to recompute the bounding sphere if the geometry vertices are modified.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tconst position = this.attributes.position;\n\t\tconst morphAttributesPosition = this.morphAttributes.position;\n\n\t\tif ( position && position.isGLBufferAttribute ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingSphere(): GLBufferAttribute requires a manual bounding sphere.', this );\n\n\t\t\tthis.boundingSphere.set( new Vector3(), Infinity );\n\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( position ) {\n\n\t\t\t// first, find the center of the bounding sphere\n\n\t\t\tconst center = this.boundingSphere.center;\n\n\t\t\t_box$2.setFromBufferAttribute( position );\n\n\t\t\t// process morph attributes if present\n\n\t\t\tif ( morphAttributesPosition ) {\n\n\t\t\t\tfor ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst morphAttribute = morphAttributesPosition[ i ];\n\t\t\t\t\t_boxMorphTargets.setFromBufferAttribute( morphAttribute );\n\n\t\t\t\t\tif ( this.morphTargetsRelative ) {\n\n\t\t\t\t\t\t_vector$8.addVectors( _box$2.min, _boxMorphTargets.min );\n\t\t\t\t\t\t_box$2.expandByPoint( _vector$8 );\n\n\t\t\t\t\t\t_vector$8.addVectors( _box$2.max, _boxMorphTargets.max );\n\t\t\t\t\t\t_box$2.expandByPoint( _vector$8 );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t_box$2.expandByPoint( _boxMorphTargets.min );\n\t\t\t\t\t\t_box$2.expandByPoint( _boxMorphTargets.max );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t_box$2.getCenter( center );\n\n\t\t\t// second, try to find a boundingSphere with a radius smaller than the\n\t\t\t// boundingSphere of the boundingBox: sqrt(3) smaller in the best case\n\n\t\t\tlet maxRadiusSq = 0;\n\n\t\t\tfor ( let i = 0, il = position.count; i < il; i ++ ) {\n\n\t\t\t\t_vector$8.fromBufferAttribute( position, i );\n\n\t\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( _vector$8 ) );\n\n\t\t\t}\n\n\t\t\t// process morph attributes if present\n\n\t\t\tif ( morphAttributesPosition ) {\n\n\t\t\t\tfor ( let i = 0, il = morphAttributesPosition.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst morphAttribute = morphAttributesPosition[ i ];\n\t\t\t\t\tconst morphTargetsRelative = this.morphTargetsRelative;\n\n\t\t\t\t\tfor ( let j = 0, jl = morphAttribute.count; j < jl; j ++ ) {\n\n\t\t\t\t\t\t_vector$8.fromBufferAttribute( morphAttribute, j );\n\n\t\t\t\t\t\tif ( morphTargetsRelative ) {\n\n\t\t\t\t\t\t\t_offset.fromBufferAttribute( position, j );\n\t\t\t\t\t\t\t_vector$8.add( _offset );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, center.distanceToSquared( _vector$8 ) );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.boundingSphere.radius = Math.sqrt( maxRadiusSq );\n\n\t\t\tif ( isNaN( this.boundingSphere.radius ) ) {\n\n\t\t\t\tconsole.error( 'THREE.BufferGeometry.computeBoundingSphere(): Computed radius is NaN. The \"position\" attribute is likely to have NaN values.', this );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Calculates and adds a tangent attribute to this geometry.\n\t *\n\t * The computation is only supported for indexed geometries and if position, normal, and uv attributes\n\t * are defined. When using a tangent space normal map, prefer the MikkTSpace algorithm provided by\n\t * {@link BufferGeometryUtils#computeMikkTSpaceTangents} instead.\n\t */\n\tcomputeTangents() {\n\n\t\tconst index = this.index;\n\t\tconst attributes = this.attributes;\n\n\t\t// based on http://www.terathon.com/code/tangent.html\n\t\t// (per vertex tangents)\n\n\t\tif ( index === null ||\n\t\t\t attributes.position === undefined ||\n\t\t\t attributes.normal === undefined ||\n\t\t\t attributes.uv === undefined ) {\n\n\t\t\tconsole.error( 'THREE.BufferGeometry: .computeTangents() failed. Missing required attributes (index, position, normal or uv)' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tconst positionAttribute = attributes.position;\n\t\tconst normalAttribute = attributes.normal;\n\t\tconst uvAttribute = attributes.uv;\n\n\t\tif ( this.hasAttribute( 'tangent' ) === false ) {\n\n\t\t\tthis.setAttribute( 'tangent', new BufferAttribute( new Float32Array( 4 * positionAttribute.count ), 4 ) );\n\n\t\t}\n\n\t\tconst tangentAttribute = this.getAttribute( 'tangent' );\n\n\t\tconst tan1 = [], tan2 = [];\n\n\t\tfor ( let i = 0; i < positionAttribute.count; i ++ ) {\n\n\t\t\ttan1[ i ] = new Vector3();\n\t\t\ttan2[ i ] = new Vector3();\n\n\t\t}\n\n\t\tconst vA = new Vector3(),\n\t\t\tvB = new Vector3(),\n\t\t\tvC = new Vector3(),\n\n\t\t\tuvA = new Vector2(),\n\t\t\tuvB = new Vector2(),\n\t\t\tuvC = new Vector2(),\n\n\t\t\tsdir = new Vector3(),\n\t\t\ttdir = new Vector3();\n\n\t\tfunction handleTriangle( a, b, c ) {\n\n\t\t\tvA.fromBufferAttribute( positionAttribute, a );\n\t\t\tvB.fromBufferAttribute( positionAttribute, b );\n\t\t\tvC.fromBufferAttribute( positionAttribute, c );\n\n\t\t\tuvA.fromBufferAttribute( uvAttribute, a );\n\t\t\tuvB.fromBufferAttribute( uvAttribute, b );\n\t\t\tuvC.fromBufferAttribute( uvAttribute, c );\n\n\t\t\tvB.sub( vA );\n\t\t\tvC.sub( vA );\n\n\t\t\tuvB.sub( uvA );\n\t\t\tuvC.sub( uvA );\n\n\t\t\tconst r = 1.0 / ( uvB.x * uvC.y - uvC.x * uvB.y );\n\n\t\t\t// silently ignore degenerate uv triangles having coincident or colinear vertices\n\n\t\t\tif ( ! isFinite( r ) ) return;\n\n\t\t\tsdir.copy( vB ).multiplyScalar( uvC.y ).addScaledVector( vC, - uvB.y ).multiplyScalar( r );\n\t\t\ttdir.copy( vC ).multiplyScalar( uvB.x ).addScaledVector( vB, - uvC.x ).multiplyScalar( r );\n\n\t\t\ttan1[ a ].add( sdir );\n\t\t\ttan1[ b ].add( sdir );\n\t\t\ttan1[ c ].add( sdir );\n\n\t\t\ttan2[ a ].add( tdir );\n\t\t\ttan2[ b ].add( tdir );\n\t\t\ttan2[ c ].add( tdir );\n\n\t\t}\n\n\t\tlet groups = this.groups;\n\n\t\tif ( groups.length === 0 ) {\n\n\t\t\tgroups = [ {\n\t\t\t\tstart: 0,\n\t\t\t\tcount: index.count\n\t\t\t} ];\n\n\t\t}\n\n\t\tfor ( let i = 0, il = groups.length; i < il; ++ i ) {\n\n\t\t\tconst group = groups[ i ];\n\n\t\t\tconst start = group.start;\n\t\t\tconst count = group.count;\n\n\t\t\tfor ( let j = start, jl = start + count; j < jl; j += 3 ) {\n\n\t\t\t\thandleTriangle(\n\t\t\t\t\tindex.getX( j + 0 ),\n\t\t\t\t\tindex.getX( j + 1 ),\n\t\t\t\t\tindex.getX( j + 2 )\n\t\t\t\t);\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst tmp = new Vector3(), tmp2 = new Vector3();\n\t\tconst n = new Vector3(), n2 = new Vector3();\n\n\t\tfunction handleVertex( v ) {\n\n\t\t\tn.fromBufferAttribute( normalAttribute, v );\n\t\t\tn2.copy( n );\n\n\t\t\tconst t = tan1[ v ];\n\n\t\t\t// Gram-Schmidt orthogonalize\n\n\t\t\ttmp.copy( t );\n\t\t\ttmp.sub( n.multiplyScalar( n.dot( t ) ) ).normalize();\n\n\t\t\t// Calculate handedness\n\n\t\t\ttmp2.crossVectors( n2, t );\n\t\t\tconst test = tmp2.dot( tan2[ v ] );\n\t\t\tconst w = ( test < 0.0 ) ? -1 : 1.0;\n\n\t\t\ttangentAttribute.setXYZW( v, tmp.x, tmp.y, tmp.z, w );\n\n\t\t}\n\n\t\tfor ( let i = 0, il = groups.length; i < il; ++ i ) {\n\n\t\t\tconst group = groups[ i ];\n\n\t\t\tconst start = group.start;\n\t\t\tconst count = group.count;\n\n\t\t\tfor ( let j = start, jl = start + count; j < jl; j += 3 ) {\n\n\t\t\t\thandleVertex( index.getX( j + 0 ) );\n\t\t\t\thandleVertex( index.getX( j + 1 ) );\n\t\t\t\thandleVertex( index.getX( j + 2 ) );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes vertex normals for the given vertex data. For indexed geometries, the method sets\n\t * each vertex normal to be the average of the face normals of the faces that share that vertex.\n\t * For non-indexed geometries, vertices are not shared, and the method sets each vertex normal\n\t * to be the same as the face normal.\n\t */\n\tcomputeVertexNormals() {\n\n\t\tconst index = this.index;\n\t\tconst positionAttribute = this.getAttribute( 'position' );\n\n\t\tif ( positionAttribute !== undefined ) {\n\n\t\t\tlet normalAttribute = this.getAttribute( 'normal' );\n\n\t\t\tif ( normalAttribute === undefined ) {\n\n\t\t\t\tnormalAttribute = new BufferAttribute( new Float32Array( positionAttribute.count * 3 ), 3 );\n\t\t\t\tthis.setAttribute( 'normal', normalAttribute );\n\n\t\t\t} else {\n\n\t\t\t\t// reset existing normals to zero\n\n\t\t\t\tfor ( let i = 0, il = normalAttribute.count; i < il; i ++ ) {\n\n\t\t\t\t\tnormalAttribute.setXYZ( i, 0, 0, 0 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tconst pA = new Vector3(), pB = new Vector3(), pC = new Vector3();\n\t\t\tconst nA = new Vector3(), nB = new Vector3(), nC = new Vector3();\n\t\t\tconst cb = new Vector3(), ab = new Vector3();\n\n\t\t\t// indexed elements\n\n\t\t\tif ( index ) {\n\n\t\t\t\tfor ( let i = 0, il = index.count; i < il; i += 3 ) {\n\n\t\t\t\t\tconst vA = index.getX( i + 0 );\n\t\t\t\t\tconst vB = index.getX( i + 1 );\n\t\t\t\t\tconst vC = index.getX( i + 2 );\n\n\t\t\t\t\tpA.fromBufferAttribute( positionAttribute, vA );\n\t\t\t\t\tpB.fromBufferAttribute( positionAttribute, vB );\n\t\t\t\t\tpC.fromBufferAttribute( positionAttribute, vC );\n\n\t\t\t\t\tcb.subVectors( pC, pB );\n\t\t\t\t\tab.subVectors( pA, pB );\n\t\t\t\t\tcb.cross( ab );\n\n\t\t\t\t\tnA.fromBufferAttribute( normalAttribute, vA );\n\t\t\t\t\tnB.fromBufferAttribute( normalAttribute, vB );\n\t\t\t\t\tnC.fromBufferAttribute( normalAttribute, vC );\n\n\t\t\t\t\tnA.add( cb );\n\t\t\t\t\tnB.add( cb );\n\t\t\t\t\tnC.add( cb );\n\n\t\t\t\t\tnormalAttribute.setXYZ( vA, nA.x, nA.y, nA.z );\n\t\t\t\t\tnormalAttribute.setXYZ( vB, nB.x, nB.y, nB.z );\n\t\t\t\t\tnormalAttribute.setXYZ( vC, nC.x, nC.y, nC.z );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// non-indexed elements (unconnected triangle soup)\n\n\t\t\t\tfor ( let i = 0, il = positionAttribute.count; i < il; i += 3 ) {\n\n\t\t\t\t\tpA.fromBufferAttribute( positionAttribute, i + 0 );\n\t\t\t\t\tpB.fromBufferAttribute( positionAttribute, i + 1 );\n\t\t\t\t\tpC.fromBufferAttribute( positionAttribute, i + 2 );\n\n\t\t\t\t\tcb.subVectors( pC, pB );\n\t\t\t\t\tab.subVectors( pA, pB );\n\t\t\t\t\tcb.cross( ab );\n\n\t\t\t\t\tnormalAttribute.setXYZ( i + 0, cb.x, cb.y, cb.z );\n\t\t\t\t\tnormalAttribute.setXYZ( i + 1, cb.x, cb.y, cb.z );\n\t\t\t\t\tnormalAttribute.setXYZ( i + 2, cb.x, cb.y, cb.z );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.normalizeNormals();\n\n\t\t\tnormalAttribute.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Ensures every normal vector in a geometry will have a magnitude of `1`. This will\n\t * correct lighting on the geometry surfaces.\n\t */\n\tnormalizeNormals() {\n\n\t\tconst normals = this.attributes.normal;\n\n\t\tfor ( let i = 0, il = normals.count; i < il; i ++ ) {\n\n\t\t\t_vector$8.fromBufferAttribute( normals, i );\n\n\t\t\t_vector$8.normalize();\n\n\t\t\tnormals.setXYZ( i, _vector$8.x, _vector$8.y, _vector$8.z );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Return a new non-index version of this indexed geometry. If the geometry\n\t * is already non-indexed, the method is a NOOP.\n\t *\n\t * @return {BufferGeometry} The non-indexed version of this indexed geometry.\n\t */\n\ttoNonIndexed() {\n\n\t\tfunction convertBufferAttribute( attribute, indices ) {\n\n\t\t\tconst array = attribute.array;\n\t\t\tconst itemSize = attribute.itemSize;\n\t\t\tconst normalized = attribute.normalized;\n\n\t\t\tconst array2 = new array.constructor( indices.length * itemSize );\n\n\t\t\tlet index = 0, index2 = 0;\n\n\t\t\tfor ( let i = 0, l = indices.length; i < l; i ++ ) {\n\n\t\t\t\tif ( attribute.isInterleavedBufferAttribute ) {\n\n\t\t\t\t\tindex = indices[ i ] * attribute.data.stride + attribute.offset;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tindex = indices[ i ] * itemSize;\n\n\t\t\t\t}\n\n\t\t\t\tfor ( let j = 0; j < itemSize; j ++ ) {\n\n\t\t\t\t\tarray2[ index2 ++ ] = array[ index ++ ];\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn new BufferAttribute( array2, itemSize, normalized );\n\n\t\t}\n\n\t\t//\n\n\t\tif ( this.index === null ) {\n\n\t\t\tconsole.warn( 'THREE.BufferGeometry.toNonIndexed(): BufferGeometry is already non-indexed.' );\n\t\t\treturn this;\n\n\t\t}\n\n\t\tconst geometry2 = new BufferGeometry();\n\n\t\tconst indices = this.index.array;\n\t\tconst attributes = this.attributes;\n\n\t\t// attributes\n\n\t\tfor ( const name in attributes ) {\n\n\t\t\tconst attribute = attributes[ name ];\n\n\t\t\tconst newAttribute = convertBufferAttribute( attribute, indices );\n\n\t\t\tgeometry2.setAttribute( name, newAttribute );\n\n\t\t}\n\n\t\t// morph attributes\n\n\t\tconst morphAttributes = this.morphAttributes;\n\n\t\tfor ( const name in morphAttributes ) {\n\n\t\t\tconst morphArray = [];\n\t\t\tconst morphAttribute = morphAttributes[ name ]; // morphAttribute: array of Float32BufferAttributes\n\n\t\t\tfor ( let i = 0, il = morphAttribute.length; i < il; i ++ ) {\n\n\t\t\t\tconst attribute = morphAttribute[ i ];\n\n\t\t\t\tconst newAttribute = convertBufferAttribute( attribute, indices );\n\n\t\t\t\tmorphArray.push( newAttribute );\n\n\t\t\t}\n\n\t\t\tgeometry2.morphAttributes[ name ] = morphArray;\n\n\t\t}\n\n\t\tgeometry2.morphTargetsRelative = this.morphTargetsRelative;\n\n\t\t// groups\n\n\t\tconst groups = this.groups;\n\n\t\tfor ( let i = 0, l = groups.length; i < l; i ++ ) {\n\n\t\t\tconst group = groups[ i ];\n\t\t\tgeometry2.addGroup( group.start, group.count, group.materialIndex );\n\n\t\t}\n\n\t\treturn geometry2;\n\n\t}\n\n\t/**\n\t * Serializes the geometry into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized geometry.\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'BufferGeometry',\n\t\t\t\tgenerator: 'BufferGeometry.toJSON'\n\t\t\t}\n\t\t};\n\n\t\t// standard BufferGeometry serialization\n\n\t\tdata.uuid = this.uuid;\n\t\tdata.type = this.type;\n\t\tif ( this.name !== '' ) data.name = this.name;\n\t\tif ( Object.keys( this.userData ).length > 0 ) data.userData = this.userData;\n\n\t\tif ( this.parameters !== undefined ) {\n\n\t\t\tconst parameters = this.parameters;\n\n\t\t\tfor ( const key in parameters ) {\n\n\t\t\t\tif ( parameters[ key ] !== undefined ) data[ key ] = parameters[ key ];\n\n\t\t\t}\n\n\t\t\treturn data;\n\n\t\t}\n\n\t\t// for simplicity the code assumes attributes are not shared across geometries, see #15811\n\n\t\tdata.data = { attributes: {} };\n\n\t\tconst index = this.index;\n\n\t\tif ( index !== null ) {\n\n\t\t\tdata.data.index = {\n\t\t\t\ttype: index.array.constructor.name,\n\t\t\t\tarray: Array.prototype.slice.call( index.array )\n\t\t\t};\n\n\t\t}\n\n\t\tconst attributes = this.attributes;\n\n\t\tfor ( const key in attributes ) {\n\n\t\t\tconst attribute = attributes[ key ];\n\n\t\t\tdata.data.attributes[ key ] = attribute.toJSON( data.data );\n\n\t\t}\n\n\t\tconst morphAttributes = {};\n\t\tlet hasMorphAttributes = false;\n\n\t\tfor ( const key in this.morphAttributes ) {\n\n\t\t\tconst attributeArray = this.morphAttributes[ key ];\n\n\t\t\tconst array = [];\n\n\t\t\tfor ( let i = 0, il = attributeArray.length; i < il; i ++ ) {\n\n\t\t\t\tconst attribute = attributeArray[ i ];\n\n\t\t\t\tarray.push( attribute.toJSON( data.data ) );\n\n\t\t\t}\n\n\t\t\tif ( array.length > 0 ) {\n\n\t\t\t\tmorphAttributes[ key ] = array;\n\n\t\t\t\thasMorphAttributes = true;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( hasMorphAttributes ) {\n\n\t\t\tdata.data.morphAttributes = morphAttributes;\n\t\t\tdata.data.morphTargetsRelative = this.morphTargetsRelative;\n\n\t\t}\n\n\t\tconst groups = this.groups;\n\n\t\tif ( groups.length > 0 ) {\n\n\t\t\tdata.data.groups = JSON.parse( JSON.stringify( groups ) );\n\n\t\t}\n\n\t\tconst boundingSphere = this.boundingSphere;\n\n\t\tif ( boundingSphere !== null ) {\n\n\t\t\tdata.data.boundingSphere = boundingSphere.toJSON();\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Returns a new geometry with copied values from this instance.\n\t *\n\t * @return {BufferGeometry} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given geometry to this instance.\n\t *\n\t * @param {BufferGeometry} source - The geometry to copy.\n\t * @return {BufferGeometry} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\t// reset\n\n\t\tthis.index = null;\n\t\tthis.attributes = {};\n\t\tthis.morphAttributes = {};\n\t\tthis.groups = [];\n\t\tthis.boundingBox = null;\n\t\tthis.boundingSphere = null;\n\n\t\t// used for storing cloned, shared data\n\n\t\tconst data = {};\n\n\t\t// name\n\n\t\tthis.name = source.name;\n\n\t\t// index\n\n\t\tconst index = source.index;\n\n\t\tif ( index !== null ) {\n\n\t\t\tthis.setIndex( index.clone() );\n\n\t\t}\n\n\t\t// attributes\n\n\t\tconst attributes = source.attributes;\n\n\t\tfor ( const name in attributes ) {\n\n\t\t\tconst attribute = attributes[ name ];\n\t\t\tthis.setAttribute( name, attribute.clone( data ) );\n\n\t\t}\n\n\t\t// morph attributes\n\n\t\tconst morphAttributes = source.morphAttributes;\n\n\t\tfor ( const name in morphAttributes ) {\n\n\t\t\tconst array = [];\n\t\t\tconst morphAttribute = morphAttributes[ name ]; // morphAttribute: array of Float32BufferAttributes\n\n\t\t\tfor ( let i = 0, l = morphAttribute.length; i < l; i ++ ) {\n\n\t\t\t\tarray.push( morphAttribute[ i ].clone( data ) );\n\n\t\t\t}\n\n\t\t\tthis.morphAttributes[ name ] = array;\n\n\t\t}\n\n\t\tthis.morphTargetsRelative = source.morphTargetsRelative;\n\n\t\t// groups\n\n\t\tconst groups = source.groups;\n\n\t\tfor ( let i = 0, l = groups.length; i < l; i ++ ) {\n\n\t\t\tconst group = groups[ i ];\n\t\t\tthis.addGroup( group.start, group.count, group.materialIndex );\n\n\t\t}\n\n\t\t// bounding box\n\n\t\tconst boundingBox = source.boundingBox;\n\n\t\tif ( boundingBox !== null ) {\n\n\t\t\tthis.boundingBox = boundingBox.clone();\n\n\t\t}\n\n\t\t// bounding sphere\n\n\t\tconst boundingSphere = source.boundingSphere;\n\n\t\tif ( boundingSphere !== null ) {\n\n\t\t\tthis.boundingSphere = boundingSphere.clone();\n\n\t\t}\n\n\t\t// draw range\n\n\t\tthis.drawRange.start = source.drawRange.start;\n\t\tthis.drawRange.count = source.drawRange.count;\n\n\t\t// user data\n\n\t\tthis.userData = source.userData;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires BufferGeometry#dispose\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n}\n\nconst _inverseMatrix$3 = /*@__PURE__*/ new Matrix4();\nconst _ray$3 = /*@__PURE__*/ new Ray();\nconst _sphere$6 = /*@__PURE__*/ new Sphere();\nconst _sphereHitAt = /*@__PURE__*/ new Vector3();\n\nconst _vA$1 = /*@__PURE__*/ new Vector3();\nconst _vB$1 = /*@__PURE__*/ new Vector3();\nconst _vC$1 = /*@__PURE__*/ new Vector3();\n\nconst _tempA = /*@__PURE__*/ new Vector3();\nconst _morphA = /*@__PURE__*/ new Vector3();\n\nconst _intersectionPoint = /*@__PURE__*/ new Vector3();\nconst _intersectionPointWorld = /*@__PURE__*/ new Vector3();\n\n/**\n * Class representing triangular polygon mesh based objects.\n *\n * ```js\n * const geometry = new THREE.BoxGeometry( 1, 1, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const mesh = new THREE.Mesh( geometry, material );\n * scene.add( mesh );\n * ```\n *\n * @augments Object3D\n */\nclass Mesh extends Object3D {\n\n\t/**\n\t * Constructs a new mesh.\n\t *\n\t * @param {BufferGeometry} [geometry] - The mesh geometry.\n\t * @param {Material|Array} [material] - The mesh material.\n\t */\n\tconstructor( geometry = new BufferGeometry(), material = new MeshBasicMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMesh = true;\n\n\t\tthis.type = 'Mesh';\n\n\t\t/**\n\t\t * The mesh geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = geometry;\n\n\t\t/**\n\t\t * The mesh material.\n\t\t *\n\t\t * @type {Material|Array}\n\t\t * @default MeshBasicMaterial\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * A dictionary representing the morph targets in the geometry. The key is the\n\t\t * morph targets name, the value its attribute index. This member is `undefined`\n\t\t * by default and only set when morph targets are detected in the geometry.\n\t\t *\n\t\t * @type {Object|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetDictionary = undefined;\n\n\t\t/**\n\t\t * An array of weights typically in the range `[0,1]` that specify how much of the morph\n\t\t * is applied. This member is `undefined` by default and only set when morph targets are\n\t\t * detected in the geometry.\n\t\t *\n\t\t * @type {Array|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetInfluences = undefined;\n\n\t\t/**\n\t\t * The number of instances of this mesh.\n\t\t * Can only be used with {@link WebGPURenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.count = 1;\n\n\t\tthis.updateMorphTargets();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.morphTargetInfluences !== undefined ) {\n\n\t\t\tthis.morphTargetInfluences = source.morphTargetInfluences.slice();\n\n\t\t}\n\n\t\tif ( source.morphTargetDictionary !== undefined ) {\n\n\t\t\tthis.morphTargetDictionary = Object.assign( {}, source.morphTargetDictionary );\n\n\t\t}\n\n\t\tthis.material = Array.isArray( source.material ) ? source.material.slice() : source.material;\n\t\tthis.geometry = source.geometry;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the values of {@link Mesh#morphTargetDictionary} and {@link Mesh#morphTargetInfluences}\n\t * to make sure existing morph targets can influence this 3D object.\n\t */\n\tupdateMorphTargets() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst morphAttributes = geometry.morphAttributes;\n\t\tconst keys = Object.keys( morphAttributes );\n\n\t\tif ( keys.length > 0 ) {\n\n\t\t\tconst morphAttribute = morphAttributes[ keys[ 0 ] ];\n\n\t\t\tif ( morphAttribute !== undefined ) {\n\n\t\t\t\tthis.morphTargetInfluences = [];\n\t\t\t\tthis.morphTargetDictionary = {};\n\n\t\t\t\tfor ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) {\n\n\t\t\t\t\tconst name = morphAttribute[ m ].name || String( m );\n\n\t\t\t\t\tthis.morphTargetInfluences.push( 0 );\n\t\t\t\t\tthis.morphTargetDictionary[ name ] = m;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns the local-space position of the vertex at the given index, taking into\n\t * account the current animation state of both morph targets and skinning.\n\t *\n\t * @param {number} index - The vertex index.\n\t * @param {Vector3} target - The target object that is used to store the method's result.\n\t * @return {Vector3} The vertex position in local space.\n\t */\n\tgetVertexPosition( index, target ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst position = geometry.attributes.position;\n\t\tconst morphPosition = geometry.morphAttributes.position;\n\t\tconst morphTargetsRelative = geometry.morphTargetsRelative;\n\n\t\ttarget.fromBufferAttribute( position, index );\n\n\t\tconst morphInfluences = this.morphTargetInfluences;\n\n\t\tif ( morphPosition && morphInfluences ) {\n\n\t\t\t_morphA.set( 0, 0, 0 );\n\n\t\t\tfor ( let i = 0, il = morphPosition.length; i < il; i ++ ) {\n\n\t\t\t\tconst influence = morphInfluences[ i ];\n\t\t\t\tconst morphAttribute = morphPosition[ i ];\n\n\t\t\t\tif ( influence === 0 ) continue;\n\n\t\t\t\t_tempA.fromBufferAttribute( morphAttribute, index );\n\n\t\t\t\tif ( morphTargetsRelative ) {\n\n\t\t\t\t\t_morphA.addScaledVector( _tempA, influence );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t_morphA.addScaledVector( _tempA.sub( target ), influence );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\ttarget.add( _morphA );\n\n\t\t}\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this line.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst material = this.material;\n\t\tconst matrixWorld = this.matrixWorld;\n\n\t\tif ( material === undefined ) return;\n\n\t\t// test with bounding sphere in world space\n\n\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t_sphere$6.copy( geometry.boundingSphere );\n\t\t_sphere$6.applyMatrix4( matrixWorld );\n\n\t\t// check distance from ray origin to bounding sphere\n\n\t\t_ray$3.copy( raycaster.ray ).recast( raycaster.near );\n\n\t\tif ( _sphere$6.containsPoint( _ray$3.origin ) === false ) {\n\n\t\t\tif ( _ray$3.intersectSphere( _sphere$6, _sphereHitAt ) === null ) return;\n\n\t\t\tif ( _ray$3.origin.distanceToSquared( _sphereHitAt ) > ( raycaster.far - raycaster.near ) ** 2 ) return;\n\n\t\t}\n\n\t\t// convert ray to local space of mesh\n\n\t\t_inverseMatrix$3.copy( matrixWorld ).invert();\n\t\t_ray$3.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$3 );\n\n\t\t// test with bounding box in local space\n\n\t\tif ( geometry.boundingBox !== null ) {\n\n\t\t\tif ( _ray$3.intersectsBox( geometry.boundingBox ) === false ) return;\n\n\t\t}\n\n\t\t// test for intersections with geometry\n\n\t\tthis._computeIntersections( raycaster, intersects, _ray$3 );\n\n\t}\n\n\t_computeIntersections( raycaster, intersects, rayLocalSpace ) {\n\n\t\tlet intersection;\n\n\t\tconst geometry = this.geometry;\n\t\tconst material = this.material;\n\n\t\tconst index = geometry.index;\n\t\tconst position = geometry.attributes.position;\n\t\tconst uv = geometry.attributes.uv;\n\t\tconst uv1 = geometry.attributes.uv1;\n\t\tconst normal = geometry.attributes.normal;\n\t\tconst groups = geometry.groups;\n\t\tconst drawRange = geometry.drawRange;\n\n\t\tif ( index !== null ) {\n\n\t\t\t// indexed buffer geometry\n\n\t\t\tif ( Array.isArray( material ) ) {\n\n\t\t\t\tfor ( let i = 0, il = groups.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst group = groups[ i ];\n\t\t\t\t\tconst groupMaterial = material[ group.materialIndex ];\n\n\t\t\t\t\tconst start = Math.max( group.start, drawRange.start );\n\t\t\t\t\tconst end = Math.min( index.count, Math.min( ( group.start + group.count ), ( drawRange.start + drawRange.count ) ) );\n\n\t\t\t\t\tfor ( let j = start, jl = end; j < jl; j += 3 ) {\n\n\t\t\t\t\t\tconst a = index.getX( j );\n\t\t\t\t\t\tconst b = index.getX( j + 1 );\n\t\t\t\t\t\tconst c = index.getX( j + 2 );\n\n\t\t\t\t\t\tintersection = checkGeometryIntersection( this, groupMaterial, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\t\tintersection.faceIndex = Math.floor( j / 3 ); // triangle number in indexed buffer semantics\n\t\t\t\t\t\t\tintersection.face.materialIndex = group.materialIndex;\n\t\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\t\tconst end = Math.min( index.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\t\tfor ( let i = start, il = end; i < il; i += 3 ) {\n\n\t\t\t\t\tconst a = index.getX( i );\n\t\t\t\t\tconst b = index.getX( i + 1 );\n\t\t\t\t\tconst c = index.getX( i + 2 );\n\n\t\t\t\t\tintersection = checkGeometryIntersection( this, material, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\tintersection.faceIndex = Math.floor( i / 3 ); // triangle number in indexed buffer semantics\n\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else if ( position !== undefined ) {\n\n\t\t\t// non-indexed buffer geometry\n\n\t\t\tif ( Array.isArray( material ) ) {\n\n\t\t\t\tfor ( let i = 0, il = groups.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst group = groups[ i ];\n\t\t\t\t\tconst groupMaterial = material[ group.materialIndex ];\n\n\t\t\t\t\tconst start = Math.max( group.start, drawRange.start );\n\t\t\t\t\tconst end = Math.min( position.count, Math.min( ( group.start + group.count ), ( drawRange.start + drawRange.count ) ) );\n\n\t\t\t\t\tfor ( let j = start, jl = end; j < jl; j += 3 ) {\n\n\t\t\t\t\t\tconst a = j;\n\t\t\t\t\t\tconst b = j + 1;\n\t\t\t\t\t\tconst c = j + 2;\n\n\t\t\t\t\t\tintersection = checkGeometryIntersection( this, groupMaterial, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\t\tintersection.faceIndex = Math.floor( j / 3 ); // triangle number in non-indexed buffer semantics\n\t\t\t\t\t\t\tintersection.face.materialIndex = group.materialIndex;\n\t\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\t\tconst end = Math.min( position.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\t\tfor ( let i = start, il = end; i < il; i += 3 ) {\n\n\t\t\t\t\tconst a = i;\n\t\t\t\t\tconst b = i + 1;\n\t\t\t\t\tconst c = i + 2;\n\n\t\t\t\t\tintersection = checkGeometryIntersection( this, material, raycaster, rayLocalSpace, uv, uv1, normal, a, b, c );\n\n\t\t\t\t\tif ( intersection ) {\n\n\t\t\t\t\t\tintersection.faceIndex = Math.floor( i / 3 ); // triangle number in non-indexed buffer semantics\n\t\t\t\t\t\tintersects.push( intersection );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n}\n\nfunction checkIntersection$1( object, material, raycaster, ray, pA, pB, pC, point ) {\n\n\tlet intersect;\n\n\tif ( material.side === BackSide ) {\n\n\t\tintersect = ray.intersectTriangle( pC, pB, pA, true, point );\n\n\t} else {\n\n\t\tintersect = ray.intersectTriangle( pA, pB, pC, ( material.side === FrontSide ), point );\n\n\t}\n\n\tif ( intersect === null ) return null;\n\n\t_intersectionPointWorld.copy( point );\n\t_intersectionPointWorld.applyMatrix4( object.matrixWorld );\n\n\tconst distance = raycaster.ray.origin.distanceTo( _intersectionPointWorld );\n\n\tif ( distance < raycaster.near || distance > raycaster.far ) return null;\n\n\treturn {\n\t\tdistance: distance,\n\t\tpoint: _intersectionPointWorld.clone(),\n\t\tobject: object\n\t};\n\n}\n\nfunction checkGeometryIntersection( object, material, raycaster, ray, uv, uv1, normal, a, b, c ) {\n\n\tobject.getVertexPosition( a, _vA$1 );\n\tobject.getVertexPosition( b, _vB$1 );\n\tobject.getVertexPosition( c, _vC$1 );\n\n\tconst intersection = checkIntersection$1( object, material, raycaster, ray, _vA$1, _vB$1, _vC$1, _intersectionPoint );\n\n\tif ( intersection ) {\n\n\t\tconst barycoord = new Vector3();\n\t\tTriangle.getBarycoord( _intersectionPoint, _vA$1, _vB$1, _vC$1, barycoord );\n\n\t\tif ( uv ) {\n\n\t\t\tintersection.uv = Triangle.getInterpolatedAttribute( uv, a, b, c, barycoord, new Vector2() );\n\n\t\t}\n\n\t\tif ( uv1 ) {\n\n\t\t\tintersection.uv1 = Triangle.getInterpolatedAttribute( uv1, a, b, c, barycoord, new Vector2() );\n\n\t\t}\n\n\t\tif ( normal ) {\n\n\t\t\tintersection.normal = Triangle.getInterpolatedAttribute( normal, a, b, c, barycoord, new Vector3() );\n\n\t\t\tif ( intersection.normal.dot( ray.direction ) > 0 ) {\n\n\t\t\t\tintersection.normal.multiplyScalar( -1 );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst face = {\n\t\t\ta: a,\n\t\t\tb: b,\n\t\t\tc: c,\n\t\t\tnormal: new Vector3(),\n\t\t\tmaterialIndex: 0\n\t\t};\n\n\t\tTriangle.getNormal( _vA$1, _vB$1, _vC$1, face.normal );\n\n\t\tintersection.face = face;\n\t\tintersection.barycoord = barycoord;\n\n\t}\n\n\treturn intersection;\n\n}\n\n/**\n * A geometry class for a rectangular cuboid with a given width, height, and depth.\n * On creation, the cuboid is centred on the origin, with each edge parallel to one\n * of the axes.\n *\n * ```js\n * const geometry = new THREE.BoxGeometry( 1, 1, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const cube = new THREE.Mesh( geometry, material );\n * scene.add( cube );\n * ```\n *\n * @augments BufferGeometry\n */\nclass BoxGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new box geometry.\n\t *\n\t * @param {number} [width=1] - The width. That is, the length of the edges parallel to the X axis.\n\t * @param {number} [height=1] - The height. That is, the length of the edges parallel to the Y axis.\n\t * @param {number} [depth=1] - The depth. That is, the length of the edges parallel to the Z axis.\n\t * @param {number} [widthSegments=1] - Number of segmented rectangular faces along the width of the sides.\n\t * @param {number} [heightSegments=1] - Number of segmented rectangular faces along the height of the sides.\n\t * @param {number} [depthSegments=1] - Number of segmented rectangular faces along the depth of the sides.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, widthSegments = 1, heightSegments = 1, depthSegments = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'BoxGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\twidth: width,\n\t\t\theight: height,\n\t\t\tdepth: depth,\n\t\t\twidthSegments: widthSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\tdepthSegments: depthSegments\n\t\t};\n\n\t\tconst scope = this;\n\n\t\t// segments\n\n\t\twidthSegments = Math.floor( widthSegments );\n\t\theightSegments = Math.floor( heightSegments );\n\t\tdepthSegments = Math.floor( depthSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tlet numberOfVertices = 0;\n\t\tlet groupStart = 0;\n\n\t\t// build each side of the box geometry\n\n\t\tbuildPlane( 'z', 'y', 'x', -1, -1, depth, height, width, depthSegments, heightSegments, 0 ); // px\n\t\tbuildPlane( 'z', 'y', 'x', 1, -1, depth, height, - width, depthSegments, heightSegments, 1 ); // nx\n\t\tbuildPlane( 'x', 'z', 'y', 1, 1, width, depth, height, widthSegments, depthSegments, 2 ); // py\n\t\tbuildPlane( 'x', 'z', 'y', 1, -1, width, depth, - height, widthSegments, depthSegments, 3 ); // ny\n\t\tbuildPlane( 'x', 'y', 'z', 1, -1, width, height, depth, widthSegments, heightSegments, 4 ); // pz\n\t\tbuildPlane( 'x', 'y', 'z', -1, -1, width, height, - depth, widthSegments, heightSegments, 5 ); // nz\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\tfunction buildPlane( u, v, w, udir, vdir, width, height, depth, gridX, gridY, materialIndex ) {\n\n\t\t\tconst segmentWidth = width / gridX;\n\t\t\tconst segmentHeight = height / gridY;\n\n\t\t\tconst widthHalf = width / 2;\n\t\t\tconst heightHalf = height / 2;\n\t\t\tconst depthHalf = depth / 2;\n\n\t\t\tconst gridX1 = gridX + 1;\n\t\t\tconst gridY1 = gridY + 1;\n\n\t\t\tlet vertexCounter = 0;\n\t\t\tlet groupCount = 0;\n\n\t\t\tconst vector = new Vector3();\n\n\t\t\t// generate vertices, normals and uvs\n\n\t\t\tfor ( let iy = 0; iy < gridY1; iy ++ ) {\n\n\t\t\t\tconst y = iy * segmentHeight - heightHalf;\n\n\t\t\t\tfor ( let ix = 0; ix < gridX1; ix ++ ) {\n\n\t\t\t\t\tconst x = ix * segmentWidth - widthHalf;\n\n\t\t\t\t\t// set values to correct vector component\n\n\t\t\t\t\tvector[ u ] = x * udir;\n\t\t\t\t\tvector[ v ] = y * vdir;\n\t\t\t\t\tvector[ w ] = depthHalf;\n\n\t\t\t\t\t// now apply vector to vertex buffer\n\n\t\t\t\t\tvertices.push( vector.x, vector.y, vector.z );\n\n\t\t\t\t\t// set values to correct vector component\n\n\t\t\t\t\tvector[ u ] = 0;\n\t\t\t\t\tvector[ v ] = 0;\n\t\t\t\t\tvector[ w ] = depth > 0 ? 1 : -1;\n\n\t\t\t\t\t// now apply vector to normal buffer\n\n\t\t\t\t\tnormals.push( vector.x, vector.y, vector.z );\n\n\t\t\t\t\t// uvs\n\n\t\t\t\t\tuvs.push( ix / gridX );\n\t\t\t\t\tuvs.push( 1 - ( iy / gridY ) );\n\n\t\t\t\t\t// counters\n\n\t\t\t\t\tvertexCounter += 1;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// indices\n\n\t\t\t// 1. you need three indices to draw a single face\n\t\t\t// 2. a single segment consists of two faces\n\t\t\t// 3. so we need to generate six (2*3) indices per segment\n\n\t\t\tfor ( let iy = 0; iy < gridY; iy ++ ) {\n\n\t\t\t\tfor ( let ix = 0; ix < gridX; ix ++ ) {\n\n\t\t\t\t\tconst a = numberOfVertices + ix + gridX1 * iy;\n\t\t\t\t\tconst b = numberOfVertices + ix + gridX1 * ( iy + 1 );\n\t\t\t\t\tconst c = numberOfVertices + ( ix + 1 ) + gridX1 * ( iy + 1 );\n\t\t\t\t\tconst d = numberOfVertices + ( ix + 1 ) + gridX1 * iy;\n\n\t\t\t\t\t// faces\n\n\t\t\t\t\tindices.push( a, b, d );\n\t\t\t\t\tindices.push( b, c, d );\n\n\t\t\t\t\t// increase counter\n\n\t\t\t\t\tgroupCount += 6;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// add a group to the geometry. this will ensure multi material support\n\n\t\t\tscope.addGroup( groupStart, groupCount, materialIndex );\n\n\t\t\t// calculate new start value for groups\n\n\t\t\tgroupStart += groupCount;\n\n\t\t\t// update total number of vertices\n\n\t\t\tnumberOfVertices += vertexCounter;\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {BoxGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new BoxGeometry( data.width, data.height, data.depth, data.widthSegments, data.heightSegments, data.depthSegments );\n\n\t}\n\n}\n\n// Uniform Utilities\n\nfunction cloneUniforms( src ) {\n\n\tconst dst = {};\n\n\tfor ( const u in src ) {\n\n\t\tdst[ u ] = {};\n\n\t\tfor ( const p in src[ u ] ) {\n\n\t\t\tconst property = src[ u ][ p ];\n\n\t\t\tif ( property && ( property.isColor ||\n\t\t\t\tproperty.isMatrix3 || property.isMatrix4 ||\n\t\t\t\tproperty.isVector2 || property.isVector3 || property.isVector4 ||\n\t\t\t\tproperty.isTexture || property.isQuaternion ) ) {\n\n\t\t\t\tif ( property.isRenderTargetTexture ) {\n\n\t\t\t\t\tconsole.warn( 'UniformsUtils: Textures of render targets cannot be cloned via cloneUniforms() or mergeUniforms().' );\n\t\t\t\t\tdst[ u ][ p ] = null;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tdst[ u ][ p ] = property.clone();\n\n\t\t\t\t}\n\n\t\t\t} else if ( Array.isArray( property ) ) {\n\n\t\t\t\tdst[ u ][ p ] = property.slice();\n\n\t\t\t} else {\n\n\t\t\t\tdst[ u ][ p ] = property;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\treturn dst;\n\n}\n\nfunction mergeUniforms( uniforms ) {\n\n\tconst merged = {};\n\n\tfor ( let u = 0; u < uniforms.length; u ++ ) {\n\n\t\tconst tmp = cloneUniforms( uniforms[ u ] );\n\n\t\tfor ( const p in tmp ) {\n\n\t\t\tmerged[ p ] = tmp[ p ];\n\n\t\t}\n\n\t}\n\n\treturn merged;\n\n}\n\nfunction cloneUniformsGroups( src ) {\n\n\tconst dst = [];\n\n\tfor ( let u = 0; u < src.length; u ++ ) {\n\n\t\tdst.push( src[ u ].clone() );\n\n\t}\n\n\treturn dst;\n\n}\n\nfunction getUnlitUniformColorSpace( renderer ) {\n\n\tconst currentRenderTarget = renderer.getRenderTarget();\n\n\tif ( currentRenderTarget === null ) {\n\n\t\t// https://github.com/mrdoob/three.js/pull/23937#issuecomment-1111067398\n\t\treturn renderer.outputColorSpace;\n\n\t}\n\n\t// https://github.com/mrdoob/three.js/issues/27868\n\tif ( currentRenderTarget.isXRRenderTarget === true ) {\n\n\t\treturn currentRenderTarget.texture.colorSpace;\n\n\t}\n\n\treturn ColorManagement.workingColorSpace;\n\n}\n\n// Legacy\n\nconst UniformsUtils = { clone: cloneUniforms, merge: mergeUniforms };\n\nvar default_vertex = \"void main() {\\n\\tgl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );\\n}\";\n\nvar default_fragment = \"void main() {\\n\\tgl_FragColor = vec4( 1.0, 0.0, 0.0, 1.0 );\\n}\";\n\n/**\n * A material rendered with custom shaders. A shader is a small program written in GLSL.\n * that runs on the GPU. You may want to use a custom shader if you need to implement an\n * effect not included with any of the built-in materials.\n *\n * There are the following notes to bear in mind when using a `ShaderMaterial`:\n *\n * - `ShaderMaterial` can only be used with {@link WebGLRenderer}.\n * - Built in attributes and uniforms are passed to the shaders along with your code. If\n * you don't want that, use {@link RawShaderMaterial} instead.\n * - You can use the directive `#pragma unroll_loop_start` and `#pragma unroll_loop_end`\n * in order to unroll a `for` loop in GLSL by the shader preprocessor. The directive has\n * to be placed right above the loop. The loop formatting has to correspond to a defined standard.\n * - The loop has to be [normalized]{@link https://en.wikipedia.org/wiki/Normalized_loop}.\n * - The loop variable has to be *i*.\n * - The value `UNROLLED_LOOP_INDEX` will be replaced with the explicitly\n * value of *i* for the given iteration and can be used in preprocessor\n * statements.\n *\n * ```js\n * const material = new THREE.ShaderMaterial( {\n * \tuniforms: {\n * \t\ttime: { value: 1.0 },\n * \t\tresolution: { value: new THREE.Vector2() }\n * \t},\n * \tvertexShader: document.getElementById( 'vertexShader' ).textContent,\n * \tfragmentShader: document.getElementById( 'fragmentShader' ).textContent\n * } );\n * ```\n *\n * @augments Material\n */\nclass ShaderMaterial extends Material {\n\n\t/**\n\t * Constructs a new shader material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isShaderMaterial = true;\n\n\t\tthis.type = 'ShaderMaterial';\n\n\t\t/**\n\t\t * Defines custom constants using `#define` directives within the GLSL code\n\t\t * for both the vertex shader and the fragment shader; each key/value pair\n\t\t * yields another directive.\n\t\t * ```js\n\t\t * defines: {\n\t\t * \tFOO: 15,\n\t\t * \tBAR: true\n\t\t * }\n\t\t * ```\n\t\t * Yields the lines:\n\t\t * ```\n\t\t * #define FOO 15\n\t\t * #define BAR true\n\t\t * ```\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.defines = {};\n\n\t\t/**\n\t\t * An object of the form:\n\t\t * ```js\n\t\t * {\n\t\t * \t\"uniform1\": { value: 1.0 },\n\t\t * \t\"uniform2\": { value: 2 }\n\t\t * }\n\t\t * ```\n\t\t * specifying the uniforms to be passed to the shader code; keys are uniform\n\t\t * names, values are definitions of the form\n\t\t * ```\n\t\t * {\n\t\t * \tvalue: 1.0\n\t\t * }\n\t\t * ```\n\t\t * where `value` is the value of the uniform. Names must match the name of\n\t\t * the uniform, as defined in the GLSL code. Note that uniforms are refreshed\n\t\t * on every frame, so updating the value of the uniform will immediately\n\t\t * update the value available to the GLSL code.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.uniforms = {};\n\n\t\t/**\n\t\t * An array holding uniforms groups for configuring UBOs.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.uniformsGroups = [];\n\n\t\t/**\n\t\t * Vertex shader GLSL code. This is the actual code for the shader.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.vertexShader = default_vertex;\n\n\t\t/**\n\t\t * Fragment shader GLSL code. This is the actual code for the shader.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.fragmentShader = default_fragment;\n\n\t\t/**\n\t\t * Controls line thickness or lines.\n\t\t *\n\t\t * WebGL and WebGPU ignore this setting and always render line primitives with a\n\t\t * width of one pixel.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.linewidth = 1;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * WebGL and WebGPU ignore this property and always render\n\t\t * 1 pixel wide lines.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Define whether the material color is affected by global fog settings; `true`\n\t\t * to pass fog uniforms to the shader.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.fog = false;\n\n\t\t/**\n\t\t * Defines whether this material uses lighting; `true` to pass uniform data\n\t\t * related to lighting to this shader.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.lights = false;\n\n\t\t/**\n\t\t * Defines whether this material supports clipping; `true` to let the renderer\n\t\t * pass the clippingPlanes uniform.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clipping = false;\n\n\t\t/**\n\t\t * Overwritten and set to `true` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.forceSinglePass = true;\n\n\t\t/**\n\t\t * This object allows to enable certain WebGL 2 extensions.\n\t\t *\n\t\t * - clipCullDistance: set to `true` to use vertex shader clipping\n\t\t * - multiDraw: set to `true` to use vertex shader multi_draw / enable gl_DrawID\n\t\t *\n\t\t * @type {{clipCullDistance:false,multiDraw:false}}\n\t\t */\n\t\tthis.extensions = {\n\t\t\tclipCullDistance: false, // set to use vertex shader clipping\n\t\t\tmultiDraw: false // set to use vertex shader multi_draw / enable gl_DrawID\n\t\t};\n\n\t\t/**\n\t\t * When the rendered geometry doesn't include these attributes but the\n\t\t * material does, these default values will be passed to the shaders. This\n\t\t * avoids errors when buffer data is missing.\n\t\t *\n\t\t * - color: [ 1, 1, 1 ]\n\t\t * - uv: [ 0, 0 ]\n\t\t * - uv1: [ 0, 0 ]\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.defaultAttributeValues = {\n\t\t\t'color': [ 1, 1, 1 ],\n\t\t\t'uv': [ 0, 0 ],\n\t\t\t'uv1': [ 0, 0 ]\n\t\t};\n\n\t\t/**\n\t\t * If set, this calls [gl.bindAttribLocation]{@link https://developer.mozilla.org/en-US/docs/Web/API/WebGLRenderingContext/bindAttribLocation}\n\t\t * to bind a generic vertex index to an attribute variable.\n\t\t *\n\t\t * @type {string|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.index0AttributeName = undefined;\n\n\t\t/**\n\t\t * Can be used to force a uniform update while changing uniforms in\n\t\t * {@link Object3D#onBeforeRender}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.uniformsNeedUpdate = false;\n\n\t\t/**\n\t\t * Defines the GLSL version of custom shader code.\n\t\t *\n\t\t * @type {?(GLSL1|GLSL3)}\n\t\t * @default null\n\t\t */\n\t\tthis.glslVersion = null;\n\n\t\tif ( parameters !== undefined ) {\n\n\t\t\tthis.setValues( parameters );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.fragmentShader = source.fragmentShader;\n\t\tthis.vertexShader = source.vertexShader;\n\n\t\tthis.uniforms = cloneUniforms( source.uniforms );\n\t\tthis.uniformsGroups = cloneUniformsGroups( source.uniformsGroups );\n\n\t\tthis.defines = Object.assign( {}, source.defines );\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\n\t\tthis.fog = source.fog;\n\t\tthis.lights = source.lights;\n\t\tthis.clipping = source.clipping;\n\n\t\tthis.extensions = Object.assign( {}, source.extensions );\n\n\t\tthis.glslVersion = source.glslVersion;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.glslVersion = this.glslVersion;\n\t\tdata.uniforms = {};\n\n\t\tfor ( const name in this.uniforms ) {\n\n\t\t\tconst uniform = this.uniforms[ name ];\n\t\t\tconst value = uniform.value;\n\n\t\t\tif ( value && value.isTexture ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 't',\n\t\t\t\t\tvalue: value.toJSON( meta ).uuid\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isColor ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'c',\n\t\t\t\t\tvalue: value.getHex()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isVector2 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'v2',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isVector3 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'v3',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isVector4 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'v4',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isMatrix3 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'm3',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else if ( value && value.isMatrix4 ) {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\ttype: 'm4',\n\t\t\t\t\tvalue: value.toArray()\n\t\t\t\t};\n\n\t\t\t} else {\n\n\t\t\t\tdata.uniforms[ name ] = {\n\t\t\t\t\tvalue: value\n\t\t\t\t};\n\n\t\t\t\t// note: the array variants v2v, v3v, v4v, m4v and tv are not supported so far\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( Object.keys( this.defines ).length > 0 ) data.defines = this.defines;\n\n\t\tdata.vertexShader = this.vertexShader;\n\t\tdata.fragmentShader = this.fragmentShader;\n\n\t\tdata.lights = this.lights;\n\t\tdata.clipping = this.clipping;\n\n\t\tconst extensions = {};\n\n\t\tfor ( const key in this.extensions ) {\n\n\t\t\tif ( this.extensions[ key ] === true ) extensions[ key ] = true;\n\n\t\t}\n\n\t\tif ( Object.keys( extensions ).length > 0 ) data.extensions = extensions;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Abstract base class for cameras. This class should always be inherited\n * when you build a new camera.\n *\n * @abstract\n * @augments Object3D\n */\nclass Camera extends Object3D {\n\n\t/**\n\t * Constructs a new camera.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCamera = true;\n\n\t\tthis.type = 'Camera';\n\n\t\t/**\n\t\t * The inverse of the camera's world matrix.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrixWorldInverse = new Matrix4();\n\n\t\t/**\n\t\t * The camera's projection matrix.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.projectionMatrix = new Matrix4();\n\n\t\t/**\n\t\t * The inverse of the camera's projection matrix.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.projectionMatrixInverse = new Matrix4();\n\n\t\t/**\n\t\t * The coordinate system in which the camera is used.\n\t\t *\n\t\t * @type {(WebGLCoordinateSystem|WebGPUCoordinateSystem)}\n\t\t */\n\t\tthis.coordinateSystem = WebGLCoordinateSystem;\n\n\t\tthis._reversedDepth = false;\n\n\t}\n\n\t/**\n\t * The flag that indicates whether the camera uses a reversed depth buffer.\n\t *\n\t * @type {boolean}\n\t * @default false\n\t */\n\tget reversedDepth() {\n\n\t\treturn this._reversedDepth;\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.matrixWorldInverse.copy( source.matrixWorldInverse );\n\n\t\tthis.projectionMatrix.copy( source.projectionMatrix );\n\t\tthis.projectionMatrixInverse.copy( source.projectionMatrixInverse );\n\n\t\tthis.coordinateSystem = source.coordinateSystem;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a vector representing the (\"look\") direction of the 3D object in world space.\n\t *\n\t * This method is overwritten since cameras have a different forward vector compared to other\n\t * 3D objects. A camera looks down its local, negative z-axis by default.\n\t *\n\t * @param {Vector3} target - The target vector the result is stored to.\n\t * @return {Vector3} The 3D object's direction in world space.\n\t */\n\tgetWorldDirection( target ) {\n\n\t\treturn super.getWorldDirection( target ).negate();\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tthis.matrixWorldInverse.copy( this.matrixWorld ).invert();\n\n\t}\n\n\tupdateWorldMatrix( updateParents, updateChildren ) {\n\n\t\tsuper.updateWorldMatrix( updateParents, updateChildren );\n\n\t\tthis.matrixWorldInverse.copy( this.matrixWorld ).invert();\n\n\t}\n\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _v3$1 = /*@__PURE__*/ new Vector3();\nconst _minTarget = /*@__PURE__*/ new Vector2();\nconst _maxTarget = /*@__PURE__*/ new Vector2();\n\n/**\n * Camera that uses [perspective projection]{@link https://en.wikipedia.org/wiki/Perspective_(graphical)}.\n *\n * This projection mode is designed to mimic the way the human eye sees. It\n * is the most common projection mode used for rendering a 3D scene.\n *\n * ```js\n * const camera = new THREE.PerspectiveCamera( 45, width / height, 1, 1000 );\n * scene.add( camera );\n * ```\n *\n * @augments Camera\n */\nclass PerspectiveCamera extends Camera {\n\n\t/**\n\t * Constructs a new perspective camera.\n\t *\n\t * @param {number} [fov=50] - The vertical field of view.\n\t * @param {number} [aspect=1] - The aspect ratio.\n\t * @param {number} [near=0.1] - The camera's near plane.\n\t * @param {number} [far=2000] - The camera's far plane.\n\t */\n\tconstructor( fov = 50, aspect = 1, near = 0.1, far = 2000 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPerspectiveCamera = true;\n\n\t\tthis.type = 'PerspectiveCamera';\n\n\t\t/**\n\t\t * The vertical field of view, from bottom to top of view,\n\t\t * in degrees.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 50\n\t\t */\n\t\tthis.fov = fov;\n\n\t\t/**\n\t\t * The zoom factor of the camera.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.zoom = 1;\n\n\t\t/**\n\t\t * The camera's near plane. The valid range is greater than `0`\n\t\t * and less than the current value of {@link PerspectiveCamera#far}.\n\t\t *\n\t\t * Note that, unlike for the {@link OrthographicCamera}, `0` is not a\n\t\t * valid value for a perspective camera's near plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.1\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * The camera's far plane. Must be greater than the\n\t\t * current value of {@link PerspectiveCamera#near}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2000\n\t\t */\n\t\tthis.far = far;\n\n\t\t/**\n\t\t * Object distance used for stereoscopy and depth-of-field effects. This\n\t\t * parameter does not influence the projection matrix unless a\n\t\t * {@link StereoCamera} is being used.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 10\n\t\t */\n\t\tthis.focus = 10;\n\n\t\t/**\n\t\t * The aspect ratio, usually the canvas width / canvas height.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aspect = aspect;\n\n\t\t/**\n\t\t * Represents the frustum window specification. This property should not be edited\n\t\t * directly but via {@link PerspectiveCamera#setViewOffset} and {@link PerspectiveCamera#clearViewOffset}.\n\t\t *\n\t\t * @type {?Object}\n\t\t * @default null\n\t\t */\n\t\tthis.view = null;\n\n\t\t/**\n\t\t * Film size used for the larger axis. Default is `35` (millimeters). This\n\t\t * parameter does not influence the projection matrix unless {@link PerspectiveCamera#filmOffset}\n\t\t * is set to a nonzero value.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 35\n\t\t */\n\t\tthis.filmGauge = 35;\n\n\t\t/**\n\t\t * Horizontal off-center offset in the same unit as {@link PerspectiveCamera#filmGauge}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.filmOffset = 0;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.fov = source.fov;\n\t\tthis.zoom = source.zoom;\n\n\t\tthis.near = source.near;\n\t\tthis.far = source.far;\n\t\tthis.focus = source.focus;\n\n\t\tthis.aspect = source.aspect;\n\t\tthis.view = source.view === null ? null : Object.assign( {}, source.view );\n\n\t\tthis.filmGauge = source.filmGauge;\n\t\tthis.filmOffset = source.filmOffset;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the FOV by focal length in respect to the current {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * The default film gauge is 35, so that the focal length can be specified for\n\t * a 35mm (full frame) camera.\n\t *\n\t * @param {number} focalLength - Values for focal length and film gauge must have the same unit.\n\t */\n\tsetFocalLength( focalLength ) {\n\n\t\t/** see {@link http://www.bobatkins.com/photography/technical/field_of_view.html} */\n\t\tconst vExtentSlope = 0.5 * this.getFilmHeight() / focalLength;\n\n\t\tthis.fov = RAD2DEG * 2 * Math.atan( vExtentSlope );\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Returns the focal length from the current {@link PerspectiveCamera#fov} and\n\t * {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * @return {number} The computed focal length.\n\t */\n\tgetFocalLength() {\n\n\t\tconst vExtentSlope = Math.tan( DEG2RAD * 0.5 * this.fov );\n\n\t\treturn 0.5 * this.getFilmHeight() / vExtentSlope;\n\n\t}\n\n\t/**\n\t * Returns the current vertical field of view angle in degrees considering {@link PerspectiveCamera#zoom}.\n\t *\n\t * @return {number} The effective FOV.\n\t */\n\tgetEffectiveFOV() {\n\n\t\treturn RAD2DEG * 2 * Math.atan(\n\t\t\tMath.tan( DEG2RAD * 0.5 * this.fov ) / this.zoom );\n\n\t}\n\n\t/**\n\t * Returns the width of the image on the film. If {@link PerspectiveCamera#aspect} is greater than or\n\t * equal to one (landscape format), the result equals {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * @return {number} The film width.\n\t */\n\tgetFilmWidth() {\n\n\t\t// film not completely covered in portrait format (aspect < 1)\n\t\treturn this.filmGauge * Math.min( this.aspect, 1 );\n\n\t}\n\n\t/**\n\t * Returns the height of the image on the film. If {@link PerspectiveCamera#aspect} is greater than or\n\t * equal to one (landscape format), the result equals {@link PerspectiveCamera#filmGauge}.\n\t *\n\t * @return {number} The film width.\n\t */\n\tgetFilmHeight() {\n\n\t\t// film not completely covered in landscape format (aspect > 1)\n\t\treturn this.filmGauge / Math.max( this.aspect, 1 );\n\n\t}\n\n\t/**\n\t * Computes the 2D bounds of the camera's viewable rectangle at a given distance along the viewing direction.\n\t * Sets `minTarget` and `maxTarget` to the coordinates of the lower-left and upper-right corners of the view rectangle.\n\t *\n\t * @param {number} distance - The viewing distance.\n\t * @param {Vector2} minTarget - The lower-left corner of the view rectangle is written into this vector.\n\t * @param {Vector2} maxTarget - The upper-right corner of the view rectangle is written into this vector.\n\t */\n\tgetViewBounds( distance, minTarget, maxTarget ) {\n\n\t\t_v3$1.set( -1, -1, 0.5 ).applyMatrix4( this.projectionMatrixInverse );\n\n\t\tminTarget.set( _v3$1.x, _v3$1.y ).multiplyScalar( - distance / _v3$1.z );\n\n\t\t_v3$1.set( 1, 1, 0.5 ).applyMatrix4( this.projectionMatrixInverse );\n\n\t\tmaxTarget.set( _v3$1.x, _v3$1.y ).multiplyScalar( - distance / _v3$1.z );\n\n\t}\n\n\t/**\n\t * Computes the width and height of the camera's viewable rectangle at a given distance along the viewing direction.\n\t *\n\t * @param {number} distance - The viewing distance.\n\t * @param {Vector2} target - The target vector that is used to store result where x is width and y is height.\n\t * @returns {Vector2} The view size.\n\t */\n\tgetViewSize( distance, target ) {\n\n\t\tthis.getViewBounds( distance, _minTarget, _maxTarget );\n\n\t\treturn target.subVectors( _maxTarget, _minTarget );\n\n\t}\n\n\t/**\n\t * Sets an offset in a larger frustum. This is useful for multi-window or\n\t * multi-monitor/multi-machine setups.\n\t *\n\t * For example, if you have 3x2 monitors and each monitor is 1920x1080 and\n\t * the monitors are in grid like this\n\t *```\n\t * +---+---+---+\n\t * | A | B | C |\n\t * +---+---+---+\n\t * | D | E | F |\n\t * +---+---+---+\n\t *```\n\t * then for each monitor you would call it like this:\n\t *```js\n\t * const w = 1920;\n\t * const h = 1080;\n\t * const fullWidth = w * 3;\n\t * const fullHeight = h * 2;\n\t *\n\t * // --A--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 0, h * 0, w, h );\n\t * // --B--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 1, h * 0, w, h );\n\t * // --C--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 2, h * 0, w, h );\n\t * // --D--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 0, h * 1, w, h );\n\t * // --E--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 1, h * 1, w, h );\n\t * // --F--\n\t * camera.setViewOffset( fullWidth, fullHeight, w * 2, h * 1, w, h );\n\t * ```\n\t *\n\t * Note there is no reason monitors have to be the same size or in a grid.\n\t *\n\t * @param {number} fullWidth - The full width of multiview setup.\n\t * @param {number} fullHeight - The full height of multiview setup.\n\t * @param {number} x - The horizontal offset of the subcamera.\n\t * @param {number} y - The vertical offset of the subcamera.\n\t * @param {number} width - The width of subcamera.\n\t * @param {number} height - The height of subcamera.\n\t */\n\tsetViewOffset( fullWidth, fullHeight, x, y, width, height ) {\n\n\t\tthis.aspect = fullWidth / fullHeight;\n\n\t\tif ( this.view === null ) {\n\n\t\t\tthis.view = {\n\t\t\t\tenabled: true,\n\t\t\t\tfullWidth: 1,\n\t\t\t\tfullHeight: 1,\n\t\t\t\toffsetX: 0,\n\t\t\t\toffsetY: 0,\n\t\t\t\twidth: 1,\n\t\t\t\theight: 1\n\t\t\t};\n\n\t\t}\n\n\t\tthis.view.enabled = true;\n\t\tthis.view.fullWidth = fullWidth;\n\t\tthis.view.fullHeight = fullHeight;\n\t\tthis.view.offsetX = x;\n\t\tthis.view.offsetY = y;\n\t\tthis.view.width = width;\n\t\tthis.view.height = height;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Removes the view offset from the projection matrix.\n\t */\n\tclearViewOffset() {\n\n\t\tif ( this.view !== null ) {\n\n\t\t\tthis.view.enabled = false;\n\n\t\t}\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Updates the camera's projection matrix. Must be called after any change of\n\t * camera properties.\n\t */\n\tupdateProjectionMatrix() {\n\n\t\tconst near = this.near;\n\t\tlet top = near * Math.tan( DEG2RAD * 0.5 * this.fov ) / this.zoom;\n\t\tlet height = 2 * top;\n\t\tlet width = this.aspect * height;\n\t\tlet left = -0.5 * width;\n\t\tconst view = this.view;\n\n\t\tif ( this.view !== null && this.view.enabled ) {\n\n\t\t\tconst fullWidth = view.fullWidth,\n\t\t\t\tfullHeight = view.fullHeight;\n\n\t\t\tleft += view.offsetX * width / fullWidth;\n\t\t\ttop -= view.offsetY * height / fullHeight;\n\t\t\twidth *= view.width / fullWidth;\n\t\t\theight *= view.height / fullHeight;\n\n\t\t}\n\n\t\tconst skew = this.filmOffset;\n\t\tif ( skew !== 0 ) left += near * skew / this.getFilmWidth();\n\n\t\tthis.projectionMatrix.makePerspective( left, left + width, top, top - height, near, this.far, this.coordinateSystem, this.reversedDepth );\n\n\t\tthis.projectionMatrixInverse.copy( this.projectionMatrix ).invert();\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.fov = this.fov;\n\t\tdata.object.zoom = this.zoom;\n\n\t\tdata.object.near = this.near;\n\t\tdata.object.far = this.far;\n\t\tdata.object.focus = this.focus;\n\n\t\tdata.object.aspect = this.aspect;\n\n\t\tif ( this.view !== null ) data.object.view = Object.assign( {}, this.view );\n\n\t\tdata.object.filmGauge = this.filmGauge;\n\t\tdata.object.filmOffset = this.filmOffset;\n\n\t\treturn data;\n\n\t}\n\n}\n\nconst fov = -90; // negative fov is not an error\nconst aspect = 1;\n\n/**\n * A special type of camera that is positioned in 3D space to render its surroundings into a\n * cube render target. The render target can then be used as an environment map for rendering\n * realtime reflections in your scene.\n *\n * ```js\n * // Create cube render target\n * const cubeRenderTarget = new THREE.WebGLCubeRenderTarget( 256, { generateMipmaps: true, minFilter: THREE.LinearMipmapLinearFilter } );\n *\n * // Create cube camera\n * const cubeCamera = new THREE.CubeCamera( 1, 100000, cubeRenderTarget );\n * scene.add( cubeCamera );\n *\n * // Create car\n * const chromeMaterial = new THREE.MeshLambertMaterial( { color: 0xffffff, envMap: cubeRenderTarget.texture } );\n * const car = new THREE.Mesh( carGeometry, chromeMaterial );\n * scene.add( car );\n *\n * // Update the render target cube\n * car.visible = false;\n * cubeCamera.position.copy( car.position );\n * cubeCamera.update( renderer, scene );\n *\n * // Render the scene\n * car.visible = true;\n * renderer.render( scene, camera );\n * ```\n *\n * @augments Object3D\n */\nclass CubeCamera extends Object3D {\n\n\t/**\n\t * Constructs a new cube camera.\n\t *\n\t * @param {number} near - The camera's near plane.\n\t * @param {number} far - The camera's far plane.\n\t * @param {WebGLCubeRenderTarget} renderTarget - The cube render target.\n\t */\n\tconstructor( near, far, renderTarget ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CubeCamera';\n\n\t\t/**\n\t\t * A reference to the cube render target.\n\t\t *\n\t\t * @type {WebGLCubeRenderTarget}\n\t\t */\n\t\tthis.renderTarget = renderTarget;\n\n\t\t/**\n\t\t * The current active coordinate system.\n\t\t *\n\t\t * @type {?(WebGLCoordinateSystem|WebGPUCoordinateSystem)}\n\t\t * @default null\n\t\t */\n\t\tthis.coordinateSystem = null;\n\n\t\t/**\n\t\t * The current active mipmap level\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.activeMipmapLevel = 0;\n\n\t\tconst cameraPX = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraPX.layers = this.layers;\n\t\tthis.add( cameraPX );\n\n\t\tconst cameraNX = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraNX.layers = this.layers;\n\t\tthis.add( cameraNX );\n\n\t\tconst cameraPY = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraPY.layers = this.layers;\n\t\tthis.add( cameraPY );\n\n\t\tconst cameraNY = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraNY.layers = this.layers;\n\t\tthis.add( cameraNY );\n\n\t\tconst cameraPZ = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraPZ.layers = this.layers;\n\t\tthis.add( cameraPZ );\n\n\t\tconst cameraNZ = new PerspectiveCamera( fov, aspect, near, far );\n\t\tcameraNZ.layers = this.layers;\n\t\tthis.add( cameraNZ );\n\n\t}\n\n\t/**\n\t * Must be called when the coordinate system of the cube camera is changed.\n\t */\n\tupdateCoordinateSystem() {\n\n\t\tconst coordinateSystem = this.coordinateSystem;\n\n\t\tconst cameras = this.children.concat();\n\n\t\tconst [ cameraPX, cameraNX, cameraPY, cameraNY, cameraPZ, cameraNZ ] = cameras;\n\n\t\tfor ( const camera of cameras ) this.remove( camera );\n\n\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\tcameraPX.up.set( 0, 1, 0 );\n\t\t\tcameraPX.lookAt( 1, 0, 0 );\n\n\t\t\tcameraNX.up.set( 0, 1, 0 );\n\t\t\tcameraNX.lookAt( -1, 0, 0 );\n\n\t\t\tcameraPY.up.set( 0, 0, -1 );\n\t\t\tcameraPY.lookAt( 0, 1, 0 );\n\n\t\t\tcameraNY.up.set( 0, 0, 1 );\n\t\t\tcameraNY.lookAt( 0, -1, 0 );\n\n\t\t\tcameraPZ.up.set( 0, 1, 0 );\n\t\t\tcameraPZ.lookAt( 0, 0, 1 );\n\n\t\t\tcameraNZ.up.set( 0, 1, 0 );\n\t\t\tcameraNZ.lookAt( 0, 0, -1 );\n\n\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\tcameraPX.up.set( 0, -1, 0 );\n\t\t\tcameraPX.lookAt( -1, 0, 0 );\n\n\t\t\tcameraNX.up.set( 0, -1, 0 );\n\t\t\tcameraNX.lookAt( 1, 0, 0 );\n\n\t\t\tcameraPY.up.set( 0, 0, 1 );\n\t\t\tcameraPY.lookAt( 0, 1, 0 );\n\n\t\t\tcameraNY.up.set( 0, 0, -1 );\n\t\t\tcameraNY.lookAt( 0, -1, 0 );\n\n\t\t\tcameraPZ.up.set( 0, -1, 0 );\n\t\t\tcameraPZ.lookAt( 0, 0, 1 );\n\n\t\t\tcameraNZ.up.set( 0, -1, 0 );\n\t\t\tcameraNZ.lookAt( 0, 0, -1 );\n\n\t\t} else {\n\n\t\t\tthrow new Error( 'THREE.CubeCamera.updateCoordinateSystem(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t}\n\n\t\tfor ( const camera of cameras ) {\n\n\t\t\tthis.add( camera );\n\n\t\t\tcamera.updateMatrixWorld();\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Calling this method will render the given scene with the given renderer\n\t * into the cube render target of the camera.\n\t *\n\t * @param {(Renderer|WebGLRenderer)} renderer - The renderer.\n\t * @param {Scene} scene - The scene to render.\n\t */\n\tupdate( renderer, scene ) {\n\n\t\tif ( this.parent === null ) this.updateMatrixWorld();\n\n\t\tconst { renderTarget, activeMipmapLevel } = this;\n\n\t\tif ( this.coordinateSystem !== renderer.coordinateSystem ) {\n\n\t\t\tthis.coordinateSystem = renderer.coordinateSystem;\n\n\t\t\tthis.updateCoordinateSystem();\n\n\t\t}\n\n\t\tconst [ cameraPX, cameraNX, cameraPY, cameraNY, cameraPZ, cameraNZ ] = this.children;\n\n\t\tconst currentRenderTarget = renderer.getRenderTarget();\n\t\tconst currentActiveCubeFace = renderer.getActiveCubeFace();\n\t\tconst currentActiveMipmapLevel = renderer.getActiveMipmapLevel();\n\n\t\tconst currentXrEnabled = renderer.xr.enabled;\n\n\t\trenderer.xr.enabled = false;\n\n\t\tconst generateMipmaps = renderTarget.texture.generateMipmaps;\n\n\t\trenderTarget.texture.generateMipmaps = false;\n\n\t\trenderer.setRenderTarget( renderTarget, 0, activeMipmapLevel );\n\t\trenderer.render( scene, cameraPX );\n\n\t\trenderer.setRenderTarget( renderTarget, 1, activeMipmapLevel );\n\t\trenderer.render( scene, cameraNX );\n\n\t\trenderer.setRenderTarget( renderTarget, 2, activeMipmapLevel );\n\t\trenderer.render( scene, cameraPY );\n\n\t\trenderer.setRenderTarget( renderTarget, 3, activeMipmapLevel );\n\t\trenderer.render( scene, cameraNY );\n\n\t\trenderer.setRenderTarget( renderTarget, 4, activeMipmapLevel );\n\t\trenderer.render( scene, cameraPZ );\n\n\t\t// mipmaps are generated during the last call of render()\n\t\t// at this point, all sides of the cube render target are defined\n\n\t\trenderTarget.texture.generateMipmaps = generateMipmaps;\n\n\t\trenderer.setRenderTarget( renderTarget, 5, activeMipmapLevel );\n\t\trenderer.render( scene, cameraNZ );\n\n\t\trenderer.setRenderTarget( currentRenderTarget, currentActiveCubeFace, currentActiveMipmapLevel );\n\n\t\trenderer.xr.enabled = currentXrEnabled;\n\n\t\trenderTarget.texture.needsPMREMUpdate = true;\n\n\t}\n\n}\n\n/**\n * Creates a cube texture made up of six images.\n *\n * ```js\n * const loader = new THREE.CubeTextureLoader();\n * loader.setPath( 'textures/cube/pisa/' );\n *\n * const textureCube = loader.load( [\n * \t'px.png', 'nx.png', 'py.png', 'ny.png', 'pz.png', 'nz.png'\n * ] );\n *\n * const material = new THREE.MeshBasicMaterial( { color: 0xffffff, envMap: textureCube } );\n * ```\n *\n * @augments Texture\n */\nclass CubeTexture extends Texture {\n\n\t/**\n\t * Constructs a new cube texture.\n\t *\n\t * @param {Array} [images=[]] - An array holding a image for each side of a cube.\n\t * @param {number} [mapping=CubeReflectionMapping] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space value.\n\t */\n\tconstructor( images = [], mapping = CubeReflectionMapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace ) {\n\n\t\tsuper( images, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubeTexture = true;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t}\n\n\t/**\n\t * Alias for {@link CubeTexture#image}.\n\t *\n\t * @type {Array}\n\t */\n\tget images() {\n\n\t\treturn this.image;\n\n\t}\n\n\tset images( value ) {\n\n\t\tthis.image = value;\n\n\t}\n\n}\n\n/**\n * A cube render target used in context of {@link WebGLRenderer}.\n *\n * @augments WebGLRenderTarget\n */\nclass WebGLCubeRenderTarget extends WebGLRenderTarget {\n\n\t/**\n\t * Constructs a new cube render target.\n\t *\n\t * @param {number} [size=1] - The size of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( size = 1, options = {} ) {\n\n\t\tsuper( size, size, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isWebGLCubeRenderTarget = true;\n\n\t\tconst image = { width: size, height: size, depth: 1 };\n\t\tconst images = [ image, image, image, image, image, image ];\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {DataArrayTexture}\n\t\t */\n\t\tthis.texture = new CubeTexture( images );\n\t\tthis._setTextureOptions( options );\n\n\t\t// By convention -- likely based on the RenderMan spec from the 1990's -- cube maps are specified by WebGL (and three.js)\n\t\t// in a coordinate system in which positive-x is to the right when looking up the positive-z axis -- in other words,\n\t\t// in a left-handed coordinate system. By continuing this convention, preexisting cube maps continued to render correctly.\n\n\t\t// three.js uses a right-handed coordinate system. So environment maps used in three.js appear to have px and nx swapped\n\t\t// and the flag isRenderTargetTexture controls this conversion. The flip is not required when using WebGLCubeRenderTarget.texture\n\t\t// as a cube texture (this is detected when isRenderTargetTexture is set to true for cube textures).\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n\t/**\n\t * Converts the given equirectangular texture to a cube map.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {Texture} texture - The equirectangular texture.\n\t * @return {WebGLCubeRenderTarget} A reference to this cube render target.\n\t */\n\tfromEquirectangularTexture( renderer, texture ) {\n\n\t\tthis.texture.type = texture.type;\n\t\tthis.texture.colorSpace = texture.colorSpace;\n\n\t\tthis.texture.generateMipmaps = texture.generateMipmaps;\n\t\tthis.texture.minFilter = texture.minFilter;\n\t\tthis.texture.magFilter = texture.magFilter;\n\n\t\tconst shader = {\n\n\t\t\tuniforms: {\n\t\t\t\ttEquirect: { value: null },\n\t\t\t},\n\n\t\t\tvertexShader: /* glsl */`\n\n\t\t\t\tvarying vec3 vWorldDirection;\n\n\t\t\t\tvec3 transformDirection( in vec3 dir, in mat4 matrix ) {\n\n\t\t\t\t\treturn normalize( ( matrix * vec4( dir, 0.0 ) ).xyz );\n\n\t\t\t\t}\n\n\t\t\t\tvoid main() {\n\n\t\t\t\t\tvWorldDirection = transformDirection( position, modelMatrix );\n\n\t\t\t\t\t#include \n\t\t\t\t\t#include \n\n\t\t\t\t}\n\t\t\t`,\n\n\t\t\tfragmentShader: /* glsl */`\n\n\t\t\t\tuniform sampler2D tEquirect;\n\n\t\t\t\tvarying vec3 vWorldDirection;\n\n\t\t\t\t#include \n\n\t\t\t\tvoid main() {\n\n\t\t\t\t\tvec3 direction = normalize( vWorldDirection );\n\n\t\t\t\t\tvec2 sampleUV = equirectUv( direction );\n\n\t\t\t\t\tgl_FragColor = texture2D( tEquirect, sampleUV );\n\n\t\t\t\t}\n\t\t\t`\n\t\t};\n\n\t\tconst geometry = new BoxGeometry( 5, 5, 5 );\n\n\t\tconst material = new ShaderMaterial( {\n\n\t\t\tname: 'CubemapFromEquirect',\n\n\t\t\tuniforms: cloneUniforms( shader.uniforms ),\n\t\t\tvertexShader: shader.vertexShader,\n\t\t\tfragmentShader: shader.fragmentShader,\n\t\t\tside: BackSide,\n\t\t\tblending: NoBlending\n\n\t\t} );\n\n\t\tmaterial.uniforms.tEquirect.value = texture;\n\n\t\tconst mesh = new Mesh( geometry, material );\n\n\t\tconst currentMinFilter = texture.minFilter;\n\n\t\t// Avoid blurred poles\n\t\tif ( texture.minFilter === LinearMipmapLinearFilter ) texture.minFilter = LinearFilter;\n\n\t\tconst camera = new CubeCamera( 1, 10, this );\n\t\tcamera.update( renderer, mesh );\n\n\t\ttexture.minFilter = currentMinFilter;\n\n\t\tmesh.geometry.dispose();\n\t\tmesh.material.dispose();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Clears this cube render target.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {boolean} [color=true] - Whether the color buffer should be cleared or not.\n\t * @param {boolean} [depth=true] - Whether the depth buffer should be cleared or not.\n\t * @param {boolean} [stencil=true] - Whether the stencil buffer should be cleared or not.\n\t */\n\tclear( renderer, color = true, depth = true, stencil = true ) {\n\n\t\tconst currentRenderTarget = renderer.getRenderTarget();\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\trenderer.setRenderTarget( this, i );\n\n\t\t\trenderer.clear( color, depth, stencil );\n\n\t\t}\n\n\t\trenderer.setRenderTarget( currentRenderTarget );\n\n\t}\n\n}\n\n/**\n * This is almost identical to an {@link Object3D}. Its purpose is to\n * make working with groups of objects syntactically clearer.\n *\n * ```js\n * // Create a group and add the two cubes.\n * // These cubes can now be rotated / scaled etc as a group.\n * const group = new THREE.Group();\n *\n * group.add( meshA );\n * group.add( meshB );\n *\n * scene.add( group );\n * ```\n *\n * @augments Object3D\n */\nclass Group extends Object3D {\n\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isGroup = true;\n\n\t\tthis.type = 'Group';\n\n\t}\n\n}\n\nconst _moveEvent = { type: 'move' };\n\n/**\n * Class for representing a XR controller with its\n * different coordinate systems.\n *\n * @private\n */\nclass WebXRController {\n\n\t/**\n\t * Constructs a new XR controller.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * A group representing the target ray space\n\t\t * of the XR controller.\n\t\t *\n\t\t * @private\n\t\t * @type {?Group}\n\t\t * @default null\n\t\t */\n\t\tthis._targetRay = null;\n\n\t\t/**\n\t\t * A group representing the grip space\n\t\t * of the XR controller.\n\t\t *\n\t\t * @private\n\t\t * @type {?Group}\n\t\t * @default null\n\t\t */\n\t\tthis._grip = null;\n\n\t\t/**\n\t\t * A group representing the hand space\n\t\t * of the XR controller.\n\t\t *\n\t\t * @private\n\t\t * @type {?Group}\n\t\t * @default null\n\t\t */\n\t\tthis._hand = null;\n\n\t}\n\n\t/**\n\t * Returns a group representing the hand space of the XR controller.\n\t *\n\t * @return {Group} A group representing the hand space of the XR controller.\n\t */\n\tgetHandSpace() {\n\n\t\tif ( this._hand === null ) {\n\n\t\t\tthis._hand = new Group();\n\t\t\tthis._hand.matrixAutoUpdate = false;\n\t\t\tthis._hand.visible = false;\n\n\t\t\tthis._hand.joints = {};\n\t\t\tthis._hand.inputState = { pinching: false };\n\n\t\t}\n\n\t\treturn this._hand;\n\n\t}\n\n\t/**\n\t * Returns a group representing the target ray space of the XR controller.\n\t *\n\t * @return {Group} A group representing the target ray space of the XR controller.\n\t */\n\tgetTargetRaySpace() {\n\n\t\tif ( this._targetRay === null ) {\n\n\t\t\tthis._targetRay = new Group();\n\t\t\tthis._targetRay.matrixAutoUpdate = false;\n\t\t\tthis._targetRay.visible = false;\n\t\t\tthis._targetRay.hasLinearVelocity = false;\n\t\t\tthis._targetRay.linearVelocity = new Vector3();\n\t\t\tthis._targetRay.hasAngularVelocity = false;\n\t\t\tthis._targetRay.angularVelocity = new Vector3();\n\n\t\t}\n\n\t\treturn this._targetRay;\n\n\t}\n\n\t/**\n\t * Returns a group representing the grip space of the XR controller.\n\t *\n\t * @return {Group} A group representing the grip space of the XR controller.\n\t */\n\tgetGripSpace() {\n\n\t\tif ( this._grip === null ) {\n\n\t\t\tthis._grip = new Group();\n\t\t\tthis._grip.matrixAutoUpdate = false;\n\t\t\tthis._grip.visible = false;\n\t\t\tthis._grip.hasLinearVelocity = false;\n\t\t\tthis._grip.linearVelocity = new Vector3();\n\t\t\tthis._grip.hasAngularVelocity = false;\n\t\t\tthis._grip.angularVelocity = new Vector3();\n\n\t\t}\n\n\t\treturn this._grip;\n\n\t}\n\n\t/**\n\t * Dispatches the given event to the groups representing\n\t * the different coordinate spaces of the XR controller.\n\t *\n\t * @param {Object} event - The event to dispatch.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tdispatchEvent( event ) {\n\n\t\tif ( this._targetRay !== null ) {\n\n\t\t\tthis._targetRay.dispatchEvent( event );\n\n\t\t}\n\n\t\tif ( this._grip !== null ) {\n\n\t\t\tthis._grip.dispatchEvent( event );\n\n\t\t}\n\n\t\tif ( this._hand !== null ) {\n\n\t\t\tthis._hand.dispatchEvent( event );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Connects the controller with the given XR input source.\n\t *\n\t * @param {XRInputSource} inputSource - The input source.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tconnect( inputSource ) {\n\n\t\tif ( inputSource && inputSource.hand ) {\n\n\t\t\tconst hand = this._hand;\n\n\t\t\tif ( hand ) {\n\n\t\t\t\tfor ( const inputjoint of inputSource.hand.values() ) {\n\n\t\t\t\t\t// Initialize hand with joints when connected\n\t\t\t\t\tthis._getHandJoint( hand, inputjoint );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.dispatchEvent( { type: 'connected', data: inputSource } );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Disconnects the controller from the given XR input source.\n\t *\n\t * @param {XRInputSource} inputSource - The input source.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tdisconnect( inputSource ) {\n\n\t\tthis.dispatchEvent( { type: 'disconnected', data: inputSource } );\n\n\t\tif ( this._targetRay !== null ) {\n\n\t\t\tthis._targetRay.visible = false;\n\n\t\t}\n\n\t\tif ( this._grip !== null ) {\n\n\t\t\tthis._grip.visible = false;\n\n\t\t}\n\n\t\tif ( this._hand !== null ) {\n\n\t\t\tthis._hand.visible = false;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Updates the controller with the given input source, XR frame and reference space.\n\t * This updates the transformations of the groups that represent the different\n\t * coordinate systems of the controller.\n\t *\n\t * @param {XRInputSource} inputSource - The input source.\n\t * @param {XRFrame} frame - The XR frame.\n\t * @param {XRReferenceSpace} referenceSpace - The reference space.\n\t * @return {WebXRController} A reference to this instance.\n\t */\n\tupdate( inputSource, frame, referenceSpace ) {\n\n\t\tlet inputPose = null;\n\t\tlet gripPose = null;\n\t\tlet handPose = null;\n\n\t\tconst targetRay = this._targetRay;\n\t\tconst grip = this._grip;\n\t\tconst hand = this._hand;\n\n\t\tif ( inputSource && frame.session.visibilityState !== 'visible-blurred' ) {\n\n\t\t\tif ( hand && inputSource.hand ) {\n\n\t\t\t\thandPose = true;\n\n\t\t\t\tfor ( const inputjoint of inputSource.hand.values() ) {\n\n\t\t\t\t\t// Update the joints groups with the XRJoint poses\n\t\t\t\t\tconst jointPose = frame.getJointPose( inputjoint, referenceSpace );\n\n\t\t\t\t\t// The transform of this joint will be updated with the joint pose on each frame\n\t\t\t\t\tconst joint = this._getHandJoint( hand, inputjoint );\n\n\t\t\t\t\tif ( jointPose !== null ) {\n\n\t\t\t\t\t\tjoint.matrix.fromArray( jointPose.transform.matrix );\n\t\t\t\t\t\tjoint.matrix.decompose( joint.position, joint.rotation, joint.scale );\n\t\t\t\t\t\tjoint.matrixWorldNeedsUpdate = true;\n\t\t\t\t\t\tjoint.jointRadius = jointPose.radius;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tjoint.visible = jointPose !== null;\n\n\t\t\t\t}\n\n\t\t\t\t// Custom events\n\n\t\t\t\t// Check pinchz\n\t\t\t\tconst indexTip = hand.joints[ 'index-finger-tip' ];\n\t\t\t\tconst thumbTip = hand.joints[ 'thumb-tip' ];\n\t\t\t\tconst distance = indexTip.position.distanceTo( thumbTip.position );\n\n\t\t\t\tconst distanceToPinch = 0.02;\n\t\t\t\tconst threshold = 0.005;\n\n\t\t\t\tif ( hand.inputState.pinching && distance > distanceToPinch + threshold ) {\n\n\t\t\t\t\thand.inputState.pinching = false;\n\t\t\t\t\tthis.dispatchEvent( {\n\t\t\t\t\t\ttype: 'pinchend',\n\t\t\t\t\t\thandedness: inputSource.handedness,\n\t\t\t\t\t\ttarget: this\n\t\t\t\t\t} );\n\n\t\t\t\t} else if ( ! hand.inputState.pinching && distance <= distanceToPinch - threshold ) {\n\n\t\t\t\t\thand.inputState.pinching = true;\n\t\t\t\t\tthis.dispatchEvent( {\n\t\t\t\t\t\ttype: 'pinchstart',\n\t\t\t\t\t\thandedness: inputSource.handedness,\n\t\t\t\t\t\ttarget: this\n\t\t\t\t\t} );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tif ( grip !== null && inputSource.gripSpace ) {\n\n\t\t\t\t\tgripPose = frame.getPose( inputSource.gripSpace, referenceSpace );\n\n\t\t\t\t\tif ( gripPose !== null ) {\n\n\t\t\t\t\t\tgrip.matrix.fromArray( gripPose.transform.matrix );\n\t\t\t\t\t\tgrip.matrix.decompose( grip.position, grip.rotation, grip.scale );\n\t\t\t\t\t\tgrip.matrixWorldNeedsUpdate = true;\n\n\t\t\t\t\t\tif ( gripPose.linearVelocity ) {\n\n\t\t\t\t\t\t\tgrip.hasLinearVelocity = true;\n\t\t\t\t\t\t\tgrip.linearVelocity.copy( gripPose.linearVelocity );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tgrip.hasLinearVelocity = false;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tif ( gripPose.angularVelocity ) {\n\n\t\t\t\t\t\t\tgrip.hasAngularVelocity = true;\n\t\t\t\t\t\t\tgrip.angularVelocity.copy( gripPose.angularVelocity );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tgrip.hasAngularVelocity = false;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( targetRay !== null ) {\n\n\t\t\t\tinputPose = frame.getPose( inputSource.targetRaySpace, referenceSpace );\n\n\t\t\t\t// Some runtimes (namely Vive Cosmos with Vive OpenXR Runtime) have only grip space and ray space is equal to it\n\t\t\t\tif ( inputPose === null && gripPose !== null ) {\n\n\t\t\t\t\tinputPose = gripPose;\n\n\t\t\t\t}\n\n\t\t\t\tif ( inputPose !== null ) {\n\n\t\t\t\t\ttargetRay.matrix.fromArray( inputPose.transform.matrix );\n\t\t\t\t\ttargetRay.matrix.decompose( targetRay.position, targetRay.rotation, targetRay.scale );\n\t\t\t\t\ttargetRay.matrixWorldNeedsUpdate = true;\n\n\t\t\t\t\tif ( inputPose.linearVelocity ) {\n\n\t\t\t\t\t\ttargetRay.hasLinearVelocity = true;\n\t\t\t\t\t\ttargetRay.linearVelocity.copy( inputPose.linearVelocity );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ttargetRay.hasLinearVelocity = false;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( inputPose.angularVelocity ) {\n\n\t\t\t\t\t\ttargetRay.hasAngularVelocity = true;\n\t\t\t\t\t\ttargetRay.angularVelocity.copy( inputPose.angularVelocity );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ttargetRay.hasAngularVelocity = false;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tthis.dispatchEvent( _moveEvent );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\n\t\t}\n\n\t\tif ( targetRay !== null ) {\n\n\t\t\ttargetRay.visible = ( inputPose !== null );\n\n\t\t}\n\n\t\tif ( grip !== null ) {\n\n\t\t\tgrip.visible = ( gripPose !== null );\n\n\t\t}\n\n\t\tif ( hand !== null ) {\n\n\t\t\thand.visible = ( handPose !== null );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a group representing the hand joint for the given input joint.\n\t *\n\t * @private\n\t * @param {Group} hand - The group representing the hand space.\n\t * @param {XRJointSpace} inputjoint - The hand joint data.\n\t * @return {Group} A group representing the hand joint for the given input joint.\n\t */\n\t_getHandJoint( hand, inputjoint ) {\n\n\t\tif ( hand.joints[ inputjoint.jointName ] === undefined ) {\n\n\t\t\tconst joint = new Group();\n\t\t\tjoint.matrixAutoUpdate = false;\n\t\t\tjoint.visible = false;\n\t\t\thand.joints[ inputjoint.jointName ] = joint;\n\n\t\t\thand.add( joint );\n\n\t\t}\n\n\t\treturn hand.joints[ inputjoint.jointName ];\n\n\t}\n\n}\n\n/**\n * This class can be used to define an exponential squared fog,\n * which gives a clear view near the camera and a faster than exponentially\n * densening fog farther from the camera.\n *\n * ```js\n * const scene = new THREE.Scene();\n * scene.fog = new THREE.FogExp2( 0xcccccc, 0.002 );\n * ```\n */\nclass FogExp2 {\n\n\t/**\n\t * Constructs a new fog.\n\t *\n\t * @param {number|Color} color - The fog's color.\n\t * @param {number} [density=0.00025] - Defines how fast the fog will grow dense.\n\t */\n\tconstructor( color, density = 0.00025 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isFogExp2 = true;\n\n\t\t/**\n\t\t * The name of the fog.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The fog's color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color( color );\n\n\t\t/**\n\t\t * Defines how fast the fog will grow dense.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.00025\n\t\t */\n\t\tthis.density = density;\n\n\t}\n\n\t/**\n\t * Returns a new fog with copied values from this instance.\n\t *\n\t * @return {FogExp2} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new FogExp2( this.color, this.density );\n\n\t}\n\n\t/**\n\t * Serializes the fog into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized fog\n\t */\n\ttoJSON( /* meta */ ) {\n\n\t\treturn {\n\t\t\ttype: 'FogExp2',\n\t\t\tname: this.name,\n\t\t\tcolor: this.color.getHex(),\n\t\t\tdensity: this.density\n\t\t};\n\n\t}\n\n}\n\n/**\n * This class can be used to define a linear fog that grows linearly denser\n * with the distance.\n *\n * ```js\n * const scene = new THREE.Scene();\n * scene.fog = new THREE.Fog( 0xcccccc, 10, 15 );\n * ```\n */\nclass Fog {\n\n\t/**\n\t * Constructs a new fog.\n\t *\n\t * @param {number|Color} color - The fog's color.\n\t * @param {number} [near=1] - The minimum distance to start applying fog.\n\t * @param {number} [far=1000] - The maximum distance at which fog stops being calculated and applied.\n\t */\n\tconstructor( color, near = 1, far = 1000 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isFog = true;\n\n\t\t/**\n\t\t * The name of the fog.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The fog's color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color( color );\n\n\t\t/**\n\t\t * The minimum distance to start applying fog. Objects that are less than\n\t\t * `near` units from the active camera won't be affected by fog.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * The maximum distance at which fog stops being calculated and applied.\n\t\t * Objects that are more than `far` units away from the active camera won't\n\t\t * be affected by fog.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1000\n\t\t */\n\t\tthis.far = far;\n\n\t}\n\n\t/**\n\t * Returns a new fog with copied values from this instance.\n\t *\n\t * @return {Fog} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Fog( this.color, this.near, this.far );\n\n\t}\n\n\t/**\n\t * Serializes the fog into JSON.\n\t *\n\t * @param {?(Object|string)} meta - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized fog\n\t */\n\ttoJSON( /* meta */ ) {\n\n\t\treturn {\n\t\t\ttype: 'Fog',\n\t\t\tname: this.name,\n\t\t\tcolor: this.color.getHex(),\n\t\t\tnear: this.near,\n\t\t\tfar: this.far\n\t\t};\n\n\t}\n\n}\n\n/**\n * Scenes allow you to set up what is to be rendered and where by three.js.\n * This is where you place 3D objects like meshes, lines or lights.\n *\n * @augments Object3D\n */\nclass Scene extends Object3D {\n\n\t/**\n\t * Constructs a new scene.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isScene = true;\n\n\t\tthis.type = 'Scene';\n\n\t\t/**\n\t\t * Defines the background of the scene. Valid inputs are:\n\t\t *\n\t\t * - A color for defining a uniform colored background.\n\t\t * - A texture for defining a (flat) textured background.\n\t\t * - Cube textures or equirectangular textures for defining a skybox.\n\t\t *\n\t\t * @type {?(Color|Texture)}\n\t\t * @default null\n\t\t */\n\t\tthis.background = null;\n\n\t\t/**\n\t\t * Sets the environment map for all physical materials in the scene. However,\n\t\t * it's not possible to overwrite an existing texture assigned to the `envMap`\n\t\t * material property.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.environment = null;\n\n\t\t/**\n\t\t * A fog instance defining the type of fog that affects everything\n\t\t * rendered in the scene.\n\t\t *\n\t\t * @type {?(Fog|FogExp2)}\n\t\t * @default null\n\t\t */\n\t\tthis.fog = null;\n\n\t\t/**\n\t\t * Sets the blurriness of the background. Only influences environment maps\n\t\t * assigned to {@link Scene#background}. Valid input is a float between `0`\n\t\t * and `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.backgroundBlurriness = 0;\n\n\t\t/**\n\t\t * Attenuates the color of the background. Only applies to background textures.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.backgroundIntensity = 1;\n\n\t\t/**\n\t\t * The rotation of the background in radians. Only influences environment maps\n\t\t * assigned to {@link Scene#background}.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.backgroundRotation = new Euler();\n\n\t\t/**\n\t\t * Attenuates the color of the environment. Only influences environment maps\n\t\t * assigned to {@link Scene#environment}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.environmentIntensity = 1;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians. Only influences physical materials\n\t\t * in the scene when {@link Scene#environment} is used.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.environmentRotation = new Euler();\n\n\t\t/**\n\t\t * Forces everything in the scene to be rendered with the defined material. It is possible\n\t\t * to exclude materials from override by setting {@link Material#allowOverride} to `false`.\n\t\t *\n\t\t * @type {?Material}\n\t\t * @default null\n\t\t */\n\t\tthis.overrideMaterial = null;\n\n\t\tif ( typeof __THREE_DEVTOOLS__ !== 'undefined' ) {\n\n\t\t\t__THREE_DEVTOOLS__.dispatchEvent( new CustomEvent( 'observe', { detail: this } ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.background !== null ) this.background = source.background.clone();\n\t\tif ( source.environment !== null ) this.environment = source.environment.clone();\n\t\tif ( source.fog !== null ) this.fog = source.fog.clone();\n\n\t\tthis.backgroundBlurriness = source.backgroundBlurriness;\n\t\tthis.backgroundIntensity = source.backgroundIntensity;\n\t\tthis.backgroundRotation.copy( source.backgroundRotation );\n\n\t\tthis.environmentIntensity = source.environmentIntensity;\n\t\tthis.environmentRotation.copy( source.environmentRotation );\n\n\t\tif ( source.overrideMaterial !== null ) this.overrideMaterial = source.overrideMaterial.clone();\n\n\t\tthis.matrixAutoUpdate = source.matrixAutoUpdate;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tif ( this.fog !== null ) data.object.fog = this.fog.toJSON();\n\n\t\tif ( this.backgroundBlurriness > 0 ) data.object.backgroundBlurriness = this.backgroundBlurriness;\n\t\tif ( this.backgroundIntensity !== 1 ) data.object.backgroundIntensity = this.backgroundIntensity;\n\t\tdata.object.backgroundRotation = this.backgroundRotation.toArray();\n\n\t\tif ( this.environmentIntensity !== 1 ) data.object.environmentIntensity = this.environmentIntensity;\n\t\tdata.object.environmentRotation = this.environmentRotation.toArray();\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * \"Interleaved\" means that multiple attributes, possibly of different types,\n * (e.g., position, normal, uv, color) are packed into a single array buffer.\n *\n * An introduction into interleaved arrays can be found here: [Interleaved array basics]{@link https://blog.tojicode.com/2011/05/interleaved-array-basics.html}\n */\nclass InterleavedBuffer {\n\n\t/**\n\t * Constructs a new interleaved buffer.\n\t *\n\t * @param {TypedArray} array - A typed array with a shared buffer storing attribute data.\n\t * @param {number} stride - The number of typed-array elements per vertex.\n\t */\n\tconstructor( array, stride ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInterleavedBuffer = true;\n\n\t\t/**\n\t\t * A typed array with a shared buffer storing attribute data.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.array = array;\n\n\t\t/**\n\t\t * The number of typed-array elements per vertex.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.stride = stride;\n\n\t\t/**\n\t\t * The total number of elements in the array\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tthis.count = array !== undefined ? array.length / stride : 0;\n\n\t\t/**\n\t\t * Defines the intended usage pattern of the data store for optimization purposes.\n\t\t *\n\t\t * Note: After the initial use of a buffer, its usage cannot be changed. Instead,\n\t\t * instantiate a new one and set the desired usage before the next render.\n\t\t *\n\t\t * @type {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)}\n\t\t * @default StaticDrawUsage\n\t\t */\n\t\tthis.usage = StaticDrawUsage;\n\n\t\t/**\n\t\t * This can be used to only update some components of stored vectors (for example, just the\n\t\t * component related to color). Use the `addUpdateRange()` function to add ranges to this array.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.updateRanges = [];\n\n\t\t/**\n\t\t * A version number, incremented every time the `needsUpdate` is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.version = 0;\n\n\t\t/**\n\t\t * The UUID of the interleaved buffer.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t}\n\n\t/**\n\t * A callback function that is executed after the renderer has transferred the attribute array\n\t * data to the GPU.\n\t */\n\tonUploadCallback() {}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Sets the usage of this interleaved buffer.\n\t *\n\t * @param {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)} value - The usage to set.\n\t * @return {InterleavedBuffer} A reference to this interleaved buffer.\n\t */\n\tsetUsage( value ) {\n\n\t\tthis.usage = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds a range of data in the data array to be updated on the GPU.\n\t *\n\t * @param {number} start - Position at which to start update.\n\t * @param {number} count - The number of components to update.\n\t */\n\taddUpdateRange( start, count ) {\n\n\t\tthis.updateRanges.push( { start, count } );\n\n\t}\n\n\t/**\n\t * Clears the update ranges.\n\t */\n\tclearUpdateRanges() {\n\n\t\tthis.updateRanges.length = 0;\n\n\t}\n\n\t/**\n\t * Copies the values of the given interleaved buffer to this instance.\n\t *\n\t * @param {InterleavedBuffer} source - The interleaved buffer to copy.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.array = new source.array.constructor( source.array );\n\t\tthis.count = source.count;\n\t\tthis.stride = source.stride;\n\t\tthis.usage = source.usage;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies a vector from the given interleaved buffer to this one. The start\n\t * and destination position in the attribute buffers are represented by the\n\t * given indices.\n\t *\n\t * @param {number} index1 - The destination index into this interleaved buffer.\n\t * @param {InterleavedBuffer} interleavedBuffer - The interleaved buffer to copy from.\n\t * @param {number} index2 - The source index into the given interleaved buffer.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tcopyAt( index1, interleavedBuffer, index2 ) {\n\n\t\tindex1 *= this.stride;\n\t\tindex2 *= interleavedBuffer.stride;\n\n\t\tfor ( let i = 0, l = this.stride; i < l; i ++ ) {\n\n\t\t\tthis.array[ index1 + i ] = interleavedBuffer.array[ index2 + i ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given array data in the interleaved buffer.\n\t *\n\t * @param {(TypedArray|Array)} value - The array data to set.\n\t * @param {number} [offset=0] - The offset in this interleaved buffer's array.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tset( value, offset = 0 ) {\n\n\t\tthis.array.set( value, offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new interleaved buffer with copied values from this instance.\n\t *\n\t * @param {Object} [data] - An object with shared array buffers that allows to retain shared structures.\n\t * @return {InterleavedBuffer} A clone of this instance.\n\t */\n\tclone( data ) {\n\n\t\tif ( data.arrayBuffers === undefined ) {\n\n\t\t\tdata.arrayBuffers = {};\n\n\t\t}\n\n\t\tif ( this.array.buffer._uuid === undefined ) {\n\n\t\t\tthis.array.buffer._uuid = generateUUID();\n\n\t\t}\n\n\t\tif ( data.arrayBuffers[ this.array.buffer._uuid ] === undefined ) {\n\n\t\t\tdata.arrayBuffers[ this.array.buffer._uuid ] = this.array.slice( 0 ).buffer;\n\n\t\t}\n\n\t\tconst array = new this.array.constructor( data.arrayBuffers[ this.array.buffer._uuid ] );\n\n\t\tconst ib = new this.constructor( array, this.stride );\n\t\tib.setUsage( this.usage );\n\n\t\treturn ib;\n\n\t}\n\n\t/**\n\t * Sets the given callback function that is executed after the Renderer has transferred\n\t * the array data to the GPU. Can be used to perform clean-up operations after\n\t * the upload when data are not needed anymore on the CPU side.\n\t *\n\t * @param {Function} callback - The `onUpload()` callback.\n\t * @return {InterleavedBuffer} A reference to this instance.\n\t */\n\tonUpload( callback ) {\n\n\t\tthis.onUploadCallback = callback;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Serializes the interleaved buffer into JSON.\n\t *\n\t * @param {Object} [data] - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized interleaved buffer.\n\t */\n\ttoJSON( data ) {\n\n\t\tif ( data.arrayBuffers === undefined ) {\n\n\t\t\tdata.arrayBuffers = {};\n\n\t\t}\n\n\t\t// generate UUID for array buffer if necessary\n\n\t\tif ( this.array.buffer._uuid === undefined ) {\n\n\t\t\tthis.array.buffer._uuid = generateUUID();\n\n\t\t}\n\n\t\tif ( data.arrayBuffers[ this.array.buffer._uuid ] === undefined ) {\n\n\t\t\tdata.arrayBuffers[ this.array.buffer._uuid ] = Array.from( new Uint32Array( this.array.buffer ) );\n\n\t\t}\n\n\t\t//\n\n\t\treturn {\n\t\t\tuuid: this.uuid,\n\t\t\tbuffer: this.array.buffer._uuid,\n\t\t\ttype: this.array.constructor.name,\n\t\t\tstride: this.stride\n\t\t};\n\n\t}\n\n}\n\nconst _vector$7 = /*@__PURE__*/ new Vector3();\n\n/**\n * An alternative version of a buffer attribute with interleaved data. Interleaved\n * attributes share a common interleaved data storage ({@link InterleavedBuffer}) and refer with\n * different offsets into the buffer.\n */\nclass InterleavedBufferAttribute {\n\n\t/**\n\t * Constructs a new interleaved buffer attribute.\n\t *\n\t * @param {InterleavedBuffer} interleavedBuffer - The buffer holding the interleaved data.\n\t * @param {number} itemSize - The item size.\n\t * @param {number} offset - The attribute offset into the buffer.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( interleavedBuffer, itemSize, offset, normalized = false ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInterleavedBufferAttribute = true;\n\n\t\t/**\n\t\t * The name of the buffer attribute.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The buffer holding the interleaved data.\n\t\t *\n\t\t * @type {InterleavedBuffer}\n\t\t */\n\t\tthis.data = interleavedBuffer;\n\n\t\t/**\n\t\t * The item size, see {@link BufferAttribute#itemSize}.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.itemSize = itemSize;\n\n\t\t/**\n\t\t * The attribute offset into the buffer.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.offset = offset;\n\n\t\t/**\n\t\t * Whether the data are normalized or not, see {@link BufferAttribute#normalized}\n\t\t *\n\t\t * @type {InterleavedBuffer}\n\t\t */\n\t\tthis.normalized = normalized;\n\n\t}\n\n\t/**\n\t * The item count of this buffer attribute.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget count() {\n\n\t\treturn this.data.count;\n\n\t}\n\n\t/**\n\t * The array holding the interleaved buffer attribute data.\n\t *\n\t * @type {TypedArray}\n\t */\n\tget array() {\n\n\t\treturn this.data.array;\n\n\t}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tthis.data.needsUpdate = value;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tapplyMatrix4( m ) {\n\n\t\tfor ( let i = 0, l = this.data.count; i < l; i ++ ) {\n\n\t\t\t_vector$7.fromBufferAttribute( this, i );\n\n\t\t\t_vector$7.applyMatrix4( m );\n\n\t\t\tthis.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 3x3 normal matrix to the given attribute. Only works with\n\t * item size `3`.\n\t *\n\t * @param {Matrix3} m - The normal matrix to apply.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tapplyNormalMatrix( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$7.fromBufferAttribute( this, i );\n\n\t\t\t_vector$7.applyNormalMatrix( m );\n\n\t\t\tthis.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Applies the given 4x4 matrix to the given attribute. Only works with\n\t * item size `3` and with direction vectors.\n\t *\n\t * @param {Matrix4} m - The matrix to apply.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\ttransformDirection( m ) {\n\n\t\tfor ( let i = 0, l = this.count; i < l; i ++ ) {\n\n\t\t\t_vector$7.fromBufferAttribute( this, i );\n\n\t\t\t_vector$7.transformDirection( m );\n\n\t\t\tthis.setXYZ( i, _vector$7.x, _vector$7.y, _vector$7.z );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @return {number} The returned value.\n\t */\n\tgetComponent( index, component ) {\n\n\t\tlet value = this.array[ index * this.data.stride + this.offset + component ];\n\n\t\tif ( this.normalized ) value = denormalize( value, this.array );\n\n\t\treturn value;\n\n\t}\n\n\t/**\n\t * Sets the given value to the given component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} component - The component index.\n\t * @param {number} value - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetComponent( index, component, value ) {\n\n\t\tif ( this.normalized ) value = normalize( value, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + component ] = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetX( index, x ) {\n\n\t\tif ( this.normalized ) x = normalize( x, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset ] = x;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} y - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetY( index, y ) {\n\n\t\tif ( this.normalized ) y = normalize( y, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} z - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetZ( index, z ) {\n\n\t\tif ( this.normalized ) z = normalize( z, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} w - The value to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetW( index, w ) {\n\n\t\tif ( this.normalized ) w = normalize( w, this.array );\n\n\t\tthis.data.array[ index * this.data.stride + this.offset + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the x component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The x component.\n\t */\n\tgetX( index ) {\n\n\t\tlet x = this.data.array[ index * this.data.stride + this.offset ];\n\n\t\tif ( this.normalized ) x = denormalize( x, this.array );\n\n\t\treturn x;\n\n\t}\n\n\t/**\n\t * Returns the y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The y component.\n\t */\n\tgetY( index ) {\n\n\t\tlet y = this.data.array[ index * this.data.stride + this.offset + 1 ];\n\n\t\tif ( this.normalized ) y = denormalize( y, this.array );\n\n\t\treturn y;\n\n\t}\n\n\t/**\n\t * Returns the z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The z component.\n\t */\n\tgetZ( index ) {\n\n\t\tlet z = this.data.array[ index * this.data.stride + this.offset + 2 ];\n\n\t\tif ( this.normalized ) z = denormalize( z, this.array );\n\n\t\treturn z;\n\n\t}\n\n\t/**\n\t * Returns the w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @return {number} The w component.\n\t */\n\tgetW( index ) {\n\n\t\tlet w = this.data.array[ index * this.data.stride + this.offset + 3 ];\n\n\t\tif ( this.normalized ) w = denormalize( w, this.array );\n\n\t\treturn w;\n\n\t}\n\n\t/**\n\t * Sets the x and y component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetXY( index, x, y ) {\n\n\t\tindex = index * this.data.stride + this.offset;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\n\t\t}\n\n\t\tthis.data.array[ index + 0 ] = x;\n\t\tthis.data.array[ index + 1 ] = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y and z component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetXYZ( index, x, y, z ) {\n\n\t\tindex = index * this.data.stride + this.offset;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\n\t\t}\n\n\t\tthis.data.array[ index + 0 ] = x;\n\t\tthis.data.array[ index + 1 ] = y;\n\t\tthis.data.array[ index + 2 ] = z;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the x, y, z and w component of the vector at the given index.\n\t *\n\t * @param {number} index - The index into the buffer attribute.\n\t * @param {number} x - The value for the x component to set.\n\t * @param {number} y - The value for the y component to set.\n\t * @param {number} z - The value for the z component to set.\n\t * @param {number} w - The value for the w component to set.\n\t * @return {InterleavedBufferAttribute} A reference to this instance.\n\t */\n\tsetXYZW( index, x, y, z, w ) {\n\n\t\tindex = index * this.data.stride + this.offset;\n\n\t\tif ( this.normalized ) {\n\n\t\t\tx = normalize( x, this.array );\n\t\t\ty = normalize( y, this.array );\n\t\t\tz = normalize( z, this.array );\n\t\t\tw = normalize( w, this.array );\n\n\t\t}\n\n\t\tthis.data.array[ index + 0 ] = x;\n\t\tthis.data.array[ index + 1 ] = y;\n\t\tthis.data.array[ index + 2 ] = z;\n\t\tthis.data.array[ index + 3 ] = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new buffer attribute with copied values from this instance.\n\t *\n\t * If no parameter is provided, cloning an interleaved buffer attribute will de-interleave buffer data.\n\t *\n\t * @param {Object} [data] - An object with interleaved buffers that allows to retain the interleaved property.\n\t * @return {BufferAttribute|InterleavedBufferAttribute} A clone of this instance.\n\t */\n\tclone( data ) {\n\n\t\tif ( data === undefined ) {\n\n\t\t\tconsole.log( 'THREE.InterleavedBufferAttribute.clone(): Cloning an interleaved buffer attribute will de-interleave buffer data.' );\n\n\t\t\tconst array = [];\n\n\t\t\tfor ( let i = 0; i < this.count; i ++ ) {\n\n\t\t\t\tconst index = i * this.data.stride + this.offset;\n\n\t\t\t\tfor ( let j = 0; j < this.itemSize; j ++ ) {\n\n\t\t\t\t\tarray.push( this.data.array[ index + j ] );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn new BufferAttribute( new this.array.constructor( array ), this.itemSize, this.normalized );\n\n\t\t} else {\n\n\t\t\tif ( data.interleavedBuffers === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers = {};\n\n\t\t\t}\n\n\t\t\tif ( data.interleavedBuffers[ this.data.uuid ] === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers[ this.data.uuid ] = this.data.clone( data );\n\n\t\t\t}\n\n\t\t\treturn new InterleavedBufferAttribute( data.interleavedBuffers[ this.data.uuid ], this.itemSize, this.offset, this.normalized );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Serializes the buffer attribute into JSON.\n\t *\n\t * If no parameter is provided, cloning an interleaved buffer attribute will de-interleave buffer data.\n\t *\n\t * @param {Object} [data] - An optional value holding meta information about the serialization.\n\t * @return {Object} A JSON object representing the serialized buffer attribute.\n\t */\n\ttoJSON( data ) {\n\n\t\tif ( data === undefined ) {\n\n\t\t\tconsole.log( 'THREE.InterleavedBufferAttribute.toJSON(): Serializing an interleaved buffer attribute will de-interleave buffer data.' );\n\n\t\t\tconst array = [];\n\n\t\t\tfor ( let i = 0; i < this.count; i ++ ) {\n\n\t\t\t\tconst index = i * this.data.stride + this.offset;\n\n\t\t\t\tfor ( let j = 0; j < this.itemSize; j ++ ) {\n\n\t\t\t\t\tarray.push( this.data.array[ index + j ] );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// de-interleave data and save it as an ordinary buffer attribute for now\n\n\t\t\treturn {\n\t\t\t\titemSize: this.itemSize,\n\t\t\t\ttype: this.array.constructor.name,\n\t\t\t\tarray: array,\n\t\t\t\tnormalized: this.normalized\n\t\t\t};\n\n\t\t} else {\n\n\t\t\t// save as true interleaved attribute\n\n\t\t\tif ( data.interleavedBuffers === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers = {};\n\n\t\t\t}\n\n\t\t\tif ( data.interleavedBuffers[ this.data.uuid ] === undefined ) {\n\n\t\t\t\tdata.interleavedBuffers[ this.data.uuid ] = this.data.toJSON( data );\n\n\t\t\t}\n\n\t\t\treturn {\n\t\t\t\tisInterleavedBufferAttribute: true,\n\t\t\t\titemSize: this.itemSize,\n\t\t\t\tdata: this.data.uuid,\n\t\t\t\toffset: this.offset,\n\t\t\t\tnormalized: this.normalized\n\t\t\t};\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * A material for rendering instances of {@link Sprite}.\n *\n * ```js\n * const map = new THREE.TextureLoader().load( 'textures/sprite.png' );\n * const material = new THREE.SpriteMaterial( { map: map, color: 0xffffff } );\n *\n * const sprite = new THREE.Sprite( material );\n * sprite.scale.set(200, 200, 1)\n * scene.add( sprite );\n * ```\n *\n * @augments Material\n */\nclass SpriteMaterial extends Material {\n\n\t/**\n\t * Constructs a new sprite material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSpriteMaterial = true;\n\n\t\tthis.type = 'SpriteMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The rotation of the sprite in radians.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.rotation = 0;\n\n\t\t/**\n\t\t * Specifies whether size of the sprite is attenuated by the camera depth (perspective camera only).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.sizeAttenuation = true;\n\n\t\t/**\n\t\t * Overwritten since sprite materials are transparent\n\t\t * by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.transparent = true;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.rotation = source.rotation;\n\n\t\tthis.sizeAttenuation = source.sizeAttenuation;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\nlet _geometry;\n\nconst _intersectPoint = /*@__PURE__*/ new Vector3();\nconst _worldScale = /*@__PURE__*/ new Vector3();\nconst _mvPosition = /*@__PURE__*/ new Vector3();\n\nconst _alignedPosition = /*@__PURE__*/ new Vector2();\nconst _rotatedPosition = /*@__PURE__*/ new Vector2();\nconst _viewWorldMatrix = /*@__PURE__*/ new Matrix4();\n\nconst _vA = /*@__PURE__*/ new Vector3();\nconst _vB = /*@__PURE__*/ new Vector3();\nconst _vC = /*@__PURE__*/ new Vector3();\n\nconst _uvA = /*@__PURE__*/ new Vector2();\nconst _uvB = /*@__PURE__*/ new Vector2();\nconst _uvC = /*@__PURE__*/ new Vector2();\n\n/**\n * A sprite is a plane that always faces towards the camera, generally with a\n * partially transparent texture applied.\n *\n * Sprites do not cast shadows, setting {@link Object3D#castShadow} to `true` will\n * have no effect.\n *\n * ```js\n * const map = new THREE.TextureLoader().load( 'sprite.png' );\n * const material = new THREE.SpriteMaterial( { map: map } );\n *\n * const sprite = new THREE.Sprite( material );\n * scene.add( sprite );\n * ```\n *\n * @augments Object3D\n */\nclass Sprite extends Object3D {\n\n\t/**\n\t * Constructs a new sprite.\n\t *\n\t * @param {(SpriteMaterial|SpriteNodeMaterial)} [material] - The sprite material.\n\t */\n\tconstructor( material = new SpriteMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSprite = true;\n\n\t\tthis.type = 'Sprite';\n\n\t\tif ( _geometry === undefined ) {\n\n\t\t\t_geometry = new BufferGeometry();\n\n\t\t\tconst float32Array = new Float32Array( [\n\t\t\t\t-0.5, -0.5, 0, 0, 0,\n\t\t\t\t0.5, -0.5, 0, 1, 0,\n\t\t\t\t0.5, 0.5, 0, 1, 1,\n\t\t\t\t-0.5, 0.5, 0, 0, 1\n\t\t\t] );\n\n\t\t\tconst interleavedBuffer = new InterleavedBuffer( float32Array, 5 );\n\n\t\t\t_geometry.setIndex( [ 0, 1, 2,\t0, 2, 3 ] );\n\t\t\t_geometry.setAttribute( 'position', new InterleavedBufferAttribute( interleavedBuffer, 3, 0, false ) );\n\t\t\t_geometry.setAttribute( 'uv', new InterleavedBufferAttribute( interleavedBuffer, 2, 3, false ) );\n\n\t\t}\n\n\t\t/**\n\t\t * The sprite geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = _geometry;\n\n\t\t/**\n\t\t * The sprite material.\n\t\t *\n\t\t * @type {(SpriteMaterial|SpriteNodeMaterial)}\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * The sprite's anchor point, and the point around which the sprite rotates.\n\t\t * A value of `(0.5, 0.5)` corresponds to the midpoint of the sprite. A value\n\t\t * of `(0, 0)` corresponds to the lower left corner of the sprite.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (0.5,0.5)\n\t\t */\n\t\tthis.center = new Vector2( 0.5, 0.5 );\n\n\t\t/**\n\t\t * The number of instances of this sprite.\n\t\t * Can only be used with {@link WebGPURenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.count = 1;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this sprite.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tif ( raycaster.camera === null ) {\n\n\t\t\tconsole.error( 'THREE.Sprite: \"Raycaster.camera\" needs to be set in order to raycast against sprites.' );\n\n\t\t}\n\n\t\t_worldScale.setFromMatrixScale( this.matrixWorld );\n\n\t\t_viewWorldMatrix.copy( raycaster.camera.matrixWorld );\n\t\tthis.modelViewMatrix.multiplyMatrices( raycaster.camera.matrixWorldInverse, this.matrixWorld );\n\n\t\t_mvPosition.setFromMatrixPosition( this.modelViewMatrix );\n\n\t\tif ( raycaster.camera.isPerspectiveCamera && this.material.sizeAttenuation === false ) {\n\n\t\t\t_worldScale.multiplyScalar( - _mvPosition.z );\n\n\t\t}\n\n\t\tconst rotation = this.material.rotation;\n\t\tlet sin, cos;\n\n\t\tif ( rotation !== 0 ) {\n\n\t\t\tcos = Math.cos( rotation );\n\t\t\tsin = Math.sin( rotation );\n\n\t\t}\n\n\t\tconst center = this.center;\n\n\t\ttransformVertex( _vA.set( -0.5, -0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\t\ttransformVertex( _vB.set( 0.5, -0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\t\ttransformVertex( _vC.set( 0.5, 0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\n\t\t_uvA.set( 0, 0 );\n\t\t_uvB.set( 1, 0 );\n\t\t_uvC.set( 1, 1 );\n\n\t\t// check first triangle\n\t\tlet intersect = raycaster.ray.intersectTriangle( _vA, _vB, _vC, false, _intersectPoint );\n\n\t\tif ( intersect === null ) {\n\n\t\t\t// check second triangle\n\t\t\ttransformVertex( _vB.set( -0.5, 0.5, 0 ), _mvPosition, center, _worldScale, sin, cos );\n\t\t\t_uvB.set( 0, 1 );\n\n\t\t\tintersect = raycaster.ray.intersectTriangle( _vA, _vC, _vB, false, _intersectPoint );\n\t\t\tif ( intersect === null ) {\n\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst distance = raycaster.ray.origin.distanceTo( _intersectPoint );\n\n\t\tif ( distance < raycaster.near || distance > raycaster.far ) return;\n\n\t\tintersects.push( {\n\n\t\t\tdistance: distance,\n\t\t\tpoint: _intersectPoint.clone(),\n\t\t\tuv: Triangle.getInterpolation( _intersectPoint, _vA, _vB, _vC, _uvA, _uvB, _uvC, new Vector2() ),\n\t\t\tface: null,\n\t\t\tobject: this\n\n\t\t} );\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.center !== undefined ) this.center.copy( source.center );\n\n\t\tthis.material = source.material;\n\n\t\treturn this;\n\n\t}\n\n}\n\nfunction transformVertex( vertexPosition, mvPosition, center, scale, sin, cos ) {\n\n\t// compute position in camera space\n\t_alignedPosition.subVectors( vertexPosition, center ).addScalar( 0.5 ).multiply( scale );\n\n\t// to check if rotation is not zero\n\tif ( sin !== undefined ) {\n\n\t\t_rotatedPosition.x = ( cos * _alignedPosition.x ) - ( sin * _alignedPosition.y );\n\t\t_rotatedPosition.y = ( sin * _alignedPosition.x ) + ( cos * _alignedPosition.y );\n\n\t} else {\n\n\t\t_rotatedPosition.copy( _alignedPosition );\n\n\t}\n\n\n\tvertexPosition.copy( mvPosition );\n\tvertexPosition.x += _rotatedPosition.x;\n\tvertexPosition.y += _rotatedPosition.y;\n\n\t// transform to world space\n\tvertexPosition.applyMatrix4( _viewWorldMatrix );\n\n}\n\nconst _v1$2 = /*@__PURE__*/ new Vector3();\nconst _v2$1 = /*@__PURE__*/ new Vector3();\n\n/**\n * A component for providing a basic Level of Detail (LOD) mechanism.\n *\n * Every LOD level is associated with an object, and rendering can be switched\n * between them at the distances specified. Typically you would create, say,\n * three meshes, one for far away (low detail), one for mid range (medium\n * detail) and one for close up (high detail).\n *\n * ```js\n * const lod = new THREE.LOD();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n *\n * //Create spheres with 3 levels of detail and create new LOD levels for them\n * for( let i = 0; i < 3; i++ ) {\n *\n * \tconst geometry = new THREE.IcosahedronGeometry( 10, 3 - i );\n * \tconst mesh = new THREE.Mesh( geometry, material );\n * \tlod.addLevel( mesh, i * 75 );\n *\n * }\n *\n * scene.add( lod );\n * ```\n *\n * @augments Object3D\n */\nclass LOD extends Object3D {\n\n\t/**\n\t * Constructs a new LOD.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLOD = true;\n\n\t\t/**\n\t\t * The current LOD index.\n\t\t *\n\t\t * @private\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis._currentLevel = 0;\n\n\t\tthis.type = 'LOD';\n\n\t\tObject.defineProperties( this, {\n\t\t\t/**\n\t\t\t * This array holds the LOD levels.\n\t\t\t *\n\t\t\t * @name LOD#levels\n\t\t\t * @type {Array<{object:Object3D,distance:number,hysteresis:number}>}\n\t\t\t */\n\t\t\tlevels: {\n\t\t\t\tenumerable: true,\n\t\t\t\tvalue: []\n\t\t\t}\n\t\t} );\n\n\t\t/**\n\t\t * Whether the LOD object is updated automatically by the renderer per frame\n\t\t * or not. If set to `false`, you have to call {@link LOD#update} in the\n\t\t * render loop by yourself.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.autoUpdate = true;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source, false );\n\n\t\tconst levels = source.levels;\n\n\t\tfor ( let i = 0, l = levels.length; i < l; i ++ ) {\n\n\t\t\tconst level = levels[ i ];\n\n\t\t\tthis.addLevel( level.object.clone(), level.distance, level.hysteresis );\n\n\t\t}\n\n\t\tthis.autoUpdate = source.autoUpdate;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds a mesh that will display at a certain distance and greater. Typically\n\t * the further away the distance, the lower the detail on the mesh.\n\t *\n\t * @param {Object3D} object - The 3D object to display at this level.\n\t * @param {number} [distance=0] - The distance at which to display this level of detail.\n\t * @param {number} [hysteresis=0] - Threshold used to avoid flickering at LOD boundaries, as a fraction of distance.\n\t * @return {LOD} A reference to this instance.\n\t */\n\taddLevel( object, distance = 0, hysteresis = 0 ) {\n\n\t\tdistance = Math.abs( distance );\n\n\t\tconst levels = this.levels;\n\n\t\tlet l;\n\n\t\tfor ( l = 0; l < levels.length; l ++ ) {\n\n\t\t\tif ( distance < levels[ l ].distance ) {\n\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t\tlevels.splice( l, 0, { distance: distance, hysteresis: hysteresis, object: object } );\n\n\t\tthis.add( object );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes an existing level, based on the distance from the camera.\n\t * Returns `true` when the level has been removed. Otherwise `false`.\n\t *\n\t * @param {number} distance - Distance of the level to remove.\n\t * @return {boolean} Whether the level has been removed or not.\n\t */\n\tremoveLevel( distance ) {\n\n\t\tconst levels = this.levels;\n\n\t\tfor ( let i = 0; i < levels.length; i ++ ) {\n\n\t\t\tif ( levels[ i ].distance === distance ) {\n\n\t\t\t\tconst removedElements = levels.splice( i, 1 );\n\t\t\t\tthis.remove( removedElements[ 0 ].object );\n\n\t\t\t\treturn true;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false;\n\n\t}\n\n\t/**\n\t * Returns the currently active LOD level index.\n\t *\n\t * @return {number} The current active LOD level index.\n\t */\n\tgetCurrentLevel() {\n\n\t\treturn this._currentLevel;\n\n\t}\n\n\t/**\n\t * Returns a reference to the first 3D object that is greater than\n\t * the given distance.\n\t *\n\t * @param {number} distance - The LOD distance.\n\t * @return {?Object3D} The found 3D object. `null` if no 3D object has been found.\n\t */\n\tgetObjectForDistance( distance ) {\n\n\t\tconst levels = this.levels;\n\n\t\tif ( levels.length > 0 ) {\n\n\t\t\tlet i, l;\n\n\t\t\tfor ( i = 1, l = levels.length; i < l; i ++ ) {\n\n\t\t\t\tlet levelDistance = levels[ i ].distance;\n\n\t\t\t\tif ( levels[ i ].object.visible ) {\n\n\t\t\t\t\tlevelDistance -= levelDistance * levels[ i ].hysteresis;\n\n\t\t\t\t}\n\n\t\t\t\tif ( distance < levelDistance ) {\n\n\t\t\t\t\tbreak;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn levels[ i - 1 ].object;\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this LOD.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst levels = this.levels;\n\n\t\tif ( levels.length > 0 ) {\n\n\t\t\t_v1$2.setFromMatrixPosition( this.matrixWorld );\n\n\t\t\tconst distance = raycaster.ray.origin.distanceTo( _v1$2 );\n\n\t\t\tthis.getObjectForDistance( distance ).raycast( raycaster, intersects );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Updates the LOD by computing which LOD level should be visible according\n\t * to the current distance of the given camera.\n\t *\n\t * @param {Camera} camera - The camera the scene is rendered with.\n\t */\n\tupdate( camera ) {\n\n\t\tconst levels = this.levels;\n\n\t\tif ( levels.length > 1 ) {\n\n\t\t\t_v1$2.setFromMatrixPosition( camera.matrixWorld );\n\t\t\t_v2$1.setFromMatrixPosition( this.matrixWorld );\n\n\t\t\tconst distance = _v1$2.distanceTo( _v2$1 ) / camera.zoom;\n\n\t\t\tlevels[ 0 ].object.visible = true;\n\n\t\t\tlet i, l;\n\n\t\t\tfor ( i = 1, l = levels.length; i < l; i ++ ) {\n\n\t\t\t\tlet levelDistance = levels[ i ].distance;\n\n\t\t\t\tif ( levels[ i ].object.visible ) {\n\n\t\t\t\t\tlevelDistance -= levelDistance * levels[ i ].hysteresis;\n\n\t\t\t\t}\n\n\t\t\t\tif ( distance >= levelDistance ) {\n\n\t\t\t\t\tlevels[ i - 1 ].object.visible = false;\n\t\t\t\t\tlevels[ i ].object.visible = true;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tbreak;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis._currentLevel = i - 1;\n\n\t\t\tfor ( ; i < l; i ++ ) {\n\n\t\t\t\tlevels[ i ].object.visible = false;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tif ( this.autoUpdate === false ) data.object.autoUpdate = false;\n\n\t\tdata.object.levels = [];\n\n\t\tconst levels = this.levels;\n\n\t\tfor ( let i = 0, l = levels.length; i < l; i ++ ) {\n\n\t\t\tconst level = levels[ i ];\n\n\t\t\tdata.object.levels.push( {\n\t\t\t\tobject: level.object.uuid,\n\t\t\t\tdistance: level.distance,\n\t\t\t\thysteresis: level.hysteresis\n\t\t\t} );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n}\n\nconst _basePosition = /*@__PURE__*/ new Vector3();\n\nconst _skinIndex = /*@__PURE__*/ new Vector4();\nconst _skinWeight = /*@__PURE__*/ new Vector4();\n\nconst _vector3 = /*@__PURE__*/ new Vector3();\nconst _matrix4 = /*@__PURE__*/ new Matrix4();\nconst _vertex = /*@__PURE__*/ new Vector3();\n\nconst _sphere$5 = /*@__PURE__*/ new Sphere();\nconst _inverseMatrix$2 = /*@__PURE__*/ new Matrix4();\nconst _ray$2 = /*@__PURE__*/ new Ray();\n\n/**\n * A mesh that has a {@link Skeleton} that can then be used to animate the\n * vertices of the geometry with skinning/skeleton animation.\n *\n * Next to a valid skeleton, the skinned mesh requires skin indices and weights\n * as buffer attributes in its geometry. These attribute define which bones affect a single\n * vertex to a certain extend.\n *\n * Typically skinned meshes are not created manually but loaders like {@link GLTFLoader}\n * or {@link FBXLoader } import respective models.\n *\n * @augments Mesh\n */\nclass SkinnedMesh extends Mesh {\n\n\t/**\n\t * Constructs a new skinned mesh.\n\t *\n\t * @param {BufferGeometry} [geometry] - The mesh geometry.\n\t * @param {Material|Array} [material] - The mesh material.\n\t */\n\tconstructor( geometry, material ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSkinnedMesh = true;\n\n\t\tthis.type = 'SkinnedMesh';\n\n\t\t/**\n\t\t * `AttachedBindMode` means the skinned mesh shares the same world space as the skeleton.\n\t\t * This is not true when using `DetachedBindMode` which is useful when sharing a skeleton\n\t\t * across multiple skinned meshes.\n\t\t *\n\t\t * @type {(AttachedBindMode|DetachedBindMode)}\n\t\t * @default AttachedBindMode\n\t\t */\n\t\tthis.bindMode = AttachedBindMode;\n\n\t\t/**\n\t\t * The base matrix that is used for the bound bone transforms.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.bindMatrix = new Matrix4();\n\n\t\t/**\n\t\t * The base matrix that is used for resetting the bound bone transforms.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.bindMatrixInverse = new Matrix4();\n\n\t\t/**\n\t\t * The bounding box of the skinned mesh. Can be computed via {@link SkinnedMesh#computeBoundingBox}.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * The bounding sphere of the skinned mesh. Can be computed via {@link SkinnedMesh#computeBoundingSphere}.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t}\n\n\t/**\n\t * Computes the bounding box of the skinned mesh, and updates {@link SkinnedMesh#boundingBox}.\n\t * The bounding box is not automatically computed by the engine; this method must be called by your app.\n\t * If the skinned mesh is animated, the bounding box should be recomputed per frame in order to reflect\n\t * the current animation state.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tthis.boundingBox.makeEmpty();\n\n\t\tconst positionAttribute = geometry.getAttribute( 'position' );\n\n\t\tfor ( let i = 0; i < positionAttribute.count; i ++ ) {\n\n\t\t\tthis.getVertexPosition( i, _vertex );\n\t\t\tthis.boundingBox.expandByPoint( _vertex );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere of the skinned mesh, and updates {@link SkinnedMesh#boundingSphere}.\n\t * The bounding sphere is automatically computed by the engine once when it is needed, e.g., for ray casting\n\t * and view frustum culling. If the skinned mesh is animated, the bounding sphere should be recomputed\n\t * per frame in order to reflect the current animation state.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tthis.boundingSphere.makeEmpty();\n\n\t\tconst positionAttribute = geometry.getAttribute( 'position' );\n\n\t\tfor ( let i = 0; i < positionAttribute.count; i ++ ) {\n\n\t\t\tthis.getVertexPosition( i, _vertex );\n\t\t\tthis.boundingSphere.expandByPoint( _vertex );\n\n\t\t}\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.bindMode = source.bindMode;\n\t\tthis.bindMatrix.copy( source.bindMatrix );\n\t\tthis.bindMatrixInverse.copy( source.bindMatrixInverse );\n\n\t\tthis.skeleton = source.skeleton;\n\n\t\tif ( source.boundingBox !== null ) this.boundingBox = source.boundingBox.clone();\n\t\tif ( source.boundingSphere !== null ) this.boundingSphere = source.boundingSphere.clone();\n\n\t\treturn this;\n\n\t}\n\n\traycast( raycaster, intersects ) {\n\n\t\tconst material = this.material;\n\t\tconst matrixWorld = this.matrixWorld;\n\n\t\tif ( material === undefined ) return;\n\n\t\t// test with bounding sphere in world space\n\n\t\tif ( this.boundingSphere === null ) this.computeBoundingSphere();\n\n\t\t_sphere$5.copy( this.boundingSphere );\n\t\t_sphere$5.applyMatrix4( matrixWorld );\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere$5 ) === false ) return;\n\n\t\t// convert ray to local space of skinned mesh\n\n\t\t_inverseMatrix$2.copy( matrixWorld ).invert();\n\t\t_ray$2.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$2 );\n\n\t\t// test with bounding box in local space\n\n\t\tif ( this.boundingBox !== null ) {\n\n\t\t\tif ( _ray$2.intersectsBox( this.boundingBox ) === false ) return;\n\n\t\t}\n\n\t\t// test for intersections with geometry\n\n\t\tthis._computeIntersections( raycaster, intersects, _ray$2 );\n\n\t}\n\n\tgetVertexPosition( index, target ) {\n\n\t\tsuper.getVertexPosition( index, target );\n\n\t\tthis.applyBoneTransform( index, target );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Binds the given skeleton to the skinned mesh.\n\t *\n\t * @param {Skeleton} skeleton - The skeleton to bind.\n\t * @param {Matrix4} [bindMatrix] - The bind matrix. If no bind matrix is provided,\n\t * the skinned mesh's world matrix will be used instead.\n\t */\n\tbind( skeleton, bindMatrix ) {\n\n\t\tthis.skeleton = skeleton;\n\n\t\tif ( bindMatrix === undefined ) {\n\n\t\t\tthis.updateMatrixWorld( true );\n\n\t\t\tthis.skeleton.calculateInverses();\n\n\t\t\tbindMatrix = this.matrixWorld;\n\n\t\t}\n\n\t\tthis.bindMatrix.copy( bindMatrix );\n\t\tthis.bindMatrixInverse.copy( bindMatrix ).invert();\n\n\t}\n\n\t/**\n\t * This method sets the skinned mesh in the rest pose).\n\t */\n\tpose() {\n\n\t\tthis.skeleton.pose();\n\n\t}\n\n\t/**\n\t * Normalizes the skin weights which are defined as a buffer attribute\n\t * in the skinned mesh's geometry.\n\t */\n\tnormalizeSkinWeights() {\n\n\t\tconst vector = new Vector4();\n\n\t\tconst skinWeight = this.geometry.attributes.skinWeight;\n\n\t\tfor ( let i = 0, l = skinWeight.count; i < l; i ++ ) {\n\n\t\t\tvector.fromBufferAttribute( skinWeight, i );\n\n\t\t\tconst scale = 1.0 / vector.manhattanLength();\n\n\t\t\tif ( scale !== Infinity ) {\n\n\t\t\t\tvector.multiplyScalar( scale );\n\n\t\t\t} else {\n\n\t\t\t\tvector.set( 1, 0, 0, 0 ); // do something reasonable\n\n\t\t\t}\n\n\t\t\tskinWeight.setXYZW( i, vector.x, vector.y, vector.z, vector.w );\n\n\t\t}\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tif ( this.bindMode === AttachedBindMode ) {\n\n\t\t\tthis.bindMatrixInverse.copy( this.matrixWorld ).invert();\n\n\t\t} else if ( this.bindMode === DetachedBindMode ) {\n\n\t\t\tthis.bindMatrixInverse.copy( this.bindMatrix ).invert();\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.SkinnedMesh: Unrecognized bindMode: ' + this.bindMode );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Applies the bone transform associated with the given index to the given\n\t * vertex position. Returns the updated vector.\n\t *\n\t * @param {number} index - The vertex index.\n\t * @param {Vector3} target - The target object that is used to store the method's result.\n\t * the skinned mesh's world matrix will be used instead.\n\t * @return {Vector3} The updated vertex position.\n\t */\n\tapplyBoneTransform( index, target ) {\n\n\t\tconst skeleton = this.skeleton;\n\t\tconst geometry = this.geometry;\n\n\t\t_skinIndex.fromBufferAttribute( geometry.attributes.skinIndex, index );\n\t\t_skinWeight.fromBufferAttribute( geometry.attributes.skinWeight, index );\n\n\t\t_basePosition.copy( target ).applyMatrix4( this.bindMatrix );\n\n\t\ttarget.set( 0, 0, 0 );\n\n\t\tfor ( let i = 0; i < 4; i ++ ) {\n\n\t\t\tconst weight = _skinWeight.getComponent( i );\n\n\t\t\tif ( weight !== 0 ) {\n\n\t\t\t\tconst boneIndex = _skinIndex.getComponent( i );\n\n\t\t\t\t_matrix4.multiplyMatrices( skeleton.bones[ boneIndex ].matrixWorld, skeleton.boneInverses[ boneIndex ] );\n\n\t\t\t\ttarget.addScaledVector( _vector3.copy( _basePosition ).applyMatrix4( _matrix4 ), weight );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn target.applyMatrix4( this.bindMatrixInverse );\n\n\t}\n\n}\n\n/**\n * A bone which is part of a {@link Skeleton}. The skeleton in turn is used by\n * the {@link SkinnedMesh}.\n *\n * ```js\n * const root = new THREE.Bone();\n * const child = new THREE.Bone();\n *\n * root.add( child );\n * child.position.y = 5;\n * ```\n *\n * @augments Object3D\n */\nclass Bone extends Object3D {\n\n\t/**\n\t * Constructs a new bone.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBone = true;\n\n\t\tthis.type = 'Bone';\n\n\t}\n\n}\n\n/**\n * Creates a texture directly from raw buffer data.\n *\n * The interpretation of the data depends on type and format: If the type is\n * `UnsignedByteType`, a `Uint8Array` will be useful for addressing the\n * texel data. If the format is `RGBAFormat`, data needs four values for\n * one texel; Red, Green, Blue and Alpha (typically the opacity).\n *\n * @augments Texture\n */\nclass DataTexture extends Texture {\n\n\t/**\n\t * Constructs a new data texture.\n\t *\n\t * @param {?TypedArray} [data=null] - The buffer data.\n\t * @param {number} [width=1] - The width of the texture.\n\t * @param {number} [height=1] - The height of the texture.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=NearestFilter] - The mag filter value.\n\t * @param {number} [minFilter=NearestFilter] - The min filter value.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space.\n\t */\n\tconstructor( data = null, width = 1, height = 1, format, type, mapping, wrapS, wrapT, magFilter = NearestFilter, minFilter = NearestFilter, anisotropy, colorSpace ) {\n\n\t\tsuper( null, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDataTexture = true;\n\n\t\t/**\n\t\t * The image definition of a data texture.\n\t\t *\n\t\t * @type {{data:TypedArray,width:number,height:number}}\n\t\t */\n\t\tthis.image = { data: data, width: width, height: height };\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Specifies the alignment requirements for the start of each pixel row in memory.\n\t\t *\n\t\t * Overwritten and set to `1` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default 1\n\t\t */\n\t\tthis.unpackAlignment = 1;\n\n\t}\n\n}\n\nconst _offsetMatrix = /*@__PURE__*/ new Matrix4();\nconst _identityMatrix = /*@__PURE__*/ new Matrix4();\n\n/**\n * Class for representing the armatures in `three.js`. The skeleton\n * is defined by a hierarchy of bones.\n *\n * ```js\n * const bones = [];\n *\n * const shoulder = new THREE.Bone();\n * const elbow = new THREE.Bone();\n * const hand = new THREE.Bone();\n *\n * shoulder.add( elbow );\n * elbow.add( hand );\n *\n * bones.push( shoulder , elbow, hand);\n *\n * shoulder.position.y = -5;\n * elbow.position.y = 0;\n * hand.position.y = 5;\n *\n * const armSkeleton = new THREE.Skeleton( bones );\n * ```\n */\nclass Skeleton {\n\n\t/**\n\t * Constructs a new skeleton.\n\t *\n\t * @param {Array} [bones] - An array of bones.\n\t * @param {Array} [boneInverses] - An array of bone inverse matrices.\n\t * If not provided, these matrices will be computed automatically via {@link Skeleton#calculateInverses}.\n\t */\n\tconstructor( bones = [], boneInverses = [] ) {\n\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * An array of bones defining the skeleton.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.bones = bones.slice( 0 );\n\n\t\t/**\n\t\t * An array of bone inverse matrices.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.boneInverses = boneInverses;\n\n\t\t/**\n\t\t * An array buffer holding the bone data.\n\t\t * Input data for {@link Skeleton#boneTexture}.\n\t\t *\n\t\t * @type {?Float32Array}\n\t\t * @default null\n\t\t */\n\t\tthis.boneMatrices = null;\n\n\t\t/**\n\t\t * A texture holding the bone data for use\n\t\t * in the vertex shader.\n\t\t *\n\t\t * @type {?DataTexture}\n\t\t * @default null\n\t\t */\n\t\tthis.boneTexture = null;\n\n\t\tthis.init();\n\n\t}\n\n\t/**\n\t * Initializes the skeleton. This method gets automatically called by the constructor\n\t * but depending on how the skeleton is created it might be necessary to call this method\n\t * manually.\n\t */\n\tinit() {\n\n\t\tconst bones = this.bones;\n\t\tconst boneInverses = this.boneInverses;\n\n\t\tthis.boneMatrices = new Float32Array( bones.length * 16 );\n\n\t\t// calculate inverse bone matrices if necessary\n\n\t\tif ( boneInverses.length === 0 ) {\n\n\t\t\tthis.calculateInverses();\n\n\t\t} else {\n\n\t\t\t// handle special case\n\n\t\t\tif ( bones.length !== boneInverses.length ) {\n\n\t\t\t\tconsole.warn( 'THREE.Skeleton: Number of inverse bone matrices does not match amount of bones.' );\n\n\t\t\t\tthis.boneInverses = [];\n\n\t\t\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\t\t\tthis.boneInverses.push( new Matrix4() );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bone inverse matrices. This method resets {@link Skeleton#boneInverses}\n\t * and fills it with new matrices.\n\t */\n\tcalculateInverses() {\n\n\t\tthis.boneInverses.length = 0;\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst inverse = new Matrix4();\n\n\t\t\tif ( this.bones[ i ] ) {\n\n\t\t\t\tinverse.copy( this.bones[ i ].matrixWorld ).invert();\n\n\t\t\t}\n\n\t\t\tthis.boneInverses.push( inverse );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Resets the skeleton to the base pose.\n\t */\n\tpose() {\n\n\t\t// recover the bind-time world matrices\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst bone = this.bones[ i ];\n\n\t\t\tif ( bone ) {\n\n\t\t\t\tbone.matrixWorld.copy( this.boneInverses[ i ] ).invert();\n\n\t\t\t}\n\n\t\t}\n\n\t\t// compute the local matrices, positions, rotations and scales\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst bone = this.bones[ i ];\n\n\t\t\tif ( bone ) {\n\n\t\t\t\tif ( bone.parent && bone.parent.isBone ) {\n\n\t\t\t\t\tbone.matrix.copy( bone.parent.matrixWorld ).invert();\n\t\t\t\t\tbone.matrix.multiply( bone.matrixWorld );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tbone.matrix.copy( bone.matrixWorld );\n\n\t\t\t\t}\n\n\t\t\t\tbone.matrix.decompose( bone.position, bone.quaternion, bone.scale );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Resets the skeleton to the base pose.\n\t */\n\tupdate() {\n\n\t\tconst bones = this.bones;\n\t\tconst boneInverses = this.boneInverses;\n\t\tconst boneMatrices = this.boneMatrices;\n\t\tconst boneTexture = this.boneTexture;\n\n\t\t// flatten bone matrices to array\n\n\t\tfor ( let i = 0, il = bones.length; i < il; i ++ ) {\n\n\t\t\t// compute the offset between the current and the original transform\n\n\t\t\tconst matrix = bones[ i ] ? bones[ i ].matrixWorld : _identityMatrix;\n\n\t\t\t_offsetMatrix.multiplyMatrices( matrix, boneInverses[ i ] );\n\t\t\t_offsetMatrix.toArray( boneMatrices, i * 16 );\n\n\t\t}\n\n\t\tif ( boneTexture !== null ) {\n\n\t\t\tboneTexture.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns a new skeleton with copied values from this instance.\n\t *\n\t * @return {Skeleton} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Skeleton( this.bones, this.boneInverses );\n\n\t}\n\n\t/**\n\t * Computes a data texture for passing bone data to the vertex shader.\n\t *\n\t * @return {Skeleton} A reference of this instance.\n\t */\n\tcomputeBoneTexture() {\n\n\t\t// layout (1 matrix = 4 pixels)\n\t\t// RGBA RGBA RGBA RGBA (=> column1, column2, column3, column4)\n\t\t// with 8x8 pixel texture max 16 bones * 4 pixels = (8 * 8)\n\t\t// 16x16 pixel texture max 64 bones * 4 pixels = (16 * 16)\n\t\t// 32x32 pixel texture max 256 bones * 4 pixels = (32 * 32)\n\t\t// 64x64 pixel texture max 1024 bones * 4 pixels = (64 * 64)\n\n\t\tlet size = Math.sqrt( this.bones.length * 4 ); // 4 pixels needed for 1 matrix\n\t\tsize = Math.ceil( size / 4 ) * 4;\n\t\tsize = Math.max( size, 4 );\n\n\t\tconst boneMatrices = new Float32Array( size * size * 4 ); // 4 floats per RGBA pixel\n\t\tboneMatrices.set( this.boneMatrices ); // copy current values\n\n\t\tconst boneTexture = new DataTexture( boneMatrices, size, size, RGBAFormat, FloatType );\n\t\tboneTexture.needsUpdate = true;\n\n\t\tthis.boneMatrices = boneMatrices;\n\t\tthis.boneTexture = boneTexture;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Searches through the skeleton's bone array and returns the first with a\n\t * matching name.\n\t *\n\t * @param {string} name - The name of the bone.\n\t * @return {Bone|undefined} The found bone. `undefined` if no bone has been found.\n\t */\n\tgetBoneByName( name ) {\n\n\t\tfor ( let i = 0, il = this.bones.length; i < il; i ++ ) {\n\n\t\t\tconst bone = this.bones[ i ];\n\n\t\t\tif ( bone.name === name ) {\n\n\t\t\t\treturn bone;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn undefined;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose( ) {\n\n\t\tif ( this.boneTexture !== null ) {\n\n\t\t\tthis.boneTexture.dispose();\n\n\t\t\tthis.boneTexture = null;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Setups the skeleton by the given JSON and bones.\n\t *\n\t * @param {Object} json - The skeleton as serialized JSON.\n\t * @param {Object} bones - An array of bones.\n\t * @return {Skeleton} A reference of this instance.\n\t */\n\tfromJSON( json, bones ) {\n\n\t\tthis.uuid = json.uuid;\n\n\t\tfor ( let i = 0, l = json.bones.length; i < l; i ++ ) {\n\n\t\t\tconst uuid = json.bones[ i ];\n\t\t\tlet bone = bones[ uuid ];\n\n\t\t\tif ( bone === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.Skeleton: No bone found with UUID:', uuid );\n\t\t\t\tbone = new Bone();\n\n\t\t\t}\n\n\t\t\tthis.bones.push( bone );\n\t\t\tthis.boneInverses.push( new Matrix4().fromArray( json.boneInverses[ i ] ) );\n\n\t\t}\n\n\t\tthis.init();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Serializes the skeleton into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized skeleton.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Skeleton',\n\t\t\t\tgenerator: 'Skeleton.toJSON'\n\t\t\t},\n\t\t\tbones: [],\n\t\t\tboneInverses: []\n\t\t};\n\n\t\tdata.uuid = this.uuid;\n\n\t\tconst bones = this.bones;\n\t\tconst boneInverses = this.boneInverses;\n\n\t\tfor ( let i = 0, l = bones.length; i < l; i ++ ) {\n\n\t\t\tconst bone = bones[ i ];\n\t\t\tdata.bones.push( bone.uuid );\n\n\t\t\tconst boneInverse = boneInverses[ i ];\n\t\t\tdata.boneInverses.push( boneInverse.toArray() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * An instanced version of a buffer attribute.\n *\n * @augments BufferAttribute\n */\nclass InstancedBufferAttribute extends BufferAttribute {\n\n\t/**\n\t * Constructs a new instanced buffer attribute.\n\t *\n\t * @param {TypedArray} array - The array holding the attribute data.\n\t * @param {number} itemSize - The item size.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t * @param {number} [meshPerAttribute=1] - How often a value of this buffer attribute should be repeated.\n\t */\n\tconstructor( array, itemSize, normalized, meshPerAttribute = 1 ) {\n\n\t\tsuper( array, itemSize, normalized );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedBufferAttribute = true;\n\n\t\t/**\n\t\t * Defines how often a value of this buffer attribute should be repeated. A\n\t\t * value of one means that each value of the instanced attribute is used for\n\t\t * a single instance. A value of two means that each value is used for two\n\t\t * consecutive instances (and so on).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.meshPerAttribute = meshPerAttribute;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.meshPerAttribute = source.meshPerAttribute;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.meshPerAttribute = this.meshPerAttribute;\n\n\t\tdata.isInstancedBufferAttribute = true;\n\n\t\treturn data;\n\n\t}\n\n}\n\nconst _instanceLocalMatrix = /*@__PURE__*/ new Matrix4();\nconst _instanceWorldMatrix = /*@__PURE__*/ new Matrix4();\n\nconst _instanceIntersects = [];\n\nconst _box3 = /*@__PURE__*/ new Box3();\nconst _identity = /*@__PURE__*/ new Matrix4();\nconst _mesh$1 = /*@__PURE__*/ new Mesh();\nconst _sphere$4 = /*@__PURE__*/ new Sphere();\n\n/**\n * A special version of a mesh with instanced rendering support. Use\n * this class if you have to render a large number of objects with the same\n * geometry and material(s) but with different world transformations. The usage\n * of 'InstancedMesh' will help you to reduce the number of draw calls and thus\n * improve the overall rendering performance in your application.\n *\n * @augments Mesh\n */\nclass InstancedMesh extends Mesh {\n\n\t/**\n\t * Constructs a new instanced mesh.\n\t *\n\t * @param {BufferGeometry} [geometry] - The mesh geometry.\n\t * @param {Material|Array} [material] - The mesh material.\n\t * @param {number} count - The number of instances.\n\t */\n\tconstructor( geometry, material, count ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedMesh = true;\n\n\t\t/**\n\t\t * Represents the local transformation of all instances. You have to set its\n\t\t * {@link BufferAttribute#needsUpdate} flag to true if you modify instanced data\n\t\t * via {@link InstancedMesh#setMatrixAt}.\n\t\t *\n\t\t * @type {InstancedBufferAttribute}\n\t\t */\n\t\tthis.instanceMatrix = new InstancedBufferAttribute( new Float32Array( count * 16 ), 16 );\n\n\t\t/**\n\t\t * Represents the color of all instances. You have to set its\n\t\t * {@link BufferAttribute#needsUpdate} flag to true if you modify instanced data\n\t\t * via {@link InstancedMesh#setColorAt}.\n\t\t *\n\t\t * @type {?InstancedBufferAttribute}\n\t\t * @default null\n\t\t */\n\t\tthis.instanceColor = null;\n\n\t\t/**\n\t\t * Represents the morph target weights of all instances. You have to set its\n\t\t * {@link Texture#needsUpdate} flag to true if you modify instanced data\n\t\t * via {@link InstancedMesh#setMorphAt}.\n\t\t *\n\t\t * @type {?DataTexture}\n\t\t * @default null\n\t\t */\n\t\tthis.morphTexture = null;\n\n\t\t/**\n\t\t * The number of instances.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.count = count;\n\n\t\t/**\n\t\t * The bounding box of the instanced mesh. Can be computed via {@link InstancedMesh#computeBoundingBox}.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * The bounding sphere of the instanced mesh. Can be computed via {@link InstancedMesh#computeBoundingSphere}.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.setMatrixAt( i, _identity );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding box of the instanced mesh, and updates {@link InstancedMesh#boundingBox}.\n\t * The bounding box is not automatically computed by the engine; this method must be called by your app.\n\t * You may need to recompute the bounding box if an instance is transformed via {@link InstancedMesh#setMatrixAt}.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tconst geometry = this.geometry;\n\t\tconst count = this.count;\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tif ( geometry.boundingBox === null ) {\n\n\t\t\tgeometry.computeBoundingBox();\n\n\t\t}\n\n\t\tthis.boundingBox.makeEmpty();\n\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.getMatrixAt( i, _instanceLocalMatrix );\n\n\t\t\t_box3.copy( geometry.boundingBox ).applyMatrix4( _instanceLocalMatrix );\n\n\t\t\tthis.boundingBox.union( _box3 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere of the instanced mesh, and updates {@link InstancedMesh#boundingSphere}\n\t * The engine automatically computes the bounding sphere when it is needed, e.g., for ray casting or view frustum culling.\n\t * You may need to recompute the bounding sphere if an instance is transformed via {@link InstancedMesh#setMatrixAt}.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tconst geometry = this.geometry;\n\t\tconst count = this.count;\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tif ( geometry.boundingSphere === null ) {\n\n\t\t\tgeometry.computeBoundingSphere();\n\n\t\t}\n\n\t\tthis.boundingSphere.makeEmpty();\n\n\t\tfor ( let i = 0; i < count; i ++ ) {\n\n\t\t\tthis.getMatrixAt( i, _instanceLocalMatrix );\n\n\t\t\t_sphere$4.copy( geometry.boundingSphere ).applyMatrix4( _instanceLocalMatrix );\n\n\t\t\tthis.boundingSphere.union( _sphere$4 );\n\n\t\t}\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.instanceMatrix.copy( source.instanceMatrix );\n\n\t\tif ( source.morphTexture !== null ) this.morphTexture = source.morphTexture.clone();\n\t\tif ( source.instanceColor !== null ) this.instanceColor = source.instanceColor.clone();\n\n\t\tthis.count = source.count;\n\n\t\tif ( source.boundingBox !== null ) this.boundingBox = source.boundingBox.clone();\n\t\tif ( source.boundingSphere !== null ) this.boundingSphere = source.boundingSphere.clone();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Gets the color of the defined instance.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Color} color - The target object that is used to store the method's result.\n\t */\n\tgetColorAt( index, color ) {\n\n\t\tcolor.fromArray( this.instanceColor.array, index * 3 );\n\n\t}\n\n\t/**\n\t * Gets the local transformation matrix of the defined instance.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Matrix4} matrix - The target object that is used to store the method's result.\n\t */\n\tgetMatrixAt( index, matrix ) {\n\n\t\tmatrix.fromArray( this.instanceMatrix.array, index * 16 );\n\n\t}\n\n\t/**\n\t * Gets the morph target weights of the defined instance.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Mesh} object - The target object that is used to store the method's result.\n\t */\n\tgetMorphAt( index, object ) {\n\n\t\tconst objectInfluences = object.morphTargetInfluences;\n\n\t\tconst array = this.morphTexture.source.data.data;\n\n\t\tconst len = objectInfluences.length + 1; // All influences + the baseInfluenceSum\n\n\t\tconst dataIndex = index * len + 1; // Skip the baseInfluenceSum at the beginning\n\n\t\tfor ( let i = 0; i < objectInfluences.length; i ++ ) {\n\n\t\t\tobjectInfluences[ i ] = array[ dataIndex + i ];\n\n\t\t}\n\n\t}\n\n\traycast( raycaster, intersects ) {\n\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst raycastTimes = this.count;\n\n\t\t_mesh$1.geometry = this.geometry;\n\t\t_mesh$1.material = this.material;\n\n\t\tif ( _mesh$1.material === undefined ) return;\n\n\t\t// test with bounding sphere first\n\n\t\tif ( this.boundingSphere === null ) this.computeBoundingSphere();\n\n\t\t_sphere$4.copy( this.boundingSphere );\n\t\t_sphere$4.applyMatrix4( matrixWorld );\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere$4 ) === false ) return;\n\n\t\t// now test each instance\n\n\t\tfor ( let instanceId = 0; instanceId < raycastTimes; instanceId ++ ) {\n\n\t\t\t// calculate the world matrix for each instance\n\n\t\t\tthis.getMatrixAt( instanceId, _instanceLocalMatrix );\n\n\t\t\t_instanceWorldMatrix.multiplyMatrices( matrixWorld, _instanceLocalMatrix );\n\n\t\t\t// the mesh represents this single instance\n\n\t\t\t_mesh$1.matrixWorld = _instanceWorldMatrix;\n\n\t\t\t_mesh$1.raycast( raycaster, _instanceIntersects );\n\n\t\t\t// process the result of raycast\n\n\t\t\tfor ( let i = 0, l = _instanceIntersects.length; i < l; i ++ ) {\n\n\t\t\t\tconst intersect = _instanceIntersects[ i ];\n\t\t\t\tintersect.instanceId = instanceId;\n\t\t\t\tintersect.object = this;\n\t\t\t\tintersects.push( intersect );\n\n\t\t\t}\n\n\t\t\t_instanceIntersects.length = 0;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the given color to the defined instance. Make sure you set the `needsUpdate` flag of\n\t * {@link InstancedMesh#instanceColor} to `true` after updating all the colors.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Color} color - The instance color.\n\t */\n\tsetColorAt( index, color ) {\n\n\t\tif ( this.instanceColor === null ) {\n\n\t\t\tthis.instanceColor = new InstancedBufferAttribute( new Float32Array( this.instanceMatrix.count * 3 ).fill( 1 ), 3 );\n\n\t\t}\n\n\t\tcolor.toArray( this.instanceColor.array, index * 3 );\n\n\t}\n\n\t/**\n\t * Sets the given local transformation matrix to the defined instance. Make sure you set the `needsUpdate` flag of\n\t * {@link InstancedMesh#instanceMatrix} to `true` after updating all the colors.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Matrix4} matrix - The local transformation.\n\t */\n\tsetMatrixAt( index, matrix ) {\n\n\t\tmatrix.toArray( this.instanceMatrix.array, index * 16 );\n\n\t}\n\n\t/**\n\t * Sets the morph target weights to the defined instance. Make sure you set the `needsUpdate` flag of\n\t * {@link InstancedMesh#morphTexture} to `true` after updating all the influences.\n\t *\n\t * @param {number} index - The instance index.\n\t * @param {Mesh} object - A mesh which `morphTargetInfluences` property containing the morph target weights\n\t * of a single instance.\n\t */\n\tsetMorphAt( index, object ) {\n\n\t\tconst objectInfluences = object.morphTargetInfluences;\n\n\t\tconst len = objectInfluences.length + 1; // morphBaseInfluence + all influences\n\n\t\tif ( this.morphTexture === null ) {\n\n\t\t\tthis.morphTexture = new DataTexture( new Float32Array( len * this.count ), len, this.count, RedFormat, FloatType );\n\n\t\t}\n\n\t\tconst array = this.morphTexture.source.data.data;\n\n\t\tlet morphInfluencesSum = 0;\n\n\t\tfor ( let i = 0; i < objectInfluences.length; i ++ ) {\n\n\t\t\tmorphInfluencesSum += objectInfluences[ i ];\n\n\t\t}\n\n\t\tconst morphBaseInfluence = this.geometry.morphTargetsRelative ? 1 : 1 - morphInfluencesSum;\n\n\t\tconst dataIndex = len * index;\n\n\t\tarray[ dataIndex ] = morphBaseInfluence;\n\n\t\tarray.set( objectInfluences, dataIndex + 1 );\n\n\t}\n\n\tupdateMorphTargets() {\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t\tif ( this.morphTexture !== null ) {\n\n\t\t\tthis.morphTexture.dispose();\n\t\t\tthis.morphTexture = null;\n\n\t\t}\n\n\t}\n\n}\n\nconst _vector1 = /*@__PURE__*/ new Vector3();\nconst _vector2 = /*@__PURE__*/ new Vector3();\nconst _normalMatrix = /*@__PURE__*/ new Matrix3();\n\n/**\n * A two dimensional surface that extends infinitely in 3D space, represented\n * in [Hessian normal form]{@link http://mathworld.wolfram.com/HessianNormalForm.html}\n * by a unit length normal vector and a constant.\n */\nclass Plane {\n\n\t/**\n\t * Constructs a new plane.\n\t *\n\t * @param {Vector3} [normal=(1,0,0)] - A unit length vector defining the normal of the plane.\n\t * @param {number} [constant=0] - The signed distance from the origin to the plane.\n\t */\n\tconstructor( normal = new Vector3( 1, 0, 0 ), constant = 0 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPlane = true;\n\n\t\t/**\n\t\t * A unit length vector defining the normal of the plane.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.normal = normal;\n\n\t\t/**\n\t\t * The signed distance from the origin to the plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.constant = constant;\n\n\t}\n\n\t/**\n\t * Sets the plane components by copying the given values.\n\t *\n\t * @param {Vector3} normal - The normal.\n\t * @param {number} constant - The constant.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tset( normal, constant ) {\n\n\t\tthis.normal.copy( normal );\n\t\tthis.constant = constant;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the plane components by defining `x`, `y`, `z` as the\n\t * plane normal and `w` as the constant.\n\t *\n\t * @param {number} x - The value for the normal's x component.\n\t * @param {number} y - The value for the normal's y component.\n\t * @param {number} z - The value for the normal's z component.\n\t * @param {number} w - The constant value.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tsetComponents( x, y, z, w ) {\n\n\t\tthis.normal.set( x, y, z );\n\t\tthis.constant = w;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the plane from the given normal and coplanar point (that is a point\n\t * that lies onto the plane).\n\t *\n\t * @param {Vector3} normal - The normal.\n\t * @param {Vector3} point - A coplanar point.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tsetFromNormalAndCoplanarPoint( normal, point ) {\n\n\t\tthis.normal.copy( normal );\n\t\tthis.constant = - point.dot( this.normal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the plane from three coplanar points. The winding order is\n\t * assumed to be counter-clockwise, and determines the direction of\n\t * the plane normal.\n\t *\n\t * @param {Vector3} a - The first coplanar point.\n\t * @param {Vector3} b - The second coplanar point.\n\t * @param {Vector3} c - The third coplanar point.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tsetFromCoplanarPoints( a, b, c ) {\n\n\t\tconst normal = _vector1.subVectors( c, b ).cross( _vector2.subVectors( a, b ) ).normalize();\n\n\t\t// Q: should an error be thrown if normal is zero (e.g. degenerate plane)?\n\n\t\tthis.setFromNormalAndCoplanarPoint( normal, a );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given plane to this instance.\n\t *\n\t * @param {Plane} plane - The plane to copy.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tcopy( plane ) {\n\n\t\tthis.normal.copy( plane.normal );\n\t\tthis.constant = plane.constant;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Normalizes the plane normal and adjusts the constant accordingly.\n\t *\n\t * @return {Plane} A reference to this plane.\n\t */\n\tnormalize() {\n\n\t\t// Note: will lead to a divide by zero if the plane is invalid.\n\n\t\tconst inverseNormalLength = 1.0 / this.normal.length();\n\t\tthis.normal.multiplyScalar( inverseNormalLength );\n\t\tthis.constant *= inverseNormalLength;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Negates both the plane normal and the constant.\n\t *\n\t * @return {Plane} A reference to this plane.\n\t */\n\tnegate() {\n\n\t\tthis.constant *= -1;\n\t\tthis.normal.negate();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the signed distance from the given point to this plane.\n\t *\n\t * @param {Vector3} point - The point to compute the distance for.\n\t * @return {number} The signed distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn this.normal.dot( point ) + this.constant;\n\n\t}\n\n\t/**\n\t * Returns the signed distance from the given sphere to this plane.\n\t *\n\t * @param {Sphere} sphere - The sphere to compute the distance for.\n\t * @return {number} The signed distance.\n\t */\n\tdistanceToSphere( sphere ) {\n\n\t\treturn this.distanceToPoint( sphere.center ) - sphere.radius;\n\n\t}\n\n\t/**\n\t * Projects a the given point onto the plane.\n\t *\n\t * @param {Vector3} point - The point to project.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The projected point on the plane.\n\t */\n\tprojectPoint( point, target ) {\n\n\t\treturn target.copy( point ).addScaledVector( this.normal, - this.distanceToPoint( point ) );\n\n\t}\n\n\t/**\n\t * Returns the intersection point of the passed line and the plane. Returns\n\t * `null` if the line does not intersect. Returns the line's starting point if\n\t * the line is coplanar with the plane.\n\t *\n\t * @param {Line3} line - The line to compute the intersection for.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {?Vector3} The intersection point.\n\t */\n\tintersectLine( line, target ) {\n\n\t\tconst direction = line.delta( _vector1 );\n\n\t\tconst denominator = this.normal.dot( direction );\n\n\t\tif ( denominator === 0 ) {\n\n\t\t\t// line is coplanar, return origin\n\t\t\tif ( this.distanceToPoint( line.start ) === 0 ) {\n\n\t\t\t\treturn target.copy( line.start );\n\n\t\t\t}\n\n\t\t\t// Unsure if this is the correct method to handle this case.\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst t = - ( line.start.dot( this.normal ) + this.constant ) / denominator;\n\n\t\tif ( t < 0 || t > 1 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\treturn target.copy( line.start ).addScaledVector( direction, t );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given line segment intersects with (passes through) the plane.\n\t *\n\t * @param {Line3} line - The line to test.\n\t * @return {boolean} Whether the given line segment intersects with the plane or not.\n\t */\n\tintersectsLine( line ) {\n\n\t\t// Note: this tests if a line intersects the plane, not whether it (or its end-points) are coplanar with it.\n\n\t\tconst startSign = this.distanceToPoint( line.start );\n\t\tconst endSign = this.distanceToPoint( line.end );\n\n\t\treturn ( startSign < 0 && endSign > 0 ) || ( endSign < 0 && startSign > 0 );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box intersects with the plane.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the given bounding box intersects with the plane or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\treturn box.intersectsPlane( this );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere intersects with the plane.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @return {boolean} Whether the given bounding sphere intersects with the plane or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\treturn sphere.intersectsPlane( this );\n\n\t}\n\n\t/**\n\t * Returns a coplanar vector to the plane, by calculating the\n\t * projection of the normal at the origin onto the plane.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The coplanar point.\n\t */\n\tcoplanarPoint( target ) {\n\n\t\treturn target.copy( this.normal ).multiplyScalar( - this.constant );\n\n\t}\n\n\t/**\n\t * Apply a 4x4 matrix to the plane. The matrix must be an affine, homogeneous transform.\n\t *\n\t * The optional normal matrix can be pre-computed like so:\n\t * ```js\n\t * const optionalNormalMatrix = new THREE.Matrix3().getNormalMatrix( matrix );\n\t * ```\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @param {Matrix4} [optionalNormalMatrix] - A pre-computed normal matrix.\n\t * @return {Plane} A reference to this plane.\n\t */\n\tapplyMatrix4( matrix, optionalNormalMatrix ) {\n\n\t\tconst normalMatrix = optionalNormalMatrix || _normalMatrix.getNormalMatrix( matrix );\n\n\t\tconst referencePoint = this.coplanarPoint( _vector1 ).applyMatrix4( matrix );\n\n\t\tconst normal = this.normal.applyMatrix3( normalMatrix ).normalize();\n\n\t\tthis.constant = - referencePoint.dot( normal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Translates the plane by the distance defined by the given offset vector.\n\t * Note that this only affects the plane constant and will not affect the normal vector.\n\t *\n\t * @param {Vector3} offset - The offset vector.\n\t * @return {Plane} A reference to this plane.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.constant -= offset.dot( this.normal );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this plane is equal with the given one.\n\t *\n\t * @param {Plane} plane - The plane to test for equality.\n\t * @return {boolean} Whether this plane is equal with the given one.\n\t */\n\tequals( plane ) {\n\n\t\treturn plane.normal.equals( this.normal ) && ( plane.constant === this.constant );\n\n\t}\n\n\t/**\n\t * Returns a new plane with copied values from this instance.\n\t *\n\t * @return {Plane} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _sphere$3 = /*@__PURE__*/ new Sphere();\nconst _defaultSpriteCenter = /*@__PURE__*/ new Vector2( 0.5, 0.5 );\nconst _vector$6 = /*@__PURE__*/ new Vector3();\n\n/**\n * Frustums are used to determine what is inside the camera's field of view.\n * They help speed up the rendering process - objects which lie outside a camera's\n * frustum can safely be excluded from rendering.\n *\n * This class is mainly intended for use internally by a renderer.\n */\nclass Frustum {\n\n\t/**\n\t * Constructs a new frustum.\n\t *\n\t * @param {Plane} [p0] - The first plane that encloses the frustum.\n\t * @param {Plane} [p1] - The second plane that encloses the frustum.\n\t * @param {Plane} [p2] - The third plane that encloses the frustum.\n\t * @param {Plane} [p3] - The fourth plane that encloses the frustum.\n\t * @param {Plane} [p4] - The fifth plane that encloses the frustum.\n\t * @param {Plane} [p5] - The sixth plane that encloses the frustum.\n\t */\n\tconstructor( p0 = new Plane(), p1 = new Plane(), p2 = new Plane(), p3 = new Plane(), p4 = new Plane(), p5 = new Plane() ) {\n\n\t\t/**\n\t\t * This array holds the planes that enclose the frustum.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.planes = [ p0, p1, p2, p3, p4, p5 ];\n\n\t}\n\n\t/**\n\t * Sets the frustum planes by copying the given planes.\n\t *\n\t * @param {Plane} [p0] - The first plane that encloses the frustum.\n\t * @param {Plane} [p1] - The second plane that encloses the frustum.\n\t * @param {Plane} [p2] - The third plane that encloses the frustum.\n\t * @param {Plane} [p3] - The fourth plane that encloses the frustum.\n\t * @param {Plane} [p4] - The fifth plane that encloses the frustum.\n\t * @param {Plane} [p5] - The sixth plane that encloses the frustum.\n\t * @return {Frustum} A reference to this frustum.\n\t */\n\tset( p0, p1, p2, p3, p4, p5 ) {\n\n\t\tconst planes = this.planes;\n\n\t\tplanes[ 0 ].copy( p0 );\n\t\tplanes[ 1 ].copy( p1 );\n\t\tplanes[ 2 ].copy( p2 );\n\t\tplanes[ 3 ].copy( p3 );\n\t\tplanes[ 4 ].copy( p4 );\n\t\tplanes[ 5 ].copy( p5 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given frustum to this instance.\n\t *\n\t * @param {Frustum} frustum - The frustum to copy.\n\t * @return {Frustum} A reference to this frustum.\n\t */\n\tcopy( frustum ) {\n\n\t\tconst planes = this.planes;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tplanes[ i ].copy( frustum.planes[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the frustum planes from the given projection matrix.\n\t *\n\t * @param {Matrix4} m - The projection matrix.\n\t * @param {(WebGLCoordinateSystem|WebGPUCoordinateSystem)} coordinateSystem - The coordinate system.\n\t * @param {boolean} [reversedDepth=false] - Whether to use a reversed depth.\n\t * @return {Frustum} A reference to this frustum.\n\t */\n\tsetFromProjectionMatrix( m, coordinateSystem = WebGLCoordinateSystem, reversedDepth = false ) {\n\n\t\tconst planes = this.planes;\n\t\tconst me = m.elements;\n\t\tconst me0 = me[ 0 ], me1 = me[ 1 ], me2 = me[ 2 ], me3 = me[ 3 ];\n\t\tconst me4 = me[ 4 ], me5 = me[ 5 ], me6 = me[ 6 ], me7 = me[ 7 ];\n\t\tconst me8 = me[ 8 ], me9 = me[ 9 ], me10 = me[ 10 ], me11 = me[ 11 ];\n\t\tconst me12 = me[ 12 ], me13 = me[ 13 ], me14 = me[ 14 ], me15 = me[ 15 ];\n\n\t\tplanes[ 0 ].setComponents( me3 - me0, me7 - me4, me11 - me8, me15 - me12 ).normalize();\n\t\tplanes[ 1 ].setComponents( me3 + me0, me7 + me4, me11 + me8, me15 + me12 ).normalize();\n\t\tplanes[ 2 ].setComponents( me3 + me1, me7 + me5, me11 + me9, me15 + me13 ).normalize();\n\t\tplanes[ 3 ].setComponents( me3 - me1, me7 - me5, me11 - me9, me15 - me13 ).normalize();\n\n\t\tif ( reversedDepth ) {\n\n\t\t\tplanes[ 4 ].setComponents( me2, me6, me10, me14 ).normalize(); // far\n\t\t\tplanes[ 5 ].setComponents( me3 - me2, me7 - me6, me11 - me10, me15 - me14 ).normalize(); // near\n\n\t\t} else {\n\n\t\t\tplanes[ 4 ].setComponents( me3 - me2, me7 - me6, me11 - me10, me15 - me14 ).normalize(); // far\n\n\t\t\tif ( coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tplanes[ 5 ].setComponents( me3 + me2, me7 + me6, me11 + me10, me15 + me14 ).normalize(); // near\n\n\t\t\t} else if ( coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tplanes[ 5 ].setComponents( me2, me6, me10, me14 ).normalize(); // near\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.Frustum.setFromProjectionMatrix(): Invalid coordinate system: ' + coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the 3D object's bounding sphere is intersecting this frustum.\n\t *\n\t * Note that the 3D object must have a geometry so that the bounding sphere can be calculated.\n\t *\n\t * @param {Object3D} object - The 3D object to test.\n\t * @return {boolean} Whether the 3D object's bounding sphere is intersecting this frustum or not.\n\t */\n\tintersectsObject( object ) {\n\n\t\tif ( object.boundingSphere !== undefined ) {\n\n\t\t\tif ( object.boundingSphere === null ) object.computeBoundingSphere();\n\n\t\t\t_sphere$3.copy( object.boundingSphere ).applyMatrix4( object.matrixWorld );\n\n\t\t} else {\n\n\t\t\tconst geometry = object.geometry;\n\n\t\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t\t_sphere$3.copy( geometry.boundingSphere ).applyMatrix4( object.matrixWorld );\n\n\t\t}\n\n\t\treturn this.intersectsSphere( _sphere$3 );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given sprite is intersecting this frustum.\n\t *\n\t * @param {Sprite} sprite - The sprite to test.\n\t * @return {boolean} Whether the sprite is intersecting this frustum or not.\n\t */\n\tintersectsSprite( sprite ) {\n\n\t\t_sphere$3.center.set( 0, 0, 0 );\n\n\t\tconst offset = _defaultSpriteCenter.distanceTo( sprite.center );\n\n\t\t_sphere$3.radius = 0.7071067811865476 + offset;\n\t\t_sphere$3.applyMatrix4( sprite.matrixWorld );\n\n\t\treturn this.intersectsSphere( _sphere$3 );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere is intersecting this frustum.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @return {boolean} Whether the bounding sphere is intersecting this frustum or not.\n\t */\n\tintersectsSphere( sphere ) {\n\n\t\tconst planes = this.planes;\n\t\tconst center = sphere.center;\n\t\tconst negRadius = - sphere.radius;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tconst distance = planes[ i ].distanceToPoint( center );\n\n\t\t\tif ( distance < negRadius ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box is intersecting this frustum.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @return {boolean} Whether the bounding box is intersecting this frustum or not.\n\t */\n\tintersectsBox( box ) {\n\n\t\tconst planes = this.planes;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tconst plane = planes[ i ];\n\n\t\t\t// corner at max distance\n\n\t\t\t_vector$6.x = plane.normal.x > 0 ? box.max.x : box.min.x;\n\t\t\t_vector$6.y = plane.normal.y > 0 ? box.max.y : box.min.y;\n\t\t\t_vector$6.z = plane.normal.z > 0 ? box.max.z : box.min.z;\n\n\t\t\tif ( plane.distanceToPoint( _vector$6 ) < 0 ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within the frustum.\n\t *\n\t * @param {Vector3} point - The point to test.\n\t * @return {boolean} Whether the point lies within this frustum or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\tconst planes = this.planes;\n\n\t\tfor ( let i = 0; i < 6; i ++ ) {\n\n\t\t\tif ( planes[ i ].distanceToPoint( point ) < 0 ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Returns a new frustum with copied values from this instance.\n\t *\n\t * @return {Frustum} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _projScreenMatrix$2 = /*@__PURE__*/ new Matrix4();\nconst _frustum$1 = /*@__PURE__*/ new Frustum();\n\n/**\n * FrustumArray is used to determine if an object is visible in at least one camera\n * from an array of cameras. This is particularly useful for multi-view renderers.\n*/\nclass FrustumArray {\n\n\t/**\n\t * Constructs a new frustum array.\n\t *\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * The coordinate system to use.\n\t\t *\n\t\t * @type {WebGLCoordinateSystem|WebGPUCoordinateSystem}\n\t\t * @default WebGLCoordinateSystem\n\t\t */\n\t\tthis.coordinateSystem = WebGLCoordinateSystem;\n\n\t}\n\n\t/**\n\t * Returns `true` if the 3D object's bounding sphere is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Object3D} object - The 3D object to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the 3D object is visible in any camera.\n\t */\n\tintersectsObject( object, cameraArray ) {\n\n\t\tif ( ! cameraArray.isArrayCamera || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsObject( object ) ) {\n\n\t\t\t\treturn true; // Object is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given sprite is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Sprite} sprite - The sprite to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the sprite is visible in any camera.\n\t */\n\tintersectsSprite( sprite, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsSprite( sprite ) ) {\n\n\t\t\t\treturn true; // Sprite is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding sphere is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Sphere} sphere - The bounding sphere to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the sphere is visible in any camera.\n\t */\n\tintersectsSphere( sphere, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsSphere( sphere ) ) {\n\n\t\t\t\treturn true; // Sphere is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box is intersecting any frustum\n\t * from the camera array.\n\t *\n\t * @param {Box3} box - The bounding box to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the box is visible in any camera.\n\t */\n\tintersectsBox( box, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.intersectsBox( box ) ) {\n\n\t\t\t\treturn true; // Box is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within any frustum\n\t * from the camera array.\n\t *\n\t * @param {Vector3} point - The point to test.\n\t * @param {Object} cameraArray - An object with a cameras property containing an array of cameras.\n\t * @return {boolean} Whether the point is visible in any camera.\n\t */\n\tcontainsPoint( point, cameraArray ) {\n\n\t\tif ( ! cameraArray || ! cameraArray.cameras || cameraArray.cameras.length === 0 ) {\n\n\t\t\treturn false;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < cameraArray.cameras.length; i ++ ) {\n\n\t\t\tconst camera = cameraArray.cameras[ i ];\n\n\t\t\t_projScreenMatrix$2.multiplyMatrices(\n\t\t\t\tcamera.projectionMatrix,\n\t\t\t\tcamera.matrixWorldInverse\n\t\t\t);\n\n\t\t\t_frustum$1.setFromProjectionMatrix(\n\t\t\t\t_projScreenMatrix$2,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t\tif ( _frustum$1.containsPoint( point ) ) {\n\n\t\t\t\treturn true; // Point is visible in at least one camera\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn false; // Not visible in any camera\n\n\t}\n\n\t/**\n\t * Returns a new frustum array with copied values from this instance.\n\t *\n\t * @return {FrustumArray} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new FrustumArray();\n\n\t}\n\n}\n\nfunction ascIdSort( a, b ) {\n\n\treturn a - b;\n\n}\n\nfunction sortOpaque( a, b ) {\n\n\treturn a.z - b.z;\n\n}\n\nfunction sortTransparent( a, b ) {\n\n\treturn b.z - a.z;\n\n}\n\nclass MultiDrawRenderList {\n\n\tconstructor() {\n\n\t\tthis.index = 0;\n\t\tthis.pool = [];\n\t\tthis.list = [];\n\n\t}\n\n\tpush( start, count, z, index ) {\n\n\t\tconst pool = this.pool;\n\t\tconst list = this.list;\n\t\tif ( this.index >= pool.length ) {\n\n\t\t\tpool.push( {\n\n\t\t\t\tstart: -1,\n\t\t\t\tcount: -1,\n\t\t\t\tz: -1,\n\t\t\t\tindex: -1,\n\n\t\t\t} );\n\n\t\t}\n\n\t\tconst item = pool[ this.index ];\n\t\tlist.push( item );\n\t\tthis.index ++;\n\n\t\titem.start = start;\n\t\titem.count = count;\n\t\titem.z = z;\n\t\titem.index = index;\n\n\t}\n\n\treset() {\n\n\t\tthis.list.length = 0;\n\t\tthis.index = 0;\n\n\t}\n\n}\n\nconst _matrix$1 = /*@__PURE__*/ new Matrix4();\nconst _whiteColor = /*@__PURE__*/ new Color( 1, 1, 1 );\nconst _frustum = /*@__PURE__*/ new Frustum();\nconst _frustumArray = /*@__PURE__*/ new FrustumArray();\nconst _box$1 = /*@__PURE__*/ new Box3();\nconst _sphere$2 = /*@__PURE__*/ new Sphere();\nconst _vector$5 = /*@__PURE__*/ new Vector3();\nconst _forward$1 = /*@__PURE__*/ new Vector3();\nconst _temp = /*@__PURE__*/ new Vector3();\nconst _renderList = /*@__PURE__*/ new MultiDrawRenderList();\nconst _mesh = /*@__PURE__*/ new Mesh();\nconst _batchIntersects = [];\n\n// copies data from attribute \"src\" into \"target\" starting at \"targetOffset\"\nfunction copyAttributeData( src, target, targetOffset = 0 ) {\n\n\tconst itemSize = target.itemSize;\n\tif ( src.isInterleavedBufferAttribute || src.array.constructor !== target.array.constructor ) {\n\n\t\t// use the component getters and setters if the array data cannot\n\t\t// be copied directly\n\t\tconst vertexCount = src.count;\n\t\tfor ( let i = 0; i < vertexCount; i ++ ) {\n\n\t\t\tfor ( let c = 0; c < itemSize; c ++ ) {\n\n\t\t\t\ttarget.setComponent( i + targetOffset, c, src.getComponent( i, c ) );\n\n\t\t\t}\n\n\t\t}\n\n\t} else {\n\n\t\t// faster copy approach using typed array set function\n\t\ttarget.array.set( src.array, targetOffset * itemSize );\n\n\t}\n\n\ttarget.needsUpdate = true;\n\n}\n\n// safely copies array contents to a potentially smaller array\nfunction copyArrayContents( src, target ) {\n\n\tif ( src.constructor !== target.constructor ) {\n\n\t\t// if arrays are of a different type (eg due to index size increasing) then data must be per-element copied\n\t\tconst len = Math.min( src.length, target.length );\n\t\tfor ( let i = 0; i < len; i ++ ) {\n\n\t\t\ttarget[ i ] = src[ i ];\n\n\t\t}\n\n\t} else {\n\n\t\t// if the arrays use the same data layout we can use a fast block copy\n\t\tconst len = Math.min( src.length, target.length );\n\t\ttarget.set( new src.constructor( src.buffer, 0, len ) );\n\n\t}\n\n}\n\n/**\n * A special version of a mesh with multi draw batch rendering support. Use\n * this class if you have to render a large number of objects with the same\n * material but with different geometries or world transformations. The usage of\n * `BatchedMesh` will help you to reduce the number of draw calls and thus improve the overall\n * rendering performance in your application.\n *\n * ```js\n * const box = new THREE.BoxGeometry( 1, 1, 1 );\n * const sphere = new THREE.SphereGeometry( 1, 12, 12 );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n *\n * // initialize and add geometries into the batched mesh\n * const batchedMesh = new BatchedMesh( 10, 5000, 10000, material );\n * const boxGeometryId = batchedMesh.addGeometry( box );\n * const sphereGeometryId = batchedMesh.addGeometry( sphere );\n *\n * // create instances of those geometries\n * const boxInstancedId1 = batchedMesh.addInstance( boxGeometryId );\n * const boxInstancedId2 = batchedMesh.addInstance( boxGeometryId );\n *\n * const sphereInstancedId1 = batchedMesh.addInstance( sphereGeometryId );\n * const sphereInstancedId2 = batchedMesh.addInstance( sphereGeometryId );\n *\n * // position the geometries\n * batchedMesh.setMatrixAt( boxInstancedId1, boxMatrix1 );\n * batchedMesh.setMatrixAt( boxInstancedId2, boxMatrix2 );\n *\n * batchedMesh.setMatrixAt( sphereInstancedId1, sphereMatrix1 );\n * batchedMesh.setMatrixAt( sphereInstancedId2, sphereMatrix2 );\n *\n * scene.add( batchedMesh );\n * ```\n *\n * @augments Mesh\n */\nclass BatchedMesh extends Mesh {\n\n\t/**\n\t * Constructs a new batched mesh.\n\t *\n\t * @param {number} maxInstanceCount - The maximum number of individual instances planned to be added and rendered.\n\t * @param {number} maxVertexCount - The maximum number of vertices to be used by all unique geometries.\n\t * @param {number} [maxIndexCount=maxVertexCount*2] - The maximum number of indices to be used by all unique geometries\n\t * @param {Material|Array} [material] - The mesh material.\n\t */\n\tconstructor( maxInstanceCount, maxVertexCount, maxIndexCount = maxVertexCount * 2, material ) {\n\n\t\tsuper( new BufferGeometry(), material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBatchedMesh = true;\n\n\t\t/**\n\t\t * When set ot `true`, the individual objects of a batch are frustum culled.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.perObjectFrustumCulled = true;\n\n\t\t/**\n\t\t * When set to `true`, the individual objects of a batch are sorted to improve overdraw-related artifacts.\n\t\t * If the material is marked as \"transparent\" objects are rendered back to front and if not then they are\n\t\t * rendered front to back.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.sortObjects = true;\n\n\t\t/**\n\t\t * The bounding box of the batched mesh. Can be computed via {@link BatchedMesh#computeBoundingBox}.\n\t\t *\n\t\t * @type {?Box3}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingBox = null;\n\n\t\t/**\n\t\t * The bounding sphere of the batched mesh. Can be computed via {@link BatchedMesh#computeBoundingSphere}.\n\t\t *\n\t\t * @type {?Sphere}\n\t\t * @default null\n\t\t */\n\t\tthis.boundingSphere = null;\n\n\t\t/**\n\t\t * Takes a sort a function that is run before render. The function takes a list of instances to\n\t\t * sort and a camera. The objects in the list include a \"z\" field to perform a depth-ordered\n\t\t * sort with.\n\t\t *\n\t\t * @type {?Function}\n\t\t * @default null\n\t\t */\n\t\tthis.customSort = null;\n\n\t\t// stores visible, active, and geometry id per instance and reserved buffer ranges for geometries\n\t\tthis._instanceInfo = [];\n\t\tthis._geometryInfo = [];\n\n\t\t// instance, geometry ids that have been set as inactive, and are available to be overwritten\n\t\tthis._availableInstanceIds = [];\n\t\tthis._availableGeometryIds = [];\n\n\t\t// used to track where the next point is that geometry should be inserted\n\t\tthis._nextIndexStart = 0;\n\t\tthis._nextVertexStart = 0;\n\t\tthis._geometryCount = 0;\n\n\t\t// flags\n\t\tthis._visibilityChanged = true;\n\t\tthis._geometryInitialized = false;\n\n\t\t// cached user options\n\t\tthis._maxInstanceCount = maxInstanceCount;\n\t\tthis._maxVertexCount = maxVertexCount;\n\t\tthis._maxIndexCount = maxIndexCount;\n\n\t\t// buffers for multi draw\n\t\tthis._multiDrawCounts = new Int32Array( maxInstanceCount );\n\t\tthis._multiDrawStarts = new Int32Array( maxInstanceCount );\n\t\tthis._multiDrawCount = 0;\n\t\tthis._multiDrawInstances = null;\n\n\t\t// Local matrix per geometry by using data texture\n\t\tthis._matricesTexture = null;\n\t\tthis._indirectTexture = null;\n\t\tthis._colorsTexture = null;\n\n\t\tthis._initMatricesTexture();\n\t\tthis._initIndirectTexture();\n\n\t}\n\n\t/**\n\t * The maximum number of individual instances that can be stored in the batch.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget maxInstanceCount() {\n\n\t\treturn this._maxInstanceCount;\n\n\t}\n\n\t/**\n\t * The instance count.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget instanceCount() {\n\n\t\treturn this._instanceInfo.length - this._availableInstanceIds.length;\n\n\t}\n\n\t/**\n\t * The number of unused vertices.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget unusedVertexCount() {\n\n\t\treturn this._maxVertexCount - this._nextVertexStart;\n\n\t}\n\n\t/**\n\t * The number of unused indices.\n\t *\n\t * @type {number}\n\t * @readonly\n\t */\n\tget unusedIndexCount() {\n\n\t\treturn this._maxIndexCount - this._nextIndexStart;\n\n\t}\n\n\t_initMatricesTexture() {\n\n\t\t// layout (1 matrix = 4 pixels)\n\t\t// RGBA RGBA RGBA RGBA (=> column1, column2, column3, column4)\n\t\t// with 8x8 pixel texture max 16 matrices * 4 pixels = (8 * 8)\n\t\t// 16x16 pixel texture max 64 matrices * 4 pixels = (16 * 16)\n\t\t// 32x32 pixel texture max 256 matrices * 4 pixels = (32 * 32)\n\t\t// 64x64 pixel texture max 1024 matrices * 4 pixels = (64 * 64)\n\n\t\tlet size = Math.sqrt( this._maxInstanceCount * 4 ); // 4 pixels needed for 1 matrix\n\t\tsize = Math.ceil( size / 4 ) * 4;\n\t\tsize = Math.max( size, 4 );\n\n\t\tconst matricesArray = new Float32Array( size * size * 4 ); // 4 floats per RGBA pixel\n\t\tconst matricesTexture = new DataTexture( matricesArray, size, size, RGBAFormat, FloatType );\n\n\t\tthis._matricesTexture = matricesTexture;\n\n\t}\n\n\t_initIndirectTexture() {\n\n\t\tlet size = Math.sqrt( this._maxInstanceCount );\n\t\tsize = Math.ceil( size );\n\n\t\tconst indirectArray = new Uint32Array( size * size );\n\t\tconst indirectTexture = new DataTexture( indirectArray, size, size, RedIntegerFormat, UnsignedIntType );\n\n\t\tthis._indirectTexture = indirectTexture;\n\n\t}\n\n\t_initColorsTexture() {\n\n\t\tlet size = Math.sqrt( this._maxInstanceCount );\n\t\tsize = Math.ceil( size );\n\n\t\t// 4 floats per RGBA pixel initialized to white\n\t\tconst colorsArray = new Float32Array( size * size * 4 ).fill( 1 );\n\t\tconst colorsTexture = new DataTexture( colorsArray, size, size, RGBAFormat, FloatType );\n\t\tcolorsTexture.colorSpace = ColorManagement.workingColorSpace;\n\n\t\tthis._colorsTexture = colorsTexture;\n\n\t}\n\n\t_initializeGeometry( reference ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst maxVertexCount = this._maxVertexCount;\n\t\tconst maxIndexCount = this._maxIndexCount;\n\t\tif ( this._geometryInitialized === false ) {\n\n\t\t\tfor ( const attributeName in reference.attributes ) {\n\n\t\t\t\tconst srcAttribute = reference.getAttribute( attributeName );\n\t\t\t\tconst { array, itemSize, normalized } = srcAttribute;\n\n\t\t\t\tconst dstArray = new array.constructor( maxVertexCount * itemSize );\n\t\t\t\tconst dstAttribute = new BufferAttribute( dstArray, itemSize, normalized );\n\n\t\t\t\tgeometry.setAttribute( attributeName, dstAttribute );\n\n\t\t\t}\n\n\t\t\tif ( reference.getIndex() !== null ) {\n\n\t\t\t\t// Reserve last u16 index for primitive restart.\n\t\t\t\tconst indexArray = maxVertexCount > 65535\n\t\t\t\t\t? new Uint32Array( maxIndexCount )\n\t\t\t\t\t: new Uint16Array( maxIndexCount );\n\n\t\t\t\tgeometry.setIndex( new BufferAttribute( indexArray, 1 ) );\n\n\t\t\t}\n\n\t\t\tthis._geometryInitialized = true;\n\n\t\t}\n\n\t}\n\n\t// Make sure the geometry is compatible with the existing combined geometry attributes\n\t_validateGeometry( geometry ) {\n\n\t\t// check to ensure the geometries are using consistent attributes and indices\n\t\tconst batchGeometry = this.geometry;\n\t\tif ( Boolean( geometry.getIndex() ) !== Boolean( batchGeometry.getIndex() ) ) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: All geometries must consistently have \"index\".' );\n\n\t\t}\n\n\t\tfor ( const attributeName in batchGeometry.attributes ) {\n\n\t\t\tif ( ! geometry.hasAttribute( attributeName ) ) {\n\n\t\t\t\tthrow new Error( `THREE.BatchedMesh: Added geometry missing \"${ attributeName }\". All geometries must have consistent attributes.` );\n\n\t\t\t}\n\n\t\t\tconst srcAttribute = geometry.getAttribute( attributeName );\n\t\t\tconst dstAttribute = batchGeometry.getAttribute( attributeName );\n\t\t\tif ( srcAttribute.itemSize !== dstAttribute.itemSize || srcAttribute.normalized !== dstAttribute.normalized ) {\n\n\t\t\t\tthrow new Error( 'THREE.BatchedMesh: All attributes must have a consistent itemSize and normalized value.' );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Validates the instance defined by the given ID.\n\t *\n\t * @param {number} instanceId - The instance to validate.\n\t */\n\tvalidateInstanceId( instanceId ) {\n\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tif ( instanceId < 0 || instanceId >= instanceInfo.length || instanceInfo[ instanceId ].active === false ) {\n\n\t\t\tthrow new Error( `THREE.BatchedMesh: Invalid instanceId ${instanceId}. Instance is either out of range or has been deleted.` );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Validates the geometry defined by the given ID.\n\t *\n\t * @param {number} geometryId - The geometry to validate.\n\t */\n\tvalidateGeometryId( geometryId ) {\n\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tif ( geometryId < 0 || geometryId >= geometryInfoList.length || geometryInfoList[ geometryId ].active === false ) {\n\n\t\t\tthrow new Error( `THREE.BatchedMesh: Invalid geometryId ${geometryId}. Geometry is either out of range or has been deleted.` );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Takes a sort a function that is run before render. The function takes a list of instances to\n\t * sort and a camera. The objects in the list include a \"z\" field to perform a depth-ordered sort with.\n\t *\n\t * @param {Function} func - The custom sort function.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetCustomSort( func ) {\n\n\t\tthis.customSort = func;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the bounding box, updating {@link BatchedMesh#boundingBox}.\n\t * Bounding boxes aren't computed by default. They need to be explicitly computed,\n\t * otherwise they are `null`.\n\t */\n\tcomputeBoundingBox() {\n\n\t\tif ( this.boundingBox === null ) {\n\n\t\t\tthis.boundingBox = new Box3();\n\n\t\t}\n\n\t\tconst boundingBox = this.boundingBox;\n\t\tconst instanceInfo = this._instanceInfo;\n\n\t\tboundingBox.makeEmpty();\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( instanceInfo[ i ].active === false ) continue;\n\n\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\tthis.getBoundingBoxAt( geometryId, _box$1 ).applyMatrix4( _matrix$1 );\n\t\t\tboundingBox.union( _box$1 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Computes the bounding sphere, updating {@link BatchedMesh#boundingSphere}.\n\t * Bounding spheres aren't computed by default. They need to be explicitly computed,\n\t * otherwise they are `null`.\n\t */\n\tcomputeBoundingSphere() {\n\n\t\tif ( this.boundingSphere === null ) {\n\n\t\t\tthis.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tconst boundingSphere = this.boundingSphere;\n\t\tconst instanceInfo = this._instanceInfo;\n\n\t\tboundingSphere.makeEmpty();\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( instanceInfo[ i ].active === false ) continue;\n\n\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\tthis.getBoundingSphereAt( geometryId, _sphere$2 ).applyMatrix4( _matrix$1 );\n\t\t\tboundingSphere.union( _sphere$2 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Adds a new instance to the batch using the geometry of the given ID and returns\n\t * a new id referring to the new instance to be used by other functions.\n\t *\n\t * @param {number} geometryId - The ID of a previously added geometry via {@link BatchedMesh#addGeometry}.\n\t * @return {number} The instance ID.\n\t */\n\taddInstance( geometryId ) {\n\n\t\tconst atCapacity = this._instanceInfo.length >= this.maxInstanceCount;\n\n\t\t// ensure we're not over geometry\n\t\tif ( atCapacity && this._availableInstanceIds.length === 0 ) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Maximum item count reached.' );\n\n\t\t}\n\n\t\tconst instanceInfo = {\n\t\t\tvisible: true,\n\t\t\tactive: true,\n\t\t\tgeometryIndex: geometryId,\n\t\t};\n\n\t\tlet drawId = null;\n\n\t\t// Prioritize using previously freed instance ids\n\t\tif ( this._availableInstanceIds.length > 0 ) {\n\n\t\t\tthis._availableInstanceIds.sort( ascIdSort );\n\n\t\t\tdrawId = this._availableInstanceIds.shift();\n\t\t\tthis._instanceInfo[ drawId ] = instanceInfo;\n\n\t\t} else {\n\n\t\t\tdrawId = this._instanceInfo.length;\n\t\t\tthis._instanceInfo.push( instanceInfo );\n\n\t\t}\n\n\t\tconst matricesTexture = this._matricesTexture;\n\t\t_matrix$1.identity().toArray( matricesTexture.image.data, drawId * 16 );\n\t\tmatricesTexture.needsUpdate = true;\n\n\t\tconst colorsTexture = this._colorsTexture;\n\t\tif ( colorsTexture ) {\n\n\t\t\t_whiteColor.toArray( colorsTexture.image.data, drawId * 4 );\n\t\t\tcolorsTexture.needsUpdate = true;\n\n\t\t}\n\n\t\tthis._visibilityChanged = true;\n\t\treturn drawId;\n\n\t}\n\n\t/**\n\t * Adds the given geometry to the batch and returns the associated\n\t * geometry id referring to it to be used in other functions.\n\t *\n\t * @param {BufferGeometry} geometry - The geometry to add.\n\t * @param {number} [reservedVertexCount=-1] - Optional parameter specifying the amount of\n\t * vertex buffer space to reserve for the added geometry. This is necessary if it is planned\n\t * to set a new geometry at this index at a later time that is larger than the original geometry.\n\t * Defaults to the length of the given geometry vertex buffer.\n\t * @param {number} [reservedIndexCount=-1] - Optional parameter specifying the amount of index\n\t * buffer space to reserve for the added geometry. This is necessary if it is planned to set a\n\t * new geometry at this index at a later time that is larger than the original geometry. Defaults to\n\t * the length of the given geometry index buffer.\n\t * @return {number} The geometry ID.\n\t */\n\taddGeometry( geometry, reservedVertexCount = -1, reservedIndexCount = -1 ) {\n\n\t\tthis._initializeGeometry( geometry );\n\n\t\tthis._validateGeometry( geometry );\n\n\t\tconst geometryInfo = {\n\t\t\t// geometry information\n\t\t\tvertexStart: -1,\n\t\t\tvertexCount: -1,\n\t\t\treservedVertexCount: -1,\n\n\t\t\tindexStart: -1,\n\t\t\tindexCount: -1,\n\t\t\treservedIndexCount: -1,\n\n\t\t\t// draw range information\n\t\t\tstart: -1,\n\t\t\tcount: -1,\n\n\t\t\t// state\n\t\t\tboundingBox: null,\n\t\t\tboundingSphere: null,\n\t\t\tactive: true,\n\t\t};\n\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tgeometryInfo.vertexStart = this._nextVertexStart;\n\t\tgeometryInfo.reservedVertexCount = reservedVertexCount === -1 ? geometry.getAttribute( 'position' ).count : reservedVertexCount;\n\n\t\tconst index = geometry.getIndex();\n\t\tconst hasIndex = index !== null;\n\t\tif ( hasIndex ) {\n\n\t\t\tgeometryInfo.indexStart = this._nextIndexStart;\n\t\t\tgeometryInfo.reservedIndexCount = reservedIndexCount === -1 ? index.count : reservedIndexCount;\n\n\t\t}\n\n\t\tif (\n\t\t\tgeometryInfo.indexStart !== -1 &&\n\t\t\tgeometryInfo.indexStart + geometryInfo.reservedIndexCount > this._maxIndexCount ||\n\t\t\tgeometryInfo.vertexStart + geometryInfo.reservedVertexCount > this._maxVertexCount\n\t\t) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Reserved space request exceeds the maximum buffer size.' );\n\n\t\t}\n\n\t\t// update id\n\t\tlet geometryId;\n\t\tif ( this._availableGeometryIds.length > 0 ) {\n\n\t\t\tthis._availableGeometryIds.sort( ascIdSort );\n\n\t\t\tgeometryId = this._availableGeometryIds.shift();\n\t\t\tgeometryInfoList[ geometryId ] = geometryInfo;\n\n\n\t\t} else {\n\n\t\t\tgeometryId = this._geometryCount;\n\t\t\tthis._geometryCount ++;\n\t\t\tgeometryInfoList.push( geometryInfo );\n\n\t\t}\n\n\t\t// update the geometry\n\t\tthis.setGeometryAt( geometryId, geometry );\n\n\t\t// increment the next geometry position\n\t\tthis._nextIndexStart = geometryInfo.indexStart + geometryInfo.reservedIndexCount;\n\t\tthis._nextVertexStart = geometryInfo.vertexStart + geometryInfo.reservedVertexCount;\n\n\t\treturn geometryId;\n\n\t}\n\n\t/**\n\t * Replaces the geometry at the given ID with the provided geometry. Throws an error if there\n\t * is not enough space reserved for geometry. Calling this will change all instances that are\n\t * rendering that geometry.\n\t *\n\t * @param {number} geometryId - The ID of the geometry that should be replaced with the given geometry.\n\t * @param {BufferGeometry} geometry - The new geometry.\n\t * @return {number} The geometry ID.\n\t */\n\tsetGeometryAt( geometryId, geometry ) {\n\n\t\tif ( geometryId >= this._geometryCount ) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Maximum geometry count reached.' );\n\n\t\t}\n\n\t\tthis._validateGeometry( geometry );\n\n\t\tconst batchGeometry = this.geometry;\n\t\tconst hasIndex = batchGeometry.getIndex() !== null;\n\t\tconst dstIndex = batchGeometry.getIndex();\n\t\tconst srcIndex = geometry.getIndex();\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\tif (\n\t\t\thasIndex &&\n\t\t\tsrcIndex.count > geometryInfo.reservedIndexCount ||\n\t\t\tgeometry.attributes.position.count > geometryInfo.reservedVertexCount\n\t\t) {\n\n\t\t\tthrow new Error( 'THREE.BatchedMesh: Reserved space not large enough for provided geometry.' );\n\n\t\t}\n\n\t\t// copy geometry buffer data over\n\t\tconst vertexStart = geometryInfo.vertexStart;\n\t\tconst reservedVertexCount = geometryInfo.reservedVertexCount;\n\t\tgeometryInfo.vertexCount = geometry.getAttribute( 'position' ).count;\n\n\t\tfor ( const attributeName in batchGeometry.attributes ) {\n\n\t\t\t// copy attribute data\n\t\t\tconst srcAttribute = geometry.getAttribute( attributeName );\n\t\t\tconst dstAttribute = batchGeometry.getAttribute( attributeName );\n\t\t\tcopyAttributeData( srcAttribute, dstAttribute, vertexStart );\n\n\t\t\t// fill the rest in with zeroes\n\t\t\tconst itemSize = srcAttribute.itemSize;\n\t\t\tfor ( let i = srcAttribute.count, l = reservedVertexCount; i < l; i ++ ) {\n\n\t\t\t\tconst index = vertexStart + i;\n\t\t\t\tfor ( let c = 0; c < itemSize; c ++ ) {\n\n\t\t\t\t\tdstAttribute.setComponent( index, c, 0 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tdstAttribute.needsUpdate = true;\n\t\t\tdstAttribute.addUpdateRange( vertexStart * itemSize, reservedVertexCount * itemSize );\n\n\t\t}\n\n\t\t// copy index\n\t\tif ( hasIndex ) {\n\n\t\t\tconst indexStart = geometryInfo.indexStart;\n\t\t\tconst reservedIndexCount = geometryInfo.reservedIndexCount;\n\t\t\tgeometryInfo.indexCount = geometry.getIndex().count;\n\n\t\t\t// copy index data over\n\t\t\tfor ( let i = 0; i < srcIndex.count; i ++ ) {\n\n\t\t\t\tdstIndex.setX( indexStart + i, vertexStart + srcIndex.getX( i ) );\n\n\t\t\t}\n\n\t\t\t// fill the rest in with zeroes\n\t\t\tfor ( let i = srcIndex.count, l = reservedIndexCount; i < l; i ++ ) {\n\n\t\t\t\tdstIndex.setX( indexStart + i, vertexStart );\n\n\t\t\t}\n\n\t\t\tdstIndex.needsUpdate = true;\n\t\t\tdstIndex.addUpdateRange( indexStart, geometryInfo.reservedIndexCount );\n\n\t\t}\n\n\t\t// update the draw range\n\t\tgeometryInfo.start = hasIndex ? geometryInfo.indexStart : geometryInfo.vertexStart;\n\t\tgeometryInfo.count = hasIndex ? geometryInfo.indexCount : geometryInfo.vertexCount;\n\n\t\t// store the bounding boxes\n\t\tgeometryInfo.boundingBox = null;\n\t\tif ( geometry.boundingBox !== null ) {\n\n\t\t\tgeometryInfo.boundingBox = geometry.boundingBox.clone();\n\n\t\t}\n\n\t\tgeometryInfo.boundingSphere = null;\n\t\tif ( geometry.boundingSphere !== null ) {\n\n\t\t\tgeometryInfo.boundingSphere = geometry.boundingSphere.clone();\n\n\t\t}\n\n\t\tthis._visibilityChanged = true;\n\t\treturn geometryId;\n\n\t}\n\n\t/**\n\t * Deletes the geometry defined by the given ID from this batch. Any instances referencing\n\t * this geometry will also be removed as a side effect.\n\t *\n\t * @param {number} geometryId - The ID of the geometry to remove from the batch.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tdeleteGeometry( geometryId ) {\n\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tif ( geometryId >= geometryInfoList.length || geometryInfoList[ geometryId ].active === false ) {\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\t// delete any instances associated with this geometry\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( instanceInfo[ i ].active && instanceInfo[ i ].geometryIndex === geometryId ) {\n\n\t\t\t\tthis.deleteInstance( i );\n\n\t\t\t}\n\n\t\t}\n\n\t\tgeometryInfoList[ geometryId ].active = false;\n\t\tthis._availableGeometryIds.push( geometryId );\n\t\tthis._visibilityChanged = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Deletes an existing instance from the batch using the given ID.\n\t *\n\t * @param {number} instanceId - The ID of the instance to remove from the batch.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tdeleteInstance( instanceId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tthis._instanceInfo[ instanceId ].active = false;\n\t\tthis._availableInstanceIds.push( instanceId );\n\t\tthis._visibilityChanged = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Repacks the sub geometries in [name] to remove any unused space remaining from\n\t * previously deleted geometry, freeing up space to add new geometry.\n\t *\n\t * @param {number} instanceId - The ID of the instance to remove from the batch.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\toptimize() {\n\n\t\t// track the next indices to copy data to\n\t\tlet nextVertexStart = 0;\n\t\tlet nextIndexStart = 0;\n\n\t\t// Iterate over all geometry ranges in order sorted from earliest in the geometry buffer to latest\n\t\t// in the geometry buffer. Because draw range objects can be reused there is no guarantee of their order.\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tconst indices = geometryInfoList\n\t\t\t.map( ( e, i ) => i )\n\t\t\t.sort( ( a, b ) => {\n\n\t\t\t\treturn geometryInfoList[ a ].vertexStart - geometryInfoList[ b ].vertexStart;\n\n\t\t\t} );\n\n\t\tconst geometry = this.geometry;\n\t\tfor ( let i = 0, l = geometryInfoList.length; i < l; i ++ ) {\n\n\t\t\t// if a geometry range is inactive then don't copy anything\n\t\t\tconst index = indices[ i ];\n\t\t\tconst geometryInfo = geometryInfoList[ index ];\n\t\t\tif ( geometryInfo.active === false ) {\n\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\t// if a geometry contains an index buffer then shift it, as well\n\t\t\tif ( geometry.index !== null ) {\n\n\t\t\t\tif ( geometryInfo.indexStart !== nextIndexStart ) {\n\n\t\t\t\t\tconst { indexStart, vertexStart, reservedIndexCount } = geometryInfo;\n\t\t\t\t\tconst index = geometry.index;\n\t\t\t\t\tconst array = index.array;\n\n\t\t\t\t\t// shift the index pointers based on how the vertex data will shift\n\t\t\t\t\t// adjusting the index must happen first so the original vertex start value is available\n\t\t\t\t\tconst elementDelta = nextVertexStart - vertexStart;\n\t\t\t\t\tfor ( let j = indexStart; j < indexStart + reservedIndexCount; j ++ ) {\n\n\t\t\t\t\t\tarray[ j ] = array[ j ] + elementDelta;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tindex.array.copyWithin( nextIndexStart, indexStart, indexStart + reservedIndexCount );\n\t\t\t\t\tindex.addUpdateRange( nextIndexStart, reservedIndexCount );\n\n\t\t\t\t\tgeometryInfo.indexStart = nextIndexStart;\n\n\t\t\t\t}\n\n\t\t\t\tnextIndexStart += geometryInfo.reservedIndexCount;\n\n\t\t\t}\n\n\t\t\t// if a geometry needs to be moved then copy attribute data to overwrite unused space\n\t\t\tif ( geometryInfo.vertexStart !== nextVertexStart ) {\n\n\t\t\t\tconst { vertexStart, reservedVertexCount } = geometryInfo;\n\t\t\t\tconst attributes = geometry.attributes;\n\t\t\t\tfor ( const key in attributes ) {\n\n\t\t\t\t\tconst attribute = attributes[ key ];\n\t\t\t\t\tconst { array, itemSize } = attribute;\n\t\t\t\t\tarray.copyWithin( nextVertexStart * itemSize, vertexStart * itemSize, ( vertexStart + reservedVertexCount ) * itemSize );\n\t\t\t\t\tattribute.addUpdateRange( nextVertexStart * itemSize, reservedVertexCount * itemSize );\n\n\t\t\t\t}\n\n\t\t\t\tgeometryInfo.vertexStart = nextVertexStart;\n\n\t\t\t}\n\n\t\t\tnextVertexStart += geometryInfo.reservedVertexCount;\n\t\t\tgeometryInfo.start = geometry.index ? geometryInfo.indexStart : geometryInfo.vertexStart;\n\n\t\t\t// step the next geometry points to the shifted position\n\t\t\tthis._nextIndexStart = geometry.index ? geometryInfo.indexStart + geometryInfo.reservedIndexCount : 0;\n\t\t\tthis._nextVertexStart = geometryInfo.vertexStart + geometryInfo.reservedVertexCount;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the bounding box for the given geometry.\n\t *\n\t * @param {number} geometryId - The ID of the geometry to return the bounding box for.\n\t * @param {Box3} target - The target object that is used to store the method's result.\n\t * @return {?Box3} The geometry's bounding box. Returns `null` if no geometry has been found for the given ID.\n\t */\n\tgetBoundingBoxAt( geometryId, target ) {\n\n\t\tif ( geometryId >= this._geometryCount ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// compute bounding box\n\t\tconst geometry = this.geometry;\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\tif ( geometryInfo.boundingBox === null ) {\n\n\t\t\tconst box = new Box3();\n\t\t\tconst index = geometry.index;\n\t\t\tconst position = geometry.attributes.position;\n\t\t\tfor ( let i = geometryInfo.start, l = geometryInfo.start + geometryInfo.count; i < l; i ++ ) {\n\n\t\t\t\tlet iv = i;\n\t\t\t\tif ( index ) {\n\n\t\t\t\t\tiv = index.getX( iv );\n\n\t\t\t\t}\n\n\t\t\t\tbox.expandByPoint( _vector$5.fromBufferAttribute( position, iv ) );\n\n\t\t\t}\n\n\t\t\tgeometryInfo.boundingBox = box;\n\n\t\t}\n\n\t\ttarget.copy( geometryInfo.boundingBox );\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the bounding sphere for the given geometry.\n\t *\n\t * @param {number} geometryId - The ID of the geometry to return the bounding sphere for.\n\t * @param {Sphere} target - The target object that is used to store the method's result.\n\t * @return {?Sphere} The geometry's bounding sphere. Returns `null` if no geometry has been found for the given ID.\n\t */\n\tgetBoundingSphereAt( geometryId, target ) {\n\n\t\tif ( geometryId >= this._geometryCount ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\t// compute bounding sphere\n\t\tconst geometry = this.geometry;\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\tif ( geometryInfo.boundingSphere === null ) {\n\n\t\t\tconst sphere = new Sphere();\n\t\t\tthis.getBoundingBoxAt( geometryId, _box$1 );\n\t\t\t_box$1.getCenter( sphere.center );\n\n\t\t\tconst index = geometry.index;\n\t\t\tconst position = geometry.attributes.position;\n\n\t\t\tlet maxRadiusSq = 0;\n\t\t\tfor ( let i = geometryInfo.start, l = geometryInfo.start + geometryInfo.count; i < l; i ++ ) {\n\n\t\t\t\tlet iv = i;\n\t\t\t\tif ( index ) {\n\n\t\t\t\t\tiv = index.getX( iv );\n\n\t\t\t\t}\n\n\t\t\t\t_vector$5.fromBufferAttribute( position, iv );\n\t\t\t\tmaxRadiusSq = Math.max( maxRadiusSq, sphere.center.distanceToSquared( _vector$5 ) );\n\n\t\t\t}\n\n\t\t\tsphere.radius = Math.sqrt( maxRadiusSq );\n\t\t\tgeometryInfo.boundingSphere = sphere;\n\n\t\t}\n\n\t\ttarget.copy( geometryInfo.boundingSphere );\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Sets the given local transformation matrix to the defined instance.\n\t * Negatively scaled matrices are not supported.\n\t *\n\t * @param {number} instanceId - The ID of an instance to set the matrix of.\n\t * @param {Matrix4} matrix - A 4x4 matrix representing the local transformation of a single instance.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetMatrixAt( instanceId, matrix ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tconst matricesTexture = this._matricesTexture;\n\t\tconst matricesArray = this._matricesTexture.image.data;\n\t\tmatrix.toArray( matricesArray, instanceId * 16 );\n\t\tmatricesTexture.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the local transformation matrix of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the matrix of.\n\t * @param {Matrix4} matrix - The target object that is used to store the method's result.\n\t * @return {Matrix4} The instance's local transformation matrix.\n\t */\n\tgetMatrixAt( instanceId, matrix ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\t\treturn matrix.fromArray( this._matricesTexture.image.data, instanceId * 16 );\n\n\t}\n\n\t/**\n\t * Sets the given color to the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to set the color of.\n\t * @param {Color} color - The color to set the instance to.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetColorAt( instanceId, color ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tif ( this._colorsTexture === null ) {\n\n\t\t\tthis._initColorsTexture();\n\n\t\t}\n\n\t\tcolor.toArray( this._colorsTexture.image.data, instanceId * 4 );\n\t\tthis._colorsTexture.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the color of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the color of.\n\t * @param {Color} color - The target object that is used to store the method's result.\n\t * @return {Color} The instance's color.\n\t */\n\tgetColorAt( instanceId, color ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\t\treturn color.fromArray( this._colorsTexture.image.data, instanceId * 4 );\n\n\t}\n\n\t/**\n\t * Sets the visibility of the instance.\n\t *\n\t * @param {number} instanceId - The id of the instance to set the visibility of.\n\t * @param {boolean} visible - Whether the instance is visible or not.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetVisibleAt( instanceId, visible ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\tif ( this._instanceInfo[ instanceId ].visible === visible ) {\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tthis._instanceInfo[ instanceId ].visible = visible;\n\t\tthis._visibilityChanged = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the visibility state of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the visibility state of.\n\t * @return {boolean} Whether the instance is visible or not.\n\t */\n\tgetVisibleAt( instanceId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\treturn this._instanceInfo[ instanceId ].visible;\n\n\t}\n\n\t/**\n\t * Sets the geometry ID of the instance at the given index.\n\t *\n\t * @param {number} instanceId - The ID of the instance to set the geometry ID of.\n\t * @param {number} geometryId - The geometry ID to be use by the instance.\n\t * @return {BatchedMesh} A reference to this batched mesh.\n\t */\n\tsetGeometryIdAt( instanceId, geometryId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\t\tthis.validateGeometryId( geometryId );\n\n\t\tthis._instanceInfo[ instanceId ].geometryIndex = geometryId;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the geometry ID of the defined instance.\n\t *\n\t * @param {number} instanceId - The ID of an instance to get the geometry ID of.\n\t * @return {number} The instance's geometry ID.\n\t */\n\tgetGeometryIdAt( instanceId ) {\n\n\t\tthis.validateInstanceId( instanceId );\n\n\t\treturn this._instanceInfo[ instanceId ].geometryIndex;\n\n\t}\n\n\t/**\n\t * Get the range representing the subset of triangles related to the attached geometry,\n\t * indicating the starting offset and count, or `null` if invalid.\n\t *\n\t * @param {number} geometryId - The id of the geometry to get the range of.\n\t * @param {Object} [target] - The target object that is used to store the method's result.\n\t * @return {{\n\t * \tvertexStart:number,vertexCount:number,reservedVertexCount:number,\n\t * \tindexStart:number,indexCount:number,reservedIndexCount:number,\n\t * \tstart:number,count:number\n\t * }} The result object with range data.\n\t */\n\tgetGeometryRangeAt( geometryId, target = {} ) {\n\n\t\tthis.validateGeometryId( geometryId );\n\n\t\tconst geometryInfo = this._geometryInfo[ geometryId ];\n\t\ttarget.vertexStart = geometryInfo.vertexStart;\n\t\ttarget.vertexCount = geometryInfo.vertexCount;\n\t\ttarget.reservedVertexCount = geometryInfo.reservedVertexCount;\n\n\t\ttarget.indexStart = geometryInfo.indexStart;\n\t\ttarget.indexCount = geometryInfo.indexCount;\n\t\ttarget.reservedIndexCount = geometryInfo.reservedIndexCount;\n\n\t\ttarget.start = geometryInfo.start;\n\t\ttarget.count = geometryInfo.count;\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Resizes the necessary buffers to support the provided number of instances.\n\t * If the provided arguments shrink the number of instances but there are not enough\n\t * unused Ids at the end of the list then an error is thrown.\n\t *\n\t * @param {number} maxInstanceCount - The max number of individual instances that can be added and rendered by the batch.\n\t*/\n\tsetInstanceCount( maxInstanceCount ) {\n\n\t\t// shrink the available instances as much as possible\n\t\tconst availableInstanceIds = this._availableInstanceIds;\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tavailableInstanceIds.sort( ascIdSort );\n\t\twhile ( availableInstanceIds[ availableInstanceIds.length - 1 ] === instanceInfo.length - 1 ) {\n\n\t\t\tinstanceInfo.pop();\n\t\t\tavailableInstanceIds.pop();\n\n\t\t}\n\n\t\t// throw an error if it can't be shrunk to the desired size\n\t\tif ( maxInstanceCount < instanceInfo.length ) {\n\n\t\t\tthrow new Error( `BatchedMesh: Instance ids outside the range ${ maxInstanceCount } are being used. Cannot shrink instance count.` );\n\n\t\t}\n\n\t\t// copy the multi draw counts\n\t\tconst multiDrawCounts = new Int32Array( maxInstanceCount );\n\t\tconst multiDrawStarts = new Int32Array( maxInstanceCount );\n\t\tcopyArrayContents( this._multiDrawCounts, multiDrawCounts );\n\t\tcopyArrayContents( this._multiDrawStarts, multiDrawStarts );\n\n\t\tthis._multiDrawCounts = multiDrawCounts;\n\t\tthis._multiDrawStarts = multiDrawStarts;\n\t\tthis._maxInstanceCount = maxInstanceCount;\n\n\t\t// update texture data for instance sampling\n\t\tconst indirectTexture = this._indirectTexture;\n\t\tconst matricesTexture = this._matricesTexture;\n\t\tconst colorsTexture = this._colorsTexture;\n\n\t\tindirectTexture.dispose();\n\t\tthis._initIndirectTexture();\n\t\tcopyArrayContents( indirectTexture.image.data, this._indirectTexture.image.data );\n\n\t\tmatricesTexture.dispose();\n\t\tthis._initMatricesTexture();\n\t\tcopyArrayContents( matricesTexture.image.data, this._matricesTexture.image.data );\n\n\t\tif ( colorsTexture ) {\n\n\t\t\tcolorsTexture.dispose();\n\t\t\tthis._initColorsTexture();\n\t\t\tcopyArrayContents( colorsTexture.image.data, this._colorsTexture.image.data );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Resizes the available space in the batch's vertex and index buffer attributes to the provided sizes.\n\t * If the provided arguments shrink the geometry buffers but there is not enough unused space at the\n\t * end of the geometry attributes then an error is thrown.\n\t *\n\t * @param {number} maxVertexCount - The maximum number of vertices to be used by all unique geometries to resize to.\n\t * @param {number} maxIndexCount - The maximum number of indices to be used by all unique geometries to resize to.\n\t*/\n\tsetGeometrySize( maxVertexCount, maxIndexCount ) {\n\n\t\t// Check if we can shrink to the requested vertex attribute size\n\t\tconst validRanges = [ ...this._geometryInfo ].filter( info => info.active );\n\t\tconst requiredVertexLength = Math.max( ...validRanges.map( range => range.vertexStart + range.reservedVertexCount ) );\n\t\tif ( requiredVertexLength > maxVertexCount ) {\n\n\t\t\tthrow new Error( `BatchedMesh: Geometry vertex values are being used outside the range ${ maxIndexCount }. Cannot shrink further.` );\n\n\t\t}\n\n\t\t// Check if we can shrink to the requested index attribute size\n\t\tif ( this.geometry.index ) {\n\n\t\t\tconst requiredIndexLength = Math.max( ...validRanges.map( range => range.indexStart + range.reservedIndexCount ) );\n\t\t\tif ( requiredIndexLength > maxIndexCount ) {\n\n\t\t\t\tthrow new Error( `BatchedMesh: Geometry index values are being used outside the range ${ maxIndexCount }. Cannot shrink further.` );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//\n\n\t\t// dispose of the previous geometry\n\t\tconst oldGeometry = this.geometry;\n\t\toldGeometry.dispose();\n\n\t\t// recreate the geometry needed based on the previous variant\n\t\tthis._maxVertexCount = maxVertexCount;\n\t\tthis._maxIndexCount = maxIndexCount;\n\n\t\tif ( this._geometryInitialized ) {\n\n\t\t\tthis._geometryInitialized = false;\n\t\t\tthis.geometry = new BufferGeometry();\n\t\t\tthis._initializeGeometry( oldGeometry );\n\n\t\t}\n\n\t\t// copy data from the previous geometry\n\t\tconst geometry = this.geometry;\n\t\tif ( oldGeometry.index ) {\n\n\t\t\tcopyArrayContents( oldGeometry.index.array, geometry.index.array );\n\n\t\t}\n\n\t\tfor ( const key in oldGeometry.attributes ) {\n\n\t\t\tcopyArrayContents( oldGeometry.attributes[ key ].array, geometry.attributes[ key ].array );\n\n\t\t}\n\n\t}\n\n\traycast( raycaster, intersects ) {\n\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst batchGeometry = this.geometry;\n\n\t\t// iterate over each geometry\n\t\t_mesh.material = this.material;\n\t\t_mesh.geometry.index = batchGeometry.index;\n\t\t_mesh.geometry.attributes = batchGeometry.attributes;\n\t\tif ( _mesh.geometry.boundingBox === null ) {\n\n\t\t\t_mesh.geometry.boundingBox = new Box3();\n\n\t\t}\n\n\t\tif ( _mesh.geometry.boundingSphere === null ) {\n\n\t\t\t_mesh.geometry.boundingSphere = new Sphere();\n\n\t\t}\n\n\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\tif ( ! instanceInfo[ i ].visible || ! instanceInfo[ i ].active ) {\n\n\t\t\t\tcontinue;\n\n\t\t\t}\n\n\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\t\t\tconst geometryInfo = geometryInfoList[ geometryId ];\n\t\t\t_mesh.geometry.setDrawRange( geometryInfo.start, geometryInfo.count );\n\n\t\t\t// get the intersects\n\t\t\tthis.getMatrixAt( i, _mesh.matrixWorld ).premultiply( matrixWorld );\n\t\t\tthis.getBoundingBoxAt( geometryId, _mesh.geometry.boundingBox );\n\t\t\tthis.getBoundingSphereAt( geometryId, _mesh.geometry.boundingSphere );\n\t\t\t_mesh.raycast( raycaster, _batchIntersects );\n\n\t\t\t// add batch id to the intersects\n\t\t\tfor ( let j = 0, l = _batchIntersects.length; j < l; j ++ ) {\n\n\t\t\t\tconst intersect = _batchIntersects[ j ];\n\t\t\t\tintersect.object = this;\n\t\t\t\tintersect.batchId = i;\n\t\t\t\tintersects.push( intersect );\n\n\t\t\t}\n\n\t\t\t_batchIntersects.length = 0;\n\n\t\t}\n\n\t\t_mesh.material = null;\n\t\t_mesh.geometry.index = null;\n\t\t_mesh.geometry.attributes = {};\n\t\t_mesh.geometry.setDrawRange( 0, Infinity );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.geometry = source.geometry.clone();\n\t\tthis.perObjectFrustumCulled = source.perObjectFrustumCulled;\n\t\tthis.sortObjects = source.sortObjects;\n\t\tthis.boundingBox = source.boundingBox !== null ? source.boundingBox.clone() : null;\n\t\tthis.boundingSphere = source.boundingSphere !== null ? source.boundingSphere.clone() : null;\n\n\t\tthis._geometryInfo = source._geometryInfo.map( info => ( {\n\t\t\t...info,\n\n\t\t\tboundingBox: info.boundingBox !== null ? info.boundingBox.clone() : null,\n\t\t\tboundingSphere: info.boundingSphere !== null ? info.boundingSphere.clone() : null,\n\t\t} ) );\n\t\tthis._instanceInfo = source._instanceInfo.map( info => ( { ...info } ) );\n\n\t\tthis._availableInstanceIds = source._availableInstanceIds.slice();\n\t\tthis._availableGeometryIds = source._availableGeometryIds.slice();\n\n\t\tthis._nextIndexStart = source._nextIndexStart;\n\t\tthis._nextVertexStart = source._nextVertexStart;\n\t\tthis._geometryCount = source._geometryCount;\n\n\t\tthis._maxInstanceCount = source._maxInstanceCount;\n\t\tthis._maxVertexCount = source._maxVertexCount;\n\t\tthis._maxIndexCount = source._maxIndexCount;\n\n\t\tthis._geometryInitialized = source._geometryInitialized;\n\t\tthis._multiDrawCounts = source._multiDrawCounts.slice();\n\t\tthis._multiDrawStarts = source._multiDrawStarts.slice();\n\n\t\tthis._indirectTexture = source._indirectTexture.clone();\n\t\tthis._indirectTexture.image.data = this._indirectTexture.image.data.slice();\n\n\t\tthis._matricesTexture = source._matricesTexture.clone();\n\t\tthis._matricesTexture.image.data = this._matricesTexture.image.data.slice();\n\n\t\tif ( this._colorsTexture !== null ) {\n\n\t\t\tthis._colorsTexture = source._colorsTexture.clone();\n\t\t\tthis._colorsTexture.image.data = this._colorsTexture.image.data.slice();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\t// Assuming the geometry is not shared with other meshes\n\t\tthis.geometry.dispose();\n\n\t\tthis._matricesTexture.dispose();\n\t\tthis._matricesTexture = null;\n\n\t\tthis._indirectTexture.dispose();\n\t\tthis._indirectTexture = null;\n\n\t\tif ( this._colorsTexture !== null ) {\n\n\t\t\tthis._colorsTexture.dispose();\n\t\t\tthis._colorsTexture = null;\n\n\t\t}\n\n\t}\n\n\tonBeforeRender( renderer, scene, camera, geometry, material/*, _group*/ ) {\n\n\t\t// if visibility has not changed and frustum culling and object sorting is not required\n\t\t// then skip iterating over all items\n\t\tif ( ! this._visibilityChanged && ! this.perObjectFrustumCulled && ! this.sortObjects ) {\n\n\t\t\treturn;\n\n\t\t}\n\n\t\t// the indexed version of the multi draw function requires specifying the start\n\t\t// offset in bytes.\n\t\tconst index = geometry.getIndex();\n\t\tconst bytesPerElement = index === null ? 1 : index.array.BYTES_PER_ELEMENT;\n\n\t\tconst instanceInfo = this._instanceInfo;\n\t\tconst multiDrawStarts = this._multiDrawStarts;\n\t\tconst multiDrawCounts = this._multiDrawCounts;\n\t\tconst geometryInfoList = this._geometryInfo;\n\t\tconst perObjectFrustumCulled = this.perObjectFrustumCulled;\n\t\tconst indirectTexture = this._indirectTexture;\n\t\tconst indirectArray = indirectTexture.image.data;\n\n\t\tconst frustum = camera.isArrayCamera ? _frustumArray : _frustum;\n\t\t// prepare the frustum in the local frame\n\t\tif ( perObjectFrustumCulled && ! camera.isArrayCamera ) {\n\n\t\t\t_matrix$1\n\t\t\t\t.multiplyMatrices( camera.projectionMatrix, camera.matrixWorldInverse )\n\t\t\t\t.multiply( this.matrixWorld );\n\n\t\t\t_frustum.setFromProjectionMatrix(\n\t\t\t\t_matrix$1,\n\t\t\t\tcamera.coordinateSystem,\n\t\t\t\tcamera.reversedDepth\n\t\t\t);\n\n\t\t}\n\n\t\tlet multiDrawCount = 0;\n\t\tif ( this.sortObjects ) {\n\n\t\t\t// get the camera position in the local frame\n\t\t\t_matrix$1.copy( this.matrixWorld ).invert();\n\t\t\t_vector$5.setFromMatrixPosition( camera.matrixWorld ).applyMatrix4( _matrix$1 );\n\t\t\t_forward$1.set( 0, 0, -1 ).transformDirection( camera.matrixWorld ).transformDirection( _matrix$1 );\n\n\t\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\t\tif ( instanceInfo[ i ].visible && instanceInfo[ i ].active ) {\n\n\t\t\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\n\t\t\t\t\t// get the bounds in world space\n\t\t\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\t\t\tthis.getBoundingSphereAt( geometryId, _sphere$2 ).applyMatrix4( _matrix$1 );\n\n\t\t\t\t\t// determine whether the batched geometry is within the frustum\n\t\t\t\t\tlet culled = false;\n\t\t\t\t\tif ( perObjectFrustumCulled ) {\n\n\t\t\t\t\t\tculled = ! frustum.intersectsSphere( _sphere$2, camera );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! culled ) {\n\n\t\t\t\t\t\t// get the distance from camera used for sorting\n\t\t\t\t\t\tconst geometryInfo = geometryInfoList[ geometryId ];\n\t\t\t\t\t\tconst z = _temp.subVectors( _sphere$2.center, _vector$5 ).dot( _forward$1 );\n\t\t\t\t\t\t_renderList.push( geometryInfo.start, geometryInfo.count, z, i );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// Sort the draw ranges and prep for rendering\n\t\t\tconst list = _renderList.list;\n\t\t\tconst customSort = this.customSort;\n\t\t\tif ( customSort === null ) {\n\n\t\t\t\tlist.sort( material.transparent ? sortTransparent : sortOpaque );\n\n\t\t\t} else {\n\n\t\t\t\tcustomSort.call( this, list, camera );\n\n\t\t\t}\n\n\t\t\tfor ( let i = 0, l = list.length; i < l; i ++ ) {\n\n\t\t\t\tconst item = list[ i ];\n\t\t\t\tmultiDrawStarts[ multiDrawCount ] = item.start * bytesPerElement;\n\t\t\t\tmultiDrawCounts[ multiDrawCount ] = item.count;\n\t\t\t\tindirectArray[ multiDrawCount ] = item.index;\n\t\t\t\tmultiDrawCount ++;\n\n\t\t\t}\n\n\t\t\t_renderList.reset();\n\n\t\t} else {\n\n\t\t\tfor ( let i = 0, l = instanceInfo.length; i < l; i ++ ) {\n\n\t\t\t\tif ( instanceInfo[ i ].visible && instanceInfo[ i ].active ) {\n\n\t\t\t\t\tconst geometryId = instanceInfo[ i ].geometryIndex;\n\n\t\t\t\t\t// determine whether the batched geometry is within the frustum\n\t\t\t\t\tlet culled = false;\n\t\t\t\t\tif ( perObjectFrustumCulled ) {\n\n\t\t\t\t\t\t// get the bounds in world space\n\t\t\t\t\t\tthis.getMatrixAt( i, _matrix$1 );\n\t\t\t\t\t\tthis.getBoundingSphereAt( geometryId, _sphere$2 ).applyMatrix4( _matrix$1 );\n\t\t\t\t\t\tculled = ! frustum.intersectsSphere( _sphere$2, camera );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! culled ) {\n\n\t\t\t\t\t\tconst geometryInfo = geometryInfoList[ geometryId ];\n\t\t\t\t\t\tmultiDrawStarts[ multiDrawCount ] = geometryInfo.start * bytesPerElement;\n\t\t\t\t\t\tmultiDrawCounts[ multiDrawCount ] = geometryInfo.count;\n\t\t\t\t\t\tindirectArray[ multiDrawCount ] = i;\n\t\t\t\t\t\tmultiDrawCount ++;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tindirectTexture.needsUpdate = true;\n\t\tthis._multiDrawCount = multiDrawCount;\n\t\tthis._visibilityChanged = false;\n\n\t}\n\n\tonBeforeShadow( renderer, object, camera, shadowCamera, geometry, depthMaterial/* , group */ ) {\n\n\t\tthis.onBeforeRender( renderer, null, shadowCamera, geometry, depthMaterial );\n\n\t}\n\n}\n\n/**\n * A material for rendering line primitives.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * ```js\n * const material = new THREE.LineBasicMaterial( { color: 0xffffff } );\n * ```\n *\n * @augments Material\n */\nclass LineBasicMaterial extends Material {\n\n\t/**\n\t * Constructs a new line basic material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineBasicMaterial = true;\n\n\t\tthis.type = 'LineBasicMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * Sets the color of the lines using data from a texture. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * Controls line thickness or lines.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}. WebGL and WebGPU\n\t\t * ignore this setting and always render line primitives with a\n\t\t * width of one pixel.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.linewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of line ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('butt'|'round'|'square')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.linecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of line joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.linejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.linewidth = source.linewidth;\n\t\tthis.linecap = source.linecap;\n\t\tthis.linejoin = source.linejoin;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _vStart = /*@__PURE__*/ new Vector3();\nconst _vEnd = /*@__PURE__*/ new Vector3();\n\nconst _inverseMatrix$1 = /*@__PURE__*/ new Matrix4();\nconst _ray$1 = /*@__PURE__*/ new Ray();\nconst _sphere$1 = /*@__PURE__*/ new Sphere();\n\nconst _intersectPointOnRay = /*@__PURE__*/ new Vector3();\nconst _intersectPointOnSegment = /*@__PURE__*/ new Vector3();\n\n/**\n * A continuous line. The line are rendered by connecting consecutive\n * vertices with straight lines.\n *\n * ```js\n * const material = new THREE.LineBasicMaterial( { color: 0x0000ff } );\n *\n * const points = [];\n * points.push( new THREE.Vector3( - 10, 0, 0 ) );\n * points.push( new THREE.Vector3( 0, 10, 0 ) );\n * points.push( new THREE.Vector3( 10, 0, 0 ) );\n *\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const line = new THREE.Line( geometry, material );\n * scene.add( line );\n * ```\n *\n * @augments Object3D\n */\nclass Line extends Object3D {\n\n\t/**\n\t * Constructs a new line.\n\t *\n\t * @param {BufferGeometry} [geometry] - The line geometry.\n\t * @param {Material|Array} [material] - The line material.\n\t */\n\tconstructor( geometry = new BufferGeometry(), material = new LineBasicMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLine = true;\n\n\t\tthis.type = 'Line';\n\n\t\t/**\n\t\t * The line geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = geometry;\n\n\t\t/**\n\t\t * The line material.\n\t\t *\n\t\t * @type {Material|Array}\n\t\t * @default LineBasicMaterial\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * A dictionary representing the morph targets in the geometry. The key is the\n\t\t * morph targets name, the value its attribute index. This member is `undefined`\n\t\t * by default and only set when morph targets are detected in the geometry.\n\t\t *\n\t\t * @type {Object|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetDictionary = undefined;\n\n\t\t/**\n\t\t * An array of weights typically in the range `[0,1]` that specify how much of the morph\n\t\t * is applied. This member is `undefined` by default and only set when morph targets are\n\t\t * detected in the geometry.\n\t\t *\n\t\t * @type {Array|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetInfluences = undefined;\n\n\t\tthis.updateMorphTargets();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.material = Array.isArray( source.material ) ? source.material.slice() : source.material;\n\t\tthis.geometry = source.geometry;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes an array of distance values which are necessary for rendering dashed lines.\n\t * For each vertex in the geometry, the method calculates the cumulative length from the\n\t * current point to the very beginning of the line.\n\t *\n\t * @return {Line} A reference to this line.\n\t */\n\tcomputeLineDistances() {\n\n\t\tconst geometry = this.geometry;\n\n\t\t// we assume non-indexed geometry\n\n\t\tif ( geometry.index === null ) {\n\n\t\t\tconst positionAttribute = geometry.attributes.position;\n\t\t\tconst lineDistances = [ 0 ];\n\n\t\t\tfor ( let i = 1, l = positionAttribute.count; i < l; i ++ ) {\n\n\t\t\t\t_vStart.fromBufferAttribute( positionAttribute, i - 1 );\n\t\t\t\t_vEnd.fromBufferAttribute( positionAttribute, i );\n\n\t\t\t\tlineDistances[ i ] = lineDistances[ i - 1 ];\n\t\t\t\tlineDistances[ i ] += _vStart.distanceTo( _vEnd );\n\n\t\t\t}\n\n\t\t\tgeometry.setAttribute( 'lineDistance', new Float32BufferAttribute( lineDistances, 1 ) );\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.Line.computeLineDistances(): Computation only possible with non-indexed BufferGeometry.' );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this line.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst threshold = raycaster.params.Line.threshold;\n\t\tconst drawRange = geometry.drawRange;\n\n\t\t// Checking boundingSphere distance to ray\n\n\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t_sphere$1.copy( geometry.boundingSphere );\n\t\t_sphere$1.applyMatrix4( matrixWorld );\n\t\t_sphere$1.radius += threshold;\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere$1 ) === false ) return;\n\n\t\t//\n\n\t\t_inverseMatrix$1.copy( matrixWorld ).invert();\n\t\t_ray$1.copy( raycaster.ray ).applyMatrix4( _inverseMatrix$1 );\n\n\t\tconst localThreshold = threshold / ( ( this.scale.x + this.scale.y + this.scale.z ) / 3 );\n\t\tconst localThresholdSq = localThreshold * localThreshold;\n\n\t\tconst step = this.isLineSegments ? 2 : 1;\n\n\t\tconst index = geometry.index;\n\t\tconst attributes = geometry.attributes;\n\t\tconst positionAttribute = attributes.position;\n\n\t\tif ( index !== null ) {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( index.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, l = end - 1; i < l; i += step ) {\n\n\t\t\t\tconst a = index.getX( i );\n\t\t\t\tconst b = index.getX( i + 1 );\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, a, b, i );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( this.isLineLoop ) {\n\n\t\t\t\tconst a = index.getX( end - 1 );\n\t\t\t\tconst b = index.getX( start );\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, a, b, end - 1 );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( positionAttribute.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, l = end - 1; i < l; i += step ) {\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, i, i + 1, i );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( this.isLineLoop ) {\n\n\t\t\t\tconst intersect = checkIntersection( this, raycaster, _ray$1, localThresholdSq, end - 1, start, end - 1 );\n\n\t\t\t\tif ( intersect ) {\n\n\t\t\t\t\tintersects.push( intersect );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the values of {@link Line#morphTargetDictionary} and {@link Line#morphTargetInfluences}\n\t * to make sure existing morph targets can influence this 3D object.\n\t */\n\tupdateMorphTargets() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst morphAttributes = geometry.morphAttributes;\n\t\tconst keys = Object.keys( morphAttributes );\n\n\t\tif ( keys.length > 0 ) {\n\n\t\t\tconst morphAttribute = morphAttributes[ keys[ 0 ] ];\n\n\t\t\tif ( morphAttribute !== undefined ) {\n\n\t\t\t\tthis.morphTargetInfluences = [];\n\t\t\t\tthis.morphTargetDictionary = {};\n\n\t\t\t\tfor ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) {\n\n\t\t\t\t\tconst name = morphAttribute[ m ].name || String( m );\n\n\t\t\t\t\tthis.morphTargetInfluences.push( 0 );\n\t\t\t\t\tthis.morphTargetDictionary[ name ] = m;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n}\n\nfunction checkIntersection( object, raycaster, ray, thresholdSq, a, b, i ) {\n\n\tconst positionAttribute = object.geometry.attributes.position;\n\n\t_vStart.fromBufferAttribute( positionAttribute, a );\n\t_vEnd.fromBufferAttribute( positionAttribute, b );\n\n\tconst distSq = ray.distanceSqToSegment( _vStart, _vEnd, _intersectPointOnRay, _intersectPointOnSegment );\n\n\tif ( distSq > thresholdSq ) return;\n\n\t_intersectPointOnRay.applyMatrix4( object.matrixWorld ); // Move back to world space for distance calculation\n\n\tconst distance = raycaster.ray.origin.distanceTo( _intersectPointOnRay );\n\n\tif ( distance < raycaster.near || distance > raycaster.far ) return;\n\n\treturn {\n\n\t\tdistance: distance,\n\t\t// What do we want? intersection point on the ray or on the segment??\n\t\t// point: raycaster.ray.at( distance ),\n\t\tpoint: _intersectPointOnSegment.clone().applyMatrix4( object.matrixWorld ),\n\t\tindex: i,\n\t\tface: null,\n\t\tfaceIndex: null,\n\t\tbarycoord: null,\n\t\tobject: object\n\n\t};\n\n}\n\nconst _start = /*@__PURE__*/ new Vector3();\nconst _end = /*@__PURE__*/ new Vector3();\n\n/**\n * A series of lines drawn between pairs of vertices.\n *\n * @augments Line\n */\nclass LineSegments extends Line {\n\n\t/**\n\t * Constructs a new line segments.\n\t *\n\t * @param {BufferGeometry} [geometry] - The line geometry.\n\t * @param {Material|Array} [material] - The line material.\n\t */\n\tconstructor( geometry, material ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineSegments = true;\n\n\t\tthis.type = 'LineSegments';\n\n\t}\n\n\tcomputeLineDistances() {\n\n\t\tconst geometry = this.geometry;\n\n\t\t// we assume non-indexed geometry\n\n\t\tif ( geometry.index === null ) {\n\n\t\t\tconst positionAttribute = geometry.attributes.position;\n\t\t\tconst lineDistances = [];\n\n\t\t\tfor ( let i = 0, l = positionAttribute.count; i < l; i += 2 ) {\n\n\t\t\t\t_start.fromBufferAttribute( positionAttribute, i );\n\t\t\t\t_end.fromBufferAttribute( positionAttribute, i + 1 );\n\n\t\t\t\tlineDistances[ i ] = ( i === 0 ) ? 0 : lineDistances[ i - 1 ];\n\t\t\t\tlineDistances[ i + 1 ] = lineDistances[ i ] + _start.distanceTo( _end );\n\n\t\t\t}\n\n\t\t\tgeometry.setAttribute( 'lineDistance', new Float32BufferAttribute( lineDistances, 1 ) );\n\n\t\t} else {\n\n\t\t\tconsole.warn( 'THREE.LineSegments.computeLineDistances(): Computation only possible with non-indexed BufferGeometry.' );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A continuous line. This is nearly the same as {@link Line} the only difference\n * is that the last vertex is connected with the first vertex in order to close\n * the line to form a loop.\n *\n * @augments Line\n */\nclass LineLoop extends Line {\n\n\t/**\n\t * Constructs a new line loop.\n\t *\n\t * @param {BufferGeometry} [geometry] - The line geometry.\n\t * @param {Material|Array} [material] - The line material.\n\t */\n\tconstructor( geometry, material ) {\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineLoop = true;\n\n\t\tthis.type = 'LineLoop';\n\n\t}\n\n}\n\n/**\n * A material for rendering point primitives.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * ```js\n * const vertices = [];\n *\n * for ( let i = 0; i < 10000; i ++ ) {\n * \tconst x = THREE.MathUtils.randFloatSpread( 2000 );\n * \tconst y = THREE.MathUtils.randFloatSpread( 2000 );\n * \tconst z = THREE.MathUtils.randFloatSpread( 2000 );\n *\n * \tvertices.push( x, y, z );\n * }\n *\n * const geometry = new THREE.BufferGeometry();\n * geometry.setAttribute( 'position', new THREE.Float32BufferAttribute( vertices, 3 ) );\n * const material = new THREE.PointsMaterial( { color: 0x888888 } );\n * const points = new THREE.Points( geometry, material );\n * scene.add( points );\n * ```\n *\n * @augments Material\n */\nclass PointsMaterial extends Material {\n\n\t/**\n\t * Constructs a new points material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPointsMaterial = true;\n\n\t\tthis.type = 'PointsMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * Defines the size of the points in pixels.\n\t\t *\n\t\t * Might be capped if the value exceeds hardware dependent parameters like [gl.ALIASED_POINT_SIZE_RANGE]{@link https://developer.mozilla.org/en-US/docs/Web/API/WebGLRenderingContext/getParamete}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.size = 1;\n\n\t\t/**\n\t\t * Specifies whether size of individual points is attenuated by the camera depth (perspective camera only).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.sizeAttenuation = true;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.size = source.size;\n\t\tthis.sizeAttenuation = source.sizeAttenuation;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _inverseMatrix = /*@__PURE__*/ new Matrix4();\nconst _ray = /*@__PURE__*/ new Ray();\nconst _sphere = /*@__PURE__*/ new Sphere();\nconst _position$2 = /*@__PURE__*/ new Vector3();\n\n/**\n * A class for displaying points or point clouds.\n *\n * @augments Object3D\n */\nclass Points extends Object3D {\n\n\t/**\n\t * Constructs a new point cloud.\n\t *\n\t * @param {BufferGeometry} [geometry] - The points geometry.\n\t * @param {Material|Array} [material] - The points material.\n\t */\n\tconstructor( geometry = new BufferGeometry(), material = new PointsMaterial() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPoints = true;\n\n\t\tthis.type = 'Points';\n\n\t\t/**\n\t\t * The points geometry.\n\t\t *\n\t\t * @type {BufferGeometry}\n\t\t */\n\t\tthis.geometry = geometry;\n\n\t\t/**\n\t\t * The line material.\n\t\t *\n\t\t * @type {Material|Array}\n\t\t * @default PointsMaterial\n\t\t */\n\t\tthis.material = material;\n\n\t\t/**\n\t\t * A dictionary representing the morph targets in the geometry. The key is the\n\t\t * morph targets name, the value its attribute index. This member is `undefined`\n\t\t * by default and only set when morph targets are detected in the geometry.\n\t\t *\n\t\t * @type {Object|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetDictionary = undefined;\n\n\t\t/**\n\t\t * An array of weights typically in the range `[0,1]` that specify how much of the morph\n\t\t * is applied. This member is `undefined` by default and only set when morph targets are\n\t\t * detected in the geometry.\n\t\t *\n\t\t * @type {Array|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.morphTargetInfluences = undefined;\n\n\t\tthis.updateMorphTargets();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.material = Array.isArray( source.material ) ? source.material.slice() : source.material;\n\t\tthis.geometry = source.geometry;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes intersection points between a casted ray and this point cloud.\n\t *\n\t * @param {Raycaster} raycaster - The raycaster.\n\t * @param {Array} intersects - The target array that holds the intersection points.\n\t */\n\traycast( raycaster, intersects ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst matrixWorld = this.matrixWorld;\n\t\tconst threshold = raycaster.params.Points.threshold;\n\t\tconst drawRange = geometry.drawRange;\n\n\t\t// Checking boundingSphere distance to ray\n\n\t\tif ( geometry.boundingSphere === null ) geometry.computeBoundingSphere();\n\n\t\t_sphere.copy( geometry.boundingSphere );\n\t\t_sphere.applyMatrix4( matrixWorld );\n\t\t_sphere.radius += threshold;\n\n\t\tif ( raycaster.ray.intersectsSphere( _sphere ) === false ) return;\n\n\t\t//\n\n\t\t_inverseMatrix.copy( matrixWorld ).invert();\n\t\t_ray.copy( raycaster.ray ).applyMatrix4( _inverseMatrix );\n\n\t\tconst localThreshold = threshold / ( ( this.scale.x + this.scale.y + this.scale.z ) / 3 );\n\t\tconst localThresholdSq = localThreshold * localThreshold;\n\n\t\tconst index = geometry.index;\n\t\tconst attributes = geometry.attributes;\n\t\tconst positionAttribute = attributes.position;\n\n\t\tif ( index !== null ) {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( index.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, il = end; i < il; i ++ ) {\n\n\t\t\t\tconst a = index.getX( i );\n\n\t\t\t\t_position$2.fromBufferAttribute( positionAttribute, a );\n\n\t\t\t\ttestPoint( _position$2, a, localThresholdSq, matrixWorld, raycaster, intersects, this );\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\tconst start = Math.max( 0, drawRange.start );\n\t\t\tconst end = Math.min( positionAttribute.count, ( drawRange.start + drawRange.count ) );\n\n\t\t\tfor ( let i = start, l = end; i < l; i ++ ) {\n\n\t\t\t\t_position$2.fromBufferAttribute( positionAttribute, i );\n\n\t\t\t\ttestPoint( _position$2, i, localThresholdSq, matrixWorld, raycaster, intersects, this );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the values of {@link Points#morphTargetDictionary} and {@link Points#morphTargetInfluences}\n\t * to make sure existing morph targets can influence this 3D object.\n\t */\n\tupdateMorphTargets() {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst morphAttributes = geometry.morphAttributes;\n\t\tconst keys = Object.keys( morphAttributes );\n\n\t\tif ( keys.length > 0 ) {\n\n\t\t\tconst morphAttribute = morphAttributes[ keys[ 0 ] ];\n\n\t\t\tif ( morphAttribute !== undefined ) {\n\n\t\t\t\tthis.morphTargetInfluences = [];\n\t\t\t\tthis.morphTargetDictionary = {};\n\n\t\t\t\tfor ( let m = 0, ml = morphAttribute.length; m < ml; m ++ ) {\n\n\t\t\t\t\tconst name = morphAttribute[ m ].name || String( m );\n\n\t\t\t\t\tthis.morphTargetInfluences.push( 0 );\n\t\t\t\t\tthis.morphTargetDictionary[ name ] = m;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n}\n\nfunction testPoint( point, index, localThresholdSq, matrixWorld, raycaster, intersects, object ) {\n\n\tconst rayPointDistanceSq = _ray.distanceSqToPoint( point );\n\n\tif ( rayPointDistanceSq < localThresholdSq ) {\n\n\t\tconst intersectPoint = new Vector3();\n\n\t\t_ray.closestPointToPoint( point, intersectPoint );\n\t\tintersectPoint.applyMatrix4( matrixWorld );\n\n\t\tconst distance = raycaster.ray.origin.distanceTo( intersectPoint );\n\n\t\tif ( distance < raycaster.near || distance > raycaster.far ) return;\n\n\t\tintersects.push( {\n\n\t\t\tdistance: distance,\n\t\t\tdistanceToRay: Math.sqrt( rayPointDistanceSq ),\n\t\t\tpoint: intersectPoint,\n\t\t\tindex: index,\n\t\t\tface: null,\n\t\t\tfaceIndex: null,\n\t\t\tbarycoord: null,\n\t\t\tobject: object\n\n\t\t} );\n\n\t}\n\n}\n\n/**\n * A texture for use with a video.\n *\n * ```js\n * // assuming you have created a HTML video element with id=\"video\"\n * const video = document.getElementById( 'video' );\n * const texture = new THREE.VideoTexture( video );\n * ```\n *\n * Note: When using video textures with {@link WebGPURenderer}, {@link Texture#colorSpace} must be\n * set to THREE.SRGBColorSpace.\n *\n * Note: After the initial use of a texture, its dimensions, format, and type\n * cannot be changed. Instead, call {@link Texture#dispose} on the texture and instantiate a new one.\n *\n * @augments Texture\n */\nclass VideoTexture extends Texture {\n\n\t/**\n\t * Constructs a new video texture.\n\t *\n\t * @param {HTMLVideoElement} video - The video element to use as a data source for the texture.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t */\n\tconstructor( video, mapping, wrapS, wrapT, magFilter = LinearFilter, minFilter = LinearFilter, format, type, anisotropy ) {\n\n\t\tsuper( video, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isVideoTexture = true;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * The video frame request callback identifier, which is a positive integer.\n\t\t *\n\t\t * Value of 0 represents no scheduled rVFC.\n\t\t *\n\t\t * @private\n\t\t * @type {number}\n\t\t */\n\t\tthis._requestVideoFrameCallbackId = 0;\n\n\t\tconst scope = this;\n\n\t\tfunction updateVideo() {\n\n\t\t\tscope.needsUpdate = true;\n\t\t\tscope._requestVideoFrameCallbackId = video.requestVideoFrameCallback( updateVideo );\n\n\t\t}\n\n\t\tif ( 'requestVideoFrameCallback' in video ) {\n\n\t\t\tthis._requestVideoFrameCallbackId = video.requestVideoFrameCallback( updateVideo );\n\n\t\t}\n\n\t}\n\n\tclone() {\n\n\t\treturn new this.constructor( this.image ).copy( this );\n\n\t}\n\n\t/**\n\t * This method is called automatically by the renderer and sets {@link Texture#needsUpdate}\n\t * to `true` every time a new frame is available.\n\t *\n\t * Only relevant if `requestVideoFrameCallback` is not supported in the browser.\n\t */\n\tupdate() {\n\n\t\tconst video = this.image;\n\t\tconst hasVideoFrameCallback = 'requestVideoFrameCallback' in video;\n\n\t\tif ( hasVideoFrameCallback === false && video.readyState >= video.HAVE_CURRENT_DATA ) {\n\n\t\t\tthis.needsUpdate = true;\n\n\t\t}\n\n\t}\n\n\tdispose() {\n\n\t\tif ( this._requestVideoFrameCallbackId !== 0 ) {\n\n\t\t\tthis.source.data.cancelVideoFrameCallback( this._requestVideoFrameCallbackId );\n\n\t\t}\n\n\t\tsuper.dispose();\n\n\t}\n\n}\n\n/**\n * This class can be used as an alternative way to define video data. Instead of using\n * an instance of `HTMLVideoElement` like with `VideoTexture`, `VideoFrameTexture` expects each frame is\n * defined manually via {@link VideoFrameTexture#setFrame}. A typical use case for this module is when\n * video frames are decoded with the WebCodecs API.\n *\n * ```js\n * const texture = new THREE.VideoFrameTexture();\n * texture.setFrame( frame );\n * ```\n *\n * @augments VideoTexture\n */\nclass VideoFrameTexture extends VideoTexture {\n\n\t/**\n\t * Constructs a new video frame texture.\n\t *\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t */\n\tconstructor( mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ) {\n\n\t\tsuper( {}, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isVideoFrameTexture = true;\n\n\t}\n\n\t/**\n\t * This method overwritten with an empty implementation since\n\t * this type of texture is updated via `setFrame()`.\n\t */\n\tupdate() {}\n\n\tclone() {\n\n\t\treturn new this.constructor().copy( this ); // restoring Texture.clone()\n\n\t}\n\n\t/**\n\t * Sets the current frame of the video. This will automatically update the texture\n\t * so the data can be used for rendering.\n\t *\n\t * @param {VideoFrame} frame - The video frame.\n\t */\n\tsetFrame( frame ) {\n\n\t\tthis.image = frame;\n\t\tthis.needsUpdate = true;\n\n\t}\n\n}\n\n/**\n * This class can only be used in combination with `copyFramebufferToTexture()` methods\n * of renderers. It extracts the contents of the current bound framebuffer and provides it\n * as a texture for further usage.\n *\n * ```js\n * const pixelRatio = window.devicePixelRatio;\n * const textureSize = 128 * pixelRatio;\n *\n * const frameTexture = new FramebufferTexture( textureSize, textureSize );\n *\n * // calculate start position for copying part of the frame data\n * const vector = new Vector2();\n * vector.x = ( window.innerWidth * pixelRatio / 2 ) - ( textureSize / 2 );\n * vector.y = ( window.innerHeight * pixelRatio / 2 ) - ( textureSize / 2 );\n *\n * renderer.render( scene, camera );\n *\n * // copy part of the rendered frame into the framebuffer texture\n * renderer.copyFramebufferToTexture( frameTexture, vector );\n * ```\n *\n * @augments Texture\n */\nclass FramebufferTexture extends Texture {\n\n\t/**\n\t * Constructs a new framebuffer texture.\n\t *\n\t * @param {number} [width] - The width of the texture.\n\t * @param {number} [height] - The height of the texture.\n\t */\n\tconstructor( width, height ) {\n\n\t\tsuper( { width, height } );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isFramebufferTexture = true;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers more than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default to disable filtering.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.magFilter = NearestFilter;\n\n\t\t/**\n\t\t * How the texture is sampled when a texel covers less than one pixel.\n\t\t *\n\t\t * Overwritten and set to `NearestFilter` by default to disable filtering.\n\t\t *\n\t\t * @type {(NearestFilter|NearestMipmapNearestFilter|NearestMipmapLinearFilter|LinearFilter|LinearMipmapNearestFilter|LinearMipmapLinearFilter)}\n\t\t * @default NearestFilter\n\t\t */\n\t\tthis.minFilter = NearestFilter;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\tthis.needsUpdate = true;\n\n\t}\n\n}\n\n/**\n * Creates a texture based on data in compressed form.\n *\n * These texture are usually loaded with {@link CompressedTextureLoader}.\n *\n * @augments Texture\n */\nclass CompressedTexture extends Texture {\n\n\t/**\n\t * Constructs a new compressed texture.\n\t *\n\t * @param {Array} mipmaps - This array holds for all mipmaps (including the bases mip)\n\t * the data and dimensions.\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {string} [colorSpace=NoColorSpace] - The color space.\n\t */\n\tconstructor( mipmaps, width, height, format, type, mapping, wrapS, wrapT, magFilter, minFilter, anisotropy, colorSpace ) {\n\n\t\tsuper( null, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy, colorSpace );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCompressedTexture = true;\n\n\t\t/**\n\t\t * The image property of a compressed texture just defines its dimensions.\n\t\t *\n\t\t * @type {{width:number,height:number}}\n\t\t */\n\t\tthis.image = { width: width, height: height };\n\n\t\t/**\n\t\t * This array holds for all mipmaps (including the bases mip) the data and dimensions.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.mipmaps = mipmaps;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default since it is not possible to\n\t\t * flip compressed textures.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t * @readonly\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default since it is not\n\t\t * possible to generate mipmaps for compressed data. Mipmaps\n\t\t * must be embedded in the compressed texture file.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t * @readonly\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t}\n\n}\n\n/**\n * Creates a texture 2D array based on data in compressed form.\n *\n * These texture are usually loaded with {@link CompressedTextureLoader}.\n *\n * @augments CompressedTexture\n */\nclass CompressedArrayTexture extends CompressedTexture {\n\n\t/**\n\t * Constructs a new compressed array texture.\n\t *\n\t * @param {Array} mipmaps - This array holds for all mipmaps (including the bases mip)\n\t * the data and dimensions.\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} depth - The depth of the texture.\n\t * @param {number} [format=RGBAFormat] - The min filter value.\n\t * @param {number} [type=UnsignedByteType] - The min filter value.\n\t */\n\tconstructor( mipmaps, width, height, depth, format, type ) {\n\n\t\tsuper( mipmaps, width, height, format, type );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCompressedArrayTexture = true;\n\n\t\t/**\n\t\t * The image property of a compressed texture just defines its dimensions.\n\t\t *\n\t\t * @name CompressedArrayTexture#image\n\t\t * @type {{width:number,height:number,depth:number}}\n\t\t */\n\t\tthis.image.depth = depth;\n\n\t\t/**\n\t\t * This defines how the texture is wrapped in the depth and corresponds to\n\t\t * *W* in UVW mapping.\n\t\t *\n\t\t * @type {(RepeatWrapping|ClampToEdgeWrapping|MirroredRepeatWrapping)}\n\t\t * @default ClampToEdgeWrapping\n\t\t */\n\t\tthis.wrapR = ClampToEdgeWrapping;\n\n\t\t/**\n\t\t * A set of all layers which need to be updated in the texture.\n\t\t *\n\t\t * @type {Set}\n\t\t */\n\t\tthis.layerUpdates = new Set();\n\n\t}\n\n\t/**\n\t * Describes that a specific layer of the texture needs to be updated.\n\t * Normally when {@link Texture#needsUpdate} is set to `true`, the\n\t * entire compressed texture array is sent to the GPU. Marking specific\n\t * layers will only transmit subsets of all mipmaps associated with a\n\t * specific depth in the array which is often much more performant.\n\t *\n\t * @param {number} layerIndex - The layer index that should be updated.\n\t */\n\taddLayerUpdate( layerIndex ) {\n\n\t\tthis.layerUpdates.add( layerIndex );\n\n\t}\n\n\t/**\n\t * Resets the layer updates registry.\n\t */\n\tclearLayerUpdates() {\n\n\t\tthis.layerUpdates.clear();\n\n\t}\n\n}\n\n/**\n * Creates a cube texture based on data in compressed form.\n *\n * These texture are usually loaded with {@link CompressedTextureLoader}.\n *\n * @augments CompressedTexture\n */\nclass CompressedCubeTexture extends CompressedTexture {\n\n\t/**\n\t * Constructs a new compressed texture.\n\t *\n\t * @param {Array} images - An array of compressed textures.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t */\n\tconstructor( images, format, type ) {\n\n\t\tsuper( undefined, images[ 0 ].width, images[ 0 ].height, format, type, CubeReflectionMapping );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCompressedCubeTexture = true;\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubeTexture = true;\n\n\t\tthis.image = images;\n\n\t}\n\n}\n\n/**\n * Creates a texture from a canvas element.\n *\n * This is almost the same as the base texture class, except that it sets {@link Texture#needsUpdate}\n * to `true` immediately since a canvas can directly be used for rendering.\n *\n * @augments Texture\n */\nclass CanvasTexture extends Texture {\n\n\t/**\n\t * Constructs a new texture.\n\t *\n\t * @param {HTMLCanvasElement} [canvas] - The HTML canvas element.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearMipmapLinearFilter] - The min filter value.\n\t * @param {number} [format=RGBAFormat] - The texture format.\n\t * @param {number} [type=UnsignedByteType] - The texture type.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t */\n\tconstructor( canvas, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy ) {\n\n\t\tsuper( canvas, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCanvasTexture = true;\n\n\t\tthis.needsUpdate = true;\n\n\t}\n\n}\n\n/**\n * This class can be used to automatically save the depth information of a\n * rendering into a texture.\n *\n * @augments Texture\n */\nclass DepthTexture extends Texture {\n\n\t/**\n\t * Constructs a new depth texture.\n\t *\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} [type=UnsignedIntType] - The texture type.\n\t * @param {number} [mapping=Texture.DEFAULT_MAPPING] - The texture mapping.\n\t * @param {number} [wrapS=ClampToEdgeWrapping] - The wrapS value.\n\t * @param {number} [wrapT=ClampToEdgeWrapping] - The wrapT value.\n\t * @param {number} [magFilter=LinearFilter] - The mag filter value.\n\t * @param {number} [minFilter=LinearFilter] - The min filter value.\n\t * @param {number} [anisotropy=Texture.DEFAULT_ANISOTROPY] - The anisotropy value.\n\t * @param {number} [format=DepthFormat] - The texture format.\n\t * @param {number} [depth=1] - The depth of the texture.\n\t */\n\tconstructor( width, height, type = UnsignedIntType, mapping, wrapS, wrapT, magFilter = NearestFilter, minFilter = NearestFilter, anisotropy, format = DepthFormat, depth = 1 ) {\n\n\t\tif ( format !== DepthFormat && format !== DepthStencilFormat ) {\n\n\t\t\tthrow new Error( 'DepthTexture format must be either THREE.DepthFormat or THREE.DepthStencilFormat' );\n\n\t\t}\n\n\t\tconst image = { width: width, height: height, depth: depth };\n\n\t\tsuper( image, mapping, wrapS, wrapT, magFilter, minFilter, format, type, anisotropy );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDepthTexture = true;\n\n\t\t/**\n\t\t * If set to `true`, the texture is flipped along the vertical axis when\n\t\t * uploaded to the GPU.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flipY = false;\n\n\t\t/**\n\t\t * Whether to generate mipmaps (if possible) for a texture.\n\t\t *\n\t\t * Overwritten and set to `false` by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.generateMipmaps = false;\n\n\t\t/**\n\t\t * Code corresponding to the depth compare function.\n\t\t *\n\t\t * @type {?(NeverCompare|LessCompare|EqualCompare|LessEqualCompare|GreaterCompare|NotEqualCompare|GreaterEqualCompare|AlwaysCompare)}\n\t\t * @default null\n\t\t */\n\t\tthis.compareFunction = null;\n\n\t}\n\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.source = new Source( Object.assign( {}, source.image ) ); // see #30540\n\t\tthis.compareFunction = source.compareFunction;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tif ( this.compareFunction !== null ) data.compareFunction = this.compareFunction;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Represents a texture created externally with the same renderer context.\n *\n * This may be a texture from a protected media stream, device camera feed,\n * or other data feeds like a depth sensor.\n *\n * Note that this class is only supported in {@link WebGLRenderer}, and in\n * the {@link WebGPURenderer} WebGPU backend.\n *\n * @augments Texture\n */\nclass ExternalTexture extends Texture {\n\n\t/**\n\t * Creates a new raw texture.\n\t *\n\t * @param {?(WebGLTexture|GPUTexture)} [sourceTexture=null] - The external texture.\n\t */\n\tconstructor( sourceTexture = null ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The external source texture.\n\t\t *\n\t\t * @type {?(WebGLTexture|GPUTexture)}\n\t\t * @default null\n\t\t */\n\t\tthis.sourceTexture = sourceTexture;\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isExternalTexture = true;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.sourceTexture = source.sourceTexture;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a capsule.\n *\n * ```js\n * const geometry = new THREE.CapsuleGeometry( 1, 1, 4, 8, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const capsule = new THREE.Mesh( geometry, material );\n * scene.add( capsule );\n * ```\n *\n * @augments BufferGeometry\n */\nclass CapsuleGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new capsule geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the capsule.\n\t * @param {number} [height=1] - Height of the middle section.\n\t * @param {number} [capSegments=4] - Number of curve segments used to build each cap.\n\t * @param {number} [radialSegments=8] - Number of segmented faces around the circumference of the capsule. Must be an integer >= 3.\n\t * @param {number} [heightSegments=1] - Number of rows of faces along the height of the middle section. Must be an integer >= 1.\n\t */\n\tconstructor( radius = 1, height = 1, capSegments = 4, radialSegments = 8, heightSegments = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CapsuleGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\theight: height,\n\t\t\tcapSegments: capSegments,\n\t\t\tradialSegments: radialSegments,\n\t\t\theightSegments: heightSegments,\n\t\t};\n\n\t\theight = Math.max( 0, height );\n\t\tcapSegments = Math.max( 1, Math.floor( capSegments ) );\n\t\tradialSegments = Math.max( 3, Math.floor( radialSegments ) );\n\t\theightSegments = Math.max( 1, Math.floor( heightSegments ) );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst halfHeight = height / 2;\n\t\tconst capArcLength = ( Math.PI / 2 ) * radius;\n\t\tconst cylinderPartLength = height;\n\t\tconst totalArcLength = 2 * capArcLength + cylinderPartLength;\n\n\t\tconst numVerticalSegments = capSegments * 2 + heightSegments;\n\t\tconst verticesPerRow = radialSegments + 1;\n\n\t\tconst normal = new Vector3();\n\t\tconst vertex = new Vector3();\n\n\t\t// generate vertices, normals, and uvs\n\n\t\tfor ( let iy = 0; iy <= numVerticalSegments; iy ++ ) {\n\n\t\t\tlet currentArcLength = 0;\n\t\t\tlet profileY = 0;\n\t\t\tlet profileRadius = 0;\n\t\t\tlet normalYComponent = 0;\n\n\t\t\tif ( iy <= capSegments ) {\n\n\t\t\t\t// bottom cap\n\t\t\t\tconst segmentProgress = iy / capSegments;\n\t\t\t\tconst angle = ( segmentProgress * Math.PI ) / 2;\n\t\t\t\tprofileY = - halfHeight - radius * Math.cos( angle );\n\t\t\t\tprofileRadius = radius * Math.sin( angle );\n\t\t\t\tnormalYComponent = - radius * Math.cos( angle );\n\t\t\t\tcurrentArcLength = segmentProgress * capArcLength;\n\n\t\t\t} else if ( iy <= capSegments + heightSegments ) {\n\n\t\t\t\t// middle section\n\t\t\t\tconst segmentProgress = ( iy - capSegments ) / heightSegments;\n\t\t\t\tprofileY = - halfHeight + segmentProgress * height;\n\t\t\t\tprofileRadius = radius;\n\t\t\t\tnormalYComponent = 0;\n\t\t\t\tcurrentArcLength = capArcLength + segmentProgress * cylinderPartLength;\n\n\t\t\t} else {\n\n\t\t\t\t// top cap\n\t\t\t\tconst segmentProgress =\n\t\t\t\t\t( iy - capSegments - heightSegments ) / capSegments;\n\t\t\t\tconst angle = ( segmentProgress * Math.PI ) / 2;\n\t\t\t\tprofileY = halfHeight + radius * Math.sin( angle );\n\t\t\t\tprofileRadius = radius * Math.cos( angle );\n\t\t\t\tnormalYComponent = radius * Math.sin( angle );\n\t\t\t\tcurrentArcLength =\n\t\t\t\t\tcapArcLength + cylinderPartLength + segmentProgress * capArcLength;\n\n\t\t\t}\n\n\t\t\tconst v = Math.max( 0, Math.min( 1, currentArcLength / totalArcLength ) );\n\n\n\t\t\t// special case for the poles\n\n\t\t\tlet uOffset = 0;\n\n\t\t\tif ( iy === 0 ) {\n\n\t\t\t\tuOffset = 0.5 / radialSegments;\n\n\t\t\t} else if ( iy === numVerticalSegments ) {\n\n\t\t\t\tuOffset = -0.5 / radialSegments;\n\n\t\t\t}\n\n\t\t\tfor ( let ix = 0; ix <= radialSegments; ix ++ ) {\n\n\t\t\t\tconst u = ix / radialSegments;\n\t\t\t\tconst theta = u * Math.PI * 2;\n\n\t\t\t\tconst sinTheta = Math.sin( theta );\n\t\t\t\tconst cosTheta = Math.cos( theta );\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = - profileRadius * cosTheta;\n\t\t\t\tvertex.y = profileY;\n\t\t\t\tvertex.z = profileRadius * sinTheta;\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormal.set(\n\t\t\t\t\t- profileRadius * cosTheta,\n\t\t\t\t\tnormalYComponent,\n\t\t\t\t\tprofileRadius * sinTheta\n\t\t\t\t);\n\t\t\t\tnormal.normalize();\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( u + uOffset, v );\n\n\t\t\t}\n\n\t\t\tif ( iy > 0 ) {\n\n\t\t\t\tconst prevIndexRow = ( iy - 1 ) * verticesPerRow;\n\t\t\t\tfor ( let ix = 0; ix < radialSegments; ix ++ ) {\n\n\t\t\t\t\tconst i1 = prevIndexRow + ix;\n\t\t\t\t\tconst i2 = prevIndexRow + ix + 1;\n\t\t\t\t\tconst i3 = iy * verticesPerRow + ix;\n\t\t\t\t\tconst i4 = iy * verticesPerRow + ix + 1;\n\n\t\t\t\t\tindices.push( i1, i2, i3 );\n\t\t\t\t\tindices.push( i2, i4, i3 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {CapsuleGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new CapsuleGeometry( data.radius, data.height, data.capSegments, data.radialSegments, data.heightSegments );\n\n\t}\n\n}\n\n/**\n * A simple shape of Euclidean geometry. It is constructed from a\n * number of triangular segments that are oriented around a central point and\n * extend as far out as a given radius. It is built counter-clockwise from a\n * start angle and a given central angle. It can also be used to create\n * regular polygons, where the number of segments determines the number of\n * sides.\n *\n * ```js\n * const geometry = new THREE.CircleGeometry( 5, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const circle = new THREE.Mesh( geometry, material );\n * scene.add( circle )\n * ```\n *\n * @augments BufferGeometry\n */\nclass CircleGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new circle geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the circle.\n\t * @param {number} [segments=32] - Number of segments (triangles), minimum = `3`.\n\t * @param {number} [thetaStart=0] - Start angle for first segment in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - The central angle, often called theta,\n\t * of the circular sector in radians. The default value results in a complete circle.\n\t */\n\tconstructor( radius = 1, segments = 32, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CircleGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tsegments: segments,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\tsegments = Math.max( 3, segments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst vertex = new Vector3();\n\t\tconst uv = new Vector2();\n\n\t\t// center point\n\n\t\tvertices.push( 0, 0, 0 );\n\t\tnormals.push( 0, 0, 1 );\n\t\tuvs.push( 0.5, 0.5 );\n\n\t\tfor ( let s = 0, i = 3; s <= segments; s ++, i += 3 ) {\n\n\t\t\tconst segment = thetaStart + s / segments * thetaLength;\n\n\t\t\t// vertex\n\n\t\t\tvertex.x = radius * Math.cos( segment );\n\t\t\tvertex.y = radius * Math.sin( segment );\n\n\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t// normal\n\n\t\t\tnormals.push( 0, 0, 1 );\n\n\t\t\t// uvs\n\n\t\t\tuv.x = ( vertices[ i ] / radius + 1 ) / 2;\n\t\t\tuv.y = ( vertices[ i + 1 ] / radius + 1 ) / 2;\n\n\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let i = 1; i <= segments; i ++ ) {\n\n\t\t\tindices.push( i, i + 1, 0 );\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {CircleGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new CircleGeometry( data.radius, data.segments, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a cylinder.\n *\n * ```js\n * const geometry = new THREE.CylinderGeometry( 5, 5, 20, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const cylinder = new THREE.Mesh( geometry, material );\n * scene.add( cylinder );\n * ```\n *\n * @augments BufferGeometry\n */\nclass CylinderGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new cylinder geometry.\n\t *\n\t * @param {number} [radiusTop=1] - Radius of the cylinder at the top.\n\t * @param {number} [radiusBottom=1] - Radius of the cylinder at the bottom.\n\t * @param {number} [height=1] - Height of the cylinder.\n\t * @param {number} [radialSegments=32] - Number of segmented faces around the circumference of the cylinder.\n\t * @param {number} [heightSegments=1] - Number of rows of faces along the height of the cylinder.\n\t * @param {boolean} [openEnded=false] - Whether the base of the cylinder is open or capped.\n\t * @param {number} [thetaStart=0] - Start angle for first segment, in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - The central angle, often called theta, of the circular sector, in radians.\n\t * The default value results in a complete cylinder.\n\t */\n\tconstructor( radiusTop = 1, radiusBottom = 1, height = 1, radialSegments = 32, heightSegments = 1, openEnded = false, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'CylinderGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradiusTop: radiusTop,\n\t\t\tradiusBottom: radiusBottom,\n\t\t\theight: height,\n\t\t\tradialSegments: radialSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\topenEnded: openEnded,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\tconst scope = this;\n\n\t\tradialSegments = Math.floor( radialSegments );\n\t\theightSegments = Math.floor( heightSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tlet index = 0;\n\t\tconst indexArray = [];\n\t\tconst halfHeight = height / 2;\n\t\tlet groupStart = 0;\n\n\t\t// generate geometry\n\n\t\tgenerateTorso();\n\n\t\tif ( openEnded === false ) {\n\n\t\t\tif ( radiusTop > 0 ) generateCap( true );\n\t\t\tif ( radiusBottom > 0 ) generateCap( false );\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\tfunction generateTorso() {\n\n\t\t\tconst normal = new Vector3();\n\t\t\tconst vertex = new Vector3();\n\n\t\t\tlet groupCount = 0;\n\n\t\t\t// this will be used to calculate the normal\n\t\t\tconst slope = ( radiusBottom - radiusTop ) / height;\n\n\t\t\t// generate vertices, normals and uvs\n\n\t\t\tfor ( let y = 0; y <= heightSegments; y ++ ) {\n\n\t\t\t\tconst indexRow = [];\n\n\t\t\t\tconst v = y / heightSegments;\n\n\t\t\t\t// calculate the radius of the current row\n\n\t\t\t\tconst radius = v * ( radiusBottom - radiusTop ) + radiusTop;\n\n\t\t\t\tfor ( let x = 0; x <= radialSegments; x ++ ) {\n\n\t\t\t\t\tconst u = x / radialSegments;\n\n\t\t\t\t\tconst theta = u * thetaLength + thetaStart;\n\n\t\t\t\t\tconst sinTheta = Math.sin( theta );\n\t\t\t\t\tconst cosTheta = Math.cos( theta );\n\n\t\t\t\t\t// vertex\n\n\t\t\t\t\tvertex.x = radius * sinTheta;\n\t\t\t\t\tvertex.y = - v * height + halfHeight;\n\t\t\t\t\tvertex.z = radius * cosTheta;\n\t\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t\t// normal\n\n\t\t\t\t\tnormal.set( sinTheta, slope, cosTheta ).normalize();\n\t\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t\t// uv\n\n\t\t\t\t\tuvs.push( u, 1 - v );\n\n\t\t\t\t\t// save index of vertex in respective row\n\n\t\t\t\t\tindexRow.push( index ++ );\n\n\t\t\t\t}\n\n\t\t\t\t// now save vertices of the row in our index array\n\n\t\t\t\tindexArray.push( indexRow );\n\n\t\t\t}\n\n\t\t\t// generate indices\n\n\t\t\tfor ( let x = 0; x < radialSegments; x ++ ) {\n\n\t\t\t\tfor ( let y = 0; y < heightSegments; y ++ ) {\n\n\t\t\t\t\t// we use the index array to access the correct indices\n\n\t\t\t\t\tconst a = indexArray[ y ][ x ];\n\t\t\t\t\tconst b = indexArray[ y + 1 ][ x ];\n\t\t\t\t\tconst c = indexArray[ y + 1 ][ x + 1 ];\n\t\t\t\t\tconst d = indexArray[ y ][ x + 1 ];\n\n\t\t\t\t\t// faces\n\n\t\t\t\t\tif ( radiusTop > 0 || y !== 0 ) {\n\n\t\t\t\t\t\tindices.push( a, b, d );\n\t\t\t\t\t\tgroupCount += 3;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( radiusBottom > 0 || y !== heightSegments - 1 ) {\n\n\t\t\t\t\t\tindices.push( b, c, d );\n\t\t\t\t\t\tgroupCount += 3;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// add a group to the geometry. this will ensure multi material support\n\n\t\t\tscope.addGroup( groupStart, groupCount, 0 );\n\n\t\t\t// calculate new start value for groups\n\n\t\t\tgroupStart += groupCount;\n\n\t\t}\n\n\t\tfunction generateCap( top ) {\n\n\t\t\t// save the index of the first center vertex\n\t\t\tconst centerIndexStart = index;\n\n\t\t\tconst uv = new Vector2();\n\t\t\tconst vertex = new Vector3();\n\n\t\t\tlet groupCount = 0;\n\n\t\t\tconst radius = ( top === true ) ? radiusTop : radiusBottom;\n\t\t\tconst sign = ( top === true ) ? 1 : -1;\n\n\t\t\t// first we generate the center vertex data of the cap.\n\t\t\t// because the geometry needs one set of uvs per face,\n\t\t\t// we must generate a center vertex per face/segment\n\n\t\t\tfor ( let x = 1; x <= radialSegments; x ++ ) {\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertices.push( 0, halfHeight * sign, 0 );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormals.push( 0, sign, 0 );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( 0.5, 0.5 );\n\n\t\t\t\t// increase index\n\n\t\t\t\tindex ++;\n\n\t\t\t}\n\n\t\t\t// save the index of the last center vertex\n\t\t\tconst centerIndexEnd = index;\n\n\t\t\t// now we generate the surrounding vertices, normals and uvs\n\n\t\t\tfor ( let x = 0; x <= radialSegments; x ++ ) {\n\n\t\t\t\tconst u = x / radialSegments;\n\t\t\t\tconst theta = u * thetaLength + thetaStart;\n\n\t\t\t\tconst cosTheta = Math.cos( theta );\n\t\t\t\tconst sinTheta = Math.sin( theta );\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = radius * sinTheta;\n\t\t\t\tvertex.y = halfHeight * sign;\n\t\t\t\tvertex.z = radius * cosTheta;\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormals.push( 0, sign, 0 );\n\n\t\t\t\t// uv\n\n\t\t\t\tuv.x = ( cosTheta * 0.5 ) + 0.5;\n\t\t\t\tuv.y = ( sinTheta * 0.5 * sign ) + 0.5;\n\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t\t// increase index\n\n\t\t\t\tindex ++;\n\n\t\t\t}\n\n\t\t\t// generate indices\n\n\t\t\tfor ( let x = 0; x < radialSegments; x ++ ) {\n\n\t\t\t\tconst c = centerIndexStart + x;\n\t\t\t\tconst i = centerIndexEnd + x;\n\n\t\t\t\tif ( top === true ) {\n\n\t\t\t\t\t// face top\n\n\t\t\t\t\tindices.push( i, i + 1, c );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// face bottom\n\n\t\t\t\t\tindices.push( i + 1, i, c );\n\n\t\t\t\t}\n\n\t\t\t\tgroupCount += 3;\n\n\t\t\t}\n\n\t\t\t// add a group to the geometry. this will ensure multi material support\n\n\t\t\tscope.addGroup( groupStart, groupCount, top === true ? 1 : 2 );\n\n\t\t\t// calculate new start value for groups\n\n\t\t\tgroupStart += groupCount;\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {CylinderGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new CylinderGeometry( data.radiusTop, data.radiusBottom, data.height, data.radialSegments, data.heightSegments, data.openEnded, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a cone.\n *\n * ```js\n * const geometry = new THREE.ConeGeometry( 5, 20, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const cone = new THREE.Mesh(geometry, material );\n * scene.add( cone );\n * ```\n *\n * @augments CylinderGeometry\n */\nclass ConeGeometry extends CylinderGeometry {\n\n\t/**\n\t * Constructs a new cone geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the cone base.\n\t * @param {number} [height=1] - Height of the cone.\n\t * @param {number} [radialSegments=32] - Number of segmented faces around the circumference of the cone.\n\t * @param {number} [heightSegments=1] - Number of rows of faces along the height of the cone.\n\t * @param {boolean} [openEnded=false] - Whether the base of the cone is open or capped.\n\t * @param {number} [thetaStart=0] - Start angle for first segment, in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - The central angle, often called theta, of the circular sector, in radians.\n\t * The default value results in a complete cone.\n\t */\n\tconstructor( radius = 1, height = 1, radialSegments = 32, heightSegments = 1, openEnded = false, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper( 0, radius, height, radialSegments, heightSegments, openEnded, thetaStart, thetaLength );\n\n\t\tthis.type = 'ConeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\theight: height,\n\t\t\tradialSegments: radialSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\topenEnded: openEnded,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {ConeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new ConeGeometry( data.radius, data.height, data.radialSegments, data.heightSegments, data.openEnded, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A polyhedron is a solid in three dimensions with flat faces. This class\n * will take an array of vertices, project them onto a sphere, and then\n * divide them up to the desired level of detail.\n *\n * @augments BufferGeometry\n */\nclass PolyhedronGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new polyhedron geometry.\n\t *\n\t * @param {Array} [vertices] - A flat array of vertices describing the base shape.\n\t * @param {Array} [indices] - A flat array of indices describing the base shape.\n\t * @param {number} [radius=1] - The radius of the shape.\n\t * @param {number} [detail=0] - How many levels to subdivide the geometry. The more detail, the smoother the shape.\n\t */\n\tconstructor( vertices = [], indices = [], radius = 1, detail = 0 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'PolyhedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tvertices: vertices,\n\t\t\tindices: indices,\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t\t// default buffer data\n\n\t\tconst vertexBuffer = [];\n\t\tconst uvBuffer = [];\n\n\t\t// the subdivision creates the vertex buffer data\n\n\t\tsubdivide( detail );\n\n\t\t// all vertices should lie on a conceptual sphere with a given radius\n\n\t\tapplyRadius( radius );\n\n\t\t// finally, create the uv data\n\n\t\tgenerateUVs();\n\n\t\t// build non-indexed geometry\n\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertexBuffer, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( vertexBuffer.slice(), 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvBuffer, 2 ) );\n\n\t\tif ( detail === 0 ) {\n\n\t\t\tthis.computeVertexNormals(); // flat normals\n\n\t\t} else {\n\n\t\t\tthis.normalizeNormals(); // smooth normals\n\n\t\t}\n\n\t\t// helper functions\n\n\t\tfunction subdivide( detail ) {\n\n\t\t\tconst a = new Vector3();\n\t\t\tconst b = new Vector3();\n\t\t\tconst c = new Vector3();\n\n\t\t\t// iterate over all faces and apply a subdivision with the given detail value\n\n\t\t\tfor ( let i = 0; i < indices.length; i += 3 ) {\n\n\t\t\t\t// get the vertices of the face\n\n\t\t\t\tgetVertexByIndex( indices[ i + 0 ], a );\n\t\t\t\tgetVertexByIndex( indices[ i + 1 ], b );\n\t\t\t\tgetVertexByIndex( indices[ i + 2 ], c );\n\n\t\t\t\t// perform subdivision\n\n\t\t\t\tsubdivideFace( a, b, c, detail );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction subdivideFace( a, b, c, detail ) {\n\n\t\t\tconst cols = detail + 1;\n\n\t\t\t// we use this multidimensional array as a data structure for creating the subdivision\n\n\t\t\tconst v = [];\n\n\t\t\t// construct all of the vertices for this subdivision\n\n\t\t\tfor ( let i = 0; i <= cols; i ++ ) {\n\n\t\t\t\tv[ i ] = [];\n\n\t\t\t\tconst aj = a.clone().lerp( c, i / cols );\n\t\t\t\tconst bj = b.clone().lerp( c, i / cols );\n\n\t\t\t\tconst rows = cols - i;\n\n\t\t\t\tfor ( let j = 0; j <= rows; j ++ ) {\n\n\t\t\t\t\tif ( j === 0 && i === cols ) {\n\n\t\t\t\t\t\tv[ i ][ j ] = aj;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tv[ i ][ j ] = aj.clone().lerp( bj, j / rows );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// construct all of the faces\n\n\t\t\tfor ( let i = 0; i < cols; i ++ ) {\n\n\t\t\t\tfor ( let j = 0; j < 2 * ( cols - i ) - 1; j ++ ) {\n\n\t\t\t\t\tconst k = Math.floor( j / 2 );\n\n\t\t\t\t\tif ( j % 2 === 0 ) {\n\n\t\t\t\t\t\tpushVertex( v[ i ][ k + 1 ] );\n\t\t\t\t\t\tpushVertex( v[ i + 1 ][ k ] );\n\t\t\t\t\t\tpushVertex( v[ i ][ k ] );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tpushVertex( v[ i ][ k + 1 ] );\n\t\t\t\t\t\tpushVertex( v[ i + 1 ][ k + 1 ] );\n\t\t\t\t\t\tpushVertex( v[ i + 1 ][ k ] );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction applyRadius( radius ) {\n\n\t\t\tconst vertex = new Vector3();\n\n\t\t\t// iterate over the entire buffer and apply the radius to each vertex\n\n\t\t\tfor ( let i = 0; i < vertexBuffer.length; i += 3 ) {\n\n\t\t\t\tvertex.x = vertexBuffer[ i + 0 ];\n\t\t\t\tvertex.y = vertexBuffer[ i + 1 ];\n\t\t\t\tvertex.z = vertexBuffer[ i + 2 ];\n\n\t\t\t\tvertex.normalize().multiplyScalar( radius );\n\n\t\t\t\tvertexBuffer[ i + 0 ] = vertex.x;\n\t\t\t\tvertexBuffer[ i + 1 ] = vertex.y;\n\t\t\t\tvertexBuffer[ i + 2 ] = vertex.z;\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction generateUVs() {\n\n\t\t\tconst vertex = new Vector3();\n\n\t\t\tfor ( let i = 0; i < vertexBuffer.length; i += 3 ) {\n\n\t\t\t\tvertex.x = vertexBuffer[ i + 0 ];\n\t\t\t\tvertex.y = vertexBuffer[ i + 1 ];\n\t\t\t\tvertex.z = vertexBuffer[ i + 2 ];\n\n\t\t\t\tconst u = azimuth( vertex ) / 2 / Math.PI + 0.5;\n\t\t\t\tconst v = inclination( vertex ) / Math.PI + 0.5;\n\t\t\t\tuvBuffer.push( u, 1 - v );\n\n\t\t\t}\n\n\t\t\tcorrectUVs();\n\n\t\t\tcorrectSeam();\n\n\t\t}\n\n\t\tfunction correctSeam() {\n\n\t\t\t// handle case when face straddles the seam, see #3269\n\n\t\t\tfor ( let i = 0; i < uvBuffer.length; i += 6 ) {\n\n\t\t\t\t// uv data of a single face\n\n\t\t\t\tconst x0 = uvBuffer[ i + 0 ];\n\t\t\t\tconst x1 = uvBuffer[ i + 2 ];\n\t\t\t\tconst x2 = uvBuffer[ i + 4 ];\n\n\t\t\t\tconst max = Math.max( x0, x1, x2 );\n\t\t\t\tconst min = Math.min( x0, x1, x2 );\n\n\t\t\t\t// 0.9 is somewhat arbitrary\n\n\t\t\t\tif ( max > 0.9 && min < 0.1 ) {\n\n\t\t\t\t\tif ( x0 < 0.2 ) uvBuffer[ i + 0 ] += 1;\n\t\t\t\t\tif ( x1 < 0.2 ) uvBuffer[ i + 2 ] += 1;\n\t\t\t\t\tif ( x2 < 0.2 ) uvBuffer[ i + 4 ] += 1;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction pushVertex( vertex ) {\n\n\t\t\tvertexBuffer.push( vertex.x, vertex.y, vertex.z );\n\n\t\t}\n\n\t\tfunction getVertexByIndex( index, vertex ) {\n\n\t\t\tconst stride = index * 3;\n\n\t\t\tvertex.x = vertices[ stride + 0 ];\n\t\t\tvertex.y = vertices[ stride + 1 ];\n\t\t\tvertex.z = vertices[ stride + 2 ];\n\n\t\t}\n\n\t\tfunction correctUVs() {\n\n\t\t\tconst a = new Vector3();\n\t\t\tconst b = new Vector3();\n\t\t\tconst c = new Vector3();\n\n\t\t\tconst centroid = new Vector3();\n\n\t\t\tconst uvA = new Vector2();\n\t\t\tconst uvB = new Vector2();\n\t\t\tconst uvC = new Vector2();\n\n\t\t\tfor ( let i = 0, j = 0; i < vertexBuffer.length; i += 9, j += 6 ) {\n\n\t\t\t\ta.set( vertexBuffer[ i + 0 ], vertexBuffer[ i + 1 ], vertexBuffer[ i + 2 ] );\n\t\t\t\tb.set( vertexBuffer[ i + 3 ], vertexBuffer[ i + 4 ], vertexBuffer[ i + 5 ] );\n\t\t\t\tc.set( vertexBuffer[ i + 6 ], vertexBuffer[ i + 7 ], vertexBuffer[ i + 8 ] );\n\n\t\t\t\tuvA.set( uvBuffer[ j + 0 ], uvBuffer[ j + 1 ] );\n\t\t\t\tuvB.set( uvBuffer[ j + 2 ], uvBuffer[ j + 3 ] );\n\t\t\t\tuvC.set( uvBuffer[ j + 4 ], uvBuffer[ j + 5 ] );\n\n\t\t\t\tcentroid.copy( a ).add( b ).add( c ).divideScalar( 3 );\n\n\t\t\t\tconst azi = azimuth( centroid );\n\n\t\t\t\tcorrectUV( uvA, j + 0, a, azi );\n\t\t\t\tcorrectUV( uvB, j + 2, b, azi );\n\t\t\t\tcorrectUV( uvC, j + 4, c, azi );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction correctUV( uv, stride, vector, azimuth ) {\n\n\t\t\tif ( ( azimuth < 0 ) && ( uv.x === 1 ) ) {\n\n\t\t\t\tuvBuffer[ stride ] = uv.x - 1;\n\n\t\t\t}\n\n\t\t\tif ( ( vector.x === 0 ) && ( vector.z === 0 ) ) {\n\n\t\t\t\tuvBuffer[ stride ] = azimuth / 2 / Math.PI + 0.5;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// Angle around the Y axis, counter-clockwise when looking from above.\n\n\t\tfunction azimuth( vector ) {\n\n\t\t\treturn Math.atan2( vector.z, - vector.x );\n\n\t\t}\n\n\n\t\t// Angle above the XZ plane.\n\n\t\tfunction inclination( vector ) {\n\n\t\t\treturn Math.atan2( - vector.y, Math.sqrt( ( vector.x * vector.x ) + ( vector.z * vector.z ) ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {PolyhedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new PolyhedronGeometry( data.vertices, data.indices, data.radius, data.details );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a dodecahedron.\n *\n * ```js\n * const geometry = new THREE.DodecahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const dodecahedron = new THREE.Mesh( geometry, material );\n * scene.add( dodecahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass DodecahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new dodecahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the dodecahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a dodecahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst t = ( 1 + Math.sqrt( 5 ) ) / 2;\n\t\tconst r = 1 / t;\n\n\t\tconst vertices = [\n\n\t\t\t// (±1, ±1, ±1)\n\t\t\t-1, -1, -1,\t-1, -1, 1,\n\t\t\t-1, 1, -1, -1, 1, 1,\n\t\t\t1, -1, -1, 1, -1, 1,\n\t\t\t1, 1, -1, 1, 1, 1,\n\n\t\t\t// (0, ±1/φ, ±φ)\n\t\t\t0, - r, - t, 0, - r, t,\n\t\t\t0, r, - t, 0, r, t,\n\n\t\t\t// (±1/φ, ±φ, 0)\n\t\t\t- r, - t, 0, - r, t, 0,\n\t\t\tr, - t, 0, r, t, 0,\n\n\t\t\t// (±φ, 0, ±1/φ)\n\t\t\t- t, 0, - r, t, 0, - r,\n\t\t\t- t, 0, r, t, 0, r\n\t\t];\n\n\t\tconst indices = [\n\t\t\t3, 11, 7, \t3, 7, 15, \t3, 15, 13,\n\t\t\t7, 19, 17, \t7, 17, 6, \t7, 6, 15,\n\t\t\t17, 4, 8, \t17, 8, 10, \t17, 10, 6,\n\t\t\t8, 0, 16, \t8, 16, 2, \t8, 2, 10,\n\t\t\t0, 12, 1, \t0, 1, 18, \t0, 18, 16,\n\t\t\t6, 10, 2, \t6, 2, 13, \t6, 13, 15,\n\t\t\t2, 16, 18, \t2, 18, 3, \t2, 3, 13,\n\t\t\t18, 1, 9, \t18, 9, 11, \t18, 11, 3,\n\t\t\t4, 14, 12, \t4, 12, 0, \t4, 0, 8,\n\t\t\t11, 9, 5, \t11, 5, 19, \t11, 19, 7,\n\t\t\t19, 5, 14, \t19, 14, 4, \t19, 4, 17,\n\t\t\t1, 12, 14, \t1, 14, 5, \t1, 5, 9\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'DodecahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {DodecahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new DodecahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\nconst _v0 = /*@__PURE__*/ new Vector3();\nconst _v1$1 = /*@__PURE__*/ new Vector3();\nconst _normal = /*@__PURE__*/ new Vector3();\nconst _triangle = /*@__PURE__*/ new Triangle();\n\n/**\n * Can be used as a helper object to view the edges of a geometry.\n *\n * ```js\n * const geometry = new THREE.BoxGeometry();\n * const edges = new THREE.EdgesGeometry( geometry );\n * const line = new THREE.LineSegments( edges );\n * scene.add( line );\n * ```\n *\n * Note: It is not yet possible to serialize/deserialize instances of this class.\n *\n * @augments BufferGeometry\n */\nclass EdgesGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new edges geometry.\n\t *\n\t * @param {?BufferGeometry} [geometry=null] - The geometry.\n\t * @param {number} [thresholdAngle=1] - An edge is only rendered if the angle (in degrees)\n\t * between the face normals of the adjoining faces exceeds this value.\n\t */\n\tconstructor( geometry = null, thresholdAngle = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'EdgesGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tgeometry: geometry,\n\t\t\tthresholdAngle: thresholdAngle\n\t\t};\n\n\t\tif ( geometry !== null ) {\n\n\t\t\tconst precisionPoints = 4;\n\t\t\tconst precision = Math.pow( 10, precisionPoints );\n\t\t\tconst thresholdDot = Math.cos( DEG2RAD * thresholdAngle );\n\n\t\t\tconst indexAttr = geometry.getIndex();\n\t\t\tconst positionAttr = geometry.getAttribute( 'position' );\n\t\t\tconst indexCount = indexAttr ? indexAttr.count : positionAttr.count;\n\n\t\t\tconst indexArr = [ 0, 0, 0 ];\n\t\t\tconst vertKeys = [ 'a', 'b', 'c' ];\n\t\t\tconst hashes = new Array( 3 );\n\n\t\t\tconst edgeData = {};\n\t\t\tconst vertices = [];\n\t\t\tfor ( let i = 0; i < indexCount; i += 3 ) {\n\n\t\t\t\tif ( indexAttr ) {\n\n\t\t\t\t\tindexArr[ 0 ] = indexAttr.getX( i );\n\t\t\t\t\tindexArr[ 1 ] = indexAttr.getX( i + 1 );\n\t\t\t\t\tindexArr[ 2 ] = indexAttr.getX( i + 2 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tindexArr[ 0 ] = i;\n\t\t\t\t\tindexArr[ 1 ] = i + 1;\n\t\t\t\t\tindexArr[ 2 ] = i + 2;\n\n\t\t\t\t}\n\n\t\t\t\tconst { a, b, c } = _triangle;\n\t\t\t\ta.fromBufferAttribute( positionAttr, indexArr[ 0 ] );\n\t\t\t\tb.fromBufferAttribute( positionAttr, indexArr[ 1 ] );\n\t\t\t\tc.fromBufferAttribute( positionAttr, indexArr[ 2 ] );\n\t\t\t\t_triangle.getNormal( _normal );\n\n\t\t\t\t// create hashes for the edge from the vertices\n\t\t\t\thashes[ 0 ] = `${ Math.round( a.x * precision ) },${ Math.round( a.y * precision ) },${ Math.round( a.z * precision ) }`;\n\t\t\t\thashes[ 1 ] = `${ Math.round( b.x * precision ) },${ Math.round( b.y * precision ) },${ Math.round( b.z * precision ) }`;\n\t\t\t\thashes[ 2 ] = `${ Math.round( c.x * precision ) },${ Math.round( c.y * precision ) },${ Math.round( c.z * precision ) }`;\n\n\t\t\t\t// skip degenerate triangles\n\t\t\t\tif ( hashes[ 0 ] === hashes[ 1 ] || hashes[ 1 ] === hashes[ 2 ] || hashes[ 2 ] === hashes[ 0 ] ) {\n\n\t\t\t\t\tcontinue;\n\n\t\t\t\t}\n\n\t\t\t\t// iterate over every edge\n\t\t\t\tfor ( let j = 0; j < 3; j ++ ) {\n\n\t\t\t\t\t// get the first and next vertex making up the edge\n\t\t\t\t\tconst jNext = ( j + 1 ) % 3;\n\t\t\t\t\tconst vecHash0 = hashes[ j ];\n\t\t\t\t\tconst vecHash1 = hashes[ jNext ];\n\t\t\t\t\tconst v0 = _triangle[ vertKeys[ j ] ];\n\t\t\t\t\tconst v1 = _triangle[ vertKeys[ jNext ] ];\n\n\t\t\t\t\tconst hash = `${ vecHash0 }_${ vecHash1 }`;\n\t\t\t\t\tconst reverseHash = `${ vecHash1 }_${ vecHash0 }`;\n\n\t\t\t\t\tif ( reverseHash in edgeData && edgeData[ reverseHash ] ) {\n\n\t\t\t\t\t\t// if we found a sibling edge add it into the vertex array if\n\t\t\t\t\t\t// it meets the angle threshold and delete the edge from the map.\n\t\t\t\t\t\tif ( _normal.dot( edgeData[ reverseHash ].normal ) <= thresholdDot ) {\n\n\t\t\t\t\t\t\tvertices.push( v0.x, v0.y, v0.z );\n\t\t\t\t\t\t\tvertices.push( v1.x, v1.y, v1.z );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tedgeData[ reverseHash ] = null;\n\n\t\t\t\t\t} else if ( ! ( hash in edgeData ) ) {\n\n\t\t\t\t\t\t// if we've already got an edge here then skip adding a new one\n\t\t\t\t\t\tedgeData[ hash ] = {\n\n\t\t\t\t\t\t\tindex0: indexArr[ j ],\n\t\t\t\t\t\t\tindex1: indexArr[ jNext ],\n\t\t\t\t\t\t\tnormal: _normal.clone(),\n\n\t\t\t\t\t\t};\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// iterate over all remaining, unmatched edges and add them to the vertex array\n\t\t\tfor ( const key in edgeData ) {\n\n\t\t\t\tif ( edgeData[ key ] ) {\n\n\t\t\t\t\tconst { index0, index1 } = edgeData[ key ];\n\t\t\t\t\t_v0.fromBufferAttribute( positionAttr, index0 );\n\t\t\t\t\t_v1$1.fromBufferAttribute( positionAttr, index1 );\n\n\t\t\t\t\tvertices.push( _v0.x, _v0.y, _v0.z );\n\t\t\t\t\tvertices.push( _v1$1.x, _v1$1.y, _v1$1.z );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * An abstract base class for creating an analytic curve object that contains methods\n * for interpolation.\n *\n * @abstract\n */\nclass Curve {\n\n\t/**\n\t * Constructs a new curve.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'Curve';\n\n\t\t/**\n\t\t * This value determines the amount of divisions when calculating the\n\t\t * cumulative segment lengths of a curve via {@link Curve#getLengths}. To ensure\n\t\t * precision when using methods like {@link Curve#getSpacedPoints}, it is\n\t\t * recommended to increase the value of this property if the curve is very large.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 200\n\t\t */\n\t\tthis.arcLengthDivisions = 200;\n\n\t\t/**\n\t\t * Must be set to `true` if the curve parameters have changed.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.needsUpdate = false;\n\n\t\t/**\n\t\t * An internal cache that holds precomputed curve length values.\n\t\t *\n\t\t * @private\n\t\t * @type {?Array}\n\t\t * @default null\n\t\t */\n\t\tthis.cacheArcLengths = null;\n\n\t}\n\n\t/**\n\t * This method returns a vector in 2D or 3D space (depending on the curve definition)\n\t * for the given interpolation factor.\n\t *\n\t * @abstract\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The position on the curve. It can be a 2D or 3D vector depending on the curve definition.\n\t */\n\tgetPoint( /* t, optionalTarget */ ) {\n\n\t\tconsole.warn( 'THREE.Curve: .getPoint() not implemented.' );\n\n\t}\n\n\t/**\n\t * This method returns a vector in 2D or 3D space (depending on the curve definition)\n\t * for the given interpolation factor. Unlike {@link Curve#getPoint}, this method honors the length\n\t * of the curve which equidistant samples.\n\t *\n\t * @param {number} u - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The position on the curve. It can be a 2D or 3D vector depending on the curve definition.\n\t */\n\tgetPointAt( u, optionalTarget ) {\n\n\t\tconst t = this.getUtoTmapping( u );\n\t\treturn this.getPoint( t, optionalTarget );\n\n\t}\n\n\t/**\n\t * This method samples the curve via {@link Curve#getPoint} and returns an array of points representing\n\t * the curve shape.\n\t *\n\t * @param {number} [divisions=5] - The number of divisions.\n\t * @return {Array<(Vector2|Vector3)>} An array holding the sampled curve values. The number of points is `divisions + 1`.\n\t */\n\tgetPoints( divisions = 5 ) {\n\n\t\tconst points = [];\n\n\t\tfor ( let d = 0; d <= divisions; d ++ ) {\n\n\t\t\tpoints.push( this.getPoint( d / divisions ) );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\t// Get sequence of points using getPointAt( u )\n\n\t/**\n\t * This method samples the curve via {@link Curve#getPointAt} and returns an array of points representing\n\t * the curve shape. Unlike {@link Curve#getPoints}, this method returns equi-spaced points across the entire\n\t * curve.\n\t *\n\t * @param {number} [divisions=5] - The number of divisions.\n\t * @return {Array<(Vector2|Vector3)>} An array holding the sampled curve values. The number of points is `divisions + 1`.\n\t */\n\tgetSpacedPoints( divisions = 5 ) {\n\n\t\tconst points = [];\n\n\t\tfor ( let d = 0; d <= divisions; d ++ ) {\n\n\t\t\tpoints.push( this.getPointAt( d / divisions ) );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\t/**\n\t * Returns the total arc length of the curve.\n\t *\n\t * @return {number} The length of the curve.\n\t */\n\tgetLength() {\n\n\t\tconst lengths = this.getLengths();\n\t\treturn lengths[ lengths.length - 1 ];\n\n\t}\n\n\t/**\n\t * Returns an array of cumulative segment lengths of the curve.\n\t *\n\t * @param {number} [divisions=this.arcLengthDivisions] - The number of divisions.\n\t * @return {Array} An array holding the cumulative segment lengths.\n\t */\n\tgetLengths( divisions = this.arcLengthDivisions ) {\n\n\t\tif ( this.cacheArcLengths &&\n\t\t\t( this.cacheArcLengths.length === divisions + 1 ) &&\n\t\t\t! this.needsUpdate ) {\n\n\t\t\treturn this.cacheArcLengths;\n\n\t\t}\n\n\t\tthis.needsUpdate = false;\n\n\t\tconst cache = [];\n\t\tlet current, last = this.getPoint( 0 );\n\t\tlet sum = 0;\n\n\t\tcache.push( 0 );\n\n\t\tfor ( let p = 1; p <= divisions; p ++ ) {\n\n\t\t\tcurrent = this.getPoint( p / divisions );\n\t\t\tsum += current.distanceTo( last );\n\t\t\tcache.push( sum );\n\t\t\tlast = current;\n\n\t\t}\n\n\t\tthis.cacheArcLengths = cache;\n\n\t\treturn cache; // { sums: cache, sum: sum }; Sum is in the last element.\n\n\t}\n\n\t/**\n\t * Update the cumulative segment distance cache. The method must be called\n\t * every time curve parameters are changed. If an updated curve is part of a\n\t * composed curve like {@link CurvePath}, this method must be called on the\n\t * composed curve, too.\n\t */\n\tupdateArcLengths() {\n\n\t\tthis.needsUpdate = true;\n\t\tthis.getLengths();\n\n\t}\n\n\t/**\n\t * Given an interpolation factor in the range `[0,1]`, this method returns an updated\n\t * interpolation factor in the same range that can be ued to sample equidistant points\n\t * from a curve.\n\t *\n\t * @param {number} u - The interpolation factor.\n\t * @param {?number} distance - An optional distance on the curve.\n\t * @return {number} The updated interpolation factor.\n\t */\n\tgetUtoTmapping( u, distance = null ) {\n\n\t\tconst arcLengths = this.getLengths();\n\n\t\tlet i = 0;\n\t\tconst il = arcLengths.length;\n\n\t\tlet targetArcLength; // The targeted u distance value to get\n\n\t\tif ( distance ) {\n\n\t\t\ttargetArcLength = distance;\n\n\t\t} else {\n\n\t\t\ttargetArcLength = u * arcLengths[ il - 1 ];\n\n\t\t}\n\n\t\t// binary search for the index with largest value smaller than target u distance\n\n\t\tlet low = 0, high = il - 1, comparison;\n\n\t\twhile ( low <= high ) {\n\n\t\t\ti = Math.floor( low + ( high - low ) / 2 ); // less likely to overflow, though probably not issue here, JS doesn't really have integers, all numbers are floats\n\n\t\t\tcomparison = arcLengths[ i ] - targetArcLength;\n\n\t\t\tif ( comparison < 0 ) {\n\n\t\t\t\tlow = i + 1;\n\n\t\t\t} else if ( comparison > 0 ) {\n\n\t\t\t\thigh = i - 1;\n\n\t\t\t} else {\n\n\t\t\t\thigh = i;\n\t\t\t\tbreak;\n\n\t\t\t\t// DONE\n\n\t\t\t}\n\n\t\t}\n\n\t\ti = high;\n\n\t\tif ( arcLengths[ i ] === targetArcLength ) {\n\n\t\t\treturn i / ( il - 1 );\n\n\t\t}\n\n\t\t// we could get finer grain at lengths, or use simple interpolation between two points\n\n\t\tconst lengthBefore = arcLengths[ i ];\n\t\tconst lengthAfter = arcLengths[ i + 1 ];\n\n\t\tconst segmentLength = lengthAfter - lengthBefore;\n\n\t\t// determine where we are between the 'before' and 'after' points\n\n\t\tconst segmentFraction = ( targetArcLength - lengthBefore ) / segmentLength;\n\n\t\t// add that fractional amount to t\n\n\t\tconst t = ( i + segmentFraction ) / ( il - 1 );\n\n\t\treturn t;\n\n\t}\n\n\t/**\n\t * Returns a unit vector tangent for the given interpolation factor.\n\t * If the derived curve does not implement its tangent derivation,\n\t * two points a small delta apart will be used to find its gradient\n\t * which seems to give a reasonable approximation.\n\t *\n\t * @param {number} t - The interpolation factor.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The tangent vector.\n\t */\n\tgetTangent( t, optionalTarget ) {\n\n\t\tconst delta = 0.0001;\n\t\tlet t1 = t - delta;\n\t\tlet t2 = t + delta;\n\n\t\t// Capping in case of danger\n\n\t\tif ( t1 < 0 ) t1 = 0;\n\t\tif ( t2 > 1 ) t2 = 1;\n\n\t\tconst pt1 = this.getPoint( t1 );\n\t\tconst pt2 = this.getPoint( t2 );\n\n\t\tconst tangent = optionalTarget || ( ( pt1.isVector2 ) ? new Vector2() : new Vector3() );\n\n\t\ttangent.copy( pt2 ).sub( pt1 ).normalize();\n\n\t\treturn tangent;\n\n\t}\n\n\t/**\n\t * Same as {@link Curve#getTangent} but with equidistant samples.\n\t *\n\t * @param {number} u - The interpolation factor.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {(Vector2|Vector3)} The tangent vector.\n\t * @see {@link Curve#getPointAt}\n\t */\n\tgetTangentAt( u, optionalTarget ) {\n\n\t\tconst t = this.getUtoTmapping( u );\n\t\treturn this.getTangent( t, optionalTarget );\n\n\t}\n\n\t/**\n\t * Generates the Frenet Frames. Requires a curve definition in 3D space. Used\n\t * in geometries like {@link TubeGeometry} or {@link ExtrudeGeometry}.\n\t *\n\t * @param {number} segments - The number of segments.\n\t * @param {boolean} [closed=false] - Whether the curve is closed or not.\n\t * @return {{tangents: Array, normals: Array, binormals: Array}} The Frenet Frames.\n\t */\n\tcomputeFrenetFrames( segments, closed = false ) {\n\n\t\t// see http://www.cs.indiana.edu/pub/techreports/TR425.pdf\n\n\t\tconst normal = new Vector3();\n\n\t\tconst tangents = [];\n\t\tconst normals = [];\n\t\tconst binormals = [];\n\n\t\tconst vec = new Vector3();\n\t\tconst mat = new Matrix4();\n\n\t\t// compute the tangent vectors for each segment on the curve\n\n\t\tfor ( let i = 0; i <= segments; i ++ ) {\n\n\t\t\tconst u = i / segments;\n\n\t\t\ttangents[ i ] = this.getTangentAt( u, new Vector3() );\n\n\t\t}\n\n\t\t// select an initial normal vector perpendicular to the first tangent vector,\n\t\t// and in the direction of the minimum tangent xyz component\n\n\t\tnormals[ 0 ] = new Vector3();\n\t\tbinormals[ 0 ] = new Vector3();\n\t\tlet min = Number.MAX_VALUE;\n\t\tconst tx = Math.abs( tangents[ 0 ].x );\n\t\tconst ty = Math.abs( tangents[ 0 ].y );\n\t\tconst tz = Math.abs( tangents[ 0 ].z );\n\n\t\tif ( tx <= min ) {\n\n\t\t\tmin = tx;\n\t\t\tnormal.set( 1, 0, 0 );\n\n\t\t}\n\n\t\tif ( ty <= min ) {\n\n\t\t\tmin = ty;\n\t\t\tnormal.set( 0, 1, 0 );\n\n\t\t}\n\n\t\tif ( tz <= min ) {\n\n\t\t\tnormal.set( 0, 0, 1 );\n\n\t\t}\n\n\t\tvec.crossVectors( tangents[ 0 ], normal ).normalize();\n\n\t\tnormals[ 0 ].crossVectors( tangents[ 0 ], vec );\n\t\tbinormals[ 0 ].crossVectors( tangents[ 0 ], normals[ 0 ] );\n\n\n\t\t// compute the slowly-varying normal and binormal vectors for each segment on the curve\n\n\t\tfor ( let i = 1; i <= segments; i ++ ) {\n\n\t\t\tnormals[ i ] = normals[ i - 1 ].clone();\n\n\t\t\tbinormals[ i ] = binormals[ i - 1 ].clone();\n\n\t\t\tvec.crossVectors( tangents[ i - 1 ], tangents[ i ] );\n\n\t\t\tif ( vec.length() > Number.EPSILON ) {\n\n\t\t\t\tvec.normalize();\n\n\t\t\t\tconst theta = Math.acos( clamp( tangents[ i - 1 ].dot( tangents[ i ] ), -1, 1 ) ); // clamp for floating pt errors\n\n\t\t\t\tnormals[ i ].applyMatrix4( mat.makeRotationAxis( vec, theta ) );\n\n\t\t\t}\n\n\t\t\tbinormals[ i ].crossVectors( tangents[ i ], normals[ i ] );\n\n\t\t}\n\n\t\t// if the curve is closed, postprocess the vectors so the first and last normal vectors are the same\n\n\t\tif ( closed === true ) {\n\n\t\t\tlet theta = Math.acos( clamp( normals[ 0 ].dot( normals[ segments ] ), -1, 1 ) );\n\t\t\ttheta /= segments;\n\n\t\t\tif ( tangents[ 0 ].dot( vec.crossVectors( normals[ 0 ], normals[ segments ] ) ) > 0 ) {\n\n\t\t\t\ttheta = - theta;\n\n\t\t\t}\n\n\t\t\tfor ( let i = 1; i <= segments; i ++ ) {\n\n\t\t\t\t// twist a little...\n\t\t\t\tnormals[ i ].applyMatrix4( mat.makeRotationAxis( tangents[ i ], theta * i ) );\n\t\t\t\tbinormals[ i ].crossVectors( tangents[ i ], normals[ i ] );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn {\n\t\t\ttangents: tangents,\n\t\t\tnormals: normals,\n\t\t\tbinormals: binormals\n\t\t};\n\n\t}\n\n\t/**\n\t * Returns a new curve with copied values from this instance.\n\t *\n\t * @return {Curve} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given curve to this instance.\n\t *\n\t * @param {Curve} source - The curve to copy.\n\t * @return {Curve} A reference to this curve.\n\t */\n\tcopy( source ) {\n\n\t\tthis.arcLengthDivisions = source.arcLengthDivisions;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Serializes the curve into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized curve.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON() {\n\n\t\tconst data = {\n\t\t\tmetadata: {\n\t\t\t\tversion: 4.7,\n\t\t\t\ttype: 'Curve',\n\t\t\t\tgenerator: 'Curve.toJSON'\n\t\t\t}\n\t\t};\n\n\t\tdata.arcLengthDivisions = this.arcLengthDivisions;\n\t\tdata.type = this.type;\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Deserializes the curve from the given JSON.\n\t *\n\t * @param {Object} json - The JSON holding the serialized curve.\n\t * @return {Curve} A reference to this curve.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.arcLengthDivisions = json.arcLengthDivisions;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing an ellipse.\n *\n * ```js\n * const curve = new THREE.EllipseCurve(\n * \t0, 0,\n * \t10, 10,\n * \t0, 2 * Math.PI,\n * \tfalse,\n * \t0\n * );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const ellipse = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass EllipseCurve extends Curve {\n\n\t/**\n\t * Constructs a new ellipse curve.\n\t *\n\t * @param {number} [aX=0] - The X center of the ellipse.\n\t * @param {number} [aY=0] - The Y center of the ellipse.\n\t * @param {number} [xRadius=1] - The radius of the ellipse in the x direction.\n\t * @param {number} [yRadius=1] - The radius of the ellipse in the y direction.\n\t * @param {number} [aStartAngle=0] - The start angle of the curve in radians starting from the positive X axis.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle of the curve in radians starting from the positive X axis.\n\t * @param {boolean} [aClockwise=false] - Whether the ellipse is drawn clockwise or not.\n\t * @param {number} [aRotation=0] - The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t */\n\tconstructor( aX = 0, aY = 0, xRadius = 1, yRadius = 1, aStartAngle = 0, aEndAngle = Math.PI * 2, aClockwise = false, aRotation = 0 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isEllipseCurve = true;\n\n\t\tthis.type = 'EllipseCurve';\n\n\t\t/**\n\t\t * The X center of the ellipse.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aX = aX;\n\n\t\t/**\n\t\t * The Y center of the ellipse.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aY = aY;\n\n\t\t/**\n\t\t * The radius of the ellipse in the x direction.\n\t\t * Setting the this value equal to the {@link EllipseCurve#yRadius} will result in a circle.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.xRadius = xRadius;\n\n\t\t/**\n\t\t * The radius of the ellipse in the y direction.\n\t\t * Setting the this value equal to the {@link EllipseCurve#xRadius} will result in a circle.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.yRadius = yRadius;\n\n\t\t/**\n\t\t * The start angle of the curve in radians starting from the positive X axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aStartAngle = aStartAngle;\n\n\t\t/**\n\t\t * The end angle of the curve in radians starting from the positive X axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Math.PI*2\n\t\t */\n\t\tthis.aEndAngle = aEndAngle;\n\n\t\t/**\n\t\t * Whether the ellipse is drawn clockwise or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.aClockwise = aClockwise;\n\n\t\t/**\n\t\t * The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.aRotation = aRotation;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst twoPi = Math.PI * 2;\n\t\tlet deltaAngle = this.aEndAngle - this.aStartAngle;\n\t\tconst samePoints = Math.abs( deltaAngle ) < Number.EPSILON;\n\n\t\t// ensures that deltaAngle is 0 .. 2 PI\n\t\twhile ( deltaAngle < 0 ) deltaAngle += twoPi;\n\t\twhile ( deltaAngle > twoPi ) deltaAngle -= twoPi;\n\n\t\tif ( deltaAngle < Number.EPSILON ) {\n\n\t\t\tif ( samePoints ) {\n\n\t\t\t\tdeltaAngle = 0;\n\n\t\t\t} else {\n\n\t\t\t\tdeltaAngle = twoPi;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.aClockwise === true && ! samePoints ) {\n\n\t\t\tif ( deltaAngle === twoPi ) {\n\n\t\t\t\tdeltaAngle = - twoPi;\n\n\t\t\t} else {\n\n\t\t\t\tdeltaAngle = deltaAngle - twoPi;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst angle = this.aStartAngle + t * deltaAngle;\n\t\tlet x = this.aX + this.xRadius * Math.cos( angle );\n\t\tlet y = this.aY + this.yRadius * Math.sin( angle );\n\n\t\tif ( this.aRotation !== 0 ) {\n\n\t\t\tconst cos = Math.cos( this.aRotation );\n\t\t\tconst sin = Math.sin( this.aRotation );\n\n\t\t\tconst tx = x - this.aX;\n\t\t\tconst ty = y - this.aY;\n\n\t\t\t// Rotate the point about the center of the ellipse.\n\t\t\tx = tx * cos - ty * sin + this.aX;\n\t\t\ty = tx * sin + ty * cos + this.aY;\n\n\t\t}\n\n\t\treturn point.set( x, y );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.aX = source.aX;\n\t\tthis.aY = source.aY;\n\n\t\tthis.xRadius = source.xRadius;\n\t\tthis.yRadius = source.yRadius;\n\n\t\tthis.aStartAngle = source.aStartAngle;\n\t\tthis.aEndAngle = source.aEndAngle;\n\n\t\tthis.aClockwise = source.aClockwise;\n\n\t\tthis.aRotation = source.aRotation;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.aX = this.aX;\n\t\tdata.aY = this.aY;\n\n\t\tdata.xRadius = this.xRadius;\n\t\tdata.yRadius = this.yRadius;\n\n\t\tdata.aStartAngle = this.aStartAngle;\n\t\tdata.aEndAngle = this.aEndAngle;\n\n\t\tdata.aClockwise = this.aClockwise;\n\n\t\tdata.aRotation = this.aRotation;\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.aX = json.aX;\n\t\tthis.aY = json.aY;\n\n\t\tthis.xRadius = json.xRadius;\n\t\tthis.yRadius = json.yRadius;\n\n\t\tthis.aStartAngle = json.aStartAngle;\n\t\tthis.aEndAngle = json.aEndAngle;\n\n\t\tthis.aClockwise = json.aClockwise;\n\n\t\tthis.aRotation = json.aRotation;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing an arc.\n *\n * @augments EllipseCurve\n */\nclass ArcCurve extends EllipseCurve {\n\n\t/**\n\t * Constructs a new arc curve.\n\t *\n\t * @param {number} [aX=0] - The X center of the ellipse.\n\t * @param {number} [aY=0] - The Y center of the ellipse.\n\t * @param {number} [aRadius=1] - The radius of the ellipse in the x direction.\n\t * @param {number} [aStartAngle=0] - The start angle of the curve in radians starting from the positive X axis.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle of the curve in radians starting from the positive X axis.\n\t * @param {boolean} [aClockwise=false] - Whether the ellipse is drawn clockwise or not.\n\t */\n\tconstructor( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) {\n\n\t\tsuper( aX, aY, aRadius, aRadius, aStartAngle, aEndAngle, aClockwise );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isArcCurve = true;\n\n\t\tthis.type = 'ArcCurve';\n\n\t}\n\n}\n\nfunction CubicPoly() {\n\n\t/**\n\t * Centripetal CatmullRom Curve - which is useful for avoiding\n\t* cusps and self-intersections in non-uniform catmull rom curves.\n\t* http://www.cemyuksel.com/research/catmullrom_param/catmullrom.pdf\n\t*\n\t* curve.type accepts centripetal(default), chordal and catmullrom\n\t* curve.tension is used for catmullrom which defaults to 0.5\n\t*/\n\n\t/*\n\tBased on an optimized c++ solution in\n\t- http://stackoverflow.com/questions/9489736/catmull-rom-curve-with-no-cusps-and-no-self-intersections/\n\t- http://ideone.com/NoEbVM\n\n\tThis CubicPoly class could be used for reusing some variables and calculations,\n\tbut for three.js curve use, it could be possible inlined and flatten into a single function call\n\twhich can be placed in CurveUtils.\n\t*/\n\n\tlet c0 = 0, c1 = 0, c2 = 0, c3 = 0;\n\n\t/*\n\t * Compute coefficients for a cubic polynomial\n\t * p(s) = c0 + c1*s + c2*s^2 + c3*s^3\n\t * such that\n\t * p(0) = x0, p(1) = x1\n\t * and\n\t * p'(0) = t0, p'(1) = t1.\n\t */\n\tfunction init( x0, x1, t0, t1 ) {\n\n\t\tc0 = x0;\n\t\tc1 = t0;\n\t\tc2 = -3 * x0 + 3 * x1 - 2 * t0 - t1;\n\t\tc3 = 2 * x0 - 2 * x1 + t0 + t1;\n\n\t}\n\n\treturn {\n\n\t\tinitCatmullRom: function ( x0, x1, x2, x3, tension ) {\n\n\t\t\tinit( x1, x2, tension * ( x2 - x0 ), tension * ( x3 - x1 ) );\n\n\t\t},\n\n\t\tinitNonuniformCatmullRom: function ( x0, x1, x2, x3, dt0, dt1, dt2 ) {\n\n\t\t\t// compute tangents when parameterized in [t1,t2]\n\t\t\tlet t1 = ( x1 - x0 ) / dt0 - ( x2 - x0 ) / ( dt0 + dt1 ) + ( x2 - x1 ) / dt1;\n\t\t\tlet t2 = ( x2 - x1 ) / dt1 - ( x3 - x1 ) / ( dt1 + dt2 ) + ( x3 - x2 ) / dt2;\n\n\t\t\t// rescale tangents for parametrization in [0,1]\n\t\t\tt1 *= dt1;\n\t\t\tt2 *= dt1;\n\n\t\t\tinit( x1, x2, t1, t2 );\n\n\t\t},\n\n\t\tcalc: function ( t ) {\n\n\t\t\tconst t2 = t * t;\n\t\t\tconst t3 = t2 * t;\n\t\t\treturn c0 + c1 * t + c2 * t2 + c3 * t3;\n\n\t\t}\n\n\t};\n\n}\n\n//\n\nconst tmp = /*@__PURE__*/ new Vector3();\nconst px = /*@__PURE__*/ new CubicPoly();\nconst py = /*@__PURE__*/ new CubicPoly();\nconst pz = /*@__PURE__*/ new CubicPoly();\n\n/**\n * A curve representing a Catmull-Rom spline.\n *\n * ```js\n * //Create a closed wavey loop\n * const curve = new THREE.CatmullRomCurve3( [\n * \tnew THREE.Vector3( -10, 0, 10 ),\n * \tnew THREE.Vector3( -5, 5, 5 ),\n * \tnew THREE.Vector3( 0, 0, 0 ),\n * \tnew THREE.Vector3( 5, -5, 5 ),\n * \tnew THREE.Vector3( 10, 0, 10 )\n * ] );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const curveObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass CatmullRomCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new Catmull-Rom curve.\n\t *\n\t * @param {Array} [points] - An array of 3D points defining the curve.\n\t * @param {boolean} [closed=false] - Whether the curve is closed or not.\n\t * @param {('centripetal'|'chordal'|'catmullrom')} [curveType='centripetal'] - The curve type.\n\t * @param {number} [tension=0.5] - Tension of the curve.\n\t */\n\tconstructor( points = [], closed = false, curveType = 'centripetal', tension = 0.5 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCatmullRomCurve3 = true;\n\n\t\tthis.type = 'CatmullRomCurve3';\n\n\t\t/**\n\t\t * An array of 3D points defining the curve.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.points = points;\n\n\t\t/**\n\t\t * Whether the curve is closed or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.closed = closed;\n\n\t\t/**\n\t\t * The curve type.\n\t\t *\n\t\t * @type {('centripetal'|'chordal'|'catmullrom')}\n\t\t * @default 'centripetal'\n\t\t */\n\t\tthis.curveType = curveType;\n\n\t\t/**\n\t\t * Tension of the curve.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.5\n\t\t */\n\t\tthis.tension = tension;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst points = this.points;\n\t\tconst l = points.length;\n\n\t\tconst p = ( l - ( this.closed ? 0 : 1 ) ) * t;\n\t\tlet intPoint = Math.floor( p );\n\t\tlet weight = p - intPoint;\n\n\t\tif ( this.closed ) {\n\n\t\t\tintPoint += intPoint > 0 ? 0 : ( Math.floor( Math.abs( intPoint ) / l ) + 1 ) * l;\n\n\t\t} else if ( weight === 0 && intPoint === l - 1 ) {\n\n\t\t\tintPoint = l - 2;\n\t\t\tweight = 1;\n\n\t\t}\n\n\t\tlet p0, p3; // 4 points (p1 & p2 defined below)\n\n\t\tif ( this.closed || intPoint > 0 ) {\n\n\t\t\tp0 = points[ ( intPoint - 1 ) % l ];\n\n\t\t} else {\n\n\t\t\t// extrapolate first point\n\t\t\ttmp.subVectors( points[ 0 ], points[ 1 ] ).add( points[ 0 ] );\n\t\t\tp0 = tmp;\n\n\t\t}\n\n\t\tconst p1 = points[ intPoint % l ];\n\t\tconst p2 = points[ ( intPoint + 1 ) % l ];\n\n\t\tif ( this.closed || intPoint + 2 < l ) {\n\n\t\t\tp3 = points[ ( intPoint + 2 ) % l ];\n\n\t\t} else {\n\n\t\t\t// extrapolate last point\n\t\t\ttmp.subVectors( points[ l - 1 ], points[ l - 2 ] ).add( points[ l - 1 ] );\n\t\t\tp3 = tmp;\n\n\t\t}\n\n\t\tif ( this.curveType === 'centripetal' || this.curveType === 'chordal' ) {\n\n\t\t\t// init Centripetal / Chordal Catmull-Rom\n\t\t\tconst pow = this.curveType === 'chordal' ? 0.5 : 0.25;\n\t\t\tlet dt0 = Math.pow( p0.distanceToSquared( p1 ), pow );\n\t\t\tlet dt1 = Math.pow( p1.distanceToSquared( p2 ), pow );\n\t\t\tlet dt2 = Math.pow( p2.distanceToSquared( p3 ), pow );\n\n\t\t\t// safety check for repeated points\n\t\t\tif ( dt1 < 1e-4 ) dt1 = 1.0;\n\t\t\tif ( dt0 < 1e-4 ) dt0 = dt1;\n\t\t\tif ( dt2 < 1e-4 ) dt2 = dt1;\n\n\t\t\tpx.initNonuniformCatmullRom( p0.x, p1.x, p2.x, p3.x, dt0, dt1, dt2 );\n\t\t\tpy.initNonuniformCatmullRom( p0.y, p1.y, p2.y, p3.y, dt0, dt1, dt2 );\n\t\t\tpz.initNonuniformCatmullRom( p0.z, p1.z, p2.z, p3.z, dt0, dt1, dt2 );\n\n\t\t} else if ( this.curveType === 'catmullrom' ) {\n\n\t\t\tpx.initCatmullRom( p0.x, p1.x, p2.x, p3.x, this.tension );\n\t\t\tpy.initCatmullRom( p0.y, p1.y, p2.y, p3.y, this.tension );\n\t\t\tpz.initCatmullRom( p0.z, p1.z, p2.z, p3.z, this.tension );\n\n\t\t}\n\n\t\tpoint.set(\n\t\t\tpx.calc( weight ),\n\t\t\tpy.calc( weight ),\n\t\t\tpz.calc( weight )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = source.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = source.points[ i ];\n\n\t\t\tthis.points.push( point.clone() );\n\n\t\t}\n\n\t\tthis.closed = source.closed;\n\t\tthis.curveType = source.curveType;\n\t\tthis.tension = source.tension;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.points = [];\n\n\t\tfor ( let i = 0, l = this.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = this.points[ i ];\n\t\t\tdata.points.push( point.toArray() );\n\n\t\t}\n\n\t\tdata.closed = this.closed;\n\t\tdata.curveType = this.curveType;\n\t\tdata.tension = this.tension;\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = json.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = json.points[ i ];\n\t\t\tthis.points.push( new Vector3().fromArray( point ) );\n\n\t\t}\n\n\t\tthis.closed = json.closed;\n\t\tthis.curveType = json.curveType;\n\t\tthis.tension = json.tension;\n\n\t\treturn this;\n\n\t}\n\n}\n\n// Bezier Curves formulas obtained from: https://en.wikipedia.org/wiki/B%C3%A9zier_curve\n\n/**\n * Computes a point on a Catmull-Rom spline.\n *\n * @param {number} t - The interpolation factor.\n * @param {number} p0 - The first control point.\n * @param {number} p1 - The second control point.\n * @param {number} p2 - The third control point.\n * @param {number} p3 - The fourth control point.\n * @return {number} The calculated point on a Catmull-Rom spline.\n */\nfunction CatmullRom( t, p0, p1, p2, p3 ) {\n\n\tconst v0 = ( p2 - p0 ) * 0.5;\n\tconst v1 = ( p3 - p1 ) * 0.5;\n\tconst t2 = t * t;\n\tconst t3 = t * t2;\n\treturn ( 2 * p1 - 2 * p2 + v0 + v1 ) * t3 + ( -3 * p1 + 3 * p2 - 2 * v0 - v1 ) * t2 + v0 * t + p1;\n\n}\n\n//\n\nfunction QuadraticBezierP0( t, p ) {\n\n\tconst k = 1 - t;\n\treturn k * k * p;\n\n}\n\nfunction QuadraticBezierP1( t, p ) {\n\n\treturn 2 * ( 1 - t ) * t * p;\n\n}\n\nfunction QuadraticBezierP2( t, p ) {\n\n\treturn t * t * p;\n\n}\n\n/**\n * Computes a point on a Quadratic Bezier curve.\n *\n * @param {number} t - The interpolation factor.\n * @param {number} p0 - The first control point.\n * @param {number} p1 - The second control point.\n * @param {number} p2 - The third control point.\n * @return {number} The calculated point on a Quadratic Bezier curve.\n */\nfunction QuadraticBezier( t, p0, p1, p2 ) {\n\n\treturn QuadraticBezierP0( t, p0 ) + QuadraticBezierP1( t, p1 ) +\n\t\tQuadraticBezierP2( t, p2 );\n\n}\n\n//\n\nfunction CubicBezierP0( t, p ) {\n\n\tconst k = 1 - t;\n\treturn k * k * k * p;\n\n}\n\nfunction CubicBezierP1( t, p ) {\n\n\tconst k = 1 - t;\n\treturn 3 * k * k * t * p;\n\n}\n\nfunction CubicBezierP2( t, p ) {\n\n\treturn 3 * ( 1 - t ) * t * t * p;\n\n}\n\nfunction CubicBezierP3( t, p ) {\n\n\treturn t * t * t * p;\n\n}\n\n/**\n * Computes a point on a Cubic Bezier curve.\n *\n * @param {number} t - The interpolation factor.\n * @param {number} p0 - The first control point.\n * @param {number} p1 - The second control point.\n * @param {number} p2 - The third control point.\n * @param {number} p3 - The fourth control point.\n * @return {number} The calculated point on a Cubic Bezier curve.\n */\nfunction CubicBezier( t, p0, p1, p2, p3 ) {\n\n\treturn CubicBezierP0( t, p0 ) + CubicBezierP1( t, p1 ) + CubicBezierP2( t, p2 ) +\n\t\tCubicBezierP3( t, p3 );\n\n}\n\n/**\n * A curve representing a 2D Cubic Bezier curve.\n *\n * ```js\n * const curve = new THREE.CubicBezierCurve(\n * \tnew THREE.Vector2( - 0, 0 ),\n * \tnew THREE.Vector2( - 5, 15 ),\n * \tnew THREE.Vector2( 20, 15 ),\n * \tnew THREE.Vector2( 10, 0 )\n * );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const curveObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass CubicBezierCurve extends Curve {\n\n\t/**\n\t * Constructs a new Cubic Bezier curve.\n\t *\n\t * @param {Vector2} [v0] - The start point.\n\t * @param {Vector2} [v1] - The first control point.\n\t * @param {Vector2} [v2] - The second control point.\n\t * @param {Vector2} [v3] - The end point.\n\t */\n\tconstructor( v0 = new Vector2(), v1 = new Vector2(), v2 = new Vector2(), v3 = new Vector2() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubicBezierCurve = true;\n\n\t\tthis.type = 'CubicBezierCurve';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The first control point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The second control point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v3 = v3;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2, v3 = this.v3;\n\n\t\tpoint.set(\n\t\t\tCubicBezier( t, v0.x, v1.x, v2.x, v3.x ),\n\t\t\tCubicBezier( t, v0.y, v1.y, v2.y, v3.y )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\t\tthis.v3.copy( source.v3 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\t\tdata.v3 = this.v3.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\t\tthis.v3.fromArray( json.v3 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 3D Cubic Bezier curve.\n *\n * @augments Curve\n */\nclass CubicBezierCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new Cubic Bezier curve.\n\t *\n\t * @param {Vector3} [v0] - The start point.\n\t * @param {Vector3} [v1] - The first control point.\n\t * @param {Vector3} [v2] - The second control point.\n\t * @param {Vector3} [v3] - The end point.\n\t */\n\tconstructor( v0 = new Vector3(), v1 = new Vector3(), v2 = new Vector3(), v3 = new Vector3() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isCubicBezierCurve3 = true;\n\n\t\tthis.type = 'CubicBezierCurve3';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The first control point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The second control point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v3 = v3;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2, v3 = this.v3;\n\n\t\tpoint.set(\n\t\t\tCubicBezier( t, v0.x, v1.x, v2.x, v3.x ),\n\t\t\tCubicBezier( t, v0.y, v1.y, v2.y, v3.y ),\n\t\t\tCubicBezier( t, v0.z, v1.z, v2.z, v3.z )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\t\tthis.v3.copy( source.v3 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\t\tdata.v3 = this.v3.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\t\tthis.v3.fromArray( json.v3 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 2D line segment.\n *\n * @augments Curve\n */\nclass LineCurve extends Curve {\n\n\t/**\n\t * Constructs a new line curve.\n\t *\n\t * @param {Vector2} [v1] - The start point.\n\t * @param {Vector2} [v2] - The end point.\n\t */\n\tconstructor( v1 = new Vector2(), v2 = new Vector2() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineCurve = true;\n\n\t\tthis.type = 'LineCurve';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the line.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the line. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the line.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tif ( t === 1 ) {\n\n\t\t\tpoint.copy( this.v2 );\n\n\t\t} else {\n\n\t\t\tpoint.copy( this.v2 ).sub( this.v1 );\n\t\t\tpoint.multiplyScalar( t ).add( this.v1 );\n\n\t\t}\n\n\t\treturn point;\n\n\t}\n\n\t// Line curve is linear, so we can overwrite default getPointAt\n\tgetPointAt( u, optionalTarget ) {\n\n\t\treturn this.getPoint( u, optionalTarget );\n\n\t}\n\n\tgetTangent( t, optionalTarget = new Vector2() ) {\n\n\t\treturn optionalTarget.subVectors( this.v2, this.v1 ).normalize();\n\n\t}\n\n\tgetTangentAt( u, optionalTarget ) {\n\n\t\treturn this.getTangent( u, optionalTarget );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 3D line segment.\n *\n * @augments Curve\n */\nclass LineCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new line curve.\n\t *\n\t * @param {Vector3} [v1] - The start point.\n\t * @param {Vector3} [v2] - The end point.\n\t */\n\tconstructor( v1 = new Vector3(), v2 = new Vector3() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineCurve3 = true;\n\n\t\tthis.type = 'LineCurve3';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the line.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the line. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the line.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tif ( t === 1 ) {\n\n\t\t\tpoint.copy( this.v2 );\n\n\t\t} else {\n\n\t\t\tpoint.copy( this.v2 ).sub( this.v1 );\n\t\t\tpoint.multiplyScalar( t ).add( this.v1 );\n\n\t\t}\n\n\t\treturn point;\n\n\t}\n\n\t// Line curve is linear, so we can overwrite default getPointAt\n\tgetPointAt( u, optionalTarget ) {\n\n\t\treturn this.getPoint( u, optionalTarget );\n\n\t}\n\n\tgetTangent( t, optionalTarget = new Vector3() ) {\n\n\t\treturn optionalTarget.subVectors( this.v2, this.v1 ).normalize();\n\n\t}\n\n\tgetTangentAt( u, optionalTarget ) {\n\n\t\treturn this.getTangent( u, optionalTarget );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 2D Quadratic Bezier curve.\n *\n * ```js\n * const curve = new THREE.QuadraticBezierCurve(\n * \tnew THREE.Vector2( - 10, 0 ),\n * \tnew THREE.Vector2( 20, 15 ),\n * \tnew THREE.Vector2( 10, 0 )\n * )\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const curveObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass QuadraticBezierCurve extends Curve {\n\n\t/**\n\t * Constructs a new Quadratic Bezier curve.\n\t *\n\t * @param {Vector2} [v0] - The start point.\n\t * @param {Vector2} [v1] - The control point.\n\t * @param {Vector2} [v2] - The end point.\n\t */\n\tconstructor( v0 = new Vector2(), v1 = new Vector2(), v2 = new Vector2() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isQuadraticBezierCurve = true;\n\n\t\tthis.type = 'QuadraticBezierCurve';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The control point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2;\n\n\t\tpoint.set(\n\t\t\tQuadraticBezier( t, v0.x, v1.x, v2.x ),\n\t\t\tQuadraticBezier( t, v0.y, v1.y, v2.y )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 3D Quadratic Bezier curve.\n *\n * @augments Curve\n */\nclass QuadraticBezierCurve3 extends Curve {\n\n\t/**\n\t * Constructs a new Quadratic Bezier curve.\n\t *\n\t * @param {Vector3} [v0] - The start point.\n\t * @param {Vector3} [v1] - The control point.\n\t * @param {Vector3} [v2] - The end point.\n\t */\n\tconstructor( v0 = new Vector3(), v1 = new Vector3(), v2 = new Vector3() ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isQuadraticBezierCurve3 = true;\n\n\t\tthis.type = 'QuadraticBezierCurve3';\n\n\t\t/**\n\t\t * The start point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v0 = v0;\n\n\t\t/**\n\t\t * The control point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v1 = v1;\n\n\t\t/**\n\t\t * The end point.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.v2 = v2;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector3} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector3} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector3() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst v0 = this.v0, v1 = this.v1, v2 = this.v2;\n\n\t\tpoint.set(\n\t\t\tQuadraticBezier( t, v0.x, v1.x, v2.x ),\n\t\t\tQuadraticBezier( t, v0.y, v1.y, v2.y ),\n\t\t\tQuadraticBezier( t, v0.z, v1.z, v2.z )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.v0.copy( source.v0 );\n\t\tthis.v1.copy( source.v1 );\n\t\tthis.v2.copy( source.v2 );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.v0 = this.v0.toArray();\n\t\tdata.v1 = this.v1.toArray();\n\t\tdata.v2 = this.v2.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.v0.fromArray( json.v0 );\n\t\tthis.v1.fromArray( json.v1 );\n\t\tthis.v2.fromArray( json.v2 );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A curve representing a 2D spline curve.\n *\n * ```js\n * // Create a sine-like wave\n * const curve = new THREE.SplineCurve( [\n * \tnew THREE.Vector2( -10, 0 ),\n * \tnew THREE.Vector2( -5, 5 ),\n * \tnew THREE.Vector2( 0, 0 ),\n * \tnew THREE.Vector2( 5, -5 ),\n * \tnew THREE.Vector2( 10, 0 )\n * ] );\n *\n * const points = curve.getPoints( 50 );\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n *\n * const material = new THREE.LineBasicMaterial( { color: 0xff0000 } );\n *\n * // Create the final object to add to the scene\n * const splineObject = new THREE.Line( geometry, material );\n * ```\n *\n * @augments Curve\n */\nclass SplineCurve extends Curve {\n\n\t/**\n\t * Constructs a new 2D spline curve.\n\t *\n\t * @param {Array} [points] - An array of 2D points defining the curve.\n\t */\n\tconstructor( points = [] ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSplineCurve = true;\n\n\t\tthis.type = 'SplineCurve';\n\n\t\t/**\n\t\t * An array of 2D points defining the curve.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.points = points;\n\n\t}\n\n\t/**\n\t * Returns a point on the curve.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {Vector2} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {Vector2} The position on the curve.\n\t */\n\tgetPoint( t, optionalTarget = new Vector2() ) {\n\n\t\tconst point = optionalTarget;\n\n\t\tconst points = this.points;\n\t\tconst p = ( points.length - 1 ) * t;\n\n\t\tconst intPoint = Math.floor( p );\n\t\tconst weight = p - intPoint;\n\n\t\tconst p0 = points[ intPoint === 0 ? intPoint : intPoint - 1 ];\n\t\tconst p1 = points[ intPoint ];\n\t\tconst p2 = points[ intPoint > points.length - 2 ? points.length - 1 : intPoint + 1 ];\n\t\tconst p3 = points[ intPoint > points.length - 3 ? points.length - 1 : intPoint + 2 ];\n\n\t\tpoint.set(\n\t\t\tCatmullRom( weight, p0.x, p1.x, p2.x, p3.x ),\n\t\t\tCatmullRom( weight, p0.y, p1.y, p2.y, p3.y )\n\t\t);\n\n\t\treturn point;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = source.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = source.points[ i ];\n\n\t\t\tthis.points.push( point.clone() );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.points = [];\n\n\t\tfor ( let i = 0, l = this.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = this.points[ i ];\n\t\t\tdata.points.push( point.toArray() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.points = [];\n\n\t\tfor ( let i = 0, l = json.points.length; i < l; i ++ ) {\n\n\t\t\tconst point = json.points[ i ];\n\t\t\tthis.points.push( new Vector2().fromArray( point ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\nvar Curves = /*#__PURE__*/Object.freeze({\n\t__proto__: null,\n\tArcCurve: ArcCurve,\n\tCatmullRomCurve3: CatmullRomCurve3,\n\tCubicBezierCurve: CubicBezierCurve,\n\tCubicBezierCurve3: CubicBezierCurve3,\n\tEllipseCurve: EllipseCurve,\n\tLineCurve: LineCurve,\n\tLineCurve3: LineCurve3,\n\tQuadraticBezierCurve: QuadraticBezierCurve,\n\tQuadraticBezierCurve3: QuadraticBezierCurve3,\n\tSplineCurve: SplineCurve\n});\n\n/**\n * A base class extending {@link Curve}. `CurvePath` is simply an\n * array of connected curves, but retains the API of a curve.\n *\n * @augments Curve\n */\nclass CurvePath extends Curve {\n\n\t/**\n\t * Constructs a new curve path.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\tthis.type = 'CurvePath';\n\n\t\t/**\n\t\t * An array of curves defining the\n\t\t * path.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.curves = [];\n\n\t\t/**\n\t\t * Whether the path should automatically be closed\n\t\t * by a line curve.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.autoClose = false;\n\n\t}\n\n\t/**\n\t * Adds a curve to this curve path.\n\t *\n\t * @param {Curve} curve - The curve to add.\n\t */\n\tadd( curve ) {\n\n\t\tthis.curves.push( curve );\n\n\t}\n\n\t/**\n\t * Adds a line curve to close the path.\n\t *\n\t * @return {CurvePath} A reference to this curve path.\n\t */\n\tclosePath() {\n\n\t\t// Add a line curve if start and end of lines are not connected\n\t\tconst startPoint = this.curves[ 0 ].getPoint( 0 );\n\t\tconst endPoint = this.curves[ this.curves.length - 1 ].getPoint( 1 );\n\n\t\tif ( ! startPoint.equals( endPoint ) ) {\n\n\t\t\tconst lineType = ( startPoint.isVector2 === true ) ? 'LineCurve' : 'LineCurve3';\n\t\t\tthis.curves.push( new Curves[ lineType ]( endPoint, startPoint ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This method returns a vector in 2D or 3D space (depending on the curve definitions)\n\t * for the given interpolation factor.\n\t *\n\t * @param {number} t - A interpolation factor representing a position on the curve. Must be in the range `[0,1]`.\n\t * @param {(Vector2|Vector3)} [optionalTarget] - The optional target vector the result is written to.\n\t * @return {?(Vector2|Vector3)} The position on the curve. It can be a 2D or 3D vector depending on the curve definition.\n\t */\n\tgetPoint( t, optionalTarget ) {\n\n\t\t// To get accurate point with reference to\n\t\t// entire path distance at time t,\n\t\t// following has to be done:\n\n\t\t// 1. Length of each sub path have to be known\n\t\t// 2. Locate and identify type of curve\n\t\t// 3. Get t for the curve\n\t\t// 4. Return curve.getPointAt(t')\n\n\t\tconst d = t * this.getLength();\n\t\tconst curveLengths = this.getCurveLengths();\n\t\tlet i = 0;\n\n\t\t// To think about boundaries points.\n\n\t\twhile ( i < curveLengths.length ) {\n\n\t\t\tif ( curveLengths[ i ] >= d ) {\n\n\t\t\t\tconst diff = curveLengths[ i ] - d;\n\t\t\t\tconst curve = this.curves[ i ];\n\n\t\t\t\tconst segmentLength = curve.getLength();\n\t\t\t\tconst u = segmentLength === 0 ? 0 : 1 - diff / segmentLength;\n\n\t\t\t\treturn curve.getPointAt( u, optionalTarget );\n\n\t\t\t}\n\n\t\t\ti ++;\n\n\t\t}\n\n\t\treturn null;\n\n\t\t// loop where sum != 0, sum > d , sum+1 } The curve lengths.\n\t */\n\tgetCurveLengths() {\n\n\t\t// Compute lengths and cache them\n\t\t// We cannot overwrite getLengths() because UtoT mapping uses it.\n\t\t// We use cache values if curves and cache array are same length\n\n\t\tif ( this.cacheLengths && this.cacheLengths.length === this.curves.length ) {\n\n\t\t\treturn this.cacheLengths;\n\n\t\t}\n\n\t\t// Get length of sub-curve\n\t\t// Push sums into cached array\n\n\t\tconst lengths = [];\n\t\tlet sums = 0;\n\n\t\tfor ( let i = 0, l = this.curves.length; i < l; i ++ ) {\n\n\t\t\tsums += this.curves[ i ].getLength();\n\t\t\tlengths.push( sums );\n\n\t\t}\n\n\t\tthis.cacheLengths = lengths;\n\n\t\treturn lengths;\n\n\t}\n\n\tgetSpacedPoints( divisions = 40 ) {\n\n\t\tconst points = [];\n\n\t\tfor ( let i = 0; i <= divisions; i ++ ) {\n\n\t\t\tpoints.push( this.getPoint( i / divisions ) );\n\n\t\t}\n\n\t\tif ( this.autoClose ) {\n\n\t\t\tpoints.push( points[ 0 ] );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\tgetPoints( divisions = 12 ) {\n\n\t\tconst points = [];\n\t\tlet last;\n\n\t\tfor ( let i = 0, curves = this.curves; i < curves.length; i ++ ) {\n\n\t\t\tconst curve = curves[ i ];\n\t\t\tconst resolution = curve.isEllipseCurve ? divisions * 2\n\t\t\t\t: ( curve.isLineCurve || curve.isLineCurve3 ) ? 1\n\t\t\t\t\t: curve.isSplineCurve ? divisions * curve.points.length\n\t\t\t\t\t\t: divisions;\n\n\t\t\tconst pts = curve.getPoints( resolution );\n\n\t\t\tfor ( let j = 0; j < pts.length; j ++ ) {\n\n\t\t\t\tconst point = pts[ j ];\n\n\t\t\t\tif ( last && last.equals( point ) ) continue; // ensures no consecutive points are duplicates\n\n\t\t\t\tpoints.push( point );\n\t\t\t\tlast = point;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( this.autoClose && points.length > 1 && ! points[ points.length - 1 ].equals( points[ 0 ] ) ) {\n\n\t\t\tpoints.push( points[ 0 ] );\n\n\t\t}\n\n\t\treturn points;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.curves = [];\n\n\t\tfor ( let i = 0, l = source.curves.length; i < l; i ++ ) {\n\n\t\t\tconst curve = source.curves[ i ];\n\n\t\t\tthis.curves.push( curve.clone() );\n\n\t\t}\n\n\t\tthis.autoClose = source.autoClose;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.autoClose = this.autoClose;\n\t\tdata.curves = [];\n\n\t\tfor ( let i = 0, l = this.curves.length; i < l; i ++ ) {\n\n\t\t\tconst curve = this.curves[ i ];\n\t\t\tdata.curves.push( curve.toJSON() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.autoClose = json.autoClose;\n\t\tthis.curves = [];\n\n\t\tfor ( let i = 0, l = json.curves.length; i < l; i ++ ) {\n\n\t\t\tconst curve = json.curves[ i ];\n\t\t\tthis.curves.push( new Curves[ curve.type ]().fromJSON( curve ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A 2D path representation. The class provides methods for creating paths\n * and contours of 2D shapes similar to the 2D Canvas API.\n *\n * ```js\n * const path = new THREE.Path();\n *\n * path.lineTo( 0, 0.8 );\n * path.quadraticCurveTo( 0, 1, 0.2, 1 );\n * path.lineTo( 1, 1 );\n *\n * const points = path.getPoints();\n *\n * const geometry = new THREE.BufferGeometry().setFromPoints( points );\n * const material = new THREE.LineBasicMaterial( { color: 0xffffff } );\n *\n * const line = new THREE.Line( geometry, material );\n * scene.add( line );\n * ```\n *\n * @augments CurvePath\n */\nclass Path extends CurvePath {\n\n\t/**\n\t * Constructs a new path.\n\t *\n\t * @param {Array} [points] - An array of 2D points defining the path.\n\t */\n\tconstructor( points ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'Path';\n\n\t\t/**\n\t\t * The current offset of the path. Any new curve added will start here.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.currentPoint = new Vector2();\n\n\t\tif ( points ) {\n\n\t\t\tthis.setFromPoints( points );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Creates a path from the given list of points. The points are added\n\t * to the path as instances of {@link LineCurve}.\n\t *\n\t * @param {Array} points - An array of 2D points.\n\t * @return {Path} A reference to this path.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tthis.moveTo( points[ 0 ].x, points[ 0 ].y );\n\n\t\tfor ( let i = 1, l = points.length; i < l; i ++ ) {\n\n\t\t\tthis.lineTo( points[ i ].x, points[ i ].y );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Moves {@link Path#currentPoint} to the given point.\n\t *\n\t * @param {number} x - The x coordinate.\n\t * @param {number} y - The y coordinate.\n\t * @return {Path} A reference to this path.\n\t */\n\tmoveTo( x, y ) {\n\n\t\tthis.currentPoint.set( x, y ); // TODO consider referencing vectors instead of copying?\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link LineCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} x - The x coordinate of the end point.\n\t * @param {number} y - The y coordinate of the end point.\n\t * @return {Path} A reference to this path.\n\t */\n\tlineTo( x, y ) {\n\n\t\tconst curve = new LineCurve( this.currentPoint.clone(), new Vector2( x, y ) );\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.set( x, y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link QuadraticBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCPx - The x coordinate of the control point.\n\t * @param {number} aCPy - The y coordinate of the control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {Path} A reference to this path.\n\t */\n\tquadraticCurveTo( aCPx, aCPy, aX, aY ) {\n\n\t\tconst curve = new QuadraticBezierCurve(\n\t\t\tthis.currentPoint.clone(),\n\t\t\tnew Vector2( aCPx, aCPy ),\n\t\t\tnew Vector2( aX, aY )\n\t\t);\n\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.set( aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link CubicBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCP1x - The x coordinate of the first control point.\n\t * @param {number} aCP1y - The y coordinate of the first control point.\n\t * @param {number} aCP2x - The x coordinate of the second control point.\n\t * @param {number} aCP2y - The y coordinate of the second control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {Path} A reference to this path.\n\t */\n\tbezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY ) {\n\n\t\tconst curve = new CubicBezierCurve(\n\t\t\tthis.currentPoint.clone(),\n\t\t\tnew Vector2( aCP1x, aCP1y ),\n\t\t\tnew Vector2( aCP2x, aCP2y ),\n\t\t\tnew Vector2( aX, aY )\n\t\t);\n\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.set( aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link SplineCurve} to the path by connecting\n\t * the current point with the given list of points.\n\t *\n\t * @param {Array} pts - An array of points in 2D space.\n\t * @return {Path} A reference to this path.\n\t */\n\tsplineThru( pts ) {\n\n\t\tconst npts = [ this.currentPoint.clone() ].concat( pts );\n\n\t\tconst curve = new SplineCurve( npts );\n\t\tthis.curves.push( curve );\n\n\t\tthis.currentPoint.copy( pts[ pts.length - 1 ] );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an arc as an instance of {@link EllipseCurve} to the path, positioned relative\n\t * to the current point.\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the center of the arc offsetted from the previous curve.\n\t * @param {number} [aY=0] - The y coordinate of the center of the arc offsetted from the previous curve.\n\t * @param {number} [aRadius=1] - The radius of the arc.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the arc clockwise or not.\n\t * @return {Path} A reference to this path.\n\t */\n\tarc( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) {\n\n\t\tconst x0 = this.currentPoint.x;\n\t\tconst y0 = this.currentPoint.y;\n\n\t\tthis.absarc( aX + x0, aY + y0, aRadius,\n\t\t\taStartAngle, aEndAngle, aClockwise );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an absolutely positioned arc as an instance of {@link EllipseCurve} to the path.\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the center of the arc.\n\t * @param {number} [aY=0] - The y coordinate of the center of the arc.\n\t * @param {number} [aRadius=1] - The radius of the arc.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the arc clockwise or not.\n\t * @return {Path} A reference to this path.\n\t */\n\tabsarc( aX, aY, aRadius, aStartAngle, aEndAngle, aClockwise ) {\n\n\t\tthis.absellipse( aX, aY, aRadius, aRadius, aStartAngle, aEndAngle, aClockwise );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an ellipse as an instance of {@link EllipseCurve} to the path, positioned relative\n\t * to the current point\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the center of the ellipse offsetted from the previous curve.\n\t * @param {number} [aY=0] - The y coordinate of the center of the ellipse offsetted from the previous curve.\n\t * @param {number} [xRadius=1] - The radius of the ellipse in the x axis.\n\t * @param {number} [yRadius=1] - The radius of the ellipse in the y axis.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the ellipse clockwise or not.\n\t * @param {number} [aRotation=0] - The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t * @return {Path} A reference to this path.\n\t */\n\tellipse( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ) {\n\n\t\tconst x0 = this.currentPoint.x;\n\t\tconst y0 = this.currentPoint.y;\n\n\t\tthis.absellipse( aX + x0, aY + y0, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an absolutely positioned ellipse as an instance of {@link EllipseCurve} to the path.\n\t *\n\t * @param {number} [aX=0] - The x coordinate of the absolute center of the ellipse.\n\t * @param {number} [aY=0] - The y coordinate of the absolute center of the ellipse.\n\t * @param {number} [xRadius=1] - The radius of the ellipse in the x axis.\n\t * @param {number} [yRadius=1] - The radius of the ellipse in the y axis.\n\t * @param {number} [aStartAngle=0] - The start angle in radians.\n\t * @param {number} [aEndAngle=Math.PI*2] - The end angle in radians.\n\t * @param {boolean} [aClockwise=false] - Whether to sweep the ellipse clockwise or not.\n\t * @param {number} [aRotation=0] - The rotation angle of the ellipse in radians, counterclockwise from the positive X axis.\n\t * @return {Path} A reference to this path.\n\t */\n\tabsellipse( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation ) {\n\n\t\tconst curve = new EllipseCurve( aX, aY, xRadius, yRadius, aStartAngle, aEndAngle, aClockwise, aRotation );\n\n\t\tif ( this.curves.length > 0 ) {\n\n\t\t\t// if a previous curve is present, attempt to join\n\t\t\tconst firstPoint = curve.getPoint( 0 );\n\n\t\t\tif ( ! firstPoint.equals( this.currentPoint ) ) {\n\n\t\t\t\tthis.lineTo( firstPoint.x, firstPoint.y );\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.curves.push( curve );\n\n\t\tconst lastPoint = curve.getPoint( 1 );\n\t\tthis.currentPoint.copy( lastPoint );\n\n\t\treturn this;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.currentPoint.copy( source.currentPoint );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.currentPoint = this.currentPoint.toArray();\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.currentPoint.fromArray( json.currentPoint );\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Defines an arbitrary 2d shape plane using paths with optional holes. It\n * can be used with {@link ExtrudeGeometry}, {@link ShapeGeometry}, to get\n * points, or to get triangulated faces.\n *\n * ```js\n * const heartShape = new THREE.Shape();\n *\n * heartShape.moveTo( 25, 25 );\n * heartShape.bezierCurveTo( 25, 25, 20, 0, 0, 0 );\n * heartShape.bezierCurveTo( - 30, 0, - 30, 35, - 30, 35 );\n * heartShape.bezierCurveTo( - 30, 55, - 10, 77, 25, 95 );\n * heartShape.bezierCurveTo( 60, 77, 80, 55, 80, 35 );\n * heartShape.bezierCurveTo( 80, 35, 80, 0, 50, 0 );\n * heartShape.bezierCurveTo( 35, 0, 25, 25, 25, 25 );\n *\n * const extrudeSettings = {\n * \tdepth: 8,\n * \tbevelEnabled: true,\n * \tbevelSegments: 2,\n * \tsteps: 2,\n * \tbevelSize: 1,\n * \tbevelThickness: 1\n * };\n *\n * const geometry = new THREE.ExtrudeGeometry( heartShape, extrudeSettings );\n * const mesh = new THREE.Mesh( geometry, new THREE.MeshBasicMaterial() );\n * ```\n *\n * @augments Path\n */\nclass Shape extends Path {\n\n\t/**\n\t * Constructs a new shape.\n\t *\n\t * @param {Array} [points] - An array of 2D points defining the shape.\n\t */\n\tconstructor( points ) {\n\n\t\tsuper( points );\n\n\t\t/**\n\t\t * The UUID of the shape.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\tthis.type = 'Shape';\n\n\t\t/**\n\t\t * Defines the holes in the shape. Hole definitions must use the\n\t\t * opposite winding order (CW/CCW) than the outer shape.\n\t\t *\n\t\t * @type {Array}\n\t\t * @readonly\n\t\t */\n\t\tthis.holes = [];\n\n\t}\n\n\t/**\n\t * Returns an array representing each contour of the holes\n\t * as a list of 2D points.\n\t *\n\t * @param {number} divisions - The fineness of the result.\n\t * @return {Array>} The holes as a series of 2D points.\n\t */\n\tgetPointsHoles( divisions ) {\n\n\t\tconst holesPts = [];\n\n\t\tfor ( let i = 0, l = this.holes.length; i < l; i ++ ) {\n\n\t\t\tholesPts[ i ] = this.holes[ i ].getPoints( divisions );\n\n\t\t}\n\n\t\treturn holesPts;\n\n\t}\n\n\t// get points of shape and holes (keypoints based on segments parameter)\n\n\t/**\n\t * Returns an object that holds contour data for the shape and its holes as\n\t * arrays of 2D points.\n\t *\n\t * @param {number} divisions - The fineness of the result.\n\t * @return {{shape:Array,holes:Array>}} An object with contour data.\n\t */\n\textractPoints( divisions ) {\n\n\t\treturn {\n\n\t\t\tshape: this.getPoints( divisions ),\n\t\t\tholes: this.getPointsHoles( divisions )\n\n\t\t};\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.holes = [];\n\n\t\tfor ( let i = 0, l = source.holes.length; i < l; i ++ ) {\n\n\t\t\tconst hole = source.holes[ i ];\n\n\t\t\tthis.holes.push( hole.clone() );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.uuid = this.uuid;\n\t\tdata.holes = [];\n\n\t\tfor ( let i = 0, l = this.holes.length; i < l; i ++ ) {\n\n\t\t\tconst hole = this.holes[ i ];\n\t\t\tdata.holes.push( hole.toJSON() );\n\n\t\t}\n\n\t\treturn data;\n\n\t}\n\n\tfromJSON( json ) {\n\n\t\tsuper.fromJSON( json );\n\n\t\tthis.uuid = json.uuid;\n\t\tthis.holes = [];\n\n\t\tfor ( let i = 0, l = json.holes.length; i < l; i ++ ) {\n\n\t\t\tconst hole = json.holes[ i ];\n\t\t\tthis.holes.push( new Path().fromJSON( hole ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\n/* eslint-disable */\n// copy of mapbox/earcut version 3.0.1\n// https://github.com/mapbox/earcut/tree/v3.0.1\n\nfunction earcut(data, holeIndices, dim = 2) {\n\n const hasHoles = holeIndices && holeIndices.length;\n const outerLen = hasHoles ? holeIndices[0] * dim : data.length;\n let outerNode = linkedList(data, 0, outerLen, dim, true);\n const triangles = [];\n\n if (!outerNode || outerNode.next === outerNode.prev) return triangles;\n\n let minX, minY, invSize;\n\n if (hasHoles) outerNode = eliminateHoles(data, holeIndices, outerNode, dim);\n\n // if the shape is not too simple, we'll use z-order curve hash later; calculate polygon bbox\n if (data.length > 80 * dim) {\n minX = Infinity;\n minY = Infinity;\n let maxX = -Infinity;\n let maxY = -Infinity;\n\n for (let i = dim; i < outerLen; i += dim) {\n const x = data[i];\n const y = data[i + 1];\n if (x < minX) minX = x;\n if (y < minY) minY = y;\n if (x > maxX) maxX = x;\n if (y > maxY) maxY = y;\n }\n\n // minX, minY and invSize are later used to transform coords into integers for z-order calculation\n invSize = Math.max(maxX - minX, maxY - minY);\n invSize = invSize !== 0 ? 32767 / invSize : 0;\n }\n\n earcutLinked(outerNode, triangles, dim, minX, minY, invSize, 0);\n\n return triangles;\n}\n\n// create a circular doubly linked list from polygon points in the specified winding order\nfunction linkedList(data, start, end, dim, clockwise) {\n let last;\n\n if (clockwise === (signedArea(data, start, end, dim) > 0)) {\n for (let i = start; i < end; i += dim) last = insertNode(i / dim | 0, data[i], data[i + 1], last);\n } else {\n for (let i = end - dim; i >= start; i -= dim) last = insertNode(i / dim | 0, data[i], data[i + 1], last);\n }\n\n if (last && equals(last, last.next)) {\n removeNode(last);\n last = last.next;\n }\n\n return last;\n}\n\n// eliminate colinear or duplicate points\nfunction filterPoints(start, end) {\n if (!start) return start;\n if (!end) end = start;\n\n let p = start,\n again;\n do {\n again = false;\n\n if (!p.steiner && (equals(p, p.next) || area(p.prev, p, p.next) === 0)) {\n removeNode(p);\n p = end = p.prev;\n if (p === p.next) break;\n again = true;\n\n } else {\n p = p.next;\n }\n } while (again || p !== end);\n\n return end;\n}\n\n// main ear slicing loop which triangulates a polygon (given as a linked list)\nfunction earcutLinked(ear, triangles, dim, minX, minY, invSize, pass) {\n if (!ear) return;\n\n // interlink polygon nodes in z-order\n if (!pass && invSize) indexCurve(ear, minX, minY, invSize);\n\n let stop = ear;\n\n // iterate through ears, slicing them one by one\n while (ear.prev !== ear.next) {\n const prev = ear.prev;\n const next = ear.next;\n\n if (invSize ? isEarHashed(ear, minX, minY, invSize) : isEar(ear)) {\n triangles.push(prev.i, ear.i, next.i); // cut off the triangle\n\n removeNode(ear);\n\n // skipping the next vertex leads to less sliver triangles\n ear = next.next;\n stop = next.next;\n\n continue;\n }\n\n ear = next;\n\n // if we looped through the whole remaining polygon and can't find any more ears\n if (ear === stop) {\n // try filtering points and slicing again\n if (!pass) {\n earcutLinked(filterPoints(ear), triangles, dim, minX, minY, invSize, 1);\n\n // if this didn't work, try curing all small self-intersections locally\n } else if (pass === 1) {\n ear = cureLocalIntersections(filterPoints(ear), triangles);\n earcutLinked(ear, triangles, dim, minX, minY, invSize, 2);\n\n // as a last resort, try splitting the remaining polygon into two\n } else if (pass === 2) {\n splitEarcut(ear, triangles, dim, minX, minY, invSize);\n }\n\n break;\n }\n }\n}\n\n// check whether a polygon node forms a valid ear with adjacent nodes\nfunction isEar(ear) {\n const a = ear.prev,\n b = ear,\n c = ear.next;\n\n if (area(a, b, c) >= 0) return false; // reflex, can't be an ear\n\n // now make sure we don't have other points inside the potential ear\n const ax = a.x, bx = b.x, cx = c.x, ay = a.y, by = b.y, cy = c.y;\n\n // triangle bbox\n const x0 = Math.min(ax, bx, cx),\n y0 = Math.min(ay, by, cy),\n x1 = Math.max(ax, bx, cx),\n y1 = Math.max(ay, by, cy);\n\n let p = c.next;\n while (p !== a) {\n if (p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, p.x, p.y) &&\n area(p.prev, p, p.next) >= 0) return false;\n p = p.next;\n }\n\n return true;\n}\n\nfunction isEarHashed(ear, minX, minY, invSize) {\n const a = ear.prev,\n b = ear,\n c = ear.next;\n\n if (area(a, b, c) >= 0) return false; // reflex, can't be an ear\n\n const ax = a.x, bx = b.x, cx = c.x, ay = a.y, by = b.y, cy = c.y;\n\n // triangle bbox\n const x0 = Math.min(ax, bx, cx),\n y0 = Math.min(ay, by, cy),\n x1 = Math.max(ax, bx, cx),\n y1 = Math.max(ay, by, cy);\n\n // z-order range for the current triangle bbox;\n const minZ = zOrder(x0, y0, minX, minY, invSize),\n maxZ = zOrder(x1, y1, minX, minY, invSize);\n\n let p = ear.prevZ,\n n = ear.nextZ;\n\n // look for points inside the triangle in both directions\n while (p && p.z >= minZ && n && n.z <= maxZ) {\n if (p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 && p !== a && p !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, p.x, p.y) && area(p.prev, p, p.next) >= 0) return false;\n p = p.prevZ;\n\n if (n.x >= x0 && n.x <= x1 && n.y >= y0 && n.y <= y1 && n !== a && n !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, n.x, n.y) && area(n.prev, n, n.next) >= 0) return false;\n n = n.nextZ;\n }\n\n // look for remaining points in decreasing z-order\n while (p && p.z >= minZ) {\n if (p.x >= x0 && p.x <= x1 && p.y >= y0 && p.y <= y1 && p !== a && p !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, p.x, p.y) && area(p.prev, p, p.next) >= 0) return false;\n p = p.prevZ;\n }\n\n // look for remaining points in increasing z-order\n while (n && n.z <= maxZ) {\n if (n.x >= x0 && n.x <= x1 && n.y >= y0 && n.y <= y1 && n !== a && n !== c &&\n pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, n.x, n.y) && area(n.prev, n, n.next) >= 0) return false;\n n = n.nextZ;\n }\n\n return true;\n}\n\n// go through all polygon nodes and cure small local self-intersections\nfunction cureLocalIntersections(start, triangles) {\n let p = start;\n do {\n const a = p.prev,\n b = p.next.next;\n\n if (!equals(a, b) && intersects(a, p, p.next, b) && locallyInside(a, b) && locallyInside(b, a)) {\n\n triangles.push(a.i, p.i, b.i);\n\n // remove two nodes involved\n removeNode(p);\n removeNode(p.next);\n\n p = start = b;\n }\n p = p.next;\n } while (p !== start);\n\n return filterPoints(p);\n}\n\n// try splitting polygon into two and triangulate them independently\nfunction splitEarcut(start, triangles, dim, minX, minY, invSize) {\n // look for a valid diagonal that divides the polygon into two\n let a = start;\n do {\n let b = a.next.next;\n while (b !== a.prev) {\n if (a.i !== b.i && isValidDiagonal(a, b)) {\n // split the polygon in two by the diagonal\n let c = splitPolygon(a, b);\n\n // filter colinear points around the cuts\n a = filterPoints(a, a.next);\n c = filterPoints(c, c.next);\n\n // run earcut on each half\n earcutLinked(a, triangles, dim, minX, minY, invSize, 0);\n earcutLinked(c, triangles, dim, minX, minY, invSize, 0);\n return;\n }\n b = b.next;\n }\n a = a.next;\n } while (a !== start);\n}\n\n// link every hole into the outer loop, producing a single-ring polygon without holes\nfunction eliminateHoles(data, holeIndices, outerNode, dim) {\n const queue = [];\n\n for (let i = 0, len = holeIndices.length; i < len; i++) {\n const start = holeIndices[i] * dim;\n const end = i < len - 1 ? holeIndices[i + 1] * dim : data.length;\n const list = linkedList(data, start, end, dim, false);\n if (list === list.next) list.steiner = true;\n queue.push(getLeftmost(list));\n }\n\n queue.sort(compareXYSlope);\n\n // process holes from left to right\n for (let i = 0; i < queue.length; i++) {\n outerNode = eliminateHole(queue[i], outerNode);\n }\n\n return outerNode;\n}\n\nfunction compareXYSlope(a, b) {\n let result = a.x - b.x;\n // when the left-most point of 2 holes meet at a vertex, sort the holes counterclockwise so that when we find\n // the bridge to the outer shell is always the point that they meet at.\n if (result === 0) {\n result = a.y - b.y;\n if (result === 0) {\n const aSlope = (a.next.y - a.y) / (a.next.x - a.x);\n const bSlope = (b.next.y - b.y) / (b.next.x - b.x);\n result = aSlope - bSlope;\n }\n }\n return result;\n}\n\n// find a bridge between vertices that connects hole with an outer ring and and link it\nfunction eliminateHole(hole, outerNode) {\n const bridge = findHoleBridge(hole, outerNode);\n if (!bridge) {\n return outerNode;\n }\n\n const bridgeReverse = splitPolygon(bridge, hole);\n\n // filter collinear points around the cuts\n filterPoints(bridgeReverse, bridgeReverse.next);\n return filterPoints(bridge, bridge.next);\n}\n\n// David Eberly's algorithm for finding a bridge between hole and outer polygon\nfunction findHoleBridge(hole, outerNode) {\n let p = outerNode;\n const hx = hole.x;\n const hy = hole.y;\n let qx = -Infinity;\n let m;\n\n // find a segment intersected by a ray from the hole's leftmost point to the left;\n // segment's endpoint with lesser x will be potential connection point\n // unless they intersect at a vertex, then choose the vertex\n if (equals(hole, p)) return p;\n do {\n if (equals(hole, p.next)) return p.next;\n else if (hy <= p.y && hy >= p.next.y && p.next.y !== p.y) {\n const x = p.x + (hy - p.y) * (p.next.x - p.x) / (p.next.y - p.y);\n if (x <= hx && x > qx) {\n qx = x;\n m = p.x < p.next.x ? p : p.next;\n if (x === hx) return m; // hole touches outer segment; pick leftmost endpoint\n }\n }\n p = p.next;\n } while (p !== outerNode);\n\n if (!m) return null;\n\n // look for points inside the triangle of hole point, segment intersection and endpoint;\n // if there are no points found, we have a valid connection;\n // otherwise choose the point of the minimum angle with the ray as connection point\n\n const stop = m;\n const mx = m.x;\n const my = m.y;\n let tanMin = Infinity;\n\n p = m;\n\n do {\n if (hx >= p.x && p.x >= mx && hx !== p.x &&\n pointInTriangle(hy < my ? hx : qx, hy, mx, my, hy < my ? qx : hx, hy, p.x, p.y)) {\n\n const tan = Math.abs(hy - p.y) / (hx - p.x); // tangential\n\n if (locallyInside(p, hole) &&\n (tan < tanMin || (tan === tanMin && (p.x > m.x || (p.x === m.x && sectorContainsSector(m, p)))))) {\n m = p;\n tanMin = tan;\n }\n }\n\n p = p.next;\n } while (p !== stop);\n\n return m;\n}\n\n// whether sector in vertex m contains sector in vertex p in the same coordinates\nfunction sectorContainsSector(m, p) {\n return area(m.prev, m, p.prev) < 0 && area(p.next, m, m.next) < 0;\n}\n\n// interlink polygon nodes in z-order\nfunction indexCurve(start, minX, minY, invSize) {\n let p = start;\n do {\n if (p.z === 0) p.z = zOrder(p.x, p.y, minX, minY, invSize);\n p.prevZ = p.prev;\n p.nextZ = p.next;\n p = p.next;\n } while (p !== start);\n\n p.prevZ.nextZ = null;\n p.prevZ = null;\n\n sortLinked(p);\n}\n\n// Simon Tatham's linked list merge sort algorithm\n// http://www.chiark.greenend.org.uk/~sgtatham/algorithms/listsort.html\nfunction sortLinked(list) {\n let numMerges;\n let inSize = 1;\n\n do {\n let p = list;\n let e;\n list = null;\n let tail = null;\n numMerges = 0;\n\n while (p) {\n numMerges++;\n let q = p;\n let pSize = 0;\n for (let i = 0; i < inSize; i++) {\n pSize++;\n q = q.nextZ;\n if (!q) break;\n }\n let qSize = inSize;\n\n while (pSize > 0 || (qSize > 0 && q)) {\n\n if (pSize !== 0 && (qSize === 0 || !q || p.z <= q.z)) {\n e = p;\n p = p.nextZ;\n pSize--;\n } else {\n e = q;\n q = q.nextZ;\n qSize--;\n }\n\n if (tail) tail.nextZ = e;\n else list = e;\n\n e.prevZ = tail;\n tail = e;\n }\n\n p = q;\n }\n\n tail.nextZ = null;\n inSize *= 2;\n\n } while (numMerges > 1);\n\n return list;\n}\n\n// z-order of a point given coords and inverse of the longer side of data bbox\nfunction zOrder(x, y, minX, minY, invSize) {\n // coords are transformed into non-negative 15-bit integer range\n x = (x - minX) * invSize | 0;\n y = (y - minY) * invSize | 0;\n\n x = (x | (x << 8)) & 0x00FF00FF;\n x = (x | (x << 4)) & 0x0F0F0F0F;\n x = (x | (x << 2)) & 0x33333333;\n x = (x | (x << 1)) & 0x55555555;\n\n y = (y | (y << 8)) & 0x00FF00FF;\n y = (y | (y << 4)) & 0x0F0F0F0F;\n y = (y | (y << 2)) & 0x33333333;\n y = (y | (y << 1)) & 0x55555555;\n\n return x | (y << 1);\n}\n\n// find the leftmost node of a polygon ring\nfunction getLeftmost(start) {\n let p = start,\n leftmost = start;\n do {\n if (p.x < leftmost.x || (p.x === leftmost.x && p.y < leftmost.y)) leftmost = p;\n p = p.next;\n } while (p !== start);\n\n return leftmost;\n}\n\n// check if a point lies within a convex triangle\nfunction pointInTriangle(ax, ay, bx, by, cx, cy, px, py) {\n return (cx - px) * (ay - py) >= (ax - px) * (cy - py) &&\n (ax - px) * (by - py) >= (bx - px) * (ay - py) &&\n (bx - px) * (cy - py) >= (cx - px) * (by - py);\n}\n\n// check if a point lies within a convex triangle but false if its equal to the first point of the triangle\nfunction pointInTriangleExceptFirst(ax, ay, bx, by, cx, cy, px, py) {\n return !(ax === px && ay === py) && pointInTriangle(ax, ay, bx, by, cx, cy, px, py);\n}\n\n// check if a diagonal between two polygon nodes is valid (lies in polygon interior)\nfunction isValidDiagonal(a, b) {\n return a.next.i !== b.i && a.prev.i !== b.i && !intersectsPolygon(a, b) && // doesn't intersect other edges\n (locallyInside(a, b) && locallyInside(b, a) && middleInside(a, b) && // locally visible\n (area(a.prev, a, b.prev) || area(a, b.prev, b)) || // does not create opposite-facing sectors\n equals(a, b) && area(a.prev, a, a.next) > 0 && area(b.prev, b, b.next) > 0); // special zero-length case\n}\n\n// signed area of a triangle\nfunction area(p, q, r) {\n return (q.y - p.y) * (r.x - q.x) - (q.x - p.x) * (r.y - q.y);\n}\n\n// check if two points are equal\nfunction equals(p1, p2) {\n return p1.x === p2.x && p1.y === p2.y;\n}\n\n// check if two segments intersect\nfunction intersects(p1, q1, p2, q2) {\n const o1 = sign(area(p1, q1, p2));\n const o2 = sign(area(p1, q1, q2));\n const o3 = sign(area(p2, q2, p1));\n const o4 = sign(area(p2, q2, q1));\n\n if (o1 !== o2 && o3 !== o4) return true; // general case\n\n if (o1 === 0 && onSegment(p1, p2, q1)) return true; // p1, q1 and p2 are collinear and p2 lies on p1q1\n if (o2 === 0 && onSegment(p1, q2, q1)) return true; // p1, q1 and q2 are collinear and q2 lies on p1q1\n if (o3 === 0 && onSegment(p2, p1, q2)) return true; // p2, q2 and p1 are collinear and p1 lies on p2q2\n if (o4 === 0 && onSegment(p2, q1, q2)) return true; // p2, q2 and q1 are collinear and q1 lies on p2q2\n\n return false;\n}\n\n// for collinear points p, q, r, check if point q lies on segment pr\nfunction onSegment(p, q, r) {\n return q.x <= Math.max(p.x, r.x) && q.x >= Math.min(p.x, r.x) && q.y <= Math.max(p.y, r.y) && q.y >= Math.min(p.y, r.y);\n}\n\nfunction sign(num) {\n return num > 0 ? 1 : num < 0 ? -1 : 0;\n}\n\n// check if a polygon diagonal intersects any polygon segments\nfunction intersectsPolygon(a, b) {\n let p = a;\n do {\n if (p.i !== a.i && p.next.i !== a.i && p.i !== b.i && p.next.i !== b.i &&\n intersects(p, p.next, a, b)) return true;\n p = p.next;\n } while (p !== a);\n\n return false;\n}\n\n// check if a polygon diagonal is locally inside the polygon\nfunction locallyInside(a, b) {\n return area(a.prev, a, a.next) < 0 ?\n area(a, b, a.next) >= 0 && area(a, a.prev, b) >= 0 :\n area(a, b, a.prev) < 0 || area(a, a.next, b) < 0;\n}\n\n// check if the middle point of a polygon diagonal is inside the polygon\nfunction middleInside(a, b) {\n let p = a;\n let inside = false;\n const px = (a.x + b.x) / 2;\n const py = (a.y + b.y) / 2;\n do {\n if (((p.y > py) !== (p.next.y > py)) && p.next.y !== p.y &&\n (px < (p.next.x - p.x) * (py - p.y) / (p.next.y - p.y) + p.x))\n inside = !inside;\n p = p.next;\n } while (p !== a);\n\n return inside;\n}\n\n// link two polygon vertices with a bridge; if the vertices belong to the same ring, it splits polygon into two;\n// if one belongs to the outer ring and another to a hole, it merges it into a single ring\nfunction splitPolygon(a, b) {\n const a2 = createNode(a.i, a.x, a.y),\n b2 = createNode(b.i, b.x, b.y),\n an = a.next,\n bp = b.prev;\n\n a.next = b;\n b.prev = a;\n\n a2.next = an;\n an.prev = a2;\n\n b2.next = a2;\n a2.prev = b2;\n\n bp.next = b2;\n b2.prev = bp;\n\n return b2;\n}\n\n// create a node and optionally link it with previous one (in a circular doubly linked list)\nfunction insertNode(i, x, y, last) {\n const p = createNode(i, x, y);\n\n if (!last) {\n p.prev = p;\n p.next = p;\n\n } else {\n p.next = last.next;\n p.prev = last;\n last.next.prev = p;\n last.next = p;\n }\n return p;\n}\n\nfunction removeNode(p) {\n p.next.prev = p.prev;\n p.prev.next = p.next;\n\n if (p.prevZ) p.prevZ.nextZ = p.nextZ;\n if (p.nextZ) p.nextZ.prevZ = p.prevZ;\n}\n\nfunction createNode(i, x, y) {\n return {\n i, // vertex index in coordinates array\n x, y, // vertex coordinates\n prev: null, // previous and next vertex nodes in a polygon ring\n next: null,\n z: 0, // z-order curve value\n prevZ: null, // previous and next nodes in z-order\n nextZ: null,\n steiner: false // indicates whether this is a steiner point\n };\n}\n\nfunction signedArea(data, start, end, dim) {\n let sum = 0;\n for (let i = start, j = end - dim; i < end; i += dim) {\n sum += (data[j] - data[i]) * (data[i + 1] + data[j + 1]);\n j = i;\n }\n return sum;\n}\n\nclass Earcut {\n\n\t/**\n\t * Triangulates the given shape definition by returning an array of triangles.\n\t *\n\t * @param {Array} data - An array with 2D points.\n\t * @param {Array} holeIndices - An array with indices defining holes.\n\t * @param {number} [dim=2] - The number of coordinates per vertex in the input array.\n\t * @return {Array} An array representing the triangulated faces. Each face is defined by three consecutive numbers\n\t * representing vertex indices.\n\t */\n\tstatic triangulate( data, holeIndices, dim = 2 ) {\n\n\t\treturn earcut( data, holeIndices, dim );\n\n\t}\n\n}\n\n/**\n * A class containing utility functions for shapes.\n *\n * @hideconstructor\n */\nclass ShapeUtils {\n\n\t/**\n\t * Calculate area of a ( 2D ) contour polygon.\n\t *\n\t * @param {Array} contour - An array of 2D points.\n\t * @return {number} The area.\n\t */\n\tstatic area( contour ) {\n\n\t\tconst n = contour.length;\n\t\tlet a = 0.0;\n\n\t\tfor ( let p = n - 1, q = 0; q < n; p = q ++ ) {\n\n\t\t\ta += contour[ p ].x * contour[ q ].y - contour[ q ].x * contour[ p ].y;\n\n\t\t}\n\n\t\treturn a * 0.5;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given contour uses a clockwise winding order.\n\t *\n\t * @param {Array} pts - An array of 2D points defining a polygon.\n\t * @return {boolean} Whether the given contour uses a clockwise winding order or not.\n\t */\n\tstatic isClockWise( pts ) {\n\n\t\treturn ShapeUtils.area( pts ) < 0;\n\n\t}\n\n\t/**\n\t * Triangulates the given shape definition.\n\t *\n\t * @param {Array} contour - An array of 2D points defining the contour.\n\t * @param {Array>} holes - An array that holds arrays of 2D points defining the holes.\n\t * @return {Array>} An array that holds for each face definition an array with three indices.\n\t */\n\tstatic triangulateShape( contour, holes ) {\n\n\t\tconst vertices = []; // flat array of vertices like [ x0,y0, x1,y1, x2,y2, ... ]\n\t\tconst holeIndices = []; // array of hole indices\n\t\tconst faces = []; // final array of vertex indices like [ [ a,b,d ], [ b,c,d ] ]\n\n\t\tremoveDupEndPts( contour );\n\t\taddContour( vertices, contour );\n\n\t\t//\n\n\t\tlet holeIndex = contour.length;\n\n\t\tholes.forEach( removeDupEndPts );\n\n\t\tfor ( let i = 0; i < holes.length; i ++ ) {\n\n\t\t\tholeIndices.push( holeIndex );\n\t\t\tholeIndex += holes[ i ].length;\n\t\t\taddContour( vertices, holes[ i ] );\n\n\t\t}\n\n\t\t//\n\n\t\tconst triangles = Earcut.triangulate( vertices, holeIndices );\n\n\t\t//\n\n\t\tfor ( let i = 0; i < triangles.length; i += 3 ) {\n\n\t\t\tfaces.push( triangles.slice( i, i + 3 ) );\n\n\t\t}\n\n\t\treturn faces;\n\n\t}\n\n}\n\nfunction removeDupEndPts( points ) {\n\n\tconst l = points.length;\n\n\tif ( l > 2 && points[ l - 1 ].equals( points[ 0 ] ) ) {\n\n\t\tpoints.pop();\n\n\t}\n\n}\n\nfunction addContour( vertices, contour ) {\n\n\tfor ( let i = 0; i < contour.length; i ++ ) {\n\n\t\tvertices.push( contour[ i ].x );\n\t\tvertices.push( contour[ i ].y );\n\n\t}\n\n}\n\n/**\n * Creates extruded geometry from a path shape.\n *\n * ```js\n * const length = 12, width = 8;\n *\n * const shape = new THREE.Shape();\n * shape.moveTo( 0,0 );\n * shape.lineTo( 0, width );\n * shape.lineTo( length, width );\n * shape.lineTo( length, 0 );\n * shape.lineTo( 0, 0 );\n *\n * const geometry = new THREE.ExtrudeGeometry( shape );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const mesh = new THREE.Mesh( geometry, material ) ;\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass ExtrudeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new extrude geometry.\n\t *\n\t * @param {Shape|Array} [shapes] - A shape or an array of shapes.\n\t * @param {ExtrudeGeometry~Options} [options] - The extrude settings.\n\t */\n\tconstructor( shapes = new Shape( [ new Vector2( 0.5, 0.5 ), new Vector2( -0.5, 0.5 ), new Vector2( -0.5, -0.5 ), new Vector2( 0.5, -0.5 ) ] ), options = {} ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'ExtrudeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tshapes: shapes,\n\t\t\toptions: options\n\t\t};\n\n\t\tshapes = Array.isArray( shapes ) ? shapes : [ shapes ];\n\n\t\tconst scope = this;\n\n\t\tconst verticesArray = [];\n\t\tconst uvArray = [];\n\n\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\tconst shape = shapes[ i ];\n\t\t\taddShape( shape );\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( verticesArray, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvArray, 2 ) );\n\n\t\tthis.computeVertexNormals();\n\n\t\t// functions\n\n\t\tfunction addShape( shape ) {\n\n\t\t\tconst placeholder = [];\n\n\t\t\t// options\n\n\t\t\tconst curveSegments = options.curveSegments !== undefined ? options.curveSegments : 12;\n\t\t\tconst steps = options.steps !== undefined ? options.steps : 1;\n\t\t\tconst depth = options.depth !== undefined ? options.depth : 1;\n\n\t\t\tlet bevelEnabled = options.bevelEnabled !== undefined ? options.bevelEnabled : true;\n\t\t\tlet bevelThickness = options.bevelThickness !== undefined ? options.bevelThickness : 0.2;\n\t\t\tlet bevelSize = options.bevelSize !== undefined ? options.bevelSize : bevelThickness - 0.1;\n\t\t\tlet bevelOffset = options.bevelOffset !== undefined ? options.bevelOffset : 0;\n\t\t\tlet bevelSegments = options.bevelSegments !== undefined ? options.bevelSegments : 3;\n\n\t\t\tconst extrudePath = options.extrudePath;\n\n\t\t\tconst uvgen = options.UVGenerator !== undefined ? options.UVGenerator : WorldUVGenerator;\n\n\t\t\t//\n\n\t\t\tlet extrudePts, extrudeByPath = false;\n\t\t\tlet splineTube, binormal, normal, position2;\n\n\t\t\tif ( extrudePath ) {\n\n\t\t\t\textrudePts = extrudePath.getSpacedPoints( steps );\n\n\t\t\t\textrudeByPath = true;\n\t\t\t\tbevelEnabled = false; // bevels not supported for path extrusion\n\n\t\t\t\t// SETUP TNB variables\n\n\t\t\t\t// TODO1 - have a .isClosed in spline?\n\n\t\t\t\tsplineTube = extrudePath.computeFrenetFrames( steps, false );\n\n\t\t\t\t// console.log(splineTube, 'splineTube', splineTube.normals.length, 'steps', steps, 'extrudePts', extrudePts.length);\n\n\t\t\t\tbinormal = new Vector3();\n\t\t\t\tnormal = new Vector3();\n\t\t\t\tposition2 = new Vector3();\n\n\t\t\t}\n\n\t\t\t// Safeguards if bevels are not enabled\n\n\t\t\tif ( ! bevelEnabled ) {\n\n\t\t\t\tbevelSegments = 0;\n\t\t\t\tbevelThickness = 0;\n\t\t\t\tbevelSize = 0;\n\t\t\t\tbevelOffset = 0;\n\n\t\t\t}\n\n\t\t\t// Variables initialization\n\n\t\t\tconst shapePoints = shape.extractPoints( curveSegments );\n\n\t\t\tlet vertices = shapePoints.shape;\n\t\t\tconst holes = shapePoints.holes;\n\n\t\t\tconst reverse = ! ShapeUtils.isClockWise( vertices );\n\n\t\t\tif ( reverse ) {\n\n\t\t\t\tvertices = vertices.reverse();\n\n\t\t\t\t// Maybe we should also check if holes are in the opposite direction, just to be safe ...\n\n\t\t\t\tfor ( let h = 0, hl = holes.length; h < hl; h ++ ) {\n\n\t\t\t\t\tconst ahole = holes[ h ];\n\n\t\t\t\t\tif ( ShapeUtils.isClockWise( ahole ) ) {\n\n\t\t\t\t\t\tholes[ h ] = ahole.reverse();\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t/**Merges index-adjacent points that are within a threshold distance of each other. Array is modified in-place. Threshold distance is empirical, and scaled based on the magnitude of point coordinates.\n\t\t\t * @param {Array} points\n\t\t\t*/\n\t\t\tfunction mergeOverlappingPoints( points ) {\n\n\t\t\t\tconst THRESHOLD = 1e-10;\n\t\t\t\tconst THRESHOLD_SQ = THRESHOLD * THRESHOLD;\n\t\t\t\tlet prevPos = points[ 0 ];\n\t\t\t\tfor ( let i = 1; i <= points.length; i ++ ) {\n\n\t\t\t\t\tconst currentIndex = i % points.length;\n\t\t\t\t\tconst currentPos = points[ currentIndex ];\n\t\t\t\t\tconst dx = currentPos.x - prevPos.x;\n\t\t\t\t\tconst dy = currentPos.y - prevPos.y;\n\t\t\t\t\tconst distSq = dx * dx + dy * dy;\n\n\t\t\t\t\tconst scalingFactorSqrt = Math.max(\n\t\t\t\t\t\tMath.abs( currentPos.x ),\n\t\t\t\t\t\tMath.abs( currentPos.y ),\n\t\t\t\t\t\tMath.abs( prevPos.x ),\n\t\t\t\t\t\tMath.abs( prevPos.y )\n\t\t\t\t\t);\n\t\t\t\t\tconst thresholdSqScaled = THRESHOLD_SQ * scalingFactorSqrt * scalingFactorSqrt;\n\t\t\t\t\tif ( distSq <= thresholdSqScaled ) {\n\n\t\t\t\t\t\tpoints.splice( currentIndex, 1 );\n\t\t\t\t\t\ti --;\n\t\t\t\t\t\tcontinue;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tprevPos = currentPos;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tmergeOverlappingPoints( vertices );\n\t\t\tholes.forEach( mergeOverlappingPoints );\n\n\t\t\tconst numHoles = holes.length;\n\n\t\t\t/* Vertices */\n\n\t\t\tconst contour = vertices; // vertices has all points but contour has only points of circumference\n\n\t\t\tfor ( let h = 0; h < numHoles; h ++ ) {\n\n\t\t\t\tconst ahole = holes[ h ];\n\n\t\t\t\tvertices = vertices.concat( ahole );\n\n\t\t\t}\n\n\n\t\t\tfunction scalePt2( pt, vec, size ) {\n\n\t\t\t\tif ( ! vec ) console.error( 'THREE.ExtrudeGeometry: vec does not exist' );\n\n\t\t\t\treturn pt.clone().addScaledVector( vec, size );\n\n\t\t\t}\n\n\t\t\tconst vlen = vertices.length;\n\n\n\t\t\t// Find directions for point movement\n\n\n\t\t\tfunction getBevelVec( inPt, inPrev, inNext ) {\n\n\t\t\t\t// computes for inPt the corresponding point inPt' on a new contour\n\t\t\t\t// shifted by 1 unit (length of normalized vector) to the left\n\t\t\t\t// if we walk along contour clockwise, this new contour is outside the old one\n\t\t\t\t//\n\t\t\t\t// inPt' is the intersection of the two lines parallel to the two\n\t\t\t\t// adjacent edges of inPt at a distance of 1 unit on the left side.\n\n\t\t\t\tlet v_trans_x, v_trans_y, shrink_by; // resulting translation vector for inPt\n\n\t\t\t\t// good reading for geometry algorithms (here: line-line intersection)\n\t\t\t\t// http://geomalgorithms.com/a05-_intersect-1.html\n\n\t\t\t\tconst v_prev_x = inPt.x - inPrev.x,\n\t\t\t\t\tv_prev_y = inPt.y - inPrev.y;\n\t\t\t\tconst v_next_x = inNext.x - inPt.x,\n\t\t\t\t\tv_next_y = inNext.y - inPt.y;\n\n\t\t\t\tconst v_prev_lensq = ( v_prev_x * v_prev_x + v_prev_y * v_prev_y );\n\n\t\t\t\t// check for collinear edges\n\t\t\t\tconst collinear0 = ( v_prev_x * v_next_y - v_prev_y * v_next_x );\n\n\t\t\t\tif ( Math.abs( collinear0 ) > Number.EPSILON ) {\n\n\t\t\t\t\t// not collinear\n\n\t\t\t\t\t// length of vectors for normalizing\n\n\t\t\t\t\tconst v_prev_len = Math.sqrt( v_prev_lensq );\n\t\t\t\t\tconst v_next_len = Math.sqrt( v_next_x * v_next_x + v_next_y * v_next_y );\n\n\t\t\t\t\t// shift adjacent points by unit vectors to the left\n\n\t\t\t\t\tconst ptPrevShift_x = ( inPrev.x - v_prev_y / v_prev_len );\n\t\t\t\t\tconst ptPrevShift_y = ( inPrev.y + v_prev_x / v_prev_len );\n\n\t\t\t\t\tconst ptNextShift_x = ( inNext.x - v_next_y / v_next_len );\n\t\t\t\t\tconst ptNextShift_y = ( inNext.y + v_next_x / v_next_len );\n\n\t\t\t\t\t// scaling factor for v_prev to intersection point\n\n\t\t\t\t\tconst sf = ( ( ptNextShift_x - ptPrevShift_x ) * v_next_y -\n\t\t\t\t\t\t\t( ptNextShift_y - ptPrevShift_y ) * v_next_x ) /\n\t\t\t\t\t\t( v_prev_x * v_next_y - v_prev_y * v_next_x );\n\n\t\t\t\t\t// vector from inPt to intersection point\n\n\t\t\t\t\tv_trans_x = ( ptPrevShift_x + v_prev_x * sf - inPt.x );\n\t\t\t\t\tv_trans_y = ( ptPrevShift_y + v_prev_y * sf - inPt.y );\n\n\t\t\t\t\t// Don't normalize!, otherwise sharp corners become ugly\n\t\t\t\t\t// but prevent crazy spikes\n\t\t\t\t\tconst v_trans_lensq = ( v_trans_x * v_trans_x + v_trans_y * v_trans_y );\n\t\t\t\t\tif ( v_trans_lensq <= 2 ) {\n\n\t\t\t\t\t\treturn new Vector2( v_trans_x, v_trans_y );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tshrink_by = Math.sqrt( v_trans_lensq / 2 );\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// handle special case of collinear edges\n\n\t\t\t\t\tlet direction_eq = false; // assumes: opposite\n\n\t\t\t\t\tif ( v_prev_x > Number.EPSILON ) {\n\n\t\t\t\t\t\tif ( v_next_x > Number.EPSILON ) {\n\n\t\t\t\t\t\t\tdirection_eq = true;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tif ( v_prev_x < - Number.EPSILON ) {\n\n\t\t\t\t\t\t\tif ( v_next_x < - Number.EPSILON ) {\n\n\t\t\t\t\t\t\t\tdirection_eq = true;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tif ( Math.sign( v_prev_y ) === Math.sign( v_next_y ) ) {\n\n\t\t\t\t\t\t\t\tdirection_eq = true;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( direction_eq ) {\n\n\t\t\t\t\t\t// console.log(\"Warning: lines are a straight sequence\");\n\t\t\t\t\t\tv_trans_x = - v_prev_y;\n\t\t\t\t\t\tv_trans_y = v_prev_x;\n\t\t\t\t\t\tshrink_by = Math.sqrt( v_prev_lensq );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// console.log(\"Warning: lines are a straight spike\");\n\t\t\t\t\t\tv_trans_x = v_prev_x;\n\t\t\t\t\t\tv_trans_y = v_prev_y;\n\t\t\t\t\t\tshrink_by = Math.sqrt( v_prev_lensq / 2 );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\treturn new Vector2( v_trans_x / shrink_by, v_trans_y / shrink_by );\n\n\t\t\t}\n\n\n\t\t\tconst contourMovements = [];\n\n\t\t\tfor ( let i = 0, il = contour.length, j = il - 1, k = i + 1; i < il; i ++, j ++, k ++ ) {\n\n\t\t\t\tif ( j === il ) j = 0;\n\t\t\t\tif ( k === il ) k = 0;\n\n\t\t\t\t// (j)---(i)---(k)\n\t\t\t\t// console.log('i,j,k', i, j , k)\n\n\t\t\t\tcontourMovements[ i ] = getBevelVec( contour[ i ], contour[ j ], contour[ k ] );\n\n\t\t\t}\n\n\t\t\tconst holesMovements = [];\n\t\t\tlet oneHoleMovements, verticesMovements = contourMovements.concat();\n\n\t\t\tfor ( let h = 0, hl = numHoles; h < hl; h ++ ) {\n\n\t\t\t\tconst ahole = holes[ h ];\n\n\t\t\t\toneHoleMovements = [];\n\n\t\t\t\tfor ( let i = 0, il = ahole.length, j = il - 1, k = i + 1; i < il; i ++, j ++, k ++ ) {\n\n\t\t\t\t\tif ( j === il ) j = 0;\n\t\t\t\t\tif ( k === il ) k = 0;\n\n\t\t\t\t\t// (j)---(i)---(k)\n\t\t\t\t\toneHoleMovements[ i ] = getBevelVec( ahole[ i ], ahole[ j ], ahole[ k ] );\n\n\t\t\t\t}\n\n\t\t\t\tholesMovements.push( oneHoleMovements );\n\t\t\t\tverticesMovements = verticesMovements.concat( oneHoleMovements );\n\n\t\t\t}\n\n\t\t\tlet faces;\n\n\t\t\tif ( bevelSegments === 0 ) {\n\n\t\t\t\tfaces = ShapeUtils.triangulateShape( contour, holes );\n\n\t\t\t} else {\n\n\t\t\t\tconst contractedContourVertices = [];\n\t\t\t\tconst expandedHoleVertices = [];\n\n\t\t\t\t// Loop bevelSegments, 1 for the front, 1 for the back\n\n\t\t\t\tfor ( let b = 0; b < bevelSegments; b ++ ) {\n\n\t\t\t\t\t//for ( b = bevelSegments; b > 0; b -- ) {\n\n\t\t\t\t\tconst t = b / bevelSegments;\n\t\t\t\t\tconst z = bevelThickness * Math.cos( t * Math.PI / 2 );\n\t\t\t\t\tconst bs = bevelSize * Math.sin( t * Math.PI / 2 ) + bevelOffset;\n\n\t\t\t\t\t// contract shape\n\n\t\t\t\t\tfor ( let i = 0, il = contour.length; i < il; i ++ ) {\n\n\t\t\t\t\t\tconst vert = scalePt2( contour[ i ], contourMovements[ i ], bs );\n\n\t\t\t\t\t\tv( vert.x, vert.y, - z );\n\t\t\t\t\t\tif ( t === 0 ) contractedContourVertices.push( vert );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// expand holes\n\n\t\t\t\t\tfor ( let h = 0, hl = numHoles; h < hl; h ++ ) {\n\n\t\t\t\t\t\tconst ahole = holes[ h ];\n\t\t\t\t\t\toneHoleMovements = holesMovements[ h ];\n\t\t\t\t\t\tconst oneHoleVertices = [];\n\t\t\t\t\t\tfor ( let i = 0, il = ahole.length; i < il; i ++ ) {\n\n\t\t\t\t\t\t\tconst vert = scalePt2( ahole[ i ], oneHoleMovements[ i ], bs );\n\n\t\t\t\t\t\t\tv( vert.x, vert.y, - z );\n\t\t\t\t\t\t\tif ( t === 0 ) oneHoleVertices.push( vert );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tif ( t === 0 ) expandedHoleVertices.push( oneHoleVertices );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tfaces = ShapeUtils.triangulateShape( contractedContourVertices, expandedHoleVertices );\n\n\t\t\t}\n\n\t\t\tconst flen = faces.length;\n\n\t\t\tconst bs = bevelSize + bevelOffset;\n\n\t\t\t// Back facing vertices\n\n\t\t\tfor ( let i = 0; i < vlen; i ++ ) {\n\n\t\t\t\tconst vert = bevelEnabled ? scalePt2( vertices[ i ], verticesMovements[ i ], bs ) : vertices[ i ];\n\n\t\t\t\tif ( ! extrudeByPath ) {\n\n\t\t\t\t\tv( vert.x, vert.y, 0 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// v( vert.x, vert.y + extrudePts[ 0 ].y, extrudePts[ 0 ].x );\n\n\t\t\t\t\tnormal.copy( splineTube.normals[ 0 ] ).multiplyScalar( vert.x );\n\t\t\t\t\tbinormal.copy( splineTube.binormals[ 0 ] ).multiplyScalar( vert.y );\n\n\t\t\t\t\tposition2.copy( extrudePts[ 0 ] ).add( normal ).add( binormal );\n\n\t\t\t\t\tv( position2.x, position2.y, position2.z );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// Add stepped vertices...\n\t\t\t// Including front facing vertices\n\n\t\t\tfor ( let s = 1; s <= steps; s ++ ) {\n\n\t\t\t\tfor ( let i = 0; i < vlen; i ++ ) {\n\n\t\t\t\t\tconst vert = bevelEnabled ? scalePt2( vertices[ i ], verticesMovements[ i ], bs ) : vertices[ i ];\n\n\t\t\t\t\tif ( ! extrudeByPath ) {\n\n\t\t\t\t\t\tv( vert.x, vert.y, depth / steps * s );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// v( vert.x, vert.y + extrudePts[ s - 1 ].y, extrudePts[ s - 1 ].x );\n\n\t\t\t\t\t\tnormal.copy( splineTube.normals[ s ] ).multiplyScalar( vert.x );\n\t\t\t\t\t\tbinormal.copy( splineTube.binormals[ s ] ).multiplyScalar( vert.y );\n\n\t\t\t\t\t\tposition2.copy( extrudePts[ s ] ).add( normal ).add( binormal );\n\n\t\t\t\t\t\tv( position2.x, position2.y, position2.z );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\n\t\t\t// Add bevel segments planes\n\n\t\t\t//for ( b = 1; b <= bevelSegments; b ++ ) {\n\t\t\tfor ( let b = bevelSegments - 1; b >= 0; b -- ) {\n\n\t\t\t\tconst t = b / bevelSegments;\n\t\t\t\tconst z = bevelThickness * Math.cos( t * Math.PI / 2 );\n\t\t\t\tconst bs = bevelSize * Math.sin( t * Math.PI / 2 ) + bevelOffset;\n\n\t\t\t\t// contract shape\n\n\t\t\t\tfor ( let i = 0, il = contour.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst vert = scalePt2( contour[ i ], contourMovements[ i ], bs );\n\t\t\t\t\tv( vert.x, vert.y, depth + z );\n\n\t\t\t\t}\n\n\t\t\t\t// expand holes\n\n\t\t\t\tfor ( let h = 0, hl = holes.length; h < hl; h ++ ) {\n\n\t\t\t\t\tconst ahole = holes[ h ];\n\t\t\t\t\toneHoleMovements = holesMovements[ h ];\n\n\t\t\t\t\tfor ( let i = 0, il = ahole.length; i < il; i ++ ) {\n\n\t\t\t\t\t\tconst vert = scalePt2( ahole[ i ], oneHoleMovements[ i ], bs );\n\n\t\t\t\t\t\tif ( ! extrudeByPath ) {\n\n\t\t\t\t\t\t\tv( vert.x, vert.y, depth + z );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tv( vert.x, vert.y + extrudePts[ steps - 1 ].y, extrudePts[ steps - 1 ].x + z );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t/* Faces */\n\n\t\t\t// Top and bottom faces\n\n\t\t\tbuildLidFaces();\n\n\t\t\t// Sides faces\n\n\t\t\tbuildSideFaces();\n\n\n\t\t\t///// Internal functions\n\n\t\t\tfunction buildLidFaces() {\n\n\t\t\t\tconst start = verticesArray.length / 3;\n\n\t\t\t\tif ( bevelEnabled ) {\n\n\t\t\t\t\tlet layer = 0; // steps + 1\n\t\t\t\t\tlet offset = vlen * layer;\n\n\t\t\t\t\t// Bottom faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 2 ] + offset, face[ 1 ] + offset, face[ 0 ] + offset );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tlayer = steps + bevelSegments * 2;\n\t\t\t\t\toffset = vlen * layer;\n\n\t\t\t\t\t// Top faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 0 ] + offset, face[ 1 ] + offset, face[ 2 ] + offset );\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// Bottom faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 2 ], face[ 1 ], face[ 0 ] );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// Top faces\n\n\t\t\t\t\tfor ( let i = 0; i < flen; i ++ ) {\n\n\t\t\t\t\t\tconst face = faces[ i ];\n\t\t\t\t\t\tf3( face[ 0 ] + vlen * steps, face[ 1 ] + vlen * steps, face[ 2 ] + vlen * steps );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tscope.addGroup( start, verticesArray.length / 3 - start, 0 );\n\n\t\t\t}\n\n\t\t\t// Create faces for the z-sides of the shape\n\n\t\t\tfunction buildSideFaces() {\n\n\t\t\t\tconst start = verticesArray.length / 3;\n\t\t\t\tlet layeroffset = 0;\n\t\t\t\tsidewalls( contour, layeroffset );\n\t\t\t\tlayeroffset += contour.length;\n\n\t\t\t\tfor ( let h = 0, hl = holes.length; h < hl; h ++ ) {\n\n\t\t\t\t\tconst ahole = holes[ h ];\n\t\t\t\t\tsidewalls( ahole, layeroffset );\n\n\t\t\t\t\t//, true\n\t\t\t\t\tlayeroffset += ahole.length;\n\n\t\t\t\t}\n\n\n\t\t\t\tscope.addGroup( start, verticesArray.length / 3 - start, 1 );\n\n\n\t\t\t}\n\n\t\t\tfunction sidewalls( contour, layeroffset ) {\n\n\t\t\t\tlet i = contour.length;\n\n\t\t\t\twhile ( -- i >= 0 ) {\n\n\t\t\t\t\tconst j = i;\n\t\t\t\t\tlet k = i - 1;\n\t\t\t\t\tif ( k < 0 ) k = contour.length - 1;\n\n\t\t\t\t\t//console.log('b', i,j, i-1, k,vertices.length);\n\n\t\t\t\t\tfor ( let s = 0, sl = ( steps + bevelSegments * 2 ); s < sl; s ++ ) {\n\n\t\t\t\t\t\tconst slen1 = vlen * s;\n\t\t\t\t\t\tconst slen2 = vlen * ( s + 1 );\n\n\t\t\t\t\t\tconst a = layeroffset + j + slen1,\n\t\t\t\t\t\t\tb = layeroffset + k + slen1,\n\t\t\t\t\t\t\tc = layeroffset + k + slen2,\n\t\t\t\t\t\t\td = layeroffset + j + slen2;\n\n\t\t\t\t\t\tf4( a, b, c, d );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tfunction v( x, y, z ) {\n\n\t\t\t\tplaceholder.push( x );\n\t\t\t\tplaceholder.push( y );\n\t\t\t\tplaceholder.push( z );\n\n\t\t\t}\n\n\n\t\t\tfunction f3( a, b, c ) {\n\n\t\t\t\taddVertex( a );\n\t\t\t\taddVertex( b );\n\t\t\t\taddVertex( c );\n\n\t\t\t\tconst nextIndex = verticesArray.length / 3;\n\t\t\t\tconst uvs = uvgen.generateTopUV( scope, verticesArray, nextIndex - 3, nextIndex - 2, nextIndex - 1 );\n\n\t\t\t\taddUV( uvs[ 0 ] );\n\t\t\t\taddUV( uvs[ 1 ] );\n\t\t\t\taddUV( uvs[ 2 ] );\n\n\t\t\t}\n\n\t\t\tfunction f4( a, b, c, d ) {\n\n\t\t\t\taddVertex( a );\n\t\t\t\taddVertex( b );\n\t\t\t\taddVertex( d );\n\n\t\t\t\taddVertex( b );\n\t\t\t\taddVertex( c );\n\t\t\t\taddVertex( d );\n\n\n\t\t\t\tconst nextIndex = verticesArray.length / 3;\n\t\t\t\tconst uvs = uvgen.generateSideWallUV( scope, verticesArray, nextIndex - 6, nextIndex - 3, nextIndex - 2, nextIndex - 1 );\n\n\t\t\t\taddUV( uvs[ 0 ] );\n\t\t\t\taddUV( uvs[ 1 ] );\n\t\t\t\taddUV( uvs[ 3 ] );\n\n\t\t\t\taddUV( uvs[ 1 ] );\n\t\t\t\taddUV( uvs[ 2 ] );\n\t\t\t\taddUV( uvs[ 3 ] );\n\n\t\t\t}\n\n\t\t\tfunction addVertex( index ) {\n\n\t\t\t\tverticesArray.push( placeholder[ index * 3 + 0 ] );\n\t\t\t\tverticesArray.push( placeholder[ index * 3 + 1 ] );\n\t\t\t\tverticesArray.push( placeholder[ index * 3 + 2 ] );\n\n\t\t\t}\n\n\n\t\t\tfunction addUV( vector2 ) {\n\n\t\t\t\tuvArray.push( vector2.x );\n\t\t\t\tuvArray.push( vector2.y );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tconst shapes = this.parameters.shapes;\n\t\tconst options = this.parameters.options;\n\n\t\treturn toJSON$1( shapes, options, data );\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @param {Array} shapes - An array of shapes.\n\t * @return {ExtrudeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data, shapes ) {\n\n\t\tconst geometryShapes = [];\n\n\t\tfor ( let j = 0, jl = data.shapes.length; j < jl; j ++ ) {\n\n\t\t\tconst shape = shapes[ data.shapes[ j ] ];\n\n\t\t\tgeometryShapes.push( shape );\n\n\t\t}\n\n\t\tconst extrudePath = data.options.extrudePath;\n\n\t\tif ( extrudePath !== undefined ) {\n\n\t\t\tdata.options.extrudePath = new Curves[ extrudePath.type ]().fromJSON( extrudePath );\n\n\t\t}\n\n\t\treturn new ExtrudeGeometry( geometryShapes, data.options );\n\n\t}\n\n}\n\nconst WorldUVGenerator = {\n\n\tgenerateTopUV: function ( geometry, vertices, indexA, indexB, indexC ) {\n\n\t\tconst a_x = vertices[ indexA * 3 ];\n\t\tconst a_y = vertices[ indexA * 3 + 1 ];\n\t\tconst b_x = vertices[ indexB * 3 ];\n\t\tconst b_y = vertices[ indexB * 3 + 1 ];\n\t\tconst c_x = vertices[ indexC * 3 ];\n\t\tconst c_y = vertices[ indexC * 3 + 1 ];\n\n\t\treturn [\n\t\t\tnew Vector2( a_x, a_y ),\n\t\t\tnew Vector2( b_x, b_y ),\n\t\t\tnew Vector2( c_x, c_y )\n\t\t];\n\n\t},\n\n\tgenerateSideWallUV: function ( geometry, vertices, indexA, indexB, indexC, indexD ) {\n\n\t\tconst a_x = vertices[ indexA * 3 ];\n\t\tconst a_y = vertices[ indexA * 3 + 1 ];\n\t\tconst a_z = vertices[ indexA * 3 + 2 ];\n\t\tconst b_x = vertices[ indexB * 3 ];\n\t\tconst b_y = vertices[ indexB * 3 + 1 ];\n\t\tconst b_z = vertices[ indexB * 3 + 2 ];\n\t\tconst c_x = vertices[ indexC * 3 ];\n\t\tconst c_y = vertices[ indexC * 3 + 1 ];\n\t\tconst c_z = vertices[ indexC * 3 + 2 ];\n\t\tconst d_x = vertices[ indexD * 3 ];\n\t\tconst d_y = vertices[ indexD * 3 + 1 ];\n\t\tconst d_z = vertices[ indexD * 3 + 2 ];\n\n\t\tif ( Math.abs( a_y - b_y ) < Math.abs( a_x - b_x ) ) {\n\n\t\t\treturn [\n\t\t\t\tnew Vector2( a_x, 1 - a_z ),\n\t\t\t\tnew Vector2( b_x, 1 - b_z ),\n\t\t\t\tnew Vector2( c_x, 1 - c_z ),\n\t\t\t\tnew Vector2( d_x, 1 - d_z )\n\t\t\t];\n\n\t\t} else {\n\n\t\t\treturn [\n\t\t\t\tnew Vector2( a_y, 1 - a_z ),\n\t\t\t\tnew Vector2( b_y, 1 - b_z ),\n\t\t\t\tnew Vector2( c_y, 1 - c_z ),\n\t\t\t\tnew Vector2( d_y, 1 - d_z )\n\t\t\t];\n\n\t\t}\n\n\t}\n\n};\n\nfunction toJSON$1( shapes, options, data ) {\n\n\tdata.shapes = [];\n\n\tif ( Array.isArray( shapes ) ) {\n\n\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\tconst shape = shapes[ i ];\n\n\t\t\tdata.shapes.push( shape.uuid );\n\n\t\t}\n\n\t} else {\n\n\t\tdata.shapes.push( shapes.uuid );\n\n\t}\n\n\tdata.options = Object.assign( {}, options );\n\n\tif ( options.extrudePath !== undefined ) data.options.extrudePath = options.extrudePath.toJSON();\n\n\treturn data;\n\n}\n\n/**\n * A geometry class for representing an icosahedron.\n *\n * ```js\n * const geometry = new THREE.IcosahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const icosahedron = new THREE.Mesh( geometry, material );\n * scene.add( icosahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass IcosahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new icosahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the icosahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a icosahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst t = ( 1 + Math.sqrt( 5 ) ) / 2;\n\n\t\tconst vertices = [\n\t\t\t-1, t, 0, \t1, t, 0, \t-1, - t, 0, \t1, - t, 0,\n\t\t\t0, -1, t, \t0, 1, t,\t0, -1, - t, \t0, 1, - t,\n\t\t\tt, 0, -1, \tt, 0, 1, \t- t, 0, -1, \t- t, 0, 1\n\t\t];\n\n\t\tconst indices = [\n\t\t\t0, 11, 5, \t0, 5, 1, \t0, 1, 7, \t0, 7, 10, \t0, 10, 11,\n\t\t\t1, 5, 9, \t5, 11, 4,\t11, 10, 2,\t10, 7, 6,\t7, 1, 8,\n\t\t\t3, 9, 4, \t3, 4, 2,\t3, 2, 6,\t3, 6, 8,\t3, 8, 9,\n\t\t\t4, 9, 5, \t2, 4, 11,\t6, 2, 10,\t8, 6, 7,\t9, 8, 1\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'IcosahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {IcosahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new IcosahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\n/**\n * Creates meshes with axial symmetry like vases. The lathe rotates around the Y axis.\n *\n * ```js\n * const points = [];\n * for ( let i = 0; i < 10; i ++ ) {\n * \tpoints.push( new THREE.Vector2( Math.sin( i * 0.2 ) * 10 + 5, ( i - 5 ) * 2 ) );\n * }\n * const geometry = new THREE.LatheGeometry( points );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const lathe = new THREE.Mesh( geometry, material );\n * scene.add( lathe );\n * ```\n *\n * @augments BufferGeometry\n */\nclass LatheGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new lathe geometry.\n\t *\n\t * @param {Array} [points] - An array of points in 2D space. The x-coordinate of each point\n\t * must be greater than zero.\n\t * @param {number} [segments=12] - The number of circumference segments to generate.\n\t * @param {number} [phiStart=0] - The starting angle in radians.\n\t * @param {number} [phiLength=Math.PI*2] - The radian (0 to 2PI) range of the lathed section 2PI is a\n\t * closed lathe, less than 2PI is a portion.\n\t */\n\tconstructor( points = [ new Vector2( 0, -0.5 ), new Vector2( 0.5, 0 ), new Vector2( 0, 0.5 ) ], segments = 12, phiStart = 0, phiLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'LatheGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tpoints: points,\n\t\t\tsegments: segments,\n\t\t\tphiStart: phiStart,\n\t\t\tphiLength: phiLength\n\t\t};\n\n\t\tsegments = Math.floor( segments );\n\n\t\t// clamp phiLength so it's in range of [ 0, 2PI ]\n\n\t\tphiLength = clamp( phiLength, 0, Math.PI * 2 );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst uvs = [];\n\t\tconst initNormals = [];\n\t\tconst normals = [];\n\n\t\t// helper variables\n\n\t\tconst inverseSegments = 1.0 / segments;\n\t\tconst vertex = new Vector3();\n\t\tconst uv = new Vector2();\n\t\tconst normal = new Vector3();\n\t\tconst curNormal = new Vector3();\n\t\tconst prevNormal = new Vector3();\n\t\tlet dx = 0;\n\t\tlet dy = 0;\n\n\t\t// pre-compute normals for initial \"meridian\"\n\n\t\tfor ( let j = 0; j <= ( points.length - 1 ); j ++ ) {\n\n\t\t\tswitch ( j ) {\n\n\t\t\t\tcase 0:\t\t\t\t// special handling for 1st vertex on path\n\n\t\t\t\t\tdx = points[ j + 1 ].x - points[ j ].x;\n\t\t\t\t\tdy = points[ j + 1 ].y - points[ j ].y;\n\n\t\t\t\t\tnormal.x = dy * 1.0;\n\t\t\t\t\tnormal.y = - dx;\n\t\t\t\t\tnormal.z = dy * 0.0;\n\n\t\t\t\t\tprevNormal.copy( normal );\n\n\t\t\t\t\tnormal.normalize();\n\n\t\t\t\t\tinitNormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase ( points.length - 1 ):\t// special handling for last Vertex on path\n\n\t\t\t\t\tinitNormals.push( prevNormal.x, prevNormal.y, prevNormal.z );\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\t\t\t// default handling for all vertices in between\n\n\t\t\t\t\tdx = points[ j + 1 ].x - points[ j ].x;\n\t\t\t\t\tdy = points[ j + 1 ].y - points[ j ].y;\n\n\t\t\t\t\tnormal.x = dy * 1.0;\n\t\t\t\t\tnormal.y = - dx;\n\t\t\t\t\tnormal.z = dy * 0.0;\n\n\t\t\t\t\tcurNormal.copy( normal );\n\n\t\t\t\t\tnormal.x += prevNormal.x;\n\t\t\t\t\tnormal.y += prevNormal.y;\n\t\t\t\t\tnormal.z += prevNormal.z;\n\n\t\t\t\t\tnormal.normalize();\n\n\t\t\t\t\tinitNormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t\tprevNormal.copy( curNormal );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// generate vertices, uvs and normals\n\n\t\tfor ( let i = 0; i <= segments; i ++ ) {\n\n\t\t\tconst phi = phiStart + i * inverseSegments * phiLength;\n\n\t\t\tconst sin = Math.sin( phi );\n\t\t\tconst cos = Math.cos( phi );\n\n\t\t\tfor ( let j = 0; j <= ( points.length - 1 ); j ++ ) {\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = points[ j ].x * sin;\n\t\t\t\tvertex.y = points[ j ].y;\n\t\t\t\tvertex.z = points[ j ].x * cos;\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuv.x = i / segments;\n\t\t\t\tuv.y = j / ( points.length - 1 );\n\n\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t\t// normal\n\n\t\t\t\tconst x = initNormals[ 3 * j + 0 ] * sin;\n\t\t\t\tconst y = initNormals[ 3 * j + 1 ];\n\t\t\t\tconst z = initNormals[ 3 * j + 0 ] * cos;\n\n\t\t\t\tnormals.push( x, y, z );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let i = 0; i < segments; i ++ ) {\n\n\t\t\tfor ( let j = 0; j < ( points.length - 1 ); j ++ ) {\n\n\t\t\t\tconst base = j + i * points.length;\n\n\t\t\t\tconst a = base;\n\t\t\t\tconst b = base + points.length;\n\t\t\t\tconst c = base + points.length + 1;\n\t\t\t\tconst d = base + 1;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( c, d, b );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {LatheGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new LatheGeometry( data.points, data.segments, data.phiStart, data.phiLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing an octahedron.\n *\n * ```js\n * const geometry = new THREE.OctahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const octahedron = new THREE.Mesh( geometry, material );\n * scene.add( octahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass OctahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new octahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the octahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a octahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst vertices = [\n\t\t\t1, 0, 0, \t-1, 0, 0,\t0, 1, 0,\n\t\t\t0, -1, 0, \t0, 0, 1,\t0, 0, -1\n\t\t];\n\n\t\tconst indices = [\n\t\t\t0, 2, 4,\t0, 4, 3,\t0, 3, 5,\n\t\t\t0, 5, 2,\t1, 2, 5,\t1, 5, 3,\n\t\t\t1, 3, 4,\t1, 4, 2\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'OctahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {OctahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new OctahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing a plane.\n *\n * ```js\n * const geometry = new THREE.PlaneGeometry( 1, 1 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00, side: THREE.DoubleSide } );\n * const plane = new THREE.Mesh( geometry, material );\n * scene.add( plane );\n * ```\n *\n * @augments BufferGeometry\n */\nclass PlaneGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new plane geometry.\n\t *\n\t * @param {number} [width=1] - The width along the X axis.\n\t * @param {number} [height=1] - The height along the Y axis\n\t * @param {number} [widthSegments=1] - The number of segments along the X axis.\n\t * @param {number} [heightSegments=1] - The number of segments along the Y axis.\n\t */\n\tconstructor( width = 1, height = 1, widthSegments = 1, heightSegments = 1 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'PlaneGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\twidth: width,\n\t\t\theight: height,\n\t\t\twidthSegments: widthSegments,\n\t\t\theightSegments: heightSegments\n\t\t};\n\n\t\tconst width_half = width / 2;\n\t\tconst height_half = height / 2;\n\n\t\tconst gridX = Math.floor( widthSegments );\n\t\tconst gridY = Math.floor( heightSegments );\n\n\t\tconst gridX1 = gridX + 1;\n\t\tconst gridY1 = gridY + 1;\n\n\t\tconst segment_width = width / gridX;\n\t\tconst segment_height = height / gridY;\n\n\t\t//\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\tfor ( let iy = 0; iy < gridY1; iy ++ ) {\n\n\t\t\tconst y = iy * segment_height - height_half;\n\n\t\t\tfor ( let ix = 0; ix < gridX1; ix ++ ) {\n\n\t\t\t\tconst x = ix * segment_width - width_half;\n\n\t\t\t\tvertices.push( x, - y, 0 );\n\n\t\t\t\tnormals.push( 0, 0, 1 );\n\n\t\t\t\tuvs.push( ix / gridX );\n\t\t\t\tuvs.push( 1 - ( iy / gridY ) );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfor ( let iy = 0; iy < gridY; iy ++ ) {\n\n\t\t\tfor ( let ix = 0; ix < gridX; ix ++ ) {\n\n\t\t\t\tconst a = ix + gridX1 * iy;\n\t\t\t\tconst b = ix + gridX1 * ( iy + 1 );\n\t\t\t\tconst c = ( ix + 1 ) + gridX1 * ( iy + 1 );\n\t\t\t\tconst d = ( ix + 1 ) + gridX1 * iy;\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {PlaneGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new PlaneGeometry( data.width, data.height, data.widthSegments, data.heightSegments );\n\n\t}\n\n}\n\n/**\n * A class for generating a two-dimensional ring geometry.\n *\n * ```js\n * const geometry = new THREE.RingGeometry( 1, 5, 32 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00, side: THREE.DoubleSide } );\n * const mesh = new THREE.Mesh( geometry, material );\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass RingGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new ring geometry.\n\t *\n\t * @param {number} [innerRadius=0.5] - The inner radius of the ring.\n\t * @param {number} [outerRadius=1] - The outer radius of the ring.\n\t * @param {number} [thetaSegments=32] - Number of segments. A higher number means the ring will be more round. Minimum is `3`.\n\t * @param {number} [phiSegments=1] - Number of segments per ring segment. Minimum is `1`.\n\t * @param {number} [thetaStart=0] - Starting angle in radians.\n\t * @param {number} [thetaLength=Math.PI*2] - Central angle in radians.\n\t */\n\tconstructor( innerRadius = 0.5, outerRadius = 1, thetaSegments = 32, phiSegments = 1, thetaStart = 0, thetaLength = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'RingGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tinnerRadius: innerRadius,\n\t\t\touterRadius: outerRadius,\n\t\t\tthetaSegments: thetaSegments,\n\t\t\tphiSegments: phiSegments,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\tthetaSegments = Math.max( 3, thetaSegments );\n\t\tphiSegments = Math.max( 1, phiSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// some helper variables\n\n\t\tlet radius = innerRadius;\n\t\tconst radiusStep = ( ( outerRadius - innerRadius ) / phiSegments );\n\t\tconst vertex = new Vector3();\n\t\tconst uv = new Vector2();\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let j = 0; j <= phiSegments; j ++ ) {\n\n\t\t\tfor ( let i = 0; i <= thetaSegments; i ++ ) {\n\n\t\t\t\t// values are generate from the inside of the ring to the outside\n\n\t\t\t\tconst segment = thetaStart + i / thetaSegments * thetaLength;\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = radius * Math.cos( segment );\n\t\t\t\tvertex.y = radius * Math.sin( segment );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormals.push( 0, 0, 1 );\n\n\t\t\t\t// uv\n\n\t\t\t\tuv.x = ( vertex.x / outerRadius + 1 ) / 2;\n\t\t\t\tuv.y = ( vertex.y / outerRadius + 1 ) / 2;\n\n\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t}\n\n\t\t\t// increase the radius for next row of vertices\n\n\t\t\tradius += radiusStep;\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let j = 0; j < phiSegments; j ++ ) {\n\n\t\t\tconst thetaSegmentLevel = j * ( thetaSegments + 1 );\n\n\t\t\tfor ( let i = 0; i < thetaSegments; i ++ ) {\n\n\t\t\t\tconst segment = i + thetaSegmentLevel;\n\n\t\t\t\tconst a = segment;\n\t\t\t\tconst b = segment + thetaSegments + 1;\n\t\t\t\tconst c = segment + thetaSegments + 2;\n\t\t\t\tconst d = segment + 1;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {RingGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new RingGeometry( data.innerRadius, data.outerRadius, data.thetaSegments, data.phiSegments, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * Creates an one-sided polygonal geometry from one or more path shapes.\n *\n * ```js\n * const arcShape = new THREE.Shape()\n *\t.moveTo( 5, 1 )\n *\t.absarc( 1, 1, 4, 0, Math.PI * 2, false );\n *\n * const geometry = new THREE.ShapeGeometry( arcShape );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00, side: THREE.DoubleSide } );\n * const mesh = new THREE.Mesh( geometry, material ) ;\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass ShapeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new shape geometry.\n\t *\n\t * @param {Shape|Array} [shapes] - A shape or an array of shapes.\n\t * @param {number} [curveSegments=12] - Number of segments per shape.\n\t */\n\tconstructor( shapes = new Shape( [ new Vector2( 0, 0.5 ), new Vector2( -0.5, -0.5 ), new Vector2( 0.5, -0.5 ) ] ), curveSegments = 12 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'ShapeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tshapes: shapes,\n\t\t\tcurveSegments: curveSegments\n\t\t};\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tlet groupStart = 0;\n\t\tlet groupCount = 0;\n\n\t\t// allow single and array values for \"shapes\" parameter\n\n\t\tif ( Array.isArray( shapes ) === false ) {\n\n\t\t\taddShape( shapes );\n\n\t\t} else {\n\n\t\t\tfor ( let i = 0; i < shapes.length; i ++ ) {\n\n\t\t\t\taddShape( shapes[ i ] );\n\n\t\t\t\tthis.addGroup( groupStart, groupCount, i ); // enables MultiMaterial support\n\n\t\t\t\tgroupStart += groupCount;\n\t\t\t\tgroupCount = 0;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\n\t\t// helper functions\n\n\t\tfunction addShape( shape ) {\n\n\t\t\tconst indexOffset = vertices.length / 3;\n\t\t\tconst points = shape.extractPoints( curveSegments );\n\n\t\t\tlet shapeVertices = points.shape;\n\t\t\tconst shapeHoles = points.holes;\n\n\t\t\t// check direction of vertices\n\n\t\t\tif ( ShapeUtils.isClockWise( shapeVertices ) === false ) {\n\n\t\t\t\tshapeVertices = shapeVertices.reverse();\n\n\t\t\t}\n\n\t\t\tfor ( let i = 0, l = shapeHoles.length; i < l; i ++ ) {\n\n\t\t\t\tconst shapeHole = shapeHoles[ i ];\n\n\t\t\t\tif ( ShapeUtils.isClockWise( shapeHole ) === true ) {\n\n\t\t\t\t\tshapeHoles[ i ] = shapeHole.reverse();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tconst faces = ShapeUtils.triangulateShape( shapeVertices, shapeHoles );\n\n\t\t\t// join vertices of inner and outer paths to a single array\n\n\t\t\tfor ( let i = 0, l = shapeHoles.length; i < l; i ++ ) {\n\n\t\t\t\tconst shapeHole = shapeHoles[ i ];\n\t\t\t\tshapeVertices = shapeVertices.concat( shapeHole );\n\n\t\t\t}\n\n\t\t\t// vertices, normals, uvs\n\n\t\t\tfor ( let i = 0, l = shapeVertices.length; i < l; i ++ ) {\n\n\t\t\t\tconst vertex = shapeVertices[ i ];\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, 0 );\n\t\t\t\tnormals.push( 0, 0, 1 );\n\t\t\t\tuvs.push( vertex.x, vertex.y ); // world uvs\n\n\t\t\t}\n\n\t\t\t// indices\n\n\t\t\tfor ( let i = 0, l = faces.length; i < l; i ++ ) {\n\n\t\t\t\tconst face = faces[ i ];\n\n\t\t\t\tconst a = face[ 0 ] + indexOffset;\n\t\t\t\tconst b = face[ 1 ] + indexOffset;\n\t\t\t\tconst c = face[ 2 ] + indexOffset;\n\n\t\t\t\tindices.push( a, b, c );\n\t\t\t\tgroupCount += 3;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tconst shapes = this.parameters.shapes;\n\n\t\treturn toJSON( shapes, data );\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @param {Array} shapes - An array of shapes.\n\t * @return {ShapeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data, shapes ) {\n\n\t\tconst geometryShapes = [];\n\n\t\tfor ( let j = 0, jl = data.shapes.length; j < jl; j ++ ) {\n\n\t\t\tconst shape = shapes[ data.shapes[ j ] ];\n\n\t\t\tgeometryShapes.push( shape );\n\n\t\t}\n\n\t\treturn new ShapeGeometry( geometryShapes, data.curveSegments );\n\n\t}\n\n}\n\nfunction toJSON( shapes, data ) {\n\n\tdata.shapes = [];\n\n\tif ( Array.isArray( shapes ) ) {\n\n\t\tfor ( let i = 0, l = shapes.length; i < l; i ++ ) {\n\n\t\t\tconst shape = shapes[ i ];\n\n\t\t\tdata.shapes.push( shape.uuid );\n\n\t\t}\n\n\t} else {\n\n\t\tdata.shapes.push( shapes.uuid );\n\n\t}\n\n\treturn data;\n\n}\n\n/**\n * A class for generating a sphere geometry.\n *\n * ```js\n * const geometry = new THREE.SphereGeometry( 15, 32, 16 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const sphere = new THREE.Mesh( geometry, material );\n * scene.add( sphere );\n * ```\n *\n * @augments BufferGeometry\n */\nclass SphereGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new sphere geometry.\n\t *\n\t * @param {number} [radius=1] - The sphere radius.\n\t * @param {number} [widthSegments=32] - The number of horizontal segments. Minimum value is `3`.\n\t * @param {number} [heightSegments=16] - The number of vertical segments. Minimum value is `2`.\n\t * @param {number} [phiStart=0] - The horizontal starting angle in radians.\n\t * @param {number} [phiLength=Math.PI*2] - The horizontal sweep angle size.\n\t * @param {number} [thetaStart=0] - The vertical starting angle in radians.\n\t * @param {number} [thetaLength=Math.PI] - The vertical sweep angle size.\n\t */\n\tconstructor( radius = 1, widthSegments = 32, heightSegments = 16, phiStart = 0, phiLength = Math.PI * 2, thetaStart = 0, thetaLength = Math.PI ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'SphereGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\twidthSegments: widthSegments,\n\t\t\theightSegments: heightSegments,\n\t\t\tphiStart: phiStart,\n\t\t\tphiLength: phiLength,\n\t\t\tthetaStart: thetaStart,\n\t\t\tthetaLength: thetaLength\n\t\t};\n\n\t\twidthSegments = Math.max( 3, Math.floor( widthSegments ) );\n\t\theightSegments = Math.max( 2, Math.floor( heightSegments ) );\n\n\t\tconst thetaEnd = Math.min( thetaStart + thetaLength, Math.PI );\n\n\t\tlet index = 0;\n\t\tconst grid = [];\n\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let iy = 0; iy <= heightSegments; iy ++ ) {\n\n\t\t\tconst verticesRow = [];\n\n\t\t\tconst v = iy / heightSegments;\n\n\t\t\t// special case for the poles\n\n\t\t\tlet uOffset = 0;\n\n\t\t\tif ( iy === 0 && thetaStart === 0 ) {\n\n\t\t\t\tuOffset = 0.5 / widthSegments;\n\n\t\t\t} else if ( iy === heightSegments && thetaEnd === Math.PI ) {\n\n\t\t\t\tuOffset = -0.5 / widthSegments;\n\n\t\t\t}\n\n\t\t\tfor ( let ix = 0; ix <= widthSegments; ix ++ ) {\n\n\t\t\t\tconst u = ix / widthSegments;\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = - radius * Math.cos( phiStart + u * phiLength ) * Math.sin( thetaStart + v * thetaLength );\n\t\t\t\tvertex.y = radius * Math.cos( thetaStart + v * thetaLength );\n\t\t\t\tvertex.z = radius * Math.sin( phiStart + u * phiLength ) * Math.sin( thetaStart + v * thetaLength );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormal.copy( vertex ).normalize();\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( u + uOffset, 1 - v );\n\n\t\t\t\tverticesRow.push( index ++ );\n\n\t\t\t}\n\n\t\t\tgrid.push( verticesRow );\n\n\t\t}\n\n\t\t// indices\n\n\t\tfor ( let iy = 0; iy < heightSegments; iy ++ ) {\n\n\t\t\tfor ( let ix = 0; ix < widthSegments; ix ++ ) {\n\n\t\t\t\tconst a = grid[ iy ][ ix + 1 ];\n\t\t\t\tconst b = grid[ iy ][ ix ];\n\t\t\t\tconst c = grid[ iy + 1 ][ ix ];\n\t\t\t\tconst d = grid[ iy + 1 ][ ix + 1 ];\n\n\t\t\t\tif ( iy !== 0 || thetaStart > 0 ) indices.push( a, b, d );\n\t\t\t\tif ( iy !== heightSegments - 1 || thetaEnd < Math.PI ) indices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {SphereGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new SphereGeometry( data.radius, data.widthSegments, data.heightSegments, data.phiStart, data.phiLength, data.thetaStart, data.thetaLength );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing an tetrahedron.\n *\n * ```js\n * const geometry = new THREE.TetrahedronGeometry();\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const tetrahedron = new THREE.Mesh( geometry, material );\n * scene.add( tetrahedron );\n * ```\n *\n * @augments PolyhedronGeometry\n */\nclass TetrahedronGeometry extends PolyhedronGeometry {\n\n\t/**\n\t * Constructs a new tetrahedron geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the tetrahedron.\n\t * @param {number} [detail=0] - Setting this to a value greater than `0` adds vertices making it no longer a tetrahedron.\n\t */\n\tconstructor( radius = 1, detail = 0 ) {\n\n\t\tconst vertices = [\n\t\t\t1, 1, 1, \t-1, -1, 1, \t-1, 1, -1, \t1, -1, -1\n\t\t];\n\n\t\tconst indices = [\n\t\t\t2, 1, 0, \t0, 3, 2,\t1, 3, 0,\t2, 3, 1\n\t\t];\n\n\t\tsuper( vertices, indices, radius, detail );\n\n\t\tthis.type = 'TetrahedronGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\tdetail: detail\n\t\t};\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TetrahedronGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new TetrahedronGeometry( data.radius, data.detail );\n\n\t}\n\n}\n\n/**\n * A geometry class for representing an torus.\n *\n * ```js\n * const geometry = new THREE.TorusGeometry( 10, 3, 16, 100 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const torus = new THREE.Mesh( geometry, material );\n * scene.add( torus );\n * ```\n *\n * @augments BufferGeometry\n */\nclass TorusGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new torus geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the torus, from the center of the torus to the center of the tube.\n\t * @param {number} [tube=0.4] - Radius of the tube. Must be smaller than `radius`.\n\t * @param {number} [radialSegments=12] - The number of radial segments.\n\t * @param {number} [tubularSegments=48] - The number of tubular segments.\n\t * @param {number} [arc=Math.PI*2] - Central angle in radians.\n\t */\n\tconstructor( radius = 1, tube = 0.4, radialSegments = 12, tubularSegments = 48, arc = Math.PI * 2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'TorusGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\ttube: tube,\n\t\t\tradialSegments: radialSegments,\n\t\t\ttubularSegments: tubularSegments,\n\t\t\tarc: arc\n\t\t};\n\n\t\tradialSegments = Math.floor( radialSegments );\n\t\ttubularSegments = Math.floor( tubularSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst center = new Vector3();\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let j = 0; j <= radialSegments; j ++ ) {\n\n\t\t\tfor ( let i = 0; i <= tubularSegments; i ++ ) {\n\n\t\t\t\tconst u = i / tubularSegments * arc;\n\t\t\t\tconst v = j / radialSegments * Math.PI * 2;\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = ( radius + tube * Math.cos( v ) ) * Math.cos( u );\n\t\t\t\tvertex.y = ( radius + tube * Math.cos( v ) ) * Math.sin( u );\n\t\t\t\tvertex.z = tube * Math.sin( v );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal\n\n\t\t\t\tcenter.x = radius * Math.cos( u );\n\t\t\t\tcenter.y = radius * Math.sin( u );\n\t\t\t\tnormal.subVectors( vertex, center ).normalize();\n\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( i / tubularSegments );\n\t\t\t\tuvs.push( j / radialSegments );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// generate indices\n\n\t\tfor ( let j = 1; j <= radialSegments; j ++ ) {\n\n\t\t\tfor ( let i = 1; i <= tubularSegments; i ++ ) {\n\n\t\t\t\t// indices\n\n\t\t\t\tconst a = ( tubularSegments + 1 ) * j + i - 1;\n\t\t\t\tconst b = ( tubularSegments + 1 ) * ( j - 1 ) + i - 1;\n\t\t\t\tconst c = ( tubularSegments + 1 ) * ( j - 1 ) + i;\n\t\t\t\tconst d = ( tubularSegments + 1 ) * j + i;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TorusGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new TorusGeometry( data.radius, data.tube, data.radialSegments, data.tubularSegments, data.arc );\n\n\t}\n\n}\n\n/**\n * Creates a torus knot, the particular shape of which is defined by a pair\n * of coprime integers, p and q. If p and q are not coprime, the result will\n * be a torus link.\n *\n * ```js\n * const geometry = new THREE.TorusKnotGeometry( 10, 3, 100, 16 );\n * const material = new THREE.MeshBasicMaterial( { color: 0xffff00 } );\n * const torusKnot = new THREE.Mesh( geometry, material );\n * scene.add( torusKnot );\n * ```\n *\n * @augments BufferGeometry\n */\nclass TorusKnotGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new torus knot geometry.\n\t *\n\t * @param {number} [radius=1] - Radius of the torus knot.\n\t * @param {number} [tube=0.4] - Radius of the tube.\n\t * @param {number} [tubularSegments=64] - The number of tubular segments.\n\t * @param {number} [radialSegments=8] - The number of radial segments.\n\t * @param {number} [p=2] - This value determines, how many times the geometry winds around its axis of rotational symmetry.\n\t * @param {number} [q=3] - This value determines, how many times the geometry winds around a circle in the interior of the torus.\n\t */\n\tconstructor( radius = 1, tube = 0.4, tubularSegments = 64, radialSegments = 8, p = 2, q = 3 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'TorusKnotGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tradius: radius,\n\t\t\ttube: tube,\n\t\t\ttubularSegments: tubularSegments,\n\t\t\tradialSegments: radialSegments,\n\t\t\tp: p,\n\t\t\tq: q\n\t\t};\n\n\t\ttubularSegments = Math.floor( tubularSegments );\n\t\tradialSegments = Math.floor( radialSegments );\n\n\t\t// buffers\n\n\t\tconst indices = [];\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\n\t\t// helper variables\n\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\n\t\tconst P1 = new Vector3();\n\t\tconst P2 = new Vector3();\n\n\t\tconst B = new Vector3();\n\t\tconst T = new Vector3();\n\t\tconst N = new Vector3();\n\n\t\t// generate vertices, normals and uvs\n\n\t\tfor ( let i = 0; i <= tubularSegments; ++ i ) {\n\n\t\t\t// the radian \"u\" is used to calculate the position on the torus curve of the current tubular segment\n\n\t\t\tconst u = i / tubularSegments * p * Math.PI * 2;\n\n\t\t\t// now we calculate two points. P1 is our current position on the curve, P2 is a little farther ahead.\n\t\t\t// these points are used to create a special \"coordinate space\", which is necessary to calculate the correct vertex positions\n\n\t\t\tcalculatePositionOnCurve( u, p, q, radius, P1 );\n\t\t\tcalculatePositionOnCurve( u + 0.01, p, q, radius, P2 );\n\n\t\t\t// calculate orthonormal basis\n\n\t\t\tT.subVectors( P2, P1 );\n\t\t\tN.addVectors( P2, P1 );\n\t\t\tB.crossVectors( T, N );\n\t\t\tN.crossVectors( B, T );\n\n\t\t\t// normalize B, N. T can be ignored, we don't use it\n\n\t\t\tB.normalize();\n\t\t\tN.normalize();\n\n\t\t\tfor ( let j = 0; j <= radialSegments; ++ j ) {\n\n\t\t\t\t// now calculate the vertices. they are nothing more than an extrusion of the torus curve.\n\t\t\t\t// because we extrude a shape in the xy-plane, there is no need to calculate a z-value.\n\n\t\t\t\tconst v = j / radialSegments * Math.PI * 2;\n\t\t\t\tconst cx = - tube * Math.cos( v );\n\t\t\t\tconst cy = tube * Math.sin( v );\n\n\t\t\t\t// now calculate the final vertex position.\n\t\t\t\t// first we orient the extrusion with our basis vectors, then we add it to the current position on the curve\n\n\t\t\t\tvertex.x = P1.x + ( cx * N.x + cy * B.x );\n\t\t\t\tvertex.y = P1.y + ( cx * N.y + cy * B.y );\n\t\t\t\tvertex.z = P1.z + ( cx * N.z + cy * B.z );\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t\t// normal (P1 is always the center/origin of the extrusion, thus we can use it to calculate the normal)\n\n\t\t\t\tnormal.subVectors( vertex, P1 ).normalize();\n\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// uv\n\n\t\t\t\tuvs.push( i / tubularSegments );\n\t\t\t\tuvs.push( j / radialSegments );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// generate indices\n\n\t\tfor ( let j = 1; j <= tubularSegments; j ++ ) {\n\n\t\t\tfor ( let i = 1; i <= radialSegments; i ++ ) {\n\n\t\t\t\t// indices\n\n\t\t\t\tconst a = ( radialSegments + 1 ) * ( j - 1 ) + ( i - 1 );\n\t\t\t\tconst b = ( radialSegments + 1 ) * j + ( i - 1 );\n\t\t\t\tconst c = ( radialSegments + 1 ) * j + i;\n\t\t\t\tconst d = ( radialSegments + 1 ) * ( j - 1 ) + i;\n\n\t\t\t\t// faces\n\n\t\t\t\tindices.push( a, b, d );\n\t\t\t\tindices.push( b, c, d );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\t// this function calculates the current position on the torus curve\n\n\t\tfunction calculatePositionOnCurve( u, p, q, radius, position ) {\n\n\t\t\tconst cu = Math.cos( u );\n\t\t\tconst su = Math.sin( u );\n\t\t\tconst quOverP = q / p * u;\n\t\t\tconst cs = Math.cos( quOverP );\n\n\t\t\tposition.x = radius * ( 2 + cs ) * 0.5 * cu;\n\t\t\tposition.y = radius * ( 2 + cs ) * su * 0.5;\n\t\t\tposition.z = radius * Math.sin( quOverP ) * 0.5;\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TorusKnotGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\treturn new TorusKnotGeometry( data.radius, data.tube, data.tubularSegments, data.radialSegments, data.p, data.q );\n\n\t}\n\n}\n\n/**\n * Creates a tube that extrudes along a 3D curve.\n *\n * ```js\n * class CustomSinCurve extends THREE.Curve {\n *\n * \tgetPoint( t, optionalTarget = new THREE.Vector3() ) {\n *\n * \t\tconst tx = t * 3 - 1.5;\n * \t\tconst ty = Math.sin( 2 * Math.PI * t );\n * \t\tconst tz = 0;\n *\n * \t\treturn optionalTarget.set( tx, ty, tz );\n * \t}\n *\n * }\n *\n * const path = new CustomSinCurve( 10 );\n * const geometry = new THREE.TubeGeometry( path, 20, 2, 8, false );\n * const material = new THREE.MeshBasicMaterial( { color: 0x00ff00 } );\n * const mesh = new THREE.Mesh( geometry, material );\n * scene.add( mesh );\n * ```\n *\n * @augments BufferGeometry\n */\nclass TubeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new tube geometry.\n\t *\n\t * @param {Curve} [path=QuadraticBezierCurve3] - A 3D curve defining the path of the tube.\n\t * @param {number} [tubularSegments=64] - The number of segments that make up the tube.\n\t * @param {number} [radius=1] -The radius of the tube.\n\t * @param {number} [radialSegments=8] - The number of segments that make up the cross-section.\n\t * @param {boolean} [closed=false] - Whether the tube is closed or not.\n\t */\n\tconstructor( path = new QuadraticBezierCurve3( new Vector3( -1, -1, 0 ), new Vector3( -1, 1, 0 ), new Vector3( 1, 1, 0 ) ), tubularSegments = 64, radius = 1, radialSegments = 8, closed = false ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'TubeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tpath: path,\n\t\t\ttubularSegments: tubularSegments,\n\t\t\tradius: radius,\n\t\t\tradialSegments: radialSegments,\n\t\t\tclosed: closed\n\t\t};\n\n\t\tconst frames = path.computeFrenetFrames( tubularSegments, closed );\n\n\t\t// expose internals\n\n\t\tthis.tangents = frames.tangents;\n\t\tthis.normals = frames.normals;\n\t\tthis.binormals = frames.binormals;\n\n\t\t// helper variables\n\n\t\tconst vertex = new Vector3();\n\t\tconst normal = new Vector3();\n\t\tconst uv = new Vector2();\n\t\tlet P = new Vector3();\n\n\t\t// buffer\n\n\t\tconst vertices = [];\n\t\tconst normals = [];\n\t\tconst uvs = [];\n\t\tconst indices = [];\n\n\t\t// create buffer data\n\n\t\tgenerateBufferData();\n\n\t\t// build geometry\n\n\t\tthis.setIndex( indices );\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tthis.setAttribute( 'normal', new Float32BufferAttribute( normals, 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( uvs, 2 ) );\n\n\t\t// functions\n\n\t\tfunction generateBufferData() {\n\n\t\t\tfor ( let i = 0; i < tubularSegments; i ++ ) {\n\n\t\t\t\tgenerateSegment( i );\n\n\t\t\t}\n\n\t\t\t// if the geometry is not closed, generate the last row of vertices and normals\n\t\t\t// at the regular position on the given path\n\t\t\t//\n\t\t\t// if the geometry is closed, duplicate the first row of vertices and normals (uvs will differ)\n\n\t\t\tgenerateSegment( ( closed === false ) ? tubularSegments : 0 );\n\n\t\t\t// uvs are generated in a separate function.\n\t\t\t// this makes it easy compute correct values for closed geometries\n\n\t\t\tgenerateUVs();\n\n\t\t\t// finally create faces\n\n\t\t\tgenerateIndices();\n\n\t\t}\n\n\t\tfunction generateSegment( i ) {\n\n\t\t\t// we use getPointAt to sample evenly distributed points from the given path\n\n\t\t\tP = path.getPointAt( i / tubularSegments, P );\n\n\t\t\t// retrieve corresponding normal and binormal\n\n\t\t\tconst N = frames.normals[ i ];\n\t\t\tconst B = frames.binormals[ i ];\n\n\t\t\t// generate normals and vertices for the current segment\n\n\t\t\tfor ( let j = 0; j <= radialSegments; j ++ ) {\n\n\t\t\t\tconst v = j / radialSegments * Math.PI * 2;\n\n\t\t\t\tconst sin = Math.sin( v );\n\t\t\t\tconst cos = - Math.cos( v );\n\n\t\t\t\t// normal\n\n\t\t\t\tnormal.x = ( cos * N.x + sin * B.x );\n\t\t\t\tnormal.y = ( cos * N.y + sin * B.y );\n\t\t\t\tnormal.z = ( cos * N.z + sin * B.z );\n\t\t\t\tnormal.normalize();\n\n\t\t\t\tnormals.push( normal.x, normal.y, normal.z );\n\n\t\t\t\t// vertex\n\n\t\t\t\tvertex.x = P.x + radius * normal.x;\n\t\t\t\tvertex.y = P.y + radius * normal.y;\n\t\t\t\tvertex.z = P.z + radius * normal.z;\n\n\t\t\t\tvertices.push( vertex.x, vertex.y, vertex.z );\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction generateIndices() {\n\n\t\t\tfor ( let j = 1; j <= tubularSegments; j ++ ) {\n\n\t\t\t\tfor ( let i = 1; i <= radialSegments; i ++ ) {\n\n\t\t\t\t\tconst a = ( radialSegments + 1 ) * ( j - 1 ) + ( i - 1 );\n\t\t\t\t\tconst b = ( radialSegments + 1 ) * j + ( i - 1 );\n\t\t\t\t\tconst c = ( radialSegments + 1 ) * j + i;\n\t\t\t\t\tconst d = ( radialSegments + 1 ) * ( j - 1 ) + i;\n\n\t\t\t\t\t// faces\n\n\t\t\t\t\tindices.push( a, b, d );\n\t\t\t\t\tindices.push( b, c, d );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tfunction generateUVs() {\n\n\t\t\tfor ( let i = 0; i <= tubularSegments; i ++ ) {\n\n\t\t\t\tfor ( let j = 0; j <= radialSegments; j ++ ) {\n\n\t\t\t\t\tuv.x = i / tubularSegments;\n\t\t\t\t\tuv.y = j / radialSegments;\n\n\t\t\t\t\tuvs.push( uv.x, uv.y );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.path = this.parameters.path.toJSON();\n\n\t\treturn data;\n\n\t}\n\n\t/**\n\t * Factory method for creating an instance of this class from the given\n\t * JSON object.\n\t *\n\t * @param {Object} data - A JSON object representing the serialized geometry.\n\t * @return {TubeGeometry} A new instance.\n\t */\n\tstatic fromJSON( data ) {\n\n\t\t// This only works for built-in curves (e.g. CatmullRomCurve3).\n\t\t// User defined curves or instances of CurvePath will not be deserialized.\n\t\treturn new TubeGeometry(\n\t\t\tnew Curves[ data.path.type ]().fromJSON( data.path ),\n\t\t\tdata.tubularSegments,\n\t\t\tdata.radius,\n\t\t\tdata.radialSegments,\n\t\t\tdata.closed\n\t\t);\n\n\t}\n\n}\n\n/**\n * Can be used as a helper object to visualize a geometry as a wireframe.\n *\n * ```js\n * const geometry = new THREE.SphereGeometry();\n *\n * const wireframe = new THREE.WireframeGeometry( geometry );\n *\n * const line = new THREE.LineSegments( wireframe );\n * line.material.depthWrite = false;\n * line.material.opacity = 0.25;\n * line.material.transparent = true;\n *\n * scene.add( line );\n * ```\n *\n * Note: It is not yet possible to serialize/deserialize instances of this class.\n *\n * @augments BufferGeometry\n */\nclass WireframeGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new wireframe geometry.\n\t *\n\t * @param {?BufferGeometry} [geometry=null] - The geometry.\n\t */\n\tconstructor( geometry = null ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'WireframeGeometry';\n\n\t\t/**\n\t\t * Holds the constructor parameters that have been\n\t\t * used to generate the geometry. Any modification\n\t\t * after instantiation does not change the geometry.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parameters = {\n\t\t\tgeometry: geometry\n\t\t};\n\n\t\tif ( geometry !== null ) {\n\n\t\t\t// buffer\n\n\t\t\tconst vertices = [];\n\t\t\tconst edges = new Set();\n\n\t\t\t// helper variables\n\n\t\t\tconst start = new Vector3();\n\t\t\tconst end = new Vector3();\n\n\t\t\tif ( geometry.index !== null ) {\n\n\t\t\t\t// indexed BufferGeometry\n\n\t\t\t\tconst position = geometry.attributes.position;\n\t\t\t\tconst indices = geometry.index;\n\t\t\t\tlet groups = geometry.groups;\n\n\t\t\t\tif ( groups.length === 0 ) {\n\n\t\t\t\t\tgroups = [ { start: 0, count: indices.count, materialIndex: 0 } ];\n\n\t\t\t\t}\n\n\t\t\t\t// create a data structure that contains all edges without duplicates\n\n\t\t\t\tfor ( let o = 0, ol = groups.length; o < ol; ++ o ) {\n\n\t\t\t\t\tconst group = groups[ o ];\n\n\t\t\t\t\tconst groupStart = group.start;\n\t\t\t\t\tconst groupCount = group.count;\n\n\t\t\t\t\tfor ( let i = groupStart, l = ( groupStart + groupCount ); i < l; i += 3 ) {\n\n\t\t\t\t\t\tfor ( let j = 0; j < 3; j ++ ) {\n\n\t\t\t\t\t\t\tconst index1 = indices.getX( i + j );\n\t\t\t\t\t\t\tconst index2 = indices.getX( i + ( j + 1 ) % 3 );\n\n\t\t\t\t\t\t\tstart.fromBufferAttribute( position, index1 );\n\t\t\t\t\t\t\tend.fromBufferAttribute( position, index2 );\n\n\t\t\t\t\t\t\tif ( isUniqueEdge( start, end, edges ) === true ) {\n\n\t\t\t\t\t\t\t\tvertices.push( start.x, start.y, start.z );\n\t\t\t\t\t\t\t\tvertices.push( end.x, end.y, end.z );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\t// non-indexed BufferGeometry\n\n\t\t\t\tconst position = geometry.attributes.position;\n\n\t\t\t\tfor ( let i = 0, l = ( position.count / 3 ); i < l; i ++ ) {\n\n\t\t\t\t\tfor ( let j = 0; j < 3; j ++ ) {\n\n\t\t\t\t\t\t// three edges per triangle, an edge is represented as (index1, index2)\n\t\t\t\t\t\t// e.g. the first triangle has the following edges: (0,1),(1,2),(2,0)\n\n\t\t\t\t\t\tconst index1 = 3 * i + j;\n\t\t\t\t\t\tconst index2 = 3 * i + ( ( j + 1 ) % 3 );\n\n\t\t\t\t\t\tstart.fromBufferAttribute( position, index1 );\n\t\t\t\t\t\tend.fromBufferAttribute( position, index2 );\n\n\t\t\t\t\t\tif ( isUniqueEdge( start, end, edges ) === true ) {\n\n\t\t\t\t\t\t\tvertices.push( start.x, start.y, start.z );\n\t\t\t\t\t\t\tvertices.push( end.x, end.y, end.z );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// build geometry\n\n\t\t\tthis.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\n\t\t}\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.parameters = Object.assign( {}, source.parameters );\n\n\t\treturn this;\n\n\t}\n\n}\n\nfunction isUniqueEdge( start, end, edges ) {\n\n\tconst hash1 = `${start.x},${start.y},${start.z}-${end.x},${end.y},${end.z}`;\n\tconst hash2 = `${end.x},${end.y},${end.z}-${start.x},${start.y},${start.z}`; // coincident edge\n\n\tif ( edges.has( hash1 ) === true || edges.has( hash2 ) === true ) {\n\n\t\treturn false;\n\n\t} else {\n\n\t\tedges.add( hash1 );\n\t\tedges.add( hash2 );\n\t\treturn true;\n\n\t}\n\n}\n\nvar Geometries = /*#__PURE__*/Object.freeze({\n\t__proto__: null,\n\tBoxGeometry: BoxGeometry,\n\tCapsuleGeometry: CapsuleGeometry,\n\tCircleGeometry: CircleGeometry,\n\tConeGeometry: ConeGeometry,\n\tCylinderGeometry: CylinderGeometry,\n\tDodecahedronGeometry: DodecahedronGeometry,\n\tEdgesGeometry: EdgesGeometry,\n\tExtrudeGeometry: ExtrudeGeometry,\n\tIcosahedronGeometry: IcosahedronGeometry,\n\tLatheGeometry: LatheGeometry,\n\tOctahedronGeometry: OctahedronGeometry,\n\tPlaneGeometry: PlaneGeometry,\n\tPolyhedronGeometry: PolyhedronGeometry,\n\tRingGeometry: RingGeometry,\n\tShapeGeometry: ShapeGeometry,\n\tSphereGeometry: SphereGeometry,\n\tTetrahedronGeometry: TetrahedronGeometry,\n\tTorusGeometry: TorusGeometry,\n\tTorusKnotGeometry: TorusKnotGeometry,\n\tTubeGeometry: TubeGeometry,\n\tWireframeGeometry: WireframeGeometry\n});\n\n/**\n * This material can receive shadows, but otherwise is completely transparent.\n *\n * ```js\n * const geometry = new THREE.PlaneGeometry( 2000, 2000 );\n * geometry.rotateX( - Math.PI / 2 );\n *\n * const material = new THREE.ShadowMaterial();\n * material.opacity = 0.2;\n *\n * const plane = new THREE.Mesh( geometry, material );\n * plane.position.y = -200;\n * plane.receiveShadow = true;\n * scene.add( plane );\n * ```\n *\n * @augments Material\n */\nclass ShadowMaterial extends Material {\n\n\t/**\n\t * Constructs a new shadow material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isShadowMaterial = true;\n\n\t\tthis.type = 'ShadowMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.color = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Overwritten since shadow materials are transparent\n\t\t * by default.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.transparent = true;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This class works just like {@link ShaderMaterial}, except that definitions\n * of built-in uniforms and attributes are not automatically prepended to the\n * GLSL shader code.\n *\n * `RawShaderMaterial` can only be used with {@link WebGLRenderer}.\n *\n * @augments ShaderMaterial\n */\nclass RawShaderMaterial extends ShaderMaterial {\n\n\t/**\n\t * Constructs a new raw shader material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper( parameters );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRawShaderMaterial = true;\n\n\t\tthis.type = 'RawShaderMaterial';\n\n\t}\n\n}\n\n/**\n * A standard physically based material, using Metallic-Roughness workflow.\n *\n * Physically based rendering (PBR) has recently become the standard in many\n * 3D applications, such as [Unity]{@link https://blogs.unity3d.com/2014/10/29/physically-based-shading-in-unity-5-a-primer/},\n * [Unreal]{@link https://docs.unrealengine.com/latest/INT/Engine/Rendering/Materials/PhysicallyBased/} and\n * [3D Studio Max]{@link http://area.autodesk.com/blogs/the-3ds-max-blog/what039s-new-for-rendering-in-3ds-max-2017}.\n *\n * This approach differs from older approaches in that instead of using\n * approximations for the way in which light interacts with a surface, a\n * physically correct model is used. The idea is that, instead of tweaking\n * materials to look good under specific lighting, a material can be created\n * that will react 'correctly' under all lighting scenarios.\n *\n * In practice this gives a more accurate and realistic looking result than\n * the {@link MeshLambertMaterial} or {@link MeshPhongMaterial}, at the cost of\n * being somewhat more computationally expensive. `MeshStandardMaterial` uses per-fragment\n * shading.\n *\n * Note that for best results you should always specify an environment map when using this material.\n *\n * For a non-technical introduction to the concept of PBR and how to set up a\n * PBR material, check out these articles by the people at [marmoset]{@link https://www.marmoset.co}:\n *\n * - [Basic Theory of Physically Based Rendering]{@link https://www.marmoset.co/posts/basic-theory-of-physically-based-rendering/}\n * - [Physically Based Rendering and You Can Too]{@link https://www.marmoset.co/posts/physically-based-rendering-and-you-can-too/}\n *\n * Technical details of the approach used in three.js (and most other PBR systems) can be found is this\n * [paper from Disney]{@link https://media.disneyanimation.com/uploads/production/publication_asset/48/asset/s2012_pbs_disney_brdf_notes_v3.pdf}\n * (pdf), by Brent Burley.\n *\n * @augments Material\n */\nclass MeshStandardMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh standard material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshStandardMaterial = true;\n\n\t\tthis.type = 'MeshStandardMaterial';\n\n\t\tthis.defines = { 'STANDARD': '' };\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * How rough the material appears. `0.0` means a smooth mirror reflection, `1.0`\n\t\t * means fully diffuse. If `roughnessMap` is also provided,\n\t\t * both values are multiplied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.roughness = 1.0;\n\n\t\t/**\n\t\t * How much the material is like a metal. Non-metallic materials such as wood\n\t\t * or stone use `0.0`, metallic use `1.0`, with nothing (usually) in between.\n\t\t * A value between `0.0` and `1.0` could be used for a rusty metal look.\n\t\t * If `metalnessMap` is also provided, both values are multiplied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.metalness = 0.0;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The green channel of this texture is used to alter the roughness of the\n\t\t * material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.roughnessMap = null;\n\n\t\t/**\n\t\t * The blue channel of this texture is used to alter the metalness of the\n\t\t * material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.metalnessMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map. To ensure a physically correct rendering, environment maps\n\t\t * are internally pre-processed with {@link PMREMGenerator}.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * Scales the effect of the environment map by multiplying its color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.envMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.defines = { 'STANDARD': '' };\n\n\t\tthis.color.copy( source.color );\n\t\tthis.roughness = source.roughness;\n\t\tthis.metalness = source.metalness;\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.roughnessMap = source.roughnessMap;\n\n\t\tthis.metalnessMap = source.metalnessMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.envMapIntensity = source.envMapIntensity;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * An extension of the {@link MeshStandardMaterial}, providing more advanced\n * physically-based rendering properties:\n *\n * - Anisotropy: Ability to represent the anisotropic property of materials\n * as observable with brushed metals.\n * - Clearcoat: Some materials — like car paints, carbon fiber, and wet surfaces — require\n * a clear, reflective layer on top of another layer that may be irregular or rough.\n * Clearcoat approximates this effect, without the need for a separate transparent surface.\n * - Iridescence: Allows to render the effect where hue varies depending on the viewing\n * angle and illumination angle. This can be seen on soap bubbles, oil films, or on the\n * wings of many insects.\n * - Physically-based transparency: One limitation of {@link Material#opacity} is that highly\n * transparent materials are less reflective. Physically-based transmission provides a more\n * realistic option for thin, transparent surfaces like glass.\n * - Advanced reflectivity: More flexible reflectivity for non-metallic materials.\n * - Sheen: Can be used for representing cloth and fabric materials.\n *\n * As a result of these complex shading features, `MeshPhysicalMaterial` has a\n * higher performance cost, per pixel, than other three.js materials. Most\n * effects are disabled by default, and add cost as they are enabled. For\n * best results, always specify an environment map when using this material.\n *\n * @augments MeshStandardMaterial\n */\nclass MeshPhysicalMaterial extends MeshStandardMaterial {\n\n\t/**\n\t * Constructs a new mesh physical material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshPhysicalMaterial = true;\n\n\t\tthis.defines = {\n\n\t\t\t'STANDARD': '',\n\t\t\t'PHYSICAL': ''\n\n\t\t};\n\n\t\tthis.type = 'MeshPhysicalMaterial';\n\n\t\t/**\n\t\t * The rotation of the anisotropy in tangent, bitangent space, measured in radians\n\t\t * counter-clockwise from the tangent. When `anisotropyMap` is present, this\n\t\t * property provides additional rotation to the vectors in the texture.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.anisotropyRotation = 0;\n\n\t\t/**\n\t\t * Red and green channels represent the anisotropy direction in `[-1, 1]` tangent,\n\t\t * bitangent space, to be rotated by `anisotropyRotation`. The blue channel\n\t\t * contains strength as `[0, 1]` to be multiplied by `anisotropy`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.anisotropyMap = null;\n\n\t\t/**\n\t\t * The red channel of this texture is multiplied against `clearcoat`,\n\t\t * for per-pixel control over a coating's intensity.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.clearcoatMap = null;\n\n\t\t/**\n\t\t * Roughness of the clear coat layer, from `0.0` to `1.0`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.clearcoatRoughness = 0.0;\n\n\t\t/**\n\t\t * The green channel of this texture is multiplied against\n\t\t * `clearcoatRoughness`, for per-pixel control over a coating's roughness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.clearcoatRoughnessMap = null;\n\n\t\t/**\n\t\t * How much `clearcoatNormalMap` affects the clear coat layer, from\n\t\t * `(0,0)` to `(1,1)`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.clearcoatNormalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * Can be used to enable independent normals for the clear coat layer.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.clearcoatNormalMap = null;\n\n\t\t/**\n\t\t * Index-of-refraction for non-metallic materials, from `1.0` to `2.333`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1.5\n\t\t */\n\t\tthis.ior = 1.5;\n\n\t\t/**\n\t\t * Degree of reflectivity, from `0.0` to `1.0`. Default is `0.5`, which\n\t\t * corresponds to an index-of-refraction of `1.5`.\n\t\t *\n\t\t * This models the reflectivity of non-metallic materials. It has no effect\n\t\t * when `metalness` is `1.0`\n\t\t *\n\t\t * @name MeshPhysicalMaterial#reflectivity\n\t\t * @type {number}\n\t\t * @default 0.5\n\t\t */\n\t\tObject.defineProperty( this, 'reflectivity', {\n\t\t\tget: function () {\n\n\t\t\t\treturn ( clamp( 2.5 * ( this.ior - 1 ) / ( this.ior + 1 ), 0, 1 ) );\n\n\t\t\t},\n\t\t\tset: function ( reflectivity ) {\n\n\t\t\t\tthis.ior = ( 1 + 0.4 * reflectivity ) / ( 1 - 0.4 * reflectivity );\n\n\t\t\t}\n\t\t} );\n\n\t\t/**\n\t\t * The red channel of this texture is multiplied against `iridescence`, for per-pixel\n\t\t * control over iridescence.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.iridescenceMap = null;\n\n\t\t/**\n\t\t * Strength of the iridescence RGB color shift effect, represented by an index-of-refraction.\n\t\t * Between `1.0` to `2.333`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1.3\n\t\t */\n\t\tthis.iridescenceIOR = 1.3;\n\n\t\t/**\n\t\t *Array of exactly 2 elements, specifying minimum and maximum thickness of the iridescence layer.\n\t\t Thickness of iridescence layer has an equivalent effect of the one `thickness` has on `ior`.\n\t\t *\n\t\t * @type {Array}\n\t\t * @default [100,400]\n\t\t */\n\t\tthis.iridescenceThicknessRange = [ 100, 400 ];\n\n\t\t/**\n\t\t * A texture that defines the thickness of the iridescence layer, stored in the green channel.\n\t\t * Minimum and maximum values of thickness are defined by `iridescenceThicknessRange` array:\n\t\t * - `0.0` in the green channel will result in thickness equal to first element of the array.\n\t\t * - `1.0` in the green channel will result in thickness equal to second element of the array.\n\t\t * - Values in-between will linearly interpolate between the elements of the array.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.iridescenceThicknessMap = null;\n\n\t\t/**\n\t\t * The sheen tint.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.sheenColor = new Color( 0x000000 );\n\n\t\t/**\n\t\t * The RGB channels of this texture are multiplied against `sheenColor`, for per-pixel control\n\t\t * over sheen tint.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.sheenColorMap = null;\n\n\t\t/**\n\t\t * Roughness of the sheen layer, from `0.0` to `1.0`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.sheenRoughness = 1.0;\n\n\t\t/**\n\t\t * The alpha channel of this texture is multiplied against `sheenRoughness`, for per-pixel control\n\t\t * over sheen roughness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.sheenRoughnessMap = null;\n\n\t\t/**\n\t\t * The red channel of this texture is multiplied against `transmission`, for per-pixel control over\n\t\t * optical transparency.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.transmissionMap = null;\n\n\t\t/**\n\t\t * The thickness of the volume beneath the surface. The value is given in the\n\t\t * coordinate space of the mesh. If the value is `0` the material is\n\t\t * thin-walled. Otherwise the material is a volume boundary.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.thickness = 0;\n\n\t\t/**\n\t\t * A texture that defines the thickness, stored in the green channel. This will\n\t\t * be multiplied by `thickness`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.thicknessMap = null;\n\n\t\t/**\n\t\t * Density of the medium given as the average distance that light travels in\n\t\t * the medium before interacting with a particle. The value is given in world\n\t\t * space units, and must be greater than zero.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.attenuationDistance = Infinity;\n\n\t\t/**\n\t\t * The color that white light turns into due to absorption when reaching the\n\t\t * attenuation distance.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.attenuationColor = new Color( 1, 1, 1 );\n\n\t\t/**\n\t\t * A float that scales the amount of specular reflection for non-metals only.\n\t\t * When set to zero, the model is effectively Lambertian. From `0.0` to `1.0`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.specularIntensity = 1.0;\n\n\t\t/**\n\t\t * The alpha channel of this texture is multiplied against `specularIntensity`,\n\t\t * for per-pixel control over specular intensity.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularIntensityMap = null;\n\n\t\t/**\n\t\t * Tints the specular reflection at normal incidence for non-metals only.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.specularColor = new Color( 1, 1, 1 );\n\n\t\t/**\n\t\t * The RGB channels of this texture are multiplied against `specularColor`,\n\t\t * for per-pixel control over specular color.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularColorMap = null;\n\n\t\tthis._anisotropy = 0;\n\t\tthis._clearcoat = 0;\n\t\tthis._dispersion = 0;\n\t\tthis._iridescence = 0;\n\t\tthis._sheen = 0.0;\n\t\tthis._transmission = 0;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\t/**\n\t * The anisotropy strength.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget anisotropy() {\n\n\t\treturn this._anisotropy;\n\n\t}\n\n\tset anisotropy( value ) {\n\n\t\tif ( this._anisotropy > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._anisotropy = value;\n\n\t}\n\n\t/**\n\t * Represents the intensity of the clear coat layer, from `0.0` to `1.0`. Use\n\t * clear coat related properties to enable multilayer materials that have a\n\t * thin translucent layer over the base layer.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget clearcoat() {\n\n\t\treturn this._clearcoat;\n\n\t}\n\n\tset clearcoat( value ) {\n\n\t\tif ( this._clearcoat > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._clearcoat = value;\n\n\t}\n\t/**\n\t * The intensity of the iridescence layer, simulating RGB color shift based on the angle between\n\t * the surface and the viewer, from `0.0` to `1.0`.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget iridescence() {\n\n\t\treturn this._iridescence;\n\n\t}\n\n\tset iridescence( value ) {\n\n\t\tif ( this._iridescence > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._iridescence = value;\n\n\t}\n\n\t/**\n\t * Defines the strength of the angular separation of colors (chromatic aberration) transmitting\n\t * through a relatively clear volume. Any value zero or larger is valid, the typical range of\n\t * realistic values is `[0, 1]`. This property can be only be used with transmissive objects.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget dispersion() {\n\n\t\treturn this._dispersion;\n\n\t}\n\n\tset dispersion( value ) {\n\n\t\tif ( this._dispersion > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._dispersion = value;\n\n\t}\n\n\t/**\n\t * The intensity of the sheen layer, from `0.0` to `1.0`.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget sheen() {\n\n\t\treturn this._sheen;\n\n\t}\n\n\tset sheen( value ) {\n\n\t\tif ( this._sheen > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._sheen = value;\n\n\t}\n\n\t/**\n\t * Degree of transmission (or optical transparency), from `0.0` to `1.0`.\n\t *\n\t * Thin, transparent or semitransparent, plastic or glass materials remain\n\t * largely reflective even if they are fully transmissive. The transmission\n\t * property can be used to model these materials.\n\t *\n\t * When transmission is non-zero, `opacity` should be set to `1`.\n\t *\n\t * @type {number}\n\t * @default 0\n\t */\n\tget transmission() {\n\n\t\treturn this._transmission;\n\n\t}\n\n\tset transmission( value ) {\n\n\t\tif ( this._transmission > 0 !== value > 0 ) {\n\n\t\t\tthis.version ++;\n\n\t\t}\n\n\t\tthis._transmission = value;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.defines = {\n\n\t\t\t'STANDARD': '',\n\t\t\t'PHYSICAL': ''\n\n\t\t};\n\n\t\tthis.anisotropy = source.anisotropy;\n\t\tthis.anisotropyRotation = source.anisotropyRotation;\n\t\tthis.anisotropyMap = source.anisotropyMap;\n\n\t\tthis.clearcoat = source.clearcoat;\n\t\tthis.clearcoatMap = source.clearcoatMap;\n\t\tthis.clearcoatRoughness = source.clearcoatRoughness;\n\t\tthis.clearcoatRoughnessMap = source.clearcoatRoughnessMap;\n\t\tthis.clearcoatNormalMap = source.clearcoatNormalMap;\n\t\tthis.clearcoatNormalScale.copy( source.clearcoatNormalScale );\n\n\t\tthis.dispersion = source.dispersion;\n\t\tthis.ior = source.ior;\n\n\t\tthis.iridescence = source.iridescence;\n\t\tthis.iridescenceMap = source.iridescenceMap;\n\t\tthis.iridescenceIOR = source.iridescenceIOR;\n\t\tthis.iridescenceThicknessRange = [ ...source.iridescenceThicknessRange ];\n\t\tthis.iridescenceThicknessMap = source.iridescenceThicknessMap;\n\n\t\tthis.sheen = source.sheen;\n\t\tthis.sheenColor.copy( source.sheenColor );\n\t\tthis.sheenColorMap = source.sheenColorMap;\n\t\tthis.sheenRoughness = source.sheenRoughness;\n\t\tthis.sheenRoughnessMap = source.sheenRoughnessMap;\n\n\t\tthis.transmission = source.transmission;\n\t\tthis.transmissionMap = source.transmissionMap;\n\n\t\tthis.thickness = source.thickness;\n\t\tthis.thicknessMap = source.thicknessMap;\n\t\tthis.attenuationDistance = source.attenuationDistance;\n\t\tthis.attenuationColor.copy( source.attenuationColor );\n\n\t\tthis.specularIntensity = source.specularIntensity;\n\t\tthis.specularIntensityMap = source.specularIntensityMap;\n\t\tthis.specularColor.copy( source.specularColor );\n\t\tthis.specularColorMap = source.specularColorMap;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for shiny surfaces with specular highlights.\n *\n * The material uses a non-physically based [Blinn-Phong]{@link https://en.wikipedia.org/wiki/Blinn-Phong_shading_model}\n * model for calculating reflectance. Unlike the Lambertian model used in the\n * {@link MeshLambertMaterial} this can simulate shiny surfaces with specular\n * highlights (such as varnished wood). `MeshPhongMaterial` uses per-fragment shading.\n *\n * Performance will generally be greater when using this material over the\n * {@link MeshStandardMaterial} or {@link MeshPhysicalMaterial}, at the cost of\n * some graphical accuracy.\n *\n * @augments Material\n */\nclass MeshPhongMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh phong material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshPhongMaterial = true;\n\n\t\tthis.type = 'MeshPhongMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * Specular color of the material. The default color is set to `0x111111` (very dark grey)\n\t\t *\n\t\t * This defines how shiny the material is and the color of its shine.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.specular = new Color( 0x111111 );\n\n\t\t/**\n\t\t * How shiny the specular highlight is; a higher value gives a sharper highlight.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 30\n\t\t */\n\t\tthis.shininess = 30;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The specular map value affects both how much the specular surface\n\t\t * highlight contributes and how much of the environment map affects the\n\t\t * surface.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * How to combine the result of the surface's color with the environment map, if any.\n\t\t *\n\t\t * When set to `MixOperation`, the {@link MeshBasicMaterial#reflectivity} is used to\n\t\t * blend between the two colors.\n\t\t *\n\t\t * @type {(MultiplyOperation|MixOperation|AddOperation)}\n\t\t * @default MultiplyOperation\n\t\t */\n\t\tthis.combine = MultiplyOperation;\n\n\t\t/**\n\t\t * How much the environment map affects the surface.\n\t\t * The valid range is between `0` (no reflections) and `1` (full reflections).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.reflectivity = 1;\n\n\t\t/**\n\t\t * The index of refraction (IOR) of air (approximately 1) divided by the\n\t\t * index of refraction of the material. It is used with environment mapping\n\t\t * modes {@link CubeRefractionMapping} and {@link EquirectangularRefractionMapping}.\n\t\t * The refraction ratio should not exceed `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.98\n\t\t */\n\t\tthis.refractionRatio = 0.98;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\t\tthis.specular.copy( source.specular );\n\t\tthis.shininess = source.shininess;\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.specularMap = source.specularMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.combine = source.combine;\n\t\tthis.reflectivity = source.reflectivity;\n\t\tthis.refractionRatio = source.refractionRatio;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material implementing toon shading.\n *\n * @augments Material\n */\nclass MeshToonMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh toon material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshToonMaterial = true;\n\n\t\tthis.defines = { 'TOON': '' };\n\n\t\tthis.type = 'MeshToonMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff );\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * Gradient map for toon shading. It's required to set\n\t\t * {@link Texture#minFilter} and {@link Texture#magFilter} to {@linkNearestFilter}\n\t\t * when using this type of texture.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.gradientMap = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\t\tthis.gradientMap = source.gradientMap;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material that maps the normal vectors to RGB colors.\n *\n * @augments Material\n */\nclass MeshNormalMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh normal material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshNormalMaterial = true;\n\n\t\tthis.type = 'MeshNormalMaterial';\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * WebGL and WebGPU ignore this property and always render\n\t\t * 1 pixel wide lines.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for non-shiny surfaces, without specular highlights.\n *\n * The material uses a non-physically based [Lambertian]{@link https://en.wikipedia.org/wiki/Lambertian_reflectance}\n * model for calculating reflectance. This can simulate some surfaces (such\n * as untreated wood or stone) well, but cannot simulate shiny surfaces with\n * specular highlights (such as varnished wood). `MeshLambertMaterial` uses per-fragment\n * shading.\n *\n * Due to the simplicity of the reflectance and illumination models,\n * performance will be greater when using this material over the\n * {@link MeshPhongMaterial}, {@link MeshStandardMaterial} or\n * {@link MeshPhysicalMaterial}, at the cost of some graphical accuracy.\n *\n * @augments Material\n */\nclass MeshLambertMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh lambert material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshLambertMaterial = true;\n\n\t\tthis.type = 'MeshLambertMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The light map. Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.lightMap = null;\n\n\t\t/**\n\t\t * Intensity of the baked light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.lightMapIntensity = 1.0;\n\n\t\t/**\n\t\t * The red channel of this texture is used as the ambient occlusion map.\n\t\t * Requires a second set of UVs.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.aoMap = null;\n\n\t\t/**\n\t\t * Intensity of the ambient occlusion effect. Range is `[0,1]`, where `0`\n\t\t * disables ambient occlusion. Where intensity is `1` and the AO map's\n\t\t * red channel is also `1`, ambient light is fully occluded on a surface.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aoMapIntensity = 1.0;\n\n\t\t/**\n\t\t * Emissive (light) color of the material, essentially a solid color\n\t\t * unaffected by other lighting.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.emissive = new Color( 0x000000 );\n\n\t\t/**\n\t\t * Intensity of the emissive light. Modulates the emissive color.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.emissiveIntensity = 1.0;\n\n\t\t/**\n\t\t * Set emissive (glow) map. The emissive map color is modulated by the\n\t\t * emissive color and the emissive intensity. If you have an emissive map,\n\t\t * be sure to set the emissive color to something other than black.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.emissiveMap = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * Specular map used by the material.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.specularMap = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The environment map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.envMap = null;\n\n\t\t/**\n\t\t * The rotation of the environment map in radians.\n\t\t *\n\t\t * @type {Euler}\n\t\t * @default (0,0,0)\n\t\t */\n\t\tthis.envMapRotation = new Euler();\n\n\t\t/**\n\t\t * How to combine the result of the surface's color with the environment map, if any.\n\t\t *\n\t\t * When set to `MixOperation`, the {@link MeshBasicMaterial#reflectivity} is used to\n\t\t * blend between the two colors.\n\t\t *\n\t\t * @type {(MultiplyOperation|MixOperation|AddOperation)}\n\t\t * @default MultiplyOperation\n\t\t */\n\t\tthis.combine = MultiplyOperation;\n\n\t\t/**\n\t\t * How much the environment map affects the surface.\n\t\t * The valid range is between `0` (no reflections) and `1` (full reflections).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.reflectivity = 1;\n\n\t\t/**\n\t\t * The index of refraction (IOR) of air (approximately 1) divided by the\n\t\t * index of refraction of the material. It is used with environment mapping\n\t\t * modes {@link CubeRefractionMapping} and {@link EquirectangularRefractionMapping}.\n\t\t * The refraction ratio should not exceed `1`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.98\n\t\t */\n\t\tthis.refractionRatio = 0.98;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\t/**\n\t\t * Defines appearance of wireframe ends.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinecap = 'round';\n\n\t\t/**\n\t\t * Defines appearance of wireframe joints.\n\t\t *\n\t\t * Can only be used with {@link SVGRenderer}.\n\t\t *\n\t\t * @type {('round'|'bevel'|'miter')}\n\t\t * @default 'round'\n\t\t */\n\t\tthis.wireframeLinejoin = 'round';\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.map = source.map;\n\n\t\tthis.lightMap = source.lightMap;\n\t\tthis.lightMapIntensity = source.lightMapIntensity;\n\n\t\tthis.aoMap = source.aoMap;\n\t\tthis.aoMapIntensity = source.aoMapIntensity;\n\n\t\tthis.emissive.copy( source.emissive );\n\t\tthis.emissiveMap = source.emissiveMap;\n\t\tthis.emissiveIntensity = source.emissiveIntensity;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.specularMap = source.specularMap;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.envMap = source.envMap;\n\t\tthis.envMapRotation.copy( source.envMapRotation );\n\t\tthis.combine = source.combine;\n\t\tthis.reflectivity = source.reflectivity;\n\t\tthis.refractionRatio = source.refractionRatio;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\t\tthis.wireframeLinecap = source.wireframeLinecap;\n\t\tthis.wireframeLinejoin = source.wireframeLinejoin;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for drawing geometry by depth. Depth is based off of the camera\n * near and far plane. White is nearest, black is farthest.\n *\n * @augments Material\n */\nclass MeshDepthMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh depth material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshDepthMaterial = true;\n\n\t\tthis.type = 'MeshDepthMaterial';\n\n\t\t/**\n\t\t * Type for depth packing.\n\t\t *\n\t\t * @type {(BasicDepthPacking|RGBADepthPacking|RGBDepthPacking|RGDepthPacking)}\n\t\t * @default BasicDepthPacking\n\t\t */\n\t\tthis.depthPacking = BasicDepthPacking;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * Renders the geometry as a wireframe.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.wireframe = false;\n\n\t\t/**\n\t\t * Controls the thickness of the wireframe.\n\t\t *\n\t\t * WebGL and WebGPU ignore this property and always render\n\t\t * 1 pixel wide lines.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.wireframeLinewidth = 1;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.depthPacking = source.depthPacking;\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.wireframe = source.wireframe;\n\t\tthis.wireframeLinewidth = source.wireframeLinewidth;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material used internally for implementing shadow mapping with\n * point lights.\n *\n * Can also be used to customize the shadow casting of an object by assigning\n * an instance of `MeshDistanceMaterial` to {@link Object3D#customDistanceMaterial}.\n * The following examples demonstrates this approach in order to ensure\n * transparent parts of objects do not cast shadows.\n *\n * @augments Material\n */\nclass MeshDistanceMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh distance material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshDistanceMaterial = true;\n\n\t\tthis.type = 'MeshDistanceMaterial';\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.map = source.map;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This material is defined by a MatCap (or Lit Sphere) texture, which encodes the\n * material color and shading.\n *\n * `MeshMatcapMaterial` does not respond to lights since the matcap image file encodes\n * baked lighting. It will cast a shadow onto an object that receives shadows\n * (and shadow clipping works), but it will not self-shadow or receive\n * shadows.\n *\n * @augments Material\n */\nclass MeshMatcapMaterial extends Material {\n\n\t/**\n\t * Constructs a new mesh matcap material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isMeshMatcapMaterial = true;\n\n\t\tthis.defines = { 'MATCAP': '' };\n\n\t\tthis.type = 'MeshMatcapMaterial';\n\n\t\t/**\n\t\t * Color of the material.\n\t\t *\n\t\t * @type {Color}\n\t\t * @default (1,1,1)\n\t\t */\n\t\tthis.color = new Color( 0xffffff ); // diffuse\n\n\t\t/**\n\t\t * The matcap map.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.matcap = null;\n\n\t\t/**\n\t\t * The color map. May optionally include an alpha channel, typically combined\n\t\t * with {@link Material#transparent} or {@link Material#alphaTest}. The texture map\n\t\t * color is modulated by the diffuse `color`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The texture to create a bump map. The black and white values map to the\n\t\t * perceived depth in relation to the lights. Bump doesn't actually affect\n\t\t * the geometry of the object, only the lighting. If a normal map is defined\n\t\t * this will be ignored.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.bumpMap = null;\n\n\t\t/**\n\t\t * How much the bump map affects the material. Typical range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.bumpScale = 1;\n\n\t\t/**\n\t\t * The texture to create a normal map. The RGB values affect the surface\n\t\t * normal for each pixel fragment and change the way the color is lit. Normal\n\t\t * maps do not change the actual shape of the surface, only the lighting. In\n\t\t * case the material has a normal map authored using the left handed\n\t\t * convention, the `y` component of `normalScale` should be negated to compensate\n\t\t * for the different handedness.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.normalMap = null;\n\n\t\t/**\n\t\t * The type of normal map.\n\t\t *\n\t\t * @type {(TangentSpaceNormalMap|ObjectSpaceNormalMap)}\n\t\t * @default TangentSpaceNormalMap\n\t\t */\n\t\tthis.normalMapType = TangentSpaceNormalMap;\n\n\t\t/**\n\t\t * How much the normal map affects the material. Typical value range is `[0,1]`.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (1,1)\n\t\t */\n\t\tthis.normalScale = new Vector2( 1, 1 );\n\n\t\t/**\n\t\t * The displacement map affects the position of the mesh's vertices. Unlike\n\t\t * other maps which only affect the light and shade of the material the\n\t\t * displaced vertices can cast shadows, block other objects, and otherwise\n\t\t * act as real geometry. The displacement texture is an image where the value\n\t\t * of each pixel (white being the highest) is mapped against, and\n\t\t * repositions, the vertices of the mesh.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.displacementMap = null;\n\n\t\t/**\n\t\t * How much the displacement map affects the mesh (where black is no\n\t\t * displacement, and white is maximum displacement). Without a displacement\n\t\t * map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementScale = 1;\n\n\t\t/**\n\t\t * The offset of the displacement map's values on the mesh's vertices.\n\t\t * The bias is added to the scaled sample of the displacement map.\n\t\t * Without a displacement map set, this value is not applied.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.displacementBias = 0;\n\n\t\t/**\n\t\t * The alpha map is a grayscale texture that controls the opacity across the\n\t\t * surface (black: fully transparent; white: fully opaque).\n\t\t *\n\t\t * Only the color of the texture is used, ignoring the alpha channel if one\n\t\t * exists. For RGB and RGBA textures, the renderer will use the green channel\n\t\t * when sampling this texture due to the extra bit of precision provided for\n\t\t * green in DXT-compressed and uncompressed RGB 565 formats. Luminance-only and\n\t\t * luminance/alpha textures will also still work as expected.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.alphaMap = null;\n\n\t\t/**\n\t\t * Whether the material is rendered with flat shading or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.flatShading = false;\n\n\t\t/**\n\t\t * Whether the material is affected by fog or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.fog = true;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.defines = { 'MATCAP': '' };\n\n\t\tthis.color.copy( source.color );\n\n\t\tthis.matcap = source.matcap;\n\n\t\tthis.map = source.map;\n\n\t\tthis.bumpMap = source.bumpMap;\n\t\tthis.bumpScale = source.bumpScale;\n\n\t\tthis.normalMap = source.normalMap;\n\t\tthis.normalMapType = source.normalMapType;\n\t\tthis.normalScale.copy( source.normalScale );\n\n\t\tthis.displacementMap = source.displacementMap;\n\t\tthis.displacementScale = source.displacementScale;\n\t\tthis.displacementBias = source.displacementBias;\n\n\t\tthis.alphaMap = source.alphaMap;\n\n\t\tthis.flatShading = source.flatShading;\n\n\t\tthis.fog = source.fog;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * A material for rendering line primitives.\n *\n * Materials define the appearance of renderable 3D objects.\n *\n * ```js\n * const material = new THREE.LineDashedMaterial( {\n * \tcolor: 0xffffff,\n * \tscale: 1,\n * \tdashSize: 3,\n * \tgapSize: 1,\n * } );\n * ```\n *\n * @augments LineBasicMaterial\n */\nclass LineDashedMaterial extends LineBasicMaterial {\n\n\t/**\n\t * Constructs a new line dashed material.\n\t *\n\t * @param {Object} [parameters] - An object with one or more properties\n\t * defining the material's appearance. Any property of the material\n\t * (including any property from inherited materials) can be passed\n\t * in here. Color values can be passed any type of value accepted\n\t * by {@link Color#set}.\n\t */\n\tconstructor( parameters ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLineDashedMaterial = true;\n\t\tthis.type = 'LineDashedMaterial';\n\n\t\t/**\n\t\t * The scale of the dashed part of a line.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.scale = 1;\n\n\t\t/**\n\t\t * The size of the dash. This is both the gap with the stroke.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 3\n\t\t */\n\t\tthis.dashSize = 3;\n\n\t\t/**\n\t\t * The size of the gap.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.gapSize = 1;\n\n\t\tthis.setValues( parameters );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.scale = source.scale;\n\t\tthis.dashSize = source.dashSize;\n\t\tthis.gapSize = source.gapSize;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Converts an array to a specific type.\n *\n * @param {TypedArray|Array} array - The array to convert.\n * @param {TypedArray.constructor} type - The constructor of a typed array that defines the new type.\n * @return {TypedArray} The converted array.\n */\nfunction convertArray( array, type ) {\n\n\tif ( ! array || array.constructor === type ) return array;\n\n\tif ( typeof type.BYTES_PER_ELEMENT === 'number' ) {\n\n\t\treturn new type( array ); // create typed array\n\n\t}\n\n\treturn Array.prototype.slice.call( array ); // create Array\n\n}\n\n/**\n * Returns `true` if the given object is a typed array.\n *\n * @param {any} object - The object to check.\n * @return {boolean} Whether the given object is a typed array.\n */\nfunction isTypedArray( object ) {\n\n\treturn ArrayBuffer.isView( object ) && ! ( object instanceof DataView );\n\n}\n\n/**\n * Returns an array by which times and values can be sorted.\n *\n * @param {Array} times - The keyframe time values.\n * @return {Array} The array.\n */\nfunction getKeyframeOrder( times ) {\n\n\tfunction compareTime( i, j ) {\n\n\t\treturn times[ i ] - times[ j ];\n\n\t}\n\n\tconst n = times.length;\n\tconst result = new Array( n );\n\tfor ( let i = 0; i !== n; ++ i ) result[ i ] = i;\n\n\tresult.sort( compareTime );\n\n\treturn result;\n\n}\n\n/**\n * Sorts the given array by the previously computed order via `getKeyframeOrder()`.\n *\n * @param {Array} values - The values to sort.\n * @param {number} stride - The stride.\n * @param {Array} order - The sort order.\n * @return {Array} The sorted values.\n */\nfunction sortedArray( values, stride, order ) {\n\n\tconst nValues = values.length;\n\tconst result = new values.constructor( nValues );\n\n\tfor ( let i = 0, dstOffset = 0; dstOffset !== nValues; ++ i ) {\n\n\t\tconst srcOffset = order[ i ] * stride;\n\n\t\tfor ( let j = 0; j !== stride; ++ j ) {\n\n\t\t\tresult[ dstOffset ++ ] = values[ srcOffset + j ];\n\n\t\t}\n\n\t}\n\n\treturn result;\n\n}\n\n/**\n * Used for parsing AOS keyframe formats.\n *\n * @param {Array} jsonKeys - A list of JSON keyframes.\n * @param {Array} times - This array will be filled with keyframe times by this function.\n * @param {Array} values - This array will be filled with keyframe values by this function.\n * @param {string} valuePropertyName - The name of the property to use.\n */\nfunction flattenJSON( jsonKeys, times, values, valuePropertyName ) {\n\n\tlet i = 1, key = jsonKeys[ 0 ];\n\n\twhile ( key !== undefined && key[ valuePropertyName ] === undefined ) {\n\n\t\tkey = jsonKeys[ i ++ ];\n\n\t}\n\n\tif ( key === undefined ) return; // no data\n\n\tlet value = key[ valuePropertyName ];\n\tif ( value === undefined ) return; // no data\n\n\tif ( Array.isArray( value ) ) {\n\n\t\tdo {\n\n\t\t\tvalue = key[ valuePropertyName ];\n\n\t\t\tif ( value !== undefined ) {\n\n\t\t\t\ttimes.push( key.time );\n\t\t\t\tvalues.push( ...value ); // push all elements\n\n\t\t\t}\n\n\t\t\tkey = jsonKeys[ i ++ ];\n\n\t\t} while ( key !== undefined );\n\n\t} else if ( value.toArray !== undefined ) {\n\n\t\t// ...assume THREE.Math-ish\n\n\t\tdo {\n\n\t\t\tvalue = key[ valuePropertyName ];\n\n\t\t\tif ( value !== undefined ) {\n\n\t\t\t\ttimes.push( key.time );\n\t\t\t\tvalue.toArray( values, values.length );\n\n\t\t\t}\n\n\t\t\tkey = jsonKeys[ i ++ ];\n\n\t\t} while ( key !== undefined );\n\n\t} else {\n\n\t\t// otherwise push as-is\n\n\t\tdo {\n\n\t\t\tvalue = key[ valuePropertyName ];\n\n\t\t\tif ( value !== undefined ) {\n\n\t\t\t\ttimes.push( key.time );\n\t\t\t\tvalues.push( value );\n\n\t\t\t}\n\n\t\t\tkey = jsonKeys[ i ++ ];\n\n\t\t} while ( key !== undefined );\n\n\t}\n\n}\n\n/**\n * Creates a new clip, containing only the segment of the original clip between the given frames.\n *\n * @param {AnimationClip} sourceClip - The values to sort.\n * @param {string} name - The name of the clip.\n * @param {number} startFrame - The start frame.\n * @param {number} endFrame - The end frame.\n * @param {number} [fps=30] - The FPS.\n * @return {AnimationClip} The new sub clip.\n */\nfunction subclip( sourceClip, name, startFrame, endFrame, fps = 30 ) {\n\n\tconst clip = sourceClip.clone();\n\n\tclip.name = name;\n\n\tconst tracks = [];\n\n\tfor ( let i = 0; i < clip.tracks.length; ++ i ) {\n\n\t\tconst track = clip.tracks[ i ];\n\t\tconst valueSize = track.getValueSize();\n\n\t\tconst times = [];\n\t\tconst values = [];\n\n\t\tfor ( let j = 0; j < track.times.length; ++ j ) {\n\n\t\t\tconst frame = track.times[ j ] * fps;\n\n\t\t\tif ( frame < startFrame || frame >= endFrame ) continue;\n\n\t\t\ttimes.push( track.times[ j ] );\n\n\t\t\tfor ( let k = 0; k < valueSize; ++ k ) {\n\n\t\t\t\tvalues.push( track.values[ j * valueSize + k ] );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( times.length === 0 ) continue;\n\n\t\ttrack.times = convertArray( times, track.times.constructor );\n\t\ttrack.values = convertArray( values, track.values.constructor );\n\n\t\ttracks.push( track );\n\n\t}\n\n\tclip.tracks = tracks;\n\n\t// find minimum .times value across all tracks in the trimmed clip\n\n\tlet minStartTime = Infinity;\n\n\tfor ( let i = 0; i < clip.tracks.length; ++ i ) {\n\n\t\tif ( minStartTime > clip.tracks[ i ].times[ 0 ] ) {\n\n\t\t\tminStartTime = clip.tracks[ i ].times[ 0 ];\n\n\t\t}\n\n\t}\n\n\t// shift all tracks such that clip begins at t=0\n\n\tfor ( let i = 0; i < clip.tracks.length; ++ i ) {\n\n\t\tclip.tracks[ i ].shift( -1 * minStartTime );\n\n\t}\n\n\tclip.resetDuration();\n\n\treturn clip;\n\n}\n\n/**\n * Converts the keyframes of the given animation clip to an additive format.\n *\n * @param {AnimationClip} targetClip - The clip to make additive.\n * @param {number} [referenceFrame=0] - The reference frame.\n * @param {AnimationClip} [referenceClip=targetClip] - The reference clip.\n * @param {number} [fps=30] - The FPS.\n * @return {AnimationClip} The updated clip which is now additive.\n */\nfunction makeClipAdditive( targetClip, referenceFrame = 0, referenceClip = targetClip, fps = 30 ) {\n\n\tif ( fps <= 0 ) fps = 30;\n\n\tconst numTracks = referenceClip.tracks.length;\n\tconst referenceTime = referenceFrame / fps;\n\n\t// Make each track's values relative to the values at the reference frame\n\tfor ( let i = 0; i < numTracks; ++ i ) {\n\n\t\tconst referenceTrack = referenceClip.tracks[ i ];\n\t\tconst referenceTrackType = referenceTrack.ValueTypeName;\n\n\t\t// Skip this track if it's non-numeric\n\t\tif ( referenceTrackType === 'bool' || referenceTrackType === 'string' ) continue;\n\n\t\t// Find the track in the target clip whose name and type matches the reference track\n\t\tconst targetTrack = targetClip.tracks.find( function ( track ) {\n\n\t\t\treturn track.name === referenceTrack.name\n\t\t\t\t&& track.ValueTypeName === referenceTrackType;\n\n\t\t} );\n\n\t\tif ( targetTrack === undefined ) continue;\n\n\t\tlet referenceOffset = 0;\n\t\tconst referenceValueSize = referenceTrack.getValueSize();\n\n\t\tif ( referenceTrack.createInterpolant.isInterpolantFactoryMethodGLTFCubicSpline ) {\n\n\t\t\treferenceOffset = referenceValueSize / 3;\n\n\t\t}\n\n\t\tlet targetOffset = 0;\n\t\tconst targetValueSize = targetTrack.getValueSize();\n\n\t\tif ( targetTrack.createInterpolant.isInterpolantFactoryMethodGLTFCubicSpline ) {\n\n\t\t\ttargetOffset = targetValueSize / 3;\n\n\t\t}\n\n\t\tconst lastIndex = referenceTrack.times.length - 1;\n\t\tlet referenceValue;\n\n\t\t// Find the value to subtract out of the track\n\t\tif ( referenceTime <= referenceTrack.times[ 0 ] ) {\n\n\t\t\t// Reference frame is earlier than the first keyframe, so just use the first keyframe\n\t\t\tconst startIndex = referenceOffset;\n\t\t\tconst endIndex = referenceValueSize - referenceOffset;\n\t\t\treferenceValue = referenceTrack.values.slice( startIndex, endIndex );\n\n\t\t} else if ( referenceTime >= referenceTrack.times[ lastIndex ] ) {\n\n\t\t\t// Reference frame is after the last keyframe, so just use the last keyframe\n\t\t\tconst startIndex = lastIndex * referenceValueSize + referenceOffset;\n\t\t\tconst endIndex = startIndex + referenceValueSize - referenceOffset;\n\t\t\treferenceValue = referenceTrack.values.slice( startIndex, endIndex );\n\n\t\t} else {\n\n\t\t\t// Interpolate to the reference value\n\t\t\tconst interpolant = referenceTrack.createInterpolant();\n\t\t\tconst startIndex = referenceOffset;\n\t\t\tconst endIndex = referenceValueSize - referenceOffset;\n\t\t\tinterpolant.evaluate( referenceTime );\n\t\t\treferenceValue = interpolant.resultBuffer.slice( startIndex, endIndex );\n\n\t\t}\n\n\t\t// Conjugate the quaternion\n\t\tif ( referenceTrackType === 'quaternion' ) {\n\n\t\t\tconst referenceQuat = new Quaternion().fromArray( referenceValue ).normalize().conjugate();\n\t\t\treferenceQuat.toArray( referenceValue );\n\n\t\t}\n\n\t\t// Subtract the reference value from all of the track values\n\n\t\tconst numTimes = targetTrack.times.length;\n\t\tfor ( let j = 0; j < numTimes; ++ j ) {\n\n\t\t\tconst valueStart = j * targetValueSize + targetOffset;\n\n\t\t\tif ( referenceTrackType === 'quaternion' ) {\n\n\t\t\t\t// Multiply the conjugate for quaternion track types\n\t\t\t\tQuaternion.multiplyQuaternionsFlat(\n\t\t\t\t\ttargetTrack.values,\n\t\t\t\t\tvalueStart,\n\t\t\t\t\treferenceValue,\n\t\t\t\t\t0,\n\t\t\t\t\ttargetTrack.values,\n\t\t\t\t\tvalueStart\n\t\t\t\t);\n\n\t\t\t} else {\n\n\t\t\t\tconst valueEnd = targetValueSize - targetOffset * 2;\n\n\t\t\t\t// Subtract each value for all other numeric track types\n\t\t\t\tfor ( let k = 0; k < valueEnd; ++ k ) {\n\n\t\t\t\t\ttargetTrack.values[ valueStart + k ] -= referenceValue[ k ];\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\ttargetClip.blendMode = AdditiveAnimationBlendMode;\n\n\treturn targetClip;\n\n}\n\n/**\n * A class with various methods to assist with animations.\n *\n * @hideconstructor\n */\nclass AnimationUtils {\n\n\t/**\n\t * Converts an array to a specific type\n\t *\n\t * @static\n\t * @param {TypedArray|Array} array - The array to convert.\n\t * @param {TypedArray.constructor} type - The constructor of a type array.\n\t * @return {TypedArray} The converted array\n\t */\n\tstatic convertArray( array, type ) {\n\n\t\treturn convertArray( array, type );\n\n\t}\n\n\t/**\n\t * Returns `true` if the given object is a typed array.\n\t *\n\t * @static\n\t * @param {any} object - The object to check.\n\t * @return {boolean} Whether the given object is a typed array.\n\t */\n\tstatic isTypedArray( object ) {\n\n\t\treturn isTypedArray( object );\n\n\t}\n\n\t/**\n\t * Returns an array by which times and values can be sorted.\n\t *\n\t * @static\n\t * @param {Array} times - The keyframe time values.\n\t * @return {Array} The array.\n\t */\n\tstatic getKeyframeOrder( times ) {\n\n\t\treturn getKeyframeOrder( times );\n\n\t}\n\n\t/**\n\t * Sorts the given array by the previously computed order via `getKeyframeOrder()`.\n\t *\n\t * @static\n\t * @param {Array} values - The values to sort.\n\t * @param {number} stride - The stride.\n\t * @param {Array} order - The sort order.\n\t * @return {Array} The sorted values.\n\t */\n\tstatic sortedArray( values, stride, order ) {\n\n\t\treturn sortedArray( values, stride, order );\n\n\t}\n\n\t/**\n\t * Used for parsing AOS keyframe formats.\n\t *\n\t * @static\n\t * @param {Array} jsonKeys - A list of JSON keyframes.\n\t * @param {Array} times - This array will be filled with keyframe times by this method.\n\t * @param {Array} values - This array will be filled with keyframe values by this method.\n\t * @param {string} valuePropertyName - The name of the property to use.\n\t */\n\tstatic flattenJSON( jsonKeys, times, values, valuePropertyName ) {\n\n\t\tflattenJSON( jsonKeys, times, values, valuePropertyName );\n\n\t}\n\n\t/**\n\t * Creates a new clip, containing only the segment of the original clip between the given frames.\n\t *\n\t * @static\n\t * @param {AnimationClip} sourceClip - The values to sort.\n\t * @param {string} name - The name of the clip.\n\t * @param {number} startFrame - The start frame.\n\t * @param {number} endFrame - The end frame.\n\t * @param {number} [fps=30] - The FPS.\n\t * @return {AnimationClip} The new sub clip.\n\t */\n\tstatic subclip( sourceClip, name, startFrame, endFrame, fps = 30 ) {\n\n\t\treturn subclip( sourceClip, name, startFrame, endFrame, fps );\n\n\t}\n\n\t/**\n\t * Converts the keyframes of the given animation clip to an additive format.\n\t *\n\t * @static\n\t * @param {AnimationClip} targetClip - The clip to make additive.\n\t * @param {number} [referenceFrame=0] - The reference frame.\n\t * @param {AnimationClip} [referenceClip=targetClip] - The reference clip.\n\t * @param {number} [fps=30] - The FPS.\n\t * @return {AnimationClip} The updated clip which is now additive.\n\t */\n\tstatic makeClipAdditive( targetClip, referenceFrame = 0, referenceClip = targetClip, fps = 30 ) {\n\n\t\treturn makeClipAdditive( targetClip, referenceFrame, referenceClip, fps );\n\n\t}\n\n}\n\n/**\n * Abstract base class of interpolants over parametric samples.\n *\n * The parameter domain is one dimensional, typically the time or a path\n * along a curve defined by the data.\n *\n * The sample values can have any dimensionality and derived classes may\n * apply special interpretations to the data.\n *\n * This class provides the interval seek in a Template Method, deferring\n * the actual interpolation to derived classes.\n *\n * Time complexity is O(1) for linear access crossing at most two points\n * and O(log N) for random access, where N is the number of positions.\n *\n * References: {@link http://www.oodesign.com/template-method-pattern.html}\n *\n * @abstract\n */\nclass Interpolant {\n\n\t/**\n\t * Constructs a new interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\t/**\n\t\t * The parameter positions.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.parameterPositions = parameterPositions;\n\n\t\t/**\n\t\t * A cache index.\n\t\t *\n\t\t * @private\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis._cachedIndex = 0;\n\n\t\t/**\n\t\t * The result buffer.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.resultBuffer = resultBuffer !== undefined ? resultBuffer : new sampleValues.constructor( sampleSize );\n\n\t\t/**\n\t\t * The sample values.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.sampleValues = sampleValues;\n\n\t\t/**\n\t\t * The value size.\n\t\t *\n\t\t * @type {TypedArray}\n\t\t */\n\t\tthis.valueSize = sampleSize;\n\n\t\t/**\n\t\t * The interpolation settings.\n\t\t *\n\t\t * @type {?Object}\n\t\t * @default null\n\t\t */\n\t\tthis.settings = null;\n\n\t\t/**\n\t\t * The default settings object.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.DefaultSettings_ = {};\n\n\t}\n\n\t/**\n\t * Evaluate the interpolant at position `t`.\n\t *\n\t * @param {number} t - The interpolation factor.\n\t * @return {TypedArray} The result buffer.\n\t */\n\tevaluate( t ) {\n\n\t\tconst pp = this.parameterPositions;\n\t\tlet i1 = this._cachedIndex,\n\t\t\tt1 = pp[ i1 ],\n\t\t\tt0 = pp[ i1 - 1 ];\n\n\t\tvalidate_interval: {\n\n\t\t\tseek: {\n\n\t\t\t\tlet right;\n\n\t\t\t\tlinear_scan: {\n\n\t\t\t\t\t//- See http://jsperf.com/comparison-to-undefined/3\n\t\t\t\t\t//- slower code:\n\t\t\t\t\t//-\n\t\t\t\t\t//- \t\t\t\tif ( t >= t1 || t1 === undefined ) {\n\t\t\t\t\tforward_scan: if ( ! ( t < t1 ) ) {\n\n\t\t\t\t\t\tfor ( let giveUpAt = i1 + 2; ; ) {\n\n\t\t\t\t\t\t\tif ( t1 === undefined ) {\n\n\t\t\t\t\t\t\t\tif ( t < t0 ) break forward_scan;\n\n\t\t\t\t\t\t\t\t// after end\n\n\t\t\t\t\t\t\t\ti1 = pp.length;\n\t\t\t\t\t\t\t\tthis._cachedIndex = i1;\n\t\t\t\t\t\t\t\treturn this.copySampleValue_( i1 - 1 );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\tif ( i1 === giveUpAt ) break; // this loop\n\n\t\t\t\t\t\t\tt0 = t1;\n\t\t\t\t\t\t\tt1 = pp[ ++ i1 ];\n\n\t\t\t\t\t\t\tif ( t < t1 ) {\n\n\t\t\t\t\t\t\t\t// we have arrived at the sought interval\n\t\t\t\t\t\t\t\tbreak seek;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\t// prepare binary search on the right side of the index\n\t\t\t\t\t\tright = pp.length;\n\t\t\t\t\t\tbreak linear_scan;\n\n\t\t\t\t\t}\n\n\t\t\t\t\t//- slower code:\n\t\t\t\t\t//-\t\t\t\t\tif ( t < t0 || t0 === undefined ) {\n\t\t\t\t\tif ( ! ( t >= t0 ) ) {\n\n\t\t\t\t\t\t// looping?\n\n\t\t\t\t\t\tconst t1global = pp[ 1 ];\n\n\t\t\t\t\t\tif ( t < t1global ) {\n\n\t\t\t\t\t\t\ti1 = 2; // + 1, using the scan for the details\n\t\t\t\t\t\t\tt0 = t1global;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\t// linear reverse scan\n\n\t\t\t\t\t\tfor ( let giveUpAt = i1 - 2; ; ) {\n\n\t\t\t\t\t\t\tif ( t0 === undefined ) {\n\n\t\t\t\t\t\t\t\t// before start\n\n\t\t\t\t\t\t\t\tthis._cachedIndex = 0;\n\t\t\t\t\t\t\t\treturn this.copySampleValue_( 0 );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\tif ( i1 === giveUpAt ) break; // this loop\n\n\t\t\t\t\t\t\tt1 = t0;\n\t\t\t\t\t\t\tt0 = pp[ -- i1 - 1 ];\n\n\t\t\t\t\t\t\tif ( t >= t0 ) {\n\n\t\t\t\t\t\t\t\t// we have arrived at the sought interval\n\t\t\t\t\t\t\t\tbreak seek;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\t// prepare binary search on the left side of the index\n\t\t\t\t\t\tright = i1;\n\t\t\t\t\t\ti1 = 0;\n\t\t\t\t\t\tbreak linear_scan;\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// the interval is valid\n\n\t\t\t\t\tbreak validate_interval;\n\n\t\t\t\t} // linear scan\n\n\t\t\t\t// binary search\n\n\t\t\t\twhile ( i1 < right ) {\n\n\t\t\t\t\tconst mid = ( i1 + right ) >>> 1;\n\n\t\t\t\t\tif ( t < pp[ mid ] ) {\n\n\t\t\t\t\t\tright = mid;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ti1 = mid + 1;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tt1 = pp[ i1 ];\n\t\t\t\tt0 = pp[ i1 - 1 ];\n\n\t\t\t\t// check boundary cases, again\n\n\t\t\t\tif ( t0 === undefined ) {\n\n\t\t\t\t\tthis._cachedIndex = 0;\n\t\t\t\t\treturn this.copySampleValue_( 0 );\n\n\t\t\t\t}\n\n\t\t\t\tif ( t1 === undefined ) {\n\n\t\t\t\t\ti1 = pp.length;\n\t\t\t\t\tthis._cachedIndex = i1;\n\t\t\t\t\treturn this.copySampleValue_( i1 - 1 );\n\n\t\t\t\t}\n\n\t\t\t} // seek\n\n\t\t\tthis._cachedIndex = i1;\n\n\t\t\tthis.intervalChanged_( i1, t0, t1 );\n\n\t\t} // validate_interval\n\n\t\treturn this.interpolate_( i1, t0, t, t1 );\n\n\t}\n\n\t/**\n\t * Returns the interpolation settings.\n\t *\n\t * @return {Object} The interpolation settings.\n\t */\n\tgetSettings_() {\n\n\t\treturn this.settings || this.DefaultSettings_;\n\n\t}\n\n\t/**\n\t * Copies a sample value to the result buffer.\n\t *\n\t * @param {number} index - An index into the sample value buffer.\n\t * @return {TypedArray} The result buffer.\n\t */\n\tcopySampleValue_( index ) {\n\n\t\t// copies a sample value to the result buffer\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\t\t\toffset = index * stride;\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tresult[ i ] = values[ offset + i ];\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n\t/**\n\t * Copies a sample value to the result buffer.\n\t *\n\t * @abstract\n\t * @param {number} i1 - An index into the sample value buffer.\n\t * @param {number} t0 - The previous interpolation factor.\n\t * @param {number} t - The current interpolation factor.\n\t * @param {number} t1 - The next interpolation factor.\n\t * @return {TypedArray} The result buffer.\n\t */\n\tinterpolate_( /* i1, t0, t, t1 */ ) {\n\n\t\tthrow new Error( 'call to abstract method' );\n\t\t// implementations shall return this.resultBuffer\n\n\t}\n\n\t/**\n\t * Optional method that is executed when the interval has changed.\n\t *\n\t * @param {number} i1 - An index into the sample value buffer.\n\t * @param {number} t0 - The previous interpolation factor.\n\t * @param {number} t - The current interpolation factor.\n\t */\n\tintervalChanged_( /* i1, t0, t1 */ ) {\n\n\t\t// empty\n\n\t}\n\n}\n\n/**\n * Fast and simple cubic spline interpolant.\n *\n * It was derived from a Hermitian construction setting the first derivative\n * at each sample position to the linear slope between neighboring positions\n * over their parameter interval.\n *\n * @augments Interpolant\n */\nclass CubicInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new cubic interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t\tthis._weightPrev = -0;\n\t\tthis._offsetPrev = -0;\n\t\tthis._weightNext = -0;\n\t\tthis._offsetNext = -0;\n\n\t\tthis.DefaultSettings_ = {\n\n\t\t\tendingStart: ZeroCurvatureEnding,\n\t\t\tendingEnd: ZeroCurvatureEnding\n\n\t\t};\n\n\t}\n\n\tintervalChanged_( i1, t0, t1 ) {\n\n\t\tconst pp = this.parameterPositions;\n\t\tlet iPrev = i1 - 2,\n\t\t\tiNext = i1 + 1,\n\n\t\t\ttPrev = pp[ iPrev ],\n\t\t\ttNext = pp[ iNext ];\n\n\t\tif ( tPrev === undefined ) {\n\n\t\t\tswitch ( this.getSettings_().endingStart ) {\n\n\t\t\t\tcase ZeroSlopeEnding:\n\n\t\t\t\t\t// f'(t0) = 0\n\t\t\t\t\tiPrev = i1;\n\t\t\t\t\ttPrev = 2 * t0 - t1;\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase WrapAroundEnding:\n\n\t\t\t\t\t// use the other end of the curve\n\t\t\t\t\tiPrev = pp.length - 2;\n\t\t\t\t\ttPrev = t0 + pp[ iPrev ] - pp[ iPrev + 1 ];\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault: // ZeroCurvatureEnding\n\n\t\t\t\t\t// f''(t0) = 0 a.k.a. Natural Spline\n\t\t\t\t\tiPrev = i1;\n\t\t\t\t\ttPrev = t1;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( tNext === undefined ) {\n\n\t\t\tswitch ( this.getSettings_().endingEnd ) {\n\n\t\t\t\tcase ZeroSlopeEnding:\n\n\t\t\t\t\t// f'(tN) = 0\n\t\t\t\t\tiNext = i1;\n\t\t\t\t\ttNext = 2 * t1 - t0;\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase WrapAroundEnding:\n\n\t\t\t\t\t// use the other end of the curve\n\t\t\t\t\tiNext = 1;\n\t\t\t\t\ttNext = t1 + pp[ 1 ] - pp[ 0 ];\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault: // ZeroCurvatureEnding\n\n\t\t\t\t\t// f''(tN) = 0, a.k.a. Natural Spline\n\t\t\t\t\tiNext = i1 - 1;\n\t\t\t\t\ttNext = t0;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst halfDt = ( t1 - t0 ) * 0.5,\n\t\t\tstride = this.valueSize;\n\n\t\tthis._weightPrev = halfDt / ( t0 - tPrev );\n\t\tthis._weightNext = halfDt / ( tNext - t1 );\n\t\tthis._offsetPrev = iPrev * stride;\n\t\tthis._offsetNext = iNext * stride;\n\n\t}\n\n\tinterpolate_( i1, t0, t, t1 ) {\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\n\t\t\to1 = i1 * stride,\t\to0 = o1 - stride,\n\t\t\toP = this._offsetPrev, \toN = this._offsetNext,\n\t\t\twP = this._weightPrev,\twN = this._weightNext,\n\n\t\t\tp = ( t - t0 ) / ( t1 - t0 ),\n\t\t\tpp = p * p,\n\t\t\tppp = pp * p;\n\n\t\t// evaluate polynomials\n\n\t\tconst sP = - wP * ppp + 2 * wP * pp - wP * p;\n\t\tconst s0 = ( 1 + wP ) * ppp + ( -1.5 - 2 * wP ) * pp + ( -0.5 + wP ) * p + 1;\n\t\tconst s1 = ( -1 - wN ) * ppp + ( 1.5 + wN ) * pp + 0.5 * p;\n\t\tconst sN = wN * ppp - wN * pp;\n\n\t\t// combine data linearly\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tresult[ i ] =\n\t\t\t\t\tsP * values[ oP + i ] +\n\t\t\t\t\ts0 * values[ o0 + i ] +\n\t\t\t\t\ts1 * values[ o1 + i ] +\n\t\t\t\t\tsN * values[ oN + i ];\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n}\n\n/**\n * A basic linear interpolant.\n *\n * @augments Interpolant\n */\nclass LinearInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new linear interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t}\n\n\tinterpolate_( i1, t0, t, t1 ) {\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\n\t\t\toffset1 = i1 * stride,\n\t\t\toffset0 = offset1 - stride,\n\n\t\t\tweight1 = ( t - t0 ) / ( t1 - t0 ),\n\t\t\tweight0 = 1 - weight1;\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tresult[ i ] =\n\t\t\t\t\tvalues[ offset0 + i ] * weight0 +\n\t\t\t\t\tvalues[ offset1 + i ] * weight1;\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n}\n\n/**\n * Interpolant that evaluates to the sample value at the position preceding\n * the parameter.\n *\n * @augments Interpolant\n */\nclass DiscreteInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new discrete interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t}\n\n\tinterpolate_( i1 /*, t0, t, t1 */ ) {\n\n\t\treturn this.copySampleValue_( i1 - 1 );\n\n\t}\n\n}\n\n/**\n * Represents s a timed sequence of keyframes, which are composed of lists of\n * times and related values, and which are used to animate a specific property\n * of an object.\n */\nclass KeyframeTrack {\n\n\t/**\n\t * Constructs a new keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tif ( name === undefined ) throw new Error( 'THREE.KeyframeTrack: track name is undefined' );\n\t\tif ( times === undefined || times.length === 0 ) throw new Error( 'THREE.KeyframeTrack: no keyframes in track named ' + name );\n\n\t\t/**\n\t\t * The track's name can refer to morph targets or bones or\n\t\t * possibly other values within an animated object. See {@link PropertyBinding#parseTrackName}\n\t\t * for the forms of strings that can be parsed for property binding.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = name;\n\n\t\t/**\n\t\t * The keyframe times.\n\t\t *\n\t\t * @type {Float32Array}\n\t\t */\n\t\tthis.times = convertArray( times, this.TimeBufferType );\n\n\t\t/**\n\t\t * The keyframe values.\n\t\t *\n\t\t * @type {Float32Array}\n\t\t */\n\t\tthis.values = convertArray( values, this.ValueBufferType );\n\n\t\tthis.setInterpolation( interpolation || this.DefaultInterpolation );\n\n\t}\n\n\t/**\n\t * Converts the keyframe track to JSON.\n\t *\n\t * @static\n\t * @param {KeyframeTrack} track - The keyframe track to serialize.\n\t * @return {Object} The serialized keyframe track as JSON.\n\t */\n\tstatic toJSON( track ) {\n\n\t\tconst trackType = track.constructor;\n\n\t\tlet json;\n\n\t\t// derived classes can define a static toJSON method\n\t\tif ( trackType.toJSON !== this.toJSON ) {\n\n\t\t\tjson = trackType.toJSON( track );\n\n\t\t} else {\n\n\t\t\t// by default, we assume the data can be serialized as-is\n\t\t\tjson = {\n\n\t\t\t\t'name': track.name,\n\t\t\t\t'times': convertArray( track.times, Array ),\n\t\t\t\t'values': convertArray( track.values, Array )\n\n\t\t\t};\n\n\t\t\tconst interpolation = track.getInterpolation();\n\n\t\t\tif ( interpolation !== track.DefaultInterpolation ) {\n\n\t\t\t\tjson.interpolation = interpolation;\n\n\t\t\t}\n\n\t\t}\n\n\t\tjson.type = track.ValueTypeName; // mandatory\n\n\t\treturn json;\n\n\t}\n\n\t/**\n\t * Factory method for creating a new discrete interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {DiscreteInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodDiscrete( result ) {\n\n\t\treturn new DiscreteInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n\t/**\n\t * Factory method for creating a new linear interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {LinearInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodLinear( result ) {\n\n\t\treturn new LinearInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n\t/**\n\t * Factory method for creating a new smooth interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {CubicInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodSmooth( result ) {\n\n\t\treturn new CubicInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n\t/**\n\t * Defines the interpolation factor method for this keyframe track.\n\t *\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} interpolation - The interpolation type.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\tsetInterpolation( interpolation ) {\n\n\t\tlet factoryMethod;\n\n\t\tswitch ( interpolation ) {\n\n\t\t\tcase InterpolateDiscrete:\n\n\t\t\t\tfactoryMethod = this.InterpolantFactoryMethodDiscrete;\n\n\t\t\t\tbreak;\n\n\t\t\tcase InterpolateLinear:\n\n\t\t\t\tfactoryMethod = this.InterpolantFactoryMethodLinear;\n\n\t\t\t\tbreak;\n\n\t\t\tcase InterpolateSmooth:\n\n\t\t\t\tfactoryMethod = this.InterpolantFactoryMethodSmooth;\n\n\t\t\t\tbreak;\n\n\t\t}\n\n\t\tif ( factoryMethod === undefined ) {\n\n\t\t\tconst message = 'unsupported interpolation for ' +\n\t\t\t\tthis.ValueTypeName + ' keyframe track named ' + this.name;\n\n\t\t\tif ( this.createInterpolant === undefined ) {\n\n\t\t\t\t// fall back to default, unless the default itself is messed up\n\t\t\t\tif ( interpolation !== this.DefaultInterpolation ) {\n\n\t\t\t\t\tthis.setInterpolation( this.DefaultInterpolation );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthrow new Error( message ); // fatal, in this case\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tconsole.warn( 'THREE.KeyframeTrack:', message );\n\t\t\treturn this;\n\n\t\t}\n\n\t\tthis.createInterpolant = factoryMethod;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current interpolation type.\n\t *\n\t * @return {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} The interpolation type.\n\t */\n\tgetInterpolation() {\n\n\t\tswitch ( this.createInterpolant ) {\n\n\t\t\tcase this.InterpolantFactoryMethodDiscrete:\n\n\t\t\t\treturn InterpolateDiscrete;\n\n\t\t\tcase this.InterpolantFactoryMethodLinear:\n\n\t\t\t\treturn InterpolateLinear;\n\n\t\t\tcase this.InterpolantFactoryMethodSmooth:\n\n\t\t\t\treturn InterpolateSmooth;\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Returns the value size.\n\t *\n\t * @return {number} The value size.\n\t */\n\tgetValueSize() {\n\n\t\treturn this.values.length / this.times.length;\n\n\t}\n\n\t/**\n\t * Moves all keyframes either forward or backward in time.\n\t *\n\t * @param {number} timeOffset - The offset to move the time values.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\tshift( timeOffset ) {\n\n\t\tif ( timeOffset !== 0.0 ) {\n\n\t\t\tconst times = this.times;\n\n\t\t\tfor ( let i = 0, n = times.length; i !== n; ++ i ) {\n\n\t\t\t\ttimes[ i ] += timeOffset;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scale all keyframe times by a factor (useful for frame - seconds conversions).\n\t *\n\t * @param {number} timeScale - The time scale.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\tscale( timeScale ) {\n\n\t\tif ( timeScale !== 1.0 ) {\n\n\t\t\tconst times = this.times;\n\n\t\t\tfor ( let i = 0, n = times.length; i !== n; ++ i ) {\n\n\t\t\t\ttimes[ i ] *= timeScale;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes keyframes before and after animation without changing any values within the defined time range.\n\t *\n\t * Note: The method does not shift around keys to the start of the track time, because for interpolated\n\t * keys this will change their values\n\t *\n\t * @param {number} startTime - The start time.\n\t * @param {number} endTime - The end time.\n\t * @return {KeyframeTrack} A reference to this keyframe track.\n\t */\n\ttrim( startTime, endTime ) {\n\n\t\tconst times = this.times,\n\t\t\tnKeys = times.length;\n\n\t\tlet from = 0,\n\t\t\tto = nKeys - 1;\n\n\t\twhile ( from !== nKeys && times[ from ] < startTime ) {\n\n\t\t\t++ from;\n\n\t\t}\n\n\t\twhile ( to !== -1 && times[ to ] > endTime ) {\n\n\t\t\t-- to;\n\n\t\t}\n\n\t\t++ to; // inclusive -> exclusive bound\n\n\t\tif ( from !== 0 || to !== nKeys ) {\n\n\t\t\t// empty tracks are forbidden, so keep at least one keyframe\n\t\t\tif ( from >= to ) {\n\n\t\t\t\tto = Math.max( to, 1 );\n\t\t\t\tfrom = to - 1;\n\n\t\t\t}\n\n\t\t\tconst stride = this.getValueSize();\n\t\t\tthis.times = times.slice( from, to );\n\t\t\tthis.values = this.values.slice( from * stride, to * stride );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs minimal validation on the keyframe track. Returns `true` if the values\n\t * are valid.\n\t *\n\t * @return {boolean} Whether the keyframes are valid or not.\n\t */\n\tvalidate() {\n\n\t\tlet valid = true;\n\n\t\tconst valueSize = this.getValueSize();\n\t\tif ( valueSize - Math.floor( valueSize ) !== 0 ) {\n\n\t\t\tconsole.error( 'THREE.KeyframeTrack: Invalid value size in track.', this );\n\t\t\tvalid = false;\n\n\t\t}\n\n\t\tconst times = this.times,\n\t\t\tvalues = this.values,\n\n\t\t\tnKeys = times.length;\n\n\t\tif ( nKeys === 0 ) {\n\n\t\t\tconsole.error( 'THREE.KeyframeTrack: Track is empty.', this );\n\t\t\tvalid = false;\n\n\t\t}\n\n\t\tlet prevTime = null;\n\n\t\tfor ( let i = 0; i !== nKeys; i ++ ) {\n\n\t\t\tconst currTime = times[ i ];\n\n\t\t\tif ( typeof currTime === 'number' && isNaN( currTime ) ) {\n\n\t\t\t\tconsole.error( 'THREE.KeyframeTrack: Time is not a valid number.', this, i, currTime );\n\t\t\t\tvalid = false;\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t\tif ( prevTime !== null && prevTime > currTime ) {\n\n\t\t\t\tconsole.error( 'THREE.KeyframeTrack: Out of order keys.', this, i, currTime, prevTime );\n\t\t\t\tvalid = false;\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t\tprevTime = currTime;\n\n\t\t}\n\n\t\tif ( values !== undefined ) {\n\n\t\t\tif ( isTypedArray( values ) ) {\n\n\t\t\t\tfor ( let i = 0, n = values.length; i !== n; ++ i ) {\n\n\t\t\t\t\tconst value = values[ i ];\n\n\t\t\t\t\tif ( isNaN( value ) ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.KeyframeTrack: Value is not a valid number.', this, i, value );\n\t\t\t\t\t\tvalid = false;\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn valid;\n\n\t}\n\n\t/**\n\t * Optimizes this keyframe track by removing equivalent sequential keys (which are\n\t * common in morph target sequences).\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\toptimize() {\n\n\t\t// (0,0,0,0,1,1,1,0,0,0,0,0,0,0) --> (0,0,1,1,0,0)\n\n\t\t// times or values may be shared with other tracks, so overwriting is unsafe\n\t\tconst times = this.times.slice(),\n\t\t\tvalues = this.values.slice(),\n\t\t\tstride = this.getValueSize(),\n\n\t\t\tsmoothInterpolation = this.getInterpolation() === InterpolateSmooth,\n\n\t\t\tlastIndex = times.length - 1;\n\n\t\tlet writeIndex = 1;\n\n\t\tfor ( let i = 1; i < lastIndex; ++ i ) {\n\n\t\t\tlet keep = false;\n\n\t\t\tconst time = times[ i ];\n\t\t\tconst timeNext = times[ i + 1 ];\n\n\t\t\t// remove adjacent keyframes scheduled at the same time\n\n\t\t\tif ( time !== timeNext && ( i !== 1 || time !== times[ 0 ] ) ) {\n\n\t\t\t\tif ( ! smoothInterpolation ) {\n\n\t\t\t\t\t// remove unnecessary keyframes same as their neighbors\n\n\t\t\t\t\tconst offset = i * stride,\n\t\t\t\t\t\toffsetP = offset - stride,\n\t\t\t\t\t\toffsetN = offset + stride;\n\n\t\t\t\t\tfor ( let j = 0; j !== stride; ++ j ) {\n\n\t\t\t\t\t\tconst value = values[ offset + j ];\n\n\t\t\t\t\t\tif ( value !== values[ offsetP + j ] ||\n\t\t\t\t\t\t\tvalue !== values[ offsetN + j ] ) {\n\n\t\t\t\t\t\t\tkeep = true;\n\t\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\tkeep = true;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\t// in-place compaction\n\n\t\t\tif ( keep ) {\n\n\t\t\t\tif ( i !== writeIndex ) {\n\n\t\t\t\t\ttimes[ writeIndex ] = times[ i ];\n\n\t\t\t\t\tconst readOffset = i * stride,\n\t\t\t\t\t\twriteOffset = writeIndex * stride;\n\n\t\t\t\t\tfor ( let j = 0; j !== stride; ++ j ) {\n\n\t\t\t\t\t\tvalues[ writeOffset + j ] = values[ readOffset + j ];\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\t++ writeIndex;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// flush last keyframe (compaction looks ahead)\n\n\t\tif ( lastIndex > 0 ) {\n\n\t\t\ttimes[ writeIndex ] = times[ lastIndex ];\n\n\t\t\tfor ( let readOffset = lastIndex * stride, writeOffset = writeIndex * stride, j = 0; j !== stride; ++ j ) {\n\n\t\t\t\tvalues[ writeOffset + j ] = values[ readOffset + j ];\n\n\t\t\t}\n\n\t\t\t++ writeIndex;\n\n\t\t}\n\n\t\tif ( writeIndex !== times.length ) {\n\n\t\t\tthis.times = times.slice( 0, writeIndex );\n\t\t\tthis.values = values.slice( 0, writeIndex * stride );\n\n\t\t} else {\n\n\t\t\tthis.times = times;\n\t\t\tthis.values = values;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new keyframe track with copied values from this instance.\n\t *\n\t * @return {KeyframeTrack} A clone of this instance.\n\t */\n\tclone() {\n\n\t\tconst times = this.times.slice();\n\t\tconst values = this.values.slice();\n\n\t\tconst TypedKeyframeTrack = this.constructor;\n\t\tconst track = new TypedKeyframeTrack( this.name, times, values );\n\n\t\t// Interpolant argument to constructor is not saved, so copy the factory method directly.\n\t\ttrack.createInterpolant = this.createInterpolant;\n\n\t\treturn track;\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default ''\n */\nKeyframeTrack.prototype.ValueTypeName = '';\n\n/**\n * The time buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Float32Array.constructor\n */\nKeyframeTrack.prototype.TimeBufferType = Float32Array;\n\n/**\n * The value buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Float32Array.constructor\n */\nKeyframeTrack.prototype.ValueBufferType = Float32Array;\n\n/**\n * The default interpolation type of this keyframe track.\n *\n * @type {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)}\n * @default InterpolateLinear\n */\nKeyframeTrack.prototype.DefaultInterpolation = InterpolateLinear;\n\n/**\n * A track for boolean keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass BooleanKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new boolean keyframe track.\n\t *\n\t * This keyframe track type has no `interpolation` parameter because the\n\t * interpolation is always discrete.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t */\n\tconstructor( name, times, values ) {\n\n\t\tsuper( name, times, values );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'bool'\n */\nBooleanKeyframeTrack.prototype.ValueTypeName = 'bool';\n\n/**\n * The value buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Array.constructor\n */\nBooleanKeyframeTrack.prototype.ValueBufferType = Array;\n\n/**\n * The default interpolation type of this keyframe track.\n *\n * @type {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)}\n * @default InterpolateDiscrete\n */\nBooleanKeyframeTrack.prototype.DefaultInterpolation = InterpolateDiscrete;\nBooleanKeyframeTrack.prototype.InterpolantFactoryMethodLinear = undefined;\nBooleanKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined;\n\n/**\n * A track for color keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass ColorKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new color keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'color'\n */\nColorKeyframeTrack.prototype.ValueTypeName = 'color';\n\n/**\n * A track for numeric keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass NumberKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new number keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'number'\n */\nNumberKeyframeTrack.prototype.ValueTypeName = 'number';\n\n/**\n * Spherical linear unit quaternion interpolant.\n *\n * @augments Interpolant\n */\nclass QuaternionLinearInterpolant extends Interpolant {\n\n\t/**\n\t * Constructs a new SLERP interpolant.\n\t *\n\t * @param {TypedArray} parameterPositions - The parameter positions hold the interpolation factors.\n\t * @param {TypedArray} sampleValues - The sample values.\n\t * @param {number} sampleSize - The sample size\n\t * @param {TypedArray} [resultBuffer] - The result buffer.\n\t */\n\tconstructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) {\n\n\t\tsuper( parameterPositions, sampleValues, sampleSize, resultBuffer );\n\n\t}\n\n\tinterpolate_( i1, t0, t, t1 ) {\n\n\t\tconst result = this.resultBuffer,\n\t\t\tvalues = this.sampleValues,\n\t\t\tstride = this.valueSize,\n\n\t\t\talpha = ( t - t0 ) / ( t1 - t0 );\n\n\t\tlet offset = i1 * stride;\n\n\t\tfor ( let end = offset + stride; offset !== end; offset += 4 ) {\n\n\t\t\tQuaternion.slerpFlat( result, 0, values, offset - stride, values, offset, alpha );\n\n\t\t}\n\n\t\treturn result;\n\n\t}\n\n}\n\n/**\n * A track for Quaternion keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass QuaternionKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new Quaternion keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n\t/**\n\t * Overwritten so the method returns Quaternion based interpolant.\n\t *\n\t * @static\n\t * @param {TypedArray} [result] - The result buffer.\n\t * @return {QuaternionLinearInterpolant} The new interpolant.\n\t */\n\tInterpolantFactoryMethodLinear( result ) {\n\n\t\treturn new QuaternionLinearInterpolant( this.times, this.values, this.getValueSize(), result );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'quaternion'\n */\nQuaternionKeyframeTrack.prototype.ValueTypeName = 'quaternion';\n// ValueBufferType is inherited\n// DefaultInterpolation is inherited;\nQuaternionKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined;\n\n/**\n * A track for string keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass StringKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new string keyframe track.\n\t *\n\t * This keyframe track type has no `interpolation` parameter because the\n\t * interpolation is always discrete.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t */\n\tconstructor( name, times, values ) {\n\n\t\tsuper( name, times, values );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'string'\n */\nStringKeyframeTrack.prototype.ValueTypeName = 'string';\n\n/**\n * The value buffer type of this keyframe track.\n *\n * @type {TypedArray|Array}\n * @default Array.constructor\n */\nStringKeyframeTrack.prototype.ValueBufferType = Array;\n\n/**\n * The default interpolation type of this keyframe track.\n *\n * @type {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)}\n * @default InterpolateDiscrete\n */\nStringKeyframeTrack.prototype.DefaultInterpolation = InterpolateDiscrete;\nStringKeyframeTrack.prototype.InterpolantFactoryMethodLinear = undefined;\nStringKeyframeTrack.prototype.InterpolantFactoryMethodSmooth = undefined;\n\n/**\n * A track for vector keyframe values.\n *\n * @augments KeyframeTrack\n */\nclass VectorKeyframeTrack extends KeyframeTrack {\n\n\t/**\n\t * Constructs a new vector keyframe track.\n\t *\n\t * @param {string} name - The keyframe track's name.\n\t * @param {Array} times - A list of keyframe times.\n\t * @param {Array} values - A list of keyframe values.\n\t * @param {(InterpolateLinear|InterpolateDiscrete|InterpolateSmooth)} [interpolation] - The interpolation type.\n\t */\n\tconstructor( name, times, values, interpolation ) {\n\n\t\tsuper( name, times, values, interpolation );\n\n\t}\n\n}\n\n/**\n * The value type name.\n *\n * @type {String}\n * @default 'vector'\n */\nVectorKeyframeTrack.prototype.ValueTypeName = 'vector';\n\n/**\n * A reusable set of keyframe tracks which represent an animation.\n */\nclass AnimationClip {\n\n\t/**\n\t * Constructs a new animation clip.\n\t *\n\t * Note: Instead of instantiating an AnimationClip directly with the constructor, you can\n\t * use the static interface of this class for creating clips. In most cases though, animation clips\n\t * will automatically be created by loaders when importing animated 3D assets.\n\t *\n\t * @param {string} [name=''] - The clip's name.\n\t * @param {number} [duration=-1] - The clip's duration in seconds. If a negative value is passed,\n\t * the duration will be calculated from the passed keyframes.\n\t * @param {Array} tracks - An array of keyframe tracks.\n\t * @param {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)} [blendMode=NormalAnimationBlendMode] - Defines how the animation\n\t * is blended/combined when two or more animations are simultaneously played.\n\t */\n\tconstructor( name = '', duration = -1, tracks = [], blendMode = NormalAnimationBlendMode ) {\n\n\t\t/**\n\t\t * The clip's name.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = name;\n\n\t\t/**\n\t\t * An array of keyframe tracks.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.tracks = tracks;\n\n\t\t/**\n\t\t * The clip's duration in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.duration = duration;\n\n\t\t/**\n\t\t * Defines how the animation is blended/combined when two or more animations\n\t\t * are simultaneously played.\n\t\t *\n\t\t * @type {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)}\n\t\t */\n\t\tthis.blendMode = blendMode;\n\n\t\t/**\n\t\t * The UUID of the animation clip.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t/**\n\t\t * An object that can be used to store custom data about the animation clip.\n\t\t * It should not hold references to functions as these will not be cloned.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.userData = {};\n\n\t\t// this means it should figure out its duration by scanning the tracks\n\t\tif ( this.duration < 0 ) {\n\n\t\t\tthis.resetDuration();\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Factory method for creating an animation clip from the given JSON.\n\t *\n\t * @static\n\t * @param {Object} json - The serialized animation clip.\n\t * @return {AnimationClip} The new animation clip.\n\t */\n\tstatic parse( json ) {\n\n\t\tconst tracks = [],\n\t\t\tjsonTracks = json.tracks,\n\t\t\tframeTime = 1.0 / ( json.fps || 1.0 );\n\n\t\tfor ( let i = 0, n = jsonTracks.length; i !== n; ++ i ) {\n\n\t\t\ttracks.push( parseKeyframeTrack( jsonTracks[ i ] ).scale( frameTime ) );\n\n\t\t}\n\n\t\tconst clip = new this( json.name, json.duration, tracks, json.blendMode );\n\t\tclip.uuid = json.uuid;\n\n\t\tclip.userData = JSON.parse( json.userData || '{}' );\n\n\t\treturn clip;\n\n\t}\n\n\t/**\n\t * Serializes the given animation clip into JSON.\n\t *\n\t * @static\n\t * @param {AnimationClip} clip - The animation clip to serialize.\n\t * @return {Object} The JSON object.\n\t */\n\tstatic toJSON( clip ) {\n\n\t\tconst tracks = [],\n\t\t\tclipTracks = clip.tracks;\n\n\t\tconst json = {\n\n\t\t\t'name': clip.name,\n\t\t\t'duration': clip.duration,\n\t\t\t'tracks': tracks,\n\t\t\t'uuid': clip.uuid,\n\t\t\t'blendMode': clip.blendMode,\n\t\t\t'userData': JSON.stringify( clip.userData ),\n\n\t\t};\n\n\t\tfor ( let i = 0, n = clipTracks.length; i !== n; ++ i ) {\n\n\t\t\ttracks.push( KeyframeTrack.toJSON( clipTracks[ i ] ) );\n\n\t\t}\n\n\t\treturn json;\n\n\t}\n\n\t/**\n\t * Returns a new animation clip from the passed morph targets array of a\n\t * geometry, taking a name and the number of frames per second.\n\t *\n\t * Note: The fps parameter is required, but the animation speed can be\n\t * overridden via {@link AnimationAction#setDuration}.\n\t *\n\t * @static\n\t * @param {string} name - The name of the animation clip.\n\t * @param {Array} morphTargetSequence - A sequence of morph targets.\n\t * @param {number} fps - The Frames-Per-Second value.\n\t * @param {boolean} noLoop - Whether the clip should be no loop or not.\n\t * @return {AnimationClip} The new animation clip.\n\t */\n\tstatic CreateFromMorphTargetSequence( name, morphTargetSequence, fps, noLoop ) {\n\n\t\tconst numMorphTargets = morphTargetSequence.length;\n\t\tconst tracks = [];\n\n\t\tfor ( let i = 0; i < numMorphTargets; i ++ ) {\n\n\t\t\tlet times = [];\n\t\t\tlet values = [];\n\n\t\t\ttimes.push(\n\t\t\t\t( i + numMorphTargets - 1 ) % numMorphTargets,\n\t\t\t\ti,\n\t\t\t\t( i + 1 ) % numMorphTargets );\n\n\t\t\tvalues.push( 0, 1, 0 );\n\n\t\t\tconst order = getKeyframeOrder( times );\n\t\t\ttimes = sortedArray( times, 1, order );\n\t\t\tvalues = sortedArray( values, 1, order );\n\n\t\t\t// if there is a key at the first frame, duplicate it as the\n\t\t\t// last frame as well for perfect loop.\n\t\t\tif ( ! noLoop && times[ 0 ] === 0 ) {\n\n\t\t\t\ttimes.push( numMorphTargets );\n\t\t\t\tvalues.push( values[ 0 ] );\n\n\t\t\t}\n\n\t\t\ttracks.push(\n\t\t\t\tnew NumberKeyframeTrack(\n\t\t\t\t\t'.morphTargetInfluences[' + morphTargetSequence[ i ].name + ']',\n\t\t\t\t\ttimes, values\n\t\t\t\t).scale( 1.0 / fps ) );\n\n\t\t}\n\n\t\treturn new this( name, -1, tracks );\n\n\t}\n\n\t/**\n\t * Searches for an animation clip by name, taking as its first parameter\n\t * either an array of clips, or a mesh or geometry that contains an\n\t * array named \"animations\" property.\n\t *\n\t * @static\n\t * @param {(Array|Object3D)} objectOrClipArray - The array or object to search through.\n\t * @param {string} name - The name to search for.\n\t * @return {?AnimationClip} The found animation clip. Returns `null` if no clip has been found.\n\t */\n\tstatic findByName( objectOrClipArray, name ) {\n\n\t\tlet clipArray = objectOrClipArray;\n\n\t\tif ( ! Array.isArray( objectOrClipArray ) ) {\n\n\t\t\tconst o = objectOrClipArray;\n\t\t\tclipArray = o.geometry && o.geometry.animations || o.animations;\n\n\t\t}\n\n\t\tfor ( let i = 0; i < clipArray.length; i ++ ) {\n\n\t\t\tif ( clipArray[ i ].name === name ) {\n\n\t\t\t\treturn clipArray[ i ];\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t/**\n\t * Returns an array of new AnimationClips created from the morph target\n\t * sequences of a geometry, trying to sort morph target names into\n\t * animation-group-based patterns like \"Walk_001, Walk_002, Run_001, Run_002...\".\n\t *\n\t * See {@link MD2Loader#parse} as an example for how the method should be used.\n\t *\n\t * @static\n\t * @param {Array} morphTargets - A sequence of morph targets.\n\t * @param {number} fps - The Frames-Per-Second value.\n\t * @param {boolean} noLoop - Whether the clip should be no loop or not.\n\t * @return {Array} An array of new animation clips.\n\t */\n\tstatic CreateClipsFromMorphTargetSequences( morphTargets, fps, noLoop ) {\n\n\t\tconst animationToMorphTargets = {};\n\n\t\t// tested with https://regex101.com/ on trick sequences\n\t\t// such flamingo_flyA_003, flamingo_run1_003, crdeath0059\n\t\tconst pattern = /^([\\w-]*?)([\\d]+)$/;\n\n\t\t// sort morph target names into animation groups based\n\t\t// patterns like Walk_001, Walk_002, Run_001, Run_002\n\t\tfor ( let i = 0, il = morphTargets.length; i < il; i ++ ) {\n\n\t\t\tconst morphTarget = morphTargets[ i ];\n\t\t\tconst parts = morphTarget.name.match( pattern );\n\n\t\t\tif ( parts && parts.length > 1 ) {\n\n\t\t\t\tconst name = parts[ 1 ];\n\n\t\t\t\tlet animationMorphTargets = animationToMorphTargets[ name ];\n\n\t\t\t\tif ( ! animationMorphTargets ) {\n\n\t\t\t\t\tanimationToMorphTargets[ name ] = animationMorphTargets = [];\n\n\t\t\t\t}\n\n\t\t\t\tanimationMorphTargets.push( morphTarget );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst clips = [];\n\n\t\tfor ( const name in animationToMorphTargets ) {\n\n\t\t\tclips.push( this.CreateFromMorphTargetSequence( name, animationToMorphTargets[ name ], fps, noLoop ) );\n\n\t\t}\n\n\t\treturn clips;\n\n\t}\n\n\t/**\n\t * Parses the `animation.hierarchy` format and returns a new animation clip.\n\t *\n\t * @static\n\t * @deprecated since r175.\n\t * @param {Object} animation - A serialized animation clip as JSON.\n\t * @param {Array} bones - An array of bones.\n\t * @return {?AnimationClip} The new animation clip.\n\t */\n\tstatic parseAnimation( animation, bones ) {\n\n\t\tconsole.warn( 'THREE.AnimationClip: parseAnimation() is deprecated and will be removed with r185' );\n\n\t\tif ( ! animation ) {\n\n\t\t\tconsole.error( 'THREE.AnimationClip: No animation in JSONLoader data.' );\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst addNonemptyTrack = function ( trackType, trackName, animationKeys, propertyName, destTracks ) {\n\n\t\t\t// only return track if there are actually keys.\n\t\t\tif ( animationKeys.length !== 0 ) {\n\n\t\t\t\tconst times = [];\n\t\t\t\tconst values = [];\n\n\t\t\t\tflattenJSON( animationKeys, times, values, propertyName );\n\n\t\t\t\t// empty keys are filtered out, so check again\n\t\t\t\tif ( times.length !== 0 ) {\n\n\t\t\t\t\tdestTracks.push( new trackType( trackName, times, values ) );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t};\n\n\t\tconst tracks = [];\n\n\t\tconst clipName = animation.name || 'default';\n\t\tconst fps = animation.fps || 30;\n\t\tconst blendMode = animation.blendMode;\n\n\t\t// automatic length determination in AnimationClip.\n\t\tlet duration = animation.length || -1;\n\n\t\tconst hierarchyTracks = animation.hierarchy || [];\n\n\t\tfor ( let h = 0; h < hierarchyTracks.length; h ++ ) {\n\n\t\t\tconst animationKeys = hierarchyTracks[ h ].keys;\n\n\t\t\t// skip empty tracks\n\t\t\tif ( ! animationKeys || animationKeys.length === 0 ) continue;\n\n\t\t\t// process morph targets\n\t\t\tif ( animationKeys[ 0 ].morphTargets ) {\n\n\t\t\t\t// figure out all morph targets used in this track\n\t\t\t\tconst morphTargetNames = {};\n\n\t\t\t\tlet k;\n\n\t\t\t\tfor ( k = 0; k < animationKeys.length; k ++ ) {\n\n\t\t\t\t\tif ( animationKeys[ k ].morphTargets ) {\n\n\t\t\t\t\t\tfor ( let m = 0; m < animationKeys[ k ].morphTargets.length; m ++ ) {\n\n\t\t\t\t\t\t\tmorphTargetNames[ animationKeys[ k ].morphTargets[ m ] ] = -1;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\t// create a track for each morph target with all zero\n\t\t\t\t// morphTargetInfluences except for the keys in which\n\t\t\t\t// the morphTarget is named.\n\t\t\t\tfor ( const morphTargetName in morphTargetNames ) {\n\n\t\t\t\t\tconst times = [];\n\t\t\t\t\tconst values = [];\n\n\t\t\t\t\tfor ( let m = 0; m !== animationKeys[ k ].morphTargets.length; ++ m ) {\n\n\t\t\t\t\t\tconst animationKey = animationKeys[ k ];\n\n\t\t\t\t\t\ttimes.push( animationKey.time );\n\t\t\t\t\t\tvalues.push( ( animationKey.morphTarget === morphTargetName ) ? 1 : 0 );\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttracks.push( new NumberKeyframeTrack( '.morphTargetInfluence[' + morphTargetName + ']', times, values ) );\n\n\t\t\t\t}\n\n\t\t\t\tduration = morphTargetNames.length * fps;\n\n\t\t\t} else {\n\n\t\t\t\t// ...assume skeletal animation\n\n\t\t\t\tconst boneName = '.bones[' + bones[ h ].name + ']';\n\n\t\t\t\taddNonemptyTrack(\n\t\t\t\t\tVectorKeyframeTrack, boneName + '.position',\n\t\t\t\t\tanimationKeys, 'pos', tracks );\n\n\t\t\t\taddNonemptyTrack(\n\t\t\t\t\tQuaternionKeyframeTrack, boneName + '.quaternion',\n\t\t\t\t\tanimationKeys, 'rot', tracks );\n\n\t\t\t\taddNonemptyTrack(\n\t\t\t\t\tVectorKeyframeTrack, boneName + '.scale',\n\t\t\t\t\tanimationKeys, 'scl', tracks );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( tracks.length === 0 ) {\n\n\t\t\treturn null;\n\n\t\t}\n\n\t\tconst clip = new this( clipName, duration, tracks, blendMode );\n\n\t\treturn clip;\n\n\t}\n\n\t/**\n\t * Sets the duration of this clip to the duration of its longest keyframe track.\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\tresetDuration() {\n\n\t\tconst tracks = this.tracks;\n\t\tlet duration = 0;\n\n\t\tfor ( let i = 0, n = tracks.length; i !== n; ++ i ) {\n\n\t\t\tconst track = this.tracks[ i ];\n\n\t\t\tduration = Math.max( duration, track.times[ track.times.length - 1 ] );\n\n\t\t}\n\n\t\tthis.duration = duration;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Trims all tracks to the clip's duration.\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\ttrim() {\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\tthis.tracks[ i ].trim( 0, this.duration );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Performs minimal validation on each track in the clip. Returns `true` if all\n\t * tracks are valid.\n\t *\n\t * @return {boolean} Whether the clip's keyframes are valid or not.\n\t */\n\tvalidate() {\n\n\t\tlet valid = true;\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\tvalid = valid && this.tracks[ i ].validate();\n\n\t\t}\n\n\t\treturn valid;\n\n\t}\n\n\t/**\n\t * Optimizes each track by removing equivalent sequential keys (which are\n\t * common in morph target sequences).\n\t *\n\t * @return {AnimationClip} A reference to this animation clip.\n\t */\n\toptimize() {\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\tthis.tracks[ i ].optimize();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new animation clip with copied values from this instance.\n\t *\n\t * @return {AnimationClip} A clone of this instance.\n\t */\n\tclone() {\n\n\t\tconst tracks = [];\n\n\t\tfor ( let i = 0; i < this.tracks.length; i ++ ) {\n\n\t\t\ttracks.push( this.tracks[ i ].clone() );\n\n\t\t}\n\n\t\tconst clip = new this.constructor( this.name, this.duration, tracks, this.blendMode );\n\n\t\tclip.userData = JSON.parse( JSON.stringify( this.userData ) );\n\n\t\treturn clip;\n\n\t}\n\n\t/**\n\t * Serializes this animation clip into JSON.\n\t *\n\t * @return {Object} The JSON object.\n\t */\n\ttoJSON() {\n\n\t\treturn this.constructor.toJSON( this );\n\n\t}\n\n}\n\nfunction getTrackTypeForValueTypeName( typeName ) {\n\n\tswitch ( typeName.toLowerCase() ) {\n\n\t\tcase 'scalar':\n\t\tcase 'double':\n\t\tcase 'float':\n\t\tcase 'number':\n\t\tcase 'integer':\n\n\t\t\treturn NumberKeyframeTrack;\n\n\t\tcase 'vector':\n\t\tcase 'vector2':\n\t\tcase 'vector3':\n\t\tcase 'vector4':\n\n\t\t\treturn VectorKeyframeTrack;\n\n\t\tcase 'color':\n\n\t\t\treturn ColorKeyframeTrack;\n\n\t\tcase 'quaternion':\n\n\t\t\treturn QuaternionKeyframeTrack;\n\n\t\tcase 'bool':\n\t\tcase 'boolean':\n\n\t\t\treturn BooleanKeyframeTrack;\n\n\t\tcase 'string':\n\n\t\t\treturn StringKeyframeTrack;\n\n\t}\n\n\tthrow new Error( 'THREE.KeyframeTrack: Unsupported typeName: ' + typeName );\n\n}\n\nfunction parseKeyframeTrack( json ) {\n\n\tif ( json.type === undefined ) {\n\n\t\tthrow new Error( 'THREE.KeyframeTrack: track type undefined, can not parse' );\n\n\t}\n\n\tconst trackType = getTrackTypeForValueTypeName( json.type );\n\n\tif ( json.times === undefined ) {\n\n\t\tconst times = [], values = [];\n\n\t\tflattenJSON( json.keys, times, values, 'value' );\n\n\t\tjson.times = times;\n\t\tjson.values = values;\n\n\t}\n\n\t// derived classes can define a static parse method\n\tif ( trackType.parse !== undefined ) {\n\n\t\treturn trackType.parse( json );\n\n\t} else {\n\n\t\t// by default, we assume a constructor compatible with the base\n\t\treturn new trackType( json.name, json.times, json.values, json.interpolation );\n\n\t}\n\n}\n\n/**\n * @class\n * @classdesc A simple caching system, used internally by {@link FileLoader}.\n * To enable caching across all loaders that use {@link FileLoader}, add `THREE.Cache.enabled = true.` once in your app.\n * @hideconstructor\n */\nconst Cache = {\n\n\t/**\n\t * Whether caching is enabled or not.\n\t *\n\t * @static\n\t * @type {boolean}\n\t * @default false\n\t */\n\tenabled: false,\n\n\t/**\n\t * A dictionary that holds cached files.\n\t *\n\t * @static\n\t * @type {Object}\n\t */\n\tfiles: {},\n\n\t/**\n\t * Adds a cache entry with a key to reference the file. If this key already\n\t * holds a file, it is overwritten.\n\t *\n\t * @static\n\t * @param {string} key - The key to reference the cached file.\n\t * @param {Object} file - The file to be cached.\n\t */\n\tadd: function ( key, file ) {\n\n\t\tif ( this.enabled === false ) return;\n\n\t\t// console.log( 'THREE.Cache', 'Adding key:', key );\n\n\t\tthis.files[ key ] = file;\n\n\t},\n\n\t/**\n\t * Gets the cached value for the given key.\n\t *\n\t * @static\n\t * @param {string} key - The key to reference the cached file.\n\t * @return {Object|undefined} The cached file. If the key does not exist `undefined` is returned.\n\t */\n\tget: function ( key ) {\n\n\t\tif ( this.enabled === false ) return;\n\n\t\t// console.log( 'THREE.Cache', 'Checking key:', key );\n\n\t\treturn this.files[ key ];\n\n\t},\n\n\t/**\n\t * Removes the cached file associated with the given key.\n\t *\n\t * @static\n\t * @param {string} key - The key to reference the cached file.\n\t */\n\tremove: function ( key ) {\n\n\t\tdelete this.files[ key ];\n\n\t},\n\n\t/**\n\t * Remove all values from the cache.\n\t *\n\t * @static\n\t */\n\tclear: function () {\n\n\t\tthis.files = {};\n\n\t}\n\n};\n\n/**\n * Handles and keeps track of loaded and pending data. A default global\n * instance of this class is created and used by loaders if not supplied\n * manually.\n *\n * In general that should be sufficient, however there are times when it can\n * be useful to have separate loaders - for example if you want to show\n * separate loading bars for objects and textures.\n *\n * ```js\n * const manager = new THREE.LoadingManager();\n * manager.onLoad = () => console.log( 'Loading complete!' );\n *\n * const loader1 = new OBJLoader( manager );\n * const loader2 = new ColladaLoader( manager );\n * ```\n */\nclass LoadingManager {\n\n\t/**\n\t * Constructs a new loading manager.\n\t *\n\t * @param {Function} [onLoad] - Executes when all items have been loaded.\n\t * @param {Function} [onProgress] - Executes when single items have been loaded.\n\t * @param {Function} [onError] - Executes when an error occurs.\n\t */\n\tconstructor( onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tlet isLoading = false;\n\t\tlet itemsLoaded = 0;\n\t\tlet itemsTotal = 0;\n\t\tlet urlModifier = undefined;\n\t\tconst handlers = [];\n\n\t\t// Refer to #5689 for the reason why we don't set .onStart\n\t\t// in the constructor\n\n\t\t/**\n\t\t * Executes when an item starts loading.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onStart = undefined;\n\n\t\t/**\n\t\t * Executes when all items have been loaded.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onLoad = onLoad;\n\n\t\t/**\n\t\t * Executes when single items have been loaded.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onProgress = onProgress;\n\n\t\t/**\n\t\t * Executes when an error occurs.\n\t\t *\n\t\t * @type {Function|undefined}\n\t\t * @default undefined\n\t\t */\n\t\tthis.onError = onError;\n\n\t\t/**\n\t\t * Used for aborting ongoing requests in loaders using this manager.\n\t\t *\n\t\t * @type {AbortController}\n\t\t */\n\t\tthis.abortController = new AbortController();\n\n\t\t/**\n\t\t * This should be called by any loader using the manager when the loader\n\t\t * starts loading an item.\n\t\t *\n\t\t * @param {string} url - The URL to load.\n\t\t */\n\t\tthis.itemStart = function ( url ) {\n\n\t\t\titemsTotal ++;\n\n\t\t\tif ( isLoading === false ) {\n\n\t\t\t\tif ( scope.onStart !== undefined ) {\n\n\t\t\t\t\tscope.onStart( url, itemsLoaded, itemsTotal );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tisLoading = true;\n\n\t\t};\n\n\t\t/**\n\t\t * This should be called by any loader using the manager when the loader\n\t\t * ended loading an item.\n\t\t *\n\t\t * @param {string} url - The URL of the loaded item.\n\t\t */\n\t\tthis.itemEnd = function ( url ) {\n\n\t\t\titemsLoaded ++;\n\n\t\t\tif ( scope.onProgress !== undefined ) {\n\n\t\t\t\tscope.onProgress( url, itemsLoaded, itemsTotal );\n\n\t\t\t}\n\n\t\t\tif ( itemsLoaded === itemsTotal ) {\n\n\t\t\t\tisLoading = false;\n\n\t\t\t\tif ( scope.onLoad !== undefined ) {\n\n\t\t\t\t\tscope.onLoad();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t};\n\n\t\t/**\n\t\t * This should be called by any loader using the manager when the loader\n\t\t * encounters an error when loading an item.\n\t\t *\n\t\t * @param {string} url - The URL of the item that produces an error.\n\t\t */\n\t\tthis.itemError = function ( url ) {\n\n\t\t\tif ( scope.onError !== undefined ) {\n\n\t\t\t\tscope.onError( url );\n\n\t\t\t}\n\n\t\t};\n\n\t\t/**\n\t\t * Given a URL, uses the URL modifier callback (if any) and returns a\n\t\t * resolved URL. If no URL modifier is set, returns the original URL.\n\t\t *\n\t\t * @param {string} url - The URL to load.\n\t\t * @return {string} The resolved URL.\n\t\t */\n\t\tthis.resolveURL = function ( url ) {\n\n\t\t\tif ( urlModifier ) {\n\n\t\t\t\treturn urlModifier( url );\n\n\t\t\t}\n\n\t\t\treturn url;\n\n\t\t};\n\n\t\t/**\n\t\t * If provided, the callback will be passed each resource URL before a\n\t\t * request is sent. The callback may return the original URL, or a new URL to\n\t\t * override loading behavior. This behavior can be used to load assets from\n\t\t * .ZIP files, drag-and-drop APIs, and Data URIs.\n\t\t *\n\t\t * ```js\n\t\t * const blobs = {'fish.gltf': blob1, 'diffuse.png': blob2, 'normal.png': blob3};\n\t\t *\n\t\t * const manager = new THREE.LoadingManager();\n\t\t *\n\t\t * // Initialize loading manager with URL callback.\n\t\t * const objectURLs = [];\n\t\t * manager.setURLModifier( ( url ) => {\n\t\t *\n\t\t * \turl = URL.createObjectURL( blobs[ url ] );\n\t\t * \tobjectURLs.push( url );\n\t\t * \treturn url;\n\t\t *\n\t\t * } );\n\t\t *\n\t\t * // Load as usual, then revoke the blob URLs.\n\t\t * const loader = new GLTFLoader( manager );\n\t\t * loader.load( 'fish.gltf', (gltf) => {\n\t\t *\n\t\t * \tscene.add( gltf.scene );\n\t\t * \tobjectURLs.forEach( ( url ) => URL.revokeObjectURL( url ) );\n\t\t *\n\t\t * } );\n\t\t * ```\n\t\t *\n\t\t * @param {function(string):string} transform - URL modifier callback. Called with an URL and must return a resolved URL.\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.setURLModifier = function ( transform ) {\n\n\t\t\turlModifier = transform;\n\n\t\t\treturn this;\n\n\t\t};\n\n\t\t/**\n\t\t * Registers a loader with the given regular expression. Can be used to\n\t\t * define what loader should be used in order to load specific files. A\n\t\t * typical use case is to overwrite the default loader for textures.\n\t\t *\n\t\t * ```js\n\t\t * // add handler for TGA textures\n\t\t * manager.addHandler( /\\.tga$/i, new TGALoader() );\n\t\t * ```\n\t\t *\n\t\t * @param {string} regex - A regular expression.\n\t\t * @param {Loader} loader - A loader that should handle matched cases.\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.addHandler = function ( regex, loader ) {\n\n\t\t\thandlers.push( regex, loader );\n\n\t\t\treturn this;\n\n\t\t};\n\n\t\t/**\n\t\t * Removes the loader for the given regular expression.\n\t\t *\n\t\t * @param {string} regex - A regular expression.\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.removeHandler = function ( regex ) {\n\n\t\t\tconst index = handlers.indexOf( regex );\n\n\t\t\tif ( index !== -1 ) {\n\n\t\t\t\thandlers.splice( index, 2 );\n\n\t\t\t}\n\n\t\t\treturn this;\n\n\t\t};\n\n\t\t/**\n\t\t * Can be used to retrieve the registered loader for the given file path.\n\t\t *\n\t\t * @param {string} file - The file path.\n\t\t * @return {?Loader} The registered loader. Returns `null` if no loader was found.\n\t\t */\n\t\tthis.getHandler = function ( file ) {\n\n\t\t\tfor ( let i = 0, l = handlers.length; i < l; i += 2 ) {\n\n\t\t\t\tconst regex = handlers[ i ];\n\t\t\t\tconst loader = handlers[ i + 1 ];\n\n\t\t\t\tif ( regex.global ) regex.lastIndex = 0; // see #17920\n\n\t\t\t\tif ( regex.test( file ) ) {\n\n\t\t\t\t\treturn loader;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn null;\n\n\t\t};\n\n\t\t/**\n\t\t * Can be used to abort ongoing loading requests in loaders using this manager.\n\t\t * The abort only works if the loaders implement {@link Loader#abort} and `AbortSignal.any()`\n\t\t * is supported in the browser.\n\t\t *\n\t\t * @return {LoadingManager} A reference to this loading manager.\n\t\t */\n\t\tthis.abort = function () {\n\n\t\t\tthis.abortController.abort();\n\t\t\tthis.abortController = new AbortController();\n\n\t\t\treturn this;\n\n\t\t};\n\n\t}\n\n}\n\n/**\n * The global default loading manager.\n *\n * @constant\n * @type {LoadingManager}\n */\nconst DefaultLoadingManager = /*@__PURE__*/ new LoadingManager();\n\n/**\n * Abstract base class for loaders.\n *\n * @abstract\n */\nclass Loader {\n\n\t/**\n\t * Constructs a new loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\t/**\n\t\t * The loading manager.\n\t\t *\n\t\t * @type {LoadingManager}\n\t\t * @default DefaultLoadingManager\n\t\t */\n\t\tthis.manager = ( manager !== undefined ) ? manager : DefaultLoadingManager;\n\n\t\t/**\n\t\t * The crossOrigin string to implement CORS for loading the url from a\n\t\t * different domain that allows CORS.\n\t\t *\n\t\t * @type {string}\n\t\t * @default 'anonymous'\n\t\t */\n\t\tthis.crossOrigin = 'anonymous';\n\n\t\t/**\n\t\t * Whether the XMLHttpRequest uses credentials.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.withCredentials = false;\n\n\t\t/**\n\t\t * The base path from which the asset will be loaded.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.path = '';\n\n\t\t/**\n\t\t * The base path from which additional resources like textures will be loaded.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.resourcePath = '';\n\n\t\t/**\n\t\t * The [request header]{@link https://developer.mozilla.org/en-US/docs/Glossary/Request_header}\n\t\t * used in HTTP request.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.requestHeader = {};\n\n\t}\n\n\t/**\n\t * This method needs to be implemented by all concrete loaders. It holds the\n\t * logic for loading assets from the backend.\n\t *\n\t * @abstract\n\t * @param {string} url - The path/URL of the file to be loaded.\n\t * @param {Function} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} [onProgress] - Executed while the loading is in progress.\n\t * @param {onErrorCallback} [onError] - Executed when errors occur.\n\t */\n\tload( /* url, onLoad, onProgress, onError */ ) {}\n\n\t/**\n\t * A async version of {@link Loader#load}.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded.\n\t * @param {onProgressCallback} [onProgress] - Executed while the loading is in progress.\n\t * @return {Promise} A Promise that resolves when the asset has been loaded.\n\t */\n\tloadAsync( url, onProgress ) {\n\n\t\tconst scope = this;\n\n\t\treturn new Promise( function ( resolve, reject ) {\n\n\t\t\tscope.load( url, resolve, onProgress, reject );\n\n\t\t} );\n\n\t}\n\n\t/**\n\t * This method needs to be implemented by all concrete loaders. It holds the\n\t * logic for parsing the asset into three.js entities.\n\t *\n\t * @abstract\n\t * @param {any} data - The data to parse.\n\t */\n\tparse( /* data */ ) {}\n\n\t/**\n\t * Sets the `crossOrigin` String to implement CORS for loading the URL\n\t * from a different domain that allows CORS.\n\t *\n\t * @param {string} crossOrigin - The `crossOrigin` value.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetCrossOrigin( crossOrigin ) {\n\n\t\tthis.crossOrigin = crossOrigin;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Whether the XMLHttpRequest uses credentials such as cookies, authorization\n\t * headers or TLS client certificates, see [XMLHttpRequest.withCredentials]{@link https://developer.mozilla.org/en-US/docs/Web/API/XMLHttpRequest/withCredentials}.\n\t *\n\t * Note: This setting has no effect if you are loading files locally or from the same domain.\n\t *\n\t * @param {boolean} value - The `withCredentials` value.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetWithCredentials( value ) {\n\n\t\tthis.withCredentials = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the base path for the asset.\n\t *\n\t * @param {string} path - The base path.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetPath( path ) {\n\n\t\tthis.path = path;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the base path for dependent resources like textures.\n\t *\n\t * @param {string} resourcePath - The resource path.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetResourcePath( resourcePath ) {\n\n\t\tthis.resourcePath = resourcePath;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given request header.\n\t *\n\t * @param {Object} requestHeader - A [request header]{@link https://developer.mozilla.org/en-US/docs/Glossary/Request_header}\n\t * for configuring the HTTP request.\n\t * @return {Loader} A reference to this instance.\n\t */\n\tsetRequestHeader( requestHeader ) {\n\n\t\tthis.requestHeader = requestHeader;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * This method can be implemented in loaders for aborting ongoing requests.\n\t *\n\t * @abstract\n\t * @return {Loader} A reference to this instance.\n\t */\n\tabort() {\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Callback for onProgress in loaders.\n *\n * @callback onProgressCallback\n * @param {ProgressEvent} event - An instance of `ProgressEvent` that represents the current loading status.\n */\n\n/**\n * Callback for onError in loaders.\n *\n * @callback onErrorCallback\n * @param {Error} error - The error which occurred during the loading process.\n */\n\n/**\n * The default material name that is used by loaders\n * when creating materials for loaded 3D objects.\n *\n * Note: Not all loaders might honor this setting.\n *\n * @static\n * @type {string}\n * @default '__DEFAULT'\n */\nLoader.DEFAULT_MATERIAL_NAME = '__DEFAULT';\n\nconst loading = {};\n\nclass HttpError extends Error {\n\n\tconstructor( message, response ) {\n\n\t\tsuper( message );\n\t\tthis.response = response;\n\n\t}\n\n}\n\n/**\n * A low level class for loading resources with the Fetch API, used internally by\n * most loaders. It can also be used directly to load any file type that does\n * not have a loader.\n *\n * This loader supports caching. If you want to use it, add `THREE.Cache.enabled = true;`\n * once to your application.\n *\n * ```js\n * const loader = new THREE.FileLoader();\n * const data = await loader.loadAsync( 'example.txt' );\n * ```\n *\n * @augments Loader\n */\nclass FileLoader extends Loader {\n\n\t/**\n\t * Constructs a new file loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t\t/**\n\t\t * The expected mime type. Valid values can be found\n\t\t * [here]{@link hhttps://developer.mozilla.org/en-US/docs/Web/API/DOMParser/parseFromString#mimetype}\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.mimeType = '';\n\n\t\t/**\n\t\t * The expected response type.\n\t\t *\n\t\t * @type {('arraybuffer'|'blob'|'document'|'json'|'')}\n\t\t * @default ''\n\t\t */\n\t\tthis.responseType = '';\n\n\t\t/**\n\t\t * Used for aborting requests.\n\t\t *\n\t\t * @private\n\t\t * @type {AbortController}\n\t\t */\n\t\tthis._abortController = new AbortController();\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded response to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(any)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} [onProgress] - Executed while the loading is in progress.\n\t * @param {onErrorCallback} [onError] - Executed when errors occur.\n\t * @return {any|undefined} The cached resource if available.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tif ( url === undefined ) url = '';\n\n\t\tif ( this.path !== undefined ) url = this.path + url;\n\n\t\turl = this.manager.resolveURL( url );\n\n\t\tconst cached = Cache.get( `file:${url}` );\n\n\t\tif ( cached !== undefined ) {\n\n\t\t\tthis.manager.itemStart( url );\n\n\t\t\tsetTimeout( () => {\n\n\t\t\t\tif ( onLoad ) onLoad( cached );\n\n\t\t\t\tthis.manager.itemEnd( url );\n\n\t\t\t}, 0 );\n\n\t\t\treturn cached;\n\n\t\t}\n\n\t\t// Check if request is duplicate\n\n\t\tif ( loading[ url ] !== undefined ) {\n\n\t\t\tloading[ url ].push( {\n\n\t\t\t\tonLoad: onLoad,\n\t\t\t\tonProgress: onProgress,\n\t\t\t\tonError: onError\n\n\t\t\t} );\n\n\t\t\treturn;\n\n\t\t}\n\n\t\t// Initialise array for duplicate requests\n\t\tloading[ url ] = [];\n\n\t\tloading[ url ].push( {\n\t\t\tonLoad: onLoad,\n\t\t\tonProgress: onProgress,\n\t\t\tonError: onError,\n\t\t} );\n\n\t\t// create request\n\t\tconst req = new Request( url, {\n\t\t\theaders: new Headers( this.requestHeader ),\n\t\t\tcredentials: this.withCredentials ? 'include' : 'same-origin',\n\t\t\tsignal: ( typeof AbortSignal.any === 'function' ) ? AbortSignal.any( [ this._abortController.signal, this.manager.abortController.signal ] ) : this._abortController.signal\n\t\t} );\n\n\t\t// record states ( avoid data race )\n\t\tconst mimeType = this.mimeType;\n\t\tconst responseType = this.responseType;\n\n\t\t// start the fetch\n\t\tfetch( req )\n\t\t\t.then( response => {\n\n\t\t\t\tif ( response.status === 200 || response.status === 0 ) {\n\n\t\t\t\t\t// Some browsers return HTTP Status 0 when using non-http protocol\n\t\t\t\t\t// e.g. 'file://' or 'data://'. Handle as success.\n\n\t\t\t\t\tif ( response.status === 0 ) {\n\n\t\t\t\t\t\tconsole.warn( 'THREE.FileLoader: HTTP Status 0 received.' );\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// Workaround: Checking if response.body === undefined for Alipay browser #23548\n\n\t\t\t\t\tif ( typeof ReadableStream === 'undefined' || response.body === undefined || response.body.getReader === undefined ) {\n\n\t\t\t\t\t\treturn response;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tconst callbacks = loading[ url ];\n\t\t\t\t\tconst reader = response.body.getReader();\n\n\t\t\t\t\t// Nginx needs X-File-Size check\n\t\t\t\t\t// https://serverfault.com/questions/482875/why-does-nginx-remove-content-length-header-for-chunked-content\n\t\t\t\t\tconst contentLength = response.headers.get( 'X-File-Size' ) || response.headers.get( 'Content-Length' );\n\t\t\t\t\tconst total = contentLength ? parseInt( contentLength ) : 0;\n\t\t\t\t\tconst lengthComputable = total !== 0;\n\t\t\t\t\tlet loaded = 0;\n\n\t\t\t\t\t// periodically read data into the new stream tracking while download progress\n\t\t\t\t\tconst stream = new ReadableStream( {\n\t\t\t\t\t\tstart( controller ) {\n\n\t\t\t\t\t\t\treadData();\n\n\t\t\t\t\t\t\tfunction readData() {\n\n\t\t\t\t\t\t\t\treader.read().then( ( { done, value } ) => {\n\n\t\t\t\t\t\t\t\t\tif ( done ) {\n\n\t\t\t\t\t\t\t\t\t\tcontroller.close();\n\n\t\t\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\t\t\tloaded += value.byteLength;\n\n\t\t\t\t\t\t\t\t\t\tconst event = new ProgressEvent( 'progress', { lengthComputable, loaded, total } );\n\t\t\t\t\t\t\t\t\t\tfor ( let i = 0, il = callbacks.length; i < il; i ++ ) {\n\n\t\t\t\t\t\t\t\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\t\t\t\t\t\t\t\tif ( callback.onProgress ) callback.onProgress( event );\n\n\t\t\t\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\t\t\t\tcontroller.enqueue( value );\n\t\t\t\t\t\t\t\t\t\treadData();\n\n\t\t\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t\t\t}, ( e ) => {\n\n\t\t\t\t\t\t\t\t\tcontroller.error( e );\n\n\t\t\t\t\t\t\t\t} );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t} );\n\n\t\t\t\t\treturn new Response( stream );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthrow new HttpError( `fetch for \"${response.url}\" responded with ${response.status}: ${response.statusText}`, response );\n\n\t\t\t\t}\n\n\t\t\t} )\n\t\t\t.then( response => {\n\n\t\t\t\tswitch ( responseType ) {\n\n\t\t\t\t\tcase 'arraybuffer':\n\n\t\t\t\t\t\treturn response.arrayBuffer();\n\n\t\t\t\t\tcase 'blob':\n\n\t\t\t\t\t\treturn response.blob();\n\n\t\t\t\t\tcase 'document':\n\n\t\t\t\t\t\treturn response.text()\n\t\t\t\t\t\t\t.then( text => {\n\n\t\t\t\t\t\t\t\tconst parser = new DOMParser();\n\t\t\t\t\t\t\t\treturn parser.parseFromString( text, mimeType );\n\n\t\t\t\t\t\t\t} );\n\n\t\t\t\t\tcase 'json':\n\n\t\t\t\t\t\treturn response.json();\n\n\t\t\t\t\tdefault:\n\n\t\t\t\t\t\tif ( mimeType === '' ) {\n\n\t\t\t\t\t\t\treturn response.text();\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t// sniff encoding\n\t\t\t\t\t\t\tconst re = /charset=\"?([^;\"\\s]*)\"?/i;\n\t\t\t\t\t\t\tconst exec = re.exec( mimeType );\n\t\t\t\t\t\t\tconst label = exec && exec[ 1 ] ? exec[ 1 ].toLowerCase() : undefined;\n\t\t\t\t\t\t\tconst decoder = new TextDecoder( label );\n\t\t\t\t\t\t\treturn response.arrayBuffer().then( ab => decoder.decode( ab ) );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t} )\n\t\t\t.then( data => {\n\n\t\t\t\t// Add to cache only on HTTP success, so that we do not cache\n\t\t\t\t// error response bodies as proper responses to requests.\n\t\t\t\tCache.add( `file:${url}`, data );\n\n\t\t\t\tconst callbacks = loading[ url ];\n\t\t\t\tdelete loading[ url ];\n\n\t\t\t\tfor ( let i = 0, il = callbacks.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\t\tif ( callback.onLoad ) callback.onLoad( data );\n\n\t\t\t\t}\n\n\t\t\t} )\n\t\t\t.catch( err => {\n\n\t\t\t\t// Abort errors and other errors are handled the same\n\n\t\t\t\tconst callbacks = loading[ url ];\n\n\t\t\t\tif ( callbacks === undefined ) {\n\n\t\t\t\t\t// When onLoad was called and url was deleted in `loading`\n\t\t\t\t\tthis.manager.itemError( url );\n\t\t\t\t\tthrow err;\n\n\t\t\t\t}\n\n\t\t\t\tdelete loading[ url ];\n\n\t\t\t\tfor ( let i = 0, il = callbacks.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\t\tif ( callback.onError ) callback.onError( err );\n\n\t\t\t\t}\n\n\t\t\t\tthis.manager.itemError( url );\n\n\t\t\t} )\n\t\t\t.finally( () => {\n\n\t\t\t\tthis.manager.itemEnd( url );\n\n\t\t\t} );\n\n\t\tthis.manager.itemStart( url );\n\n\t}\n\n\t/**\n\t * Sets the expected response type.\n\t *\n\t * @param {('arraybuffer'|'blob'|'document'|'json'|'')} value - The response type.\n\t * @return {FileLoader} A reference to this file loader.\n\t */\n\tsetResponseType( value ) {\n\n\t\tthis.responseType = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the expected mime type of the loaded file.\n\t *\n\t * @param {string} value - The mime type.\n\t * @return {FileLoader} A reference to this file loader.\n\t */\n\tsetMimeType( value ) {\n\n\t\tthis.mimeType = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Aborts ongoing fetch requests.\n\t *\n\t * @return {FileLoader} A reference to this instance.\n\t */\n\tabort() {\n\n\t\tthis._abortController.abort();\n\t\tthis._abortController = new AbortController();\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Class for loading animation clips in the JSON format. The files are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.AnimationLoader();\n * const animations = await loader.loadAsync( 'animations/animation.js' );\n * ```\n *\n * @augments Loader\n */\nclass AnimationLoader extends Loader {\n\n\t/**\n\t * Constructs a new animation loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded animations as an array\n\t * holding instances of {@link AnimationClip} to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Array)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\ttry {\n\n\t\t\t\tonLoad( scope.parse( JSON.parse( text ) ) );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\tif ( onError ) {\n\n\t\t\t\t\tonError( e );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( e );\n\n\t\t\t\t}\n\n\t\t\t\tscope.manager.itemError( url );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Parses the given JSON object and returns an array of animation clips.\n\t *\n\t * @param {Object} json - The serialized animation clips.\n\t * @return {Array} The parsed animation clips.\n\t */\n\tparse( json ) {\n\n\t\tconst animations = [];\n\n\t\tfor ( let i = 0; i < json.length; i ++ ) {\n\n\t\t\tconst clip = AnimationClip.parse( json[ i ] );\n\n\t\t\tanimations.push( clip );\n\n\t\t}\n\n\t\treturn animations;\n\n\t}\n\n}\n\n/**\n * Abstract base class for loading compressed texture formats S3TC, ASTC or ETC.\n * Textures are internally loaded via {@link FileLoader}.\n *\n * Derived classes have to implement the `parse()` method which holds the parsing\n * for the respective format.\n *\n * @abstract\n * @augments Loader\n */\nclass CompressedTextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new compressed texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded compressed texture\n\t * to the `onLoad()` callback. The method also returns a new texture object which can\n\t * directly be used for material creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(CompressedTexture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {CompressedTexture} The compressed texture.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst images = [];\n\n\t\tconst texture = new CompressedTexture();\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setResponseType( 'arraybuffer' );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\n\t\tlet loaded = 0;\n\n\t\tfunction loadTexture( i ) {\n\n\t\t\tloader.load( url[ i ], function ( buffer ) {\n\n\t\t\t\tconst texDatas = scope.parse( buffer, true );\n\n\t\t\t\timages[ i ] = {\n\t\t\t\t\twidth: texDatas.width,\n\t\t\t\t\theight: texDatas.height,\n\t\t\t\t\tformat: texDatas.format,\n\t\t\t\t\tmipmaps: texDatas.mipmaps\n\t\t\t\t};\n\n\t\t\t\tloaded += 1;\n\n\t\t\t\tif ( loaded === 6 ) {\n\n\t\t\t\t\tif ( texDatas.mipmapCount === 1 ) texture.minFilter = LinearFilter;\n\n\t\t\t\t\ttexture.image = images;\n\t\t\t\t\ttexture.format = texDatas.format;\n\t\t\t\t\ttexture.needsUpdate = true;\n\n\t\t\t\t\tif ( onLoad ) onLoad( texture );\n\n\t\t\t\t}\n\n\t\t\t}, onProgress, onError );\n\n\t\t}\n\n\t\tif ( Array.isArray( url ) ) {\n\n\t\t\tfor ( let i = 0, il = url.length; i < il; ++ i ) {\n\n\t\t\t\tloadTexture( i );\n\n\t\t\t}\n\n\t\t} else {\n\n\t\t\t// compressed cubemap texture stored in a single DDS file\n\n\t\t\tloader.load( url, function ( buffer ) {\n\n\t\t\t\tconst texDatas = scope.parse( buffer, true );\n\n\t\t\t\tif ( texDatas.isCubemap ) {\n\n\t\t\t\t\tconst faces = texDatas.mipmaps.length / texDatas.mipmapCount;\n\n\t\t\t\t\tfor ( let f = 0; f < faces; f ++ ) {\n\n\t\t\t\t\t\timages[ f ] = { mipmaps: [] };\n\n\t\t\t\t\t\tfor ( let i = 0; i < texDatas.mipmapCount; i ++ ) {\n\n\t\t\t\t\t\t\timages[ f ].mipmaps.push( texDatas.mipmaps[ f * texDatas.mipmapCount + i ] );\n\t\t\t\t\t\t\timages[ f ].format = texDatas.format;\n\t\t\t\t\t\t\timages[ f ].width = texDatas.width;\n\t\t\t\t\t\t\timages[ f ].height = texDatas.height;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttexture.image = images;\n\n\t\t\t\t} else {\n\n\t\t\t\t\ttexture.image.width = texDatas.width;\n\t\t\t\t\ttexture.image.height = texDatas.height;\n\t\t\t\t\ttexture.mipmaps = texDatas.mipmaps;\n\n\t\t\t\t}\n\n\t\t\t\tif ( texDatas.mipmapCount === 1 ) {\n\n\t\t\t\t\ttexture.minFilter = LinearFilter;\n\n\t\t\t\t}\n\n\t\t\t\ttexture.format = texDatas.format;\n\t\t\t\ttexture.needsUpdate = true;\n\n\t\t\t\tif ( onLoad ) onLoad( texture );\n\n\t\t\t}, onProgress, onError );\n\n\t\t}\n\n\t\treturn texture;\n\n\t}\n\n}\n\nconst _loading = new WeakMap();\n\n/**\n * A loader for loading images. The class loads images with the HTML `Image` API.\n *\n * ```js\n * const loader = new THREE.ImageLoader();\n * const image = await loader.loadAsync( 'image.png' );\n * ```\n * Please note that `ImageLoader` has dropped support for progress\n * events in `r84`. For an `ImageLoader` that supports progress events, see\n * [this thread]{@link https://github.com/mrdoob/three.js/issues/10439#issuecomment-275785639}.\n *\n * @augments Loader\n */\nclass ImageLoader extends Loader {\n\n\t/**\n\t * Constructs a new image loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded image\n\t * to the `onLoad()` callback. The method also returns a new `Image` object which can\n\t * directly be used for texture creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Image)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {Image} The image.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tif ( this.path !== undefined ) url = this.path + url;\n\n\t\turl = this.manager.resolveURL( url );\n\n\t\tconst scope = this;\n\n\t\tconst cached = Cache.get( `image:${url}` );\n\n\t\tif ( cached !== undefined ) {\n\n\t\t\tif ( cached.complete === true ) {\n\n\t\t\t\tscope.manager.itemStart( url );\n\n\t\t\t\tsetTimeout( function () {\n\n\t\t\t\t\tif ( onLoad ) onLoad( cached );\n\n\t\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t\t}, 0 );\n\n\t\t\t} else {\n\n\t\t\t\tlet arr = _loading.get( cached );\n\n\t\t\t\tif ( arr === undefined ) {\n\n\t\t\t\t\tarr = [];\n\t\t\t\t\t_loading.set( cached, arr );\n\n\t\t\t\t}\n\n\t\t\t\tarr.push( { onLoad, onError } );\n\n\t\t\t}\n\n\t\t\treturn cached;\n\n\t\t}\n\n\t\tconst image = createElementNS( 'img' );\n\n\t\tfunction onImageLoad() {\n\n\t\t\tremoveEventListeners();\n\n\t\t\tif ( onLoad ) onLoad( this );\n\n\t\t\t//\n\n\t\t\tconst callbacks = _loading.get( this ) || [];\n\n\t\t\tfor ( let i = 0; i < callbacks.length; i ++ ) {\n\n\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\tif ( callback.onLoad ) callback.onLoad( this );\n\n\t\t\t}\n\n\t\t\t_loading.delete( this );\n\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t}\n\n\t\tfunction onImageError( event ) {\n\n\t\t\tremoveEventListeners();\n\n\t\t\tif ( onError ) onError( event );\n\n\t\t\tCache.remove( `image:${url}` );\n\n\t\t\t//\n\n\t\t\tconst callbacks = _loading.get( this ) || [];\n\n\t\t\tfor ( let i = 0; i < callbacks.length; i ++ ) {\n\n\t\t\t\tconst callback = callbacks[ i ];\n\t\t\t\tif ( callback.onError ) callback.onError( event );\n\n\t\t\t}\n\n\t\t\t_loading.delete( this );\n\n\n\t\t\tscope.manager.itemError( url );\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t}\n\n\t\tfunction removeEventListeners() {\n\n\t\t\timage.removeEventListener( 'load', onImageLoad, false );\n\t\t\timage.removeEventListener( 'error', onImageError, false );\n\n\t\t}\n\n\t\timage.addEventListener( 'load', onImageLoad, false );\n\t\timage.addEventListener( 'error', onImageError, false );\n\n\t\tif ( url.slice( 0, 5 ) !== 'data:' ) {\n\n\t\t\tif ( this.crossOrigin !== undefined ) image.crossOrigin = this.crossOrigin;\n\n\t\t}\n\n\t\tCache.add( `image:${url}`, image );\n\t\tscope.manager.itemStart( url );\n\n\t\timage.src = url;\n\n\t\treturn image;\n\n\t}\n\n}\n\n/**\n * Class for loading cube textures. Images are internally loaded via {@link ImageLoader}.\n *\n * The loader returns an instance of {@link CubeTexture} and expects the cube map to\n * be defined as six separate images representing the sides of a cube. Other cube map definitions\n * like vertical and horizontal cross, column and row layouts are not supported.\n *\n * Note that, by convention, cube maps are specified in a coordinate system\n * in which positive-x is to the right when looking up the positive-z axis --\n * in other words, using a left-handed coordinate system. Since three.js uses\n * a right-handed coordinate system, environment maps used in three.js will\n * have pos-x and neg-x swapped.\n *\n * The loaded cube texture is in sRGB color space. Meaning {@link Texture#colorSpace}\n * is set to `SRGBColorSpace` by default.\n *\n * ```js\n * const loader = new THREE.CubeTextureLoader().setPath( 'textures/cubeMaps/' );\n * const cubeTexture = await loader.loadAsync( [\n * \t'px.png', 'nx.png', 'py.png', 'ny.png', 'pz.png', 'nz.png'\n * ] );\n * scene.background = cubeTexture;\n * ```\n *\n * @augments Loader\n */\nclass CubeTextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new cube texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the fully loaded cube texture\n\t * to the `onLoad()` callback. The method also returns a new cube texture object which can\n\t * directly be used for material creation. If you do it this way, the cube texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {Array} urls - Array of 6 URLs to images, one for each side of the\n\t * cube texture. The urls should be specified in the following order: pos-x,\n\t * neg-x, pos-y, neg-y, pos-z, neg-z. An array of data URIs are allowed as well.\n\t * @param {function(CubeTexture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {CubeTexture} The cube texture.\n\t */\n\tload( urls, onLoad, onProgress, onError ) {\n\n\t\tconst texture = new CubeTexture();\n\t\ttexture.colorSpace = SRGBColorSpace;\n\n\t\tconst loader = new ImageLoader( this.manager );\n\t\tloader.setCrossOrigin( this.crossOrigin );\n\t\tloader.setPath( this.path );\n\n\t\tlet loaded = 0;\n\n\t\tfunction loadTexture( i ) {\n\n\t\t\tloader.load( urls[ i ], function ( image ) {\n\n\t\t\t\ttexture.images[ i ] = image;\n\n\t\t\t\tloaded ++;\n\n\t\t\t\tif ( loaded === 6 ) {\n\n\t\t\t\t\ttexture.needsUpdate = true;\n\n\t\t\t\t\tif ( onLoad ) onLoad( texture );\n\n\t\t\t\t}\n\n\t\t\t}, undefined, onError );\n\n\t\t}\n\n\t\tfor ( let i = 0; i < urls.length; ++ i ) {\n\n\t\t\tloadTexture( i );\n\n\t\t}\n\n\t\treturn texture;\n\n\t}\n\n}\n\n/**\n * Abstract base class for loading binary texture formats RGBE, EXR or TGA.\n * Textures are internally loaded via {@link FileLoader}.\n *\n * Derived classes have to implement the `parse()` method which holds the parsing\n * for the respective format.\n *\n * @abstract\n * @augments Loader\n */\nclass DataTextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new data texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded data texture\n\t * to the `onLoad()` callback. The method also returns a new texture object which can\n\t * directly be used for material creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(DataTexture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {DataTexture} The data texture.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst texture = new DataTexture();\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setResponseType( 'arraybuffer' );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setPath( this.path );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\t\tloader.load( url, function ( buffer ) {\n\n\t\t\tlet texData;\n\n\t\t\ttry {\n\n\t\t\t\ttexData = scope.parse( buffer );\n\n\t\t\t} catch ( error ) {\n\n\t\t\t\tif ( onError !== undefined ) {\n\n\t\t\t\t\tonError( error );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( error );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( texData.image !== undefined ) {\n\n\t\t\t\ttexture.image = texData.image;\n\n\t\t\t} else if ( texData.data !== undefined ) {\n\n\t\t\t\ttexture.image.width = texData.width;\n\t\t\t\ttexture.image.height = texData.height;\n\t\t\t\ttexture.image.data = texData.data;\n\n\t\t\t}\n\n\t\t\ttexture.wrapS = texData.wrapS !== undefined ? texData.wrapS : ClampToEdgeWrapping;\n\t\t\ttexture.wrapT = texData.wrapT !== undefined ? texData.wrapT : ClampToEdgeWrapping;\n\n\t\t\ttexture.magFilter = texData.magFilter !== undefined ? texData.magFilter : LinearFilter;\n\t\t\ttexture.minFilter = texData.minFilter !== undefined ? texData.minFilter : LinearFilter;\n\n\t\t\ttexture.anisotropy = texData.anisotropy !== undefined ? texData.anisotropy : 1;\n\n\t\t\tif ( texData.colorSpace !== undefined ) {\n\n\t\t\t\ttexture.colorSpace = texData.colorSpace;\n\n\t\t\t}\n\n\t\t\tif ( texData.flipY !== undefined ) {\n\n\t\t\t\ttexture.flipY = texData.flipY;\n\n\t\t\t}\n\n\t\t\tif ( texData.format !== undefined ) {\n\n\t\t\t\ttexture.format = texData.format;\n\n\t\t\t}\n\n\t\t\tif ( texData.type !== undefined ) {\n\n\t\t\t\ttexture.type = texData.type;\n\n\t\t\t}\n\n\t\t\tif ( texData.mipmaps !== undefined ) {\n\n\t\t\t\ttexture.mipmaps = texData.mipmaps;\n\t\t\t\ttexture.minFilter = LinearMipmapLinearFilter; // presumably...\n\n\t\t\t}\n\n\t\t\tif ( texData.mipmapCount === 1 ) {\n\n\t\t\t\ttexture.minFilter = LinearFilter;\n\n\t\t\t}\n\n\t\t\tif ( texData.generateMipmaps !== undefined ) {\n\n\t\t\t\ttexture.generateMipmaps = texData.generateMipmaps;\n\n\t\t\t}\n\n\t\t\ttexture.needsUpdate = true;\n\n\t\t\tif ( onLoad ) onLoad( texture, texData );\n\n\t\t}, onProgress, onError );\n\n\n\t\treturn texture;\n\n\t}\n\n}\n\n/**\n * Class for loading textures. Images are internally\n * loaded via {@link ImageLoader}.\n *\n * ```js\n * const loader = new THREE.TextureLoader();\n * const texture = await loader.loadAsync( 'textures/land_ocean_ice_cloud_2048.jpg' );\n *\n * const material = new THREE.MeshBasicMaterial( { map:texture } );\n * ```\n * Please note that `TextureLoader` has dropped support for progress\n * events in `r84`. For a `TextureLoader` that supports progress events, see\n * [this thread]{@link https://github.com/mrdoob/three.js/issues/10439#issuecomment-293260145}.\n *\n * @augments Loader\n */\nclass TextureLoader extends Loader {\n\n\t/**\n\t * Constructs a new texture loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the fully loaded texture\n\t * to the `onLoad()` callback. The method also returns a new texture object which can\n\t * directly be used for material creation. If you do it this way, the texture\n\t * may pop up in your scene once the respective loading process is finished.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Texture)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {Texture} The texture.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst texture = new Texture();\n\n\t\tconst loader = new ImageLoader( this.manager );\n\t\tloader.setCrossOrigin( this.crossOrigin );\n\t\tloader.setPath( this.path );\n\n\t\tloader.load( url, function ( image ) {\n\n\t\t\ttexture.image = image;\n\t\t\ttexture.needsUpdate = true;\n\n\t\t\tif ( onLoad !== undefined ) {\n\n\t\t\t\tonLoad( texture );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t\treturn texture;\n\n\t}\n\n}\n\n/**\n * Abstract base class for lights - all other light types inherit the\n * properties and methods described here.\n *\n * @abstract\n * @augments Object3D\n */\nclass Light extends Object3D {\n\n\t/**\n\t * Constructs a new light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( color, intensity = 1 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLight = true;\n\n\t\tthis.type = 'Light';\n\n\t\t/**\n\t\t * The light's color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color( color );\n\n\t\t/**\n\t\t * The light's intensity.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.intensity = intensity;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\t// Empty here in base class; some subclasses override.\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.color.copy( source.color );\n\t\tthis.intensity = source.intensity;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.color = this.color.getHex();\n\t\tdata.object.intensity = this.intensity;\n\n\t\tif ( this.groundColor !== undefined ) data.object.groundColor = this.groundColor.getHex();\n\n\t\tif ( this.distance !== undefined ) data.object.distance = this.distance;\n\t\tif ( this.angle !== undefined ) data.object.angle = this.angle;\n\t\tif ( this.decay !== undefined ) data.object.decay = this.decay;\n\t\tif ( this.penumbra !== undefined ) data.object.penumbra = this.penumbra;\n\n\t\tif ( this.shadow !== undefined ) data.object.shadow = this.shadow.toJSON();\n\t\tif ( this.target !== undefined ) data.object.target = this.target.uuid;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * A light source positioned directly above the scene, with color fading from\n * the sky color to the ground color.\n *\n * This light cannot be used to cast shadows.\n *\n * ```js\n * const light = new THREE.HemisphereLight( 0xffffbb, 0x080820, 1 );\n * scene.add( light );\n * ```\n *\n * @augments Light\n */\nclass HemisphereLight extends Light {\n\n\t/**\n\t * Constructs a new hemisphere light.\n\t *\n\t * @param {(number|Color|string)} [skyColor=0xffffff] - The light's sky color.\n\t * @param {(number|Color|string)} [groundColor=0xffffff] - The light's ground color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( skyColor, groundColor, intensity ) {\n\n\t\tsuper( skyColor, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isHemisphereLight = true;\n\n\t\tthis.type = 'HemisphereLight';\n\n\t\tthis.position.copy( Object3D.DEFAULT_UP );\n\t\tthis.updateMatrix();\n\n\t\t/**\n\t\t * The light's ground color.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.groundColor = new Color( groundColor );\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.groundColor.copy( source.groundColor );\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _projScreenMatrix$1 = /*@__PURE__*/ new Matrix4();\nconst _lightPositionWorld$1 = /*@__PURE__*/ new Vector3();\nconst _lookTarget$1 = /*@__PURE__*/ new Vector3();\n\n/**\n * Abstract base class for light shadow classes. These classes\n * represent the shadow configuration for different light types.\n *\n * @abstract\n */\nclass LightShadow {\n\n\t/**\n\t * Constructs a new light shadow.\n\t *\n\t * @param {Camera} camera - The light's view of the world.\n\t */\n\tconstructor( camera ) {\n\n\t\t/**\n\t\t * The light's view of the world.\n\t\t *\n\t\t * @type {Camera}\n\t\t */\n\t\tthis.camera = camera;\n\n\t\t/**\n\t\t * The intensity of the shadow. The default is `1`.\n\t\t * Valid values are in the range `[0, 1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.intensity = 1;\n\n\t\t/**\n\t\t * Shadow map bias, how much to add or subtract from the normalized depth\n\t\t * when deciding whether a surface is in shadow.\n\t\t *\n\t\t * The default is `0`. Very tiny adjustments here (in the order of `0.0001`)\n\t\t * may help reduce artifacts in shadows.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.bias = 0;\n\n\t\t/**\n\t\t * Defines how much the position used to query the shadow map is offset along\n\t\t * the object normal. The default is `0`. Increasing this value can be used to\n\t\t * reduce shadow acne especially in large scenes where light shines onto\n\t\t * geometry at a shallow angle. The cost is that shadows may appear distorted.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.normalBias = 0;\n\n\t\t/**\n\t\t * Setting this to values greater than 1 will blur the edges of the shadow.\n\t\t * High values will cause unwanted banding effects in the shadows - a greater\n\t\t * map size will allow for a higher value to be used here before these effects\n\t\t * become visible.\n\t\t *\n\t\t * The property has no effect when the shadow map type is `PCFSoftShadowMap` and\n\t\t * and it is recommended to increase softness by decreasing the shadow map size instead.\n\t\t *\n\t\t * The property has no effect when the shadow map type is `BasicShadowMap`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.radius = 1;\n\n\t\t/**\n\t\t * The amount of samples to use when blurring a VSM shadow map.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 8\n\t\t */\n\t\tthis.blurSamples = 8;\n\n\t\t/**\n\t\t * Defines the width and height of the shadow map. Higher values give better quality\n\t\t * shadows at the cost of computation time. Values must be powers of two.\n\t\t *\n\t\t * @type {Vector2}\n\t\t * @default (512,512)\n\t\t */\n\t\tthis.mapSize = new Vector2( 512, 512 );\n\n\t\t/**\n\t\t * The type of shadow texture. The default is `UnsignedByteType`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default UnsignedByteType\n\t\t */\n\t\tthis.mapType = UnsignedByteType;\n\n\t\t/**\n\t\t * The depth map generated using the internal camera; a location beyond a\n\t\t * pixel's depth is in shadow. Computed internally during rendering.\n\t\t *\n\t\t * @type {?RenderTarget}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * The distribution map generated using the internal camera; an occlusion is\n\t\t * calculated based on the distribution of depths. Computed internally during\n\t\t * rendering.\n\t\t *\n\t\t * @type {?RenderTarget}\n\t\t * @default null\n\t\t */\n\t\tthis.mapPass = null;\n\n\t\t/**\n\t\t * Model to shadow camera space, to compute location and depth in shadow map.\n\t\t * This is computed internally during rendering.\n\t\t *\n\t\t * @type {Matrix4}\n\t\t */\n\t\tthis.matrix = new Matrix4();\n\n\t\t/**\n\t\t * Enables automatic updates of the light's shadow. If you do not require dynamic\n\t\t * lighting / shadows, you may set this to `false`.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.autoUpdate = true;\n\n\t\t/**\n\t\t * When set to `true`, shadow maps will be updated in the next `render` call.\n\t\t * If you have set {@link LightShadow#autoUpdate} to `false`, you will need to\n\t\t * set this property to `true` and then make a render call to update the light's shadow.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.needsUpdate = false;\n\n\t\tthis._frustum = new Frustum();\n\t\tthis._frameExtents = new Vector2( 1, 1 );\n\n\t\tthis._viewportCount = 1;\n\n\t\tthis._viewports = [\n\n\t\t\tnew Vector4( 0, 0, 1, 1 )\n\n\t\t];\n\n\t}\n\n\t/**\n\t * Used internally by the renderer to get the number of viewports that need\n\t * to be rendered for this shadow.\n\t *\n\t * @return {number} The viewport count.\n\t */\n\tgetViewportCount() {\n\n\t\treturn this._viewportCount;\n\n\t}\n\n\t/**\n\t * Gets the shadow cameras frustum. Used internally by the renderer to cull objects.\n\t *\n\t * @return {Frustum} The shadow camera frustum.\n\t */\n\tgetFrustum() {\n\n\t\treturn this._frustum;\n\n\t}\n\n\t/**\n\t * Update the matrices for the camera and shadow, used internally by the renderer.\n\t *\n\t * @param {Light} light - The light for which the shadow is being rendered.\n\t */\n\tupdateMatrices( light ) {\n\n\t\tconst shadowCamera = this.camera;\n\t\tconst shadowMatrix = this.matrix;\n\n\t\t_lightPositionWorld$1.setFromMatrixPosition( light.matrixWorld );\n\t\tshadowCamera.position.copy( _lightPositionWorld$1 );\n\n\t\t_lookTarget$1.setFromMatrixPosition( light.target.matrixWorld );\n\t\tshadowCamera.lookAt( _lookTarget$1 );\n\t\tshadowCamera.updateMatrixWorld();\n\n\t\t_projScreenMatrix$1.multiplyMatrices( shadowCamera.projectionMatrix, shadowCamera.matrixWorldInverse );\n\t\tthis._frustum.setFromProjectionMatrix( _projScreenMatrix$1, shadowCamera.coordinateSystem, shadowCamera.reversedDepth );\n\n\t\tif ( shadowCamera.reversedDepth ) {\n\n\t\t\tshadowMatrix.set(\n\t\t\t\t0.5, 0.0, 0.0, 0.5,\n\t\t\t\t0.0, 0.5, 0.0, 0.5,\n\t\t\t\t0.0, 0.0, 1.0, 0.0,\n\t\t\t\t0.0, 0.0, 0.0, 1.0\n\t\t\t);\n\n\t\t} else {\n\n\t\t\tshadowMatrix.set(\n\t\t\t\t0.5, 0.0, 0.0, 0.5,\n\t\t\t\t0.0, 0.5, 0.0, 0.5,\n\t\t\t\t0.0, 0.0, 0.5, 0.5,\n\t\t\t\t0.0, 0.0, 0.0, 1.0\n\t\t\t);\n\n\t\t}\n\n\t\tshadowMatrix.multiply( _projScreenMatrix$1 );\n\n\t}\n\n\t/**\n\t * Returns a viewport definition for the given viewport index.\n\t *\n\t * @param {number} viewportIndex - The viewport index.\n\t * @return {Vector4} The viewport.\n\t */\n\tgetViewport( viewportIndex ) {\n\n\t\treturn this._viewports[ viewportIndex ];\n\n\t}\n\n\t/**\n\t * Returns the frame extends.\n\t *\n\t * @return {Vector2} The frame extends.\n\t */\n\tgetFrameExtents() {\n\n\t\treturn this._frameExtents;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tif ( this.map ) {\n\n\t\t\tthis.map.dispose();\n\n\t\t}\n\n\t\tif ( this.mapPass ) {\n\n\t\t\tthis.mapPass.dispose();\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Copies the values of the given light shadow instance to this instance.\n\t *\n\t * @param {LightShadow} source - The light shadow to copy.\n\t * @return {LightShadow} A reference to this light shadow instance.\n\t */\n\tcopy( source ) {\n\n\t\tthis.camera = source.camera.clone();\n\n\t\tthis.intensity = source.intensity;\n\n\t\tthis.bias = source.bias;\n\t\tthis.radius = source.radius;\n\n\t\tthis.autoUpdate = source.autoUpdate;\n\t\tthis.needsUpdate = source.needsUpdate;\n\t\tthis.normalBias = source.normalBias;\n\t\tthis.blurSamples = source.blurSamples;\n\n\t\tthis.mapSize.copy( source.mapSize );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new light shadow instance with copied values from this instance.\n\t *\n\t * @return {LightShadow} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Serializes the light shadow into JSON.\n\t *\n\t * @return {Object} A JSON object representing the serialized light shadow.\n\t * @see {@link ObjectLoader#parse}\n\t */\n\ttoJSON() {\n\n\t\tconst object = {};\n\n\t\tif ( this.intensity !== 1 ) object.intensity = this.intensity;\n\t\tif ( this.bias !== 0 ) object.bias = this.bias;\n\t\tif ( this.normalBias !== 0 ) object.normalBias = this.normalBias;\n\t\tif ( this.radius !== 1 ) object.radius = this.radius;\n\t\tif ( this.mapSize.x !== 512 || this.mapSize.y !== 512 ) object.mapSize = this.mapSize.toArray();\n\n\t\tobject.camera = this.camera.toJSON( false ).object;\n\t\tdelete object.camera.matrix;\n\n\t\treturn object;\n\n\t}\n\n}\n\n/**\n * Represents the shadow configuration of directional lights.\n *\n * @augments LightShadow\n */\nclass SpotLightShadow extends LightShadow {\n\n\t/**\n\t * Constructs a new spot light shadow.\n\t */\n\tconstructor() {\n\n\t\tsuper( new PerspectiveCamera( 50, 1, 0.5, 500 ) );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSpotLightShadow = true;\n\n\t\t/**\n\t\t * Used to focus the shadow camera. The camera's field of view is set as a\n\t\t * percentage of the spotlight's field-of-view. Range is `[0, 1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.focus = 1;\n\n\t\t/**\n\t\t * Texture aspect ratio.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aspect = 1;\n\n\t}\n\n\tupdateMatrices( light ) {\n\n\t\tconst camera = this.camera;\n\n\t\tconst fov = RAD2DEG * 2 * light.angle * this.focus;\n\t\tconst aspect = ( this.mapSize.width / this.mapSize.height ) * this.aspect;\n\t\tconst far = light.distance || camera.far;\n\n\t\tif ( fov !== camera.fov || aspect !== camera.aspect || far !== camera.far ) {\n\n\t\t\tcamera.fov = fov;\n\t\t\tcamera.aspect = aspect;\n\t\t\tcamera.far = far;\n\t\t\tcamera.updateProjectionMatrix();\n\n\t\t}\n\n\t\tsuper.updateMatrices( light );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.focus = source.focus;\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This light gets emitted from a single point in one direction, along a cone\n * that increases in size the further from the light it gets.\n *\n * This light can cast shadows - see the {@link SpotLightShadow} for details.\n *\n * ```js\n * // white spotlight shining from the side, modulated by a texture\n * const spotLight = new THREE.SpotLight( 0xffffff );\n * spotLight.position.set( 100, 1000, 100 );\n * spotLight.map = new THREE.TextureLoader().load( url );\n *\n * spotLight.castShadow = true;\n * spotLight.shadow.mapSize.width = 1024;\n * spotLight.shadow.mapSize.height = 1024;\n * spotLight.shadow.camera.near = 500;\n * spotLight.shadow.camera.far = 4000;\n * spotLight.shadow.camera.fov = 30;s\n * ```\n *\n * @augments Light\n */\nclass SpotLight extends Light {\n\n\t/**\n\t * Constructs a new spot light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity measured in candela (cd).\n\t * @param {number} [distance=0] - Maximum range of the light. `0` means no limit.\n\t * @param {number} [angle=Math.PI/3] - Maximum angle of light dispersion from its direction whose upper bound is `Math.PI/2`.\n\t * @param {number} [penumbra=0] - Percent of the spotlight cone that is attenuated due to penumbra. Value range is `[0,1]`.\n\t * @param {number} [decay=2] - The amount the light dims along the distance of the light.\n\t */\n\tconstructor( color, intensity, distance = 0, angle = Math.PI / 3, penumbra = 0, decay = 2 ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSpotLight = true;\n\n\t\tthis.type = 'SpotLight';\n\n\t\tthis.position.copy( Object3D.DEFAULT_UP );\n\t\tthis.updateMatrix();\n\n\t\t/**\n\t\t * The spot light points from its position to the\n\t\t * target's position.\n\t\t *\n\t\t * For the target's position to be changed to anything other\n\t\t * than the default, it must be added to the scene.\n\t\t *\n\t\t * It is also possible to set the target to be another 3D object\n\t\t * in the scene. The light will now track the target object.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.target = new Object3D();\n\n\t\t/**\n\t\t * Maximum range of the light. `0` means no limit.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.distance = distance;\n\n\t\t/**\n\t\t * Maximum angle of light dispersion from its direction whose upper bound is `Math.PI/2`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Math.PI/3\n\t\t */\n\t\tthis.angle = angle;\n\n\t\t/**\n\t\t * Percent of the spotlight cone that is attenuated due to penumbra.\n\t\t * Value range is `[0,1]`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.penumbra = penumbra;\n\n\t\t/**\n\t\t * The amount the light dims along the distance of the light. In context of\n\t\t * physically-correct rendering the default value should not be changed.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2\n\t\t */\n\t\tthis.decay = decay;\n\n\t\t/**\n\t\t * A texture used to modulate the color of the light. The spot light\n\t\t * color is mixed with the RGB value of this texture, with a ratio\n\t\t * corresponding to its alpha value. The cookie-like masking effect is\n\t\t * reproduced using pixel values (0, 0, 0, 1-cookie_value).\n\t\t *\n\t\t * *Warning*: This property is disabled if {@link Object3D#castShadow} is set to `false`.\n\t\t *\n\t\t * @type {?Texture}\n\t\t * @default null\n\t\t */\n\t\tthis.map = null;\n\n\t\t/**\n\t\t * This property holds the light's shadow configuration.\n\t\t *\n\t\t * @type {SpotLightShadow}\n\t\t */\n\t\tthis.shadow = new SpotLightShadow();\n\n\t}\n\n\t/**\n\t * The light's power. Power is the luminous power of the light measured in lumens (lm).\n\t * Changing the power will also change the light's intensity.\n\t *\n\t * @type {number}\n\t */\n\tget power() {\n\n\t\t// compute the light's luminous power (in lumens) from its intensity (in candela)\n\t\t// by convention for a spotlight, luminous power (lm) = π * luminous intensity (cd)\n\t\treturn this.intensity * Math.PI;\n\n\t}\n\n\tset power( power ) {\n\n\t\t// set the light's intensity (in candela) from the desired luminous power (in lumens)\n\t\tthis.intensity = power / Math.PI;\n\n\t}\n\n\tdispose() {\n\n\t\tthis.shadow.dispose();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.distance = source.distance;\n\t\tthis.angle = source.angle;\n\t\tthis.penumbra = source.penumbra;\n\t\tthis.decay = source.decay;\n\n\t\tthis.target = source.target.clone();\n\n\t\tthis.shadow = source.shadow.clone();\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _projScreenMatrix = /*@__PURE__*/ new Matrix4();\nconst _lightPositionWorld = /*@__PURE__*/ new Vector3();\nconst _lookTarget = /*@__PURE__*/ new Vector3();\n\n/**\n * Represents the shadow configuration of point lights.\n *\n * @augments LightShadow\n */\nclass PointLightShadow extends LightShadow {\n\n\t/**\n\t * Constructs a new point light shadow.\n\t */\n\tconstructor() {\n\n\t\tsuper( new PerspectiveCamera( 90, 1, 0.5, 500 ) );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPointLightShadow = true;\n\n\t\tthis._frameExtents = new Vector2( 4, 2 );\n\n\t\tthis._viewportCount = 6;\n\n\t\tthis._viewports = [\n\t\t\t// These viewports map a cube-map onto a 2D texture with the\n\t\t\t// following orientation:\n\t\t\t//\n\t\t\t// xzXZ\n\t\t\t// y Y\n\t\t\t//\n\t\t\t// X - Positive x direction\n\t\t\t// x - Negative x direction\n\t\t\t// Y - Positive y direction\n\t\t\t// y - Negative y direction\n\t\t\t// Z - Positive z direction\n\t\t\t// z - Negative z direction\n\n\t\t\t// positive X\n\t\t\tnew Vector4( 2, 1, 1, 1 ),\n\t\t\t// negative X\n\t\t\tnew Vector4( 0, 1, 1, 1 ),\n\t\t\t// positive Z\n\t\t\tnew Vector4( 3, 1, 1, 1 ),\n\t\t\t// negative Z\n\t\t\tnew Vector4( 1, 1, 1, 1 ),\n\t\t\t// positive Y\n\t\t\tnew Vector4( 3, 0, 1, 1 ),\n\t\t\t// negative Y\n\t\t\tnew Vector4( 1, 0, 1, 1 )\n\t\t];\n\n\t\tthis._cubeDirections = [\n\t\t\tnew Vector3( 1, 0, 0 ), new Vector3( -1, 0, 0 ), new Vector3( 0, 0, 1 ),\n\t\t\tnew Vector3( 0, 0, -1 ), new Vector3( 0, 1, 0 ), new Vector3( 0, -1, 0 )\n\t\t];\n\n\t\tthis._cubeUps = [\n\t\t\tnew Vector3( 0, 1, 0 ), new Vector3( 0, 1, 0 ), new Vector3( 0, 1, 0 ),\n\t\t\tnew Vector3( 0, 1, 0 ), new Vector3( 0, 0, 1 ),\tnew Vector3( 0, 0, -1 )\n\t\t];\n\n\t}\n\n\t/**\n\t * Update the matrices for the camera and shadow, used internally by the renderer.\n\t *\n\t * @param {Light} light - The light for which the shadow is being rendered.\n\t * @param {number} [viewportIndex=0] - The viewport index.\n\t */\n\tupdateMatrices( light, viewportIndex = 0 ) {\n\n\t\tconst camera = this.camera;\n\t\tconst shadowMatrix = this.matrix;\n\n\t\tconst far = light.distance || camera.far;\n\n\t\tif ( far !== camera.far ) {\n\n\t\t\tcamera.far = far;\n\t\t\tcamera.updateProjectionMatrix();\n\n\t\t}\n\n\t\t_lightPositionWorld.setFromMatrixPosition( light.matrixWorld );\n\t\tcamera.position.copy( _lightPositionWorld );\n\n\t\t_lookTarget.copy( camera.position );\n\t\t_lookTarget.add( this._cubeDirections[ viewportIndex ] );\n\t\tcamera.up.copy( this._cubeUps[ viewportIndex ] );\n\t\tcamera.lookAt( _lookTarget );\n\t\tcamera.updateMatrixWorld();\n\n\t\tshadowMatrix.makeTranslation( - _lightPositionWorld.x, - _lightPositionWorld.y, - _lightPositionWorld.z );\n\n\t\t_projScreenMatrix.multiplyMatrices( camera.projectionMatrix, camera.matrixWorldInverse );\n\t\tthis._frustum.setFromProjectionMatrix( _projScreenMatrix, camera.coordinateSystem, camera.reversedDepth );\n\n\t}\n\n}\n\n/**\n * A light that gets emitted from a single point in all directions. A common\n * use case for this is to replicate the light emitted from a bare\n * lightbulb.\n *\n * This light can cast shadows - see the {@link PointLightShadow} for details.\n *\n * ```js\n * const light = new THREE.PointLight( 0xff0000, 1, 100 );\n * light.position.set( 50, 50, 50 );\n * scene.add( light );\n * ```\n *\n * @augments Light\n */\nclass PointLight extends Light {\n\n\t/**\n\t * Constructs a new point light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity measured in candela (cd).\n\t * @param {number} [distance=0] - Maximum range of the light. `0` means no limit.\n\t * @param {number} [decay=2] - The amount the light dims along the distance of the light.\n\t */\n\tconstructor( color, intensity, distance = 0, decay = 2 ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPointLight = true;\n\n\t\tthis.type = 'PointLight';\n\n\t\t/**\n\t\t * When distance is zero, light will attenuate according to inverse-square\n\t\t * law to infinite distance. When distance is non-zero, light will attenuate\n\t\t * according to inverse-square law until near the distance cutoff, where it\n\t\t * will then attenuate quickly and smoothly to 0. Inherently, cutoffs are not\n\t\t * physically correct.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.distance = distance;\n\n\t\t/**\n\t\t * The amount the light dims along the distance of the light. In context of\n\t\t * physically-correct rendering the default value should not be changed.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2\n\t\t */\n\t\tthis.decay = decay;\n\n\t\t/**\n\t\t * This property holds the light's shadow configuration.\n\t\t *\n\t\t * @type {PointLightShadow}\n\t\t */\n\t\tthis.shadow = new PointLightShadow();\n\n\t}\n\n\t/**\n\t * The light's power. Power is the luminous power of the light measured in lumens (lm).\n\t * Changing the power will also change the light's intensity.\n\t *\n\t * @type {number}\n\t */\n\tget power() {\n\n\t\t// compute the light's luminous power (in lumens) from its intensity (in candela)\n\t\t// for an isotropic light source, luminous power (lm) = 4 π luminous intensity (cd)\n\t\treturn this.intensity * 4 * Math.PI;\n\n\t}\n\n\tset power( power ) {\n\n\t\t// set the light's intensity (in candela) from the desired luminous power (in lumens)\n\t\tthis.intensity = power / ( 4 * Math.PI );\n\n\t}\n\n\tdispose() {\n\n\t\tthis.shadow.dispose();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.distance = source.distance;\n\t\tthis.decay = source.decay;\n\n\t\tthis.shadow = source.shadow.clone();\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * Camera that uses [orthographic projection]{@link https://en.wikipedia.org/wiki/Orthographic_projection}.\n *\n * In this projection mode, an object's size in the rendered image stays\n * constant regardless of its distance from the camera. This can be useful\n * for rendering 2D scenes and UI elements, amongst other things.\n *\n * ```js\n * const camera = new THREE.OrthographicCamera( width / - 2, width / 2, height / 2, height / - 2, 1, 1000 );\n * scene.add( camera );\n * ```\n *\n * @augments Camera\n */\nclass OrthographicCamera extends Camera {\n\n\t/**\n\t * Constructs a new orthographic camera.\n\t *\n\t * @param {number} [left=-1] - The left plane of the camera's frustum.\n\t * @param {number} [right=1] - The right plane of the camera's frustum.\n\t * @param {number} [top=1] - The top plane of the camera's frustum.\n\t * @param {number} [bottom=-1] - The bottom plane of the camera's frustum.\n\t * @param {number} [near=0.1] - The camera's near plane.\n\t * @param {number} [far=2000] - The camera's far plane.\n\t */\n\tconstructor( left = -1, right = 1, top = 1, bottom = -1, near = 0.1, far = 2000 ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isOrthographicCamera = true;\n\n\t\tthis.type = 'OrthographicCamera';\n\n\t\t/**\n\t\t * The zoom factor of the camera.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.zoom = 1;\n\n\t\t/**\n\t\t * Represents the frustum window specification. This property should not be edited\n\t\t * directly but via {@link PerspectiveCamera#setViewOffset} and {@link PerspectiveCamera#clearViewOffset}.\n\t\t *\n\t\t * @type {?Object}\n\t\t * @default null\n\t\t */\n\t\tthis.view = null;\n\n\t\t/**\n\t\t * The left plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default -1\n\t\t */\n\t\tthis.left = left;\n\n\t\t/**\n\t\t * The right plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.right = right;\n\n\t\t/**\n\t\t * The top plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.top = top;\n\n\t\t/**\n\t\t * The bottom plane of the camera's frustum.\n\t\t *\n\t\t * @type {number}\n\t\t * @default -1\n\t\t */\n\t\tthis.bottom = bottom;\n\n\t\t/**\n\t\t * The camera's near plane. The valid range is greater than `0`\n\t\t * and less than the current value of {@link OrthographicCamera#far}.\n\t\t *\n\t\t * Note that, unlike for the {@link PerspectiveCamera}, `0` is a\n\t\t * valid value for an orthographic camera's near plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.1\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * The camera's far plane. Must be greater than the\n\t\t * current value of {@link OrthographicCamera#near}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 2000\n\t\t */\n\t\tthis.far = far;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.left = source.left;\n\t\tthis.right = source.right;\n\t\tthis.top = source.top;\n\t\tthis.bottom = source.bottom;\n\t\tthis.near = source.near;\n\t\tthis.far = source.far;\n\n\t\tthis.zoom = source.zoom;\n\t\tthis.view = source.view === null ? null : Object.assign( {}, source.view );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets an offset in a larger frustum. This is useful for multi-window or\n\t * multi-monitor/multi-machine setups.\n\t *\n\t * @param {number} fullWidth - The full width of multiview setup.\n\t * @param {number} fullHeight - The full height of multiview setup.\n\t * @param {number} x - The horizontal offset of the subcamera.\n\t * @param {number} y - The vertical offset of the subcamera.\n\t * @param {number} width - The width of subcamera.\n\t * @param {number} height - The height of subcamera.\n\t * @see {@link PerspectiveCamera#setViewOffset}\n\t */\n\tsetViewOffset( fullWidth, fullHeight, x, y, width, height ) {\n\n\t\tif ( this.view === null ) {\n\n\t\t\tthis.view = {\n\t\t\t\tenabled: true,\n\t\t\t\tfullWidth: 1,\n\t\t\t\tfullHeight: 1,\n\t\t\t\toffsetX: 0,\n\t\t\t\toffsetY: 0,\n\t\t\t\twidth: 1,\n\t\t\t\theight: 1\n\t\t\t};\n\n\t\t}\n\n\t\tthis.view.enabled = true;\n\t\tthis.view.fullWidth = fullWidth;\n\t\tthis.view.fullHeight = fullHeight;\n\t\tthis.view.offsetX = x;\n\t\tthis.view.offsetY = y;\n\t\tthis.view.width = width;\n\t\tthis.view.height = height;\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Removes the view offset from the projection matrix.\n\t */\n\tclearViewOffset() {\n\n\t\tif ( this.view !== null ) {\n\n\t\t\tthis.view.enabled = false;\n\n\t\t}\n\n\t\tthis.updateProjectionMatrix();\n\n\t}\n\n\t/**\n\t * Updates the camera's projection matrix. Must be called after any change of\n\t * camera properties.\n\t */\n\tupdateProjectionMatrix() {\n\n\t\tconst dx = ( this.right - this.left ) / ( 2 * this.zoom );\n\t\tconst dy = ( this.top - this.bottom ) / ( 2 * this.zoom );\n\t\tconst cx = ( this.right + this.left ) / 2;\n\t\tconst cy = ( this.top + this.bottom ) / 2;\n\n\t\tlet left = cx - dx;\n\t\tlet right = cx + dx;\n\t\tlet top = cy + dy;\n\t\tlet bottom = cy - dy;\n\n\t\tif ( this.view !== null && this.view.enabled ) {\n\n\t\t\tconst scaleW = ( this.right - this.left ) / this.view.fullWidth / this.zoom;\n\t\t\tconst scaleH = ( this.top - this.bottom ) / this.view.fullHeight / this.zoom;\n\n\t\t\tleft += scaleW * this.view.offsetX;\n\t\t\tright = left + scaleW * this.view.width;\n\t\t\ttop -= scaleH * this.view.offsetY;\n\t\t\tbottom = top - scaleH * this.view.height;\n\n\t\t}\n\n\t\tthis.projectionMatrix.makeOrthographic( left, right, top, bottom, this.near, this.far, this.coordinateSystem, this.reversedDepth );\n\n\t\tthis.projectionMatrixInverse.copy( this.projectionMatrix ).invert();\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.zoom = this.zoom;\n\t\tdata.object.left = this.left;\n\t\tdata.object.right = this.right;\n\t\tdata.object.top = this.top;\n\t\tdata.object.bottom = this.bottom;\n\t\tdata.object.near = this.near;\n\t\tdata.object.far = this.far;\n\n\t\tif ( this.view !== null ) data.object.view = Object.assign( {}, this.view );\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Represents the shadow configuration of directional lights.\n *\n * @augments LightShadow\n */\nclass DirectionalLightShadow extends LightShadow {\n\n\t/**\n\t * Constructs a new directional light shadow.\n\t */\n\tconstructor() {\n\n\t\tsuper( new OrthographicCamera( -5, 5, 5, -5, 0.5, 500 ) );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDirectionalLightShadow = true;\n\n\t}\n\n}\n\n/**\n * A light that gets emitted in a specific direction. This light will behave\n * as though it is infinitely far away and the rays produced from it are all\n * parallel. The common use case for this is to simulate daylight; the sun is\n * far enough away that its position can be considered to be infinite, and\n * all light rays coming from it are parallel.\n *\n * A common point of confusion for directional lights is that setting the\n * rotation has no effect. This is because three.js's DirectionalLight is the\n * equivalent to what is often called a 'Target Direct Light' in other\n * applications.\n *\n * This means that its direction is calculated as pointing from the light's\n * {@link Object3D#position} to the {@link DirectionalLight#target} position\n * (as opposed to a 'Free Direct Light' that just has a rotation\n * component).\n *\n * This light can cast shadows - see the {@link DirectionalLightShadow} for details.\n *\n * ```js\n * // White directional light at half intensity shining from the top.\n * const directionalLight = new THREE.DirectionalLight( 0xffffff, 0.5 );\n * scene.add( directionalLight );\n * ```\n *\n * @augments Light\n */\nclass DirectionalLight extends Light {\n\n\t/**\n\t * Constructs a new directional light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( color, intensity ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isDirectionalLight = true;\n\n\t\tthis.type = 'DirectionalLight';\n\n\t\tthis.position.copy( Object3D.DEFAULT_UP );\n\t\tthis.updateMatrix();\n\n\t\t/**\n\t\t * The directional light points from its position to the\n\t\t * target's position.\n\t\t *\n\t\t * For the target's position to be changed to anything other\n\t\t * than the default, it must be added to the scene.\n\t\t *\n\t\t * It is also possible to set the target to be another 3D object\n\t\t * in the scene. The light will now track the target object.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.target = new Object3D();\n\n\t\t/**\n\t\t * This property holds the light's shadow configuration.\n\t\t *\n\t\t * @type {DirectionalLightShadow}\n\t\t */\n\t\tthis.shadow = new DirectionalLightShadow();\n\n\t}\n\n\tdispose() {\n\n\t\tthis.shadow.dispose();\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.target = source.target.clone();\n\t\tthis.shadow = source.shadow.clone();\n\n\t\treturn this;\n\n\t}\n\n}\n\n/**\n * This light globally illuminates all objects in the scene equally.\n *\n * It cannot be used to cast shadows as it does not have a direction.\n *\n * ```js\n * const light = new THREE.AmbientLight( 0x404040 ); // soft white light\n * scene.add( light );\n * ```\n *\n * @augments Light\n */\nclass AmbientLight extends Light {\n\n\t/**\n\t * Constructs a new ambient light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( color, intensity ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isAmbientLight = true;\n\n\t\tthis.type = 'AmbientLight';\n\n\t}\n\n}\n\n/**\n * This class emits light uniformly across the face a rectangular plane.\n * This light type can be used to simulate light sources such as bright\n * windows or strip lighting.\n *\n * Important Notes:\n *\n * - There is no shadow support.\n * - Only PBR materials are supported.\n * - You have to include `RectAreaLightUniformsLib` (`WebGLRenderer`) or `RectAreaLightTexturesLib` (`WebGPURenderer`)\n * into your app and init the uniforms/textures.\n *\n * ```js\n * RectAreaLightUniformsLib.init(); // only relevant for WebGLRenderer\n * THREE.RectAreaLightNode.setLTC( RectAreaLightTexturesLib.init() ); // only relevant for WebGPURenderer\n *\n * const intensity = 1; const width = 10; const height = 10;\n * const rectLight = new THREE.RectAreaLight( 0xffffff, intensity, width, height );\n * rectLight.position.set( 5, 5, 0 );\n * rectLight.lookAt( 0, 0, 0 );\n * scene.add( rectLight )\n * ```\n *\n * @augments Light\n */\nclass RectAreaLight extends Light {\n\n\t/**\n\t * Constructs a new area light.\n\t *\n\t * @param {(number|Color|string)} [color=0xffffff] - The light's color.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t * @param {number} [width=10] - The width of the light.\n\t * @param {number} [height=10] - The height of the light.\n\t */\n\tconstructor( color, intensity, width = 10, height = 10 ) {\n\n\t\tsuper( color, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRectAreaLight = true;\n\n\t\tthis.type = 'RectAreaLight';\n\n\t\t/**\n\t\t * The width of the light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 10\n\t\t */\n\t\tthis.width = width;\n\n\t\t/**\n\t\t * The height of the light.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 10\n\t\t */\n\t\tthis.height = height;\n\n\t}\n\n\t/**\n\t * The light's power. Power is the luminous power of the light measured in lumens (lm).\n\t * Changing the power will also change the light's intensity.\n\t *\n\t * @type {number}\n\t */\n\tget power() {\n\n\t\t// compute the light's luminous power (in lumens) from its intensity (in nits)\n\t\treturn this.intensity * this.width * this.height * Math.PI;\n\n\t}\n\n\tset power( power ) {\n\n\t\t// set the light's intensity (in nits) from the desired luminous power (in lumens)\n\t\tthis.intensity = power / ( this.width * this.height * Math.PI );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.width = source.width;\n\t\tthis.height = source.height;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.width = this.width;\n\t\tdata.object.height = this.height;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Represents a third-order spherical harmonics (SH). Light probes use this class\n * to encode lighting information.\n *\n * - Primary reference: {@link https://graphics.stanford.edu/papers/envmap/envmap.pdf}\n * - Secondary reference: {@link https://www.ppsloan.org/publications/StupidSH36.pdf}\n */\nclass SphericalHarmonics3 {\n\n\t/**\n\t * Constructs a new spherical harmonics.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSphericalHarmonics3 = true;\n\n\t\t/**\n\t\t * An array holding the (9) SH coefficients.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.coefficients = [];\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients.push( new Vector3() );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the given SH coefficients to this instance by copying\n\t * the values.\n\t *\n\t * @param {Array} coefficients - The SH coefficients.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tset( coefficients ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].copy( coefficients[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets all SH coefficients to `0`.\n\t *\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tzero() {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].set( 0, 0, 0 );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the radiance in the direction of the given normal.\n\t *\n\t * @param {Vector3} normal - The normal vector (assumed to be unit length)\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The radiance.\n\t */\n\tgetAt( normal, target ) {\n\n\t\t// normal is assumed to be unit length\n\n\t\tconst x = normal.x, y = normal.y, z = normal.z;\n\n\t\tconst coeff = this.coefficients;\n\n\t\t// band 0\n\t\ttarget.copy( coeff[ 0 ] ).multiplyScalar( 0.282095 );\n\n\t\t// band 1\n\t\ttarget.addScaledVector( coeff[ 1 ], 0.488603 * y );\n\t\ttarget.addScaledVector( coeff[ 2 ], 0.488603 * z );\n\t\ttarget.addScaledVector( coeff[ 3 ], 0.488603 * x );\n\n\t\t// band 2\n\t\ttarget.addScaledVector( coeff[ 4 ], 1.092548 * ( x * y ) );\n\t\ttarget.addScaledVector( coeff[ 5 ], 1.092548 * ( y * z ) );\n\t\ttarget.addScaledVector( coeff[ 6 ], 0.315392 * ( 3.0 * z * z - 1.0 ) );\n\t\ttarget.addScaledVector( coeff[ 7 ], 1.092548 * ( x * z ) );\n\t\ttarget.addScaledVector( coeff[ 8 ], 0.546274 * ( x * x - y * y ) );\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Returns the irradiance (radiance convolved with cosine lobe) in the\n\t * direction of the given normal.\n\t *\n\t * @param {Vector3} normal - The normal vector (assumed to be unit length)\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The irradiance.\n\t */\n\tgetIrradianceAt( normal, target ) {\n\n\t\t// normal is assumed to be unit length\n\n\t\tconst x = normal.x, y = normal.y, z = normal.z;\n\n\t\tconst coeff = this.coefficients;\n\n\t\t// band 0\n\t\ttarget.copy( coeff[ 0 ] ).multiplyScalar( 0.886227 ); // π * 0.282095\n\n\t\t// band 1\n\t\ttarget.addScaledVector( coeff[ 1 ], 2.0 * 0.511664 * y ); // ( 2 * π / 3 ) * 0.488603\n\t\ttarget.addScaledVector( coeff[ 2 ], 2.0 * 0.511664 * z );\n\t\ttarget.addScaledVector( coeff[ 3 ], 2.0 * 0.511664 * x );\n\n\t\t// band 2\n\t\ttarget.addScaledVector( coeff[ 4 ], 2.0 * 0.429043 * x * y ); // ( π / 4 ) * 1.092548\n\t\ttarget.addScaledVector( coeff[ 5 ], 2.0 * 0.429043 * y * z );\n\t\ttarget.addScaledVector( coeff[ 6 ], 0.743125 * z * z - 0.247708 ); // ( π / 4 ) * 0.315392 * 3\n\t\ttarget.addScaledVector( coeff[ 7 ], 2.0 * 0.429043 * x * z );\n\t\ttarget.addScaledVector( coeff[ 8 ], 0.429043 * ( x * x - y * y ) ); // ( π / 4 ) * 0.546274\n\n\t\treturn target;\n\n\t}\n\n\t/**\n\t * Adds the given SH to this instance.\n\t *\n\t * @param {SphericalHarmonics3} sh - The SH to add.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tadd( sh ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].add( sh.coefficients[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * A convenience method for performing {@link SphericalHarmonics3#add} and\n\t * {@link SphericalHarmonics3#scale} at once.\n\t *\n\t * @param {SphericalHarmonics3} sh - The SH to add.\n\t * @param {number} s - The scale factor.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\taddScaledSH( sh, s ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].addScaledVector( sh.coefficients[ i ], s );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Scales this SH by the given scale factor.\n\t *\n\t * @param {number} s - The scale factor.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tscale( s ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].multiplyScalar( s );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Linear interpolates between the given SH and this instance by the given\n\t * alpha factor.\n\t *\n\t * @param {SphericalHarmonics3} sh - The SH to interpolate with.\n\t * @param {number} alpha - The alpha factor.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tlerp( sh, alpha ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tthis.coefficients[ i ].lerp( sh.coefficients[ i ], alpha );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this spherical harmonics is equal with the given one.\n\t *\n\t * @param {SphericalHarmonics3} sh - The spherical harmonics to test for equality.\n\t * @return {boolean} Whether this spherical harmonics is equal with the given one.\n\t */\n\tequals( sh ) {\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tif ( ! this.coefficients[ i ].equals( sh.coefficients[ i ] ) ) {\n\n\t\t\t\treturn false;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn true;\n\n\t}\n\n\t/**\n\t * Copies the values of the given spherical harmonics to this instance.\n\t *\n\t * @param {SphericalHarmonics3} sh - The spherical harmonics to copy.\n\t * @return {SphericalHarmonics3} A reference to this spherical harmonics.\n\t */\n\tcopy( sh ) {\n\n\t\treturn this.set( sh.coefficients );\n\n\t}\n\n\t/**\n\t * Returns a new spherical harmonics with copied values from this instance.\n\t *\n\t * @return {SphericalHarmonics3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Sets the SH coefficients of this instance from the given array.\n\t *\n\t * @param {Array} array - An array holding the SH coefficients.\n\t * @param {number} [offset=0] - The array offset where to start copying.\n\t * @return {SphericalHarmonics3} A clone of this instance.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tconst coefficients = this.coefficients;\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tcoefficients[ i ].fromArray( array, offset + ( i * 3 ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns an array with the SH coefficients, or copies them into the provided\n\t * array. The coefficients are represented as numbers.\n\t *\n\t * @param {Array} [array=[]] - The target array.\n\t * @param {number} [offset=0] - The array offset where to start copying.\n\t * @return {Array} An array with flat SH coefficients.\n\t */\n\ttoArray( array = [], offset = 0 ) {\n\n\t\tconst coefficients = this.coefficients;\n\n\t\tfor ( let i = 0; i < 9; i ++ ) {\n\n\t\t\tcoefficients[ i ].toArray( array, offset + ( i * 3 ) );\n\n\t\t}\n\n\t\treturn array;\n\n\t}\n\n\t/**\n\t * Computes the SH basis for the given normal vector.\n\t *\n\t * @param {Vector3} normal - The normal.\n\t * @param {Array} shBasis - The target array holding the SH basis.\n\t */\n\tstatic getBasisAt( normal, shBasis ) {\n\n\t\t// normal is assumed to be unit length\n\n\t\tconst x = normal.x, y = normal.y, z = normal.z;\n\n\t\t// band 0\n\t\tshBasis[ 0 ] = 0.282095;\n\n\t\t// band 1\n\t\tshBasis[ 1 ] = 0.488603 * y;\n\t\tshBasis[ 2 ] = 0.488603 * z;\n\t\tshBasis[ 3 ] = 0.488603 * x;\n\n\t\t// band 2\n\t\tshBasis[ 4 ] = 1.092548 * x * y;\n\t\tshBasis[ 5 ] = 1.092548 * y * z;\n\t\tshBasis[ 6 ] = 0.315392 * ( 3 * z * z - 1 );\n\t\tshBasis[ 7 ] = 1.092548 * x * z;\n\t\tshBasis[ 8 ] = 0.546274 * ( x * x - y * y );\n\n\t}\n\n}\n\n/**\n * Light probes are an alternative way of adding light to a 3D scene. Unlike\n * classical light sources (e.g. directional, point or spot lights), light\n * probes do not emit light. Instead they store information about light\n * passing through 3D space. During rendering, the light that hits a 3D\n * object is approximated by using the data from the light probe.\n *\n * Light probes are usually created from (radiance) environment maps. The\n * class {@link LightProbeGenerator} can be used to create light probes from\n * cube textures or render targets. However, light estimation data could also\n * be provided in other forms e.g. by WebXR. This enables the rendering of\n * augmented reality content that reacts to real world lighting.\n *\n * The current probe implementation in three.js supports so-called diffuse\n * light probes. This type of light probe is functionally equivalent to an\n * irradiance environment map.\n *\n * @augments Light\n */\nclass LightProbe extends Light {\n\n\t/**\n\t * Constructs a new light probe.\n\t *\n\t * @param {SphericalHarmonics3} sh - The spherical harmonics which represents encoded lighting information.\n\t * @param {number} [intensity=1] - The light's strength/intensity.\n\t */\n\tconstructor( sh = new SphericalHarmonics3(), intensity = 1 ) {\n\n\t\tsuper( undefined, intensity );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isLightProbe = true;\n\n\t\t/**\n\t\t * A light probe uses spherical harmonics to encode lighting information.\n\t\t *\n\t\t * @type {SphericalHarmonics3}\n\t\t */\n\t\tthis.sh = sh;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.sh.copy( source.sh );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Deserializes the light prove from the given JSON.\n\t *\n\t * @param {Object} json - The JSON holding the serialized light probe.\n\t * @return {LightProbe} A reference to this light probe.\n\t */\n\tfromJSON( json ) {\n\n\t\tthis.intensity = json.intensity; // TODO: Move this bit to Light.fromJSON();\n\t\tthis.sh.fromArray( json.sh );\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON( meta ) {\n\n\t\tconst data = super.toJSON( meta );\n\n\t\tdata.object.sh = this.sh.toArray();\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Class for loading geometries. The files are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.MaterialLoader();\n * const material = await loader.loadAsync( 'material.json' );\n * ```\n * This loader does not support node materials. Use {@link NodeMaterialLoader} instead.\n *\n * @augments Loader\n */\nclass MaterialLoader extends Loader {\n\n\t/**\n\t * Constructs a new material loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t\t/**\n\t\t * A dictionary holding textures used by the material.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.textures = {};\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded material to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Material)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( scope.manager );\n\t\tloader.setPath( scope.path );\n\t\tloader.setRequestHeader( scope.requestHeader );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\ttry {\n\n\t\t\t\tonLoad( scope.parse( JSON.parse( text ) ) );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\tif ( onError ) {\n\n\t\t\t\t\tonError( e );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( e );\n\n\t\t\t\t}\n\n\t\t\t\tscope.manager.itemError( url );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Parses the given JSON object and returns a material.\n\t *\n\t * @param {Object} json - The serialized material.\n\t * @return {Material} The parsed material.\n\t */\n\tparse( json ) {\n\n\t\tconst textures = this.textures;\n\n\t\tfunction getTexture( name ) {\n\n\t\t\tif ( textures[ name ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.MaterialLoader: Undefined texture', name );\n\n\t\t\t}\n\n\t\t\treturn textures[ name ];\n\n\t\t}\n\n\t\tconst material = this.createMaterialFromType( json.type );\n\n\t\tif ( json.uuid !== undefined ) material.uuid = json.uuid;\n\t\tif ( json.name !== undefined ) material.name = json.name;\n\t\tif ( json.color !== undefined && material.color !== undefined ) material.color.setHex( json.color );\n\t\tif ( json.roughness !== undefined ) material.roughness = json.roughness;\n\t\tif ( json.metalness !== undefined ) material.metalness = json.metalness;\n\t\tif ( json.sheen !== undefined ) material.sheen = json.sheen;\n\t\tif ( json.sheenColor !== undefined ) material.sheenColor = new Color().setHex( json.sheenColor );\n\t\tif ( json.sheenRoughness !== undefined ) material.sheenRoughness = json.sheenRoughness;\n\t\tif ( json.emissive !== undefined && material.emissive !== undefined ) material.emissive.setHex( json.emissive );\n\t\tif ( json.specular !== undefined && material.specular !== undefined ) material.specular.setHex( json.specular );\n\t\tif ( json.specularIntensity !== undefined ) material.specularIntensity = json.specularIntensity;\n\t\tif ( json.specularColor !== undefined && material.specularColor !== undefined ) material.specularColor.setHex( json.specularColor );\n\t\tif ( json.shininess !== undefined ) material.shininess = json.shininess;\n\t\tif ( json.clearcoat !== undefined ) material.clearcoat = json.clearcoat;\n\t\tif ( json.clearcoatRoughness !== undefined ) material.clearcoatRoughness = json.clearcoatRoughness;\n\t\tif ( json.dispersion !== undefined ) material.dispersion = json.dispersion;\n\t\tif ( json.iridescence !== undefined ) material.iridescence = json.iridescence;\n\t\tif ( json.iridescenceIOR !== undefined ) material.iridescenceIOR = json.iridescenceIOR;\n\t\tif ( json.iridescenceThicknessRange !== undefined ) material.iridescenceThicknessRange = json.iridescenceThicknessRange;\n\t\tif ( json.transmission !== undefined ) material.transmission = json.transmission;\n\t\tif ( json.thickness !== undefined ) material.thickness = json.thickness;\n\t\tif ( json.attenuationDistance !== undefined ) material.attenuationDistance = json.attenuationDistance;\n\t\tif ( json.attenuationColor !== undefined && material.attenuationColor !== undefined ) material.attenuationColor.setHex( json.attenuationColor );\n\t\tif ( json.anisotropy !== undefined ) material.anisotropy = json.anisotropy;\n\t\tif ( json.anisotropyRotation !== undefined ) material.anisotropyRotation = json.anisotropyRotation;\n\t\tif ( json.fog !== undefined ) material.fog = json.fog;\n\t\tif ( json.flatShading !== undefined ) material.flatShading = json.flatShading;\n\t\tif ( json.blending !== undefined ) material.blending = json.blending;\n\t\tif ( json.combine !== undefined ) material.combine = json.combine;\n\t\tif ( json.side !== undefined ) material.side = json.side;\n\t\tif ( json.shadowSide !== undefined ) material.shadowSide = json.shadowSide;\n\t\tif ( json.opacity !== undefined ) material.opacity = json.opacity;\n\t\tif ( json.transparent !== undefined ) material.transparent = json.transparent;\n\t\tif ( json.alphaTest !== undefined ) material.alphaTest = json.alphaTest;\n\t\tif ( json.alphaHash !== undefined ) material.alphaHash = json.alphaHash;\n\t\tif ( json.depthFunc !== undefined ) material.depthFunc = json.depthFunc;\n\t\tif ( json.depthTest !== undefined ) material.depthTest = json.depthTest;\n\t\tif ( json.depthWrite !== undefined ) material.depthWrite = json.depthWrite;\n\t\tif ( json.colorWrite !== undefined ) material.colorWrite = json.colorWrite;\n\t\tif ( json.blendSrc !== undefined ) material.blendSrc = json.blendSrc;\n\t\tif ( json.blendDst !== undefined ) material.blendDst = json.blendDst;\n\t\tif ( json.blendEquation !== undefined ) material.blendEquation = json.blendEquation;\n\t\tif ( json.blendSrcAlpha !== undefined ) material.blendSrcAlpha = json.blendSrcAlpha;\n\t\tif ( json.blendDstAlpha !== undefined ) material.blendDstAlpha = json.blendDstAlpha;\n\t\tif ( json.blendEquationAlpha !== undefined ) material.blendEquationAlpha = json.blendEquationAlpha;\n\t\tif ( json.blendColor !== undefined && material.blendColor !== undefined ) material.blendColor.setHex( json.blendColor );\n\t\tif ( json.blendAlpha !== undefined ) material.blendAlpha = json.blendAlpha;\n\t\tif ( json.stencilWriteMask !== undefined ) material.stencilWriteMask = json.stencilWriteMask;\n\t\tif ( json.stencilFunc !== undefined ) material.stencilFunc = json.stencilFunc;\n\t\tif ( json.stencilRef !== undefined ) material.stencilRef = json.stencilRef;\n\t\tif ( json.stencilFuncMask !== undefined ) material.stencilFuncMask = json.stencilFuncMask;\n\t\tif ( json.stencilFail !== undefined ) material.stencilFail = json.stencilFail;\n\t\tif ( json.stencilZFail !== undefined ) material.stencilZFail = json.stencilZFail;\n\t\tif ( json.stencilZPass !== undefined ) material.stencilZPass = json.stencilZPass;\n\t\tif ( json.stencilWrite !== undefined ) material.stencilWrite = json.stencilWrite;\n\n\t\tif ( json.wireframe !== undefined ) material.wireframe = json.wireframe;\n\t\tif ( json.wireframeLinewidth !== undefined ) material.wireframeLinewidth = json.wireframeLinewidth;\n\t\tif ( json.wireframeLinecap !== undefined ) material.wireframeLinecap = json.wireframeLinecap;\n\t\tif ( json.wireframeLinejoin !== undefined ) material.wireframeLinejoin = json.wireframeLinejoin;\n\n\t\tif ( json.rotation !== undefined ) material.rotation = json.rotation;\n\n\t\tif ( json.linewidth !== undefined ) material.linewidth = json.linewidth;\n\t\tif ( json.dashSize !== undefined ) material.dashSize = json.dashSize;\n\t\tif ( json.gapSize !== undefined ) material.gapSize = json.gapSize;\n\t\tif ( json.scale !== undefined ) material.scale = json.scale;\n\n\t\tif ( json.polygonOffset !== undefined ) material.polygonOffset = json.polygonOffset;\n\t\tif ( json.polygonOffsetFactor !== undefined ) material.polygonOffsetFactor = json.polygonOffsetFactor;\n\t\tif ( json.polygonOffsetUnits !== undefined ) material.polygonOffsetUnits = json.polygonOffsetUnits;\n\n\t\tif ( json.dithering !== undefined ) material.dithering = json.dithering;\n\n\t\tif ( json.alphaToCoverage !== undefined ) material.alphaToCoverage = json.alphaToCoverage;\n\t\tif ( json.premultipliedAlpha !== undefined ) material.premultipliedAlpha = json.premultipliedAlpha;\n\t\tif ( json.forceSinglePass !== undefined ) material.forceSinglePass = json.forceSinglePass;\n\n\t\tif ( json.visible !== undefined ) material.visible = json.visible;\n\n\t\tif ( json.toneMapped !== undefined ) material.toneMapped = json.toneMapped;\n\n\t\tif ( json.userData !== undefined ) material.userData = json.userData;\n\n\t\tif ( json.vertexColors !== undefined ) {\n\n\t\t\tif ( typeof json.vertexColors === 'number' ) {\n\n\t\t\t\tmaterial.vertexColors = ( json.vertexColors > 0 ) ? true : false;\n\n\t\t\t} else {\n\n\t\t\t\tmaterial.vertexColors = json.vertexColors;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// Shader Material\n\n\t\tif ( json.uniforms !== undefined ) {\n\n\t\t\tfor ( const name in json.uniforms ) {\n\n\t\t\t\tconst uniform = json.uniforms[ name ];\n\n\t\t\t\tmaterial.uniforms[ name ] = {};\n\n\t\t\t\tswitch ( uniform.type ) {\n\n\t\t\t\t\tcase 't':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = getTexture( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'c':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Color().setHex( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'v2':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Vector2().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'v3':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Vector3().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'v4':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Vector4().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'm3':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Matrix3().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tcase 'm4':\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = new Matrix4().fromArray( uniform.value );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tdefault:\n\t\t\t\t\t\tmaterial.uniforms[ name ].value = uniform.value;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json.defines !== undefined ) material.defines = json.defines;\n\t\tif ( json.vertexShader !== undefined ) material.vertexShader = json.vertexShader;\n\t\tif ( json.fragmentShader !== undefined ) material.fragmentShader = json.fragmentShader;\n\t\tif ( json.glslVersion !== undefined ) material.glslVersion = json.glslVersion;\n\n\t\tif ( json.extensions !== undefined ) {\n\n\t\t\tfor ( const key in json.extensions ) {\n\n\t\t\t\tmaterial.extensions[ key ] = json.extensions[ key ];\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json.lights !== undefined ) material.lights = json.lights;\n\t\tif ( json.clipping !== undefined ) material.clipping = json.clipping;\n\n\t\t// for PointsMaterial\n\n\t\tif ( json.size !== undefined ) material.size = json.size;\n\t\tif ( json.sizeAttenuation !== undefined ) material.sizeAttenuation = json.sizeAttenuation;\n\n\t\t// maps\n\n\t\tif ( json.map !== undefined ) material.map = getTexture( json.map );\n\t\tif ( json.matcap !== undefined ) material.matcap = getTexture( json.matcap );\n\n\t\tif ( json.alphaMap !== undefined ) material.alphaMap = getTexture( json.alphaMap );\n\n\t\tif ( json.bumpMap !== undefined ) material.bumpMap = getTexture( json.bumpMap );\n\t\tif ( json.bumpScale !== undefined ) material.bumpScale = json.bumpScale;\n\n\t\tif ( json.normalMap !== undefined ) material.normalMap = getTexture( json.normalMap );\n\t\tif ( json.normalMapType !== undefined ) material.normalMapType = json.normalMapType;\n\t\tif ( json.normalScale !== undefined ) {\n\n\t\t\tlet normalScale = json.normalScale;\n\n\t\t\tif ( Array.isArray( normalScale ) === false ) {\n\n\t\t\t\t// Blender exporter used to export a scalar. See #7459\n\n\t\t\t\tnormalScale = [ normalScale, normalScale ];\n\n\t\t\t}\n\n\t\t\tmaterial.normalScale = new Vector2().fromArray( normalScale );\n\n\t\t}\n\n\t\tif ( json.displacementMap !== undefined ) material.displacementMap = getTexture( json.displacementMap );\n\t\tif ( json.displacementScale !== undefined ) material.displacementScale = json.displacementScale;\n\t\tif ( json.displacementBias !== undefined ) material.displacementBias = json.displacementBias;\n\n\t\tif ( json.roughnessMap !== undefined ) material.roughnessMap = getTexture( json.roughnessMap );\n\t\tif ( json.metalnessMap !== undefined ) material.metalnessMap = getTexture( json.metalnessMap );\n\n\t\tif ( json.emissiveMap !== undefined ) material.emissiveMap = getTexture( json.emissiveMap );\n\t\tif ( json.emissiveIntensity !== undefined ) material.emissiveIntensity = json.emissiveIntensity;\n\n\t\tif ( json.specularMap !== undefined ) material.specularMap = getTexture( json.specularMap );\n\t\tif ( json.specularIntensityMap !== undefined ) material.specularIntensityMap = getTexture( json.specularIntensityMap );\n\t\tif ( json.specularColorMap !== undefined ) material.specularColorMap = getTexture( json.specularColorMap );\n\n\t\tif ( json.envMap !== undefined ) material.envMap = getTexture( json.envMap );\n\t\tif ( json.envMapRotation !== undefined ) material.envMapRotation.fromArray( json.envMapRotation );\n\t\tif ( json.envMapIntensity !== undefined ) material.envMapIntensity = json.envMapIntensity;\n\n\t\tif ( json.reflectivity !== undefined ) material.reflectivity = json.reflectivity;\n\t\tif ( json.refractionRatio !== undefined ) material.refractionRatio = json.refractionRatio;\n\n\t\tif ( json.lightMap !== undefined ) material.lightMap = getTexture( json.lightMap );\n\t\tif ( json.lightMapIntensity !== undefined ) material.lightMapIntensity = json.lightMapIntensity;\n\n\t\tif ( json.aoMap !== undefined ) material.aoMap = getTexture( json.aoMap );\n\t\tif ( json.aoMapIntensity !== undefined ) material.aoMapIntensity = json.aoMapIntensity;\n\n\t\tif ( json.gradientMap !== undefined ) material.gradientMap = getTexture( json.gradientMap );\n\n\t\tif ( json.clearcoatMap !== undefined ) material.clearcoatMap = getTexture( json.clearcoatMap );\n\t\tif ( json.clearcoatRoughnessMap !== undefined ) material.clearcoatRoughnessMap = getTexture( json.clearcoatRoughnessMap );\n\t\tif ( json.clearcoatNormalMap !== undefined ) material.clearcoatNormalMap = getTexture( json.clearcoatNormalMap );\n\t\tif ( json.clearcoatNormalScale !== undefined ) material.clearcoatNormalScale = new Vector2().fromArray( json.clearcoatNormalScale );\n\n\t\tif ( json.iridescenceMap !== undefined ) material.iridescenceMap = getTexture( json.iridescenceMap );\n\t\tif ( json.iridescenceThicknessMap !== undefined ) material.iridescenceThicknessMap = getTexture( json.iridescenceThicknessMap );\n\n\t\tif ( json.transmissionMap !== undefined ) material.transmissionMap = getTexture( json.transmissionMap );\n\t\tif ( json.thicknessMap !== undefined ) material.thicknessMap = getTexture( json.thicknessMap );\n\n\t\tif ( json.anisotropyMap !== undefined ) material.anisotropyMap = getTexture( json.anisotropyMap );\n\n\t\tif ( json.sheenColorMap !== undefined ) material.sheenColorMap = getTexture( json.sheenColorMap );\n\t\tif ( json.sheenRoughnessMap !== undefined ) material.sheenRoughnessMap = getTexture( json.sheenRoughnessMap );\n\n\t\treturn material;\n\n\t}\n\n\t/**\n\t * Textures are not embedded in the material JSON so they have\n\t * to be injected before the loading process starts.\n\t *\n\t * @param {Object} value - A dictionary holding textures for material properties.\n\t * @return {MaterialLoader} A reference to this material loader.\n\t */\n\tsetTextures( value ) {\n\n\t\tthis.textures = value;\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Creates a material for the given type.\n\t *\n\t * @param {string} type - The material type.\n\t * @return {Material} The new material.\n\t */\n\tcreateMaterialFromType( type ) {\n\n\t\treturn MaterialLoader.createMaterialFromType( type );\n\n\t}\n\n\t/**\n\t * Creates a material for the given type.\n\t *\n\t * @static\n\t * @param {string} type - The material type.\n\t * @return {Material} The new material.\n\t */\n\tstatic createMaterialFromType( type ) {\n\n\t\tconst materialLib = {\n\t\t\tShadowMaterial,\n\t\t\tSpriteMaterial,\n\t\t\tRawShaderMaterial,\n\t\t\tShaderMaterial,\n\t\t\tPointsMaterial,\n\t\t\tMeshPhysicalMaterial,\n\t\t\tMeshStandardMaterial,\n\t\t\tMeshPhongMaterial,\n\t\t\tMeshToonMaterial,\n\t\t\tMeshNormalMaterial,\n\t\t\tMeshLambertMaterial,\n\t\t\tMeshDepthMaterial,\n\t\t\tMeshDistanceMaterial,\n\t\t\tMeshBasicMaterial,\n\t\t\tMeshMatcapMaterial,\n\t\t\tLineDashedMaterial,\n\t\t\tLineBasicMaterial,\n\t\t\tMaterial\n\t\t};\n\n\t\treturn new materialLib[ type ]();\n\n\t}\n\n}\n\n/**\n * A class with loader utility functions.\n */\nclass LoaderUtils {\n\n\t/**\n\t * Extracts the base URL from the given URL.\n\t *\n\t * @param {string} url -The URL to extract the base URL from.\n\t * @return {string} The extracted base URL.\n\t */\n\tstatic extractUrlBase( url ) {\n\n\t\tconst index = url.lastIndexOf( '/' );\n\n\t\tif ( index === -1 ) return './';\n\n\t\treturn url.slice( 0, index + 1 );\n\n\t}\n\n\t/**\n\t * Resolves relative URLs against the given path. Absolute paths, data urls,\n\t * and blob URLs will be returned as is. Invalid URLs will return an empty\n\t * string.\n\t *\n\t * @param {string} url -The URL to resolve.\n\t * @param {string} path - The base path for relative URLs to be resolved against.\n\t * @return {string} The resolved URL.\n\t */\n\tstatic resolveURL( url, path ) {\n\n\t\t// Invalid URL\n\t\tif ( typeof url !== 'string' || url === '' ) return '';\n\n\t\t// Host Relative URL\n\t\tif ( /^https?:\\/\\//i.test( path ) && /^\\//.test( url ) ) {\n\n\t\t\tpath = path.replace( /(^https?:\\/\\/[^\\/]+).*/i, '$1' );\n\n\t\t}\n\n\t\t// Absolute URL http://,https://,//\n\t\tif ( /^(https?:)?\\/\\//i.test( url ) ) return url;\n\n\t\t// Data URI\n\t\tif ( /^data:.*,.*$/i.test( url ) ) return url;\n\n\t\t// Blob URL\n\t\tif ( /^blob:.*$/i.test( url ) ) return url;\n\n\t\t// Relative URL\n\t\treturn path + url;\n\n\t}\n\n}\n\n/**\n * An instanced version of a geometry.\n */\nclass InstancedBufferGeometry extends BufferGeometry {\n\n\t/**\n\t * Constructs a new instanced buffer geometry.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedBufferGeometry = true;\n\n\t\tthis.type = 'InstancedBufferGeometry';\n\n\t\t/**\n\t\t * The instance count.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.instanceCount = Infinity;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.instanceCount = source.instanceCount;\n\n\t\treturn this;\n\n\t}\n\n\ttoJSON() {\n\n\t\tconst data = super.toJSON();\n\n\t\tdata.instanceCount = this.instanceCount;\n\n\t\tdata.isInstancedBufferGeometry = true;\n\n\t\treturn data;\n\n\t}\n\n}\n\n/**\n * Class for loading geometries. The files are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.BufferGeometryLoader();\n * const geometry = await loader.loadAsync( 'models/json/pressure.json' );\n *\n * const material = new THREE.MeshBasicMaterial( { color: 0xF5F5F5 } );\n * const object = new THREE.Mesh( geometry, material );\n * scene.add( object );\n * ```\n *\n * @augments Loader\n */\nclass BufferGeometryLoader extends Loader {\n\n\t/**\n\t * Constructs a new geometry loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded geometry to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(BufferGeometry)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( scope.manager );\n\t\tloader.setPath( scope.path );\n\t\tloader.setRequestHeader( scope.requestHeader );\n\t\tloader.setWithCredentials( scope.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\ttry {\n\n\t\t\t\tonLoad( scope.parse( JSON.parse( text ) ) );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\tif ( onError ) {\n\n\t\t\t\t\tonError( e );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tconsole.error( e );\n\n\t\t\t\t}\n\n\t\t\t\tscope.manager.itemError( url );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Parses the given JSON object and returns a geometry.\n\t *\n\t * @param {Object} json - The serialized geometry.\n\t * @return {BufferGeometry} The parsed geometry.\n\t */\n\tparse( json ) {\n\n\t\tconst interleavedBufferMap = {};\n\t\tconst arrayBufferMap = {};\n\n\t\tfunction getInterleavedBuffer( json, uuid ) {\n\n\t\t\tif ( interleavedBufferMap[ uuid ] !== undefined ) return interleavedBufferMap[ uuid ];\n\n\t\t\tconst interleavedBuffers = json.interleavedBuffers;\n\t\t\tconst interleavedBuffer = interleavedBuffers[ uuid ];\n\n\t\t\tconst buffer = getArrayBuffer( json, interleavedBuffer.buffer );\n\n\t\t\tconst array = getTypedArray( interleavedBuffer.type, buffer );\n\t\t\tconst ib = new InterleavedBuffer( array, interleavedBuffer.stride );\n\t\t\tib.uuid = interleavedBuffer.uuid;\n\n\t\t\tinterleavedBufferMap[ uuid ] = ib;\n\n\t\t\treturn ib;\n\n\t\t}\n\n\t\tfunction getArrayBuffer( json, uuid ) {\n\n\t\t\tif ( arrayBufferMap[ uuid ] !== undefined ) return arrayBufferMap[ uuid ];\n\n\t\t\tconst arrayBuffers = json.arrayBuffers;\n\t\t\tconst arrayBuffer = arrayBuffers[ uuid ];\n\n\t\t\tconst ab = new Uint32Array( arrayBuffer ).buffer;\n\n\t\t\tarrayBufferMap[ uuid ] = ab;\n\n\t\t\treturn ab;\n\n\t\t}\n\n\t\tconst geometry = json.isInstancedBufferGeometry ? new InstancedBufferGeometry() : new BufferGeometry();\n\n\t\tconst index = json.data.index;\n\n\t\tif ( index !== undefined ) {\n\n\t\t\tconst typedArray = getTypedArray( index.type, index.array );\n\t\t\tgeometry.setIndex( new BufferAttribute( typedArray, 1 ) );\n\n\t\t}\n\n\t\tconst attributes = json.data.attributes;\n\n\t\tfor ( const key in attributes ) {\n\n\t\t\tconst attribute = attributes[ key ];\n\t\t\tlet bufferAttribute;\n\n\t\t\tif ( attribute.isInterleavedBufferAttribute ) {\n\n\t\t\t\tconst interleavedBuffer = getInterleavedBuffer( json.data, attribute.data );\n\t\t\t\tbufferAttribute = new InterleavedBufferAttribute( interleavedBuffer, attribute.itemSize, attribute.offset, attribute.normalized );\n\n\t\t\t} else {\n\n\t\t\t\tconst typedArray = getTypedArray( attribute.type, attribute.array );\n\t\t\t\tconst bufferAttributeConstr = attribute.isInstancedBufferAttribute ? InstancedBufferAttribute : BufferAttribute;\n\t\t\t\tbufferAttribute = new bufferAttributeConstr( typedArray, attribute.itemSize, attribute.normalized );\n\n\t\t\t}\n\n\t\t\tif ( attribute.name !== undefined ) bufferAttribute.name = attribute.name;\n\t\t\tif ( attribute.usage !== undefined ) bufferAttribute.setUsage( attribute.usage );\n\n\t\t\tgeometry.setAttribute( key, bufferAttribute );\n\n\t\t}\n\n\t\tconst morphAttributes = json.data.morphAttributes;\n\n\t\tif ( morphAttributes ) {\n\n\t\t\tfor ( const key in morphAttributes ) {\n\n\t\t\t\tconst attributeArray = morphAttributes[ key ];\n\n\t\t\t\tconst array = [];\n\n\t\t\t\tfor ( let i = 0, il = attributeArray.length; i < il; i ++ ) {\n\n\t\t\t\t\tconst attribute = attributeArray[ i ];\n\t\t\t\t\tlet bufferAttribute;\n\n\t\t\t\t\tif ( attribute.isInterleavedBufferAttribute ) {\n\n\t\t\t\t\t\tconst interleavedBuffer = getInterleavedBuffer( json.data, attribute.data );\n\t\t\t\t\t\tbufferAttribute = new InterleavedBufferAttribute( interleavedBuffer, attribute.itemSize, attribute.offset, attribute.normalized );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tconst typedArray = getTypedArray( attribute.type, attribute.array );\n\t\t\t\t\t\tbufferAttribute = new BufferAttribute( typedArray, attribute.itemSize, attribute.normalized );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( attribute.name !== undefined ) bufferAttribute.name = attribute.name;\n\t\t\t\t\tarray.push( bufferAttribute );\n\n\t\t\t\t}\n\n\t\t\t\tgeometry.morphAttributes[ key ] = array;\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst morphTargetsRelative = json.data.morphTargetsRelative;\n\n\t\tif ( morphTargetsRelative ) {\n\n\t\t\tgeometry.morphTargetsRelative = true;\n\n\t\t}\n\n\t\tconst groups = json.data.groups || json.data.drawcalls || json.data.offsets;\n\n\t\tif ( groups !== undefined ) {\n\n\t\t\tfor ( let i = 0, n = groups.length; i !== n; ++ i ) {\n\n\t\t\t\tconst group = groups[ i ];\n\n\t\t\t\tgeometry.addGroup( group.start, group.count, group.materialIndex );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst boundingSphere = json.data.boundingSphere;\n\n\t\tif ( boundingSphere !== undefined ) {\n\n\t\t\tgeometry.boundingSphere = new Sphere().fromJSON( boundingSphere );\n\n\t\t}\n\n\t\tif ( json.name ) geometry.name = json.name;\n\t\tif ( json.userData ) geometry.userData = json.userData;\n\n\t\treturn geometry;\n\n\t}\n\n}\n\n/**\n * A loader for loading a JSON resource in the [JSON Object/Scene format]{@link https://github.com/mrdoob/three.js/wiki/JSON-Object-Scene-format-4}.\n * The files are internally loaded via {@link FileLoader}.\n *\n * ```js\n * const loader = new THREE.ObjectLoader();\n * const obj = await loader.loadAsync( 'models/json/example.json' );\n * scene.add( obj );\n *\n * // Alternatively, to parse a previously loaded JSON structure\n * const object = await loader.parseAsync( a_json_object );\n * scene.add( object );\n * ```\n *\n * @augments Loader\n */\nclass ObjectLoader extends Loader {\n\n\t/**\n\t * Constructs a new object loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded 3D object to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(Object3D)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst path = ( this.path === '' ) ? LoaderUtils.extractUrlBase( url ) : this.path;\n\t\tthis.resourcePath = this.resourcePath || path;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\t\tloader.load( url, function ( text ) {\n\n\t\t\tlet json = null;\n\n\t\t\ttry {\n\n\t\t\t\tjson = JSON.parse( text );\n\n\t\t\t} catch ( error ) {\n\n\t\t\t\tif ( onError !== undefined ) onError( error );\n\n\t\t\t\tconsole.error( 'THREE:ObjectLoader: Can\\'t parse ' + url + '.', error.message );\n\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t\tconst metadata = json.metadata;\n\n\t\t\tif ( metadata === undefined || metadata.type === undefined || metadata.type.toLowerCase() === 'geometry' ) {\n\n\t\t\t\tif ( onError !== undefined ) onError( new Error( 'THREE.ObjectLoader: Can\\'t load ' + url ) );\n\n\t\t\t\tconsole.error( 'THREE.ObjectLoader: Can\\'t load ' + url );\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t\tscope.parse( json, onLoad );\n\n\t\t}, onProgress, onError );\n\n\t}\n\n\t/**\n\t * Async version of {@link ObjectLoader#load}.\n\t *\n\t * @async\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @return {Promise} A Promise that resolves with the loaded 3D object.\n\t */\n\tasync loadAsync( url, onProgress ) {\n\n\t\tconst scope = this;\n\n\t\tconst path = ( this.path === '' ) ? LoaderUtils.extractUrlBase( url ) : this.path;\n\t\tthis.resourcePath = this.resourcePath || path;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\n\t\tconst text = await loader.loadAsync( url, onProgress );\n\n\t\tconst json = JSON.parse( text );\n\n\t\tconst metadata = json.metadata;\n\n\t\tif ( metadata === undefined || metadata.type === undefined || metadata.type.toLowerCase() === 'geometry' ) {\n\n\t\t\tthrow new Error( 'THREE.ObjectLoader: Can\\'t load ' + url );\n\n\t\t}\n\n\t\treturn await scope.parseAsync( json );\n\n\t}\n\n\t/**\n\t * Parses the given JSON. This is used internally by {@link ObjectLoader#load}\n\t * but can also be used directly to parse a previously loaded JSON structure.\n\t *\n\t * @param {Object} json - The serialized 3D object.\n\t * @param {onLoad} onLoad - Executed when all resources (e.g. textures) have been fully loaded.\n\t * @return {Object3D} The parsed 3D object.\n\t */\n\tparse( json, onLoad ) {\n\n\t\tconst animations = this.parseAnimations( json.animations );\n\t\tconst shapes = this.parseShapes( json.shapes );\n\t\tconst geometries = this.parseGeometries( json.geometries, shapes );\n\n\t\tconst images = this.parseImages( json.images, function () {\n\n\t\t\tif ( onLoad !== undefined ) onLoad( object );\n\n\t\t} );\n\n\t\tconst textures = this.parseTextures( json.textures, images );\n\t\tconst materials = this.parseMaterials( json.materials, textures );\n\n\t\tconst object = this.parseObject( json.object, geometries, materials, textures, animations );\n\t\tconst skeletons = this.parseSkeletons( json.skeletons, object );\n\n\t\tthis.bindSkeletons( object, skeletons );\n\t\tthis.bindLightTargets( object );\n\n\t\t//\n\n\t\tif ( onLoad !== undefined ) {\n\n\t\t\tlet hasImages = false;\n\n\t\t\tfor ( const uuid in images ) {\n\n\t\t\t\tif ( images[ uuid ].data instanceof HTMLImageElement ) {\n\n\t\t\t\t\thasImages = true;\n\t\t\t\t\tbreak;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( hasImages === false ) onLoad( object );\n\n\t\t}\n\n\t\treturn object;\n\n\t}\n\n\t/**\n\t * Async version of {@link ObjectLoader#parse}.\n\t *\n\t * @param {Object} json - The serialized 3D object.\n\t * @return {Promise} A Promise that resolves with the parsed 3D object.\n\t */\n\tasync parseAsync( json ) {\n\n\t\tconst animations = this.parseAnimations( json.animations );\n\t\tconst shapes = this.parseShapes( json.shapes );\n\t\tconst geometries = this.parseGeometries( json.geometries, shapes );\n\n\t\tconst images = await this.parseImagesAsync( json.images );\n\n\t\tconst textures = this.parseTextures( json.textures, images );\n\t\tconst materials = this.parseMaterials( json.materials, textures );\n\n\t\tconst object = this.parseObject( json.object, geometries, materials, textures, animations );\n\t\tconst skeletons = this.parseSkeletons( json.skeletons, object );\n\n\t\tthis.bindSkeletons( object, skeletons );\n\t\tthis.bindLightTargets( object );\n\n\t\treturn object;\n\n\t}\n\n\t// internals\n\n\tparseShapes( json ) {\n\n\t\tconst shapes = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst shape = new Shape().fromJSON( json[ i ] );\n\n\t\t\t\tshapes[ shape.uuid ] = shape;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn shapes;\n\n\t}\n\n\tparseSkeletons( json, object ) {\n\n\t\tconst skeletons = {};\n\t\tconst bones = {};\n\n\t\t// generate bone lookup table\n\n\t\tobject.traverse( function ( child ) {\n\n\t\t\tif ( child.isBone ) bones[ child.uuid ] = child;\n\n\t\t} );\n\n\t\t// create skeletons\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst skeleton = new Skeleton().fromJSON( json[ i ], bones );\n\n\t\t\t\tskeletons[ skeleton.uuid ] = skeleton;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn skeletons;\n\n\t}\n\n\tparseGeometries( json, shapes ) {\n\n\t\tconst geometries = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tconst bufferGeometryLoader = new BufferGeometryLoader();\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tlet geometry;\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tswitch ( data.type ) {\n\n\t\t\t\t\tcase 'BufferGeometry':\n\t\t\t\t\tcase 'InstancedBufferGeometry':\n\n\t\t\t\t\t\tgeometry = bufferGeometryLoader.parse( data );\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\tdefault:\n\n\t\t\t\t\t\tif ( data.type in Geometries ) {\n\n\t\t\t\t\t\t\tgeometry = Geometries[ data.type ].fromJSON( data, shapes );\n\n\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\tconsole.warn( `THREE.ObjectLoader: Unsupported geometry type \"${ data.type }\"` );\n\n\t\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tgeometry.uuid = data.uuid;\n\n\t\t\t\tif ( data.name !== undefined ) geometry.name = data.name;\n\t\t\t\tif ( data.userData !== undefined ) geometry.userData = data.userData;\n\n\t\t\t\tgeometries[ data.uuid ] = geometry;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn geometries;\n\n\t}\n\n\tparseMaterials( json, textures ) {\n\n\t\tconst cache = {}; // MultiMaterial\n\t\tconst materials = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tconst loader = new MaterialLoader();\n\t\t\tloader.setTextures( textures );\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tif ( cache[ data.uuid ] === undefined ) {\n\n\t\t\t\t\tcache[ data.uuid ] = loader.parse( data );\n\n\t\t\t\t}\n\n\t\t\t\tmaterials[ data.uuid ] = cache[ data.uuid ];\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn materials;\n\n\t}\n\n\tparseAnimations( json ) {\n\n\t\tconst animations = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0; i < json.length; i ++ ) {\n\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tconst clip = AnimationClip.parse( data );\n\n\t\t\t\tanimations[ clip.uuid ] = clip;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn animations;\n\n\t}\n\n\tparseImages( json, onLoad ) {\n\n\t\tconst scope = this;\n\t\tconst images = {};\n\n\t\tlet loader;\n\n\t\tfunction loadImage( url ) {\n\n\t\t\tscope.manager.itemStart( url );\n\n\t\t\treturn loader.load( url, function () {\n\n\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t}, undefined, function () {\n\n\t\t\t\tscope.manager.itemError( url );\n\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t} );\n\n\t\t}\n\n\t\tfunction deserializeImage( image ) {\n\n\t\t\tif ( typeof image === 'string' ) {\n\n\t\t\t\tconst url = image;\n\n\t\t\t\tconst path = /^(\\/\\/)|([a-z]+:(\\/\\/)?)/i.test( url ) ? url : scope.resourcePath + url;\n\n\t\t\t\treturn loadImage( path );\n\n\t\t\t} else {\n\n\t\t\t\tif ( image.data ) {\n\n\t\t\t\t\treturn {\n\t\t\t\t\t\tdata: getTypedArray( image.type, image.data ),\n\t\t\t\t\t\twidth: image.width,\n\t\t\t\t\t\theight: image.height\n\t\t\t\t\t};\n\n\t\t\t\t} else {\n\n\t\t\t\t\treturn null;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json !== undefined && json.length > 0 ) {\n\n\t\t\tconst manager = new LoadingManager( onLoad );\n\n\t\t\tloader = new ImageLoader( manager );\n\t\t\tloader.setCrossOrigin( this.crossOrigin );\n\n\t\t\tfor ( let i = 0, il = json.length; i < il; i ++ ) {\n\n\t\t\t\tconst image = json[ i ];\n\t\t\t\tconst url = image.url;\n\n\t\t\t\tif ( Array.isArray( url ) ) {\n\n\t\t\t\t\t// load array of images e.g CubeTexture\n\n\t\t\t\t\tconst imageArray = [];\n\n\t\t\t\t\tfor ( let j = 0, jl = url.length; j < jl; j ++ ) {\n\n\t\t\t\t\t\tconst currentUrl = url[ j ];\n\n\t\t\t\t\t\tconst deserializedImage = deserializeImage( currentUrl );\n\n\t\t\t\t\t\tif ( deserializedImage !== null ) {\n\n\t\t\t\t\t\t\tif ( deserializedImage instanceof HTMLImageElement ) {\n\n\t\t\t\t\t\t\t\timageArray.push( deserializedImage );\n\n\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\t// special case: handle array of data textures for cube textures\n\n\t\t\t\t\t\t\t\timageArray.push( new DataTexture( deserializedImage.data, deserializedImage.width, deserializedImage.height ) );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\timages[ image.uuid ] = new Source( imageArray );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// load single image\n\n\t\t\t\t\tconst deserializedImage = deserializeImage( image.url );\n\t\t\t\t\timages[ image.uuid ] = new Source( deserializedImage );\n\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn images;\n\n\t}\n\n\tasync parseImagesAsync( json ) {\n\n\t\tconst scope = this;\n\t\tconst images = {};\n\n\t\tlet loader;\n\n\t\tasync function deserializeImage( image ) {\n\n\t\t\tif ( typeof image === 'string' ) {\n\n\t\t\t\tconst url = image;\n\n\t\t\t\tconst path = /^(\\/\\/)|([a-z]+:(\\/\\/)?)/i.test( url ) ? url : scope.resourcePath + url;\n\n\t\t\t\treturn await loader.loadAsync( path );\n\n\t\t\t} else {\n\n\t\t\t\tif ( image.data ) {\n\n\t\t\t\t\treturn {\n\t\t\t\t\t\tdata: getTypedArray( image.type, image.data ),\n\t\t\t\t\t\twidth: image.width,\n\t\t\t\t\t\theight: image.height\n\t\t\t\t\t};\n\n\t\t\t\t} else {\n\n\t\t\t\t\treturn null;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( json !== undefined && json.length > 0 ) {\n\n\t\t\tloader = new ImageLoader( this.manager );\n\t\t\tloader.setCrossOrigin( this.crossOrigin );\n\n\t\t\tfor ( let i = 0, il = json.length; i < il; i ++ ) {\n\n\t\t\t\tconst image = json[ i ];\n\t\t\t\tconst url = image.url;\n\n\t\t\t\tif ( Array.isArray( url ) ) {\n\n\t\t\t\t\t// load array of images e.g CubeTexture\n\n\t\t\t\t\tconst imageArray = [];\n\n\t\t\t\t\tfor ( let j = 0, jl = url.length; j < jl; j ++ ) {\n\n\t\t\t\t\t\tconst currentUrl = url[ j ];\n\n\t\t\t\t\t\tconst deserializedImage = await deserializeImage( currentUrl );\n\n\t\t\t\t\t\tif ( deserializedImage !== null ) {\n\n\t\t\t\t\t\t\tif ( deserializedImage instanceof HTMLImageElement ) {\n\n\t\t\t\t\t\t\t\timageArray.push( deserializedImage );\n\n\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\t// special case: handle array of data textures for cube textures\n\n\t\t\t\t\t\t\t\timageArray.push( new DataTexture( deserializedImage.data, deserializedImage.width, deserializedImage.height ) );\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\timages[ image.uuid ] = new Source( imageArray );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// load single image\n\n\t\t\t\t\tconst deserializedImage = await deserializeImage( image.url );\n\t\t\t\t\timages[ image.uuid ] = new Source( deserializedImage );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn images;\n\n\t}\n\n\tparseTextures( json, images ) {\n\n\t\tfunction parseConstant( value, type ) {\n\n\t\t\tif ( typeof value === 'number' ) return value;\n\n\t\t\tconsole.warn( 'THREE.ObjectLoader.parseTexture: Constant should be in numeric form.', value );\n\n\t\t\treturn type[ value ];\n\n\t\t}\n\n\t\tconst textures = {};\n\n\t\tif ( json !== undefined ) {\n\n\t\t\tfor ( let i = 0, l = json.length; i < l; i ++ ) {\n\n\t\t\t\tconst data = json[ i ];\n\n\t\t\t\tif ( data.image === undefined ) {\n\n\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: No \"image\" specified for', data.uuid );\n\n\t\t\t\t}\n\n\t\t\t\tif ( images[ data.image ] === undefined ) {\n\n\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined image', data.image );\n\n\t\t\t\t}\n\n\t\t\t\tconst source = images[ data.image ];\n\t\t\t\tconst image = source.data;\n\n\t\t\t\tlet texture;\n\n\t\t\t\tif ( Array.isArray( image ) ) {\n\n\t\t\t\t\ttexture = new CubeTexture();\n\n\t\t\t\t\tif ( image.length === 6 ) texture.needsUpdate = true;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tif ( image && image.data ) {\n\n\t\t\t\t\t\ttexture = new DataTexture();\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\ttexture = new Texture();\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( image ) texture.needsUpdate = true; // textures can have undefined image data\n\n\t\t\t\t}\n\n\t\t\t\ttexture.source = source;\n\n\t\t\t\ttexture.uuid = data.uuid;\n\n\t\t\t\tif ( data.name !== undefined ) texture.name = data.name;\n\n\t\t\t\tif ( data.mapping !== undefined ) texture.mapping = parseConstant( data.mapping, TEXTURE_MAPPING );\n\t\t\t\tif ( data.channel !== undefined ) texture.channel = data.channel;\n\n\t\t\t\tif ( data.offset !== undefined ) texture.offset.fromArray( data.offset );\n\t\t\t\tif ( data.repeat !== undefined ) texture.repeat.fromArray( data.repeat );\n\t\t\t\tif ( data.center !== undefined ) texture.center.fromArray( data.center );\n\t\t\t\tif ( data.rotation !== undefined ) texture.rotation = data.rotation;\n\n\t\t\t\tif ( data.wrap !== undefined ) {\n\n\t\t\t\t\ttexture.wrapS = parseConstant( data.wrap[ 0 ], TEXTURE_WRAPPING );\n\t\t\t\t\ttexture.wrapT = parseConstant( data.wrap[ 1 ], TEXTURE_WRAPPING );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.format !== undefined ) texture.format = data.format;\n\t\t\t\tif ( data.internalFormat !== undefined ) texture.internalFormat = data.internalFormat;\n\t\t\t\tif ( data.type !== undefined ) texture.type = data.type;\n\t\t\t\tif ( data.colorSpace !== undefined ) texture.colorSpace = data.colorSpace;\n\n\t\t\t\tif ( data.minFilter !== undefined ) texture.minFilter = parseConstant( data.minFilter, TEXTURE_FILTER );\n\t\t\t\tif ( data.magFilter !== undefined ) texture.magFilter = parseConstant( data.magFilter, TEXTURE_FILTER );\n\t\t\t\tif ( data.anisotropy !== undefined ) texture.anisotropy = data.anisotropy;\n\n\t\t\t\tif ( data.flipY !== undefined ) texture.flipY = data.flipY;\n\n\t\t\t\tif ( data.generateMipmaps !== undefined ) texture.generateMipmaps = data.generateMipmaps;\n\t\t\t\tif ( data.premultiplyAlpha !== undefined ) texture.premultiplyAlpha = data.premultiplyAlpha;\n\t\t\t\tif ( data.unpackAlignment !== undefined ) texture.unpackAlignment = data.unpackAlignment;\n\t\t\t\tif ( data.compareFunction !== undefined ) texture.compareFunction = data.compareFunction;\n\n\t\t\t\tif ( data.userData !== undefined ) texture.userData = data.userData;\n\n\t\t\t\ttextures[ data.uuid ] = texture;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn textures;\n\n\t}\n\n\tparseObject( data, geometries, materials, textures, animations ) {\n\n\t\tlet object;\n\n\t\tfunction getGeometry( name ) {\n\n\t\t\tif ( geometries[ name ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined geometry', name );\n\n\t\t\t}\n\n\t\t\treturn geometries[ name ];\n\n\t\t}\n\n\t\tfunction getMaterial( name ) {\n\n\t\t\tif ( name === undefined ) return undefined;\n\n\t\t\tif ( Array.isArray( name ) ) {\n\n\t\t\t\tconst array = [];\n\n\t\t\t\tfor ( let i = 0, l = name.length; i < l; i ++ ) {\n\n\t\t\t\t\tconst uuid = name[ i ];\n\n\t\t\t\t\tif ( materials[ uuid ] === undefined ) {\n\n\t\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined material', uuid );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tarray.push( materials[ uuid ] );\n\n\t\t\t\t}\n\n\t\t\t\treturn array;\n\n\t\t\t}\n\n\t\t\tif ( materials[ name ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined material', name );\n\n\t\t\t}\n\n\t\t\treturn materials[ name ];\n\n\t\t}\n\n\t\tfunction getTexture( uuid ) {\n\n\t\t\tif ( textures[ uuid ] === undefined ) {\n\n\t\t\t\tconsole.warn( 'THREE.ObjectLoader: Undefined texture', uuid );\n\n\t\t\t}\n\n\t\t\treturn textures[ uuid ];\n\n\t\t}\n\n\t\tlet geometry, material;\n\n\t\tswitch ( data.type ) {\n\n\t\t\tcase 'Scene':\n\n\t\t\t\tobject = new Scene();\n\n\t\t\t\tif ( data.background !== undefined ) {\n\n\t\t\t\t\tif ( Number.isInteger( data.background ) ) {\n\n\t\t\t\t\t\tobject.background = new Color( data.background );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tobject.background = getTexture( data.background );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.environment !== undefined ) {\n\n\t\t\t\t\tobject.environment = getTexture( data.environment );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.fog !== undefined ) {\n\n\t\t\t\t\tif ( data.fog.type === 'Fog' ) {\n\n\t\t\t\t\t\tobject.fog = new Fog( data.fog.color, data.fog.near, data.fog.far );\n\n\t\t\t\t\t} else if ( data.fog.type === 'FogExp2' ) {\n\n\t\t\t\t\t\tobject.fog = new FogExp2( data.fog.color, data.fog.density );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( data.fog.name !== '' ) {\n\n\t\t\t\t\t\tobject.fog.name = data.fog.name;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.backgroundBlurriness !== undefined ) object.backgroundBlurriness = data.backgroundBlurriness;\n\t\t\t\tif ( data.backgroundIntensity !== undefined ) object.backgroundIntensity = data.backgroundIntensity;\n\t\t\t\tif ( data.backgroundRotation !== undefined ) object.backgroundRotation.fromArray( data.backgroundRotation );\n\n\t\t\t\tif ( data.environmentIntensity !== undefined ) object.environmentIntensity = data.environmentIntensity;\n\t\t\t\tif ( data.environmentRotation !== undefined ) object.environmentRotation.fromArray( data.environmentRotation );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'PerspectiveCamera':\n\n\t\t\t\tobject = new PerspectiveCamera( data.fov, data.aspect, data.near, data.far );\n\n\t\t\t\tif ( data.focus !== undefined ) object.focus = data.focus;\n\t\t\t\tif ( data.zoom !== undefined ) object.zoom = data.zoom;\n\t\t\t\tif ( data.filmGauge !== undefined ) object.filmGauge = data.filmGauge;\n\t\t\t\tif ( data.filmOffset !== undefined ) object.filmOffset = data.filmOffset;\n\t\t\t\tif ( data.view !== undefined ) object.view = Object.assign( {}, data.view );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'OrthographicCamera':\n\n\t\t\t\tobject = new OrthographicCamera( data.left, data.right, data.top, data.bottom, data.near, data.far );\n\n\t\t\t\tif ( data.zoom !== undefined ) object.zoom = data.zoom;\n\t\t\t\tif ( data.view !== undefined ) object.view = Object.assign( {}, data.view );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'AmbientLight':\n\n\t\t\t\tobject = new AmbientLight( data.color, data.intensity );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'DirectionalLight':\n\n\t\t\t\tobject = new DirectionalLight( data.color, data.intensity );\n\t\t\t\tobject.target = data.target || '';\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'PointLight':\n\n\t\t\t\tobject = new PointLight( data.color, data.intensity, data.distance, data.decay );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'RectAreaLight':\n\n\t\t\t\tobject = new RectAreaLight( data.color, data.intensity, data.width, data.height );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'SpotLight':\n\n\t\t\t\tobject = new SpotLight( data.color, data.intensity, data.distance, data.angle, data.penumbra, data.decay );\n\t\t\t\tobject.target = data.target || '';\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'HemisphereLight':\n\n\t\t\t\tobject = new HemisphereLight( data.color, data.groundColor, data.intensity );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LightProbe':\n\n\t\t\t\tobject = new LightProbe().fromJSON( data );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'SkinnedMesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t \tmaterial = getMaterial( data.material );\n\n\t\t\t\tobject = new SkinnedMesh( geometry, material );\n\n\t\t\t\tif ( data.bindMode !== undefined ) object.bindMode = data.bindMode;\n\t\t\t\tif ( data.bindMatrix !== undefined ) object.bindMatrix.fromArray( data.bindMatrix );\n\t\t\t\tif ( data.skeleton !== undefined ) object.skeleton = data.skeleton;\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Mesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t\tmaterial = getMaterial( data.material );\n\n\t\t\t\tobject = new Mesh( geometry, material );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'InstancedMesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t\tmaterial = getMaterial( data.material );\n\t\t\t\tconst count = data.count;\n\t\t\t\tconst instanceMatrix = data.instanceMatrix;\n\t\t\t\tconst instanceColor = data.instanceColor;\n\n\t\t\t\tobject = new InstancedMesh( geometry, material, count );\n\t\t\t\tobject.instanceMatrix = new InstancedBufferAttribute( new Float32Array( instanceMatrix.array ), 16 );\n\t\t\t\tif ( instanceColor !== undefined ) object.instanceColor = new InstancedBufferAttribute( new Float32Array( instanceColor.array ), instanceColor.itemSize );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'BatchedMesh':\n\n\t\t\t\tgeometry = getGeometry( data.geometry );\n\t\t\t\tmaterial = getMaterial( data.material );\n\n\t\t\t\tobject = new BatchedMesh( data.maxInstanceCount, data.maxVertexCount, data.maxIndexCount, material );\n\t\t\t\tobject.geometry = geometry;\n\t\t\t\tobject.perObjectFrustumCulled = data.perObjectFrustumCulled;\n\t\t\t\tobject.sortObjects = data.sortObjects;\n\n\t\t\t\tobject._drawRanges = data.drawRanges;\n\t\t\t\tobject._reservedRanges = data.reservedRanges;\n\n\t\t\t\tobject._geometryInfo = data.geometryInfo.map( info => {\n\n\t\t\t\t\tlet box = null;\n\t\t\t\t\tlet sphere = null;\n\t\t\t\t\tif ( info.boundingBox !== undefined ) {\n\n\t\t\t\t\t\tbox = new Box3().fromJSON( info.boundingBox );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( info.boundingSphere !== undefined ) {\n\n\t\t\t\t\t\tsphere = new Sphere().fromJSON( info.boundingSphere );\n\n\t\t\t\t\t}\n\n\t\t\t\t\treturn {\n\t\t\t\t\t\t...info,\n\t\t\t\t\t\tboundingBox: box,\n\t\t\t\t\t\tboundingSphere: sphere\n\t\t\t\t\t};\n\n\t\t\t\t} );\n\t\t\t\tobject._instanceInfo = data.instanceInfo;\n\n\t\t\t\tobject._availableInstanceIds = data._availableInstanceIds;\n\t\t\t\tobject._availableGeometryIds = data._availableGeometryIds;\n\n\t\t\t\tobject._nextIndexStart = data.nextIndexStart;\n\t\t\t\tobject._nextVertexStart = data.nextVertexStart;\n\t\t\t\tobject._geometryCount = data.geometryCount;\n\n\t\t\t\tobject._maxInstanceCount = data.maxInstanceCount;\n\t\t\t\tobject._maxVertexCount = data.maxVertexCount;\n\t\t\t\tobject._maxIndexCount = data.maxIndexCount;\n\n\t\t\t\tobject._geometryInitialized = data.geometryInitialized;\n\n\t\t\t\tobject._matricesTexture = getTexture( data.matricesTexture.uuid );\n\n\t\t\t\tobject._indirectTexture = getTexture( data.indirectTexture.uuid );\n\n\t\t\t\tif ( data.colorsTexture !== undefined ) {\n\n\t\t\t\t\tobject._colorsTexture = getTexture( data.colorsTexture.uuid );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.boundingSphere !== undefined ) {\n\n\t\t\t\t\tobject.boundingSphere = new Sphere().fromJSON( data.boundingSphere );\n\n\t\t\t\t}\n\n\t\t\t\tif ( data.boundingBox !== undefined ) {\n\n\t\t\t\t\tobject.boundingBox = new Box3().fromJSON( data.boundingBox );\n\n\t\t\t\t}\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LOD':\n\n\t\t\t\tobject = new LOD();\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Line':\n\n\t\t\t\tobject = new Line( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LineLoop':\n\n\t\t\t\tobject = new LineLoop( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'LineSegments':\n\n\t\t\t\tobject = new LineSegments( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'PointCloud':\n\t\t\tcase 'Points':\n\n\t\t\t\tobject = new Points( getGeometry( data.geometry ), getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Sprite':\n\n\t\t\t\tobject = new Sprite( getMaterial( data.material ) );\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Group':\n\n\t\t\t\tobject = new Group();\n\n\t\t\t\tbreak;\n\n\t\t\tcase 'Bone':\n\n\t\t\t\tobject = new Bone();\n\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\n\t\t\t\tobject = new Object3D();\n\n\t\t}\n\n\t\tobject.uuid = data.uuid;\n\n\t\tif ( data.name !== undefined ) object.name = data.name;\n\n\t\tif ( data.matrix !== undefined ) {\n\n\t\t\tobject.matrix.fromArray( data.matrix );\n\n\t\t\tif ( data.matrixAutoUpdate !== undefined ) object.matrixAutoUpdate = data.matrixAutoUpdate;\n\t\t\tif ( object.matrixAutoUpdate ) object.matrix.decompose( object.position, object.quaternion, object.scale );\n\n\t\t} else {\n\n\t\t\tif ( data.position !== undefined ) object.position.fromArray( data.position );\n\t\t\tif ( data.rotation !== undefined ) object.rotation.fromArray( data.rotation );\n\t\t\tif ( data.quaternion !== undefined ) object.quaternion.fromArray( data.quaternion );\n\t\t\tif ( data.scale !== undefined ) object.scale.fromArray( data.scale );\n\n\t\t}\n\n\t\tif ( data.up !== undefined ) object.up.fromArray( data.up );\n\n\t\tif ( data.castShadow !== undefined ) object.castShadow = data.castShadow;\n\t\tif ( data.receiveShadow !== undefined ) object.receiveShadow = data.receiveShadow;\n\n\t\tif ( data.shadow ) {\n\n\t\t\tif ( data.shadow.intensity !== undefined ) object.shadow.intensity = data.shadow.intensity;\n\t\t\tif ( data.shadow.bias !== undefined ) object.shadow.bias = data.shadow.bias;\n\t\t\tif ( data.shadow.normalBias !== undefined ) object.shadow.normalBias = data.shadow.normalBias;\n\t\t\tif ( data.shadow.radius !== undefined ) object.shadow.radius = data.shadow.radius;\n\t\t\tif ( data.shadow.mapSize !== undefined ) object.shadow.mapSize.fromArray( data.shadow.mapSize );\n\t\t\tif ( data.shadow.camera !== undefined ) object.shadow.camera = this.parseObject( data.shadow.camera );\n\n\t\t}\n\n\t\tif ( data.visible !== undefined ) object.visible = data.visible;\n\t\tif ( data.frustumCulled !== undefined ) object.frustumCulled = data.frustumCulled;\n\t\tif ( data.renderOrder !== undefined ) object.renderOrder = data.renderOrder;\n\t\tif ( data.userData !== undefined ) object.userData = data.userData;\n\t\tif ( data.layers !== undefined ) object.layers.mask = data.layers;\n\n\t\tif ( data.children !== undefined ) {\n\n\t\t\tconst children = data.children;\n\n\t\t\tfor ( let i = 0; i < children.length; i ++ ) {\n\n\t\t\t\tobject.add( this.parseObject( children[ i ], geometries, materials, textures, animations ) );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( data.animations !== undefined ) {\n\n\t\t\tconst objectAnimations = data.animations;\n\n\t\t\tfor ( let i = 0; i < objectAnimations.length; i ++ ) {\n\n\t\t\t\tconst uuid = objectAnimations[ i ];\n\n\t\t\t\tobject.animations.push( animations[ uuid ] );\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( data.type === 'LOD' ) {\n\n\t\t\tif ( data.autoUpdate !== undefined ) object.autoUpdate = data.autoUpdate;\n\n\t\t\tconst levels = data.levels;\n\n\t\t\tfor ( let l = 0; l < levels.length; l ++ ) {\n\n\t\t\t\tconst level = levels[ l ];\n\t\t\t\tconst child = object.getObjectByProperty( 'uuid', level.object );\n\n\t\t\t\tif ( child !== undefined ) {\n\n\t\t\t\t\tobject.addLevel( child, level.distance, level.hysteresis );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn object;\n\n\t}\n\n\tbindSkeletons( object, skeletons ) {\n\n\t\tif ( Object.keys( skeletons ).length === 0 ) return;\n\n\t\tobject.traverse( function ( child ) {\n\n\t\t\tif ( child.isSkinnedMesh === true && child.skeleton !== undefined ) {\n\n\t\t\t\tconst skeleton = skeletons[ child.skeleton ];\n\n\t\t\t\tif ( skeleton === undefined ) {\n\n\t\t\t\t\tconsole.warn( 'THREE.ObjectLoader: No skeleton found with UUID:', child.skeleton );\n\n\t\t\t\t} else {\n\n\t\t\t\t\tchild.bind( skeleton, child.bindMatrix );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} );\n\n\t}\n\n\tbindLightTargets( object ) {\n\n\t\tobject.traverse( function ( child ) {\n\n\t\t\tif ( child.isDirectionalLight || child.isSpotLight ) {\n\n\t\t\t\tconst uuid = child.target;\n\n\t\t\t\tconst target = object.getObjectByProperty( 'uuid', uuid );\n\n\t\t\t\tif ( target !== undefined ) {\n\n\t\t\t\t\tchild.target = target;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tchild.target = new Object3D();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} );\n\n\t}\n\n}\n\nconst TEXTURE_MAPPING = {\n\tUVMapping: UVMapping,\n\tCubeReflectionMapping: CubeReflectionMapping,\n\tCubeRefractionMapping: CubeRefractionMapping,\n\tEquirectangularReflectionMapping: EquirectangularReflectionMapping,\n\tEquirectangularRefractionMapping: EquirectangularRefractionMapping,\n\tCubeUVReflectionMapping: CubeUVReflectionMapping\n};\n\nconst TEXTURE_WRAPPING = {\n\tRepeatWrapping: RepeatWrapping,\n\tClampToEdgeWrapping: ClampToEdgeWrapping,\n\tMirroredRepeatWrapping: MirroredRepeatWrapping\n};\n\nconst TEXTURE_FILTER = {\n\tNearestFilter: NearestFilter,\n\tNearestMipmapNearestFilter: NearestMipmapNearestFilter,\n\tNearestMipmapLinearFilter: NearestMipmapLinearFilter,\n\tLinearFilter: LinearFilter,\n\tLinearMipmapNearestFilter: LinearMipmapNearestFilter,\n\tLinearMipmapLinearFilter: LinearMipmapLinearFilter\n};\n\nconst _errorMap = new WeakMap();\n\n/**\n * A loader for loading images as an [ImageBitmap]{@link https://developer.mozilla.org/en-US/docs/Web/API/ImageBitmap}.\n * An `ImageBitmap` provides an asynchronous and resource efficient pathway to prepare\n * textures for rendering.\n *\n * Note that {@link Texture#flipY} and {@link Texture#premultiplyAlpha} are ignored with image bitmaps.\n * They needs these configuration on bitmap creation unlike regular images need them on uploading to GPU.\n *\n * You need to set the equivalent options via {@link ImageBitmapLoader#setOptions} instead.\n *\n * Also note that unlike {@link FileLoader}, this loader avoids multiple concurrent requests to the same URL only if `Cache` is enabled.\n *\n * ```js\n * const loader = new THREE.ImageBitmapLoader();\n * loader.setOptions( { imageOrientation: 'flipY' } ); // set options if needed\n * const imageBitmap = await loader.loadAsync( 'image.png' );\n *\n * const texture = new THREE.Texture( imageBitmap );\n * texture.needsUpdate = true;\n * ```\n *\n * @augments Loader\n */\nclass ImageBitmapLoader extends Loader {\n\n\t/**\n\t * Constructs a new image bitmap loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isImageBitmapLoader = true;\n\n\t\tif ( typeof createImageBitmap === 'undefined' ) {\n\n\t\t\tconsole.warn( 'THREE.ImageBitmapLoader: createImageBitmap() not supported.' );\n\n\t\t}\n\n\t\tif ( typeof fetch === 'undefined' ) {\n\n\t\t\tconsole.warn( 'THREE.ImageBitmapLoader: fetch() not supported.' );\n\n\t\t}\n\n\t\t/**\n\t\t * Represents the loader options.\n\t\t *\n\t\t * @type {Object}\n\t\t * @default {premultiplyAlpha:'none'}\n\t\t */\n\t\tthis.options = { premultiplyAlpha: 'none' };\n\n\t\t/**\n\t\t * Used for aborting requests.\n\t\t *\n\t\t * @private\n\t\t * @type {AbortController}\n\t\t */\n\t\tthis._abortController = new AbortController();\n\n\t}\n\n\t/**\n\t * Sets the given loader options. The structure of the object must match the `options` parameter of\n\t * [createImageBitmap]{@link https://developer.mozilla.org/en-US/docs/Web/API/Window/createImageBitmap}.\n\t *\n\t * @param {Object} options - The loader options to set.\n\t * @return {ImageBitmapLoader} A reference to this image bitmap loader.\n\t */\n\tsetOptions( options ) {\n\n\t\tthis.options = options;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and pass the loaded image bitmap to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(ImageBitmap)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Unsupported in this loader.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t * @return {ImageBitmap|undefined} The image bitmap.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tif ( url === undefined ) url = '';\n\n\t\tif ( this.path !== undefined ) url = this.path + url;\n\n\t\turl = this.manager.resolveURL( url );\n\n\t\tconst scope = this;\n\n\t\tconst cached = Cache.get( `image-bitmap:${url}` );\n\n\t\tif ( cached !== undefined ) {\n\n\t\t\tscope.manager.itemStart( url );\n\n\t\t\t// If cached is a promise, wait for it to resolve\n\t\t\tif ( cached.then ) {\n\n\t\t\t\tcached.then( imageBitmap => {\n\n\t\t\t\t\t// check if there is an error for the cached promise\n\n\t\t\t\t\tif ( _errorMap.has( cached ) === true ) {\n\n\t\t\t\t\t\tif ( onError ) onError( _errorMap.get( cached ) );\n\n\t\t\t\t\t\tscope.manager.itemError( url );\n\t\t\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tif ( onLoad ) onLoad( imageBitmap );\n\n\t\t\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t\t\t\treturn imageBitmap;\n\n\t\t\t\t\t}\n\n\t\t\t\t} );\n\n\t\t\t\treturn;\n\n\t\t\t}\n\n\t\t\t// If cached is not a promise (i.e., it's already an imageBitmap)\n\t\t\tsetTimeout( function () {\n\n\t\t\t\tif ( onLoad ) onLoad( cached );\n\n\t\t\t\tscope.manager.itemEnd( url );\n\n\t\t\t}, 0 );\n\n\t\t\treturn cached;\n\n\t\t}\n\n\t\tconst fetchOptions = {};\n\t\tfetchOptions.credentials = ( this.crossOrigin === 'anonymous' ) ? 'same-origin' : 'include';\n\t\tfetchOptions.headers = this.requestHeader;\n\t\tfetchOptions.signal = ( typeof AbortSignal.any === 'function' ) ? AbortSignal.any( [ this._abortController.signal, this.manager.abortController.signal ] ) : this._abortController.signal;\n\n\t\tconst promise = fetch( url, fetchOptions ).then( function ( res ) {\n\n\t\t\treturn res.blob();\n\n\t\t} ).then( function ( blob ) {\n\n\t\t\treturn createImageBitmap( blob, Object.assign( scope.options, { colorSpaceConversion: 'none' } ) );\n\n\t\t} ).then( function ( imageBitmap ) {\n\n\t\t\tCache.add( `image-bitmap:${url}`, imageBitmap );\n\n\t\t\tif ( onLoad ) onLoad( imageBitmap );\n\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t\treturn imageBitmap;\n\n\t\t} ).catch( function ( e ) {\n\n\t\t\tif ( onError ) onError( e );\n\n\t\t\t_errorMap.set( promise, e );\n\n\t\t\tCache.remove( `image-bitmap:${url}` );\n\n\t\t\tscope.manager.itemError( url );\n\t\t\tscope.manager.itemEnd( url );\n\n\t\t} );\n\n\t\tCache.add( `image-bitmap:${url}`, promise );\n\t\tscope.manager.itemStart( url );\n\n\t}\n\n\t/**\n\t * Aborts ongoing fetch requests.\n\t *\n\t * @return {ImageBitmapLoader} A reference to this instance.\n\t */\n\tabort() {\n\n\t\tthis._abortController.abort();\n\t\tthis._abortController = new AbortController();\n\n\t\treturn this;\n\n\t}\n\n}\n\nlet _context;\n\n/**\n * Manages the global audio context in the engine.\n *\n * @hideconstructor\n */\nclass AudioContext {\n\n\t/**\n\t * Returns the global native audio context.\n\t *\n\t * @return {AudioContext} The native audio context.\n\t */\n\tstatic getContext() {\n\n\t\tif ( _context === undefined ) {\n\n\t\t\t_context = new ( window.AudioContext || window.webkitAudioContext )();\n\n\t\t}\n\n\t\treturn _context;\n\n\t}\n\n\t/**\n\t * Allows to set the global native audio context from outside.\n\t *\n\t * @param {AudioContext} value - The native context to set.\n\t */\n\tstatic setContext( value ) {\n\n\t\t_context = value;\n\n\t}\n\n}\n\n/**\n * Class for loading audio buffers. Audios are internally\n * loaded via {@link FileLoader}.\n *\n * ```js\n * const audioListener = new THREE.AudioListener();\n * const ambientSound = new THREE.Audio( audioListener );\n *\n * const loader = new THREE.AudioLoader();\n * const audioBuffer = await loader.loadAsync( 'audio/ambient_ocean.ogg' );\n *\n * ambientSound.setBuffer( audioBuffer );\n * ambientSound.play();\n * ```\n *\n * @augments Loader\n */\nclass AudioLoader extends Loader {\n\n\t/**\n\t * Constructs a new audio loader.\n\t *\n\t * @param {LoadingManager} [manager] - The loading manager.\n\t */\n\tconstructor( manager ) {\n\n\t\tsuper( manager );\n\n\t}\n\n\t/**\n\t * Starts loading from the given URL and passes the loaded audio buffer\n\t * to the `onLoad()` callback.\n\t *\n\t * @param {string} url - The path/URL of the file to be loaded. This can also be a data URI.\n\t * @param {function(AudioBuffer)} onLoad - Executed when the loading process has been finished.\n\t * @param {onProgressCallback} onProgress - Executed while the loading is in progress.\n\t * @param {onErrorCallback} onError - Executed when errors occur.\n\t */\n\tload( url, onLoad, onProgress, onError ) {\n\n\t\tconst scope = this;\n\n\t\tconst loader = new FileLoader( this.manager );\n\t\tloader.setResponseType( 'arraybuffer' );\n\t\tloader.setPath( this.path );\n\t\tloader.setRequestHeader( this.requestHeader );\n\t\tloader.setWithCredentials( this.withCredentials );\n\t\tloader.load( url, function ( buffer ) {\n\n\t\t\ttry {\n\n\t\t\t\t// Create a copy of the buffer. The `decodeAudioData` method\n\t\t\t\t// detaches the buffer when complete, preventing reuse.\n\t\t\t\tconst bufferCopy = buffer.slice( 0 );\n\n\t\t\t\tconst context = AudioContext.getContext();\n\t\t\t\tcontext.decodeAudioData( bufferCopy, function ( audioBuffer ) {\n\n\t\t\t\t\tonLoad( audioBuffer );\n\n\t\t\t\t} ).catch( handleError );\n\n\t\t\t} catch ( e ) {\n\n\t\t\t\thandleError( e );\n\n\t\t\t}\n\n\t\t}, onProgress, onError );\n\n\t\tfunction handleError( e ) {\n\n\t\t\tif ( onError ) {\n\n\t\t\t\tonError( e );\n\n\t\t\t} else {\n\n\t\t\t\tconsole.error( e );\n\n\t\t\t}\n\n\t\t\tscope.manager.itemError( url );\n\n\t\t}\n\n\t}\n\n}\n\nconst _eyeRight = /*@__PURE__*/ new Matrix4();\nconst _eyeLeft = /*@__PURE__*/ new Matrix4();\nconst _projectionMatrix = /*@__PURE__*/ new Matrix4();\n\n/**\n * A special type of camera that uses two perspective cameras with\n * stereoscopic projection. Can be used for rendering stereo effects\n * like [3D Anaglyph]{@link https://en.wikipedia.org/wiki/Anaglyph_3D} or\n * [Parallax Barrier]{@link https://en.wikipedia.org/wiki/parallax_barrier}.\n */\nclass StereoCamera {\n\n\t/**\n\t * Constructs a new stereo camera.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * The type property is used for detecting the object type\n\t\t * in context of serialization/deserialization.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.type = 'StereoCamera';\n\n\t\t/**\n\t\t * The aspect.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.aspect = 1;\n\n\t\t/**\n\t\t * The eye separation which represents the distance\n\t\t * between the left and right camera.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0.064\n\t\t */\n\t\tthis.eyeSep = 0.064;\n\n\t\t/**\n\t\t * The camera representing the left eye. This is added to layer `1` so objects to be\n\t\t * rendered by the left camera must also be added to this layer.\n\t\t *\n\t\t * @type {PerspectiveCamera}\n\t\t */\n\t\tthis.cameraL = new PerspectiveCamera();\n\t\tthis.cameraL.layers.enable( 1 );\n\t\tthis.cameraL.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The camera representing the right eye. This is added to layer `2` so objects to be\n\t\t * rendered by the right camera must also be added to this layer.\n\t\t *\n\t\t * @type {PerspectiveCamera}\n\t\t */\n\t\tthis.cameraR = new PerspectiveCamera();\n\t\tthis.cameraR.layers.enable( 2 );\n\t\tthis.cameraR.matrixAutoUpdate = false;\n\n\t\tthis._cache = {\n\t\t\tfocus: null,\n\t\t\tfov: null,\n\t\t\taspect: null,\n\t\t\tnear: null,\n\t\t\tfar: null,\n\t\t\tzoom: null,\n\t\t\teyeSep: null\n\t\t};\n\n\t}\n\n\t/**\n\t * Updates the stereo camera based on the given perspective camera.\n\t *\n\t * @param {PerspectiveCamera} camera - The perspective camera.\n\t */\n\tupdate( camera ) {\n\n\t\tconst cache = this._cache;\n\n\t\tconst needsUpdate = cache.focus !== camera.focus || cache.fov !== camera.fov ||\n\t\t\tcache.aspect !== camera.aspect * this.aspect || cache.near !== camera.near ||\n\t\t\tcache.far !== camera.far || cache.zoom !== camera.zoom || cache.eyeSep !== this.eyeSep;\n\n\t\tif ( needsUpdate ) {\n\n\t\t\tcache.focus = camera.focus;\n\t\t\tcache.fov = camera.fov;\n\t\t\tcache.aspect = camera.aspect * this.aspect;\n\t\t\tcache.near = camera.near;\n\t\t\tcache.far = camera.far;\n\t\t\tcache.zoom = camera.zoom;\n\t\t\tcache.eyeSep = this.eyeSep;\n\n\t\t\t// Off-axis stereoscopic effect based on\n\t\t\t// http://paulbourke.net/stereographics/stereorender/\n\n\t\t\t_projectionMatrix.copy( camera.projectionMatrix );\n\t\t\tconst eyeSepHalf = cache.eyeSep / 2;\n\t\t\tconst eyeSepOnProjection = eyeSepHalf * cache.near / cache.focus;\n\t\t\tconst ymax = ( cache.near * Math.tan( DEG2RAD * cache.fov * 0.5 ) ) / cache.zoom;\n\t\t\tlet xmin, xmax;\n\n\t\t\t// translate xOffset\n\n\t\t\t_eyeLeft.elements[ 12 ] = - eyeSepHalf;\n\t\t\t_eyeRight.elements[ 12 ] = eyeSepHalf;\n\n\t\t\t// for left eye\n\n\t\t\txmin = - ymax * cache.aspect + eyeSepOnProjection;\n\t\t\txmax = ymax * cache.aspect + eyeSepOnProjection;\n\n\t\t\t_projectionMatrix.elements[ 0 ] = 2 * cache.near / ( xmax - xmin );\n\t\t\t_projectionMatrix.elements[ 8 ] = ( xmax + xmin ) / ( xmax - xmin );\n\n\t\t\tthis.cameraL.projectionMatrix.copy( _projectionMatrix );\n\n\t\t\t// for right eye\n\n\t\t\txmin = - ymax * cache.aspect - eyeSepOnProjection;\n\t\t\txmax = ymax * cache.aspect - eyeSepOnProjection;\n\n\t\t\t_projectionMatrix.elements[ 0 ] = 2 * cache.near / ( xmax - xmin );\n\t\t\t_projectionMatrix.elements[ 8 ] = ( xmax + xmin ) / ( xmax - xmin );\n\n\t\t\tthis.cameraR.projectionMatrix.copy( _projectionMatrix );\n\n\t\t}\n\n\t\tthis.cameraL.matrixWorld.copy( camera.matrixWorld ).multiply( _eyeLeft );\n\t\tthis.cameraR.matrixWorld.copy( camera.matrixWorld ).multiply( _eyeRight );\n\n\t}\n\n}\n\n/**\n * This type of camera can be used in order to efficiently render a scene with a\n * predefined set of cameras. This is an important performance aspect for\n * rendering VR scenes.\n *\n * An instance of `ArrayCamera` always has an array of sub cameras. It's mandatory\n * to define for each sub camera the `viewport` property which determines the\n * part of the viewport that is rendered with this camera.\n *\n * @augments PerspectiveCamera\n */\nclass ArrayCamera extends PerspectiveCamera {\n\n\t/**\n\t * Constructs a new array camera.\n\t *\n\t * @param {Array} [array=[]] - An array of perspective sub cameras.\n\t */\n\tconstructor( array = [] ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isArrayCamera = true;\n\n\t\t/**\n\t\t * Whether this camera is used with multiview rendering or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isMultiViewCamera = false;\n\n\t\t/**\n\t\t * An array of perspective sub cameras.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.cameras = array;\n\n\t}\n\n}\n\n/**\n * Class for keeping track of time.\n */\nclass Clock {\n\n\t/**\n\t * Constructs a new clock.\n\t *\n\t * @param {boolean} [autoStart=true] - Whether to automatically start the clock when\n\t * `getDelta()` is called for the first time.\n\t */\n\tconstructor( autoStart = true ) {\n\n\t\t/**\n\t\t * If set to `true`, the clock starts automatically when `getDelta()` is called\n\t\t * for the first time.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.autoStart = autoStart;\n\n\t\t/**\n\t\t * Holds the time at which the clock's `start()` method was last called.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.startTime = 0;\n\n\t\t/**\n\t\t * Holds the time at which the clock's `start()`, `getElapsedTime()` or\n\t\t * `getDelta()` methods were last called.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.oldTime = 0;\n\n\t\t/**\n\t\t * Keeps track of the total time that the clock has been running.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.elapsedTime = 0;\n\n\t\t/**\n\t\t * Whether the clock is running or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.running = false;\n\n\t}\n\n\t/**\n\t * Starts the clock. When `autoStart` is set to `true`, the method is automatically\n\t * called by the class.\n\t */\n\tstart() {\n\n\t\tthis.startTime = performance.now();\n\n\t\tthis.oldTime = this.startTime;\n\t\tthis.elapsedTime = 0;\n\t\tthis.running = true;\n\n\t}\n\n\t/**\n\t * Stops the clock.\n\t */\n\tstop() {\n\n\t\tthis.getElapsedTime();\n\t\tthis.running = false;\n\t\tthis.autoStart = false;\n\n\t}\n\n\t/**\n\t * Returns the elapsed time in seconds.\n\t *\n\t * @return {number} The elapsed time.\n\t */\n\tgetElapsedTime() {\n\n\t\tthis.getDelta();\n\t\treturn this.elapsedTime;\n\n\t}\n\n\t/**\n\t * Returns the delta time in seconds.\n\t *\n\t * @return {number} The delta time.\n\t */\n\tgetDelta() {\n\n\t\tlet diff = 0;\n\n\t\tif ( this.autoStart && ! this.running ) {\n\n\t\t\tthis.start();\n\t\t\treturn 0;\n\n\t\t}\n\n\t\tif ( this.running ) {\n\n\t\t\tconst newTime = performance.now();\n\n\t\t\tdiff = ( newTime - this.oldTime ) / 1000;\n\t\t\tthis.oldTime = newTime;\n\n\t\t\tthis.elapsedTime += diff;\n\n\t\t}\n\n\t\treturn diff;\n\n\t}\n\n}\n\nconst _position$1 = /*@__PURE__*/ new Vector3();\nconst _quaternion$1 = /*@__PURE__*/ new Quaternion();\nconst _scale$1 = /*@__PURE__*/ new Vector3();\n\nconst _forward = /*@__PURE__*/ new Vector3();\nconst _up = /*@__PURE__*/ new Vector3();\n\n/**\n * The class represents a virtual listener of the all positional and non-positional audio effects\n * in the scene. A three.js application usually creates a single listener. It is a mandatory\n * constructor parameter for audios entities like {@link Audio} and {@link PositionalAudio}.\n *\n * In most cases, the listener object is a child of the camera. So the 3D transformation of the\n * camera represents the 3D transformation of the listener.\n *\n * @augments Object3D\n */\nclass AudioListener extends Object3D {\n\n\t/**\n\t * Constructs a new audio listener.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\tthis.type = 'AudioListener';\n\n\t\t/**\n\t\t * The native audio context.\n\t\t *\n\t\t * @type {AudioContext}\n\t\t * @readonly\n\t\t */\n\t\tthis.context = AudioContext.getContext();\n\n\t\t/**\n\t\t * The gain node used for volume control.\n\t\t *\n\t\t * @type {GainNode}\n\t\t * @readonly\n\t\t */\n\t\tthis.gain = this.context.createGain();\n\t\tthis.gain.connect( this.context.destination );\n\n\t\t/**\n\t\t * An optional filter.\n\t\t *\n\t\t * Defined via {@link AudioListener#setFilter}.\n\t\t *\n\t\t * @type {?AudioNode}\n\t\t * @default null\n\t\t * @readonly\n\t\t */\n\t\tthis.filter = null;\n\n\t\t/**\n\t\t * Time delta values required for `linearRampToValueAtTime()` usage.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t * @readonly\n\t\t */\n\t\tthis.timeDelta = 0;\n\n\t\t// private\n\n\t\tthis._clock = new Clock();\n\n\t}\n\n\t/**\n\t * Returns the listener's input node.\n\t *\n\t * This method is used by other audio nodes to connect to this listener.\n\t *\n\t * @return {GainNode} The input node.\n\t */\n\tgetInput() {\n\n\t\treturn this.gain;\n\n\t}\n\n\t/**\n\t * Removes the current filter from this listener.\n\t *\n\t * @return {AudioListener} A reference to this listener.\n\t */\n\tremoveFilter() {\n\n\t\tif ( this.filter !== null ) {\n\n\t\t\tthis.gain.disconnect( this.filter );\n\t\t\tthis.filter.disconnect( this.context.destination );\n\t\t\tthis.gain.connect( this.context.destination );\n\t\t\tthis.filter = null;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current set filter.\n\t *\n\t * @return {?AudioNode} The filter.\n\t */\n\tgetFilter() {\n\n\t\treturn this.filter;\n\n\t}\n\n\t/**\n\t * Sets the given filter to this listener.\n\t *\n\t * @param {AudioNode} value - The filter to set.\n\t * @return {AudioListener} A reference to this listener.\n\t */\n\tsetFilter( value ) {\n\n\t\tif ( this.filter !== null ) {\n\n\t\t\tthis.gain.disconnect( this.filter );\n\t\t\tthis.filter.disconnect( this.context.destination );\n\n\t\t} else {\n\n\t\t\tthis.gain.disconnect( this.context.destination );\n\n\t\t}\n\n\t\tthis.filter = value;\n\t\tthis.gain.connect( this.filter );\n\t\tthis.filter.connect( this.context.destination );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the applications master volume.\n\t *\n\t * @return {number} The master volume.\n\t */\n\tgetMasterVolume() {\n\n\t\treturn this.gain.gain.value;\n\n\t}\n\n\t/**\n\t * Sets the applications master volume. This volume setting affects\n\t * all audio nodes in the scene.\n\t *\n\t * @param {number} value - The master volume to set.\n\t * @return {AudioListener} A reference to this listener.\n\t */\n\tsetMasterVolume( value ) {\n\n\t\tthis.gain.gain.setTargetAtTime( value, this.context.currentTime, 0.01 );\n\n\t\treturn this;\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tconst listener = this.context.listener;\n\n\t\tthis.timeDelta = this._clock.getDelta();\n\n\t\tthis.matrixWorld.decompose( _position$1, _quaternion$1, _scale$1 );\n\n\t\t// the initial forward and up directions must be orthogonal\n\t\t_forward.set( 0, 0, -1 ).applyQuaternion( _quaternion$1 );\n\t\t_up.set( 0, 1, 0 ).applyQuaternion( _quaternion$1 );\n\n\t\tif ( listener.positionX ) {\n\n\t\t\t// code path for Chrome (see #14393)\n\n\t\t\tconst endTime = this.context.currentTime + this.timeDelta;\n\n\t\t\tlistener.positionX.linearRampToValueAtTime( _position$1.x, endTime );\n\t\t\tlistener.positionY.linearRampToValueAtTime( _position$1.y, endTime );\n\t\t\tlistener.positionZ.linearRampToValueAtTime( _position$1.z, endTime );\n\t\t\tlistener.forwardX.linearRampToValueAtTime( _forward.x, endTime );\n\t\t\tlistener.forwardY.linearRampToValueAtTime( _forward.y, endTime );\n\t\t\tlistener.forwardZ.linearRampToValueAtTime( _forward.z, endTime );\n\t\t\tlistener.upX.linearRampToValueAtTime( _up.x, endTime );\n\t\t\tlistener.upY.linearRampToValueAtTime( _up.y, endTime );\n\t\t\tlistener.upZ.linearRampToValueAtTime( _up.z, endTime );\n\n\t\t} else {\n\n\t\t\tlistener.setPosition( _position$1.x, _position$1.y, _position$1.z );\n\t\t\tlistener.setOrientation( _forward.x, _forward.y, _forward.z, _up.x, _up.y, _up.z );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * Represents a non-positional ( global ) audio object.\n *\n * This and related audio modules make use of the [Web Audio API]{@link https://www.w3.org/TR/webaudio-1.1/}.\n *\n * ```js\n * // create an AudioListener and add it to the camera\n * const listener = new THREE.AudioListener();\n * camera.add( listener );\n *\n * // create a global audio source\n * const sound = new THREE.Audio( listener );\n *\n * // load a sound and set it as the Audio object's buffer\n * const audioLoader = new THREE.AudioLoader();\n * audioLoader.load( 'sounds/ambient.ogg', function( buffer ) {\n * \tsound.setBuffer( buffer );\n * \tsound.setLoop( true );\n * \tsound.setVolume( 0.5 );\n * \tsound.play();\n * });\n * ```\n *\n * @augments Object3D\n */\nclass Audio extends Object3D {\n\n\t/**\n\t * Constructs a new audio.\n\t *\n\t * @param {AudioListener} listener - The global audio listener.\n\t */\n\tconstructor( listener ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'Audio';\n\n\t\t/**\n\t\t * The global audio listener.\n\t\t *\n\t\t * @type {AudioListener}\n\t\t * @readonly\n\t\t */\n\t\tthis.listener = listener;\n\n\t\t/**\n\t\t * The audio context.\n\t\t *\n\t\t * @type {AudioContext}\n\t\t * @readonly\n\t\t */\n\t\tthis.context = listener.context;\n\n\t\t/**\n\t\t * The gain node used for volume control.\n\t\t *\n\t\t * @type {GainNode}\n\t\t * @readonly\n\t\t */\n\t\tthis.gain = this.context.createGain();\n\t\tthis.gain.connect( listener.getInput() );\n\n\t\t/**\n\t\t * Whether to start playback automatically or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.autoplay = false;\n\n\t\t/**\n\t\t * A reference to an audio buffer.\n\t\t *\n\t\t * Defined via {@link Audio#setBuffer}.\n\t\t *\n\t\t * @type {?AudioBuffer}\n\t\t * @default null\n\t\t * @readonly\n\t\t */\n\t\tthis.buffer = null;\n\n\t\t/**\n\t\t * Modify pitch, measured in cents. +/- 100 is a semitone.\n\t\t * +/- 1200 is an octave.\n\t\t *\n\t\t * Defined via {@link Audio#setDetune}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t * @readonly\n\t\t */\n\t\tthis.detune = 0;\n\n\t\t/**\n\t\t * Whether the audio should loop or not.\n\t\t *\n\t\t * Defined via {@link Audio#setLoop}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t * @readonly\n\t\t */\n\t\tthis.loop = false;\n\n\t\t/**\n\t\t * Defines where in the audio buffer the replay should\n\t\t * start, in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.loopStart = 0;\n\n\t\t/**\n\t\t * Defines where in the audio buffer the replay should\n\t\t * stop, in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.loopEnd = 0;\n\n\t\t/**\n\t\t * An offset to the time within the audio buffer the playback\n\t\t * should begin, in seconds.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.offset = 0;\n\n\t\t/**\n\t\t * Overrides the default duration of the audio.\n\t\t *\n\t\t * @type {undefined|number}\n\t\t * @default undefined\n\t\t */\n\t\tthis.duration = undefined;\n\n\t\t/**\n\t\t * The playback speed.\n\t\t *\n\t\t * Defined via {@link Audio#setPlaybackRate}.\n\t\t *\n\t\t * @type {number}\n\t\t * @readonly\n\t\t * @default 1\n\t\t */\n\t\tthis.playbackRate = 1;\n\n\t\t/**\n\t\t * Indicates whether the audio is playing or not.\n\t\t *\n\t\t * This flag will be automatically set when using {@link Audio#play},\n\t\t * {@link Audio#pause}, {@link Audio#stop}.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default false\n\t\t */\n\t\tthis.isPlaying = false;\n\n\t\t/**\n\t\t * Indicates whether the audio playback can be controlled\n\t\t * with method like {@link Audio#play} or {@link Audio#pause}.\n\t\t *\n\t\t * This flag will be automatically set when audio sources are\n\t\t * defined.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.hasPlaybackControl = true;\n\n\t\t/**\n\t\t * Holds a reference to the current audio source.\n\t\t *\n\t\t * The property is automatically by one of the `set*()` methods.\n\t\t *\n\t\t * @type {?AudioNode}\n\t\t * @readonly\n\t\t * @default null\n\t\t */\n\t\tthis.source = null;\n\n\t\t/**\n\t\t * Defines the source type.\n\t\t *\n\t\t * The property is automatically by one of the `set*()` methods.\n\t\t *\n\t\t * @type {('empty'|'audioNode'|'mediaNode'|'mediaStreamNode'|'buffer')}\n\t\t * @readonly\n\t\t * @default 'empty'\n\t\t */\n\t\tthis.sourceType = 'empty';\n\n\t\tthis._startedAt = 0;\n\t\tthis._progress = 0;\n\t\tthis._connected = false;\n\n\t\t/**\n\t\t * Can be used to apply a variety of low-order filters to create\n\t\t * more complex sound effects e.g. via `BiquadFilterNode`.\n\t\t *\n\t\t * The property is automatically set by {@link Audio#setFilters}.\n\t\t *\n\t\t * @type {Array}\n\t\t * @readonly\n\t\t */\n\t\tthis.filters = [];\n\n\t}\n\n\t/**\n\t * Returns the output audio node.\n\t *\n\t * @return {GainNode} The output node.\n\t */\n\tgetOutput() {\n\n\t\treturn this.gain;\n\n\t}\n\n\t/**\n\t * Sets the given audio node as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `audioNode` and {@link Audio#hasPlaybackControl} to `false`.\n\t *\n\t * @param {AudioNode} audioNode - The audio node like an instance of `OscillatorNode`.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetNodeSource( audioNode ) {\n\n\t\tthis.hasPlaybackControl = false;\n\t\tthis.sourceType = 'audioNode';\n\t\tthis.source = audioNode;\n\t\tthis.connect();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given media element as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `mediaNode` and {@link Audio#hasPlaybackControl} to `false`.\n\t *\n\t * @param {HTMLMediaElement} mediaElement - The media element.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetMediaElementSource( mediaElement ) {\n\n\t\tthis.hasPlaybackControl = false;\n\t\tthis.sourceType = 'mediaNode';\n\t\tthis.source = this.context.createMediaElementSource( mediaElement );\n\t\tthis.connect();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given media stream as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `mediaStreamNode` and {@link Audio#hasPlaybackControl} to `false`.\n\t *\n\t * @param {MediaStream} mediaStream - The media stream.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetMediaStreamSource( mediaStream ) {\n\n\t\tthis.hasPlaybackControl = false;\n\t\tthis.sourceType = 'mediaStreamNode';\n\t\tthis.source = this.context.createMediaStreamSource( mediaStream );\n\t\tthis.connect();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given audio buffer as the source of this instance.\n\t *\n\t * {@link Audio#sourceType} is set to `buffer` and {@link Audio#hasPlaybackControl} to `true`.\n\t *\n\t * @param {AudioBuffer} audioBuffer - The audio buffer.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetBuffer( audioBuffer ) {\n\n\t\tthis.buffer = audioBuffer;\n\t\tthis.sourceType = 'buffer';\n\n\t\tif ( this.autoplay ) this.play();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Starts the playback of the audio.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {number} [delay=0] - The delay, in seconds, at which the audio should start playing.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tplay( delay = 0 ) {\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: Audio is already playing.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis._startedAt = this.context.currentTime + delay;\n\n\t\tconst source = this.context.createBufferSource();\n\t\tsource.buffer = this.buffer;\n\t\tsource.loop = this.loop;\n\t\tsource.loopStart = this.loopStart;\n\t\tsource.loopEnd = this.loopEnd;\n\t\tsource.onended = this.onEnded.bind( this );\n\t\tsource.start( this._startedAt, this._progress + this.offset, this.duration );\n\n\t\tthis.isPlaying = true;\n\n\t\tthis.source = source;\n\n\t\tthis.setDetune( this.detune );\n\t\tthis.setPlaybackRate( this.playbackRate );\n\n\t\treturn this.connect();\n\n\t}\n\n\t/**\n\t * Pauses the playback of the audio.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tpause() {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\t// update current progress\n\n\t\t\tthis._progress += Math.max( this.context.currentTime - this._startedAt, 0 ) * this.playbackRate;\n\n\t\t\tif ( this.loop === true ) {\n\n\t\t\t\t// ensure _progress does not exceed duration with looped audios\n\n\t\t\t\tthis._progress = this._progress % ( this.duration || this.buffer.duration );\n\n\t\t\t}\n\n\t\t\tthis.source.stop();\n\t\t\tthis.source.onended = null;\n\n\t\t\tthis.isPlaying = false;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Stops the playback of the audio.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {number} [delay=0] - The delay, in seconds, at which the audio should stop playing.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tstop( delay = 0 ) {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis._progress = 0;\n\n\t\tif ( this.source !== null ) {\n\n\t\t\tthis.source.stop( this.context.currentTime + delay );\n\t\t\tthis.source.onended = null;\n\n\t\t}\n\n\t\tthis.isPlaying = false;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Connects to the audio source. This is used internally on\n\t * initialisation and when setting / removing filters.\n\t *\n\t * @return {Audio} A reference to this instance.\n\t */\n\tconnect() {\n\n\t\tif ( this.filters.length > 0 ) {\n\n\t\t\tthis.source.connect( this.filters[ 0 ] );\n\n\t\t\tfor ( let i = 1, l = this.filters.length; i < l; i ++ ) {\n\n\t\t\t\tthis.filters[ i - 1 ].connect( this.filters[ i ] );\n\n\t\t\t}\n\n\t\t\tthis.filters[ this.filters.length - 1 ].connect( this.getOutput() );\n\n\t\t} else {\n\n\t\t\tthis.source.connect( this.getOutput() );\n\n\t\t}\n\n\t\tthis._connected = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Disconnects to the audio source. This is used internally on\n\t * initialisation and when setting / removing filters.\n\t *\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tdisconnect() {\n\n\t\tif ( this._connected === false ) {\n\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.filters.length > 0 ) {\n\n\t\t\tthis.source.disconnect( this.filters[ 0 ] );\n\n\t\t\tfor ( let i = 1, l = this.filters.length; i < l; i ++ ) {\n\n\t\t\t\tthis.filters[ i - 1 ].disconnect( this.filters[ i ] );\n\n\t\t\t}\n\n\t\t\tthis.filters[ this.filters.length - 1 ].disconnect( this.getOutput() );\n\n\t\t} else {\n\n\t\t\tthis.source.disconnect( this.getOutput() );\n\n\t\t}\n\n\t\tthis._connected = false;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current set filters.\n\t *\n\t * @return {Array} The list of filters.\n\t */\n\tgetFilters() {\n\n\t\treturn this.filters;\n\n\t}\n\n\t/**\n\t * Sets an array of filters and connects them with the audio source.\n\t *\n\t * @param {Array} [value] - A list of filters.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetFilters( value ) {\n\n\t\tif ( ! value ) value = [];\n\n\t\tif ( this._connected === true ) {\n\n\t\t\tthis.disconnect();\n\t\t\tthis.filters = value.slice();\n\t\t\tthis.connect();\n\n\t\t} else {\n\n\t\t\tthis.filters = value.slice();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Defines the detuning of oscillation in cents.\n\t *\n\t * @param {number} value - The detuning of oscillation in cents.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetDetune( value ) {\n\n\t\tthis.detune = value;\n\n\t\tif ( this.isPlaying === true && this.source.detune !== undefined ) {\n\n\t\t\tthis.source.detune.setTargetAtTime( this.detune, this.context.currentTime, 0.01 );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the detuning of oscillation in cents.\n\t *\n\t * @return {number} The detuning of oscillation in cents.\n\t */\n\tgetDetune() {\n\n\t\treturn this.detune;\n\n\t}\n\n\t/**\n\t * Returns the first filter in the list of filters.\n\t *\n\t * @return {AudioNode|undefined} The first filter in the list of filters.\n\t */\n\tgetFilter() {\n\n\t\treturn this.getFilters()[ 0 ];\n\n\t}\n\n\t/**\n\t * Applies a single filter node to the audio.\n\t *\n\t * @param {AudioNode} [filter] - The filter to set.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetFilter( filter ) {\n\n\t\treturn this.setFilters( filter ? [ filter ] : [] );\n\n\t}\n\n\t/**\n\t * Sets the playback rate.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {number} [value] - The playback rate to set.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tsetPlaybackRate( value ) {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis.playbackRate = value;\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\tthis.source.playbackRate.setTargetAtTime( this.playbackRate, this.context.currentTime, 0.01 );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current playback rate.\n\n\t * @return {number} The playback rate.\n\t */\n\tgetPlaybackRate() {\n\n\t\treturn this.playbackRate;\n\n\t}\n\n\t/**\n\t * Automatically called when playback finished.\n\t */\n\tonEnded() {\n\n\t\tthis.isPlaying = false;\n\t\tthis._progress = 0;\n\n\t}\n\n\t/**\n\t * Returns the loop flag.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @return {boolean} Whether the audio should loop or not.\n\t */\n\tgetLoop() {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn false;\n\n\t\t}\n\n\t\treturn this.loop;\n\n\t}\n\n\t/**\n\t * Sets the loop flag.\n\t *\n\t * Can only be used with compatible audio sources that allow playback control.\n\t *\n\t * @param {boolean} value - Whether the audio should loop or not.\n\t * @return {Audio|undefined} A reference to this instance.\n\t */\n\tsetLoop( value ) {\n\n\t\tif ( this.hasPlaybackControl === false ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: this Audio has no playback control.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tthis.loop = value;\n\n\t\tif ( this.isPlaying === true ) {\n\n\t\t\tthis.source.loop = this.loop;\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the loop start value which defines where in the audio buffer the replay should\n\t * start, in seconds.\n\t *\n\t * @param {number} value - The loop start value.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetLoopStart( value ) {\n\n\t\tthis.loopStart = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the loop end value which defines where in the audio buffer the replay should\n\t * stop, in seconds.\n\t *\n\t * @param {number} value - The loop end value.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetLoopEnd( value ) {\n\n\t\tthis.loopEnd = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the volume.\n\t *\n\t * @return {number} The volume.\n\t */\n\tgetVolume() {\n\n\t\treturn this.gain.gain.value;\n\n\t}\n\n\t/**\n\t * Sets the volume.\n\t *\n\t * @param {number} value - The volume to set.\n\t * @return {Audio} A reference to this instance.\n\t */\n\tsetVolume( value ) {\n\n\t\tthis.gain.gain.setTargetAtTime( value, this.context.currentTime, 0.01 );\n\n\t\treturn this;\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tif ( source.sourceType !== 'buffer' ) {\n\n\t\t\tconsole.warn( 'THREE.Audio: Audio source type cannot be copied.' );\n\n\t\t\treturn this;\n\n\t\t}\n\n\t\tthis.autoplay = source.autoplay;\n\n\t\tthis.buffer = source.buffer;\n\t\tthis.detune = source.detune;\n\t\tthis.loop = source.loop;\n\t\tthis.loopStart = source.loopStart;\n\t\tthis.loopEnd = source.loopEnd;\n\t\tthis.offset = source.offset;\n\t\tthis.duration = source.duration;\n\t\tthis.playbackRate = source.playbackRate;\n\t\tthis.hasPlaybackControl = source.hasPlaybackControl;\n\t\tthis.sourceType = source.sourceType;\n\n\t\tthis.filters = source.filters.slice();\n\n\t\treturn this;\n\n\t}\n\n\tclone( recursive ) {\n\n\t\treturn new this.constructor( this.listener ).copy( this, recursive );\n\n\t}\n\n}\n\nconst _position = /*@__PURE__*/ new Vector3();\nconst _quaternion = /*@__PURE__*/ new Quaternion();\nconst _scale = /*@__PURE__*/ new Vector3();\nconst _orientation = /*@__PURE__*/ new Vector3();\n\n/**\n * Represents a positional audio object.\n *\n * ```js\n * // create an AudioListener and add it to the camera\n * const listener = new THREE.AudioListener();\n * camera.add( listener );\n *\n * // create the PositionalAudio object (passing in the listener)\n * const sound = new THREE.PositionalAudio( listener );\n *\n * // load a sound and set it as the PositionalAudio object's buffer\n * const audioLoader = new THREE.AudioLoader();\n * audioLoader.load( 'sounds/song.ogg', function( buffer ) {\n * \tsound.setBuffer( buffer );\n * \tsound.setRefDistance( 20 );\n * \tsound.play();\n * });\n *\n * // create an object for the sound to play from\n * const sphere = new THREE.SphereGeometry( 20, 32, 16 );\n * const material = new THREE.MeshPhongMaterial( { color: 0xff2200 } );\n * const mesh = new THREE.Mesh( sphere, material );\n * scene.add( mesh );\n *\n * // finally add the sound to the mesh\n * mesh.add( sound );\n *\n * @augments Audio\n */\nclass PositionalAudio extends Audio {\n\n\t/**\n\t * Constructs a positional audio.\n\t *\n\t * @param {AudioListener} listener - The global audio listener.\n\t */\n\tconstructor( listener ) {\n\n\t\tsuper( listener );\n\n\t\t/**\n\t\t * The panner node represents the location, direction, and behavior of an audio\n\t\t * source in 3D space.\n\t\t *\n\t\t * @type {PannerNode}\n\t\t * @readonly\n\t\t */\n\t\tthis.panner = this.context.createPanner();\n\t\tthis.panner.panningModel = 'HRTF';\n\t\tthis.panner.connect( this.gain );\n\n\t}\n\n\tconnect() {\n\n\t\tsuper.connect();\n\n\t\tthis.panner.connect( this.gain );\n\n\t\treturn this;\n\n\t}\n\n\tdisconnect() {\n\n\t\tsuper.disconnect();\n\n\t\tthis.panner.disconnect( this.gain );\n\n\t\treturn this;\n\n\t}\n\n\tgetOutput() {\n\n\t\treturn this.panner;\n\n\t}\n\n\t/**\n\t * Returns the current reference distance.\n\t *\n\t * @return {number} The reference distance.\n\t */\n\tgetRefDistance() {\n\n\t\treturn this.panner.refDistance;\n\n\t}\n\n\t/**\n\t * Defines the reference distance for reducing volume as the audio source moves\n\t * further from the listener – i.e. the distance at which the volume reduction\n\t * starts taking effect.\n\t *\n\t * @param {number} value - The reference distance to set.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetRefDistance( value ) {\n\n\t\tthis.panner.refDistance = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current rolloff factor.\n\t *\n\t * @return {number} The rolloff factor.\n\t */\n\tgetRolloffFactor() {\n\n\t\treturn this.panner.rolloffFactor;\n\n\t}\n\n\t/**\n\t * Defines how quickly the volume is reduced as the source moves away from the listener.\n\t *\n\t * @param {number} value - The rolloff factor.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetRolloffFactor( value ) {\n\n\t\tthis.panner.rolloffFactor = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current distance model.\n\t *\n\t * @return {('linear'|'inverse'|'exponential')} The distance model.\n\t */\n\tgetDistanceModel() {\n\n\t\treturn this.panner.distanceModel;\n\n\t}\n\n\t/**\n\t * Defines which algorithm to use to reduce the volume of the audio source\n\t * as it moves away from the listener.\n\t *\n\t * Read [the spec]{@link https://www.w3.org/TR/webaudio-1.1/#enumdef-distancemodeltype}\n\t * for more details.\n\t *\n\t * @param {('linear'|'inverse'|'exponential')} value - The distance model to set.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetDistanceModel( value ) {\n\n\t\tthis.panner.distanceModel = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the current max distance.\n\t *\n\t * @return {number} The max distance.\n\t */\n\tgetMaxDistance() {\n\n\t\treturn this.panner.maxDistance;\n\n\t}\n\n\t/**\n\t * Defines the maximum distance between the audio source and the listener,\n\t * after which the volume is not reduced any further.\n\t *\n\t * This value is used only by the `linear` distance model.\n\t *\n\t * @param {number} value - The max distance.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetMaxDistance( value ) {\n\n\t\tthis.panner.maxDistance = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the directional cone in which the audio can be listened.\n\t *\n\t * @param {number} coneInnerAngle - An angle, in degrees, of a cone inside of which there will be no volume reduction.\n\t * @param {number} coneOuterAngle - An angle, in degrees, of a cone outside of which the volume will be reduced by a constant value, defined by the `coneOuterGain` parameter.\n\t * @param {number} coneOuterGain - The amount of volume reduction outside the cone defined by the `coneOuterAngle`. When set to `0`, no sound can be heard.\n\t * @return {PositionalAudio} A reference to this instance.\n\t */\n\tsetDirectionalCone( coneInnerAngle, coneOuterAngle, coneOuterGain ) {\n\n\t\tthis.panner.coneInnerAngle = coneInnerAngle;\n\t\tthis.panner.coneOuterAngle = coneOuterAngle;\n\t\tthis.panner.coneOuterGain = coneOuterGain;\n\n\t\treturn this;\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t\tif ( this.hasPlaybackControl === true && this.isPlaying === false ) return;\n\n\t\tthis.matrixWorld.decompose( _position, _quaternion, _scale );\n\n\t\t_orientation.set( 0, 0, 1 ).applyQuaternion( _quaternion );\n\n\t\tconst panner = this.panner;\n\n\t\tif ( panner.positionX ) {\n\n\t\t\t// code path for Chrome and Firefox (see #14393)\n\n\t\t\tconst endTime = this.context.currentTime + this.listener.timeDelta;\n\n\t\t\tpanner.positionX.linearRampToValueAtTime( _position.x, endTime );\n\t\t\tpanner.positionY.linearRampToValueAtTime( _position.y, endTime );\n\t\t\tpanner.positionZ.linearRampToValueAtTime( _position.z, endTime );\n\t\t\tpanner.orientationX.linearRampToValueAtTime( _orientation.x, endTime );\n\t\t\tpanner.orientationY.linearRampToValueAtTime( _orientation.y, endTime );\n\t\t\tpanner.orientationZ.linearRampToValueAtTime( _orientation.z, endTime );\n\n\t\t} else {\n\n\t\t\tpanner.setPosition( _position.x, _position.y, _position.z );\n\t\t\tpanner.setOrientation( _orientation.x, _orientation.y, _orientation.z );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * This class can be used to analyse audio data.\n *\n * ```js\n * // create an AudioListener and add it to the camera\n * const listener = new THREE.AudioListener();\n * camera.add( listener );\n *\n * // create an Audio source\n * const sound = new THREE.Audio( listener );\n *\n * // load a sound and set it as the Audio object's buffer\n * const audioLoader = new THREE.AudioLoader();\n * audioLoader.load( 'sounds/ambient.ogg', function( buffer ) {\n * \tsound.setBuffer( buffer );\n * \tsound.setLoop(true);\n * \tsound.setVolume(0.5);\n * \tsound.play();\n * });\n *\n * // create an AudioAnalyser, passing in the sound and desired fftSize\n * const analyser = new THREE.AudioAnalyser( sound, 32 );\n *\n * // get the average frequency of the sound\n * const data = analyser.getAverageFrequency();\n * ```\n */\nclass AudioAnalyser {\n\n\t/**\n\t * Constructs a new audio analyzer.\n\t *\n\t * @param {Audio} audio - The audio to analyze.\n\t * @param {number} [fftSize=2048] - The window size in samples that is used when performing a Fast Fourier Transform (FFT) to get frequency domain data.\n\t */\n\tconstructor( audio, fftSize = 2048 ) {\n\n\t\t/**\n\t\t * The global audio listener.\n\t\t *\n\t\t * @type {AnalyserNode}\n\t\t */\n\t\tthis.analyser = audio.context.createAnalyser();\n\t\tthis.analyser.fftSize = fftSize;\n\n\t\t/**\n\t\t * Holds the analyzed data.\n\t\t *\n\t\t * @type {Uint8Array}\n\t\t */\n\t\tthis.data = new Uint8Array( this.analyser.frequencyBinCount );\n\n\t\taudio.getOutput().connect( this.analyser );\n\n\t}\n\n\t/**\n\t * Returns an array with frequency data of the audio.\n\t *\n\t * Each item in the array represents the decibel value for a specific frequency.\n\t * The frequencies are spread linearly from 0 to 1/2 of the sample rate.\n\t * For example, for 48000 sample rate, the last item of the array will represent\n\t * the decibel value for 24000 Hz.\n\t *\n\t * @return {Uint8Array} The frequency data.\n\t */\n\tgetFrequencyData() {\n\n\t\tthis.analyser.getByteFrequencyData( this.data );\n\n\t\treturn this.data;\n\n\t}\n\n\t/**\n\t * Returns the average of the frequencies returned by {@link AudioAnalyser#getFrequencyData}.\n\t *\n\t * @return {number} The average frequency.\n\t */\n\tgetAverageFrequency() {\n\n\t\tlet value = 0;\n\t\tconst data = this.getFrequencyData();\n\n\t\tfor ( let i = 0; i < data.length; i ++ ) {\n\n\t\t\tvalue += data[ i ];\n\n\t\t}\n\n\t\treturn value / data.length;\n\n\t}\n\n}\n\n/**\n * Buffered scene graph property that allows weighted accumulation; used internally.\n */\nclass PropertyMixer {\n\n\t/**\n\t * Constructs a new property mixer.\n\t *\n\t * @param {PropertyBinding} binding - The property binding.\n\t * @param {string} typeName - The keyframe track type name.\n\t * @param {number} valueSize - The keyframe track value size.\n\t */\n\tconstructor( binding, typeName, valueSize ) {\n\n\t\t/**\n\t\t * The property binding.\n\t\t *\n\t\t * @type {PropertyBinding}\n\t\t */\n\t\tthis.binding = binding;\n\n\t\t/**\n\t\t * The keyframe track value size.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.valueSize = valueSize;\n\n\t\tlet mixFunction,\n\t\t\tmixFunctionAdditive,\n\t\t\tsetIdentity;\n\n\t\t// buffer layout: [ incoming | accu0 | accu1 | orig | addAccu | (optional work) ]\n\t\t//\n\t\t// interpolators can use .buffer as their .result\n\t\t// the data then goes to 'incoming'\n\t\t//\n\t\t// 'accu0' and 'accu1' are used frame-interleaved for\n\t\t// the cumulative result and are compared to detect\n\t\t// changes\n\t\t//\n\t\t// 'orig' stores the original state of the property\n\t\t//\n\t\t// 'add' is used for additive cumulative results\n\t\t//\n\t\t// 'work' is optional and is only present for quaternion types. It is used\n\t\t// to store intermediate quaternion multiplication results\n\n\t\tswitch ( typeName ) {\n\n\t\t\tcase 'quaternion':\n\t\t\t\tmixFunction = this._slerp;\n\t\t\t\tmixFunctionAdditive = this._slerpAdditive;\n\t\t\t\tsetIdentity = this._setAdditiveIdentityQuaternion;\n\n\t\t\t\tthis.buffer = new Float64Array( valueSize * 6 );\n\t\t\t\tthis._workIndex = 5;\n\t\t\t\tbreak;\n\n\t\t\tcase 'string':\n\t\t\tcase 'bool':\n\t\t\t\tmixFunction = this._select;\n\n\t\t\t\t// Use the regular mix function and for additive on these types,\n\t\t\t\t// additive is not relevant for non-numeric types\n\t\t\t\tmixFunctionAdditive = this._select;\n\n\t\t\t\tsetIdentity = this._setAdditiveIdentityOther;\n\n\t\t\t\tthis.buffer = new Array( valueSize * 5 );\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\t\t\t\tmixFunction = this._lerp;\n\t\t\t\tmixFunctionAdditive = this._lerpAdditive;\n\t\t\t\tsetIdentity = this._setAdditiveIdentityNumeric;\n\n\t\t\t\tthis.buffer = new Float64Array( valueSize * 5 );\n\n\t\t}\n\n\t\tthis._mixBufferRegion = mixFunction;\n\t\tthis._mixBufferRegionAdditive = mixFunctionAdditive;\n\t\tthis._setIdentity = setIdentity;\n\t\tthis._origIndex = 3;\n\t\tthis._addIndex = 4;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.cumulativeWeight = 0;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.cumulativeWeightAdditive = 0;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.useCount = 0;\n\n\t\t/**\n\t\t * TODO\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.referenceCount = 0;\n\n\t}\n\n\t/**\n\t * Accumulates data in the `incoming` region into `accu`.\n\t *\n\t * @param {number} accuIndex - The accumulation index.\n\t * @param {number} weight - The weight.\n\t */\n\taccumulate( accuIndex, weight ) {\n\n\t\t// note: happily accumulating nothing when weight = 0, the caller knows\n\t\t// the weight and shouldn't have made the call in the first place\n\n\t\tconst buffer = this.buffer,\n\t\t\tstride = this.valueSize,\n\t\t\toffset = accuIndex * stride + stride;\n\n\t\tlet currentWeight = this.cumulativeWeight;\n\n\t\tif ( currentWeight === 0 ) {\n\n\t\t\t// accuN := incoming * weight\n\n\t\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\t\tbuffer[ offset + i ] = buffer[ i ];\n\n\t\t\t}\n\n\t\t\tcurrentWeight = weight;\n\n\t\t} else {\n\n\t\t\t// accuN := accuN + incoming * weight\n\n\t\t\tcurrentWeight += weight;\n\t\t\tconst mix = weight / currentWeight;\n\t\t\tthis._mixBufferRegion( buffer, offset, 0, mix, stride );\n\n\t\t}\n\n\t\tthis.cumulativeWeight = currentWeight;\n\n\t}\n\n\t/**\n\t * Accumulates data in the `incoming` region into `add`.\n\t *\n\t * @param {number} weight - The weight.\n\t */\n\taccumulateAdditive( weight ) {\n\n\t\tconst buffer = this.buffer,\n\t\t\tstride = this.valueSize,\n\t\t\toffset = stride * this._addIndex;\n\n\t\tif ( this.cumulativeWeightAdditive === 0 ) {\n\n\t\t\t// add = identity\n\n\t\t\tthis._setIdentity();\n\n\t\t}\n\n\t\t// add := add + incoming * weight\n\n\t\tthis._mixBufferRegionAdditive( buffer, offset, 0, weight, stride );\n\t\tthis.cumulativeWeightAdditive += weight;\n\n\t}\n\n\t/**\n\t * Applies the state of `accu` to the binding when accus differ.\n\t *\n\t * @param {number} accuIndex - The accumulation index.\n\t */\n\tapply( accuIndex ) {\n\n\t\tconst stride = this.valueSize,\n\t\t\tbuffer = this.buffer,\n\t\t\toffset = accuIndex * stride + stride,\n\n\t\t\tweight = this.cumulativeWeight,\n\t\t\tweightAdditive = this.cumulativeWeightAdditive,\n\n\t\t\tbinding = this.binding;\n\n\t\tthis.cumulativeWeight = 0;\n\t\tthis.cumulativeWeightAdditive = 0;\n\n\t\tif ( weight < 1 ) {\n\n\t\t\t// accuN := accuN + original * ( 1 - cumulativeWeight )\n\n\t\t\tconst originalValueOffset = stride * this._origIndex;\n\n\t\t\tthis._mixBufferRegion(\n\t\t\t\tbuffer, offset, originalValueOffset, 1 - weight, stride );\n\n\t\t}\n\n\t\tif ( weightAdditive > 0 ) {\n\n\t\t\t// accuN := accuN + additive accuN\n\n\t\t\tthis._mixBufferRegionAdditive( buffer, offset, this._addIndex * stride, 1, stride );\n\n\t\t}\n\n\t\tfor ( let i = stride, e = stride + stride; i !== e; ++ i ) {\n\n\t\t\tif ( buffer[ i ] !== buffer[ i + stride ] ) {\n\n\t\t\t\t// value has changed -> update scene graph\n\n\t\t\t\tbinding.setValue( buffer, offset );\n\t\t\t\tbreak;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\n\t/**\n\t * Remembers the state of the bound property and copy it to both accus.\n\t */\n\tsaveOriginalState() {\n\n\t\tconst binding = this.binding;\n\n\t\tconst buffer = this.buffer,\n\t\t\tstride = this.valueSize,\n\n\t\t\toriginalValueOffset = stride * this._origIndex;\n\n\t\tbinding.getValue( buffer, originalValueOffset );\n\n\t\t// accu[0..1] := orig -- initially detect changes against the original\n\t\tfor ( let i = stride, e = originalValueOffset; i !== e; ++ i ) {\n\n\t\t\tbuffer[ i ] = buffer[ originalValueOffset + ( i % stride ) ];\n\n\t\t}\n\n\t\t// Add to identity for additive\n\t\tthis._setIdentity();\n\n\t\tthis.cumulativeWeight = 0;\n\t\tthis.cumulativeWeightAdditive = 0;\n\n\t}\n\n\t/**\n\t * Applies the state previously taken via {@link PropertyMixer#saveOriginalState} to the binding.\n\t */\n\trestoreOriginalState() {\n\n\t\tconst originalValueOffset = this.valueSize * 3;\n\t\tthis.binding.setValue( this.buffer, originalValueOffset );\n\n\t}\n\n\t// internals\n\n\t_setAdditiveIdentityNumeric() {\n\n\t\tconst startIndex = this._addIndex * this.valueSize;\n\t\tconst endIndex = startIndex + this.valueSize;\n\n\t\tfor ( let i = startIndex; i < endIndex; i ++ ) {\n\n\t\t\tthis.buffer[ i ] = 0;\n\n\t\t}\n\n\t}\n\n\t_setAdditiveIdentityQuaternion() {\n\n\t\tthis._setAdditiveIdentityNumeric();\n\t\tthis.buffer[ this._addIndex * this.valueSize + 3 ] = 1;\n\n\t}\n\n\t_setAdditiveIdentityOther() {\n\n\t\tconst startIndex = this._origIndex * this.valueSize;\n\t\tconst targetIndex = this._addIndex * this.valueSize;\n\n\t\tfor ( let i = 0; i < this.valueSize; i ++ ) {\n\n\t\t\tthis.buffer[ targetIndex + i ] = this.buffer[ startIndex + i ];\n\n\t\t}\n\n\t}\n\n\n\t// mix functions\n\n\t_select( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tif ( t >= 0.5 ) {\n\n\t\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\t\tbuffer[ dstOffset + i ] = buffer[ srcOffset + i ];\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_slerp( buffer, dstOffset, srcOffset, t ) {\n\n\t\tQuaternion.slerpFlat( buffer, dstOffset, buffer, dstOffset, buffer, srcOffset, t );\n\n\t}\n\n\t_slerpAdditive( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tconst workOffset = this._workIndex * stride;\n\n\t\t// Store result in intermediate buffer offset\n\t\tQuaternion.multiplyQuaternionsFlat( buffer, workOffset, buffer, dstOffset, buffer, srcOffset );\n\n\t\t// Slerp to the intermediate result\n\t\tQuaternion.slerpFlat( buffer, dstOffset, buffer, dstOffset, buffer, workOffset, t );\n\n\t}\n\n\t_lerp( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tconst s = 1 - t;\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tconst j = dstOffset + i;\n\n\t\t\tbuffer[ j ] = buffer[ j ] * s + buffer[ srcOffset + i ] * t;\n\n\t\t}\n\n\t}\n\n\t_lerpAdditive( buffer, dstOffset, srcOffset, t, stride ) {\n\n\t\tfor ( let i = 0; i !== stride; ++ i ) {\n\n\t\t\tconst j = dstOffset + i;\n\n\t\t\tbuffer[ j ] = buffer[ j ] + buffer[ srcOffset + i ] * t;\n\n\t\t}\n\n\t}\n\n}\n\n// Characters [].:/ are reserved for track binding syntax.\nconst _RESERVED_CHARS_RE = '\\\\[\\\\]\\\\.:\\\\/';\nconst _reservedRe = new RegExp( '[' + _RESERVED_CHARS_RE + ']', 'g' );\n\n// Attempts to allow node names from any language. ES5's `\\w` regexp matches\n// only latin characters, and the unicode \\p{L} is not yet supported. So\n// instead, we exclude reserved characters and match everything else.\nconst _wordChar = '[^' + _RESERVED_CHARS_RE + ']';\nconst _wordCharOrDot = '[^' + _RESERVED_CHARS_RE.replace( '\\\\.', '' ) + ']';\n\n// Parent directories, delimited by '/' or ':'. Currently unused, but must\n// be matched to parse the rest of the track name.\nconst _directoryRe = /*@__PURE__*/ /((?:WC+[\\/:])*)/.source.replace( 'WC', _wordChar );\n\n// Target node. May contain word characters (a-zA-Z0-9_) and '.' or '-'.\nconst _nodeRe = /*@__PURE__*/ /(WCOD+)?/.source.replace( 'WCOD', _wordCharOrDot );\n\n// Object on target node, and accessor. May not contain reserved\n// characters. Accessor may contain any character except closing bracket.\nconst _objectRe = /*@__PURE__*/ /(?:\\.(WC+)(?:\\[(.+)\\])?)?/.source.replace( 'WC', _wordChar );\n\n// Property and accessor. May not contain reserved characters. Accessor may\n// contain any non-bracket characters.\nconst _propertyRe = /*@__PURE__*/ /\\.(WC+)(?:\\[(.+)\\])?/.source.replace( 'WC', _wordChar );\n\nconst _trackRe = new RegExp( ''\n\t+ '^'\n\t+ _directoryRe\n\t+ _nodeRe\n\t+ _objectRe\n\t+ _propertyRe\n\t+ '$'\n);\n\nconst _supportedObjectNames = [ 'material', 'materials', 'bones', 'map' ];\n\nclass Composite {\n\n\tconstructor( targetGroup, path, optionalParsedPath ) {\n\n\t\tconst parsedPath = optionalParsedPath || PropertyBinding.parseTrackName( path );\n\n\t\tthis._targetGroup = targetGroup;\n\t\tthis._bindings = targetGroup.subscribe_( path, parsedPath );\n\n\t}\n\n\tgetValue( array, offset ) {\n\n\t\tthis.bind(); // bind all binding\n\n\t\tconst firstValidIndex = this._targetGroup.nCachedObjects_,\n\t\t\tbinding = this._bindings[ firstValidIndex ];\n\n\t\t// and only call .getValue on the first\n\t\tif ( binding !== undefined ) binding.getValue( array, offset );\n\n\t}\n\n\tsetValue( array, offset ) {\n\n\t\tconst bindings = this._bindings;\n\n\t\tfor ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tbindings[ i ].setValue( array, offset );\n\n\t\t}\n\n\t}\n\n\tbind() {\n\n\t\tconst bindings = this._bindings;\n\n\t\tfor ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tbindings[ i ].bind();\n\n\t\t}\n\n\t}\n\n\tunbind() {\n\n\t\tconst bindings = this._bindings;\n\n\t\tfor ( let i = this._targetGroup.nCachedObjects_, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tbindings[ i ].unbind();\n\n\t\t}\n\n\t}\n\n}\n\n// Note: This class uses a State pattern on a per-method basis:\n// 'bind' sets 'this.getValue' / 'setValue' and shadows the\n// prototype version of these methods with one that represents\n// the bound state. When the property is not found, the methods\n// become no-ops.\n\n\n/**\n * This holds a reference to a real property in the scene graph; used internally.\n */\nclass PropertyBinding {\n\n\t/**\n\t * Constructs a new property binding.\n\t *\n\t * @param {Object} rootNode - The root node.\n\t * @param {string} path - The path.\n\t * @param {?Object} [parsedPath] - The parsed path.\n\t */\n\tconstructor( rootNode, path, parsedPath ) {\n\n\t\t/**\n\t\t * The object path to the animated property.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.path = path;\n\n\t\t/**\n\t\t * An object holding information about the path.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.parsedPath = parsedPath || PropertyBinding.parseTrackName( path );\n\n\t\t/**\n\t\t * The object owns the animated property.\n\t\t *\n\t\t * @type {?Object}\n\t\t */\n\t\tthis.node = PropertyBinding.findNode( rootNode, this.parsedPath.nodeName );\n\n\t\t/**\n\t\t * The root node.\n\t\t *\n\t\t * @type {Object3D|Skeleton}\n\t\t */\n\t\tthis.rootNode = rootNode;\n\n\t\t// initial state of these methods that calls 'bind'\n\t\tthis.getValue = this._getValue_unbound;\n\t\tthis.setValue = this._setValue_unbound;\n\n\t}\n\n\n\t/**\n\t * Factory method for creating a property binding from the given parameters.\n\t *\n\t * @static\n\t * @param {Object} root - The root node.\n\t * @param {string} path - The path.\n\t * @param {?Object} [parsedPath] - The parsed path.\n\t * @return {PropertyBinding|Composite} The created property binding or composite.\n\t */\n\tstatic create( root, path, parsedPath ) {\n\n\t\tif ( ! ( root && root.isAnimationObjectGroup ) ) {\n\n\t\t\treturn new PropertyBinding( root, path, parsedPath );\n\n\t\t} else {\n\n\t\t\treturn new PropertyBinding.Composite( root, path, parsedPath );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Replaces spaces with underscores and removes unsupported characters from\n\t * node names, to ensure compatibility with parseTrackName().\n\t *\n\t * @param {string} name - Node name to be sanitized.\n\t * @return {string} The sanitized node name.\n\t */\n\tstatic sanitizeNodeName( name ) {\n\n\t\treturn name.replace( /\\s/g, '_' ).replace( _reservedRe, '' );\n\n\t}\n\n\t/**\n\t * Parses the given track name (an object path to an animated property) and\n\t * returns an object with information about the path. Matches strings in the following forms:\n\t *\n\t * - nodeName.property\n\t * - nodeName.property[accessor]\n\t * - nodeName.material.property[accessor]\n\t * - uuid.property[accessor]\n\t * - uuid.objectName[objectIndex].propertyName[propertyIndex]\n\t * - parentName/nodeName.property\n\t * - parentName/parentName/nodeName.property[index]\n\t * - .bone[Armature.DEF_cog].position\n\t * - scene:helium_balloon_model:helium_balloon_model.position\n\t *\n\t * @static\n\t * @param {string} trackName - The track name to parse.\n\t * @return {Object} The parsed track name as an object.\n\t */\n\tstatic parseTrackName( trackName ) {\n\n\t\tconst matches = _trackRe.exec( trackName );\n\n\t\tif ( matches === null ) {\n\n\t\t\tthrow new Error( 'PropertyBinding: Cannot parse trackName: ' + trackName );\n\n\t\t}\n\n\t\tconst results = {\n\t\t\t// directoryName: matches[ 1 ], // (tschw) currently unused\n\t\t\tnodeName: matches[ 2 ],\n\t\t\tobjectName: matches[ 3 ],\n\t\t\tobjectIndex: matches[ 4 ],\n\t\t\tpropertyName: matches[ 5 ], // required\n\t\t\tpropertyIndex: matches[ 6 ]\n\t\t};\n\n\t\tconst lastDot = results.nodeName && results.nodeName.lastIndexOf( '.' );\n\n\t\tif ( lastDot !== undefined && lastDot !== -1 ) {\n\n\t\t\tconst objectName = results.nodeName.substring( lastDot + 1 );\n\n\t\t\t// Object names must be checked against an allowlist. Otherwise, there\n\t\t\t// is no way to parse 'foo.bar.baz': 'baz' must be a property, but\n\t\t\t// 'bar' could be the objectName, or part of a nodeName (which can\n\t\t\t// include '.' characters).\n\t\t\tif ( _supportedObjectNames.indexOf( objectName ) !== -1 ) {\n\n\t\t\t\tresults.nodeName = results.nodeName.substring( 0, lastDot );\n\t\t\t\tresults.objectName = objectName;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( results.propertyName === null || results.propertyName.length === 0 ) {\n\n\t\t\tthrow new Error( 'PropertyBinding: can not parse propertyName from trackName: ' + trackName );\n\n\t\t}\n\n\t\treturn results;\n\n\t}\n\n\t/**\n\t * Searches for a node in the hierarchy of the given root object by the given\n\t * node name.\n\t *\n\t * @static\n\t * @param {Object} root - The root object.\n\t * @param {string|number} nodeName - The name of the node.\n\t * @return {?Object} The found node. Returns `null` if no object was found.\n\t */\n\tstatic findNode( root, nodeName ) {\n\n\t\tif ( nodeName === undefined || nodeName === '' || nodeName === '.' || nodeName === -1 || nodeName === root.name || nodeName === root.uuid ) {\n\n\t\t\treturn root;\n\n\t\t}\n\n\t\t// search into skeleton bones.\n\t\tif ( root.skeleton ) {\n\n\t\t\tconst bone = root.skeleton.getBoneByName( nodeName );\n\n\t\t\tif ( bone !== undefined ) {\n\n\t\t\t\treturn bone;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// search into node subtree.\n\t\tif ( root.children ) {\n\n\t\t\tconst searchNodeSubtree = function ( children ) {\n\n\t\t\t\tfor ( let i = 0; i < children.length; i ++ ) {\n\n\t\t\t\t\tconst childNode = children[ i ];\n\n\t\t\t\t\tif ( childNode.name === nodeName || childNode.uuid === nodeName ) {\n\n\t\t\t\t\t\treturn childNode;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tconst result = searchNodeSubtree( childNode.children );\n\n\t\t\t\t\tif ( result ) return result;\n\n\t\t\t\t}\n\n\t\t\t\treturn null;\n\n\t\t\t};\n\n\t\t\tconst subTreeNode = searchNodeSubtree( root.children );\n\n\t\t\tif ( subTreeNode ) {\n\n\t\t\t\treturn subTreeNode;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t// these are used to \"bind\" a nonexistent property\n\t_getValue_unavailable() {}\n\t_setValue_unavailable() {}\n\n\t// Getters\n\n\t_getValue_direct( buffer, offset ) {\n\n\t\tbuffer[ offset ] = this.targetObject[ this.propertyName ];\n\n\t}\n\n\t_getValue_array( buffer, offset ) {\n\n\t\tconst source = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = source.length; i !== n; ++ i ) {\n\n\t\t\tbuffer[ offset ++ ] = source[ i ];\n\n\t\t}\n\n\t}\n\n\t_getValue_arrayElement( buffer, offset ) {\n\n\t\tbuffer[ offset ] = this.resolvedProperty[ this.propertyIndex ];\n\n\t}\n\n\t_getValue_toArray( buffer, offset ) {\n\n\t\tthis.resolvedProperty.toArray( buffer, offset );\n\n\t}\n\n\t// Direct\n\n\t_setValue_direct( buffer, offset ) {\n\n\t\tthis.targetObject[ this.propertyName ] = buffer[ offset ];\n\n\t}\n\n\t_setValue_direct_setNeedsUpdate( buffer, offset ) {\n\n\t\tthis.targetObject[ this.propertyName ] = buffer[ offset ];\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_direct_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tthis.targetObject[ this.propertyName ] = buffer[ offset ];\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t// EntireArray\n\n\t_setValue_array( buffer, offset ) {\n\n\t\tconst dest = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = dest.length; i !== n; ++ i ) {\n\n\t\t\tdest[ i ] = buffer[ offset ++ ];\n\n\t\t}\n\n\t}\n\n\t_setValue_array_setNeedsUpdate( buffer, offset ) {\n\n\t\tconst dest = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = dest.length; i !== n; ++ i ) {\n\n\t\t\tdest[ i ] = buffer[ offset ++ ];\n\n\t\t}\n\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_array_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tconst dest = this.resolvedProperty;\n\n\t\tfor ( let i = 0, n = dest.length; i !== n; ++ i ) {\n\n\t\t\tdest[ i ] = buffer[ offset ++ ];\n\n\t\t}\n\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t// ArrayElement\n\n\t_setValue_arrayElement( buffer, offset ) {\n\n\t\tthis.resolvedProperty[ this.propertyIndex ] = buffer[ offset ];\n\n\t}\n\n\t_setValue_arrayElement_setNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty[ this.propertyIndex ] = buffer[ offset ];\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_arrayElement_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty[ this.propertyIndex ] = buffer[ offset ];\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t// HasToFromArray\n\n\t_setValue_fromArray( buffer, offset ) {\n\n\t\tthis.resolvedProperty.fromArray( buffer, offset );\n\n\t}\n\n\t_setValue_fromArray_setNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty.fromArray( buffer, offset );\n\t\tthis.targetObject.needsUpdate = true;\n\n\t}\n\n\t_setValue_fromArray_setMatrixWorldNeedsUpdate( buffer, offset ) {\n\n\t\tthis.resolvedProperty.fromArray( buffer, offset );\n\t\tthis.targetObject.matrixWorldNeedsUpdate = true;\n\n\t}\n\n\t_getValue_unbound( targetArray, offset ) {\n\n\t\tthis.bind();\n\t\tthis.getValue( targetArray, offset );\n\n\t}\n\n\t_setValue_unbound( sourceArray, offset ) {\n\n\t\tthis.bind();\n\t\tthis.setValue( sourceArray, offset );\n\n\t}\n\n\t/**\n\t * Creates a getter / setter pair for the property tracked by this binding.\n\t */\n\tbind() {\n\n\t\tlet targetObject = this.node;\n\t\tconst parsedPath = this.parsedPath;\n\n\t\tconst objectName = parsedPath.objectName;\n\t\tconst propertyName = parsedPath.propertyName;\n\t\tlet propertyIndex = parsedPath.propertyIndex;\n\n\t\tif ( ! targetObject ) {\n\n\t\t\ttargetObject = PropertyBinding.findNode( this.rootNode, parsedPath.nodeName );\n\n\t\t\tthis.node = targetObject;\n\n\t\t}\n\n\t\t// set fail state so we can just 'return' on error\n\t\tthis.getValue = this._getValue_unavailable;\n\t\tthis.setValue = this._setValue_unavailable;\n\n\t\t// ensure there is a value node\n\t\tif ( ! targetObject ) {\n\n\t\t\tconsole.warn( 'THREE.PropertyBinding: No target node found for track: ' + this.path + '.' );\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( objectName ) {\n\n\t\t\tlet objectIndex = parsedPath.objectIndex;\n\n\t\t\t// special cases were we need to reach deeper into the hierarchy to get the face materials....\n\t\t\tswitch ( objectName ) {\n\n\t\t\t\tcase 'materials':\n\n\t\t\t\t\tif ( ! targetObject.material ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material as node does not have a material.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! targetObject.material.materials ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material.materials as node.material does not have a materials array.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttargetObject = targetObject.material.materials;\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase 'bones':\n\n\t\t\t\t\tif ( ! targetObject.skeleton ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to bones as node does not have a skeleton.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\t// potential future optimization: skip this if propertyIndex is already an integer\n\t\t\t\t\t// and convert the integer string to a true integer.\n\n\t\t\t\t\ttargetObject = targetObject.skeleton.bones;\n\n\t\t\t\t\t// support resolving morphTarget names into indices.\n\t\t\t\t\tfor ( let i = 0; i < targetObject.length; i ++ ) {\n\n\t\t\t\t\t\tif ( targetObject[ i ].name === objectIndex ) {\n\n\t\t\t\t\t\t\tobjectIndex = i;\n\t\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase 'map':\n\n\t\t\t\t\tif ( 'map' in targetObject ) {\n\n\t\t\t\t\t\ttargetObject = targetObject.map;\n\t\t\t\t\t\tbreak;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! targetObject.material ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material as node does not have a material.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ! targetObject.material.map ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to material.map as node.material does not have a map.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttargetObject = targetObject.material.map;\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\n\n\t\t\t\t\tif ( targetObject[ objectName ] === undefined ) {\n\n\t\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to objectName of node undefined.', this );\n\t\t\t\t\t\treturn;\n\n\t\t\t\t\t}\n\n\t\t\t\t\ttargetObject = targetObject[ objectName ];\n\n\t\t\t}\n\n\n\t\t\tif ( objectIndex !== undefined ) {\n\n\t\t\t\tif ( targetObject[ objectIndex ] === undefined ) {\n\n\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Trying to bind to objectIndex of objectName, but is undefined.', this, targetObject );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t\ttargetObject = targetObject[ objectIndex ];\n\n\t\t\t}\n\n\t\t}\n\n\t\t// resolve property\n\t\tconst nodeProperty = targetObject[ propertyName ];\n\n\t\tif ( nodeProperty === undefined ) {\n\n\t\t\tconst nodeName = parsedPath.nodeName;\n\n\t\t\tconsole.error( 'THREE.PropertyBinding: Trying to update property for track: ' + nodeName +\n\t\t\t\t'.' + propertyName + ' but it wasn\\'t found.', targetObject );\n\t\t\treturn;\n\n\t\t}\n\n\t\t// determine versioning scheme\n\t\tlet versioning = this.Versioning.None;\n\n\t\tthis.targetObject = targetObject;\n\n\t\tif ( targetObject.isMaterial === true ) {\n\n\t\t\tversioning = this.Versioning.NeedsUpdate;\n\n\t\t} else if ( targetObject.isObject3D === true ) {\n\n\t\t\tversioning = this.Versioning.MatrixWorldNeedsUpdate;\n\n\t\t}\n\n\t\t// determine how the property gets bound\n\t\tlet bindingType = this.BindingType.Direct;\n\n\t\tif ( propertyIndex !== undefined ) {\n\n\t\t\t// access a sub element of the property array (only primitives are supported right now)\n\n\t\t\tif ( propertyName === 'morphTargetInfluences' ) {\n\n\t\t\t\t// potential optimization, skip this if propertyIndex is already an integer, and convert the integer string to a true integer.\n\n\t\t\t\t// support resolving morphTarget names into indices.\n\t\t\t\tif ( ! targetObject.geometry ) {\n\n\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to morphTargetInfluences because node does not have a geometry.', this );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t\tif ( ! targetObject.geometry.morphAttributes ) {\n\n\t\t\t\t\tconsole.error( 'THREE.PropertyBinding: Can not bind to morphTargetInfluences because node does not have a geometry.morphAttributes.', this );\n\t\t\t\t\treturn;\n\n\t\t\t\t}\n\n\t\t\t\tif ( targetObject.morphTargetDictionary[ propertyIndex ] !== undefined ) {\n\n\t\t\t\t\tpropertyIndex = targetObject.morphTargetDictionary[ propertyIndex ];\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tbindingType = this.BindingType.ArrayElement;\n\n\t\t\tthis.resolvedProperty = nodeProperty;\n\t\t\tthis.propertyIndex = propertyIndex;\n\n\t\t} else if ( nodeProperty.fromArray !== undefined && nodeProperty.toArray !== undefined ) {\n\n\t\t\t// must use copy for Object3D.Euler/Quaternion\n\n\t\t\tbindingType = this.BindingType.HasFromToArray;\n\n\t\t\tthis.resolvedProperty = nodeProperty;\n\n\t\t} else if ( Array.isArray( nodeProperty ) ) {\n\n\t\t\tbindingType = this.BindingType.EntireArray;\n\n\t\t\tthis.resolvedProperty = nodeProperty;\n\n\t\t} else {\n\n\t\t\tthis.propertyName = propertyName;\n\n\t\t}\n\n\t\t// select getter / setter\n\t\tthis.getValue = this.GetterByBindingType[ bindingType ];\n\t\tthis.setValue = this.SetterByBindingTypeAndVersioning[ bindingType ][ versioning ];\n\n\t}\n\n\t/**\n\t * Unbinds the property.\n\t */\n\tunbind() {\n\n\t\tthis.node = null;\n\n\t\t// back to the prototype version of getValue / setValue\n\t\t// note: avoiding to mutate the shape of 'this' via 'delete'\n\t\tthis.getValue = this._getValue_unbound;\n\t\tthis.setValue = this._setValue_unbound;\n\n\t}\n\n}\n\nPropertyBinding.Composite = Composite;\n\nPropertyBinding.prototype.BindingType = {\n\tDirect: 0,\n\tEntireArray: 1,\n\tArrayElement: 2,\n\tHasFromToArray: 3\n};\n\nPropertyBinding.prototype.Versioning = {\n\tNone: 0,\n\tNeedsUpdate: 1,\n\tMatrixWorldNeedsUpdate: 2\n};\n\nPropertyBinding.prototype.GetterByBindingType = [\n\n\tPropertyBinding.prototype._getValue_direct,\n\tPropertyBinding.prototype._getValue_array,\n\tPropertyBinding.prototype._getValue_arrayElement,\n\tPropertyBinding.prototype._getValue_toArray,\n\n];\n\nPropertyBinding.prototype.SetterByBindingTypeAndVersioning = [\n\n\t[\n\t\t// Direct\n\t\tPropertyBinding.prototype._setValue_direct,\n\t\tPropertyBinding.prototype._setValue_direct_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_direct_setMatrixWorldNeedsUpdate,\n\n\t], [\n\n\t\t// EntireArray\n\n\t\tPropertyBinding.prototype._setValue_array,\n\t\tPropertyBinding.prototype._setValue_array_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_array_setMatrixWorldNeedsUpdate,\n\n\t], [\n\n\t\t// ArrayElement\n\t\tPropertyBinding.prototype._setValue_arrayElement,\n\t\tPropertyBinding.prototype._setValue_arrayElement_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_arrayElement_setMatrixWorldNeedsUpdate,\n\n\t], [\n\n\t\t// HasToFromArray\n\t\tPropertyBinding.prototype._setValue_fromArray,\n\t\tPropertyBinding.prototype._setValue_fromArray_setNeedsUpdate,\n\t\tPropertyBinding.prototype._setValue_fromArray_setMatrixWorldNeedsUpdate,\n\n\t]\n\n];\n\n/**\n * A group of objects that receives a shared animation state.\n *\n * Usage:\n *\n * - Add objects you would otherwise pass as 'root' to the\n * constructor or the .clipAction method of AnimationMixer.\n * - Instead pass this object as 'root'.\n * - You can also add and remove objects later when the mixer is running.\n *\n * Note:\n *\n * - Objects of this class appear as one object to the mixer,\n * so cache control of the individual objects must be done on the group.\n *\n * Limitation:\n *\n * - The animated properties must be compatible among the all objects in the group.\n * - A single property can either be controlled through a target group or directly, but not both.\n */\nclass AnimationObjectGroup {\n\n\t/**\n\t * Constructs a new animation group.\n\t *\n\t * @param {...Object3D} arguments - An arbitrary number of 3D objects that share the same animation state.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isAnimationObjectGroup = true;\n\n\t\t/**\n\t\t * The UUID of the 3D object.\n\t\t *\n\t\t * @type {string}\n\t\t * @readonly\n\t\t */\n\t\tthis.uuid = generateUUID();\n\n\t\t// cached objects followed by the active ones\n\t\tthis._objects = Array.prototype.slice.call( arguments );\n\n\t\tthis.nCachedObjects_ = 0; // threshold\n\t\t// note: read by PropertyBinding.Composite\n\n\t\tconst indices = {};\n\t\tthis._indicesByUUID = indices; // for bookkeeping\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tindices[ arguments[ i ].uuid ] = i;\n\n\t\t}\n\n\t\tthis._paths = []; // inside: string\n\t\tthis._parsedPaths = []; // inside: { we don't care, here }\n\t\tthis._bindings = []; // inside: Array< PropertyBinding >\n\t\tthis._bindingsIndicesByPath = {}; // inside: indices in these arrays\n\n\t\tconst scope = this;\n\n\t\tthis.stats = {\n\n\t\t\tobjects: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._objects.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn this.total - scope.nCachedObjects_;\n\n\t\t\t\t}\n\t\t\t},\n\t\t\tget bindingsPerObject() {\n\n\t\t\t\treturn scope._bindings.length;\n\n\t\t\t}\n\n\t\t};\n\n\t}\n\n\t/**\n\t * Adds an arbitrary number of objects to this animation group.\n\t *\n\t * @param {...Object3D} arguments - The 3D objects to add.\n\t */\n\tadd() {\n\n\t\tconst objects = this._objects,\n\t\t\tindicesByUUID = this._indicesByUUID,\n\t\t\tpaths = this._paths,\n\t\t\tparsedPaths = this._parsedPaths,\n\t\t\tbindings = this._bindings,\n\t\t\tnBindings = bindings.length;\n\n\t\tlet knownObject = undefined,\n\t\t\tnObjects = objects.length,\n\t\t\tnCachedObjects = this.nCachedObjects_;\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tconst object = arguments[ i ],\n\t\t\t\tuuid = object.uuid;\n\t\t\tlet index = indicesByUUID[ uuid ];\n\n\t\t\tif ( index === undefined ) {\n\n\t\t\t\t// unknown object -> add it to the ACTIVE region\n\n\t\t\t\tindex = nObjects ++;\n\t\t\t\tindicesByUUID[ uuid ] = index;\n\t\t\t\tobjects.push( object );\n\n\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\tbindings[ j ].push( new PropertyBinding( object, paths[ j ], parsedPaths[ j ] ) );\n\n\t\t\t\t}\n\n\t\t\t} else if ( index < nCachedObjects ) {\n\n\t\t\t\tknownObject = objects[ index ];\n\n\t\t\t\t// move existing object to the ACTIVE region\n\n\t\t\t\tconst firstActiveIndex = -- nCachedObjects,\n\t\t\t\t\tlastCachedObject = objects[ firstActiveIndex ];\n\n\t\t\t\tindicesByUUID[ lastCachedObject.uuid ] = index;\n\t\t\t\tobjects[ index ] = lastCachedObject;\n\n\t\t\t\tindicesByUUID[ uuid ] = firstActiveIndex;\n\t\t\t\tobjects[ firstActiveIndex ] = object;\n\n\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\tconst bindingsForPath = bindings[ j ],\n\t\t\t\t\t\tlastCached = bindingsForPath[ firstActiveIndex ];\n\n\t\t\t\t\tlet binding = bindingsForPath[ index ];\n\n\t\t\t\t\tbindingsForPath[ index ] = lastCached;\n\n\t\t\t\t\tif ( binding === undefined ) {\n\n\t\t\t\t\t\t// since we do not bother to create new bindings\n\t\t\t\t\t\t// for objects that are cached, the binding may\n\t\t\t\t\t\t// or may not exist\n\n\t\t\t\t\t\tbinding = new PropertyBinding( object, paths[ j ], parsedPaths[ j ] );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbindingsForPath[ firstActiveIndex ] = binding;\n\n\t\t\t\t}\n\n\t\t\t} else if ( objects[ index ] !== knownObject ) {\n\n\t\t\t\tconsole.error( 'THREE.AnimationObjectGroup: Different objects with the same UUID ' +\n\t\t\t\t\t'detected. Clean the caches or recreate your infrastructure when reloading scenes.' );\n\n\t\t\t} // else the object is already where we want it to be\n\n\t\t} // for arguments\n\n\t\tthis.nCachedObjects_ = nCachedObjects;\n\n\t}\n\n\t/**\n\t * Removes an arbitrary number of objects to this animation group\n\t *\n\t * @param {...Object3D} arguments - The 3D objects to remove.\n\t */\n\tremove() {\n\n\t\tconst objects = this._objects,\n\t\t\tindicesByUUID = this._indicesByUUID,\n\t\t\tbindings = this._bindings,\n\t\t\tnBindings = bindings.length;\n\n\t\tlet nCachedObjects = this.nCachedObjects_;\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tconst object = arguments[ i ],\n\t\t\t\tuuid = object.uuid,\n\t\t\t\tindex = indicesByUUID[ uuid ];\n\n\t\t\tif ( index !== undefined && index >= nCachedObjects ) {\n\n\t\t\t\t// move existing object into the CACHED region\n\n\t\t\t\tconst lastCachedIndex = nCachedObjects ++,\n\t\t\t\t\tfirstActiveObject = objects[ lastCachedIndex ];\n\n\t\t\t\tindicesByUUID[ firstActiveObject.uuid ] = index;\n\t\t\t\tobjects[ index ] = firstActiveObject;\n\n\t\t\t\tindicesByUUID[ uuid ] = lastCachedIndex;\n\t\t\t\tobjects[ lastCachedIndex ] = object;\n\n\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\tconst bindingsForPath = bindings[ j ],\n\t\t\t\t\t\tfirstActive = bindingsForPath[ lastCachedIndex ],\n\t\t\t\t\t\tbinding = bindingsForPath[ index ];\n\n\t\t\t\t\tbindingsForPath[ index ] = firstActive;\n\t\t\t\t\tbindingsForPath[ lastCachedIndex ] = binding;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t} // for arguments\n\n\t\tthis.nCachedObjects_ = nCachedObjects;\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for the passed 3D objects of this animation group.\n\t *\n\t * @param {...Object3D} arguments - The 3D objects to uncache.\n\t */\n\tuncache() {\n\n\t\tconst objects = this._objects,\n\t\t\tindicesByUUID = this._indicesByUUID,\n\t\t\tbindings = this._bindings,\n\t\t\tnBindings = bindings.length;\n\n\t\tlet nCachedObjects = this.nCachedObjects_,\n\t\t\tnObjects = objects.length;\n\n\t\tfor ( let i = 0, n = arguments.length; i !== n; ++ i ) {\n\n\t\t\tconst object = arguments[ i ],\n\t\t\t\tuuid = object.uuid,\n\t\t\t\tindex = indicesByUUID[ uuid ];\n\n\t\t\tif ( index !== undefined ) {\n\n\t\t\t\tdelete indicesByUUID[ uuid ];\n\n\t\t\t\tif ( index < nCachedObjects ) {\n\n\t\t\t\t\t// object is cached, shrink the CACHED region\n\n\t\t\t\t\tconst firstActiveIndex = -- nCachedObjects,\n\t\t\t\t\t\tlastCachedObject = objects[ firstActiveIndex ],\n\t\t\t\t\t\tlastIndex = -- nObjects,\n\t\t\t\t\t\tlastObject = objects[ lastIndex ];\n\n\t\t\t\t\t// last cached object takes this object's place\n\t\t\t\t\tindicesByUUID[ lastCachedObject.uuid ] = index;\n\t\t\t\t\tobjects[ index ] = lastCachedObject;\n\n\t\t\t\t\t// last object goes to the activated slot and pop\n\t\t\t\t\tindicesByUUID[ lastObject.uuid ] = firstActiveIndex;\n\t\t\t\t\tobjects[ firstActiveIndex ] = lastObject;\n\t\t\t\t\tobjects.pop();\n\n\t\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\t\tconst bindingsForPath = bindings[ j ],\n\t\t\t\t\t\t\tlastCached = bindingsForPath[ firstActiveIndex ],\n\t\t\t\t\t\t\tlast = bindingsForPath[ lastIndex ];\n\n\t\t\t\t\t\tbindingsForPath[ index ] = lastCached;\n\t\t\t\t\t\tbindingsForPath[ firstActiveIndex ] = last;\n\t\t\t\t\t\tbindingsForPath.pop();\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// object is active, just swap with the last and pop\n\n\t\t\t\t\tconst lastIndex = -- nObjects,\n\t\t\t\t\t\tlastObject = objects[ lastIndex ];\n\n\t\t\t\t\tif ( lastIndex > 0 ) {\n\n\t\t\t\t\t\tindicesByUUID[ lastObject.uuid ] = index;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tobjects[ index ] = lastObject;\n\t\t\t\t\tobjects.pop();\n\n\t\t\t\t\t// accounting is done, now do the same for all bindings\n\n\t\t\t\t\tfor ( let j = 0, m = nBindings; j !== m; ++ j ) {\n\n\t\t\t\t\t\tconst bindingsForPath = bindings[ j ];\n\n\t\t\t\t\t\tbindingsForPath[ index ] = bindingsForPath[ lastIndex ];\n\t\t\t\t\t\tbindingsForPath.pop();\n\n\t\t\t\t\t}\n\n\t\t\t\t} // cached or active\n\n\t\t\t} // if object is known\n\n\t\t} // for arguments\n\n\t\tthis.nCachedObjects_ = nCachedObjects;\n\n\t}\n\n\t// Internal interface used by befriended PropertyBinding.Composite:\n\n\tsubscribe_( path, parsedPath ) {\n\n\t\t// returns an array of bindings for the given path that is changed\n\t\t// according to the contained objects in the group\n\n\t\tconst indicesByPath = this._bindingsIndicesByPath;\n\t\tlet index = indicesByPath[ path ];\n\t\tconst bindings = this._bindings;\n\n\t\tif ( index !== undefined ) return bindings[ index ];\n\n\t\tconst paths = this._paths,\n\t\t\tparsedPaths = this._parsedPaths,\n\t\t\tobjects = this._objects,\n\t\t\tnObjects = objects.length,\n\t\t\tnCachedObjects = this.nCachedObjects_,\n\t\t\tbindingsForPath = new Array( nObjects );\n\n\t\tindex = bindings.length;\n\n\t\tindicesByPath[ path ] = index;\n\n\t\tpaths.push( path );\n\t\tparsedPaths.push( parsedPath );\n\t\tbindings.push( bindingsForPath );\n\n\t\tfor ( let i = nCachedObjects, n = objects.length; i !== n; ++ i ) {\n\n\t\t\tconst object = objects[ i ];\n\t\t\tbindingsForPath[ i ] = new PropertyBinding( object, path, parsedPath );\n\n\t\t}\n\n\t\treturn bindingsForPath;\n\n\t}\n\n\tunsubscribe_( path ) {\n\n\t\t// tells the group to forget about a property path and no longer\n\t\t// update the array previously obtained with 'subscribe_'\n\n\t\tconst indicesByPath = this._bindingsIndicesByPath,\n\t\t\tindex = indicesByPath[ path ];\n\n\t\tif ( index !== undefined ) {\n\n\t\t\tconst paths = this._paths,\n\t\t\t\tparsedPaths = this._parsedPaths,\n\t\t\t\tbindings = this._bindings,\n\t\t\t\tlastBindingsIndex = bindings.length - 1,\n\t\t\t\tlastBindings = bindings[ lastBindingsIndex ],\n\t\t\t\tlastBindingsPath = path[ lastBindingsIndex ];\n\n\t\t\tindicesByPath[ lastBindingsPath ] = index;\n\n\t\t\tbindings[ index ] = lastBindings;\n\t\t\tbindings.pop();\n\n\t\t\tparsedPaths[ index ] = parsedPaths[ lastBindingsIndex ];\n\t\t\tparsedPaths.pop();\n\n\t\t\tpaths[ index ] = paths[ lastBindingsIndex ];\n\t\t\tpaths.pop();\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * An instance of `AnimationAction` schedules the playback of an animation which is\n * stored in {@link AnimationClip}.\n */\nclass AnimationAction {\n\n\t/**\n\t * Constructs a new animation action.\n\t *\n\t * @param {AnimationMixer} mixer - The mixer that is controlled by this action.\n\t * @param {AnimationClip} clip - The animation clip that holds the actual keyframes.\n\t * @param {?Object3D} [localRoot=null] - The root object on which this action is performed.\n\t * @param {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)} [blendMode] - The blend mode.\n\t */\n\tconstructor( mixer, clip, localRoot = null, blendMode = clip.blendMode ) {\n\n\t\tthis._mixer = mixer;\n\t\tthis._clip = clip;\n\t\tthis._localRoot = localRoot;\n\n\t\t/**\n\t\t * Defines how the animation is blended/combined when two or more animations\n\t\t * are simultaneously played.\n\t\t *\n\t\t * @type {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)}\n\t\t */\n\t\tthis.blendMode = blendMode;\n\n\t\tconst tracks = clip.tracks,\n\t\t\tnTracks = tracks.length,\n\t\t\tinterpolants = new Array( nTracks );\n\n\t\tconst interpolantSettings = {\n\t\t\tendingStart: ZeroCurvatureEnding,\n\t\t\tendingEnd: ZeroCurvatureEnding\n\t\t};\n\n\t\tfor ( let i = 0; i !== nTracks; ++ i ) {\n\n\t\t\tconst interpolant = tracks[ i ].createInterpolant( null );\n\t\t\tinterpolants[ i ] = interpolant;\n\t\t\tinterpolant.settings = interpolantSettings;\n\n\t\t}\n\n\t\tthis._interpolantSettings = interpolantSettings;\n\n\t\tthis._interpolants = interpolants; // bound by the mixer\n\n\t\t// inside: PropertyMixer (managed by the mixer)\n\t\tthis._propertyBindings = new Array( nTracks );\n\n\t\tthis._cacheIndex = null; // for the memory manager\n\t\tthis._byClipCacheIndex = null; // for the memory manager\n\n\t\tthis._timeScaleInterpolant = null;\n\t\tthis._weightInterpolant = null;\n\n\t\t/**\n\t\t * The loop mode, set via {@link AnimationAction#setLoop}.\n\t\t *\n\t\t * @type {(LoopRepeat|LoopOnce|LoopPingPong)}\n\t\t * @default LoopRepeat\n\t\t */\n\t\tthis.loop = LoopRepeat;\n\t\tthis._loopCount = -1;\n\n\t\t// global mixer time when the action is to be started\n\t\t// it's set back to 'null' upon start of the action\n\t\tthis._startTime = null;\n\n\t\t/**\n\t\t * The local time of this action (in seconds, starting with `0`).\n\t\t *\n\t\t * The value gets clamped or wrapped to `[0,clip.duration]` (according to the\n\t\t * loop state).\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.time = 0;\n\n\t\t/**\n\t\t * Scaling factor for the {@link AnimationAction#time}. A value of `0` causes the\n\t\t * animation to pause. Negative values cause the animation to play backwards.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.timeScale = 1;\n\t\tthis._effectiveTimeScale = 1;\n\n\t\t/**\n\t\t * The degree of influence of this action (in the interval `[0, 1]`). Values\n\t\t * between `0` (no impact) and `1` (full impact) can be used to blend between\n\t\t * several actions.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.weight = 1;\n\t\tthis._effectiveWeight = 1;\n\n\t\t/**\n\t\t * The number of repetitions of the performed clip over the course of this action.\n\t\t * Can be set via {@link AnimationAction#setLoop}.\n\t\t *\n\t\t * Setting this number has no effect if {@link AnimationAction#loop} is set to\n\t\t * `THREE:LoopOnce`.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.repetitions = Infinity;\n\n\t\t/**\n\t\t * If set to `true`, the playback of the action is paused.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.paused = false;\n\n\t\t/**\n\t\t * If set to `false`, the action is disabled so it has no impact.\n\t\t *\n\t\t * When the action is re-enabled, the animation continues from its current\n\t\t * time (setting `enabled` to `false` doesn't reset the action).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.enabled = true;\n\n\t\t/**\n\t\t * If set to true the animation will automatically be paused on its last frame.\n\t\t *\n\t\t * If set to false, {@link AnimationAction#enabled} will automatically be switched\n\t\t * to `false` when the last loop of the action has finished, so that this action has\n\t\t * no further impact.\n\t\t *\n\t\t * Note: This member has no impact if the action is interrupted (it\n\t\t * has only an effect if its last loop has really finished).\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clampWhenFinished = false;\n\n\t\t/**\n\t\t * Enables smooth interpolation without separate clips for start, loop and end.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.zeroSlopeAtStart = true;\n\n\t\t/**\n\t\t * Enables smooth interpolation without separate clips for start, loop and end.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.zeroSlopeAtEnd = true;\n\n\t}\n\n\t/**\n\t * Starts the playback of the animation.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tplay() {\n\n\t\tthis._mixer._activateAction( this );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Stops the playback of the animation.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstop() {\n\n\t\tthis._mixer._deactivateAction( this );\n\n\t\treturn this.reset();\n\n\t}\n\n\t/**\n\t * Resets the playback of the animation.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\treset() {\n\n\t\tthis.paused = false;\n\t\tthis.enabled = true;\n\n\t\tthis.time = 0; // restart clip\n\t\tthis._loopCount = -1;// forget previous loops\n\t\tthis._startTime = null;// forget scheduling\n\n\t\treturn this.stopFading().stopWarping();\n\n\t}\n\n\t/**\n\t * Returns `true` if the animation is running.\n\t *\n\t * @return {boolean} Whether the animation is running or not.\n\t */\n\tisRunning() {\n\n\t\treturn this.enabled && ! this.paused && this.timeScale !== 0 &&\n\t\t\tthis._startTime === null && this._mixer._isActiveAction( this );\n\n\t}\n\n\t/**\n\t * Returns `true` when {@link AnimationAction#play} has been called.\n\t *\n\t * @return {boolean} Whether the animation is scheduled or not.\n\t */\n\tisScheduled() {\n\n\t\treturn this._mixer._isActiveAction( this );\n\n\t}\n\n\t/**\n\t * Defines the time when the animation should start.\n\t *\n\t * @param {number} time - The start time in seconds.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstartAt( time ) {\n\n\t\tthis._startTime = time;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Configures the loop settings for this action.\n\t *\n\t * @param {(LoopRepeat|LoopOnce|LoopPingPong)} mode - The loop mode.\n\t * @param {number} repetitions - The number of repetitions.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetLoop( mode, repetitions ) {\n\n\t\tthis.loop = mode;\n\t\tthis.repetitions = repetitions;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the effective weight of this action.\n\t *\n\t * An action has no effect and thus an effective weight of zero when the\n\t * action is disabled.\n\t *\n\t * @param {number} weight - The weight to set.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetEffectiveWeight( weight ) {\n\n\t\tthis.weight = weight;\n\n\t\t// note: same logic as when updated at runtime\n\t\tthis._effectiveWeight = this.enabled ? weight : 0;\n\n\t\treturn this.stopFading();\n\n\t}\n\n\t/**\n\t * Returns the effective weight of this action.\n\t *\n\t * @return {number} The effective weight.\n\t */\n\tgetEffectiveWeight() {\n\n\t\treturn this._effectiveWeight;\n\n\t}\n\n\t/**\n\t * Fades the animation in by increasing its weight gradually from `0` to `1`,\n\t * within the passed time interval.\n\t *\n\t * @param {number} duration - The duration of the fade.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tfadeIn( duration ) {\n\n\t\treturn this._scheduleFading( duration, 0, 1 );\n\n\t}\n\n\t/**\n\t * Fades the animation out by decreasing its weight gradually from `1` to `0`,\n\t * within the passed time interval.\n\t *\n\t * @param {number} duration - The duration of the fade.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tfadeOut( duration ) {\n\n\t\treturn this._scheduleFading( duration, 1, 0 );\n\n\t}\n\n\t/**\n\t * Causes this action to fade in and the given action to fade out,\n\t * within the passed time interval.\n\t *\n\t * @param {AnimationAction} fadeOutAction - The animation action to fade out.\n\t * @param {number} duration - The duration of the fade.\n\t * @param {boolean} [warp=false] - Whether warping should be used or not.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tcrossFadeFrom( fadeOutAction, duration, warp = false ) {\n\n\t\tfadeOutAction.fadeOut( duration );\n\t\tthis.fadeIn( duration );\n\n\t\tif ( warp === true ) {\n\n\t\t\tconst fadeInDuration = this._clip.duration,\n\t\t\t\tfadeOutDuration = fadeOutAction._clip.duration,\n\n\t\t\t\tstartEndRatio = fadeOutDuration / fadeInDuration,\n\t\t\t\tendStartRatio = fadeInDuration / fadeOutDuration;\n\n\t\t\tfadeOutAction.warp( 1.0, startEndRatio, duration );\n\t\t\tthis.warp( endStartRatio, 1.0, duration );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Causes this action to fade out and the given action to fade in,\n\t * within the passed time interval.\n\t *\n\t * @param {AnimationAction} fadeInAction - The animation action to fade in.\n\t * @param {number} duration - The duration of the fade.\n\t * @param {boolean} [warp=false] - Whether warping should be used or not.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tcrossFadeTo( fadeInAction, duration, warp = false ) {\n\n\t\treturn fadeInAction.crossFadeFrom( this, duration, warp );\n\n\t}\n\n\t/**\n\t * Stops any fading which is applied to this action.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstopFading() {\n\n\t\tconst weightInterpolant = this._weightInterpolant;\n\n\t\tif ( weightInterpolant !== null ) {\n\n\t\t\tthis._weightInterpolant = null;\n\t\t\tthis._mixer._takeBackControlInterpolant( weightInterpolant );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the effective time scale of this action.\n\t *\n\t * An action has no effect and thus an effective time scale of zero when the\n\t * action is paused.\n\t *\n\t * @param {number} timeScale - The time scale to set.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetEffectiveTimeScale( timeScale ) {\n\n\t\tthis.timeScale = timeScale;\n\t\tthis._effectiveTimeScale = this.paused ? 0 : timeScale;\n\n\t\treturn this.stopWarping();\n\n\t}\n\n\t/**\n\t * Returns the effective time scale of this action.\n\t *\n\t * @return {number} The effective time scale.\n\t */\n\tgetEffectiveTimeScale() {\n\n\t\treturn this._effectiveTimeScale;\n\n\t}\n\n\t/**\n\t * Sets the duration for a single loop of this action.\n\t *\n\t * @param {number} duration - The duration to set.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsetDuration( duration ) {\n\n\t\tthis.timeScale = this._clip.duration / duration;\n\n\t\treturn this.stopWarping();\n\n\t}\n\n\t/**\n\t * Synchronizes this action with the passed other action.\n\t *\n\t * @param {AnimationAction} action - The action to sync with.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tsyncWith( action ) {\n\n\t\tthis.time = action.time;\n\t\tthis.timeScale = action.timeScale;\n\n\t\treturn this.stopWarping();\n\n\t}\n\n\t/**\n\t * Decelerates this animation's speed to `0` within the passed time interval.\n\t *\n\t * @param {number} duration - The duration.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\thalt( duration ) {\n\n\t\treturn this.warp( this._effectiveTimeScale, 0, duration );\n\n\t}\n\n\t/**\n\t * Changes the playback speed, within the passed time interval, by modifying\n\t * {@link AnimationAction#timeScale} gradually from `startTimeScale` to\n\t * `endTimeScale`.\n\t *\n\t * @param {number} startTimeScale - The start time scale.\n\t * @param {number} endTimeScale - The end time scale.\n\t * @param {number} duration - The duration.\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\twarp( startTimeScale, endTimeScale, duration ) {\n\n\t\tconst mixer = this._mixer,\n\t\t\tnow = mixer.time,\n\t\t\ttimeScale = this.timeScale;\n\n\t\tlet interpolant = this._timeScaleInterpolant;\n\n\t\tif ( interpolant === null ) {\n\n\t\t\tinterpolant = mixer._lendControlInterpolant();\n\t\t\tthis._timeScaleInterpolant = interpolant;\n\n\t\t}\n\n\t\tconst times = interpolant.parameterPositions,\n\t\t\tvalues = interpolant.sampleValues;\n\n\t\ttimes[ 0 ] = now;\n\t\ttimes[ 1 ] = now + duration;\n\n\t\tvalues[ 0 ] = startTimeScale / timeScale;\n\t\tvalues[ 1 ] = endTimeScale / timeScale;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Stops any scheduled warping which is applied to this action.\n\t *\n\t * @return {AnimationAction} A reference to this animation action.\n\t */\n\tstopWarping() {\n\n\t\tconst timeScaleInterpolant = this._timeScaleInterpolant;\n\n\t\tif ( timeScaleInterpolant !== null ) {\n\n\t\t\tthis._timeScaleInterpolant = null;\n\t\t\tthis._mixer._takeBackControlInterpolant( timeScaleInterpolant );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the animation mixer of this animation action.\n\t *\n\t * @return {AnimationMixer} The animation mixer.\n\t */\n\tgetMixer() {\n\n\t\treturn this._mixer;\n\n\t}\n\n\t/**\n\t * Returns the animation clip of this animation action.\n\t *\n\t * @return {AnimationClip} The animation clip.\n\t */\n\tgetClip() {\n\n\t\treturn this._clip;\n\n\t}\n\n\t/**\n\t * Returns the root object of this animation action.\n\t *\n\t * @return {Object3D} The root object.\n\t */\n\tgetRoot() {\n\n\t\treturn this._localRoot || this._mixer._root;\n\n\t}\n\n\t// Interna\n\n\t_update( time, deltaTime, timeDirection, accuIndex ) {\n\n\t\t// called by the mixer\n\n\t\tif ( ! this.enabled ) {\n\n\t\t\t// call ._updateWeight() to update ._effectiveWeight\n\n\t\t\tthis._updateWeight( time );\n\t\t\treturn;\n\n\t\t}\n\n\t\tconst startTime = this._startTime;\n\n\t\tif ( startTime !== null ) {\n\n\t\t\t// check for scheduled start of action\n\n\t\t\tconst timeRunning = ( time - startTime ) * timeDirection;\n\t\t\tif ( timeRunning < 0 || timeDirection === 0 ) {\n\n\t\t\t\tdeltaTime = 0;\n\n\t\t\t} else {\n\n\n\t\t\t\tthis._startTime = null; // unschedule\n\t\t\t\tdeltaTime = timeDirection * timeRunning;\n\n\t\t\t}\n\n\t\t}\n\n\t\t// apply time scale and advance time\n\n\t\tdeltaTime *= this._updateTimeScale( time );\n\t\tconst clipTime = this._updateTime( deltaTime );\n\n\t\t// note: _updateTime may disable the action resulting in\n\t\t// an effective weight of 0\n\n\t\tconst weight = this._updateWeight( time );\n\n\t\tif ( weight > 0 ) {\n\n\t\t\tconst interpolants = this._interpolants;\n\t\t\tconst propertyMixers = this._propertyBindings;\n\n\t\t\tswitch ( this.blendMode ) {\n\n\t\t\t\tcase AdditiveAnimationBlendMode:\n\n\t\t\t\t\tfor ( let j = 0, m = interpolants.length; j !== m; ++ j ) {\n\n\t\t\t\t\t\tinterpolants[ j ].evaluate( clipTime );\n\t\t\t\t\t\tpropertyMixers[ j ].accumulateAdditive( weight );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase NormalAnimationBlendMode:\n\t\t\t\tdefault:\n\n\t\t\t\t\tfor ( let j = 0, m = interpolants.length; j !== m; ++ j ) {\n\n\t\t\t\t\t\tinterpolants[ j ].evaluate( clipTime );\n\t\t\t\t\t\tpropertyMixers[ j ].accumulate( accuIndex, weight );\n\n\t\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_updateWeight( time ) {\n\n\t\tlet weight = 0;\n\n\t\tif ( this.enabled ) {\n\n\t\t\tweight = this.weight;\n\t\t\tconst interpolant = this._weightInterpolant;\n\n\t\t\tif ( interpolant !== null ) {\n\n\t\t\t\tconst interpolantValue = interpolant.evaluate( time )[ 0 ];\n\n\t\t\t\tweight *= interpolantValue;\n\n\t\t\t\tif ( time > interpolant.parameterPositions[ 1 ] ) {\n\n\t\t\t\t\tthis.stopFading();\n\n\t\t\t\t\tif ( interpolantValue === 0 ) {\n\n\t\t\t\t\t\t// faded out, disable\n\t\t\t\t\t\tthis.enabled = false;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis._effectiveWeight = weight;\n\t\treturn weight;\n\n\t}\n\n\t_updateTimeScale( time ) {\n\n\t\tlet timeScale = 0;\n\n\t\tif ( ! this.paused ) {\n\n\t\t\ttimeScale = this.timeScale;\n\n\t\t\tconst interpolant = this._timeScaleInterpolant;\n\n\t\t\tif ( interpolant !== null ) {\n\n\t\t\t\tconst interpolantValue = interpolant.evaluate( time )[ 0 ];\n\n\t\t\t\ttimeScale *= interpolantValue;\n\n\t\t\t\tif ( time > interpolant.parameterPositions[ 1 ] ) {\n\n\t\t\t\t\tthis.stopWarping();\n\n\t\t\t\t\tif ( timeScale === 0 ) {\n\n\t\t\t\t\t\t// motion has halted, pause\n\t\t\t\t\t\tthis.paused = true;\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\t// warp done - apply final time scale\n\t\t\t\t\t\tthis.timeScale = timeScale;\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tthis._effectiveTimeScale = timeScale;\n\t\treturn timeScale;\n\n\t}\n\n\t_updateTime( deltaTime ) {\n\n\t\tconst duration = this._clip.duration;\n\t\tconst loop = this.loop;\n\n\t\tlet time = this.time + deltaTime;\n\t\tlet loopCount = this._loopCount;\n\n\t\tconst pingPong = ( loop === LoopPingPong );\n\n\t\tif ( deltaTime === 0 ) {\n\n\t\t\tif ( loopCount === -1 ) return time;\n\n\t\t\treturn ( pingPong && ( loopCount & 1 ) === 1 ) ? duration - time : time;\n\n\t\t}\n\n\t\tif ( loop === LoopOnce ) {\n\n\t\t\tif ( loopCount === -1 ) {\n\n\t\t\t\t// just started\n\n\t\t\t\tthis._loopCount = 0;\n\t\t\t\tthis._setEndings( true, true, false );\n\n\t\t\t}\n\n\t\t\thandle_stop: {\n\n\t\t\t\tif ( time >= duration ) {\n\n\t\t\t\t\ttime = duration;\n\n\t\t\t\t} else if ( time < 0 ) {\n\n\t\t\t\t\ttime = 0;\n\n\t\t\t\t} else {\n\n\t\t\t\t\tthis.time = time;\n\n\t\t\t\t\tbreak handle_stop;\n\n\t\t\t\t}\n\n\t\t\t\tif ( this.clampWhenFinished ) this.paused = true;\n\t\t\t\telse this.enabled = false;\n\n\t\t\t\tthis.time = time;\n\n\t\t\t\tthis._mixer.dispatchEvent( {\n\t\t\t\t\ttype: 'finished', action: this,\n\t\t\t\t\tdirection: deltaTime < 0 ? -1 : 1\n\t\t\t\t} );\n\n\t\t\t}\n\n\t\t} else { // repetitive Repeat or PingPong\n\n\t\t\tif ( loopCount === -1 ) {\n\n\t\t\t\t// just started\n\n\t\t\t\tif ( deltaTime >= 0 ) {\n\n\t\t\t\t\tloopCount = 0;\n\n\t\t\t\t\tthis._setEndings( true, this.repetitions === 0, pingPong );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// when looping in reverse direction, the initial\n\t\t\t\t\t// transition through zero counts as a repetition,\n\t\t\t\t\t// so leave loopCount at -1\n\n\t\t\t\t\tthis._setEndings( this.repetitions === 0, true, pingPong );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( time >= duration || time < 0 ) {\n\n\t\t\t\t// wrap around\n\n\t\t\t\tconst loopDelta = Math.floor( time / duration ); // signed\n\t\t\t\ttime -= duration * loopDelta;\n\n\t\t\t\tloopCount += Math.abs( loopDelta );\n\n\t\t\t\tconst pending = this.repetitions - loopCount;\n\n\t\t\t\tif ( pending <= 0 ) {\n\n\t\t\t\t\t// have to stop (switch state, clamp time, fire event)\n\n\t\t\t\t\tif ( this.clampWhenFinished ) this.paused = true;\n\t\t\t\t\telse this.enabled = false;\n\n\t\t\t\t\ttime = deltaTime > 0 ? duration : 0;\n\n\t\t\t\t\tthis.time = time;\n\n\t\t\t\t\tthis._mixer.dispatchEvent( {\n\t\t\t\t\t\ttype: 'finished', action: this,\n\t\t\t\t\t\tdirection: deltaTime > 0 ? 1 : -1\n\t\t\t\t\t} );\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// keep running\n\n\t\t\t\t\tif ( pending === 1 ) {\n\n\t\t\t\t\t\t// entering the last round\n\n\t\t\t\t\t\tconst atStart = deltaTime < 0;\n\t\t\t\t\t\tthis._setEndings( atStart, ! atStart, pingPong );\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tthis._setEndings( false, false, pingPong );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tthis._loopCount = loopCount;\n\n\t\t\t\t\tthis.time = time;\n\n\t\t\t\t\tthis._mixer.dispatchEvent( {\n\t\t\t\t\t\ttype: 'loop', action: this, loopDelta: loopDelta\n\t\t\t\t\t} );\n\n\t\t\t\t}\n\n\t\t\t} else {\n\n\t\t\t\tthis.time = time;\n\n\t\t\t}\n\n\t\t\tif ( pingPong && ( loopCount & 1 ) === 1 ) {\n\n\t\t\t\t// invert time for the \"pong round\"\n\n\t\t\t\treturn duration - time;\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn time;\n\n\t}\n\n\t_setEndings( atStart, atEnd, pingPong ) {\n\n\t\tconst settings = this._interpolantSettings;\n\n\t\tif ( pingPong ) {\n\n\t\t\tsettings.endingStart = ZeroSlopeEnding;\n\t\t\tsettings.endingEnd = ZeroSlopeEnding;\n\n\t\t} else {\n\n\t\t\t// assuming for LoopOnce atStart == atEnd == true\n\n\t\t\tif ( atStart ) {\n\n\t\t\t\tsettings.endingStart = this.zeroSlopeAtStart ? ZeroSlopeEnding : ZeroCurvatureEnding;\n\n\t\t\t} else {\n\n\t\t\t\tsettings.endingStart = WrapAroundEnding;\n\n\t\t\t}\n\n\t\t\tif ( atEnd ) {\n\n\t\t\t\tsettings.endingEnd = this.zeroSlopeAtEnd ? ZeroSlopeEnding : ZeroCurvatureEnding;\n\n\t\t\t} else {\n\n\t\t\t\tsettings.endingEnd \t = WrapAroundEnding;\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_scheduleFading( duration, weightNow, weightThen ) {\n\n\t\tconst mixer = this._mixer, now = mixer.time;\n\t\tlet interpolant = this._weightInterpolant;\n\n\t\tif ( interpolant === null ) {\n\n\t\t\tinterpolant = mixer._lendControlInterpolant();\n\t\t\tthis._weightInterpolant = interpolant;\n\n\t\t}\n\n\t\tconst times = interpolant.parameterPositions,\n\t\t\tvalues = interpolant.sampleValues;\n\n\t\ttimes[ 0 ] = now;\n\t\tvalues[ 0 ] = weightNow;\n\t\ttimes[ 1 ] = now + duration;\n\t\tvalues[ 1 ] = weightThen;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _controlInterpolantsResultBuffer = new Float32Array( 1 );\n\n/**\n * `AnimationMixer` is a player for animations on a particular object in\n * the scene. When multiple objects in the scene are animated independently,\n * one `AnimationMixer` may be used for each object.\n */\nclass AnimationMixer extends EventDispatcher {\n\n\t/**\n\t * Constructs a new animation mixer.\n\t *\n\t * @param {Object3D} root - The object whose animations shall be played by this mixer.\n\t */\n\tconstructor( root ) {\n\n\t\tsuper();\n\n\t\tthis._root = root;\n\t\tthis._initMemoryManager();\n\t\tthis._accuIndex = 0;\n\n\t\t/**\n\t\t * The global mixer time (in seconds; starting with `0` on the mixer's creation).\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.time = 0;\n\n\t\t/**\n\t\t * A scaling factor for the global time.\n\t\t *\n\t\t * Note: Setting this member to `0` and later back to `1` is a\n\t\t * possibility to pause/unpause all actions that are controlled by this\n\t\t * mixer.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.timeScale = 1.0;\n\n\t}\n\n\t_bindAction( action, prototypeAction ) {\n\n\t\tconst root = action._localRoot || this._root,\n\t\t\ttracks = action._clip.tracks,\n\t\t\tnTracks = tracks.length,\n\t\t\tbindings = action._propertyBindings,\n\t\t\tinterpolants = action._interpolants,\n\t\t\trootUuid = root.uuid,\n\t\t\tbindingsByRoot = this._bindingsByRootAndName;\n\n\t\tlet bindingsByName = bindingsByRoot[ rootUuid ];\n\n\t\tif ( bindingsByName === undefined ) {\n\n\t\t\tbindingsByName = {};\n\t\t\tbindingsByRoot[ rootUuid ] = bindingsByName;\n\n\t\t}\n\n\t\tfor ( let i = 0; i !== nTracks; ++ i ) {\n\n\t\t\tconst track = tracks[ i ],\n\t\t\t\ttrackName = track.name;\n\n\t\t\tlet binding = bindingsByName[ trackName ];\n\n\t\t\tif ( binding !== undefined ) {\n\n\t\t\t\t++ binding.referenceCount;\n\t\t\t\tbindings[ i ] = binding;\n\n\t\t\t} else {\n\n\t\t\t\tbinding = bindings[ i ];\n\n\t\t\t\tif ( binding !== undefined ) {\n\n\t\t\t\t\t// existing binding, make sure the cache knows\n\n\t\t\t\t\tif ( binding._cacheIndex === null ) {\n\n\t\t\t\t\t\t++ binding.referenceCount;\n\t\t\t\t\t\tthis._addInactiveBinding( binding, rootUuid, trackName );\n\n\t\t\t\t\t}\n\n\t\t\t\t\tcontinue;\n\n\t\t\t\t}\n\n\t\t\t\tconst path = prototypeAction && prototypeAction.\n\t\t\t\t\t_propertyBindings[ i ].binding.parsedPath;\n\n\t\t\t\tbinding = new PropertyMixer(\n\t\t\t\t\tPropertyBinding.create( root, trackName, path ),\n\t\t\t\t\ttrack.ValueTypeName, track.getValueSize() );\n\n\t\t\t\t++ binding.referenceCount;\n\t\t\t\tthis._addInactiveBinding( binding, rootUuid, trackName );\n\n\t\t\t\tbindings[ i ] = binding;\n\n\t\t\t}\n\n\t\t\tinterpolants[ i ].resultBuffer = binding.buffer;\n\n\t\t}\n\n\t}\n\n\t_activateAction( action ) {\n\n\t\tif ( ! this._isActiveAction( action ) ) {\n\n\t\t\tif ( action._cacheIndex === null ) {\n\n\t\t\t\t// this action has been forgotten by the cache, but the user\n\t\t\t\t// appears to be still using it -> rebind\n\n\t\t\t\tconst rootUuid = ( action._localRoot || this._root ).uuid,\n\t\t\t\t\tclipUuid = action._clip.uuid,\n\t\t\t\t\tactionsForClip = this._actionsByClip[ clipUuid ];\n\n\t\t\t\tthis._bindAction( action,\n\t\t\t\t\tactionsForClip && actionsForClip.knownActions[ 0 ] );\n\n\t\t\t\tthis._addInactiveAction( action, clipUuid, rootUuid );\n\n\t\t\t}\n\n\t\t\tconst bindings = action._propertyBindings;\n\n\t\t\t// increment reference counts / sort out state\n\t\t\tfor ( let i = 0, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\t\tconst binding = bindings[ i ];\n\n\t\t\t\tif ( binding.useCount ++ === 0 ) {\n\n\t\t\t\t\tthis._lendBinding( binding );\n\t\t\t\t\tbinding.saveOriginalState();\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis._lendAction( action );\n\n\t\t}\n\n\t}\n\n\t_deactivateAction( action ) {\n\n\t\tif ( this._isActiveAction( action ) ) {\n\n\t\t\tconst bindings = action._propertyBindings;\n\n\t\t\t// decrement reference counts / sort out state\n\t\t\tfor ( let i = 0, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\t\tconst binding = bindings[ i ];\n\n\t\t\t\tif ( -- binding.useCount === 0 ) {\n\n\t\t\t\t\tbinding.restoreOriginalState();\n\t\t\t\t\tthis._takeBackBinding( binding );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tthis._takeBackAction( action );\n\n\t\t}\n\n\t}\n\n\t// Memory manager\n\n\t_initMemoryManager() {\n\n\t\tthis._actions = []; // 'nActiveActions' followed by inactive ones\n\t\tthis._nActiveActions = 0;\n\n\t\tthis._actionsByClip = {};\n\t\t// inside:\n\t\t// {\n\t\t// \tknownActions: Array< AnimationAction > - used as prototypes\n\t\t// \tactionByRoot: AnimationAction - lookup\n\t\t// }\n\n\n\t\tthis._bindings = []; // 'nActiveBindings' followed by inactive ones\n\t\tthis._nActiveBindings = 0;\n\n\t\tthis._bindingsByRootAndName = {}; // inside: Map< name, PropertyMixer >\n\n\n\t\tthis._controlInterpolants = []; // same game as above\n\t\tthis._nActiveControlInterpolants = 0;\n\n\t\tconst scope = this;\n\n\t\tthis.stats = {\n\n\t\t\tactions: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._actions.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn scope._nActiveActions;\n\n\t\t\t\t}\n\t\t\t},\n\t\t\tbindings: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._bindings.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn scope._nActiveBindings;\n\n\t\t\t\t}\n\t\t\t},\n\t\t\tcontrolInterpolants: {\n\t\t\t\tget total() {\n\n\t\t\t\t\treturn scope._controlInterpolants.length;\n\n\t\t\t\t},\n\t\t\t\tget inUse() {\n\n\t\t\t\t\treturn scope._nActiveControlInterpolants;\n\n\t\t\t\t}\n\t\t\t}\n\n\t\t};\n\n\t}\n\n\t// Memory management for AnimationAction objects\n\n\t_isActiveAction( action ) {\n\n\t\tconst index = action._cacheIndex;\n\t\treturn index !== null && index < this._nActiveActions;\n\n\t}\n\n\t_addInactiveAction( action, clipUuid, rootUuid ) {\n\n\t\tconst actions = this._actions,\n\t\t\tactionsByClip = this._actionsByClip;\n\n\t\tlet actionsForClip = actionsByClip[ clipUuid ];\n\n\t\tif ( actionsForClip === undefined ) {\n\n\t\t\tactionsForClip = {\n\n\t\t\t\tknownActions: [ action ],\n\t\t\t\tactionByRoot: {}\n\n\t\t\t};\n\n\t\t\taction._byClipCacheIndex = 0;\n\n\t\t\tactionsByClip[ clipUuid ] = actionsForClip;\n\n\t\t} else {\n\n\t\t\tconst knownActions = actionsForClip.knownActions;\n\n\t\t\taction._byClipCacheIndex = knownActions.length;\n\t\t\tknownActions.push( action );\n\n\t\t}\n\n\t\taction._cacheIndex = actions.length;\n\t\tactions.push( action );\n\n\t\tactionsForClip.actionByRoot[ rootUuid ] = action;\n\n\t}\n\n\t_removeInactiveAction( action ) {\n\n\t\tconst actions = this._actions,\n\t\t\tlastInactiveAction = actions[ actions.length - 1 ],\n\t\t\tcacheIndex = action._cacheIndex;\n\n\t\tlastInactiveAction._cacheIndex = cacheIndex;\n\t\tactions[ cacheIndex ] = lastInactiveAction;\n\t\tactions.pop();\n\n\t\taction._cacheIndex = null;\n\n\n\t\tconst clipUuid = action._clip.uuid,\n\t\t\tactionsByClip = this._actionsByClip,\n\t\t\tactionsForClip = actionsByClip[ clipUuid ],\n\t\t\tknownActionsForClip = actionsForClip.knownActions,\n\n\t\t\tlastKnownAction =\n\t\t\t\tknownActionsForClip[ knownActionsForClip.length - 1 ],\n\n\t\t\tbyClipCacheIndex = action._byClipCacheIndex;\n\n\t\tlastKnownAction._byClipCacheIndex = byClipCacheIndex;\n\t\tknownActionsForClip[ byClipCacheIndex ] = lastKnownAction;\n\t\tknownActionsForClip.pop();\n\n\t\taction._byClipCacheIndex = null;\n\n\n\t\tconst actionByRoot = actionsForClip.actionByRoot,\n\t\t\trootUuid = ( action._localRoot || this._root ).uuid;\n\n\t\tdelete actionByRoot[ rootUuid ];\n\n\t\tif ( knownActionsForClip.length === 0 ) {\n\n\t\t\tdelete actionsByClip[ clipUuid ];\n\n\t\t}\n\n\t\tthis._removeInactiveBindingsForAction( action );\n\n\t}\n\n\t_removeInactiveBindingsForAction( action ) {\n\n\t\tconst bindings = action._propertyBindings;\n\n\t\tfor ( let i = 0, n = bindings.length; i !== n; ++ i ) {\n\n\t\t\tconst binding = bindings[ i ];\n\n\t\t\tif ( -- binding.referenceCount === 0 ) {\n\n\t\t\t\tthis._removeInactiveBinding( binding );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t_lendAction( action ) {\n\n\t\t// [ active actions | inactive actions ]\n\t\t// [ active actions >| inactive actions ]\n\t\t// s a\n\t\t// <-swap->\n\t\t// a s\n\n\t\tconst actions = this._actions,\n\t\t\tprevIndex = action._cacheIndex,\n\n\t\t\tlastActiveIndex = this._nActiveActions ++,\n\n\t\t\tfirstInactiveAction = actions[ lastActiveIndex ];\n\n\t\taction._cacheIndex = lastActiveIndex;\n\t\tactions[ lastActiveIndex ] = action;\n\n\t\tfirstInactiveAction._cacheIndex = prevIndex;\n\t\tactions[ prevIndex ] = firstInactiveAction;\n\n\t}\n\n\t_takeBackAction( action ) {\n\n\t\t// [ active actions | inactive actions ]\n\t\t// [ active actions |< inactive actions ]\n\t\t// a s\n\t\t// <-swap->\n\t\t// s a\n\n\t\tconst actions = this._actions,\n\t\t\tprevIndex = action._cacheIndex,\n\n\t\t\tfirstInactiveIndex = -- this._nActiveActions,\n\n\t\t\tlastActiveAction = actions[ firstInactiveIndex ];\n\n\t\taction._cacheIndex = firstInactiveIndex;\n\t\tactions[ firstInactiveIndex ] = action;\n\n\t\tlastActiveAction._cacheIndex = prevIndex;\n\t\tactions[ prevIndex ] = lastActiveAction;\n\n\t}\n\n\t// Memory management for PropertyMixer objects\n\n\t_addInactiveBinding( binding, rootUuid, trackName ) {\n\n\t\tconst bindingsByRoot = this._bindingsByRootAndName,\n\t\t\tbindings = this._bindings;\n\n\t\tlet bindingByName = bindingsByRoot[ rootUuid ];\n\n\t\tif ( bindingByName === undefined ) {\n\n\t\t\tbindingByName = {};\n\t\t\tbindingsByRoot[ rootUuid ] = bindingByName;\n\n\t\t}\n\n\t\tbindingByName[ trackName ] = binding;\n\n\t\tbinding._cacheIndex = bindings.length;\n\t\tbindings.push( binding );\n\n\t}\n\n\t_removeInactiveBinding( binding ) {\n\n\t\tconst bindings = this._bindings,\n\t\t\tpropBinding = binding.binding,\n\t\t\trootUuid = propBinding.rootNode.uuid,\n\t\t\ttrackName = propBinding.path,\n\t\t\tbindingsByRoot = this._bindingsByRootAndName,\n\t\t\tbindingByName = bindingsByRoot[ rootUuid ],\n\n\t\t\tlastInactiveBinding = bindings[ bindings.length - 1 ],\n\t\t\tcacheIndex = binding._cacheIndex;\n\n\t\tlastInactiveBinding._cacheIndex = cacheIndex;\n\t\tbindings[ cacheIndex ] = lastInactiveBinding;\n\t\tbindings.pop();\n\n\t\tdelete bindingByName[ trackName ];\n\n\t\tif ( Object.keys( bindingByName ).length === 0 ) {\n\n\t\t\tdelete bindingsByRoot[ rootUuid ];\n\n\t\t}\n\n\t}\n\n\t_lendBinding( binding ) {\n\n\t\tconst bindings = this._bindings,\n\t\t\tprevIndex = binding._cacheIndex,\n\n\t\t\tlastActiveIndex = this._nActiveBindings ++,\n\n\t\t\tfirstInactiveBinding = bindings[ lastActiveIndex ];\n\n\t\tbinding._cacheIndex = lastActiveIndex;\n\t\tbindings[ lastActiveIndex ] = binding;\n\n\t\tfirstInactiveBinding._cacheIndex = prevIndex;\n\t\tbindings[ prevIndex ] = firstInactiveBinding;\n\n\t}\n\n\t_takeBackBinding( binding ) {\n\n\t\tconst bindings = this._bindings,\n\t\t\tprevIndex = binding._cacheIndex,\n\n\t\t\tfirstInactiveIndex = -- this._nActiveBindings,\n\n\t\t\tlastActiveBinding = bindings[ firstInactiveIndex ];\n\n\t\tbinding._cacheIndex = firstInactiveIndex;\n\t\tbindings[ firstInactiveIndex ] = binding;\n\n\t\tlastActiveBinding._cacheIndex = prevIndex;\n\t\tbindings[ prevIndex ] = lastActiveBinding;\n\n\t}\n\n\n\t// Memory management of Interpolants for weight and time scale\n\n\t_lendControlInterpolant() {\n\n\t\tconst interpolants = this._controlInterpolants,\n\t\t\tlastActiveIndex = this._nActiveControlInterpolants ++;\n\n\t\tlet interpolant = interpolants[ lastActiveIndex ];\n\n\t\tif ( interpolant === undefined ) {\n\n\t\t\tinterpolant = new LinearInterpolant(\n\t\t\t\tnew Float32Array( 2 ), new Float32Array( 2 ),\n\t\t\t\t1, _controlInterpolantsResultBuffer );\n\n\t\t\tinterpolant.__cacheIndex = lastActiveIndex;\n\t\t\tinterpolants[ lastActiveIndex ] = interpolant;\n\n\t\t}\n\n\t\treturn interpolant;\n\n\t}\n\n\t_takeBackControlInterpolant( interpolant ) {\n\n\t\tconst interpolants = this._controlInterpolants,\n\t\t\tprevIndex = interpolant.__cacheIndex,\n\n\t\t\tfirstInactiveIndex = -- this._nActiveControlInterpolants,\n\n\t\t\tlastActiveInterpolant = interpolants[ firstInactiveIndex ];\n\n\t\tinterpolant.__cacheIndex = firstInactiveIndex;\n\t\tinterpolants[ firstInactiveIndex ] = interpolant;\n\n\t\tlastActiveInterpolant.__cacheIndex = prevIndex;\n\t\tinterpolants[ prevIndex ] = lastActiveInterpolant;\n\n\t}\n\n\t/**\n\t * Returns an instance of {@link AnimationAction} for the passed clip.\n\t *\n\t * If an action fitting the clip and root parameters doesn't yet exist, it\n\t * will be created by this method. Calling this method several times with the\n\t * same clip and root parameters always returns the same action.\n\t *\n\t * @param {AnimationClip|string} clip - An animation clip or alternatively the name of the animation clip.\n\t * @param {Object3D} [optionalRoot] - An alternative root object.\n\t * @param {(NormalAnimationBlendMode|AdditiveAnimationBlendMode)} [blendMode] - The blend mode.\n\t * @return {?AnimationAction} The animation action.\n\t */\n\tclipAction( clip, optionalRoot, blendMode ) {\n\n\t\tconst root = optionalRoot || this._root,\n\t\t\trootUuid = root.uuid;\n\n\t\tlet clipObject = typeof clip === 'string' ? AnimationClip.findByName( root, clip ) : clip;\n\n\t\tconst clipUuid = clipObject !== null ? clipObject.uuid : clip;\n\n\t\tconst actionsForClip = this._actionsByClip[ clipUuid ];\n\t\tlet prototypeAction = null;\n\n\t\tif ( blendMode === undefined ) {\n\n\t\t\tif ( clipObject !== null ) {\n\n\t\t\t\tblendMode = clipObject.blendMode;\n\n\t\t\t} else {\n\n\t\t\t\tblendMode = NormalAnimationBlendMode;\n\n\t\t\t}\n\n\t\t}\n\n\t\tif ( actionsForClip !== undefined ) {\n\n\t\t\tconst existingAction = actionsForClip.actionByRoot[ rootUuid ];\n\n\t\t\tif ( existingAction !== undefined && existingAction.blendMode === blendMode ) {\n\n\t\t\t\treturn existingAction;\n\n\t\t\t}\n\n\t\t\t// we know the clip, so we don't have to parse all\n\t\t\t// the bindings again but can just copy\n\t\t\tprototypeAction = actionsForClip.knownActions[ 0 ];\n\n\t\t\t// also, take the clip from the prototype action\n\t\t\tif ( clipObject === null )\n\t\t\t\tclipObject = prototypeAction._clip;\n\n\t\t}\n\n\t\t// clip must be known when specified via string\n\t\tif ( clipObject === null ) return null;\n\n\t\t// allocate all resources required to run it\n\t\tconst newAction = new AnimationAction( this, clipObject, optionalRoot, blendMode );\n\n\t\tthis._bindAction( newAction, prototypeAction );\n\n\t\t// and make the action known to the memory manager\n\t\tthis._addInactiveAction( newAction, clipUuid, rootUuid );\n\n\t\treturn newAction;\n\n\t}\n\n\t/**\n\t * Returns an existing animation action for the passed clip.\n\t *\n\t * @param {AnimationClip|string} clip - An animation clip or alternatively the name of the animation clip.\n\t * @param {Object3D} [optionalRoot] - An alternative root object.\n\t * @return {?AnimationAction} The animation action. Returns `null` if no action was found.\n\t */\n\texistingAction( clip, optionalRoot ) {\n\n\t\tconst root = optionalRoot || this._root,\n\t\t\trootUuid = root.uuid,\n\n\t\t\tclipObject = typeof clip === 'string' ?\n\t\t\t\tAnimationClip.findByName( root, clip ) : clip,\n\n\t\t\tclipUuid = clipObject ? clipObject.uuid : clip,\n\n\t\t\tactionsForClip = this._actionsByClip[ clipUuid ];\n\n\t\tif ( actionsForClip !== undefined ) {\n\n\t\t\treturn actionsForClip.actionByRoot[ rootUuid ] || null;\n\n\t\t}\n\n\t\treturn null;\n\n\t}\n\n\t/**\n\t * Deactivates all previously scheduled actions on this mixer.\n\t *\n\t * @return {AnimationMixer} A reference to thi animation mixer.\n\t */\n\tstopAllAction() {\n\n\t\tconst actions = this._actions,\n\t\t\tnActions = this._nActiveActions;\n\n\t\tfor ( let i = nActions - 1; i >= 0; -- i ) {\n\n\t\t\tactions[ i ].stop();\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Advances the global mixer time and updates the animation.\n\t *\n\t * This is usually done in the render loop by passing the delta\n\t * time from {@link Clock} or {@link Timer}.\n\t *\n\t * @param {number} deltaTime - The delta time in seconds.\n\t * @return {AnimationMixer} A reference to thi animation mixer.\n\t */\n\tupdate( deltaTime ) {\n\n\t\tdeltaTime *= this.timeScale;\n\n\t\tconst actions = this._actions,\n\t\t\tnActions = this._nActiveActions,\n\n\t\t\ttime = this.time += deltaTime,\n\t\t\ttimeDirection = Math.sign( deltaTime ),\n\n\t\t\taccuIndex = this._accuIndex ^= 1;\n\n\t\t// run active actions\n\n\t\tfor ( let i = 0; i !== nActions; ++ i ) {\n\n\t\t\tconst action = actions[ i ];\n\n\t\t\taction._update( time, deltaTime, timeDirection, accuIndex );\n\n\t\t}\n\n\t\t// update scene graph\n\n\t\tconst bindings = this._bindings,\n\t\t\tnBindings = this._nActiveBindings;\n\n\t\tfor ( let i = 0; i !== nBindings; ++ i ) {\n\n\t\t\tbindings[ i ].apply( accuIndex );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the global mixer to a specific time and updates the animation accordingly.\n\t *\n\t * This is useful when you need to jump to an exact time in an animation. The\n\t * input parameter will be scaled by {@link AnimationMixer#timeScale}\n\t *\n\t * @param {number} time - The time to set in seconds.\n\t * @return {AnimationMixer} A reference to thi animation mixer.\n\t */\n\tsetTime( time ) {\n\n\t\tthis.time = 0; // Zero out time attribute for AnimationMixer object;\n\t\tfor ( let i = 0; i < this._actions.length; i ++ ) {\n\n\t\t\tthis._actions[ i ].time = 0; // Zero out time attribute for all associated AnimationAction objects.\n\n\t\t}\n\n\t\treturn this.update( time ); // Update used to set exact time. Returns \"this\" AnimationMixer object.\n\n\t}\n\n\t/**\n\t * Returns this mixer's root object.\n\t *\n\t * @return {Object3D} The mixer's root object.\n\t */\n\tgetRoot() {\n\n\t\treturn this._root;\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for a clip. Before using this method make\n\t * sure to call {@link AnimationAction#stop} for all related actions.\n\t *\n\t * @param {AnimationClip} clip - The clip to uncache.\n\t */\n\tuncacheClip( clip ) {\n\n\t\tconst actions = this._actions,\n\t\t\tclipUuid = clip.uuid,\n\t\t\tactionsByClip = this._actionsByClip,\n\t\t\tactionsForClip = actionsByClip[ clipUuid ];\n\n\t\tif ( actionsForClip !== undefined ) {\n\n\t\t\t// note: just calling _removeInactiveAction would mess up the\n\t\t\t// iteration state and also require updating the state we can\n\t\t\t// just throw away\n\n\t\t\tconst actionsToRemove = actionsForClip.knownActions;\n\n\t\t\tfor ( let i = 0, n = actionsToRemove.length; i !== n; ++ i ) {\n\n\t\t\t\tconst action = actionsToRemove[ i ];\n\n\t\t\t\tthis._deactivateAction( action );\n\n\t\t\t\tconst cacheIndex = action._cacheIndex,\n\t\t\t\t\tlastInactiveAction = actions[ actions.length - 1 ];\n\n\t\t\t\taction._cacheIndex = null;\n\t\t\t\taction._byClipCacheIndex = null;\n\n\t\t\t\tlastInactiveAction._cacheIndex = cacheIndex;\n\t\t\t\tactions[ cacheIndex ] = lastInactiveAction;\n\t\t\t\tactions.pop();\n\n\t\t\t\tthis._removeInactiveBindingsForAction( action );\n\n\t\t\t}\n\n\t\t\tdelete actionsByClip[ clipUuid ];\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for a root object. Before using this\n\t * method make sure to call {@link AnimationAction#stop} for all related\n\t * actions or alternatively {@link AnimationMixer#stopAllAction} when the\n\t * mixer operates on a single root.\n\t *\n\t * @param {Object3D} root - The root object to uncache.\n\t */\n\tuncacheRoot( root ) {\n\n\t\tconst rootUuid = root.uuid,\n\t\t\tactionsByClip = this._actionsByClip;\n\n\t\tfor ( const clipUuid in actionsByClip ) {\n\n\t\t\tconst actionByRoot = actionsByClip[ clipUuid ].actionByRoot,\n\t\t\t\taction = actionByRoot[ rootUuid ];\n\n\t\t\tif ( action !== undefined ) {\n\n\t\t\t\tthis._deactivateAction( action );\n\t\t\t\tthis._removeInactiveAction( action );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst bindingsByRoot = this._bindingsByRootAndName,\n\t\t\tbindingByName = bindingsByRoot[ rootUuid ];\n\n\t\tif ( bindingByName !== undefined ) {\n\n\t\t\tfor ( const trackName in bindingByName ) {\n\n\t\t\t\tconst binding = bindingByName[ trackName ];\n\t\t\t\tbinding.restoreOriginalState();\n\t\t\t\tthis._removeInactiveBinding( binding );\n\n\t\t\t}\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Deallocates all memory resources for an action. The action is identified by the\n\t * given clip and an optional root object. Before using this method make\n\t * sure to call {@link AnimationAction#stop} to deactivate the action.\n\t *\n\t * @param {AnimationClip|string} clip - An animation clip or alternatively the name of the animation clip.\n\t * @param {Object3D} [optionalRoot] - An alternative root object.\n\t */\n\tuncacheAction( clip, optionalRoot ) {\n\n\t\tconst action = this.existingAction( clip, optionalRoot );\n\n\t\tif ( action !== null ) {\n\n\t\t\tthis._deactivateAction( action );\n\t\t\tthis._removeInactiveAction( action );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * Represents a 3D render target.\n *\n * @augments RenderTarget\n */\nclass RenderTarget3D extends RenderTarget {\n\n\t/**\n\t * Constructs a new 3D render target.\n\t *\n\t * @param {number} [width=1] - The width of the render target.\n\t * @param {number} [height=1] - The height of the render target.\n\t * @param {number} [depth=1] - The height of the render target.\n\t * @param {RenderTarget~Options} [options] - The configuration object.\n\t */\n\tconstructor( width = 1, height = 1, depth = 1, options = {} ) {\n\n\t\tsuper( width, height, options );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isRenderTarget3D = true;\n\n\t\tthis.depth = depth;\n\n\t\t/**\n\t\t * Overwritten with a different texture type.\n\t\t *\n\t\t * @type {Data3DTexture}\n\t\t */\n\t\tthis.texture = new Data3DTexture( null, width, height, depth );\n\t\tthis._setTextureOptions( options );\n\n\t\tthis.texture.isRenderTargetTexture = true;\n\n\t}\n\n}\n\n/**\n * Represents a uniform which is a global shader variable. They are passed to shader programs.\n *\n * When declaring a uniform of a {@link ShaderMaterial}, it is declared by value or by object.\n * ```js\n * uniforms: {\n * \ttime: { value: 1.0 },\n * \tresolution: new Uniform( new Vector2() )\n * };\n * ```\n * Since this class can only be used in context of {@link ShaderMaterial}, it is only supported\n * in {@link WebGLRenderer}.\n */\nclass Uniform {\n\n\t/**\n\t * Constructs a new uniform.\n\t *\n\t * @param {any} value - The uniform value.\n\t */\n\tconstructor( value ) {\n\n\t\t/**\n\t\t * The uniform value.\n\t\t *\n\t\t * @type {any}\n\t\t */\n\t\tthis.value = value;\n\n\t}\n\n\t/**\n\t * Returns a new uniform with copied values from this instance.\n\t * If the value has a `clone()` method, the value is cloned as well.\n\t *\n\t * @return {Uniform} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new Uniform( this.value.clone === undefined ? this.value : this.value.clone() );\n\n\t}\n\n}\n\nlet _id = 0;\n\n/**\n * A class for managing multiple uniforms in a single group. The renderer will process\n * such a definition as a single UBO.\n *\n * Since this class can only be used in context of {@link ShaderMaterial}, it is only supported\n * in {@link WebGLRenderer}.\n *\n * @augments EventDispatcher\n */\nclass UniformsGroup extends EventDispatcher {\n\n\t/**\n\t * Constructs a new uniforms group.\n\t */\n\tconstructor() {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isUniformsGroup = true;\n\n\t\t/**\n\t\t * The ID of the 3D object.\n\t\t *\n\t\t * @name UniformsGroup#id\n\t\t * @type {number}\n\t\t * @readonly\n\t\t */\n\t\tObject.defineProperty( this, 'id', { value: _id ++ } );\n\n\t\t/**\n\t\t * The name of the uniforms group.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The buffer usage.\n\t\t *\n\t\t * @type {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)}\n\t\t * @default StaticDrawUsage\n\t\t */\n\t\tthis.usage = StaticDrawUsage;\n\n\t\t/**\n\t\t * An array holding the uniforms.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.uniforms = [];\n\n\t}\n\n\t/**\n\t * Adds the given uniform to this uniforms group.\n\t *\n\t * @param {Uniform} uniform - The uniform to add.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tadd( uniform ) {\n\n\t\tthis.uniforms.push( uniform );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Removes the given uniform from this uniforms group.\n\t *\n\t * @param {Uniform} uniform - The uniform to remove.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tremove( uniform ) {\n\n\t\tconst index = this.uniforms.indexOf( uniform );\n\n\t\tif ( index !== -1 ) this.uniforms.splice( index, 1 );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the name of this uniforms group.\n\t *\n\t * @param {string} name - The name to set.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tsetName( name ) {\n\n\t\tthis.name = name;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the usage of this uniforms group.\n\t *\n\t * @param {(StaticDrawUsage|DynamicDrawUsage|StreamDrawUsage|StaticReadUsage|DynamicReadUsage|StreamReadUsage|StaticCopyUsage|DynamicCopyUsage|StreamCopyUsage)} value - The usage to set.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tsetUsage( value ) {\n\n\t\tthis.usage = value;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t *\n\t * @fires Texture#dispose\n\t */\n\tdispose() {\n\n\t\tthis.dispatchEvent( { type: 'dispose' } );\n\n\t}\n\n\t/**\n\t * Copies the values of the given uniforms group to this instance.\n\t *\n\t * @param {UniformsGroup} source - The uniforms group to copy.\n\t * @return {UniformsGroup} A reference to this uniforms group.\n\t */\n\tcopy( source ) {\n\n\t\tthis.name = source.name;\n\t\tthis.usage = source.usage;\n\n\t\tconst uniformsSource = source.uniforms;\n\n\t\tthis.uniforms.length = 0;\n\n\t\tfor ( let i = 0, l = uniformsSource.length; i < l; i ++ ) {\n\n\t\t\tconst uniforms = Array.isArray( uniformsSource[ i ] ) ? uniformsSource[ i ] : [ uniformsSource[ i ] ];\n\n\t\t\tfor ( let j = 0; j < uniforms.length; j ++ ) {\n\n\t\t\t\tthis.uniforms.push( uniforms[ j ].clone() );\n\n\t\t\t}\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new uniforms group with copied values from this instance.\n\t *\n\t * @return {UniformsGroup} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * An instanced version of an interleaved buffer.\n *\n * @augments InterleavedBuffer\n */\nclass InstancedInterleavedBuffer extends InterleavedBuffer {\n\n\t/**\n\t * Constructs a new instanced interleaved buffer.\n\t *\n\t * @param {TypedArray} array - A typed array with a shared buffer storing attribute data.\n\t * @param {number} stride - The number of typed-array elements per vertex.\n\t * @param {number} [meshPerAttribute=1] - Defines how often a value of this interleaved buffer should be repeated.\n\t */\n\tconstructor( array, stride, meshPerAttribute = 1 ) {\n\n\t\tsuper( array, stride );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isInstancedInterleavedBuffer = true;\n\n\t\t/**\n\t\t * Defines how often a value of this buffer attribute should be repeated,\n\t\t * see {@link InstancedBufferAttribute#meshPerAttribute}.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.meshPerAttribute = meshPerAttribute;\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source );\n\n\t\tthis.meshPerAttribute = source.meshPerAttribute;\n\n\t\treturn this;\n\n\t}\n\n\tclone( data ) {\n\n\t\tconst ib = super.clone( data );\n\n\t\tib.meshPerAttribute = this.meshPerAttribute;\n\n\t\treturn ib;\n\n\t}\n\n\ttoJSON( data ) {\n\n\t\tconst json = super.toJSON( data );\n\n\t\tjson.isInstancedInterleavedBuffer = true;\n\t\tjson.meshPerAttribute = this.meshPerAttribute;\n\n\t\treturn json;\n\n\t}\n\n}\n\n/**\n * An alternative version of a buffer attribute with more control over the VBO.\n *\n * The renderer does not construct a VBO for this kind of attribute. Instead, it uses\n * whatever VBO is passed in constructor and can later be altered via the `buffer` property.\n *\n * The most common use case for this class is when some kind of GPGPU calculation interferes\n * or even produces the VBOs in question.\n *\n * Notice that this class can only be used with {@link WebGLRenderer}.\n */\nclass GLBufferAttribute {\n\n\t/**\n\t * Constructs a new GL buffer attribute.\n\t *\n\t * @param {WebGLBuffer} buffer - The native WebGL buffer.\n\t * @param {number} type - The native data type (e.g. `gl.FLOAT`).\n\t * @param {number} itemSize - The item size.\n\t * @param {number} elementSize - The corresponding size (in bytes) for the given `type` parameter.\n\t * @param {number} count - The expected number of vertices in VBO.\n\t * @param {boolean} [normalized=false] - Whether the data are normalized or not.\n\t */\n\tconstructor( buffer, type, itemSize, elementSize, count, normalized = false ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isGLBufferAttribute = true;\n\n\t\t/**\n\t\t * The name of the buffer attribute.\n\t\t *\n\t\t * @type {string}\n\t\t */\n\t\tthis.name = '';\n\n\t\t/**\n\t\t * The native WebGL buffer.\n\t\t *\n\t\t * @type {WebGLBuffer}\n\t\t */\n\t\tthis.buffer = buffer;\n\n\t\t/**\n\t\t * The native data type.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.type = type;\n\n\t\t/**\n\t\t * The item size, see {@link BufferAttribute#itemSize}.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.itemSize = itemSize;\n\n\t\t/**\n\t\t * The corresponding size (in bytes) for the given `type` parameter.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.elementSize = elementSize;\n\n\t\t/**\n\t\t * The expected number of vertices in VBO.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.count = count;\n\n\t\t/**\n\t\t * Applies to integer data only. Indicates how the underlying data in the buffer maps to\n\t\t * the values in the GLSL code. For instance, if `buffer` contains data of `gl.UNSIGNED_SHORT`,\n\t\t * and `normalized` is `true`, the values `0 - +65535` in the buffer data will be mapped to\n\t\t * `0.0f - +1.0f` in the GLSL attribute. If `normalized` is `false`, the values will be converted\n\t\t * to floats unmodified, i.e. `65535` becomes `65535.0f`.\n\t\t *\n\t\t * @type {boolean}\n\t\t */\n\t\tthis.normalized = normalized;\n\n\t\t/**\n\t\t * A version number, incremented every time the `needsUpdate` is set to `true`.\n\t\t *\n\t\t * @type {number}\n\t\t */\n\t\tthis.version = 0;\n\n\t}\n\n\t/**\n\t * Flag to indicate that this attribute has changed and should be re-sent to\n\t * the GPU. Set this to `true` when you modify the value of the array.\n\t *\n\t * @type {number}\n\t * @default false\n\t * @param {boolean} value\n\t */\n\tset needsUpdate( value ) {\n\n\t\tif ( value === true ) this.version ++;\n\n\t}\n\n\t/**\n\t * Sets the given native WebGL buffer.\n\t *\n\t * @param {WebGLBuffer} buffer - The buffer to set.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetBuffer( buffer ) {\n\n\t\tthis.buffer = buffer;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the given native data type and element size.\n\t *\n\t * @param {number} type - The native data type (e.g. `gl.FLOAT`).\n\t * @param {number} elementSize - The corresponding size (in bytes) for the given `type` parameter.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetType( type, elementSize ) {\n\n\t\tthis.type = type;\n\t\tthis.elementSize = elementSize;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the item size.\n\t *\n\t * @param {number} itemSize - The item size.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetItemSize( itemSize ) {\n\n\t\tthis.itemSize = itemSize;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the count (the expected number of vertices in VBO).\n\t *\n\t * @param {number} count - The count.\n\t * @return {BufferAttribute} A reference to this instance.\n\t */\n\tsetCount( count ) {\n\n\t\tthis.count = count;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _matrix = /*@__PURE__*/ new Matrix4();\n\n/**\n * This class is designed to assist with raycasting. Raycasting is used for\n * mouse picking (working out what objects in the 3d space the mouse is over)\n * amongst other things.\n */\nclass Raycaster {\n\n\t/**\n\t * Constructs a new raycaster.\n\t *\n\t * @param {Vector3} origin - The origin vector where the ray casts from.\n\t * @param {Vector3} direction - The (normalized) direction vector that gives direction to the ray.\n\t * @param {number} [near=0] - All results returned are further away than near. Near can't be negative.\n\t * @param {number} [far=Infinity] - All results returned are closer than far. Far can't be lower than near.\n\t */\n\tconstructor( origin, direction, near = 0, far = Infinity ) {\n\n\t\t/**\n\t\t * The ray used for raycasting.\n\t\t *\n\t\t * @type {Ray}\n\t\t */\n\t\tthis.ray = new Ray( origin, direction );\n\n\t\t/**\n\t\t * All results returned are further away than near. Near can't be negative.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.near = near;\n\n\t\t/**\n\t\t * All results returned are further away than near. Near can't be negative.\n\t\t *\n\t\t * @type {number}\n\t\t * @default Infinity\n\t\t */\n\t\tthis.far = far;\n\n\t\t/**\n\t\t * The camera to use when raycasting against view-dependent objects such as\n\t\t * billboarded objects like sprites. This field can be set manually or\n\t\t * is set when calling `setFromCamera()`.\n\t\t *\n\t\t * @type {?Camera}\n\t\t * @default null\n\t\t */\n\t\tthis.camera = null;\n\n\t\t/**\n\t\t * Allows to selectively ignore 3D objects when performing intersection tests.\n\t\t * The following code example ensures that only 3D objects on layer `1` will be\n\t\t * honored by raycaster.\n\t\t * ```js\n\t\t * raycaster.layers.set( 1 );\n\t\t * object.layers.enable( 1 );\n\t\t * ```\n\t\t *\n\t\t * @type {Layers}\n\t\t */\n\t\tthis.layers = new Layers();\n\n\n\t\t/**\n\t\t * A parameter object that configures the raycasting. It has the structure:\n\t\t *\n\t\t * ```\n\t\t * {\n\t\t * \tMesh: {},\n\t\t * \tLine: { threshold: 1 },\n\t\t * \tLOD: {},\n\t\t * \tPoints: { threshold: 1 },\n\t\t * \tSprite: {}\n\t\t * }\n\t\t * ```\n\t\t * Where `threshold` is the precision of the raycaster when intersecting objects, in world units.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.params = {\n\t\t\tMesh: {},\n\t\t\tLine: { threshold: 1 },\n\t\t\tLOD: {},\n\t\t\tPoints: { threshold: 1 },\n\t\t\tSprite: {}\n\t\t};\n\n\t}\n\n\t/**\n\t * Updates the ray with a new origin and direction by copying the values from the arguments.\n\t *\n\t * @param {Vector3} origin - The origin vector where the ray casts from.\n\t * @param {Vector3} direction - The (normalized) direction vector that gives direction to the ray.\n\t */\n\tset( origin, direction ) {\n\n\t\t// direction is assumed to be normalized (for accurate distance calculations)\n\n\t\tthis.ray.set( origin, direction );\n\n\t}\n\n\t/**\n\t * Uses the given coordinates and camera to compute a new origin and direction for the internal ray.\n\t *\n\t * @param {Vector2} coords - 2D coordinates of the mouse, in normalized device coordinates (NDC).\n\t * X and Y components should be between `-1` and `1`.\n\t * @param {Camera} camera - The camera from which the ray should originate.\n\t */\n\tsetFromCamera( coords, camera ) {\n\n\t\tif ( camera.isPerspectiveCamera ) {\n\n\t\t\tthis.ray.origin.setFromMatrixPosition( camera.matrixWorld );\n\t\t\tthis.ray.direction.set( coords.x, coords.y, 0.5 ).unproject( camera ).sub( this.ray.origin ).normalize();\n\t\t\tthis.camera = camera;\n\n\t\t} else if ( camera.isOrthographicCamera ) {\n\n\t\t\tthis.ray.origin.set( coords.x, coords.y, ( camera.near + camera.far ) / ( camera.near - camera.far ) ).unproject( camera ); // set origin in plane of camera\n\t\t\tthis.ray.direction.set( 0, 0, -1 ).transformDirection( camera.matrixWorld );\n\t\t\tthis.camera = camera;\n\n\t\t} else {\n\n\t\t\tconsole.error( 'THREE.Raycaster: Unsupported camera type: ' + camera.type );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Uses the given WebXR controller to compute a new origin and direction for the internal ray.\n\t *\n\t * @param {WebXRController} controller - The controller to copy the position and direction from.\n\t * @return {Raycaster} A reference to this raycaster.\n\t */\n\tsetFromXRController( controller ) {\n\n\t\t_matrix.identity().extractRotation( controller.matrixWorld );\n\n\t\tthis.ray.origin.setFromMatrixPosition( controller.matrixWorld );\n\t\tthis.ray.direction.set( 0, 0, -1 ).applyMatrix4( _matrix );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * The intersection point of a raycaster intersection test.\n\t * @typedef {Object} Raycaster~Intersection\n\t * @property {number} distance - The distance from the ray's origin to the intersection point.\n\t * @property {number} distanceToRay - Some 3D objects e.g. {@link Points} provide the distance of the\n\t * intersection to the nearest point on the ray. For other objects it will be `undefined`.\n\t * @property {Vector3} point - The intersection point, in world coordinates.\n\t * @property {Object} face - The face that has been intersected.\n\t * @property {number} faceIndex - The face index.\n\t * @property {Object3D} object - The 3D object that has been intersected.\n\t * @property {Vector2} uv - U,V coordinates at point of intersection.\n\t * @property {Vector2} uv1 - Second set of U,V coordinates at point of intersection.\n\t * @property {Vector3} uv1 - Interpolated normal vector at point of intersection.\n\t * @property {number} instanceId - The index number of the instance where the ray\n\t * intersects the {@link InstancedMesh}.\n\t */\n\n\t/**\n\t * Checks all intersection between the ray and the object with or without the\n\t * descendants. Intersections are returned sorted by distance, closest first.\n\t *\n\t * `Raycaster` delegates to the `raycast()` method of the passed 3D object, when\n\t * evaluating whether the ray intersects the object or not. This allows meshes to respond\n\t * differently to ray casting than lines or points.\n\t *\n\t * Note that for meshes, faces must be pointed towards the origin of the ray in order\n\t * to be detected; intersections of the ray passing through the back of a face will not\n\t * be detected. To raycast against both faces of an object, you'll want to set {@link Material#side}\n\t * to `THREE.DoubleSide`.\n\t *\n\t * @param {Object3D} object - The 3D object to check for intersection with the ray.\n\t * @param {boolean} [recursive=true] - If set to `true`, it also checks all descendants.\n\t * Otherwise it only checks intersection with the object.\n\t * @param {Array} [intersects=[]] The target array that holds the result of the method.\n\t * @return {Array} An array holding the intersection points.\n\t */\n\tintersectObject( object, recursive = true, intersects = [] ) {\n\n\t\tintersect( object, this, intersects, recursive );\n\n\t\tintersects.sort( ascSort );\n\n\t\treturn intersects;\n\n\t}\n\n\t/**\n\t * Checks all intersection between the ray and the objects with or without\n\t * the descendants. Intersections are returned sorted by distance, closest first.\n\t *\n\t * @param {Array} objects - The 3D objects to check for intersection with the ray.\n\t * @param {boolean} [recursive=true] - If set to `true`, it also checks all descendants.\n\t * Otherwise it only checks intersection with the object.\n\t * @param {Array} [intersects=[]] The target array that holds the result of the method.\n\t * @return {Array} An array holding the intersection points.\n\t */\n\tintersectObjects( objects, recursive = true, intersects = [] ) {\n\n\t\tfor ( let i = 0, l = objects.length; i < l; i ++ ) {\n\n\t\t\tintersect( objects[ i ], this, intersects, recursive );\n\n\t\t}\n\n\t\tintersects.sort( ascSort );\n\n\t\treturn intersects;\n\n\t}\n\n}\n\nfunction ascSort( a, b ) {\n\n\treturn a.distance - b.distance;\n\n}\n\nfunction intersect( object, raycaster, intersects, recursive ) {\n\n\tlet propagate = true;\n\n\tif ( object.layers.test( raycaster.layers ) ) {\n\n\t\tconst result = object.raycast( raycaster, intersects );\n\n\t\tif ( result === false ) propagate = false;\n\n\t}\n\n\tif ( propagate === true && recursive === true ) {\n\n\t\tconst children = object.children;\n\n\t\tfor ( let i = 0, l = children.length; i < l; i ++ ) {\n\n\t\t\tintersect( children[ i ], raycaster, intersects, true );\n\n\t\t}\n\n\t}\n\n}\n\n/**\n * This class is an alternative to {@link Clock} with a different API design and behavior.\n * The goal is to avoid the conceptual flaws that became apparent in `Clock` over time.\n *\n * - `Timer` has an `update()` method that updates its internal state. That makes it possible to\n * call `getDelta()` and `getElapsed()` multiple times per simulation step without getting different values.\n * - The class can make use of the Page Visibility API to avoid large time delta values when the app\n * is inactive (e.g. tab switched or browser hidden).\n *\n * ```js\n * const timer = new Timer();\n * timer.connect( document ); // use Page Visibility API\n * ```\n */\nclass Timer {\n\n\t/**\n\t * Constructs a new timer.\n\t */\n\tconstructor() {\n\n\t\tthis._previousTime = 0;\n\t\tthis._currentTime = 0;\n\t\tthis._startTime = performance.now();\n\n\t\tthis._delta = 0;\n\t\tthis._elapsed = 0;\n\n\t\tthis._timescale = 1;\n\n\t\tthis._document = null;\n\t\tthis._pageVisibilityHandler = null;\n\n\t}\n\n\t/**\n\t * Connect the timer to the given document.Calling this method is not mandatory to\n\t * use the timer but enables the usage of the Page Visibility API to avoid large time\n\t * delta values.\n\t *\n\t * @param {Document} document - The document.\n\t */\n\tconnect( document ) {\n\n\t\tthis._document = document;\n\n\t\t// use Page Visibility API to avoid large time delta values\n\n\t\tif ( document.hidden !== undefined ) {\n\n\t\t\tthis._pageVisibilityHandler = handleVisibilityChange.bind( this );\n\n\t\t\tdocument.addEventListener( 'visibilitychange', this._pageVisibilityHandler, false );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Disconnects the timer from the DOM and also disables the usage of the Page Visibility API.\n\t */\n\tdisconnect() {\n\n\t\tif ( this._pageVisibilityHandler !== null ) {\n\n\t\t\tthis._document.removeEventListener( 'visibilitychange', this._pageVisibilityHandler );\n\t\t\tthis._pageVisibilityHandler = null;\n\n\t\t}\n\n\t\tthis._document = null;\n\n\t}\n\n\t/**\n\t * Returns the time delta in seconds.\n\t *\n\t * @return {number} The time delta in second.\n\t */\n\tgetDelta() {\n\n\t\treturn this._delta / 1000;\n\n\t}\n\n\t/**\n\t * Returns the elapsed time in seconds.\n\t *\n\t * @return {number} The elapsed time in second.\n\t */\n\tgetElapsed() {\n\n\t\treturn this._elapsed / 1000;\n\n\t}\n\n\t/**\n\t * Returns the timescale.\n\t *\n\t * @return {number} The timescale.\n\t */\n\tgetTimescale() {\n\n\t\treturn this._timescale;\n\n\t}\n\n\t/**\n\t * Sets the given timescale which scale the time delta computation\n\t * in `update()`.\n\t *\n\t * @param {number} timescale - The timescale to set.\n\t * @return {Timer} A reference to this timer.\n\t */\n\tsetTimescale( timescale ) {\n\n\t\tthis._timescale = timescale;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Resets the time computation for the current simulation step.\n\t *\n\t * @return {Timer} A reference to this timer.\n\t */\n\treset() {\n\n\t\tthis._currentTime = performance.now() - this._startTime;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Can be used to free all internal resources. Usually called when\n\t * the timer instance isn't required anymore.\n\t */\n\tdispose() {\n\n\t\tthis.disconnect();\n\n\t}\n\n\t/**\n\t * Updates the internal state of the timer. This method should be called\n\t * once per simulation step and before you perform queries against the timer\n\t * (e.g. via `getDelta()`).\n\t *\n\t * @param {number} timestamp - The current time in milliseconds. Can be obtained\n\t * from the `requestAnimationFrame` callback argument. If not provided, the current\n\t * time will be determined with `performance.now`.\n\t * @return {Timer} A reference to this timer.\n\t */\n\tupdate( timestamp ) {\n\n\t\tif ( this._pageVisibilityHandler !== null && this._document.hidden === true ) {\n\n\t\t\tthis._delta = 0;\n\n\t\t} else {\n\n\t\t\tthis._previousTime = this._currentTime;\n\t\t\tthis._currentTime = ( timestamp !== undefined ? timestamp : performance.now() ) - this._startTime;\n\n\t\t\tthis._delta = ( this._currentTime - this._previousTime ) * this._timescale;\n\t\t\tthis._elapsed += this._delta; // _elapsed is the accumulation of all previous deltas\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n}\n\nfunction handleVisibilityChange() {\n\n\tif ( this._document.hidden === false ) this.reset();\n\n}\n\n/**\n * This class can be used to represent points in 3D space as\n * [Spherical coordinates]{@link https://en.wikipedia.org/wiki/Spherical_coordinate_system}.\n */\nclass Spherical {\n\n\t/**\n\t * Constructs a new spherical.\n\t *\n\t * @param {number} [radius=1] - The radius, or the Euclidean distance (straight-line distance) from the point to the origin.\n\t * @param {number} [phi=0] - The polar angle in radians from the y (up) axis.\n\t * @param {number} [theta=0] - The equator/azimuthal angle in radians around the y (up) axis.\n\t */\n\tconstructor( radius = 1, phi = 0, theta = 0 ) {\n\n\t\t/**\n\t\t * The radius, or the Euclidean distance (straight-line distance) from the point to the origin.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.radius = radius;\n\n\t\t/**\n\t\t * The polar angle in radians from the y (up) axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.phi = phi;\n\n\t\t/**\n\t\t * The equator/azimuthal angle in radians around the y (up) axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.theta = theta;\n\n\t}\n\n\t/**\n\t * Sets the spherical components by copying the given values.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} phi - The polar angle.\n\t * @param {number} theta - The azimuthal angle.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tset( radius, phi, theta ) {\n\n\t\tthis.radius = radius;\n\t\tthis.phi = phi;\n\t\tthis.theta = theta;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given spherical to this instance.\n\t *\n\t * @param {Spherical} other - The spherical to copy.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tcopy( other ) {\n\n\t\tthis.radius = other.radius;\n\t\tthis.phi = other.phi;\n\t\tthis.theta = other.theta;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Restricts the polar angle [page:.phi phi] to be between `0.000001` and pi -\n\t * `0.000001`.\n\t *\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tmakeSafe() {\n\n\t\tconst EPS = 0.000001;\n\t\tthis.phi = clamp( this.phi, EPS, Math.PI - EPS );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the spherical components from the given vector which is assumed to hold\n\t * Cartesian coordinates.\n\t *\n\t * @param {Vector3} v - The vector to set.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tsetFromVector3( v ) {\n\n\t\treturn this.setFromCartesianCoords( v.x, v.y, v.z );\n\n\t}\n\n\t/**\n\t * Sets the spherical components from the given Cartesian coordinates.\n\t *\n\t * @param {number} x - The x value.\n\t * @param {number} y - The y value.\n\t * @param {number} z - The z value.\n\t * @return {Spherical} A reference to this spherical.\n\t */\n\tsetFromCartesianCoords( x, y, z ) {\n\n\t\tthis.radius = Math.sqrt( x * x + y * y + z * z );\n\n\t\tif ( this.radius === 0 ) {\n\n\t\t\tthis.theta = 0;\n\t\t\tthis.phi = 0;\n\n\t\t} else {\n\n\t\t\tthis.theta = Math.atan2( x, z );\n\t\t\tthis.phi = Math.acos( clamp( y / this.radius, -1, 1 ) );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new spherical with copied values from this instance.\n\t *\n\t * @return {Spherical} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * This class can be used to represent points in 3D space as\n * [Cylindrical coordinates]{@link https://en.wikipedia.org/wiki/Cylindrical_coordinate_system}.\n */\nclass Cylindrical {\n\n\t/**\n\t * Constructs a new cylindrical.\n\t *\n\t * @param {number} [radius=1] - The distance from the origin to a point in the x-z plane.\n\t * @param {number} [theta=0] - A counterclockwise angle in the x-z plane measured in radians from the positive z-axis.\n\t * @param {number} [y=0] - The height above the x-z plane.\n\t */\n\tconstructor( radius = 1, theta = 0, y = 0 ) {\n\n\t\t/**\n\t\t * The distance from the origin to a point in the x-z plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.radius = radius;\n\n\t\t/**\n\t\t * A counterclockwise angle in the x-z plane measured in radians from the positive z-axis.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.theta = theta;\n\n\t\t/**\n\t\t * The height above the x-z plane.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 0\n\t\t */\n\t\tthis.y = y;\n\n\t}\n\n\t/**\n\t * Sets the cylindrical components by copying the given values.\n\t *\n\t * @param {number} radius - The radius.\n\t * @param {number} theta - The theta angle.\n\t * @param {number} y - The height value.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tset( radius, theta, y ) {\n\n\t\tthis.radius = radius;\n\t\tthis.theta = theta;\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given cylindrical to this instance.\n\t *\n\t * @param {Cylindrical} other - The cylindrical to copy.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tcopy( other ) {\n\n\t\tthis.radius = other.radius;\n\t\tthis.theta = other.theta;\n\t\tthis.y = other.y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the cylindrical components from the given vector which is assumed to hold\n\t * Cartesian coordinates.\n\t *\n\t * @param {Vector3} v - The vector to set.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tsetFromVector3( v ) {\n\n\t\treturn this.setFromCartesianCoords( v.x, v.y, v.z );\n\n\t}\n\n\t/**\n\t * Sets the cylindrical components from the given Cartesian coordinates.\n\t *\n\t * @param {number} x - The x value.\n\t * @param {number} y - The x value.\n\t * @param {number} z - The x value.\n\t * @return {Cylindrical} A reference to this cylindrical.\n\t */\n\tsetFromCartesianCoords( x, y, z ) {\n\n\t\tthis.radius = Math.sqrt( x * x + z * z );\n\t\tthis.theta = Math.atan2( x, z );\n\t\tthis.y = y;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new cylindrical with copied values from this instance.\n\t *\n\t * @return {Cylindrical} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\n/**\n * Represents a 2x2 matrix.\n *\n * A Note on Row-Major and Column-Major Ordering:\n *\n * The constructor and {@link Matrix2#set} method take arguments in\n * [row-major]{@link https://en.wikipedia.org/wiki/Row-_and_column-major_order#Column-major_order}\n * order, while internally they are stored in the {@link Matrix2#elements} array in column-major order.\n * This means that calling:\n * ```js\n * const m = new THREE.Matrix2();\n * m.set( 11, 12,\n * 21, 22 );\n * ```\n * will result in the elements array containing:\n * ```js\n * m.elements = [ 11, 21,\n * 12, 22 ];\n * ```\n * and internally all calculations are performed using column-major ordering.\n * However, as the actual ordering makes no difference mathematically and\n * most people are used to thinking about matrices in row-major order, the\n * three.js documentation shows matrices in row-major order. Just bear in\n * mind that if you are reading the source code, you'll have to take the\n * transpose of any matrices outlined here to make sense of the calculations.\n */\nclass Matrix2 {\n\n\t/**\n\t * Constructs a new 2x2 matrix. The arguments are supposed to be\n\t * in row-major order. If no arguments are provided, the constructor\n\t * initializes the matrix as an identity matrix.\n\t *\n\t * @param {number} [n11] - 1-1 matrix element.\n\t * @param {number} [n12] - 1-2 matrix element.\n\t * @param {number} [n21] - 2-1 matrix element.\n\t * @param {number} [n22] - 2-2 matrix element.\n\t */\n\tconstructor( n11, n12, n21, n22 ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tMatrix2.prototype.isMatrix2 = true;\n\n\t\t/**\n\t\t * A column-major list of matrix values.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.elements = [\n\t\t\t1, 0,\n\t\t\t0, 1,\n\t\t];\n\n\t\tif ( n11 !== undefined ) {\n\n\t\t\tthis.set( n11, n12, n21, n22 );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets this matrix to the 2x2 identity matrix.\n\t *\n\t * @return {Matrix2} A reference to this matrix.\n\t */\n\tidentity() {\n\n\t\tthis.set(\n\t\t\t1, 0,\n\t\t\t0, 1,\n\t\t);\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix from the given array.\n\t *\n\t * @param {Array} array - The matrix elements in column-major order.\n\t * @param {number} [offset=0] - Index of the first element in the array.\n\t * @return {Matrix2} A reference to this matrix.\n\t */\n\tfromArray( array, offset = 0 ) {\n\n\t\tfor ( let i = 0; i < 4; i ++ ) {\n\n\t\t\tthis.elements[ i ] = array[ i + offset ];\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the elements of the matrix.The arguments are supposed to be\n\t * in row-major order.\n\t *\n\t * @param {number} n11 - 1-1 matrix element.\n\t * @param {number} n12 - 1-2 matrix element.\n\t * @param {number} n21 - 2-1 matrix element.\n\t * @param {number} n22 - 2-2 matrix element.\n\t * @return {Matrix2} A reference to this matrix.\n\t */\n\tset( n11, n12, n21, n22 ) {\n\n\t\tconst te = this.elements;\n\n\t\tte[ 0 ] = n11; te[ 2 ] = n12;\n\t\tte[ 1 ] = n21; te[ 3 ] = n22;\n\n\t\treturn this;\n\n\t}\n\n}\n\nconst _vector$4 = /*@__PURE__*/ new Vector2();\n\n/**\n * Represents an axis-aligned bounding box (AABB) in 2D space.\n */\nclass Box2 {\n\n\t/**\n\t * Constructs a new bounding box.\n\t *\n\t * @param {Vector2} [min=(Infinity,Infinity)] - A vector representing the lower boundary of the box.\n\t * @param {Vector2} [max=(-Infinity,-Infinity)] - A vector representing the upper boundary of the box.\n\t */\n\tconstructor( min = new Vector2( + Infinity, + Infinity ), max = new Vector2( - Infinity, - Infinity ) ) {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isBox2 = true;\n\n\t\t/**\n\t\t * The lower boundary of the box.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.min = min;\n\n\t\t/**\n\t\t * The upper boundary of the box.\n\t\t *\n\t\t * @type {Vector2}\n\t\t */\n\t\tthis.max = max;\n\n\t}\n\n\t/**\n\t * Sets the lower and upper boundaries of this box.\n\t * Please note that this method only copies the values from the given objects.\n\t *\n\t * @param {Vector2} min - The lower boundary of the box.\n\t * @param {Vector2} max - The upper boundary of the box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tset( min, max ) {\n\n\t\tthis.min.copy( min );\n\t\tthis.max.copy( max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Sets the upper and lower bounds of this box so it encloses the position data\n\t * in the given array.\n\t *\n\t * @param {Array} points - An array holding 2D position data as instances of {@link Vector2}.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tsetFromPoints( points ) {\n\n\t\tthis.makeEmpty();\n\n\t\tfor ( let i = 0, il = points.length; i < il; i ++ ) {\n\n\t\t\tthis.expandByPoint( points[ i ] );\n\n\t\t}\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Centers this box on the given center vector and sets this box's width, height and\n\t * depth to the given size values.\n\t *\n\t * @param {Vector2} center - The center of the box.\n\t * @param {Vector2} size - The x and y dimensions of the box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tsetFromCenterAndSize( center, size ) {\n\n\t\tconst halfSize = _vector$4.copy( size ).multiplyScalar( 0.5 );\n\t\tthis.min.copy( center ).sub( halfSize );\n\t\tthis.max.copy( center ).add( halfSize );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns a new box with copied values from this instance.\n\t *\n\t * @return {Box2} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n\t/**\n\t * Copies the values of the given box to this instance.\n\t *\n\t * @param {Box2} box - The box to copy.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tcopy( box ) {\n\n\t\tthis.min.copy( box.min );\n\t\tthis.max.copy( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Makes this box empty which means in encloses a zero space in 2D.\n\t *\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tmakeEmpty() {\n\n\t\tthis.min.x = this.min.y = + Infinity;\n\t\tthis.max.x = this.max.y = - Infinity;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns true if this box includes zero points within its bounds.\n\t * Note that a box with equal lower and upper bounds still includes one\n\t * point, the one both bounds share.\n\t *\n\t * @return {boolean} Whether this box is empty or not.\n\t */\n\tisEmpty() {\n\n\t\t// this is a more robust check for empty than ( volume <= 0 ) because volume can get positive with two negative axes\n\n\t\treturn ( this.max.x < this.min.x ) || ( this.max.y < this.min.y );\n\n\t}\n\n\t/**\n\t * Returns the center point of this box.\n\t *\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} The center point.\n\t */\n\tgetCenter( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0 ) : target.addVectors( this.min, this.max ).multiplyScalar( 0.5 );\n\n\t}\n\n\t/**\n\t * Returns the dimensions of this box.\n\t *\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} The size.\n\t */\n\tgetSize( target ) {\n\n\t\treturn this.isEmpty() ? target.set( 0, 0 ) : target.subVectors( this.max, this.min );\n\n\t}\n\n\t/**\n\t * Expands the boundaries of this box to include the given point.\n\t *\n\t * @param {Vector2} point - The point that should be included by the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\texpandByPoint( point ) {\n\n\t\tthis.min.min( point );\n\t\tthis.max.max( point );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands this box equilaterally by the given vector. The width of this\n\t * box will be expanded by the x component of the vector in both\n\t * directions. The height of this box will be expanded by the y component of\n\t * the vector in both directions.\n\t *\n\t * @param {Vector2} vector - The vector that should expand the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\texpandByVector( vector ) {\n\n\t\tthis.min.sub( vector );\n\t\tthis.max.add( vector );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Expands each dimension of the box by the given scalar. If negative, the\n\t * dimensions of the box will be contracted.\n\t *\n\t * @param {number} scalar - The scalar value that should expand the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\texpandByScalar( scalar ) {\n\n\t\tthis.min.addScalar( - scalar );\n\t\tthis.max.addScalar( scalar );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if the given point lies within or on the boundaries of this box.\n\t *\n\t * @param {Vector2} point - The point to test.\n\t * @return {boolean} Whether the bounding box contains the given point or not.\n\t */\n\tcontainsPoint( point ) {\n\n\t\treturn point.x >= this.min.x && point.x <= this.max.x &&\n\t\t\tpoint.y >= this.min.y && point.y <= this.max.y;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box includes the entirety of the given bounding box.\n\t * If this box and the given one are identical, this function also returns `true`.\n\t *\n\t * @param {Box2} box - The bounding box to test.\n\t * @return {boolean} Whether the bounding box contains the given bounding box or not.\n\t */\n\tcontainsBox( box ) {\n\n\t\treturn this.min.x <= box.min.x && box.max.x <= this.max.x &&\n\t\t\tthis.min.y <= box.min.y && box.max.y <= this.max.y;\n\n\t}\n\n\t/**\n\t * Returns a point as a proportion of this box's width and height.\n\t *\n\t * @param {Vector2} point - A point in 2D space.\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} A point as a proportion of this box's width and height.\n\t */\n\tgetParameter( point, target ) {\n\n\t\t// This can potentially have a divide by zero if the box\n\t\t// has a size dimension of 0.\n\n\t\treturn target.set(\n\t\t\t( point.x - this.min.x ) / ( this.max.x - this.min.x ),\n\t\t\t( point.y - this.min.y ) / ( this.max.y - this.min.y )\n\t\t);\n\n\t}\n\n\t/**\n\t * Returns `true` if the given bounding box intersects with this bounding box.\n\t *\n\t * @param {Box2} box - The bounding box to test.\n\t * @return {boolean} Whether the given bounding box intersects with this bounding box.\n\t */\n\tintersectsBox( box ) {\n\n\t\t// using 4 splitting planes to rule out intersections\n\n\t\treturn box.max.x >= this.min.x && box.min.x <= this.max.x &&\n\t\t\tbox.max.y >= this.min.y && box.min.y <= this.max.y;\n\n\t}\n\n\t/**\n\t * Clamps the given point within the bounds of this box.\n\t *\n\t * @param {Vector2} point - The point to clamp.\n\t * @param {Vector2} target - The target vector that is used to store the method's result.\n\t * @return {Vector2} The clamped point.\n\t */\n\tclampPoint( point, target ) {\n\n\t\treturn target.copy( point ).clamp( this.min, this.max );\n\n\t}\n\n\t/**\n\t * Returns the euclidean distance from any edge of this box to the specified point. If\n\t * the given point lies inside of this box, the distance will be `0`.\n\t *\n\t * @param {Vector2} point - The point to compute the distance to.\n\t * @return {number} The euclidean distance.\n\t */\n\tdistanceToPoint( point ) {\n\n\t\treturn this.clampPoint( point, _vector$4 ).distanceTo( point );\n\n\t}\n\n\t/**\n\t * Computes the intersection of this bounding box and the given one, setting the upper\n\t * bound of this box to the lesser of the two boxes' upper bounds and the\n\t * lower bound of this box to the greater of the two boxes' lower bounds. If\n\t * there's no overlap, makes this box empty.\n\t *\n\t * @param {Box2} box - The bounding box to intersect with.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tintersect( box ) {\n\n\t\tthis.min.max( box.min );\n\t\tthis.max.min( box.max );\n\n\t\tif ( this.isEmpty() ) this.makeEmpty();\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Computes the union of this box and another and the given one, setting the upper\n\t * bound of this box to the greater of the two boxes' upper bounds and the\n\t * lower bound of this box to the lesser of the two boxes' lower bounds.\n\t *\n\t * @param {Box2} box - The bounding box that will be unioned with this instance.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\tunion( box ) {\n\n\t\tthis.min.min( box.min );\n\t\tthis.max.max( box.max );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds the given offset to both the upper and lower bounds of this bounding box,\n\t * effectively moving it in 2D space.\n\t *\n\t * @param {Vector2} offset - The offset that should be used to translate the bounding box.\n\t * @return {Box2} A reference to this bounding box.\n\t */\n\ttranslate( offset ) {\n\n\t\tthis.min.add( offset );\n\t\tthis.max.add( offset );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this bounding box is equal with the given one.\n\t *\n\t * @param {Box2} box - The box to test for equality.\n\t * @return {boolean} Whether this bounding box is equal with the given one.\n\t */\n\tequals( box ) {\n\n\t\treturn box.min.equals( this.min ) && box.max.equals( this.max );\n\n\t}\n\n}\n\nconst _startP = /*@__PURE__*/ new Vector3();\nconst _startEnd = /*@__PURE__*/ new Vector3();\n\nconst _d1 = /*@__PURE__*/ new Vector3();\nconst _d2 = /*@__PURE__*/ new Vector3();\nconst _r = /*@__PURE__*/ new Vector3();\nconst _c1 = /*@__PURE__*/ new Vector3();\nconst _c2 = /*@__PURE__*/ new Vector3();\n\n/**\n * An analytical line segment in 3D space represented by a start and end point.\n */\nclass Line3 {\n\n\t/**\n\t * Constructs a new line segment.\n\t *\n\t * @param {Vector3} [start=(0,0,0)] - Start of the line segment.\n\t * @param {Vector3} [end=(0,0,0)] - End of the line segment.\n\t */\n\tconstructor( start = new Vector3(), end = new Vector3() ) {\n\n\t\t/**\n\t\t * Start of the line segment.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.start = start;\n\n\t\t/**\n\t\t * End of the line segment.\n\t\t *\n\t\t * @type {Vector3}\n\t\t */\n\t\tthis.end = end;\n\n\t}\n\n\t/**\n\t * Sets the start and end values by copying the given vectors.\n\t *\n\t * @param {Vector3} start - The start point.\n\t * @param {Vector3} end - The end point.\n\t * @return {Line3} A reference to this line segment.\n\t */\n\tset( start, end ) {\n\n\t\tthis.start.copy( start );\n\t\tthis.end.copy( end );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Copies the values of the given line segment to this instance.\n\t *\n\t * @param {Line3} line - The line segment to copy.\n\t * @return {Line3} A reference to this line segment.\n\t */\n\tcopy( line ) {\n\n\t\tthis.start.copy( line.start );\n\t\tthis.end.copy( line.end );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns the center of the line segment.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The center point.\n\t */\n\tgetCenter( target ) {\n\n\t\treturn target.addVectors( this.start, this.end ).multiplyScalar( 0.5 );\n\n\t}\n\n\t/**\n\t * Returns the delta vector of the line segment's start and end point.\n\t *\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The delta vector.\n\t */\n\tdelta( target ) {\n\n\t\treturn target.subVectors( this.end, this.start );\n\n\t}\n\n\t/**\n\t * Returns the squared Euclidean distance between the line' start and end point.\n\t *\n\t * @return {number} The squared Euclidean distance.\n\t */\n\tdistanceSq() {\n\n\t\treturn this.start.distanceToSquared( this.end );\n\n\t}\n\n\t/**\n\t * Returns the Euclidean distance between the line' start and end point.\n\t *\n\t * @return {number} The Euclidean distance.\n\t */\n\tdistance() {\n\n\t\treturn this.start.distanceTo( this.end );\n\n\t}\n\n\t/**\n\t * Returns a vector at a certain position along the line segment.\n\t *\n\t * @param {number} t - A value between `[0,1]` to represent a position along the line segment.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The delta vector.\n\t */\n\tat( t, target ) {\n\n\t\treturn this.delta( target ).multiplyScalar( t ).add( this.start );\n\n\t}\n\n\t/**\n\t * Returns a point parameter based on the closest point as projected on the line segment.\n\t *\n\t * @param {Vector3} point - The point for which to return a point parameter.\n\t * @param {boolean} clampToLine - Whether to clamp the result to the range `[0,1]` or not.\n\t * @return {number} The point parameter.\n\t */\n\tclosestPointToPointParameter( point, clampToLine ) {\n\n\t\t_startP.subVectors( point, this.start );\n\t\t_startEnd.subVectors( this.end, this.start );\n\n\t\tconst startEnd2 = _startEnd.dot( _startEnd );\n\t\tconst startEnd_startP = _startEnd.dot( _startP );\n\n\t\tlet t = startEnd_startP / startEnd2;\n\n\t\tif ( clampToLine ) {\n\n\t\t\tt = clamp( t, 0, 1 );\n\n\t\t}\n\n\t\treturn t;\n\n\t}\n\n\t/**\n\t * Returns the closest point on the line for a given point.\n\t *\n\t * @param {Vector3} point - The point to compute the closest point on the line for.\n\t * @param {boolean} clampToLine - Whether to clamp the result to the range `[0,1]` or not.\n\t * @param {Vector3} target - The target vector that is used to store the method's result.\n\t * @return {Vector3} The closest point on the line.\n\t */\n\tclosestPointToPoint( point, clampToLine, target ) {\n\n\t\tconst t = this.closestPointToPointParameter( point, clampToLine );\n\n\t\treturn this.delta( target ).multiplyScalar( t ).add( this.start );\n\n\t}\n\n\t/**\n\t * Returns the closest squared distance between this line segment and the given one.\n\t *\n\t * @param {Line3} line - The line segment to compute the closest squared distance to.\n\t * @param {Vector3} [c1] - The closest point on this line segment.\n\t * @param {Vector3} [c2] - The closest point on the given line segment.\n\t * @return {number} The squared distance between this line segment and the given one.\n\t */\n\tdistanceSqToLine3( line, c1 = _c1, c2 = _c2 ) {\n\n\t\t// from Real-Time Collision Detection by Christer Ericson, chapter 5.1.9\n\n\t\t// Computes closest points C1 and C2 of S1(s)=P1+s*(Q1-P1) and\n\t\t// S2(t)=P2+t*(Q2-P2), returning s and t. Function result is squared\n\t\t// distance between between S1(s) and S2(t)\n\n\t\tconst EPSILON = 1e-8 * 1e-8; // must be squared since we compare squared length\n\t\tlet s, t;\n\n\t\tconst p1 = this.start;\n\t\tconst p2 = line.start;\n\t\tconst q1 = this.end;\n\t\tconst q2 = line.end;\n\n\t\t_d1.subVectors( q1, p1 ); // Direction vector of segment S1\n\t\t_d2.subVectors( q2, p2 ); // Direction vector of segment S2\n\t\t_r.subVectors( p1, p2 );\n\n\t\tconst a = _d1.dot( _d1 ); // Squared length of segment S1, always nonnegative\n\t\tconst e = _d2.dot( _d2 ); // Squared length of segment S2, always nonnegative\n\t\tconst f = _d2.dot( _r );\n\n\t\t// Check if either or both segments degenerate into points\n\n\t\tif ( a <= EPSILON && e <= EPSILON ) {\n\n\t\t\t// Both segments degenerate into points\n\n\t\t\tc1.copy( p1 );\n\t\t\tc2.copy( p2 );\n\n\t\t\tc1.sub( c2 );\n\n\t\t\treturn c1.dot( c1 );\n\n\t\t}\n\n\t\tif ( a <= EPSILON ) {\n\n\t\t\t// First segment degenerates into a point\n\n\t\t\ts = 0;\n\t\t\tt = f / e; // s = 0 => t = (b*s + f) / e = f / e\n\t\t\tt = clamp( t, 0, 1 );\n\n\n\t\t} else {\n\n\t\t\tconst c = _d1.dot( _r );\n\n\t\t\tif ( e <= EPSILON ) {\n\n\t\t\t\t// Second segment degenerates into a point\n\n\t\t\t\tt = 0;\n\t\t\t\ts = clamp( - c / a, 0, 1 ); // t = 0 => s = (b*t - c) / a = -c / a\n\n\t\t\t} else {\n\n\t\t\t\t// The general nondegenerate case starts here\n\n\t\t\t\tconst b = _d1.dot( _d2 );\n\t\t\t\tconst denom = a * e - b * b; // Always nonnegative\n\n\t\t\t\t// If segments not parallel, compute closest point on L1 to L2 and\n\t\t\t\t// clamp to segment S1. Else pick arbitrary s (here 0)\n\n\t\t\t\tif ( denom !== 0 ) {\n\n\t\t\t\t\ts = clamp( ( b * f - c * e ) / denom, 0, 1 );\n\n\t\t\t\t} else {\n\n\t\t\t\t\ts = 0;\n\n\t\t\t\t}\n\n\t\t\t\t// Compute point on L2 closest to S1(s) using\n\t\t\t\t// t = Dot((P1 + D1*s) - P2,D2) / Dot(D2,D2) = (b*s + f) / e\n\n\t\t\t\tt = ( b * s + f ) / e;\n\n\t\t\t\t// If t in [0,1] done. Else clamp t, recompute s for the new value\n\t\t\t\t// of t using s = Dot((P2 + D2*t) - P1,D1) / Dot(D1,D1)= (t*b - c) / a\n\t\t\t\t// and clamp s to [0, 1]\n\n\t\t\t\tif ( t < 0 ) {\n\n\t\t\t\t\tt = 0.;\n\t\t\t\t\ts = clamp( - c / a, 0, 1 );\n\n\t\t\t\t} else if ( t > 1 ) {\n\n\t\t\t\t\tt = 1;\n\t\t\t\t\ts = clamp( ( b - c ) / a, 0, 1 );\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t}\n\n\t\tc1.copy( p1 ).add( _d1.multiplyScalar( s ) );\n\t\tc2.copy( p2 ).add( _d2.multiplyScalar( t ) );\n\n\t\tc1.sub( c2 );\n\n\t\treturn c1.dot( c1 );\n\n\t}\n\n\t/**\n\t * Applies a 4x4 transformation matrix to this line segment.\n\t *\n\t * @param {Matrix4} matrix - The transformation matrix.\n\t * @return {Line3} A reference to this line segment.\n\t */\n\tapplyMatrix4( matrix ) {\n\n\t\tthis.start.applyMatrix4( matrix );\n\t\tthis.end.applyMatrix4( matrix );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Returns `true` if this line segment is equal with the given one.\n\t *\n\t * @param {Line3} line - The line segment to test for equality.\n\t * @return {boolean} Whether this line segment is equal with the given one.\n\t */\n\tequals( line ) {\n\n\t\treturn line.start.equals( this.start ) && line.end.equals( this.end );\n\n\t}\n\n\t/**\n\t * Returns a new line segment with copied values from this instance.\n\t *\n\t * @return {Line3} A clone of this instance.\n\t */\n\tclone() {\n\n\t\treturn new this.constructor().copy( this );\n\n\t}\n\n}\n\nconst _vector$3 = /*@__PURE__*/ new Vector3();\n\n/**\n * This displays a cone shaped helper object for a {@link SpotLight}.\n *\n * ```js\n * const spotLight = new THREE.SpotLight( 0xffffff );\n * spotLight.position.set( 10, 10, 10 );\n * scene.add( spotLight );\n *\n * const spotLightHelper = new THREE.SpotLightHelper( spotLight );\n * scene.add( spotLightHelper );\n * ```\n *\n * @augments Object3D\n */\nclass SpotLightHelper extends Object3D {\n\n\t/**\n\t * Constructs a new spot light helper.\n\t *\n\t * @param {HemisphereLight} light - The light to be visualized.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, color ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {SpotLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'SpotLightHelper';\n\n\t\tconst geometry = new BufferGeometry();\n\n\t\tconst positions = [\n\t\t\t0, 0, 0, \t0, 0, 1,\n\t\t\t0, 0, 0, \t1, 0, 1,\n\t\t\t0, 0, 0,\t-1, 0, 1,\n\t\t\t0, 0, 0, \t0, 1, 1,\n\t\t\t0, 0, 0, \t0, -1, 1\n\t\t];\n\n\t\tfor ( let i = 0, j = 1, l = 32; i < l; i ++, j ++ ) {\n\n\t\t\tconst p1 = ( i / l ) * Math.PI * 2;\n\t\t\tconst p2 = ( j / l ) * Math.PI * 2;\n\n\t\t\tpositions.push(\n\t\t\t\tMath.cos( p1 ), Math.sin( p1 ), 1,\n\t\t\t\tMath.cos( p2 ), Math.sin( p2 ), 1\n\t\t\t);\n\n\t\t}\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( positions, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { fog: false, toneMapped: false } );\n\n\t\tthis.cone = new LineSegments( geometry, material );\n\t\tthis.add( this.cone );\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.cone.geometry.dispose();\n\t\tthis.cone.material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\t\tthis.light.target.updateWorldMatrix( true, false );\n\n\t\t// update the local matrix based on the parent and light target transforms\n\t\tif ( this.parent ) {\n\n\t\t\tthis.parent.updateWorldMatrix( true );\n\n\t\t\tthis.matrix\n\t\t\t\t.copy( this.parent.matrixWorld )\n\t\t\t\t.invert()\n\t\t\t\t.multiply( this.light.matrixWorld );\n\n\t\t} else {\n\n\t\t\tthis.matrix.copy( this.light.matrixWorld );\n\n\t\t}\n\n\t\tthis.matrixWorld.copy( this.light.matrixWorld );\n\n\t\tconst coneLength = this.light.distance ? this.light.distance : 1000;\n\t\tconst coneWidth = coneLength * Math.tan( this.light.angle );\n\n\t\tthis.cone.scale.set( coneWidth, coneWidth, coneLength );\n\n\t\t_vector$3.setFromMatrixPosition( this.light.target.matrixWorld );\n\n\t\tthis.cone.lookAt( _vector$3 );\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.cone.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tthis.cone.material.color.copy( this.light.color );\n\n\t\t}\n\n\t}\n\n}\n\nconst _vector$2 = /*@__PURE__*/ new Vector3();\nconst _boneMatrix = /*@__PURE__*/ new Matrix4();\nconst _matrixWorldInv = /*@__PURE__*/ new Matrix4();\n\n/**\n * A helper object to assist with visualizing a {@link Skeleton}.\n *\n * ```js\n * const helper = new THREE.SkeletonHelper( skinnedMesh );\n * scene.add( helper );\n * ```\n *\n * @augments LineSegments\n */\nclass SkeletonHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new skeleton helper.\n\t *\n\t * @param {Object3D} object - Usually an instance of {@link SkinnedMesh}. However, any 3D object\n\t * can be used if it represents a hierarchy of bones (see {@link Bone}).\n\t */\n\tconstructor( object ) {\n\n\t\tconst bones = getBoneList( object );\n\n\t\tconst geometry = new BufferGeometry();\n\n\t\tconst vertices = [];\n\t\tconst colors = [];\n\n\t\tfor ( let i = 0; i < bones.length; i ++ ) {\n\n\t\t\tconst bone = bones[ i ];\n\n\t\t\tif ( bone.parent && bone.parent.isBone ) {\n\n\t\t\t\tvertices.push( 0, 0, 0 );\n\t\t\t\tvertices.push( 0, 0, 0 );\n\t\t\t\tcolors.push( 0, 0, 0 );\n\t\t\t\tcolors.push( 0, 0, 0 );\n\n\t\t\t}\n\n\t\t}\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, depthTest: false, depthWrite: false, toneMapped: false, transparent: true } );\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isSkeletonHelper = true;\n\n\t\tthis.type = 'SkeletonHelper';\n\n\t\t/**\n\t\t * The object being visualized.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.root = object;\n\n\t\t/**\n\t\t * The list of bones that the helper visualizes.\n\t\t *\n\t\t * @type {Array}\n\t\t */\n\t\tthis.bones = bones;\n\n\t\tthis.matrix = object.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t// colors\n\n\t\tconst color1 = new Color( 0x0000ff );\n\t\tconst color2 = new Color( 0x00ff00 );\n\n\t\tthis.setColors( color1, color2 );\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tconst bones = this.bones;\n\n\t\tconst geometry = this.geometry;\n\t\tconst position = geometry.getAttribute( 'position' );\n\n\t\t_matrixWorldInv.copy( this.root.matrixWorld ).invert();\n\n\t\tfor ( let i = 0, j = 0; i < bones.length; i ++ ) {\n\n\t\t\tconst bone = bones[ i ];\n\n\t\t\tif ( bone.parent && bone.parent.isBone ) {\n\n\t\t\t\t_boneMatrix.multiplyMatrices( _matrixWorldInv, bone.matrixWorld );\n\t\t\t\t_vector$2.setFromMatrixPosition( _boneMatrix );\n\t\t\t\tposition.setXYZ( j, _vector$2.x, _vector$2.y, _vector$2.z );\n\n\t\t\t\t_boneMatrix.multiplyMatrices( _matrixWorldInv, bone.parent.matrixWorld );\n\t\t\t\t_vector$2.setFromMatrixPosition( _boneMatrix );\n\t\t\t\tposition.setXYZ( j + 1, _vector$2.x, _vector$2.y, _vector$2.z );\n\n\t\t\t\tj += 2;\n\n\t\t\t}\n\n\t\t}\n\n\t\tgeometry.getAttribute( 'position' ).needsUpdate = true;\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t}\n\n\t/**\n\t * Defines the colors of the helper.\n\t *\n\t * @param {Color} color1 - The first line color for each bone.\n\t * @param {Color} color2 - The second line color for each bone.\n\t * @return {SkeletonHelper} A reference to this helper.\n\t */\n\tsetColors( color1, color2 ) {\n\n\t\tconst geometry = this.geometry;\n\t\tconst colorAttribute = geometry.getAttribute( 'color' );\n\n\t\tfor ( let i = 0; i < colorAttribute.count; i += 2 ) {\n\n\t\t\tcolorAttribute.setXYZ( i, color1.r, color1.g, color1.b );\n\t\t\tcolorAttribute.setXYZ( i + 1, color2.r, color2.g, color2.b );\n\n\t\t}\n\n\t\tcolorAttribute.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n\nfunction getBoneList( object ) {\n\n\tconst boneList = [];\n\n\tif ( object.isBone === true ) {\n\n\t\tboneList.push( object );\n\n\t}\n\n\tfor ( let i = 0; i < object.children.length; i ++ ) {\n\n\t\tboneList.push( ...getBoneList( object.children[ i ] ) );\n\n\t}\n\n\treturn boneList;\n\n}\n\n/**\n * This displays a helper object consisting of a spherical mesh for\n * visualizing an instance of {@link PointLight}.\n *\n * ```js\n * const pointLight = new THREE.PointLight( 0xff0000, 1, 100 );\n * pointLight.position.set( 10, 10, 10 );\n * scene.add( pointLight );\n *\n * const sphereSize = 1;\n * const pointLightHelper = new THREE.PointLightHelper( pointLight, sphereSize );\n * scene.add( pointLightHelper );\n * ```\n *\n * @augments Mesh\n */\nclass PointLightHelper extends Mesh {\n\n\t/**\n\t * Constructs a new point light helper.\n\t *\n\t * @param {PointLight} light - The light to be visualized.\n\t * @param {number} [sphereSize=1] - The size of the sphere helper.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, sphereSize, color ) {\n\n\t\tconst geometry = new SphereGeometry( sphereSize, 4, 2 );\n\t\tconst material = new MeshBasicMaterial( { wireframe: true, fog: false, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {HemisphereLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'PointLightHelper';\n\n\t\tthis.matrix = this.light.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\tthis.update();\n\n\n\t\t/*\n\t// TODO: delete this comment?\n\tconst distanceGeometry = new THREE.IcosahedronGeometry( 1, 2 );\n\tconst distanceMaterial = new THREE.MeshBasicMaterial( { color: hexColor, fog: false, wireframe: true, opacity: 0.1, transparent: true } );\n\n\tthis.lightSphere = new THREE.Mesh( bulbGeometry, bulbMaterial );\n\tthis.lightDistance = new THREE.Mesh( distanceGeometry, distanceMaterial );\n\n\tconst d = light.distance;\n\n\tif ( d === 0.0 ) {\n\n\t\tthis.lightDistance.visible = false;\n\n\t} else {\n\n\t\tthis.lightDistance.scale.set( d, d, d );\n\n\t}\n\n\tthis.add( this.lightDistance );\n\t*/\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tthis.material.color.copy( this.light.color );\n\n\t\t}\n\n\t\t/*\n\t\tconst d = this.light.distance;\n\n\t\tif ( d === 0.0 ) {\n\n\t\t\tthis.lightDistance.visible = false;\n\n\t\t} else {\n\n\t\t\tthis.lightDistance.visible = true;\n\t\t\tthis.lightDistance.scale.set( d, d, d );\n\n\t\t}\n\t\t*/\n\n\t}\n\n}\n\nconst _vector$1 = /*@__PURE__*/ new Vector3();\nconst _color1 = /*@__PURE__*/ new Color();\nconst _color2 = /*@__PURE__*/ new Color();\n\n/**\n * Creates a visual aid consisting of a spherical mesh for a\n * given {@link HemisphereLight}.\n *\n * ```js\n * const light = new THREE.HemisphereLight( 0xffffbb, 0x080820, 1 );\n * const helper = new THREE.HemisphereLightHelper( light, 5 );\n * scene.add( helper );\n * ```\n *\n * @augments Object3D\n */\nclass HemisphereLightHelper extends Object3D {\n\n\t/**\n\t * Constructs a new hemisphere light helper.\n\t *\n\t * @param {HemisphereLight} light - The light to be visualized.\n\t * @param {number} [size=1] - The size of the mesh used to visualize the light.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, size, color ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {HemisphereLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\tthis.matrix = light.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'HemisphereLightHelper';\n\n\t\tconst geometry = new OctahedronGeometry( size );\n\t\tgeometry.rotateY( Math.PI * 0.5 );\n\n\t\tthis.material = new MeshBasicMaterial( { wireframe: true, fog: false, toneMapped: false } );\n\t\tif ( this.color === undefined ) this.material.vertexColors = true;\n\n\t\tconst position = geometry.getAttribute( 'position' );\n\t\tconst colors = new Float32Array( position.count * 3 );\n\n\t\tgeometry.setAttribute( 'color', new BufferAttribute( colors, 3 ) );\n\n\t\tthis.add( new Mesh( geometry, this.material ) );\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.children[ 0 ].geometry.dispose();\n\t\tthis.children[ 0 ].material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tconst mesh = this.children[ 0 ];\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tconst colors = mesh.geometry.getAttribute( 'color' );\n\n\t\t\t_color1.copy( this.light.color );\n\t\t\t_color2.copy( this.light.groundColor );\n\n\t\t\tfor ( let i = 0, l = colors.count; i < l; i ++ ) {\n\n\t\t\t\tconst color = ( i < ( l / 2 ) ) ? _color1 : _color2;\n\n\t\t\t\tcolors.setXYZ( i, color.r, color.g, color.b );\n\n\t\t\t}\n\n\t\t\tcolors.needsUpdate = true;\n\n\t\t}\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\n\t\tmesh.lookAt( _vector$1.setFromMatrixPosition( this.light.matrixWorld ).negate() );\n\n\t}\n\n}\n\n/**\n * The helper is an object to define grids. Grids are two-dimensional\n * arrays of lines.\n *\n * ```js\n * const size = 10;\n * const divisions = 10;\n *\n * const gridHelper = new THREE.GridHelper( size, divisions );\n * scene.add( gridHelper );\n * ```\n *\n * @augments LineSegments\n */\nclass GridHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new grid helper.\n\t *\n\t * @param {number} [size=10] - The size of the grid.\n\t * @param {number} [divisions=10] - The number of divisions across the grid.\n\t * @param {number|Color|string} [color1=0x444444] - The color of the center line.\n\t * @param {number|Color|string} [color2=0x888888] - The color of the lines of the grid.\n\t */\n\tconstructor( size = 10, divisions = 10, color1 = 0x444444, color2 = 0x888888 ) {\n\n\t\tcolor1 = new Color( color1 );\n\t\tcolor2 = new Color( color2 );\n\n\t\tconst center = divisions / 2;\n\t\tconst step = size / divisions;\n\t\tconst halfSize = size / 2;\n\n\t\tconst vertices = [], colors = [];\n\n\t\tfor ( let i = 0, j = 0, k = - halfSize; i <= divisions; i ++, k += step ) {\n\n\t\t\tvertices.push( - halfSize, 0, k, halfSize, 0, k );\n\t\t\tvertices.push( k, 0, - halfSize, k, 0, halfSize );\n\n\t\t\tconst color = i === center ? color1 : color2;\n\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\t\t\tcolor.toArray( colors, j ); j += 3;\n\n\t\t}\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'GridHelper';\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * This helper is an object to define polar grids. Grids are\n * two-dimensional arrays of lines.\n *\n * ```js\n * const radius = 10;\n * const sectors = 16;\n * const rings = 8;\n * const divisions = 64;\n *\n * const helper = new THREE.PolarGridHelper( radius, sectors, rings, divisions );\n * scene.add( helper );\n * ```\n *\n * @augments LineSegments\n */\nclass PolarGridHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new polar grid helper.\n\t *\n\t * @param {number} [radius=10] - The radius of the polar grid. This can be any positive number.\n\t * @param {number} [sectors=16] - The number of sectors the grid will be divided into. This can be any positive integer.\n\t * @param {number} [rings=16] - The number of rings. This can be any positive integer.\n\t * @param {number} [divisions=64] - The number of line segments used for each circle. This can be any positive integer.\n\t * @param {number|Color|string} [color1=0x444444] - The first color used for grid elements.\n\t * @param {number|Color|string} [color2=0x888888] - The second color used for grid elements.\n\t */\n\tconstructor( radius = 10, sectors = 16, rings = 8, divisions = 64, color1 = 0x444444, color2 = 0x888888 ) {\n\n\t\tcolor1 = new Color( color1 );\n\t\tcolor2 = new Color( color2 );\n\n\t\tconst vertices = [];\n\t\tconst colors = [];\n\n\t\t// create the sectors\n\n\t\tif ( sectors > 1 ) {\n\n\t\t\tfor ( let i = 0; i < sectors; i ++ ) {\n\n\t\t\t\tconst v = ( i / sectors ) * ( Math.PI * 2 );\n\n\t\t\t\tconst x = Math.sin( v ) * radius;\n\t\t\t\tconst z = Math.cos( v ) * radius;\n\n\t\t\t\tvertices.push( 0, 0, 0 );\n\t\t\t\tvertices.push( x, 0, z );\n\n\t\t\t\tconst color = ( i & 1 ) ? color1 : color2;\n\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\n\t\t\t}\n\n\t\t}\n\n\t\t// create the rings\n\n\t\tfor ( let i = 0; i < rings; i ++ ) {\n\n\t\t\tconst color = ( i & 1 ) ? color1 : color2;\n\n\t\t\tconst r = radius - ( radius / rings * i );\n\n\t\t\tfor ( let j = 0; j < divisions; j ++ ) {\n\n\t\t\t\t// first vertex\n\n\t\t\t\tlet v = ( j / divisions ) * ( Math.PI * 2 );\n\n\t\t\t\tlet x = Math.sin( v ) * r;\n\t\t\t\tlet z = Math.cos( v ) * r;\n\n\t\t\t\tvertices.push( x, 0, z );\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\n\t\t\t\t// second vertex\n\n\t\t\t\tv = ( ( j + 1 ) / divisions ) * ( Math.PI * 2 );\n\n\t\t\t\tx = Math.sin( v ) * r;\n\t\t\t\tz = Math.cos( v ) * r;\n\n\t\t\t\tvertices.push( x, 0, z );\n\t\t\t\tcolors.push( color.r, color.g, color.b );\n\n\t\t\t}\n\n\t\t}\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'PolarGridHelper';\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\nconst _v1 = /*@__PURE__*/ new Vector3();\nconst _v2 = /*@__PURE__*/ new Vector3();\nconst _v3 = /*@__PURE__*/ new Vector3();\n\n/**\n * Helper object to assist with visualizing a {@link DirectionalLight}'s\n * effect on the scene. This consists of plane and a line representing the\n * light's position and direction.\n *\n * ```js\n * const light = new THREE.DirectionalLight( 0xFFFFFF );\n * scene.add( light );\n *\n * const helper = new THREE.DirectionalLightHelper( light, 5 );\n * scene.add( helper );\n * ```\n *\n * @augments Object3D\n */\nclass DirectionalLightHelper extends Object3D {\n\n\t/**\n\t * Constructs a new directional light helper.\n\t *\n\t * @param {DirectionalLight} light - The light to be visualized.\n\t * @param {number} [size=1] - The dimensions of the plane.\n\t * @param {number|Color|string} [color] - The helper's color. If not set, the helper will take\n\t * the color of the light.\n\t */\n\tconstructor( light, size, color ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The light being visualized.\n\t\t *\n\t\t * @type {DirectionalLight}\n\t\t */\n\t\tthis.light = light;\n\n\t\tthis.matrix = light.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * The color parameter passed in the constructor.\n\t\t * If not set, the helper will take the color of the light.\n\t\t *\n\t\t * @type {number|Color|string}\n\t\t */\n\t\tthis.color = color;\n\n\t\tthis.type = 'DirectionalLightHelper';\n\n\t\tif ( size === undefined ) size = 1;\n\n\t\tlet geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( [\n\t\t\t- size, size, 0,\n\t\t\tsize, size, 0,\n\t\t\tsize, - size, 0,\n\t\t\t- size, - size, 0,\n\t\t\t- size, size, 0\n\t\t], 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { fog: false, toneMapped: false } );\n\n\t\t/**\n\t\t * Contains the line showing the location of the directional light.\n\t\t *\n\t\t * @type {Line}\n\t\t */\n\t\tthis.lightPlane = new Line( geometry, material );\n\t\tthis.add( this.lightPlane );\n\n\t\tgeometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( [ 0, 0, 0, 0, 0, 1 ], 3 ) );\n\n\t\t/**\n\t\t * Represents the target line of the directional light.\n\t\t *\n\t\t * @type {Line}\n\t\t */\n\t\tthis.targetLine = new Line( geometry, material );\n\t\tthis.add( this.targetLine );\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.lightPlane.geometry.dispose();\n\t\tthis.lightPlane.material.dispose();\n\t\tthis.targetLine.geometry.dispose();\n\t\tthis.targetLine.material.dispose();\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tupdate() {\n\n\t\tthis.light.updateWorldMatrix( true, false );\n\t\tthis.light.target.updateWorldMatrix( true, false );\n\n\t\t_v1.setFromMatrixPosition( this.light.matrixWorld );\n\t\t_v2.setFromMatrixPosition( this.light.target.matrixWorld );\n\t\t_v3.subVectors( _v2, _v1 );\n\n\t\tthis.lightPlane.lookAt( _v2 );\n\n\t\tif ( this.color !== undefined ) {\n\n\t\t\tthis.lightPlane.material.color.set( this.color );\n\t\t\tthis.targetLine.material.color.set( this.color );\n\n\t\t} else {\n\n\t\t\tthis.lightPlane.material.color.copy( this.light.color );\n\t\t\tthis.targetLine.material.color.copy( this.light.color );\n\n\t\t}\n\n\t\tthis.targetLine.lookAt( _v2 );\n\t\tthis.targetLine.scale.z = _v3.length();\n\n\t}\n\n}\n\nconst _vector = /*@__PURE__*/ new Vector3();\nconst _camera = /*@__PURE__*/ new Camera();\n\n/**\n * This helps with visualizing what a camera contains in its frustum. It\n * visualizes the frustum of a camera using a line segments.\n *\n * Based on frustum visualization in [lightgl.js shadowmap example]{@link https://github.com/evanw/lightgl.js/blob/master/tests/shadowmap.html}.\n *\n * `CameraHelper` must be a child of the scene.\n *\n * ```js\n * const camera = new THREE.PerspectiveCamera( 75, window.innerWidth / window.innerHeight, 0.1, 1000 );\n * const helper = new THREE.CameraHelper( camera );\n * scene.add( helper );\n * ```\n *\n * @augments LineSegments\n */\nclass CameraHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new arrow helper.\n\t *\n\t * @param {Camera} camera - The camera to visualize.\n\t */\n\tconstructor( camera ) {\n\n\t\tconst geometry = new BufferGeometry();\n\t\tconst material = new LineBasicMaterial( { color: 0xffffff, vertexColors: true, toneMapped: false } );\n\n\t\tconst vertices = [];\n\t\tconst colors = [];\n\n\t\tconst pointMap = {};\n\n\t\t// near\n\n\t\taddLine( 'n1', 'n2' );\n\t\taddLine( 'n2', 'n4' );\n\t\taddLine( 'n4', 'n3' );\n\t\taddLine( 'n3', 'n1' );\n\n\t\t// far\n\n\t\taddLine( 'f1', 'f2' );\n\t\taddLine( 'f2', 'f4' );\n\t\taddLine( 'f4', 'f3' );\n\t\taddLine( 'f3', 'f1' );\n\n\t\t// sides\n\n\t\taddLine( 'n1', 'f1' );\n\t\taddLine( 'n2', 'f2' );\n\t\taddLine( 'n3', 'f3' );\n\t\taddLine( 'n4', 'f4' );\n\n\t\t// cone\n\n\t\taddLine( 'p', 'n1' );\n\t\taddLine( 'p', 'n2' );\n\t\taddLine( 'p', 'n3' );\n\t\taddLine( 'p', 'n4' );\n\n\t\t// up\n\n\t\taddLine( 'u1', 'u2' );\n\t\taddLine( 'u2', 'u3' );\n\t\taddLine( 'u3', 'u1' );\n\n\t\t// target\n\n\t\taddLine( 'c', 't' );\n\t\taddLine( 'p', 'c' );\n\n\t\t// cross\n\n\t\taddLine( 'cn1', 'cn2' );\n\t\taddLine( 'cn3', 'cn4' );\n\n\t\taddLine( 'cf1', 'cf2' );\n\t\taddLine( 'cf3', 'cf4' );\n\n\t\tfunction addLine( a, b ) {\n\n\t\t\taddPoint( a );\n\t\t\taddPoint( b );\n\n\t\t}\n\n\t\tfunction addPoint( id ) {\n\n\t\t\tvertices.push( 0, 0, 0 );\n\t\t\tcolors.push( 0, 0, 0 );\n\n\t\t\tif ( pointMap[ id ] === undefined ) {\n\n\t\t\t\tpointMap[ id ] = [];\n\n\t\t\t}\n\n\t\t\tpointMap[ id ].push( ( vertices.length / 3 ) - 1 );\n\n\t\t}\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'CameraHelper';\n\n\t\t/**\n\t\t * The camera being visualized.\n\t\t *\n\t\t * @type {Camera}\n\t\t */\n\t\tthis.camera = camera;\n\t\tif ( this.camera.updateProjectionMatrix ) this.camera.updateProjectionMatrix();\n\n\t\tthis.matrix = camera.matrixWorld;\n\t\tthis.matrixAutoUpdate = false;\n\n\t\t/**\n\t\t * This contains the points used to visualize the camera.\n\t\t *\n\t\t * @type {Object>}\n\t\t */\n\t\tthis.pointMap = pointMap;\n\n\t\tthis.update();\n\n\t\t// colors\n\n\t\tconst colorFrustum = new Color( 0xffaa00 );\n\t\tconst colorCone = new Color( 0xff0000 );\n\t\tconst colorUp = new Color( 0x00aaff );\n\t\tconst colorTarget = new Color( 0xffffff );\n\t\tconst colorCross = new Color( 0x333333 );\n\n\t\tthis.setColors( colorFrustum, colorCone, colorUp, colorTarget, colorCross );\n\n\t}\n\n\t/**\n\t * Defines the colors of the helper.\n\t *\n\t * @param {Color} frustum - The frustum line color.\n\t * @param {Color} cone - The cone line color.\n\t * @param {Color} up - The up line color.\n\t * @param {Color} target - The target line color.\n\t * @param {Color} cross - The cross line color.\n\t * @return {CameraHelper} A reference to this helper.\n\t */\n\tsetColors( frustum, cone, up, target, cross ) {\n\n\t\tconst geometry = this.geometry;\n\n\t\tconst colorAttribute = geometry.getAttribute( 'color' );\n\n\t\t// near\n\n\t\tcolorAttribute.setXYZ( 0, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 1, frustum.r, frustum.g, frustum.b ); // n1, n2\n\t\tcolorAttribute.setXYZ( 2, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 3, frustum.r, frustum.g, frustum.b ); // n2, n4\n\t\tcolorAttribute.setXYZ( 4, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 5, frustum.r, frustum.g, frustum.b ); // n4, n3\n\t\tcolorAttribute.setXYZ( 6, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 7, frustum.r, frustum.g, frustum.b ); // n3, n1\n\n\t\t// far\n\n\t\tcolorAttribute.setXYZ( 8, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 9, frustum.r, frustum.g, frustum.b ); // f1, f2\n\t\tcolorAttribute.setXYZ( 10, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 11, frustum.r, frustum.g, frustum.b ); // f2, f4\n\t\tcolorAttribute.setXYZ( 12, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 13, frustum.r, frustum.g, frustum.b ); // f4, f3\n\t\tcolorAttribute.setXYZ( 14, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 15, frustum.r, frustum.g, frustum.b ); // f3, f1\n\n\t\t// sides\n\n\t\tcolorAttribute.setXYZ( 16, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 17, frustum.r, frustum.g, frustum.b ); // n1, f1\n\t\tcolorAttribute.setXYZ( 18, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 19, frustum.r, frustum.g, frustum.b ); // n2, f2\n\t\tcolorAttribute.setXYZ( 20, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 21, frustum.r, frustum.g, frustum.b ); // n3, f3\n\t\tcolorAttribute.setXYZ( 22, frustum.r, frustum.g, frustum.b ); colorAttribute.setXYZ( 23, frustum.r, frustum.g, frustum.b ); // n4, f4\n\n\t\t// cone\n\n\t\tcolorAttribute.setXYZ( 24, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 25, cone.r, cone.g, cone.b ); // p, n1\n\t\tcolorAttribute.setXYZ( 26, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 27, cone.r, cone.g, cone.b ); // p, n2\n\t\tcolorAttribute.setXYZ( 28, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 29, cone.r, cone.g, cone.b ); // p, n3\n\t\tcolorAttribute.setXYZ( 30, cone.r, cone.g, cone.b ); colorAttribute.setXYZ( 31, cone.r, cone.g, cone.b ); // p, n4\n\n\t\t// up\n\n\t\tcolorAttribute.setXYZ( 32, up.r, up.g, up.b ); colorAttribute.setXYZ( 33, up.r, up.g, up.b ); // u1, u2\n\t\tcolorAttribute.setXYZ( 34, up.r, up.g, up.b ); colorAttribute.setXYZ( 35, up.r, up.g, up.b ); // u2, u3\n\t\tcolorAttribute.setXYZ( 36, up.r, up.g, up.b ); colorAttribute.setXYZ( 37, up.r, up.g, up.b ); // u3, u1\n\n\t\t// target\n\n\t\tcolorAttribute.setXYZ( 38, target.r, target.g, target.b ); colorAttribute.setXYZ( 39, target.r, target.g, target.b ); // c, t\n\t\tcolorAttribute.setXYZ( 40, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 41, cross.r, cross.g, cross.b ); // p, c\n\n\t\t// cross\n\n\t\tcolorAttribute.setXYZ( 42, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 43, cross.r, cross.g, cross.b ); // cn1, cn2\n\t\tcolorAttribute.setXYZ( 44, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 45, cross.r, cross.g, cross.b ); // cn3, cn4\n\n\t\tcolorAttribute.setXYZ( 46, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 47, cross.r, cross.g, cross.b ); // cf1, cf2\n\t\tcolorAttribute.setXYZ( 48, cross.r, cross.g, cross.b ); colorAttribute.setXYZ( 49, cross.r, cross.g, cross.b ); // cf3, cf4\n\n\t\tcolorAttribute.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Updates the helper based on the projection matrix of the camera.\n\t */\n\tupdate() {\n\n\t\tconst geometry = this.geometry;\n\t\tconst pointMap = this.pointMap;\n\n\t\tconst w = 1, h = 1;\n\n\t\tlet nearZ, farZ;\n\n\t\t// we need just camera projection matrix inverse\n\t\t// world matrix must be identity\n\n\t\t_camera.projectionMatrixInverse.copy( this.camera.projectionMatrixInverse );\n\n\t\t// Adjust z values based on coordinate system\n\n\t\tif ( this.camera.reversedDepth === true ) {\n\n\t\t\tnearZ = 1;\n\t\t\tfarZ = 0;\n\n\t\t} else {\n\n\t\t\tif ( this.camera.coordinateSystem === WebGLCoordinateSystem ) {\n\n\t\t\t\tnearZ = -1;\n\t\t\t\tfarZ = 1;\n\n\t\t\t} else if ( this.camera.coordinateSystem === WebGPUCoordinateSystem ) {\n\n\t\t\t\tnearZ = 0;\n\t\t\t\tfarZ = 1;\n\n\t\t\t} else {\n\n\t\t\t\tthrow new Error( 'THREE.CameraHelper.update(): Invalid coordinate system: ' + this.camera.coordinateSystem );\n\n\t\t\t}\n\n\t\t}\n\n\n\t\t// center / target\n\t\tsetPoint( 'c', pointMap, geometry, _camera, 0, 0, nearZ );\n\t\tsetPoint( 't', pointMap, geometry, _camera, 0, 0, farZ );\n\n\t\t// near\n\n\t\tsetPoint( 'n1', pointMap, geometry, _camera, - w, - h, nearZ );\n\t\tsetPoint( 'n2', pointMap, geometry, _camera, w, - h, nearZ );\n\t\tsetPoint( 'n3', pointMap, geometry, _camera, - w, h, nearZ );\n\t\tsetPoint( 'n4', pointMap, geometry, _camera, w, h, nearZ );\n\n\t\t// far\n\n\t\tsetPoint( 'f1', pointMap, geometry, _camera, - w, - h, farZ );\n\t\tsetPoint( 'f2', pointMap, geometry, _camera, w, - h, farZ );\n\t\tsetPoint( 'f3', pointMap, geometry, _camera, - w, h, farZ );\n\t\tsetPoint( 'f4', pointMap, geometry, _camera, w, h, farZ );\n\n\t\t// up\n\n\t\tsetPoint( 'u1', pointMap, geometry, _camera, w * 0.7, h * 1.1, nearZ );\n\t\tsetPoint( 'u2', pointMap, geometry, _camera, - w * 0.7, h * 1.1, nearZ );\n\t\tsetPoint( 'u3', pointMap, geometry, _camera, 0, h * 2, nearZ );\n\n\t\t// cross\n\n\t\tsetPoint( 'cf1', pointMap, geometry, _camera, - w, 0, farZ );\n\t\tsetPoint( 'cf2', pointMap, geometry, _camera, w, 0, farZ );\n\t\tsetPoint( 'cf3', pointMap, geometry, _camera, 0, - h, farZ );\n\t\tsetPoint( 'cf4', pointMap, geometry, _camera, 0, h, farZ );\n\n\t\tsetPoint( 'cn1', pointMap, geometry, _camera, - w, 0, nearZ );\n\t\tsetPoint( 'cn2', pointMap, geometry, _camera, w, 0, nearZ );\n\t\tsetPoint( 'cn3', pointMap, geometry, _camera, 0, - h, nearZ );\n\t\tsetPoint( 'cn4', pointMap, geometry, _camera, 0, h, nearZ );\n\n\t\tgeometry.getAttribute( 'position' ).needsUpdate = true;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n\nfunction setPoint( point, pointMap, geometry, camera, x, y, z ) {\n\n\t_vector.set( x, y, z ).unproject( camera );\n\n\tconst points = pointMap[ point ];\n\n\tif ( points !== undefined ) {\n\n\t\tconst position = geometry.getAttribute( 'position' );\n\n\t\tfor ( let i = 0, l = points.length; i < l; i ++ ) {\n\n\t\t\tposition.setXYZ( points[ i ], _vector.x, _vector.y, _vector.z );\n\n\t\t}\n\n\t}\n\n}\n\nconst _box = /*@__PURE__*/ new Box3();\n\n/**\n * Helper object to graphically show the world-axis-aligned bounding box\n * around an object. The actual bounding box is handled with {@link Box3},\n * this is just a visual helper for debugging. It can be automatically\n * resized with {@link BoxHelper#update} when the object it's created from\n * is transformed. Note that the object must have a geometry for this to work,\n * so it won't work with sprites.\n *\n * ```js\n * const sphere = new THREE.SphereGeometry();\n * const object = new THREE.Mesh( sphere, new THREE.MeshBasicMaterial( 0xff0000 ) );\n * const box = new THREE.BoxHelper( object, 0xffff00 );\n * scene.add( box );\n * ```\n *\n * @augments LineSegments\n */\nclass BoxHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new box helper.\n\t *\n\t * @param {Object3D} [object] - The 3D object to show the world-axis-aligned bounding box.\n\t * @param {number|Color|string} [color=0xffff00] - The box's color.\n\t */\n\tconstructor( object, color = 0xffff00 ) {\n\n\t\tconst indices = new Uint16Array( [ 0, 1, 1, 2, 2, 3, 3, 0, 4, 5, 5, 6, 6, 7, 7, 4, 0, 4, 1, 5, 2, 6, 3, 7 ] );\n\t\tconst positions = new Float32Array( 8 * 3 );\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setIndex( new BufferAttribute( indices, 1 ) );\n\t\tgeometry.setAttribute( 'position', new BufferAttribute( positions, 3 ) );\n\n\t\tsuper( geometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\n\t\t/**\n\t\t * The 3D object being visualized.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.object = object;\n\t\tthis.type = 'BoxHelper';\n\n\t\tthis.matrixAutoUpdate = false;\n\n\t\tthis.update();\n\n\t}\n\n\t/**\n\t * Updates the helper's geometry to match the dimensions of the object,\n\t * including any children.\n\t */\n\tupdate() {\n\n\t\tif ( this.object !== undefined ) {\n\n\t\t\t_box.setFromObject( this.object );\n\n\t\t}\n\n\t\tif ( _box.isEmpty() ) return;\n\n\t\tconst min = _box.min;\n\t\tconst max = _box.max;\n\n\t\t/*\n\t\t\t5____4\n\t\t1/___0/|\n\t\t| 6__|_7\n\t\t2/___3/\n\n\t\t0: max.x, max.y, max.z\n\t\t1: min.x, max.y, max.z\n\t\t2: min.x, min.y, max.z\n\t\t3: max.x, min.y, max.z\n\t\t4: max.x, max.y, min.z\n\t\t5: min.x, max.y, min.z\n\t\t6: min.x, min.y, min.z\n\t\t7: max.x, min.y, min.z\n\t\t*/\n\n\t\tconst position = this.geometry.attributes.position;\n\t\tconst array = position.array;\n\n\t\tarray[ 0 ] = max.x; array[ 1 ] = max.y; array[ 2 ] = max.z;\n\t\tarray[ 3 ] = min.x; array[ 4 ] = max.y; array[ 5 ] = max.z;\n\t\tarray[ 6 ] = min.x; array[ 7 ] = min.y; array[ 8 ] = max.z;\n\t\tarray[ 9 ] = max.x; array[ 10 ] = min.y; array[ 11 ] = max.z;\n\t\tarray[ 12 ] = max.x; array[ 13 ] = max.y; array[ 14 ] = min.z;\n\t\tarray[ 15 ] = min.x; array[ 16 ] = max.y; array[ 17 ] = min.z;\n\t\tarray[ 18 ] = min.x; array[ 19 ] = min.y; array[ 20 ] = min.z;\n\t\tarray[ 21 ] = max.x; array[ 22 ] = min.y; array[ 23 ] = min.z;\n\n\t\tposition.needsUpdate = true;\n\n\t\tthis.geometry.computeBoundingSphere();\n\n\t}\n\n\t/**\n\t * Updates the wireframe box for the passed object.\n\t *\n\t * @param {Object3D} object - The 3D object to create the helper for.\n\t * @return {BoxHelper} A reference to this instance.\n\t */\n\tsetFromObject( object ) {\n\n\t\tthis.object = object;\n\t\tthis.update();\n\n\t\treturn this;\n\n\t}\n\n\tcopy( source, recursive ) {\n\n\t\tsuper.copy( source, recursive );\n\n\t\tthis.object = source.object;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * A helper object to visualize an instance of {@link Box3}.\n *\n * ```js\n * const box = new THREE.Box3();\n * box.setFromCenterAndSize( new THREE.Vector3( 1, 1, 1 ), new THREE.Vector3( 2, 1, 3 ) );\n *\n * const helper = new THREE.Box3Helper( box, 0xffff00 );\n * scene.add( helper )\n * ```\n *\n * @augments LineSegments\n */\nclass Box3Helper extends LineSegments {\n\n\t/**\n\t * Constructs a new box3 helper.\n\t *\n\t * @param {Box3} box - The box to visualize.\n\t * @param {number|Color|string} [color=0xffff00] - The box's color.\n\t */\n\tconstructor( box, color = 0xffff00 ) {\n\n\t\tconst indices = new Uint16Array( [ 0, 1, 1, 2, 2, 3, 3, 0, 4, 5, 5, 6, 6, 7, 7, 4, 0, 4, 1, 5, 2, 6, 3, 7 ] );\n\n\t\tconst positions = [ 1, 1, 1, -1, 1, 1, -1, -1, 1, 1, -1, 1, 1, 1, -1, -1, 1, -1, -1, -1, -1, 1, -1, -1 ];\n\n\t\tconst geometry = new BufferGeometry();\n\n\t\tgeometry.setIndex( new BufferAttribute( indices, 1 ) );\n\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( positions, 3 ) );\n\n\t\tsuper( geometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\n\t\t/**\n\t\t * The box being visualized.\n\t\t *\n\t\t * @type {Box3}\n\t\t */\n\t\tthis.box = box;\n\n\t\tthis.type = 'Box3Helper';\n\n\t\tthis.geometry.computeBoundingSphere();\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tconst box = this.box;\n\n\t\tif ( box.isEmpty() ) return;\n\n\t\tbox.getCenter( this.position );\n\n\t\tbox.getSize( this.scale );\n\n\t\tthis.scale.multiplyScalar( 0.5 );\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * A helper object to visualize an instance of {@link Plane}.\n *\n * ```js\n * const plane = new THREE.Plane( new THREE.Vector3( 1, 1, 0.2 ), 3 );\n * const helper = new THREE.PlaneHelper( plane, 1, 0xffff00 );\n * scene.add( helper );\n * ```\n *\n * @augments Line\n */\nclass PlaneHelper extends Line {\n\n\t/**\n\t * Constructs a new plane helper.\n\t *\n\t * @param {Plane} plane - The plane to be visualized.\n\t * @param {number} [size=1] - The side length of plane helper.\n\t * @param {number|Color|string} [hex=0xffff00] - The helper's color.\n\t */\n\tconstructor( plane, size = 1, hex = 0xffff00 ) {\n\n\t\tconst color = hex;\n\n\t\tconst positions = [ 1, -1, 0, -1, 1, 0, -1, -1, 0, 1, 1, 0, -1, 1, 0, -1, -1, 0, 1, -1, 0, 1, 1, 0 ];\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( positions, 3 ) );\n\t\tgeometry.computeBoundingSphere();\n\n\t\tsuper( geometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\n\t\tthis.type = 'PlaneHelper';\n\n\t\t/**\n\t\t * The plane being visualized.\n\t\t *\n\t\t * @type {Plane}\n\t\t */\n\t\tthis.plane = plane;\n\n\t\t/**\n\t\t * The side length of plane helper.\n\t\t *\n\t\t * @type {number}\n\t\t * @default 1\n\t\t */\n\t\tthis.size = size;\n\n\t\tconst positions2 = [ 1, 1, 0, -1, 1, 0, -1, -1, 0, 1, 1, 0, -1, -1, 0, 1, -1, 0 ];\n\n\t\tconst geometry2 = new BufferGeometry();\n\t\tgeometry2.setAttribute( 'position', new Float32BufferAttribute( positions2, 3 ) );\n\t\tgeometry2.computeBoundingSphere();\n\n\t\tthis.add( new Mesh( geometry2, new MeshBasicMaterial( { color: color, opacity: 0.2, transparent: true, depthWrite: false, toneMapped: false } ) ) );\n\n\t}\n\n\tupdateMatrixWorld( force ) {\n\n\t\tthis.position.set( 0, 0, 0 );\n\n\t\tthis.scale.set( 0.5 * this.size, 0.5 * this.size, 1 );\n\n\t\tthis.lookAt( this.plane.normal );\n\n\t\tthis.translateZ( - this.plane.constant );\n\n\t\tsuper.updateMatrixWorld( force );\n\n\t}\n\n\t/**\n\t * Updates the helper to match the position and direction of the\n\t * light being visualized.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\t\tthis.children[ 0 ].geometry.dispose();\n\t\tthis.children[ 0 ].material.dispose();\n\n\t}\n\n}\n\nconst _axis = /*@__PURE__*/ new Vector3();\nlet _lineGeometry, _coneGeometry;\n\n/**\n * An 3D arrow object for visualizing directions.\n *\n * ```js\n * const dir = new THREE.Vector3( 1, 2, 0 );\n *\n * //normalize the direction vector (convert to vector of length 1)\n * dir.normalize();\n *\n * const origin = new THREE.Vector3( 0, 0, 0 );\n * const length = 1;\n * const hex = 0xffff00;\n *\n * const arrowHelper = new THREE.ArrowHelper( dir, origin, length, hex );\n * scene.add( arrowHelper );\n * ```\n *\n * @augments Object3D\n */\nclass ArrowHelper extends Object3D {\n\n\t/**\n\t * Constructs a new arrow helper.\n\t *\n\t * @param {Vector3} [dir=(0, 0, 1)] - The (normalized) direction vector.\n\t * @param {Vector3} [origin=(0, 0, 0)] - Point at which the arrow starts.\n\t * @param {number} [length=1] - Length of the arrow in world units.\n\t * @param {(number|Color|string)} [color=0xffff00] - Color of the arrow.\n\t * @param {number} [headLength=length*0.2] - The length of the head of the arrow.\n\t * @param {number} [headWidth=headLength*0.2] - The width of the head of the arrow.\n\t */\n\tconstructor( dir = new Vector3( 0, 0, 1 ), origin = new Vector3( 0, 0, 0 ), length = 1, color = 0xffff00, headLength = length * 0.2, headWidth = headLength * 0.2 ) {\n\n\t\tsuper();\n\n\t\tthis.type = 'ArrowHelper';\n\n\t\tif ( _lineGeometry === undefined ) {\n\n\t\t\t_lineGeometry = new BufferGeometry();\n\t\t\t_lineGeometry.setAttribute( 'position', new Float32BufferAttribute( [ 0, 0, 0, 0, 1, 0 ], 3 ) );\n\n\t\t\t_coneGeometry = new ConeGeometry( 0.5, 1, 5, 1 );\n\t\t\t_coneGeometry.translate( 0, -0.5, 0 );\n\n\t\t}\n\n\t\tthis.position.copy( origin );\n\n\t\t/**\n\t\t * The line part of the arrow helper.\n\t\t *\n\t\t * @type {Line}\n\t\t */\n\t\tthis.line = new Line( _lineGeometry, new LineBasicMaterial( { color: color, toneMapped: false } ) );\n\t\tthis.line.matrixAutoUpdate = false;\n\t\tthis.add( this.line );\n\n\t\t/**\n\t\t * The cone part of the arrow helper.\n\t\t *\n\t\t * @type {Mesh}\n\t\t */\n\t\tthis.cone = new Mesh( _coneGeometry, new MeshBasicMaterial( { color: color, toneMapped: false } ) );\n\t\tthis.cone.matrixAutoUpdate = false;\n\t\tthis.add( this.cone );\n\n\t\tthis.setDirection( dir );\n\t\tthis.setLength( length, headLength, headWidth );\n\n\t}\n\n\t/**\n\t * Sets the direction of the helper.\n\t *\n\t * @param {Vector3} dir - The normalized direction vector.\n\t */\n\tsetDirection( dir ) {\n\n\t\t// dir is assumed to be normalized\n\n\t\tif ( dir.y > 0.99999 ) {\n\n\t\t\tthis.quaternion.set( 0, 0, 0, 1 );\n\n\t\t} else if ( dir.y < -0.99999 ) {\n\n\t\t\tthis.quaternion.set( 1, 0, 0, 0 );\n\n\t\t} else {\n\n\t\t\t_axis.set( dir.z, 0, - dir.x ).normalize();\n\n\t\t\tconst radians = Math.acos( dir.y );\n\n\t\t\tthis.quaternion.setFromAxisAngle( _axis, radians );\n\n\t\t}\n\n\t}\n\n\t/**\n\t * Sets the length of the helper.\n\t *\n\t * @param {number} length - Length of the arrow in world units.\n\t * @param {number} [headLength=length*0.2] - The length of the head of the arrow.\n\t * @param {number} [headWidth=headLength*0.2] - The width of the head of the arrow.\n\t */\n\tsetLength( length, headLength = length * 0.2, headWidth = headLength * 0.2 ) {\n\n\t\tthis.line.scale.set( 1, Math.max( 0.0001, length - headLength ), 1 ); // see #17458\n\t\tthis.line.updateMatrix();\n\n\t\tthis.cone.scale.set( headWidth, headLength, headWidth );\n\t\tthis.cone.position.y = length;\n\t\tthis.cone.updateMatrix();\n\n\t}\n\n\t/**\n\t * Sets the color of the helper.\n\t *\n\t * @param {number|Color|string} color - The color to set.\n\t */\n\tsetColor( color ) {\n\n\t\tthis.line.material.color.set( color );\n\t\tthis.cone.material.color.set( color );\n\n\t}\n\n\tcopy( source ) {\n\n\t\tsuper.copy( source, false );\n\n\t\tthis.line.copy( source.line );\n\t\tthis.cone.copy( source.cone );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.line.geometry.dispose();\n\t\tthis.line.material.dispose();\n\t\tthis.cone.geometry.dispose();\n\t\tthis.cone.material.dispose();\n\n\t}\n\n}\n\n/**\n * An axis object to visualize the 3 axes in a simple way.\n * The X axis is red. The Y axis is green. The Z axis is blue.\n *\n * ```js\n * const axesHelper = new THREE.AxesHelper( 5 );\n * scene.add( axesHelper );\n * ```\n *\n * @augments LineSegments\n */\nclass AxesHelper extends LineSegments {\n\n\t/**\n\t * Constructs a new axes helper.\n\t *\n\t * @param {number} [size=1] - Size of the lines representing the axes.\n\t */\n\tconstructor( size = 1 ) {\n\n\t\tconst vertices = [\n\t\t\t0, 0, 0,\tsize, 0, 0,\n\t\t\t0, 0, 0,\t0, size, 0,\n\t\t\t0, 0, 0,\t0, 0, size\n\t\t];\n\n\t\tconst colors = [\n\t\t\t1, 0, 0,\t1, 0.6, 0,\n\t\t\t0, 1, 0,\t0.6, 1, 0,\n\t\t\t0, 0, 1,\t0, 0.6, 1\n\t\t];\n\n\t\tconst geometry = new BufferGeometry();\n\t\tgeometry.setAttribute( 'position', new Float32BufferAttribute( vertices, 3 ) );\n\t\tgeometry.setAttribute( 'color', new Float32BufferAttribute( colors, 3 ) );\n\n\t\tconst material = new LineBasicMaterial( { vertexColors: true, toneMapped: false } );\n\n\t\tsuper( geometry, material );\n\n\t\tthis.type = 'AxesHelper';\n\n\t}\n\n\t/**\n\t * Defines the colors of the axes helper.\n\t *\n\t * @param {number|Color|string} xAxisColor - The color for the x axis.\n\t * @param {number|Color|string} yAxisColor - The color for the y axis.\n\t * @param {number|Color|string} zAxisColor - The color for the z axis.\n\t * @return {AxesHelper} A reference to this axes helper.\n\t */\n\tsetColors( xAxisColor, yAxisColor, zAxisColor ) {\n\n\t\tconst color = new Color();\n\t\tconst array = this.geometry.attributes.color.array;\n\n\t\tcolor.set( xAxisColor );\n\t\tcolor.toArray( array, 0 );\n\t\tcolor.toArray( array, 3 );\n\n\t\tcolor.set( yAxisColor );\n\t\tcolor.toArray( array, 6 );\n\t\tcolor.toArray( array, 9 );\n\n\t\tcolor.set( zAxisColor );\n\t\tcolor.toArray( array, 12 );\n\t\tcolor.toArray( array, 15 );\n\n\t\tthis.geometry.attributes.color.needsUpdate = true;\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever this instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis.geometry.dispose();\n\t\tthis.material.dispose();\n\n\t}\n\n}\n\n/**\n * This class is used to convert a series of paths to an array of\n * shapes. It is specifically used in context of fonts and SVG.\n */\nclass ShapePath {\n\n\t/**\n\t * Constructs a new shape path.\n\t */\n\tconstructor() {\n\n\t\tthis.type = 'ShapePath';\n\n\t\t/**\n\t\t * The color of the shape.\n\t\t *\n\t\t * @type {Color}\n\t\t */\n\t\tthis.color = new Color();\n\n\t\t/**\n\t\t * The paths that have been generated for this shape.\n\t\t *\n\t\t * @type {Array}\n\t\t * @default null\n\t\t */\n\t\tthis.subPaths = [];\n\n\t\t/**\n\t\t * The current path that is being generated.\n\t\t *\n\t\t * @type {?Path}\n\t\t * @default null\n\t\t */\n\t\tthis.currentPath = null;\n\n\t}\n\n\t/**\n\t * Creates a new path and moves it current point to the given one.\n\t *\n\t * @param {number} x - The x coordinate.\n\t * @param {number} y - The y coordinate.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tmoveTo( x, y ) {\n\n\t\tthis.currentPath = new Path();\n\t\tthis.subPaths.push( this.currentPath );\n\t\tthis.currentPath.moveTo( x, y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link LineCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} x - The x coordinate of the end point.\n\t * @param {number} y - The y coordinate of the end point.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tlineTo( x, y ) {\n\n\t\tthis.currentPath.lineTo( x, y );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link QuadraticBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCPx - The x coordinate of the control point.\n\t * @param {number} aCPy - The y coordinate of the control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tquadraticCurveTo( aCPx, aCPy, aX, aY ) {\n\n\t\tthis.currentPath.quadraticCurveTo( aCPx, aCPy, aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link CubicBezierCurve} to the path by connecting\n\t * the current point with the given one.\n\t *\n\t * @param {number} aCP1x - The x coordinate of the first control point.\n\t * @param {number} aCP1y - The y coordinate of the first control point.\n\t * @param {number} aCP2x - The x coordinate of the second control point.\n\t * @param {number} aCP2y - The y coordinate of the second control point.\n\t * @param {number} aX - The x coordinate of the end point.\n\t * @param {number} aY - The y coordinate of the end point.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tbezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY ) {\n\n\t\tthis.currentPath.bezierCurveTo( aCP1x, aCP1y, aCP2x, aCP2y, aX, aY );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Adds an instance of {@link SplineCurve} to the path by connecting\n\t * the current point with the given list of points.\n\t *\n\t * @param {Array} pts - An array of points in 2D space.\n\t * @return {ShapePath} A reference to this shape path.\n\t */\n\tsplineThru( pts ) {\n\n\t\tthis.currentPath.splineThru( pts );\n\n\t\treturn this;\n\n\t}\n\n\t/**\n\t * Converts the paths into an array of shapes.\n\t *\n\t * @param {boolean} isCCW - By default solid shapes are defined clockwise (CW) and holes are defined counterclockwise (CCW).\n\t * If this flag is set to `true`, then those are flipped.\n\t * @return {Array} An array of shapes.\n\t */\n\ttoShapes( isCCW ) {\n\n\t\tfunction toShapesNoHoles( inSubpaths ) {\n\n\t\t\tconst shapes = [];\n\n\t\t\tfor ( let i = 0, l = inSubpaths.length; i < l; i ++ ) {\n\n\t\t\t\tconst tmpPath = inSubpaths[ i ];\n\n\t\t\t\tconst tmpShape = new Shape();\n\t\t\t\ttmpShape.curves = tmpPath.curves;\n\n\t\t\t\tshapes.push( tmpShape );\n\n\t\t\t}\n\n\t\t\treturn shapes;\n\n\t\t}\n\n\t\tfunction isPointInsidePolygon( inPt, inPolygon ) {\n\n\t\t\tconst polyLen = inPolygon.length;\n\n\t\t\t// inPt on polygon contour => immediate success or\n\t\t\t// toggling of inside/outside at every single! intersection point of an edge\n\t\t\t// with the horizontal line through inPt, left of inPt\n\t\t\t// not counting lowerY endpoints of edges and whole edges on that line\n\t\t\tlet inside = false;\n\t\t\tfor ( let p = polyLen - 1, q = 0; q < polyLen; p = q ++ ) {\n\n\t\t\t\tlet edgeLowPt = inPolygon[ p ];\n\t\t\t\tlet edgeHighPt = inPolygon[ q ];\n\n\t\t\t\tlet edgeDx = edgeHighPt.x - edgeLowPt.x;\n\t\t\t\tlet edgeDy = edgeHighPt.y - edgeLowPt.y;\n\n\t\t\t\tif ( Math.abs( edgeDy ) > Number.EPSILON ) {\n\n\t\t\t\t\t// not parallel\n\t\t\t\t\tif ( edgeDy < 0 ) {\n\n\t\t\t\t\t\tedgeLowPt = inPolygon[ q ]; edgeDx = - edgeDx;\n\t\t\t\t\t\tedgeHighPt = inPolygon[ p ]; edgeDy = - edgeDy;\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( ( inPt.y < edgeLowPt.y ) || ( inPt.y > edgeHighPt.y ) ) \t\tcontinue;\n\n\t\t\t\t\tif ( inPt.y === edgeLowPt.y ) {\n\n\t\t\t\t\t\tif ( inPt.x === edgeLowPt.x )\t\treturn\ttrue;\t\t// inPt is on contour ?\n\t\t\t\t\t\t// continue;\t\t\t\t// no intersection or edgeLowPt => doesn't count !!!\n\n\t\t\t\t\t} else {\n\n\t\t\t\t\t\tconst perpEdge = edgeDy * ( inPt.x - edgeLowPt.x ) - edgeDx * ( inPt.y - edgeLowPt.y );\n\t\t\t\t\t\tif ( perpEdge === 0 )\t\t\t\treturn\ttrue;\t\t// inPt is on contour ?\n\t\t\t\t\t\tif ( perpEdge < 0 ) \t\t\t\tcontinue;\n\t\t\t\t\t\tinside = ! inside;\t\t// true intersection left of inPt\n\n\t\t\t\t\t}\n\n\t\t\t\t} else {\n\n\t\t\t\t\t// parallel or collinear\n\t\t\t\t\tif ( inPt.y !== edgeLowPt.y ) \t\tcontinue;\t\t\t// parallel\n\t\t\t\t\t// edge lies on the same horizontal line as inPt\n\t\t\t\t\tif ( ( ( edgeHighPt.x <= inPt.x ) && ( inPt.x <= edgeLowPt.x ) ) ||\n\t\t\t\t\t\t ( ( edgeLowPt.x <= inPt.x ) && ( inPt.x <= edgeHighPt.x ) ) )\t\treturn\ttrue;\t// inPt: Point on contour !\n\t\t\t\t\t// continue;\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\treturn\tinside;\n\n\t\t}\n\n\t\tconst isClockWise = ShapeUtils.isClockWise;\n\n\t\tconst subPaths = this.subPaths;\n\t\tif ( subPaths.length === 0 ) return [];\n\n\t\tlet solid, tmpPath, tmpShape;\n\t\tconst shapes = [];\n\n\t\tif ( subPaths.length === 1 ) {\n\n\t\t\ttmpPath = subPaths[ 0 ];\n\t\t\ttmpShape = new Shape();\n\t\t\ttmpShape.curves = tmpPath.curves;\n\t\t\tshapes.push( tmpShape );\n\t\t\treturn shapes;\n\n\t\t}\n\n\t\tlet holesFirst = ! isClockWise( subPaths[ 0 ].getPoints() );\n\t\tholesFirst = isCCW ? ! holesFirst : holesFirst;\n\n\t\t// console.log(\"Holes first\", holesFirst);\n\n\t\tconst betterShapeHoles = [];\n\t\tconst newShapes = [];\n\t\tlet newShapeHoles = [];\n\t\tlet mainIdx = 0;\n\t\tlet tmpPoints;\n\n\t\tnewShapes[ mainIdx ] = undefined;\n\t\tnewShapeHoles[ mainIdx ] = [];\n\n\t\tfor ( let i = 0, l = subPaths.length; i < l; i ++ ) {\n\n\t\t\ttmpPath = subPaths[ i ];\n\t\t\ttmpPoints = tmpPath.getPoints();\n\t\t\tsolid = isClockWise( tmpPoints );\n\t\t\tsolid = isCCW ? ! solid : solid;\n\n\t\t\tif ( solid ) {\n\n\t\t\t\tif ( ( ! holesFirst ) && ( newShapes[ mainIdx ] ) )\tmainIdx ++;\n\n\t\t\t\tnewShapes[ mainIdx ] = { s: new Shape(), p: tmpPoints };\n\t\t\t\tnewShapes[ mainIdx ].s.curves = tmpPath.curves;\n\n\t\t\t\tif ( holesFirst )\tmainIdx ++;\n\t\t\t\tnewShapeHoles[ mainIdx ] = [];\n\n\t\t\t\t//console.log('cw', i);\n\n\t\t\t} else {\n\n\t\t\t\tnewShapeHoles[ mainIdx ].push( { h: tmpPath, p: tmpPoints[ 0 ] } );\n\n\t\t\t\t//console.log('ccw', i);\n\n\t\t\t}\n\n\t\t}\n\n\t\t// only Holes? -> probably all Shapes with wrong orientation\n\t\tif ( ! newShapes[ 0 ] )\treturn\ttoShapesNoHoles( subPaths );\n\n\n\t\tif ( newShapes.length > 1 ) {\n\n\t\t\tlet ambiguous = false;\n\t\t\tlet toChange = 0;\n\n\t\t\tfor ( let sIdx = 0, sLen = newShapes.length; sIdx < sLen; sIdx ++ ) {\n\n\t\t\t\tbetterShapeHoles[ sIdx ] = [];\n\n\t\t\t}\n\n\t\t\tfor ( let sIdx = 0, sLen = newShapes.length; sIdx < sLen; sIdx ++ ) {\n\n\t\t\t\tconst sho = newShapeHoles[ sIdx ];\n\n\t\t\t\tfor ( let hIdx = 0; hIdx < sho.length; hIdx ++ ) {\n\n\t\t\t\t\tconst ho = sho[ hIdx ];\n\t\t\t\t\tlet hole_unassigned = true;\n\n\t\t\t\t\tfor ( let s2Idx = 0; s2Idx < newShapes.length; s2Idx ++ ) {\n\n\t\t\t\t\t\tif ( isPointInsidePolygon( ho.p, newShapes[ s2Idx ].p ) ) {\n\n\t\t\t\t\t\t\tif ( sIdx !== s2Idx )\ttoChange ++;\n\n\t\t\t\t\t\t\tif ( hole_unassigned ) {\n\n\t\t\t\t\t\t\t\thole_unassigned = false;\n\t\t\t\t\t\t\t\tbetterShapeHoles[ s2Idx ].push( ho );\n\n\t\t\t\t\t\t\t} else {\n\n\t\t\t\t\t\t\t\tambiguous = true;\n\n\t\t\t\t\t\t\t}\n\n\t\t\t\t\t\t}\n\n\t\t\t\t\t}\n\n\t\t\t\t\tif ( hole_unassigned ) {\n\n\t\t\t\t\t\tbetterShapeHoles[ sIdx ].push( ho );\n\n\t\t\t\t\t}\n\n\t\t\t\t}\n\n\t\t\t}\n\n\t\t\tif ( toChange > 0 && ambiguous === false ) {\n\n\t\t\t\tnewShapeHoles = betterShapeHoles;\n\n\t\t\t}\n\n\t\t}\n\n\t\tlet tmpHoles;\n\n\t\tfor ( let i = 0, il = newShapes.length; i < il; i ++ ) {\n\n\t\t\ttmpShape = newShapes[ i ].s;\n\t\t\tshapes.push( tmpShape );\n\t\t\ttmpHoles = newShapeHoles[ i ];\n\n\t\t\tfor ( let j = 0, jl = tmpHoles.length; j < jl; j ++ ) {\n\n\t\t\t\ttmpShape.holes.push( tmpHoles[ j ].h );\n\n\t\t\t}\n\n\t\t}\n\n\t\t//console.log(\"shape\", shapes);\n\n\t\treturn shapes;\n\n\t}\n\n}\n\n/**\n * Abstract base class for controls.\n *\n * @abstract\n * @augments EventDispatcher\n */\nclass Controls extends EventDispatcher {\n\n\t/**\n\t * Constructs a new controls instance.\n\t *\n\t * @param {Object3D} object - The object that is managed by the controls.\n\t * @param {?HTMLDOMElement} domElement - The HTML element used for event listeners.\n\t */\n\tconstructor( object, domElement = null ) {\n\n\t\tsuper();\n\n\t\t/**\n\t\t * The object that is managed by the controls.\n\t\t *\n\t\t * @type {Object3D}\n\t\t */\n\t\tthis.object = object;\n\n\t\t/**\n\t\t * The HTML element used for event listeners.\n\t\t *\n\t\t * @type {?HTMLDOMElement}\n\t\t * @default null\n\t\t */\n\t\tthis.domElement = domElement;\n\n\t\t/**\n\t\t * Whether the controls responds to user input or not.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.enabled = true;\n\n\t\t/**\n\t\t * The internal state of the controls.\n\t\t *\n\t\t * @type {number}\n\t\t * @default -1\n\t\t */\n\t\tthis.state = -1;\n\n\t\t/**\n\t\t * This object defines the keyboard input of the controls.\n\t\t *\n\t\t * @type {Object}\n\t\t */\n\t\tthis.keys = {};\n\n\t\t/**\n\t\t * This object defines what type of actions are assigned to the available mouse buttons.\n\t\t * It depends on the control implementation what kind of mouse buttons and actions are supported.\n\t\t *\n\t\t * @type {{LEFT: ?number, MIDDLE: ?number, RIGHT: ?number}}\n\t\t */\n\t\tthis.mouseButtons = { LEFT: null, MIDDLE: null, RIGHT: null };\n\n\t\t/**\n\t\t * This object defines what type of actions are assigned to what kind of touch interaction.\n\t\t * It depends on the control implementation what kind of touch interaction and actions are supported.\n\t\t *\n\t\t * @type {{ONE: ?number, TWO: ?number}}\n\t\t */\n\t\tthis.touches = { ONE: null, TWO: null };\n\n\t}\n\n\t/**\n\t * Connects the controls to the DOM. This method has so called \"side effects\" since\n\t * it adds the module's event listeners to the DOM.\n\t *\n\t * @param {HTMLDOMElement} element - The DOM element to connect to.\n\t */\n\tconnect( element ) {\n\n\t\tif ( element === undefined ) {\n\n\t\t\tconsole.warn( 'THREE.Controls: connect() now requires an element.' ); // @deprecated, the warning can be removed with r185\n\t\t\treturn;\n\n\t\t}\n\n\t\tif ( this.domElement !== null ) this.disconnect();\n\n\t\tthis.domElement = element;\n\n\t}\n\n\t/**\n\t * Disconnects the controls from the DOM.\n\t */\n\tdisconnect() {}\n\n\t/**\n\t * Call this method if you no longer want use to the controls. It frees all internal\n\t * resources and removes all event listeners.\n\t */\n\tdispose() {}\n\n\t/**\n\t * Controls should implement this method if they have to update their internal state\n\t * per simulation step.\n\t *\n\t * @param {number} [delta] - The time delta in seconds.\n\t */\n\tupdate( /* delta */ ) {}\n\n}\n\n/**\n * Scales the texture as large as possible within its surface without cropping\n * or stretching the texture. The method preserves the original aspect ratio of\n * the texture. Akin to CSS `object-fit: contain`\n *\n * @param {Texture} texture - The texture.\n * @param {number} aspect - The texture's aspect ratio.\n * @return {Texture} The updated texture.\n */\nfunction contain( texture, aspect ) {\n\n\tconst imageAspect = ( texture.image && texture.image.width ) ? texture.image.width / texture.image.height : 1;\n\n\tif ( imageAspect > aspect ) {\n\n\t\ttexture.repeat.x = 1;\n\t\ttexture.repeat.y = imageAspect / aspect;\n\n\t\ttexture.offset.x = 0;\n\t\ttexture.offset.y = ( 1 - texture.repeat.y ) / 2;\n\n\t} else {\n\n\t\ttexture.repeat.x = aspect / imageAspect;\n\t\ttexture.repeat.y = 1;\n\n\t\ttexture.offset.x = ( 1 - texture.repeat.x ) / 2;\n\t\ttexture.offset.y = 0;\n\n\t}\n\n\treturn texture;\n\n}\n\n/**\n * Scales the texture to the smallest possible size to fill the surface, leaving\n * no empty space. The method preserves the original aspect ratio of the texture.\n * Akin to CSS `object-fit: cover`.\n *\n * @param {Texture} texture - The texture.\n * @param {number} aspect - The texture's aspect ratio.\n * @return {Texture} The updated texture.\n */\nfunction cover( texture, aspect ) {\n\n\tconst imageAspect = ( texture.image && texture.image.width ) ? texture.image.width / texture.image.height : 1;\n\n\tif ( imageAspect > aspect ) {\n\n\t\ttexture.repeat.x = aspect / imageAspect;\n\t\ttexture.repeat.y = 1;\n\n\t\ttexture.offset.x = ( 1 - texture.repeat.x ) / 2;\n\t\ttexture.offset.y = 0;\n\n\t} else {\n\n\t\ttexture.repeat.x = 1;\n\t\ttexture.repeat.y = imageAspect / aspect;\n\n\t\ttexture.offset.x = 0;\n\t\ttexture.offset.y = ( 1 - texture.repeat.y ) / 2;\n\n\t}\n\n\treturn texture;\n\n}\n\n/**\n * Configures the texture to the default transformation. Akin to CSS `object-fit: fill`.\n *\n * @param {Texture} texture - The texture.\n * @return {Texture} The updated texture.\n */\nfunction fill( texture ) {\n\n\ttexture.repeat.x = 1;\n\ttexture.repeat.y = 1;\n\n\ttexture.offset.x = 0;\n\ttexture.offset.y = 0;\n\n\treturn texture;\n\n}\n\n/**\n * Determines how many bytes must be used to represent the texture.\n *\n * @param {number} width - The width of the texture.\n * @param {number} height - The height of the texture.\n * @param {number} format - The texture's format.\n * @param {number} type - The texture's type.\n * @return {number} The byte length.\n */\nfunction getByteLength( width, height, format, type ) {\n\n\tconst typeByteLength = getTextureTypeByteLength( type );\n\n\tswitch ( format ) {\n\n\t\t// https://registry.khronos.org/OpenGL-Refpages/es3.0/html/glTexImage2D.xhtml\n\t\tcase AlphaFormat:\n\t\t\treturn width * height;\n\t\tcase RedFormat:\n\t\t\treturn ( ( width * height ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RedIntegerFormat:\n\t\t\treturn ( ( width * height ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGFormat:\n\t\t\treturn ( ( width * height * 2 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGIntegerFormat:\n\t\t\treturn ( ( width * height * 2 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGBFormat:\n\t\t\treturn ( ( width * height * 3 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGBAFormat:\n\t\t\treturn ( ( width * height * 4 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\t\tcase RGBAIntegerFormat:\n\t\t\treturn ( ( width * height * 4 ) / typeByteLength.components ) * typeByteLength.byteLength;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_s3tc_srgb/\n\t\tcase RGB_S3TC_DXT1_Format:\n\t\tcase RGBA_S3TC_DXT1_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 8;\n\t\tcase RGBA_S3TC_DXT3_Format:\n\t\tcase RGBA_S3TC_DXT5_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_pvrtc/\n\t\tcase RGB_PVRTC_2BPPV1_Format:\n\t\tcase RGBA_PVRTC_2BPPV1_Format:\n\t\t\treturn ( Math.max( width, 16 ) * Math.max( height, 8 ) ) / 4;\n\t\tcase RGB_PVRTC_4BPPV1_Format:\n\t\tcase RGBA_PVRTC_4BPPV1_Format:\n\t\t\treturn ( Math.max( width, 8 ) * Math.max( height, 8 ) ) / 2;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_etc/\n\t\tcase RGB_ETC1_Format:\n\t\tcase RGB_ETC2_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 8;\n\t\tcase RGBA_ETC2_EAC_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/WEBGL_compressed_texture_astc/\n\t\tcase RGBA_ASTC_4x4_Format:\n\t\t\treturn Math.floor( ( width + 3 ) / 4 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\t\tcase RGBA_ASTC_5x4_Format:\n\t\t\treturn Math.floor( ( width + 4 ) / 5 ) * Math.floor( ( height + 3 ) / 4 ) * 16;\n\t\tcase RGBA_ASTC_5x5_Format:\n\t\t\treturn Math.floor( ( width + 4 ) / 5 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_6x5_Format:\n\t\t\treturn Math.floor( ( width + 5 ) / 6 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_6x6_Format:\n\t\t\treturn Math.floor( ( width + 5 ) / 6 ) * Math.floor( ( height + 5 ) / 6 ) * 16;\n\t\tcase RGBA_ASTC_8x5_Format:\n\t\t\treturn Math.floor( ( width + 7 ) / 8 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_8x6_Format:\n\t\t\treturn Math.floor( ( width + 7 ) / 8 ) * Math.floor( ( height + 5 ) / 6 ) * 16;\n\t\tcase RGBA_ASTC_8x8_Format:\n\t\t\treturn Math.floor( ( width + 7 ) / 8 ) * Math.floor( ( height + 7 ) / 8 ) * 16;\n\t\tcase RGBA_ASTC_10x5_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 4 ) / 5 ) * 16;\n\t\tcase RGBA_ASTC_10x6_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 5 ) / 6 ) * 16;\n\t\tcase RGBA_ASTC_10x8_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 7 ) / 8 ) * 16;\n\t\tcase RGBA_ASTC_10x10_Format:\n\t\t\treturn Math.floor( ( width + 9 ) / 10 ) * Math.floor( ( height + 9 ) / 10 ) * 16;\n\t\tcase RGBA_ASTC_12x10_Format:\n\t\t\treturn Math.floor( ( width + 11 ) / 12 ) * Math.floor( ( height + 9 ) / 10 ) * 16;\n\t\tcase RGBA_ASTC_12x12_Format:\n\t\t\treturn Math.floor( ( width + 11 ) / 12 ) * Math.floor( ( height + 11 ) / 12 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/EXT_texture_compression_bptc/\n\t\tcase RGBA_BPTC_Format:\n\t\tcase RGB_BPTC_SIGNED_Format:\n\t\tcase RGB_BPTC_UNSIGNED_Format:\n\t\t\treturn Math.ceil( width / 4 ) * Math.ceil( height / 4 ) * 16;\n\n\t\t// https://registry.khronos.org/webgl/extensions/EXT_texture_compression_rgtc/\n\t\tcase RED_RGTC1_Format:\n\t\tcase SIGNED_RED_RGTC1_Format:\n\t\t\treturn Math.ceil( width / 4 ) * Math.ceil( height / 4 ) * 8;\n\t\tcase RED_GREEN_RGTC2_Format:\n\t\tcase SIGNED_RED_GREEN_RGTC2_Format:\n\t\t\treturn Math.ceil( width / 4 ) * Math.ceil( height / 4 ) * 16;\n\n\t}\n\n\tthrow new Error(\n\t\t`Unable to determine texture byte length for ${format} format.`,\n\t);\n\n}\n\nfunction getTextureTypeByteLength( type ) {\n\n\tswitch ( type ) {\n\n\t\tcase UnsignedByteType:\n\t\tcase ByteType:\n\t\t\treturn { byteLength: 1, components: 1 };\n\t\tcase UnsignedShortType:\n\t\tcase ShortType:\n\t\tcase HalfFloatType:\n\t\t\treturn { byteLength: 2, components: 1 };\n\t\tcase UnsignedShort4444Type:\n\t\tcase UnsignedShort5551Type:\n\t\t\treturn { byteLength: 2, components: 4 };\n\t\tcase UnsignedIntType:\n\t\tcase IntType:\n\t\tcase FloatType:\n\t\t\treturn { byteLength: 4, components: 1 };\n\t\tcase UnsignedInt5999Type:\n\t\tcase UnsignedInt101111Type:\n\t\t\treturn { byteLength: 4, components: 3 };\n\n\t}\n\n\tthrow new Error( `Unknown texture type ${type}.` );\n\n}\n\n/**\n * A class containing utility functions for textures.\n *\n * @hideconstructor\n */\nclass TextureUtils {\n\n\t/**\n\t * Scales the texture as large as possible within its surface without cropping\n\t * or stretching the texture. The method preserves the original aspect ratio of\n\t * the texture. Akin to CSS `object-fit: contain`\n\t *\n\t * @param {Texture} texture - The texture.\n\t * @param {number} aspect - The texture's aspect ratio.\n\t * @return {Texture} The updated texture.\n\t */\n\tstatic contain( texture, aspect ) {\n\n\t\treturn contain( texture, aspect );\n\n\t}\n\n\t/**\n\t * Scales the texture to the smallest possible size to fill the surface, leaving\n\t * no empty space. The method preserves the original aspect ratio of the texture.\n\t * Akin to CSS `object-fit: cover`.\n\t *\n\t * @param {Texture} texture - The texture.\n\t * @param {number} aspect - The texture's aspect ratio.\n\t * @return {Texture} The updated texture.\n\t */\n\tstatic cover( texture, aspect ) {\n\n\t\treturn cover( texture, aspect );\n\n\t}\n\n\t/**\n\t * Configures the texture to the default transformation. Akin to CSS `object-fit: fill`.\n\t *\n\t * @param {Texture} texture - The texture.\n\t * @return {Texture} The updated texture.\n\t */\n\tstatic fill( texture ) {\n\n\t\treturn fill( texture );\n\n\t}\n\n\t/**\n\t * Determines how many bytes must be used to represent the texture.\n\t *\n\t * @param {number} width - The width of the texture.\n\t * @param {number} height - The height of the texture.\n\t * @param {number} format - The texture's format.\n\t * @param {number} type - The texture's type.\n\t * @return {number} The byte length.\n\t */\n\tstatic getByteLength( width, height, format, type ) {\n\n\t\treturn getByteLength( width, height, format, type );\n\n\t}\n\n}\n\nif ( typeof __THREE_DEVTOOLS__ !== 'undefined' ) {\n\n\t__THREE_DEVTOOLS__.dispatchEvent( new CustomEvent( 'register', { detail: {\n\t\trevision: REVISION,\n\t} } ) );\n\n}\n\nif ( typeof window !== 'undefined' ) {\n\n\tif ( window.__THREE__ ) {\n\n\t\tconsole.warn( 'WARNING: Multiple instances of Three.js being imported.' );\n\n\t} else {\n\n\t\twindow.__THREE__ = REVISION;\n\n\t}\n\n}\n\nexport { ACESFilmicToneMapping, AddEquation, AddOperation, AdditiveAnimationBlendMode, AdditiveBlending, AgXToneMapping, AlphaFormat, AlwaysCompare, AlwaysDepth, AlwaysStencilFunc, AmbientLight, AnimationAction, AnimationClip, AnimationLoader, AnimationMixer, AnimationObjectGroup, AnimationUtils, ArcCurve, ArrayCamera, ArrowHelper, AttachedBindMode, Audio, AudioAnalyser, AudioContext, AudioListener, AudioLoader, AxesHelper, BackSide, BasicDepthPacking, BasicShadowMap, BatchedMesh, Bone, BooleanKeyframeTrack, Box2, Box3, Box3Helper, BoxGeometry, BoxHelper, BufferAttribute, BufferGeometry, BufferGeometryLoader, ByteType, Cache, Camera, CameraHelper, CanvasTexture, CapsuleGeometry, CatmullRomCurve3, CineonToneMapping, CircleGeometry, ClampToEdgeWrapping, Clock, Color, ColorKeyframeTrack, ColorManagement, CompressedArrayTexture, CompressedCubeTexture, CompressedTexture, CompressedTextureLoader, ConeGeometry, ConstantAlphaFactor, ConstantColorFactor, Controls, CubeCamera, CubeReflectionMapping, CubeRefractionMapping, CubeTexture, CubeTextureLoader, CubeUVReflectionMapping, CubicBezierCurve, CubicBezierCurve3, CubicInterpolant, CullFaceBack, CullFaceFront, CullFaceFrontBack, CullFaceNone, Curve, CurvePath, CustomBlending, CustomToneMapping, CylinderGeometry, Cylindrical, Data3DTexture, DataArrayTexture, DataTexture, DataTextureLoader, DataUtils, DecrementStencilOp, DecrementWrapStencilOp, DefaultLoadingManager, DepthFormat, DepthStencilFormat, DepthTexture, DetachedBindMode, DirectionalLight, DirectionalLightHelper, DiscreteInterpolant, DodecahedronGeometry, DoubleSide, DstAlphaFactor, DstColorFactor, DynamicCopyUsage, DynamicDrawUsage, DynamicReadUsage, EdgesGeometry, EllipseCurve, EqualCompare, EqualDepth, EqualStencilFunc, EquirectangularReflectionMapping, EquirectangularRefractionMapping, Euler, EventDispatcher, ExternalTexture, ExtrudeGeometry, FileLoader, Float16BufferAttribute, Float32BufferAttribute, FloatType, Fog, FogExp2, FramebufferTexture, FrontSide, Frustum, FrustumArray, GLBufferAttribute, GLSL1, GLSL3, GreaterCompare, GreaterDepth, GreaterEqualCompare, GreaterEqualDepth, GreaterEqualStencilFunc, GreaterStencilFunc, GridHelper, Group, HalfFloatType, HemisphereLight, HemisphereLightHelper, IcosahedronGeometry, ImageBitmapLoader, ImageLoader, ImageUtils, IncrementStencilOp, IncrementWrapStencilOp, InstancedBufferAttribute, InstancedBufferGeometry, InstancedInterleavedBuffer, InstancedMesh, Int16BufferAttribute, Int32BufferAttribute, Int8BufferAttribute, IntType, InterleavedBuffer, InterleavedBufferAttribute, Interpolant, InterpolateDiscrete, InterpolateLinear, InterpolateSmooth, InterpolationSamplingMode, InterpolationSamplingType, InvertStencilOp, KeepStencilOp, KeyframeTrack, LOD, LatheGeometry, Layers, LessCompare, LessDepth, LessEqualCompare, LessEqualDepth, LessEqualStencilFunc, LessStencilFunc, Light, LightProbe, Line, Line3, LineBasicMaterial, LineCurve, LineCurve3, LineDashedMaterial, LineLoop, LineSegments, LinearFilter, LinearInterpolant, LinearMipMapLinearFilter, LinearMipMapNearestFilter, LinearMipmapLinearFilter, LinearMipmapNearestFilter, LinearSRGBColorSpace, LinearToneMapping, LinearTransfer, Loader, LoaderUtils, LoadingManager, LoopOnce, LoopPingPong, LoopRepeat, MOUSE, Material, MaterialLoader, MathUtils, Matrix2, Matrix3, Matrix4, MaxEquation, Mesh, MeshBasicMaterial, MeshDepthMaterial, MeshDistanceMaterial, MeshLambertMaterial, MeshMatcapMaterial, MeshNormalMaterial, MeshPhongMaterial, MeshPhysicalMaterial, MeshStandardMaterial, MeshToonMaterial, MinEquation, MirroredRepeatWrapping, MixOperation, MultiplyBlending, MultiplyOperation, NearestFilter, NearestMipMapLinearFilter, NearestMipMapNearestFilter, NearestMipmapLinearFilter, NearestMipmapNearestFilter, NeutralToneMapping, NeverCompare, NeverDepth, NeverStencilFunc, NoBlending, NoColorSpace, NoToneMapping, NormalAnimationBlendMode, NormalBlending, NotEqualCompare, NotEqualDepth, NotEqualStencilFunc, NumberKeyframeTrack, Object3D, ObjectLoader, ObjectSpaceNormalMap, OctahedronGeometry, OneFactor, OneMinusConstantAlphaFactor, OneMinusConstantColorFactor, OneMinusDstAlphaFactor, OneMinusDstColorFactor, OneMinusSrcAlphaFactor, OneMinusSrcColorFactor, OrthographicCamera, PCFShadowMap, PCFSoftShadowMap, Path, PerspectiveCamera, Plane, PlaneGeometry, PlaneHelper, PointLight, PointLightHelper, Points, PointsMaterial, PolarGridHelper, PolyhedronGeometry, PositionalAudio, PropertyBinding, PropertyMixer, QuadraticBezierCurve, QuadraticBezierCurve3, Quaternion, QuaternionKeyframeTrack, QuaternionLinearInterpolant, RAD2DEG, RED_GREEN_RGTC2_Format, RED_RGTC1_Format, REVISION, RGBADepthPacking, RGBAFormat, RGBAIntegerFormat, RGBA_ASTC_10x10_Format, RGBA_ASTC_10x5_Format, RGBA_ASTC_10x6_Format, RGBA_ASTC_10x8_Format, RGBA_ASTC_12x10_Format, RGBA_ASTC_12x12_Format, RGBA_ASTC_4x4_Format, RGBA_ASTC_5x4_Format, RGBA_ASTC_5x5_Format, RGBA_ASTC_6x5_Format, RGBA_ASTC_6x6_Format, RGBA_ASTC_8x5_Format, RGBA_ASTC_8x6_Format, RGBA_ASTC_8x8_Format, RGBA_BPTC_Format, RGBA_ETC2_EAC_Format, RGBA_PVRTC_2BPPV1_Format, RGBA_PVRTC_4BPPV1_Format, RGBA_S3TC_DXT1_Format, RGBA_S3TC_DXT3_Format, RGBA_S3TC_DXT5_Format, RGBDepthPacking, RGBFormat, RGBIntegerFormat, RGB_BPTC_SIGNED_Format, RGB_BPTC_UNSIGNED_Format, RGB_ETC1_Format, RGB_ETC2_Format, RGB_PVRTC_2BPPV1_Format, RGB_PVRTC_4BPPV1_Format, RGB_S3TC_DXT1_Format, RGDepthPacking, RGFormat, RGIntegerFormat, RawShaderMaterial, Ray, Raycaster, RectAreaLight, RedFormat, RedIntegerFormat, ReinhardToneMapping, RenderTarget, RenderTarget3D, RepeatWrapping, ReplaceStencilOp, ReverseSubtractEquation, RingGeometry, SIGNED_RED_GREEN_RGTC2_Format, SIGNED_RED_RGTC1_Format, SRGBColorSpace, SRGBTransfer, Scene, ShaderMaterial, ShadowMaterial, Shape, ShapeGeometry, ShapePath, ShapeUtils, ShortType, Skeleton, SkeletonHelper, SkinnedMesh, Source, Sphere, SphereGeometry, Spherical, SphericalHarmonics3, SplineCurve, SpotLight, SpotLightHelper, Sprite, SpriteMaterial, SrcAlphaFactor, SrcAlphaSaturateFactor, SrcColorFactor, StaticCopyUsage, StaticDrawUsage, StaticReadUsage, StereoCamera, StreamCopyUsage, StreamDrawUsage, StreamReadUsage, StringKeyframeTrack, SubtractEquation, SubtractiveBlending, TOUCH, TangentSpaceNormalMap, TetrahedronGeometry, Texture, TextureLoader, TextureUtils, Timer, TimestampQuery, TorusGeometry, TorusKnotGeometry, Triangle, TriangleFanDrawMode, TriangleStripDrawMode, TrianglesDrawMode, TubeGeometry, UVMapping, Uint16BufferAttribute, Uint32BufferAttribute, Uint8BufferAttribute, Uint8ClampedBufferAttribute, Uniform, UniformsGroup, UniformsUtils, UnsignedByteType, UnsignedInt101111Type, UnsignedInt248Type, UnsignedInt5999Type, UnsignedIntType, UnsignedShort4444Type, UnsignedShort5551Type, UnsignedShortType, VSMShadowMap, Vector2, Vector3, Vector4, VectorKeyframeTrack, VideoFrameTexture, VideoTexture, WebGL3DRenderTarget, WebGLArrayRenderTarget, WebGLCoordinateSystem, WebGLCubeRenderTarget, WebGLRenderTarget, WebGPUCoordinateSystem, WebXRController, WireframeGeometry, WrapAroundEnding, ZeroCurvatureEnding, ZeroFactor, ZeroSlopeEnding, ZeroStencilOp, arrayNeedsUint32, cloneUniforms, createCanvasElement, createElementNS, getByteLength, getUnlitUniformColorSpace, mergeUniforms, probeAsync, warnOnce };\n","// LN_SCALE_MIN..LN_SCALE_MAX define the internal scale range of for Gsplats,\n// covering approx 0.0001..8000 in range with discrete steps 7% apart.\n// The value \"0\" is reserved for truly flat scales, indicating a 2DGS.\n// If these values are changed, the corresponding values in splatDefines.glsl\n// must also be updated to match.\n\nexport const LN_SCALE_MIN = -12.0;\nexport const LN_SCALE_MAX = 9.0;\nexport const SCALE_MIN = Math.exp(LN_SCALE_MIN);\nexport const SCALE_MAX = Math.exp(LN_SCALE_MAX);\n\nexport const LN_SCALE_ZERO = -30.0;\nexport const SCALE_ZERO = Math.exp(LN_SCALE_ZERO);\n\n// Gsplats are stored in textures that are 2^11 x 2^11 x up to 2^11\n// Most WebGL2 implementations support 2D textures up to 2^12 x 2^12 (max 16M Gsplats)\n// 2D array textures and 3D textures up to 2^11 x 2^11 x 2^11 (max 8G Gsplats),\n// so we use 2D array textures for our representation for higher limits.\n\nexport const SPLAT_TEX_WIDTH_BITS = 11;\nexport const SPLAT_TEX_HEIGHT_BITS = 11;\nexport const SPLAT_TEX_DEPTH_BITS = 11;\nexport const SPLAT_TEX_LAYER_BITS =\n SPLAT_TEX_WIDTH_BITS + SPLAT_TEX_HEIGHT_BITS;\n\nexport const SPLAT_TEX_WIDTH = 1 << SPLAT_TEX_WIDTH_BITS; // 2048\nexport const SPLAT_TEX_HEIGHT = 1 << SPLAT_TEX_HEIGHT_BITS; // 2048\nexport const SPLAT_TEX_DEPTH = 1 << SPLAT_TEX_DEPTH_BITS; // 2048\nexport const SPLAT_TEX_MIN_HEIGHT = 1;\n\nexport const SPLAT_TEX_WIDTH_MASK = SPLAT_TEX_WIDTH - 1;\nexport const SPLAT_TEX_HEIGHT_MASK = SPLAT_TEX_HEIGHT - 1;\nexport const SPLAT_TEX_DEPTH_MASK = SPLAT_TEX_DEPTH - 1;\n\n// Enable/disable Gsplat sorting via Rust WASM code. In testing the sorting\n// time between pure JS and WASM are minimal and don't make a big difference.\n\nexport const WASM_SPLAT_SORT = true;\n\n// Enable/disable compiling a dedicated parse function per element type\n// in the plyReader.\n\nexport const USE_COMPILED_PARSER_FUNCTION = true;\n\nexport enum SplatFileType {\n PLY = \"ply\",\n SPZ = \"spz\",\n SPLAT = \"splat\",\n KSPLAT = \"ksplat\",\n PCSOGS = \"pcsogs\",\n PCSOGSZIP = \"pcsogszip\",\n RAD = \"rad\",\n}\n\nexport type SplatEncoding = {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n sh1Max?: number;\n sh2Max?: number;\n sh3Max?: number;\n lodOpacity?: boolean;\n};\n\nexport const DEFAULT_SPLAT_ENCODING: SplatEncoding = {\n rgbMin: 0,\n rgbMax: 1,\n lnScaleMin: LN_SCALE_MIN,\n lnScaleMax: LN_SCALE_MAX,\n sh1Max: 1,\n sh2Max: 1,\n sh3Max: 1,\n lodOpacity: false,\n};\n\nexport type RadMeta = {\n version: number;\n type: string;\n count: number;\n maxSh?: number;\n lodTree?: boolean;\n chunkSize?: number;\n chunks: {\n offset: number;\n bytes: number;\n base?: number;\n count?: number;\n filename?: string;\n }[];\n splatEncoding?: SplatEncoding;\n};\n\nexport type PackedExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type PackedResult = {\n numSplats: number;\n packedArray: Uint32Array;\n extra: PackedExtra;\n splatEncoding: SplatEncoding;\n};\n\nexport type ExtExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3a?: Uint32Array;\n sh3b?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: [Uint32Array, Uint32Array];\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type ExtResult = {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: ExtExtra;\n};\n","import type { IUniform } from \"three\";\nimport type { DynoType } from \"./types\";\nimport {\n DynoLiteral,\n DynoOutput,\n type DynoVal,\n DynoValue,\n type HasDynoOut,\n valType,\n} from \"./value\";\n\nconst DEFAULT_INDENT = \" \";\n\nexport class Compilation {\n globals: Set = new Set();\n statements: string[] = [];\n uniforms: Record = {};\n declares: Set = new Set();\n updaters: (() => void)[] = [];\n sequence = 0;\n indent: string = DEFAULT_INDENT;\n\n constructor({ indent }: { indent?: string } = {}) {\n this.indent = indent ?? DEFAULT_INDENT;\n }\n\n nextSequence() {\n return this.sequence++;\n }\n}\n\nexport type IOTypes = Record;\ntype GenerateContext = {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n};\n\nexport class Dyno {\n inTypes: InTypes;\n outTypes: OutTypes;\n\n inputs: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n }) {\n this.inTypes = inTypes ?? ({} as InTypes);\n this.outTypes = outTypes ?? ({} as OutTypes);\n this.inputs = inputs ?? {};\n this.update = update;\n\n this.globals = globals;\n this.statements = statements;\n this.generate =\n generate ??\n (({ inputs, outputs, compile }) => {\n return {\n globals: this.globals?.({ inputs, outputs, compile }),\n statements: this.statements?.({ inputs, outputs, compile }),\n };\n });\n }\n\n get outputs(): { [K in keyof OutTypes]: DynoVal } {\n const outputs = {} as { [K in keyof OutTypes]: DynoVal };\n for (const key in this.outTypes) {\n outputs[key] = new DynoOutput(this, key);\n }\n return outputs;\n }\n\n apply(inputs: { [K in keyof InTypes]?: DynoVal }): {\n [K in keyof OutTypes]: DynoVal;\n } {\n Object.assign(this.inputs, inputs);\n return this.outputs;\n }\n\n compile({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }): string[] {\n const result = [\n `// ${this.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`,\n ];\n\n const declares: (keyof OutTypes)[] = [];\n for (const key in outputs) {\n const name = outputs[key];\n if (name && !compile.declares.has(name)) {\n compile.declares.add(name);\n declares.push(key);\n }\n }\n\n const { globals, statements, uniforms } = this.generate({\n inputs,\n outputs,\n compile,\n });\n for (const global of globals ?? []) {\n compile.globals.add(global);\n }\n for (const key in uniforms) {\n compile.uniforms[key] = uniforms[key];\n }\n if (this.update) {\n compile.updaters.push(this.update);\n }\n\n for (const key of declares) {\n const name = outputs[key];\n if (name) {\n if (!compile.uniforms[name]) {\n result.push(`${dynoDeclare(name, this.outTypes[key])};`);\n }\n }\n }\n\n if (statements?.length) {\n result.push(\"{\");\n result.push(...statements.map((line) => compile.indent + line));\n result.push(\"}\");\n }\n return result;\n }\n}\n\nexport type DynoBlockType = (\n inputs: { [K in keyof InTypes]?: DynoVal },\n outputs: { [K in keyof OutTypes]?: DynoVal },\n { roots }: { roots: Dyno[] },\n) => { [K in keyof OutTypes]?: DynoVal } | undefined;\n\nexport class DynoBlock<\n InTypes extends IOTypes,\n OutTypes extends IOTypes,\n> extends Dyno {\n construct: DynoBlockType;\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n construct,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n construct: DynoBlockType;\n }) {\n super({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n generate: (args) => this.generateBlock(args),\n });\n this.construct = construct;\n }\n\n generateBlock({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }) {\n const blockInputs: { [K in keyof InTypes]?: DynoVal } = {};\n const blockOutputs: { [K in keyof OutTypes]?: DynoVal } = {};\n\n for (const key in inputs) {\n if (inputs[key] != null) {\n blockInputs[key] = new DynoLiteral(this.inTypes[key], inputs[key]);\n }\n }\n for (const key in outputs) {\n if (outputs[key] != null) {\n blockOutputs[key] = new DynoValue(this.outTypes[key]);\n }\n }\n\n const options: { roots: Dyno[] } = { roots: [] };\n const returned = this.construct(blockInputs, blockOutputs, options);\n\n for (const global of this.globals?.({ inputs, outputs, compile }) ?? []) {\n compile.globals.add(global);\n }\n\n const ordering: Dyno[] = [];\n const nodeOuts = new Map<\n Dyno,\n { sequence: number; outNames: Map; newOuts: Set }\n >();\n\n function visit(\n node: Dyno,\n outKey?: string,\n outName?: string,\n ) {\n let outs = nodeOuts.get(node);\n if (!outs) {\n // First time visiting this node\n outs = {\n sequence: compile.nextSequence(),\n outNames: new Map(),\n newOuts: new Set(),\n };\n nodeOuts.set(node, outs);\n\n for (const key in node.inputs) {\n let input = node.inputs[key];\n while (input) {\n if (input instanceof DynoValue) {\n if (input instanceof DynoOutput) {\n visit(input.dyno, input.key);\n }\n break;\n }\n // Must be as HasDynoOut\n if (typeof input.dynoOut !== \"function\") {\n throw new Error(\n `dynoOut is not a function for ${input.constructor.name}`,\n );\n }\n input = input.dynoOut();\n }\n }\n ordering.push(node);\n }\n if (outKey) {\n if (!outName) {\n outs.newOuts.add(outKey);\n }\n outs.outNames.set(outKey, outName ?? `${outKey}_${outs.sequence}`);\n }\n }\n\n for (const root of options.roots) {\n visit(root);\n }\n\n for (const key in blockOutputs) {\n let value = returned?.[key] ?? blockOutputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoOutput) {\n visit(value.dyno, value.key, outputs[key]);\n }\n break;\n }\n // Must be as HasDynoOut\n value = value.dynoOut();\n }\n blockOutputs[key] = value;\n }\n\n const steps = [];\n\n for (const dyno of ordering) {\n // compile.statements.push(`// ${dyno.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`);\n\n const inputs: Record = {};\n const outputs: Record = {};\n\n for (const key in dyno.inputs) {\n let value = dyno.inputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoLiteral) {\n inputs[key] = value.getLiteral();\n } else if (value instanceof DynoOutput) {\n const source = nodeOuts.get(value.dyno)?.outNames.get(value.key);\n if (!source) {\n throw new Error(\n `Source not found for ${value.dyno.constructor.name}.${value.key}`,\n );\n }\n inputs[key] = source;\n }\n break;\n }\n // Must be as HasDynOut\n value = value.dynoOut();\n }\n }\n\n const outs = nodeOuts.get(dyno) ?? { outNames: new Map() };\n for (const [key, name] of outs.outNames.entries()) {\n outputs[key] = name;\n }\n\n const newSteps = dyno.compile({ inputs, outputs, compile });\n steps.push(newSteps);\n }\n\n const literalOutputs = [];\n for (const key in outputs) {\n if (blockOutputs[key] instanceof DynoLiteral) {\n literalOutputs.push(\n `${outputs[key]} = ${blockOutputs[key].getLiteral()};`,\n );\n }\n }\n if (literalOutputs.length > 0) {\n steps.push(literalOutputs);\n }\n\n const statements = steps.flatMap((step, index) => {\n // Add a blank line between steps\n return index === 0 ? step : [\"\", ...step];\n });\n return { statements };\n }\n}\n\nexport function dynoBlock<\n InTypes extends Record,\n OutTypes extends Record,\n>(\n inTypes: InTypes,\n outTypes: OutTypes,\n construct: DynoBlockType,\n { update, globals }: { update?: () => void; globals?: () => string[] } = {},\n) {\n return new DynoBlock({ inTypes, outTypes, construct, update, globals });\n}\n\nexport function dyno<\n InTypes extends Record,\n OutTypes extends Record,\n>({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n}: {\n inTypes: InTypes;\n outTypes: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n}) {\n return new Dyno({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n });\n}\n\nexport function dynoDeclare(name: string, type: DynoType, count?: number) {\n const typeStr = typeof type === \"string\" ? type : type.type;\n if (!typeStr) {\n throw new Error(`Invalid DynoType: ${String(type)}`);\n }\n return `${typeStr} ${name}${count != null ? `[${count}]` : \"\"}`;\n}\n\nexport function unindentLines(s: string): string[] {\n let seenNonEmpty = false;\n const lines = s\n .split(\"\\n\")\n .map((line) => {\n const trimmedLine = line.trimEnd();\n if (seenNonEmpty) {\n return trimmedLine;\n }\n if (trimmedLine.length > 0) {\n seenNonEmpty = true;\n return trimmedLine;\n }\n return null;\n })\n .filter((line) => line != null);\n while (lines.length > 0 && lines[lines.length - 1].length === 0) {\n lines.pop();\n }\n if (lines.length === 0) {\n return [];\n }\n\n const indent = lines[0].match(/^\\s*/)?.[0];\n if (!indent) {\n return lines; // No indent, return as is\n }\n // Remove indent from the beginning of each line\n const regex = new RegExp(`^${indent}`);\n return lines.map((line) => line.replace(regex, \"\"));\n}\n\nexport function unindent(s: string): string {\n return unindentLines(s).join(\"\\n\");\n}\n\nexport class UnaryOp<\n A extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n outKey,\n outTypeFunc,\n }: { a: DynoVal; outKey: OutKey; outTypeFunc: (aType: A) => OutType }) {\n const inTypes = { a: valType(a) };\n const outType = outTypeFunc(valType(a));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class BinaryOp<\n A extends DynoType,\n B extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b) };\n const outType = outTypeFunc(valType(a), valType(b));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class TrinaryOp<\n A extends DynoType,\n B extends DynoType,\n C extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B; c: C }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n c,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n c: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B, cType: C) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b), c: valType(c) };\n const outType = outTypeFunc(valType(a), valType(b), valType(c));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b, c } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n","import { Gunzip } from \"fflate\";\nimport * as THREE from \"three\";\n\n// Miscellaneous utility functions for Spark\n\nimport {\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SCALE_ZERO,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_MIN_HEIGHT,\n SPLAT_TEX_WIDTH,\n} from \"./defines.js\";\nimport { unindent } from \"./dyno/base.js\";\n\nexport const threeRevision = Number.parseInt(THREE.REVISION);\nexport const threeMrtArray = threeRevision >= 179;\n\nconst f32buffer = new Float32Array(1);\nconst u32buffer = new Uint32Array(f32buffer.buffer);\nconst supportsFloat16Array = \"Float16Array\" in globalThis;\nconst f16buffer = supportsFloat16Array\n ? new globalThis[\"Float16Array\" as keyof typeof globalThis](1)\n : null;\nconst u16buffer = new Uint16Array(f16buffer?.buffer);\n\n// Returns a normalized array of numbers\nexport function normalize(vec: number[]) {\n const norm = Math.sqrt(vec.reduce((acc, v) => acc + v * v, 0));\n return vec.map((v) => v / norm);\n}\n\n// Reinterpret the bits of a float32 as a uint32\nexport function floatBitsToUint(f: number): number {\n f32buffer[0] = f;\n return u32buffer[0];\n}\n\n// Reinterpret the bits of a uint32 as a float32\nexport function uintBitsToFloat(u: number): number {\n u32buffer[0] = u;\n return f32buffer[0];\n}\n\nexport const toHalf = supportsFloat16Array ? toHalfNative : toHalfJS;\nexport const fromHalf = supportsFloat16Array ? fromHalfNative : fromHalfJS;\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfNative(f: number): number {\n f16buffer[0] = f;\n return u16buffer[0];\n}\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfJS(f: number): number {\n // Store the value into the shared Float32 array.\n f32buffer[0] = f;\n const bits = u32buffer[0];\n\n // Extract sign (1 bit), exponent (8 bits), and fraction (23 bits)\n const sign = (bits >> 31) & 0x1;\n const exp = (bits >> 23) & 0xff;\n const frac = bits & 0x7fffff;\n const halfSign = sign << 15;\n\n // Handle special cases: NaN and Infinity\n if (exp === 0xff) {\n // NaN: set all exponent bits to 1 and some nonzero fraction bits.\n if (frac !== 0) {\n return halfSign | 0x7fff;\n }\n // Infinity\n return halfSign | 0x7c00;\n }\n\n // Adjust the exponent from float32 bias (127) to float16 bias (15)\n const newExp = exp - 127 + 15;\n\n // Handle overflow: too large to represent in half precision.\n if (newExp >= 0x1f) {\n return halfSign | 0x7c00; // Infinity\n }\n if (newExp <= 0) {\n // Handle subnormals and underflow.\n if (newExp < -10) {\n // Too small: underflows to zero.\n return halfSign;\n }\n // Convert to subnormal: add the implicit leading 1 to the fraction,\n // then shift to align with the half-precision's 10 fraction bits.\n const subFrac = (frac | 0x800000) >> (1 - newExp + 13);\n return halfSign | subFrac;\n }\n\n // Normalized half-precision number: shift fraction to fit into 10 bits.\n const halfFrac = frac >> 13;\n return halfSign | (newExp << 10) | halfFrac;\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfNative(u: number): number {\n u16buffer[0] = u;\n return f16buffer[0];\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfJS(h: number): number {\n // Extract the sign (1 bit), exponent (5 bits), and fraction (10 bits)\n const sign = (h >> 15) & 0x1;\n const exp = (h >> 10) & 0x1f;\n const frac = h & 0x3ff;\n\n let f32bits: number;\n\n if (exp === 0) {\n if (frac === 0) {\n // Zero (positive or negative)\n f32bits = sign << 31;\n } else {\n // Subnormal half-precision number.\n // Normalize the subnormal number:\n let mant = frac;\n let e = -14; // For half, the exponent for subnormals is fixed at -14.\n // Shift left until the implicit leading 1 is in place.\n while ((mant & 0x400) === 0) {\n // 0x400 === 1 << 10\n mant <<= 1;\n e--;\n }\n // Remove the leading 1 (which is now implicit)\n mant &= 0x3ff;\n // Convert the half exponent (e) to the 32-bit float exponent:\n const newExp = e + 127; // 32-bit float bias is 127.\n const newFrac = mant << 13; // Align to 23-bit fraction (23 - 10 = 13)\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n } else if (exp === 0x1f) {\n // Handle special cases for Infinity and NaN.\n if (frac === 0) {\n // Infinity\n f32bits = (sign << 31) | 0x7f800000;\n } else {\n // NaN (we choose a quiet NaN)\n f32bits = (sign << 31) | 0x7fc00000;\n }\n } else {\n // Normalized half-precision number.\n // Adjust exponent from half (bias 15) to float32 (bias 127)\n const newExp = exp - 15 + 127;\n const newFrac = frac << 13;\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n\n // Write the 32-bit bit pattern to the shared buffer,\n // then read it as a float32 to return a JavaScript number.\n u32buffer[0] = f32bits;\n return f32buffer[0];\n}\n\n// Convert a number 0..1 to a 0..255 uint\nexport function floatToUint8(v: number): number {\n // Converts from 0..1 float to 0..255 uint8\n return Math.max(0, Math.min(255, Math.round(v * 255)));\n}\n\n// Convert a number -1..1 to a -127..127 int\nexport function floatToSint8(v: number): number {\n // Converts from -1..1 float to -127..127 int8\n return Math.max(-127, Math.min(127, Math.round(v * 127)));\n}\n\n// Convert a 0..255 uint to a 0..1 float\nexport function Uint8ToFloat(v: number): number {\n // Converts from 0..255 uint8 to 0..1 float\n return v / 255;\n}\n\n// Convert a -127..127 int to a -1..1 float\nexport function Sint8ToFloat(v: number): number {\n // Converts from -127..127 int8 to -1..1 float\n return v / 127;\n}\n\n// A simple utility class for caching a fixed number of items\nexport class DataCache {\n // Maximum number of items to cache\n maxItems: number;\n\n // Function to fetch data for a key\n asyncFetch: (key: string) => Promise;\n\n // Function to dispose of data when it is no longer needed\n dispose?: (data: unknown) => void;\n\n // Array of cached items\n items: { key: string; data: unknown }[];\n\n // In-progress fetch promises\n pending: Map>;\n\n // Create a DataCache with a given function that fetches data not in the cache.\n constructor({\n asyncFetch,\n dispose,\n maxItems = 5,\n }: {\n asyncFetch: (key: string) => Promise;\n dispose?: (data: unknown) => void;\n maxItems?: number;\n }) {\n this.asyncFetch = asyncFetch;\n this.dispose = dispose;\n this.maxItems = maxItems;\n this.items = [];\n this.pending = new Map();\n }\n\n has(key: string): boolean {\n return this.items.some((item) => item.key === key);\n }\n\n getImmediate(key: string): unknown | undefined {\n const index = this.items.findIndex((item) => item.key === key);\n if (index >= 0) {\n // Data exists in our cache, move it to the end of the array\n const item = this.items.splice(index, 1)[0];\n this.items.push(item);\n // Return the cached data\n return item.data;\n }\n return undefined;\n }\n\n // Fetch data for the key, returning cached data if available.\n async getFetch(key: string): Promise {\n const immediate = this.getImmediate(key);\n if (immediate !== undefined) {\n return immediate;\n }\n\n let pending = this.pending.get(key);\n if (pending) {\n return pending;\n }\n\n pending = this.asyncFetch(key).then((data) => {\n this.pending.delete(key);\n\n // Add the data to the cache\n this.items.push({ key, data });\n // If the cache is too large, remove the oldest accessed item\n while (this.items.length > this.maxItems) {\n const removed = this.items.shift();\n if (removed && this.dispose) {\n this.dispose(removed.data);\n }\n }\n // Return the fetched data\n return data;\n });\n this.pending.set(key, pending);\n return pending;\n }\n}\n\n// Like Array.map but for objects\nexport function mapObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n const entries = Object.entries(obj).map(([key, value]) => [\n key,\n fn(value, key),\n ]);\n // Returns a new object with the mapped values\n return Object.fromEntries(entries);\n}\n\n// Like Array.map().filter() but for objects.\n// The callback fn() should return undefined to filter out the key.\nexport function mapFilterObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n // If no return (or return undefined), the key is not included in the result\n const entries = Object.entries(obj)\n .map(([key, value]) => [key, fn(value, key)])\n .filter(([_, value]) => value !== undefined);\n // Returns a new object with the filtered values\n return Object.fromEntries(entries);\n}\n\n// Recursively finds all ArrayBuffers in an object and returns them as an array\n// to use as transferable objects to send between workers.\nexport function getTransferable(ctx: unknown): Transferable[] {\n const buffers: Transferable[] = [];\n const seen = new Set();\n\n function traverse(obj: unknown) {\n if (obj && typeof obj === \"object\" && !seen.has(obj)) {\n seen.add(obj);\n\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n // Handles TypedArrays and DataView\n buffers.push(obj.buffer as ArrayBuffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n\n traverse(ctx);\n return buffers;\n}\n\n// Create an array of the given size and initialize element with initFunction()\nexport function newArray(\n n: number,\n initFunction: (index: number) => T,\n): T[] {\n // Creates a new array and calls a constructor function for each element with index\n return new Array(n).fill(null).map((_, i) => initFunction(i));\n}\n\n// A free list that has a pool of items of type T, with callbacks\n// for constructing, disposing, and checking if an item is valid for the given args.\nexport class FreeList {\n items: T[];\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n\n constructor({\n // Allocate a new item with the given args\n allocate,\n // Dispose of an item (optional, if GC is enough)\n dispose,\n // Check if an existing item in the list is valid for the given args,\n // allowing you to store heterogeneous items in the list.\n valid,\n }: {\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n }) {\n this.items = [];\n this.allocate = allocate;\n this.dispose = dispose;\n this.valid = valid;\n }\n\n // Allocate a new item from the free list, first checking if a existing item\n // on the freelist is valid for the given args.\n alloc(args: Args): T {\n while (true) {\n const item = this.items.pop();\n if (!item) {\n // No items in the free list, allocate a new one\n break;\n }\n if (this.valid(item, args)) {\n // Found a valid item, return it\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): found valid item. Reusing...`);\n return item;\n }\n // Item isn't valid for our args, dispose of it and try again\n if (this.dispose) {\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): disposing invalid item.`);\n this.dispose(item);\n }\n }\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): allocating new item`);\n return this.allocate(args);\n }\n\n free(item: T) {\n // Return item to the free list\n this.items.push(item);\n }\n\n disposeAll() {\n // Disposes of all items in the free list\n let item: T | undefined;\n item = this.items.pop();\n while (item) {\n if (this.dispose) {\n this.dispose(item);\n }\n item = this.items.pop();\n }\n }\n}\n\nexport function encodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) {\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n extA[i4] = floatBitsToUint(x);\n extA[i4 + 1] = floatBitsToUint(y);\n extA[i4 + 2] = floatBitsToUint(z);\n extA[i4 + 3] = toHalf(opacity);\n extB[i4] = toHalf(r) | (toHalf(g) << 16);\n extB[i4 + 1] = toHalf(b) | (toHalf(Math.log(scaleX)) << 16);\n extB[i4 + 2] = toHalf(Math.log(scaleY)) | (toHalf(Math.log(scaleZ)) << 16);\n extB[i4 + 3] = encodeQuatOctXy1010R12(quatX, quatY, quatZ, quatW);\n}\n\nexport function decodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n result.center.x = uintBitsToFloat(extA[i4]);\n result.center.y = uintBitsToFloat(extA[i4 + 1]);\n result.center.z = uintBitsToFloat(extA[i4 + 2]);\n result.opacity = fromHalf(extA[i4 + 3] & 0xffff);\n result.color.r = fromHalf(extB[i4] & 0xffff);\n result.color.g = fromHalf(extB[i4] >>> 16);\n result.color.b = fromHalf(extB[i4 + 1] & 0xffff);\n result.scales.x = Math.exp(fromHalf(extB[i4 + 1] >>> 16));\n result.scales.y = Math.exp(fromHalf(extB[i4 + 2] & 0xffff));\n result.scales.z = Math.exp(fromHalf(extB[i4 + 2] >>> 16));\n decodeQuatOctXy1010R12(extB[i4 + 3], result.quaternion);\n return result;\n}\n\n// Encode a PackedSplat as 4 consecutive Uint32 elements in the packedSplats array.\n// The center coordinates x,y,z are encoded as float16, the scales x,y,z as a\n// logarithmic uint8, rotation as three uint8s representing rotation axis and angle,\n// and RGBA as 4xuint8.\nexport function setPackedSplat(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * opacity : opacity);\n\n // Alternate internal encodings commented out below.\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n // Encode the splat as 4 consecutive Uint32 elements\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] =\n uScaleX | (uScaleY << 8) | (uScaleZ << 16) | (uQuatZ << 24);\n}\n\n// Encode the center coordinates x,y,z in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatCenter(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n) {\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n const i4 = index * 4;\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (packedSplats[i4 + 2] & 0xffff0000);\n}\n\n// Encode the scales x,y,z in the packedSplats Uint32Array, leaving all other fields as is.\nexport function setPackedSplatScales(\n packedSplats: Uint32Array,\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n encoding?: {\n lnScaleMin?: number;\n lnScaleMax?: number;\n },\n) {\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const i4 = index * 4;\n packedSplats[i4 + 3] =\n uScaleX |\n (uScaleY << 8) |\n (uScaleZ << 16) |\n (packedSplats[i4 + 3] & 0xff000000);\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempQuaternion = new THREE.Quaternion();\n\n// Encode the rotation quatX, quatY, quatZ, quatW in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatQuat(\n packedSplats: Uint32Array,\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n) {\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n const i4 = index * 4;\n packedSplats[i4 + 2] =\n (packedSplats[i4 + 2] & 0x0000ffff) | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] = (packedSplats[i4 + 3] & 0x00ffffff) | (uQuatZ << 24);\n}\n\n// Encode the RGBA color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgba(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n a: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * a : a);\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n}\n\n// Encode the RGB color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgb(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n\n const i4 = index * 4;\n packedSplats[i4] =\n uR | (uG << 8) | (uB << 16) | (packedSplats[i4] & 0xff000000);\n}\n\n// Encode the opacity in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatOpacity(\n packedSplats: Uint32Array,\n index: number,\n opacity: number,\n) {\n const uA = floatToUint8(opacity);\n\n const i4 = index * 4;\n packedSplats[i4] = (packedSplats[i4] & 0x00ffffff) | (uA << 24);\n}\n\nconst packedCenter = new THREE.Vector3();\nconst packedScales = new THREE.Vector3();\nconst packedQuaternion = new THREE.Quaternion();\nconst packedColor = new THREE.Color();\nconst packedFields = {\n center: packedCenter,\n scales: packedScales,\n quaternion: packedQuaternion,\n color: packedColor,\n opacity: 0.0,\n};\n\n// Unpack all components of a PackedSplat from the packedSplats Uint32Array into\n// THREE.js vector objects. The returned objects will be reused each call.\nexport function unpackSplat(\n packedSplats: Uint32Array,\n index: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n\n const i4 = index * 4;\n const word0 = packedSplats[i4];\n const word1 = packedSplats[i4 + 1];\n const word2 = packedSplats[i4 + 2];\n const word3 = packedSplats[i4 + 3];\n\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n result.color.set(\n rgbMin + ((word0 & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 8) & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 16) & 0xff) / 255) * rgbRange,\n );\n result.opacity = ((word0 >>> 24) & 0xff) / 255;\n if (encoding?.lodOpacity) {\n result.opacity = 2.0 * result.opacity;\n }\n result.center.set(\n fromHalf(word1 & 0xffff),\n fromHalf((word1 >>> 16) & 0xffff),\n fromHalf(word2 & 0xffff),\n );\n\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = (lnScaleMax - lnScaleMin) / 254.0;\n const uScalesX = word3 & 0xff;\n result.scales.x =\n uScalesX === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesX - 1) * lnScaleScale);\n const uScalesY = (word3 >>> 8) & 0xff;\n result.scales.y =\n uScalesY === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesY - 1) * lnScaleScale);\n const uScalesZ = (word3 >>> 16) & 0xff;\n result.scales.z =\n uScalesZ === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesZ - 1) * lnScaleScale);\n\n const uQuat = ((word2 >>> 16) & 0xffff) | ((word3 >>> 8) & 0xff0000);\n decodeQuatOctXy88R8(uQuat, result.quaternion);\n // decodeQuatXyz888(uQuat, result.quaternion);\n // decodeQuatEulerXyz888(uQuat, result.quaternion);\n\n return result;\n}\n\n// Compute a texture array size that is large enough to fit numSplats. The most\n// common 2D texture size in WebGL2 is 4096x4096 which only allows for 16M splats,\n// so Spark stores Gsplat data in a 2D texture array, which most platforms support\n// up to 2048x2048x2048 = 8G splats. Allocations that fit within a single 2D texture\n// array layer will be rounded up to fill an entire texture row. Once a texture\n// array layer is filled, the allocation will be rounded up to fill an entire layer.\n// This is done so the entire set of splats can be covered by min/max coords across\n// each dimension.\nexport function getTextureSize(numSplats: number): {\n width: number;\n height: number;\n depth: number;\n maxSplats: number;\n} {\n // Compute a texture array size that is large enough to fit numSplats.\n // The width is always 2048, the height sized to fit the splats but no larger than 2048.\n // The depth is the number of layers needed to fit the splats.\n // maxSplats is computed as the new total available splats that can be stored.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n const maxSplats = width * height * depth;\n return { width, height, depth, maxSplats };\n}\n\nexport function computeMaxSplats(numSplats: number): number {\n // Compute the size of a Gsplat array texture (2048x2048xD) that can fit\n // numSplats splats, and return the total number of splats that can be stored\n // in such a texture.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n return width * height * depth;\n}\n\n// Heuristic function to determine if we are running on a mobile device.\nexport function isMobile(): boolean {\n if (navigator.platform.toLowerCase().startsWith(\"win\")) {\n return false;\n }\n if (navigator.maxTouchPoints > 0) {\n // Touch-enabled device, assume it's mobile\n return true;\n }\n return /Mobi|Android|iPhone|iPad|iPod|Opera Mini|IEMobile/.test(\n navigator.userAgent,\n );\n}\n\n// Heuristic function to determine if we are running on an Android device.\n// (does not include Oculus Quest)\nexport function isAndroid(): boolean {\n return (\n /Android/.test(navigator.userAgent) || /Tizen/.test(navigator.userAgent)\n );\n}\n\n// Heuristic function to determine if we are running on an Oculus Quest device.\nexport function isOculus(): boolean {\n return !!navigator.xr && /Oculus/.test(navigator.userAgent);\n}\n\nexport function isQuest2() {\n return isOculus() && /Quest 2/.test(navigator.userAgent);\n}\n\nexport function isIos(): boolean {\n return /iPhone|iPad/.test(navigator.userAgent);\n}\n\nexport function isVisionPro(): boolean {\n return (\n !!navigator.xr &&\n isIos() &&\n /Safari/.test(navigator.userAgent) &&\n isMobile()\n );\n}\n\n// Take an array of RGBA8 encoded pixels and flip them vertically in-place.\n// This is useful for converting between top-left and bottom-left coordinate systems\n// in standard 2D images vs WebGL2.\nexport function flipPixels(\n pixels: Uint8Array,\n width: number,\n height: number,\n): Uint8Array {\n // Flips pixels vertically in-place, returns original array.\n const tempLine = new Uint8Array(width * 4);\n\n // Only need to process half the height since we're swapping\n for (let y = 0; y < height / 2; y++) {\n const topOffset = y * width * 4;\n const bottomOffset = (height - 1 - y) * width * 4;\n\n // Save top line to temp buffer\n tempLine.set(pixels.subarray(topOffset, topOffset + width * 4));\n // Move bottom line to top\n pixels.set(\n pixels.subarray(bottomOffset, bottomOffset + width * 4),\n topOffset,\n );\n // Move saved top line to bottom\n pixels.set(tempLine, bottomOffset);\n }\n return pixels;\n}\n\n// Utility to take an array of RGBA8 encoded pixels and convert them to a\n// PNG-encoded image data URL that can be downloaded to the client.\nexport function pixelsToPngUrl(\n pixels: Uint8Array,\n width: number,\n height: number,\n): string {\n const canvas = document.createElement(\"canvas\");\n canvas.width = width;\n canvas.height = height;\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n throw new Error(\"Can't get 2d context\");\n }\n const imageData = ctx.createImageData(width, height);\n imageData.data.set(pixels);\n ctx.putImageData(imageData, 0, 0);\n return canvas.toDataURL(\"image/png\");\n}\n\n// Manually clone a THREE.Clock object.\nexport function cloneClock(clock: THREE.Clock): THREE.Clock {\n const newClock = new THREE.Clock(clock.autoStart);\n newClock.startTime = clock.startTime;\n newClock.oldTime = clock.oldTime;\n newClock.elapsedTime = clock.elapsedTime;\n newClock.running = clock.running;\n return newClock;\n}\n\n// Utility to filter out an undefined values from an object.\nexport function omitUndefined(obj: T): Partial {\n return Object.fromEntries(\n Object.entries(obj).filter(([_, value]) => value !== undefined),\n ) as Partial;\n}\n\n// \"Identity\" vertex shader that just passes through the position.\nexport const IDENT_VERTEX_SHADER = unindent(`\n precision highp float;\n\n in vec3 position;\n\n void main() {\n gl_Position = vec4(position.xy, 0.0, 1.0);\n }\n`);\n\n// Returns the average position of an array of THREE.Vector3.\nexport function averagePositions(positions: THREE.Vector3[]): THREE.Vector3 {\n const sum = new THREE.Vector3();\n for (const position of positions) {\n sum.add(position);\n }\n return sum.divideScalar(positions.length);\n}\n\n// Returns an \"average\" of an array of THREE.Quaternion objects.\n// Note that this is not a spherical lerp between quaternions but\n// rather an arithmetic mean that is normalized to unit length.\nexport function averageQuaternions(\n quaternions: THREE.Quaternion[],\n): THREE.Quaternion {\n if (quaternions.length === 0) {\n return new THREE.Quaternion();\n }\n const sum = quaternions[0].clone();\n for (let i = 1; i < quaternions.length; i++) {\n if (quaternions[i].dot(quaternions[0]) < 0.0) {\n sum.x -= quaternions[i].x;\n sum.y -= quaternions[i].y;\n sum.z -= quaternions[i].z;\n sum.w -= quaternions[i].w;\n } else {\n sum.x += quaternions[i].x;\n sum.y += quaternions[i].y;\n sum.z += quaternions[i].z;\n sum.w += quaternions[i].w;\n }\n }\n return sum.normalize();\n}\n\n// Compare two coordinates given by matrix1 and matrix2, returning the distance\n// between their origins and the \"coincidence\" of their orientations, defined\n// as the dot product of their \"-z\" axes.\nexport function coinciDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n const direction1 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix1)\n .sub(origin1)\n .normalize();\n const direction2 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix2)\n .sub(origin2)\n .normalize();\n\n const distance = origin1.distanceTo(origin2);\n const coincidence = direction1.dot(direction2);\n return { distance, coincidence };\n}\n\n// Utility function that returns whether two coordinate system origins\n// given by matrix1 and matrix2 are within a certain maxDistance of each other.\nexport function withinDist({\n matrix1,\n matrix2,\n maxDistance,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n}): boolean {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n return origin1.distanceTo(origin2) <= maxDistance;\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined by a maxDistance and a minCoincidence.\nexport function withinCoinciDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoincidence,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoincidence?: number;\n}): boolean {\n const { distance, coincidence } = coinciDist(matrix1, matrix2);\n return (\n distance <= maxDistance &&\n (minCoincidence == null || coincidence >= minCoincidence)\n );\n}\n\n// Compare two coordinate systems given by matrix1 and matrix2, returning the\n// distance between their origins and the \"coorientation\" of their orientations,\n// define as the dot product of their quaternion transforms (flipping their\n// orientation to be on the same hemisphere if necessary).\nexport function coorientDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const [origin1, rotate1] = [new THREE.Vector3(), new THREE.Quaternion()];\n const [origin2, rotate2] = [new THREE.Vector3(), new THREE.Quaternion()];\n matrix1.decompose(origin1, rotate1, new THREE.Vector3());\n matrix2.decompose(origin2, rotate2, new THREE.Vector3());\n\n const distance = origin1.distanceTo(origin2);\n const coorient = Math.abs(rotate1.dot(rotate2));\n return { distance, coorient };\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined a maxDistance and a minCoorient.\nexport function withinCoorientDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoorient,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoorient?: number;\n}): boolean {\n const { distance, coorient } = coorientDist(matrix1, matrix2);\n return (\n distance <= maxDistance && (minCoorient == null || coorient >= minCoorient)\n );\n}\n\n// Like Math.sign but with a custom epsilon value.\nexport function epsilonSign(value: number, epsilon = 0.001): number {\n if (Math.abs(value) < epsilon) {\n return 0;\n }\n return Math.sign(value);\n}\n\n// Encode a THREE.Quaternion into a 24-bit integer, converting the xyz coordinates\n// to signed 8-bit integers (w can be derived from xyz), and flipping the sign\n// of the quaternion if necessary to make this possible (q == -q for quaternions).\nexport function encodeQuatXyz888(q: THREE.Quaternion): number {\n const negQuat = q.w < 0.0;\n const iQuatX = floatToSint8(negQuat ? -q.x : q.x);\n const iQuatY = floatToSint8(negQuat ? -q.y : q.y);\n const iQuatZ = floatToSint8(negQuat ? -q.z : q.z);\n const uQuatX = iQuatX & 0xff;\n const uQuatY = iQuatY & 0xff;\n const uQuatZ = iQuatZ & 0xff;\n return uQuatX | (uQuatY << 8) | (uQuatZ << 16);\n}\n\n// Decode a 24-bit integer of the quaternion's xyz coordinates into a THREE.Quaternion.\nexport function decodeQuatXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n const iQuatX = (encoded << 24) >> 24;\n const iQuatY = (encoded << 16) >> 24;\n const iQuatZ = (encoded << 8) >> 24;\n out.set(iQuatX / 127.0, iQuatY / 127.0, iQuatZ / 127.0, 0.0);\n const dotSelf = out.x * out.x + out.y * out.y + out.z * out.z;\n out.w = Math.sqrt(Math.max(0.0, 1.0 - dotSelf));\n return out;\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempNormalizedQuaternion = new THREE.Quaternion();\nconst tempAxis = new THREE.Vector3();\n\n/**\n * Encodes a THREE.Quaternion into a 24‐bit integer.\n *\n * Bit layout (LSB → MSB):\n * - Bits 0–7: quantized U (8 bits)\n * - Bits 8–15: quantized V (8 bits)\n * - Bits 16–23: quantized angle θ (8 bits) from [0,π]\n *\n * This version uses folded octahedral mapping (all inline).\n */\nexport function encodeQuatOctXy88R8(q: THREE.Quaternion): number {\n // Force the minimal representation (q.w >= 0)\n const qnorm = tempNormalizedQuaternion.copy(q).normalize();\n if (qnorm.w < 0) {\n qnorm.set(-qnorm.x, -qnorm.y, -qnorm.z, -qnorm.w);\n }\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnorm.w);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(\n qnorm.x * qnorm.x + qnorm.y * qnorm.y + qnorm.z * qnorm.z,\n );\n const axis =\n xyz_norm < 1e-6\n ? tempAxis.set(1, 0, 0)\n : tempAxis.set(qnorm.x, qnorm.y, qnorm.z).divideScalar(xyz_norm);\n // const foldAxis = (axis.z < 0);\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axis.x) + Math.abs(axis.y) + Math.abs(axis.z);\n let p_x = axis.x / sum;\n let p_y = axis.y / sum;\n // Fold the lower hemisphere.\n if (axis.z < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 7 bits (0..127)\n const quantU = Math.round(u_f * 255);\n const quantV = Math.round(v_f * 255);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 10 bits (0..1023) ---\n const angleInt = Math.round(theta * (255 / Math.PI));\n\n // Pack into 24 bits: bits [0–7]: quantU, [8–15]: quantV, [16–23]: angleInt.\n return (angleInt << 16) | (quantV << 8) | quantU;\n}\n\n/**\n * Decodes a 24‐bit encoded quaternion (packed in a number) back to a THREE.Quaternion.\n *\n * Assumes the same bit layout as in encodeQuatOctXy88R8.\n */\nexport function decodeQuatOctXy88R8(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 8‐bit quantU and quantV, and 8‐bit angleInt.\n const quantU = encoded & 0xff; // bits 0–7\n const quantV = (encoded >>> 8) & 0xff; // bits 8–15\n const angleInt = (encoded >>> 16) & 0xff; // bits 16–23\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 255;\n const v_f = quantV / 255;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axis = tempAxis.set(f_x, f_y, f_z).normalize();\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 255) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axis.x * s, axis.y * s, axis.z * s, w);\n return out;\n}\n\n/**\n * Encodes a THREE.Quaternion into a 24‑bit unsigned integer\n * by converting it to Euler angles (roll, pitch, yaw).\n * The Euler angles are assumed to be in radians in the range [-π, π].\n * Each angle is normalized to [0,1] and quantized to 8 bits.\n * Bit layout (LSB→MSB):\n * - Bits 0–7: roll (quantized)\n * - Bits 8–15: pitch (quantized)\n * - Bits 16–23: yaw (quantized)\n */\nexport function encodeQuatEulerXyz888(q: THREE.Quaternion): number {\n // Normalize quaternion to ensure a proper rotation.\n const qNorm = q.clone().normalize();\n\n // Tait–Bryan angles (roll, pitch, yaw)\n const sinr_cosp = 2.0 * (qNorm.w * qNorm.x + qNorm.y * qNorm.z);\n const cosr_cosp = 1.0 - 2.0 * (qNorm.x * qNorm.x + qNorm.y * qNorm.y);\n const roll = Math.atan2(sinr_cosp, cosr_cosp);\n\n const sinp = 2.0 * (qNorm.w * qNorm.y - qNorm.z * qNorm.x);\n const pitch =\n Math.abs(sinp) >= 1.0 ? Math.sign(sinp) * (Math.PI / 2) : Math.asin(sinp);\n\n const siny_cosp = 2.0 * (qNorm.w * qNorm.z + qNorm.x * qNorm.y);\n const cosy_cosp = 1.0 - 2.0 * (qNorm.y * qNorm.y + qNorm.z * qNorm.z);\n const yaw = Math.atan2(siny_cosp, cosy_cosp);\n\n // Map each angle from [-π, π] to [0, 1]\n const normRoll = (roll + Math.PI) / (2 * Math.PI);\n const normPitch = (pitch + Math.PI) / (2 * Math.PI);\n const normYaw = (yaw + Math.PI) / (2 * Math.PI);\n\n // Quantize to 8 bits (0 to 255)\n const rollQ = Math.round(normRoll * 255);\n const pitchQ = Math.round(normPitch * 255);\n const yawQ = Math.round(normYaw * 255);\n\n // Pack into a 24-bit unsigned integer:\n // Bits 0–7: rollQ, Bits 8–15: pitchQ, Bits 16–23: yawQ.\n return (yawQ << 16) | (pitchQ << 8) | rollQ;\n}\n\n/**\n * Decodes a 24‑bit unsigned integer into a THREE.Quaternion\n * by unpacking three 8‑bit values (roll, pitch, yaw) in the range [0,255]\n * and then converting them back to Euler angles in [-π, π] and to a quaternion.\n */\nexport function decodeQuatEulerXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Unpack 8‑bit values.\n const rollQ = encoded & 0xff;\n const pitchQ = (encoded >>> 8) & 0xff;\n const yawQ = (encoded >>> 16) & 0xff;\n\n // Convert quantized values back to normalized [0,1] values.\n const normRoll = rollQ / 255;\n const normPitch = pitchQ / 255;\n const normYaw = yawQ / 255;\n\n // Map from [0,1] to [-π, π]\n const roll = normRoll * (2 * Math.PI) - Math.PI;\n const pitch = normPitch * (2 * Math.PI) - Math.PI;\n const yaw = normYaw * (2 * Math.PI) - Math.PI;\n\n // Convert Euler angles to quaternion (Tait–Bryan: roll, pitch, yaw).\n const cr = Math.cos(roll * 0.5);\n const sr = Math.sin(roll * 0.5);\n const cp = Math.cos(pitch * 0.5);\n const sp = Math.sin(pitch * 0.5);\n const cy = Math.cos(yaw * 0.5);\n const sy = Math.sin(yaw * 0.5);\n\n out.w = cr * cp * cy + sr * sp * sy;\n out.x = sr * cp * cy - cr * sp * sy;\n out.y = cr * sp * cy + sr * cp * sy;\n out.z = cr * cp * sy - sr * sp * cy;\n out.normalize();\n return out;\n}\n\nexport function encodeQuatOctXy1010R12(\n qx: number,\n qy: number,\n qz: number,\n qw: number,\n): number {\n const qlen = Math.sqrt(qx * qx + qy * qy + qz * qz + qw * qw);\n // Force the minimal representation (q.w >= 0)\n const qnx = (qw < 0 ? -qx : qx) / qlen;\n const qny = (qw < 0 ? -qy : qy) / qlen;\n const qnz = (qw < 0 ? -qz : qz) / qlen;\n const qnw = (qw < 0 ? -qw : qw) / qlen;\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnw);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(qnx * qnx + qny * qny + qnz * qnz);\n const axisX = xyz_norm < 1e-6 ? 1 : qnx / xyz_norm;\n const axisY = xyz_norm < 1e-6 ? 0 : qny / xyz_norm;\n const axisZ = xyz_norm < 1e-6 ? 0 : qnz / xyz_norm;\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axisX) + Math.abs(axisY) + Math.abs(axisZ);\n let p_x = axisX / sum;\n let p_y = axisY / sum;\n // Fold the lower hemisphere.\n if (axisZ < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 10 bits (0..1023)\n const quantU = Math.round(u_f * 1023);\n const quantV = Math.round(v_f * 1023);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 12 bits (0..4095) ---\n const angleInt = Math.round(theta * (4095 / Math.PI));\n\n // Pack into 32 bits: bits [0–9]: quantU, [10–19]: quantV, [20–31]: angleInt.\n return (angleInt << 20) | (quantV << 10) | quantU;\n}\n\nexport function decodeQuatOctXy1010R12(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 10‐bit quantU and quantV, and 12‐bit angleInt.\n const quantU = encoded & 0x3ff; // bits 0–9\n const quantV = (encoded >>> 10) & 0x3ff; // bits 10–19\n const angleInt = (encoded >>> 20) & 0xfff; // bits 20–31\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 1023;\n const v_f = quantV / 1023;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axisLen = Math.sqrt(f_x * f_x + f_y * f_y + f_z * f_z);\n const axisX = axisLen < 1e-6 ? 0 : f_x / axisLen;\n const axisY = axisLen < 1e-6 ? 0 : f_y / axisLen;\n const axisZ = axisLen < 1e-6 ? 0 : f_z / axisLen;\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 4095) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axisX * s, axisY * s, axisZ * s, w);\n return out;\n}\n\n// Pack four signed 8-bit values into a single uint32.\nfunction packSint8Bytes(\n b0: number,\n b1: number,\n b2: number,\n b3: number,\n): number {\n const clampedB0 = Math.round(Math.max(-127, Math.min(127, b0 * 127)));\n const clampedB1 = Math.round(Math.max(-127, Math.min(127, b1 * 127)));\n const clampedB2 = Math.round(Math.max(-127, Math.min(127, b2 * 127)));\n const clampedB3 = Math.round(Math.max(-127, Math.min(127, b3 * 127)));\n return (\n (clampedB0 & 0xff) |\n ((clampedB1 & 0xff) << 8) |\n ((clampedB2 & 0xff) << 16) |\n ((clampedB3 & 0xff) << 24)\n );\n}\n\n// Encode an array of 9 signed RGB SH1 coefficients (clamped to [-1,1]) into\n// a pair of uint32 values, where each coefficient is stored as a sint7\nexport function encodeSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n encoding?: {\n sh1Max?: number;\n },\n) {\n const sh1Max = encoding?.sh1Max ?? 1;\n const sh1Scale = 63 / sh1Max;\n\n // Pack sint7 values into 2 x uint32\n const base = index * 2;\n for (let i = 0; i < 9; ++i) {\n const s = sh1Rgb[i] * sh1Scale;\n const value = Math.round(Math.max(-63, Math.min(63, s))) & 0x7f;\n const bitStart = i * 7;\n const bitEnd = bitStart + 7;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh1Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh1Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\n// Encode an array of 15 signed RGB SH2 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint8.\nexport function encodeSh2Rgb(\n sh2Array: Uint32Array,\n index: number,\n sh2Rgb: Float32Array,\n encoding?: {\n sh2Max?: number;\n },\n) {\n const sh2Max = encoding?.sh2Max ?? 1;\n const sh2Scale = 1 / sh2Max;\n\n // Pack sint8 values into 4 x uint32\n sh2Array[index * 4 + 0] = packSint8Bytes(\n sh2Rgb[0] * sh2Scale,\n sh2Rgb[1] * sh2Scale,\n sh2Rgb[2] * sh2Scale,\n sh2Rgb[3] * sh2Scale,\n );\n sh2Array[index * 4 + 1] = packSint8Bytes(\n sh2Rgb[4] * sh2Scale,\n sh2Rgb[5] * sh2Scale,\n sh2Rgb[6] * sh2Scale,\n sh2Rgb[7] * sh2Scale,\n );\n sh2Array[index * 4 + 2] = packSint8Bytes(\n sh2Rgb[8] * sh2Scale,\n sh2Rgb[9] * sh2Scale,\n sh2Rgb[10] * sh2Scale,\n sh2Rgb[11] * sh2Scale,\n );\n sh2Array[index * 4 + 3] = packSint8Bytes(\n sh2Rgb[12] * sh2Scale,\n sh2Rgb[13] * sh2Scale,\n sh2Rgb[14] * sh2Scale,\n 0,\n );\n}\n\n// Encode an array of 21 signed RGB SH3 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint6.\nexport function encodeSh3Rgb(\n sh3Array: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n encoding?: {\n sh3Max?: number;\n },\n) {\n const sh3Max = encoding?.sh3Max ?? 1;\n const sh3Scale = 31 / sh3Max;\n\n // Pack sint6 values into 4 x uint32\n const base = index * 4;\n for (let i = 0; i < 21; ++i) {\n const s = sh3Rgb[i] * sh3Scale;\n const value = Math.round(Math.max(-31, Math.min(31, s))) & 0x3f;\n const bitStart = i * 6;\n const bitEnd = bitStart + 6;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh3Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh3Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\nexport function encodeExtRgb(r: number, g: number, b: number): number {\n const ar = Math.abs(r);\n const ag = Math.abs(g);\n const ab = Math.abs(b);\n const maxAbs = Math.max(ar, ag, ab);\n const base = Math.floor(Math.log2(maxAbs));\n const biasedBase = Math.max(0, Math.min(31, base + 15));\n const divisor = 2 ** (biasedBase - 15) / 255;\n const uR = Math.round(Math.max(0, Math.min(255, ar / divisor)));\n const uG = Math.round(Math.max(0, Math.min(255, ag / divisor)));\n const uB = Math.round(Math.max(0, Math.min(255, ab / divisor)));\n const expSigns =\n (biasedBase << 3) |\n ((r < 0 ? 0x1 : 0) | (g < 0 ? 0x2 : 0) | (b < 0 ? 0x4 : 0));\n return uR | (uG << 8) | (uB << 16) | (expSigns << 24);\n}\n\nexport function decodeExtRgb(encoded: number): THREE.Color {\n const color = packedFields.color;\n const biasedBase = (encoded >>> 27) & 0x1f;\n const divisor = 2 ** (biasedBase - 15) / 255;\n const r = (encoded & 0xff) * divisor;\n const g = ((encoded >>> 8) & 0xff) * divisor;\n const b = ((encoded >>> 16) & 0xff) * divisor;\n color.r = encoded & 0x1000000 ? -r : r;\n color.g = encoded & 0x2000000 ? -g : g;\n color.b = encoded & 0x4000000 ? -b : b;\n return color;\n}\n\nexport function encodeExtSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n}\n\nexport function encodeExtSh12Rgb(\n sh1Array: Uint32Array,\n sh2Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n sh2Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n sh1Array[i4 + 3] = encodeExtRgb(sh2Rgb[0], sh2Rgb[1], sh2Rgb[2]);\n for (let k = 1; k < 5; ++k) {\n const k5 = k * 5;\n sh2Array[i4 + (k - 1)] = encodeExtRgb(\n sh2Rgb[k5],\n sh2Rgb[k5 + 1],\n sh2Rgb[k5 + 2],\n );\n }\n}\n\nexport function encodeExt3Rgb(\n sh3ArrayA: Uint32Array,\n sh3ArrayB: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 4; ++k) {\n const k3 = k * 3;\n sh3ArrayA[i4 + k] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n for (let k = 4; k < 7; ++k) {\n const k3 = k * 3;\n sh3ArrayB[i4 + (k - 4)] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n}\n\n// Partially decompress a gzip-encoded Uint8Array, returning a Uint8Array of\n// the specified numBytes from the start of the file.\nexport function decompressPartialGzip(\n fileBytes: Uint8Array,\n numBytes: number,\n): Uint8Array {\n const chunks: Uint8Array[] = [];\n let totalBytes = 0;\n let result: Uint8Array | null = null;\n\n const gunzip = new Gunzip((data, final) => {\n chunks.push(data);\n totalBytes += data.length;\n if (final || totalBytes >= numBytes) {\n const allBytes = new Uint8Array(totalBytes);\n let offset = 0;\n for (const chunk of chunks) {\n allBytes.set(chunk, offset);\n offset += chunk.length;\n }\n result = allBytes.slice(0, numBytes);\n }\n });\n\n const CHUNK_SIZE = 1024;\n let offset = 0;\n while (result == null && offset < fileBytes.length) {\n const chunk = fileBytes.slice(offset, offset + CHUNK_SIZE);\n gunzip.push(chunk, false);\n offset += CHUNK_SIZE;\n }\n\n if (result == null) {\n gunzip.push(new Uint8Array(), true);\n if (result == null) {\n throw new Error(\"Failed to decompress partial gzip\");\n }\n }\n return result;\n}\n\nexport class GunzipReader {\n fileBytes: Uint8Array;\n chunkBytes: number;\n\n chunks: Uint8Array[];\n totalBytes: number;\n reader: ReadableStreamDefaultReader;\n\n constructor({\n fileBytes,\n chunkBytes = 64 * 1024,\n }: { fileBytes: Uint8Array; chunkBytes?: number }) {\n this.fileBytes = fileBytes;\n this.chunkBytes = chunkBytes;\n this.chunks = [];\n this.totalBytes = 0;\n\n const ds = new DecompressionStream(\"gzip\");\n const decompressionStream = new Blob([fileBytes]).stream().pipeThrough(ds);\n this.reader = decompressionStream.getReader();\n }\n\n async read(numBytes: number): Promise {\n while (this.totalBytes < numBytes) {\n const { value: chunk, done: readerDone } = await this.reader.read();\n if (readerDone) {\n break;\n }\n\n this.chunks.push(chunk);\n this.totalBytes += chunk.length;\n }\n\n if (this.totalBytes < numBytes) {\n throw new Error(\n `Unexpected EOF: needed ${numBytes}, got ${this.totalBytes}`,\n );\n }\n\n const allBytes = new Uint8Array(this.totalBytes);\n let outOffset = 0;\n for (const chunk of this.chunks) {\n allBytes.set(chunk, outOffset);\n outOffset += chunk.length;\n }\n\n const result = allBytes.subarray(0, numBytes);\n this.chunks = [allBytes.subarray(numBytes)];\n this.totalBytes -= numBytes;\n return result;\n }\n}\n","import type { SplatEncoding } from \"./defines\";\nimport { computeMaxSplats, setPackedSplat } from \"./utils\";\n\nexport function decodeAntiSplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n) {\n const numSplats = Math.floor(fileBytes.length / 32); // 32 bytes per splat\n if (numSplats * 32 !== fileBytes.length) {\n throw new Error(\"Invalid .splat file size\");\n }\n initNumSplats(numSplats);\n\n const f32 = new Float32Array(fileBytes.buffer);\n for (let i = 0; i < numSplats; ++i) {\n const i32 = i * 32;\n const i8 = i * 8;\n const x = f32[i8 + 0];\n const y = f32[i8 + 1];\n const z = f32[i8 + 2];\n const scaleX = f32[i8 + 3];\n const scaleY = f32[i8 + 4];\n const scaleZ = f32[i8 + 5];\n const r = fileBytes[i32 + 24] / 255;\n const g = fileBytes[i32 + 25] / 255;\n const b = fileBytes[i32 + 26] / 255;\n const opacity = fileBytes[i32 + 27] / 255;\n const quatW = (fileBytes[i32 + 28] - 128) / 128;\n const quatX = (fileBytes[i32 + 29] - 128) / 128;\n const quatY = (fileBytes[i32 + 30] - 128) / 128;\n const quatZ = (fileBytes[i32 + 31] - 128) / 128;\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n }\n}\n\nexport function unpackAntiSplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n} {\n let numSplats = 0;\n let maxSplats = 0;\n let packedArray = new Uint32Array(0);\n decodeAntiSplat(\n fileBytes,\n (cbNumSplats) => {\n numSplats = cbNumSplats;\n maxSplats = computeMaxSplats(numSplats);\n packedArray = new Uint32Array(maxSplats * 4);\n },\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n setPackedSplat(\n packedArray,\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n },\n );\n return { packedArray, numSplats };\n}\n","import type { SplatEncoding } from \"./defines\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n fromHalf,\n setPackedSplat,\n} from \"./utils\";\n\ntype KsplatCompression = {\n bytesPerCenter: number;\n bytesPerScale: number;\n bytesPerRotation: number;\n bytesPerColor: number;\n bytesPerSphericalHarmonicsComponent: number;\n scaleOffsetBytes: number;\n rotationOffsetBytes: number;\n colorOffsetBytes: number;\n sphericalHarmonicsOffsetBytes: number;\n scaleRange: number;\n};\n\nconst KSPLAT_COMPRESSION: Record = {\n 0: {\n bytesPerCenter: 12,\n bytesPerScale: 12,\n bytesPerRotation: 16,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 4,\n scaleOffsetBytes: 12,\n rotationOffsetBytes: 24,\n colorOffsetBytes: 40,\n sphericalHarmonicsOffsetBytes: 44,\n scaleRange: 1,\n },\n 1: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 2,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n 2: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 1,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n};\n\nconst KSPLAT_SH_DEGREE_TO_COMPONENTS: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nexport function decodeKsplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n) {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n initNumSplats(numSplats);\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n\n if (sphericalHarmonicsDegree >= 1 && sh1) {\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n if (sh2) {\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n }\n if (sh3) {\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n sectionBase += storageSizeBytes;\n }\n}\n\nexport function unpackKsplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n} {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n setPackedSplat(\n packedArray,\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n\n if (sphericalHarmonicsDegree >= 1) {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, i, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, i, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, i, sh3, splatEncoding);\n }\n }\n }\n sectionBase += storageSizeBytes;\n }\n return { packedArray, numSplats, extra };\n}\n","// PLY file format reader\n\nimport { USE_COMPILED_PARSER_FUNCTION } from \"./defines\";\n\nconst PLY_PROPERTY_TYPES = [\n \"char\",\n \"uchar\",\n \"short\",\n \"ushort\",\n \"int\",\n \"uint\",\n \"float\",\n \"double\",\n] as const;\nexport type PlyPropertyType = (typeof PLY_PROPERTY_TYPES)[number];\n\nexport type PlyElement = {\n name: string;\n count: number;\n properties: Record;\n};\n\nexport type PlyProperty = {\n isList: boolean;\n type: PlyPropertyType;\n countType?: PlyPropertyType;\n};\n\n// Callback for parseSplats base Gsplat data\nexport type SplatCallback = (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) => void;\n\n// Callback for parseSplats SH coefficients\nexport type SplatShCallback = (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n) => void;\n\n// A PlyReader is used to parse PLY files for Gsplat data.\n// It takes a Uint8Array/ArrayBuffer as input fileBytes, parses the text header,\n// and provides a method parseData to iterate over the entire binary data\n// efficiently, or parseSplats to iterate over Gsplat data.\n\nexport class PlyReader {\n fileBytes: Uint8Array;\n header = \"\";\n littleEndian = true;\n elements: Record = {};\n comments: string[] = [];\n data: DataView | null = null;\n static defaultPointScale = 0.001;\n\n numSplats = 0;\n\n // Create a PlyReader from a Uint8Array/ArrayBuffer, no parsing done yet\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n }\n\n // Identify and parse the PLY text header (assumed to be <64KB in size).\n // this.elements will contain all the elements in the file, typically\n // \"vertex\" contains the Gsplat data.\n async parseHeader() {\n const bufferStream = new ReadableStream({\n start: (\n controller: ReadableStreamController>,\n ) => {\n // Assume the header is less than 64KB\n controller.enqueue(this.fileBytes.slice(0, 65536));\n controller.close();\n },\n });\n const decoder = bufferStream\n .pipeThrough(new TextDecoderStream())\n .getReader();\n\n // Find the end of the text section of the PLY file\n this.header = \"\";\n const headerTerminator = \"end_header\\n\";\n while (true) {\n const { value, done } = await decoder.read();\n if (done) {\n throw new Error(\"Failed to read header\");\n }\n\n this.header += value as string;\n const endHeader = this.header.indexOf(headerTerminator);\n if (endHeader >= 0) {\n this.header = this.header.slice(0, endHeader + headerTerminator.length);\n break;\n }\n }\n // Partition the file into header and binary data\n const headerLen = new TextEncoder().encode(this.header).length;\n this.data = new DataView(this.fileBytes.buffer, headerLen);\n\n this.elements = {};\n let curElement: PlyElement | null = null;\n this.comments = [];\n\n this.header\n .trim()\n .split(\"\\n\")\n .forEach((line: string, lineIndex: number) => {\n const trimmedLine = line.trim();\n if (lineIndex === 0) {\n if (trimmedLine !== \"ply\") {\n throw new Error(\"Invalid PLY header\");\n }\n return;\n }\n if (trimmedLine.length === 0) {\n return; // Skip empty lines\n }\n\n const fields = trimmedLine.split(\" \");\n switch (fields[0]) {\n case \"format\":\n if (fields[1] === \"binary_little_endian\") {\n this.littleEndian = true;\n } else if (fields[1] === \"binary_big_endian\") {\n this.littleEndian = false;\n } else {\n // ascii formats not supported\n throw new Error(`Unsupported PLY format: ${fields[1]}`);\n }\n if (fields[2] !== \"1.0\") {\n throw new Error(`Unsupported PLY version: ${fields[2]}`);\n }\n break;\n case \"end_header\":\n break;\n case \"comment\":\n this.comments.push(trimmedLine.slice(\"comment \".length));\n break;\n case \"element\": {\n const name = fields[1];\n curElement = {\n name,\n count: Number.parseInt(fields[2]),\n properties: {},\n };\n this.elements[name] = curElement;\n break;\n }\n case \"property\":\n if (curElement == null) {\n throw new Error(\"Property must be inside an element\");\n }\n if (fields[1] === \"list\") {\n curElement.properties[fields[4]] = {\n isList: true,\n type: fields[3] as PlyPropertyType,\n countType: fields[2] as PlyPropertyType,\n };\n } else {\n curElement.properties[fields[2]] = {\n isList: false,\n type: fields[1] as PlyPropertyType,\n };\n }\n break;\n default:\n // console.warn(`Skipping unsupported PLY keyword: ${fields[0]}`);\n }\n });\n\n if (this.elements.vertex) {\n this.numSplats = this.elements.vertex.count;\n }\n }\n\n parseData(\n elementCallback: (\n element: PlyElement,\n ) =>\n | null\n | ((index: number, item: Record) => void),\n ) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No data to parse\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const item = createEmptyItem(properties);\n // Construct a parse function\n const parseFn = createParseFn(properties, this.littleEndian);\n\n // Parse all the items in the element\n const callback = elementCallback(element) ?? (() => {});\n for (let index = 0; index < count; index++) {\n offset = parseFn(data, offset, item);\n callback(index, item);\n }\n }\n }\n\n // Parse all the Gsplat data in the PLY file in go, invoking the given\n // callbacks for each Gsplat.\n parseSplats(splatCallback: SplatCallback, shCallback?: SplatShCallback) {\n if (this.elements.vertex == null) {\n throw new Error(\"No vertex element found\");\n }\n\n let isSuperSplat = false;\n const ssChunks: SSChunk[] = [];\n\n let numSh = 0;\n let sh1Props: number[] = [];\n let sh2Props: number[] = [];\n let sh3Props: number[] = [];\n let sh1: Float32Array | undefined = undefined;\n let sh2: Float32Array | undefined = undefined;\n let sh3: Float32Array | undefined = undefined;\n\n function prepareSh() {\n // Prepare SH coefficient names and arrays for numSh total SH levels\n const num_f_rest = NUM_SH_TO_NUM_F_REST[numSh];\n sh1Props = new Array(3)\n .fill(null)\n .flatMap((_, k) => [0, 1, 2].map((_, d) => k + (d * num_f_rest) / 3));\n sh2Props = new Array(5)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 3 + k + (d * num_f_rest) / 3),\n );\n sh3Props = new Array(7)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 8 + k + (d * num_f_rest) / 3),\n );\n sh1 = numSh >= 1 ? new Float32Array(3 * 3) : undefined;\n sh2 = numSh >= 2 ? new Float32Array(5 * 3) : undefined;\n sh3 = numSh >= 3 ? new Float32Array(7 * 3) : undefined;\n }\n\n function ssShCallback(\n index: number,\n item: Record,\n ) {\n // Decode SH for SuperSplat compressed data\n if (!sh1) {\n throw new Error(\"Missing sh1\");\n }\n const sh = item.f_rest as number[];\n\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = (sh[sh1Props[i]] * 8) / 255 - 4;\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = (sh[sh2Props[i]] * 8) / 255 - 4;\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = (sh[sh3Props[i]] * 8) / 255 - 4;\n }\n }\n shCallback?.(index, sh1, sh2, sh3);\n }\n\n function initSuperSplat(element: PlyElement) {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n } = element.properties;\n if (\n !min_x ||\n !min_y ||\n !min_z ||\n !max_x ||\n !max_y ||\n !max_z ||\n !min_scale_x ||\n !min_scale_y ||\n !min_scale_z ||\n !max_scale_x ||\n !max_scale_y ||\n !max_scale_z\n ) {\n throw new Error(\"Missing PLY chunk properties\");\n }\n\n // SuperSplat chunks are used to quantize splat data, so we need to store them\n isSuperSplat = true;\n return (index: number, item: Record) => {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = item as Record;\n ssChunks.push({\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n });\n };\n }\n\n function decodeSuperSplat(element: PlyElement) {\n // Decode SuperSplat compressed data in vertex and sh elements\n if (shCallback && element.name === \"sh\") {\n numSh = getNumSh(element.properties);\n prepareSh();\n return ssShCallback;\n }\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n element.properties;\n if (\n !packed_position ||\n !packed_rotation ||\n !packed_scale ||\n !packed_color\n ) {\n throw new Error(\n \"Missing PLY properties: packed_position, packed_rotation, packed_scale, packed_color\",\n );\n }\n\n const SQRT2 = Math.sqrt(2);\n\n return (index: number, item: Record) => {\n // SuperSplat data are quantized within chunks with 256 Gsplats each\n const chunk = ssChunks[index >>> 8];\n if (chunk == null) {\n throw new Error(\"Missing PLY chunk\");\n }\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = chunk;\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n item as Record;\n\n const x =\n (((packed_position >>> 21) & 2047) / 2047) * (max_x - min_x) + min_x;\n const y =\n (((packed_position >>> 11) & 1023) / 1023) * (max_y - min_y) + min_y;\n const z = ((packed_position & 2047) / 2047) * (max_z - min_z) + min_z;\n\n const r0 = (((packed_rotation >>> 20) & 1023) / 1023 - 0.5) * SQRT2;\n const r1 = (((packed_rotation >>> 10) & 1023) / 1023 - 0.5) * SQRT2;\n const r2 = ((packed_rotation & 1023) / 1023 - 0.5) * SQRT2;\n const rr = Math.sqrt(Math.max(0, 1.0 - r0 * r0 - r1 * r1 - r2 * r2));\n\n const rOrder = packed_rotation >>> 30;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n\n const scaleX = Math.exp(\n (((packed_scale >>> 21) & 2047) / 2047) *\n (max_scale_x - min_scale_x) +\n min_scale_x,\n );\n const scaleY = Math.exp(\n (((packed_scale >>> 11) & 1023) / 1023) *\n (max_scale_y - min_scale_y) +\n min_scale_y,\n );\n const scaleZ = Math.exp(\n ((packed_scale & 2047) / 2047) * (max_scale_z - min_scale_z) +\n min_scale_z,\n );\n\n const r =\n (((packed_color >>> 24) & 255) / 255) *\n ((max_r ?? 1) - (min_r ?? 0)) +\n (min_r ?? 0);\n const g =\n (((packed_color >>> 16) & 255) / 255) *\n ((max_g ?? 1) - (min_g ?? 0)) +\n (min_g ?? 0);\n const b =\n (((packed_color >>> 8) & 255) / 255) * ((max_b ?? 1) - (min_b ?? 0)) +\n (min_b ?? 0);\n const opacity = (packed_color & 255) / 255;\n\n splatCallback(\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n };\n }\n\n const elementCallback = (element: PlyElement) => {\n if (element.name === \"chunk\") {\n // \"chunk\" could conceivably be used for other formats, and we would\n // ideally check for the comment: Generated by SuperSplat 2.*\n // but gsplat also outputs this format without such a comment.\n // In order to support both, let's assume a \"chunk\" element should\n // be interpreted as this format.\n return initSuperSplat(element);\n }\n if (isSuperSplat) {\n return decodeSuperSplat(element);\n }\n\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const {\n x,\n y,\n z,\n scale_0,\n scale_1,\n scale_2,\n rot_0,\n rot_1,\n rot_2,\n rot_3,\n opacity,\n f_dc_0,\n f_dc_1,\n f_dc_2,\n red,\n green,\n blue,\n alpha,\n } = element.properties;\n\n if (!x || !y || !z) {\n throw new Error(\"Missing PLY properties: x, y, z\");\n }\n // Pure point cloud PLY files have no scales or rotations\n const hasScales = scale_0 && scale_1 && scale_2;\n const hasRots = rot_0 && rot_1 && rot_2 && rot_3;\n // Quantization scale factor for argb values\n const alphaDiv = alpha != null ? FIELD_SCALE[alpha.type] : 1;\n const redDiv = red != null ? FIELD_SCALE[red.type] : 1;\n const greenDiv = green != null ? FIELD_SCALE[green.type] : 1;\n const blueDiv = blue != null ? FIELD_SCALE[blue.type] : 1;\n\n numSh = getNumSh(element.properties);\n prepareSh();\n\n return (index: number, item: Record) => {\n const scaleX = hasScales\n ? Math.exp(item.scale_0 as number)\n : PlyReader.defaultPointScale;\n const scaleY = hasScales\n ? Math.exp(item.scale_1 as number)\n : PlyReader.defaultPointScale;\n const scaleZ = hasScales\n ? Math.exp(item.scale_2 as number)\n : PlyReader.defaultPointScale;\n\n const quatX = hasRots ? (item.rot_1 as number) : 0;\n const quatY = hasRots ? (item.rot_2 as number) : 0;\n const quatZ = hasRots ? (item.rot_3 as number) : 0;\n const quatW = hasRots ? (item.rot_0 as number) : 1;\n\n const op =\n opacity != null\n ? 1.0 / (1.0 + Math.exp(-item.opacity as number))\n : alpha != null\n ? (item.alpha as number) / alphaDiv\n : 1.0;\n const r =\n f_dc_0 != null\n ? (item.f_dc_0 as number) * SH_C0 + 0.5\n : red != null\n ? (item.red as number) / redDiv\n : 1.0;\n const g =\n f_dc_1 != null\n ? (item.f_dc_1 as number) * SH_C0 + 0.5\n : green != null\n ? (item.green as number) / greenDiv\n : 1.0;\n const b =\n f_dc_2 != null\n ? (item.f_dc_2 as number) * SH_C0 + 0.5\n : blue != null\n ? (item.blue as number) / blueDiv\n : 1.0;\n\n splatCallback(\n index,\n item.x as number,\n item.y as number,\n item.z as number,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n op,\n r,\n g,\n b,\n );\n\n if (shCallback && sh1) {\n const sh = item.f_rest as number[];\n if (sh1) {\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = sh[sh1Props[i]];\n }\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = sh[sh2Props[i]];\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = sh[sh3Props[i]];\n }\n }\n shCallback(index, sh1, sh2, sh3);\n }\n };\n };\n\n this.parseData(elementCallback);\n }\n\n // Inject RGBA values into original PLY file, which can be used to modify\n // the color/opacity of the Gsplats and write out the modified PLY file.\n injectRgba(rgba: Uint8Array) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No parsed data\");\n }\n if (rgba.length !== this.numSplats * 4) {\n throw new Error(\"Invalid RGBA array length\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const parsers = [];\n\n let rgbaOffset = 0;\n const isVertex = elementName === \"vertex\";\n if (isVertex) {\n for (const name of [\"opacity\", \"f_dc_0\", \"f_dc_1\", \"f_dc_2\"]) {\n if (!properties[name] || properties[name].type !== \"float\") {\n throw new Error(`Can't injectRgba due to property: ${name}`);\n }\n }\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!property.isList) {\n if (isVertex) {\n if (\n propertyName === \"f_dc_0\" ||\n propertyName === \"f_dc_1\" ||\n propertyName === \"f_dc_2\"\n ) {\n const component = Number.parseInt(\n propertyName.slice(\"f_dc_\".length),\n );\n parsers.push(() => {\n // Inject DC coefficients\n const value =\n (rgba[rgbaOffset + component] / 255 - 0.5) / SH_C0;\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n } else if (propertyName === \"opacity\") {\n parsers.push(() => {\n // Inject opacity sigmoid, clamped to [-100, 100]\n const value = Math.max(\n -100,\n Math.min(\n 100,\n -Math.log(1.0 / (rgba[rgbaOffset + 3] / 255) - 1.0),\n ),\n );\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n }\n }\n parsers.push(() => {\n offset += FIELD_BYTES[property.type];\n });\n } else {\n parsers.push(() => {\n const length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n this.littleEndian,\n );\n offset += FIELD_BYTES[property.countType as PlyPropertyType];\n offset += length * FIELD_BYTES[property.type];\n });\n }\n }\n\n for (let index = 0; index < count; index++) {\n // Go through all the data and field parsers to compute offset\n for (const parser of parsers) {\n parser();\n }\n if (isVertex) {\n rgbaOffset += 4;\n }\n }\n }\n }\n}\n\nexport const SH_C0 = 0.28209479177387814;\n\ntype FieldParser = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n) => number;\ntype FieldSetter = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n) => void;\n\nconst PARSE_FIELD: Record = {\n char: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt8(offset);\n },\n uchar: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint8(offset);\n },\n short: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt16(offset, littleEndian);\n },\n ushort: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint16(offset, littleEndian);\n },\n int: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt32(offset, littleEndian);\n },\n uint: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint32(offset, littleEndian);\n },\n float: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat32(offset, littleEndian);\n },\n double: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat64(offset, littleEndian);\n },\n};\n\nconst SET_FIELD: Record = {\n char: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt8(offset, value);\n },\n uchar: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint8(offset, value);\n },\n short: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt16(offset, value, littleEndian);\n },\n ushort: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint16(offset, value, littleEndian);\n },\n int: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt32(offset, value, littleEndian);\n },\n uint: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint32(offset, value, littleEndian);\n },\n float: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat32(offset, value, littleEndian);\n },\n double: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat64(offset, value, littleEndian);\n },\n};\n\nconst FIELD_BYTES: Record = {\n char: 1,\n uchar: 1,\n short: 2,\n ushort: 2,\n int: 4,\n uint: 4,\n float: 4,\n double: 8,\n};\n\nconst FIELD_SCALE: Record = {\n char: 127,\n uchar: 255,\n short: 32767,\n ushort: 65535,\n int: 2147483647,\n uint: 4294967295,\n float: 1,\n double: 1,\n};\n\nconst NUM_F_REST_TO_NUM_SH: Record = {\n 0: 0,\n 9: 1,\n 24: 2,\n 45: 3,\n};\nconst NUM_SH_TO_NUM_F_REST: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nconst F_REST_REGEX = /^f_rest_([0-9]{1,2})$/;\n\nfunction createEmptyItem(\n properties: Record,\n): Record {\n const item: Record = {};\n for (const [propertyName, property] of Object.entries(properties)) {\n // Treat f_rest properties as a single array for performance\n if (F_REST_REGEX.test(propertyName)) {\n item.f_rest = new Array(getNumSh(properties));\n } else {\n item[propertyName] = property.isList ? [] : 0;\n }\n }\n return item;\n}\n\nfunction createParseFn(\n properties: Record,\n littleEndian: boolean,\n) {\n if (USE_COMPILED_PARSER_FUNCTION && safeToCompile(properties)) {\n return createCompiledParserFn(properties, littleEndian);\n }\n return createDynamicParserFn(properties, littleEndian);\n}\n\n// Detect if unsafe eval is allowed in the current execution context\nconst UNSAFE_EVAL_ALLOWED = (() => {\n try {\n new Function(\"return 42;\");\n } catch (e) {\n return false;\n }\n return true;\n})();\nconst PROPERTY_NAME_REGEX = /^[a-zA-Z0-9_]+$/;\n\nfunction safeToCompile(properties: Record) {\n if (!UNSAFE_EVAL_ALLOWED) {\n return false;\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!PROPERTY_NAME_REGEX.test(propertyName)) {\n return false;\n }\n\n if (\n property.isList &&\n !PLY_PROPERTY_TYPES.includes(property.countType as PlyPropertyType)\n ) {\n return false;\n }\n\n if (!PLY_PROPERTY_TYPES.includes(property.type)) {\n return false;\n }\n }\n return true;\n}\n\nfunction createCompiledParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct the parser function source.\n const parserSrc: string[] = [\"let list;\"];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parserSrc.push(/*js*/ `\n item.f_rest[${fRestIndex}] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else if (!property.isList) {\n parserSrc.push(/*js*/ `\n item['${propertyName}'] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else {\n // Property is a list, so parse the count first\n parserSrc.push(/*js*/ `\n list = item['${propertyName}'];\n list.length = PARSE_FIELD['${property.countType}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.countType as PlyPropertyType]};\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n }\n `);\n }\n }\n parserSrc.push(\"return offset;\");\n\n const fn = new Function(\n \"data\",\n \"offset\",\n \"item\",\n \"PARSE_FIELD\",\n parserSrc.join(\"\\n\"),\n );\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => fn(data, offset, item, PARSE_FIELD);\n}\n\nfunction createDynamicParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct an array of parser function to parse each property in an item\n const parsers: Array<\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => number\n > = [];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n (item.f_rest as number[])[fRestIndex] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else if (!property.isList) {\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n item[propertyName] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else {\n // Property is a list, so parse the count first\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n const list = item[propertyName] as number[];\n list.length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n littleEndian,\n );\n let currentOffset =\n offset + FIELD_BYTES[property.countType as PlyPropertyType];\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD[property.type](\n data,\n currentOffset,\n littleEndian,\n );\n currentOffset += FIELD_BYTES[property.type];\n }\n return currentOffset;\n },\n );\n }\n }\n\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n let currentOffset = offset;\n for (let parserIndex = 0; parserIndex < parsers.length; parserIndex++) {\n currentOffset = parsers[parserIndex](data, currentOffset, item);\n }\n return currentOffset;\n };\n}\n\nfunction getNumSh(properties: Record) {\n let num_f_rest = 0;\n while (properties[`f_rest_${num_f_rest}`]) {\n num_f_rest += 1;\n }\n const numSh = NUM_F_REST_TO_NUM_SH[num_f_rest];\n if (numSh == null) {\n throw new Error(`Unsupported number of SH coefficients: ${num_f_rest}`);\n }\n return numSh;\n}\n\ntype SSChunk = {\n min_x: number;\n min_y: number;\n min_z: number;\n max_x: number;\n max_y: number;\n max_z: number;\n min_scale_x: number;\n min_scale_y: number;\n min_scale_z: number;\n max_scale_x: number;\n max_scale_y: number;\n max_scale_z: number;\n min_r?: number;\n min_g?: number;\n min_b?: number;\n max_r?: number;\n max_g?: number;\n max_b?: number;\n};\n","import * as THREE from \"three\";\nimport {\n SplatData,\n type TranscodeSpzInput,\n getSplatFileType,\n getSplatFileTypeFromPath,\n} from \"./SplatLoader\";\nimport { GunzipReader, fromHalf, normalize } from \"./utils\";\n\nimport { decodeAntiSplat } from \"./antisplat\";\nimport { SplatFileType } from \"./defines\";\nimport { decodeKsplat } from \"./ksplat\";\nimport { PlyReader } from \"./ply\";\n\n// SPZ file format reader\n\nexport class SpzReader {\n fileBytes: Uint8Array;\n reader: GunzipReader;\n\n version = -1;\n numSplats = 0;\n shDegree = 0;\n fractionalBits = 0;\n flags = 0;\n flagAntiAlias = false;\n flagLod = false;\n reserved = 0;\n headerParsed = false;\n parsed = false;\n\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n this.reader = new GunzipReader({\n fileBytes: this.fileBytes as Uint8Array,\n });\n }\n\n async parseHeader() {\n if (this.headerParsed) {\n throw new Error(\"SPZ file header already parsed\");\n }\n\n const header = new DataView((await this.reader.read(16)).buffer);\n if (header.getUint32(0, true) !== 0x5053474e) {\n throw new Error(\"Invalid SPZ file\");\n }\n this.version = header.getUint32(4, true);\n if (this.version < 1 || this.version > 3) {\n throw new Error(`Unsupported SPZ version: ${this.version}`);\n }\n\n this.numSplats = header.getUint32(8, true);\n this.shDegree = header.getUint8(12);\n this.fractionalBits = header.getUint8(13);\n this.flags = header.getUint8(14);\n this.flagAntiAlias = (this.flags & 0x01) !== 0;\n this.flagLod = (this.flags & 0x80) !== 0;\n this.reserved = header.getUint8(15);\n this.headerParsed = true;\n this.parsed = false;\n }\n\n async parseSplats(\n centerCallback?: (index: number, x: number, y: number, z: number) => void,\n alphaCallback?: (index: number, alpha: number) => void,\n rgbCallback?: (index: number, r: number, g: number, b: number) => void,\n scalesCallback?: (\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n ) => void,\n quatCallback?: (\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n {\n childCounts,\n childStarts,\n }: {\n childCounts?: (index: number, count: number) => void;\n childStarts?: (index: number, start: number) => void;\n } = {},\n ) {\n if (!this.headerParsed) {\n throw new Error(\"SPZ file header must be parsed first\");\n }\n if (this.parsed) {\n throw new Error(\"SPZ file already parsed\");\n }\n this.parsed = true;\n\n if (this.version === 1) {\n // float16 centers\n const centerBytes = await this.reader.read(this.numSplats * 3 * 2);\n const centerUint16 = new Uint16Array(centerBytes.buffer);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const x = fromHalf(centerUint16[i3]);\n const y = fromHalf(centerUint16[i3 + 1]);\n const z = fromHalf(centerUint16[i3 + 2]);\n centerCallback?.(i, x, y, z);\n }\n } else if (this.version === 2 || this.version === 3) {\n // 24-bit fixed-point centers\n const fixed = 1 << this.fractionalBits;\n const centerBytes = await this.reader.read(this.numSplats * 3 * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i9 = i * 9;\n const x =\n (((centerBytes[i9 + 2] << 24) |\n (centerBytes[i9 + 1] << 16) |\n (centerBytes[i9] << 8)) >>\n 8) /\n fixed;\n const y =\n (((centerBytes[i9 + 5] << 24) |\n (centerBytes[i9 + 4] << 16) |\n (centerBytes[i9 + 3] << 8)) >>\n 8) /\n fixed;\n const z =\n (((centerBytes[i9 + 8] << 24) |\n (centerBytes[i9 + 7] << 16) |\n (centerBytes[i9 + 6] << 8)) >>\n 8) /\n fixed;\n centerCallback?.(i, x, y, z);\n }\n } else {\n throw new Error(\"Unreachable\");\n }\n\n {\n const bytes = await this.reader.read(this.numSplats);\n for (let i = 0; i < this.numSplats; i++) {\n alphaCallback?.(i, bytes[i] / 255);\n }\n }\n {\n const rgbBytes = await this.reader.read(this.numSplats * 3);\n const scale = SH_C0 / 0.15;\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const r = (rgbBytes[i3] / 255 - 0.5) * scale + 0.5;\n const g = (rgbBytes[i3 + 1] / 255 - 0.5) * scale + 0.5;\n const b = (rgbBytes[i3 + 2] / 255 - 0.5) * scale + 0.5;\n rgbCallback?.(i, r, g, b);\n }\n }\n {\n const scalesBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const scaleX = Math.exp(scalesBytes[i3] / 16 - 10);\n const scaleY = Math.exp(scalesBytes[i3 + 1] / 16 - 10);\n const scaleZ = Math.exp(scalesBytes[i3 + 2] / 16 - 10);\n scalesCallback?.(i, scaleX, scaleY, scaleZ);\n }\n }\n if (this.version === 3) {\n // Version 3 uses a trick called \"smallest three\" to compress the rotation quaternions\n // achieving better precision. \"Optimizing orientation\" section at https://gafferongames.com/post/snapshot_compression/ A quaternion length must be 1: x^2+y^2+z^2+w^2 = 1\n // We can drop one component and reconstruct it with the identity above.\n // Largest component is dropped for best numerical precision.\n // Quaternion stored in 32 bits\n // 10 bits singed integer for each of the 3 components + 2 bits indicating the index of dropped component.\n // vs 8 bits for each component uncompressed (spz version < 3)\n // Max Value after extracting largest component v is another component v\n // (v,v,0,0)\n // v^2 + v^2 = 1\n // v = 1 / sqrt(2);\n const maxValue = 1 / Math.sqrt(2); // 0.7071\n const quatBytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 4;\n const quaternion = [0, 0, 0, 0];\n const values = [\n quatBytes[i3],\n quatBytes[i3 + 1],\n quatBytes[i3 + 2],\n quatBytes[i3 + 3],\n ];\n // all values are packed in 32 bits (10 per each of 3 components + 2 bits of index of larged value)\n const combinedValues =\n values[0] + (values[1] << 8) + (values[2] << 16) + (values[3] << 24);\n // each component value is 9 bits + sign (1 bit)\n const valueMask = (1 << 9) - 1;\n // extract index of the largest element. 2 top bits.\n const largestIndex = combinedValues >>> 30;\n let remainingValues = combinedValues;\n let sumSquares = 0;\n\n for (let i = 3; i >= 0; --i) {\n if (i !== largestIndex) {\n // extract current value and sign.\n const value = remainingValues & valueMask;\n const sign = (remainingValues >>> 9) & 0x1;\n // each value is represented as 10 bits. Shift to next one.\n remainingValues = remainingValues >>> 10;\n // convert to range [0,1] and then to [0, 0.7071]\n quaternion[i] = maxValue * (value / valueMask);\n // apply sign.\n quaternion[i] = sign === 0 ? quaternion[i] : -quaternion[i];\n // accumulate the sum of squares\n sumSquares += quaternion[i] * quaternion[i];\n }\n }\n\n // quartenion length must be 1 (x^2+y^2+z^2+w^2 = 1)\n // so can reconstruct largest component from the other 3.\n // w = sqrt(1 - x^2 - y^2 - z^2);\n const square = 1 - sumSquares;\n quaternion[largestIndex] = Math.sqrt(Math.max(square, 0));\n\n quatCallback?.(\n i,\n quaternion[0],\n quaternion[1],\n quaternion[2],\n quaternion[3],\n );\n }\n } else {\n const quatBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const quatX = quatBytes[i3] / 127.5 - 1;\n const quatY = quatBytes[i3 + 1] / 127.5 - 1;\n const quatZ = quatBytes[i3 + 2] / 127.5 - 1;\n const quatW = Math.sqrt(\n Math.max(0, 1 - quatX * quatX - quatY * quatY - quatZ * quatZ),\n );\n quatCallback?.(i, quatX, quatY, quatZ, quatW);\n }\n }\n\n if (shCallback && this.shDegree >= 1) {\n const sh1 = new Float32Array(3 * 3);\n const sh2 = this.shDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 = this.shDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n const shBytes = await this.reader.read(\n this.numSplats * SH_DEGREE_TO_VECS[this.shDegree] * 3,\n );\n\n let offset = 0;\n for (let i = 0; i < this.numSplats; i++) {\n for (let j = 0; j < 9; ++j) {\n sh1[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 9;\n if (sh2) {\n for (let j = 0; j < 15; ++j) {\n sh2[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 15;\n }\n if (sh3) {\n for (let j = 0; j < 21; ++j) {\n sh3[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 21;\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n if (this.flagLod) {\n let bytes = await this.reader.read(this.numSplats * 2);\n for (let i = 0; i < this.numSplats; i++) {\n const i2 = i * 2;\n const count = bytes[i2] + (bytes[i2 + 1] << 8);\n childCounts?.(i, count);\n }\n\n bytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i4 = i * 4;\n const start =\n bytes[i4] +\n (bytes[i4 + 1] << 8) +\n (bytes[i4 + 2] << 16) +\n (bytes[i4 + 3] << 24);\n childStarts?.(i, start);\n }\n }\n }\n}\n\nconst SH_DEGREE_TO_VECS: Record = { 1: 3, 2: 8, 3: 15 };\nconst SH_C0 = 0.28209479177387814;\n\nexport const SPZ_MAGIC = 0x5053474e; // NGSP = Niantic gaussian splat\nexport const SPZ_VERSION = 3;\nexport const FLAG_ANTIALIASED = 0x1;\n\nexport class SpzWriter {\n buffer: ArrayBuffer;\n view: DataView;\n numSplats: number;\n shDegree: number;\n fractionalBits: number;\n fraction: number;\n flagAntiAlias: boolean;\n clippedCount = 0;\n\n constructor({\n numSplats,\n shDegree,\n fractionalBits = 12,\n flagAntiAlias = true,\n }: {\n numSplats: number;\n shDegree: number;\n fractionalBits?: number;\n flagAntiAlias?: boolean;\n }) {\n const splatSize =\n 9 + // Position\n 1 + // Opacity\n 3 + // Scale\n 3 + // DC-rgb\n 4 + // Rotation\n (shDegree >= 1 ? 9 : 0) +\n (shDegree >= 2 ? 15 : 0) +\n (shDegree >= 3 ? 21 : 0);\n const bufferSize = 16 + numSplats * splatSize;\n this.buffer = new ArrayBuffer(bufferSize);\n this.view = new DataView(this.buffer);\n\n this.view.setUint32(0, SPZ_MAGIC, true); // NGSP\n this.view.setUint32(4, SPZ_VERSION, true);\n this.view.setUint32(8, numSplats, true);\n this.view.setUint8(12, shDegree);\n this.view.setUint8(13, fractionalBits);\n this.view.setUint8(14, flagAntiAlias ? FLAG_ANTIALIASED : 0);\n this.view.setUint8(15, 0); // Reserved\n\n this.numSplats = numSplats;\n this.shDegree = shDegree;\n this.fractionalBits = fractionalBits;\n this.fraction = 1 << fractionalBits;\n this.flagAntiAlias = flagAntiAlias;\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n // Divide by this.fraction and round to nearest integer,\n // then write as 3-bytes per x then y then z.\n const xRounded = Math.round(x * this.fraction);\n const xInt = Math.max(-0x7fffff, Math.min(0x7fffff, xRounded));\n const yRounded = Math.round(y * this.fraction);\n const yInt = Math.max(-0x7fffff, Math.min(0x7fffff, yRounded));\n const zRounded = Math.round(z * this.fraction);\n const zInt = Math.max(-0x7fffff, Math.min(0x7fffff, zRounded));\n const clipped = xRounded !== xInt || yRounded !== yInt || zRounded !== zInt;\n if (clipped) {\n this.clippedCount += 1;\n // if (this.clippedCount < 10) {\n // // Write x y z also in hex\n // console.log(`Clipped ${index}: ${x}, ${y}, ${z} (0x${x.toString(16)}, 0x${y.toString(16)}, 0x${z.toString(16)}) -> ${xRounded}, ${yRounded}, ${zRounded} (0x${xRounded.toString(16)}, 0x${yRounded.toString(16)}, 0x${zRounded.toString(16)}) -> ${xInt}, ${yInt}, ${zInt} (0x${xInt.toString(16)}, 0x${yInt.toString(16)}, 0x${zInt.toString(16)})`);\n // }\n }\n const i9 = index * 9;\n const base = 16 + i9;\n this.view.setUint8(base, xInt & 0xff);\n this.view.setUint8(base + 1, (xInt >> 8) & 0xff);\n this.view.setUint8(base + 2, (xInt >> 16) & 0xff);\n this.view.setUint8(base + 3, yInt & 0xff);\n this.view.setUint8(base + 4, (yInt >> 8) & 0xff);\n this.view.setUint8(base + 5, (yInt >> 16) & 0xff);\n this.view.setUint8(base + 6, zInt & 0xff);\n this.view.setUint8(base + 7, (zInt >> 8) & 0xff);\n this.view.setUint8(base + 8, (zInt >> 16) & 0xff);\n }\n\n setAlpha(index: number, alpha: number) {\n const base = 16 + this.numSplats * 9 + index;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round(alpha * 255))),\n );\n }\n\n static scaleRgb(r: number) {\n const v = ((r - 0.5) / (SH_C0 / 0.15) + 0.5) * 255;\n return Math.max(0, Math.min(255, Math.round(v)));\n }\n\n setRgb(index: number, r: number, g: number, b: number) {\n const base = 16 + this.numSplats * 10 + index * 3;\n this.view.setUint8(base, SpzWriter.scaleRgb(r));\n this.view.setUint8(base + 1, SpzWriter.scaleRgb(g));\n this.view.setUint8(base + 2, SpzWriter.scaleRgb(b));\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n const base = 16 + this.numSplats * 13 + index * 3;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleX) + 10) * 16))),\n );\n this.view.setUint8(\n base + 1,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleY) + 10) * 16))),\n );\n this.view.setUint8(\n base + 2,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleZ) + 10) * 16))),\n );\n }\n\n setQuat(\n index: number,\n ...q: [number, number, number, number] // x, y, z, w\n ) {\n const base = 16 + this.numSplats * 16 + index * 4;\n\n const quat = normalize(q);\n\n // Find largest component\n let iLargest = 0;\n for (let i = 1; i < 4; ++i) {\n if (Math.abs(quat[i]) > Math.abs(quat[iLargest])) {\n iLargest = i;\n }\n }\n\n // Since -quat represents the same rotation as quat, transform the quaternion so the largest element\n // is positive. This avoids having to send its sign bit.\n const negate = quat[iLargest] < 0 ? 1 : 0;\n\n // Do compression using sign bit and 9-bit precision per element.\n let comp = iLargest;\n for (let i = 0; i < 4; ++i) {\n if (i !== iLargest) {\n const negbit = (quat[i] < 0 ? 1 : 0) ^ negate;\n const mag = Math.floor(\n ((1 << 9) - 1) * (Math.abs(quat[i]) / Math.SQRT1_2) + 0.5,\n );\n comp = (comp << 10) | (negbit << 9) | mag;\n }\n }\n\n this.view.setUint8(base, comp & 0xff);\n this.view.setUint8(base + 1, (comp >> 8) & 0xff);\n this.view.setUint8(base + 2, (comp >> 16) & 0xff);\n this.view.setUint8(base + 3, (comp >>> 24) & 0xff);\n }\n\n static quantizeSh(sh: number, bits: number) {\n const value = Math.round(sh * 128) + 128;\n const bucketSize = 1 << (8 - bits);\n const quantized =\n Math.floor((value + bucketSize / 2) / bucketSize) * bucketSize;\n return Math.max(0, Math.min(255, quantized));\n }\n\n setSh(\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) {\n const shVecs = SH_DEGREE_TO_VECS[this.shDegree] || 0;\n const base1 = 16 + this.numSplats * 20 + index * shVecs * 3;\n for (let j = 0; j < 9; ++j) {\n this.view.setUint8(base1 + j, SpzWriter.quantizeSh(sh1[j], 5));\n }\n if (sh2) {\n const base2 = base1 + 9;\n for (let j = 0; j < 15; ++j) {\n this.view.setUint8(base2 + j, SpzWriter.quantizeSh(sh2[j], 4));\n }\n if (sh3) {\n const base3 = base2 + 15;\n for (let j = 0; j < 21; ++j) {\n this.view.setUint8(base3 + j, SpzWriter.quantizeSh(sh3[j], 4));\n }\n }\n }\n }\n\n async finalize(): Promise {\n const input = new Uint8Array(this.buffer);\n const stream = new ReadableStream({\n async start(controller) {\n controller.enqueue(input);\n controller.close();\n },\n });\n const compressed = stream.pipeThrough(new CompressionStream(\"gzip\"));\n const response = new Response(compressed);\n const buffer = await response.arrayBuffer();\n console.log(\n \"Compressed\",\n input.length,\n \"bytes to\",\n buffer.byteLength,\n \"bytes\",\n );\n return new Uint8Array(buffer);\n }\n}\n\nexport async function transcodeSpz(input: TranscodeSpzInput) {\n const splats = new SplatData();\n const {\n inputs,\n clipXyz,\n maxSh,\n fractionalBits = 12,\n opacityThreshold,\n } = input;\n for (const input of inputs) {\n const scale = input.transform?.scale ?? 1;\n const quaternion = new THREE.Quaternion().fromArray(\n input.transform?.quaternion ?? [0, 0, 0, 1],\n );\n const translate = new THREE.Vector3().fromArray(\n input.transform?.translate ?? [0, 0, 0],\n );\n const clip = clipXyz\n ? new THREE.Box3(\n new THREE.Vector3().fromArray(clipXyz.min),\n new THREE.Vector3().fromArray(clipXyz.max),\n )\n : undefined;\n\n function transformPos(pos: THREE.Vector3) {\n pos.multiplyScalar(scale);\n pos.applyQuaternion(quaternion);\n pos.add(translate);\n return pos;\n }\n\n function transformScales(scales: THREE.Vector3) {\n scales.multiplyScalar(scale);\n return scales;\n }\n\n function transformQuaternion(quat: THREE.Quaternion) {\n quat.premultiply(quaternion);\n return quat;\n }\n\n function withinClip(p: THREE.Vector3) {\n return !clip || clip.containsPoint(p);\n }\n\n function withinOpacity(opacity: number) {\n return opacityThreshold !== undefined\n ? opacity >= opacityThreshold\n : true;\n }\n\n let fileType = input.fileType;\n if (!fileType) {\n fileType = getSplatFileType(input.fileBytes);\n if (!fileType && input.pathOrUrl) {\n fileType = getSplatFileTypeFromPath(input.pathOrUrl);\n }\n }\n switch (fileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes: input.fileBytes });\n await ply.parseHeader();\n let lastIndex: number | null = null;\n ply.parseSplats(\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (sh1 && lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n }\n if (sh2 && lastIndex !== null) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3 && lastIndex !== null) {\n splats.setSh3(lastIndex, sh3);\n }\n },\n );\n break;\n }\n case SplatFileType.SPZ: {\n const spz = new SpzReader({ fileBytes: input.fileBytes });\n await spz.parseHeader();\n const mapping = new Int32Array(spz.numSplats);\n mapping.fill(-1);\n const centers = new Float32Array(spz.numSplats * 3);\n const center = new THREE.Vector3();\n spz.parseSplats(\n (index, x, y, z) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n centers[index * 3] = center.x;\n centers[index * 3 + 1] = center.y;\n centers[index * 3 + 2] = center.z;\n },\n (index, alpha) => {\n center.fromArray(centers, index * 3);\n if (withinClip(center) && withinOpacity(alpha)) {\n mapping[index] = splats.pushSplat();\n splats.setCenter(mapping[index], center.x, center.y, center.z);\n splats.setOpacity(mapping[index], alpha);\n }\n },\n (index, r, g, b) => {\n if (mapping[index] >= 0) {\n splats.setColor(mapping[index], r, g, b);\n }\n },\n (index, scaleX, scaleY, scaleZ) => {\n if (mapping[index] >= 0) {\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(mapping[index], scales.x, scales.y, scales.z);\n }\n },\n (index, quatX, quatY, quatZ, quatW) => {\n if (mapping[index] >= 0) {\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n mapping[index],\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n }\n },\n (index, sh1, sh2, sh3) => {\n if (mapping[index] >= 0) {\n splats.setSh1(mapping[index], sh1);\n if (sh2) {\n splats.setSh2(mapping[index], sh2);\n }\n if (sh3) {\n splats.setSh3(mapping[index], sh3);\n }\n }\n },\n );\n break;\n }\n case SplatFileType.SPLAT:\n decodeAntiSplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n const index = splats.pushSplat();\n splats.setCenter(index, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(index, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n index,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(index, opacity);\n splats.setColor(index, r, g, b);\n }\n },\n );\n break;\n case SplatFileType.KSPLAT: {\n let lastIndex: number | null = null;\n decodeKsplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n if (sh2) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n },\n );\n break;\n }\n default:\n throw new Error(`transcodeSpz not implemented for ${fileType}`);\n }\n }\n\n const shDegree = Math.min(\n maxSh ?? 3,\n splats.sh3 ? 3 : splats.sh2 ? 2 : splats.sh1 ? 1 : 0,\n );\n const spz = new SpzWriter({\n numSplats: splats.numSplats,\n shDegree,\n fractionalBits,\n flagAntiAlias: true,\n });\n\n for (let i = 0; i < splats.numSplats; ++i) {\n const i3 = i * 3;\n const i4 = i * 4;\n spz.setCenter(\n i,\n splats.centers[i3],\n splats.centers[i3 + 1],\n splats.centers[i3 + 2],\n );\n spz.setScale(\n i,\n splats.scales[i3],\n splats.scales[i3 + 1],\n splats.scales[i3 + 2],\n );\n spz.setQuat(\n i,\n splats.quaternions[i4],\n splats.quaternions[i4 + 1],\n splats.quaternions[i4 + 2],\n splats.quaternions[i4 + 3],\n );\n spz.setAlpha(i, splats.opacities[i]);\n spz.setRgb(\n i,\n splats.colors[i3],\n splats.colors[i3 + 1],\n splats.colors[i3 + 2],\n );\n if (splats.sh1 && shDegree >= 1) {\n spz.setSh(\n i,\n splats.sh1.slice(i * 9, (i + 1) * 9),\n shDegree >= 2 && splats.sh2\n ? splats.sh2.slice(i * 15, (i + 1) * 15)\n : undefined,\n shDegree >= 3 && splats.sh3\n ? splats.sh3.slice(i * 21, (i + 1) * 21)\n : undefined,\n );\n }\n }\n\n const spzBytes = await spz.finalize();\n return { fileBytes: spzBytes, clippedCount: spz.clippedCount };\n}\n","import { unzipSync } from \"fflate\";\nimport { FileLoader, Loader, type LoadingManager } from \"three\";\nimport { ExtSplats, type ExtSplatsOptions } from \"./ExtSplats\";\nimport { withWorker } from \"./OldSplatWorker\";\nimport { PackedSplats, type PackedSplatsOptions } from \"./PackedSplats\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport { type SplatEncoding, SplatFileType } from \"./defines\";\nimport { PlyReader } from \"./ply\";\nimport { decompressPartialGzip, getTextureSize } from \"./utils\";\n\n// SplatLoader implements the THREE.Loader interface and supports loading a variety\n// of different Gsplat file formats. Formats .PLY and .SPZ can be auto-detected\n// from the file contents, while .SPLAT and .KSPLAT require either having the\n// appropriate file extension as part of the path, or it can be explicitly set\n// in the loader using the fileType property.\n\nexport class SplatLoader extends Loader {\n fileLoader: FileLoader;\n\n constructor(manager?: LoadingManager) {\n super(manager);\n this.fileLoader = new FileLoader(manager);\n }\n\n load(\n url: string,\n onLoad?: (decoded: PackedSplats | ExtSplats) => void,\n onProgress?: (event: ProgressEvent) => void,\n onError?: (error: unknown) => void,\n ) {\n return this.loadInternal({\n url,\n onLoad,\n onProgress,\n onError,\n });\n }\n\n async loadAsync(\n url: string,\n onProgress?: (event: ProgressEvent) => void,\n ): Promise {\n return new Promise((resolve, reject) => {\n this.load(\n url,\n (decoded) => {\n resolve(decoded);\n },\n onProgress,\n reject,\n );\n });\n }\n\n parse(packedSplats: PackedSplats): SplatMesh {\n return new SplatMesh({ packedSplats });\n }\n\n loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad,\n onProgress,\n onError,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onLoad?: (decoded: PackedSplats | ExtSplats) => void;\n onProgress?: (event: ProgressEvent) => void;\n onError?: (error: unknown) => void;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n if (fileBytes instanceof ArrayBuffer) {\n fileBytes = new Uint8Array(fileBytes);\n }\n const resolvedURL = fileBytes\n ? undefined\n : this.manager.resolveURL((this.path ?? \"\") + (url ?? \"\"));\n\n let readStream = stream?.getReader();\n\n this.manager.itemStart(resolvedURL ?? \"\");\n // let calledOnLoad = false;\n\n workerPool\n .withWorker(async (worker) => {\n // If LoD is set and not falsey\n const splatsLod = packedSplats?.lod ?? extSplats?.lod;\n if (splatsLod) {\n lod = splatsLod;\n }\n const splatsNonLod = packedSplats?.nonLod ?? extSplats?.nonLod;\n if (splatsNonLod !== undefined) {\n nonLod = splatsNonLod;\n }\n\n // let init: {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // } | null = null;\n // let initExt: {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // } | null = null;\n\n const onStatus = async (data: unknown) => {\n const { loaded, total } = data as { loaded: number; total: number };\n if (loaded !== undefined && onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n\n if ((data as { nextChunk?: boolean }).nextChunk) {\n let chunk: Uint8Array;\n if (!readStream) {\n chunk = new Uint8Array(0);\n } else {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n readStream = undefined;\n chunk = new Uint8Array(0);\n } else {\n chunk = value;\n }\n }\n worker.call(\"nextChunk\", { chunk });\n }\n\n // if ((data as { orig?: unknown }).orig) {\n // if (extSplats) {\n // initExt = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // };\n // extSplats.initialize({\n // numSplats: initExt?.numSplats,\n // extArrays: [initExt?.ext0, initExt?.ext1],\n // extra: initExt?.extra,\n // });\n // calledOnLoad = true;\n // onLoad?.(extSplats);\n // } else if (packedSplats) {\n // init = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // };\n // packedSplats.initialize({\n // numSplats: init?.numSplats,\n // packedArray: init?.packedArray,\n // extra: init?.extra,\n // splatEncoding: init?.splatEncoding,\n // });\n // calledOnLoad = true;\n // onLoad?.(packedSplats);\n // } else {\n // console.warn(\"No splats to initialize\");\n // }\n // }\n };\n\n const basedUrl = resolvedURL\n ? new URL(resolvedURL, window.location.href).toString()\n : undefined;\n const decoded = (await worker.call(\n extSplats ? \"loadExtSplats\" : \"loadPackedSplats\",\n {\n url: basedUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n fileBytes: fileBytes?.slice(),\n fileType,\n pathName: resolvedURL || fileName,\n chunked: stream !== undefined,\n chunkedLength: streamLength,\n encoding: packedSplats?.splatEncoding,\n lod,\n lodBase,\n nonLod,\n lodAbove,\n },\n { onStatus },\n )) as {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n lodSplats?:\n | {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n }\n | PackedSplats\n | ExtSplats;\n };\n\n if (decoded.lodSplats) {\n if (extSplats) {\n decoded.lodSplats = new ExtSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record;\n }),\n });\n } else {\n decoded.lodSplats = new PackedSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n packedArray: Uint32Array;\n extra: Record;\n splatEncoding: SplatEncoding;\n }),\n maxSplats: packedSplats?.maxSplats,\n });\n }\n }\n\n if (extSplats) {\n const initExtSplats = {\n // ...(initExt ?? {}),\n ...decoded,\n };\n extSplats.initialize(initExtSplats as ExtSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(extSplats);\n // }\n } else {\n const initSplats = {\n // ...(init ?? {}),\n ...decoded,\n };\n if (packedSplats) {\n packedSplats.initialize(initSplats as PackedSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(packedSplats);\n // }\n } else {\n // if (!calledOnLoad) {\n onLoad?.(new PackedSplats(initSplats as PackedSplatsOptions));\n // }\n }\n }\n })\n .catch((error) => {\n this.manager.itemError(resolvedURL ?? \"\");\n onError?.(error);\n })\n .finally(() => {\n this.manager.itemEnd(resolvedURL ?? \"\");\n });\n }\n\n async loadInternalAsync({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onProgress?: (event: ProgressEvent) => void;\n lod?: boolean;\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n return new Promise((resolve, reject) => {\n this.loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad: resolve,\n onProgress,\n onError: reject,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n });\n });\n }\n}\n\nasync function fetchWithProgress(\n request: Request,\n onProgress?: (event: ProgressEvent) => void,\n) {\n const response = await fetch(request);\n if (!response.ok) {\n throw new Error(\n `${response.status} \"${response.statusText}\" fetching URL: ${request.url}`,\n );\n }\n if (!response.body) {\n throw new Error(`Response body is null for URL: ${request.url}`);\n }\n\n const reader = response.body.getReader();\n let loaded = 0;\n const chunks: Uint8Array[] = [];\n try {\n const contentLength = Number.parseInt(\n response.headers.get(\"Content-Length\") || \"0\",\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n\n while (true) {\n const { done, value } = await reader.read();\n if (done) {\n break;\n }\n chunks.push(value);\n loaded += value.length;\n\n if (onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n }\n } catch (err) {\n try {\n const reason = err instanceof Error ? err.message : \"Unknown error\";\n await reader.cancel(reason);\n } catch {}\n throw err;\n }\n\n // Combine chunks into a single buffer\n const bytes = new Uint8Array(loaded);\n let offset = 0;\n for (const chunk of chunks) {\n bytes.set(chunk, offset);\n offset += chunk.length;\n }\n return bytes.buffer;\n}\n\nexport function getSplatFileType(\n fileBytes: Uint8Array,\n): SplatFileType | undefined {\n const view = new DataView(fileBytes.buffer);\n const magic = view.getUint32(0, true);\n if ((magic & 0x00ffffff) === 0x00796c70) {\n return SplatFileType.PLY;\n }\n if ((magic & 0x00ffffff) === 0x00088b1f) {\n // Gzipped file, unpack beginning to check magic number\n const header = decompressPartialGzip(fileBytes, 4);\n const gView = new DataView(header.buffer);\n if (gView.getUint32(0, true) === 0x5053474e) {\n return SplatFileType.SPZ;\n }\n // Unknown Gzipped file type\n return undefined;\n }\n if (magic === 0x04034b50) {\n // PKZip file\n if (tryPcSogsZip(fileBytes)) {\n return SplatFileType.PCSOGSZIP;\n }\n // Unknown PKZip file type\n return undefined;\n }\n if (magic === 0x30444152) {\n return SplatFileType.RAD;\n }\n // Unknown file type\n return undefined;\n}\n\n// Returns the lowercased file extension from a path or URL\nexport function getFileExtension(pathOrUrl: string): string {\n const noTrailing = pathOrUrl.split(/[?#]/, 1)[0];\n const lastSlash = Math.max(\n noTrailing.lastIndexOf(\"/\"),\n noTrailing.lastIndexOf(\"\\\\\"),\n );\n const filename = noTrailing.slice(lastSlash + 1);\n const lastDot = filename.lastIndexOf(\".\");\n if (lastDot <= 0 || lastDot === filename.length - 1) {\n return \"\"; // No extension\n }\n return filename.slice(lastDot + 1).toLowerCase();\n}\n\nexport function getSplatFileTypeFromPath(\n pathOrUrl: string,\n): SplatFileType | undefined {\n const extension = getFileExtension(pathOrUrl);\n if (extension === \"ply\") {\n return SplatFileType.PLY;\n }\n if (extension === \"spz\") {\n return SplatFileType.SPZ;\n }\n if (extension === \"splat\") {\n return SplatFileType.SPLAT;\n }\n if (extension === \"ksplat\") {\n return SplatFileType.KSPLAT;\n }\n if (extension === \"sog\") {\n return SplatFileType.PCSOGSZIP;\n }\n if (extension === \"rad\") {\n return SplatFileType.RAD;\n }\n return undefined;\n}\n\nexport type PcSogsJson = {\n means: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n quats: { shape: number[]; dtype: string; encoding?: string; files: string[] };\n sh0: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n shN?: {\n shape: number[];\n dtype: string;\n mins: number;\n maxs: number;\n quantization: number;\n files: string[];\n };\n};\n\nexport type PcSogsV2Json = {\n version: 2;\n count: number;\n antialias?: boolean;\n means: {\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n codebook: number[];\n files: string[];\n };\n quats: { files: string[] };\n sh0: {\n codebook: number[];\n files: string[];\n };\n shN?: {\n count: number;\n bands: number;\n codebook: number[];\n files: string[];\n };\n};\n\nexport function isPcSogs(input: ArrayBuffer | Uint8Array | string): boolean {\n // Returns true if the input seems to be a valid PC SOGS file\n return tryPcSogs(input) !== undefined;\n}\n\nexport function tryPcSogs(\n input: ArrayBuffer | Uint8Array | string,\n): PcSogsJson | PcSogsV2Json | undefined {\n // Try to parse input as SOGS JSON and see if it's valid\n try {\n let text: string;\n if (typeof input === \"string\") {\n text = input;\n } else {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n if (fileBytes.length > 65536) {\n // Should be only a few KB, definitely not a SOGS JSON file\n return undefined;\n }\n text = new TextDecoder().decode(fileBytes);\n }\n\n const json = JSON.parse(text);\n if (!json || typeof json !== \"object\" || Array.isArray(json)) {\n return undefined;\n }\n const isVersion2 = json.version === 2;\n\n for (const key of [\"means\", \"scales\", \"quats\", \"sh0\"]) {\n if (\n !json[key] ||\n typeof json[key] !== \"object\" ||\n Array.isArray(json[key])\n ) {\n return undefined;\n }\n if (isVersion2) {\n // Expect files\n if (!json[key].files) {\n return undefined;\n }\n\n // Scales and sh0 should have codebooks\n if ((key === \"scales\" || key === \"sh0\") && !json[key].codebook) {\n return undefined;\n }\n // Means should have mins and maxs defined\n if (key === \"means\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n } else {\n // Expect shape and files\n if (!json[key].shape || !json[key].files) {\n return undefined;\n }\n // Besides 'quats' all other properties have mins and maxs\n if (key !== \"quats\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n }\n }\n // This is probably a PC SOGS file\n return json as PcSogsJson | PcSogsV2Json;\n } catch {\n return undefined;\n }\n}\n\nexport function tryPcSogsZip(\n input: ArrayBuffer | Uint8Array,\n): { name: string; json: PcSogsJson | PcSogsV2Json } | undefined {\n try {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let metaFilename: string | null = null;\n\n const unzipped = unzipSync(fileBytes, {\n filter: ({ name }) => {\n const filename = name.split(/[\\\\/]/).pop() as string;\n if (filename === \"meta.json\") {\n metaFilename = name;\n return true;\n }\n return false;\n },\n });\n if (!metaFilename) {\n return undefined;\n }\n\n // Check for PC SOGS V1 and V2 (aka SOG)\n const json = tryPcSogs(unzipped[metaFilename]);\n if (!json) {\n return undefined;\n }\n return { name: metaFilename, json };\n } catch {\n return undefined;\n }\n}\n\nexport async function unpackSplats({\n input,\n extraFiles,\n fileType,\n pathOrUrl,\n splatEncoding,\n}: {\n input: Uint8Array | ArrayBuffer;\n extraFiles?: Record;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n splatEncoding?: SplatEncoding;\n}): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra?: Record;\n}> {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let splatFileType = fileType;\n if (!fileType) {\n splatFileType = getSplatFileType(fileBytes);\n if (!splatFileType && pathOrUrl) {\n splatFileType = getSplatFileTypeFromPath(pathOrUrl);\n }\n }\n\n switch (splatFileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n const maxSplats = getTextureSize(numSplats).maxSplats;\n const args = {\n fileBytes,\n packedArray: new Uint32Array(maxSplats * 4),\n splatEncoding,\n };\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"unpackPly\",\n args,\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPZ: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeSpz\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats } = (await worker.call(\n \"decodeAntiSplat\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as { packedArray: Uint32Array; numSplats: number };\n return { packedArray, numSplats };\n });\n }\n case SplatFileType.KSPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeKsplat\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGS: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogs\",\n { fileBytes, extraFiles, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGSZIP: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogsZip\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n default: {\n throw new Error(`Unknown splat file type: ${splatFileType}`);\n }\n }\n}\n\nexport class SplatData {\n numSplats: number;\n maxSplats: number;\n centers: Float32Array;\n scales: Float32Array;\n quaternions: Float32Array;\n opacities: Float32Array;\n colors: Float32Array;\n sh1?: Float32Array;\n sh2?: Float32Array;\n sh3?: Float32Array;\n\n constructor({ maxSplats = 1 }: { maxSplats?: number } = {}) {\n this.numSplats = 0;\n this.maxSplats = getTextureSize(maxSplats).maxSplats;\n this.centers = new Float32Array(this.maxSplats * 3);\n this.scales = new Float32Array(this.maxSplats * 3);\n this.quaternions = new Float32Array(this.maxSplats * 4);\n this.opacities = new Float32Array(this.maxSplats);\n this.colors = new Float32Array(this.maxSplats * 3);\n }\n\n pushSplat(): number {\n const index = this.numSplats;\n this.ensureIndex(index);\n this.numSplats += 1;\n return index;\n }\n\n unpushSplat(index: number) {\n if (index === this.numSplats - 1) {\n this.numSplats -= 1;\n } else {\n throw new Error(\"Cannot unpush splat from non-last position\");\n }\n }\n\n ensureCapacity(numSplats: number) {\n if (numSplats > this.maxSplats) {\n const targetSplats = Math.max(numSplats, this.maxSplats * 2);\n const newCenters = new Float32Array(targetSplats * 3);\n const newScales = new Float32Array(targetSplats * 3);\n const newQuaternions = new Float32Array(targetSplats * 4);\n const newOpacities = new Float32Array(targetSplats);\n const newColors = new Float32Array(targetSplats * 3);\n newCenters.set(this.centers);\n newScales.set(this.scales);\n newQuaternions.set(this.quaternions);\n newOpacities.set(this.opacities);\n newColors.set(this.colors);\n this.centers = newCenters;\n this.scales = newScales;\n this.quaternions = newQuaternions;\n this.opacities = newOpacities;\n this.colors = newColors;\n\n if (this.sh1) {\n const newSh1 = new Float32Array(targetSplats * 9);\n newSh1.set(this.sh1);\n this.sh1 = newSh1;\n }\n if (this.sh2) {\n const newSh2 = new Float32Array(targetSplats * 15);\n newSh2.set(this.sh2);\n this.sh2 = newSh2;\n }\n if (this.sh3) {\n const newSh3 = new Float32Array(targetSplats * 21);\n newSh3.set(this.sh3);\n this.sh3 = newSh3;\n }\n\n this.maxSplats = targetSplats;\n }\n }\n\n ensureIndex(index: number) {\n this.ensureCapacity(index + 1);\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n this.centers[index * 3] = x;\n this.centers[index * 3 + 1] = y;\n this.centers[index * 3 + 2] = z;\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n this.scales[index * 3] = scaleX;\n this.scales[index * 3 + 1] = scaleY;\n this.scales[index * 3 + 2] = scaleZ;\n }\n\n setQuaternion(index: number, x: number, y: number, z: number, w: number) {\n this.quaternions[index * 4] = x;\n this.quaternions[index * 4 + 1] = y;\n this.quaternions[index * 4 + 2] = z;\n this.quaternions[index * 4 + 3] = w;\n }\n\n setOpacity(index: number, opacity: number) {\n this.opacities[index] = opacity;\n }\n\n setColor(index: number, r: number, g: number, b: number) {\n this.colors[index * 3] = r;\n this.colors[index * 3 + 1] = g;\n this.colors[index * 3 + 2] = b;\n }\n\n setSh1(index: number, sh1: Float32Array) {\n if (!this.sh1) {\n this.sh1 = new Float32Array(this.maxSplats * 9);\n }\n for (let j = 0; j < 9; ++j) {\n this.sh1[index * 9 + j] = sh1[j];\n }\n }\n\n setSh2(index: number, sh2: Float32Array) {\n if (!this.sh2) {\n this.sh2 = new Float32Array(this.maxSplats * 15);\n }\n for (let j = 0; j < 15; ++j) {\n this.sh2[index * 15 + j] = sh2[j];\n }\n }\n\n setSh3(index: number, sh3: Float32Array) {\n if (!this.sh3) {\n this.sh3 = new Float32Array(this.maxSplats * 21);\n }\n for (let j = 0; j < 21; ++j) {\n this.sh3[index * 21 + j] = sh3[j];\n }\n }\n}\n\nexport async function transcodeSpz(\n input: TranscodeSpzInput,\n): Promise<{ input: TranscodeSpzInput; fileBytes: Uint8Array }> {\n return await withWorker(async (worker) => {\n const result = (await worker.call(\"transcodeSpz\", input)) as {\n input: TranscodeSpzInput;\n fileBytes: Uint8Array;\n };\n return result;\n });\n}\n\nexport type FileInput = {\n fileBytes: Uint8Array;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n transform?: { translate?: number[]; quaternion?: number[]; scale?: number };\n};\n\nexport type TranscodeSpzInput = {\n inputs: FileInput[];\n maxSh?: number;\n clipXyz?: { min: number[]; max: number[] };\n fractionalBits?: number;\n opacityThreshold?: number;\n};\n","import { unzip } from \"fflate\";\nimport {\n type PcSogsJson,\n type PcSogsV2Json,\n tryPcSogsZip,\n} from \"./SplatLoader\";\nimport type { SplatEncoding } from \"./defines\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n setPackedSplatCenter,\n setPackedSplatQuat,\n setPackedSplatRgba,\n setPackedSplatScales,\n} from \"./utils\";\n\nexport async function unpackPcSogs(\n json: PcSogsJson | PcSogsV2Json,\n extraFiles: Record,\n splatEncoding: SplatEncoding,\n): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const isVersion2 = \"version\" in json;\n\n if (!isVersion2 && json.quats.encoding !== \"quaternion_packed\") {\n throw new Error(\"Unsupported quaternion encoding\");\n }\n\n const numSplats = isVersion2 ? json.count : json.means.shape[0];\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n const meansPromise = Promise.all([\n decodeImageRgba(extraFiles[json.means.files[0]]),\n decodeImageRgba(extraFiles[json.means.files[1]]),\n ]).then((means) => {\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n const fx = (means[0][i4 + 0] + (means[1][i4 + 0] << 8)) / 65535;\n const fy = (means[0][i4 + 1] + (means[1][i4 + 1] << 8)) / 65535;\n const fz = (means[0][i4 + 2] + (means[1][i4 + 2] << 8)) / 65535;\n let x =\n json.means.mins[0] + (json.means.maxs[0] - json.means.mins[0]) * fx;\n let y =\n json.means.mins[1] + (json.means.maxs[1] - json.means.mins[1]) * fy;\n let z =\n json.means.mins[2] + (json.means.maxs[2] - json.means.mins[2]) * fz;\n x = Math.sign(x) * (Math.exp(Math.abs(x)) - 1);\n y = Math.sign(y) * (Math.exp(Math.abs(y)) - 1);\n z = Math.sign(z) * (Math.exp(Math.abs(z)) - 1);\n setPackedSplatCenter(packedArray, i, x, y, z);\n }\n });\n\n const scalesPromise = decodeImageRgba(extraFiles[json.scales.files[0]]).then(\n (scales) => {\n let xLookup: number[];\n let yLookup: number[];\n let zLookup: number[];\n\n if (isVersion2) {\n xLookup =\n yLookup =\n zLookup =\n json.scales.codebook.map((x) => Math.exp(x));\n } else {\n xLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.scales.mins[0] +\n (json.scales.maxs[0] - json.scales.mins[0]) * (i / 255),\n )\n .map((x) => Math.exp(x));\n yLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.scales.mins[1] +\n (json.scales.maxs[1] - json.scales.mins[1]) * (i / 255),\n )\n .map((x) => Math.exp(x));\n zLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.scales.mins[2] +\n (json.scales.maxs[2] - json.scales.mins[2]) * (i / 255),\n )\n .map((x) => Math.exp(x));\n }\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n setPackedSplatScales(\n packedArray,\n i,\n xLookup[scales[i4 + 0]],\n yLookup[scales[i4 + 1]],\n zLookup[scales[i4 + 2]],\n splatEncoding,\n );\n }\n },\n );\n\n const quatsPromise = decodeImageRgba(extraFiles[json.quats.files[0]]).then(\n (quats) => {\n const SQRT2 = Math.sqrt(2);\n const lookup = new Array(256)\n .fill(0)\n .map((_, i) => (i / 255 - 0.5) * SQRT2);\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n const r0 = lookup[quats[i4 + 0]];\n const r1 = lookup[quats[i4 + 1]];\n const r2 = lookup[quats[i4 + 2]];\n const rr = Math.sqrt(Math.max(0, 1.0 - r0 * r0 - r1 * r1 - r2 * r2));\n const rOrder = quats[i4 + 3] - 252;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n setPackedSplatQuat(packedArray, i, quatX, quatY, quatZ, quatW);\n }\n },\n );\n const sh0Promise = decodeImageRgba(extraFiles[json.sh0.files[0]]).then(\n (sh0) => {\n const SH_C0 = 0.28209479177387814;\n let rLookup: number[];\n let gLookup: number[];\n let bLookup: number[];\n let aLookup: number[];\n\n if (isVersion2) {\n rLookup =\n gLookup =\n bLookup =\n json.sh0.codebook.map((x) => SH_C0 * x + 0.5);\n aLookup = new Array(256).fill(0).map((_, i) => i / 255);\n } else {\n rLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[0] +\n (json.sh0.maxs[0] - json.sh0.mins[0]) * (i / 255),\n )\n .map((x) => SH_C0 * x + 0.5);\n gLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[1] +\n (json.sh0.maxs[1] - json.sh0.mins[1]) * (i / 255),\n )\n .map((x) => SH_C0 * x + 0.5);\n bLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[2] +\n (json.sh0.maxs[2] - json.sh0.mins[2]) * (i / 255),\n )\n .map((x) => SH_C0 * x + 0.5);\n aLookup = new Array(256)\n .fill(0)\n .map(\n (_, i) =>\n json.sh0.mins[3] +\n (json.sh0.maxs[3] - json.sh0.mins[3]) * (i / 255),\n )\n .map((x) => 1.0 / (1.0 + Math.exp(-x)));\n }\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n setPackedSplatRgba(\n packedArray,\n i,\n rLookup[sh0[i4 + 0]],\n gLookup[sh0[i4 + 1]],\n bLookup[sh0[i4 + 2]],\n aLookup[sh0[i4 + 3]],\n splatEncoding,\n );\n }\n },\n );\n\n const promises = [meansPromise, scalesPromise, quatsPromise, sh0Promise];\n if (json.shN) {\n const useSH3 = isVersion2\n ? json.shN.bands >= 3\n : json.shN.shape[1] >= 48 - 3;\n const useSH2 = isVersion2\n ? json.shN.bands >= 2\n : json.shN.shape[1] >= 27 - 3;\n const useSH1 = isVersion2\n ? json.shN.bands >= 1\n : json.shN.shape[1] >= 12 - 3;\n\n if (useSH1) extra.sh1 = new Uint32Array(numSplats * 2);\n if (useSH2) extra.sh2 = new Uint32Array(numSplats * 4);\n if (useSH3) extra.sh3 = new Uint32Array(numSplats * 4);\n\n const sh1 = new Float32Array(9);\n const sh2 = new Float32Array(15);\n const sh3 = new Float32Array(21);\n\n const shN = json.shN;\n const shNPromise = Promise.all([\n decodeImage(extraFiles[json.shN.files[0]]),\n decodeImage(extraFiles[json.shN.files[1]]),\n ]).then(([centroids, labels]) => {\n const lookup =\n \"codebook\" in shN\n ? shN.codebook\n : new Array(256)\n .fill(0)\n .map((_, i) => shN.mins + (shN.maxs - shN.mins) * (i / 255));\n\n for (let i = 0; i < numSplats; ++i) {\n const i4 = i * 4;\n const label = labels.rgba[i4 + 0] + (labels.rgba[i4 + 1] << 8);\n const col = (label & 63) * 15;\n const row = label >>> 6;\n const offset = row * centroids.width + col;\n\n for (let d = 0; d < 3; ++d) {\n if (useSH1) {\n for (let k = 0; k < 3; ++k) {\n sh1[k * 3 + d] = lookup[centroids.rgba[(offset + k) * 4 + d]];\n }\n }\n\n if (useSH2) {\n for (let k = 0; k < 5; ++k) {\n sh2[k * 3 + d] = lookup[centroids.rgba[(offset + 3 + k) * 4 + d]];\n }\n }\n\n if (useSH3) {\n for (let k = 0; k < 7; ++k) {\n sh3[k * 3 + d] = lookup[centroids.rgba[(offset + 8 + k) * 4 + d]];\n }\n }\n }\n\n if (useSH1)\n encodeSh1Rgb(extra.sh1 as Uint32Array, i, sh1, splatEncoding);\n if (useSH2)\n encodeSh2Rgb(extra.sh2 as Uint32Array, i, sh2, splatEncoding);\n if (useSH3)\n encodeSh3Rgb(extra.sh3 as Uint32Array, i, sh3, splatEncoding);\n }\n });\n promises.push(shNPromise);\n }\n\n await Promise.all(promises);\n\n return { packedArray, numSplats, extra };\n}\n\n// WebGL context for reading raw pixel data of WebP images\nlet offscreenGlContext: WebGL2RenderingContext | null = null;\n\nasync function decodeImage(fileBytes: ArrayBuffer) {\n if (!offscreenGlContext) {\n const canvas = new OffscreenCanvas(1, 1);\n offscreenGlContext = canvas.getContext(\"webgl2\");\n if (!offscreenGlContext) {\n throw new Error(\"Failed to create WebGL2 context\");\n }\n }\n\n const imageBlob = new Blob([fileBytes]);\n const bitmap = await createImageBitmap(imageBlob, {\n premultiplyAlpha: \"none\",\n });\n\n const gl = offscreenGlContext;\n const texture = gl.createTexture();\n gl.bindTexture(gl.TEXTURE_2D, texture);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, true);\n gl.texImage2D(gl.TEXTURE_2D, 0, gl.RGBA, gl.RGBA, gl.UNSIGNED_BYTE, bitmap);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST);\n\n const framebuffer = gl.createFramebuffer();\n gl.bindFramebuffer(gl.FRAMEBUFFER, framebuffer);\n gl.framebufferTexture2D(\n gl.FRAMEBUFFER,\n gl.COLOR_ATTACHMENT0,\n gl.TEXTURE_2D,\n texture,\n 0,\n );\n\n const data = new Uint8Array(bitmap.width * bitmap.height * 4);\n gl.readPixels(\n 0,\n 0,\n bitmap.width,\n bitmap.height,\n gl.RGBA,\n gl.UNSIGNED_BYTE,\n data,\n );\n\n gl.deleteTexture(texture);\n gl.deleteFramebuffer(framebuffer);\n\n return { rgba: data, width: bitmap.width, height: bitmap.height };\n}\n\nasync function decodeImageRgba(fileBytes: ArrayBuffer) {\n const { rgba } = await decodeImage(fileBytes);\n return rgba;\n}\n\nexport async function unpackPcSogsZip(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const nameJson = tryPcSogsZip(fileBytes);\n if (!nameJson) {\n throw new Error(\"Invalid PC SOGS zip file\");\n }\n const { name, json } = nameJson;\n // Find path prefix, will be -1 if no / or \\\n const lastSlash = name.lastIndexOf(\"/\");\n const lastBackslash = name.lastIndexOf(\"\\\\\");\n const prefix = name.slice(0, Math.max(lastSlash, lastBackslash) + 1);\n\n const fileMap = new Map();\n const refFiles = [\n ...json.means.files,\n ...json.scales.files,\n ...json.quats.files,\n ...json.sh0.files,\n ...(json.shN?.files ?? []),\n ];\n for (const file of refFiles) {\n fileMap.set(prefix + file, file);\n }\n\n const unzipped = await new Promise>(\n (resolve, reject) => {\n unzip(\n fileBytes,\n {\n filter: ({ name }) => {\n return fileMap.has(name);\n },\n },\n (err, files) => {\n if (err) {\n reject(err);\n } else {\n resolve(files);\n }\n },\n );\n },\n );\n\n const extraFiles: Record = {};\n for (const [full, name] of fileMap.entries()) {\n extraFiles[name] = unzipped[full];\n }\n\n return await unpackPcSogs(json, extraFiles, splatEncoding);\n}\n","import init_wasm, { sort_splats, sort32_splats } from \"spark-worker-rs\";\nimport type { PcSogsJson, TranscodeSpzInput } from \"./SplatLoader\";\nimport { unpackAntiSplat } from \"./antisplat\";\nimport { type SplatEncoding, WASM_SPLAT_SORT } from \"./defines\";\nimport { unpackKsplat } from \"./ksplat\";\nimport { unpackPcSogs, unpackPcSogsZip } from \"./pcsogs\";\nimport { PlyReader } from \"./ply\";\nimport { SpzReader, transcodeSpz } from \"./spz\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n getTransferable,\n setPackedSplat,\n setPackedSplatCenter,\n setPackedSplatOpacity,\n setPackedSplatQuat,\n setPackedSplatRgb,\n setPackedSplatScales,\n toHalf,\n} from \"./utils\";\n\n// WebWorker for Spark's background CPU tasks, such as Gsplat file decoding\n// and sorting.\n\nasync function onMessage(event: MessageEvent) {\n // Unpack RPC function name, arguments, and ID from the main thread.\n const { name, args, id }: { name: string; args: unknown; id: number } =\n event.data;\n // console.log(`worker.onMessage(${id}, ${name}):`, args);\n\n // Initialize return result/error, to be filled out below.\n let result = undefined;\n let error = undefined;\n\n try {\n switch (name) {\n case \"unpackPly\": {\n const { packedArray, fileBytes, splatEncoding } = args as {\n packedArray: Uint32Array;\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = await unpackPly({\n packedArray,\n fileBytes,\n splatEncoding,\n });\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodeSpz\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = await unpackSpz(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodeAntiSplat\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = unpackAntiSplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n };\n break;\n }\n case \"decodeKsplat\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = unpackKsplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodePcSogs\": {\n const { fileBytes, extraFiles, splatEncoding } = args as {\n fileBytes: Uint8Array;\n extraFiles: Record;\n splatEncoding: SplatEncoding;\n };\n const json = JSON.parse(\n new TextDecoder().decode(fileBytes),\n ) as PcSogsJson;\n const decoded = await unpackPcSogs(json, extraFiles, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"decodePcSogsZip\": {\n const { fileBytes, splatEncoding } = args as {\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n };\n const decoded = await unpackPcSogsZip(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra,\n };\n break;\n }\n case \"sortSplats\": {\n // Sort maxSplats splats using readback data, which encodes one uint32 per\n // Gsplats, with the low bytes encoding a float16 distance sort metric.\n const { maxSplats, totalSplats, readback, ordering } = args as {\n maxSplats: number;\n totalSplats: number;\n readback: Uint8Array[];\n ordering: Uint32Array;\n };\n // Sort totalSplats splats each with 4 bytes of readback, and outputs Uint32Array ordering of splat indices\n result = {\n id,\n readback,\n ...sortSplats({ totalSplats, readback, ordering }),\n };\n break;\n }\n case \"sortDoubleSplats\": {\n // Sort numSplats splats using the readback distance metric, which encodes\n // one float16 per splat (no unused high bytes like for sortSplats).\n const { numSplats, readback, ordering } = args as {\n numSplats: number;\n readback: Uint16Array;\n ordering: Uint32Array;\n };\n if (WASM_SPLAT_SORT) {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort_splats(numSplats, readback, ordering),\n };\n } else {\n result = {\n id,\n readback,\n ...sortDoubleSplats({ numSplats, readback, ordering }),\n };\n }\n break;\n }\n case \"sort32Splats\": {\n const { maxSplats, numSplats, readback, ordering } = args as {\n maxSplats: number;\n numSplats: number;\n readback: Uint32Array;\n ordering: Uint32Array;\n };\n // Benchmark sort\n // benchmarkSort(numSplats, readback, ordering);\n if (WASM_SPLAT_SORT) {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort32_splats(numSplats, readback, ordering),\n };\n } else {\n result = {\n id,\n readback,\n ...sort32Splats({ maxSplats, numSplats, readback, ordering }),\n };\n }\n break;\n }\n case \"transcodeSpz\": {\n const input = args as TranscodeSpzInput;\n const spzBytes = await transcodeSpz(input);\n result = {\n id,\n fileBytes: spzBytes,\n input,\n };\n break;\n }\n default: {\n throw new Error(`Unknown name: ${name}`);\n }\n }\n } catch (e) {\n error = e;\n console.error(error);\n }\n\n // Send the result or error back to the main thread, making sure to transfer any ArrayBuffers\n self.postMessage(\n { id, result, error },\n { transfer: getTransferable(result) },\n );\n}\n\nfunction benchmarkSort(\n numSplats: number,\n readback32: Uint32Array,\n ordering: Uint32Array,\n) {\n if (numSplats > 0) {\n console.log(\"Running sort benchmark\");\n const readbackF32 = new Float32Array(readback32.buffer);\n const readback16 = new Uint16Array(readback32.length);\n for (let i = 0; i < numSplats; ++i) {\n readback16[i] = toHalf(readbackF32[i]);\n }\n\n const WARMUP = 10;\n for (let i = 0; i < WARMUP; ++i) {\n const activeSplats = sort_splats(numSplats, readback16, ordering);\n const activeSplats32 = sort32_splats(numSplats, readback32, ordering);\n const results = sortDoubleSplats({\n numSplats,\n readback: readback16,\n ordering,\n });\n const results32 = sort32Splats({\n maxSplats: numSplats,\n numSplats,\n readback: readback32,\n ordering,\n });\n }\n\n const TIMING_SAMPLES = 1000;\n let start: number;\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const activeSplats = sort_splats(numSplats, readback16, ordering);\n }\n const wasmTime = (performance.now() - start) / TIMING_SAMPLES;\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const results = sortDoubleSplats({\n numSplats,\n readback: readback16,\n ordering,\n });\n }\n const jsTime = (performance.now() - start) / TIMING_SAMPLES;\n\n console.log(\n `JS: ${jsTime} ms, WASM: ${wasmTime} ms, numSplats: ${numSplats}`,\n );\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const activeSplats32 = sort32_splats(numSplats, readback32, ordering);\n }\n const wasm32Time = (performance.now() - start) / TIMING_SAMPLES;\n\n start = performance.now();\n for (let i = 0; i < TIMING_SAMPLES; ++i) {\n const results = sort32Splats({\n maxSplats: numSplats,\n numSplats,\n readback: readback32,\n ordering,\n });\n }\n const js32Time = (performance.now() - start) / TIMING_SAMPLES;\n\n console.log(\n `JS32: ${js32Time} ms, WASM32: ${wasm32Time} ms, numSplats: ${numSplats}`,\n );\n }\n}\n\nasync function unpackPly({\n packedArray,\n fileBytes,\n splatEncoding,\n}: {\n packedArray: Uint32Array;\n fileBytes: Uint8Array;\n splatEncoding: SplatEncoding;\n}): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n\n const extra: Record = {};\n\n ply.parseSplats(\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n setPackedSplat(\n packedArray,\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, index, sh3, splatEncoding);\n }\n },\n );\n\n return { packedArray, numSplats, extra };\n}\n\nasync function unpackSpz(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n}> {\n const spz = new SpzReader({ fileBytes });\n await spz.parseHeader();\n const numSplats = spz.numSplats;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let extraCallbacks = {};\n if (spz.flagLod) {\n const childCounts = new Uint16Array(numSplats);\n const childStarts = new Uint32Array(numSplats);\n extra.childCounts = childCounts;\n extra.childStarts = childStarts;\n extraCallbacks = {\n childCounts: (index: number, count: number) => {\n childCounts[index] = count;\n },\n childStarts: (index: number, start: number) => {\n childStarts[index] = start;\n },\n };\n }\n\n await spz.parseSplats(\n (index, x, y, z) => {\n setPackedSplatCenter(packedArray, index, x, y, z);\n },\n (index, alpha) => {\n setPackedSplatOpacity(packedArray, index, alpha);\n },\n (index, r, g, b) => {\n setPackedSplatRgb(packedArray, index, r, g, b, splatEncoding);\n },\n (index, scaleX, scaleY, scaleZ) => {\n setPackedSplatScales(\n packedArray,\n index,\n scaleX,\n scaleY,\n scaleZ,\n splatEncoding,\n );\n },\n (index, quatX, quatY, quatZ, quatW) => {\n setPackedSplatQuat(packedArray, index, quatX, quatY, quatZ, quatW);\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, index, sh3, splatEncoding);\n }\n },\n extraCallbacks,\n );\n return { packedArray, numSplats, extra };\n}\n\n// Array of buckets for sorting float16 distances with range [0, DEPTH_INFINITY].\nconst DEPTH_INFINITY_F16 = 0x7c00;\nconst DEPTH_SIZE_16 = DEPTH_INFINITY_F16 + 1;\nlet depthArray16: Uint32Array | null = null;\n\nfunction sortSplats({\n totalSplats,\n readback,\n ordering,\n}: { totalSplats: number; readback: Uint8Array[]; ordering: Uint32Array }): {\n activeSplats: number;\n ordering: Uint32Array;\n} {\n // Sort totalSplats Gsplats, each with 4 bytes of readback, and outputs Uint32Array\n // of indices from most distant to nearest. Each 4 bytes encode a float16 distance\n // and unused high bytes.\n if (!depthArray16) {\n depthArray16 = new Uint32Array(DEPTH_SIZE_16);\n }\n depthArray16.fill(0);\n\n const readbackUint32 = readback.map((layer) => new Uint32Array(layer.buffer));\n const layerSize = readbackUint32[0].length;\n const numLayers = Math.ceil(totalSplats / layerSize);\n\n let layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i = 0; i < layerSplats; ++i) {\n const pri = readbackLayer[i] & 0x7fff;\n if (pri < DEPTH_INFINITY_F16) {\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n\n let activeSplats = 0;\n for (let j = 0; j < DEPTH_SIZE_16; ++j) {\n const nextIndex = activeSplats + depthArray16[j];\n depthArray16[j] = activeSplats;\n activeSplats = nextIndex;\n }\n\n layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i = 0; i < layerSplats; ++i) {\n const pri = readbackLayer[i] & 0x7fff;\n if (pri < DEPTH_INFINITY_F16) {\n ordering[depthArray16[pri]] = layerBase + i;\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n if (depthArray16[DEPTH_SIZE_16 - 1] !== activeSplats) {\n throw new Error(\n `Expected ${activeSplats} active splats but got ${depthArray16[DEPTH_SIZE_16 - 1]}`,\n );\n }\n\n return { activeSplats, ordering };\n}\n\n// Sort numSplats splats, each with 2 bytes of float16 readback for distance metric,\n// using one bucket sort pass, outputting Uint32Array of indices.\nfunction sortDoubleSplats({\n numSplats,\n readback,\n ordering,\n}: { numSplats: number; readback: Uint16Array; ordering: Uint32Array }): {\n activeSplats: number;\n ordering: Uint32Array;\n} {\n // Ensure depthArray is allocated and zeroed out for our buckets.\n if 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\ No newline at end of file diff --git a/dist/assets/worker-BUwnwGa6.js.map b/dist/assets/worker-BUwnwGa6.js.map new file mode 100644 index 00000000..40e70766 --- /dev/null +++ b/dist/assets/worker-BUwnwGa6.js.map @@ -0,0 +1 @@ +{"version":3,"file":"worker-BUwnwGa6.js","sources":["../rust/spark-worker-rs/pkg/spark_worker_rs.js","../src/worker.ts"],"sourcesContent":["/* @ts-self-types=\"./spark_worker_rs.d.ts\" */\n\nexport class ChunkDecoder {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(ChunkDecoder.prototype);\n obj.__wbg_ptr = ptr;\n ChunkDecoderFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n ChunkDecoderFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_chunkdecoder_free(ptr, 0);\n }\n /**\n * @returns {any}\n */\n finish() {\n const ptr = this.__destroy_into_raw();\n const ret = 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arg0);\n }\n}\nif (Symbol.dispose) CsplatArray.prototype[Symbol.dispose] = CsplatArray.prototype.free;\n\nexport class GsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(GsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n GsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n GsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_gsplatarray_free(ptr, 0);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_gsplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_gsplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.gsplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.gsplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.gsplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.gsplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.gsplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.gsplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.gsplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats_lod(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats_lod(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_gsplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_gsplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n}\nif (Symbol.dispose) GsplatArray.prototype[Symbol.dispose] = GsplatArray.prototype.free;\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function bhatt_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, rgba) {\n const ret = wasm.bhatt_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function bhatt_lod_packedsplats(num_splats, packed, extra, lod_base, rgba, encoding) {\n const ret = wasm.bhatt_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @returns {ChunkDecoder}\n */\nexport function decode_to_csplatarray(file_type, path_name, encoding) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_csplatarray(ptr0, len0, ptr1, len1, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_extsplats(file_type, path_name, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_extsplats(ptr0, len0, ptr1, len1, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_gsplatarray(file_type, path_name) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_gsplatarray(ptr0, len0, ptr1, len1);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Uint32Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_packedsplats(file_type, path_name, encoding, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_packedsplats(ptr0, len0, ptr1, len1, encoding, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n */\nexport function dispose_lod_tree(lod_id) {\n wasm.dispose_lod_tree(lod_id);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null} [extra]\n * @returns {GsplatArray}\n */\nexport function extsplats_to_gsplatarray(num_splats, ext1, ext2, extra) {\n const ret = wasm.extsplats_to_gsplatarray(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n * @param {number} level\n * @returns {object}\n */\nexport function get_lod_tree_level(lod_id, level) {\n const ret = wasm.get_lod_tree_level(lod_id, level);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} lod_tree\n * @returns {object}\n */\nexport function init_lod_tree(num_splats, lod_tree) {\n const ret = wasm.init_lod_tree(num_splats, lod_tree);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} capacity\n * @returns {object}\n */\nexport function new_lod_tree(capacity) {\n const ret = wasm.new_lod_tree(capacity);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} orig_lod_id\n * @returns {object}\n */\nexport function new_shared_lod_tree(orig_lod_id) {\n const ret = wasm.new_shared_lod_tree(orig_lod_id);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {CsplatArray}\n */\nexport function packedsplats_to_csplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_csplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return CsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {GsplatArray}\n */\nexport function packedsplats_to_gsplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_gsplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @returns {boolean}\n */\nexport function simd_enabled() {\n const ret = wasm.simd_enabled();\n return ret !== 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort32_splats(num_splats, readback, ordering) {\n const ret = wasm.sort32_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint16Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort_splats(num_splats, readback, ordering) {\n const ret = wasm.sort_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function tiny_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, merge_filter, rgba) {\n const ret = wasm.tiny_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function tiny_lod_packedsplats(num_splats, packed, extra, lod_base, merge_filter, rgba, encoding) {\n const ret = wasm.tiny_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} max_splats\n * @param {number} pixel_scale_limit\n * @param {number | null | undefined} _last_pixel_limit\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} root_pages\n * @param {Float32Array} view_to_objects\n * @param {Float32Array} lod_scales\n * @param {Float32Array} behind_foveates\n * @param {Float32Array} cone_foveates\n * @param {Float32Array} cone_fov0s\n * @param {Float32Array} cone_fovs\n * @returns {object}\n */\nexport function traverse_lod_trees(max_splats, pixel_scale_limit, _last_pixel_limit, lod_ids, root_pages, view_to_objects, lod_scales, behind_foveates, cone_foveates, cone_fov0s, cone_fovs) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(root_pages, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArrayF32ToWasm0(view_to_objects, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArrayF32ToWasm0(lod_scales, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ptr4 = passArrayF32ToWasm0(behind_foveates, wasm.__wbindgen_malloc);\n const len4 = WASM_VECTOR_LEN;\n const ptr5 = passArrayF32ToWasm0(cone_foveates, wasm.__wbindgen_malloc);\n const len5 = WASM_VECTOR_LEN;\n const ptr6 = passArrayF32ToWasm0(cone_fov0s, wasm.__wbindgen_malloc);\n const len6 = WASM_VECTOR_LEN;\n const ptr7 = passArrayF32ToWasm0(cone_fovs, wasm.__wbindgen_malloc);\n const len7 = WASM_VECTOR_LEN;\n const ret = wasm.traverse_lod_trees(max_splats, pixel_scale_limit, isLikeNone(_last_pixel_limit) ? 0x100000001 : Math.fround(_last_pixel_limit), ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, ptr4, len4, ptr5, len5, ptr6, len6, ptr7, len7);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} page_bases\n * @param {Uint32Array} chunk_bases\n * @param {Uint32Array} counts\n * @param {Array} lod_trees\n * @returns {object}\n */\nexport function update_lod_trees(lod_ids, page_bases, chunk_bases, counts, lod_trees) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(page_bases, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArray32ToWasm0(chunk_bases, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArray32ToWasm0(counts, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ret = wasm.update_lod_trees(ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, lod_trees);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\nexport function wasm_start() {\n wasm.wasm_start();\n}\n\nfunction __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_boolean_get_a86c216575a75c30: function(arg0) {\n const v = arg0;\n const ret = typeof(v) === 'boolean' ? v : undefined;\n return isLikeNone(ret) ? 0xFFFFFF : ret ? 1 : 0;\n },\n __wbg___wbindgen_debug_string_dd5d2d07ce9e6c57: function(arg0, arg1) {\n const ret = debugString(arg1);\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_in_4bd7a57e54337366: function(arg0, arg1) {\n const ret = arg0 in arg1;\n return ret;\n },\n __wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof(val) === 'object' && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === undefined;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'number' ? obj : undefined;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'string' ? obj : undefined;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() { return handleError(function (arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments); },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() { return handleError(function (arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments); },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n // Cast intrinsic for `F64 -> Externref`.\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n // Cast intrinsic for `Ref(String) -> Externref`.\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, undefined);\n table.set(offset + 0, undefined);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n },\n };\n return {\n __proto__: null,\n \"./spark_worker_rs_bg.js\": import0,\n };\n}\n\nconst ChunkDecoderFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\nconst CsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\nconst GsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n\nfunction addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n}\n\nfunction debugString(val) {\n // primitive types\n const type = typeof val;\n if (type == 'number' || type == 'boolean' || val == null) {\n return `${val}`;\n }\n if (type == 'string') {\n return `\"${val}\"`;\n }\n if (type == 'symbol') {\n const description = val.description;\n if (description == null) {\n return 'Symbol';\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == 'function') {\n const name = val.name;\n if (typeof name == 'string' && name.length > 0) {\n return `Function(${name})`;\n } else {\n return 'Function';\n }\n }\n // objects\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = '[';\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for(let i = 1; i < length; i++) {\n debug += ', ' + debugString(val[i]);\n }\n debug += ']';\n return debug;\n }\n // Test for built-in\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n // Failed to match the standard '[object ClassName]'\n return toString.call(val);\n }\n if (className == 'Object') {\n // we're a user defined class or Object\n // JSON.stringify avoids problems with cycles, and is generally much\n // easier than looping through ownProperties of `val`.\n try {\n return 'Object(' + JSON.stringify(val) + ')';\n } catch (_) {\n return 'Object';\n }\n }\n // errors\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\\n${val.stack}`;\n }\n // TODO we could test for more things here, like `Set`s and `Map`s.\n return className;\n}\n\nfunction getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n}\n\nfunction getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n}\n\nlet cachedDataViewMemory0 = null;\nfunction getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || (cachedDataViewMemory0.buffer.detached === undefined && cachedDataViewMemory0.buffer !== wasm.memory.buffer)) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n}\n\nlet cachedFloat32ArrayMemory0 = null;\nfunction getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n}\n\nfunction getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n}\n\nlet cachedUint16ArrayMemory0 = null;\nfunction getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n}\n\nlet cachedUint32ArrayMemory0 = null;\nfunction getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n}\n\nlet cachedUint8ArrayMemory0 = null;\nfunction getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n}\n\nfunction handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n}\n\nfunction isLikeNone(x) {\n return x === undefined || x === null;\n}\n\nfunction passArray32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getUint32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passArrayF32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getFloat32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passStringToWasm0(arg, malloc, realloc) {\n if (realloc === undefined) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr, ptr + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr;\n }\n\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n\n const mem = getUint8ArrayMemory0();\n\n let offset = 0;\n\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 0x7F) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n\n WASM_VECTOR_LEN = offset;\n return ptr;\n}\n\nfunction takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n}\n\nlet cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\ncachedTextDecoder.decode();\nconst MAX_SAFARI_DECODE_BYTES = 2146435072;\nlet numBytesDecoded = 0;\nfunction decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n}\n\nconst cachedTextEncoder = new TextEncoder();\n\nif (!('encodeInto' in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function (arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n}\n\nlet WASM_VECTOR_LEN = 0;\n\nlet wasmModule, wasm;\nfunction __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n wasmModule = module;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n}\n\nasync function __wbg_load(module, imports) {\n if (typeof Response === 'function' && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === 'function') {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n\n if (validResponse && module.headers.get('Content-Type') !== 'application/wasm') {\n console.warn(\"`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n\", e);\n\n } else { throw e; }\n }\n }\n\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n\n function expectedResponseType(type) {\n switch (type) {\n case 'basic': case 'cors': case 'default': return true;\n }\n return false;\n }\n}\n\nfunction initSync(module) {\n if (wasm !== undefined) return wasm;\n\n\n if (module !== undefined) {\n if (Object.getPrototypeOf(module) === Object.prototype) {\n ({module} = module)\n } else {\n console.warn('using deprecated parameters for `initSync()`; pass a single object instead')\n }\n }\n\n const imports = __wbg_get_imports();\n if (!(module instanceof WebAssembly.Module)) {\n module = new WebAssembly.Module(module);\n }\n const instance = new WebAssembly.Instance(module, imports);\n return __wbg_finalize_init(instance, module);\n}\n\nasync function __wbg_init(module_or_path) {\n if (wasm !== undefined) return wasm;\n\n\n if (module_or_path !== undefined) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({module_or_path} = module_or_path)\n } else {\n console.warn('using deprecated parameters for the initialization function; pass a single object instead')\n }\n }\n\n if (module_or_path === undefined) {\n module_or_path = new URL('spark_worker_rs_bg.wasm', import.meta.url);\n }\n const imports = __wbg_get_imports();\n\n if (typeof module_or_path === 'string' || (typeof Request === 'function' && module_or_path instanceof Request) || (typeof URL === 'function' && module_or_path instanceof URL)) {\n module_or_path = fetch(module_or_path);\n }\n\n const { instance, module } = await __wbg_load(await module_or_path, imports);\n\n return __wbg_finalize_init(instance, module);\n}\n\nexport { initSync, __wbg_init as default };\n","import init_wasm, {\n sort_splats,\n sort32_splats,\n decode_to_gsplatarray,\n decode_to_csplatarray,\n decode_to_packedsplats,\n new_lod_tree,\n new_shared_lod_tree,\n init_lod_tree,\n dispose_lod_tree,\n traverse_lod_trees,\n type ChunkDecoder,\n tiny_lod_packedsplats,\n bhatt_lod_packedsplats,\n update_lod_trees,\n decode_to_extsplats,\n tiny_lod_extsplats,\n bhatt_lod_extsplats,\n get_lod_tree_level,\n} from \"spark-worker-rs\";\nimport type { ExtResult, PackedResult, SplatEncoding } from \"./defines\";\n\nconst rpcHandlers = {\n sortSplats16,\n sortSplats32,\n loadPackedSplats,\n loadExtSplats,\n tinyLodPackedSplats,\n qualityLodPackedSplats,\n tinyLodExtSplats,\n qualityLodExtSplats,\n newLodTree,\n newSharedLodTree,\n initLodTree,\n disposeLodTree,\n updateLodTrees,\n traverseLodTrees,\n getLodTreeLevel,\n nextChunk,\n};\n\nasync function onMessage(event: MessageEvent) {\n const {\n id,\n name,\n args,\n }: { id: unknown; name: keyof typeof rpcHandlers; args: unknown } =\n event.data;\n try {\n const handler = rpcHandlers[name] as (\n args: unknown,\n options: { sendStatus: (data: unknown) => void },\n ) => unknown | Promise;\n if (!handler) {\n throw new Error(`Unknown worker RPC: ${name}`);\n }\n\n const sendStatus = (data: unknown) => {\n self.postMessage(\n { id, status: data },\n { transfer: getTransferable(data) },\n );\n };\n const result = await handler(args, { sendStatus });\n self.postMessage({ id, result }, { transfer: getTransferable(result) });\n } catch (error) {\n console.warn(`Worker error: ${error}`);\n self.postMessage({ id, error }, { transfer: getTransferable(error) });\n }\n}\n\nfunction sortSplats16({\n numSplats,\n readback,\n ordering,\n}: {\n numSplats: number;\n readback: Uint16Array;\n ordering: Uint32Array;\n}) {\n const activeSplats = sort_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n}\n\nfunction sortSplats32({\n numSplats,\n readback,\n ordering,\n}: {\n numSplats: number;\n readback: Uint32Array;\n ordering: Uint32Array;\n}) {\n const activeSplats = sort32_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n}\n\nasync function fetchRange({\n url,\n requestHeader,\n withCredentials,\n offset,\n bytes,\n}: {\n url: string;\n requestHeader?: Record;\n withCredentials?: string;\n offset?: number;\n bytes?: number;\n}): Promise {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : undefined,\n credentials: withCredentials ? \"include\" : \"same-origin\",\n });\n if (offset !== undefined && bytes !== undefined) {\n request.headers.set(\"Range\", `bytes=${offset}-${offset + bytes - 1}`);\n }\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n return new Uint8Array(await response.arrayBuffer());\n}\n\nasync function decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n}: {\n decoder: ChunkDecoder;\n fileBytes?: Uint8Array;\n url?: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n chunked?: boolean;\n chunkedLength?: number;\n sendStatus: (data: unknown) => void;\n}) {\n if (fileBytes) {\n const CHUNK_SIZE = 1048576; // 1 MB\n for (let i = 0; i < fileBytes.length; i += CHUNK_SIZE) {\n decoder.push(\n fileBytes.subarray(i, Math.min(i + CHUNK_SIZE, fileBytes.length)),\n );\n }\n } else if (url) {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : undefined,\n credentials: withCredentials ? \"include\" : \"same-origin\",\n });\n\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n const readStream = response.body.getReader();\n const contentLength = Number.parseInt(\n response.headers.get(\"Content-Length\") || \"0\",\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n let loaded = 0;\n\n while (true) {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n break;\n }\n loaded += value.length;\n sendStatus({ loaded, total });\n\n decoder.push(value);\n }\n } else if (chunked) {\n let loaded = 0;\n const total = chunkedLength ?? 0;\n while (true) {\n const readNextChunk: Promise = new Promise((resolve) => {\n nextChunkWaiter = resolve;\n });\n sendStatus({ nextChunk: true });\n const nextChunk = await readNextChunk;\n\n if (nextChunk.length === 0) {\n break;\n }\n\n decoder.push(nextChunk);\n loaded += nextChunk.length;\n sendStatus({ progress: { loaded, total } });\n }\n if (total === 0) {\n sendStatus({ progress: { loaded, total: loaded } });\n }\n } else {\n throw new Error(\"No url or fileBytes provided\");\n }\n\n const decoded = decoder.finish();\n return decoded;\n}\n\ntype DecodedPackedResult = {\n numSplats: number;\n packed: Uint32Array;\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n lodTree?: Uint32Array;\n splatEncoding: SplatEncoding;\n};\n\nfunction toPackedResult(packed: DecodedPackedResult): PackedResult {\n return {\n numSplats: packed.numSplats,\n packedArray: packed.packed,\n extra: {\n sh1: packed.sh1,\n sh2: packed.sh2,\n sh3: packed.sh3,\n sh1Codes: packed.sh1Codes,\n sh2Codes: packed.sh2Codes,\n sh3Codes: packed.sh3Codes,\n lodTree: packed.lodTree,\n },\n splatEncoding: packed.splatEncoding,\n };\n}\n\nasync function loadPackedSplats(\n {\n url,\n requestHeader,\n withCredentials,\n fileBytes,\n fileType,\n pathName,\n chunked,\n chunkedLength,\n encoding,\n lod,\n lodBase,\n lodAbove,\n nonLod,\n sh1Codes,\n sh2Codes,\n sh3Codes,\n }: {\n url?: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n fileBytes?: Uint8Array;\n fileType?: string;\n pathName?: string;\n chunked?: boolean;\n chunkedLength?: number;\n encoding?: SplatEncoding;\n lod?: boolean | \"quality\";\n lodBase?: number;\n lodAbove?: number;\n nonLod?: boolean;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n },\n {\n sendStatus,\n }: {\n sendStatus: (data: unknown) => void;\n },\n) {\n // console.log(\"loadPackedSplats\", { url, requestHeader, withCredentials, fileBytes, fileType, pathName, stream, streamLength, encoding, lod, lodBase, lodAbove, nonLod });\n if (!lod) {\n const decoder = decode_to_packedsplats(\n fileType,\n pathName ?? url,\n encoding,\n sh1Codes,\n sh2Codes,\n sh3Codes,\n );\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n });\n const result = toPackedResult(decoded as DecodedPackedResult);\n if (result.splatEncoding.lodOpacity) {\n return { lodSplats: result };\n }\n return result;\n }\n\n const decoder = decode_to_csplatarray(fileType, pathName ?? url, encoding);\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n });\n\n if (decoded.has_lod()) {\n const result = toPackedResult(\n decoded.to_packedsplats_lod() as DecodedPackedResult,\n );\n return { lodSplats: result };\n }\n\n if (lodAbove !== undefined) {\n if (decoded.len() < lodAbove) {\n return toPackedResult(decoded.to_packedsplats() as DecodedPackedResult);\n }\n }\n\n let result:\n | (ReturnType & {\n lodSplats?: ReturnType;\n })\n | { lodSplats?: ReturnType } = {};\n\n // if (nonLod === true) {\n // sendStatus({ orig: toPackedResult(packed as DecodedPackedResult) });\n // } else if (nonLod === \"wait\") {\n if (nonLod) {\n // Wait until LoD computation is complete before resolving full PackedSplats result\n result = toPackedResult(decoded.to_packedsplats() as DecodedPackedResult);\n }\n\n const initialSplats = decoded.len();\n const lodName = lod === \"quality\" ? \"Bhatt\" : \"Tiny\";\n console.log(\n `Loaded ${initialSplats} splats. 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null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function bhatt_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, rgba) {\n const ret = wasm.bhatt_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function bhatt_lod_packedsplats(num_splats, packed, extra, lod_base, rgba, encoding) {\n const ret = wasm.bhatt_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @returns {ChunkDecoder}\n */\nexport function decode_to_csplatarray(file_type, path_name, encoding) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_csplatarray(ptr0, len0, ptr1, len1, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_extsplats(file_type, path_name, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_extsplats(ptr0, len0, ptr1, len1, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_gsplatarray(file_type, path_name) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_gsplatarray(ptr0, len0, ptr1, len1);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Uint32Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_packedsplats(file_type, path_name, encoding, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_packedsplats(ptr0, len0, ptr1, len1, encoding, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n */\nexport function dispose_lod_tree(lod_id) {\n wasm.dispose_lod_tree(lod_id);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null} [extra]\n * @returns {GsplatArray}\n */\nexport function extsplats_to_gsplatarray(num_splats, ext1, ext2, extra) {\n const ret = wasm.extsplats_to_gsplatarray(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n * @param {number} level\n * @returns {object}\n */\nexport function get_lod_tree_level(lod_id, level) {\n const ret = wasm.get_lod_tree_level(lod_id, level);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} lod_tree\n * @returns {object}\n */\nexport function init_lod_tree(num_splats, lod_tree) {\n const ret = wasm.init_lod_tree(num_splats, lod_tree);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} capacity\n * @returns {object}\n */\nexport function new_lod_tree(capacity) {\n const ret = wasm.new_lod_tree(capacity);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} orig_lod_id\n * @returns {object}\n */\nexport function new_shared_lod_tree(orig_lod_id) {\n const ret = wasm.new_shared_lod_tree(orig_lod_id);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {CsplatArray}\n */\nexport function packedsplats_to_csplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_csplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return CsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {GsplatArray}\n */\nexport function packedsplats_to_gsplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_gsplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @returns {boolean}\n */\nexport function simd_enabled() {\n const ret = wasm.simd_enabled();\n return ret !== 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort32_splats(num_splats, readback, ordering) {\n const ret = wasm.sort32_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint16Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort_splats(num_splats, readback, ordering) {\n const ret = wasm.sort_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function tiny_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, merge_filter, rgba) {\n const ret = wasm.tiny_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function tiny_lod_packedsplats(num_splats, packed, extra, lod_base, merge_filter, rgba, encoding) {\n const ret = wasm.tiny_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} max_splats\n * @param {number} pixel_scale_limit\n * @param {number | null | undefined} _last_pixel_limit\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} root_pages\n * @param {Float32Array} view_to_objects\n * @param {Float32Array} lod_scales\n * @param {Float32Array} behind_foveates\n * @param {Float32Array} cone_foveates\n * @param {Float32Array} cone_fov0s\n * @param {Float32Array} cone_fovs\n * @returns {object}\n */\nexport function traverse_lod_trees(max_splats, pixel_scale_limit, _last_pixel_limit, lod_ids, root_pages, view_to_objects, lod_scales, behind_foveates, cone_foveates, cone_fov0s, cone_fovs) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(root_pages, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArrayF32ToWasm0(view_to_objects, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArrayF32ToWasm0(lod_scales, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ptr4 = passArrayF32ToWasm0(behind_foveates, wasm.__wbindgen_malloc);\n const len4 = WASM_VECTOR_LEN;\n const ptr5 = passArrayF32ToWasm0(cone_foveates, wasm.__wbindgen_malloc);\n const len5 = WASM_VECTOR_LEN;\n const ptr6 = passArrayF32ToWasm0(cone_fov0s, wasm.__wbindgen_malloc);\n const len6 = WASM_VECTOR_LEN;\n const ptr7 = passArrayF32ToWasm0(cone_fovs, wasm.__wbindgen_malloc);\n const len7 = WASM_VECTOR_LEN;\n const ret = wasm.traverse_lod_trees(max_splats, pixel_scale_limit, isLikeNone(_last_pixel_limit) ? 0x100000001 : Math.fround(_last_pixel_limit), ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, ptr4, len4, ptr5, len5, ptr6, len6, ptr7, len7);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} page_bases\n * @param {Uint32Array} chunk_bases\n * @param {Uint32Array} counts\n * @param {Array} lod_trees\n * @returns {object}\n */\nexport function update_lod_trees(lod_ids, page_bases, chunk_bases, counts, lod_trees) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(page_bases, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArray32ToWasm0(chunk_bases, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArray32ToWasm0(counts, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ret = wasm.update_lod_trees(ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, lod_trees);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\nexport function wasm_start() {\n wasm.wasm_start();\n}\n\nfunction __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_boolean_get_a86c216575a75c30: function(arg0) {\n const v = arg0;\n const ret = typeof(v) === 'boolean' ? v : undefined;\n return isLikeNone(ret) ? 0xFFFFFF : ret ? 1 : 0;\n },\n __wbg___wbindgen_debug_string_dd5d2d07ce9e6c57: function(arg0, arg1) {\n const ret = debugString(arg1);\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_in_4bd7a57e54337366: function(arg0, arg1) {\n const ret = arg0 in arg1;\n return ret;\n },\n __wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof(val) === 'object' && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === undefined;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'number' ? obj : undefined;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'string' ? obj : undefined;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() { return handleError(function (arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments); },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() { return handleError(function (arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments); },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n // Cast intrinsic for `F64 -> Externref`.\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n // Cast intrinsic for `Ref(String) -> Externref`.\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, undefined);\n table.set(offset + 0, undefined);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n },\n };\n return {\n __proto__: null,\n \"./spark_worker_rs_bg.js\": import0,\n };\n}\n\nconst ChunkDecoderFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\nconst CsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\nconst GsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n\nfunction addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n}\n\nfunction debugString(val) {\n // primitive types\n const type = typeof val;\n if (type == 'number' || type == 'boolean' || val == null) {\n return `${val}`;\n }\n if (type == 'string') {\n return `\"${val}\"`;\n }\n if (type == 'symbol') {\n const description = val.description;\n if (description == null) {\n return 'Symbol';\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == 'function') {\n const name = val.name;\n if (typeof name == 'string' && name.length > 0) {\n return `Function(${name})`;\n } else {\n return 'Function';\n }\n }\n // objects\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = '[';\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for(let i = 1; i < length; i++) {\n debug += ', ' + debugString(val[i]);\n }\n debug += ']';\n return debug;\n }\n // Test for built-in\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n // Failed to match the standard '[object ClassName]'\n return toString.call(val);\n }\n if (className == 'Object') {\n // we're a user defined class or Object\n // JSON.stringify avoids problems with cycles, and is generally much\n // easier than looping through ownProperties of `val`.\n try {\n return 'Object(' + JSON.stringify(val) + ')';\n } catch (_) {\n return 'Object';\n }\n }\n // errors\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\\n${val.stack}`;\n }\n // TODO we could test for more things here, like `Set`s and `Map`s.\n return className;\n}\n\nfunction getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n}\n\nfunction getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n}\n\nlet cachedDataViewMemory0 = null;\nfunction getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || (cachedDataViewMemory0.buffer.detached === undefined && cachedDataViewMemory0.buffer !== wasm.memory.buffer)) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n}\n\nlet cachedFloat32ArrayMemory0 = null;\nfunction getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n}\n\nfunction getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n}\n\nlet cachedUint16ArrayMemory0 = null;\nfunction getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n}\n\nlet cachedUint32ArrayMemory0 = null;\nfunction getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n}\n\nlet cachedUint8ArrayMemory0 = null;\nfunction getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n}\n\nfunction handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n}\n\nfunction isLikeNone(x) {\n return x === undefined || x === null;\n}\n\nfunction passArray32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getUint32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passArrayF32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getFloat32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passStringToWasm0(arg, malloc, realloc) {\n if (realloc === undefined) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr, ptr + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr;\n }\n\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n\n const mem = getUint8ArrayMemory0();\n\n let offset = 0;\n\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 0x7F) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n\n WASM_VECTOR_LEN = offset;\n return ptr;\n}\n\nfunction takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n}\n\nlet cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\ncachedTextDecoder.decode();\nconst MAX_SAFARI_DECODE_BYTES = 2146435072;\nlet numBytesDecoded = 0;\nfunction decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n}\n\nconst cachedTextEncoder = new TextEncoder();\n\nif (!('encodeInto' in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function (arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n}\n\nlet WASM_VECTOR_LEN = 0;\n\nlet wasmModule, wasm;\nfunction __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n wasmModule = module;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n}\n\nasync function __wbg_load(module, imports) {\n if (typeof Response === 'function' && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === 'function') {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n\n if (validResponse && module.headers.get('Content-Type') !== 'application/wasm') {\n console.warn(\"`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n\", e);\n\n } else { throw e; }\n }\n }\n\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n\n function expectedResponseType(type) {\n switch (type) {\n case 'basic': case 'cors': case 'default': return true;\n }\n return false;\n }\n}\n\nfunction initSync(module) {\n if (wasm !== undefined) return wasm;\n\n\n if (module !== undefined) {\n if (Object.getPrototypeOf(module) === Object.prototype) {\n ({module} = module)\n } else {\n console.warn('using deprecated parameters for `initSync()`; pass a single object instead')\n }\n }\n\n const imports = __wbg_get_imports();\n if (!(module instanceof WebAssembly.Module)) {\n module = new WebAssembly.Module(module);\n }\n const instance = new WebAssembly.Instance(module, imports);\n return __wbg_finalize_init(instance, module);\n}\n\nasync function __wbg_init(module_or_path) {\n if (wasm !== undefined) return wasm;\n\n\n if (module_or_path !== undefined) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({module_or_path} = module_or_path)\n } else {\n console.warn('using deprecated parameters for the initialization function; pass a single object instead')\n }\n }\n\n if (module_or_path === undefined) {\n module_or_path = new URL('spark_worker_rs_bg.wasm', import.meta.url);\n }\n const imports = __wbg_get_imports();\n\n if (typeof module_or_path === 'string' || (typeof Request === 'function' && module_or_path instanceof Request) || (typeof URL === 'function' && module_or_path instanceof URL)) {\n module_or_path = fetch(module_or_path);\n }\n\n const { instance, module } = await __wbg_load(await module_or_path, imports);\n\n return __wbg_finalize_init(instance, module);\n}\n\nexport { initSync, __wbg_init as default };\n","import init_wasm, {\n sort_splats,\n sort32_splats,\n decode_to_gsplatarray,\n decode_to_csplatarray,\n decode_to_packedsplats,\n new_lod_tree,\n new_shared_lod_tree,\n init_lod_tree,\n dispose_lod_tree,\n traverse_lod_trees,\n type ChunkDecoder,\n tiny_lod_packedsplats,\n bhatt_lod_packedsplats,\n update_lod_trees,\n decode_to_extsplats,\n tiny_lod_extsplats,\n bhatt_lod_extsplats,\n get_lod_tree_level,\n} from \"spark-worker-rs\";\nimport type { ExtResult, PackedResult, SplatEncoding } from \"./defines\";\n\nconst rpcHandlers = {\n sortSplats16,\n sortSplats32,\n loadPackedSplats,\n loadExtSplats,\n tinyLodPackedSplats,\n qualityLodPackedSplats,\n tinyLodExtSplats,\n qualityLodExtSplats,\n newLodTree,\n newSharedLodTree,\n initLodTree,\n disposeLodTree,\n updateLodTrees,\n traverseLodTrees,\n getLodTreeLevel,\n nextChunk,\n};\n\nasync function onMessage(event: MessageEvent) {\n const {\n id,\n name,\n args,\n }: { id: unknown; name: keyof typeof rpcHandlers; args: unknown } =\n event.data;\n try {\n const handler = rpcHandlers[name] as (\n args: unknown,\n options: { sendStatus: (data: unknown) => void },\n ) => unknown | Promise;\n if (!handler) {\n throw new Error(`Unknown worker RPC: ${name}`);\n }\n\n const sendStatus = (data: unknown) => {\n self.postMessage(\n { id, status: data },\n { transfer: getTransferable(data) },\n );\n };\n const result = await handler(args, { sendStatus });\n self.postMessage({ id, result }, { transfer: getTransferable(result) });\n } catch (error) {\n console.warn(`Worker error: ${error}`);\n self.postMessage({ id, error }, { transfer: getTransferable(error) });\n }\n}\n\nfunction sortSplats16({\n numSplats,\n readback,\n ordering,\n}: {\n numSplats: number;\n readback: Uint16Array;\n ordering: Uint32Array;\n}) {\n const activeSplats = sort_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n}\n\nfunction sortSplats32({\n numSplats,\n readback,\n ordering,\n}: {\n numSplats: number;\n readback: Uint32Array;\n ordering: Uint32Array;\n}) {\n const activeSplats = sort32_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n}\n\nasync function fetchRange({\n url,\n requestHeader,\n withCredentials,\n offset,\n bytes,\n}: {\n url: string;\n requestHeader?: Record;\n withCredentials?: string;\n offset?: number;\n bytes?: number;\n}): Promise {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : undefined,\n credentials: withCredentials ? \"include\" : \"same-origin\",\n });\n if (offset !== undefined && bytes !== undefined) {\n request.headers.set(\"Range\", `bytes=${offset}-${offset + bytes - 1}`);\n }\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n return new Uint8Array(await response.arrayBuffer());\n}\n\nasync function decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n}: {\n decoder: ChunkDecoder;\n fileBytes?: Uint8Array;\n url?: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n chunked?: boolean;\n chunkedLength?: number;\n sendStatus: (data: unknown) => void;\n}) {\n if (fileBytes) {\n const CHUNK_SIZE = 1048576; // 1 MB\n for (let i = 0; i < fileBytes.length; i += CHUNK_SIZE) {\n decoder.push(\n fileBytes.subarray(i, Math.min(i + CHUNK_SIZE, fileBytes.length)),\n );\n }\n } else if (url) {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : undefined,\n credentials: withCredentials ? \"include\" : \"same-origin\",\n });\n\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n const readStream = response.body.getReader();\n const contentLength = Number.parseInt(\n response.headers.get(\"Content-Length\") || \"0\",\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n let loaded = 0;\n\n while (true) {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n break;\n }\n loaded += value.length;\n sendStatus({ loaded, total });\n\n decoder.push(value);\n }\n } else if (chunked) {\n let loaded = 0;\n const total = chunkedLength ?? 0;\n while (true) {\n const readNextChunk: Promise = new Promise((resolve) => {\n nextChunkWaiter = resolve;\n });\n sendStatus({ nextChunk: true });\n const nextChunk = await readNextChunk;\n\n if (nextChunk.length === 0) {\n break;\n }\n\n decoder.push(nextChunk);\n loaded += nextChunk.length;\n sendStatus({ progress: { loaded, total } });\n }\n if (total === 0) {\n sendStatus({ progress: { loaded, total: loaded } });\n }\n } else {\n throw new Error(\"No url or fileBytes provided\");\n }\n\n const decoded = decoder.finish();\n return decoded;\n}\n\ntype DecodedPackedResult = {\n numSplats: number;\n packed: Uint32Array;\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n lodTree?: Uint32Array;\n splatEncoding: SplatEncoding;\n};\n\nfunction toPackedResult(packed: DecodedPackedResult): PackedResult {\n return {\n numSplats: packed.numSplats,\n packedArray: packed.packed,\n extra: {\n sh1: packed.sh1,\n sh2: packed.sh2,\n sh3: packed.sh3,\n sh1Codes: packed.sh1Codes,\n sh2Codes: packed.sh2Codes,\n sh3Codes: packed.sh3Codes,\n lodTree: packed.lodTree,\n },\n splatEncoding: packed.splatEncoding,\n };\n}\n\nasync function loadPackedSplats(\n {\n url,\n requestHeader,\n withCredentials,\n fileBytes,\n fileType,\n pathName,\n chunked,\n chunkedLength,\n encoding,\n lod,\n lodBase,\n lodAbove,\n nonLod,\n sh1Codes,\n sh2Codes,\n sh3Codes,\n }: {\n url?: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n fileBytes?: Uint8Array;\n fileType?: string;\n pathName?: string;\n chunked?: boolean;\n chunkedLength?: number;\n encoding?: SplatEncoding;\n lod?: boolean | \"quality\";\n lodBase?: number;\n lodAbove?: number;\n nonLod?: boolean;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n },\n {\n sendStatus,\n }: {\n sendStatus: (data: unknown) => void;\n },\n) {\n // console.log(\"loadPackedSplats\", { url, requestHeader, withCredentials, fileBytes, fileType, pathName, stream, streamLength, encoding, lod, lodBase, lodAbove, nonLod });\n if (!lod) {\n const decoder = decode_to_packedsplats(\n fileType,\n pathName ?? url,\n encoding,\n sh1Codes,\n sh2Codes,\n sh3Codes,\n );\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n });\n const result = toPackedResult(decoded as DecodedPackedResult);\n if (result.splatEncoding.lodOpacity) {\n return { lodSplats: result };\n }\n return result;\n }\n\n const decoder = decode_to_csplatarray(fileType, pathName ?? url, encoding);\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n });\n\n if (decoded.has_lod()) {\n const result = toPackedResult(\n decoded.to_packedsplats_lod() as DecodedPackedResult,\n );\n return { lodSplats: result };\n }\n\n if (lodAbove !== undefined) {\n if (decoded.len() < lodAbove) {\n return toPackedResult(decoded.to_packedsplats() as DecodedPackedResult);\n }\n }\n\n let result:\n | (ReturnType & {\n lodSplats?: ReturnType;\n })\n | { lodSplats?: ReturnType } = {};\n\n // if (nonLod === true) {\n // sendStatus({ orig: toPackedResult(packed as DecodedPackedResult) });\n // } else if (nonLod === \"wait\") {\n if (nonLod) {\n // Wait until LoD computation is complete before resolving full PackedSplats result\n result = toPackedResult(decoded.to_packedsplats() as DecodedPackedResult);\n }\n\n const initialSplats = decoded.len();\n const lodName = lod === \"quality\" ? \"Bhatt\" : \"Tiny\";\n console.log(\n `Loaded ${initialSplats} splats. Starting ${lodName} LoD build...`,\n );\n\n const lodStart = performance.now();\n if (lod === \"quality\") {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.25));\n decoded.bhatt_lod(base);\n } else {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.5));\n decoded.tiny_lod(base, false);\n }\n const lodDuration = performance.now() - lodStart;\n\n console.log(\n `${lodName} LoD: ${initialSplats} -> ${decoded.len()} (${lodDuration} ms)`,\n );\n\n const lodPacked = decoded.to_packedsplats_lod();\n result.lodSplats = toPackedResult(lodPacked as DecodedPackedResult);\n return result;\n}\n\ntype DecodedExtResult = {\n numSplats: number;\n ext0: Uint32Array;\n ext1: Uint32Array;\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3a?: Uint32Array;\n sh3b?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: [Uint32Array, Uint32Array];\n lodTree?: Uint32Array;\n};\n\nfunction toExtResult(packed: DecodedExtResult): ExtResult {\n return {\n numSplats: packed.numSplats,\n extArrays: [packed.ext0, packed.ext1],\n extra: {\n sh1: packed.sh1,\n sh2: packed.sh2,\n sh3a: packed.sh3a,\n sh3b: packed.sh3b,\n sh1Codes: packed.sh1Codes,\n sh2Codes: packed.sh2Codes,\n sh3Codes: packed.sh3Codes,\n lodTree: packed.lodTree,\n },\n };\n}\n\nasync function loadExtSplats(\n {\n url,\n requestHeader,\n withCredentials,\n fileBytes,\n fileType,\n pathName,\n chunked,\n chunkedLength,\n lod,\n lodBase,\n lodAbove,\n nonLod,\n sh1Codes,\n sh2Codes,\n sh3Codes,\n }: {\n url?: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n fileBytes?: Uint8Array;\n fileType?: string;\n pathName?: string;\n chunked?: boolean;\n chunkedLength?: number;\n lod?: boolean | \"quality\";\n lodBase?: number;\n lodAbove?: number;\n nonLod?: boolean;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: [Uint32Array, Uint32Array];\n },\n {\n sendStatus,\n }: {\n sendStatus: (data: unknown) => void;\n },\n) {\n // console.log(\"loadExtSplats\", { url, requestHeader, withCredentials, fileBytes, fileType, pathName, stream, streamLength, lod, lodBase, lodAbove, nonLod });\n if (!lod) {\n const decoder = decode_to_extsplats(\n fileType,\n pathName ?? url,\n sh1Codes,\n sh2Codes,\n sh3Codes,\n );\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n });\n const result = toExtResult(decoded as DecodedExtResult);\n if (result.extra.lodTree) {\n return { lodSplats: result };\n }\n return result;\n }\n\n const decoder = decode_to_gsplatarray(fileType, pathName ?? url);\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n });\n\n if (decoded.has_lod()) {\n return {\n lodSplats: toExtResult(decoded.to_extsplats_lod() as DecodedExtResult),\n };\n }\n\n if (lodAbove !== undefined) {\n if (decoded.len() < lodAbove) {\n return toExtResult(decoded.to_extsplats() as DecodedExtResult);\n }\n }\n\n let result:\n | (ReturnType & {\n lodSplats?: ReturnType;\n })\n | { lodSplats?: ReturnType } = {};\n\n if (nonLod) {\n // Wait until LoD computation is complete before resolving full PackedSplats result\n result = toExtResult(decoded.to_extsplats() as DecodedExtResult);\n }\n\n const initialSplats = decoded.len();\n const lodName = lod === \"quality\" ? \"Bhatt\" : \"Tiny\";\n console.log(\n `Loaded ${initialSplats} splats. Starting ${lodName} LoD build...`,\n );\n\n const lodStart = performance.now();\n if (lod === \"quality\") {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.75));\n decoded.bhatt_lod(base);\n } else {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.5));\n decoded.tiny_lod(base, false);\n }\n const lodDuration = performance.now() - lodStart;\n\n console.log(\n `${lodName} LoD: ${initialSplats} -> ${decoded.len()} (${lodDuration} ms)`,\n );\n\n const lodPacked = decoded.to_extsplats_lod();\n result.lodSplats = toExtResult(lodPacked as DecodedExtResult);\n return result;\n}\n\nasync function tinyLodPackedSplats({\n numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding,\n}: {\n numSplats: number;\n packedArray: Uint32Array;\n extra?: Record;\n lodBase?: number;\n rgba?: Uint8Array;\n encoding: SplatEncoding;\n}) {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.5));\n const lodStart = performance.now();\n const filter = false;\n const decoded = tiny_lod_packedsplats(\n numSplats,\n packedArray,\n extra as object,\n base,\n filter,\n rgba,\n encoding,\n );\n const lodDuration = performance.now() - lodStart;\n const result = toPackedResult(decoded as DecodedPackedResult);\n console.log(\n `Tiny LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`,\n );\n return result;\n}\n\nasync function qualityLodPackedSplats({\n numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding,\n}: {\n numSplats: number;\n packedArray: Uint32Array;\n extra?: Record;\n lodBase?: number;\n rgba?: Uint8Array;\n encoding: SplatEncoding;\n}) {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.75));\n const lodStart = performance.now();\n const decoded = bhatt_lod_packedsplats(\n numSplats,\n packedArray,\n extra as object,\n base,\n rgba,\n encoding,\n );\n const lodDuration = performance.now() - lodStart;\n const result = toPackedResult(decoded as DecodedPackedResult);\n console.log(\n `Bhatt LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`,\n );\n return result;\n}\n\nasync function tinyLodExtSplats({\n numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n encoding,\n}: {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra?: Record;\n lodBase?: number;\n rgba?: Uint8Array;\n encoding: SplatEncoding;\n}) {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.5));\n const lodStart = performance.now();\n const filter = false;\n const decoded = tiny_lod_extsplats(\n numSplats,\n extArrays[0],\n extArrays[1],\n extra as object,\n base,\n filter,\n rgba,\n );\n const lodDuration = performance.now() - lodStart;\n const result = toExtResult(decoded as DecodedExtResult);\n console.log(\n `Tiny LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`,\n );\n return result;\n}\n\nasync function qualityLodExtSplats({\n numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n encoding,\n}: {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra?: 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null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function bhatt_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, rgba) {\n const ret = wasm.bhatt_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function bhatt_lod_packedsplats(num_splats, packed, extra, lod_base, rgba, encoding) {\n const ret = wasm.bhatt_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @returns {ChunkDecoder}\n */\nexport function decode_to_csplatarray(file_type, path_name, encoding) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_csplatarray(ptr0, len0, ptr1, len1, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_extsplats(file_type, path_name, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_extsplats(ptr0, len0, ptr1, len1, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_gsplatarray(file_type, path_name) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_gsplatarray(ptr0, len0, ptr1, len1);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Uint32Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_packedsplats(file_type, path_name, encoding, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_packedsplats(ptr0, len0, ptr1, len1, encoding, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n */\nexport function dispose_lod_tree(lod_id) {\n wasm.dispose_lod_tree(lod_id);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null} [extra]\n * @returns {GsplatArray}\n */\nexport function extsplats_to_gsplatarray(num_splats, ext1, ext2, extra) {\n const ret = wasm.extsplats_to_gsplatarray(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n * @param {number} level\n * @returns {object}\n */\nexport function get_lod_tree_level(lod_id, level) {\n const ret = wasm.get_lod_tree_level(lod_id, level);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} lod_tree\n * @returns {object}\n */\nexport function init_lod_tree(num_splats, lod_tree) {\n const ret = wasm.init_lod_tree(num_splats, lod_tree);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} capacity\n * @returns {object}\n */\nexport function new_lod_tree(capacity) {\n const ret = wasm.new_lod_tree(capacity);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} orig_lod_id\n * @returns {object}\n */\nexport function new_shared_lod_tree(orig_lod_id) {\n const ret = wasm.new_shared_lod_tree(orig_lod_id);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {CsplatArray}\n */\nexport function packedsplats_to_csplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_csplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return CsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {GsplatArray}\n */\nexport function packedsplats_to_gsplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_gsplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @returns {boolean}\n */\nexport function simd_enabled() {\n const ret = wasm.simd_enabled();\n return ret !== 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort32_splats(num_splats, readback, ordering) {\n const ret = wasm.sort32_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint16Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort_splats(num_splats, readback, ordering) {\n const ret = wasm.sort_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function tiny_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, merge_filter, rgba) {\n const ret = wasm.tiny_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function tiny_lod_packedsplats(num_splats, packed, extra, lod_base, merge_filter, rgba, encoding) {\n const ret = wasm.tiny_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} max_splats\n * @param {number} pixel_scale_limit\n * @param {number | null | undefined} _last_pixel_limit\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} root_pages\n * @param {Float32Array} view_to_objects\n * @param {Float32Array} lod_scales\n * @param {Float32Array} behind_foveates\n * @param {Float32Array} cone_foveates\n * @param {Float32Array} cone_fov0s\n * @param {Float32Array} cone_fovs\n * @returns {object}\n */\nexport function traverse_lod_trees(max_splats, pixel_scale_limit, _last_pixel_limit, lod_ids, root_pages, view_to_objects, lod_scales, behind_foveates, cone_foveates, cone_fov0s, cone_fovs) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(root_pages, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArrayF32ToWasm0(view_to_objects, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArrayF32ToWasm0(lod_scales, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ptr4 = passArrayF32ToWasm0(behind_foveates, wasm.__wbindgen_malloc);\n const len4 = WASM_VECTOR_LEN;\n const ptr5 = passArrayF32ToWasm0(cone_foveates, wasm.__wbindgen_malloc);\n const len5 = WASM_VECTOR_LEN;\n const ptr6 = passArrayF32ToWasm0(cone_fov0s, wasm.__wbindgen_malloc);\n const len6 = WASM_VECTOR_LEN;\n const ptr7 = passArrayF32ToWasm0(cone_fovs, wasm.__wbindgen_malloc);\n const len7 = WASM_VECTOR_LEN;\n const ret = wasm.traverse_lod_trees(max_splats, pixel_scale_limit, isLikeNone(_last_pixel_limit) ? 0x100000001 : Math.fround(_last_pixel_limit), ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, ptr4, len4, ptr5, len5, ptr6, len6, ptr7, len7);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} page_bases\n * @param {Uint32Array} chunk_bases\n * @param {Uint32Array} counts\n * @param {Array} lod_trees\n * @returns {object}\n */\nexport function update_lod_trees(lod_ids, page_bases, chunk_bases, counts, lod_trees) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(page_bases, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArray32ToWasm0(chunk_bases, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArray32ToWasm0(counts, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ret = wasm.update_lod_trees(ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, lod_trees);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\nexport function wasm_start() {\n wasm.wasm_start();\n}\n\nfunction __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_boolean_get_a86c216575a75c30: function(arg0) {\n const v = arg0;\n const ret = typeof(v) === 'boolean' ? v : undefined;\n return isLikeNone(ret) ? 0xFFFFFF : ret ? 1 : 0;\n },\n __wbg___wbindgen_debug_string_dd5d2d07ce9e6c57: function(arg0, arg1) {\n const ret = debugString(arg1);\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_in_4bd7a57e54337366: function(arg0, arg1) {\n const ret = arg0 in arg1;\n return ret;\n },\n __wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof(val) === 'object' && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === undefined;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'number' ? obj : undefined;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'string' ? obj : undefined;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() { return handleError(function (arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments); },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() { return handleError(function (arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments); },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n // Cast intrinsic for `F64 -> Externref`.\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n // Cast intrinsic for `Ref(String) -> Externref`.\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, undefined);\n table.set(offset + 0, undefined);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n },\n };\n return {\n __proto__: null,\n \"./spark_worker_rs_bg.js\": import0,\n };\n}\n\nconst ChunkDecoderFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\nconst CsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\nconst GsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n\nfunction addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n}\n\nfunction debugString(val) {\n // primitive types\n const type = typeof val;\n if (type == 'number' || type == 'boolean' || val == null) {\n return `${val}`;\n }\n if (type == 'string') {\n return `\"${val}\"`;\n }\n if (type == 'symbol') {\n const description = val.description;\n if (description == null) {\n return 'Symbol';\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == 'function') {\n const name = val.name;\n if (typeof name == 'string' && name.length > 0) {\n return `Function(${name})`;\n } else {\n return 'Function';\n }\n }\n // objects\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = '[';\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for(let i = 1; i < length; i++) {\n debug += ', ' + debugString(val[i]);\n }\n debug += ']';\n return debug;\n }\n // Test for built-in\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n // Failed to match the standard '[object ClassName]'\n return toString.call(val);\n }\n if (className == 'Object') {\n // we're a user defined class or Object\n // JSON.stringify avoids problems with cycles, and is generally much\n // easier than looping through ownProperties of `val`.\n try {\n return 'Object(' + JSON.stringify(val) + ')';\n } catch (_) {\n return 'Object';\n }\n }\n // errors\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\\n${val.stack}`;\n }\n // TODO we could test for more things here, like `Set`s and `Map`s.\n return className;\n}\n\nfunction getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n}\n\nfunction getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n}\n\nlet cachedDataViewMemory0 = null;\nfunction getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || (cachedDataViewMemory0.buffer.detached === undefined && cachedDataViewMemory0.buffer !== wasm.memory.buffer)) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n}\n\nlet cachedFloat32ArrayMemory0 = null;\nfunction getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n}\n\nfunction getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n}\n\nlet cachedUint16ArrayMemory0 = null;\nfunction getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n}\n\nlet cachedUint32ArrayMemory0 = null;\nfunction getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n}\n\nlet cachedUint8ArrayMemory0 = null;\nfunction getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n}\n\nfunction handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n}\n\nfunction isLikeNone(x) {\n return x === undefined || x === null;\n}\n\nfunction passArray32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getUint32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passArrayF32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getFloat32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passStringToWasm0(arg, malloc, realloc) {\n if (realloc === undefined) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr, ptr + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr;\n }\n\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n\n const mem = getUint8ArrayMemory0();\n\n let offset = 0;\n\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 0x7F) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n\n WASM_VECTOR_LEN = offset;\n return ptr;\n}\n\nfunction takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n}\n\nlet cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\ncachedTextDecoder.decode();\nconst MAX_SAFARI_DECODE_BYTES = 2146435072;\nlet numBytesDecoded = 0;\nfunction decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n}\n\nconst cachedTextEncoder = new TextEncoder();\n\nif (!('encodeInto' in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function (arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n}\n\nlet WASM_VECTOR_LEN = 0;\n\nlet wasmModule, wasm;\nfunction __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n wasmModule = module;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n}\n\nasync function __wbg_load(module, imports) {\n if (typeof Response === 'function' && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === 'function') {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n\n if (validResponse && module.headers.get('Content-Type') !== 'application/wasm') {\n console.warn(\"`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n\", e);\n\n } else { throw e; }\n }\n }\n\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n\n function expectedResponseType(type) {\n switch (type) {\n case 'basic': case 'cors': case 'default': return true;\n }\n return false;\n }\n}\n\nfunction initSync(module) {\n if (wasm !== undefined) return wasm;\n\n\n if (module !== undefined) {\n if (Object.getPrototypeOf(module) === Object.prototype) {\n ({module} = module)\n } else {\n console.warn('using deprecated parameters for `initSync()`; pass a single object instead')\n }\n }\n\n const imports = __wbg_get_imports();\n if (!(module instanceof WebAssembly.Module)) {\n module = new WebAssembly.Module(module);\n }\n const instance = new WebAssembly.Instance(module, imports);\n return __wbg_finalize_init(instance, module);\n}\n\nasync function __wbg_init(module_or_path) {\n if (wasm !== undefined) return wasm;\n\n\n if (module_or_path !== undefined) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({module_or_path} = module_or_path)\n } else {\n console.warn('using deprecated parameters for the initialization function; pass a single object instead')\n }\n }\n\n if (module_or_path === undefined) {\n module_or_path = new URL('spark_worker_rs_bg.wasm', import.meta.url);\n }\n const imports = __wbg_get_imports();\n\n if (typeof module_or_path === 'string' || (typeof Request === 'function' && module_or_path instanceof Request) || (typeof URL === 'function' && module_or_path instanceof URL)) {\n module_or_path = fetch(module_or_path);\n }\n\n const { instance, module } = await __wbg_load(await module_or_path, imports);\n\n return __wbg_finalize_init(instance, module);\n}\n\nexport { initSync, __wbg_init as default };\n","import init_wasm, {\n sort_splats,\n sort32_splats,\n decode_to_gsplatarray,\n decode_to_csplatarray,\n decode_to_packedsplats,\n new_lod_tree,\n new_shared_lod_tree,\n init_lod_tree,\n dispose_lod_tree,\n traverse_lod_trees,\n type ChunkDecoder,\n tiny_lod_packedsplats,\n bhatt_lod_packedsplats,\n update_lod_trees,\n decode_to_extsplats,\n tiny_lod_extsplats,\n bhatt_lod_extsplats,\n get_lod_tree_level,\n} from \"spark-worker-rs\";\nimport type { ExtResult, PackedResult, SplatEncoding } from \"./defines\";\n\nconst rpcHandlers = {\n sortSplats16,\n sortSplats32,\n loadPackedSplats,\n loadExtSplats,\n tinyLodPackedSplats,\n qualityLodPackedSplats,\n tinyLodExtSplats,\n qualityLodExtSplats,\n newLodTree,\n newSharedLodTree,\n initLodTree,\n disposeLodTree,\n updateLodTrees,\n traverseLodTrees,\n getLodTreeLevel,\n nextChunk,\n};\n\nasync function onMessage(event: MessageEvent) {\n const {\n id,\n name,\n args,\n }: { id: unknown; name: keyof typeof rpcHandlers; args: unknown } =\n event.data;\n try {\n const handler = rpcHandlers[name] as (\n args: unknown,\n options: { sendStatus: (data: unknown) => void },\n ) => unknown | Promise;\n if (!handler) {\n throw new Error(`Unknown worker RPC: ${name}`);\n }\n\n const sendStatus = (data: unknown) => {\n self.postMessage(\n { id, status: data },\n { transfer: getTransferable(data) },\n );\n };\n const result = await handler(args, { sendStatus });\n self.postMessage({ id, result }, { transfer: getTransferable(result) });\n } catch (error) {\n console.warn(`Worker error: ${error}`);\n self.postMessage({ id, error }, { transfer: getTransferable(error) });\n }\n}\n\nfunction sortSplats16({\n numSplats,\n readback,\n ordering,\n}: {\n numSplats: number;\n readback: Uint16Array;\n ordering: Uint32Array;\n}) {\n const activeSplats = sort_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n}\n\nfunction sortSplats32({\n numSplats,\n readback,\n ordering,\n}: {\n numSplats: number;\n readback: Uint32Array;\n ordering: Uint32Array;\n}) {\n const activeSplats = sort32_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n}\n\nasync function fetchRange({\n url,\n requestHeader,\n withCredentials,\n offset,\n bytes,\n}: {\n url: string;\n requestHeader?: Record;\n withCredentials?: string;\n offset?: number;\n bytes?: number;\n}): Promise {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : undefined,\n credentials: withCredentials ? \"include\" : \"same-origin\",\n });\n if (offset !== undefined && bytes !== undefined) {\n request.headers.set(\"Range\", `bytes=${offset}-${offset + bytes - 1}`);\n }\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n return new Uint8Array(await response.arrayBuffer());\n}\n\nasync function decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n}: {\n decoder: ChunkDecoder;\n fileBytes?: Uint8Array;\n url?: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n chunked?: boolean;\n chunkedLength?: number;\n sendStatus: (data: unknown) => void;\n}) {\n if (fileBytes) {\n const CHUNK_SIZE = 1048576; // 1 MB\n for (let i = 0; i < fileBytes.length; i += CHUNK_SIZE) {\n decoder.push(\n fileBytes.subarray(i, Math.min(i + CHUNK_SIZE, fileBytes.length)),\n );\n }\n } else if (url) {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : undefined,\n credentials: withCredentials ? \"include\" : \"same-origin\",\n });\n\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n const readStream = response.body.getReader();\n const contentLength = Number.parseInt(\n response.headers.get(\"Content-Length\") || \"0\",\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n let loaded = 0;\n\n while (true) {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n break;\n }\n loaded += value.length;\n sendStatus({ loaded, total });\n\n decoder.push(value);\n }\n } else if (chunked) {\n let loaded = 0;\n const total = chunkedLength ?? 0;\n while (true) {\n const readNextChunk: Promise = new Promise((resolve) => {\n nextChunkWaiter = resolve;\n });\n sendStatus({ nextChunk: true });\n const nextChunk = await readNextChunk;\n\n if (nextChunk.length === 0) {\n break;\n }\n\n decoder.push(nextChunk);\n loaded += nextChunk.length;\n sendStatus({ progress: { loaded, total } });\n }\n if (total === 0) {\n sendStatus({ progress: { loaded, total: loaded } });\n }\n } else {\n throw new Error(\"No url or fileBytes provided\");\n }\n\n const decoded = decoder.finish();\n return decoded;\n}\n\ntype DecodedPackedResult = {\n numSplats: number;\n packed: Uint32Array;\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n lodTree?: Uint32Array;\n splatEncoding: SplatEncoding;\n};\n\nfunction toPackedResult(packed: DecodedPackedResult): PackedResult {\n return {\n numSplats: packed.numSplats,\n packedArray: packed.packed,\n extra: {\n sh1: packed.sh1,\n sh2: packed.sh2,\n sh3: packed.sh3,\n sh1Codes: packed.sh1Codes,\n sh2Codes: packed.sh2Codes,\n sh3Codes: packed.sh3Codes,\n lodTree: packed.lodTree,\n },\n splatEncoding: packed.splatEncoding,\n };\n}\n\nasync function loadPackedSplats(\n {\n url,\n requestHeader,\n withCredentials,\n fileBytes,\n fileType,\n pathName,\n chunked,\n chunkedLength,\n encoding,\n lod,\n lodBase,\n lodAbove,\n nonLod,\n sh1Codes,\n sh2Codes,\n sh3Codes,\n }: {\n url?: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n fileBytes?: Uint8Array;\n fileType?: string;\n pathName?: string;\n chunked?: boolean;\n chunkedLength?: number;\n encoding?: SplatEncoding;\n lod?: boolean | \"quality\";\n lodBase?: number;\n lodAbove?: number;\n nonLod?: boolean;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n },\n {\n sendStatus,\n }: {\n sendStatus: (data: unknown) => void;\n },\n) {\n // console.log(\"loadPackedSplats\", { url, requestHeader, withCredentials, fileBytes, fileType, pathName, stream, streamLength, encoding, lod, lodBase, lodAbove, nonLod });\n if (!lod) {\n const decoder = decode_to_packedsplats(\n fileType,\n pathName ?? url,\n encoding,\n sh1Codes,\n sh2Codes,\n sh3Codes,\n );\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n });\n const result = toPackedResult(decoded as DecodedPackedResult);\n if (result.splatEncoding.lodOpacity) {\n return { lodSplats: result };\n }\n return result;\n }\n\n const decoder = decode_to_csplatarray(fileType, pathName ?? url, encoding);\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n });\n\n if (decoded.has_lod()) {\n const result = toPackedResult(\n decoded.to_packedsplats_lod() as DecodedPackedResult,\n );\n return { lodSplats: result };\n }\n\n if (lodAbove !== undefined) {\n if (decoded.len() < lodAbove) {\n return toPackedResult(decoded.to_packedsplats() as DecodedPackedResult);\n }\n }\n\n let result:\n | (ReturnType & {\n lodSplats?: ReturnType;\n })\n | { lodSplats?: ReturnType } = {};\n\n // if (nonLod === true) {\n // sendStatus({ orig: toPackedResult(packed as DecodedPackedResult) });\n // } else if (nonLod === \"wait\") {\n if (nonLod) {\n // Wait until LoD computation is complete before resolving full PackedSplats result\n result = toPackedResult(decoded.to_packedsplats() as DecodedPackedResult);\n }\n\n const initialSplats = decoded.len();\n const lodName = lod === \"quality\" ? \"Bhatt\" : \"Tiny\";\n console.log(\n `Loaded ${initialSplats} splats. Starting ${lodName} LoD build...`,\n );\n\n const lodStart = performance.now();\n if (lod === \"quality\") {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.25));\n decoded.bhatt_lod(base);\n } else {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.5));\n decoded.tiny_lod(base, false);\n }\n const lodDuration = performance.now() - lodStart;\n\n console.log(\n `${lodName} LoD: ${initialSplats} -> ${decoded.len()} (${lodDuration} ms)`,\n );\n\n const lodPacked = decoded.to_packedsplats_lod();\n result.lodSplats = toPackedResult(lodPacked as DecodedPackedResult);\n return result;\n}\n\ntype DecodedExtResult = {\n numSplats: number;\n ext0: Uint32Array;\n ext1: Uint32Array;\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3a?: Uint32Array;\n sh3b?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: [Uint32Array, Uint32Array];\n lodTree?: Uint32Array;\n};\n\nfunction toExtResult(packed: DecodedExtResult): ExtResult {\n return {\n numSplats: packed.numSplats,\n extArrays: [packed.ext0, packed.ext1],\n extra: {\n sh1: packed.sh1,\n sh2: packed.sh2,\n sh3a: packed.sh3a,\n sh3b: packed.sh3b,\n sh1Codes: packed.sh1Codes,\n sh2Codes: packed.sh2Codes,\n sh3Codes: packed.sh3Codes,\n lodTree: packed.lodTree,\n },\n };\n}\n\nasync function loadExtSplats(\n {\n url,\n requestHeader,\n withCredentials,\n fileBytes,\n fileType,\n pathName,\n chunked,\n chunkedLength,\n lod,\n lodBase,\n lodAbove,\n nonLod,\n sh1Codes,\n sh2Codes,\n sh3Codes,\n }: {\n url?: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n fileBytes?: Uint8Array;\n fileType?: string;\n pathName?: string;\n chunked?: boolean;\n chunkedLength?: number;\n lod?: boolean | \"quality\";\n lodBase?: number;\n lodAbove?: number;\n nonLod?: boolean;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: [Uint32Array, Uint32Array];\n },\n {\n sendStatus,\n }: {\n sendStatus: (data: unknown) => void;\n },\n) {\n // console.log(\"loadExtSplats\", { url, requestHeader, withCredentials, fileBytes, fileType, pathName, stream, streamLength, lod, lodBase, lodAbove, nonLod });\n if (!lod) {\n const decoder = decode_to_extsplats(\n fileType,\n pathName ?? url,\n sh1Codes,\n sh2Codes,\n sh3Codes,\n );\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n });\n const result = toExtResult(decoded as DecodedExtResult);\n if (result.extra.lodTree) {\n return { lodSplats: result };\n }\n return result;\n }\n\n const decoder = decode_to_gsplatarray(fileType, pathName ?? url);\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n });\n\n if (decoded.has_lod()) {\n return {\n lodSplats: toExtResult(decoded.to_extsplats_lod() as DecodedExtResult),\n };\n }\n\n if (lodAbove !== undefined) {\n if (decoded.len() < lodAbove) {\n return toExtResult(decoded.to_extsplats() as DecodedExtResult);\n }\n }\n\n let result:\n | (ReturnType & {\n lodSplats?: ReturnType;\n })\n | { lodSplats?: ReturnType } = {};\n\n if (nonLod) {\n // Wait until LoD computation is complete before resolving full PackedSplats result\n result = toExtResult(decoded.to_extsplats() as DecodedExtResult);\n }\n\n const initialSplats = decoded.len();\n const lodName = lod === \"quality\" ? \"Bhatt\" : \"Tiny\";\n console.log(\n `Loaded ${initialSplats} splats. Starting ${lodName} LoD build...`,\n );\n\n const lodStart = performance.now();\n if (lod === \"quality\") {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.75));\n decoded.bhatt_lod(base);\n } else {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.5));\n decoded.tiny_lod(base, false);\n }\n const lodDuration = performance.now() - lodStart;\n\n console.log(\n `${lodName} LoD: ${initialSplats} -> ${decoded.len()} (${lodDuration} ms)`,\n );\n\n const lodPacked = decoded.to_extsplats_lod();\n result.lodSplats = toExtResult(lodPacked as DecodedExtResult);\n return result;\n}\n\nasync function tinyLodPackedSplats({\n numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding,\n}: {\n numSplats: number;\n packedArray: Uint32Array;\n extra?: Record;\n lodBase?: number;\n rgba?: Uint8Array;\n encoding: SplatEncoding;\n}) {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.5));\n const lodStart = performance.now();\n const filter = false;\n const decoded = tiny_lod_packedsplats(\n numSplats,\n packedArray,\n extra as object,\n base,\n filter,\n rgba,\n encoding,\n );\n const lodDuration = performance.now() - lodStart;\n const result = toPackedResult(decoded as DecodedPackedResult);\n console.log(\n `Tiny LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`,\n );\n return result;\n}\n\nasync function qualityLodPackedSplats({\n numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding,\n}: {\n numSplats: number;\n packedArray: Uint32Array;\n extra?: Record;\n lodBase?: number;\n rgba?: Uint8Array;\n encoding: SplatEncoding;\n}) {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.75));\n const lodStart = performance.now();\n const decoded = bhatt_lod_packedsplats(\n numSplats,\n packedArray,\n extra as object,\n base,\n rgba,\n encoding,\n );\n const lodDuration = performance.now() - lodStart;\n const result = toPackedResult(decoded as DecodedPackedResult);\n console.log(\n `Bhatt LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`,\n );\n return result;\n}\n\nasync function tinyLodExtSplats({\n numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n encoding,\n}: {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra?: Record;\n lodBase?: number;\n rgba?: Uint8Array;\n encoding: SplatEncoding;\n}) {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.5));\n const lodStart = performance.now();\n const filter = false;\n const decoded = tiny_lod_extsplats(\n numSplats,\n extArrays[0],\n extArrays[1],\n extra as object,\n base,\n filter,\n rgba,\n );\n const lodDuration = performance.now() - lodStart;\n const result = toExtResult(decoded as DecodedExtResult);\n console.log(\n `Tiny LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`,\n );\n return result;\n}\n\nasync function qualityLodExtSplats({\n numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n encoding,\n}: {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra?: 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null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function bhatt_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, rgba) {\n const ret = wasm.bhatt_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function bhatt_lod_packedsplats(num_splats, packed, extra, lod_base, rgba, encoding) {\n const ret = wasm.bhatt_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @returns {ChunkDecoder}\n */\nexport function decode_to_csplatarray(file_type, path_name, encoding) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_csplatarray(ptr0, len0, ptr1, len1, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_extsplats(file_type, path_name, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_extsplats(ptr0, len0, ptr1, len1, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null} [file_type]\n * @param {string | null} [path_name]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_gsplatarray(file_type, path_name) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_gsplatarray(ptr0, len0, ptr1, len1);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {string | null | undefined} file_type\n * @param {string | null | undefined} path_name\n * @param {any} encoding\n * @param {Uint32Array | null} [sh1_codes]\n * @param {Uint32Array | null} [sh2_codes]\n * @param {Uint32Array | null} [sh3_codes]\n * @returns {ChunkDecoder}\n */\nexport function decode_to_packedsplats(file_type, path_name, encoding, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_packedsplats(ptr0, len0, ptr1, len1, encoding, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n */\nexport function dispose_lod_tree(lod_id) {\n wasm.dispose_lod_tree(lod_id);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null} [extra]\n * @returns {GsplatArray}\n */\nexport function extsplats_to_gsplatarray(num_splats, ext1, ext2, extra) {\n const ret = wasm.extsplats_to_gsplatarray(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} lod_id\n * @param {number} level\n * @returns {object}\n */\nexport function get_lod_tree_level(lod_id, level) {\n const ret = wasm.get_lod_tree_level(lod_id, level);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} lod_tree\n * @returns {object}\n */\nexport function init_lod_tree(num_splats, lod_tree) {\n const ret = wasm.init_lod_tree(num_splats, lod_tree);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} capacity\n * @returns {object}\n */\nexport function new_lod_tree(capacity) {\n const ret = wasm.new_lod_tree(capacity);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} orig_lod_id\n * @returns {object}\n */\nexport function new_shared_lod_tree(orig_lod_id) {\n const ret = wasm.new_shared_lod_tree(orig_lod_id);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {CsplatArray}\n */\nexport function packedsplats_to_csplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_csplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return CsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {any} encoding\n * @returns {GsplatArray}\n */\nexport function packedsplats_to_gsplatarray(num_splats, packed, extra, encoding) {\n const ret = wasm.packedsplats_to_gsplatarray(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return GsplatArray.__wrap(ret[0]);\n}\n\n/**\n * @returns {boolean}\n */\nexport function simd_enabled() {\n const ret = wasm.simd_enabled();\n return ret !== 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort32_splats(num_splats, readback, ordering) {\n const ret = wasm.sort32_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint16Array} readback\n * @param {Uint32Array} ordering\n * @returns {number}\n */\nexport function sort_splats(num_splats, readback, ordering) {\n const ret = wasm.sort_splats(num_splats, readback, ordering);\n return ret >>> 0;\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} ext1\n * @param {Uint32Array} ext2\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null} [rgba]\n * @returns {object}\n */\nexport function tiny_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, merge_filter, rgba) {\n const ret = wasm.tiny_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} num_splats\n * @param {Uint32Array} packed\n * @param {object | null | undefined} extra\n * @param {number} lod_base\n * @param {boolean} merge_filter\n * @param {Uint8Array | null | undefined} rgba\n * @param {any} encoding\n * @returns {object}\n */\nexport function tiny_lod_packedsplats(num_splats, packed, extra, lod_base, merge_filter, rgba, encoding) {\n const ret = wasm.tiny_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {number} max_splats\n * @param {number} pixel_scale_limit\n * @param {number | null | undefined} _last_pixel_limit\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} root_pages\n * @param {Float32Array} view_to_objects\n * @param {Float32Array} lod_scales\n * @param {Float32Array} behind_foveates\n * @param {Float32Array} cone_foveates\n * @param {Float32Array} cone_fov0s\n * @param {Float32Array} cone_fovs\n * @returns {object}\n */\nexport function traverse_lod_trees(max_splats, pixel_scale_limit, _last_pixel_limit, lod_ids, root_pages, view_to_objects, lod_scales, behind_foveates, cone_foveates, cone_fov0s, cone_fovs) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(root_pages, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArrayF32ToWasm0(view_to_objects, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArrayF32ToWasm0(lod_scales, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ptr4 = passArrayF32ToWasm0(behind_foveates, wasm.__wbindgen_malloc);\n const len4 = WASM_VECTOR_LEN;\n const ptr5 = passArrayF32ToWasm0(cone_foveates, wasm.__wbindgen_malloc);\n const len5 = WASM_VECTOR_LEN;\n const ptr6 = passArrayF32ToWasm0(cone_fov0s, wasm.__wbindgen_malloc);\n const len6 = WASM_VECTOR_LEN;\n const ptr7 = passArrayF32ToWasm0(cone_fovs, wasm.__wbindgen_malloc);\n const len7 = WASM_VECTOR_LEN;\n const ret = wasm.traverse_lod_trees(max_splats, pixel_scale_limit, isLikeNone(_last_pixel_limit) ? 0x100000001 : Math.fround(_last_pixel_limit), ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, ptr4, len4, ptr5, len5, ptr6, len6, ptr7, len7);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @param {Uint32Array} lod_ids\n * @param {Uint32Array} page_bases\n * @param {Uint32Array} chunk_bases\n * @param {Uint32Array} counts\n * @param {Array} lod_trees\n * @returns {object}\n */\nexport function update_lod_trees(lod_ids, page_bases, chunk_bases, counts, lod_trees) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(page_bases, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArray32ToWasm0(chunk_bases, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArray32ToWasm0(counts, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ret = wasm.update_lod_trees(ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, lod_trees);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\nexport function wasm_start() {\n wasm.wasm_start();\n}\n\nfunction __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_boolean_get_a86c216575a75c30: function(arg0) {\n const v = arg0;\n const ret = typeof(v) === 'boolean' ? v : undefined;\n return isLikeNone(ret) ? 0xFFFFFF : ret ? 1 : 0;\n },\n __wbg___wbindgen_debug_string_dd5d2d07ce9e6c57: function(arg0, arg1) {\n const ret = debugString(arg1);\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_in_4bd7a57e54337366: function(arg0, arg1) {\n const ret = arg0 in arg1;\n return ret;\n },\n __wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof(val) === 'object' && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === undefined;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'number' ? obj : undefined;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof(obj) === 'string' ? obj : undefined;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() { return handleError(function (arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments); },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() { return handleError(function (arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments); },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n // Cast intrinsic for `F64 -> Externref`.\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n // Cast intrinsic for `Ref(String) -> Externref`.\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, undefined);\n table.set(offset + 0, undefined);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n },\n };\n return {\n __proto__: null,\n \"./spark_worker_rs_bg.js\": import0,\n };\n}\n\nconst ChunkDecoderFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\nconst CsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\nconst GsplatArrayFinalization = (typeof FinalizationRegistry === 'undefined')\n ? { register: () => {}, unregister: () => {} }\n : new FinalizationRegistry(ptr => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n\nfunction addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n}\n\nfunction debugString(val) {\n // primitive types\n const type = typeof val;\n if (type == 'number' || type == 'boolean' || val == null) {\n return `${val}`;\n }\n if (type == 'string') {\n return `\"${val}\"`;\n }\n if (type == 'symbol') {\n const description = val.description;\n if (description == null) {\n return 'Symbol';\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == 'function') {\n const name = val.name;\n if (typeof name == 'string' && name.length > 0) {\n return `Function(${name})`;\n } else {\n return 'Function';\n }\n }\n // objects\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = '[';\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for(let i = 1; i < length; i++) {\n debug += ', ' + debugString(val[i]);\n }\n debug += ']';\n return debug;\n }\n // Test for built-in\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n // Failed to match the standard '[object ClassName]'\n return toString.call(val);\n }\n if (className == 'Object') {\n // we're a user defined class or Object\n // JSON.stringify avoids problems with cycles, and is generally much\n // easier than looping through ownProperties of `val`.\n try {\n return 'Object(' + JSON.stringify(val) + ')';\n } catch (_) {\n return 'Object';\n }\n }\n // errors\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\\n${val.stack}`;\n }\n // TODO we could test for more things here, like `Set`s and `Map`s.\n return className;\n}\n\nfunction getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n}\n\nfunction getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n}\n\nlet cachedDataViewMemory0 = null;\nfunction getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || (cachedDataViewMemory0.buffer.detached === undefined && cachedDataViewMemory0.buffer !== wasm.memory.buffer)) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n}\n\nlet cachedFloat32ArrayMemory0 = null;\nfunction getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n}\n\nfunction getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n}\n\nlet cachedUint16ArrayMemory0 = null;\nfunction getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n}\n\nlet cachedUint32ArrayMemory0 = null;\nfunction getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n}\n\nlet cachedUint8ArrayMemory0 = null;\nfunction getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n}\n\nfunction handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n}\n\nfunction isLikeNone(x) {\n return x === undefined || x === null;\n}\n\nfunction passArray32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getUint32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passArrayF32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getFloat32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n}\n\nfunction passStringToWasm0(arg, malloc, realloc) {\n if (realloc === undefined) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr, ptr + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr;\n }\n\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n\n const mem = getUint8ArrayMemory0();\n\n let offset = 0;\n\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 0x7F) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n\n WASM_VECTOR_LEN = offset;\n return ptr;\n}\n\nfunction takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n}\n\nlet cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\ncachedTextDecoder.decode();\nconst MAX_SAFARI_DECODE_BYTES = 2146435072;\nlet numBytesDecoded = 0;\nfunction decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n}\n\nconst cachedTextEncoder = new TextEncoder();\n\nif (!('encodeInto' in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function (arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n}\n\nlet WASM_VECTOR_LEN = 0;\n\nlet wasmModule, wasm;\nfunction __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n wasmModule = module;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n}\n\nasync function __wbg_load(module, imports) {\n if (typeof Response === 'function' && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === 'function') {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n\n if (validResponse && module.headers.get('Content-Type') !== 'application/wasm') {\n console.warn(\"`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n\", e);\n\n } else { throw e; }\n }\n }\n\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n\n function expectedResponseType(type) {\n switch (type) {\n case 'basic': case 'cors': case 'default': return true;\n }\n return false;\n }\n}\n\nfunction initSync(module) {\n if (wasm !== undefined) return wasm;\n\n\n if (module !== undefined) {\n if (Object.getPrototypeOf(module) === Object.prototype) {\n ({module} = module)\n } else {\n console.warn('using deprecated parameters for `initSync()`; pass a single object instead')\n }\n }\n\n const imports = __wbg_get_imports();\n if (!(module instanceof WebAssembly.Module)) {\n module = new WebAssembly.Module(module);\n }\n const instance = new WebAssembly.Instance(module, imports);\n return __wbg_finalize_init(instance, module);\n}\n\nasync function __wbg_init(module_or_path) {\n if (wasm !== undefined) return wasm;\n\n\n if (module_or_path !== undefined) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({module_or_path} = module_or_path)\n } else {\n console.warn('using deprecated parameters for the initialization function; pass a single object instead')\n }\n }\n\n if (module_or_path === undefined) {\n module_or_path = new URL('spark_worker_rs_bg.wasm', import.meta.url);\n }\n const imports = __wbg_get_imports();\n\n if (typeof module_or_path === 'string' || (typeof Request === 'function' && module_or_path instanceof Request) || (typeof URL === 'function' && module_or_path instanceof URL)) {\n module_or_path = fetch(module_or_path);\n }\n\n const { instance, module } = await __wbg_load(await module_or_path, imports);\n\n return __wbg_finalize_init(instance, module);\n}\n\nexport { initSync, __wbg_init as default };\n","import init_wasm, {\n sort_splats,\n sort32_splats,\n decode_to_gsplatarray,\n decode_to_csplatarray,\n decode_to_packedsplats,\n new_lod_tree,\n new_shared_lod_tree,\n init_lod_tree,\n dispose_lod_tree,\n traverse_lod_trees,\n type ChunkDecoder,\n tiny_lod_packedsplats,\n bhatt_lod_packedsplats,\n update_lod_trees,\n decode_to_extsplats,\n tiny_lod_extsplats,\n bhatt_lod_extsplats,\n get_lod_tree_level,\n} from \"spark-worker-rs\";\nimport type { ExtResult, PackedResult, SplatEncoding } from \"./defines\";\n\nconst rpcHandlers = {\n sortSplats16,\n sortSplats32,\n loadPackedSplats,\n loadExtSplats,\n tinyLodPackedSplats,\n qualityLodPackedSplats,\n tinyLodExtSplats,\n qualityLodExtSplats,\n newLodTree,\n newSharedLodTree,\n initLodTree,\n disposeLodTree,\n updateLodTrees,\n traverseLodTrees,\n getLodTreeLevel,\n nextChunk,\n};\n\nasync function onMessage(event: MessageEvent) {\n const {\n id,\n name,\n args,\n }: { id: unknown; name: keyof typeof rpcHandlers; args: unknown } =\n event.data;\n try {\n const handler = rpcHandlers[name] as (\n args: unknown,\n options: { sendStatus: (data: unknown) => void },\n ) => unknown | Promise;\n if (!handler) {\n throw new Error(`Unknown worker RPC: ${name}`);\n }\n\n const sendStatus = (data: unknown) => {\n self.postMessage(\n { id, status: data },\n { transfer: getTransferable(data) },\n );\n };\n const result = await handler(args, { sendStatus });\n self.postMessage({ id, result }, { transfer: getTransferable(result) });\n } catch (error) {\n console.warn(`Worker error: ${error}`);\n self.postMessage({ id, error }, { transfer: getTransferable(error) });\n }\n}\n\nfunction sortSplats16({\n numSplats,\n readback,\n ordering,\n}: {\n numSplats: number;\n readback: Uint16Array;\n ordering: Uint32Array;\n}) {\n const activeSplats = sort_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n}\n\nfunction sortSplats32({\n numSplats,\n readback,\n ordering,\n}: {\n numSplats: number;\n readback: Uint32Array;\n ordering: Uint32Array;\n}) {\n const activeSplats = sort32_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n}\n\nasync function fetchRange({\n url,\n requestHeader,\n withCredentials,\n offset,\n bytes,\n}: {\n url: string;\n requestHeader?: Record;\n withCredentials?: string;\n offset?: number;\n bytes?: number;\n}): Promise {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : undefined,\n credentials: withCredentials ? \"include\" : \"same-origin\",\n });\n if (offset !== undefined && bytes !== undefined) {\n request.headers.set(\"Range\", `bytes=${offset}-${offset + bytes - 1}`);\n }\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n return new Uint8Array(await response.arrayBuffer());\n}\n\nasync function decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n}: {\n decoder: ChunkDecoder;\n fileBytes?: Uint8Array;\n url?: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n chunked?: boolean;\n chunkedLength?: number;\n sendStatus: (data: unknown) => void;\n}) {\n if (fileBytes) {\n const CHUNK_SIZE = 1048576; // 1 MB\n for (let i = 0; i < fileBytes.length; i += CHUNK_SIZE) {\n decoder.push(\n fileBytes.subarray(i, Math.min(i + CHUNK_SIZE, fileBytes.length)),\n );\n }\n } else if (url) {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : undefined,\n credentials: withCredentials ? \"include\" : \"same-origin\",\n });\n\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n const readStream = response.body.getReader();\n const contentLength = Number.parseInt(\n response.headers.get(\"Content-Length\") || \"0\",\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n let loaded = 0;\n\n while (true) {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n break;\n }\n loaded += value.length;\n sendStatus({ loaded, total });\n\n decoder.push(value);\n }\n } else if (chunked) {\n let loaded = 0;\n const total = chunkedLength ?? 0;\n while (true) {\n const readNextChunk: Promise = new Promise((resolve) => {\n nextChunkWaiter = resolve;\n });\n sendStatus({ nextChunk: true });\n const nextChunk = await readNextChunk;\n\n if (nextChunk.length === 0) {\n break;\n }\n\n decoder.push(nextChunk);\n loaded += nextChunk.length;\n sendStatus({ progress: { loaded, total } });\n }\n if (total === 0) {\n sendStatus({ progress: { loaded, total: loaded } });\n }\n } else {\n throw new Error(\"No url or fileBytes provided\");\n }\n\n const decoded = decoder.finish();\n return decoded;\n}\n\ntype DecodedPackedResult = {\n numSplats: number;\n packed: Uint32Array;\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n lodTree?: Uint32Array;\n splatEncoding: SplatEncoding;\n};\n\nfunction toPackedResult(packed: DecodedPackedResult): PackedResult {\n return {\n numSplats: packed.numSplats,\n packedArray: packed.packed,\n extra: {\n sh1: packed.sh1,\n sh2: packed.sh2,\n sh3: packed.sh3,\n sh1Codes: packed.sh1Codes,\n sh2Codes: packed.sh2Codes,\n sh3Codes: packed.sh3Codes,\n lodTree: packed.lodTree,\n },\n splatEncoding: packed.splatEncoding,\n };\n}\n\nasync function loadPackedSplats(\n {\n url,\n requestHeader,\n withCredentials,\n fileBytes,\n fileType,\n pathName,\n chunked,\n chunkedLength,\n encoding,\n lod,\n lodBase,\n lodAbove,\n nonLod,\n sh1Codes,\n sh2Codes,\n sh3Codes,\n }: {\n url?: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n fileBytes?: Uint8Array;\n fileType?: string;\n pathName?: string;\n chunked?: boolean;\n chunkedLength?: number;\n encoding?: SplatEncoding;\n lod?: boolean | \"quality\";\n lodBase?: number;\n lodAbove?: number;\n nonLod?: boolean;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n },\n {\n sendStatus,\n }: {\n sendStatus: (data: unknown) => void;\n },\n) {\n // console.log(\"loadPackedSplats\", { url, requestHeader, withCredentials, fileBytes, fileType, pathName, stream, streamLength, encoding, lod, lodBase, lodAbove, nonLod });\n if (!lod) {\n const decoder = decode_to_packedsplats(\n fileType,\n pathName ?? url,\n encoding,\n sh1Codes,\n sh2Codes,\n sh3Codes,\n );\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n });\n const result = toPackedResult(decoded as DecodedPackedResult);\n if (result.splatEncoding.lodOpacity) {\n return { lodSplats: result };\n }\n return result;\n }\n\n const decoder = decode_to_csplatarray(fileType, pathName ?? url, encoding);\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n });\n\n if (decoded.has_lod()) {\n const result = toPackedResult(\n decoded.to_packedsplats_lod() as DecodedPackedResult,\n );\n return { lodSplats: result };\n }\n\n if (lodAbove !== undefined) {\n if (decoded.len() < lodAbove) {\n return toPackedResult(decoded.to_packedsplats() as DecodedPackedResult);\n }\n }\n\n let result:\n | (ReturnType & {\n lodSplats?: ReturnType;\n })\n | { lodSplats?: ReturnType } = {};\n\n // if (nonLod === true) {\n // sendStatus({ orig: toPackedResult(packed as DecodedPackedResult) });\n // } else if (nonLod === \"wait\") {\n if (nonLod) {\n // Wait until LoD computation is complete before resolving full PackedSplats result\n result = toPackedResult(decoded.to_packedsplats() as DecodedPackedResult);\n }\n\n const initialSplats = decoded.len();\n const lodName = lod === \"quality\" ? \"Bhatt\" : \"Tiny\";\n console.log(\n `Loaded ${initialSplats} splats. Starting ${lodName} LoD build...`,\n );\n\n const lodStart = performance.now();\n if (lod === \"quality\") {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.25));\n decoded.bhatt_lod(base);\n } else {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.5));\n decoded.tiny_lod(base, false);\n }\n const lodDuration = performance.now() - lodStart;\n\n console.log(\n `${lodName} LoD: ${initialSplats} -> ${decoded.len()} (${lodDuration} ms)`,\n );\n\n const lodPacked = decoded.to_packedsplats_lod();\n result.lodSplats = toPackedResult(lodPacked as DecodedPackedResult);\n return result;\n}\n\ntype DecodedExtResult = {\n numSplats: number;\n ext0: Uint32Array;\n ext1: Uint32Array;\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3a?: Uint32Array;\n sh3b?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: [Uint32Array, Uint32Array];\n lodTree?: Uint32Array;\n};\n\nfunction toExtResult(packed: DecodedExtResult): ExtResult {\n return {\n numSplats: packed.numSplats,\n extArrays: [packed.ext0, packed.ext1],\n extra: {\n sh1: packed.sh1,\n sh2: packed.sh2,\n sh3a: packed.sh3a,\n sh3b: packed.sh3b,\n sh1Codes: packed.sh1Codes,\n sh2Codes: packed.sh2Codes,\n sh3Codes: packed.sh3Codes,\n lodTree: packed.lodTree,\n },\n };\n}\n\nasync function loadExtSplats(\n {\n url,\n requestHeader,\n withCredentials,\n fileBytes,\n fileType,\n pathName,\n chunked,\n chunkedLength,\n lod,\n lodBase,\n lodAbove,\n nonLod,\n sh1Codes,\n sh2Codes,\n sh3Codes,\n }: {\n url?: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n fileBytes?: Uint8Array;\n fileType?: string;\n pathName?: string;\n chunked?: boolean;\n chunkedLength?: number;\n lod?: boolean | \"quality\";\n lodBase?: number;\n lodAbove?: number;\n nonLod?: boolean;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: [Uint32Array, Uint32Array];\n },\n {\n sendStatus,\n }: {\n sendStatus: (data: unknown) => void;\n },\n) {\n // console.log(\"loadExtSplats\", { url, requestHeader, withCredentials, fileBytes, fileType, pathName, stream, streamLength, lod, lodBase, lodAbove, nonLod });\n if (!lod) {\n const decoder = decode_to_extsplats(\n fileType,\n pathName ?? url,\n sh1Codes,\n sh2Codes,\n sh3Codes,\n );\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n });\n const result = toExtResult(decoded as DecodedExtResult);\n if (result.extra.lodTree) {\n return { lodSplats: result };\n }\n return result;\n }\n\n const decoder = decode_to_gsplatarray(fileType, pathName ?? url);\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus,\n });\n\n if (decoded.has_lod()) {\n return {\n lodSplats: toExtResult(decoded.to_extsplats_lod() as DecodedExtResult),\n };\n }\n\n if (lodAbove !== undefined) {\n if (decoded.len() < lodAbove) {\n return toExtResult(decoded.to_extsplats() as DecodedExtResult);\n }\n }\n\n let result:\n | (ReturnType & {\n lodSplats?: ReturnType;\n })\n | { lodSplats?: ReturnType } = {};\n\n if (nonLod) {\n // Wait until LoD computation is complete before resolving full PackedSplats result\n result = toExtResult(decoded.to_extsplats() as DecodedExtResult);\n }\n\n const initialSplats = decoded.len();\n const lodName = lod === \"quality\" ? \"Bhatt\" : \"Tiny\";\n console.log(\n `Loaded ${initialSplats} splats. Starting ${lodName} LoD build...`,\n );\n\n const lodStart = performance.now();\n if (lod === \"quality\") {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.75));\n decoded.bhatt_lod(base);\n } else {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.5));\n decoded.tiny_lod(base, false);\n }\n const lodDuration = performance.now() - lodStart;\n\n console.log(\n `${lodName} LoD: ${initialSplats} -> ${decoded.len()} (${lodDuration} ms)`,\n );\n\n const lodPacked = decoded.to_extsplats_lod();\n result.lodSplats = toExtResult(lodPacked as DecodedExtResult);\n return result;\n}\n\nasync function tinyLodPackedSplats({\n numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding,\n}: {\n numSplats: number;\n packedArray: Uint32Array;\n extra?: Record;\n lodBase?: number;\n rgba?: Uint8Array;\n encoding: SplatEncoding;\n}) {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.5));\n const lodStart = performance.now();\n const filter = false;\n const decoded = tiny_lod_packedsplats(\n numSplats,\n packedArray,\n extra as object,\n base,\n filter,\n rgba,\n encoding,\n );\n const lodDuration = performance.now() - lodStart;\n const result = toPackedResult(decoded as DecodedPackedResult);\n console.log(\n `Tiny LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`,\n );\n return result;\n}\n\nasync function qualityLodPackedSplats({\n numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding,\n}: {\n numSplats: number;\n packedArray: Uint32Array;\n extra?: Record;\n lodBase?: number;\n rgba?: Uint8Array;\n encoding: SplatEncoding;\n}) {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.75));\n const lodStart = performance.now();\n const decoded = bhatt_lod_packedsplats(\n numSplats,\n packedArray,\n extra as object,\n base,\n rgba,\n encoding,\n );\n const lodDuration = performance.now() - lodStart;\n const result = toPackedResult(decoded as DecodedPackedResult);\n console.log(\n `Bhatt LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`,\n );\n return result;\n}\n\nasync function tinyLodExtSplats({\n numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n encoding,\n}: {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra?: Record;\n lodBase?: number;\n rgba?: Uint8Array;\n encoding: SplatEncoding;\n}) {\n const base = Math.max(1.1, Math.min(2.0, lodBase ?? 1.5));\n const lodStart = performance.now();\n const filter = false;\n const decoded = tiny_lod_extsplats(\n numSplats,\n extArrays[0],\n extArrays[1],\n extra as object,\n base,\n filter,\n rgba,\n );\n const lodDuration = performance.now() - lodStart;\n const result = toExtResult(decoded as DecodedExtResult);\n console.log(\n `Tiny LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`,\n );\n return result;\n}\n\nasync function qualityLodExtSplats({\n numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n encoding,\n}: {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra?: 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__wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof val === "object" && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === void 0;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "number" ? obj : void 0;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "string" ? obj : void 0;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() {\n return handleError(function(arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments);\n },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() {\n return handleError(function(arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments);\n },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, void 0);\n table.set(offset + 0, void 0);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n }\n };\n return {\n __proto__: null,\n "./spark_worker_rs_bg.js": import0\n };\n }\n typeof FinalizationRegistry === "undefined" ? {} : new FinalizationRegistry((ptr) => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\n const CsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\n const GsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n function addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n }\n function debugString(val) {\n const type = typeof val;\n if (type == "number" || type == "boolean" || val == null) {\n return `${val}`;\n }\n if (type == "string") {\n return `"${val}"`;\n }\n if (type == "symbol") {\n const description = val.description;\n if (description == null) {\n return "Symbol";\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == "function") {\n const name = val.name;\n if (typeof name == "string" && name.length > 0) {\n return `Function(${name})`;\n } else {\n return "Function";\n }\n }\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = "[";\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for (let i2 = 1; i2 < length; i2++) {\n debug += ", " + debugString(val[i2]);\n }\n debug += "]";\n return debug;\n }\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n return toString.call(val);\n }\n if (className == "Object") {\n try {\n return "Object(" + JSON.stringify(val) + ")";\n } catch (_) {\n return "Object";\n }\n }\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\n${val.stack}`;\n }\n return className;\n }\n function getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n }\n function getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n }\n function getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n }\n let cachedDataViewMemory0 = null;\n function getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || cachedDataViewMemory0.buffer.detached === void 0 && cachedDataViewMemory0.buffer !== wasm.memory.buffer) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n }\n function getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n }\n let cachedUint16ArrayMemory0 = null;\n function getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n }\n let cachedUint32ArrayMemory0 = null;\n function getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n }\n let cachedUint8ArrayMemory0 = null;\n function getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n }\n function handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n }\n function isLikeNone(x2) {\n return x2 === void 0 || x2 === null;\n }\n function passStringToWasm0(arg, malloc, realloc) {\n if (realloc === void 0) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr2 = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr2, ptr2 + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr2;\n }\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n const mem = getUint8ArrayMemory0();\n let offset = 0;\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 127) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n WASM_VECTOR_LEN = offset;\n return ptr;\n }\n function takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n }\n let cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n const MAX_SAFARI_DECODE_BYTES = 2146435072;\n let numBytesDecoded = 0;\n function decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n }\n const cachedTextEncoder = new TextEncoder();\n if (!("encodeInto" in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function(arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n }\n let WASM_VECTOR_LEN = 0;\n let wasm;\n function __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n cachedDataViewMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n }\n async function __wbg_load(module, imports) {\n if (typeof Response === "function" && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === "function") {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n if (validResponse && module.headers.get("Content-Type") !== "application/wasm") {\n console.warn("`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n", e);\n } else {\n throw e;\n }\n }\n }\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n function expectedResponseType(type) {\n switch (type) {\n case "basic":\n case "cors":\n case "default":\n return true;\n }\n return false;\n }\n }\n async function __wbg_init(module_or_path) {\n if (wasm !== void 0) return wasm;\n if (module_or_path !== void 0) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({ module_or_path } = module_or_path);\n } else {\n console.warn("using deprecated parameters for the initialization function; pass a single object instead");\n }\n }\n if (module_or_path === void 0) {\n module_or_path = new 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0GIBMQogIgIygCACICQXhxQYSAMEGIgDAgAkEDcSIDG0kNBSADQQAgAkGogDBPGw0GIBIQogIgIigCACICQXhxQYSAEEGIgBAgAkEDcSIDG0kNBSADQQAgAkGogBBPGw0GIAsQogIgISgCACICQXhxQYSAMEGIgDAgAkEDcSIDG0kNBSADQQAgAkGogDBPGw0GIBEQogIgFkUNBEGAgJABEHEiAkUNAyACQQRrIg4oAgAiA0EDcSIFBEAgAkEAQYCAkAH8CwALIAdFDQIgASgCICELIAEoAhwhD0EAIQkDQEGAgAQgByAJayIDIANBgIAETxshCiAHIAlHBEAgDyAJQQlsaiEFQQAhCCACIQMDQCALIAggCWoiDE0EQCAMIAtB/LvHABCMBwALIAVBBGr9XAAAISwgBf1cAAAhLSADQSBqIAVBCGosAACyQwAA/kKVOAIAIAMgLf2HAf2nAf36Af0MAAD+QgAA/kIAAP5CAAD+Qv3nAf0LAgAgA0EQaiAs/YcB/acB/foB/QwAAP5CAAD+QgAA/kIAAP5C/ecB/QsCACADQSRqIQMgBUEJaiEFIAhBAWoiCCAKSQ0ACwsgBEEMaiAJIAogAkGAgCQQ5gEgByAJIApqIglLDQALDAELDAQLIA4oAgAiA0EDcSEFCwJAAkAgA0F4cUGEgJABQYiAkAEgBRtPBEAgBUEAIANBqICQAU8bDQYgAhCiAiAWQQFGDQRBgIDwARBxIgJFDQMgAkEEayIOKAIAIgNBA3EiBQRAIAJBAEGAgPAB/AsACyAHRQ0CIAEoAiwhCyABKAIoIQ9BACEKA0BBgIAEIAcgCmsiAyADQYCABE8bIQkgByAKRwRAIA8gCkEPbGohBUEAIQggAiEDA0AgCyAIIApqIgxNBEAgDCALQYy8xwAQjAcACyAFQQRq/VwAACEsIAVBCGr9XAAAIS0gBUEMaiwAACEMIAVBDWosAAAhFCAF/VwAACEuIANBOGogBUEOaiwAALJDAAD+QpU4AgAgA0E0aiAUskMAAP5ClTgCACADQTBqIAyyQwAA/kKVOAIAIAMgLv2HAf2nAf36Af0MAAD+QgAA/kIAAP5CAAD+Qv3nAf0LAgAgA0EgaiAt/YcB/acB/foB/QwAAP5CAAD+QgAA/kIAAP5C/ecB/QsCACADQRBqICz9hwH9pwH9+gH9DAAA/kIAAP5CAAD+QgAA/kL95wH9CwIAIANBPGohAyAFQQ9qIQUgCEEBaiIIIAlJDQALCyAEQQxqIAogCSACQYCAPBCnASAHIAkgCmoiCksNAAsMAQsMBAsgDigCACIDQQNxIQULAkAgA0F4cUGEgPABQYiA8AEgBRtPBEAgBUEAIANBqIDwAU8bDQUgAhCiAiAWQQJNDQNBgIDQAhBxIgJFDQIgAkEEayIJKAIAIgNBA3EiBQRAIAJBAEGAgNAC/AsACyAHBEAgASgCOCEKIAEoAjQhC0EAIQgDQEGAgAQgByAIayIBIAFBgIAETxshASAHIAhHBEBBACEDIAIhBQNAIARB0AFqIAsgCiADIAhqELoGIAUgBP0ABNAB/QsCACAFQRBqIAT9AATgAf0LAgAgBUEgaiAE/QAE8AH9CwIAIAVBMGogBP0ABIAC/QsCACAFQUBrIAT9AASQAv0LAgAgBUHQAGogBCoCoAI4AgAgBUHUAGohBSADQQFqIgMgAUkNAAsLIARBDGogCCABIAJBgIDUABCUASABIAhqIgggB0kNAAsgCSgCACIDQQNxIQULIANBeHFBhIDQAkGIgNACIAUbSQ0EIAVBACADQaiA0AJPGw0BIAIQogIMAwsMAwsMAwsACwJAIARBDGoiARDUASICBEAgAEECNgIAIAAgAjYCBCABEIoCDAELIAAgBEEMakHEAfwKAAALIARBsAJqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAu+HQIQfwR+IwBB4AFrIgIkACABKAIMIQYCQAJAAkACQAJAAkACfwJAAkACQCABKAIUIgQgASgCECIDSQRAA0AgBCAGai0AACIIQQlrIgVBF0tBASAFdEGTgIAEcUVyDQIgASAEQQFqIgQ2AhQgAyAERw0ACyADIQQLIAJBCGogBiADIARBAWoiASADIAEgA0kbEPkBIAIoAgwhAyACKAIIIQFBFBBxIgVFDQEgBSABNgIMIAVBBTYCACAAIAU2AgQgAEGAgICAeDYCACAFIAM2AhAMBwsCQAJAAkACQCAIQdsARgRAIAEgAS0AGEEBayIFOgAYIARBAWohBCAFQf8BcUUNBCABIAQ2AhQgAkEBOgA4IAIgATYCNCACQQA2AkQgAkKAgICAgAE3AjwgAkHIAWohECACQaABaiEPIAJB4ABqIRFBCCEJA0AgAkGYAWogAkE0ahCfAyACLQCYAUEBRgRAIAIoApwBIQkMCAsCQAJAIAItAJkBQQFGBEAgAigCNCIHKAIMIQYCQCAHKAIUIgQgBygCECIDSQRAA0AgBCAGai0AACIIQQlrIgVBF0tBASAFdEGTgIAEcUVyDQIgByAEQQFqIgQ2AhQgAyAERw0ACyADIQQLIAJBKGogBiADIARBAWoiBSADIAMgBUsbEPkBIAIoAiwhBSACKAIoIQNBFBBxIglFDQogCSADNgIMIAlBBTYCACAJIAU2AhAMCwsCQAJAIAhB2wBHBEAgCEH7AEYNASAHIAJB3wFqQfjAwQAQ7gEhBQwKCyAHIActABhBAWsiBToAGCAEQQFqIQQgBUH/AXFFDQcgByAENgIUIAIgBzYC1AEgAkEBOgDYASACQZgBaiACQdQBahCfAwJAAn8gAi0AmAFBAUYEQCACKAKcAQwBCwJAAkACQAJAAkACQAJAIAItAJkBQQFGBEAgAkGYAWogAigC1AEQuwMgAigCmAFBAUYEQCACKAKcAQwJCyACKQOgASESIAJBmAFqIAJB1AFqEJ8DIAItAJgBQQFGBEAgAigCnAEMCQsgAi0AmQFBAUcNAiACQZgBaiACKALUARC7AyACKAKYAUEBRw0BIAIoApwBDAgLQQBBgILBAEGA/cAAENsGDAcLIAIpA6ABIRMgAkGYAWogAkHUAWoQnwMgAi0AmAFBAUYEQCACKAKcAQwHCyACLQCZAUEBRw0CIAJBmAFqIAIoAtQBEKUCIAIoApgBIgRBAkcNASACKAKcAQwGC0EBQYCCwQBBgP3AABDbBgwFCyACKAKcASEFIAJBmAFqIAJB1AFqEJ8DIAItAJgBQQFGBEAgAigCnAEMBQsgAi0AmQFBAUcNAiACQZgBaiACKALUARClAiACKAKYASIKQQJHDQEgAigCnAEMBAtBAkGAgsEAQYD9wAAQ2wYMAwsgAigCnAEhCyACQZgBaiACQdQBahCfAyACLQCYAUEBRgRAIAIoApwBDAMLIAItAJkBQQFHDQEgAkGYAWogAigC1AEQ3AIgAigCnAEiAyACKAKYASIGQYGAgIB4Rg0CGiACKAKgASEOIAMhCCAFIQMMAwtBA0GAgsEAQYD9wAAQ2wYMAQtBBEGAgsEAQYD9wAAQ2wYLIQNBAiEECyAHIActABhBAWo6ABggAiAHELoDIgU2AsgBIAIgDjYCwAEgAiAINgK8ASACIAY2ArgBIAIgEzcDsAEgAiASNwOoASACIAs2AqQBIAIgCjYCoAEgAiADNgKcASACIAQ2ApgBAkAgBEECRwRAIAUNASACQZABaiAPQSBqKQMANwMAIAJBgAFqIA9BEGr9AAMA/QsDACACIA/9AAMA/QsDcCADIQUMBgtBAiEEIAUEQCAQELEECyADIQUMBQtBAiEEIAZBgICAgHhyQYCAgIB4Rg0EIAhBBGsoAgAiA0F4cSIKQQRBCCADQQNxIgMbIAZqSQ0BIANBACAKIAZBJ2pLGw0TIAgQogIMBAsgByAHLQAYQQFrIgU6ABggBEEBaiEEIAVB/wFxRQ0CIAcgBDYCFCACQQE6ANgBIAIgBzYC1AFCACEUQQIhDkGBgICAeCEFQQIhC0IAIRUCQANAAkAgAkGYAWogAkHUAWoQ0QIgAi0AmAFBAUYEQCACKAKcASEDDAELAkAgAi0AmQFBAUYEQCACKALUASIEQQA2AgggBCAEKAIUQQFqNgIUIAJBmAFqIARBDGogBBCCAiACKAKcASEDIAIoApgBQQJGDQICQAJAAkACQAJAAkACQAJAAkAgAigCoAFBBGsOBQIAAQoDCgsgA0G1mMgAQQUQ2wdFDQQgA0Gr/MAAQQUQ2wcNCSAOQQJGDQZBq/zAAEEFEJ8HIQMMCgsgA0HMgcEAQQYQ2wdFDQIMCAsgAygAAEHiws2rBkcNByALQQJGDQNB9IDBAEEEEJ8HIQMMCAsgAykAAELm0rGr5q3YtuUAUg0GIAVBgYCAgHhGDQRBAiEEQdKBwQBBCBCfByEDIAVBgICAgHhyQYCAgIB4Rg0JIAYgBUEBEKIHDAkLIBVQRQRAQcyBwQBBBhCfByEDDAcLIAJBmAFqIAQQqwUgAigCmAFBAUYEQCACKAKcASEDDAcLIAIpA6ABIRNCASEVDAcLIBRQRQRAQbWYyABBBRCfByEDDAYLIAJBmAFqIAQQqwUgAigCmAFBAUYEQCACKAKcASEDDAYLIAIpA6ABIRJCASEUDAYLIAJBmAFqIAQQrgUgAigCnAEhDSACKAKYASILQQJHDQUgDSEDDAQLIAJBmAFqIAQQrgUgAigCnAEhCiACKAKYASIOQQJHDQQgCiEDDAMLIAJBmAFqIAQQrQUgAigCoAEhCCACKAKcASEGIAIoApgBIgVBgYCAgHhHDQNBAiEEIAYhAwwECyAVUARAQcyBwQBBBhCcByEDDAILIBRQBEBBtZjIAEEFEJwHIQMMAgsgC0EAIAtBAkcbIQRBgICAgHggBSAFQYGAgIB4RhshCyAOQQAgDkECRxshDiANIQMMAwsgBBCgASIDRQ0BCwtBAiEEIAVFIAVBgoCAgHhIcg0AIAZBBGsoAgAiCEF4cSIKQQRBCCAIQQNxIggbIAVqSQ0SIAhBACAKIAVBJ2pLGw0TIAYQogILIAcgBy0AGEEBajoAGCACIAcQ4gQiBTYCyAEgAiAINgLAASACIAY2ArwBIAIgCzYCuAEgAiASNwOwASACIBM3A6gBIAIgCjYCpAEgAiAONgKgASACIAM2ApwBIAIgBDYCmAECQAJAAkAgBEECRwRAIAUNASACQZABaiAPQSBqKQMANwMAIAJBgAFqIA9BEGr9AAMA/QsDACACIA/9AAMA/QsDcCADIQUMBwtBAiEEIAUNASADIQUMBgtBAiEEIAtBgICAgHhyQYCAgIB4Rg0FIAZBBGsoAgAiA0F4cSIIQQRBCCADQQNxIgMbIAtqSQ0TIANBACAIIAtBJ2pLGw0BIAYQogIMBQsgEBCxBCADIQUMBAsMEgsMEAsgAigCPCEIDAsLIAJBIGogBiADIAQgAyADIARLGxD5ASACKAIkIQQgAigCICEDQRQQcSIJDQQMBwsgBEECRg0EIAJB6ABqIAJBkAFqKQMANwMAIAJB2ABqIAJBgAFq/QADAP0LAwAgAiAC/QADcP0LA0ggAigCPCAMRgRAIwBBIGsiByQAAkAgAkE8aiIJKAIAIgZB1arVCksEf0EABUEEIAZBAXQiAyADQQRNGyIIQTBsIQMgByAGBH8gByAGQTBsNgIcIAcgCSgCBDYCFEEIBUEACzYCGCAHQQhqQQggAyAHQRRqEIUHIAcoAghBAUcNASAHKAIQIQkgBygCDAsgCUHUgsEAEJMJAAsgBygCDCEDIAkgCDYCACAJIAM2AgQgB0EgaiQAIAIoAkAhCQsgCSAMQTBsaiIDIAU2AgQgAyAENgIAIAMgAikDSDcCCCADQRBqIAJB0ABq/QADAP0LAgAgA0EgaiAR/QADAP0LAgAgAiAMQQFqIgw2AkQMAAsACyABIAJB3wFqQfi/wQAQ7gEhCQwICyACQRhqIAYgAyAEIAMgAyAESxsQ+QEgAigCHCEEIAIoAhghA0EUEHEiCUUNAwsgCSADNgIMIAlBGDYCACAJIAQ2AhAMAwsgBSAHEOsFIQkgAigCRAwDCyACQRBqIAYgAyAEIAMgAyAESxsQ+QEgAigCFCEDIAIoAhAhAUEUEHEiBUUNACAFIAE2AgwgBUEYNgIAIAAgBTYCBCAAQYCAgIB4NgIAIAUgAzYCEAwGCwALIAwLIQMgAigCQCEGIAMEQCAGQSRqIQQDQCAEQQRrKAIAIghBgICAgHhyQYCAgIB4RwRAIAQoAgAiCkEEaygCACIFQXhxIg1BBEEIIAVBA3EiBRsgCGpJDQcgBUEAIA0gCEEnaksbDQggChCiAgsgBEEwaiEEIANBAWsiAw0ACwtBgICAgHghCCACKAI8IgVFDQAgBkEEaygCACIDQXhxIg0gBUEwbCIFQQRBCCADQQNxIgMbckkNBCADQQAgDSAFQSdqSxsNBSAGEKICCyABIAEtABhBAWo6ABggAiABELoDIgM2AqQBIAIgDDYCoAEgAiAJNgKcASACIAg2ApgBIAhBgICAgHhHBEAgA0UNAiAMBEAgCUEkaiEEA0AgBEEEaygCACIGQYCAgIB4ckGAgICAeEcEQCAEKAIAIgpBBGsoAgAiBUF4cSINQQRBCCAFQQNxIgUbIAZqSQ0HIAVBACANIAZBJ2pLGw0IIAoQogILIARBMGohBCAMQQFrIgwNAAsLIAgEQCAJQQRrKAIAIgVBeHEiBCAIQTBsIg1BBEEIIAVBA3EiBRtySQ0FIAVBACAEIA1BJ2pLGw0GIAkQogILIAMhCQwBCyADRQ0AIAJBpAFqELEECyAJIAEQ6wUhASAAQYCAgIB4NgIAIAAgATYCBAwBCyAAIAw2AgggACAJNgIEIAAgCDYCAAsgAkHgAWokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC8EZAhh/AXsjAEHgCmsiCyQAIAtBOGoiDf0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgC0EoaiIQICP9CwMAIAtBGGoiFCAj/QsDACALICP9CwMIAn8CQCABRQ0AIAtBxABqIQ8gASEOIAAhDAJAA0AgDC0AACITQRBJBEAgC0EIaiATQQJ0aiITIBMoAgBBAWo2AgAgDEEBaiEMIA5BAWsiDg0BDAILCyATQRBBwLTEABCMBwALQQEhDkEAIQxBDyALKAJEDQEaIAsoAkBFDQAgC0FAayEPQQ4MAQtBASEOIAsoAjwEQCALQTxqIQ9BDQwBCyALKAI4BEAgDSEPQQwMAQsgCygCNARAIAtBNGohD0ELDAELIAsoAjAEQCALQTBqIQ9BCgwBCyALKAIsBEAgC0EsaiEPQQkMAQsgCygCKARAIBAhD0EIDAELIAsoAiQEQCALQSRqIQ9BBwwBCyALKAIgBEAgC0EgaiEPQQYMAQsgCygCHARAIAtBHGohD0EFDAELIAsoAhgEQCAUIQ9BBAwBCyALKAIUBEAgC0EUaiEPQQMMAQsgCygCEARAIAtBEGohD0ECDAELIAtBCGpBBHIhD0EBIQxBACEOQQELIRYCfwJAIAlFDQAgDCALKAIMQQFGcUUNAAJAIAEEQEEAIQwDQCAAIAxqLQAAQQFGDQIgASAMQQFqIgxHDQALC0HQscQAEN0JAAsgBSAMSwRAIAQgDEEBdGpBADsBACADIAxLIgAEfyACIAxBAnRqKAIABSAOCyAMQRB0IAAbQQFyIQACQANAIAYgADYCACAHQQFGDQEgBkEANgIEIAZBAiAHIAdBAk8bIgFBAnRqIQYgByABayIHDQALQQEMAwtBAUEBQfCxxAAQjAcACyAMIAVB4LHEABCMBwALIAtB+ABqICP9CwMAIAtB6ABqICP9CwMAIAtB2ABqICP9CwMAIAsgI/0LA0ggCyALKAIIIhE2AkxBACEMAkAgDgR/IAsgESALKAIMIgxqIg02AlACQCAWQQFqIg5BA0YNACALIA0gCygCECIJaiINNgJUIAkgDEEBdGohDCAOQQRGDQAgCyANIAsoAhQiCWoiDTYCWCAJIAxBAXRqIQwgDkEFRg0AIAsgDSALKAIYIglqIg02AlwgCSAMQQF0aiEMIA5BBkYNACALIA0gCygCHCIJaiINNgJgIAkgDEEBdGohDCAOQQdGDQAgCyANIAsoAiAiCWoiDTYCZCAJIAxBAXRqIQwgDkEIRg0AIAsgDSALKAIkIglqIg02AmggCSAMQQF0aiEMIA5BCUYNACALIA0gCygCKCIJaiINNgJsIAkgDEEBdGohDCAOQQpGDQAgCyANIAsoAiwiCWoiDTYCcCAJIAxBAXRqIQwgDkELRg0AIAsgDSALKAIwIglqIg02AnQgCSAMQQF0aiEMIA5BDEYNACALIA0gCygCNCIJaiINNgJ4IAkgDEEBdGohDCAOQQ1GDQAgCyANIAsoAjgiCWoiDTYCfCAJIAxBAXRqIQwgDkEORg0AIAsgDSALKAI8IglqIg02AoABIAkgDEEBdGohDCAOQQ9GDQAgCyANIAsoAkAiDmo2AoQBIA4gDEEBdGohDAsgDEEBdAUgDAsgDygCAGoiHUEBIBZ0Ih5HDQAgC0G4AWogC0H4AGr9AAMA/QsDACALQagBaiALQegAav0AAwD9CwMAIAtBmAFqIAtB2ABq/QADAP0LAwAgCyAL/QADSP0LA4gBIAtByAFqQQBBgAn8CwACQAJAIAEEQEEAIQwDQCAAIAxqLQAAIg5BD0sNAiALQYgBaiAOQQJ0aiINKAIAIg5BoAJPDQMgDSAOQQFqNgIAIAtByAFqIA5BAnRqIAw2AgAgASAMQQFqIgxHDQALC0F/IAdnIh9BH3MiF3RBf3MhGkEAIQBBASESA0ACQAJAAkACQAJAIBJBEEkEQEEBIBJ0IRUgC0EIaiASQQJ0aigCACIPBEBBoAIgESARQaACTRshECAVQQFrIQEgC0HIAWogEUECdGohDSAAIQ4DQCAQIBFGDQYgDSgCACIAIANJIhQEQCACIABBAnRqKAIAIQkLIAcgDkH//wNxIgxNDQUgBiAMQQJ0aiAJIABBEHQgFBsgEnI2AgAgACAFTw0EIAQgAEEBdGogDjsBACARQQFqIREgDUEEaiENIAEiAEH//wNxIAxHBEBBASABIA5zQRB0Z0EPc3QiAEEBayAOcSAAciEACyAAIQ4gD0EBayIPDQALCyAKDQEMBQsgEkEQQeCyxAAQjAcACyASQQFrIhlBAkkNAyASQYCEAnIhIEEBIQFBAiEMA0AgASETIAwhAQJAIBNBEEkEQCATQQJ0IgwgC0HIAGoiDmooAgAiDSALQYgBaiAMaigCACIbTw0BIBIgE2siDEEPTQRAIA4gDEECdCIMaigCACIPIAtBiAFqIAxqKAIAIhxPDQIgDSANIBtJaiEMIAtByAFqIA9BAnRqIRQDQCAMIRACQAJAAkACQAJAAkAgDUGgAkkEQCAPIQwgFCEOIAUgC0HIAWogDUECdGooAgAiDU0EQANAIAxBnwJLDQMgDigCACANckGAAkkNBSAOQQRqIQ4gHCAMQQFqIgxHDQAMCAsACyAEIA1BAXRqISEgDUEQdCAgciEiA0AgDEGfAksNAyAOKAIAIhggDXJB/wFNBEAgBSAYTQ0GIAcgIS8BACAEIBhBAXRqLwEAIBN0Qf//A3FyIglNDQcgBiAJQQJ0aiAYQRh0ICJyNgIACyAOQQRqIQ4gDEEBaiIMIBxHDQALDAYLIA1BoAJBoLPEABCMBwALQaACIA8gD0GgAk0bIQwLIAxBoAJBsLPEABCMBwALIA0gBUHAs8QAEIwHAAsgGCAFQdCzxAAQjAcACyAJIAdB4LPEABCMBwALIBAgECAbSSIOaiEMIBAhDSAODQALDAILIAxBEEGQs8QAEIwHAAsgE0EQQYCzxAAQjAcACyABIAEgGUkiDmohDCAODQALDAMLIAAgBUGQtMQAEIwHAAsgDCAHQYC0xAAQjAcACyARQaACQfCzxAAQjAcACwJAIBIgF0kiAUUNAAJAIAcgFU8EQCAVIAcgFWtLDQFBBCASdCIMRQ0CIAYgFUECdGogBiAM/AoAAAwCC0EAIBUgB0HwssQAEOoHAAsgC0EANgLYCiALQQE2AswKIAtB1JzIADYCyAogC0IENwLQCiALQcgKakHwssQAEI0IAAsgEiAXSQRAIAEgEmoiEiAXTQ0BCwsgCEEANgIIIBYgF00NAkEgIB9rIhAgFksNAkEAIQFBACENQQAhAkH//wMhAwNAAkAgC0EIaiAQQQJ0aigCACIJRQ0AQaACIBEgEUGgAk0bIRJBASAQIBdrIgp0IhRBAWsiFUGAwAFyIRhBAiAKQR9xIhl0QQJrIRNBfyAQdEF/cyEKIAtByAFqIBFBAnRqIQ4gACEMAkACQAJAA0ACQCAMIBpxIgBB//8DcSIPIANB//8DcUcEQCAHIA9NDQEgBiAPQQJ0aiANQRB0IBhyNgIAIAgoAgAgDSIBayAUSQRAIAggDSAUQQJBAhCkBSAIKAIIIQELIAgoAgQiAyABQQF0aiEPIBkEfyATBEAgD0EAIBP8CwALIAMgASAUakEBdGpBAmshDyABIBVqBSABCyECIA9BADsBACAIIAJBAWoiATYCCCAAIQMgDSECCyARIBJGDQIgDigCACIAIAVPDQMgBCAAQQF0aiAMOwEAIAIgDEH//wNxIg8gF3ZqIg0gAU8NBCAIKAIEIA1BAXRqIABBBHQgEGo7AQAgEUEBaiERIA5BBGohDiABIQ0gCiIAQf//A3EgD0cEQEEBIAAgDHNBEHRnQQ9zdCIAQQFrIAxxIAByIQALIAAhDCAJQQFrIgkNAQwFCwsgDyAHQaCyxAAQjAcACyARQaACQbCyxAAQjAcACyAAIAVBwLLEABCMBwALIA0gAUHQssQAEIwHAAsCQCAQIBZPIgwNACADQf//A3EiCSAAIBpxQf//A3FHDQAgASACTwRAIAEgAmsiCiAIKAIAIAFrSwRAIAggASAKQQJBAhCkBSAIKAIIIQELIApBAXQiDgRAIAgoAgQiDSABQQF0aiANIAJBAXRqIA78CgAACyAIIAEgCmoiATYCCCAHIAlLBEAgBiAJQQJ0aiABIAJBf3NqIAJBEHRyQYDAAXI2AgAgASENDAILIAkgB0GQssQAEIwHAAsgAiABIAFBgLLEABDqBwALIAwNAyAQIBAgFklqIhAgFk0NAAsMAgsgDkEQQaC0xAAQjAcACyAOQaACQbC0xAAQjAcACyAdIB5GCyALQeAKaiQAC9AjAiZ7E38CQAJAAkACQAJAAkAgAUECSwRAIANFDQEgBUUNAiAHRQ0DIABB/wEgAi0AAEGFlQFsQQh2IjEgBC0AACIvQZqCAmxBCHZqQZWKAWtBBnUiNEEAIDRBAEobIjQgNEH/AU4bOgACIABB/wEgMSAGLQAAIjVBpcwBbEEIdmpBmu8Aa0EGdSI0QQAgNEEAShsiNCA0Qf8BThs6AAAgAEH/ASAxIC9BkzJsQQh2IDVBiOgAbEEIdmprQYTEAGpBBnUiMUEAIDFBAEobIjEgMUH/AU4bOgABIAJBAWohNCADQQFrIgNBfnEhOyAAQQNqITEgA0EBcSE+IAFBA2siASABQQZwIjxrIjlBBkkNBiADQQF2IgMiASA5QQZrIi5BBm4iMiABIDJJGyIBIAdBAWsiMCIyIAEgMkkbIgEgBUEBayIzIjIgASAySRsiAUEQSQ0EIDEgAiADIC5BBm4iLiADIC5JGyIDIDAiLiADIC5JGyIDIDMiLiADIC5JGyIDQQF0akEDakkgNCAAIANBBmxqQQlqIgBJcQ0EIDEgBCADQQJqIgJqSSAAIARLcSAxIAIgBmpJIAAgBktxcg0EIAFBAWoiAEEPcSICQRAgAhsiAiABQX9zaiE2IAcgACACayIwayE6IAYgMGohLiAFIDBrIQMgBCAwaiEyIDQgMEEBdCIAaiECIDsgAGshASAxIDBBBmxqIQAgOSAwQXpsaiE9IC/9DyEZIDX9DyEUIAQhNSAGITAgMSEvIDQhMwNAIC8gM/0AAAAiGiAU/Q0AAgQGAAAAAAAAAAAAAAAA/YkB/akB/QyFSgAAhUoAAIVKAACFSgAAIgz9tQFBCP2tASIkIBQgMEEBav0AAAAiFP0NDxAREhMUFRYXGBkaGxwdHv2JASII/QwJAAkACQAJAAkACQAJAAkAIg39lQEgFP2JASIT/Y4BIBMgCP2OAf0MAwADAAMAAwADAAMAAwADACIO/ZUB/Y4B/QwIAAgACAAIAAgACAAIAAgAIg/9jgFBBP2NASIJ/akBIhH9DCVmAAAlZgAAJWYAACVmAAAiFf21AUEI/a0B/a4B/QxmyP//Zsj//2bI//9myP//Ihb9rgFBBv2sAf0MAAAAAAAAAAAAAAAAAAAAACII/bgB/Qz/AAAA/wAAAP8AAAD/AAAAIgr9tgEgGiAI/Q0ICgwOAAAAAAAAAAAAAAAA/YkB/akBIAz9tQFBCP2tASIlIAn9qgEiCyAV/bUBQQj9rQH9rgEgFv2uAUEG/awBIAj9uAEgCv22Af0NAAQIDBAUGBwAAAAAAAAAACAz/QAAECIhIAj9DQACBAYAAAAAAAAAAAAAAAD9iQH9qQEgDP21AUEI/a0BIiYgFCAI/Q0HCAkKCwwNDgAAAAAAAAAA/YkBIgkgDf2VASAU/YoBIhv9jgEgGyAJ/Y4BIA79lQH9jgEgD/2OAUEE/Y0BIhL9qQEiFyAV/bUBQQj9rQH9rgEgFv2uAUEG/awBIAj9uAEgCv22ASIJ/RsA/RcIIAn9GwH9FwkgCf0bAv0XCiAJ/RsD/RcLICEgCP0NCAoMDgAAAAAAAAAAAAAAAP2JAf2pASAM/bUBQQj9rQEiECAS/aoBIiAgFf21AUEI/a0B/a4BIBb9rgFBBv2sASAI/bgBIAr9tgEiCf0bAP0XDCAJ/RsB/RcNIAn9GwL9Fw4gCf0bA/0XDyIcICQgGSA1QQFq/QAAACIZ/Q0PEBESExQVFhcYGRobHB0e/YkBIgkgDf2VASAZ/YkBIhj9jgEgGCAJ/Y4BIA79lQH9jgEgD/2OAUEE/Y0BIh39qQEiJ/0MExkAABMZAAATGQAAExkAACIJ/bUBQQj9rQEgEf0MCDQAAAg0AAAINAAACDQAACIR/bUBQQj9rQH9rgH9sQH9DAQiAAAEIgAABCIAAAQiAAAiEv2uAUEG/awBIAj9uAEgCv22ASAlIB39qgEiKCAJ/bUBQQj9rQEgCyAR/bUBQQj9rQH9rgH9sQEgEv2uAUEG/awBIAj9uAEgCv22Af0NAAQIDBAUGBwAAAAAAAAAACAmIBkgCP0NBwgJCgsMDQ4AAAAAAAAAAP2JASILIA39lQEgGf2KASId/Y4BIB0gC/2OASAO/ZUB/Y4BIA/9jgFBBP2NASIe/akBIikgCf21AUEI/a0BIBcgEf21AUEI/a0B/a4B/bEBIBL9rgFBBv2sASAI/bgBIAr9tgEiC/0bAP0XCCAL/RsB/RcJIAv9GwL9FwogC/0bA/0XCyAQIB79qgEiHiAJ/bUBQQj9rQEgICAR/bUBQQj9rQH9rgH9sQEgEv2uAUEG/awBIAj9uAEgCv22ASIL/RsA/RcMIAv9GwH9Fw0gC/0bAv0XDiAL/RsD/RcPIhf9DQAAAAAOHgAAAAAPHwAAAAAgECAe/QwagQAAGoEAABqBAAAagQAAIgv9tQFBCP2tAf2uAf0M67r//+u6///ruv//67r//yIQ/a4BQQb9rAEgCP24ASAK/bYBIh4gISAI/Q0JCw0PAAAAAAAAAAAAAAAA/YkB/akBIAz9tQFBCP2tASIgIBsgDf2VASAw/QAAACIf/YoBIiL9jgEgIiAb/Y4BIA79lQH9jgEgD/2OAUEE/Y0BIiL9qgEiKiAV/bUBQQj9rQH9rgEgFv2uAUEG/awBIAj9uAEgCv22ASIr/Q0EFAAAAAAIGAAAAAAMHAAA/Q0QEQAABAUWFwAACgscHQAAIBogCP0NAQMFBwAAAAAAAAAAAAAAAP2JAf2pASAM/bUBQQj9rQEiGyAYIA39lQEgNf0AAAAiLP2JASIj/Y4BICMgGP2OASAO/ZUB/Y4BIA/9jgFBBP2NASIY/akBIiMgCf21AUEI/a0BIBMgDf2VASAf/YkBIh/9jgEgHyAT/Y4BIA79lQH9jgEgD/2OAUEE/Y0BIhP9qQEiHyAR/bUBQQj9rQH9rgH9sQEgEv2uAUEG/awBIAj9uAEgCv22ASAaIAj9DQkLDQ8AAAAAAAAAAAAAAAD9iQH9qQEgDP21AUEI/a0BIhogGP2qASIYIAn9tQFBCP2tASAT/aoBIi0gEf21AUEI/a0B/a4B/bEBIBL9rgFBBv2sASAI/bgBIAr9tgH9hgEgISAI/Q0BAwUHAAAAAAAAAAAAAAAA/YkB/akBIAz9tQFBCP2tASITIB0gDf2VASAs/YoBIgz9jgEgDCAd/Y4BIA79lQH9jgEgD/2OAUEE/Y0BIgz9qQEiDSAJ/bUBQQj9rQEgIv2pASIOIBH9tQFBCP2tAf2uAf2xASAS/a4BQQb9rAEgCP24ASAK/bYBICAgDP2qASIPIAn9tQFBCP2tASAqIBH9tQFBCP2tAf2uAf2xASAS/a4BQQb9rAEgCP24ASAK/bYB/YYB/WYiDP0NAAEdAAQFBgceAAoLDA0fACAbICMgC/21AUEI/a0B/a4BIBD9rgFBBv2sASAI/bgBIAr9tgEgGiAYIAv9tQFBCP2tAf2uASAQ/a4BQQb9rAEgCP24ASAK/bYB/YYBIBMgDSAL/bUBQQj9rQH9rgEgEP2uAUEG/awBIAj9uAEgCv22ASAgIA8gC/21AUEI/a0B/a4BIBD9rgFBBv2sASAI/bgBIAr9tgH9hgH9ZiIN/Q0AAQIdBAUGBwgeCgsMDQ4f/QsAUCAvIBwgF/0NAAALGwAAAAAMHAAAAAANHSAmICkgC/21AUEI/a0B/a4BIBD9rgFBBv2sASAI/bgBIAr9tgEiDyATIA4gFf21AUEI/a0B/a4BIBb9rgFBBv2sASAI/bgBIAr9tgEiDv0NAAAAAAwcAAAAAAAAAAAAACAe/RsA/RcKICv9GwD9Fwv9DQAAAgMUFQAACAkaGwAADg8gDP0NGgACAwQFGwAICQoLHAAODyAN/Q0AGgIDBAUGGwgJCgsMHA4P/QsAQCAvIBwgF/0NCBgAAAAACRkAAAAAChoAACAPIA79DQAAABAAAAAABBQAAAAACBj9DQABEhMAAAYHGBkAAAwNHh8gDP0NAAECAxgABgcICRkADA0ODyAN/Q0AAQIDBBgGBwgJChkMDQ4P/QsAMCAvIBwgF/0NAAAAAAYWAAAAAAcXAAAAACAlICggC/21AUEI/a0B/a4BIBD9rgFBBv2sASAI/bgBIAr9tgEiDiAaIC0gFf21AUEI/a0B/a4BIBb9rgFBBv2sASAI/bgBIAr9tgEiD/0NBBQAAAAACBgAAAAADBwAAP0NEBEAAAQFFhcAAAoLHB0AACAM/Q0AARUABAUGBxYACgsMDRcAIA39DQABAhUEBQYHCBYKCwwNDhf9CwAgIC8gHCAX/Q0AAAMTAAAAAAQUAAAAAAUVICQgJyAL/bUBQQj9rQH9rgEgEP2uAUEG/awBIAj9uAEgCv22ASIJIBsgHyAV/bUBQQj9rQH9rgEgFv2uAUEG/awBIAj9uAEgCv22ASII/Q0AAAAADBwAAAAAAAAAAAAAIA79GwD9FwogD/0bAP0XC/0NAAACAxQVAAAICRobAAAODyAM/Q0SAAIDBAUTAAgJCgsUAA4PIA39DQASAgMEBQYTCAkKCwwUDg/9CwAQIC8gHCAX/Q0AEAAAAAABEQAAAAACEgAAIAkgCP0NAAAAEAAAAAAEFAAAAAAIGP0NAAESEwAABgcYGQAADA0eHyAM/Q0AAQIDEAAGBwgJEQAMDQ4PIA39DQABAgMEEAYHCAkKEQwNDg/9CwAAIDVBEGohNSAwQRBqITAgL0HgAGohLyAzQSBqITMgNkEQaiI2DQALIBn9Fg8hLyAU/RYPITUMBQtBAEEDIAFBmOvEABDqBwALQQBBAEGo68QAEIwHAAtBAEEAQbjrxAAQjAcAC0EAQQBByOvEABCMBwALIAQhMiAFIQMgBiEuIAchOiA5IT0gMSEAIDshASA0IQILA0AgAUUgA0ECSXIgOkEBTXINASAAQQJqQf8BIAItAABBhZUBbEEIdiI2IC9B/wFxIjNBCWwgMkEBaiIwLQAAIi9qIC8gM2pBA2xqQQhqQQR2Ij9BmoICbEEIdmpBlYoBa0EGdSIzQQAgM0EAShsiMyAzQf8BThs6AAAgAEH/ASA2IDVB/wFxIjdBCWwgLkEBaiIzLQAAIjVqIDUgN2pBA2xqQQhqQQR2IkBBpcwBbEEIdmpBmu8Aa0EGdSI3QQAgN0EAShsiNyA3Qf8BThs6AAAgAEEFakH/ASACQQFqLQAAQYWVAWxBCHYiNyAyLQAAIjIgL0EJbGogLyAyakEDbGpBCGpBBHYiMkGaggJsQQh2akGVigFrQQZ1IjhBACA4QQBKGyI4IDhB/wFOGzoAACAAQQNqQf8BIDcgLi0AACIuIDVBCWxqIC4gNWpBA2xqQQhqQQR2Ii5BpcwBbEEIdmpBmu8Aa0EGdSI4QQAgOEEAShsiOCA4Qf8BThs6AAAgAEEBakH/ASA2ID9BkzJsQQh2IEBBiOgAbEEIdmprQYTEAGpBBnUiNkEAIDZBAEobIjYgNkH/AU4bOgAAIABBBGpB/wEgNyAyQZMybEEIdiAuQYjoAGxBCHZqa0GExABqQQZ1Ii5BACAuQQBKGyIuIC5B/wFOGzoAACAAQQZqIQAgAkECaiECIDpBAWshOiADQQFrIQMgAUECayEBIDAhMiAzIS4gPUEGayI9QQZPDQALCwJAAkACQAJAAkAgPgRAIAQgBWpBAWsiAEUNAiAGIAdqQQFrIgNFDQEgPEUNAyAALQAAIQAgMSA5aiIBQf8BIDQgO2otAABBhZUBbEEIdiICIAMtAAAiA0GlzAFsQQh2akGa7wBrQQZ1IgRBACAEQQBKGyIEIARB/wFOGzoAACA8QQFGDQQgAUH/ASACIABBkzJsQQh2IANBiOgAbEEIdmprQYTEAGpBBnUiA0EAIANBAEobIgMgA0H/AU4bOgABIDxBAk0NBSABQf8BIABBmoICbEEIdiACakGVigFrQQZ1IgBBACAAQQBKGyIAIABB/wFOGzoAAgsPC0Ho68QAEN0JAAtB2OvEABDdCQALQQBBAEHI7cQAEIwHAAtBAUEBQdjtxAAQjAcAC0ECQQJB6O3EABCMBwAL5CACE38CfiMAQeAAayIHJAACQAJAAkACQAJAAkACQAJ/AkACQAJAIAACfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgASgCnAQiBiABKAKUBCIMayIIQQAgBiAITxsgAk8NACABQZwEaiERIAFB6ANqIQggAUGYBGohFSABQfADaiEOAkACQAJAAn8CQAJAA0ACQAJAAkACQCABLQDkA0UEQCAIKQMAUA0BIAhBJEEsIAEoAogEQYGAgIB4RhtqKAIAIgUgBiAFIAZJGyIJIAEoAqAESSABKAKYBCILIAEoAvgDIgVBAXZJcg0EIAEoAvQDIQoCQCAFIAtrQQ9LIAUgC09xRQRAIAUgCUkNBCAFIAlrIgUEQCAKIAkgCmogBfwKAAALIAsgCWshCwwBCyAJIAtLDQQgCyAJayILRQ0AIAogCSAKaiAL/AoAAAsgASALNgKYBCABIAYgCWs2ApwEIAEgDCAJazYClAQgASgCiARBgYCAgHhGBEAgASABKAKMBCAJazYCjAQLIAEoAvgDIQUMBAsgB0EdOgAYDA0LQYiaxwBBP0HImscAEOsHAAsgCSAFIAVBgJDFABDqBwALIAkgCyAFQfCPxQAQ6gcACyAFIAtBgEBrIgZJBEAgBiAFayIKIAEoAvADIAVrSwRAIA4gBSAKQQFBARCkBSABKAL4AyEFCyABKAL0AyIGIAVqIQkgCkECTwR/IApBAWsiCgRAIAlBACAK/AsACyAGIAUgCmoiBWoFIAkLQQA6AAAgASAFQQFqIgU2AvgDIAEoApgEIQsLAkAgCCkDACIYQv7///8PVg0AQX8gCyAYp2oiBiAGIAtJGyAFTw0AIAUgBk8EQCABIAYiBTYC+AMMAQsgBiAFayIKIAEoAvADIAVrSwRAIA4gBSAKQQFBARCkBSABKAL4AyEFCyABKAL0AyIGIAVqIQkgCkECTwR/IApBAWsiCgRAIAlBACAK/AsACyAGIAUgCmoiBWoFIAkLQQA6AAAgFSgCACELIAEgBUEBaiIFNgL4AwsgByAVNgJEIAcgETYCQCAHIAU2AjwgByABKAL0AzYCOAJ/AkACfiABKAKcAyIFIAEpA6ADIhkgBa0iGCAYIBlWG6ciBkYEQEEBIQ1BJCEFQiUMAQsgB0HIAGogASABKAKYAyAGaiAFIAZrIAdBOGoQ1gEgBykCUCEYIAcoAkwhBSAHKAJIRQRAIAEgASkDoAMgBa18NwOgAyAYpyENDAILIBinIQ0gBUH/AXFBKEYNASAHKAJYIQ8gGEIIiAshGCAHIA06ADAgByAYPgAxIAcgGEIwiDwANyAHIBhCIIg9ADUgBUEQdiEUIAVBCHYMAQtBKCEFIA1B/wFxQQZGCyEMIAsgFSgCACIKSwRAQfiaxwBBK0Gkm8cAEOsHAAsgCCAIKQMAIhkgCiALa60iGH03AwAgGCAZUQRAIBEgCjYCAAsCQCAFQf8BcSIGQShHBEAgBkEkRw0HIA1B/wFxQQFrDgMBAwQHCyAMQQFxBEAgASgCvAQiBkUNBiABQQE6AOQDIAEgBkEBazYCvAQLIAEoApwEIgYgASgClAQiDGsiBUEAIAUgBk0bIAJJDQEMCAsLIActADEMAgsgBygCNC0ACAwBCyAHKAI0LQAIC0H/AXFBJUcNASAKIAEoApQEayACSQ0BIAcoAjQhFyAHLQAwIAdBGGohCyABLQDFBCEPIwBBEGsiECQAAkACQAJAIAgoAiwiEyAIKAIQIhVJBEACQCAIKAIMIhEgE2otAAAiDkEFTwRAIAsgDjoAASALQRk6AAAMAQsgCCkCFCEYIAhCgICAgBA3AhQgEEEIaiAIQRxqIgYoAgAiCTYCACAGQQA2AgAgECAYNwMAIBACfyAJIAJBAWsiEk8EQCAQKAIEIRYgEgwBCyASIAlrIgYgECgCACAJa0sEQCAQIAkgBhDvBSAQKAIIIQkLIBAoAgQiFiAJaiEFIAZBAk8EfyAGQQFrIgYEQCAFQQAgBvwLAAsgFiAGIAlqIglqBSAFC0EAOgAAIAlBAWoLIgk2AgggEiAVIBNBAWoiBWsiBksNAiAJIBJHDQMgEgRAIBYgBSARaiAS/AoAAAtBASEJAkACQAJAIAgoAiAiBkGAgICAeHNBAiAGQQBIIgYbIgVBAWsOAgABAgsgCCgCJCIFIBNNBEAgBSARaiEJIBMgBWshBQwCCyAFIBMgE0HQkMUAEOoHAAsgCCgCKCEFIAgoAiQhCQsgCEEgaiERIA4gDyAJIAUgFiASEFogBkUEQCAIQRRqIgYgESkCADcCACAGQQhqIBFBCGooAgA2AgALIBEgECkDADcCACALQSg6AAAgCCACIBNqNgIsIBFBCGogEEEIaigCADYCAAsgEEEQaiQADAMLIBMgFUHgj8UAEIwHAAtBACASIAZBsJDFABDqBwALIAkgEkGgkMUAEN4JAAtBA0cNAiAXKAIAIQUgF0EEaigCACIIKAIAIgYEQCAFIAYRAwALIAgoAgQiBgRAIAUgBiAIKAIIEKIHCyAXQQxBBBCiBwwCC0GsmccAQStB2JnHABDrBwALIAcgDzYCJCAHIAcpAzA3AhwgByAFOgAYIAcgFEEIdjoAGyAHIAxB/wFxIBRBCHRyOwAZCyAHLQAYQShHDQIgASgClAQhCwwBCyABKAL4AyIJIAxNDQUgASgC9AMiBiAMaiIFLQAAIgpBBU8EQCAHIAo6ABkgB0EZOgAYDAILIAEtAMUEIRRBASENAkACQAJAQQIgASgCiAQiD0GAgICAeHMgD0EAThsiDkEBaw4CAAECCyABKAKMBCIIIAxNBEAgBiAIaiENIAwgCGshDgwCCyAIIAwgDEHQkMUAEOoHAAsgASgCkAQhDiABKAKMBCENCyACQQFrIgggCSAMayIGSQRAIAogFCANIA4gBUEBaiAIEFogD0EATgRAIAdB0ABqIgUgAUGIBGoiBkEIaigCADYCACABQQA2ApAEIAcgBikCADcDSCABKAL8AyIPBEAgASgCgAQiCEEEaygCACIGQXhxIg1BBEEIIAZBA3EiBhsgD2pJDQkgBkEAIA0gD0EnaksbDQogCBCiAgsgAUH8A2oiBiAHKQNINwIAIAZBCGogBSgCADYCAAsgAUGBgICAeDYCiAQgASACIAxqIgs2ApQEIAEgDEEBajYCjAQMAQtBASACIAZBkJDFABDqBwALIAsgASgC+AMiBksNB0EBIQ5BAiABKAKIBCIGQYCAgIB4cyAGQQBOGyIFQQFrDgIBAgMLIAAgB/0AAhj9CwIADB0LIAEoAowEIgYgC00EQCABKAL0AyAGaiEOIAsgBmshBQwCCyAGIAsgC0HQkMUAEOoHAAsgASgCkAQhBSABKAKMBCEOCyAHIAJBAWsiDzYCLCAHIAU2AiggBSAPRw0EIAEoAqgEIgUNGSABKAIIQQJHBEAgAS0AxgIhCCABKALABCEGIAcgAS0AxwIiBToAOCAGQYCABHEiDEEQdiICIAEoAtQBQYGAgIB4R3IhCgJAAkACQCAGQRBxBEACQAJAIAVBEEYEQAJAIAhBAWsOBhkSAwIZAAULQQEhBSAGQQFxRQ0fQYSYxQAMIAtBACEGIAhBAWsOBhcQGQUXHgQLQQEhBSAGQQFxRQ0dQYSYxQAMHgsgASgC4AFBgYCAgHhHDRhBDgwZCyAFQRBGDQwCQAJAAkAgCEEBaw4GFwEYAhceAAsgDEEAIAVBB00bDQsgAiAKcQ0NDB0LIAwNDAwcCyAMRQ0bIAVBB00NCQwbC0EBIQIgBkEBcSEGDA8LIAVBCE8NCAwHCyAFQQhJDQYMGAtBrJjHABDdCQALIAwgCUHgj8UAEIwHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQQAgCyAGQcCQxQAQ6gcACyAHQQA2AkhBACAHQShqIAdBLGogB0HIAGpB2JrHABD1BwALQQQQcSIFRQ0KIAVB9QBB9gAgChs2AgBBsJjFAAwSCyAKRQ0QC0EAIQYMBQsCQCAIQQFrDgYIAAkDCA4ECyAMRQ0BCyAKDQMLQQEhBSAGQQFxRQ0MQYSYxQAMDQtBASEFIAZBAXFFDQtBhJjFAAwMCyACIApxDQFBASEFIAZBAXFFDQpBhJjFAAwLC0H3AEH4ACAFQQhGIgIbIQ0gAiAGQQFxcg0BQfkAIQ0gBUEQRg0BIAdBADYCSEEAIAdBOGpBnJjFACAHQcgAakGgmMUAEPkHAAtB+ABB+QAgBkEBcRshDQtBBBBxIgVFDQAgBSANNgIAQbCYxQAMCAsACyAMRQ0FC0EOIAEoAuABQYGAgIB4Rg0BGiAFQRBHDQILQQ8LOgAAIABBkAY7AAEMBQsgAUEIaiECIApFBEAgB0EQaiEGIwBBgAhrIggkACAIIAIQrQIgAi0AvwIhAkGACBBxIQUCQAJAAn8gAkEIRgRAIAVFDQJBtJrFAAwBCyAFRQ0BQcyaxQALIQIgBSAIQYAI/AoAACAGIAI2AgQgBiAFNgIAIAhBgAhqJAAMAQsACyAHKAIQIQUgBygCFAwDCyAHQQhqIQYjAEGACGsiCCQAIAggAhCtAgJAQYAIEHEiAgRAIAIgCEGACPwKAAAgBkHkmsUANgIEIAYgAjYCACAIQYAIaiQADAELAAsgBygCCCEFQeSaxQAMAgtBASEFIAZBAXFFDQBBhJjFAAwBC0EBIQVByJjFAAshDQJAIAEoAqgEIgpFDQAgASgCrAQiAigCACIMBEAgCiAMEQMACyACKAIEIghFDQAgCkEEaygCACIGQXhxIgJBBEEIIAZBA3EiDBsgCGpJDQMgDEEAIAIgCEEnaksbDQQgChCiAgsgASANNgKsBCABIAU2AqgECyABKAIIQQJGDQUgBSAOIA8gAyAEIAFBCGogASgCrAQoAhQRCQACQAJAIAEoAqgDQQFGBEACQCABKAKsAyICIAEoArADTw0AIAEoArQDIgxFDQAgASgCuAMhDSABLQDAAyEUQQEhBgwCC0EHIAEtAMADIgUgBUEHTRshCEECIQMgBUECdEGYjsUAaiEOIAEoArwDIQogASgCuAMhDQNAIAUgCEYNAyABIAVBAWoiBSIUOgDAAyAOKAAAIglB/wFxIgZFDQcgASANIAlBCHZB/wFxayICQQAgAiANTRsiBCAGbiICIAQgAiAGbEdqIgw2ArQDIAlBEHZB/wFxIg9FDQhBACECIAFBADYCrAMgASAKIAlBGHZrIgRBACAEIApNGyIGIA9uIgQgBiAEIA9sR2oiBDYCsANBASEGIA5BBGohDiAERSAMRXINAAsMAQtBAiEDQQAhBiABKAKsAyICIAEoArADTw0BCyABIAJBAWo2AqwDIAYhAwsgASAUOgDUAyABIAw2AtADIAEgDTYCzAMgASACNgLIAyABIAM2AsQDIABBKDoAAAsgB0HgAGokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HEjsUAEIEIAAtBtI7FABCBCAALQayYxwAQ3QkAC44aBB5/AnsBfQF+IwBBsMAAayIHJAACQAJAAkAgAiADQf8BcUECdCIEKALQhElwRQRAQQEhBSACIAQoAuCESW5BAnQiBARAQQAhBQJAIARBAE4EQCAHQQA2ArQgIAdBMGpBASAEIAdBsCBqEIUHIAcoAjBBAUcNASAHKAI4IQYgBygCNCEFCyAHIAY2ArQgIAcgBTYCsCBB4L7EAEE2IAdBsCBqQdC+xABBmL/EABDgBgALIAcoAjQhBQsgB0EANgIsIAcgBTYCKCAHIAQ2AiQCQAJAIANB/wFxQQFrDgMDAQEACyACQQNuIgNBAnQiAgRAIAIgBEsEQCAHQSRqQQAgAhDvBSAHKAIsIQYgBygCKCEFCyAFIAZqIQQgAkEBayILBEAgBEEAIAv8CwALIAQgC2pBADoAACACIAZqIQYLIAcgBjYCLCAGQQJ2IgIgAyACIANJGyIERQ0DA0AgBUEDakH/AToAACAFIAEvAQBBgAFqQYECbjoAACAFQQJqIAFBBGovAQBBgAFqQYECbjoAACAFQQFqIAFBAmovAQBBgAFqQYECbjoAACABQQZqIQEgBUEEaiEFIARBAWsiBA0ACwwDCyAHQRBqIAdBLGooAgA2AgAgByAHKQIkNwMIIAdBsCBqEO4CIAcoArAgRQRAIAdBJGpBARDRCQsCQCACIANB/wFxQQJ0KALwhEluQQJ0IhEgBygCECIFTQRAIAcoAgwhEgwBCyARIAVrIgQgBygCCCAFa0sEQCAHQQhqIAUgBBDvBSAHKAIQIQULIAcoAgwiEiAFaiELIARBAk8EfyAEQQFrIgQEQCALQQAgBPwLAAsgEiAEIAVqIgVqBSALC0EAOgAAIAVBAWohEQsgByARNgIQAn8CfwJAAkACQAJAIANB/wFxQQFrDgMBAgMACyAHQTBqQQBBgCD8CwAgB0GwIGpBAEGAIPwLACACQQNuIQ9BASEcQQMMBAsgB0EwakEAQYAg/AsAIAdBsCBqQQBBgCD8CwAgAkECdgwCCyAHQTBqQQBBgCD8CwAgB0GwIGpBAEGAIPwLAEEBIRwgAiEPQQMMAgsgB0EwakEAQYAg/AsAIAdBsCBqQQBBgCD8CwAgAkEBdgshD0EECyEUAkACQAJAIA8EQCAPQQh2IA9B/wFxQQBHaiIEQQFrIgtBACAEIAtPGyEFIAEhCyABIRUgASEWIAEhGUGAAiEXA0AgBSEdIBQgDyAXIA8gF0kbIgQgE0EIdGsiBmwiBUH//wNxQQNuIQkgFCAEIB5qbEH//wNxQQNuIQoCQAJAAkACQCAPIAxBgAJqIgggCCAPSxsiECAMayIYIBRsIg1BgQhJBEAgBEECdCEaIBQgBCAfaiIbbCEIAkACQAJAAkACQAJAAkAgA0H/AXFBAWsOAwEFAgALIBBBA2wiBiAMQQNsIglPIAIgBk9xDQIgCSAGIAJB+LzEABDqBwALIBBBAnQiBCAMQQJ0IgZPIAIgBE9xDQIgBiAEIAJBiL3EABDqBwALIBBBAXQiBiAMQQF0IglPIAIgBk9xDQMgCSAGIAJB2L3EABDqBwALIA0gBiAJayIGIAYgDUsbRQ0HIAggICAEQQNsIgRqIgYgBiAISxshCUEAIQggBSATQYB6bCAEaiIEIAQgBUsbIgpBBE8EQCAJQXxxIQYgCkF8cSEIIAdBMGohBSALIQQDQCAFIAT9BAEA/fsB/QyAAIA3gACAN4AAgDeAAIA3/eYB/QsCACAEQQhqIQQgBUEQaiEFIAZBBGsiBg0ACyAIIApGDQgLIAggCWshBiALIAhBAXRqIQUgB0EwaiAIQQJ0aiEEA0AgBCAFLwEAs0OAAIA3lDgCACAFQQJqIQUgBEEEaiEEIAZBAWoiBg0ACwwHCyANIAQgBmsiBCAEIA1LG0UNBiAIIA4gGmoiBCAEIAhLGyEJQQAhCCAFIBogE0EKdGsiBCAEIAVLGyIKQQRPBEAgCUF8cSEGIApBfHEhCCAHQTBqIQUgFSEEA0AgBSAE/QQBAP37Af0MgACAN4AAgDeAAIA3gACAN/3mAf0LAgAgBEEIaiEEIAVBEGohBSAGQQRrIgYNAAsgCCAKRg0HCyAIIAlrIQYgFSAIQQF0aiEFIAdBMGogCEECdGohBANAIAQgBS8BALNDgACAN5Q4AgAgBUECaiEFIARBBGohBCAGQQFqIgYNAAsMBgsgDCAQSw0CIA1B//8DcUEDbiIEIBggBCAYSRtFDQUgCiAbIAogG0kbIQpBACEIIAkgBiAGIAlLGyIJQQRPBEAgCkH8/wFxIQYgCUH8/wFxIQggB0EwaiEFIBYhBANAIAUgBP0EAQD9+wH9DIAAgDeAAIA3gACAN4AAgDf95gEiIiAi/Q0ICQoLDA0ODwwNDg8MDQ4P/QsCICAFICIgIv0NBAUGBwQFBgcICQoLCAkKC/0LAhAgBSAiICL9DQABAgMAAQIDAAECAwQFBgf9CwIAIARBCGohBCAFQTBqIQUgBkEEayIGDQALIAggCUYNBgsgCCAKayEGIBYgCEEBdGohBCAHQTBqIAhBDGxqIQUDQCAFQQhqIAQvAQCzQ4AAgDeUIiQ4AgAgBUEEaiAkOAIAIAUgJDgCACAEQQJqIQQgBUEMaiEFIAZBAWoiBg0ACwwFCyANQQJ2IgogBiAJa0EBdiIGIAYgCksbRQ0EQQAhBiAFQQJ2IgUgBEEBdCIEIBNBCXRrQQF2IgogBSAKSRsiBUEBRg0DIAhBAnYiBiAEICFqQQF2IgQgBCAGSxtB/v///wNxIQggBUEBcSEKQQAhBiAHQTBqIQUgGSEEA0AgBSAE/QQBAP37Af0MgACAN4AAgDeAAIA3gACAN/3mASIiICL9DQgJCgsICQoLCAkKCwwNDg/9CwIQIAUgIiAi/Q0AAQIDAAECAwABAgMEBQYH/QsCACAEQQhqIQQgBUEgaiEFIAggBkECaiIGRw0ACwwCC0EAIA1BgAhB6L3EABDqBwALIAwgECACQZi9xAAQ6gcACyAKRQ0BCyAHQTBqIAZBBHRqIgQgASAJQQF0aiAGQQJ0aiIFLwEAs0OAAIA3lCIkOAIIIAQgJDgCBCAEICQ4AgAgBCAFLwECs0OAAIA3lDgCDAsCfyAcRQRAIBhBAnQiBCANSw0FIAdBMGoMAQsgDUH//wNxQQNuIQQCQCANQQNJDQBBgAIgBCAEQYACTxshCEEBIQYgB0GwIGohBSAHQTBqIQQDQCAFIAQqAgA4AgAgBUEMakGAgID8AzYCACAFQQRqIARBBGopAgA3AgAgBiAbRg0BIARBDGohBCAFQRBqIQUgBiAISSAGQQFqIQYNAAsLIBhBAnQiBEGBCE8NAyAHQbAgagshBSAQQQJ0IgYgEUsgBiAMQQJ0IgxJcg0EIAYgDGsiDCAEIAQgDEsbBEBBACAaayEGIBIhBANAIARB/wEgBSoCAEMAAH9DlBC5ByIk/AFBACAkQwAAAABgGyAkQwAAf0NeGzoAACAEQQFqQf8BIAVBBGoqAgBDAAB/Q5QQuQciJPwBQQAgJEMAAAAAYBsgJEMAAH9DXhs6AAAgBEECaiEEIAVBCGohBSAOIAZBAmoiBkcNAAsLIBJBgAhqIRIgC0GADGohCyAgQYAGayEgIBVBgBBqIRUgDkGACGshDiAWQYAEaiEWIB5BgAJrIR4gIUGABGshISAfQYACayEfIBlBgAhqIRkgE0EBaiETIB1BAWshBSAXIgxBgAJqIRcgHQ0ACwsgACAHKQMINwIAIABBCGogB0EQaigCADYCAAwGC0EAIARBgAhBqL3EABDqBwALQQAgBCANQci9xAAQ6gcACyAMIAYgEUG4vcQAEOoHAAtB+L3EAEHFAEHAvsQAEOsHAAsCQAJAIAIgBEsEQCAHQSRqQQAgAhDvBSAHKAIoIQUgBygCLCEEDAELQQAhBCACRQ0BC0EAIQMgAkEITwRAIAQgBWohBiAEIAJBeHEiA2ohBCABIQ4gAyELA0AgBiAO/QABACIj/akB/QyAAAAAgAAAAIAAAACAAAAA/a4BIiL9GwBBgQJu/REgIv0bAUGBAm79HAEgIv0bAkGBAm79HAIgIv0bA0GBAm79HAMgI/2qAf0MgAAAAIAAAACAAAAAgAAAAP2uASIi/RsAQYECbv0RICL9GwFBgQJu/RwBICL9GwJBgQJu/RwCICL9GwNBgQJu/RwD/Q0ABAgMEBQYHAAAAAAAAAAA/VsAAAAgDkEQaiEOIAZBCGohBiALQQhrIgsNAAsgAiADRg0BCyACIANrIQ4gASADQQF0aiEGA0AgBCAFaiAGLwEAQYABakGBAm46AAAgBkECaiEGIARBAWohBCAOQQFrIg4NAAsLIAcgBDYCLAsgB0EgaiAHQSxqKAIAIgE2AgAgByAHKQIkIiU3AxggAEEIaiABNgIAIAAgJTcCAAsgB0GwwABqJAAL1BkCDn8CeyMAQUBqIgMkACADIAE2AhwgA0EANgIYIAMgATYCFCADIAA2AhAgA0EBOgAkIANBPzYCDCADQT82AiAgA0E0aiICIANBDGoiBhD9AiADIAMoAjggASADKAI0GyIBNgIcIANBADYCGCADIAE2AhQgAyAANgIQIANBAToAJCADQSM2AgwgA0EjNgIgIAIgBhD9AiADKAI4IQIgAygCNCEHIANBATsBMCADIAIgASAHGyIBNgIsIANBADYCKCADQQE6ACQgA0EuNgIgIAMgATYCHCADQQA2AhggAyABNgIUIAMgADYCECADQS42AgwCQAJAAkACQAJAA0ACQCADKAIQIQEgA0E0aiADQQxqEP0CIAMoAjRFBEACQCADLQAxDQACQCADLQAwQQFGBEAgAygCLCEAIAMoAighAQwBCyADKAIsIgAgAygCKCIBRg0BCyADKAIQIAFqIQggACABayEHDAILIAgNAUEGIQEMAwsgAygCKCEAIAMgAygCPDYCKCAAIAFqIQggAygCOCAAayEHIAMtADFBAUcNAQsLAkACQCAHQQBOBEACQCAHRQRAQQAhBkEBIQQMAQsgBxBxIgRFDQIgCCEBIAQhAAJAIAciAkEQSQ0AIAJB8P///wdxIQpBACEGA0AgBCAGaiEAIAYgCGoiAf0AAAAiEf0M//////////////////////0nIhD9FgFBAXEgEP0WAEEBcWogEP0WAkEBcWogEP0WA0EBcWogEP0WBEEBcWogEP0WBUEBcWogEP0WBkEBcWogEP0WB0EBcWogEP0WCEEBcWogEP0WCUEBcWogEP0WCkEBcWogEP0WC0EBcWogEP0WDEEBcWogEP0WDUEBcWogEP0WDkEBcWogEP0WD0EBcWpB/wFxQRBHBEAgBiEKDAILIAAgEf0Mv7+/v7+/v7+/v7+/v7+/v/1u/QwaGhoaGhoaGhoaGhoaGhoa/Sb9DCAgICAgICAgICAgICAgICD9TiAR/VD9CwAAIAZBEGohBiACQRBrIgJBD0sNAAsgAkUEQCAKIQYMAgsgBiAIaiEBIAQgBmohAAsgAiAKaiEGA0AgASwAACILQQBOBEAgAEEgQQAgC0HBAGtB/wFxQRpJGyALcjoAACAAQQFqIQAgAUEBaiEBIApBAWohCiACQQFrIgINAQwCCwsgAyAKNgIUIAMgBDYCECABIAJqIQ4gAyAHNgIMIAcgCGohDyAKIQZBACECA0ACfwJAAkACfwJAAkACQAJAIAEsAAAiAEEASARAIAEtAAFBP3EhDCAAQR9xIQsCfyAAQV9NBEAgC0EGdCAMciEAIAFBAmoMAQsgAS0AAkE/cSAMQQZ0ciEMIABBcEkEQCAMIAtBDHRyIQAgAUEDagwBCyALQRJ0QYCA8ABxIAEtAANBP3EgDEEGdHJyIQAgAUEEagsiCyACIAFraiEMIABBowdHDQECQCACIApqIgRFDQAgBCAHTwRAIAQgB0YNAQwUCyAEIAhqLAAAQUBIDRMLIAQgCGohAUEAIQUDQEGDASEJIAEgCEYNCCABQQFrIgIsAAAiAEEASARAIABBP3ECfyABQQJrIgItAAAiDcAiAEFATgRAIA1BH3EMAQsgAEE/cQJ/IAFBA2siAi0AACINwCIAQb9/SgRAIA1BD3EMAQsgAEE/cSABQQRrIgItAABBB3FBBnRyC0EGdHILQQZ0ciIAQYCAxABGDQkLIAIhAQJAAkAgBQ0AIABBgAFPBEAgAEGnAU0NASAAEOYERQ0BQYCAxAAhAkEAIQUMAgtBgIDEACECQQAhBSAAQSdrIg1BE01BAEEBIA10QYGBIHEbDQEgAEHeAGsOAwEAAQALQQEhBSAAIQILIAJBgIDEAEYNAAsCQCACQYABTwRAIAJBqQFNDQkgAhD6BA0BDAkLIAJB3wBxQcEAa0EaTw0ICwJAIARBAmoiAEUNACAAIAdPBEAgACAHRg0BDBMLIAAgCGosAABBQEgNEgsgACAIaiEBQQAhBQNAQYIBIQkgASAPRg0IAn8gASwAACIAQQBOBEAgAEH/AXEhACABQQFqDAELIAEtAAFBP3EhBCAAQR9xIQIgAEFfTQRAIAJBBnQgBHIhACABQQJqDAELIAEtAAJBP3EgBEEGdHIhBCAAQXBJBEAgBCACQQx0ciEAIAFBA2oMAQsgAkESdEGAgPAAcSABLQADQT9xIARBBnRyciIAQYCAxABGDQkgAUEEagshAQJAAkAgBQ0AIABBgAFPBEAgAEGnAU0NASAAEOYERQ0BQYCAxAAhAkEAIQUMAgtBgIDEACECQQAhBSAAQSdrIgRBE01BAEEBIAR0QYGBIHEbDQEgAEHeAGsOAwEAAQALQQEhBSAAIQILIAJBgIDEAEYNAAsgAkGAAU8EQCACQakBTQ0IIAIQ+gRFDQgMBwsgAkHfAHFBwQBrQRpJDQYMBwsgAEH/AXEhACABQQFqIgsgAiABa2ohDAwBCyAAQYABSQ0AQc0FQQAgAEHSPU8bIgEgAUHmAmoiASABQQN0KALYnkIgAEsbIgEgAUGzAWoiASABQQN0KALYnkIgAEsbIgEgAUHaAGoiASABQQN0KALYnkIgAEsbIgEgAUEtaiIBIAFBA3QoAtieQiAASxsiASABQRZqIgEgAUEDdCgC2J5CIABLGyIBIAFBC2oiASABQQN0KALYnkIgAEsbIgEgAUEGaiIBIAFBA3QoAtieQiAASxsiASABQQNqIgEgAUEDdCgC2J5CIABLGyIBIAFBAWoiASABQQN0KALYnkIgAEsbIgEgAUEBaiIBIAFBA3QoAtieQiAASxsiAUEDdCgC2J5CIgIgAEYNAQwCC0EgQQAgAEHBAGtBGkkbIAByIQBBASEFQQEMAgsCQCABIAAgAktqIgBBmQtNBEBB6QAgAEEDdCgC3J5CIgAgAEGAsANzQYCAxABrQYCQvH9JIgEbIQAgAQ0BQQEhBSAAQYABTw0CQQEMAwtBmgtBmgtBqPjCABCMBwALAn9BASAAQYABSSIFDQAaQQIgAEGAEEkNABpBA0EEIABBgIAESRsLIgEgAygCDCAGIgJrSwR/IANBDGogAiABEPcFIAMoAhAhBCADKAIUBSACCyAEaiECAkAgBUUEQCAAQT9xQYB/ciEEIABBBnYhBSAAQYAQSQRAIAIgBDoAASACIAVBwAFyOgAADAILIABBDHYhCSAFQT9xQYB/ciEFIABB//8DTQRAIAIgBDoAAiACIAU6AAEgAiAJQeABcjoAAAwCCyACIAQ6AAMgAiAFOgACIAIgCUE/cUGAf3I6AAEgAiAAQRJ2QXByOgAADAELIAIgADoAAAsgAyABIAZqIgE2AhQgAygCDCABIgBrQQFNBH8gA0EMaiAAQQIQ9wUgAygCFAUgAAsgAygCECIEakHMjwI7AAAgAUECagwEC0EAIQVBAiAAQYAQSQ0AGkEDQQQgAEGAgARJGwsiASADKAIMIAYiAmtLBH8gA0EMaiACIAEQ9wUgAygCECEEIAMoAhQFIAILIARqIQICQAJAIAVFBEAgAEE/cUGAf3IhBSAAQQZ2IQkgAEGAEE8NASACIAU6AAEgAiAJQcABcjoAAAwCCyACIAA6AAAMAQsgAEEMdiENIAlBP3FBgH9yIQkgAEH//wNNBEAgAiAFOgACIAIgCToAASACIA1B4AFyOgAADAELIAIgBToAAyACIAk6AAIgAiANQT9xQYB/cjoAASACIABBEnZBcHI6AAALIAEgBmoMAgtBgwEhCQsgAygCDCAGIgFrQQFNBH8gA0EMaiABQQIQ9wUgAygCFAUgAQsgAygCECIEaiIAIAk6AAEgAEHPAToAACAGQQJqCyEGIAwhAiADIAY2AhQgCyIBIA5HDQALIAMoAhAhBCADKAIMIQcLQQYhAQJAAkACQAJAAkAgBkEDaw4EAAQBAgcLIARBkNDHAEEDENsHRQRAQQAhAQwHCyAEQaD3xwBBAxDbBw0CQQEhAQwGC0EGQQIgBEGj98cAQQUQ2wcbIQEMBQtBBkEDIARBqPfHAEEGENsHGyEBDAQLQQQhASAEQdj3xwBBAxDbB0UNAyAEQdv3xwBBAxDbB0UNA0EGQQUgBEG398cAQQMQ2wcbIQEMAwtBBEEGIAQoAABB896dmwdGGyEBDAILQcTuwQAQ/wcLAAsgB0UNACAEQQRrKAIAIgBBeHEiAkEEQQggAEEDcSIAGyAHakkNASAAQQAgAiAHQSdqSxsNAiAEEKICCyADQUBrJAAgAQ8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAIIAcgACAHQeTuwQAQuwkACyAIIAdBACAEQdTuwQAQuwkAC8sYAhN/AX4jAEEwayILJAACQAJAAkACQCAAKAIAIgYoAgAiAEUEQCALQQA2AiggCyABNgIkIAtCADcCHCALIAYpAgQ3AhQgC0EUakEBEMwBIQcMAQsgBigCCCESIAYoAgQhDgJAA0AgEiAUIgZNBEBBACEHDAMLAkACQCAORQ0AIAZBAWoiCCAGIAYgEkkbIRQgDkEBayEHQQAhAiAALQAAIhAhBCAOIQUCQAJAA0ACQAJAIATAQQBIBEAgBEEfcSEPIAAgAmoiCkEBai0AAEE/cSEJIARB/wFxIgNB3wFLDQEgD0EGdCAJciEDDAILIARB/wFxIQMMAQsgCkECai0AAEE/cSAJQQZ0ciEJIANB8AFJBEAgCSAPQQx0ciEDDAELIA9BEnRBgIDwAHEgCkEDai0AAEE/cSAJQQZ0cnIiA0GAgMQARg0ECyAAIAJqIQkgA0Ewa0EKSQRAIAIgB0YNBCAJQQFqLAAAIgRBv39MDQIgAkEBaiECIAVBAWshBQwBCwsgDiAFayICDQFBACEDDAkLIAkgBUEBIAVBqLjFABC7CQALIAAgAmosAABBv39KDQEgACAOQQAgAkG4uMUAELsJAAtBmLjFABDdCQALAkACQAJAIAJBAUYEQEEBIQMgEEEraw4DCQEJAQsgEEErRgRAIAJBAWshAyAAQQFqIQAgAkEKSQ0BDAILIAIiA0EJTw0BC0EAIQIDQCAALQAAQTBrIgdBCUsNByAAQQFqIQAgByACQQpsaiECIANBAWsiAw0ACwwBC0EAIQIgAyEHA0AgB0UNASAALQAAQTBrIgpBCUsNBkECIQMgAq1CCn4iFUIgiKcNByAAQQFqIQAgB0EBayEHIAogFadqIgIgCk8NAAsMBgsCQCACRQ0AIAIgBU8EQCACIAVGDQEMBQsgAiAJaiwAAEG/f0wNBAsgAiAJaiEAAkAgCCASRw0AIAJFIAEoAghBgICABHFFIARB/wFxQegAR3JyDQACQCACQQFHBEAgCSwAAUFASA0BCyAJQQFqIQQDQEEAIQcgACAERg0FAn8gBCwAACIKQQBOBEAgCkH/AXEhAyAEQQFqDAELIAQtAAFBP3EhAyAKQR9xIQggCkFfTQRAIAhBBnQgA3IhAyAEQQJqDAELIAQtAAJBP3EgA0EGdHIhAyAKQXBJBEAgAyAIQQx0ciEDIARBA2oMAQsgCEESdEGAgPAAcSAELQADQT9xIANBBnRyciIDQYCAxABGDQYgBEEEagshBCADQcEAa0FecUEKaiADQTBrIANBOUsbQQ9NDQALDAELIAkgAkEBIAJB4LXFABC7CQALIAYEQCABKAIAQZSzxQBBAiABKAIEKAIMEQAADQILAn8CQCACQQJJDQAgCS8AAEHfyABHDQAgCSwAAUG/f0oEQCAJQQFqIQkgAkEBawwCCyAJIAJBASACQdi4xQAQuwkACyACCyEEIAUgAmshDiABKAIEIQ0gASgCACEMA0ACQCAJIQYCQAJAAkACQCAEIghFDQACQAJAAkACQAJAAkACfwJAAkACQCAGLQAAIgRBJEcEQCAEQS5HDQsgCEEBRg0BIAYsAAEiAkG/f0wNAiACQQBIDQMgAkH/AXEMBAsgCEEBRwRAIAYsAAFBv39MDQgLIAZBAWohBSAIQQFrIQdBACEDA0AgAyAFaiEJAkAgByADayIEQQdNBEAgAyAHRg0OQQAhAgNAIAIgCWotAABBJEYNAiAEIAJBAWoiAkcNAAsMDgsgC0EIakEkIAkgBBCHBSALKAIIQQFxRQ0NIAsoAgwhAgsCQCACIANqIgIgB08NACACIAVqLQAAQSRHDQAgAkEBaiEEAkACQAJAAkAgBS0AACIHwCIDQUBIDQACQCAEIAhPBEAgBCAIRw0CIAJBAmoiBA0BQX4hAiAIIQQgBiEJDAULIAJBAmohBAsCQCAEIAhPBEAgBCAIRg0BDAQLIAQgBmosAABBQEgNAwsgBCAGaiEJIAggBGshBAJAAkACQCACDgMUAQAGCyAFLwAAQdOgAUYEQEG4ucUAIQIMBAsgBS8AAEHCoAFGBEBBsrPFACECDAQLIAUvAABB0owBRgRAQayzxQAhAgwECyAFLwAAQcyoAUYEQEGms8UAIQIMBAsgBS8AAEHHqAFGBEBBq7PFACECDAQLIAUvAABBzKABRgRAQbuzxQAhAgwECyAFLwAAQdKgAUcNAUHejsgAIQIMAwsgB0HDAEcND0G8s8UAIQIMAgtBAiECDAMLIAYgCEEBIARBmLnFABC7CQALQQEhByAMIAJBASANKAIMEQAARQ0TDBYLIAYgCCAEIAhBqLnFABC7CQALIANB9QBHDQ0gBiwAAkG/f0oNCyAFIAJBASACQby5xQAQuwkACyAHIAJBAWoiA08NAAsMCwtBASEHIAxB7LnFAEEBIA0oAgwRAABFDQMMEQsgBiAIQQEgCEHMucUAELsJAAsgBi0AAkE/cSEEIAJBH3EhAyADQQZ0IARyIAJBX00NABogBi0AA0E/cSAEQQZ0ciEEIAQgA0EMdHIgAkFwSQ0AGiADQRJ0QYCA8ABxIAYtAARBP3EgBEEGdHJyCyANKAIMIQRBLkYNAUEBIQcgDEHsucUAQQEgBBEAAA0OIAYsAAFBQEgNAgsgBkEBaiEJIAhBAWshBAwKCyAMQZSzxQBBAiAEEQAADQsCQCAIQQNPBEAgBiwAAkFASA0BCyAGQQJqIQkgCEECayEEDAoLIAYgCEECIAhB3LnFABC7CQALIAYgCEEBIAhB8LnFABC7CQALIAYgCEEBIAhBiLnFABC7CQALIAdB9QBHDQJBASECCyACIAVqIRAgAkEBayEKIAZBAmoiByEFAkADQEEAIQ8gBSAQRg0BAn8gBSwAACIRQQBOBEAgEUH/AXEhAyAFQQFqDAELIAUtAAFBP3EhAyARQR9xIRMgEUFfTQRAIBNBBnQgA3IhAyAFQQJqDAELIAUtAAJBP3EgA0EGdHIhAyARQXBJBEAgAyATQQx0ciEDIAVBA2oMAQsgE0ESdEGAgPAAcSAFLQADQT9xIANBBnRyciIDQYCAxABGDQIgBUEEagshBSADQTprQXVLIANB5wBrQXlLcg0AC0EBIQ8LQQEhAwJAAkACQAJAAkACQCACQQFrDgIFAAELIActAABBK2sOAwQBBAELAkAgBy0AAEErRgRAIAJBAmshAyAGQQNqIQcgAkELTw0BDAILIAohAyACQQpJDQELQQAhBQNAIAVB/////wBLDQMgBy0AACICQcEAa0FfcUEKaiACQTBrIAJBOUsbIgJBEE8NAyAHQQFqIQcgAiAFQQR0ciEFIANBAWsiAw0ACwwBC0EAIQUDQCAHLQAAIgJBwQBrQV9xQQpqIAJBMGsgAkE5SxsiAkEPSw0CIAdBAWohByACIAVBBHRyIQUgA0EBayIDDQALC0EAIQMMAQtBASEDCyAPQYCAxABBgIDEACAFIAVBgLADc0GAgMQAa0GAkLx/SRsgA0EBcRsiA0GAgMQARnINASALIAM2AhQgA0EgSSADQf8Aa0EhSXINASALQRRqIAEQqAVFDQUMBwsgBiAIaiEJQQAhByAGIQIDQCAHIQMgAiAJRg0BAn8gAiwAACIKQQBOBEAgAkEBaiEFIApB/wFxDAELIAItAAFBP3EhBCAKQR9xIQcgCkFfTQRAIAJBAmohBSAHQQZ0IARyDAELIAItAAJBP3EgBEEGdHIhBCAKQXBJBEAgAkEDaiEFIAQgB0EMdHIMAQsgAkEEaiEFIAdBEnRBgIDwAHEgAi0AA0E/cSAEQQZ0cnILIgRBLkcEQCADIAJrIAVqIQcgBSECIARBJEcNAQsLAkACQCADBEAgAyAISQ0BIAMgCEcNAiAMIAYgCCANKAIMEQAADQkMBQsgDCAGQQAgDSgCDBEAAA0IDAQLIAMgBmoiBCwAAEG/f0oNAgsgBiAIQQAgA0HouMUAELsJAAsgDCAGIAggDSgCDBEAAEUNBAwFCyAMIAYgAyANKAIMEQAADQQgBCwAAEFASA0BCyADIAZqIQkgCCADayEEDAELCwsgBiAIIAMgCEH4uMUAELsJAAtBASEHCyALQTBqJAAgBw8LIAkgBSACIAVByLjFABC7CQALQQEhAwsgCyADOgAvQdjmyABBKyALQS9qQYC6xQBBkLrFABDgBgALxhgDH38FfQF+IwBBEGsiEyQAIAAgASACEOkEAkACQCADKAIEIhRFBEAgAygCDCEMDAELAkAgAygCDCIMRQ0AIAMoAhQiHEUNACADKAIcIh1FDQAgAygCJCIZRQ0AIAJFDQIgAkEEdCEgIAAoAoQBISEgACgCiAEhHiAAKAJ4ISIgACgCfCEfIAMoAiAhESADKAIYIRIgAygCECEVIAMoAgghECADKAIAIRogDCEPAkACQAJAA0AgHyANIgRBBGoiDUkEQCAEIA0gH0GIv8EAEOoHAAsCQAJAAkAgDSAeTQRAAkACQCAIIBRPDQAgFCAIayIFQQAgBSAUTRsiBUEBRwRAIAVBAkcNAiAIQQJqIQgMAQsgCEEBaiEICyAIIBRBmL/BABCMBwALIA8EQAJAAkAgCCAcTw0AAkACQCAbIBxqQQFrDgIAAQMLIAhBAWohCAwBCyAIQQJqIQgLIAggHEG4v8EAEIwHAAsCQAJAIAggHU8NAAJAAkAgGyAdakEBaw4CAAEDCyAIQQFqIQgMAQsgCEECaiEICyAIIB1BqL/BABCMBwALIAQgGU8NCAJAIBkgBGsiBUEAIAUgGU0bQQFrDgMFBwgACyAXIBpqIgtBCGooAgAhBiALQQRqKAIAIQUgBCAQaigCACEOIBUgF2oiBCgCACEJIARBCGooAgAhGCAEQQRqKAIAIQogEiAXaiIEKgIAISMgBEEIaioCACEkIARBBGoqAgAhJSARIBZqIgQqAgAhJiAEQQRqKgIAIScgBEEIaikCACEoIBYgImoiByALKAIANgIAIAdBCGogBjYCACAHQQRqIAU2AgAgEyAnOAIEIBMgJjgCACATICg3AgggDkH///8DcSEFIA5BgICAgHhxIQQgDkGAgID8B3EiBkGAgID8B0YEQCAEQRB2IAVBDXZyQYAEQQAgBRtyQYD4AXIhCwwECyAEQRB2IQsgBkGAgIC4BEsNAiAGQYCAgMQDTwRAIA5BDHYgDkH/3wBxQQBHcSAGQQ12IAVBDXZqQYCAAWogC3JqIQsMBAsgBkGAgICYA0kNAyAFQYCAgARyIgVB/gAgBkEXdiIEa3YhDiAFQR0gBGsiBHZBAXEEfyAOQQMgBHRBAWsgBXFBAEdqBSAOCyALciELDAMLIAwgDEH4vsEAEIwHAAsgBCANIB5B6L7BABDqBwALIAtBgPgBciELCyAHQQxqIAtB//8DcTYCACAJQf///wNxIQUgCUGAgICAeHEhBAJAIAlBgICA/AdxIgZBgICA/AdGBEAgBEEQdiAFQQ12ckGABEEAIAUbckGA+AFyIQcMAQsgBEEQdiEHIAZBgICAuARNBEAgBkGAgIDEA08EQCAJQQx2IAlB/98AcUEAR3EgBkENdiAFQQ12akGAgAFqIAdyaiEHDAILIAZBgICAmANJDQEgBUGAgIAEciIFQf4AIAZBF3YiBGt2IQ4gBUEdIARrIgR2QQFxBH8gDkEDIAR0QQFrIAVxQQBHagUgDgsgB3IhBwwBCyAHQYD4AXIhBwsgCkH///8DcSEFIApBgICAgHhxIQQCQCAKQYCAgPwHcSILQYCAgPwHRgRAIARBEHYgBUENdnJBgARBACAFG3JBgPgBciEEDAELIARBEHYhBCALQYCAgLgETQRAIAtBgICAxANPBEAgCkEMdiAKQf/fAHFBAEdxIAtBDXYgBUENdmpBgIABaiAEcmohBAwCCyALQYCAgJgDSQ0BIAVBgICABHIiBkH+ACALQRd2IgVrdiEOIAZBHSAFayIFdkEBcQR/IA5BAyAFdEEBayAGcUEAR2oFIA4LIARyIQQMAQsgBEGA+AFyIQQLIBYgIWoiCyAHQf//A3EgBEEQdHI2AgAgGEH///8DcSEFIBhBgICAgHhxIQQCQCAYQYCAgPwHcSIHQYCAgPwHRgRAIARBEHYgBUENdnJBgARBACAFG3JBgPgBciEJDAELIARBEHYhCSAHQYCAgLgETQRAIAdBgICAxANPBEAgGEEMdiAYQf/fAHFBAEdxIAdBDXYgBUENdmpBgIABaiAJcmohCQwCCyAHQYCAgJgDSQ0BIAVBgICABHIiBkH+ACAHQRd2IgVrdiEEIAZBHSAFayIFdkEBcQR/IARBAyAFdEEBayAGcUEAR2oFIAQLIAlyIQkMAQsgCUGA+AFyIQkLICMQxgW8IgZB////A3EhBSAGQYCAgIB4cSEEAkAgBkGAgID8B3EiB0GAgID8B0YEQCAEQRB2IAVBDXZyQYAEQQAgBRtyQYD4AXIhCgwBCyAEQRB2IQogB0GAgIC4BE0EQCAHQYCAgMQDTwRAIAZBDHYgBkH/3wBxQQBHcSAHQQ12IAVBDXZqQYCAAWogCnJqIQoMAgsgB0GAgICYA0kNASAFQYCAgARyIgZB/gAgB0EXdiIFa3YhBCAGQR0gBWsiBXZBAXEEfyAEQQMgBXRBAWsgBnFBAEdqBSAECyAKciEKDAELIApBgPgBciEKCyALQQRqIAlB//8DcSAKQRB0cjYCACAlEMYFvCIGQf///wNxIQUgBkGAgICAeHEhBAJAIAZBgICA/AdxIgdBgICA/AdGBEAgBEEQdiAFQQ12ckGABEEAIAUbckGA+AFyIQoMAQsgBEEQdiEKIAdBgICAuARNBEAgB0GAgIDEA08EQCAGQQx2IAZB/98AcUEAR3EgB0ENdiAFQQ12akGAgAFqIApyaiEKDAILIAdBgICAmANJDQEgBUGAgIAEciIGQf4AIAdBF3YiBWt2IQQgBkEdIAVrIgV2QQFxBH8gBEEDIAV0QQFrIAZxQQBHagUgBAsgCnIhCgwBCyAKQYD4AXIhCgsgJBDGBbwiBkH///8DcSEFIAZBgICAgHhxIQQCQCAGQYCAgPwHcSIHQYCAgPwHRgRAIARBEHYgBUENdnJBgARBACAFG3JBgPgBciEJDAELIARBEHYhCSAHQYCAgLgETQRAIAdBgICAxANPBEAgBkEMdiAGQf/fAHFBAEdxIAdBDXYgBUENdmpBgIABaiAJcmohCQwCCyAHQYCAgJgDSQ0BIAVBgICABHIiBkH+ACAHQRd2IgVrdiEEIAZBHSAFayIFdkEBcQR/IARBAyAFdEEBayAGcUEAR2oFIAQLIAlyIQkMAQsgCUGA+AFyIQkLIAtBCGogCkH//wNxIAlBEHRyNgIAIAtBDGogExDNBDYCACAXQQxqIRcgG0EDayEbIAhBA2ohCCAPQQFrIQ8gICAWQRBqIhZHDQEMBwsLIARBAWohBAwCCyAEQQJqIQQMAQsgBEEDaiEECyAEIBlByL/BABCMBwALIAAgASACIAMoAgAgFBDCBQsgDARAIAMoAgghBSAAIAEgAhDpBCACBEAgAkECdCEEIAAoAnhBDGohFSAAKAJ8IRogDCEIA0ACQAJAAkAgGiARQQNqSwRAIAhFDQIgBSARaigCACIQQf///wNxIQYgEEGAgICAeHEhDyAQQYCAgPwHcSISQYCAgPwHRgRAIA9BEHYgBkENdnJBgARBACAGG3JBgPgBciENDAQLIA9BEHYhDSASQYCAgLgESw0BIBJBgICAxANPBEAgEEEMdiAQQf/fAHFBAEdxIBJBDXYgBkENdmpBgIABaiANcmohDQwECyASQYCAgJgDSQ0DIAZBgICABHIiBkH+ACASQRd2Ig9rdiEQIAZBHSAPayIPdkEBcQR/IBBBAyAPdEEBayAGcUEAR2oFIBALIA1yIQ0MAwsgESARQQRqIBpByLPBABDqBwALIA1BgPgBciENDAELIAwgDEG4s8EAEIwHAAsgFSANQf//A3E2AgAgFUEQaiEVIAhBAWshCCAEIBFBBGoiEUcNAAsLIABBAToAwAELIAMoAhQiDARAIAAgASACIAMoAhAgDBCkAgsgAygCHCIMBEAgACABIAIgAygCGCAMEJ4CCyADKAIkIgxFDQAgACABIAIgAygCICAMEKAFCyAAQQE6AMABIAMoAjwhBCADKAI4IQ0gAygCNCEIIAMoAjAhDyADKAIsIgwEQCAAIAEgAiADKAIoIAwQ5gELIAgEQCAAIAEgAiAPIAgQpwELIAQEQCAAIAEgAiANIAQQlAELIAMoAkQiDARAIAAgASACIAMoAkAgDBC2BAsgAygCTCIMBEAgACABIAIgAygCSCAMELcECyATQRBqJAALuB0BBX8jAEEwayICJAACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAC0AAEEBaw4cAQIDBAUGBwgJCgsMDQ4PEBESExQVFhcYGRobHAALQQEhAyABKAIAIgRB86XHAEEHIAEoAgQiBigCDCIFEQAADRwgAEEEaiEAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0eIAAgARCuAkUNAQweCyAEQduBwgBBAiAFEQAADR0gAkEBOgAMIAIgBjYCGCACIAQ2AhQgAkHggcIANgIkIAIgASkCCDcCKCACIAJBDGo2AhwgAiACQRRqNgIgIAAgAkEgahCuAg0dIAIoAiBB2YHCAEECIAIoAiQoAgwRAAANHQsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDBwLQQEhAyABKAIAIgRB58nEAEEUIAEoAgQiBigCDCIFEQAADRsgAEEBaiEAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0dIAAgARDZAkUNAQwdCyAEQduBwgBBAiAFEQAADRwgAkEBOgAMIAIgBjYCGCACIAQ2AhQgAkHggcIANgIkIAIgASkCCDcCKCACIAJBDGo2AhwgAiACQRRqNgIgIAAgAkEgahDZAg0cIAIoAiBB2YHCAEECIAIoAiQoAgwRAAANHAsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDBsLQQEhAyABKAIAIgRB+8nEAEEUIAEoAgQiBigCDCIFEQAADRogAEEBaiEAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0cIAAgARDZAkUNAQwcCyAEQduBwgBBAiAFEQAADRsgAkEBOgAMIAIgBjYCGCACIAQ2AhQgAkHggcIANgIkIAIgASkCCDcCKCACIAJBDGo2AhwgAiACQRRqNgIgIAAgAkEgahDZAg0bIAIoAiBB2YHCAEECIAIoAiQoAgwRAAANGwsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDBoLIAEoAgBBj8rEAEEMIAEoAgQoAgwRAAAhAwwZC0EBIQMgASgCACIEQZvKxABBEiABKAIEIgYoAgwiBREAAA0YIABBAWohAAJAIAEtAApBgAFxRQRAIARBu7PFAEEBIAURAAANGiAAIAEQ2QJFDQEMGgsgBEHbgcIAQQIgBREAAA0ZIAJBAToADCACIAY2AhggAiAENgIUIAJB4IHCADYCJCACIAEpAgg3AiggAiACQQxqNgIcIAIgAkEUajYCICAAIAJBIGoQ2QINGSACKAIgQdmBwgBBAiACKAIkKAIMEQAADRkLIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwYCyABKAIAQa3KxABBDiABKAIEKAIMEQAAIQMMFwsgASgCAEG7ysQAQRkgASgCBCgCDBEAACEDDBYLIAEoAgBB1MrEAEEYIAEoAgQoAgwRAAAhAwwVCyABKAIAQezKxABBFiABKAIEKAIMEQAAIQMMFAsgASgCAEGCy8QAQQ0gASgCBCgCDBEAACEDDBMLIAEoAgBBj8vEAEERIAEoAgQoAgwRAAAhAwwSC0EBIQMgAiAAQQFqNgIMIAEoAgAiAEGgy8QAQRggASgCBCIFKAIMIgQRAAANEQJAIAEtAApBgAFxRQRAIABBu7PFAEEBIAQRAAANEyACQQxqIAEQxARFDQEMEwsgAEHbgcIAQQIgBBEAAA0SIAJBAToAEyACIAU2AhggAiAANgIUIAJB4IHCADYCJCACIAEpAgg3AiggAiACQRNqNgIcIAIgAkEUajYCICACQQxqIAJBIGoQxAQNEiACKAIgQdmBwgBBAiACKAIkKAIMEQAADRILIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwRC0EBIQMgAiAAQQFqNgIMIAEoAgAiAEG4y8QAQRQgASgCBCIFKAIMIgQRAAANEAJAIAEtAApBgAFxRQRAIABBu7PFAEEBIAQRAAANEiACQQxqIAEQxARFDQEMEgsgAEHbgcIAQQIgBBEAAA0RIAJBAToAEyACIAU2AhggAiAANgIUIAJB4IHCADYCJCACIAEpAgg3AiggAiACQRNqNgIcIAIgAkEUajYCICACQQxqIAJBIGoQxAQNESACKAIgQdmBwgBBAiACKAIkKAIMEQAADRELIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwQC0EBIQMgAiAAQQFqNgIMIAEoAgAiAEHMy8QAQRUgASgCBCIFKAIMIgQRAAANDwJAIAEtAApBgAFxRQRAIABBu7PFAEEBIAQRAAANESACQQxqIAEQxARFDQEMEQsgAEHbgcIAQQIgBBEAAA0QIAJBAToAEyACIAU2AhggAiAANgIUIAJB4IHCADYCJCACIAEpAgg3AiggAiACQRNqNgIcIAIgAkEUajYCICACQQxqIAJBIGoQxAQNECACKAIgQdmBwgBBAiACKAIkKAIMEQAADRALIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwPCyABKAIAQeHLxABBDCABKAIEKAIMEQAAIQMMDgsgASgCAEHty8QAQQ4gASgCBCgCDBEAACEDDA0LIAEoAgBB+8vEAEEOIAEoAgQoAgwRAAAhAwwMC0EBIQMgASgCACIEQYnMxABBDyABKAIEIgYoAgwiBREAAA0LIABBAWohAAJAIAEtAApBgAFxRQRAIARBu7PFAEEBIAURAAANDSAAIAEQqwNFDQEMDQsgBEHbgcIAQQIgBREAAA0MIAJBAToADCACIAY2AhggAiAENgIUIAJB4IHCADYCJCACIAEpAgg3AiggAiACQQxqNgIcIAIgAkEUajYCICAAIAJBIGoQqwMNDCACKAIgQdmBwgBBAiACKAIkKAIMEQAADQwLIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwLCyABKAIAQZjMxABBESABKAIEKAIMEQAAIQMMCgtBASEDIAIgAEEBajYCDCABKAIAIgBBqczEAEERIAEoAgQiBSgCDCIEEQAADQkCQCABLQAKQYABcUUEQCAAQbuzxQBBASAEEQAADQsgAkEMaiABEMQERQ0BDAsLIABB24HCAEECIAQRAAANCiACQQE6ABMgAiAFNgIYIAIgADYCFCACQeCBwgA2AiQgAiABKQIINwIoIAIgAkETajYCHCACIAJBFGo2AiAgAkEMaiACQSBqEMQEDQogAigCIEHZgcIAQQIgAigCJCgCDBEAAA0KCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMCQtBASEDIAEoAgAiBEG6zMQAQRkgASgCBCIGKAIMIgURAAANCCAAQQFqIQACQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQogACABEKcERQ0BDAoLIARB24HCAEECIAURAAANCSACQQE6AAwgAiAGNgIYIAIgBDYCFCACQeCBwgA2AiQgAiABKQIINwIoIAIgAkEMajYCHCACIAJBFGo2AiAgACACQSBqEKcEDQkgAigCIEHZgcIAQQIgAigCJCgCDBEAAA0JCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMCAtBASEDIAEoAgAiBEHTzMQAQRogASgCBCIGKAIMIgURAAANByAAQQFqIQACQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQkgACABEKcERQ0BDAkLIARB24HCAEECIAURAAANCCACQQE6AAwgAiAGNgIYIAIgBDYCFCACQeCBwgA2AiQgAiABKQIINwIoIAIgAkEMajYCHCACIAJBFGo2AiAgACACQSBqEKcEDQggAigCIEHZgcIAQQIgAigCJCgCDBEAAA0ICyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMBwtBASEDIAEoAgAiBEHtzMQAQRsgASgCBCIGKAIMIgURAAANBiAAQQFqIQACQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQggACABEKcERQ0BDAgLIARB24HCAEECIAURAAANByACQQE6AAwgAiAGNgIYIAIgBDYCFCACQeCBwgA2AiQgAiABKQIINwIoIAIgAkEMajYCHCACIAJBFGo2AiAgACACQSBqEKcEDQcgAigCIEHZgcIAQQIgAigCJCgCDBEAAA0HCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMBgsgASgCAEGIzcQAQRYgASgCBCgCDBEAACEDDAULQQEhAyABKAIAIgRBns3EAEESIAEoAgQiBigCDCIFEQAADQQCQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQYgACgCCCAAKAIMIAEQtQJFDQEMBgsgBEHbgcIAQQIgBREAAA0FIAJBAToADCACIAY2AhggAiAENgIUIAJB4IHCADYCJCACIAEpAgg3AiggAiACQQxqNgIcIAIgAkEUaiIENgIgIAAoAgggACgCDCACQSBqELUCDQUgBEHZgcIAQQIQrwMNBQsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDAQLQQEhAyABKAIAIgRBsM3EAEEQIAEoAgQiBigCDCIFEQAADQMCQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQUgACgCCCAAKAIMIAEQtQJFDQEMBQsgBEHbgcIAQQIgBREAAA0EIAJBAToADCACIAY2AhggAiAENgIUIAJB4IHCADYCJCACIAEpAgg3AiggAiACQQxqNgIcIAIgAkEUaiIENgIgIAAoAgggACgCDCACQSBqELUCDQQgBEHZgcIAQQIQrwMNBAsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDAMLIAEoAgBBwM3EAEETIAEoAgQoAgwRAAAhAwwCCyABKAIAQdPNxABBECABKAIEKAIMEQAAIQMMAQsgASgCAEHjzcQAQQwgASgCBCgCDBEAACEDCyACQTBqJAAgAwveGQMmfwp7BX4jAEEgayIIJAAgAC8BJCIEQQ9qIgtB8P8DcSEFIAtB8P8HcSEMIAAoAiAhCSAAKAIcIRIgACgCFCEGIAAoAhAhEyAAKAIIIQcgACgCBCEUAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAMEQCAMQf//A3EiDEUNASAJIAVBAXYiCnAhACAGIApwIQMgBEUNAiAHIAVuIgcgAiAEQQJ0IhduIgIgAiAHSxsiJkUNEiAJIABrIRggBiADayEZIAQgDEsNESAEQQFxIScgCq0hNiAXQQhrQQN2IgAgBEEBdiICIAAgAkkbIgAgBCACa0H//wNxIhAgACAQSRsiIUF/cyAhQQFqIgBBA3EiAkEEIAIbIgJqISIgBEH+/wNxIhogACACayIdQQF0IihrISMgF0H4/w9xIhUgHUEDdCIpayEkIAEhDCAUIRFBACEHQQAhCQNAAn4gCUUgNEKAgICAEFRyRQRAIDSnIQQgNEKAgICAcINCgICAgBB9DAELIAogGUsNFCAZIAprIRkgNiE0IBMiCSAKIgRqIRNCgICAgBALITcCfiAHRSA1QoCAgIAQVHJFBEAgNachACA1QoCAgIBwg0KAgICAEH0MAQsgCiAYSw0UIBggCmshGCA2ITUgEiIHIAoiAGohEkKAgICAEAshOCAEIBBJDQQgACAQSQ0FIBQgBSAbbGohHCABIBcgG2xqIR4gNEL/////D4MgNUL/////D4MhNSAJIBBqISUgByELIAkhDQJAAkAgFUUNACAVIQYgHiEAIBohBCAcIQ4gIUEETwRAIA4gKGohDiAHIB1qIQsgCSAdaiENIAAgKWohACAJIQMgByEPICIhAiAMIQQgESEGA0AgBEEYaiAP/VwAAP2JAf2pASIv/QwlZgAAJWYAACVmAAAlZgAA/bUBQQj9rQH9DGbI//9myP//Zsj//2bI///9rgEiMCAG/V0AACItICv9DQACBAYAAAAAAAAAAAAAAAD9iQH9qQH9DIVKAACFSgAAhUoAAIVKAAAiMf21AUEI/a0BIi79rgFBBv2sAf0MAAAAAAAAAAAAAAAAAAAAACIr/bgB/Qz/AAAA/wAAAP8AAAD/AAAAIiz9tgEiKv0bAzoAACAEQRBqICr9GwI6AAAgBEEIaiAq/RsBOgAAIAQgKv0bADoAACAEQRpqIC4gA/1cAAD9iQH9qQEiMv0MGoEAABqBAAAagQAAGoEAAP21AUEI/a0B/Qzruv//67r//+u6///ruv///a4BIjP9rgFBBv2sASAr/bgBICz9tgEiKv0bAzoAACAEQRJqICr9GwI6AAAgBEEKaiAq/RsBOgAAIARBAmogKv0bADoAACAEQRxqIC0gK/0NAQMFBwAAAAAAAAAAAAAAAP2JAf2pASAx/bUBQQj9rQEiLSAw/a4BQQb9rAEgK/24ASAs/bYBIir9GwM6AAAgBEEUaiAq/RsCOgAAIARBDGogKv0bAToAACAEQQRqICr9GwA6AAAgBEEZaiAuIC/9DAg0AAAINAAACDQAAAg0AAD9tQFBCP2tASAy/QwTGQAAExkAABMZAAATGQAA/bUBQQj9rQH9rgEiLv2xAf0MBCIAAAQiAAAEIgAABCIAACIv/a4BQQb9rAEgK/24ASAs/bYBIir9GwM6AAAgBEERaiAq/RsCOgAAIARBCWogKv0bAToAACAEQQFqICr9GwA6AAAgBEEdaiAtIC79sQEgL/2uAUEG/awBICv9uAEgLP22ASIq/RsDOgAAIARBFWogKv0bAjoAACAEQQ1qICr9GwE6AAAgBEEFaiAq/RsAOgAAIARBHmogLSAz/a4BQQb9rAEgK/24ASAs/bYBIiv9GwM6AAAgBEEWaiAr/RsCOgAAIARBDmogK/0bAToAACAEQQZqICv9GwA6AAAgA0EEaiEDIA9BBGohDyAEQSBqIQQgBkEIaiEGIAJBBGoiAg0ACyAkIQYgIyEECwNAIARFDQEgDSAlRg0CIABBAmpB/wEgDi0AAEGFlQFsQQh2IgIgDS0AACIPQZqCAmxBCHZBlYoBayIDakEGdSIfQQAgH0EAShsiHyAfQf8BThs6AAAgAEH/ASALLQAAIh9BpcwBbEEIdkGa7wBrIiAgAmpBBnUiFkEAIBZBAEobIhYgFkH/AU4bOgAAIABBBmpB/wEgAyAOQQFqLQAAQYWVAWxBCHYiA2pBBnUiFkEAIBZBAEobIhYgFkH/AU4bOgAAIABBBGpB/wEgAyAgakEGdSIgQQAgIEEAShsiICAgQf8BThs6AAAgAEEBakH/ASACIB9BiOgAbEEIdiAPQZMybEEIdmoiAmtBhMQAakEGdSIPQQAgD0EAShsiDyAPQf8BThs6AAAgAEEFakH/ASADIAJrQYTEAGpBBnUiAkEAIAJBAEobIgIgAkH/AU4bOgAAIABBCGohACAOQQJqIQ4gC0EBaiELIA1BAWohDSAEQQJrIQQgBkEIayIGDQALCyAnRSALIAcgEGpGciANICVGcg0AIBUgHmoiAEH/ASAaIBxqLQAAQYWVAWxBCHYiAiANLQAAIgNBmoICbEEIdmpBlYoBa0EGdSIEQQAgBEEAShsiBCAEQf8BThs6AAIgAEH/ASACIAstAAAiBEGlzAFsQQh2akGa7wBrQQZ1IgZBACAGQQBKGyIGIAZB/wFOGzoAACAAQf8BIAIgA0GTMmxBCHYgBEGI6ABsQQh2amtBhMQAakEGdSIAQQAgAEEAShsiACAAQf8BThs6AAELIDeEITQgNSA4hCE1IAwgF2ohDCAFIBFqIREgG0EBaiIbICZJDQALDBILIAQgB0sNBCAEIARBAXZrIgMgBksNBSADIAlLDQYgAiAEQQJ0IgpJDQcgAC8BJiEVIAEgCiAUIAQgEyADIBIgAxBuIARFDQggAiAKayICIARBA3QiDXAhDyAFIBVsIgAgBUkgACAHS3INCSAMQf//A3EiDEUNCiAFQQF2IQcgASAKaiEaIAAgBWsiACAAIAVBAXQiEXAiHmshACAFIBRqIRwCQCACIA9rIiIgDUkNACAEIAxLBEAgBSAJSyAFIAZLciAAIBFJcg0BQQAgBCAFQejpxAAQ6gcACyADIAdLBEAgBSAJSyAFIAZLciAAIBFJcg0BQQAgAyAHQdjpxAAQ6gcACyAAIBFJIAUgBktyIAUgCUtyIQIgBSAHayIMIANJBEAgAg0BQQAgAyAMQcjpxAAQ6gcACyACDQAgGiAKIBwgBCATIAMgByATaiIjIAMgEiADIAcgEmoiJCADEGYgCiAaaiAKIAUgHGogBCAjIAMgEyADICQgAyASIAMQZiAiIA1rIgwgDUkNACAHQQFrIRAgBiAHayEXIAUgE2ohGCAEQQR0IRkgBEEMbCEbIAUgEmohHSALQfD/A3FBBHYiAkEGdCEhIAJBMGwhJUEAIQsgACECA0AgAiARayICIBFJIAYgC2pBAWsgEElyIAsgF2ogBUkgCSALakEBayAQSXJyDQEgCSALIAdrIgtqIAVJDQEgASAbaiAKIBQgJWogBCAOICNqIiYgAyAOIBhqIicgAyAOICRqIiggAyAOIB1qIikgAxBmIAEgGWogCiAUICFqIAQgJyADICYgAyApIAMgKCADEGYgESAUaiEUIAEgDWohASAHIA5qIQ4gDCANayIMIA1PDQALCyAPRQ0RIAYgFUEBcSAVQQF2akEBayAHbCIBSQ0LIAEgCUsNDCAEIB5LDQ0gAyAGIAFrIgJLDQ4gAyAJIAFrIgJLDQ8gGiAiaiAPIAAgHGogBCABIBNqIAMgASASaiADEG4MEQsgCEEANgIYIAhBATYCDCAIQbyhxwA2AgggCEIENwIQIAhBCGpByOrEABCNCAALIAhBADYCGCAIQQE2AgwgCEG8occANgIIIAhCBDcCECAIQQhqQdjqxAAQjQgAC0EAIBAgBEH46sQAEOoHAAtBACAQIABB6OrEABDqBwALQQAgBCAHQbjqxAAQ6gcAC0EAIAMgBkGo6sQAEOoHAAtBACADIAlBmOrEABDqBwALQQAgCiACQYjqxAAQ6gcACyAIQQA2AhggCEEBNgIMIAhBvKHHADYCCCAIQgQ3AhAgCEEIakHY6MQAEI0IAAsgBSAAIAdB+OnEABDqBwALIAhBADYCGCAIQQE2AgwgCEG8occANgIIIAhCBDcCECAIQQhqQejoxAAQjQgACyABIAYgBkG46cQAEOoHAAsgASAJIAlBqOnEABDqBwALQQAgBCAeQZjpxAAQ6gcAC0EAIAMgAkGI6cQAEOoHAAtBACADIAJB+OjEABDqBwALIAogGUsgCiAYS3INAEEAIAQgBUGI68QAEOoHAAsgCEEgaiQAC50YBCB/AX0BewF+IwBBsMAAayIHJAACQAJAAkAgAiADQf8BcUECdCIFKAKAhUlwRQRAQQEhCCACIAUoApCFSW5BAnQiDARAAkAgDEEATgRAIAdBADYCtCAgB0EwakEBIAwgB0GwIGoQhQcgBygCMEEBRw0BIAcoAjghCCAHKAI0IQQLIAcgCDYCtCAgByAENgKwIEHgvsQAQTYgB0GwIGpB0L7EAEGYv8QAEOAGAAsgBygCNCEICyAHQQA2AiwgByAINgIoIAcgDDYCJAJAAkAgA0H/AXFBAWsOAwMBAQALIAJBA24iBUECdCIOBEAgDCAOSQRAIAdBJGpBACAOEO8FIAcoAighCCAHKAIsIQQLIAQgCGohAyAOQQFrIgIEQCADQQAgAvwLAAsgAiADakEAOgAAIAQgDmohBAsgByAENgIsIARBAnYiAiAFIAIgBUkbIgJFDQNBACEFIAJBAUcEQCACQQFxIAJB/v///wNxIQIgCCEGIAEhBANAIAZBA2pB/wE6AAAgBiAELwAAOwAAIAZBAmogBEECai0AADoAACAGQQdqQf8BOgAAIAZBBmogBEEFai0AADoAACAGQQRqIARBA2ovAAA7AAAgBkEIaiEGIARBBmohBCACIAVBAmoiBUcNAAtFDQQLIAggBUECdGoiAkH/AToAAyACIAEgBUEDbGoiAS0AAjoAAiACIAEvAAA7AAAMAwsgB0EQaiAHQSxqKAIANgIAIAcgBykCJDcDCCAHQbAgahDuAiAHKAKwIEUEQCAHQSRqQQEQ0QkLAkAgAiADQf8BcUECdCgCoIVJbkECdCIRIAcoAhAiBk0EQCAHKAIMIRIMAQsgESAGayIFIAcoAgggBmtLBEAgB0EIaiAGIAUQ7wUgBygCECEGCyAHKAIMIhIgBmohBCAFQQJPBH8gBUEBayIFBEAgBEEAIAX8CwALIBIgBSAGaiIGagUgBAtBADoAACAGQQFqIRELIAcgETYCEAJ/An8CQAJAAkACQCADQf8BcUEBaw4DAQIDAAsgB0EwakEAQYAg/AsAIAdBsCBqQQBBgCD8CwAgAkEDbiENQQEhHkEDDAQLIAdBMGpBAEGAIPwLACAHQbAgakEAQYAg/AsAIAJBAnYMAgsgB0EwakEAQYAg/AsAIAdBsCBqQQBBgCD8CwBBASEeIAIhDUEDDAILIAdBMGpBAEGAIPwLACAHQbAgakEAQYAg/AsAIAJBAXYLIQ1BBAshFgJAAkACQCANBEAgDUEIdiANQf8BcUEAR2oiBEEBayIFQQAgBCAFTxshBiABIRcgASEYIAEhDCABIQ5BgAIhGgNAIAYhHyAWIA0gGiANIBpJGyITIBRBCHRrIghsIhVB//8DcUEDbiEGIBYgEyAgamxB//8DcUEDbiEEAkACQAJAAkAgDSAPQYACaiIFIAUgDUsbIhAgD2siGyAWbCILQYEISQRAIBNBAnQhHCAWIBMgIWoiHWwhCQJAAkACQAJAAkACQAJAIANB/wFxQQFrDgMBBQIACyAQQQNsIgQgD0EDbCIFTyACIARPcQ0CIAUgBCACQfi8xAAQ6gcACyAQQQJ0IgQgD0ECdCIFTyACIARPcQ0CIAUgBCACQYi9xAAQ6gcACyAQQQF0IgUgD0EBdCIKTyACIAVPcQ0DIAogBSACQdi9xAAQ6gcACyALIAQgBWsiBSAFIAtLG0UNByAJICIgE0EDbCIEaiIFIAUgCUsbIQpBACEGIBUgFEGAemwgBGoiBSAFIBVLGyIJQQRPBEAgCkF8cSEIIAlBfHEhBiAHQTBqIQQgFyEFA0AgBCAF/VwAAP2JAf2pAf37Af0MgYCAO4GAgDuBgIA7gYCAO/3mAf0LAgAgBUEEaiEFIARBEGohBCAIQQRrIggNAAsgBiAJRg0ICyAHQTBqIAZBAnRqIQQDQCAEIAYgF2otAACzQ4GAgDuUOAIAIARBBGohBCAKIAZBAWoiBkcNAAsMBwsgCyAEIAVrIgUgBSALSxtFDQYgCSAZIBxqIgUgBSAJSxshCkEAIQYgFSAcIBRBCnRrIgUgBSAVSxsiCUEETwRAIApBfHEhCCAJQXxxIQYgB0EwaiEEIBghBQNAIAQgBf1cAAD9iQH9qQH9+wH9DIGAgDuBgIA7gYCAO4GAgDv95gH9CwIAIAVBBGohBSAEQRBqIQQgCEEEayIIDQALIAYgCUYNBwsgB0EwaiAGQQJ0aiEEA0AgBCAGIBhqLQAAs0OBgIA7lDgCACAEQQRqIQQgCiAGQQFqIgZHDQALDAYLIA8gEEsNAiALQf//A3FBA24iBSAbIAUgG0kbRQ0FIAQgHSAEIB1JGyEKQQAhBCAGIAggBiAISRsiCUEETwRAIApB/P8BcSEIIAlB/P8BcSEEIAdBMGohBiAMIQUDQCAGIAX9XAAA/YkB/akB/fsB/QyBgIA7gYCAO4GAgDuBgIA7/eYBIiUgJf0NCAkKCwwNDg8MDQ4PDA0OD/0LAiAgBiAlICX9DQQFBgcEBQYHCAkKCwgJCgv9CwIQIAYgJSAl/Q0AAQIDAAECAwABAgMEBQYH/QsCACAFQQRqIQUgBkEwaiEGIAhBBGsiCA0ACyAEIAlGDQYLIAdBMGogBEEMbGohBgNAIAZBCGogBCAMai0AALNDgYCAO5QiJDgCACAGQQRqICQ4AgAgBiAkOAIAIAZBDGohBiAKIARBAWoiBEcNAAsMBQsgC0ECdiIEIAUgCmtBAXYiBSAEIAVJG0UNBEEAIQUgFUECdiIGIBNBAXQiCCAUQQl0a0EBdiIEIAQgBksbIgZBAUYNAyAJQQJ2IgQgCCAjakEBdiIFIAQgBUkbQf7///8DcSEJIAZBAXEhCEEAIQUgB0EwaiEGIA4hBANAIAYgBP1cAAD9iQH9qQH9+wH9DIGAgDuBgIA7gYCAO4GAgDv95gEiJSAl/Q0ICQoLCAkKCwgJCgsMDQ4P/QsCECAGICUgJf0NAAECAwABAgMAAQIDBAUGB/0LAgAgBEEEaiEEIAZBIGohBiAJIAVBAmoiBUcNAAsMAgtBACALQYAIQei9xAAQ6gcACyAPIBAgAkGYvcQAEOoHAAsgCEUNAQsgB0EwaiAFQQR0aiIEIAEgCmogBUEBdGoiBS0AALNDgYCAO5QiJDgCCCAEICQ4AgQgBCAkOAIAIAQgBS0AAbNDgYCAO5Q4AgwLAn8gHkUEQCAbQQJ0IgQgC0sNBSAHQTBqDAELIAtB//8DcUEDbiEFAkAgC0EDSQ0AQYACIAUgBUGAAk8bIQlBASEFIAdBsCBqIQYgB0EwaiEEA0AgBiAEKgIAOAIAIAZBDGpBgICA/AM2AgAgBkEEaiAEQQRqKQIANwIAIAUgHUYNASAEQQxqIQQgBkEQaiEGIAUgCUkgBUEBaiEFDQALCyAbQQJ0IgRBgQhPDQMgB0GwIGoLIQYgEEECdCIIIBFLIAggD0ECdCIFSXINBCAIIAVrIgUgBCAEIAVLGwRAQQAgHGshBSASIQQDQCAEQf8BIAYqAgBDAAB/Q5QQuQciJPwBQQAgJEMAAAAAYBsgJEMAAH9DXhs6AAAgBEEBakH/ASAGQQRqKgIAQwAAf0OUELkHIiT8AUEAICRDAAAAAGAbICRDAAB/Q14bOgAAIARBAmohBCAGQQhqIQYgGSAFQQJqIgVHDQALCyASQYAIaiESIBdBgAZqIRcgIkGABmshIiAYQYAIaiEYIBlBgAhrIRkgDEGAAmohDCAgQYACayEgICNBgARrISMgIUGAAmshISAOQYAEaiEOIBRBAWohFCAfQQFrIQYgGiIPQYACaiEaIB8NAAsLIAAgBykDCDcCACAAQQhqIAdBEGooAgA2AgAMBgtBACAEQYAIQai9xAAQ6gcAC0EAIAQgC0HIvcQAEOoHAAsgBSAIIBFBuL3EABDqBwALQfi9xABBxQBBwL7EABDrBwALIAcCfwJAIAIgDEsEQCAHQSRqQQAgAhDvBSAHKAIoIQggBygCLCEGDAELQQAgAkUNARoLIAIEQCAGIAhqIAEgAvwKAAALIAIgBmoLNgIsCyAHQSBqIAdBLGooAgAiATYCACAHIAcpAiQiJjcDGCAAQQhqIAE2AgAgACAmNwIACyAHQbDAAGokAAuOHgINfwF+IwBBsAFrIgIkACABKAIMIQcCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCABKAIUIgQgASgCECIGSQRAIAFBDGohBQNAAkACQCAEIAdqLQAAIgNBCWsOJQEBCwsBCwsLCwsLCwsLCwsLCwsLCwsLAQsICwsLCwsLCwsLCwcACyADQdsAaw4hCAoKCgoKCgoKCgoFCgoKCgoKCgMKCgoKCgQKCgoKCgoJCgsgASAEQQFqIgQ2AhQgBCAGRw0ACyAGIQQLIAJBCGogByAGIARBAWoiASAGIAEgBkkbEPkBIAIoAgwhAyACKAIIIQVBFBBxIgFFDRsgASAFNgIMIAFBBTYCACAAIAE2AgQgAEGVgICAeDYCACABIAM2AhAMGgsgASAEQQFqIgU2AhQCQCAFIAZPDQAgASAEQQJqIgM2AhQgBSAHai0AAEH1AEcNGCADIAUgBiAFIAZLGyIFRg0AIAEgBEEDaiIJNgIUIAMgB2otAABB7ABHBEAgCSEDDBkLIAUgCUYNACABIARBBGoiAzYCFCAHIAlqLQAAQewARw0YIABCkoCAgAg3AwAMGgsgAkEQaiAHIAYgBRD5ASACKAIUIQEgAigCECEDQRQQcSIERQ0aIARBBTYCAAwYCyABIARBAWoiBTYCFAJAIAUgBk8NACABIARBAmoiAzYCFCAFIAdqLQAAQfIARw0VIAMgBSAGIAUgBksbIgVGDQAgASAEQQNqIgk2AhQgAyAHai0AAEH1AEcEQCAJIQMMFgsgBSAJRg0AIAEgBEEEaiIDNgIUIAcgCWotAABB5QBHDRUgAEKAgICAGDcDAAwZCyACQSBqIAcgBiAFEPkBIAIoAiQhASACKAIgIQNBFBBxIgRFDRkgBEEFNgIADBULIAEgBEEBaiIFNgIUAkAgBSAGTw0AIAEgBEECaiIDNgIUIAUgB2otAABB4QBHDRIgAyAFIAYgBSAGSxsiBUYNACABIARBA2oiCTYCFCADIAdqLQAAQewARwRAIAkhAwwTCyAFIAlGDQAgASAEQQRqIgg2AhQgByAJai0AAEHzAEcEQCAIIQMMEwsgBSAIRg0AIAEgBEEFaiIDNgIUIAcgCGotAABB5QBHDRIgAEKAgICACDcDAAwYCyACQTBqIAcgBiAFEPkBIAIoAjQhASACKAIwIQNBFBBxIgRFDRggBEEFNgIADBILIAEgBEEBajYCFCACQeAAaiABQQAQxwMgAikDYCIPQgNRDQ8gACACKQNoNwMIIABBADYCBCAAIA+nQQJ0KALM60E2AgAMFgsgAUEANgIIIAEgBEEBajYCFCACQeAAaiAFIAEQggIgAigCZCEFIAIoAmAiA0ECRg0NIAIoAmghASADQQFxRQ0EIAFBAEgNAwJAIAFFBEBBASEDDAELIAEQcSIDRQ0XCyABBEAgAyAFIAH8CgAACyAAIAE2AgwgACADNgIIIAAgATYCBCAAQYyAgIB4NgIADBULIAEgAS0AGEEBayIFOgAYIARBAWohAyAFQf8BcUUNCyABIAM2AhQgAkEBOgCUASACIAE2ApABIAJCgICAgIABNwKgAUEAIQRBCCEDQQghBgJAA0ACQCACIAQ2AqgBIAJB4ABqIAJBkAFqEJ8DAkACQCACLQBgQQFGBEAgAigCZCEFDAELIAItAGFBAUcNAiACQeAAaiACKAKQARCCASACKAJkIQUgAigCYCIMQZWAgIB4Rw0BCyACKAKkASEGIAQEQCAGIQMDQCADEP4CIANBEGohAyAEQQFrIgQNAAsLQZWAgIB4IQRBASEJIAIoAqABIgNFDQMgBkEEaygCACIIQXhxIgcgA0EEdCIDQQRBCCAIQQNxIggbckkNCCAIQQAgByADQSdqSxsNCSAGEKICDAMLIAIpA2ghDyACKAKgASAERgRAIwBBIGsiBiQAAkACQCACQaABaiIIKAIAIgdB////P0sNAEEEIAdBAXQiDSANQQRNGyINQQR0Ig5B+P///wdLDQAgBiAHBH8gBiAHQQR0NgIcIAYgCCgCBDYCFEEIBUEACzYCGCAGQQhqQQggDiAGQRRqEIUHIAYoAghBAUcNASAGKAIQIQogBigCDCELCyALIApBxKLBABCTCQALIAYoAgwhByAIIA02AgAgCCAHNgIEIAZBIGokACACKAKkASEGCyADIAZqIgggDzcCACAIQQRrIAU2AgAgCEEIayAMNgIAIANBEGohAyAEQQFqIQQMAQsLQZSAgIB4IQQgAikCpAEhDyACKAKgASEFCyABIAEtABhBAWo6ABggAiABELoDIgM2AnAgAiAPNwNoIAIgBTYCZCACIAQ2AmACQAJAIAlFBEAgAw0BIA9CIIinIQMgD6chCQwMC0GVgICAeCEEIANFDQEgAkHwAGoQsQQMAQsgAkHgAGoQ/gJBlYCAgHghBCADIQULDAkLIAEgAS0AGEEBayIFOgAYIARBAWohAyAFQf8BcUUNByABIAM2AhQgAkEBOgCAASACIAE2AnwgAkEANgKMASACQoCAgICAATcChAFBCCEFA0AgAkHgAGogAkH8AGoQ0QICQAJAIAItAGBBAUYEQCACKAJkIQYMAQsgAi0AYUUEQCAJrSEPIAIoAoQBIQQMCgsgAigCfCIIQQA2AgggCCAIKAIUQQFqNgIUIAJB4ABqIAhBDGogCBCCAiACKAJkIQYgAigCYCIDQQJGDQAgAigCaCEEAn8gA0EBcQRAIARBAEgNCgJAIARFBEBBASEDDAELIAQQcSIDRQ0aCyAEBEAgAyAGIAT8CgAACyAEIQZBjICAgHgMAQsgBCEDQY2AgIB4CyELIAIgBDYCrAEgAiADNgKoASACIAY2AqQBIAIgCzYCoAEgCCgCDCEHAkACQAJAIAgoAhQiBCAIKAIQIgNJBEADQAJAIAQgB2otAABBCWsOMgAAAwMAAwMDAwMDAwMDAwMDAwMDAwMDAAMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMEAwsgCCAEQQFqIgQ2AhQgAyAERw0ACyADIQQLIAJB2ABqIAcgAyAEQQFqIgUgAyADIAVLGxD5ASACKAJcIQMgAigCWCEFQRQQcSIGRQ0aIAYgBTYCDCAGQQM2AgAgBiADNgIQDAILIAJB0ABqIAcgAyAEQQFqIgUgAyADIAVLGxD5ASACKAJUIQMgAigCUCEFQRQQcSIGRQ0ZIAYgBTYCDCAGQQY2AgAgBiADNgIQDAELIAggBEEBajYCFCACQeAAaiAIEIIBIAIoAmBBlYCAgHhHDQIgAigCZCEGCyACQaABahD+AgsgAigCiAEhAyAJBEAgAyEEA0AgBBD+AiAEQRBqEP4CIARBIGohBCAJQQFrIgkNAAsLQZWAgIB4IQQgAigChAEiBUUEQCAGIQUMCQsgAyAFQQV0QQgQogcgBiEFDAgLIAIgAv0AA2D9CwOQASACKQOoASEPIAIoAoQBIAlGBEBBACEIQQAhByMAQSBrIgMkAAJAAkAgAkGEAWoiBSgCACIEQf///x9LDQBBBCAEQQF0IgogCkEETRsiCkEFdCIMQfj///8HSw0AIAMgBAR/IAMgBEEFdDYCHCADIAUoAgQ2AhRBCAVBAAs2AhggA0EIakEIIAwgA0EUahCFByADKAIIQQFHDQEgAygCECEHIAMoAgwhCAsgCCAHQbSiwQAQkwkACyADKAIMIQQgBSAKNgIAIAUgBDYCBCADQSBqJAAgAigCiAEhBQsgBSAJQQV0aiIDIA83AgggAyAGNgIEIAMgCzYCACADIAL9AAOQAf0LAhAgAiAJQQFqIgk2AowBDAALAAsgA0Ewa0H/AXFBCk8EQCACIAcgBiAEQQFqIgMgBiADIAZJGxD5ASACKAIEIQMgAigCACEEQRQQcSIFRQ0UIAUgBDYCDCAFQQo2AgAgBSADNgIQDAkLIAJB4ABqIAFBARDHAyACKQNgIg9CA1EEQCAAIAIoAmg2AgQgAEGVgICAeDYCAAwTCyAAIAIpA2g3AwggAEEANgIEIAAgD6dBAnQoAszrQTYCAAwSC0HYmsgAEP8HAAsgACABNgIIIAAgBTYCBCAAQY2AgIB4NgIADBALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HYmsgAEP8HAAsgASABLQAYQQFqOgAYIAIgARDiBCIDNgJwIAIgBTYCZCACIAQ2AmAgAiAPNwNoAkACQCAEQZWAgIB4RwRAIAMNASAPQiCIpyEDIA+nIQkMBAsgAw0BQZWAgIB4IQQgD6chCQwDCyACQeAAahD+AkGVgICAeCEEIAMhBSAPpyEJDAILIAJB8ABqELEEQZWAgIB4IQQgD6chCQwBCyACQcgAaiAHIAYgAyAGIAMgBkkbEPkBIAIoAkwhAyACKAJIIQVBFBBxIgFFDQwgASAFNgIMIAFBGDYCACAAIAE2AgQgAEGVgICAeDYCACABIAM2AhAMCwsgBEGVgICAeEYNACAAIAM2AgwgACAJNgIIIAAgBTYCBCAAIAQ2AgAMCgsgBSABEOsFIQEgAEGVgICAeDYCACAAIAE2AgQMCQsgAkFAayAHIAYgAyAGIAMgBkkbEPkBIAIoAkQhAyACKAJAIQVBFBBxIgFFDQkgASAFNgIMIAFBGDYCACAAIAE2AgQgAEGVgICAeDYCACABIAM2AhAMCAsgAEGVgICAeDYCACAAIAU2AgQMBwsgACACKAJoNgIEIABBlYCAgHg2AgAMBgsgAkE4aiAHIAYgAxD5ASACKAI8IQEgAigCOCEDQRQQcSIERQ0GIARBCTYCAAsgBCADNgIMIAAgBDYCBCAAQZWAgIB4NgIAIAQgATYCEAwECyACQShqIAcgBiADEPkBIAIoAiwhASACKAIoIQNBFBBxIgRFDQQgBEEJNgIACyAEIAM2AgwgACAENgIEIABBlYCAgHg2AgAgBCABNgIQDAILIAJBGGogByAGIAMQ+QEgAigCHCEBIAIoAhghA0EUEHEiBEUNAiAEQQk2AgALIAQgAzYCDCAAIAQ2AgQgAEGVgICAeDYCACAEIAE2AhALIAJBsAFqJAAPCwAL2xoDE38GfQF+IwBBsAFrIgIkAAJAAkACQAJAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAIAEoAhQiAyABKAIQIgRJBEAgASgCDCEGAn4CQANAIAMgBmotAAAiBUEJayIHQRdLQQEgB3RBk4CABHFFcg0BIAEgA0EBaiIDNgIUIAMgBEcNAAsgBCEDQgAMAQtCgAILIAWtQhCGhEKAgrgDUQ0BCwJAIAJBKGogASgCDCIHIAQgAyAESQR/A0AgAyAHai0AACIIQQlrIgVBF0tBASAFdEGTgIAEcUVyDQIgASADQQFqIgM2AhQgAyAERw0ACyAEBSADC0EBaiIBIAQgASAESRsQ+QEgAigCLCEBIAIoAighBEEUEHEiAw0CDBALAkAgCEHbAEcEQCAIQfsARg0BIAEgAkGvAWpBmMHBABDuASEFDA4LIAEgAS0AGEEBayIFOgAYIANBAWohAyAFQf8BcUUNCyABIAM2AhQgAiABNgKkASACQQE6AKgBIAJB5ABqIAJBpAFqEJ8DIAItAGRBAUYEQCACKAJoIQRBAiEDDAoLAkACQAJAAkACQAJAAkACQAJAAkACQCACLQBlQQFGBEAgAkHkAGogAigCpAEQ0gIgAigCZCIFQQJGBEAgAigCaCEEQQIhAwwWCyACKAJoIQ8gAkHkAGogAkGkAWoQnwMgAi0AZEEBRgRAIAIoAmghBEECIQMMFgsgAi0AZUEBRw0CIAJB5ABqIAIoAqQBENICIAIoAmQiB0ECRw0BIAIoAmghBEECIQMMFQtBAEGMg8EAQYD9wAAQ2wYhBEECIQMMFAsgAioCaCEVIAJB5ABqIAJBpAFqEJ8DIAItAGRBAUYEQCACKAJoIQRBAiEDDBQLIAItAGVBAUcNAiACQeQAaiACKAKkARDSAiACKAJkIghBAkcNASACKAJoIQRBAiEDDBMLQQFBjIPBAEGA/cAAENsGIQRBAiEDDBILIAIqAmghFiACQeQAaiACQaQBahCfAyACLQBkQQFGBEAgAigCaCEEQQIhAwwSCyACLQBlQQFHDQIgAkHkAGogAigCpAEQ0gIgAigCZCIQQQJHDQEgAigCaCEEQQIhAwwRC0ECQYyDwQBBgP3AABDbBiEEQQIhAwwQCyACKgJoIRcgAkHkAGogAkGkAWoQnwMgAi0AZEEBRgRAIAIoAmghBEECIQMMEAsgAi0AZUEBRw0CIAJB5ABqIAIoAqQBENICIAIoAmQiEUECRw0BIAIoAmghBEECIQMMDwtBA0GMg8EAQYD9wAAQ2wYhBEECIQMMDgsgAioCaCEYIAJB5ABqIAJBpAFqEJ8DIAItAGRBAUYEQCACKAJoIQRBAiEDDA4LIAItAGVBAUcNASACQeQAaiACKAKkARDSAkECIQMgAigCZCISQQJGBEAgAigCaCEEDA4LIAIoAmghCiACQeQAaiACQaQBahDHBiACKAJoIQQgAigCZCILQQJrDgICDQMLQQRBjIPBAEGA/cAAENsGIQRBAiEDDAwLQQVBjIPBAEGA/cAAENsGIQRBAiEDDAsLQQZBjIPBAEGA/cAAENsGIQQMCgsgAkHkAGohCSMAQRBrIgYkACAGQQhqIAJBpAFqIgwQnwMCQCAGLQAIQQFGBEAgCSAGKAIMNgIEIAlBAToAAAwBCyAGLQAJRQRAIAlBgAY7AQAMAQsgBkEIaiAMKAIAEIECIAYtAAhBAUYEQCAJIAYoAgw2AgQgCUEBOgAADAELIAkgBi0ACToAASAJQQA6AAALIAZBEGokACACLQBkDQggAi0AZSITQQNHBEAgBCEUIA8hBCAFIQMMCgtBB0GMg8EAQYD9wAAQ2wYhBAwJCyABIAEtABhBAWsiBToAGCADQQFqIQMgBUH/AXFFDQYgASADNgIUIAJBAToAqAEgAiABNgKkAUEDIQZBAiEJQQIhDEECIQ1BAiELQQIhBUECIQ5BAiEKAn8CQANAAkAgAkHkAGoiBCACQaQBahDRAiACLQBkQQFGDQAgAi0AZUEBRw0GIAIoAqQBIgNBADYCCCADIAMoAhRBAWo2AhQgBCADQQxqIAMQggIgAigCaCEEIAIoAmRBAkYNAgJAAkACQAJAAkACQAJAAkACQAJAAkACQCACKAJsQQZrDgUAAwMDAQMLIARB4OrAAEEGENsHRQ0DIARB5urAAEEGENsHDQEgDkECRg0EQebqwABBBhCfByEEQQIMDgsgBEHs6sAAQQoQ2wdFDQQgBEH26sAAQQoQ2wdFDQUgBEGS68AAQQoQ2wcNASAGQQNGDQlBkuvAAEEKEJ8HIQRBAgwNCyAEQYDrwABBBhDbB0UNBSAEQYbrwABBBhDbB0UNBiAEQYzrwABBBhDbB0UNBwsgAxCgASIERQ0JDAoLIApBAkcEQEHg6sAAQQYQnwchBEECDAsLIAJB5ABqIAMQsAVBAiEDIAIoAmgiDyEEIAIoAmQiCkECRw0IDBALIAJB5ABqIAMQsAVBAiEDIAIoAmgiBL4hFyACKAJkIg5BAkcNBwwPCyAFQQJHBEBB7OrAAEEKEJ8HIQRBAgwJCyACQeQAaiADELAFQQIhAyACKAJoIgS+IRUgAigCZCIFQQJHDQYMDgsgC0ECRwRAQfbqwABBChCfByEEQQIMCAsgAkHkAGogAxCwBUECIQMgAigCaCIEviEWIAIoAmQiC0ECRw0FDA0LIA1BAkcEQEGA68AAQQYQnwchBEECDAcLIAJB5ABqIAMQsAVBAiEDIAIoAmgiBL4hGCACKAJkIg1BAkcNBAwMCyAMQQJHBEBBhuvAAEEGEJ8HIQRBAgwGCyACQeQAaiADELAFQQIhAyACKAJoIgS+IRkgAigCZCIMQQJHDQMMCwsgCUECRwRAQYzrwABBBhCfByEEQQIMBQsgAkHkAGogAxCwBUECIQMgAigCaCIEviEaIAIoAmQiCUECRw0CDAoLIAJB5ABqIAMQrAUgAi0AZSEGIAItAGRBAUcNAQsLIAIoAmghBAtBAgshAwwFCyABIANBAWoiBTYCFAJAIAQgBU0NACABIANBAmoiCDYCFCAFIAZqLQAAQfUARw0DIAggBSAEIAQgBUkbIgVGDQAgASADQQNqIgc2AhQgBiAIai0AAEHsAEcEQCAHIQgMBAsgBSAHRg0AIAEgA0EEaiIINgIUIAYgB2otAABB7ABHDQMgAEECNgIADA4LIAJBCGogBiAEIAUQ+QEgAigCDCEBIAIoAgghBEEUEHEiA0UNDiADQQU2AgAMAwsgAyAENgIMIANBBTYCACADIAE2AhAMCwsgCkEAIApBAkcbIQMgCUEAIAlBAkcbIRMgDEEAIAxBAkcbIRIgDUEAIA1BAkcbIQcgC0EAIAtBAkcbIQggBUEAIAVBAkcbIRAgDkEAIA5BAkcbIRFBAiAGIAZBA0YbIRQgDyEEDAILIAJBEGogBiAEIAgQ+QEgAigCFCEBIAIoAhAhBEEUEHEiA0UNCyADQQk2AgALIAMgBDYCDCAAIAM2AgQgAEEDNgIAIAMgATYCEAwJCyABIAEtABhBAWo6ABggAiABEOIEIgU2AqABIAIgFDoAnAEgAiAaOAKYASACIBM2ApQBIAIgGTgCkAEgAiASNgKMASACIBg4AogBIAIgBzYChAEgAiAWOAKAASACIAg2AnwgAiAVOAJ4IAIgEDYCdCACIBc4AnAgAiARNgJsIAIgBDYCaCACIAM2AmRBAiEHIANBAkcEQCAFDQQgAkHgAGogAkHsAGoiBUEwaigCADYCACACQdAAaiAFQSBq/QACAP0LAwAgAkFAayAFQRBq/QACAP0LAwAgAiAF/QACAP0LAzAgAyEHIAQhBQwECyAFRQRAIAQhBQwECyACQaABahCxBCAEIQUMAwsgAkEgaiAHIAQgAyAEIAMgBEkbEPkBIAIoAiAhBCACKAIkDAQLIAIoAmghBAsgASABLQAYQQFqOgAYIAIgARC6AyIFNgKgASACIBM6AJwBIAIgFDYCmAEgAiALNgKUASACIAo2ApABIAIgEjYCjAEgAiAYOAKIASACIBE2AoQBIAIgFzgCgAEgAiAQNgJ8IAIgFjgCeCACIAg2AnQgAiAVOAJwIAIgBzYCbCACIAQ2AmggAiADNgJkQQIhBwJAIANBAkcEQCAFDQIgAkHgAGogAkHsAGoiBUEwaigCADYCACACQdAAaiAFQSBq/QACAP0LAwAgAkFAayAFQRBq/QACAP0LAwAgAiAF/QACAP0LAzAgAyEHDAELIAVFDQAgAkGgAWoQsQQLIAQhBQsgB0ECRg0CIAAgAv0AAzD9CwIIIABBOGogAkHgAGooAgA2AgAgAEEoaiACQdAAav0AAwD9CwIAIABBGGogAkFAa/0AAwD9CwIAIAAgBTYCBCAAIAc2AgAMBAsgAkEYaiAHIAQgAyAEIAMgBEkbEPkBIAIoAhghBCACKAIcCyEBQRQQcSIDRQ0DIAMgBDYCDCADQRg2AgAgAyABNgIQDAELIAUgARDrBSEDCyAAQQM2AgAgACADNgIECyACQbABaiQADwsAC88XAyR/A30BeyMAQcACayIEJAACeyADLQAcIgVBAkYEQEMAAIA/IShBACEFQwAAgD8hKUMAAIA/ISr9DAAAAAAAAIA/AABAwQAAEEEMAQsgBEHiAWogA0Efai0AADoAACAEIAMvAB07AeABIAMqAhghKCADKgIUISkgAyoCECEqIAP9AAIACyErIARBABC2CTYCsAEgBEEANgKsASAEQgA3AqQBIARBADYCXCAEQoCAgIDAADcCVCAEQgQ3AkwgBEIANwJEIARCgICAgMAANwI8IARBADYCLCAEQQA2AiQgBEEANgIcIARBADYCFCAEQQA2AgwgBEEANgIEIARBADYCNCAEQYCAgIB4NgJsIARBgICAgHg2AnggBCAr/QsChAEgBCAqOAKUASAEICk4ApgBIAQgKDgCnAEgBCAFOgCgASAEQbwBakEAOgAAIARBowFqIARB4gFqLQAAOgAAIARBADYCaCAEQoCAgIDAADcCYCAEQgA3ArQBIAQgBC8B4AE7AKEBIAEoAjwhEyAEIAI6AOgBIAQgEzYC5AEgBCABKAIIIgg2AuABIARBBGogBEHgAWoQpQQgAgRAIARBAToAoAELAkACQAJAAkBBgIAwEHEiEEUNACAQQQRrIh0tAABBA3EEQCAQQQBBgIAw/AsAC0GAgBAQcSIJRQ0AIAlBBGsiHi0AAEEDcQRAIAlBAEGAgBD8CwALQYCAMBBxIhFFDQAgEUEEayIfLQAAQQNxBEAgEUEAQYCAMPwLAAtBgIAwEHEiEkUNACASQQRrIiAtAABBA3EEQCASQQBBgIAw/AsAC0GAgMAAEHEiC0UNACALQQRrIiEtAABBA3EEQCALQQBBgIDAAPwLAAtBgIAIEHEiDEUNACAMQQRrIiItAABBA3EEQCAMQQBBgIAI/AsAC0GAgBAQcSINRQ0AIA1BBGsiIygCACIFQQNxIgMEQCANQQBBgIAQ/AsACyAIBEAgDEECIAIbISQgDUEEIAIbISVBgIAEQQAgAhshGyABKAIQISYgASgCFCEcIAEoAgQhJwNAQYCABCAIIA5rIgMgA0GAgARPGyEUIAggDkcEQCAnIA5BJGxqIQMgJiAOQRhsaiEGQQAhFSAJIRZBACEFIA0hFyALIRggDCEZA0AgCCAOIBVqIhpNBEAgGiAIQdTAxwAQjAcACyADQRBqKgIAISggA0EMaioCACEpIANBCGoqAgAhKiAEQcABaiADEKQDIARB0AFqIAMQmgMgBEHgAWogAykCABDLAiAE/QAE4AEhKyAFIBBqIgogKjgCACAFIBFqIgcgBCoCwAE4AgAgBSASaiIPIAQqAtABOAIAIApBBGogKTgCACAHQQRqIAQqAsQBOAIAIA9BBGogBCoC1AE4AgAgCkEIaiAoOAIAIAdBCGogBCoCyAE4AgAgD0EIaiAEKgLYATgCACAYICv9CwIAIBYCfyADQRRqLwEAIgdB//8BcUUEQCAHQRB0DAELIAdB/wdxIQogB0GAgAJxIQ8gB0GA+AFxIgdBgPgBRgRAIA9BEHQhByAHQYCAgPwHciAKRQ0BGiAHIApBDXRyQYCAgP4HcgwBCyAPQRB0IQ8gB0ENdEGAgID8AHEgCkENdHJBgICAwANqIA9yIAcNABogD0GAgIDYA3IgCmdBEGsiB0EXdGsgCiAHQf//A3FBCGp0Qf///wNxcgs2AgAgAgRAAn8CQCAaIBxJBEACfyAGQRRqKAIAIgpBBEsEQCAGQQRqKAIAIQogBkEIaigCAAwBCyAGQQRqCyEHIAoNAUEAIQpBAAwCCyAaIBxBxMDHABCMBwwHCyAHKAIACyEHIBkgCjsBACAXIAc2AgALIANBJGohAyAGQRhqIQYgFkEEaiEWIAVBDGohBSAXQQRqIRcgGEEQaiEYIBlBAmohGSAVQQFqIhUgFEkNAAsLIAQgGzYCrAIgBCAlNgKoAiAEIBs2AqQCIAQgJDYCoAIgBEEANgKcAiAEQoCAgIDAADcClAIgBEKAgICAwAA3AowCIARCgICQgMAANwKEAiAEIAs2AoACIARBgIAMNgL8ASAEIBI2AvgBIARBgIAMNgL0ASAEIBE2AvABIARBgIAENgLsASAEIAk2AugBIARBgIAMNgLkASAEIBA2AuABIARBBGogDiAUIARB4AFqEJcBIA4gFGoiDiAISQ0ACyAjKAIAIgVBA3EhAwsCQAJAIAVBeHFBhIAQQYiAECADG08EQCADQQAgBUGogBBPGw0GIA0QogIgIigCACICQXhxQYSACEGIgAggAkEDcSIDG0kNBSADQQAgAkGogAhPGw0GIAwQogIgISgCACICQXhxQYSAwABBiIDAACACQQNxIgMbSQ0FIANBACACQaiAwABPGw0GIAsQogIgICgCACICQXhxQYSAMEGIgDAgAkEDcSIDG0kNBSADQQAgAkGogDBPGw0GIBIQogIgHygCACICQXhxQYSAMEGIgDAgAkEDcSIDG0kNBSADQQAgAkGogDBPGw0GIBEQogIgHigCACICQXhxQYSAEEGIgBAgAkEDcSIDG0kNBSADQQAgAkGogBBPGw0GIAkQogIgHSgCACICQXhxQYSAMEGIgDAgAkEDcSIDG0kNBSADQQAgAkGogDBPGw0GIBAQogIgE0UNBEGAgJABEHEiAkUNAyACQQRrIgsoAgAiBUEDcSIDBEAgAkEAQYCAkAH8CwALIAhFDQIgASgCICEMIAEoAhwhDUEAIQYDQEGAgAQgCCAGayIDIANBgIAETxshCSAGIAhHBEBBACEFIAIhAwNAIARB4AFqIA0gDCAFIAZqELwBIAMgBP0ABOAB/QsCACADQRBqIAT9AATwAf0LAgAgA0EgaiAEKgKAAjgCACADQSRqIQMgBUEBaiIFIAlJDQALCyAEQQRqIAYgCSACQYCAJBDOAyAIIAYgCWoiBksNAAsMAQsMBAsgCygCACIFQQNxIQMLAkAgBUF4cUGEgJABQYiAkAEgAxtPBEAgA0EAIAVBqICQAU8bDQUgAhCiAiATQQFGDQNBgIDwARBxIgJFDQIgAkEEayILKAIAIgVBA3EiAwRAIAJBAEGAgPAB/AsACyAIBEAgASgCLCEMIAEoAighDUEAIQYDQEGAgAQgCCAGayIDIANBgIAETxshCSAGIAhHBEBBACEFIAIhAwNAIARB4AFqIA0gDCAFIAZqEIsBIAMgBP0ABOAB/QsCACADQRBqIAT9AATwAf0LAgAgA0EgaiAE/QAEgAL9CwIAIANBMGogBCoCkAI4AgAgA0E0aiAEKQKUAjcCACADQTxqIQMgBUEBaiIFIAlJDQALCyAEQQRqIAYgCSACQYCAPBDiAyAGIAlqIgYgCEkNAAsgCygCACIFQQNxIQMLIAVBeHFBhIDwAUGIgPABIAMbSQ0EIANBACAFQaiA8AFPGw0FIAIQogIgE0ECTQ0DQYCA0AIQcSICRQ0CIAJBBGsiCSgCACIFQQNxIgMEQCACQQBBgIDQAvwLAAsgCARAIAEoAjghCyABKAI0IQxBACEGA0BBgIAEIAggBmsiASABQYCABE8bIQEgBiAIRwRAQQAhBSACIQMDQCAEQeABaiAMIAsgBSAGahBsIAMgBP0ABOAB/QsCACADQRBqIAT9AATwAf0LAgAgA0EgaiAE/QAEgAL9CwIAIANBMGogBP0ABJAC/QsCACADQUBrIAT9AASgAv0LAgAgA0HQAGogBCoCsAI4AgAgA0HUAGohAyAFQQFqIgUgAUkNAAsLIARBBGogBiABIAJBgIDUABDjAyABIAZqIgYgCEkNAAsgCSgCACIFQQNxIQMLIAVBeHFBhIDQAkGIgNACIAMbSQ0EIANBACAFQaiA0AJPGw0BIAIQogIMAwsMAwsMAwsACwJAIARBBGoiAhCjASIBBEAgAEECNgIAIAAgATYCBCACEMACDAELIAAgBEEEakG8AfwKAAALIARBwAJqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvlFQMRfwF+AW8jAEHgBmsiASQAIAFBoAFqIgcgAiADKAIMEQEAAkACQAJAAkACQAJAIAEpA6ABQsvTs7K7k+HLQoUgASkDqAFC7b+ClN2syJ2df4WEUARAIAFBMGogAkHwAPwKAAAgASgClAEiA0UNASAHIAMgASgCmAEiEigCDCIIEQEAAkACQAJAAkACQCABKQOgAUKf0/elq5SA065/hSABKQOoAUKQkPj2grmEnmyFhFBFBEAgByADIAgRAQAgASkDoAFChq+1jMLkqv4xhSABKQOoAUKbq7TXwZS/hYZ/hYRQDQEgByADIAgRAQAgASkDoAFCx5uZ88LP+aS8f4UgASkDqAFC7sKNnfXyzrRehYRQDQIgByADIAgRAQAgASkDoAFC/pXph6aw4PvMAIUgASkDqAFC1cSH6oL5y8Z7hYRQDQMgByADIAgRAQAgASkDoAFC07aF9P3V/p5VhSABKQOoAUKw3b+ylJ6K/Q2FhFANBCAHIAMgCBEBACABKQOgAUKR3taAjqSFsp9/hSABKQOoAUKAxNGW34qexvsAhYRQIhMNBSABQQA2ArABIAFBATYCpAEgAUHU4MEANgKgASABQgQ3AqgBIAdB3ODBABCNCAALIAFBoAFqIANBuAX8CgAAIAFBEGogA0Ecav0AAgD9CwMAIAFBIGogA0Esav0AAgD9CwMAIAEgA/0AAgz9CwMAIAMoAjwhByADKAIIIQggAykDACEVIAEoAsgGIgQEQCABKALMBiIFQQRrKAIAIgZBeHEiCUEEQQggBkEDcSIGGyAEakkNDCAGQQAgCSAEQSdqSxsNCyAFEKICCyABQeABaiEEAkACQAJAIAEoArwGQYCAgIB4aw4CAQIACyAEEL4CDAELIAQQvQELIANBBGsoAgAiBEF4cUG8BUHABSAEQQNxIgUbSQ0LIAVFDQggBEHgBU8NCgwICyABQRBqIANBHGr9AAIA/QsDACABQSBqIANBLGr9AAIA/QsDACABIAP9AAIM/QsDACADKAKAASEJIAMoAnwhDSADKAJ0IQ4gAygCcCELIAMoAmghEiADKAJkIQQgAygCXCETIAMoAlghBSADKAJQIQwgAygCTCEGIAMoAjwhByADKAIIIQggAykCACEVIAMoAkAiCgRAIAMoAkQiD0EEaygCACIQQXhxIhFBBEEIIBBBA3EiEBsgCmpJDQsgEEEAIBEgCkEnaksbDQogDxCiAgsgBgRAIAxBBGsoAgAiCkF4cSIPQQRBCCAKQQNxIgobIAZqSQ0LIApBACAPIAZBJ2pLGw0KIAwQogILIAUEQCATQQRrKAIAIgZBeHEiDEEEQQggBkEDcSIGGyAFakkNCyAGQQAgDCAFQSdqSxsNCiATEKICCwJAIARBgICAgHhGDQAgBARAIBJBBGsoAgAiBUF4cSIGIARBAnQiBEEEQQggBUEDcSIFG2pJDQwgBUEAIAYgBEEnaksbDQsgEhCiAgsgCwRAIA5BBGsoAgAiBEF4cSIFIAtBAXQiBkEEQQggBEEDcSIEG2pJDQwgBEEAIAUgBkEnaksbDQsgDhCiAgsgDUUNACAJQQRrKAIAIgRBeHEiBSANQQJ0IgZBBEEIIARBA3EiBBtqSQ0LIARBACAFIAZBJ2pLGw0KIAkQogILIANBBGsoAgAiBEF4cUGs0wBBsNMAIARBA3EiBRtJDQogBUUgBEHQ0wBJcg0HDAkLIAFBEGogA0Ecav0AAgD9CwMAIAFBIGogA0Esav0AAgD9CwMAIAEgA/0AAgz9CwMAIAMoAjwhByADKAIIIQggAykCACEVIAMoAkAiBARAIAMoAkQiBUEEaygCACIGQXhxIglBBEEIIAZBA3EiBhsgBGpJDQogBkEAIAkgBEEnaksbDQkgBRCiAgsgA0EEaygCACIEQXhxIgVB0ABB1AAgBEEDcSIEG0kNCSAERSAFQfQASXINBgwICyABQRBqIANBHGr9AAIA/QsDACABQSBqIANBLGr9AAIA/QsDACABIAP9AAIM/QsDACADKAI8IQcgAygCCCEIIAMpAgAhFSADKAJAIgQEQCADKAJEIgVBBGsoAgAiBkF4cSIJQQRBCCAGQQNxIgYbIARqSQ0JIAZBACAJIARBJ2pLGw0IIAUQogILIANBBGsoAgAiBEF4cSIFQdAAQdQAIARBA3EiBBtJDQggBEUgBUH0AElyDQUMBwsgAUEQaiADQRxq/QACAP0LAwAgAUEgaiADQSxq/QACAP0LAwAgASAD/QACDP0LAwAgAygCPCEHIAMoAgghCCADKQIAIRUgAygCQCIEBEAgAygCRCAEQQEQogcLIANBBGsoAgAiBEF4cSIFQdAAQdQAIARBA3EiBBtJDQcgBEUgBUH0AElyDQQMBgsgAUEQaiADQZQCav0AAgD9CwMAIAFBIGogA0GkAmr9AAIA/QsDACABIAP9AAKEAv0LAwAgAygCgAIhCCADKQL4ASEVIAMoAugBIQwgAygC5AEhBiADKAKIASEKIAMoAnQhDyADKAJwIQkgAygCbCEFIAMoAmghDSADKAJkIQ4gAygCACEEIAMoArQCIQcgAygC2AIiCwRAIAMoAtwCIAtBARCiBwsCQCAEQQJGDQAgBQRAIA1BJGohBANAIARBBGsoAgAiC0GAgICAeHJBgICAgHhHBEAgBCgCACIQQQRrKAIAIhFBeHEiFEEEQQggEUEDcSIRGyALakkNCiARQQAgFCALQSdqSxsNCSAQEKICCyAEQTBqIQQgBUEBayIFDQALCyAOBEAgDSAOQTBsQQgQogcLIAlBgICAgHhyQYCAgIB4Rg0AIA8gCUEBEKIHCyADIBIgExshAyAGRSAKQQJGckUEQCAMIAZBKGxBCBCiBwsgA0EEaygCACIEQXhxQYQDQYgDIARBA3EiBRtJDQIgBUUgBEGoA0lyDQMMBQsgASADNgKkASABIAI2AqABQdjmyABBKyABQaABakHo7sAAQejvwAAQ4AYAC0Gw4MEAEN0JAAtBzIzIAEEuQfyMyAAQ6wcMAQsgAxCiAiABKAI8IgNBgICAgHhyQYCAgIB4RwRAIAEoAkAiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQMgBUEAIAYgA0EnaksbDQIgBBCiAgsgASgCSEGAgICAeEcEQCABQcgAahD1AgsgASgCMCIDBEAgASgCNCIEQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyADakkNAyAFQQAgBiADQSdqSxsNAiAEEKICCwJAIAEoAogBIgNBgICAgHhyQYCAgIB4RwRAIAEoAowBIgRBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIANqSQ0EIAVBACAGIANBJ2pLGw0BIAQQogILQdQAEHEiA0UNASADIAg2AhQgAyAVNwIMIANBADYCCCADQoGAgIAQNwIAIAMgAf0AAwD9CwIYIAMgBzYCUCADIAg2AkwgAyAHNgJIIANBKGogAUEQav0AAwD9CwIAIANBOGogAUEgav0AAwD9CwIAIANBCGoQDSEWENoEIgcgFiYBIAJBBGsoAgAiA0F4cUH0AEH4ACADQQNxIggbSQ0DIAhBACADQZgBTxsNAiACEKICIAAgBzYCBCAAQQA2AgAgAUHgBmokAA8LDAELAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwAL5hYCDH8IfUMAAIA/IRACfwJAIAAoAgQiAyACQQhqKAIAIgVJBEAgACgCACEGIAJBBGooAgAiCSADQSRsaiICEIoEIQ8gAi8BFCIDQf//AXFFBEAgA0EQdAwDCyADQf8HcSECIANBgIACcSEEIANBgPgBcSIDQYD4AUYEQCAEQRB0IQMgA0GAgID8B3IgAkUNAxogAyACQQ10ckGAgID+B3IMAwsgBEEQdCEEIANFDQEgA0ENdEGAgID8AHEgAkENdHJBgICAwANqIARyDAILIAMgBUHUwMcAEIwHAAsgBEGAgIDYA3IgAmdBEGsiA0EXdGsgAiADQf//A3FBCGp0Qf///wNxcgu+IhFDAACAP14EQCAREMYFQ1T4LUCUQwAAgD+SkSEQC0MAAIA/IRECfwJAIAUgBksEQCAJIAZBJGxqIgIQigQhEyACLwEUIgNB//8BcUUEQCADQRB0DAMLIANB/wdxIQIgA0GAgAJxIQYgA0GA+AFxIgNBgPgBRgRAIAZBEHQhAyADQYCAgPwHciACRQ0DGiADIAJBDXRyQYCAgP4HcgwDCyAGQRB0IQYgA0UNASADQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogBnIMAgsgBiAFQdTAxwAQjAcACyAGQYCAgNgDciACZ0EQayIDQRd0ayACIANB//8DcUEIanRB////A3FyC74iEkMAAIA/XgRAIBIQxgVDVPgtQJRDAACAP5KRIRELQwAAgD8hFAJAAkACfwJAIAUgACgCDCICSwRAIAAoAgghBiAJIAJBJGxqIgIQigQhEiACLwEUIgNB//8BcUUEQCADQRB0DAMLIANB/wdxIQIgA0GAgAJxIQQgA0GA+AFxIgNBgPgBRgRAIARBEHQhAyADQYCAgPwHciACRQ0DGiADIAJBDXRyQYCAgP4HcgwDCyAEQRB0IQQgA0UNASADQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogBHIMAgsMAgsgBEGAgIDYA3IgAmdBEGsiA0EXdGsgAiADQf//A3FBCGp0Qf///wNxcgu+IhVDAACAP14EQCAVEMYFQ1T4LUCUQwAAgD+SkSEUCwJ/AkAgBSAGSwRAIAkgBkEkbGoiAhCKBCEVIAIvARQiA0H//wFxRQRAIANBEHQMAwsgA0H/B3EhAiADQYCAAnEhBiADQYD4AXEiA0GA+AFGBEAgBkEQdCEDIANBgICA/AdyIAJFDQMaIAMgAkENdHJBgICA/gdyDAMLIAZBEHQhBiADRQ0BIANBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAGcgwCCyAGIAVB1MDHABCMBwALIAZBgICA2ANyIAJnQRBrIgNBF3RrIAIgA0H//wNxQQhqdEH///8DcXILIQJDAACAPyEWAn8CQCAFIABBDEEIIBIgEpIgFJQiEiASWyASIBUgFZIgAr4iFEMAAIA/XgR9IBQQxgVDVPgtQJRDAACAP5KRBSAWC5RgRXEiBxtqIgYoAgAiAksEQCAAIA8gD5IgEJQiDyAPWyAPIBMgE5IgEZRgRXEiCkECdGoiDCgCACEEIAkgAkEkbGoiAhCKBCETIAIvARQiA0H//wFxRQRAIANBEHQMAwsgA0H/B3EhAiADQYCAAnEhCCADQYD4AXEiA0GA+AFGBEAgCEEQdCEDIANBgICA/AdyIAJFDQMaIAMgAkENdHJBgICA/gdyDAMLIAhBEHQhCCADRQ0BIANBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAIcgwCCwwCCyAIQYCAgNgDciACZ0EQayIDQRd0ayACIANB//8DcUEIanRB////A3FyC0MAAIA/IQ++IhBDAACAP14EQCAQEMYFQ1T4LUCUQwAAgD+SkSEPC0MAAIA/IRACfwJAIAQgBUkEQEEIQQwgBxshCCAJIARBJGxqIgIQigQhEiACLwEUIgNB//8BcUUEQCADQRB0DAMLIANB/wdxIQIgA0GAgAJxIQQgA0GA+AFxIgNBgPgBRgRAIARBEHQhAyADQYCAgPwHciACRQ0DGiADIAJBDXRyQYCAgP4HcgwDCyAEQRB0IQQgA0UNASADQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogBHIMAgsMAwsgBEGAgIDYA3IgAmdBEGsiA0EXdGsgAiADQf//A3FBCGp0Qf///wNxcgu+IhFDAACAP14EQCAREMYFQ1T4LUCUQwAAgD+SkSEQC0MAAIA/IRECfwJAIAUgACAIaiIIKAIAIgJLBEAgACAKRUECdGoiAygCACEEIAkgAkEkbGoiABCKBCEUIAAvARQiAkH//wFxRQRAIAJBEHQMAwsgAkH/B3EhACACQYCAAnEhByACQYD4AXEiAkGA+AFGBEAgB0EQdCECIAJBgICA/AdyIABFDQMaIAIgAEENdHJBgICA/gdyDAMLIAdBEHQhByACRQ0BIAJBDXRBgICA/ABxIABBDXRyQYCAgMADaiAHcgwCCwwCCyAHQYCAgNgDciAAZ0EQayICQRd0ayAAIAJB//8DcUEIanRB////A3FyC74iFUMAAIA/XgRAIBUQxgVDVPgtQJRDAACAP5KRIRELAn8CQCAEIAVJBEAgEyATkiAPlCIPIBIgEpIgEJRgRSEHIA8gD1shCiAJIARBJGxqIgAQigQhECAALwEUIgJB//8BcUUEQCACQRB0DAMLIAJB/wdxIQAgAkGAgAJxIQQgAkGA+AFxIgJBgPgBRgRAIARBEHQhAiACQYCAgPwHciAARQ0DGiACIABBDXRyQYCAgP4HcgwDCyAEQRB0IQQgAkUNASACQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2ogBHIMAgsMAwsgBEGAgIDYA3IgAGdBEGsiAkEXdGsgACACQf//A3FBCGp0Qf///wNxcgshAEMAAIA/IQ8CfwJAIAUgCCADIAYgByAKcSIHGyAUIBSSIBGUIhEgEVsgESAQIBCSIAC+IhNDAACAP14EfSATEMYFQ1T4LUCUQwAAgD+SkQUgDwuUYEVxIgobIg0oAgAiAEsEQCAMIAYgAyAKGyAHGyIOKAIAIQQgCSAAQSRsaiIAEIoEIRAgAC8BFCICQf//AXFFBEAgAkEQdAwDCyACQf8HcSEAIAJBgIACcSELIAJBgPgBcSICQYD4AUYEQCALQRB0IQIgAkGAgID8B3IgAEUNAxogAiAAQQ10ckGAgID+B3IMAwsgC0EQdCELIAJFDQEgAkENdEGAgID8AHEgAEENdHJBgICAwANqIAtyDAILIAAgBUHUwMcAEIwHAAsgC0GAgIDYA3IgAGdBEGsiAkEXdGsgACACQf//A3FBCGp0Qf///wNxcgtDAACAPyERviIPQwAAgD9eBEAgDxDGBUNU+C1AlEMAAIA/kpEhEQtDAACAPyEPAn8CQCAEIAVJBEAgCSAEQSRsaiIAEIoEIRMgAC8BFCICQf//AXFFBEAgAkEQdAwDCyACQf8HcSEAIAJBgIACcSEFIAJBgPgBcSICQYD4AUYEQCAFQRB0IQIgAkGAgID8B3IgAEUNAxogAiAAQQ10ckGAgID+B3IMAwsgBUEQdCEFIAJFDQEgAkENdEGAgID8AHEgAEENdHJBgICAwANqIAVyDAILDAMLIAVBgICA2ANyIABnQRBrIgJBF3RrIAAgAkH//wNxQQhqdEH///8DcXILviISQwAAgD9eBEAgEhDGBUNU+C1AlEMAAIA/kpEhDwsgASAGIAwgBxsoAgA2AgAgASANIA4gECAQkiARlCIQIBBbIBAgEyATkiAPlGBFcSIAGygCADYCBCABIA4gDSAAGygCADYCCCABIAMgCCAKGygCADYCDA8LIAIgBUHUwMcAEIwHAAsgBCAFQdTAxwAQjAcAC/YWAh1/BX0jAEGQAWsiASQAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAAKALEASICQR9xRQRAIAFBADoASCABQQA2AkQgASACQQV2Ihg2AkAgACABQUBrEKUEIAFBADYCDCABQoCAgIDAADcCBCABQQA2AhggAUKAgICAwAA3AhAgAUEANgIkIAFCgICAgMAANwIcIAFBADYCMCABQoCAgIDAADcCKCABQQA2AjwgAUKAgICAwAA3AjQgAkUEQEEEIQMgABCjASEPQQQhBUEEIQZBBCESDCQLQQAhAkEEIRIDQCALQYCABCAYIBRrIgcgB0GAgARPGyIHQQNsIg5JBEAgDiALayICIAEoAgQgC2tLBEAgAUEEaiALIAJBBEEEEKQFIAEoAgghEiABKAIMIQsLIBIgC0ECdGohBSACQQJPBH8gAkECdEEEayIGBEAgBUEAIAb8CwALIAIgC2oiAkEBayELIBIgAkECdGpBBGsFIAULQQA2AgAgASALQQFqIgs2AgwgASgCGCECCyACIAdJBEAgByACayIGIAEoAhAgAmtLBEAgAUEQaiACIAZBBEEEEKQFIAEoAhghAgsgASgCFCIDIAJBAnRqIQUgBkECTwR/IAZBAnRBBGsiBARAIAVBACAE/AsACyACIAZqIgVBAWshAiADIAVBAnRqQQRrBSAFC0EANgIAIAEgAkEBaiICNgIYCyABKAIkIgwgDkkEQCAOIAxrIgYgASgCHCAMa0sEQCABQRxqIAwgBkEEQQQQpAUgASgCJCEMCyABKAIgIgMgDEECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAYgDGoiBUEBayEMIAMgBUECdGpBBGsFIAULQQA2AgAgASAMQQFqIgw2AiQLIAEoAjAiDSAOSQRAIA4gDWsiBiABKAIoIA1rSwRAIAFBKGogDSAGQQRBBBCkBSABKAIwIQ0LIAEoAiwiAyANQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiANaiIFQQFrIQ0gAyAFQQJ0akEEawUgBQtBADYCACABIA1BAWoiDTYCMAsgB0ECdCIXIAEoAjwiCEsEQCAXIAhrIgYgASgCNCAIa0sEQCABQTRqIAggBkEEQQQQpAUgASgCPCEICyABKAI4IgMgCEECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAYgCGoiBUEBayEIIAMgBUECdGpBBGsFIAULQQA2AgAgASAIQQFqIgg2AjwLIAEoAgghEiAUIBhHBEAgFEEFdCEDIAAoAsQBIQQgACgCwAEhGUEAIRYgASgCOCEVIAEoAhQhGiABKAIgIRsgASgCLCEcIAIhBSAHIQZBACERQQAhDwNAIANBA2ogBE8NGiADQQdqIARPDRsgA0ELaiAETw0cIANBD2ogBE8NHSADQRNqIARPDR4gA0EXaiAETw0fIAsgEU0NBCADIBlqIglBBGoqAAAhHiAJQQhqKgAAIR8gCUEMaioAACEgIAlBEGoqAAAhISAJQRRqKgAAISIgEiAWaiIQIAkqAAA4AgAgEUEBaiIKIAtPDQUgEEEEaiAeOAIAIBFBAmoiEyALTw0GIBBBCGogHzgCACANIBFNDQcgFiAcaiIQICA4AgAgCiANTw0IIBBBBGogITgCACANIBNNDQkgEEEIaiAiOAIAIANBGGoiECAETw0KIAwgEU0NCyAWIBtqIhAgCUEYai0AALNDAAB/Q5U4AgAgA0EZaiIdIARPDQwgCiAMTw0NIBBBBGogCUEZai0AALNDAAB/Q5U4AgAgA0EaaiIKIARPDQ4gDCATTQ0PIBBBCGogCUEaai0AALNDAAB/Q5U4AgAgA0EbaiIKIARPDRAgBUUNESAPIBpqIAlBG2otAACzQwAAf0OVOAIAIANBHGoiCiAETw0SIANBHWoiCiAETw0TIANBHmoiCiAETw0UIANBH2oiCiAETw0VIAggD00NFiAJQRxqLQAAIQogCUEeai0AACETIAlBH2otAAAhECAVIAlBHWotAACzQwAAAMOSQwAAADyUOAIAIA9BAWoiCSAITw0XIBVBBGogE7NDAAAAw5JDAAAAPJQ4AgAgD0ECaiIJIAhPDRggFUEIaiAQs0MAAADDkkMAAAA8lDgCACAPQQNqIgkgCE8NGSAVQQxqIAqzQwAAAMOSQwAAADyUOAIAIAVBAWshBSAVQRBqIRUgA0EgaiEDIBZBDGohFiARQQNqIREgD0EEaiEPIAZBAWsiBg0ACwsgCyAOSQ0eIAIgB0kNHyAMIA5JDSAgDSAOSQ0hIAggF0kNIiABKAIUIQYgASgCICEFIAEoAiwhAyABQgQ3AogBIAFCAjcCgAEgAUIENwJ4IAFCBDcCcCABQgQ3AmggASAXNgJkIAEgASgCOCIENgJgIAEgDjYCXCABIAM2AlggASAONgJUIAEgBTYCUCABIAc2AkwgASAGNgJIIAEgDjYCRCABIBI2AkAgACAUIAcgAUFAaxCXASAYIAcgFGoiFEsNAAsMIgsgAUEANgJQIAFBATYCRCABQYTawAA2AkAgAUIENwJIIAFBQGsQkgchDwwjCyARIAtBjNfAABCMBwALIAogC0Gc18AAEIwHAAsgEyALQazXwAAQjAcACyARIA1BvNfAABCMBwALIAogDUHM18AAEIwHAAsgEyANQdzXwAAQjAcACyAQIARB7NfAABCMBwALIBEgDEH818AAEIwHAAsgHSAEQYzYwAAQjAcACyAKIAxBnNjAABCMBwALIAogBEGs2MAAEIwHAAsgEyAMQbzYwAAQjAcACyAKIARBzNjAABCMBwALIAIgAkHc2MAAEIwHAAsgCiAEQezYwAAQjAcACyAKIARB/NjAABCMBwALIAogBEGM2cAAEIwHAAsgCiAEQZzZwAAQjAcACyAPIAhBrNnAABCMBwALIAkgCEG82cAAEIwHAAsgCSAIQczZwAAQjAcACyAJIAhB3NnAABCMBwALIAMgA0EEciAEQfDlwQAQ6gcACyADQQRqIANBCHIgBEHw5cEAEOoHAAsgA0EIaiADQQxyIARB8OXBABDqBwALIANBDGogA0EQciAEQfDlwQAQ6gcACyADQRBqIANBFHIgBEHw5cEAEOoHAAsgA0EUaiADQRhyIARB8OXBABDqBwALQQAgDiALQfzWwAAQ6gcAC0EAIAcgAkHs1sAAEOoHAAtBACAOIAxB3NbAABDqBwALQQAgDiANQczWwAAQ6gcAC0EAIBcgCEG81sAAEOoHAAsgASgCNCECIAAQowEhDyACRQ0AIARBBGsoAgAiAEF4cSIHIAJBAnQiAkEEQQggAEEDcSIAG2pJDQIgAEEAIAcgAkEnaksbDQMgBBCiAgsgASgCKCIABEAgA0EEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAiACQQAgByAAQSdqSxsNAyADEKICCyABKAIcIgAEQCAFQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0CIAJBACAHIABBJ2pLGw0DIAUQogILIAEoAhAiAARAIAZBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQIgAkEAIAcgAEEnaksbDQMgBhCiAgsgASgCBCIARQ0AIBJBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQEgAkEAIAcgAEEnaksbDQIgEhCiAgsgAUGQAWokACAPDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL9RYCHX8FfSMAQZABayIBJAACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAAoAswBIgJBH3FFBEAgAUEAOgBIIAFBADYCRCABIAJBBXYiGDYCQCAAIAFBQGsQ4QMgAUEANgIMIAFCgICAgMAANwIEIAFBADYCGCABQoCAgIDAADcCECABQQA2AiQgAUKAgICAwAA3AhwgAUEANgIwIAFCgICAgMAANwIoIAFBADYCPCABQoCAgIDAADcCNCACRQRAQQQhAyAAENQBIQ9BBCEFQQQhBkEEIRIMJAtBACECQQQhEgNAIAtBgIAEIBggFGsiByAHQYCABE8bIgdBA2wiDkkEQCAOIAtrIgIgASgCBCALa0sEQCABQQRqIAsgAkEEQQQQpAUgASgCCCESIAEoAgwhCwsgEiALQQJ0aiEFIAJBAk8EfyACQQJ0QQRrIgYEQCAFQQAgBvwLAAsgAiALaiICQQFrIQsgEiACQQJ0akEEawUgBQtBADYCACABIAtBAWoiCzYCDCABKAIYIQILIAIgB0kEQCAHIAJrIgYgASgCECACa0sEQCABQRBqIAIgBkEEQQQQpAUgASgCGCECCyABKAIUIgMgAkECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAIgBmoiBUEBayECIAMgBUECdGpBBGsFIAULQQA2AgAgASACQQFqIgI2AhgLIAEoAiQiDCAOSQRAIA4gDGsiBiABKAIcIAxrSwRAIAFBHGogDCAGQQRBBBCkBSABKAIkIQwLIAEoAiAiAyAMQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiAMaiIFQQFrIQwgAyAFQQJ0akEEawUgBQtBADYCACABIAxBAWoiDDYCJAsgASgCMCINIA5JBEAgDiANayIGIAEoAiggDWtLBEAgAUEoaiANIAZBBEEEEKQFIAEoAjAhDQsgASgCLCIDIA1BAnRqIQUgBkECTwR/IAZBAnRBBGsiBARAIAVBACAE/AsACyAGIA1qIgVBAWshDSADIAVBAnRqQQRrBSAFC0EANgIAIAEgDUEBaiINNgIwCyAHQQJ0IhcgASgCPCIISwRAIBcgCGsiBiABKAI0IAhrSwRAIAFBNGogCCAGQQRBBBCkBSABKAI8IQgLIAEoAjgiAyAIQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiAIaiIFQQFrIQggAyAFQQJ0akEEawUgBQtBADYCACABIAhBAWoiCDYCPAsgASgCCCESIBQgGEcEQCAUQQV0IQMgACgCzAEhBCAAKALIASEZQQAhFiABKAI4IRUgASgCFCEaIAEoAiAhGyABKAIsIRwgAiEFIAchBkEAIRFBACEPA0AgA0EDaiAETw0aIANBB2ogBE8NGyADQQtqIARPDRwgA0EPaiAETw0dIANBE2ogBE8NHiADQRdqIARPDR8gCyARTQ0EIAMgGWoiCUEEaioAACEeIAlBCGoqAAAhHyAJQQxqKgAAISAgCUEQaioAACEhIAlBFGoqAAAhIiASIBZqIhAgCSoAADgCACARQQFqIgogC08NBSAQQQRqIB44AgAgEUECaiITIAtPDQYgEEEIaiAfOAIAIA0gEU0NByAWIBxqIhAgIDgCACAKIA1PDQggEEEEaiAhOAIAIA0gE00NCSAQQQhqICI4AgAgA0EYaiIQIARPDQogDCARTQ0LIBYgG2oiECAJQRhqLQAAs0MAAH9DlTgCACADQRlqIh0gBE8NDCAKIAxPDQ0gEEEEaiAJQRlqLQAAs0MAAH9DlTgCACADQRpqIgogBE8NDiAMIBNNDQ8gEEEIaiAJQRpqLQAAs0MAAH9DlTgCACADQRtqIgogBE8NECAFRQ0RIA8gGmogCUEbai0AALNDAAB/Q5U4AgAgA0EcaiIKIARPDRIgA0EdaiIKIARPDRMgA0EeaiIKIARPDRQgA0EfaiIKIARPDRUgCCAPTQ0WIAlBHGotAAAhCiAJQR5qLQAAIRMgCUEfai0AACEQIBUgCUEdai0AALNDAAAAw5JDAAAAPJQ4AgAgD0EBaiIJIAhPDRcgFUEEaiATs0MAAADDkkMAAAA8lDgCACAPQQJqIgkgCE8NGCAVQQhqIBCzQwAAAMOSQwAAADyUOAIAIA9BA2oiCSAITw0ZIBVBDGogCrNDAAAAw5JDAAAAPJQ4AgAgBUEBayEFIBVBEGohFSADQSBqIQMgFkEMaiEWIBFBA2ohESAPQQRqIQ8gBkEBayIGDQALCyALIA5JDR4gAiAHSQ0fIAwgDkkNICANIA5JDSEgCCAXSQ0iIAEoAhQhBiABKAIgIQUgASgCLCEDIAFCBDcCiAEgAUICNwKAASABQgQ3AnggAUIENwJwIAFCBDcCaCABIBc2AmQgASABKAI4IgQ2AmAgASAONgJcIAEgAzYCWCABIA42AlQgASAFNgJQIAEgBzYCTCABIAY2AkggASAONgJEIAEgEjYCQCAAIBQgByABQUBrEH4gGCAHIBRqIhRLDQALDCILIAFBADYCUCABQQE2AkQgAUGE2sAANgJAIAFCBDcCSCABQUBrEJIHIQ8MIwsgESALQYzXwAAQjAcACyAKIAtBnNfAABCMBwALIBMgC0Gs18AAEIwHAAsgESANQbzXwAAQjAcACyAKIA1BzNfAABCMBwALIBMgDUHc18AAEIwHAAsgECAEQezXwAAQjAcACyARIAxB/NfAABCMBwALIB0gBEGM2MAAEIwHAAsgCiAMQZzYwAAQjAcACyAKIARBrNjAABCMBwALIBMgDEG82MAAEIwHAAsgCiAEQczYwAAQjAcACyACIAJB3NjAABCMBwALIAogBEHs2MAAEIwHAAsgCiAEQfzYwAAQjAcACyAKIARBjNnAABCMBwALIAogBEGc2cAAEIwHAAsgDyAIQazZwAAQjAcACyAJIAhBvNnAABCMBwALIAkgCEHM2cAAEIwHAAsgCSAIQdzZwAAQjAcACyADIANBBHIgBEHw5cEAEOoHAAsgA0EEaiADQQhyIARB8OXBABDqBwALIANBCGogA0EMciAEQfDlwQAQ6gcACyADQQxqIANBEHIgBEHw5cEAEOoHAAsgA0EQaiADQRRyIARB8OXBABDqBwALIANBFGogA0EYciAEQfDlwQAQ6gcAC0EAIA4gC0H81sAAEOoHAAtBACAHIAJB7NbAABDqBwALQQAgDiAMQdzWwAAQ6gcAC0EAIA4gDUHM1sAAEOoHAAtBACAXIAhBvNbAABDqBwALIAEoAjQhAiAAENQBIQ8gAkUNACAEQQRrKAIAIgBBeHEiByACQQJ0IgJBBEEIIABBA3EiABtqSQ0CIABBACAHIAJBJ2pLGw0DIAQQogILIAEoAigiAARAIANBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQIgAkEAIAcgAEEnaksbDQMgAxCiAgsgASgCHCIABEAgBUEEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAiACQQAgByAAQSdqSxsNAyAFEKICCyABKAIQIgAEQCAGQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0CIAJBACAHIABBJ2pLGw0DIAYQogILIAEoAgQiAEUNACASQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0BIAJBACAHIABBJ2pLGw0CIBIQogILIAFBkAFqJAAgDw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+0WAh1/BX0jAEGQAWsiASQAAkACQAJAIAAoAmgiAkEfcQRAIAFBADYCUCABQQE2AkQgAUGE2sAANgJAIAFCBDcCSCABQUBrEJIHIQMMAQsgAUEAOgBIIAFBADYCRCABIAJBBXYiGDYCQCAAIAFBQGsQ6QEgAUEANgIMIAFCgICAgMAANwIEIAFBADYCGCABQoCAgIDAADcCECABQQA2AiQgAUKAgICAwAA3AhwgAUEANgIwIAFCgICAgMAANwIoIAFBADYCPCABQoCAgIDAADcCNAJAAkAgAkUEQEEEIQNBBCEFQQQhBkEEIREMAQtBACECQQQhEQJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQANAIAtBgIAEIBggFGsiByAHQYCABE8bIgdBA2wiDkkEQCAOIAtrIgIgASgCBCALa0sEQCABQQRqIAsgAkEEQQQQpAUgASgCCCERIAEoAgwhCwsgESALQQJ0aiEFIAJBAk8EfyACQQJ0QQRrIgYEQCAFQQAgBvwLAAsgAiALaiICQQFrIQsgESACQQJ0akEEawUgBQtBADYCACABIAtBAWoiCzYCDCABKAIYIQILIAIgB0kEQCAHIAJrIgYgASgCECACa0sEQCABQRBqIAIgBkEEQQQQpAUgASgCGCECCyABKAIUIgMgAkECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAIgBmoiBUEBayECIAMgBUECdGpBBGsFIAULQQA2AgAgASACQQFqIgI2AhgLIAEoAiQiDCAOSQRAIA4gDGsiBiABKAIcIAxrSwRAIAFBHGogDCAGQQRBBBCkBSABKAIkIQwLIAEoAiAiAyAMQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiAMaiIFQQFrIQwgAyAFQQJ0akEEawUgBQtBADYCACABIAxBAWoiDDYCJAsgASgCMCINIA5JBEAgDiANayIGIAEoAiggDWtLBEAgAUEoaiANIAZBBEEEEKQFIAEoAjAhDQsgASgCLCIDIA1BAnRqIQUgBkECTwR/IAZBAnRBBGsiBARAIAVBACAE/AsACyAGIA1qIgVBAWshDSADIAVBAnRqQQRrBSAFC0EANgIAIAEgDUEBaiINNgIwCyAHQQJ0IhcgASgCPCIISwRAIBcgCGsiBiABKAI0IAhrSwRAIAFBNGogCCAGQQRBBBCkBSABKAI8IQgLIAEoAjgiAyAIQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiAIaiIFQQFrIQggAyAFQQJ0akEEawUgBQtBADYCACABIAhBAWoiCDYCPAsgASgCCCERAkAgFCAYRwRAIBRBBXQhAyAAKAJoIQQgACgCZCEZQQAhFiABKAI4IRUgASgCFCEaIAEoAiAhGyABKAIsIRwgAiEFIAchBkEAIRBBACESA0AgA0EDaiAETw0ZIANBB2ogBE8NGiADQQtqIARPDRsgA0EPaiAETw0cIANBE2ogBE8NHSADQRdqIARPDR4gCyAQTQ0CIAMgGWoiCUEEaioAACEeIAlBCGoqAAAhHyAJQQxqKgAAISAgCUEQaioAACEhIAlBFGoqAAAhIiARIBZqIg8gCSoAADgCACAQQQFqIgogC08NBCAPQQRqIB44AgAgEEECaiITIAtPDQUgD0EIaiAfOAIAIA0gEE0NBiAWIBxqIg8gIDgCACAKIA1PDQcgD0EEaiAhOAIAIA0gE00NCCAPQQhqICI4AgAgA0EYaiIPIARPDQkgDCAQTQ0KIBYgG2oiDyAJQRhqLQAAs0MAAH9DlTgCACADQRlqIh0gBE8NCyAKIAxPDQwgD0EEaiAJQRlqLQAAs0MAAH9DlTgCACADQRpqIgogBE8NDSAMIBNNDQ4gD0EIaiAJQRpqLQAAs0MAAH9DlTgCACADQRtqIgogBE8NDyAFRQ0QIBIgGmogCUEbai0AALNDAAB/Q5U4AgAgA0EcaiIKIARPDREgA0EdaiIKIARPDRIgA0EeaiIKIARPDRMgA0EfaiIKIARPDRQgCCASTQ0VIAlBHGotAAAhCiAJQR5qLQAAIRMgCUEfai0AACEPIBUgCUEdai0AALNDAAAAw5JDAAAAPJQ4AgAgEkEBaiIJIAhPDRYgFUEEaiATs0MAAADDkkMAAAA8lDgCACASQQJqIgkgCE8NFyAVQQhqIA+zQwAAAMOSQwAAADyUOAIAIBJBA2oiCSAITw0YIBVBDGogCrNDAAAAw5JDAAAAPJQ4AgAgBUEBayEFIBVBEGohFSADQSBqIQMgFkEMaiEWIBBBA2ohECASQQRqIRIgBkEBayIGDQALCyALIA5JDR0gAiAHSQ0eIAwgDkkNHyANIA5JDSAgCCAXSQ0hIAEoAhQhBiABKAIgIQUgASgCLCEDIAFCBDcCiAEgAUICNwKAASABQgQ3AnggAUIENwJwIAFCBDcCaCABIBc2AmQgASABKAI4IgQ2AmAgASAONgJcIAEgAzYCWCABIA42AlQgASAFNgJQIAEgBzYCTCABIAY2AkggASAONgJEIAEgETYCQCAAIBQgByABQUBrEJMCIAcgFGoiFCAYTw0iDAELCyAQIAtBjNfAABCMBwALIAogC0Gc18AAEIwHAAsgEyALQazXwAAQjAcACyAQIA1BvNfAABCMBwALIAogDUHM18AAEIwHAAsgEyANQdzXwAAQjAcACyAPIARB7NfAABCMBwALIBAgDEH818AAEIwHAAsgHSAEQYzYwAAQjAcACyAKIAxBnNjAABCMBwALIAogBEGs2MAAEIwHAAsgEyAMQbzYwAAQjAcACyAKIARBzNjAABCMBwALIAIgAkHc2MAAEIwHAAsgCiAEQezYwAAQjAcACyAKIARB/NjAABCMBwALIAogBEGM2cAAEIwHAAsgCiAEQZzZwAAQjAcACyASIAhBrNnAABCMBwALIAkgCEG82cAAEIwHAAsgCSAIQczZwAAQjAcACyAJIAhB3NnAABCMBwALIAMgA0EEciAEQfDlwQAQ6gcACyADQQRqIANBCHIgBEHw5cEAEOoHAAsgA0EIaiADQQxyIARB8OXBABDqBwALIANBDGogA0EQciAEQfDlwQAQ6gcACyADQRBqIANBFHIgBEHw5cEAEOoHAAsgA0EUaiADQRhyIARB8OXBABDqBwALQQAgDiALQfzWwAAQ6gcAC0EAIAcgAkHs1sAAEOoHAAtBACAOIAxB3NbAABDqBwALQQAgDiANQczWwAAQ6gcAC0EAIBcgCEG81sAAEOoHAAsgASgCNCIARQ0AIARBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQMgAkEAIAcgAEEnaksbDQQgBBCiAgsgASgCKCIABEAgA0EEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAyACQQAgByAAQSdqSxsNBCADEKICCyABKAIcIgAEQCAFQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0DIAJBACAHIABBJ2pLGw0EIAUQogILIAEoAhAiAARAIAZBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQMgAkEAIAcgAEEnaksbDQQgBhCiAgsgASgCBCIABEAgEUEEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAyACQQAgByAAQSdqSxsNASAREKICC0EAIQMMAQsMAgsgAUGQAWokACADDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL7RYCHX8FfSMAQZABayIBJAACQAJAAkAgACgCSCICQR9xBEAgAUEANgJQIAFBATYCRCABQYTawAA2AkAgAUIENwJIIAFBQGsQkgchAwwBCyABQQA6AEggAUEANgJEIAEgAkEFdiIYNgJAIAAgAUFAaxCEAiABQQA2AgwgAUKAgICAwAA3AgQgAUEANgIYIAFCgICAgMAANwIQIAFBADYCJCABQoCAgIDAADcCHCABQQA2AjAgAUKAgICAwAA3AiggAUEANgI8IAFCgICAgMAANwI0AkACQCACRQRAQQQhA0EEIQVBBCEGQQQhEQwBC0EAIQJBBCERAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAA0AgC0GAgAQgGCAUayIHIAdBgIAETxsiB0EDbCIOSQRAIA4gC2siAiABKAIEIAtrSwRAIAFBBGogCyACQQRBBBCkBSABKAIIIREgASgCDCELCyARIAtBAnRqIQUgAkECTwR/IAJBAnRBBGsiBgRAIAVBACAG/AsACyACIAtqIgJBAWshCyARIAJBAnRqQQRrBSAFC0EANgIAIAEgC0EBaiILNgIMIAEoAhghAgsgAiAHSQRAIAcgAmsiBiABKAIQIAJrSwRAIAFBEGogAiAGQQRBBBCkBSABKAIYIQILIAEoAhQiAyACQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgAiAGaiIFQQFrIQIgAyAFQQJ0akEEawUgBQtBADYCACABIAJBAWoiAjYCGAsgASgCJCIMIA5JBEAgDiAMayIGIAEoAhwgDGtLBEAgAUEcaiAMIAZBBEEEEKQFIAEoAiQhDAsgASgCICIDIAxBAnRqIQUgBkECTwR/IAZBAnRBBGsiBARAIAVBACAE/AsACyAGIAxqIgVBAWshDCADIAVBAnRqQQRrBSAFC0EANgIAIAEgDEEBaiIMNgIkCyABKAIwIg0gDkkEQCAOIA1rIgYgASgCKCANa0sEQCABQShqIA0gBkEEQQQQpAUgASgCMCENCyABKAIsIgMgDUECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAYgDWoiBUEBayENIAMgBUECdGpBBGsFIAULQQA2AgAgASANQQFqIg02AjALIAdBAnQiFyABKAI8IghLBEAgFyAIayIGIAEoAjQgCGtLBEAgAUE0aiAIIAZBBEEEEKQFIAEoAjwhCAsgASgCOCIDIAhBAnRqIQUgBkECTwR/IAZBAnRBBGsiBARAIAVBACAE/AsACyAGIAhqIgVBAWshCCADIAVBAnRqQQRrBSAFC0EANgIAIAEgCEEBaiIINgI8CyABKAIIIRECQCAUIBhHBEAgFEEFdCEDIAAoAkghBCAAKAJEIRlBACEWIAEoAjghFSABKAIUIRogASgCICEbIAEoAiwhHCACIQUgByEGQQAhEEEAIRIDQCADQQNqIARPDRkgA0EHaiAETw0aIANBC2ogBE8NGyADQQ9qIARPDRwgA0ETaiAETw0dIANBF2ogBE8NHiALIBBNDQIgAyAZaiIJQQRqKgAAIR4gCUEIaioAACEfIAlBDGoqAAAhICAJQRBqKgAAISEgCUEUaioAACEiIBEgFmoiDyAJKgAAOAIAIBBBAWoiCiALTw0EIA9BBGogHjgCACAQQQJqIhMgC08NBSAPQQhqIB84AgAgDSAQTQ0GIBYgHGoiDyAgOAIAIAogDU8NByAPQQRqICE4AgAgDSATTQ0IIA9BCGogIjgCACADQRhqIg8gBE8NCSAMIBBNDQogFiAbaiIPIAlBGGotAACzQwAAf0OVOAIAIANBGWoiHSAETw0LIAogDE8NDCAPQQRqIAlBGWotAACzQwAAf0OVOAIAIANBGmoiCiAETw0NIAwgE00NDiAPQQhqIAlBGmotAACzQwAAf0OVOAIAIANBG2oiCiAETw0PIAVFDRAgEiAaaiAJQRtqLQAAs0MAAH9DlTgCACADQRxqIgogBE8NESADQR1qIgogBE8NEiADQR5qIgogBE8NEyADQR9qIgogBE8NFCAIIBJNDRUgCUEcai0AACEKIAlBHmotAAAhEyAJQR9qLQAAIQ8gFSAJQR1qLQAAs0MAAADDkkMAAAA8lDgCACASQQFqIgkgCE8NFiAVQQRqIBOzQwAAAMOSQwAAADyUOAIAIBJBAmoiCSAITw0XIBVBCGogD7NDAAAAw5JDAAAAPJQ4AgAgEkEDaiIJIAhPDRggFUEMaiAKs0MAAADDkkMAAAA8lDgCACAFQQFrIQUgFUEQaiEVIANBIGohAyAWQQxqIRYgEEEDaiEQIBJBBGohEiAGQQFrIgYNAAsLIAsgDkkNHSACIAdJDR4gDCAOSQ0fIA0gDkkNICAIIBdJDSEgASgCFCEGIAEoAiAhBSABKAIsIQMgAUIENwKIASABQgI3AoABIAFCBDcCeCABQgQ3AnAgAUIENwJoIAEgFzYCZCABIAEoAjgiBDYCYCABIA42AlwgASADNgJYIAEgDjYCVCABIAU2AlAgASAHNgJMIAEgBjYCSCABIA42AkQgASARNgJAIAAgFCAHIAFBQGsQ4gEgByAUaiIUIBhPDSIMAQsLIBAgC0GM18AAEIwHAAsgCiALQZzXwAAQjAcACyATIAtBrNfAABCMBwALIBAgDUG818AAEIwHAAsgCiANQczXwAAQjAcACyATIA1B3NfAABCMBwALIA8gBEHs18AAEIwHAAsgECAMQfzXwAAQjAcACyAdIARBjNjAABCMBwALIAogDEGc2MAAEIwHAAsgCiAEQazYwAAQjAcACyATIAxBvNjAABCMBwALIAogBEHM2MAAEIwHAAsgAiACQdzYwAAQjAcACyAKIARB7NjAABCMBwALIAogBEH82MAAEIwHAAsgCiAEQYzZwAAQjAcACyAKIARBnNnAABCMBwALIBIgCEGs2cAAEIwHAAsgCSAIQbzZwAAQjAcACyAJIAhBzNnAABCMBwALIAkgCEHc2cAAEIwHAAsgAyADQQRyIARB8OXBABDqBwALIANBBGogA0EIciAEQfDlwQAQ6gcACyADQQhqIANBDHIgBEHw5cEAEOoHAAsgA0EMaiADQRByIARB8OXBABDqBwALIANBEGogA0EUciAEQfDlwQAQ6gcACyADQRRqIANBGHIgBEHw5cEAEOoHAAtBACAOIAtB/NbAABDqBwALQQAgByACQezWwAAQ6gcAC0EAIA4gDEHc1sAAEOoHAAtBACAOIA1BzNbAABDqBwALQQAgFyAIQbzWwAAQ6gcACyABKAI0IgBFDQAgBEEEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAyACQQAgByAAQSdqSxsNBCAEEKICCyABKAIoIgAEQCADQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0DIAJBACAHIABBJ2pLGw0EIAMQogILIAEoAhwiAARAIAVBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQMgAkEAIAcgAEEnaksbDQQgBRCiAgsgASgCECIABEAgBkEEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAyACQQAgByAAQSdqSxsNBCAGEKICCyABKAIEIgAEQCARQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0DIAJBACAHIABBJ2pLGw0BIBEQogILQQAhAwwBCwwCCyABQZABaiQAIAMPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAu1FgEOfwJ/AkAgAiADSwRAIAEgA0EebGoiAy8BACICQf//AXFFBEAgAkEQdAwDCyACQf8HcSEBIAJBgIACcSEFIAJBgPgBcSICQYD4AUYEQCAFQRB0IQIgAkGAgID8B3IgAUUNAxogAiABQQ10ckGAgID+B3IMAwsgBUEQdCEFIAJFDQEgAkENdEGAgID8AHEgAUENdHJBgICAwANqIAVyDAILIAMgAkGEwccAEIwHAAsgBUGAgIDYA3IgAWdBEGsiAkEXdGsgASACQf//A3FBCGp0Qf///wNxcgshAQJ/IAMvAQIiBUH//wFxRQRAIAVBEHQMAQsgBUH/B3EhAiAFQYCAAnEhBiAFQYD4AXEiBUGA+AFGBEAgBkEQdCEFIAVBgICA/AdyIAJFDQEaIAUgAkENdHJBgICA/gdyDAELIAZBEHQhBiAFQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogBnIgBQ0AGiAGQYCAgNgDciACZ0EQayIFQRd0ayACIAVB//8DcUEIanRB////A3FyCyEFAn8gAy8BBCIGQf//AXFFBEAgBkEQdAwBCyAGQf8HcSECIAZBgIACcSEHIAZBgPgBcSIGQYD4AUYEQCAHQRB0IQYgBkGAgID8B3IgAkUNARogBiACQQ10ckGAgID+B3IMAQsgB0EQdCEHIAZBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAHciAGDQAaIAdBgICA2ANyIAJnQRBrIgZBF3RrIAIgBkH//wNxQQhqdEH///8DcXILIQYCfyADLwEGIgdB//8BcUUEQCAHQRB0DAELIAdB/wdxIQIgB0GAgAJxIQggB0GA+AFxIgdBgPgBRgRAIAhBEHQhByAHQYCAgPwHciACRQ0BGiAHIAJBDXRyQYCAgP4HcgwBCyAIQRB0IQggB0ENdEGAgID8AHEgAkENdHJBgICAwANqIAhyIAcNABogCEGAgIDYA3IgAmdBEGsiB0EXdGsgAiAHQf//A3FBCGp0Qf///wNxcgshBwJ/IAMvAQgiCEH//wFxRQRAIAhBEHQMAQsgCEH/B3EhAiAIQYCAAnEhCSAIQYD4AXEiCEGA+AFGBEAgCUEQdCEIIAhBgICA/AdyIAJFDQEaIAggAkENdHJBgICA/gdyDAELIAlBEHQhCSAIQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogCXIgCA0AGiAJQYCAgNgDciACZ0EQayIIQRd0ayACIAhB//8DcUEIanRB////A3FyCyEIAn8gAy8BCiIJQf//AXFFBEAgCUEQdAwBCyAJQf8HcSECIAlBgIACcSEKIAlBgPgBcSIJQYD4AUYEQCAKQRB0IQkgCUGAgID8B3IgAkUNARogCSACQQ10ckGAgID+B3IMAQsgCkEQdCEKIAlBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAKciAJDQAaIApBgICA2ANyIAJnQRBrIglBF3RrIAIgCUH//wNxQQhqdEH///8DcXILIQkCfyADLwEMIgpB//8BcUUEQCAKQRB0DAELIApB/wdxIQIgCkGAgAJxIQsgCkGA+AFxIgpBgPgBRgRAIAtBEHQhCiAKQYCAgPwHciACRQ0BGiAKIAJBDXRyQYCAgP4HcgwBCyALQRB0IQsgCkENdEGAgID8AHEgAkENdHJBgICAwANqIAtyIAoNABogC0GAgIDYA3IgAmdBEGsiCkEXdGsgAiAKQf//A3FBCGp0Qf///wNxcgshCgJ/IAMvAQ4iC0H//wFxRQRAIAtBEHQMAQsgC0H/B3EhAiALQYCAAnEhDCALQYD4AXEiC0GA+AFGBEAgDEEQdCELIAtBgICA/AdyIAJFDQEaIAsgAkENdHJBgICA/gdyDAELIAxBEHQhDCALQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogDHIgCw0AGiAMQYCAgNgDciACZ0EQayILQRd0ayACIAtB//8DcUEIanRB////A3FyCyELAn8gAy8BECIMQf//AXFFBEAgDEEQdAwBCyAMQf8HcSECIAxBgIACcSENIAxBgPgBcSIMQYD4AUYEQCANQRB0IQwgDEGAgID8B3IgAkUNARogDCACQQ10ckGAgID+B3IMAQsgDUEQdCENIAxBDXRBgICA/ABxIAJBDXRyQYCAgMADaiANciAMDQAaIA1BgICA2ANyIAJnQRBrIgxBF3RrIAIgDEH//wNxQQhqdEH///8DcXILIQwCfyADLwESIg1B//8BcUUEQCANQRB0DAELIA1B/wdxIQIgDUGAgAJxIQ4gDUGA+AFxIg1BgPgBRgRAIA5BEHQhDSANQYCAgPwHciACRQ0BGiANIAJBDXRyQYCAgP4HcgwBCyAOQRB0IQ4gDUENdEGAgID8AHEgAkENdHJBgICAwANqIA5yIA0NABogDkGAgIDYA3IgAmdBEGsiDUEXdGsgAiANQf//A3FBCGp0Qf///wNxcgshDQJ/IAMvARQiDkH//wFxRQRAIA5BEHQMAQsgDkH/B3EhAiAOQYCAAnEhDyAOQYD4AXEiDkGA+AFGBEAgD0EQdCEOIA5BgICA/AdyIAJFDQEaIA4gAkENdHJBgICA/gdyDAELIA9BEHQhDyAOQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogD3IgDg0AGiAPQYCAgNgDciACZ0EQayIOQRd0ayACIA5B//8DcUEIanRB////A3FyCyEOAn8gAy8BFiIPQf//AXFFBEAgD0EQdAwBCyAPQf8HcSECIA9BgIACcSEQIA9BgPgBcSIPQYD4AUYEQCAQQRB0IQ8gD0GAgID8B3IgAkUNARogDyACQQ10ckGAgID+B3IMAQsgEEEQdCEQIA9BDXRBgICA/ABxIAJBDXRyQYCAgMADaiAQciAPDQAaIBBBgICA2ANyIAJnQRBrIg9BF3RrIAIgD0H//wNxQQhqdEH///8DcXILIQ8CfyADLwEYIhBB//8BcUUEQCAQQRB0DAELIBBB/wdxIQIgEEGAgAJxIQQgEEGA+AFxIhBBgPgBRgRAIARBEHQhECAQQYCAgPwHciACRQ0BGiAQIAJBDXRyQYCAgP4HcgwBCyAEQRB0IQQgEEENdEGAgID8AHEgAkENdHJBgICAwANqIARyIBANABogBEGAgIDYA3IgAmdBEGsiEEEXdGsgAiAQQf//A3FBCGp0Qf///wNxcgshEAJ/IAMvARoiBEH//wFxRQRAIARBEHQMAQsgBEH/B3EhAiAEQYCAAnEhESAEQYD4AXEiBEGA+AFGBEAgEUEQdCEEIARBgICA/AdyIAJFDQEaIAQgAkENdHJBgICA/gdyDAELIBFBEHQhESAEQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogEXIgBA0AGiARQYCAgNgDciACZ0EQayIEQRd0ayACIARB//8DcUEIanRB////A3FyCyECIAACfyADLwEcIgRB//8BcUUEQCAEQRB0DAELIARB/wdxIQMgBEGAgAJxIREgBEGA+AFxIgRBgPgBRgRAIBFBEHQhBCAEQYCAgPwHciADRQ0BGiAEIANBDXRyQYCAgP4HcgwBCyARQRB0IREgBEENdEGAgID8AHEgA0ENdHJBgICAwANqIBFyIAQNABogEUGAgIDYA3IgA2dBEGsiBEEXdGsgAyAEQf//A3FBCGp0Qf///wNxcgs2AjggACACNgI0IAAgEDYCMCAAIA82AiwgACAONgIoIAAgDTYCJCAAIAw2AiAgACALNgIcIAAgCjYCGCAAIAk2AhQgACAINgIQIAAgBzYCDCAAIAY2AgggACAFNgIEIAAgATYCAAv3FQIRfwJ+IwBBIGsiCiQAAkACQAJAA0ACfyABKAKcAyICIAEpA6ADIhMgAq0iFCATIBRUG6ciBEYEQEEBIQVBJSEGQQAhB0EAIQJBACEJQQAhCyADQYB+cUEkcgwBCyAKQQhqIAEgASgCmAMgBGogAiAEa0EAENYBIAopAhAiE0IoiKchByATQiCIpyECIBNCGIinIQkgE0IQiKchCyATQgiIpyEGIAotABshDCAKLQAaIQ4gCi0AGSEIIAotABghDSAKKAIMIQQgE6chBSAEIAooAggNABogASABKQOgAyAErXw3A6ADIANBgH5xQShyCyIDQf8BcUEoRwRAIANBCHYhAQwCCwJAAkACQAJAIAVB/wFxQQFrDgIAAQQLIA1B/wFxIgRByQBGDQEgBEHmAEcgCEHkAEdyIA5B/wFxQcEARyAMQf8BcUHUAEdycg0DDAILIAZB/wFxQckARyALQf8BcUHFAEdyIAlB/wFxQc4ARyACQf8BcUHEAEdycg0CQQMhAwwDCyAIQcQARyAOQf8BcUHBAEdyIAxB/wFxQdQAR3INAQsLAn8CQCABKAIIQQJHBEBBASEHIAFBCGoiA0G4AkGgAiABLQC5AkECRiIFG2ooAgAhBCADQbQCQZwCIAUbaigCACEDIAEtAMQCIg9BAUYEQCAEQQN2IARBB3FBAEdqIQUgA0UgBEVyRQRAIANBA3YgA0EHcUEAR2ohAkEBIQ1BASEIQQEhDEEBDAQLQQEhDSAERSADQQRNcg0CIANBBGsiAkEAIAIgA00bIgJBA3YgAkEHcUEAR2ohAkECIQdBASEIQQIhDEEBDAMLIARFBEBBACENQQAhBUEAIQhBAgwDC0EAIQ0gBCEFQQEhCEEADAILQayYxwAQ3QkACyADRSAEQQVJckUEQEEDIQcgBEEEayICQQAgAiAETRsiAkEDdiACQQdxQQBHaiEFIANBAnYgA0EDcUEAR2ohAkEBIQhBAyEMQQEMAQsgBEUgA0ECTXJFBEAgA0ECayICQQAgAiADTRsiAkECdiACQQNxQQBHaiECIARBAnYgBEEDcUEAR2ohBUEEIQdBASEIQQQhDEEBDAELAkAgBEEDSQ0AIAMgA0EBdmsiAkUNACAEQQJrIgVBACAEIAVPGyIFQQJ2IAVBA3FBAEdqIQVBBSEHQQEhCEEFIQxBAQwBCwJAIAQgBEEBdmsiBUUNACADQQFrIgJBACACIANNGyICIAJBAXZrIgJFDQBBBiEHQQEhCEEGIQxBAQwBC0EAIQhBByEHIARBAWsiAkEAIAIgBE0bIgIgAkEBdmsiBUUgA0VyRQRAIAMhAkEBIQhBByEMQQEMAQsgAyECQQILIQ4gAS0AxgIiCUECdCIQKAKQlEkgA2whCwJAAkACQCABLQDHAiIGQQhrDgkCAAAAAAAAAAEACyAGQQhNBEAgC0EIIAZuIhFuIhIgCyARIBJsR2ohCwwCCwwECyALQQF0IQsLIAFBADoA5AMgASAENgLcAyABIAM2AtgDIAEgDDoA1AMgASACNgLQAyABIAM2AswDIAFBADYCyAMgASAONgLEAyABIAc6AMADIAEgBDYCvAMgASADNgK4AyABIAI2ArQDIAEgBTYCsAMgASAINgKsAyABIA02AqgDIAEgC0EBaiIFNgLgAwJAIBAoAoCVSSAGQQdqQQN2bEEBayICQQdLQa8BIAJ2QQFxRXJFBEAgAUKBhIyggMCBgAggAkEDdK2IPADFBCAPRQRAIAStIAWtfiETDAILIAlBAnQiAigCyJRJIANBA3YgA0EHcUEAR2psIQsCQAJAAkAgBkEIayIFDgkCAAAAAAAAAAEACyAGQQhNBEAgC0EIIAZuIgduIg4gCyAHIA5sR2ohCwwCCwwGCyALQQF0IQsLIAIoApyVSSADQQRrIgJBACACIANNGyICQQN2IAJBB3FBAEdqbCECAkACQAJAAkACQAJAIAUOCQABAQEBAQEBAgELIAlBAnQoAriVSSADQQJ2IANBA3FBAEdqbCEHIAJBAWohDQwECyAGQQlPDQggCUECdCgCuJVJIANBAnYgA0EDcUEAR2psIQcgAkEIIAZuIgVuIg4gAiAFIA5sR2pBAWohDSAGQQhrDgkDAgICAgICAgECCyAJQQJ0KAK4lUkgA0ECdiADQQNxQQBHamwhByACQQF0QQFyIQ0LIAdBAXQhBwwBCyAHQQggBm4iAm4iBSAHIAIgBWxHaiEHCyAJQQJ0IgUoAtSVSSADQQJrIgJBACACIANNGyICQQJ2IAJBA3FBAEdqbCECAkACQAJAAkACQAJAIAZBCGsOCQABAQEBAQEBAgELIAUoAvCVSSADIANBAXZrbCEFIARBAnYgBEEDcUEAR2ohDiACQQFqIQwMBAsgBkEJTw0IIAlBAnQoAvCVSSADIANBAXZrbCEFIARBAnYgBEEDcUEAR2ohDiACQQggBm4iDG4iCCACIAggDGxHakEBaiEMIAZBCGsOCQMCAgICAgICAQILIAUoAvCVSSADIANBAXZrbCEFIARBAnYgBEEDcUEAR2ohDiACQQF0QQFyIQwLIAVBAXQhBQwBCyAFQQggBm4iAm4iCCAFIAIgCGxHaiEFCyAJQQJ0IgIoAoyWSSADQQFrIghBACADIAhPGyIIIAhBAXZrbCEJAkACQAJAIAZBCGsiCA4JAgAAAAAAAAABAAsgBkEITQRAIAlBCCAGbiIPbiIQIAkgDyAQbEdqIQkMAgsMBgsgCUEBdCEJCyACKALklEkgA2whAgJAAkACQCAIDgkCAAAAAAAAAAEACyAGQQhNBEAgAkEIIAZuIgZuIgggAiAGIAhsR2ohAgwCCwwGCyACQQF0IQILIARBBGsiBkEAIAQgBk8bIgZBA3YgBkEHcUEAR2qtIAdBAWqtfiAEQQN2IARBB3FBAEdqrSANrSALQQFqrXx+fCAOrSAMrX58IARBAmsiB0EAIAQgB08bIgdBAnYgB0EDcUEAR2qtIAVBAWqtfnwgBCAEQQF2a60gCUEBaq1+fCAEQQFrIgVBACAEIAVPGyIEIARBAXZrrSACQQFqrX58IRMMAQsgCkEANgIYIApBATYCDCAKQbiPxQA2AgggCkIENwIQIApBCGpBwI/FABCNCAALIAFBADYC+AMCQAJAIAEoAogEIgJBgoCAgHhIIAJFckUEQCABKAKMBCIDQQRrKAIAIgRBeHEiBUEEQQggBEEDcSIEGyACakkNASAEQQAgBSACQSdqSxsNAiADEKICIAEoAtgDIQMLIAFBADYCnAQgAUIANwKUBCABQYCAgIB4NgKIBCABIBM3A+gDIAogARCKBSAKLQAAQQJ0KAKslEkgA2whAwJAAkACQCAKLQABIgJBCGsOCQIAAAAAAAAAAQALIAJBCE0EQCADQQggAm4iAm4iBCADIAIgBGxHaiEDDAILDAYLIANBAXQhAwsgAyABKAKIAyICSwRAIABBJzoAAAwECyAAQSg6AAAgASACIANrNgKIAwwDC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgACAHOwAJIAAgATsAASAAIAw6AA8gACAOOgAOIAAgCDoADSAAIA06AAwgACACOgAIIAAgCToAByAAIAs6AAYgACAGOgAFIAAgBToABCAAIAM6AAAgAEELaiAHQRB2OgAAIABBA2ogAUEQdjoAAAsgCkEgaiQADwtB0I/FABCBCAALyBUCB38HfiMAQeACayICJAACfwJAAn8CQAJAAkACQCAALQAAQQNrDgUBAAAAAgALIAAgARDKAgwFCyAAKQMIIglC/////////weDIQogCUL///////////8Ag0L/////////9/8AWARAIAlCNIinIQAgCUIAUw0CIAJBsAJqDAMLQeydxgBB753GACAJQgBZIgAbQfOdxgAgClAiAxshBEEDQQQgABtBAyADGyEADAMLIAEoAgBB8ZLGAEEEIAEoAgQoAgwRAAAMAwsgAkEtOgCwAkEBIQggAkGxAmoLIQYCfwJAAkACQAJAAkACQAJAAkAgAEH/D3EiAEUgClBxRQRAIABBAkkgCkIAUnIhBCAKQoCAgICAgIAIhCAKIAAbIglCAoYhCiAJQgGDIQ8CQAJAAkAgAEG1CGtBzHcgABsiAEEASARAIAJBkAJqQYC8xQAgACAAQYWiU2xBFHYgAEF/R2siAGoiB0EEdCIDaykDACIJIApCAoQiCxDdBiACQYACakGIvMUAIANrKQMAIg0gCxDdBiACQfABaiACKQOYAiILIAIpA4ACfCIMIAIpA4gCIAsgDFatfCAAIAdBsdm1H2xBE3ZrQfwAakH/AHFBwABzIgMQoQcgAkGwAWogCSAKIARBf3OsfCILEN0GIAJBoAFqIA0gCxDdBiACQZABaiACKQO4ASILIAIpA6ABfCIMIAIpA6gBIAsgDFatfCADEKEHIAJB4AFqIAkgChDdBiACQdABaiANIAoQ3QYgAkHAAWogAikD6AEiCSACKQPQAXwiDSACKQPYASAJIA1WrXwgAxChByACKQPAASELIAIpA5ABIQkgAikD8AEhDCAAQQJJDQFBACEDIABBP0kNAgwFCyACQYABaiAAQcHoBGxBEnYgAEEDS2siB0EEdCIDKQPg5EUiCSAKQgKEIg0Q3QYgAkHwAGogA0Ho5MUAaikDACILIA0Q3QYgAkHgAGogAikDiAEiDCACKQNwfCIOIAIpA3ggDCAOVq18IAcgAGsgB0HPpsoAbEETdmpB/QBqQf8AcUHAAHMiABChByACQSBqIAkgCiAEQX9zrHwiDBDdBiACQRBqIAsgDBDdBiACIAIpAygiDCACKQMQfCIOIAIpAxggDCAOVq18IAAQoQcgAkHQAGogCSAKEN0GIAJBQGsgCyAKEN0GIAJBMGogAikDWCIJIAIpA0B8IgsgAikDSCAJIAtWrXwgABChByACKQMwIQsgAikDACEJIAIpA2AhDCAHQRZJDQJBACEDDAQLIAwgD30hDCAPUCAEcSEDQQEhBQwECyAKQn8gAK2GQn+Fg1AhBQwCC0EAIAqnayAKQgWAp0F7bEYEQEF/IQADQCAAQQFqIQAgCkLNmbPmzJmz5kx+IgpCtObMmbPmzJkzVA0ACyAAIAdPIQVBACEDDAILIA9QRQRAQX8hAANAIABBAWohACANQs2Zs+bMmbPmTH4iDUK05syZs+bMmTNUDQALIAwgACAHT619IQxBACEDDAILIAStQn+FIAp8IQpBfyEAA0AgAEEBaiEAIApCzZmz5syZs+ZMfiIKQrTmzJmz5syZM1QNAAsgACAHTyEDDAELIAZBAmpBwo/GAC0AADoAACAGQcCPxgAvAAA7AAAgCUI/iKdBA2ohACACQbACaiEEDAkLIAMNACAFRQ0BC0EAIQQgDEIKgCIOIAlCCoAiDFYNAUEAIQAgCSEKIAshDQwCC0EAIQQgDELkAIAiCiAJQuQAgCIOVg0CQQAhACAJIQ4gDCEKIAshCQwEC0EAIQADQCADQQAgCadrIAwiCqdBdmxGcSEDIABBAWohACAFIARB/wFxRXEhBSALpyALQgqAIg2nQXZsaiEEIA0hCyAOQgqAIg4gCiIJQgqAIgxWDQALCwJAIAMEQEEAIAqnayAKQgqAIgunQXZsRg0BCyANIQkMAgsDQCAAQQFqIQAgBSAEQf8BcUVxIQUgDacgDUIKgCIJp0F2bGohBCAJIQ1BACALp2sgCyIKQgqAIgunQXZsRg0ACwwBCyALpyALQuQAgCIJp0Gcf2xqQTFLIQRBAiEADAELIA9QIANxRSAJIApRcUEEQQUgCUIBg1AbIAQgBEH/AXFBBUYbIAQgBRtB/wFxQQRLcgwBCyAKQgqAIgogDkIKgCINVgR/A0AgAEEBaiEAIAkiC0IKgCEJIApCCoAiCiANIg5CCoAiDVYNAAsgC6cgCadBdmxqQQRLBSAECyAJIA5RcgshBAJAAn8CfwJAAkACQAJ/AkACQAJAIAAgB2oiA0EATiADAn9BESAJIAStQgGDfCIJQv//g/6m3uERVg0AGkEQIAlC//+Zpuqv4wFWDQAaQQ8gCUL//+iDsd4WVg0AGkEOIAlC/7/K84SjAlYNABpBDSAJQv+flKWNHVYNABpBDCAJQv/P28P0AlYNABpBCyAJQv/Hr6AlVg0AGkEKIAlC/5Pr3ANWDQAaQQkgCUL/wdcvVg0AGkEIIAlC/6ziBFYNABpBByAJQr+EPVYNABpBBiAJQp+NBlYNABpBBSAJQo/OAFYNABpBBCAJQucHVg0AGkEDIAlC4wBWDQAaQQJBASAJQglWGwsiAGoiBUERSHFFBEAgBUEBayIEQRBJDQEgBUEEakEFSQ0CIABBAUcNBSACQbACaiIAIAhqIAmnQTBqOgAAIAZB5QA6AAEgACAIQQJyIgZqIQMgBEEASA0DIAQMBAsgCSAAIAZqEMAEIANFIAAgBU5yRQRAIAJBsAJqIABqIAhqQTAgA/wLAAsgBSAIaiIAIAJBsAJqIgRqQa7gADsAACAAQQJqIQAMCgsgCSAAIAhqQQFqIgAgAkGwAmpqEMAEIAUEQCAGIAZBAWogBfwKAAALIAUgBmpBLjoAACACQbACaiEEDAkLIAJBsAJqIAhqQTA6AAAgBkEuOgABQQIgBWshBAJAIAVBAE4NAEEDIAQgBEEDTRtBAmsiA0UNACAGQQJqQTAgA/wLAAsgCSAAIAhqIARqIgAgAkGwAmoiBGoQwAQMCAsgA0EtOgAAIANBAWohA0EBIAVrCyIAQeMASg0BIABBCUwEQCADIABBMGo6AAAgBEEfdkEBaiEADAYLIAMgAEEBdC8AuLpFOwAAIARBH3ZBAnIhAAwFCyAJIAAgCGoiACACQbACaiIHaiIDQQFqEMAEIAcgCGogBi0AAToAACAGQS46AAEgA0HlADoAASAHIABBAmoiBmohAyAEQQBIDQEgBAwCCyADIABB5ABuIgVBMGo6AAAgAyAAIAVB5ABsa0EBdC8AuLpFOwABIARBH3ZBA2ohAAwDCyADQS06AAAgA0EBaiEDQQEgBWsLIgBB4wBMBEAgAEEJTARAIAMgAEEwajoAACAEQR92QQFqDAILIAMgAEEBdC8AuLpFOwAAIARBH3ZBAnIMAQsgAyAAQeQAbiIFQTBqOgAAIAMgACAFQeQAbGtBAXQvALi6RTsAASAEQR92QQNqCyAGaiEAIAJBsAJqIQQMAQsgACAGaiEAIAJBsAJqIQQLIAIgADYCrAIgAiAENgKoAiACIAJBqAJqrUKAgICAIIQ3A6ACIAEoAgAgASgCBCACQgE3AtQCIAJBAjYCzAIgAkHspcYANgLIAiACIAJBoAJqNgLQAiACQcgCahDBAwsgAkHgAmokAAvbGAMnfwp7BX4jAEEgayIIJAAgAC8BJCIFQQ9qIgtB8P8DcSEHIAtB8P8HcSENIAAoAiAhBiAAKAIcIRIgACgCFCEKIAAoAhAhEyAAKAIIIQQgACgCBCEUAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAMEQCANQf//A3EiEEUNASAGIAdBAXYiCXAhACAKIAlwIQMgBUUNAiAEIAduIgQgAiAFQQNsIhduIgIgAiAESxsiJkUNEiAGIABrIRggCiADayEZIAUgEEsNESAFQQFxIScgCa0hNyAXIBdBBnAiKGsiFUEGa0EGbiIAIAVBAXYiAiAAIAJJGyIAIAUgAmtB//8DcSIRIAAgEUkbIiFBf3MgIUEBaiIAQQNxIgJBBCACGyICaiEiIAAgAmsiGkEGbCEpIAVB/v8DcSIbIBpBAXQiKmshIyAVIBpBemxqISQgASENIBQhEEEAIQpBACEFA0ACfyAFRSA1QoCAgIAQVHJFBEAgNUKAgICAcINCgICAgBB9ITggNacMAQsgCSAZSw0UIBkgCWshGUKAgICAECE4IDchNSAJIBMiBWohEyAJCyEEAn4gCkUgNkKAgICAEFRyRQRAIDanIQAgNkKAgICAcINCgICAgBB9DAELIAkgGEsNFCAYIAlrIRggNyE2IBIiCiAJIgBqIRJCgICAgBALITkgBCARSQ0EIAAgEUkNBSAUIAcgHGxqIR0gASAXIBxsaiEeIDVC/////w+DIDZC/////w+DITYgBSARaiElIAohCyAFIQwCQAJAIBVBBkkNACAVIQYgHiEEIBshACAdIQ4gIUEETwRAIA4gKmohDiAKIBpqIQsgBSAaaiEMIAQgKWohBCANIQAgBSEDIAohDyAiIQIgECEGA0AgACAP/VwAAP2JAf2pASIt/QwlZgAAJWYAACVmAAAlZgAA/bUBQQj9rQH9DGbI//9myP//Zsj//2bI///9rgEiLyAG/V0AACIwICz9DQACBAYAAAAAAAAAAAAAAAD9iQH9qQH9DIVKAACFSgAAhUoAAIVKAAAiMf21AUEI/a0BIiv9rgFBBv2sAf0MAAAAAAAAAAAAAAAAAAAAACIs/bgB/Qz/AAAA/wAAAP8AAAD/AAAAIi79tgEgKyAt/QwINAAACDQAAAg0AAAINAAA/bUBQQj9rQEgA/1cAAD9iQH9qQEiLf0MExkAABMZAAATGQAAExkAAP21AUEI/a0B/a4BIjL9sQH9DAQiAAAEIgAABCIAAAQiAAAiM/2uAUEG/awBICz9uAEgLv22Af0NAAQIDBAUGBwAAAAAAAAAACArIC39DBqBAAAagQAAGoEAABqBAAD9tQFBCP2tAf0M67r//+u6///ruv//67r///2uASI0/a4BQQb9rAEgLP24ASAu/bYBIiv9GwD9FwggK/0bAf0XCSAr/RsC/RcKICv9GwP9FwsgMCAs/Q0BAwUHAAAAAAAAAAAAAAAA/YkB/akBIDH9tQFBCP2tASItIC/9rgFBBv2sASAs/bgBIC79tgEiK/0bAP0XDCAr/RsB/RcNICv9GwL9Fw4gK/0bA/0XDyIrIC0gMv2xASAz/a4BQQb9rAEgLP24ASAu/bYBIC0gNP2uAUEG/awBICz9uAEgLv22Af0NAAQIDBAUGBwAAAAAAAAAACIs/Q0SFgMHCw8TFwAAAAAAAAAA/VsAEAAgACArICz9DQAECAwQFAEFCQ0RFQIGCg79CwAAIABBGGohACADQQRqIQMgD0EEaiEPIAZBCGohBiACQQRqIgINAAsgJCEGICMhAAsDQCAARQ0BIAwgJUYNAiAEQQJqQf8BIA4tAABBhZUBbEEIdiICIAwtAAAiD0GaggJsQQh2QZWKAWsiA2pBBnUiH0EAIB9BAEobIh8gH0H/AU4bOgAAIARB/wEgCy0AACIfQaXMAWxBCHZBmu8AayIgIAJqQQZ1IhZBACAWQQBKGyIWIBZB/wFOGzoAACAEQQVqQf8BIAMgDkEBai0AAEGFlQFsQQh2IgNqQQZ1IhZBACAWQQBKGyIWIBZB/wFOGzoAACAEQQNqQf8BIAMgIGpBBnUiIEEAICBBAEobIiAgIEH/AU4bOgAAIARBAWpB/wEgAiAfQYjoAGxBCHYgD0GTMmxBCHZqIgJrQYTEAGpBBnUiD0EAIA9BAEobIg8gD0H/AU4bOgAAIARBBGpB/wEgAyACa0GExABqQQZ1IgJBACACQQBKGyICIAJB/wFOGzoAACAEQQZqIQQgDkECaiEOIAtBAWohCyAMQQFqIQwgAEECayEAIAZBBmsiBkEGTw0ACwsgCyAKIBFqRiAoQQNJciAnRSAMICVGcnINACAVIB5qIgBB/wEgGyAdai0AAEGFlQFsQQh2IgIgDC0AACIDQZqCAmxBCHZqQZWKAWtBBnUiBkEAIAZBAEobIgYgBkH/AU4bOgACIABB/wEgAiALLQAAIgZBpcwBbEEIdmpBmu8Aa0EGdSIEQQAgBEEAShsiBCAEQf8BThs6AAAgAEH/ASACIANBkzJsQQh2IAZBiOgAbEEIdmprQYTEAGpBBnUiAEEAIABBAEobIgAgAEH/AU4bOgABCyA4hCE1IDYgOYQhNiANIBdqIQ0gByAQaiEQIBxBAWoiHCAmSQ0ACwwSCyAEIAVJDQQgBSAFQQF2ayIDIApLDQUgAyAGSw0GIAIgBUEDbCIJSQ0HIAAvASYhFSABIAkgFCAFIBMgAyASIAMQeSAFRQ0IIAIgCWsiAiAFQQZsIgxwIQ8gByAVbCIAIAdJIAAgBEtyDQkgDUH//wNxIg1FDQogB0EBdiEEIAEgCWohGyAAIAdrIgAgACAHQQF0IhBwIh5rIQAgByAUaiEdAkAgAiAPayIiIAxJDQAgBSANSwRAIAYgB0kgByAKS3IgACAQSXINAUEAIAUgB0Ho6cQAEOoHAAsgAyAESwRAIAYgB0kgByAKS3IgACAQSXINAUEAIAMgBEHY6cQAEOoHAAsgACAQSSAHIApLciAGIAdJciECIAcgBGsiDSADSQRAIAINAUEAIAMgDUHI6cQAEOoHAAsgAg0AIBsgCSAdIAUgEyADIAQgE2oiIyADIBIgAyAEIBJqIiQgAxBrIAkgG2ogCSAHIB1qIAUgIyADIBMgAyAkIAMgEiADEGsgIiAMayINIAxJDQAgBEEBayERIAogBGshFyAHIBNqIRggBUEMbCEZIAVBCWwhGiAHIBJqIRwgC0Hw/wNxQQR2IgJBBnQhISACQTBsISVBACELIAAhAgNAIAIgEGsiAiAQSSAKIAtqQQFrIBFJciALIBdqIAdJIAYgC2pBAWsgEUlycg0BIAYgCyAEayILaiAHSQ0BIAEgGmogCSAUICVqIAUgDiAjaiImIAMgDiAYaiInIAMgDiAkaiIoIAMgDiAcaiIpIAMQayABIBlqIAkgFCAhaiAFICcgAyAmIAMgKSADICggAxBrIBAgFGohFCABIAxqIQEgBCAOaiEOIA0gDGsiDSAMTw0ACwsgD0UNESAKIBVBAXEgFUEBdmpBAWsgBGwiAUkNCyABIAZLDQwgBSAeSw0NIAMgCiABayICSw0OIAMgBiABayICSw0PIBsgImogDyAAIB1qIAUgASATaiADIAEgEmogAxB5DBELIAhBADYCGCAIQQE2AgwgCEG8occANgIIIAhCBDcCECAIQQhqQcjqxAAQjQgACyAIQQA2AhggCEEBNgIMIAhBvKHHADYCCCAIQgQ3AhAgCEEIakHY6sQAEI0IAAtBACARIARB+OrEABDqBwALQQAgESAAQejqxAAQ6gcAC0EAIAUgBEG46sQAEOoHAAtBACADIApBqOrEABDqBwALQQAgAyAGQZjqxAAQ6gcAC0EAIAkgAkGI6sQAEOoHAAsgCEEANgIYIAhBATYCDCAIQbyhxwA2AgggCEIENwIQIAhBCGpB2OjEABCNCAALIAcgACAEQfjpxAAQ6gcACyAIQQA2AhggCEEBNgIMIAhBvKHHADYCCCAIQgQ3AhAgCEEIakHo6MQAEI0IAAsgASAKIApBuOnEABDqBwALIAEgBiAGQajpxAAQ6gcAC0EAIAUgHkGY6cQAEOoHAAtBACADIAJBiOnEABDqBwALQQAgAyACQfjoxAAQ6gcACyAJIBlLIAkgGEtyDQBBACAFIAdBiOvEABDqBwALIAhBIGokAAutFgMlfwN9AXsjAEHQAmsiAyQAQQAQtgkhBCADQQAQtgk2AsABIAMgBDYCvAEgA0EANgK4ASADQgA3ArABIANCBDcCeCADQgA3AnAgA0KAgICAwAA3AmggA0IENwJgIANCADcCWCADQoCAgIDAADcCUCADQQA2AjwgA0EANgI0IANBADYCLCADQQA2AiQgA0EANgIcIANBADYCFCADQQA2AgwgA0EANgJIIANBgICAgHg2ApgBIANBgICAgHg2AqQBIANBzAFqQQA6AAAgA0IENwKQASADQgA3AogBIANCgICAgMAANwKAASADQgA3AsQBIAEoAjwhEyADIAI6APgBIAMgEzYC9AEgAyABKAIIIgg2AvABIANBDGogA0HwAWoQ4QMCQAJAAkACQEGAgDAQcSIQRQ0AIBBBBGsiHS0AAEEDcQRAIBBBAEGAgDD8CwALQYCAEBBxIglFDQAgCUEEayIeLQAAQQNxBEAgCUEAQYCAEPwLAAtBgIAwEHEiEUUNACARQQRrIh8tAABBA3EEQCARQQBBgIAw/AsAC0GAgDAQcSISRQ0AIBJBBGsiIC0AAEEDcQRAIBJBAEGAgDD8CwALQYCAwAAQcSILRQ0AIAtBBGsiIS0AAEEDcQRAIAtBAEGAgMAA/AsAC0GAgAgQcSIMRQ0AIAxBBGsiIi0AAEEDcQRAIAxBAEGAgAj8CwALQYCAEBBxIg1FDQAgDUEEayIjKAIAIgVBA3EiBARAIA1BAEGAgBD8CwALIAgEQCAMQQIgAhshJCANQQQgAhshJUGAgARBACACGyEbIAEoAhAhJiABKAIUIRwgASgCBCEnA0BBgIAEIAggDmsiBCAEQYCABE8bIRQgCCAORwRAICcgDkEkbGohBCAmIA5BGGxqIQZBACEVIAkhFkEAIQUgDSEXIAshGCAMIRkDQCAIIA4gFWoiGk0EQCAaIAhB1MDHABCMBwALIARBEGoqAgAhKCAEQQxqKgIAISkgBEEIaioCACEqIANB0AFqIAQQpAMgA0HgAWogBBCaAyADQfABaiAEKQIAEMsCIAP9AATwASErIAUgEGoiCiAqOAIAIAUgEWoiByADKgLQATgCACAFIBJqIg8gAyoC4AE4AgAgCkEEaiApOAIAIAdBBGogAyoC1AE4AgAgD0EEaiADKgLkATgCACAKQQhqICg4AgAgB0EIaiADKgLYATgCACAPQQhqIAMqAugBOAIAIBggK/0LAgAgFgJ/IARBFGovAQAiB0H//wFxRQRAIAdBEHQMAQsgB0H/B3EhCiAHQYCAAnEhDyAHQYD4AXEiB0GA+AFGBEAgD0EQdCEHIAdBgICA/AdyIApFDQEaIAcgCkENdHJBgICA/gdyDAELIA9BEHQhDyAHQQ10QYCAgPwAcSAKQQ10ckGAgIDAA2ogD3IgBw0AGiAPQYCAgNgDciAKZ0EQayIHQRd0ayAKIAdB//8DcUEIanRB////A3FyCzYCACACBEACfwJAIBogHEkEQAJ/IAZBFGooAgAiCkEESwRAIAZBBGooAgAhCiAGQQhqKAIADAELIAZBBGoLIQcgCg0BQQAhCkEADAILIBogHEHEwMcAEIwHDAcLIAcoAgALIQcgGSAKOwEAIBcgBzYCAAsgBEEkaiEEIAZBGGohBiAWQQRqIRYgBUEMaiEFIBdBBGohFyAYQRBqIRggGUECaiEZIBVBAWoiFSAUSQ0ACwsgAyAbNgK8AiADICU2ArgCIAMgGzYCtAIgAyAkNgKwAiADQQA2AqwCIANCgICAgMAANwKkAiADQoCAgIDAADcCnAIgA0KAgJCAwAA3ApQCIAMgCzYCkAIgA0GAgAw2AowCIAMgEjYCiAIgA0GAgAw2AoQCIAMgETYCgAIgA0GAgAQ2AvwBIAMgCTYC+AEgA0GAgAw2AvQBIAMgEDYC8AEgA0EMaiAOIBQgA0HwAWoQfiAOIBRqIg4gCEkNAAsgIygCACIFQQNxIQQLAkACQCAFQXhxQYSAEEGIgBAgBBtPBEAgBEEAIAVBqIAQTxsNBiANEKICICIoAgAiAkF4cUGEgAhBiIAIIAJBA3EiBBtJDQUgBEEAIAJBqIAITxsNBiAMEKICICEoAgAiAkF4cUGEgMAAQYiAwAAgAkEDcSIEG0kNBSAEQQAgAkGogMAATxsNBiALEKICICAoAgAiAkF4cUGEgDBBiIAwIAJBA3EiBBtJDQUgBEEAIAJBqIAwTxsNBiASEKICIB8oAgAiAkF4cUGEgDBBiIAwIAJBA3EiBBtJDQUgBEEAIAJBqIAwTxsNBiAREKICIB4oAgAiAkF4cUGEgBBBiIAQIAJBA3EiBBtJDQUgBEEAIAJBqIAQTxsNBiAJEKICIB0oAgAiAkF4cUGEgDBBiIAwIAJBA3EiBBtJDQUgBEEAIAJBqIAwTxsNBiAQEKICIBNFDQRBgICQARBxIgJFDQMgAkEEayILKAIAIgVBA3EiBARAIAJBAEGAgJAB/AsACyAIRQ0CIAEoAiAhDCABKAIcIQ1BACEGA0BBgIAEIAggBmsiBCAEQYCABE8bIQkgBiAIRwRAQQAhBSACIQQDQCADQfABaiANIAwgBSAGahC8ASAEIAP9AATwAf0LAgAgBEEQaiAD/QAEgAL9CwIAIARBIGogAyoCkAI4AgAgBEEkaiEEIAVBAWoiBSAJSQ0ACwsgA0EMaiAGIAkgAkGAgCQQ5gEgCCAGIAlqIgZLDQALDAELDAQLIAsoAgAiBUEDcSEECwJAIAVBeHFBhICQAUGIgJABIAQbTwRAIARBACAFQaiAkAFPGw0FIAIQogIgE0EBRg0DQYCA8AEQcSICRQ0CIAJBBGsiCygCACIFQQNxIgQEQCACQQBBgIDwAfwLAAsgCARAIAEoAiwhDCABKAIoIQ1BACEGA0BBgIAEIAggBmsiBCAEQYCABE8bIQkgBiAIRwRAQQAhBSACIQQDQCADQfABaiANIAwgBSAGahCLASAEIAP9AATwAf0LAgAgBEEQaiAD/QAEgAL9CwIAIARBIGogA/0ABJAC/QsCACAEQTBqIAMqAqACOAIAIARBNGogAykCpAI3AgAgBEE8aiEEIAVBAWoiBSAJSQ0ACwsgA0EMaiAGIAkgAkGAgDwQpwEgBiAJaiIGIAhJDQALIAsoAgAiBUEDcSEECyAFQXhxQYSA8AFBiIDwASAEG0kNBCAEQQAgBUGogPABTxsNBSACEKICIBNBAk0NA0GAgNACEHEiAkUNAiACQQRrIgkoAgAiBUEDcSIEBEAgAkEAQYCA0AL8CwALIAgEQCABKAI4IQsgASgCNCEMQQAhBgNAQYCABCAIIAZrIgEgAUGAgARPGyEBIAYgCEcEQEEAIQUgAiEEA0AgA0HwAWogDCALIAUgBmoQbCAEIAP9AATwAf0LAgAgBEEQaiAD/QAEgAL9CwIAIARBIGogA/0ABJAC/QsCACAEQTBqIAP9AASgAv0LAgAgBEFAayAD/QAEsAL9CwIAIARB0ABqIAMqAsACOAIAIARB1ABqIQQgBUEBaiIFIAFJDQALCyADQQxqIAYgASACQYCA1AAQlAEgASAGaiIGIAhJDQALIAkoAgAiBUEDcSEECyAFQXhxQYSA0AJBiIDQAiAEG0kNBCAEQQAgBUGogNACTxsNASACEKICDAMLDAMLDAMLAAsCQCADQQxqIgIQ1AEiAQRAIABBAjYCACAAIAE2AgQgAhCKAgwBCyAAIANBDGpBxAH8CgAACyADQdACaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALhBQDEX8BfgFvIwBBwAdrIgEkACABQeABaiIHIAIgAygCDBEBAAJAAkACQAJAAkACQCABKQPgAULNxp63xqmo+pF/hSABKQPoAULSu7jilPu7/rd/hYRQBEAgAUHQAGogAkGQAfwKAAAgASgC1AEiA0UNASAHIAMgASgC2AEiEigCDCIIEQEAAkACQAJAAkACQCABKQPgAUKgvNiAuoLloN0AhSABKQPoAUK9y93Gj/qznlqFhFBFBEAgByADIAgRAQAgASkD4AFC5fTkmdDWtpP+AIUgASkD6AFCp8KLy4X7pZOff4WEUA0BIAcgAyAIEQEAIAEpA+ABQo+XpKuq1dCexACFIAEpA+gBQq+28uu5uLyVfYWEUA0CIAcgAyAIEQEAIAEpA+ABQsK26uerwMLK5wCFIAEpA+gBQribhIDZ35Xo6wCFhFANAyAHIAMgCBEBACABKQPgAUKy1oinj7SZ7MQAhSABKQPoAULigrnHtPHRgsMAhYRQDQQgByADIAgRAQAgASkD4AFC5YrQwKDQ0OFChSABKQPoAUL7ntmK4K7cny6FhFAiEw0FIAFBADYC8AEgAUEBNgLkASABQdTgwQA2AuABIAFCBDcC6AEgB0Hc4MEAEI0IAAsgAUHgAWogA0HYBfwKAAAgAygCCCEHIAMpAwAhFSABIANBDGpB0AD8CgAAIAMoAlwhCCABKAKoByIEBEAgASgCrAciBUEEaygCACIGQXhxIglBBEEIIAZBA3EiBhsgBGpJDQwgBkEAIAkgBEEnaksbDQsgBRCiAgsgAUHAAmohBAJAAkACQCABKAKcB0GAgICAeGsOAgECAAsgBBC+AgwBCyAEEL0BCyADQQRrKAIAIgRBeHFB3AVB4AUgBEEDcSIFG0kNCyAFRQ0IIARBgAZPDQoMCAsgAygCCCEHIAMpAgAhFSABIANBDGpB0AD8CgAAIAMoAqABIQkgAygCnAEhDiADKAKUASEPIAMoApABIQsgAygCiAEhEiADKAKEASEEIAMoAnwhEyADKAJ4IQUgAygCcCENIAMoAmwhBiADKAJcIQggAygCYCIKBEAgAygCZCIQQQRrKAIAIgxBeHEiEUEEQQggDEEDcSIMGyAKakkNCyAMQQAgESAKQSdqSxsNCiAQEKICCyAGBEAgDUEEaygCACIKQXhxIhBBBEEIIApBA3EiChsgBmpJDQsgCkEAIBAgBkEnaksbDQogDRCiAgsgBQRAIBNBBGsoAgAiBkF4cSINQQRBCCAGQQNxIgYbIAVqSQ0LIAZBACANIAVBJ2pLGw0KIBMQogILAkAgBEGAgICAeEYNACAEBEAgEkEEaygCACIFQXhxIgYgBEECdCIEQQRBCCAFQQNxIgUbakkNDCAFQQAgBiAEQSdqSxsNCyASEKICCyALBEAgD0EEaygCACIEQXhxIgUgC0EBdCIGQQRBCCAEQQNxIgQbakkNDCAEQQAgBSAGQSdqSxsNCyAPEKICCyAORQ0AIAlBBGsoAgAiBEF4cSIFIA5BAnQiBkEEQQggBEEDcSIEG2pJDQsgBEEAIAUgBkEnaksbDQogCRCiAgsgA0EEaygCACIEQXhxQczTAEHQ0wAgBEEDcSIFG0kNCiAFRSAEQfDTAElyDQcMCQsgAygCCCEHIAMpAgAhFSABIANBDGpB0AD8CgAAIAMoAlwhCCADKAJgIgQEQCADKAJkIgVBBGsoAgAiBkF4cSIJQQRBCCAGQQNxIgYbIARqSQ0KIAZBACAJIARBJ2pLGw0JIAUQogILIANBBGsoAgAiBEF4cSIFQfAAQfQAIARBA3EiBBtJDQkgBEUgBUGUAUlyDQYMCAsgAygCCCEHIAMpAgAhFSABIANBDGpB0AD8CgAAIAMoAlwhCCADKAJgIgQEQCADKAJkIgVBBGsoAgAiBkF4cSIJQQRBCCAGQQNxIgYbIARqSQ0JIAZBACAJIARBJ2pLGw0IIAUQogILIANBBGsoAgAiBEF4cSIFQfAAQfQAIARBA3EiBBtJDQggBEUgBUGUAUlyDQUMBwsgAygCCCEHIAMpAgAhFSABIANBDGpB0AD8CgAAIAMoAlwhCCADKAJgIgQEQCADKAJkIARBARCiBwsgA0EEaygCACIEQXhxIgVB8ABB9AAgBEEDcSIEG0kNByAERSAFQZQBSXINBAwGCyADKAKAAiEHIAMpAvgBIRUgAygC/AIhCyADKAL4AiEEIAMoAugBIQ0gAygC5AEhBiADKAKIASEKIAMoAnQhECADKAJwIQkgAygCbCEFIAMoAmghDiADKAJkIQ8gAygCACEMIAEgA0GEAmpB0AD8CgAAIAMoAtQCIQggBARAIAsgBEEBEKIHCwJAIAxBAkYNACAFBEAgDkEkaiEEA0AgBEEEaygCACILQYCAgIB4ckGAgICAeEcEQCAEKAIAIgxBBGsoAgAiEUF4cSIUQQRBCCARQQNxIhEbIAtqSQ0KIBFBACAUIAtBJ2pLGw0JIAwQogILIARBMGohBCAFQQFrIgUNAAsLIA8EQCAOIA9BMGxBCBCiBwsgCUGAgICAeHJBgICAgHhGDQAgECAJQQEQogcLIAMgEiATGyEDIAZFIApBAkZyRQRAIA0gBkEobEEIEKIHCyADQQRrKAIAIgRBeHFBpANBqAMgBEEDcSIFG0kNAiAFRSAEQcgDSXINAwwFCyABIAM2AuQBIAEgAjYC4AFB2ObIAEErIAFB4AFqQejuwABBsO/AABDgBgALQbDgwQAQ3QkAC0HMjMgAQS5B/IzIABDrBwwBCyADEKICIAEoAlwiA0GAgICAeHJBgICAgHhHBEAgASgCYCIEQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyADakkNAyAFQQAgBiADQSdqSxsNAiAEEKICCyABKAJoQYCAgIB4RwRAIAFB6ABqEPYCCyABKAJQIgMEQCABKAJUIgRBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIANqSQ0DIAVBACAGIANBJ2pLGw0CIAQQogILAkAgASgCyAEiA0GAgICAeHJBgICAgHhHBEAgASgCzAEiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQQgBUEAIAYgA0EnaksbDQEgBBCiAgtB9AAQcSIDRQ0BIAMgBzYCFCADIBU3AgwgA0EANgIIIANCgYCAgBA3AgAgA0EYaiABQdAA/AoAACADIAg2AnAgAyAHNgJsIAMgCDYCaCADQQhqEA4hFhDaBCIHIBYmASACQQRrKAIAIgNBeHFBlAFBmAEgA0EDcSIIG0kNAyAIQQAgA0G4AU8bDQIgAhCiAiAAIAc2AgQgAEEANgIAIAFBwAdqJAAPCwwBCwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC+cTARB/IwBBgAprIgEkACABQcADaiIFIAIgAygCDBEBAAJAAkACQAJAIAEpA8ADQuO40dasvJKArn+FIAEpA8gDQryn3YiYlYqsoX+FhFAEQCACLQDwASISQQZHBEAgAUHMAWogAkH0AfwKAAAgASgCtAMiA0UNAiAFIAMgASgCuAMiECgCDCIEEQEAAkACQAJAAkACQCABKQPAA0KI3Nq/5u+y+dkAhSABKQPIA0Kh/ou+w+76j49/hYRQRQRAIAUgAyAEEQEAIAEpA8ADQqGi3oaJvIaD8wCFIAEpA8gDQoSEh9SDyIugQ4WEUA0BIAUgAyAEEQEAIAEpA8ADQv7e4K+u1MjsNoUgASkDyANCyt3cy/j+2PXmAIWEUA0CIAUgAyAEEQEAIAEpA8ADQrOIr+uYlayb4ACFIAEpA8gDQu3H6c+dgu7+tX+FhFANAyAFIAMgBBEBACABKQPAA0Ld9u3S0ufOw3SFIAEpA8gDQvWp6Jax1+m4+wCFhFANBCAFIAMgBBEBACABKQPAA0Lk5cLa8Onu9HCFIAEpA8gDQruhgKOGtavEywCFhFAiEQ0FIAFBADYC0AMgAUEBNgLEAyABQdTgwQA2AsADIAFCBDcCyAMgBUHc4MEAEI0IAAsgAUHAA2ogA0G4BvwKAAAgAUEIaiADQfQEakHEAfwKAAAgASgCqAgiBARAIAEoAqwIIgVBBGsoAgAiBkF4cSIHQQRBCCAGQQNxIgYbIARqSQ0LIAZBACAHIARBJ2pLGw0KIAUQogILAkACQAJAIAEoApwIQYCAgIB4aw4CAQIACyABQcADahC+AgwBCyABQcADahC9AQsgA0EEaygCACIEQXhxQbwGQcAGIARBA3EiBRtJDQogBUUNCCAEQeAGTw0JDAgLIAFBCGogA0HEAfwKAAAgAygChAIhByADKAKAAiELIAMoAvgBIQwgAygC9AEhCSADKALsASEQIAMoAugBIQQgAygC4AEhESADKALcASEFIAMoAtQBIQogAygC0AEhBiADKALEASIIBEAgAygCyAEiDUEEaygCACIOQXhxIg9BBEEIIA5BA3EiDhsgCGpJDQogDkEAIA8gCEEnaksbDQkgDRCiAgsgBgRAIApBBGsoAgAiCEF4cSINQQRBCCAIQQNxIggbIAZqSQ0KIAhBACANIAZBJ2pLGw0JIAoQogILIAUEQCARQQRrKAIAIgZBeHEiCkEEQQggBkEDcSIGGyAFakkNCiAGQQAgCiAFQSdqSxsNCSAREKICCwJAIARBgICAgHhGDQAgBARAIBBBBGsoAgAiBUF4cSIGIARBAnQiBEEEQQggBUEDcSIFG2pJDQsgBUEAIAYgBEEnaksbDQogEBCiAgsgCQRAIAxBBGsoAgAiBEF4cSIFIAlBAXQiBkEEQQggBEEDcSIEG2pJDQsgBEEAIAUgBkEnaksbDQogDBCiAgsgC0UNACAHQQRrKAIAIgRBeHEiBSALQQJ0IgZBBEEIIARBA3EiBBtqSQ0KIARBACAFIAZBJ2pLGw0JIAcQogILIANBBGsoAgAiBEF4cSIFQbDUAEG01AAgBEEDcSIEG0kNCSAERSAFQdTUAElyDQcMCAsgAUEIaiADQcQB/AoAACADKALEASIEBEAgAygCyAEiBUEEaygCACIGQXhxIgdBBEEIIAZBA3EiBhsgBGpJDQkgBkEAIAcgBEEnaksbDQggBRCiAgsgA0EEaygCACIEQXhxQdQBQdgBIARBA3EiBRtJDQggBUUgBEH4AUlyDQYMBwsgAUEIaiADQcQB/AoAACADKALEASIEBEAgAygCyAEiBUEEaygCACIGQXhxIgdBBEEIIAZBA3EiBhsgBGpJDQggBkEAIAcgBEEnaksbDQcgBRCiAgsgA0EEaygCACIEQXhxQdQBQdgBIARBA3EiBRtJDQcgBUUgBEH4AUlyDQUMBgsgAUEIaiADQcQB/AoAACADKALEASIEBEAgAygCyAEgBEEBEKIHCyADQQRrKAIAIgRBeHFB1AFB2AEgBEEDcSIFG0kNBiAFRSAEQfgBSXINBAwFCyADKAK0AiEJIAMoArACIQQgAygChAIhCiADKAKAAiEGIAMoAvwBIQUgAygC+AEhByADKAL0ASELIAMoApABIQggAygCYCENIAMoAlwhDCADKAIAIQ4gAUEIaiADQbwCakHEAfwKAAAgBARAIAkgBEEBEKIHCwJAIAhBAkYNACAFBEAgB0EkaiEEA0AgBEEEaygCACIJQYCAgIB4ckGAgICAeEcEQCAEKAIAIghBBGsoAgAiD0F4cSITQQRBCCAPQQNxIg8bIAlqSQ0JIA9BACATIAlBJ2pLGw0IIAgQogILIARBMGohBCAFQQFrIgUNAAsLIAsEQCAHIAtBMGxBCBCiBwsgBkGAgICAeHJBgICAgHhGDQAgCiAGQQEQogcLIAMgECARGyEDIAxFIA5BAkZyRQRAIA0gDEEobEEIEKIHCyADQQRrKAIAIgRBeHFBjARBkAQgBEEDcSIFG0kNBSAFRSAEQbAESXINAwwEC0HA7sAAEN0JAAsgASADNgLEAyABIAI2AsADQdjmyABBKyABQcADakHo7sAAQfjuwAAQ4AYAC0Gw4MEAEN0JAAsgAxCiAgJAIAEoApwDIgNBgICAgHhyQYCAgIB4RwRAIAEoAqADIgRBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIANqSQ0DIAVBACAGIANBJ2pLGw0CIAQQogILIAEoAswBQQJHBEAgAUHMAWoQigILIAEoApADIgMEQCABKAKUAyIEQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyADakkNAyAFQQAgBiADQSdqSxsNAiAEEKICCyABKAKoAyIDQYCAgIB4ckGAgICAeEcEQCABKAKsAyIEQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyADakkNAyAFQQAgBiADQSdqSxsNAiAEEKICCyASQQJ0IgMoAvDrQSEEIAMoAtjrQSEFIAFBCGoQ0QEiBkHQ7sAAQQgQ7AgiAyAFIAQQ7AgiBBDACUG0u8kALQAABEBBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgASAANgLAA0HY5sgAQSsgAUHAA2pB2OjAAEHY7sAAEOAGAAtBuLvJAEEANgIAQbS7yQBBADoAACAEQYQITwRAIAQQmwcLIANBhAhPBEAgAxCbBwsgAkEEaygCACIDQXhxIgRB+AFB/AEgA0EDcSIDG0kNAiADQQAgBEGcAk8bDQAgAhCiAiAAIAY2AgQgAEEANgIAIAFBgApqJAAPCwtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwAL5BMBEH8jAEHgCWsiASQAIAFBsANqIgUgAiADKAIMEQEAAkACQAJAAkAgASkDsANC/deLibyi8JkohSABKQO4A0KD0J+9oMfru9sAhYRQBEAgAi0A6AEiEkEGRwRAIAFBxAFqIAJB7AH8CgAAIAEoAqQDIgNFDQIgBSADIAEoAqgDIhAoAgwiBBEBAAJAAkACQAJAAkAgASkDsANCl9Ogsr+ekfVxhSABKQO4A0Lr2o7NnpPqglGFhFBFBEAgBSADIAQRAQAgASkDsANC/dnb2/Ko6/wlhSABKQO4A0KEvvuqpe/a4a9/hYRQDQEgBSADIAQRAQAgASkDsANCqqLKsbmZvbFchSABKQO4A0KTsJ7ihNW54coAhYRQDQIgBSADIAQRAQAgASkDsANCgtaMka+W1c/sAIUgASkDuANCst3rmqDTsMKlf4WEUA0DIAUgAyAEEQEAIAEpA7ADQufbvbLs97vyzQCFIAEpA7gDQoXbt7ag4bn/P4WEUA0EIAUgAyAEEQEAIAEpA7ADQo7z6KKs6L31EoUgASkDuANCno+QqKna5+CKf4WEUCIRDQUgAUEANgLAAyABQQE2ArQDIAFB1ODBADYCsAMgAUIENwK4AyAFQdzgwQAQjQgACyABQbADaiADQbAG/AoAACABQQhqIANB9ARqQbwB/AoAACABKAKYCCIEBEAgASgCnAgiBUEEaygCACIGQXhxIgdBBEEIIAZBA3EiBhsgBGpJDQsgBkEAIAcgBEEnaksbDQogBRCiAgsCQAJAAkAgASgCjAhBgICAgHhrDgIBAgALIAFBsANqEL4CDAELIAFBsANqEL0BCyADQQRrKAIAIgRBeHFBtAZBuAYgBEEDcSIFG0kNCiAFRQ0IIARB2AZPDQkMCAsgAUEIaiADQbwB/AoAACADKAL8ASEHIAMoAvgBIQsgAygC8AEhDCADKALsASEJIAMoAuQBIRAgAygC4AEhBCADKALYASERIAMoAtQBIQUgAygCzAEhCiADKALIASEGIAMoArwBIggEQCADKALAASINQQRrKAIAIg5BeHEiD0EEQQggDkEDcSIOGyAIakkNCiAOQQAgDyAIQSdqSxsNCSANEKICCyAGBEAgCkEEaygCACIIQXhxIg1BBEEIIAhBA3EiCBsgBmpJDQogCEEAIA0gBkEnaksbDQkgChCiAgsgBQRAIBFBBGsoAgAiBkF4cSIKQQRBCCAGQQNxIgYbIAVqSQ0KIAZBACAKIAVBJ2pLGw0JIBEQogILAkAgBEGAgICAeEYNACAEBEAgEEEEaygCACIFQXhxIgYgBEECdCIEQQRBCCAFQQNxIgUbakkNCyAFQQAgBiAEQSdqSxsNCiAQEKICCyAJBEAgDEEEaygCACIEQXhxIgUgCUEBdCIGQQRBCCAEQQNxIgQbakkNCyAEQQAgBSAGQSdqSxsNCiAMEKICCyALRQ0AIAdBBGsoAgAiBEF4cSIFIAtBAnQiBkEEQQggBEEDcSIEG2pJDQogBEEAIAUgBkEnaksbDQkgBxCiAgsgA0EEaygCACIEQXhxIgVBqNQAQazUACAEQQNxIgQbSQ0JIARFIAVBzNQASXINBwwICyABQQhqIANBvAH8CgAAIAMoArwBIgQEQCADKALAASIFQQRrKAIAIgZBeHEiB0EEQQggBkEDcSIGGyAEakkNCSAGQQAgByAEQSdqSxsNCCAFEKICCyADQQRrKAIAIgRBeHFBzAFB0AEgBEEDcSIFG0kNCCAFRSAEQfABSXINBgwHCyABQQhqIANBvAH8CgAAIAMoArwBIgQEQCADKALAASIFQQRrKAIAIgZBeHEiB0EEQQggBkEDcSIGGyAEakkNCCAGQQAgByAEQSdqSxsNByAFEKICCyADQQRrKAIAIgRBeHFBzAFB0AEgBEEDcSIFG0kNByAFRSAEQfABSXINBQwGCyABQQhqIANBvAH8CgAAIAMoArwBIgQEQCADKALAASAEQQEQogcLIANBBGsoAgAiBEF4cUHMAUHQASAEQQNxIgUbSQ0GIAVFIARB8AFJcg0EDAULIAMoArQCIQkgAygCsAIhBCADKAKEAiEKIAMoAoACIQYgAygC/AEhBSADKAL4ASEHIAMoAvQBIQsgAygCkAEhCCADKAJgIQ0gAygCXCEMIAMoAgAhDiABQQhqIANBvAJqQbwB/AoAACAEBEAgCSAEQQEQogcLAkAgCEECRg0AIAUEQCAHQSRqIQQDQCAEQQRrKAIAIglBgICAgHhyQYCAgIB4RwRAIAQoAgAiCEEEaygCACIPQXhxIhNBBEEIIA9BA3EiDxsgCWpJDQkgD0EAIBMgCUEnaksbDQggCBCiAgsgBEEwaiEEIAVBAWsiBQ0ACwsgCwRAIAcgC0EwbEEIEKIHCyAGQYCAgIB4ckGAgICAeEYNACAKIAZBARCiBwsgAyAQIBEbIQMgDEUgDkECRnJFBEAgDSAMQShsQQgQogcLIANBBGsoAgAiBEF4cUGEBEGIBCAEQQNxIgUbSQ0FIAVFIARBqARJcg0DDAQLQaDwwAAQ3QkACyABIAM2ArQDIAEgAjYCsANB2ObIAEErIAFBsANqQejuwABBwPDAABDgBgALQbDgwQAQ3QkACyADEKICAkAgASgCjAMiA0GAgICAeHJBgICAgHhHBEAgASgCkAMiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQMgBUEAIAYgA0EnaksbDQIgBBCiAgsgASgCxAFBAkcEQCABQcQBahDAAgsgASgCgAMiAwRAIAEoAoQDIgRBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIANqSQ0DIAVBACAGIANBJ2pLGw0CIAQQogILIAEoApgDIgNBgICAgHhyQYCAgIB4RwRAIAEoApwDIgRBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIANqSQ0DIAVBACAGIANBJ2pLGw0CIAQQogILIBJBAnQiAygC8OtBIQQgAygC2OtBIQUgAUEIahDSASIGQdDuwABBCBDsCCIDIAUgBBDsCCIEEMAJQbS7yQAtAAAEQEG0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACABIAA2ArADQdjmyABBKyABQbADakHY6MAAQbDwwAAQ4AYAC0G4u8kAQQA2AgBBtLvJAEEAOgAAIARBhAhPBEAgBBCbBwsgA0GECE8EQCADEJsHCyACQQRrKAIAIgNBeHEiBEHwAUH0ASADQQNxIgMbSQ0CIANBACAEQZQCTxsNACACEKICIAAgBjYCBCAAQQA2AgAgAUHgCWokAA8LC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAvFFwICfwF+IwBBQGoiAiQAIAEoAgQhAyABKAIAIQECfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgACgCACIALQAAQQFrDiMBAgMEBQYHCAkKCwwNDg8QERITFBUWFxgZGhsjHB0eHyAhIgALIAIgAEEEajYCBCACIABBCGo2AiAgAiAAQQxqNgIkIAIgAkEkaq1CgICAgLAMhDcDGCACQoCAgIDADCIEIAJBIGqthDcDECACIAQgAkEEaq2ENwMIIAJCAzcCNCACQQQ2AiwgAkHsncUANgIoIAIgAkEIajYCMCABIAMgAkEoahDBAwwrCyABQYyexQBBFiADKAIMEQAADCoLIAFBop7FAEElIAMoAgwRAAAMKQsgAUHHnsUAQR4gAygCDBEAAAwoCyACIABBAWo2AiQgAiACQSRqrUKAgICAsAyENwMIIAJCATcCNCACQQI2AiwgAkGIn8UANgIoIAIgAkEIajYCMCABIAMgAkEoahDBAwwnCyACIABBAWo2AiQgAiACQSRqrUKAgICAsAyENwMIIAJCATcCNCACQQI2AiwgAkG8n8UANgIoIAIgAkEIajYCMCABIAMgAkEoahDBAwwmCyACIABBAWo2AiQgAiACQSRqrUKAgICAsAyENwMIIAJCATcCNCACQQI2AiwgAkHsn8UANgIoIAIgAkEIajYCMCABIAMgAkEoahDBAwwlCyACIABBAWo2AiQgAiACQSRqrUKAgICAsAyENwMIIAJCATcCNCACQQI2AiwgAkGcoMUANgIoIAIgAkEIajYCMCABIAMgAkEoahDBAwwkCyACIABBAWo2AiQgAiACQSRqrUKAgICAsAyENwMIIAJCATcCNCACQQI2AiwgAkHYoMUANgIoIAIgAkEIajYCMCABIAMgAkEoahDBAwwjCyACIABBAWo2AiQgAiACQSRqrUKAgICAsAyENwMIIAJCATcCNCACQQI2AiwgAkGEocUANgIoIAIgAkEIajYCMCABIAMgAkEoahDBAwwiCyACIABBBGo2AiAgAiAAQQhqNgIkIAJCgICAgNAMIgQgAkEgaq2ENwMQIAIgBCACQSRqrYQ3AwggAkICNwI0IAJBAzYCLCACQcChxQA2AiggAiACQQhqNgIwIAEgAyACQShqEMEDDCELIAIgAEEEajYCICACIABBCGo2AiQgAkKAgICA0AwiBCACQSRqrYQ3AxAgAiAEIAJBIGqthDcDCCACQgI3AjQgAkEDNgIsIAJB/KHFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMIAsgAiAAQQFqNgIEIAIgAEEEajYCICACIABBCGo2AiQgAiACQQRqrUKAgICA4AyENwMYIAJCgICAgNAMIgQgAkEkaq2ENwMQIAIgBCACQSBqrYQ3AwggAkIDNwI0IAJBBDYCLCACQfSixQA2AiggAiACQQhqNgIwIAEgAyACQShqEMEDDB8LIAIgAEECajYCICACIABBAWo2AiQgAiACQSBqrUKAgICA8AyENwMQIAIgAkEkaq1CgICAgMAIhDcDCCACQgI3AjQgAkEDNgIsIAJB6KPFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMHgsgAUGApMUAQSEgAygCDBEAAAwdCyACIABBAmo2AiAgAiAAQQFqNgIkIAIgAkEkaq1CgICAgPAMhDcDECACIAJBIGqtQoCAgIDgDIQ3AwggAkICNwI0IAJBAjYCLCACQdCkxQA2AiggAiACQQhqNgIwIAEgAyACQShqEMEDDBwLIAIgAEEBajYCJCACIAJBJGqtQoCAgIDgDIQ3AwggAkIBNwI0IAJBAjYCLCACQYilxQA2AiggAiACQQhqNgIwIAEgAyACQShqEMEDDBsLIAFBmKXFAEEYIAMoAgwRAAAMGgsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJBxKXFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMGQsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJB6KXFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMGAsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJBjKbFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMFwsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJBsKbFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMFgsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJB5KbFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMFQsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJBlKfFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMFAsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJBwKfFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMEwsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJB6KfFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMEgsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJBlKjFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMEQsgAUGkqMUAQRsgAygCDBEAAAwQCyABQdeoxQBBNyADKAIMEQAADA8LIAAtAAFBAWsOBwcICQoLDA0GCyABQbSsxQBBHyADKAIMEQAADA0LIAIgAEEBajYCJCACIAJBJGqtQoCAgICwDIQ3AwggAkIBNwI0IAJBAjYCLCACQfisxQA2AiggAiACQQhqNgIwIAEgAyACQShqEMEDDAwLIAIgAEEBajYCJCACIAJBJGqtQoCAgICwDIQ3AwggAkIBNwI0IAJBATYCLCACQZytxQA2AiggAiACQQhqNgIwIAEgAyACQShqEMEDDAsLIAIgAEEBajYCJCACIAJBJGqtQoCAgICwDIQ3AwggAkIBNwI0IAJBATYCLCACQcStxQA2AiggAiACQQhqNgIwIAEgAyACQShqEMEDDAoLIAFBzK3FAEEQIAMoAgwRAAAMCQsgAiAAQQFqNgIkQQEgAUG/qMUAQRggAygCDBEAAA0IGiACQQE2AiwgAkGg+McANgIoIAJCATcCNCACIAJBJGqtQoCAgICADYQ3AwggAiACQQhqNgIwIAEgAyACQShqEJ4JDAgLIAJBADYCOCACQQE2AiwgAkG0qcUANgIoIAJCBDcCMCABIAMgAkEoahCeCQwHCyACQQA2AjggAkEBNgIsIAJB5KnFADYCKCACQgQ3AjAgASADIAJBKGoQngkMBgsgAkEANgI4IAJBATYCLCACQYyqxQA2AiggAkIENwIwIAEgAyACQShqEJ4JDAULIAJBADYCOCACQQE2AiwgAkG0qsUANgIoIAJCBDcCMCABIAMgAkEoahCeCQwECyACQQA2AjggAkEBNgIsIAJB8KrFADYCKCACQgQ3AjAgASADIAJBKGoQngkMAwsgAkEANgI4IAJBATYCLCACQayrxQA2AiggAkIENwIwIAEgAyACQShqEJ4JDAILIAJBADYCOCACQQE2AiwgAkH8q8UANgIoIAJCBDcCMCABIAMgAkEoahCeCQwBCyACQQA2AjggAkEBNgIsIAJBrKzFADYCKCACQgQ3AjAgASADIAJBKGoQngkLIAJBQGskAAvOFgIHfQ5/IwBBIGsiDiQAIAAQowUgAEHAAWpBADoAACAAQgA3ArgBIAAgAhDQBAJAAkAgACgCEEEBRw0AIAAoAhhFDQACQAJ/AkACQAJAAn8CQAJAAkACQAJAAkAgAkECdCINIhEgACgCfCISTQRAIAAoAogBIhMgEU8EQCAAKAJ4IRcgACgChAEhGCACRQ0NQQAgDWshGUEBIRVBFCEMQQMhDQJ/AkADQAJAAn8CQAJAAkACfwJAAkACQAJ/AkACQAJAAkACQAJAAkAgBCAMQRRrSwRAIAxBE2sgBE8NASAMQRJrIARPDQIgDUEDayIPIBFJDQMgDyENDAQLIAxBFGsMDwsgDEETawwKCyAMQRJrDAULQwAAf0MgA0EEaioCACIIiyIFQwAAgD9DAAD4QUMAAAAAIAMqAgAiCYsiBiAFIANBCGoqAgAiCosiCxDgCBDgCBCeBY5DAABwQZIiBSAFQwAAAABdGyIFIAVDAAD4QV4bELkH/AAiD0EPaxCwBkMAAH9DlSIFlSIHIAdDAAB/Q14bELkHIQcgFCAXaiIQQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgD0EbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACAMQRFrIARPDQsgDEEQayAETw0HIAxBD2sgBE8NAyARIA1BAmtLBEBDAAB/QyADQRBqKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgA0EMaioCACIJiyIGIAUgA0EUaioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIPQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByAQQQRqQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgD0EbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACAMQQ5rIARPDQsgDEENayAETw0HIAxBDGsgBE8NAyARIA1BAWtLBEBDAAB/QyADQRxqKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgA0EYaioCACIJiyIGIAUgA0EgaioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIPQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByAQQQhqQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgD0EbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACAMQQtrIARPDQsgDEEKayAETw0HIAxBCWsgBE8NAyANIBFPDQJDAAB/QyADQShqKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgA0EkaioCACIJiyIGIAUgA0EsaioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIPQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByAQQQxqQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgD0EbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACAMQQhrIARPDR4gDEEHayAETw0aIAxBBmsgBE8NFiANIBlqIhBBA0cNDyANQQNrDBILIA1BAWshDQwBCyANQQJrIQ0LIA0gEUGovsEAEIwHAAsgDEEJawwCCyAMQQxrDAELIAxBD2sLIARBmL7BABCMBwALIAxBCmsMAgsgDEENawwBCyAMQRBrCyAEQYi+wQAQjAcACyAMQQtrDAILIAxBDmsMAQsgDEERawsgBEH4vcEAEIwHAAtDAAB/QyADQTRqKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgA0EwaioCACIJiyIGIAUgA0E4aioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIWQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByAUIBhqIg9DAAB/QyAGIAWVIgYgBkMAAH9DXhsQuQf8ASAWQRt0QYCAgAhBACAJQwAAAABdG3JBgICAEEEAIAhDAAAAAF0bckGAgIAgQQAgCkMAAAAAXRtyciAH/AFBCHRyQwAAf0MgCyAFlSIFIAVDAAB/Q14bELkH/AFBEHRyNgIAIAxBBWsgBE8NDSAMQQRrIARPDQkgDEEDayAETw0FIBBBAkYNAUMAAH9DIANBQGsqAgAiCIsiBUMAAIA/QwAA+EFDAAAAACADQTxqKgIAIgmLIgYgBSADQcQAaioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIWQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByAPQQRqQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgFkEbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACAMQQJrIARPDQwgDEEBayAETw0IIAQgDE0NByAQQQFHBEBDAAB/QyADQcwAaioCACIIiyIFQwAAgD9DAAD4QUMAAAAAIANByABqKgIAIgmLIgYgBSADQdAAaioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIQQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByAPQQhqQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgEEEbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACAUQRBqIRQgDEEVaiEMIANB1ABqIQMgDUEEaiENIAIgFUsgFUEBaiEVDQEMEQsLIA1BAWsMAQsgDUECawsgEUHovcEAEIwHAAtBACARIBNBqL3BABDqBwALQQAgESASQbi+wQAQ6gcACyAMQQNrIQwMAQsgDEEGayEMCyAMIARB2L3BABCMBwALIAxBAWsMAgsgDEEEawwBCyAMQQdrCyAEQci9wQAQjAcACyAMQQJrDAILIAxBBWsMAQsgDEEIawsgBEG4vcEAEIwHAAsgDiAAKAIUIAFBAnQiAyABIAJqQQJ0IgIQ4QgiARC4CiIENgIAIA4gEjYCBCAEIBJHDQEgASAXIBIQ4AkgAUGECE8EQCABEJsHCyAOIAAoAhwgAyACEOEIIgAQuAoiATYCACAOIBM2AgQgASATRw0BIAAgGCATEOAJIABBhAhJDQAgABCbBwsgDkEgaiQADwsgDkEANgIIQQAgDiAOQQRqIA5BCGpB4PnEABD1BwALvhQBDn8jAEEgayIQJAACQAJAIAFBIUkEQCAAIQkgASEKDAELIAJBBGshESACQRBrIRICQAJAA0AgBEUEQCAAIAEgAiADQQEQ3QEMBQsgACABQQN2IghBHGxqIQYgACAIQQR0aiEJIARBAWshBCAQAn8gAUHAAE8EQCAAIAkgBiAIEMIGDAELIAAgBiAJIAAoAgAiCCAJKAIAIglJIgcgCSAGKAIAIgZJcxsgByAGIAhLcxsLIg0oAgAiBjYCBCANIABrQQJ2IQwCQAJAIAUEQCAFKAIAIAZPDQELIAEgA0sNAyACIAFBAnQiE2ohB0EAIQogACEGIAwhCANAIAAgCEEDayIJQQAgCCAJTxtBAnRqIg4gBksEQCANKAIAIQkDQCAKQQJ0IAIgB0EEayAGKAIAIgsgCUkiDxtqIAs2AgAgCiAPaiIKQQJ0IAIgB0EIayAGQQRqKAIAIgsgCUkiDxtqIAs2AgAgCiAPaiIKQQJ0IAIgB0EMayAGQQhqKAIAIgsgCUkiDxtqIAs2AgAgCiAPaiIKQQJ0IAIgB0EQayIHIAZBDGooAgAiCyAJSSIPG2ogCzYCACAKIA9qIQogBkEQaiIGIA5JDQALCyAAIAhBAnRqIgkgBksEQCANKAIAIQ4DQCAKQQJ0IAIgB0EEayIHIAYoAgAiCyAOSSIPG2ogCzYCACAKIA9qIQogBkEEaiIGIAlJDQALCyABIAhHBEAgB0EEayIHIApBAnRqIAYoAgA2AgAgBkEEaiEGIAEhCAwBCwsgCkECdCIOBEAgACACIA78CgAACyABIAprIQsCQCABIApGDQBBACEJIAtBBE8EQCAAIA5qIQYgEiATaiEHIAtBfHEiCSEIA0AgBiAH/QACAP0MAAAAAAAAAAAAAAAAAAAAAP0NDA0ODwgJCgsEBQYHAAECA/0LAgAgB0EQayEHIAZBEGohBiAIQQRrIggNAAsgCSALRg0BCyARIBMgCUECdCIIa2ohBiAAIAhqIA5qIQcgCSABayAKaiEIA0AgByAGKAIANgIAIAZBBGshBiAHQQRqIQcgCEEBaiIIDQALCyAKRQ0AIAEgCk8NASAQQQA2AhggEEEBNgIMIBBBiILIADYCCCAQQgQ3AhAgEEEIakH0lMEAEI0IAAsgASADSw0CIAIgAUECdCIOaiEHQQAhCCAAIQYDQCAAIAxBA2siBUEAIAUgDE0bQQJ0aiIJIAZLBEAgDSgCACEFA0AgCEECdCACIAdBBGsgBSAGKAIAIgpPIgsbaiAKNgIAIAggC2oiCEECdCACIAdBCGsgBSAGQQRqKAIAIgpPIgsbaiAKNgIAIAggC2oiCEECdCACIAdBDGsgBSAGQQhqKAIAIgpPIgsbaiAKNgIAIAggC2oiCEECdCACIAdBEGsiByAFIAZBDGooAgAiCk8iCxtqIAo2AgAgCCALaiEIIAZBEGoiBiAJSQ0ACwsgACAMQQJ0aiIFIAZLBEAgDSgCACEJA0AgCEECdCACIAdBBGsiByAJIAYoAgAiCk8iCxtqIAo2AgAgCCALaiEIIAZBBGoiBiAFSQ0ACwsgASAMRwRAIAIgCEECdGogBigCADYCACAGQQRqIQYgCEEBaiEIIAdBBGshByABIQwMAQsLIAhBAnQiDQRAIAAgAiAN/AoAAAsgASAIRg0FIAAgDWohCUEAIQwCQCABIAhrIgpBBE8EQCAOIBJqIQYgCSEHIApBfHEiDCEFA0AgByAG/QACAP0MAAAAAAAAAAAAAAAAAAAAAP0NDA0ODwgJCgsEBQYHAAECA/0LAgAgBkEQayEGIAdBEGohByAFQQRrIgUNAAsgCiAMRg0BCyARIAxBAnQiBWsgDmohBiAAIAVqIA1qIQcgDCABayAIaiEFA0AgByAGKAIANgIAIAZBBGshBiAHQQRqIQcgBUEBaiIFDQALCyABIAhJDQNBACEFIAkhACAKIgFBIUkNBAwBCyAAIA5qIAsgAiADIAQgEEEEahCVASAKIgFBIU8NAAsgACEJDAILAAsgCCABIAFBhJXBABDqBwALIApBAkkNACAKQQF2IQEgAQJ/IApBD00EQCAKQQdLBEAgAiAJQQhBDCAJKAIMIAkoAghJIgUbaiIIKAIAIgAgCSAJKAIEIgYgCSgCACIHT0ECdGoiAygCACIEIAAgBEsbNgIMIAIgCUEMQQggBRtqIgUoAgAiDCAJIAYgB0lBAnRqIgcoAgAiBiAGIAxLIgYbNgIAIAIgCCADIAUgBhsgACAESSIEGygCACIAIAcgBSADIAQbIAYbKAIAIgMgACADSxs2AgggAiAAIAMgACADSRs2AgQgAiABQQJ0IgBqIgMgACAJaiIAQQhBDCAAKAIMIAAoAghJIggbaiIMKAIAIgQgACAAKAIEIgcgACgCACINT0ECdGoiBSgCACIGIAQgBksbNgIMIAMgAEEMQQggCBtqIggoAgAiDiAAIAcgDUlBAnRqIg0oAgAiACAAIA5LIgcbNgIAIAMgDCAFIAggBxsgBCAGSSIEGygCACIAIA0gCCAFIAQbIAcbKAIAIgQgACAESRs2AgQgAyAAIAQgACAESxs2AghBBAwCCyACIAkoAgA2AgAgAiABQQJ0IgBqIAAgCWooAgA2AgBBAQwBCyAJIAIgAiAKQQJ0aiIAEMwCIAkgAUECdCIDaiACIANqIABBIGoQzAJBCAsiAEsEQCAAQQJ0IQQgAEEBaiEGIAAhBwNAIAYhAyACIAdBAnQiBWoiBiAFIAlqKAIAIgU2AgAgBkEEaygCACIHIAVLBEAgBCEGAn8DQCACIAZqIgggBzYCACACIAZBBEYNARogBkEEayEGIAUgCEEIaygCACIHSQ0ACyACIAZqCyAFNgIACyAEQQRqIQQgAyABIANLIgVqIQYgAyEHIAUNAAsLIAIgAUECdCIDaiEFIAogAWsiBCAASwRAIAMgCWohDCAAQQJ0IQggAEEBaiEGA0AgBiEDIAUgAEECdCIAaiIGIAAgDGooAgAiADYCACAGQQRrKAIAIgcgAEsEQCAIIQYCfwNAIAUgBmoiDSAHNgIAIAUgBkEERg0BGiAGQQRrIQYgACANQQhrKAIAIgdJDQALIAUgBmoLIAA2AgALIAhBBGohCCADIAMgBEkiB2ohBiADIQAgBw0ACwsgBUEEayEIIAIgCkECdEEEayIAaiEMIAAgCWohBANAIAkgBSgCACIGIAIoAgAiByAGIAdJIg0bNgIAIAQgDCgCACIAIAgoAgAiAyAAIANLGzYCACAEQQRrIQQgCUEEaiEJIAhBfEEAIAAgA0kbaiEIIAxBfEEAIAAgA08baiEMIAIgBiAHT0ECdGohAiAFIA1BAnRqIQUgAUEBayIBDQALIAhBBGohACAKQQFxBH8gCSACIAUgACACSyIBGygCADYCACAFIAAgAk1BAnRqIQUgAiABQQJ0agUgAgsgAEYgBSAMQQRqRnENABCACAALIBBBIGokAAv/EwIKfwZ+QQghBQJAIAFBBEkNACAALQAAIgIgAC0AAUcNACABrSEOIAAtAAMhByAALQACIQMCQAJAAkACQAJ+AkACQAJAAkACQAJAAkACQCACQckAaw4FAA0NDQENCyADQSpHIAdyDQwgAUF8cUEERg0BIAA1AAQhDAwICyADIAdBKkdyDQsgAUF8cUEERg0BIAAoAAQhBAwCC0GokMgAKQMAIg2nQf8BcSICQQRGDQYgAkEDRw0KIA1CIIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0JIAMgACACKAIIEKIHDAkLQaiQyAApAwAiDadB/wFxIgJBBEcNAQsgASAEQRh0IARBgP4DcUEIdHIgBEEIdkGA/gNxIARBGHZycq0iECAOIA4gEFYbpyICa0ECSQ0BIAAgAmovAAAhAkEEIQUMAgsgAkEDRw0HIA1CIIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0GIAMgACACKAIIEKIHDAYLQQAhAkGokMgAKQMAIg1CCIghDyANpyEFIA4gDUL/AYNCBFINARoLIBBCAnwLIQwgBUH/AXEiA0EERgRAQQghBUEAIQRBqJDIACkDACIPQv8BgyERIA9CCIghECAPpyEDIAJBCHQgAkGA/gNxQQh2ckH//wNxIQcDQCAEQf//A3EgB08NBgJ+AkAgASAMIA4gDCAOVBunIgJrQQJPBEAgACACai8AAEGBJEYhCEEEIQJCACENDAELQQAhCCAQIQ0gAyECIA4gEUIEUg0BGgsgDEICfAshDCACQf8BcSICQQRHBEAgAkEDRw0HIA1CGIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0GIAMgACACKAIIEKIHDAYLAn4CQCABIAwgDiAMIA5UG6ciAmtBAk8EQCAAIAJqLwAAQYAGRiEJQQQhAkIAIQ0MAQtBACEJIBAhDSADIQIgDiARQgRSDQEaCyAMQgJ8CyEMIAJB/wFxIgJBBEcEQCACQQNHDQcgDUIYiKciASgCACEDIAFBBGooAgAiAigCACIABEAgAyAAEQMACyACKAIEIgBFDQYgAyAAIAIoAggQogcMBgsCfgJAIAEgDCAOIAwgDlQbpyICa0EETwRAIAAgAmooAABBgICACEYhCkEEIQJCACENDAELQQAhCiAQIQ0gAyECIA4gEUIEUg0BGgsgDEIEfAshDCACQf8BcSICQQRHBEAgAkEDRw0HIA1CGIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0GIAMgACACKAIIEKIHDAYLAn4CQCABIAwgDiAMIA5UG6ciAmtBAk8EQCAAIAJqLwAAIQZBBCECQgAhDQwBC0EAIQYgECENIAMhAiAOIBFCBFINARoLIAxCAnwLIQwCQCACQf8BcUEERgRAIAEgDCAOIAwgDlQbp2tBAUsiAiADQf8BcSILQQRGcg0BIAtBA0cNCCAPQiCIpyIBKAIAIQMgAUEEaigCACICKAIAIgAEQCADIAARAwALIAIoAgQiAEUNByADIAAgAigCCBCiBwwHCyACQf8BcUEDRw0HIA1CGIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0GIAMgACACKAIIEKIHDAYLIARBAWohBCAMQgJ8Ig0gDSAOIBFCBFEbIAIbIQwgCCAJcSAKcUUNAAtB/wEgBkEIdCAGQYD+A3FBCHZyQf//A3EiACAAQf8BTxtBAWsiAUH/AXFBB0sNBQwCC0EIIQUgA0EDRw0EIA9CGIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0DIAMgACACKAIIEKIHDAMLAn4CQCABIAwgDiAMIA5UG6ciAmtBAk8EQCAAIAJqLwAAIQJBBCEEDAELQQAhAkGokMgAKQMAIg1CCIghDyANpyEEIA4gDUL/AYNCBFINARoLIAxCAnwLIQwgBEH/AXEiA0EERw0BQQAhBEGokMgAKQMAIg9C/wGDIREgD0IIiCEQIA+nIQMgAkH//wNxIQcDQCAEQf//A3EgB08NBAJ+AkAgASAMIA4gDCAOVBunIgJrQQJPBEAgACACai8AAEGSAkYhCEEEIQJCACENDAELQQAhCCAQIQ0gAyECIA4gEUIEUg0BGgsgDEICfAshDCACQf8BcSICQQRHBEAgAkEDRw0FIA1CGIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0EIAMgACACKAIIEKIHDAQLAn4CQCABIAwgDiAMIA5UG6ciAmtBAk8EQCAAIAJqLwAAQQNGIQlBBCECQgAhDQwBC0EAIQkgECENIAMhAiAOIBFCBFINARoLIAxCAnwLIQwgAkH/AXEiAkEERwRAIAJBA0cNBSANQhiIpyIBKAIAIQMgAUEEaigCACICKAIAIgAEQCADIAARAwALIAIoAgQiAEUNBCADIAAgAigCCBCiBwwECwJ+AkAgASAMIA4gDCAOVBunIgJrQQRPBEAgACACaigAAEEBRiEKQQQhAkIAIQ0MAQtBACEKIBAhDSADIQIgDiARQgRSDQEaCyAMQgR8CyEMIAJB/wFxIgJBBEcEQCACQQNHDQUgDUIYiKciASgCACEDIAFBBGooAgAiAigCACIABEAgAyAAEQMACyACKAIEIgBFDQQgAyAAIAIoAggQogcMBAsCfgJAIAEgDCAOIAwgDlQbpyICa0ECTwRAIAAgAmovAAAhBkEEIQJCACENDAELQQAhBiAQIQ0gAyECIA4gEUIEUg0BGgsgDEICfAshDCACQf8BcSICQQRHBEAgAkEDRw0FIA1CGIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0EIAMgACACKAIIEKIHDAQLIAEgDCAOIAwgDlQbp2tBAUsiAiADQf8BcSILQQRGckUEQCALQQNHDQUgD0IgiKciASgCACEDIAFBBGooAgAiAigCACIABEAgAyAAEQMACyACKAIEIgBFDQQgAyAAIAIoAggQogcMBAsgBEEBaiEEIAxCAnwiDSANIA4gEUIEURsgAhshDCAIIAlxIApxRQ0AC0H/ASAGIAZB/wFPG0EBayIBQf8BcUEITw0DC0KAiIio4KDAgwMgAUEDdK1C+AGDiKchBQwCCyADQQNHDQEgD0IYiKciASgCACEDIAFBBGooAgAiAigCACIABEAgAyAAEQMACyACKAIEIgBFDQAgAyAAIAIoAggQogcLIAFBDEEEEKIHQQgPCyAFC4UVAiF/Dn0jAEEQayIRJAAgACABIAIQzAMCQAJAAkACQCADKAIEIhJFBEAgAygCDCEIDAELAkAgAygCDCIIRQ0AIAMoAhQiGEUNACADKAIcIhlFDQAgAygCJCIVRQ0AIAJFDQJDAAAAQEMAAIA/IAAtAJwBGyExIAJBDGwhGyAAKgKMASAAKgKIASIpkyEqIAAqAoQBIAAqAoABIiuTISwgACgCZCEaIAAoAmAhHCADKAIgIR0gAygCGCEeIAMoAhAhHyADKAIIISAgAygCACEhIAghEAJAAkACQAJAAkACQANAIBogBEEEaiILSQRAIAQgCyAaQYThwAAQ6gcACyAGIBJPDQYgEiAGayIFQQAgBSASTRsiBUEBRg0EIAVBAkYNBQJAAkACQCAQBEACQAJAIAYgGE8NAAJAAkAgFyAYakEBaw4CAAEDCyAGQQFqIQYMAQsgBkECaiEGCyAGIBhBtOHAABCMBwALAkACQCAGIBlPDQACQAJAIBcgGWpBAWsOAgABAwsgBkEBaiEGDAELIAZBAmohBgsgBiAZQZThwAAQjAcACyAEIBVPDQcCQCAVIARrIgVBACAFIBVNG0EBaw4DBAYHAAsgEyAhaiIFKAIAIQkgBUEIaigCACEUIAVBBGooAgAhCiAEICBqKgIAIBMgH2oiBCoCACEmIARBCGoqAgAhKCAEQQRqKgIAIScgEyAeaiIEKgIAIS0gBEEIaioCACEuIARBBGoqAgAhLyAWIB1qIgQqAgAhJSARIARBBGoqAgA4AgQgESAlOAIAIBEgBEEIaikCADcCCEMAAH9DQwAAAAAgJyArkyAslUMAAH9DlCIlICVDAAAAAF0bIiUgJUMAAH9DXhsQuQciMEMAAAAAYCEiIDD8ASEjQwAAf0NDAAAAACAoICuTICyVQwAAf0OUIiUgJUMAAAAAXRsiJSAlQwAAf0NeGxC5ByIoQwAAAABgISQgKPwBIQxDAAB/Q0MAAAAAICYgK5MgLJVDAAB/Q5QiJSAlQwAAAABdGyIlICVDAAB/Q14bELkHISYgMZUhJyAJQf///wNxIQUgCUGAgICAeHEhBCAJQYCAgPwHcSIHQYCAgPwHRgRAIARBEHYgBUENdnJBgARBACAFG3JBgPgBciENDAMLIARBEHYhDSAHQYCAgLgESw0BIAdBgICAxANPBEAgCUEMdiAJQf/fAHFBAEdxIAdBDXYgBUENdmpBgIABaiANcmohDQwDCyAHQYCAgJgDSQ0CIAVBgICABHIiCUH+ACAHQRd2IgVrdiEEIAlBHSAFayIFdkEBcQR/IARBAyAFdEEBayAJcUEAR2oFIAQLIA1yIQ0MAgsgCCAIQfTgwAAQjAcACyANQYD4AXIhDQsgCkH///8DcSEFIApBgICAgHhxIQQCQCAKQYCAgPwHcSIHQYCAgPwHRwRAIARBEHYhDiAHQYCAgLgETQRAIAdBgICAxANPBEAgCkEMdiAKQf/fAHFBAEdxIAdBDXYgBUENdmpBgIABaiAOcmohDgwDCyAHQYCAgJgDSQ0CIAVBgICABHIiCUH+ACAHQRd2IgVrdiEEIAlBHSAFayIFdkEBcQR/IARBAyAFdEEBayAJcUEAR2oFIAQLIA5yIQ4MAgsgDkGA+AFyIQ4MAQsgBEEQdiAFQQ12ckGABEEAIAUbckGA+AFyIQ4LIBRB////A3EhBSAUQYCAgIB4cSEEAkAgFEGAgID8B3EiB0GAgID8B0cEQCAEQRB2IQ8gB0GAgIC4BE0EQCAHQYCAgMQDTwRAIBRBDHYgFEH/3wBxQQBHcSAHQQ12IAVBDXZqQYCAAWogD3JqIQ8MAwsgB0GAgICYA0kNAiAFQYCAgARyIglB/gAgB0EXdiIFa3YhBCAJQR0gBWsiBXZBAXEEfyAEQQMgBXRBAWsgCXFBAEdqBSAECyAPciEPDAILIA9BgPgBciEPDAELIAVBDXYgBEEQdnJBgARBACAFG3JBgPgBciEPCyAREJ0EIQpBACEJQQAhBSAtQwAAAABfRQRAQf8BQwAAgD9DAAAAACAtEMYFICmTICqVIiUgJUMAAAAAXRsiJSAlQwAAgD9eG0MAAH5DlBC5ByIl/AFBACAlQwAAAABgGyAlQwAAf0NeG0EBakH/AXEhBQsgL0MAAAAAX0UEQEH/AUMAAIA/QwAAAAAgLxDGBSApkyAqlSIlICVDAAAAAF0bIiUgJUMAAIA/XhtDAAB+Q5QQuQciJfwBQQAgJUMAAAAAYBsgJUMAAH9DXhtBAWpB/wFxQQh0IQkLQQAhBCAuQwAAAABfRQRAQf8BQwAAgD9DAAAAACAuEMYFICmTICqVIiUgJUMAAAAAXRsiJSAlQwAAgD9eG0MAAH5DlBC5ByIl/AFBACAlQwAAAABgGyAlQwAAf0NeG0EBakH/AXFBEHQhBAsgFiAcaiIHQQRqIA1B//8DcSAOQRB0cjYCACAHQQxqIAUgCkEIdEGAgIB4cXIgBCAJcmo2AgAgB0EIaiAPQf//A3EgCkEQdHJB////B3EgCkGA/v8HcUEIdkEYdHI2AgAgB0H/ASAjQQAgIhsgMEMAAH9DXhtBCHRB/wEgDEEAICQbIChDAAB/Q14bQRB0ckH/ASAm/AFBACAmQwAAAABgGyAmQwAAf0NeG3JB/wFDAAB/Q0MAAAAAICdDAAB/Q5QiJSAlQwAAAABdGyIlICVDAAB/Q14bELkHIiX8AUEAICVDAAAAAGAbICVDAAB/Q14bQRh0cjYCACAWQRBqIRYgF0EDayEXIAZBA2ohBiAQQQFrIRAgCyEEIBsgE0EMaiITRw0BDAoLCyAEQQFqIQQMAgsgBEECaiEEDAELIARBA2ohBAsgBCAVQaThwAAQjAcACyAGQQFqIQYMAQsgBkECaiEGCyAGIBJBxOHAABCMBwALIAAgASACIAMoAgAgEhCjAgsgCARAIAMoAgghBCAAIAEgAhDMAyACBEBDAAAAQEMAAIA/IAAtAJwBQQFxGyEnIAJBAnQhECAAKAJkIQUgACgCYCEGIAghCwNAIAxBA2ogBU8NBCALRQ0FIAZBA2pB/wFDAAB/Q0MAAAAAIAQgDGoqAgAgJ5VDAAB/Q5QiJSAlQwAAAABdGyIlICVDAAB/Q14bELkHIiX8AUEAICVDAAAAAGAbICVDAAB/Q14bOgAAIAZBEGohBiALQQFrIQsgECAMQQRqIgxHDQALCyAAQQE6ALgBCyADKAIUIggEQCAAIAEgAiADKAIQIAgQlgQLIAMoAhwiCARAIAAgASACIAMoAhggCBDJAwsgAygCJCIIRQ0AIAAgASACIAMoAiAgCBD7BAsgAEEBOgC4ASADKAI8IQUgAygCOCEQIAMoAjQhBCADKAIwIQsgAygCLCIIBEAgACABIAIgAygCKCAIEM4DCyAEBEAgACABIAIgCyAEEOIDCyAFBEAgACABIAIgECAFEOMDCyADKAJEIggEQCAAIAEgAiADKAJAIAgQtAQLIAMoAkwiCARAIAAgASACIAMoAkggCBC1BAsgEUEQaiQADwsgDCAMQQRqIAVBuNvAABDqBwALIAggCEGo28AAEIwHAAvXFAIWfwF7IwBB0ABrIgQkACAEQRBq/QwAAAAAAAAAAAAAAAAAAAAA/QsDACAEIBj9CwMAIAEoAgQiCiABKAIIIglBAXQiBmohEyAKIQMCQAJAAkACQAJAAkACQAJAA0AgAyATRwRAIAMvAQAhAiADQQJqIQMgAkUNASACQRBPDQIgBCACQQF0aiICIAIvAQBBAWo7AQAgCEEBaiEIDAELCwJAAkACQAJAAkAgCA4CAwABCyAJBEBBACECIAohAwNAIAMvAQANAyACQQFqIQIgA0ECaiEDIAZBAmsiBg0ACwtB+O3EABDdCQALQRAhBSAEQTBqIBj9CwMAIAQgGP0LAyAgBC8BHiILBEBBDyEDDAYLIAQvARwEQEEPIQVBDiEDDAYLIAQvARoEQEEOIQVBDSEDDAYLIAQvARgEQEENIQVBDCEDDAYLIAQvARYEQEEMIQVBCyEDDAYLIAQvARQEQEELIQVBCiEDDAYLIAQvARIEQEEKIQVBCSEDDAYLIAQvARAEQEEJIQVBCCEDDAYLIAQvAQ4EQEEIIQVBByEDDAYLIAQvAQwEQEEHIQVBBiEDDAYLIAQvAQoEQEEGIQVBBSEDDAYLIAQvAQgEQEEFIQVBBCEDDAYLIAQvAQYEQEEEIQVBAyEDDAYLIAQvAQRFDQJBAyEFQQIhAwwFCyAAIAI7AQQgAEGAgICAeDYCAAwGCyAAQYGAgIB4NgIAIABBDjoABAwFCyAELwECIgJFDQFBASEDIAJBAXQhAkECIQUMAwsgAkEQQZjvxAAQjAcAC0GI7sQAEN0JAAsgBCAELwECQQF0IgI7ASQgBC8BBCACakEBdCECIANBAmoiB0EERgRAQQIhAwwBCyAEIAI7ASYgBC8BBiACakEBdCECIAdBBUYEQEEDIQMMAQsgBCACOwEoIAQvAQggAmpBAXQhAiAHQQZGBEBBBCEDDAELIAQgAjsBKiAELwEKIAJqQQF0IQIgB0EHRgRAQQUhAwwBCyAEIAI7ASwgBC8BDCACakEBdCECIAdBCEYEQEEGIQMMAQsgBCACOwEuIAQvAQ4gAmpBAXQhAiAHQQlGBEBBByEDDAELIAQgAjsBMCAELwEQIAJqQQF0IQIgB0EKRgRAQQghAwwBCyAEIAI7ATIgBC8BEiACakEBdCECIAdBC0YEQEEJIQMMAQsgBCACOwE0IAQvARQgAmpBAXQhAiAHQQxGBEBBCiEDDAELIAQgAjsBNiAELwEWIAJqQQF0IQIgB0ENRgRAQQshAwwBCyAEIAI7ATggBC8BGCACakEBdCECIAdBDkYEQEEMIQMMAQsgBCACOwE6IAQvARogAmpBAXQhAiAHQQ9GBEBBDSEDDAELIAQgAjsBPCAELwEcIAJqQQF0IQIgB0EQRgRAQQ4hAwwBCyAEIAI7AT4gAiALakEBdCECCwJ/AkACQCACQf//A3FBAiADdEH+/wNxRgRAIAVBCiADIANBCk8bIgxBAWoiA0kNASADIAVGDQJBACECQQAhCAJAIAUgA2siB0EITwRAIAQgA0EBdGohAyAHQRhxIgghAgNAIAP9AAEAIBj9jgEhGCADQRBqIQMgAkEIayICDQALIBggGCAY/Q0ICQoLDA0ODwABAAEAAQAB/Y4BIhggGCAY/Q0EBQYHAAEAAQABAAEAAQAB/Y4BIhggGCAY/Q0CAwABAAEAAQABAAEAAQAB/Y4B/RkAIQIgByAIRg0BCyAIQQF0IAxBAXRqIARqQQJqIQMgCCAMaiAFa0EBaiEFA0AgAy8BACACaiECIANBAmohAyAFQQFqIgUNAAsLIAJB//8DcSIDRQ0CIANBBHQQcSIIRQ0FIANBAXQMAwsgAEGBgICAeDYCACAAQQ46AAQMAwsgAyAFQRBBmO7EABDqBwALQQQhCEEACyEDIARBADYCTCAEIAg2AkggBCADNgJEQQQgDHQiDxBxIg1FDQEgDUEEayIWLQAAQQNxRSAPRXJFBEAgDUEAIA/8CwALQQEgDHQiDkEBayEUAkAgCUUNACAKQQJqIQIgBkECa0EBdkEBaiEXQQAhB0EAIQNBASEFIAohCUEAIQsCQANAAkAgCyEQIAkhBiACIQkgBSELAkAgBi8BACIGRQ0AAkAgBkEPTQRAIARBIGogBkEBdGoiAiACLwEAIhJBAWo7AQAgEkEIdCASQQh2ciICQQR2QY8ecSACQY8ecUEEdHIiAkECdkGz5gBxIAJBs+YAcUECdHIiAkEBdkHVqgFxIAJB1aoBcUEBdHIhAgJAAkACQCAGIAxLBEAgDiACQQAgBmtBD3F2IBRxIgJNDQEgDSACQQJ0aiICKAIAIgUNAiACIANBAWoiBzYCACAEKAJEIANGBH8gBEHEAGpByO7EABD5BSAEKAJIBSAICyADQQN0akECOwEAIAQgBzYCTCAHIQIMAwsgDiACQRAgBmt2IgVNDQUgBkEQdCAQciEQQQEgBnQiBkECdCERIA0gBUECdGohAgNAIAIgEDYCACACIBFqIQIgBSAGaiIFIA5JDQALDAULIAIgDkG47sQAEIwHAAsgAyECIAVBAWshAwsgBiAMayIRQf//A3EiBUEBayIGQQAgBSAGTxshBgNAIAYhBQJAAkACQCACIANLBEAgBCgCSCIIIANBA3RqIgYvAQBBAWsOAgoCAQsgAyACQejuxAAQjAcACyAGKAIEIRUMAQsgBkEAOwEAIAYgAiADayIVNgIEIAQoAkQiByACRgRAIARBxABqQfjuxAAQ+QUgBCgCSCEIIAQoAkQhBwsgCCACQQN0akECOwEAIAQgAkEBaiIGNgJMIAYgB0YEfyAEQcQAakGI78QAEPkFIAQoAkgFIAgLIAZBA3RqQQI7AQAgBCACQQJqIgc2AkwgByECCyAFQQFrIQYgEiARQQFrdkEBcSADaiAVaiEDIAUhESAFQf//A3ENAAsMAQsgBkEQQajuxAAQjAcACyADIAdPDQEgBCgCSCIIIANBA3RqIgMvAQBBAkkNAyADIBA7AQIgA0EBOwEAIAchAwsgC0EBaiEFIAlBAkEAIAkgE0cbaiECIAsgF0cNAQwDCwsgAyAHQdjuxAAQjAcACyAAQYGAgIB4NgIAIABBDjoABAJAIBYoAgAiAEF4cSIDQQRBCCAAQQNxIgAbIA9qTwRAIABBACADIA9BJ2pLGw0GIA0QogIgBCgCRCIARQ0DIAhBBGsoAgAiA0F4cSICIABBA3QiAEEEQQggA0EDcSIDG2pJDQUgA0EAIAIgAEEnaksbDQEgCBCiAgwDCwwECwwECyAAIAQpAkQ3AgAgACAUOwEYIAAgDjYCFCAAIA02AhAgACAONgIMIABBCGogBEHMAGooAgA2AgALAkAgASgCACIABEAgCkEEaygCACIBQXhxIgMgAEEBdCIAQQRBCCABQQNxIgEbakkNAyABQQAgAyAAQSdqSxsNASAKEKICCyAEQdAAaiQADwsMAgsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvZFQIPfwN+IwBBMGsiBSQAIAIoAgAiDyACKAIIIg1rIQYCQAJAIAACfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAEoAqgBQQFrDgIBAgALAkACQEElEHEiAUUNACABQR1qQZ2dxwApAAA3AAAgAUEQakGQnccA/QAAAP0LAAAgAUGAnccA/QAAAP0LAABBDBBxIgJFDQAgAkElNgIIIAIgATYCBCACQSU2AgBBDBBxIgFFDQAgAUEoOgAIIAFB7IrBADYCBCABIAI2AgAgBSABrUIghkIDhDcCAAwBCwALDAILIAZBIE8EQCABKQO4ASESIA8hBCANIQYMCAsgBUEQav0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgBf0MAAAAAAAAAAAAAAAAAAAAAP0LAwACfyABKQO4ASISUARAQgAhEiANDAELIAEoAsABIggoAgAgCCkDCCITIAgoAgQiBK0iFCATIBRUG6dqIQcCQCAEQv////8PIBMgE0L/////D1obp2siA0EAIAMgBE0bIgRCICASIBJCIFobpyIDIAMgBEsbIgRBAUYEQCAFIActAAA6AAAMAQsgBEUNACAFIAcgBPwKAAALIAEgEiAErSIUfSISNwO4ASAIIBMgFHw3AwggDSAEIAZNDQAaIAIgDSAEQQFBARCkBSACKAIICyEIIAQEQCACKAIEIAhqIAUgBPwKAAALIAIgBCAIaiIGNgIIIARFBEBBACEDDAsLIAIoAgAhBAwHCyABKAKsASEHIA8hASANIQgCfwJAIAZBIE8NACAFIAcgAhCPBAJAQQACfyAFLQAAQQRGBEAgBSgCBAwBCyAFKQMAIhNCIIghFCATQv8Bg0IEUg0BIBSnC0UNAhogAigCACEBIAIoAgghCAwBCyATQoB+gyESDAYLQYDAACEJA0ACQCABIA9HIAEgCEdyRQRAIAUgByACEI8EAkACQAJ/IAUtAABBBEYEQCAFKAIEDAELIAUpAwAiE0IgiCEUIBNC/wGDQgRSDQEgFKcLDQEgAigCCCEIDAMLIBNCgH6DIRIMCQsgAigCCCEIIAIoAgAhAQsCQCABIAhHBEAgASAIayEMIAIoAgQhBAwBC0IBIRNCgMwAIRJCACEUIAFBIGoiBCABQQF0IgYgBCAGSxsiBkEASA0IIAUgAQR/IAUgATYCCCAFIAIoAgQ2AgBBAQVBAAs2AgQgBUEkakEBIAYgBRCFByAFKAIkQQFGDQggBSgCKCEEIAIgBjYCACACIAQ2AgQgBiABayEMIAYhAQsgBCAIaiEOIAkgDCAJIAxJGyIGIANrIgQEQCADIA5qQQAgBPwLAAsgBSAHIA4gBhDkAgJAIAUtAABBBEYNACAFKQMAIhJCIIgiFKchBEIAIRMCQAJAAkACQAJAIBKnQf8BcUEBaw4EAgEABAwLIAQtAAhBI0YNAgwKCyAELQAIQSNGDQFCAiETDAoLIBJCgP4Dg0KAxgBRDQBCASETDAkLAn8gEkL/AYNCA1EEQCAEKAIAIQsgBEEEaigCACIDKAIAIgoEQCALIAoRAwALIAMoAgQiAwRAIAtBBGsoAgAiCkF4cSIQQQRBCCAKQQNxIgobIANqTwRAIApBACAQIANBJ2pLGw0VQQAMAwsMEwtBAQwBC0ECCyEDA0ACQAJAAkACQAJAAkACQCADDgIAAQILIAsQogIMBAsgBEEEaygCACIDQXhxIgpBEEEUIANBA3EiAxtJDRYgA0EAIApBNE8bDRcgBBCiAgwBCyAFIAcgDiAGEOQCIAUtAABBBEYNBiAFKQMAIhJCIIgiFKchBAJAAkACQAJAIBKnQf8BcUEBaw4EAAECCRELIBJCgP4Dg0KAxgBRDQJCASETDBALIAQtAAhBI0YNAUICIRMMDwsgBC0ACEEjRw0NCyASQv8Bg0IDUQ0BC0ECIQMMAwsgBCgCACELIARBBGooAgAiAygCACIKBEAgCyAKEQMACyADKAIEIgMNAQtBASEDDAELIAtBBGsoAgAiCkF4cSIQQQRBCCAKQQNxIgobIANqSQ0RIApFIBAgA0Enak1yRQRADBMLQQAhAwwACwALIAIgCDYCCAwBCyAFKAIEIgQgBksEQEG0m8cAQTZB7JvHABDrBwALIAIgBCAIaiIINgIIIARFDQBBfyAJQQF0IAlBAEgbIAkgBCAGRhsgCSAJIAxNGyEJIAYgBGshAwwBCwsgCCANawshAyAHLQC0AUEBRw0JIAIoAggiASANSQ0BIAdBoAFqIAIoAgQgDWogASANaxDeASAHKAKwASAHKAKoAUYNCSAFEJMHCyAFLQAAIQMMBAsgDSABIAFB7KvHABDqBwALQgMhEwsgAiAINgIIIBJCgH6DIRILIAUgFD4CBCAFIBOnIgM6AAAgBSASpyIBQRh2OgADIAUgAUEIdjsAAQsgA0H/AXFBBEYEQCAFKAIEIQMMBAsgBSkDACEUDAELIAEoAsABIQlBgMAAIQsgBUEQaiEQQQAhCANAIAQgD0cgBCAGR3JFBEAgEP0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgBf0MAAAAAAAAAAAAAAAAAAAAAP0LAwACfyASUARAQQAhA0IAIRIgDwwBCyAJKQMIIhMgCSgCBCIErSIUIBMgFFQbpyIHIAkoAgBqIQYCQCAEQv////8PIBMgE0L/////D1obp2siA0EAIAMgBE0bIgNCICASIBJCIFobpyIOIAMgDkkbIgNBAUYEQCAFIAYtAAA6AAAMAQsgA0UNACAFIAYgA/wKAAALIAEgEiADrSIUfSISNwO4ASAJIBMgFHw3AwggDyAEIAdGDQAaIAIgDyADQQFBARCkBSACKAIICyEEIAMEQCACKAIEIARqIAUgA/wKAAALIAIgAyAEaiIGNgIIIANFDQMgAigCACEECwJAIAQgBkcEQCACKAIEIQMMAQtCgcwAIRQgBEEgaiIHIARBAXQiAyADIAdJGyIHQQBIDQIgBSAEBH8gBSAENgIIIAUgAigCBDYCAEEBBUEACzYCBCAFQSRqQQEgByAFEIUHIAUoAiRBAUYNAiAFKAIoIQMgAiAHNgIAIAIgAzYCBCAHIQQLIBJQBEAgAiAGNgIIDAMLIAMgBmohDiAJAn4gCyAEIAZrIgcgByALSxsiB60gElgEQCAJKAIEIgpC/////w8gCSkDCCIUIBRC/////w9aG6drIgNBACADIApNGyIDIAcgAyAHSRsiAwRAIA4gCSgCACAUIAqtIhMgEyAUVhunaiAD/AoAAAsgAyAMIAMgDEsbIQwgFCADrSITfAwBCyAJKAIEIgpC/////w8gCSkDCCIUIBRC/////w9aG6drIgNBACADIApNGyIDIBKnIhEgAyARSRsiAwRAIA4gCSgCACAUIAqtIhMgEyAUVhunaiAD/AoAAAsgAyAMIAMgDEsbIQwgFCADrSITfAs3AwggASASIBN9IhI3A7gBIAIgAyAGaiIGNgIIIANFDQJBf0F/IAsgCEEBakEAIAMgB0kbIghBAUobIAsgByAMRxsiC0EBdCALQQBIGyALIAcgC08bIAsgAyAHRhshCyAMIANrIQwMAAsACyAAIBQ3AgRBAQwCCyAGIA1rIQMLIAAgA603AwhBAAs2AgAgBUEwaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL6CcCMH8GfiMAQbAEayIEJAACf0EAIAMoAgwiC0UNABogAykDECADKQMYQbjTxwBBARCVBCE0IAMoAgQiBiA0p3EhBSA0QhmIQv8Ag0KBgoSIkKDAgAF+ITYgAygCACEHA0ACQCAFIAdqKQAAIjUgNoUiNEJ/hSA0QoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIjRQRQRAA0AgByA0eqdBA3YgBWogBnFBbGxqIghBDGsoAgBBAUYEQCAIQRBrKAIALQAAQfgARg0DCyA0QgF9IDSDIjRQRQ0ACwtBACA1IDVCAYaDQoCBgoSIkKDAgH+DUEUNAhogBSAKQQhqIgpqIAZxIQUMAQsLIAhBFGsLIQUgBEEANgKYAyAEQQE2AowDIARBzNPHADYCiAMgBEIENwKQAyAEQYgDahCVByEGAkACQAJAIAVFBEAgAEGAgICAeDYC3AQgACAGNgIAIAMQvwQMAQsgBiAGKAIAKAIAEQMAIAUtABAhFyAFKAIMIRgCf0EAIAtFDQAaIAMpAxAgAykDGEHU08cAQQEQlQQhNCADKAIEIgYgNKdxIQUgNEIZiEL/AINCgYKEiJCgwIABfiE2IAMoAgAhB0EAIQoDQAJAIAUgB2opAAAiNSA2hSI0Qn+FIDRCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiNFBFBEADQCAHIDR6p0EDdiAFaiAGcUFsbGoiCEEMaygCAEEBRgRAIAhBEGsoAgAtAABB+QBGDQMLIDRCAX0gNIMiNFBFDQALC0EAIDUgNUIBhoNCgIGChIiQoMCAf4NQRQ0CGiAFIApBCGoiCmogBnEhBQwBCwsgCEEUawshBSAEQQA2ApgDIARBATYCjAMgBEHo08cANgKIAyAEQgQ3ApADIARBiANqEJUHIQYgBUUEQCAAQYCAgIB4NgLcBCAAIAY2AgAgAxC/BAwBCyAGIAYoAgAoAgARAwAgBS0AECEZIAUoAgwhGiADQfDTxwBBARC5BSEFIARBADYCmAMgBEEBNgKMAyAEQYTUxwA2AogDIARCBDcCkAMgBEGIA2oQlQchBiAFRQRAIABBgICAgHg2AtwEIAAgBjYCACADEL8EDAELIAYgBigCACgCABEDACAFLQAQIRsgBSgCDCEcIANBjNTHAEEHELkFIQUgBEEANgKYAyAEQQE2AowDIARBrNTHADYCiAMgBEIENwKQAyAEQYgDahCVByEGIAVFBEAgAEGAgICAeDYC3AQgACAGNgIAIAMQvwQMAQsgBiAGKAIAKAIAEQMAIAUtABAhHSAFKAIMIR4gA0G01McAQQcQuQUhBSAEQQA2ApgDIARBATYCjAMgBEHU1McANgKIAyAEQgQ3ApADIARBiANqEJUHIQYgBUUEQCAAQYCAgIB4NgLcBCAAIAY2AgAgAxC/BAwBCyAGIAYoAgAoAgARAwAgBS0AECEfIAUoAgwhICADQdzUxwBBBxC5BSEFIARBADYCmAMgBEEBNgKMAyAEQfzUxwA2AogDIARCBDcCkAMgBEGIA2oQlQchBiAFRQRAIABBgICAgHg2AtwEIAAgBjYCACADEL8EDAELIAYgBigCACgCABEDACAFLQAQISEgBSgCDCEiIANBhNXHAEEFELkFIQUgBEEANgKYAyAEQQE2AowDIARBoNXHADYCiAMgBEIENwKQAyAEQYgDahCVByEGIAVFBEAgAEGAgICAeDYC3AQgACAGNgIAIAMQvwQMAQsgBiAGKAIAKAIAEQMAIAUtABAhIyAFKAIMISQgA0Go1ccAQQUQuQUhBSAEQQA2ApgDIARBATYCjAMgBEHE1ccANgKIAyAEQgQ3ApADIARBiANqEJUHIQYgBUUEQCAAQYCAgIB4NgLcBCAAIAY2AgAgAxC/BAwBCyAGIAYoAgAoAgARAwAgBS0AECElIAUoAgwhJiADQczVxwBBBRC5BSEFIARBADYCmAMgBEEBNgKMAyAEQejVxwA2AogDIARCBDcCkAMgBEGIA2oQlQchBiAFRQRAIABBgICAgHg2AtwEIAAgBjYCACADEL8EDAELIAYgBigCACgCABEDACAFLQAQIScgBSgCDCEoIANB8NXHAEEFELkFIQUgBEEANgKYAyAEQQE2AowDIARBjNbHADYCiAMgBEIENwKQAyAEQYgDahCVByEGIAVFBEAgAEGAgICAeDYC3AQgACAGNgIAIAMQvwQMAQsgBiAGKAIAKAIAEQMAIAUtABAhKSAFKAIMISogA0GU1scAQQcQuQUhBSAEQQA2ApgDIARBATYCjAMgBEG01scANgKIAyAEQgQ3ApADIARBiANqEJUHIQYgBUUEQCAAQYCAgIB4NgLcBCAAIAY2AgAgAxC/BAwBCyAGIAYoAgAoAgARAwAgBS0AECErIAUoAgwhLCADQbzWxwBBBhC5BSEFIARBADYCmAMgBEEBNgKMAyAEQdzWxwA2AogDIARCBDcCkAMgBEGIA2oQlQchBiAFRQRAIABBgICAgHg2AtwEIAAgBjYCACADEL8EDAELIAYgBigCACgCABEDACAFLQAQIS0gBSgCDCEuIANB5NbHAEEGELkFIQUgBEEANgKYAyAEQQE2AowDIARBhNfHADYCiAMgBEIENwKQAyAEQYgDahCVByEGIAVFBEAgAEGAgICAeDYC3AQgACAGNgIAIAMQvwQMAQsgBiAGKAIAKAIAEQMAIAUtABAhLyAFKAIMITAgA0GM18cAQQYQuQUhBSAEQQA2ApgDIARBATYCjAMgBEGs18cANgKIAyAEQgQ3ApADIARBiANqEJUHIQYgBUUEQCAAQYCAgIB4NgLcBCAAIAY2AgAgAxC/BAwBCyAGIAYoAgAoAgARAwAgBEEEaq1CgICAgPABhCE0IAUtABAhMSAFKAIMITJBACEGA0ACQCAEIAY2AgQgBEEBNgKMAyAEQYjQxwA2AogDIARCATcClAMgBCA0NwMYIAQgBEEYajYCkAMgBEEIaiAEQYgDahCxBiADIAQoAgwiCyAEKAIQELkFIAQoAgghBUUNACAFBEAgCyAFQQEQogcLIAQoAgRBAWohBgwBCwsgBQRAIAsgBUEBEKIHC0EBIQZBCCEKQQghE0EIIRICQAJAAkACQAJAAkAgBCgCBCIFDhkFAQEBAQEBAQEEAQEBAQEBAQEBAQEBAQECAAsgBUEtRg0CCyAEQQE2AowDIARB3NfHADYCiAMgBEIBNwKUAyAEIDQ3AwggBCAEQQhqNgKQAyAEQSBqIgEgBEGIA2oQsQYgARCQByEBIABBgICAgHg2AtwEIAAgATYCACADEL8EDAQLQQEhDkECIQYMAQtBASEOQQMhBkEBIRELIARBiANqIQUjAEGAAWsiByQAIAdB5ABqrUKAgICAEIQhNQJAAkAgAygCDARAIAMoAgAhDyADKAIEIQ0gAykDGCE3IAMpAxAhOCAGQQJ0QYiSyQBqKAIAIRVBACEIA0AgByA1NwNYIAcgFSAIIAhB/wFxQQNuIglBA2xrQf8BcWwgCWo2AmQgB0IBNwJ0IAdBATYCbCAHQYjQxwA2AmggByAHQdgAajYCcCAHQcwAaiAHQegAahDsAyANIDggNyAHKAJQIhIgBygCVCIUEJUEIjSncSEJIDRCGYhC/wCDQoGChIiQoMCAAX4hOUEAIRADQAJAIAkgD2opAAAiNiA5hSI0Qn+FIDRCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiNFBFBEADQCAPIDR6p0EDdiAJaiANcUFsbGoiDEEMaygCACAURgRAIBIgDEEQaygCACAUENsHRQ0DCyA0QgF9IDSDIjRQRQ0ACwsgNiA2QgGGg0KAgYKEiJCgwIB/g1BFDQQgCSAQQQhqIhBqIA1xIQkMAQsLIAxBBGstAAAhFCAMQQhrKAIAIQwgBygCTCIJBEAgEkEEaygCACIQQXhxIhZBBEEIIBBBA3EiEBsgCWpJDQcgEEEAIBYgCUEnaksbDQggEhCiAgsgB0EEaiIJIAhBA3RqIhIgFDoABCASIAw2AgAgCEEBaiIIQQlHDQALIAUgCUHIAPwKAAAgB0GAAWokAAwCCyAHIDU3A1ggB0EANgJkIAdCATcCdCAHQQE2AmwgB0GI0McANgJoIAcgB0HYAGo2AnAgB0HMAGogB0HoAGoQ7AMLQfTXxwAQ3QkACyAELQCMAyESIAQoAogDIRQgBEEvaiAEQY0DaiIQQcMA/AoAAAJAIA4EQCMAQbABayIHJAAgB0GUAWqtQoCAgIAQhCE1AkACQCADKAIMBEAgAygCACEMIAMoAgQhCSADKQMYITcgAykDECE4IAZBAnRBlJLJAGooAgAhFUEAIQgDQCAHIDU3A4gBIAcgCEH/AXFBA24iCyAVIAggC0EDbGtB/wFxbGpBA2o2ApQBIAdCATcCpAEgB0EBNgKcASAHQYjQxwA2ApgBIAcgB0GIAWo2AqABIAdB/ABqIAdBmAFqEOwDIAkgOCA3IAcoAoABIg4gBygChAEiExCVBCI0p3EhCyA0QhmIQv8Ag0KBgoSIkKDAgAF+ITlBACEPA0ACQCALIAxqKQAAIjYgOYUiNEJ/hSA0QoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIjRQRQRAA0AgDCA0eqdBA3YgC2ogCXFBbGxqIg1BDGsoAgAgE0YEQCAOIA1BEGsoAgAgExDbB0UNAwsgNEIBfSA0gyI0UEUNAAsLIDYgNkIBhoNCgIGChIiQoMCAf4NQRQ0EIAsgD0EIaiIPaiAJcSELDAELCyANQQRrLQAAIRMgDUEIaygCACENIAcoAnwiCwRAIA5BBGsoAgAiD0F4cSIWQQRBCCAPQQNxIg8bIAtqSQ0JIA9BACAWIAtBJ2pLGw0KIA4QogILIAdBBGoiCyAIQQN0aiIOIBM6AAQgDiANNgIAIAhBAWoiCEEPRw0ACyAFIAtB+AD8CgAAIAdBsAFqJAAMAgsgByA1NwOIASAHQQM2ApQBIAdCATcCpAEgB0EBNgKcASAHQYjQxwA2ApgBIAcgB0GIAWo2AqABIAdB/ABqIAdBmAFqEOwDC0GE2McAEN0JAAsgBC0AjAMhEyAEKAKIAyELIARB8gBqIBBB8wD8CgAAIBENASAGIQUMAgsgEQ0AIAYhBQwBCyAEQYgDaiEPIwBB4AFrIgUkACAFQcQBaq1CgICAgBCEITUCQAJAIAMoAgwEQCADKAIAIQ4gAygCBCEIIAMpAxghNyADKQMQITggBkECdEGgkskAaigCACEQQQAhBwNAIAUgNTcDuAEgBSAHQf8BcUEDbiIKIBAgByAKQQNsa0H/AXFsakEIajYCxAEgBUIBNwLUASAFQQE2AswBIAVBiNDHADYCyAEgBSAFQbgBajYC0AEgBUGsAWogBUHIAWoQ7AMgCCA4IDcgBSgCsAEiCSAFKAK0ASINEJUEIjSncSEKIDRCGYhC/wCDQoGChIiQoMCAAX4hOUEAIQwDQAJAIAogDmopAAAiNiA5hSI0Qn+FIDRCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiNFBFBEADQCAOIDR6p0EDdiAKaiAIcUFsbGoiEUEMaygCACANRgRAIAkgEUEQaygCACANENsHRQ0DCyA0QgF9IDSDIjRQRQ0ACwsgNiA2QgGGg0KAgYKEiJCgwIB/g1BFDQQgCiAMQQhqIgxqIAhxIQoMAQsLIBFBBGstAAAhDSARQQhrKAIAIREgBSgCrAEiCgRAIAlBBGsoAgAiDEF4cSIVQQRBCCAMQQNxIgwbIApqSQ0HIAxBACAVIApBJ2pLGw0IIAkQogILIAVBBGoiCiAHQQN0aiIJIA06AAQgCSARNgIAIAdBAWoiB0EVRw0ACyAPIApBqAH8CgAAIAVB4AFqJAAMAgsgBSA1NwO4ASAFQQg2AsQBIAVCATcC1AEgBUEBNgLMASAFQYjQxwA2AsgBIAUgBUG4AWo2AtABIAVBrAFqIAVByAFqEOwDC0Hk18cAEN0JAAsgBC0AjAMhCiAEKAKIAyEzIARB5QFqIARBjQNqQaMB/AoAACAGIQULIAAgCjoARCAAIDM2AkAgACApOgA8IAAgKjYCOCAAICc6ADQgACAoNgIwIAAgJToALCAAICY2AiggACAjOgAkIAAgJDYCICAAIAP9AAMA/QsDACAAQRBqIANBEGr9AAMA/QsDACAAQcUAaiAEQeUBakGjAfwKAAAgACATOgDsASAAIAs2AugBIABB7QFqIARB8gBqQfMA/AoAACAAIBI6AOQCIAAgFDYC4AIgAEHlAmogBEEvakHDAPwKAAAgAEIENwPgBCAAQgA3A9gEIABCgICAgMAANwPQBCAAQgQ3A8gEIABCADcDwAQgAEKAgICAwAA3A7gEIABCBDcDsAQgAEIANwOoBCAAQoCAgIDAADcDoAQgAEIENwOYBCAAQgA3A5AEIABCgICAgMAANwOIBCAAIAU2AoQEIABBADYCgAQgACACNgL8AyAAIAE2AvgDIAAgKzoA9AMgACAsNgLwAyAAIDE6AOwDIAAgMjYC6AMgACAvOgDkAyAAIDA2AuADIAAgLToA3AMgACAuNgLYAyAAICE6ANQDIAAgIjYC0AMgACAfOgDMAyAAICA2AsgDIAAgHToAxAMgACAeNgLAAyAAIBs6ALwDIAAgHDYCuAMgACAZOgC0AyAAIBo2ArADIAAgFzoArAMgACAYNgKoAwsgBEGwBGokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC5wVBA5/An0BfAJ+IwBBIGsiAiQAAkACQAJAAkACQAJ/AkACQCAAAn8CQAJAAkACQAJAQRUgASgCACIDQYCAgIB4cyADQQBOG0EUaw4CAAEDCwJ9AkACQAJAAn0CQAJAIAEoAgwiAwRAIAJBBGogASgCCCIBEKAEIAIoAgghBiACKAIEIgdBgICAgHhGBEAgBiEBDBILIAIoAhQhCiACKAIQIQkgA0EBRg0EIAIoAhghCyACKAIMIQwCQAJAAkACQAJAAkACQAJAAkBBFSABKAIQIgVBgICAgHhzIAVBAE4bQQFrDgoLAAECAwQFBgcICgsgAS8BFLMMCwsgASgCFLMMCgsgASkDGLUMCQsgASwAFLIMCAsgAS4BFLIMBwsgASgCFLIMBgsgASkDGLQMBQsgASoCFAwECyABKwMYIhK2QwAAgD9DAACAvyASvUIAWRuYDAMLQQBB4P7AAEGA/cAAENsGIQEMEAsgAUEQaiACQR9qQdjnwAAQlQghAQwOCyABLQAUswshECADQQJGDQUCQAJAAkACQAJAAkACQAJAAkBBFSABKAIgIgVBgICAgHhzIAVBAE4bQQFrDgoLAAECAwQFBgcICgsgAS8BJLMMCwsgASgCJLMMCgsgASkDKLUMCQsgASwAJLIMCAsgAS4BJLIMBwsgASgCJLIMBgsgASkDKLQMBQsgASoCJAwECyABKwMoIhK2QwAAgD9DAACAvyASvUIAWRuYDAMLQQFB4P7AAEGA/cAAENsGIQEMCwsgAUEgaiACQR9qQdjnwAAQlQghAQwKCyABLQAkswshEQJAIANBA0cEQCACQQRqIAFBMGoQnwUgAigCBEUNASACKAIIIQEMCgtBA0Hg/sAAQYD9wAAQ2wYhAQwJCyADQQRGBEAgAigCCCEDIAIoAgwMBQsgAkEENgIEIANB/P///wBqQf////8AcUEEaiACQQRqQeiVwQAQ2wYhASAHBEAgBiAHQQEQogcLIAlFDQkgCiAJQQEQogcMCQsgASgCCCIDRQ0FIANBBXQhDiABKAIEIQ9BACEDQYCAgIB4IQcDQAJAAkACQAJAAkACQAJAAkBBFSADIA9qIgEoAgAiBEGAgICAeHMgBEEAThtBAWsODwEAAAIAAAAAAAAAAwQFBgALIAEgAkEfakHU5MAAEJUIIQQgAkEBOgAEIAIgBDYCCAwGCyACQQA6AAQgAkEEIAFBBGotAAAiBCAEQQRPGzoABQwFCyACQQA6AAQgAkIEIAFBCGopAwAiFCAUQgRaGzwABQwECyABQQhqKAIAIQQCfwJAAkACQAJAIAFBDGooAgBBBGsOAgEAAwsgBEGQ/cAAQQUQ2wcNAUEADAMLQQEgBCgAAEHt0rmbB0YNAhogBCgAAEHtwuGbB0cNAUECDAILIARBnf3AAEEFENsHDQBBAwwBC0EECyEEIAJBADoABCACIAQ6AAUMAwsgAUEEaigCACEEAn8CQAJAAkACQCABQQhqKAIAQQRrDgIBAAMLIARBkP3AAEEFENsHDQFBAAwDC0EBIAQoAABB7dK5mwdGDQIaIAQoAABB7cLhmwdHDQFBAgwCCyAEQZ39wABBBRDbBw0AQQMMAQtBBAshBCACQQA6AAQgAiAEOgAFDAILIAJBBGogAUEIaigCACABQQxqKAIAENkFDAELIAJBBGogAUEEaigCACABQQhqKAIAENkFCyACLQAEQQFGBEAgAigCCCEBQQEMCAsgAUEQaiEEAkACQAJAAkACQAJAAkACQCACLQAFDgQAAQIDBwsgB0GAgICAeEcEQEGQ/cAAQQUQnwchAUEBDA8LIAJBBGogBBCgBCACKAIIIQYgAigCBCIHQYCAgIB4RgRAIAYhAQwRCyACKAIYIQsgAigCFCEKIAIoAhAhCSACKAIMIQwMBgsgBQ0CAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAQoAgAiBUGAgICAeHMgBUEAThtBAWsOCgABAgMEBQYHCAkKCyABQRRqLQAAsyEQQQEhBQwPCyABQRRqLwEAsyEQQQEhBQwOCyABQRRqKAIAsyEQQQEhBQwNCyABQRhqKQMAtSEQQQEhBQwMCyABQRRqLAAAsiEQQQEhBQwLCyABQRRqLgEAsiEQQQEhBQwKCyABQRRqKAIAsiEQQQEhBQwJCyABQRhqKQMAtCEQQQEhBQwICyABQRRqKgIAIRBBASEFDAcLIAFBGGorAwAiErZDAACAP0MAAIC/IBK9QgBZG5ghEEEBIQUMBgsgBCACQR9qQdjnwAAQlQghAUEBDA0LIAgNAwJAAkACQAJAAkACQAJAAkACQAJAAkBBFSAEKAIAIghBgICAgHhzIAhBAE4bQQFrDgoAAQIDBAUGBwgJCgsgAUEUai0AALMhEUEBIQgMDgsgAUEUai8BALMhEUEBIQgMDQsgAUEUaigCALMhEUEBIQgMDAsgAUEYaikDALUhEUEBIQgMCwsgAUEUaiwAALIhEUEBIQgMCgsgAUEUai4BALIhEUEBIQgMCQsgAUEUaigCALIhEUEBIQgMCAsgAUEYaikDALQhEUEBIQgMBwsgAUEUaioCACERQQEhCAwGCyABQRhqKwMAIhK2QwAAgD9DAACAvyASvUIAWRuYIRFBASEIDAULIAQgAkEfakHY58AAEJUIIQFBAQwMCyANDQEgAkEEaiAEEJ8FIAIoAgghAUEBIAIoAgQNCxogAa0gAjUCDEIghoQhE0EBIQ0MAwtBlf3AAEEEEJ8HIQFBAQwKC0Gd/cAAQQUQnwchAUEBDAkLQZn9wABBBBCfByEBQQEMCAsgA0EgaiIDIA5HDQALDAILQQJB4P7AAEGA/cAAENsGIQEMBgsgASACQR9qQcTiwAAQlQghAQwGCyAHQYCAgIB4Rg0CIAIgCzYCGCACIAo2AhQgAiAJNgIQIAIgDDYCDCACIAY2AgggAiAHNgIEIAVFBEBBlf3AAEEEEJwHIQEMAgsgCEUEQEGZ/cAAQQQQnAchAQwCCyANRQRAQZ39wABBBRCcByEBDAILIBOnIQMgE0IgiKcLNgIkIAAgAzYCICAAIBE4AhwgACAQOAIYIAAgCzYCFCAAIAo2AhAgACAJNgIMIAAgDDYCCCAAIAY2AgQgACAHNgIADAULIAJBBGoQ5gVBAAwBC0GAgICAeCEHQZD9wABBBRCcByEBQQELRSAHQYCAgIB4RnINAQJAIAcEQCAGQQRrKAIAIgNBeHEiBUEEQQggA0EDcSIDGyAHakkNBSADQQAgBSAHQSdqSxsNBiAGEKICCyAJRQ0CIApBBGsoAgAiBkF4cSIDQQRBCCAGQQNxIgYbIAlqSQ0EIAZBACADIAlBJ2pLGw0AIAoQogIMAgsMBAsgBwRAIAZBBGsoAgAiA0F4cSIFQQRBCCADQQNxIgMbIAdqSQ0DIANBACAFIAdBJ2pLGw0EIAYQogILIAlFDQAgCkEEaygCACIGQXhxIgNBBEEIIAZBA3EiBhsgCWpJDQIgBkEAIAMgCUEnaksbDQMgChCiAgsgAEGBgICAeDYCACAAIAE2AgQLIAJBIGokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC6wUAwZ+EH8BeyMAQSBrIhAkAAJAAkACQAJAAkACQAJAAkACQCAAAn8CQAJAAkAgACgCDCISQQFqIggEQCAAKAIEIg8gD0EBaiINQQN2IglBB2wiFCAPQQhJGyIKQQF2IAhJBEAgCkEBaiIJIAggCCAJSRsiCEEPSQ0CIAhB/////wFNBEBBfyAIQQN0QQduQQFrZ3YiCEH+////AUsNCCAIQQFqIQgMBwsMDgtBACANRQ0EGiAAKAIAIQBBACEIIAkgDUEHcUEAR2oiCkEBTQ0CIAAhCCAKQf7///8DcSILIQkDQCAIIAj9AAMAIhj9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gGP0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACAIQRBqIQggCUECayIJDQALIAogC0YNAyALQQN0IQggCkEBcSEKDAILDAwLQQQgCEEIcUEIaiAIQQRJGyEIDAMLIAAgCGohCANAIAggCCkDACICQn+FQgeIQoGChIiQoMCAAYMgAkL//v379+/fv/8AhHw3AwAgCEEIaiEIIApBAWsiCg0ACwsCQCANQQhPBEAgACANaiAAKQAANwAADAELIA1FDQAgAEEIaiAAIA38CgAACyABKQMAIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIQhBSAAQQhqIQsgAEEIayEVIAJCf4UhBiABKQMIIQRBASEBIAAhCUEAIQgDQCAIIQogASEIAkAgACAKaiITLQAAQYABRw0AIBUgCkEDdGshFiAAIApBf3NBA3RqIRcCQANAIA8gBCAWNQIAhSIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEQtKBqpur+oLXp39+IgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIQgA0LYotHvwqnlvy1+hSICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEIAZ+IgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIQgAiAFfoUgAomnIhFxIgwhASAAIAxqKQAAQoCBgoSIkKDAgH+DIgJQBEBBCCEOA0AgASAOaiEBIA5BCGohDiAAIAEgD3EiAWopAABCgIGChIiQoMCAf4MiAlANAAsLIAAgAnqnQQN2IAFqIA9xIgFqLAAAQQBOBEAgACkDAEKAgYKEiJCgwIB/g3qnQQN2IQELIAEgDGsgCiAMa3MgD3FBCE8EQCAAIAFqIgwtAAAgDCARQRl2Igw6AAAgCyABQQhrIA9xaiAMOgAAQf8BRg0CIAAgAUEDdGshDEF4IQEDQCABIAlqIg4oAAAhESAOIAEgDGoiDigAADYAACAOIBE2AAAgAUEEaiIBDQALDAELCyATIBFBGXYiAToAACALIA8gCkEIa3FqIAE6AAAMAQsgE0H/AToAACALIA8gCkEIa3FqQf8BOgAAIAAgAUF/c0EDdGogFykAADcAAAsgCUEIayEJIAggCCANSSIKaiEBIAoNAAsgDyAUIA9BCEkbCyASazYCCAwFCyAIQQhqIgkgCEEDdCINaiIKIAlJIApB+P///wdLcg0AIAoQcSIKRQ0BIAogDWohCyAJBEAgC0H/ASAJ/AsACyAIQQFrIgwgCEEDdkEHbCAMQQhJGyETIAAoAgAhDSASDQJBACESDAMLIBBBADYCGCAQQQE2AgwgEEHEtcQANgIIIBBCBDcCECAQQQhqQZi1xAAQjQgLAAsgC0EIaiERIAEpAwAiAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhCEGIA1BCGshFCACQn+FIQcgDSkDAEJ/hUKAgYKEiJCgwIB/gyEEIAEpAwghBUEAIQggEiEBIA0hCgNAIARQBEADQCAIQQhqIQggCkEIaiIKKQMAQoCBgoSIkKDAgH+DIgJCgIGChIiQoMCAf1ENAAsgAkKAgYKEiJCgwIB/hSEECyALIAwgBSAUIAR6p0EDdiAIaiIVQQN0azUCAIUiA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCAFQgiIQoCAgPgPgyAFQhiIQoCA/AeDhCAFQiiIQoD+A4MgBUI4iISEhELSgaqbq/qC16d/fiICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEIANC2KLR78Kp5b8tfoUiAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhCAHfiIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEIAIgBn6FIAKJpyIWcSIJaikAAEKAgYKEiJCgwIB/gyICUARAQQghDgNAIAkgDmohCSAOQQhqIQ4gCyAJIAxxIglqKQAAQoCBgoSIkKDAgH+DIgJQDQALCyAEQgF9IASDIQQgCyACeqdBA3YgCWogDHEiCWosAABBAE4EQCALKQMAQoCBgoSIkKDAgH+DeqdBA3YhCQsgCSALaiAWQRl2Ig46AAAgESAJQQhrIAxxaiAOOgAAIAsgCUF/c0EDdGogDSAVQX9zQQN0aikAADcDACABQQFrIgENAAsLIAAgDDYCBCAAIAs2AgAgACATIBJrNgIIIA9FDQAgDyAPQQN0QQ9qQXhxIgFqQQlqIgBFDQAgDSABayIBQQRrKAIAIghBeHEiCUEEQQggCEEDcSIIGyAAakkNASAIQQAgCSAAQSdqSxsNAiABEKICCyAQQSBqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgEEEANgIYIBBBATYCDCAQQcS1xAA2AgggEEIENwIQIBBBCGpBmLXEABCNCAALvw4BB38CQAJAIAAoAuACIgEEQCAAKALkAiIEQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyABakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKALwAiIBKAL4BiICQQRrKAIAIgRBeHFBhIABQYiAASAEQQNxIgMbSQ0AIANBACAEQaiAAU8bDQEgAhCiAiABKALgBiIEBEAgASgC5AYiAkEEaygCACIDQXhxIgYgBEEBdCIEQQRBCCADQQNxIgMbakkNASADQQAgBiAEQSdqSxsNAiACEKICCyABKAL8BiICQQRrKAIAIgRBeHFBhBBBiBAgBEEDcSIDG0kNACADQQAgBEGoEE8bDQEgAhCiAiABKALsBiIEBEAgASgC8AYiAkEEaygCACIDQXhxIgYgBEEBdCIEQQRBCCADQQNxIgMbakkNASADQQAgBiAEQSdqSxsNAiACEKICCyABQQRrKAIAIgRBeHFBrAdBsAcgBEEDcSICG0kNACACQQAgBEHQB08bDQEgARCiAgJAIAAoAghBAkYNACAAKALIASIBQYKAgIB4SCABRXJFBEAgACgCzAEiBEEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAWpJDQIgAkEAIAMgAUEnaksbDQMgBBCiAgsgACgC1AEiAUGCgICAeEggAUVyRQRAIAAoAtgBIgRBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0CIAJBACADIAFBJ2pLGw0DIAQQogILIAAoAuABIgFBgoCAgHhIIAFFckUEQCAAKALkASIEQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyABakkNAiACQQAgAyABQSdqSxsNAyAEEKICCyAAKALsASIBQYKAgIB4SCABRXJFBEAgACgC8AEiBEEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAWpJDQIgAkEAIAMgAUEnaksbDQMgBBCiAgsgACgC+AEiAUGCgICAeEggAUVyRQRAIAAoAvwBIgRBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0CIAJBACADIAFBJ2pLGw0DIAQQogILIAAoAoQCIgFBgoCAgHhIIAFFckUEQCAAKAKIAiIEQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyABakkNAiACQQAgAyABQSdqSxsNAyAEEKICCyAAKAKoASEEIAAoAqwBIgIEQCAEIQEDQCABKAIAIgMEQCABQQRqKAIAIgZBBGsoAgAiBUF4cSIHQQRBCCAFQQNxIgUbIANqSQ0EIAVBACAHIANBJ2pLGw0FIAYQogILIAFBDGooAgAiAwRAIAFBEGooAgAiBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgA2pJDQQgBUEAIAcgA0EnaksbDQUgBhCiAgsgAUEYaiEBIAJBAWsiAg0ACwsgACgCpAEiAQRAIARBBGsoAgAiAkF4cSIDIAFBGGwiAUEEQQggAkEDcSICG2pJDQIgAkEAIAMgAUEnaksbDQMgBBCiAgsgACgCtAEhBCAAKAK4ASICBEAgBEEUaiEBA0AgAUEEaygCACIDBEAgASgCACIGQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyADakkNBCAFQQAgByADQSdqSxsNBSAGEKICCyABQRBrKAIAIgMEQCABQQxrKAIAIgZBBGsoAgAiBUF4cSIHQQRBCCAFQQNxIgUbIANqSQ0EIAVBACAHIANBJ2pLGw0FIAYQogILIAFBHGohASACQQFrIgINAAsLIAAoArABIgEEQCAEQQRrKAIAIgJBeHEiAyABQRxsIgFBBEEIIAJBA3EiAhtqSQ0CIAJBACADIAFBJ2pLGw0DIAQQogILIAAoAsABIQQgACgCxAEiAgRAIAQhAQNAIAFBEGooAgAiAwRAIAFBFGooAgAiBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgA2pJDQQgBUEAIAcgA0EnaksbDQUgBhCiAgsgAUEcaigCACIDBEAgAUEgaigCACIGQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyADakkNBCAFQQAgByADQSdqSxsNBSAGEKICCyABQShqKAIAIgMEQCABQSxqKAIAIgZBBGsoAgAiBUF4cSIHQQRBCCAFQQNxIgUbIANqSQ0EIAVBACAHIANBJ2pLGw0FIAYQogILIAFBBGooAgAiAwRAIAFBCGooAgAiBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgA2pJDQQgBUEAIAcgA0EnaksbDQUgBhCiAgsgAUE4aiEBIAJBAWsiAg0ACwsgACgCvAEiAEUNACAEQQRrKAIAIgFBeHEiAiAAQThsIgBBBEEIIAFBA3EiARtqSQ0BIAFBACACIABBJ2pLGw0CIAQQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALkhMDDn8BewF+IwBBEGsiDCQAAkACQAJAAkACQCAAKAIIIglFBEBBACEJQQEhCEEBIQoMAQsgACgCBCEEIAkQcSIKRQ0CIAQhCANAQQAhBQJAAn8gCEEUai8BACICQf//AXFFBEAgAkEQdAwBCyACQf8HcSEBIAJBgIACcSEGIAJBgPgBcSICQYD4AUYEQCAGQRB0IgJBgICA/AdyIAFFDQEaIAIgAUENdHJBgICA/gdyDAELIAZBEHQiBiACQQ10QYCAgPwAcSABQQ10ckGAgIDAA2pyIAINABogBkGAgIDYA3IgAWdBEGsiAkEXdGsgASACQf//A3FBCGp0Qf///wNxcgu+QwAAAABeRQ0AIAhBHGovAQAhBUEAIQICf0EAIAhBHmovAQAiAUH//wFxIgZBgPgBSw0AGkEAIAVB//8BcSIHQYD4AUsNABogAcFBAE4EQCABIAVLIAXBQQBODQEaIAEgB3JBAEcMAQsgBcFBAEggASAFSXELIQcgASAFIAcbIAUgBkGB+AFJGyEBAkAgCEEgai8BACIGQf//AXEiB0GA+AFLDQAgAUH//wFxIgVBgPgBSw0AIAbBQQBOBEAgAcFBAE4EQCAGIAFB//8DcUshAgwCCyAFIAZyQQBHIQIMAQsgAcFBAEggBiABQf//A3FJcSECC0EAIQUCfyAGIAEgAhsgASAHQYH4AUkbIgJB//8BcUUEQCACQRB0DAELIAJB/wdxIQEgAkGAgAJxIQYgAkGA+AFxIgJBgPgBRgRAIAZBEHQiAkGAgID8B3IgAUUNARogAiABQQ10ckGAgID+B3IMAQsgBkEQdCIGIAJBDXRBgICA/ABxIAFBDXRyQYCAgMADanIgAg0AGiAGQYCAgNgDciABZ0EQayICQRd0ayABIAJB//8DcUEIanRB////A3FyC74QiQRDAAAAAF5FDQAgDCAIKQIAIhAQywIgDP0ABAD9DP///3////9/////f////3/9Tv0MAACAfwAAgH8AAIB/AACAf/05/aQBQQ9HDQAgDCAQEMsCIAz9AAQAIg8gD/3mASIPIA8gD/0NCAkKCwwNDg8AAQIDAAECA/3kASIPIA8gD/0NBAUGBwABAgMAAQIDAAECA/3kAf3jAf0fAEMAAAAAXiEFCyADIApqIAU6AAAgCEEkaiEIIAkgA0EBaiIDRw0ACyAEQSRqIQMgCSAKaiEIQQAhASAKIQUCQAJAA0AgBSAIRg0EIAFBAWohBCAFLQAAQQFHDQEgBUEBaiEFIANBJGohAyAEIgEgCUcNAAtBACECDAELIAQgCUYEQEEBIQIMAQsgASAJayEBQQEhBEEBIQIDQAJAAkAgASAEagRAIAQgBWotAAANASACQQFqIQIMAgtB9KHBABDdCQALIAMgAkFcbGoiBiAD/QACAP0LAgAgBkEgaiADQSBqKAIANgIAIAZBEGogA0EQav0AAgD9CwIACyADQSRqIQMgASAEQQFqIgRqDQALCyAAIAkgAms2AggLIAAoAhQiBgRAQQAhBCAAKAIQIgEhAyAKIQUCQANAAkAgBSAIRwRAIAUtAAANAQJAIAEgBEEYbGoiASgCFCICQQVPBEAgASgCCCIBQQRrKAIAIgdBeHEiCyACQQJ0IgJBBEEIIAdBA3EiBxtqSQ0BIAdBACALIAJBJ2pLGw0KIAEQogILQQEhAiAEQQFqIAZGDQQgBCAGayEHQQEhAQNAIAMhBAJAAkAgCCABIAVqIgtHBEAgA0EYaiEDIAstAAANASACQQFqIQIgBEEsaigCACILQQVJDQIgBEEgaigCACIEQQRrKAIAIg1BeHEiDiALQQJ0IgtBBEEIIA1BA3EiDRtqSQ0MIA1BACAOIAtBJ2pLGw0NIAQQogIMAgtBpKLBABDdCQALIAQgAkFobGoiBEEoaiADQRBqKQIANwIAIARBGGogA/0AAgD9CwIACyAHIAFBAWoiAWoNAAsMBAsMBwtBpKLBABDdCQALIAVBAWohBSADQRhqIQMgBEEBaiIEIAZHDQALQQAhAgsgACAGIAJrNgIUCwJAIAAoAiAiAgRAQQAhBEESIQEgCiEFAkACQANAIAUgCEYNBCAEQQFqIQMgBS0AAEEBRw0BIAVBAWohBSABQRJqIQEgAyIEIAJHDQALQQAhAQwBCyACIANGBEBBASEBDAELIAQgAmshBiAAKAIcIAFqIQNBASEEQQEhAQNAAkACQCAIIAQgBWoiB0cEQCAHLQAADQEgAUEBaiEBDAILQYSiwQAQ3QkACyADIAFBbmxqIgcgA/0AAQD9CwEAIAdBEGogA0EQai8BADsBAAsgA0ESaiEDIAYgBEEBaiIEag0ACwsgACACIAFrNgIgCwJAIAAoAiwiAgRAQQAhBEEeIQEgCiEFAkACQANAIAUgCEYNBCAEQQFqIQMgBS0AAEEBRw0BIAVBAWohBSABQR5qIQEgAyIEIAJHDQALQQAhAQwBCyACIANGBEBBASEBDAELIAQgAmshByAAKAIoIAFqIQNBASEEQQEhAQNAAkACQCAIIAQgBWoiBkcEQCAGLQAADQEgAUEBaiEBDAILQeShwQAQ3QkACyADIAFBYmxqIgYgA/0AAQD9CwEAIAZBFmogA0EWaikBADcBACAGQRBqIANBEGopAQA3AQALIANBHmohAyAHIARBAWoiBGoNAAsLIAAgAiABazYCLAsCQCAAKAI4IgIEQEEAIQRBKiEBIAohBQJAAkADQCAFIAhGDQQgBEEBaiEDIAUtAABBAUcNASAFQQFqIQUgAUEqaiEBIAMiBCACRw0AC0EAIQEMAQsgAiADRgRAQQEhAQwBCyAEIAJrIQcgACgCNCABaiEDQQEhBEEBIQEDQAJAAkAgCCAEIAVqIgZHBEAgBi0AAA0BIAFBAWohAQwCC0GUosEAEN0JAAsgAyABQVZsaiIGIAP9AAEA/QsBACAGQShqIANBKGovAQA7AQAgBkEgaiADQSBqKQEANwEAIAZBEGogA0EQav0AAQD9CwEACyADQSpqIQMgByAEQQFqIgRqDQALCyAAIAIgAWs2AjgLAkAgCQRAIApBBGsoAgAiAEF4cSIFQQRBCCAAQQNxIgAbIAlqSQ0HIABBACAFIAlBJ2pLGw0BIAoQogILIAxBEGokAA8LDAYLQZSiwQAQ3QkAC0HkocEAEN0JAAtBhKLBABDdCQALQfShwQAQ3QkACwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC6oVBAh/BH4HfQF7IwBB4AJrIgEkAAJAAkACQAJAAkACQAJAAkACQAJAAkAgAC0AnANFBEAgACgCACICQQJHDQogACgCiAFBAkcNCiAAKAKAAyICQQNNBEBBACECDAwLIAEgACgC/AIiBSgAACIDNgIQAkAgA0HSgpGaBEcEQCADQdKCkYIDRw0DIAJBCEkNASACIAUoAAQiBEEHakF4cUEIaiIDSQ0BIARBCGoiBiACSyAEQXdLcg0EIAFBADYC2AIgASAENgLUAiABIAVBCGo2AtACIAFBIGogAUHQAmoQWSABKAIkIQQgASgCICIGQQJGBEAgBBDOByECDA4LIAFBsAFqIAFBKGpBgAH8CgAAIAEgBDYCrAEgASAGNgKoASAAKAKAAyICIANJDQUgAEEANgKAAyACIANrIQUgA0UNBiACIANGDQggBUUNByAAKAL8AiICIAIgA2ogBfwKAAAMBwsgAUEIaiAAELkCIAEtAAhFBEAgAS0ACQ0JQQAhAgwNCyABKAIMIQIMDAtBACECDAsLIAA1AoADIQkgAEEANgKAAyAAIAkgACkD2AJ8NwPYAgwKCyABQQE2AjQgAUHMyMEANgIwIAFBATYCJCABQcTIwQA2AiAgAUEBNgIsIAEgAUEQaq1CgICAgJAEhDcD0AIgASABQdACajYCKCABQRRqIgAgAUEgahCxBiAAEI4HIQIMCQtBCCAGIAJBnMjBABDqBwALQQAgAyACQYSkxwAQ6gcACyACIANGDQELIAAgBTYCgAMLIAAgACkD2AIgA618Igk3A+ACIAAgCTcD2AICQAJAAkAgASgCpAJBAUYEQCAAIAEoApQCIgM2AogDIAAgASgCtAEgASgCwAEiAiABKAKwARsiBTYCjAMgBUUNASACIAVuIgcgBSAHbCACR2oiBSADRgRAIAEtAKgCIQMgASAEQQAgBkEBcRs2AiQgASACNgIgIAEgA0EBcSICOgAoIABB+AFqIAFBIGoQ6QEgASgC0AEiBEECRwRAAn0gAC0A0AIiA0ECRgRAQwAAQMEhDUMAABBBIQ5DAACAPyEQQQAhA0MAAIA/IRFDAACAPyESQwAAgD8hE0MAAAAADAELIAFBImogAEHTAmotAAA6AAAgASAALwDRAjsBICAAKgLMAiEQIAAqAsgCIREgACoCxAIhEiAAKgLAAiEOIAAqArwCIQ0gACoCuAIhEyAAKgK0AgshDyAAIAEqAoQCIBAgASgCgAIbOALMAiAAIAEqAvwBIBEgASgC+AEbOALIAiAAIAEqAvQBIBIgASgC8AEbOALEAiAAIAEqAuwBIA4gASgC6AEbOALAAiAAIAEqAuQBIA0gASgC4AEbOAK8AiAAIAEqAtwBIBMgASgC2AEbOAK4AiAAIAMgAS0AiAIiAyADQQJGGzoA0AIgACABKgLUASAPIARBAXEbOAK0AiAAQdMCaiABQSJqLQAAOgAAIAAgAS8BIDsA0QILIAJFDQQCfSAALQDQAkECRgRA/QwAAAAAAACAPwAAQMEAABBBIRRDAACAPyENQwAAgD8hDkMAAIA/DAELIAFBImogAEHTAmotAAA6AAAgASAALwDRAjsBICAAKgLIAiENIAAqAsQCIQ4gAP0AArQCIRQgACoCzAILIQ8gAEEBOgDQAiAAIA84AswCIAAgDTgCyAIgACAOOALEAiAAIBT9CwK0AiAAIAEvASA7ANECIABB0wJqIAFBImotAAA6AAAMBAsgASAFNgLMAiABQQI2AiQgAUHox8EANgIgIAFCAjcCLCABQoCAgIAQIgkgAEGIA2qthDcD2AIgASAJIAFBzAJqrYQ3A9ACIAEgAUHQAmo2AiggAUHAAmoiACABQSBqELEGIAAQjgchAgwCCyABQQE2AiQgAUGUyMEANgIgIAFCATcCLCABIAFBpAJqrUKAgICAEIQ3A9ACIAEgAUHQAmo2AiggAUG0AmoiACABQSBqELEGIAAQjgchAiABKAKUAiEDDAELQbTHwQAQgQgACyABKAKQAiEEIAMEQCAEQSRqIQADQCAAQQRrKAIAIgVBgICAgHhyQYCAgIB4RwRAIAAoAgAgBUEBEKIHCyAAQTBqIQAgA0EBayIDDQALCyABKAKMAiIABEAgBCAAQTBsQQgQogcLIAEoApgCIgBBgICAgHhyQYCAgIB4Rg0FIAEoApwCIABBARCiBwwFCwJAIAAoAgBBAkYNACAAKAJoIQQgACgCbCIDBEAgBEEkaiECA0AgAkEEaygCACIFQYCAgIB4ckGAgICAeEcEQCACKAIAIgZBBGsoAgAiB0F4cSIIQQRBCCAHQQNxIgcbIAVqSQ0FIAdBACAIIAVBJ2pLGw0GIAYQogILIAJBMGohAiADQQFrIgMNAAsLIAAoAmQiAwRAIAQgA0EwbEEIEKIHCyAAKAJwIgNBgICAgHhyQYCAgIB4Rg0AIAAoAnQgA0EBEKIHCyAAIAFBqAFqQYgB/AoAAAsgACgCACECDAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACwJAAkACQAJAAn8CQCACQQJHBEAgACgChAMgACgCiANPDQYgACgCiAFBAkYNAUEADAILIAFBqAFqIAAQYyABKAKsAUEAIAEtAKgBIgMbIQIgAw0GIAEtAKkBQQFxRQ0GIAApA/ACIgsgACkD2AIiCVgEQCAAKAKAAyEDDAULIAAoAoADIQRBACEDIABBADYCgAMgBCALIAl9IgogBK0iDCAKIAxUGyIKpyIFayECIApQRQRAIAQgBUYNBCACRQ0DIAAoAvwCIgMgAyAFaiAC/AoAAAwDCyAEIAVHDQIMAwtBAQshAgNAAkACQAJAAkACQAJAAkACQAJAAkACQCACRQRAIAFBqAFqIAAQYyABKAKsASEDIAEtAKgBIgINAiABLQCpAUEBcUUNAiAAKQPwAiIJIAApA9gCIgtWDQEMBgsgAUGoAWogABC5AiABLQCoAUEBRgRAIAEoAqwBIQIMEQsgAS0AqQENCUEAIQIMEAsgACgCgAMhAyAAQQA2AoADIAMgCSALfSIKIAOtIgwgCiAMVBsiCqciAmshBCAKUA0BIAIgA0YNAyAERQ0CIAAoAvwCIgMgAiADaiAE/AoAAAwCCyADQQAgAhshAgwOCyACIANGDQELIAAgBDYCgAMLIAAgCiALfCILNwPYAiAJIAtWDQELAkAgACgCiAFBAkYNACAAKALkASIDRQ0AIAAoAugBIgJBBGsoAgAiBEF4cSIFIANBKGwiA0EEQQggBEEDcSIEG2pJDQIgBEEAIAUgA0EnaksbDQMgAhCiAgsgAEECNgKIASAAIAAoAoQDQQFqIgM2AoQDIAMgACgCiANJDQQMCQtBACECDAkLQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0EAIQIMAQtBASECDAALAAsgACACNgKAAyACIQMLIAAgCSAKfCIJNwPYAiAJIAtaDQBBACECDAILQQAhAiAAQQA2AoADIABBAToAnAMgACAJIAOtfDcD2AIMAQsgAEEBOgCcAyAANQKAAyEJQQAhAiAAQQA2AoADIAAgCSAAKQPYAnw3A9gCCyABQeACaiQAIAILlhoBC38jAEGAAWsiBSQAIAAoAgwhBgJAAkACQAJAAkAgACgCFCIBIAAoAhAiAkkEQCAAQQxqIQsDQAJAIAEgBmotAABBCWsOMgAAAwMAAwMDAwMDAwMDAwMDAwMDAwMDAAMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMEAwsgACABQQFqIgE2AhQgASACRw0ACyACIQELIAVBCGogBiACIAFBAWoiACACIAAgAkkbEPkBIAUoAgwhACAFKAIIIQJBFBBxIgFFDQQgAUEDNgIADAILIAUgBiACIAFBAWoiACACIAAgAkkbEPkBIAUoAgQhACAFKAIAIQJBFBBxIgFFDQMgAUEGNgIADAELIABBADYCCCAAIAFBAWoiATYCFAJAIAEgAk8NAANAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkAgASAGai0AACIEQQlrDiUBAQgIAQgICAgICAgICAgICAgICAgICAEIBwgICAgICAgICAgFAAsgBEHbAGsOIQUHBwcHBwcHBwcHAwcHBwcHBwcBBwcHBwcCBwcHBwcHBQcLIAAgAUEBaiIBNgIUIAEgAkcNCyACIQEMDAsgACABQQFqIgQ2AhQCQCACIARNDQAgACABQQJqIgM2AhQCQCAEIAZqLQAAQfUARw0AIAMgBCACIAIgBEkbIgRGDQEgACABQQNqIgc2AhQgAyAGai0AAEHsAEcEQCAHIQMMAQsgBCAHRg0BIAAgAUEEaiIDNgIUIAYgB2otAABB7ABGDQoLIAVB2ABqIAYgAiADEPkBIAUoAlwhACAFKAJYIQJBFBBxIgFFDQ8gAUEJNgIADA0LIAVB0ABqIAYgAiAEEPkBIAUoAlQhACAFKAJQIQJBFBBxIgFFDQ4gAUEFNgIADAwLIAAgAUEBaiIENgIUAkAgAiAETQ0AIAAgAUECaiIDNgIUAkAgBCAGai0AAEHyAEcNACADIAQgAiACIARJGyIERg0BIAAgAUEDaiIHNgIUIAMgBmotAABB9QBHBEAgByEDDAELIAQgB0YNASAAIAFBBGoiAzYCFCAGIAdqLQAAQeUARg0JCyAFQegAaiAGIAIgAxD5ASAFKAJsIQAgBSgCaCECQRQQcSIBRQ0OIAFBCTYCAAwMCyAFQeAAaiAGIAIgBBD5ASAFKAJkIQAgBSgCYCECQRQQcSIBRQ0NIAFBBTYCAAwLCyAAIAFBAWoiBDYCFAJAIAIgBE0NACAAIAFBAmoiAzYCFAJAIAQgBmotAABB4QBHDQAgAyAEIAIgAiAESRsiBEYNASAAIAFBA2oiBzYCFCADIAZqLQAAQewARwRAIAchAwwBCyAEIAdGDQEgACABQQRqIgg2AhQgBiAHai0AAEHzAEcEQCAIIQMMAQsgBCAIRg0BIAAgAUEFaiIDNgIUIAYgCGotAABB5QBGDQgLIAVB+ABqIAYgAiADEPkBIAUoAnwhACAFKAJ4IQJBFBBxIgFFDQ0gAUEJNgIADAsLIAVB8ABqIAYgAiAEEPkBIAUoAnQhACAFKAJwIQJBFBBxIgFFDQwgAUEFNgIADAoLIAAgAUEBajYCFAwDCyAAKAIAIAAoAggiA2sgCkkEQCAAIAMgCkEBQQEQpAUgACgCCCEDCyAKBEAgACgCBCADaiAJOgAAIANBAWohAwsgACADNgIIIAAgACgCFEEBajYCFEEADAULIAAgAUEBajYCFCALEP0DIgENCAwDCyAEQTBrQf8BcUEKTw0BCwJ/IwBBIGsiByQAIAAoAgwhCAJAAkACQAJAAkAgACgCFCIDIAAoAhAiBEkEQCAAIANBAWoiAjYCFCADIAhqLQAAIgFBMEYEQCACIARPDQQgAiAIai0AAEEwa0H/AXFBCkkNAwwECyABQTFrQf8BcUEITQ0BIAIhAwsgB0EYaiAIIAQgAxD5ASAHKAIcIQIgBygCGCEBQRQQcSIDRQ0EIAMgATYCDCADQQ02AgAgAyACNgIQDAMLIAIgBE8NAQNAIAIgCGotAABBMGtB/wFxQQlLDQIgACACQQFqIgI2AhQgAiAERw0AC0EAIQMMAgsgB0EIaiAIIAQgA0ECaiICIAQgAiAESRsQ+QEgBygCDCECIAcoAgghAUEUEHEiA0UNAiADIAE2AgwgA0ENNgIAIAMgAjYCEAwBC0EAIQMgAiAETw0AAkACQCACIAhqLQAAIgFB5QBGIAFBxQBGckUEQCABQS5HDQMgACACQQFqIgE2AhQgASAETw0BIAEgCGotAABBMGtB/wFxQQlLDQEgAkECaiECA0AgBCACIgFGDQMgAkEBaiECIAEgCGotAAAiBkEwa0H/AXFBCkkNAAsgACABNgIUIAZBIHJB5QBHDQMLAn8jAEEQayIDJAAgACAAKAIUIgFBAWoiAjYCFCAAKAIMIQQCQCACIAAoAhAiCE8NAAJAIAIgBGotAABBK2sOAwABAAELIAAgAUECaiICNgIUCwJAAkACQCADQQhqIAQgCCACIAhJBH8gACACQQFqIgE2AhQgAiAEai0AAEEwa0H/AXFBCU0NASABBSACCxD5ASADKAIMIQEgAygCCCEEQRQQcSICRQ0CIAIgBDYCDCACQQ02AgAgAiABNgIQDAELQQAhAiABIAhPDQADQCABIARqLQAAQTBrQf8BcUEJSw0BIAAgAUEBaiIBNgIUIAEgCEcNAAsLIANBEGokACACDAELAAshAwwCCyAHQRBqIAggBCACQQJqIgIgBCACIARJGxD5ASAHKAIUIQIgBygCECEBQRQQcSIDRQ0CIAMgATYCDCADQQ02AgAgAyACNgIQDAELIAAgBDYCFAsgB0EgaiQAIAMMAQsACyIBRQ0BDAYLIAVByABqIAYgAiABQQFqIgAgAiAAIAJJGxD5ASAFKAJMIQAgBSgCSCECQRQQcSIBRQ0GIAFBCjYCAAwECyAKBEAgACgACCEDIAkhBEEBDAELIAAoAggiAkUEQEEAIQEMBQsgACACQQFrIgM2AgggACgCBCADai0AACEEQQELIQogACgCDCEGAkACfwJAAkACQAJAIAAoAhQiASAAKAIQIgJPBEAgBCEJDAELIAAoAgQhByAEIQkDQAJAAkACQAJAAkACQCABIAZqLQAAIgRBCWsOJAEBCAgBCAgICAgICAgICAgICAgICAgIAQgICAgICAgICAgIAgALIARB3QBGDQIgBEH9AEYNAwwHCyAAIAFBAWoiATYCFCABIAJHDQQgAiEBDAULIApFDQYgACABQQFqIgE2AhQMBgsgCUH/AXFB2wBHDQQMAQsgCUH/AXFB+wBHDQMLIAAgAUEBaiIBNgIUIANFBEBBACEBDAsLIAAgA0EBayIDNgIIIAMgB2otAAAhCUEBIQogASACSQ0ACwtBAiEEAkAgCUH/AXEiAEHbAEcEQCAAQfsARw0BQQMhBAsgBUFAayAGIAIgAUEBaiIAIAIgACACSRsQ+QEgBSgCRCEAIAUoAkAhAkEUEHEiAUUNCiABIAQ2AgAMCAtBpPjGAEEoQbjnwAAQ6wcACyAKRQ0AQQcgCUH/AXEiAEHbAEYNAhogAEH7AEYNAUGk+MYAQShByOfAABDrBwALIAlB/wFxQfsARw0CIAEgAkkEQANAAkACQCABIAZqLQAAQQlrIgNBGUsNAEEBIAN0QZOAgARxDQEgA0EZRw0AIAAgAUEBajYCFCALEP0DIgENCiAAKAIMIQYCQAJAIAAoAhQiASAAKAIQIgJJBEADQAJAIAEgBmotAABBCWsOMgAAAwMAAwMDAwMDAwMDAwMDAwMDAwMDAAMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMEAwsgACABQQFqIgE2AhQgASACRw0ACyACIQELIAVBMGogBiACIAFBAWoiACACIAAgAkkbEPkBIAUoAjQhACAFKAIwIQJBFBBxIgFFDQ0gAUEDNgIADAsLIAVBKGogBiACIAFBAWoiACACIAAgAkkbEPkBIAUoAiwhACAFKAIoIQJBFBBxIgFFDQwgAUEGNgIADAoLIAAgAUEBaiIBNgIUDAYLIAVBGGogBiACIAFBAWoiACACIAAgAkkbEPkBIAUoAhwhACAFKAIYIQJBFBBxIgFFDQogAUERNgIADAgLIAAgAUEBaiIBNgIUIAEgAkcNAAsgAiEBCyAFQSBqIAYgAiABQQFqIgAgAiAAIAJJGxD5ASAFKAIkIQAgBSgCICECQRQQcSIBRQ0HIAFBAzYCAAwFC0EICyEDIAVBEGogBiACIAFBAWoiACACIAAgAkkbEPkBIAUoAhQhACAFKAIQIQJBFBBxIgFFDQUgASADNgIADAMLQQEhCiABIAJJDQALCyAFQThqIAYgAiABQQFqIgAgAiAAIAJJGxD5ASAFKAI8IQAgBSgCOCECQRQQcSIBRQ0CIAFBBTYCAAsgASACNgIMIAEgADYCEAsgBUGAAWokACABDwsAC+UQAgp/B30gA0EITwRAIAAgACADQQN2IgNBBHQiBWogACADQRxsIghqIAMgBBChASEAIAEgASAFaiABIAhqIAMgBBChASEBIAIgAiAFaiACIAhqIAMgBBChASECC0MAAIA/IRACfwJAIAAoAgAiBSAEKAIAQQRqKAIAIgMoAggiCEkEQCABKAIAIQYgAygCBCILIAVBGGxqIgQtABMiBSAELQASIgcgBC0AESIKIAcgCksbIgcgBSAHSxsiBwR9QwAAQMEgAyoCRCADLQBYQQJGIgUbIg9DAAAQQSADKgJIIAUbIA+TQwAAfkOVIAdBAWtB/wFxs5SSEIkEIg8gD5IFQwAAAAALIRIgBEEMai8BACIEQf//AXEiDUUEQCAEQRB0DAMLIARB/wdxIQUgBEGAgAJxIQogBEGA+AFxIglBgPgBRgRAIApBEHQiCkGAgID8B3IgBUUNAxogCiAFQQ10ckGAgID+B3IMAwsgCkEQdCEKIAlFDQEgCUENdEGAgID8AHEgBUENdHJBgICAwANqIApyDAILIAUgCEHcu8cAEIwHAAsgBSAFZ0EQayIFQf//A3FBCGp0Qf///wNxIApBgICA2ANyIAVBF3Rrcgu+Ig9DAACAP14EQCAPEMYFQ1T4LUCUQwAAgD+SkSEQC0MAAIA/IQ8CfwJAIAYgCEkEQCALIAZBGGxqIgUtABMiBiAFLQASIgogBS0AESIJIAkgCkkbIgogBiAKSxsiCgR9QwAAQMEgAyoCRCADLQBYQQJGIgYbIhFDAAAQQSADKgJIIAYbIBGTQwAAfkOVIApBAWtB/wFxs5SSEIkEIhEgEZIFQwAAAAALIRMgBUEMai8BACIFQf//AXEiDkUEQCAFQRB0DAMLIAVB/wdxIQYgBUGAgAJxIQkgBUGA+AFxIgxBgPgBRgRAIAlBEHQiCUGAgID8B3IgBkUNAxogCSAGQQ10ckGAgID+B3IMAwsgCUEQdCEJIAxFDQEgDEENdEGAgID8AHEgBkENdHJBgICAwANqIAlyDAILIAYgCEHcu8cAEIwHAAsgBiAGZ0EQayIGQf//A3FBCGp0Qf///wNxIAlBgICA2ANyIAZBF3Rrcgu+IhFDAACAP14EQCAREMYFQ1T4LUCUQwAAgD+SkSEPCyACKAIAIQkgBwR9QwAAQMEgAyoCRCADLQBYQQJGIgYbIhFDAAAQQSADKgJIIAYbIBGTQwAAfkOVIAdBAWtB/wFxs5SSEIkEIhEgEZIFQwAAAAALIRRDAACAPyERAn8gBEEQdCANRQ0AGiAEQf8HcSEGIARBgIACcSEHIARBgPgBcSIEQYD4AUYEQCAHQRB0IgRBgICA/AdyIAZFDQEaIAQgBkENdHJBgICA/gdyDAELIAdBEHQiByAEQQ10QYCAgPwAcSAGQQ10ckGAgIDAA2pyIAQNABogBiAGZ0EQayIEQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIARBF3Rrcgu+IhVDAACAP14EQCAVEMYFQ1T4LUCUQwAAgD+SkSERCwJ/AkAgCCAJSwRAIBIgEJQiECATIA+UYCALIAlBGGxqIgQtABMiBiAELQASIgcgBC0AESIJIAcgCUsbIgcgBiAHSxsiBgR9QwAAQMEgAyoCRCADLQBYQQJGIgcbIg9DAAAQQSADKgJIIAcbIA+TQwAAfkOVIAZBAWtB/wFxs5SSEIkEIg8gD5IFQwAAAAALIRJFIQsgECAQWyEMIARBDGovAQAiBEH//wFxIg1FBEAgBEEQdAwDCyAEQf8HcSEIIARBgIACcSEHIARBgPgBcSIJQYD4AUYEQCAHQRB0IgdBgICA/AdyIAhFDQMaIAcgCEENdHJBgICA/gdyDAMLIAdBEHQhByAJRQ0BIAlBDXRBgICA/ABxIAhBDXRyQYCAgMADaiAHcgwCCyAJIAhB3LvHABCMBwALIAggCGdBEGsiCEH//wNxQQhqdEH///8DcSAHQYCAgNgDciAIQRd0a3ILQwAAgD8hD74iEEMAAIA/XgRAIBAQxgVDVPgtQJRDAACAP5KRIQ8LIAsgDHEiCCAUIBGUIhAgEFsgECASIA+UYEVxRgR/IAIgASAIIAoEfUMAAEDBIAMqAkQgAy0AWEECRiIAGyIPQwAAEEEgAyoCSCAAGyAPk0MAAH5DlSAKQQFrQf8BcbOUkhCJBCIPIA+SBUMAAAAACwJ/IAVBEHQgDkUNABogBUH/B3EhACAFQYCAAnEhASAFQYD4AXEiAkGA+AFGBEAgAUEQdCIBQYCAgPwHciAARQ0BGiABIABBDXRyQYCAgP4HcgwBCyABQRB0IgEgAkENdEGAgID8AHEgAEENdHJBgICAwANqciACDQAaIAAgAGdBEGsiAEH//wNxQQhqdEH///8DcSABQYCAgNgDciAAQRd0a3ILviIPQwAAgD9eBH0gDxDGBUNU+C1AlEMAAIA/kpEFQwAAgD8LlCIPIA9bIA8gBgR9QwAAQMEgAyoCRCADLQBYQQJGIgAbIhBDAAAQQSADKgJIIAAbIBCTQwAAfkOVIAZBAWtB/wFxs5SSEIkEIhAgEJIFQwAAAAALAn8gBEEQdCANRQ0AGiAEQf8HcSEAIARBgIACcSEBIARBgPgBcSICQYD4AUYEQCABQRB0IgFBgICA/AdyIABFDQEaIAEgAEENdHJBgICA/gdyDAELIAFBEHQiASACQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2pyIAINABogACAAZ0EQayIAQf//A3FBCGp0Qf///wNxIAFBgICA2ANyIABBF3Rrcgu+IhBDAACAP14EfSAQEMYFQ1T4LUCUQwAAgD+SkQVDAACAPwuUYEVxcxsFIAALC+oRAw1/AXsJfQJAAkACQAJAAkAgACgCCCIJRQRAQQEhBkEBIQoMAQsgACgCBCEFIAkQcSIKRQ0CQwAAEEEgACoCSCAALQBYQQJGIgQbQwAAQMEgACoCRCAEGyITk0MAAH5DlSEUIAVBFGohBgNAQQAhBAJAAn8gBkEIay8BACIBQf//AXFFBEAgAUEQdAwBCyABQf8HcSECIAFBgIACcSEHIAFBgPgBcSIBQYD4AUYEQCAHQRB0IgFBgICA/AdyIAJFDQEaIAEgAkENdHJBgICA/gdyDAELIAdBEHQiByABQQ10QYCAgPwAcSACQQ10ckGAgIDAA2pyIAENABogAiACZ0EQayICQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIAJBF3Rrcgu+QwAAAABeRQ0AIAZBAWstAAAiAiAGQQJrLQAAIgEgBkEDay0AACIHIAEgB0sbIgEgASACSRsiAkUNACATIBQgAkEBa0H/AXGzlJIQiQRDAAAAAF5FDQBDAACAPyAGLwEAIgJBCHaz/RMgAiAGQQJqLQAAIgFBEHRyQf8BcbP9IAH9DAAAf0MAAH9DAAB/QwAAf0P95wEiDiAO/eQB/QwAAIC/AACAvwAAgL8AAIC//eQBIg79HwEiD4uTIA79HwAiFYuTIhGMQwAAAAAQ4AghECABs0MAAH9DlUMAAAA/lEPbD0lAlCIWEJkCIhIgDyAQIBCMIhcgDv0MAAAAAAAAAAAAAAAAAAAAAP1G/U0iDv3HAf0bAkEBcRuSIg8gESARlCAPIA+UIBUgECAXIA79GwBBAXEbkiIQIBCUkpKRIg+VlP0TIBIgECAPlZT9IAEgEiARIA+VlP0gAiAWEJsC/SADIg79DP///3////9/////f////3/9Tv0MAACAfwAAgH8AAIB/AACAf/05/aQBQQ9HDQAgDiAO/eYBIg4gDiAO/Q0ICQoLDA0ODwABAgMAAQID/eQBIg4gDiAO/Q0EBQYHAAECAwABAgMAAQID/eQB/eMB/R8AQwAAAABeIQQLIAMgCmogBDoAACAGQRhqIQYgCSADQQFqIgNHDQALIAVBGGohAyAJIApqIQZBACEBIAohBAJAAkADQCAEIAZGDQQgAUEBaiECIAQtAABBAUcNASAEQQFqIQQgA0EYaiEDIAIiASAJRw0AC0EAIQEMAQsgAiAJRgRAQQEhAQwBCyABIAlrIQVBASECQQEhAQNAAkACQCACIAVqBEAgAiAEai0AAA0BIAFBAWohAQwCC0GUocEAEN0JAAsgAyABQWhsaiIHIAP9AAIA/QsCACAHQRBqIANBEGopAgA3AgALIANBGGohAyAFIAJBAWoiAmoNAAsLIAAgCSABazYCCAsgACgCFCIHBEBBACECIAAoAhAiASEDIAohBAJAA0ACQCAEIAZHBEAgBC0AAA0BAkAgASACQRhsaiIBKAIUIgVBBU8EQCABKAIIIgFBBGsoAgAiCEF4cSILIAVBAnQiBUEEQQggCEEDcSIIG2pJDQEgCEEAIAsgBUEnaksbDQogARCiAgtBASEFIAJBAWogB0YNBCACIAdrIQhBASEBA0AgAyECAkACQCAGIAEgBGoiC0cEQCACQRhqIQMgCy0AAA0BIAVBAWohBSACQSxqKAIAIgtBBUkNAiACQSBqKAIAIgJBBGsoAgAiDEF4cSINIAtBAnQiC0EEQQggDEEDcSIMG2pJDQwgDEEAIA0gC0EnaksbDQ0gAhCiAgwCC0GkocEAEN0JAAsgAiAFQWhsaiICQShqIANBEGopAgA3AgAgAkEYaiAD/QACAP0LAgALIAggAUEBaiIBag0ACwwECwwHC0GkocEAEN0JAAsgBEEBaiEEIANBGGohAyACQQFqIgIgB0cNAAtBACEFCyAAIAcgBWs2AhQLAkAgACgCICIFBEBBACECQQkhASAKIQQCQAJAA0AgBCAGRg0EIAJBAWohAyAELQAAQQFHDQEgBEEBaiEEIAFBCWohASADIgIgBUcNAAtBACEBDAELIAMgBUYEQEEBIQEMAQsgAiAFayEHIAAoAhwgAWohA0EBIQJBASEBA0ACQAJAIAYgAiAEaiIIRwRAIAgtAAANASABQQFqIQEMAgtB1KHBABDdCQALIAMgAUF3bGoiCCADKQAANwAAIAhBCGogA0EIai0AADoAAAsgA0EJaiEDIAcgAkEBaiICag0ACwsgACAFIAFrNgIgCwJAIAAoAiwiBQRAQQAhAkEPIQEgCiEEAkACQANAIAQgBkYNBCACQQFqIQMgBC0AAEEBRw0BIARBAWohBCABQQ9qIQEgAyICIAVHDQALQQAhAQwBCyADIAVGBEBBASEBDAELIAIgBWshByAAKAIoIAFqIQNBASECQQEhAQNAAkACQCAGIAIgBGoiCEcEQCAILQAADQEgAUEBaiEBDAILQbShwQAQ3QkACyADIAFBcWxqIgggAykAADcAACAIQQdqIANBB2opAAA3AAALIANBD2ohAyAHIAJBAWoiAmoNAAsLIAAgBSABazYCLAsCQCAAKAI4IgUEQEEAIQJBFSEBIAohBAJAAkADQCAEIAZGDQQgAkEBaiEDIAQtAABBAUcNASAEQQFqIQQgAUEVaiEBIAMiAiAFRw0AC0EAIQEMAQsgAyAFRgRAQQEhAQwBCyACIAVrIQcgACgCNCABaiEDQQEhAkEBIQEDQAJAAkAgBiACIARqIghHBEAgCC0AAA0BIAFBAWohAQwCC0HEocEAEN0JAAsgAyABQWtsaiIIIAP9AAAA/QsAACAIQQ1qIANBDWopAAA3AAALIANBFWohAyAHIAJBAWoiAmoNAAsLIAAgBSABazYCOAsCQCAJBEAgCkEEaygCACIAQXhxIgRBBEEIIABBA3EiABsgCWpJDQcgAEEAIAQgCUEnaksbDQEgChCiAgsPCwwGC0HEocEAEN0JAAtBtKHBABDdCQALQdShwQAQ3QkAC0GUocEAEN0JAAsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvcEAIcfwV9IwBBMGsiBiQAAkACQAJAAkACQAJAAkACQAJAAkAgAC0AuAFBAUcNACAAKAKsASAAKAKwASIBQQJ0IAAoArQBIgMgAWpBAnQQ4QghASADQQJ0IgMgACgCZCIFSw0BIAAoAmAhBSAGIAEQuAoiAjYCFCAGIAM2AgggAiADRw0HIAEgBSADEOAJIAFBhAhJDQAgARCbBwsgAEIANwKwASAAQbgBakEAOgAAIAAoAmgiAUGAgICAeEYgACgCdCIDQYCAgIB4RnENAiABQYCAgIB4RyADQYCAgIB4R3FFBEAgBkEANgIoIAZBATYCHCAGQZzgwAA2AhggBkIENwIgIAZBGGoQkgchAQwGC0GAgBAhCiAAKAJkIgNB//8PTQRAQYCAECADIgFrIgUgACgCXCABa0sEQCAAQdwAaiABIAVBBEEEEKQFIAAoAmQhAQsgACgCYCICIAFBAnRqIQUgA0H//w9HBH9B/P8/IANBAnRrIggEQCAFQQAgCPwLAAsgASADayIDQf//D2ohASACIANBAnRqQfz/P2oFIAULQQA2AgAgAUEBaiEKCyAAIAo2AmQgACgCpAEiC0ECdBC2CSEQAkAgACgCMEUNACAAKAI0IgFBhAhJDQAgARCbBwsgACAQNgI0IABBATYCMCAAKAJoIhFBgICAgHhGDQQgACgCdCISQYCAgIB4Rg0DIAtFDQFDAAAAQEMAAIA/IAAtAJwBQQFxGyEhIAAqAowBIAAqAogBIh2TQwAAfkOVIR4gACgCeCEXIAAoAmwhGCAAKAJ8IRMgACgCcCEUIAAoAqwBIRkgACgCYCEOQQAhAQNAIApBgIAEIAsgAWsiAyADQYCABE8bIghBAnQiBUkEQEEAIAUgCkHo38AAEOoHAAsgBiAZIAFBAnQiFSABIAhqIgNBAnQiGhDhCCICELgKIgQ2AhQgBiAFNgIIAkAgBCAFRgRAIA4gBSACEOEJIAJBhAhPBEAgAhCbBwsgASALRg0BIAhBBHQhFiAVIBdqIRsgGCABQQF0aiEPQQAhDEEAIQgCQANAIAwgFkYEQCAIIAhBBGogBUHY38AAEOoHAAsCfyAMIA5qIg1BBGooAgAiAkH//wFxRQRAIAJBEHQMAQsgAkH/B3EhBCACQYCAAnEhByACQYD4AXEiCUGA+AFGBEAgB0EQdCIHQYCAgPwHciAERQ0BGiAHIARBDXRyQYCAgP4HcgwBCyAHQRB0IgcgCUENdEGAgID8AHEgBEENdHJBgICAwANqciAJDQAaIAdBgICA2ANyIARnQRBrIgdBF3RrIAQgB0H//wNxQQhqdEH///8DcXILIRwCfyACQYCAfHEgAkEQdiICQf//AXFFDQAaIAJB/wdxIQQgAkGAgAJxIQcgAkGA+AFxIglBgPgBRgRAIAdBEHQiB0GAgID8B3IgBEUNARogByACQQ10ckGAgID+B3IMAQsgB0EQdCICIAlBDXRBgICA/ABxIARBDXRyQYCAgMADanIgCQ0AGiACQYCAgNgDciAEZ0EQayICQRd0ayAEIAJB//8DcUEIanRB////A3FyCyEJIAYCfyANQQhqKAIAIgRB//8BcUUEQCAEQRB0DAELIARB/wdxIQIgBEGAgAJxIQcgBEGA+AFxIgRBgPgBRgRAIAdBEHQiBEGAgID8B3IgAkUNARogBCACQQ10ckGAgID+B3IMAQsgB0EQdCIHIARBDXRBgICA/ABxIAJBDXRyQYCAgMADanIgBA0AGiAHQYCAgNgDciACZ0EQayIEQRd0ayACIARB//8DcUEIanRB////A3FyCzYCECAGIAk2AgwgBiAcNgIIIA0tAAMhByANQQxqKAIAIgJBCHYhBEMAAAAAIR8gAkH/AXEEQCAdIB4gAkEBa0H/AXGzlJIQiQQhHwtDAAAAACEgIARB/wFxBEAgHSAeIARBAWtB/wFxs5SSEIkEISALIAYgAkEQdiICQf8BcQR9IB0gHiACQQFrQf8BcbOUkhCJBAVDAAAAAAs4AiAgBiAgOAIcIAYgHzgCGCABIBRJBEAgASATTw0CIA0gBkEIaiAhIAezQwAAf0OVlEMAAAAAkiAGQRhqIA8vAQAgCCAbaigCABCRAiAIQQRqIQggD0ECaiEPIAFBAWohASAWIAxBEGoiDEcNAQwECwsgASAUQbjfwAAQjAcACyABIBNByN/AABCMBwALDAgLIAYgECAVIBoQ4QgiARC4CiICNgIUIAYgBTYCCCACIAVGBEAgASAOIAUQ4AkgAUGECE8EQCABEJsHCyADIgEgC0kNAQwDCwsMBgtBACADIAVB/OvAABDqBwALIBJBgICAgHhyQYCAgIB4RwRAIAAoAngiAUEEaygCACIDQXhxIgUgEkECdCICQQRBCCADQQNxIgMbakkNBiADQQAgBSACQSdqSxsNByABEKICCyAAQYCAgIB4NgJ0IBFBgICAgHhyQYCAgIB4RwRAIAAoAmwiAUEEaygCACIDQXhxIgUgEUEBdCICQQRBCCADQQNxIgMbakkNBiADQQAgBSACQSdqSxsNByABEKICCyAAQYCAgIB4NgJoC0EAIQEgAEEANgJkIAAoAmAhAyAAKAJcIQUgAEKAgICAwAA3AlwgBUUNAiADQQRrKAIAIgBBeHEiAiAFQQJ0IgVBBEEIIABBA3EiABtqSQ0EIABBACACIAVBJ2pLGw0FIAMQogIMAgtBqN/AABDdCQALQZjfwAAQ3QkACyAGQTBqJAAgAQ8LIAZBADYCGEEAIAZBFGogBkEIaiAGQRhqQeD5xAAQ9QcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvuDwEOfyMAQYABayICJAACQAJAAkACQAJAAkACQAJAAkACQAJAIAEoAihBAkcEQCABKALUASIDIAEoAtgBQRxsaiEFAkACQANAIAMiBCAFRiIDDQFB1c3HAEEVIAQoAhQgBCgCGBCsA0UEQCAEQQBBHCADG2ohA0HqzccAQRUgBCgCFCAEKAIYEKwDRQ0BCwsgBCgCGCINQQBIDQMgBCgCFCEDAkAgDUUEQEEBIQEMAQsgDRBxIgFFDQoLIA0EQCABIAMgDfwKAAALIAQoAgBBAUYEQCAEKAIMIgdBAEgNDCAEKAIIIQMCQCAHRQRAQQEhBAwBCyAHEHEiBEUNCwsgBwRAIAQgAyAH/AoAAAsgByEDDAcLIAQoAgwiCUEASA0EIAQoAgghAwJAIAlFBEBBASEKDAELIAkQcSIKRQ0KCyAJBEAgCiADIAn8CgAACyACQThqIAogCUGAgIABEN8BQQEhBCACKAI8IQggAgJ/AkAgAigCOEEBRgRAIAhBgICAgHhHDQFBAwwCCyACKAJEIQsgAigCQCEGIAJBADYCQCACQoCAgIAQNwI4QQAhAyALBEAgAkE4akEAIAsQ7wUgAigCQCEDIAYhBQNAQQFBAiAFLAAAIgdBAE4iDhsiDCACKAI4IAMiBGtLBH8gAkE4aiAEIAwQ7wUgAigCQAUgBAsgAigCPCIEaiIPIA4EfyAHBSAPIAdBvwFxOgABIAdBwAFxQQZ2QUByCzoAACACIAMgDGoiAzYCQCAFQQFqIQUgC0EBayILDQALIAIoAjghBwsgCQRAIApBBGsoAgAiBUF4cSIOQQRBCCAFQQNxIgUbIAlqSQ0PIAVBACAOIAlBJ2pLGw0QIAoQogILIAgEQCAGQQRrKAIAIgVBeHEiCkEEQQggBUEDcSIFGyAIakkNDyAFQQAgCiAIQSdqSxsNECAGEKICCyADQQBODQgMDQsgCARAIAIoAkAiBUEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgCGpJDQ4gA0EAIAQgCEEnaksbDQ8gBRCiAgtBBAs6ACkgAkEeOgAoIAJBOGogAkEoahD8AyACQRBqIgUgAkHMAGr9AAIA/QsDACACQSBqIgQgAkHcAGooAgA2AgAgAiAC/QACPP0LAwAgAigCOCIDQQZGDQEgACAC/QADAP0LAgQgAEEkaiAEKAIANgIAIABBFGogBf0AAwD9CwIAIAAgAzYCAAwICyABKALIASIDIAEoAswBQRhsaiEFAkADQCADIgQgBUYiAQ0BQdXNxwBBFSAEKAIEIAQoAggQrANFBEAgBEEAQRggARtqIQNB6s3HAEEVIAQoAgQgBCgCCBCsA0UNAQsLIAQoAggiBkEASA0LIAQoAgQhAwJAIAZFBEBBASEBDAELIAYQcSIBRQ0KCyAGBEAgASADIAb8CgAACyAEKAIUIgVBAEgNCyAEKAIQIQQCQCAFRQRAQQEhAwwBCyAFEHEiA0UNCgsgBQRAIAMgBCAF/AoAAAsgACAFNgIMIAAgAzYCCCAAIAU2AgQgAEEGNgIAIAZFDQogAUEEaygCACIAQXhxIgNBBEEIIABBA3EiABsgBmpJDQwgAEEAIAMgBkEnaksbDQ0gARCiAgwKCyAAQoaAgICAgICAgH83AwAMCQsgAiAKIAlBfxDfASACKAIEIQwCQAJAIAIoAgBBAUYEQCAMQYCAgIB4Rg0BIAJBADYCSCACQQE2AjwgAkGoscQANgI4IAJCBDcCQCACQThqQbCxxAAQjQgACyAMQYCAgIB4Rw0BCyACQZ4GOwFkIAAgAkHkAGoQ/AMMBwsgAigCDCELIAIoAgghByACQQA2AnwgAkKAgICAEDcCdEEBIQhBACEDIAsEQCACQfQAakEAIAsQ7wUgAigCfCEGIAchBQNAQQFBAiAFLAAAIgNBAE4iDhsiDyACKAJ0IAYiBGtLBH8gAkH0AGogBCAPEO8FIAIoAnwFIAQLIAIoAngiCGoiBCAOBH8gAwUgBCADQb8BcToAASADQcABcUEGdkFAcgs6AAAgAiAGIA9qIgY2AnwgBUEBaiEFIAtBAWsiCw0ACyACKAJ0IQMLIAwEQCAHQQRrKAIAIgRBeHEiBUEEQQggBEEDcSIEGyAMakkNCyAEQQAgBSAMQSdqSxsNDCAHEKICCyAGQQBIDQMMBQtBrJjHABDdCQALQaTvwQAQ/wcMBQtB2JrIABD/BwALQdiayAAQ/wcACwJAIANFBEBBASEIDAELIAMQcSIIRQ0DCyADBEAgCCAEIAP8CgAACyADIQYgBCEKIAchCQsCQCAGRQRAQQEhBwwBCyAGEHEiB0UNAgsgBgRAIAcgCCAG/AoAAAsgAwRAIAhBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIANqSQ0FIARBACAFIANBJ2pLGw0GIAgQogILIAAgBjYCDCAAIAc2AgggACAGNgIEIABBBjYCAAsgDQRAIAFBBGsoAgAiAEF4cSIDQQRBCCAAQQNxIgAbIA1qSQ0EIABBACADIA1BJ2pLGw0FIAEQogILIAlFDQEgCkEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgCWpJDQMgAEEAIAEgCUEnaksbDQQgChCiAgwBCwALIAJBgAFqJAAPC0Gk78EAEP8HAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL7Q8CIX8VfSMAQfAAayIGJAACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAC0AuAFBAUcNACAAKAKsASAAKAKwASIFQQJ0IAAoArQBIgcgBWpBAnQQ4QghBSAHQQJ0IgcgACgCZCIISw0BIAAoAmAhCCAGIAUQuAoiCTYCFCAGIAc2AhggByAJRw0LIAUgCCAHEOAJIAVBhAhJDQAgBRCbBwsgAEIANwKwASAAQbgBakEAOgAAIAAoAhBFDQggACgCFCABQQJ0IAEgAmpBAnQQ4QghDQJAIAJBAnQiASAAKAJkIgVNBEAgACABNgJkIAAoAmAhCiABIQcMAQsgBSEIIAEgBWsiByAAKAJcIAVrSwRAIABB3ABqIAUgB0EEQQQQpAUgACgCZCEICyAAKAJgIgogCEECdCIJaiELIAdBAk8EQCABIAVBf3NqQQJ0IgwEQCALQQAgDPwLAAsgAkEEdCAFQQJ0ayAKaiAJakEEayELIAcgCGpBAWshCAsgC0EANgIAIAAgCEEBaiIHNgJkIAEgB0sNAgsgBiANELgKIgU2AhQgBiABNgIYIAEgBUcNCiAKIAEgDRDhCSAEQRVuIRAgBEEUa0EVbkEBaiERIARBE2tBFW5BAWohEiAEQRJrQRVuQQFqIRMgBEERa0EVbkEBaiEUIARBEGtBFW5BAWohFSAEQQ9rQRVuQQFqIRYgBEEOa0EVbkEBaiEXIARBDWtBFW5BAWohGCAEQQxrQRVuQQFqIRkgBEELa0EVbkEBaiEaIARBCmtBFW5BAWohGyAEQQlrQRVuQQFqIRwgBEEIa0EVbkEBaiEdIARBB2tBFW5BAWohHiAEQQZrQRVuQQFqIR8gBEEFa0EVbkEBaiEgIARBBGtBFW5BAWohISAEQQNrQRVuQQFqISIgBEECa0EVbkEBaiEjIARBAWtBFW5BAWohJEMAAPhBIAAqApgBlSEmQQAhBQNAIAVBAnQiACAHTw0DIABBAXIiASAHTw0EIABBAnIiCCAHTw0FIABBA3IiCSAHTw0HIAogAEECdGooAgAhACAGIAogAUECdGooAgA2AgggBiAANgIEIAYgCiAJQQJ0aigCADYCECAGIAogCEECdGooAgA2AgxBACEMIAZBHGoiDkEAQdQA/AsAIAVBFWwhASAFQQFqQQYhAEEAIQsDQCAGQQRqIABBBmsiD0EDdkH8////AXFqIiUoAgAgD0EecXYhCCAOIA9B4AFxQSBqIABJBH8gC0EPSw0IICUoAgQgDEEecXQgCHIFIAgLQRp0QRp1siAmlTgCACAAQQZqIQAgDEEGayEMIA5BBGohDiALQQFqIgtBFUcNAAsgBSAkRg0KIAYqAmwhJyAGKgJoISggBioCZCEpIAYqAmAhKiAGKgJcISsgBioCWCEsIAYqAlQhLSAGKgJQIS4gBioCTCEvIAYqAkghMCAGKgJEITEgBioCQCEyIAYqAjwhMyAGKgI4ITQgBioCNCE1IAYqAjAhNiAGKgIsITcgBioCKCE4IAYqAiQhOSAGKgIgITogAyABQQJ0aiAGKgIcOAIAIAFBAWohACAFICNGBEAgACEBDAsLIAMgAEECdGogOjgCACABQQJqIQAgBSAiRgRAIAAhAQwLCyADIABBAnRqIDk4AgAgAUEDaiEAIAUgIUYEQCAAIQEMCwsgAyAAQQJ0aiA4OAIAIAFBBGohACAFICBGBEAgACEBDAsLIAMgAEECdGogNzgCACABQQVqIQAgBSAfRgRAIAAhAQwLCyADIABBAnRqIDY4AgAgAUEGaiEAIAUgHkYEQCAAIQEMCwsgAyAAQQJ0aiA1OAIAIAFBB2ohACAFIB1GBEAgACEBDAsLIAMgAEECdGogNDgCACABQQhqIQAgBSAcRgRAIAAhAQwLCyADIABBAnRqIDM4AgAgAUEJaiEAIAUgG0YEQCAAIQEMCwsgAyAAQQJ0aiAyOAIAIAFBCmohACAFIBpGBEAgACEBDAsLIAMgAEECdGogMTgCACABQQtqIQAgBSAZRgRAIAAhAQwLCyADIABBAnRqIDA4AgAgAUEMaiEAIAUgGEYEQCAAIQEMCwsgAyAAQQJ0aiAvOAIAIAFBDWohACAFIBdGBEAgACEBDAsLIAMgAEECdGogLjgCACABQQ5qIQAgBSAWRgRAIAAhAQwLCyADIABBAnRqIC04AgAgAUEPaiEAIAUgFUYEQCAAIQEMCwsgAyAAQQJ0aiAsOAIAIAFBEGohACAFIBRGBEAgACEBDAsLIAMgAEECdGogKzgCACABQRFqIQAgBSATRgRAIAAhAQwLCyADIABBAnRqICo4AgAgAUESaiEAIAUgEkYEQCAAIQEMCwsgAyAAQQJ0aiApOAIAIAFBE2ohACAFIBFGBEAgACEBDAsLIAMgAEECdGogKDgCACABQRRqIQEgBSAQRg0KIAMgAUECdGogJzgCACIFIAJHDQALDAcLQQAgByAIQfzrwAAQ6gcAC0EAIAEgB0GM1cAAEOoHAAsgACAHQbzUwAAQjAcACyABIAdBzNTAABCMBwALIAggB0Hc1MAAEIwHAAtBBEEEQfDPxwAQjAcACyAJIAdB7NTAABCMBwALIA1BhAhJDQAgDRCbBwsgBkHwAGokAA8LIAEgBEH81MAAEIwHAAsgBkEANgIcQQAgBkEUaiAGQRhqIAZBHGpB4PnEABD1BwALvxECE38EfiMAQSBrIgIkAAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkBBFSABKAIAIgZBgICAgHhzIAZBAE4bQRRrDgIBAgALIAEgAkEfakGE48AAEJUIIQEgAEECNgIAIAAgATYCBAwKCyABKAIMIgNFDQIgAkEEaiABKAIIIgcQoAQgAigCCCEGIAIoAgQiCkGAgICAeEYEQCAGIQEMCQsgAigCFCEJIAIoAhAhBSADQQFGDQEgAigCGCEMIAIoAgwhDSACQQRqIgsgB0EQahDTAiACKAIIIQEgAigCBA0HAkACQAJAIANBAkcEQCACKQIMIRUgCyAHQSBqENMCIAIoAgghCyACKAIEBEAgCyEBDAwLIANBA0YNASACKQIMIRYCQAJAAkBBFSAHQTBqIg4oAgAiD0GAgICAeHMgD0EAThtBEGsOAwYBBgALIAJBBGogDhCfBQwBCyACQQRqIAcoAjQQnwULIAIoAgwhECACKAIIIQQgAigCBEUNAiAEIQEMCwtBAkHA/cAAQYD9wAAQ2wYhAQwKC0EDQcD9wABBgP3AABDbBiEBDAkLQQEhCAsgA0EERwRAIAJBBDYCBCADQfz///8AakH/////AHFBBGogAkEEakHolcEAENsGIQEgAEECNgIAIAAgATYCBCAKBEAgBiAKQQEQogcLIAVFDQogCSAFQQEQogcMCgsgACAWNwI0IAAgCzYCMCAAIBU3AiggACABNgIkIAAgDDYCICAAIAk2AhwgACAFNgIYIAAgDTYCFCAAIAY2AhAgACAKNgIMIAAgEDYCCCAAIAQ2AgQgACAINgIADAkLIAEoAggiBkUNAyAGQQV0IRIgASgCBCETQQAhBkECIQVBgICAgHghBwNAAkACQAJAAkACQAJAAkACQEEVIA4gE2oiASgCACIDQYCAgIB4cyADQQBOG0EBaw4PAQAAAgAAAAAAAAADBAUGAAsgASACQR9qQZTkwAAQlQghAyACQQE6AAQgAiADNgIIDAYLIAJBADoABCACQQQgAUEEai0AACIDIANBBE8bOgAFDAULIAJBADoABCACQgQgAUEIaikDACIVIBVCBFobPAAFDAQLIAFBCGooAgAhAwJ/AkACQAJAAkAgAUEMaigCAEEEaw4CAQADCyADQZD9wABBBRDbBw0BQQAMAwtBASADKAAAQe3SuZsHRg0CGiADKAAAQe3C4ZsHRw0BQQIMAgsgA0Gd/cAAQQUQ2wcNAEEDDAELQQQLIQMgAkEAOgAEIAIgAzoABQwDCyABQQRqKAIAIQMCfwJAAkACQAJAIAFBCGooAgBBBGsOAgEAAwsgA0GQ/cAAQQUQ2wcNAUEADAMLQQEgAygAAEHt0rmbB0YNAhogAygAAEHtwuGbB0cNAUECDAILIANBnf3AAEEFENsHDQBBAwwBC0EECyEDIAJBADoABCACIAM6AAUMAgsgAkEEaiABQQhqKAIAIAFBDGooAgAQ2QUMAQsgAkEEaiABQQRqKAIAIAFBCGooAgAQ2QULIAItAARBAUYEQCACKAIIIQRBASEFDAYLIAFBEGohAwJAAkACQAJAAkACQAJAIAItAAUOBAABAgMGCyAHQYCAgIB4RwRAQQEhBUGQ/cAAQQUQnwchBAwMCyACQQRqIAMQoAQgAigCCCEIIAIoAgQiB0GAgICAeEYEQCAIIQQMDQsgAigCGCEQIAIoAhQhDCACKAIQIQkgAigCDCERDAULIAYNAiACQQRqIAMQ0wIgAigCCCEEIAIoAgRBAUYEQEEBIQUMCwsgAikCDCEWQQEhBgwECyAPDQIgAkEEaiADENMCIAIoAgghCyACKAIEQQFGBEBBASEFIAshBAwKCyACKQIMIRdBASEPDAMLIAVBAkcEQEEBIQVBnf3AAEEFEJ8HIQQMCQtBACEFAkACfwJAAkBBFSADKAIAIhRBgICAgHhzIBRBAE4bQRBrDgMDAQMACyACQQRqIAMQnwUgDSACKAIMIAIoAgQiARsMAQsgAkEEaiABQRRqKAIAEJ8FIA0gAigCDCACKAIEIgEbCyENIAIoAgghCkEBIQUgAUUNACAKIQQMCQsgCq0gDa1CIIaEIRgMAgtBASEFQZX9wABBBBCfByEEDAcLQQEhBUGZ/cAAQQQQnwchBAwGCyAOQSBqIg4gEkcNAAsMAgtBAUHA/cAAQYD9wAAQ2wYhAQwFC0EAQcD9wABBgP3AABDbBiEBDAULIAdBgICAgHhGDQAgAiAQNgIYIAIgDDYCFCACIAk2AhAgAiARNgIMIAIgCDYCCCACIAc2AgQgBkEAIA8bRQRAQZn9wABBlf3AACAGG0EEEJwHIQQgAkEEahDmBUEAIQUMAgsgACAXNwI0IAAgCzYCMCAAIBY3AiggACAENgIkIAAgEDYCICAAIAw2AhwgACAJNgIYIAAgETYCFCAAIAg2AhAgACAHNgIMIABCACAYIAVBAkYiARsiFT4CBCAAQQAgBSABGzYCACAAIBVCIIg+AggMBQtBgICAgHghB0EBIQVBkP3AAEEFEJwHIQQLIAVFIAdBgICAgHhGcg0AIAcEQCAIQQRrKAIAIgFBeHEiBkEEQQggAUEDcSIBGyAHakkNBSABQQAgBiAHQSdqSxsNBiAIEKICCyAJRQ0AIAxBBGsoAgAiAUF4cSIIQQRBCCABQQNxIgEbIAlqSQ0EIAFBACAIIAlBJ2pLGw0FIAwQogILIAAgBDYCBCAAQQI2AgAMAgsgCgRAIAZBBGsoAgAiBEF4cSIIQQRBCCAEQQNxIgQbIApqSQ0DIARBACAIIApBJ2pLGw0EIAYQogILIAVFDQAgCUEEaygCACIEQXhxIghBBEEIIARBA3EiBBsgBWpJDQIgBEEAIAggBUEnaksbDQMgCRCiAgsgACABNgIEIABBAjYCAAsgAkEgaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALqBECB30QfyMAQSBrIgwkACAAEKMFIABBwAFqQQA6AAAgAEIANwK4ASAAIAIQ0AQCQAJAAkACQAJAAkACQAJAAkACfwJAAkACQAJAAn8CQAJAAkACQAJ/AkACQAJAAkACQCAAKAIAQQFHDQAgACgCCEUNACACQQJ0Ig0gACgCfCIRSw0SIA0gACgCiAEiEksNEyAAKAJ4IRQgACgChAEhFiAMIAAoAgQiGSABQQJ0IhcgASACakECdCIYEOEIIgEQuAoiDjYCACAMIA02AgQgDSAORw0YIBQgDSABEOEJIAFBhAhPBEAgARCbBwsgAgRAIBRBDGohGiANQQJrIRsgAkH/////A3EhFUEAIQFBACEOA0AgASAETw0WIAFBAWoiDyAETw0XIAFBAmoiDyAETw0YIBVFDRlDAAB/QyADQQRqKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgAyoCACIJiyIGIAUgA0EIaioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIPQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByATIBpqQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgD0EbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACABQQNqIARPDQMgAUEEaiAETw0IIAFBBWogBE8NDSANIA5GDRNDAAB/QyADQRBqKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgA0EMaioCACIJiyIGIAUgA0EUaioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIQQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByATIBZqIg9DAAB/QyAGIAWVIgYgBkMAAH9DXhsQuQf8ASAQQRt0QYCAgAhBACAJQwAAAABdG3JBgICAEEEAIAhDAAAAAF0bckGAgIAgQQAgCkMAAAAAXRtyciAH/AFBCHRyQwAAf0MgCyAFlSIFIAVDAAB/Q14bELkH/AFBEHRyNgIAIAFBBmogBE8NBCABQQdqIARPDQkgAUEIaiAETw0OQwAAf0MgA0EcaioCACIIiyIFQwAAgD9DAAD4QUMAAAAAIANBGGoqAgAiCYsiBiAFIANBIGoqAgAiCosiCxDgCBDgCBCeBY5DAABwQZIiBSAFQwAAAABdGyIFIAVDAAD4QV4bELkH/AAiEEEPaxCwBkMAAH9DlSIFlSIHIAdDAAB/Q14bELkHIQcgD0EEakMAAH9DIAYgBZUiBiAGQwAAf0NeGxC5B/wBIBBBG3RBgICACEEAIAlDAAAAAF0bckGAgIAQQQAgCEMAAAAAXRtyQYCAgCBBACAKQwAAAABdG3JyIAf8AUEIdHJDAAB/QyALIAWVIgUgBUMAAH9DXhsQuQf8AUEQdHI2AgAgAUEJaiAETw0FIAFBCmogBE8NCiABQQtqIARPDQ8gDiAbRg0SQwAAf0MgA0EoaioCACIIiyIFQwAAgD9DAAD4QUMAAAAAIANBJGoqAgAiCYsiBiAFIANBLGoqAgAiCosiCxDgCBDgCBCeBY5DAABwQZIiBSAFQwAAAABdGyIFIAVDAAD4QV4bELkH/AAiEEEPaxCwBkMAAH9DlSIFlSIHIAdDAAB/Q14bELkHIQcgD0EIakMAAH9DIAYgBZUiBiAGQwAAf0NeGxC5B/wBIBBBG3RBgICACEEAIAlDAAAAAF0bckGAgIAQQQAgCEMAAAAAXRtyQYCAgCBBACAKQwAAAABdG3JyIAf8AUEIdHJDAAB/QyALIAWVIgUgBUMAAH9DXhsQuQf8AUEQdHI2AgAgAUEMaiAETw0GIAFBDWogBE8NCyABQQ5qIARPDRBDAAB/QyADQTRqKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgA0EwaioCACIJiyIGIAUgA0E4aioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIQQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByAPQQxqQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgEEEbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACADQTxqIQMgAUEPaiEBIBNBEGohEyAVQQFrIRUgDkEEaiEOIAJBAWsiAg0ACwsgDCAZIBcgGBDhCCIBELgKIgI2AgAgDCARNgIEIAIgEUcNGCABIBQgERDgCSABQYQITwRAIAEQmwcLIAwgACgCDCAXIBgQ4QgiABC4CiIBNgIAIAwgEjYCBCABIBJHDRggACAWIBIQ4AkgAEGECEkNACAAEJsHCyAMQSBqJAAPCyABQQNqDAMLIAFBBmoMAgsgAUEJagwBCyABQQxqCyAEQdi8wQAQjAcACyABQQRqDAMLIAFBB2oMAgsgAUEKagwBCyABQQ1qCyAEQei8wQAQjAcACyABQQVqDAMLIAFBCGoMAgsgAUELagwBCyABQQ5qCyAEQfi8wQAQjAcACyAOQQJqIQ4LIA4gDUGIvcEAEIwHAAtBACANIBFBmL3BABDqBwALQQAgDSASQYi8wQAQ6gcACyABIARBmLzBABCMBwALIA8gBEGovMEAEIwHAAsgDyAEQbi8wQAQjAcACyAOQQNqIA1ByLzBABCMBwALIAxBADYCCEEAIAwgDEEEaiAMQQhqQeD5xAAQ9QcAC/8SAwt/BH4CeyMAQaACayIEJAACQCABKAIQIgUoAjAgAk0EQCAAQgM3AwAgAEGEgICAeDYCCAwBCyAFKAIsIAJBuAFsaiEGAkACQCADLQAIRQRAIAYtAKABIQUgAygCACICRQ0BIAVBAXENAgtBACECIANBADYCAAwBC0EAIQIgBUEBcUUNACAAQSE2AhAgAEHknccANgIMIABBg4CAgHg2AgggAEIDNwMADAELAkACQCAGLQBoQQNGBEAgBikDYCERDAELIAEoAgQiBa0hEAJAAkAgBUL/////DyAGKQNQIg8gD0L/////D1obp2siCEEAIAUgCE8bQR1NBEBBqJDIACkDACIRpyECAkAgEUL/AYNCBFEEQCABIA9CHnw3AwggAkH/AXFBBEcNAQwDCyABIBA3AwggAkH/AXFBBEYNAgsgEUIgiKchASARQgiIpyIFIQMCQAJAAkACQCACQf8BcSIIQQFrDgMBAAACCyABLQAIIQMLIANB/wFxQSVGDQELIAQgATYCUCAEQYGAgIB4NgJIIAQgBUEIdCAIcjYCTAwFCyAEQR42AiQgBEGFnscANgIgIAQgBEEgaq1CgICAgCCENwMYIARCATcCrAEgBEEBNgKkASAEQbiexwA2AqABIAQgBEEYajYCqAEgBEHIAGogBEGgAWoQ7AMgAkH/AXFBA0cNBCABKAIAIQIgAUEEaigCACIDKAIAIgUEQCACIAURAwALIAMoAgQiBQRAIAIgBSADKAIIEKIHCyABQQxBBBCiBwwECyABIA9CHnwiETcDCCABKAIAIA8gECAPIBBUG6dqIgUoAABB0JaNIEYNAQsgBEHQAGpB5J7HACgCADYCACAEQdyexwApAgA3A0gMAgsgBTMAHCEPIAUzABohECAEQgE3A6ABIAQgDyAQIBF8fCIRNwOoASAGQeAAaiAEQaABahDIBgsgASARNwMIIAQgBikDQCIPNwNAIAQgDzcDOEGDgICAeCEFAn4CQAJAIAYvAYQBIgdBAkYEQEHgnMcAIQFBICECDAELIAQpAjwhECAPQiCIpyEKIA+nIQggBjMBICEPAn8CQAJAAkAgAgRAIA9QDQFBmIvBACEBQccAIQIMBQsgD1ANAUGFgICAeCEFDAQLIAMoAgQhBwJAIAYtAKIBIgxFBEAgBi0AiwEhCwwBCyAGLwGYAUEBcQ0CC0EADAILQgAMBAsgBi0AnQELIQ0CQCAHRQRAQfis0ZEBIQNBic+VmgIhCUGQ8dmiAyEFDAELQZDx2aIDIQVBic+VmgIhCUH4rNGRASEDA0AgBUH/AXEgAi0AACADc0H/AXFBAnQoAvC9SCADQQh2cyIDQf8BcSAJakGFiKLAAGxBAWoiCUEYdnNBAnQoAvC9SCAFQQh2cyEFIAJBAWohAiAHQQFrIgcNAAsLIAQgBTYCwAEgBCAJNgK8ASAEIAM2ArgBIAQgCjYCrAEgBCAQNwKkASAEIAg2AqABIAQgATYCsAEgBEHQAGpBADYCAEIAIRAgBEIANwNIAkACQAJAIAQpA6gBIg9QRQRAIAEoAgAhCiABKAIEIgWtIRAgBEHIAGohB0EMIQMCfgNAIAogESAQIBAgEVYbpyIIaiEJAkAgBSAIayICIA8gA60iEiAPIBJUG6ciDiACIA5JGyICQQFGBEAgByAJLQAAOgAADAELIAJFDQAgByAJIAL8CgAACyAPIAKtIhJ9IQ8gESASfCERIA8gBSAIRg0BGiADIAJrIgNFDQMgAiAHaiEHIA9QRQ0AC0IACyEQIAEgETcDCAsgBCAQNwOoAUGBgICAeCEFQaiQyAApAwAiEEL/AYNCBFENAQwCCyABIBE3AwggBCAPNwOoAQsgBEG4AWoiASAELQBIEM8GGiABIAQtAEkQzwYaIAEgBC0AShDPBhogASAELQBLEM8GGiABIAQtAEwQzwYaIAEgBC0ATRDPBhogASAELQBOEM8GGiABIAQtAE8QzwYaIAEgBC0AUBDPBhogASAELQBREM8GGiABIAQtAFIQzwYaIAEgBC0AUxDPBiECAkACQCAMBEAgAkH/AXEgDUcNAQwCCyACQf8BcSALRg0BC0GFgICAeCEFDAELIAQgAf0AAgD9CwM4IAQpAqQBIRAgBCgCoAEhCCAEKAKwASIBDQIgCCEFCyAQQiCIpyECIBCnIQELIAAgAjYCECAAIAE2AgwgACAFNgIIIABCAzcDAAwDCyAEKAK0ASEDIAQoAqwBIQogBCAE/QADOP0LAyggBi8BhAEhB0IBCyERIAYoAogBIQsCQAJAQYDAABBxIgVFDQAgEEIgiKchAiAQpyEJAn8CQAJAIAdB//8DcUEBaw4CAQQACyAEIAT9AAMo/QsDkAH9DAAAAAAAIAAAAAAAAAAAAAAgBf0cACETIAj9ESAJ/RwBIAL9HAIgCv0cAyEUQgIhD0EADAELIAQgAzYCtAEgBCABNgKwASAEIAo2AqwBIAQgAjYCqAEgBCAJNgKkASAEIAg2AqABIAQgBP0AAyj9CwO4ASAEQcgBahCZBCAEQeAAaiAEQfABav0AAwD9CwMAIARB8ABqIARBgAJq/QADAP0LAwAgBEGAAWogBEGQAmr9AAMA/QsDACAEIAT9AAPYAf0LA5ABIAQgBCkD6AE3A1ggBEHAAWr9AAQAIRQgBCgC1AEhAyAEKALQASEBIAQoArQBIQkgBP0ABKABIRMgESEPIAQpA7gBIREgBCgCsAELIQdBuAEQcSICRQ0AIAIgAzYCVCACIAE2AlAgAiAU/QsDQCACIBE3AzggAiAJNgI0IAIgBzYCMCACIBP9CwMgIAIgDzcDGCACQgA3AgwgAkKAwAA3AgQgAiAFNgIAIAIgBP0AA5AB/QsDWCACIAQpA1g3A2ggAkHwAGogBEHgAGr9AAMA/QsDACACQYABaiAEQfAAav0AAwD9CwMAIAJBkAFqIARBgAFq/QADAP0LAwAgAkEBOgC0ASACIAs2ArABIAJBADYCqAEgAkIANwOgASAAQgI3AwAgACAGNgIIIABBAjYCqAEgACACNgKsAQwDCwALIAVBgMAAQQEQogcgAEEgNgIQIABB4JzHADYCDCAAQYOAgIB4NgIIIABCAzcDAAwBCyAEIAQpAEk3AA0gBCAELQBIOgAMIAQgBC0AUzoAFyAEIAQvAFE7ABUgBCgCDCEBIAAgBCkCEDcCDCAAIAE2AgggAEIDNwMACyAEQaACaiQAC6UQAQ5/IwBBgAhrIgMkAAJAIAFBA2pBfHEgAWsiBCACSwRAQQEhDkEEIQsMAQsgASAEaiILIAIgBGsiAkF8cWohDiACQQNxIQ8gAkECdiEIIAQhAgsgAEF/cyEAAkAgAkUNAEEAIQQgAkEBRwRAIAJBAXEgAkF+cSECA0AgASAEaiIHQQFqLQAAIActAAAgAHNB/wFxQQJ0KALwvUggAEEIdnMiAHNB/wFxQQJ0KALwvUggAEEIdnMhACACIARBAmoiBEcNAAtFDQELIAEgBGotAAAgAHNB/wFxQQJ0KALwvUggAEEIdnMhAAtBACEFIAhBBW4iAUEBayICQQAgASACTxshCQJAIAhBCkkEQEEAIQcMAQtBACECIAshBEEAIQcDQAJAAkAgAiAITw0AIAggAmsiBkEAIAYgCE0bIgZBAUcEQCAGQQJHBEAgBkEDRwRAIAZBBEcNBCACQQRqIQIMAwsgAkEDaiECDAILIAJBAmohAgwBCyACQQFqIQILIAIgCEHgvcgAEIwHAAsgByAEQQhqKAIAcyIHQf8BcUECdCgC0J1IIAdBBnZB/AdxKALQpUhzIAdBDnZB/AdxKALQrUhzIAdBFnZB/AdxKALQtUhzIQcgBSAEQQRqKAIAcyIFQf8BcUECdCgC0J1IIAVBBnZB/AdxKALQpUhzIAVBDnZB/AdxKALQrUhzIAVBFnZB/AdxKALQtUhzIQUgACAEKAIAcyIAQf8BcUECdCgC0J1IIABBBnZB/AdxKALQpUhzIABBDnZB/AdxKALQrUhzIABBFnZB/AdxKALQtUhzIQAgDCAEQRBqKAIAcyIMQf8BcUECdCgC0J1IIAxBBnZB/AdxKALQpUhzIAxBDnZB/AdxKALQrUhzIAxBFnZB/AdxKALQtUhzIQwgBEEMaigCACAKcyIKQf8BcUECdCgC0J1IIApBBnZB/AdxKALQpUhzIApBDnZB/AdxKALQrUhzIApBFnZB/AdxKALQtUhzIQogAkEFaiECIARBFGohBCANQQFqIg0gCUkNAAsLIAlBBWwiAiAITQRAAkAgAiAIRg0AIAsgAkECdGoiBCgCACEJQQAiBkUEQCADQfDFyABBgAj8CgAACyADIAAgCXMiAEH/AXFBAnRqKAIAIQkgBkUEQCADQfDNyABBgAj8CgAACyADIABBBnZB/AdxaigCACENIAZFBEAgA0Hw1cgAQYAI/AoAAAsgAyAAQQ52QfwHcWooAgAhECAGRQRAIANB8N3IAEGACPwKAAALIAMgAEEWdkH8B3FqKAIAIAkgDXMgEHNzIQAgCCACayICQQFGDQAgBCgCBCEJQQBFBEAgA0HwxcgAQYAI/AoAAAsgAyAFIAlzIABzIgBB/wFxQQJ0aigCACEFIAZFBEAgA0HwzcgAQYAI/AoAAAsgAyAAQQZ2QfwHcWooAgAhCSAGRQRAIANB8NXIAEGACPwKAAALIAMgAEEOdkH8B3FqKAIAIQ0gBkUEQCADQfDdyABBgAj8CgAACyADIABBFnZB/AdxaigCACAFIAlzIA1zcyEAIAJBAkYNACAEKAIIIQZBACIFRQRAIANB8MXIAEGACPwKAAALIAMgBiAHcyAAcyIAQf8BcUECdGooAgAhByAFRQRAIANB8M3IAEGACPwKAAALIAMgAEEGdkH8B3FqKAIAIQYgBUUEQCADQfDVyABBgAj8CgAACyADIABBDnZB/AdxaigCACEJIAVFBEAgA0Hw3cgAQYAI/AoAAAsgAyAAQRZ2QfwHcWooAgAgBiAHcyAJc3MhACACQQNGDQAgBCgCDCEHQQBFBEAgA0HwxcgAQYAI/AoAAAsgAyAHIApzIABzIgBB/wFxQQJ0aigCACEHIAVFBEAgA0HwzcgAQYAI/AoAAAsgAyAAQQZ2QfwHcWooAgAhCiAFRQRAIANB8NXIAEGACPwKAAALIAMgAEEOdkH8B3FqKAIAIQYgBUUEQCADQfDdyABBgAj8CgAACyADIABBFnZB/AdxaigCACAHIApzIAZzcyEAIAJBBEYNACAEKAIQIQVBACIERQRAIANB8MXIAEGACPwKAAALIAMgBSAMcyAAcyIAQf8BcUECdGooAgAhBSAERQRAIANB8M3IAEGACPwKAAALIAMgAEEGdkH8B3FqKAIAIQcgBEUEQCADQfDVyABBgAj8CgAACyADIABBDnZB/AdxaigCACEKIARFBEAgA0Hw3cgAQYAI/AoAAAsgAyAAQRZ2QfwHcWooAgAgBSAHcyAKc3MhACACQQVGDQAgAUEUbEEBIAEgARsiBEEUbGsgC2pBFGohAiAIIARBBWxqIAFBBWxrQQVrIQEDQCACKAIAIQtBACIERQRAIANB8MXIAEGACPwKAAALIAMgACALcyIAQf8BcUECdGooAgAhCyAERQRAIANB8M3IAEGACPwKAAALIAMgAEEGdkH8B3FqKAIAIQggBEUEQCADQfDVyABBgAj8CgAACyADIABBDnZB/AdxaigCACEFIARFBEAgA0Hw3cgAQYAI/AoAAAsgAyAAQRZ2QfwHcWooAgAgCCALcyAFc3MhACACQQRqIQIgAUEBayIBDQALCwJAIA9FDQAgDi0AACAAc0H/AXFBAnQoAvC9SCAAQQh2cyEAIA9BAUYNACAOLQABIABzQf8BcUECdCgC8L1IIABBCHZzIQAgD0ECRg0AIA4tAAIgAHNB/wFxQQJ0KALwvUggAEEIdnMhAAsgA0GACGokACAAQX9zDwsgAiAIIAhB0L3IABDqBwALsB8DDn8HfgN7IwBBIGsiDyQAAkACQCABQSFPBEADQCADRQRAIAEiAiACQQF2aiIGBEAgACEDA0ACQAJ/IAIgBkEBayIGTQRAIAYgAmsMAQsgA0EQaiIA/QADACEaIAMgBkEFdGoiAf0AAwAhGyAAIAFBEGoiAP0AAwD9CwMAIAP9AAMAIRkgAyAb/QsDACABIBn9CwMAIAAgGv0LAwBBAAsiAUEBdCIFQQFyIgAgAiAGIAIgBkkbIgdPDQADQCAFQQJqIgUgB0kEQAJ/AkAgAyAAQQV0aiIEKQMIIhMgAyAFQQV0aiIFKQMIIhJSDQAgBCkDECITIAUpAxAiElINAEEAIAQpAxgiEyAFKQMYIhJRDQEaCyASIBNWCyAAaiEACyADIABBBXRqIggpAxghFyADIAFBBXRqIgQpAxghFiAEKQMIIhQhEyAIKQMIIhghEgJAIBQgGFINACAEKQMQIhMgCCkDECISUg0AIBciEiAWIhNRDQILIBIgE1gNASAIKAIUIQUgCCgCECEBIAggBCkDEDcDECAEIBg+AgggCCAUPgIIIAQgGEIgiD4CDCAIIBRCIIg+AgwgBCAXPgIYIAggFj4CGCAEKQMAIRIgBCAIKQMANwMAIAggEjcDACAEIAE2AhAgBCAFNgIUIAQgF0IgiD4CHCAIIBZCIIg+AhwgACIBQQF0IgVBAXIiACAHSQ0ACwsgBg0ACwsMBAsgACABQQN2IgVB4AFsaiEGIAAgBUEHdGohBwJAIAFBwABPBEAgACAHIAYgBRDvBCEFDAELIAcpAxghGCAAKQMYIRcgACkDCCITIRUgBykDCCISIRQCfwJAIBIgE1INACAAKQMQIhUgBykDECIUUg0AQQAgGCIUIBciFVENARoLIBQgFVYLIQQgBikDGCEWIAYpAwgiFSEUAkACQCATIBVSDQAgACkDECITIAYpAxAiFFINACAXIhMgFiIUUg0AIAAhBSAERQ0BDAILIAAhBSAEIBMgFFRzDQELIAYgBwJ/AkAgEiAVUg0AIAcpAxAiEiAGKQMQIhVSDQBBACAYIhIgFiIVUQ0BGgsgEiAVVAsgBHMbIQULIANBAWshAyAFIABrIQUCfwJAIAJFDQACQAJAIAIpAwgiEyAAIAVqIgQpAwgiElINACACKQMQIhMgBCkDECISUg0AIAIpAxgiEyAEKQMYIhJRDQELIBIgE1YNAQsgD0EQaiIQIABBEGoiDv0AAwD9CwMAIA8gAP0AAwD9CwMAIAT9AAMAIRkgDiAEQRBqIgL9AAMA/QsDACAAIBn9CwMAIAIgEP0AAwD9CwMAIAQgD/0AAwD9CwMAQSAhBSAAQSBqIQogACABQQV0IgZqIQkgDikDACEXIABBGGopAwAhFiAAQQhqKQMAIRMgAP0AAzAhGiAA/QADICEbIAApAzghFEEAIQ1BACELA0AgBSEEIAAgDWoiAkFAayEMIAJBIGohCCATIRICfwJAIBMgAkHIAGopAwAiFVINACACQdAAaikDACIVIBciElINAEEBIAJB2ABqKQMAIhUgFiISUQ0BGgsgEiAVWgsgCiALQQV0aiIF/QADACEZIAhBEGogBUEQaiIC/QADAP0LAwAgCCAZ/QsDACACIAxBEGr9AAMA/QsDACAFIAz9AAMA/QsDACAEQSBqIQUgC2ohCyAAIA1BIGoiDWoiB0FAayICIAlJDQALIBv9HQEhGCACIAlGBH8gB0EgagUgBkFAaiEHA0AgACAEaiICQSBqIQwgAkFAayEIIBMhEgJ/AkAgEyACQcgAaikDACIVUg0AIAJB0ABqKQMAIhUgFyISUg0AQQEgAkHYAGopAwAiFSAWIhJRDQEaCyASIBVaCyAKIAtBBXRqIgb9AAMAIRkgDEEQaiAGQRBqIgL9AAMA/QsDACAMIBn9CwMAIAIgCEEQav0AAwD9CwMAIAYgCP0AAwD9CwMAIAtqIQsgByAEQSBqIgRHDQALIAAgBGpBIGoLIQQgCiALQQV0aiIF/QADACEZIARBEGogBUEQaiIC/QADAP0LAwAgBCAZ/QsDACACIBr9CwMAIAUgG/0LAwACfwJAIBMgGFINACAa/R0AIhggFyITUg0AQQEgFiITIBQiGFENARoLIBMgGFoLIAtqIgQgAU8NBCAQIA79AAMA/QsDACAPIAD9AAMA/QsDACAAIARBBXRqIgX9AAMAIRkgDiAFQRBqIgL9AAMA/QsDACAAIBn9CwMAIAIgEP0AAwD9CwMAIAUgD/0AAwD9CwMAIAEgBEEBaiICayEBIAAgAkEFdGohAEEADAELIA9BEGoiDiAAQRBqIhH9AAMA/QsDACAPIAD9AAMA/QsDACAAIAVqIgT9AAMAIRkgESAEQRBqIgX9AAMA/QsDACAAIBn9CwMAIAUgDv0AAwD9CwMAIAQgD/0AAwD9CwMAQSAhBSAAQSBqIRAgACABQQV0IghqIQogESkDACEXIABBGGopAwAhFiAAQQhqKQMAIRMgAP0AAzAhGiAA/QADICEbIAApAzghFEEAIQ1BACELA0AgBSEEIAAgDWoiBUFAayEJIAVBIGohDCATIRICfwJAIAVByABqKQMAIhUgE1INACAXIhIgBUHQAGopAwAiFVINAEEAIBYiEiAFQdgAaikDACIVUQ0BGgsgEiAVVgsgECALQQV0aiIG/QADACEZIAxBEGogBkEQaiIF/QADAP0LAwAgDCAZ/QsDACAFIAlBEGr9AAMA/QsDACAGIAn9AAMA/QsDACAEQSBqIQUgC2ohCyAAIA1BIGoiDWoiBkFAayIHIApJDQALIBv9HQEhGCAHIApGBH8gBkEgagUgCEFAaiEGA0AgACAEaiIFQSBqIQkgBUFAayEMIBMhEgJ/AkAgBUHIAGopAwAiFSATUg0AIBciEiAFQdAAaikDACIVUg0AQQAgFiISIAVB2ABqKQMAIhVRDQEaCyASIBVWCyAQIAtBBXRqIgj9AAMAIRkgCUEQaiAIQRBqIgX9AAMA/QsDACAJIBn9CwMAIAUgDEEQav0AAwD9CwMAIAggDP0AAwD9CwMAIAtqIQsgBiAEQSBqIgRHDQALIAAgBGpBIGoLIQcgECALQQV0aiIE/QADACEZIAdBEGogBEEQaiIF/QADAP0LAwAgByAZ/QsDACAFIBr9CwMAIAQgG/0LAwACfwJAIBMgGFINACAXIhMgGv0dACIYUg0AQQAgFiITIBQiGFENARoLIBMgGFYLIAtqIgQgAU8NAyAOIBH9AAMA/QsDACAPIAD9AAMA/QsDACAAIARBBXRqIgf9AAMAIRkgESAHQRBqIgX9AAMA/QsDACAAIBn9CwMAIAUgDv0AAwD9CwMAIAcgD/0AAwD9CwMAIAAgBCACIAMQqgEgASAEQX9zaiEBIAdBIGohACAHCyECIAFBIU8NAAsLIAAhCiMAQYAMayIHJAACQCABIgxBAkkNAEEBIQIgACABQQF2Ig1BBXQiA2ohESADIAdqIQYCQCABQQhPBEAgACAHEK4DIBEgBhCuA0EEIQIMAQsgB0EQaiAKQRBq/QADAP0LAwAgByAK/QADAP0LAwAgBiAR/QADAP0LAwAgBkEQaiARQRBq/QADAP0LAwALIAIgDUkEQCACQQV0IQEgAkEBaiEFIAIhAANAIAAhAyAFIQAgByADQQV0IgNqIgQgAyAKaiIDKQMANwMAIARBGGogA0EYaikDACIWNwMAIARBEGogA0EQaikDADcDACAEQQhqIANBCGopAwAiEzcDAAJAAkAgBEEYaykDACIUIBMiElINACAEKQMQIhIgBEEQaykDACIUUg0AIARBCGspAwAiFCAWIhJRDQELIBIgFFoNACAEKQMQIRcgBCkDACEYIAEhBQNAAkAgBSAHaiIIIAhBIGsiA/0AAwD9CwMAIAhBEGogA0EQav0AAwD9CwMAIAVBIEYEQCAHIQMMAQsgBEEgayEEAkAgCEE4aykDACIUIBMiElINACAFIAdqQTBrKQMAIhQgFyISUg0AIAhBKGspAwAiFCAWIhJSDQAgBCEDDAELIAVBIGshBSASIBRUDQELCyADIBg3AwAgCEEIayAWNwMAIAhBEGsgFzcDACAIQRhrIBM3AwALIAFBIGohASAAIAAgDUkiA2ohBSADDQALCyAMIA1rIhAgAksEQCACQQV0IQ4gAkEBaiEFQSAhCCAGIQADQCACIQEgBSECIAYgAUEFdCIBaiIEIAEgEWoiASkDADcDACAEQRhqIAFBGGopAwAiFjcDACAEQRBqIAFBEGopAwA3AwAgBEEIaiABQQhqKQMAIhM3AwACQAJAIARBGGspAwAiFCATIhJSDQAgBCkDECISIARBEGspAwAiFFINACAEQQhrKQMAIhQgFiISUQ0BCyASIBRaDQAgBCkDECEXIAQpAwAhGCAIIQMgACEJA0ACQCAJIA5qIgUgBUEgayIB/QADAP0LAwAgBUEQaiABQRBq/QADAP0LAwAgAyAORgRAIAYhAQwBCyAEQSBrIQQCQCAFQThrKQMAIhQgEyISUg0AIAkgDmpBMGspAwAiFCAXIhJSDQAgBUEoaykDACIUIBYiElINACAEIQEMAQsgA0EgaiEDIAlBIGshCSASIBRUDQELCyABIBg3AwAgBUEIayAWNwMAIAVBEGsgFzcDACAFQRhrIBM3AwALIAhBIGshCCAAQSBqIQAgAiACIBBJIgFqIQUgAQ0ACwsgBkEgayEJIAogDEEFdEEgayIAaiEDIAAgB2ohBSAHIQQDQAJAAkACQCAGKQMIIhIgBCkDCCIUUg0AIAYpAxAiEiAEKQMQIhRSDQAgBikDGCISIAQpAxgiFFINACAKIAT9AAMA/QsDACAKQRBqIARBEGr9AAMA/QsDAAwBCyAKIAYgBCASIBRUGyIA/QADAP0LAwAgCkEQaiAAQRBq/QADAP0LAwAgEiAUWg0AIAZBIGohBgwBCyAEQSBqIQQLIApBIGohCiADAn8CQCAFKQMIIhIgCSkDCCIUUg0AIAUpAxAiEiAJKQMQIhRSDQBBACEBIAUgBSkDGCISIAkpAxgiFFENARoLIAkgBSASIBRUIgEbCyIA/QADAP0LAwAgA0EQaiAAQRBq/QADAP0LAwAgA0EgayEDIAkgAUEFdCIAayEJIAAgBWpBIGshBSANQQFrIg0NAAsgCUEgaiECIAxBAXEEfyAKIAQgBiACIARLIgEbIgD9AAMA/QsDACAKQRBqIABBEGr9AAMA/QsDACAGQQBBICABG2ohBiAEQSBBACABG2oFIAQLIAJGIAYgBUEgakZxDQAQgAgACyAHQYAMaiQADAELAAsgD0EgaiQAC/4PAhh/Bn4jAEEwayIGJAAgACgCPCERIAAoAjghAyAAKAI0IQEgACgCMCEEIAD9DAAAAAAAAAAAAQAAAAEAAAD9CwQwIAAoAkAhAiAAQQA2AkAgACgCSCEFIABBATYCSCAAKAJQIQogACgCTCELIABCADcCTCAGIAU2AgwgBiALNgIQIAYgCjYCFEGo58gAIQxBgAQhCAJAAkACQAJAIAAtAJgBQQFrDgMAAQIDCyAAQaQBaiEMQbQKIQgMAgsgAEH0KmohDEG0CiEIDAELIABBxNQAaiEMQdAEIQgLQaj3yAAhDkEgIQ0CQAJAAkACQCAALQCgAUEBaw4DAAECAwsgAEGkAWohDkG0CiENDAILIABB9CpqIQ5BtAohDQwBCyAAQcTUAGohDkHQBCENCyAAKAIMIgVBQGoiB0FBSQRAQn8gADUCnAGGQn8gADUClAGGQn+FIRwgBSAHSSEJIAJB/wFxQQlLBH8gAgUgBK0gAa1CIIaEIAMpAAAgAkEPca2GhCIapyEEIBpCIIinIQEgAyACQQN2QQFxQQdzaiEDIAJBOHILIQUgAEHIAGohEiACQYB+cSEVIAAoAkQhFiAAQQhqIRNCf4UhHkEAIAcgCRshECAcpyEUAkACQANAAkAgBCADKQAAIAWthiIZp3IhAgJAAkACQAJAAkACQAJAAkACQAJAAkAgBUH/AXEiFyAAKAKUAUkEQCAIIAIgFHEiBEsNASAEIAhBqPjIABCMBwALIAggBCAUcSIETQ0BCyAFQThyIQUgASAZQiCIp3IhDyAMIARBAnRqIgEtAAMhBCABLwEAIQkgAS0AAiIBRQ0BIAohBwwCCyAEIAhBuPjIABCMBwALIAogC08NASAGKAIMIhggCmogCToAACAGIApBAWoiBzYCFAJAIAKtIA+tQiCGhCAErYgiGSAcg6ciAiAISQRAIAUgBGshBSAMIAJBAnRqIgIvAQAhCSACLQADIQQgAi0AAiIBRQ0BIBlCIIinIQ8gGachAgwCCyACIAhByPjIABCMBwALIAcgC08NAiAHIBhqIAk6AAAgBiAKQQJqIgc2AhQgCCAZIAStiCIZIByDpyICTQ0DIAUgBGshBSAZQiCIpyEPIAwgAkECdGoiAi8BACEJIAItAAMhBCACLQACIQEgGachAgsgAyAXQQN2QQdzaiEDIAUgBGshBSACrSAPrUIghoQgBK2IIhpCIIghGSAapyEEIAFB/wFxRQ0FAkACQANAIAFBEHENAiABQcAAcQ0BIAkgGkJ/IAGtQi+DhkJ/hYOnakH//wNxIgIgCEkEQCAErSAZQiCGhCAMIAJBAnRqIgItAAMiAUE/ca2IIhpCIIghGSAapyEEIAUgAWshBSACLwEAIQkgAi0AAiIBRQ0JDAELCyACIAhB6PjIABCMBwALIAFBIHFFDQUgAEEMOgAADAgLIA0gGiABrUIPgyIdiCIZIB6DpyICSw0DIAIgDUH4+MgAEIwHAAsgCiALQbz/yAAQjAcACyAHIAtBvP/IABCMBwALIAIgCEHY+MgAEIwHAAsgDiACQQJ0aiIKLQADIQsgCi0AAiEEAn8gBSABQQ9xayIBQf8BcUEcTwRAIAEhBSADDAELIAFBOHIhBSADKQAAIAGthiAZhCEZIAMgAUH4AXFBA3ZBB3NqCyECIAovAQAhAyAFIAtrIQUgGSALrYghGwJAAkACQAJAIARBEHFFBEADQCAEQcAAcQ0DIA0gAyAbQn8gBK1CL4OGQn+Fg6dqQf//A3EiA00NAiAFIA4gA0ECdGoiAS0AAyIDayEFIBsgA0E/ca2IIRsgAS8BACEDIAEtAAIiBEEQcUUNAAsLIAkgGkJ/IB2GQn+Fg6dqIQkgBSAEQQ9xayEFIBsgBK1CD4MiGogiHUIgiCEZIB2nIQQgAyAbQn8gGoZCf4WDp2pB//8DcSIKIAdLDQIgBkEMaiAKIAlB//8DcRDsAiACIQMMBgsgAyANQYj5yAAQjAcACyAbpyEEQefQwAAhAUEWIQgMAQsCQAJAAkACQCAKIAdrIgEgACgCEE0EQCAAKAIUIgMNASAQIAFrIQcMBAsgAC0AAUEEcUUNAUHVz8AAIQFBHiEIDAQLIAEgA0sNASADIAFrIQcMAgsgBkEANgIoIAZBATYCHCAGQcT5yAA2AhggBkIENwIgIAZBGGpBzPnIABCNCAALIBAgASADayIBayEHIAEgCUH//wNxTw0AIAZBDGogEyAHIBAQlAUgCSABayEJQQAhByADIQELIAZBDGogEyAHIAEgCUH//wNxIgMgASADSRsgB2oQlAUgASADTwRAIAIhAwwECyAGQQxqIAogAyABaxDsAiACIQMMAwsgAEEeOgAADAULIABBHjoAAEHL0MAAIQFBHCEIIAMhAgwECyAHIAtPDQQgBigCDCAHaiAJOgAAIAYgB0EBajYCFAsgESADayAFQfgBcUEDdmpBDk0NACAZpyEBIAYoAhAiCyAGKAIUIgprQYMCSw0BCwtBACEBIAMhAgsgACAWNgJEIAAgETYCPCASIAYpAgw3AgAgACAVIAVBB3EiA3I2AkAgEkEIaiAGQRRqKAIANgIAIAAgAiAFQfgBcUEDdms2AjggACAEQX8gA3RBf3NxrTcDMCABBEAgACAINgKIASAAIAE2AoQBCyAGQTBqJAAPCyAHIAtBvP/IABCMBwALQeT8yABBygBBsP3IABDrBwALkBECCX8EfiMAQeACayIBJAACQAJAAkAgAC0A+ANFBEAgACgCkAEiAkECRw0CIAAoAgBBAkcNAiAAKAK4AiIDQQNLDQFBACECDAMLIAA1ArgCIQogAEEANgK4AiAAIAogACkDcHw3A3AMAgsgAEGQAWohBiABIAAoArQCIgQoAAAiAjYCEAJAAkACQAJAAkACQAJAAkAgAkHSgpGaBEcEQCACQdKCkYIDRw0CIANBCEkNASADIAQoAAQiBUEHakF4cUEIaiICSQ0BIAVBCGoiByADSyAFQXdLcg0DIAFBADYC2AIgASAFNgLUAiABIARBCGo2AtACIAFBIGogAUHQAmoQWSABKAIkIQUgASgCICIIQQJGBEAgBRDOByECDAsLIAFBsAFqIAFBKGpBgAH8CgAAIABBADYCuAIgASAFNgKsASABIAg2AqgBIAMgAmshBwJAAkAgAkUNACACIANGDQEgB0UNACAEIAIgBGogB/wKAAALIAAgBzYCuAILIAAgACkDcCACrXwiCjcDeCAAIAo3A3AgASgCpAJBAUcNBCAAIAEoApQCIgQ2ApwCIAAgASgCtAEgASgCwAEiAyABKAKwARsiAjYCoAIgAkUNBSAEIAMgAm4iBCACIARsIANHaiICRgRAIAEtAKgCIQIgASAFQQAgCEEBcRs2AiQgASADNgIgIAEgAkEBcSIDOgAoIABBvAJqIAFBIGoQpQQCQCABKALQASICQQJGDQAgAkEBcQRAIAAgASoC1AE4ArwDCyABKALYAUEBRgRAIAAgASoC3AE4AsADCyABKALgAUEBRgRAIAAgASoC5AE4AsQDCyABKALoAUEBRgRAIAAgASoC7AE4AsgDCyABKALwAUEBRgRAIAAgASoC9AE4AswDCyABKAL4AUEBRgRAIAAgASoC/AE4AtADCyABKAKAAkEBRgRAIAAgASoChAI4AtQDCyABLQCIAiICQQJGDQAgACACOgDYAwsgA0UNCCAAQQE6ANgDDAgLIAEgAjYCzAIgAUECNgIkIAFB6MfBADYCICABQgI3AiwgAUKAgICAECIKIABBnAJqrYQ3A9gCIAEgCiABQcwCaq2ENwPQAiABIAFB0AJqNgIoIAFBwAJqIgAgAUEgahCxBgwGCyABQQhqIAAQugIgAS0ACEUEQCABLQAJDQhBACECDAoLIAEoAgwhAgwJC0EAIQIMCAsgAUEBNgI0IAFBzMjBADYCMCABQQE2AiQgAUHEyMEANgIgIAFBATYCLCABIAFBEGqtQoCAgICQBIQ3A9ACIAEgAUHQAmo2AiggAUEUaiIAIAFBIGoQsQYgABCOByECDAcLQQggByADQZzIwQAQ6gcACyABQQE2AiQgAUGUyMEANgIgIAFCATcCLCABIAFBpAJqrUKAgICAEIQ3A9ACIAEgAUHQAmo2AiggAUG0AmoiACABQSBqELEGDAELQbTHwQAQgQgACyAAEI4HIQIgAUGoAWoQzwQMAwsCQAJAAkAgBigCAEECRg0AIAAoAvgBIQQgACgC/AEiAwRAIARBJGohAgNAIAJBBGsoAgAiBUGAgICAeHJBgICAgHhHBEAgAigCACIHQQRrKAIAIghBeHEiCUEEQQggCEEDcSIIGyAFakkNBCAIQQAgCSAFQSdqSxsNBSAHEKICCyACQTBqIQIgA0EBayIDDQALCyAAKAL0ASIDBEAgBCADQTBsQQgQogcLIAAoAoACIgNBgICAgHhyQYCAgIB4Rg0AIAAoAoQCIANBARCiBwsgBiABQagBakGIAfwKAAAMAgtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAYoAgAhAgsCQAJAAkACQAJ/AkAgAkECRwRAIAAoApgCIAAoApwCTw0GIAAoAgBBAkYNAUEADAILIAFBqAFqIAAQRSABKAKsAUEAIAEtAKgBIgMbIQIgAw0GIAEtAKkBQQFxRQ0GIAApA4gBIgwgACkDcCIKWARAIAAoArgCIQMMBQsgACgCuAIhBEEAIQMgAEEANgK4AiAEIAwgCn0iCyAErSINIAsgDVQbIgunIgZrIQIgC1BFBEAgBCAGRg0EIAJFDQMgACgCtAIiAyADIAZqIAL8CgAADAMLIAQgBkcNAgwDC0EBCyECA0ACQAJAAkACQAJAAkACQAJAAkACQAJAIAJFBEAgAUGoAWogABBFIAEoAqwBIQMgAS0AqAEiAg0CIAEtAKkBQQFxRQ0CIAApA4gBIgogACkDcCIMVg0BDAYLIAFBqAFqIAAQugIgAS0AqAFBAUYEQCABKAKsASECDBELIAEtAKkBDQlBACECDBALIAAoArgCIQMgAEEANgK4AiADIAogDH0iCyADrSINIAsgDVQbIgunIgJrIQQgC1ANASACIANGDQMgBEUNAiAAKAK0AiIDIAIgA2ogBPwKAAAMAgsgA0EAIAIbIQIMDgsgAiADRg0BCyAAIAQ2ArgCCyAAIAsgDHwiDDcDcCAKIAxWDQELAkAgACgCAEECRg0AIAAoAlwiA0UNACAAKAJgIgJBBGsoAgAiBEF4cSIGIANBKGwiA0EEQQggBEEDcSIEG2pJDQIgBEEAIAYgA0EnaksbDQMgAhCiAgsgAEECNgIAIAAgACgCmAJBAWoiAzYCmAIgAyAAKAKcAkkNBAwJC0EAIQIMCQtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQQAhAgwBC0EBIQIMAAsACyAAIAI2ArgCIAIhAwsgACAKIAt8Igo3A3AgCiAMWg0AQQAhAgwCC0EAIQIgAEEANgK4AiAAQQE6APgDIAAgCiADrXw3A3AMAQsgAEEBOgD4AyAANQK4AiEKQQAhAiAAQQA2ArgCIAAgCiAAKQNwfDcDcAsgAUHgAmokACACC4oQAhl/AXsjAEFAaiIJJAAgCUEQav0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgCSAh/QsDAAJAAkAgA0UNACACQQJBACADGyINaiEPIAIgA0EBdCISaiEaIBJBAmohCEEPIQsgAiEMAkACQAJAA0AgDC8BACIKBEAgCkEPSw0CIAkgCkEBdGoiDCAMLwEAQQFqOwEAIA4gCiAKIA5JGyEOIAsgCiAKIAtLGyELCyACIA1qIQwgCCANQQJqIg1HDQALIA5FDQMgCyAOTQRAIAkvAQIiCkECSw0CIAkvAQQiDEEEIApBAXRrIghB/v8DcUsNAiAJLwEGIhYgCCAMa0EBdCIIQf7/A3FLDQIgCS8BCCIbIAggFmtBAXQiCEH+/wNxSw0CIAkvAQoiHCAIIBtrQQF0IghB/v8DcUsNAiAJLwEMIg0gCCAca0EBdCIIQf7/A3FLDQIgCS8BDiIQIAggDWtBAXQiCEH+/wNxSw0CIAkvARAiESAIIBBrQQF0IghB/v8DcUsNAiAIIBFrQf//A3FBAXQiCCAJLwESIhNJDQIgCCATa0EBdCIIIAkvARQiFEkNAiAIIBRrQQF0IgggCS8BFiIVSQ0CIAggFWtBAXQiCCAJLwEYIhdJDQIgCCAXa0EBdCIIIAkvARoiGEkNAiAIIBhrQQF0IgggCS8BHCIZSQ0CIAggGWtBAXQiCCAJLwEeIh1JDQIgCCAdRiABQf8BcUEAIA5BAUYbckUEQCAAQX82AgAMBgsgCyAGIA4gBiAOSRsgBiALSRshCCAJQQA2AiAgCSAKOwEkIAkgCiAMaiIGOwEmIAkgBiAWaiIGOwEoIAkgBiAbaiIGOwEqIAkgBiAcaiIGOwEsIAkgBiANaiIGOwEuIAkgBiAQaiIGOwEwIAkgBiARaiIGOwEyIAkgBiATaiIGOwE0IAkgBiAUaiIGOwE2IAkgBiAVaiIGOwE4IAkgBiAXaiIGOwE6IAkgBiAYaiIGOwE8IAkgBiAZajsBPiASQQJrQQF2QQFqIQwgAiEGQQAhDQNAIA8hCgJAIAYvAQAiBkUNACAGQQ9NBEAgCUEgaiAGQQF0aiIGIAYvAQAiBkEBajsBACAGQaACSQRAIAcgBkEBdGogDTsBAAwCCyAGQaACQZSDyQAQjAcACyAGQRBBhIPJABCMBwALIApBAkEAIAogGkcbaiEPIAohBiAMIA1BAWoiDUcNAAtBFCEUIAFB/wFxIgEhF0EBIRhBAiEZAkACQAJAIAFBAWsOAgABAgsgCEELTw0FQbSAyQAhGUHygMkAIRhBHyEXQYECIRQMAQsgCEEJSw0EQZKByQAhGUHSgckAIRhBICEXQQAhFAtBASAIdCIVQQFrIR4gFEEBa0H//wNxIR8gAUEBayEgQQAhD0EAIRNBACEKQQAhECAIIRJBACERQX8hFgNAAkAgFCAHIAoiG0EBdGovAQAiAUsEQCABQQAgASAfSSIBGyEGQQBB4AAgARshAQwBCyABIBRrQf//A3EiBiAXSQRAIAYgGGotAAAhASAZIAZBAXRqLwEAIQYMAQsgBiAXQYSCyQAQjAcACyAEQX8gCyARayIddCIaQQEgEnQiHCAQIA8gEXZqamoiDUECdGohDCAaQQJ0IQ8gHCEKAkACQAJ/AkACQAJAAkACQAJAA0AgBSANTQ0BIAwgBjsBACAMQQNqIB06AAAgDEECaiABOgAAIAwgD2ohDCANIBpqIQ0gCiAaaiIKDQALIAtBD0sNAUGAgICAeCALQQFrdiATaiITQRh0IBNBgP4DcUEIdHIgE0EIdkGA/gNxIBNBGHZyciIBQQR2QY+evPgAcSABQY+evPgAcUEEdHIiAUECdkGz5syZA3EgAUGz5syZA3FBAnRyIgFBAXZB1arVqgVxIAFB1arVqgVxQQF0ciEPIBtBAWohCiAJIAtBAXRqIgEgAS8BAEEBayIBOwEAAkACQCABQf//A3FFBEAgCyAORg0BIBtBnwJGDQUgAyAHIApBAXRqLwEAIgFNDQYgAiABQQF0ai8BACELCyAIIAtPDQogDyAecSIBIBZHDQEMCgsgE0UNCCAFIBBJDQUgBSAQayIBIA9LBEAgBCAQQQJ0aiAPQQJ0aiIBIB06AAMgAUHAADoAAiABQQA7AQAMCQsgDyABQdSCyQAQjAcAC0EBIAsgESAIIBEbIhFrIhJ0Ig0gCyAOTw0GGiAOIBFrIRIgCSALQQF0aiEMIAshBgNAIA0gDC8BAGsiFkEATARAIAYgEWshEgwHCyAMQQJqIQwgFkEBdCENIAZBAWoiBiAOSQ0ACwwFCyANIAVBlILJABCMBwALIAtBEEGkgskAEIwHAAtBoAJBoAJBtILJABCMBwALIAEgA0HEgskAEIwHAAsgECAFIAVB5ILJABDqBwALQQEgEnQLIBVqIRUCQAJAAkAgIA4CAAECCyAVQbQKTQ0BDAgLIBVB0ARLDQcLIAEgBUkEQCAEIAFBAnRqIgYgCDoAAyAGIBI6AAIgBiAQIBxqIhA7AQAgASEWDAILIAEgBUH0gskAEIwHAAsgACAVNgIIIAAgCDYCBCAAQQA2AgAMBwsgCkGgAkcNAAtBoAJBoAJB9IHJABCMBwALQY2cyABBHEGsnMgAEOsHAAsgCkEQQaSDyQAQjAcACyAAQX82AgAMAgsgAEEBNgIADAELIABBAjYCCCAEQoCAgIqAgICgATcBACAAQoCAgIAQNwIACyAJQUBrJAALsBMEDX8KfQN7AX4jAEGgAmsiAiQAIAEqAgAhESABKgIEIQ8gAiABKgIIIhP9EyABKgIQIhD9IAAgASoCFCIS/SAB/QsEkAEgAiAS/RMgASoCDCIS/SAAIA/9IAH9CwSAASACIBD9EyAR/SAAIBL9IAH9CwRwIAL9DAAAgD8AAAAAAAAAAAAAAAD9CwTAASAC/QwAAAAAAACAPwAAAAAAAAAA/QsEsAEgAv0MAAAAAAAAAAAAAIA/AACAP/0LBKABIBGLIA+LkiATi5JDAACAPxDgCEO9N4Y1lCITIBOUIRQgAkHAAWpBBHIhASACQaABakEEciENIAJBsAFqQQRyIQUgAkGAAWohDkEgIQsCfwNAIAIqAnQiDyAPlCACKgJ4IhAgEJSSIAL9AASAASIZ/R8CIhIgEpSSIBReRQRAIBn9HwG8DAILIAIgGSAC/QAEcCIaIBKLIBCLIhEgD4siDyAPIBFdIgwbXiIDG/0LBGAgGv0fACERIBNBCEEEIAMgDHIiBBsiByACQeAAanIqAgAiEItdBEAgAiAa/QsEUAJ9AkAgAioCmAEgGf0fASIPIAQbIA8gESADG5MiDyAPXCAQIBCSIhEgEVxyRQRAIA+8IghBgICA/ANGBEAgERDcBAwDCyAIQR52QQJxIgogEbwiBkEfdnIhCQJAAkACQAJAAkACQCAGQf////8HcSIGRQRAQ9sPScAhDyAJQQJrDgICBgELIAhB/////wdxIghFDQIgCEGAgID8B0cNAyAGQYCAgPwHRw0EIAlBAnQqAoyxSQwICyARDAcLQ9sPSUAMBgtD2w/JPyARmAwFCyAGQYCAgPwHRiAIQYCAgOgAaiAGSXINAwJ9IAoEQEMAAAAAIAZBgICA6ABqIAhJDQEaCyARIA+VixDcBAshDwJAAkACQCAJQQFrDgMBAgAECyAPQy69uzOSQ9sPScCSDAYLIA+MDAULQ9sPSUAgD0MuvbszkpMMBAsgCUECdCoCnLFJIQ8LIA8MAgsgESAPkgwBC0PbD8k/IBGYCyACQdAAaiIJIAdyKgIAIRBDAAAAP5QiDxCZAiERIANBAnQgCXIqAgAiFSAPEJsCIg+UIBEgEJSTIRIgA60hHAJAIANFBEAgAiASOAJwDAELIAIgEjgCdAtBCEEEIAQbIgkgAkHwAGpyIA8gEJQgESAVlJI4AgAgAiAZ/QsEQCAPIBynQQJ0IgogAkFAayIGcioCACISlCARIAYgB3IqAgAiFZSTIRACQCADBEAgAiAQOAKEAQwBCyACIBA4AoABCyACQfAAakEYQRQgBBtqIA8gFZQgESASlJI4AgAgAiAC/QAEkAH9CwQwIA8gAkEwaiIGIApyKgIAIhKUIBEgBiAHcioCACIVlJMhEAJ/IAMEQCACIBA4ApQBIA4MAQsgAiAQOAKQASACQfAAagshBiACQfAAaiIIQShBJCAEG2ogDyAVlCARIBKUkjgCACAGIA8gAv0ABIABIhkgAv0ABHAgAxv9HwAiEJQgESAC/QAEkAEgGSAEG/0fACISlJM4AgBBIEEQIAQbIAhqIA8gEpQgESAQlJI4AgAgBiAPIAL9AASAASIZIAL9AARwIAMb/R8BIhCUIBEgAv0ABJABIBkgBBv9HwEiEpSTOAIEQSRBFCAEGyAIaiAPIBKUIBEgEJSSOAIAIAYgDyAC/QAEgAEiGSAC/QAEcCIaIAMb/R8CIhCUIBEgAv0ABJABIBkgBBv9HwIiEpSTOAIIQShBGCAEGyAIaiAPIBKUIBEgEJSSOAIAIAYgCWpBADYCAAJ/IANFBEBBIEEQIAwbIAhqQQA2AgBCACEcIAJBwAFqIQMgAkGwAWohBCACQaABagwBCyACQQA2ApQBQgEhHCAFIQQgASEDIA0LIAIgAv0ABMAB/QsEACADIA8gAiAcp0ECdHIqAgAiEJQgESACIAdyKgIAIhKUkzgCACACIAL9AASwAf0LBCAgBCAPIAJBIGoiAyAKcioCACIVlCARIAMgB3IqAgAiFpSTOAIAIAIgAv0ABKAB/QsEECAPIAJBEGoiAyAKcioCACIXlCARIAMgB3IqAgAiGJSTOAIAIAJBwAFqIAlyIBEgEJQgDyASlJI4AgAgAkGwAWogCXIgESAVlCAPIBaUkjgCACACQaABaiAJciARIBeUIA8gGJSSOAIAIBr9HwAhEQsgC0EBayILDQALIAIoAoQBCyEDIAIgAioCmAEiEjgC3AEgAiADNgLYASAC/QAEsAEhGSAC/QAEwAEhGiAC/QAEoAEhGyACIBE4AtQBIAIgGiAZ/Q0ICQoLGBkaGwABAgMAAQIDIBv9DQABAgMEBQYHGBkaGxgZGhv9CwSAAiACIBogGf0NBAUGBxQVFhcAAQIDAAECAyAb/Q0AAQIDBAUGBxQVFhcUFRYX/QsE8AEgAiAaIBn9DQABAgMQERITAAECAwABAgMgG/0NAAECAwQFBgcQERITEBESE/0LBOABIBr9HwAiDyAPlCAZ/R8AIhMgE5SSIBv9HwAiECAQlJIiFEMAAAAAXgRAIAIgECAUkSIQlTgC6AEgAiATIBCVOALkASACIA8gEJU4AuABCyAa/R8BIg8gD5QgGf0fASITIBOUkiAb/R8BIhAgEJSSIhRDAAAAAF4EQCACIBAgFJEiEJU4AvgBIAIgEyAQlTgC9AEgAiAPIBCVOALwAQsgGv0fAiIPIA+UIBn9HwIiEyATlJIgG/0fAiIQIBCUkiIUQwAAAABeBEAgAiAQIBSRIhCVOAKIAiACIBMgEJU4AoQCIAIgDyAQlTgCgAILQQAhBCACQQA2ApwCIAJBATYCmAIgAkHUAWohB0EBIQEgEbwiBSAFQR91QQF2cyIFIANBH3VBAXYgA3MiA0gEQEEBIQQgAkEBNgKcAiACQQA2ApgCIAUhAyACQdgBaiEHQQAhAQsCQCADIBK8IgUgBUEfdUEBdnMiBU4EQEECIQMMAQsgAkGYAmohAyAFIAcoAgAiB0EfdUEBdiAHc0oEfyACIAQ2ApgCIAJBnAJqBSADC0ECNgIAAkAgAigCnAIiBEECTQRAIAIoApgCIgVBA08NASABIQMgBSEBDAILIARBA0Hg98cAEIwHAAsgBUEDQfD3xwAQjAcACyAAIAJB4AFqIgUgA0EEdGr9AAQA/QsEMCAAIAFBBHQgBWr9AAQA/QsEICAAIARBBHQgBWr9AAQA/QsEECAAIAJB1AFqIgUgA0ECdGoqAgA4AgggACABQQJ0IAVqKgIAOAIEIAAgBEECdCAFaioCADgCACACQaACaiQAC7cNAgp/An4gACgCFCECIAAoAhAhBSAAKQMIIQwgACgCBCEIIAAoAgAhCSAAKAIYIgNBAEgEQCAFIAhJBEAgCSAFQQJ0aigAACEHCyAHQRh0IAdBgP4DcUEIdHIgB0EIdkGA/gNxIAdBGHZycq0gDEIghoQhDCAFQQFqIQUgA0EgaiEDCyAMQgAgAiACQQF2IgJrIgatIANBP3GthiINIAwgDVQiBBt9IQxBACEHIAMgBiACIAQbIgJnIgNBGGsiBkEAIAMgBk8bIgZrIQMgAiAGdCECAkACQCAEBEAgBSAITQ0BDAILIANBAEgEQCAFIAhJBEAgCSAFQQJ0aigAACEHCyAHQRh0IAdBgP4DcUEIdHIgB0EIdkGA/gNxIAdBGHZycq0gDEIghoQhDCAFQQFqIQUgA0EgaiEDCyAMQgAgAiACQQF2IgJrIgStIANBP3GthiINIAwgDVQiBxt9IQwgBCACIAcbIgIgAmciAkEYayIEQQAgAiAETxsiAnQhBCADIAJrIgNBAEgEQEEAIQIgBSAISQRAIAkgBUECdGooAAAhAgsgAkEYdCACQYD+A3FBCHRyIAJBCHZBgP4DcSACQRh2cnKtIAxCIIaEIQwgBUEBaiEFIANBIGohAwsgDCAEIARBAXYiAmsiBq0gA0E/ca2GIg1CACAMIA1aIgQbfSEMIAIgBiAEGyICIAJnIgJBGGsiBkEAIAIgBk8bIgJ0IQYgAyACayIDQQBIBEBBACECIAUgCEkEQCAJIAVBAnRqKAAAIQILIAJBGHQgAkGA/gNxQQh0ciACQQh2QYD+A3EgAkEYdnJyrSAMQiCGhCEMIAVBAWohBSADQSBqIQMLIAxCACAGIAZBAXYiAmsiCq0gA0E/ca2GIg0gDCANVCIGG30hDCAKIAIgBhsiAiACZyICQRhrIgpBACACIApPGyICdCIKIApBAXYiCmsiC60gAyACayIDQQBIBEBBACECIAUgCEkEQCAJIAVBAnRqKAAAIQILIAJBGHQgAkGA/gNxQQh0ciACQQh2QYD+A3EgAkEYdnJyrSAMQiCGhCEMIAVBAWohBSADQSBqIQMLIANBP3GthiINIAxYIgJBAEECIAcbIARyQQJ0QQBBAiAGG3JyIQcgDCANQgAgAht9IQwgAyAKIAsgAhsiAmciA0EYayIEQQAgAyAETxsiBGshAwJ/IAIgBHQiBCABQf8BcUEERg0AGiADQQBIBEBBACECIAUgCEkEQCAJIAVBAnRqKAAAIQILIAJBGHQgAkGA/gNxQQh0ciACQQh2QYD+A3EgAkEYdnJyrSAMQiCGhCEMIAVBAWohBSADQSBqIQMLIAwgBCAEQQF2IgRrIgatIANBP3GthiINQgAgDCANWiICG30hDCADIAQgBiACGyIEZyIDQRhrIgZBACADIAZPGyIGayEDIAIgB0EBdHIhByAEIAZ0IgQgAUH/AXFBBkkNABogA0EASARAQQAhAiAFIAhJBEAgCSAFQQJ0aigAACECCyACQRh0IAJBgP4DcUEIdHIgAkEIdkGA/gNxIAJBGHZycq0gDEIghoQhDCAFQQFqIQUgA0EgaiEDCyAMIAQgBEEBdiIEayIGrSADQT9xrYYiDUIAIAwgDVoiAht9IQwgAyAEIAYgAhsiBGciA0EYayIGQQAgAyAGTxsiBmshAyACIAdBAXRyIQcgBCAGdCIEIAFB/wFxQQZGDQAaIANBAEgEQEEAIQIgBSAISQRAIAkgBUECdGooAAAhAgsgAkEYdCACQYD+A3FBCHRyIAJBCHZBgP4DcSACQRh2cnKtIAxCIIaEIQwgBUEBaiEFIANBIGohAwsgDCAEIARBAXYiBGsiBq0gA0E/ca2GIg1CACAMIA1aIgIbfSEMIAMgBCAGIAIbIgRnIgNBGGsiBkEAIAMgBk8bIgZrIQMgAiAHQQF0ciEHIAQgBnQLIQQgA0EASARAQQAhAiAFIAhJBEAgCSAFQQJ0aigAACECCyACQRh0IAJBgP4DcUEIdHIgAkEIdkGA/gNxIAJBGHZycq0gDEIghoQhDCAFQQFqIQUgA0EgaiEDCyAFIAhLDQEgDEIAIAQgBEEBdiICayIIrSADQT9xrYYiDSAMIA1UIgEbfSEMIAggAiABGyICIAJnIgJBGGsiCEEAIAIgCE8bIgh0IQIgAyAIayEDIAdBACAHayABGyEHCyAAIAM2AhggACACNgIUIAAgBTYCECAAIAw3AwggBw8LIAAQtAoEf0EAIAAgARDwB0H/AXEiAWsgASAAELQKGwVBAAsLjhACDn8EfiMAQSBrIgIkAAJAAkACQAJAAkACQAJ/AkACQAJAAkACQAJAAkACQEEVIAEoAgAiA0GAgICAeHMgA0EAThtBFGsOAgECAAsgASACQR9qQfTiwAAQlQghASAAQYCAgIB4NgIAIAAgATYCBAwLCyABKAIMIgVFDQMgAkEEaiABKAIIIgkQoAQgAigCCCEEIAIoAgQiB0GAgICAeEYEQCAEIQEMCgsgAigCFCEIIAIoAhAhAyAFQQFGDQIgAigCGCEKIAIoAgwhCyACQQRqIgYgCUEQahDTAiACKAIIIQEgAigCBA0IIAVBAkYNASACKQIMIRAgBiAJQSBqENMCIAIoAgghBiACKAIEBEAgBiEBDAkLAkAgBUEDRwRAIAIpAgwhESACQQRqIAlBMGoQnwUgAigCBEUNASACKAIIIQEMCgtBA0G0/8AAQYD9wAAQ2wYhAQwJCyAFQQRHBEAgAkEENgIEIAVB/P///wBqQf////8AcUEEaiACQQRqQeiVwQAQ2wYhASAAQYCAgIB4NgIAIAAgATYCBCAHBEAgBCAHQQEQogcLIANFDQsgCCADQQEQogcMCwsgAigCCCEFIAAgAigCDDYCNCAAIAU2AjAgACARNwIoIAAgBjYCJCAAIBA3AhwgACABNgIYIAAgCjYCFCAAIAg2AhAgACADNgIMIAAgCzYCCCAAIAQ2AgQgACAHNgIADAoLIAEoAggiA0UNBCADQQV0IQ0gASgCBCEBQYCAgIB4IQUDQAJAAkACQAJAAkACQAJAAkBBFSABKAIAIgNBgICAgHhzIANBAE4bQQFrDg8BAAACAAAAAAAAAAMEBQYACyABIAJBH2pBxOTAABCVCCEDIAJBAToABCACIAM2AggMBgsgAkEAOgAEIAJBBCABQQRqLQAAIgMgA0EETxs6AAUMBQsgAkEAOgAEIAJCBCABQQhqKQMAIhAgEEIEWhs8AAUMBAsgAUEIaigCACEDAn8CQAJAAkACQCABQQxqKAIAQQRrDgIBAAMLIANBkP3AAEEFENsHDQFBAAwDC0EBIAMoAABB7dK5mwdGDQIaIAMoAABB7cLhmwdHDQFBAgwCCyADQZ39wABBBRDbBw0AQQMMAQtBBAshAyACQQA6AAQgAiADOgAFDAMLIAFBBGooAgAhAwJ/AkACQAJAAkAgAUEIaigCAEEEaw4CAQADCyADQZD9wABBBRDbBw0BQQAMAwtBASADKAAAQe3SuZsHRg0CGiADKAAAQe3C4ZsHRw0BQQIMAgsgA0Gd/cAAQQUQ2wcNAEEDDAELQQQLIQMgAkEAOgAEIAIgAzoABQwCCyACQQRqIAFBCGooAgAgAUEMaigCABDZBQwBCyACQQRqIAFBBGooAgAgAUEIaigCABDZBQsgAi0ABEEBRgRAIAIoAgghBEEBDAcLIAFBEGohAwJAAkACQAJAAkACQAJAAkAgAi0ABQ4EAAECAwcLIAVBgICAgHhHBEBBkP3AAEEFEJ8HIQRBAQwOCyACQQRqIAMQoAQgAigCCCEGIAIoAgQiBUGAgICAeEYEQCAGIQQMDwsgAigCGCEOIAIoAhQhCSACKAIQIQggAigCDCEPDAYLIAoNAiACQQRqIAMQ0wIgAigCCCEEQQEgAigCBEEBRg0MGiACKQIMIRFBASEKDAULIAsNAyACQQRqIAMQ0wIgAigCCCEHIAIoAgRBAUYEQCAHIQRBAQwMCyACKQIMIRJBASELDAQLIAwNASACQQRqIAMQnwUgAigCCCEDIAIoAgRBAUYEQCADIQRBAQwLCyADrSACNQIMQiCGhCETQQEhDAwDC0GV/cAAQQQQnwchBEEBDAkLQZ39wABBBRCfByEEQQEMCAtBmf3AAEEEEJ8HIQRBAQwHCyABQSBqIQEgDUEgayINDQALDAMLQQJBtP/AAEGA/cAAENsGIQEMBgtBAUG0/8AAQYD9wAAQ2wYhAQwFC0EAQbT/wABBgP3AABDbBiEBDAULIAVBgICAgHhGDQAgAiAONgIYIAIgCTYCFCACIAg2AhAgAiAPNgIMIAIgBjYCCCACIAU2AgQCQCAKRQRAQZX9wABBBBCcByEEDAELIAtFBEBBmf3AAEEEEJwHIQQMAQsgDEUEQEGd/cAAQQUQnAchBAwBCyAAIBM3AjAgACASNwIoIAAgBzYCJCAAIBE3AhwgACAENgIYIAAgDjYCFCAAIAk2AhAgACAINgIMIAAgDzYCCCAAIAY2AgQgACAFNgIADAYLIAJBBGoQ5gVBAAwBC0GAgICAeCEFQZD9wABBBRCcByEEQQELRSAFQYCAgIB4RnINACAFBEAgBkEEaygCACIBQXhxIgdBBEEIIAFBA3EiARsgBWpJDQUgAUEAIAcgBUEnaksbDQYgBhCiAgsgCEUNACAJQQRrKAIAIgFBeHEiBkEEQQggAUEDcSIBGyAIakkNBCABQQAgBiAIQSdqSxsNBSAJEKICCyAAIAQ2AgQgAEGAgICAeDYCAAwCCyAHBEAgBEEEaygCACIGQXhxIgVBBEEIIAZBA3EiBhsgB2pJDQMgBkEAIAUgB0EnaksbDQQgBBCiAgsgA0UNACAIQQRrKAIAIgRBeHEiBkEEQQggBEEDcSIEGyADakkNAiAEQQAgBiADQSdqSxsNAyAIEKICCyAAIAE2AgQgAEGAgICAeDYCAAsgAkEgaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALxRACCH8EfiMAQeACayIBJAACQAJAAkACQAJAAkACQAJAAkACQCAALQD8AkUEQCAAKAIAIgJBAkcNCSAAKAKIAUECRw0JIAAoAuACIgNBA00EQEEAIQIMCwsgASAAKALcAiIEKAAAIgI2AhACQCACQdKCkZoERwRAIAJB0oKRggNHDQMgA0EISQ0BIAMgBCgABCIFQQdqQXhxQQhqIgJJDQEgBUEIaiIGIANLIAVBd0tyDQQgAUEANgLYAiABIAU2AtQCIAEgBEEIajYC0AIgAUEgaiABQdACahBZIAEoAiQhBSABKAIgIgdBAkYEQCAFEM4HIQIMDQsgAUGwAWogAUEoakGAAfwKAAAgAEEANgLgAiABIAU2AqwBIAEgBzYCqAEgAyACayEGAkACQCACRQ0AIAIgA0YNASAGRQ0AIAQgAiAEaiAG/AoAAAsgACAGNgLgAgsgACAAKQO4AiACrXwiCTcDwAIgACAJNwO4AiABKAKkAkEBRw0FIAAgASgClAIiAzYC6AIgACABKAK0ASABKALAASICIAEoArABGyIENgLsAiAERQ0GIAIgBG4iBiAEIAZsIAJHaiIEIANGBEAgAS0AqAIhAyABIAVBACAHQQFxGzYCJCABIAI2AiAgASADQQFxOgAoIABB+AFqIAFBIGoQhAICQCAAKAIAQQJGDQAgACgCaCEEIAAoAmwiAwRAIARBJGohAgNAIAJBBGsoAgAiBUGAgICAeHJBgICAgHhHBEAgAigCACIGQQRrKAIAIgdBeHEiCEEEQQggB0EDcSIHGyAFakkNDCAHQQAgCCAFQSdqSxsNDSAGEKICCyACQTBqIQIgA0EBayIDDQALCyAAKAJkIgMEQCAEIANBMGxBCBCiBwsgACgCcCIDQYCAgIB4ckGAgICAeEYNACAAKAJ0IANBARCiBwsgACABQagBakGIAfwKAAAMCwsgASAENgLMAiABQQI2AiQgAUHox8EANgIgIAFCAjcCLCABQoCAgIAQIgkgAEHoAmqthDcD2AIgASAJIAFBzAJqrYQ3A9ACIAEgAUHQAmo2AiggAUHAAmoiACABQSBqELEGIAAQjgchAgwJCyABQQhqIAAQuAIgAS0ACEUEQCABLQAJDQpBACECDAwLIAEoAgwhAgwLC0EAIQIMCgsgADUC4AIhCSAAQQA2AuACIAAgCSAAKQO4Anw3A7gCDAkLIAFBATYCNCABQczIwQA2AjAgAUEBNgIkIAFBxMjBADYCICABQQE2AiwgASABQRBqrUKAgICAkASENwPQAiABIAFB0AJqNgIoIAFBFGoiACABQSBqELEGIAAQjgchAgwIC0EIIAYgA0GcyMEAEOoHAAsgAUEBNgIkIAFBlMjBADYCICABQgE3AiwgASABQaQCaq1CgICAgBCENwPQAiABIAFB0AJqNgIoIAFBtAJqIgAgAUEgahCxBiAAEI4HIQIgASgClAIhAwwDC0G0x8EAEIEIAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAEoApACIQQgAwRAIARBJGohAANAIABBBGsoAgAiBUGAgICAeHJBgICAgHhHBEAgACgCACAFQQEQogcLIABBMGohACADQQFrIgMNAAsLIAEoAowCIgAEQCAEIABBMGxBCBCiBwsgASgCmAIiAEGAgICAeHJBgICAgHhGDQIgASgCnAIgAEEBEKIHDAILIAAoAgAhAgsCQAJAAkACQAJ/AkAgAkECRwRAIAAoAuQCIAAoAugCTw0GIAAoAogBQQJGDQFBAAwCCyABQagBaiAAEFsgASgCrAFBACABLQCoASIDGyECIAMNBiABLQCpAUEBcUUNBiAAKQPQAiILIAApA7gCIglYBEAgACgC4AIhAwwFCyAAKALgAiEEQQAhAyAAQQA2AuACIAQgCyAJfSIKIAStIgwgCiAMVBsiCqciBWshAiAKUEUEQCAEIAVGDQQgAkUNAyAAKALcAiIDIAMgBWogAvwKAAAMAwsgBCAFRw0CDAMLQQELIQIDQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAkUEQCABQagBaiAAEFsgASgCrAEhAyABLQCoASICDQIgAS0AqQFBAXFFDQIgACkD0AIiCSAAKQO4AiILVg0BDAYLIAFBqAFqIAAQuAIgAS0AqAFBAUYEQCABKAKsASECDBELIAEtAKkBDQlBACECDBALIAAoAuACIQMgAEEANgLgAiADIAkgC30iCiADrSIMIAogDFQbIgqnIgJrIQQgClANASACIANGDQMgBEUNAiAAKALcAiIDIAIgA2ogBPwKAAAMAgsgA0EAIAIbIQIMDgsgAiADRg0BCyAAIAQ2AuACCyAAIAogC3wiCzcDuAIgCSALVg0BCwJAIAAoAogBQQJGDQAgACgC5AEiA0UNACAAKALoASICQQRrKAIAIgRBeHEiBSADQShsIgNBBEEIIARBA3EiBBtqSQ0CIARBACAFIANBJ2pLGw0DIAIQogILIABBAjYCiAEgACAAKALkAkEBaiIDNgLkAiADIAAoAugCSQ0EDAkLQQAhAgwJC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBACECDAELQQEhAgwACwALIAAgAjYC4AIgAiEDCyAAIAkgCnwiCTcDuAIgCSALWg0AQQAhAgwCC0EAIQIgAEEANgLgAiAAQQE6APwCIAAgCSADrXw3A7gCDAELIABBAToA/AIgADUC4AIhCUEAIQIgAEEANgLgAiAAIAkgACkDuAJ8NwO4AgsgAUHgAmokACACC70PAg5/AX4jAEEgayICJAACQAJAAkACQAJAAkACQAJ/An8CQAJAAkACQAJAAkACQAJAQRUgASgCACIDQYCAgIB4cyADQQBOG0EUaw4CAAEECyABKAIMIgNFDQIgAkEEaiABKAIIIgEQoAQgAigCCCEIIAIoAgQiBkGAgICAeEYEQCAIIQMMDQsgAigCFCEJIAIoAhAhByADQQFGDQEgAigCGCELIAIoAgwhDCACQQRqIAFBEGoQ0AMgAigCCCEEIAIoAgQiBUGAgICAeEYEQCAEIQMMDAsCQAJ/IANBAkcEQCACKAIMIQ4gAkEEaiABQSBqEKUDIAItAARFDQIgAigCCAwBC0ECQYz/wABBgP3AABDbBgshAyAFRQ0MIARBBGsoAgAiAUF4cSIKIAVBAnQiBUEEQQggAUEDcSIBG2pJDRAgAUEAIAogBUEnaksbDQ8gBBCiAgwMCyADQQNGBEAgAi0ABSEPDAsLIAJBAzYCBCADQf3///8AakH/////AHFBA2ogAkEEakHolcEAENsGIQMgBgRAIAggBkEBEKIHCyAHBEAgCSAHQQEQogcLIAVFDQwgBCAFQQJ0QQQQogcMDAsgASgCCCIDRQRAQYCAgIB4IQUMBgsgA0EFdCEKIAEoAgQhAUGAgICAeCEGQYCAgIB4IQUDQAJAAkACQAJAAkACQAJAAkBBFSABKAIAIgNBgICAgHhzIANBAE4bQQFrDg8BAAACAAAAAAAAAAMEBQYACyABIAJBH2pBlOXAABCVCCEDIAJBAToABCACIAM2AggMBgsgAkEAOgAEIAJBAyABQQRqLQAAIgMgA0EDTxs6AAUMBQsgAkEAOgAEIAJCAyABQQhqKQMAIhAgEEIDWhs8AAUMBAsgAUEIaigCACEDAn8CQAJAAkACQCABQQxqKAIAQQVrDgQAAwMBAwsgA0GQ/cAAQQUQ2wcNAUEADAMLIAMpAABC496Rq6bs27frAFINAUEBDAILIANB6P7AAEEFENsHDQBBAgwBC0EDCyEDIAJBADoABCACIAM6AAUMAwsgAUEEaigCACEDAn8CQAJAAkACQCABQQhqKAIAQQVrDgQAAwMBAwsgA0GQ/cAAQQUQ2wcNAUEADAMLIAMpAABC496Rq6bs27frAFINAUEBDAILIANB6P7AAEEFENsHDQBBAgwBC0EDCyEDIAJBADoABCACIAM6AAUMAgsgAkEEaiABQQhqKAIAIAFBDGooAgAQygUMAQsgAkEEaiABQQRqKAIAIAFBCGooAgAQygULIAItAARBAUYNBSABQRBqIQMCQAJAAkACQCACLQAFQQFrDgMBAgMACyAGQYCAgIB4RwRAQZD9wABBBRCfByEDQQEMCwsgAkEEaiADEKAEIAIoAgghAyACKAIEIgZBgICAgHhGBEBBgICAgHghBkEBDAsLIAIoAhghCyACKAIUIQkgAigCECEHIAIoAgwhDCADIQgMAgsgBUGAgICAeEcEQEGY/sAAQQgQnwchA0EBDAoLIAJBBGogAxDQAyACKAIIIQQgAigCBCIFQYCAgIB4RgRAQQEhCiAEIQMMDAsgAigCDCEODAELIA1FBEAgAkEEaiADEKUDIAItAARBAUYNByACLQAFIQ9BASENDAELQej+wABBBRCfByEDQQEMCAsgAUEgaiEBIApBIGsiCg0ACwwDC0EBQYz/wABBgP3AABDbBiEDDAkLQQBBjP/AAEGA/cAAENsGIQMMCQsgASACQR9qQcTjwAAQlQghAwwICyAGQYCAgIB4Rg0BIAIgCzYCGCACIAk2AhQgAiAHNgIQIAIgDDYCDCACIAg2AgggAiAGNgIEAkAgBUGAgICAeEYiAUUEQCANDQdB6P7AAEEFEJwHIQMgBUUNASAEIAVBAnRBBBCiBwwBC0GY/sAAQQgQnAchAwsgAkEEahDmBUEADAMLIAIoAgghA0EBDAELQYCAgIB4IQZBkP3AAEEFEJwHIQNBAQshAUEBCyEKIAVB/////wdxRSABRXINAAJAIARBBGsoAgAiAUF4cSILIAVBAnQiBUEEQQggAUEDcSIBG2pPBEAgAUEAIAsgBUEnaksbDQEgBBCiAgwCCwwHCwwFCyAKRSAGQYCAgIB4RnINAgJAIAYEQCAIQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyAGakkNByABQQAgBCAGQSdqSxsNBiAIEKICCyAHRQ0DIAlBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAdqSQ0GIAFBACAEIAdBJ2pLGw0AIAkQogIMAwsMBAsgACAENgIcIAAgBTYCGCAAIAs2AhQgACAJNgIQIAAgBzYCDCAAIAw2AgggACAINgIEIAAgBjYCACAAIA6tIA+tQv8Bg0IghoQ3AiAMAgsgBgRAIAhBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAZqSQ0EIAFBACAEIAZBJ2pLGw0DIAgQogILIAdFDQAgCUEEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgB2pJDQMgAUEAIAQgB0EnaksbDQIgCRCiAgsgAEGBgICAeDYCACAAIAM2AgQLIAJBIGokAA8LQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC4YRAg1/AX4jAEHgAGsiAiQAAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiBEGAgICAeHMgBEEAThtBFGsOAgECAAsgASACQRhqQZTjwAAQlQghASAAQYCAgIB4NgIAIAAgATYCBAwHCyABKAIMIgZFDQICQCABKAIIIgUoAgBBlICAgHhGBEACQCAFKAIMIgEEQCACQcgAaiAFKAIIEKgDIAIoAkgiBEGAgICAeEcNASACKAJMIQEMCQtBACACQRhqQYTiwAAQ2wYhAQwICyACKAJMIQcgAUEBRg0BIAJBATYCSCABQQFrQf////8AcUEBaiACQcgAakHolcEAENsGIQEgBEUNByAHIARBARCiBwwHCyAFIAJBGGpBhOLAABCVCCEBDAYLIAZBAUYNASACKAJQIQkgAkHIAGoiAyAFQRBqEKECIAIoAkwhASACKAJIDQQgAkEQaiACQdgAaigCADYCACACIAIpAlA3AwgCQCAGQQJHBEAgAyAFQSBqEKECIAIoAkwhBSACKAJIRQ0BIAUhAQwGC0ECQZD+wABBgP3AABDbBiEBDAULIAJBMGoiAyACQdgAaigCADYCACACQUBrIgggAkEQaigCADYCACACIAIpAlA3AyggAiACKQMINwM4IAZBA0cEQCACQQM2AkggBkH9////AGpB/////wBxQQNqIAJByABqQeiVwQAQ2wYhASAAQYCAgIB4NgIAIAAgATYCBCAERQ0HIAcgBEEBEKIHDAcLIAAgAikDODcCECAAIAIpAyg3AiAgACAFNgIcIAAgATYCDCAAIAk2AgggACAHNgIEIAAgBDYCACAAQRhqIAgoAgA2AgAgAEEoaiADKAIANgIADAYLIAEoAgQhBCABKAIIIQEgAkEANgIUIAIgBCABQQV0aiIMNgIMAkACQAJAIAFFDQAgAkHQAGohCkGAgICAeCEIA0AgAiAEQSBqIgE2AgggAiACKAIUQQFqNgIUIAIgBEEQaiINNgIQAkACQAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAQRUgBCgCACIDQYCAgIB4cyADQQBOG0EBaw4PAA4OAQ4ODg4ODg4CAwQFDgsgBC0ABA4DCgUHDwsgBCkDCCIPQgJWDQ4gD6dBAWsOAgQGCQsgBCgCCCEDAkAgBCgCDEEEaw4CAAgOCyADKAAAQe3SuZsHRg0DIAMoAABB7cLhmwdGDQUMDQsgBCgCBCEDAkAgBCgCCEEEaw4CAAYNCyADKAAAQe3SuZsHRg0CIAMoAABB7cLhmwdGDQQMDAsgBCgCCCEDAkACQCAEKAIMQQRrDgIBAA0LIAMtAABB5gBHDQwgAy0AAUHpAEcNDCADLQACQewARw0MIAMtAANB5QBHDQwgAy0ABEHzAEcNDAwHCyADLQAAQe0ARw0LAkACQCADLQABQeEAaw4JAQ0NDQ0NDQ0ADQsgAy0AAkHuAEcNDCADLQADQfMARg0CDAwLIAMtAAJB+ABHDQsgAy0AA0HzAEYNAwwLCyAEKAIEIQMCQAJAIAQoAghBBGsOAgEADAsgAy0AAEHmAEcNCyADLQABQekARw0LIAMtAAJB7ABHDQsgAy0AA0HlAEcNCyADLQAEQfMARw0LDAYLIAMtAABB7QBHDQoCQCADLQABQeEAaw4JAgsLCwsLCwsACwsgAy0AAkHuAEcNCiADLQADQfMARw0KCyAGRQ0FQZX9wABBBBCfBwwICyADLQACQfgARw0IIAMtAANB8wBHDQgLIAtFDQRBmf3AAEEEEJ8HDAYLIANBkP3AAEEFENsHRQ0BDAYLIANBkP3AAEEFENsHDQULIAhBgICAgHhHBEBBkP3AAEEFEJ8HDAQLIAJByABqIAJBCGoQsgUgAigCTCEHIAIoAkgiCEGAgICAeEYEQCAHIQUMCQsgAigCUCEOIAIoAgwhDCACKAIIIQEMBQsgAkEANgIQIAJByABqIA0QoQIgAigCTCIFIAIoAkhBAUYNAhogAkEwaiAKQQhqKAIANgIAIAIgCikCADcDKEEBIQYMBAsgAkEANgIQIAJByABqIA0QoQIgAigCTCEJIAkgAigCSEEBRg0BGiACQUBrIApBCGooAgA2AgAgAiAKKQIANwM4QQEhCwwDCyAEIAJBGGpBhOXAABCVCAshBSAIQYCAgIB4ckGAgICAeEYNBAJAIAdBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAhqTwRAIAFBACAEIAhBJ2pLGw0BIAcQogIMBgtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAJBADYCEAsgDCABIgRHDQALIAhBgICAgHhGDQAgBkEAIAsbDQJBmf3AAEGV/cAAIAYbQQQQnAchBSAIRQ0BIAcgCEEBEKIHDAELQZD9wABBBRCcByEFCyAAIAU2AgQgAEGAgICAeDYCACAAIAIpA0g3AhAgAEEYaiACQdAAaigCADYCAAwDCyACQSBqIAJBQGsoAgA2AgAgAkHQAGogAkEwaigCACIBNgIAIAIgAikDODcDGCACIAIpAygiDzcDSCAAIAU2AgwgACAONgIIIAAgBzYCBCAAIAg2AgAgACAPNwIQIABBGGogATYCACAAIAk2AhwMAgtBAUGQ/sAAQYD9wAAQ2wYhAQwCC0EAQZD+wABBgP3AABDbBiEBDAILIAAgAikDGDcCICAAQShqIAJBIGooAgA2AgAMAgsgBEUNACAHQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyAEakkNAiAFQQAgBiAEQSdqSxsNAyAHEKICCyAAIAE2AgQgAEGAgICAeDYCAAsgAkHgAGokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+EOAgR/A34jAEGwBWsiBiQAIAYgAjYCECAGIAE2AgwgBiAFNgIYIAYgBDYCFAJAAkACQAJAIAMoAgxFDQAgAykDECADKQMYIAQgBRCVBCEKIAMoAgQiASAKp3EhAiAKQhmIQv8Ag0KBgoSIkKDAgAF+IQwgAygCACEHA0AgAiAHaikAACILIAyFIgpCf4UgCkKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIKUEUEQANAAkAgBSAHIAp6p0EDdiACaiABcUFobGoiCEEQaygCAEcNACAEIAhBFGsoAgAgBRDbBw0AQQAhAwwFCyAKQgF9IAqDIgpQRQ0ACwsgCyALQgGGg0KAgYKEiJCgwIB/g1BFDQEgAiAJQQhqIglqIAFxIQIMAAsACyAGIAZBFGqtQoCAgIAghCIKNwNAIAYgBkEMaq1CgICAgCCENwM4IAZCAjcCzAMgBkECNgLEAyAGQdTvxwA2AsADIAYgBkE4aiIENgLIAyAGQZgFaiIHIAZBwANqIgEQ7AMgBkEANgIkIAZCgICAgBA3AhwgBigCmAUhAiAEIAAgBigCnAUiBSAGKAKgBRDbAQJAAkACQAJAAkACQCAGKQM4QgNSBEAgASAEQcgB/AoAACAHIAEgBkEcahDXASAGKAKYBUEBRgRAIAYpApwFENIHIQMgARDDAQwCCyAGKAIYIgBBAEgNAiAGKAIUIQQCQCAARQRAQQEhAQwBCyAAEHEiAUUNBAsgAARAIAEgBCAA/AoAAAsgBiAANgKgBSAGIAE2ApwFIAYgADYCmAUgBkEoaiADIAZBmAVqIAZBHGoQ8gIgBigCKCIAQYCAgIB4ckGAgICAeEcEQCAGKAIsIgFBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIABqSQ0KIANBACAEIABBJ2pLGw0JIAEQogILIAZBwANqEMMBQQAhAwwFCwJAAkACQAJAQQEgBigCQCIEQf////8HaiAEQYCAgIB4TRsOAgABAwsgBi0AREEDRw0CIAYoAkgiASgCACEEIAFBBGooAgAiBygCACIIBEAgBCAIEQMACyAHKAIEIgcEQCAEQQRrKAIAIghBeHEiCUEEQQggCEEDcSIIGyAHakkNDCAIQQAgCSAHQSdqSxsNCyAEEKICCyABQQRrKAIAIgRBeHEiB0EQQRQgBEEDcSIEG0kNCyAERSAHQTRJcg0BDAoLIARBgICAgHhyQYCAgIB4Rg0BIAYoAkQiAUEEaygCACIHQXhxIghBBEEIIAdBA3EiBxsgBGpJDQogB0UNACAIIARBJ2pLDQkLIAEQogILIAZBwANqIAAgBigCFCAGKAIYENsBIAYgCjcDKCAGQgE3AqQFIAZBAjYCnAUgBkGA8McANgKYBSAGIAZBKGo2AqAFIAZBjAVqIAZBmAVqEOwDIAYpA8ADIgpCA1IEQCAGKALIAyEBIAZBhAJqIAZBzANqQbwB/AoAACAGKAKMBSIABEAgBigCkAUiBEEEaygCACIHQXhxIghBBEEIIAdBA3EiBxsgAGpJDQogB0EAIAggAEEnaksbDQkgBBCiAgsgBiABNgJAIAYgCjcDOCAGQcQAaiAGQYQCakG8AfwKAAAgBkHAA2ogBkE4aiIAIAZBHGoQ1wEgBigCwANBAUYEQCAGKQLEAxDSByEDIAAQwwEMAgsgBigCGCIAQQBIDQQgBigCFCEEAkAgAEUEQEEBIQEMAQsgABBxIgFFDQQLIAAEQCABIAQgAPwKAAALIAYgADYCyAMgBiABNgLEAyAGIAA2AsADIAZBmAVqIAMgBkHAA2ogBkEcahDyAiAGKAKYBSIAQYCAgIB4ckGAgICAeEcEQCAGKAKcBSIBQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyAAakkNCiADQQAgBCAAQSdqSxsNCSABEKICCyAGQThqEMMBIAJFBEBBACEDDAgLIAVBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIAJqSQ0JQQAhAyAARSABIAJBJ2pNcg0GDAgLIwBBMGsiACQAIAAQ5AggAEEgaiIDIAZBjAVqIgFBCGooAgA2AgAgAEEsaiAGQcgDaiIEQQhqKAIANgIAIAAgASkCADcDGCAAIAQpAgA3AiRBNBBxIgFFBEAACyABQcC1xwA2AgAgASAAKQIANwIEIAEgACkDGDcCHCABQQxqIABBCGr9AAIA/QsCACABQSRqIAP9AAMA/QsCACAAQTBqJAAgASEDCyAGKAIcIgBFDQMgBigCICIBQQRrKAIAIgRBeHEiB0EEQQggBEEDcSIEGyAAakkNByAEQQAgByAAQSdqSxsNBiABEKICDAMLQdiayAAQ/wcLAAtB2JrIABD/BwALIAJFDQEgBUEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgAmpPBEAgAEUgASACQSdqTXINAQwDCwwDCyAFEKICCyAGQbAFaiQAIAMPC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAumDwQRfwF8B30BbyMAQSBrIgIkACACIAE2AgACQAJAIAElARAQRQRAIAIgAkEfakH8hcEAEIADIQMgAEECOgAcIAAgAzYCACABIgNBgwhLDQEMAgtBAiEHAkADQCADIQUgBEFAaiEEAkACfwJAAkADQCAEQdzrwABqKAIAIgYgBEHg68AAaigCACIQEM8DIgghAyABJQEgAyUBEBEhGxDaBCIDIBsmAQJAIAMlARASBEAgCCUBIAElARATRQ0BCyAEQcgAaiEEAkACQAJAAkAgEEEGaw4FAAcHBwEHC0EAIAZB4OrAAEEGENsHRQ0HGiAGQebqwABBBhDbBw0BQQEMBwtBAiAGQezqwABBChDbB0UNBhogBkH26sAAQQoQ2wcNAUEDDAYLQQQgBkGA68AAQQYQ2wdFDQUaIAZBhuvAAEEGENsHDQNBBQwFCyAGQZLrwABBChDbBw0DQQcMBAsgA0GECE8EQCADEJsHCyAIQYQITwRAIAgQmwcLIARBCGoiBA0ACyAFIQMMAwtBBiAGQYzrwABBBhDbB0UNARoLQQgLIQUgCEGECE8EQCAIEJsHCwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAUOCAECAwQFBgcIAAsgA0GECEkNESADEJsHDBELIAkNByACIAM2AgQgAkEIaiADEK8KAn0gAigCCCIFBEAgAisDECITtkMAAIA/QwAAgL8gE71CAFkbmAwBCyACQQRqIAJBH2pB2OfAABCAA74LIRQgA0GECE8EQCADEJsHCyAFRQ0IQQEhCQwQCyAKDQ0gAiADNgIEIAJBCGogAxCvCgJ9IAIoAggiBQRAIAIrAxAiE7ZDAACAP0MAAIC/IBO9QgBZG5gMAQsgAkEEaiACQR9qQdjnwAAQgAO+CyEVIANBhAhPBEAgAxCbBwsgBQRAQQEhCgwQCyAAIBU4AgBBACEEDBILIAsNCyACIAM2AgQgAkEIaiADEK8KAn0gAigCCCIFBEAgAisDECITtkMAAIA/QwAAgL8gE71CAFkbmAwBCyACQQRqIAJBH2pB2OfAABCAA74LIRYgA0GECE8EQCADEJsHCyAFBEBBASELDA8LIAAgFjgCAEEAIQQMEQsgDA0JIAIgAzYCBCACQQhqIAMQrwoCfSACKAIIIgUEQCACKwMQIhO2QwAAgD9DAACAvyATvUIAWRuYDAELIAJBBGogAkEfakHY58AAEIADvgshFyADQYQITwRAIAMQmwcLIAUEQEEBIQwMDgsgACAXOAIAQQAhBAwQCyANDQcgAiADNgIEIAJBCGogAxCvCgJ9IAIoAggiBQRAIAIrAxAiE7ZDAACAP0MAAIC/IBO9QgBZG5gMAQsgAkEEaiACQR9qQdjnwAAQgAO+CyEYIANBhAhPBEAgAxCbBwsgBQRAQQEhDQwNCyAAIBg4AgBBACEEDA8LIA4NBSACIAM2AgQgAkEIaiADEK8KAn0gAigCCCIFBEAgAisDECITtkMAAIA/QwAAgL8gE71CAFkbmAwBCyACQQRqIAJBH2pB2OfAABCAA74LIRkgA0GECE8EQCADEJsHCyAFBEBBASEODAwLIAAgGTgCAEEAIQQMDgsgDw0DIAIgAzYCBCACQQhqIAMQrwoCfSACKAIIIgUEQCACKwMQIhO2QwAAgD9DAACAvyATvUIAWRuYDAELIAJBBGogAkEfakHY58AAEIADvgshGiADQYQITwRAIAMQmwcLIAUEQEEBIQ8MCwsgACAaOAIAQQAhBAwNCyAHQQJHBEAgAEGS68AAQQoQngc2AgAMCQsgAiADNgIIAkAgAxC6CiIHQf///wdHIgUEQCAFIAdBAEdxIREMAQsgAkEIaiACQR9qQYyGwQAQgAMhEgsgA0GECE8EQCADEJsHCyAFRQRAIAAgEjYCAEEAIQQMDQsgESEHDAkLIABB4OrAAEEGEJ4HNgIADAcLIAAgFDgCAEEAIQQMCgsgAEGM68AAQQYQngc2AgAMBQsgAEGG68AAQQYQngc2AgAMBAsgAEGA68AAQQYQngc2AgAMAwsgAEH26sAAQQoQngc2AgAMAgsgAEHs6sAAQQoQngc2AgAMAQsgAEHm6sAAQQYQngc2AgALQQEhBAwDCyAEQcAARw0BCwsgCUUEQCAAQeDqwABBBhCdBzYCAEEAIQQMAQsgCkUEQCAAQebqwABBBhCdBzYCAEEAIQQMAQsgC0UEQCAAQezqwABBChCdBzYCAEEAIQQMAQsgDEUEQCAAQfbqwABBChCdBzYCAEEAIQQMAQsgDUUEQCAAQYDrwABBBhCdBzYCAEEAIQQMAQsgDkUEQCAAQYbrwABBBhCdBzYCAEEAIQQMAQsgD0UEQCAAQYzrwABBBhCdBzYCAEEAIQQMAQsgB0ECRgRAIABBkuvAAEEKEJ0HNgIAQQAhBAwBCyAAIAc6ABwgACAaOAIYIAAgGTgCFCAAIBg4AhAgACAXOAIMIAAgFjgCCCAAIBU4AgQgACAUOAIAIAEiA0GDCEsNAQwCCyAAQQI6ABwgAUGECE8EQCABEJsHCyAEQQFzIANBhAhJcg0BCyADEJsHCyACQSBqJAALiA4CDn8FfSACIAFBAnRBBGsiCmohDSAAIApqIQsgACABQQF2Ig9BAnRqIgpBBGshDCADQQRqIRADQEMAAIA/IRMCfwJAIAooAgAiBCAQKAIAIgMoAggiBkkEQCAAKAIAIQkgAygCBCIIIARBGGxqIgQtABMiBSAELQASIgcgBC0AESIOIAcgDksbIgcgBSAHSxsiBQR9QwAAQMEgAyoCRCADLQBYQQJGIgcbIhJDAAAQQSADKgJIIAcbIBKTQwAAfkOVIAVBAWtB/wFxs5SSEIkEIhIgEpIFQwAAAAALIRUgBEEMai8BACIFQf//AXFFBEAgBUEQdAwDCyAFQf8HcSEEIAVBgIACcSEHIAVBgPgBcSIFQYD4AUYEQCAHQRB0IgVBgICA/AdyIARFDQMaIAUgBEENdHJBgICA/gdyDAMLIAdBEHQhByAFRQ0BIAVBDXRBgICA/ABxIARBDXRyQYCAgMADaiAHcgwCCyAEIAZB3LvHABCMBwALIAQgBGdBEGsiBEH//wNxQQhqdEH///8DcSAHQYCAgNgDciAEQRd0a3ILviISQwAAgD9eBEAgEhDGBUNU+C1AlEMAAIA/kpEhEwtDAACAPyESAn8CQCAGIAlLBEAgCCAJQRhsaiIELQATIgUgBC0AEiIGIAQtABEiCSAGIAlLGyIGIAUgBksbIgUEfUMAAEDBIAMqAkQgAy0AWEECRiIGGyIUQwAAEEEgAyoCSCAGGyAUk0MAAH5DlSAFQQFrQf8BcbOUkhCJBCIUIBSSBUMAAAAACyEUIARBDGovAQAiBEH//wFxRQRAIARBEHQMAwsgBEH/B3EhAyAEQYCAAnEhBSAEQYD4AXEiBEGA+AFGBEAgBUEQdCIEQYCAgPwHciADRQ0DGiAEIANBDXRyQYCAgP4HcgwDCyAFQRB0IQUgBEUNASAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogBXIMAgsgCSAGQdy7xwAQjAcACyADIANnQRBrIgNB//8DcUEIanRB////A3EgBUGAgIDYA3IgA0EXdGtyC74iFkMAAIA/XgRAIBYQxgVDVPgtQJRDAACAP5KRIRILIAIgCiAAIBUgE5QiEyATWyATIBQgEpRgRXEiBxsoAgA2AgBDAACAPyETAn8CQCALKAIAIgQgECgCACIDKAIIIgZJBEAgDCgCACEJIAMoAgQiDiAEQRhsaiIELQATIgUgBC0AEiIIIAQtABEiESAIIBFLGyIIIAUgCEsbIgUEfUMAAEDBIAMqAkQgAy0AWEECRiIIGyISQwAAEEEgAyoCSCAIGyASk0MAAH5DlSAFQQFrQf8BcbOUkhCJBCISIBKSBUMAAAAACyEVIARBDGovAQAiBUH//wFxRQRAIAVBEHQMAwsgBUH/B3EhBCAFQYCAAnEhCCAFQYD4AXEiBUGA+AFGBEAgCEEQdCIFQYCAgPwHciAERQ0DGiAFIARBDXRyQYCAgP4HcgwDCyAIQRB0IQggBUUNASAFQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogCHIMAgsgBCAGQdy7xwAQjAcACyAEIARnQRBrIgRB//8DcUEIanRB////A3EgCEGAgIDYA3IgBEEXdGtyC74iEkMAAIA/XgRAIBIQxgVDVPgtQJRDAACAP5KRIRMLQwAAgD8hEgJ/AkAgBiAJSwRAIA4gCUEYbGoiBC0AEyIFIAQtABIiBiAELQARIgkgBiAJSxsiBiAFIAZLGyIFBH1DAABAwSADKgJEIAMtAFhBAkYiBhsiFEMAABBBIAMqAkggBhsgFJNDAAB+Q5UgBUEBa0H/AXGzlJIQiQQiFCAUkgVDAAAAAAshFCAHRSEGIARBDGovAQAiBEH//wFxRQRAIARBEHQMAwsgBEH/B3EhAyAEQYCAAnEhBSAEQYD4AXEiBEGA+AFGBEAgBUEQdCIEQYCAgPwHciADRQ0DGiAEIANBDXRyQYCAgP4HcgwDCyAFQRB0IQUgBEUNASAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogBXIMAgsgCSAGQdy7xwAQjAcACyADIANnQRBrIgNB//8DcUEIanRB////A3EgBUGAgIDYA3IgA0EXdGtyC74iFkMAAIA/XgRAIBYQxgVDVPgtQJRDAACAP5KRIRILIAdBAnQgCmohCiAGQQJ0IABqIQAgAkEEaiECIA0gDCALIBUgE5QiEyATWyATIBQgEpRgRXEiAxsoAgA2AgAgDCADQQJ0IgNrIQwgAyALakEEayELIA1BBGshDSAPQQFrIg8NAAsgDEEEaiEDIAFBAXEEfyACIAAgCiAAIANJIgEbKAIANgIAIAogACADT0ECdGohCiAAIAFBAnRqBSAACyADRyAKIAtBBGpHckUEQA8LEIAIAAvnEAILfwF+IwBBIGsiAyQAAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiBEGAgICAeHMgBEEAThtBFGsOAgECAAsgASADQRRqQeTjwAAQlQghASAAQYCAgIB4NgIAIAAgATYCBAwHCwJAAkACfwJAIAEoAgwiCARAAkAgASgCCCIFKAIAQZSAgIB4RgRAAkAgBSgCDCIEBEAgA0EEaiAFKAIIEKgDIAMoAgQiAUGAgICAeEcNASADKAIIIQQMBwtBACADQRRqQYTiwAAQ2wYhBAwGCyADKAIIIQIgBEEBRg0BIANBATYCBCAEQQFrQf////8AcUEBaiADQQRqQeiVwQAQ2wYhBCABRQ0FIAIgAUEBEKIHDAULIAUgA0EUakGE4sAAEJUIIQQMBAsgCEEBRg0BIAMoAgwhCUGAgICAeCEGAkACfwJAAkBBFSAFQRBqIgooAgAiC0GAgICAeHMgC0EAThtBEGsOAwMBAwALIANBBGogChCoA0GBgICAeCADKAIEIgQgBEGBgICAeEwbDAELIANBBGogBSgCFBCoA0GBgICAeCADKAIEIgQgBEGBgICAeEwbCyEGIAMoAgwhByADKAIIIgQgBkH/////B2pBAkkNAxoLIAhBAkYNBCADQQI2AgQgCEH+////AGpB/////wBxQQJqIANBBGpB6JXBABDbBiEFIABBgICAgHg2AgAgACAFNgIEIAEEQCACIAFBARCiBwsgBkGAgICAeHJBgICAgHhGDQsgBCAGQQEQogcMCwtBAEHs/cAAQYD9wAAQ2wYhBAwCC0EBQez9wABBgP3AABDbBgshBCABRQ0AIAJBBGsoAgAiBkF4cSIFQQRBCCAGQQNxIgYbIAFqSQ0KIAZBACAFIAFBJ2pLGw0JIAIQogILIAAgBDYCBCAAQYCAgIB4NgIADAcLIAAgBzYCFCAAIAQ2AhAgACAGNgIMIAAgCTYCCCAAIAI2AgQgACABNgIADAYLIAEoAgghBCABKAIEIQEgA0IANwIMIAMgATYCBCADIAEgBEEFdGoiCjYCCCAERQRAQYGAgIB4IQUMAgtBgICAgHghB0GBgICAeCEFA0AgAyABQSBqIgQ2AgQgAyADKAIQQQFqNgIQIAMgAUEQaiILNgIMAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiAkGAgICAeHMgAkEAThtBAWsODwAGBgEGBgYGBgYGAgMEBQYLIAEtAAQiAkUNCEEBQQIgAkEBRhshAgwLCyABKQMIIg1QDQdBAUECIA1CAVEbIQIMCgsgASgCCCECIAEoAgxBBWsOBAULCwcLCyABKAIEIQICQCABKAIIQQVrDgQECwsACwsgAikAAELl3I37xqyat+cAUQ0JDAoLIAEoAgghAgJAAkAgASgCDEEFaw4EAAsLAQsLIAItAABB5gBHDQogAi0AAUHpAEcNCiACLQACQewARw0KIAItAANB5QBHDQogAi0ABEHzAEcNCgwFCyACLQAAQeUARw0JIAItAAFB7gBHDQkgAi0AAkHjAEcNCSACLQADQe8ARw0JIAItAARB5ABHDQkgAi0ABUHpAEcNCSACLQAGQe4ARw0JIAItAAdB5wBGDQgMCQsgASgCBCECAkACQCABKAIIQQVrDgQACgoBCgsgAi0AAEHmAEcNCSACLQABQekARw0JIAItAAJB7ABHDQkgAi0AA0HlAEcNCSACLQAEQfMARw0JDAQLIAItAABB5QBHDQggAi0AAUHuAEcNCCACLQACQeMARw0IIAItAANB7wBHDQggAi0ABEHkAEcNCCACLQAFQekARw0IIAItAAZB7gBHDQggAi0AB0HnAEYNBwwICyABIANBFGpB5OTAABCVCCEBDA0LIAJBkP3AAEEFENsHDQYMAQsgAkGQ/cAAQQUQ2wcNBQsgB0GAgICAeEYNAUGQ/cAAQQUQnwchAQwKCyACKQAAQuXcjfvGrJq35wBRDQIMAwsgA0EUaiADQQRqELIFIAMoAhghASADKAIUIgdBgICAgHhGBEBBgICAgHghBwwJCyADKAIcIQwgAygCCCEKIAMoAgQhBCABIQYMBAsgAkECRg0BCyAFQYGAgIB4Rg0BQcj9wABBCBCfByEBIAVBgICAgHhyQYCAgIB4Rg0IDAcLIANBADYCDAwBCyADQQA2AgxBgICAgHghBQJ/AkACQEEVIAsoAgAiAkGAgICAeHMgAkEAThtBEGsOAwMBAwALIANBFGogCxCoAyAIIAMoAhwgAygCFCIBQYCAgIB4RhshCEGBgICAeCABIAFBgYCAgHhMGwwBCyADQRRqIAEoAhQQqAMgCCADKAIcIAMoAhQiAUGAgICAeEYbIQhBgYCAgHggASABQYGAgIB4TBsLIQUgAygCGCIJIQEgBUGBgICAeEYNBgsgCiAEIgFHDQALDAALIAdBgICAgHhGDQAgACAINgIUIAAgCTYCECAAIAw2AgggACAGNgIEIAAgBzYCACAAQYCAgIB4IAUgBUGBgICAeEYbNgIMDAQLQYCAgIB4IQdBkP3AAEEFEJwHIQELIAVFIAVBgoCAgHhIcg0BCyAJQQRrKAIAIgRBeHEiAkEEQQggBEEDcSIEGyAFakkNAyAEQQAgAiAFQSdqSxsNAiAJEKICCyAHQYCAgIB4ckGAgICAeEcEQCAGQQRrKAIAIgRBeHEiBUEEQQggBEEDcSIEGyAHakkNAyAEQQAgBSAHQSdqSxsNAiAGEKICCyAAQgA3AhAgACABNgIEIABBgICAgHg2AgALIANBIGokAA8LQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC7QPAgl/BH4jAEHgAmsiASQAAkACQAJAIAAtAIAERQRAIAAoApABIgJBAkcNAiAAKAIAQQJHDQIgACgCuAIiA0EDSw0BQQAhAgwDCyAANQK4AiEKIABBADYCuAIgACAKIAApA3B8NwNwDAILIABBkAFqIQggASAAKAK0AiIEKAAAIgI2AhACQAJAAkACQAJAAkACQAJAAkAgAkHSgpGaBEcEQCACQdKCkYIDRw0CIANBCEkNASADIAQoAAQiBUEHakF4cUEIaiICSQ0BIAVBCGoiBiADSyAFQXdLcg0DIAFBADYC2AIgASAFNgLUAiABIARBCGo2AtACIAFBIGogAUHQAmoQWSABKAIkIQUgASgCICIHQQJGBEAgBRDOByECDAwLIAFBsAFqIAFBKGpBgAH8CgAAIABBADYCuAIgASAFNgKsASABIAc2AqgBIAMgAmshBgJAAkAgAkUNACACIANGDQEgBkUNACAEIAIgBGogBvwKAAALIAAgBjYCuAILIAAgACkDcCACrXwiCjcDeCAAIAo3A3AgASgCpAJBAUcNBCAAIAEoApQCIgQ2ApwCIAAgASgCtAEgASgCwAEiAyABKAKwARsiAjYCoAIgAkUNBSAEIAMgAm4iBCACIARsIANHaiICRgRAIAEtAKgCIQIgASAFQQAgB0EBcRs2AiQgASADNgIgIAEgAkEBcToAKCAAQbwCaiABQSBqEOEDAkAgACgCkAFBAkYNACAAKAL4ASEEIAAoAvwBIgMEQCAEQSRqIQIDQCACQQRrKAIAIgVBgICAgHhyQYCAgIB4RwRAIAIoAgAiBkEEaygCACIHQXhxIglBBEEIIAdBA3EiBxsgBWpJDQsgB0EAIAkgBUEnaksbDQwgBhCiAgsgAkEwaiECIANBAWsiAw0ACwsgACgC9AEiAwRAIAQgA0EwbEEIEKIHCyAAKAKAAiIDQYCAgIB4ckGAgICAeEYNACAAKAKEAiADQQEQogcLIAggAUGoAWpBiAH8CgAADAoLIAEgAjYCzAIgAUECNgIkIAFB6MfBADYCICABQgI3AiwgAUKAgICAECIKIABBnAJqrYQ3A9gCIAEgCiABQcwCaq2ENwPQAiABIAFB0AJqNgIoIAFBwAJqIgAgAUEgahCxBgwICyABQQhqIAAQtwIgAS0ACEUEQCABLQAJDQlBACECDAsLIAEoAgwhAgwKC0EAIQIMCQsgAUEBNgI0IAFBzMjBADYCMCABQQE2AiQgAUHEyMEANgIgIAFBATYCLCABIAFBEGqtQoCAgICQBIQ3A9ACIAEgAUHQAmo2AiggAUEUaiIAIAFBIGoQsQYgABCOByECDAgLQQggBiADQZzIwQAQ6gcACyABQQE2AiQgAUGUyMEANgIgIAFCATcCLCABIAFBpAJqrUKAgICAEIQ3A9ACIAEgAUHQAmo2AiggAUG0AmoiACABQSBqELEGDAMLQbTHwQAQgQgAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgABCOByECIAFBqAFqEM8EDAILIAgoAgAhAgsCQAJAAkACQAJ/AkAgAkECRwRAIAAoApgCIAAoApwCTw0GIAAoAgBBAkYNAUEADAILIAFBqAFqIAAQNiABKAKsAUEAIAEtAKgBIgMbIQIgAw0GIAEtAKkBQQFxRQ0GIAApA4gBIgwgACkDcCIKWARAIAAoArgCIQMMBQsgACgCuAIhBEEAIQMgAEEANgK4AiAEIAwgCn0iCyAErSINIAsgDVQbIgunIgVrIQIgC1BFBEAgBCAFRg0EIAJFDQMgACgCtAIiAyADIAVqIAL8CgAADAMLIAQgBUcNAgwDC0EBCyECA0ACQAJAAkACQAJAAkACQAJAAkACQAJAIAJFBEAgAUGoAWogABA2IAEoAqwBIQMgAS0AqAEiAg0CIAEtAKkBQQFxRQ0CIAApA4gBIgogACkDcCIMVg0BDAYLIAFBqAFqIAAQtwIgAS0AqAFBAUYEQCABKAKsASECDBELIAEtAKkBDQlBACECDBALIAAoArgCIQMgAEEANgK4AiADIAogDH0iCyADrSINIAsgDVQbIgunIgJrIQQgC1ANASACIANGDQMgBEUNAiAAKAK0AiIDIAIgA2ogBPwKAAAMAgsgA0EAIAIbIQIMDgsgAiADRg0BCyAAIAQ2ArgCCyAAIAsgDHwiDDcDcCAKIAxWDQELAkAgACgCAEECRg0AIAAoAlwiA0UNACAAKAJgIgJBBGsoAgAiBEF4cSIFIANBKGwiA0EEQQggBEEDcSIEG2pJDQIgBEEAIAUgA0EnaksbDQMgAhCiAgsgAEECNgIAIAAgACgCmAJBAWoiAzYCmAIgAyAAKAKcAkkNBAwJC0EAIQIMCQtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQQAhAgwBC0EBIQIMAAsACyAAIAI2ArgCIAIhAwsgACAKIAt8Igo3A3AgCiAMWg0AQQAhAgwCC0EAIQIgAEEANgK4AiAAQQE6AIAEIAAgCiADrXw3A3AMAQsgAEEBOgCABCAANQK4AiEKQQAhAiAAQQA2ArgCIAAgCiAAKQNwfDcDcAsgAUHgAmokACACC5sMAgh/BH4gACgCFCEDIAAoAhAhBSAAKQMIIQsgACgCBCEJIAAoAgAhCCAAKAIYIgJBAEgEQCAFIAlJBEAgCCAFQQJ0aigAACEGCyAGQRh0IAZBgP4DcUEIdHIgBkEIdkGA/gNxIAZBGHZycq0gC0IghoQhCyAFQQFqIQUgAkEgaiECCyALIAMgA0EBdiIDayIErSACQT9xrYYiDEIAIAsgDFoiBht9IQogAiADIAQgBhsiA2ciAkEYayIEQQAgAiAETxsiBGshAiADIAR0IQQCQCABQf8BcUECSQ0AIAJBAEgEQEEAIQYgBSAJSQRAIAggBUECdGooAAAhBgsgBkEYdCAGQYD+A3FBCHRyIAZBCHZBgP4DcSAGQRh2cnKtIApCIIaEIQogBUEBaiEFIAJBIGohAgsgCiAEIARBAXYiBmsiBK0gAkE/ca2GIg1CACAKIA1aIgMbfSEKIAIgBiAEIAMbIgZnIgJBGGsiBEEAIAIgBE8bIgRrIQIgBiAEdCEEIANBAkEAIAsgDFobciEGIAFB/wFxQQJGDQAgAkEASARAQQAhAyAFIAlJBEAgCCAFQQJ0aigAACEDCyADQRh0IANBgP4DcUEIdHIgA0EIdkGA/gNxIANBGHZycq0gCkIghoQhCiAFQQFqIQUgAkEgaiECCyAKIAQgBEEBdiIEayIHrSACQT9xrYYiC0IAIAogC1oiAxt9IQogAiAEIAcgAxsiBGciAkEYayIHQQAgAiAHTxsiB2shAiAEIAd0IQQgAyAGQQF0ciEGIAFB/wFxQQRJDQAgAkEASARAQQAhAyAFIAlJBEAgCCAFQQJ0aigAACEDCyADQRh0IANBgP4DcUEIdHIgA0EIdkGA/gNxIANBGHZycq0gCkIghoQhCiAFQQFqIQUgAkEgaiECCyAKIAQgBEEBdiIEayIHrSACQT9xrYYiC0IAIAogC1oiAxt9IQogAiAEIAcgAxsiBGciAkEYayIHQQAgAiAHTxsiB2shAiAEIAd0IQQgAyAGQQF0ciEGIAFB/wFxQQRGDQAgAkEASARAQQAhAyAFIAlJBEAgCCAFQQJ0aigAACEDCyADQRh0IANBgP4DcUEIdHIgA0EIdkGA/gNxIANBGHZycq0gCkIghoQhCiAFQQFqIQUgAkEgaiECCyAKIAQgBEEBdiIEayIHrSACQT9xrYYiC0IAIAogC1oiAxt9IQogAiAEIAcgAxsiBGciAkEYayIHQQAgAiAHTxsiB2shAiAEIAd0IQQgAyAGQQF0ciEGIAFB/wFxQQZJDQAgAkEASARAQQAhAyAFIAlJBEAgCCAFQQJ0aigAACEDCyADQRh0IANBgP4DcUEIdHIgA0EIdkGA/gNxIANBGHZycq0gCkIghoQhCiAFQQFqIQUgAkEgaiECCyAKIAQgBEEBdiIEayIHrSACQT9xrYYiC0IAIAogC1oiAxt9IQogAiAEIAcgAxsiBGciAkEYayIHQQAgAiAHTxsiB2shAiAEIAd0IQQgAyAGQQF0ciEGIAFB/wFxQQZGDQAgAkEASARAQQAhAyAFIAlJBEAgCCAFQQJ0aigAACEDCyADQRh0IANBgP4DcUEIdHIgA0EIdkGA/gNxIANBGHZycq0gCkIghoQhCiAFQQFqIQUgAkEgaiECCyAKIAQgBEEBdiIEayIHrSACQT9xrYYiC0IAIAogC1oiAxt9IQogAiAEIAcgAxsiBGciAkEYayIHQQAgAiAHTxsiB2shAiAEIAd0IQQgAyAGQQF0ciEGIAFB/wFxQQhJDQAgAkEASARAQQAhAyAFIAlJBEAgCCAFQQJ0aigAACEDCyADQRh0IANBgP4DcUEIdHIgA0EIdkGA/gNxIANBGHZycq0gCkIghoQhCiAFQQFqIQUgAkEgaiECCyAKIAQgBEEBdiIEayIIrSACQT9xrYYiC0IAIAogC1oiAxt9IQogAiAEIAggAxsiBGciAkEYayIIQQAgAiAITxsiCGshAiAEIAh0IQQgAyAGQQF0ciEGCyAFIAlNBEAgACACNgIYIAAgBDYCFCAAIAU2AhAgACAKNwMIIAYPCyAAIAEQ8AcLyA0CDH8BfiMAQdAAayIIJAAgCEEQaiAAKAIEIgYgACgCCCICQficxgBBCRDhAQJAAkACQCAIKAIQQQFGBEAgCEEYaiEHIAgoAkwhAyAIKAJIIQkgCCgCRCEEIAgoAkAhBSAIKAI0QX9GDQEgCEEEaiAHIAUgBCAJIANBABDeAwwCCyAIAn9BACAILQAeDQAaIAgtAB0hCgJAIAgoAhgiAQRAIAgoAkAhDAJAIAgoAkQiBSABTQRAIAEgBUYNAQwHCyABIAxqLAAAQUBIDQYLIAEgDGoiB0EBaywAACIEQQBIBEAgBEE/cQJ/IAdBAmstAAAiCcAiC0G/f0oEQCAJQR9xDAELIAtBP3ECfyAHQQNrLQAAIgPAIglBv39KBEAgA0EPcQwBCyAJQT9xIAdBBGstAABBB3FBBnRyC0EGdHILQQZ0ciEECyAKQQFxDQECf0F/IARBgAFJDQAaQX4gBEGAEEkNABpBfUF8IARBgIAESRsLIAFqIgFFBEBBACEBDAILAkAgASAFTwRAIAEgBUcNBwwBCyABIAxqLAAAQUBIDQYLIAEgDGoiCUEBaywAAEEATg0BIAlBAmssAAAaDAELQQAiASAKQQFxRQ0BGgsgCCABNgIIQQELNgIEDAELIAhBBGogByAFIAQgCSADQQEQ3gMLAkACQAJAAkAgCCgCBEEBRgRAIAgoAggiCUEJaiIFIQEDQAJAIAFFDQAgASACTwRAIAEgAkYNAQwHCyABIAZqLAAAQUBIDQYLAkAgASACRgR/IAIFIAEgBmotAABBMGtB/wFxQQpJDQEgAQshBCABRQ0DAkAgAiAETQRAIAIgBEcNAQwFCyAEIAZqLAAAQb9/Sg0ECyAGIAIgBCACQZSdxgAQuwkACyABQQFqIQEMAAsAC0EAIQoMAQtBACEKIAIgBGtBCEkNACAEIAZqIgcpAABCoMa949aum7cgUg0AIARBCGoiCyEDAkACQAJAAkADQAJAIANFDQAgAiADTQRAIAIgA0YNAQwICyADIAZqLAAAQUBIDQcLAkACQAJAIAIgA0YEQCACIQMMAQsgAyAGai0AAEEwa0H/AXFBCkkNASACIANLDQgLIAQgBUkNAyAFRQ0BIAUgBmosAABBv39KDQEMAwsgA0EBaiEDDAELCyABBEAgBywAAEFASA0BCyAFIAZqIQECQAJAAkAgBCAFayIEDgIHAAELQQEhByABLQAAQStrDgMGAQYBCyABLQAAQStGBEAgBEEBayEHIAFBAWohASAEQQpJDQEMAwsgBCEHIARBCU8NAgtBACEEA0AgAS0AAEEwayIFQQlLDQQgAUEBaiEBIAUgBEEKbGohBCAHQQFrIgcNAAsMAgsgBiACIAUgBEG8ncYAELsJAAtBACEEA0AgB0UNASABLQAAQTBrIgVBCUsNAiAErUIKfiINQiCIpw0CIAFBAWohASAHQQFrIQcgBSANp2oiBCAFTw0ACwwBCwJAAkAgAyALSQ0AIAsEQCACIAtNBEAgAiADRg0DDAILIAIgA0cNASAGIAtqLAAAQUBIDQEMAgsgAiADRg0BCyAGIAIgCyADQcydxgAQuwkACyAGIAtqIQECQAJAAkACQAJAIAIgC2siBQ4CBgABC0EBIQMgAS0AAEEraw4DBQEFAQsgAS0AAEErRgRAIAVBAWshAyABQQFqIQEgBUEKSQ0BDAILIAUiA0EJTw0BC0EAIQUDQCABLQAAQTBrIgdBCUsNBCABQQFqIQEgByAFQQpsaiEFIANBAWsiAw0ACwwBC0EAIQUDQCADRQ0BIAEtAABBMGsiB0EJSw0DIAWtQgp+Ig1CIIinDQMgAUEBaiEBIANBAWshAyAHIAcgDadqIgVNDQALDAILQQEhCiACIAlJDQEgCUUEQCAJIQIMAgsgAiAJTQRAIAkhAgwCCyAJIgIgBmosAABBv39KDQFB5J/GAEEwQdydxgAQ6wcACwsCQAJAAkACQCAAKAIAIgMgAk0NACACRQRAIAZBBGsoAgAiAEF4cSIJQQRBCCAAQQNxIgAbIANqSQ0CIABBACAJIANBJ2pLGw0DIAYQogJBASEGDAELIAYgA0EBIAIQuwIiBkUNAwtBFBBxIgBFDQIgACACNgIIIAAgBjYCBCAAQQA2AgAgACAFQQAgChs2AhAgACAEQQAgChs2AgwgCEHQAGokACAADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwsACyAGIAIgAyACQaydxgAQuwkACyAGIAIgASACQYSdxgAQuwkACyAMIAVBACABQfylxgAQuwkAC4kOAw5/BH4BeyMAQSBrIgokAAJAAkACQCAAKAIMIgsgAWoiASALTwRAAkAgACgCBCIIIAhBAWoiCUEDdiIDQQdsIg4gCEEISRsiBkEBdiABSQRAAkACQAJAAkACfyAGQQFqIgMgASABIANJGyIBQQ9PBEAgAUH/////AUsNC0F/IAFBA3RBB25BAWtndkEBagwBC0EEIAFBCHFBCGogAUEESRsLIgGtQhR+IhFCIIinDQAgEadBB2pBeHEiAyABQQhqIgZqIgUgA0kgBUH4////B0tyDQAgBRBxIgVFDQEgAyAFaiEEIAYEQCAEQf8BIAb8CwALIAFBAWsiCSABQQN2QQdsIAlBCEkbIQwgACgCACEFIAsNAkEAIQsMAwsgCkEANgIYIApBATYCDCAKQcS1xAA2AgggCkIENwIQIApBCGpBmLXEABCNCAsACyAEQQhqIQ0gBUEUayEOIAUpAwBCf4VCgIGChIiQoMCAf4MhESACKQMIIRMgAikDACEUQQAhASALIQIgBSEGA0AgEVAEQANAIAFBCGohASAGQQhqIgYpAwBCgIGChIiQoMCAf4MiEUKAgYKEiJCgwIB/UQ0ACyARQoCBgoSIkKDAgH+FIRELIAQgCSAUIBMgDiAReqdBA3YgAWoiD0FsbGoiA0EEaigCACADQQhqKAIAEJUEpyIQcSIDaikAAEKAgYKEiJCgwIB/gyISUARAQQghBwNAIAMgB2ohAyAHQQhqIQcgBCADIAlxIgNqKQAAQoCBgoSIkKDAgH+DIhJQDQALCyARQgF9IBGDIREgBCASeqdBA3YgA2ogCXEiA2osAABBAE4EQCAEKQMAQoCBgoSIkKDAgH+DeqdBA3YhAwsgAyAEaiAQQRl2Igc6AAAgDSADQQhrIAlxaiAHOgAAIAQgA0F/c0EUbGoiA0EQaiAFIA9Bf3NBFGxqIgdBEGooAAA2AAAgAyAH/QAAAP0LAAAgAkEBayICDQALCyAAIAk2AgQgACAENgIAIAAgDCALazYCCCAIRQ0BIAggCEEUbEEbakF4cSIBakEJaiIARQ0BIAUgAWsiAUEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAGpJDQMgAkEAIAMgAEEnaksbDQQgARCiAgwBCyAAIAkEfyAAKAIAIQACQAJAIAMgCUEHcUEAR2oiBUECSQRAIAUhBgwBCyAFQQFxIQYgBUH+////A3EiBEEDdCEHIAQhAyAAIQEDQCABIAH9AAMAIhX9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gFf0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACABQRBqIQEgA0ECayIDDQALIAQgBUYNAQsgACAHaiEBA0AgASABKQMAIhFCf4VCB4hCgYKEiJCgwIABgyARQv/+/fv379+//wCEfDcDACABQQhqIQEgBkEBayIGDQALCwJAIAlBCE8EQCAAIAlqIAApAAA3AAAMAQsgCUUNACAAQQhqIAAgCfwKAAALIABBCGohBSACKQMIIRIgAikDACETQQEhA0EAIQEDQCABIQYgAyEBAkAgACAGaiIMLQAAQYABRw0AIAAgBkF/c0EUbGohAyAAIAZBbGxqIgJBDGshDyACQRBrIRADQCAIIBMgEiAQKAIAIA8oAgAQlQSnIg1xIgQhAiAAIARqKQAAQoCBgoSIkKDAgH+DIhFQBEBBCCEHA0AgAiAHaiECIAdBCGohByAAIAIgCHEiAmopAABCgIGChIiQoMCAf4MiEVANAAsLIAAgEXqnQQN2IAJqIAhxIgJqLAAAQQBOBEAgACkDAEKAgYKEiJCgwIB/g3qnQQN2IQILIAIgBGsgBiAEa3MgCHFBCE8EQCAAIAJqIgQtAAAgBCANQRl2IgQ6AAAgBSACQQhrIAhxaiAEOgAAIAAgAkF/c0EUbGohAkH/AUYEQCAMQf8BOgAAIAUgCCAGQQhrcWpB/wE6AAAgAkEQaiADQRBqKAAANgAAIAIgA/0AAAD9CwAADAMLIAMoAAAhBCADIAIoAAA2AAAgAiAENgAAIAIoAAQhBCACIAMoAAQ2AAQgAyAENgAEIAMoAAghBCADIAIoAAg2AAggAiAENgAIIAIoAAwhBCACIAMoAAw2AAwgAyAENgAMIAMoABAhBCADIAIoABA2ABAgAiAENgAQDAELCyAMIA1BGXYiAjoAACAFIAggBkEIa3FqIAI6AAALIAEgASAJSSICaiEDIAINAAsgCCAOIAhBCEkbBUEACyALazYCCAsgCkEgaiQADwsMAgtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIApBADYCGCAKQQE2AgwgCkHEtcQANgIIIApCBDcCECAKQQhqQZi1xAAQjQgAC8cNAQh/An8CQCACIANLBEAgASADQRJsaiIDLwEAIgJB//8BcUUEQCACQRB0DAMLIAJB/wdxIQEgAkGAgAJxIQUgAkGA+AFxIgJBgPgBRgRAIAVBEHQhAiACQYCAgPwHciABRQ0DGiACIAFBDXRyQYCAgP4HcgwDCyAFQRB0IQUgAkUNASACQQ10QYCAgPwAcSABQQ10ckGAgIDAA2ogBXIMAgsgAyACQfTAxwAQjAcACyAFQYCAgNgDciABZ0EQayICQRd0ayABIAJB//8DcUEIanRB////A3FyCyEBAn8gAy8BAiIFQf//AXFFBEAgBUEQdAwBCyAFQf8HcSECIAVBgIACcSEGIAVBgPgBcSIFQYD4AUYEQCAGQRB0IQUgBUGAgID8B3IgAkUNARogBSACQQ10ckGAgID+B3IMAQsgBkEQdCEGIAVBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAGciAFDQAaIAZBgICA2ANyIAJnQRBrIgVBF3RrIAIgBUH//wNxQQhqdEH///8DcXILIQUCfyADLwEEIgZB//8BcUUEQCAGQRB0DAELIAZB/wdxIQIgBkGAgAJxIQcgBkGA+AFxIgZBgPgBRgRAIAdBEHQhBiAGQYCAgPwHciACRQ0BGiAGIAJBDXRyQYCAgP4HcgwBCyAHQRB0IQcgBkENdEGAgID8AHEgAkENdHJBgICAwANqIAdyIAYNABogB0GAgIDYA3IgAmdBEGsiBkEXdGsgAiAGQf//A3FBCGp0Qf///wNxcgshBgJ/IAMvAQYiB0H//wFxRQRAIAdBEHQMAQsgB0H/B3EhAiAHQYCAAnEhCCAHQYD4AXEiB0GA+AFGBEAgCEEQdCEHIAdBgICA/AdyIAJFDQEaIAcgAkENdHJBgICA/gdyDAELIAhBEHQhCCAHQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogCHIgBw0AGiAIQYCAgNgDciACZ0EQayIHQRd0ayACIAdB//8DcUEIanRB////A3FyCyEHAn8gAy8BCCIIQf//AXFFBEAgCEEQdAwBCyAIQf8HcSECIAhBgIACcSEJIAhBgPgBcSIIQYD4AUYEQCAJQRB0IQggCEGAgID8B3IgAkUNARogCCACQQ10ckGAgID+B3IMAQsgCUEQdCEJIAhBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAJciAIDQAaIAlBgICA2ANyIAJnQRBrIghBF3RrIAIgCEH//wNxQQhqdEH///8DcXILIQgCfyADLwEKIglB//8BcUUEQCAJQRB0DAELIAlB/wdxIQIgCUGAgAJxIQogCUGA+AFxIglBgPgBRgRAIApBEHQhCSAJQYCAgPwHciACRQ0BGiAJIAJBDXRyQYCAgP4HcgwBCyAKQRB0IQogCUENdEGAgID8AHEgAkENdHJBgICAwANqIApyIAkNABogCkGAgIDYA3IgAmdBEGsiCUEXdGsgAiAJQf//A3FBCGp0Qf///wNxcgshCQJ/IAMvAQwiCkH//wFxRQRAIApBEHQMAQsgCkH/B3EhAiAKQYCAAnEhBCAKQYD4AXEiCkGA+AFGBEAgBEEQdCEKIApBgICA/AdyIAJFDQEaIAogAkENdHJBgICA/gdyDAELIARBEHQhBCAKQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogBHIgCg0AGiAEQYCAgNgDciACZ0EQayIKQRd0ayACIApB//8DcUEIanRB////A3FyCyEKAn8gAy8BDiIEQf//AXFFBEAgBEEQdAwBCyAEQf8HcSECIARBgIACcSELIARBgPgBcSIEQYD4AUYEQCALQRB0IQQgBEGAgID8B3IgAkUNARogBCACQQ10ckGAgID+B3IMAQsgC0EQdCELIARBDXRBgICA/ABxIAJBDXRyQYCAgMADaiALciAEDQAaIAtBgICA2ANyIAJnQRBrIgRBF3RrIAIgBEH//wNxQQhqdEH///8DcXILIQIgAAJ/IAMvARAiBEH//wFxRQRAIARBEHQMAQsgBEH/B3EhAyAEQYCAAnEhCyAEQYD4AXEiBEGA+AFGBEAgC0EQdCEEIARBgICA/AdyIANFDQEaIAQgA0ENdHJBgICA/gdyDAELIAtBEHQhCyAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogC3IgBA0AGiALQYCAgNgDciADZ0EQayIEQRd0ayADIARB//8DcUEIanRB////A3FyCzYCICAAIAI2AhwgACAKNgIYIAAgCTYCFCAAIAg2AhAgACAHNgIMIAAgBjYCCCAAIAU2AgQgACABNgIAC/sJAQd/IAAoAgQhAgJAAkAgACgCCCIFBEAgAiEBA0AgAUEoaigCACIGBEAgAUEsaigCACIHQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyAGakkNAyADQQAgBCAGQSdqSxsNBCAHEKICCyABEL8EIAFBQGshASAFQQFrIgUNAAsLIAAoAgAiAwRAIAJBBGsoAgAiAUF4cSIEIANBBnQiA0EEQQggAUEDcSIBG3JJDQEgAUEAIAQgA0EncksbDQIgAhCiAgsCQCAAKAKEASIBQYCAgIB4Rg0AIAEEQCAAKAKIASIEQQRrKAIAIgJBeHEiAyABQQN0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACADIAFBJ2pLGw0DIAQQogILIAAoApABIgEEQCAAKAKUASIEQQRrKAIAIgJBeHEiAyABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACADIAFBJ2pLGw0DIAQQogILIAAoApwBIgEEQCAAKAKgASIEQQRrKAIAIgJBeHEiAyABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACADIAFBJ2pLGw0DIAQQogILIAAoAqgBIgFFDQAgACgCrAEiBEEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKAIMIgEEQCAAKAIQIgRBBGsoAgAiAkF4cSIDIAFByABsIgFBBEEIIAJBA3EiAhtqSQ0BIAJBACADIAFBJ2pLGw0CIAQQogILIAAoAhgiAQRAIAAoAhwiBEEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKAIkIgEEQCAAKAIoIgRBBGsoAgAiAkF4cSIDIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCiAgsgACgCMCIBBEAgACgCNCIEQQRrKAIAIgJBeHEiAyABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACADIAFBJ2pLGw0CIAQQogILIAAoAjwiAQRAIAAoAkAiBEEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKAJIIgEEQCAAKAJMIgRBBGsoAgAiAkF4cSIDIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCiAgsgACgCVCIBBEAgACgCWCIEQQRrKAIAIgJBeHEiAyABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACADIAFBJ2pLGw0CIAQQogILIAAoAmAiAQRAIAAoAmQiBEEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKAJsIgEEQCAAKAJwIgRBBGsoAgAiAkF4cSIDIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCiAgsgACgCeCICBEAgACgCfCIDQQRrKAIAIgBBeHEiASACQQJ0IgJBBEEIIABBA3EiABtqSQ0BIABBACABIAJBJ2pLGw0CIAMQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL1A0CF38BeyABQeTRAGohEiABQYAEaiETIAFBgM8AaiEUIAFBgB1qIRUgAUGg0QBqIRYgAUGANmohFyABQe3RAGohGCMAQfAAayIIQTBqIRkgAS0A61EhBCAIQRhqIRECfwNAAkACQAJAAkACQAJAIARB/wFxIgsOAwABAgMLIBH9DAAAAAAAAAAAAAAAAAAAAAAiGv0LAwAgCCAa/QsDCEEAIQUgCEEsakEAQcQA/AsAA0AgASAFaiIDQbAEav0MHgMeAx4DHgMeAx4DHgMeAyIa/QsCACADQaAEaiAa/QsCACADQZAEaiAa/QsCACADQYAEaiAa/QsCACAFQUBrIgVBgBBHDQALQaACIQQgEyEMIBQhDwwDCyAR/QwAAAAAAAAAAAAAAAAAAAAAIhr9CwMAIAggGv0LAwhBACEFIAhBLGpBAEHEAPwLAANAIAEgBWoiA0GwHWr9DB4DHgMeAx4DHgMeAx4DHgMiGv0LAgAgA0GgHWogGv0LAgAgA0GQHWogGv0LAgAgA0GAHWogGv0LAgAgBUFAayIFQYAQRw0AC0EgIQQgFSEMIBYhDwwCCyAR/QwAAAAAAAAAAAAAAAAAAAAAIhr9CwMAIAggGv0LAwhBACEFIAhBLGpBAEHEAPwLAANAIAEgBWoiA0GwNmr9DB4DHgMeAx4DHgMeAx4DHgMiGv0LAgAgA0GgNmogGv0LAgAgA0GQNmogGv0LAgAgA0GANmogGv0LAgAgBUFAayIFQYAQRw0AC0ETIQQgFyEMIBghDwwCC0EDDAMLIAxBgBBqQQBBgAn8CwALQRwhCUEDIBIgC0EBdGovAQAiECAESw0BGiAQBEAgECEFIA8hBANAQQMgBC0AACIDQQ9LDQMaIAhBCGogA0EBdGoiAyADLwEAQQFqOwEAIARBAWohBCAFQQFrIgUNAAsLQQAhBEEBIQNBACEFQQAhCgNAAkACfyADRQRAIARBD0sNAiAEQQFqDAELIARBECAEayIGIAMgAyAGSxsiBiAEaiIHIAQgB0sbIgRBD0sNASAGIANrIQYDQCAGBEAgBkEBaiEGIARBAWoiBEEQRw0BDAMLC0EAIQMgBEEBagsgGSAEQQJ0aiAFIAhBCGogBEEBdGovAQAiBGpBAXQiBTYCACAEIApqIQohBAwBCwsgBUGAgARHBEBBASALQQJGIApB//8DcUEBS3INAhoLIAxBgBBqIQ1B//8DIQlBACEKA0AgCiAQSQRAIApBAWohBANAIAohCyAEIQoCQCALIA9qLQAAQQ9xIgdFDQAgCEEsaiAHQQJ0aiIDIAMoAgAiA0EBajYCAAJ/IANBf0EgIAdrdnEiA0GABE8EQCADQQh0IANBgP4DcUEIdnIiA0EEdkGPHnEgA0GPHnFBBHRyIgNBAnZBs+YAcSADQbPmAHFBAnRyIgNBAXZB1aoBcSADQdWqAXFBAXRyDAELIANBAXQvAZT/RAtB//8DcUEQIAdrdiEFIAdBCk0EQCAFQf8HSw0BIAdBCXQgC3IhA0EBIAd0IgZBAXQhCyAMIAVBAXRqIQQDQCAEIAM7AQAgBCALaiEEIAUgBmoiBUGACEkNAAsMAQsgDCAFQf8HcUEBdGoiAy8BACIGQZ4GRwR/IAkFIAMgCTsBACAJIgZBAmsLIQMCQCAHQQtGBEAgBUEJdiEODAELQQohCUEDIAVBCnYiDkEBcSAGQX9zakH//wNxIgRBvwRLDQYaIA0gBEEBdGoiBC8BACIGBH8gAwUgBCADOwEAIAMhBiADQQJrCyEEIAdBDUkEQCAEIQMMAQtBAyAFQQt2Ig5BAXEgBkF/c2pB//8DcSIDQb8ESw0GGiANIANBAXRqIgMvAQAiBgR/IAQFIAMgBDsBACAEIQYgBEECawshAyAHQQ1GDQBBAyAFQQx2Ig5BAXEgBkF/c2pB//8DcSIEQb8ESw0GGiANIARBAXRqIgQvAQAiBgR/IAMFIAQgAzsBACADIQYgA0ECawshBCAHQQ9HBEAgBCEDDAELQQMgBUENdiIOQQFxIAZBf3NqQf//A3EiA0G/BEsNBhogDSADQQF0aiIDLwEAIgYEQCAEIQMMAQsgAyAEOwEAIARBAmshAyAEIQYLIA5BAXZBAXEgBkF/c2pB//8DcSIEQb8ESwRAQQohCUEDDAYLIA0gBEEBdGogCzsBACADIQkMAwsgCiAKIBBJIgNqIQQgAw0ACwsLAkACQAJAIAEtAOtRIgMOAwABAgELIAJBADYCDEEMIQlBAQwDCyABIANBAWsiBDoA61EMAQsLIAJBADYCDEEKIQlBAQshBCAAIAk6AAEgACAEOgAAC6IOBAp/A30BewF+IwBB0ARrIgokAAJAAkACQAJAAnsgAxC5CiISBEBDAACAPyEUQwAAgD8hFUMAAIA/IRb9DAAAAAAAAIA/AABAwQAAEEEMAQsgCkHQAWogAxC1ASAKLQDsASINQQJGBEAgCigC0AEhCyAAQQA2AgAgACALNgIEQQEhDQwCCyAKQQ5qIApB7wFqLQAAOgAAIAogCi8A7QE7AQwgCioC6AEhFCAKKgLkASEVIAoqAuABIRYgCv0ABNABCyEXQQYhDAJAAkACQAJAAkAgASgCACILQYCAgIB4Rg0AIApBEGogASgCBCIOIAEoAggQkQUgCi0AEEEBRgRAIAooAhQhDCAKQQA2ApwDIApCgICAgBA3ApQDIApBnJPBADYC1AEgCkKggICADjcC2AEgCiAKQZQDajYC0AEgDCAKQdABahCvBA0CIAooApQDIQ0gCigCmAMiDyAKKAKcAxDsCCERIA0EQCAPQQRrKAIAIhBBeHEiE0EEQQggEEEDcSIQGyANakkNCSAQQQAgEyANQSdqSxsNCiAPEKICC0EAIQ0gAEEANgIAIAAgETYCBCAMIAwoAgAoAgARAwAgC0UNBiAOQQRrKAIAIgBBeHEiDEEEQQggAEEDcSIAGyALakkNCCAAQQAgDCALQSdqSxsNCSAOEKICDAYLIAotABEhDCALRQ0AIA5BBGsoAgAiAUF4cSIPQQRBCCABQQNxIgEbIAtqSQ0HIAFBACAPIAtBJ2pLGw0IIA4QogILQQQhAUEAIQtBABC2CSEQQQAhDkEEIQ8CQCAEQQFxRQ0AIApB0AFqIAUQlwYgCigC2AEhESAKKALUASEPIAooAtABIQ4gBUGECEkNACAFEJsHC0EAIQUCQCAGQQFxRQ0AIApB0AFqIAcQlwYgCigC2AEhBSAKKALUASEBIAooAtABIQsgB0GECEkNACAHEJsHC0EEIQdBACEGQQAhBAJAIAhBAXFFDQAgCkHQAWogCRCXBiAKKALYASEEIAooAtQBIQcgCigC0AEhBiAJQYQISQ0AIAkQmwcLIAogDToA7AIgCiAUOALoAiAKIBU4AuQCIAogFjgC4AIgCiAX/QsC0AIgCkGAgICAeDYCxAIgCkKAgICAgICAgIB/NwK0AiAKQoCAgIDAADcCrAIgCiAENgKoAiAKIAc2AqQCIAogBjYCoAIgCiAFNgKcAiAKIAE2ApgCIAogCzYClAIgCiARNgKQAiAKIA82AowCIAogDjYCiAIgCkEANgKAAiAKQQA2AvgBIApBADYC8AEgCkEANgLoASAKQQA2AuABIApBADYC2AEgCkEANgLQASAKQYgDakEAOgAAQQIhCSAKQe8CaiAKQQ5qLQAAOgAAIApBADYC+AIgCiAQNgL8AiAKQgA3AvACIApCADcCgAMgCiAKLwEMOwDtAiACKAIAIQQgAigCBCEGIAIoAgghAQJ/IAxBBkcEQCAKIAwgCkHQAWoQ1QMgCigCBCEFIAooAgAMAQsgCkGUA2ogCkHUAWpBuAH8CgAAQQAhCUEACyEIQYCAgIB4IQcgBEGAgICAeEcEQCABQQBIDQICQCABRQRAQQEhBwwBCyABEHEiB0UNBAsgAQRAIAcgBiAB/AoAAAsgB60gAa1CIIaEIRggASEHCyAKQRhqIgIgCkGUA2pBuAH8CgAAQewBEHEiAUUNAiABIAk2AgAgAUEEaiACQbgB/AoAACABIAw6AOgBIAEgBTYC5AEgASAINgLgASABQYCAgIB4NgLUASABIBg3AswBIAEgBzYCyAEgAUEANgLEASABQoCAgIAQNwK8ASAAQZDwwAA2AgwgAEEBNgIIIABB+O/AADYCBCAAIAE2AgAgEkUgA0GECElyDQMgAxCbBwwDC0GgnsYAQTcgCkHPBGpBtJPBAEHYnsYAEOAGAAtB2JrIABD/BwsACyAEQYCAgIB4ckGAgICAeEYNAQJAIAZBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIARqTwRAIABBACABIARBJ2pLGw0BIAYQogIMAwsMAwsMAwsgCEUgCUGECElyRQRAIAkQmwcLIAZFIAdBhAhJckUEQCAHEJsHCyAERSAFQYQISXJFBEAgBRCbBwsgEkUgA0GECElyRQRAIAMQmwcLIAIoAgAiAEGAgICAeHJBgICAgHhHBEAgAigCBCICQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyAAakkNAiADQQAgBCAAQSdqSxsNAyACEKICCyANIAEoAgAiAEGAgICAeEdxRSAARXINACABKAIEIgFBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIABqSQ0BIAJBACADIABBJ2pLGw0CIAEQogILIApB0ARqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvLDQMPfwR+AXsjAEEgayIKJAACQAJAAkAgACgCDCILQQFqIgMEQAJAIAAoAgQiCCAIQQFqIglBA3YiAkEHbCIOIAhBCEkbIgZBAXYgA0kEQAJAAkACQAJAAn8gBkEBaiICIAMgAiADSxsiA0EPTwRAIANB/////wFLDQtBfyADQQN0QQduQQFrZ3ZBAWoMAQtBBCADQQhxQQhqIANBBEkbCyIDrUIYfiIRQiCIpw0AIBGnIgIgA0EIaiIGaiIFIAJJIAVB+P///wdLcg0AIAUQcSIFRQ0BIAIgBWohBCAGBEAgBEH/ASAG/AsACyADQQFrIgkgA0EDdkEHbCAJQQhJGyEMIAAoAgAhBSALDQJBACELDAMLIApBADYCGCAKQQE2AgwgCkHEtcQANgIIIApCBDcCECAKQQhqQZi1xAAQjQgLAAsgBEEIaiENIAVBGGshDiAFKQMAQn+FQoCBgoSIkKDAgH+DIREgASkDCCETIAEpAwAhFEEAIQMgCyEBIAUhBgNAIBFQBEADQCADQQhqIQMgBkEIaiIGKQMAQoCBgoSIkKDAgH+DIhFCgIGChIiQoMCAf1ENAAsgEUKAgYKEiJCgwIB/hSERCyAEIAkgFCATIA4gEXqnQQN2IANqIg9BaGxqEPgDpyIQcSICaikAAEKAgYKEiJCgwIB/gyISUARAQQghBwNAIAIgB2ohAiAHQQhqIQcgBCACIAlxIgJqKQAAQoCBgoSIkKDAgH+DIhJQDQALCyARQgF9IBGDIREgBCASeqdBA3YgAmogCXEiAmosAABBAE4EQCAEKQMAQoCBgoSIkKDAgH+DeqdBA3YhAgsgAiAEaiAQQRl2Igc6AAAgDSACQQhrIAlxaiAHOgAAIAQgAkF/c0EYbGoiAkEQaiAFIA9Bf3NBGGxqIgdBEGopAAA3AAAgAiAH/QAAAP0LAAAgAUEBayIBDQALCyAAIAk2AgQgACAENgIAIAAgDCALazYCCCAIRQ0BIAggCEEYbEEfakF4cSIBakEJaiIARQ0BIAUgAWsiAUEEaygCACIDQXhxIgJBBEEIIANBA3EiAxsgAGpJDQMgA0EAIAIgAEEnaksbDQQgARCiAgwBCyAAIAkEfyAAKAIAIQACQAJAIAIgCUEHcUEAR2oiBUECSQRAIAUhBgwBCyAFQQFxIQYgBUH+////A3EiBEEDdCEHIAQhAiAAIQMDQCADIAP9AAMAIhX9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gFf0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACADQRBqIQMgAkECayICDQALIAQgBUYNAQsgACAHaiEDA0AgAyADKQMAIhFCf4VCB4hCgYKEiJCgwIABgyARQv/+/fv379+//wCEfDcDACADQQhqIQMgBkEBayIGDQALCwJAIAlBCE8EQCAAIAlqIAApAAA3AAAMAQsgCUUNACAAQQhqIAAgCfwKAAALIABBCGohBSAAQRhrIQ8gASkDCCESIAEpAwAhE0EBIQJBACEDA0AgAyEGIAIhAwJAIAAgBmoiDC0AAEGAAUcNACAPIAZBaGxqIRAgACAGQX9zQRhsaiECA0AgCCATIBIgEBD4A6ciDXEiBCEBIAAgBGopAABCgIGChIiQoMCAf4MiEVAEQEEIIQcDQCABIAdqIQEgB0EIaiEHIAAgASAIcSIBaikAAEKAgYKEiJCgwIB/gyIRUA0ACwsgACAReqdBA3YgAWogCHEiAWosAABBAE4EQCAAKQMAQoCBgoSIkKDAgH+DeqdBA3YhAQsgASAEayAGIARrcyAIcUEITwRAIAAgAWoiBC0AACAEIA1BGXYiBDoAACAFIAFBCGsgCHFqIAQ6AAAgACABQX9zQRhsaiEBQf8BRgRAIAxB/wE6AAAgBSAIIAZBCGtxakH/AToAACABQRBqIAJBEGopAAA3AAAgASAC/QAAAP0LAAAMAwsgAikAACERIAIgASkAADcAACABIBE3AAAgASkACCERIAEgAikACDcACCACIBE3AAggAigAECEEIAIgASgAEDYAECABKAAUIQcgASACKAAUNgAUIAIgBzYAFCABIAQ2ABAMAQsLIAwgDUEZdiIBOgAAIAUgCCAGQQhrcWogAToAAAsgAyADIAlJIgFqIQIgAQ0ACyAIIA4gCEEISRsFQQALIAtrNgIICyAKQSBqJAAPCwwCC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgCkEANgIYIApBATYCDCAKQcS1xAA2AgggCkIENwIQIApBCGpBmLXEABCNCAALgg0CCX8HfSADQQhPBEAgACAAIANBA3YiA0EEdCIGaiAAIANBHGwiB2ogAyAEEMEBIQAgASABIAZqIAEgB2ogAyAEEMEBIQEgAiACIAZqIAIgB2ogAyAEEMEBIQILQwAAgD8hDgJ/AkAgACgCACIDIAQoAgBBBGooAgAiBEEIaigCACIHSQRAIAEoAgAhBiAEQQRqKAIAIgkgA0EkbGoiCBCKBCEQIAgvARQiBEH//wFxIgxFBEAgBEEQdAwDCyAEQf8HcSEDIARBgIACcSEFIARBgPgBcSIKQYD4AUYEQCAFQRB0IQUgBUGAgID8B3IgA0UNAxogBSADQQ10ckGAgID+B3IMAwsgBUEQdCEFIApFDQEgCkENdEGAgID8AHEgA0ENdHJBgICAwANqIAVyDAILIAMgB0HUwMcAEIwHAAsgBUGAgIDYA3IgA2dBEGsiBUEXdGsgAyAFQf//A3FBCGp0Qf///wNxcgu+Ig9DAACAP14EQCAPEMYFQ1T4LUCUQwAAgD+SkSEOC0MAAIA/IRICfwJAIAYgB0kEQCAJIAZBJGxqIgoQigQhDyAKLwEUIgZB//8BcSINRQRAIAZBEHQMAwsgBkH/B3EhAyAGQYCAAnEhBSAGQYD4AXEiC0GA+AFGBEAgBUEQdCEFIAVBgICA/AdyIANFDQMaIAUgA0ENdHJBgICA/gdyDAMLIAVBEHQhBSALRQ0BIAtBDXRBgICA/ABxIANBDXRyQYCAgMADaiAFcgwCCyAGIAdB1MDHABCMBwALIAVBgICA2ANyIANnQRBrIgVBF3RrIAMgBUH//wNxQQhqdEH///8DcXILviIRQwAAgD9eBEAgERDGBUNU+C1AlEMAAIA/kpEhEgsgAigCACEFIAgQigQhEUMAAIA/IRMCfyAEQRB0IAxFDQAaIARB/wdxIQMgBEGAgAJxIQggBEGA+AFxIgRBgPgBRgRAIAhBEHQhBCAEQYCAgPwHciADRQ0BGiAEIANBDXRyQYCAgP4HcgwBCyAIQRB0IQggBEENdEGAgID8AHEgA0ENdHJBgICAwANqIAhyIAQNABogCEGAgIDYA3IgA2dBEGsiBEEXdGsgAyAEQf//A3FBCGp0Qf///wNxcgu+IhRDAACAP14EQCAUEMYFQ1T4LUCUQwAAgD+SkSETCwJ/AkAgBSAHSQRAIBAgEJIgDpQiDiAPIA+SIBKUYEUhCCAOIA5bIQsgCSAFQSRsaiIHEIoEIRAgBy8BFCIDQf//AXEiDEUEQCADQRB0DAMLIANB/wdxIQQgA0GAgAJxIQUgA0GA+AFxIglBgPgBRgRAIAVBEHQhBSAFQYCAgPwHciAERQ0DGiAFIARBDXRyQYCAgP4HcgwDCyAFQRB0IQUgCUUNASAJQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogBXIMAgsgBSAHQdTAxwAQjAcACyAFQYCAgNgDciAEZ0EQayIFQRd0ayAEIAVB//8DcUEIanRB////A3FyC0MAAIA/IQ6+Ig9DAACAP14EQCAPEMYFQ1T4LUCUQwAAgD+SkSEOCyAIIAtxIgUgESARkiATlCIPIA9bIA8gECAQkiAOlGBFcUYEfyAKEIoEIRBDAACAPyEPAn8gBkEQdCANRQ0AGiAGQf8HcSEAIAZBgIACcSEEIAZBgPgBcSIGQYD4AUYEQCAEQRB0IQQgBEGAgID8B3IgAEUNARogBCAAQQ10ckGAgID+B3IMAQsgBEEQdCEEIAZBDXRBgICA/ABxIABBDXRyQYCAgMADaiAEciAGDQAaIARBgICA2ANyIABnQRBrIgRBF3RrIAAgBEH//wNxQQhqdEH///8DcXILviIOQwAAgD9eBEAgDhDGBUNU+C1AlEMAAIA/kpEhDwtDAACAPyEOIAIgASAFIBAgEJIgD5QiECAQWyAQIAcQigQiEiASkgJ/IANBEHQgDEUNABogA0H/B3EhACADQYCAAnEhBCADQYD4AXEiA0GA+AFGBEAgBEEQdCEDIANBgICA/AdyIABFDQEaIAMgAEENdHJBgICA/gdyDAELIARBEHQhBCADQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2ogBHIgAw0AGiAEQYCAgNgDciAAZ0EQayIDQRd0ayAAIANB//8DcUEIanRB////A3FyC74iEUMAAIA/XgR9IBEQxgVDVPgtQJRDAACAP5KRBSAOC5RgRXFzGwUgAAsLww0DBHsIfwF+AkACQAJAAkBBfyAELQC/AiILQQ9xdCIJQf8BcUH/AUcEQEH/ASAJQX9zIg9B/wFxbiEMQQEgC3RBlgJxRSALQQhLcg0BIAQoAtABIQogBCgCzAEhDSAEKALUASEQQQggC25BAXStIAGtfiIRQiCIUCARpyADSXENAiAAIAFqIQ4gA0F+cSEEAkAgC0EIRwRAIARFDQZBCCALayEJIA1BgYCAgHhGBEBBACEKQQAgBGshAUF/IQQDQCAEQQBIBEAgACAORg0EIAAtAAAhCiAJIQQgAEEBaiEACyACQQFqQf8BOgAAIAIgCiAEdiAPcSAMbDoAACAEIAtrIQQgAkECaiECIAFBAmoiAQ0ACwwHCyAQBEBBACADQX5xayEBQQAhA0F/IQQDQCAEQQBIBEAgACAORg0EIAAtAAAhAyAJIQQgAEEBaiEACyACIANB/wFxIAR2IA9xIg0gDGw6AAAgAkEBakF/QQAgDSAKLQAARxs6AAAgBCALayEEIAJBAmohAiABQQJqIgENAAsMBwsgAUUNAUEAQQBBkJnFABCMBwALIAFFDQUgDUGBgICAeEYEQCADQQF2IgMgAUEBayIBIAEgA0sbIgFBEEkgACACIAFBAXRqQQJqSSAAIAFqQQFqIAJLcXJFBEAgACABQQFqIgEgAUEPcSIBQRAgARtrIglqIAQgCUEBdCIDayEEIAIgA2ogDP0PIQYDQCACQR9qQf8BOgAAIAJBHWpB/wE6AAAgAkEbakH/AToAACACQRlqQf8BOgAAIAJBF2pB/wE6AAAgAkEVakH/AToAACACQRNqQf8BOgAAIAJBEWpB/wE6AAAgAkEPakH/AToAACACQQ1qQf8BOgAAIAJBC2pB/wE6AAAgAkEJakH/AToAACACQQdqQf8BOgAAIAJBBWpB/wE6AAAgAkEDakH/AToAACACQQFqQf8BOgAAIAJBHmogAP0AAAAiBf0WDyAG/RYPbDoAACACQRxqIAX9Fg4gBv0WDmw6AAAgAkEaaiAF/RYNIAb9Fg1sOgAAIAJBGGogBf0WDCAG/RYMbDoAACACQRZqIAX9FgsgBv0WC2w6AAAgAkEUaiAF/RYKIAb9FgpsOgAAIAJBEmogBf0WCSAG/RYJbDoAACACQRBqIAX9FgggBv0WCGw6AAAgAkEOaiAF/RYHIAb9FgdsOgAAIAJBDGogBf0WBiAG/RYGbDoAACACQQpqIAX9FgUgBv0WBWw6AAAgAkEIaiAF/RYEIAb9FgRsOgAAIAJBBmogBf0WAyAG/RYDbDoAACACQQRqIAX9FgIgBv0WAmw6AAAgAkECaiAF/RYBIAb9FgFsOgAAIAIgBf0WACAG/RYAbDoAACAAQRBqIQAgAkEgaiECIAlBEGsiCQ0ACyECIQALA0AgBEUNByACQQFqQf8BOgAAIAIgAC0AACAMbDoAACAEQQJrIQQgAkECaiECIA4gAEEBaiIARw0ACwwGCyAQBEAgA0EBdiIDIAFBAWsiASABIANLGyIBQQ9NDQUgAiAAIAFqQQFqSSAAIAIgAUEBdGpBAmoiA0lxIAIgCkEBakkgAyAKS3FyDQUgACABQQFqIgEgAUEPcSIBQRAgARtrIglqIAQgCUEBdCIDayEEIAIgA2ohAyAK/QcAACEHIAz9DyEGA0AgAiAA/QAAACIF/RYAIAb9FgBs/Q8gBf0WASAG/RYBbP0XASAF/RYCIAb9FgJs/RcCIAX9FgMgBv0WA2z9FwMgBf0WBCAG/RYEbP0XBCAF/RYFIAb9FgVs/RcFIAX9FgYgBv0WBmz9FwYgBf0WByAG/RYHbP0XByAF/RYIIAb9Fghs/RcIIAX9FgkgBv0WCWz9FwkgBf0WCiAG/RYKbP0XCiAF/RYLIAb9Fgts/RcLIAX9FgwgBv0WDGz9FwwgBf0WDSAG/RYNbP0XDSAF/RYOIAb9Fg5s/RcOIAX9Fg8gBv0WD2z9Fw8iCCAFIAf9JCIF/Q0IGAkZChoLGwwcDR0OHg8f/QsAECACIAggBf0NABABEQISAxMEFAUVBhYHF/0LAAAgAEEQaiEAIAJBIGohAiAJQRBrIgkNAAshACADIQIMBQsgBEUNBUEAQQBBkJnFABCMBwALQfyWxQBBIkGgl8UAEKsHAAtBgJnFABCBCAALQbCXxQBBNEHkl8UAEOsHAAtBhJbFAEHlAEHslsUAEOsHAAsDQCAERQ0BIAIgAC0AACIBIAxsOgAAIAJBAWpBf0EAIAEgCi0AAEcbOgAAIARBAmshBCACQQJqIQIgAEEBaiIAIA5HDQALCwu+DAIGfwR+IwBBwAFrIgQkAAJAAkACQCAAKQMAQgJRDQAgACgCqAEhASAAQQA2AqgBAkACQAJAAkAgAUEBaw4CAQIACyAEQQhqIQICQAJAQSUQcSIBRQ0AIAFBHWpBnZ3HACkAADcAACABQRBqQZCdxwD9AAAA/QsAACABQYCdxwD9AAAA/QsAAEEMEHEiA0UNACADQSU2AgggAyABNgIEIANBJTYCAEEMEHEiAUUNACABQSg6AAggAUG4nccANgIEIAEgAzYCACACQQA2AhAgAiABrUIghkIDhDcDAAwBCwALDAILIARBGGogAEHAAWopAwA3AwAgBCAA/QADsAH9CwMIDAELIAAoAqwBIgFBQGshAiABKAIkIQMgASgCICEFAkAgASkDGCIHQgJSBEAgASkDOCEIIARBMGogAUEQaikDADcDACAEQegAaiACQQhq/QADAP0LAwAgBEGoAWogAUGIAWr9AAMA/QsDACAEQZgBaiABQfgAav0AAwD9CwMAIARBuAFqIAFBmAFqKQMANwMAIAQgAf0AAwD9CwMgIAQgAf0AAyj9CwNIIAQgAikDADcDYCAEIAH9AANY/QsDeCAEIAH9AANo/QsDiAEgBEEYaiAEQdAAaikDADcDACAEIAM2AkQgBCAFNgJAIAQgBzcDOCAEIAg3A1ggBCAE/QADQP0LAwggBCgCJCEDIAQoAiAhBSAEQfgAahCEBQwBCyAEQRhqIAJBEGopAwA3AwAgBCAC/QADAP0LAwgLIAMEQCAFQQRrKAIAIgJBeHEiBkEEQQggAkEDcSICGyADakkNAyACQQAgBiADQSdqSxsNBCAFEKICCyABQQRrKAIAIgNBeHFBvAFBwAEgA0EDcSICG0kNAiACQQAgA0HgAU8bDQMgARCiAgsCQCAEKAIYIgEEQCAEKQMQIghQDQEgASkDCCEHIAEoAgQiA60hCQNAAkAgByADIAcgCSAHIAlUG6ciAmsiBUKAwAAgCCAIQoDAAFobpyIGIAUgBkkbrSIKfCEHIAIgA0YNACAIIAp9IghCAFINAQsLIAEgBzcDCAwBCyAELQAIQQNHDQAgBCgCDCIBKAIAIQMgAUEEaigCACICKAIAIgUEQCADIAURAwALIAIoAgQiAgRAIANBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIAJqSQ0DIAVBACAGIAJBJ2pLGw0EIAMQogILIAFBBGsoAgAiA0F4cSICQRBBFCADQQNxIgMbSQ0CIANBACACQTRPGw0DIAEQogILIAAoAiwiAQRAIAAoAigiA0EEaygCACICQXhxIgVBBEEIIAJBA3EiAhsgAWpJDQIgAkEAIAUgAUEnaksbDQMgAxCiAgsgACgCNCIBBEAgACgCMCIDQQRrKAIAIgJBeHEiBUEEQQggAkEDcSICGyABakkNAiACQQAgBSABQSdqSxsNAyADEKICCwJAIAAoAowBIgFFDQAgASABKAIAIgFBAWs2AgAgAUEBRw0AIAAoAowBEN0FCwJAIAAoApABIgFFDQAgASABKAIAIgFBAWs2AgAgAUEBRw0AIAAoApABEN0FCyAAKAI8IgEEQCAAKAI4IgNBBGsoAgAiAkF4cSIFQQRBCCACQQNxIgIbIAFqSQ0CIAJBACAFIAFBJ2pLGw0DIAMQogILIAAoAngiAUUNACAAKAJ8IgNBBGsoAgAiAkF4cSIFIAFBBXQiAUEEQQggAkEDcSICG3JJDQEgAkEAIAUgAUEnaksbDQIgAxCiAgsgACgCqAFBAk8EQAJAIAAoAqwBIgApAxhCAlEEQCAAKAIkIgFFDQEgACgCICIDQQRrKAIAIgJBeHEiBUEEQQggAkEDcSICGyABakkNAyACQQAgBSABQSdqSxsNBCADEKICDAELIAAoAgQiAQRAIAAoAgAiA0EEaygCACICQXhxIgVBBEEIIAJBA3EiAhsgAWpJDQMgAkEAIAUgAUEnaksbDQQgAxCiAgsgAEHYAGoQhAULIABBBGsoAgAiAUF4cUG8AUHAASABQQNxIgMbSQ0BIANBACABQeABTxsNAiAAEKICCyAEQcABaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALuQ4DBX8CfQF+IwBBIGsiAiQAAkAgASgCACIEQYy1xABBBCABKAIEIgMoAgwiBREAAARAQQEhAwwBCwJAAkACQCABKAIIIgZBgICABHFFBEBBASEDIARBu7PFAEEBIAURAAANBCAGQYCAgAFxIQUgACoCACEHIAZBgICAgAFxDQEgAEEEaiEEIAeLIghDyhsOWmAgB0MAAAAAXCAIQxe30ThdcXJFBEAgASAHIAVBAEdBARD3AkUNAwwFCyABIAcgBUEARxDPAkUNAgwECyAEQduBwgBBAiAFEQAABEBBASEDDAQLIAJBAToADyACIAM2AgQgAiAENgIAIAJB4IHCADYCFCACIAEpAggiCTcCGCAJpyIEQYCAgAFxIQMgAiACQQ9qNgIIIAIgAjYCECAAKgIAIQcCQAJAIARBgICAgAFxRQRAIAeLIghDyhsOWmAgB0MAAAAAXCAIQxe30ThdcXINASACQRBqIAcgA0EAR0EBEPcCDQUMAgsgAkEQaiAHIANBAEcgCUIwiKcQvQJFDQEMBAsgAkEQaiAHIANBAEcQzwINAwsgAigCEEHZgcIAQQIgAigCFCgCDBEAAARAQQEhAwwECyAAQQRqIQQMAQsgASAHIAVBAEcgAS8BDhC9Ag0CIABBBGohBAsCQAJAAkACQAJAIAEoAggiA0GAgIAEcUUEQCABKAIAQeeQxgBBAiABKAIEKAIMEQAABEBBASEDDAgLIANBgICAAXEhBSAEKgIAIQcgA0GAgICAAXENASAAQQhqIQQgB4siCEPKGw5aYCAHQwAAAABcIAhDF7fROF1xckUEQEEBIQMgASAHIAVBAEdBARD3AkUNBQwICyABIAcgBUEARxDPAkUNBEEBIQMMBwsgASkCACEJIAJBAToADyACIAk3AgAgAkHggcIANgIUIAIgASkCCCIJNwIYIAmnIgVBgICAAXEhAyACIAJBD2o2AgggAiACNgIQIAQqAgAhByAFQYCAgIABcUUNASACQRBqIAcgA0EARyAJQjCIpxC9AkUNAgwECyABIAcgBUEARyABLwEOEL0CBEBBASEDDAYLIABBCGohBAwCCyAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyRQRAIAJBEGogByADQQBHQQEQ9wINAwwBCyACQRBqIAcgA0EARxDPAg0CCyACKAIQQdmBwgBBAiACKAIUKAIMEQAARQRAIABBCGohBAwBC0EBIQMMAwsCQAJAAkACQAJAIAEoAggiA0GAgIAEcUUEQCABKAIAQeeQxgBBAiABKAIEKAIMEQAABEBBASEDDAkLIANBgICAAXEhBSAEKgIAIQcgA0GAgICAAXENASAAQQxqIQQgB4siCEPKGw5aYCAHQwAAAABcIAhDF7fROF1xckUEQEEBIQMgASAHIAVBAEdBARD3AkUNBQwJCyABIAcgBUEARxDPAkUNBEEBIQMMCAsgASkCACEJIAJBAToADyACIAk3AgAgAkHggcIANgIUIAIgASkCCCIJNwIYIAmnIgVBgICAAXEhAyACIAJBD2o2AgggAiACNgIQIAQqAgAhByAFQYCAgIABcUUNASACQRBqIAcgA0EARyAJQjCIpxC9AkUNAgwECyABIAcgBUEARyABLwEOEL0CBEBBASEDDAcLIABBDGohBAwCCyAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyRQRAIAJBEGogByADQQBHQQEQ9wINAwwBCyACQRBqIAcgA0EARxDPAg0CCyACKAIQQdmBwgBBAiACKAIUKAIMEQAARQRAIABBDGohBAwBC0EBIQMMBAsCQAJAAkACQAJAIAEoAggiA0GAgIAEcUUEQCABKAIAQeeQxgBBAiABKAIEKAIMEQAABEBBASEDDAoLIANBgICAAXEhACAEKgIAIQcgA0GAgICAAXENASAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyRQRAQQEhAyABIAcgAEEAR0EBEPcCRQ0FDAoLQQEhAyABIAcgAEEARxDPAkUNBAwJCyABKQIAIQkgAkEBOgAPIAIgCTcCACACQeCBwgA2AhQgAiABKQIIIgk3AhggCaciA0GAgIABcSEAIAIgAkEPajYCCCACIAI2AhAgBCoCACEHIANBgICAgAFxRQ0BIAJBEGogByAAQQBHIAlCMIinEL0CRQ0CDAQLQQEhAyABIAcgAEEARyABLwEOEL0CDQcMAgsgB4siCEPKGw5aYCAHQwAAAABcIAhDF7fROF1xckUEQCACQRBqIAcgAEEAR0EBEPcCDQMMAQsgAkEQaiAHIABBAEcQzwINAgsgAigCEEHZgcIAQQIgAigCFCgCDBEAAEUNAEEBIQMMBQsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDAQLQQEhAwwDC0EBIQMMAgtBASEDDAELQQEhAwsgAkEgaiQAIAML6A4CC38BfiMAQSBrIgMkAEGAgICAeCEHAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiBEGAgICAeHMgBEEAThtBFGsOAgECAAsgASADQRRqQaTjwAAQlQghASAAQYCAgIB4NgIAIAAgATYCBAwKCyABKAIMIgVFDQECQCABKAIIIgEoAgBBlICAgHhGBEACQCABKAIMIgIEQCADQQRqIAEoAggQqAMgAygCBCIEQYCAgIB4Rw0BIAMoAgghAQwMC0EAIANBFGpBhOLAABDbBiEBDAsLIAMoAgghCCACQQFGDQEgA0EBNgIEIAJBAWtB/////wBxQQFqIANBBGpB6JXBABDbBiEBIARFDQogCCAEQQEQogcMCgsgASADQRRqQYTiwAAQlQghAQwJCwJAAn8gBUEBRwRAIAMoAgwhBiADQQRqIgcgAUEQahDQAyADKAIIIgEgAygCBCICQYCAgIB4Rg0BGiAFQQJGDQIgA0ECNgIEIAVB/v///wBqQf////8AcUECaiAHQeiVwQAQ2wYhBSAAQYCAgIB4NgIAIAAgBTYCBCAEBEAgCCAEQQEQogcLIAJFDQwgASACQQJ0QQQQogcMDAtBAUHsgMEAQYD9wAAQ2wYLIQEgBEUNCSAIQQRrKAIAIgVBeHEiAkEEQQggBUEDcSIFGyAEakkNDCAFQQAgAiAEQSdqSxsNCyAIEKICDAkLIAAgAygCDDYCFCAAIAE2AhAgACACNgIMIAAgBjYCCCAAIAg2AgQgACAENgIADAkLIAEoAgghBCABKAIEIQEgA0IANwIMIAMgATYCBCADIAEgBEEFdGoiCTYCCCAERQ0CQYCAgIB4IQYDQCADIAFBIGoiBDYCBCADIAMoAhBBAWo2AhAgAyABQRBqIgo2AgwCfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCACICQYCAgIB4cyACQQBOG0EBaw4PAAsLAQsLCwsLCwsCAwQFCwsgAS0ABCIBRQ0HQQFBAiABQQFGGyEBDAsLIAEpAwgiDVANBkEBQQIgDUIBURshAQwKCyABKAIIIQIgASgCDEEFaw4EBAsLBgsLIAEoAgQhAgJAIAEoAghBBWsOBAMLCwALCyACKQAAQuPekaum7Nu36wBRDQkMCgsgASgCCCECAkACQCABKAIMQQVrDgQACwsBCwsgAi0AAEHmAEcNCiACLQABQekARw0KIAItAAJB7ABHDQogAi0AA0HlAEcNCiACLQAEQfMARw0KDAQLIAItAABB4wBHDQkgAi0AAUHvAEcNCSACLQACQeQARw0JIAItAANB5QBHDQkgAi0ABEHiAEcNCSACLQAFQe8ARw0JIAItAAZB7wBHDQkgAi0AB0HrAEYNCAwJCyABKAIEIQICQAJAIAEoAghBBWsOBAAKCgEKCyACLQAAQeYARw0JIAItAAFB6QBHDQkgAi0AAkHsAEcNCSACLQADQeUARw0JIAItAARB8wBHDQkMAwsgAi0AAEHjAEcNCCACLQABQe8ARw0IIAItAAJB5ABHDQggAi0AA0HlAEcNCCACLQAEQeIARw0IIAItAAVB7wBHDQggAi0ABkHvAEcNCCACLQAHQesARg0HDAgLIAJBkP3AAEEFENsHDQcMAQsgAkGQ/cAAQQUQ2wcNBgsgBkGAgICAeEYNAUGQ/cAAQQUQnwchBAwMCyACKQAAQuPekaum7Nu36wBRDQMMBAsgA0EUaiADQQRqELIFIAMoAhghBCADKAIUIgZBgICAgHhGBEBBgICAgHghBgwLCyADKAIcIQsgAygCCCEJIAQhCCADKAIEDAULIAEgA0EUakH048AAEJUIIQQMCQsgAUECRg0BCyAHQYCAgIB4Rg0BQZj+wABBCBCfByEEIAdFDQkMCAsgA0EANgIMIAQMAQsgA0EANgIMIANBFGogChDQAyADKAIYIQUgAygCFCIHQYCAgIB4RgRAIAUhBAwICyADKAIcIQwgBAsiASAJRw0ACwwBC0EAQeyAwQBBgP3AABDbBiEBDAYLIAZBgICAgHhGDQAgB0GAgICAeEYEQEGY/sAAQQgQnAchBCAGRQ0FIAggBkEBEKIHDAULIAAgDDYCFCAAIAU2AhAgACAHNgIMIAAgCzYCCCAAIAg2AgQgACAGNgIADAYLQYCAgIB4IQZBkP3AAEEFEJwHIQQLIAdBgICAgHhyQYCAgIB4Rg0BCyAFQQRrKAIAIgFBeHEiAiAHQQJ0IgdBBEEIIAFBA3EiARtqSQ0FIAFBACACIAdBJ2pLGw0EIAUQogILIAZBgICAgHhyQYCAgIB4Rg0AIAhBBGsoAgAiAUF4cSIFQQRBCCABQQNxIgEbIAZqSQ0EIAFBACAFIAZBJ2pLGw0DIAgQogILIAAgBDYCBCAAQYCAgIB4NgIADAELIAAgATYCBCAAQYCAgIB4NgIACyADQSBqJAAPC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAvoDgILfwF+IwBBIGsiAyQAQYCAgIB4IQcCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCACIEQYCAgIB4cyAEQQBOG0EUaw4CAQIACyABIANBFGpB5OLAABCVCCEBIABBgICAgHg2AgAgACABNgIEDAoLIAEoAgwiBUUNAQJAIAEoAggiASgCAEGUgICAeEYEQAJAIAEoAgwiAgRAIANBBGogASgCCBCoAyADKAIEIgRBgICAgHhHDQEgAygCCCEBDAwLQQAgA0EUakGE4sAAENsGIQEMCwsgAygCCCEIIAJBAUYNASADQQE2AgQgAkEBa0H/////AHFBAWogA0EEakHolcEAENsGIQEgBEUNCiAIIARBARCiBwwKCyABIANBFGpBhOLAABCVCCEBDAkLAkACfyAFQQFHBEAgAygCDCEGIANBBGoiByABQRBqENADIAMoAggiASADKAIEIgJBgICAgHhGDQEaIAVBAkYNAiADQQI2AgQgBUH+////AGpB/////wBxQQJqIAdB6JXBABDbBiEFIABBgICAgHg2AgAgACAFNgIEIAQEQCAIIARBARCiBwsgAkUNDCABIAJBAnRBBBCiBwwMC0EBQbz+wABBgP3AABDbBgshASAERQ0JIAhBBGsoAgAiBUF4cSICQQRBCCAFQQNxIgUbIARqSQ0MIAVBACACIARBJ2pLGw0LIAgQogIMCQsgACADKAIMNgIUIAAgATYCECAAIAI2AgwgACAGNgIIIAAgCDYCBCAAIAQ2AgAMCQsgASgCCCEEIAEoAgQhASADQgA3AgwgAyABNgIEIAMgASAEQQV0aiIJNgIIIARFDQJBgICAgHghBgNAIAMgAUEgaiIENgIEIAMgAygCEEEBajYCECADIAFBEGoiCjYCDAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkBBFSABKAIAIgJBgICAgHhzIAJBAE4bQQFrDg8ACwsBCwsLCwsLCwIDBAULCyABLQAEIgFFDQdBAUECIAFBAUYbIQEMCwsgASkDCCINUA0GQQFBAiANQgFRGyEBDAoLIAEoAgghAiABKAIMQQVrDgQECwsGCwsgASgCBCECAkAgASgCCEEFaw4EAwsLAAsLIAIpAABC496Rq6bs27frAFENCQwKCyABKAIIIQICQAJAIAEoAgxBBWsOBAALCwELCyACLQAAQeYARw0KIAItAAFB6QBHDQogAi0AAkHsAEcNCiACLQADQeUARw0KIAItAARB8wBHDQoMBAsgAi0AAEHjAEcNCSACLQABQe8ARw0JIAItAAJB5ABHDQkgAi0AA0HlAEcNCSACLQAEQeIARw0JIAItAAVB7wBHDQkgAi0ABkHvAEcNCSACLQAHQesARg0IDAkLIAEoAgQhAgJAAkAgASgCCEEFaw4EAAoKAQoLIAItAABB5gBHDQkgAi0AAUHpAEcNCSACLQACQewARw0JIAItAANB5QBHDQkgAi0ABEHzAEcNCQwDCyACLQAAQeMARw0IIAItAAFB7wBHDQggAi0AAkHkAEcNCCACLQADQeUARw0IIAItAARB4gBHDQggAi0ABUHvAEcNCCACLQAGQe8ARw0IIAItAAdB6wBGDQcMCAsgAkGQ/cAAQQUQ2wcNBwwBCyACQZD9wABBBRDbBw0GCyAGQYCAgIB4Rg0BQZD9wABBBRCfByEEDAwLIAIpAABC496Rq6bs27frAFENAwwECyADQRRqIANBBGoQsgUgAygCGCEEIAMoAhQiBkGAgICAeEYEQEGAgICAeCEGDAsLIAMoAhwhCyADKAIIIQkgBCEIIAMoAgQMBQsgASADQRRqQbTkwAAQlQghBAwJCyABQQJGDQELIAdBgICAgHhGDQFBmP7AAEEIEJ8HIQQgB0UNCQwICyADQQA2AgwgBAwBCyADQQA2AgwgA0EUaiAKENADIAMoAhghBSADKAIUIgdBgICAgHhGBEAgBSEEDAgLIAMoAhwhDCAECyIBIAlHDQALDAELQQBBvP7AAEGA/cAAENsGIQEMBgsgBkGAgICAeEYNACAHQYCAgIB4RgRAQZj+wABBCBCcByEEIAZFDQUgCCAGQQEQogcMBQsgACAMNgIUIAAgBTYCECAAIAc2AgwgACALNgIIIAAgCDYCBCAAIAY2AgAMBgtBgICAgHghBkGQ/cAAQQUQnAchBAsgB0GAgICAeHJBgICAgHhGDQELIAVBBGsoAgAiAUF4cSICIAdBAnQiB0EEQQggAUEDcSIBG2pJDQUgAUEAIAIgB0EnaksbDQQgBRCiAgsgBkGAgICAeHJBgICAgHhGDQAgCEEEaygCACIBQXhxIgVBBEEIIAFBA3EiARsgBmpJDQQgAUEAIAUgBkEnaksbDQMgCBCiAgsgACAENgIEIABBgICAgHg2AgAMAQsgACABNgIEIABBgICAgHg2AgALIANBIGokAA8LQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC5kOAgJ9A38CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCACRSAAKAJcQQJJckUEQEMAAP5CQwAA/kIgACoCUJUgAC0AWEECRhshBiAAKAIoIAFBD2xqIQkgACgCLCEIQQAhAANAIAEgCE8NECAAIARPDREgACAJaiIHQf8AQwAA/kJDAAD+wiAGIAMqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQFqIARPDQ8gB0EBakH/AEMAAP5CQwAA/sIgBiADQQRqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEECaiAETw0OIAdBAmpB/wBDAAD+QkMAAP7CIAYgA0EIaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBA2ogBE8NDSAHQQNqQf8AQwAA/kJDAAD+wiAGIANBDGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQRqIARPDQwgB0EEakH/AEMAAP5CQwAA/sIgBiADQRBqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEFaiAETw0LIAdBBWpB/wBDAAD+QkMAAP7CIAYgA0EUaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBBmogBE8NCiAHQQZqQf8AQwAA/kJDAAD+wiAGIANBGGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQdqIARPDQkgB0EHakH/AEMAAP5CQwAA/sIgBiADQRxqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEIaiAETw0IIAdBCGpB/wBDAAD+QkMAAP7CIAYgA0EgaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBCWogBE8NByAHQQlqQf8AQwAA/kJDAAD+wiAGIANBJGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQpqIARPDQYgB0EKakH/AEMAAP5CQwAA/sIgBiADQShqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEELaiAETw0FIAdBC2pB/wBDAAD+QkMAAP7CIAYgA0EsaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBDGogBE8NBCAHQQxqQf8AQwAA/kJDAAD+wiAGIANBMGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQ1qIARPDQMgB0ENakH/AEMAAP5CQwAA/sIgBiADQTRqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEOaiAETw0CIAdBDmpB/wBDAAD+QkMAAP7CIAYgA0E4aioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIANBPGohAyAAQQ9qIQAgAUEBaiEBIAJBAWsiAg0ACwsPCyAAQQ5qIQAMDgsgAEENaiEADA0LIABBDGohAAwMCyAAQQtqIQAMCwsgAEEKaiEADAoLIABBCWohAAwJCyAAQQhqIQAMCAsgAEEHaiEADAcLIABBBmohAAwGCyAAQQVqIQAMBQsgAEEEaiEADAQLIABBA2ohAAwDCyAAQQJqIQAMAgsgAEEBaiEADAELIAAgBE8NACABIAhBpMTHABCMBwALIAAgBEGUxMcAEIwHAAvYDQIEfwF+IwBBMGsiAiQAAn8CQAJAAkACQAJAAkACQCAAKAIAQQFrDgUBAgMEBQALIABBBGohAyABKAIEIQQgASgCACEBIAAoAhQEQCACIABBFGo2AgQgAiACQQRqrUKAgICAkAeENwMQIAIgA61CgICAgKAHhDcDCCACQgI3AiQgAkECNgIcIAJBwMHEADYCGCACIAJBCGo2AiAgASAEIAJBGGoQwQMMBwsgAy0AAEEDRgRAIAFBlcHEAEEMIAQoAgwRAAAMBwsgAiADrUKAgICAoAeENwMIIAJCATcCJCACQQE2AhwgAkG4wcQANgIYIAIgAkEIajYCICABIAQgAkEYahDBAwwGCyAAQQRqIQMgACgCFARAIAIgAEEUajYCBCACIAJBBGqtQoCAgICQB4Q3AxAgAiADrUKAgICAoAeENwMIIAEoAgAgASgCBCACQgI3AiQgAkECNgIcIAJB8MHEADYCGCACIAJBCGo2AiAgAkEYahDBAwwGCyACIAOtQoCAgICgB4Q3AwggASgCACABKAIEIAJCATcCJCACQQE2AhwgAkHowcQANgIYIAIgAkEIajYCICACQRhqEMEDDAULIAEoAgQhAyABKAIAIQQCQAJAAkACQAJAAkACQEEDIAAoAgQiAUGAgICAeHMgAUEAThtBAWsOBQECBQMEAAsgBEGQwsQAQTggAygCDBEAAEUNBUEBDAoLIARByMLEAEHBACADKAIMEQAARQ0EQQEMCQsgAiAAQQhqNgIEIAIgAkEEaq1CgICAgLAHhDcDCCACQgE3AiQgAkECNgIcIAJBtMPEADYCGCACIAJBCGo2AiAgBCADIAJBGGoQwQNFDQNBAQwICyAEQejDxABBJSADKAIMEQAARQ0CQQEMBwsgAiAAQQhqNgIAIAIgAEEMajYCBCACQoCAgICwByIGIAKthDcDECACIAYgAkEEaq2ENwMIIAJCAjcCJCACQQI2AhwgAkG8xMQANgIYIAIgAkEIajYCICAEIAMgAkEYahDBA0UNAUEBDAYLIAIgAEEEajYCBCACIAJBBGqtQoCAgIDAB4Q3AwggAkIBNwIkIAJBATYCHCACQeDDxAA2AhggAiACQQhqNgIgQQEgBCADIAJBGGoQwQMNBRoLQQAgACgCEEUNBBogAiAAQRBqNgIEIAIgAkEEaq1CgICAgJAHhDcDCCACQgE3AiQgAkEBNgIcIAJBzMTEADYCGCACIAJBCGo2AiAgBCADIAJBGGoQwQMMBAsgASgCACEDIAEoAgQoAgwhAQJAAkACQEECIAApAwgiBqdBAmsgBkIBWBtBAWsOAgECAAsgA0G4v8QAQRggAREAAAwFCyADQfj4xABBFSABEQAADAQLIANB0L/EAEHPACABEQAADAMLIABBBGohBCABKAIEIQMgASgCACEBAkACQAJAAkACQEEDIAAtABQiBUEEayAFQQNNG0H/AXFBAWsOBAECAwQACyACIABBFWo2AgQgAiACQQRqrUKAgICA0AeENwMQIAIgBK1CgICAgKAHhDcDCCACQgI3AiQgAkEDNgIcIAJB8MXEADYCGCACIAJBCGo2AiAgASADIAJBGGoQwQMMBgsgAiAAQRVqNgIEIAIgAkEEaq1CgICAgNAHhDcDCCACQgE3AiQgAkECNgIcIAJBxMbEADYCGCACIAJBCGo2AiAgASADIAJBGGoQwQMMBQsgAiAAQRVqNgIEIAIgAkEEaq1CgICAgLAHhDcDCCACQgE3AiQgAkECNgIcIAJBoMfEADYCGCACIAJBCGo2AiAgASADIAJBGGoQwQMMBAsgAEEUaiEAAkACQAJAIAVBAmsOAgECAAsgAiAANgIEIAIgAkEEaq1CgICAgOAHhDcDCCACQgE3AiQgAkECNgIcIAJBuMjEADYCGCACIAJBCGo2AiAgASADIAJBGGoQwQMMBQsgAiAANgIEIAIgAkEEaq1CgICAgOAHhDcDCCACQgE3AiQgAkECNgIcIAJB7MfEADYCGCACIAJBCGo2AiAgASADIAJBGGoQwQMMBAsgAUH8x8QAQSggAygCDBEAAAwDCyACIABBGGo2AgAgAC0ABEEDRg0BIAIgBDYCBCACIAKtQoCAgIDAB4Q3AxAgAiACQQRqrUKAgICA4AeENwMIIAJCAjcCJCACQQI2AhwgAkG4ycQANgIYIAIgAkEIajYCICABIAMgAkEYahDBAwwCCyAAQQRqIAEQngQMAQsgAiACrUKAgICAwAeENwMIIAJCATcCJCACQQE2AhwgAkH4yMQANgIYIAIgAkEIajYCICABIAMgAkEYahDBAwsgAkEwaiQAC+kNAQF/IwBBMGsiAiQAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAAtAABBAWsOHAECAwQFBgcICQoLDA0ODxAREhMUFRYXGBkaGxwACyACIABBBGo2AgwgAiACQQxqrUKAgICA0AaENwMQIAEoAgAgASgCBCACQgE3AiQgAkEBNgIcIAJB9PLEADYCGCACIAJBEGo2AiAgAkEYahDBAwwcCyACIABBAWo2AgwgAiACQQxqrUKAgICAoAiENwMQIAEoAgAgASgCBCACQQE2AiwgAkGc88QANgIoIAJBATYCJCACQQE2AhwgAkGU88QANgIYIAIgAkEQajYCICACQRhqEMEDDBsLIAIgAEEBajYCDCACIAJBDGqtQoCAgICgCIQ3AxAgASgCACABKAIEIAJBATYCLCACQZzzxAA2AiggAkEBNgIkIAJBATYCHCACQczzxAA2AhggAiACQRBqNgIgIAJBGGoQwQMMGgsgASgCAEHU88QAQR0gASgCBCgCDBEAAAwZCyACIABBAWo2AgwgAiACQQxqrUKAgICAoAiENwMQIAEoAgAgASgCBCACQQE2AiwgAkGc88QANgIoIAJBATYCJCACQQE2AhwgAkGI9MQANgIYIAIgAkEQajYCICACQRhqEMEDDBgLIAEoAgBBkPTEAEERIAEoAgQoAgwRAAAMFwsgASgCAEGh9MQAQSYgASgCBCgCDBEAAAwWCyABKAIAQcf0xABBGiABKAIEKAIMEQAADBULIAEoAgBB4fTEAEEZIAEoAgQoAgwRAAAMFAsgASgCAEH69MQAQQ8gASgCBCgCDBEAAAwTCyABKAIAQYn1xABBEyABKAIEKAIMEQAADBILIAIgAEEBajYCDCACIAJBDGqtQoCAgICwCIQ3AxAgASgCACABKAIEIAJBATYCLCACQZzzxAA2AiggAkEBNgIkIAJBATYCHCACQbj1xAA2AhggAiACQRBqNgIgIAJBGGoQwQMMEQsgAiAAQQFqNgIMIAIgAkEMaq1CgICAgMAIhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBATYCHCACQeT1xAA2AhggAiACQRBqNgIgIAJBGGoQwQMMEAsgAiAAQQFqNgIMIAIgAkEMaq1CgICAgMAIhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBATYCHCACQYj2xAA2AhggAiACQRBqNgIgIAJBGGoQwQMMDwsgASgCAEGQ9sQAQRQgASgCBCgCDBEAAAwOCyABKAIAQaT2xABBESABKAIEKAIMEQAADA0LIAEoAgBBtfbEAEERIAEoAgQoAgwRAAAMDAsgAiAAQQFqNgIMIAIgAkEMaq1CgICAgNAIhDcDECABKAIAIAEoAgQgAkEBNgIsIAJBnPPEADYCKCACQQE2AiQgAkEBNgIcIAJB3PbEADYCGCACIAJBEGo2AiAgAkEYahDBAwwLCyABKAIAQeT2xABBGCABKAIEKAIMEQAADAoLIAIgAEEBajYCDCACIAJBDGqtQoCAgIDACIQ3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkGY98QANgIYIAIgAkEQajYCICACQRhqEMEDDAkLIAIgAEEBajYCDCACIAJBDGqtQoCAgIDgCIQ3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkHE98QANgIYIAIgAkEQajYCICACQRhqEMEDDAgLIAIgAEEBajYCDCACIAJBDGqtQoCAgIDgCIQ3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkHw98QANgIYIAIgAkEQajYCICACQRhqEMEDDAcLIAIgAEEBajYCDCACIAJBDGqtQoCAgIDgCIQ3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkGc+MQANgIYIAIgAkEQajYCICACQRhqEMEDDAYLIAEoAgBBpPjEAEEYIAEoAgQoAgwRAAAMBQsgAiAAQQRqNgIMIAIgAkEMaq1CgICAgMAHhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBATYCHCACQdT4xAA2AhggAiACQRBqNgIgIAJBGGoQwQMMBAsgAiAAQQRqNgIMIAIgAkEMaq1CgICAgMAHhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBATYCHCACQfD4xAA2AhggAiACQRBqNgIgIAJBGGoQwQMMAwsgASgCAEH4+MQAQRUgASgCBCgCDBEAAAwCCyABKAIAQY35xABBEiABKAIEKAIMEQAADAELIAEoAgBBn/nEAEEOIAEoAgQoAgwRAAALIAJBMGokAAvZDAILfwV9QwAAgD8hDwJ/AkAgASgCACIIIAJBBGooAgAiBSgCCCIHSQRAIAFBBGsiCygCACEBIAUoAgQiCSAIQRhsaiIDLQATIgQgAy0AEiIGIAMtABEiCiAGIApLGyIGIAQgBksbIgQEfUMAAEDBIAUqAkQgBS0AWEECRiIGGyIOQwAAEEEgBSoCSCAGGyAOk0MAAH5DlSAEQQFrQf8BcbOUkhCJBCIOIA6SBUMAAAAACyERIANBDGovAQAiBEH//wFxRQRAIARBEHQMAwsgBEH/B3EhAyAEQYCAAnEhBiAEQYD4AXEiBEGA+AFGBEAgBkEQdCIEQYCAgPwHciADRQ0DGiAEIANBDXRyQYCAgP4HcgwDCyAGQRB0IQYgBEUNASAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogBnIMAgsgCCAHQdy7xwAQjAcACyADIANnQRBrIgNB//8DcUEIanRB////A3EgBkGAgIDYA3IgA0EXdGtyC74iDkMAAIA/XgRAIA4QxgVDVPgtQJRDAACAP5KRIQ8LQwAAgD8hDgJ/AkAgASAHSQRAIAkgAUEYbGoiAy0AEyIEIAMtABIiByADLQARIgYgBiAHSRsiByAEIAdLGyIEBH1DAABAwSAFKgJEIAUtAFhBAkYiBxsiEEMAABBBIAUqAkggBxsgEJNDAAB+Q5UgBEEBa0H/AXGzlJIQiQQiECAQkgVDAAAAAAshECADQQxqLwEAIgNB//8BcUUEQCADQRB0DAMLIANB/wdxIQUgA0GAgAJxIQQgA0GA+AFxIgNBgPgBRgRAIARBEHQiA0GAgID8B3IgBUUNAxogAyAFQQ10ckGAgID+B3IMAwsgBEEQdCEEIANFDQEgA0ENdEGAgID8AHEgBUENdHJBgICAwANqIARyDAILIAEgB0Hcu8cAEIwHAAsgBSAFZ0EQayIFQf//A3FBCGp0Qf///wNxIARBgICA2ANyIAVBF3Rrcgu+IhJDAACAP14EQCASEMYFQ1T4LUCUQwAAgD+SkSEOCyARIA+UIg8gD1wgDyAQIA6UYHJFBEAgAkEEaiEJIAhBGGwhCgNAAkAgCyICQQRqIAE2AgAgACACRg0AQwAAgD8hDwJ/AkAgCSgCACIFKAIIIgcgCEsEQCACQQRrIgsoAgAhASAFKAIEIgwgCmoiAy0AEyIEIAMtABIiBiADLQARIg0gBiANSxsiBiAEIAZLGyIEBH1DAABAwSAFKgJEIAUtAFhBAkYiBhsiDkMAABBBIAUqAkggBhsgDpNDAAB+Q5UgBEEBa0H/AXGzlJIQiQQiDiAOkgVDAAAAAAshESADQQxqLwEAIgRB//8BcUUEQCAEQRB0DAMLIARB/wdxIQMgBEGAgAJxIQYgBEGA+AFxIgRBgPgBRgRAIAZBEHQiBEGAgID8B3IgA0UNAxogBCADQQ10ckGAgID+B3IMAwsgBkEQdCEGIARFDQEgBEENdEGAgID8AHEgA0ENdHJBgICAwANqIAZyDAILIAggB0Hcu8cAEIwHAAsgAyADZ0EQayIDQf//A3FBCGp0Qf///wNxIAZBgICA2ANyIANBF3Rrcgu+Ig5DAACAP14EQCAOEMYFQ1T4LUCUQwAAgD+SkSEPC0MAAIA/IQ4CfwJAIAEgB0kEQCAMIAFBGGxqIgMtABMiBCADLQASIgcgAy0AESIGIAYgB0kbIgcgBCAHSxsiBAR9QwAAQMEgBSoCRCAFLQBYQQJGIgcbIhBDAAAQQSAFKgJIIAcbIBCTQwAAfkOVIARBAWtB/wFxs5SSEIkEIhAgEJIFQwAAAAALIRAgA0EMai8BACIDQf//AXFFBEAgA0EQdAwDCyADQf8HcSEFIANBgIACcSEEIANBgPgBcSIDQYD4AUYEQCAEQRB0IgNBgICA/AdyIAVFDQMaIAMgBUENdHJBgICA/gdyDAMLIARBEHQhBCADRQ0BIANBDXRBgICA/ABxIAVBDXRyQYCAgMADaiAEcgwCCyABIAdB3LvHABCMBwALIAUgBWdBEGsiBUH//wNxQQhqdEH///8DcSAEQYCAgNgDciAFQRd0a3ILviISQwAAgD9eBEAgEhDGBUNU+C1AlEMAAIA/kpEhDgsgESAPlCIPIA9cDQAgDyAQIA6UYEUNAQsLIAIgCDYCAAsLkAwCCX8BfSMAQYABayIIJAACfwJAIAAoAggiBiABSwRAIAAoAgQgAUEYbGoiBi0AEyIFIAYtABIiByAGLQARIgkgByAJSxsiByAFIAdLGyIFBH1DAABAwSAAKgJEIAAtAFhBAkYiBxsiDkMAABBBIAAqAkggBxsgDpNDAAB+Q5UgBUEBa0H/AXGzlJIQiQQiDiAOkgVDAAAAAAshDiAGQQxqLwEAIgVB//8BcUUEQCAFQRB0DAMLIAVB/wdxIQYgBUGAgAJxIQcgBUGA+AFxIgVBgPgBRgRAIAdBEHQiBUGAgID8B3IgBkUNAxogBSAGQQ10ckGAgID+B3IMAwsgB0EQdCEHIAVFDQEgBUENdEGAgID8AHEgBkENdHJBgICAwANqIAdyDAILIAEgBkHcu8cAEIwHAAsgBiAGZ0EQayIGQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIAZBF3RrcgshBgJAAkACQCAOIAa+Ig5DAACAP14EfSAOEMYFQ1T4LUCUQwAAgD+SkQVDAACAPwuUIANdRQRAIAggACgCECIFIAAoAhQiByABEOcCAkAgCCgCJCIGQQlPBEAgCCgCBCIKDQEgCCgCCCIAQQRrKAIAIgFBeHEiAiAGQQJ0IgRBBEEIIAFBA3EiARtqSQ0EIAFBACACIARBJ2pLGw0FIAAQogIMAwsgBiIKRQ0CCyAIQShqIAIoAggiCSAJIApqEIwDIAUgByABAn8gCCgCTCIKQQlPBEAgCCgCLCEKIAgoAjAMAQsgCEEsagsgChDUAiAIQQRqIQECfyAGQQlJBEAgCEEkaiEFIAEMAQsgASEFIAgoAggLIQcCQCAFKAIAIgVBAkkNACAFQRVPBEAgByAFEMEFDAELIAdBBGohBgJAIAVBAXEEQCAGIQkgByEGDAELIAcoAgQiCSAHKAIAIgtJBEAgByAJNgIAIAcgCzYCBAsgB0EIaiEJCyAFQQJGDQAgByAFQQJ0aiENIAlBBGohDANAIAkoAgAiCiAGKAIAIgVJBEAgCSELAn8DQCALIAU2AgAgByAGIAdGDQEaIAYhCyAKIAZBBGsiBigCACIFSQ0ACyAGQQRqCyAKNgIAIAkoAgAhCgsgCiAJKAIEIgtLBEAgDCEFA0ACQCAFIAo2AgAgByAFQQRrIgZGBEAgByEGDAELIAVBCGshCiAGIQUgCyAKKAIAIgpJDQELCyAGIAs2AgALIAlBBGohBiAMQQhqIQwgCUEIaiIJIA1HDQALCyAIKAIkIgchBSAHQQlPBEAgCCgCBCEFIAgoAgghAQsgBQRAIAVBAnQhBiACKAIIIgVBAnQhBwNAIAEoAgAhCSACKAIAIAVGBEAgAkGA5sEAEIsGCyABQQRqIQEgAigCBCAHaiAJNgIAIAIgBUEBaiIFNgIIIAdBBGohByAGQQRrIgYNAAsgCCgCJCEHCyAIKAIEIQUgCEHwAGogCEEgaigCADYCACAIQegAaiAIQRhqKQIANwIAIAggCP0AAgj9CwJYIAggBSAHIAdBCEsiARsiBjYCfCAIIAdBACABGzYCdCAIQQAgBSABGzYCVAJAAkAgBgRAIAdBCU8EQCAIKAJYIgYhAQNAIAAgASgCACACIAMgBBDLASABQQRqIQEgBUEBayIFDQALDAILIAhB1ABqIQFBACEFA0AgCCAFQQFqIgU2AnggACABKAIAIAIgAyAEEMsBIAFBBGohASAFIAdHDQALDAILIAdBCUkNASAIKAJYIQYLIAZBBGsoAgAiAEF4cSIBIAdBAnQiAkEEQQggAEEDcSIAG2pJDQMgAEEAIAEgAkEnaksbDQQgBhCiAgsgCCgCTCIAQQlJDQEgCCgCMCIBQQRrKAIAIgJBeHEiBCAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIABBJ2pLGw0DIAEQogIMAQsgBCgCCCIAIAQoAgBGBEAgBEGQ5sEAEIsGCyAEKAIEIABBAnRqIAE2AgAgBCAAQQFqNgIICyAIQYABaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALshADB38BfgF7IwBBMGsiAyQAAkACQCAAKAIAIgZFBEAgACgCECIARQ0BIABBk7PFAEEBEJcDIQQMAgsgACAAKAIMQQFqIgQ2AgwCQAJAAkACQAJAAkACQAJAIARB9QNPBEAgACgCECIBRQ0BIAFB+rLFAEEZEJcDRQ0BDAgLAkACQAJAAkAgACgCCCICIAAoAgQiCE8EQCAAKAIQIgFFDQEgAUHqssUAQRAQlwMNDAwBC0EBIQQgACACQQFqIgc2AggCQAJAAkACQAJAAkAgAiAGai0AACIFQckAaw4GAgEBAQgFAAsCQCAFQcIAaw4CAwQACyAFQdgAaw4CBwsACyAAKAIQIgFFDQQgAUHqssUAQRAQlwNFDQQMEQsgACABEMwBDRAgAQ0GDAwLIwBBIGsiAiQAAkACQCAAKAIARQRAIAAoAhAiAUUNASABQZOzxQBBARCXAyEBDAILIAIgABCvBiACKAIARQRAIAAoAhAiBQRAQQEhASAFQfqyxQBB6rLFACACLQAEQQFxIgUbQRlBECAFGxCXAw0DCyAAIAL9AAIA/QsCAAwBCyAAKAIQRQ0AIAD9AAIAIQogACAC/QACAP0LAgAgAiAK/QsDECAAIAFBAXEQzAEhASAAIAL9AAMQ/QsCAAwBC0EAIQELIAJBIGokACABRQ0MDA8LIANBIGogAEHzABCsBiADLQAgQQFGBEAgAy0AISEBIAAoAhAiAgRAIAJB+rLFAEHqssUAIAFBAXEiAhtBGUEQIAIbEJcDDRALIAAgAToABAwKCyAAKAIARQRAIAAoAhAiAEUNDiAAQZOzxQBBARCXAyEEDA8LIAMpAyghCSADQSBqIAAQ7wIgAygCIEUEQCADLQAkIQEgACgCECICBEAgAkH6ssUAQeqyxQAgAUEBcSICG0EZQRAgAhsQlwMNEAsgACABOgAEDAoLIAMgA/0AAiD9CwMAIAAoAhAiAUUNCyADIAEQiwINDCAAKAIQIgFFIAlQcg0LIAEoAghBgICABHENCyABKAIAQeiyxQBBASABKAIEKAIMEQAADQ4gACgCECMAQRBrIgIkAEERIQEDQCABIAJqQQJrIAmnQQ9xLQDctkU6AAAgAUEBayEBIAlCD1YgCUIEiCEJDQALQQFBhLTFAEECIAEgAmpBAWtBESABaxDIAyACQRBqJAANDiAAKAIQIgEoAgBB6bLFAEEBIAEoAgQoAgwRAAANDgwLCyAHIAhJBEAgACACQQJqNgIIIAYgB2otAAAiAkHBAGtB/wFxQRpJDQIgAkHhAGtBgIDEACECQf8BcUEaSQ0CCyAAKAIQIgFFDQAgAUHqssUAQRAQlwMNCwtBACEEIABBADoABCAAQQA2AgAMDAtBASEEIAAgARDMAQ0LAkAgACgCAA0AIAAoAhAiAUUNCyABQZSzxQBBAhCXAw0MIAAoAgANAEEAIQQgACgCECIARQ0MIABBk7PFAEEBEJcDIQQMDAsgA0EgaiAAQfMAEKwGIAMtACBBAUYEQCADLQAhIQEgACgCECICBEAgAkH6ssUAQeqyxQAgAUEBcSICG0EZQRAgAhsQlwMNDQsgACABOgAEDAcLIAAoAgBFBEAgACgCECIARQ0LIABBk7PFAEEBEJcDIQQMDAsgAykDKCEJIANBIGogABDvAiADKAIgRQRAIAMtACQhASAAKAIQIgIEQCACQfqyxQBB6rLFACABQQFxIgIbQRlBECACGxCXAw0NCyAAIAE6AAQMBwsgAyAD/QACIP0LAxACQAJAAkAgAkGAgMQARwRAIAAoAhAiAQRAIAFBlrPFAEEDEJcDDQ4LIAJBwwBGDQEgAkHTAEYNAiADIAI2AiAgACgCECIBRQ0DIANBIGogARCoBQ0NDAMLIAMoAhQgAygCHHJFDQsgACgCECIBRQ0LIAFBlLPFAEECEJcDDQ4gACgCECIBRQ0LIANBEGogARCLAkUNCwwOCyAAKAIQIgFFDQEgAUGZs8UAQQcQlwMNCwwBCyAAKAIQIgFFDQAgAUGgs8UAQQQQlwMNCgsgACgCECECIAMoAhQgAygCHHJFDQUgAkUNCCACQdD4xwBBARCXAw0LIAAoAhAiAUUNCCADQRBqIAEQiwINCyAAKAIQIQIMBQsgA0EgaiAAQfMAEKwGIAMtACBBAUcNAiADLQAhIQEgACgCECICBEAgAkH6ssUAQeqyxQAgAUEBcSICG0EZQRAgAhsQlwMNCwsgACABOgAEDAULIAAoAhAiAUUNBSABQZSzxQBBAhCXA0UNBQwJCyAAQQE6AAQMAwsjAEEQayIBJAAgACgCECECIABBADYCECAAQQAQzAEEQEGotMUAQT0gAUEPakGYtMUAQei0xQAQ4AYACyAAIAI2AhAgAUEQaiQACyAAKAIQIgEEQCABQaazxQBBARCXAw0HCyAAEIYCDQQgBUHNAEcEQCAAKAIQIgEEQCABQaezxQBBBBCXAw0GCyAAQQAQzAENBwsgACgCECIBRQ0DIAFBq7PFAEEBEJcDRQ0DDAYLIAJFDQIgAkGks8UAQQEQlwMNBSAAKAIQIQEgAyAJNwMgIAFFDQIgA0EgaiABEIUFDQUgACgCECIBRQ0CIAFBpbPFAEEBEJcDRQ0CDAULQQAhBCAAQQA2AgAMBAsgACgCECIBBEAgAUGms8UAQQEQlwMNBAsgABDuBA0DIAAoAhAiAUUNACABQauzxQBBARCXAw0DC0EAIQQgACgCAEUNAiAAIAAoAgxBAWs2AgwMAgtBASEEDAELQQAhBAsgA0EwaiQAIAQLkB4CFH8CfiMAQeAAayIIJAAgAUFAayEKAkACQCABLQBgIgdBB0sNACAIQdAAaiAKEI4CAkAgCC0AUCIHQR1GBEAgAS0AYCIHQQhPDQJBDyEHDAELIAggCCkBUjcDACAIIAhB2ABqKQEANwEGIAgtAFEhAQsgACABOgABIAAgBzoAACAAIAgpAwA3AQIgAEEIaiAIKQEGNwEADAELIAEgB0EIayIHOgBgIAEgASkDQCIaQgiIIhs3A0ACQAJAAkACQCAapyIGQf8BcUEvRgRAIAdB/wFxQQ1LDQQgCEHQAGogChCOAiAILQBQIgdBHUcNASABLQBgIgdBDk8NA0EPIQcMAgsgACAGOgABIABBCzoAAAwECyAIQRhqIAhB3ABqKAIANgIAIAggCCkCVDcDECAILwFSIQEgCC0AUSEKCyAAIAE7AQIgACAKOgABIAAgBzoAACAAIAgpAxA3AgQgAEEMaiAIQRhqKAIANgIADAILIAopAwAhGwsgASAHQQ5rIgc6AGAgASAbQg6IIho3A0AgASAbp0H//wBxQQFqIgY7AXQgB0H/AXFBDU0EQCAIQdAAaiAKEI4CAkACQCAILQBQIgdBHUYEQCABLQBgIgdBDk8NAkEPIQcMAQsgCEEoaiAIQdwAaigCADYCACAIIAgpAlQ3AyAgCC8BUiEBIAgtAFEhCgsgACABOwECIAAgCjoAASAAIAc6AAAgACAIKQMgNwIEIABBDGogCEEoaigCADYCAAwCCyABKQNAIRogAS8BdCEGCyABIAdBDmsiBzoAYCABIBpCDogiGzcDQCABIBqnQf//AHFBAWoiCTsBdgJAIAIgBkH//wNxRyADIAlHckUEQCAHQf8BcUUEQCAIQdAAaiAKEI4CAkACQCAILQBQIgdBHUYEQCABLQBgIgcNAkEPIQcMAQsgCCAIKQFSNwMwIAggCEHYAGopAQA3ATYgCC0AUSEBCyAAIAE6AAEgACAHOgAAIAAgCCkDMDcBAiAAQQhqIAgpATY3AQAMBAsgCikDACEbCyABIAdBAWsiAjoAYCABIBtCAYgiGjcDQAJAAkAgB0H/AXFBA00EQCAIQdAAaiAKEI4CIAgtAFAiB0EdRw0BIAEtAGAiAkEDSQRAQQ8hBwwDCyAKKQMAIRoLIAEgAkEDazoAYCABIBpCA4g3A0AgGqdBB3EiAkUNAyAAIAI6AAEgAEEMOgAADAQLIAggCCkBUjcDQCAIIAhB2ABqKQEANwFGIAgtAFEhAQsgACAIKQNANwECIABBCGogCCkBRjcBACAAIAE6AAEgACAHOgAADAILIABBFzoAAAwBCyAIQdAAaiELQQAhByMAQeAAayIGJAAgASIDQegAaiEZIANBQGshESADLwF0IRICQAJAA0ACQAJAAkACQAJAAkACQCADLQBgIgkNACAGQcwAaiAREI4CIAsCfyAGLQBMIglBHUYEQCADLQBgIgkNAkEPIQlBAQwBCyAGIAYpAU43AwAgBiAGQdQAaikBADcBBiAGLQBNCzoAASALIAk6AAAgCyAGKQMANwECIAtBCGogBikBBjcBAAwBCyADIAlBAWsiAjoAYCADIAMpA0AiG0IBiCIaNwNAIBtCAYNQRQRAIAlBAk0EQCAGQcwAaiAREI4CAkACQCAGLQBMIglBHUYEQCADLQBgIgJBAk8NAkEPIQkMAQsgBiAGKQFONwMQIAYgBkHUAGopAQA3ARYgBi0ATSEQCyALIBA6AAEgCyAJOgAAIAsgBikDEDcBAiALQQhqIAYpARY3AQAMAwsgESkDACEaCyADIAJBAms6AGAgAyAaQgKINwNAIAMgGqdBA3EiEEEEdGoiDS0AAEEERwRAIAtBEDoAAAwCCyADKAJwIgIgAygCaEYEQCAZQYj7xgAQpwYLIAMoAmwgAmogEDoAACADIAJBAWo2AnACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgEEEBaw4DARECAAsgAy0AYCIJQQJLDQQgBkHMAGogERCOAiAGLQBMIglBHUcNAiADLQBgIglBA08NBEEPIQkMAwsgAy0AYCIJQQJLDQYgBkHMAGogERCOAiAGLQBMIglBHUcNBCADLQBgIglBA08NBkEPIQkMBQsgAy0AYCIJQQdLDQggBkHMAGogERCOAiAGLQBMIglBHUcNBiADLQBgIglBCE8NCEEPIQkMBwsgBiAGKQFONwMgIAYgBkHUAGopAQA3ASYgBi0ATSEXCyALIBc6AAEgCyAJOgAAIAsgBikDIDcBAiALQQhqIAYpASY3AQAMCAsgAyAJQQNrOgBgIAMgAykDQCIaQgOINwNAQX8gGqdBB3EiF0ECaiIPdEF/cyICIBJB//8DcWogD3YiCiACIAMvAXZqIA92IglsIgJBAnQhDAJAIAJFBEBBASEHDAELIAwQcSIHRQ0KIAdBBGstAABBA3FFIAxFcg0AIAdBACAM/AsACyAGQcwAaiADIAogCUEAIAcgDBA6IAYtAEwiCkEdRg0LIAsgBikATTcAASALQQhqIAZB1ABqKQAANwAAIAsgCjoAACACRQ0HIAdBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAxqSQ0MIAJBACADIAxBJ2pLGw0OIAcQogIMBwsgBiAGKQFONwMwIAYgBkHUAGopAQA3ATYgBi0ATSEYCyALIBg6AAEgCyAJOgAAIAsgBikDMDcBAiALQQhqIAYpATY3AQAMBQsgAyAJQQNrOgBgIAMgAykDQCIaQgOINwNAQX8gGqdBB3EiGEECaiIPdEF/cyICIBJB//8DcWogD3YiCiACIAMvAXZqIA92IglsIgJBAnQhDAJAIAJFBEBBASEHDAELIAwQcSIHRQ0HIAdBBGstAABBA3FFIAxFcg0AIAdBACAM/AsACyAGQcwAaiADIAogCUEAIAcgDBA6IAYtAEwiCkEdRg0IIAsgBikATTcAASALQQhqIAZB1ABqKQAANwAAIAsgCjoAACACRQ0EIAdBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAxqSQ0JIAJBACADIAxBJ2pLGw0FIAcQogIMBAsgBkHIAGogBkHYAGooAgA2AgAgBiAGKQJQNwNAIAYvAU4hDiAGLQBNIQMLIAsgDjsBAiALIAM6AAEgCyAJOgAAIAsgBikDQDcCBCALQQxqIAZByABqKAIANgIADAILIAMgCUEIazoAYCADIAMpA0AiGkIIiDcDQCAapyICQf8BcSIOQQFqIhNBAnQiDBBxIgdFDQMgB0EEayIULQAAQQNxRSAMRXJFBEAgB0EAIAz8CwALIAZBzABqIAMgE0EBQQAgByAMEDogBi0ATCIKQR1HBEAgCyAGKQBNNwABIAtBCGogBkHUAGopAAA3AAAgCyAKOgAAIBQoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAxqSQ0HIAJBACADIAxBJ2pLGw0JIAcQogIMAgsgEkH//wNxQQECf0EDIA5BAkkNABpBAiAOQQRJDQAaIA5BEEkLIgp0akEBayAKdiISQf//A00EQCAORQRAQQEhE0EAIQ4MBwtBBCEJIAJBAnRB/AdxIhVBAWsiAiAMIAIgDEkbIgJBBE8EQCACQQFqIgpBA3EiCUEEIAkbIgkgAkF/c2ohFiAKIAlrQQRqIQkgByECA0AgAkEEaiIKIAL9XAAAIAr9XAAA/W79WgAAACAKIQIgFkEEaiIWDQALCyAVQQhqIQIgFUEEaiEKA0AgAiAJRg0GIAkgFGoiFUEEaiIWIBUtAAAgFi0AAGo6AAAgCUEBaiIJIApHDQALDAYLQdjmyABBKyAGQd8AakGY+8YAQaj7xgAQ4AYACyALQR06AAAgCyASOwECCyAGQeAAaiQADAcLQYyNyABBLkG8jcgAEOsHCwALIAlBBGsgDEG4+8YAEIwHAAsCQAJAIA0tAAAiAkEERiACQQJGcg0AIA0oAgQiAkUNACANKAIIIgpBBGsoAgAiCUF4cSIUQQRBCCAJQQNxIgkbIAJqSQ0BIAlBACAUIAJBJ2pLGw0EIAoQogILIA0gDDYCDCANIAc2AgggDSAMNgIEIA0gEzsBAiANIA86AAEgDSAQOgAADAILCwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAgtAFAiAkEdRwRAIAAgCCkCVDcCBCAAQQxqIAhB3ABqKAIANgIAIAgtAFEhASAAIAgvAVI7AQIgACABOgABIAAgAjoAAAwBCyAFIAgvAVIiCSABLwF2IgJsQQJ0IgNPBEAgCEHQAGogASAJIAJBASAEIAMQOiAILQBQIgJBHUcEQCAAIAgpAFE3AAEgAEEIaiAIQdgAaikAADcAACAAIAI6AAAMAgsgASgCcCICBEAgBEEEaiELIAEoAmwiDCACaiEGA0ACQAJAAkACQAJAAkACQAJAIAZBAWsiBi0AACICQQRJBEAgASACQQR0aiICLQAAQQFrDgQEBQIBAwsgAkEEQaj6xgAQjAcAC0G4+sYAEN0JAAsgBCAFIAEvAXQiCSABLwF2IgMgAi8BAiACKAIIIAIoAgwQSiADIAlsQQJ0IQMMBQsgAyAFSw0DIAhB0ABqIAQgAyAJIAEvAXYgAi0AASACKAIIIAIoAgwQTiAILQBQIgJBHUYNBCAAIAgpAFE3AAEgAEEIaiAIQdgAaikAADcAACAAIAI6AAAMCAsgAyAFSw0BIAQgAyAJIAItAAEgAigCCCACKAIMEJcCDAMLIAMgBU0EQCADQXxxIgpFDQMgA0EEayICQQRxBH8gBAUgBCAELQABIgcgBC0AAGo6AAAgBCAHIAQtAAJqOgACIAJBBEkNBCAKQQRrIQogCwshBwNAIAcgB0EBai0AACICIActAABqOgAAIAdBAmoiDSACIA0tAABqOgAAIAdBBGoiAiAHQQVqLQAAIg0gAi0AAGo6AAAgB0EGaiICIA0gAi0AAGo6AAAgB0EIaiEHIApBCGsiCg0ACwwDC0EAIAMgBUHo+sYAEOoHAAtBACADIAVB2PrGABDqBwALQQAgAyAFQcj6xgAQ6gcACyAGIAxHDQALCyAAQR06AAAMAQtBACADIAVB+PrGABDqBwALIAhB4ABqJAAL7g4CDH8DfiMAQTBrIgIkAAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCACIEQYCAgIB4cyAEQQBOG0EUaw4CAQIACyABIAJBL2pB1OPAABCVCCEBIABBgICAgHg2AgAgACABNgIEDAYLIAEoAgwiBkUNAgJAIAEoAggiBSgCAEGUgICAeEYEQAJAIAUoAgwiAQRAIAJBHGogBSgCCBCoAyACKAIcIgRBgICAgHhHDQEgAigCICEBDAgLQQAgAkEvakGE4sAAENsGIQEMBwsgAigCICEHIAFBAUYNASACQQE2AhwgAUEBa0H/////AHFBAWogAkEcakHolcEAENsGIQEgBEUNBiAHIARBARCiBwwGCyAFIAJBL2pBhOLAABCVCCEBDAULIAZBAUYNASACKAIkIQkgAkEcaiIDIAVBEGoQ0wIgAigCICEBIAIoAhwNAwJAIAZBAkcEQCACKQIkIQ4gAyAFQSBqENMCIAIoAiAhBSACKAIcRQ0BIAUhAQwFC0ECQcSAwQBBgP3AABDbBiEBDAQLIAZBA0cEQCACQQM2AhwgBkH9////AGpB/////wBxQQNqIAJBHGpB6JXBABDbBiEBIABBgICAgHg2AgAgACABNgIEIARFDQYgByAEQQEQogcMBgsgACACKQIkNwIcIAAgBTYCGCAAIA43AhAgACABNgIMIAAgCTYCCCAAIAc2AgQgACAENgIADAULIAEoAgQhBCABKAIIIQEgAkEANgIYIAIgBCABQQV0aiILNgIQAkACQCABRQ0AQYCAgIB4IQgDQCACIARBIGoiATYCDCACIAIoAhhBAWo2AhggAiAEQRBqIgw2AhQCQAJAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkBBFSAEKAIAIgNBgICAgHhzIANBAE4bQQFrDg8ADg4BDg4ODg4ODgIDBAUOCyAELQAEDgMKBQcPCyAEKQMIIg5CAlYNDiAOp0EBaw4CBAYJCyAEKAIIIQMCQCAEKAIMQQRrDgIACA4LIAMoAABB7dK5mwdGDQMgAygAAEHtwuGbB0YNBQwNCyAEKAIEIQMCQCAEKAIIQQRrDgIABg0LIAMoAABB7dK5mwdGDQIgAygAAEHtwuGbB0YNBAwMCyAEKAIIIQMCQAJAIAQoAgxBBGsOAgEADQsgAy0AAEHmAEcNDCADLQABQekARw0MIAMtAAJB7ABHDQwgAy0AA0HlAEcNDCADLQAEQfMARw0MDAcLIAMtAABB7QBHDQsCQAJAIAMtAAFB4QBrDgkBDQ0NDQ0NDQANCyADLQACQe4ARw0MIAMtAANB8wBGDQIMDAsgAy0AAkH4AEcNCyADLQADQfMARg0DDAsLIAQoAgQhAwJAAkAgBCgCCEEEaw4CAQAMCyADLQAAQeYARw0LIAMtAAFB6QBHDQsgAy0AAkHsAEcNCyADLQADQeUARw0LIAMtAARB8wBHDQsMBgsgAy0AAEHtAEcNCgJAIAMtAAFB4QBrDgkCCwsLCwsLCwALCyADLQACQe4ARw0KIAMtAANB8wBHDQoLIAZFDQVBlf3AAEEEEJ8HDAgLIAMtAAJB+ABHDQggAy0AA0HzAEcNCAsgCkUNBEGZ/cAAQQQQnwcMBgsgA0GQ/cAAQQUQ2wdFDQEMBgsgA0GQ/cAAQQUQ2wcNBQsgCEGAgICAeEcEQEGQ/cAAQQUQnwcMBAsgAkEcaiACQQxqELIFIAIoAiAhByACKAIcIghBgICAgHhGBEAgByEFDAkLIAIoAiQhDSACKAIQIQsgAigCDCEBDAULIAJBADYCFCACQRxqIAwQ0wIgAigCICIFIAIoAhxBAUYNAhogAikCJCEPQQEhBgwECyACQQA2AhQgAkEcaiAMENMCIAIoAiAhCSAJIAIoAhxBAUYNARogAikCJCEQQQEhCgwDCyAEIAJBL2pBhOTAABCVCAshBSAIQYCAgIB4ckGAgICAeEYNBAJAIAdBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAhqTwRAIAFBACAEIAhBJ2pLGw0BIAcQogIMBgtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAJBADYCFAsgCyABIgRHDQALIAhBgICAgHhGDQAgBkEAIAobRQRAQZn9wABBlf3AACAGG0EEEJwHIQUgCEUNAiAHIAhBARCiBwwCCyAAIBA3AhwgACAJNgIYIAAgDzcCECAAIAU2AgwgACANNgIIIAAgBzYCBCAAIAg2AgAMBgtBkP3AAEEFEJwHIQULIAAgBTYCBCAAQYCAgIB4NgIADAQLQQFBxIDBAEGA/cAAENsGIQEMAQtBAEHEgMEAQYD9wAAQ2wYhAQwBCyAERQ0AIAdBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIARqSQ0CIAVBACAGIARBJ2pLGw0DIAcQogILIAAgATYCBCAAQYCAgIB4NgIACyACQTBqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAukDAISfgh/IwBB4ABrIhUkAAJAAn8CQAJAAkACQAJAAkACQCABKQMAIgNQRQRAIAEpAwgiBFANASABKQMQIgVQDQIgBSADQn+FVg0DIAMgBFQNBCADIAV8IgVCgICAgICAgIAgWg0FIBUgAS8BGCIBOwE4IBUgAyAEfSIHNwMwIBUgByAFeSIEhiIIIASIIgY3A0AgBiAHUg0JIBUgATsBOCAVIAM3AzAgFSADIARCP4MiB4YiBiAHiCIHNwNAIAMgB1INCUGgfyABIASnayIXa8FB0ABsQbCnBWpBzhBtIgFB0QBPDQYgFUEgaiABQQR0IgEpA4iFQiIDIAUgBIYQ3QYgFUEQaiADIAgQ3QYgFSADIAYQ3QZCAUEAIBcgAS8BkIVCamtBP3GtIgaGIghCAX0hCiAVKQMQQj+HIQwgFSkDAEI/iCEOIBUpAwghDyABLwGShUIhFyAVKQMYIRAgFSkDKCITIBUpAyBCP4giFHwiEUIBfCIJIAaIpyIWQZDOAE8EQCAWQcCEPUkNCCAWQYDC1y9PBEBBCEEJIBZBgJTr3ANJIgEbIRlBgMLXL0GAlOvcAyABGwwKC0EGQQcgFkGAreIESSIBGyEZQcCEPUGAreIEIAEbDAkLIBZB5ABPBEBBAkEDIBZB6AdJIgEbIRlB5ABB6AcgARsMCQtBCkEBIBZBCUsiGRsMCAtB2I/CAEEcQaSQwgAQ6wcAC0G0kMIAQR1B1JDCABDrBwALQeSQwgBBHEGAkcIAEOsHAAtBuJLCAEE2QfCSwgAQ6wcAC0HwkcIAQTdBqJLCABDrBwALQZCRwgBBLUHAkcIAEOsHAAsgAUHRAEGYj8IAEIwHAAtBBEEFIBZBoI0GSSIBGyEZQZDOAEGgjQYgARsLIQEgCSAKgyEEIA4gD3whCyAZIBdrQQFqIRsgDCAQfSAJfEIBfCINIAqDIQUCQAJAAkACQAJAAkACQAJAAkADQCACIBhqIBYgAW4iHEEwaiIaOgAAIBhBAWohFyANIBYgASAcbGsiFq0gBoYiEiAEfCIDVg0CIBggGUYEQCAXIQFCASEDA0AgAyEHIAFBEUYNBSABIAJqIARCCn4iBCAGiKdBMGoiGDoAACABQQFqIQEgA0IKfiEDIAVCCn4iBSAEIAqDIgRYDQALIAUgBH0iCiAIVCEWIAMgCSALfX4iCSADfCEGIAQgCSADfSIJWg0HIAggClgNAgwHCyABQQpJIBchGCABQQpuIQFFDQALQdCRwgAQgQgACyABIAJqQQFrIRcgBSAIfSELIAggCX0hDUIAIAR9IQoDQCAEIAh8IgMgCVQgCSAKfCAEIA18WnJFBEBBACEWDAYLIBcgGEEBayIYOgAAIAogC3wiDCAIVCEWIAMgCVoNBiAKIAh9IQogAyEEIAggDFgNAAsMBQsgDSADfSIFIAGtIAaGIgdUIQEgCSALfSIGQgF8IQggBSAHVCADIAZCAX0iCVpyDQEgAiAXakEBayEYIAwgEXwgEH0gBCAHfCIEIBJ8fUICfCEKIBEgC30gA30hCyAEIA58IA98IBR9IBN9IBJ8IQZCACEEA0AgAyAHfCIFIAlUIAQgC3wgBlpyRQRAQQAhAQwDCyAYIBpBAWsiGjoAACAEIAp8IgwgB1QhASAFIAlaDQMgBiAHfCEGIAQgB30hBCAFIQMgByAMWA0ACwwCC0ERQRFB4JHCABCMBwALIAMhBQsCQCAFIAhaIAFyDQAgCCAFIAd8IgNYIAggBX0gAyAIfVRxDQAgAEEANgIADAQLIAUgDUIEfVggBUICWnFFBEAgAEEANgIADAQLIAAgGzsBCCAAIBc2AgQMAgsgBCEDCwJAIAMgBlogFnINACAGIAMgCHwiBFggBiADfSAEIAZ9VHENACAAQQA2AgAMAgsgAyAFIAdCWH58WCADIAdCFH5acUUEQCAAQQA2AgAMAgsgACAbOwEIIAAgATYCBAsgACACNgIACyAVQeAAaiQADwsgFUEANgJIIwBBEGsiACQAIAAgFUEwajYCDCAAIBVBQGs2AghBACAAQQhqQfCHwwAgAEEMakHwh8MAIBVByABqQeSWwgAQ8gQAC9ELAhd/AX0jAEEgayIHJAACQAJAAkACQAJAAkACQAJAIAAtALgBQQFHDQAgACgCrAEgACgCsAEiBUECdCAAKAK0ASIGIAVqQQJ0EOEIIQUgBkECdCIGIAAoAmQiCEsNASAAKAJgIQggByAFELgKIgs2AgAgByAGNgIEIAYgC0cNByAFIAggBhDgCSAFQYQISQ0AIAUQmwcLIABCADcCsAEgAEG4AWpBADoAAAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAAoAghFDQAgACgCDCABQQJ0IAEgAmpBAnQQ4QghCwJAIAJBAnQiASAAKAJkIgZNBEAgACABNgJkIAAoAmAhCCABIQUMAQsgASAGIgVrIgkgACgCXCAFa0sEQCAAQdwAaiAFIAlBBEEEEKQFIAAoAmQhBQsgACgCYCIIIAVBAnQiDGohCiAJQQJPBEAgASAGQX9zakECdCINBEAgCkEAIA38CwALIAJBBHQgBkECdGsgCGogDGpBBGshCiAFIAlqQQFrIQULIApBADYCACAAIAVBAWoiBTYCZCABIAVLDRILIAcgCxC4CiIGNgIAIAcgATYCBCABIAZHDRYgCCABIAsQ4QkgAkEPbCEMIARBD25BD2whDSAEQQFrQQ9uQQ9sQQ9qIQ4gBEECa0EPbkEPbEEPaiEPIARBA2tBD25BD2xBD2ohECAEQQRrQQ9uQQ9sQQ9qIREgBEEFa0EPbkEPbEEPaiESIARBBmtBD25BD2xBD2ohEyAEQQdrQQ9uQQ9sQQ9qIRQgBEEIa0EPbkEPbEEPaiEVIARBCWtBD25BD2xBD2ohFiAEQQprQQ9uQQ9sQQ9qIRcgBEELa0EPbkEPbEEPaiEYIARBDGtBD25BD2xBD2ohGSAEQQ1rQQ9uQQ9sQQ9qIRogBEEOa0EPbkEPbEEPaiEbQwAA/kIgACoClAGVIRxBACEBQQAhAANAIAEgBU8NEyABQQFqIgIgBU8NFCABQQJqIgIgBU8NFSABQQNqIgIgBU8NFiAAIA5GDRAgCEEEaigCACECIAhBDGooAgAhCSAIQQhqKAIAIQYgAyAIKAIAIgrAsiAclTgCACAAIA9GDQ8gA0EEaiAKQQh2wLIgHJU4AgAgACAQRg0OIANBCGogCkEQdsCyIByVOAIAIAAgEUYNDSADQQxqIApBGHWyIByVOAIAIAAgEkYNDCADQRBqIALAsiAclTgCACAAIBNGDQsgA0EUaiACQQh2wLIgHJU4AgAgACAURg0KIANBGGogAkEQdsCyIByVOAIAIAAgFUYNCSADQRxqIAJBGHWyIByVOAIAIAAgFkYNCCADQSBqIAbAsiAclTgCACAAIBdGDQcgA0EkaiAGQQh2wLIgHJU4AgAgACAYRg0GIANBKGogBkEQdsCyIByVOAIAIAAgGUYNBSADQSxqIAZBGHWyIByVOAIAIAAgGkYNBCADQTBqIAnAsiAclTgCACAAIBtGDQMgA0E0aiAJQQh2wLIgHJU4AgAgACANRg0CIANBOGogCUEQdsCyIByVOAIAIAhBEGohCCABQQRqIQEgA0E8aiEDIAwgAEEPaiIARw0ACyALQYQISQ0AIAsQmwcLIAdBIGokAA8LIABBDmohAAwNCyAAQQ1qIQAMDAsgAEEMaiEADAsLIABBC2ohAAwKCyAAQQpqIQAMCQsgAEEJaiEADAgLIABBCGohAAwHCyAAQQdqIQAMBgsgAEEGaiEADAULIABBBWohAAwECyAAQQRqIQAMAwsgAEEDaiEADAILIABBAmohAAwBCyAAQQFqIQALIAAgBEGc1MAAEIwHAAtBACAGIAhB/OvAABDqBwALQQAgASAFQazUwAAQ6gcACyABIAVB3NPAABCMBwALIAIgBUHs08AAEIwHAAsgAiAFQfzTwAAQjAcACyACIAVBjNTAABCMBwALIAdBADYCCEEAIAcgB0EEaiAHQQhqQeD5xAAQ9QcAC9gQAQR/IwBBEGsiAyQAEL8JIgRBsOjAAEEJEOwIIgIgACgCpAG4ELcJIgEQwAkCQAJAAkACQAJAAkACQAJAAkACQAJAAkBBtLvJAC0AAEUEQEG4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsgAkGECE8EQCACEJsHCyAEQbnowABBCRDsCCICIAAoAqgBuBC3CSIBEMAJQbS7yQAtAAANAUG4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsgAkGECE8EQCACEJsHCyAEQcLowABBCxDsCCICIAAoAqwBuBC3CSIBEMAJQbS7yQAtAAANAkG4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsgAkGECE8EQCACEJsHCyAEQc3owABBBBDsCCICIAAoArABENsJIgEQwAlBtLvJAC0AAA0DQbi7yQBBADYCAEG0u8kAQQA6AAAgAUGECE8EQCABEJsHCyACQYQITwRAIAIQmwcLIARB0ejAAEEEEOwIIgIgACgCtAEQ2wkiARDACUG0u8kALQAADQRBuLvJAEEANgIAQbS7yQBBADoAACABQYQITwRAIAEQmwcLIAJBhAhPBEAgAhCbBwsCQCAAKAIAQQFHDQAgBEH458AAQQMQ7AgiAiAAKAIEENsJIgEQwAlBtLvJAC0AAA0GQbi7yQBBADYCAEG0u8kAQQA6AAAgAUGECE8EQCABEJsHCyACQYQISQ0AIAIQmwcLAkAgACgCCEUNACAEQfvnwABBAxDsCCICIAAoAgwQ2wkiARDACUG0u8kALQAADQdBuLvJAEEANgIAQbS7yQBBADoAACABQYQITwRAIAEQmwcLIAJBhAhJDQAgAhCbBwsCQCAAKAIQRQ0AIARB/ufAAEEEEOwIIgIgACgCFBDbCSIBEMAJQbS7yQAtAAANCEG4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsgAkGECEkNACACEJsHCwJAIAAoAhhFDQAgBEGC6MAAQQQQ7AgiAiAAKAIcENsJIgEQwAlBtLvJAC0AAA0JQbi7yQBBADYCAEG0u8kAQQA6AAAgAUGECE8EQCABEJsHCyACQYQISQ0AIAIQmwcLAkAgACgCIEUNACAEQajpwABBCBDsCCICIAAoAiQQ2wkiARDACUG0u8kALQAADQpBuLvJAEEANgIAQbS7yQBBADoAACABQYQITwRAIAEQmwcLIAJBhAhJDQAgAhCbBwsCQCAAKAIoRQ0AIARBwOnAAEEIEOwIIgIgACgCLBDbCSIBEMAJQbS7yQAtAAANC0G4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsgAkGECEkNACACEJsHCwJAIAAoAjBFDQAQwQkiAiAAKAI0ENsJIgEQ4gkgAUGECE8EQCABEJsHCyACIAAoAjgQ2wkiARDiCSABQYQITwRAIAEQmwcLIARB2OnAAEEIEOwIIgEgAhDACUG0u8kALQAADQxBuLvJAEEANgIAQbS7yQBBADoAACACQYQITwRAIAIQmwcLIAFBhAhJDQAgARCbBwsCQCAAKAI8RQ0AIARBhujAAEEHEOwIIgIgACgCQBDbCSIBEMAJQbS7yQAtAAANDUG4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsgAkGECEkNACACEJsHCyAAEIoCIANBEGokACAEDwtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABBwOrAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQbDqwAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEGg6sAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABBkOrAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQYDqwAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEHo6MAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABB+OjAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQYjpwAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEGY6cAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABBsOnAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQcjpwAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEHg6cAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABB8OnAABDgBgAL2BABBX8jAEEQayIDJAAQvwkiBUGw6MAAQQkQ7AgiASAAKAKgAbgQtwkiAhDACQJAAkACQAJAAkACQAJAAkACQAJAAkBBtLvJAC0AAEUEQEG4u8kAQQA2AgBBtLvJAEEAOgAAIAJBhAhPBEAgAhCbBwsgAUGECE8EQCABEJsHCyAFQbnowABBCRDsCCIBIAAoAqQBuBC3CSICEMAJQbS7yQAtAAANAUG4u8kAQQA2AgBBtLvJAEEAOgAAIAJBhAhPBEAgAhCbBwsgAUGECE8EQCABEJsHCyAFQcLowABBCxDsCCIBIAAoAqgBuBC3CSICEMAJQbS7yQAtAAANAkG4u8kAQQA2AgBBtLvJAEEAOgAAIAJBhAhPBEAgAhCbBwsgAUGECE8EQCABEJsHCyAFQaDswABBBhDsCCIBIAAoAqwBEMAJQbS7yQAtAAANA0G4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsCQCAAKAIAQQFHDQAgBUH458AAQQMQ7AgiASAAKAIEENsJIgIQwAlBtLvJAC0AAA0FQbi7yQBBADYCAEG0u8kAQQA6AAAgAkGECE8EQCACEJsHCyABQYQISQ0AIAEQmwcLAkAgACgCCEUNACAFQfvnwABBAxDsCCIBIAAoAgwQ2wkiAhDACUG0u8kALQAADQZBuLvJAEEANgIAQbS7yQBBADoAACACQYQITwRAIAIQmwcLIAFBhAhJDQAgARCbBwsCQCAAKAIQRQ0AIAVBjOzAAEEDEOwIIgEgACgCFBDbCSICEMAJQbS7yQAtAAANB0G4u8kAQQA2AgBBtLvJAEEAOgAAIAJBhAhPBEAgAhCbBwsgAUGECEkNACABEJsHCwJAIAAoAhhFDQAgBUGo6cAAQQgQ7AgiASAAKAIcENsJIgIQwAlBtLvJAC0AAA0IQbi7yQBBADYCAEG0u8kAQQA6AAAgAkGECE8EQCACEJsHCyABQYQISQ0AIAEQmwcLAkAgACgCIEUNACAFQcDpwABBCBDsCCIBIAAoAiQQ2wkiAhDACUG0u8kALQAADQlBuLvJAEEANgIAQbS7yQBBADoAACACQYQITwRAIAIQmwcLIAFBhAhJDQAgARCbBwsCQCAAKAIoRQ0AIAVB2OnAAEEIEOwIIgEgACgCLBDbCSICEMAJQbS7yQAtAAANCkG4u8kAQQA2AgBBtLvJAEEAOgAAIAJBhAhPBEAgAhCbBwsgAUGECEkNACABEJsHCwJAIAAoAjBFDQAgBUGG6MAAQQcQ7AgiASAAKAI0ENsJIgIQwAlBtLvJAC0AAA0LQbi7yQBBADYCAEG0u8kAQQA6AAAgAkGECE8EQCACEJsHCyABQYQISQ0AIAEQmwcLQZjtwABBDRDsCCECEL8JIQEgACoCgAG7ELcJIQQgAUHg6sAAQQYQzwMgBBDjCCAAKgKEAbsQtwkhBCABQebqwABBBhDPAyAEEOMIIAAqAogBuxC3CSEEIAFB7OrAAEEKEM8DIAQQ4wggACoCjAG7ELcJIQQgAUH26sAAQQoQzwMgBBDjCCAAKgKQAbsQtwkhBCABQYDrwABBBhDPAyAEEOMIIAAqApQBuxC3CSEEIAFBhuvAAEEGEM8DIAQQ4wggACoCmAG7ELcJIQQgAUGM68AAQQYQzwMgBBDjCCAALQCcASEEIAFBkuvAAEEKEM8DQYIIQYMIIAQbEOMIIAUgAiABEMAJQbS7yQAtAAANC0G4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsgAkGECE8EQCACEJsHCyAAEMACIANBEGokACAFDwtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABB6O3AABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQdjtwAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEHI7cAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABBuO3AABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQajswAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEG47MAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABByOzAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQdjswAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEHo7MAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABB+OzAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQYjtwAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEGo7cAAEOAGAAvODAIDfhB/IwBBIGsiDSQAAkACQEHMtckAKAIARQ0AQcS1yQAoAgAiCUHYtckAKQMAIgQgAK2FIgVCOIYgBUKA/gODQiiGhCAFQoCA/AeDQhiGIAVCgICA+A+DQgiGhIQgBEIIiEKAgID4D4MgBEIYiEKAgPwHg4QgBEIoiEKA/gODIARCOIiEhIRC0oGqm6v6gtenf34iBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhCAFQtii0e/CqeW/LX6FIgRCOIYgBEKA/gODQiiGhCAEQoCA/AeDQhiGIARCgICA+A+DQgiGhIQgBEIIiEKAgID4D4MgBEIYiEKAgPwHg4QgBEIoiEKA/gODIARCOIiEhIRB0LXJACkDACIFQn+FfiIGQjiGIAZCgP4Dg0IohoQgBkKAgPwHg0IYhiAGQoCAgPgPg0IIhoSEIAZCCIhCgICA+A+DIAZCGIhCgID8B4OEIAZCKIhCgP4DgyAGQjiIhISEIAQgBUI4hiAFQoD+A4NCKIaEIAVCgID8B4NCGIYgBUKAgID4D4NCCIaEhCAFQgiIQoCAgPgPgyAFQhiIQoCA/AeDhCAFQiiIQoD+A4MgBUI4iISEhH6FIASJIgSncSEHIARCGYhC/wCDQoGChIiQoMCAAX4hBkHAtckAKAIAIgtBIGshCgNAIAcgC2opAAAiBSAGhSIEQn+FIARCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiBFBFBEADQCAAIAogBHqnQQN2IAdqIAlxIgxBBXRrKAIARg0EIARCAX0gBIMiBFBFDQALCyAFIAVCAYaDQoCBgoSIkKDAgH+DUEUNASAHIAhBCGoiCGogCXEhBwwACwALQbjzwAAQ3QkACyALQQAgDGtBBXRqQQRrKAIAIgwoAghFBEAgDEF/NgIIQQAhB0HQtskAKAIAIhBFBEBByLbJACgCAEH//w9NBEBByLbJAEEAQYCAEEEEQQQQpAVB0LbJACgCACEHC0HMtskAKAIAIAdBAnRqIgBBAEH8/z/8CwBB0LbJACAHQYCAEGoiEDYCACAAQfz/P2pBADYCAAsgASACaiIAIAwoAhQiCEsEQCAIIQkgACAIQQF0IgogACAKSxsiDiAIayIAIAwoAgwgCGtLBEAgDEEMaiAIIABBBEEQEKQFIAwoAhQhCQsgDCgCECEPIABBA3EiCgRAIAkgCmohCyAPIAlBBHRqIQcgCiEAA0AgB0IANwIAIAdBBmpCADcBACAHQRBqIQcgAEEBayIADQALIAshCSAOIAggCmprIQALIAggDmtBfE0EQCAPIAlBBHRqIQcgCSELA0AgB0IANwIAIAdBBmpCADcBACAHQRBqQgA3AgAgB0EWakIANwEAIAdBIGpCADcCACAHQSZqQgA3AQAgB0EwakIANwIAIAdBNmpCADcBACAHQUBrIQcgC0EEaiELIABBBGsiAA0ACwsgDCALNgIUCyACBEAgAUEEdCEUQQAhCUHMtskAKAIAIQ8DQAJAAkACQCAQQYCABCACIAkiAGsiCSAJQYCABE8bIgpBAnQiC08EQCANIAMgAEECdCAAIApqIglBAnQQ4QgiCBC4CiIHNgIAIA0gCzYCBCAHIAtHDQEgDyALIAgQ4QkgCEGECE8EQCAIEJsHCyAAIAJGDQMgCkEEdCERIAAgAWohCiAUIABBBHRqIRVBACEHQQAhAANAIAAgEUYNAyAMKAIUIgggCksEQCAAIA9qIg4oAgAhEiAOQQRqKAIAIRMgDkEIaigCACEWIAwoAhAgFWogAGoiCCAOQQxqKAIANgIAIAhBDGogFjsBACAIQQpqIBNBEHY7AQAgCEEIaiATOwEAIAhBBmogEkEQdjsBACAIQQRqIBI7AQAgB0EEaiEHIApBAWohCiARIABBEGoiAEYNBQwBCwsgCiAIQcjzwAAQjAcAC0EAIAsgEEHY88AAEOoHAAsgDUEANgIIQQAgDSANQQRqIA1BCGpB4PnEABD1BwALIAcgC0H488AAEIwHAAsgAiAJSw0ACwsgDCAMKAIIQQFqNgIIIA1BIGokAA8LQejzwAAQsAoAC/ELAR1/IwBBMGsiASQAIAAQowUgAEHAAWpBADoAACAAQgA3ArgBAkACQAJAAkACQAJAIAAoAowBIgVBgICAgHhGIAAoApgBIgJBgICAgHhGcUUEQCAFQYCAgIB4RyACQYCAgIB4R3FFBEAgAUEANgIoIAFBATYCHCABQZzgwAA2AhggAUIENwIgIAFBGGoQkgchAgwECyAAQYCABBDQBCAAKAKoASIKQQJ0ELYJIQ8CQCAAKAI8RQ0AIAAoAkAiAkGECEkNACACEJsHCyAAIA82AkAgAEEBNgI8IAAoAowBIhBBgICAgHhGDQIgACgCmAEiEUGAgICAeEYNAQJAIApFDQAgACgCnAEhGSAAKAKQASEaIAAoAqABIRIgACgClAEhEyAAKAK0ASEbIAAoArABIRwgACgCiAEhFCAAKAKEASEVIAAoAnwhFiAAKAJ4IQtBACECA0AgFkGAgAQgCiACayIFIAVBgIAETxsiCEECdCIDSQRAQQAgAyAWQYi7wQAQ6gcACwJAIAMgFE0EQCABIBwgAkECdCIMIAIgCGoiBUECdCIXEOEIIgQQuAoiBzYCFCABIAM2AgggAyAHRgRAIAsgAyAEEOEJIARBhAhPBEAgBBCbBwsgASAbIAwgFxDhCCIEELgKIgc2AhQgASADNgIIIAMgB0YEQCAVIAMgBBDhCSAEQYQITwRAIAQQmwcLIAIgCkYNAyAIQQR0IRggDCAZaiEdIBogAkEBdGohDUEAIQRBACEIAkADQCAEIBhGBEAgCCAIQQRqIANB6LrBABDqBwALIAEgBCALaiIOKQIANwIIIAEgDkEIaioCADgCEAJ/IA5BDGooAgAiBkH//wFxRQRAIAZBEHQMAQsgBkH/B3EhByAGQYCAAnEhCSAGQYD4AXEiBkGA+AFGBEAgCUEQdCEGIAZBgICA/AdyIAdFDQEaIAYgB0ENdHJBgICA/gdyDAELIAlBEHQhCSAGQQ10QYCAgPwAcSAHQQ10ckGAgIDAA2ogCXIgBg0AGiAJQYCAgNgDciAHZ0EQayIGQRd0ayAHIAZB//8DcUEIanRB////A3FyCyEHIAFBGGoiBiAEIBVqEJYDIAIgE0kEQCACIBJPDQIgDiABQQhqIAe+IAYgDS8BACAIIB1qKAIAEJECIAhBBGohCCANQQJqIQ0gAkEBaiECIBggBEEQaiIERw0BDAYLCyACIBNByLrBABCMBwALIAIgEkHYusEAEIwHAAsMCQsMCAtBACADIBRB+LrBABDqBwALIAEgDyAMIBcQ4QgiAhC4CiIENgIUIAEgAzYCCCADIARGBEAgAiALIAMQ4AkgAkGECE8EQCACEJsHCyAFIgIgCkkNAQwCCwsMBQsgEUGAgICAeHJBgICAgHhHBEAgACgCnAEiAkEEaygCACIFQXhxIgMgEUECdCIEQQRBCCAFQQNxIgUbakkNBiAFQQAgAyAEQSdqSxsNByACEKICCyAAQYCAgIB4NgKYASAQQYCAgIB4ckGAgICAeEcEQCAAKAKQASICQQRrKAIAIgVBeHEiAyAQQQF0IgRBBEEIIAVBA3EiBRtqSQ0GIAVBACADIARBJ2pLGw0HIAIQogILIABBgICAgHg2AowBC0EAIQIgAEEANgJ8IAAoAnghBSAAKAJ0IQMgAEKAgICAwAA3AnQgAwRAIAVBBGsoAgAiBEF4cSIIIANBAnQiA0EEQQggBEEDcSIEG2pJDQUgBEEAIAggA0EnaksbDQYgBRCiAgsgAEEANgKIASAAKAKEASEFIAAoAoABIQMgAEKAgICAwAA3AoABIANFDQIgBUEEaygCACIAQXhxIgQgA0ECdCIDQQRBCCAAQQNxIgAbakkNBCAAQQAgBCADQSdqSxsNBSAFEKICDAILQbi6wQAQ3QkAC0GousEAEN0JAAsgAUEwaiQAIAIPCyABQQA2AhhBACABQRRqIAFBCGogAUEYakHg+cQAEPUHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL3hgDB38BfgF7IwBBIGsiBiQAAkACQCAAKAIAIgdFBEAgACgCECIARQ0BIABBk7PFAEEBEJcDIQIMAgsCQAJAAkACQAJAIAAoAggiAiAAKAIEIgVPBEAgACgCECIBRQ0BIAFB6rLFAEEQEJcDRQ0BDAULIAAgAkEBaiIENgIIIAIgB2otAAAhAyAAIAAoAgxBAWoiCDYCDCAIQfUDTwRAIAAoAhAiAQRAIAFB+rLFAEEZEJcDDQYLIABBAToABAwCCwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIANB0QBrDikLCgEPARABAQEBAQEBAQEBBAcIAQkBAQMEAwEEAwQDAgEBBAMBAQEEAwALIANBwQBrDgINBAALIAAoAhAiAUUNESABQeqyxQBBEBCXAw0VDBELIAAoAhAiAUUNE0EBIQIgAUGSssUAQQEQlwNFDRMMFgsgACADEIYFDRMMEgsgBCAFTw0QIAQgB2otAABB7gBGDQEMEAsjAEEgayICJAACQAJAIAAoAgBFBEAgACgCECIBRQ0BIAFBk7PFAEEBEJcDIQEMAgsgAiAAEK8GIAIoAgBFBEAgACgCECIDBEBBASEBIANB+rLFAEHqssUAIAItAARBAXEiAxtBGUEQIAMbEJcDDQMLIAAgAv0AAgD9CwIADAELIAAoAhBFDQAgAP0AAgAhCiAAIAL9AAIA/QsCACACIAr9CwMQIAAgAUEBcRDVASEBIAAgAv0AAxD9CwIADAELQQAhAQsgAkEgaiQAIAENEQwQCyAAIAJBAmo2AgggACgCECIBRQ0OQQEhAiABQeqzxQBBARCXA0UNDgwSCyAGQRhqIAAQyAUgBigCGCIBRQRAIAYtABwhASAAKAIQIgMEQEEBIQIgA0H6ssUAQeqyxQAgAUEBcSIDG0EZQRAgAxsQlwMNEwsgACABOgAEDA0LIAZBCGogASAGKAIcEMIEAkACQAJAIAYoAghBAUcNACAGKQMQIglCAVYNACAJp0EBaw0BDAILIAAoAhAiAUUNDSABQeqyxQBBEBCXAw0RDA0LIAAoAhAiAUUNDyABQfKzxQBBBRCXAw0QDA8LIAAoAhAiAUUNDiABQfezxQBBBBCXAw0PDA4LIAZBGGogABDIBSAGKAIYIgFFBEAgBi0AHCEBIAAoAhAiAwRAQQEhAiADQfqyxQBB6rLFACABQQFxIgMbQRlBECADGxCXAw0SCyAAIAE6AAQMDAsgBkEIaiABIAYoAhwQwgQCQCAGKAIIIAYpAxAiCUKAgICAEFRxRQ0AQYCAxAAgCaciASABQYCwA3NBgIDEAGtBgJC8f0kbIgFBgIDEAEYNACAAKAIQIQMjAEEgayICJAACf0EAIANFDQAaAkAgAygCAEEnIAMoAgQoAhARAgANAANAAkACQAJ/AkACQCABQSJHBEAgAUGAgMQARgRAIAMoAgBBJyADKAIEKAIQEQIADAkLAkACQAJAAkACQAJAIAFBJkwEQCABQQlrDgUBAwYGAgULIAFBJ0YNAyABQdwARw0FIAJCADcBAiACQdy4ATsBAAwICyACQgA3AQIgAkHc6AE7AQAMBwsgAkIANwECIAJB3OQBOwEADAYLIAJCADcBAiACQdzcATsBAAwFCyACQgA3AQIgAkHczgA7AQAMBAsgAUUNAgsCQAJAIAFBgAZPBEAgARDlBA0BCyABEOECDQELIAJBEGogARDWBSACQQhqIgUgAkEYaiIHLwAAOwEAIAIgAikAEDcDACACLQAaIQEgAi0AGyEEIAcgBS8BADsBACACIAIpAwA3AxAgAUH/AXEgBEH/AXFJDQUMBgsgAiABNgIAQYEBIQRBgAEMAwtBgIDEACEBIAMoAgBBIiADKAIEKAIQEQIARQ0FDAYLIAJCADcBAiACQdzgADsBAAtBAiEEQQALIQEgAkEYaiACQQhqLwEAOwEAIAIgAikDADcDEAsgBEH/AXEhByABQf8BcSEEIAMoAgAhASADKAIEKAIQIQUgAigCECEIA0AgASAHQYABTQR/IAJBEGogBGotAAAFIAgLIAURAgANAyAHIARBAWoiBEcNAAsLQYCAxAAhAQwACwALQQELIAJBIGokAA0PDA4LIAAoAhAiAUUNCiABQeqyxQBBEBCXAw0ODAoLAkAgAQ0AIAAoAhAiA0UNAEEBIQIgA0H7s8UAQQEQlwMNEAsgACgCECIDBEBBASECIANBsrPFAEEBEJcDDRALIAAQwQINDQwICyAEIAVPDQAgBCAHai0AAEHlAEYNAQsCQCABDQAgACgCECIERQ0AQQEhAiAEQfuzxQBBARCXAw0OCyAAKAIQIgQEQEEBIQIgBEGss8UAQQEQlwMNDgsgA0HSAEcNAQwFCyAAIAJBAmo2AgggABDBAg0KDAkLIAAoAhAiAkUNAyACQa6zxQBBBBCXAw0JDAMLAkAgAQ0AIAAoAhAiA0UNAEEBIQIgA0H7s8UAQQEQlwMNCwsgACgCECIDBEBBASECIANB6LLFAEEBEJcDDQsLIAAQyQYNCCAAKAIQIgNFDQdBASECIANB6bLFAEEBEJcDRQ0DDAoLAkAgAQ0AIAAoAhAiA0UNAEEBIQIgA0H7s8UAQQEQlwMNCgsgACgCECIDBEBBASECIANBu7PFAEEBEJcDDQoLQQAhAgJ/AkAgACgCACIDRQ0AA0ACQCAAKAIIIgQgACgCBE8NACADIARqLQAAQcUARw0AIAAgBEEBajYCCAwCCwJAIAJFDQAgACgCECIDRQ0AIANB55DGAEECEJcDRQ0AQQEMAwtBASAAQQEQ1QENAhogAkEBaiECIAAoAgAiAw0ACwtBAAshAyAGIAI2AgQgBiADNgIAQQEhAiAGKAIAQQFxDQkgBigCBEEBRgRAIAAoAhAiA0UNByADQbyzxQBBARCXAw0KCyAAKAIQIgNFDQYgA0HejsgAQQEQlwNFDQIMCQsCQCABDQAgACgCECIDRQ0AQQEhAiADQfuzxQBBARCXAw0JC0EBIQIgAEEBEMwBDQggACgCACIERQRAIAAoAhAiAEUNCCAAQZOzxQBBARCXAyECDAkLIAAoAggiAyAAKAIETwRAIAAoAhAiAUUNAyABQeqyxQBBEBCXA0UNAwwJCyAAIANBAWo2AggCQAJAAkAgAyAEai0AAEHTAGsOAwIBBAALIAAoAhAiAUUNBCABQeqyxQBBEBCXAw0IDAQLIAAoAhAiAwRAIANBu7PFAEEBEJcDDQoLIAAQyQYNByAAKAIQIgNFDQYgA0HejsgAQQEQlwNFDQIMCQsgACgCECICBEAgAkH8s8UAQQMQlwMNBwtBASECQQAhByMAQSBrIgMkAAJAAkACQCAAKAIAIgRFDQADQAJAIAAoAggiBSAAKAIETw0AIAQgBWotAABBxQBHDQAgACAFQQFqNgIIDAILAkACQCAHRQ0AIAAoAhAiBEUNACAEQeeQxgBBAhCXAw0EIAAoAgANACAAKAIQIgVFDQFBASEEIAVBk7PFAEEBEJcDRQ0BDAULIAMgAEHzABCsBiADLQAAQQFGBEAgAy0AASEHIAAoAhAiBQRAQQEhBCAFQfqyxQBB6rLFACAHQQFxIgUbQRlBECAFGxCXAw0GCyAAIAc6AAQgAEEANgIADAMLIAAoAgBFBEAgACgCECIFRQ0BQQEhBCAFQZOzxQBBARCXA0UNAQwFCyADIAAQ7wIgAygCAEUEQCADLQAEIQcgACgCECIFBEBBASEEIAVB+rLFAEHqssUAIAdBAXEiBRtBGUEQIAUbEJcDDQYLIAAgBzoABCAAQQA2AgAMAwsgAyAD/QACAP0LAxACQCAAKAIQIgRFDQAgA0EQaiAEEIsCDQQgACgCECIERQ0AIARB3fjHAEECEJcDDQQLQQEhBCAAQQEQ1QENBAsgB0EBayEHIAAoAgAiBA0ACwtBACEEDAELQQEhBAsgA0EgaiQAIAQNCCAAKAIQIgNFDQUgA0H/s8UAQQIQlwNFDQEMCAtBASECIABBARDVAQ0HCyABDQMgACgCECIBRQ0DQQEhAiABQaWzxQBBARCXA0UNAwwGC0EAIQIgAEEAOgAEIABBADYCAAwFC0EAIQIgAEEANgIADAQLIAAgAxCGBQ0BC0EAIQIgACgCAEUNAiAAIAAoAgxBAWs2AgwMAgtBASECDAELQQAhAgsgBkEgaiQAIAIL/gwBFn8jAEFAaiIFJAACQCABLQD4AkEIRwRAAkACQCADBEAgAUHIAmohFCABQf0CaiEPIAVBIGpBBXIhFSAFQRBqIREgAUHgAmohGSADIQkDQCAFQR5qIhYgD0ECaiISLQAAOgAAIAEtAPgCIQ4gAUEIOgD4AiAFIA8vAAA7ARwCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgDkEIRwRAIAEoAoQDIQggASgCgAMhECABKAD5AiETIA5BBmtB/wFxQQFqQQAgDkEFSxtBAWsOAgIDAQtBgJHFABDdCQALIBUgDy8AADsAACAVQQJqIBItAAA6AAAgBSATNgAhIAUgDjoAICAFIBA2AjQgCEUgCUEET3ENAyAJQQQgCGsiBiAGIAlLGyIGIAhqIgcgCEkgB0EFT3INBiAGBEAgBUE0aiAIaiACIAb8CgAACyAHQQRGBEAgBUEIaiABIAVBIGogBUE0aiAEIAYQNQwFCyABIAc2AoQDIAEgBSgCNDYCgAMgASAFKQMgNwP4AiAFQQA6ABAgBSAGNgIMIAVBADYCCAwECyABKALcAiIGRQ0EIAEoAuACIAEoAugCayIHIAkgByAJSRsiByAGIAYgB0sbIQsgAS0AkQNFBEAgFCACIAsQ3gELIAEtAOwCDQ4gASgC6AIiCiABKALgAiIHRwRAIAohBgwOCyABKAKIAyIGRQ0BIAEgBiAGIAogBiAKSRsiDWs2AogDQQAhB0EAIQYgCkUNDSAKIA1qIgdBAE4EfyAFIAo2AjwgBUEBNgI4IAUgASgC5AI2AjQgBUEoakEBIAcgBUE0ahCFByAFKAIoQQFHDQcgBSgCMCEMIAUoAiwFIAYLIAxBoJHFABCTCQALIAEoAtwCIgYgCSAGIAlJGyIKIQcgBA0GDAcLIAVBJzoADAwHCyAFQQhqIAEgBUEgaiACIARBBBA1CyAFKAIIQQFxDQYgBS0AECEGDAsLIAFCADcDgAMgAUEEOgD4AkEAIQYgEUEAOgAAIAVCADcDCAwKCyAIIAdBBEGQkcUAEOoHAAsgBSgCLCEGIAEgBzYC4AIgASAGNgLkAiABKALoAiEGDAYLIAEoAvACIg0tAKMHQQdGDQACQCABLQD0Ag0AIAEtAPUCQQFxRQ0AIA1BAToApgcLIAQoAgQiCyAEKAIMIgwoAgAiGkGAQGsiByAHIAtLGyIXIAQoAggiGCgCACIHSQ0DIAVBNGogDSACIAogBCgCACAHaiAXIAdrIBogB2tBABBCIAUtADRFBEAgBSgCOCEHIAwgDCgCACAFKAI8aiIMNgIAAkAgDS0AowdBB0cEQCAMQYCAAkkNASAMQYCAAmsiDCAYKAIATQ0BCyAYIAw2AgALIAFBAToA9AIMAQsgBSAFLQA1OgANIAVBHDoADAwBCyABLQCRA0UEQCAHIApLDQQgFCACIAcQ3gEgASgC3AIhBgsgASAGIAdrNgLcAgJAIAYgB0YEQEEEIQ5BACEQQQAhCAwBCyAPIAUvARw7AAAgEiAWLQAAOgAACyABIAg2AoQDIAEgEzYA+QIgASAOOgD4AiABIBA2AoADQQUhBiAFQQU6ABAgBSAHNgIMIAVBADYCCAwGCyAFQQE2AggLIAAgBf0AAwj9CwIAIABBEGogBUEYaigCADYCAAwKCyAHIBcgC0HwkMUAEOoHAAtBACAHIApBsJHFABDqBwALIAcgBmsgC0kEQCAZIAYgCxDvBSABKALoAiEGCyALBEAgASgC5AIgBmogAiAL/AoAAAsgASAGIAtqNgLoAgsgASABKALcAiIMIAtrNgLcAkEEIQpBACEGQQAhB0EAIQ0gCyAMRwRAIA8gBS8BHDsAACASIBYtAAA6AAAgDiEKIAghDSAQIQcLIAEgDTYChAMgASATNgD5AiABIAo6APgCIAEgBzYCgAMgBUEAOgAQIAUgCzYCDCAFQQA2AggLIAUoAgwhCCAGQf8BcQ0DIAggCUsNAiACIAhqIQIgCSAIayIJDQALCyAAQQA6AAggACADNgIEIABBADYCAAwDCyAIIAkgCUHklcUAEOoHAAsgCCAJTQRAIABBADYCACAAIBEpAgA3AgggAEEQaiARQQhqKAIANgIAIAAgAyAJayAIajYCBAwCCyAIIAkgCUH0lcUAEOoHAAsgAEECNgIIIABBJjoABCAAQQE2AgALIAVBQGskAAvlDAIOfwN+IwBBIGsiAyQAAkACQCAAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAIAEoAqgBQQFrDgIBAgALIANBEGohBQJAAkBBJRBxIgFFDQAgAUEdakGdnccAKQAANwAAIAFBEGpBkJ3HAP0AAAD9CwAAIAFBgJ3HAP0AAAD9CwAAQQwQcSICRQ0AIAJBJTYCCCACIAE2AgQgAkElNgIAQQwQcSIBRQ0AIAFBKDoACCABQbidxwA2AgQgASACNgIAIAUgAa1CIIZCA4Q3AgAMAQsACwwCCyADQRBqIAFBsAFqIAIQ8wEMAQsgASgCrAEhCiACKAIAIhAhBSACKAIIIgwhBwJ/AkAgECAMa0EgTw0AIANBEGogCiACEI8EAkBBAAJ/IAMtABBBBEYEQCADKAIUDAELIAMpAxAiEUIgiCETIBFC/wGDQgRSDQEgE6cLRQ0CGiACKAIAIQUgAigCCCEHDAELIBFCgH6DIRIMBgtBgMAAIQtBACEBA0ACQCAFIBBHIAUgB0dyRQRAIANBEGogCiACEI8EAkACQAJ/IAMtABBBBEYEQCADKAIUDAELIAMpAxAiEUIgiCETIBFC/wGDQgRSDQEgE6cLDQEgAigCCCEHDAMLIBFCgH6DIRIMCQsgAigCCCEHIAIoAgAhBQsCQCAFIAdHBEAgBSAHayENIAIoAgQhBAwBC0IBIRFCgMwAIRJCACETIAVBIGoiCCAFQQF0IgQgBCAISRsiCEEASA0IIAMgBQR/IAMgBTYCGCADIAIoAgQ2AhBBAQVBAAs2AhQgA0EEakEBIAggA0EQahCFByADKAIEQQFGDQggAygCCCEEIAIgCDYCACACIAQ2AgQgCCAFayENIAghBQsgBCAHaiEOIAsgDSALIA1JGyIIIAFrIgQEQCABIA5qQQAgBPwLAAsgA0EQaiAKIA4gCBDkAgJAIAMtABBBBEYNACADKQMQIhJCIIgiE6chBEIAIRECQAJAAkACQAJAIBKnQf8BcUEBaw4EAgEABAwLIAQtAAhBI0YNAgwKCyAELQAIQSNGDQFCAiERDAoLIBJCgP4Dg0KAxgBRDQBCASERDAkLAn8gEkL/AYNCA1EEQCAEKAIAIQEgBEEEaigCACIGKAIAIgkEQCABIAkRAwALIAYoAgQiBgRAIAFBBGsoAgAiCUF4cSIPQQRBCCAJQQNxIgkbIAZqSQ0RIAlBACAPIAZBJ2pLGw0SIAEQogILIARBBGsoAgAiAUF4cSIGQRBBFCABQQNxIgEbSQ0QIAFBACAGQTRPG0UEQEEADAILDBELQQELIQEDQAJAAkAgAUUEQCAEEKICDAELIANBEGogCiAOIAgQ5AIgAy0AEEEERg0EIAMpAxAiEkIgiCITpyEEAkACQAJAAkAgEqdB/wFxQQFrDgQAAQIHDwsgEkKA/gODQoDGAFENAkIBIREMDgsgBC0ACEEjRg0BQgIhEQwNCyAELQAIQSNHDQsLIBJC/wGDQgNRDQELQQEhAQwBCyAEKAIAIQEgBEEEaigCACIGKAIAIgkEQCABIAkRAwALIAYoAgQiBgRAIAFBBGsoAgAiCUF4cSIPQQRBCCAJQQNxIgkbIAZqSQ0QIAlBACAPIAZBJ2pLGw0RIAEQogILIARBBGsoAgAiAUF4cSIGQRBBFCABQQNxIgEbSQ0PIAFFIAZBNElyRQRADBELQQAhAQwACwALIAIgBzYCCAwBCyADKAIUIgEgCEsEQEG0m8cAQTZB7JvHABDrBwALIAIgASAHaiIHNgIIIAFFDQBBfyALQQF0IAtBAEgbIAsgASAIRhsgCyALIA1NGyELIAggAWshAQwBCwsgByAMawshASAKLQC0AUEBRw0GIAIoAggiBSAMSQ0BIApBoAFqIAIoAgQgDGogBSAMaxDeASAKKAKwASAKKAKoAUYNBiADQRBqEJMHCyADLQAQIQEMBAsgDCAFIAVB7KvHABDqBwALQgMhEQsgAiAHNgIIIBJCgH6DIRILIAMgEz4CFCADIBGnIgE6ABAgAyASpyICQRh2OgATIAMgAkEIdjsAEQsgAUH/AXFBBEcNASADKAIUIQELIAAgAa03AwhBAAwBCyAAIAMpAxA3AgRBAQs2AgAgA0EgaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALtAwCDH8BfiMAQeAEayIJJABBBiELAkACQAJAAkACQAJAAkAgASgCACIKQYCAgIB4Rg0AIAlBEGogASgCBCIMIAEoAggQkQUgCS0AEEEBRgRAIAkoAhQhASAJQQA2AqQDIAlCgICAgBA3ApwDIAlBnJPBADYC3AEgCUKggICADjcC4AEgCSAJQZwDajYC2AEgASAJQdgBahCvBA0CIAkoApwDIQsgCSgCoAMiDSAJKAKkAxDsCCEPIAsEQCANQQRrKAIAIg5BeHEiEEEEQQggDkEDcSIOGyALakkNByAOQQAgECALQSdqSxsNCCANEKICCyAAQQA2AgAgACAPNgIEIAEgASgCACgCABEDACAKBEAgDEEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgCmpJDQcgAEEAIAEgCkEnaksbDQggDBCiAgsgB0UgCEGECElyRQRAIAgQmwcLIAVFIAZBhAhJckUEQCAGEJsHCyADRSAEQYQISXJFBEAgBBCbBwsgAigCACIAQYCAgIB4ckGAgICAeEYNBSACKAIEIgFBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIABqSQ0GIAJBACADIABBJ2pLGw0HIAEQogIMBQsgCS0AESELIApFDQAgDEEEaygCACIBQXhxIg1BBEEIIAFBA3EiARsgCmpJDQUgAUEAIA0gCkEnaksbDQYgDBCiAgtBBCEBQQAhCkEAELYJIRNBABC2CSEUQQAhDEEEIQ0CQCADQQFxRQ0AIAlB2AFqIAQQlwYgCSgC4AEhDyAJKALcASENIAkoAtgBIQwgBEGECEkNACAEEJsHC0EAIQQCQCAFQQFxRQ0AIAlB2AFqIAYQlwYgCSgC4AEhBCAJKALcASEBIAkoAtgBIQogBkGECEkNACAGEJsHC0EEIQZBACEFQQAhA0EEIRACQCAHQQFxRQ0AIAlBnANqIAhBABDoCCIHEJcGIAlB2AFqIAhBARDoCCISEJcGIAkoAuABIREgCSgC3AEhECAJKALYASEOIAkoAqQDIQMgCSgCoAMhBiAJKAKcAyEFIBJBhAhPBEAgEhCbBwsgB0GECE8EQCAHEJsHCyAIQYQISQ0AIAgQmwcLIAkgFDYCjAMgCSATNgKIAyAJQQA2AoQDIAlCADcC/AIgCUGAgICAeDYC8AIgCUGAgICAeDYC5AIgCUIENwLcAiAJQgA3AtQCIAlCgICAgMAANwLMAiAJIBE2AsgCIAkgEDYCxAIgCSAONgLAAiAJIAM2ArwCIAkgBjYCuAIgCSAFNgK0AiAJIAQ2ArACIAkgATYCrAIgCSAKNgKoAiAJIA82AqQCIAkgDTYCoAIgCSAMNgKcAiAJQQA2ApQCIAlBADYCiAIgCUEANgKAAiAJQQA2AvgBIAlBADYC8AEgCUEANgLoASAJQQA2AuABIAlBADYC2AEgCUGYA2pBADoAACAJQgA3ApADIAIoAgAhAyACKAIEIQUgAigCCCEBAn8gC0EGRwRAIAlBCGogCyAJQdgBahDUAyAJKAIMIQQgCSgCCCEHQQIMAQsgCUGcA2ogCUHcAWpBwAH8CgAAQQAhB0EACyEGQYCAgIB4IQggA0GAgICAeEcEQCABQQBIDQICQCABRQRAQQEhCAwBCyABEHEiCEUNBAsgAQRAIAggBSAB/AoAAAsgCK0gAa1CIIaEIRUgASEICyAJQRhqIgIgCUGcA2pBwAH8CgAAQfQBEHEiAUUNAiABIAY2AgAgAUEEaiACQcAB/AoAACABIAs6APABIAEgBDYC7AEgASAHNgLoASABQYCAgIB4NgLcASABIBU3AtQBIAEgCDYC0AEgAUEANgLMASABQoCAgIAQNwLEASAAQbDuwAA2AgwgAEEBNgIIIABBmO7AADYCBCAAIAE2AgAgA0GAgICAeHJBgICAgHhGDQMgBUEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgA2pJDQQgAEEAIAEgA0EnaksbDQUgBRCiAgwDC0GgnsYAQTcgCUHfBGpBtJPBAEHYnsYAEOAGAAtB2JrIABD/BwsACyAJQeAEaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL/Q0BBX8jAEEwayICJAACQAJAAkACQAJAAkACQAJAIAAoAgBBAWsOBQECAwQFAAtBASEDIAEoAgAiBEHUpccAQQggASgCBCIGKAIMIgURAAANBiAAQQRqIQACQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQggACABEIQGRQ0BDAgLIARB24HCAEECIAURAAANByACQQE6ACggAiAGNgIMIAIgBDYCCCACQeCBwgA2AhggAiABKQIINwIcIAIgAkEoajYCECACIAJBCGo2AhQgACACQRRqEIQGDQcgAigCFEHZgcIAQQIgAigCGCgCDBEAAA0HCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMBgtBASEDIAEoAgAiBEHcpccAQQggASgCBCIGKAIMIgURAAANBSAAQQRqIQACQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQcgACABEIUGRQ0BDAcLIARB24HCAEECIAURAAANBiACQQE6ACggAiAGNgIMIAIgBDYCCCACQeCBwgA2AhggAiABKQIINwIcIAIgAkEoajYCECACIAJBCGo2AhQgACACQRRqEIUGDQYgAigCFEHZgcIAQQIgAigCGCgCDBEAAA0GCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMBQtBASEDIAEoAgAiBEHkpccAQQkgASgCBCIGKAIMIgURAAANBCAAQQRqIQACQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQYgACABEIYGRQ0BDAYLIARB24HCAEECIAURAAANBSACQQE6ACggAiAGNgIMIAIgBDYCCCACQeCBwgA2AhggAiABKQIINwIcIAIgAkEoajYCECACIAJBCGo2AhQgACACQRRqEIYGDQUgAigCFEHZgcIAQQIgAigCGCgCDBEAAA0FCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMBAtBASEDIAEoAgAiBEHtpccAQQYgASgCBCIGKAIMIgURAAANAyAAQQhqIQACQAJAIAEtAApBgAFxRQRAIARBu7PFAEEBIAURAAANBiACIAA2AgggASgCAEGMpscAQQogASgCBCgCDBEAACEAIAJBADoAGSACIAA6ABggAiABNgIUIAJBFGpByPvHAEEEIAJBCGpB/KXHABCMBSEAIAItABgiBEEBcSACLQAZIgVBAUdyRQRAIAAoAgAiAC0ACkGAAXENAiAAKAIAQf+zxQBBAiAAKAIEKAIMEQAARQ0DDAcLIAUNBiAEQQFxRQ0CDAYLIARB24HCAEECIAURAAANBSACIAY2AgwgAiAENgIIIAJBAToAByACQeCBwgA2AhggAiABKQIINwIcIAIgAkEHajYCECACIAJBCGoiAzYCFCACIAA2AiQgA0GMpscAQQoQrwMhACACQQA6AC0gAiAAOgAsIAIgAkEUajYCKCACQShqQcj7xwBBBCACQSRqQfylxwAQjAUhAAJAAkAgAi0ALCIDQQFxIAItAC0iBEEBR3JFBEAgACgCACIALQAKQYABcQ0BIAAoAgBB/7PFAEECIAAoAgQoAgwRAAANBwwCCyAEDQYgA0EBcUUNAQwGCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAADQULIAIoAhRB2YHCAEECIAIoAhgoAgwRAABFDQFBASEDDAULIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAANBAsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDAMLQQEhAyABKAIAIgRBjYvIAEELIAEoAgQiBigCDCIFEQAADQIgAEEEaiEAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0EIAAgARCHBkUNAQwECyAEQduBwgBBAiAFEQAADQMgAkEBOgAoIAIgBjYCDCACIAQ2AgggAkHggcIANgIYIAIgASkCCDcCHCACIAJBKGo2AhAgAiACQQhqNgIUIAAgAkEUahCHBg0DIAIoAhRB2YHCAEECIAIoAhgoAgwRAAANAwsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDAILQQEhAyABKAIAIgRB86XHAEEHIAEoAgQiBigCDCIFEQAADQEgAEEEaiEAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0DIAAgARCuAkUNAQwDCyAEQduBwgBBAiAFEQAADQIgAkEBOgAoIAIgBjYCDCACIAQ2AgggAkHggcIANgIYIAIgASkCCDcCHCACIAJBKGo2AhAgAiACQQhqNgIUIAAgAkEUahCuAg0CIAIoAhRB2YHCAEECIAIoAhgoAgwRAAANAgsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDAELQQEhAwsgAkEwaiQAIAMLrgsCCn8CfSMAQYABayIIJAACfwJAIAAoAggiBSABSwRAIAAoAgQgAUEkbGoiBRCKBCEPIAUvARQiB0H//wFxRQRAIAdBEHQMAwsgB0H/B3EhBiAHQYCAAnEhBSAHQYD4AXEiB0GA+AFGBEAgBUEQdCEFIAVBgICA/AdyIAZFDQMaIAUgBkENdHJBgICA/gdyDAMLIAVBEHQhBSAHRQ0BIAdBDXRBgICA/ABxIAZBDXRyQYCAgMADaiAFcgwCCyABIAVB1MDHABCMBwALIAVBgICA2ANyIAZnQRBrIgVBF3RrIAYgBUH//wNxQQhqdEH///8DcXILIQZDAACAPyEQAkACQAJAIA8gD5IgBr4iD0MAAIA/XgR9IA8QxgVDVPgtQJRDAACAP5KRBSAQC5QgA11FBEAgCCAAKAIQIgogACgCFCIGIAEQ6AICQCAIKAIkIgVBCU8EQCAIKAIEIgkNASAIKAIIIgRBBGsoAgAiAEF4cSICIAVBAnQiAUEEQQggAEEDcSIAG2pJDQQgAEEAIAIgAUEnaksbDQUgBBCiAgwDCyAFIglFDQILIAhBKGogAigCCCIHIAcgCWoQjAMgCiAGIAECfyAIKAJMIglBCU8EQCAIKAIsIQkgCCgCMAwBCyAIQSxqCyAJEOQFIAhBBGohAQJ/IAVBCUkEQCAIQSRqIQYgAQwBCyABIQYgCCgCCAshBwJAIAYoAgAiC0ECSQ0AIAtBFU8EQCAHIAsQwQUMAQsgB0EEaiEFAkAgC0EBcQRAIAUhCiAHIQUMAQsgBygCBCIMIAcoAgAiBkkEQCAHIAw2AgAgByAGNgIECyAHQQhqIQoLIAtBAkYNACAHIAtBAnRqIQ4gCkEEaiELA0AgCigCACIJIAUoAgAiBkkEQCAKIQwCfwNAIAwgBjYCACAHIAUgB0YNARogBSEMIAkgBUEEayIFKAIAIgZJDQALIAVBBGoLIAk2AgAgCigCACEJCyAJIAooAgQiDUsEQCALIQYDQAJAIAYgCTYCACAHIAZBBGsiBUYEQCAHIQUMAQsgBkEIayEMIAUhBiANIAwoAgAiCUkNAQsLIAUgDTYCAAsgCkEEaiEFIAtBCGohCyAKQQhqIgogDkcNAAsLIAgoAiQiByEGIAdBCU8EQCAIKAIEIQYgCCgCCCEBCyAGBEAgBkECdCEFIAIoAggiBkECdCEHA0AgASgCACEMIAIoAgAgBkYEQCACQYDmwQAQiwYLIAFBBGohASACKAIEIAdqIAw2AgAgAiAGQQFqIgY2AgggB0EEaiEHIAVBBGsiBQ0ACyAIKAIkIQcLIAgoAgQhBiAIQfAAaiAIQSBqKAIANgIAIAhB6ABqIAhBGGopAgA3AgAgCCAI/QACCP0LAlggCCAGIAcgB0EISyIFGyIBNgJ8IAggB0EAIAUbNgJ0IAhBACAGIAUbNgJUAkACQCABBEAgB0EJTwRAIAgoAlgiBSEBA0AgACABKAIAIAIgAyAEENoBIAFBBGohASAGQQFrIgYNAAsMAgsgCEHUAGohAUEAIQYDQCAIIAZBAWoiBjYCeCAAIAEoAgAgAiADIAQQ2gEgAUEEaiEBIAYgB0cNAAsMAgsgB0EJSQ0BIAgoAlghBQsgBUEEaygCACIAQXhxIgIgB0ECdCIBQQRBCCAAQQNxIgAbakkNAyAAQQAgAiABQSdqSxsNBCAFEKICCyAIKAJMIgFBCUkNASAIKAIwIgRBBGsoAgAiAEF4cSICIAFBAnQiAUEEQQggAEEDcSIAG2pJDQIgAEEAIAIgAUEnaksbDQMgBBCiAgwBCyAEKAIIIgAgBCgCAEYEQCAEQZDmwQAQiwYLIAQoAgQgAEECdGogATYCACAEIABBAWo2AggMAAsgCEGAAWokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC9QNAwp/A34CeyMAQZACayIEJAACQAJAAkACQAJAAkACQAJAAkAgASgCECIFKAIwIgcOAgUBAAsgBSkDGCAFKQMgIAIgAxCVBCEOIAUoAjgiCSAOp3EhBiAOQhmIQv8Ag0KBgoSIkKDAgAF+IRAgBSgCNCILQQRrIQwgBSgCLCEIA0AgBiALaikAACIPIBCFIg5Cf4UgDkKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIOUEUEQANAIAwgDnqnQQN2IAZqIAlxQQJ0aygCACIFIAdPDQQgCCAFQbgBbGoiDUGsAWooAgAgA0YEQCACIA1BqAFqKAIAIAMQ2wdFDQcLIA5CAX0gDoMiDlBFDQALCyAPIA9CAYaDQoCBgoSIkKDAgH+DUEUNBSAKQQhqIgogBmogCXEhBgwACwALIAMgBSgCLCIIQawBaigCAEYNAQwDCyAFIAdBkJvIABCMBwALIAIgCCgCqAEgAxDbBw0BQQAhBQsgBSAHTwRAIABCAzcDACAAQYSAgIB4NgIIDAQLIAggBUG4AWxqIgMtAKABDQECQCADLQBoQQNGBEAgAykDYCEODAELIAEoAgQiAq0hDwJAAkACQCACQv////8PIAMpA1AiDiAOQv////8PWhunayIFQQAgAiAFTxtBHU0EQEGokMgAKQMAIhCnIQMCQCAQQv8Bg0IEUQRAIAEgDkIefDcDCCADQf8BcUEERw0BDAMLIAEgDzcDCCADQf8BcUEERg0CCyAQQiCIpyECIBBCCIinIgUhAQJAAkACQAJAIANB/wFxIgZBAWsOAwEAAAILIAItAAghAQsgAUH/AXFBJUYNAQsgBCACNgIwIARBgYCAgHg2AiggBCAFQQh0IAZyNgIsDAMLIARBHjYCRCAEQYWexwA2AkAgBCAEQUBrrUKAgICAIIQ3AzggBEIBNwKcASAEQQE2ApQBIARBuJ7HADYCkAEgBCAEQThqNgKYASAEQShqIARBkAFqEOwDIANB/wFxQQNHDQIgAigCACEBIAJBBGooAgAiAygCACIFBEAgASAFEQMACyADKAIEIgUEQCABIAUgAygCCBCiBwsgAkEMQQQQogcMAgsgASAOQh58IhA3AwggASgCACAOIA8gDiAPVBunaiICKAAAQdCWjSBGDQILIARBMGpB5J7HACgCADYCACAEQdyexwApAgA3AygLIAQgBCkAKTcAHSAEIAQtACg6ABwgBCAELQAzOgAnIAQgBC8AMTsAJSAEKAIcIQEgACAEKQIgNwIMIAAgATYCCCAAQgM3AwAMBQsgAjMAHCEOIAIzABohDyAEQgE3A5ABIAQgDiAPIBB8fCIONwOYASADQeAAaiAEQZABahDIBgsgASAONwMIIAQgAykDQCIONwMQIAQgDjcDCAJAIAMvAYQBIglBAkYEf0GDgICAeAUgAy8BIEUNAUGFgICAeAshCCAAQSA2AhAgAEHgnMcANgIMIAAgCDYCCCAAQgM3AwAMBAsgBCkCDCEPIAMoAogBIQpBgMAAEHEiCEUNAiAOQiCIpyECIA6nIQUgD0IgiKchBiAPpyEHAn4gCUUEQP0MAAAAAAAgAAAAAAAAAAAAACAI/RwAIREgBf0RIAf9HAEgBv0cAiAC/RwDIRJBACEHQgIhD0IADAELIAQgATYCoAEgBCACNgKcASAEIAY2ApgBIAQgBzYClAEgBCAFNgKQASAEQbgBahCZBCAEQdAAaiAEQeABav0AAwD9CwMAIARB4ABqIARB8AFq/QADAP0LAwAgBEHwAGogBEGAAmr9AAMA/QsDACAEIAT9AAPIAf0LA4ABIAQgBCkD2AE3A0ggBCgCxAEhBSAEKALAASEBIAT9AASwASESIAQoAqQBIQYgBCgCoAEhByAE/QAEkAEhEUIAIQ8gBCkDqAELIQ5BuAEQcSICRQ0CIAIgBTYCVCACIAE2AlAgAiAS/QsDQCACIA43AzggAiAGNgI0IAIgBzYCMCACIBH9CwMgIAIgDzcDGCACQgA3AgwgAkKAwAA3AgQgAiAINgIAIAIgBP0AA4AB/QsDWCACIAQpA0g3A2ggAkHwAGogBEHQAGr9AAMA/QsDACACQYABaiAEQeAAav0AAwD9CwMAIAJBkAFqIARB8ABq/QADAP0LAwAgAkEBOgC0ASACIAo2ArABIAJBADYCqAEgAkIANwOgASAAQgI3AwAgACADNgIIIABBAjYCqAEgACACNgKsAQwDCyAAQgM3AwAgAEGEgICAeDYCCAwCCyAAQSE2AhAgAEHknccANgIMIABBg4CAgHg2AgggAEIDNwMADAELAAsgBEGQAmokAAv2CQENfyMAQSBrIgUkAAJAAkACQAJAAkACQAJAAkACQAJAIAEoAihBAkcEQCABKALkAUE4bCECIAEoAuABQRhqIQMDQCADIQEgAkUNBCACQThrIQIgAUE4aiEDQcTNxwBBESABQQRrKAIAIAEoAgAQrANFDQALIAFBGGsiASgCGCIIQQBIDQEgASgCFCEDAkAgCEUEQEEBIQwMAQsgCBBxIgxFDQgLIAgEQCAMIAMgCPwKAAALIAEoAiQiCUEASA0IIAEoAiAhAwJAIAlFBEBBASENDAELIAkQcSINRQ0ICyAJBEAgDSADIAn8CgAACyABKAIwIgpBAEgNCCABKAIsIQMCQCAKRQRAQQEhDgwBCyAKEHEiDkUNCAsgCgRAIA4gAyAK/AoAAAsgASgCAEEBRgRAIAEoAgwiA0EASA0JIAEoAgghAQJAIANFBEBBASEGDAELIAMQcSIGRQ0JCyADBEAgBiABIAP8CgAACyADIQEMBQsgASgCDCICQQBIDQIgASgCCCEBAkAgAkUEQEEBIQcMAQsgAhBxIgdFDQgLIAIEQCAHIAEgAvwKAAALIAVBEGogByACQYCAgAEQ3wEgBSgCFCEDAkACQCAFKAIQQQFGBEAgA0GAgICAeEcNAUEDIQEMAgsgBUEQaiAFKAIYIgYgBSgCHCIBEPsCIAUoAhBBAUYEQEEAIQEgA0UNAiAGQQRrKAIAIgRBeHEiC0EEQQggBEEDcSIEGyADakkNDCAEQQAgCyADQSdqSxsNDSAGEKICDAILIAIEQCAHQQRrKAIAIgRBeHEiC0EEQQggBEEDcSIEGyACakkNDCAEQQAgCyACQSdqSxsNDSAHEKICCyABQQBODQYMCgsgAwRAIAUoAhgiAUEEaygCACIGQXhxIgRBBEEIIAZBA3EiBhsgA2pJDQsgBkEAIAQgA0EnaksbDQwgARCiAgtBBCEBCyAFIAE6AAEgBUEeOgAAIAAgBRD8AwwFC0GsmMcAEN0JAAtBpO/BABD/BwwFC0HYmsgAEP8HAAsgAEKGgICAgICAgIB/NwMADAILAkAgAUUEQEEBIQcgAUUiAkUEQEEBIAYgAfwKAAALIAINAUEBQQEgAfwKAAAMAQsgARBxIgJFDQMgAUUiBEUEQCACIAYgAfwKAAALIAEQcSIHRQ0DIARFBEAgByACIAH8CgAACyACQQRrKAIAIgRBeHEiC0EEQQggBEEDcSIEGyABakkNBSAEQQAgCyABQSdqSxsNBiACEKICCyAAIAE2AgwgACAHNgIIIAAgATYCBCAAQQY2AgAgBiEHIAMhAgsgCARAIAxBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIAhqSQ0EIABBACABIAhBJ2pLGw0FIAwQogILIAkEQCANQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyAJakkNBCAAQQAgASAJQSdqSxsNBSANEKICCyAKBEAgDkEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgCmpJDQQgAEEAIAEgCkEnaksbDQUgDhCiAgsgAkUNACAHQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyACakkNAyAAQQAgASACQSdqSxsNBCAHEKICCyAFQSBqJAAPCwALQaTvwQAQ/wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvaCgMTfwJ+AXsjAEHQAmsiDyQAQoCAgICAgICAwAAgAa0iGIAiGSAYfkKAgICAgICAgMAAUq0CfyABQYEgTwRAQQEgAUEBcmdBH3MiBUEBdiAFQQFxaiIFdCABIAV2akEBdgwBC0HAACABIAFBAXZrIgUgBUHAAE8bCyERIBl8IRkgAEEEayEWIABBEGshFyAAQQhqIRRBASEJA0BBASEKQQAhEiABIAxLBEAgACAMQQJ0IhBqIQ0gDK0iGAJ/AkAgASAMayIKIBFJDQACQCAKQQJJBEAgCiEGDAELAkACQAJAAkACQCANKAIEIgUgDSgCAEkiDkUEQEECIQYgCkECRg0GIBQgDEECdGohCANAIAUgCCgCACIFSw0DIAhBBGohCCAKIAZBAWoiBkcNAAsMAQsgCkECRg0CQQIhBiAUIAxBAnRqIQgDQCAFIAgoAgAiBU0NAiAIQQRqIQggCiAGQQFqIgZHDQALCyAKIQYLIAYgEUkNBCAORQ0DIAZBAk8NAUEBIQYMAwsgDUEIaiEKQQAhCEEBIQ5BAiEGDAELIAZBAXYhDiANIAZBAnQiBWohCkEAIQggBkEISQ0AIBcgBSAQamohByAOQfz///8HcSIIIQUDQCANIAf9AAIAIA39AAIAIhr9DQwNDg8ICQoLBAUGBwABAgP9CwIAIAcgGiAa/Q0MDQ4PCAkKCwQFBgcAAQID/QsCACAHQRBrIQcgDUEQaiENIAVBBGsiBQ0ACyAIIA5GDQELIAAgCEECdCIFIBBqaiEHIA4gCGshCCAKIAVrQQRrIQUDQCAHKAIAIQogByAFKAIANgIAIAUgCjYCACAFQQRrIQUgB0EEaiEHIAhBAWsiCA0ACwsgBkEBdEEBcgwBCyAKIBEgCiARSRtBAXQgBEUNABogDUEgIAogCkEgTxsiBSACIANBAEEAEJUBIAVBAXRBAXILIgpBAXYgDGqtfCAZfiAMIAlBAXZrrSAYfCAZfoV5pyESCwJAAkAgC0ECSQ0AIBYgDEECdCIFaiEOIAAgBWohDQNAIAtBAWsiECAPQY4CamotAAAgEkkNAQJ/AkACQCADIA9BBGogEEECdGooAgAiBUEBdiIHIAlBAXYiBmoiE08gBSAJckEBcUVxRQRAIAAgDCATa0ECdGohCyAFQQFxRQ0BDAILIBNBAXQMAgsgCyAHIAIgAyAHQQFyZ0EBdEE+c0EAEJUBCyAJQQFxRQRAIAsgB0ECdGogBiACIAMgBkEBcmdBAXRBPnNBABCVAQsCQCAJQQJJIAVBAklyDQAgAyAGIAcgBiAHSSIGGyIFSQ0AIAsgB0ECdGohCSAFQQJ0IgUEQCACIAkgCyAGGyAF/AoAAAsgAiAFaiEHAkAgBkUEQCACIQUDQCALIAkoAgAiFSAFKAIAIgggCCAVSyIGGzYCACALQQRqIQsgBSAIIBVNQQJ0aiIFIAdGDQIgCSAGQQJ0aiIJIA1HDQALDAELIA4hBgNAAkAgBiAHQQRrIgcoAgAiCCAJQQRrIgUoAgAiCSAIIAlLGzYCACAHIAggCUlBAnRqIQcgBSAIIAlPQQJ0aiIJIAtGDQAgBkEEayEGIAIgB0cNAQsLIAkhCyACIQULIAcgBWsiBkUNACALIAUgBvwKAAALIBNBAXRBAXILIQlBASEHIBAiC0EBSw0ACwwBCyALIQcLIA9BjgJqIAdqIBI6AAAgD0EEaiAHQQJ0aiAJNgIAIAEgDEsEQCAHQQFqIQsgCkEBdiAMaiEMIAohCQwBCwsgCUEBcUUEQCAAIAEgAiADIAFBAXJnQQF0QT5zQQAQlQELIA9B0AJqJAAL4wsBA38gACAAKQMAIAKtfDcDACAAKAIIQX9zIQQgAkHAAE8EQANAIAFBM2otAAAgAUEjai0AACABQRNqLQAAIAEtAAAgBEH/AXFzQQJ0KAKYhUQgAUEBai0AACAEQQh2Qf8BcXNBAnQoApj9QyABQQJqLQAAIARBEHZB/wFxc0ECdCgCmPVDIAFBA2otAAAgBEEYdnNBAnQoApjtQyABQQRqLQAAQQJ0KAKY5UMgAUEFai0AAEECdCgCmN1DIAFBBmotAABBAnQoApjVQyABQQdqLQAAQQJ0KAKYzUMgAUEIai0AAEECdCgCmMVDIAFBCWotAABBAnQoApi9QyABQQpqLQAAQQJ0KAKYtUMgAUELai0AAEECdCgCmK1DIAFBDGotAABBAnQoApilQyABQQ1qLQAAQQJ0KAKYnUMgAUEPai0AAEECdCgCmI1DIAFBDmotAABBAnQoApiVQ3Nzc3Nzc3Nzc3Nzc3NzcyIDQRh2c0ECdCgCmO1DIAFBFGotAABBAnQoApjlQyABQRVqLQAAQQJ0KAKY3UMgAUEWai0AAEECdCgCmNVDIAFBF2otAABBAnQoApjNQyABQRhqLQAAQQJ0KAKYxUMgAUEZai0AAEECdCgCmL1DIAFBGmotAABBAnQoApi1QyABQRtqLQAAQQJ0KAKYrUMgAUEcai0AAEECdCgCmKVDIAFBHWotAABBAnQoApidQyABQR9qLQAAQQJ0KAKYjUMgAUEeai0AAEECdCgCmJVDc3Nzc3Nzc3Nzc3NzIAFBEmotAAAgA0EQdkH/AXFzQQJ0KAKY9UNzIAFBEWotAAAgA0EIdkH/AXFzQQJ0KAKY/UNzIAFBEGotAAAgA0H/AXFzQQJ0KAKYhURzIgNBGHZzQQJ0KAKY7UMgAUEkai0AAEECdCgCmOVDIAFBJWotAABBAnQoApjdQyABQSZqLQAAQQJ0KAKY1UMgAUEnai0AAEECdCgCmM1DIAFBKGotAABBAnQoApjFQyABQSlqLQAAQQJ0KAKYvUMgAUEqai0AAEECdCgCmLVDIAFBK2otAABBAnQoApitQyABQSxqLQAAQQJ0KAKYpUMgAUEtai0AAEECdCgCmJ1DIAFBL2otAABBAnQoApiNQyABQS5qLQAAQQJ0KAKYlUNzc3Nzc3Nzc3Nzc3MgAUEiai0AACADQRB2Qf8BcXNBAnQoApj1Q3MgAUEhai0AACADQQh2Qf8BcXNBAnQoApj9Q3MgAUEgai0AACADQf8BcXNBAnQoApiFRHMiA0EYdnNBAnQoApjtQyABQTRqLQAAQQJ0KAKY5UMgAUE1ai0AAEECdCgCmN1DIAFBNmotAABBAnQoApjVQyABQTdqLQAAQQJ0KAKYzUMgAUE4ai0AAEECdCgCmMVDIAFBOWotAABBAnQoApi9QyABQTpqLQAAQQJ0KAKYtUMgAUE7ai0AAEECdCgCmK1DIAFBPGotAABBAnQoApilQyABQT1qLQAAQQJ0KAKYnUMgAUE+ai0AAEECdCgCmJVDIAFBP2otAABBAnQoApiNQ3Nzc3Nzc3Nzc3NzcyABQTJqLQAAIANBEHZB/wFxc0ECdCgCmPVDcyABQTFqLQAAIANBCHZB/wFxc0ECdCgCmP1DcyABQTBqLQAAIANB/wFxc0ECdCgCmIVEcyEEIAFBQGshASACQUBqIgJBP0sNAAsLAkAgAkUNAAJAIAJBA3EiBUUEQCABIQMMAQsgASEDA0AgAy0AACAEc0H/AXFBAnQoApiNQyAEQQh2cyEEIANBAWohAyAFQQFrIgUNAAsLIAJBBEkNACABIAJqIQEDQCADLQAAIARzQf8BcUECdCgCmI1DIARBCHZzIgIgA0EBai0AAHNB/wFxQQJ0KAKYjUMgAkEIdnMiAiADQQJqLQAAc0H/AXFBAnQoApiNQyACQQh2cyICIANBA2otAABzQf8BcUECdCgCmI1DIAJBCHZzIQQgA0EEaiIDIAFHDQALCyAAIARBf3M2AggLjQoBB38jAEHAB2siBCQAAkACQAJAQYCAARBxIgVFDQAgBUEAQYCAAfwLAEGAEBBxIgZFDQAgBkEAQYAQ/AsAIARBpAdqQQA7AQAgBEEANgKgByAEQQA2ApQHIARBADYCiAcgBEEAOgCEByAEQQA2AoAHIAQgBjYC/AYgBCAFNgL4BiAEQgI3A/AGIARCADcD6AYgBEKAgICAIDcD4AYgBEEAQdgG/AsAIARBADoApgcgBEEBNgLcBiAEQSQ2AtgGQYAIIAMgA0GACE8bIQVBASEIAkAgA0UNACAFEHEiCEUNASAIQQRrLQAAQQNxRSAFRXINACAIQQAgBfwLAAsgBCAFNgKwByAEIAg2AqwHIAQgBTYCqAcCQAJAA0AgBEG0B2ogBCABIAlqIAIgCWsgCCAFIAdBARBCIAQtALQHBEAgACAELQC1BzoACCAAQoGAgICAgICAgH83AgAgBCgCqAciAARAIAhBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIABqSQ0GIAFBACACIABBJ2pLGw0HIAgQogILIAQoAvgGIgFBBGsoAgAiAEF4cUGEgAFBiIABIABBA3EiAhtJDQUgAkEAIABBqIABTxsNBiABEKICIAQoAuAGIgAEQCAEKALkBiIBQQRrKAIAIgJBeHEiAyAAQQF0IgBBBEEIIAJBA3EiAhtqSQ0GIAJBACADIABBJ2pLGw0HIAEQogILIAQoAvwGIgFBBGsoAgAiAEF4cUGEEEGIECAAQQNxIgIbSQ0FIAJBACAAQagQTxsNBgwDCyAELQCjByIGQQdHIAQoArwHIAdqIgcgA0dxRQRAIAUgB0kEQCAHIAVrIgEgBCgCqAcgBWtLBEAgBEGoB2ogBSABQQFBARCkBSAEKAKwByEFCyAEKAKsByICIAVqIQcgAUECTwR/IAFBAWsiAQRAIAdBACAB/AsACyACIAEgBWoiBWoFIAcLQQA6AAAgBUEBaiEHIAQtAKMHIQYLIAAgBCkCqAc3AgQgAEEMaiAHNgIAIAAgBkH/AXFBB0c2AgAgBCgC+AYiAUEEaygCACIAQXhxQYSAAUGIgAEgAEEDcSICG08NAkHMjMgAQS5B/IzIABDrBwALIAQoArgHIAlqIQkgBAJ/IAUgAyAHQYCAAmoiBiADIAZJGyIGTwRAIAYMAQsgBiAFayIKIAQoAqgHIAVrSwRAIARBqAdqIAUgCkEBQQEQpAUgBCgCrAchCCAEKAKwByEFCyAFIAhqIQYgCkECTwR/IApBAWsiCgRAIAZBACAK/AsACyAIIAUgCmoiBWoFIAYLQQA6AAAgBUEBagsiBTYCsAcgAiAJTw0ACyAJIAIgAkHAscQAEOoHAAsgAkEAIABBqIABTxsNAyABEKICIAQoAuAGIgAEQCAEKALkBiIBQQRrKAIAIgJBeHEiAyAAQQF0IgBBBEEIIAJBA3EiAhtqSQ0DIAJBACADIABBJ2pLGw0EIAEQogILIAQoAvwGIgFBBGsoAgAiAEF4cUGEEEGIECAAQQNxIgIbSQ0CIAJBACAAQagQTxsNAwsgARCiAiAEKALsBiIABEAgBCgC8AYiAUEEaygCACICQXhxIgMgAEEBdCIAQQRBCCACQQNxIgIbakkNAiACQQAgAyAAQSdqSxsNAyABEKICCyAEQcAHaiQADwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvQDAEHfyMAQUBqIgQkACABKAIMIQUCQAJAAkACQAJAAkAgASgCFCICIAEoAhAiA0kEQANAIAIgBWotAAAiB0EJayIGQRlLDQNBASAGdEGTgIAEcUUEQCAGQRlHDQQgBEE4aiABEKIDIAQtADhBAUcNAyAAIAQoAjw2AgQgAEEBOgAADAgLIAEgAkEBaiICNgIUIAIgA0cNAAsgAyECCyAEQQhqIAUgAyACQQFqIgEgAyABIANJGxD5ASAEKAIMIQIgBCgCCCEDQRQQcSIBRQ0CIAEgAzYCDCABQQU2AgAgACABNgIEIABBAToAACABIAI2AhAMBQsCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAQtADlBAWsODQECAwQFBgcICQoLDA0ACyAAQQA6AAEgAEEAOgAADBELIABBAToAASAAQQA6AAAMEAsgAEECOgABIABBADoAAAwPCyAAQQM6AAEgAEEAOgAADA4LIABBBDoAASAAQQA6AAAMDQsgAEEFOgABIABBADoAAAwMCyAAQQY6AAEgAEEAOgAADAsLIABBBzoAASAAQQA6AAAMCgsgAEEIOgABIABBADoAAAwJCyAAQQk6AAEgAEEAOgAADAgLIABBCjoAASAAQQA6AAAMBwsgAEELOgABIABBADoAAAwGCyAAQQw6AAEgAEEAOgAADAULIABBDToAASAAQQA6AAAMBAsCQCAHQfsARgRAIAEgAS0AGEEBayIGOgAYIAJBAWohAiAGQf8BcQ0BIARBEGogBSADIAIgAyACIANJGxD5ASAEKAIUIQIgBCgCECEDQRQQcSIBRQ0CIAEgAzYCDCABQRg2AgAgACABNgIEIABBAToAACABIAI2AhAMBQsgBCAFIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCBCECIAQoAgAhA0EUEHEiAUUNASABIAM2AgwgAUEKNgIAIAAgATYCBCAAQQE6AAAgASACNgIQDAQLIAEgAjYCFCAEQThqIAEQogMgBC0AOEEBRgRAIAQoAjwhAgwCCyABKAIMIQUCQAJAIAEoAhQiAiABKAIQIgNJBEAgBC0AOSEGA0ACQCACIAVqLQAAQQlrDjIAAAMDAAMDAwMDAwMDAwMDAwMDAwMDAwADAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDBAMLIAEgAkEBaiICNgIUIAIgA0cNAAsgAyECCyAEQSBqIAUgAyACQQFqIgIgAyACIANJGxD5ASAEKAIkIQMgBCgCICEFQRQQcSICRQ0CIAIgBTYCDCACQQM2AgAgAiADNgIQDAMLIARBGGogBSADIAJBAWoiAiADIAIgA0kbEPkBIAQoAhwhAyAEKAIYIQVBFBBxIgJFDQEgAiAFNgIMIAJBBjYCACACIAM2AhAMAgsgASACQQFqNgIUIAEQhwQhAiABIAEtABhBAWo6ABgCfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgBkEBaw4NAAECAwQFBgcICQoLDA0LQQFBgAIgAhsMDQtBAUGABCACGwwMC0EBQYAGIAIbDAsLQQFBgAggAhsMCgtBAUGACiACGwwJC0EBQYAMIAIbDAgLQQFBgA4gAhsMBwtBAUGAECACGwwGC0EBQYASIAIbDAULQQFBgBQgAhsMBAtBAUGAFiACGwwDC0EBQYAYIAIbDAILQQFBgBogAhsMAQsgAkEARwsiBUEBcQ0CIAEoAgwhBgJAIAEoAhQiAiABKAIQIgNJBEAgBUEIdiEFA0AgAiAGai0AACIHQQlrIghBF0tBASAIdEGTgIAEcUVyDQIgASACQQFqIgI2AhQgAiADRw0ACyADIQILIARBMGogBiADIAIQ+QEgBCgCNCECIAQoAjAhA0EUEHEiAUUNASABIAM2AgwgAUEDNgIAIAAgATYCBCAAQQE6AAAgASACNgIQDAQLIAdB/QBGBEAgACAFOgABIABBADoAACABIAJBAWo2AhQMBAsgBEEoaiAGIAMgAhD5ASAEKAIsIQIgBCgCKCEDQRQQcSIBRQ0AIAEgAzYCDCABQQo2AgAgACABNgIEIABBAToAACABIAI2AhAMAwsAC0EBIQUgASABLQAYQQFqOgAYCyAAIAI2AgQgACAFNgIACyAEQUBrJAALkAsDCn8CewF+QQEhDUEBIQkCQAJAAkACQAJAAkACQAJAIARBAUcEQEEBIQZBASEHA0AgBSAKaiIJIARPDQIgByEIAkAgAyAGai0AACIGIAMgCWotAAAiCUkEQCAFIAdqQQFqIgcgCmshDUEAIQUMAQsgBiAJRwRAQQEhDSAIQQFqIQdBACEFIAghCgwBC0EAIAVBAWoiByAHIA1GIgYbIQUgB0EAIAYbIAhqIQcLIAUgB2oiBiAESQ0AC0EBIQZBASEHQQAhBUEBIQkDQCAFIAtqIgwgBE8NAyAHIQgCQCADIAZqLQAAIgYgAyAMai0AACIMSwRAIAUgB2pBAWoiByALayEJQQAhBQwBCyAGIAxHBEBBASEJIAhBAWohB0EAIQUgCCELDAELQQAgBUEBaiIHIAcgCUYiBhshBSAHQQAgBhsgCGohBwsgBSAHaiIGIARJDQALCyAEIAogCyAKIAtLIgcbIgtJDQIgDSAJIAcbIgcgC2oiBSAHSSAEIAVJcg0DAn8gAyADIAdqIAsQ2wcEQAJAAkAgBEECSQRAQQAhCAwBCyADIQUgBEEecSIIIQcDQEIBIAUvAAD9EP0MPz8/Pz8/Pz8/Pz8/Pz8/P/1O/YkB/akB/ckBIhD9HQCG/RJCASAQ/R0Bhv0eASAP/VAhDyAFQQJqIQUgB0ECayIHDQALIA8gDyAP/Q0ICQoLDA0ODwABAgMEBQYH/VD9HQAhESAEIAhGDQELIAMgCGohBSAEIAhrIQcDQEIBIAUxAACGIBGEIREgBUEBaiEFIAdBAWsiBw0ACwsgBCALayIHIAsgByALSxtBAWohB0F/IQUgCyEKQX8MAQtBASEKQQAhBUEBIQZBACENA0AgBCAGIgggBWoiDEsEQCAEIAVrIAZBf3NqIgYgBE8NByAEIAVBf3NqIA1rIgkgBE8NCAJAIAMgBmotAAAiBiADIAlqLQAAIglJBEAgDEEBaiIGIA1rIQpBACEFDAELIAYgCUcEQCAIQQFqIQZBACEFQQEhCiAIIQ0MAQtBACAFQQFqIgYgBiAKRiIJGyEFIAZBACAJGyAIaiEGCyAHIApHDQELC0EBIQpBACEFQQEhBkEAIQkDQCAEIAYiCCAFaiIOSwRAIAQgBWsgBkF/c2oiBiAETw0JIAQgBUF/c2ogCWsiDCAETw0KAkAgAyAGai0AACIGIAMgDGotAAAiDEsEQCAOQQFqIgYgCWshCkEAIQUMAQsgBiAMRwRAIAhBAWohBkEAIQVBASEKIAghCQwBC0EAIAVBAWoiBiAGIApGIgwbIQUgBkEAIAwbIAhqIQYLIAcgCkcNAQsLIAQgCSANIAkgDUsbayEKQQAhBQJ/AkACQAJAAkAgBw4CAAIBCyAHDAMLIAMhCCAHQX5xIgUhBgNAQgEgCC8AAP0Q/Qw/Pz8/Pz8/Pz8/Pz8/Pz8//U79iQH9qQH9yQEiEP0dAIb9EkIBIBD9HQGG/R4BIA/9UCEPIAhBAmohCCAGQQJrIgYNAAsgDyAPIA/9DQgJCgsMDQ4PAAECAwQFBgf9UP0dACERIAUgB0YNAQsDQEIBIAMgBWoxAACGIBGEIREgByAFQQFqIgVHDQALC0EACyEFIAQLIQggACAENgI8IAAgAzYCOCAAIAI2AjQgACABNgIwIAAgCDYCKCAAIAU2AiQgACACNgIgIABBADYCHCAAIAc2AhggACAKNgIUIAAgCzYCECAAIBE3AwggAEEBNgIADwsgCSAEQdSawgAQjAcACyAMIARB1JrCABCMBwALQQAgCyAEQZSbwgAQ6gcACyAHIAUgBEGEm8IAEOoHAAsgBiAEQeSawgAQjAcACyAJIARB9JrCABCMBwALIAYgBEHkmsIAEIwHAAsgDCAEQfSawgAQjAcAC9wLBBV/AX4BfQF7IwBB0ABrIgQkACAEIAI2AgggBCABNgIEAkAgAygCBCIPIAJBA2wiBU8EQCACIAMoAgwiDU0EQCAFIAMoAhQiEE0EQCAFIAMoAhwiEU0EQCADKAIkIhIgAkECdCIFTwRAAkAgACgCCCITIAEgAmpPBEAgAg0BQQAhBQwHCyAEIBM2AiwgBEEDNgIUIARB+MnHADYCECAEQgM3AhwgBEKAgICAECIZIARBLGqthDcDQCAEIBkgBEEIaq2ENwM4IAQgGSAEQQRqrYQ3AzAgBCAEQTBqNgIYIARBEGpBkMrHABCNCAALIAAoAgQgAUEkbGohAiADKAIgIRQgAygCGCEVIAMoAhAhFiADKAIIIRcgAygCACEYAkACQANAAkACQAJAAkAgEyABIA5qIgVLBEAgCEEDaiIFIA9LDQEgAkEQaiAMIBhqIgZBCGogBv1dAgD9VgIAAiIb/VoCAAIgAkEIaiAb/VsCAAAgDSAORg0DIAsgF2ooAgAiCkH///8DcSEJIApBgICAgHhxIQYgCkGAgID8B3EiB0GAgID8B0YEQCAJQQ12IAZBEHZyQYAEQQAgCRtyQYD4AXIhBgwFCyAGQRB2IQYgB0GAgIC4BEsNAiAHQYCAgMQDTwRAIApBDHYgCkH/3wBxQQBHcSAHQQ12IAlBDXZqQYCAAWogBnJqIQYMBQsgB0GAgICYA0kNBCAJQYCAgARyIgpB/gAgB0EXdiIJa3YhByAKQR0gCWsiCXZBAXEEfyAHQQMgCXRBAWsgCnFBAEdqBSAHCyAGciEGDAQLIAUgE0HkwMcAEIwHAAsgCCAFIA9B4MrHABDqBwALIAZBgPgBciEGDAELIA0gDUGgyscAEIwHAAsgAkEUaiAGOwEAIAUgEEsNASAEIAwgFmoiBv1dAgAgBkEIaioCACIa/SACIBr9IAP9CwQwIAIgBEEwaiIHEOUCIAUgEUsNAiAEIAwgFWoiCP1dAgAgCEEIaioCACIa/SACIBr9IAP9CwQwIAIgBxDdAiASIAtBA2pLBEAgBCAU/QACAP0LBDAgDEEMaiEMIBRBEGohFCALQQRqIQsgAiAHEJACIAJBJGohAiAFIQggDkEBaiIOIAQoAggiBU8NCQwBCwsgCyALQQRqIBJBsMrHABDqBwALIAggBSAQQdDKxwAQ6gcACyAIIAUgEUHAyscAEOoHAAsgBCASNgIMIAQgBTYCLCAEQQI2AjQgBEG0yccANgIwIARCAjcCPCAEQoCAgIAQIhkgBEEsaq2ENwMYIAQgGSAEQQxqrYQ3AxAgBCAEQRBqNgI4IARBMGpBxMnHABCNCAALIAQgETYCDCAEIAU2AiwgBEECNgI0IARB/MjHADYCMCAEQgI3AjwgBEKAgICAECIZIARBLGqthDcDGCAEIBkgBEEMaq2ENwMQIAQgBEEQajYCOCAEQTBqQYzJxwAQjQgACyAEIBA2AgwgBCAFNgIsIARBAjYCNCAEQcTIxwA2AjAgBEICNwI8IARCgICAgBAiGSAEQSxqrYQ3AxggBCAZIARBDGqthDcDECAEIARBEGo2AjggBEEwakHUyMcAEI0IAAsgBCANNgIsIARBAjYCNCAEQYzIxwA2AjAgBEICNwI8IARCgICAgBAiGSAEQQhqrYQ3AxggBCAZIARBLGqthDcDECAEIARBEGo2AjggBEEwakGcyMcAEI0IAAsgBCAPNgIMIAQgBTYCLCAEQQI2AjQgBEHQx8cANgIwIARCAjcCPCAEQoCAgIAQIhkgBEEsaq2ENwMYIAQgGSAEQQxqrYQ3AxAgBCAEQRBqNgI4IARBMGpB4MfHABCNCAALIAAgASAFIAMoAiggAygCLCADKAIwIAMoAjQgAygCOCADKAI8ENsDAkAgAygCRCICRQ0AIAMoAkwiCEUNACAAKAIQIgYgACgCFCIAIAEgBSADKAJIIAgQjgMgBiAAIAEgBSADKAJAIAIQtAMLIARB0ABqJAALqwwCDH0EfwJAAkACQAJAAkAgBARAQwAA/kIgBZUhBQNAIBJBD2oiFSADSyAUQZCixIgBS3INA0MAAP5CQwAA/sIgBSACQTBqKgIAlCIHIAdDAAD+wl0bIgcgB0MAAP5CXhsQuQchB0MAAP5CQwAA/sIgBSACQTRqKgIAlCIIIAhDAAD+wl0bIgggCEMAAP5CXhsQuQchCEMAAP5CQwAA/sIgBSACQThqKgIAlCIJIAlDAAD+wl0bIgkgCUMAAP5CXhsQuQchCUMAAP5CQwAA/sIgBSACQSBqKgIAlCIKIApDAAD+wl0bIgogCkMAAP5CXhsQuQchCkMAAP5CQwAA/sIgBSACQSRqKgIAlCILIAtDAAD+wl0bIgsgC0MAAP5CXhsQuQchC0MAAP5CQwAA/sIgBSACQShqKgIAlCIMIAxDAAD+wl0bIgwgDEMAAP5CXhsQuQchDEMAAP5CQwAA/sIgBSACQSxqKgIAlCINIA1DAAD+wl0bIg0gDUMAAP5CXhsQuQchDUMAAP5CQwAA/sIgBSACQRBqKgIAlCIOIA5DAAD+wl0bIg4gDkMAAP5CXhsQuQchDkMAAP5CQwAA/sIgBSACQRRqKgIAlCIPIA9DAAD+wl0bIg8gD0MAAP5CXhsQuQchD0MAAP5CQwAA/sIgBSACQRhqKgIAlCIQIBBDAAD+wl0bIhAgEEMAAP5CXhsQuQchEEMAAP5CQwAA/sIgBSACQRxqKgIAlCIRIBFDAAD+wl0bIhEgEUMAAP5CXhsQuQchESABIBNNDQQgAEH/AEMAAP5CQwAA/sIgBSACKgIAlCIGIAZDAAD+wl0bIgYgBkMAAP5CXhsQuQciBvwAQYB/IAZDAAAAw2AbIAZDAAD+Ql4bQQAgBiAGWxtB/wFxQf8AQwAA/kJDAAD+wiAFIAJBBGoqAgCUIgYgBkMAAP7CXRsiBiAGQwAA/kJeGxC5ByIG/ABBgH8gBkMAAADDYBsgBkMAAP5CXhtBACAGIAZbG0H/AXFBCHRyQf8AQwAA/kJDAAD+wiAFIAJBCGoqAgCUIgYgBkMAAP7CXRsiBiAGQwAA/kJeGxC5ByIG/ABBgH8gBkMAAADDYBsgBkMAAP5CXhtBACAGIAZbG0H/AXFBEHRyQf8AQwAA/kJDAAD+wiAFIAJBDGoqAgCUIgYgBkMAAP7CXRsiBiAGQwAA/kJeGxC5ByIG/ABBgH8gBkMAAADDYBsgBkMAAP5CXhtBACAGIAZbG0EYdHI2AgAgE0EBaiISIAFPDQUgAEEEakH/ACAO/ABBgH8gDkMAAADDYBsgDkMAAP5CXhtBACAOIA5bG0H/AXFB/wAgD/wAQYB/IA9DAAAAw2AbIA9DAAD+Ql4bQQAgDyAPWxtB/wFxQQh0ckH/ACAQ/ABBgH8gEEMAAADDYBsgEEMAAP5CXhtBACAQIBBbG0H/AXFBEHRyQf8AIBH8AEGAfyARQwAAAMNgGyARQwAA/kJeG0EAIBEgEVsbQRh0cjYCACATQQJqIhIgAU8NBiAAQQhqQf8AIAr8AEGAfyAKQwAAAMNgGyAKQwAA/kJeG0EAIAogClsbQf8BcUH/ACAL/ABBgH8gC0MAAADDYBsgC0MAAP5CXhtBACALIAtbG0H/AXFBCHRyQf8AIAz8AEGAfyAMQwAAAMNgGyAMQwAA/kJeG0EAIAwgDFsbQf8BcUEQdHJB/wAgDfwAQYB/IA1DAAAAw2AbIA1DAAD+Ql4bQQAgDSANWxtBGHRyNgIAIBNBA2oiEiABTw0CIABBDGpB/wAgB/wAQYB/IAdDAAAAw2AbIAdDAAD+Ql4bQQAgByAHWxtB/wFxQf8AIAj8AEGAfyAIQwAAAMNgGyAIQwAA/kJeG0EAIAggCFsbQf8BcUEIdHJB/wAgCfwAQYB/IAlDAAAAw2AbIAlDAAD+Ql4bQQAgCSAJWxtB/wFxQRB0cjYCACAAQRBqIQAgE0EEaiETIAJBPGohAiAVIRIgBCAUQQFqIhRHDQALCw8LIBIgAUHwzscAEIwHAAsgEiAVIANBgM/HABDqBwALIBMgAUHAzscAEIwHAAsgEiABQdDOxwAQjAcACyASIAFB4M7HABCMBwAL9AoCDH8FfSACIAFBAnRBBGsiBmohDCAAIAZqIQogACABQQF2Ig1BAnRqIgZBBGshCyADQQRqIQ4DQEMAAIA/IRACfwJAIAYoAgAiAyAOKAIAIgRBCGooAgAiBUkEQCAAKAIAIQkgBEEEaigCACIHIANBJGxqIgMQigQhEiADLwEUIgRB//8BcUUEQCAEQRB0DAMLIARB/wdxIQMgBEGAgAJxIQggBEGA+AFxIgRBgPgBRgRAIAhBEHQhBCAEQYCAgPwHciADRQ0DGiAEIANBDXRyQYCAgP4HcgwDCyAIQRB0IQggBEUNASAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogCHIMAgsgAyAFQdTAxwAQjAcACyAIQYCAgNgDciADZ0EQayIEQRd0ayADIARB//8DcUEIanRB////A3FyC74iEUMAAIA/XgRAIBEQxgVDVPgtQJRDAACAP5KRIRALQwAAgD8hEQJ/AkAgBSAJSwRAIAcgCUEkbGoiAxCKBCETIAMvARQiBEH//wFxRQRAIARBEHQMAwsgBEH/B3EhAyAEQYCAAnEhBSAEQYD4AXEiBEGA+AFGBEAgBUEQdCEEIARBgICA/AdyIANFDQMaIAQgA0ENdHJBgICA/gdyDAMLIAVBEHQhBSAERQ0BIARBDXRBgICA/ABxIANBDXRyQYCAgMADaiAFcgwCCyAJIAVB1MDHABCMBwALIAVBgICA2ANyIANnQRBrIgRBF3RrIAMgBEH//wNxQQhqdEH///8DcXILviIUQwAAgD9eBEAgFBDGBUNU+C1AlEMAAIA/kpEhEQsgAiAGIAAgEiASkiAQlCIQIBBbIBAgEyATkiARlGBFcSIIGygCADYCAEMAAIA/IRACfwJAIAooAgAiAyAOKAIAIgRBCGooAgAiBUkEQCALKAIAIQkgBEEEaigCACIPIANBJGxqIgMQigQhEiADLwEUIgRB//8BcUUEQCAEQRB0DAMLIARB/wdxIQMgBEGAgAJxIQcgBEGA+AFxIgRBgPgBRgRAIAdBEHQhBCAEQYCAgPwHciADRQ0DGiAEIANBDXRyQYCAgP4HcgwDCyAHQRB0IQcgBEUNASAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogB3IMAgsgAyAFQdTAxwAQjAcACyAHQYCAgNgDciADZ0EQayIEQRd0ayADIARB//8DcUEIanRB////A3FyC74iEUMAAIA/XgRAIBEQxgVDVPgtQJRDAACAP5KRIRALQwAAgD8hEQJ/AkAgBSAJSwRAIAhFIQcgDyAJQSRsaiIDEIoEIRMgAy8BFCIEQf//AXFFBEAgBEEQdAwDCyAEQf8HcSEDIARBgIACcSEFIARBgPgBcSIEQYD4AUYEQCAFQRB0IQQgBEGAgID8B3IgA0UNAxogBCADQQ10ckGAgID+B3IMAwsgBUEQdCEFIARFDQEgBEENdEGAgID8AHEgA0ENdHJBgICAwANqIAVyDAILIAkgBUHUwMcAEIwHAAsgBUGAgIDYA3IgA2dBEGsiBEEXdGsgAyAEQf//A3FBCGp0Qf///wNxcgu+IhRDAACAP14EQCAUEMYFQ1T4LUCUQwAAgD+SkSERCyAIQQJ0IAZqIQYgB0ECdCAAaiEAIAJBBGohAiAMIAsgCiASIBKSIBCUIhAgEFsgECATIBOSIBGUYEVxIgMbKAIANgIAIAsgA0ECdCIDayELIAMgCmpBBGshCiAMQQRrIQwgDUEBayINDQALIAtBBGohAyABQQFxBH8gAiAAIAYgACADSSIBGygCADYCACAGIAAgA09BAnRqIQYgACABQQJ0agUgAAsgA0cgBiAKQQRqR3JFBEAPCxCACAALrgwBB38jAEFAaiIEJAAgASgCDCEFAkACQAJAAkACQAJAIAEoAhQiAiABKAIQIgNJBEADQCACIAVqLQAAIgdBCWsiBkEZSw0DQQEgBnRBk4CABHFFBEAgBkEZRw0EIARBOGogARCxAyAELQA4QQFHDQMgACAEKAI8NgIEIABBAToAAAwICyABIAJBAWoiAjYCFCACIANHDQALIAMhAgsgBEEIaiAFIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCDCECIAQoAgghA0EUEHEiAUUNAiABIAM2AgwgAUEFNgIAIAAgATYCBCAAQQE6AAAgASACNgIQDAULAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgBC0AOUEBaw4MAQIDBAUGBwgJCgsMAAsgAEEAOgABIABBADoAAAwQCyAAQQE6AAEgAEEAOgAADA8LIABBAjoAASAAQQA6AAAMDgsgAEEDOgABIABBADoAAAwNCyAAQQQ6AAEgAEEAOgAADAwLIABBBToAASAAQQA6AAAMCwsgAEEGOgABIABBADoAAAwKCyAAQQc6AAEgAEEAOgAADAkLIABBCDoAASAAQQA6AAAMCAsgAEEJOgABIABBADoAAAwHCyAAQQo6AAEgAEEAOgAADAYLIABBCzoAASAAQQA6AAAMBQsgAEEMOgABIABBADoAAAwECwJAIAdB+wBGBEAgASABLQAYQQFrIgY6ABggAkEBaiECIAZB/wFxDQEgBEEQaiAFIAMgAiADIAIgA0kbEPkBIAQoAhQhAiAEKAIQIQNBFBBxIgFFDQIgASADNgIMIAFBGDYCACAAIAE2AgQgAEEBOgAAIAEgAjYCEAwFCyAEIAUgAyACQQFqIgEgAyABIANJGxD5ASAEKAIEIQIgBCgCACEDQRQQcSIBRQ0BIAEgAzYCDCABQQo2AgAgACABNgIEIABBAToAACABIAI2AhAMBAsgASACNgIUIARBOGogARCxAyAELQA4QQFGBEAgBCgCPCECDAILIAEoAgwhBQJAAkAgASgCFCICIAEoAhAiA0kEQCAELQA5IQYDQAJAIAIgBWotAABBCWsOMgAAAwMAAwMDAwMDAwMDAwMDAwMDAwMDAAMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMEAwsgASACQQFqIgI2AhQgAiADRw0ACyADIQILIARBIGogBSADIAJBAWoiAiADIAIgA0kbEPkBIAQoAiQhAyAEKAIgIQVBFBBxIgJFDQIgAiAFNgIMIAJBAzYCACACIAM2AhAMAwsgBEEYaiAFIAMgAkEBaiICIAMgAiADSRsQ+QEgBCgCHCEDIAQoAhghBUEUEHEiAkUNASACIAU2AgwgAkEGNgIAIAIgAzYCEAwCCyABIAJBAWo2AhQgARCHBCECIAEgAS0AGEEBajoAGAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgBkEBaw4MAAECAwQFBgcICQoLDAtBAUGAAiACGwwMC0EBQYAEIAIbDAsLQQFBgAYgAhsMCgtBAUGACCACGwwJC0EBQYAKIAIbDAgLQQFBgAwgAhsMBwtBAUGADiACGwwGC0EBQYAQIAIbDAULQQFBgBIgAhsMBAtBAUGAFCACGwwDC0EBQYAWIAIbDAILQQFBgBggAhsMAQsgAkEARwsiBUEBcQ0CIAEoAgwhBgJAIAEoAhQiAiABKAIQIgNJBEAgBUEIdiEFA0AgAiAGai0AACIHQQlrIghBF0tBASAIdEGTgIAEcUVyDQIgASACQQFqIgI2AhQgAiADRw0ACyADIQILIARBMGogBiADIAIQ+QEgBCgCNCECIAQoAjAhA0EUEHEiAUUNASABIAM2AgwgAUEDNgIAIAAgATYCBCAAQQE6AAAgASACNgIQDAQLIAdB/QBGBEAgACAFOgABIABBADoAACABIAJBAWo2AhQMBAsgBEEoaiAGIAMgAhD5ASAEKAIsIQIgBCgCKCEDQRQQcSIBRQ0AIAEgAzYCDCABQQo2AgAgACABNgIEIABBAToAACABIAI2AhAMAwsAC0EBIQUgASABLQAYQQFqOgAYCyAAIAI2AgQgACAFNgIACyAEQUBrJAALuQsCCX8HfSMAQSBrIggkACAAEKMFIABBwAFqQQA6AAAgAEIANwK4ASACQQJ0IgYhBSAAKAJ8IgcgBkkEQCAGIAciBWsiCyAAKAJ0IAVrSwRAIABB9ABqIAUgC0EEQQQQpAUgACgCfCEFCyAAKAJ4Ig0gBUECdCIMaiEJIAtBAk8EQCAGIAdBf3NqQQJ0IgoEQCAJQQAgCvwLAAsgAkEEdCAHQQJ0ayANaiAMakEEayEJIAUgC2pBAWshBQsgCUEANgIAIAVBAWohBQsgACAFNgJ8AkACQAJAIAAoAgBBAUcNACAFIAZJDQIgACgCeCELAkAgAkUNACACQf////8DcSEJQQAhDCALIQcgAiENQQghBQJ/AkACQAJ/AkACQAJAA0ACQAJAAkAgBCAFQQhrSwRAIAVBB2sgBE8NASAFQQZrIARPDQIgCQ0DIAwgBkHou8EAEIwHAAsgBUEIawwKCyAFQQdrDAYLIAVBBmshBQwCC0MAAH9DIANBBGoqAgAiEYsiDkMAAIA/QwAA+EFDAAAAACADKgIAIhKLIg8gDiADQQhqKgIAIhOLIhQQ4AgQ4AgQngWOQwAAcEGSIg4gDkMAAAAAXRsiDiAOQwAA+EFeGxC5B/wAIgpBD2sQsAZDAAB/Q5UiDpUiECAQQwAAf0NeGxC5ByEQIAdDAAB/QyAPIA6VIg8gD0MAAH9DXhsQuQf8ASAKQRt0QYCAgAhBACASQwAAAABdG3JBgICAEEEAIBFDAAAAAF0bckGAgIAgQQAgE0MAAAAAXRtyciAQ/AFBCHRyQwAAf0MgFCAOlSIOIA5DAAB/Q14bELkH/AFBEHRyNgIAIAVBBWsgBE8NBiAFQQRrIARPDQMgBCAFQQNrSwRAQwAAf0MgA0EQaioCACIRiyIOQwAAgD9DAAD4QUMAAAAAIANBDGoqAgAiEosiDyAOIANBFGoqAgAiE4siFBDgCBDgCBCeBY5DAABwQZIiDiAOQwAAAABdGyIOIA5DAAD4QV4bELkH/AAiCkEPaxCwBkMAAH9DlSIOlSIQIBBDAAB/Q14bELkHIRAgB0EEakMAAH9DIA8gDpUiDyAPQwAAf0NeGxC5B/wBIApBG3RBgICACEEAIBJDAAAAAF0bckGAgIAQQQAgEUMAAAAAXRtyQYCAgCBBACATQwAAAABdG3JyIBD8AUEIdHJDAAB/QyAUIA6VIg4gDkMAAH9DXhsQuQf8AUEQdHI2AgAgBUECayAETw0GIAVBAWsgBE8NAyAEIAVNDQJDAAB/QyADQRxqKgIAIhGLIg5DAACAP0MAAPhBQwAAAAAgA0EYaioCACISiyIPIA4gA0EgaioCACITiyIUEOAIEOAIEJ4FjkMAAHBBkiIOIA5DAAAAAF0bIg4gDkMAAPhBXhsQuQf8ACIKQQ9rELAGQwAAf0OVIg6VIhAgEEMAAH9DXhsQuQchECAHQQhqQwAAf0MgDyAOlSIPIA9DAAB/Q14bELkH/AEgCkEbdEGAgIAIQQAgEkMAAAAAXRtyQYCAgBBBACARQwAAAABdG3JBgICAIEEAIBNDAAAAAF0bcnIgEPwBQQh0ckMAAH9DIBQgDpUiDiAOQwAAf0NeGxC5B/wBQRB0cjYCACAMQQRqIQwgB0EQaiEHIAlBAWshCSAFQQlqIQUgA0EkaiEDIA1BAWsiDQ0BDAkLCyAFQQNrIQULIAUgBEHYu8EAEIwHAAsgBUEBawwBCyAFQQRrCyAEQci7wQAQjAcACyAFQQJrDAELIAVBBWsLIARBuLvBABCMBwALIAggACgCBCABQQJ0IAEgAmpBAnQQ4QgiABC4CiIBNgIAIAggBjYCBCABIAZHDQEgACALIAYQ4AkgAEGECEkNACAAEJsHCyAIQSBqJAAPCyAIQQA2AghBACAIIAhBBGogCEEIakHg+cQAEPUHAAtBACAGIAVB+LvBABDqBwALrAsCIH8XfSMAQTBrIgckACAAIAEQ7QEgAUEMbCEcIAAtANQBIR0gAC0AzAEhHiAALQDEASEfIAAtALwBISAgACgCTCELIAAoAlAhCSAAKAIoISEgACgCLCETIAAoAjQhIiAAKAI4IQwgACgCQCEjIAAoAkQhDSAAKAIcISQgACgCICEOIAAoAtABIRQgACgCyAEhFSAAKALAASEWIAAoArgBIRcgACgCECElIAAoAhQhJkEAIQECQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkADQCAHIAIgGGoiADYCAAJAAkACQCAmIABBCHYiAEsEQCAgIAUgBiADIBdqEI8FIQggHyAFIAYgAyAWahCPBSEPIB4gBSAGIAMgFWoQjwUhGSAdIAUgBiADIBRqEI8FIREgJSAAQcgAbGoiACoCCCEsIAAqAhQhNSAAKgIEIS0gACoCECE2IAAqAgAhLiAAKgIMITdDAACAPyAPQRR2Qf8HcbNDAMB/RJVDAAAAv5JD8wS1P5QiKCAolJMgD0EKdkH/B3GzQwDAf0SVQwAAAL+SQ/MEtT+UIikgKZSTIA9B/wdxs0MAwH9ElUMAAAC/kkPzBLU/lCIqICqUk0MAAAAAEOAIkSEnICghKyAPQR52IhoOAgMBAgsgB0EBNgIUIAdBgN3HADYCECAHQgE3AhwgByAHrUKAgICAEIQ3AyggByAHQShqNgIYIAdBBGoiACAHQRBqELEGIAAQkAchAAwSCyAnISsMAQsgKSErCyABIA5PDQIgACoCMCEvIAAqAjwhOCAAKgIgITAgACoCLCE5IAAqAhghMSAAKgIkITogACoCOCEyIAAqAkQhOyAAKgI0ITMgACoCQCE8IAAqAhwhNCAAKgIoIT0gEiAkaiIbIC4gCEEVdrNDAOD/RJUgNyAuk5SSOAIAIAFBAWoiACAOTw0DIBtBBGogLSAIQQt2Qf8HcbNDAMB/RJUgNiAtk5SSOAIAIAFBAmoiECAOTw0EIBtBCGogLCAIQf8PcbNDAOD/RJUgNSAsk5SSOAIAIAEgDU8NBSASICNqIgggMSAZQRV2s0MA4P9ElSA6IDGTlJIQiQQ4AgAgACANTw0GIAhBBGogNCAZQQt2Qf8HcbNDAMB/RJUgPSA0k5SSEIkEOAIAIA0gEE0NByAIQQhqIDAgGUH/D3GzQwDg/0SVIDkgMJOUkhCJBDgCACABIAxPDQggEiAiaiIIIC8gEUEYdrNDAAB/Q5UgOCAvk5SSOAIAIAAgDE8NCSAIQQRqIDMgEUEQdkH/AXGzQwAAf0OVIDwgM5OUkjgCACAMIBBNDQogCEEIaiAyIBFBCHZB/wFxs0MAAH9DlSA7IDKTlJI4AgAgEyAYRg0LIAogIWogEUH/AXGzQwAAf0OVOAIAIAkgCk0NDCALICs4AgAgCkEBaiIAIAlPDQ0gC0EEaiAnICogGkECRhsgKSAPQQBIGzgCACAKQQJqIgAgCU8NDiALQQhqICcgKiAaQQNGGzgCACAKQQNqIgAgCU8NASALQQxqICcgKCAPQYCAgIAESRs4AgAgGEEBaiEYIAQgF2ohFyAEIBZqIRYgBCAVaiEVIAQgFGohFCABQQNqIQEgC0EQaiELIApBBGohCiAcIBJBDGoiEkcNAAtBACEADA4LIAAgCUHU3McAEIwHAAsgASAOQYTbxwAQjAcACyAAIA5BlNvHABCMBwALIBAgDkGk28cAEIwHAAsgASANQbTbxwAQjAcACyAAIA1BxNvHABCMBwALIBAgDUHU28cAEIwHAAsgASAMQeTbxwAQjAcACyAAIAxB9NvHABCMBwALIBAgDEGE3McAEIwHAAsgEyATQZTcxwAQjAcACyAKIAlBpNzHABCMBwALIAAgCUG03McAEIwHAAsgACAJQcTcxwAQjAcACyAHQTBqJAAgAAvFCgImfwF9AkACQAJAAkACQAJAAkACQCAAKAKEAUGAgICAeEYNACAAKAK0ASIGIAAoAoABIgdLBEAgBiAHayIGIAAoAnggB2tLBEAgAEH4AGogByAGQQRBBBCkBSAAKAKAASEHCyAAKAJ8IgkgB0ECdGohCCAGQQJPBH8gBkECdEEEayINBEAgCEEAIA38CwALIAYgB2oiBkEBayEHIAkgBkECdGpBBGsFIAgLQQA2AgAgACAHQQFqNgKAAQsgACABEO0BIAAoAoQBQYCAgIB4Rg0AIAAoAogBIhFBCEEAIAAoAowBIhIbIglqIRkgESASQQN0IgZqIRogACgCfCENIAAoAoABIQsgACgC8AIiGwRAIAAoAqwBIhxBBEEAIAAoArABIh0bIghqISIgACgCoAEiHkEEQQAgACgCpAEiHxsiB2ohIyAAKAKUASIgQQRBACAAKAKYASIhGyIKaiEkIBwgHUECdCIMaiElIB4gH0ECdCIOaiEmICAgIUECdCIPaiEnIAAoAnAhEyAAKAJ0IRQgACgCZCEVIAAoAmghFiAAKAJYIRcgACgCXCEYIAwgCGtBAnZBAWohKCAOIAdrQQJ2QQFqISkgDyAKa0ECdkEBaiEqIAYgCWtBA3ZBAWohK0EAIQxBACEOQQAhD0EBIQBBACEKA0AgCiEGIAAhCiASBEAgAyAGbCACaiEHQQAhACANIQkgGSEGIBEhCANAIAgtAAQgBCAFIAcgCCgCAGoQvQQhLCAAIAtGDQogCSAsOAIAIAlBBGohCSAGQQhBACAGIgggGkcbaiEGICsgAEEBaiIARw0ACwsgIQRAIBggDyAPIBhJGyEQICohACAXIQggDyEHICQhCSAgIQYDQCAGKAIAIgYgC08NCCAHIBBGDQkgCCANIAZBAnRqKgIAQwAAAEGUQwAAf0OVQwAAgMCSOAIAIAhBBGohCCAHQQFqIQdBBEEAIAkiBiAnRxsgBmohCSAAQQFrIgANAAsLAkAgG0EBRg0AIB8EQCAWIA4gDiAWSRshECApIQAgFSEIIA4hByAjIQkgHiEGA0AgBigCACIGIAtPDQcgByAQRg0IIAggDSAGQQJ0aioCAEMAAABBlEMAAH9DlUMAAIDAkjgCACAIQQRqIQggB0EBaiEHQQRBACAJIgYgJkcbIAZqIQkgAEEBayIADQALCyAdRSAbQQJNcg0AIBQgDCAMIBRJGyEQICghACATIQggDCEHICIhCSAcIQYDQCAGKAIAIgYgC08NCyAHIBBGDQUgCCANIAZBAnRqKgIAQwAAAEGUQwAAf0OVQwAAgMCSOAIAIAhBBGohCCAHQQFqIQdBBEEAIAkiBiAlRxsgBmohCSAAQQFrIgANAAsLIBNB1ABqIRMgDEEVaiEMIBVBPGohFSAOQQ9qIQ4gF0EkaiEXIA9BCWohDyAKIAEgCksiBmohACAGDQALDAELIBJFDQAgBkEIa0EDdkEBaiEMQQEhAEEAIQcDQCAAIQogAyAHbCACaiEHIA0hCUEAIQAgGSEGIBEhCANAIAgtAAQgBCAFIAcgCCgCAGoQvQQhLCAAIAtGDQggCSAsOAIAIAlBBGohCSAGQQhBACAGIgggGkcbaiEGIAwgAEEBaiIARw0ACyAKIAEgCksiBmohACAKIQcgBg0ACwsPCyAHIBRB4OTHABCMBwALIAYgC0Hw5McAEIwHAAsgByAWQYDlxwAQjAcACyAGIAtBkOXHABCMBwALIAcgGEGg5ccAEIwHAAsgACALQbDlxwAQjAcACyAGIAtB0OTHABCMBwALoAoCB38BeyAAIAEoAgQ2AlwCQAJAAkAgAS0ACEUEQCABKAIAIgWzQwAAwD+UjfwBIgIgACgCACAAKAIIIgFrSwRAIAAgASACQQRBGBCkBQsgACgCDCAAKAIUIgFrIAJJBEAgAEEMaiABIAJBBEEYEKQFCyAAKAJcIgNFDQEgACgCGCAAKAIgIgFrIAJJBEAgAEEYaiABIAJBAUEJEKQFIAAoAlwhAwsgA0ECSQ0BIAAoAiQgACgCLCIBayACSQR/IABBJGogASACQQFBDxCkBSAAKAJcBSADC0EDSQ0BIAIgACgCMCAAKAI4IgFrTQ0BIABBMGogASACQQFBFRCkBQwBCyABKAIAIgUgACgCFCICTQRAIAAgBTYCFCACIAVGDQEgACgCECAFQRhsaiEBA0AgAUEUaigCACIDQQVPBEAgAUEIaigCACIGQQRrKAIAIgRBeHEiCCADQQJ0IgNBBEEIIARBA3EiBBtqSQ0EIARBACAIIANBJ2pLGw0FIAYQogILIAFBGGohASAFIAJBAWsiAkcNAAsMAQsgAiEEIAUgAmsiByAAKAIMIAJrSwRAIABBDGogAiAHQQRBGBCkBSAAKAIUIQQLIAAoAhAhBiAHQQNxIgMEQCADIARqIAUgAmsgA2shByAGIARBGGxqIQEDQCABQQA2AgAgAUEUakEANgIAIAFBGGohASADQQFrIgMNAAshBAsgAiAFa0F8TQRAIAYgBEEYbGohAQNAIAFBADYCACABQdwAakEANgIAIAFBxABqQgA3AgAgAUEsakIANwIAIAFBFGpCADcCACABQeAAaiEBIARBBGohBCAHQQRrIgcNAAsLIAAgBDYCFAsCQCAAKAIIIgYgBSICTw0AIAIgBiICayIEIAAoAgAgAmtLBEAgACACIARBBEEYEKQFIAAoAgghAgsgACgCBCEHIARBA3EiAwRAIAIgA2ogBSAGayADayEEIAcgAkEYbGohAQNAIAH9DAAAAAAAAAAAAAAAAAAAAAD9CwIAIAFBD2pCADcAACABQRhqIQEgA0EBayIDDQALIQILIAYgBWtBfEsNACAHIAJBGGxqIQEDQCAB/QwAAAAAAAAAAAAAAAAAAAAA/QsCACABQQ9qQgA3AAAgAUEYaiAJ/QsCACABQSdqQgA3AAAgAUEwaiAJ/QsCACABQT9qQgA3AAAgAUHIAGogCf0LAgAgAUHXAGpCADcAACABQeAAaiEBIAJBBGohAiAEQQRrIgQNAAsLIAAgAjYCCAJAIAAoAlwiAUUNACAAIAAoAiAiAyAFTwR/IAUFIAUgA2siBCAAKAIYIANrSwRAIABBGGogAyAEQQFBCRCkBSAAKAIgIQMgACgCXCEBCyAEQQlsIgIEQCAAKAIcIANBCWxqQQAgAvwLAAsgAyAEags2AiAgAUECSQ0AIAAgACgCLCIDIAVPBH8gBQUgBSADayIEIAAoAiQgA2tLBEAgAEEkaiADIARBAUEPEKQFIAAoAiwhAyAAKAJcIQELIARBD2wiAgRAIAAoAiggA0EPbGpBACAC/AsACyADIARqCzYCLCABQQNJDQAgACAAKAI4IgEgBUkEfyAFIAFrIgUgACgCMCABa0sEQCAAQTBqIAEgBUEBQRUQpAUgACgCOCEBCyAFQRVsIgIEQCAAKAI0IAFBFWxqQQAgAvwLAAsgASAFagUgBQs2AjgLDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALqQoBDX8jAEEwayIJJAACQAJAAkAgBUEDSQRAIANBB0sNAiAERSITLQC0q0YiCEEHSw0DQQEhCgJAAkACQAJAIAEgA0EobGpBmAFqIgMgASgC8AQgBEGgCGxqIhQgCEGEAWxqIAVBLGxqIgFBCyABKAAAEMgEQf8BcSIFDgwBAAAAAAAAAAAAAAIACyAFQQFrQQRPBEAgBUEFa0H/AXEiCEEFSw0FAn9BACAIQQxsIgEtAPyrRiIFRQ0AGiABLQCGrEYhCiABLQCFrEYhCyABLQCErEYhDCABLQCDrEYhDSABLQCCrEYhDiABLQCBrEYhDyABLQCArEYhECABLQD/q0YhESABLQD+q0YhEiABLQD9q0YhASADIAUQmQUiBSABRQ0AGiADIAEQmQVBAkEAIAUbciIFIBJFDQAaIAMgEhCZBSAFQQF0ciIFIBFFDQAaIAMgERCZBSAFQQF0ciIFIBBFDQAaIAMgEBCZBSAFQQF0ciIFIA9FDQAaIAMgDxCZBSAFQQF0ciIFIA5FDQAaIAMgDhCZBSAFQQF0ciIFIA1FDQAaIAMgDRCZBSAFQQF0ciIFIAxFDQAaIAMgDBCZBSAFQQF0ciIFIAtFDQAaIAMgCxCZBSAFQQF0ciIFIApFDQAaIAMgChCZBSAFQQF0cgsgCC0AxKxGaiEFCyATLQDKrEYhCCADEKoFIQEgCEEPSw0CQQAhCiACIAhBAnRqIAcgBiAIG8FBACAFayAFIAEbbDYCAEEBQQIgBUEBRhtBACAFGyEFC0EBQQIgBBshBANAIARBtKvGAGotAAAiCEEITw0GIApBAnQhAUEBIQtBASEKAkACQCADIBQgCEGEAWxqIAVBLGxqIgVBCyABIAVqKAAAEMgEQf8BcSIFDgwBAAAAAAAAAAAAAAMACyAFQQFrQQRPBEAgBUEFa0H/AXEiCEEGTw0GAn9BACAIQQxsIgEtAPyrRiIFRQ0AGiABLQCGrEYhCiABLQCFrEYhDCABLQCErEYhDSABLQCDrEYhDiABLQCCrEYhDyABLQCBrEYhECABLQCArEYhESABLQD/q0YhEiABLQD+q0YhEyABLQD9q0YhASADIAUQmQUiBSABRQ0AGiADIAEQmQVBAkEAIAUbciIFIBNFDQAaIAMgExCZBSAFQQF0ciIFIBJFDQAaIAMgEhCZBSAFQQF0ciIFIBFFDQAaIAMgERCZBSAFQQF0ciIFIBBFDQAaIAMgEBCZBSAFQQF0ciIFIA9FDQAaIAMgDxCZBSAFQQF0ciIFIA5FDQAaIAMgDhCZBSAFQQF0ciIFIA1FDQAaIAMgDRCZBSAFQQF0ciIFIAxFDQAaIAMgDBCZBSAFQQF0ciIFIApFDQAaIAMgChCZBSAFQQF0cgsgCC0AxKxGaiEFCyAEQcqsxgBqLQAAIQggAxCqBSEBIAhBD0sNA0EAIQogAiAIQQJ0aiAHIAYgCBvBQQAgBWsgBSABG2w2AgBBAUECIAVBAUYbQQAgBRshBQsgBEEBaiIEQRBHDQALC0EPIQUgACADLQAjQfIBRwR/IAAgCzoAAUEdBSAFCzoAACAJQTBqJAAPCyAIQRBB3KzGABCMBwALQfCqxgBBIUGUq8YAEOsHAAsgCSAFOgAPIAlBATYCFCAJQeSrxgA2AhAgCUIBNwIcIAkgCUEPaq1CgICAgMAOhDcDKCAJIAlBKGo2AhggCUEQakHsq8YAEI0IAAsgA0EIQaSrxgAQjAcACyAIQQhBxKvGABCMBwALkAsCCH8BfiMAQZABayIDJAACfyACRQRAIANBEGogA0EcaigCADYCACADIAMpAhQ3AwggACgCACEFIAEhBiABIAJqDAELQQEhBAJ/IAEsAAAiBUEATgRAIAVB/wFxIQUgAUEBagwBCyABLQABQT9xIQcgBUEfcSEGIAVBX00EQCAGQQZ0IAdyIQUgAUECagwBCyABLQACQT9xIAdBBnRyIQcgBUFwSQRAIAcgBkEMdHIhBSABQQNqDAELIAZBEnRBgIDwAHEgAS0AA0E/cSAHQQZ0cnIhBSABQQRqCyEGIANBFGogBUGBggQQgQMgA0EQaiADQRxqKAIAIgc2AgAgAyADKQIUIgs3AwggAy0AISEIIAMtACAhCSAAKAIAIQUgA0GIAWogBzYCACADIAs3A4ABIAEgAmoLIQcgA0HIAGogA0GIAWooAgA2AgAgAyADKQOAATcCQCADIAc2AnwgAyAGNgJ4QQAhACADQQA2AmQgA0EANgJQIAMgCDoATSADIAk6AEwgAyAENgI8IANBADYCKCADQQA2AhQCQAJAIAQEQCADQRhqIgQgA0FAa/0AAgD9CwIAIAMtACQhAQJAIAMtACUiAkGBAU8EQCABIAJPDQEgBCgCACEEIAUoAgAhCCAFKAIEKAIQIQkDQCAIIAQgCRECAA0EIAFBAWoiAUH/AXEgAkkNAAsgAiEBDAELIAEgAk8NACABIAIgASACSxshAiAFKAIAIQggBSgCBCgCECEJA0AgCCABIARqLQAAIAkRAgANAyACIAFBAWoiAUcNAAsgAiEBCyADIAE6ACQLIAYgB0YNASADQdQAaiIJIQAgBSgCBCEIIAUoAgAhBQNAAkACfwJAAkACfyAGLAAAIgFBAE4EQCABQf8BcSEEIAZBAWoMAQsgBi0AAUE/cSEEIAFBH3EhAiABQV9NBEAgAkEGdCAEciEEIAZBAmoMAQsgBi0AAkE/cSAEQQZ0ciEEIAFBcEkEQCAEIAJBDHRyIQQgBkEDagwBCyACQRJ0QYCA8ABxIAYtAANBP3EgBEEGdHJyIgRBgIDEAEYNASAGQQRqCyEGAkACQAJAAkACQAJAAkACQAJAAkAgBA4oAgEBAQEBAQEBAwUBAQQBAQEBAQEBAQEBAQEBAQEBAQEBAQcBAQEBCAALIARB3ABGDQULIAQQ4QINByADQQA6AIIBIANBADsBgAEgAyAEQRR2LQDctkU6AIMBIAMgBEEEdkEPcS0A3LZFOgCHASADIARBCHZBD3EtANy2RToAhgEgAyAEQQx2QQ9xLQDctkU6AIUBIAMgBEEQdkEPcS0A3LZFOgCEASAEQQFyZ0ECdiIBIANBgAFqIgpqIgJB+wA6AAAgAkEBa0H1ADoAACAKIAFBAmsiAWpB3AA6AAAgA0H9ADoAiQEgAyAEQQ9xLQDctkU6AIgBQQoMCgsgA0IANwGCASADQdzgADsBgAEMCAsgA0IANwGCASADQdzoATsBgAEMBwsgA0IANwGCASADQdzkATsBgAEMBgsgA0IANwGCASADQdzcATsBgAEMBQsgA0IANwGCASADQdy4ATsBgAEMBAsgA0IANwGCASADQdzEADsBgAEMAwsgA0IANwGCASADQdzOADsBgAEMAgsgAyAENgKAASAAIAMpAoABNwIAIABBCGogA0GIAWovAQA7AQAgBSAJKAIAIAgoAhARAgBFDQMMBQtBACEADAULQQAhAUECCyEEIAAgAykCgAE3AgAgAEEIaiADQYgBai8BADsBACABIAQgASAESxsiAkH/AXEhBCAIKAIQIQoDQCAFIAAgAWotAAAgChECAA0DIAQgAUEBaiIBRw0ACyADIAI6AGALIAYgB0cNAAtBACEADAELQQEhAAsgA0GQAWokACAAC+MJAQZ/IAFBA2wiBCAAKAKQBCICSwRAIAQgAmsiBSAAKAKIBCACa0sEQCAAQYgEaiACIAVBBEEEEKQFIAAoApAEIQILIAAoAowEIgYgAkECdGohAyAFQQJPBH8gBUECdEEEayIHBEAgA0EAIAf8CwALIAIgBWoiA0EBayECIAYgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgKQBAsgACgCnAQiAiABSQRAIAEgAmsiBSAAKAKUBCACa0sEQCAAQZQEaiACIAVBBEEEEKQFIAAoApwEIQILIAAoApgEIgYgAkECdGohAyAFQQJPBH8gBUECdEEEayIHBEAgA0EAIAf8CwALIAIgBWoiA0EBayECIAYgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgKcBAsgACgCqAQiAiAESQRAIAQgAmsiBSAAKAKgBCACa0sEQCAAQaAEaiACIAVBBEEEEKQFIAAoAqgEIQILIAAoAqQEIgYgAkECdGohAyAFQQJPBH8gBUECdEEEayIHBEAgA0EAIAf8CwALIAIgBWoiA0EBayECIAYgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgKoBAsgACgCtAQiAiAESQRAIAQgAmsiBCAAKAKsBCACa0sEQCAAQawEaiACIARBBEEEEKQFIAAoArQEIQILIAAoArAEIgUgAkECdGohAyAEQQJPBH8gBEECdEEEayIGBEAgA0EAIAb8CwALIAIgBGoiA0EBayECIAUgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgK0BAsgAUECdCICIAAoAsAEIgRLBEAgAiAEayICIAAoArgEIARrSwRAIABBuARqIAQgAkEEQQQQpAUgACgCwAQhBAsgACgCvAQiBSAEQQJ0aiEDIAJBAk8EfyACQQJ0QQRrIgYEQCADQQAgBvwLAAsgAiAEaiICQQFrIQQgBSACQQJ0akEEawUgAwtBADYCACAAIARBAWo2AsAECwJAAkAgACgChAQiBEUNACABQQlsIgMgACgCzAQiAksEQCADIAJrIgQgACgCxAQgAmtLBEAgAEHEBGogAiAEQQRBBBCkBSAAKALMBCECCyAAKALIBCIFIAJBAnRqIQMgBEECTwR/IARBAnRBBGsiBgRAIANBACAG/AsACyACIARqIgNBAWshAiAFIANBAnRqQQRrBSADC0EANgIAIAAgAkEBajYCzAQgACgChAQhBAsgBEEBTQ0AIAFBD2wiAyAAKALYBCICSwR/IAMgAmsiBCAAKALQBCACa0sEQCAAQdAEaiACIARBBEEEEKQFIAAoAtgEIQILIAAoAtQEIgUgAkECdGohAyAEQQJPBH8gBEECdEEEayIGBEAgA0EAIAb8CwALIAIgBGoiA0EBayECIAUgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgLYBCAAKAKEBAUgBAtBAk0NACABQRVsIgIgACgC5AQiAUsNAQsPCyACIAFrIgMgACgC3AQgAWtLBEAgAEHcBGogASADQQRBBBCkBSAAKALkBCEBCyAAKALgBCIEIAFBAnRqIQIgA0ECTwR/IANBAnRBBGsiBQRAIAJBACAF/AsACyABIANqIgJBAWshASAEIAJBAnRqQQRrBSACC0EANgIAIAAgAUEBajYC5AQLtwkBBn8gAUEDbCIEIAAoAiAiAksEQCAEIAJrIgUgACgCGCACa0sEQCAAQRhqIAIgBUEEQQQQpAUgACgCICECCyAAKAIcIgYgAkECdGohAyAFQQJPBH8gBUECdEEEayIHBEAgA0EAIAf8CwALIAIgBWoiA0EBayECIAYgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgIgCyAAKAIsIgIgAUkEQCABIAJrIgUgACgCJCACa0sEQCAAQSRqIAIgBUEEQQQQpAUgACgCLCECCyAAKAIoIgYgAkECdGohAyAFQQJPBH8gBUECdEEEayIHBEAgA0EAIAf8CwALIAIgBWoiA0EBayECIAYgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgIsCyAAKAI4IgIgBEkEQCAEIAJrIgUgACgCMCACa0sEQCAAQTBqIAIgBUEEQQQQpAUgACgCOCECCyAAKAI0IgYgAkECdGohAyAFQQJPBH8gBUECdEEEayIHBEAgA0EAIAf8CwALIAIgBWoiA0EBayECIAYgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgI4CyAAKAJEIgIgBEkEQCAEIAJrIgQgACgCPCACa0sEQCAAQTxqIAIgBEEEQQQQpAUgACgCRCECCyAAKAJAIgUgAkECdGohAyAEQQJPBH8gBEECdEEEayIGBEAgA0EAIAb8CwALIAIgBGoiA0EBayECIAUgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgJECyABQQJ0IgIgACgCUCIESwRAIAIgBGsiAiAAKAJIIARrSwRAIABByABqIAQgAkEEQQQQpAUgACgCUCEECyAAKAJMIgUgBEECdGohAyACQQJPBH8gAkECdEEEayIGBEAgA0EAIAb8CwALIAIgBGoiAkEBayEEIAUgAkECdGpBBGsFIAMLQQA2AgAgACAEQQFqNgJQCwJAAkAgACgC8AIiBEUNACABQQlsIgMgACgCXCICSwRAIAMgAmsiBCAAKAJUIAJrSwRAIABB1ABqIAIgBEEEQQQQpAUgACgCXCECCyAAKAJYIgUgAkECdGohAyAEQQJPBH8gBEECdEEEayIGBEAgA0EAIAb8CwALIAIgBGoiA0EBayECIAUgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgJcIAAoAvACIQQLIARBAU0NACABQQ9sIgMgACgCaCICSwR/IAMgAmsiBCAAKAJgIAJrSwRAIABB4ABqIAIgBEEEQQQQpAUgACgCaCECCyAAKAJkIgUgAkECdGohAyAEQQJPBH8gBEECdEEEayIGBEAgA0EAIAb8CwALIAIgBGoiA0EBayECIAUgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgJoIAAoAvACBSAEC0ECTQ0AIAFBFWwiAiAAKAJ0IgFLDQELDwsgAiABayIDIAAoAmwgAWtLBEAgAEHsAGogASADQQRBBBCkBSAAKAJ0IQELIAAoAnAiBCABQQJ0aiECIANBAk8EfyADQQJ0QQRrIgUEQCACQQAgBfwLAAsgASADaiICQQFrIQEgBCACQQJ0akEEawUgAgtBADYCACAAIAFBAWo2AnQL9AoBCH8jAEGAAWsiBCQAIAAoAgwhBgJAAkACQAJAAkACQAJAIAAoAhQiCCAAKAIQIgNJBEACQAJAAkACQAJAAkACQAJAAkAgBiAIai0AACIFQdsAaw4hBAgICAgICAgICAgDCAgICAgICAEICAgICAIICAgICAgFAAsgBUEiaw4MBgcHBwcHBwcHBwcFBwsgACAIQQFqIgU2AhQCQCADIAVNDQAgACAIQQJqIgc2AhQgBSAGai0AAEH1AEcNDSADIQUgAyAHRg0AIAAgCEEDaiIJNgIUIAYgB2otAABB7ABHBEAgCSEHDA4LIAMgCUYNACAAIAhBBGoiBzYCFCAGIAlqLQAAQewARw0NIARBBzoAcCAEQfAAaiABIAIQ3wYgABDrBSEDDA4LIARBEGogBiADIAUQ+QEgBCgCFCEAIAQoAhAhAUEUEHEiA0UNDiADIAE2AgwgA0EFNgIAIAMgADYCEAwNCyAAIAhBAWoiBTYCFAJAIAMgBU0NACAAIAhBAmoiBzYCFCAFIAZqLQAAQfIARw0LIAMhBSADIAdGDQAgACAIQQNqIgk2AhQgBiAHai0AAEH1AEcEQCAJIQcMDAsgAyAJRg0AIAAgCEEEaiIHNgIUIAYgCWotAABB5QBHDQsgBEGAAjsBcCAEQfAAaiABIAIQ3wYgABDrBSEDDA0LIARBIGogBiADIAUQ+QEgBCgCJCEAIAQoAiAhAUEUEHEiA0UNDSADIAE2AgwgA0EFNgIAIAMgADYCEAwMCyAAIAhBAWoiBTYCFAJAIAMgBU0NACAAIAhBAmoiBzYCFCAFIAZqLQAAQeEARw0JIAMhBSADIAdGDQAgACAIQQNqIgk2AhQgBiAHai0AAEHsAEcEQCAJIQcMCgsgAyAJRg0AIAAgCEEEaiIKNgIUIAYgCWotAABB8wBHBEAgCiEHDAoLIAMgCkYNACAAIAhBBWoiBzYCFCAGIApqLQAAQeUARw0JIARBADsBcCAEQfAAaiABIAIQ3wYgABDrBSEDDAwLIARBMGogBiADIAUQ+QEgBCgCNCEAIAQoAjAhAUEUEHEiA0UNDCADIAE2AgwgA0EFNgIAIAMgADYCEAwLCyAEQQo6AHAgBEHwAGogASACEN8GIAAQ6wUhAwwKCyAEQQs6AHAgBEHwAGogASACEN8GIAAQ6wUhAwwJCyAAIAhBAWo2AhQgBEFAayIFIABBABDHAyAEKQNAQgNRDQQgBSABIAIQhAcgABDrBSEDDAgLIABBADYCCCAAIAhBAWo2AhQgBEHkAGogAEEMaiAAEIICIAQoAmghAyAEKAJkQQJGDQcgBCAEKAJsNgJ4IAQgAzYCdCAEQQU6AHAgBEHwAGogASACEN8GIAAQ6wUhAwwHCyAFQTBrQf8BcUEKSQ0BCyAEQQhqIAYgAyAIQQFqIgEgAyABIANJGxD5ASAEKAIMIQIgBCgCCCEDQRQQcSIBRQ0GIAEgAzYCDCABQQo2AgAgASACNgIQIAEgABDrBSEDDAULIARB0ABqIABBARDHAyAEKQNQQgNRBEAgBCgCWCEDDAULIARB0ABqIAEgAhCEByAAEOsFIQMMBAsgBCgCSCEDDAMLIARBOGogBiADIAcQ+QEgBCgCPCEAIAQoAjghAUEUEHEiA0UNAyADIAE2AgwgA0EJNgIAIAMgADYCEAwCCyAEQShqIAYgAyAHEPkBIAQoAiwhACAEKAIoIQFBFBBxIgNFDQIgAyABNgIMIANBCTYCACADIAA2AhAMAQsgBEEYaiAGIAMgBxD5ASAEKAIcIQAgBCgCGCEBQRQQcSIDRQ0BIAMgATYCDCADQQk2AgAgAyAANgIQCyAEQYABaiQAIAMPCwAL2wsBBX8jAEEwayICJABBASEDAkACQAJAAkACQAJAAkBBASAALQAAIgRBJGsgBEEjTRtB/wFxQQFrDgMBAgMACyABKAIAIgRB86XHAEEHIAEoAgQiBigCDCIFEQAADQUgAEEEaiEAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0HIAAgARCuAkUNAQwHCyAEQduBwgBBAiAFEQAADQYgAkEBOgAoIAIgBjYCCCACIAQ2AgQgAkHggcIANgIYIAIgASkCCDcCHCACIAJBKGo2AgwgAiACQQRqNgIUIAAgAkEUahCuAg0GIAIoAhRB2YHCAEECIAIoAhgoAgwRAAANBgsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDAULIAEoAgAiBEHQt8cAQQYgASgCBCIGKAIMIgURAAANBAJAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0HIAIgADYCBCABKAIAQdzJxABBCyABKAIEKAIMEQAAIQAgAkEAOgAZIAIgADoAGCACIAE2AhQgAkEUakGQwcQAQQUgAkEEakHMycQAEIwFIQAgAi0AGCIEQQFxIAItABkiBUEBR3JFBEAgACgCACIALQAKQYABcQ0CIAAoAgBB/7PFAEECIAAoAgQoAgwRAABFDQMMCAsgBQ0HIARBAXFFDQIMBwsgBEHbgcIAQQIgBREAAA0GIAIgBjYCCCACIAQ2AgQgAkEBOgATIAJB4IHCADYCGCACIAEpAgg3AhwgAiACQRNqNgIMIAIgAkEEaiIDNgIUIAIgADYCJCADQdzJxABBCxCvAyEAIAJBADoALSACIAA6ACwgAiACQRRqNgIoIAJBKGpBkMHEAEEFIAJBJGpBzMnEABCMBSEAAkACQCACLQAsIgNBAXEgAi0ALSIEQQFHckUEQCAAKAIAIgAtAApBgAFxDQEgACgCAEH/s8UAQQIgACgCBCgCDBEAAA0IDAILIAQNByADQQFxRQ0BDAcLIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAANBgsgAigCFEHZgcIAQQIgAigCGCgCDBEAAEUNAUEBIQMMBgsgACgCAEGls8UAQQEgACgCBCgCDBEAAA0FCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMBAsgASgCACIEQeSlxwBBCSABKAIEIgYoAgwiBREAAA0DIABBBGohAAJAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0GIAIgADYCBCABKAIAQZCqxwBBDiABKAIEKAIMEQAAIQAgAkEAOgAZIAIgADoAGCACIAE2AhQgAkEUakGQwcQAQQUgAkEEakGAwcQAEIwFIQAgAi0AGCIEQQFxIAItABkiBUEBR3JFBEAgACgCACIALQAKQYABcQ0CIAAoAgBB/7PFAEECIAAoAgQoAgwRAABFDQMMBwsgBQ0GIARBAXFFDQIMBgsgBEHbgcIAQQIgBREAAA0FIAIgBjYCCCACIAQ2AgQgAkEBOgATIAJB4IHCADYCGCACIAEpAgg3AhwgAiACQRNqNgIMIAIgAkEEaiIDNgIUIAIgADYCJCADQZCqxwBBDhCvAyEAIAJBADoALSACIAA6ACwgAiACQRRqNgIoIAJBKGpBkMHEAEEFIAJBJGpBgMHEABCMBSEAAkACQCACLQAsIgNBAXEgAi0ALSIEQQFHckUEQCAAKAIAIgAtAApBgAFxDQEgACgCAEH/s8UAQQIgACgCBCgCDBEAAA0GDAILIAQNBSADQQFxRQ0BDAULIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAANBAsgAigCFEHZgcIAQQIgAigCGCgCDBEAAEUNAUEBIQMMBQsgACgCAEGls8UAQQEgACgCBCgCDBEAAA0ECyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMAwsgASgCAEGfzsQAQQ4gASgCBCgCDBEAACEDDAILQQEhAwwBC0EBIQMLIAJBMGokACADC8MKAw5/A3sCfiMAQaABayIHJAAgByACNgIEIAcgACgCCCIDNgIIAkACQAJAAkACQAJAAkACQAJAAkAgAiADRgRAIAdBDGogASACEPEDIAcoAhAhAQJAIAcoAhQiDEUNACABIAxBA3RqIQogACgCBCEGIAEhAwNAIAMoAgAiBCACTw0DIANBBGooAgAiBSACTw0MIAYgBEEkbGoiBEEgaiIIKAIAIQkgBiAFQSRsaiIF/QACACESIAVBEGoiC/0AAgAhESAIIAVBIGoiCCgCADYCACAEQRBqIg39AAIAIRMgDSAR/QsCACAE/QACACERIAQgEv0LAgAgCyAT/QsCACAFIBH9CwIAIAggCTYCACADQQhqIgMgCkcNAAsgACgCFCICBEAgACgCECEEIAEhAwNAIAMoAgAiBSACTw0NIANBBGooAgAiBiACTw0FIAQgBUEYbGoiBUEQaiIIKQIAIRQgBCAGQRhsaiIG/QACACESIAggBkEQaiIIKQIANwIAIAX9AAIAIREgBSAS/QsCACAIIBQ3AgAgBiAR/QsCACADQQhqIgMgCkcNAAsLIAAoAiAiAgRAIAAoAhwhBCABIQMDQCADKAIAIgUgAk8NDSADQQRqKAIAIgYgAk8NBiAEIAVBEmxqIgVBEGoiCC8BACEJIAQgBkESbGoiBv0AAQAhEiAIIAZBEGoiCC8BADsBACAF/QABACERIAUgEv0LAQAgCCAJOwEAIAYgEf0LAQAgA0EIaiIDIApHDQALCyAAKAIsIgUEQCAAKAIoIQYgASECA0AgAigCACIDIAVPDQcgAkEEaigCACIEIAVPDQggBiADQR5saiIDQRBqIggpAQAhFCADQRZqKQEAIRUgBiAEQR5saiIEQRxqLwEAIQkgBEEYaigBACELIAT9AAEAIRIgCCAEQRBqIggpAQA3AQAgA/0AAQAhESADIBL9CwEAIANBGGogCzYBACADQRxqIAk7AQAgB0GGAWoiAyAVNwEAIAdBgAFqIgkgFDcDACAEIBH9CwEAIAggCSkDADcBACAEQRZqIAMpAQA3AQAgAkEIaiICIApHDQALCyAAKAI4IgNFIAxFcg0AIAAoAjQhBSABIQIDQCACKAIAIgAgA08NCCACQQRqKAIAIgQgA08NCSAHQZgBaiIMIAUgAEEqbGoiAEEoaiIGLwEAOwEAIAdBkAFqIgggAEEgaiIJKQEANwMAIAdBgAFqIgsgAEEQaiIN/QABAP0LAwAgBSAEQSpsaiIEQRBqIg79AAEAIRIgBP0AAQAhESAEQShqIg8vAQAhECAJIARBIGoiCSkBADcBACAGIBA7AQAgAP0AAQAhEyAAIBH9CwEAIA0gEv0LAQAgByAT/QsDcCAJIAgpAwA3AQAgDyAMLwEAOwEAIAQgB/0AA3D9CwEAIA4gC/0AAwD9CwEAIAJBCGoiAiAKRw0ACwsgBygCDCIABEAgAUEEaygCACICQXhxIgMgAEEDdCIAQQRBCCACQQNxIgIbakkNCSACQQAgAyAAQSdqSxsNCiABEKICCyAHQaABaiQADwsgB0EANgJwQQAgB0EEaiAHQQhqIAdB8ABqQaTBxwAQ9QcACyAEIAJBwPbHABCMBwALIAYgAkHA9scAEIwHAAsgBiACQcD2xwAQjAcACyADIAVBwPbHABCMBwALIAQgBUHA9scAEIwHAAsgACADQcD2xwAQjAcACyAEIANBwPbHABCMBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAFIAJBwPbHABCMBwAL4AoCB38BfiMAQdAAayIEJAAgAAJ/AkACQAJAAkACQAJAIAEoAhQiAiABKAIQIgNJBEAgASgCDCEIAn4CQANAIAIgCGotAAAiBUEJayIHQRdLQQEgB3RBk4CABHFFcg0BIAEgAkEBaiICNgIUIAIgA0cNAAsgAyECQgAMAQtCgAILIAWtQhCGhEKAgrgDUQ0BCyAEQSBqIAEoAgwiBSADIAIgA0kEfwNAIAIgBWotAAAiBkEJayIHQRlLDQNBASAHdEGTgIAEcUUEQCAHQRlHDQQgARDMBCICDQUMCAsgASACQQFqIgI2AhQgAiADRw0ACyADBSACC0EBaiIBIAMgASADSRsQ+QEgBCgCJCECIAQoAiAhA0EUEHEiAUUNBCABIAM2AgwgAUEFNgIAIAEgAjYCECAAIAE2AgQMAwsgASACQQFqIgY2AhQCQAJAAkAgAyAGTQ0AIAEgAkECaiIFNgIUIAYgCGotAABB9QBHDQEgBSAGIAMgAyAGSRsiBkYNACABIAJBA2oiBzYCFCAFIAhqLQAAQewARwRAIAchBQwCCyAGIAdGDQAgASACQQRqIgU2AhQgByAIai0AAEHsAEcNASAAQQA6AAFBAAwICyAEQQhqIAggAyAGEPkBIAQoAgwhBiAEKAIIIQFBFBBxIgJFDQUgAkEFNgIADAELIARBEGogCCADIAUQ+QEgBCgCFCEGIAQoAhAhAUEUEHEiAkUNBCACQQk2AgALIAIgATYCDCAAIAI2AgQgAiAGNgIQDAILIAZB+wBHBEAgBEEYaiAFIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCHCECIAQoAhghA0EUEHEiAUUNAyABIAM2AgwgAUEKNgIAIAEgAjYCECAAIAE2AgQMAgsgASABLQAYQQFrIgc6ABggAkEBaiECIAdB/wFxRQRAIARBKGogBSADIAIgAyACIANJGxD5ASAEKAIsIQIgBCgCKCEDQRQQcSIBRQ0DIAEgAzYCDCABQRg2AgAgASACNgIQIAAgATYCBAwCCyABIAI2AhQCQCABEMwEIgJFBEAgASgCDCEFAkACQCABKAIUIgIgASgCECIDSQRAA0ACQCACIAVqLQAAQQlrDjIAAAMDAAMDAwMDAwMDAwMDAwMDAwMDAwADAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDBgMLIAEgAkEBaiICNgIUIAIgA0cNAAsgAyECCyAEQThqIAUgAyACQQFqIgIgAyACIANJGxD5ASAEKAI8IQYgBCgCOCEDQRQQcSICRQ0GIAJBAzYCAAwBCyAEQTBqIAUgAyACQQFqIgIgAyACIANJGxD5ASAEKAI0IQYgBCgCMCEDQRQQcSICRQ0FIAJBBjYCAAsgAiADNgIMIAIgBjYCEAsgASABLQAYQQFqOgAYIAAgAjYCBAwCCyABIAJBAWo2AhQgARCHBCECIAEgAS0AGEEBajoAGCACDQAgASgCDCEFAkAgASgCFCICIAEoAhAiA0kEQANAIAIgBWotAAAiB0EJayIGQRdLQQEgBnRBk4CABHFFcg0CIAEgAkEBaiICNgIUIAIgA0cNAAsgAyECCyAEQcgAaiAFIAMgAhD5ASAEKAJMIQIgBCgCSCEDQRQQcSIBRQ0DIAEgAzYCDCABQQM2AgAgASACNgIQIAAgATYCBAwCCyAHQf0ARgRAIAEgAkEBajYCFAwECyAEQUBrIAUgAyACEPkBIAQoAkQhASAEKAJAIQNBFBBxIgJFDQIgAiADNgIMIAJBCjYCACACIAE2AhALIAAgAjYCBAtBAQwCCwALIABBAToAAUEACzoAACAEQdAAaiQAC/kKAwV/An0BfiMAQSBrIgIkAAJAIAEoAgAiBEGQtcQAQQUgASgCBCIDKAIMIgURAAAEQEEBIQMMAQsCQAJAAkAgASgCCCIGQYCAgARxRQRAQQEhAyAEQbuzxQBBASAFEQAADQQgBkGAgIABcSEFIAAqAgAhByAGQYCAgIABcQ0BIABBBGohBCAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyRQRAIAEgByAFQQBHQQEQ9wJFDQMMBQsgASAHIAVBAEcQzwJFDQIMBAsgBEHbgcIAQQIgBREAAARAQQEhAwwECyACQQE6AA8gAiADNgIEIAIgBDYCACACQeCBwgA2AhQgAiABKQIIIgk3AhggCaciBEGAgIABcSEDIAIgAkEPajYCCCACIAI2AhAgACoCACEHAkACQCAEQYCAgIABcUUEQCAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyDQEgAkEQaiAHIANBAEdBARD3Ag0FDAILIAJBEGogByADQQBHIAlCMIinEL0CRQ0BDAQLIAJBEGogByADQQBHEM8CDQMLIAIoAhBB2YHCAEECIAIoAhQoAgwRAAAEQEEBIQMMBAsgAEEEaiEEDAELIAEgByAFQQBHIAEvAQ4QvQINAiAAQQRqIQQLAkACQAJAAkACQCABKAIIIgNBgICABHFFBEAgASgCAEHnkMYAQQIgASgCBCgCDBEAAARAQQEhAwwICyADQYCAgAFxIQUgBCoCACEHIANBgICAgAFxDQEgAEEIaiEEIAeLIghDyhsOWmAgB0MAAAAAXCAIQxe30ThdcXJFBEBBASEDIAEgByAFQQBHQQEQ9wJFDQUMCAsgASAHIAVBAEcQzwJFDQRBASEDDAcLIAEpAgAhCSACQQE6AA8gAiAJNwIAIAJB4IHCADYCFCACIAEpAggiCTcCGCAJpyIFQYCAgAFxIQMgAiACQQ9qNgIIIAIgAjYCECAEKgIAIQcgBUGAgICAAXFFDQEgAkEQaiAHIANBAEcgCUIwiKcQvQJFDQIMBAsgASAHIAVBAEcgAS8BDhC9AgRAQQEhAwwGCyAAQQhqIQQMAgsgB4siCEPKGw5aYCAHQwAAAABcIAhDF7fROF1xckUEQCACQRBqIAcgA0EAR0EBEPcCDQMMAQsgAkEQaiAHIANBAEcQzwINAgsgAigCEEHZgcIAQQIgAigCFCgCDBEAAEUEQCAAQQhqIQQMAQtBASEDDAMLAkACQAJAAkACQCABKAIIIgNBgICABHFFBEAgASgCAEHnkMYAQQIgASgCBCgCDBEAAARAQQEhAwwJCyADQYCAgAFxIQAgBCoCACEHIANBgICAgAFxDQEgB4siCEPKGw5aYCAHQwAAAABcIAhDF7fROF1xckUEQEEBIQMgASAHIABBAEdBARD3AkUNBQwJC0EBIQMgASAHIABBAEcQzwJFDQQMCAsgASkCACEJIAJBAToADyACIAk3AgAgAkHggcIANgIUIAIgASkCCCIJNwIYIAmnIgNBgICAAXEhACACIAJBD2o2AgggAiACNgIQIAQqAgAhByADQYCAgIABcUUNASACQRBqIAcgAEEARyAJQjCIpxC9AkUNAgwEC0EBIQMgASAHIABBAEcgAS8BDhC9Ag0GDAILIAeLIghDyhsOWmAgB0MAAAAAXCAIQxe30ThdcXJFBEAgAkEQaiAHIABBAEdBARD3Ag0DDAELIAJBEGogByAAQQBHEM8CDQILIAIoAhBB2YHCAEECIAIoAhQoAgwRAABFDQBBASEDDAQLIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwDC0EBIQMMAgtBASEDDAELQQEhAwsgAkEgaiQAIAML2AkDEH8EfgF7IwBBMGsiBiQAAkACQCACKAIAIg4gAigCCCILayIHQSBPBEAgASkDCCEUIA4hBSALIQcMAQsgBkEQav0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgBiAX/QsDAAJ/IAEpAwgiFVAEQCALDAELIAEoAhAiDygCACAPKQMIIhMgDygCBCIErSIWIBMgFlQbp2ohCAJAIARC/////w8gEyATQv////8PWhunayIFQQAgBCAFTxsiBEIgIBUgFUIgWhunIgUgBCAFSRsiA0EBRgRAIAYgCC0AADoAAAwBCyADRQ0AIAYgCCAD/AoAAAsgASAVIAOtIhZ9IhQ3AwggDyATIBZ8NwMIIAsgAyAHTQ0AGiACIAsgA0EBQQEQpAUgAigCCAshBSADBEAgAigCBCAFaiAGIAP8CgAACyACIAMgBWoiBzYCCCADBEAgAigCACEFDAELIABBBDoAACAAQQA2AgQMAQsgASgCECEJQYDAACEQIAZBEGohDwJAA0ACQCAFIAdHIAUgDkdyRQRAIA/9DAAAAAAAAAAAAAAAAAAAAAD9CwMAIAYgF/0LAwACfyAUUARAQQAhA0IAIRQgDgwBCyAJKQMIIhUgCSgCBCIMrSIWIBUgFlQbpyIHIAkoAgBqIQgCQCAMQv////8PIBUgFUL/////D1obp2siBUEAIAUgDE0bIgRCICAUIBRCIFobpyIFIAQgBUkbIgNBAUYEQCAGIAgtAAA6AAAMAQsgA0UNACAGIAggA/wKAAALIAEgFCADrSIWfSIUNwMIIAkgFSAWfDcDCCAOIAcgDEYNABogAiAOIANBAUEBEKQFIAIoAggLIQUgAwRAIAIoAgQgBWogBiAD/AoAAAsgAiADIAVqIgc2AgggA0UEQCAAQQQ6AAAgACAHIAtrNgIEDAULIAIoAgAhBQsCQCAFIAdHBEAgAigCBCEDDAELIAVBIGoiCCAFQQF0IgQgBCAISRsiBEEASA0BQQAhAyAGIAUEfyAGIAU2AgggBiACKAIENgIAQQEFIAMLNgIEIAZBJGpBASAEIAYQhQcgBigCJEEBRg0BIAYoAighAyACIAQ2AgAgAiADNgIEIAQhBQsgFFAEQCACIAc2AggMAwsgAyAHaiESIAkCfiAQIAUgB2siBCAEIBBLGyINrSAUWARAIAkoAgQiCEL/////DyAJKQMIIhMgE0L/////D1obp2siBEEAIAQgCE0bIgQgDSAEIA1JGyIDBEAgEiAJKAIAIBMgCK0iFiATIBZUG6dqIAP8CgAACyADIAogAyAKSxshCiATIAOtIhV8DAELIAkoAgQiDEL/////DyAJKQMIIhMgE0L/////D1obp2siBEEAIAQgDE0bIgggFKciBCAEIAhLGyIDBEAgEiAJKAIAIBMgDK0iFiATIBZUG6dqIAP8CgAACyADIAogAyAKSxshCiATIAOtIhV8CzcDCCABIBQgFX0iFDcDCCACIAMgB2oiBzYCCCADRQ0CQX9BfyAQIBFBAWpBACADIA1JGyIRQQFKGyAQIAogDUcbIgRBAXQgBEEASBsgBCAEIA1NGyAEIAMgDUYbIRAgCiADayEKDAELCyAAQoHMADcCAAwBCyAAQQQ6AAAgACAHIAtrNgIECyAGQTBqJAALggkCBn8DfgJAAkACQCABQQhPBEAgAUEHcSICRQ0BIAAoAqABIgRBKU8NAiAERQRAIABBADYCoAEMAgsgBEECdCIGQQRrIgNBAnZBAWoiBUEDcSEHIAJBAnQoAqCVQiACdq0hCgJAIANBDEkEQCAAIQIMAQsgBUH8////B3EhAyAAIQIDQCACIAI1AgAgCn4gCXwiCD4CACACQQRqIgUgBTUCACAKfiAIQiCIfCIIPgIAIAJBCGoiBSAFNQIAIAp+IAhCIIh8Igg+AgAgAkEMaiIFIAU1AgAgCn4gCEIgiHwiCD4CACAIQiCIIQkgAkEQaiECIANBBGsiAw0ACwsgBwRAIAdBAnQhAwNAIAIgAjUCACAKfiAJfCIIPgIAIAJBBGohAiAIQiCIIQkgA0EEayIDDQALCyAAIAhCgICAgBBaBH8gBEEoRg0EIAAgBmogCT4CACAEQQFqBSAECzYCoAEMAQsgACgCoAEiBEEpTw0BIARFBEAgAEEANgKgAQ8LIAFBAnQ1AqCVQiEKIARBAnQiB0EEayICQQJ2QQFqIgNBA3EhAQJAIAJBDEkEQCAAIQIMAQsgA0H8////B3EhAyAAIQIDQCACIAI1AgAgCn4gCXwiCD4CACACQQRqIgYgBjUCACAKfiAIQiCIfCIIPgIAIAJBCGoiBiAGNQIAIAp+IAhCIIh8Igg+AgAgAkEMaiIGIAY1AgAgCn4gCEIgiHwiCD4CACAIQiCIIQkgAkEQaiECIANBBGsiAw0ACwsgAQRAIAFBAnQhAwNAIAIgAjUCACAKfiAJfCIIPgIAIAJBBGohAiAIQiCIIQkgA0EEayIDDQALCyAAIAhCgICAgBBaBH8gBEEoRg0DIAAgB2ogCT4CACAEQQFqBSAECzYCoAEPCwJAIAFBCHEEQCAAKAKgASIEQSlPDQICQCAERQRAQQAhBAwBCyAEQQJ0IgZBBGsiAkECdkEBaiIDQQNxIQcCQCACQQxJBEBCACEIIAAhAgwBCyADQfz///8HcSEDQgAhCCAAIQIDQCACIAI1AgBC4esXfiAIfCIIPgIAIAJBBGoiBSAFNQIAQuHrF34gCEIgiHwiCD4CACACQQhqIgUgBTUCAELh6xd+IAhCIIh8Igg+AgAgAkEMaiIFIAU1AgBC4esXfiAIQiCIfCIJPgIAIAlCIIghCCACQRBqIQIgA0EEayIDDQALCyAHBEAgB0ECdCEDA0AgAiACNQIAQuHrF34gCHwiCT4CACACQQRqIQIgCUIgiCEIIANBBGsiAw0ACwsgCUKAgICAEFQNACAEQShGDQIgACAGaiAIPgIAIARBAWohBAsgACAENgKgAQsgAUEQcQRAIABByJXCAEECEPMCCyABQSBxBEAgAEHQlcIAQQMQ8wILIAFBwABxBEAgAEHclcIAQQUQ8wILIAFBgAFxBEAgAEHwlcIAQQoQ8wILIAFBgAJxBEAgAEGYlsIAQRMQ8wILIAAgARC5AxoPCwwBC0EAIARBKEGMg8IAEOoHAAtBKEEoQYyDwgAQjAcAC5oKAgl/Bn4jAEEgayIFJAACQAJAIAEtAAgiBkECRg0AIAIgASkDACIMNwMIIAVCADcDEAJAAkACQAJAAkACQCABKAKYASIDQQlJBEAgASkDGEJ/IAwgA618Ig4gDCAOVhtUDQQgASgClAEhCCACKAIEIgStIQ0gBEL/////DyAMIAxC/////w9aG6drIgdBACAEIAdPGyADTwRAIAIoAgAgDCANIAwgDVQbp2ohBCADQQFHBEAgA0UNAyAFQRBqIAQgA/wKAAAMAwsgBSAELQAAOgAQDAILQaiQyAApAwAiD0IIiCEQIA+nIQcgD0L/AYNCBFINAwwCC0EAIANBCEHMisEAEOoHAAtBBCEHCyAOIQ0LIAIgDTcDCAJAIAdB/wFxIgRBBEcEQCAFIAetQv8BgyAQQgiGhCINNwMYIBBCGIinIQMCfwJAAkAgBEEBaw4DAAEBBAsgEKcMAQsgAy0ACAtB/wFxQSVHDQEgBkEBcUUEQCAFQRhqEM4FDAQLIABBADYCACAAQgA3AwggBUEYahDOBQwGCyAIIAVBEGogAxDbBw0BIAIgDDcDCCABQQI6AAggACAMNwMQIABCATcDCCAAQQA2AgAMBQsgACANNwMIIABCgYCAgJCAgICAfzcDAAwECyAGQQFxDQELIAFBAjoACAwBCyAAQQA2AgAgAEIANwMIDAELAkACQAJAAkAgASkDoAEiDCABKQMQVA0AIAFBIGohCUGokMgAKQMAIg5C/wGDIREgDkIIiCEQIAEpAxghDSACKAIAIQogDqchBiACKAIEIgutIQ4DQCAMIA1aDQFCfyAMIAEoAqwBIgOtfCIPIAwgD1YbIg8gDFgNAQJAAkAgAgJ+AkACQAJAIA0gDyANIA9UGyAMfSIPpyIEIANNBEAgASgCqAEhByABKAKwAQ0FIAsgDCAOIAwgDlQbpyIDayAESQ0CIAMgCmohAyAEQQFGDQEgBARAIAcgAyAE/AoAAAtBBCEDDAMLQQAgBCADQbyKwQAQ6gcACyAHIAMtAAA6AABBBCEDDAELIAYhAyAOIBFCBFINARoLIA9C/////w+DIAx8CzcDCCADQf8BcSIDQQRHBEAgEEIYiKchASAQpyICIQQCQAJAAkAgA0EBaw4DAQACCgsgAS0ACCEECyAEQf8BcUElRg0FDAgLIAEtAAhBJUcNByABKAIAIQIgAUEEaigCACIDKAIAIgYEQCACIAYRAwALIAMoAgQiBgRAIAIgBiADKAIIEKIHCyABQQxBBBCiBwwEC0EAIQMgASgCsAFFDQELIAQgASgCtAEiA0kNAyADIAdqIQcgBCADayEECyAFQgE3AhggASgCmAEiCCAETQRAIAVBCGogCSAFQRhqIAcgBCABKAKUASAIIAEoAogBEQoAIAUoAghBAXENBAsgAUEANgKwAUJ/IAEpA6ABIg0gATUCrAEgCEEBayIDQQAgAyAITRutfXwiDCAMIA1UGyIMIAEpAxgiDVQEQCABIAw3A6ABIAwgASkDEFoNAQwCCwsgASANNwMQCyAAQgA3AwggAEEANgIADAMLIAMgBCAEQeCbyAAQ6gcACyAFKAIMIQYgAUEBNgKwASAAQgE3AwggASADIAZqIAhqNgK0ASACIAatIAwgA618fCINNwMIIAAgDTcDECAAQQA2AgAMAQsgACABNgIMIABBgYCAgHg2AgQgACACQQh0IANyNgIIIABBATYCAAsgBUEgaiQAC6MJAg5/AnsCQAJ/AkACQAJAIAEoAiAiESAETQRAIAMgBGoiECARayEKIAQgEUgEQCADIQIMAwsgECAGayEMIAH9AAQQIRUgAf0ABAAhFiABLQAlIQ0gAS0AJCEOIAZBBEkNASAGQQNxQQJrIRIgBSAGQXxxakECaiETIAMhAgNAAkAgAiAOav0AAAAgFv0jIAIgDWr9AAAAIBX9I/1O/WQiC0UNAANAIAUhByAGIQkgDCACIAtoIg9qIghJDQECQANAIAcoAAAgCCIUKAAARw0BIAhBBGohCCAHQQRqIQcgCUEEayIJQQNLDQALIAlBAUsEQCAHLwAAIAgvAABHDQEgFEEGaiEIIBIhCSATIQcLIAlFDQcgBy0AACAILQAARg0HCyALQQFrIAtxIgsNAAsLIAJBEGoiAiAKTQ0ACwwCCwJAIAQgBkkNACADIARqAkAgBkUEQAwBCyADIAZqIQQgAyEHA0AgBy0AACAIQQF0aiEIIAdBAWoiByAESQ0ACwsgASgCZCEEIAEoAmAhASAGayECIAMhBwNAAkAgASAIRw0AIAcgBSAGELsGRQ0AIAcgA2sMBgsgAiAHTQ0BIAYgB2otAAAgCCAEIActAABsa0EBdGohCCAHQQFqIQcMAAsAC0EAIQMMBAsCQCAGQQJPBEAgBkECRg0BIAMhAgNAAkAgAiAOav0AAAAgFv0jIAIgDWr9AAAAIBX9I/1O/WQiB0UNAANAIAwgAiAHaCIPaiIJSQ0BIAUvAAAgCS8AAEYEQCAFLQACIAktAAJGDQcLIAdBAWsgB3EiBw0ACwsgAkEQaiICIApNDQALDAILIAYEQCADIQIDQAJAIAIgDmr9AAAAIBb9IyACIA1q/QAAACAV/SP9Tv1kIgdFDQADQCAMIAIgB2giD2oiCUkNASAFLQAAIAktAABGDQYgB0EBayAHcSIHDQALCyACQRBqIgIgCk0NAAsMAgsgAyECA0AgAiAOav0AAAAgFv0jIAIgDWr9AAAAIBX9I/1O/WQiBwRAIAwgAiAHaCIPak8NBAsgAkEQaiICIApNDQALDAELIAMhAgNAAkAgAiAOav0AAAAgFv0jIAIgDWr9AAAAIBX9I/1O/WQiB0UNAANAIAwgAiAHaCIPaiIJSQ0BIAUvAAAgCS8AAEYNBCAHQQFrIAdxIgcNAAsLIAJBEGoiAiAKTQ0ACwtBACEDIAYgECACa0sgAiAQT3INAiAKIAEtACRq/QAAACAB/QAEAP0jIAogAS0AJWr9AAAAIAH9AAQQ/SP9Tv1kQX8gAiAKa3RxIgtFDQIgECAGayEBIAZBBEkhAgJAA0AgCiALaCISaiIHIAFLDQQgBiEJIAUhCAJAIAJFBEADQCAIKAAAIAcoAABHDQIgB0EEaiEHIAhBBGohCCAJQQRrIglBA0sNAAsLIAlBAUsEQCAILwAAIAcvAABHDQEgCUECayEJIAhBAmohCCAHQQJqIQcLIAlFDQIgCC0AACAHLQAARg0CCyALQQFrIAtxIgsNAAsMAwsgEiAEIBFragwBCyACIANrIA9qCyEHQQEhAwsgACAHNgIEIAAgAzYCAAv7CQIHfwR9IwBBsAFrIgUkAAJ/AkAgASgCCCIGIAJLBEAgASgCBCACQRhsaiIGQRFqLwAAIAZBE2otAAAiB0EQdHIiCEEIdiEJQwAAEEEgASoCSCABLQBYQQJGIgobIQ1DAABAwSABKgJEIAobIQwgCEH/AXEEQCAMIA0gDJNDAAB+Q5UgCEEBa0H/AXGzlJIQiQQhDgsgCUH/AXEEQCAMIA0gDJNDAAB+Q5UgCUEBa0H/AXGzlJIQiQQhDwsgBwR9IAwgDSAMk0MAAH5DlSAHQQFrQf8BcbOUkhCJBAVDAAAAAAshDCAOIA+UQ4/CzT8QtwohDSAOIAyUQ4/CzT8QtwohDiAPIAyUQ4/CzT8QtwogDSAOkpJDAABAQJVD5kAfPxC3CkPbD0lBlCEMIAZBDGovAQAiB0H//wFxRQRAIAdBEHQMAwsgB0H/B3EhBiAHQYCAAnEhCCAHQYD4AXEiB0GA+AFGBEAgCEEQdCIHQYCAgPwHciAGRQ0DGiAHIAZBDXRyQYCAgP4HcgwDCyAIQRB0IQggB0UNASAHQQ10QYCAgPwAcSAGQQ10ckGAgIDAA2ogCHIMAgsgAiAGQdy7xwAQjAcACyAGIAZnQRBrIgZB//8DcUEIanRB////A3EgCEGAgIDYA3IgBkEXdGtyCyEGIAVBCGogASgCECIJIAEoAhQiCiACEOcCIAwgBr6UIQ0CQAJ/AkACQCAFKAIsIgZBCU8EQCAFKAIMIgdFDQEgBUEANgIwIAVBADYCVCAFKAIQDAMLIAYNAQsgAEEBNgIoIAAgAjYCCCAAQQA2AgQgACANOAIADAILIAVBADYCMCAFQQA2AlQgBiEHIAVBDGoLIQggB0ECdCELIAVBiAFqIQdDAACA/yEMA0AgBUGEAWogASAIKAIAIAMgBBD3ASAFQeAAaiAHQQhq/QACAP0LAwAgBUHwAGogB0EYav0AAgD9CwMAIAUgBykCADcDWCAIQQRqIQggBSoChAEhDiAFQTBqIAVB2ABqEP8BIAwgDhDgCCEMIAtBBGsiCw0ACyADKAIIIQECQAJAAkACQAJAIAQgDJQgDV8EQCABIAJNDQEgAygCBCACakEBOgAACyABIAJNDQEgAygCBCACai0AAEUEQCAJIAogAkEEQQAQ1AIgACAMOAIAIABBJGogBUHQAGopAgA3AgAgAEEUaiAFQUBr/QACAP0LAgAgACAF/QACMP0LAgQMBgsgCSAKIAIgBSgCVCIIQQlJBH8gBUE0agUgBSgCNCIIQYCABE8NAyAFKAI4CyAIENQCIABBATYCKCAAIAI2AgggAEEANgIEIAAgDTgCACAFKAJUIgBBCUkNBSAFKAI4IgFBBGsoAgAiAkF4cSIDIABBAnQiAEEEQQggAkEDcSICG2pJDQMgAkEAIAMgAEEnaksbDQQgARCiAgwFCyACIAFB7OrBABCMBwALIAIgAUH86sEAEIwHAAtBjOvBAEEtQbzrwQAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsCQAJAIAZBCU8EQCAFKAIQIgBBBGsoAgAiAUF4cSICIAZBAnQiA0EEQQggAUEDcSIBG2pJDQEgAUEAIAIgA0EnaksbDQIgABCiAgsgBUGwAWokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC6UKAgZ/AX4jAEHgAGsiByQAIAAoAgQhCyAAKAIAIQggB0EANgIMAn8CQCAILQAQQQFHDQAgCCgCACEJAkACQAJAIAtFBEAgByAIQQxqrUKAgICAEIQ3A0AgCUEEaigCACEKIAkoAgAgB0EBNgIkIAdB8PjHADYCICAHQQE2AhwgB0ECNgIUIAdB4PjHADYCECAHIAdBQGsiDDYCGCAKIAdBEGoQwQMNAiAILQAQQQFHDQEgCCgCACEJIAdCgICAgKABNwNIIAcgB0EMaq1CgICAgMAFhDcDQCAJQQRqKAIAIQogCSgCACAHQQE2AiQgB0Go+McANgIgIAdBAjYCHCAHQQI2AhQgB0GM+ccANgIQIAcgDDYCGCAKIAdBEGoQwQMNAgwBCyAJKAIAQZz5xwBBBiAJQQRqKAIAKAIMEQAADQEgCC0AEEEBRw0AIAgoAgAhCSAHQoCAgIDQATcDSCAHQqD4x4CgATcDQCAJQQRqKAIAIQogCSgCACAHQQE2AiQgB0Go+McANgIgIAdBAjYCHCAHQQE2AhQgB0Gg+McANgIQIAcgB0FAazYCGCAKIAdBEGoQwQMNAQsCQAJAIAEoAgBBA0cEQEKAgICA0AUhDSAILQAQRQ0BIAdBMGogAUEgaikCADcDACAHQSBqIAFBEGr9AAIA/QsDACAHIAH9AAIA/QsDECAIKAIAIQEgByANIAdBEGqthDcDOCABQQRqKAIAIQkgASgCACAHQgE3AkwgB0EBNgJEIAdBoPjHADYCQCAHIAdBOGo2AkggCSAHQUBrEMEDRQ0CDAMLIAgoAgAiASgCAEGi+ccAQQkgAUEEaigCACgCDBEAAA0CDAELIAdBMGogAUEgaikCADcDACAHQSBqIAFBEGr9AAIA/QsDACAHIAH9AAIA/QsDECAIKAIAIQEgByANIAdBEGqthDcDOCABQQRqKAIAIQkgASgCACAHQQE2AlQgB0Gs+ccANgJQIAdBATYCTCAHQQE2AkQgB0Gg+McANgJAIAcgB0E4ajYCSCAJIAdBQGsQwQMNAQsgCCgCACIBKAIAQdz4xwBBASABKAIEKAIMEQAADQAgA0EBcUUgAigCAEECRnINAiAHIAQ2AlwCQCAILQAQQQFGBEAgCCgCACEBIAdCgICAgKABNwNIIAdCoPjHgKABNwNAIAFBBGooAgAhAyABKAIAIAdBATYCJCAHQaj4xwA2AiAgB0ECNgIcIAdBATYCFCAHQaD4xwA2AhAgByAHQUBrNgIYIAMgB0EQahDBAw0BCyAIKAIAIgEoAgBBwPjHAEEQIAFBBGooAgAoAgwRAAANACAIKAIEIAgoAgghAyAHQRxqIAJBCGooAgA2AgAgByAIKAIAIgQ2AhAgByACKQIANwIUIAQgB0EUaiADKAIQEQAADQAgCCgCACEBIAdCgICAgBAiDSAHQdwAaq2ENwNAIAFBBGooAgAhAiABKAIAIAdCATcCHCAHQQE2AhQgB0HU+McANgIQIAcgB0FAayIDNgIYIAIgB0EQahDBAw0AIAVBAXFFDQIgByAGNgI4IAgoAgAhASAHIA0gB0E4aq2ENwNAIAFBBGooAgAhAiABKAIAIAdCATcCHCAHQQE2AhQgB0HU+McANgIQIAcgAzYCGCACIAdBEGoQwQNFDQILQQEMAwtBAQwCC0EBIAgoAgAiAigCAEHc+McAQQEgAkEEaigCACgCDBEAAA0BGgsgACALQQFqNgIEQQALIAdB4ABqJAAL7gsCCH8FewJAAkACQCACIANPBEAgA0UNAiABIANqIQUgA0EPTQRAA0AgASAFTw0EIAVBAWsiBS0AAEEKRw0ADAMLAAsgBUEQayIE/QAAAP0MCgoKCgoKCgoKCgoKCgoKCiIM/SP9ZCIGBEAgBCAGZ0Efc2ohBQwCCwJAAkACQAJAAkAgA0HAAEkgAyAFQQ9xayIFQcAASXINAANAIAEgBWoiBEEwayIG/QAEACAM/SMiDSAEQUBqIgj9AAQAIAz9IyIO/VAgBEEgayIH/QAEACAM/SMiD/1QIARBEGsiBP0ABAAgDP0jIhD9UP1kRQRAIAVBQGoiBUFAa0GAAU8NAQwCCwsgEP1kIgUNAyAP/WQiBA0EIA39ZCIEDQEgCCAO/WRna0EfaiEFDAYLA0AgBUEPTARAQQAhByAFQQBKDQNBACEEDAkLIAEgBUEQayIFaiIE/QAAACAM/SP9ZCIGRQ0ACyAEIAZnQR9zaiEFDAULIAYgBGdBH3NqIQUMBAtBACEEIAH9AAAAIAz9I/1kIgVFDQUgASAFZ2tBH2ohBQwDCyAEIAVnQR9zaiEFDAILIAcgBGdBH3NqIQUMAQtBACADIAJB6JzGABDqBwALIAUgAWsiCUEBaiEHIAIgCUsEQCABIAdqIgogAU0EQEEAIQQMAwsgCUEOTQRAQQAhBAJAIAlBA0kEQCABIQUMAQsgASAHQRxxIgJqIQX9DAAAAAAAAAAAAAAAAAAAAAAhDCACIQQDQCAMIAH9XAAA/QwKCgoKCgoKCgoKCgoKCgoK/SMgDP0NAAAAAAEAAAACAAAAAwAAAP0MAQAAAAEAAAABAAAAAQAAAP1O/a4BIQwgAUEEaiEBIARBBGsiBA0ACyAMIAwgDP0NCAkKCwwNDg8AAQIDAAECA/2uASIMIAwgDP0NBAUGBwABAgMAAQIDAAECA/2uAf0bACEEIAIgB0YNBAsDQCAEIAUtAABBCkZqIQQgBUEBaiIFIApHDQALDAMLQQAhAgJAAkAgAUFwcUEQaiIEIAFBAWoiBiAEIAZLGyABayILQQRJBEAgASEGDAELIAEgC0F8cSIIaiEG/QwAAAAAAAAAAAAAAAAAAAAAIQwgCCECA0AgDCAB/VwAAP0MCgoKCgoKCgoKCgoKCgoKCv0jIAz9DQAAAAABAAAAAgAAAAMAAAD9DAEAAAABAAAAAQAAAAEAAAD9Tv2uASEMIAFBBGohASACQQRrIgINAAsgDCAMIAz9DQgJCgsMDQ4PAAECAwABAgP9rgEiDCAMIAz9DQQFBgcAAQIDAAECAwABAgP9rgH9GwAhAiAIIAtGDQELA0AgAiAGLQAAQQpGaiECIAZBAWoiBiAESQ0ACwsCQCAJQT9JDQAgBCAKQUBqIgFLDQADQCAE/QAEAP0MCgoKCgoKCgoKCgoKCgoKCiIM/SP9ZGkgAmogBEEQav0ABAAgDP0j/WRpaiAEQSBq/QAEACAM/SP9ZGlqIARBMGr9AAQAIAz9I/1kaWohAiAEQUBrIgQgAU0NAAsLIApBEGsiASAETwRAA0AgBP0AAAD9DAoKCgoKCgoKCgoKCgoKCgr9I/1kaSACaiECIARBEGoiBCABTQ0ACwtBACEGAkAgBCAKTw0AAkAgBSAEa0EBaiIJQQRJBEAgBCEBDAELIAQgCUF8cSIIaiEB/QwAAAAAAAAAAAAAAAAAAAAAIQwgCCEFA0AgDCAE/VwAAP0MCgoKCgoKCgoKCgoKCgoKCv0jIAz9DQAAAAABAAAAAgAAAAMAAAD9DAEAAAABAAAAAQAAAAEAAAD9Tv2uASEMIARBBGohBCAFQQRrIgUNAAsgDCAMIAz9DQgJCgsMDQ4PAAECAwABAgP9rgEiDCAMIAz9DQQFBgcAAQIDAAECAwABAgP9rgH9GwAhBiAIIAlGDQELA0AgBiABLQAAQQpGaiEGIAFBAWoiASAKRw0ACwsgAiAGaiEEDAILQQAgByACQdicxgAQ6gcACwsgACADIAdrNgIEIAAgBEEBajYCAAvFCQIJfwV9QwAAgD8hDgJ/AkAgASgCACIHIAJBBGooAgAiBEEIaigCACIFSQRAIAFBBGsiCSgCACEBIARBBGooAgAiCCAHQSRsaiIEEIoEIQwgBC8BFCIDQf//AXFFBEAgA0EQdAwDCyADQf8HcSEEIANBgIACcSEGIANBgPgBcSIDQYD4AUYEQCAGQRB0IQMgA0GAgID8B3IgBEUNAxogAyAEQQ10ckGAgID+B3IMAwsgBkEQdCEGIANFDQEgA0ENdEGAgID8AHEgBEENdHJBgICAwANqIAZyDAILIAcgBUHUwMcAEIwHAAsgBkGAgIDYA3IgBGdBEGsiA0EXdGsgBCADQf//A3FBCGp0Qf///wNxcgu+Ig1DAACAP14EQCANEMYFQ1T4LUCUQwAAgD+SkSEOC0MAAIA/IQ0CfwJAIAEgBUkEQCAIIAFBJGxqIgQQigQhDyAELwEUIgNB//8BcUUEQCADQRB0DAMLIANB/wdxIQQgA0GAgAJxIQUgA0GA+AFxIgNBgPgBRgRAIAVBEHQhAyADQYCAgPwHciAERQ0DGiADIARBDXRyQYCAgP4HcgwDCyAFQRB0IQUgA0UNASADQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogBXIMAgsgASAFQdTAxwAQjAcACyAFQYCAgNgDciAEZ0EQayIDQRd0ayAEIANB//8DcUEIanRB////A3FyC74iEEMAAIA/XgRAIBAQxgVDVPgtQJRDAACAP5KRIQ0LIAwgDJIgDpQiDCAMXCAMIA8gD5IgDZRgckUEQCACQQRqIQggB0EkbCEKA0ACQCAJIgJBBGogATYCACAAIAJGDQBDAACAPyEOAn8CQCAIKAIAIgRBCGooAgAiBSAHSwRAIAJBBGsiCSgCACEBIARBBGooAgAiCyAKaiIEEIoEIQwgBC8BFCIDQf//AXFFBEAgA0EQdAwDCyADQf8HcSEEIANBgIACcSEGIANBgPgBcSIDQYD4AUYEQCAGQRB0IQMgA0GAgID8B3IgBEUNAxogAyAEQQ10ckGAgID+B3IMAwsgBkEQdCEGIANFDQEgA0ENdEGAgID8AHEgBEENdHJBgICAwANqIAZyDAILIAcgBUHUwMcAEIwHAAsgBkGAgIDYA3IgBGdBEGsiA0EXdGsgBCADQf//A3FBCGp0Qf///wNxcgu+Ig1DAACAP14EQCANEMYFQ1T4LUCUQwAAgD+SkSEOC0MAAIA/IQ0CfwJAIAEgBUkEQCALIAFBJGxqIgQQigQhDyAELwEUIgNB//8BcUUEQCADQRB0DAMLIANB/wdxIQQgA0GAgAJxIQUgA0GA+AFxIgNBgPgBRgRAIAVBEHQhAyADQYCAgPwHciAERQ0DGiADIARBDXRyQYCAgP4HcgwDCyAFQRB0IQUgA0UNASADQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogBXIMAgsgASAFQdTAxwAQjAcACyAFQYCAgNgDciAEZ0EQayIDQRd0ayAEIANB//8DcUEIanRB////A3FyC74iEEMAAIA/XgRAIBAQxgVDVPgtQJRDAACAP5KRIQ0LIAwgDJIgDpQiDCAMXA0AIAwgDyAPkiANlGBFDQELCyACIAc2AgALC/YIAg9/AX0jAEEgayIIJAACQAJAAkACQAJAAkAgAC0AuAFBAUcNACAAKAKsASAAKAKwASIFQQJ0IAAoArQBIgYgBWpBAnQQ4QghBSAGQQJ0IgYgACgCZCIHSw0BIAAoAmAhByAIIAUQuAoiCTYCACAIIAY2AgQgBiAJRw0FIAUgByAGEOAJIAVBhAhJDQAgBRCbBwsgAEIANwKwASAAQbgBakEAOgAAAkACQAJAAkACQAJAAkACQAJAAkAgACgCAEUNACAAKAIEIAFBAXQgASACakEBdBDhCCEJAkAgAkECdCIHIAAoAmQiBk0EQCAAIAc2AmQgAkEBdCEFIAAoAmAhAQwBCyAHIAYiBWsiCiAAKAJcIAVrSwRAIABB3ABqIAUgCkEEQQQQpAUgACgCZCEFCyAAKAJgIgEgBUECdCIMaiELIApBAk8EQCAHIAZBf3NqQQJ0IgcEQCALQQAgB/wLAAsgAkEEdCAGQQJ0ayABaiAMakEEayELIAUgCmpBAWshBQsgC0EANgIAIAAgBUEBaiIHNgJkIAJBAXQiBSAHSw0MCyAIIAkQuAoiBjYCACAIIAU2AgQgBSAGRw0OIAEgBSAJEOEJIAJBCWwhCiAEQQluQQlsIQsgBEEBa0EJbkEJbEEJaiEMIARBAmtBCW5BCWxBCWohDSAEQQNrQQluQQlsQQlqIQ4gBEEEa0EJbkEJbEEJaiEPIARBBWtBCW5BCWxBCWohECAEQQZrQQluQQlsQQlqIREgBEEHa0EJbkEJbEEJaiESIARBCGtBCW5BCWxBCWohE0MAAHxCIAAqApABlSEUQQAhBUEAIQADQCAFIAdPDQ0gBUEBaiICIAdPDQ4gACAMRg0KIAFBBGooAgAhAiADIAEoAgAiBkEZdEEZdbIgFJU4AgAgACANRg0JIANBBGogBkESdEEZdbIgFJU4AgAgACAORg0IIANBCGogBkELdEEZdbIgFJU4AgAgACAPRg0HIANBDGogBkEEdEEZdbIgFJU4AgAgACAQRg0GIANBEGogAkEddCAGQQN2ckEZdbIgFJU4AgAgACARRg0FIANBFGogAkEWdEEZdbIgFJU4AgAgACASRg0EIANBGGogAkEPdEEZdbIgFJU4AgAgACATRg0DIANBHGogAkEIdEEZdbIgFJU4AgAgACALRg0CIANBIGogAkEBdEEZdbIgFJU4AgAgAUEIaiEBIAVBAmohBSADQSRqIQMgCiAAQQlqIgBHDQALIAlBhAhJDQAgCRCbBwsgCEEgaiQADwsgAEEIaiEADAcLIABBB2ohAAwGCyAAQQZqIQAMBQsgAEEFaiEADAQLIABBBGohAAwDCyAAQQNqIQAMAgsgAEECaiEADAELIABBAWohAAsgACAEQbzTwAAQjAcAC0EAIAYgB0H868AAEOoHAAtBACAFIAdBzNPAABDqBwALIAUgB0Gc08AAEIwHAAsgAiAHQazTwAAQjAcACyAIQQA2AghBACAIIAhBBGogCEEIakHg+cQAEPUHAAvbCQIGfwR+IwBBwAFrIgIkAAJAAkACQCAAKQMAQgJSBEAgACgCqAEhASAAQQA2AqgBAkACQAJAAkAgAUEBaw4CAQIACyACQQhqIQMCQAJAQSUQcSIBRQ0AIAFBHWpBnZ3HACkAADcAACABQRBqQZCdxwD9AAAA/QsAACABQYCdxwD9AAAA/QsAAEEMEHEiBEUNACAEQSU2AgggBCABNgIEIARBJTYCAEEMEHEiAUUNACABQSg6AAggAUHsisEANgIEIAEgBDYCACADQQA2AhAgAyABrUIghkIDhDcDAAwBCwALDAILIAJBGGogAEHAAWopAwA3AwAgAiAA/QADsAH9CwMIDAELIAAoAqwBIgFBQGshAyABKAIkIQQgASgCICEFAkAgASkDGCIHQgJSBEAgASkDOCEIIAJBMGogAUEQaikDADcDACACQegAaiADQQhq/QADAP0LAwAgAkGoAWogAUGIAWr9AAMA/QsDACACQZgBaiABQfgAav0AAwD9CwMAIAJBuAFqIAFBmAFqKQMANwMAIAIgAf0AAwD9CwMgIAIgAf0AAyj9CwNIIAIgAykDADcDYCACIAH9AANY/QsDeCACIAH9AANo/QsDiAEgAkEYaiACQdAAaikDADcDACACIAQ2AkQgAiAFNgJAIAIgBzcDOCACIAg3A1ggAiAC/QADQP0LAwggAigCJCEEIAIoAiAhBSACQfgAahCEBQwBCyACQRhqIANBEGopAwA3AwAgAiAD/QADAP0LAwgLIAQEQCAFQQRrKAIAIgNBeHEiBkEEQQggA0EDcSIDGyAEakkNBCADQQAgBiAEQSdqSxsNBSAFEKICCyABQQRrKAIAIgRBeHFBvAFBwAEgBEEDcSIDG0kNAyADQQAgBEHgAU8bDQQgARCiAgsCQCACKAIYIgEEQCACKQMQIghQDQEgASkDCCEHIAEoAgQiBK0hCQNAAkAgByAEIAcgCSAHIAlUG6ciA2siBUKAwAAgCCAIQoDAAFobpyIGIAUgBkkbrSIKfCEHIAMgBEYNACAIIAp9IghCAFINAQsLIAEgBzcDCCAAEOoDDAMLIAItAAhBA0cNACACKAIMIgEoAgAhBCABQQRqKAIAIgMoAgAiBQRAIAQgBREDAAsgAygCBCIDBEAgBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQQgBUEAIAYgA0EnaksbDQUgBBCiAgsgAUEEaygCACIEQXhxIgNBEEEUIARBA3EiBBtJDQMgBEEAIANBNE8bDQQgARCiAgsgABDqAwwBCyAAKAKoAUECSQ0AAkAgACgCrAEiACkDGEICUQRAIAAoAiQiAUUNASAAKAIgIgRBBGsoAgAiA0F4cSIFQQRBCCADQQNxIgMbIAFqSQ0DIANBACAFIAFBJ2pLGw0EIAQQogIMAQsgACgCBCIBBEAgACgCACIEQQRrKAIAIgNBeHEiBUEEQQggA0EDcSIDGyABakkNAyADQQAgBSABQSdqSxsNBCAEEKICCyAAQdgAahCEBQsgAEEEaygCACIBQXhxQbwBQcABIAFBA3EiBBtJDQEgBEEAIAFB4AFPGw0CIAAQogILIAJBwAFqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvrCAIOfwF9IwBBEGsiBiQAAkACQCADQQNsIgdB/////wNLDQAgA0EMbCIEQf3///8HTw0AAkAgBEUEQEEEIQpBACEHDAELIAQQcSIKRQ0CCyAGQQA2AgwgBiAKNgIIIAYgBzYCBAJ/AkACQAJAAkACQCADBEAgASADQQF0Ig5qIQ8gASADQQJ0IhBqIRFBACEHIAMhDUEIIQsDQCACIAdNBEAgByEEDAQLIAdBAWogAk8NBCAGKAIEIQwCfyABIAdqIgRBAWotAABBCHQiCCAELQAAciIEQf//AXEEQCAEQf8HcSEEIAhBgIACcSEFIAhBgPgBcSIIQYD4AUcEQCAFQRB0IgUgCEENdEGAgID8AHEgBEENdHJBgICAwANqciAIDQIaIAVBgICA2ANyIARnQRBrIghBF3RrIAQgCEH//wNxQQhqdEH///8DcXIMAgsgBUEQdCIIIARBDXRyQYCAgP4HciAEDQEaIAhBgICA/AdyDAELIARBEHQLvhCJBCESIAkgDEYEQCAGQQRqQfzoxwAQ+gUgBigCCCEKCyAKIAtqQQhrIBI4AgAgBiAJQQFqIgg2AgwgByAOaiIEIAJPDQMgBEEBaiACTw0FIAYoAgQhDAJ/IAcgD2oiBEEBai0AAEEIdCIFIAQtAAByIgRB//8BcQRAIARB/wdxIQQgBUGAgAJxIQkgBUGA+AFxIgVBgPgBRwRAIAlBEHQiCSAFQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2pyIAUNAhogCUGAgIDYA3IgBGdBEGsiBUEXdGsgBCAFQf//A3FBCGp0Qf///wNxcgwCCyAJQRB0IgUgBEENdHJBgICA/gdyIAQNARogBUGAgID8B3IMAQsgBEEQdAu+EIkEIRIgCCAMRgRAIAZBBGpB/OjHABD6BSAGKAIIIQoLIAogC2pBBGsgEjgCACAGIAhBAWoiCDYCDCAHIBBqIgQgAk8NAiAEQQFqIAJPDQYgBigCBCEMAn8gByARaiIEQQFqLQAAQQh0IgUgBC0AAHIiBEH//wFxBEAgBEH/B3EhBCAFQYCAAnEhCSAFQYD4AXEiBUGA+AFHBEAgCUEQdCIJIAVBDXRBgICA/ABxIARBDXRyQYCAgMADanIgBQ0CGiAJQYCAgNgDciAEZ0EQayIFQRd0ayAEIAVB//8DcUEIanRB////A3FyDAILIAlBEHQiBSAEQQ10ckGAgID+B3IgBA0BGiAFQYCAgPwHcgwBCyAEQRB0C74QiQQhEiAIIAxGBEAgBkEEakH86McAEPoFIAYoAgghCgsgCiALaiASOAIAIAYgCEEBaiIJNgIMIAdBAmohByALQQxqIQsgDUEBayINDQALCyAAIAYpAgQ3AgAgAEEIaiAGQQxqKAIANgIAIAZBEGokAA8LIANBAnQgB2ohBAsgBCACQdzoxwAQjAcACyAHQQFqDAILIARBAWoMAQsgA0ECdCAHakEBagsgAkHs6McAEIwHAAtBzOjHABD/BwsAC/YIARN/IwBBEGsiByQAAkACQCADQQNsIgxB/////wNLDQAgA0EMbCIEQf3///8HTw0AAkAgBEUEQEEEIQoMAQsgDCELIAQQcSIKRQ0CCyAHQQA2AgwgByAKNgIIIAcgCzYCBAJAAkACQAJAAkAgAwRAIAIgA2siBEEAIAIgBE8bIQ0gAiAMayIEQQAgAiAETxshDiABIANqIQ8gASAMaiEQIAEgA0ECdCIRaiESIAEgA0EFbCITaiEUIAEgA0EBdCIVaiEWQQghCwNAIAIgBkYEQCAGIQQMBwsgBiAORg0FAn8gBiAQai0AAEEIdCIFIAEgBmotAAByIgRB//8BcQRAIARB/wdxIQQgBUGAgAJxIQggBUGA+AFxIgVBgPgBRwRAIAhBEHQhCCAFQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogCHIgBQ0CGiAIQYCAgNgDciAEZ0EQayIFQRd0ayAEIAVB//8DcUEIanRB////A3FyDAILIAhBEHQhBSAEQQ10IAVyQYCAgP4HciAEDQEaIAVBgICA/AdyDAELIARBEHQLIQQgBygCBCAJRgRAIAdBBGpBvOrHABD6BSAHKAIIIQoLIAogC2pBCGsgBDYCACAHIAlBAWoiCTYCDCAGIA1GDQMgBiARaiACTw0CAn8gBiASai0AAEEIdCIFIAYgD2otAAByIgRB//8BcQRAIARB/wdxIQQgBUGAgAJxIQggBUGA+AFxIgVBgPgBRwRAIAhBEHQhCCAFQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogCHIgBQ0CGiAIQYCAgNgDciAEZ0EQayIFQRd0ayAEIAVB//8DcUEIanRB////A3FyDAILIAhBEHQhBSAEQQ10IAVyQYCAgP4HciAEDQEaIAVBgICA/AdyDAELIARBEHQLIQQgBygCBCAJRgRAIAdBBGpBvOrHABD6BSAHKAIIIQoLIAogC2pBBGsgBDYCACAHIAlBAWoiCTYCDCAGIBVqIgQgAk8NBiAGIBNqIAJPDQQCfyAGIBRqLQAAQQh0IgUgBiAWai0AAHIiBEH//wFxBEAgBEH/B3EhBCAFQYCAAnEhCCAFQYD4AXEiBUGA+AFHBEAgCEEQdCEIIAVBDXRBgICA/ABxIARBDXRyQYCAgMADaiAIciAFDQIaIAhBgICA2ANyIARnQRBrIgVBF3RrIAQgBUH//wNxQQhqdEH///8DcXIMAgsgCEEQdCEFIARBDXQgBXJBgICA/gdyIAQNARogBUGAgID8B3IMAQsgBEEQdAshBCAHKAIEIAlGBEAgB0EEakG86scAEPoFIAcoAgghCgsgCiALaiAENgIAIAcgCUEBaiIJNgIMIAtBDGohCyADIAZBAWoiBkcNAAsLIAAgBykCBDcCACAAQQhqIAdBDGooAgA2AgAgB0EQaiQADwsgA0ECdCAGaiEEDAMLIAMgBmohBAwCCyADQQVsIAZqIQQMAQsgBiAMaiEECyAEIAJBzOrHABCMBwALQazqxwAQ/wcLAAuYCQINfwF+IwBB8ABrIgIkAEEIIQQgASgCBCEFIAFBBEEkIAEoAiQiA0EISyIGG2pBADYCACACQRhqIAFBCGr9AAIA/QsDACACQShqIAFBGGr9AAIA/QsDACACQQA2AjggAiAFIAMgBhsiCDYCPCACIAEpAgA3AxAgAEEkaiELAkACQAJAAkACQAJAIAggACgCJCIBQQggAUEISyIGGyAAKAIEIAEgBhsiBmtLBEACQAJAIAYgCGoiASAGSQ0AQX8gAUEBa2d2QQAgAUECTxsiAUF/Rg0AIAJBCGogACABQQFqEOgDIAIoAggiAUGBgICAeEYNASABDQMLQdiVxwBBEUHUzMcAEOsHAAsgCygCACEBCyAAQQRqIgYhDCALIQkgAUEJTwRAIAAoAgghDCAGIQkgASEECwJAAkACQAJAIAQgCSgCACIFTQRAIAUhBAwBCyACKAIYIQogAigCNCIOQQhNBEAgAkEQakEEciEDIAUgBGshDSAMIAVBAnRqIQdBACEBA0AgASAIRg0DIAIgAUEBaiIBNgI4IAcgAygCADYCACADQQRqIQMgB0EEaiEHIAEgDWoNAAsMAQsgCEUNA0EAIQECQCAEQQFrIg0gBWsiBCAIQQFrIgMgAyAESxsiBEEESQ0AIAVBAnQgDGoiAyAKa0EQSQ0AIAohByAEQQFqIgEgAUEDcSIBQQQgARtrIgEhBANAIAMgB/0AAgD9CwIAIAdBEGohByADQRBqIQMgBEEEayIEDQALIAEgBWohBQsgDCAFQQJ0aiEDIAogAUECdGohBwNAAkAgAyAHKAIANgIAIAVBAWohBCABQQFqIQEgBSANRg0AIANBBGohAyAHQQRqIQcgBCEFIAEgCEcNAQwECwsgAiABNgI4CyAJIAQ2AgAgAkHoAGogAkE4aikDACIPNwMAIAJB4ABqIAJBMGopAwA3AwAgAkHQAGogAkEgav0AAwD9CwMAIAIgAv0AAxD9CwNAIA+nIgEgAigCbEcEQCACQUBrQQRyIQQDQCACIAFBAWo2AmggBCEDIAIoAmRBCU8EfyACKAJIBSADCyABQQJ0aigCACEJAn8gCygCACIHQQlJBEAgByEBIAYhBUEIIQcgCwwBCyAAKAIEIQEgACgCCCEFIAYLIQMgASAHRgR/IAAQzQYgACgCCCEFIAYhAyAAKAIEBSABC0ECdCAFaiAJNgIAIAMgAygCAEEBajYCACACKAJoIgEgAigCbEcNAAsLIAIoAmQiAUEJSQ0IIAIoAkgiA0EEaygCACIAQXhxIgYgAUECdCIBQQRBCCAAQQNxIgAbakkNBCAAQQAgBiABQSdqSxsNBSADEKICDAgLIAEgBWohBAsgCSAENgIAIA5BCUkNBgsgCkEEaygCACIAQXhxIgYgDkECdCIBQQRBCCAAQQNxIgAbakkNAyAAQQAgBiABQSdqSxsNBCAKEKICDAULAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyACQfAAaiQAC6YNAwZ/BHsCfSABKgIAIRMgACoCACESAkACQAJAAkACQAJAAkACQEGACBBxIg1FDQAgEyASk/0TIQ8gEv0TIRD9DAAAAAABAAAAAgAAAAMAAAAhDgNAIAggDWoiCiAQIA8gDv37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgCkEQaiAQIA8gDv0MBAAAAAQAAAAEAAAABAAAAP2uAf37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgDv0MCAAAAAgAAAAIAAAACAAAAP2uASEOIAhBIGoiCEGACEcNAAsgASoCBCAAKgIEIRJBgAgQcSIKRQ0AIBKT/RMhDyAS/RMhEP0MAAAAAAEAAAACAAAAAwAAACEOQQAhCANAIAggCmoiCyAQIA8gDv37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgC0EQaiAQIA8gDv0MBAAAAAQAAAAEAAAABAAAAP2uAf37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgDv0MCAAAAAgAAAAIAAAACAAAAP2uASEOIAhBIGoiCEGACEcNAAsgASoCCCAAKgIIIRJBgAgQcSILRQ0AIBKT/RMhDyAS/RMhEP0MAAAAAAEAAAACAAAAAwAAACEOQQAhCANAIAggC2oiDCAQIA8gDv37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgDEEQaiAQIA8gDv0MBAAAAAQAAAAEAAAABAAAAP2uAf37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgDv0MCAAAAAgAAAAIAAAACAAAAP2uASEOIAhBIGoiCEGACEcNAAsgASoCDCAAKgIMIRJBgAgQcSIBRQ0AIBKT/RMhECAS/RMhEf0MAAAAAAEAAAACAAAAAwAAACEOQQAhCANAIAEgCGr9DAAAgD8AAIA/AACAPwAAgD/9DAAAgD8AAIA/AACAPwAAgD8gESAQIA79+wH9DAAAf0MAAH9DAAB/QwAAf0P95wH95gH95AH94QEiD/0fABCJBP0TIA/9HwEQiQT9IAEgD/0fAhCJBP0gAiAP/R8DEIkE/SAD/eQB/ecB/QsCACAO/QwEAAAABAAAAAQAAAAEAAAA/a4BIQ4gCEEQaiIIQYAIRw0ACyAHRQ0HQQAhAEEAIQgDQCADIAhNBEAgCCADQZDwxwAQjAcACyAAIAVPDQIgBCANIAIgCGoiDC0AAEECdGoqAgA4AgAgCEEBaiIJIANPDQMgAEEBaiIJIAVPDQQgBEEEaiAKIAxBAWotAABBAnRqKgIAOAIAIAhBAmoiCSADTw0FIABBAmoiCSAFTw0GIARBCGogCyAMQQJqLQAAQQJ0aioCADgCACAIQQNqIgkgA08NByAGIAhqIAEgDEEDai0AAEECdGoqAgA4AgAgBEEMaiEEIABBA2ohACAIQQRqIQggB0EBayIHDQALDAcLAAsgACAFQaDwxwAQjAcACyAJIANBsPDHABCMBwALIAkgBUHA8McAEIwHAAsgCSADQdDwxwAQjAcACyAJIAVB4PDHABCMBwALIAkgA0Hw8McAEIwHAAsCQCABQQRrKAIAIgBBeHFBhAhBiAggAEEDcSICG08EQAJAIAJBACAAQagITxsNAiABEKICIAtBBGsoAgAiAEF4cUGECEGICCAAQQNxIgEbSQ0AIAFBACAAQagITxsNAiALEKICIApBBGsoAgAiAEF4cUGECEGICCAAQQNxIgEbSQ0AIAFBACAAQagITxsNAiAKEKICIA1BBGsoAgAiAEF4cUGECEGICCAAQQNxIgEbSQ0AIAFBACAAQagITxsNAiANEKICDwsLQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC7kJAgh/AX4jAEFAaiIFJAACQCAAAn8CQAJAAkAgASgCFCIEIAEoAhAiAkkEQCABKAIMIQkCfgJAA0AgBCAJai0AACIIQQlrIgNBF0tBASADdEGTgIAEcUVyDQEgASAEQQFqIgQ2AhQgAiAERw0ACyACIQRCAAwBC0KAAgsgCK1CEIaEQoCCuANRDQELIAVBEGogASgCDCIGIAIgAiAESwR/A0AgBCAGai0AACIIQQlrIgNBF0tBASADdEGTgIAEcUVyDQMgASAEQQFqIgQ2AhQgAiAERw0ACyACBSAEC0EBaiIBIAIgASACSRsQ+QEgBSgCFCEDIAUoAhAhAUEUEHEiAkUNBCACIAE2AgwgAkEFNgIAIAIgAzYCECAAIAI2AgQMAgsgASAEQQFqIgY2AhQCQAJAAkAgAiAGTQ0AIAEgBEECaiIDNgIUIAYgCWotAABB9QBHDQEgAyAGIAIgAiAGSRsiBkYNACABIARBA2oiCDYCFCADIAlqLQAAQewARwRAIAghAwwCCyAGIAhGDQAgASAEQQRqIgM2AhQgCCAJai0AAEHsAEcNASAAQQI6AAFBAAwFCyAFIAkgAiAGEPkBIAUoAgQhBiAFKAIAIQFBFBBxIgRFDQUgBEEFNgIADAELIAVBCGogCSACIAMQ+QEgBSgCDCEGIAUoAgghAUEUEHEiBEUNBCAEQQk2AgALIAQgATYCDCAAIAQ2AgQgBCAGNgIQDAELAkAgCEHmAGsiAwRAIANBDkcEQCAAIAEgBUE/akGMhsEAEO4BIAEQ6wU2AgQMAwsgASAEQQFqIgc2AhQCQCACIAdNDQAgASAEQQJqIgM2AhQgBiAHai0AAEHyAEcNAiADIAcgAiACIAdJGyIHRg0AIAEgBEEDaiIINgIUIAMgBmotAABB9QBHBEAgCCEDDAMLIAcgCEYNACABIARBBGoiAzYCFCAGIAhqLQAAQeUARw0CIABBAToAAUEADAQLIAVBGGogBiACIAcQ+QEgBSgCHCEDIAUoAhghAUEUEHEiAkUNBCACIAE2AgwgAkEFNgIAIAIgAzYCECAAIAI2AgQMAgsgASAEQQFqIgc2AhQCQAJAIAIgB00NACABIARBAmoiAzYCFCAGIAdqLQAAQeEARw0BIAMgByACIAIgB0kbIgdGDQAgASAEQQNqIgk2AhQgAyAGai0AAEHsAEcEQCAJIQMMAgsgByAJRg0AIAEgBEEEaiIINgIUIAYgCWotAABB8wBHBEAgCCEDDAILIAcgCEYNACABIARBBWoiAzYCFCAGIAhqLQAAQeUARw0BIABBADoAAUEADAQLIAVBKGogBiACIAcQ+QEgBSgCLCEDIAUoAighAUEUEHEiAkUNBCACIAE2AgwgAkEFNgIAIAIgAzYCECAAIAI2AgQMAgsgBUEwaiAGIAIgAxD5ASAFKAI0IQMgBSgCMCEBQRQQcSICRQ0DIAIgATYCDCACQQk2AgAgAiADNgIQIAAgAjYCBAwBCyAFQSBqIAYgAiADEPkBIAUoAiQhAyAFKAIgIQFBFBBxIgJFDQIgAiABNgIMIAJBCTYCACACIAM2AhAgACACNgIEC0EBCzoAACAFQUBrJAAPCwALvRMBCX8jAEEgayIHJAACQAJAAkADQAJAIAEoAgghAyABEM8FAkACQCABKAIIIgQgASgCBCIGRwRAIAQgBk8NASABKAIAIgggBGotAAAiBUHcAEcEQCAFQSJHBEAgASAEQQFqNgIIIAdBEDYCFCAAIAEgB0EUahDyBgwJCwJAAkACQCACKAIIIgUEQCADIARLDQIgBCADayIGIAIoAgAgBWtLBEAgAiAFIAYQ+AUgAigCCCEFCyACKAIEIQkgBgRAIAUgCWogAyAIaiAG/AoAAAsgASAEQQFqNgIIIAIgBSAGaiICNgIIIAdBCGogCSACEPsCIAcoAggNASAHKAIQIQMgBygCDCEBDAsLAkAgAyAETQRAIAEgBEEBajYCCCAHQQhqIAMgCGogBCADaxD7AiAHKAIIRQRAIAcoAhAhAyAHKAIMIQEMDAsgB0EPNgIUIAcgASAHQRRqEPUGIAcoAgAiAUUNASAHKAIEIQMMCwsgAyAEIAZBqJzGABDqBwALIAAgBygCBDYCBCAAQQI2AgAMCwsgB0EPNgIUIAcgASAHQRRqEPUGIAcoAgAiAUUNASAHKAIEIQMMCQsgAyAEIAZBuJzGABDqBwALIAAgBygCBDYCBCAAQQI2AgAMCAsCQCADIARNBEAgBCADayIJIAIoAgAgAigCCCIKa0sEQCACIAogCRD4BSACKAIIIQoLIAIoAgQhBSAJBEAgBSAKaiADIAhqIAn8CgAACyABIARBAWoiCzYCCCACIAkgCmoiAzYCCAJAAkACQAJAAkACQAJAAkACQAJAAn8gBiALSwRAIAEgBEECajYCCCAIIAtqLQAADAELIAdBBDYCFCAHQQhqIAEgB0EUahDzBiAHLQAIDQwgBy0ACQtB/wFxQSJrDlQCAAAAAAAAAAAAAAAABAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAwAAAAAABQAAAAYAAAAAAAAABwAAAAgACQEACyAHQQw2AhQgASAHQRRqEIsHIQMMDgsjAEEgayIEJAACQAJAAkAgASgCBCIDIAEoAggiBk8EQAJAIAMgBmtBA00EQCABIAM2AgggBEEENgIUIARBDGogASAEQRRqEPQGIAMhBQwBCyABIAZBBGoiBTYCCCABKAIAIAZqIgYtAAFBAXQvAYiURiAGLQAAQQF0LwGImEZywUEIdCAGLQACQQF0LgGImEZyIAYtAANBAXQuAYiURnIiBkEATgRAIARBADsBDCAEIAY7AQ4MAQsgBEEMNgIUIARBDGogASAEQRRqEPQGCyAELwEMQQFGBEAgBCgCECEDDAQLIAQvAQ4iBkGA+ANxQYC4A0YNASAGQYDIAGpB//8DcUGA+ANPBEAgASgCACEJAn8gAyAFSwRAIAUgCWotAAAMAQsgBEEENgIUIARBDGogASAEQRRqEPMGIAQtAAxBAUYEQCAEKAIQIQMMBgsgBC0ADQsgASAFQQFqIgg2AghB3ABGBEACfyADIAhLBEAgCCAJai0AAAwBCyAEQQQ2AhQgBEEMaiABIARBFGoQ8wYgBC0ADEEBRgRAIAQoAhAhAwwHCyAELQANCyAFQQJqIQhB9QBGBEAgAyAISQ0FAkAgAyAIa0EDTQRAIAEgAzYCCCAEQQQ2AhQgBEEMaiABIARBFGoQ9AYMAQsgASAFQQZqNgIIIAggCWoiAy0AAUEBdC8BiJRGIAMtAABBAXQvAYiYRnLBQQh0IAMtAAJBAXQuAYiYRnIgAy0AA0EBdC4BiJRGciIDQQBOBEAgBEEAOwEMIAQgAzsBDgwBCyAEQQw2AhQgBEEMaiABIARBFGoQ9AYLIAQvAQxBAUYEQCAEKAIQIQMMBwsgBC8BDiIFQYBAa0H//wNxQYD4A08EQCAFQYDIAGpB//8DcSAGQYDQAGpB//8DcUEKdHIiCEGAgARqIQYgAigCACACKAIIIgNrQQNNBEAgAiADQQQQ+AUgAigCCCEDCyACIANBBGo2AgggAigCBCADaiIDIAZBEnZB8AFyOgAAIANBA2ogBUE/cUGAAXI6AAAgAyAIQQZ2QT9xQYABcjoAAiADIAZBDHZBP3FBgAFyOgABQQAhAwwHCyAEQRQ2AhQgASAEQRRqEIsHIQMMBgsgASAINgIIIARBFzYCFCABIARBFGoQiwchAwwFCyAEQRc2AhQgASAEQRRqEIsHIQMMBAsgBkGAAU8EQCACKAIAIAIoAggiA2tBA00EQCACIANBBBD4BSACKAIIIQMLIAIoAgQgA2ohBQJ/IAZBgBBJBEAgBkEGdkFAciEIQQIMAQsgBSAGQQZ2QT9xQYABcjoAASAGQQx2QWByIQhBAwshCSAFIAg6AAAgAiADIAlqNgIIIAUgCWpBAWsgBkE/cUGAAXI6AABBACEDDAQLIAIoAggiAyACKAIARgRAIAJB+JPGABCnBgsgAiADQQFqNgIIIAIoAgQgA2ogBjoAAEEAIQMMAwsgBiADIANByKXGABDqBwALIARBFDYCFCABIARBFGoQiwchAwwBCyAIIAMgA0HIpcYAEOoHAAsgBEEgaiQAIANFDQ4MDQsgAigCACADRgRAIAJB+JLGABCnBiACKAIEIQULIAIgA0EBajYCCCADIAVqQSI6AAAMCwsgAigCACADRgRAIAJBiJPGABCnBiACKAIEIQULIAIgA0EBajYCCCADIAVqQdwAOgAADAoLIAIoAgAgA0YEQCACQZiTxgAQpwYgAigCBCEFCyACIANBAWo2AgggAyAFakEvOgAADAkLIAIoAgAgA0YEQCACQaiTxgAQpwYgAigCBCEFCyACIANBAWo2AgggAyAFakEIOgAADAgLIAIoAgAgA0YEQCACQbiTxgAQpwYgAigCBCEFCyACIANBAWo2AgggAyAFakEMOgAADAcLIAIoAgAgA0YEQCACQciTxgAQpwYgAigCBCEFCyACIANBAWo2AgggAyAFakEKOgAADAYLIAIoAgAgA0YEQCACQdiTxgAQpwYgAigCBCEFCyACIANBAWo2AgggAyAFakENOgAADAULIAIoAgAgA0YEQCACQeiTxgAQpwYgAigCBCEFCyACIANBAWo2AgggAyAFakEJOgAADAQLIAMgBCAGQcicxgAQ6gcACyAHKAIMIQMMAwsgB0EENgIUIAAgASAHQRRqEPIGDAYLIAQgBkGYnMYAEIwHAAsMAQsLIABBAjYCACAAIAM2AgQMAgsgACADNgIIIAAgATYCBCAAQQA2AgAMAQsgACADNgIIIAAgATYCBCAAQQE2AgALIAdBIGokAAvFBwEEfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAAoAgAOBQECAw0EAAsgAC0ABEEDRw0MIAAoAggiAygCACEAIANBBGooAgAiASgCACICBEAgACACEQMACyABKAIEIgEEQCAAQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNDyACQQAgBCABQSdqSxsNDiAAEKICCyADQQRrKAIAIgBBeHEiAUEQQRQgAEEDcSIAG0kNDiAARSABQTRJcg0LDA0LAkAgAC0ABEEBaw4CAAAKCyAAKAIIIgMNCAwJCwJAIAAtAARBAWsOAgAABwsgACgCCCIDDQUMBgsgACgCBCIDQQBKBEAgACgCCCIBQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyADakkNDCACQQAgBCADQSdqSxsNCyABEKICCyAAKAIQIgNFDQkgACgCFCIAKAIAIgEEQCADIAERAwALIAAoAgQiAEUNCSADQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyAAakkNCyABRQ0IIAIgAEEnaksNCgwICwJAIAAtAARBAWsOAgAAAgsgACgCCCIDDQAMAQsgACgCDCIBQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyADakkNCSACQQAgBCADQSdqSxsNCCABEKICCwJAQQMgAC0AFCIDQQRrIANBA00bQf8BcQ4EBwcHAAELIANBAWsOAgAABgsgACgCGCIBRQ0FIAAoAhwiA0EEaygCACIAQXhxIgJBBEEIIABBA3EiABsgAWpPBEAgAEUgAiABQSdqTXINBQwHCwwHCyAAKAIMIgFBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIANqSQ0GIAJBACAEIANBJ2pLGw0FIAEQogILIAAoAhQiA0UNAyAAKAIYIgAoAgAiAQRAIAMgAREDAAsgACgCBCIARQ0DIANBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIABqSQ0FIAFFIAIgAEEnak1yDQIMBAsgACgCDCIBQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyADakkNBCACQQAgBCADQSdqSxsNAyABEKICCyAAKAIUIgNFDQEgACgCGCIAKAIAIgEEQCADIAERAwALIAAoAgQiAEUNASADQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyAAakkNAyABRSACIABBJ2pNcg0ADAILIAMQogILDwtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALmgkCCH8BeyAAIAEoAgQiAjYCPCABKAIAIgUhAyAAKAIIIgcgBUkEQCAFIAciA2siBiAAKAIAIANrSwRAIAAgAyAGQQRBJBCkBSAAKAIIIQMLIAAoAgQhCSAGQQNxIgQEQCADIARqIAUgB2sgBGshBiAJIANBJGxqIQIDQCAC/QwAAAAAAAAAAAAAAAAAAAAA/QsCACACQSBqQQA7AQAgAkEQaiAK/QsCACACQSRqIQIgBEEBayIEDQALIQMLIAcgBWtBfE0EQCAJIANBJGxqIQIDQCAC/QwAAAAAAAAAAAAAAAAAAAAA/QsCACACQSBqQQA7AQAgAkEQaiAK/QsCACACQSRqIAr9CwIAIAJBNGogCv0LAgAgAkHEAGpBADsBACACQcgAaiAK/QsCACACQdgAaiAK/QsCACACQegAakEAOwEAIAJB7ABqIAr9CwIAIAJB/ABqIAr9CwIAIAJBjAFqQQA7AQAgAkGQAWohAiADQQRqIQMgBkEEayIGDQALCyAAKAI8IQILIABBADYCICAAIAM2AggCQAJ/AkACQCACRQRAIABBADYCLAwBCyAFBEBBACEEIAAoAhggBUkEQCAAQRhqQQAgBUECQRIQpAUgACgCICEEIAAoAjwhAgsgBUESbCIDBEAgACgCHCAEQRJsakEAIAP8CwALIABBADYCLCAAIAQgBWo2AiAgAkEBTQ0BQQAhBCAAKAIkIAVJBEAgAEEkakEAIAVBAkEeEKQFIAAoAiwhBCAAKAI8IQILIAVBHmwiAwRAIAAoAiggBEEebGpBACAD/AsACyAAQQA2AjggACAEIAVqNgIsIAJBAk0NBEEAIQQgACgCMCAFSQRAIABBMGpBACAFQQJBKhCkBSAAKAI4IQQLIAVBKmwiAwRAIAAoAjQgBEEqbGpBACAD/AsACyAEIAVqIQQgAEE4agwDC0EAIQQgAEEANgIsIAJBAUcNAQsgAEEANgI4DAILIABBADYCOCACQQJNDQEgAEE4agsgBDYCAAsgACgCFCEEIABBADYCFCAAKAIQIQcCQAJAAkACQCAEBEAgByECA0AgAkEUaigCACIDQQVPBEAgAkEIaigCACIIQQRrKAIAIgZBeHEiCSADQQJ0IgNBBEEIIAZBA3EiBhtqSQ0DIAZBACAJIANBJ2pLGw0EIAgQogILIAJBGGohAiAEQQFrIgQNAAsLIAEtAAhFDQMgBUUEQEEAIQMMAwtBACEDIAAoAgwgBUkEQCAAQQxqQQAgBUEEQRgQpAUgACgCECEHIAAoAhQhAwsgBUEBayAFQQNxIgQEQCAFQXxxIQUgAyAEaiAHIANBGGxqIQIDQCACQQA2AgAgAkEUakEANgIAIAJBGGohAiAEQQFrIgQNAAshAwtBA0kNAiAHIANBGGxqIQIDQCACQQA2AgAgAkHcAGpBADYCACACQcQAakIANwIAIAJBLGpCADcCACACQRRqQgA3AgAgAkHgAGohAiADQQRqIQMgBUEEayIFDQALDAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAAIAM2AhQLC8gGAQR/AkACQCAAKAIMIgIEQCAAKAIQIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIAAoAhgiAgRAIAAoAhwiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsgACgCPCICBEAgACgCQCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAJIIgIEQCAAKAJMIgNBBGsoAgAiAUF4cSIEIAJBAnQiAkEEQQggAUEDcSIBG2pJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsgACgCVCICBEAgACgCWCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAJgIgJBgICAgHhyQYCAgIB4RwRAIAAoAmQiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsgACgCbCICBEAgACgCcCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAJ4IgIEQCAAKAJ8IgNBBGsoAgAiAUF4cSIEIAJBAnQiAkEEQQggAUEDcSIBG2pJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsCQCAAKAKEASICQYCAgIB4Rg0AIAIEQCAAKAKIASIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNAiABQQAgBCACQSdqSxsNAyADEKICCyAAKAKQASICBEAgACgClAEiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQIgAUEAIAQgAkEnaksbDQMgAxCiAgsgACgCnAEiAkUNACAAKAKgASIAQQRrKAIAIgNBeHEiASACQQJ0IgJBBEEIIANBA3EiAxtqSQ0BIANBACABIAJBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL3xADB38CfgF7IwBBIGsiBSQAAkACQCAAKAIAIgJFBEAgACgCECIARQ0BIABBk7PFAEEBEJcDIQIMAgsCQAJAAkACQAJAAkACQCAAKAIIIgQgACgCBCIGTwRAIAAoAhAiAkUNASACQeqyxQBBEBCXA0UNAQwHCyAAIARBAWoiATYCCCAFQQhqIAIgBGotAAAiAxDnByAFKAIIIgcEQCAAKAIQIgBFDQggACAHIAUoAgwQlwMhAgwJCyAAIAAoAgxBAWoiBzYCDCAHQfUDTwRAIAAoAhAiAgRAIAJB+rLFAEEZEJcDDQgLIABBAToABAwGCwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIANBwQBrDhcCBg8FDwQPDw8PDw8PDwEBAAACAw8PBw8LIAAoAhAiBARAQQEhAiAEQayzxQBBARCXAw0VIAAoAgAiAkUNCSAAKAIEIQYgACgCCCEBCyABIAZPDQggASACai0AAEHMAEcNCCAAIAFBAWo2AgggBUEQaiAAENkEIAUtABBFDQcgBS0AESEBIAAoAhAiAwRAQQEhAiADQfqyxQBB6rLFACABQQFxIgMbQRlBECADGxCXAw0VCyAAIAE6AAQMEQsgACgCECIBBEBBASECIAFBsrPFAEEBEJcDDRQLIANB0ABHDQggACgCECICRQ0JIAJBs7PFAEEGEJcDDREMCQsgACgCECIBBEBBASECIAFB6LLFAEEBEJcDDRMLQQEhAiAAEIYCDRIgA0HBAEYEQCAAKAIQIgEEQCABQbmzxQBBAhCXAw0UCyAAQQEQ1QENEwsgACgCECIBRQ0OIAFB6bLFAEEBEJcDDRIMDgsgACgCECIBBEBBASECIAFBu7PFAEEBEJcDDRILIAUgABC3BkEBIQIgBSgCAEEBcQ0RIAUoAgRBAUYEQCAAKAIQIgFFDQ4gAUG8s8UAQQEQlwMNEgsgACgCECIBRQ0NIAFB3o7IAEEBEJcDDREMDQtBACECIwBBEGsiASQAAkACQAJAAkAgACgCAEUEQCAAKAIQIgMNAQwECyABIABBxwAQrAYgAS0AAEEBRgRAIAEtAAEhAyAAKAIQIgQEQEEBIQIgBEH6ssUAQeqyxQAgA0EBcSIEG0EZQRAgBBsQlwMNBQsgACADOgAEQQAhAiAAQQA2AgAMBAsgACgCECICBEAgASkDCCIJUA0DIAJB+bTFAEEEEJcDDQIDQCAIIAlRBEAgACgCECIDRQ0FQQEhAiADQf20xQBBAhCXA0UNBQwGCwJAIAhQDQAgACgCECICRQ0AIAJB55DGAEECEJcDDQQLQQEhAiAAIAAoAhRBAWo2AhQgCEIBfCEIIABCARCCBkUNAAsMBAsgABDOAiECDAMLIANBk7PFAEEBEJcDIQIMAgtBASECDAELIAAQzgIhAiAAIAAoAhQgCadrNgIUCyABQRBqJAAgAg0ODAwLIAAoAhAiAgRAIAJBvbPFAEEEEJcDDQ4LQQEhAkEAIQEjAEEQayIDJAACQAJAAkACQCAAKAIARQRAIAAoAhAiBA0BDAQLIAMgAEHHABCsBiADLQAAQQFGBEAgAy0AASEEIAAoAhAiBgRAQQEhASAGQfqyxQBB6rLFACAEQQFxIgYbQRlBECAGGxCXAw0FCyAAIAQ6AARBACEBIABBADYCAAwECyAAKAIQIgEEQCADKQMIIglQDQMgAUH5tMUAQQQQlwMNAgNAIAggCVEEQCAAKAIQIgRFDQVBASEBIARB/bTFAEECEJcDRQ0FDAYLAkAgCFANACAAKAIQIgFFDQAgAUHnkMYAQQIQlwMNBAtBASEBIAAgACgCFEEBajYCFCAIQgF8IQggAEIBEIIGRQ0ACwwECyAAEPkDIQEMAwsgBEGTs8UAQQEQlwMhAQwCC0EBIQEMAQsgABD5AyEBIAAgACgCFCAJp2s2AhQLIANBEGokACABDQ8gACgCACIDRQ0GIAAoAggiASAAKAIETw0GIAEgA2otAABBzABHDQYgACABQQFqNgIIIAVBEGogABDZBCAFLQAQRQ0IIAUtABEhASAAKAIQIgMEQCADQfqyxQBB6rLFACABQQFxIgMbQRlBECADGxCXAw0QCyAAIAE6AAQMDAsjAEEgayICJAACQAJAIAAoAgBFBEAgACgCECIBRQ0BIAFBk7PFAEEBEJcDIQEMAgsgAiAAEK8GIAIoAgBFBEAgACgCECIDBEBBASEBIANB+rLFAEHqssUAIAItAARBAXEiAxtBGUEQIAMbEJcDDQMLIAAgAv0AAgD9CwIADAELIAAoAhBFDQAgAP0AAgAhCiAAIAL9AAIA/QsCACACIAr9CwMQIAAQhgIhASAAIAL9AAMQ/QsCAAwBC0EAIQELIAJBIGokACABDQwMCgtBASECIAAQhgINDSAAKAIQIgEEQCABQcGzxQBBBBCXAw0OCyAAEK0EDQ0MCQsgBSkDGCIIUA0AIAAgCBCCBg0KIAAoAhAiAUUNAEEBIQIgAUGts8UAQQEQlwMNDAsgA0HSAEYNBiAAKAIQIgJFDQYgAkGus8UAQQQQlwMNCQwGCyAAKAIQIgJFDQAgAkGus8UAQQQQlwMNCAsgABCGAg0HDAULIAAoAhAiAUUNACABQeqyxQBBEBCXAw0IC0EAIQIgAEEAOgAEIABBADYCAAwHCyAFKQMYIghQDQIgACgCECICBEAgAkHwyccAQQMQlwMNBQsgACAIEIIGDQQMAgsgACAENgIIIABBABDMAQ0DDAELIAAQhgINAgtBACECIAAoAgBFDQMgACAAKAIMQQFrNgIMDAMLQQAhAiAAQQA2AgAMAgtBASECDAELQQAhAgsgBUEgaiQAIAILsB0DB34PfwF7IAEoAgQiCiACKQMQIgYgAikDCCIIIAIpAwAiCSABKQMYhSIDQtii0e/CqeW/LX4gA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhELSgaqbq/qC16d/fiIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEhYUiA0LYotHvwqnlvy1+IANCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhIWFIgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhCADQtii0e/CqeW/LX6FIgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIQgASkDECIEQn+FfiIFQjiGIAVCgP4Dg0IohoQgBUKAgPwHg0IYhiAFQoCAgPgPg0IIhoSEIAVCCIhCgICA+A+DIAVCGIhCgID8B4OEIAVCKIhCgP4DgyAFQjiIhISEIAMgBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhH6FIAOJIgencSEMIAdCGYhC/wCDQoGChIiQoMCAAX4hBSABKAIAIQ0CQANAAkAgDCANaikAACIEIAWFIgNCf4UgA0KBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIDUEUEQANAAkAgDSADeqdBA3YgDGogCnFBBnRrIgtBQGopAwAgCVINACALQThrKQMAIAhSDQAgC0EwaykDACAGUQ0DCyADQgF9IAODIgNQRQ0ACwsgBCAEQgGGg0KAgYKEiJCgwIB/g1BFDQIgDCAPQQhqIg9qIApxIQwMAQsLIAAgATYCBCAAIAs2AgAgAEEANgIgDwsgASgCCEUEQAJAIwBBIGsiESQAIBEgAUEQajYCACABKAIMIQwgESARNgIEAkACQAJAAkACQAJAAkACQAJ/AkAgDEEBaiILBEAgASgCBCIUIBRBAWpBA3ZBB2wgFEEISRsiCkEBdiALSQRAIApBAWoiCiALIAogC0sbIgtBD0kNAiALQf////8BTQRAQX8gC0EDdEEHbkEBa2d2IgtB/v//H0sNBSALQQFqDAQLDAsLIBFBBGohFkEAIQogASINIA0oAgRBAWoiEAR/IA0oAgAhDwJAIBBBA3YgEEEHcUEAR2oiDEECTwRAIAxB/v///wNxIg4hCyAPIQoDQCAKIAr9AAMAIhn9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gGf0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACAKQRBqIQogC0ECayILDQALIAwgDkYNASAOQQN0IQogDEEBcSEMCyAKIA9qIQoDQCAKIAopAwAiA0J/hUIHiEKBgoSIkKDAgAGDIANC//79+/fv37//AIR8NwMAIApBCGohCiAMQQFrIgwNAAsLAkAgEEEITwRAIA8gEGogDykAADcAAAwBCyAQRQ0AIA9BCGogDyAQ/AoAAAtBASELQQAhDANAIAwhDyALIQwCQCAPIA0oAgAiC2otAABBgAFHDQAgCyAPQX9zQQZ0aiESA0AgFiANIA8QtAIhAyANKAIEIg4gA6ciFXEiEyEKIA0oAgAiCyATaikAAEKAgYKEiJCgwIB/gyIDUARAQQghFANAIAogFGohCiAUQQhqIRQgCyAKIA5xIgpqKQAAQoCBgoSIkKDAgH+DIgNQDQALCyALIAN6p0EDdiAKaiAOcSIKaiwAAEEATgRAIAspAwBCgIGChIiQoMCAf4N6p0EDdiEKCyAKIBNrIA8gE2tzIA5xQQhPBEAgCiALaiITLQAAIBMgFUEZdiITOgAAIA0oAgAgCkEIayAOcWpBCGogEzoAACALIApBf3NBBnRqIQtB/wFGBEAgDSgCBCEKIA0oAgAgD2pB/wE6AAAgDSgCACAKIA9BCGtxakEIakH/AToAACALIBJBwAD8CgAADAMLIBIgC0HAABCwAwwBCwsgCyAPaiAVQRl2Igs6AAAgDSgCACAOIA9BCGtxakEIaiALOgAACyAMIAwgEEkiCmohCyAKDQALIA0oAgQiDCAMQQFqQQN2QQdsIAxBCEkbBUEACyANKAIMazYCCAwHCwwJC0EEIAtBCHFBCGogC0EESRsLIgtBCGoiCiALQQZ0Ig9qIg0gCkkgDUH4////B0tyDQAgDRBxIg1FDQEgDSAPaiEQIAoEQCAQQf8BIAr8CwALIAtBAWsiEyALQQN2QQdsIBNBCEkbIRUgASgCACENIAwNAkEAIQwMAwsgEUEANgIYIBFBATYCDCARQcS1xAA2AgggEUIENwIQIBFBCGpBmLXEABCNCAsACyAQQQhqIRYgDSkDAEJ/hUKAgYKEiJCgwIB/gyEGQQAhCiAMIQsgDSEPA0AgBlAEQANAIApBCGohCiAPQQhqIg8pAwBCgIGChIiQoMCAf4MiA0KAgYKEiJCgwIB/UQ0ACyADQoCBgoSIkKDAgH+FIQYLIBAgEyANIAZ6p0EDdiAKaiIXQQZ0ayIOQUBqKQMAIBEoAgAiEikDCIUiA0LYotHvwqnlvy1+IA5BOGspAwCFIANCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhIUiA0LYotHvwqnlvy1+IA5BMGspAwCFIANCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhIUiA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhELSgaqbq/qC16d/fiIEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEIANC2KLR78Kp5b8tfoUiA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCASKQMAIgRCf4V+IgVCOIYgBUKA/gODQiiGhCAFQoCA/AeDQhiGIAVCgICA+A+DQgiGhIQgBUIIiEKAgID4D4MgBUIYiEKAgPwHg4QgBUIoiEKA/gODIAVCOIiEhIQgAyAEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEfoUgA4mnIhhxIg5qKQAAQoCBgoSIkKDAgH+DIgNQBEBBCCESA0AgDiASaiEOIBJBCGohEiAQIA4gE3EiDmopAABCgIGChIiQoMCAf4MiA1ANAAsLIAZCAX0gBoMhBiAQIAN6p0EDdiAOaiATcSIOaiwAAEEATgRAIBApAwBCgIGChIiQoMCAf4N6p0EDdiEOCyAOIBBqIBhBGXYiEjoAACAWIA5BCGsgE3FqIBI6AAAgECAOQX9zQQZ0aiIOQTBqIA0gF0F/c0EGdGoiEkEwav0AAAD9CwAAIA5BIGogEkEgav0AAAD9CwAAIA5BEGogEkEQav0AAAD9CwAAIA4gEv0AAAD9CwAAIAtBAWsiCw0ACwsgASATNgIEIAEgEDYCACABIBUgDGs2AgggFEUNACAUIBRBBnRBxwBqQUBxIgtqQQlqIgxFDQAgDSALayILQQRrKAIAIgpBeHEiDUEEQQggCkEDcSIKGyAMakkNASAKQQAgDSAMQSdqSxsNAiALEKICCyARQSBqJAAMAwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIBFBADYCGCARQQE2AgwgEUHEtcQANgIIIBFCBDcCECARQQhqQZi1xAAQjQgACwsgACAHNwMAIAAgAikDADcDCCAAQRBqIAJBCGr9AAMA/QsDACAAIAE2AiALkwoBBn8jAEEwayICJAACQAJAAkACQAJAAkBBAyAAKAIAIgQtAAAiAEEEayAAQQNNG0H/AXFBAWsOBAECAwQAC0EBIQAgASgCACIDQbK3xwBBBSABKAIEIgYoAgwiBREAAA0EIARBAWohBAJAIAEtAApBgAFxRQRAIANBu7PFAEEBIAURAAANBiAEIAEQxQINBiABKAIAIQMgASgCBCgCDCEFDAELIANB24HCAEECIAURAAANBSACQQE6ACwgAiAGNgIUIAIgAzYCECACQeCBwgA2AiAgAiABKQIINwIkIAIgAkEsajYCGCACIAJBEGo2AhwgBCACQRxqEMUCDQUgAigCHEHZgcIAQQIgAigCICgCDBEAAA0FCyADQd6OyABBASAFEQAAIQAMBAtBASEAIAEoAgAiA0G3t8cAQQsgASgCBCIGKAIMIgURAAANAyAEQQFqIQQCQCABLQAKQYABcUUEQCADQbuzxQBBASAFEQAADQUgBCABEMUCDQUgASgCACEDIAEoAgQoAgwhBQwBCyADQduBwgBBAiAFEQAADQQgAkEBOgAsIAIgBjYCFCACIAM2AhAgAkHggcIANgIgIAIgASkCCDcCJCACIAJBLGo2AhggAiACQRBqNgIcIAQgAkEcahDFAg0EIAIoAhxB2YHCAEECIAIoAiAoAgwRAAANBAsgA0HejsgAQQEgBREAACEADAMLQQEhACABKAIAIgNBwrfHAEEOIAEoAgQiBygCDCIFEQAADQIgBEEBaiEGAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBREAAA0EIAIgBjYCHCABIARBBGpByKjHACAEQQJqQdioxwAgBEEDakHoqMcAIAJBHGpB+KjHABDuBQ0EIAEoAgAhAyABKAIEKAIMIQUMAQsgA0HbgcIAQQIgBREAAA0DIAJBAToADyACIAc2AhQgAiADNgIQIAJB4IHCADYCICACIAEpAgg3AiQgAiACQQ9qNgIYIAIgAkEQajYCHCACIAY2AiwgAkEcaiAEQQRqQcioxwAgBEECakHYqMcAIARBA2pB6KjHACACQSxqQfioxwAQ7gUNAyACKAIcQdmBwgBBAiACKAIgKAIMEQAADQMLIANB3o7IAEEBIAURAAAhAAwCC0EBIQAgASgCACIDQdC3xwBBBiABKAIEIgYoAgwiBREAAA0BAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBREAAA0DIAQgARCUA0UNAQwDCyADQduBwgBBAiAFEQAADQIgAkEBOgAsIAIgBjYCFCACIAM2AhAgAkHggcIANgIgIAIgASkCCDcCJCACIAJBLGo2AhggAiACQRBqIgE2AhwgBCACQRxqEJQDDQIgAUHZgcIAQQIQrwMNAgsgA0HejsgAQQEgBREAACEADAELQQEhACABKAIAIgNB1rfHAEEOIAEoAgQiBigCDCIFEQAADQACQCABLQAKQYABcUUEQCADQbuzxQBBASAFEQAADQIgBEEIaigCACAEQQxqKAIAIAEQtQJFDQEMAgsgA0HbgcIAQQIgBREAAA0BIAJBAToALCACIAY2AhQgAiADNgIQIAJB4IHCADYCICACIAEpAgg3AiQgAiACQSxqNgIYIARBCGooAgAgBEEMaigCACACIAJBEGoiBjYCHCACQRxqELUCDQEgBkHZgcIAQQIQrwMNAQsgA0HejsgAQQEgBREAACEACyACQTBqJAAgAAv6CAMKfwJ+AnsjAEHwAGsiByQAIAcgAjYCACAHIAAoAggiAzYCBAJAAkACQAJAAkACQAJAAkAgAiADRgRAIAdBJGogASACEPEDIAcoAighAQJAIAcoAiwiCkUNACABIApBA3RqIQkgACgCBCEFIAEhAwNAIAMoAgAiBCACTw0JIANBBGooAgAiBiACTw0KIAUgBEEYbGoiBEEQaiIIKQIAIQ0gBSAGQRhsaiIG/QACACEPIAggBkEQaiIIKQIANwIAIAT9AAIAIRAgBCAP/QsCACAIIA03AgAgBiAQ/QsCACADQQhqIgMgCUcNAAsgACgCFCICBEAgACgCECEFIAEhAwNAIAMoAgAiBCACTw0KIANBBGooAgAiBiACTw0LIAUgBEEYbGoiBEEQaiIIKQIAIQ0gBSAGQRhsaiIG/QACACEPIAggBkEQaiIIKQIANwIAIAT9AAIAIRAgBCAP/QsCACAIIA03AgAgBiAQ/QsCACADQQhqIgMgCUcNAAsLIAAoAiAiAgRAIAAoAhwhBSABIQMDQCADKAIAIgQgAk8NCiADQQRqKAIAIgYgAk8NCyAFIARBCWxqIgQpAAAhDSAFIAZBCWxqIgZBCGoiCC0AACELIAQgBikAADcAACAEQQhqIgQtAAAhDCAEIAs6AAAgCCAMOgAAIAYgDTcAACADQQhqIgMgCUcNAAsLIAAoAiwiBARAIAAoAighBiABIQIDQCACKAIAIgMgBE8NBCACQQRqKAIAIgUgBE8NBSAGIANBD2xqIgNBB2opAAAhDSADKQAAIQ4gBiAFQQ9saiIFQQhqKAAAIQggBUEMai8AACELIAVBDmotAAAhDCADIAUpAAA3AAAgA0EOaiAMOgAAIANBDGogCzsAACADQQhqIAg2AAAgByAONwMIIAcgDTcADyAFQQdqIAcpAA83AAAgBSAHKQMINwAAIAJBCGoiAiAJRw0ACwsgACgCOCIDRSAKRXINACAAKAI0IQQgASECA0AgAigCACIAIANPDQUgAkEEaigCACIFIANPDQYgB0EVaiIKIAQgAEEVbGoiAEENaikAADcAACAEIAVBFWxqIgX9AAAAIQ8gBUEUai0AACEGIABBEGogBUEQaigAADYAACAAQRRqIAY6AAAgAP0AAAAhECAAIA/9CwAAIAcgEP0LAwggBSAH/QADCP0LAAAgBUENaiAKKQAANwAAIAJBCGoiAiAJRw0ACwsgBygCJCIABEAgAUEEaygCACICQXhxIgMgAEEDdCIAQQRBCCACQQNxIgIbakkNBiACQQAgAyAAQSdqSxsNByABEKICCyAHQfAAaiQADwsgB0EANgIIQQAgByAHQQRqIAdBCGpBrLzHABD1BwALIAMgBEHA9scAEIwHAAsgBSAEQcD2xwAQjAcACyAAIANBwPbHABCMBwALIAUgA0HA9scAEIwHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAQgAkHA9scAEIwHAAsgBiACQcD2xwAQjAcAC7gHAQR/IAAoArABIgFBhAhPBEAgARCbBwsgACgCtAEiAUGECE8EQCABEJsHCwJAIAAoAgBFDQAgACgCBCIBQYQISQ0AIAEQmwcLAkAgACgCCEUNACAAKAIMIgFBhAhJDQAgARCbBwsCQCAAKAIQRQ0AIAAoAhQiAUGECEkNACABEJsHCwJAIAAoAhhFDQAgACgCHCIBQYQISQ0AIAEQmwcLAkAgACgCIEUNACAAKAIkIgFBhAhJDQAgARCbBwsCQCAAKAIoRQ0AIAAoAiwiAUGECEkNACABEJsHCwJAIAAoAjBFDQAgACgCNCIBQYQITwRAIAEQmwcLIAAoAjgiAUGECEkNACABEJsHCwJAAkAgACgCRCIBBEAgACgCSCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAlAiAQRAIAAoAlQiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAJcIgEEQCAAKAJgIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCaCIBBEAgACgCbCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILAkAgACgCPEUNACAAKAJAIgFBhAhJDQAgARCbBwsgACgCjAEiAUGAgICAeHJBgICAgHhHBEAgACgCkAEiA0EEaygCACICQXhxIgQgAUEBdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAKYASIBQYCAgIB4ckGAgICAeEcEQCAAKAKcASIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAnQiAQRAIAAoAngiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAKAASIBBEAgACgChAEiAEEEaygCACIDQXhxIgIgAUECdCIBQQRBCCADQQNxIgMbakkNASADQQAgAiABQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC6QIAhN/An4jAEGQBGsiByQAIAdBDGpBAEGABPwLAAJAIAAoAgwiEUUEQCABKAIAIAAoAgAgACgCBCABKAIEKAIMEQAAIQAMAQsgACgCACEOIAAoAggiDy0AACEKAkACQCAAKAIEIhBFDQAgDiAQaiELIAdBDGohAiAOIQADQAJ/IAAsAAAiBkEATgRAIAZB/wFxIQQgAEEBagwBCyAALQABQT9xIQUgBkEfcSEEIAZBX00EQCAEQQZ0IAVyIQQgAEECagwBCyAALQACQT9xIAVBBnRyIQUgBkFwSQRAIAUgBEEMdHIhBCAAQQNqDAELIARBEnRBgIDwAHEgAC0AA0E/cSAFQQZ0cnIiBEGAgMQARg0CIABBBGoLIQAgA0GAAUYNAiACIAQ2AgAgAkEEaiECIANBAWohAyAAIAtHDQALCyAPIBFqIRIgA0ECdCIAQQRqIQwgACAHakEIaiELQbwFIRNByAAhFCAPIQRBgAEhDQNAIARBAWohBEEAIQJBJCEAQQEhCUEBIQZBACEFA0ACQCACQQFxBEAgBCASRg0EIAQtAAAhAiAEQQFqIQQMAQsgCiECIAlBAXFFDQMLIAJB4QBrIglB/wFxQRpPBEAgAkEwa0H/AXFBCUsNAyACQRZrIQkLIAatIhYgCUH/AXEiBq1+IhVCIIinDQIgFaciAiAFaiIFIAJJDQIgBkEaQQEgACAUayICQQAgACACTxsiAiACQQFNGyICIAJBGk8bIgJPBEAgAEEkaiEAIBZBJCACa61+IhWnIQZBACEJQQEhAiAVQiCIUA0BDAMLCyAFIAhqIgYgBUkNASAGIANBAWoiAm4iCiANaiINIApJIA1BgLADc0GAgMQAa0GAkLx/SXIgA0H/AEtyDQEgCyEAAkAgBiACIApsayIIIANPBEAgCEGAAUkNASAIQYABQZiyxQAQjAcACwNAIABBBGogACgCADYCACAAQQRrIQAgA0EBayIDIAhLDQALCyAHQQxqIAhBAnRqIA02AgAgBCASRwRAIAQtAAAhCkEAIQMCQCAFIBNuIgAgAm4gAGoiAEHIA0kEQCAAIQUMAQsDQCADQSRqIQMgAEHX/ABLIABBI24iBSEADQALCyAIQQFqIQggAyAFQSRsQfz/A3EgBUEmakH//wNxbmohFCALQQRqIQsgDEEEaiEMQQIhEyACIQMMAQsLIAdBDGohAwNAIAcgAygCADYCjAQgB0GMBGogARCoBSIADQIgA0EEaiEDIAxBBGsiDA0ACwwBC0EBIQAgASgCACICQei3xQBBCSABKAIEKAIMIgERAAANACAQBEAgAiAOIBAgAREAAA0BIAJB6rPFAEEBIAERAAANAQsgAiAPIBEgAREAAA0AIAJBpbPFAEEBIAERAAAhAAsgB0GQBGokACAAC6cJAgN+Bn9BsLXJACgCAEUEQBBWCwJAAkACQAJAQbi1yQAoAgBFBEBBuLXJAEF/NgIAQcS1yQAoAgAiBUHYtckAKQMAIgEgAK2FIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAUIIiEKAgID4D4MgAUIYiEKAgPwHg4QgAUIoiEKA/gODIAFCOIiEhIRC0oGqm6v6gtenf34iAUI4hiABQoD+A4NCKIaEIAFCgID8B4NCGIYgAUKAgID4D4NCCIaEhCABQgiIQoCAgPgPgyABQhiIQoCA/AeDhCABQiiIQoD+A4MgAUI4iISEhCACQtii0e/CqeW/LX6FIgFCOIYgAUKA/gODQiiGhCABQoCA/AeDQhiGIAFCgICA+A+DQgiGhIQgAUIIiEKAgID4D4MgAUIYiEKAgPwHg4QgAUIoiEKA/gODIAFCOIiEhIRB0LXJACkDACICQn+FfiIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEIAEgAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhH6FIAGJIgGncSEEIAFCGYhC/wCDQoGChIiQoMCAAX4hA0HAtckAKAIAIgZBIGshCQJAA0ACQCAEIAZqKQAAIgIgA4UiAUJ/hSABQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIgFQRQRAA0AgACAJIAF6p0EDdiAEaiAFcSIIQQV0aygCAEYNAiABQgF9IAGDIgFQRQ0ACwsgAiACQgGGg0KAgYKEiJCgwIB/g1BFDQIgBCAHQQhqIgdqIAVxIQQMAQsLQYABIQAgBiAIaiIEKQAAIgEgAUIBhoNCgIGChIiQoMCAf4N6p0EDdiAGIAhBCGsgBXFqIgUpAAAiASABQgGGg0KAgYKEiJCgwIB/g3mnQQN2akEHTQRAQci1yQBByLXJACgCAEEBajYCAEH/ASEACyAEIAA6AAAgBUEIaiAAOgAAQcy1yQBBzLXJACgCAEEBazYCACAGQQAgCGtBBXRqIgBBHGsoAgAiBEGAgICAeEYNACAAQQxrKAIAIQYgAEEQaygCACEFIABBGGsoAgAhCCAAQQRrKAIAIgAgACgCAEEBayIHNgIAIAdFBEAgABDSBQsgBARAIAhBBGsoAgAiAEF4cSIHIARBAnQiBEEEQQggAEEDcSIAG2pJDQMgAEEAIAcgBEEnaksbDQQgCBCiAgsgBUUNACAGQQRrKAIAIgBBeHEiBCAFQQJ0IgVBBEEIIABBA3EiABtqSQ0EIABBACAEIAVBJ2pLGw0FIAYQogILQbi1yQBBuLXJACgCAEEBajYCAA8LQayKwQAQsAoAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALzAYBBH8CQAJAAkAgACgCACIBQYCAgIB4Rg0AIAEEQCAAKAIEIgNBBGsoAgAiAkF4cSIEIAFBA3QiAUEEQQggAkEDcSICG2pJDQIgAkEAIAQgAUEnaksbDQMgAxCiAgsgACgCDCIBRQ0AIAAoAhAiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAoAhwiAUGAgICAeEYNACABBEAgACgCICIDQQRrKAIAIgJBeHEiBCABQQN0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQogILIAAoAigiAUUNACAAKAIsIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsCQCAAKAI4IgFBgICAgHhGDQAgAQRAIAAoAjwiA0EEaygCACICQXhxIgQgAUEDdCIBQQRBCCACQQNxIgIbakkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAJEIgFFDQAgACgCSCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILAkAgACgCVCIBQYCAgIB4Rg0AIAEEQCAAKAJYIgNBBGsoAgAiAkF4cSIEIAFBA3QiAUEEQQggAkEDcSICG2pJDQIgAkEAIAQgAUEnaksbDQMgAxCiAgsgACgCYCIBRQ0AIAAoAmQiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAoAnAiAUGAgICAeEYNACABBEAgACgCdCIDQQRrKAIAIgJBeHEiBCABQQN0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQogILIAAoAnwiAUUNACAAKAKAASIAQQRrKAIAIgNBeHEiAiABQQJ0IgFBBEEIIANBA3EiAxtqSQ0BIANBACACIAFBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALtwcCCn4GfwJAIAEpAxAiA1ANACABKAIYIg4oAgAiECAOKQMIIgQgDigCBCIMrSIHIAQgB1QbpyIPaiENAkACQCADIAxC/////w8gBCAEQv////8PWhunayIRQQAgDCARTxutIgIgAiADVhtCB1gEQCAMIA9GDQMgAS0AICIPQTdLDQMgDTEAACEIIA4gBEIBfCIGNwMIIANCAX0hAiAPrUL/AYMiCkIIfCEEIAEpAwAgCCAKhoQhCCADQgFRDQIgAiAMIAYgByAGIAdUG6ciDWutIgUgAiAFVBtQIA9BL0tyDQIgDSAQajEAACAOIAYgAkIAUq0iC3wiBTcDCCAKQhB8IQYgAiALfSECIASGIAiEIQggA0IDVARAIAYhBAwDCyACIAwgBSAHIAUgB1QbpyINa60iBCACIARUG1AEQCAGIQQMAwsgD0EnSwRAIAYhBAwDCyANIBBqMQAAIA4gBSACQgBSrSIDfCIFNwMIIApCGHwhBCACIAN9IQMgBoYgCIQhCCACQgJUBEAgAyECDAMLIAMgDCAFIAcgBSAHVBunIg1rrSICIAIgA1YbUARAIAMhAgwDCyAPQR9LBEAgAyECDAMLIA0gEGoxAAAgDiAFIANCAFKtIgJ8IgU3AwggCkIghCEGIAMgAn0hAiAEhiAIhCEIIANCAlQEQCAGIQQMAwsgAiAMIAUgByAFIAdUG6ciDWutIgQgAiAEVBtQBEAgBiEEDAMLIA9BF0sEQCAGIQQMAwsgDSAQajEAACAOIAUgAkIAUq0iA3wiBTcDCCAKQih8IQQgAiADfSEDIAaGIAiEIQggAkICVARAIAMhAgwDCyADIAwgBSAHIAUgB1QbpyINa60iAiACIANWG1AEQCADIQIMAwsgBkIvVgRAIAMhAgwDCyANIBBqMQAAIA4gBSADQgBSrSICfCIFNwMIIApCMHwhBiADIAJ9IQIgBIYgCIQhCCADQgJUBEAgBiEEDAMLIAIgDCAFIAcgBSAHVBunIgxrrSIEIAIgBFQbUARAIAYhBAwDCyAPQQdNDQEgBiEEDAILIAEgAS0AICIMQThyOgAgIAEgASkDACANKQAAIAxBP3GthoQ3AwAgASADIANBPyAMa0H4AXFBA3atIgIgAiADVhsiAn03AxAgDiACIAR8NwMIDAILIAwgEGoxAAAgDiAFIAJCAFKtIgd8NwMIIApCOIQhBCACIAd9IQIgBoYgCIQhCAsgASAEPAAgIAEgCDcDACABIAI3AxALIABBHToAAAvtBwIGfwh+AkAgASgCCCIFQQhqKQMAIghQDQAgBUEQaigCACIGKAIAIAYpAwgiDSAGKAIEIgStIgkgCSANVhunIgNqIQICQAJAIAggBEL/////DyANIA1C/////w9aG6drIgdBACAEIAdPG60iCSAIIAlUG0IHWARAIAMgBEYNAyABLQAMIgRBN0sNAyACMQAAIQkgBUEIaiIHIgIgCEIBfTcDACAGIA1CAXw3AwggBK1C/wGDIg5CCHwhCCABKQMAIAkgDoaEIQsgAikDACIJUA0CIAVBEGooAgAiAigCBCIDIAIpAwgiCiADrSIMIAogDFQbpyIDRiAEQS9Lcg0CIAIoAgAgA2oxAAAgBiANQgJ8NwMIIAciAiAJQgF9NwMAIA5CEHwhCSAIhiALhCELIAIpAwAiCFAEQCAJIQgMAwsgBUEQaigCACICKAIEIgMgAikDCCIKIAOtIgwgCiAMVBunIgNGBEAgCSEIDAMLIARBJ0sEQCAJIQgMAwsgAigCACADajEAACAGIA1CA3w3AwggBUEIaiIHIgIgCEIBfTcDACAOQhh8IQggCYYgC4QhCyACKQMAIglQDQIgBUEQaigCACICKAIEIgMgAikDCCIKIAOtIgwgCiAMVBunIgNGIARBH0tyDQIgAigCACADajEAACAGIA1CBHw3AwggByICIAlCAX03AwAgDkIghCEJIAiGIAuEIQsgAikDACIIUARAIAkhCAwDCyAFQRBqKAIAIgIoAgQiAyACKQMIIgogA60iDCAKIAxUG6ciA0YEQCAJIQgMAwsgBEEXSwRAIAkhCAwDCyACKAIAIANqMQAAIAYgDUIFfDcDCCAFQQhqIgciAiAIQgF9NwMAIA5CKHwhCCAJhiALhCELIAIpAwAiClANAiAFQRBqKAIAIgIoAgQiAyACKQMIIgwgA60iDyAMIA9UG6ciA0YgCUIvVnINAiACKAIAIANqMQAAIAYgDUIGfDcDCCAHIgIgCkIBfTcDACAOQjB8IQkgCIYgC4QhCyACKQMAIghQBEAgCSEIDAMLIAVBEGooAgAiAigCBCIDIAIpAwgiCiADrSIMIAogDFQbpyIDRgRAIAkhCAwDCyAEQQdNDQEgCSEIDAILIAEgAS0ADCIEQThyOgAMIAEgASkDACACKQAAIARBP3GthoQ3AwAgBUEIaiAIIAhBPyAEa0H4AXFBA3atIgkgCCAJVBsiCH03AwAgBiAIIA18NwMIDAILIAIoAgAgA2oxAAAgBiANQgd8NwMIIAVBCGogCEIBfTcDACAOQjiEIQggCYYgC4QhCwsgASAIPAAMIAEgCzcDAAsgAEEdOgAAC/YHAgV/A34gASgCACICQf///wNxIQUgAkGAgICAeHEhBiABKAIEIQMCfiAGQRB2IAVBDXZyQYAEQQAgBRtyQYD4AXKtIAJBgICA/AdxIgRBgICA/AdGDQAaIAZBEHYhBgJAIARBgICAuARNBEAgBEENdiAFQQ12akGAgAFqIAZyrSACQQx2IAJB/98AcUEAR3GtfCAEQYCAgMQDTw0CGiAEQYCAgJgDSQ0BIAVBgICABHIiAkH+ACAEQRd2IgVrdiEEIAJBHSAFayIFdkEBcQR/IARBAyAFdEEBayACcUEAR2oFIAQLIAZyrQwCCyAGQYD4AXKtDAELIAatCyEHIAEoAgghBCADQf///wNxIQUgA0GAgICAeHEhBgJ+IANBgICA/AdxIgJBgICA/AdHBEAgBkEQdiEGIAJBgICAuARNBEAgAkENdiAFQQ12akGAgAFqIAZyrSADQQx2IANB/98AcUEAR3GtfCACQYCAgMQDTw0CGiACQYCAgJgDTwRAIAVBgICABHIiBUH+ACACQRd2IgJrdiEDIAVBHSACayICdkEBcQR/IANBAyACdEEBayAFcUEAR2oFIAMLIAZyrQwDCyAGrQwCCyAGQYD4AXKtDAELIAZBEHYgBUENdnJBgARBACAFG3JBgPgBcq0LIQggASgCDCEBIARB////A3EhAiAEQYCAgIB4cSEFAn4gBEGAgID8B3EiA0GAgID8B0cEQCAFQRB2IQUgA0GAgIC4BE0EQCADQQ12IAJBDXZqQYCAAWogBXKtIARBDHYgBEH/3wBxQQBHca18IANBgICAxANPDQIaIANBgICAmANPBEAgAkGAgIAEciIEQf4AIANBF3YiAmt2IQMgBEEdIAJrIgJ2QQFxBH8gA0EDIAJ0QQFrIARxQQBHagUgAwsgBXKtDAMLIAWtDAILIAVBgPgBcq0MAQsgBUEQdiACQQ12ckGABEEAIAIbckGA+AFyrQshCSABQf///wNxIQQgAUGAgICAeHEhAiAAIAdC//8DgyAIQhCGQoCA/P8PgyAJQiCGQoCAgIDw/z+DAn4gAUGAgID8B3EiA0GAgID8B0cEQCACQRB2IQIgA0GAgIC4BE0EQCADQQ12IARBDXZqQYCAAWogAnKtIAFBDHYgAUH/3wBxQQBHca18IANBgICAxANPDQIaIANBgICAmANPBEAgBEGAgIAEciIEQf4AIANBF3YiA2t2IQEgBEEdIANrIgN2QQFxBH8gAUEDIAN0QQFrIARxQQBHagUgAQsgAnKtDAMLIAKtDAILIAJBgPgBcq0MAQsgAkEQdiAEQQ12ckGABEEAIAQbckGA+AFyrQtCMIaEhIQ3AgALvwgCBX8BfSABKAIAIglB////A3EhBiAJQYCAgIB4cSEKAkAgCUGAgID8B3EiB0GAgID8B0YEQCAKQRB2IAZBDXZyQYAEQQAgBhtyQYD4AXIhCgwBCyAKQRB2IQogB0GAgIC4BE0EQCAHQYCAgMQDTwRAIAlBDHYgCUH/3wBxQQBHcSAHQQ12IAZBDXZqQYCAAWogCnJqIQoMAgsgB0GAgICYA0kNASAGQYCAgARyIglB/gAgB0EXdiIGa3YhByAJQR0gBmsiBnZBAXEEfyAHQQMgBnRBAWsgCXFBAEdqBSAHCyAKciEKDAELIApBgPgBciEKCyABKAIEIgZB////A3EhCCAGQYCAgIB4cSEJAkAgBkGAgID8B3EiB0GAgID8B0cEQCAJQRB2IQkgB0GAgIC4BE0EQCAHQYCAgMQDTwRAIAZBDHYgBkH/3wBxQQBHcSAHQQ12IAhBDXZqQYCAAWogCXJqIQkMAwsgB0GAgICYA0kNAiAIQYCAgARyIgZB/gAgB0EXdiIIa3YhByAGQR0gCGsiCHZBAXEEfyAHQQMgCHRBAWsgBnFBAEdqBSAHCyAJciEJDAILIAlBgPgBciEJDAELIAlBEHYgCEENdnJBgARBACAIG3JBgPgBciEJCyABKAIIIgZB////A3EhCCAGQYCAgIB4cSEHAkAgBkGAgID8B3EiAUGAgID8B0cEQCAHQRB2IQcgAUGAgIC4BE0EQCABQYCAgMQDTwRAIAZBDHYgBkH/3wBxQQBHcSABQQ12IAhBDXZqQYCAAWogB3JqIQcMAwsgAUGAgICYA0kNAiAIQYCAgARyIgZB/gAgAUEXdiIIa3YhASAGQR0gCGsiCHZBAXEEfyABQQMgCHRBAWsgBnFBAEdqBSABCyAHciEHDAILIAdBgPgBciEHDAELIAdBEHYgCEENdnJBgARBACAIG3JBgPgBciEHC0MAAABAIQsgAyoCACADKgIEkiADKgIIkkMAAEBAlSACQwAAgD9fBH0gCwUgAkMAAIBAlEMAAEDAkkMAAIC/kkMzMzM/lEMAAIA/kiICIAKSC5S8IgZB////A3EhCCAGQYCAgIB4cSEDAkAgBkGAgID8B3EiAUGAgID8B0YEQCADQRB2IAhBDXZyQYAEQQAgCBtyQYD4AXIhAwwBCyADQRB2IQMgAUGAgIC4BE0EQCABQYCAgMQDTwRAIAZBDHYgBkH/3wBxQQBHcSABQQ12IAhBDXZqQYCAAWogA3JqIQMMAgsgAUGAgICYA0kNASAIQYCAgARyIgZB/gAgAUEXdiIIa3YhASAGQR0gCGsiCHZBAXEEfyABQQMgCHRBAWsgBnFBAEdqBSABCyADciEDDAELIANBgPgBciEDCyAAIAU2AgwgACAEQf//A3E2AgggACAHQf//A3EgA0EQdHI2AgQgACAKQf//A3EgCUEQdHI2AgALlSEDBX4RfwF7IAGtQYi2yQApAwAiAiAArYUiA0LYotHvwqnlvy1+hSADQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEQtKBqpur+oLXp39+IgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhISFIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCACQtii0e/CqeW/LX6FIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIRBgLbJACkDACIDQn+FfiIEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEIAIgA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhH6FIAKJIQZB+LXJACgCAEUEQAJAIwBBIGsiDyQAAkACQAJAAkACfwJAAkACQAJAQfi1yQACfwJAAkACQEH8tckAKAIAQQFqIgkEQEH0tckAKAIAIgcgB0EBaiINQQN2IgtBB2wgB0EISRsiB0EBdiAJSQRAIAdBAWoiByAJIAcgCUsbIglBD0kNAiAJQf////8BTQRAQX8gCUEDdEEHbkEBa2d2IglB/v///wFLDQggCUEBaiEIDAcLDA4LQQAgDUUNBBpB8LXJACgCACEKIAsgDUEHcUEAR2oiCUEBTQ0CIAohCCAJQf7///8DcSILIQcDQCAIIAj9AAMAIhj9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gGP0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACAIQRBqIQggB0ECayIHDQALIAkgC0YNAyALQQN0IQggCUEBcSEJDAILDAwLQQQgCUEIcUEIaiAJQQRJGyEIDAMLIAggCmohCANAIAggCCkDACICQn+FQgeIQoGChIiQoMCAAYMgAkL//v379+/fv/8AhHw3AwAgCEEIaiEIIAlBAWsiCQ0ACwsCQCANQQhPBEAgCiANaiAKKQAANwAADAELIA1FDQAgCkEIaiAKIA38CgAAC0EBIQdBACEJA0AgCSEKIAchCQJAIApB8LXJACgCACIHai0AAEGAAUcNACAHIAxqIRMgByAKQX9zQQN0aiEUQQAgCmtBA3QhFQJAA0BB9LXJACgCACILQYi2yQApAwAiAiAHIBVqIghBCGs1AgCFIgNC2KLR78Kp5b8tfiAIQQRrNQIAhSADQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEQtKBqpur+oLXp39+IgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhISFIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCACQtii0e/CqeW/LX6FIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIRBgLbJACkDACIDQn+FfiIEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEIAIgA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhH6FIAKJpyIScSIOIQggByAOaikAAEKAgYKEiJCgwIB/gyICUARAQQghEANAIAggEGohCCAQQQhqIRAgByAIIAtxIghqKQAAQoCBgoSIkKDAgH+DIgJQDQALCyAHIAJ6p0EDdiAIaiALcSIIaiwAAEEATgRAIAcpAwBCgIGChIiQoMCAf4N6p0EDdiEICyAIIA5rIAogDmtzIAtxQQhPBEAgByAIaiIOLQAAIA4gEkEZdiIOOgAAQfC1yQAoAgAgCEEIayALcWpBCGogDjoAAEH/AUYNAiAHIAhBA3RrIQhBeCEHA0AgByATaiILKAAAIQ4gCyAHIAhqIgsoAAA2AAAgCyAONgAAIAdBBGoiBw0AC0HwtckAKAIAIQcMAQsLIAcgCmogEkEZdiIHOgAAQfC1yQAoAgAgCyAKQQhrcWpBCGogBzoAAAwBC0H0tckAKAIAIQtB8LXJACgCACAKakH/AToAAEHwtckAKAIAIAsgCkEIa3FqQQhqQf8BOgAAIAcgCEF/c0EDdGogFCkAADcAAAsgDEEIayEMIAkgCSANSSIIaiEHIAgNAAtB9LXJACgCACIJIAlBAWpBA3ZBB2wgCUEISRsLQfy1yQAoAgBrNgIADAULIAhBCGoiCSAIQQN0IgpqIgcgCUkgB0H4////B0tyDQAgBxBxIgdFDQEgByAKaiEKIAkEQCAKQf8BIAn8CwALIAhBAWsiDSAIQQN2QQdsIA1BCEkbIRBB8LXJACgCACEHQfy1yQAoAgAiDg0CQQAMAwsgD0EANgIYIA9BATYCDCAPQcS1xAA2AgggD0IENwIQIA9BCGpBmLXEABCNCAsACyAKQQhqIRIgBykDAEJ/hUKAgYKEiJCgwIB/gyEFQQAhCCAHIQkDQCAFUARAA0AgCEEIaiEIIAlBCGoiCSkDAEKAgYKEiJCgwIB/gyICQoCBgoSIkKDAgH9RDQALIAJCgIGChIiQoMCAf4UhBQsgCiANQYi2yQApAwAiAiAHIAV6p0EDdiAIaiITQQN0ayIMQQhrNQIAhSIDQtii0e/CqeW/LX4gDEEEazUCAIUgA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhELSgaqbq/qC16d/fiICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEhSICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEQtKBqpur+oLXp39+IgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIQgAkLYotHvwqnlvy1+hSICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEQYC2yQApAwAiA0J/hX4iBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhCACIANCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIR+hSACiaciFHEiDGopAABCgIGChIiQoMCAf4MiAlAEQEEIIQsDQCALIAxqIQwgC0EIaiELIAogDCANcSIMaikAAEKAgYKEiJCgwIB/gyICUA0ACwsgBUIBfSAFgyEFIAogAnqnQQN2IAxqIA1xIgxqLAAAQQBOBEAgCikDAEKAgYKEiJCgwIB/g3qnQQN2IQwLIAogDGogFEEZdiILOgAAIBIgDEEIayANcWogCzoAACAKIAxBf3NBA3RqIAcgE0F/c0EDdGopAAA3AwAgDkEBayIODQALQfC1yQAoAgAhB0H8tckAKAIACyEIQfC1yQAgCjYCAEH0tckAKAIAIQlB9LXJACANNgIAQfi1yQAgECAIazYCACAJRQ0AIAkgCUEDdEEPakF4cSIIakEJaiIJRQ0AIAcgCGsiB0EEaygCACIIQXhxIgpBBEEIIAhBA3EiCBsgCWpJDQEgCEEAIAogCUEnaksbDQIgBxCiAgsgD0EgaiQADAMLQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAPQQA2AhggD0EBNgIMIA9BxLXEADYCCCAPQgQ3AhAgD0EIakGYtcQAEI0IAAsLQfS1yQAoAgAiCCAGp3EhCSAGQhmIIgRC/wCDQoGChIiQoMCAAX4hBUHwtckAKAIAIQcDQAJ/AkACQCAHIAlqKQAAIgMgBYUiAkJ/hSACQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIgJQRQRAA0AgByACeqdBA3YgCWogCHFBA3RrIgxBCGsoAgAgAEYEQEEBIQogASAMQQRrKAIARg0DCyACQgF9IAKDIgJQRQ0ACwsgA0KAgYKEiJCgwIB/gyECIBZFBEAgAlANAiACeqdBA3YgCWogCHEhEQtBASACIANCAYaDUA0CGkEAIQogByARaiwAACIJQQBOBEAgByAHKQMAQoCBgoSIkKDAgH+DeqdBA3YiEWotAAAhCQsgByARaiAEp0H/AHEiDDoAACAHIBFBCGsgCHFqQQhqIAw6AABB+LXJAEH4tckAKAIAIAlBAXFrNgIAQfy1yQBB/LXJACgCAEEBajYCACAHIBFBA3RrIglBCGsgADYCACAJQQRrIAE2AgALIAoPC0EACyEWIBdBCGoiFyAJaiAIcSEJDAALAAuECQMZfwR9AXsjAEEQayIOJAACQAJAAkACQAJAIAIEQCAAKAIIIhEgAWsiBUEAIAUgEU0bIRZDAACAPyAAKgJAIAAtAFhBAkYiBRtDAAAAACAAKgI8IAUbIh+TISAgAkEMbCEXIABBPGohGCAAKAIEIAFBGGxqIQYgAygCICEPIAMoAiQhEiADKAIYIRkgAygCHCETIAMoAhAhGiADKAIUIRQgAygCCCEbIAMoAgwhECADKAIAIRwgAygCBCEVA0ACQAJAAkACQCANIBZHBEAgB0EDaiIFIBVLDQEgBiAMIBxqIgRBCGogBP1dAgD9VgIAAiIh/VoCCAIgBiAh/VsCAAAgDSAQRg0DIAsgG2ooAgAiCkH///8DcSEIIApBgICAgHhxIQQgCkGAgID8B3EiCUGAgID8B0YEQCAIQQ12IARBEHZyQYAEQQAgCBtyQYD4AXIhBAwFCyAEQRB2IQQgCUGAgIC4BEsNAiAJQYCAgMQDTwRAIApBDHYgCkH/3wBxQQBHcSAJQQ12IAhBDXZqQYCAAWogBHJqIQQMBQsgCUGAgICYA0kNBCAIQYCAgARyIgpB/gAgCUEXdiIIa3YhCSAKQR0gCGsiCHZBAXEEfyAJQQMgCHRBAWsgCnFBAEdqBSAJCyAEciEEDAQLIAEgDWogEUHsu8cAEIwHAAsgByAFIBVBpMXHABDqBwALIARBgPgBciEEDAELIBAgEEHkxMcAEIwHAAsgBkEMaiAEOwEAIAUgFEsNBEMAAH9DQwAAAAAgDCAaaiIEQQRqKgIAIB+TICCVQwAAf0OUIh0gHUMAAAAAXRsiHSAdQwAAf0NeGxC5ByEdIAZBDmpB/wFDAAB/Q0MAAAAAIARBCGoqAgAgH5MgIJVDAAB/Q5QiHiAeQwAAAABdGyIeIB5DAAB/Q14bELkHIh78AUEAIB5DAAAAAGAbIB5DAAB/Q14bQRB0Qf8BIB38AUEAIB1DAAAAAGAbIB1DAAB/Q14bQQh0ckH/AUMAAH9DQwAAAAAgBCoCACAfkyAglUMAAH9DlCIdIB1DAAAAAF0bIh0gHUMAAH9DXhsQuQciHfwBQQAgHUMAAAAAYBsgHUMAAH9DXhtyIgQ7AQAgBkEQaiAEQRB2OgAAIAUgE0sNBSAGIBggDCAZaiIH/V0CACAHQQhqKgIAIh39IAIgHf0gAxDfBCALQQNqIBJPDQIgDiAP/QACAP0LBAAgBkEWaiAOEJ0EIgdBEHY6AAAgBkEUaiAHOwEAIA1BAWohDSAPQRBqIQ8gBkEYaiEGIAtBBGohCyAFIQcgFyAMQQxqIgxHDQALCyAAIAEgAiADKAIoIAMoAiwgAygCMCADKAI0IAMoAjggAygCPBDqBCADKAJEIgVFDQQgAygCTCIHDQEMBAsgCyALQQRqIBJBhMXHABDqBwALIAAoAhAiBiAAKAIUIgAgASACIAMoAkggBxCNAyAGIAAgASACIAMoAkAgBRCzAwwCCyAHIAUgFEGUxccAEOoHAAsgByAFIBNB9MTHABDqBwALIA5BEGokAAvXBwIHfwN9IAEoAggiAkEDdCEGIAEoAgQhBCABKAIAIQcgACgCCCIDIQEgACgCACADayACSQRAIAAgAyACQQRBCBCkBSAAKAIIIQELIAAoAgQhBSAGBEAgBSABQQN0aiAEIAb8CgAACyAAIAEgAmoiAjYCCAJAAkACQAJAIAcEQCAEQQRrKAIAIgBBeHEiASAHQQN0IgZBBEEIIABBA3EiABtqSQ0BIABBACABIAZBJ2pLGw0CIAQQogILIAIgA0YNAwJAAkAgAiADayIAIANNBEAgAkEBdCEBIAJBgBBLDQEgASAAQR8gA2drbE8NAgsgAkECSQ0FDAQLIAEgAEELbEkNAwsgAiADTQ0DA0AgBSADQQN0aiIAKAIEIQQgACoCACEKAkAgA0UEQEEAIQEMAQsgAyEAIAogClwEQANAAkAgBSAAQQFrIgdBAXYiAUEDdGoiBioCACIJIAlbIAkgCmBFcQ0AIAQgBkEEaigCAEsNACAAIQEMAwsgBSAAQQN0aiAGKQIANwIAIAEhACAHQQJPDQAMAgsACwNAIAUgAEEBayIHQQF2IgFBA3RqIgYqAgAiCSAJWyAJIApgRXFBfyAJIApfGyIIQQBMIAQgBkEEaigCAE0gCBsEQCAAIQEMAgsgBSAAQQN0aiAGKQIANwIAIAEhACAHQQFLDQALCyAFIAFBA3RqIgAgBDYCBCAAIAo4AgAgA0EBaiIDIAJHDQALDAMLQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyACQQJrIQYgAkEBdiEDA0AgA0EBayIDQQF0IgRBAXIhACAFIANBA3RqIgEoAgQhByABKgIAIQogAyEBAkACQCAEIAZPDQADQAJAIAogBSAAIARBA3QgBWoiAkEQaioCACIJIAlbIAkgBSAAQQN0aiIEKgIAIgtgRXEiCCAIQX8gCSALXxsgCyALXBsiCEEATCAEQQRqKAIAIAJBFGooAgBNIAgbaiICQQN0aiIAKgIAIglgRSAKIApbcUUEQCAJIApgRSAJIAlbcSAHIABBBGooAgBPcg0BCyAFIAFBA3RqIAApAgA3AgAgAkEBdCIEQQFyIQAgAiEBIAQgBkkNAQwCCwsgASEADAELIAQgBkcEQCABIQAMAQsCQCAKIApcIAogBSAAQQN0aiICKgIAIglgciIEIAkgCVwgCSAKYHJxRQRAIARFDQEgASEADAILIAcgAkEEaigCAEkNACABIQAMAQsgBSABQQN0aiACKQIANwIACyAFIABBA3RqIgAgBzYCBCAAIAo4AgAgAw0ACwsL4wgDB38EfQF7IwBBsAFrIgUkAAJ/AkAgASgCCCIHIAJLBEAgBUGAAWogASgCBCACQSRsaiIHEJoDIAX9AASAASIQ/R8AIgwgEP0fASINlEOPws0/ELcKIQ4gDCAQ/R8CIgyUQ4/CzT8QtwohDyANIAyUQ4/CzT8QtwogDiAPkpJDAABAQJVD5kAfPxC3CkPbD0lBlCEMIAcvARQiBkH//wFxRQRAIAZBEHQMAwsgBkH/B3EhByAGQYCAAnEhCCAGQYD4AXEiBkGA+AFGBEAgCEEQdCEGIAZBgICA/AdyIAdFDQMaIAYgB0ENdHJBgICA/gdyDAMLIAhBEHQhCCAGRQ0BIAZBDXRBgICA/ABxIAdBDXRyQYCAgMADaiAIcgwCCyACIAdB1MDHABCMBwALIAhBgICA2ANyIAdnQRBrIgZBF3RrIAcgBkH//wNxQQhqdEH///8DcXILIQggBUEIaiABKAIQIgkgASgCFCIKIAIQ6AIgDCAIvpQhDQJAAn8CQAJAIAUoAiwiBkEJTwRAIAUoAgwiB0UNASAFQQA2AjAgBUEANgJUIAUoAhAMAwsgBg0BCyAAQQE2AiggACACNgIIIABBADYCBCAAIA04AgAMAgsgBUEANgIwIAVBADYCVCAGIQcgBUEMagshCCAHQQJ0IQsgBUGEAWohB0MAAID/IQwDQCAFQYABaiABIAgoAgAgAyAEEJUCIAVB4ABqIAdBCGr9AAIA/QsDACAFQfAAaiAHQRhq/QACAP0LAwAgBSAHKQIANwNYIAhBBGohCCAFKgKAASEOIAVBMGogBUHYAGoQ/wEgDCAOEOAIIQwgC0EEayILDQALIAMoAgghAQJAAkACQAJAAkAgBCAMlCANXwRAIAEgAk0NASADKAIEIAJqQQE6AAALIAEgAk0NASADKAIEIAJqLQAARQRAIAkgCiACQQRBABDkBSAAIAw4AgAgAEEkaiAFQdAAaikCADcCACAAQRRqIAVBQGv9AAIA/QsCACAAIAX9AAIw/QsCBAwGCyAJIAogAiAFKAJUIghBCUkEfyAFQTRqBSAFKAI0IghBgIAETw0DIAUoAjgLIAgQ5AUgAEEBNgIoIAAgAjYCCCAAQQA2AgQgACANOAIAIAUoAlQiAEEJSQ0FIAUoAjgiAUEEaygCACICQXhxIgMgAEECdCIAQQRBCCACQQNxIgIbakkNAyACQQAgAyAAQSdqSxsNBCABEKICDAULIAIgAUHs6sEAEIwHAAsgAiABQfzqwQAQjAcAC0GM68EAQS1BvOvBABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACwJAAkAgBkEJTwRAIAUoAhAiAEEEaygCACIBQXhxIgIgBkECdCIDQQRBCCABQQNxIgEbakkNASABQQAgAiADQSdqSxsNAiAAEKICCyAFQbABaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL9wgCAn0DfwJAAkACQAJAAkACQAJAAkACQAJAIAAoAlxFIAJFckUEQEMAAP5CQwAA/kIgACoCTJUgAC0AWEECRhshBiAAKAIcIAFBCWxqIQkgACgCICEIQQAhAANAIAEgCE8NCiAAIARPDQsgACAJaiIHQf8AQwAA/kJDAAD+wiAGIAMqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQFqIARPDQkgB0EBakH/AEMAAP5CQwAA/sIgBiADQQRqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEECaiAETw0IIAdBAmpB/wBDAAD+QkMAAP7CIAYgA0EIaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBA2ogBE8NByAHQQNqQf8AQwAA/kJDAAD+wiAGIANBDGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQRqIARPDQYgB0EEakH/AEMAAP5CQwAA/sIgBiADQRBqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEFaiAETw0FIAdBBWpB/wBDAAD+QkMAAP7CIAYgA0EUaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBBmogBE8NBCAHQQZqQf8AQwAA/kJDAAD+wiAGIANBGGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQdqIARPDQMgB0EHakH/AEMAAP5CQwAA/sIgBiADQRxqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEIaiAETw0CIAdBCGpB/wBDAAD+QkMAAP7CIAYgA0EgaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIANBJGohAyAAQQlqIQAgAUEBaiEBIAJBAWsiAg0ACwsPCyAAQQhqIQAMCAsgAEEHaiEADAcLIABBBmohAAwGCyAAQQVqIQAMBQsgAEEEaiEADAQLIABBA2ohAAwDCyAAQQJqIQAMAgsgAEEBaiEADAELIAAgBE8NACABIAhBhMTHABCMBwALIAAgBEH0w8cAEIwHAAuOCQISfwl7IwBBIGsiBiQAAkACQCACQf//A3EiCUEBIAN0akEBayADdiICQf//A00EQCAJRQ0BIAEgASAJQQJ0IgdwayIBIAdPBEAgA0EfcSIOQR1LDQMgByAOQQJqdkEEIA50IghBAWsgB3FBAEdqIREgAkECdCEVIAEgB2shDwNAAkACQCAVIBAgDnZsIgIgBU0EQCAFIAJrQQJ2IgEgESABIBFJGyIWRQ0CIAIgBGohF0EAIQsgACEJIAchDAwBCyACIAUgBUHI2MQAEOoHAAsDQCAIIAcgCCALbCICayIBIAEgCEsbIgEEQCAAIAJqIQIgFyALQQJ0aiIDLAAAIRIgAywAASETIAMsAAIhFCABQYGAgIB8bEEEayIDQSBPBEBBfCAIIAwgCCAMSRtB/////wNsa0ECdiADQQJ2QQFqIgpBB3EiA0EIIAMbIgNrQQFqIQ0gAiAKIANrQQJ0IgNqIQIgASADayEBIBL9ESEcIBP9ESEdIBT9ESEeIAkhAwNAIANBDGogHiAD/QAAACIfIBj9DQEFCQ0AAAAAAAAAAAAAAAD9hwH9pwEiGv21AUEF/a0BIB8gGP0NAAQIDAAAAAAAAAAAAAAAAP2JAf2pAf2uASIZ/RsDOgAAIANBCGogGf0bAjoAACADQQRqIBn9GwE6AAAgAyAZ/RsAOgAAIANBHGogHiADQRBqIgr9AAAAIiAgGf0NAQUJDQAAAAAAAAAAAAAAAP2HAf2nASIY/bUBQQX9rQEgICAZ/Q0ABAgMAAAAAAAAAAAAAAAA/YkB/akB/a4BIhv9GwM6AAAgA0EYaiAb/RsCOgAAIANBFGogG/0bAToAACAKIBv9GwA6AAAgA0EOaiAdIBr9tQFBBf2tASAfIBn9DQIAAAAGAAAACgAAAA4AAAD9rgEgGUEY/asBQRj9rAEgHP21AUEF/a0B/a4BIhr9GwM6AAAgA0EKaiAa/RsCOgAAIANBBmogGv0bAToAACADQQJqIBr9GwA6AAAgA0EeaiAdIBj9tQFBBf2tASAgIBr9DQIAAAAGAAAACgAAAA4AAAD9rgEgG0EY/asBQRj9rAEgHP21AUEF/a0B/a4BIhj9GwM6AAAgA0EaaiAY/RsCOgAAIANBFmogGP0bAToAACADQRJqIBj9GwA6AAAgA0EgaiEDIA1BCGsiDQ0ACwsDQCACIAItAAAgAkEBaiwAACINIBRsQQV2aiIKOgAAIAJBAmoiAyADLQAAIA0gE2xBBXZqIArAIBJsQQV2ajoAACACQQRqIQIgAUEEayIBDQALCyAIIAlqIQkgDCAIayEMIAtBAWoiCyAWRw0ACwsgEEEBaiEQIAAgB2ohACAPQQAgByAHIA9LIgEbayEPIAFFDQALCyAGQSBqJAAPC0HY5sgAQSsgBkEfakHY2MQAQaj7xgAQ4AYACyAGQQA2AhQgBkEBNgIIIAZBvKHHADYCBCAGQgQ3AgwgBkEEakGo2MQAEI0IAAsgBkEANgIUIAZBATYCCCAGQbyhxwA2AgQgBkIENwIMIAZBBGpBuNjEABCNCAAL/gcCE38BfgJAAkACQAJAIAEoAgBBAUYEQCABKAIcIgUgASgCNCIERwRAIAEoAjAhCyAEIQMgBSABKAI8IghBAWsiEGoiAiAETw0CIAEoAjghDSAFIAtqIREgBSAIaiEGIAEoAhgiAyAFaiEOIAggA2shEiAFIAEoAhAiDGtBAWohEyABKQMIIRUgASgCJCIPQX9GIQkgDyEHIAUhAwNAIAMgBUcNAwJAAkAgFSACIAtqMQAAiKdBAXFFBEAgASAGNgIcIAYhAyAJDQJBACECDAELIAwgByAMIAcgDEsbIAkbIgogCCAIIApJGyEUIAohAwJAAkACQANAIAMiAiAURgRAQQAgByAJGyEKIAwhAgNAIAIgCk0EQCABIAY2AhwgD0F/RwRAIAFBADYCJAsgACAGNgIIIAAgBTYCBCAAQQA2AgAPCyACQQFrIgIgCE8NBSACIAVqIgMgBE8NAyACIA1qLQAAIAMgC2otAABGDQALIAEgDjYCHCASIQIgDiEDIAlFDQUMBgsgAiAFaiAETw0CIAJBAWohAyACIA1qLQAAIAIgEWotAABGDQALIAIgE2ohAyAJDQRBACECDAMLIAMgBEH4nscAEIwHAAsgBCAFIApqIgAgACAESRsgBEGIn8cAEIwHAAsgAiAIQeiexwAQjAcACyABIAI2AiQgAiEHCyADIBBqIgIgBEkNAAsgBCEDDAMLIABBAjYCAA8LAkAgAS0ADkUEQCABIAEtAAwiBUEBczoADCABKAI0IQIgASgCMCEEIAEoAgQiA0UNAQJAIAIgA00EQCACIANHDQEMAwsgAyAEaiwAAEG/f0oNAgsgBCACIAMgAkHUuMcAELsJAAsgAEECNgIADwsCQAJAIAIgA0cEQAJ/IAMgBGoiBCwAACICQQBOBEAgAkH/AXEMAQsgBC0AAUE/cSEGIAJBH3EhByAHQQZ0IAZyIAJBX00NABogBC0AAkE/cSAGQQZ0ciEGIAYgB0EMdHIgAkFwSQ0AGiAHQRJ0QYCA8ABxIAQtAANBP3EgBkEGdHJyCyEEQQEhAiAFQQFxRQ0BDAILIAVBAXENASAAQQI2AgAgAUEBOgAODwsCQCAEQYABSQ0AQQIhAiAEQYAQSQ0AQQNBBCAEQYCABEkbIQILIAAgAzYCBCAAQQE2AgAgACACIANqIgA2AgggASAANgIEDwsgACADNgIIIAAgAzYCBCAAQQA2AgAPCyADRQ0BCyADIQIDQAJAIAIgBE8EQCACIARGDQQMAQsgAiALaiwAAEG/f0wNACACIQQMAwsgAkEBaiICDQALC0EAIQQLIAAgBDYCCCAAIAU2AgQgAEEBNgIAIAEgAyAEIAMgBEsbNgIcC7QKAgN8A38jAEEQayIFJAAgALshAQJAIAC8IgZB/////wdxIgRB25+k+gNPBEAgBEHSp+2DBE8EQCAEQdbjiIcETwRAAkACQAJAAkAgBEH////7B00EQCAFQgA3AwgCQCAEQdqfpO4ETQRAIAEgAUSDyMltMF/kP6JEAAAAAAAAOEOgRAAAAAAAADjDoCICRAAAAFD7Ifm/oqAgAkRjYhphtBBRvqKgIQEgAvwCIQQMAQsgBSAEIARBF3ZBlgFrIgRBF3Rrvrs5AwAgBSAFQQhqIAQQdCEEIAZBAE4EQCAFKwMIIQEMAQtBACAEayEEIAUrAwiaIQELIARBA3FBAWsOAwMEAQILIAAgAJMhAAwHCyABIAGiIgFEgV4M/f//37+iRAAAAAAAAPA/oCABIAGiIgJEQjoF4VNVpT+ioCABIAKiIAFEaVDu4EKT+T6iRCceD+iHwFa/oKKgtowhAAwGCyABIAEgAaIiAqIiAyACIAKioiACRKdGO4yHzcY+okR058ri+QAqv6CiIAEgAyACRLL7bokQEYE/okR3rMtUVVXFv6CioKC2IQAMBQsgASABoiIBRIFeDP3//9+/okQAAAAAAADwP6AgASABoiICREI6BeFTVaU/oqAgASACoiABRGlQ7uBCk/k+okQnHg/oh8BWv6CioLYhAAwECyABIAGiIgIgAZqiIgMgAiACoqIgAkSnRjuMh83GPqJEdOfK4vkAKr+goiADIAJEsvtuiRARgT+iRHesy1RVVcW/oKIgAaGgtiEADAMLIARB4Nu/hQRPBEBEGC1EVPshGcBEGC1EVPshGUAgBkEAThsgAaAiAiACIAKiIgGiIgMgASABoqIgAUSnRjuMh83GPqJEdOfK4vkAKr+goiACIAMgAUSy+26JEBGBP6JEd6zLVFVVxb+goqCgtiEADAMLIAZBAE4EQCABRNIhM3982RLAoCIBIAGiIgFEgV4M/f//37+iRAAAAAAAAPA/oCABIAGiIgJEQjoF4VNVpT+ioCABIAKiIAFEaVDu4EKT+T6iRCceD+iHwFa/oKKgtowhAAwDCyABRNIhM3982RJAoCIBIAGiIgFEgV4M/f//37+iRAAAAAAAAPA/oCABIAGiIgJEQjoF4VNVpT+ioCABIAKiIAFEaVDu4EKT+T6iRCceD+iHwFa/oKKgtiEADAILIARB5JfbgARPBEBEGC1EVPshCcBEGC1EVPshCUAgBkEAThsgAaAiAiACoiIBIAKaoiIDIAEgAaKiIAFEp0Y7jIfNxj6iRHTnyuL5ACq/oKIgAyABRLL7bokQEYE/okR3rMtUVVXFv6CiIAKhoLYhAAwCCyAGQQBOBEAgAUQYLURU+yH5v6AiASABoiIBRIFeDP3//9+/okQAAAAAAADwP6AgASABoiICREI6BeFTVaU/oqAgASACoiABRGlQ7uBCk/k+okQnHg/oh8BWv6CioLYhAAwCCyABRBgtRFT7Ifk/oCIBIAGiIgFEgV4M/f//37+iRAAAAAAAAPA/oCABIAGiIgJEQjoF4VNVpT+ioCABIAKiIAFEaVDu4EKT+T6iRCceD+iHwFa/oKKgtowhAAwBCyAEQYCAgMwDTwRAIAEgAaIiAiABoiIDIAIgAqKiIAJEp0Y7jIfNxj6iRHTnyuL5ACq/oKIgAyACRLL7bokQEYE/okR3rMtUVVXFv6CiIAGgoLYhAAwBCyAFIABDAACAA5QgAEMAAIB7kiAEQYCAgARJGzgCCCAFKgIIGgsgBUEQaiQAIAALxgcBDn4gACAANQIgIgIgADUCACIEfCIFIAA0AhAiAUL7nAF+QhCHIAF8IAA0AjAiA0KMlQJ+QhCHfCIGfT4CMCAAIAFCjJUCfkIQhyADIANC+5wBfkIQh3x9IgEgBCACfSIDfD4CECAAIAUgBnw+AgAgACADIAF9PgIgIAAgADQCFCIBQoyVAn5CEIcgADQCNCIDQvucAX5CEIcgA3x9IgIgADUCBCIEIAA1AiQiBX0iBnw+AhQgACAGIAJ9PgIkIAAgBCAFfCICIAEgAUL7nAF+QhCHfCADQoyVAn5CEId8IgR9PgI0IAAgADUCKCIFIAA1AggiBnwiByAANAIYIgFC+5wBfkIQhyABfCAANAI4IgNCjJUCfkIQh3wiCH0+AjggACAGIAV9IgUgAUKMlQJ+QhCHIAMgA0L7nAF+QhCHfH0iBn0iCj4CKCAAIAA1AiwiCyAANQIMIgx8IgkgADQCHCIBQvucAX5CEIcgAXwgADQCPCIDQoyVAn5CEId8Ig19PgI8IAAgByAIfMQiByAANAIAIgh8QgR8Ig4gAiAEfMQiAkL7nAF+QhCHIAJ8IAkgDXzEIgRCjJUCfkIQh3wiCX1CA4g+AgwgACAJIA58QgOIPgIAIAAgCCAHfUIEfCIHIAJCjJUCfkIQhyAEQvucAX5CEIcgBHx9IgJ9QgOIPgIIIAAgAiAHfEIDiD4CBCAAIAUgBnzEIgQgADQCECIFfEIEfCIGIAA0AhQiAkL7nAF+QhCHIAJ8IAFCjJUCfkIQhyADIANC+5wBfkIQh3x9IgMgDCALfSIHfMQiAUKMlQJ+QhCHfCIIfUIDiD4CHCAAIAYgCHxCA4g+AhAgACAFIAR9QgR8IgQgAkKMlQJ+QhCHIAFC+5wBfkIQhyABfH0iAX1CA4g+AhggACABIAR8QgOIPgIUIAAgCsQiAiAANAIgIgR8QgR8IgUgADQCJCIBQvucAX5CEIcgAXwgByADfcQiA0KMlQJ+QhCHfCIGfUIDiD4CLCAAIAUgBnxCA4g+AiAgACAEIAJ9QgR8IgIgAUKMlQJ+QhCHIANC+5wBfkIQhyADfH0iAX1CA4g+AiggACABIAJ8QgOIPgIkIAAgADQCOCICIAA0AjAiBHxCBHwiBSAANAI0IgFC+5wBfkIQhyABfCAANAI8IgNCjJUCfkIQh3wiBn1CA4g+AjwgACAFIAZ8QgOIPgIwIAAgBCACfUIEfCICIAFCjJUCfkIQhyADIANC+5wBfkIQh3x9IgF9QgOIPgI4IAAgASACfEIDiD4CNAuMCgIDfAN/IwBBEGsiBSQAIAC7IQECfQJAAkAgALwiBkH/////B3EiBEHbn6T6A08EQCAEQdKn7YMETwRAIARB1uOIhwRPBEACQAJAAkACQCAEQf////sHTQRAIAVCADcDCAJAIARB2p+k7gRNBEAgASABRIPIyW0wX+Q/okQAAAAAAAA4Q6BEAAAAAAAAOMOgIgJEAAAAUPsh+b+ioCACRGNiGmG0EFG+oqAhASAC/AIhBAwBCyAFIAQgBEEXdkGWAWsiBEEXdGu+uzkDACAFIAVBCGogBBB0IQQgBkEATgRAIAUrAwghAQwBC0EAIARrIQQgBSsDCJohAQsgBEEDcUEBaw4DAwQBAgsgACAAkwwJCyABIAEgAaIiAqIiAyACIAKioiACRKdGO4yHzcY+okR058ri+QAqv6CiIAEgAyACRLL7bokQEYE/okR3rMtUVVXFv6CioKC2DAgLIAEgAaIiAUSBXgz9///fv6JEAAAAAAAA8D+gIAEgAaIiAkRCOgXhU1WlP6KgIAEgAqIgAURpUO7gQpP5PqJEJx4P6IfAVr+goqC2DAcLIAEgAaIiAiABmqIiAyACIAKioiACRKdGO4yHzcY+okR058ri+QAqv6CiIAMgAkSy+26JEBGBP6JEd6zLVFVVxb+goiABoaC2DAYLIAEgAaIiAUSBXgz9///fv6JEAAAAAAAA8D+gIAEgAaIiAkRCOgXhU1WlP6KgIAEgAqIgAURpUO7gQpP5PqJEJx4P6IfAVr+goqC2jAwFCyAEQd/bv4UESw0CIAZBAE4EQCABRNIhM3982RLAoCICIAIgAqIiAaIiAyABIAGioiABRKdGO4yHzcY+okR058ri+QAqv6CiIAIgAyABRLL7bokQEYE/okR3rMtUVVXFv6CioKC2DAULRNIhM3982RLAIAGhIgIgAiACoiIBoiIDIAEgAaKiIAFEp0Y7jIfNxj6iRHTnyuL5ACq/oKIgAiADIAFEsvtuiRARgT+iRHesy1RVVcW/oKKgoLYMBAsgBEHjl9uABEsNAiAGQQBOBEBEGC1EVPsh+T8gAaEiAiACIAKiIgGiIgMgASABoqIgAUSnRjuMh83GPqJEdOfK4vkAKr+goiACIAMgAUSy+26JEBGBP6JEd6zLVFVVxb+goqCgtgwECyABRBgtRFT7Ifk/oCICIAIgAqIiAaIiAyABIAGioiABRKdGO4yHzcY+okR058ri+QAqv6CiIAIgAyABRLL7bokQEYE/okR3rMtUVVXFv6CioKC2DAMLIARBgICAzANPBEAgASABoiIBRIFeDP3//9+/okQAAAAAAADwP6AgASABoiICREI6BeFTVaU/oqAgASACoiABRGlQ7uBCk/k+okQnHg/oh8BWv6CioLYMAwsgBSAAQwAAgHuSOAIIIAUqAggaQwAAgD8MAgtEGC1EVPshGcBEGC1EVPshGUAgBkEAThsgAaAiASABoiIBRIFeDP3//9+/okQAAAAAAADwP6AgASABoiICREI6BeFTVaU/oqAgASACoiABRGlQ7uBCk/k+okQnHg/oh8BWv6CioLYMAQtEGC1EVPshCcBEGC1EVPshCUAgBkEAThsgAaAiASABoiIBRIFeDP3//9+/okQAAAAAAADwP6AgASABoiICREI6BeFTVaU/oqAgASACoiABRGlQ7uBCk/k+okQnHg/oh8BWv6CioLaMCyAFQRBqJAALgQgDBX8DewZ9IAAvAQYhAwJ/IAAvAQQiAkH//wFxRQRAIAJBEHQMAQsgAkH/B3EhBiACQYCAAnEhBCACQYD4AXEiAkGA+AFGBEAgBEEQdCECIAJBgICA/AdyIAZFDQEaIAIgBkENdHJBgICA/gdyDAELIARBEHQhBCACQQ10QYCAgPwAcSAGQQ10ckGAgIDAA2ogBHIgAg0AGiAGIAZnQRBrIgZB//8DcUEIanRB////A3EgBEGAgIDYA3IgBkEXdGtyCyEGIAAvAQghAgJ/IANB//8BcQRAIANB/wdxIQQgA0GAgAJxIQUgA0GA+AFxIgNBgPgBRwRAIAVBEHQhBSADQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogBXIgAw0CGiAEIARnQRBrIgNB//8DcUEIanRB////A3EgBUGAgIDYA3IgA0EXdGtyDAILIAVBEHQhAyADIARBDXRyQYCAgP4HciAEDQEaIANBgICA/AdyDAELIANBEHQLIQMgAf0ABAAhByABKgJEIQsgASoCQCEOIAEqAjwhDCABKgI4IQ0gAf0ABBAhCSABKgI0QwAAgD8CfyACQf//AXEEQCACQf8HcSEEIAJBgIACcSEFIAJBgPgBcSICQYD4AUcEQCAFQRB0IQUgAkENdEGAgID8AHEgBEENdHJBgICAwANqIAVyIAINAhogBCAEZ0EQayICQf//A3FBCGp0Qf///wNxIAVBgICA2ANyIAJBF3RrcgwCCyAFQRB0IQIgAiAEQQ10ckGAgID+B3IgBA0BGiACQYCAgPwHcgwBCyACQRB0C/0RIAb9HAAgA/0cASAH/eUBIgcgB/3mASIIIAf9DQgJCgsAAQIDAAECAwABAgMgCCAIIAf9DQQFBgcAAQIDAAECAwABAgP95AH95AH94wH9HwBDvTeGNRDgCJUiDwJ/IAAvAQoiAUH//wFxRQRAIAFBEHQMAQsgAUH/B3EhACABQYCAAnEhAyABQYD4AXEiAUGA+AFGBEAgA0EQdCEBIAFBgICA/AdyIABFDQEaIAEgAEENdHJBgICA/gdyDAELIANBEHQhAyABQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2ogA3IgAQ0AGiAAIABnQRBrIgBB//8DcUEIanRB////A3EgA0GAgIDYA3IgAEEXdGtyC76UlAJ9IA0gCSAH/eYBIgcgB/0NCAkKCwABAgMAAQIDAAECAyAHIAcgB/0NBAUGBwABAgMAAQIDAAECA/3kAf3kAf0fACIKQwAAAABfDQAaQwAAgD8gCiAPlCIKIA5gDQAaIA0gDCANkyAKIAuVlJIgCiALYEUNABogDEMAAIA/IAyTIAogC5MgDiALk5WUkguUC6UIAQl/IwBBIGsiByQAIARBfHEiBiADaiEFAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCACIANJIgkgAiADayADIAJrIgggAiADSxtBAUZxRQRAIAFBA2siBkEAIAEgBk8bIgYgBSAFIAZLGyEKIAlBACAIQQNLGw0BIAMgCkkNAiADIQUMDgsgA0EBayICIAFPDQMgASAFSSADIAVLcg0EIAYEQCAAIANqIAAgAmotAAAgBvwLAAsgBUEBayECDA0LIAMgCkkNASADIQUMDAsgACADaiELIAAgAmohDEEAIQYDQCADIAZqQQNqIAFPDQQgAiAGaiIFQQNqIAFPDQUgASAFTQ0GIAYgC2oiCCAGIAxqIgktAAA6AAAgBUEBaiINIAFPDQcgCEEBaiAJQQFqLQAAOgAAIAEgBUECaiIFSwRAIAhBAmogCUECai0AADoAACAIQQNqIAlBA2otAAA6AAAgAyAGQQRqIgZqIgUgCk8NDAwBCwsgBSABQfyIxQAQjAcACyABQQRrIQYgAyEFA0AgAkEDaiIDIAFPDQcgAkF8Tw0IIAUgBksNCSAAIAVqIAAgAmooAAA2AAAgAkEEaiECIAogBUEEaiIFSw0ACwwKCyACIAFBpIfFABCMBwALIAMgBSABQbSHxQAQ6gcAC0HEh8UAQS9B9IfFABDrBwALQYSIxQBByABBzIjFABDrBwALIAUgAUHciMUAEIwHAAsgDSABQeyIxQAQjAcAC0EAIAMgAUG8jMUAEOoHAAsgAiACQQRqIAFBvIzFABDqBwALIAdBADYCGCAHQQE2AgwgB0HUnMgANgIIIAdCBDcCECAHQQhqQbyMxQAQjQgACyACIAZqIQILAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIARBA3FBAWsOAwABAg4LIAEgAksNCiACIAFBjInFABCMBwALIAVBAWoiBiABTw0BIAJBAWoiAyABTw0CIAEgAk0NAyABIAVLDQogBSABQdSKxQAQjAcACyAFQQJqIgYgAU8NAyACQQJqIgMgAU8NBCABIAJNDQUgASAFTQ0GIAAgBWogACACai0AADoAACACQQFqIgIgAU8NByAFQQFqIgUgAUkNCSAFIAFBrIzFABCMBwALQayJxQBBL0HcicUAEOsHAAtB7InFAEHIAEG0isUAEOsHAAsgAiABQcSKxQAQjAcAC0HkisUAQS9BlIvFABDrBwALQaSLxQBByABB7IvFABDrBwALIAIgAUH8i8UAEIwHAAsgBSABQYyMxQAQjAcACyACIAFBnIzFABCMBwALIAEgBUsEQCACIQMgBSEGDAILIAUgAUGcicUAEIwHAAsgACAFaiAAIAJqLQAAOgAACyAAIAZqIAAgA2otAAA6AAALIAdBIGokAAvPBwIJfwJ9IAAgASACEOkEAkACQCACBEAgACgChAFBCGohASAAKAKIASEMQQEhCgNAAkACQCAMIAtBA2pLBEAgCkEBayIGIgUgBE8EQCAGIQoMBwsgBCAFayIFQQAgBCAFTxsiBUEBRg0GIAVBAkYNBSADKgIAEMYFvCIHQf///wNxIQggB0GAgICAeHEhBSABQQRrIgkvAQAhDSADQQRqKgIAIQ4gB0GAgID8B3EiBkGAgID8B0YEQCAFQRB2IAhBDXZyQYAEQQAgCBtyQYD4AXIhBQwDCyAFQRB2IQUgBkGAgIC4BEsNASAGQYCAgMQDTwRAIAdBDHYgB0H/3wBxQQBHcSAGQQ12IAhBDXZqQYCAAWogBXJqIQUMAwsgBkGAgICYA0kNAiAIQYCAgARyIgdB/gAgBkEXdiIIa3YhBiAHQR0gCGsiCHZBAXEEfyAGQQMgCHRBAWsgB3FBAEdqBSAGCyAFciEFDAILIAsgC0EEaiAMQdi/wQAQ6gcACyAFQYD4AXIhBQsgA0EIaioCACAJIAVBEHQgDXI2AgAgDhDGBbwiB0H///8DcSEIIAdBgICAgHhxIQUCQCAHQYCAgPwHcSIGQYCAgPwHRgRAIAVBEHYgCEENdnJBgARBACAIG3JBgPgBciEFDAELIAVBEHYhBSAGQYCAgLgETQRAIAZBgICAxANPBEAgB0EMdiAHQf/fAHFBAEdxIAZBDXYgCEENdmpBgIABaiAFcmohBQwCCyAGQYCAgJgDSQ0BIAhBgICABHIiB0H+ACAGQRd2IghrdiEGIAdBHSAIayIIdkEBcQR/IAZBAyAIdEEBayAHcUEAR2oFIAYLIAVyIQUMAQsgBUGA+AFyIQULEMYFvCIIQf///wNxIQkgCEGAgICAeHEhBwJAIAhBgICA/AdxIgZBgICA/AdGBEAgB0EQdiAJQQ12ckGABEEAIAkbckGA+AFyIQcMAQsgB0EQdiEHIAZBgICAuARNBEAgBkGAgIDEA08EQCAIQQx2IAhB/98AcUEAR3EgBkENdiAJQQ12akGAgAFqIAdyaiEHDAILIAZBgICAmANJDQEgCUGAgIAEciIIQf4AIAZBF3YiCWt2IQYgCEEdIAlrIgl2QQFxBH8gBkEDIAl0QQFrIAhxQQBHagUgBgsgB3IhBwwBCyAHQYD4AXIhBwsgASAFQf//A3EgB0EQdHI2AgAgAUEQaiEBIAtBBGohCyAKQQNqIQogA0EMaiEDIAJBAWsiAg0ACwsgAEEBOgDAAQ8LIApBAWohCgsgCiAEQei/wQAQjAcAC6IdAwV+EX8Be0HYtckAKQMAIgMgAa2FIgRCOIYgBEKA/gODQiiGhCAEQoCA/AeDQhiGIARCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCAEQtii0e/CqeW/LX6FIgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRB0LXJACkDACIEQn+FfiIFQjiGIAVCgP4Dg0IohoQgBUKAgPwHg0IYhiAFQoCAgPgPg0IIhoSEIAVCCIhCgICA+A+DIAVCGIhCgID8B4OEIAVCKIhCgP4DgyAFQjiIhISEIAMgBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhH6FIAOJIQdByLXJACgCAEUEQAJAIwBBIGsiDiQAAkACQAJAAkACfwJAAkACQAJAQci1yQACfwJAAkACQEHMtckAKAIAQQFqIggEQEHEtckAKAIAIgkgCUEBaiIMQQN2Ig1BB2wgCUEISRsiCUEBdiAISQRAIAlBAWoiCSAIIAggCUkbIghBD0kNAiAIQf////8BTQRAQX8gCEEDdEEHbkEBa2d2IghB/v//P0sNCCAIQQFqIQoMBwsMDgtBACAMRQ0EGkHAtckAKAIAIQsgDSAMQQdxQQBHaiIIQQFNDQIgCyEKIAhB/v///wNxIg0hCQNAIAogCv0AAwAiGf1NQQf9zQH9DAEBAQEBAQEBAQEBAQEBAQH9TiAZ/Qx/f39/f39/f39/f39/f39//VD9zgH9CwMAIApBEGohCiAJQQJrIgkNAAsgCCANRg0DIA1BA3QhCiAIQQFxIQgMAgsMDAtBBCAIQQhxQQhqIAhBBEkbIQoMAwsgCiALaiEKA0AgCiAKKQMAIgNCf4VCB4hCgYKEiJCgwIABgyADQv/+/fv379+//wCEfDcDACAKQQhqIQogCEEBayIIDQALCwJAIAxBCE8EQCALIAxqIAspAAA3AAAMAQsgDEUNACALQQhqIAsgDPwKAAALQQEhCUEAIQgDQCAIIQsgCSEIAkAgC0HAtckAKAIAIglqLQAAQYABRw0AIAkgC0F/c0EFdGohD0EAIAtrQQV0IRQDQEHEtckAKAIAIg1B2LXJACkDACIDIAkgFGpBIGs1AgCFIgRCOIYgBEKA/gODQiiGhCAEQoCA/AeDQhiGIARCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCAEQtii0e/CqeW/LX6FIgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRB0LXJACkDACIEQn+FfiIFQjiGIAVCgP4Dg0IohoQgBUKAgPwHg0IYhiAFQoCAgPgPg0IIhoSEIAVCCIhCgICA+A+DIAVCGIhCgID8B4OEIAVCKIhCgP4DgyAFQjiIhISEIAMgBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhH6FIAOJpyITcSIQIQogCSAQaikAAEKAgYKEiJCgwIB/gyIDUARAQQghEQNAIAogEWohCiARQQhqIREgCSAKIA1xIgpqKQAAQoCBgoSIkKDAgH+DIgNQDQALCyAJIAN6p0EDdiAKaiANcSIKaiwAAEEATgRAIAkpAwBCgIGChIiQoMCAf4N6p0EDdiEKCyAKIBBrIAsgEGtzIA1xQQhPBEAgCSAKaiIQLQAAIBAgE0EZdiIQOgAAQcC1yQAoAgAgCkEIayANcWpBCGogEDoAACAJIApBf3NBBXRqIQlB/wFGBEBBxLXJACgCACEKQcC1yQAoAgAgC2pB/wE6AABBwLXJACgCACAKIAtBCGtxakEIakH/AToAACAJQRBqIA9BEGr9AAAA/QsAACAJIA/9AAAA/QsAAAwDCyAPIAlBIBCwA0HAtckAKAIAIQkMAQsLIAkgC2ogE0EZdiIJOgAAQcC1yQAoAgAgDSALQQhrcWpBCGogCToAAAsgCCAIIAxJIgpqIQkgCg0AC0HEtckAKAIAIgggCEEBakEDdkEHbCAIQQhJGwtBzLXJACgCAGs2AgAMBQsgCkEIaiIIIApBBXQiC2oiCSAISSAJQfj///8HS3INACAJEHEiCUUNASAJIAtqIQsgCARAIAtB/wEgCPwLAAsgCkEBayINIApBA3ZBB2wgDUEISRshEUHAtckAKAIAIQlBzLXJACgCACIQDQJBAAwDCyAOQQA2AhggDkEBNgIMIA5BxLXEADYCCCAOQgQ3AhAgDkEIakGYtcQAEI0ICwALIAtBCGohEyAJQSBrIRQgCSkDAEJ/hUKAgYKEiJCgwIB/gyEGQQAhCiAJIQgDQCAGUARAA0AgCkEIaiEKIAhBCGoiCCkDAEKAgYKEiJCgwIB/gyIDQoCBgoSIkKDAgH9RDQALIANCgIGChIiQoMCAf4UhBgsgCyANQdi1yQApAwAiAyAUIAZ6p0EDdiAKaiIVQQV0azUCAIUiBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhELSgaqbq/qC16d/fiIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEIARC2KLR78Kp5b8tfoUiA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhEHQtckAKQMAIgRCf4V+IgVCOIYgBUKA/gODQiiGhCAFQoCA/AeDQhiGIAVCgICA+A+DQgiGhIQgBUIIiEKAgID4D4MgBUIYiEKAgPwHg4QgBUIoiEKA/gODIAVCOIiEhIQgAyAEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEfoUgA4mnIhZxIgxqKQAAQoCBgoSIkKDAgH+DIgNQBEBBCCEPA0AgDCAPaiEMIA9BCGohDyALIAwgDXEiDGopAABCgIGChIiQoMCAf4MiA1ANAAsLIAZCAX0gBoMhBiALIAN6p0EDdiAMaiANcSIMaiwAAEEATgRAIAspAwBCgIGChIiQoMCAf4N6p0EDdiEMCyALIAxqIBZBGXYiDzoAACATIAxBCGsgDXFqIA86AAAgCyAMQX9zQQV0aiIMQRBqIAkgFUF/c0EFdGoiD0EQav0AAAD9CwAAIAwgD/0AAAD9CwAAIBBBAWsiEA0AC0HAtckAKAIAIQlBzLXJACgCAAshCkHAtckAIAs2AgBBxLXJACgCACEIQcS1yQAgDTYCAEHItckAIBEgCms2AgAgCEUNACAIIAhBBXRBJ2pBYHEiCmpBCWoiCEUNACAJIAprIglBBGsoAgAiCkF4cSILQQRBCCAKQQNxIgobIAhqSQ0BIApBACALIAhBJ2pLGw0CIAkQogILIA5BIGokAAwDC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgDkEANgIYIA5BATYCDCAOQcS1xAA2AgggDkIENwIQIA5BCGpBmLXEABCNCAALC0HEtckAKAIAIgogB6dxIQggB0IZiCIFQv8Ag0KBgoSIkKDAgAF+IQZBwLXJACgCACEJA0ACfwJAAkAgCCAJaikAACIEIAaFIgNCf4UgA0KBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIDUEUEQANAIAEgCSADeqdBA3YgCGogCnFBBXRrIgtBIGsoAgBGDQIgA0IBfSADgyIDUEUNAAsLIARCgIGChIiQoMCAf4MhAyAXRQRAIANQDQIgA3qnQQN2IAhqIApxIRILQQEgAyAEQgGGg1ANAhogCSASaiwAACIIQQBOBEAgCSAJKQMAQoCBgoSIkKDAgH+DeqdBA3YiEmotAAAhCAsgCSASaiAFp0H/AHEiCzoAACAJIBJBCGsgCnFqQQhqIAs6AABByLXJAEHItckAKAIAIAhBAXFrNgIAIABBgICAgHg2AgBBzLXJAEHMtckAKAIAQQFqNgIAIAkgEkEFdGsiCEEcayIAQRhqIAJBGGooAgA2AgAgACACKQIANwIAIAhBIGsgATYCACAAQQhqIAJBCGr9AAIA/QsCAA8LIAAgC0EcayIB/QACAP0LAgAgASACKQIANwIAIABBGGogAUEYaiIIKAIANgIAIABBEGogAUEQaikCADcCACABQQhqIAJBCGr9AAIA/QsCACAIIAJBGGooAgA2AgAPC0EACyEXIBhBCGoiGCAIaiAKcSEIDAALAAupBwEffyMAQRBrIgYkAAJAAkAgA0EDbCIKQf////8DSw0AIANBDGwiBEH9////B08NAAJAIARFBEBBBCEHDAELIAohCCAEEHEiB0UNAgsgBkEANgIMIAYgBzYCCCAGIAg2AgQCQAJAAkACQAJAAkACQAJAAkACQAJAIAMEQCACIANrIgRBACACIARPGyENIAIgCmsiBEEAIAIgBE8bIQ4gAiADQQlsIgtrIgRBACACIARPGyEPIAIgA0EGbCIMayIEQQAgAiAETxshECABIANqIREgASAKaiESIAEgA0ECdCITaiEUIAEgA0EHbCIVaiEWIAEgA0EKbCIXaiEYIAEgA0EBdCIZaiEaIAEgA0EFbCIbaiEcIAEgA0EDdCIdaiEeIAEgA0ELbCIfaiEgIAEgDGohISABIAtqISJBCCEIQQAhBANAIAIgBEYEQCAEIQUMDQsgBCAORg0JIAQgEEYNCiAEIA9GDQsgASAEai0AACAEIBJqLQAAQQh0ciAEICFqLQAAQRB0ciAEICJqLQAAQRh0ciEJIAYoAgQgBUYEQCAGQQRqQezqxwAQ+gUgBigCCCEHCyAHIAhqQQhrIAk2AgAgBiAFQQFqIgU2AgwgBCANRg0FIAQgE2ogAk8NAiAEIBVqIAJPDQMgBCAXaiACTw0EIAQgEWotAAAgBCAUai0AAEEIdHIgBCAWai0AAEEQdHIgBCAYai0AAEEYdHIhCSAGKAIEIAVGBEAgBkEEakHs6scAEPoFIAYoAgghBwsgByAIakEEayAJNgIAIAYgBUEBaiIJNgIMIAQgGWoiBSACTw0MIAQgG2ogAk8NBiAEIB1qIAJPDQcgBCAfaiACTw0IIAQgGmotAAAgBCAcai0AAEEIdHIgBCAeai0AAEEQdHIgBCAgai0AAEEYdHIhBSAGKAIEIAlGBEAgBkEEakHs6scAEPoFIAYoAgghBwsgByAIaiAFNgIAIAYgCUEBaiIFNgIMIAhBDGohCCADIARBAWoiBEcNAAsLIAAgBikCBDcCACAAQQhqIAZBDGooAgA2AgAgBkEQaiQADwsgA0ECdCAEaiEFDAkLIANBB2wgBGohBQwICyADQQpsIARqIQUMBwsgAyAEaiEFDAYLIANBBWwgBGohBQwFCyADQQN0IARqIQUMBAsgA0ELbCAEaiEFDAMLIAQgCmohBQwCCyAEIAxqIQUMAQsgBCALaiEFCyAFIAJB/OrHABCMBwALQdzqxwAQ/wcLAAuwCAMDfwF8BH0jAEEQayICJAACQCABKAIAQZSAgIB4RgRAAn0CQCAAAn8CQAJAAkACfQJAAkACQAJ9AkACQCABKAIMIgQEQAJ9AkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAggiASgCACIDQYCAgIB4cyADQQBOG0EBaw4KCgABAgMEBQYHCAkLIAEvAQSzDAoLIAEoAgSzDAkLIAEpAwi1DAgLIAEsAASyDAcLIAEuAQSyDAYLIAEoAgSyDAULIAEpAwi0DAQLIAEqAgQMAwsgASsDCCIFtkMAAIA/QwAAgL8gBb1CAFkbmAwCCyABIAJBD2pB2OfAABCVCAwNCyABLQAEswshBiAEQQFGDQQCQAJAAkACQAJAAkACQAJAAkBBFSABKAIQIgNBgICAgHhzIANBAE4bQQFrDgoLAAECAwQFBgcICgsgAS8BFLMMCwsgASgCFLMMCgsgASkDGLUMCQsgASwAFLIMCAsgAS4BFLIMBwsgASgCFLIMBgsgASkDGLQMBQsgASoCFAwECyABKwMYIgW2QwAAgD9DAACAvyAFvUIAWRuYDAMLQQAgAkEPakGk4sAAENsGDAoLIAFBEGogAkEPakHY58AAEJUIDAkLIAEtABSzCyEHIARBAkYNBAJAAkACQAJAAkACQAJAAkACQEEVIAEoAiAiA0GAgICAeHMgA0EAThtBAWsOCgsAAQIDBAUGBwgKCyABLwEkswwLCyABKAIkswwKCyABKQMotQwJCyABLAAksgwICyABLgEksgwHCyABKAIksgwGCyABKQMotAwFCyABKgIkDAQLIAErAygiBbZDAACAP0MAAIC/IAW9QgBZG5gMAwtBASACQQ9qQaTiwAAQ2wYMBgsgAUEgaiACQQ9qQdjnwAAQlQgMBQsgAS0AJLMLIQggBEEDRg0CAkACQAJAAkACQAJAAkACQAJAQRUgASgCMCIDQYCAgIB4cyADQQBOG0EBaw4KDQABAgMEBQYHCAoLIAEvATSzDA0LIAEoAjSzDAwLIAEpAzi1DAsLIAEsADSyDAoLIAEuATSyDAkLIAEoAjSyDAgLIAEpAzi0DAcLIAEqAjQMBgsgASsDOCIFtkMAAIA/QwAAgL8gBb1CAFkbmAwFC0ECIAJBD2pBpOLAABDbBgwCCyABQTBqIAJBD2pB2OfAABCVCAwBC0EDIAJBD2pBpOLAABDbBgs2AgQgAEEBNgIADAMLIAEtADSzCyEJIARBBEcEQCACQQQ2AgggBEH8////AGpB/////wBxQQRqIAJBCGpB6JXBABDbBiEBIABBATYCACAAIAE2AgQMAgsgACAJOAIQIAAgCDgCDCAAIAc4AgggACAGOAIEIABBADYCAAwBCyABIAJBD2pBpOLAABCVCCEBIABBATYCACAAIAE2AgQLIAJBEGokAAvGCAEFfyAAQQhrIgEgAEEEaygCACIDQXhxIgBqIQICQAJAIANBAXENACADQQJxRQ0BIAEoAgAiAyAAaiEAIAEgA2siAUHYuskAKAIARgRAIAIoAgRBA3FBA0cNAUHQuskAIAA2AgAgAiACKAIEQX5xNgIEIAEgAEEBcjYCBCACIAA2AgAPCyABIAMQ1gQLAkACQAJAAkACQAJAAkAgAigCBCIDQQJxRQRAIAJB3LrJACgCAEYNAiACQdi6yQAoAgBGDQMgAiADQXhxIgIQ1gQgASAAIAJqIgBBAXI2AgQgACABaiAANgIAIAFB2LrJACgCAEcNAUHQuskAIAA2AgAPCyACIANBfnE2AgQgASAAQQFyNgIEIAAgAWogADYCAAsgAEGAAkkNAkEfIQIgAUIANwIQIABB////B00EQCAAQSYgAEEIdmciAmt2QQFxIAJBAXRrQT5qIQILIAEgAjYCHCACQQJ0QbC3yQBqIQNBASACdCIEQcy6yQAoAgBxDQMgAyABNgIAIAEgAzYCGCABIAE2AgwgASABNgIIQcy6yQBBzLrJACgCACAEcjYCAAwEC0HcuskAIAE2AgBB1LrJAEHUuskAKAIAIABqIgA2AgAgASAAQQFyNgIEQdi6yQAoAgAgAUYEQEHQuskAQQA2AgBB2LrJAEEANgIACyAAQei6yQAoAgAiAk0NBUHcuskAKAIAIgBFDQVB1LrJACgCACIDQSlJDQRBsLjJACEBA0AgACABKAIAIgVPBEAgACAFIAEoAgRqSQ0GCyABKAIIIQEMAAsAC0HYuskAIAE2AgBB0LrJAEHQuskAKAIAIABqIgA2AgAgASAAQQFyNgIEIAAgAWogADYCAA8LAn9ByLrJACgCACICQQEgAEEDdnQiA3FFBEBByLrJACACIANyNgIAIABB+AFxQcC4yQBqIgAMAQsgAEH4AXEiAkHAuMkAaiEAIAJByLjJAGooAgALIQIgACABNgIIIAIgATYCDCABIAA2AgwgASACNgIIDwsCQAJAIAAgAygCACIDKAIEQXhxRgRAIAMhAgwBCyAAQRkgAkEBdmtBACACQR9HG3QhBANAIAMgBEEddkEEcWoiBSgCECICRQ0CIARBAXQhBCACIQMgAigCBEF4cSAARw0ACwsgAigCCCIAIAE2AgwgAiABNgIIIAFBADYCGCABIAI2AgwgASAANgIIDAELIAVBEGogATYCACABIAM2AhggASABNgIMIAEgATYCCAtBACEBQfC6yQBB8LrJACgCAEEBayIANgIAIAANAUG4uMkAKAIAIgAEQANAIAFBAWohASAAKAIIIgANAAsLQfC6yQBB/x8gASABQf8fTRs2AgAPC0G4uMkAKAIAIgEEQANAIARBAWohBCABKAIIIgENAAsLQfC6yQBB/x8gBCAEQf8fTRs2AgAgAiADTw0AQei6yQBBfzYCAAsLrgcBCX8gACABIAIQzAMCQAJAIAIEQCAAKAJgQQhqIQwgACgCZCENQQEhCgNAAkACQCANIAtBA2pLBEAgCkEBayIBIARPBEAgASEKDAcLIAQgAWsiAUEAIAEgBE0bIgFBAUYNBiABQQJGDQUgAygCACIHQf///wNxIQUgB0GAgICAeHEhCSADQQRqKAIAIQEgB0GAgID8B3EiBkGAgID8B0YEQCAJQRB2IAVBDXZyQYAEQQAgBRtyQYD4AXIhCQwDCyAJQRB2IQkgBkGAgIC4BEsNASAGQYCAgMQDTwRAIAdBDHYgB0H/3wBxQQBHcSAGQQ12IAVBDXZqQYCAAWogCXJqIQkMAwsgBkGAgICYA0kNAiAFQYCAgARyIgVB/gAgBkEXdiIGa3YhByAFQR0gBmsiBnZBAXEEfyAHQQMgBnRBAWsgBXFBAEdqBSAHCyAJciEJDAILIAsgC0EEaiANQYjbwAAQ6gcACyAJQYD4AXIhCQsgA0EIaigCACEHIAFB////A3EhCCABQYCAgIB4cSEGAkAgAUGAgID8B3EiBUGAgID8B0cEQCAGQRB2IQYgBUGAgIC4BE0EQCAFQYCAgMQDTwRAIAFBDHYgAUH/3wBxQQBHcSAFQQ12IAhBDXZqQYCAAWogBnJqIQYMAwsgBUGAgICYA0kNAiAIQYCAgARyIghB/gAgBUEXdiIFa3YhASAIQR0gBWsiBXZBAXEEfyABQQMgBXRBAWsgCHFBAEdqBSABCyAGciEGDAILIAZBgPgBciEGDAELIAZBEHYgCEENdnJBgARBACAIG3JBgPgBciEGCyAHQf///wNxIQggB0GAgICAeHEhAQJAIAdBgICA/AdxIgVBgICA/AdHBEAgAUEQdiEBIAVBgICAuARNBEAgBUGAgIDEA08EQCAHQQx2IAdB/98AcUEAR3EgBUENdiAIQQ12akGAgAFqIAFyaiEBDAMLIAVBgICAmANJDQIgCEGAgIAEciIIQf4AIAVBF3YiBWt2IQcgCEEdIAVrIgV2QQFxBH8gB0EDIAV0QQFrIAhxQQBHagUgBwsgAXIhAQwCCyABQYD4AXIhAQwBCyABQRB2IAhBDXZyQYAEQQAgCBtyQYD4AXIhAQsgDCABOwEAIAxBBGsgCUH//wNxIAZBEHRyNgIAIAxBEGohDCALQQRqIQsgCkEDaiEKIANBDGohAyACQQFrIgINAAsLIABBAToAuAEPCyAKQQFqIQoLIAogBEGY28AAEIwHAAutBwEJfyAAIAEgAhDpBAJAAkAgAgRAIAAoAoQBIQwgACgCiAEhDUEBIQkDQAJAAkAgDSALQQNqSwRAIAlBAWsiASAETwRAIAEhCQwHCyAEIAFrIgFBACABIARNGyIBQQFGDQYgAUECRg0FIAMoAgAiCEH///8DcSEHIAhBgICAgHhxIQYgA0EEaigCACEBIAhBgICA/AdxIgVBgICA/AdGBEAgBkEQdiAHQQ12ckGABEEAIAcbckGA+AFyIQYMAwsgBkEQdiEGIAVBgICAuARLDQEgBUGAgIDEA08EQCAIQQx2IAhB/98AcUEAR3EgBUENdiAHQQ12akGAgAFqIAZyaiEGDAMLIAVBgICAmANJDQIgB0GAgIAEciIIQf4AIAVBF3YiB2t2IQUgCEEdIAdrIgd2QQFxBH8gBUEDIAd0QQFrIAhxQQBHagUgBQsgBnIhBgwCCyALIAtBBGogDUGYu8EAEOoHAAsgBkGA+AFyIQYLIANBCGooAgAhCCABQf///wNxIQogAUGAgICAeHEhBQJAIAFBgICA/AdxIgdBgICA/AdGBEAgBUEQdiAKQQ12ckGABEEAIAobckGA+AFyIQUMAQsgBUEQdiEFIAdBgICAuARNBEAgB0GAgIDEA08EQCABQQx2IAFB/98AcUEAR3EgB0ENdiAKQQ12akGAgAFqIAVyaiEFDAILIAdBgICAmANJDQEgCkGAgIAEciIKQf4AIAdBF3YiB2t2IQEgCkEdIAdrIgd2QQFxBH8gAUEDIAd0QQFrIApxQQBHagUgAQsgBXIhBQwBCyAFQYD4AXIhBQsgDCAGQf//A3EgBUEQdHI2AgAgCEH///8DcSEFIAhBgICAgHhxIQECQCAIQYCAgPwHcSIGQYCAgPwHRgRAIAFBEHYgBUENdnJBgARBACAFG3JBgPgBciEBDAELIAFBEHYhASAGQYCAgLgETQRAIAZBgICAxANPBEAgCEEMdiAIQf/fAHFBAEdxIAZBDXYgBUENdmpBgIABaiABcmohAQwCCyAGQYCAgJgDSQ0BIAVBgICABHIiCEH+ACAGQRd2IgZrdiEFIAhBHSAGayIGdkEBcQR/IAVBAyAGdEEBayAIcUEAR2oFIAULIAFyIQEMAQsgAUGA+AFyIQELIAxBBGogATsBACAMQRBqIQwgC0EEaiELIAlBA2ohCSADQQxqIQMgAkEBayICDQALCyAAQQE6AMABDwsgCUEBaiEJCyAJIARBqLvBABCMBwALqggCB38CfiMAQUBqIgIkAAJAAkACQAJAAkAgASgCFCIDIAEoAhAiBEkEQCABKAIMIQgCfgJAA0AgAyAIai0AACIFQQlrIgZBF0tBASAGdEGTgIAEcUVyDQEgASADQQFqIgM2AhQgAyAERw0ACyAEIQNCAAwBC0KAAgsgBa1CEIaEQoCCuANRDQELAkACQAJAIAJBEGogASgCDCIFIAQgAyAESQR/A0ACQCADIAVqLQAAIgZBCWsOJQAABAQABAQEBAQEBAQEBAQEBAQEBAQEAAQEBAQEBAQEBAQEBAMECyABIANBAWoiAzYCFCADIARHDQALIAQFIAMLQQFqIgEgBCABIARJGxD5ASACKAIUIQEgAigCECEEQRQQcSIDRQ0EIAMgBDYCDCADQQU2AgAgAyABNgIQDAYLIAEgA0EBajYCFCACQRhqIAFBABDHAyACKQMYIgpCA1ENBCACKQMgIQkCQAJAAkAgCqdBAWsOAgABAgsgCUKAgICAEFQNAyACQQE6ACggAiAJNwMwIAJBKGogAkE/akGY58AAEN4GIAEQ6wUhAwwHCyAJQoCAgIAQVA0CIAJBAjoAKCACIAk3AzAgAkEoaiACQT9qQZjnwAAQ3gYgARDrBSEDDAYLIAJBAzoAKCACIAk3AzAgAkEoaiACQT9qQZjnwAAQ3wYgARDrBSEDDAULIAZBMGtB/wFxQQpPBEAgASACQT9qQZjnwAAQ7gEgARDrBSEDDAULIAJBGGogAUEBEMcDIAIpAxgiCkIDUQRAIAIoAiAhAwwFCyACKQMgIQkCfwJAAkACQCAKp0EBaw4CAAECCyAJQoCAgIAQVA0DIAJBAToAKCACIAk3AzAgAkEoaiACQT9qQZjnwAAQ3gYMAgsgCUKAgICAEFQNAiACQQI6ACggAiAJNwMwIAJBKGogAkE/akGY58AAEN4GDAELIAJBAzoAKCACIAk3AzAgAkEoaiACQT9qQZjnwAAQ3wYLIAEQ6wUhAwwECyAAIAk+AgQgAEEBNgIADAQLIAEgA0EBaiIHNgIUAkACQAJAIAQgB00NACABIANBAmoiBTYCFCAHIAhqLQAAQfUARw0BIAUgByAEIAQgB0kbIgdGDQAgASADQQNqIgY2AhQgBSAIai0AAEHsAEcEQCAGIQUMAgsgBiAHRg0AIAEgA0EEaiIFNgIUIAYgCGotAABB7ABHDQEgAEEANgIADAYLIAIgCCAEIAcQ+QEgAigCBCEEIAIoAgAhAUEUEHEiA0UNAiADQQU2AgAMAQsgAkEIaiAIIAQgBRD5ASACKAIMIQQgAigCCCEBQRQQcSIDRQ0BIANBCTYCAAsgAyABNgIMIAAgAzYCBCAAQQI2AgAgAyAENgIQDAMLAAsgAigCICEDCyAAQQI2AgAgACADNgIECyACQUBrJAALmAcCDn8CfiMAQdAAayICJAAgACgCCCEDIAAoAgQhBQJAAn9BASABKAIAIghBIiABKAIEIgooAhAiCxECAA0AGiACIAM2AgggAiAFNgIEIAJBL2qtQoCAgICAB4QhEANAAkAgAkEMaiACQQRqEO0DIAgCfwJAIAIoAgwiBQRAIAIoAhghDCACKAIUIQ1BACACKAIQIgNFDQIaIAMgBWohD0EAIQAgBSEBQQAhBwNAAn8gASwAACIEQQBOBEAgBEH/AXEhBCABQQFqDAELIAEtAAFBP3EhBiAEQR9xIQkgBEFfTQRAIAlBBnQgBnIhBCABQQJqDAELIAEtAAJBP3EgBkEGdHIhBiAEQXBJBEAgBiAJQQx0ciEEIAFBA2oMAQsgCUESdEGAgPAAcSABLQADQT9xIAZBBnRyciEEIAFBBGoLIQkgAkEcaiAEQYGCBBCBAyACLQApIAItAChrQf8BcUEBRwRAAkACQCAAIAdLDQACQCAARQ0AIAAgA08EQCAAIANHDQIMAQsgACAFaiwAAEG/f0wNAQsCQCAHRQ0AIAMgB00EQCADIAdGDQEMAgsgBSAHaiwAAEG/f0wNAQsgCCAAIAVqIAcgAGsgCigCDBEAAEUNAQwHCyAFIAMgACAHQYCKwwAQuwkACyACQThqIAJBJGopAgA3AwAgAiACKQIcIhE3AzAgAi0APCEAAkAgAi0APSIGQYEBTwRAIBGnIQ4DQCAAQf8BcSAGTw0CIABBAWohACAIIA4gCxECAEUNAAsMBwsgACAGIAAgBksbIQYDQCAAIAZGDQEgAkEwaiAAaiEOIABBAWohACAIIA4tAAAgCxECAEUNAAsMBgsCf0EBIARBgAFJDQAaQQIgBEGAEEkNABpBA0EEIARBgIAESRsLIAdqIQALIAcgAWsgCWohByAJIgEgD0cNAAsMAQsgCEEiIAsRAgAMBAtBACAARQ0AGiAAIANPBEAgAyAAIANGDQEaDAULIAAgBWosAABBQEgNBCAACyIBIAVqIAMgAWsgCigCDBEAAA0AIAxFDQEDQCACIA0tAAA6AC8gAkEBNgJEIAJB6InDADYCQCACQQE2AjQgAkHgicMANgIwIAJBATYCPCACIBA3A0ggAiACQcgAajYCOCAIIAogAkEwahDBAw0BIA1BAWohDSAMQQFrIgwNAAsMAQsLQQELIAJB0ABqJAAPCyAFIAMgACADQcyJwwAQuwkAC+MHAwZ/B30BeyMAQZABayICJAAgAiAAKAIAIgb9AAIAIg8gD/0NAAECAwQFBgcICQoLCAkKC/0LBAAgAgJ/IA/9GQYiA0H//wFxRQRAIANBEHQMAQsgA0H/B3EhBCADQYCAAnEhBSADQYD4AXEiA0GA+AFGBEAgBUEQdCIDQYCAgPwHciAERQ0BGiADIARBDXRyQYCAgP4HcgwBCyAFQRB0IgUgA0ENdEGAgID8AHEgBEENdHJBgICAwANqciADDQAaIAQgBGdBEGsiBEH//wNxQQhqdEH///8DcSAFQYCAgNgDciAEQRd0a3ILNgIcIAJDAAAAACAAKAIEIgAqAgAgAC0AHEECRiIEGyIIIAZBEGotAAAiA7NDAAB/Q5VDAACAPyAAKgIEIAQbIAiTIgmUkv0TIAggBkEOai8BACIFIANBEHRyQf8BcbNDAAB/Q5UgCZSS/SAAIAggBUEIdrNDAAB/Q5UgCZSS/SAB/QsEICAGQRFqLwAAIAZBE2otAAAiA0EQdHIiBUEIdiEHQwAAEEEgACoCDCAEGyEJQwAAQMEgACoCCCAEGyEIIAVB/wFxBEAgCCAJIAiTQwAAfkOVIAVBAWtB/wFxs5SSEIkEIQsLIAdB/wFxBEAgCCAJIAiTQwAAfkOVIAdBAWtB/wFxs5SSEIkEIQoLIAIgAwR9IAggCSAIk0MAAH5DlSADQQFrQf8BcbOUkhCJBAVDAAAAAAv9EyAL/SAAIAr9IAH9CwQwQwAAgD8gBkEUai8BACIAQQh2s/0TIAAgBkEWai0AACIGQRB0ckH/AXGz/SAB/QwAAH9DAAB/QwAAf0MAAH9D/ecBIg8gD/3kAf0MAACAvwAAgL8AAIC/AACAv/3kASIP/R8BIgqLkyAP/R8AIgyLkyIIjEMAAAAAEOAIIQkgAiAGs0MAAH9DlUMAAAA/lEPbD0lAlCINEJkCIgsgCiAJIAmMIg4gD/0MAAAAAAAAAAAAAAAAAAAAAP1G/U0iD/3HAf0bAkEBcRuSIgogCCAIlCAKIAqUIAwgCSAOIA/9GwBBAXEbkiIJIAmUkpKRIgqVlP0TIAsgCSAKlZT9IAEgCyAIIAqVlP0gAiANEJsC/SAD/QsEQCACIAJBQGutQoCAgIDAAoQ3A3AgAiACQTBqrUKAgICAoAKENwNoIAIgAkEgaq1CgICAgKAChDcDYCACIAJBHGqtQoCAgIDQAoQ3A1ggAiACrUKAgICAoAKENwNQIAEoAgAgASgCBCACQgU3AoQBIAJBBjYCfCACQeCqxwA2AnggAiACQdAAajYCgAEgAkH4AGoQwQMgAkGQAWokAAuyBwEJfyMAQdAAayIBJABBgYDEACECAkACQCAAKAIEIgQgACgCECIDSQ0AIAAgBCADayIENgIEIAAgACgCACICIANqIgg2AgACQAJAIANBAkYEQCACLQAAIgNBwQBrQV9xQQpqIANBMGsgA0E5SxsiBUEPSw0EIAItAAEiA0HBAGtBX3FBCmogA0EwayADQTlLGyIDQRBPDQQgBUEEdCADciIFwEEATg0BQYCAxAAhAiAFQf8BcSIDQcABSQ0DAn9BAiADQeABSQ0AGkEDIANB8AFJDQAaIANB+AFPDQRBBAshA0EAIQIgAUEAOgATIAFBADsAESABIAU6ABAgASADNgIMIANBAXRBAmshCSABIAFBEGo2AgggAUERaiEFA0AgBEECSQRAQYCAxAAhAgwFCyAAIARBAmsiBDYCBCAAIAIgCGoiBkECajYCACAGLQAAIgdBwQBrQV9xQQpqIAdBMGsgB0E5SxsiB0EPSw0FIAZBAWotAAAiBkHBAGtBX3FBCmogBkEwayAGQTlLGyIGQRBPDQUgBSAHQQR0IAZyOgAAIAVBAWohBSAJIAJBAmoiAkcNAAsMAgtBpPjGAEEoQbywxQAQ6wcAC0EBIQMgAUEBNgIMIAFBADoAEyABQQA7ABEgASAFOgAQIAEgAUEQajYCCAsgAUE4aiABQRBqIAMQ+wJBgIDEACECIAEoAjgNACABKAI8IQAgASABKAJAIgI2AhggASAANgIUIAAgAmohAwJAIAJFDQAgAwJ/IAAsAAAiAkEATgRAIAJB/wFxIQIgAEEBagwBCyAALQABQT9xIQUgAkEfcSEEIAJBX00EQCAEQQZ0IAVyIQIgAEECagwBCyAALQACQT9xIAVBBnRyIQUgAkFwSQRAIAUgBEEMdHIhAiAAQQNqDAELIARBEnRBgIDwAHEgAC0AA0E/cSAFQQZ0cnIhAiAAQQRqCyIERwRAIAQsAAAaDAELIAJBgIDEAEcNAQsgAQJ/QQAhAiADIABrIgRBEE8EQCAAIAQQxwIMAQsgACADRwRAA0AgAiAALAAAQb9/SmohAiAAQQFqIQAgBEEBayIEDQALCyACCzYCNCABQQQ2AiAgAUG8scUANgIcIAFCAzcCKCABIAFBNGqtQoCAgIAQhDcDSCABIAFBFGqtQoCAgICgDYQ3A0AgASABQQhqrUKAgICAsA2ENwM4IAEgAUE4ajYCJCABQRxqQdyxxQAQjQgACyABQdAAaiQAIAIPC0GssMUAEN0JAAvpBwIGfQZ/AkACQAJAIAQEQEMAAHxCIAWVIQUgAUEBdiEQIAFBAWpBAXYhEQNAIAxBCWoiDyADSyANQZuOx+MBS3INA0MAAHxCQwAAfMIgBSACQSBqKgIAlCIHIAdDAAB8wl0bIgcgB0MAAHxCXhsQuQchB0MAAHxCQwAAfMIgBSACQRxqKgIAlCIIIAhDAAB8wl0bIgggCEMAAHxCXhsQuQchCEMAAHxCQwAAfMIgBSACQRBqKgIAlCIJIAlDAAB8wl0bIgkgCUMAAHxCXhsQuQchCUMAAHxCQwAAfMIgBSACQRRqKgIAlCIKIApDAAB8wl0bIgogCkMAAHxCXhsQuQchCkMAAHxCQwAAfMIgBSACQRhqKgIAlCILIAtDAAB8wl0bIgsgC0MAAHxCXhsQuQchCyANIBFGDQQgAEH/AEMAAHxCQwAAfMIgBSACKgIAlCIGIAZDAAB8wl0bIgYgBkMAAHxCXhsQuQciBvwAQYB/IAZDAAAAw2AbIAZDAAD+Ql4bQQAgBiAGWxtB/wBxQf8AQwAAfEJDAAB8wiAFIAJBBGoqAgCUIgYgBkMAAHzCXRsiBiAGQwAAfEJeGxC5ByIG/ABBgH8gBkMAAADDYBsgBkMAAP5CXhtBACAGIAZbG0H/AHFBB3RyQf8AQwAAfEJDAAB8wiAFIAJBCGoqAgCUIgYgBkMAAHzCXRsiBiAGQwAAfEJeGxC5ByIG/ABBgH8gBkMAAADDYBsgBkMAAP5CXhtBACAGIAZbG0H/AHFBDnRyQf8AQwAAfEJDAAB8wiAFIAJBDGoqAgCUIgYgBkMAAHzCXRsiBiAGQwAAfEJeGxC5ByIG/ABBgH8gBkMAAADDYBsgBkMAAP5CXhtBACAGIAZbG0H/AHFBFXRyQf8AIAn8AEGAfyAJQwAAAMNgGyAJQwAA/kJeG0EAIAkgCVsbQf8AcSIMQRx0cjYCACANIBBGDQIgAEEEakH/ACAI/ABBgH8gCEMAAADDYBsgCEMAAP5CXhtBACAIIAhbG0H/AHFBEXRB/wAgB/wAQYB/IAdDAAAAw2AbIAdDAAD+Ql4bQQAgByAHWxtB/wBxQRh0ckH/ACAK/ABBgH8gCkMAAADDYBsgCkMAAP5CXhtBACAKIApbG0H/AHFBA3QgDEEEdnJB/wAgC/wAQYB/IAtDAAAAw2AbIAtDAAD+Ql4bQQAgCyALWxtB/wBxQQp0cnI2AgAgAEEIaiEAIA5BAmohDiACQSRqIQIgDyEMIAQgDUEBaiINRw0ACwsPCyAOQQFqIAFBoM7HABCMBwALIAwgDyADQbDOxwAQ6gcACyAOIAFBkM7HABCMBwAL/AoCC3sIfyADBEAgBSABIAJrIhFBACABIBFPGyIWIAUgFkkbIhEgA0EBayISIBEgEkkbQQFqIhJBBEsEQCAC/REhDv0MAAAAAAEAAAACAAAAAwAAACELIAQhESASIBJBA3EiE0EEIBMbayITIRIDQCAAIAsgDv2uASIM/RsAQRhsaiAR/QACACIG/Qz//38A//9/AP//fwD//38A/U4iB0EN/a0BIAb9DAAAAIAAAACAAAAAgAAAAID9TkEQ/a0BIgj9UCIJIAf9DAAAAAAAAAAAAAAAAAAAAAD9OP0MAAIAAAACAAAAAgAAAAIAAP1O/VAgBv0NAAEEBQgJDA0AAQABAAEAAf0MAHwAfAB8AHwAfAB8AHwAfCIN/VAgCCAG/Q0AAQQFCAkMDQABAAEAAQABIA39UCAJIAb9DAAAgH8AAIB/AACAfwAAgH8iDf1OIglBDf2tAf0MAEAAAABAAAAAQAAAAEAAAP2uAf1QIAb9DQABBAUICQwNAAEAAQABAAEgBv0MABAAAAAQAAAAEAAAABAAAP1OIAr9OCAG/Qz/LwAA/y8AAP8vAAD/LwAA/U4gCv04/U79DAEAAAABAAAAAQAAAAEAAAD9TiAG/Q0AAQQFCAkMDQABAAEAAQAB/Y4BIAj9DAAAgPoAAID6AACA+gAAgPoiCCAH/QwAAIAAAACAAAAAgAAAAIAA/VAiBv0bAP0MfgAAAH4AAAB+AAAAfgAAACAJQRf9rQEiD/2xASIH/RsAdv0RIAb9GwEgB/0bAXb9HAEgBv0bAiAH/RsCdv0cAiAG/RsDIAf9GwN2/RwDIAn9DAAAgMcAAIDHAACAxwAAgMf9rgEiECAI/ToiCEEB/QwdAAAAHQAAAB0AAAAdAAAAIA/9sQH9DB8AAAAfAAAAHwAAAB8AAAD9TiIH/RsAIhV0/RFBASAH/RsBIhR0/RwBQQEgB/0bAiIXdP0cAkEBIAf9GwMiGHT9HAMgBv1OIAr9OP1QQQMgFXT9EUEDIBR0/RwBQQMgF3T9HAJBAyAYdP0cA/0M//////////////////////2uASAG/U4gCv04/U79sQEgCP1S/VAgBv0NAAEEBQgJDA0AAQABAAEAASAQ/QwBAIAOAQCADgEAgA4BAIAO/TogBv0NAAEEBQgJDA0AAQABAAEAAf1SIAn9DAAAAEcAAABHAAAARwAAAEf9PCAG/Q0AAQQFCAkMDQABAAEAAQAB/VIgCSAN/TcgBv0NAAEEBQgJDA0AAQABAAEAAf1SIgb9WQEMACAAIAz9GwFBGGxqIAb9WQEMASAAIAz9GwJBGGxqIAb9WQEMAiAAIAz9GwNBGGxqIAb9WQEMAyARQRBqIREgC/0MBAAAAAQAAAAEAAAABAAAAP2uASELIBJBBGsiEg0ACwsgBCATQQJ0aiERIAIgE2pBGGwgAGpBDGohEgNAAkACQCATIBZHBEAgBSATRwRAIBEoAgAiFUH///8DcSEUIBVBgICAgHhxIQQgFUGAgID8B3EiAEGAgID8B0YEQCAUQQ12IARBEHZyQYAEQQAgFBtyQYD4AXIhBAwECyAEQRB2IQQgAEGAgIC4BEsNAiAAQYCAgMQDTwRAIBVBDHYgFUH/3wBxQQBHcSAAQQ12IBRBDXZqQYCAAWogBHJqIQQMBAsgAEGAgICYA0kNAyAUQYCAgARyIhVB/gAgAEEXdiIUa3YhACAVQR0gFGsiFHZBAXEEfyAAQQMgFHRBAWsgFXFBAEdqBSAACyAEciEEDAMLIAUgBUGEw8cAEIwHAAsgAiATaiABQey7xwAQjAcACyAEQYD4AXIhBAsgEiAEOwEAIBJBGGohEiARQQRqIREgAyATQQFqIhNHDQALCwv8CgILewh/IAMEQCAFIAEgAmsiEUEAIAEgEU8bIhYgBSAWSRsiESADQQFrIhIgESASSRtBAWoiEkEESwRAIAL9ESEO/QwAAAAAAQAAAAIAAAADAAAAIQsgBCERIBIgEkEDcSITQQQgExtrIhMhEgNAIAAgCyAO/a4BIgz9GwBBJGxqIBH9AAIAIgb9DP//fwD//38A//9/AP//fwD9TiIHQQ39rQEgBv0MAAAAgAAAAIAAAACAAAAAgP1OQRD9rQEiCP1QIgkgB/0MAAAAAAAAAAAAAAAAAAAAAP04/QwAAgAAAAIAAAACAAAAAgAA/U79UCAG/Q0AAQQFCAkMDQABAAEAAQAB/QwAfAB8AHwAfAB8AHwAfAB8Ig39UCAIIAb9DQABBAUICQwNAAEAAQABAAEgDf1QIAkgBv0MAACAfwAAgH8AAIB/AACAfyIN/U4iCUEN/a0B/QwAQAAAAEAAAABAAAAAQAAA/a4B/VAgBv0NAAEEBQgJDA0AAQABAAEAASAG/QwAEAAAABAAAAAQAAAAEAAA/U4gCv04IAb9DP8vAAD/LwAA/y8AAP8vAAD9TiAK/Tj9Tv0MAQAAAAEAAAABAAAAAQAAAP1OIAb9DQABBAUICQwNAAEAAQABAAH9jgEgCP0MAACA+gAAgPoAAID6AACA+iIIIAf9DAAAgAAAAIAAAACAAAAAgAD9UCIG/RsA/Qx+AAAAfgAAAH4AAAB+AAAAIAlBF/2tASIP/bEBIgf9GwB2/REgBv0bASAH/RsBdv0cASAG/RsCIAf9GwJ2/RwCIAb9GwMgB/0bA3b9HAMgCf0MAACAxwAAgMcAAIDHAACAx/2uASIQIAj9OiIIQQH9DB0AAAAdAAAAHQAAAB0AAAAgD/2xAf0MHwAAAB8AAAAfAAAAHwAAAP1OIgf9GwAiFXT9EUEBIAf9GwEiFHT9HAFBASAH/RsCIhd0/RwCQQEgB/0bAyIYdP0cAyAG/U4gCv04/VBBAyAVdP0RQQMgFHT9HAFBAyAXdP0cAkEDIBh0/RwD/Qz//////////////////////a4BIAb9TiAK/Tj9Tv2xASAI/VL9UCAG/Q0AAQQFCAkMDQABAAEAAQABIBD9DAEAgA4BAIAOAQCADgEAgA79OiAG/Q0AAQQFCAkMDQABAAEAAQAB/VIgCf0MAAAARwAAAEcAAABHAAAAR/08IAb9DQABBAUICQwNAAEAAQABAAH9UiAJIA39NyAG/Q0AAQQFCAkMDQABAAEAAQAB/VIiBv1ZARQAIAAgDP0bAUEkbGogBv1ZARQBIAAgDP0bAkEkbGogBv1ZARQCIAAgDP0bA0EkbGogBv1ZARQDIBFBEGohESAL/QwEAAAABAAAAAQAAAAEAAAA/a4BIQsgEkEEayISDQALCyAEIBNBAnRqIREgAiATakEkbCAAakEUaiESA0ACQAJAIBMgFkcEQCAFIBNHBEAgESgCACIVQf///wNxIRQgFUGAgICAeHEhBCAVQYCAgPwHcSIAQYCAgPwHRgRAIBRBDXYgBEEQdnJBgARBACAUG3JBgPgBciEEDAQLIARBEHYhBCAAQYCAgLgESw0CIABBgICAxANPBEAgFUEMdiAVQf/fAHFBAEdxIABBDXYgFEENdmpBgIABaiAEcmohBAwECyAAQYCAgJgDSQ0DIBRBgICABHIiFUH+ACAAQRd2IhRrdiEAIBVBHSAUayIUdkEBcQR/IABBAyAUdEEBayAVcUEAR2oFIAALIARyIQQMAwsgBSAFQdTFxwAQjAcACyACIBNqIAFB5MDHABCMBwALIARBgPgBciEECyASIAQ7AQAgEkEkaiESIBFBBGohESADIBNBAWoiE0cNAAsLC7wJAgJ/AXsjAEHQAGsiAiQAIAJBDmpBADoAACACQR5qQQA6AAAgAkEmakEAOgAAIAJBLmpBADoAACACQTZqQQA6AAAgAkE+akEAOgAAIAJBxgBqQQA6AAAgAkEAOwEMIAJBFmpBADoAACACQQA7ARwgAkEAOwEkIAJBADsBLCACQQA7ATQgAkEAOwE8IAJBADsBRCACQQA7ARQgAkHOAGpBADoAACACQQA7AUxBgCEQcSIDBEAgA0HI1cYAQYAh/AoAACAAQQE2AnAgAP0MAAAAAAAAAAAAAAAAAAAAAP0LAnQgAEL/gYCAgH83AoQBIABBADYCoAUgAEHyAToAkwEgAEEANgKYBCAAQoCAgIAQNwOQBCAAQQA6AKYFIABBADsBpAUgAEKAgICAEDcDACAAQgA3AwggAEIBNwMQIABCgICAgBA3AxggAEHoA2ogAUEQaikDADcDACAAIAH9AAMA/QsD2AMgACACKAIINgKMASAAQY8BaiACKAALNgAAIABBJ2pCADcAACAAQgA3AyAgAEIANwMwIABBN2pCADcAACAAQgA3A0AgAEHHAGpCADcAACAAQgA3A1AgAEHXAGpCADcAACAAQgA3A2AgAEHnAGpCADcAACAAIAT9CwPwAyAAQYAEaiAE/QsDACAAQQE2ApgBIAAgBP0LApwBIABC/4GAgIB/NwKsASAAQbcBaiACKAATNgAAIAAgAigCEDYCtAEgACAE/QsCxAEgAEEBNgLAASAAQfIBOgC7ASAAQv+BgICAfzcC1AEgAEHyAToA4wEgACAE/QsC7AEgAEEBNgLoASAAQv+BgICAfzcC/AEgAEEBNgKQAiAAIAT9CwKUAiAAQfIBOgCLAiAAQd8BaiACKAAbNgAAIAAgAigCGDYC3AEgAEGHAmogAigAIzYAACAAIAIoAiA2AoQCIABC/4GAgIB/NwKkAiAAQa8CaiACKAArNgAAIAAgAigCKDYCrAIgACAE/QsCvAIgAEEBNgK4AiAAQfIBOgCzAiAAQv+BgICAfzcCzAIgAEHXAmogAigAMzYAACAAIAIoAjA2AtQCIAAgBP0LAuQCIABBATYC4AIgAEHyAToA2wIgAEL/gYCAgH83AvQCIABB/wJqIAIoADs2AAAgACACKAI4NgL8AiAAIAT9CwKMAyAAQQE2AogDIABB8gE6AIMDIABC/4GAgIB/NwKcAyAAQacDaiACKABDNgAAIAAgAigCQDYCpAMgACAE/QsCtAMgAEEBNgKwAyAAQfIBOgCrAyAAQv+BgICAfzcCxAMgAEHPA2ogAigASzYAACAAIAIoAkg2AswDIABBAToApwUgAEHyAToA0wMgAEH8BGpB0PbGACgAADYAACAAQcj2xgApAAA3APQEIABBADoAqAUgACADNgLwBCAAQQA6AIAFIABCADcCpAQgAEKAgICAEDcCnAQgAEGYBWpCADcBACAAQZIFakIANwEAIAAgBP0LAYIFIABBADYC7AQgAEKAgICAEDcC5AQgAEIBNwLcBCAAQgA3AtQEIABCgICAgBA3AswEIABCATcCxAQgAEIANwK8BCAAQoCAgIAQNwK0BCAAQgE3AqwEIAJB0ABqJAAPCwAL2AcCDH8BeyMAQYAIayIGJAACQAJAAkAgASgC2AFBgYCAgHhHBEAgASgC3AEhAiABKALgASEHIAEoAtABIQsgASgC1AEhDCABKALMASENQQAhAQNAIAEgBmr9DAAAAP8AAAD/AAAA/wAAAP/9CwAAIAFBEGoiAUGACEcNAAsgB0EDbiEKIAdBBE8EQCAHQQRrIgFBC00EQEGAAiEEIAYhASAHIQMMAwtBgAJBgAIgAUEDbiIBIAFBgAJPG0EBaiIBIAFBA3EiAUEEIAEbayIFayEEIAcgBUF9bGohAyACIAVBA2xqIAYgBUECdGohASAGIQgDQCAIIAJBCWogAkEGaiACQQNqIAL9XAAA/VYAAAH9VgAAAv1WAAAD/QsAACACQQxqIQIgCEEQaiEIIAVBBGsiBQ0ACyECDAILIAYhASAHIQMgB0UNAwwCC0GgmcUAQRRBtJnFABCrBwALA0AgBEUEQEEAQQBB9JnFABCMBwALIAEgAigAADYAACABQQRqIQEgBEEBayEEIAJBA2ohAiADQQNrIgNBA0sNAAsgBA0AQQBBAEHEmcUAEIwHAAsgA0EDRgRAIAEgAi8AADsAACABQQJqIAJBAmotAAA6AAAMAQtBAEEDIANB1JnFABDqBwALAkBBAEEAIAwgDUGBgICAeEYiARsiAyADIApLIgMbIghFDQBBAUEBIAsgAxsgARshA0GAAiAIIAhBgAJPGyEJQQAhBSAIQRBPBEAgCUHwA3EhBSAJQQJ0QUBxIQtBACEBIAMhBANAIAEgBmoiAkE/aiAE/QAAACIO/VgAAA8gAkE7aiAO/VgAAA4gAkE3aiAO/VgAAA0gAkEzaiAO/VgAAAwgAkEvaiAO/VgAAAsgAkEraiAO/VgAAAogAkEnaiAO/VgAAAkgAkEjaiAO/VgAAAggAkEfaiAO/VgAAAcgAkEbaiAO/VgAAAYgAkEXaiAO/VgAAAUgAkETaiAO/VgAAAQgAkEPaiAO/VgAAAMgAkELaiAO/VgAAAIgAkEHaiAO/VgAAAEgAkEDaiAO/VgAAAAgBEEQaiEEIAsgAUFAayIBRw0ACyAFIAlGDQELIAkgBWshBCADIAVqIQIgBUECdCAGakEDaiEBA0AgASACLQAAOgAAIAJBAWohAiABQQRqIQEgBEEBayIEDQALCyAHQYMGSQRAIAggCkcEQCAKQQJ0IAhBAnQiB2shASAGIAdqQQNqIQIDQCACQf8BOgAAIAJBBGohAiABQQRrIgENAAsLIAAgBkGACPwKAAAgBkGACGokAA8LIAggCkGAAkHkmcUAEOoHAAvSCAEEfyMAQSBrIgIkAAJAAkACQAJAAkACQAJAAkAgAC0AAEEBaw4DAQIDAAsgAiAAKAIENgIEIAEoAgBBoPvHAEECIAEoAgQoAgwRAAAhACACQQA6AA0gAiAAOgAMIAIgATYCCCACQQhqQbT7xwBBBCACQQRqQaT7xwAQjAUgAkEpOgATQcj7xwBBBCACQRNqQbj7xwAQjAVBFBBxIgBFDQQgAEEQakHcgsgAKAAANgAAIABBzILIAP0AAAD9CwAAIAJBFDYCHCACIAA2AhggAkEUNgIUQdz7xwBBByACQRRqQcz7xwAQjAUhASACLQANIgMgAi0ADCIEciEAAkAgBEEBcSADQQFHcg0AIAEoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEADAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAAsgAigCFCIBRQ0DIAIoAhgiA0EEaygCACIEQXhxIgVBBEEIIARBA3EiBBsgAWpJDQUgBEEAIAUgAUEnaksbDQYgAxCiAgwDCyAALQABIQNBASEAIAEoAgBB4/vHAEEEIAEoAgQoAgwRAAANAgJAIAEtAApBgAFxRQRAIAEoAgBBu7PFAEEBIAEoAgQoAgwRAAANBCABKAIAIANBAnQiAygCpKhJIAMoAvymSSABKAIEKAIMEQAARQ0BDAQLIAEoAgBB24HCAEECIAEoAgQoAgwRAAANAyACQQE6AAggAiABKQIANwIUIANBAnQiAygCzKlJIQQgAygC9KpJIQMgAiACQQhqNgIcIAJBFGoiBSADIAQQrwMNAyAFQdmBwgBBAhCvAw0DCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQAMAgsgACgCBCEAIAEoAgBB5/vHAEEFIAEoAgQoAgwRAAAhAyACQQA6ABkgAiADOgAYIAIgATYCFCACQRRqQcj7xwBBBCAAQQhqQbj7xwAQjAVB3PvHAEEHIABB7PvHABCMBSACLQAZIgMgAi0AGCIEciEAIARBAXEgA0EBR3INASgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQAMAgsgACgCAEGls8UAQQEgACgCBCgCDBEAACEADAELIAIgACgCBCIANgIIIAEoAgBBjPzHAEEGIAEoAgQoAgwRAAAhAyACQQA6ABkgAiADOgAYIAIgATYCFCACQRRqQcj7xwBBBCAAQQhqQbj7xwAQjAVBupjIAEEFIAJBCGpB/PvHABCMBSACLQAZIgMgAi0AGCIEciEAIARBAXEgA0EBR3INACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQAMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEACyACQSBqJAAgAEEBcQ8LAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALvQcDCX8CfAJ+IwBBMGsiBCQAAkACQAJAAkACQAJAAkACQAJAAkACQCABKAIUIgYgASgCECIFSQRAIAEoAgwiCSAGai0AACIHQS5GDQEgB0HFAEYgB0HlAEZyDQILIAJFDQJCASEPDAgLIAEgBkEBaiIGNgIUIAUgBk0NAyAGIAVrIQcCQANAIAYgCWotAAAiCkEwayILQf8BcSIMQQpPBEAgCEUNBiAKQSByQeUARwRAIAghBwwGCyAEQSBqIAEgAiADIAgQ2AIMCAsgDEEFSyADQpmz5syZs+bMGVJyIANCmLPmzJmz5swZVnENASABIAZBAWoiBjYCFCAIQQFrIQggA0IKfiALrUL/AYN8IQMgBSAGRw0ACyAFIQYgB0UNBQwDCyAEQSBqIAEgAiADIAgQ6AYMBQsgBEEgaiABIAIgA0EAENgCIAQoAiBFDQUgACAEKAIkNgIIIABCAzcDAAwHC0IAIAN9IhBCAFMEQEICIQ8gECEDDAYLIAO6vUKAgICAgICAgIB/hCEDDAULIAO6IQ0CQAJAAkAgByAHQR91IgFzIAFrIgFBtQJPBEADQCANRAAAAAAAAAAAYQ0EIAdBAE4NAiANRKDI64XzzOF/oyENIAdBtAJqIgcgB0EfdSIBcyABayIBQbUCTw0ACwsgAUEDdCsDoIJHIQ4gB0EATg0BIA0gDqMhDQwCCyAEQRBqIAkgBSAGEPkBIAQoAhQhAiAEKAIQIQVBFBBxIgFFDQggASAFNgIMIAFBDjYCACABIAI2AhAgBCABNgIkIARBATYCIAwECyANIA6iIg2ZRAAAAAAAAPB/Yg0AIARBCGogCSAFIAYQ+QEgBCgCDCECIAQoAgghBUEUEHEiAUUNByABIAU2AgwgAUEONgIAIAEgAjYCECAEIAE2AiQgBEEBNgIgDAMLIAQgDSANmiACGzkDKCAEQQA2AiAMAgsgBSAGTQ0AIARBGGogCSAFIAZBAWoiASAFIAEgBUkbEPkBIAQoAhwhAiAEKAIYIQVBFBBxIgFFDQUgASAFNgIMIAFBDTYCACABIAI2AhAgBCABNgIkIARBATYCIAwBCyAEIAkgBSAGQQFqIgEgBSABIAVJGxD5ASAEKAIEIQIgBCgCACEFQRQQcSIBRQ0EIAEgBTYCDCABQQU2AgAgASACNgIQIAQgATYCJCAEQQE2AiALIAQoAiBFDQAgACAEKAIkNgIIIABCAzcDAAwCCyAEKQMoIQMLIAAgAzcDCCAAIA83AwALIARBMGokAA8LAAvqBwENfyMAQUBqIgUkAEEAELYJIQYgBUEQakEAOgAAIAVBPGogBEEYaigCADYCACAFQTRqIARBEGopAgA3AgAgBUEaaiAEQR9qLQAAOgAAIAVCADcDCCAFIAT9AAIA/QsCJCAFIAQvAB07ARggBC0AHCEPIAEQuAohECAGQYQITwRAIAYQmwcLAkAgA0UEQAwBC0H458AAQQMQ7AghBCADKAIAIgogBBDiCCEIQbS7yQAtAAAhA0G0u8kAQQA6AABBuLvJACgCAEG4u8kAQQA2AgAgCCADGyELAkACQAJAIANFBEAgCxC5CkUEQEEBIQkMBAsgC0GDCEsNAQwCCyALQYQISQ0CCyALEJsHCwsgBEGECE8EQCAEEJsHCyAKQfvnwABBAxDsCCIDEOIIIQhBtLvJAC0AACEEQbS7yQBBADoAAEG4u8kAKAIAQbi7yQBBADYCACAIIAQbIQYCfwJAAkAgBEUEQCAGELkKRQRAQQEhDUECDAQLIAZBgwhLDQEMAgsgCSAGQYQISQ0CGgsgBhCbBwsgCQshCCADQYQITwRAIAMQmwcLIApBjOzAAEEDEOwIIgQQ4gghA0G0u8kALQAAIQdBtLvJAEEAOgAAQbi7yQAoAgBBuLvJAEEANgIAIAMgBxshAwJAAkACQCAHRQRAIAMQuQpFBEBBASEMQQMhCAwECyADQYMISw0BDAILIANBhAhJDQILIAMQmwcLCyAEQYQITwRAIAQQmwcLQQAhByAKQYbowABBBxDsCCIKEOIIIQRBtLvJAC0AACEOQbS7yQBBADoAAEG4u8kAKAIAQbi7yQBBADYCACAEIA4bIQQCQAJAAkAgDkUEQCAEELkKRQRAQQEhD0EBIQcMBAsgBEGDCEsNAQwCCyAEQYQISQ0CCyAEEJsHCwsgCkGECEkNACAKEJsHCyAAQYCAgIB4NgJ0IABBgICAgHg2AmggAEIENwJgIABCADcCWCAAQoCAgIDAADcCUCAAQgQ3AkggAEIANwJAIABCgICAgMAANwI4IAAgBDYCNCAAIAc2AjAgAEEANgIoIABBADYCICAAQQA2AhggACADNgIUIAAgDDYCECAAIAY2AgwgACANNgIIIAAgCzYCBCAAIAk2AgAgACAPOgCcASAAIAE2AqwBIAAgCDYCqAEgACACNgKkASAAIBBBAnY2AqABIABBmAFqIAVBPGooAgA2AgAgAEGIAWogBUEsav0AAgD9CwIAIAAgBf0AAhz9CwJ4IAAgBS8BGDsAnQEgAEGfAWogBUEaai0AADoAACAAIAUpAwg3ArABIABBuAFqIAVBEGotAAA6AAAgBUFAayQAC8cHAgZ/AnsCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAFFBEBBBCELDAELIAFBAnQQcSILRQ0BIAFBBE8EQCABQXxxIgwhCQNAIAggC2ogACAIav0AAgD9DLtukD67bpA+u26QPrtukD795gH9DAAAAD8AAAA/AAAAPwAAAD/95AH9CwIAIAhBEGohCCAJQQRrIgkNAAsgASAMRg0BCyAMQQJ0IQggASAMayEJA0AgCCALaiAAIAhqKgIAQ7tukD6UQwAAAD+SOAIAIAhBBGohCCAJQQFrIgkNAAsLQYAIEHEiAEUNAP0MAAAAAAEAAAACAAAAAwAAACEOQQAhCANAIAAgCGoiCSAO/fsB/QwAAH9DAAB/QwAAf0MAAH9DIg/95wH9CwIAIAlBEGogDv0MBAAAAAQAAAAEAAAABAAAAP2uAf37ASAP/ecB/QsCACAO/QwIAAAACAAAAAgAAAAIAAAA/a4BIQ4gCEEgaiIIQYAIRw0ACwJAAkAgBwRAQQAhCUEAIQgDQCADIAhNDQUgASACIAhqIgwtAAAiCk0NBiAFIAlNDQcgBCALIApBAnRqKgIAOAIAIAhBAWoiCiADTw0IIAEgDEEBai0AACIKTQ0JIAlBAWoiDSAFTw0KIARBBGogCyAKQQJ0aioCADgCACAIQQJqIgogA08NCyABIAxBAmotAAAiCk0NDCAJQQJqIg0gBU8NDSAEQQhqIAsgCkECdGoqAgA4AgAgCEEDaiIKIANPDQ4gBiAIaiAAIAxBA2otAABBAnRqKgIAOAIAIARBDGohBCAJQQNqIQkgCEEEaiEIIAdBAWsiBw0ACyAAQQRrKAIAIgJBeHFBhAhBiAggAkEDcSIDG0kNDiADQQAgAkGoCE8bDQ8gABCiAgwBCyAAQQRrKAIAIgJBeHFBhAhBiAggAkEDcSIDG0kNDSADQQAgAkGoCE8bDQ4gABCiAiABRQ0BCyALQQRrKAIAIgBBeHEiAiABQQJ0IgFBBEEIIABBA3EiABtqSQ0MIABBACACIAFBJ2pLGw0NIAsQogILDwsACyAIIANBgPHHABCMBwALIAogAUGQ8ccAEIwHAAsgCSAFQaDxxwAQjAcACyAKIANBsPHHABCMBwALIAogAUHA8ccAEIwHAAsgDSAFQdDxxwAQjAcACyAKIANB4PHHABCMBwALIAogAUHw8ccAEIwHAAsgDSAFQYDyxwAQjAcACyAKIANBkPLHABCMBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC9kGAg1/An0gAEGstskAKAIAIgcEfyMAQRBrIQhBrLbJACAHQQFrIgY2AgBBqLbJACgCACIFIAZBDGxqIgQoAgghASAEKAIEIQMgBCgCACEEAkAgBkUEQCABIQogAyELIAQhDAwBCyAFKAAAIQwgBSAENgAAIAUoAAQhCyAFIAM2AAQgBUEIaiIDKAAAIQogAyABNgAAIAhBCGogAygCADYCACAIIAUpAgA3AwBBASEBIAdBBE8EQCAGQQJrIgFBACABIAZNGyEGQQEhAQNAAn8gBSABQQxsaiIDQQxqIgQqAgAiDiAOWyAOIAMqAgAiD2BFcSIJIAlBfyAOIA9fGyAPIA9cGyIJBEAgCUEATAwBCyADKAIEIgkgBCgCBCINRwRAIAkgDU0MAQsgAygCCCAEKAIITQshAyAFIAJBDGxqIgQgBSABIANqIgJBDGxqIgEpAgA3AgAgBEEIaiABQQhqKAIANgIAIAJBAXQiA0EBciEBIAMgBkkNAAsLAkAgB0ECayABRwRAIAIhAQwBCyAFIAJBDGxqIgIgBSABQQxsaiIDKQIANwIAIAJBCGogA0EIaigCADYCAAsgBSABQQxsaiICIAgpAwA3AgAgAkEIaiAIQQhqKAIAIgg2AgAgAigCBCEDIAIqAgAhDgJAIAFFBEBBACEBDAELIA4gDlsEQANAAkAgBSABIgJBAWsiBkEBdiIBQQxsaiIEKgIAIg8gD1sgDiAPX0VxQX8gDiAPYBsiBwRAIAdBAEoNASACIQEMBAsgBCgCBCIHIANHBEAgAyAHSw0BIAIhAQwECyAIIAQoAghLDQAgAiEBDAMLIAUgAkEMbGoiAiAEKQIANwIAIAJBCGogBEEIaigCADYCACAGQQFLDQAMAgsACwNAAkAgBSABIgJBAWsiBkEBdiIBQQxsaiIEKgIAIg8gD1sgDiAPX0VxDQAgBCgCBCIHIANHBEAgAyAHSw0BIAIhAQwDCyAIIAQoAghLDQAgAiEBDAILIAUgAkEMbGoiAiAEKQIANwIAIAJBCGogBEEIaigCADYCACAGQQJPDQALCyAFIAFBDGxqIgEgCDYCCCABIAM2AgQgASAOOAIACyAAIAo2AgwgACALNgIIIAAgDDYCBEEBBSABCzYCAAuWCAMGfwR7An0gBUEDbiEKIAEqAgAhESAAKgIAIRACQAJAAkACQAJAAkACQAJAQYAIEHEiCEUNACARIBCT/RMhDiAQ/RMhD/0MAAAAAAEAAAACAAAAAwAAACEMA0AgBiAIaiAPIA4gDP37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kASIN/R8AEIkE/RMgDf0fARCJBP0gASAN/R8CEIkE/SACIA39HwMQiQT9IAP9CwIAIAz9DAQAAAAEAAAABAAAAAQAAAD9rgEhDCAGQRBqIgZBgAhHDQALIAEqAgQgACoCBCEQQYAIEHEiCUUNACAQk/0TIQ4gEP0TIQ/9DAAAAAABAAAAAgAAAAMAAAAhDEEAIQYDQCAGIAlqIA8gDiAM/fsB/QwAAH9DAAB/QwAAf0MAAH9D/ecB/eYB/eQBIg39HwAQiQT9EyAN/R8BEIkE/SABIA39HwIQiQT9IAIgDf0fAxCJBP0gA/0LAgAgDP0MBAAAAAQAAAAEAAAABAAAAP2uASEMIAZBEGoiBkGACEcNAAsgASoCCCAAKgIIIRBBgAgQcSIARQ0AIBCT/RMhDiAQ/RMhD/0MAAAAAAEAAAACAAAAAwAAACEMQQAhBgNAIAAgBmogDyAOIAz9+wH9DAAAf0MAAH9DAAB/QwAAf0P95wH95gH95AEiDf0fABCJBP0TIA39HwEQiQT9IAEgDf0fAhCJBP0gAiAN/R8DEIkE/SAD/QsCACAM/QwEAAAABAAAAAQAAAAEAAAA/a4BIQwgBkEQaiIGQYAIRw0ACwJAIAVBA08EQEEAIQZBACEBA0AgAyAGTQ0EIAEgBU8NBSAEIAggAiAGaiILLQAAQQJ0aioCADgCACAGQQFqIgcgA08NBiABQQFqIgcgBU8NByAEQQRqIAkgC0EBai0AAEECdGoqAgA4AgAgBkECaiIHIANPDQggAUECaiIHIAVPDQIgBEEIaiAAIAtBAmotAABBAnRqKgIAOAIAIAZBBGohBiAEQQxqIQQgAUEDaiEBIApBAWsiCg0ACwsgAEEEaygCACIBQXhxQYQIQYgIIAFBA3EiAhtJDQcgAkEAIAFBqAhPGw0IIAAQogIgCUEEaygCACIAQXhxQYQIQYgIIABBA3EiARtJDQcgAUEAIABBqAhPGw0IIAkQogIgCEEEaygCACIAQXhxQYQIQYgIIABBA3EiARtJDQcgAUEAIABBqAhPGw0IIAgQogIPCyAHIAVBoPXHABCMBwsACyAGIANB0PTHABCMBwALIAEgBUHg9McAEIwHAAsgByADQfD0xwAQjAcACyAHIAVBgPXHABCMBwALIAcgA0GQ9ccAEIwHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALggcBA34gASgCACACQQZ0ayIBQUBqKQMAIAAoAgAoAgAiACkDCIUiA0LYotHvwqnlvy1+IAFBOGspAwCFIANCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhIUiA0LYotHvwqnlvy1+IAFBMGspAwCFIANCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhIUiA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhELSgaqbq/qC16d/fiIEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEIANC2KLR78Kp5b8tfoUiA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCAAKQMAIgRCf4V+IgVCOIYgBUKA/gODQiiGhCAFQoCA/AeDQhiGIAVCgICA+A+DQgiGhIQgBUIIiEKAgID4D4MgBUIYiEKAgPwHg4QgBUIoiEKA/gODIAVCOIiEhIQgAyAEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEfoUgA4kLwwYBDH8jAEEQayIJJABBASELAkAgAigCACIKQSIgAigCBCIMKAIQIg0RAgANAAJAAkAgAUUEQEEAIQFBACECDAELIAAhBSABIQYDQCAFIAZqIQ5BACECAkACQANAIAIgBWoiBy0AACIIQf8Aa0H/AXFBoQFJIAhBIkZyIAhB3ABGcg0BIAYgAkEBaiICRw0ACyADIAZqIQMMAQsgAiADaiEDAkACQCAHLAAAIgJBAE4EQCAHQQFqIQUgAkH/AXEhAgwBCyAHLQABQT9xIQUgAkEfcSEGIAJBX00EQCAGQQZ0IAVyIQIgB0ECaiEFDAELIActAAJBP3EgBUEGdHIhCCACQXBJBEAgCCAGQQx0ciECIAdBA2ohBQwBCyAHQQRqIQUgBkESdEGAgPAAcSAHLQADQT9xIAhBBnRyciICQYCAxABGDQELIAkgAkGBgAQQgQMCQCAJLQANIgYgCS0ADCIHayIIQf8BcUEBRg0AAkACQAJAIAMgBEkNAAJAIARFDQAgASAETQRAIAEgBEcNAgwBCyAAIARqLAAAQb9/TA0BCwJAIANFDQAgASADTQRAIAEgA0YNAQwCCyAAIANqLAAAQb9/TA0BCyAKIAAgBGogAyAEayAMKAIMIgQRAABFDQEMAgsgACABIAQgA0GogcIAELsJAAsCQCAGQYEBTwRAIAogCSgCACANEQIADQIMAQsgCiAHIAlqIAggBBEAAA0BCyACQYABSQRAIANBAWohBAwCCyACQYAQSQRAIANBAmohBAwCC0EDQQQgAkGAgARJGyADaiEEDAELDAYLAn9BASACQYABSQ0AGkECIAJBgBBJDQAaQQNBBCACQYCABEkbCyADaiEDCyAOIAVrIgYNAQsLIAMgBEkNAUEAIQICQCAERQ0AIAEgBE0EQCAEIAEiAkcNAwwBCyAEIgIgAGosAABBv39MDQILIANFBEBBACEBDAELIAEgA00EQCABIANGDQEgAiEEDAILIAAgA2osAABBv39MBEAgAiEEDAILIAMhAQsgCiAAIAJqIAEgAmsgDCgCDBEAAA0BIApBIiANEQIAIQsMAQsgACABIAQgA0G4gcIAELsJAAsgCUEQaiQAIAsLzwYBCH8jAEEwayEIA0AgASgCACIEQf///wNxIQMgBEGAgICAeHEhBgJAIARBgICA/AdxIgJBgICA/AdGBEAgA0ENdiAGQRB2ckGABEEAIAMbckGA+AFyIQYMAQsgBkEQdiEGIAJBgICAuARNBEAgAkGAgIDEA08EQCAEQQx2IARB/98AcUEAR3EgAkENdiADQQ12akGAgAFqIAZyaiEGDAILIAJBgICAmANJDQEgA0GAgIAEciIEQf4AIAJBF3YiA2t2IQIgBEEdIANrIgN2QQFxBH8gAkEDIAN0QQFrIARxQQBHagUgAgsgBnIhBgwBCyAGQYD4AXIhBgsgAUEEaigCACIDQf///wNxIQUgA0GAgICAeHEhBAJAIANBgICA/AdxIgJBgICA/AdHBEAgBEEQdiEEIAJBgICAuARNBEAgAkGAgIDEA08EQCADQQx2IANB/98AcUEAR3EgAkENdiAFQQ12akGAgAFqIARyaiEEDAMLIAJBgICAmANJDQIgBUGAgIAEciIDQf4AIAJBF3YiBWt2IQIgA0EdIAVrIgV2QQFxBH8gAkEDIAV0QQFrIANxQQBHagUgAgsgBHIhBAwCCyAEQYD4AXIhBAwBCyAFQQ12IARBEHZyQYAEQQAgBRtyQYD4AXIhBAsgAUEIaigCACIFQf///wNxIQcgBUGAgICAeHEhAwJAIAVBgICA/AdxIgJBgICA/AdHBEAgA0EQdiEDIAJBgICAuARNBEAgAkGAgIDEA08EQCAFQQx2IAVB/98AcUEAR3EgAkENdiAHQQ12akGAgAFqIANyaiEDDAMLIAJBgICAmANJDQIgB0GAgIAEciIFQf4AIAJBF3YiB2t2IQIgBUEdIAdrIgd2QQFxBH8gAkEDIAd0QQFrIAVxQQBHagUgAgsgA3IhAwwCCyADQYD4AXIhAwwBCyAHQQ12IANBEHZyQYAEQQAgBxtyQYD4AXIhAwsgCEEGaiAJaiICIAY7AQAgAkEEaiADOwEAIAJBAmogBDsBACABQQxqIQEgCUEGaiIJQSpHDQALIAAgCP0AAQb9CwEAIABBKGogCEEuai8BADsBACAAQSBqIAhBJmopAQA3AQAgAEEQaiAIQRZq/QABAP0LAQALogcCCH8CfiMAQZACayICJAACQCABKAK4AiIDQQNNBEAgAEEAOwEADAELIAIgASgCtAIiBSgAACIENgIIAkACQAJAAkAgBEHSgpGaBEYEQCADQQhJBEAgAEEAOgABIABBADoAAAwGCyADIAUoAAQiBkEHakF4cSIIQRBqIgRJDQEgBkEIaiIHIANLIAZBd0tyDQIgAkEANgKAAiACIAY2AvwBIAIgBUEIajYC+AEgAkEYaiACQfgBahBvIAIoAhwhBiACKAIYIglBAkYEQCAAIAYQzgc2AgQgAEEBOgAADAYLIAJBkAFqIAJBIGpB6AD8CgAAIAIgBjYCjAEgAiAJNgKIASAIQQhqIgggBEsNAyABQQA2ArgCIAMgBGshByAFIAhqKQAAIQsCQAJAIARFDQAgAyAERg0BIAdFDQAgBSAEIAVqIAf8CgAACyABIAc2ArgCCyABIAEpA3AgBK18Igo3A3AgASAKIAt8NwOIASABIAo3A4ABAkAgAigC8AFBAUYEQCABIAIpA5ABPgKoAiABIAIoApgBIgM2AqwCIAEoApABQQJGDQEMBgsgAkEBNgIcIAJBhMnBADYCGCACQgE3AiQgAiACQfABaq1CgICAgBCENwOIAiACIAJBiAJqNgIgIAJB+AFqIgEgAkEYahCxBiABEI4HIQEgAigC5AEiAwRAIAIoAugBIANBKGxBCBCiBwsgACABNgIEIABBAToAAAwGCyABQQA2AqgCIAIgAi0A9AFBAXE6ACAgAiAGQQAgCUEBcRs2AhwgAiADNgIYIAFBvAJqIAJBGGoQ4QMMBAsgAkEBNgIsIAJBzMjBADYCKCACQQE2AhwgAkGQzsEANgIYIAJBATYCJCACIAJBCGqtQoCAgICQBIQ3A/gBIAIgAkH4AWo2AiAgAkEMaiIBIAJBGGoQsQYgACABEI4HNgIEIABBAToAAAwECyAAQQA6AAEgAEEAOgAADAMLQQggByADQeTNwQAQ6gcACyAIIAQgA0HUzcEAEOoHAAsgAUEANgKkAgJAIAEoAgBBAkYNACABKAJcIgNFDQACQCABKAJgIgRBBGsoAgAiBUF4cSIGIANBKGwiA0EEQQggBUEDcSIFG2pPBEAgBUEAIAYgA0EnaksbDQEgBBCiAgwCC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgASACQYgBakHwAPwKAAAgAEGAAjsBAAsgAkGQAmokAAumBwIIfwJ+IwBBkAJrIgIkAAJAAkACQCABKALgAiIDQQNNBEAgAEEAOwEADAELIAIgASgC3AIiBSgAACIENgIIAkACQAJAAkAgBEHSgpGaBEYEQCADQQhJBEAgAEEAOgABIABBADoAAAwGCyADIAUoAAQiBkEHakF4cSIIQRBqIgRJDQEgBkEIaiIHIANLIAZBd0tyDQIgAkEANgKAAiACIAY2AvwBIAIgBUEIajYC+AEgAkEYaiACQfgBahBvIAIoAhwhBiACKAIYIglBAkYEQCAAIAYQzgc2AgQgAEEBOgAADAYLIAJBkAFqIAJBIGpB6AD8CgAAIAIgBjYCjAEgAiAJNgKIASAIQQhqIgggBEsNAyABQQA2AuACIAMgBGshByAFIAhqKQAAIQsCQAJAIARFDQAgAyAERg0BIAdFDQAgBSAEIAVqIAf8CgAACyABIAc2AuACCyABIAEpA7gCIAStfCIKNwO4AiABIAogC3w3A9ACIAEgCjcDyAIgAigC8AFBAUYEQCABIAIpA5ABPgL0AiABIAIoApgBIgM2AvgCIAEoAgBBAkcNBSABQQA2AvQCIAIgAi0A9AFBAXE6ACAgAiAGQQAgCUEBcRs2AhwgAiADNgIYIAFB+AFqIAJBGGoQhAIMBQsgAkEBNgIcIAJBhMnBADYCGCACQgE3AiQgAiACQfABaq1CgICAgBCENwOIAiACIAJBiAJqNgIgIAJB+AFqIgEgAkEYahCxBiABEI4HIQEgAigC5AEiAwRAIAIoAugBIANBKGxBCBCiBwsgACABNgIEIABBAToAAAwFCyACQQE2AiwgAkHMyMEANgIoIAJBATYCHCACQZDOwQA2AhggAkEBNgIkIAIgAkEIaq1CgICAgJAEhDcD+AEgAiACQfgBajYCICACQQxqIgEgAkEYahCxBiAAIAEQjgc2AgQgAEEBOgAADAQLIABBADoAASAAQQA6AAAMAwtBCCAHIANB5M3BABDqBwALIAggBCADQdTNwQAQ6gcACyABQQA2AvACAkAgASgCiAFBAkYNACABKALkASIDRQ0AIAEoAugBIgRBBGsoAgAiBUF4cSIGIANBKGwiA0EEQQggBUEDcSIFG2pJDQIgBUEAIAYgA0EnaksbDQMgBBCiAgsgAUGIAWogAkGIAWpB8AD8CgAAIABBgAI7AQALIAJBkAJqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAumBwIIfwJ+IwBBkAJrIgIkAAJAAkACQCABKAKAAyIDQQNNBEAgAEEAOwEADAELIAIgASgC/AIiBSgAACIENgIIAkACQAJAAkAgBEHSgpGaBEYEQCADQQhJBEAgAEEAOgABIABBADoAAAwGCyADIAUoAAQiBkEHakF4cSIIQRBqIgRJDQEgBkEIaiIHIANLIAZBd0tyDQIgAkEANgKAAiACIAY2AvwBIAIgBUEIajYC+AEgAkEYaiACQfgBahBvIAIoAhwhBiACKAIYIglBAkYEQCAAIAYQzgc2AgQgAEEBOgAADAYLIAJBkAFqIAJBIGpB6AD8CgAAIAIgBjYCjAEgAiAJNgKIASAIQQhqIgggBEsNAyABQQA2AoADIAMgBGshByAFIAhqKQAAIQsCQAJAIARFDQAgAyAERg0BIAdFDQAgBSAEIAVqIAf8CgAACyABIAc2AoADCyABIAEpA9gCIAStfCIKNwPYAiABIAogC3w3A/ACIAEgCjcD6AIgAigC8AFBAUYEQCABIAIpA5ABPgKUAyABIAIoApgBIgM2ApgDIAEoAgBBAkcNBSABQQA2ApQDIAIgAi0A9AFBAXE6ACAgAiAGQQAgCUEBcRs2AhwgAiADNgIYIAFB+AFqIAJBGGoQ6QEMBQsgAkEBNgIcIAJBhMnBADYCGCACQgE3AiQgAiACQfABaq1CgICAgBCENwOIAiACIAJBiAJqNgIgIAJB+AFqIgEgAkEYahCxBiABEI4HIQEgAigC5AEiAwRAIAIoAugBIANBKGxBCBCiBwsgACABNgIEIABBAToAAAwFCyACQQE2AiwgAkHMyMEANgIoIAJBATYCHCACQZDOwQA2AhggAkEBNgIkIAIgAkEIaq1CgICAgJAEhDcD+AEgAiACQfgBajYCICACQQxqIgEgAkEYahCxBiAAIAEQjgc2AgQgAEEBOgAADAQLIABBADoAASAAQQA6AAAMAwtBCCAHIANB5M3BABDqBwALIAggBCADQdTNwQAQ6gcACyABQQA2ApADAkAgASgCiAFBAkYNACABKALkASIDRQ0AIAEoAugBIgRBBGsoAgAiBUF4cSIGIANBKGwiA0EEQQggBUEDcSIFG2pJDQIgBUEAIAYgA0EnaksbDQMgBBCiAgsgAUGIAWogAkGIAWpB8AD8CgAAIABBgAI7AQALIAJBkAJqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuiBwIIfwJ+IwBBkAJrIgIkAAJAIAEoArgCIgNBA00EQCAAQQA7AQAMAQsgAiABKAK0AiIFKAAAIgQ2AggCQAJAAkACQCAEQdKCkZoERgRAIANBCEkEQCAAQQA6AAEgAEEAOgAADAYLIAMgBSgABCIGQQdqQXhxIghBEGoiBEkNASAGQQhqIgcgA0sgBkF3S3INAiACQQA2AoACIAIgBjYC/AEgAiAFQQhqNgL4ASACQRhqIAJB+AFqEG8gAigCHCEGIAIoAhgiCUECRgRAIAAgBhDOBzYCBCAAQQE6AAAMBgsgAkGQAWogAkEgakHoAPwKAAAgAiAGNgKMASACIAk2AogBIAhBCGoiCCAESw0DIAFBADYCuAIgAyAEayEHIAUgCGopAAAhCwJAAkAgBEUNACADIARGDQEgB0UNACAFIAQgBWogB/wKAAALIAEgBzYCuAILIAEgASkDcCAErXwiCjcDcCABIAogC3w3A4gBIAEgCjcDgAECQCACKALwAUEBRgRAIAEgAikDkAE+AqgCIAEgAigCmAEiAzYCrAIgASgCkAFBAkYNAQwGCyACQQE2AhwgAkGEycEANgIYIAJCATcCJCACIAJB8AFqrUKAgICAEIQ3A4gCIAIgAkGIAmo2AiAgAkH4AWoiASACQRhqELEGIAEQjgchASACKALkASIDBEAgAigC6AEgA0EobEEIEKIHCyAAIAE2AgQgAEEBOgAADAYLIAFBADYCqAIgAiACLQD0AUEBcToAICACIAZBACAJQQFxGzYCHCACIAM2AhggAUG8AmogAkEYahClBAwECyACQQE2AiwgAkHMyMEANgIoIAJBATYCHCACQZDOwQA2AhggAkEBNgIkIAIgAkEIaq1CgICAgJAEhDcD+AEgAiACQfgBajYCICACQQxqIgEgAkEYahCxBiAAIAEQjgc2AgQgAEEBOgAADAQLIABBADoAASAAQQA6AAAMAwtBCCAHIANB5M3BABDqBwALIAggBCADQdTNwQAQ6gcACyABQQA2AqQCAkAgASgCAEECRg0AIAEoAlwiA0UNAAJAIAEoAmAiBEEEaygCACIFQXhxIgYgA0EobCIDQQRBCCAFQQNxIgUbak8EQCAFQQAgBiADQSdqSxsNASAEEKICDAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyABIAJBiAFqQfAA/AoAACAAQYACOwEACyACQZACaiQAC+oGAQV/AkACQAJAAkACQAJAAkAgAEEEayIHKAIAIghBeHEiBEEEQQggCEEDcSIFGyABak8EQCAFQQAgAUEnaiIGIARJGw0BAkAgAkEJTwRAIAIgAxDBBCICDQFBAA8LQQAhAiADQcz/e0sNCEEQIANBC2pBeHEgA0ELSRshASAAQQhrIQYgBUUEQCAGRSABQYACSXIgBCABa0GAgAhLIAEgBE9ycg0HIAAPCyAEIAZqIQUCQCABIARLBEAgBUHcuskAKAIARg0BQdi6yQAoAgAgBUcEQCAFKAIEIghBAnENCSAIQXhxIgggBGoiBCABSQ0JIAUgCBDWBCAEIAFrIgVBEE8EQCAHIAEgBygCAEEBcXJBAnI2AgAgASAGaiIBIAVBA3I2AgQgBCAGaiIEIAQoAgRBAXI2AgQgASAFEOMCDAkLIAcgBCAHKAIAQQFxckECcjYCACAEIAZqIgEgASgCBEEBcjYCBAwIC0HQuskAKAIAIARqIgQgAUkNCAJAIAQgAWsiBUEPTQRAIAcgCEEBcSAEckECcjYCACAEIAZqIgEgASgCBEEBcjYCBEEAIQVBACEBDAELIAcgASAIQQFxckECcjYCACABIAZqIgEgBUEBcjYCBCAEIAZqIgQgBTYCACAEIAQoAgRBfnE2AgQLQdi6yQAgATYCAEHQuskAIAU2AgAMBwsgBCABayIEQQ9NDQYgByABIAhBAXFyQQJyNgIAIAEgBmoiASAEQQNyNgIEIAUgBSgCBEEBcjYCBCABIAQQ4wIMBgtB1LrJACgCACAEaiIEIAFLDQQMBgsgAyABIAEgA0sbIgMEQCACIAAgA/wKAAALIAcoAgAiA0F4cSIHIAFBBEEIIANBA3EiARtqSQ0CIAFFIAYgB09yDQZBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcACyAHIAEgCEEBcXJBAnI2AgAgASAGaiIFIAQgAWsiAUEBcjYCBEHUuskAIAE2AgBB3LrJACAFNgIACyAGRQ0AIAAPCyADEHEiAUUNASADQXxBeCAHKAIAIgJBA3EbIAJBeHFqIgIgAiADSxsiAgRAIAEgACAC/AoAAAsgASECCyAAEKICCyACC68HAQZ/IwBBQGoiAyQAIAAoAgwhBAJAAkACQCAAKAIUIgEgACgCECICSQRAA0AgASAEai0AACIGQQlrIgVBGUsNAkEBIAV0QZOAgARxRQRAIAVBGUcNAyAAEMsEIQEMBAsgACABQQFqIgE2AhQgASACRw0ACyACIQELIANBEGogBCACIAFBAWoiACACIAAgAkkbEPkBIAMoAhQhACADKAIQIQJBFBBxIgFFDQIgASACNgIMIAFBBTYCACABIAA2AhAMAQsgBkH7AEYEQCAAIAAtABhBAWsiBToAGCABQQFqIQEgBUH/AXEEQCAAIAE2AhQCQCAAEMsEIgFFBEAgACgCDCEEAkACQCAAKAIUIgEgACgCECICSQRAA0ACQCABIARqLQAAQQlrDjIAAAMDAAMDAwMDAwMDAwMDAwMDAwMDAwADAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDBgMLIAAgAUEBaiIBNgIUIAEgAkcNAAsgAiEBCyADQShqIAQgAiABQQFqIgEgAiABIAJJGxD5ASADKAIsIQIgAygCKCEEQRQQcSIBRQ0HIAFBAzYCAAwBCyADQSBqIAQgAiABQQFqIgEgAiABIAJJGxD5ASADKAIkIQIgAygCICEEQRQQcSIBRQ0GIAFBBjYCAAsgASAENgIMIAEgAjYCEAsgACAALQAYQQFqOgAYDAMLIAAgAUEBajYCFCAAEIcEIQEgACAALQAYQQFqOgAYIAENAiAAKAIMIQQCQCAAKAIUIgEgACgCECICSQRAA0AgASAEai0AACIFQQlrIgZBF0tBASAGdEGTgIAEcUVyDQIgACABQQFqIgE2AhQgASACRw0ACyACIQELIANBOGogBCACIAEQ+QEgAygCPCEAIAMoAjghAkEUEHEiAUUNBCABIAI2AgwgAUEDNgIAIAEgADYCEAwDCyAFQf0ARgRAIAAgAUEBajYCFEEAIQEMAwsgA0EwaiAEIAIgARD5ASADKAI0IQAgAygCMCECQRQQcSIBRQ0DIAEgAjYCDCABQQo2AgAgASAANgIQDAILIANBGGogBCACIAEgAiABIAJJGxD5ASADKAIcIQAgAygCGCECQRQQcSIBRQ0CIAEgAjYCDCABQRg2AgAgASAANgIQDAELIANBCGogBCACIAFBAWoiACACIAAgAkkbEPkBIAMoAgwhACADKAIIIQJBFBBxIgFFDQEgASACNgIMIAFBCjYCACABIAA2AhALIANBQGskACABDwsAC6IHAgd/A34jAEHwCGsiBCQAIAG8IQcCf0EDIAGLQwAAgH9bDQAaQQIgB0GAgID8B3EiBUGAgID8B0YNABogB0H///8DcSIIQYCAgARyIAdBAXRB/v//B3EgB0EXdkH/AXEiBhsiCa0iC0IBgyEMIAVFBEBBBCAIRQ0BGiAGQZYBayEGQgEhDSAMUAwBC0KAgIAQIAtCAYYgCUGAgIAERiIIGyELQgJCASAIGyENQeh+Qel+IAgbIAZqIQYgDFALIQUgA0H//wNxIQggBCAGOwHoCCAEIA03A+AIIARCATcD2AggBCALNwPQCCAEIAU6AOoIAn8CQCAFQf8BcUEBTQRAQXRBBSAGwSIFQQBIGyAFbCIFQcD9AEkNAUHDhMIAQSVB6ITCABDrBwALAkACQCAFQf8BcSIJQQJHBEBBASEFQeqzxQBByIHCACAHQQBIIgYbQeqzxQBBASAGGyACGyEGQQEgB0EfdiACGyECIAlBBEcNAUECIQUgBEECOwGQCCADQf//A3ENAkEBIQUgBEEBNgKYCCAEQZiwxQA2ApQIIARBkAhqDAQLIARBAzYCmAggBEHzncYANgKUCCAEQQI7AZAIQQEhBkEAIQJBASEFIARBkAhqDAMLIARBAzYCmAggBEHsncYANgKUCCAEQQI7AZAIIARBkAhqDAILIAQgCDYCoAggBEEAOwGcCCAEQQI2ApgIIARBuYPCADYClAggBEGQCGoMAQtB6rPFAEEBIAdBAEgiCRshCkHqs8UAQciBwgAgCRsgB0EfdiEHIARBkAhqIAsgBiAEQRBqIAVBBHZBFWoiBkGAgH5BACADayADwUEASBsiBRDpAiAFwSEFAkAgBCgCkAgEQCAEQcgIaiAEQZgIaigCADYCACAEIAQpApAINwPACAwBCyAEQcAIaiAEQdAIaiAEQRBqIAYgBRBlCyAKIAIbIQZBASAHIAIbIQIgBSAELgHICCIHSARAIARBCGogBCgCwAggBCgCxAggByAIIARBkAhqEOwEIAQoAgwhBSAEKAIIDAELQQIhBSAEQQI7AZAIIANB//8DcUUEQEEBIQUgBEEBNgKYCCAEQZiwxQA2ApQIIARBkAhqDAELIAQgCDYCoAggBEEAOwGcCCAEQQI2ApgIIARBuYPCADYClAggBEGQCGoLIQMgBCAFNgLMCCAEIAM2AsgIIAQgAjYCxAggBCAGNgLACCAAIARBwAhqEL4DIARB8AhqJAALiAUBBH8gABC/BAJAAkAgACgCiAQiAQRAIAAoAowEIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgClAQiAQRAIAAoApgEIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCoAQiAQRAIAAoAqQEIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCrAQiAQRAIAAoArAEIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCuAQiAQRAIAAoArwEIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCxAQiAQRAIAAoAsgEIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgC0AQiAQRAIAAoAtQEIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgC3AQiAQRAIAAoAuAEIgBBBGsoAgAiA0F4cSICIAFBAnQiAUEEQQggA0EDcSIDG2pJDQEgA0EAIAIgAUEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAv7BAEEfwJAAkAgACgCBCIBBEAgACgCACIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAiwiAQRAIAAoAigiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAJUIgEEQCAAKAJQIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCfCIBBEAgACgCeCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAqQBIgEEQCAAKAKgASIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAswBIgEEQCAAKALIASIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAvQBIgEEQCAAKALwASIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoApwCIgEEQCAAKAKYAiIAQQRrKAIAIgNBeHEiAiABQQJ0IgFBBEEIIANBA3EiAxtqSQ0BIANBACACIAFBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL3AUBBH8gACgCrAEiAUGECE8EQCABEJsHCwJAIAAoAgBFDQAgACgCBCIBQYQISQ0AIAEQmwcLAkAgACgCCEUNACAAKAIMIgFBhAhJDQAgARCbBwsCQCAAKAIQRQ0AIAAoAhQiAUGECEkNACABEJsHCwJAIAAoAhhFDQAgACgCHCIBQYQISQ0AIAEQmwcLAkAgACgCIEUNACAAKAIkIgFBhAhJDQAgARCbBwsCQCAAKAIoRQ0AIAAoAiwiAUGECEkNACABEJsHCwJAAkAgACgCOCIBBEAgACgCPCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAkQiAQRAIAAoAkgiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAJQIgEEQCAAKAJUIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsCQCAAKAIwRQ0AIAAoAjQiAUGECEkNACABEJsHCyAAKAJoIgFBgICAgHhyQYCAgIB4RwRAIAAoAmwiA0EEaygCACICQXhxIgQgAUEBdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAJ0IgFBgICAgHhyQYCAgIB4RwRAIAAoAngiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAJcIgEEQCAAKAJgIgBBBGsoAgAiA0F4cSICIAFBAnQiAUEEQQggA0EDcSIDG2pJDQEgA0EAIAIgAUEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuIBwEHfyMAQUBqIgEkAAJAAkAgACgCAEUEQCAAKAIQIgBFDQEgAEGTs8UAQQEQlwMhAgwCCyABQQxqIAAQyAUCQAJ/IAEoAgwiBEUEQCABLQAQIQQgACgCECIDBEBBASECIANB+rLFAEHqssUAIARBAXEiAxtBGUEQIAMbEJcDDQULIAAgBDoABEEADAELAkAgASgCECICQQFxDQAgAUKAgICAIDcCGCABIAQ2AgwgASACNgIQIAEgAiAEaiIFNgIUA0ACQCABQQxqEKgCQYCAxABrDgICAAELCyAAKAIQIgNFDQMgAygCAEEiIAMoAgQoAhARAgANAiABQoCAgIAgNwIYIAEgBTYCFCABIAI2AhAgASAENgIMA0ACQAJ/AkACQAJAIAFBDGoQqAIiAEGBgMQARwRAIABBgIDEAEYNASAAQSdHBEACQAJAAkACQAJAAkAgAEEhTARAIABBCWsOBQEDBgYCBQsgAEEiRg0DIABB3ABHDQUgAUIANwEiIAFB3LgBOwEgDAoLIAFCADcBIiABQdzoATsBIAwJCyABQgA3ASIgAUHc5AE7ASAMCAsgAUIANwEiIAFB3NwBOwEgDAcLIAFCADcBIiABQdzEADsBIAwGCyAARQ0ECwJAAkAgAEGABk8EQCAAEOUEDQELIAAQ4QINAQsgAUEwaiAAENYFIAFBKGogAUE4ai8AADsBACABIAEpADA3AyAgAS0AOiEAIAEtADshAiABQThqIAFBKGovAQA7AQAgASABKQMgNwMwIABB/wFxIAJB/wFxTw0IDAcLIAEgADYCIEGBASECQYABDAULIAMoAgBBJyADKAIEKAIQEQIADQkMBgsgAygCAEEiIAMoAgQoAhARAgAhAgwKC0HY5sgAQSsgAUEwakHstsUAQcy2xQAQ4AYACyABQgA3ASIgAUHc4AA7ASALQQIhAkEACyEAIAFBOGogAUEoai8BADsBACABIAEpAyA3AzALIAJB/wFxIQUgAEH/AXEhAiADKAIAIQYgAygCBCgCECEHIAEoAjAhBANAIAQhACAGIAVBgAFNBH8gAUEwaiACai0AAAUgAAsgBxECAA0EIAJBAWoiAiAFRw0ACwwACwALIAAoAhAiBARAIARB6rLFAEEQEJcDDQILIABBADoABEEACyECIAAgAjYCAAwCC0EBIQIMAQtBACECCyABQUBrJAAgAgu9BgEIfyMAQSBrIQgDQCABKAIAIgRB////A3EhAyAEQYCAgIB4cSEGAkAgBEGAgID8B3EiAkGAgID8B0YEQCADQQ12IAZBEHZyQYAEQQAgAxtyQYD4AXIhBgwBCyAGQRB2IQYgAkGAgIC4BE0EQCACQYCAgMQDTwRAIARBDHYgBEH/3wBxQQBHcSACQQ12IANBDXZqQYCAAWogBnJqIQYMAgsgAkGAgICYA0kNASADQYCAgARyIgRB/gAgAkEXdiIDa3YhAiAEQR0gA2siA3ZBAXEEfyACQQMgA3RBAWsgBHFBAEdqBSACCyAGciEGDAELIAZBgPgBciEGCyABQQRqKAIAIgNB////A3EhBSADQYCAgIB4cSEEAkAgA0GAgID8B3EiAkGAgID8B0cEQCAEQRB2IQQgAkGAgIC4BE0EQCACQYCAgMQDTwRAIANBDHYgA0H/3wBxQQBHcSACQQ12IAVBDXZqQYCAAWogBHJqIQQMAwsgAkGAgICYA0kNAiAFQYCAgARyIgNB/gAgAkEXdiIFa3YhAiADQR0gBWsiBXZBAXEEfyACQQMgBXRBAWsgA3FBAEdqBSACCyAEciEEDAILIARBgPgBciEEDAELIAVBDXYgBEEQdnJBgARBACAFG3JBgPgBciEECyABQQhqKAIAIgVB////A3EhByAFQYCAgIB4cSEDAkAgBUGAgID8B3EiAkGAgID8B0cEQCADQRB2IQMgAkGAgIC4BE0EQCACQYCAgMQDTwRAIAVBDHYgBUH/3wBxQQBHcSACQQ12IAdBDXZqQYCAAWogA3JqIQMMAwsgAkGAgICYA0kNAiAHQYCAgARyIgVB/gAgAkEXdiIHa3YhAiAFQR0gB2siB3ZBAXEEfyACQQMgB3RBAWsgBXFBAEdqBSACCyADciEDDAILIANBgPgBciEDDAELIAdBDXYgA0EQdnJBgARBACAHG3JBgPgBciEDCyAIQQJqIAlqIgIgBjsBACACQQRqIAM7AQAgAkECaiAEOwEAIAFBDGohASAJQQZqIglBHkcNAAsgACAI/QABAv0LAQAgAEEWaiAIQRhqKQEANwEAIABBEGogCEESaikBADcBAAuBCQEEfyMAQTBrIgIkAAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAAKAIAIgMtAABBAWsOHAECAwQFBgcICQoLDA0ODxAREhMUFRYXGBkaGxwACyABKAIAQaWtxwBBAiABKAIEKAIMEQAAIQAMHAsgASgCAEGnrccAQQIgASgCBCgCDBEAACEADBsLIAEoAgBBqa3HAEEDIAEoAgQoAgwRAAAhAAwaCyABKAIAQaytxwBBBCABKAIEKAIMEQAAIQAMGQsgASgCAEGwrccAQQUgASgCBCgCDBEAACEADBgLIAEoAgBBta3HAEECIAEoAgQoAgwRAAAhAAwXCyABKAIAQbetxwBBAyABKAIEKAIMEQAAIQAMFgsgASgCAEG6rccAQQQgASgCBCgCDBEAACEADBULIAEoAgBBvq3HAEEFIAEoAgQoAgwRAAAhAAwUCyABKAIAQcOtxwBBAiABKAIEKAIMEQAAIQAMEwsgASgCAEHFrccAQQMgASgCBCgCDBEAACEADBILIAEoAgBByK3HAEEEIAEoAgQoAgwRAAAhAAwRCyABKAIAQcytxwBBBSABKAIEKAIMEQAAIQAMEAsgASgCAEHRrccAQQYgASgCBCgCDBEAACEADA8LIAEoAgBB163HAEECIAEoAgQoAgwRAAAhAAwOCyABKAIAQdmtxwBBAyABKAIEKAIMEQAAIQAMDQsgASgCAEHcrccAQQQgASgCBCgCDBEAACEADAwLIAEoAgBB4K3HAEEFIAEoAgQoAgwRAAAhAAwLCyABKAIAQeWtxwBBAyABKAIEKAIMEQAAIQAMCgsgASgCAEHorccAQQQgASgCBCgCDBEAACEADAkLIAEoAgBB7K3HAEEFIAEoAgQoAgwRAAAhAAwICyABKAIAQfGtxwBBBiABKAIEKAIMEQAAIQAMBwsgASgCAEH3rccAQQQgASgCBCgCDBEAACEADAYLIAEoAgBB+63HAEEFIAEoAgQoAgwRAAAhAAwFCyABKAIAQYCuxwBBBiABKAIEKAIMEQAAIQAMBAsgASgCAEGGrscAQQcgASgCBCgCDBEAACEADAMLIAEoAgBBja7HAEEFIAEoAgQoAgwRAAAhAAwCCyABKAIAQZKuxwBBBiABKAIEKAIMEQAAIQAMAQtBASEAIAIgA0EBajYCDCABKAIAIgNBpqvHAEEHIAEoAgQiBSgCDCIEEQAADQACQCABLQAKQYABcUUEQCADQbuzxQBBASAEEQAADQIgAkEMaiABEMQEDQIgASgCACEDIAEoAgQoAgwhBAwBCyADQduBwgBBAiAEEQAADQEgAkEBOgAfIAIgBTYCFCACIAM2AhAgAkHggcIANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDEBA0BIAIoAiBB2YHCAEECIAIoAiQoAgwRAAANAQsgA0HejsgAQQEgBBEAACEACyACQTBqJAAgAAuDBwMIfwN9AXsjAEEQayIHJAAgB0EEaiABEKsGIAcoAgghCAJ/AkACQCAAKAIIIgIEQCAHKAIMIQRDAACAPyAAKgJAIAAtAFhBAkYiBRtDAAAAACAAKgI8IAUbIguTIQwgAkECdCEJIAAoAgRBDGohBUEAIQADQCAEIABBA2oiAk0EQCACIARB0NvBABCMBwALIAQgAGsiAkEAIAIgBE0bIgJBAUYNAyACQQJGDQIgACAIaiIDLQAAs/0TIANBAWotAACz/SAB/QwAAH9DAAB/QwAAf0MAAH9D/ecBIQ0gA0EDai0AALNDAAB/Q5W8IgJB////A3EhBiADQQJqLQAAs0MAAH9DlSEKAkAgAkGAgID8B3EiA0GAgID8B0YEQCAGQQ12QYAEQQAgBhtyQYD4AXIhAgwBCyADQYCAgLgESwRAQYD4ASECDAELIAJBgICAxANPBEAgA0ENdiAGQQ12aiACQQx2IAJB/98AcUEAR3FqQYCAAWohAgwBCyACQYCAgJgDSQRAQQAhAgwBCyAGQYCAgARyIgZB/gAgAkEXdiIDa3YhAiAGQR0gA2siA3ZBAXFFDQAgAkEDIAN0QQFrIAZxQQBHaiECCyAFIAI7AQAgBUECakH/AUMAAH9DQwAAAAAgCiALkyAMlUMAAH9DlCIKIApDAAAAAF0bIgogCkMAAH9DXhsQuQciCvwBQQAgCkMAAAAAYBsgCkMAAH9DXhtBEHRB/wFDAAB/Q0MAAAAAIA39HwEgC5MgDJVDAAB/Q5QiCiAKQwAAAABdGyIKIApDAAB/Q14bELkHIgr8AUEAIApDAAAAAGAbIApDAAB/Q14bQQh0ckH/AUMAAH9DQwAAAAAgDf0fACALkyAMlUMAAH9DlCIKIApDAAAAAF0bIgogCkMAAH9DXhsQuQciCvwBQQAgCkMAAAAAYBsgCkMAAH9DXhtyIgI7AQAgBUEEaiACQRB2OgAAIAVBGGohBSAJIABBBGoiAEcNAAsLAkACQCAHKAIEIgAEQCAIQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyAAakkNASACQQAgBCAAQSdqSxsNAiAIEKICCyABQYQITwRAIAEQmwcLIAdBEGokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAAQQJqDAELIABBAWoLIARB4NvBABCMBwAL8AgBBX8jAEEgayIDJAACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAC0AAEEBaw4cAQIDBAUGBwgJCgsMDQ4PEBESExQVFhcYGRobHAALIAEoAgBBpa3HAEECIAEoAgQoAgwRAAAhAgwcCyABKAIAQaetxwBBAiABKAIEKAIMEQAAIQIMGwsgASgCAEGprccAQQMgASgCBCgCDBEAACECDBoLIAEoAgBBrK3HAEEEIAEoAgQoAgwRAAAhAgwZCyABKAIAQbCtxwBBBSABKAIEKAIMEQAAIQIMGAsgASgCAEG1rccAQQIgASgCBCgCDBEAACECDBcLIAEoAgBBt63HAEEDIAEoAgQoAgwRAAAhAgwWCyABKAIAQbqtxwBBBCABKAIEKAIMEQAAIQIMFQsgASgCAEG+rccAQQUgASgCBCgCDBEAACECDBQLIAEoAgBBw63HAEECIAEoAgQoAgwRAAAhAgwTCyABKAIAQcWtxwBBAyABKAIEKAIMEQAAIQIMEgsgASgCAEHIrccAQQQgASgCBCgCDBEAACECDBELIAEoAgBBzK3HAEEFIAEoAgQoAgwRAAAhAgwQCyABKAIAQdGtxwBBBiABKAIEKAIMEQAAIQIMDwsgASgCAEHXrccAQQIgASgCBCgCDBEAACECDA4LIAEoAgBB2a3HAEEDIAEoAgQoAgwRAAAhAgwNCyABKAIAQdytxwBBBCABKAIEKAIMEQAAIQIMDAsgASgCAEHgrccAQQUgASgCBCgCDBEAACECDAsLIAEoAgBB5a3HAEEDIAEoAgQoAgwRAAAhAgwKCyABKAIAQeitxwBBBCABKAIEKAIMEQAAIQIMCQsgASgCAEHsrccAQQUgASgCBCgCDBEAACECDAgLIAEoAgBB8a3HAEEGIAEoAgQoAgwRAAAhAgwHCyABKAIAQfetxwBBBCABKAIEKAIMEQAAIQIMBgsgASgCAEH7rccAQQUgASgCBCgCDBEAACECDAULIAEoAgBBgK7HAEEGIAEoAgQoAgwRAAAhAgwECyABKAIAQYauxwBBByABKAIEKAIMEQAAIQIMAwsgASgCAEGNrscAQQUgASgCBCgCDBEAACECDAILIAEoAgBBkq7HAEEGIAEoAgQoAgwRAAAhAgwBC0EBIQIgASgCACIEQaarxwBBByABKAIEIgYoAgwiBREAAA0AIABBAWohAAJAIAEtAApBgAFxRQRAIARBu7PFAEEBIAURAAANAiAAIAEQygQNAiABKAIAIQQgASgCBCgCDCEFDAELIARB24HCAEECIAURAAANASADQQE6AA8gAyAGNgIEIAMgBDYCACADQeCBwgA2AhQgAyABKQIINwIYIAMgA0EPajYCCCADIAM2AhAgACADQRBqEMoEDQEgAygCEEHZgcIAQQIgAygCFCgCDBEAAA0BCyAEQd6OyABBASAFEQAAIQILIANBIGokACACC60GAQh/IwBBIGshCANAIAEoAgAiBEH///8DcSEDIARBgICAgHhxIQYCQCAEQYCAgPwHcSICQYCAgPwHRgRAIANBDXYgBkEQdnJBgARBACADG3JBgPgBciEGDAELIAZBEHYhBiACQYCAgLgETQRAIAJBgICAxANPBEAgBEEMdiAEQf/fAHFBAEdxIAJBDXYgA0ENdmpBgIABaiAGcmohBgwCCyACQYCAgJgDSQ0BIANBgICABHIiBEH+ACACQRd2IgNrdiECIARBHSADayIDdkEBcQR/IAJBAyADdEEBayAEcUEAR2oFIAILIAZyIQYMAQsgBkGA+AFyIQYLIAFBBGooAgAiA0H///8DcSEFIANBgICAgHhxIQQCQCADQYCAgPwHcSICQYCAgPwHRwRAIARBEHYhBCACQYCAgLgETQRAIAJBgICAxANPBEAgA0EMdiADQf/fAHFBAEdxIAJBDXYgBUENdmpBgIABaiAEcmohBAwDCyACQYCAgJgDSQ0CIAVBgICABHIiA0H+ACACQRd2IgVrdiECIANBHSAFayIFdkEBcQR/IAJBAyAFdEEBayADcUEAR2oFIAILIARyIQQMAgsgBEGA+AFyIQQMAQsgBUENdiAEQRB2ckGABEEAIAUbckGA+AFyIQQLIAFBCGooAgAiBUH///8DcSEHIAVBgICAgHhxIQMCQCAFQYCAgPwHcSICQYCAgPwHRwRAIANBEHYhAyACQYCAgLgETQRAIAJBgICAxANPBEAgBUEMdiAFQf/fAHFBAEdxIAJBDXYgB0ENdmpBgIABaiADcmohAwwDCyACQYCAgJgDSQ0CIAdBgICABHIiBUH+ACACQRd2IgdrdiECIAVBHSAHayIHdkEBcQR/IAJBAyAHdEEBayAFcUEAR2oFIAILIANyIQMMAgsgA0GA+AFyIQMMAQsgB0ENdiADQRB2ckGABEEAIAcbckGA+AFyIQMLIAhBDmogCWoiAiAGOwEAIAJBBGogAzsBACACQQJqIAQ7AQAgAUEMaiEBIAlBBmoiCUESRw0ACyAAIAj9AAEO/QsBACAAQRBqIAhBHmovAQA7AQALzwgCB3sKfyABIAAgAEEDakF8cSIKayILaiIMQQNxIQ1BACEBIAAgCkcEQANAIAEgACwAAEG/f0pqIQEgAEEBaiEAIAtBAWoiCw0ACwsCQCANRQ0AIAogDEF8cWoiACwAAEG/f0ohCSANQQFGDQAgCSAALAABQb9/SmohCSANQQJGDQAgCSAALAACQb9/SmohCQsgDEECdiELIAEgCWohDAJAA0AgCiEJIAtFDQFBwAEgCyALQcABTxsiDkEDcSEPAkAgDkECdCIQQfAHcSIRRQRAQQAhAQwBC0EAIQEgCSEAIBBBEGsiCkEwTwRAIAAgCkEEdkEBaiISQfz///8BcSINQQR0aiEA/QwAAAAAAAAAAAAAAAAAAAAAIQIgDSEKIAkhAQNAIAH9AAIAIgMgAf0AAhAiBP0NDA0ODxwdHh8AAQIDAAECAyAB/QACICIGIAH9AAIwIgf9DQABAgMAAQIDDA0ODxwdHh/9DQABAgMEBQYHGBkaGxwdHh8iBf1NQQf9rQEgBUEG/a0B/VD9DAEBAQEBAQEBAQEBAQEBAQEiBf1OIAMgBP0NCAkKCxgZGhsAAQIDAAECAyAGIAf9DQABAgMAAQIDCAkKCxgZGhv9DQABAgMEBQYHGBkaGxwdHh8iCP1NQQf9rQEgCEEG/a0B/VAgBf1OIAMgBP0NBAUGBxQVFhcAAQIDAAECAyAGIAf9DQABAgMAAQIDBAUGBxQVFhf9DQABAgMEBQYHGBkaGxwdHh8iCP1NQQf9rQEgCEEG/a0B/VAgBf1OIAMgBP0NAAECAxAREhMAAQIDAAECAyAGIAf9DQABAgMAAQIDAAECAxAREhP9DQABAgMEBQYHGBkaGxwdHh8iA/1NQQf9rQEgA0EG/a0B/VAgBf1OIAL9rgH9rgH9rgH9rgEhAiABQUBrIQEgCkEEayIKDQALIAIgAiAD/Q0ICQoLDA0ODwABAgMAAQID/a4BIgIgAiAC/Q0EBQYHAAECAwABAgMAAQID/a4B/RsAIQEgDSASRg0BCyAJIBFqIQoDQCAAQQhq/V0CACIC/U1BB/2tASACQQb9rQH9UP0MAQEBAQEBAQEBAQEBAQEBASIC/U4iA/0bASAA/V0CACIE/U1BB/2tASAEQQb9rQH9UCAC/U4iAv0bASAC/RsAIAFqaiAD/RsAamohASAAQRBqIgAgCkcNAAsLIAsgDmshCyAJIBBqIQogAUEIdkH/gfwHcSABQf+B/AdxakGBgARsQRB2IAxqIQwgD0UNAAsCfyAJIA5B/AFxQQJ0aiIBKAIAIgBBf3NBB3YgAEEGdnJBgYKECHEiACAPQQFGDQAaIAAgASgCBCIAQX9zQQd2IABBBnZyQYGChAhxaiIAIA9BAkYNABogACABKAIIIgBBf3NBB3YgAEEGdnJBgYKECHFqCyIAQQh2Qf+BHHEgAEH/gfwHcWpBgYAEbEEQdiAMaiEMCyAMC+sEAQR/AkACQCAAKAIAIgIEQCAAKAIEIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIAAoAgwiAgRAIAAoAhAiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsgACgCOCICBEAgACgCPCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAJcIgIEQCAAKAJgIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIAAoAmgiAkGAgICAeHJBgICAgHhHBEAgACgCbCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAJ0IgIEQCAAKAJ4IgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILAkAgACgCoAEiAkGAgICAeEYNACACBEAgACgCpAEiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQIgAUEAIAQgAkEnaksbDQMgAxCiAgsgACgCrAEiAkUNACAAKAKwASIAQQRrKAIAIgNBeHEiAUEEQQggA0EDcSIDGyACakkNASADQQAgASACQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC90GAQZ/QeS0yQAoAgAiAiAASQRAIAAgAiIBayIDQdy0yQAoAgAgAWtLBEBB3LTJACABIANBBEEEEKQFQeS0yQAoAgAhAQtB4LTJACgCACIFIAFBAnRqIQQgA0ECTwRAIAAgAkF/c2pBAnQiBgRAIARBACAG/AsACyAAIAFqQQJ0IAJBAnRrIAVqQQRrIQQgASADakEBayEBCyAEQQA2AgBB5LTJACABQQFqNgIAC0HwtMkAKAIAIgIgAEkEQCAAIAIiAWsiA0HotMkAKAIAIAFrSwRAQei0yQAgASADQQRBBBCkBUHwtMkAKAIAIQELQey0yQAoAgAiBSABQQJ0aiEEIANBAk8EQCAAIAJBf3NqQQJ0IgYEQCAEQQAgBvwLAAsgACABakECdCACQQJ0ayAFakEEayEEIAEgA2pBAWshAQsgBEEANgIAQfC0yQAgAUEBajYCAAtBlLXJACgCACICIABJBEAgACACIgFrIgNBjLXJACgCACABa0sEQEGMtckAIAEgA0EEQQQQpAVBlLXJACgCACEBC0GQtckAKAIAIgUgAUECdGohBCADQQJPBEAgACACQX9zakECdCIGBEAgBEEAIAb8CwALIAAgAWpBAnQgAkECdGsgBWpBBGshBCABIANqQQFrIQELIARBADYCAEGUtckAIAFBAWo2AgALQfy0yQAoAgAiAkH//wNNBEAgAiEAQYCABCACayIBQfS0yQAoAgAgAmtLBEBB9LTJACACIAFBBEEEEKQFQfy0yQAoAgAhAAtB+LTJACgCACIEIABBAnQiA2ohASACQf//A0cEQEH8/w8gAkECdCIFayIGBEAgAUEAIAb8CwALIAMgBWsgBGpB/P8PaiEBIAAgAmtB//8DaiEACyABQQA2AgBB/LTJACAAQQFqNgIAC0GItckAKAIAIgJB//8DTQRAIAIhAEGAgAQgAmsiAUGAtckAKAIAIAJrSwRAQYC1yQAgAiABQQRBBBCkBUGItckAKAIAIQALQYS1yQAoAgAiBCAAQQJ0IgNqIQEgAkH//wNHBEBB/P8PIAJBAnQiBWsiBgRAIAFBACAG/AsACyADIAVrIARqQfz/D2ohASAAIAJrQf//A2ohAAsgAUEANgIAQYi1yQAgAEEBajYCAAsLjgcCAX8BfCMAQTBrIgIkAAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAAtAABBAWsOEQECAwQFBgcICQoLDA0ODxARAAsgAiAALQABOgAIIAIgAkEIaq1CgICAgMABhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBAjYCHCACQfSQxgA2AhggAiACQRBqNgIgIAJBGGoQwQMMEQsgAiAAKQMINwMIIAIgAkEIaq1CgICAgKAFhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBAjYCHCACQZCRxgA2AhggAiACQRBqNgIgIAJBGGoQwQMMEAsgAiAAKQMINwMIIAIgAkEIaq1CgICAgNANhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBAjYCHCACQZCRxgA2AhggAiACQRBqNgIgIAJBGGoQwQMMDwsgACsDCCEDIAIgAkEQaq1CgICAgOANhDcDCCACIAM5AxAgASgCACABKAIEIAJCATcCJCACQQI2AhwgAkHspcYANgIYIAIgAkEIajYCICACQRhqEMEDDA4LIAIgACgCBDYCCCACIAJBCGqtQoCAgIDwDYQ3AxAgASgCACABKAIEIAJCATcCJCACQQI2AhwgAkGskcYANgIYIAIgAkEQajYCICACQRhqEMEDDA0LIAIgACkCBDcCCCACIAJBCGqtQoCAgICADoQ3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkHEkcYANgIYIAIgAkEQajYCICACQRhqEMEDDAwLIAEoAgBBzJHGAEEKIAEoAgQoAgwRAAAMCwsgASgCAEHWkcYAQQogASgCBCgCDBEAAAwKCyABKAIAQeCRxgBBDCABKAIEKAIMEQAADAkLIAEoAgBB7JHGAEEOIAEoAgQoAgwRAAAMCAsgASgCAEH6kcYAQQggASgCBCgCDBEAAAwHCyABKAIAQYKSxgBBAyABKAIEKAIMEQAADAYLIAEoAgBBhZLGAEEEIAEoAgQoAgwRAAAMBQsgASgCAEGJksYAQQwgASgCBCgCDBEAAAwECyABKAIAQZWSxgBBDyABKAIEKAIMEQAADAMLIAEoAgBBpJLGAEENIAEoAgQoAgwRAAAMAgsgASgCAEGxksYAQQ4gASgCBCgCDBEAAAwBCyABKAIAIAAoAgQgACgCCCABKAIEKAIMEQAACyACQTBqJAAL9AUCBX8BfiABQiCIIAFCEIinIQUCfyABpyIDQf//AXFFBEAgA0EQdAwBCyADQf8HcSEGIANBgIACcSECIANBgPgBcSIDQYD4AUYEQCACQRB0IQMgA0GAgID8B3IgBkUNARogAyAGQQ10ckGAgID+B3IMAQsgAkEQdCECIANBDXRBgICA/ABxIAZBDXRyQYCAgMADaiACciADDQAaIAYgBmdBEGsiBkH//wNxQQhqdEH///8DcSACQYCAgNgDciAGQRd0a3ILIQYgAUIwiCEBpyEDAn8gBUH//wFxBEAgBUH/B3EhAiAFQYCAAnEhBCAFQYD4AXEiBUGA+AFHBEAgBEEQdCEEIAVBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAEciAFDQIaIAIgAmdBEGsiBUH//wNxQQhqdEH///8DcSAEQYCAgNgDciAFQRd0a3IMAgsgBEEQdCEFIAUgAkENdHJBgICA/gdyIAINARogBUGAgID8B3IMAQsgBUEQdAshBSABpyECIAAgBv0RIAX9HAECfyADQf//AXEEQCADQf8HcSEEIANBgIACcSEAIANBgPgBcSIDQYD4AUcEQCAAQRB0IQAgA0ENdEGAgID8AHEgBEENdHJBgICAwANqIAByIAMNAhogBCAEZ0EQayIDQf//A3FBCGp0Qf///wNxIABBgICA2ANyIANBF3RrcgwCCyAAQRB0IQMgAyAEQQ10ckGAgID+B3IgBA0BGiADQYCAgPwHcgwBCyADQRB0C/0cAgJ/IAJB//8BcQRAIAJB/wdxIQQgAkGAgAJxIQAgAkGA+AFxIgJBgPgBRwRAIABBEHQhACACQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogAHIgAg0CGiAEIARnQRBrIgJB//8DcUEIanRB////A3EgAEGAgIDYA3IgAkEXdGtyDAILIABBEHQhAiACIARBDXRyQYCAgP4HciAEDQEaIAJBgICA/AdyDAELIAJBEHQL/RwD/QsEAAuOBgENfyAAIAAoAgQiCCAAKAIAIgNJQQJ0aiIFIABBDEEIIAAoAgwgACgCCEkiBBtqIgkgACADIAhNQQJ0aiIIIABBCEEMIAQbaiIDKAIAIAgoAgBJIgQbIAkoAgAiCyAFKAIAIgpJIgUbIgYoAgAhDCADIAggCSAFGyAEGyIHKAIAIQ0gAiALIAogBRsiCTYCACACIAcgBiAMIA1LIgUbKAIANgIEIAIgBiAHIAUbKAIANgIIIAJBDGoiCyAIIAMgBBsoAgAiCDYCACAAQRBqIgMgACgCFCIFIAAoAhAiBklBAnRqIgcgA0EMQQggACgCHCAAKAIYSSIKG2oiBCADIAUgBk9BAnRqIgAgA0EIQQwgChtqIgUoAgAgACgCAEkiBhsgBCgCACIKIAcoAgAiDEkiAxsiBygCACENIAUgACAEIAMbIAYbIgQoAgAhDiACQRBqIg8gCiAMIAMbIgM2AgAgAkEUaiAEIAcgDSAOSyIKGygCADYCACACQRhqIAcgBCAKGygCADYCACACQRxqIgcgACAFIAYbKAIAIgA2AgAgASAD/REgDyADIAlJQQJ0aiIFKAIAIgT9HAEgBSAEIAIgAyAJT0ECdGoiBigCACICSUECdGoiBSgCACID/RwCIAUgAyAGIAIgBE1BAnRqIgYoAgAiBElBAnRqIgooAgAiBf0cAyAJ/REgAv0cASAE/RwCIAYgAyAET0ECdGoiDCgCACIC/RwD/bcB/QsCACABIAdBfEEAIAAgCE8baiIBQXxBACABKAIAIgEgC0F8QQAgACAISRtqIgQoAgAiCU8baiIDQXxBACADKAIAIgMgBEF8QQAgASAJSRtqIgcoAgAiBE8baiILKAIAIgb9ESAD/RwBIAH9HAIgAP0cAyAHQXxBACADIARJG2oiASgCACIA/REgBP0cASAJ/RwCIAj9HAP9uQH9CwIQAkAgDCACIAVNQQJ0aiABQXxBACAAIAZLG2pBBGpGBEAgCiACIAVLQQJ0aiALQXxBACAAIAZNG2pBBGpGDQELEIAIAAsLrQYCBX8EfSMAQSBrIgQkAEEBIQUCQAJAAkAgAiACQQRBAyADQQFxGyIHbiIGIAdsRgRAIAZBAnQiBwRAQQAhBQJAIAdBAE4EQCAEQQA2AhggBEEIakEBIAcgBEEUahCFByAEKAIIQQFHDQEgBCgCECEGIAQoAgwhBQsgBCAGNgIYIAQgBTYCFEHgvsQAQTYgBEEUakHQvsQAQZi/xAAQ4AYACyAEKAIMIQULQQAhBiAEQQA2AhwgBCAFNgIYIAQgBzYCFCADQQFxDQEgAkEDbiIDQQJ0IgIEQCACIAdLBEAgBEEUakEAIAIQ7wUgBCgCHCEGIAQoAhghBQsgBSAGaiEHIAJBAWsiCARAIAdBACAI/AsACyAHIAhqQQA6AAAgAiAGaiEGCyAEIAY2AhwgBkECdiICIAMgAiADSRsiA0UNAgNAIAFBCGoqAgAhCyABQQRqKgIAIQpDAAB/QyEJIAEqAgAiDEMAAIA/XQR9IAxDAAAAABDgCEMAAH9DlAUgCQsQuQciDEMAAIC/XkUgDEMAAIBDXUVyDQQgCkMAAIA/XQR9IApDAAAAABDgCEMAAH9DlAUgCQsQuQciCkMAAIC/XkUgCkMAAIBDXUVyDQQgC0MAAIA/XQR9IAtDAAAAABDgCEMAAH9DlAUgCQsQuQciCUMAAIC/XkUgCUMAAIBDXUVyDQQgBSAM/AE6AAAgBUEDakH/AToAACAFQQJqIAn8AToAACAFQQFqIAr8AToAACABQQxqIQEgBUEEaiEFIANBAWsiAw0ACwwCC0H4vcQAQcUAQcC+xAAQ6wcACwJAAkAgAiAHSwRAIARBFGpBACACEO8FIAQoAhghBSAEKAIcIQMMAQtBACEDIAJFDQELA0BDAAB/QyEJIAEqAgAiC0MAAIA/XQR9IAtDAAAAABDgCEMAAH9DlAUgCQsQuQciCUMAAIC/XkUgCUMAAIBDXUVyDQMgAyAFaiAJ/AE6AAAgAUEEaiEBIANBAWohAyACQQFrIgINAAsLIAQgAzYCHAsgACAEKQIUNwIAIABBCGogBEEcaigCADYCACAEQSBqJAAPC0Gov8QAEN0JAAvABgEGfyMAQfAAayICJAACfwJAAkACQCAAKAIAIgFFDQACQCAAKAIIIgMgACgCBCIFTw0AIAEgA2otAABB1QBHDQBBASEEIAAgA0EBaiIDNgIICwJAAkACQCADIAVJBEAgASADai0AAEHLAEYNAQsgBEUNA0EAIQMMAQsgACADQQFqIgY2AggCQAJAIAUgBk0NACABIAZqLQAAQcMARw0AIAAgA0ECajYCCEEBIQFBxbPFACEDDAELIAJByABqIAAQ7wIgAigCSCIDRQRAIAItAEwhASAAKAIQIgQEQEEBIARB+rLFAEHqssUAIAFBAXEiBBtBGUEQIAQbEJcDDQgaCyAAIAE6AAQgAEEANgIAQQAMBwsgAigCTCIBBEAgAigCVEUNAQsgACgCECIBBEAgAUHqssUAQRAQlwMNBQsgAEEAOgAEIABBADYCAEEADAYLIARFDQELIAAoAhAiBARAIARBxrPFAEEHEJcDDQMLIANFDQELIAAoAhAiBARAIARBzbPFAEEIEJcDDQILIAJBATsBRCACIAE2AkAgAkEANgI8IAJBAToAOCACQd8ANgI0IAIgATYCMCACQQA2AiwgAiABNgIoIAIgAzYCJCACQd8ANgIgIAJBGGogAkEgahCuBCACKAIYIgEEQCAEBEAgBCABIAIoAhwQlwMNAwsgAkHIAGogAkEgakEo/AoAACAEIQEDQCABIQMCQANAIAMhBSACQRBqIAJByABqEK4EIAIoAhAiBkUNAUEAIQMgBUUNAAsgAigCFCEDIAVB6rPFAEEBEJcDDQRBACEBIARFDQEgBCIBIAYgAxCXAw0EDAELCyABRQ0BIAFB6LPFAEECEJcDRQ0BDAILQdizxQAQ3QkACyAAKAIQIgEEQCABQeuzxQBBAxCXAw0BCyACQQhqIAAQtwZBASACKAIIQQFxDQIaIAAoAhAiAQRAQQEgAUHejsgAQQEQlwMNAxoLIAAoAgAiA0UNASAAKAIIIgEgACgCBE8NASABIANqLQAAQfUARw0BIAAgAUEBajYCCEEADAILQQEMAQsgACgCECIBBEBBASABQe6zxQBBBBCXAw0BGgsgABCGAgsgAkHwAGokAAvLBgIIfwN+IwBBoAFrIgMkACABvCEEAn9BAyABi0MAAIB/Ww0AGkECIARBgICA/AdxIgdBgICA/AdGDQAaIARB////A3EiBUGAgIAEciAEQQF0Qf7//wdxIARBF3ZB/wFxIgYbIgitIgtCAYMhDCAHRQRAQQQgBUUNARogBkGWAWshBkIBIQ0gDFAMAQtCgICAECALQgGGIAhBgICABEYiBRshC0ICQgEgBRshDUHofkHpfiAFGyAGaiEGIAxQCyEHIAMgBjsBiAEgAyANNwOAASADQgE3A3ggAyALNwNwIAMgBzoAigECQAJAAkACQAJAAkACQAJAIAdB/wFxQQFNBEAgA0HgAGogA0HwAGogA0EHahDPASADKAJgRQ0BIANBmAFqIANB6ABqKAIANgIAIAMgAykCYDcDkAEMAgsgB0H/AXEiBUECRg0CIANBAjsBGEEBIQdB6rPFAEHIgcIAIARBAEgiBhtB6rPFAEEBIAYbIAIbIQZBASAEQR92IAIbIQIgBUEERg0DIANBAzYCICADQeydxgA2AhwMBwsgA0GQAWogA0HwAGogA0EHahBXCyADKAKUASIHRQ0CIAMoApABIgYtAABBME0NA0Hqs8UAQQEgBEEASCIFGyEIQeqzxQBByIHCACAFGyEJIARBH3YhCiADLgGYASEFIAMgBjYCHCADQQI7ARggA0EBNgIgIAdBAUYEQCADQSRqIQRBAyEHDAULIANBPGohBCADQQI7ATAgA0HsucUANgIoIANBAjsBJCADIAdBAWs2AjggA0EBNgIsIAMgBkEBajYCNEEFIQcMBAsgA0EDNgIgIANB853GADYCHCADQQI7ARhBASEGQQAhAkEBIQcMBAsgA0EDNgIgIANBu4PCADYCHAwDC0G+g8IAQSFBoITCABDrBwALQfCDwgBBH0GwhMIAEOsHAAsgCSAIIAIbIQZBASAKIAIbIQIgBEEBOwEMIARBAjsBACAEQQEgBWsgBUEBayAFQQBMIgUbOwEOIARBAkEBIAUbNgIIIARBwYTCAEHAhMIAIAUbNgIECyADIAc2AmwgAyACNgJkIAMgBjYCYCADIANBGGo2AmggACADQeAAahC+AyADQaABaiQAC8QHAg1/AnsjAEEwayICJAAgAS0AASIFIAEtAAAiBkEBdGohDEECIQ1BAiIDBEAgAUECaiEEA0AgDUEBdCENIAQtAAAgDEEBdGohDCAEQQFqIQQgA0EBayIDDQALCyABQQRqIQMgAkEAOgASIAJBAToAEwJ/IAUtAPD5RCAGLQDw+URPBEBBASEKIAUhCCAGIQVBAAwBCyACQQA6ABMgAkEBOgASIAYhCEEBCyEGQQIhBCACQQI2AiQgAkKAgICA8B83AhwgAiADNgIYIAIgATYCFAJAAkADQAJAAkACQCAERQRAIAIoAiAiA0UNBiACIANBAWs2AiAgAigCFCIEIAIoAhhHDQEMBgsgAkEANgIkIAJBCGohCwJAAkACQCAEIAJBFGoiAygCDCIHTwRAIAcNAQwCCyADIAcgBEF/c2o2AgwgAyADKAIAIgkgBGoiB0EBaiADKAIEIg4gBCAOIAlrIglJGzYCACAEIAlPDQEgAyADKAIIIARqIgRBAWo2AggMAgsgAyADKAIAIgkgB0EBayIEakEBaiADKAIEIg4gBCAOIAlrIglJGzYCACAEIAlJBEAgAyADKAIIIAdqNgIIC0EAIQcgA0EANgIMDAELQQAhBwsgCyAHNgIEIAsgBDYCACACKAIMIgRFDQUgAigCCCEDDAELIAIgBEEBajYCFCACIAIoAhwiA0EBajYCHAsgBC0AACIELQDw+UQiByAFQf8BcSILLQDw+URPBEACQCAEIAtGDQAgByAIQf8BcS0A8PlETw0AIANBgAJPDQIgAiADOgATIAMhCiAEIQgLIAIoAiQhBAwCCyACIAY6ABMgA0H/AUsNAiACIAM6ABIgBiEKIAMhBiAFIQggBCEFIAIoAiQhBAwBCwtB2ObIAEErIAJBL2pBiJbIAEHYmMgAEOAGAAtB2ObIAEErIAJBL2pBiJbIAEHomMgAEOAGAAsgBkH/AXEiCCAKQf8BcUYEQCACQQA2AhRBASACQRJqIAJBE2ogAkEUakHImMgAEPkHAAsCQCAIQQRJBEAgCkH/AXEiBUEETw0BIAEgBWr9BwAAIQ8gASAIav0HAAAhECAAQQQ2AnggACABNgJ0IABBADYCcCAAQRw2AmggACANNgJkIAAgDDYCYCAAQRo2AjAgACAKOgAlIAAgBjoAJCAAQQQgBSAGQf8BcSIBIAEgBUkbQRBqIgEgAUEETRs2AiAgACAP/QsEECAAIBD9CwQAIAJBMGokAA8LIAhBBEGImsgAEIwHAAsgBUEEQZiayAAQjAcAC58GAQd/IwBBMGsiBCQAIAEoAgAiBygCDCEGAkACQAJAIAcoAhQiAyAHKAIQIgJJBEADQCADIAZqLQAAIghBCWsiBUEXS0EBIAV0QZOAgARxRXINAiAHIANBAWoiAzYCFCACIANHDQALIAIhAwtBASEFIARBKGogBiACIANBAWoiASACIAEgAkkbEPkBIAQoAiwhAyAEKAIoIQFBFBBxIgJFDQIgAiABNgIMIAJBAzYCACAAIAI2AgQgAiADNgIQDAELIAhB/QBGBEBBACEFIABBADoAAQwBCwJAIAEtAARFBEAgA0EBaiEDIAhBLEYEQCAHIAM2AhQgAiADSwRAA0AgAyAGai0AACIBQQlrIgVBGUsNBEEBIAV0QZOAgARxRQRAIAVBGUcNBSAAQQE6AAFBACEFDAYLIAcgA0EBaiIDNgIUIAIgA0cNAAsgAiEDC0EBIQUgBEEQaiAGIAIgA0EBaiIBIAIgASACSRsQ+QEgBCgCFCEDIAQoAhAhAUEUEHEiAkUNBCACIAE2AgwgAkEFNgIAIAAgAjYCBCACIAM2AhAMAwsgBEEgaiAGIAIgAyACIAIgA0sbEPkBIAQoAiQhAyAEKAIgIQFBFBBxIgJFDQMgAiABNgIMIAJBCDYCACAAIAI2AgQgAiADNgIQQQEhBQwCC0EAIQUgAUEAOgAEIAhBIkcEQEEBIQUgBCAGIAIgA0EBaiIBIAIgASACSRsQ+QEgBCgCBCEDIAQoAgAhAUEUEHEiAkUNAyACIAE2AgwgAkERNgIAIAAgAjYCBCACIAM2AhAMAgsgAEEBOgABDAELQQEhBSABQf0ARwRAIARBCGogBiACIANBAWoiASACIAEgAkkbEPkBIAQoAgwhAyAEKAIIIQFBFBBxIgJFDQIgAiABNgIMIAJBETYCACAAIAI2AgQgAiADNgIQDAELIARBGGogBiACIANBAWoiASACIAEgAkkbEPkBIAQoAhwhAyAEKAIYIQFBFBBxIgJFDQEgAiABNgIMIAJBFTYCACAAIAI2AgQgAiADNgIQCyAAIAU6AAAgBEEwaiQADwsAC8gGAgd/An4jAEEwayIDJAACQAJAAkAgASgCFCICIAEoAhAiBEkEQCABKAIMIQgCfgJAA0AgAiAIai0AACIFQQlrIgZBF0tBASAGdEGTgIAEcUVyDQEgASACQQFqIgI2AhQgAiAERw0ACyAEIQJCAAwBC0KAAgsgBa1CEIaEQoCCuANRDQELIAACfQJAAkACQAJAAkAgA0EQaiABKAIMIgUgBCACIARJBH8DQAJAIAIgBWotAAAiBkEJaw4lAAAEBAAEBAQEBAQEBAQEBAQEBAQEBAQABAQEBAQEBAQEBAQEAwQLIAEgAkEBaiICNgIUIAIgBEcNAAsgBAUgAgtBAWoiASAEIAEgBEkbEPkBIAMoAhQhBCADKAIQIQFBFBBxIgJFDQggAiABNgIMIAJBBTYCACACIAQ2AhAMAwsgASACQQFqNgIUIANBGGogAUEAEMcDIAMpAxgiCkIDUQ0BIAMpAyAhCQJAAkAgCqdBAWsOAgABBQsgCbUMBQsgCbQMBAsgBkEwa0H/AXFBCk8EQCABIANBL2pB2OfAABDuASABEOsFIQIMAgsgA0EYaiABQQEQxwMgAykDGCIKQgNRDQAgAykDICEJAkACQAJAIAqnQQFrDgIBAgALIAm/tkMAAIA/QwAAgL8gCUIAWRuYDAULIAm1DAQLIAm0DAMLIAMoAiAhAgsgAEECNgIAIAAgAjYCBAwDCyAJv7ZDAACAP0MAAIC/IAlCAFkbmAs4AgQgAEEBNgIADAELIAEgAkEBaiIHNgIUAkACQAJAIAQgB00NACABIAJBAmoiBTYCFCAHIAhqLQAAQfUARw0BIAUgByAEIAQgB0kbIgdGDQAgASACQQNqIgY2AhQgBSAIai0AAEHsAEcEQCAGIQUMAgsgBiAHRg0AIAEgAkEEaiIFNgIUIAYgCGotAABB7ABHDQEgAEEANgIADAMLIAMgCCAEIAcQ+QEgAygCBCEEIAMoAgAhAUEUEHEiAkUNAyACQQU2AgAMAQsgA0EIaiAIIAQgBRD5ASADKAIMIQQgAygCCCEBQRQQcSICRQ0CIAJBCTYCAAsgAiABNgIMIAAgAjYCBCAAQQI2AgAgAiAENgIQCyADQTBqJAAPCwALzQYDA38BfAN9IwBBEGsiAiQAAkAgASgCAEGUgICAeEYEQAJ9AkAgAAJ/AkACQAJAAn0CQAJAIAEoAgwiBARAAn0CQAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCCCIBKAIAIgNBgICAgHhzIANBAE4bQQFrDgoKAAECAwQFBgcICQsgAS8BBLMMCgsgASgCBLMMCQsgASkDCLUMCAsgASwABLIMBwsgAS4BBLIMBgsgASgCBLIMBQsgASkDCLQMBAsgASoCBAwDCyABKwMIIgW2QwAAgD9DAACAvyAFvUIAWRuYDAILIAEgAkEPakHY58AAEJUIDAkLIAEtAASzCyEGIARBAUYNBAJAAkACQAJAAkACQAJAAkACQEEVIAEoAhAiA0GAgICAeHMgA0EAThtBAWsOCgsAAQIDBAUGBwgKCyABLwEUswwLCyABKAIUswwKCyABKQMYtQwJCyABLAAUsgwICyABLgEUsgwHCyABKAIUsgwGCyABKQMYtAwFCyABKgIUDAQLIAErAxgiBbZDAACAP0MAAIC/IAW9QgBZG5gMAwtBACACQQ9qQfThwAAQ2wYMBgsgAUEQaiACQQ9qQdjnwAAQlQgMBQsgAS0AFLMLIQcgBEECRg0CAkACQAJAAkACQAJAAkACQAJAQRUgASgCICIDQYCAgIB4cyADQQBOG0EBaw4KDQABAgMEBQYHCAoLIAEvASSzDA0LIAEoAiSzDAwLIAEpAyi1DAsLIAEsACSyDAoLIAEuASSyDAkLIAEoAiSyDAgLIAEpAyi0DAcLIAEqAiQMBgsgASsDKCIFtkMAAIA/QwAAgL8gBb1CAFkbmAwFC0EBIAJBD2pB9OHAABDbBgwCCyABQSBqIAJBD2pB2OfAABCVCAwBC0ECIAJBD2pB9OHAABDbBgs2AgQgAEEBNgIADAMLIAEtACSzCyEIIARBA0cEQCACQQM2AgggBEH9////AGpB/////wBxQQNqIAJBCGpB6JXBABDbBiEBIABBATYCACAAIAE2AgQMAgsgACAIOAIMIAAgBzgCCCAAIAY4AgQgAEEANgIADAELIAEgAkEPakH04cAAEJUIIQEgAEEBNgIAIAAgATYCBAsgAkEQaiQAC+4FAQp/IwBBQGoiBSQAIAVBADYCKCAFQQA2AjxBBCEHIAVBLGohCSAFQTxqIQwCQAJAAkACfyAEQQVJBEAgCSEKIAwMAQsgBUEIaiAFQShqQX8gBEEBa2d2QQFqEPUDIAUoAggiBkGBgICAeEcEQCAGDQJB2JXHAEERQdTMxwAQ6wcACyAFKAI8IgdBBUkEQCAHIQYgCSEKQQQhByAMDAELIAUoAiwhBiAFKAIwIQogCQshCyADIARBAnRqIQ0CQAJAIAsgBiAHSQR/AkAgBEH/////A3EiCCAHIAZBf3NqIgQgBCAISxsiCEEHTQ0AIAZBAnQgCmoiBCADa0EQSQ0AIAYgCEEBaiIIIAhBA3EiCEEEIAgbayIOaiEGIAMgDkECdGoDQCAEIAP9AAIA/QsCACADQRBqIQMgBEEQaiEEIA5BBGsiDg0ACyEDCyAKIAZBAnRqIQQDQCADIA1GDQIgBCADKAIANgIAIARBBGohBCADQQRqIQMgByAGQQFqIgZHDQALIAcFIAYLNgIAIAMgDUYNAQNAAn8gBSgCPCIHQQVJBEAgByEEIAkhC0EEIQcgDAwBCyAFKAIsIQQgBSgCMCELIAkLIQYgAygCACEKIAQgB0YEfyAFQShqENQGIAUoAjAhCyAJIQYgBSgCLAUgBAtBAnQgC2ogCjYCACAGIAYoAgBBAWo2AgAgA0EEaiIDIA1HDQALDAELIAsgBjYCAAsgBUEgaiAFQThqKQIANwMAIAUgBf0AAij9CwMQIAEgAksEQCAAIAJBGGxqIgQoAhQiAUEFTwRAIAQoAggiA0EEaygCACIAQXhxIgIgAUECdCIBQQRBCCAAQQNxIgAbakkNAyAAQQAgAiABQSdqSxsNBCADEKICCyAEIAX9AAMQ/QsCACAEQRBqIAVBIGopAwA3AgAgBUFAayQADwsgAiABQby7xwAQjAcLAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALigYCEX8BfiMAQTBrIgUkACAFQQxqrUKAgICAEIQhFCAALQAMIQwgACgCBCERIAAoAgAhECAAKAIIIglBBGohCgJ/A0ACQCANIhINACAEIQtBASENAkACfyACIAZPBEADQCABIAZqIQcCQAJAAkACQAJAAkACQAJAIAIgBmsiCEEITwRAIAdBA2pBfHEiBCAHRg0BIAQgB2shBEEAIQMDQCADIAdqLQAAQQpGDQkgBCADQQFqIgNHDQALIAQgCEEIayIDSw0DDAILIAIgBkYNA0EAIQMDQCADIAdqLQAAQQpGDQggA0EBaiIDIAhHDQALDAULIAhBCGshA0EAIQQLA0BBgIKECCAEIAdqIg8oAgAiE0GKlKjQAHNrIBNyQYCChAggD0EEaigCACIPQYqUqNAAc2sgD3JxQYCBgoR4cUGAgYKEeEcNASAEQQhqIgQgA00NAAsLIAQgCEcNAQsgAiEGIAsMBgsgBCAHaiEHIAIgBGsgBmshCEEAIQMDQCADIAdqLQAAQQpGDQIgCCADQQFqIgNHDQALCyACIQYgCwwECyADIARqIQMLIAMgBmoiA0EBaiEGAkAgAiADTQ0AIAEgA2otAABBCkcNAEEAIQ0gBiEEDAQLIAIgBk8NAAsLIAsLIQQgAiEDCwJAIAxBAXFFBEAgAEEBOgAMIBAEQCAFIBE2AgwgBSAUNwMQIAooAgAhCCAJKAIAIQwgBUEBNgIsIAVBiPDBADYCKCAFQQE2AiQgBUECNgIcIAVB4PjHADYCGCAFIAVBEGo2AiBBASAMIAggBUEYahDBAw0FGgwCCyAJKAIAQbyLwwBBBCAKKAIAKAIMEQAADQIMAQsgDkUNACAJKAIAQQogCigCACgCEBECAA0BIBAEQCAJKAIAQaDwwQBBByAKKAIAKAIMEQAADQIMAQsgCSgCAEG8i8MAQQQgCigCACgCDBEAAA0BCyAOQQFqIQ5BASEMIAkoAgAgASALaiADIAtrIAooAgAoAgwRAABFDQELCyASQQFzCyAFQTBqJABBAXEL4gYCBX8BfiMAQTBrIgIkACAAKAIAIQAgASgCACIDQeiyxQBBASABKAIEIgQoAgwiBREAACEGIAIgADYCDAJAAkACQAJAAkACQAJAIAYNAAJAIAEtAApBgAFxRQRAIAJBDGogARDEBCACIABBAWo2AgxFDQEMAwsgA0Hc+McAQQEgBREAAA0BIAJBAToAHyACIAQ2AhQgAiADNgIQIAJB4IHCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQxAQNASACKAIgQdmBwgBBAiACKAIkKAIMEQAAIAIgAEEBajYCDA0CCwJAIAEtAApBgAFxBEAgASkCACEHIAJBAToAHyACIAc3AhAgAkHggcIANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDEBA0DIAIoAiBB2YHCAEECIAIoAiQoAgwRAAAgAiAAQQJqNgIMRQ0BDAcLIAEoAgBB55DGAEECIAEoAgQoAgwRAAANAiACQQxqIAEQxAQgAiAAQQJqNgIMDQYLAkAgAS0ACkGAAXEEQCABKQIAIQcgAkEBOgAfIAIgBzcCECACQeCBwgA2AiQgAiABKQIINwIoIAIgAkEfajYCGCACIAJBEGo2AiAgAkEMaiACQSBqEMQEDQcgAigCIEHZgcIAQQIgAigCJCgCDBEAACACIABBA2o2AgxFDQEMBgsgASgCAEHnkMYAQQIgASgCBCgCDBEAAA0GIAJBDGogARDEBCACIABBA2o2AgwNBQsgAS0ACkGAAXFFDQIgASgCACEDIAEoAgQhBEEBIQAgAkEBOgAfIAIgBDYCFCACIAM2AhAgAkHggcIANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDEBA0EIAIoAiBB2YHCAEECIAIoAiQoAgwRAABFDQMMBgsgAiAAQQFqNgIMCyACIABBAmo2AgwMAwsgASgCAEHnkMYAQQIgASgCBCgCDBEAAA0BQQEhACACQQxqIAEQxAQNAyABKAIEIQQgASgCACEDCyADQemyxQBBASAEKAIMEQAAIQAMAgtBASEADAELIAIgAEEDajYCDEEBIQALIAJBMGokACAAC4IGAQF/AkACQCABIAMgBWwgBGoiA0kNAAJAIAEgA2siBEEDTQ0AIAAgA2oiBEH/ASACKAIAIAQtAABqIgZBACAGQQBKGyIGIAZB/wFOGzoAACAEQf8BIAIoAgQgBC0AAWoiBkEAIAZBAEobIgYgBkH/AU4bOgABIARB/wEgAigCCCAELQACaiIGQQAgBkEAShsiBiAGQf8BThs6AAIgBEH/ASACKAIMIAQtAANqIgRBACAEQQBKGyIEIARB/wFOGzoAAyABIAMgBWoiA0kNASABIANrIgRBBEkNACAAIANqIgRB/wEgAigCECAELQAAaiIGQQAgBkEAShsiBiAGQf8BThs6AAAgBEH/ASACKAIUIAQtAAFqIgZBACAGQQBKGyIGIAZB/wFOGzoAASAEQf8BIAIoAhggBC0AAmoiBkEAIAZBAEobIgYgBkH/AU4bOgACIARB/wEgAigCHCAELQADaiIEQQAgBEEAShsiBCAEQf8BThs6AAMgASADIAVqIgNJDQEgASADayIEQQRJDQAgACADaiIEQf8BIAIoAiAgBC0AAGoiBkEAIAZBAEobIgYgBkH/AU4bOgAAIARB/wEgAigCJCAELQABaiIGQQAgBkEAShsiBiAGQf8BThs6AAEgBEH/ASACKAIoIAQtAAJqIgZBACAGQQBKGyIGIAZB/wFOGzoAAiAEQf8BIAIoAiwgBC0AA2oiBEEAIARBAEobIgQgBEH/AU4bOgADIAEgAyAFaiIDSQ0BIAEgA2siBEEETw0CC0EAQQQgBEGY4sQAEOoHAAsgAyABIAFBqOLEABDqBwALIAAgA2oiAEH/ASACKAIwIAAtAABqIgFBACABQQBKGyIBIAFB/wFOGzoAACAAQf8BIAIoAjQgAC0AAWoiAUEAIAFBAEobIgEgAUH/AU4bOgABIABB/wEgAigCOCAALQACaiIBQQAgAUEAShsiASABQf8BThs6AAIgAEH/ASACKAI8IAAtAANqIgBBACAAQQBKGyIAIABB/wFOGzoAAwuBBgIHfwJ8IwBBIGsiBiQAQQEhCSABIAEoAhQiB0EBaiIFNgIUAkAgBSABKAIQIghPDQACQAJAIAEoAgwgBWotAABBK2sOAwECAAILQQAhCQsgASAHQQJqIgU2AhQLAkAgAAJ/AkACQAJAAn8CQAJAIAUgCEkEQCABIAVBAWoiBzYCFCABKAIMIgogBWotAABBMGtB/wFxIgVBCk8NAQJAIAcgCE8NAANAIAcgCmotAABBMGtB/wFxIgtBCk8NASABIAdBAWoiBzYCFCAFQcyZs+YARyALQQdLciAFQcuZs+YASnENBiAFQQpsIAtqIQUgByAIRw0ACyAIIQcLIAkNAiAEIAVrIgFBH3VBgICAgHhzIAEgASAESCAFQQBKcxsMAwsgBkEYaiABKAIMIAggBRD5ASAGKAIcIQIgBigCGCEEQRQQcSIBRQ0EIAEgBDYCDCABQQU2AgAgACABNgIEIABBATYCACABIAI2AhAMBwsgBkEQaiAKIAggBxD5ASAGKAIUIQIgBigCECEEQRQQcSIBRQ0DIAEgBDYCDCABQQ02AgAgACABNgIEIABBATYCACABIAI2AhAMBgsgBCAFaiIBQR91QYCAgIB4cyABIAVBAEggASAESHMbCyEFIAO6IQwCQAJAAkAgBSAFQR91IgFzIAFrIgFBtQJPBEADQCAMRAAAAAAAAAAAYQ0HIAVBAE4NAiAMRKDI64XzzOF/oyEMIAVBtAJqIgUgBUEfdSIBcyABayIBQbUCTw0ACwsgAUEDdCsDoIJHIQ0gBUEATg0BIAwgDaMhDAwFCyAGQQhqIAogCCAHEPkBIAYoAgwhAiAGKAIIIQQMAQsgDCANoiIMmUQAAAAAAADwf2INAyAGIAogCCAHEPkBIAYoAgQhAiAGKAIAIQQLQRQQcSIBRQ0BIAEgBDYCDCABQQ42AgAgACABNgIEIAEgAjYCEEEBDAMLIAAgASACIANQIAkQ7AUMAwsACyAAIAwgDJogAhs5AwhBAAs2AgALIAZBIGokAAvbBgIFfwF+IwBBMGsiAiQAIAEoAgAiA0HossUAQQEgASgCBCIEKAIMIgURAAAhBiACIAA2AgwCQAJAAkACQAJAAkACQCAGDQACQCABLQAKQYABcUUEQCACQQxqIAEQxAQgAiAAQQFqNgIMRQ0BDAMLIANB3PjHAEEBIAURAAANASACQQE6AB8gAiAENgIUIAIgAzYCECACQeCBwgA2AiQgAiABKQIINwIoIAIgAkEfajYCGCACIAJBEGo2AiAgAkEMaiACQSBqEMQEDQEgAigCIEHZgcIAQQIgAigCJCgCDBEAACACIABBAWo2AgwNAgsCQCABLQAKQYABcQRAIAEpAgAhByACQQE6AB8gAiAHNwIQIAJB4IHCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQxAQNAyACKAIgQdmBwgBBAiACKAIkKAIMEQAAIAIgAEECajYCDEUNAQwHCyABKAIAQeeQxgBBAiABKAIEKAIMEQAADQIgAkEMaiABEMQEIAIgAEECajYCDA0GCwJAIAEtAApBgAFxBEAgASkCACEHIAJBAToAHyACIAc3AhAgAkHggcIANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDEBA0HIAIoAiBB2YHCAEECIAIoAiQoAgwRAAAgAiAAQQNqNgIMRQ0BDAYLIAEoAgBB55DGAEECIAEoAgQoAgwRAAANBiACQQxqIAEQxAQgAiAAQQNqNgIMDQULIAEtAApBgAFxRQ0CIAEoAgAhAyABKAIEIQRBASEAIAJBAToAHyACIAQ2AhQgAiADNgIQIAJB4IHCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQxAQNBCACKAIgQdmBwgBBAiACKAIkKAIMEQAARQ0DDAYLIAIgAEEBajYCDAsgAiAAQQJqNgIMDAMLIAEoAgBB55DGAEECIAEoAgQoAgwRAAANAUEBIQAgAkEMaiABEMQEDQMgASgCBCEEIAEoAgAhAwsgA0HpssUAQQEgBCgCDBEAACEADAILQQEhAAwBCyACIABBA2o2AgxBASEACyACQTBqJAAgAAuOBgIGfwV+QQQhAyABKAIIIgRBBGooAgAhBSABAn4gBEEIaigCACIGIAEpAwAiCiAGrSIJIAkgClYbp0YEQEGokMgAKQMAIg1CCIghCyANpyEDIAkgDUL/AYNCBFINARoLIApCAXwLIgw3AwAgA0H/AXFBBEcEQCAAQoGAgICQgICAgH83AgAgACADrUL/AYMgC0IIhoQ3AggPCyABAn4CQCAGIAwgCSAJIAxWG6ciA2tBBE8EQCADIAVqKAAAIQZBBCEDQgAhCwwBC0EAIQZBqJDIACkDACINQgiIIQsgDachAyAJIA1C/wGDQgRSDQEaCyAMQgR8CyIKNwMAIANB/wFxQQRHBEAgACADOgAIIABCgYCAgJCAgICAfzcCACAAIAunIgE7AAkgACALQhiIPgIMIABBC2ogAUEQdjoAAA8LAkACQAJAAkAgAkH//wNxIgdBBU8EQCAHQQVrIgIEQCACEHEiAwRAIANBBGstAABBA3FFIAJFckUEQCADQQAgAvwLAAsgBEEIaigCACIFrSEJIAVC/////w8gCiAKQv////8PWhunayIIQQAgBSAITxsgAk8EQCAEQQRqKAIAIAogCSAJIApWG6dqIQQgAkEBRw0EIAMgBC0AADoAAAwFC0GokMgAKQMAIgtCCIghDCALpyEEIAtC/wGDQgRSDQYMBQsACyAFIAogCSAJIApWG6dqIQRBASEDDAELIAD9DAEAAAAAAACAXAgSACAAAAD9CwIADwsgAkUNACADIAQgAvwKAAALQgAhDEEEIQQLIAogAq18IQkLIAEgCTcDAAJAAkACQCAEQf8BcUEERwRAIABCgYCAgJCAgICAfzcCACAAIAStQv8BgyAMQgiGhDcCCCACRQ0BIANBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIAJqSQ0CIABBACABIAdBImpLGw0DIAMQogIPCyAAIAY2AgwgACACNgIIIAAgAzYCBCAAQQA2AgALDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALhwcBBn8jAEEwayICJAACQAJAAkACQAJAAkACQEEDIAAoAgAiA0GAgICAeHMgA0EAThtBAWsOBQECAwQFAAsgASgCAEGkrscAQREgASgCBCgCDBEAACEDDAULIAEoAgBBta7HAEENIAEoAgQoAgwRAAAhAwwEC0EBIQMgASgCACIEQdSuxwBBDyABKAIEIgcoAgwiBREAAA0DIABBBGohBgJAIAEtAApBgAFxRQRAIARBu7PFAEEBIAURAAANBSACIAY2AhwgASAAQQdqQcioxwAgAEEFakHYqMcAIABBBmpB6KjHACACQRxqQfioxwAQ7gVFDQEMBQsgBEHbgcIAQQIgBREAAA0EIAJBAToADyACIAc2AhQgAiAENgIQIAJB4IHCADYCICACIAEpAgg3AiQgAiACQQ9qNgIYIAIgAkEQajYCHCACIAY2AiwgAkEcaiAAQQdqQcioxwAgAEEFakHYqMcAIABBBmpB6KjHACACQSxqQfioxwAQ7gUNBCACKAIcQdmBwgBBAiACKAIgKAIMEQAADQQLIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwDC0EBIQMgASgCACIEQeOuxwBBByABKAIEIgYoAgwiBREAAA0CAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0EIAAoAgQgACgCCCABELUCRQ0BDAQLIARB24HCAEECIAURAAANAyACQQE6ACwgAiAGNgIUIAIgBDYCECACQeCBwgA2AiAgAiABKQIINwIkIAIgAkEsajYCGCACIAJBEGoiBDYCHCAAKAIEIAAoAgggAkEcahC1Ag0DIARB2YHCAEECEK8DDQMLIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwCCyABKAIAQequxwBBCiABKAIEKAIMEQAAIQMMAQsgAiAAQQhqNgIQIAEoAgBBhK/HAEEMIAEoAgQoAgwRAAAhAyACQQA6ACEgAiADOgAgIAIgATYCHCACQRxqQZCvxwBBCCAAQQRqQfSuxwAQjAVBmK/HAEEFIAJBEGpBxK7HABCMBSACLQAhIgEgAi0AICIEciEDIARBAXEgAUEBR3INACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQMMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEDCyACQTBqJAAgA0EBcQufBgIHfwF+IwBBMGsiBCQAAkACQAJAAkACQAJAAkACQAJAAkAgASgCFCICIAEoAhAiA0kEQCABKAIMIQcCfgJAA0AgAiAHai0AACIFQQlrIghBF0tBASAIdEGTgIAEcUVyDQEgASACQQFqIgI2AhQgAiADRw0ACyADIQJCAAwBC0KAAgsgBa1CEIaEQoCCuANRDQELAkAgBEEYaiABKAIMIgcgAyACIANJBH8gAUEMaiEIA0ACQCACIAdqLQAAQQlrIgVBGU0EQEEBIAV0QZOAgARxDQEgBUEZRg0ECyABIARBL2pBtOLAABDuASABEOsFIQIMDAsgASACQQFqIgI2AhQgAiADRw0ACyADBSACC0EBaiIBIAMgASADSRsQ+QEgBCgCHCEDIAQoAhghAUEUEHEiAkUNByACIAE2AgwgAkEFNgIAIAIgAzYCEAwJCyABQQA2AgggASACQQFqNgIUIARBIGogCCABEIICIAQoAiQhAiAEKAIgIgFBAkYNCCAEKAIoIQMCQCABQQFxBEAgA0EASA0DIANFDQEMBwsgA0EASA0DIAMNBgtBASEBDAcLIAEgAkEBaiIGNgIUAkAgAyAGTQ0AIAEgAkECaiIFNgIUIAYgB2otAABB9QBHDQMgBSAGIAMgAyAGSRsiBkYNACABIAJBA2oiCDYCFCAFIAdqLQAAQewARwRAIAghBQwECyAGIAhGDQAgASACQQRqIgU2AhQgByAIai0AAEHsAEcNAyAAQYCAgIB4NgIADAkLIARBCGogByADIAYQ+QEgBCgCDCEGIAQoAgghAUEUEHEiAkUNBSACQQU2AgAMAwtB2JrIABD/BwALQdiayAAQ/wcACyAEQRBqIAcgAyAFEPkBIAQoAhQhBiAEKAIQIQFBFBBxIgJFDQIgAkEJNgIACyACIAE2AgwgACACNgIEIABBgYCAgHg2AgAgAiAGNgIQDAQLIAMQcSIBDQELAAsgAwRAIAEgAiAD/AoAAAsgACADNgIIIAAgATYCBCAAIAM2AgAMAQsgAEGBgICAeDYCACAAIAI2AgQLIARBMGokAAvyBQIFfwJ9IAEqAgAQxgW8IgJB////A3EhAyACQYCAgIB4cSEFIAEqAgQCQCACQYCAgPwHcSIEQYCAgPwHRgRAIANBDXYgBUEQdnJBgARBACADG3JBgPgBciEFDAELIAVBEHYhBSAEQYCAgLgETQRAIARBgICAxANPBEAgAkEMdiACQf/fAHFBAEdxIARBDXYgA0ENdmpBgIABaiAFcmohBQwCCyAEQYCAgJgDSQ0BIANBgICABHIiAkH+ACAEQRd2IgNrdiEEIAJBHSADayIDdkEBcQR/IARBAyADdEEBayACcUEAR2oFIAQLIAVyIQUMAQsgBUGA+AFyIQULIAEqAgghCBDGBbwiAkH///8DcSEDIAJBgICAgHhxIQQCQCACQYCAgPwHcSIBQYCAgPwHRwRAIARBEHYhBCABQYCAgLgETQRAIAFBgICAxANPBEAgAkEMdiACQf/fAHFBAEdxIAFBDXYgA0ENdmpBgIABaiAEcmohBAwDCyABQYCAgJgDSQ0CIANBgICABHIiAkH+ACABQRd2IgNrdiEBIAJBHSADayIDdkEBcQR/IAFBAyADdEEBayACcUEAR2oFIAELIARyIQQMAgsgBEGA+AFyIQQMAQsgA0ENdiAEQRB2ckGABEEAIAMbckGA+AFyIQQLIAgQxgW8IgNB////A3EhBiADQYCAgIB4cSECAkAgA0GAgID8B3EiAUGAgID8B0cEQCACQRB2IQIgAUGAgIC4BE0EQCABQYCAgMQDTwRAIANBDHYgA0H/3wBxQQBHcSABQQ12IAZBDXZqQYCAAWogAnJqIQIMAwsgAUGAgICYA0kNAiAGQYCAgARyIgNB/gAgAUEXdiIGa3YhASADQR0gBmsiBnZBAXEEfyABQQMgBnRBAWsgA3FBAEdqBSABCyACciECDAILIAJBgPgBciECDAELIAZBDXYgAkEQdnJBgARBACAGG3JBgPgBciECCyAAIAI7ASAgACAEOwEeIAAgBTsBHAu7BwIFewd/IAJB//8DcSECIAFB//8DcSEKIAQgBEGgK3AiC2siDUGgK08EQCANIQwgAyEBA0D9DAAAAAAAAAAAAAAAAAAAAAAiBSAC/RwAIQYgBSAKQa0BbP0cACEHQQAhBANAIAEgBGoiAv0AAAAiCP2JAf0MIAAfAB4AHQAcABsAGgAZAP26ASAG/a4BIAj9igH9DBgAFwAWABUAFAATABIAEQD9ugH9rgEgAkEQav0AAAAiCf2JAf0MEAAPAA4ADQAMAAsACgAJAP26Af2uASAJ/YoB/QwIAAcABgAFAAQAAwACAAEA/boB/a4BIQYgBSAH/a4BIQcgCP19/X8gBf2uASAJ/X39f/2uASEFIARBIGoiBEGgK0cNAAsgBiAHQQX9qwH9rgEiBv0bASAG/RsAaiAG/RsCaiAG/RsDakHx/wNwIQIgAUGgK2ohASAF/RsAIApqIAX9GwFqIAX9GwJqIAX9GwNqQfH/A3AhCiAMQaArayIMQZ8rSw0ACwsgAyANaiEDIAtBIE8EQP0MAAAAAAAAAAAAAAAAAAAAACIFIAL9HAAhBkEAIAtB4D9xIgFrIQIgBSAKIAtBBXZs/RwAIQcgAyEEA0AgBP0AAAAiCP2JAf0MIAAfAB4AHQAcABsAGgAZAP26ASAG/a4BIAj9igH9DBgAFwAWABUAFAATABIAEQD9ugH9rgEgBEEQav0AAAAiCf2JAf0MEAAPAA4ADQAMAAsACgAJAP26Af2uASAJ/YoB/QwIAAcABgAFAAQAAwACAAEA/boB/a4BIQYgBEEgaiEEIAUgB/2uASEHIAj9ff1/IAX9rgEgCf19/X/9rgEhBSACQSBqIgINAAsgASADaiEDIAtBH3EhCyAF/RsAIApqIAX9GwFqIAX9GwJqIAX9GwNqIQogBiAHQQX9qwH9rgEiBv0bASAG/RsAaiAG/RsCaiAG/RsDaiECCwJAIAtFDQACQCALQQdxIgxFBEAgAyEEDAELIAMhAQNAIAogAS0AAGoiCiACaiECIAFBAWoiBCEBIAxBAWsiDA0ACwsgC0EISQ0AIAMgC2ohAQNAIAogBC0AAGoiAyAEQQFqLQAAaiIMIARBAmotAABqIg0gBEEDai0AAGoiCyAEQQRqLQAAaiIOIARBBWotAABqIg8gBEEGai0AAGoiECAEQQdqLQAAaiIKIBAgDyAOIAsgDSAMIAIgA2pqampqampqIQIgBEEIaiIEIAFHDQALCyAAIAJB8f8DcDsBAiAAIApB8f8DcDsBAAuzBwIFewh/IABB//8DcSEJIABBEHYhCCACIAJBoCtwIgprIgxBoCtPBEAgDCELIAEhAgNA/QwAAAAAAAAAAAAAAAAAAAAAIgMgCP0cACEEIAMgCUGtAWz9HAAhBUEAIQADQCAAIAJqIgj9AAAAIgb9iQH9DCAAHwAeAB0AHAAbABoAGQD9ugEgBP2uASAG/YoB/QwYABcAFgAVABQAEwASABEA/boB/a4BIAhBEGr9AAAAIgf9iQH9DBAADwAOAA0ADAALAAoACQD9ugH9rgEgB/2KAf0MCAAHAAYABQAEAAMAAgABAP26Af2uASEEIAMgBf2uASEFIAb9ff1/IAP9rgEgB/19/X/9rgEhAyAAQSBqIgBBoCtHDQALIAQgBUEF/asB/a4BIgT9GwEgBP0bAGogBP0bAmogBP0bA2pB8f8DcCEIIAJBoCtqIQIgA/0bACAJaiAD/RsBaiAD/RsCaiAD/RsDakHx/wNwIQkgC0GgK2siC0GfK0sNAAsLIAEgDGohASAKQSBPBED9DAAAAAAAAAAAAAAAAAAAAAAiAyAI/RwAIQRBACAKQeA/cSICayEIIAMgCSAKQQV2bP0cACEFIAEhAANAIAD9AAAAIgb9iQH9DCAAHwAeAB0AHAAbABoAGQD9ugEgBP2uASAG/YoB/QwYABcAFgAVABQAEwASABEA/boB/a4BIABBEGr9AAAAIgf9iQH9DBAADwAOAA0ADAALAAoACQD9ugH9rgEgB/2KAf0MCAAHAAYABQAEAAMAAgABAP26Af2uASEEIABBIGohACADIAX9rgEhBSAG/X39fyAD/a4BIAf9ff1//a4BIQMgCEEgaiIIDQALIAQgBUEF/asB/a4BIgT9GwEgBP0bAGogBP0bAmogBP0bA2ohCCAKQR9xIQogA/0bACAJaiAD/RsBaiAD/RsCaiAD/RsDaiEJIAEgAmohAQsCQCAKRQ0AAkAgCkEHcSILRQRAIAEhAAwBCyABIQIDQCAJIAItAABqIgkgCGohCCACQQFqIgAhAiALQQFrIgsNAAsLIApBCEkNACABIApqIQEDQCAJIAAtAABqIgIgAEEBai0AAGoiCyAAQQJqLQAAaiIMIABBA2otAABqIgogAEEEai0AAGoiDSAAQQVqLQAAaiIOIABBBmotAABqIg8gAEEHai0AAGoiCSAPIA4gDSAKIAwgCyACIAhqampqampqaiEIIABBCGoiACABRw0ACwsgCUHx/wNwIAhB8f8DcEEQdHILrAcCAn8BeyMAQYDSAGsiAyQAAkACQAJAAkACQAJAAkACQCABQf8BcUEBaw4FAAIDBAUBC0GAgAgQcSIERQ0FIARBBGstAABBA3EEQCAEQQBBgIAI/AsACyADQUBrQQBBwNEA/AsAQajTABBxIgFFDQUgAUGAgICAeDYCZCABQgE3AlwgAUKAgAg3AlQgASAENgJQIAFCgICAgICAgAE3AkggAUKAgICAEDcCQCABIAL9AAIA/QsCACABQTBqIAJBMGr9AAIA/QsCACABQSBqIAJBIGr9AAIA/QsCACABQRBqIAJBEGr9AAIA/QsCACABQegAaiADQQxqQfTRAPwKAAAgAUHc0gBqQQBBwQD8CwAgAUEAOwGkUyABQQA2AqBTQajewQAhAgwGC0G4BRBxIgFFDQQgAUEANgKwBSABQoCAgIAQNwOoBSABQYGAgIB4NgKcBSABIAL9AAIA/QsCACABQTBqIAJBMGr9AAIA/QsCACABQSBqIAJBIGr9AAIA/QsCACABQRBqIAJBEGr9AAIA/QsCAEGQ3sEAIQIMBQtBzAAQcSIBRQ0DIAFBADYCSCABQoCAgIAQNwJAIAEgAv0AAgD9CwIAIAFBMGogAkEwav0AAgD9CwIAIAFBIGogAkEgav0AAgD9CwIAIAFBEGogAkEQav0AAgD9CwIAQcDewQAhAgwEC0HMABBxIgFFDQIgAUEANgJIIAFCgICAgBA3AkAgASAC/QACAP0LAgAgAUEwaiACQTBq/QACAP0LAgAgAUEgaiACQSBq/QACAP0LAgAgAUEQaiACQRBq/QACAP0LAgBB2N7BACECDAMLQcwAEHEiAUUNASABQQA2AkggAUKAgICAEDcCQCABIAL9AAIA/QsCACABQTBqIAJBMGr9AAIA/QsCACABQSBqIAJBIGr9AAIA/QsCACABQRBqIAJBEGr9AAIA/QsCAEHw3sEAIQIMAgtBgAMQcSIBRQ0AIAFBAjYCiAEgAUECNgIAIAH9DAAAAAAAAAAAAAAAAAAAAAD9CwO4AiABIAX9CwPgAiABIAL9AAIA/QsC+AEgAUHIAmogBf0LAwAgAUHYAmpCgICAgBA3AwAgAUH1AmpCADcAACABQfACakIANwMAIAFBiAJqIAJBEGr9AAIA/QsCACABQZgCaiACQSBq/QACAP0LAgAgAUGoAmogAkEwav0AAgD9CwIAQYjfwQAhAgwBCwALIAAgAjYCBCAAIAE2AgAgA0GA0gBqJAALkgYBBn8CQAJAAkACQAJAAkAgAEEgSQ0AIABB/wBJBEBBASEDDAYLAkAgAEGAgARPBEAgAEGAgAhJDQEgAEHg//8AcUHgzQpHIABB/v//AHFBnvAKR3EgAEHwgzhJcSAA/RH9DMBI/f9QMf3/EBT9/wAI/f/9rgH9DPn////x////8P///132///9PP1TQX9zcSAAQYCADGtBnnRJcSAAQdCmDGtBe0lxIABBgII4a0GwxVRJcSEDDAcLIABBCHZB/wFxIQUDQCABQQJqIQYgAiABLQC7gUMiA2ohBCAFIAEtALqBQyIBRwRAIAEgBUsNByAEIQIgBiIBQdAARw0BDAcLIAIgBEsgBEGiAktyDQUgAkGKgsMAaiEBA0AgA0UEQCAEIQIgBiIBQdAARw0CDAgLIANBAWshAyABLQAAIAFBAWohASAAQf8BcUcNAAsLDAELIABBCHZB/wFxIQUDQCABQQJqIQYgAiABLQCt+0IiA2ohBCAFIAEtAKz7QiIBRwRAIAEgBUsNBCAEIQIgBiIBQdgARw0BDAQLIAIgBEsgBEHQAUtyDQIgAkGE/MIAaiEBA0AgA0UEQCAEIQIgBiIBQdgARw0CDAULIANBAWshAyABLQAAIAFBAWohASAAQf8BcUcNAAsLC0EAIQMMBAsgAiAEQdABQeiGwwAQ6gcACyAAQf//A3EhAkEBIQNBACEBA0AgAUEBaiEEAkAgASwA1P1CIgBBAE4EQCAEIQEMAQsgBEHmA0cEQCABQdX9wgBqLQAAIABB/wBxQQh0ciEAIAFBAmohAQwBC0HYhsMAEN0JAAsgAiAAayICQQBIDQMgA0EBcyEDIAFB5gNHDQALDAILIAIgBEGiAkHohsMAEOoHAAtBASEDQQAhAQNAIAFBAWohBAJAIAEsAKyEQyICQQBOBEAgBCEBDAELIARBqQJHBEAgAUGthMMAai0AACACQf8AcUEIdHIhAiABQQJqIQEMAQtB2IbDABDdCQALIAAgAmsiAEEASA0BIANBAXMhAyABQakCRw0ACwsgA0EBcQvCBgILfwR7IwBBIGsiCSQAAkACQAJAAkACQCADIAQgBWwiCmoiC0EBayIGIAFNBEAgBEEBayAFbCADaiIEQQFrIgcgBk8NASAEIAZLDQIgASAGayEMIAQgBkYEQCABIAprIANrIQRBACEAIAIhAwNAIAAgDE8NBSACIARLDQYgBCAFayEEIAAgBWohACADQQFrIgMNAAsMBgsgACAGaiEOIAAgB2otAAAhDyAAIARqIQ0gBiAEayIBIAIgASACSRsiBkEBcSEQIAZBEHEhAyAAIAtqIQtBACEHA0AgBSAHbCIAIAxPDQQgAiAMIABBAWoiAWsiBEsNBSAAIA5qLQAAIA9rIQogASAOaiEEQQAhAQJAIAZBEEkgB0EBaiIHIAVsQRBJckUEQCAEIAr9ESIRIA39AAAAIhL9iQH9qQH9rgH9DAAAAAAAAAAAAAAAAAAAAAD9uAH9DP8AAAD/AAAA/wAAAP8AAAAiFP22ASARIBIgEf0NBAUGBwAAAAAAAAAAAAAAAP2JAf2pAf2uASAT/bgBIBT9tgH9hgEgESASIBH9DQgJCgsAAAAAAAAAAAAAAAD9iQH9qQH9rgEgE/24ASAU/bYBIBEgEiAR/Q0MDQ4PAAAAAAAAAAAAAAAA/YkB/akB/a4BIBP9uAEgFP22Af2GAf1m/QsAACAGIAMiAUYNAQsgAUEBciEAIBAEQCABIARqQf8BIAogASANai0AAGoiAUEAIAFBAEobIgEgAUH/AU4bOgAAIAAhAQsgACAGRg0AIAEgC2ohACABIA1qIQQgBiABayEBA0AgAEH/ASAKIAQtAABqIghBACAIQQBKGyIIIAhB/wFOGzoAACAAQQFqQf8BIAogBEEBai0AAGoiCEEAIAhBAEobIgggCEH/AU4bOgAAIABBAmohACAEQQJqIQQgAUECayIBDQALCyAFIAtqIQsgAiAHRw0ACwwFCyAJQQA2AhggCUEBNgIMIAlBiILIADYCCCAJQgQ3AhAgCUEIakHo4sQAEI0IAAsgByAGQfjixAAQjAcACyAEIAYgBkGo48QAEOoHAAsgACAMQYjjxAAQjAcAC0EAIAIgBEGY48QAEOoHAAsgCUEgaiQAC78GAQR/IAAgAWohAgJAAkAgACgCBCIDQQFxDQAgA0ECcUUNASAAKAIAIgMgAWohASAAIANrIgBB2LrJACgCAEYEQCACKAIEQQNxQQNHDQFB0LrJACABNgIAIAIgAigCBEF+cTYCBCAAIAFBAXI2AgQgAiABNgIADAILIAAgAxDWBAsCQAJAAkAgAigCBCIDQQJxRQRAIAJB3LrJACgCAEYNAiACQdi6yQAoAgBGDQMgAiADQXhxIgMQ1gQgACABIANqIgFBAXI2AgQgACABaiABNgIAIABB2LrJACgCAEcNAUHQuskAIAE2AgAPCyACIANBfnE2AgQgACABQQFyNgIEIAAgAWogATYCAAsgAUGAAk8EQEEfIQIgAEIANwIQIAFB////B00EQCABQSYgAUEIdmciA2t2QQFxIANBAXRrQT5qIQILIAAgAjYCHCACQQJ0QbC3yQBqIQRBASACdCIDQcy6yQAoAgBxRQRAIAQgADYCACAAIAQ2AhggACAANgIMIAAgADYCCEHMuskAQcy6yQAoAgAgA3I2AgAPCwJAAkAgASAEKAIAIgMoAgRBeHFGBEAgAyECDAELIAFBGSACQQF2a0EAIAJBH0cbdCEFA0AgAyAFQR12QQRxaiIEKAIQIgJFDQIgBUEBdCEFIAIhAyACKAIEQXhxIAFHDQALCyACKAIIIgEgADYCDCACIAA2AgggAEEANgIYIAAgAjYCDCAAIAE2AggPCyAEQRBqIAA2AgAgACADNgIYIAAgADYCDCAAIAA2AggPCwJ/Qci6yQAoAgAiAkEBIAFBA3Z0IgNxRQRAQci6yQAgAiADcjYCACABQfgBcUHAuMkAaiIBDAELIAFB+AFxIgNBwLjJAGohASADQci4yQBqKAIACyECIAEgADYCCCACIAA2AgwgACABNgIMIAAgAjYCCA8LQdy6yQAgADYCAEHUuskAQdS6yQAoAgAgAWoiATYCACAAIAFBAXI2AgQgAEHYuskAKAIARw0BQdC6yQBBADYCAEHYuskAQQA2AgAPC0HYuskAIAA2AgBB0LrJAEHQuskAKAIAIAFqIgE2AgAgACABQQFyNgIEIAAgAWogATYCAAsL3HkDH38IfgJ7IwBBEGsiFSQAAkAgASkDGEICUgRAIAFBGGohIiABQcgAaiERIAEoAgwhCSABKAIIIQsDQCABKAIAIQcCQCAJIAtLDQAgASgCBCIIIAEoAhAiBmsiBQRAIAYgB2pBACAF/AsACyAVICIgByAIEKYDIBUtAABBBEYEQCAIIBUoAgQiCU8EQCABIAg2AhAgASAJNgIMQQAhCyABQQA2AggMAgtBtJvHAEE2QeybxwAQ6wcACyAVKAIEIQYgFSgCACEFIBUxAAAgASAINgIQIAFCADcDCEEAIQlBACELQgRRDQAgACAGNgIEIAAgBTYCAAwDCyABKQNQISkgASkDSCEqQQRBACAJIAtGIiAbISEjAEEwayIMJAAgESADNgIwIBEgCSALayIGNgIkIBEgAjYCLCARIAcgC2oiHzYCICARKAI8IgQtAAAiBUEMRgRAIARBDToAAEENIQULIBEpAxghJyARKQMQISggBCADNgJ0IAQgBjYCcCAEQQA2AlAgBCADNgJMIAQgAjYCSCAEIB82AjggBCAhOgAEIAQgBiAfajYCPCAEQcEAaiEUIARBCGohGSAEQYTsAGohDiAEQYTnAGohGiAEQaQBaiEdIARB9CpqIRsgBEHE1ABqIRcgBEHIAGohEwJAAkACQAJAA0AgBSEGQRIhBUEBIQgCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAGQf8BcUEBaw4eHBsaDQwLCgkCARkYCBcdBx8WFRQGBRMSHgARECEPDgsgBCgCJCIJIAQoAiAiECAEKAIcIg1qIgtPDQMgBCgCOCEGIAQtAEAhBSAEKQMwISMDQEJ/IAQ1ApQBhkJ/hSElIAQoAjwhEiAELQCYASEIAkACQAJAAkACQAJAAkACQAJAAkACQANAICMgJYOnIQ9BgAQhCkGo58gAIQcCQAJAAkACQCAIQQFrDgMAAQIDC0G0CiEKIB0hBwwCC0G0CiEKIBshBwwBC0HQBCEKIBchBwsgCiAPTQ0BIAcgD0ECdGooAQAiCkEYdiIPIAVB/wFxSwRAIAYgEkYNECAGMQAAISQgBCAFQQhqIgc6AEAgBCAGQQFqIgY2AjggBCAkIAWthiAjhCIjNwMwIAchBQwBCwsgCkH//wNxIgdBEE8EQCAFQf8BcSEIAkACQAJAAkAgB0EQaw4CAQIACwJAIAggD0EHaiIKTwRAIAUhBwwBCyAGIQgDQCAIIBJGDRQgBCAIQQFqIgY2AjggBCAFQQhqIgc6AEAgBCAIMQAAIAWthiAjhCIjNwMwIAYhCCAKIAciBUH/AXFLDQALCyAEIAcgD2tBB2siBToAQCAEICMgD62IIiRCB4giIzcDMCALICSnQf8AcUELaiILIAlqIgdJDQogCUHAAksNCyALQcACIAlrIghLDQwgC0EBdCIIBEAgGiAJQQF0akEAIAj8CwALIAQgBzYCJCAHIQkMDgsCQCAIIA9BAmoiCk8EQCAFIQcMAQsgBiEIA0AgCCASRg0TIAQgCEEBaiIGNgI4IAQgBUEIaiIHOgBAIAQgCDEAACAFrYYgI4QiIzcDMCAGIQggCiAHIgVB/wFxSw0ACwsgBCAHIA9rIgU6AEAgBCAjIA+tiCIkNwMwIAkNASAEQRo2AogBIARB5IDAADYChAEMLgsCQCAIIA9BA2oiCk8EQCAFIQcMAQsgBiEIA0AgCCASRg0SIAQgCEEBaiIGNgI4IAQgBUEIaiIHOgBAIAQgCDEAACAFrYYgI4QiIzcDMCAGIQggCiAHIgVB/wFxSw0ACwtBfSEIIAQgByAPa0EDayIFOgBAIAQgIyAPrYgiJEIDiCIjNwMwIAsgJKdBB3FBA2oiCiAJaiIHSQ0FIAlBwAJLDQYgCkHAAiAJayIISw0HIApBAXQiCARAIBogCUEBdGpBACAI/AsACyAEIAc2AiQgByEJDAwLIAlBAWshByAJQcACSw0CIBogB0EBdGovAQAhDSAEIAVBAmsiBToAQCAEICRCAogiIzcDMCALICSnQQNxIghBA2oiCiAJakkEQCAEQRo2AogBIARB5IDAADYChAEMLQsgCkHAAiAJayIHSw0DIBogCUEBdGohByAIQQJq/REiK/0MAAAAAAEAAAACAAAAAwAAAP1AIiz9GwBBAXEEQCAHIA07AQALICz9GwFBAXEEQCAHQQJqIA07AQALICz9GwJBAXEEQCAHQQRqIA07AQALICz9GwNBAXEEQCAHQQZqIA07AQALICv9DAQAAAAFAAAABgAAAAcAAAD9QCIr/RsAQQFxBEAgB0EIaiANOwEACyAr/RsBQQFxBEAgB0EKaiANOwEACyAr/RsCQQFxBEAgB0EMaiANOwEACyAr/RsDQQFxBEAgB0EOaiANOwEACyAEIAQoAiQgCmoiCTYCJCAEKAIgIRAgBCgCHCENDAsLIAQgBSAPayIFOgBAIAQgIyAPrYgiIzcDMCAJQcACSQ0JIAlBwAJB1PzIABCMBwALIA8gCkHc+cgAEIwHAAsgB0HAAkH0+8gAEIwHAAtBACAKIAdBhPzIABDqBwALIARBGjYCiAEgBEHkgMAANgKEAUEeIQYMKAsgCUHAAkHAAkGk/MgAEOoHAAtBACAKIAhBlPzIABDqBwALIARBGjYCiAEgBEHkgMAANgKEAQwkCyAJQcACQcACQcT8yAAQ6gcAC0EAIAsgCEG0/MgAEOoHAAsgBCAJQQFqIgc2AiQgGiAJQQF0aiAKOwEAIAchCQsgCSANIBBqIgtJDQALDAMLQXwhCAwfC0F+IQgMHgtBACEIQRohBgwdCyAELwGEa0UEQCAEQSU2AogBIARB7c7AADYChAEMHAsCQAJAAkAgDUHBAkkEQCAMQRhqIgZBASAaIA0gG0G0CkEKIA4QrQEgDCgCGA0BIAwoAiAhBSAEIAwoAhw2ApQBIARBAjoAmAEgBCAFNgIoIAQoAhwiCEHAAksNAiAEKAIgIgdBwAIgCGsiBUsNAyAGQQIgGiAIQQF0aiAHIBdB0ARBCSAOEK0BIAwoAhhFBEAgDCgCICEGIAwoAhwhBSAEQQM6AKABIAQgBTYCnAEgBCAGIAQoAihqNgIoQREhBSAELQAEQQZHDR9BACEIQREhBgwhCyAEQRY2AogBIARBzoDAADYChAEMHwtBACANQcACQeT7yAAQ6gcACyAEQRw2AogBIARBgIDAADYChAEMHQsgCEHAAkHAAkHU+8gAEOoHAAtBACAHIAVBxPvIABDqBwALQRchBSAEKAJgIglFDRkgBCkDMCEjAkAgBC0AQCIIIAlPBEAgCCEKDAELIAQoAjghBiAEKAI8IQsDQCAGIAtGBEBBACEIQRYhBgweCyAEIAZBAWoiBzYCOCAEIAhBCGoiCjoAQCAEIAYxAAAgCK2GICOEIiM3AzAgByEGIAkgCiIIQf8BcUsNAAsLIAQgCiAJazoAQCAEICMgCa2INwMwIAQgBCgCZCAJajYCZCAEIAQoAlwgI0J/IAlBP3GthkJ/hYOnajYCXAwZC0J/IAQ1ApwBhkJ/hSElIAQoAjghBiAELQBAIQUgBCgCPCEPIAQpAzAhIyAELQCgASEQAkACQAJAAkADQCAjICWDpyEIQSAhCkGo98gAIQcCQAJAAkACQCAQQQFrDgMAAQIDC0G0CiEKIB0hBwwCC0G0CiEKIBshBwwBC0HQBCEKIBchBwsgCCAKTw0CAkACQCAHIAhBAnRqKAEAIghBGHYiCyAFQf8BcUsEQCAGIA9HDQEMBwsgCEEQdiIJQf8BcUEPTQ0BIAshBwwDCyAGMQAAISQgBCAFQQhqIgc6AEAgBCAGQQFqIgY2AjggBCAkIAWthiAjhCIjNwMwIAchBQwBCwsgC0EfcSENIAhB//8DcSEKQn8gCSALakE/ca2GQn+FISUDQCAjICWDpyANdiAKaiEIQSAhB0Go98gAIQkCQAJAAkACQCAQQQFrDgMAAQIDC0G0CiEHIB0hCQwCC0G0CiEHIBshCQwBC0HQBCEHIBchCQsgByAITQ0DIAkgCEECdGooAQAiCEEYdiIHIAtqQf8BcSAFQf8BcUsEQCAGIA9GDQUgBjEAACEkIAQgBUEIaiIHOgBAIAQgBkEBaiIGNgI4IAQgJCAFrYYgI4QiIzcDMCAHIQUMAQsLIAQgBCgCZCALajYCZCAFIAtrIQUgCEEQdiEJICMgC62IISMLIAQgBSAHazoAQCAEICMgB62INwMwIAlBwABxRQRAIAQgCUEPcTYCYCAEIAhB//8DcTYCXEEWIQUMHAsgBEEWNgKIASAEQefQwAA2AoQBDBwLIAggCkHs+cgAEIwHAAsgCCAHQez5yAAQjAcAC0EAIQhBFSEGDBoLQQshBSAELQADIgtFDRcCQCAELQBAIgpBH0sNAEEAIQhBECEGIAQoAjgiDSAEKAI8IglGDRogBCANQQFqIgc2AjggBCAKrSImQgh8IiM8AEAgBCAEKQMwIA0xAAAgJoaEIiQ3AzAgCkEXSw0AIAcgCUYNGiAEIA1BAmoiBzYCOCAEICZCEHwiJTwAQCAEIA0xAAEgI4YgJIQiJDcDMCAKQQ9LDQAgByAJRg0aIAQgDUEDaiIHNgI4IAQgJkIYfCIjPABAIAQgDTEAAiAlhiAkhCIkNwMwIApBB0sNACAHIAlGDRogBCANQQRqNgI4IAQgCkEgcjoAQCAEIA0xAAMgI4YgJIQ3AzALIAQgBCgCUCIHIAQoAlRqNgJUIAQoAnghBgJ/AkACQCALQQRxBEAgBkUEQCAEIAQoAnwgBCgCSCAHEN8CNgJ8IAQpAzAhIwwCCyAEIAQoAoABIAQoAkggBxCpASIGNgJ8IAQgBjYCgAEgBCgCeCEGCyAEKQMwISMgBg0BCyAjpyIGQRh0IAZBgP4DcUEIdHIgBkEIdkGA/gNxIAZBGHZycgwBCyAjpwshBiAEIAQoAkwgBCgCUGs2AnQCQCAELQADQQRxBEAgBiAEKAJ8Rw0BCyAEQQA6AEAgBEIANwMwDBgLIARBFTYCiAEgBEHAz8AANgKEAQwYCyAELQABIgZBAXEEQCAEIAQtAEAiBUH4AXE6AEAgBCAEKQMwIAVBB3GtiDcDMEEQIQUMFwsgBCkDMCEjIAQtAEAiBUECTQRAIAQoAjgiByAEKAI8RgRAQQAhCEENIQYMGgsgBCAHQQFqNgI4IAcxAAAgBa2GICOEISMgBUEIciEFCyAEIAVBAWs6AEAgBCAjQgGIIiQ3AzAgBCAjp0EBcSAGcjoAAQJAAkACQAJAICSnQQNxQQFrDgMBAgMACyAEIAVBA2s6AEAgBCAjQgOINwMwQQ4hBQwZC0EAIQggBEEAOgCgASAEQQU2ApwBIARBADoAmAEgBEEJNgKUASAEIAVBA2s6AEAgBCAjQgOINwMwQREhBUERIQYgBC0ABEEGRw0YDBoLIAQgBUEDazoAQCAEICNCA4g3AzBBGCEFDBcLIARBEzYCiAEgBEG40MAANgKEAUF9IQggBCAFQQNrOgBAIAQgI0IDiDcDMEEeIQYMGAsCQCAEKAJ4IgpBgARxBEACQCAELQBAIgtBD0sNAEEAIQhBCCEGIAQoAjgiCSAEKAI8IgdGDRogBCAJQQFqIgU2AjggBCALrSIkQgh8IiM8AEAgBCAEKQMwIAkxAAAgJIaEIiQ3AzAgC0EHSw0AIAUgB0YNGiAEIAlBAmo2AjggBCALQRByOgBAIAQgCTEAASAjhiAkhDcDMAsgBC0AA0EEcQRAIAQvAXwgBCgCMEcNAgsgBEEAOgBAIARCADcDMAsgBCgCjAEiBQRAIAUgCkEJdkEBcTYCLCAEKAKMAUEBNgIwIAQoAnghCgtBDCEFIAQtAANBBHFFIApFcg0WIARCADcCfAwWCyAEQRQ2AogBIARB88/AADYChAEMFgsCQCAEKAJ4Ig9BgCBxBEBBByEGIAQoAnANAUEAIQgMGAtBCCEFIAQoAowBIgZFDRUgBkEANgIkDBULAkAgBCgCPCIIIAQoAjgiCUYEQEEAIQcMAQsgCCAJayEHQQAhBQNAIAUgCWotAAAEQCAJIAVBAWoiBWogCEcNAQwCCwsgBUEBaiEHCwJAIAQoAowBIgVFDQAgBSgCJCIIRQ0AIAUoAigiBSAEKAJYIgtPBEAgBSALayIFIAcgBSAHSRsiBQRAIAggC2ogCSAF/AoAAAsgBCAEKAJYIAVqNgJYIAQoAnghDwwBC0GA+8gAQRJBlPvIABCrBwALAkAgD0GABHFFDQAgBC0AA0EEcUUNACAEIAQoAnwgCSAHEKkBNgJ8C0EBIQoCQCAHRQ0AIAcgCWpBAWsiBUUNACAFLQAAQQBHIQoLIAQgBCgCPCIIIAQoAjggB2oiBSAFIAhLGyIHNgI4QQghBSAKRSAHIAhHcg0UQQAhCAwWCwJAAkAgBCgCeCIPQYAQcQRAQQYhBiAEKAJwDQFBACEIDBgLIAQoAowBIgVFDQEgBUEANgIcDAELAkAgBCgCPCIIIAQoAjgiCUYEQEEAIQcMAQsgCCAJayEHQQAhBQNAIAUgCWotAAAEQCAJIAVBAWoiBWogCEcNAQwCCwsgBUEBaiEHCwJAIAQoAowBIgVFDQAgBSgCHCIIRQ0AIAUoAiAiBSAEKAJYIgtPBEAgBSALayIFIAcgBSAHSRsiBQRAIAggC2ogCSAF/AoAAAsgBCAEKAJYIAVqNgJYIAQoAnghDwwBC0Hc+sgAQRJB8PrIABCrBwALAkAgD0GABHFFDQAgBC0AA0EEcUUNACAEIAQoAnwgCSAHEKkBNgJ8C0EBIQoCQCAHRQ0AIAcgCWpBAWsiBUUNACAFLQAAQQBHIQoLIAQgBCgCPCIIIAQoAjggB2oiBSAFIAhLGyIFNgI4IApFIAUgCEdyDQBBACEIDBYLIARBADYCWEEHIQUMEwsCQCAEKAJ4IghBgAhxRQ0AIAQoAjwgBCgCOCIHayIGIAQoAlgiBSAFIAZLGyIKBEACQCAEKAKMASIJRQ0AIAkoAhAiBkUNACAKIAkoAhgiCyAJKAIUIAVrIghrIgVBACAFIAtNGyIFIAUgCksbIgUEQCAGIAsgCCAIIAtLG2ogByAF/AoAAAsgBCgCeCEICwJAIAhBgARxRQ0AIAQtAANBBHFFDQAgBCgCPCAEKAI4IgZrIgUgCk8EQCAEIAQoAnwgBiAKEKkBNgJ8DAELQQAgCiAFQcz6yAAQ6gcACyAEIAQoAnAgCms2AnAgBCAEKAJYIAprIgU2AlggBCAEKAI8IgcgBCgCOCAKaiIGIAYgB0sbNgI4CyAFRQ0AQQAhCEEFIQYMFQsgBEEANgJYQQYhBQwSCwJAAkAgBCgCeCILQYAIcQRAIAQpAzAhIwJAIAQtAEAiCUEPSw0AQQAhCEEEIQYgBCgCOCIKIAQoAjwiB0YNFyAEIApBAWoiBTYCOCAEIAmtIiVCCHwiJDwAQCAEIAoxAAAgJYYgI4QiIzcDMCAJQQdLDQAgBSAHRg0XIAQgCkECajYCOCAEIAlBEHI6AEAgBCAKMQABICSGICOEIiM3AzALIAQgI6ciBjYCWCAEKAKMASIFBH8gBSAGNgIUIAQoAngFIAsLQYAEcUUNAiAELQADQQRxDQEMAgtBBSEFIAQoAowBIgZFDRMgBkEANgIQDBMLIAwgBCkDMD0BGCAEIAQoAnwgDEEYakECEKkBNgJ8CyAEQQA6AEAgBEIANwMwQQUhBQwRC0ENIQUgBC0AAyIHRQ0QIAQpAzAhIwJAAkAgBC0AQCIIQQ9LDQAgBCgCOCILIAQoAjwiBkYNASAEIAtBAWoiBTYCOCAEIAitIiVCCHwiJDwAQCAEIAsxAAAgJYYgI4QiIzcDMCAIQQdLDQAgBSAGRg0BIAQgC0ECajYCOCAEIAhBEHI6AEAgBCALMQABICSGICOEIiM3AzALAkAgB0ECcUEAICNCn5YCURtFBEAgBCgCjAEiBQR/IAVBfzYCMCAELQADBSAHC0EBcQRAIAQpAzAiI0IIhkKA/gODICNCCIh8Qh+CUA0CCyAEQRc2AogBIARBks/AADYChAEMFAsgBC0AAkUEQCAEQQ86AAILIAxBn5YCOwAYIARBACAMQRhqQQIQqQE2AnwgBEEAOgBAIARCADcDMEEBIQUMEgsgI0IPg0IIUQRAIAQgI0IEiCIkNwMwIAQgBC0AQEEEazoAQCAkp0EPcSIGQQhqIQcgBC0AAiIFBH8gBQUgBCAHOgACIAcLIAdJIAZBB0tyRQRAIARCgICAgBA3A3ggBEEAOgBAIARCADcDMCAEQQEgB3Q2ApABQQxBGyAjQoDAAINQGyEFDBMLIARBFDYCiAEgBEGH0MAANgKEAQwTCyAEQRs2AogBIARB/dDAADYChAEMEgtBACEGQQAhCAwSCyAEQR02AogBIARBm9DAADYChAEMEAtBAiEIIAQtAAFBAnFFBEBBHCEGDBELIARBATYCfEEMIQUMDgsgBCkDMCEjAkAgBC0AQCILQR9LDQBBACEIQRshBiAEKAI4IgkgBCgCPCIHRg0QIAQgCUEBaiIFNgI4IAQgC60iJkIIfCIkPABAIAQgCTEAACAmhiAjhCIjNwMwIAtBF0sNACAFIAdGDRAgBCAJQQJqIgU2AjggBCAmQhB8IiU8AEAgBCAJMQABICSGICOEIiM3AzAgC0EPSw0AIAUgB0YNECAEIAlBA2oiBTYCOCAEICZCGHwiJDwAQCAEIAkxAAIgJYYgI4QiIzcDMCALQQdLDQAgBSAHRg0QIAQgCUEEajYCOCAEIAtBIHI6AEAgBCAJMQADICSGICOEIiM3AzALIARBADoAQCAEQgA3AzAgBCAjpyIFQRh0IAVBgP4DcUEIdHIgBUEIdkGA/gNxIAVBGHZycjYCfEEcIQUMDQsgBCkDMCEjAkAgBC0AQCIFQQ1LDQBBACEIQRghBiAEKAI4IgkgBCgCPCILRg0PIAQgCUEBaiIHNgI4IAQgBa0iJEIIfCIlPABAIAQgCTEAACAkhiAjhCIjNwMwIAVBBUsEQCAlpyEFDAELIAcgC0YNDyAEIAlBAmo2AjggBCAFQRByIgU6AEAgBCAJMQABICWGICOEIiM3AzALIAQgBUEOazoAQCAEICNCDog3AzAgBCAjpyIHQR9xIgZBgQJqNgIcIAQgB0EFdkEfcSIFQQFqNgIgIAQgB0EKdkEPcUEEajYCGCAGQR1LIAVBHUtyRQRAIARBADYCJEEZIQUMDQsgBEEkNgKIASAEQazOwAA2AoQBDA0LA0AgBCgCTCIGIAQoAlAiB0YEQEEAIQhBFyEGDA8LIAYgB2shCgJAIAcgBCgCXCIGTwRAIBMgBiAKIAQoAlgiBiAGIApLGyIGEOwCDAELIAYgB2siCSAEKAIQTQRAIAQoAgwiBkFAaiIHQUFPDREgEyAZIAdBACAGIAdPGyAJIAQoAhQiBmsiC2sgBiAJayAGIAlJIgYbIgggCCAKIAQoAlgiByALIAkgBhsiBiAGIAdLGyIGIAYgCksbIgZqEJQFDAELIAQtAAFBBHEEQEEeIQYgBEEeNgKIASAEQdXPwAA2AoQBQX0hCAwQCyAMQQA2AiggDEEBNgIcIAxBxPnIADYCGCAMQgQ3AiAgDEEYakGk+8gAEI0IAAsgBCAEKAJYIgcgBms2AlggBiAHRw0ACwwLCwJAIAQoAmAiCUUEQCAEKAJYIQUMAQsgBCkDMCEjAkAgBC0AQCIGIAlPBEAgBiEIDAELIAQoAjghBSAEKAI8IQsDQCAFIAtGBEBBACEIQRQhBgwQCyAEIAVBAWoiBzYCOCAEIAZBCGoiCDoAQCAEIAUxAAAgBq2GICOEIiM3AzAgByEFIAkgCCIGQf8BcUsNAAsLIAQgCCAJazoAQCAEICMgCa2INwMwIAQgBCgCZCAJajYCZCAEIAQoAlggI0J/IAlBP3GthkJ/hYOnaiIFNgJYCyAEIAU2AmhBFSEFDAoLIAQoAlAiByAEKAJMIgZGBEBBACEIQRMhBgwMCyAGIAdLBEAgBCgCWCEGIAQgB0EBajYCUCAEKAJIIAdqIAY6AAAMCgsgByAGQbz/yAAQjAcACyAEQRI6AAACQCAEKAI8IgggBCgCOCILa0EPSQ0AIAQoAkwgBCgCUGtBgwJNDQAgBBCrASAELQAAIgVBEkcNCSAEKAI8IQggBCgCOCELCyAMQQhqIBNBCGooAgA2AgAgBEEANgJQIBMpAgAhJCAEQgE3A0ggDCAkNwMAIAwgFCgAADYCECAMIBRBA2ooAAA2ABNBqOfIACEJQYAEIR4CQAJAAkACQCAELQCYAUEBaw4DAAECAwtBtAohHiAdIQkMAgtBtAohHiAbIQkMAQtB0AQhHiAXIQkLQaj3yAAhD0EgIQcCQAJAAkACQCAELQCgAUEBaw4DAAECAwtBtAohByAdIQ8MAgtBtAohByAbIQ8MAQtB0AQhByAXIQ8LIAQtAEAhECAEKQMwISMCQAJAA0BBEiEKA0ACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAKQf8BcUETaw4FBAEIAgsACyAIIAtrQQ9PBEAgDCgCBCAMKAIIa0GDAksNDAsgBEEANgJkIAshBiAQIQUgHiAjQn8gBDUClAGGQn+FIiaDpyIKSw0CDBgLIAQoAmAiCkUEQCAEKAJYIQUMBgsgCyEFIAogECIGQf8BcUsNAyAFIQ0MBAtBFyEKIAQoAmAiDUUNEyALIQUgDSAQIgZB/wFxSw0GIAUhEgwHCwNAIAkgCkECdGoiDS0AAyIKIAVB/wFxTQ0SIAYgCEcEQCAFrSElIAYxAAAhJCAGQQFqIQYgBUEIaiEFIB4gJCAlhiAjhCIjICaDpyIKTQ0XDAELC0ESIQYgBEESOgAAIBMgDCkDADcCACAEIAg2AjwgBCAINgI4IAQgIzcDMCAUIAwoAhA2AAAgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCACAEIBAgCEEDdGogC0EDdGs6AEBBACEIDCALIAwoAggiBiAMKAIEIgVHBEAgBSAGTQ0JIAwoAgAgBmogBCgCWDoAACAMIAZBAWo2AggMEwtBEyEGIARBEzoAACATIAwpAwA3AgAgBCAQOgBAIAQgCDYCPCAEIAs2AjggBCAjNwMwIBQgDCgCEDYAACAUQQNqIAwoABM2AAAgE0EIaiAMQQhqKAIANgIAQQAhCAwfCwNAIAUgCEYNCSAFMQAAIAathiAjhCEjIAVBAWoiDSEFIAogBkEIaiIGQf8BcUsNAAsLIAQgBCgCZCAKajYCZCAEIAQoAlggI0J/IApBP3GthkJ/hYOnaiIFNgJYIAYgCmshECAjIAqtiCEjIA0hCwsgBCAFNgJoQRUhCgwOCyALIQYgECEFIAcgI0J/IAQ1ApwBhkJ/hSImg6ciCk0NCwNAIA8gCkECdGoiDS0AAyIKIAVB/wFxTQ0LIAYgCEcEQCAFrSElIAYxAAAhJCAGQQFqIQYgBUEIaiEFIAcgJCAlhiAjhCIjICaDpyIKTQ0NDAELC0EVIQYgBEEVOgAAIBMgDCkDADcCACAEIAg2AjwgBCAINgI4IAQgIzcDMCAUIAwoAhA2AAAgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCACAEIBAgCEEDdGogC0EDdGs6AEBBACEIDBsLA0AgBSAIRg0GIAUxAAAgBq2GICOEISMgBUEBaiISIQUgDSAGQQhqIgZB/wFxSw0ACwsgBCAEKAJkIA1qNgJkIAQgBCgCXCAjQn8gDUE/ca2GQn+Fg6dqNgJcIAYgDWshECAjIA2tiCEjIBIhCwwLCyAMKAIEIgUgDCgCCCIGRg0EIAUgBmshFiAGIAQoAlwiBU8EQCAMIAUgFiAEKAJYIgUgBSAWSxsiBRDsAgwHCyAFIAZrIhIgBCgCEE0EQCAEKAIMIgVBQGoiBkFBTw0aIAwgGSAGQQAgBSAGTxsgEiAEKAIUIgVrIg1rIAUgEmsgBSASSSIFGyIKIAogFiAEKAJYIgYgDSASIAUbIgUgBSAGSxsiBSAFIBZLGyIFahCUBQwHCyAELQABQQRxRQ0FIBMgDCkDADcCACAEIBA6AEAgBCAINgI8IAQgCzYCOCAEICM3AzAgFCAMKAIQNgAAQR4hBiAEQR42AogBIARB1c/AADYChAEgBEEeOgAAIBRBA2ogDCgAEzYAACATQQhqIAxBCGooAgA2AgBBfSEIDBgLIARBEjoAACATIAwpAwA3AgAgBCAQOgBAIAQgCDYCPCAEIAs2AjggBCAjNwMwIBQgDCgCEDYAACAUQQNqIAwoABM2AAAgE0EIaiAMQQhqKAIANgIAIAQQqwEgBC0AACEFDBULIAYgBUG8/8gAEIwHAAtBFCEGIARBFDoAACATIAwpAwA3AgAgBCAINgI8IAQgCDYCOCAEICM3AzAgFCAMKAIQNgAAIBRBA2ogDCgAEzYAACATQQhqIAxBCGooAgA2AgAgBCAQIAhBA3RqIAtBA3RrOgBAQQAhCAwVC0EWIQYgBEEWOgAAIBMgDCkDADcCACAEIAg2AjwgBCAINgI4IAQgIzcDMCAUIAwoAhA2AAAgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCACAEIBAgCEEDdGogC0EDdGs6AEBBACEIDBQLQRchBiAEQRc6AAAgEyAMKQMANwIAIAQgEDoAQCAEIAg2AjwgBCALNgI4IAQgIzcDMCAUIAwoAhA2AAAgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCAEEAIQgMEwsgDEEANgIoIAxBATYCHCAMQcT5yAA2AhggDEIENwIgIAxBGGpBvPrIABCNCAALIAQgBCgCWCIGIAVrNgJYQRJBFyAFIAZGGyEKDAMLIA0vAQAhEgJAAkAgDS0AAiIcQQ9LBEAgCiENDAELICNCfyAKIBxqQT9xrYZCf4UiJoOnIAp2IBJqIg0gB08NASAKQR9xIRYCQANAIA8gDUECdGoiGC0AAyINIApqQf8BcSAFQf8BcU0NASAGIAhHBEAgBa0hJSAGMQAAIAZBAWohBiAFQQhqIQUgJYYgI4QiIyAmg6cgFnYgEmoiDSAHTw0EDAELC0EVIQYgBEEVOgAAIBMgDCkDADcCACAEIAg2AjwgBCAINgI4IAQgIzcDMCAUIAwoAhA2AAAgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCACAEIBAgCEEDdGogC0EDdGs6AEBBACEIDBMLIBgtAAIhHCAYLwEAIRIgBCAEKAJkIApqNgJkIAUgCmshBSAjIAqtiCEjCyAFIA1rIRAgIyANrYghIyAcQcAAcUUEQCAEIBxBD3E2AmAgBCASQf//A3E2AlxBFiEKIAYhCwwECyATIAwpAwA3AgAgBCAQOgBAIAQgCDYCPCAEIAY2AjggBCAjNwMwIBQgDCgCEDYAACAEQRY2AogBIARB59DAADYChAFBHiEGIARBHjoAACAUQQNqIAwoABM2AAAgE0EIaiAMQQhqKAIANgIAQX0hCAwRCyANIAdBrPrIABCMBwALIAogB0Gc+sgAEIwHAAsgDS8BACESAkAgDS0AAiIcRQRAQQAhDSAGIQtBACEcDAELQQAhDSAcQQ9LBEAgBiELDAELAkAgHiAjQn8gCiAcakE/ca2GQn+FIiaDp0H//wNxIApBD3EiGHYgEmpB//8DcSINTQ0AAkADQCAJIA1BAnRqIg0tAAMiFiAKakH/AXEgBUH/AXFNDQEgBiAIRwRAIAWtISUgBjEAACEkIAZBAWohBiAFQQhqIQUgHiAkICWGICOEIiMgJoOnQf//A3EgGHYgEmpB//8DcSINTQ0DDAELC0ESIQYgBEESOgAAIBMgDCkDADcCACAEIAg2AjwgBCAINgI4IAQgIzcDMCAUIAwoAhA2AAAgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCACAEIBAgCEEDdGogC0EDdGs6AEBBACEIDBELIAUgCmshBSAjIAqtiCEjIA0tAAIhHCANLwEAIRIgCiENIAYhCyAWIQoMAQsgDSAeQYz6yAAQjAcACyAEIBJB//8DcTYCWCAEIA0gCkH/AXFqNgJkIAUgCmshECAjIAqtiCEjQRMhCiAcRQ0AIBxBIHENAiAcQcAAcUUEQCAEIBxBD3E2AmBBFCEKDAELCwtBHiEGIARBHjoAACATIAwpAwA3AgAgBCAQOgBAIAQgCDYCPCAEIAs2AjggBCAjNwMwIBQgDCgCEDYAACAEQRw2AogBIARBy9DAADYChAEgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCAEF9IQgMDAtBDCEFIARBDDoAACAEQX82AmQgEyAMKQMANwIAIAQgEDoAQCAEIAg2AjwgBCALNgI4IAQgIzcDMCAUIAwoAhA2AAAgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCAAwJCyAKIB5B/PnIABCMBwALIAQgBC0AQCIHQfgBcToAQCAEIAQpAzAgB0EHca2IIiM3AzACQCAHQR9LDQBBACEIQQ4hBiAEKAI4IgkgBCgCPCILRg0KIAQgCUEBaiIFNgI4IAQgB61CGIMiJkIIfCIkPABAIAQgCTEAACAmhiAjhCIjNwMwIAdBGHEiB0EYRg0AIAUgC0YNCiAEIAlBAmoiBTYCOCAEICZCEHwiJTwAQCAEIAkxAAEgJIYgI4QiIzcDMCAHQQ9LDQAgBSALRg0KIAQgCUEDaiIFNgI4IAQgJkIYfCIkPABAIAQgCTEAAiAlhiAjhCIjNwMwIAcNACAFIAtGDQogBEEgOgBAIAQgCUEEajYCOCAEIAkxAAMgJIYgI4QiIzcDMAsgI0IQiCAjhUL//wODQv//A1EEQEEAIQggBEEAOgBAIARCADcDMCAEICOnQf//A3E2AlhBDyEFIAQtAARBBkcNCEEOIQYMCgsgBEEdNgKIASAEQdDOwAA2AoQBDAgLQQ0hBSAELQAEQQVrQf8BcUECTw0GQQAhCEEMIQYMCAtBHSEGIAQtAAMiB0UNByAEKAJ4RQ0HAkAgBC0AQCIJQR9LDQBBACEIQQshBiAEKAI4IhcgBCgCPCILRg0IIAQgF0EBaiIFNgI4IAQgCa0iJkIIfCIjPABAIAQgBCkDMCAXMQAAICaGhCIkNwMwIAlBF0sNACAFIAtGDQggBCAXQQJqIgU2AjggBCAmQhB8IiU8AEAgBCAXMQABICOGICSEIiQ3AzAgCUEPSw0AIAUgC0YNCCAEIBdBA2oiBTYCOCAEICZCGHwiIzwAQCAEIBcxAAIgJYYgJIQiJDcDMCAJQQdLDQAgBSALRg0IIAQgF0EEajYCOCAEIAlBIHI6AEAgBCAXMQADICOGICSENwMwCwJAIAdBBHEEQCAEKAJUIAQoAjBHDQELIARBADoAQCAEQgA3AzBBHSEGQQEhCAwICyAEQRc2AogBIARBqc/AADYChAEMBgsCQCAELQBAIgtBD0sNAEEAIQhBAyEGIAQoAjgiCSAEKAI8IgdGDQcgBCAJQQFqIgU2AjggBCALrSIkQgh8IiM8AEAgBCAEKQMwIAkxAAAgJIaEIiQ3AzAgC0EHSw0AIAUgB0YNByAEIAlBAmo2AjggBCALQRByOgBAIAQgCTEAASAjhiAkhDcDMAsgBCgCjAEiBQRAIAUgBC0AMDYCCCAEKAKMASAEKQMwQgiIPgIMCwJAIAQtAHlBAnFFDQAgBC0AA0EEcUUNACAMIAQpAzA9ARggBCAEKAJ8IAxBGGpBAhCpATYCfAsgBEEAOgBAIARCADcDMEEEIQUMBAsCQCAELQBAIgtBH0sNAEEAIQhBAiEGIAQoAjgiCSAEKAI8IgdGDQYgBCAJQQFqIgU2AjggBCALrSImQgh8IiM8AEAgBCAEKQMwIAkxAAAgJoaEIiQ3AzAgC0EXSw0AIAUgB0YNBiAEIAlBAmoiBTYCOCAEICZCEHwiJTwAQCAEIAkxAAEgI4YgJIQiJDcDMCALQQ9LDQAgBSAHRg0GIAQgCUEDaiIFNgI4IAQgJkIYfCIjPABAIAQgCTEAAiAlhiAkhCIkNwMwIAtBB0sNACAFIAdGDQYgBCAJQQRqNgI4IAQgC0EgcjoAQCAEIAkxAAMgI4YgJIQ3AzALIAQoAowBIgUEQCAFIAQpAzA+AgQLAkAgBC0AeUECcUUNACAELQADQQRxRQ0AIAwgBCkDMD4CGCAEIAQoAnwgDEEYakEEEKkBNgJ8CyAEQQA6AEAgBEIANwMwQQMhBQwDCyAEKQMwISMCQCAELQBAIgtBD0sNAEEAIQggBCgCOCIJIAQoAjwiB0YEQEEBIQYMBgtBASEGIAQgCUEBaiIFNgI4IAQgC60iJUIIfCIkPABAIAQgCTEAACAlhiAjhCIjNwMwIAtBB0sNACAFIAdGDQUgBCAJQQJqNgI4IAQgC0EQcjoAQCAEIAkxAAEgJIYgI4QiIzcDMAsgBCAjpyIGNgJ4AkACQCAGQf8BcUEIRgRAIAZBgMADcQ0BIAQoAowBIgUEfyAFIAZBCHZBAXE2AgAgBCgCeAUgBgtBgARxRQ0CIAQtAANBBHFFDQIgBCgCfCEFIAwgBCkDMD0AGCAEIAUgDEEYakECEKkBNgJ8DAILIARBGzYCiAEgBEH90MAANgKEAQwFCyAEQRk2AogBIARBtYDAADYChAEMBAsgBEEAOgBAIARCADcDMEECIQUMAgtBDCEFIAQoAlgiCkUNASAEKAI4IQ8gBCgCPCEHIAQoAlAhCCAEKAJIIQsgBCgCTCEJAkADQCAHIA9rIgcgBCgCTCAIayIGIAogBiAKSRsiBiAGIAdLGyINRQRAQQAhCEEPIQYMBgsgCCAJTQRAIA0gCSAIayIGSw0CIA0EQCAIIAtqIA8gDfwKAAALIAQgCCANaiIINgJQIAQgBCgCWCANayIKNgJYIAQgBCgCPCIHIAQoAjggDWoiBiAGIAdLGyIPNgI4IApFDQQMAQsLIAggCSAJQdz/yAAQ6gcAC0EAIA0gBkHM/8gAEOoHAAsCQCAEKAIkIgUgBCgCGCILTw0AQRMgBSAFQRNNGyENIAQoAjghCiAEKQMwISQgBC0AQCEGIAQoAjwhCQJAA0ACQCAGQf8BcUECSwRAICQhIyAGIQgMAQsgCSAKRgRAQQAhCEEZIQYMBwsgBCAKQQFqIgc2AjggBCAGQQhyIgg6AEAgBCAKMQAAIAathiAkhCIjNwMwIAchCgsgBSANRg0BIAQgCEEDayIGOgBAIAQgI0IDiCIkNwMwIAQgBUEBaiIHNgIkIBogBUGD58gAai0AAEEBdGogI6dBB3E7AQAgByIFIAtHDQALIAshBQwBCyANQRNBtPvIABCMBwALIAVBEk0EQAJAIAVBC00EQCAFQYPnyABqIQYgBUETIAVrIgtBGHEiB2ohBSAHIQgDQCAaIAb9XQAAIiv9iQH9qQEiLP0bAEEBdGpBADsBACAaICz9GwFBAXRqQQA7AQAgGiAs/RsCQQF0akEAOwEAIBogLP0bA0EBdGpBADsBACAaICsgLP0NBAUGBwAAAAAAAAAAAAAAAP2JAf2pASIr/RsAQQF0akEAOwEAIBogK/0bAUEBdGpBADsBACAaICv9GwJBAXRqQQA7AQAgGiAr/RsDQQF0akEAOwEAIAZBCGohBiAIQQhrIggNAAsgByALRg0BCwNAIBogBUGD58gAai0AAEEBdGpBADsBACAFQQFqIgVBE0cNAAsLIARBEzYCJAsgDEEYakEAIBpBEyAdQbQKQQcgDhCtASAMKAIYRQRAIAwoAhwhBiAMKAIgIQUgBEEBOgCYASAEIAU2AiggBCAGNgKUASAEQQA2AiRBGiEFDAELCyAEQRk2AogBIARBnIDAADYChAELQX0hCEEeIQYLIAQgBjoAACARKAIgIQkgESARKAI8Ig4oAjgiHTYCICARIA4oAjwgHWs2AiQgESAOKAJMIgUgDigCUCIGazYCMCARIAYgDigCSCIPaiIHNgIsIBEgESgCKCAdIAlrajYCKCAOIA4oAnQgBiAFa2oiFiAOKAJUaiIFNgJUIBEgBTYCNCARIA4oAnwiFzYCUAJAAkACQAJAAkACQAJAAkACQAJAAkAgDkEMaigCACISQUBqQUFJBEACQCASQcAASw0AIBZFDQwgDi0AACIFQR5LDQBBASAFdCIFQYCMgIAEcQ0MIAVBgJAEcUUNACAOLQAEQQRGDQwLIAYgFkkNASAOLQADQQRxIQYgDigCeCELIBJBQGoiBUEAIAUgEk0bIhggFksEQCAWIBYgGCAOKAIUIhBrIhsgFiAbSRsiGWshDSAPIBlqIQogBkUEQCAQIBJLDQQgEiAQayIFIBlJBEBBACAZIAVBwP3IABDqBwALIA4oAgghBSAZBEAgBSAQaiAPIBn8CgAACyAWIBtNDQogDUUNDCAFIAogDfwKAAAMDAsgECASSw0EIBkgEiAQayIFSw0FIA4oAggiBiAQaiEFIAtFDQcMCAsgDyAWIBhrIgVqIRsCQCAGBEAgCw0BIBcgDyAFEN8CIQUgGARAIA4oAgggGyAY/AoAAAsgDiAFIBsgGBDfAjYCfAwHCyAYRQ0GIA4oAgggGyAY/AoAAAwGCyAOKAKAASAPIAUQqQEhBiAOKAIIIA4gBiAbIBgQqQE2AoABIBhFDQUgGyAY/AoAAAwFCwwLC0EAIBYgBkGkgMkAEOoHAAsgECASIBJB0P3IABDqBwALIBAgEiASQfD9yAAQ6gcAC0EAIBkgBUHg/cgAEOoHAAsgDiAYNgIQIA5BADYCFAwFCyAZBEAgBSAPIBn8CgAACyAOIBcgDyAZEN8CIgU2AnwgFiAbTQ0BIA0EQCAGIAogDfwKAAALIA4gBSAKIA0Q3wI2AnwMAwsgDiAOKAKAASAPIBkQqQE2AoABIBkEQCAFIA8gGfwKAAALIBYgG0sNAQsgDiAQIBlqIgVBACAFIBhHGzYCFCAYIA4oAhAiBU0NAiAOIAUgGWo2AhAMAgsgDiAOKAKAASAKIA0QqQE2AoABIA1FDQAgBiAKIA38CgAACyAOIBg2AhAgDiANNgIUCyAOKAKEASIGBEACQCAOKAKIASIFBEAgBSAGakEBay0AAEUNAQtB7P/IAEElQZSAyQAQ6wcACyARIAY2AjgLIBEgDi0AAEEMa0H/AXEiBUEGSQR/IAVBAnQoAriESQVBAAsgDi0AQCAOLQABQQZ0QcAAcXJyNgJMIBEgESkDECAdIB9rrXwiIzcDECARIBEpAxggByACa618IiQ3AxgCQAJAAkACQAJAAkACQCAIRQRAIBZFIAkgHUZxICFB/wFxQQRGcg0BCwJAAkAgCEEEag4HBQUFAQMABAILQQIhCAwCCyAMQQA2AiggDEEBNgIcIAxBwObIADYCGCAMQgQ3AiAgDEEYakHI5sgAEI0IAAtBASEICyARIBEpAwAgIyAofXw3AwAgESARKQMIICQgJ318NwMIDAMLIBEgESkDACAjICh9fDcDACARIBEpAwggJCAnfXw3AwgMAQsgESARKQMAICMgKH18NwMAIBEgESkDCCAkICd9fDcDCAJAIAhBAmsOAgECAAsgESgCOCIGBH8gDEEYaiAGAkAgBi0AAEUEQEEAIQcMAQsgBkEBaiEGQQAhBwNAIAYgB2ogB0EBaiEHLQAADQALCyAHEPsCIAwoAiAhBkEAIAwoAhwgDCgCGBsFQQALIQUgFSAGNgIIIBUgBTYCBCAVQQA2AgAMAgsgFSAXNgIEIBVBATYCAAwBCyAVQQI2AgAgFSAIOgAECyAMQTBqJAAMAQtB5PzIAEHKAEGw/cgAEOsHAAsgFS0ABCEHIBUoAgAgASABKAIMIgkgASgCCCABKQNIICp9p2oiBSAFIAlLGyILNgIIQQJHBEACQEEWEHEiAUUNACABQci2xwD9AAAA/QsAACABQQ5qQda2xwApAAA3AABBDBBxIgJFDQAgAkEWNgIIIAIgATYCBCACQRY2AgBBDBBxIgFFDQAgAUEUOgAIIAFBuJ/GADYCBCABIAI2AgAgACABrUIghkIDhDcCAAwECwALIAEpA1AgKX2nIQUCQAJAAkAgB0EBaw4CAQIACyAgIANFcg0BIAVFDQIMAQsgICADRXINACAFRQ0BCwsgAEEEOgAAIAAgBTYCBAwBCwJAAkACQCABKAIoIgsgASgCLCIJRiABKAIkIgggA01xRQRAIAEoAiAhByAJIAtLDQIgCCABKAIwIgZrIgUEQCAGIAdqQQAgBfwLAAsgFSABQThqIAcgCBCmAyAVLQAAQQRHDQEgCCAVKAIEIglPBEAgASAINgIwIAEgCTYCLEEAIQsMAwtBtJvHAEE2QeybxwAQ6wcACyABQgA3AyggACABQThqIAIgAxCmAwwDCyAVKAIEIQYgFSgCACEFIBUxAAAgASAINgIwIAFCADcDKEEAIQlBACELQgRSDQELIAcgC2ohBgJAIAkgC2siBSADIAMgBUsbIgNBAUYEQCACIAYtAAA6AAAMAQsgA0UNACACIAYgA/wKAAALIAAgAzYCBCAAQQQ6AAAgASAJIAMgC2oiACAAIAlLGzYCKAwBCyAAIAY2AgQgACAFNgIACyAVQRBqJAAL5AUBBX8gASgCACICQf///wNxIQMgAkGAgICAeHEhBiABKAIEIQQCQCACQYCAgPwHcSIFQYCAgPwHRgRAIANBDXYgBkEQdnJBgARBACADG3JBgPgBciEGDAELIAZBEHYhBiAFQYCAgLgETQRAIAVBgICAxANPBEAgAkEMdiACQf/fAHFBAEdxIAVBDXYgA0ENdmpBgIABaiAGcmohBgwCCyAFQYCAgJgDSQ0BIANBgICABHIiAkH+ACAFQRd2IgNrdiEFIAJBHSADayIDdkEBcQR/IAVBAyADdEEBayACcUEAR2oFIAULIAZyIQYMAQsgBkGA+AFyIQYLIAEoAgghASAEQf///wNxIQMgBEGAgICAeHEhBQJAIARBgICA/AdxIgJBgICA/AdHBEAgBUEQdiEFIAJBgICAuARNBEAgAkGAgIDEA08EQCAEQQx2IARB/98AcUEAR3EgAkENdiADQQ12akGAgAFqIAVyaiEFDAMLIAJBgICAmANJDQIgA0GAgIAEciIDQf4AIAJBF3YiAmt2IQQgA0EdIAJrIgJ2QQFxBH8gBEEDIAJ0QQFrIANxQQBHagUgBAsgBXIhBQwCCyAFQYD4AXIhBQwBCyADQQ12IAVBEHZyQYAEQQAgAxtyQYD4AXIhBQsgAUH///8DcSEDIAFBgICAgHhxIQQCQCABQYCAgPwHcSICQYCAgPwHRwRAIARBEHYhBCACQYCAgLgETQRAIAJBgICAxANPBEAgAUEMdiABQf/fAHFBAEdxIAJBDXYgA0ENdmpBgIABaiAEcmohBAwDCyACQYCAgJgDSQ0CIANBgICABHIiA0H+ACACQRd2IgJrdiEBIANBHSACayICdkEBcQR/IAFBAyACdEEBayADcUEAR2oFIAELIARyIQQMAgsgBEGA+AFyIQQMAQsgA0ENdiAEQRB2ckGABEEAIAMbckGA+AFyIQQLIAAgBDsBGiAAIAU7ARggACAGOwEWC9cFAwR+CH8BeyABKQMQIAEpAxggAhDyAyEFIAEoAghFBEAgASABQRBqEMABCyABKAIEIgwgBadxIQkgBUIZiCIIQv8Ag0KBgoSIkKDAgAF+IQcgASgCACEKAkACQCACLQAAIhBBC0cEQANAIAkgCmopAAAiBiAHhSIFQn+FIAVCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiBVBFBEADQCAQIAogBXqnQQN2IAlqIAxxQWhsaiIPQRhrLQAARg0EIAVCAX0gBYMiBVBFDQALCyAGQoCBgoSIkKDAgH+DIQUCfwJAIA1FBEAgBVANASAFeqdBA3YgCWogDHEhCwsgBSAGQgGGg0IAUg0FQQEMAQtBAAshDSAOQQhqIg4gCWogDHEhCQwACwALIAIoAAEhEANAIAkgCmopAAAiBiAHhSIFQn+FIAVCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiBVBFBEADQCAKIAV6p0EDdiAJaiAMcUFobGoiD0EYay0AAEELRgRAIBAgD0EXaygAAEYNBAsgBUIBfSAFgyIFUEUNAAsLIAZCgIGChIiQoMCAf4MhBQJ/AkAgDUUEQCAFUA0BIAV6p0EDdiAJaiAMcSELCyAFIAZCAYaDQgBSDQRBAQwBC0EACyENIA5BCGoiDiAJaiAMcSEJDAALAAsgD0EQayIB/QADACERIA9BCGsgBDcDACABIAM3AwAgACAR/QsDCCAAQgE3AwAPCyAKIAtqLAAAIglBAE4EQCAKIAopAwBCgIGChIiQoMCAf4N6p0EDdiILai0AACEJCyAKIAtqIAinQf8AcSINOgAAIAogC0EIayAMcWpBCGogDToAACABIAEoAgggCUEBcWs2AgggASABKAIMQQFqNgIMIAogC0FobGoiAUEIayAENwMAIAFBEGsgAzcDACABQRhrIAI1AAAgAkEEajEAAEIghoQ3AwAgAEIANwMAC8IFAQl/IwBBMGsiBCQAAkACQAJ/AkACQCACIANLBEAgASADQRhsaiIGKAIUIgJBBE0EQEEAIQEgBEEANgIIIARBADYCLCAGQQRqIgMgAkECdGohCUEIIQUgBEEMaiIGIQogBEEsaiILDAQLIAYoAgghAyAGKAIEIQJBACEBIARBADYCCCAEQQA2AiwgAyACQQJ0aiEJIARBDGohBiAEQSxqIQsgAkEJSQ0CIAQgBEEIakF/IAJBAWtndkEBahD2AyAEKAIAIgFBgYCAgHhHBEAgAQ0CQdiVxwBBEUHUzMcAEOsHAAsgBCgCLCIFQQlJBEAgBSEBDAMLIAQoAgwhASAEKAIQIQogBgwDCyADIAJBrLvHABCMBwsACyAGIQpBCCEFIAsLIgwgASAFSQR/AkAgCSADayIHQQJ2IgggBSABQX9zaiICIAIgCEsbIghBB00gB0EDcXINACABQQJ0IApqIgIgA2tBEEkNACABIAhBAWoiCCAIQQNxIghBBCAIG2siB2ohASADIAdBAnRqA0AgAiAD/QACAP0LAgAgA0EQaiEDIAJBEGohAiAHQQRrIgcNAAshAwsgCiABQQJ0aiECA0AgAyAJRg0CIAIgAygCADYCACACQQRqIQIgA0EEaiEDIAUgAUEBaiIBRw0ACyAFBSABCzYCACADIAlGDQEDQAJ/IAQoAiwiBUEJSQRAIAUhAiAGIQdBCCEFIAsMAQsgBCgCDCECIAQoAhAhByAGCyEBIAMoAgAhDCACIAVGBEAgBEEIahDVBiAEKAIMIQIgBCgCECEHIAYhAQsgByACQQJ0aiAMNgIAIAEgASgCAEEBajYCACADQQRqIgMgCUcNAAsMAQsgDCABNgIACyAAIAT9AAII/QsCACAAQSBqIARBKGopAgA3AgAgAEEQaiAEQRhq/QACAP0LAgAgBEEwaiQAC8IFAQl/IwBBMGsiBCQAAkACQAJ/AkACQCACIANLBEAgASADQRhsaiIGKAIUIgJBBE0EQEEAIQEgBEEANgIIIARBADYCLCAGQQRqIgMgAkECdGohCUEIIQUgBEEMaiIGIQogBEEsaiILDAQLIAYoAgghAyAGKAIEIQJBACEBIARBADYCCCAEQQA2AiwgAyACQQJ0aiEJIARBDGohBiAEQSxqIQsgAkEJSQ0CIAQgBEEIakF/IAJBAWtndkEBahD2AyAEKAIAIgFBgYCAgHhHBEAgAQ0CQdiVxwBBEUHUzMcAEOsHAAsgBCgCLCIFQQlJBEAgBSEBDAMLIAQoAgwhASAEKAIQIQogBgwDCyADIAJBpMDHABCMBwsACyAGIQpBCCEFIAsLIgwgASAFSQR/AkAgCSADayIHQQJ2IgggBSABQX9zaiICIAIgCEsbIghBB00gB0EDcXINACABQQJ0IApqIgIgA2tBEEkNACABIAhBAWoiCCAIQQNxIghBBCAIG2siB2ohASADIAdBAnRqA0AgAiAD/QACAP0LAgAgA0EQaiEDIAJBEGohAiAHQQRrIgcNAAshAwsgCiABQQJ0aiECA0AgAyAJRg0CIAIgAygCADYCACACQQRqIQIgA0EEaiEDIAUgAUEBaiIBRw0ACyAFBSABCzYCACADIAlGDQEDQAJ/IAQoAiwiBUEJSQRAIAUhAiAGIQdBCCEFIAsMAQsgBCgCDCECIAQoAhAhByAGCyEBIAMoAgAhDCACIAVGBEAgBEEIahDVBiAEKAIMIQIgBCgCECEHIAYhAQsgByACQQJ0aiAMNgIAIAEgASgCAEEBajYCACADQQRqIgMgCUcNAAsMAQsgDCABNgIACyAAIAT9AAII/QsCACAAQSBqIARBKGopAgA3AgAgAEEQaiAEQRhq/QACAP0LAgAgBEEwaiQAC9MFAgl/BX4jAEEQayILJAACQAJ/AkACQCABUEUEQEGgfyACIAF5Ig+nayIGa8FB0ABsQbCnBWpBzhBtIgJB0QBPDQEgCyACQQR0IgIpA4iFQiABIA+GEN0GQgFBQCAGIAIvAZCFQmprIgdBP3GtIg+GIhFCAX0iEiALKQMIIAspAwBCP4h8IgGDIhBQRQRAIAIvAZKFQiEIIAEgD4inIgZBkM4ATwRAIAZBwIQ9SQ0EIAZBgMLXL08EQEEIQQkgBkGAlOvcA0kiAhshCUGAwtcvQYCU69wDIAIbDAYLQQZBByAGQYCt4gRJIgIbIQlBwIQ9QYCt4gQgAhsMBQsgBkHkAE8EQEECQQMgBkHoB0kiAhshCUHkAEHoByACGwwFC0EKQQEgBkEJSyIJGwwECyAAQQA2AgAMBAtB2I/CAEEcQfSPwgAQ6wcACyACQdEAQZiPwgAQjAcAC0EEQQUgBkGgjQZJIgIbIQlBkM4AQaCNBiACGwshAgJAAkACQCAJIAhrQQFqwSIIIAXBIgpKBEAgB0H//wNxIQ0gCCAFa8EgBCAIIAprIARJGyIKQQFrIQ5BACEHA0AgAyAHaiAGIAJuIgxBMGo6AAAgBiACIAxsayEGIAcgDkYNAyAHIAlGDQIgB0EBaiEHIAJBCkkgAkEKbiECRQ0AC0GEkMIAEIEIAAsgACADIARBACAIIAUgAUIKgCACrSAPhiARELIEDAMLIAdBAWohAiANQQFrQT9xrSETQgEhAQNAIAEgE4hQRQRAIABBADYCAAwECyACIARGDQIgAiADaiAQQgp+IhAgD4inQTBqOgAAIAFCCn4hASAQIBKDIRAgCiACQQFqIgJHDQALIAAgAyAEIAogCCAFIBAgESABELIEDAILIAAgAyAEIAogCCAFIAatIA+GIBB8IAKtIA+GIBEQsgQMAQsgBCAEQZSQwgAQjAcACyALQRBqJAAL8QQBDH8jAEEgayIEJAACQAJAAkAgACgCACIBQQNGIAFBAklyDQACQAJAIAAtABRBAWsOAgIAAQsgBEEANgIYIARBATYCDCAEQbzLxwA2AgggBEIENwIQIARBCGpBxMvHABCNCAALIAAoAgghCiAAKAIMIgwEQANAIAogB0EMbGoiBSgCBCELIAUoAggiCQRAIAtBJGohAQNAIAFBBGsoAgAiAkGAgICAeHJBgICAgHhHBEAgASgCACIGQQRrKAIAIgNBeHEiCEEEQQggA0EDcSIDGyACakkNByADQQAgCCACQSdqSxsNBiAGEKICCwJAIAFBFGsoAgAiBkECRg0AIAFBEGshAgJAIAZFBEAgAigCACICRQ0CIAFBDGsoAgAiBkEEaygCACIDQXhxIghBBEEIIANBA3EiAxsgAmpJDQkgA0UgCCACQSdqTXINAQwICyACKAIAIgJFDQEgAUEMaygCACIGQQRrKAIAIgNBeHEiCCACQQF0IgJBBEEIIANBA3EiAxtqSQ0IIANFDQAgCCACQSdqSw0HCyAGEKICCyABQSxqIQEgCUEBayIJDQALCyAFKAIAIgEEQCALQQRrKAIAIgVBeHEiCSABQSxsIgFBBEEIIAVBA3EiBRtqSQ0FIAVBACAJIAFBJ2pLGw0EIAsQogILIAdBAWoiByAMRw0ACwsgACgCBCIARQ0AIApBBGsoAgAiAUF4cSIHIABBDGwiAEEEQQggAUEDcSIBG2pJDQIgAUEAIAcgAEEnaksbDQEgChCiAgsgBEEgaiQADwtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALtwgCBX8DfiMAQUBqIgEkACABQQY2AgQgAUGQgsgANgIAQai3yQAtAABBA0cEQAJAIwBBIGsiAiQAAkACQAJAAkBBqLfJAC0AAEECaw4CAwEAC0Got8kAQQI6AABBgAgQcSIDRQ0BQai3yQBBAzoAAEGYt8kAIAM2AgBBkLfJAEKAgICAgIABNwMAQYC3yQBCADcDAEGgt8kAQQA6AABBnLfJAEEANgIAQYy3yQBBADoAAEGIt8kAQQA2AgALIAJBIGokAAwCCwALIAJBADYCGCACQQE2AgwgAkGYg8gANgIIIAJCBDcCECACQQhqQZCEyAAQjQgACwsCQAJAAkACQAJAAkACQAJAQfi6yQApAwAiBlAEQEGAu8kAKQMAIQcDQCAHQn9RDQJBgLvJACAHQgF8IgZBgLvJACkDACIIIAcgCFEiAhs3AwAgCCEHIAJFDQALQfi6yQAgBjcDAAsCQEGAt8kAKQMAIAZSBEBBjLfJAC0AACECQQEhA0GMt8kAQQE6AAAgASACOgAYIAINA0GAt8kAIAY3AwAMAQtBiLfJACgCACICQX9GDQMgAkEBaiEDC0GIt8kAIAM2AgAgAUGAt8kANgIQIAAoAgQaIAFBBDoAGCABIAFBEGo2AiACQAJAIAFBGGpBiPvHACAAEMEDBEAgAS0AGEEERw0BIAFBADYCOCABQQE2AiwgAUHw+scANgIoIAFCBDcCMCABQShqQfj6xwAQjQgACyABQQQ6AAggASgCHCEAIAEtABgiAkEETSACQQNHcQ0BIAAoAgAhAiAAQQRqKAIAIgMoAgAiBARAIAIgBBEDAAsgAygCBCIDBEAgAkEEaygCACIEQXhxIgVBBEEIIARBA3EiBBsgA2pJDQYgBEEAIAUgA0EnaksbDQcgAhCiAgsgAEEEaygCACICQXhxIgNBEEEUIAJBA3EiAhtJDQcgAkEAIANBNE8bDQggABCiAgwBCyABIAEpAxg3AwgLIAEoAhAiACAAKAIIQQFrIgI2AgggAkUEQCAAQQA6AAwgAEIANwMACyABLQAIQQRHDQcgAUFAayQADwsjAEEgayIAJAAgAEEANgIYIABBATYCDCAAQbCFyAA2AgggAEIENwIQIABBCGpBuIXIABCNCAALIAFCADcCNCABQoGAgIDAADcCLCABQcCDyAA2AiggAUEYaiABQShqEPsHAAtB2IPIAEEmQYCEyAAQqwcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAEgASkDCDcDECABQQI2AiwgAUGsgsgANgIoIAFCAjcCNCABIAFBEGqtQoCAgIDgAoQ3AyAgASABrUKAgICAoAGENwMYIAEgAUEYajYCMCABQShqQbyCyAAQjQgAC9UFAQl/IwBBIGsiCCQAIAAgACgCCCIEIAJqIgM2AgggACgCBCIJIANBEGoiByAHIAlLGyEDIAAoAgAhBQJAAkACQAJAAkACQAJAAkACQAJAAkAgASACTwRAIAEgBEsNASAEIAFrIQAgByAJTwRAIAAgAmoiASADSw0DIAAgAUsNBCAEIAMgAmtLDQUgAkUNCiAEIAVqIAAgBWogAvwKAAAMCgsgAkUNCSAEIAVqIgMgACAFaiIA/QAAAP0LAAAgAkERSQ0JIAAgAmohAkEAIAFrIQEgA0EQaiEAA0AgACAAIAFq/QAAAP0LAAAgAEEQaiIAIAFqIAJJDQALDAkLIAFBAUcEQEEAIQAgASADIAQgAWsiCSADIAlLG2ogBGsiBiADIARrIgdBACADIAdPGyIHIAYgB0kbIgYgAkEBayIKIAYgCkkbIgpBAWoiBkERSSABQQ9Ncg0IIAZBD3EiAEEQIAAbIgAgCkF/c2ohCkEAIAFrIQsgBCAFaiEBIAYgAGshAANAIAEgASALav0AAAD9CwAAIAFBEGohASAKQRBqIgoNAAsMCAsgBEEBayIAIANPDQQgAyAESQ0FIAIgAyAEayIBSw0GIAJFDQggBCAFaiAAIAVqLQAAIAL8CwAMCAtB8P7IAEEJQfz+yAAQqwcAC0EAIAEgA0Hg/sgAEOoHAAsgACABIANB4P7IABDqBwALIAhBADYCGCAIQQE2AgwgCEHUnMgANgIIIAhCBDcCECAIQQhqQeD+yAAQjQgACyAAIANBkP7IABCMBwALIAQgAyADQbD+yAAQ6gcAC0EAIAIgAUGg/sgAEOoHAAsgBSAJaiEBIAQgBWohBQNAIAAgCWoiBiADTw0CIAAgB0YNAyAAIAVqIAAgAWotAAA6AAAgAEEBaiIAIAJHDQALCyAIQSBqJAAPCyAGIANBwP7IABCMBwALIAAgBGogA0HQ/sgAEIwHAAuVBgEFfyMAQcDSAGsiAyQAAkACQAJAAkAgAkEJTQRAIABBgICAgHg2AgAMAQsCQAJAIAEtAABBH0cNACABLQABQYsBRw0AIAEtAAJBCEcNAEEKIQQgAS0AAyIFQQRxRQ0BIAJBDEkEQCAAQYCAgIB4NgIADAMLIAIgAS8ACkEMaiIETw0BIABBgICAgHg2AgAMAgsgA0EANgIcIANBATYCECADQbztxwA2AgwgA0IENwIUIANBDGoQlQchASAAQYGAgIB4NgIAIAAgATYCBAwBCyAFQQhxBEACQCACIARLBEADQCABIARqLQAARQ0CIAIgBEEBaiIERw0ACwsgAEGAgICAeDYCAAwCCyAEQQFqIQQLAkAgBUEQcUUNACACIARLBEADQCABIARqLQAARQRAIARBAWohBAwDCyACIARBAWoiBEcNAAsLIABBgICAgHg2AgAMAQsCQAJAIAVBAnEEQCACIARBAmoiBEkNAQsgAiAESw0BIABBgICAgHg2AgAMAgsgAEGAgICAeDYCAAwBC0EEEHEiBUUNASAFQQRrIgYtAABBA3EEQCAFQQA2AAALIANBDGoiB0EAQYHSAPwLACADQaDSAGogByABIARqIAIgBGsgBUEEQQBBBhBEIAMgAy0ApFIiAToAk1ICQAJAAkACQCABDgMBAgEACyABQf8BRwRAIANBATYCpFIgA0GY98cANgKgUiADQgE3AqxSIAMgA0GT0gBqrUKAgICA4ASENwO4UiADIANBuNIAajYCqFIgA0GU0gBqIgEgA0Gg0gBqELEGIAEQkAchASAAQYGAgIB4NgIAIAAgATYCBAwDCyAAQQA2AgggAEKAgICAEDcCAAwCCyADKAKoUiEBIAAgBTYCBCAAQQQ2AgAgAEEEIAEgAUEETxs2AggMAgsgAEGAgICAeDYCAAsgBigCACIAQXhxIgFBCEEMIABBA3EiABtJDQIgAEEAIAFBLE8bDQMgBRCiAgsgA0HA0gBqJAAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC64DAhp9A3xDAACAPyEMRAAAAAAAAPA/RAAAAODTDtU/IhujIhxEAAAAAAAA8D9EAAAAwJoD1D8iHaEgG6GitiELQwAAgD8hDUMAAIA/IQFDmpkZPiIIQ8P1qD4iA5QiDkMAAIA/Q5qZmT4iCZNDmpkZPyIEkyIClCAJQ4/CdT0iBZQiD0MAAIA/QwrXIz8iCpMgA5MiBpQgCiAElCIQQwAAgD8gCJMgBZMiB5SSkiAIIASUIhEgBpSTIAkgA5QiEiAHlJMgCiAFlCITIAKUkyIUQwAAAABcBEAgECASk0MAAIA/IBSVIgGUIQwgDiATkyABlCEVIA8gEZMgAZQhFiAJIAaUIAogApSTIAGUIRcgAyAClCAEIAaUkyABlCEYIAogB5QgCCAGlJMgAZQhDSAFIAaUIAMgB5STIAGUIRkgCCAClCAJIAeUkyABlCEaIAQgB5QgBSAClJMgAZQhAQsgACAFIBggHCAdorYiApQgF5IgDCALlJKUOAIMIAAgBCAZIAKUIA2SIBUgC5SSlDgCCCAAIAMgASAClCAaIBYgC5SSkpQ4AgQgAEEBNgIAC5kFAgZ/AX4CQCABKAIIIgIgASgCBCIETw0AIAEoAgAgAmotAABB9QBHDQBBASEHIAEgAkEBaiICNgIICwJAAkAgAiAESQRAIAEoAgAiBiACai0AAEEwayIDQf8BcSIFQQpJDQELDAELIAEgAkEBaiICNgIIAkACQCAFRQRAQQAhAwwBCyADQf8BcSEDA0AgAiAERgRAIAQhAgwDCyACIAZqLQAAQTBrQf8BcSIFQQlLDQEgASACQQFqIgI2AgggA61CCn4iCEIgiFAEQCAFIAinIgVqIgMgBU8NAQsLDAILIAIgBE8NACACIAZqLQAAQd8ARw0AIAEgAkEBaiICNgIICwJAAkACQAJAIAIgAiADaiIFTQRAIAEgBTYCCCAEIAVJDQUgAkUNAiACIARJDQEMAgsMBAsgAiAGaiwAAEG/f0wNAQsgBUUgBCAFTXJFBEAgBSAGaiwAAEG/f0wNAQsgAiAGaiEEIAcNASAAQgE3AgggACADNgIEIAAgBDYCAA8LIAYgBCACIAVBuLLFABC7CQALIAIgBmpBAWshBiADIQECfwNAIAEiAkUEQEEAIQEgBCEFQQEMAgsgAkEBayEBIAIgBmotAABB3wBHDQALAkACQCABRQ0AAkAgASADTwRAIAEgA0cNASACDQJBACEGDAMLIAEgBGosAABBv39KDQELIAQgA0EAIAFByLLFABC7CQALAkAgAiADTwRAIAMhBiACIANHDQEMAgsgAiAEaiwAAEG/f0wNACACIQYMAQsgBCADIAIgA0HYssUAELsJAAsgBCAGaiEFIAMgBmshAyAECyECIANFBEAMAQsgACADNgIMIAAgBTYCCCAAIAE2AgQgACACNgIADwsgAEEANgIAIABBADoABAvbBQIKfwF+IwBBIGsiAyQAAn8CQAJAIAIEQANAIAEgBWosAABBAE4EQCAFQQFqIgUgAkcNAQwDCwsgA0EANgIQIANCgICAgBA3AwggA0EIakEAIAIQ7wUgAygCECEFIAEhByACIQgDQCAFIQYgBywAACIEQQBIBEAgBEH/AHFBAnQoApysSSEEC0EBQQJBAyAEQYAQSSIMGyAEQYABSSIJGyIKIAMoAgggBWtLBH8gA0EIaiAFIAoQ7wUgAygCEAUgBgsgAygCDGohBgJAIAlFBEAgBEEGdiEJIARBP3FBgH9yIQsgDARAIAYgCzoAASAGIAlBwAFyOgAADAILIAYgCzoAAiAGIAlBgAFyOgABIAYgBEEMdkHgAXI6AAAMAQsgBiAEOgAACyADIAUgCmoiBTYCECAHQQFqIQcgCEEBayIIDQALIAMpAwghDUEADAMLIANBADYCECADIAE2AgwMAQsgA0EIaiIGIAEgAhD7AiADKAIIRQ0AIAMgAykCDCINQiCIPgIYIAMgDT4CFCADIAI2AhAgAyABNgIMIAMgAjYCCEHY5sgAQSsgBkG4msgAQciayAAQ4AYACyACrSABrUIghoQhDSACIQVBAQshByANQiCIpyEEAkACQAJAAkACQAJAAkAgBSANpyIITw0AIAVFBEAgBEEEaygCACIGQXhxIgpBBEEIIAZBA3EiBhsgCGpJDQIgBkEAIAogCEEnaksbDQMgBBCiAkEBIQQMAQsgBCAIQQEgBRC7AiIERQ0DCyACRSAHcg0FIAFBBGsoAgAiB0F4cSIIQQRBCCAHQQNxIgcbIAJqSQ0DIAdBACAIIAJBJ2pLGw0EIAEQogIMBQtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgACAFNgIEIAAgBDYCACADQSBqJAALpAQBB38CQAJAIAAoAjgiBQRAIAAoAjQgBUECdEELakF4cSIBayIEQQRrKAIAIgJBeHEiAyABIAVqQQlqIgFBBEEIIAJBA3EiAhtqSQ0BIAJBACADIAFBJ2pLGw0CIAQQogILIAAoAiwhAiAAKAIwIgYEQCACIQEDQCABQawBaigCACIHBEAgAUGoAWooAgAiBUEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgB2pJDQMgA0EAIAQgB0EnaksbDQQgBRCiAgsgARDqAyABQbgBaiEBIAZBAWsiBg0ACwsgACgCKCIDBEAgAkEEaygCACIBQXhxIgQgA0G4AWwiA0EEQQggAUEDcSIBG2pJDQEgAUEAIAQgA0EnaksbDQIgAhCiAgsgACgCTCIEBEAgACgCSCIDQQRrKAIAIgJBeHEiAUEEQQggAkEDcSICGyAEakkNASACQQAgASAEQSdqSxsNAiADEKICCwJAIAAoAmAiBEUNACAAKAJkIgNFDQAgBEEEaygCACICQXhxIgFBBEEIIAJBA3EiAhsgA2pJDQEgAkEAIAEgA0EnaksbDQIgBBCiAgsCQCAAQX9GDQAgACAAKAIEIgJBAWs2AgQgAkEBRw0AIABBBGsoAgAiAUF4cUHsAEHwACABQQNxIgIbSQ0BIAJBACABQZABTxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC6kTAxh/BX4BeyMAQSBrIhMkACABKQMQIAEpAxggAigCBCIWIAIoAggiGRCVBCEeIAEoAghFBEACQCABQRBqIRAjAEEgayIMJAACQAJAAkAgASgCDCIUQQFqIgQEQAJAIAEoAgQiCiAKQQFqIhFBA3YiCEEHbCIXIApBCEkbIgVBAXYgBEkEQAJAAkACQAJAAn8gBUEBaiIFIAQgBCAFSRsiBUEPTwRAIAVB/////wFLDQtBfyAFQQN0QQduQQFrZ3ZBAWoMAQtBBCAFQQhxQQhqIAVBBEkbCyIHrUIYfiIcQiCIpw0AIBynIgQgB0EIaiIIaiIFIARJIAVB+P///wdLcg0AIAUQcSIFRQ0BIAQgBWohCyAIBEAgC0H/ASAI/AsACyAHQQFrIg8gB0EDdkEHbCAPQQhJGyEVIAEoAgAhByAUDQJBACEUDAMLIAxBADYCGCAMQQE2AgwgDEHEtcQANgIIIAxCBDcCECAMQQhqQZi1xAAQjQgLAAsgC0EIaiEXIAdBGGshGCAHKQMAQn+FQoCBgoSIkKDAgH+DIR0gECkDCCEfIBApAwAhIEEAIQUgFCEGIAchCANAIB1QBEADQCAFQQhqIQUgCEEIaiIIKQMAQoCBgoSIkKDAgH+DIhxCgIGChIiQoMCAf1ENAAsgHEKAgYKEiJCgwIB/hSEdCyALIA8gICAfIBggHXqnQQN2IAVqIhBBaGxqIgRBBGooAgAgBEEIaigCABCVBKciCXEiBGopAABCgIGChIiQoMCAf4MiHFAEQEEIIQ0DQCAEIA1qIQQgDUEIaiENIAsgBCAPcSIEaikAAEKAgYKEiJCgwIB/gyIcUA0ACwsgHUIBfSAdgyEdIAsgHHqnQQN2IARqIA9xIgRqLAAAQQBOBEAgCykDAEKAgYKEiJCgwIB/g3qnQQN2IQQLIAQgC2ogCUEZdiIJOgAAIBcgBEEIayAPcWogCToAACALIARBf3NBGGxqIglBEGogByAQQX9zQRhsaiIEQRBqKQAANwAAIAkgBP0AAAD9CwAAIAZBAWsiBg0ACwsgASAPNgIEIAEgCzYCACABIBUgFGs2AgggCkUNASAKIApBGGxBH2pBeHEiBWpBCWoiBkUNASAHIAVrIgRBBGsoAgAiBUF4cSIIQQRBCCAFQQNxIgUbIAZqSQ0DIAVBACAIIAZBJ2pLGw0EIAQQogIMAQsgASARBH8gASgCACEJAkACQCAIIBFBB3FBAEdqIgZBAkkEQCAGIQgMAQsgBkEBcSEIIAZB/v///wNxIgdBA3QhDSAHIQQgCSEFA0AgBSAF/QADACIh/U1BB/3NAf0MAQEBAQEBAQEBAQEBAQEBAf1OICH9DH9/f39/f39/f39/f39/f3/9UP3OAf0LAwAgBUEQaiEFIARBAmsiBA0ACyAGIAdGDQELIAkgDWohBQNAIAUgBSkDACIcQn+FQgeIQoGChIiQoMCAAYMgHEL//v379+/fv/8AhHw3AwAgBUEIaiEFIAhBAWsiCA0ACwsCQCARQQhPBEAgCSARaiAJKQAANwAADAELIBFFDQAgCUEIaiAJIBH8CgAACyAJQQhqIQsgECkDCCEfIBApAwAhIEEBIQRBACEFA0AgBSEIIAQhBQJAIAggCWoiDy0AAEGAAUcNACAJIAhBf3NBGGxqIQ4gCSAIQWhsaiIEQRBrIRggBEEUayEQA0AgCiAgIB8gECgCACAYKAIAEJUEpyIVcSIHIQYgByAJaikAAEKAgYKEiJCgwIB/gyIdUARAQQghDQNAIAYgDWohBCANQQhqIQ0gCSAEIApxIgZqKQAAQoCBgoSIkKDAgH+DIh1QDQALCyAJIB16p0EDdiAGaiAKcSIGaiwAAEEATgRAIAkpAwBCgIGChIiQoMCAf4N6p0EDdiEGCyAGIAdrIAggB2tzIApxQQhPBEAgBiAJaiIELQAAIAQgFUEZdiIEOgAAIAsgBkEIayAKcWogBDoAACAJIAZBf3NBGGxqIQZB/wFGBEAgD0H/AToAACALIAogCEEIa3FqQf8BOgAAIAZBEGogDkEQaikAADcAACAGIA79AAAA/QsAAAwDCyAOKQAAIRwgDiAGKQAANwAAIAYgHDcAACAGKQAIIRwgBiAOKQAINwAIIA4gHDcACCAOKAAQIQcgDiAGKAAQNgAQIAYoABQhBCAGIA4oABQ2ABQgDiAENgAUIAYgBzYAEAwBCwsgDyAVQRl2IgQ6AAAgCyAKIAhBCGtxaiAEOgAACyAFIAUgEUkiCGohBCAIDQALIAogFyAKQQhJGwVBAAsgFGs2AggLIAxBIGokAAwECwwCC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgDEEANgIYIAxBATYCDCAMQcS1xAA2AgggDEIENwIQIAxBCGpBmLXEABCNCAALCyABKAIEIgggHqdxIQcgHkIZiCIfQv8Ag0KBgoSIkKDAgAF+ISAgASgCACEEA0ACQAJAAkACQAJAAkAgBCAHaikAACIeICCFIhxCf4UgHEKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIcUEUEQANAIAQgHHqnQQN2IAdqIAhxQWhsaiIFQRBrKAIAIBlGBEAgFiAFQRRrKAIAIBkQ2wdFDQMLIBxCAX0gHIMiHFBFDQALCyAeQoCBgoSIkKDAgH+DIRwgGkUEQCAcUA0DIBx6p0EDdiAHaiAIcSESCyAcIB5CAYaDUARAQQEhGgwGCyAEIBJqLAAAIgdBAE4EQCAEIAQpAwBCgIGChIiQoMCAf4N6p0EDdiISai0AACEHCyAEIBJqIB+nQf8AcSIFOgAAIAQgEkEIayAIcWpBCGogBToAACATQRBqIgUgAkEIaigCADYCACATQRxqIANBCGooAgA2AgAgASABKAIIIAdBAXFrNgIIIAEgASgCDEEBajYCDCAEIBJBaGxqQRhrIgEgAikCADcCACATIAMpAgA3AhQgAUEIaiAFKQMANwIAIAFBEGogE0EYaikDADcCACAAQYCAgIB4NgIADAELIAAgBUEMayIBKQIANwIAIAEgAykCADcCACAAQQhqIAFBCGoiACgCADYCACAAIANBCGooAgA2AgAgAigCACICRQ0AIBZBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIAJqSQ0CIABBACABIAJBJ2pLGw0DIBYQogILIBNBIGokAA8LQQAhGgwCC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgG0EIaiIbIAdqIAhxIQcMAAsAC44FAgx/A34jAEGgAWsiCCQAIAhBAEGgAfwLAAJAAkAgAiAAKAKgASIFTQRAIAVBKU8NAiAFQQFqIQwgBUECdCEJIAEgAkECdGohDQJAA0AgCCAGQQJ0aiEDA0AgBiECIAMhBCABIA1GDQQgA0EEaiEDIAJBAWohBiABKAIAIQcgAUEEaiILIQEgB0UNAAsgB60hEUIAIQ8gCSEHIAIhASAAIQMDQCABQShPDQIgBCAPIAQ1AgB8IAM1AgAgEX58IhA+AgAgEEIgiCEPIARBBGohBCABQQFqIQEgA0EEaiEDIAdBBGsiBw0ACwJAIAogEEKAgICAEFoEfyACIAVqIgFBKE8NASAIIAFBAnRqIA8+AgAgDAUgBQsgAmoiASABIApJGyEKIAshAQwBCwsgAUEoQYyDwgAQjAcACyABQShBjIPCABCMBwALIAJBAWohDSACQQJ0IQwgACAFQQJ0aiEOIAAhAwJAA0AgCCAHQQJ0aiEGA0AgByELIAYhBCADIA5GDQMgBEEEaiEGIAdBAWohByADKAIAIQkgA0EEaiIFIQMgCUUNAAsgCa0hEUIAIQ8gDCEJIAshAyABIQYDQCADQShPDQIgBCAPIAQ1AgB8IAY1AgAgEX58IhA+AgAgEEIgiCEPIARBBGohBCADQQFqIQMgBkEEaiEGIAlBBGsiCQ0ACwJAIAogEEKAgICAEFoEfyACIAtqIgNBKE8NASAIIANBAnRqIA8+AgAgDQUgAgsgC2oiAyADIApJGyEKIAUhAwwBCwsgA0EoQYyDwgAQjAcACyADQShBjIPCABCMBwALIAAgCEGgAfwKAAAgACAKNgKgASAIQaABaiQADwtBACAFQShBjIPCABDqBwALpQUCBX8EfgJAAkACQAJAAkAgAkUEQEEBIQUMAQsgAhBxIgVFDQEgBUEEay0AAEEDcUUgAkVyDQAgBUEAIAL8CwALIAEoAgQiA60hCCADQv////8PIAEpAwgiCSAJQv////8PWhunayIEQQAgAyAETxsgAk8EQCABKAIAIAkgCCAIIAlWG6dqIQMgAkEBRwRAIAJFDQMgBSADIAL8CgAADAMLIAUgAy0AADoAAAwCC0GokMgAKQMAIgtCCIghCiALpyEDIAtC/wGDQgRSDQMMAgsAC0EEIQMLIAkgAq18IQgLIAEgCDcDCAJAAkACQAJAIANB/wFxIgZBBEcEQCAKQhiIpyEBIAqnIgchBAJAAkACQAJAIAZBAWsOAwEAAgMLIAEtAAghBAsgBEH/AXFBJUcNASAAQTI2AgggAEHfi8EANgIEIABBgICAgHg2AgAMBAsgAS0ACEElRg0CCyAAIAE2AgggAEGBgICAeDYCACAAIANB/wFxIAdBCHRyNgIEDAILIAAgAjYCCCAAIAU2AgQgAEGGgICAeDYCAA8LIABBMjYCCCAAQd+LwQA2AgQgAEGAgICAeDYCACABKAIAIQAgAUEEaigCACIDKAIAIgQEQCAAIAQRAwALIAMoAgQiAwRAIABBBGsoAgAiBEF4cSIGQQRBCCAEQQNxIgQbIANqSQ0CIARBACAGIANBJ2pLGw0DIAAQogILIAFBBGsoAgAiAEF4cSIDQRBBFCAAQQNxIgAbSQ0BIABBACADQTRPGw0CIAEQogILIAIEQCAFQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyACakkNASAAQQAgASACQSdqSxsNAiAFEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC40EAQd/AkACQCAAKAIAIgEEQCAAKAIEIgRBBGsoAgAiAkF4cSIDIAFBJGwiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCiAgsgACgCECECIAAoAhQiBQRAIAIhAQNAIAFBFGooAgAiBEEFTwRAIAFBCGooAgAiBkEEaygCACIDQXhxIgcgBEECdCIEQQRBCCADQQNxIgMbakkNAyADQQAgByAEQSdqSxsNBCAGEKICCyABQRhqIQEgBUEBayIFDQALCyAAKAIMIgMEQCACQQRrKAIAIgFBeHEiBCADQRhsIgNBBEEIIAFBA3EiARtqSQ0BIAFBACAEIANBJ2pLGw0CIAIQogILIAAoAhgiAQRAIAAoAhwiBEEEaygCACICQXhxIgMgAUESbCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKAIkIgEEQCAAKAIoIgRBBGsoAgAiAkF4cSIDIAFBHmwiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCiAgsgACgCMCICBEAgACgCNCIDQQRrKAIAIgBBeHEiASACQSpsIgJBBEEIIABBA3EiABtqSQ0BIABBACABIAJBJ2pLGw0CIAMQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALjQQBB38CQAJAIAAoAgAiAQRAIAAoAgQiBEEEaygCACICQXhxIgMgAUEYbCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKAIQIQIgACgCFCIFBEAgAiEBA0AgAUEUaigCACIEQQVPBEAgAUEIaigCACIGQQRrKAIAIgNBeHEiByAEQQJ0IgRBBEEIIANBA3EiAxtqSQ0DIANBACAHIARBJ2pLGw0EIAYQogILIAFBGGohASAFQQFrIgUNAAsLIAAoAgwiAwRAIAJBBGsoAgAiAUF4cSIEIANBGGwiA0EEQQggAUEDcSIBG2pJDQEgAUEAIAQgA0EnaksbDQIgAhCiAgsgACgCGCIBBEAgACgCHCIEQQRrKAIAIgJBeHEiAyABQQlsIgFBBEEIIAJBA3EiAhtqSQ0BIAJBACADIAFBJ2pLGw0CIAQQogILIAAoAiQiAQRAIAAoAigiBEEEaygCACICQXhxIgMgAUEPbCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKAIwIgIEQCAAKAI0IgNBBGsoAgAiAEF4cSIBIAJBFWwiAkEEQQggAEEDcSIAG2pJDQEgAEEAIAEgAkEnaksbDQIgAxCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvLBQIGfwN+IwBBgAFrIgQkACABvCEGAn9BAyABi0MAAIB/Ww0AGkECIAZBgICA/AdxIgVBgICA/AdGDQAaIAZB////A3EiCEGAgIAEciAGQQF0Qf7//wdxIAZBF3ZB/wFxIgcbIgmtIgpCAYMhCyAFRQRAQQQgCEUNARogB0GWAWshB0IBIQwgC1AMAQtCgICAECAKQgGGIAlBgICABEYiCBshCkICQgEgCBshDEHofkHpfiAIGyAHaiEHIAtQCyEFIAQgBzsBeCAEIAw3A3AgBEIBNwNoIAQgCjcDYCAEIAU6AHoCfwJAAkACQAJAAkAgBUH/AXFBAU0EQCADQf//A3EhA0Hqs8UAQQEgBkEASCIFGyEHQeqzxQBByIHCACAFGyEFIAZBH3YhBiAEQSBqIARB4ABqIARBD2oQzwEgBCgCIEUNASAEQdgAaiAEQShqKAIANgIAIAQgBCkCIDcDUAwCCyAFQf8BcSIIQQJGDQJBASEFQeqzxQBByIHCACAGQQBIIgcbQeqzxQBBASAHGyACGyEHQQEgBkEfdiACGyEGIAhBBEcNA0ECIQUgBEECOwEgIANB//8DcQ0EQQEhBSAEQQE2AiggBEGYsMUANgIkIARBIGoMBQsgBEHQAGogBEHgAGogBEEPahBXCyAFIAcgAhshB0EBIAYgAhshBiAEIAQoAlAgBCgCVCAELwFYIAMgBEEgahDsBCAEKAIEIQUgBCgCAAwDCyAEQQM2AiggBEHzncYANgIkIARBAjsBIEEBIQdBACEGQQEhBSAEQSBqDAILIARBAzYCKCAEQeydxgA2AiQgBEECOwEgIARBIGoMAQsgBEEBNgIwIARBADsBLCAEQQI2AiggBEG5g8IANgIkIARBIGoLIQIgBCAFNgJcIAQgAjYCWCAEIAY2AlQgBCAHNgJQIAAgBEHQAGoQvgMgBEGAAWokAAv3BAEIfwJAIAMtAAMiByADLQAEIgtrIgggCEEfdSIIcyAIa0EBdCADLQACIgggAy0ABSIKayIEIARBH3UiBXMgBWtBAXZqIAJB/wFxSw0AIAFB/wFxIgEgAy0AACADLQABIgJrIgUgBUEfdSIFcyAFa0kNACABIgUgAiAIayIGIAZBH3UiBnMgBmtB/wFxSQ0AIAUgCCAHayIGIAZBH3UiBnMgBmsiBkH/AXFJDQAgBSADLQAHIAMtAAYiBWsiCSAJQR91IglzIAlrSQ0AIAEgBSAKayIJIAlBH3UiCXMgCWtB/wFxSQ0AIAEgCiALayIBIAFBH3UiAXMgAWsiAUH/AXFJDQAgAEH/AXEiACAGQf8BcU8gAUH/AXEgAE1xRQRAQQEgAxDiBRoPCyADQf8BIAVB/wBBgH8gCyAHa0EDbEH/AEGAfyAEIARBgH9MGyIAIABB/wBOG2oiACAAQYB/TBsiACAAQf8AThsiAEEJbEE/akEHdSIBayIEQQAgBEEAShsiBCAEQf8BThs6AAYgA0H/AEGAfyAKIABBEmxBP2pBB3UiCmtBgAFrIgQgBEGAf0wbIgQgBEH/AE4bQYABczoABSADQf8AQYB/IAcgAEEbbEE/akEHdSIAakGAAWsiByAHQYB/TBsiByAHQf8AThtBgAFzOgADIANB/wBBgH8gCyAAa0GAAWsiACAAQYB/TBsiACAAQf8AThtBgAFzOgAEIANB/wBBgH8gCCAKakGAAWsiACAAQYB/TBsiACAAQf8AThtBgAFzOgACIANB/wBBgH8gASACakGAAWsiACAAQYB/TBsiACAAQf8AThtBgAFzOgABCwvDBQIHfwF7IwBB0NEAayIDJABBASEHAkACQAJAIAJBAXQiBEEATgRAAkAgAkUNACAEEHEiB0UNAiAHQQRrLQAAQQNxRSAERXINACAHQQAgBPwLAAsgAyAENgIMIAMgBzYCCCADIAQ2AgRBhNIAEHEiBUUNASAFQQA2AuRRIAVB6NEAakEAOwEAIANBkM8AakEAQcAC/AsAIAVB/NEAakEANgAAIAX9DAAAAAAAAAAAAAAAAAAAAAD9CwDtUSADQRBqIgZBAEGAzwD8CwAgBSAGQcDRAPwKAAAgBUHg0QBqQQA2AgAgBUHQ0QBqIAr9CwIAIAUgCv0LAsBRIAVBADoAgFIgBUEAOgDsUSAFQQA7AepRA0AgA0EQaiAFIAEgAiAHIAQgCEEEEEQgAygCGCAIaiEIIAMtABQiBkECRwRAIAYEQCAAIAMpAgQ3AgAgACAGOgAMIABBCGogA0EMaigCADYCAAwGCyAEIAhPBEAgAyAINgIMCyAAIAMpAgQ3AgQgAEGAgICAeDYCACAAQQxqIANBDGooAgA2AgAMBQsgAiADKAIQIgZJDQMgASAGaiEBIAIgBmshAiADIAQEfyAEIQYgAygCBCAEayAESQRAIANBBGogBCAEEPgFIAMoAgghByADKAIMIQYLIAYgB2ohCSAEQQFHBH8gBEEBayIEBEAgCUEAIAT8CwALIAcgBCAGaiIGagUgCQtBADoAACAGQQFqBSAEQQF0CyIENgIMDAALAAtBwPzEABD/BwsACyAAIAMpAgQ3AgAgAEECOgAMIABBCGogA0EMaigCADYCAAsCQCAFQQRrKAIAIgBBeHEiAUGI0gBBjNIAIABBA3EiABtPBEAgAEEAIAFBrNIATxsNASAFEKICIANB0NEAaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALowUBCH8CQAJAAkACQAJAAkACQCABIAIgAyAEIAUgBhDAAwRAIAUgBkEBdCIIayIBIARPDQIgBSAGayICIARPDQMgAEH/AXEiDCABIANqIgotAAAiASACIANqIgstAAAiAmsiByAHQR91IgdzIAdrSQ0GIAUgBmoiByAETw0EIAQgBU0NBSAMIAMgB2oiDS0AACIHIAMgBWoiDi0AACIJayIAIABBH3UiAHMgAGtJDQYgBkF9bCAFaiIAIARPDQcgBSAIaiIFIARPDQEgACADaiIELQAAIQYgAyAFaiIDLQAAIQUgDkH/AEGAfyAJQf8AQYB/IAkgAmtBA2xB/wBBgH8gASAHayIAIABBgH9MGyIAIABB/wBOG2oiACAAQYB/TBsiACAAQf8AThsiAEEbbEE/akEHdSIJa0GAAWsiCCAIQYB/TBsiCCAIQf8AThtBgAFzOgAAIAtB/wBBgH8gAiAJakGAAWsiAiACQYB/TBsiAiACQf8AThtBgAFzOgAAIA1B/wBBgH8gByAAQRJsQT9qQQd1IgJrQYABayIHIAdBgH9MGyIHIAdB/wBOG0GAAXM6AAAgCkH/AEGAfyABIAJqQYABayIBIAFBgH9MGyIBIAFB/wBOG0GAAXM6AAAgA0H/AEGAfyAFIABBCWxBP2pBB3UiAGtBgAFrIgEgAUGAf0wbIgEgAUH/AE4bQYABczoAACAEQf8AQYB/IAAgBmpBgAFrIgAgAEGAf0wbIgAgAEH/AE4bQYABczoAAAsPCyAFIARB2NfEABCMBwALIAEgBEHo18QAEIwHAAsgAiAEQfjXxAAQjAcACyAHIARBiNjEABCMBwALIAUgBEGY2MQAEIwHAAtBASADIAQgBSAGEOgEGg8LIAAgBEHI18QAEIwHAAvMBQIGfwJ+AkAgAkUNACACQQdrIgNBACACIANPGyEHIAFBA2pBfHEgAWshCEEAIQMDQAJAAkACQCABIANqLQAAIgXAIgZBAE4EQCAIIANrQQNxDQEgAyAHTw0CA0AgASADaiIEQQRqKAIAIAQoAgByQYCBgoR4cQ0DIANBCGoiAyAHSQ0ACwwCC0KAgICAgCAhCkKAgICAECEJAkACQAJ+AkACQAJAAkACQAJAAkACQAJAIAUtAPSWQkECaw4DAAECCgsgA0EBaiIEIAJJDQJCACEKQgAhCQwJC0IAIQogA0EBaiIEIAJJDQJCACEJDAgLQgAhCiADQQFqIgQgAkkNAkIAIQkMBwsgASAEaiwAAEG/f0oNBgwHCyABIARqLAAAIQQCQAJAIAVB4AFrIgUEQCAFQQ1GBEAMAgUMAwsACyAEQWBxQaB/Rg0EDAMLIARBn39KDQIMAwsgBkEfakH/AXFBDE8EQCAGQX5xQW5HDQIgBEFASA0DDAILIARBQEgNAgwBCyABIARqLAAAIQQCQAJAAkACQCAFQfABaw4FAQAAAAIACyAGQQ9qQf8BcUECSyAEQUBOcg0DDAILIARB8ABqQf8BcUEwTw0CDAELIARBj39KDQELIAIgA0ECaiIETQRAQgAhCQwFCyABIARqLAAAQb9/Sg0CQgAhCSADQQNqIgQgAk8NBCABIARqLAAAQUBIDQVCgICAgIDgAAwDC0KAgICAgCAMAgtCACEJIANBAmoiBCACTw0CIAEgBGosAABBv39MDQMLQoCAgICAwAALIQpCgICAgBAhCQsgACAKIAOthCAJhDcCBCAAQQE2AgAPCyAEQQFqIQMMAgsgA0EBaiEDDAELIAIgA00NAANAIAEgA2osAABBAEgNASACIANBAWoiA0cNAAsMAgsgAiADSw0ACwsgACACNgIIIAAgATYCBCAAQQA2AgALiwUCB38CewJAAn8CQCABKAIgIgUgA00EQCACIANqIgggBWshByADIAVIBEAgAiEEDAILIAH9AAQQIQsgAf0ABAAhDCABLQAlIQkgAS0AJCEGIAIhBANAIAQgBmr9AAAAIAz9IyAEIAlq/QAAACAL/SP9Tv1kIgoEQCAKaCAEIAJragwECyAHIARBEGoiBE8NAAsMAQsgA0UNAiABLQA0IQUCQAJAAkAgA0EETwRAQYCChAggBUGBgoQIbCIHIAIoAABzIgRrIARyQYCBgoR4cUGAgYKEeEcEQCACIQQDQCAFIAQtAABGDQUgBEEBaiEEIANBAWsiAw0ACwwHCyACQQQgAkEDcSIIayIGaiEEIANBCUkNASAEIAIgA2oiA0EIayIISw0CA0BBgIKECCAEKAIAIAdzIgZrIAZyQYCBgoR4cUGAgYKEeEcNA0GAgoQIIARBBGooAgAgB3MiBmsgBnJBgIGChHhxQYCBgoR4Rw0DIARBCGoiBCAITQ0ACwwCCyAFIAIiBC0AAEYNAiADQQFGDQUgBC0AASAFRgRAIARBAWohBAwDCyADQQJGDQUgBSACLQACRw0FIAJBAmohBAwCCyADIAZNDQQgAyAIakEEayEDA0AgBSAELQAARg0CIARBAWohBCADQQFrIgMNAAsMBAsgAyAETQ0DA0AgBSAELQAARg0BIARBAWoiBCADRw0ACwwDCyAEIAJrIgIgAS0ANWsiAUEAIAEgAk0bDAELQQAhCSAEIAhPDQEgByABLQAkav0AAAAgAf0ABAD9IyAHIAEtACVq/QAAACAB/QAEEP0j/U79ZCIERQ0BIARoIAMgBWtqCyEEQQEhCQsgACAENgIEIAAgCTYCAAuLBQEQfyMAQRBrIgokAAJAIAEoAhAiBiABKAIMIgNJDQAgBiABKAIIIg5LDQAgASgCBCELIAFBFGoiECABLQAYIgdqQQFrLQAAIQgCQCAHQQVPBEADQCADIAtqIQQCQCAGIANrIgVBB00EQCADIAZGDQRBACECA0AgAiAEai0AACAIRg0CIAUgAkEBaiICRw0ACwwECyAKQQhqIAggBCAFEIcFIAooAghBAXFFDQMgCigCDCECCyABIAIgA2pBAWoiAzYCDCADIA5NIAMgB09xRQRAIAMgBk0NAQwECwtBACAHQQRB5LjHABDqBwALIAhBgYKECGwhDwNAIAMgC2ohBQJAAkACQAJAIAYgA2siCUEITwRAIAVBA2pBfHEiAiAFRg0BIAIgBWshBEEAIQIDQCACIAVqLQAAIAhGDQUgBCACQQFqIgJHDQALIAQgCUEIayICSw0DDAILIAMgBkYNBUEAIQIDQCACIAVqLQAAIAhGDQQgAkEBaiICIAlHDQALDAULIAlBCGshAkEAIQQLA0BBgIKECCAEIAVqIgwoAgAgD3MiEWsgEXJBgIKECCAMQQRqKAIAIA9zIgxrIAxycUGAgYKEeHFBgIGChHhHDQEgBEEIaiIEIAJNDQALCyAEIAlGDQIgBCAFaiEFIAYgBGsgA2shCUEAIQIDQCAIIAIgBWotAABHBEAgAkEBaiICIAlHDQEMBAsLIAIgBGohAgsgASACIANqQQFqIgM2AgwCQCADIAdJIAMgDktyRQRAIAsgAyAHayICaiAQIAcQ2wdFDQELIAMgBk0NAQwDCwsgACADNgIIIAAgAjYCBEEBIQ0MAQsgASAGNgIMCyAAIA02AgAgCkEQaiQAC7oEAQR/AkACQAJAAkACQAJAAkACQAJAAkBBFSAAKAIAIgRBgICAgHhzIARBAE4bDhUHBwcHBwcHBwcHBwcBBwIHBwMHBAUACyAAKAIEIQIgACgCCCIABEAgAiEBA0AgARD+AiABQRBqEP4CIAFBIGohASAAQQFrIgANAAsLIARFDQYgAkEEaygCACIAQXhxIgMgBEEFdCIBQQRBCCAAQQNxIgAbckkNCCAARQ0FIAMgAUEnaksNBwwFCyAAKAIEIgNFDQUgACgCCCICQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyADakkNByAARSABIANBJ2pNcg0EDAYLIAAoAgQiA0UNBCAAKAIIIgJBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIANqSQ0GIABFIAEgA0Enak1yDQMMBQsgACgCBCICEP4CIAJBBGsoAgAiAUF4cUEUQRggAUEDcSIAG0kNBSAARSABQThJcg0CDAQLIAAoAgQiAhD+AiACQQRrKAIAIgFBeHFBFEEYIAFBA3EiABtJDQQgAEUgAUE4SXINAQwDCyAAKAIIIQIgACgCDCIDBEAgAiEBA0AgARD+AiABQRBqIQEgA0EBayIDDQALCyAAKAIEIgFFDQEgAkEEaygCACIAQXhxIgMgAUEEdCIBQQRBCCAAQQNxIgAbckkNAyAARSADIAFBJ2pNcg0ADAILIAIQogILDwtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALtAUCB38BeyAFQQNuIQwCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAQRAIAFBAnQiChBxIglFDQUCQCABQQRPBEAgACEIIAkhByABQXxxIgshBgNAIAcgCP0AAgAiDf0fABCJBP0TIA39HwEQiQT9IAEgDf0fAhCJBP0gAiAN/R8DEIkE/SAD/QsCACAIQRBqIQggB0EQaiEHIAZBBGsiBg0ACyABIAtGDQELIAEgC2shBiAAIAtBAnQiB2ohCCAHIAlqIQcDQCAHIAgqAgAQiQQ4AgAgCEEEaiEIIAdBBGohByAGQQFrIgYNAAsLIAVBA08NAQwCC0EEIQkgBUEDSQ0CC0EAIQhBACEHA0AgAyAITQ0HIAEgAiAIaiIALQAAIgZNDQggBSAHTQ0JIAQgCSAGQQJ0aioCADgCACAIQQFqIgYgA08NCiABIABBAWotAAAiBk0NCyAHQQFqIgogBU8NDCAEQQRqIAkgBkECdGoqAgA4AgAgCEECaiIGIANPDQ0gASAAQQJqLQAAIgBNDQ4gB0ECaiIGIAVPDQMgBEEIaiAJIABBAnRqKgIAOAIAIAhBBGohCCAEQQxqIQQgB0EDaiEHIAxBAWsiDA0ACyABQQJ0IQoLIAlBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIApqSQ0DIABBACABIApBJ2pLGw0EIAkQogILDwsgBiAFQbD2xwAQjAcLAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAggA0Gw9ccAEIwHAAsgBiABQcD1xwAQjAcACyAHIAVB0PXHABCMBwALIAYgA0Hg9ccAEIwHAAsgBiABQfD1xwAQjAcACyAKIAVBgPbHABCMBwALIAYgA0GQ9scAEIwHAAsgACABQaD2xwAQjAcAC6QFAwd/AX4BbyMAQTBrIgMkAAJAAn8CQCAAKAIAIgQlAUGBCCUBECNFBEBBAiAEELoKIgVBAEcgBUH///8HRiIFGyEIQQEhByAFDQFBAAwCCyADQQc6ABggA0EYaiABIAIQ0AUhAAwCCyADQRhqIAQQrwogAygCGARAIAMpAyAhCkEDDAELIANBGGogBCUBECQgAygCGCIFBEAgAygCHCIErSEKQQAhB0EFDAELAkACQCAEJQEQJQRAIANBGGogBBCrBiADKQIcIQogAygCGCEGDAELIAQlARAmRQ0BIAQlARAnIQsQ2gQiBCALJgEgA0EYaiAEEKsGIAMpAhwhCiADKAIYIQYgBEGECEkNACAEEJsHCyAGQYCAgIB4Rg0AIAqnIQVBASEJIApCIIghCkEGDAELIAMgAK1CgICAgIAEhDcDECADQgE3AiQgA0EBNgIcIANBoPjHADYCGCADIANBEGo2AiAgA0EEaiADQRhqEOwDQYCAgIB4IQYgAygCCCEFIAMoAgQhBCADNQIMIQpBACEHQRELIQAgAyAKNwMgIAMgBTYCHCADIAg6ABkgAyAAOgAYIANBGGogASACENAFIQACQAJAAkACQAJAIAlFBEAgByAERXINBgwBCyAGBEAgBUEEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgBmpJDQIgAUEAIAIgBkEnaksbDQMgBRCiAgsgBEUgB3INBQsgBUEEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgBGpJDQIgAUEAIAIgBEEnaksbDQMgBRCiAgwEC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIANBMGokACAAC+YFAQN/IwBBIGsiAyQAIAACfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAQ4oAgEBAQEBAQEBAwUBAQQBAQEBAQEBAQEBAQEBAQEBAQEBAQgBAQEBBwALIAFB3ABGDQULIAJBAXFFIAFB/wVNcg0HIAEQ5QRFDQcgA0EOakEAOgAAIANBADsBDCADIAFBFHYtANy2RToADyADIAFBBHZBD3EtANy2RToAEyADIAFBCHZBD3EtANy2RToAEiADIAFBDHZBD3EtANy2RToAESADIAFBEHZBD3EtANy2RToAECABQQFyZ0ECdiICIANBDGoiBWoiBEH7ADoAACAEQQFrQfUAOgAAIAUgAkECayICakHcADoAACADQRRqIgQgAUEPcS0A3LZFOgAAIAAgAykBDDcAACADQf0AOgAVDAgLIABCADcBAiAAQdzgADsBAAwKCyAAQgA3AQIgAEHc6AE7AQAMCQsgAEIANwECIABB3OQBOwEADAgLIABCADcBAiAAQdzcATsBAAwHCyAAQgA3AQIgAEHcuAE7AQAMBgsgAkGAAnFFDQEgAEIANwECIABB3M4AOwEADAULIAJB////B3FBgIAETw0DCyABEOECDQEgA0EYakEAOgAAIANBADsBFiADIAFBFHYtANy2RToAGSADIAFBBHZBD3EtANy2RToAHSADIAFBCHZBD3EtANy2RToAHCADIAFBDHZBD3EtANy2RToAGyADIAFBEHZBD3EtANy2RToAGiABQQFyZ0ECdiICIANBFmoiBWoiBEH7ADoAACAEQQFrQfUAOgAAIAUgAkECayICakHcADoAACADQR5qIgQgAUEPcS0A3LZFOgAAIAAgAykBFjcAACADQf0AOgAfCyAAQQhqIAQvAQA7AABBCgwDCyAAIAE2AgBBgAEhAkGBAQwCCyAAQgA3AQIgAEHcxAA7AQALQQAhAkECCzoADSAAIAI6AAwgA0EgaiQAC9MEAgZ+BH8gACAAKAI4IAJqNgI4AkAgACgCPCILRQRADAELQQQhCQJ+QQggC2siCiACIAIgCksbIgxBBEkEQEEAIQlCAAwBCyABNQAACyEDIAwgCUEBcksEQCABIAlqMwAAIAlBA3SthiADhCEDIAlBAnIhCQsgACAAKQMwIAkgDEkEfiABIAlqMQAAIAlBA3SthiADhAUgAwsgC0EDdEE4ca2GhCIDNwMwIAIgCk8EQCAAIAApAxggA4UiBCAAKQMIfCIGIAApAxAiBUINiSAFIAApAwB8IgWFIgd8IgggB0IRiYU3AxAgACAIQiCJNwMIIAAgBiAEQhCJhSIEQhWJIAQgBUIgiXwiBIU3AxggACADIASFNwMADAELIAAgAiALajYCPA8LIAIgCmsiAkEHcSEJIAJBeHEiAiAKSwRAIAApAwghBCAAKQMQIQMgACkDGCEGIAApAwAhBQNAIAQgBiABIApqKQAAIgeFIgZ8IgQgAyAFfCIFIANCDYmFIgN8IgggA0IRiYUhAyAEIAZCEImFIgRCFYkgBCAFQiCJfCIFhSEGIAhCIIkhBCAFIAeFIQUgCkEIaiIKIAJJDQALIAAgAzcDECAAIAY3AxggACAENwMIIAAgBTcDAAtBBCECAn4gCUEESQRAQQAhAkIADAELIAEgCmo1AAALIQMgCSACQQFySwRAIAEgCmogAmozAAAgAkEDdK2GIAOEIQMgAkECciECCyAAIAIgCUkEfiABIAIgCmpqMQAAIAJBA3SthiADhAUgAws3AzAgACAJNgI8C5MFAwJ7BX8BfgJAAkACQEF/IAQtAL8CIgdBD3F0IgRB/wFxQf8BRwRAQf8BIARBf3MiC0H/AXFuIQhBASAHdEGWAnFFIAdBCEtyDQFBCCAHbq0gAa1+IgxCIIhQIAynIANJcQ0CIAAgAWohCQJAIAdBCEcEQCADRQ0BQQggB2shBEF/IQEDQCABQQBIBEAgACAJRg0HIAAtAAAhCiAEIQEgAEEBaiEACyACIAogAXYgC3EgCGw6AAAgASAHayEBIAJBAWohAiADQQFrIgMNAAsMAQsgAUUNACADIAFBAWsiASABIANLG0EBaiIBQRFPBEAgAiABIAFBD3EiAUEQIAEbayIBaiADIAFrIQMgACABaiEHIAj9DyEFA0AgAiAA/QAAACIG/RYAIAX9FgBs/Q8gBv0WASAF/RYBbP0XASAG/RYCIAX9FgJs/RcCIAb9FgMgBf0WA2z9FwMgBv0WBCAF/RYEbP0XBCAG/RYFIAX9FgVs/RcFIAb9FgYgBf0WBmz9FwYgBv0WByAF/RYHbP0XByAG/RYIIAX9Fghs/RcIIAb9FgkgBf0WCWz9FwkgBv0WCiAF/RYKbP0XCiAG/RYLIAX9Fgts/RcLIAb9FgwgBf0WDGz9FwwgBv0WDSAF/RYNbP0XDSAG/RYOIAX9Fg5s/RcOIAb9Fg8gBf0WD2z9Fw/9CwAAIABBEGohACACQRBqIQIgAUEQayIBDQALIQIgByEACwNAIANFDQEgAiAALQAAIAhsOgAAIAJBAWohAiADQQFrIQMgAEEBaiIAIAlHDQALCw8LQfSXxQAQgQgAC0Gwl8UAQTRB5JfFABDrBwALQYSWxQBB5QBB7JbFABDrBwALQfyWxQBBIkGgl8UAEKsHAAvkBAIIfwR9IAEoAggiCEUEQCAAQQA2AgAPCyABIAhBAWsiAjYCCCABKAIEIgMgAkEDdGoiASgCBCEFIAEqAgAhCgJAIAJFBEAgBSEJIAohDQwBCyADKAIEIQkgAyAFNgIEIAMqAgAhDSADIAo4AgBBACEBQQEhBCAIQQRPBEAgAkECayIBQQAgASACTRshB0EAIQIDQCADIAJBA3RqIAMgBCADIARBA3RqIgJBCGoqAgAiDCAMWyAMIAIqAgAiC2BFcSIBIAFBfyALIAxgGyALIAtcGyIBQQBMIAJBBGooAgAgAkEMaigCAE0gARtqIgFBA3RqKQIANwIAIAFBAXQiBkEBciEEIAEhAiAGIAdJDQALCwJAAkAgCEECayAERgRAIAMgAUEDdGogAyAEQQN0aiIBKQIANwIAIAEgBTYCBCABIAo4AgAgBCEBDAELIAMgAUEDdGoiAiAFNgIEIAIgCjgCACABDQBBACECDAELIAogClsEQANAIAMgAUEBayIGQQF2IgJBA3RqIgcqAgAiCyALWyAKIAtfRXFBfyAKIAtgGyIEQQBMIAUgB0EEaigCAE0gBBsEQCABIQIMAwsgAyABQQN0aiAHKQIANwIAIAIhASAGQQFLDQAMAgsACwNAAkAgAyABQQFrIgRBAXYiAkEDdGoiBioCACILIAtbIAogC19FcQ0AIAUgBkEEaigCAEsNACABIQIMAgsgAyABQQN0aiAGKQIANwIAIAIhASAEQQJPDQALCyADIAJBA3RqIgEgBTYCBCABIAo4AgALIAAgCTYCCCAAIA04AgQgAEEBNgIAC4kGAQV/IwBBIGsiAiQAQQEhBAJAAkACQAJAAkACQEEBIAAoAgAiA0H/////B2ogA0GAgICAeE0bQQFrDgQBAgMEAAsgASgCACIDQcSjxwBBAiABKAIEIgYoAgwiBREAAA0EIABBBGohAAJAIAEtAApBgAFxRQRAIANBu7PFAEEBIAURAAANBiAAIAEQrgINBiABKAIAIQMgASgCBCgCDCEFDAELIANB24HCAEECIAURAAANBSACQQE6AA8gAiAGNgIEIAIgAzYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgACACQRBqEK4CDQUgAigCEEHZgcIAQQIgAigCFCgCDBEAAA0FCyADQd6OyABBASAFEQAAIQQMBAsgASgCACIDQcajxwBBDiABKAIEIgYoAgwiBREAAA0DAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBREAAA0FIAAoAgQgACgCCCABELUCRQ0BDAULIANB24HCAEECIAURAAANBCACQQE6AA8gAiAGNgIEIAIgAzYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgACgCBCAAKAIIIAJBEGoQtQINBCACQdmBwgBBAhCvAw0ECyADQd6OyABBASAFEQAAIQQMAwsgASgCACIDQdSjxwBBEiABKAIEIgYoAgwiBREAAA0CAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBREAAA0EIAAoAgQgACgCCCABELUCRQ0BDAQLIANB24HCAEECIAURAAANAyACQQE6AA8gAiAGNgIEIAIgAzYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgACgCBCAAKAIIIAJBEGoQtQINAyACQdmBwgBBAhCvAw0DCyADQd6OyABBASAFEQAAIQQMAgsgASgCAEHmo8cAQQwgASgCBCgCDBEAACEEDAELIAEoAgBB8qPHAEEPIAEoAgQoAgwRAAAhBAsgAkEgaiQAIAQL8QMBBH8gABDAAgJAAkAgACgCvAEiAQRAIAAoAsABIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAsgBIgEEQCAAKALMASIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKALUASIBBEAgACgC2AEiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsCQCAAKALgASIBQYCAgIB4Rg0AIAEEQCAAKALkASIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQogILIAAoAuwBIgEEQCAAKALwASIDQQRrKAIAIgJBeHEiBCABQQF0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQogILIAAoAvgBIgFFDQAgACgC/AEiAEEEaygCACIDQXhxIgIgAUECdCIBQQRBCCADQQNxIgMbakkNASADQQAgAiABQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+sDAQR/IAAQ9gICQAJAIAAoAmAiAQRAIAAoAmQiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCbCIBBEAgACgCcCIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAJ4IgEEQCAAKAJ8IgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILAkAgACgChAEiAUGAgICAeEYNACABBEAgACgCiAEiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAKQASIBBEAgACgClAEiA0EEaygCACICQXhxIgQgAUEBdCIBQQRBCCACQQNxIgIbakkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAKcASIBRQ0AIAAoAqABIgBBBGsoAgAiA0F4cSICIAFBAnQiAUEEQQggA0EDcSIDG2pJDQEgA0EAIAIgAUEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvmAwEEfyAAEPUCAkACQCAAKAJAIgEEQCAAKAJEIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAkwiAQRAIAAoAlAiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCWCIBBEAgACgCXCIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAoAmQiAUGAgICAeEYNACABBEAgACgCaCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQogILIAAoAnAiAQRAIAAoAnQiA0EEaygCACICQXhxIgQgAUEBdCIBQQRBCCACQQNxIgIbakkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAJ8IgFFDQAgACgCgAEiAEEEaygCACIDQXhxIgIgAUECdCIBQQRBCCADQQNxIgMbakkNASADQQAgAiABQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC/EDAQR/IAAQigICQAJAIAAoAsQBIgEEQCAAKALIASIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKALQASIBBEAgACgC1AEiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgC3AEiAQRAIAAoAuABIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILAkAgACgC6AEiAUGAgICAeEYNACABBEAgACgC7AEiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAL0ASIBBEAgACgC+AEiA0EEaygCACICQXhxIgQgAUEBdCIBQQRBCCACQQNxIgIbakkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAKAAiIBRQ0AIAAoAoQCIgBBBGsoAgAiA0F4cSICIAFBAnQiAUEEQQggA0EDcSIDG2pJDQEgA0EAIAIgAUEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAv7BAEQfyMAQdAAayITJAAgAQRAIAJBAUYhIgNAAkACQAJAAkACQEGAgAQgASAYIhZrIhggGEGAgARPGyIXQQNsIhsgFkEDbCIcaiIUIBtJIAQgFElyRQRAIBYgF2oiGCAXSSAMIBhJcg0BIAogFEkNAiAGIBRJDQMCQCAXQQJ0IiAgFkECdCIdaiIUICBJIAggFElyRQRAQQAhHkEEIRkgAg0BQQQhFUEAIRRBACEfQQQhIQwHCyAdIBQgCEGo18EAEOoHAAsCQCAXQQlsIh8gFkEJbCIUaiIVIB9JIA4gFUlyRQRAIA0gFEECdGohISAiRQ0BQQQhFUEAIRQMBwsgFCAVIA5BmNfBABDqBwALIBdBD2wiFCAWQQ9sIhVqIhogFEkgECAaSXINBCAPIBVBAnRqIRUgAkEDRw0FIBdBFWwiHiAWQRVsIhlqIhogHkkgEiAaSXJFBEAgESAZQQJ0aiEZDAYLIBkgGiASQfjWwQAQ6gcACyAcIBQgBEHo18EAEOoHAAsgFiAYIAxB2NfBABDqBwALIBwgFCAKQcjXwQAQ6gcACyAcIBQgBkG418EAEOoHAAsgFSAaIBBBiNfBABDqBwALIBNCBDcCSCATQgI3AkAgEyAeNgI8IBMgGTYCOCATIBQ2AjQgEyAVNgIwIBMgHzYCLCATICE2AiggEyAgNgIkIBMgByAdQQJ0ajYCICATIBs2AhwgEyAFIBxBAnQiFGo2AhggEyAbNgIUIBMgCSAUajYCECATIBc2AgwgEyALIB1qNgIIIBMgGzYCBCATIAMgFGo2AgAgACAWIBcgExCXASABIBhLDQALCyAAEKMBIBNB0ABqJAAL+gQBEH8jAEHQAGsiEyQAIAEEQCACQQFGISIDQAJAAkACQAJAAkBBgIAEIAEgGCIWayIYIBhBgIAETxsiF0EDbCIbIBZBA2wiHGoiFCAbSSAEIBRJckUEQCAWIBdqIhggF0kgDCAYSXINASAKIBRJDQIgBiAUSQ0DAkAgF0ECdCIgIBZBAnQiHWoiFCAgSSAIIBRJckUEQEEAIR5BBCEZIAINAUEEIRVBACEUQQAhH0EEISEMBwsgHSAUIAhBqNfBABDqBwALAkAgF0EJbCIfIBZBCWwiFGoiFSAfSSAOIBVJckUEQCANIBRBAnRqISEgIkUNAUEEIRVBACEUDAcLIBQgFSAOQZjXwQAQ6gcACyAXQQ9sIhQgFkEPbCIVaiIaIBRJIBAgGklyDQQgDyAVQQJ0aiEVIAJBA0cNBSAXQRVsIh4gFkEVbCIZaiIaIB5JIBIgGklyRQRAIBEgGUECdGohGQwGCyAZIBogEkH41sEAEOoHAAsgHCAUIARB6NfBABDqBwALIBYgGCAMQdjXwQAQ6gcACyAcIBQgCkHI18EAEOoHAAsgHCAUIAZBuNfBABDqBwALIBUgGiAQQYjXwQAQ6gcACyATQgQ3AkggE0ICNwJAIBMgHjYCPCATIBk2AjggEyAUNgI0IBMgFTYCMCATIB82AiwgEyAhNgIoIBMgIDYCJCATIAcgHUECdGo2AiAgEyAbNgIcIBMgBSAcQQJ0IhRqNgIYIBMgGzYCFCATIAkgFGo2AhAgEyAXNgIMIBMgCyAdajYCCCATIBs2AgQgEyADIBRqNgIAIAAgFiAXIBMQfiABIBhLDQALCyAAENQBIBNB0ABqJAALhAUCC38BeyMAQTBrIgQkACAEQQA2AgggBEEANgIsIARBDGohCCAEQSxqIQtBCCEHAkACQAJAAkACQAJ/IAIgAWsiCUEAIAIgCU8bIglBCUkEQCAIIQogCwwBCwJAIAlBAWtnIgMEQCAEIARBCGpBfyADdkEBahDoAyAEKAIAIgNBgYCAgHhGDQEgAw0DC0HYlccAQRFB1MzHABDrBwALIAQoAiwiB0EJSQRAIAchAyAIIQpBCCEHIAsMAQsgBCgCDCEDIAQoAhAhCiAICyEJIAMgB08NAiAHIANBf3NqIgUgAiABIAEgAkkbIg0gAWsiBiAFIAZJG0EBaiIGQQRNDQEgCiADQQJ0aiEFIAH9Ef0MAAAAAAEAAAACAAAAAwAAAP2uASEOIAYgBkEDcSIGQQQgBhtrIgwhBgNAIAUgDv0LAgAgBUEQaiEFIA79DAQAAAAEAAAABAAAAAQAAAD9rgEhDiAGQQRrIgYNAAsgASAMaiEBIAMgDGohAwwBCwALIAogA0ECdGohBQNAIAEgDUYNAiAFIAE2AgAgBUEEaiEFIAFBAWohASAHIANBAWoiA0cNAAsgByEDCyAJIAM2AgAgASACTw0BA0ACfyAEKAIsIgZBCUkEQCAGIQUgCCEHQQghBiALDAELIAQoAgwhBSAEKAIQIQcgCAshAyAFIAZGBEAgBEEIahDNBiAEKAIMIQUgBCgCECEHIAghAwsgByAFQQJ0aiABNgIAIAMgAygCAEEBajYCACABQQFqIgEgAkcNAAsMAQsgCSADNgIACyAAIAT9AAII/QsCACAAQSBqIARBKGopAgA3AgAgAEEQaiAEQRhq/QACAP0LAgAgBEEwaiQAC94EAQt/IwBBEGsiDSQAIAMEQANAAkACQAJAAkAgBSALRwRAIAIgC2ohBiAEIAtBAnRqKAIAIg5FBEAgASAGTQ0CIAAgBkEYbGoiCEEEQRQgCCgCFEEESyIGG2ooAgBFDQUgCEEEaiAIQRRqIAYbQQA2AgAMBQsgASAGSw0CIAYgAUHUw8cAEIwHAAsgBSAFQbTDxwAQjAcACyAGIAFBxMPHABCMBwwBCyAAIAZBGGxqIgooAhQiByEGIAdBBU8EQCAKKAIEIQYLIApBFGohDCAKQQRqIQggCkEEQRQgB0EESyIJG2ooAgAEQCAIIAwgCRtBADYCACAMKAIAIQcLQQEgBiAGQQFNGyEJIAciBkEFTwRAIAgoAgAhBgsgBiAJTwRAIAYgCU0NAiAJIAggDCAHQQRLGyIGKAIATw0CIAYgCTYCAAwCCwJAIAkgBmsiDyAHQQQgB0EESyIGGyAIKAIAIAcgBhsiBmtNDQACQCAGIAYgD2oiBksNAEF/IAZBAWtndkEAIAZBAk8bIgZBf0YNACANQQhqIAogBkEBahD1AyANKAIIIgZBgYCAgHhGDQEgBg0CC0HYlccAQRFB1MzHABDrBwALA0ACfyAMKAIAIhBBBUkEQCAQIQcgCCEJQQQhECAMDAELIAooAgQhByAKKAIIIQkgCAshBiAHIBBGBEAgChDUBiAKKAIEIQcgCigCCCEJIAghBgsgCSAHQQJ0aiAONgIAIAYgBigCAEEBajYCACAOQQFqIQ4gD0EBayIPDQALDAELAAsgC0EBaiILIANHDQALCyANQRBqJAAL3gQBC38jAEEQayINJAAgAwRAA0ACQAJAAkACQCAFIAtHBEAgAiALaiEGIAQgC0ECdGooAgAiDkUEQCABIAZNDQIgACAGQRhsaiIIQQRBFCAIKAIUQQRLIgYbaigCAEUNBSAIQQRqIAhBFGogBhtBADYCAAwFCyABIAZLDQIgBiABQaTGxwAQjAcACyAFIAVBhMbHABCMBwALIAYgAUGUxscAEIwHDAELIAAgBkEYbGoiCigCFCIHIQYgB0EFTwRAIAooAgQhBgsgCkEUaiEMIApBBGohCCAKQQRBFCAHQQRLIgkbaigCAARAIAggDCAJG0EANgIAIAwoAgAhBwtBASAGIAZBAU0bIQkgByIGQQVPBEAgCCgCACEGCyAGIAlPBEAgBiAJTQ0CIAkgCCAMIAdBBEsbIgYoAgBPDQIgBiAJNgIADAILAkAgCSAGayIPIAdBBCAHQQRLIgYbIAgoAgAgByAGGyIGa00NAAJAIAYgBiAPaiIGSw0AQX8gBkEBa2d2QQAgBkECTxsiBkF/Rg0AIA1BCGogCiAGQQFqEPUDIA0oAggiBkGBgICAeEYNASAGDQILQdiVxwBBEUHUzMcAEOsHAAsDQAJ/IAwoAgAiEEEFSQRAIBAhByAIIQlBBCEQIAwMAQsgCigCBCEHIAooAgghCSAICyEGIAcgEEYEQCAKENQGIAooAgQhByAKKAIIIQkgCCEGCyAJIAdBAnRqIA42AgAgBiAGKAIAQQFqNgIAIA5BAWohDiAPQQFrIg8NAAsMAQsACyALQQFqIgsgA0cNAAsLIA1BEGokAAv2BAEQfyMAQdAAayITJAAgAQRAIAJBAUYhIgNAAkACQAJAAkACQEGAgAQgASAYIhZrIhggGEGAgARPGyIXQQNsIhsgFkEDbCIcaiIUIBtJIAQgFElyRQRAIBYgF2oiGCAXSSAMIBhJcg0BIAogFEkNAiAGIBRJDQMCQCAXQQJ0IiAgFkECdCIdaiIUICBJIAggFElyRQRAQQAhHkEEIRkgAg0BQQQhFUEAIRRBACEfQQQhIQwHCyAdIBQgCEGo18EAEOoHAAsCQCAXQQlsIh8gFkEJbCIUaiIVIB9JIA4gFUlyRQRAIA0gFEECdGohISAiRQ0BQQQhFUEAIRQMBwsgFCAVIA5BmNfBABDqBwALIBdBD2wiFCAWQQ9sIhVqIhogFEkgECAaSXINBCAPIBVBAnRqIRUgAkEDRw0FIBdBFWwiHiAWQRVsIhlqIhogHkkgEiAaSXJFBEAgESAZQQJ0aiEZDAYLIBkgGiASQfjWwQAQ6gcACyAcIBQgBEHo18EAEOoHAAsgFiAYIAxB2NfBABDqBwALIBwgFCAKQcjXwQAQ6gcACyAcIBQgBkG418EAEOoHAAsgFSAaIBBBiNfBABDqBwALIBNCBDcCSCATQgI3AkAgEyAeNgI8IBMgGTYCOCATIBQ2AjQgEyAVNgIwIBMgHzYCLCATICE2AiggEyAgNgIkIBMgByAdQQJ0ajYCICATIBs2AhwgEyAFIBxBAnQiFGo2AhggEyAbNgIUIBMgCSAUajYCECATIBc2AgwgEyALIB1qNgIIIBMgGzYCBCATIAMgFGo2AgAgACAWIBcgExCTAiABIBhLDQALCyATQdAAaiQAC/YEARB/IwBB0ABrIhMkACABBEAgAkEBRiEiA0ACQAJAAkACQAJAQYCABCABIBgiFmsiGCAYQYCABE8bIhdBA2wiGyAWQQNsIhxqIhQgG0kgBCAUSXJFBEAgFiAXaiIYIBdJIAwgGElyDQEgCiAUSQ0CIAYgFEkNAwJAIBdBAnQiICAWQQJ0Ih1qIhQgIEkgCCAUSXJFBEBBACEeQQQhGSACDQFBBCEVQQAhFEEAIR9BBCEhDAcLIB0gFCAIQajXwQAQ6gcACwJAIBdBCWwiHyAWQQlsIhRqIhUgH0kgDiAVSXJFBEAgDSAUQQJ0aiEhICJFDQFBBCEVQQAhFAwHCyAUIBUgDkGY18EAEOoHAAsgF0EPbCIUIBZBD2wiFWoiGiAUSSAQIBpJcg0EIA8gFUECdGohFSACQQNHDQUgF0EVbCIeIBZBFWwiGWoiGiAeSSASIBpJckUEQCARIBlBAnRqIRkMBgsgGSAaIBJB+NbBABDqBwALIBwgFCAEQejXwQAQ6gcACyAWIBggDEHY18EAEOoHAAsgHCAUIApByNfBABDqBwALIBwgFCAGQbjXwQAQ6gcACyAVIBogEEGI18EAEOoHAAsgE0IENwJIIBNCAjcCQCATIB42AjwgEyAZNgI4IBMgFDYCNCATIBU2AjAgEyAfNgIsIBMgITYCKCATICA2AiQgEyAHIB1BAnRqNgIgIBMgGzYCHCATIAUgHEECdCIUajYCGCATIBs2AhQgEyAJIBRqNgIQIBMgFzYCDCATIAsgHWo2AgggEyAbNgIEIBMgAyAUajYCACAAIBYgFyATEOIBIAEgGEsNAAsLIBNB0ABqJAALggcCBn8SfSAAQQxqIQcDQCAALQCMAiAEIAUgAiAAKAKIAmoQvQQhEiAALQCUAiAEIAUgAiAAKAKQAmoQvQQhEyAALQCcAiAEIAUgAiAAKAKYAmoQvQQhFCAALQCkAiAEIAUgAiAAKAKgAmoQvQQhFSAALQCsAiAEIAUgAiAAKAKoAmoQvQQhFiAALQC0AiAEIAUgAiAAKAKwAmoQvQQhFyAALQC8AiAEIAUgAiAAKAK4AmoQvQQhGCAALQDEAiAEIAUgAiAAKALAAmoQvQQhGSAALQDMAiAEIAUgAiAAKALIAmoQvQQhGiAALQDUAiAEIAUgAiAAKALQAmoQvQQhGyAALQDcAiAEIAUgAiAAKALYAmoQvQQhHCAALQDkAiAEIAUgAiAAKALgAmoQvQQhHUMAAAAAIQxDAAAAACENIAAtANwBIgZBCEcEQCAGIAQgBSACIAAoAtgBahC9BCENCyAALQDkASIGQQhHBEAgBiAEIAUgAiAAKALgAWoQvQQhDAtDAAAAACEOIAAtAOwBIgZBCEcEQCAGIAQgBSACIAAoAugBahC9BCEOC0MAAIA/IQ9DAACAPyEQIAAtAPQBIgZBCEcEQCAGIAQgBSACIAAoAvABahC9BCEQCyAALQD8ASIGQQhHBEAgBiAEIAUgAiAAKAL4AWoQvQQhDwtDAACAPyERIAAtAIQCIgZBCEcEQCAGIAQgBSACIAAoAoACahC9BCERCyAAKAIUIgogACgCDEYEQCMAQSBrIgYkAAJAIAcoAgAiCEG4nI4HSwR/QQAFQQQgCEEBdCIJIAlBBE0bIglByABsIQsgBiAIBH8gBiAIQcgAbDYCHCAGIAcoAgQ2AhRBBAVBAAs2AhggBkEIakEEIAsgBkEUahCFByAGKAIIQQFHDQEgBigCECEHIAYoAgwLIAdB9NrHABCTCQALIAYoAgwhCCAHIAk2AgAgByAINgIEIAZBIGokAAsgACgCECAKQcgAbGoiBiAROAJEIAYgDzgCQCAGIBA4AjwgBiAOOAI4IAYgDDgCNCAGIA04AjAgBiAdOAIsIAYgHDgCKCAGIBs4AiQgBiAaOAIgIAYgGTgCHCAGIBg4AhggBiAXOAIUIAYgFjgCECAGIBU4AgwgBiAUOAIIIAYgEzgCBCAGIBI4AgAgACAKQQFqNgIUIAIgA2ohAiABQQFrIgENAAsL6QQBCX8jAEEgayIHJAACQAJAAkACQAJAIAAtALgBQQFHDQAgACgCrAEgACgCsAEiBkECdCAAKAK0ASIFIAZqQQJ0EOEIIQYgBUECdCIFIAAoAmQiCEsNASAAKAJgIQggByAGELgKIgk2AgAgByAFNgIEIAUgCUcNBCAGIAggBRDgCSAGQYQISQ0AIAYQmwcLIABCADcCsAEgAEG4AWpBADoAAAJAAkAgACgCMEUNACAAKAI0IAFBAnQgASACakECdBDhCCEJAkAgAkECdCIBIAAoAmQiBk0EQCAAIAE2AmQgACgCYCEIIAEhAgwBCyAGIQUgASAGayIKIAAoAlwgBmtLBEAgAEHcAGogBiAKQQRBBBCkBSAAKAJkIQULIAAoAmAiCCAFQQJ0IgxqIQsgCkECTwRAIAEgBkF/c2pBAnQiDQRAIAtBACAN/AsACyACQQR0IAZBAnRrIAhqIAxqQQRrIQsgBSAKakEBayEFCyALQQA2AgAgACAFQQFqIgI2AmQgASACSw0ECyAHIAkQuAoiADYCACAHIAE2AgQgACABRw0FIAggASAJEOEJIAhBCGohCCAEQQJ0IQZBACEAA0AgAEECaiIFIAJPDQUgACAGRg0CIAMgCCgCADsBACAIQRBqIQggA0ECaiEDIAEgAEEEaiIARw0ACyAJQYQISQ0AIAkQmwcLIAdBIGokAA8LIAQgBEGM0sAAEIwHAAtBACAFIAhB/OvAABDqBwALQQAgASACQZzSwAAQ6gcACyAFIAJB/NHAABCMBwALIAdBADYCCEEAIAcgB0EEaiAHQQhqQeD5xAAQ9QcAC+UEAQl/IwBBIGsiByQAAkACQAJAAkACQCAALQC4AUEBRw0AIAAoAqwBIAAoArABIgZBAnQgACgCtAEiBSAGakECdBDhCCEGIAVBAnQiBSAAKAJkIghLDQEgACgCYCEIIAcgBhC4CiIJNgIAIAcgBTYCBCAFIAlHDQQgBiAIIAUQ4AkgBkGECEkNACAGEJsHCyAAQgA3ArABIABBuAFqQQA6AAACQAJAIAAoAjBFDQAgACgCNCABQQJ0IAEgAmpBAnQQ4QghCQJAIAJBAnQiASAAKAJkIgZNBEAgACABNgJkIAAoAmAhCCABIQIMAQsgBiEFIAEgBmsiCiAAKAJcIAZrSwRAIABB3ABqIAYgCkEEQQQQpAUgACgCZCEFCyAAKAJgIgggBUECdCIMaiELIApBAk8EQCABIAZBf3NqQQJ0Ig0EQCALQQAgDfwLAAsgAkEEdCAGQQJ0ayAIaiAMakEEayELIAUgCmpBAWshBQsgC0EANgIAIAAgBUEBaiICNgJkIAEgAksNBAsgByAJELgKIgA2AgAgByABNgIEIAAgAUcNBSAIIAEgCRDhCSAIQQxqIQggBEECdCEGQQAhAANAIABBA2oiBSACTw0FIAAgBkYNAiAAIANqIAgoAgA2AgAgCEEQaiEIIAEgAEEEaiIARw0ACyAJQYQISQ0AIAkQmwcLIAdBIGokAA8LIAQgBEG80sAAEIwHAAtBACAFIAhB/OvAABDqBwALQQAgASACQczSwAAQ6gcACyAFIAJBrNLAABCMBwALIAdBADYCCEEAIAcgB0EEaiAHQQhqQeD5xAAQ9QcAC9QFAQV/IwBBIGsiAiQAAkACQAJAAkACQCAALQAAQQFrDgMBAgMAC0EBIQQgASgCACIDQZCrxwBBBSABKAIEIgYoAgwiBREAAA0DAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBREAAA0FIAMgAC0AAUECdCIAKALolkkgACgCqJZJIAURAABFDQEMBQsgA0HbgcIAQQIgBREAAA0EIAIgBjYCFCACIAM2AhAgAkEBOgAAIAAtAAFBAnQiACgCqJdJIQEgACgC6JdJIQAgAiACNgIYIAJBEGoiBiAAIAEQrwMNBCAGQdmBwgBBAhCvAw0ECyADQd6OyABBASAFEQAAIQQMAwtBASEEIAEoAgAiA0GVq8cAQQQgASgCBCIGKAIMIgURAAANAgJAIAEtAApBgAFxRQRAIANBu7PFAEEBIAURAAANBCAAQQhqKAIAIABBDGooAgAgARC1AkUNAQwECyADQduBwgBBAiAFEQAADQMgAkEBOgAPIAIgBjYCBCACIAM2AgAgAkHggcIANgIUIAIgASkCCDcCGCAAQQhqKAIAIABBDGooAgAgAiACQQ9qNgIIIAIgAjYCECACQRBqELUCDQMgAkHZgcIAQQIQrwMNAwsgA0HejsgAQQEgBREAACEEDAILQQEhBCABKAIAIgNBmavHAEENIAEoAgQiBigCDCIFEQAADQEgAEEEaiEAAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBREAAA0DIAAgARCmAkUNAQwDCyADQduBwgBBAiAFEQAADQIgAkEBOgAPIAIgBjYCBCACIAM2AgAgAkHggcIANgIUIAIgASkCCDcCGCACIAJBD2o2AgggAiACNgIQIAAgAkEQahCmAg0CIAJB2YHCAEECEK8DDQILIANB3o7IAEEBIAURAAAhBAwBCyABKAIAQaarxwBBByABKAIEKAIMEQAAIQQLIAJBIGokACAEC8UFAgV/An4jAEEwayICJAAgASgCDCEGAkACQAJAAkACQCABKAIUIgMgASgCECIFSQRAA0ACQCADIAZqLQAAIgRBCWsOJQAABAQABAQEBAQEBAQEBAQEBAQEBAQEAAQEBAQEBAQEBAQEBAMECyABIANBAWoiAzYCFCADIAVHDQALIAUhAwtBASEEIAIgBiAFIANBAWoiASAFIAEgBUkbEPkBIAIoAgQhASACKAIAIQVBFBBxIgNFDQIgAyAFNgIMIANBBTYCACADIAE2AhAMBAtBASEEIAEgA0EBajYCFCACQQhqIAFBABDHAyACKQMIIghCA1ENAiACKQMQIQcCfwJAAkACQAJAIAinQQFrDgIAAQMLIAdCgICAgBBUDQEgAkEBOgAYIAIgBzcDICACQRhqIAJBL2pBqOfAABDeBgwDCyAHQoCAgIAQVA0AIAJBAjoAGCACIAc3AyAgAkEYaiACQS9qQajnwAAQ3gYMAgsgB6chA0EAIQQMBQsgAkEDOgAYIAIgBzcDICACQRhqIAJBL2pBqOfAABDfBgsgARDrBSEDDAMLIARBMGtB/wFxQQpPBEBBASEEIAEgAkEvakGo58AAEO4BIAEQ6wUhAwwDC0EBIQQgAkEIaiABQQEQxwMgAikDCCIIQgNRBEAgAigCECEDDAMLIAIpAxAhBwJ/AkACQAJAAkAgCKdBAWsOAgABAwsgB0KAgICAEFQNASACQQE6ABggAiAHNwMgIAJBGGogAkEvakGo58AAEN4GDAMLIAdCgICAgBBUDQAgAkECOgAYIAIgBzcDICACQRhqIAJBL2pBqOfAABDeBgwCCyAHpyEDQQAhBAwECyACQQM6ABggAiAHNwMgIAJBGGogAkEvakGo58AAEN8GCyABEOsFIQMMAgsACyACKAIQIQMLIAAgAzYCBCAAIAQ2AgAgAkEwaiQAC8AEAQV/IAEoAgghAwJ/IAEoAgQiAkEQdiIBQf//AXFFBEAgAkGAgHxxDAELIAFB/wdxIQIgAUGAgAJxIQQgAUGA+AFxIgVBgPgBRgRAIARBEHQiBEGAgID8B3IgAkUNARogBCABQQ10ckGAgID+B3IMAQsgBEEQdCIBIAVBDXRBgICA/ABxIAJBDXRyQYCAgMADanIgBQ0AGiACIAJnQRBrIgJB//8DcUEIanRB////A3EgAUGAgIDYA3IgAkEXdGtyCyEGIANBEHYhAQJ/IANB//8BcQRAIANB/wdxIQIgA0GAgAJxIQQgA0GA+AFxIgVBgPgBRwRAIARBEHQiBCAFQQ10QYCAgPwAcSACQQ10ckGAgIDAA2pyIAUNAhogAiACZ0EQayICQf//A3FBCGp0Qf///wNxIARBgICA2ANyIAJBF3RrcgwCCyAEQRB0IgQgAkENdHJBgICA/gdyIAINARogBEGAgID8B3IMAQsgA0EQdAshBSAAAn8gAUH//wFxBEAgAUH/B3EhAyABQYCAAnEhAiABQYD4AXEiBEGA+AFHBEAgAkEQdCIBIARBDXRBgICA/ABxIANBDXRyQYCAgMADanIgBA0CGiADIANnQRBrIgNB//8DcUEIanRB////A3EgAUGAgIDYA3IgA0EXdGtyDAILIAFBDXQgAkEQdCIBckGAgID+B3IgAw0BGiABQYCAgPwHcgwBCyADQYCAfHELvhCJBDgCCCAAIAW+EIkEOAIEIAAgBr4QiQQ4AgAL5wQCB38BewJAAkAgACgCCCIHQYCAgMABcUUNAAJAAkACQAJAIAdBgICAgAFxBEAgAC8BDiIDDQFBACECDAILIAJBEE8EQCABIAIQxwIhAwwECyACRQRAQQAhAgwECyACQQNxIQUCQCACQQRJBEAMAQsgAkEMcSEGA0AgAyABIARq/VwAAP0Mv7+/v7+/v7+/v7+/v7+/v/0nIgr9GwBBAXFqIAr9hwH9pwEiCv0bAWsgCv0bAmsgCv0bA2shAyAGIARBBGoiBEcNAAsLIAVFDQMgASAEaiEEA0AgAyAELAAAQb9/SmohAyAEQQFqIQQgBUEBayIFDQALDAMLIAEgAmohCUEAIQIgASEEIAMhBQNAIAQiBiAJRg0CAn8gBEEBaiAELAAAIghBAE4NABogBkECaiAIQWBJDQAaIAZBA2ogCEFwSQ0AGiAGQQRqCyIEIAZrIAJqIQIgBUEBayIFDQALC0EAIQULIAMgBWshAwsgAyAALwEMIgRPDQAgBCADayEGQQAhA0EAIQUCQAJAAkAgB0EddkEDcUEBaw4CAAECCyAGIQUMAQsgBkH+/wNxQQF2IQULIAdB////AHEhCCAAKAIEIQcgACgCACEAA0AgA0H//wNxIAVB//8DcUkEQEEBIQQgA0EBaiEDIAAgCCAHKAIQEQIARQ0BDAMLC0EBIQQgACABIAIgBygCDBEAAA0BIAYgBWtB//8DcSEBQQAhAwNAIAEgA0H//wNxTQRAQQAPCyADQQFqIQMgACAIIAcoAhARAgBFDQALDAELIAAoAgAgASACIAAoAgQoAgwRAAAhBAsgBAvoBQMIfwV9BHsCQAJAAkACQEGACBBxIgUEQCADQQJ2IQr9DAAAAAABAAAAAgAAAAMAAAAhEQNAIAQgBWoiByAR/fsB/QwAAH9DAAB/QwAAf0MAAH9DIhL95wH9DAAAAL8AAAC/AAAAvwAAAL8iE/3kAf0M8wS1P/MEtT/zBLU/8wS1PyIU/eYB/QsCACAHQRBqIBH9DAQAAAAEAAAABAAAAAQAAAD9rgH9+wEgEv3nASAT/eQBIBT95gH9CwIAIBH9DAgAAAAIAAAACAAAAAgAAAD9rgEhESAEQSBqIgRBgAhHDQALIANBBEkNBEEAIQQDQAJAAkACQAJAIAEgBEsEQCAEQQFqIgcgAU8NASAEQQJqIgggAU8NAkMAAIA/IAUgACAEaiIGLQAAQQJ0aioCACIOIA6UIAUgBkEBai0AAEECdGoqAgAiDyAPlJIgBSAGQQJqLQAAQQJ0aioCACIQIBCUkpNDAAAAABDgCCEMAkAgASAEQQNqIglLBEAgDJEhDSAOIQwgBkEDai0AACIGQfwBayILDgIGAQULIAkgAUGE78cAEIwHAAsgDSEMDAQLIAQgAUHU7scAEIwHAAsgByABQeTuxwAQjAcACyAIIAFB9O7HABCMBwALIA8hDAsgAyAETQ0CIAIgDDgCACADIAdNDQMgAkEEaiAPIA0gECALQQJGGyAGQf4BSRs4AgAgAyAITQ0EIAJBCGogDSAQIAZB/wFGGzgCACADIAlLBEAgAkEMaiAOIA0gCxs4AgAgAkEQaiECIARBBGohBCAKQQFrIgoNAQwGCwsgCSADQcTvxwAQjAcLAAsgBCADQZTvxwAQjAcACyAHIANBpO/HABCMBwALIAggA0G078cAEIwHAAsCQCAFQQRrKAIAIgBBeHFBhAhBiAggAEEDcSIBG08EQCABQQAgAEGoCE8bDQEgBRCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC8YEAQp/IwBBIGsiBCQAIARBADYCCCAEQQA2AhxBBCEGIARBDGohCCAEQRxqIQsCQAJAAkACQAJAAn8gAiABayIFQRFJBEAgCCEJIAsMAQsgBCAEQQhqQX8gBUECdkEBa2d2QQFqEPUDIAQoAgAiA0GBgICAeEcEQCADDQJB2JXHAEERQdTMxwAQ6wcACyAEKAIcIgZBBUkEQCAGIQMgCCEJQQQhBiALDAELIAQoAgwhAyAEKAIQIQkgCAshCiADIAZPDQIgBUEDcSAFQQJ2IgUgBiADQX9zaiIHIAUgB0kbIgdBB01yDQEgA0ECdCAJaiIFIAFrQRBJDQEgAyAHQQFqIgcgB0EDcSIHQQQgBxtrIgxqIQMgASAMQQJ0agNAIAUgAf0AAgD9CwIAIAFBEGohASAFQRBqIQUgDEEEayIMDQALIQEMAQsACyAJIANBAnRqIQUDQCABIAJGDQIgBSABKAIANgIAIAVBBGohBSABQQRqIQEgBiADQQFqIgNHDQALIAYhAwsgCiADNgIAIAEgAkYNAQNAAn8gBCgCHCIGQQVJBEAgBiEFIAghCkEEIQYgCwwBCyAEKAIMIQUgBCgCECEKIAgLIQMgASgCACEJIAUgBkYEQCAEQQhqENQGIAQoAgwhBSAEKAIQIQogCCEDCyAKIAVBAnRqIAk2AgAgAyADKAIAQQFqNgIAIAFBBGoiASACRw0ACwwBCyAKIAM2AgALIAAgBP0AAgj9CwIAIABBEGogBEEYaikCADcCACAEQSBqJAALtgQBBH8gAS8BHiECAn8gAS8BHCIEQf//AXFFBEAgBEEQdAwBCyAEQf8HcSEDIARBgIACcSEFIARBgPgBcSIEQYD4AUYEQCAFQRB0IgRBgICA/AdyIANFDQEaIAQgA0ENdHJBgICA/gdyDAELIAVBEHQiBSAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2pyIAQNABogAyADZ0EQayIDQf//A3FBCGp0Qf///wNxIAVBgICA2ANyIANBF3RrcgshBSABLwEgIQECfyACQf//AXEEQCACQf8HcSEDIAJBgIACcSEEIAJBgPgBcSICQYD4AUcEQCAEQRB0IgQgAkENdEGAgID8AHEgA0ENdHJBgICAwANqciACDQIaIAMgA2dBEGsiAkH//wNxQQhqdEH///8DcSAEQYCAgNgDciACQRd0a3IMAgsgBEEQdCICIANBDXRyQYCAgP4HciADDQEaIAJBgICA/AdyDAELIAJBEHQLIQMgAAJ/IAFB//8BcQRAIAFB/wdxIQAgAUGAgAJxIQIgAUGA+AFxIgFBgPgBRwRAIAJBEHQiAiABQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2pyIAENAhogACAAZ0EQayIAQf//A3FBCGp0Qf///wNxIAJBgICA2ANyIABBF3RrcgwCCyACQRB0IgEgAEENdHJBgICA/gdyIAANARogAUGAgID8B3IMAQsgAUEQdAu+EIkE/RMgBb4QiQT9IAAgA74QiQT9IAH9CwQAC/gDAQd/IABBvAJqEMACAkACQCAAKAKwAiIBBEAgACgCtAIiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsCQCAAKAKQAUECRg0AIAAoAvgBIQMgACgC/AEiAgRAIANBJGohAQNAIAFBBGsoAgAiBEGAgICAeHJBgICAgHhHBEAgASgCACIGQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyAEakkNBCAFQQAgByAEQSdqSxsNBSAGEKICCyABQTBqIQEgAkEBayICDQALCyAAKAL0ASIBBEAgA0EEaygCACICQXhxIgQgAUEwbCIBQQRBCCACQQNxIgIbckkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAKAAiIBQYCAgIB4ckGAgICAeEYNACAAKAKEAiIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAoAgBBAkYNACAAKAJcIgFFDQAgACgCYCIAQQRrKAIAIgNBeHEiAiABQShsIgFBBEEIIANBA3EiAxtqSQ0BIANBACACIAFBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL9QMBB38gAEH4AWoQ9gICQAJAIAAoAvgCIgEEQCAAKAL8AiIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAoAgBBAkYNACAAKAJoIQMgACgCbCICBEAgA0EkaiEBA0AgAUEEaygCACIEQYCAgIB4ckGAgICAeEcEQCABKAIAIgZBBGsoAgAiBUF4cSIHQQRBCCAFQQNxIgUbIARqSQ0EIAVBACAHIARBJ2pLGw0FIAYQogILIAFBMGohASACQQFrIgINAAsLIAAoAmQiAQRAIANBBGsoAgAiAkF4cSIEIAFBMGwiAUEEQQggAkEDcSICG3JJDQIgAkEAIAQgAUEnaksbDQMgAxCiAgsgACgCcCIBQYCAgIB4ckGAgICAeEYNACAAKAJ0IgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILAkAgACgCiAFBAkYNACAAKALkASIBRQ0AIAAoAugBIgBBBGsoAgAiA0F4cSICIAFBKGwiAUEEQQggA0EDcSIDG2pJDQEgA0EAIAIgAUEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAv1AwEHfyAAQfgBahD1AgJAAkAgACgC2AIiAQRAIAAoAtwCIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILAkAgACgCAEECRg0AIAAoAmghAyAAKAJsIgIEQCADQSRqIQEDQCABQQRrKAIAIgRBgICAgHhyQYCAgIB4RwRAIAEoAgAiBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgBGpJDQQgBUEAIAcgBEEnaksbDQUgBhCiAgsgAUEwaiEBIAJBAWsiAg0ACwsgACgCZCIBBEAgA0EEaygCACICQXhxIgQgAUEwbCIBQQRBCCACQQNxIgIbckkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAJwIgFBgICAgHhyQYCAgIB4Rg0AIAAoAnQiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsCQCAAKAKIAUECRg0AIAAoAuQBIgFFDQAgACgC6AEiAEEEaygCACIDQXhxIgIgAUEobCIBQQRBCCADQQNxIgMbakkNASADQQAgAiABQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC/gDAQd/IABBvAJqEIoCAkACQCAAKAKwAiIBBEAgACgCtAIiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsCQCAAKAKQAUECRg0AIAAoAvgBIQMgACgC/AEiAgRAIANBJGohAQNAIAFBBGsoAgAiBEGAgICAeHJBgICAgHhHBEAgASgCACIGQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyAEakkNBCAFQQAgByAEQSdqSxsNBSAGEKICCyABQTBqIQEgAkEBayICDQALCyAAKAL0ASIBBEAgA0EEaygCACICQXhxIgQgAUEwbCIBQQRBCCACQQNxIgIbckkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAKAAiIBQYCAgIB4ckGAgICAeEYNACAAKAKEAiIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAoAgBBAkYNACAAKAJcIgFFDQAgACgCYCIAQQRrKAIAIgNBeHEiAiABQShsIgFBBEEIIANBA3EiAxtqSQ0BIANBACACIAFBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL6gQBB38jAEEgayIEJAAgASgCACIHKAIMIQYCQAJAAkAgBygCFCICIAcoAhAiA0kEQANAIAIgBmotAAAiCEEJayIFQRdLQQEgBXRBk4CABHFFcg0CIAcgAkEBaiICNgIUIAIgA0cNAAsgAyECC0EBIQUgBEEYaiAGIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCHCEDIAQoAhghAUEUEHEiAkUNAiACIAE2AgwgAkECNgIAIAAgAjYCBCACIAM2AhAMAQsgCEHdAEYEQEEAIQUgAEEAOgABDAELAkAgAS0ABEUEQCACQQFqIQIgCEEsRgRAIAcgAjYCFCACIANJBEADQCACIAZqLQAAIgVBCWsiAUEXS0EBIAF0QZOAgARxRXINBCAHIAJBAWoiAjYCFCACIANHDQALIAMhAgtBASEFIAQgBiADIAJBAWoiASADIAEgA0kbEPkBIAQoAgQhAyAEKAIAIQFBFBBxIgJFDQQgAiABNgIMIAJBBTYCACAAIAI2AgQgAiADNgIQDAMLIARBEGogBiADIAIgAyACIANJGxD5ASAEKAIUIQMgBCgCECEBQRQQcSICRQ0DIAIgATYCDCACQQc2AgAgACACNgIEIAIgAzYCEEEBIQUMAgsgAEEBOgABQQAhBSABQQA6AAQMAQsgBUHdAEcEQCAAQQE6AAFBACEFDAELQQEhBSAEQQhqIAYgAyACQQFqIgEgAyABIANJGxD5ASAEKAIMIQMgBCgCCCEBQRQQcSICRQ0BIAIgATYCDCACQRU2AgAgACACNgIEIAIgAzYCEAsgACAFOgAAIARBIGokAA8LAAvlAwEHfyAAKAKwASEBAkACQCAAKAK0ASIFBEAgASECA0AgAkEoaigCACIGBEAgAkEsaigCACIHQQRrKAIAIgRBeHEiA0EEQQggBEEDcSIEGyAGakkNAyAEQQAgAyAGQSdqSxsNBCAHEKICCyACEL8EIAJBOGohAiAFQQFrIgUNAAsLIAAoAqwBIgQEQCABQQRrKAIAIgJBeHEiAyAEQThsIgRBBEEIIAJBA3EiAhtqSQ0BIAJBACADIARBJ2pLGw0CIAEQogILIAAoApgBIgMEQCAAKAKcASIEQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyADakkNASABQQAgAiADQSdqSxsNAiAEEKICCyAAQfAAahC/BCAAKAIoIgNBgICAgHhHBEAgAwRAIAAoAiwiBEEEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgA2pJDQIgAUEAIAIgA0EnaksbDQMgBBCiAgsgABC/BAsgACgCYCIDQYCAgIB4RwRAIAMEQCAAKAJkIgRBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIANqSQ0CIAFBACACIANBJ2pLGw0DIAQQogILIABBOGoQvwQLDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALzwQBB38jAEEQayIGJAACfwJAIAIoAgQiA0UNACAAIAIoAgAgAyABKAIMEQAARQ0AQQEMAQsgAigCDCIDBEAgAigCCCIFIANBDGxqIQcgBkEMaiEIA0ACQAJAAkACQCAFLwEAQQFrDgICAQALAkAgBSgCBCICQcEATwRAIAFBDGooAgAhAwNAQQEgAEGCgsIAQcAAIAMRAAANCBogAkFAaiICQcAASw0ACwwBCyACRQ0DIAFBDGooAgAhAwsgAEGCgsIAIAIgAxEAAEUNAkEBDAULIAAgBSgCBCAFKAIIIAFBDGooAgARAABFDQFBAQwECyAFLwECIQIgCEEAOgAAIAZBADYCCAJAAkAgAkUEQCAGIAJBMHI6AAhBASEDDAELIAJB9v8XaiACQZz/H2pxIAJBmPg3aiACQfCxH2pxcyIEQRF2QQFqIQMgBEGAgChPDQEgBkEIaiADaiIEQQFrIAIgAkEKbiIJQQpsa0EwcjoAACADQQFGDQAgBEECayAJQQpwQTByOgAAIANBAkYNACAEQQNrIAJB5ABuQQpwQTByOgAAIANBA0YNACAEQQRrIAJB6AduQQpwQTByOgAAIANBBEYNACAEQQVrIAJBkM4AbkEwcjoAACADQQVGDQAgBEEGa0EwOgAAIANBBkYNACAEQQdrQTA6AAAgA0EHRg0AIARBCGtBMDoAAAsgACAGQQhqIAMgAUEMaigCABEAAEUNAUEBDAQLQQAgA0EFQcSCwgAQ6gcACyAFQQxqIgUgB0cNAAsLQQALIAZBEGokAAuhBQEGfyMAQSBrIgMkACABKAIMIQUCQAJAAn8CQAJAIAEoAhQiAiABKAIQIgRJBEAgAUEMaiEHA0AgAiAFai0AAEEJayIGQRlLDQJBASAGdEGTgIAEcUUEQCAGQRlHDQMgAUEANgIIIAEgAkEBajYCFCADQRRqIAcgARCCAiADKAIYIQIgAygCFEECRw0EIABBAToAACAAIAI2AgQMBgsgASACQQFqIgI2AhQgAiAERw0ACyAEIQILIANBCGogBSAEIAJBAWoiASAEIAEgBEkbEPkBIAMoAgwhBCADKAIIIQFBFBBxIgJFDQQgAiABNgIMIAJBBTYCACAAIAI2AgQgAEEBOgAAIAIgBDYCEAwDCyABIANBFGpBmMDBABDuAQwBCwJAAn8CQAJAAkACQAJAAkACQAJAIAMoAhwiBEEDaw4JAgkBAAkHCQkECQsgAkGUg8EAQQYQ2wcNAkEADAcLIAJBmoPBAEEFENsHDQdBAQwGCyACQZ+DwQBBAxDbBw0CQQIMBQsgAkHB/8AAQQYQ2wcNBUEDDAQLIAJBooPBAEELENsHDQFBBAwDC0EFIAJB+OfAAEEDENsHRQ0CGkEGIAJB++fAAEEDENsHRQ0CGiACQYzswABBAxDbBw0DQQcMAgtBCCACQa2DwQBBCxDbB0UNARogAkG4g8EAQQsQ2wcNAkEJDAELQQogAikAAELz0MX5teybsuUAUQ0AGkELIAIpAABC89DJ+bXsm7LlAFENABpBDCACKQAAQvPQzfm17Juy5QBRDQAaIAIpAABC89D94pbM2LLsAFINAUENCyECIABBADoAACAAIAI6AAEMAgsgAiAEQeSDwQBBDhDMBgsgARDrBSEBIABBAToAACAAIAE2AgQLIANBIGokAA8LAAvIBQEFfyMAQSBrIgIkAAJAAkACQAJAAkAgAC0AAEEBaw4DAQIDAAtBASEEIAEoAgAiA0GQq8cAQQUgASgCBCIGKAIMIgURAAANAwJAIAEtAApBgAFxRQRAIANBu7PFAEEBIAURAAANBSADIAAtAAFBAnQiACgCuJxJIAAoAvibSSAFEQAARQ0BDAULIANB24HCAEECIAURAAANBCACIAY2AhQgAiADNgIQIAJBAToAACAALQABQQJ0IgAoAvicSSEBIAAoAridSSEAIAIgAjYCGCACQRBqIgYgACABEK8DDQQgBkHZgcIAQQIQrwMNBAsgA0HejsgAQQEgBREAACEEDAMLQQEhBCABKAIAIgNBlavHAEEEIAEoAgQiBigCDCIFEQAADQICQCABLQAKQYABcUUEQCADQbuzxQBBASAFEQAADQQgACgCCCAAKAIMIAEQtQJFDQEMBAsgA0HbgcIAQQIgBREAAA0DIAJBAToADyACIAY2AgQgAiADNgIAIAJB4IHCADYCFCACIAEpAgg3AhggAiACQQ9qNgIIIAIgAjYCECAAKAIIIAAoAgwgAkEQahC1Ag0DIAJB2YHCAEECEK8DDQMLIANB3o7IAEEBIAURAAAhBAwCC0EBIQQgASgCACIDQZmrxwBBDSABKAIEIgYoAgwiBREAAA0BIABBBGohAAJAIAEtAApBgAFxRQRAIANBu7PFAEEBIAURAAANAyAAIAEQpgJFDQEMAwsgA0HbgcIAQQIgBREAAA0CIAJBAToADyACIAY2AgQgAiADNgIAIAJB4IHCADYCFCACIAEpAgg3AhggAiACQQ9qNgIIIAIgAjYCECAAIAJBEGoQpgINAiACQdmBwgBBAhCvAw0CCyADQd6OyABBASAFEQAAIQQMAQsgASgCAEGmq8cAQQcgASgCBCgCDBEAACEECyACQSBqJAAgBAu2BAEEfyABLwEYIQQCfyABLwEWIgJB//8BcUUEQCACQRB0DAELIAJB/wdxIQUgAkGAgAJxIQMgAkGA+AFxIgJBgPgBRgRAIANBEHQhAiACQYCAgPwHciAFRQ0BGiACIAVBDXRyQYCAgP4HcgwBCyADQRB0IQMgAkENdEGAgID8AHEgBUENdHJBgICAwANqIANyIAINABogBSAFZ0EQayIFQf//A3FBCGp0Qf///wNxIANBgICA2ANyIAVBF3RrcgshBSABLwEaIQECfyAEQf//AXEEQCAEQf8HcSECIARBgIACcSEDIARBgPgBcSIEQYD4AUcEQCADQRB0IQMgBEENdEGAgID8AHEgAkENdHJBgICAwANqIANyIAQNAhogAiACZ0EQayIEQf//A3FBCGp0Qf///wNxIANBgICA2ANyIARBF3RrcgwCCyADQRB0IQQgBCACQQ10ckGAgID+B3IgAg0BGiAEQYCAgPwHcgwBCyAEQRB0CyEEIAACfyABQf//AXEEQCABQf8HcSECIAFBgIACcSEDIAFBgPgBcSIBQYD4AUcEQCADQRB0IQMgAUENdEGAgID8AHEgAkENdHJBgICAwANqIANyIAENAhogAiACZ0EQayIBQf//A3FBCGp0Qf///wNxIANBgICA2ANyIAFBF3RrcgwCCyADQRB0IQEgASACQQ10ckGAgID+B3IgAg0BGiABQYCAgPwHcgwBCyABQRB0C/0RIAX9HAAgBP0cAf0LBAALoQUCAn8BfiMAQSBrIgIkAAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCACIDQYCAgIB4cyADQQBOG0EBaw4IAQIDBAUGBwgACyABIAJBH2pB6OfAABCVCCEBIABBAToAACAAIAE2AgQMCAsgAEEAOgAAIAAgAS0ABDoAAQwHCyABLwEEIgFB/wFNBEAgACABOgABIABBADoAAAwHCyACQQE6AAggAiABrTcDECAAIAJBCGogAkEfakHo58AAEN4GNgIEIABBAToAAAwGCyABKAIEIgFB/wFNBEAgACABOgABIABBADoAAAwGCyACQQE6AAggAiABrTcDECAAIAJBCGogAkEfakHo58AAEN4GNgIEIABBAToAAAwFCyABKQMIIgRC/wFYBEAgACAEPAABIABBADoAAAwFCyACQQE6AAggAiAENwMQIAAgAkEIaiACQR9qQejnwAAQ3gY2AgQgAEEBOgAADAQLIAEsAAQiAUEASARAIAJBAjoACCACIAGsNwMQIAAgAkEIaiACQR9qQejnwAAQ3gY2AgQgAEEBOgAADAQLIAAgAToAASAAQQA6AAAMAwsgAS8BBCIBQYACTwRAIAJBAjoACCACIAGtwzcDECAAIAJBCGogAkEfakHo58AAEN4GNgIEIABBAToAAAwDCyAAIAE6AAEgAEEAOgAADAILIAEoAgQiAUGAAk8EQCACQQI6AAggAiABrDcDECAAIAJBCGogAkEfakHo58AAEN4GNgIEIABBAToAAAwCCyAAIAE6AAEgAEEAOgAADAELIAACfyABKQMIIgRCgAJaBEAgAkECOgAIIAIgBDcDECAAIAJBCGogAkEfakHo58AAEN4GNgIEQQEMAQsgACAEPAABQQALOgAACyACQSBqJAALxgQCBn8DfgJAIAEoAgBBAUYEQCABKQMQIgpQBEAMAgsgASgCGCIGKAIAIAYpAwgiCyAGKAIEIgWtIgwgCyAMVBunaiEHAkAgBUL/////DyALIAtC/////w9aG6drIgRBACAEIAVNGyIFIAogA60iDCAKIAxUG6ciBCAEIAVLGyIEQQFGBEAgAiAHLQAAOgAADAELIARFDQAgAiAHIAT8CgAACyABIAogBK0iCn03AxAgBiAKIAt8NwMIIARFBEBBACEEDAILQQEgBGshCCADQQFrIQYgASgCJCEJIAEoAiAhByABKAIoIQMDQAJAIAIgAi0AACADQQNyIgVB/v8DcSAFbEGA/gNxQQh2cyIFOgAAIANB/wFxIAkgBSAHc0H/AXFBAnQoAvC9SCAHQQh2cyIHQf8BcWpBhYiiwABsQQFqIglBGHZzQQJ0KALwvUggA0EIdnMhAyAIRQ0AIAhBAWohCCACQQFqIQIgBiIFQQFrIQYgBQ0BCwsgASAJNgIkIAEgBzYCICABIAM2AigMAQsgASkDECIKUARADAELIAEoAhgiBigCACAGKQMIIgsgBigCBCIFrSIMIAsgDFQbp2ohBwJAIAVC/////w8gCyALQv////8PWhunayIEQQAgBCAFTRsiBSAKIAOtIgwgCiAMVBunIgMgAyAFSxsiBEEBRgRAIAIgBy0AADoAAAwBCyAERQ0AIAIgByAE/AoAAAsgASAKIAStIgp9NwMQIAYgCiALfDcDCAsgAEEEOgAAIAAgBDYCBAubBQIFfwF+IwBBMGsiAiQAIAAoAgAhACABKAIAIgNB6LLFAEEBIAEoAgQiBCgCDCIFEQAAIQYgAiAANgIMAkACQAJAAkACQCAGDQACQCABLQAKQYABcUUEQCACQQxqIAEQxAQgAiAAQQFqNgIMRQ0BDAMLIANB3PjHAEEBIAURAAANASACQQE6AB8gAiAENgIUIAIgAzYCECACQeCBwgA2AiQgAiABKQIINwIoIAIgAkEfajYCGCACIAJBEGo2AiAgAkEMaiACQSBqEMQEDQEgAigCIEHZgcIAQQIgAigCJCgCDBEAACACIABBAWo2AgwNAgsCQCABLQAKQYABcQRAIAEpAgAhByACQQE6AB8gAiAHNwIQIAJB4IHCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQxAQNAyACKAIgQdmBwgBBAiACKAIkKAIMEQAAIAIgAEECajYCDEUNAQwECyABKAIAQeeQxgBBAiABKAIEKAIMEQAADQIgAkEMaiABEMQEIAIgAEECajYCDA0DCyABLQAKQYABcQRAIAEoAgAhAyABKAIEIQRBASEAIAJBAToAHyACIAQ2AhQgAiADNgIQIAJB4IHCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQxAQNAyACKAIgQdmBwgBBAiACKAIkKAIMEQAADQUMBAsgASgCAEHnkMYAQQIgASgCBCgCDBEAAA0CQQEhACACQQxqIAEQxAQNBCABKAIEIQQgASgCACEDDAMLIAIgAEEBajYCDAsgAiAAQQJqNgIMC0EBIQAMAQsgA0HpssUAQQEgBCgCDBEAACEACyACQTBqJAAgAAudBQEDfyMAQTBrIgMkAAJAAkACQAJAAkACQAJAAkACQAJAAkBBFSABKAIAIgJBgICAgHhzIAJBAE4bQQxrDgQBAgMEAAsgASADQS9qQbTiwAAQlQghASAAQYCAgIB4NgIAIAAgATYCBAwECyABKAIMIgJBAEgNBCABKAIIIQQCQCACRQRAQQEhAQwBCyACEHEiAUUNBgsgAgRAIAEgBCAC/AoAAAsgACACNgIIIAAgATYCBCAAIAI2AgAMAwsgASgCCCICQQBIDQUgASgCBCEEAkAgAkUEQEEBIQEMAQsgAhBxIgFFDQULIAIEQCABIAQgAvwKAAALIAAgAjYCCCAAIAE2AgQgACACNgIADAILIANBDGogASgCCCICIAEoAgwiARD7AiADKAIMQQFGBEAgAyABNgIgIAMgAjYCHCADQQY6ABggA0EYaiADQS9qQbTiwAAQ3gYhASAAQYCAgIB4NgIAIAAgATYCBAwCCyADKAIUIgJBAEgNBSADKAIQIQQCQCACRQRAQQEhAQwBCyACEHEiAUUNBAsgAgRAIAEgBCAC/AoAAAsgACACNgIIIAAgATYCBCAAIAI2AgAMAQsgA0EMaiABKAIEIgIgASgCCCIBEPsCIAMoAgxBAUYEQCADIAE2AiAgAyACNgIcIANBBjoAGCADQRhqIANBL2pBtOLAABDeBiEBIABBgICAgHg2AgAgACABNgIEDAELIAMoAhQiAkEASA0FIAMoAhAhBAJAIAJFBEBBASEBDAELIAIQcSIBRQ0DCyACBEAgASAEIAL8CgAACyAAIAI2AgggACABNgIEIAAgAjYCAAsgA0EwaiQADwtB2JrIABD/BwsAC0HYmsgAEP8HAAtB2JrIABD/BwALQdiayAAQ/wcAC5MEAQZ/IAMgAyACQQNqQXxxIAJrIghrQQdxQQAgAyAITxsiBWshCQJ/AkACQCADIAVPBEACQCAFRQ0AAn8gBUEBayACIANqIgZBAWsiBC0AACABQf8BcUYNABogAiAJaiIHIARGDQEgBUECayAGQQJrIgQtAAAgAUH/AXFGDQAaIAQgB0YNASAFQQNrIAZBA2siBC0AACABQf8BcUYNABogBCAHRg0BIAVBBGsgBkEEayIELQAAIAFB/wFxRg0AGiAEIAdGDQEgBUEFayAGQQVrIgQtAAAgAUH/AXFGDQAaIAQgB0YNASAFQQZrIAZBBmsiBC0AACABQf8BcUYNABogBCAHRg0BIAVBB2sgBkEHayIELQAAIAFB/wFxRg0AGiAEIAdGDQEgBUF4cgsgCWohBAwDCyAIIAMgAyAISxshBiABQf8BcUGBgoQIbCEFA0AgBiAJIgRJBEAgBEEIayEJQYCChAggAiAEaiIHQQhrKAIAIAVzIghrIAhyQYCChAggB0EEaygCACAFcyIIayAIcnFBgIGChHhxQYCBgoR4Rg0BCwsgAyAESQ0BIAJBAWshAyABQf8BcSECA0BBACAERQ0EGiADIARqIQEgBEEBayEEIAIgAS0AAEcNAAsMAgsgCSADIANBjJ7CABDqBwALQQAgBCADQZyewgAQ6gcAC0EBCyEJIAAgBDYCBCAAIAk2AgALwwQCCn8BfSMAQRBrIgYkAAJAAkAgA0EDbCIHQf////8DSw0AIANBDGwiCEH9////B08NAAJAIAhFBEBBBCEIQQAhBwwBCyAIEHEiCEUNAgsgBkEANgIMIAYgCDYCCCAGIAc2AgQCQAJAAkAgAwRAIAIgA2siB0EAIAIgB08bIQwgASADaiENIAEgA0EBdCIOaiEPIAUgBJNDAAB+Q5UhBUEIIQpBACEHA0AgAiAHRg0EIAEgB2otAAAiCwR9IAQgBSALQQFrQf8BcbOUkhCJBAVDAAAAAAshECAGKAIEIAlGBEAgBkEEakG86McAEPoFIAYoAgghCAsgCCAKakEIayAQOAIAIAYgCUEBaiIJNgIMIAcgDEYNAyAHIA1qLQAAIgsEfSAEIAUgC0EBa0H/AXGzlJIQiQQFQwAAAAALIRAgBigCBCAJRgRAIAZBBGpBvOjHABD6BSAGKAIIIQgLIAggCmpBBGsgEDgCACAGIAlBAWoiCTYCDCAHIA5qIAJPDQIgByAPai0AACILBH0gBCAFIAtBAWtB/wFxs5SSEIkEBUMAAAAACyEQIAYoAgQgCUYEQCAGQQRqQbzoxwAQ+gUgBigCCCEICyAIIApqIBA4AgAgBiAJQQFqIgk2AgwgCkEMaiEKIAMgB0EBaiIHRw0ACwsgACAGKQIENwIAIABBCGogBkEMaigCADYCACAGQRBqJAAPCyADQQF0IAdqIQcMAQsgAyAHaiEHCyAHIAJBrOjHABCMBwALQZzoxwAQ/wcLAAuUBQIFfwF+IwBBMGsiAiQAIAEoAgAiA0HossUAQQEgASgCBCIEKAIMIgURAAAhBiACIAA2AgwCQAJAAkACQAJAIAYNAAJAIAEtAApBgAFxRQRAIAJBDGogARDEBCACIABBAWo2AgxFDQEMAwsgA0Hc+McAQQEgBREAAA0BIAJBAToAHyACIAQ2AhQgAiADNgIQIAJB4IHCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQxAQNASACKAIgQdmBwgBBAiACKAIkKAIMEQAAIAIgAEEBajYCDA0CCwJAIAEtAApBgAFxBEAgASkCACEHIAJBAToAHyACIAc3AhAgAkHggcIANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDEBA0DIAIoAiBB2YHCAEECIAIoAiQoAgwRAAAgAiAAQQJqNgIMRQ0BDAQLIAEoAgBB55DGAEECIAEoAgQoAgwRAAANAiACQQxqIAEQxAQgAiAAQQJqNgIMDQMLIAEtAApBgAFxBEAgASgCACEDIAEoAgQhBEEBIQAgAkEBOgAfIAIgBDYCFCACIAM2AhAgAkHggcIANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDEBA0DIAIoAiBB2YHCAEECIAIoAiQoAgwRAAANBQwECyABKAIAQeeQxgBBAiABKAIEKAIMEQAADQJBASEAIAJBDGogARDEBA0EIAEoAgQhBCABKAIAIQMMAwsgAiAAQQFqNgIMCyACIABBAmo2AgwLQQEhAAwBCyADQemyxQBBASAEKAIMEQAAIQALIAJBMGokACAAC7IEAQV/IwBB0ABrIgQkAAJAAkACQCABIANPBEAgASADRg0BDAMLIARBEGogAiADIAAgARDhAQJAIAQoAhBBAUYEQCAEQRhqIQAgBCgCTCEBIAQoAkghAiAEKAJEIQMgBCgCQCEFIAQoAjRBf0YNASAEQQRqIAAgBSADIAIgAUEAEIgEIAQoAgQhBQwEC0EAIQMCQCAELQAeDQAgBC0AHCEIIAQoAkQhACAEKAJAIQICQCAEKAIUIgFFDQAgACABTQRAIAAgAUYNAQwFCyABIAJqLAAAQUBIDQQLAkAgACABRwRAAn8gASACaiIFLAAAIgNBAEgEQCAFLQABQT9xIQYgA0EfcSEHIAdBBnQgBnIgA0FgSQ0BGiAFLQACQT9xIAZBBnRyIQYgBiAHQQx0ciADQXBJDQEaIAdBEnRBgIDwAHEgBS0AA0E/cSAGQQZ0cnIMAQsgA0H/AXELIQNBASEFIAhBAXENAQJAIANBgAFJDQBBAiEFIANBgBBJDQBBA0EEIANBgIAESRshBQsCQCABIAVqIgFFDQAgACABTQRAIAAgAUcNBwwBCyABIAJqLAAAQUBIDQYLIAAgAUYNASABIAJqLAAAGgwBCyAIQQFxRQ0BC0EBIQMLIAQgAzYCBCAEKAIEIQUMAwsgBEEEaiAAIAUgAyACIAFBARCIBCAEKAIEIQUMAgsgACACIAEQ2wdFIQUMAQsgAiAAIAEgAEHUuMcAELsJAAsgBEHQAGokACAFC9oEAwd/AX0BeyMAQSBrIgUkACAFQQRqIAIQqwYgBSgCCCEJAkACQAJAIAEEQCAFKAIMIQhBASEEA0AgBEECaiIDIAhPDQICQCAIIARBAWtrIgNBACADIAhNGyIDQQFHBH8gA0ECRw0BIARBAWoFIAQLIAhB4NvBABCMBwALIAQgCWoiA0EBay0AALP9EyADLQAAs/0gAf0MAAB/QwAAf0MAAH9DAAB/Q/3nASADQQFqLQAAs0MAAH9DlSIK/SACIAr9IAMhCyADQQJqLQAAs0MAAH9DlbwiA0H///8DcSEGAkAgA0GAgID8B3EiB0GAgID8B0YEQCAGQQ12QYAEQQAgBhtyQYD4AXIhAwwBCyAHQYCAgLgESwRAQYD4ASEDDAELIANBgICAxANPBEAgB0ENdiAGQQ12aiADQQx2IANB/98AcUEAR3FqQYCAAWohAwwBCyADQYCAgJgDSQRAQQAhAwwBCyAGQYCAgARyIgZB/gAgA0EXdiIHa3YhAyAGQR0gB2siB3ZBAXFFDQAgA0EDIAd0QQFrIAZxQQBHaiEDCyAAQRRqIAM7AQAgBSAL/QsEECAAIAVBEGoQ5QIgBEEEaiEEIABBJGohACABQQFrIgENAAsLIAUoAgQiAARAIAlBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIABqSQ0CIAFBACAEIABBJ2pLGw0DIAkQogILIAJBhAhPBEAgAhCbBwsgBUEgaiQADwsgAyAIQdDbwQAQjAcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvoBAICfgZ/An8CQCAAKQMoIgIgACkDCCIDUg0AIAApAzAiAiAAKQMQIgNSDQBBACAAKQM4IgIgACkDGCIDUQ0BGgsgAiADVAshBQJ/AkAgACkDaCICIAApA0giA1INACAAKQNwIgIgACkDUCIDUg0AIAApA3giAiAAKQNYIgNSDQBBAyEEQcAADAELQQJBAyACIANUIgYbIQRB4ABBwAAgBhsLIQcgACAEQQV0aiEGIAAgBUEBc0EFdGohBAJ/AkAgACAHaiIIKQMIIgIgACAFQQV0aiIAKQMIIgNSDQAgCCkDECICIAApAxAiA1INAEEAIAgpAxgiAiAAKQMYIgNRDQEaCyACIANUCyEHAkACfwJAIAYpAwgiAiAEKQMIIgNSDQAgBikDECICIAQpAxAiA1INACAGKQMYIgIgBCkDGCIDUg0AIAQgCCAHGyEFIAggACAHGyEJIAAgBCAHGwwBCyAIIAAgBxshCSACIANUBEAgACAIIAcbIQAgBiEFDAILIAQgCCAHGyEFIAAgBCAHGwshACAGIQQLAkACQCAFKQMIIgIgACkDCCIDUg0AIAUpAxAiAiAAKQMQIgNSDQAgBSkDGCICIAApAxgiA1INACAFIQYMAQsgACAFIAIgA1QiBxshBiAFIAAgBxshAAsgASAJ/QADAP0LAwAgAUEQaiAJQRBq/QADAP0LAwAgAUEwaiAAQRBq/QADAP0LAwAgASAA/QADAP0LAyAgAUHQAGogBkEQav0AAwD9CwMAIAEgBv0AAwD9CwNAIAFB8ABqIARBEGr9AAMA/QsDACABIAT9AAMA/QsDYAuyBAEMfyABQQFrIQ0gACgCBCEJIAAoAgAhCiAAKAIIIQsCQANAIAYNAQJ/AkAgAiAESQ0AA0AgASAEaiEFAkACQAJAAkACQCACIARrIgZBB00EQCACIARHDQEgAiEEDAcLIAVBA2pBfHEiACAFRg0BIAAgBWshA0EAIQADQCAAIAVqLQAAQQpGDQUgAyAAQQFqIgBHDQALIAMgBkEIayIASw0DDAILQQAhAANAIAAgBWotAABBCkYNBCAGIABBAWoiAEcNAAsgAiEEDAULIAZBCGshAEEAIQMLA0BBgIKECCADIAVqIgcoAgAiDkGKlKjQAHNrIA5yQYCChAggB0EEaigCACIHQYqUqNAAc2sgB3JxQYCBgoR4cUGAgYKEeEcNASADQQhqIgMgAE0NAAsLIAMgBkYEQCACIQQMAwsgAyAFaiEGIAIgA2sgBGshB0EAIQACQANAIAAgBmotAABBCkYNASAHIABBAWoiAEcNAAsgAiEEDAMLIAAgA2ohAAsgACAEaiIDQQFqIQQCQCACIANNDQAgACAFai0AAEEKRw0AQQAhBiAEIgUMAwsgAiAETw0ACwsgAiAIRg0CQQEhBiAIIQUgAgshAAJAIAstAAAEQCAKQbyLwwBBBCAJKAIMEQAADQELQQAhAyAAIAhHBEAgACANai0AAEEKRiEDCyAAIAhrIQAgASAIaiEHIAsgAzoAACAFIQggCiAHIAAgCSgCDBEAAEUNAQsLQQEhDAsgDAvTBAIIfwF7IAJBAnYhBgJAAkAgAkEgSQ0AIAEgAkH8AHEiA2ogAEsgASAAIANqSXENACAA/QAAACELIAAgAf0AAAD9CwAAIAEgC/0LAAACQCAGQRxxIgRBBEYNACAA/QAAECELIAAgAf0AABD9CwAQIAEgC/0LABAgBEEIRg0AIAD9AAAgIQsgACAB/QAAIP0LACAgASAL/QsAICAEQQxGDQAgAP0AADAhCyAAIAH9AAAw/QsAMCABIAv9CwAwCyAEIAZGDQELIAQhByAGQQNxIgMEQCADIARqIQcgACAEQQJ0IghqIQkgASAIaiEIA0AgCSgAACEFIAkgCCgAADYAACAIIAU2AAAgCUEEaiEJIAhBBGohCCADQQFrIgMNAAsLIAQgBmtBfEsNACAHQQJ0IQkgBiAHayEIIAAhAyABIQQDQCADIAlqIgcoAAAhBSAHIAQgCWoiBigAADYAACAGIAU2AAAgBkEEaiIFKAAAIQogBSAHQQRqIgUoAAA2AAAgBSAKNgAAIAdBCGoiBSgAACEKIAUgBkEIaiIFKAAANgAAIAUgCjYAACAGQQxqIgYoAAAhBSAGIAdBDGoiBygAADYAACAHIAU2AAAgA0EQaiEDIARBEGohBCAIQQRrIggNAAsLAkAgAkEDcSIDRQ0AIAEgAkH8AHEiBGohASAAIARqIQAgACADQQFGBH9BAAUgAC8AACEDIAAgAS8AADsAACABIAM7AAAgAkEBcUUNAUECCyIDaiIALQAAIQIgACABIANqIgAtAAA6AAAgACACOgAACwuIBQEGfyMAQSBrIgMkACABKAIMIQUCQAJAAn8CQAJAIAEoAhQiAiABKAIQIgRJBEAgAUEMaiEHA0AgAiAFai0AAEEJayIGQRlLDQJBASAGdEGTgIAEcUUEQCAGQRlHDQMgAUEANgIIIAEgAkEBajYCFCADQRRqIAcgARCCAiADKAIYIQIgAygCFEECRw0EIABBAToAACAAIAI2AgQMBgsgASACQQFqIgI2AhQgAiAERw0ACyAEIQILIANBCGogBSAEIAJBAWoiASAEIAEgBEkbEPkBIAMoAgwhBCADKAIIIQFBFBBxIgJFDQQgAiABNgIMIAJBBTYCACAAIAI2AgQgAEEBOgAAIAIgBDYCEAwDCyABIANBFGpBiMDBABDuAQwBCwJAAn8CQAJAAkACQAJAAkACQAJAAkAgAygCHCIEQQJrDgoCAAoKBgcDCgoBCgtBACACQYKQxgBBAxDbB0UNCBogAkHUhMEAQQMQ2wcNB0EBDAgLQQIgAkHXhMEAQQsQ2wdFDQcaIAJB4oTBAEELENsHDQhBAwwHCyACLwAAQfLwAEcNAUEEDAYLIAIpAABC8vD8otaMm7rhAFINAUEFDAULIAIvAABB8/AARw0FQQYMBAsgAikAAELz8Pyi1oybuuEAUg0EQQcMAwtBCCACQYGFwQBBBhDbB0UNAhogAkGHhcEAQQYQ2wcNA0EJDAILIAJBjYXBAEEHENsHDQJBCgwBC0ELIAJBh7LFAEEDENsHRQ0AGiACQYWQxgBBAxDbBw0BQQwLIQIgAEEAOgAAIAAgAjoAAQwCCyACIARBlIXBAEENEMwGCyABEOsFIQEgAEEBOgAAIAAgATYCBAsgA0EgaiQADwsAC8MEAQZ/IwBBEGsiBSQAIAVBADoACiAFQQA7AQgCQAJAAkACQAJAAkACQAJAIAIoAggiBkECdCADRgRAIAIoAgQhByACKAIAIQQMAQsgBkUEQCAAQRI6AAAgAigCACIARQ0HIAIoAgQiAUEEaygCACICQXhxIgMgAEECdCIAQQRBCCACQQNxIgIbakkNCCACQQAgAyAAQSdqSxsNAiABEKICDAcLIAIoAgAhBCAFIAIoAgQiByAGQQFrIgZBAnQiAmooAAA2AgwgAyACayIIQQRPDQIgCEUNACAFQQhqIAVBDGogCPwKAAALAkAgBCAGTQ0AIARBAnQhAiAGRQRAIAdBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAJqSQ0IIANBACAEIAJBJ2pLGw0EIAcQogJBASEHDAELIAcgAkEBIAZBAnQQuwIiB0UNBAsgASgCBCICBEAgASgCACIDQQRrKAIAIgRBeHEiCSACQQJ0IgJBBEEIIARBA3EiBBtqSQ0HIARBACAJIAJBJ2pLGw0FIAMQogILIAFBeDYCGCABQoCAgIDwHzcDECABQgA3AwggASAGNgIEIAEgBzYCACABIAUvAQg7ASAgASAIOgAjIABBHToAACABQSJqIAUtAAo6AAAMBQtBjI3IAEEuQbyNyAAQ6wcAC0EAIAhBA0GI4sQAEOoHAAtBjI3IAEEuQbyNyAAQ6wcLAAtBjI3IAEEuQbyNyAAQ6wcACyAFQRBqJAAPC0HMjMgAQS5B/IzIABDrBwALrwQBDH8jAEEQayIOJAACQAJAIAMEQCABIAJrIgZBACABIAZPGyERA0AgAiALaiEGAn8CQCALIBFHBEAgACAGQRhsaiIIKAIUIgdBBUkNASAIKAIEIQwgCCgCCAwCCyAGIAFBlMPHABCMBwALIAchDCAIQQRqCyAIQRRqIQ0gCEEEaiEKQfDlyAAgDBsoAgAhDCAIQQRBFCAHQQRLIgYbaigCAARAIAogDSAGG0EANgIACyAFIAtGDQIgBCALQQF0ai8BACEHIA0oAgAiCSEGIAlBBU8EQCAKKAIAIQYLAkAgBiAHTwRAIAYgB00NASAKIA0gCUEESxsiBigCACAHTQ0BIAYgBzYCAAwBCwJAIAcgBmsiDyAJQQQgCUEESyIGGyAKKAIAIAkgBhsiBmtNDQACQCAGIAYgD2oiBksNAEF/IAZBAWtndkEAIAZBAk8bIgZBf0YNACAOQQhqIAggBkEBahD1AyAOKAIIIgZBgYCAgHhGDQEgBg0GC0HYlccAQRFB1MzHABDrBwALA0ACfyANKAIAIglBBUkEQCAJIQcgCiEQQQQhCSANDAELIAgoAgQhByAIKAIIIRAgCgshBiAHIAlGBEAgCBDUBiAIKAIEIQcgCCgCCCEQIAohBgsgECAHQQJ0aiAMNgIAIAYgBigCAEEBajYCACAMQQFqIQwgD0EBayIPDQALCyALQQFqIgsgA0cNAAsLIA5BEGokAA8LIAUgBUGkw8cAEIwHCwALrwQBDH8jAEEQayIOJAACQAJAIAMEQCABIAJrIgZBACABIAZPGyERA0AgAiALaiEGAn8CQCALIBFHBEAgACAGQRhsaiIIKAIUIgdBBUkNASAIKAIEIQwgCCgCCAwCCyAGIAFB5MXHABCMBwALIAchDCAIQQRqCyAIQRRqIQ0gCEEEaiEKQfDlyAAgDBsoAgAhDCAIQQRBFCAHQQRLIgYbaigCAARAIAogDSAGG0EANgIACyAFIAtGDQIgBCALQQF0ai8BACEHIA0oAgAiCSEGIAlBBU8EQCAKKAIAIQYLAkAgBiAHTwRAIAYgB00NASAKIA0gCUEESxsiBigCACAHTQ0BIAYgBzYCAAwBCwJAIAcgBmsiDyAJQQQgCUEESyIGGyAKKAIAIAkgBhsiBmtNDQACQCAGIAYgD2oiBksNAEF/IAZBAWtndkEAIAZBAk8bIgZBf0YNACAOQQhqIAggBkEBahD1AyAOKAIIIgZBgYCAgHhGDQEgBg0GC0HYlccAQRFB1MzHABDrBwALA0ACfyANKAIAIglBBUkEQCAJIQcgCiEQQQQhCSANDAELIAgoAgQhByAIKAIIIRAgCgshBiAHIAlGBEAgCBDUBiAIKAIEIQcgCCgCCCEQIAohBgsgECAHQQJ0aiAMNgIAIAYgBigCAEEBajYCACAMQQFqIQwgD0EBayIPDQALCyALQQFqIgsgA0cNAAsLIA5BEGokAA8LIAUgBUH0xccAEIwHCwAL0wQCB38BfiMAQdAAayIBJAACQCAAEF0iAw0AIAAoAtwEIgJBgYCAgHhGIgRFBEACQAJAIAJBgICAgHhGBEBBACAAIAQbIQUgACgCCCIGQQZ0IQMgACgCBCIHQTxqIQICQANAIAIhBCADRQ0BIANBQGohAyACQUBrIQIgBC0AAEEBRw0ACyAEQTxrIgIoAjggAigCICIERw0DIAQgACgC7AJHDQMLIAZBBnQhAyAHQTxqIQIDQCACIQQgA0UNAiADQUBqIQMgAkFAayECIAQtAABBAkcNAAsgBEE8ayICKAI4IAIoAiBGDQEgAUECNgIsIAFBiKPBADYCKCABQgI3AjQgAUKAgICAECIIIAJBOGqthDcDSCABIAggAkEgaq2ENwNAIAEgAUFAazYCMCABQRxqIgAgAUEoahCxBiAAEI4HIQMMBAsgACgCgAQgACgC+ANGDQAgAUECNgIsIAFB5KLBADYCKCABQgI3AjQgAUKAgICAECIIIABBgARqrYQ3A0ggASAIIABB+ANqrYQ3A0AgASABQUBrNgIwIAFBBGoiACABQShqELEGIAAQjgchAwwDCyAAQfQEahDUASEDDAILIAFBAjYCLCABQeSiwQA2AiggAUICNwI0IAFCgICAgBAiCCACQThqrYQ3A0ggASAIIAVB7AJqrYQ3A0AgASABQUBrNgIwIAFBEGoiACABQShqELEGIAAQjgchAwwBCyABQQA2AjggAUEBNgIsIAFBqKPBADYCKCABQgQ3AjAgAUEoahCSByEDCyABQdAAaiQAIAML0wQCB38BfiMAQdAAayIBJAACQCAAEFwiAw0AIAAoAtwEIgJBgYCAgHhGIgRFBEACQAJAIAJBgICAgHhGBEBBACAAIAQbIQUgACgCCCIGQQZ0IQMgACgCBCIHQTxqIQICQANAIAIhBCADRQ0BIANBQGohAyACQUBrIQIgBC0AAEEBRw0ACyAEQTxrIgIoAjggAigCICIERw0DIAQgACgC7AJHDQMLIAZBBnQhAyAHQTxqIQIDQCACIQQgA0UNAiADQUBqIQMgAkFAayECIAQtAABBAkcNAAsgBEE8ayICKAI4IAIoAiBGDQEgAUECNgIsIAFBiKPBADYCKCABQgI3AjQgAUKAgICAECIIIAJBOGqthDcDSCABIAggAkEgaq2ENwNAIAEgAUFAazYCMCABQRxqIgAgAUEoahCxBiAAEI4HIQMMBAsgACgCgAQgACgC+ANGDQAgAUECNgIsIAFB5KLBADYCKCABQgI3AjQgAUKAgICAECIIIABBgARqrYQ3A0ggASAIIABB+ANqrYQ3A0AgASABQUBrNgIwIAFBBGoiACABQShqELEGIAAQjgchAwwDCyAAQfQEahCjASEDDAILIAFBAjYCLCABQeSiwQA2AiggAUICNwI0IAFCgICAgBAiCCACQThqrYQ3A0ggASAIIAVB7AJqrYQ3A0AgASABQUBrNgIwIAFBEGoiACABQShqELEGIAAQjgchAwwBCyABQQA2AjggAUEBNgIsIAFBqKPBADYCKCABQgQ3AjAgAUEoahCSByEDCyABQdAAaiQAIAMLzgQCB38BfiMAQdAAayIBJAACQCAAEF4iAg0AIAAoApwFIgNBgYCAgHhGIgJFBEACQCADQYCAgIB4RgRAQQAgAEFAayACGyEFIAAoAkgiBkEGdCEEIAAoAkQiB0E8aiEDAkADQCADIQIgBEUNASAEQUBqIQQgAkFAayEDIAItAABBAUcNAAsgAkE8ayIDKAI4IAMoAiAiAkcNAiACIAAoAqwDRw0CCyAGQQZ0IQQgB0E8aiEDA0AgAyEAQQAhAiAERQ0EIARBQGohBCAAQUBrIQMgAC0AAEECRw0ACyAAQTxrIgAoAjggACgCIEYNAyABQQI2AiwgAUGIo8EANgIoIAFCAjcCNCABQoCAgIAQIgggAEE4aq2ENwNIIAEgCCAAQSBqrYQ3A0AgASABQUBrNgIwIAFBHGoiACABQShqELEGIAAQjgchAgwDC0EAIQIgACgCwAQgACgCuARGDQIgAUECNgIsIAFB5KLBADYCKCABQgI3AjQgAUKAgICAECIIIABBwARqrYQ3A0ggASAIIABBuARqrYQ3A0AgASABQUBrNgIwIAFBBGoiACABQShqELEGIAAQjgchAgwCCyABQQI2AiwgAUHkosEANgIoIAFCAjcCNCABQoCAgIAQIgggA0E4aq2ENwNIIAEgCCAFQewCaq2ENwNAIAEgAUFAazYCMCABQRBqIgAgAUEoahCxBiAAEI4HIQIMAQsgAUEANgI4IAFBATYCLCABQaijwQA2AiggAUIENwIwIAFBKGoQkgchAgsgAUHQAGokACACC88EAgd/AX4jAEHQAGsiASQAAkAgABBfIgINACAAKAK8BSIDQYGAgIB4RiICRQRAAkAgA0GAgICAeEYEQEEAIABB4ABqIAIbIQUgACgCaCIGQQZ0IQQgACgCZCIHQTxqIQMCQANAIAMhAiAERQ0BIARBQGohBCACQUBrIQMgAi0AAEEBRw0ACyACQTxrIgMoAjggAygCICICRw0CIAIgACgCzANHDQILIAZBBnQhBCAHQTxqIQMDQCADIQBBACECIARFDQQgBEFAaiEEIABBQGshAyAALQAAQQJHDQALIABBPGsiACgCOCAAKAIgRg0DIAFBAjYCLCABQYijwQA2AiggAUICNwI0IAFCgICAgBAiCCAAQThqrYQ3A0ggASAIIABBIGqthDcDQCABIAFBQGs2AjAgAUEcaiIAIAFBKGoQsQYgABCOByECDAMLQQAhAiAAKALgBCAAKALYBEYNAiABQQI2AiwgAUHkosEANgIoIAFCAjcCNCABQoCAgIAQIgggAEHgBGqthDcDSCABIAggAEHYBGqthDcDQCABIAFBQGs2AjAgAUEEaiIAIAFBKGoQsQYgABCOByECDAILIAFBAjYCLCABQeSiwQA2AiggAUICNwI0IAFCgICAgBAiCCADQThqrYQ3A0ggASAIIAVB7AJqrYQ3A0AgASABQUBrNgIwIAFBEGoiACABQShqELEGIAAQjgchAgwBCyABQQA2AjggAUEBNgIsIAFBqKPBADYCKCABQgQ3AjAgAUEoahCSByECCyABQdAAaiQAIAILtgQBCn8CQAJAIAFBgApJBEAgAUEFdiEHAkACQCAAKAKgASIEBEAgBEEBayECIARBAnQgAGpBBGshBSAEIAdqQQJ0IABqQQRrIQMgBEEpSSEEA0AgBEUNAiACIAdqIgZBKE8NAyADIAUoAgA2AgAgA0EEayEDIAVBBGshBSACQQFrIgJBf0cNAAsLIAFBH3EhBgJAIAFBIEkNACAHQQJ0IgFFDQAgAEEAIAH8CwALIAAoAqABIgUgB2ohASAGRQRAIAAgATYCoAEgAA8LIAFBAWsiA0EnSw0DIAEhBCAAIANBAnRqKAIAQSAgBmsiCHYiA0UNBCABQSdNBEAgACABQQJ0aiADNgIAIAFBAWohBAwFCyABQShBjIPCABCMBwALIAJBKEGMg8IAEIwHAAsgBkEoQYyDwgAQjAcAC0Gcg8IAQR1BjIPCABDrBwALIANBKEGMg8IAEIwHAAsCQCAHQQFqIgogAU8NAAJAIAVBAWsiCUEESQRAIAEhAwwBCyABIAlBfHEiBWshAyABQQJ0IABqQRRrIQIgBSEBA0AgAkEEaiILIAL9AAIAIAj9rQEgC/0AAgAgBv2rAf1Q/QsCACACQRBrIQIgAUEEayIBDQALIAUgCUYNAQsgA0ECdCAAakEIayECA0AgAkEEaiIBIAEoAgAgBnQgAigCACAIdnI2AgAgAkEEayECIAogA0EBayIDSQ0ACwsgACAHQQJ0aiIBIAEoAgAgBnQ2AgAgACAENgKgASAAC+YEAgZ/AX4jAEEwayIDJAAgACgCDCEEAkACQAJAAkACQAJAIAAoAhQiASAAKAIQIgJJBEADQAJAIAEgBGotAAAiBUEJaw4kAAAEBAAEBAQEBAQEBAQEBAQEBAQEBAQABAQEBAQEBAQEBAQGAwsgACABQQFqIgE2AhQgASACRw0ACyACIQELIANBEGogBCACIAFBAWoiACACIAAgAkkbEPkBIAMoAhQhAiADKAIQIQBBFBBxIgFFDQUgASAANgIMIAFBAjYCACABIAI2AhAMBAsgBUHdAEYNAQsgA0EIaiAEIAIgAUEBaiIAIAIgACACSRsQ+QEgAygCDCECIAMoAgghAEEUEHEiAUUNAyABIAA2AgwgAUEWNgIAIAEgAjYCEAwCCyAAIAFBAWo2AhRBACEBDAELIAAgAUEBaiIBNgIUAkAgASACSQRAAn4CQANAIAEgBGotAAAiBkEJayIFQRdLQQEgBXRBk4CABHFFcg0BIAAgAUEBaiIBNgIUIAEgAkcNAAsgAiEBQgAMAQtCgAILIQcgAyAHIAatQhCGhCIHNwMoIAdCgIL0AlINASADQRhqIAQgAiABQQFqIgAgAiAAIAJJGxD5ASADKAIcIQIgAygCGCEAQRQQcSIBRQ0DIAEgADYCDCABQRU2AgAgASACNgIQDAILIANCADcDKAsgA0EgaiAEIAIgAUEBaiIAIAIgACACSRsQ+QEgAygCJCECIAMoAiAhAEEUEHEiAUUNASABIAA2AgwgAUEWNgIAIAEgAjYCECAHQv8Bg1ANACADQShqQQRyELEECyADQTBqJAAgAQ8LAAuVBQIFfwJ+IwBBMGsiAiQAIAEoAgwhBQJAAkACQAJAAkAgASgCFCIDIAEoAhAiBEkEQANAAkAgAyAFai0AACIGQQlrDiUAAAQEAAQEBAQEBAQEBAQEBAQEBAQEBAAEBAQEBAQEBAQEBAQDBAsgASADQQFqIgM2AhQgAyAERw0ACyAEIQMLIAIgBSAEIANBAWoiASAEIAEgBEkbEPkBIAIoAgQhAyACKAIAIQRBFBBxIgFFDQIgASAENgIMIAFBBTYCACAAIAE2AgQgAEEBNgIAIAEgAzYCEAwECyABIANBAWo2AhQgAkEIaiABQQAQxwMgAikDCCIIQgNRDQIgAikDECEHAkACfwJAAkAgCKdBAWsOAgMAAQsgB0IAWQ0CIAJBAjoAGCACIAc3AyAgAkEYaiACQS9qQYjnwAAQ3gYMAQsgAkEDOgAYIAIgBzcDICACQRhqIAJBL2pBiOfAABDfBgsgARDrBSEBIABBATYCACAAIAE2AgQMBAsgAEEANgIAIAAgBzcDCAwDCyAGQTBrQf8BcUEKTwRAIAEgAkEvakGI58AAEO4BIAEQ6wUhASAAQQE2AgAgACABNgIEDAMLIAJBCGogAUEBEMcDIAIpAwgiCEIDUQRAIAAgAigCEDYCBCAAQQE2AgAMAwsgAikDECEHAkACfwJAAkAgCKdBAWsOAgMAAQsgB0IAWQ0CIAJBAjoAGCACIAc3AyAgAkEYaiACQS9qQYjnwAAQ3gYMAQsgAkEDOgAYIAIgBzcDICACQRhqIAJBL2pBiOfAABDfBgsgARDrBSEBIABBATYCACAAIAE2AgQMAwsgAEEANgIAIAAgBzcDCAwCCwALIAAgAigCEDYCBCAAQQE2AgALIAJBMGokAAuJBAACQAJAAkACQAJAAkACQAJAIANB/wFxQQFrDgMBAAMGCyAAIAFyDQEMBAsgAEUNAiAFIAEgAmwgAGpBAnRBAWsiAEsNBSAAIAVByPHEABCMBwALIAFFBEAgBSAAQQJ0QQFrIgBLDQUgACAFQdjxxAAQjAcACyABQQFrIAJsIABqQQJ0QQNyIgAgBUkNBCAAIAVB6PHEABCMBwALAkACQAJ/IAAEQCABRQRAIAUgAEECdEEBayIASwRAIAAgBGotAAAMAwsgACAFQYjyxAAQjAcACwJAIAUgASACbCAAakECdEEBayIDSwRAIAFBAWsgAmwgAGpBAnQiAEEDciIBIAVPDQEgBSAAQQFrIgBLBEAgAyAEai0AACEDIAAgBGotAAAhACABIARqLQAAIQEMBgsgACAFQbjyxAAQjAcACyADIAVBmPLEABCMBwALIAEgBUGo8sQAEIwHAAsgAUUEQEEAIQNBACEBQQAhAAwDCyACIAFBAWtsQQJ0QQNyIgAgBU8NASAAIARqLQAACyIDIgEhAAwBCyAAIAVB+PHEABCMBwALQf8BIAFB/wFxIANB/wFxaiAAQf8BcWsiAEEAIABBAEobIgAgAEH/AU4bDwsgAUUNACAFIAIgAUEBa2xBAnRBA3IiAEsNAiAAIAVBuPHEABCMBwALQQAhAwsgAw8LIAAgBGotAAALrgQCBX8EfiMAQSBrIgIkAEEEIQMgASgCBCIErSEIIAECfgJAIARC/////w8gASkDCCIHIAdC/////w9aG6drIgZBACAEIAZPG0EETwRAIAEoAgAgByAIIAcgCFQbp2ooAAAhBQwBC0GokMgAKQMAIglCCIghCiAJpyEDIAggCUL/AYNCBFINARoLIAdCBHwLIgk3AwgCQCADQf8BcUEERwRAIABBEmogAkEWai8BADsBACACIAOtQv8BgyAKQgiGhDcCDCACQQRqIAJBDWotAAAiAToAACAAIAIpAQ43AQogAiACKAAJIgM2AgAgAEEJaiABOgAAIAAgAzYABSAAQQA6AAQgAEEBNgIADAELIAJBCGpBAXIgBRCYBCACQRxqIAJBDWotAAA6AAAgAiACKAAJIgM2AgAgAiADNgIYAkACQCAEIAkgCCAIIAlWG6ciA2tBBE8EQCABKAIAIANqKAAAIQRBBCEDQgAhBwwBC0EAIQRBqJDIACkDACIKQgiIIQcgCqchAyAKQv8Bg0IEUg0BCyAJQgR8IQgLIAEgCDcDCCADQf8BcUEERwRAIAAgAzoACCAAQQA6AAQgAEEBNgIAIAAgB6ciATsACSAAIAdCGIg+AgwgAEELaiABQRB2OgAADAELIAAgAigCGDYAECAAQQA2AgAgACAErTcDCCAAQRRqIAJBHGotAAA6AAAgAEF/IAQgBEEBcWoiACAAIARJG603AxgLIAJBIGokAAvdBAIHfwF+IwBBEGsiAyQAAkAgAC8BDCICRQRAIAAoAgAgACgCBCABEKEDIQEMAQsgAyAB/QACAP0LAwACQAJ/IAApAggiCaciB0GAgIAIcUUEQCADKAIEDAELIAAoAgAgAygCACADKAIEIgEgACgCBCgCDBEAAA0BIAAgB0GAgID/eXFBsICAgAJyIgc2AgggA0IBNwMAIAIgAUH//wNxayIBQQAgASACTRshAkEACyEIAkAgAygCDCIFRQRADAELIAMoAgghAQNAAn8CQAJAAkACQCABLwEAQQFrDgIBAgALIAFBBGooAgAMAwsgAUECai8BACIEDQFBAQwCCyABQQhqKAIADAELIARB9v8XaiAEQZz/H2pxIARBmPg3aiAEQfCxH2pxc0ERdkEBagsgAUEMaiEBIAZqIQYgBUEBayIFDQALCwJAIAYgCGoiASACQf//A3FJBEAgAiABayEFQQAhAUEAIQICQAJAAkAgB0EddkEDcUEBaw4DAAEAAgsgBSECDAELIAVB/v8DcUEBdiECCyAHQf///wBxIQggACgCBCEGIAAoAgAhBANAIAFB//8DcSACQf//A3FPDQIgAUEBaiEBIAQgCCAGKAIQEQIARQ0ACwwCCyAAKAIAIAAoAgQgAxChAyEBIAAgCTcCCAwCCyAEIAYgAxChAw0AIAUgAmtB//8DcSEFQQAhAgNAIAUgAkH//wNxTQRAQQAhASAAIAk3AggMAwtBASEBIAJBAWohAiAEIAggBigCEBECAEUNAAsgACAJNwIIDAELQQEhAQsgA0EQaiQAIAELogQBB38jAEHQAGsiAiQAIAAgAToAbCAAKAIYIQMgAEGAgICAeDYCGAJAAkAgA0GAgICAeEcEQCACQRxqIABBJGr9AAIA/QsCACACQSxqIABBNGr9AAIA/QsCACACQTxqIABBxABq/QACAP0LAgAgAkHMAGogAEHUAGooAgA2AgAgAiADNgIQIAIgACkCHDcCFCACQQhqIAEgAkEQahDgAgJAIAIoAggiASAAKAIEIAAoAgggAigCDCIDKAIQEQAAIggEQCADKAIAIgAEQCABIAARAwALIAMoAgQiAEUNASABQQRrKAIAIgNBeHEiBUEEQQggA0EDcSIDGyAAakkNAyADQQAgBSAAQSdqSxsNBCABEKICDAELIABBADYCCCAAKAJYIgVBgICAgHhyQYCAgIB4RwRAIAAoAlwiBkEEaygCACIEQXhxIgdBBEEIIARBA3EiBBsgBWpJDQMgBEEAIAcgBUEnaksbDQQgBhCiAgsgAEGAgICAeDYCWAJAIAAoAmQiBUUNACAAKAJoIgYoAgAiBARAIAUgBBEDAAsgBigCBCIGRQ0AIAVBBGsoAgAiBEF4cSIHQQRBCCAEQQNxIgQbIAZqSQ0DIARBACAHIAZBJ2pLGw0EIAUQogILIAAgAzYCaCAAIAE2AmQLIAJB0ABqJAAgCA8LQezgwQAQ3QkAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuGBAEHfwJAAkACQAJAAkACQAJAIAMgBCAFayIGSwRAIAMgBE0NASAEIAVBAXQiCmsiCCADTw0CIAQgBWoiByADTw0DAkAgAiAGai0AACILIAIgBGotAAAiDGsiBiAGQR91IgZzIAZrQQF0Qf4DcSACIAhqLQAAIgYgAiAHai0AACIIayIHIAdBH3UiB3MgB2tBAXZqIAFB/wFxSw0AIAQgBUECdGsiASADTw0FIAQgBUEDbCIHayIFIANPDQYgAEH/AXEiACABIAJqLQAAIAIgBWotAAAiAWsiBSAFQR91IgVzIAVrSQ0AIAAgASAGayIBIAFBH3UiAXMgAWtB/wFxSQ0AIAYgC2siASABQR91IgFzIAFrQf8BcSAASw0AIAQgB2oiASADTw0HIAQgCmoiBCADTw0IIAAiAyABIAJqLQAAIAIgBGotAAAiAWsiAiACQR91IgJzIAJrSQ0AIAMgASAIayIBIAFBH3UiAXMgAWtB/wFxSQ0AIAggDGsiACAAQR91IgBzIABrQf8BcSADTSEJCyAJDwsgBiADQYjXxAAQjAcACyAEIANBmNfEABCMBwALIAggA0Go18QAEIwHAAsgByADQbjXxAAQjAcACyABIANByNbEABCMBwALIAUgA0HY1sQAEIwHAAsgASADQejWxAAQjAcACyAEIANB+NbEABCMBwALuAQBCH8jAEEQayIDJAAgAyABNgIEIAMgADYCACADQqCAgIAONwIIAn8CQAJAAkAgAigCECIJBEAgAigCFCIADQEMAgsgAigCDCIARQ0BIAIoAggiASAAQQN0IgBqIQQgAEEIa0EDdkEBaiEGIAIoAgAhAANAAkAgAEEEaigCACIFRQ0AIAMoAgAgACgCACAFIAMoAgQoAgwRAABFDQBBAQwFC0EBIAEoAgAgAyABQQRqKAIAEQIADQQaIABBCGohACAEIAFBCGoiAUcNAAsMAgsgAEEYbCEKIABBAWtB/////wFxQQFqIQYgAigCCCEEIAIoAgAhAANAAkAgAEEEaigCACIBRQ0AIAMoAgAgACgCACABIAMoAgQoAgwRAABFDQBBAQwEC0EAIQdBACEIAkACQAJAIAUgCWoiAUEIai8BAEEBaw4CAQIACyABQQpqLwEAIQgMAQsgBCABQQxqKAIAQQN0ai8BBCEICwJAAkACQCABLwEAQQFrDgIBAgALIAFBAmovAQAhBwwBCyAEIAFBBGooAgBBA3RqLwEEIQcLIAMgBzsBDiADIAg7AQwgAyABQRRqKAIANgIIQQEgBCABQRBqKAIAQQN0aiIBKAIAIAMgASgCBBECAA0DGiAAQQhqIQAgBUEYaiIFIApHDQALDAELCwJAIAYgAigCBE8NACADKAIAIAIoAgAgBkEDdGoiACgCACAAKAIEIAMoAgQoAgwRAABFDQBBAQwBC0EACyADQRBqJAALpQQCBX8EfSABKAIAIgIgASgCBEYEf0EABSABIAJBBGo2AgACfwJAIAIoAgAiAiABKAIIIgEoAggiA0kEQCABKAIEIAJBGGxqIgJBEWovAAAgAkETai0AACIDQRB0ciIEQQh2IQVDAAAQQSABKgJIIAEtAFhBAkYiBhshCEMAAEDBIAEqAkQgBhshByAEQf8BcQRAIAcgCCAHk0MAAH5DlSAEQQFrQf8BcbOUkhCJBCEJCyAFQf8BcQRAIAcgCCAHk0MAAH5DlSAFQQFrQf8BcbOUkhCJBCEKCyADBH0gByAIIAeTQwAAfkOVIANBAWtB/wFxs5SSEIkEBUMAAAAACyEHIAJBDGovAQAiAkH//wFxRQRAIAJBEHQMAwsgAkH/B3EhASACQYCAAnEhAyACQYD4AXEiAkGA+AFGBEAgA0EQdCICQYCAgPwHciABRQ0DGiACIAFBDXRyQYCAgP4HcgwDCyADQRB0IQMgAkUNASACQQ10QYCAgPwAcSABQQ10ckGAgIDAA2ogA3IMAgsgAiADQdy7xwAQjAcACyABIAFnQRBrIgFB//8DcUEIanRB////A3EgA0GAgIDYA3IgAUEXdGtyCyEBIAkgCpRDj8LNPxC3CiEIIAkgB5RDj8LNPxC3CiEJIAogB5RDj8LNPxC3CiAIIAmSkkMAAEBAlUPmQB8/ELcKQ9sPSUGUIAG+lCEHQQELIQEgACAHOAIEIAAgATYCAAu8BAMBfg5/AXsjAEEgayIEJAAgAf0AAxAhEQJAAkACfyABKAIEIgpFBEBB6JrIACELQQAhCkEADAELAkACQAJAIApBAWqtQhR+IgJCIIinDQAgAqdBB2pBeHEiBSAKQQlqIghqIgMgBUkgA0H4////B0tyDQAgAw0BQQghAwwCCyAEQQA2AhggBEEBNgIMIARBxLXEADYCCCAEQgQ3AhAgBEEIakGYtcQAEI0IDAQLIAMQcSIDRQ0DCyADIAVqIQsgASgCACEJIAgEQCALIAkgCPwKAAALIAEoAgwiDQRAIAtBFGshECAJQQhqIQMgCSkDAEJ/hUKAgYKEiJCgwIB/gyECIA0hCCAJIQUDQCACUARAA0AgBUGgAWshBSADKQMAIANBCGohA0KAgYKEiJCgwIB/gyICQoCBgoSIkKDAgH9RDQALIAJCgIGChIiQoMCAf4UhAgsgCSAFIAJ6p0EDdkFsbGoiDGtBbG0hBiAMQQxrKAIAIgdBAEgNAyAMQRBrKAIAIQ4CQCAHRQRAQQEhDwwBCyAHEHEiD0UNBQsgBwRAIA8gDiAH/AoAAAsgAkIBfSACgyECIAxBCGsoAgAhDiAQIAZBFGxqIgYgDEEEay0AADoAECAGIA42AgwgBiAHNgIIIAYgDzYCBCAGIAc2AgAgCEEBayIIDQALCyABKAIICyEDIAAgDTYCDCAAIAM2AgggACAKNgIEIAAgCzYCACAAIBH9CwMQIARBIGokAA8LQaTvwQAQ/wcACwALvgQBBn8jAEEwayIDJAAgAyACNgIIIAMgATYCBCADQSBqIANBBGoQ7QMCQAJAAkAgAygCICIGBEAgAygCJCEBIAMoAixFBEAgACABNgIIIAAgBjYCBCAAQYCAgIB4NgIADAQLIAJBAEgNAQJAIAJFBEBBASEEDAELIAIQcSIERQ0DCyADQQA2AhQgAyAENgIQIAMgAjYCDCABIAJLBEAgA0EMakEAIAEQ9wUgAygCECEEIAMoAhQhBSADKAIMIQILIAEEQCAEIAVqIAYgAfwKAAALIAMgASAFaiIBNgIUIAIgAWtBAk0EQCADQQxqIAFBAxD3BSADKAIQIQQgAygCFCEBCyABIARqIgJBxPnHAC8AACIFOwAAIAJBAmpBxvnHAC0AACIGOgAAIAMgAUEDaiICNgIUIAMgAykCBDcCGANAAkAgA0EgaiADQRhqEO0DIAMoAiAiB0UNACADKAIsIAMoAiQiASADKAIMIAJrSwRAIANBDGogAiABEPcFIAMoAhAhBCADKAIUIQILIAEEQCACIARqIAcgAfwKAAALIAMgASACaiICNgIURQ0BIAMoAgwgAmtBAk0EQCADQQxqIAJBAxD3BSADKAIQIQQgAygCFCECCyACIARqIgEgBTsAACABQQJqIAY6AAAgAyACQQNqIgI2AhQMAQsLIAAgAykCDDcCACAAQQhqIANBFGooAgA2AgAMAwsgAEEANgIIIABCgICAgBg3AgAMAgtBlO7BABD/BwsACyADQTBqJAAL2QQDBX8BewZ9IwBBEGsiBSQAAkACQAJAAkAgA0ECdCIGQf////8DSw0AIANBBHQiB0H9////B08NAAJAIAdFBEBBBCEIQQAhBgwBCyAHEHEiCEUNAgsgBUEANgIMIAUgCDYCCCAFIAY2AgQCQCADBEBBACEGQQAhBwNAIAIgBk0NBSAGQQFqIgQgAk8NBiAGQQJqIgQgAk8NAkMAAIA/IAEgBmoiBC0AALP9EyAEQQFqLQAAs/0gAf0MAAB/QwAAf0MAAH9DAAB/Q/3nASIJIAn95AH9DAAAgL8AAIC/AACAvwAAgL/95AEiCf0fACIKi5MgCf0fASINi5MiC4xDAAAAABDgCCEMIARBAmotAACzQwAAf0OVQwAAAD+UQ9sPSUCUIg4QmQIiDyALIAsgC5QgCiAMIAyMIgogCf0MAAAAAAAAAAAAAAAAAAAAAP1G/U0iCf0bAEEBcRuSIgsgC5QgDSAMIAogCf3HAf0bAkEBcRuSIgwgDJSSkpEiCpWUIQ0gBSgCBCAOEJsCIQ4gB2tBA00EQCAFQQRqIAdBBEEEQQQQpAUgBSgCCCEIIAUoAgwhBwsgCCAHQQJ0aiIEIA44AgwgBCANOAIIIAQgDyAMIAqVlDgCBCAEIA8gCyAKlZQ4AgAgBSAHQQRqIgc2AgwgBkEDaiEGIANBAWsiAw0ACwsgACAFKQIENwIAIABBCGogBUEMaigCADYCACAFQRBqJAAPCyAEIAJBvOvHABCMBwALQYzrxwAQ/wcLAAsgBiACQZzrxwAQjAcACyAEIAJBrOvHABCMBwALuAMBBH8gABCdAQJAAkAgACgC8AMiAgRAIAAoAvQDIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIAAoAogEIgJBgoCAgHhIIAJFckUEQCAAKAKMBCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAL8AyICBEAgACgCgAQiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsCQCAAKAKoBCICRQ0AIAAoAqwEIgMoAgAiAQRAIAIgAREDAAsgAygCBCIDRQ0AIAJBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIANqSQ0BIAFBACAEIANBJ2pLGw0CIAIQogILIAAoArAEIgIEQCAAKAK0BCIAQQRrKAIAIgNBeHEiAUEEQQggA0EDcSIDGyACakkNASADQQAgASACQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC4kJAg9/AX4jAEEwayIHJAACQAJAAkACQAJAIAEoAhQiBSABKAIQIghJBEAgASAFQQFqIgQ2AhQgASgCDCIGIAVqLQAAIgNBMEcNAiAEIAhJBEAgBCAGai0AAEEwa0H/AXFBCkkNAgsgACABIAJCABCvAgwFCyAHQRhqIAEoAgwgCCAFEPkBIAcoAhwhAiAHKAIYIQFBFBBxIgNFDQIgAyABNgIMIANBBTYCACAAIAM2AgggAEIDNwMAIAMgAjYCEAwECyAHQQhqIAYgCCAFQQJqIgEgCCABIAhJGxD5ASAHKAIMIQIgBygCCCEBQRQQcSIDRQ0BIAMgATYCDCADQQ02AgAgACADNgIIIABCAzcDACADIAI2AhAMAwsgA0Exa0H/AXFBCU8EQCAHQRBqIAYgCCAEEPkBIAcoAhQhAiAHKAIQIQFBFBBxIgNFDQEgAyABNgIMIANBDTYCACAAIAM2AgggAEIDNwMAIAMgAjYCEAwDCyADQTBrrUL/AYMhEiAEIAhPDQEDQCAEIAZqLQAAQTBrIgVB/wFxIgNBCk8NAiADQQVLIBJCmbPmzJmz5swZUnIgEkKZs+bMmbPmzBlacUUEQCABIARBAWoiBDYCFCASQgp+IAWtQv8Bg3whEiAEIAhHDQEMAwsLIAdBIGohCUEAIQYjAEEQayILJAACQAJAAkACQAJAIAEiBSgCECIKIAEoAhQiA00NACAKIANrIQEgBSgCDCEMIAMhBANAIAQgDGotAAAiCEEwa0H/AXFBCk8EQCAIQS5GDQMgCEHFAEcgCEHlAEdxDQIgCSAFIAIgEiAGEO4DDAQLIAUgBEEBaiIENgIUIAZBAWoiBiABRw0ACyABIQYLIAkgBSACIBIgBhDwBAwBCyAFIARBAWoiBDYCFAJAIAQgCk8NACAGIAxqIQ4gBCAKayEPIAMgCmsgBmpBAWohEEEAIQQCQANAIAMgBmohDSADIA5qQQFqLQAAIhFBMGsiCEH/AXEiAUEKTwRAIARFBEAgDUEBaiEEDAQLIAQgBmohASARQSByQeUARwRAIAkgBSACIBIgARDwBAwFCyAJIAUgAiASIAEQ7gMMBAsgAUEFSyASQpmz5syZs+bMGVJyIBJCmLPmzJmz5swZVnENASAFIA1BAmo2AhQgA0EBaiEDIBJCCn4gCK1C/wGDfCESIBAgBEEBayIERw0ACyAJIAUgAiASIAYgD2oQ8AQMAgsgCSAFIAIgEiAEIAZqEOgGDAELIAtBCGogDCAKIARBAWoiASAKIAEgCkkbEPkBIAsoAgwhAiALKAIIIQFBFBBxIQMgBCAKSQRAIANFDQIgAyABNgIMIANBDTYCACAJIAM2AgQgCUEBNgIAIAMgAjYCEAwBCyADRQ0BIAMgATYCDCADQQU2AgAgCSADNgIEIAlBATYCACADIAI2AhALIAtBEGokAAwBCwALIAcoAiBBAUYEQCAAIAcoAiQ2AgggAEIDNwMADAMLIAAgBysDKDkDCCAAQgA3AwAMAgsACyAAIAEgAiASEK8CCyAHQTBqJAALwwQCBn8BfgJ/IAFFBEAgACgCCCEGQS0hCyAFQQFqDAELQStBgIDEACAAKAIIIgZBgICAAXEiARshCyABQRV2IAVqCyEHAkAgBkGAgIAEcUUEQEEAIQIMAQsCf0EAIANFDQAaIAIsAABBv39KIgEgA0EBRg0AGiABIAIsAAFBv39KagsgB2ohBwsCQCAALwEMIgkgB0sEQAJAAkAgBkGAgIAIcUUEQCAJIAdrIQlBACEBQQAhBwJAAkACQCAGQR12QQNxQQFrDgMAAQACCyAJIQcMAQsgCUH+/wNxQQF2IQcLIAZB////AHEhCiAAKAIEIQggACgCACEAA0AgAUH//wNxIAdB//8DcU8NAkEBIQYgAUEBaiEBIAAgCiAIKAIQEQIARQ0ACwwECyAAIAApAggiDKdBgICA/3lxQbCAgIACcjYCCEEBIQYgACgCACIIIAAoAgQiCiALIAIgAxDzBw0DQQAhASAJIAdrQf//A3EhAgNAIAFB//8DcSACTw0CIAFBAWohASAIQTAgCigCEBECAEUNAAsMAwtBASEGIAAgCCALIAIgAxDzBw0CIAAgBCAFIAgoAgwRAAANAiAJIAdrQf//A3EhAkEAIQEDQCACIAFB//8DcU0EQEEADwsgAUEBaiEBIAAgCiAIKAIQEQIARQ0ACwwCCyAIIAQgBSAKKAIMEQAADQEgACAMNwIIQQAPC0EBIQYgACgCACIBIAAoAgQiACALIAIgAxDzBw0AIAEgBCAFIAAoAgwRAAAhBgsgBgu7BAIGfwV9IAAgASACEMwDAkACQAJAIAIEQCAAKAJgQQxqIQEgACoCjAEgACoCiAEiDpMhDyAAKAJkIQlBASEGA0AgB0EDaiAJTw0CIAZBAWsiBSAETwRAIAUhBgwFCyAEIAVrIgVBACAEIAVPGyIFQQFGDQQgBUECRg0DIANBCGoqAgAhCyADQQRqKgIAIQxBACEFQQAhCCADKgIAIg1DAAAAAF9FBEBB/wFDAACAP0MAAAAAIA0QxgUgDpMgD5UiDSANQwAAAABdGyINIA1DAACAP14bQwAAfkOUELkHIg38AUEAIA1DAAAAAGAbIA1DAAB/Q14bQQFqQf8BcSEICyAMQwAAAABfRQRAQf8BQwAAgD9DAAAAACAMEMYFIA6TIA+VIgwgDEMAAAAAXRsiDCAMQwAAgD9eG0MAAH5DlBC5ByIM/AFBACAMQwAAAABgGyAMQwAAf0NeG0EBakH/AXFBCHQhBQsgASALQwAAAABfBH8gCgVB/wFDAACAP0MAAAAAIAsQxgUgDpMgD5UiCyALQwAAAABdGyILIAtDAACAP14bQwAAfkOUELkHIgv8AUEAIAtDAAAAAGAbIAtDAAB/Q14bQQFqQf8BcUEQdAsgBSAIcnIgAS0AA0EYdHI2AgAgAUEQaiEBIAdBBGohByAGQQNqIQYgA0EMaiEDIAJBAWsiAg0ACwsgAEEBOgC4AQ8LIAcgB0EEaiAJQdThwAAQ6gcACyAGQQFqIQYLIAYgBEHk4cAAEIwHAAvOBAMFfwN7B30CQAJAAkACQAJAAkACQAJAAkAgB0EDTwRAIAdBA24hCSABKgIAIAAqAgAiEZMhEiAB/V0CBCAA/V0CBCIO/eUBIQ9BACEBQQAhAANAIAEgA08NAyABIAVPDQQgAUEBaiIIIANPDQUgBSAITQ0GIAFBAmoiCCADTw0HIAUgCE0NCCABIARqIggtAAAhCyABIAJqIgotAAAhDCAOIA8gCkEBai0AACAIQQFqLQAAQQh0crNDAP9/R5X9EyAKQQJqLQAAIAhBAmotAABBCHRys0MA/39Hlf0gAf3mAf3kASIN/R8AIhOLEIkEIRQgDf0fASIVixCJBCEWIAAgB08NCSAGQwAAwH9DAACAPyARIAtBCHQgDHKzQwD/f0eVIBKUkiIQmCAQIBBcGyAQixCJBEMAAIC/kpQ4AgAgAEEBaiIIIAdPDQogBkEEakMAAMB/QwAAgD8gE5ggDSAN/UIiDf0bAEEBcRsgFEMAAIC/kpQ4AgAgAEECaiIIIAdPDQIgBkEIakMAAMB/QwAAgD8gFZggDf3HAf0bAkEBcRsgFkMAAIC/kpQ4AgAgAUEEaiEBIAZBDGohBiAAQQNqIQAgCUEBayIJDQALCw8LIAggB0HE7scAEIwHAAsgASADQcTtxwAQjAcACyABIAVB1O3HABCMBwALIAggA0Hk7ccAEIwHAAsgCCAFQfTtxwAQjAcACyAIIANBhO7HABCMBwALIAggBUGU7scAEIwHAAsgACAHQaTuxwAQjAcACyAIIAdBtO7HABCMBwALiAQBBX8jAEEgayIEJABBovnHACEFQQkhAwJAAkAgAigCAEEBcQ0AIARBEGogAigCBCACKAIIEPsCQaL5xwAgBCgCFCAEKAIQIgIbIQUgAg0AIAQoAhgiAw0AIAFBAUEAEJcDIQIMAQsgBCADNgIMIAQgBTYCCCABKAIEIQUgASgCACEDA0ACQCAEQRBqIARBCGoQ7QMgBCgCECIGRQ0AIAQoAhQhByAEKAIcRQRAIAEgBiAHEJcDIQIMAwtBASECIAMgBiAHIAUoAgwRAAANAiADQf3/AyAFKAIQEQIARQ0BDAILC0EAIQILAkACQAJAAkAgACgCACIBQYCAgIB4RwRAIAFFDQIgACgCBCIFQQRrKAIAIgBBeHEiA0EEQQggAEEDcSIAGyABakkNBCAARSADIAFBJ2pNcg0BDAMLIAAtAARBA0cNASAAKAIIIgUoAgAhACAFQQRqKAIAIgEoAgAiAwRAIAAgAxEDAAsgASgCBCIBBEAgAEEEaygCACIDQXhxIgZBBEEIIANBA3EiAxsgAWpJDQQgA0EAIAYgAUEnaksbDQMgABCiAgsgBUEEaygCACIAQXhxIgFBEEEUIABBA3EiABtJDQMgAEUNACABQTRPDQILIAUQogILIARBIGokACACDwtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALgwQBCX8jAEEgayIFJAACQAJAAkACQCABIAAoArABIgNGIAAoArQBIgQgAkZxDQACQCAALQC4AUUEQCAAKAJkIQQMAQsgACgCrAEgA0ECdCADIARqQQJ0EOEIIQMgBEECdCIGIAAoAmQiBEsNAiAAKAJgIQcgBSADELgKIgg2AgAgBSAGNgIEIAYgCEcNBCADIAcgBhDgCSAAQQA6ALgBIANBhAhJDQAgAxCbBwsgAkECdCIGIQMgBCAGSQRAIAYgBCIDayIHIAAoAlwgA2tLBEAgAEHcAGogAyAHQQRBBBCkBSAAKAJkIQMLIAAoAmAiCSADQQJ0IgpqIQggB0ECTwRAIAYgBEF/c2pBAnQiCwRAIAhBACAL/AsACyACQQR0IARBAnRrIAlqIApqQQRrIQggAyAHakEBayEDCyAIQQA2AgAgA0EBaiEDCyAAIAM2AmQgACgCrAEgAUECdCABIAJqQQJ0EOEIIQQgAyAGSQ0CIAAoAmAgBSAEELgKIgc2AgAgBSAGNgIEIAYgB0cNAyAGIAQQ4QkgAEEAOgC4ASAAIAI2ArQBIAAgATYCsAEgBEGECEkNACAEEJsHCyAFQSBqJAAPC0EAIAYgBEH868AAEOoHAAtBACAGIANBkOzAABDqBwALIAVBADYCCEEAIAUgBUEEaiAFQQhqQeD5xAAQ9QcAC8gEAgJ/AX0jAEEgayIDJAAgASgCBCgCACABKAIAKAIAaiABKAIIKAIQIAJsaiECIAACfwJAAkACQAJAAkAgASgCDCgCAA4CAAECCwJAIAJBe0sNACABKAIUIAJBBGpJDQAgACABKAIQIAJqKgAAOAIEDAQLIANBADYCGCADQQE2AgwgA0HI28EANgIIIANCBDcCECAAIANBCGoQkgc2AgRBAQwECwJAIAJBfU0EQCABKAIUIAJBAmpPDQELIANBADYCGCADQQE2AgwgA0HI28EANgIIIANCBDcCECAAIANBCGoQkgc2AgRBAQwECyABKAIQIAJqIgEtAAFBCHQiAiABLQAAciIBQf//AXFFBEAgACABQRB0NgIEDAMLIAFB/wdxIQEgAkGAgAJxIQQgAkGA+AFxIgJBgPgBRgRAIARBEHQhAiABRQRAIAAgAkGAgID8B3I2AgQMBAsgACABQQ10IAJyQYCAgP4HcjYCBAwDCyAEQRB0IQQgAkUNASAAIAJBDXRBgICA/ABxIAFBDXRyQYCAgMADaiAEcjYCBAwCCyABKAIUIAJNBEAgA0EANgIYIANBATYCDCADQZCzwQA2AgggA0IENwIQIAAgA0EIahCSBzYCBEEBDAMLIAAgASgCGCoCACIFIAEoAhAgAmotAACzQwAAf0OVIAEoAhwqAgAgBZOUkjgCBAwBCyAAIARBgICA2ANyIAFnQRBrIgJBF3RrIAEgAkH//wNxQQhqdEH///8DcXI2AgQLQQALNgIAIANBIGokAAuKBAEIfyMAQSBrIgckAAJAAkACQAJAIAAtALgBRQRAIAAoAmQhBQwBCyAAKAKsASAAKAKwASIFQQJ0IAUgACgCtAEiBWpBAnQQ4QghBiAFQQJ0IgggACgCZCIFSw0BIAAoAmAhCSAHIAYQuAoiCjYCACAHIAg2AgQgCCAKRw0DIAYgCSAIEOAJIAZBhAhJDQAgBhCbBwsgAEIANwKwASAAQbgBakEAOgAAIAUgAkECdCIISQRAIAUhBiAIIAVrIgkgACgCXCAFa0sEQCAAQdwAaiAFIAlBBEEEEKQFIAAoAmQhBgsgACgCYCILIAZBAnQiDGohCiAJQQJPBEAgCCAFQX9zakECdCIIBEAgCkEAIAj8CwALIAJBBHQgBUECdGsgC2ogDGpBBGshCiAGIAlqQQFrIQYLIApBADYCACAGQQFqIQgLIAAgCDYCZAJAIAAoAgBBAUcNACACQQF0IgUgCEsNAiAAKAJgIgYgBSADIAQgAiAAKgKQARCpAiAAKAIEIAFBAXQgASACakEBdBDhCCIAELgKIQEgByAFNgIEIAcgATYCACABIAVHDQMgACAGIAUQ4AkgAEGECEkNACAAEJsHCyAHQSBqJAAPC0EAIAggBUH868AAEOoHAAtBACAFIAhBxODAABDqBwALIAdBADYCCEEAIAcgB0EEaiAHQQhqQeD5xAAQ9QcAC/8UAxN/A34Be0HgtskAKAIARQRAAkBB4LbJACgCAEHgtskAQgE3AgBB7LbJACgCACECQei2yQAoAgAhBEHotskAQfCayAApAwA3AgBB9LbJACgCACEFQfC2yQBB+JrIACkDADcCAEUgAkVyDQAgBQRAIARBCGohDSAEKQMAQn+FQoCBgoSIkKDAgH+DIRUgBCEDA0AgFVAEQANAIANB4ABrIQMgDSkDACANQQhqIQ1CgIGChIiQoMCAf4MiFUKAgYKEiJCgwIB/UQ0ACyAVQoCBgoSIkKDAgH+FIRULIAMgFXqnQQN2QXRsakEEaygCACIHQYQITwRAIAcQmwcLIBVCAX0gFYMhFSAFQQFrIgUNAAsLIAIgAkEMbEETakF4cSIFakEJaiIDRQ0AAkAgBCAFayIEQQRrKAIAIgJBeHEiBUEEQQggAkEDcSICGyADak8EQCACQQAgBSADQSdqSxsNASAEEKICDAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACwtB5LbJACgCAEUEQEHktskAQX82AgBB7LbJACgCACIDIABxIQQgAEEZdiITrUKBgoSIkKDAgAF+IRdB6LbJACgCACECAkACQANAIAIgBGopAAAiFiAXhSIVQn+FIBVCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiFVBFBEADQCAAIAIgFXqnQQN2IARqIANxQXRsaiIFQQxrKAIARgRAIAVBCGsoAgAgAUYNBAsgFUIBfSAVgyIVUEUNAAsLIBYgFkIBhoNCgIGChIiQoMCAf4NQBEAgBCAGQQhqIgZqIANxIQQMAQsLQfC2yQAoAgBFBEACQEEAIQIjAEEgayIJJAACQAJAAkBB9LbJACgCACINQQFqIgQEQAJAQey2yQAoAgAiCiAKQQFqIg5BA3YiA0EHbCAKQQhJGyIPQQF2IARJBEACQAJAAn8gD0EBaiIDIAQgAyAESxsiBEEPTwRAIARB/////wFLDQlBfyAEQQN0QQduQQFrZ3ZBAWoMAQtBBCAEQQhxQQhqIARBBEkbCyIErUIMfiIVQiCIpw0AIBWnIgNBeEsNACADQQdqQXhxIgMgBEEIaiIGaiICIANJIAJB+P///wdLcg0AIAIQcSICRQ0BIAIgA2ohBSAGBEAgBUH/ASAG/AsACyAEQQFrIgsgBEEDdkEHbCALQQhJGyEMQei2yQAoAgAhBiANBEAgBUEMayEPIAVBCGohECAGQQxrIREgBikDAEJ/hUKAgYKEiJCgwIB/gyEVIAYhA0EAIQQgDSECA0AgFVAEQANAIARBCGohBCADQQhqIgMpAwBCgIGChIiQoMCAf4MiFUKAgYKEiJCgwIB/UQ0ACyAVQoCBgoSIkKDAgH+FIRULIAUgBiAVeqdBA3YgBGoiEkF0bGoiB0EMaygCACIIIAdBCGsoAgAgCBsiFCALcSIHaikAAEKAgYKEiJCgwIB/gyIWUARAQQghCANAIAcgCGohByAIQQhqIQggBSAHIAtxIgdqKQAAQoCBgoSIkKDAgH+DIhZQDQALCyAVQgF9IBWDIRUgBSAWeqdBA3YgB2ogC3EiB2osAABBAE4EQCAFKQMAQoCBgoSIkKDAgH+DeqdBA3YhBwsgBSAHaiAUQRl2Igg6AAAgECAHQQhrIAtxaiAIOgAAIA8gB0F0bGoiB0EIaiARIBJBdGxqIghBCGooAAA2AAAgByAIKQAANwAAIAJBAWsiAg0ACwtB7LbJACALNgIAQei2yQAgBTYCAEHwtskAIAwgDWs2AgAgCkUNAyAKIA5BDGxBB2pBeHEiA2pBCWoiBEUNAyAGIANrIgNBBGsoAgAiBkF4cSICQQRBCCAGQQNxIgYbIARqSQ0FIAZBACACIARBJ2pLGw0GIAMQogIMAwsgCUEANgIYIAlBATYCDCAJQcS1xAA2AgggCUIENwIQIAlBCGpBmLXEABCNCAsACyAOBEBB6LbJACgCACEFAkACQCADIA5BB3FBAEdqIgdBAkkEQCAHIQMMAQsgB0EBcSEDIAdB/v///wNxIghBA3QhAiAIIQYgBSEEA0AgBCAE/QADACIY/U1BB/3NAf0MAQEBAQEBAQEBAQEBAQEBAf1OIBj9DH9/f39/f39/f39/f39/f3/9UP3OAf0LAwAgBEEQaiEEIAZBAmsiBg0ACyAHIAhGDQELIAIgBWohBANAIAQgBCkDACIVQn+FQgeIQoGChIiQoMCAAYMgFUL//v379+/fv/8AhHw3AwAgBEEIaiEEIANBAWsiAw0ACwsgBUEIaiELAkAgDkEITwRAIAUgDmogBSkAADcAAAwBCyAORQ0AIAsgBSAO/AoAAAtBASEGQQAhBANAIAQhAyAGIQQCQCADIAVqIhAtAABBgAFHDQAgBSADQXRsaiICQQRrIREgAkEIayEGIAJBDGshBwNAIAcoAgAiAiAGKAIAIAIbIhIgCnEiDCECIAUgDGopAABCgIGChIiQoMCAf4MiFVAEQEEIIQgDQCACIAhqIQIgCEEIaiEIIAUgAiAKcSICaikAAEKAgYKEiJCgwIB/gyIVUA0ACwsgBSAVeqdBA3YgAmogCnEiAmosAABBAE4EQCAFKQMAQoCBgoSIkKDAgH+DeqdBA3YhAgsgAiAMayADIAxrcyAKcUEITwRAIAIgBWoiCC0AACAIIBJBGXYiCDoAACALIAJBCGsgCnFqIAg6AAAgBSACQXRsaiIIQQxrIQJB/wFGBEAgEEH/AToAACALIANBCGsgCnFqQf8BOgAAIAJBCGogB0EIaigAADYAACACIAcpAAA3AAAMAwsgBygAACEMIAcgAigAADYAACACIAw2AAAgBigAACECIAYgCEEIayIMKAAANgAAIAwgAjYAACARKAAAIQIgESAIQQRrIggoAAA2AAAgCCACNgAADAELCyAQIBJBGXYiBjoAACALIANBCGsgCnFqIAY6AAALIAQgBCAOSSIDaiEGIAMNAAsLQfC2yQAgDyANazYCAAsgCUEgaiQADAQLDAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAJQQA2AhggCUEBNgIMIAlBxLXEADYCCCAJQgQ3AhAgCUEIakGYtcQAEI0IAAsLIAAgARDsCCEEQei2yQAoAgAiAkHstskAKAIAIgUgAHEiA2opAABCgIGChIiQoMCAf4MiFVAEQEEIIQYDQCADIAZqIQMgBkEIaiEGIAIgAyAFcSIDaikAAEKAgYKEiJCgwIB/gyIVUA0ACwsgAiAVeqdBA3YgA2ogBXEiA2osAAAiBkEATgRAIAIgAikDAEKAgYKEiJCgwIB/g3qnQQN2IgNqLQAAIQYLIAIgA2ogEzoAACACIANBCGsgBXFqQQhqIBM6AABB8LbJAEHwtskAKAIAIAZBAXFrNgIAQfS2yQBB9LbJACgCAEEBajYCACACIANBdGxqIgNBBGsgBDYCACADQQhrIAE2AgAgA0EMayAANgIADAELIAVBBGsoAgAhBAsgBBDbCUHktskAQeS2yQAoAgBBAWo2AgAPC0G4psYAELAKAAu/BAMGfwF8AX0jAEEQayICJAACQAJAIAEoAgBBlICAgHhGBEBBBCEDAkAgASgCDCIEBEAgASgCCCEBQYCAECAEIARBgIAQTxsiA0ECdBBxIgVFDQQgBEEEdCEGIAJBADYCCCACIAU2AgQgAiADNgIAQQAhA0EAIQQCQANAAn0CQAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCACIHQYCAgIB4cyAHQQBOG0EBaw4KCgABAgMEBQYHCAkLIAFBBGovAQCzDAoLIAFBBGooAgCzDAkLIAFBCGopAwC1DAgLIAFBBGosAACyDAcLIAFBBGouAQCyDAYLIAFBBGooAgCyDAULIAFBCGopAwC0DAQLIAFBBGoqAgAMAwsgAUEIaisDACIItkMAAIA/QwAAgL8gCL1CAFkbmAwCCyABIAJBD2pB2OfAABCVCCEDIAIoAgAiAQRAIAIoAgQgAUECdEEEEKIHCwwDCyABQQRqLQAAswshCSABQRBqIQEgAigCACAERgRAIAJB1ILBABD6BSACKAIEIQULIAMgBWogCTgCACACIARBAWoiBDYCCCADQQRqIQMgBkEQayIGDQALIAIoAgQhAyACKAIAIgFBgICAgHhHDQILIAAgBDYCCCAAIAM2AgQgAEGAgICAeDYCAAwDC0EAIQFBACEECyAAIAQ2AgggACADNgIEIAAgATYCAAwBCyABIAJBD2pB+L/BABCVCCEBIABBgICAgHg2AgAgACABNgIECyACQRBqJAAPCwAL7AQBA38jAEEgayIDJAACQAJAAkAgAC0A8AFBBkcEQCAAKALoASIFRQ0BIAUgASACIAAoAuwBKAIQEQAAIQIMAwsgACgCxAEgACgCzAEiBGsgAkkEQCAAQcQBaiAEIAJBAUEBEKQFIAAoAswBIQQLIAAoAsgBIQUgAgRAIAQgBWogASAC/AoAAAsgACACIARqIgE2AswBQQAhAiABQQRJDQICQAJAAkACQCAFLwAAIAUtAAJBEHRyIgRBn5YiRwRAIARB8NjlA0YEQCAAQQAQ3wMhAgwICyAEIAUtAANBGHRyIgFB0JaNIEYNASABQdKCkYIDRyABQdKCkZoER3ENBCAAQQUQ3wMhAgwHCyAAKALcAUGAgICAeEYNASAAKALkASEBDAILIAAoAtABQYCAgIB4Rg0CIAAoAtQBIAAoAtgBEHxB/wFxQQRHDQIgAEEEEN8DIQIMBQsgA0EIaiAFIAEQ7QIgAygCDCEFIAMoAggiBEGBgICAeEYEQCAFIQIMBQsgACADKAIQIgE2AuQBIAAgBTYC4AEgACAENgLcASAEQYCAgIB4Rg0ECyABQQRJDQAgACgC4AEoAABBzo7NggVHDQAgAEEBEN8DIQIMAwsgACgC0AFBgICAgHhGDQEgACgC1AEgACgC2AEQfEH/AXEiAUEGRwRAIAAgARDfAyECDAMLIANBADYCGCADQQE2AgwgA0GUqsEANgIIIANCBDcCECADQQhqEJIHIQIMAgtB8KnBABDdCQALIANBADYCGCADQQE2AgwgA0GUqsEANgIIIANCBDcCECADQQhqEJIHIQILIANBIGokACACC+wEAQN/IwBBIGsiAyQAAkACQAJAIAAtAOgBQQZHBEAgACgC4AEiBUUNASAFIAEgAiAAKALkASgCEBEAACECDAMLIAAoArwBIAAoAsQBIgRrIAJJBEAgAEG8AWogBCACQQFBARCkBSAAKALEASEECyAAKALAASEFIAIEQCAEIAVqIAEgAvwKAAALIAAgAiAEaiIBNgLEAUEAIQIgAUEESQ0CAkACQAJAAkAgBS8AACAFLQACQRB0ciIEQZ+WIkcEQCAEQfDY5QNGBEAgAEEAEN0DIQIMCAsgBCAFLQADQRh0ciIBQdCWjSBGDQEgAUHSgpGCA0cgAUHSgpGaBEdxDQQgAEEFEN0DIQIMBwsgACgC1AFBgICAgHhGDQEgACgC3AEhAQwCCyAAKALIAUGAgICAeEYNAiAAKALMASAAKALQARB8Qf8BcUEERw0CIABBBBDdAyECDAULIANBCGogBSABEO0CIAMoAgwhBSADKAIIIgRBgYCAgHhGBEAgBSECDAULIAAgAygCECIBNgLcASAAIAU2AtgBIAAgBDYC1AEgBEGAgICAeEYNBAsgAUEESQ0AIAAoAtgBKAAAQc6OzYIFRw0AIABBARDdAyECDAMLIAAoAsgBQYCAgIB4Rg0BIAAoAswBIAAoAtABEHxB/wFxIgFBBkcEQCAAIAEQ3QMhAgwDCyADQQA2AhggA0EBNgIMIANBlKrBADYCCCADQgQ3AhAgA0EIahCSByECDAILQfCpwQAQ3QkACyADQQA2AhggA0EBNgIMIANBlKrBADYCCCADQgQ3AhAgA0EIahCSByECCyADQSBqJAAgAgv8AwEEfyMAQRBrIgQkAAJAAkACQCABKAIIIgJBgICAEHFFBEAgAkGAgIAgcQ0BIAAgARCLBUUNAkEBIQIMAwsgACgCACECQQkhAwNAIAMgBGpBBmogAkEPcS0A3LZFOgAAIANBAWshAyACQRBJIAJBBHYhAkUNAAtBASECIAFBAUGEtMUAQQIgAyAEakEHakEJIANrEMgDRQ0BDAILIAAoAgAhAkEJIQMDQCADIARqQQZqIAJBD3EtAMmBQjoAACADQQFrIQMgAkEPSyACQQR2IQINAAtBASECIAFBAUGEtMUAQQIgAyAEakEHakEJIANrEMgDDQELIAEoAgBBsIrDAEECIAEoAgQoAgwRAAAEQEEBIQIMAQsgAEEEaiEAAkAgASgCCCICQYCAgBBxRQRAIAJBgICAIHENASAAIAEQiwUhAgwCCyAAKAIAIQJBCSEDA0AgAyAEakEGaiACQQ9xLQDctkU6AAAgA0EBayEDIAJBD0sgAkEEdiECDQALIAFBAUGEtMUAQQIgAyAEakEHakEJIANrEMgDIQIMAQsgACgCACECQQkhAwNAIAMgBGpBBmogAkEPcS0AyYFCOgAAIANBAWshAyACQQ9LIAJBBHYhAg0ACyABQQFBhLTFAEECIAMgBGpBB2pBCSADaxDIAyECCyAEQRBqJAAgAgvyBAICfwF7IwBBgNIAayIDJAACQAJAAkACQAJAAkACQAJAIAFB/wFxQQFrDgUAAgMEBQELQYCACBBxIgRFDQUgBEEEay0AAEEDcQRAIARBAEGAgAj8CwALIANBQGtBAEHA0QD8CwBBrNQAEHEiAUUNBSABIAJBxAH8CgAAIAFBgICAgHg2AugBIAFCATcC4AEgAUKAgAg3AtgBIAEgBDYC1AEgAUKAgICAgICAATcCzAEgAUKAgICAEDcCxAEgAUHsAWogA0EMakH00QD8CgAAIAFB4NMAakEAQcEA/AsAIAFBADsBqFQgAUEANgKkVEG438EAIQIMBgtBuAYQcSIBRQ0EIAFBADYC8AQgAUKAgICAEDcD6AQgAUGBgICAeDYC3AQgAUH0BGogAkHEAfwKAABBoN/BACECDAULQdABEHEiAUUNAyABIAJBxAH8CgAAIAFBADYCzAEgAUKAgICAEDcCxAFB0N/BACECDAQLQdABEHEiAUUNAiABIAJBxAH8CgAAIAFBADYCzAEgAUKAgICAEDcCxAFB6N/BACECDAMLQdABEHEiAUUNASABIAJBxAH8CgAAIAFBADYCzAEgAUKAgICAEDcCxAFBgODBACECDAILQYgEEHEiAUUNACABQQI2AgAgAf0MAAAAAAAAAAAAAAAAAAAAAP0LA3AgAUIANwOYAiABQQI2ApABIAFCATcCtAIgAUGAAWogBf0LAwAgAUGgAmogBf0LAwAgAUGwAmpBADYCACABQbwCaiACQcQB/AoAACABQQA6AIAEQZjgwQAhAgwBCwALIAAgAjYCBCAAIAE2AgAgA0GA0gBqJAAL8gQCAn8BeyMAQYDSAGsiAyQAAkACQAJAAkACQAJAAkACQCABQf8BcUEBaw4FAAIDBAUBC0GAgAgQcSIERQ0FIARBBGstAABBA3EEQCAEQQBBgIAI/AsACyADQUBrQQBBwNEA/AsAQaTUABBxIgFFDQUgASACQbwB/AoAACABQYCAgIB4NgLgASABQgE3AtgBIAFCgIAINwLQASABIAQ2AswBIAFCgICAgICAgAE3AsQBIAFCgICAgBA3ArwBIAFB5AFqIANBDGpB9NEA/AoAACABQdjTAGpBAEHBAPwLACABQQA7AaBUIAFBADYCnFRBmN3BACECDAYLQbAGEHEiAUUNBCABQQA2AvAEIAFCgICAgBA3A+gEIAFBgYCAgHg2AtwEIAFB9ARqIAJBvAH8CgAAQYDdwQAhAgwFC0HIARBxIgFFDQMgASACQbwB/AoAACABQQA2AsQBIAFCgICAgBA3ArwBQbDdwQAhAgwEC0HIARBxIgFFDQIgASACQbwB/AoAACABQQA2AsQBIAFCgICAgBA3ArwBQcjdwQAhAgwDC0HIARBxIgFFDQEgASACQbwB/AoAACABQQA2AsQBIAFCgICAgBA3ArwBQeDdwQAhAgwCC0GABBBxIgFFDQAgAUECNgIAIAH9DAAAAAAAAAAAAAAAAAAAAAD9CwNwIAFCADcDmAIgAUECNgKQASABQgE3ArQCIAFBgAFqIAX9CwMAIAFBoAJqIAX9CwMAIAFBsAJqQQA2AgAgAUG8AmogAkG8AfwKAAAgAUEAOgD4A0H43cEAIQIMAQsACyAAIAI2AgQgACABNgIAIANBgNIAaiQAC9kEAQN/IwBBIGsiAyQAAkACQAJAIAAtAIwBQQZHBEAgACgChAEiBUUNASAFIAEgAiAAKAKIASgCEBEAACECDAMLIAAoAgAgACgCCCIEayACSQRAIAAgBCACQQFBARCkBSAAKAIIIQQLIAAoAgQhBSACBEAgBCAFaiABIAL8CgAACyAAIAIgBGoiATYCCEEAIQIgAUEESQ0CAkACQAJAAkAgBS8AACAFLQACQRB0ciIEQZ+WIkcEQCAEQfDY5QNGBEAgAEEAEOADIQIMCAsgBCAFLQADQRh0ciIBQdCWjSBGDQEgAUHSgpGCA0cgAUHSgpGaBEdxDQQgAEEFEOADIQIMBwsgACgCeEGAgICAeEYNASAAKAKAASEBDAILIAAoAgxBgICAgHhGDQIgACgCECAAKAIUEHxB/wFxQQRHDQIgAEEEEOADIQIMBQsgA0EIaiAFIAEQ7QIgAygCDCEFIAMoAggiBEGBgICAeEYEQCAFIQIMBQsgACADKAIQIgE2AoABIAAgBTYCfCAAIAQ2AnggBEGAgICAeEYNBAsgAUEESQ0AIAAoAnwoAABBzo7NggVHDQAgAEEBEOADIQIMAwsgACgCDEGAgICAeEYNASAAKAIQIAAoAhQQfEH/AXEiAUEGRwRAIAAgARDgAyECDAMLIANBADYCGCADQQE2AgwgA0GUqsEANgIIIANCBDcCECADQQhqEJIHIQIMAgtB8KnBABDdCQALIANBADYCGCADQQE2AgwgA0GUqsEANgIIIANCBDcCECADQQhqEJIHIQILIANBIGokACACC9QEAQN/IwBBIGsiAyQAAkACQAJAIAAtAGxBBkcEQCAAKAJkIgVFDQEgBSABIAIgACgCaCgCEBEAACECDAMLIAAoAgAgACgCCCIEayACSQRAIAAgBCACQQFBARCkBSAAKAIIIQQLIAAoAgQhBSACBEAgBCAFaiABIAL8CgAACyAAIAIgBGoiATYCCEEAIQIgAUEESQ0CAkACQAJAAkAgBS8AACAFLQACQRB0ciIEQZ+WIkcEQCAEQfDY5QNGBEAgAEEAEL8DIQIMCAsgBCAFLQADQRh0ciIBQdCWjSBGDQEgAUHSgpGCA0cgAUHSgpGaBEdxDQQgAEEFEL8DIQIMBwsgACgCWEGAgICAeEYNASAAKAJgIQEMAgsgACgCDEGAgICAeEYNAiAAKAIQIAAoAhQQfEH/AXFBBEcNAiAAQQQQvwMhAgwFCyADQQhqIAUgARDtAiADKAIMIQUgAygCCCIEQYGAgIB4RgRAIAUhAgwFCyAAIAMoAhAiATYCYCAAIAU2AlwgACAENgJYIARBgICAgHhGDQQLIAFBBEkNACAAKAJcKAAAQc6OzYIFRw0AIABBARC/AyECDAMLIAAoAgxBgICAgHhGDQEgACgCECAAKAIUEHxB/wFxIgFBBkcEQCAAIAEQvwMhAgwDCyADQQA2AhggA0EBNgIMIANBlKrBADYCCCADQgQ3AhAgA0EIahCSByECDAILQfCpwQAQ3QkACyADQQA2AhggA0EBNgIMIANBlKrBADYCCCADQgQ3AhAgA0EIahCSByECCyADQSBqJAAgAgv8AwMFfwF7AX4CQAJAAkACQCAFLQC/AiIGQQhLQQEgBnRBlgJxRXJFBEBBCCAGbkECdK0gAq1+IgxCIIhQIAynIARJcQ0BIAEgAmohCCAEQXxxIQUgBkEIRgRAIAJFDQUgBEECdiIEIAJBAWsiAiACIARLGyICQQNNDQQgASACQQFqIgIgAkEDcSICQQQgAhtrIgJqIAMgAkECdCIGaiEHIAUgBmshBQNAIAMgACAB/VwAAP2JAf2pASIL/RsDQQJ0aiAAIAv9GwJBAnRqIAAgC/0bAUECdGogACAL/RsAQQJ0av1cAAD9VgAAAf1WAAAC/VYAAAP9CwAAIAFBBGohASADQRBqIQMgAkEEayICDQALIQEgByEDDAQLIAVFDQRBfyAGdEF/cyEKQQggBmshB0EAIARBfHFrIQJBfyEFA0AgBUEASARAIAEgCEYNBCABLQAAIQkgByEFIAFBAWohAQsgAyAAIAkgBXYgCnFBAnRqKAAANgAAIAUgBmshBSADQQRqIQMgAkEEaiICDQALDAQLQbCXxQBBNEHkl8UAEOsHAAtBhJbFAEHlAEHslsUAEOsHAAtB/JbFAEEiQaCXxQAQqwcACwNAIAVFDQEgAyAAIAEtAABBAnRqKAAANgAAIANBBGohAyAFQQRrIQUgAUEBaiIBIAhHDQALCwvjBAICfwF7IwBBgNIAayIDJAACQAJAAkACQAJAAkACQAJAIAFB/wFxQQFrDgUAAgMEBQELQYCACBBxIgRFDQUgBEEEay0AAEEDcQRAIARBAEGAgAj8CwALIANBQGtBAEHA0QD8CwBByNMAEHEiAUUNBSABIAJB4AD8CgAAIAFBgICAgHg2AoQBIAFCATcCfCABQoCACDcCdCABIAQ2AnAgAUKAgICAgICAATcCaCABQoCAgIAQNwJgIAFBiAFqIANBDGpB9NEA/AoAACABQfzSAGpBAEHBAPwLACABQQA7AcRTIAFBADYCwFNBiNzBACECDAYLQdgFEHEiAUUNBCABIAJB4AD8CgAAIAFBADYC0AUgAUKAgICAEDcDyAUgAUGBgICAeDYCvAVB8NvBACECDAULQewAEHEiAUUNAyABIAJB4AD8CgAAIAFBADYCaCABQoCAgIAQNwJgQaDcwQAhAgwEC0HsABBxIgFFDQIgASACQeAA/AoAACABQQA2AmggAUKAgICAEDcCYEG43MEAIQIMAwtB7AAQcSIBRQ0BIAEgAkHgAPwKAAAgAUEANgJoIAFCgICAgBA3AmBB0NzBACECDAILQaADEHEiAUUNACABQQI2AogBIAFBAjYCACABQfgBaiACQeAA/AoAACABQegCav0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgASAF/QsD2AIgAUIANwOAAyABQfgCakKAgICAEDcDACABQYgDaiAF/QsDACABQZUDakIANwAAQejcwQAhAgwBCwALIAAgAjYCBCAAIAE2AgAgA0GA0gBqJAALqAQCCn8BfSMAQRBrIggkAAJAAkACQAJAAkACQCAEBEBDAAD4QSAFlSEQA0AgCUEVbCIGQRVqIgcgA0sgCUGLhsPhAEtyDQQgCUECdCEHIAlBAWohCSAI/QwAAAAAAAAAAAAAAAAAAAAA/QsDAEEAIQtBBiEKIAIhBkEAIQwDQCAIIApBBmsiDkEDdkH8////AXFqIg1B/wBDAAD4QUMAAPjBIBAgBioCAJQiBSAFQwAA+MFdGyIFIAVDAAD4QV4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbQT9xIg8gDkEecXQgDSgCAHI2AgAgDkHgAXFBIGogCkkEQCAMQRBPDQUgDSANKAIEIA8gC0EecXZyNgIECyAGQQRqIQYgCkEGaiEKIAtBBmshCyAMQQFqIgxBFUcNAAsgASAHTQ0FIAgoAgwhCiAIKAIIIQsgCCgCBCEMIAAgB0ECdGogCCgCADYCACAHQQFyIgYgAU8NBiAAIAZBAnRqIAw2AgAgB0ECciIGIAFPDQcgACAGQQJ0aiALNgIAIAdBA3IiBiABTw0CIAAgBkECdGogCjYCACACQdQAaiECIAQgCUcNAAsLIAhBEGokAA8LIAYgAUHAz8cAEIwHAAtBBEEEQeDPxwAQjAcACyAGIAcgA0HQz8cAEOoHAAsgByABQZDPxwAQjAcACyAGIAFBoM/HABCMBwALIAYgAUGwz8cAEIwHAAv9AwEGfwJAAkACQAJAAkACQAJAIARFIAJFcg0AIAAoAjxFDQAgACgCICINIAFrIgpBACAKIA1NGyEOIAAoAhwgAUESbGohCgNAIAkgDkYNAiALQQlqIgwgBEsgCUGbjsfjAUtyDQMgCiADEMYCIANBJGohAyAKQRJqIQogDCELIAIgCUEBaiIJRw0ACwsCQCAGRSACRXINACAAKAI8QQJJDQBBACEEIAAoAiwiCyABayIDQQAgAyALTRshDCAAKAIoIAFBHmxqIQNBACEJA0AgCSAMRg0EIARBD2oiCiAGSyAJQZCixIgBS3INBSADIAUQwgIgBUE8aiEFIANBHmohAyAKIQQgAiAJQQFqIglHDQALCwJAIAhFIAJFcg0AIAAoAjxBA0kNAEEAIQogACgCOCIEIAFrIgNBACADIARNGyEFIAAoAjQgAUEqbGohA0EAIQkDQCAFIAlGDQYgCkEVaiIAIAhLIAlBi4bD4QBLcg0HIAMgBxC2AiAHQdQAaiEHIANBKmohAyAAIQogAiAJQQFqIglHDQALCw8LIAEgCWogDUHExscAEIwHAAsgCyAMIARB1MbHABDqBwALIAEgCWogC0HkxscAEIwHAAsgBCAKIAZB9MbHABDqBwALIAEgCWogBEGEx8cAEIwHAAsgCiAAIAhBlMfHABDqBwALxQQCBX8BfiMAQTBrIgIkAAJAAkAgACgCACIDQQJHBEBBASEEAkACfwJAIANBAXEEQCACIABBBGo2AgAgASgCCCACIAE2AgwgAkKAgICAgMjQBzcCBCACrUKAgICAoA+EIQdBgICABHENASACIAc3AxAgAkIBNwIkIAJBATYCHCACQaD4xwA2AhggAiACQRBqNgIgIAJBBGpBoLrFACACQRhqEMEDDAILIAEoAgAiAyAAKAIQIAAoAhQgASgCBCgCDCIBEQAADQUMBAsgAiAHNwMQIAJBATYCLCACQaz5xwA2AiggAkEBNgIkIAJBATYCHCACQaD4xwA2AhggAiACQRBqNgIgIAJBBGpBoLrFACACQRhqEMEDCyIDQQAgAigCBCIFG0UEQCADDQQgBUUNAUGgt8UAQTcgAkEYakGQt8UAQdi3xQAQ4AYACyABKAIAQfy2xQBBFCABKAIEKAIMEQAADQMLIAEoAgAhAyABKAIEKAIMIQEMAQsCQAJAAkAgACgCJCIERQ0AIAAoAiAhAANAIAJBGGogACAEEPsCAkAgAigCGEEBRgRAIAItACEhAyACLQAgIQUgAigCHCEGIAFBxPnHAEEDEJcDRQ0BDAULIAEgAigCHCACKAIgEJcDDQQMAgsgBUEBcUUNASAEIAMgBmoiA0kNAiAAIANqIQAgBCADayIEDQALC0EAIQQMAwsgAyAEIARByPnHABDqBwALQQEhBAwBCyADIAAoAhggACgCHCABEQAAIQQLIAJBMGokACAEC+MDAQd/IwBB0AFrIgUkACAAIAE6AOgBIAAoAgAhAiAAQQI2AgACQAJAIAJBAkcEQCAFIAI2AhQgBUEYaiAAQQRqQbgB/AoAACAFQQhqIAEgBUEUahDVAwJAIAUoAggiASAAKALAASAAKALEASAFKAIMIgIoAhARAAAiCARAIAIoAgAiAARAIAEgABEDAAsgAigCBCIARQ0BIAFBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIABqSQ0DIAJBACAEIABBJ2pLGw0EIAEQogIMAQsgAEEANgLEASAAKALUASIEQYCAgIB4ckGAgICAeEcEQCAAKALYASIGQQRrKAIAIgNBeHEiB0EEQQggA0EDcSIDGyAEakkNAyADQQAgByAEQSdqSxsNBCAGEKICCyAAQYCAgIB4NgLUAQJAIAAoAuABIgRFDQAgACgC5AEiBigCACIDBEAgBCADEQMACyAGKAIEIgZFDQAgBEEEaygCACIDQXhxIgdBBEEIIANBA3EiAxsgBmpJDQMgA0EAIAcgBkEnaksbDQQgBBCiAgsgACACNgLkASAAIAE2AuABCyAFQdABaiQAIAgPC0Hs4MEAEN0JAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL+wMCD38BfiADIAEoAhgiCiAFayIJSwRAQQAgASgCDCIIayEQIAQgCGohESAIIAUgBSAISRsiEiAIayETIAEoAiAhDSABKAIQIQ8gASkDACEWA0ACQAJAIBYgAiAJajEAAIhCAYNQBEAgASAJNgIYIAUhByAJIQogBg0CDAELIAggDSAIIAggDUsbIAYbIgdBAWsgBUkhDAJAAkACQAJAA0AgB0UEQCAQIAUgDSAGGyIHIAggByAISxtqIQ4gCCAJaiEHIBMhCyARIQwDQCAORQRAIAEgCTYCGCAGRQRAIAEgBTYCIAsgACAKNgIIIAAgCTYCBCAAQQE2AgAPCyALRQ0DIAMgB00NBCAOQQFrIQ4gC0EBayELIAIgB2ohFCAMLQAAIAxBAWohDCAHQQFqIQcgFC0AAEYNAAsgCiAPayEKIA8hByAGRQ0GDAcLIAdBAWshByAMRQ0EIAcgCWoiCyADTw0DIAQgB2otAAAgAiALai0AAEYNAAsgByAKaiAIayEKIAUhByAGRQ0EDAULIBIgBUHonsYAEIwHAAsgAyAIIAlqIgAgACADSRsgA0H4nsYAEIwHAAsgCyADQZifxgAQjAcACyAHIAVBiJ/GABCMBwALIAEgBzYCICAHIQ0LIAogBWsiCSADSQ0ACwsgAUEANgIYIABBADYCAAvgAwEHfyMAQdABayIFJAAgACABOgDwASAAKAIAIQIgAEECNgIAAkACQCACQQJHBEAgBSACNgIMIAVBEGogAEEEakHAAfwKAAAgBSABIAVBDGoQ1AMCQCAFKAIAIgEgACgCyAEgACgCzAEgBSgCBCICKAIQEQAAIggEQCACKAIAIgAEQCABIAARAwALIAIoAgQiAEUNASABQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyAAakkNAyACQQAgBCAAQSdqSxsNBCABEKICDAELIABBADYCzAEgACgC3AEiBEGAgICAeHJBgICAgHhHBEAgACgC4AEiBkEEaygCACIDQXhxIgdBBEEIIANBA3EiAxsgBGpJDQMgA0EAIAcgBEEnaksbDQQgBhCiAgsgAEGAgICAeDYC3AECQCAAKALoASIERQ0AIAAoAuwBIgYoAgAiAwRAIAQgAxEDAAsgBigCBCIGRQ0AIARBBGsoAgAiA0F4cSIHQQRBCCADQQNxIgMbIAZqSQ0DIANBACAHIAZBJ2pLGw0EIAQQogILIAAgAjYC7AEgACABNgLoAQsgBUHQAWokACAIDwtB7ODBABDdCQALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+UDAQd/IwBB8ABrIgUkACAAIAE6AIwBIAAoAhghAiAAQYCAgIB4NgIYAkACQCACQYCAgIB4RwRAIAUgAjYCECAFQRRqIABBHGpB3AD8CgAAIAVBCGogASAFQRBqENkDAkAgBSgCCCIBIAAoAgQgACgCCCAFKAIMIgIoAhARAAAiCARAIAIoAgAiAARAIAEgABEDAAsgAigCBCIARQ0BIAFBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIABqSQ0DIAJBACAEIABBJ2pLGw0EIAEQogIMAQsgAEEANgIIIAAoAngiBEGAgICAeHJBgICAgHhHBEAgACgCfCIGQQRrKAIAIgNBeHEiB0EEQQggA0EDcSIDGyAEakkNAyADQQAgByAEQSdqSxsNBCAGEKICCyAAQYCAgIB4NgJ4AkAgACgChAEiBEUNACAAKAKIASIGKAIAIgMEQCAEIAMRAwALIAYoAgQiBkUNACAEQQRrKAIAIgNBeHEiB0EEQQggA0EDcSIDGyAGakkNAyADQQAgByAGQSdqSxsNBCAEEKICCyAAIAI2AogBIAAgATYChAELIAVB8ABqJAAgCA8LQezgwQAQ3QkAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuRBAEGfyAAIAEoAgAiBDYCqAEgACABKAIEIgc2AqwBIABBASAEQRZ2IARB////AXFBAEdqIgIgAkEBTRtBgBAgBEELdiAEQf8PcUEAR2oiAiACQYAQTxtBASAEG2wiAkELdDYCpAEgAkENdCIFELYJIQIgACgCsAEiA0GECE8EQCADEJsHCyAAIAI2ArABIAUQtgkhAiAAKAK0ASIDQYQITwRAIAMQmwcLIAAgAjYCtAEgBwR/IAUQtgkhA0EBBUEACyECAkAgACgCAEUNACAAKAIEIgZBhAhJDQAgBhCbBwsgACADNgIEIAAgAjYCACAHQQJJBH9BAAUgBRC2CSEDQQELIQICQCAAKAIIRQ0AIAAoAgwiBkGECEkNACAGEJsHCyAAIAM2AgwgACACNgIIIAdBA0kEf0EABSAFELYJIQNBAQshAgJAIAAoAhBFDQAgACgCFCIGQYQISQ0AIAYQmwcLIAAgAzYCFCAAIAI2AhAgB0EDSQR/QQAFIAUQtgkhBUEBCyECAkAgACgCGEUNACAAKAIcIgNBhAhJDQAgAxCbBwsgACAFNgIcIAAgAjYCGEEBIQICQCABLQAIQQFHBEBBACECDAELIARBAnQQtgkhBAsCQCAAKAI8RQ0AIAAoAkAiAUGECEkNACABEJsHCyAAQgA3ArgBIAAgBDYCQCAAIAI2AjwgAEHAAWpBADoAAAvsAwEIfyMAQSBrIgckAAJAAkACQCAALQC4AUUEQCAAKAJkIQUMAQsgACgCrAEgACgCsAEiBUECdCAFIAAoArQBIgVqQQJ0EOEIIQggBUECdCIGIAAoAmQiBUsNASAAKAJgIQkgByAIELgKIgo2AgAgByAGNgIEIAYgCkcNAiAIIAkgBhDgCSAIQYQISQ0AIAgQmwcLIABCADcCsAEgAEG4AWpBADoAACAFIAJBAnQiBkkEQCAFIQggBiAFayIJIAAoAlwgBWtLBEAgAEHcAGogBSAJQQRBBBCkBSAAKAJkIQgLIAAoAmAiCyAIQQJ0IgxqIQogCUECTwRAIAYgBUF/c2pBAnQiBgRAIApBACAG/AsACyACQQR0IAVBAnRrIAtqIAxqQQRrIQogCCAJakEBayEICyAKQQA2AgAgCEEBaiEGCyAAIAY2AmQCQCAAKAIIQQFHDQAgACgCYCIFIAYgAyAEIAIgACoClAEQ4wEgACgCDCABQQJ0IAEgAmpBAnQQ4QgiABC4CiEBIAcgBjYCBCAHIAE2AgAgASAGRw0CIAAgBSAGEOAJIABBhAhJDQAgABCbBwsgB0EgaiQADwtBACAGIAVB/OvAABDqBwALIAdBADYCCEEAIAcgB0EEaiAHQQhqQeD5xAAQ9QcAC+wDAQh/IwBBIGsiByQAAkACQAJAIAAtALgBRQRAIAAoAmQhBQwBCyAAKAKsASAAKAKwASIFQQJ0IAUgACgCtAEiBWpBAnQQ4QghCCAFQQJ0IgYgACgCZCIFSw0BIAAoAmAhCSAHIAgQuAoiCjYCACAHIAY2AgQgBiAKRw0CIAggCSAGEOAJIAhBhAhJDQAgCBCbBwsgAEIANwKwASAAQbgBakEAOgAAIAUgAkECdCIGSQRAIAUhCCAGIAVrIgkgACgCXCAFa0sEQCAAQdwAaiAFIAlBBEEEEKQFIAAoAmQhCAsgACgCYCILIAhBAnQiDGohCiAJQQJPBEAgBiAFQX9zakECdCIGBEAgCkEAIAb8CwALIAJBBHQgBUECdGsgC2ogDGpBBGshCiAIIAlqQQFrIQgLIApBADYCACAIQQFqIQYLIAAgBjYCZAJAIAAoAhBBAUcNACAAKAJgIgUgBiADIAQgAiAAKgKYARDaAyAAKAIUIAFBAnQgASACakECdBDhCCIAELgKIQEgByAGNgIEIAcgATYCACABIAZHDQIgACAFIAYQ4AkgAEGECEkNACAAEJsHCyAHQSBqJAAPC0EAIAYgBUH868AAEOoHAAsgB0EANgIIQQAgByAHQQRqIAdBCGpB4PnEABD1BwALvQUAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgACgCAEEBaw4YAQIDBAUGBwgJCgsMDQ4PEBESExQVFhcYAAsgASgCACAAKAIEIAAoAgggASgCBCgCDBEAAA8LIABBBGogARCeBA8LIAEoAgBB7KDGAEEYIAEoAgQoAgwRAAAPCyABKAIAQYShxgBBGyABKAIEKAIMEQAADwsgASgCAEGfocYAQRogASgCBCgCDBEAAA8LIAEoAgBBuaHGAEEZIAEoAgQoAgwRAAAPCyABKAIAQdKhxgBBDCABKAIEKAIMEQAADwsgASgCAEHeocYAQRMgASgCBCgCDBEAAA8LIAEoAgBB8aHGAEETIAEoAgQoAgwRAAAPCyABKAIAQYSixgBBDiABKAIEKAIMEQAADwsgASgCAEGSosYAQQ4gASgCBCgCDBEAAA8LIAEoAgBBoKLGAEEMIAEoAgQoAgwRAAAPCyABKAIAQayixgBBDiABKAIEKAIMEQAADwsgASgCAEG6osYAQQ4gASgCBCgCDBEAAA8LIAEoAgBByKLGAEETIAEoAgQoAgwRAAAPCyABKAIAQduixgBBGiABKAIEKAIMEQAADwsgASgCAEH1osYAQT4gASgCBCgCDBEAAA8LIAEoAgBBs6PGAEEUIAEoAgQoAgwRAAAPCyABKAIAQcejxgBBNCABKAIEKAIMEQAADwsgASgCAEH7o8YAQSwgASgCBCgCDBEAAA8LIAEoAgBBp6TGAEEkIAEoAgQoAgwRAAAPCyABKAIAQcukxgBBDiABKAIEKAIMEQAADwsgASgCAEHZpMYAQRMgASgCBCgCDBEAAA8LIAEoAgBB7KTGAEEcIAEoAgQoAgwRAAAPCyABKAIAQYilxgBBGCABKAIEKAIMEQAAC7gDAgl/AX4CQAJAAkAgACgCBCIHRQ0AIAAoAgwiCARAIAAoAgAiAUEIaiEDIAEpAwBCf4VCgIGChIiQoMCAf4MhCgNAIApQBEADQCABQcABayEBIAMpAwAgA0EIaiEDQoCBgoSIkKDAgH+DIgpCgIGChIiQoMCAf1ENAAsgCkKAgYKEiJCgwIB/hSEKCyABIAp6p0EDdkFobGoiAkEYaygCACIEBEAgAkEUaygCACIFQQRrKAIAIgZBeHEiCUEEQQggBkEDcSIGGyAEakkNBCAGQQAgCSAEQSdqSxsNBSAFEKICCyACQQxrKAIAIgQEQCACQQhrKAIAIgJBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIARqSQ0EIAVBACAGIARBJ2pLGw0FIAIQogILIApCAX0gCoMhCiAIQQFrIggNAAsLIAdBGGwiASAHakEhaiIDRQ0AIAAoAgAgAWsiAEEcaygCACIBQXhxIgJBBEEIIAFBA3EiARsgA2pJDQEgAUEAIAIgA0EnaksbDQIgAEEYaxCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvjAwELfyMAQRBrIgYkAAJAAkAgAyAEbCIHQf////8DSw0AIAdBAnQiCUH9////B08NAAJAIAlFBEBBBCELQQAhBwwBCyAJEHEiC0UNAgsgBkEANgIMIAYgCzYCCCAGIAc2AgQCQCAEBEAgBEEBdCEPA0AgDEECdCEOIA1BAXQhByANQQFqIQ0gAyEJA0AgB0EBaiACTw0DAn8gASAHai8AACIFQf//AXEEQCAFQf8HcSEIIAVBgIACcSEKIAVBgPgBcSIFQYD4AUcEQCAKQRB0IQogBUENdEGAgID8AHEgCEENdHJBgICAwANqIApyIAUNAhogCkGAgIDYA3IgCGdBEGsiBUEXdGsgCCAFQf//A3FBCGp0Qf///wNxcgwCCyAKQRB0IQUgBSAIQQ10ckGAgID+B3IgCA0BGiAFQYCAgPwHcgwBCyAFQRB0CyEIIAYoAgQgDEYEQCAGQQRqQazmxwAQ+gUgBigCCCELCyALIA5qIAg2AgAgBiAMQQFqIgw2AgwgDkEEaiEOIAcgD2ohByAJQQFrIgkNAAsgBCANRw0ACwsgACAGKQIENwIAIABBCGogBkEMaigCADYCACAGQRBqJAAPCyAHIAdBAmogAkG85scAEOoHAAtBnObHABD/BwsAC8wDAQV7QQAhBQJAIARFDQAgAS0AACECAkAgBEEPTQRAIAMhAQNAIAEtAAAgAkYNAiABQQFqIQEgBEEBayIEDQALDAILIAL9DyIHIAP9AAAA/SP9ZCIBBEAgAyABaGohAQwBCyADIARqIQYgA0FwcUEQaiEBAkACQAJAIARBwABJDQAgASAGQUBqIgRLDQAgAyADQQ9xa0FAayEBA0AgByABQSBr/QAEAP0jIgggByABQTBrIgL9AAQA/SMiCf1QIAcgAUEQa/0ABAD9IyIK/VAgByAB/QAEAP0jIgv9UP1kDQIgAUEQaiABQUBrIQEgBE0NAAsgAUEwayEBCyABIAZBEGsiBEsNAQNAIAcgAf0AAAD9I/1kIgJFBEAgBCABQRBqIgFPDQEMAwsLIAEgAmhqIQEMAgsCQCAJ/WQiAUUEQCAI/WQiAQ0BIAr9ZCIBRQRAIAv9ZGggAkEwamohAQwECyABaCACQSBqaiEBDAMLIAIgAWhqIQEMAgsgAWggAkEQamohAQwBCyABIAZPDQEgByAGQRBrIgH9AAAA/SP9ZCICBEAgASACaGohAQwBCwwBCyABIANrIQFBASEFCyAAIAE2AgQgACAFNgIAC5gEAQd/IwBBEGsiCCQAIAFBBGohBAJAAkACQAJAAn8gASgCJCIDQQlJBEBBCCEGIAQhByABQSRqDAELIAEoAgghByADIQYgBAsoAgAiCSACTQRAAkACQAJAAkACQCACQQlPBEBBgYCAgHghBSACIAZGDQpBACEFIAJB/////wNLIAJBAnQiBEH8////B0tyDQogA0EJSQ0CIAZBAnQhAyAGQf////8DTQ0BIAMhBAwKC0GBgICAeCEFIANBCUkNCSABQQA2AgAgCUECdCICBEAgBCAHIAL8CgAACyABIAk2AiQgBkECdCIBQf3///8HSSAGQf////8DTXENBCAIIAE2AgwgCEEANgIIQdjmyABBKyAIQQhqQcikwQBBxMzHABDgBgALIANB/f///wdJDQEgAyEEDAgLIAQQcSIDDQFBBCEFDAcLQQQhBSAHIANBBCAEELsCIgNFDQYMBQsgCUECdCIFRQ0EIAMgByAF/AoAAAwECyAHQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiAHEKICDAQLQfTMxwBBIEGUzccAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAEgAjYCJCABIAM2AgggASAJNgIEIAFBATYCAEGBgICAeCEFCyAAIAQ2AgQgACAFNgIAIAhBEGokAAuYBAEHfyMAQRBrIggkAEEEIQQgAUEEaiEFAkACQAJAAkACfyABKAIUIgNBBUkEQCAFIQYgAUEUagwBCyABKAIIIQYgAyEEIAULKAIAIgkgAk0EQAJAAkACQAJAAkAgAkEFTwRAQYGAgIB4IQcgAiAERg0KQQAhByACQf////8DSyACQQJ0IgVB/P///wdLcg0KIANBBUkNAiAEQQJ0IQMgBEH/////A00NASADIQUMCgtBgYCAgHghByADQQVJDQkgAUEANgIAIAlBAnQiAgRAIAUgBiAC/AoAAAsgASAJNgIUIARBAnQiAUH9////B0kgBEH/////A01xDQQgCCABNgIMIAhBADYCCEHY5sgAQSsgCEEIakHIpMEAQcTMxwAQ4AYACyADQf3///8HSQ0BIAMhBQwICyAFEHEiBA0BQQQhBwwHC0EEIQcgBiADQQQgBRC7AiIERQ0GDAULIAlBAnQiA0UNBCAEIAYgA/wKAAAMBAsgBkEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAMgAUEnaksbDQIgBhCiAgwEC0H0zMcAQSBBlM3HABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyABIAI2AhQgASAENgIIIAEgCTYCBCABQQE2AgBBgYCAgHghBwsgACAFNgIEIAAgBzYCACAIQRBqJAALmgMBBH8CQAJAIAAoAiwiAQRAIAAoAigiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCNCIBBEAgACgCMCIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAoAowBIgFFDQAgASABKAIAIgFBAWs2AgAgAUEBRw0AIAAoAowBEN0FCwJAIAAoApABIgFFDQAgASABKAIAIgFBAWs2AgAgAUEBRw0AIAAoApABEN0FCyAAKAI8IgEEQCAAKAI4IgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAngiAQRAIAAoAnwiAEEEaygCACIDQXhxIgIgAUEFdCIBQQRBCCADQQNxIgMbckkNASADQQAgAiABQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC50DAQp/IAAoAgAhAwJAAkACQCAAKAIMIgJFDQAgACgCBCEFIAMgACgCCCIBIANBACABIANPG2siASACaiACIAMgAWsiB0sbIgQgAUcEQCAEIAFrIQQgBSABQQxsaiEBA0AgASgCACIGBEAgAUEEaigCACIJQQRrKAIAIghBeHEiCiAGQQJ0IgZBBEEIIAhBA3EiCBtqSQ0EIAhBACAKIAZBJ2pLGw0FIAkQogILIAFBDGohASAEQQFrIgQNAAsLIAIgB00NACACIAdrIgFBACABIAJNGyEBA0AgBSgCACICBEAgBUEEaigCACIHQQRrKAIAIgRBeHEiBiACQQJ0IgJBBEEIIARBA3EiBBtqSQ0DIARBACAGIAJBJ2pLGw0EIAcQogILIAVBDGohBSABQQFrIgENAAsLIAMEQCAAKAIEIgBBBGsoAgAiAUF4cSICIANBDGwiA0EEQQggAUEDcSIBG2pJDQEgAUEAIAIgA0EnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuTBAMHfwF7AX4jAEEwayIEJAAgASgCACEIAkACQAJAAkACQAJAAkACQCABKAIEIgcEQAJAIAdBBE8EQCAIQRxqIQMgB0F8cSIFIQIDQCADIANBCGsgA0EQayADQRhr/VwCAP1WAgAB/VYCAAL9VgIAAyAJ/a4BIQkgA0EgaiEDIAJBBGsiAg0ACyAJIAkgCf0NCAkKCwwNDg8AAQIDAAECA/2uASIJIAkgCf0NBAUGBwABAgMAAQIDAAECA/2uAf0bACECIAUgB0YNAQsgByAFayEGIAVBA3QgCGpBBGohAwNAIAMoAgAgAmohAiADQQhqIQMgBkEBayIGDQALCyABKAIMIgMNAUEAIQMMBAsgASgCDCIDRQ0BDAILIAJBD0sNASADIQYgCCgCBA0BC0EBIQVBACECDAILIAJBACACQQBKG0EBdCECCyACQQBIDQECQCACRQRAQQEhBUEAIQIMAQsgAhBxIgVFDQMLIAMhBgsgBEEANgIQIAQgBTYCDCAEIAI2AgggASkCECEKIAEoAgghASAEIAo3AiQgBCAGNgIgIAQgATYCHCAEIAc2AhggBCAINgIUIARBCGpBjO/BACAEQRRqEMEDDQIgACAEKQIINwIAIABBCGogBEEQaigCADYCACAEQTBqJAAPC0GU7sEAEP8HCwALQZj6xwBB1gAgBEEvakGk7sEAQbTuwQAQ4AYAC/IDAQh/IAEoAgQiBQRAIAEoAgAhBANAAkAgA0EBaiECAn8gAiADIARqLQAAIgjAIglBAE4NABoCQAJAAkACQAJAAkACQAJAAkACQAJAIAgtAPSWQkECaw4DAAECDAtBm9HAACACIARqIAIgBU8bLAAAQUBODQsgA0ECagwKC0Gb0cAAIAIgBGogAiAFTxssAAAhByAIQeABayIGRQ0BIAZBDUYNAgwDC0Gb0cAAIAIgBGogAiAFTxssAAAhBiAIQfABaw4FBAMDAwUDCyAHQWBxQaB/Rw0IDAYLIAdBn39KDQcMBQsgCUEfakH/AXFBDE8EQCAJQX5xQW5HIAdBQE5yDQcMBQsgB0FATg0GDAQLIAlBD2pB/wFxQQJLIAZBQE5yDQUMAgsgBkHwAGpB/wFxQTBPDQQMAQsgBkGPf0oNAwtBm9HAACAEIANBAmoiAmogAiAFTxssAABBv39KDQJBm9HAACAEIANBA2oiAmogAiAFTxssAABBv39KDQIgA0EEagwBC0Gb0cAAIAQgA0ECaiICaiACIAVPGywAAEFATg0BIANBA2oLIgMiAiAFSQ0BCwsgACADNgIEIAAgBDYCACABIAUgAms2AgQgASACIARqNgIAIAAgAiADazYCDCAAIAMgBGo2AggPCyAAQQA2AgAL+AMBB38jAEEQayIHJABBASEJIAEgASgCFCIFQQFqIgY2AhQCQCAGIAEoAhAiCE8NAAJAAkAgASgCDCAGai0AAEEraw4DAQIAAgtBACEJCyABIAVBAmoiBjYCFAsCQAJAAkACfwJAAkAgBiAISQRAIAEgBkEBaiIFNgIUIAEoAgwiCiAGai0AAEEwa0H/AXEiBkEKTw0BAkAgBSAITw0AA0AgBSAKai0AAEEwa0H/AXEiC0EKTw0BIAEgBUEBaiIFNgIUIAZBzJmz5gBHIAtBB0tyIAZBy5mz5gBKcQ0GIAZBCmwgC2ohBiAFIAhHDQALCyAJDQIgBCAGayIFQR91QYCAgIB4cyAFIAZBAEogBCAFSnMbDAMLIAdBCGogASgCDCAIIAYQ+QEgBygCDCECIAcoAgghBEEUEHEiAUUNBCABIAQ2AgwgAUEFNgIAIAAgATYCBCAAQQE2AgAgASACNgIQDAULIAcgCiAIIAUQ+QEgBygCBCECIAcoAgAhBEEUEHEiAUUNAyABIAQ2AgwgAUENNgIAIAAgATYCBCAAQQE2AgAgASACNgIQDAQLIAQgBmoiBUEfdUGAgICAeHMgBSAGQQBIIAQgBUpzGwshBSAAIAEgAiADIAUQ8AQMAgsgACABIAIgA1AgCRDsBQwBCwALIAdBEGokAAvyAwEGfyMAQRBrIgIkACACQQA2AgQCfyABQYABTwRAIAFBP3FBgH9yIQMgAUEGdiEEIAFBgBBJBEAgAiADOgAFIAIgBEHAAXI6AARBAgwCCyABQQx2IQYgBEE/cUGAf3IhBCABQf//A00EQCACIAM6AAYgAiAEOgAFIAIgBkHgAXI6AARBAwwCCyACIAM6AAcgAiAEOgAGIAIgBkE/cUGAf3I6AAUgAiABQRJ2QXByOgAEQQQMAQsgAiABOgAEQQELIQEgAkEIaiAAKAIIKAIAIAJBBGogARCRBAJAAkACQAJAIAItAAgiBkEERwRAIAAoAgQhASAALQAAIgNBBE0gA0EDR3FFBEAgASgCACEDIAFBBGooAgAiBCgCACIFBEAgAyAFEQMACyAEKAIEIgQEQCADQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyAEakkNAyAFQQAgByAEQSdqSxsNBCADEKICCyABQQRrKAIAIgNBeHEiBEEQQRQgA0EDcSIDG0kNBCADQQAgBEE0TxsNBSABEKICCyAAIAIpAwg3AgALIAJBEGokACAGQQRHDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+sDAgd9CX8gACABIAIQzAMgAkEEdCEOIARBAnQiAUFwcSEPIAFBDGpBcHEhECABQQhqQXBxIRFBAiAEIARBAk0bQQJ0QQRqQXBxIRIgACgCYCETIAAoAmQhDUEAIQFBACEAAkACQAJAAkACQANAIAFBBGoiAiANSw0CQwAAgD8gACATaiIMQQhqKAIAIhRBEHZB/wFxs0MAAH9DlSIGIAaSQwAAgL+SIgWLkyAUQRh2s0MAAH9DlSIGIAaSQwAAgL+SIgqLkyIGjEMAAAAAEOAIIQcgDEEPai0AALNDAAB/Q5VDAAAAP5RD2w9JQJQiCBCZAiEJIAgQmwIhCCAAIBBGDQMgACADaiIMIAkgBSAHjCILIAcgBUMAAAAAYBuSIgUgBiAGlCAFIAWUIAogCyAHIApDAAAAAGAbkiIHIAeUkpKRIgWVlDgCACAAIBFGDQQgDEEEaiAJIAcgBZWUOAIAIAAgEkYNBSAMQQhqIAkgBiAFlZQ4AgAgACAPRg0BIAxBDGogCDgCACACIQEgDiAAQRBqIgBHDQALDwsgAUEDaiAEQczVwAAQjAcACyABIAIgDUHc1cAAEOoHAAsgASAEQZzVwAAQjAcACyABQQFqIARBrNXAABCMBwALIAFBAmogBEG81cAAEIwHAAufBQEPfyMAQRBrIgQkAAJAAkACQAJAIAIEQCACQQJ0IgkQcSIIBEAgCEEEayIQLQAAQQNxRSAJRXJFBEAgCEEAIAn8CwALIAkhBgNAIAEoAgAiAyACTw0FIAggA0ECdGogBTYCACABQQRqIQEgBUEBaiEFIAZBBGsiBg0AC0EAIQYgBEEANgIMIARCgICAgMAANwIEQQQhA0EAIQUCQANAIAUgCCAFQQJ0aiILKAIAIgFHBEAgBkEDdCEMA0AgBCgCBCAGRgRAIwBBIGsiAyQAAkACQCAEQQRqIgcoAgAiCkH/////AEsNAEEEIApBAXQiDSANQQRNGyINQQN0IhFB/P///wdLDQAgAyAKBH8gAyAKQQN0NgIcIAMgBygCBDYCFEEEBUEACzYCGCADQQhqQQQgESADQRRqEIUHIAMoAghBAUcNASADKAIQIQ8gAygCDCEOCyAOIA9B4PbHABCTCQALIAMoAgwhCiAHIA02AgAgByAKNgIEIANBIGokACAEKAIIIQMLIAMgDGoiByAFNgIAIAdBBGogATYCACAEIAZBAWoiBjYCDCABIAJPDQMgCygCACEHIAsgCCABQQJ0aiIBKAIANgIAIAEgBzYCACAMQQhqIQwgCygCACIBIAVHDQALCyAFQQFqIgUgAkcNAAsgACAEKQIENwIAIABBCGogBEEMaigCADYCACAQKAIAIgBBeHEiAUEEQQggAEEDcSIAGyAJakkNAyAAQQAgASAJQSdqSxsNBCAIEKICDAYLIAEgAkHw9scAEIwHCwALIABCgICAgMAANwIAIABBCGpBADYCAAwDC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgAyACQdD2xwAQjAcACyAEQRBqJAAL5QMCBH8EfiMAQdAAayIDJAAgA/0MAAAAAAAAAAAAAAAAAAAAAP0LAzggAyABNwMwIAMgAULzytHLp4zZsvQAhTcDICADIAFC7d6R85bM3LfkAIU3AxggAyAANwMoIAMgAELh5JXz1uzZvOwAhTcDECADIABC9crNg9es27fzAIU3AwggAyACLQAAIgU2AkwgA0EIaiIEIANBzABqIgZBBBCCAyAFQQtGBEAgA0EENgJMIAQgBkEEEIIDIAQgAkEBakEEEIIDCyADKQMIIQEgAykDGCEAIAM1AkAhCSADKQM4IQcgAykDICADKQMQIQogA0HQAGokACAHIAlCOIaEIgmFIgdCEIkgByAKfCIHhSIIQhWJIAggACABfCIBQiCJfCIIhSIKQhCJIAogByAAQg2JIAGFIgB8IgFCIIlC/wGFfCIHhSIKQhWJIAogASAAQhGJhSIAIAggCYV8IgFCIIl8IgmFIghCEIkgCCABIABCDYmFIgAgB3wiAUIgiXwiB4UiCEIViSAIIAEgAEIRiYUiACAJfCIBQiCJfCIJhSIIQhCJIAggAEINiSABhSIAIAd8IgFCIIl8IgeFQhWJIABCEYkgAYUiAEINiSAAIAl8hSIAQhGJhSAAIAd8IgBCIImFIACFC/oDAgd/AX4jAEEwayICJAACQAJAAkACQAJAAkAgACgCBCIDDgMBAwIAC0EBIQQgASgCACIFQeCQxgBBByABKAIEIgYoAgwiBxEAAA0EIAIgACgCACIANgIUIAIgAkEUaq1CgICAgNAAhCIJNwMAIAJCATcCJCACQQI2AhwgAkGwkMYANgIYIAIgAjYCICAFIAYgAkEYahDBAw0DQQAhBCADQQN0IgFBCGsiA0UNBCAAIAFqIQggA0EDdiEDIABBCGoiAEEIQQAgAUEIRxtqIQEDQCACIAA2AhQgBUHnkMYAQQIgBxEAAA0EIAIgCTcDACACQgE3AiQgAkECNgIcIAJBsJDGADYCGCACIAI2AiAgBSAGIAJBGGoQwQMNBCABQQhBACABIgAgCEcbaiEBIANBAWsiAw0ACwwEC0GQkMYAQQ5BoJDGABDrBwALIAJCgICAgCAiCSAAKAIAIgCthDcDACACIAkgAEEIaq2ENwMIIAEoAgAgASgCBCACQgI3AiQgAkEDNgIcIAJByJDGADYCGCACIAI2AiAgAkEYahDBAyEEDAILIAIgADUCAEKAgICAIIQ3AwAgASgCACABKAIEIAJCATcCJCACQQI2AhwgAkGwkMYANgIYIAIgAjYCICACQRhqEMEDIQQMAQtBASEECyACQTBqJAAgBAuVBAEHfyMAQRBrIgkkAEEgIQQgASgChAEiAyEGIAFBBGoiBSEHIANBIU8EQCABKAIEIQYgASgCCCEHIAMhBAsCQAJAAkACQCACIAZPBEACQAJAAkACQAJAIAJBIU8EQEGBgICAeCEIIAIgBEYNCkEAIQggAkH/////A0sgAkECdCIFQfz///8HS3INCiADQSFJDQIgBEECdCEDIARB/////wNNDQEgAyEFDAoLQYGAgIB4IQggA0EhSQ0JIAFBADYCACAGQQJ0IgIEQCAFIAcgAvwKAAALIAEgBjYChAEgBEECdCIDQf3///8HSSAEQf////8DTXENBCAJIAM2AgwgCUEANgIIQdjmyABBKyAJQQhqQbTMxwBBxMzHABDgBgALIANB/f///wdJDQEgAyEFDAgLIAUQcSIEDQFBBCEIDAcLQQQhCCAHIANBBCAFELsCIgRFDQYMBQsgBkECdCIDRQ0EIAQgByAD/AoAAAwECyAHQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyADakkNASABQQAgAiADQSdqSxsNAiAHEKICDAQLQfTMxwBBIEGUzccAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAEgAjYChAEgASAENgIIIAEgBjYCBCABQQE2AgBBgYCAgHghCAsgACAFNgIEIAAgCDYCACAJQRBqJAALkgQBB38jAEEQayIJJABBBCEEIAEoAhQiAyEGIAFBBGoiBSEHIANBBU8EQCABKAIEIQYgASgCCCEHIAMhBAsCQAJAAkACQCACIAZPBEACQAJAAkACQAJAIAJBBU8EQEGBgICAeCEIIAIgBEYNCkEAIQggAkH/////A0sgAkECdCIFQfz///8HS3INCiADQQVJDQIgBEECdCEDIARB/////wNNDQEgAyEFDAoLQYGAgIB4IQggA0EFSQ0JIAFBADYCACAGQQJ0IgIEQCAFIAcgAvwKAAALIAEgBjYCFCAEQQJ0IgNB/f///wdJIARB/////wNNcQ0EIAkgAzYCDCAJQQA2AghB2ObIAEErIAlBCGpBtMzHAEHEzMcAEOAGAAsgA0H9////B0kNASADIQUMCAsgBRBxIgQNAUEEIQgMBwtBBCEIIAcgA0EEIAUQuwIiBEUNBgwFCyAGQQJ0IgNFDQQgBCAHIAP8CgAADAQLIAdBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIANqSQ0BIAFBACACIANBJ2pLGw0CIAcQogIMBAtB9MzHAEEgQZTNxwAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgASACNgIUIAEgBDYCCCABIAY2AgQgAUEBNgIAQYGAgIB4IQgLIAAgBTYCBCAAIAg2AgAgCUEQaiQAC5IEAQd/IwBBEGsiCSQAQQghBCABKAIkIgMhBiABQQRqIgUhByADQQlPBEAgASgCBCEGIAEoAgghByADIQQLAkACQAJAAkAgAiAGTwRAAkACQAJAAkACQCACQQlPBEBBgYCAgHghCCACIARGDQpBACEIIAJB/////wNLIAJBAnQiBUH8////B0tyDQogA0EJSQ0CIARBAnQhAyAEQf////8DTQ0BIAMhBQwKC0GBgICAeCEIIANBCUkNCSABQQA2AgAgBkECdCICBEAgBSAHIAL8CgAACyABIAY2AiQgBEECdCIDQf3///8HSSAEQf////8DTXENBCAJIAM2AgwgCUEANgIIQdjmyABBKyAJQQhqQbTMxwBBxMzHABDgBgALIANB/f///wdJDQEgAyEFDAgLIAUQcSIEDQFBBCEIDAcLQQQhCCAHIANBBCAFELsCIgRFDQYMBQsgBkECdCIDRQ0EIAQgByAD/AoAAAwECyAHQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyADakkNASABQQAgAiADQSdqSxsNAiAHEKICDAQLQfTMxwBBIEGUzccAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAEgAjYCJCABIAQ2AgggASAGNgIEIAFBATYCAEGBgICAeCEICyAAIAU2AgQgACAINgIAIAlBEGokAAuPAwEEfwJAAkACQCAALQAAIgFBBEYgAUECRnINACAAKAIEIgFFDQAgACgCCCIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAtABAiAUEERiABQQJGcg0AIAAoAhQiAUUNACAAKAIYIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILAkAgAC0AICIBQQRGIAFBAkZyDQAgACgCJCIBRQ0AIAAoAigiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsCQCAALQAwIgFBBEYgAUECRnINACAAKAI0IgFFDQAgACgCOCIAQQRrKAIAIgNBeHEiAkEEQQggA0EDcSIDGyABakkNASADQQAgAiABQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC98DAgR/BH4jAEHQAGsiAyQAIAP9DAAAAAAAAAAAAAAAAAAAAAD9CwM4IAMgATcDMCADIAFC88rRy6eM2bL0AIU3AyAgAyABQu3ekfOWzNy35ACFNwMYIAMgADcDKCADIABC4eSV89bs2bzsAIU3AxAgAyAAQvXKzYPXrNu38wCFNwMIIAMgAi0AACIFNgJMIANBCGoiBCADQcwAaiIGEIsEIAVBC0YEQCADQQQ2AkwgBCAGEIsEIAQgAkEBahCLBAsgAykDCCEBIAMpAxghACADNQJAIQkgAykDOCEHIAMpAyAgAykDECEKIANB0ABqJAAgByAJQjiGhCIJhSIHQhCJIAcgCnwiB4UiCEIViSAIIAAgAXwiAUIgiXwiCIUiCkIQiSAKIAcgAEINiSABhSIAfCIBQiCJQv8BhXwiB4UiCkIViSAKIAEgAEIRiYUiACAIIAmFfCIBQiCJfCIJhSIIQhCJIAggASAAQg2JhSIAIAd8IgFCIIl8IgeFIghCFYkgCCABIABCEYmFIgAgCXwiAUIgiXwiCYUiCEIQiSAIIABCDYkgAYUiACAHfCIBQiCJfCIHhUIViSAAQhGJIAGFIgBCDYkgACAJfIUiAEIRiYUgACAHfCIAQiCJhSAAhQuOBAEFfyMAQSBrIgMkAAJAAkACQCAAKAIAIgFFDQADQAJAIAAoAggiAiAAKAIETw0AIAEgAmotAABBxQBHDQAgACACQQFqNgIIDAILAkAgBEUNACAAKAIQIgFFDQAgAUHwyccAQQMQlwMNAwsgABCJBUH/AXEiAUECRg0CA0ACQAJAAkACQAJAIAAoAgAiBUUNACAAKAIIIgIgACgCBE8NACACIAVqLQAAQfAARw0AIAAgAkEBajYCCCABQQFxDQEgACgCECIBRQ0CIAFBprPFAEEBEJcDDQgMAgsgAUEBcUUNAiAAKAIQIgJFDQJBASEBIAJBq7PFAEEBEJcDRQ0CDAgLIAAoAhAiAUUNACABQeeQxgBBAhCXAw0GCyAAKAIADQEgACgCECICRQ0AQQEhASACQZOzxQBBARCXAw0GCyAEQQFqIQQgACgCACIBDQIMAwsgAyAAEO8CIAMoAgBFBEAgAy0ABCEEIAAoAhAiAgRAQQEhASACQfqyxQBB6rLFACAEQQFxIgIbQRlBECACGxCXAw0GCyAAIAQ6AARBACEBIABBADYCAAwFCyADIAP9AAIA/QsDEAJAIAAoAhAiAUUNACADQRBqIAEQiwINBCAAKAIQIgFFDQAgAUGBtMUAQQMQlwMNBAtBASEBIAAQhgJFDQALCwwBC0EAIQEMAQtBASEBCyADQSBqJAAgAQvTAwEEfwJAAkACQAJAAkAgAkEHTQRAIAINAQwFCyABQQNqQXxxIgQgAUYNASAEIAFrIQUgASAEayEGQQEhAyABIQQDQCAELQAAQS5GDQUgBEEBaiEEIAZBAWoiBg0ACyAFIAJBCGsiA0sNAwwCC0EBIQMgAS0AAEEuRg0DIAJBAUYEQEEAIQMMBAsgAS0AAUEuRg0DIAJBAkYEQEEAIQMMBAsgAS0AAkEuRg0DIAJBA0YEQEEAIQMMBAsgAS0AA0EuRg0DIAJBBEYEQEEAIQMMBAsgAS0ABEEuRg0DIAJBBUYEQEEAIQMMBAsgAS0ABUEuRg0DQQAhAyACQQZGDQMgAS0ABkEuRiEDDAMLIAJBCGshAwsDQEGAgoQIIAEgBWoiBCgCACIGQa7cuPECc2sgBnJBgIKECCAEQQRqKAIAIgRBrty48QJzayAEcnFBgIGChHhxQYCBgoR4Rw0BIAVBCGoiBSADTQ0ACwsgAiAFRgRAQQAhAwwBCyABIAVqIQQgBUF/cyACaiEGA0AgBC0AAEEuRiIDDQEgBEEBaiEEIAYiBUEBayEGIAUNAAsLIAAgAyAALQAEcjoABCAAKAIAIgAoAgAgASACIAAoAgQoAgwRAAAL/wMBBn8jAEHQA2siAiQAIAEtAFgiA0ECRwRAIAJBIGogAUHUAGooAgA2AgAgAkEYaiABQcwAaikCADcDACACQQZqIAFB2wBqLQAAOgAAIAIgAf0AAjz9CwMIIAIgAS8AWTsBBAsgAkH4AWogAkEgaigCADYCACACQfABaiACQRhqKQMANwMAIAJB/wFqIAJBBmotAAA6AAAgAiAC/QADCP0LA+ABIAIgAzoA/AEgAiACLwEEOwD9ASACQSRqIAFBASACQeABaiIBEHICQAJAAkACfyACKAIkQQJGBEAgAigCKCEDIAJBADYCyAMgAkKAgICAEDcCwAMgAkGck8EANgLkASACQqCAgIAONwLoASACIAJBwANqNgLgASADIAEQrwQNAiACKALAAyEEIAIoAsQDIgYgAigCyAMQ7AghASAEBEAgBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgBGpJDQQgBUEAIAcgBEEnaksbDQUgBhCiAgsgAyADKAIAKAIAEQMAQQEMAQsgAkGEAmoiASACQSRqQbwB/AoAACABENIBIQFBAAshAyAAIAE2AgQgACADNgIAIAJB0ANqJAAPC0GgnsYAQTcgAkHPA2pBtJPBAEHYnsYAEOAGAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALogQBBH8jAEEwayICJAACQAJAAkACQAJAAkACQAJAAkACQAJAQQEgAS0AACIDQSRrIANBI00bQf8BcUEBaw4DAwECAAsgAEEFNgIAIAAgASkCBDcCBAwJCyACIAH9AAIA/QsDACACQQA2AhggAkKAgICAEDcCECACQey1xAA2AiAgAkKggICADjcCJCACIAJBEGo2AhwgAiACQRxqEOEEDQIgACACKQIQNwIEIABBDGogAkEYaigCADYCACAAQQI2AgAgAEEANgIQIAItAABBJEcNCCACLQAEQQNHDQggAigCCCIAKAIAIQEgAEEEaigCACIDKAIAIgQEQCABIAQRAwALIAMoAgQiAwRAIAFBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIANqSQ0EIARBACAFIANBJ2pLGw0FIAEQogILIABBBGsoAgAiAUF4cSIDQRBBFCABQQNxIgEbSQ0FIAFBACADQTRPGw0GIAAQogIMCAsgAEEDNgIAIABCAzcDCAwHC0EQEHEiA0UNBSAAQbC7xAA2AhggACADNgIUIABBADsBBCAAQQA2AgAgAyAB/QACAP0LAgAMBgtBoJ7GAEE3IAJBL2pBhLbEAEHYnsYAEOAGAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACwALIAJBMGokAAu9BAEFfyMAQSBrIgEkAAJAAkACQAJAAkADQCAAEM8FIAAoAggiAiAAKAIEIgNGDQEgAiADTw0CIAAoAgAiBSACai0AACIEQdwARwRAIARBIkcEQCABQRA2AhQgACABQRRqEIsHIQAMBwsgACACQQFqNgIIQQAhAAwGCyAAIAJBAWoiBDYCCAJAAkACfyADIARLBEAgACACQQJqIgI2AgggBCAFai0AAAwBCyABQQQ2AhQgAUEMaiAAIAFBFGoQ8wYgAS0ADA0GIAQhAiABLQANC0Eiaw5UAgAAAAAAAAAAAAAAAAIAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAIAAAAAAAIAAAACAAAAAAAAAAIAAAACAAIBAAsgAUEMNgIUIAAgAUEUahCLByEADAYLIAIgA0sNBAJAIAMgAmtBA00EQCAAIAM2AgggAUEENgIUIAFBDGogACABQRRqEPQGDAELIAAgAkEEajYCCCACIAVqIgItAAFBAXQvAYiURiACLQAAQQF0LwGImEZyIAItAAJBAXQvAYiYRnIgAi0AA0EBdC8BiJRGcsFBAE4EQCABQQA7AQwMAQsgAUEMNgIUIAFBDGogACABQRRqEPQGCyABLwEMQQFHDQALIAEoAhAhAAwECyABQQQ2AhQgACABQRRqEIsHIQAMAwsgAiADQbilxgAQjAcACyABKAIQIQAMAQsgAiADIANByKXGABDqBwALIAFBIGokACAAC+EDAwJ/BX4BeyAAKQM4IQcgACkDKCIEIQYCQAJAAkACQAJAAkAgBCAAKQMIIgVSDQAgACkDMCIGIAApAxAiBVINACAHIQYgByAAKQMYIgVRDQELIAUgBlgNACAAQTBqIQJBAiEDA0AgAkEoaikDACEGIAJBGGopAwAiCCEFAkAgBCAIUg0AIAJBIGopAwAiBSACKQMAIgRSDQAgByEEIAYiBSAHUQ0DCyAEIAVYDQIgAkEgaiECIAYhByAIIQQgASADQQFqIgNHDQALDAILIABBMGohAkECIQMDQAJAIAJBKGopAwAhBiACQRhqKQMAIgghBQJAAkAgBCAIUg0AIAJBIGopAwAiBSACKQMAIgRSDQAgByEEIAYiBSAHUQ0BCyAEIAVWDQELIAJBIGohAiAGIQcgCCEEIAEgA0EBaiIDRw0BDAULCyABIANGDQMMAgsgASADRw0BCyABQQF2IQMgAUEFdCAAakEgayECA0AgAP0AAwAhCSAAIAL9AAMA/QsDACACIAn9CwMAIABBEGoiAf0AAwAhCSABIAJBEGoiAf0AAwD9CwMAIAEgCf0LAwAgAkEgayECIABBIGohACADQQFrIgMNAAsMAQsgACABQQAgAUEBcmdBAXRBPnMQqgELC9YDAQt/IwBBEGsiCCQAAkACQAJAAkAgAyAEbCIHQf////8DSw0AIAdBAnQiCkH9////B08NAAJAIApFBEBBBCELQQAhBwwBCyAKEHEiC0UNAgsgCEEANgIMIAggCzYCCCAIIAc2AgQgAxBxIgxFDQEgDEEEayIQKAIAIglBA3EiB0UgA0VyRQRAIAxBACAD/AsACwJAIAQEQCAGIAWTIQZBACEHA0AgDUECdCEOIAdBAWogAyEPIAwhCQNAIAIgB00NAyAJIAEgB2otAAAgCS0AAGoiEToAACAIKAIEIA1GBEAgCEEEakGs6ccAEPoFIAgoAgghCwsgCyAOaiAFIAYgEUH/AXGzQwAAf0OVlJI4AgAgCCANQQFqIg02AgwgCUEBaiEJIA5BBGohDiAEIAdqIQcgD0EBayIPDQALIgcgBEcNAAsgECgCACIJQQNxIQcLIAAgCCkCBDcCACAAQQhqIAhBDGooAgA2AgAgCUF4cSIAQQRBCCAHGyADakkNAyAHQQAgACADQSdqSxsNBCAMEKICIAhBEGokAA8LIAcgAkGc6ccAEIwHAAtBjOnHABD/BwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuOAwEEfwJAAkAgACgCDCICQYCAgIB4ckGAgICAeEcEQCAAKAIQIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIAAoAhhBgICAgHhHBEAgAEEYahD2AgsgACgCACICBEAgACgCBCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAJ4IgJBgICAgHhyQYCAgIB4RwRAIAAoAnwiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsCQCAAKAKEASICRQ0AIAAoAogBIgAoAgAiAwRAIAIgAxEDAAsgACgCBCIARQ0AIAJBBGsoAgAiA0F4cSIBQQRBCCADQQNxIgMbIABqSQ0BIANBACABIABBJ2pLGw0CIAIQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALjAMBBH8CQAJAIAAoAgwiAkGAgICAeHJBgICAgHhHBEAgACgCECIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAIYQYCAgIB4RwRAIABBGGoQ9QILIAAoAgAiAgRAIAAoAgQiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsgACgCWCICQYCAgIB4ckGAgICAeEcEQCAAKAJcIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILAkAgACgCZCICRQ0AIAAoAmgiACgCACIDBEAgAiADEQMACyAAKAIEIgBFDQAgAkEEaygCACIDQXhxIgFBBEEIIANBA3EiAxsgAGpJDQEgA0EAIAEgAEEnaksbDQIgAhCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvJAwINfwF+An8gAyAFQQFrIg0gASgCFCIIaiIHSwRAIAUgASgCECIOayEPIAEoAhwhCyABKAIIIQogASkDACEUA0ACQCABAn8CQCAUIAIgB2oxAACIQgGDUARAIAEgBSAIaiIINgIUIAYNAwwBCyAKIAsgCiAKIAtJGyAGGyIJIAUgBSAJSRshDCACIAhqIRAgCSEHAkACQAJAA0AgByAMRgRAQQAgCyAGGyEMIAohBwNAIAcgDE0EQCABIAUgCGoiAjYCFCAGRQRAIAFBADYCHAsgACACNgIIIAAgCDYCBEEBDAwLIAdBAWsiByAFTw0FIAcgCGoiCSADTw0DIAQgB2otAAAgAiAJai0AAEYNAAsgASAIIA5qIgg2AhQgDyAGRQ0GGgwHCyAHIAhqIhEgA08NAiAHIBBqIRIgBCAHaiAHQQFqIQctAAAgEi0AAEYNAAsgESAKa0EBaiEIIAZFDQMMBQsgCSADQfiexwAQjAcACyADIAggCWoiACAAIANJGyADQYifxwAQjAcACyAHIAVB6J7HABCMBwALQQALIgc2AhwgByELCyAIIA1qIgcgA0kNAAsLIAEgAzYCFEEACyEHIAAgBzYCAAvtAwIFfwF7QQJBAyACQQhGGyEJAkACQCAFBEAgAUEBayADbiEGIAMhByACIQoDQCAGRQ0CIAZBAWshBiAIIAAgB2otAABqIQggAyAHaiEHIApBAWsiCg0ACyAJQQFqIQkLIARFDQECeyAA/VwAAf2JAf2pASAA/VwABf2JAf2pAf2uASILIAJBHHEiBkEIRg0AGiALIAD9XAAJ/YkB/akB/a4BIgsgBkEMRg0AGiALIAD9XAAN/YkB/akB/a4BCyILIAsgC/0NCAkKCwwNDg8AAQIDAAECA/2uASILIAsgC/0NBAUGBwABAgMAAQIDAAECA/2uAf0bACEHIAIgBkcEQCACIAZrIQogACAGakEBaiEGA0AgByAGLQAAaiEHIAZBAWohBiAKQQFrIgoNAAsLIAlBAWohCSAHIAhqIQgMAQsgByABQdjixAAQjAcAC0EBIAlBAWt0IAhqIAl2IgcgB0GAfyAFGyAEGyEEIANBAWohCCABQQFrIgUgA2shBiAFIANuIQVBACEHAkACQANAIAUgB0YNAiACIAZNBEAgAgRAIAAgCGogBCAC/AsACyAGIANrIQYgAyAIaiEIIAIgB0EBaiIHRg0CDAELC0EAIAIgBkG44sQAEOoHAAsPCyAIIAEgAUHI4sQAEOoHAAvdAwIEfgZ/IAEpAxAgASkDGCACEPIDIQUgASgCBCIJIAWncSEHIAVCGYhC/wCDQoGChIiQoMCAAX4hBiABKAIAIQoCQAJAIAItAAAiC0ELRwRAA0AgByAKaikAACIEIAaFIgNCf4UgA0KBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIDUEUEQANAIAogA3qnQQN2IAdqIAlxQWhsaiIMQRhrLQAAIAtGDQQgA0IBfSADgyIDUEUNAAsLIAQgBEIBhoNCgIGChIiQoMCAf4NCAFINAyAHIAhBCGoiCGogCXEhBwwACwALIAIoAAEhCwNAIAcgCmopAAAiBCAGhSIDQn+FIANCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiA1BFBEADQCAKIAN6p0EDdiAHaiAJcUFobGoiDEEYay0AAEELRgRAIAxBF2soAAAgC0YNBAsgA0IBfSADgyIDUEUNAAsLIAQgBEIBhoNCgIGChIiQoMCAf4NQRQ0CIAcgCEEIaiIIaiAJcSEHDAALAAsgAEEMOgAMIAAgATYCBCAAIAw2AgAPCyABKAIIRQRAIAEgAUEQahDAAQsgACABNgIIIAAgBTcDACAAIAIoAAA2AAwgAEEQaiACQQRqLQAAOgAAC40DAQR/AkACQCAAKALQASICQYCAgIB4ckGAgICAeEcEQCAAKALUASIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAIAQQJHBEAgABCKAgsgACgCxAEiAgRAIAAoAsgBIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIAAoAtwBIgJBgICAgHhyQYCAgIB4RwRAIAAoAuABIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILAkAgACgC6AEiAkUNACAAKALsASIAKAIAIgMEQCACIAMRAwALIAAoAgQiAEUNACACQQRrKAIAIgNBeHEiAUEEQQggA0EDcSIDGyAAakkNASADQQAgASAAQSdqSxsNAiACEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC40DAQR/AkACQCAAKALIASICQYCAgIB4ckGAgICAeEcEQCAAKALMASIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAIAQQJHBEAgABDAAgsgACgCvAEiAgRAIAAoAsABIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIAAoAtQBIgJBgICAgHhyQYCAgIB4RwRAIAAoAtgBIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILAkAgACgC4AEiAkUNACAAKALkASIAKAIAIgMEQCACIAMRAwALIAAoAgQiAEUNACACQQRrKAIAIgNBeHEiAUEEQQggA0EDcSIDGyAAakkNASADQQAgASAAQSdqSxsNAiACEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC9wDAQd/IwBBIGsiAyQAIAAoAgwhBAJAAkACQCAAKAIUIgEgACgCECICSQRAA0AgASAEai0AACIFQQlrIgdBF0tBASAHdEGTgIAEcUVyDQIgACABQQFqIgE2AhQgASACRw0ACyACIQELIAMgBCACIAFBAWoiACACIAAgAkkbEPkBIAMoAgQhACADKAIAIQJBFBBxIgFFDQIgASACNgIMIAFBBTYCACABIAA2AhAMAQsgBUHuAEYEQCAAIAFBAWoiBjYCFAJAIAIgBk0NACAAIAFBAmoiBTYCFAJAIAQgBmotAABB9QBHDQAgBSAGIAIgAiAGSRsiBkYNASAAIAFBA2oiBzYCFCAEIAVqLQAAQewARwRAIAchBQwBCyAGIAdGDQEgACABQQRqIgU2AhRBACEBIAQgB2otAABB7ABGDQMLIANBEGogBCACIAUQ+QEgAygCFCEAIAMoAhAhAkEUEHEiAUUNAyABIAI2AgwgAUEJNgIAIAEgADYCEAwCCyADQQhqIAQgAiAGEPkBIAMoAgwhACADKAIIIQJBFBBxIgFFDQIgASACNgIMIAFBBTYCACABIAA2AhAMAQsgACADQR9qQcjAwQAQ7gEgABDrBSEBCyADQSBqJAAgAQ8LAAvGAwINfwF+IAMgBUEBayINIAEoAhQiCGoiB0sEQCAFIAEoAhAiDmshDyABKAIcIQsgASgCCCEKIAEpAwAhFANAAkAgAQJ/AkAgFCACIAdqMQAAiEIBg1AEQCABIAUgCGoiCDYCFCAGDQMMAQsgCiALIAogCiALSRsgBhsiCSAFIAUgCUkbIQwgAiAIaiEQIAkhBwJAAkACQANAIAcgDEYEQEEAIAsgBhshDCAKIQcDQCAHIAxNBEAgASAFIAhqIgI2AhQgBkUEQCABQQA2AhwLIAAgAjYCCCAAIAg2AgQgAEEBNgIADwsgB0EBayIHIAVPDQUgByAIaiIJIANPDQMgBCAHai0AACACIAlqLQAARg0ACyABIAggDmoiCDYCFCAPIAZFDQYaDAcLIAcgCGoiESADTw0CIAcgEGohEiAEIAdqIAdBAWohBy0AACASLQAARg0ACyARIAprQQFqIQggBkUNAwwFCyAJIANB+J7HABCMBwALIAMgCCAJaiIAIAAgA0kbIANBiJ/HABCMBwALIAcgBUHonscAEIwHAAtBAAsiBzYCHCAHIQsLIAggDWoiByADSQ0ACwsgASADNgIUIABBADYCAAvzAwIEfwJ9IwBBEGshAiAAvCIDQR92IQQCQAJ9IAACfwJAAkACQAJAIANB/////wdxIgFB0Ni6lQRPBEAgAUGAgID8B0sEQCAADwsgA0EASCIDRSABQZfkxZUES3ENAiADRQ0BIAJDAACAgCAAlTgCCCACKgIIGiABQbTjv5YETQ0BDAcLIAFBmOTF9QNNBEAgAUGAgIDIA00NA0EAIQEgAAwGCyABQZKrlPwDTQ0DCyAAQzuquD+UIARBAnQqAuSwSZL8AAwDCyAAQwAAAH+UDwsgAiAAQwAAAH+SOAIMIAIqAgwaIABDAACAP5IPCyAERSAEawsiAbIiBUMAcjG/lJIiACAFQ46+vzWUIgaTCyEFIAAgBSAFIAUgBZQiACAAQxVSNbuUQ4+qKj6SlJMiAJRDAAAAQCAAk5UgBpOSQwAAgD+SIQUgAUUNAAJAAkACQCABQf8ATARAIAFBgn9ODQMgBUMAAIAMlCEFIAFBm35NDQEgAUHmAGohAQwDCyAFQwAAAH+UIQUgAUH+AUsNASABQf8AayEBDAILIAVDAACADJQhBUG2fSABIAFBtn1NG0HMAWohAQwBCyAFQwAAAH+UIQVB/QIgASABQf0CTxtB/gFrIQELIAUgAUEXdEGAgID8A2pBgICA/AdxvpQhBQsgBQuiAwEFfyAALwEcIQECf0EAIAAvAR4iAkH//wFxIgNBgPgBSw0AGkEAIAFB//8BcSIEQYD4AUsNABogAsFBAE4EQCABIAJJIAHBQQBODQEaIAIgBHJBAEcMAQsgAcFBAEggASACS3ELIQQgAiABIAQbIAEgA0GB+AFJGyEBAkAgAC8BICIAQf//AXEiAkGA+AFLDQAgAUH//wFxIgNBgPgBSw0AIADBQQBOBEAgAcFBAE4EQCAAIAFB//8DcUshBQwCCyAAIANyQQBHIQUMAQsgAcFBAEggACABQf//A3FJcSEFCwJ/IAAgASAFGyABIAJBgfgBSRsiAUH//wFxRQRAIAFBEHQMAQsgAUH/B3EhACABQYCAAnEhAiABQYD4AXEiAUGA+AFGBEAgAkEQdCIBQYCAgPwHciAARQ0BGiABIABBDXRyQYCAgP4HcgwBCyACQRB0IgIgAUENdEGAgID8AHEgAEENdHJBgICAwANqciABDQAaIAJBgICA2ANyIABnQRBrIgFBF3RrIAAgAUH//wNxQQhqdEH///8DcXILvhCJBAugAwIGfwZ+QQQhAyAAIAAoAjhBBGo2AjhBBCECAn4CQCAAKAI8IgRFDQBBCCAEayIFQQQgBUEESSIHGyEGAn4gBwRAQQAhAkIADAELIAE1AAALIQggBiACQQFySwRAIAEgAmozAAAgAkEDdK2GIAiEIQggAkECciECCyAAIAApAzAgAiAGSQR+IAEgAmoxAAAgAkEDdK2GIAiEBSAICyAEQQN0QThxrYaEIgg3AzAgBUEFTwRAIAAgBEEEajYCPA8LIAAgACkDGCAIhSIJIAApAwh8IgsgACkDECIKQg2JIAogACkDAHwiCoUiDHwiDSAMQhGJhTcDECAAIA1CIIk3AwggACALIAlCEImFIglCFYkgCSAKQiCJfCIJhTcDGCAAIAggCYU3AwAgBEEEayECIARBCEYNAEEAIQNCAAwBC0EAIQUgATUAAAshCCACIANBAXJLBEAgASAFaiADajMAACADQQN0rYYgCIQhCCADQQJyIQMLIAAgAiADSwR+IAEgAyAFamoxAAAgA0EDdK2GIAiEBSAICzcDMCAAIAI2AjwL3wMCBX8BfiMAQTBrIgQkAAJAAkACQAJAAkACQAJAIAEgAigCLBETACIIQv////8PVg0AIAinIgNBAEgNACADQQF2IQcCQCADQf7///8HcSIGRQRAQQIhAwwBCyAGEHEiA0UNAiADQQRrLQAAQQNxRSAGRXJFBEAgA0EAIAb8CwALIAchBQsgBEEIaiABIAMgBiACKAI0EQYAIAQoAghBBkcEQCAAIAT9AAMI/QsDACAAQSBqIARBKGopAwA3AwAgAEEQaiAEQRhq/QADAP0LAwAgBUUNByADQQRrKAIAIgBBeHEiASAFQQF0IgJBBEEIIABBA3EiABtqSQ0DIABBACABIAJBJ2pLGw0EIAMQogIMBwsgACAHNgIMIAAgAzYCCCAAIAU2AgQgAEEGNgIADAYLIABCAzcDCCAAQQM2AgAgAigCACIABEAgASAAEQMACyACKAIEIgBFDQUgAUEEaygCACICQXhxIgVBBEEIIAJBA3EiAhsgAGpJDQMgAkEAIAUgAEEnaksbDQQgARCiAgwFCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgBEEwaiQAC98DAgV/AX4jAEEwayIEJAACQAJAAkACQAJAAkACQCABIAIoAiwREwAiCEL/////D1YNACAIpyIDQQBIDQAgA0ECdiEHAkAgA0H8////B3EiBkUEQEEEIQMMAQsgBhBxIgNFDQIgA0EEay0AAEEDcUUgBkVyRQRAIANBACAG/AsACyAHIQULIARBCGogASADIAYgAigCNBEGACAEKAIIQQZHBEAgACAE/QADCP0LAwAgAEEgaiAEQShqKQMANwMAIABBEGogBEEYav0AAwD9CwMAIAVFDQcgA0EEaygCACIAQXhxIgEgBUECdCICQQRBCCAAQQNxIgAbakkNAyAAQQAgASACQSdqSxsNBCADEKICDAcLIAAgBzYCDCAAIAM2AgggACAFNgIEIABBBjYCAAwGCyAAQgM3AwggAEEDNgIAIAIoAgAiAARAIAEgABEDAAsgAigCBCIARQ0FIAFBBGsoAgAiAkF4cSIFQQRBCCACQQNxIgIbIABqSQ0DIAJBACAFIABBJ2pLGw0EIAEQogIMBQsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIARBMGokAAveAwEKfyMAQSBrIgMkACADQQA2AhAgA0KAgICAwAA3AgggA0EANgIcIANCgICAgMAANwIUIAEoAgghByABKAIAIQgCQAJAAkAgASgCBCIGIAEoAgwiCkcEQCACKAIIIQsgAigCBCEJIAIoAgAhDEEEIQIDQCAGQQRqKAIAIgEgCUEIaigCACIFTw0CAkAgCUEEaigCACABQSRsaiAMLQAAQQJ0QQxxaioCCCALKgIAXUUEQCADKAIUIARGBEAgA0EUakHEk8EAEIsGIAMoAhghAgsgAiAEQQJ0aiABNgIAIAMgBEEBaiIENgIcDAELIAMoAhAiBSADKAIIRgRAIANBCGpB1JPBABCLBgsgAygCDCAFQQJ0aiABNgIAIAMgBUEBajYCEAsgBkEIaiIGIApHDQALCyAHBEAgCEEEaygCACIBQXhxIgIgB0EDdCIEQQRBCCABQQNxIgEbakkNAiABQQAgAiAEQSdqSxsNAyAIEKICCyAAIAMpAgg3AgAgACADKQIUNwIMIABBCGogA0EQaigCADYCACAAQRRqIANBHGooAgA2AgAgA0EgaiQADwsgASAFQdTAxwAQjAcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAv7AwIGfwF7IwBBMGsiBCQAIARBGGr9DAAAAAAAAAAAAAAAAAAAAAD9CwMAIAQgCf0LAwgCQAJAAkACQAJAAkADQAJAIARBKGogASAEQQhqQSAQ5AICQAJAIAQtACgiA0EERwRAAkAgA0EBaw4DAgADCgsgBCgCLC0ACEEjRg0EDAkLIAQoAiwiA0EhTw0CIAIoAgAgAigCCCIBayADSQRAIAIgASADQQFBARCkBSACKAIIIQELIAMEQCACKAIEIAFqIARBCGogA/wKAAALIAAgAzYCBCACIAEgA2o2AgggAEEEOgAADAkLIAQtAClBI0YNAgwHCyAEKAIsIgMtAAhBI0cNBiADKAIAIQUgA0EEaigCACIGKAIAIgcEQCAFIAcRAwALIAYoAgQiBgRAIAVBBGsoAgAiB0F4cSIIQQRBCCAHQQNxIgcbIAZqSQ0DIAdBACAIIAZBJ2pLGw0EIAUQogILIANBBGsoAgAiBUF4cSIGQRBBFCAFQQNxIgUbSQ0EIAVBACAGQTRPGw0FIAMQogIMAQsLQQAgA0EgQfybxwAQ6gcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAAgBCkDKDcCAAsgBEEwaiQAC8kDAQt/IwBBEGsiByQAAkACQAJAAkAgAyAEbCIGQf////8DSw0AIAZBAnQiCUH9////B08NAAJAIAlFBEBBBCEKQQAhBgwBCyAJEHEiCkUNAgsgB0EANgIMIAcgCjYCCCAHIAY2AgQgAxBxIgtFDQEgC0EEayIPKAIAIghBA3EiBkUgA0VyRQRAIAtBACAD/AsACwJAIAQEQEEAIQYDQCAMQQJ0IQ0gBkEBaiADIQ4gCyEIA0AgAiAGTQ0DIAggASAGai0AACAILQAAaiIQOgAAIAcoAgQgDEYEQCAHQQRqQdzpxwAQ+gUgBygCCCEKCyAKIA1qIAUgEMCyQwAA/kKVlDgCACAHIAxBAWoiDDYCDCAIQQFqIQggDUEEaiENIAQgBmohBiAOQQFrIg4NAAsiBiAERw0ACyAPKAIAIghBA3EhBgsgACAHKQIENwIAIABBCGogB0EMaigCADYCACAIQXhxIgBBBEEIIAYbIANqSQ0DIAZBACAAIANBJ2pLGw0EIAsQogIgB0EQaiQADwsgBiACQczpxwAQjAcAC0G86ccAEP8HCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC94DAQN/IwBBIGsiBSQAIAEoAhBFBEAgAUF/NgIQIAVBCiACIAMQqQMCQAJAIAUoAgBBAXEEQCADIAUoAgRBAWoiBE8NASAFQQA2AhggBUEBNgIMIAVBiILIADYCCCAFQgQ3AhAgBUEIakHMjcgAEI0IAAsCQCABKAIcIgRFBEBBACEEDAELIAEoAhggBGpBAWstAABBCkcNAEEAIQQgAUEANgIcIAFBADoAIAsgASgCFCAEayADTQRAIAAgAUEUaiACIAMQ/QYMAgsgAwRAIAEoAhggBGogAiAD/AoAAAsgAEEEOgAAIAEgAyAEajYCHAwBCwJAIAEoAhwiBkUNAAJAAkAgASgCFCAGayAETQRAIAVBCGogAUEUaiACIAQQ/QYgBS0ACEEERg0BIAAgBSkDCDcCAAwECyAEBEAgASgCGCAGaiACIAT8CgAACyABIAQgBmoiBjYCHAwBCyABKAIcIQYLIAZFDQAgAUEANgIcIAFBADoAIAsgAiAEaiEGIAMgBGsiAiABKAIUTwRAIAAgAUEUaiAGIAIQ/QYMAQsgAgRAIAEoAhggBiAC/AoAAAsgAEEEOgAAIAEgAjYCHAsgASABKAIQQQFqNgIQIAVBIGokAA8LQaiHyAAQsAoAC5cDAQV/AkACQAJAAkACQCABRQRAIABFDQEgAEEIayIBKAIAQQFHDQIgACgCECEGIAAoAgwhBSAAKAIIIQQgACgCBCECIAFBADYCAAJAIAFBf0YNACAAQQRrIgMgAygCAEEBayIDNgIAIAMNACAAQQxrKAIAIgBBeHEiA0EgQSQgAEEDcSIAG0kNBSAAQQAgA0HEAE8bDQYgARCiAgsgBCgCACIABEAgAiAAEQMACyAEKAIEIgAEQCACQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyAAakkNBSABQQAgBCAAQSdqSxsNBiACEKICCyAGKAIAIgAEQCAFIAARAwALIAYoAgQiAEUNAyAFQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyAAakkNBCABQQAgAiAAQSdqSxsNBSAFEKICDAMLIABFDQAgAEEIayIAIAAoAgBBAWsiATYCACABDQIgABDXBA8LEI4KAAtBjNrAAEE/EI8KAAsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvnBAIHfwJ9Qay2yQAoAgAiAkGktskAKAIARgRAIwBBIGsiASQAAkBBpLbJACgCACIEQdWq1SpNBH9BBCAEQQF0IgMgA0EETRsiA0EMbCEGIAEgBAR/IAEgBEEMbDYCHCABQai2yQAoAgA2AhRBBAVBAAs2AhggAUEIakEEIAYgAUEUahCFByABKAIIQQFHDQEgASgCECEDIAEoAgwFQQALIANByJXBABCTCQALQai2yQAgASgCDDYCAEGktskAIAM2AgAgAUEgaiQAC0GotskAKAIAIgEgAkEMbGoiAyAAKQIANwIAIANBCGoiBCAAQQhqKAIANgIAQay2yQAgAkEBajYCACAEKAIAIQYgAygCBCEEIAMqAgAhCAJAIAJFDQAgCCAIWwRAIAIhBQNAAkAgASAFIgBBAWsiA0EBdiIFQQxsaiICKgIAIgkgCVsgCCAJX0VxQX8gCCAJYBsiBwRAIAdBAEoNASAAIQUMBAsgAigCBCIHIARHBEAgBCAHSw0BIAAhBQwECyAGIAIoAghLDQAgACEFDAMLIAEgAEEMbGoiACACKQIANwIAIABBCGogAkEIaigCADYCACADQQFLDQALDAELIAIhBQNAAkAgASAFIgBBAWsiA0EBdiIFQQxsaiICKgIAIgkgCVsgCCAJX0VxDQAgAigCBCIHIARHBEAgBCAHSw0BIAAhBQwDCyAGIAIoAghLDQAgACEFDAILIAEgAEEMbGoiACACKQIANwIAIABBCGogAkEIaigCADYCACADQQJPDQALCyABIAVBDGxqIgAgBjYCCCAAIAQ2AgQgACAIOAIAC5UDAQV/AkAgAy0AAyIGIAMtAAQiCGsiBSAFQR91IgVzIAVrQQF0IAMtAAIiBSADLQAFIgdrIgQgBEEfdSIEcyAEa0EBdmogAkH/AXFLDQAgAy0AACADLQABIgJrIgQgBEEfdSIEcyAEayABQf8BcSIESw0AIAIgBWsiAiACQR91IgJzIAJrQf8BcSAESw0AIAQgBSAGayICIAJBH3UiAnMgAmsiAkH/AXFJDQAgBCIFIAMtAAcgAy0ABiIGayIEIARBH3UiBHMgBGtJDQAgBSAGIAdrIgYgBkEfdSIGcyAGa0H/AXFJDQAgByAIayIBIAFBH3UiAXMgAWsiAUH/AXEgBUsNACAAQf8BcSACQf8BcUkEQEEBIAMQ4gUaDwsgAEH/AXEiACABQf8BcSIBSSADEOIFIQIgACABSQ0AIANB/wEgAy0ABSACQQFqQQF1IgBrIgFBACABQQBKGyIBIAFB/wFOGzoABSADQf8AQYB/IAAgAy0AAmpBgAFrIgAgAEGAf0wbIgAgAEH/AE4bQYABczoAAgsLxwMCAn8EfiMAQdAAayIEJAAgBP0MAAAAAAAAAAAAAAAAAAAAAP0LAzggBCABNwMwIAQgAULzytHLp4zZsvQAhTcDICAEIAFC7d6R85bM3LfkAIU3AxggBCAANwMoIAQgAELh5JXz1uzZvOwAhTcDECAEIABC9crNg9es27fzAIU3AwggBEEIaiIFIAIgAxCCAyAEQf8BOgBPIAUgBEHPAGpBARCCAyAEKQMIIQEgBCkDGCEAIARBQGs1AgAhCCAEKQM4IQYgBCkDICAEKQMQIQkgBEHQAGokACAGIAhCOIaEIgiFIgZCEIkgBiAJfCIGhSIHQhWJIAcgACABfCIBQiCJfCIHhSIJQhCJIAkgBiAAQg2JIAGFIgB8IgFCIIlC/wGFfCIGhSIJQhWJIAkgASAAQhGJhSIAIAcgCIV8IgFCIIl8IgiFIgdCEIkgByABIABCDYmFIgAgBnwiAUIgiXwiBoUiB0IViSAHIAEgAEIRiYUiACAIfCIBQiCJfCIIhSIHQhCJIAcgAEINiSABhSIAIAZ8IgFCIIl8IgaFQhWJIABCEYkgAYUiAEINiSAAIAh8hSIAQhGJhSAAIAZ8IgBCIImFIACFC9wDAgN9BH8gACABIAIQzAMCQAJAAkAgAgRAIAAqAoQBIAAqAoABIgaTIQcgACgCYCEBIAAoAmQhC0EBIQgDQCAKQQNqIAtPDQIgCEEBayIJIARPBEAgCSEIDAULIAQgCWsiCUEAIAQgCU8bIglBAUYNBCAJQQJGDQNDAAB/Q0MAAAAAIAMqAgAgBpMgB5VDAAB/Q5QiBSAFQwAAAABdGyIFIAVDAAB/Q14bELkHIQUgASABLQADQRh0Qf8BIAX8AUEAIAVDAAAAAGAbIAVDAAB/Q14bckH/AUMAAH9DQwAAAAAgA0EEaioCACAGkyAHlUMAAH9DlCIFIAVDAAAAAF0bIgUgBUMAAH9DXhsQuQciBfwBQQAgBUMAAAAAYBsgBUMAAH9DXhtBCHRyQf8BQwAAf0NDAAAAACADQQhqKgIAIAaTIAeVQwAAf0OUIgUgBUMAAAAAXRsiBSAFQwAAf0NeGxC5ByIF/AFBACAFQwAAAABgGyAFQwAAf0NeG0EQdHI2AgAgAUEQaiEBIApBBGohCiAIQQNqIQggA0EMaiEDIAJBAWsiAg0ACwsgAEEBOgC4AQ8LIAogCkEEaiALQaTgwAAQ6gcACyAIQQFqIQgLIAggBEG04MAAEIwHAAvVAwEKfyMAQSBrIgMkACADQQA2AhAgA0KAgICAwAA3AgggA0EANgIcIANCgICAgMAANwIUIAEoAgghByABKAIAIQgCQAJAAkAgASgCBCIGIAEoAgwiCkcEQCACKAIIIQsgAigCBCEJIAIoAgAhDEEEIQIDQCAGQQRqKAIAIgEgCSgCCCIFTw0CAkAgCSgCBCABQRhsaiAMLQAAQQJ0aioCACALKgIAXUUEQCADKAIUIARGBEAgA0EUakHEk8EAEIsGIAMoAhghAgsgAiAEQQJ0aiABNgIAIAMgBEEBaiIENgIcDAELIAMoAhAiBSADKAIIRgRAIANBCGpB1JPBABCLBgsgAygCDCAFQQJ0aiABNgIAIAMgBUEBajYCEAsgBkEIaiIGIApHDQALCyAHBEAgCEEEaygCACIBQXhxIgIgB0EDdCIEQQRBCCABQQNxIgEbakkNAiABQQAgAiAEQSdqSxsNAyAIEKICCyAAIAMpAgg3AgAgACADKQIUNwIMIABBCGogA0EQaigCADYCACAAQRRqIANBHGooAgA2AgAgA0EgaiQADwsgASAFQdy7xwAQjAcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAv5AwEEfyABQRh2IQIgAUEQdiEDQQghBSABQQh2IQQCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCABQf8BcUHBAGsOGAIPDw8EDw8PAw8PDw8PDw8PBg8PDwEABQ8LIAJB0ABHIARB/wFxQcUAR3IgA0H/AXFBwgBHcg0OIABBAToAAA8LIARB/wFxQdAARyADQf8BcUE4R3INDSACQcwAaw4NBw0NDQ0NDQ0NDQ0NCAYLIARB/wFxQcwAaw4DCQwIDAsgAkHQAEcgBEH/AXFBwwBHcg0LIANB/wFxQcMARg0DDAsLIAJBxgBHIARB/wFxQdgAR3IgA0H/AXFByQBHcg0KIABBCToAAA8LIAJBIEcgBEH/AXFBzQBHciADQf8BcUHQAEdyDQkgAEEKOgAADwsgBEH/AXFByQBHIAJBxgBHciADQf8BcUHGAEdyDQhBACEFCyAAIAU6AAAPCyACQSBHDQYgAEECOgAADwsgAEEDOgAADwsgAEEEOgAADwsgA0H/AXFByQBrDgUBAwMDAgMLIAJByABHIANB/wFxQdAAR3INAiAAQQc6AAAPCyACQc0ARw0BIABBBToAAA8LIAJBxgBHDQAgAEEGOgAADwsgACACOgAEIAAgAzoAAyAAIAQ6AAIgACABOgABIABBCzoAAAuYBQEDfyMAQeApayICJAAgAkEPakEAQdAp/AsAQcAAQYDyAhDBBCIDBEAgA0E/akFAcSIBQgA3AjAgAUHAgAI2AgwgAUEAOgAEIAFBgAg2AgAgAUIANwMQIAH9DAAAAAAAAAAAAAAAAAAAAAD9CwMYIAFBADYCKCABQQE2AkggAUEAOgBAIAFCgYCAgBA3AjggAf0MAAAAAAAAAAAAAAAAAAAAAP0LAkwgAUEAOgCgASABQQA2ApwBIAFBIDYCbCAB/QwAAAAAAAAAAAAAAAAAAAAA/QsEcCABIAFBgPEAajYCCCABQdwAav0MAAAAAAAAAAAAAAAAAAAAAP0LAgAgAUGAAWpCADcDACABQZEBakIANwAAIAFCADcCjAEgAUGhAWogAkEMakHTKfwKAAAgAUH0KmpBAEHYxQD8CwAgAUGA8gI2AshwIAEgAzYCxHAgAUHUAGpBADYCACABQQA2AhQgAUL/////HzcDeCABQYCIPDYCACABQQA6AKABIAFBADYCnAEgAUKAgAI3A5ABIAFBADoAQCABQQE2AjggAUIANwMwIAFB5ABqQX82AgAgAEHUAGpBADYCACAAQgA3AkwgAEE4akEANgIAIABBMGpCADcDACAAQSBq/QwAAAAAAAAAAAAAAAAAAAAA/QsDACAAQRBq/QwAAAAAAAAAAAAAAAAAAAAA/QsDACAA/QwAAAAAAAAAAAAAAAAAAAAA/QsDACAAQQA2AkggAEEdNgJEIABBHjYCQCAAIAE2AjwgAkHgKWokAA8LIAJBfDYCCCACQQA2AgwjAEEQayIAJAAgAEHw5cgANgIMIAAgAkEIajYCCEEAIABBCGpB7JzIACAAQQxqQeycyAAgAkEMakGY58gAEPIEAAuvAwEIfwJAAkACQCAAKAIIIgQgACgCFCICTQRAIAAgBDYCFCACIARGDQEgAiAEayEFIAAoAhAgBEEYbGohAQNAIAFBFGooAgAiAEEFTwRAIAFBCGooAgAiA0EEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNBCACQQAgByAAQSdqSxsNBSADEKICCyABQRhqIQEgBUEBayIFDQALDAELIAIhAyAEIAJrIgYgACgCDCACa0sEQCAAQQxqIAIgBkEEQRgQpAUgACgCFCEDCyAAKAIQIQggBkEDcSIFBEAgAyAFaiAEIAJrIAVrIQYgCCADQRhsaiEBA0AgAUEANgIAIAFBFGpBADYCACABQRhqIQEgBUEBayIFDQALIQMLIAIgBGtBfE0EQCAIIANBGGxqIQEDQCABQQA2AgAgAUHcAGpBADYCACABQcQAakIANwIAIAFBLGpCADcCACABQRRqQgA3AgAgAUHgAGohASADQQRqIQMgBkEEayIGDQALCyAAIAM2AhQLDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALkwQCBn8BfiMAQTBrIgIkACACQQhqrUKAgICAoAyEIQggASgCBCEEIAEoAgAhBUEAIQEDQCACAn8CQAJAAkACQAJAAkACQAJAAkACQCAAIAFqLQAAIgMOKAAHBwcHBwcHBwEDBwcCBwcHBwcHBwcHBwcHBwcHBwcHBwcEBwcHBwUGCyACQgA3AQogAkHc4AA7AQgMCAsgAkIANwEKIAJB3OgBOwEIDAcLIAJCADcBCiACQdzkATsBCAwGCyACQgA3AQogAkHc3AE7AQgMBQsgAkIANwEKIAJB3MQAOwEIDAQLIAJCADcBCiACQdzOADsBCAwDCyADQdwARg0BCyADEOECRQRAIAJBIGoiBiADQQ9xLQDctkU6AAAgAkGw4MCBAzYAGyACIANBBHYtANy2RToAHyADQQFyZ0ECdiIDIAJBGGoiB2pB+wA6AAAgByADQQJrIgNqQdzqATsAACACQRpqQQA6AAAgAkH9ADoAISACQRBqIAYvAQA7AQAgAkEAOwEYIAIgAikBGDcDCEEKDAMLIAIgAzYCCEGAASEDQYEBDAILIAJCADcBCiACQdy4ATsBCAtBACEDQQILOgAVIAIgAzoAFCACIAg3AwAgAkIBNwIkIAJBATYCHCACQaD4xwA2AhggAiACNgIgIAUgBCACQRhqEMEDIgNFBEAgAUEBaiIBQQRHDQELCyACQTBqJAAgAwu0AwICfgt/IwBBIGsiBCQAIAFBCGohDQJAAkADQCANKAIAQQJHDQECfyABKAKcAyIFIAEpA6ADIgMgBa0iAiACIANWG6ciBkYEQEEBIQhBJSEJQQAhCkEAIQtBACEMQQAhBSAHQYB+cUEkcgwBCyAEQQxqIAEgASgCmAMgBmogBSAGa0EAENYBIAQpAhQiAkIoiKchCiACQiCIpyELIAJCGIinIQwgAkIQiKchBSACQgiIpyEJIAQoAhwhDiAEKAIQIQYgAqchCCAGIAQoAgwNABogASABKQOgAyAGrXw3A6ADIAdBgH5xQShyCyIHQf8BcUEoRwRAIAAgCjsACSAAIA42AgwgACALOgAIIAAgDDoAByAAIAU6AAYgACAJOgAFIAAgCDoABCAAIAc6AAAgAEELaiAKQRB2OgAAIABBA2ogB0EYdjoAACAAIAdBCHY7AAEMAwsgCEH/AXFBAkcgCUH/AXFByQBHciAFQf8BcUHFAEcgDEH/AXFBzgBHcnIgC0H/AXFBxABHcg0AC0Gk+MYAQShBnJjHABDrBwALIABBKDoAACAAIA02AgQLIARBIGokAAvuAwEJfQJ9IAAqAgwiA0MAAAAAXUUEQCAAKgIEIQUgACoCACEGIAAqAggMAQsgA4whAyAAKgIEjCEFIAAqAgCMIQYgACoCCIwLIQhDAACAPyEEQwAAgD8gAyADQwAAgD9eGxD2BCICIAKSIglDAAAAP5QQmQIiAotDvTeGNV1FBEAgBSAClSEHIAYgApUhBCAIIAKVIQELIAcgB4sgBIuSIAGLkiIDlSECIAQgA5UhAwJAIAFDAAAAAF1FBEAgAiEBDAELQwAAgD8gA4uTIgEgAYwgAkMAAAAAYBshAUMAAIA/IAKLkyICIAKMIANDAAAAAGAbIQMLQf8BQwAAf0NDAAAAACAJQ9sPSUCVQwAAf0OUIgIgAkMAAAAAXRsiAiACQwAAf0NeGxC5ByIC/AFBACACQwAAAABgGyACQwAAf0NeG0EQdEH/AUMAAH9DQwAAAAAgAUMAAIA/kkMAAAA/lEMAAH9DlCIBIAFDAAAAAF0bIgEgAUMAAH9DXhsQuQciAfwBQQAgAUMAAAAAYBsgAUMAAH9DXhtBCHRyQf8BQwAAf0NDAAAAACADQwAAgD+SQwAAAD+UQwAAf0OUIgEgAUMAAAAAXRsiASABQwAAf0NeGxC5ByIB/AFBACABQwAAAABgGyABQwAAf0NeG3IL4wMBBH8jAEFAaiICJAACQAJAAkACQAJAAkACQAJAIAAtAABBAWsOAwECAwALIAIgACgCBDYCBEEUEHEiAEUNBCAAQRBqQdyCyAAoAAA2AAAgAEHMgsgA/QAAAP0LAAAgAkEUNgIQIAIgADYCDCACQRQ2AgggAiACQQRqrUKAgICA8AGENwMgIAIgAkEIaq1CgICAgJAIhDcDGCABKAIAIAEoAgQgAkICNwI0IAJBAzYCLCACQZCHyAA2AiggAiACQRhqNgIwIAJBKGoQwQMhACACKAIIIgFFDQMgAigCDCIEQQRrKAIAIgNBeHEiBUEEQQggA0EDcSIDGyABakkNBSADQQAgBSABQSdqSxsNBiAEEKICDAMLIAIgAC0AAUECdCIAKAKspEk2AhwgAiAAKALUpUk2AhggAiACQRhqrUKAgICAoAGENwMIIAEoAgAgASgCBCACQgE3AjQgAkEBNgIsIAJBoPjHADYCKCACIAJBCGo2AjAgAkEoahDBAyEADAILIAEgACgCBCIAKAIAIAAoAgQQlwMhAAwBCyAAKAIEIgAoAgAgASAAKAIEKAIQEQIAIQALIAJBQGskACAADwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuxAwIHfwF+IwBBIGsiAyQAAkAgAAJ/AkAgASgCFCICIAEoAhAiBUkEQCABKAIMIQcCfgJAA0AgAiAHai0AACIGQQlrIghBF0tBASAIdEGTgIAEcUVyDQEgASACQQFqIgI2AhQgAiAFRw0ACyAFIQJCAAwBC0KAAgsgBq1CEIaEQoCCuANRDQELIANBGGogARCVAyADKAIYIAAgAygCHDYCBEEBagwBCyABIAJBAWoiBDYCFAJAAkAgBCAFTw0AIAEgAkECaiIGNgIUAkAgBCAHai0AAEH1AEcNACAGIAQgBSAEIAVLGyIERg0BIAEgAkEDaiIINgIUIAYgB2otAABB7ABHBEAgCCEGDAELIAQgCEYNASABIAJBBGoiBjYCFEEAIAcgCGotAABB7ABGDQMaCyADQRBqIAcgBSAGEPkBIAMoAhQhBCADKAIQIQFBFBBxIgJFDQMgAkEJNgIADAELIANBCGogByAFIAQQ+QEgAygCDCEEIAMoAgghAUEUEHEiAkUNAiACQQU2AgALIAIgATYCDCAAIAI2AgQgAiAENgIQQQILNgIAIANBIGokAA8LAAv3AwEGfyMAQRBrIgIkAAJAAkACQAJAAkAgASgCAEGUgICAeEYEQCABKAIMIgNFDQEgAiABKAIIIgQQqAMgAigCACIBQYCAgIB4RgRAIAIoAgQhAwwFCyACKAIEIQUCQCADQQFHBEAgAigCCCEHIAIgBEEQahCoAyACKAIAIgRBgICAgHhHDQEgAigCBCEDIAFFDQYgBUEEaygCACIEQXhxIgZBBEEIIARBA3EiBBsgAWpJDQQgBEEAIAYgAUEnaksbDQUgBRCiAgwGC0EBIAJBD2pBlOLAABDbBiEDIAFFDQUgBSABQQEQogcMBQsgAigCBCEGIANBAkcEQCACQQI2AgAgA0H+////AGpB/////wBxQQJqIAJB6JXBABDbBiEDIABBgICAgHg2AgAgACADNgIEIAEEQCAFIAFBARCiBwsgBEUNBiAGIARBARCiBwwGCyAAIAIoAgg2AhQgACAGNgIQIAAgBDYCDCAAIAc2AgggACAFNgIEIAAgATYCAAwFCyABIAJBD2pBlOLAABCVCCEBIABBgICAgHg2AgAgACABNgIEDAQLQQAgAkEPakGU4sAAENsGIQMMAgtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAAgAzYCBCAAQYCAgIB4NgIACyACQRBqJAALxQMCBH8BfiMAQTBrIgUkAAJAAkACQAJAAkACQAJAIAEgAigCLBETACIHQv////8PVg0AIAenIgNBAEgNAAJAIAdQIgYEQEEBIQQMAQsgAxBxIgRFDQIgBEEEay0AAEEDcUUgA0VyDQAgBEEAIAP8CwALIAVBCGogASAEIAMgAigCNBEGACAFKAIIQQZHBEAgACAF/QADCP0LAwAgAEEgaiAFQShqKQMANwMAIABBEGogBUEYav0AAwD9CwMAIAYNByAEQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyADakkNAyAAQQAgASADQSdqSxsNBCAEEKICDAcLIAAgAzYCDCAAIAQ2AgggACADNgIEIABBBjYCAAwGCyAAQgM3AwggAEEDNgIAIAIoAgAiAARAIAEgABEDAAsgAigCBCIARQ0FIAFBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIABqSQ0DIAJBACADIABBJ2pLGw0EIAEQogIMBQsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAVBMGokAAvfAwIFfwF+IwBBIGsiAiQAIAAoAgghBCAAKAIEIQVBASEDIAEoAgBB6LLFAEEBIAEoAgQoAgwRAAAhAAJAIARFBEAgACEDDAELAkAgAA0AIAEtAApBgAFxBEAgASgCACIAQdz4xwBBASABKAIEIgYoAgwRAAANASACQQE6AA8gAiAGNgIEIAIgADYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgBSACQRBqELoFDQEgAigCEEHZgcIAQQIgAigCFCgCDBEAACEDDAELIAUgARC6BSEDCyAEQQFGDQAgBUEEaiEAIARBAnRBBGshBANAAn9BASADQQFxDQAaAkAgAS0ACkGAAXEEQCABKQIAIQcgAkEBOgAPIAIgBzcCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgACACQRBqELoFRQ0BQQEMAgtBASABKAIAQeeQxgBBAiABKAIEKAIMEQAADQEaIAAgARC6BQwBCyACKAIQQdmBwgBBAiACKAIUKAIMEQAACyEDIABBBGohACAEQQRrIgQNAAsLQQEhACADRQRAIAEoAgBB6bLFAEEBIAEoAgQoAgwRAAAhAAsgAkEgaiQAIAALzAMCBX8DfiMAQTBrIgQkACAEIAM2AgwgBCACNgIIAkACQAJAAkAgASgCDEUNACABKQMQIAEpAxggAiADEJUEIQkgASgCBCIHIAmncSEFIAlCGYhC/wCDQoGChIiQoMCAAX4hCyABKAIAIQEDQAJAIAEgBWopAAAiCiALhSIJQn+FIAlCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiCVBFBEADQCABIAl6p0EDdiAFaiAHcUFobGoiBkEQaygCACADRgRAIAIgBkEUaygCACADENsHRQ0DCyAJQgF9IAmDIglQRQ0ACwsgCiAKQgGGg0KAgYKEiJCgwIB/g1BFDQIgBSAIQQhqIghqIAdxIQUMAQsLIAZBBGsoAgAiAUEASA0CIAZBCGsoAgAhAgJAIAFFBEBBASEDDAELIAEQcSIDRQ0ECyABBEAgAyACIAH8CgAACyAAIAE2AgggACADNgIEIAAgATYCAAwBCyAEQQI2AhQgBEHo1sEANgIQIARCATcCHCAEIARBCGqtQoCAgIAghDcDKCAEIARBKGo2AhggBEEQahCSByEBIABBgICAgHg2AgAgACABNgIECyAEQTBqJAAPC0HYmsgAEP8HCwAL1QMCBH0FfwJAAkAgAgRAIAAoAggiCyABayIJQQAgCSALTRshDUMAAIA/IAAqAkAgAC0AWEECRiIJG0MAAAAAIAAqAjwgCRsiB5MhCCAAKAIEIAFBGGxqQQ5qIQpBACEJQQAhAANAIAAgDUYNAyAJQQNqIgwgBEsgAEHUqtWqBUtyDQJDAAB/Q0MAAAAAIANBBGoqAgAgB5MgCJVDAAB/Q5QiBSAFQwAAAABdGyIFIAVDAAB/Q14bELkHIQUgCkH/AUMAAH9DQwAAAAAgA0EIaioCACAHkyAIlUMAAH9DlCIGIAZDAAAAAF0bIgYgBkMAAH9DXhsQuQciBvwBQQAgBkMAAAAAYBsgBkMAAH9DXhtBEHRB/wEgBfwBQQAgBUMAAAAAYBsgBUMAAH9DXhtBCHRyQf8BQwAAf0NDAAAAACADKgIAIAeTIAiVQwAAf0OUIgUgBUMAAAAAXRsiBSAFQwAAf0NeGxC5ByIF/AFBACAFQwAAAABgGyAFQwAAf0NeG3IiCTsBACAKQQJqIAlBEHY6AAAgA0EMaiEDIApBGGohCiAMIQkgAiAAQQFqIgBHDQALCw8LIAkgDCAEQeTDxwAQ6gcACyAAIAFqIAtB7LvHABCMBwALuQMBB38gACABKAIAIgQ2AqQBIAAgASgCBCIFNgKoASAAQQEgBEEWdiAEQf///wFxQQBHaiICIAJBAU0bQYAQIARBC3YgBEH/D3FBAEdqIgIgAkGAEE8bQQEgBBtsIgJBC3QiBjYCoAEgAkENdCIHELYJIQIgACgCrAEiCEGECE8EQCAIEJsHCyAAIAI2AqwBIAUEQCAGQQF0ELYJIQJBASEDCwJAIAAoAgBFDQAgACgCBCIGQYQISQ0AIAYQmwcLIAAgAjYCBCAAIAM2AgAgBUECSQR/QQAFIAcQtgkhAkEBCyEDAkAgACgCCEUNACAAKAIMIgZBhAhJDQAgBhCbBwsgACACNgIMIAAgAzYCCCAFQQNJBH9BAAUgBxC2CSEDQQELIQICQCAAKAIQRQ0AIAAoAhQiBUGECEkNACAFEJsHCyAAIAM2AhQgACACNgIQQQEhAgJAIAEtAAgiAUEBRwRAQQAhAgwBCyAEQQJ0ELYJIQQLAkAgACgCMEUNACAAKAI0IgNBhAhJDQAgAxCbBwsgAEIANwKwASAAIAE6AJwBIAAgBDYCNCAAIAI2AjAgAEG4AWpBADoAAAvjAwIEfwF+IwBBIGsiAiQAIAAoAgghBCAAKAIEIQUgASgCAEHossUAQQEgASgCBCgCDBEAACEDAkAgBEUEQCADIQAMAQsCf0EBIAMNABogAS0ACkGAAXEEQEEBIAEoAgAiA0Hc+McAQQEgASgCBCIAKAIMEQAADQEaIAJBAToADyACIAA2AgQgAiADNgIAIAJB4IHCADYCFCACIAEpAgg3AhggAiACQQ9qNgIIIAIgAjYCEEEBIAUgAkEQahDKBA0BGiACKAIQQdmBwgBBAiACKAIUKAIMEQAADAELIAUgARDKBAshACAEQQFGDQAgBUEBaiEDIARBAWshBANAIABBAXEhBQJ/QQEgBQ0AGgJAIAEtAApBgAFxBEAgASkCACEGIAJBAToADyACIAY3AgAgAkHggcIANgIUIAIgASkCCDcCGCACIAJBD2o2AgggAiACNgIQIAMgAkEQahDKBEUNAUEBDAILQQEgASgCAEHnkMYAQQIgASgCBCgCDBEAAA0BGiADIAEQygQMAQsgAigCEEHZgcIAQQIgAigCFCgCDBEAAAshACADQQFqIQMgBEEBayIEDQALC0EBIQMgAEUEQCABKAIAQemyxQBBASABKAIEKAIMEQAAIQMLIAJBIGokACADC4sDAQR/IwBBEGsiAyQAAn8CQCABKAIIIgJBgICAEHFFBEAgAkGAgIAgcQ0BQQMhAiAALAAAIgQgBMBBB3UiAHMgAGsiAEH/AXEiBUEKTwRAQQEhAiADIABBAXQiACAAQThqIAVB5ABJG0H+AXEvALi6RTsADCAFQeMASyEAC0EAIAQgAEH/AXEiABtFBEAgAkEBayICIANBC2pqIABBAXQtALm6RToAAAsgASAEQQBOQQFBACADQQtqIAJqQQMgAmsQyAMMAgsgAC0AACECQQMhAANAIAAgA2pBB2ogAkEPcUHctsUAai0AADoAACACQf8BcSIEQQR2IQIgAEEBayEAIARBD0sNAAsgAUEBQYS0xQBBAiAAIANqQQhqQQMgAGsQyAMMAQsgAC0AACECQQMhAANAIAAgA2pBDGogAkEPcUHJgcIAai0AADoAACACQf8BcSIEQQR2IQIgAEEBayEAIARBD0sNAAsgAUEBQYS0xQBBAiAAIANqQQ1qQQMgAGsQyAMLIANBEGokAAuuAwIDfgR/IAAoAgxFBEBBAA8LIAApAxAgACkDGCABEPIDIQIgACgCBCIGIAKncSEFIAJCGYhC/wCDQoGChIiQoMCAAX4hBCAAKAIAIQcCQAJAIAEtAAAiCEELRwRAQQAhAQNAIAUgB2opAAAiAyAEhSICQn+FIAJCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiAlBFBEADQCAIIAcgAnqnQQN2IAVqIAZxQWhsaiIAQRhrLQAARg0FIAJCAX0gAoMiAlBFDQALCyADIANCAYaDQoCBgoSIkKDAgH+DQgBSDQIgBSABQQhqIgFqIAZxIQUMAAsACyABKAABIQhBACEBA0AgBSAHaikAACIDIASFIgJCf4UgAkKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyICUEUEQANAIAcgAnqnQQN2IAVqIAZxQWhsaiIAQRhrLQAAQQtGBEAgCCAAQRdrKAAARg0FCyACQgF9IAKDIgJQRQ0ACwsgAyADQgGGg0KAgYKEiJCgwIB/g1BFDQEgBSABQQhqIgFqIAZxIQUMAAsAC0EAIQALIABBGGtBACAAGwvPAwIDfwF+IwBBIGsiAiQAAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiBEGAgICAeHMgBEEAThtBAWsOCAECAwQFBgcIAAtBASEDIAEgAkEfakGY58AAEJUIIQEMCQsgAS0ABCEBDAgLIAEvAQQhAQwHCyABKAIEIQEMBgsgASkDCCIFQv////8PWARAIAWnIQEMBQtBASEDIAJBAToACCACIAU3AxAgAkEIaiACQR9qQZjnwAAQ3gYhAQwFCyABLAAEIgFBAEgEQCACQQI6AAggAiABrDcDECACQQhqIAJBH2pBmOfAABDeBiEBQQEhAwwFCyABQf8BcSEBDAMLIAEuAQQiAUEASARAIAJBAjoACCACIAGsNwMQIAJBCGogAkEfakGY58AAEN4GIQFBASEDDAQLIAFB//8DcSEBDAILIAEoAgQiAUEATg0BIAJBAjoACCACIAGsNwMQIAJBCGogAkEfakGY58AAEN4GIQFBASEDDAILIAEpAwgiBUKAgICAEFoEQCACQQI6AAggAiAFNwMQIAJBCGogAkEfakGY58AAEN4GIQFBASEDDAILIAWnIQELCyAAIAE2AgQgACADNgIAIAJBIGokAAvPAwIDfwF+IwBBIGsiAiQAAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiBEGAgICAeHMgBEEAThtBAWsOCAECAwQFBgcIAAtBASEDIAEgAkEfakGo58AAEJUIIQEMCQsgAS0ABCEBDAgLIAEvAQQhAQwHCyABKAIEIQEMBgsgASkDCCIFQv////8PWARAIAWnIQEMBQtBASEDIAJBAToACCACIAU3AxAgAkEIaiACQR9qQajnwAAQ3gYhAQwFCyABLAAEIgFBAEgEQCACQQI6AAggAiABrDcDECACQQhqIAJBH2pBqOfAABDeBiEBQQEhAwwFCyABQf8BcSEBDAMLIAEuAQQiAUEASARAIAJBAjoACCACIAGsNwMQIAJBCGogAkEfakGo58AAEN4GIQFBASEDDAQLIAFB//8DcSEBDAILIAEoAgQiAUEATg0BIAJBAjoACCACIAGsNwMQIAJBCGogAkEfakGo58AAEN4GIQFBASEDDAILIAEpAwgiBUKAgICAEFoEQCACQQI6AAggAiAFNwMQIAJBCGogAkEfakGo58AAEN4GIQFBASEDDAILIAWnIQELCyAAIAE2AgQgACADNgIAIAJBIGokAAv6AgEEfwJAAkACQAJAAkACQAJAIAAtAAAOGgAEBAQEBAQEBAQEBAQEBAQEBAQEBAQEBAECBAsgAC0ABEEDRw0DIAAoAggiACgCACECIABBBGooAgAiASgCACIDBEAgAiADEQMACyABKAIEIgEEQCACQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyABakkNBiADQQAgBCABQSdqSxsNBSACEKICCyAAQQRrKAIAIgJBeHEiAUEQQRQgAkEDcSICG0kNBSACRSABQTRJcg0CDAQLIAAoAgQiAkUNAiAAKAIIIgBBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0EIAFFIAMgAkEnak1yDQEMAwsgACgCBCICRQ0BIAAoAggiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQMgAUUgAyACQSdqTXINAAwCCyAAEKICCw8LQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC6gDAwV/AXsBfiMAQZABayICJAAgASgCBCEFIAEoAgAgAiAAKAIAIgT9AAIIIgcgB/0NAAECAwQFBgcICQoLCAkKC/0LBAAgAgJ/IAf9GQYiAUH//wFxRQRAIAFBEHQMAQsgAUH/B3EhACABQYCAAnEhAyABQYD4AXEiAUGA+AFGBEAgA0EQdCEBIAFBgICA/AdyIABFDQEaIAEgAEENdHJBgICA/gdyDAELIANBEHQhAyABQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2ogA3IgAQ0AGiAAIABnQRBrIgBB//8DcUEIanRB////A3EgA0GAgIDYA3IgAEEXdGtyCzYCHCACQSBqIgAgBBCkAyACQTBqIgEgBBCaAyACQUBrIgMgBCkCABDLAiACIAOtQoCAgIDAAoQ3A3AgAkKAgICAoAIiCCABrYQ3A2ggAiAIIACthDcDYCACIAJBHGqtQoCAgIDQAoQ3A1ggAiAIIAKthDcDUCACQgU3AoQBIAJBBjYCfCACQZynxwA2AnggAiACQdAAajYCgAEgBSACQfgAahDBAyACQZABaiQAC8oDAQN/AkAgACgCACIDRQRAIAAoAhAiAEUNASAAQZOzxQBBARCXAw8LAkACfwJAAkAgACgCCCIBIAAoAgRPBEAgACgCECICRQ0BIAJB6rLFAEEQEJcDRQ0BQQEPC0EBIQIgACABQQFqNgIIAkACQAJAAkAgASADai0AAEHOAGsOBQIDAAABAAsgACgCECIBRQ0DIAFB6rLFAEEQEJcDRQ0DDAYLIABBABDVAQ0FIAAoAhAiAQRAIAFB/7TFAEEDEJcDDQYLIABBABDVAUUNBgwFCyAAKAIQIgBFDQUgAEGFtcUAQQUQlwNFDQUMBAsgACAAKAIMQQFqIgE2AgwgAUH0A0sNASAAEK0EDQMDQCAAKAIAIgMEQAJAIAAoAggiASAAKAIETw0AIAEgA2otAABBxQBHDQAgACABQQFqNgIIIAAgACgCDEEBazYCDAwHCyAAKAIQIgEEQCABQYK1xQBBAxCXAw0GCyAAEK0ERQ0BDAULCyAAKAIQIgFFDQAgAUHqssUAQRAQlwMNAwsgAEEAOgAEQQAMAQsgACgCECIBBEAgAUH6ssUAQRkQlwMNAgsgAEEBOgAEQQALIQIgACACNgIACyACDwtBAAuPAwENfyMAQRBrIgYkAAJAIAEtACUNACABKAIEIQcCQCABKAIQIgQgASgCCCIMSw0AIAQgASgCDCICSQ0AIAFBFGoiDSABLQAYIgVqQQFrLQAAIQkgBUEFSSEOA0ACQCACIAdqIQoCQCAEIAJrIgtBB00EQCACIARGDQJBACEDA0AgAyAKai0AACAJRg0CIAsgA0EBaiIDRw0ACwwCCyAGQQhqIAkgCiALEIcFIAYoAghBAXFFDQEgBigCDCEDCyABIAIgA2pBAWoiAjYCDAJAIAIgBUkgAiAMS3INACAOBEAgByACIAVrIgNqIA0gBRDbBw0BIAEoAhwhBCABIAI2AhwgBCAHaiEIIAMgBGshAwwFC0EAIAVBBEHkuMcAEOoHAAsgAiAETQ0BDAILCyABIAQ2AgwLIAFBAToAJQJAIAEtACRBAUYEQCABKAIgIQIgASgCHCEBDAELIAEoAiAiAiABKAIcIgFGDQELIAEgB2ohCCACIAFrIQMLIAAgAzYCBCAAIAg2AgAgBkEQaiQAC70DAgZ/AX4jAEHQAGsiAiQAIAJBIGogACAAKAIAKAIEEQEAIAIgAkEwaq1CgICAgLABhDcDKCACIAIpAyA3AjAgASgCACEFIAEoAgQhBiACQgE3AkRBASEDIAJBATYCPCACQaD4xwA2AjggAiACQShqNgJAAkAgBSAGIAJBOGoQwQMNACABLQAKQYABcUUEQEEAIQMMAQsgAkEYaiAAIAAoAgAoAgQRAQAgAkEQaiACKAIYIAIoAhwoAhgRAQAgAigCECIERQRAQQAhAwwBCyACQQhqIAQgAigCFCIHKAIYEQEAIAIoAgwhACACKAIIIQEgAiAHNgIsIAIgBDYCKCACQQE2AjwgAkGA8cEANgI4IAJCATcCRCACIAJBKGqtQoCAgICwAYQiCDcDMCACIAJBMGo2AkAgBSAGIAJBOGoQngkNAANAIAFFBEBBACEDDAILIAIgASAAKAIYEQEAIAIoAgQgAigCACACIAA2AiwgAiABNgIoIAJBATYCPCACQYDxwQA2AjggAkIBNwJEIAIgCDcDMCACIAJBMGo2AkAhASEAIAUgBiACQThqEJ4JRQ0ACwsgAkHQAGokACADC5QDACAAIARqIQACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCABQf8BcUEBaw4HBwABAgMEBQYLIABBfU0gAEECaiIBIANNcQ0HIAAgASADQbTZxwAQ6gcACyAAQX1NIABBAmoiASADTXENByAAIAEgA0HE2ccAEOoHAAsgAEF7TSAAQQRqIgEgA01xDQcgACABIANB1NnHABDqBwALIABBe00gAEEEaiIBIANNcQ0HIAAgASADQeTZxwAQ6gcACyAAQXtNIABBBGoiASADTXENByAAIAEgA0H02ccAEOoHAAsgAEF3TSAAQQhqIgEgA01xDQcgACABIANBhNrHABDqBwALIAAgA0kNCCAAIANBlNnHABCMBwALIAAgA0kNBiAAIANBpNnHABCMBwALIAAgAmouAACyDwsgACACai8AALMPCyAAIAJqKAAAsg8LIAAgAmooAACzDwsgACACaioAAA8LIAAgAmorAAC2DwsgACACai0AALNDAAB/Q5UPCyAAIAJqLAAAskMAAH9DlQvSAgEFfwJAAkACQAJAAkACQCAAKAIAIgAoAgAOAgABAwsgACgCCCIBRQ0CIAAoAgQiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQQgAkUgBCABQSdqTXINAQwDCyAALQAEQQNHDQEgACgCCCIDKAIAIQEgA0EEaigCACICKAIAIgQEQCABIAQRAwALIAIoAgQiAgRAIAFBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIAJqSQ0EIARBACAFIAJBJ2pLGw0DIAEQogILIANBBGsoAgAiAUF4cSICQRBBFCABQQNxIgEbSQ0DIAFFDQAgAkE0Tw0CCyADEKICCyAAQQRrKAIAIgNBeHEiAUEYQRwgA0EDcSIDG0kNASADQQAgAUE8TxsNACAAEKICDwtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALkgMBBH8CQAJAAkACQAJAAkAgByAIVgRAIAcgCH0gCFgNAyAGIAcgBn1UIAcgBkIBhn0gCEIBhlpxDQIgBiAIWA0GIAcgBiAIfSIGfSAGVg0GIAIgA08NAUEAIAMgAkG4j8IAEOoHAAsgAEEANgIADwsgASADaiEMIAMhCgJAAkACQANAIAoiCUUNASAJQQFrIgogAWoiCy0AAEE5Rg0ACyALIAstAABBAWo6AAAgAyAJTw0BIAkgAyADQfiEwgAQ6gcACwJAIANFBEBBMSEKDAELIAFBMToAAEEwIQogA0EBayIJRSAJRXINACABQQFqQTAgCfwLAAsgBEEBasEiBCAFwUwgAiADTXINASAMIAo6AAAgA0EBaiEDDAELIAMgCUYNACADIAlrIgVFDQAgASAJakEwIAX8CwALIAIgA0kNAgwDCyACIANPDQJBACADIAJByI/CABDqBwALIABBADYCAA8LQQAgAyACQaiPwgAQ6gcACyAAIAQ7AQggACADNgIEIAAgATYCAA8LIABBADYCAAu8AwIFfwF+IwBBIGsiAiQAAkACQAJAAkACQCABLQCYASIDQQhHDQAgAkEJOgAQIAIgASACQRBqIAEoAoABEOQEAkAgAi0AACIDQR1GBEAgAigCBCIEQYCAgIB4Rw0BQQAhAyABQQA6AJgBDAILIAIpAgQhBwJ/IANFBEAgAiAHNwMQIAenIQMgAikCFCEHQQUMAQsgAigCDCEEQRAQcSIBRQ0EIAEgAzoAACABIAQ2AgwgASAHNwIEIAEgAkEBciIDLwAAOwABIAFBA2ogA0ECai0AADoAACACQYAGOwEQIAIoAhAhA0EACyEEIABB7LvEADYCGCAAIAE2AhQgACAHQiCIPgIMIAAgBz4CCCAAIAM2AgQgACAENgIADAILIAIpAgggASACKAIIIAIoAgwQlgFB/wFxIgFBACABQQhHGyIDOgCYASAERQ0ApyIBQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyAEakkNAyAFQQAgBiAEQSdqSxsNBCABEKICCyAAQQY2AgAgACADOgAECyACQSBqJAAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC5QDAQZ/AkAgACgCaEGAgICAeEcNAAJAAkAgACgCpAEiBUEASA0AIAVBAXQiBkH/////B08NAAJ/IAZFBEBBAiEHQQAMAQsgBhBxIgdFDQIgB0EEay0AAEEDcUUgBkVyRQRAIAdBACAG/AsACyAFCyEGIAAgBTYCcCAAIAc2AmwgACAGNgJoDAILQbjewAAQ/wcLAAsCQAJAIAIEQEEAIQUgACgCbCEHIAAoAnAiCSABayIAQQAgACAJTRsiCiACQQFrIgAgACAKSxsiACAEIAAgBEkbIghBB0sEQCAHIAFBAXRqIQAgAyEGIAhBAWoiBSAFQQdxIgVBCCAFG2siBSEIA0AgACAG/QABAP0LAQAgBkEQaiEGIABBEGohACAIQQhrIggNAAsLIAMgBUEBdGohACAHIAEgBWpBAXRqIQYDQCAEIAVGDQMgBSAKRg0CIAYgAC8BADsBACAGQQJqIQYgAEECaiEAIAIgBUEBaiIFRw0ACwsPCyABIAVqIAlB2N7AABCMBwALIAQgBEHI3sAAEIwHAAuYAwEGfwJAIAAoAnRBgICAgHhHDQACQAJAIAAoAqQBIgVB/////wNLDQAgBUECdCIGQf3///8HTw0AAn8gBkUEQEEEIQdBAAwBCyAGEHEiB0UNAiAHQQRrLQAAQQNxRSAGRXJFBEAgB0EAIAb8CwALIAULIQYgACAFNgJ8IAAgBzYCeCAAIAY2AnQMAgtB6N7AABD/BwsACwJAAkAgAgRAQQAhBSAAKAJ4IQcgACgCfCIJIAFrIgBBACAAIAlNGyIKIAJBAWsiACAAIApLGyIAIAQgACAESRsiCEEDSwRAIAcgAUECdGohACADIQYgCEEBaiIFIAVBA3EiBUEEIAUbayIFIQgDQCAAIAb9AAIA/QsCACAGQRBqIQYgAEEQaiEAIAhBBGsiCA0ACwsgAyAFQQJ0aiEAIAcgASAFakECdGohBgNAIAQgBUYNAyAFIApGDQIgBiAAKAIANgIAIAZBBGohBiAAQQRqIQAgAiAFQQFqIgVHDQALCw8LIAEgBWogCUGI38AAEIwHAAsgBCAEQfjewAAQjAcAC5oDAQZ/AkAgACgCjAFBgICAgHhHDQACQAJAIAAoAqgBIgVBAEgNACAFQQF0IgZB/////wdPDQACfyAGRQRAQQIhB0EADAELIAYQcSIHRQ0CIAdBBGstAABBA3FFIAZFckUEQCAHQQAgBvwLAAsgBQshBiAAIAU2ApQBIAAgBzYCkAEgACAGNgKMAQwCC0HIucEAEP8HCwALAkACQCACBEBBACEFIAAoApABIQcgACgClAEiCSABayIAQQAgACAJTRsiCiACQQFrIgAgACAKSxsiACAEIAAgBEkbIghBB0sEQCAHIAFBAXRqIQAgAyEGIAhBAWoiBSAFQQdxIgVBCCAFG2siBSEIA0AgACAG/QABAP0LAQAgBkEQaiEGIABBEGohACAIQQhrIggNAAsLIAMgBUEBdGohACAHIAEgBWpBAXRqIQYDQCAEIAVGDQMgBSAKRg0CIAYgAC8BADsBACAGQQJqIQYgAEECaiEAIAIgBUEBaiIFRw0ACwsPCyABIAVqIAlB6LnBABCMBwALIAQgBEHYucEAEIwHAAueAwEGfwJAIAAoApgBQYCAgIB4Rw0AAkACQCAAKAKoASIFQf////8DSw0AIAVBAnQiBkH9////B08NAAJ/IAZFBEBBBCEHQQAMAQsgBhBxIgdFDQIgB0EEay0AAEEDcUUgBkVyRQRAIAdBACAG/AsACyAFCyEGIAAgBTYCoAEgACAHNgKcASAAIAY2ApgBDAILQfi5wQAQ/wcLAAsCQAJAIAIEQEEAIQUgACgCnAEhByAAKAKgASIJIAFrIgBBACAAIAlNGyIKIAJBAWsiACAAIApLGyIAIAQgACAESRsiCEEDSwRAIAcgAUECdGohACADIQYgCEEBaiIFIAVBA3EiBUEEIAUbayIFIQgDQCAAIAb9AAIA/QsCACAGQRBqIQYgAEEQaiEAIAhBBGsiCA0ACwsgAyAFQQJ0aiEAIAcgASAFakECdGohBgNAIAQgBUYNAyAFIApGDQIgBiAAKAIANgIAIAZBBGohBiAAQQRqIQAgAiAFQQFqIgVHDQALCw8LIAEgBWogCUGYusEAEIwHAAsgBCAEQYi6wQAQjAcAC40DAQV/IwBBIGsiBiQAAkACQAJAAkAgASgCCCIDQQpJDQACQAJAIAEoAgQiBC0AAEEfRw0AIAQtAAFBiwFHDQAgBC0AAkEIRw0AQQohAiAELQADIgVBBHEEQCADQQxJDQMgAyAELwAKQQxqIgJJDQMLIAVBCHFFDQEgAiADTw0CA0AgAiAEai0AAEUEQCACQQFqIQIMAwsgAyACQQFqIgJHDQALDAILIAZBADYCGEEBIQUgBkEBNgIMIAZBvO3HADYCCCAGQgQ3AhAgACAGQQhqEJUHNgIEDAMLIAVBEHEEQCACIANPDQEDQCACIARqLQAABEAgAyACQQFqIgJHDQEMAwsLIAJBAWohAgsgBUECcUUNASADIAJBAmoiAk8NAQtBACEFIABBADoAAQwBCyACIANLDQFBACEFIAFBADYCCCACIANHBEAgAyACayIDBEAgBCACIARqIAP8CgAACyABIAM2AggLIABBAToAAQsgACAFOgAAIAZBIGokAA8LQQAgAiADQYSkxwAQ6gcAC88DAQV/IwBBIGsiAiQAIAAoAgAiA0EIaiEFQQEhAAJAIAMoAgBBAUYEQCABKAIAIgNByMnEAEEDIAEoAgQiBigCDCIEEQAADQECQCABLQAKQYABcUUEQCADQbuzxQBBASAEEQAADQMgBSABEPIFRQ0BDAMLIANB24HCAEECIAQRAAANAiACQQE6AA8gAiAGNgIEIAIgAzYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgBSACQRBqEPIFDQIgAkHZgcIAQQIQrwMNAgsgA0HejsgAQQEgBBEAACEADAELIAEoAgAiA0H8nMgAQQIgASgCBCIGKAIMIgQRAAANAAJAIAEtAApBgAFxRQRAIANBu7PFAEEBIAQRAAANAiAFIAEQxAUNAiABKAIAIQMgASgCBCgCDCEEDAELIANB24HCAEECIAQRAAANASACQQE6AA8gAiAGNgIEIAIgAzYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgBSACQRBqEMQFDQEgAigCEEHZgcIAQQIgAigCFCgCDBEAAA0BCyADQd6OyABBASAEEQAAIQALIAJBIGokACAAC6ADAQJ/IwBB0ABrIgckACAHQQBB0AD8CwACQCACRQRAIAdC//79+/fv37//ADcDAAwBCyABQQN0IgggBE0EQCAEIAhGDQFBCCAEIAhrIgQgBEEITxsiBEUNASAHIAMgCGogBPwKAAAMAQsgCCAEIARByOjEABDqBwALIAACfyABRQRAIAdBgQE6AEcgB0GBAToAPiAHQYEBOgA1IAdBgQE6ACwgB0GBAToAIyAHQYEBOgAaIAdBgQE6ABEgB0GBAToACEGBf0H/ACACGwwBCwJAIAYEQCAGQQFrIgFFDQEgByAFLQABOgAIIAFBAUYNASAHIAUtAAI6ABEgAUECRg0BIAcgBS0AAzoAGiABQQNGDQEgByAFLQAEOgAjIAFBBEYNASAHIAUtAAU6ACwgAUEFRg0BIAcgBS0ABjoANSABQQZGDQEgByAFLQAHOgA+IAFBB0YNASAHIAUtAAg6AEcMAQtBAUEAQQBBuOjEABDqBwALQYF/Qf8AIAIbIAJFDQAaIAUtAAALOgAAIABBAWogB0HQAPwKAAAgB0HQAGokAAuDAwEBfyMAQSBrIgUkACAAAn8CQCAERQRAIANBBGogAksgA0F7S3JFBEAgACABIANqKgAAOAIEDAILIAVBADYCGCAFQQE2AgwgBUHI28EANgIIIAVCBDcCECAAIAVBCGoQkgc2AgRBAQwCCyADQX1NIANBAmogAk1xRQRAIAVBADYCGCAFQQE2AgwgBUHI28EANgIIIAVCBDcCECAAIAVBCGoQkgc2AgRBAQwCCyAAAn8gASADaiIBLQABQQh0IgIgAS0AAHIiAUH//wFxRQRAIAFBEHQMAQsgAUH/B3EhASACQYCAAnEhAyACQYD4AXEiAkGA+AFGBEAgA0EQdCECIAJBgICA/AdyIAFFDQEaIAFBDXQgAnJBgICA/gdyDAELIANBEHQhAyACQQ10QYCAgPwAcSABQQ10ckGAgIDAA2ogA3IgAg0AGiADQYCAgNgDciABZ0EQayICQRd0ayABIAJB//8DcUEIanRB////A3FyCzYCBAtBAAs2AgAgBUEgaiQAC4QDAgJ/AXsCQAJAIARBBE8EQCACIARBBGtBA24iBSACIAVJGyIFQQNNDQEgAiAFQQFqIgIgAkEDcSICQQQgAhtrIgZrIQIgASAGaiAEIAZBfWxqIQQgAyAGQQNsaiEHA0AgAyAAIAH9XAAA/YkB/akBIgj9GwBBAnRqKAAANgAAIANBA2ogACAI/RsBQQJ0aigAADYAACADQQZqIAAgCP0bAkECdGooAAA2AAAgA0EJaiAAIAj9GwNBAnRqKAAANgAAIAFBBGohASADQQxqIQMgBkEEayIGDQALIQEgByEDDAELIAQNAQ8LA0AgAkUEQEEAQQBBpJrFABCMBwALIAMgACABLQAAQQJ0aigAADYAACADQQNqIQMgAkEBayECIAFBAWohASAEQQNrIgRBA0sNAAsLAkAgAgRAIARBA0cNASADIAAgAS0AAEECdGoiAC8AADsAACADQQJqIABBAmotAAA6AAAPC0EAQQBBhJrFABCMBwALQQBBAyAEQZSaxQAQ6gcAC4EDAAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIABB/wFxQQFrDgcHAAECAwQFBgsgA0F9TSADQQJqIgAgAk1xDQcgAyAAIAJBtNjHABDqBwALIANBfU0gA0ECaiIAIAJNcQ0HIAMgACACQcTYxwAQ6gcACyADQXtNIANBBGoiACACTXENByADIAAgAkHU2McAEOoHAAsgA0F7TSADQQRqIgAgAk1xDQcgAyAAIAJB5NjHABDqBwALIANBe00gA0EEaiIAIAJNcQ0HIAMgACACQfTYxwAQ6gcACyADQXdNIANBCGoiACACTXENByADIAAgAkGE2ccAEOoHAAsgAiADTQ0HIAEgA2osAACyDwsgAiADSw0HIAMgAkGk2McAEIwHAAsgASADai4AALIPCyABIANqLwAAsw8LIAEgA2ooAACyDwsgASADaigAALMPCyABIANqKgAADwsgASADaisAALYPCyADIAJBlNjHABCMBwALIAEgA2otAACzC58DAgF+CH8CQAJAAkACQAJAIAAoAgQiBEUNACAAKAIMIggEQCAAKAIAIgJBCGohAyACKQMAQn+FQoCBgoSIkKDAgH+DIQEDQCABUARAA0AgAkGABGshAiADKQMAIANBCGohA0KAgYKEiJCgwIB/gyIBQoCBgoSIkKDAgH9RDQALIAFCgIGChIiQoMCAf4UhAQsgAiABeqdBA3RBwAdxayIFQQRrKAIAIgZBCU8EQCAFQSBrKAIAIgVBBGsoAgAiB0F4cSIJIAZBAnQiBkEEQQggB0EDcSIHG2pJDQQgB0EAIAkgBkEnaksbDQUgBRCiAgsgAUIBfSABgyEBIAhBAWsiCA0ACwsgBEEGdCICIARqQckAaiIDRQ0AIAAoAgAgAmsiAEHEAGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIANqSQ0DIAJBACAEIANBJ2pLGw0EIABBQGoQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC5cDAgh/AX4CQAJAAkACQAJAIAAoAgQiA0UNACAAKAIMIgYEQCAAKAIAIgFBCGohAiABKQMAQn+FQoCBgoSIkKDAgH+DIQkDQCAJUARAA0AgAUGgAWshASACKQMAIAJBCGohAkKAgYKEiJCgwIB/gyIJQoCBgoSIkKDAgH9RDQALIAlCgIGChIiQoMCAf4UhCQsgASAJeqdBA3ZBbGxqIgRBFGsoAgAiBwRAIARBEGsoAgAiBEEEaygCACIFQXhxIghBBEEIIAVBA3EiBRsgB2pJDQQgBUEAIAggB0EnaksbDQUgBBCiAgsgCUIBfSAJgyEJIAZBAWsiBg0ACwsgAyADQRRsQRtqQXhxIgFqQQlqIgJFDQAgACgCACABayIAQQRrKAIAIgFBeHEiA0EEQQggAUEDcSIBGyACakkNAyABQQAgAyACQSdqSxsNBCAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuZAwEFfwJAIABCgICAgBBUBEAgASECDAELIAFBCGsiAiAAIABCgMLXL4AiAEKAvqjQD358pyIDQZDOAG4iBEGQzgBwIgVB5ABuIgZBAXQvALi6RTsAACABQQRrIAMgBEGQzgBsayIDQf//A3FB5ABuIgRBAXQvALi6RTsAACABQQZrIAUgBkHkAGxrQf//A3FBAXQvALi6RTsAACABQQJrIAMgBEHkAGxrQf//A3FBAXQvALi6RTsAAAsCQCAApyIBQZDOAEkEQCABIQMMAQsgAkEEayECA0AgAiABQZDOAG4iA0HwsX9sIAFqIgRB5ABuIgVBAXQvALi6RTsAACACQQJqIAQgBUHkAGxrQQF0LwC4ukU7AAAgAkEEayECIAFB/8HXL0sgAyEBDQALIAJBBGohAgsCQCADQeMATQRAIAMhAQwBCyACQQJrIgIgAyADQf//A3FB5ABuIgFB5ABsa0H//wNxQQF0LwC4ukU7AAALIAFBCU0EQCACQQFrIAFBMHI6AAAPCyACQQJrIAFBAXQvALi6RTsAAAvpAgEFfwJAIAFBzf97QRAgACAAQRBNGyIAa08NACAAQRAgAUELakF4cSABQQtJGyIEakEMahBxIgJFDQAgAkEIayEBAkAgAEEBayIDIAJxRQRAIAEhAAwBCyACQQRrIgUoAgAiBkF4cSACIANqQQAgAGtxQQhrIgIgAEEAIAIgAWtBEE0baiIAIAFrIgJrIQMgBkEDcQRAIAAgAyAAKAIEQQFxckECcjYCBCAAIANqIgMgAygCBEEBcjYCBCAFIAIgBSgCAEEBcXJBAnI2AgAgASACaiIDIAMoAgRBAXI2AgQgASACEOMCDAELIAEoAgAhASAAIAM2AgQgACABIAJqNgIACwJAIAAoAgQiAUEDcUUNACABQXhxIgIgBEEQak0NACAAIAQgAUEBcXJBAnI2AgQgACAEaiIBIAIgBGsiBEEDcjYCBCAAIAJqIgIgAigCBEEBcjYCBCABIAQQ4wILIABBCGohAwsgAwvbAgIEfwF+IwBB0ABrIgQkACAEIAEgAkGYsMUAQQEQ4QEDQCAEQcQAaiAEEJgCIAQoAkQiA0UNAAsCQCAAIAICfyADQQJHBEAgBCgCSAwBCyACCyIDa0EQTQR+IAIgA0cEQCABIAJqIQYgASADaiEDA0ACfyADLAAAIgFBAE4EQCABQf8BcSECIANBAWoMAQsgAy0AAUE/cSEFIAFBH3EhAiABQV9NBEAgAkEGdCAFciECIANBAmoMAQsgAy0AAkE/cSAFQQZ0ciEFIAFBcEkEQCAFIAJBDHRyIQIgA0EDagwBCyACQRJ0QYCA8ABxIAMtAANBP3EgBUEGdHJyIQIgA0EEagshAyACQcEAa0FfcUEKaiACQTBrIAJBOUsbIgFBEE8NAyABrSAHQgSGhCEHIAMgBkcNAAsLIAAgBzcDCEIBBSAHCzcDACAEQdAAaiQADwtBnLDFABDdCQALmgMDA38EfQF7IwBBEGsiBCQAIAEoAgAiAiABKAIERgR/QQAFIAEgAkEEajYCAAJ/AkAgAigCACICIAEoAggiASgCCCIDSQRAIAQgASgCBCACQSRsaiIBEJoDIAT9AAQAIQkgAS8BFCICQf//AXFFBEAgAkEQdAwDCyACQf8HcSEBIAJBgIACcSEDIAJBgPgBcSICQYD4AUYEQCADQRB0IQIgAkGAgID8B3IgAUUNAxogAiABQQ10ckGAgID+B3IMAwsgA0EQdCEDIAJFDQEgAkENdEGAgID8AHEgAUENdHJBgICAwANqIANyDAILIAIgA0HUwMcAEIwHAAsgASABZ0EQayIBQf//A3FBCGp0Qf///wNxIANBgICA2ANyIAFBF3RrcgshASAJ/R8AIgUgCf0fASIGlEOPws0/ELcKIQcgBSAJ/R8CIgWUQ4/CzT8QtwohCCAGIAWUQ4/CzT8QtwogByAIkpJDAABAQJVD5kAfPxC3CkPbD0lBlCABvpQhBUEBCyEBIAAgBTgCBCAAIAE2AgAgBEEQaiQAC/ACAQN/IwBBEGsiAyQAIAAoAgAhAAJ/AkAgASgCCCICQYCAgBBxRQRAIAJBgICAIHENAUEDIQIgAC0AACIAIQQgAEEKTwRAIAMgACAAQeQAbiIEQeQAbGtB/wFxQQF0LwC4ukU7AAxBASECC0EAIAAgBBtFBEAgAkEBayICIANBC2pqIARBAXQtALm6RToAAAsgAUEBQQFBACADQQtqIAJqQQMgAmsQyAMMAgsgAC0AACECQQMhAANAIAAgA2pBB2ogAkEPcUHctsUAai0AADoAACACQf8BcSIEQQR2IQIgAEEBayEAIARBD0sNAAsgAUEBQYS0xQBBAiAAIANqQQhqQQMgAGsQyAMMAQsgAC0AACECQQMhAANAIAAgA2pBDGogAkEPcUHJgcIAai0AADoAACACQf8BcSIEQQR2IQIgAEEBayEAIARBD0sNAAsgAUEBQYS0xQBBAiAAIANqQQ1qQQMgAGsQyAMLIANBEGokAAuHAwEGf0EBIQdBASEFAkACfwJAAkACQAJAIAQtAL4CQQFrDgYAAQUCAAMFCwALQQMhBUEBIQhBACEHDAMLQQEhBkEAIQdBAgwBC0EAIQdBBAshBQsCQCADIAVBAWoiCW4iAyABIAVBAXQiAW4iCiADIApJGyIDRQ0AAkAgBCgCzAFBgYCAgHhGDQAgBCgC1AEgAUcNACAEKALQASEEA0AgAiAALQAAOgAAAkAgBw0AIAJBAWogAEECai0AADoAACAGDQAgAkECaiAAQQRqLQAAOgAAIAgNACACQQNqIABBBmotAAA6AAALIAIgBWpBf0EAIAAgBCABENsHGzoAACAAIAFqIQAgAiAJaiECIANBAWsiAw0ACwwBCwNAIAIgAC0AADoAAAJAIAcNACACQQFqIABBAmotAAA6AAAgBg0AIAJBAmogAEEEai0AADoAACAIDQAgAkEDaiAAQQZqLQAAOgAACyACIAVqQf8BOgAAIAAgAWohACACIAlqIQIgA0EBayIDDQALCwv/AgIFfQV/IAAgASACEMwDIAJBA2whDSAAKAJgQQxqIQFBAiAEIARBAk0bQQNuQQNsIQ4gACoCjAEgACoCiAEiBZNDAAB+Q5UhBiAAKAJkIQpBACECQQAhAAJAAkACQAJAA0AgAkEEaiILIApLDQIgASgCACICQQh2IQxDAAAAACEHQwAAAAAhCCACQf8BcQRAIAUgBiACQQFrQf8BcbOUkhCJBCEICyAMQf8BcQRAIAUgBiAMQQFrQf8BcbOUkhCJBCEHCyACQRB2IgJB/wFxBH0gBSAGIAJBAWtB/wFxs5SSEIkEBUMAAAAACyEJIAAgBE8NAyADIAg4AgAgAEEBaiICIARPDQQgA0EEaiAHOAIAIAAgDkYNASADQQhqIAk4AgAgAUEQaiEBIANBDGohAyALIQIgDSAAQQNqIgBHDQALDwsgAEECaiAEQYzWwAAQjAcACyACIAsgCkGc1sAAEOoHAAsgACAEQezVwAAQjAcACyACIARB/NXAABCMBwALrgMAAn8CQAJAAkACQAJAIAJBA2sOBQMEAQIABAsgAS0AAEH2AEcNAyABLQABQeUARw0DIAEtAAJB8gBHDQMgAS0AA0HzAEcNAyABLQAEQekARw0DIAEtAAVB7wBHDQMgAS0ABkHuAEcNA0EADAQLAkACQAJAIAEtAABB4wBrDg8ABQUFBQUFBQUFAQUFBQIFCyABLQABQe8ARw0EIAEtAAJB9QBHDQQgAS0AA0HuAEcNBCABLQAEQfQARw0EQQEMBQsgAS0AAUHlAEcNAyABLQACQeEARw0DIAEtAANB7gBHDQMgAS0ABEHzAEcNA0ECDAQLIAEtAAFB9QBHDQIgAS0AAkHhAEcNAiABLQADQfQARw0CIAEtAARB8wBHDQJBBAwDCyABLQAAQfMARw0BIAEtAAFB4wBHDQEgAS0AAkHhAEcNASABLQADQewARw0BIAEtAARB5QBHDQEgAS0ABUHzAEcNAUEDDAILIAEtAABB8wBHDQAgAS0AAUHoAEcNAEEFQQZBByABLQACIgFBzgBGGyABQTBGGwwBC0EHCyEBIABBADoAACAAIAE6AAELrgMCCX8CfiADQRB2IQcgA0EIdiEKIAAoAhghBSAAKAIUIQggACgCECEJIAApAwghDSAAKAIEIQsgACgCACEMIAMhBgNAIAVBAEgEQEEAIQQgCSALSQRAIAwgCUECdGooAAAhBAsgBEEYdCAEQYD+A3FBCHRyIARBCHZBgP4DcSAEQRh2cnKtIA1CIIaEIQ0gCUEBaiEJIAVBIGohBQsgBSAIQQFrIAdB/wFxbEEIdkEBaiIEIAggBGsgDSAErSAFQT9xrYYiDlQiBBsiCGciBUEYayIHQQAgBSAHTxsiB2shBSAIIAd0IQggDUIAIA4gBBt9IQ0gBiAKIAQbIgZB/wFxIgQgAkkEQCABIARBAnRqIgYtAAIhByAGLQABIQogBi0AACEGDAELCyAJIAtNBEAgACAFNgIYIAAgCDYCFCAAIAk2AhAgACANNwMIIAZB/wBxDwsCfyADQRh2IQMCQANAIAIgA00NASACIAEgA0ECdGoiAy0AASADLQAAIAAgAy0AAhDRBBsiBkH/AXEiA0sNAAsgBkH/AHEMAQsgAyACQfjhxAAQjAcAC0H/AXELowMCCn8DfiMAQRBrIgUkAAJAAkACQAJAAkACQAJAIAEoAhAiBCgCMCIHDgIFAQALIAQpAxggBCkDICACIAMQlQQhDiAEKAI4IgggDqdxIQYgDkIZiEL/AINCgYKEiJCgwIABfiEQIAQoAjQiCkEEayELIAQoAiwhDANAIAYgCmopAAAiDyAQhSIOQn+FIA5CgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiDlBFBEADQCALIA56p0EDdiAGaiAIcUECdGsoAgAiBCAHTw0EIAwgBEG4AWxqIg1BrAFqKAIAIANGBEAgAiANQagBaigCACADENsHRQ0HCyAOQgF9IA6DIg5QRQ0ACwsgDyAPQgGGg0KAgYKEiJCgwIB/g1BFDQUgCUEIaiIJIAZqIAhxIQYMAAsACyADIAQoAiwiBEGsAWooAgBGDQEMAwsgBCAHQZCbyAAQjAcACyACIAQoAqgBIAMQ2wcNAUEAIQQLIAVBADoADCAFQQA2AgQgACABIAQgBUEEahCoAQwBCyAAQgM3AwAgAEGEgICAeDYCCAsgBUEQaiQAC+kCAQN/IwBBEGsiAyQAAn8CQCABKAIIIgJBgICAEHFFBEAgAkGAgIAgcQ0BQQMhAiAALQAAIgAhBCAAQQpPBEAgAyAAIABB5ABuIgRB5ABsa0H/AXFBAXQvALi6RTsADEEBIQILQQAgACAEG0UEQCACQQFrIgIgA0ELamogBEEBdC0AubpFOgAACyABQQFBAUEAIANBC2ogAmpBAyACaxDIAwwCCyAALQAAIQJBAyEAA0AgACADakEHaiACQQ9xQdy2xQBqLQAAOgAAIAJB/wFxIgRBBHYhAiAAQQFrIQAgBEEPSw0ACyABQQFBhLTFAEECIAAgA2pBCGpBAyAAaxDIAwwBCyAALQAAIQJBAyEAA0AgACADakEMaiACQQ9xQcmBwgBqLQAAOgAAIAJB/wFxIgRBBHYhAiAAQQFrIQAgBEEPSw0ACyABQQFBhLTFAEECIAAgA2pBDWpBAyAAaxDIAwsgA0EQaiQAC4sDAQZ/IwBBIGsiAiQAIAAoAgwhBQJAAkACfwJAAkACQCAAKAIUIgEgACgCECIDSQRAIABBDGohBANAIAEgBWotAABBCWsiBkEZSw0CQQEgBnRBk4CABHFFBEAgBkEZRw0DIABBADYCCCAAIAFBAWo2AhQgAkEUaiAEIAAQggIgAigCGCEBIAIoAhQiA0ECRg0HIAIoAhwhBCADQQFxRQ0FIARBBkcNBEEGIQQgAUG8gcEAQQYQ2wcNBEEAIQEMBwsgACABQQFqIgE2AhQgASADRw0ACyADIQELIAJBCGogBSADIAFBAWoiACADIAAgA0kbEPkBIAIoAgwhAyACKAIIIQBBFBBxIgFFDQUgASAANgIMIAFBBTYCACABIAM2AhAMBAsgACACQRRqQajAwQAQ7gEMAgsgASAEQcSBwQBBARDMBgwBCwJAIARBBkcNAEEGIQQgAUG8gcEAQQYQ2wcNAEEAIQEMAgsgASAEQcSBwQBBARDMBgsgABDrBSEBCyACQSBqJAAgAQ8LAAuHAwEGfyMAQSBrIgIkACAAKAIMIQUCQAJAAn8CQAJAAkAgACgCFCIBIAAoAhAiA0kEQCAAQQxqIQQDQCABIAVqLQAAQQlrIgZBGUsNAkEBIAZ0QZOAgARxRQRAIAZBGUcNAyAAQQA2AgggACABQQFqNgIUIAJBFGogBCAAEIICIAIoAhghASACKAIUIgNBAkYNByACKAIcIQQgA0EBcUUNBSAEQQJHDQRBAiEEIAEvAABB5/QBRw0EQQAhAQwHCyAAIAFBAWoiATYCFCABIANHDQALIAMhAQsgAkEIaiAFIAMgAUEBaiIAIAMgACADSRsQ+QEgAigCDCEDIAIoAgghAEEUEHEiAUUNBSABIAA2AgwgAUEFNgIAIAEgAzYCEAwECyAAIAJBFGpBuMDBABDuAQwCCyABIARBoIbBAEEBEMwGDAELAkAgBEECRw0AQQIhBCABLwAAQef0AUcNAEEAIQEMAgsgASAEQaCGwQBBARDMBgsgABDrBSEBCyACQSBqJAAgAQ8LAAunAwEJfQJ9IAAqAgwiA0MAAAAAXUUEQCAAKgIEIQQgACoCACEFIAAqAggMAQsgA4whAyAAKgIEjCEEIAAqAgCMIQUgACoCCIwLIQhDAACAPyEBQwAAgD8gAyADQwAAgD9eGxD2BCICIAKSIglDAAAAP5QQmQIiAotDvTeGNV1FBEAgCCAClSEGIAQgApUhByAFIAKVIQELIAcgB4sgAYuSIAaLkiIDlSECIAEgA5UhAwJAIAZDAAAAAF1FBEAgAiEBDAELQwAAgD8gA4uTIgEgAYwgAkMAAAAAYBshAUMAAIA/IAKLkyICIAKMIANDAAAAAGAbIQMLQwDwf0VDAAAAACAJQ9sPSUCVQwDwf0WUIgIgAkMAAAAAXRsiAiACQwDwf0VeGxC5ByECQwDAf0RDAAAAACABQwAAAD+UQwAAAD+SQwDAf0SUIgEgAUMAAAAAXRsiASABQwDAf0ReGxC5B/wBQQp0IAL8AUEUdHJDAMB/REMAAAAAIANDAAAAP5RDAAAAP5JDAMB/RJQiASABQwAAAABdGyIBIAFDAMB/RF4bELkH/AFyC+kCAgd/AX4CQAJAAkAgACgCCCIFIAAoAgBJIgNFBEAgAEEQaiECQQIhBANAIAUgAigCACIFSw0CIAJBCGohAiABIARBAWoiBEcNAAsMAgsgAEEQaiECQQIhBANAIAUgAigCACIFTQ0BIAJBCGohAiABIARBAWoiBEcNAAsMAQsgASAERw0BCwJAIANFDQAgAUEBdkH+////B3EhByAAIAFBA3QiBWohBkEAIQRBACECA0AgACAFakEIayIDKQIAIQkgAyAAIARqIgMpAgA3AgAgAyAJNwIAIANBCGoiAykCACEJIAMgBiACIgNB/v///wFzQQN0aiIIKQIANwIAIAggCTcCACAFQRBrIQUgBEEQaiEEIAcgAkECaiICRw0ACyABQQJxRQ0AIAAgAkEDdGoiACkCACEJIAAgBkF9IANrQQN0aiIAKQIANwIAIAAgCTcCAAsPCyAAIAFBACABQQFyZ0EBdEE+cxBYC8ECAQd/IAAoAmghAwJAAkAgACgCbCICBEAgA0EkaiEBA0AgAUEEaygCACIEQYCAgIB4ckGAgICAeEcEQCABKAIAIgZBBGsoAgAiBUF4cSIHQQRBCCAFQQNxIgUbIARqSQ0DIAVBACAHIARBJ2pLGw0EIAYQogILIAFBMGohASACQQFrIgINAAsLIAAoAmQiAQRAIANBBGsoAgAiAkF4cSIEIAFBMGwiAUEEQQggAkEDcSICG3JJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCcCIBQYCAgIB4ckGAgICAeEcEQCAAKAJ0IgBBBGsoAgAiA0F4cSICQQRBCCADQQNxIgMbIAFqSQ0BIANBACACIAFBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL0gIBCH8gAUECdCIDIQIgACAAKAJ8IgQgA0kEfyADIAQiAmsiBSAAKAJ0IAJrSwRAIABB9ABqIAIgBUEEQQQQpAUgACgCfCECCyAAKAJ4IgcgAkECdCIIaiEGIAVBAk8EQCADIARBf3NqQQJ0IgkEQCAGQQAgCfwLAAsgAUEEdCAIaiAEQQJ0ayAHakEEayEGIAIgBWpBAWshAgsgBkEANgIAIAJBAWoFIAILNgJ8IAAgACgCiAEiBCADSQR/IAMgBCICayIFIAAoAoABIAJrSwRAIABBgAFqIAIgBUEEQQQQpAUgACgCiAEhAgsgACgChAEiByACQQJ0IghqIQYgBUECTwRAIAMgBEF/c2pBAnQiAwRAIAZBACAD/AsACyABQQR0IAhqIARBAnRrIAdqQQRrIQYgAiAFakEBayECCyAGQQA2AgAgAkEBagUgAws2AogBC+cCAgN/An4CQCAAKAIYIgNBAE4EQCAAKQMIIQUMAQsCQCAAKAIQIgIgACgCBE8EQCAALAAjIgJBAEwEQCACDQIgAEH/AToAIyAAIAApAwhCCIYiBTcDCCADQQhqIQMMAwsgACACQQFrOgAjIAAtACAhAiAAIAAvACE7ASAgACACOgAiIAAgAq1C/wGDIAApAwhCCIaEIgU3AwggA0EIaiEDDAILIAAgAkEBajYCECAAIAAoAgAgAkECdGooAAAiAkEYdCACQYD+A3FBCHRyIAJBCHZBgP4DcSACQRh2cnKtIAApAwhCIIaEIgU3AwggA0EgaiEDDAELIABB8gE6ACNBAA8LIAUgACgCFCICQQFrIAFB/wFxbEEIdkEBaiIBrSADQT9xrYYiBloiBARAIAAgBSAGfTcDCCACIAFrIQELIAAgAyABZyIDQRhrIgJBACACIANNGyIDazYCGCAAIAEgA3Q2AhQgBAvgAgIFfwF+AkACQCAFLQC/AiIGQQhLQQEgBnRBlgJxRXJFBEBBCCAGbkEDbK0gAq1+IgtCIIhQIAunIARJcQ0BIAQgBEEDcGshBAJAIAZBCEYEQCACRQ0BA0AgBEEDSQ0CIAMgACABLQAAQQJ0aiIFLQAAOgAAIANBAWogBS8AATsAACADQQNqIQMgBEEDayEEIAFBAWohASACQQFrIgINAAsMAQsgBEEDSQ0AIAEgAmohCEF/IAZ0QX9zIQlBCCAGayEFQX8hAgNAIAJBAEgEQCABIAhGDQUgAS0AACEHIAUhAiABQQFqIQELIAMgACAHIAJ2IAlxQQJ0aiIKLQAAOgAAIANBAWogCi8AATsAACADQQNqIQMgAiAGayECIARBA2siBEEDTw0ACwsPC0Gwl8UAQTRB5JfFABDrBwALQYSWxQBB5QBB7JbFABDrBwALQfyWxQBBIkGgl8UAEKsHAAv4AgEFfyMAQRBrIgYkAAJAAkAgA0H/////A0sNACADQQJ0IgRB/f///wdPDQACQCAERQRAQQQhCAwBCyADIQcgBBBxIghFDQILIAZBADYCDCAGIAg2AgggBiAHNgIEAkACQAJAAkAgAwRAQQAhBEEAIQcDQCACIARNDQIgBEEBaiIFIAJPDQMgBEECaiIFIAJPDQQgBEEDaiIFIAJPDQUgASAEaiIFQQFqLQAAQQh0IAUtAAByIAVBAmotAABBEHRyIAVBA2otAABBGHRyIQUgBigCBCAHRgRAIAZBBGpBjOjHABD6BSAGKAIIIQgLIAQgCGogBTYCACAGIAdBAWoiBzYCDCAEQQRqIQQgAyAHRw0ACwsgACAGKQIENwIAIABBCGogBkEMaigCADYCACAGQRBqJAAPCyAEIAJBzOfHABCMBwALIAUgAkHc58cAEIwHAAsgBSACQeznxwAQjAcACyAFIAJB/OfHABCMBwALQbznxwAQ/wcLAAv4AgEFfyMAQRBrIgYkAAJAAkAgA0H/////A0sNACADQQJ0IgRB/f///wdPDQACQCAERQRAQQQhCAwBCyADIQcgBBBxIghFDQILIAZBADYCDCAGIAg2AgggBiAHNgIEAkACQAJAAkAgAwRAQQAhBEEAIQcDQCACIARNDQIgBEEBaiIFIAJPDQMgBEECaiIFIAJPDQQgBEEDaiIFIAJPDQUgASAEaiIFQQFqLQAAQQh0IAUtAAByIAVBAmotAABBEHRyIAVBA2otAABBGHRyIQUgBigCBCAHRgRAIAZBBGpBnOzHABCLBiAGKAIIIQgLIAQgCGogBTYCACAGIAdBAWoiBzYCDCAEQQRqIQQgAyAHRw0ACwsgACAGKQIENwIAIABBCGogBkEMaigCADYCACAGQRBqJAAPCyAEIAJB3OvHABCMBwALIAUgAkHs68cAEIwHAAsgBSACQfzrxwAQjAcACyAFIAJBjOzHABCMBwALQczrxwAQ/wcLAAvkAgEIfwJAIAMgBC0AvgJBAnQoAtCPSSIFQQJqIgduIgMgASAFbiIBIAEgA0sbIgFFDQACQCAEKALMAUGBgICAeEYNACAEKALUASAFRw0AIAQoAtABIQMDQCAFBEAgAiAAIAX8CgAACyACIAVqIgRBAWpBf0EAIAAgAyAFENsHGyIGOgAAIAQgBjoAACAAIAVqIQAgAiAHaiECIAFBAWsiAQ0ACwwBC0EAIQMgAUEBRwRAIAFBAXEgAUF+cSEJIAVBAXQiBkEEaiEKIAIhASAAIQQDQCAFRSILRQRAIAEgBCAF/AoAAAsgASAFaiIMQf//AzsAACALRQRAIAxBAmogBCAFaiAF/AoAAAsgASAGakECakH//wM7AAAgASAKaiEBIAQgBmohBCAJIANBAmoiA0cNAAtFDQELIAIgAyAHbGohASAFBEAgASAAIAMgBWxqIAX8CgAACyABIAVqQf//AzsAAAsLggMBBH8gACgCDCECAkACQAJAIAFBgAJPBEAgACgCGCEDAkACQCAAIAJGBEAgAEEUQRAgACgCFCICG2ooAgAiAQ0BQQAhAgwCCyAAKAIIIgEgAjYCDCACIAE2AggMAQsgAEEUaiAAQRBqIAIbIQQDQCAEIQUgASICQRRqIAJBEGogAigCFCIBGyEEIAJBFEEQIAEbaigCACIBDQALIAVBADYCAAsgA0UNAgJAIAAoAhxBAnRBsLfJAGoiASgCACAARwRAIAMoAhAgAEYNASADIAI2AhQgAg0DDAQLIAEgAjYCACACRQ0EDAILIAMgAjYCECACDQEMAgsgACgCCCIAIAJHBEAgACACNgIMIAIgADYCCA8LQci6yQBByLrJACgCAEF+IAFBA3Z3cTYCAA8LIAIgAzYCGCAAKAIQIgEEQCACIAE2AhAgASACNgIYCyAAKAIUIgBFDQAgAiAANgIUIAAgAjYCGA8LDwtBzLrJAEHMuskAKAIAQX4gACgCHHdxNgIAC7ACAQR/IAAoAgwhASAAKAIQIgIoAgAiAwRAIAEgAxEDAAsCQAJAIAIoAgQiAgRAIAFBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAJqSQ0BIANBACAEIAJBJ2pLGw0CIAEQogILIAAoAhQhASAAKAIYIgIoAgAiAwRAIAEgAxEDAAsgAigCBCICBEAgAUEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAmpJDQEgA0EAIAQgAkEnaksbDQIgARCiAgsCQCAAQX9GDQAgACAAKAIEQQFrIgE2AgQgAQ0AIABBBGsoAgAiAUF4cSICQSBBJCABQQNxIgEbSQ0BIAFBACACQcQATxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC6QDAQJ/AkACfwJAIAAoAgBBgICAgHhHBEAgAyABIAIgBCAAKAIEIAAoAggQtAEiBQ0DIAMgASACIAQgACgCECAAKAIUELQBIgUNAyADIAEgAiAEIAAoAjwgACgCQBC0ASIFDQMgAyABIAIgBCAAKAJgIAAoAmQQtAEiBQ0DIAMgASACIAQgACgCeCAAKAJ8ELQBIgUNAyAAKAKgAUGAgICAeEcNAUEADwsgAyABIAIgBCAAKAIUIAAoAhgQtAEiBQ0CIAMgASACIAQgACgCICAAKAIkELQBIgUNAiADIAEgAiAEIAAoAkQgACgCSBC0ASIFDQIgAyABIAIgBCAAKAJcIAAoAmAQtAEiBQ0CIAMgASACIAQgACgCdCAAKAJ4ELQBIgUNAiAAKAKIAUGAgICAeEYEQEEADwsgAyABIAIgBCAAKAKMASAAKAKQARC0ASIFDQJBmAEhBkGcAQwBCyADIAEgAiAEIAAoAqQBIAAoAqgBELQBIgUNAUGwASEGQbQBCyEFIAMgASACIAQgACAGaigCACAAIAVqKAIAELQBIQULIAULzQICB38CfiMAQRBrIgQkACABKAIAIQYCQAJAIAEoAggiAiABKAIEIgdJBEAgAiAGai0AAEHfAEYNAQsgAiAHIAIgB0sbIQgCQANAAkAgAiAHSQRAIAIgBmotAABB3wBGDQMLAkACQCACIAhGDQIgAiAGai0AACIFQTBrIgNB/wFxQQpJDQEgBUHhAGtB/wFxQRpJDQAgBUHBAGtB/wFxQRpPDQIgBUEdayEDDAELIAVB1wBrIQMLIAEgAkEBaiICNgIIIAQgCUI+EN0GIAQpAwhQRQRADAELIAQpAwAiCiADrUL/AYN8IgkgCloNAQsLIABBADoAAUEBIQMMAgtBASEDIAEgAkEBajYCCCAJQn9SBEAgACAJQgF8NwMIQQAhAwwCCyAAQQA6AAEMAQsgAEIANwMIIAEgAkEBajYCCAsgACADOgAAIARBEGokAAuWAwEFfyMAQSBrIgIkAAJAQaC7yQAoAgBFBEBBoLvJAEF/NgIAAn8CQAJAAkBBrLvJACgCACIBQai7yQAoAgAiAEYEQCABQaS7yQAoAgAiAEcNAdBvQYABIAEgAUGAAU0bIgP8DwEiAEF/Rw0CDAYLIAAgAU0NBUGgtMkAKAIAIAFBAnRqKAIAIQBBAAwDCyAAIAFNDQRBoLTJACgCACEADAELAkBBsLvJACgCACIERQRAQbC7yQAgADYCAAwBCyABIARqIABHDQQLIAEgA2oiA0H/////AUsNA0EAIQAgAiABBH8gAiABQQJ0NgIcIAJBoLTJACgCADYCFEEEBSAACzYCGCACQQhqIANBAnQgAkEUahCBByACKAIIQQFGDQNBoLTJACACKAIMIgA2AgBBpLvJACADNgIACyAAIAFBAnRqIAFBAWoiADYCAEGou8kAIAA2AgBBoLvJACgCAEEBagshA0Gsu8kAIAA2AgBBoLvJACADNgIAQbC7yQAoAgAgAkEgaiQAIAFqDwtB8I7IABCwCgALAAvXAgEJfwJAIAMgBC0AvgJBAnQoArSPSSIFQQFqIgZuIgMgASAFbiIBIAEgA0sbIgFFDQACQCAEKALMAUGBgICAeEYNACAEKALUASAFRw0AIAQoAtABIQMDQCAFBEAgAiAAIAX8CgAACyACIAVqQX9BACAAIAMgBRDbBxs6AAAgACAFaiEAIAIgBmohAiABQQFrIgENAAsMAQtBACEDIAFBAUcEQCABQQFxIAFBfnEhCSAFQQF0IgdBAmohCiAHQQFyIQsgAiEBIAAhBANAIAVFIgxFBEAgASAEIAX8CgAACyABIAVqIg1B/wE6AAAgDEUEQCANQQFqIAQgBWogBfwKAAALIAEgC2pB/wE6AAAgASAKaiEBIAQgB2ohBCAJIANBAmoiA0cNAAtFDQELIAIgAyAGbGohASAFBEAgASAAIAMgBWxqIAX8CgAACyABIAVqQf8BOgAACwv/AgIDfQN/IwBBEGshBSAAvCEGAkAgAIsiAbwiBEH////jBE0EQAJ/AkACQCAEQYCAgPcDTwRAIARBgIDg/ANJDQIgBEGAgPCABEkNAUMAAIC/IAGVIQBBAwwDC0F/IARBgICAzANPDQIaIARBgICABE8NBCAFIAAgAJQ4AgwgBSoCDBogAA8LIAFDAADAv5IgAUMAAMA/lEMAAIA/kpUhAEECDAELIARBgIDA+QNPBEAgAUMAAIC/kiABQwAAgD+SlSEAQQEMAQsgASABkkMAAIC/kiABQwAAAECSlSEAQQALIQUgACAAlCICIAKUIgEgAUNHEtq9lEOYyky+kpQhAyACIAEgAUMlrHw9lEMN9RE+kpRDqaqqPpKUIQEgBEGAgID3A08EQCAFQQJ0IgQqAuywSSAAIAMgAZKUIAQqAvywSZMgAJOTIgAgAIwgBkEAThsPCyAAIAAgAyABkpSTIQAMAQsgACAAXA0AQ9oPyT9D2g/JvyAGQQBOGw8LIAAL8AIBAn8jAEEwayICJAACfwJAAkACQAJAAkBBASAAKAIAIgNB/////wdqIANBgICAgHhNG0EBaw4EAQIDBAALIAIgAEEEajYCDCACIAJBDGqtQoCAgIDQBoQ3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkG4lsgANgIYIAIgAkEQajYCICACQRhqEMEDDAQLIAIgADYCDCACIAJBDGqtQoCAgICwD4Q3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkHYlsgANgIYIAIgAkEQajYCICACQRhqEMEDDAMLIAIgAEEEajYCDCACIAJBDGqtQoCAgIDAD4Q3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkH8lsgANgIYIAIgAkEQajYCICACQRhqEMEDDAILIAEoAgBBhJfIAEEjIAEoAgQoAgwRAAAMAQsgASgCAEGnl8gAQR4gASgCBCgCDBEAAAsgAkEwaiQAC/cCAgV/AX4jAEEwayIBJAAgACkCECEGIAAoAgwhAyAAKAIIIQQgACgCACECAkACQAJAAkACfwJAAkACQAJAAkAgACgCBCIADgIAAQILIAMNAUEBIQNBACEAQQEhAgwDCyADRQ0BCyABIAY3AiggASADNgIkIAEgBDYCICABIAA2AhwgASACNgIYIAFBDGogAUEYahDsAyABKAIMIQAgASgCECECIAEoAhQMAgsgAigCBCIAQQBIDQIgAigCACEDIABFBEBBASECQQAhAAwBCyAAEHEiAkUNAwsgAARAIAIgAyAA/AoAAAsgASAANgIUIAEgAjYCECABIAA2AgwgAAshAyACIAMQ6wggAARAIAJBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIABqSQ0DIARBACAFIABBJ2pLGw0EIAIQogILIAFBMGokAA8LQdiayAAQ/wcLAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALhQMCA30Cf0MAABBBIAEqAgwgAS0AHEECRiIGGyEFQwAAQMEgASoCCCAGGyEEQQAhAUEAIQYgAv0fACIDQwAAAABfRQRAQf8BQwAAgD9DAAAAACADEMYFIASTIAUgBJOVIgMgA0MAAAAAXRsiAyADQwAAgD9eG0MAAH5DlBC5ByID/AFBACADQwAAAABgGyADQwAAf0NeG0EBaiEGCyAC/R8BIgNDAAAAAF9FBEBB/wFDAACAP0MAAAAAIAMQxgUgBJMgBSAEk5UiAyADQwAAAABdGyIDIANDAACAP14bQwAAfkOUELkHIgP8AUEAIANDAAAAAGAbIANDAAB/Q14bQQFqIQELIABBE2ogAv0fAiIDQwAAAABfBH8gBwVB/wFDAACAP0MAAAAAIAMQxgUgBJMgBSAEk5UiBCAEQwAAAABdGyIEIARDAACAP14bQwAAfkOUELkHIgT8AUEAIARDAAAAAGAbIARDAAB/Q14bQQFqCzoAACAAIAZB/wFxIAFBCHRyOwARC9gCAQF/AkACQAJAAkAgASACIAMgBCAFIAYQwANFDQAgBSAGQQF0ayIBIARPDQECQCAEIAUgBmsiAksEQCABIANqIgEtAAAgAiADai0AAGsiAiACQR91IgJzIAJrIABB/wFxTQ0BQQEgAyAEIAUgBhDoBBoPCyACIARB+NfEABCMBwALIAUgBmoiAiAETw0CIAQgBU0NAyAAQf8BcSIHIAIgA2oiAC0AACADIAVqLQAAayICIAJBH3UiAnMgAmsiAkkgAyAEIAUgBhDoBCEDIAIgB0sNACAAQf8BIAAtAAAgA0EBakEBdSIAayICQQAgAkEAShsiAiACQf8BThs6AAAgAUH/AEGAfyAAIAEtAABqQYABayIAIABBgH9MGyIAIABB/wBOG0GAAXM6AAALDwsgASAEQejXxAAQjAcACyACIARBiNjEABCMBwALIAUgBEGY2MQAEIwHAAvZAgECfyMAQTBrIgIkAAJ/AkACQAJAAkBBASAALQAAIgNBJGsgA0EjTRtB/wFxQQFrDgMBAgMACyACIABBBGo2AgwgAiACQQxqrUKAgICA0AaENwMQIAEoAgAgASgCBCACQgE3AiQgAkEBNgIcIAJBoPjHADYCGCACIAJBEGo2AiAgAkEYahDBAwwDCyACIAA2AgwgAiACQQxqrUKAgICA4AaENwMQIAEoAgAgASgCBCACQgE3AiQgAkEBNgIcIAJBoPjHADYCGCACIAJBEGo2AiAgAkEYahDBAwwCCyACIABBBGo2AgggAiACQQxqrUKAgICA8AaENwMQIAIgAkEIajYCDCABKAIAIAEoAgQgAkIBNwIkIAJBATYCHCACQaD4xwA2AhggAiACQRBqNgIgIAJBGGoQwQMMAQsgASgCAEHcrcUAQRMgASgCBCgCDBEAAAsgAkEwaiQAC4UDAQV/IwBBIGsiAyQAIAAoAgwhBAJAAkACQAJAAkACQCAAKAIUIgEgACgCECICSQRAA0ACQCABIARqLQAAIgVBCWsOJAAABAQABAQEBAQEBAQEBAQEBAQEBAQEAAQEBAQEBAQEBAQEBgMLIAAgAUEBaiIBNgIUIAEgAkcNAAsgAiEBCyADQRBqIAQgAiABQQFqIgAgAiAAIAJJGxD5ASADKAIUIQIgAygCECEAQRQQcSIBRQ0FIAEgADYCDCABQQM2AgAgASACNgIQDAQLIAVB/QBGDQELIANBCGogBCACIAFBAWoiACACIAAgAkkbEPkBIAMoAgwhAiADKAIIIQBBFBBxIgFFDQMgASAANgIMIAFBFjYCACABIAI2AhAMAgsgACABQQFqNgIUQQAhAQwBCyADQRhqIAQgAiABQQFqIgAgAiAAIAJJGxD5ASADKAIcIQIgAygCGCEAQRQQcSIBRQ0BIAEgADYCDCABQRU2AgAgASACNgIQCyADQSBqJAAgAQ8LAAu8AgEEfwJAAkACQAJAAkACQEEBIAAoAgAiAUH/////B2ogAUGAgICAeE0bDgIAAQMLIAAtAARBA0cNAiAAKAIIIgAoAgAhASAAQQRqKAIAIgIoAgAiAwRAIAEgAxEDAAsgAigCBCICBEAgAUEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAmpJDQUgA0EAIAQgAkEnaksbDQQgARCiAgsgAEEEaygCACIBQXhxIgJBEEEUIAFBA3EiARtJDQQgAUUgAkE0SXINAQwDCyABQYCAgIB4ckGAgICAeEYNASAAKAIEIgBBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0DIAJFIAMgAUEnak1yDQAMAgsgABCiAgsPC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAvmAgIEfgN/AkACQAJAIAFB2ABqIAIQqAQiAgRAIAIpAxAiBSACKQMIIgR9IgcgA61WBEAgAEEaOgAADwsgB6ciAkEASA0BQQEhAwJAIAQgBVEiCQ0AIAIQcSIDRQ0DIANBBGstAABBA3FFIAJFcg0AIANBACAC/AsACyABKAJMIgitIQYgAiAIQv////8PIAQgBEL/////D1obp2siCkEAIAggCk8bTQRAIAEoAkggBCAGIAQgBlQbp2ohCAJAIAdCAVIEQCACRQ0BIAMgCCAC/AoAAAwBCyADIAgtAAA6AAALIAEgBTcDUAwECyABIAUgBkGokMgAKQMAIgRC/wGDQgRRIgEbNwNQIAENAyAAIAQ3AgQgAEEAOgAAIAlFBEAgAyACQQEQogcLDwsgAEEdOgAAIABBgICAgHg2AgQPC0HU9sYAEP8HCwALIAAgAjYCDCAAIAM2AgggACACNgIEIABBHToAAAvFAgEFf0ERQQAgAEGvsARPGyICIAJBCHIiASAAQQt0IgIgAUECdCgCzPlCQQt0SRsiASABQQRyIgEgAUECdCgCzPlCQQt0IAJLGyIBIAFBAnIiASABQQJ0KALM+UJBC3QgAksbIgEgAUEBaiIBIAFBAnQoAsz5QkELdCACSxsiASABQQFqIgEgAUECdCgCzPlCQQt0IAJLGyIBQQJ0KALM+UJBC3QiBCACRiACIARLaiABaiIEQQJ0IgJBzPnCAGohBSACKALM+UJBFXYhAkHvBSEBAkAgBEEgTQRAIAUoAgRBFXYhASAERQ0BCyAFQQRrKAIAQf///wBxIQMLAkAgASACQX9zakUNACAAIANrIQMgAUEBayEBQQAhAANAIAAgAkH7+MEAai0AAGoiACADSw0BIAEgAkEBaiICRw0ACwsgAkEBcQvFAgEFf0ESQQAgAEGwuARPGyICIAJBCXIiASAAQQt0IgIgAUECdCgCuPhCQQt0SRsiASABQQVqIgEgAUECdCgCuPhCQQt0IAJLGyIBIAFBAmoiASABQQJ0KAK4+EJBC3QgAksbIgEgAUEBaiIBIAFBAnQoArj4QkELdCACSxsiASABQQFqIgEgAUECdCgCuPhCQQt0IAJLGyIBQQJ0KAK4+EJBC3QiBCACRiACIARLaiABaiIEQQJ0IgJBuPjCAGohBSACKAK4+EJBFXYhAkH/BiEBAkAgBEEjTQRAIAUoAgRBFXYhASAERQ0BCyAFQQRrKAIAQf///wBxIQMLAkAgASACQX9zakUNACAAIANrIQMgAUEBayEBQQAhAANAIAAgAkH88cEAai0AAGoiACADSw0BIAEgAkEBaiICRw0ACwsgAkEBcQvuAgIDfwJ+IwBBIGsiBCQAAkAgASgCxANBAkYEQAJAIAACfgJAIAEtAOQDRQRAA0AgASgCnAMiAiABKQOgAyIFIAKtIgYgBSAGVBunIgNGBEBBASEDQSQhAkIlDAQLIARBDGogASABKAKYAyADaiACIANrQQAQ1gEgBCkCFCEFIAQoAhAhAgJAIAQoAgxFBEAgASABKQOgAyACrXw3A6ADIAWnIQMMAQsgBachAyACQf8BcUEoRw0DCyADQf8BcUEGRw0ACyABKAK8BCICRQ0FIAFBAToA5AMgASACQQFrNgK8BAsgAEEoOgAADAILIAQoAhwhASAFQgiICyIFPgAFIAAgATYCDCAAIAM6AAQgACACOgAAIABBC2ogBUIwiDwAACAAQQlqIAVCIIg9AAAgACACQRB2OwECIAAgAkEIdjoAAQsgBEEgaiQADwtB3JjHAEHAAEGcmccAEOsHAAtBrJnHAEErQdiZxwAQ6wcAC8sCAQR/AkACQAJAIAIgAyAEQQF0ayIGSwRAIAMgBGsiBSACTw0BIAIgA00NAiADIARqIgQgAk8NAyABIAVqIgctAAAhAiABIANqIggtAAAhBUEAIQMgCEH/AEGAfyAFQfsAQYB/IAAEf0H/AEGAfyABIAZqLQAAIAEgBGotAABrIgAgAEGAf0wbIgAgAEH/AE4bBSADCyAFIAJrQQNsaiIAIABBgH9MGyIAIABB+wBOG0EEakEDdSIBa0GAAWsiAyADQYB/TBsiAyADQf8AThtBgAFzOgAAIAdB/wBBgH8gAkH8ACAAIABB/ABOG0EDakEDdWpBgAFrIgAgAEGAf0wbIgAgAEH/AE4bQYABczoAACABDwsgBiACQYjWxAAQjAcACyAFIAJBmNbEABCMBwALIAMgAkGo1sQAEIwHAAsgBCACQbjWxAAQjAcAC8kCAQd/IwBBIGsiAyQAAkACQAJAAkAgASAAKAK4AUYEQCAAKAK8ASACRg0BCyAAEKMFIAAgAhDQBCAAKAKwASABQQJ0IgUgASACakECdCIGEOEIIQggAkECdCIEIAAoAnwiB0sNASAAKAJ4IAMgCBC4CiIJNgIAIAMgBDYCBCAEIAlHDQMgBCAIEOEJIAAoArQBIAUgBhDhCCEFIAQgACgCiAEiBksNAiAAKAKEASADIAUQuAoiBzYCACADIAQ2AgQgBCAHRw0DIAQgBRDhCSAAQQA6AMABIAAgAjYCvAEgACABNgK4ASAFQYQITwRAIAUQmwcLIAhBhAhJDQAgCBCbBwsgA0EgaiQADwtBACAEIAdBoOjAABDqBwALQQAgBCAGQZDowAAQ6gcACyADQQA2AghBACADIANBBGogA0EIakHg+cQAEPUHAAvUAgICfQJ/IAQEQCAAIAEgAiADIAQQlgILIAYEQCAAIAEgAiAFIAYQxwELAkACQAJAIAhFIAJFcg0AIAAoAlxBA0kNAEMAAP5CQwAA/kIgACoCVJUgAC0AWEECRhshCiAAKAI0IAFBFWxqIQUgACgCOCEMQQAhBANAIAEgC2oiACAMTw0CIAtBAWohC0EAIQAgByEGA0AgACAEaiIDIAhPDQQgACAFakH/AEMAAP5CQwAA/sIgCiAGKgIAlCIJIAlDAAD+wl0bIgkgCUMAAP5CXhsQuQciCfwAQYB/IAlDAAAAw2AbIAlDAAD+Ql4bQQAgCSAJWxs6AAAgBkEEaiEGIABBAWoiAEEVRw0ACyAHQdQAaiEHIARBFWohBCAFQRVqIQUgAiALRw0ACwsPCyALQRVsIgMgCE8NACAAIAxBxMTHABCMBwALIAMgCEG0xMcAEIwHAAvcAgIEfwF+IwBBQGoiAiQAIAAoAgAhACACQQA2AhggAkKAgICAEDcCECACQfidxgA2AiwgAkKggICADjcCMCACIAJBEGoiAzYCKAJAAkAgACACQShqIgQQ5ANFBEAgAkEIaiACQRhqKAIANgIAIAIgAikCEDcDACACQoCAgIAQIgYgAEEQaq2ENwMgIAIgBiAAQQxqrYQ3AxggAiACrUKAgICAkA6ENwMQIAEoAgAgASgCBCACQgM3AjQgAkEENgIsIAJBrKDGADYCKCACIAM2AjAgBBDBAyACKAIAIgAEQCACKAIEIgRBBGsoAgAiA0F4cSIFQQRBCCADQQNxIgMbIABqSQ0CIANBACAFIABBJ2pLGw0DIAQQogILIAJBQGskAA8LQaCexgBBNyACQZCexgBB2J7GABDgBgALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC/ACAQF/AkAgAgRAIAEtAABBME0NASAFQQI7AQACQAJAAkACQCADwSIGQQBKBEAgBSABNgIEIAIgA0H//wNxIgNLDQIgBUEAOwEMIAUgAjYCCCAFIAMgAms2AhAgBA0BQQIhAQwECyAFIAI2AiAgBSABNgIcIAVBAjsBGCAFQQA7AQwgBUECNgIIIAVBuYPCADYCBCAFQQAgBmsiAzYCEEEDIQEgAiAETw0DIAQgAmsiAiADTQ0DIAIgBmohBAwCCyAFQQE2AiAgBUHsucUANgIcIAVBAjsBGAwBCyAFQQI7ARggBUEBNgIUIAVB7LnFADYCECAFQQI7AQwgBSADNgIIIAUgAiADayICNgIgIAUgASADajYCHCACIARPBEBBAyEBDAILIAQgAmshBAsgBSAENgIoIAVBADsBJEEEIQELIAAgATYCBCAAIAU2AgAPC0G+g8IAQSFB4IPCABDrBwALQfCDwgBBH0GQhMIAEOsHAAuaAgEEfwJAAkACQAJAIAAoAgAiAUGAgICAeEcEQCABRQ0CIAAoAgQiAEEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAWpJDQQgAkUgAyABQSdqTXINAQwDCyAALQAEQQNHDQEgACgCCCIAKAIAIQEgAEEEaigCACICKAIAIgMEQCABIAMRAwALIAIoAgQiAgRAIAFBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAJqSQ0EIANBACAEIAJBJ2pLGw0DIAEQogILIABBBGsoAgAiAUF4cSICQRBBFCABQQNxIgEbSQ0DIAFFDQAgAkE0Tw0CCyAAEKICCw8LQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC9gCAQZ/IwBBEGsiBCQAAn8CQAJAAkAgACgCACIDRQ0AA0ACQCAAKAIIIgEgACgCBCIFTw0AIAEgA2otAABBxQBHDQAgACABQQFqNgIIDAILAkACQAJAAkAgAkUNACAAKAIQIgZFDQAgBkHnkMYAQQIQlwMNByAAKAIAIgNFDQEgACgCCCEBIAAoAgQhBQsgASAFTw0AAkAgASADai0AAEHLAGsOAgIAAQsgACABQQFqNgIIIAQgABDZBCAELQAADQUgACAEKQMIEIIGDQYMAgsgABCGAg0FDAELIAAgAUEBajYCCEEBIABBABDVAQ0FGgsgAkEBayECIAAoAgAiAw0ACwtBAAwCCyAELQABIQEgACgCECICBEBBASACQfqyxQBB6rLFACABQQFxIgIbQRlBECACGxCXAw0CGgsgACABOgAEIABBADYCAEEADAELQQELIARBEGokAAu6AgIHfgJ/IANBCE8EQCAAIAAgA0EDdiILQQd0IgxqIAAgC0HgAWwiA2ogCxDvBCEAIAEgASAMaiABIANqIAsQ7wQhASACIAIgDGogAiADaiALEO8EIQILIAEpAxghCCAAKQMYIQogACkDCCIGIQQgASkDCCIHIQUCfwJAIAYgB1INACAAKQMQIgQgASkDECIFUg0AIAghBUEAIAoiBCAIUQ0BGgsgBCAFVAshAyACKQMYIQkgAikDCCIEIQUCQAJAAkAgBCAGUg0AIAApAxAiBiACKQMQIgVSDQAgCSEFIAkgCiIGUg0AIANFDQEMAgsgAyAFIAZWcw0BCyACIAECfwJAIAQgB1INACABKQMQIgcgAikDECIEUg0AIAghB0EAIAkiBCAIUQ0BGgsgBCAHVgsgA3MbIQALIAALuAICAnwCfyMAQRBrIgckACADuiEFIAACfwJAAkACQAJAIAQgBEEfdSIIcyAIayIIQbUCTwRAA0AgBUQAAAAAAAAAAGENBSAEQQBODQIgBUSgyOuF88zhf6MhBSAEQbQCaiIEIARBH3UiCHMgCGsiCEG1Ak8NAAsLIAhBA3QrA6CCRyEGIARBAE4NASAFIAajIQUMAwsgB0EIaiABKAIMIAEoAhAgASgCFBD5ASAHKAIMIQIgBygCCCEEDAELIAUgBqIiBZlEAAAAAAAA8H9iDQEgByABKAIMIAEoAhAgASgCFBD5ASAHKAIEIQIgBygCACEEC0EUEHEiAQRAIAEgBDYCDCABQQ42AgAgACABNgIEIAEgAjYCEEEBDAILAAsgACAFIAWaIAIbOQMIQQALNgIAIAdBEGokAAuzAgIFfwF9IAAoAggiAyAAKAIARgRAIABByJXBABD5BQsgACADQQFqNgIIIAAoAgQiBCADQQN0aiIAIAI2AgQgACABOAIAAkAgA0UEQEEAIQAMAQsgASABWwRAA0AgBCADQQFrIgZBAXYiAEEDdGoiBSoCACIIIAhbIAEgCF9FcUF/IAEgCGAbIgdBAEwgAiAFQQRqKAIATSAHGwRAIAMhAAwDCyAEIANBA3RqIAUpAgA3AgAgACEDIAZBAUsNAAwCCwALA0ACQCAEIANBAWsiBkEBdiIAQQN0aiIFKgIAIgggCFsgASAIX0VxDQAgAiAFQQRqKAIASw0AIAMhAAwCCyAEIANBA3RqIAUpAgA3AgAgACEDIAZBAk8NAAsLIAQgAEEDdGoiACACNgIEIAAgATgCAAujAgIBfwF+IwBB8ABrIgckACAHIAI2AgwgByABNgIIIAcgBDYCFCAHIAM2AhAgB0ECNgIcIAdBxojDAEHEiMMAIABBAXEbNgIYAkAgBSgCAARAIAdBMGogBUEQaikCADcDACAHIAX9AAIA/QsDICAHQQQ2AlwgB0GsicMANgJYIAdCBDcCZCAHQoCAgICQASIIIAdBEGqthDcDUCAHIAggB0EIaq2ENwNIIAcgB0Egaq1CgICAgIAGhDcDQAwBCyAHQQM2AlwgB0H4iMMANgJYIAdCAzcCZCAHQoCAgICQASIIIAdBEGqthDcDSCAHIAggB0EIaq2ENwNACyAHIAdBGGqtQoCAgICgAYQ3AzggByAHQThqNgJgIAdB2ABqIAYQjQgAC64CAgR/A34jAEEgayIDJABBFCECAkAgACkDACIIIAhCP4ciBoUgBn0iB0LoB1QEQCAHIQYMAQsDQCADQQxqIAJqIgBBBGsgByAHQpDOAIAiBkKQzgB+faciBEH//wNxQeQAbiIFQQF0LwC4ukU7AAAgAEECayAEIAVB5ABsa0H//wNxQQF0LwC4ukU7AAAgAkEEayECIAdC/6ziBFYgBiEHDQALCyAGQglWBEAgAkECayICIANBDGpqIAanIgAgAEH//wNxQeQAbiIAQeQAbGtB//8DcUEBdC8AuLpFOwAAIACtIQYLIAhQRSAGUHFFBEAgAkEBayICIANBDGpqIAanQQF0LQC5ukU6AAALIAEgCEIAWUEBQQAgA0EMaiACakEUIAJrEMgDIANBIGokAAvBAgEBfyMAQTBrIgIkAAJ/AkACQAJAAkAgAC0AAEEBaw4DAQIDAAsgAiAAQQFqNgIMIAIgAkEMaq1CgICAgPAHhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBATYCHCACQaD4xwA2AhggAiACQRBqNgIgIAJBGGoQwQMMAwsgAiAAQQRqNgIMIAIgAkEMaq1CgICAgMAHhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBAjYCHCACQbCQxgA2AhggAiACQRBqNgIgIAJBGGoQwQMMAgsgAiAAQQRqNgIMIAIgAkEMaq1CgICAgIAIhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBAjYCHCACQdjExAA2AhggAiACQRBqNgIgIAJBGGoQwQMMAQsgASgCAEHoxMQAQQkgASgCBCgCDBEAAAsgAkEwaiQAC60CAQd/IwBBEGsiBCQAQQohAgJAIAAoAgAiBSAFQR91IgBzIABrIgBB6AdJBEAgACEDDAELA0AgBEEGaiACaiIGQQRrIAAgAEGQzgBuIgNBkM4AbGsiB0H//wNxQeQAbiIIQQF0LwC4ukU7AAAgBkECayAHIAhB5ABsa0H//wNxQQF0LwC4ukU7AAAgAkEEayECIABB/6ziBEsgAyEADQALCwJAIANBCU0EQCADIQAMAQsgAkECayICIARBBmpqIAMgA0H//wNxQeQAbiIAQeQAbGtB//8DcUEBdC8AuLpFOwAAC0EAIAUgABtFBEAgAkEBayICIARBBmpqIABBAXQtALm6RToAAAsgASAFQX9zQR92QQFBACAEQQZqIAJqQQogAmsQyAMgBEEQaiQAC+ACAgF9An8CQAJ9IAC8IgNB/////wdxIgJB////+wNNBEAgAkGAgID4A08EQCADQQBOBEBDAACAPyAAk0MAAAA/lCIAkSIBIAAgACAAQ2vTDbyUQ7oTL72SlEN1qio+kpQgAEOu5TS/lEMAAIA/kpWUIAAgAbxBgGBxviIAIACUkyABIACSlZIgAJIiACAAkg8LQ9oPyT8gAEMAAIA/kkMAAAA/lCIAkSIBIAEgACAAIABDa9MNvJRDuhMvvZKUQ3WqKj6SlCAAQ67lNL+UQwAAgD+SlZRDaCGis5KSkyIAIACSDwtD2g/JPyACQYGAgJQDSQ0BGkNoIaIzIAAgACAAlCIBIAEgAUNr0w28lEO6Ey+9kpRDdaoqPpKUIAFDruU0v5RDAACAP5KVlJMgAJND2g/JP5IPCyACQYCAgPwDRg0BQwAAAAAgACAAk5ULDwtDAAAAAEPaD0lAIANBAE4bC4ECAQV/IABBBGoQ6gICQAJAIAAtABxBA0YEQCAAKAIgIgIoAgAhASACQQRqKAIAIgMoAgAiBARAIAEgBBEDAAsgAygCBCIDBEAgAUEEaygCACIEQXhxIgVBBEEIIARBA3EiBBsgA2pJDQIgBEEAIAUgA0EnaksbDQMgARCiAgsgAkEEaygCACIBQXhxIgNBEEEUIAFBA3EiARtJDQEgAUEAIANBNE8bDQIgAhCiAgsgAEEEaygCACICQXhxIgFBKEEsIAJBA3EiAhtJDQAgAkEAIAFBzABPGw0BIAAQogIPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAu4AgIIfwF9IwBBEGsiBSQAAkACQCADIARsIgZB/////wNLDQAgBkECdCIHQf3///8HTw0AAkAgB0UEQEEEIQhBACEGDAELIAcQcSIIRQ0CCyAFQQA2AgwgBSAINgIIIAUgBjYCBAJAIAQEQCAEQQJ0IQwDQCAJQQJ0IQsgCkECdCEGIApBAWohCiADIQcDQCAGQQNqIAJPDQMgASAGaioAACENIAUoAgQgCUYEQCAFQQRqQdzmxwAQ+gUgBSgCCCEICyAIIAtqIA04AgAgBSAJQQFqIgk2AgwgC0EEaiELIAYgDGohBiAHQQFrIgcNAAsgBCAKRw0ACwsgACAFKQIENwIAIABBCGogBUEMaigCADYCACAFQRBqJAAPCyAGIAZBBGogAkHs5scAEOoHAAtBzObHABD/BwsAC7gCAgd/AX0jAEEQayIIJAACQAJAIAMgBGwiB0H/////A0sNACAHQQJ0IglB/f///wdPDQACQCAJRQRAQQQhCkEAIQcMAQsgCRBxIgpFDQILIAhBADYCDCAIIAo2AgggCCAHNgIEAkAgBARAIAYgBZMhDkEAIQcDQCALQQJ0IQwgB0EBaiADIQ0DQCACIAdNDQMgBSAOIAEgB2otAACzQwAAf0OVlJIhBiAIKAIEIAtGBEAgCEEEakHM7McAEPoFIAgoAgghCgsgCiAMaiAGOAIAIAggC0EBaiILNgIMIAxBBGohDCAEIAdqIQcgDUEBayINDQALIgcgBEcNAAsLIAAgCCkCBDcCACAAQQhqIAhBDGooAgA2AgAgCEEQaiQADwsgByACQbzsxwAQjAcAC0Gs7McAEP8HCwALqwIBBX9BC0EAIABBgI8ETxsiAiACQQVqIgEgAEELdCICIAFBAnQoAtT6QkELdEkbIgEgAUEDaiIBIAFBAnQoAtT6QkELdCACSxsiASABQQFqIgEgAUECdCgC1PpCQQt0IAJLGyIBIAFBAWoiASABQQJ0KALU+kJBC3QgAksbIgFBAnQoAtT6QkELdCIEIAJGIAIgBEtqIAFqIgRBAnQiAkHU+sIAaiEFIAIoAtT6QkEVdiECQbsCIQECQCAEQRRNBEAgBSgCBEEVdiEBIARFDQELIAVBBGsoAgBB////AHEhAwsCQCABIAJBf3NqRQ0AIAAgA2shAyABQQFrIQFBACEAA0AgACACQer+wQBqLQAAaiIAIANLDQEgASACQQFqIgJHDQALCyACQQFxC7YCAQZ/IwBBEGsiBiQAIAAgASACEMwDAkAgAgRAIAAoAmAhCSAAKAJkIQhBACEBA0AgAUEDaiAITw0CAkACQCABIARPDQAgBCABayIFQQAgBCAFTxsiBUEBRwRAAkACQCAFQQJrDgIBAAQLIAFBA2ohAQwCCyABQQJqIQEMAQsgAUEBaiEBCyABIARB5ODAABCMBwALIAYgAyAHaiIFKgIAOAIAIAYgBUEMaioCADgCDCAGIAVBBGopAgA3AgQgByAJaiIFQQ9qIAYQnQQiCkEQdjoAACAFQQhqIgUgBS8BACAKQRB0IgVBgID8B3FyIAVBgICAeHFyNgIAIAdBEGohByABQQRqIQEgAkEBayICDQALCyAAQQE6ALgBIAZBEGokAA8LIAEgAUEEaiAIQdTgwAAQ6gcAC9kCAQN/IwBBEGsiAiQAIAEoAgBBjJvFAEEJIAEoAgQoAgwRAAAhAyACQQA6AAUgAiADOgAEIAIgATYCACACIAAoAAAiADYCCCACQaibxQBBBCACQQhqQZibxQAQjAUgAiAAQX9zQQV2QQFxOgAMQbybxQBBCCACQQxqQaybxQAQjAUgAiAAQQ12QQFxOgANQcSbxQBBByACQQ1qQaybxQAQjAUgAiAAQRV2QQFxOgAOQcubxQBBCCACQQ5qQaybxQAQjAUgAiAAQR12QQFxOgAPQdObxQBBCCACQQ9qQaybxQAQjAUhACACLQAFIgMgAi0ABCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXEL9wEBBH8CQAJAIAAoAgAiAgRAIAAoAgQiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsgACgCDCICBEAgACgCECIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAIYIgIEQCAAKAIcIgBBBGsoAgAiA0F4cSIBQQRBCCADQQNxIgMbIAJqSQ0BIANBACABIAJBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALsQICBX8DfiAALQAMQQxHBEAgAEEQajEAAEIghiEJIAA1AgwhCiAAKAIIIgUoAgAiAyAFKAIEIgYgACkDAKciB3EiAGopAABCgIGChIiQoMCAf4MiCFAEQEEIIQQDQCAAIARqIQAgBEEIaiEEIAMgACAGcSIAaikAAEKAgYKEiJCgwIB/gyIIUA0ACwsgAyAIeqdBA3YgAGogBnEiAGosAAAiBEEATgRAIAMgAykDAEKAgYKEiJCgwIB/g3qnQQN2IgBqLQAAIQQLIAAgA2ogB0EZdiIHOgAAIAMgAEEIayAGcWpBCGogBzoAACAFIAUoAgggBEEBcWs2AgggBSAFKAIMQQFqNgIMIAMgAEFobGoiAEEIayACNwMAIABBEGsgATcDACAAQRhrIAkgCoQ3AwALC7oCAQV/IwBBEGsiBSQAIAVBCGogACgCCCgCACABIAIQkQQCQAJAAkACQCAFLQAIIgZBBEcEQCAAKAIEIQEgAC0AACICQQRNIAJBA0dxRQRAIAEoAgAhAiABQQRqKAIAIgMoAgAiBARAIAIgBBEDAAsgAygCBCIDBEAgAkEEaygCACIEQXhxIgdBBEEIIARBA3EiBBsgA2pJDQMgBEEAIAcgA0EnaksbDQQgAhCiAgsgAUEEaygCACICQXhxIgNBEEEUIAJBA3EiAhtJDQQgAkEAIANBNE8bDQUgARCiAgsgACAFKQMINwIACyAFQRBqJAAgBkEERw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAu6AgEEf0EfIQIgAEIANwIQIAFB////B00EQCABQSYgAUEIdmciA2t2QQFxIANBAXRrQT5qIQILIAAgAjYCHCACQQJ0QbC3yQBqIQRBASACdCIDQcy6yQAoAgBxRQRAIAQgADYCACAAIAQ2AhggACAANgIMIAAgADYCCEHMuskAQcy6yQAoAgAgA3I2AgAPCwJAAkAgASAEKAIAIgMoAgRBeHFGBEAgAyECDAELIAFBGSACQQF2a0EAIAJBH0cbdCEFA0AgAyAFQR12QQRxaiIEKAIQIgJFDQIgBUEBdCEFIAIhAyACKAIEQXhxIAFHDQALCyACKAIIIgEgADYCDCACIAA2AgggAEEANgIYIAAgAjYCDCAAIAE2AggPCyAEQRBqIAA2AgAgACADNgIYIAAgADYCDCAAIAA2AggLtQICAn0FfyAAIAEgAhDMAyACQQNsIQkgACoChAEgACoCgAEiBZMhBkECIAQgBEECTRtBA25BA2whCiAAKAJgIQIgACgCZCEHQQAhAUEAIQACQAJAAkACQANAIAFBBGoiCCAHSw0CIAAgBE8NAyADIAUgBiACKAIAIgFB/wFxs0MAAH9DlZSSOAIAIABBAWoiCyAETw0EIANBBGogBSAGIAFBCHZB/wFxs0MAAH9DlZSSOAIAIAAgCkYNASADQQhqIAUgBiABQRB2Qf8BcbNDAAB/Q5WUkjgCACACQRBqIQIgA0EMaiEDIAghASAJIABBA2oiAEcNAAsPCyAAQQJqIARB/NLAABCMBwALIAEgCCAHQYzTwAAQ6gcACyAAIARB3NLAABCMBwALIAsgBEHs0sAAEIwHAAuuAgIHfwF9IwBBEGsiByQAAkACQCADIARsIgZB/////wNLDQAgBkECdCIIQf3///8HTw0AAkAgCEUEQEEEIQlBACEGDAELIAgQcSIJRQ0CCyAHQQA2AgwgByAJNgIIIAcgBjYCBAJAIAQEQEEAIQYDQCAKQQJ0IQsgBkEBaiADIQwDQCACIAZNDQMgBSABIAZqLAAAskMAAP5ClZQhDSAHKAIEIApGBEAgB0EEakH87McAEPoFIAcoAgghCQsgCSALaiANOAIAIAcgCkEBaiIKNgIMIAtBBGohCyAEIAZqIQYgDEEBayIMDQALIgYgBEcNAAsLIAAgBykCBDcCACAAQQhqIAdBDGooAgA2AgAgB0EQaiQADwsgBiACQezsxwAQjAcAC0Hc7McAEP8HCwAL0wIBBn8jAEGwA2siAiQAIAJBCGogAUEBEI8BAkACQAJAAn8gAigCCEECRgRAIAIoAgwhAyACQQA2ApgDIAJCgICAgBA3ApADIAJBnJPBADYCoAMgAkKggICADjcCpAMgAiACQZADajYCnAMgAyACQZwDahCvBA0CIAIoApADIQQgAigClAMiBiACKAKYAxDsCCEBIAQEQCAGQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyAEakkNBCAFQQAgByAEQSdqSxsNBSAGEKICCyADIAMoAgAoAgARAwBBAQwBCyACQcwBaiIBIAJBCGpBxAH8CgAAIAEQ0QEhAUEACyEDIAAgATYCBCAAIAM2AgAgAkGwA2okAA8LQaCexgBBNyACQa8DakG0k8EAQdiexgAQ4AYAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAveAgEEfyMAQTBrIgEkACAAKAIsIgL9DAEAAAAAAAAAAAAAAAAAAAD9CwMIIABBADYCLCAAKAI4IQQgACgCNCEDIAIoAsRwIQAgASACKALIcCICNgIMIAEgADYCCAJAAkACQAJAAkAgAEUNACADQR1HBEAgBCAAQQRrKAAAIAMRAQAMAQsgAkUNASACQcH///8HTw0CIABBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAJqSQ0DIANBACAEIAJBJ2pLGw0EIAAQogILIAFBMGokAA8LIAFCATcCHCABQQE2AhQgAUH4g8kANgIQIAEgAUEIaq1CgICAgPADhDcDKCABIAFBKGo2AhhBASABQQxqQfDlyAAgAUEQakGAhMkAEPUHAAtB2ObIAEErIAFBEGpBtIPJAEHEg8kAEOAGAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALnQICBH8DfiMAQSBrIgMkAEEUIQIgACkDACIIIQYgCELoB1oEQCAIIQcDQCADQQxqIAJqIgBBBGsgByAHQpDOAIAiBkKQzgB+faciBEH//wNxQeQAbiIFQQF0LwC4ukU7AAAgAEECayAEIAVB5ABsa0H//wNxQQF0LwC4ukU7AAAgAkEEayECIAdC/6ziBFYgBiEHDQALCyAGQglWBEAgAkECayICIANBDGpqIAanIgAgAEH//wNxQeQAbiIAQeQAbGtB//8DcUEBdC8AuLpFOwAAIACtIQYLIAhQRSAGUHFFBEAgAkEBayICIANBDGpqIAanQQF0LQC5ukU6AAALIAFBAUEBQQAgA0EMaiACakEUIAJrEMgDIANBIGokAAu7AgEDfyMAQSBrIgIkAAJ/AkACQAJAIAAoAgBFBEAgACgCECIADQEMAwsgAkEIaiAAEMgFIAIoAggiA0UEQCACLQAMIQMgACgCECIEBEBBASAEQfqyxQBB6rLFACADQQFxIgQbQRlBECAEGxCXAw0FGgsgACADOgAEIABBADYCAEEADAQLIAJBCGogAyACKAIMIgQQwgQCQCACKAIIQQFGBEAgAiACKQMQNwMYIAAoAhAiAEUNBCACQRhqIAAQhQUNAQwDCyAAKAIQIgBFDQMgAEGEtMUAQQIQlwMNACAAIAMgBBCXA0UNAgtBAQwDCyAAQZOzxQBBARCXAwwCCyAALQAKQYABcQ0AIAIgARDnByACKAIAIgEEQCAAIAEgAigCBBCXAwwCC0GItMUAEN0JAAtBAAsgAkEgaiQAC6MCAQV/AkACQAJAIAIgAkEDakF8cSIERwRAIAQgAmshBUEAIQQgAUH/AXEhB0EBIQYDQCACIARqLQAAIAdGDQQgBSAEQQFqIgRHDQALIAUgA0EIayIGSw0CDAELIANBCGshBgsgAUH/AXFBgYKECGwhBANAQYCChAggAiAFaiIHKAIAIARzIghrIAhyQYCChAggB0EEaigCACAEcyIHayAHcnFBgIGChHhxQYCBgoR4Rw0BIAVBCGoiBSAGTQ0ACwsCQCADIAVGDQAgAyAFayEDIAIgBWohAkEAIQQgAUH/AXEhAQNAIAEgAiAEai0AAEcEQCAEQQFqIgQgA0cNAQwCCwsgBCAFaiEEQQEhBgwBC0EAIQYLIAAgBDYCBCAAIAY2AgALqAIBBn8gACgCCCABTwRAIAAgATYCCAsCQAJAAkACQAJAIAAoAhQiAkUgASACS3INACAAIAE2AhQgASACRg0AIAIgAWshBSAAKAIQIAFBGGxqIQIDQCACQRRqKAIAIgNBBU8EQCACQQhqKAIAIgZBBGsoAgAiBEF4cSIHIANBAnQiA0EEQQggBEEDcSIEG2pJDQMgBEEAIAcgA0EnaksbDQQgBhCiAgsgAkEYaiECIAVBAWsiBQ0ACwsgACgCICICRQ0DIAEgAk0NAgwDC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgACABNgIgCyAAKAIsIgJFIAEgAktyRQRAIAAgATYCLAsgACgCOCICRSABIAJLckUEQCAAIAE2AjgLC8UCAgN/AXsjAEEgayICJAACQAJAAkAgACgCACIDRQ0AIAAoAggiASAAKAIETw0AAkACQAJAIAEgA2otAAAiA0HJAEcEQCADQcIARw0EIAAgAUEBajYCCCACIAAQrwYgAigCAA0BIAAoAhAiAUUNAiABQfqyxQBB6rLFACACLQAEQQFxIgEbQRlBECABGxCXA0UNAkECIQEMBgsgACABQQFqNgIIQQIhASAAQQAQzAFFDQQMBQsgACgCEEUNASAA/QACACEEIAAgAv0AAgD9CwIAIAIgBP0LAxAgABCJBSAAIAL9AAMQ/QsCAEH/AXEhAQwECyAAIAL9AAIA/QsCAAtBACEBDAILQQJBACAAQQAQzAEbIQEMAQsgACgCECIDBEAgA0Gms8UAQQEQlwMNAQtBAkEBIAAQ7gQbIQELIAJBIGokACABC78CAQR/AkACQAJAIAEoAghBAkcEQCABKALABCICRQRAIAEtAMcCIQMgAS0AxgIhAgwECyACQZCABHEhBAJAIAJBAXEgAS0AxwIiAyIFQRBGcUUEQCAERQ0BQQggBSAFQQhNGyADIAQbIQMMAwtBCCEDIAQNAiABLQDGAiECDAQLIAEtAMYCIQIMAgtBrJjHABDdCQALAkACQAJAIAEoAtQBQYGAgIB4RwRAQQQhAiABLQDGAiIBDgQEAQMDAQsgAkGAgARxIQICQAJAIAEtAMYCIgEOBAACAQMCCyACRQRAQQAhAgwFC0EEIQIMBAsgAg0CQQIhAQsgASECDAILIAINAEECIQIMAQtBBiECCyADQf8BcSIBQRBNQQBBASABdEGWggRxGw0AQeiZxwAQ3QkACyAAIAM6AAEgACACOgAAC5kCAQd/IwBBEGsiBCQAQQohAiAAKAIAIgUhAyAFQegHTwRAIAUhAANAIARBBmogAmoiBkEEayAAIABBkM4AbiIDQZDOAGxrIgdB//8DcUHkAG4iCEEBdC8AuLpFOwAAIAZBAmsgByAIQeQAbGtB//8DcUEBdC8AuLpFOwAAIAJBBGshAiAAQf+s4gRLIAMhAA0ACwsCQCADQQlNBEAgAyEADAELIAJBAmsiAiAEQQZqaiADIANB//8DcUHkAG4iAEHkAGxrQf//A3FBAXQvALi6RTsAAAtBACAFIAAbRQRAIAJBAWsiAiAEQQZqaiAAQQF0LQC5ukU6AAALIAFBAUEBQQAgBEEGaiACakEKIAJrEMgDIARBEGokAAvQAgEEfyMAQSBrIgUkAEEBIQcCQCAALQAEDQAgAC0ABSEIIAAoAgAiBi0ACkGAAXFFBEAgBigCAEHnkMYAQfyzxQAgCEEBcSIIG0ECQQMgCBsgBigCBCgCDBEAAA0BIAYoAgAgASACIAYoAgQoAgwRAAANASAGKAIAQd34xwBBAiAGKAIEKAIMEQAADQEgAyAGIAQoAgwRAgAhBwwBCyAIQQFxRQRAIAYoAgBB+IHCAEEDIAYoAgQoAgwRAAANAQsgBUEBOgAPIAVB4IHCADYCFCAFIAYpAgA3AgAgBSAGKQIINwIYIAUgBUEPajYCCCAFIAU2AhAgBSABIAIQrwMNACAFQd34xwBBAhCvAw0AIAMgBUEQaiAEKAIMEQIADQAgBSgCEEHZgcIAQQIgBSgCFCgCDBEAACEHCyAAQQE6AAUgACAHOgAEIAVBIGokACAAC8ACAgN/AX4jAEEgayICJAAgAkEJOgAQIAIgASACQRBqIAEoAoABEOQEAkACQCACLQAAIgNBHUcEQCACKQIEIQUCfyADRQRAIAIgBTcDECAFpyEDIAIpAhQhBUEFDAELIAIoAgwhBEEQEHEiAUUNAyABIAM6AAAgASAENgIMIAEgBTcCBCABIAJBAXIiAy8AADsAASABQQNqIANBAmotAAA6AAAgAkGABjsBECACKAIQIQNBAAshBCAAQey7xAA2AhggACABNgIUIAAgBTcDCCAAIAM2AgQgACAENgIADAELIAIpAgghBUEAIQMgAigCBCIEQYCAgIB4RwRAIAIoAgggAigCDBCWAUH/AXEiA0EAIANBCEcbIQMLIAAgBTcDCCAAIAQ2AgQgASADOgCYASAAQQY2AgALIAJBIGokAA8LAAuhAgEGfyMAQRBrIgQkAAJAAkAgA0H/////A0sNACADQQJ0IgVB/f///wdPDQACQCAFRQRAQQQhBwwBCyADIQYgBRBxIgdFDQILIARBADYCDCAEIAc2AgggBCAGNgIEAkACQCADBEBBACEFQQAhBgNAIAIgBU0NAiAFQQFqIgkgAk8NAyABIAVqLwAAIQkgBCgCBCAGRgRAIARBBGpBnOrHABD6BSAEKAIIIQcLIAcgCGogCTYCACAEIAZBAWoiBjYCDCAIQQRqIQggBUECaiEFIAMgBkcNAAsLIAAgBCkCBDcCACAAQQhqIARBDGooAgA2AgAgBEEQaiQADwsgBSACQfzpxwAQjAcACyAJIAJBjOrHABCMBwALQezpxwAQ/wcLAAucAgACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAEH/AXFBAWsOBwUAAQICAgMECyADQX1NIANBAmoiACACTXENBSADIAAgAkG02scAEOoHAAsgA0F9TSADQQJqIgAgAk1xDQUgAyAAIAJBxNrHABDqBwALIANBe00gA0EEaiIAIAJNcQ0FIAMgACACQdTaxwAQ6gcACyADQXdNIANBCGoiACACTXENBSADIAAgAkHk2scAEOoHAAsgAiADTQ0FIAEgA2osAAAPCyACIANLDQUgAyACQaTaxwAQjAcACyABIANqLgAADwsgASADai8AAA8LIAEgA2ooAAAPCyABIANqKwAA/AMPCyADIAJBlNrHABCMBwALIAEgA2otAAALzQIBBH8jAEEgayIEJAAgASgCDCEFAkAgAAJ/AkACQAJAIAEoAhQiAiABKAIQIgNJBEADQAJAIAIgBWotAABBCWsOMgAAAwMAAwMDAwMDAwMDAwMDAwMDAwMDAAMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMFAwsgASACQQFqIgI2AhQgAiADRw0ACyADIQILIARBEGogBSADIAJBAWoiASADIAEgA0kbEPkBIAQoAhQhASAEKAIQIQNBFBBxIgJFDQQgAkEDNgIADAELIARBCGogBSADIAJBAWoiASADIAEgA0kbEPkBIAQoAgwhASAEKAIIIQNBFBBxIgJFDQMgAkEGNgIACyACIAM2AgwgAiABNgIQQQEMAQsgASACQQFqNgIUIARBGGogARCVAyAEKAIcIQIgBCgCGAs2AgAgACACNgIEIARBIGokAA8LAAu2AgEBfyMAQUBqIgMkACADIAI2AhAgAyABNgIMIAACfwJAAkACQAJAAkACQAJAIAJBA2sOBwAFAQIFBQMFCyABQZDQxwBBAxDbB0UEQCAAQQA6AAFBAAwHCyABQaD3xwBBAxDbBw0DIABBAToAAUEADAYLIAFBo/fHAEEFENsHDQMgAEECOgABQQAMBQsgAUGo98cAQQYQ2wcNAiAAQQM6AAFBAAwECyABQa73xwBBCRDbBw0BIABBBDoAAUEADAMLIAFBt/fHAEEDENsHRQ0BCyADQQE2AiQgA0HQ98cANgIgIANCATcCLCADIANBDGqtQoCAgIAghDcDOCADIANBOGo2AiggA0EUaiIBIANBIGoQ7AMgACABEJAHNgIEQQEMAQsgAEEFOgABQQALOgAAIANBQGskAAuNAgEGfyAAKAIIIgQhAgJ/QQEgAUGAAUkNABpBAiABQYAQSQ0AGkEDQQQgAUGAgARJGwsiBiAAKAIAIARrSwR/IAAgBCAGQQFBARCkBSAAKAIIBSACCyAAKAIEaiECAkAgAUGAAU8EQCABQT9xQYB/ciEFIAFBBnYhAyABQYAQSQRAIAIgBToAASACIANBwAFyOgAADAILIAFBDHYhByADQT9xQYB/ciEDIAFB//8DTQRAIAIgBToAAiACIAM6AAEgAiAHQeABcjoAAAwCCyACIAU6AAMgAiADOgACIAIgB0E/cUGAf3I6AAEgAiABQRJ2QXByOgAADAELIAIgAToAAAsgACAEIAZqNgIIQQALrQIBBn8CQAJAAkACQAJAQQQQcSIBRQ0AIAFBmJXBADYCAEEIEHEiAEUNACAAIAE2AgAgAEG4lcEANgIEQdi2yQBB2LbJACgCACIBIAAgARs2AgAgAUUEQCAADwsgACgCACECIAAoAgQiAygCACIEBEAgAiAEEQMACyADKAIEIgMEQCACQQRrKAIAIgRBeHEiBUEEQQggBEEDcSIEGyADakkNAiAEQQAgBSADQSdqSxsNAyACEKICCyAAQQRrKAIAIgJBeHFBDEEQIAJBA3EiAxtJDQMgA0EAIAJBME8bDQQgABCiAiABDwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALoQIBBn8CQAJAAkACQAJAIAAoAgQiBCAAKAIIIgVrIgggAyACayIGQRBqSQRAIAEoAggiByABKAIEIglLDQUgAiADSyADIAdLcg0BIAQgBUkNAiAGIAhNDQNBACAGIAhBjP/IABDqBwALIAIgA0YNAyAAKAIAIAVqIgQgASgCACIBIAJqIgL9AAAA/QsAACACQRBqIgIgASADaiIBTw0DIARBEGohAwNAIAMgAv0AAAD9CwAAIANBEGohAyACQRBqIgIgAUkNAAsMAwsgAiADIAdBrP/IABDqBwALIAUgBCAEQZz/yAAQ6gcACyAGRQ0AIAAoAgAgBWogASgCACACaiAG/AoAAAsgACAFIAZqNgIIDwtBACAHIAlBgP7IABDqBwALrgICBX8BfiMAQUBqIgIkACABKAIAQYCAgIB4RgRAIAEoAgwgAkEANgIkIAJCgICAgBA3AhwoAgAiAykCECEHIAMoAgwhBCADKAIIIQUgAygCACEGIAMoAgQhAyACIAc3AjggAiAENgI0IAIgBTYCMCACIAM2AiwgAiAGNgIoIAJBHGpBzIXIACACQShqEMEDGiACQRhqIAJBJGooAgAiAzYCACACIAIpAhwiBzcDECABQQhqIAM2AgAgASAHNwIACyABKQIAIQcgAUKAgICAEDcCACACQQhqIgMgAUEIaiIBKAIANgIAIAFBADYCACACIAc3AwBBDBBxIgFFBEAACyABIAIpAwA3AgAgAUEIaiADKAIANgIAIABB3I3IADYCBCAAIAE2AgAgAkFAayQAC4kCAQZ/IAAoAggiBCECAn9BASABQYABSQ0AGkECIAFBgBBJDQAaQQNBBCABQYCABEkbCyIGIAAoAgAgBGtLBH8gACAEIAYQ9wUgACgCCAUgAgsgACgCBGohAgJAIAFBgAFPBEAgAUE/cUGAf3IhBSABQQZ2IQMgAUGAEEkEQCACIAU6AAEgAiADQcABcjoAAAwCCyABQQx2IQcgA0E/cUGAf3IhAyABQf//A00EQCACIAU6AAIgAiADOgABIAIgB0HgAXI6AAAMAgsgAiAFOgADIAIgAzoAAiACIAdBP3FBgH9yOgABIAIgAUESdkFwcjoAAAwBCyACIAE6AAALIAAgBCAGajYCCEEAC4kCAQZ/IAAoAggiBCECAn9BASABQYABSQ0AGkECIAFBgBBJDQAaQQNBBCABQYCABEkbCyIGIAAoAgAgBGtLBH8gACAEIAYQ+AUgACgCCAUgAgsgACgCBGohAgJAIAFBgAFPBEAgAUE/cUGAf3IhBSABQQZ2IQMgAUGAEEkEQCACIAU6AAEgAiADQcABcjoAAAwCCyABQQx2IQcgA0E/cUGAf3IhAyABQf//A00EQCACIAU6AAIgAiADOgABIAIgB0HgAXI6AAAMAgsgAiAFOgADIAIgAzoAAiACIAdBP3FBgH9yOgABIAIgAUESdkFwcjoAAAwBCyACIAE6AAALIAAgBCAGajYCCEEAC4kCAQZ/IAAoAggiBCECAn9BASABQYABSQ0AGkECIAFBgBBJDQAaQQNBBCABQYCABEkbCyIGIAAoAgAgBGtLBH8gACAEIAYQ7wUgACgCCAUgAgsgACgCBGohAgJAIAFBgAFPBEAgAUE/cUGAf3IhBSABQQZ2IQMgAUGAEEkEQCACIAU6AAEgAiADQcABcjoAAAwCCyABQQx2IQcgA0E/cUGAf3IhAyABQf//A00EQCACIAU6AAIgAiADOgABIAIgB0HgAXI6AAAMAgsgAiAFOgADIAIgAzoAAiACIAdBP3FBgH9yOgABIAIgAUESdkFwcjoAAAwBCyACIAE6AAALIAAgBCAGajYCCEEAC/gBAgR/An4gACgCECECIAApAwghBiAAKAIEIQUgACgCGCIEQQBIBEAgAiAFSQRAIAAoAgAgAkECdGooAAAhAwsgA0EYdCADQYD+A3FBCHRyIANBCHZBgP4DcSADQRh2cnKtIAZCIIaEIQYgBEEgaiEEIAJBAWohAgsgAiAFTQRAIAAoAhQhAyAAIAI2AhAgACAGIANBAWsgAUH/AXFsQQh2QQFqIgGtIARBP3GthiIHQgAgBiAHWiICG303AwggACAEIAMgAWsgASACGyIBZyIEQRhrIgNBACADIARNGyIEazYCGCAAIAEgBHQ2AhQgAg8LIAAgARDRBAuUAgEEfyMAQRBrIgIkACACQQA2AgwCfyABQYABTwRAIAFBP3FBgH9yIQMgAUEGdiEEIAFBgBBJBEAgAiADOgANIAIgBEHAAXI6AAxBAgwCCyABQQx2IQUgBEE/cUGAf3IhBCABQf//A00EQCACIAM6AA4gAiAEOgANIAIgBUHgAXI6AAxBAwwCCyACIAM6AA8gAiAEOgAOIAIgBUE/cUGAf3I6AA0gAiABQRJ2QXByOgAMQQQMAQsgAiABOgAMQQELIQEgACAAKAIEIgMgAWs2AgQgACAAKAIAIAEgA0tyIgQ2AgBBASEDIARFBEAgACgCCCIAKAIAIAJBDGogASAAKAIEKAIMEQAAIQMLIAJBEGokACADC4ICAQV/IwBBEGsiAyQAAkAgAC4BACIFIAXBQQ91IgBzIABrIgJB//8DcSIEQegHTwRAQQEhACADIAIgBEGQzgBuIgJBkM4AbGsiBEH//wNxQeQAbiIGQQF0LwC4ukU7AAwgAyAEIAZB5ABsa0H//wNxQQF0LwC4ukU7AA4MAQtBBSEAIARBCkkNACADIAIgAkH//wNxQeQAbiICQeQAbGtB//8DcUEBdC8AuLpFOwAOQQMhAAtBACAFIAJB//8DcSICG0UEQCAAQQFrIgAgA0ELamogAkEBdC0AubpFOgAACyABIAVBAE5BAUEAIANBC2ogAGpBBSAAaxDIAyADQRBqJAALugMBDH8jAEEQayIFJAACQAJAIANBAEgNACADQQF0IgRB/////wdPDQACQCAERQRAQQIhBAwBCyADIQcgBBBxIgRFDQILIAVBADYCDCAFIAQ2AgggBSAHNgIEAkACQCADBEBBACEHA0AgAiAGTQ0CIAZBAWoiCCACTw0DIAEgBmovAAAhDSAFKAIEIAdGBEBBACEJIwBBIGsiBCQAAkACQEEEIAVBBGoiCCgCACIOQQF0IgsgC0EETRsiDEEASA0AIAxBAXQiD0H+////B0sNACAEIA4EfyAEIAs2AhwgBCAIKAIENgIUQQIFQQALNgIYIARBCGpBAiAPIARBFGoQhQcgBCgCCEEBRw0BIAQoAhAhCiAEKAIMIQkLIAkgCkGs58cAEJMJAAsgBCgCDCEJIAggDDYCACAIIAk2AgQgBEEgaiQAIAUoAgghBAsgBCAGaiANOwEAIAUgB0EBaiIHNgIMIAZBAmohBiADIAdHDQALCyAAIAUpAgQ3AgAgAEEIaiAFQQxqKAIANgIAIAVBEGokAA8LIAYgAkGM58cAEIwHAAsgCCACQZznxwAQjAcAC0H85scAEP8HCwALuwIBBX8jAEEgayICJAACQCAAKAIAIgQoAgAEQEEBIQAgASgCACIDQcOYyABBBCABKAIEIgYoAgwiBREAAA0BAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBREAAA0DIAQoAgAgASAEQQRqKAIAKAIMEQIADQMgASgCACEDIAEoAgQoAgwhBQwBCyADQduBwgBBAiAFEQAADQIgAkEBOgAPIAIgBjYCBCACIAM2AgAgAkHggcIANgIUIAIgASkCCDcCGCACIAJBD2o2AgggAiACNgIQIAQoAgAgAkEQaiAEQQRqKAIAKAIMEQIADQIgAigCEEHZgcIAQQIgAigCFCgCDBEAAA0CCyADQd6OyABBASAFEQAAIQAMAQsgASgCAEG/mMgAQQQgASgCBCgCDBEAACEACyACQSBqJAAgAAuhAgICfwJ9AkACQCAAvCIBQYCAgAROBEAgAUH////7B0sNAUGBfyECQwAAAAAhACABQYCAgPwDRg0BDAILIABDAAAAAFsEQEMAAIC/IAAgAJSVDwsgAUEATgRAIABDAAAATJS8IQFB6H4hAgwCCyAAIACTQwAAAACVIQALIAAPCyABQY32qwJqIgFB////A3FB84nU+QNqvkMAAIC/kiIAIAAgAEMAAAA/lJQiA5O8QYBgcb4iBEMAsLg/lCAAIASTIAOTIAAgAEMAAABAkpUiACADIAAgAJQiACAAIACUIgBD7umRPpRDqqoqP5KUIAAgAEMmnng+lEMTzsw+kpSSkpSSIgBDALC4P5QgACAEkkPUmji5lJKSIAFBF3YgAmqykguaAgEEfyMAQSBrIgIkAAJAIAACfwJAIAEoAgBBlICAgHhGBEAgASgCDCIERQRADAILIAJBEGogASgCCCIFEKkEQQEhAyACKAIUIgEgAigCEEEBcQ0CGiAEQQFGDQEgAkEIaiAFQRBqEKkEIAIoAgwhAyADIAIoAghBAXENAhogBEECRwRAIAJBAjYCHCAEQf7///8AakH/////AHFBAmogAkEcakHolcEAENsGIQEgAEEBNgIAIAAgATYCBAwECyAAIAM2AgggACABNgIEIABBADYCAAwDCyABIAJBHGpBlOLAABCVCCEBIABBATYCACAAIAE2AgQMAgsgAyACQRxqQZTiwAAQ2wYLNgIEIABBATYCAAsgAkEgaiQAC4sCAQV/IwBBEGsiBiQAIAAgASACEOkEAkAgAgRAIAAoAoQBQQxqIQkgACgCiAEhCEEAIQEDQCABQQNqIAhPDQICQAJAIAEgBE8NACAEIAFrIgVBACAEIAVPGyIFQQFHBEACQAJAIAVBAmsOAgEABAsgAUEDaiEBDAILIAFBAmohAQwBCyABQQFqIQELIAEgBEHYvsEAEIwHAAsgBiADIAdqIgUqAgA4AgAgBiAFQQxqKgIAOAIMIAYgBUEEaikCADcCBCAHIAlqIAYQzQQ2AgAgB0EQaiEHIAFBBGohASACQQFrIgINAAsLIABBAToAwAEgBkEQaiQADwsgASABQQRqIAhByL7BABDqBwALwQICA38BfiMAQRBrIgIkAAJAAkACQAJAQQIgACgCACIAKQMAIgWnQQJrIAVCAVgbQQFrDgIBAgALIAEoAgBBranHAEEOIAEoAgQoAgwRAAAhAQwCCyABKAIAQbupxwBBEiABKAIEKAIMEQAAIQEMAQsgAiAAQSBqNgIEIAEoAgBBjYvIAEELIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQfCpxwBBBiAAQdCpxwAQjAVB9qnHAEEJIAJBBGpB4KnHABCMBSACLQANIgMgAi0ADCIEciEBIARBAXEgA0EBR3INACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQuwBgEKfyMAQRBrIggkAAJAAkACQAJAIAIEQCAAIAEgAhDMAyACQQNsIQxBAiAEIARBAk0bQQNuQQNsIQ0gACgCYCEBIAAoAmQhCkEAIQBBACECA0AgAEEEaiILIApLDQMgCEEEaiEJAn8gASgCBCIAQf//AXFFBEAgAEEQdAwBCyAAQf8HcSEFIABBgIACcSEGIABBgPgBcSIHQYD4AUYEQCAGQRB0IgZBgICA/AdyIAVFDQEaIAYgBUENdHJBgICA/gdyDAELIAZBEHQiBiAHQQ10QYCAgPwAcSAFQQ10ckGAgIDAA2pyIAcNABogBkGAgIDYA3IgBWdBEGsiBkEXdGsgBSAGQf//A3FBCGp0Qf///wNxcgshDgJ/IABBgIB8cSAAQRB2IgBB//8BcUUNABogAEH/B3EhBSAAQYCAAnEhBiAAQYD4AXEiB0GA+AFGBEAgBkEQdCIGQYCAgPwHciAFRQ0BGiAGIABBDXRyQYCAgP4HcgwBCyAGQRB0IgAgB0ENdEGAgID8AHEgBUENdHJBgICAwANqciAHDQAaIABBgICA2ANyIAVnQRBrIgBBF3RrIAUgAEH//wNxQQhqdEH///8DcXILIQcgCQJ/IAEoAggiBUH//wFxRQRAIAVBEHQMAQsgBUH/B3EhACAFQYCAAnEhBiAFQYD4AXEiBUGA+AFGBEAgBkEQdCIFQYCAgPwHciAARQ0BGiAFIABBDXRyQYCAgP4HcgwBCyAGQRB0IgYgBUENdEGAgID8AHEgAEENdHJBgICAwANqciAFDQAaIAZBgICA2ANyIABnQRBrIgVBF3RrIAAgBUH//wNxQQhqdEH///8DcXILNgIIIAkgBzYCBCAJIA42AgAgAiAETw0EIAMgCCoCBDgCACACQQFqIgAgBE8NBSADQQRqIAgqAgg4AgAgAiANRg0CIANBCGogCCoCDDgCACABQRBqIQEgA0EMaiEDIAshACAMIAJBA2oiAkcNAAsLIAhBEGokAA8LIAJBAmogBEG80cAAEIwHAAsgACALIApBzNHAABDqBwALIAIgBEGc0cAAEIwHAAsgACAEQazRwAAQjAcAC4ACAQd/IwBBIGsiASQAAkAgAC0AwAEEQCAAKAKwASAAKAK4ASICQQJ0IgUgACgCvAEgAmpBAnQiBhDhCCECIAAoAnghByAAKAJ8IQMgAhC4CiEEIAEgAzYCBCABIAQ2AgAgAyAERw0BIAIgByADEOAJIAJBhAhPBEAgAhCbBwsgACgCtAEgBSAGEOEIIQIgACgChAEhBSAAKAKIASEDIAIQuAohBCABIAM2AgQgASAENgIAIAMgBEcNASACIAUgAxDgCSACQYQITwRAIAIQmwcLIABBADoAwAELIAFBIGokAA8LIAFBADYCCEEAIAEgAUEEaiABQQhqQeD5xAAQ9QcAC/oBAgR/AX4jAEEgayIFJAACQAJAIAIgASACaiIGSwRAQQAhAQwBC0EAIQEgAyAEakEBa0EAIANrca0gBiAAKAIAIgdBAXQiAiACIAZJGyICQQhBBCAEQQFGGyIGIAIgBksbIgatfiIJQiCIUEUNACAJpyIIQYCAgIB4IANrSw0AQQAhAiAFIAcEfyAFIAQgB2w2AhwgBSAAKAIENgIUIAMFIAILNgIYIAVBCGogAyAIIAVBFGoQhQcgBSgCCEEBRw0BIAUoAhAhAiAFKAIMIQELIAEgAkGclsgAEJMJAAsgBSgCDCEBIAAgBjYCACAAIAE2AgQgBUEgaiQAC6ECAAJ/AkACQAJAAkAgAkEDaw4EAgMAAQMLAkACQAJAIAEtAABB7QBrDgUBBQUFAAULIAEtAAFB9QBGDQEMBAsgAS0AAUHlAEcNAyABLQACQeEARw0DIAEtAANB7gBHDQMgAS0ABEHzAEcNA0EADAQLIAEtAAJB4QBHDQIgAS0AA0H0AEcNAiABLQAEQfMARw0CQQIMAwsgAS0AAEHzAEcNASABLQABQeMARw0BIAEtAAJB4QBHDQEgAS0AA0HsAEcNASABLQAEQeUARw0BIAEtAAVB8wBHDQFBAQwCCyABLQAAQfMARw0AIAEtAAFB6ABHDQBBA0EEQQUgAS0AAiIBQc4ARhsgAUEwRhsMAQtBBQshASAAQQA6AAAgACABOgABC5oCAQJ/IwBBQGoiASQAAkAgABBBIgINACAALQChVEUEQCABQQA2AjggAUEBNgIsIAFB5KPBADYCKCABQgQ3AjAgAUEoahCSByECDAELAkAgACgC4AFBgICAgHhHBEAgAC0AlAIiAkEJRg0BIAJBBUYEQCAAKAKMAkUNAgsgAUECNgIsIAFBnKTBADYCKCABQgI3AjQgASAAQYwCaq1CgICAgBCENwMgIAEgAEGUAmqtQoCAgICwBIQ3AxggASABQRhqNgIwIAFBDGoiACABQShqELEGIAAQjgchAgwCCyABQQA2AjggAUEBNgIsIAFBwKTBADYCKCABQgQ3AjAgAUEoahCSByECDAELIAAQowEhAgsgAUFAayQAIAILmgIBAn8jAEFAaiIBJAACQCAAEEAiAg0AIAAtAKlURQRAIAFBADYCOCABQQE2AiwgAUHko8EANgIoIAFCBDcCMCABQShqEJIHIQIMAQsCQCAAKALoAUGAgICAeEcEQCAALQCcAiICQQlGDQEgAkEFRgRAIAAoApQCRQ0CCyABQQI2AiwgAUGcpMEANgIoIAFCAjcCNCABIABBlAJqrUKAgICAEIQ3AyAgASAAQZwCaq1CgICAgLAEhDcDGCABIAFBGGo2AjAgAUEMaiIAIAFBKGoQsQYgABCOByECDAILIAFBADYCOCABQQE2AiwgAUHApMEANgIoIAFCBDcCMCABQShqEJIHIQIMAQsgABDUASECCyABQUBrJAAgAgv7AQEDfyMAQRBrIgIkACAAKAIAIQACfyABLQALQRhxRQRAIAEoAgAgACABKAIEKAIQEQIADAELIAJBADYCDCABIAJBDGoCfyAAQYABTwRAIABBP3FBgH9yIQMgAEEGdiEBIABBgBBJBEAgAiADOgANIAIgAUHAAXI6AAxBAgwCCyAAQQx2IQQgAUE/cUGAf3IhASAAQf//A00EQCACIAM6AA4gAiABOgANIAIgBEHgAXI6AAxBAwwCCyACIAM6AA8gAiABOgAOIAIgBEE/cUGAf3I6AA0gAiAAQRJ2QXByOgAMQQQMAQsgAiAAOgAMQQELEJcDCyACQRBqJAAL7QEBA38jAEEQayIDJAAgACgCACEAAn8CQCABKAIIIgJBgICAEHFFBEAgAkGAgIAgcQ0BIAAgARCLBQwCCyAAKAIAIQBBCSECA0AgAiADakEGaiAAQQ9xLQDctkU6AAAgAkEBayECIABBD0sgAEEEdiEADQALIAFBAUGEtMUAQQIgAiADakEHakEJIAJrEMgDDAELIAAoAgAhAEEJIQIDQCACIANqQQZqIABBD3EtAMmBQjoAACACQQFrIQIgAEEPSyAAQQR2IQANAAsgAUEBQYS0xQBBAiACIANqQQdqQQkgAmsQyAMLIANBEGokAAvrAQIEfwJ+IAAoAhAhAiAAKQMIIQUgACgCBCEEIAAoAhgiA0EASARAIAIgBEkEQCAAKAIAIAJBAnRqKAAAIQELIAFBGHQgAUGA/gNxQQh0ciABQQh2QYD+A3EgAUEYdnJyrSAFQiCGhCEFIANBIGohAyACQQFqIQILIAIgBE0EQCAAKAIUIQEgACACNgIQIAAgBSABIAFBAXYiAWsiBK0gA0E/ca2GIgZCACAFIAZaIgIbfTcDCCAAIAMgASAEIAIbIgFnIgNBGGsiBEEAIAMgBE8bIgNrNgIYIAAgASADdDYCFCACDwsgABC0Cgu7AgEEfyMAQRBrIgQkACABKAIMIQUCQAJAAkACQAJAIAEoAhQiAiABKAIQIgNJBEADQAJAIAIgBWotAABBCWsOMgAAAwMAAwMDAwMDAwMDAwMDAwMDAwMDAAMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMFAwsgASACQQFqIgI2AhQgAiADRw0ACyADIQILIARBCGogBSADIAJBAWoiASADIAEgA0kbEPkBIAQoAgwhASAEKAIIIQNBFBBxIgJFDQQgAkEDNgIADAELIAQgBSADIAJBAWoiASADIAEgA0kbEPkBIAQoAgQhASAEKAIAIQNBFBBxIgJFDQMgAkEGNgIACyACIAM2AgwgACACNgIEIABBATYCACACIAE2AhAMAQsgASACQQFqNgIUIAAgARC7AwsgBEEQaiQADwsAC7sCAQR/IwBBEGsiBCQAIAEoAgwhBQJAAkACQAJAAkAgASgCFCICIAEoAhAiA0kEQANAAkAgAiAFai0AAEEJaw4yAAADAwADAwMDAwMDAwMDAwMDAwMDAwMAAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwUDCyABIAJBAWoiAjYCFCACIANHDQALIAMhAgsgBEEIaiAFIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCDCEBIAQoAgghA0EUEHEiAkUNBCACQQM2AgAMAQsgBCAFIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCBCEBIAQoAgAhA0EUEHEiAkUNAyACQQY2AgALIAIgAzYCDCAAIAI2AgQgAEEBOgAAIAIgATYCEAwBCyABIAJBAWo2AhQgACABEIECCyAEQRBqJAAPCwALvwIBBH8jAEEQayIEJAAgASgCDCEFAkACQAJAAkACQCABKAIUIgIgASgCECIDSQRAA0ACQCACIAVqLQAAQQlrDjIAAAMDAAMDAwMDAwMDAwMDAwMDAwMDAwADAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDBQMLIAEgAkEBaiICNgIUIAIgA0cNAAsgAyECCyAEQQhqIAUgAyACQQFqIgEgAyABIANJGxD5ASAEKAIMIQEgBCgCCCEDQRQQcSICRQ0EIAJBAzYCAAwBCyAEIAUgAyACQQFqIgEgAyABIANJGxD5ASAEKAIEIQEgBCgCACEDQRQQcSICRQ0DIAJBBjYCAAsgAiADNgIMIAAgAjYCBCAAQYGAgIB4NgIAIAIgATYCEAwBCyABIAJBAWo2AhQgACABENwCCyAEQRBqJAAPCwALuwIBBH8jAEEQayIEJAAgASgCDCEFAkACQAJAAkACQCABKAIUIgIgASgCECIDSQRAA0ACQCACIAVqLQAAQQlrDjIAAAMDAAMDAwMDAwMDAwMDAwMDAwMDAwADAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDBQMLIAEgAkEBaiICNgIUIAIgA0cNAAsgAyECCyAEQQhqIAUgAyACQQFqIgEgAyABIANJGxD5ASAEKAIMIQEgBCgCCCEDQRQQcSICRQ0EIAJBAzYCAAwBCyAEIAUgAyACQQFqIgEgAyABIANJGxD5ASAEKAIEIQEgBCgCACEDQRQQcSICRQ0DIAJBBjYCAAsgAiADNgIMIAAgAjYCBCAAQQI2AgAgAiABNgIQDAELIAEgAkEBajYCFCAAIAEQpQILIARBEGokAA8LAAu7AgEEfyMAQRBrIgQkACABKAIMIQUCQAJAAkACQAJAIAEoAhQiAiABKAIQIgNJBEADQAJAIAIgBWotAABBCWsOMgAAAwMAAwMDAwMDAwMDAwMDAwMDAwMDAAMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMFAwsgASACQQFqIgI2AhQgAiADRw0ACyADIQILIARBCGogBSADIAJBAWoiASADIAEgA0kbEPkBIAQoAgwhASAEKAIIIQNBFBBxIgJFDQQgAkEDNgIADAELIAQgBSADIAJBAWoiASADIAEgA0kbEPkBIAQoAgQhASAEKAIAIQNBFBBxIgJFDQMgAkEGNgIACyACIAM2AgwgACACNgIEIABBAzYCACACIAE2AhAMAQsgASACQQFqNgIUIAAgARCDAQsgBEEQaiQADwsAC7sCAQR/IwBBEGsiBCQAIAEoAgwhBQJAAkACQAJAAkAgASgCFCICIAEoAhAiA0kEQANAAkAgAiAFai0AAEEJaw4yAAADAwADAwMDAwMDAwMDAwMDAwMDAwMAAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwUDCyABIAJBAWoiAjYCFCACIANHDQALIAMhAgsgBEEIaiAFIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCDCEBIAQoAgghA0EUEHEiAkUNBCACQQM2AgAMAQsgBCAFIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCBCEBIAQoAgAhA0EUEHEiAkUNAyACQQY2AgALIAIgAzYCDCAAIAI2AgQgAEECNgIAIAIgATYCEAwBCyABIAJBAWo2AhQgACABENICCyAEQRBqJAAPCwALqQIBBX8jAEEgayICJABBASEDAkAgACgCACIELQAAQQFGBEAgASgCACIAQcOYyABBBCABKAIEIgYoAgwiBREAAA0BIARBAWohBAJAIAEtAApBgAFxRQRAIABBu7PFAEEBIAURAAANAyAEIAEQygQNAyABKAIAIQAgASgCBCgCDCEFDAELIABB24HCAEECIAURAAANAiACQQE6AA8gAiAGNgIEIAIgADYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgBCACQRBqEMoEDQIgAigCEEHZgcIAQQIgAigCFCgCDBEAAA0CCyAAQd6OyABBASAFEQAAIQMMAQsgASgCAEG/mMgAQQQgASgCBCgCDBEAACEDCyACQSBqJAAgAwutAgEDfyMAQRBrIgIkACABKAIIIQMgAUEANgIIAkACQCADBEAgAygCAEGUgICAeEYEQAJAIAACfyADKAIMIgQEQCACIAMoAggQqAMgAigCACIBQYCAgIB4Rw0CIAIoAgQMAQtBACACQQ9qQYTiwAAQ2wYLNgIEIABBgICAgHg2AgAMBAsgAigCBCEDIARBAUYNAiACQQE2AgAgBEEBa0H/////AHFBAWogAkHolcEAENsGIQQgAEGAgICAeDYCACAAIAQ2AgQgAUUNAyADIAFBARCiBwwDCyADIAJBD2pBhOLAABCVCCEBIABBgICAgHg2AgAgACABNgIEDAILQcvawABBLEH42sAAEKsHAAsgACACKAIINgIIIAAgAzYCBCAAIAE2AgALIAJBEGokAAupAgEFfyMAQSBrIgIkAEEBIQMCQCAAKAIAIgQoAgBBAUYEQCABKAIAIgBBw5jIAEEEIAEoAgQiBigCDCIFEQAADQEgBEEIaiEEAkAgAS0ACkGAAXFFBEAgAEG7s8UAQQEgBREAAA0DIAQgARDEBQ0DIAEoAgAhACABKAIEKAIMIQUMAQsgAEHbgcIAQQIgBREAAA0CIAJBAToADyACIAY2AgQgAiAANgIAIAJB4IHCADYCFCACIAEpAgg3AhggAiACQQ9qNgIIIAIgAjYCECAEIAJBEGoQxAUNAiACKAIQQdmBwgBBAiACKAIUKAIMEQAADQILIABB3o7IAEEBIAURAAAhAwwBCyABKAIAQb+YyABBBCABKAIEKAIMEQAAIQMLIAJBIGokACADC5ECAQN/IwBBQGoiASQAAkAgABA9IgINACAALQClU0UEQCABQQA2AjggAUEBNgIsIAFB5KPBADYCKCABQgQ3AjAgAUEoahCSByECDAELIAAoAmRBgICAgHhHBEBBACECIAAtAJgBIgNBCUYNASADQQVGBEAgACgCkAFFDQILIAFBAjYCLCABQZykwQA2AiggAUICNwI0IAEgAEGQAWqtQoCAgIAQhDcDICABIABBmAFqrUKAgICAsASENwMYIAEgAUEYajYCMCABQQxqIgAgAUEoahCxBiAAEI4HIQIMAQsgAUEANgI4IAFBATYCLCABQcCkwQA2AiggAUIENwIwIAFBKGoQkgchAgsgAUFAayQAIAILkgIBA38jAEFAaiIBJAACQCAAED4iAg0AIAAtAMVTRQRAIAFBADYCOCABQQE2AiwgAUHko8EANgIoIAFCBDcCMCABQShqEJIHIQIMAQsgACgChAFBgICAgHhHBEBBACECIAAtALgBIgNBCUYNASADQQVGBEAgACgCsAFFDQILIAFBAjYCLCABQZykwQA2AiggAUICNwI0IAEgAEGwAWqtQoCAgIAQhDcDICABIABBuAFqrUKAgICAsASENwMYIAEgAUEYajYCMCABQQxqIgAgAUEoahCxBiAAEI4HIQIMAQsgAUEANgI4IAFBATYCLCABQcCkwQA2AiggAUIENwIwIAFBKGoQkgchAgsgAUFAayQAIAILiAIBAn8jAEHwAGsiAyQAAkACQAJAAkACQCABRQRAIABFDQEgAEEIayIBKAIAQQFHDQQgA0EIaiAAQQRqQegA/AoAACABQQA2AgACQCABQX9GDQAgAEEEayICIAIoAgBBAWsiAjYCACACDQAgAEEMaygCACIAQXhxIgJB+ABB/AAgAEEDcSIAG0kNAyAAQQAgAkGcAU8bDQQgARCiAgsgA0EIahD2AgwFCyAARQ0AIABBCGsiACAAKAIAQQFrIgE2AgAgAQ0EIAAQ5AYMBAsQjgoAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBjNrAAEE/EI8KAAsgA0HwAGokAAuIAgECfyMAQdAAayIDJAACQAJAAkACQAJAIAFFBEAgAEUNASAAQQhrIgEoAgBBAUcNBCADQQhqIABBBGpByAD8CgAAIAFBADYCAAJAIAFBf0YNACAAQQRrIgIgAigCAEEBayICNgIAIAINACAAQQxrKAIAIgBBeHEiAkHYAEHcACAAQQNxIgAbSQ0DIABBACACQfwATxsNBCABEKICCyADQQhqEPUCDAULIABFDQAgAEEIayIAIAAoAgBBAWsiATYCACABDQQgABDjBgwECxCOCgALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0GM2sAAQT8QjwoACyADQdAAaiQAC+cBAQN/IwBBEGsiAyQAIAMgACgCACIANgIEAn8CQCABKAIIIgJBgICAEHFFBEAgAkGAgIAgcQ0BIANBBGogARCLBQwCC0EJIQIDQCACIANqQQZqIABBD3EtANy2RToAACACQQFrIQIgAEEPSyAAQQR2IQANAAsgAUEBQYS0xQBBAiACIANqQQdqQQkgAmsQyAMMAQtBCSECA0AgAiADakEGaiAAQQ9xLQDJgUI6AAAgAkEBayECIABBD0sgAEEEdiEADQALIAFBAUGEtMUAQQIgAiADakEHakEJIAJrEMgDCyADQRBqJAALgwICA34EfyAAKAIMRQRAQQAPCyAAKQMQIAApAxggASACEJUEIQMgACgCBCIHIAOncSEGIANCGYhC/wCDQoGChIiQoMCAAX4hBSAAKAIAIQgDQAJAIAYgCGopAAAiBCAFhSIDQn+FIANCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiA1BFBEADQCAIIAN6p0EDdiAGaiAHcUFsbGoiAEEMaygCACACRgRAIAEgAEEQaygCACACENsHRQ0DCyADQgF9IAODIgNQRQ0ACwtBACEAIAQgBEIBhoNCgIGChIiQoMCAf4NQRQ0AIAYgCUEIaiIJaiAHcSEGDAELCyAAQRRrQQAgABsL5gEBA38jAEEQayIDJAACfwJAIAEoAggiAkGAgIAQcUUEQCACQYCAgCBxDQEgACABEIsFDAILIAAoAgAhAEEJIQIDQCACIANqQQZqIABBD3EtANy2RToAACACQQFrIQIgAEEPSyAAQQR2IQANAAsgAUEBQYS0xQBBAiACIANqQQdqQQkgAmsQyAMMAQsgACgCACEAQQkhAgNAIAIgA2pBBmogAEEPcS0AyYFCOgAAIAJBAWshAiAAQQ9LIABBBHYhAA0ACyABQQFBhLTFAEECIAIgA2pBB2pBCSACaxDIAwsgA0EQaiQAC7QCAQN/IwBBEGsiAiQAAkACQAJAAkAgACgCACIAKAIAQQFrDgIBAgALIAIgAEEIajYCBCABKAIAQfHExABBDyABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakGQr8cAQQggAEEEakGgwMQAEIwFQYDFxABBBiACQQRqQeS2xAAQjAUgAi0ADSIDIAItAAwiBHIhASAEQQFxIANBAUdyDQIoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAMLIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQwCCyABKAIAQYbFxABBFSABKAIEKAIMEQAAIQEMAQsgASgCAEGbxcQAQRUgASgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQukAgEFfyMAQSBrIgIkAEEBIQMCQCAAKAIAQQFGBEAgASgCACIEQcOYyABBBCABKAIEIgYoAgwiBREAAA0BIABBBGohAAJAIAEtAApBgAFxRQRAIARBu7PFAEEBIAURAAANAyAAIAEQugUNAyABKAIAIQQgASgCBCgCDCEFDAELIARB24HCAEECIAURAAANAiACQQE6AA8gAiAGNgIEIAIgBDYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgACACQRBqELoFDQIgAigCEEHZgcIAQQIgAigCFCgCDBEAAA0CCyAEQd6OyABBASAFEQAAIQMMAQsgASgCAEG/mMgAQQQgASgCBCgCDBEAACEDCyACQSBqJAAgAwvmAQEDfyMAQRBrIgMkAAJ/AkAgASgCCCICQYCAgBBxRQRAIAJBgICAIHENASAAIAEQ9QQMAgsgACgCACEAQQkhAgNAIAIgA2pBBmogAEEPcS0A3LZFOgAAIAJBAWshAiAAQQ9LIABBBHYhAA0ACyABQQFBhLTFAEECIAIgA2pBB2pBCSACaxDIAwwBCyAAKAIAIQBBCSECA0AgAiADakEGaiAAQQ9xLQDJgUI6AAAgAkEBayECIABBD0sgAEEEdiEADQALIAFBAUGEtMUAQQIgAiADakEHakEJIAJrEMgDCyADQRBqJAAL4gECBH8EfiABKAIEIgOtIQYCQAJAIANC/////w8gASkDCCIHIAdC/////w9aG6drIgRBACADIARPG0EDTwRAIAEoAgAgByAGIAYgB1Ybp2oiAi0AAUEIdCEDIAItAAJBEHQhBCACLQAAIQVBBCECDAELQaiQyAApAwAiCUIIiCEIIAmnIQJBACEDQQAhBCAJQv8Bg0IEUg0BCyAHQgN8IQYLIAEgBjcDCCACQf8BcUEERwRAIAAgAq1C/wGDIAhCCIaENwIEIABBADoAAA8LIAAgAyAFciAEcjYCBCAAQR06AAAL8QECAX4CfyMAQRBrIgMkACAAKAIAIQACfwJAIAEoAggiBEGAgIAQcUUEQCAEQYCAgCBxDQEgACABEIUFDAILIAApAwAhAkERIQADQCAAIANqQQJrIAKnQQ9xLQDctkU6AAAgAEEBayEAIAJCD1YgAkIEiCECDQALIAFBAUGEtMUAQQIgACADakEBa0ERIABrEMgDDAELIAApAwAhAkERIQADQCAAIANqQQJrIAKnQQ9xLQDJgUI6AAAgAEEBayEAIAJCD1YgAkIEiCECDQALIAFBAUGEtMUAQQIgACADakEBa0ERIABrEMgDCyADQRBqJAALggIBBH8CQAJAAkACQCAAKAIIIgFBgICAgHhyQYCAgIB4RwRAIAAoAgwiAkEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAWpJDQEgA0EAIAQgAUEnaksbDQIgAhCiAgsCQCAAKAJcIgFFDQAgAUEYbCICIAFqQSFqIgFFDQAgACgCWCACayIAQRxrKAIAIgJBeHEiA0EEQQggAkEDcSICGyABakkNAyACQQAgAyABQSdqSxsNBCAAQRhrEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuCAgEEfyMAQYAgayIEJAACQAJAAkACQAJAQYCJ+gAgASABQYCJ+gBPGyICIAEgAUEBdmsiAyACIANLGyICQYEITwRAIANB/////wNLDQJBMCACIAJBME0bIgVBAnQiA0H9////B08NAiADEHEiAkUNAyAAIAEgAiAFIAFBwQBJEN0BIAJBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIANqSQ0EIABBACABIANBJ2pLGw0FIAIQogIMAQsgACABIARBgAggAUHBAEkQ3QELIARBgCBqJAAPC0HYlcEAEP8HCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+gBAQR/IAAgASACEOkEAkACQAJAIAIEQCAAKAJ4IQEgACgCfCEIQQEhBQNAIAdBA2ogCE8NAiAFQQFrIgYgBE8EQCAGIQUMBQsgBCAGayIGQQAgBCAGTxsiBkEBRg0EIAZBAkYNAyABIAMqAgA4AgAgAUEIaiADQQhqKAIANgIAIAFBBGogA0EEaioCADgCACABQRBqIQEgB0EEaiEHIAVBA2ohBSADQQxqIQMgAkEBayICDQALCyAAQQE6AMABDwsgByAHQQRqIAhBmLPBABDqBwALIAVBAWohBQsgBSAEQaizwQAQjAcAC/oBAQR/IAAoAgQhAwJAAkACQAJAIAAtAAAiAEEETSAAQQNHcUUEQCADKAIAIQAgA0EEaigCACIBKAIAIgIEQCAAIAIRAwALIAEoAgQiAQRAIABBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0CIAJBACAEIAFBJ2pLGw0DIAAQogILIANBBGsoAgAiAEF4cSIBQRBBFCAAQQNxIgAbSQ0DIABBACABQTRPGw0EIAMQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+oBAgF+An8jAEEQayIDJAACfwJAIAEoAggiBEGAgIAQcUUEQCAEQYCAgCBxDQEgACABEIUFDAILIAApAwAhAkERIQADQCAAIANqQQJrIAKnQQ9xLQDctkU6AAAgAEEBayEAIAJCD1YgAkIEiCECDQALIAFBAUGEtMUAQQIgACADakEBa0ERIABrEMgDDAELIAApAwAhAkERIQADQCAAIANqQQJrIAKnQQ9xLQDJgUI6AAAgAEEBayEAIAJCD1YgAkIEiCECDQALIAFBAUGEtMUAQQIgACADakEBa0ERIABrEMgDCyADQRBqJAAL+wEBBH8CQAJAAkACQAJAIAAtAABBJEcNACAALQAEQQNHDQAgACgCCCIAKAIAIQEgAEEEaigCACICKAIAIgMEQCABIAMRAwALIAIoAgQiAgRAIAFBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAJqSQ0CIANBACAEIAJBJ2pLGw0DIAEQogILIABBBGsoAgAiAUF4cSICQRBBFCABQQNxIgEbSQ0DIAFBACACQTRPGw0EIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC4cCAgJ/An0CQAJAIAC8IgFBgICABE4EQCABQf////sHSw0BQYF/IQJDAAAAACEAIAFBgICA/ANGDQEMAgsgAEMAAAAAWwRAQwAAgL8gACAAlJUPCyABQQBOBEAgAEMAAABMlLwhAUHofiECDAILIAAgAJNDAAAAAJUhAAsgAA8LIAFBjfarAmoiAUEXdiACarIiA0OAcTE/lCABQf///wNxQfOJ1PkDar5DAACAv5IiACADQ9H3FzeUIAAgAEMAAABAkpUiAyAAIABDAAAAP5SUIgQgAyADlCIAIAAgAJQiAEPu6ZE+lEOqqio/kpQgACAAQyaeeD6UQxPOzD6SlJKSlJIgBJOSkguBAgIEfwF+IwBBMGsiASQAIAApAhAhBSAAKAIMIQIgACgCCCEEIAAoAgAhAwJAAkACQAJAAkACQAJAAkAgACgCBCIADgIAAQILIAINAUEBIQNBACEAQQEhAgwDCyACRQ0BCyABIAU3AiggASACNgIkIAEgBDYCICABIAA2AhwgASADNgIYIAFBDGogAUEYahDsAwwCCyADKAIEIgBBAEgNAiADKAIAIQMgAEUEQEEBIQJBACEADAELIAAQcSICRQ0DCyAABEAgAiADIAD8CgAACyABIAA2AhQgASACNgIQIAEgADYCDAsgAUEMahC6ASABQTBqJAAPC0HYmsgAEP8HCwAL4wEBCH8gASgCCCICIAEoAgQiAyACIANLGyEIIAEoAgAhBSACIQYCQAJAA0AgCCAGIgRGDQEgASAEQQFqIgY2AgggBCAFai0AACIHQeEAayEJIAdBMGtB/wFxQQpJIAlB/wFxQQZJcg0ACyAHQd8ARw0AAkAgAgRAIAIgA08EQCACIANHDQIgAyAETw0EDAILIAIgBWosAABBQEggAyAESXINAQwDCyADIARPDQILIAUgAyACIARBqLLFABC7CQALIABBADYCACAAQQA6AAQPCyAAIAQgAms2AgQgACACIAVqNgIAC/cBAQR/IABBBGoQ6gICQAJAAkACQCAALQAcQQNGBEAgACgCICIAKAIAIQEgAEEEaigCACICKAIAIgMEQCABIAMRAwALIAIoAgQiAgRAIAFBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAJqSQ0CIANBACAEIAJBJ2pLGw0DIAEQogILIABBBGsoAgAiAUF4cSICQRBBFCABQQNxIgEbSQ0DIAFBACACQTRPGw0EIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC4QCAAJ/AkACQAJAIAJBBWsOBAACAgECCwJAAkACQCABLQAAQeIAaw4FAAQEBAEECyABLQABQeEARg0BDAMLIAEtAAFB6QBHDQIgAS0AAkHsAEcNAiABLQADQeUARw0CIAEtAARB8wBHDQJBAAwDCyABLQACQe4ARw0BIAEtAANB5ABHDQEgAS0ABEHzAEcNAUECDAILIAEtAABB4wBHDQAgAS0AAUHvAEcNACABLQACQeQARw0AIAEtAANB5QBHDQAgAS0ABEHiAEcNACABLQAFQe8ARw0AIAEtAAZB7wBHDQAgAS0AB0HrAEcNAEEBDAELQQMLIQEgAEEAOgAAIAAgAToAAQvxAQEEfyMAQTBrIgIkACACQRhqIgMgACgCACUBECkgAiACQQxqrUKAgICAsAWENwMAIAIgAigCHCIANgIUIAIgAigCGDYCECACIAA2AgwgASgCACABKAIEIAJCATcCJCACQQI2AhwgAkHgjsgANgIYIAIgAjYCICADEMEDIQECQAJAIAIoAgwiAARAIAIoAhAiA0EEaygCACIEQXhxIgVBBEEIIARBA3EiBBsgAGpJDQEgBEEAIAUgAEEnaksbDQIgAxCiAgsgAkEwaiQAIAEPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuJAgEDfwJAAkACQAJAAkAgASkCAEL117zJyMzWszqFIAEpAghC/tvLm/Plucb1AIWEUEUEQCAAQQRqEOoCIAAoAhwiAUUNASAAKAIgIgJBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAFqSQ0CIANBACAEIAFBJ2pLGw0DIAIQogIMAQsgAEEEahDqAiAAQShqEOMECyAAQQRrKAIAIgFBeHEiAkE4QTwgAUEDcSIBG0kNAiABQQAgAkHcAE8bDQMgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuOAgEDfwJAAkACQAJAIAEpAgBC7bqtts2F1PXjAIUgASkCCEL4gpm9le7Gxbl/hYRQRQRAIAAoAiQhAiAAQQRqEOoCIABBBGsoAgAiA0F4cUEsQTAgA0EDcSIEG0kNASAEQQAgA0HQAE8bDQIgABCiAiACIAEgAigCACgCFBEBAA8LIABBBGoQ6gIgACgCJCIBIAEoAgAoAgARAwAgAEEEaygCACIBQXhxQSxBMCABQQNxIgIbSQ0CIAJBACABQdAATxsNAyAAEKICDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+8BAQR/AkACQAJAAkAgAC0AAEEDRgRAIAAoAgQiACgCACEBIABBBGooAgAiAigCACIDBEAgASADEQMACyACKAIEIgIEQCABQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyACakkNAiADQQAgBCACQSdqSxsNAyABEKICCyAAQQRrKAIAIgFBeHEiAkEQQRQgAUEDcSIBG0kNAyABQQAgAkE0TxsNBCAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvPAgIGfwF+AkACQCAAKAIIIgEgACgCBCICRg0AIAEgAk8NASAAKAIAIgQgAWotAAAiA0EiRiADQdwARnIgA0EfTXINACAEIAFBAWoiBWohA0EAIAIgBWtBeHEiBmshAgNAIAMhASACRQRAIAAgBSAGajYCCAJAIAAoAggiASAAKAIEIgJPDQAgACgCACEEA0AgASAEai0AACIDQSJGIANB3ABGciADQSBJcg0BIAAgAUEBaiIBNgIIIAEgAkcNAAsLDwsgAkEIaiECIAFBCGohAyABKQAAIgdCf4UgB0LcuPHixYuXrtwAhUKBgoSIkKDAgAF9IAdCosSIkaLEiJEihUKBgoSIkKDAgAF9IAdCoMCAgYKEiJAgfYSEg0KAgYKEiJCgwIB/gyIHUA0ACyAAIAEgBGsgB3qnQQN2ajYCCAsPCyABIAJBiJzGABCMBwAL6wEBA38jAEFAaiIDJAAgAyACNgIEIAMgATYCACADIAOtQoCAgIAwhDcDECADIACtQoCAgICwDoQ3AwggA0ICNwI0IANBAjYCLCADQaimxgA2AiggAyADQQhqNgIwIANBHGogA0EoahDsAyADKAIcIQAgAygCICIBIAMoAiQQ6wghAgJAAkAgAARAIAFBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIABqSQ0BIARBACAFIABBJ2pLGw0CIAEQogILIANBQGskACACDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALiAIBA38jAEEQayICJAACQCAAKAIAIgAoAgAEQCACIABBCGo2AgQgASgCAEHw1cQAQQogASgCBCgCDBEAACEDIAJBADoADSACIAM6AAwgAiABNgIIIAJBCGpByKrHAEEGIABB4NXEABCMBUH61cQAQQ4gAkEEakGAwsQAEIwFIAItAA0iAyACLQAMIgRyIQEgBEEBcSADQQFHcg0BKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAQwCCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQEMAQsgASgCAEGeqscAQRAgASgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvrAQEEfwJAAkACQAJAIABBDGooAgAiAQRAIABBEGooAgAiAkEEaygCACIDQXhxIgQgAUEEdCIBQQRBCCADQQNxIgMbckkNASADQQAgBCABQSdqSxsNAiACEKICCwJAIABBf0YNACAAIAAoAgRBAWsiATYCBCABDQAgAEEEaygCACIBQXhxQRxBICABQQNxIgIbSQ0DIAJBACABQcAATxsNBCAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAv/AQEBfyMAQTBrIgIkAAJAIAApAwBC////////////AINCgICAgICAgPj/AFoEQCACIACtQoCAgIDwAoQ3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkGg+McANgIYIAIgAkEQajYCICACQRhqEMEDIQAMAQsgAkEAOgAMIAIgATYCCCACIACtQoCAgIDwAoQ3AxAgAkIBNwIkQQEhACACQQE2AhwgAkGg+McANgIYIAIgAkEQajYCICACQQhqQcSSxgAgAkEYahDBAw0AIAItAAxFBEAgASgCAEG/ksYAQQIgASgCBCgCDBEAAA0BC0EAIQALIAJBMGokACAAC+sBAQR/AkACQAJAAkAgASgCKEECRwRAAkAgASgCpAJBgYCAgHhGDQAgASgCrAIiAkEASA0CIAIEQCABKAKoAiEDIAIQcSIBRQ0EIAIEQCABIAMgAvwKAAALIAEgAhCWASABQQRrKAIAIgRBeHEiBUEEQQggBEEDcSIEGyACakkNBSAEQQAgBSACQSdqSxsNBiABEKICQf8BcSICQQhHDQELQQAhAgsgAEEGNgIAIAAgAjoABA8LQayYxwAQ3QkAC0HYmsgAEP8HCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+cBAQF/IwBBEGsiBiQAAkACQAJAIAEEQCAGQQRqIAEgAyAEIAUgAigCEBEHACAGKAIIIQECQCAGKAIEIgMgBigCDCICTQ0AIANBAnQhAyACRQRAIAFBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIANqSQ0DIARBACAFIANBJ2pLGw0EIAEQogJBBCEBDAELIAEgA0EEIAJBAnQQuwIiAUUNBAsgACACNgIEIAAgATYCACAGQRBqJAAPC0Gt+cQAQTIQjwoAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHCwAL6AEBBH8jAEEQayICQQhqQQA6AAAgAkEAOwEGIAIgAUEUdi0A3LZFOgAJIAIgAUEEdkEPcS0A3LZFOgANIAIgAUEIdkEPcS0A3LZFOgAMIAIgAUEMdkEPcS0A3LZFOgALIAIgAUEQdkEPcS0A3LZFOgAKIAFBAXJnQQJ2IgMgAkEGaiIFaiIEQfsAOgAAIARBAWtB9QA6AAAgBSADQQJrIgNqQdwAOgAAIAJBDmoiBCABQQ9xLQDctkU6AAAgAEEKOgALIAAgAzoACiAAIAIpAQY3AAAgAkH9ADoADyAAQQhqIAQvAQA7AAAL5AECA38BfiMAQSBrIgIkACACQQg6ABsgAkEIaiABIAJBG2ogASgCgAEQ5AQCQCAAAn8gAi0ACCIDQR1HBEAgAikCDCEFIANFBEAgACAFNwIEQQUMAgsgAigCFCEEQRAQcSIBRQ0CIAEgAzoAACABIAQ2AgwgASAFNwIEIABB7LvEADYCGCAAIAE2AhQgAEGABjsBBCABIAJBCGpBAXIiAy8AADsAASABQQNqIANBAmotAAA6AABBAAwBCyAAIAIpAgw3AgQgAEEMaiACQRRqKAIANgIAQQYLNgIAIAJBIGokAA8LAAvkAQIDfwF+IwBBIGsiAiQAIAJBCjoAGyACQQhqIAEgAkEbaiABKAKAARDkBAJAIAACfyACLQAIIgNBHUcEQCACKQIMIQUgA0UEQCAAIAU3AgRBBQwCCyACKAIUIQRBEBBxIgFFDQIgASADOgAAIAEgBDYCDCABIAU3AgQgAEHsu8QANgIYIAAgATYCFCAAQYAGOwEEIAEgAkEIakEBciIDLwAAOwABIAFBA2ogA0ECai0AADoAAEEADAELIAAgAikCDDcCBCAAQQxqIAJBFGooAgA2AgBBBgs2AgAgAkEgaiQADwsAC4gCAAJ/AkACQAJAIAJBBGsOAgEAAgsCQCABLQAAQeYAayICBEAgAkENRgRADAIFDAQLAAsgAS0AAUHpAEcNAiABLQACQewARw0CIAEtAANB5QBHDQIgAS0ABEHzAEcNAkEADAMLIAEtAAFB6ABHDQEgAS0AAkHhAEcNASABLQADQfAARw0BIAEtAARB5QBHDQFBAwwCCyABLQAAQe0ARw0AAkACQAJAIAEtAAFB4QBrDgkAAwMDAwMDAwEDCyABLQACQfgARg0BDAILIAEtAAJB7gBHDQEgAS0AA0HzAEcNAUEBDAILIAEtAANB8wBHDQBBAgwBC0EECyEBIABBADoAACAAIAE6AAEL0QEBA38jAEEQayICJAAgAkEANgIMIAAgAkEMagJ/IAFBgAFPBEAgAUE/cUGAf3IhAyABQQZ2IQAgAUGAEEkEQCACIAM6AA0gAiAAQcABcjoADEECDAILIAFBDHYhBCAAQT9xQYB/ciEAIAFB//8DTQRAIAIgAzoADiACIAA6AA0gAiAEQeABcjoADEEDDAILIAIgAzoADyACIAA6AA4gAiAEQT9xQYB/cjoADSACIAFBEnZBcHI6AAxBBAwBCyACIAE6AAxBAQsQ6wEgAkEQaiQAC9EBAQN/IwBBEGsiAiQAIAJBADYCDCAAIAJBDGoCfyABQYABTwRAIAFBP3FBgH9yIQMgAUEGdiEAIAFBgBBJBEAgAiADOgANIAIgAEHAAXI6AAxBAgwCCyABQQx2IQQgAEE/cUGAf3IhACABQf//A00EQCACIAM6AA4gAiAAOgANIAIgBEHgAXI6AAxBAwwCCyACIAM6AA8gAiAAOgAOIAIgBEE/cUGAf3I6AA0gAiABQRJ2QXByOgAMQQQMAQsgAiABOgAMQQELENUCIAJBEGokAAvlAQECfyMAQRBrIgUkAAJAAkACQCABBEAgBUEEaiABIAMgBCACKAIQEQYAIAUoAgghAQJAIAUoAgQiAyAFKAIMIgJNDQAgA0ECdCEDIAJFBEAgAUEEaygCACIEQXhxIgZBBEEIIARBA3EiBBsgA2pJDQMgBEEAIAYgA0EnaksbDQQgARCiAkEEIQEMAQsgASADQQQgAkECdBC7AiIBRQ0ECyAAIAI2AgQgACABNgIAIAVBEGokAA8LQa35xABBMhCPCgALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcLAAvkAQEEfwJAAkACQAJAIAAoAggiAQRAIAAoAgwiAkEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAWpJDQEgA0EAIAQgAUEnaksbDQIgAhCiAgsCQCAAQX9GDQAgACAAKAIEIgFBAWs2AgQgAUEBRw0AIABBBGsoAgAiAUF4cSICQRhBHCABQQNxIgEbSQ0DIAFBACACQTxPGw0EIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+gBAQR/IwBBMGsiAiQAIAJBKGoiAyABQUBrKQMANwMAIAJBGGoiBSABQTBq/QADAP0LAwAgAiAB/QADIP0LAwgCQAJAQSgQcSIEBEAgBCAC/QADCP0LAwAgBEEgaiADKQMANwMAIARBEGogBf0AAwD9CwMAIAFBBGoQ6gIgAUEEaygCACIDQXhxQcwAQdAAIANBA3EiBRtJDQEgBUEAIANB8ABPGw0CIAEQogIgAEHsr8cANgIEIAAgBDYCACACQTBqJAAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC94BAQR/AkACQAJAAkAgACgCACIBBEAgACgCBCICQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyABakkNASADQQAgBCABQSdqSxsNAiACEKICCyAAKAIMIgEEQCAAKAIQIgBBBGsoAgAiAkF4cSIDIAFBAnQiAUEEQQggAkEDcSICG2pJDQMgAkEAIAMgAUEnaksbDQQgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL5wEBBH8CQAJAAkACQCAAKAIAIgEEQCAAKAIEIgJBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAFqSQ0BIANBACAEIAFBJ2pLGw0CIAIQogILIAAoAgwiAUGAgICAeHJBgICAgHhHBEAgACgCECIAQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyABakkNAyACQQAgAyABQSdqSxsNBCAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvQAQEDfwJAAkACQCACIAMgBGsiBUsEQCACIANNDQEgAyAEQQF0ayIGIAJPDQIgAyAEaiIHIAJPDQMgASAFai0AACABIANqLQAAayIFIAVBH3UiBXMgBWtBAXRB/gNxIAEgBmotAAAgASAHai0AAGsiBSAFQR91IgVzIAVrQQF2aiAAQf8BcU0EQEEBIAEgAiADIAQQ6AQaCw8LIAUgAkGI18QAEIwHAAsgAyACQZjXxAAQjAcACyAGIAJBqNfEABCMBwALIAcgAkG418QAEIwHAAvGAQEDfyABQf8AQYB/QfwAQYB/IAAEf0H/AEGAfyABLQACIAEtAAVrIgAgAEGAf0wbIgAgAEH/AE4bBSADCyABLQAEIgQgAS0AAyICa0EDbGoiACAAQYB/TBsiACAAQfwAThtBA2pBA3UgAmpBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoAAyABQf8AQYB/IARB+wAgACAAQfsAThtBBGpBA3UiAGtBgAFrIgEgAUGAf0wbIgEgAUH/AE4bQYABczoABCAAC+8BAQR/IwBBIGsiACQAQaL5xwAhA0EJIQQCQAJAIAIoAgANACAAQRBqIAIoAgQgAigCCBD7AkGi+ccAIAAoAhQgACgCECICGyEDIAINACAAKAIYIgQNACABQQFBABCXAyECDAELIAAgBDYCDCAAIAM2AgggASgCBCEDIAEoAgAhBANAAkAgAEEQaiAAQQhqEO0DIAAoAhAiBUUNACAAKAIUIQYgACgCHEUEQCABIAUgBhCXAyECDAMLQQEhAiAEIAUgBiADKAIMEQAADQIgBEH9/wMgAygCEBECAEUNAQwCCwtBACECCyAAQSBqJAAgAgvSAQEBfyMAQSBrIgUkACAFQQhqIAMgAyAEQQJ0ahCZAwJAAkAgASACSwRAIAAgAkEYbGoiACgCFCIBQQVPBEAgACgCCCICQQRrKAIAIgNBeHEiBCABQQJ0IgFBBEEIIANBA3EiAxtqSQ0CIANBACAEIAFBJ2pLGw0DIAIQogILIAAgBf0AAgj9CwIAIABBEGogBUEYaikCADcCACAFQSBqJAAPCyACIAFBtMDHABCMBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC9kBAQR/AkACQAJAAkAgACgCDCIBBEAgACgCECICQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyABakkNASADQQAgBCABQSdqSxsNAiACEKICCyAAKAIYIgEEQCAAKAIcIgBBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0DIAJBACADIAFBJ2pLGw0EIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC9kBAQR/AkACQAJAAkAgACgCACIBBEAgACgCBCICQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyABakkNASADQQAgBCABQSdqSxsNAiACEKICCyAAKAIMIgEEQCAAKAIQIgBBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0DIAJBACADIAFBJ2pLGw0EIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+8BAQN/IwBBEGsiAiQAAkAgACgCAARAIAIgADYCBCABKAIAQcCqxwBBCCABKAIEKAIMEQAAIQAgAkEAOgANIAIgADoADCACIAE2AgggAkEIakHIqscAQQYgAkEEakHolsEAEIwFIAItAA0iAyACLQAMIgRyIQEgBEEBcSADQQFHcg0BKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAQwCCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQEMAQsgASgCAEGeqscAQRAgASgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvvAQEDfyMAQRBrIgIkAAJAIAAoAgAEQCACIAA2AgQgASgCAEHAqscAQQggASgCBCgCDBEAACEAIAJBADoADSACIAA6AAwgAiABNgIIIAJBCGpByKrHAEEGIAJBBGpBsKrHABCMBSACLQANIgMgAi0ADCIEciEBIARBAXEgA0EBR3INASgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQEMAgsgACgCAEGls8UAQQEgACgCBCgCDBEAACEBDAELIAEoAgBBnqrHAEEQIAEoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXEL+AEBA38jAEEQayICJAAgAiAANgIEIAEoAgBB7aXHAEEGIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQbimxwBBDyAAQRBqQZimxwAQjAVBx6bHAEEQIABBGGpBmKbHABCMBUHXpscAQQkgAkEEakGopscAEIwFIQEgAi0ADSIDIAItAAwiBHIhAAJAIARBAXEgA0EBR3INACABKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAAwBCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQALIAJBEGokACAAQQFxC8wBAQF/IwBBQGoiAiQAIAJBBGogARCfAwJAIAItAARBAUYEQCAAIAIoAgg2AgQgAEEENgIADAELIAItAAVFBEAgAEEDNgIADAELIAJBBGogASgCABCDASACKAIEQQNGBEAgACACKAIINgIEIABBBDYCAAwBCyAAIAL9AAIE/QsCACAAQThqIAJBPGooAgA2AgAgAEEwaiACQTRqKQIANwIAIABBIGogAkEkav0AAgD9CwIAIABBEGogAkEUav0AAgD9CwIACyACQUBrJAAL1wEBA38jAEEQayIDJAACQAJAAkACQCAAKAIMBEAgACEBDAELIANBCGogASgCDCABKAIQIAEoAhQQ+QEgAygCDCECIAMoAgghBEEUEHEiAUUNASABIAApAgA3AgAgAUEIaiAAQQhqKAIANgIAIAEgAjYCECABIAQ2AgwgAEEEaygCACICQXhxIgRBGEEcIAJBA3EiAhtJDQIgAkEAIARBPE8bDQMgABCiAgsgA0EQaiQAIAEPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC9gBAQJ/IwBBEGsiBSQAIAACfwJAIANBASAEGwRAIAEoAhQiAyABKAIQIgRPDQEgASgCDCEGA0AgAyAGai0AAEEwa0H/AXFBCk8NAiABIANBAWoiAzYCFCADIARHDQALDAELIAVBCGogASgCDCABKAIQIAEoAhQQ+QEgBSgCDCECIAUoAgghA0EUEHEiAQRAIAEgAzYCDCABQQ42AgAgACABNgIEIAEgAjYCEEEBDAILAAsgAEQAAAAAAAAAAEQAAAAAAAAAgCACGzkDCEEACzYCACAFQRBqJAAL1QEBBH8gAEEEahDqAgJAAkACQAJAIAAoAhwiAQRAIAAoAiAiAkEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAWpJDQEgA0EAIAQgAUEnaksbDQIgAhCiAgsgAEEoahDjBCAAQQRrKAIAIgFBeHEiAkE4QTwgAUEDcSIBG0kNAiABQQAgAkHcAE8bDQMgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvtAQECfyMAQRBrIgkkACAAKAIAQYipxwBBBCAAKAIEKAIMEQAAIQogCUEAOgANIAkgCjoADCAJIAA2AgggCUEIakGMqccAQQkgASACEIwFQZWpxwBBCCADIAQQjAVBnanHAEEGIAUgBhCMBUGjqccAQQogByAIEIwFIQEgCS0ADSICIAktAAwiA3IhAAJAIANBAXEgAkEBR3INACABKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAAwBCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQALIAlBEGokACAAQQFxC7wBAQN/IwBBIGsiAyQAAkACf0EAIAIgASACaiIESw0AGkEAQQggBCAAKAIAIgJBAXQiASABIARJGyIEIARBCE0bIgRBAEgNABpBACEBIAMgAgR/IAMgAjYCHCADIAAoAgQ2AhRBAQUgAQs2AhggA0EIakEBIAQgA0EUahCFByADKAIIQQFHDQEgAygCECEFIAMoAgwLIAVBnJbIABCTCQALIAMoAgwhASAAIAQ2AgAgACABNgIEIANBIGokAAvpAQEDfyMAQRBrIgIkACACIAAoAgAiADYCBCABKAIAQeynxwBBBiABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakHyp8cAQQQgAEEEakG0lsEAEIwFQfanxwBBBSACQQRqQcSWwQAQjAUhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXELxwEBAX8jAEEwayICJAACfyAALQAEQQFGBEAgAiAALQAFOgAHIAJBAjYCHCACQfiKwwA2AhggAkICNwIkIAIgAK1CgICAgBCENwMQIAIgAkEHaq1CgICAgPAEhDcDCCACIAJBCGo2AiAgASgCACABKAIEIAJBGGoQwQMMAQsgAkEBNgIcIAJBtIvDADYCGCACQgE3AiQgAiAArUKAgICAEIQ3AwggAiACQQhqNgIgIAEoAgAgASgCBCACQRhqEMEDCyACQTBqJAAL5gEBBH8jAEEgayIAJABBASECAkAgASgCACIDQaiayABBDyABKAIEIgUoAgwiBBEAAA0AAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBBEAAA0CIAFBmJbIAEECEJcDRQ0BDAILIANB24HCAEECIAQRAAANASAAQQE6AA8gACAFNgIEIAAgAzYCACAAQeCBwgA2AhQgACABKQIINwIYIAAgAEEPajYCCCAAIAA2AhAgAEEQakGYlsgAQQIQlwMNASAAQdmBwgBBAhCvAw0BCyADQd6OyABBASAEEQAAIQILIABBIGokACACC+YBAQR/IwBBIGsiACQAQQEhAgJAIAEoAgAiA0HY8sQAQREgASgCBCIFKAIMIgQRAAANAAJAIAEtAApBgAFxRQRAIANBu7PFAEEBIAQRAAANAiABQZiWyABBAhCXA0UNAQwCCyADQduBwgBBAiAEEQAADQEgAEEBOgAPIAAgBTYCBCAAIAM2AgAgAEHggcIANgIUIAAgASkCCDcCGCAAIABBD2o2AgggACAANgIQIABBEGpBmJbIAEECEJcDDQEgAEHZgcIAQQIQrwMNAQsgA0HejsgAQQEgBBEAACECCyAAQSBqJAAgAgvpAQEDfyMAQRBrIgIkACACIAAoAgAiADYCBCABKAIAQeynxwBBBiABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakHyp8cAQQQgAEEEakHMp8cAEIwFQfanxwBBBSACQQRqQdynxwAQjAUhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXEL2AECBX8BfiMAQTBrIgIkACABKAIAQYCAgIB4RgRAIAEoAgwgAkEANgIUIAJCgICAgBA3AgwoAgAiAykCECEHIAMoAgwhBCADKAIIIQUgAygCACEGIAMoAgQhAyACIAc3AiggAiAENgIkIAIgBTYCICACIAM2AhwgAiAGNgIYIAJBDGpBzIXIACACQRhqEMEDGiACQQhqIAJBFGooAgAiAzYCACACIAIpAgwiBzcDACABQQhqIAM2AgAgASAHNwIACyAAQdyNyAA2AgQgACABNgIAIAJBMGokAAvpAQEDfyMAQRBrIgIkACACIAAoAgAiAEEEajYCBCABKAIAQeiXyABBCSABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakHxl8gAQQsgAEHIl8gAEIwFQfyXyABBCSACQQRqQdiXyAAQjAUhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXELugEBA38jAEEgayIDJAACQAJ/QQAgAiABIAJqIgRLDQAaQQBBCCAEIAAoAgAiAkEBdCIBIAEgBEkbIgQgBEEITRsiBEEASA0AGkEAIQEgAyACBH8gAyACNgIcIAMgACgCBDYCFEEBBSABCzYCGCADQQhqIAQgA0EUahDdByADKAIIQQFHDQEgAygCECEFIAMoAgwLIAVB/O7BABCTCQALIAMoAgwhASAAIAQ2AgAgACABNgIEIANBIGokAAu6AQEDfyMAQSBrIgMkAAJAAn9BACACIAEgAmoiBEsNABpBAEEIIAQgACgCACICQQF0IgEgASAESRsiBCAEQQhNGyIEQQBIDQAaQQAhASADIAIEfyADIAI2AhwgAyAAKAIENgIUQQEFIAELNgIYIANBCGogBCADQRRqEN0HIAMoAghBAUcNASADKAIQIQUgAygCDAsgBUGclsgAEJMJAAsgAygCDCEBIAAgBDYCACAAIAE2AgQgA0EgaiQAC7wBAQV/IwBBIGsiAiQAIAAoAgAiBEH/////AEsEQEEAQQAgARCTCQALAkBBBCAEQQF0IgUgBUEETRsiBUEDdCIGQfz///8HTQR/IAIgBAR/IAIgBEEDdDYCHCACIAAoAgQ2AhRBBAUgAws2AhggAkEIakEEIAYgAkEUahCFByACKAIIQQFHDQEgAigCECEDIAIoAgwFIAMLIAMgARCTCQALIAIoAgwhASAAIAU2AgAgACABNgIEIAJBIGokAAu8AQEFfyMAQSBrIgIkACAAKAIAIgRB/////wFLBEBBAEEAIAEQkwkACwJAQQQgBEEBdCIFIAVBBE0bIgVBAnQiBkH8////B00EfyACIAQEfyACIARBAnQ2AhwgAiAAKAIENgIUQQQFIAMLNgIYIAJBCGpBBCAGIAJBFGoQhQcgAigCCEEBRw0BIAIoAhAhAyACKAIMBSADCyADIAEQkwkACyACKAIMIQEgACAFNgIAIAAgATYCBCACQSBqJAALuwEBBX8jAEEgayICJAAgACgCACIEQf///x9LBEBBAEEAIAEQkwkACwJAQQQgBEEBdCIFIAVBBE0bIgVBBXQiBkH4////B00EfyACIAQEfyACIARBBXQ2AhwgAiAAKAIENgIUQQgFIAMLNgIYIAJBCGpBCCAGIAJBFGoQhQcgAigCCEEBRw0BIAIoAhAhAyACKAIMBSADCyADIAEQkwkACyACKAIMIQEgACAFNgIAIAAgATYCBCACQSBqJAAL5AEBA38jAEEQayICJAAgAiAAQQRqNgIEIAEoAgBB6JfIAEEJIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQfGXyABBCyAAQbSWwQAQjAVB/JfIAEEJIAJBBGpB1JbBABCMBSEAIAItAA0iAyACLQAMIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvkAQEDfyMAQRBrIgIkACABKAIAQef7xwBBBSABKAIEKAIMEQAAIQMgAkEAOgAJIAIgAzoACCACIAE2AgQgAiAANgIMIAJBBGpB7LXHAEEHIAJBDGpBiKDBABCMBUGEtscAQQYgAEEIakGYoMEAEIwFIQAgAi0ACSIDIAItAAgiBHIhAQJAIARBAXEgA0EBR3INACAAKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAQwBCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQELIAJBEGokACABQQFxC+QBAQN/IwBBEGsiAiQAIAEoAgBB5/vHAEEFIAEoAgQoAgwRAAAhAyACQQA6AAkgAiADOgAIIAIgATYCBCACIAA2AgwgAkEEakHstccAQQcgAkEMakGIoMEAEIwFQYS2xwBBBiAAQQhqQaigwQAQjAUhACACLQAJIgMgAi0ACCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXEL5AEBA38jAEEQayICJAAgAiAANgIEIAEoAgBB7KfHAEEGIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQfKnxwBBBCAAQQRqQaDAxAAQjAVB9qfHAEEFIAJBBGpBsMDEABCMBSEAIAItAA0iAyACLQAMIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQuvAQEEfyMAQRBrIgMkAEEDIQIgACgCACwAACIEIATAQQd1IgBzIABrIgBB/wFxIgVBCk8EQEEBIQIgAyAAQQF0IgAgAEE4aiAFQeQASRtB/gFxLwC4ukU7AA4gBUHjAEshAAtBACAEIABB/wFxIgAbRQRAIAJBAWsiAiADQQ1qaiAAQQF0LQC5ukU6AAALIAEgBEEATkEBQQAgA0ENaiACakEDIAJrEMgDIANBEGokAAvkAQEDfyMAQRBrIgIkACACIABBBGo2AgQgASgCAEHol8gAQQkgASgCBCgCDBEAACEDIAJBADoADSACIAM6AAwgAiABNgIIIAJBCGpB8ZfIAEELIABBmJzFABCMBUH8l8gAQQkgAkEEakGonMUAEIwFIQAgAi0ADSIDIAItAAwiBHIhAQJAIARBAXEgA0EBR3INACAAKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAQwBCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQELIAJBEGokACABQQFxC8kBAgN/AX4jAEEQayIEJAACQCAAKAIQIgNFBEAMAQtBASECIANB+LTFAEEBEJcDDQAgAVAEQCADQZKyxQBBARCXAyECDAELAkAgASAANQIUIgVYBEAgBSABfSIBQhpUDQEgA0GSssUAQQEQlwMNAiAEIAE3AwggBEEIaiADEIUFIQIMAgsgA0HqssUAQRAQlwMNAUEAIQIgAEEAOgAEIABBADYCAAwBCyAEIAGnQeEAajYCBCAEQQRqIAMQqAUhAgsgBEEQaiQAIAILuwEBBX8jAEEgayICJAAgACgCACIEQf///x9LBEBBAEEAIAEQkwkACwJAQQQgBEEBdCIFIAVBBE0bIgVBBXQiBkH8////B00EfyACIAQEfyACIARBBXQ2AhwgAiAAKAIENgIUQQQFIAMLNgIYIAJBCGpBBCAGIAJBFGoQhQcgAigCCEEBRw0BIAIoAhAhAyACKAIMBSADCyADIAEQkwkACyACKAIMIQEgACAFNgIAIAAgATYCBCACQSBqJAAL5AEBA38jAEEQayICJAAgAiAAQRBqNgIEIAEoAgBBnKjHAEENIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQamoxwBBBiAAQfynxwAQjAVBr6jHAEEKIAJBBGpBjKjHABCMBSEAIAItAA0iAyACLQAMIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvkAQEDfyMAQRBrIgIkACACIABBEGo2AgQgASgCAEG5qMcAQQ0gASgCBCgCDBEAACEDIAJBADoADSACIAM6AAwgAiABNgIIIAJBCGpBqajHAEEGIABB/KfHABCMBUGvqMcAQQogAkEEakGMqMcAEIwFIQAgAi0ADSIDIAItAAwiBHIhAQJAIARBAXEgA0EBR3INACAAKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAQwBCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQELIAJBEGokACABQQFxC+QBAQN/IwBBEGsiAiQAIAIgAEEMajYCBCABKAIAQZCqxwBBDiABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakHI+8cAQQQgAEGAqscAEIwFQa+oxwBBCiACQQRqQYyoxwAQjAUhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXEL5AEBA38jAEEQayICJAAgAiAAQRBqNgIEIAEoAgBBuKzHAEEQIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQamoxwBBBiAAQfynxwAQjAVByPvHAEEEIAJBBGpBqKzHABCMBSEAIAItAA0iAyACLQAMIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvkAQEDfyMAQRBrIgIkACABKAIAQef7xwBBBSABKAIEKAIMEQAAIQMgAkEAOgAJIAIgAzoACCACIAE2AgQgAiAANgIMIAJBBGpB7LXHAEEHIAJBDGpB3LXHABCMBUGEtscAQQYgAEEMakH0tccAEIwFIQAgAi0ACSIDIAItAAgiBHIhAQJAIARBAXEgA0EBR3INACAAKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAQwBCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQELIAJBEGokACABQQFxC74BAgN/AX4jAEEQayIDJAAgACgCACEAAkAgASkCCCIFpyICQYCAgARxRQ0AIAJBgICAwABxBEAgAkGAgIAIciECDAELIAFBCjsBDCACQYCAgMgAciECCyABIAJBgICABHI2AghBCSECA0AgAiADakEGaiAAQQ9xLQDctkU6AAAgAkEBayECIABBEEkgAEEEdiEARQ0ACyABQQFBhLTFAEECIAIgA2pBB2pBCSACaxDIAyABIAU3AgggA0EQaiQAC+QBAQN/IwBBEGsiAiQAIAIgAEEMajYCBCABKAIAQaiYyABBDSABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakG1mMgAQQUgAEGImMgAEIwFQbqYyABBBSACQQRqQZiYyAAQjAUhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXELugEBBX8jAEEgayICJAAgACgCACIEQf////8BSwRAQQBBACABEJMJAAsCQEEEIARBAXQiBSAFQQRNGyIFQQJ0IgZB/P///wdNBH8gAiAEBH8gAiAEQQJ0NgIcIAIgACgCBDYCFEEEBSADCzYCGCACQQhqIAYgAkEUahCBByACKAIIQQFHDQEgAigCECEDIAIoAgwFIAMLIAMgARCTCQALIAIoAgwhASAAIAU2AgAgACABNgIEIAJBIGokAAvLAQEEfyAAQQRqEOoCAkACQAJAAkAgACgCHCIBBEAgACgCICICQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyABakkNASADQQAgBCABQSdqSxsNAiACEKICCyAAQQRrKAIAIgFBeHFBLEEwIAFBA3EiAhtJDQIgAkEAIAFB0ABPGw0DIAAQogIPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALrAEBBH8jAEEQayIDJABBAyECIAAsAAAiBCAEwEEHdSIAcyAAayIAQf8BcSIFQQpPBEBBASECIAMgAEEBdCIAIABBOGogBUHkAEkbQf4BcS8AuLpFOwAOIAVB4wBLIQALQQAgBCAAQf8BcSIAG0UEQCACQQFrIgIgA0ENamogAEEBdC0AubpFOgAACyABIARBAE5BAUEAIANBDWogAmpBAyACaxDIAyADQRBqJAAL1AEAAkACQCABBEAgACAELQAIOgAAIAFBAWsiAUEHTQRAQQBBCCABQcjjxAAQ6gcACyAAIAQtABE6AAEgACAELQAaOgACIAAgBC0AIzoAAyAAIAQtACw6AAQgACAELQA1OgAFIAAgBC0APjoABiAAIAQtAEc6AAcgACAELQBQOgAIIAMgBUEDdCIASQ0CIAMgAGsiAUEHSw0BQQBBCCABQdjjxAAQ6gcAC0EAQQBBuOPEABCMBwALIAAgAmogBCkASTcAAA8LIAAgAyADQejjxAAQ6gcAC9ABAgF/AX4jAEEwayICJAACfwJAAkACQCAAKAIAKAIAIgAoAgBBAWsOAgECAAsgAiAAKAIENgIAIAIgACgCCDYCBCACQoCAgIAQIgMgAkEEaq2ENwMQIAIgAyACrYQ3AwggASgCACABKAIEIAJCAjcCJCACQQI2AhwgAkHYnMUANgIYIAIgAkEIajYCICACQRhqEMEDDAILIAEoAgBB6JzFAEEdIAEoAgQoAgwRAAAMAQsgASgCAEGFncUAQTEgASgCBCgCDBEAAAsgAkEwaiQAC7cBAgN/BH4gASgCBCICrSEFAkACQCACQv////8PIAEpAwgiBiAGQv////8PWhunayIEQQAgAiAETxtBAk8EQCABKAIAIAYgBSAFIAZWG6dqLwAAIQNBBCECDAELQaiQyAApAwAiCEIIiCEHIAinIQIgCEL/AYNCBFINAQsgBkICfCEFCyABIAU3AwggAkH/AXFBBEcEQCAAIAKtQv8BgyAHQgiGhDcCAA8LIABBBDoAACAAIAM7AQILtwECBH4Ef0EEIQYgASgCBCIIrSECAkACQCAIQv////8PIAEpAwgiAyADQv////8PWhunayIJQQAgCCAJTxtBBE8EQCABKAIAIAMgAiACIANWG6dqKAAAIQcMAQtBqJDIACkDACIFQgiIIQQgBachBiAFQv8Bg0IEUg0BCyADQgR8IQILIAEgAjcDCCAGQf8BcUEERwRAIAAgBq1C/wGDIARCCIaENwIADwsgAEEEOgAAIAAgBzYCBAugCAMDfwF+AW8jAEEgayIFJABBlLvJAEGUu8kAKAIAIgZBAWo2AgACQCAGQQBIDQBBkLvJAC0AAEUEQEGQu8kAQQE6AABBjLvJAEGMu8kAKAIAQQFqNgIAQZi7yQAoAgAiBkEASA0BQZi7yQAgBkEBajYCAEGYu8kAQZy7yQAoAgAEfyAFQQhqIAAgASgCFBEBACAFIAQ6AB0gBSADOgAcIAUgAjYCGCAFIAUpAwg3AhAgBUEQaiEAIwBB0ABrIgIkACACQQA2AgwgAkKAgICAEDcCBAJAAkACQAJAAkAgAkEEaiIEQZiMyABBDBDiBw0AIAIgACgCCCIBKQIANwIQIAIgAUEMaq1CgICAgBCENwMoIAIgAUEIaq1CgICAgBCENwMgIAIgAkEQaq1CgICAgKABhDcDGCACQgM3AjwgAkEDNgI0IAJBpIzIADYCMCACIAJBGGo2AjggBEHU8cEAIAJBMGoiBBDBAw0AIAQgACgCACIBIAAoAgQoAgwiBREBACABIQACQCACKQMwQu26rbbNhdT14wCFIAIpAzhC+IKZvZXuxsW5f4WEUAR/QQQFIAQgACAFEQEAIAIpAzBC9de8ycjM1rM6hSACKQM4Qv7by5vz5bnG9QCFhEIAUg0BIABBBGohAEEICyABaigCACEBIAAoAgAhACACQQRqIgRByIXIAEECEOIHDQEgBCAAIAEQ4gcNAQsgAkE4aiACQQxqKAIAIgA2AgAgAiACKQIEIgg3AzAgCKciBiAAa0EJTQRAIAJBMGogAEEKEPgFIAIoAjAhBiACKAI4IQALIAIoAjQiBCAAaiIBQcjxwQApAAA3AAAgAUEIakHQ8cEALwAAOwAAIAIgAEEKaiIANgI4ECAhCRDaBCIBIAkmASACQRhqIAElARAhIAIoAhghByACKAIcIgUgBiAAa0sEQCACQTBqIAAgBRD4BSACKAIwIQYgAigCNCEEIAIoAjghAAsgBQRAIAAgBGogByAF/AoAAAsgAiAAIAVqIgA2AjggBiAAa0EBTQRAIAJBMGogAEECEPgFIAIoAjQhBCACKAI4IQALIAAgBGpBihQ7AAAgAiAAQQJqIgA2AjggACACKAIwIgZJBEAgBCAGQQEgABC7AiIERQ0CCyAEIAAQIiAFBEAgB0EEaygCACIAQXhxIgRBBEEIIABBA3EiABsgBWpJDQMgAEEAIAQgBUEnaksbDQQgBxCiAgsgAUGECE8EQCABEJsHCyACQdAAaiQADAQLQaCexgBBNyACQTBqQezxwQBB2J7GABDgBgsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBmLvJACgCAEEBawUgBgs2AgBBkLvJAEEAOgAAIANFDQEACyAFIAAgASgCGBEBAAsAC7YBAQZ/IwBBIGsiASQAAkACQCAAKAIAIgNB////H0sNAEEEIANBAXQiBCAEQQRNGyIEQQV0IgVB+P///wdLDQAgASADBH8gASADQQV0NgIcIAEgACgCBDYCFEEIBSACCzYCGCABQQhqQQggBSABQRRqEIUHIAEoAghBAUcNASABKAIQIQYgASgCDCECCyACIAZByOPBABCTCQALIAEoAgwhAiAAIAQ2AgAgACACNgIEIAFBIGokAAvFAQEEfyMAQSBrIgMkACADQRhqIgIgAUEsaikCADcDACADIAH9AAIc/QsDCAJAAkBBGBBxIgQEQCAEIAP9AAMI/QsCACAEQRBqIAIpAwA3AgAgAUEEahDqAiABQQRrKAIAIgJBeHEiBUE4QTwgAkEDcSICG0kNASACQQAgBUHcAE8bDQIgARCiAiAAQaCxxwA2AgQgACAENgIAIANBIGokAA8LAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALrgEBBX8jAEEgayIBJAACQCAAKAIAIgJBksmkEksEf0EABUEEIAJBAXQiAyADQQRNGyIEQRxsIQVBACEDIAEgAgR/IAEgAkEcbDYCHCABIAAoAgQ2AhRBBAUgAws2AhggAUEIakEEIAUgAUEUahCFByABKAIIQQFHDQEgASgCECEAIAEoAgwLIABB0OXBABCTCQALIAEoAgwhAiAAIAQ2AgAgACACNgIEIAFBIGokAAuwAQEFfwJAAkAgACgCBCICIAAoAgAiAUcEQCACIAFrIQIgAUEMbCAAakEMaiEAA0AgAEEEaygCACIBBEAgACgCACIEQQRrKAIAIgNBeHEiBSABQQJ0IgFBBEEIIANBA3EiAxtqSQ0DIANBACAFIAFBJ2pLGw0EIAQQogILIABBDGohACACQQFrIgINAAsLDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALwgEBBn8jAEEgayICJAACQAJAAkAgARC4CiIEQf////8DSw0AIARBAnQiA0H9////B08NAAJAIANFBEBBBCEDDAELIAQhBiADEHEiA0UNAgsgARC4CiEFIAEQuAohByACIAU2AgQgAiAHNgIAIAUgB0cNAiADIAUgARDhCSAAIAQ2AgggACADNgIEIAAgBjYCACACQSBqJAAPC0Hg+cQAEP8HCwALIAJBADYCCEEAIAIgAkEEaiACQQhqQeD5xAAQ9QcAC78BAQR/IwBBEGsiAiQAIAJBCGoiAyABQSRqKAIANgIAIAIgASkCHDcDAAJAAkBBDBBxIgQEQCAEIAIpAwA3AgAgBEEIaiADKAIANgIAIAFBBGoQ6gIgAUEEaygCACIDQXhxQSxBMCADQQNxIgUbSQ0BIAVBACADQdAATxsNAiABEKICIABB+JjBADYCBCAAIAQ2AgAgAkEQaiQADwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAu/AQEEfyMAQRBrIgIkACACQQhqIgMgAUEkaigCADYCACACIAEpAhw3AwACQAJAQQwQcSIEBEAgBCACKQMANwIAIARBCGogAygCADYCACABQQRqEOoCIAFBBGsoAgAiA0F4cUEsQTAgA0EDcSIFG0kNASAFQQAgA0HQAE8bDQIgARCiAiAAQbyYwQA2AgQgACAENgIAIAJBEGokAA8LAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALvwEBBH8jAEEQayICJAAgAkEIaiIDIAFBJGooAgA2AgAgAiABKQIcNwMAAkACQEEMEHEiBARAIAQgAikDADcCACAEQQhqIAMoAgA2AgAgAUEEahDqAiABQQRrKAIAIgNBeHFBLEEwIANBA3EiBRtJDQEgBUEAIANB0ABPGw0CIAEQogIgAEG0mcEANgIEIAAgBDYCACACQRBqJAAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC78BAQR/IwBBEGsiAiQAIAJBCGoiAyABQSRqKAIANgIAIAIgASkCHDcDAAJAAkBBDBBxIgQEQCAEIAIpAwA3AgAgBEEIaiADKAIANgIAIAFBBGoQ6gIgAUEEaygCACIDQXhxQSxBMCADQQNxIgUbSQ0BIAVBACADQdAATxsNAiABEKICIABBrJrBADYCBCAAIAQ2AgAgAkEQaiQADwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuvAQEDfyAAAn8CQAJAIAIgBEsEQEEKIQYDQCABIARBA3RqIggvAQAiBwRAIAdBAmsNAwwECyAGQQFqIQYgA0EBcSEHIANBAXYhAyAIKAIEIAQgB2pqIgQgAkkNAAsLIAQgAkHctcQAEIwHAAtBDyAFLQAgIgEgBkH/AXFJDQEaIAUgASAGazoAICAAIAgvAQI7AQIgBSAFKQMAIAatiDcDACAAQR06AAAPC0EOCzoAAAuvAQEDfyAAAn8CQAJAIAIgBEsEQEEKIQYDQCABIARBA3RqIggvAQAiBwRAIAdBAmsNAwwECyAGQQFqIQYgA0EBcSEHIANBAXYhAyAIKAIEIAQgB2pqIgQgAkkNAAsLIAQgAkHctcQAEIwHAAtBDyAFLQAMIgEgBkH/AXFJDQEaIAUgASAGazoADCAAIAgvAQI7AQIgBSAFKQMAIAatiDcDACAAQR06AAAPC0EOCzoAAAvQAQEDfyMAQRBrIgIkACACIAA2AgQgASgCAEGQzsQAQQ8gASgCBCgCDBEAACEAIAJBADoADSACIAA6AAwgAiABNgIIIAJBCGpByPvHAEEEIAJBBGpBgM7EABCMBSEAIAItAA0iAyACLQAMIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQuwAQEFfyMAQSBrIgEkAAJAIAAoAgAiAkHQjtQDSwR/QQAFQQQgAkEBdCIDIANBBE0bIgRBjAFsIQVBACEDIAEgAgR/IAEgAkGMAWw2AhwgASAAKAIENgIUQQQFIAMLNgIYIAFBCGpBBCAFIAFBFGoQhQcgASgCCEEBRw0BIAEoAhAhACABKAIMCyAAQfD/xgAQkwkACyABKAIMIQIgACAENgIAIAAgAjYCBCABQSBqJAAL0AEBA38jAEEQayICJAAgAiAANgIEIAEoAgBBmK3HAEENIAEoAgQoAgwRAAAhACACQQA6AA0gAiAAOgAMIAIgATYCCCACQQhqQcj7xwBBBCACQQRqQYitxwAQjAUhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXELvwEBBH8jAEEQayICJAAgAkEIaiIDIAFBJGooAgA2AgAgAiABKQIcNwMAAkACQEEMEHEiBARAIAQgAikDADcCACAEQQhqIAMoAgA2AgAgAUEEahDqAiABQQRrKAIAIgNBeHFBLEEwIANBA3EiBRtJDQEgBUEAIANB0ABPGw0CIAEQogIgAEHksMcANgIEIAAgBDYCACACQRBqJAAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC6wBAQV/IwBBIGsiAiQAIAAoAgAiA0HVqtUqSwRAQQBBACABEJMJAAtBBCADQQF0IgQgBEEETRsiBUEMbCEGQQAhBCACIAMEfyACIANBDGw2AhwgAiAAKAIENgIUQQQFIAQLNgIYIAJBCGpBBCAGIAJBFGoQhQcgAigCCEEBRgRAIAIoAgwgAigCECABEJMJAAsgAigCDCEBIAAgBTYCACAAIAE2AgQgAkEgaiQAC6cDAQh/IwBBEGsiAyQAIAAoAgQhBSAAKAIAIQBBASEHIAEoAgBB6LLFAEEBIAEoAgQoAgwRAAAhAiADQQA6AAkgAyACOgAIIAMgATYCBAJAAkAgBQRAA0AgAyAANgIMIANBDGohCCMAQSBrIgEkAEEBIQYCQCADQQRqIgQtAAQNACAELQAFIQkCQCAEKAIAIgItAApBgAFxRQRAIAlBAXFFDQEgAigCAEHnkMYAQQIgAigCBCgCDBEAAEUNAQwCCyAJQQFxRQRAIAIoAgBB3PjHAEEBIAIoAgQoAgwRAAANAgsgAUEBOgAPIAFB4IHCADYCFCABIAIpAgA3AgAgASACKQIINwIYIAEgAUEPajYCCCABIAE2AhAgCCABQRBqEO8HDQEgASgCEEHZgcIAQQIgASgCFCgCDBEAACEGDAELIAggAhDvByEGCyAEQQE6AAUgBCAGOgAEIAFBIGokACAAQQFqIQAgBUEBayIFDQALIAMtAAhFDQEMAgsgAg0BCyADKAIEIgAoAgBB6bLFAEEBIAAoAgQoAgwRAAAhBwsgA0EQaiQAIAcLnQEBBH8gACgCACECIAAgARCiBgJAIAAoAggiBSACIAAoAgwiA2tNDQAgAiAFayIBIAMgAWsiA0sgACgCACIEIAJrIANPcUUEQCAEIAFrIQIgAUEMbCIBBEAgACgCBCIEIAJBDGxqIAQgBUEMbGogAfwKAAALIAAgAjYCCA8LIANBDGwiAUUNACAAKAIEIgAgAkEMbGogACAB/AoAAAsLxAEBBH8jAEEQayIEJAACQAJAAkACQAJAAkACQAJAIAEoAgBBAWsOBQECBwcDAAsgASgCFCIDDQMMBgsgASgCFCIDDQMMBQsgASgCECIDDQMMBAsgAS0ABEEDRw0DIARBCGogASgCCCIBKAIAIAEoAgQoAhgRAQAgBCgCDCEFIAQoAgghAgwDCyABKAIYIQUgAyECDAILIAEoAhghBSADIQIMAQsgASgCFCEFIAMhAgsgACAFNgIEIAAgAjYCACAEQRBqJAALnQEBBH8jAEEgayIBJAACQEEIIAAoAgAiBEEBdCIDIANBCE0bIgNBAE4EfyABIAQEfyABIAQ2AhwgASAAKAIENgIUQQEFIAILNgIYIAFBCGpBASADIAFBFGoQhQcgASgCCEEBRw0BIAEoAhAhAiABKAIMBSACCyACQfznwQAQkwkACyABKAIMIQIgACADNgIAIAAgAjYCBCABQSBqJAALmAEBBH8jAEEgayICJAACQEEIIAAoAgAiBUEBdCIEIARBCE0bIgRBAE4EfyACIAUEfyACIAU2AhwgAiAAKAIENgIUQQEFIAMLNgIYIAJBCGogBCACQRRqEN0HIAIoAghBAUcNASACKAIQIQMgAigCDAUgAwsgAyABEJMJAAsgAigCDCEBIAAgBDYCACAAIAE2AgQgAkEgaiQAC64BAQN/IwBBEGsiAyQAAkACQAJAAkAgAEUgAUVyDQAgACgCACIARQ0AIABBwf///wdPDQEgAUEEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAGpJDQIgAkEAIAQgAEEnaksbDQMgARCiAgsgA0EQaiQADwtB2ObIAEErIANBD2pBtIPJAEHEg8kAEOAGAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALmQECAn8EfgJAAkAgASgCBCICIAEpAwgiBSACrSIEIAQgBVYbpyICRwRAIAEoAgAgAmotAAAhA0EEIQIMAQtBqJDIACkDACIHQgiIIQYgB6chAiAHQv8Bg0IEUg0BCyAFQgF8IQQLIAEgBDcDCCACQf8BcUEERwRAIAAgAq1C/wGDIAZCCIaENwIADwsgAEEEOgAAIAAgAzoAAQu0AQACfwJAAkACQAJAAkACQCACQQNrDgUEBQECAAULIAFBpPzAAEEHENsHDQRBAAwFC0EBIAFBq/zAAEEFENsHRQ0EGiABQbz/wABBBRDbBw0BQQIMBAsgAUHB/8AAQQYQ2wcNAkEDDAMLIAFBx//AAEEFENsHDQFBBAwCC0EFIAFBzP/AAEEDENsHRQ0BGiABQc//wABBAxDbBw0AQQYMAQtBBwshASAAQQA6AAAgACABOgABC6gBAQV/IwBBIGsiAiQAAkACQCABELsKIgNBAE4EQAJAIANFBEBBASEEDAELIAMQcSIERQ0CCyABELsKIQUgARC7CiEGIAIgBTYCBCACIAY2AgAgBSAGRw0CIAQgBSABEOMJIAAgAzYCCCAAIAQ2AgQgACADNgIAIAJBIGokAA8LQeD5xAAQ/wcLAAsgAkEANgIIQQAgAiACQQRqIAJBCGpB4PnEABD1BwALowECAn8BfiMAQRBrIgMkAAJAAkACQCABKAIIIgQgASgCBEkEQCABKAIAIARqLQAAIAJB/wFxRg0BCyAAQgA3AwgMAQtBASECIAEgBEEBajYCCCADIAEQ2QQgAy0AAEUEQCADKQMIIgVCf1IEQCAAIAVCAXw3AwgMAgsgAEEAOgABDAILIAAgAy0AAToAAQwBC0EAIQILIAAgAjoAACADQRBqJAALqAECBX8BfiMAQSBrIgIkAAJ/IAAoAgBBgICAgHhHBEAgASgCACAAKAIEIAAoAgggASgCBCgCDBEAAAwBCyABKAIEIQMgASgCACAAKAIMKAIAIgApAhAhByAAKAIMIQQgACgCCCEFIAAoAgAhBiAAKAIEIQAgAiAHNwIYIAIgBDYCFCACIAU2AhAgAiAANgIMIAIgBjYCCCADIAJBCGoQwQMLIAJBIGokAAuTAQIBfwF+IwBBMGsiAiQAAn8gACgCACIAKAIMRQRAIAAgARDkAwwBCyACQoCAgIAQIgMgAEEQaq2ENwMQIAIgAyAAQQxqrYQ3AwggAiAArUKAgICAoA6ENwMAIAEoAgAgASgCBCACQgM3AiQgAkEDNgIcIAJBoKXGADYCGCACIAI2AiAgAkEYahDBAwsgAkEwaiQAC6MBAgJ/AX4jAEEQayICJAAgASgCCCEDIAIgARDZBAJAIAItAABBAUYEQCACLQABIQEgAEEANgIAIAAgAToABAwBCyACKQMIIgQgA0EBa61UBEAgASgCDEEBaiIDQfQDTQRAIAAgAzYCDCAAIAQ+AgggACABKQIANwIADAILIABBADYCACAAQQE6AAQMAQsgAEEANgIAIABBADoABAsgAkEQaiQAC6UBAAJAAkACQCABQf8ATARAIAFBgn9ODQMgAEMAAIAMlCEAIAFBm35NDQEgAUHmAGohAQwDCyAAQwAAAH+UIQAgAUH+AUsNASABQf8AayEBDAILIABDAACADJQhAEG2fSABIAFBtn1NG0HMAWohAQwBCyAAQwAAAH+UIQBB/QIgASABQf0CTxtB/gFrIQELIAAgAUEXdEGAgID8A2pBgICA/AdxvpQLqAEBAn8gASgCDCECAkACQAJAAkACQAJAAkAgASgCBA4CAAECCyACDQFBASEDQQAhAUEBIQIMAwsgAkUNAQsgACABEOwDDwsgASgCACICKAIEIgFBAEgNASACKAIAIQMgAUUEQEEBIQJBACEBDAELIAEQcSICRQ0CCyABBEAgAiADIAH8CgAACyAAIAE2AgggACACNgIEIAAgATYCAA8LQdiayAAQ/wcLAAuNAQEDfyMAQRBrIgMkAEEDIQIgACgCAC0AACIAIQQgAEEKTwRAIAMgACAAQeQAbiIEQeQAbGtB/wFxQQF0LwC4ukU7AA5BASECC0EAIAAgBBtFBEAgAkEBayICIANBDWpqIARBAXQtALm6RToAAAsgAUEBQQFBACADQQ1qIAJqQQMgAmsQyAMgA0EQaiQAC4oBAQN/IwBBEGsiAyQAQQMhAiAALQAAIgAhBCAAQQpPBEAgAyAAIABB5ABuIgRB5ABsa0H/AXFBAXQvALi6RTsADkEBIQILQQAgACAEG0UEQCACQQFrIgIgA0ENamogBEEBdC0AubpFOgAACyABQQFBAUEAIANBDWogAmpBAyACaxDIAyADQRBqJAALlQEDA3wBfgF/IAC7IAG7oiIDIAK7IgSgIgW9IgZC/////wGDQoCAgIABUiAGQoCAgICAgID4/wCDQoCAgICAgID4/wBRciAEIAUgA6FhIAUgBKEgA2FxcgR8IAUFIAZCAX0gBkIBhCAGQgBTIgcgAyAEIAWhoCADIAWhIASgIAcgAyAEY3MbRAAAAAAAAAAAY3Mbvwu2C6QBAQR/IAAQ9gICQAJAIAAoAsgFIgEEQCAAKALMBSIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAQeAAaiEBAkACQAJAIAAoArwFQYCAgIB4aw4CAQIACyABEL4CDwsgARC9AQsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAujAQEEfyAAEPUCAkACQCAAKAKoBSIBBEAgACgCrAUiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgAEFAayEBAkACQAJAIAAoApwFQYCAgIB4aw4CAQIACyABEL4CDwsgARC9AQsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuWAQEDfwJ/AkACQCABKAIAIgNFBEAMAQsDQAJAIAEoAggiBCABKAIETw0AIAMgBGotAABBxQBHDQAgASAEQQFqNgIIDAILAkAgAkUNACABKAIQIgNFDQAgA0HnkMYAQQIQlwMNAwsgARCGAg0CIAJBAWohAiABKAIAIgMNAAsLQQAMAQtBAQshASAAIAI2AgQgACABNgIAC6YBAgJ/AX4CQAJAAkACQCABKAIoQQJHBEAgASgCmAJBgYCAgHhHDQFBgICAgHghAgwCC0GsmMcAEN0JAAsgASgCoAIiAkEASA0BIAEoApwCIQMCQCACRQRAQQEhAQwBCyACEHEiAUUNAwsgAgRAIAEgAyAC/AoAAAsgAa0gAq1CIIaEIQQLIAAgBDcDCCAAIAI2AgQgAEEGNgIADwtB2JrIABD/BwsAC6YBAgJ/AX4CQAJAAkACQCABKAIoQQJHBEAgASgCpAJBgYCAgHhHDQFBgICAgHghAgwCC0GsmMcAEN0JAAsgASgCrAIiAkEASA0BIAEoAqgCIQMCQCACRQRAQQEhAQwBCyACEHEiAUUNAwsgAgRAIAEgAyAC/AoAAAsgAa0gAq1CIIaEIQQLIAAgBDcDCCAAIAI2AgQgAEEGNgIADwtB2JrIABD/BwsAC8cBAQF7IAIgA0sEQCAAIAEgA0EVbGoiASwAFLJDAAD+QpU4AlAgACAB/VwAAP2HAf2nAf36Af0MAAD+QgAA/kIAAP5CAAD+QiIE/ecB/QsCACAAIAH9XAAE/YcB/acB/foBIAT95wH9CwIQIAAgAf1cAAj9hwH9pwH9+gEgBP3nAf0LAiAgACAB/VwADP2HAf2nAf36ASAE/ecB/QsCMCAAIAH9XAAQ/YcB/acB/foBIAT95wH9CwJADwsgAyACQZy8xwAQjAcAC38BAX8gAkEETwRAA0AgACgAACABKAAARwRAQQAPCyABQQRqIQEgAEEEaiEAIAJBBGsiAkEDSw0ACwtBASEDIAJBAUsEQCAALwAAIAEvAABHBEBBAA8LIAJBAmshAiABQQJqIQEgAEECaiEACyACBH8gAC0AACABLQAARgUgAwsLoAEBBH8gAEH0BGoQwAICQAJAIAAoAugEIgIEQCAAKALsBCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCwJAAkACQCAAKALcBEGAgICAeGsOAgECAAsgABC+Ag8LIAAQvQELDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALoAEBBH8gAEH0BGoQigICQAJAIAAoAugEIgIEQCAAKALsBCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCwJAAkACQCAAKALcBEGAgICAeGsOAgECAAsgABC+Ag8LIAAQvQELDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALmgEBA38gASgCICECIAEoAhwhAwJAAkBBCBBxIgQEQCAEIAI2AgQgBCADNgIAIAFBBGoQ6gIgAUEEaygCACICQXhxIgNBKEEsIAJBA3EiAhtJDQEgAkEAIANBzABPGw0CIAEQogIgAEGAmMEANgIEIAAgBDYCAA8LAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALjgEBA38jAEEQayIBJAAgAUEAOgAPAkACQEEBEHEiAgRAIAAgAUEPaq03AwAgACACrTcDCCACQQRrKAIAIgBBeHEiA0EFQQkgAEEDcSIAG0kNASAAQQAgA0EpTxsNAiACEKICIAFBEGokAA8LAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALjgEBBH8jAEEQayICJAACf0EBIAEoAgAiA0EnIAEoAgQiBSgCECIBEQIADQAaIAIgACgCAEGBAhCBAwJAIAItAA0iAEGBAU8EQCADIAIoAgAgARECAEUNAUEBDAILIAMgAiACLQAMIgRqIAAgBGsgBSgCDBEAAEUNAEEBDAELIANBJyABEQIACyACQRBqJAALmgEBA38gASgCICECIAEoAhwhAwJAAkBBCBBxIgQEQCAEIAI2AgQgBCADNgIAIAFBBGoQ6gIgAUEEaygCACICQXhxIgNBKEEsIAJBA3EiAhtJDQEgAkEAIANBzABPGw0CIAEQogIgAEGwr8cANgIEIAAgBDYCAA8LAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALgAEBAn8gA0EITwRAIAAgACADQQN2IgNBBHQiBGogACADQRxsIgVqIAMQwgYhACABIAEgBGogASAFaiADEMIGIQEgAiACIARqIAIgBWogAxDCBiECCyAAIAIgASAAKAIAIgAgASgCACIBSSIDIAEgAigCACICSXMbIAMgACACSXMbC4ABAQJ/IANBCE8EQCAAIAAgA0EDdiIDQQV0IgRqIAAgA0E4bCIFaiADEMMGIQAgASABIARqIAEgBWogAxDDBiEBIAIgAiAEaiACIAVqIAMQwwYhAgsgACACIAEgACgCACIAIAEoAgAiAUkiAyABIAIoAgAiAklzGyADIAAgAklzGwt+AQJ/IAAgACgCCCIDIAFJBH8gASADayIEIAAoAgAgA2tLBEAgACADIARBAUEBEKQFIAAoAgghAwsgACgCBCIAIANqIQEgBEECTwR/IARBAWsiBARAIAEgAiAE/AsACyAAIAMgBGoiA2oFIAELIAI6AAAgA0EBagUgAQs2AggLkAEBAX8jAEEwayICJAACf0EBIAEoAgBBIiABKAIEKAIQEQIADQAaIAIgATYCDCACIACtQoCAgIDQAIQ3AxAgAkIBNwIkIAJBATYCHCACQaD4xwA2AhggAiACQRBqNgIgQQEgAkEMakG4oMEAIAJBGGoQwQMNABogASgCAEEiIAEoAgQoAhARAgALIAJBMGokAAuQAQEBfyMAQTBrIgIkAAJ/QQEgASgCAEEiIAEoAgQoAhARAgANABogAiABNgIMIAIgAK1CgICAgMAHhDcDECACQgE3AiQgAkEBNgIcIAJBoPjHADYCGCACIAJBEGo2AiBBASACQQxqQeS3xwAgAkEYahDBAw0AGiABKAIAQSIgASgCBCgCEBECAAsgAkEwaiQAC48BAQF/IwBBEGsiAiQAIAJBCGogARCfAwJAIAItAAhBAUYEQCAAIAIoAgw2AgQgAEEDNgIADAELIAItAAlFBEAgAEECNgIADAELIAJBCGogASgCABDSAiACKAIIIgFBAkYEQCAAIAIoAgw2AgQgAEEDNgIADAELIAAgAioCDDgCBCAAIAE2AgALIAJBEGokAAuSAQICfwF+IwBBIGsiAiQAAkACQCAALQAIIgNBA0cEQCADQQFLDQIgAEECOgAIIAEoAgAgAUIANwMARQ0BIAEpAwghBCAAQQM6AAggACAENwMACyACQSBqJAAPC0HQnMcAEN0JAAsgAkEANgIYIAJBATYCDCACQZiDyAA2AgggAkIENwIQIAJBCGpBwJzHABCNCAALhQEBA38CfwJAIAAoAgAiAUUNAANAAkAgACgCCCIDIAAoAgRPDQAgASADai0AAEHFAEcNACAAIANBAWo2AggMAgsCQCACRQ0AIAAoAhAiAUUNACABQeeQxgBBAhCXA0UNAEEBDwtBASAAQQEQ1QENAhogAkEBayECIAAoAgAiAQ0ACwtBAAsLhwEBA38gACgCACECIAAoAgQiACgCACIBBEAgAiABEQMACwJAAkAgACgCBCIABEAgAkEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAGpJDQEgAUEAIAMgAEEnaksbDQIgAhCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuUAQICfgF/IAEpAgAgASkCCCEDIABBBGoQ6gJC7bqtts2F1PXjAIUgA0L4gpm9le7Gxbl/hYRQBEAgAEEkahCxBAsCQCAAQQRrKAIAIgFBeHFBLEEwIAFBA3EiBBtPBEAgBEEAIAFB0ABPGw0BIAAQogIPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAt/AQF/IwBBQGoiBCQAIAQgATYCDCAEIAA2AgggBCADNgIsIAQgAjYCKCAEQQI2AhQgBEH45sAANgIQIARCAjcCHCAEIARBKGqtQoCAgIDAAIQ3AzggBCAEQQhqrUKAgICAIIQ3AzAgBCAEQTBqNgIYIARBEGoQxwUgBEFAayQAC4oBAQJ/IwBBEGsiAiQAAkACQCAAKAIkIgFBCU8EQCAAKAIEIgFBf0YNAQtBfyABZ3ZBACABGyIBQX9GDQAgAkEIaiAAIAFBAWoQ6AMgAigCCCIAQYGAgIB4RwRAIAANAkHYlccAQRFB1MzHABDrBwALIAJBEGokAA8LQdiVxwBBEUHkzMcAEKsHCwALigEBAn8jAEEQayICJAACQAJAIAAoAhQiAUEFTwRAIAAoAgQiAUF/Rg0BC0F/IAFndkEAIAEbIgFBf0YNACACQQhqIAAgAUEBahDpAyACKAIIIgBBgYCAgHhHBEAgAA0CQdiVxwBBEUHUzMcAEOsHAAsgAkEQaiQADwtB2JXHAEERQeTMxwAQqwcLAAuEAQECfyAAIAEgACgCCCIDQQNyIgJB/v8DcSACbEGA/gNxQQh2cyIBIAAoAgAiAnNB/wFxQQJ0KALwvUggAkEIdnMiAjYCACAAIAAoAgQgAkH/AXFqQYWIosAAbEEBaiICNgIEIAAgA0H/AXEgAkEYdnNBAnQoAvC9SCADQQh2czYCCCABC44BAgN/AX4gASkCHCEFAkACQEEIEHEiAwRAIAMgBTcCACABQQRqEOoCIAFBBGsoAgAiAkF4cSIEQShBLCACQQNxIgIbSQ0BIAJBACAEQcwATxsNAiABEKICIABBxJfBADYCBCAAIAM2AgAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC44BAgN/AX4gASkCHCEFAkACQEEIEHEiAwRAIAMgBTcCACABQQRqEOoCIAFBBGsoAgAiAkF4cSIEQShBLCACQQNxIgIbSQ0BIAJBACAEQcwATxsNAiABEKICIABBiJbBADYCBCAAIAM2AgAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC4IBAQF/IwBBMGsiAiQAIAIgACgCACgCACIANgIYIAIgAGg2AhwgAkEDNgIEIAJByIvDADYCACACQgI3AgwgAiACQRxqrUKAgICAsAaENwMoIAIgAkEYaq1CgICAgMAGhDcDICACIAJBIGo2AgggASgCACABKAIEIAIQwQMgAkEwaiQAC4sBAQJ/IwBBEGsiAiQAAkACQCAAKAKEASIBQSFPBEAgACgCBCIBQX9GDQELQX8gAWd2QQAgARsiAUF/Rg0AIAJBCGogACABQQFqEPQDIAIoAggiAEGBgICAeEcEQCAADQJB2JXHAEERQdTMxwAQ6wcACyACQRBqJAAPC0HYlccAQRFB5MzHABCrBwsAC4oBAQJ/IwBBEGsiAiQAAkACQCAAKAIUIgFBBU8EQCAAKAIEIgFBf0YNAQtBfyABZ3ZBACABGyIBQX9GDQAgAkEIaiAAIAFBAWoQ9QMgAigCCCIAQYGAgIB4RwRAIAANAkHYlccAQRFB1MzHABDrBwALIAJBEGokAA8LQdiVxwBBEUHkzMcAEKsHCwALigEBAn8jAEEQayICJAACQAJAIAAoAiQiAUEJTwRAIAAoAgQiAUF/Rg0BC0F/IAFndkEAIAEbIgFBf0YNACACQQhqIAAgAUEBahD2AyACKAIIIgBBgYCAgHhHBEAgAA0CQdiVxwBBEUHUzMcAEOsHAAsgAkEQaiQADwtB2JXHAEERQeTMxwAQqwcLAAuOAQIDfwF+IAEpAhwhBQJAAkBBCBBxIgMEQCADIAU3AgAgAUEEahDqAiABQQRrKAIAIgJBeHEiBEEoQSwgAkEDcSICG0kNASACQQAgBEHMAE8bDQIgARCiAiAAQailxwA2AgQgACADNgIADwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuKAQEDfyABKAIcIQICQAJAQQQQcSIDBEAgAyACNgIAIAFBBGoQ6gIgAUEEaygCACICQXhxQSRBKCACQQNxIgQbSQ0BIARBACACQcgATxsNAiABEKICIABB8JnBADYCBCAAIAM2AgAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC4oBAQN/IAEtABwhAgJAAkBBARBxIgMEQCADIAI6AAAgAUEEahDqAiABQQRrKAIAIgJBeHFBJEEoIAJBA3EiBBtJDQEgBEEAIAJByABPGw0CIAEQogIgAEGosMcANgIEIAAgAzYCAA8LAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALbQEDfyMAQRBrIgIkACAALQAAIQNBAyEAA0AgACACakEMaiADQQ9xQcmBwgBqLQAAOgAAIAMiBEEEdiEDIABBAWshACAEQQ9LDQALIAFBAUGEtMUAQQIgACACakENakEDIABrEMgDIAJBEGokAAt7AQF/IwBBIGsiAiQAAn8gACgCAEEBRgRAIAEoAgBBw4/GAEEVIAEoAgQoAgwRAAAMAQsgAiAArUKAgICAEIQ3AwAgASgCACABKAIEIAJCATcCFCACQQI2AgwgAkHwj8YANgIIIAIgAjYCECACQQhqEMEDCyACQSBqJAALdwEBfyMAQUBqIgMkACADIAI2AhQgAyABNgIQIAMgADYCDCADQQI2AhwgA0Gk5sAANgIYIANCAjcCJCADIANBEGqtQoCAgIAwhDcDOCADIANBDGqtQoCAgIAQhDcDMCADIANBMGo2AiAgA0EYahDHBSADQUBrJAALfwEEfyAAQQRqEOoCAkACQCAAKAIcIgIEQCAAKAIgIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIABBKGoQ4wQPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtiAQR+IAAgAkL/////D4MiAyABQv////8PgyIEfiIFIAQgAkIgiCICfiIEIAMgAUIgiCIGfnwiAUIghnwiAzcDACAAIAMgBVStIAIgBn4gASAEVK1CIIYgAUIgiIR8fDcDCAt6AQF/IwBBQGoiAyQAIAMgAjYCBCADIAE2AgAgAyAA/QADAP0LAyAgA0ECNgIMIANB3KDGADYCCCADQgI3AhQgAyADrUKAgICAMIQ3AzggAyADQSBqrUKAgICA4ACENwMwIAMgA0EwajYCECADQQhqEMcFIANBQGskAAt6AQF/IwBBQGoiAyQAIAMgAjYCBCADIAE2AgAgAyAA/QADAP0LAyAgA0ECNgIMIANBqKbGADYCCCADQgI3AhQgAyADrUKAgICAMIQ3AzggAyADQSBqrUKAgICA4ACENwMwIAMgA0EwajYCECADQQhqEMcFIANBQGskAAt8AQF/IwBBQGoiBSQAIAUgATYCDCAFIAA2AgggBSADNgIUIAUgAjYCECAFQQI2AhwgBUHg+McANgIYIAVCAjcCJCAFIAVBEGqtQoCAgICQAYQ3AzggBSAFQQhqrUKAgICAoAGENwMwIAUgBUEwajYCICAFQRhqIAQQjQgAC2oBA38jAEEQayIDJAAgACgCACgCACEAQQkhAgNAIAIgA2pBBmogAEEPcS0A3LZFOgAAIAJBAWshAiAAQQ9LIABBBHYhAA0ACyABQQFBhLTFAEECIAIgA2pBB2pBCSACaxDIAyADQRBqJAALjAEAAn8CQAJAAkACQAJAIAJBA2sOBAMEAAEECyABQbz/wABBBRDbBw0BQQAMBAsgAUHB/8AAQQYQ2wcNAkEBDAMLIAFBx//AAEEFENsHDQFBAgwCC0EDIAFBzP/AAEEDENsHRQ0BGiABQc//wABBAxDbBw0AQQQMAQtBBQshAiAAQQA6AAAgACACOgABC4IBAQJ/IABBDGoQ9QICQAJAAkAgAEF/Rg0AIAAgACgCBEEBayIBNgIEIAENACAAQQRrKAIAIgFBeHEiAkHYAEHcACABQQNxIgEbSQ0BIAFBACACQfwATxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC4IBAQJ/IABBDGoQ9gICQAJAAkAgAEF/Rg0AIAAgACgCBEEBayIBNgIEIAENACAAQQRrKAIAIgFBeHEiAkH4AEH8ACABQQNxIgEbSQ0BIAFBACACQZwBTxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC3wBAX8CQAJAIAFB/////wNLDQAgAUECdCIDQf3///8HTw0AAn8gA0UEQEEEIQJBAAwBCyADEHEiAkUNAiACQQRrLQAAQQNxRSADRXJFBEAgAkEAIAP8CwALIAELIQMgACABNgIIIAAgAjYCBCAAIAM2AgAPCyACEP8HCwALZwEDfyMAQRBrIgMkACAAKAIAIQBBCSECA0AgAiADakEGaiAAQQ9xLQDctkU6AAAgAkEBayECIABBD0sgAEEEdiEADQALIAFBAUGEtMUAQQIgAiADakEHakEJIAJrEMgDIANBEGokAAuCAQEDfwJAAkACQAJAIAAtAABBAWsOAgAAAQsgACgCBCICRQ0AIAAoAggiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAt3AQR/AkACQCABKAIUIgUgASgCECIGTw0AIAEoAgwhBwNAIAUgB2otAAAiCEEwa0H/AXFBCU0EQCABIAVBAWoiBTYCFCAFIAZHDQEMAgsLIAhBIHJB5QBGDQELIAAgASACIAMgBBDwBA8LIAAgASACIAMgBBDuAwuCAQAgASgCKEECRwRAAkACQCACKAIQQQFGBEAgASgC3AIgAigCFEsNAQsgAigCGEEBRw0BIAEoAuACIAIoAhxNDQELIABCAjcDCCAAQQM2AgAPCyAAQQY2AgAgASAC/QADAP0LAwAgAUEQaiACQRBq/QADAP0LAwAPC0GsmMcAEN0JAAt3AQN/IABBBGoQ6gICQAJAIAAoAhwiAgRAIAAoAiAiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAt0AQJ/AkACQCAABEAgAEEIayIDIAMoAgBBAWoiBDYCACAERQ0BIAAoAgANAiAAQX82AgAgAEEEaiABIAJBAEcQMCAAIAAoAgBBAWo2AgAgAyADKAIAQQFrIgA2AgAgAEUEQCADEOQGCw8LEI4KCwALEJAKAAt0AQJ/AkACQCAABEAgAEEIayIDIAMoAgBBAWoiBDYCACAERQ0BIAAoAgANAiAAQX82AgAgAEEEaiABIAJBAEcQLyAAIAAoAgBBAWo2AgAgAyADKAIAQQFrIgA2AgAgAEUEQCADEOMGCw8LEI4KCwALEJAKAAt1AgF/AX4jAEEQayIFJAAgAUUEQEGt+cQAQTIQjwoACyAFQQhqIAEgAyAEIAIoAhARBgAgACAFKQMIIganIgFB/wFxNgIIIAAgBkIgiKdBACABQQFxIgIbNgIEIABBACABQQh2Qf8BcSACGzYCACAFQRBqJAALdQIBfwF+IwBBEGsiBSQAIAFFBEBBrfnEAEEyEI8KAAsgBUEIaiABIAMgBCACKAIQEQYAIAAgBSkDCCIGpyICQQJGIgE2AgggACAGQiCIpyIDQQAgARs2AgQgAEEAIANBgAggAkEBcRsgARs2AgAgBUEQaiQAC3ABAX8CQAJAIAJBAk8EQCACQQF2IQZBACEAQQAhBQNAIAAgAk8NAiAEIAVGDQMgAyAFaiAAIAFqLQAAOgAAIABBAmohACAFQQFqIgUgBkcNAAsLDwsgACACQeCYxQAQjAcACyAEIARB8JjFABCMBwALdwEEfwJAAkAgACgCACICBEAgACgCBCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAQQxqEOMEDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALcwIBfwF+IwBBEGsiBCQAIAFFBEBBrfnEAEEyEI8KAAsgBEEIaiABIAMgAigCEBEFACAAIAQpAwgiBaciAUH/AXE2AgggACAFQiCIp0EAIAFBAXEiAhs2AgQgAEEAIAFBCHZB/wFxIAIbNgIAIARBEGokAAt6AQN/IwBBEGsiAyQAIANBCGogASgCACABKAIEIAEoAggQ+QEgAygCDCEEIAMoAgghBUEUEHEiAUUEQAALIAEgBTYCDCAAIAE2AgQgAEECNgIAIAEgAikCADcCACABIAQ2AhAgAUEIaiACQQhqKAIANgIAIANBEGokAAt6AQN/IwBBEGsiAyQAIANBCGogASgCACABKAIEIAEoAggQ+QEgAygCDCEEIAMoAgghBUEUEHEiAUUEQAALIAEgBTYCDCAAIAE2AgQgAEEBOgAAIAEgAikCADcCACABIAQ2AhAgAUEIaiACQQhqKAIANgIAIANBEGokAAt6AQN/IwBBEGsiAyQAIANBCGogASgCACABKAIEIAEoAggQ+QEgAygCDCEEIAMoAgghBUEUEHEiAUUEQAALIAEgBTYCDCAAIAE2AgQgAEEBOwEAIAEgAikCADcCACABIAQ2AhAgAUEIaiACQQhqKAIANgIAIANBEGokAAt6AQN/IwBBEGsiAyQAIANBCGogASgCACABKAIEIAEoAggQ+QEgAygCDCEEIAMoAgghBUEUEHEiAUUEQAALIAEgBTYCDCAAIAE2AgQgAEEANgIAIAEgAikCADcCACABIAQ2AhAgAUEIaiACQQhqKAIANgIAIANBEGokAAt9AQN/AkACQCAAKAIAIgJBgICAgHhyQYCAgIB4RwRAIAAoAgQiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAt2AQN/IAAQigICQAJAIAAoAsQBIgIEQCAAKALIASIAQQRrKAIAIgFBeHEiA0EEQQggAUEDcSIBGyACakkNASABQQAgAyACQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC3YBA38gABDAAgJAAkAgACgCvAEiAgRAIAAoAsABIgBBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0BIAFBACADIAJBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALdAEDfyAAEPYCAkACQCAAKAJgIgIEQCAAKAJkIgBBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0BIAFBACADIAJBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALdAEDfyAAEPUCAkACQCAAKAJAIgIEQCAAKAJEIgBBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0BIAFBACADIAJBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALdAEEfwJAAkAgACgCKCICBEAgACgCLCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAEL8EDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALdAEDfyAAEPcDAkACQCAAKAJoIgIEQCAAKAJsIgBBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0BIAFBACADIAJBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALbQECfyABKAIIIgRFIAMgASgCACIFIARrTXJFBEAgAUEANgIIIAFBADoADEEAIQQLIAMgBUkEQCADBEAgASgCBCAEaiACIAP8CgAACyAAQQQ6AAAgASADIARqNgIIDwsgAEIENwIAIAFBADoADAtvAQJ/AkACQCAABEAgAEEIayICIAIoAgBBAWoiAzYCACADRQ0BIAAoAgANAiAAQX82AgAgAEEEaiABEC0gACAAKAIAQQFqNgIAIAIgAigCAEEBayIANgIAIABFBEAgAhDkBgsPCxCOCgsACxCQCgALbwECfwJAAkAgAARAIABBCGsiAiACKAIAQQFqIgM2AgAgA0UNASAAKAIADQIgAEF/NgIAIABBBGogARAuIAAgACgCAEEBajYCACACIAIoAgBBAWsiADYCACAARQRAIAIQ4wYLDwsQjgoLAAsQkAoAC3IBA38CQAJAIAAoAgAiAkEASgRAIAAoAgQiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAttAQF/An8CQAJ/AkAgAigCBARAIAIoAggiA0UEQCABDQIMBAsgAigCACADQQQgARC7AgwCCyABRQ0CCyABEHELIgJBBCACGyEDIAJFDAELQQQhA0EACyECIAAgATYCCCAAIAM2AgQgACACNgIAC3cCAn0CfyABKAIIIgVBgICAAXEhBCAAKgIAIQIgBUGAgICAAXFFBEAgAosiA0PKGw5aYCACQwAAAABcIANDF7fROF1xckUEQCABIAIgBEEAR0EBEPcCDwsgASACIARBAEcQzwIPCyABIAIgBEEARyABLwEOEL0CC28BA38CQAJAIAAoAgAiAgRAIAAoAgQiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAt9AwF/AX4BfCMAQRBrIgMkAAJAAkACQAJAIAAoAgBBAWsOAgECAAsgACsDCCEFIANBAzoAACADIAU5AwgMAgsgACkDCCEEIANBAToAACADIAQ3AwgMAQsgACkDCCEEIANBAjoAACADIAQ3AwgLIAMgASACEN8GIANBEGokAAtnAQF/An8CfwJAIAMoAgQEQCADKAIIIgRFBEAgAg0CQQAMBAsgAygCACAEIAEgAhC7AgwCCyACDQBBAAwCCyACEHELIgMgASADGyEBIANFCyEDIAAgAjYCCCAAIAE2AgQgACADNgIAC3EBAn8gAEEEahDqAiAAKAIkIgEgASgCACgCABEDAAJAIABBBGsoAgAiAUF4cUEsQTAgAUEDcSICG08EQCACQQAgAUHQAE8bDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC2sBAn8jAEEgayIBJAACfyAALQBsQQZHBEAgACgCZCICBEAgAiAAKAJoKAIUEQQADAILQZyqwQAQ3QkACyABQQA2AhggAUEBNgIMIAFBlKrBADYCCCABQgQ3AhAgAUEIahCSBwsgAUEgaiQAC24BAn8jAEEgayIBJAACfyAALQDoAUEGRwRAIAAoAuABIgIEQCACIAAoAuQBKAIUEQQADAILQZyqwQAQ3QkACyABQQA2AhggAUEBNgIMIAFBlKrBADYCCCABQgQ3AhAgAUEIahCSBwsgAUEgaiQAC24BAn8jAEEgayIBJAACfyAALQCMAUEGRwRAIAAoAoQBIgIEQCACIAAoAogBKAIUEQQADAILQZyqwQAQ3QkACyABQQA2AhggAUEBNgIMIAFBlKrBADYCCCABQgQ3AhAgAUEIahCSBwsgAUEgaiQAC24BAn8jAEEgayIBJAACfyAALQDwAUEGRwRAIAAoAugBIgIEQCACIAAoAuwBKAIUEQQADAILQZyqwQAQ3QkACyABQQA2AhggAUEBNgIMIAFBlKrBADYCCCABQgQ3AhAgAUEIahCSBwsgAUEgaiQAC24BA38jAEEQayICJAAgAkEIaiAAKAIAIAAoAgQgACgCCBD5ASACKAIMIQMgAigCCCEEQRQQcSIARQRAAAsgACAENgIMIAAgASkCADcCACAAIAM2AhAgAEEIaiABQQhqKAIANgIAIAJBEGokACAAC2kCAX8BfiMAQTBrIgMkACADIAE2AgQgAyAANgIAIANBAjYCDCADQbSIwwA2AgggA0ICNwIUIANCgICAgBAiBCADrYQ3AyggAyAEIANBBGqthDcDICADIANBIGo2AhAgA0EIaiACEI0IAAtmAQN/IwBBEGsiAiQAAkAgASgCACIEKAIAQQFHDQAgBC0ABEEDRw0AIAJBCGogBCgCCCIBKAIAIAEoAgQoAhgRAQAgAigCDCEBIAIoAgghAwsgACABNgIEIAAgAzYCACACQRBqJAALaQECfyMAQSBrIgIkACACQQhqEOQIQSgQcSIBRQRAAAsgAUGYn8EANgIAIAEgAikCCDcCBCABIAApAgA3AhwgAUEMaiACQRBq/QACAP0LAgAgAUEkaiAAQQhqKAIANgIAIAJBIGokACABC2kBAn8jAEEgayICJAAgAkEIahDkCEEoEHEiAUUEQAALIAFB/J7BADYCACABIAIpAgg3AgQgASAAKQIANwIcIAFBDGogAkEQav0AAgD9CwIAIAFBJGogAEEIaigCADYCACACQSBqJAAgAQtpAQJ/IwBBIGsiAiQAIAJBCGoQ5AhBKBBxIgFFBEAACyABQaS1xwA2AgAgASACKQIINwIEIAEgACkCADcCHCABQQxqIAJBEGr9AAIA/QsCACABQSRqIABBCGooAgA2AgAgAkEgaiQAIAELagEBfyMAQRBrIgYkACABRQRAQa35xABBMhCPCgALIAZBCGogASADIAQgBSACKAIQEQcAIAYoAgwhASAAIAYoAggiAjYCCCAAIAFBACACQQFxIgIbNgIEIABBACABIAIbNgIAIAZBEGokAAtnAQJ/IwBBEGsiAiQAIAAoAgwhAQJ/AkACQAJAIAAoAgQOAgABAgsgAQ0BQQFBABC0BwwCCyABDQAgACgCACIAKAIAIAAoAgQQtAcMAQsgAkEEaiIBIAAQ7AMgARCOBwsgAkEQaiQAC24BAn8CQEEQEHEiAUUNACABQfWVyAD9AAAA/QsAAEEMEHEiAkUNACACQRA2AgggAiABNgIEIAJBEDYCAEEMEHEiAUUNACABQRU6AAggAUHgtMQANgIEIAEgAjYCACAAIAGtQiCGQgOENwIADwsAC2gBAX8jAEEQayIFJAAgAUUEQEGt+cQAQTIQjwoACyAFQQhqIAEgAyAEIAIoAhARBgAgBSgCDCEBIAAgBSgCCCICNgIIIAAgAUEAIAJBAXEiAhs2AgQgAEEAIAEgAhs2AgAgBUEQaiQAC2cBAn8jAEEQayICJAAgACgCDCEBAn8CQAJAAkAgACgCBA4CAAECCyABDQFBAUEAELcHDAILIAENACAAKAIAIgAoAgAgACgCBBC3BwwBCyACQQRqIgEgABDsAyABEJAHCyACQRBqJAALZQEBfwJAAkAgAQRAIABBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0BIAJBACADIAFBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALZwECfyAAQQRqEOoCIABBJGoQsQQCQCAAQQRrKAIAIgFBeHFBLEEwIAFBA3EiAhtPBEAgAkEAIAFB0ABPGw0BIAAQogIPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtnAQJ/IABBBGoQ6gIgAEEcahCxBAJAIABBBGsoAgAiAUF4cUEkQSggAUEDcSICG08EQCACQQAgAUHIAE8bDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC2cBAn8gAEEEahDqAiAAQRxqEOMEAkAgAEEEaygCACIBQXhxQSxBMCABQQNxIgIbTwRAIAJBACABQdAATxsNASAAEKICDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALaQECfyAAQQRqEOoCIABBIGoQgwICQCAAQQRrKAIAIgFBeHFBzABB0AAgAUEDcSICG08EQCACQQAgAUHwAE8bDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC3wBAX8CQAJAIABBhAhPBEAgANBvJgFBoLvJACgCAA0CIABBsLvJACgCACIBSQ0BIAAgAWsiAEGou8kAKAIATw0BQaC0yQAoAgAgAEECdGpBrLvJACgCADYCAEGsu8kAIAA2AgBBoLvJAEEANgIACw8LAAtBgI/IABCwCgALXgEBfyMAQTBrIgIkACACIAE2AgwgAiAANgIIIAJBAjYCFCACQYTmwAA2AhAgAkIBNwIcIAIgAkEIaq1CgICAgCCENwMoIAIgAkEoajYCGCACQRBqEMcFIAJBMGokAAteAQF/IwBBMGsiAiQAIAIgATYCDCACIAA2AgggAkECNgIUIAJBhObAADYCECACQgE3AhwgAiACQQhqrUKAgICAIIQ3AyggAiACQShqNgIYIAJBEGoQ3gQgAkEwaiQAC14BAX8jAEEwayICJAAgAiABNgIMIAIgADYCCCACQQI2AhQgAkHI5sAANgIQIAJCATcCHCACIAJBCGqtQoCAgIAghDcDKCACIAJBKGo2AhggAkEQahDeBCACQTBqJAALXgEBfyMAQTBrIgIkACACIAE2AgwgAiAANgIIIAJBAjYCFCACQcjmwAA2AhAgAkIBNwIcIAIgAkEIaq1CgICAgCCENwMoIAIgAkEoajYCGCACQRBqEMcFIAJBMGokAAtcAAJAIAFBAE4EQAJAIAFFBEBBASECDAELIAEQcSICRQ0CIAJBBGstAABBA3FFIAFFcg0AIAJBACAB/AsACyAAIAE2AgggACACNgIEIAAgATYCAA8LIAIQ/wcLAAtWAQF+AkAgA0HAAHFFBEAgA0UNASACQQAgA2tBP3GthiABIANBP3GtIgSIhCEBIAIgBIghAgwBCyACIANBP3GtiCEBQgAhAgsgACABNwMAIAAgAjcDCAteAQF/AkAgAEEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAWpPBEAgAkEAIAMgAUEnaksbDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC2cBAn8jAEEgayICJAAgAkEIahDkCEEoEHEiAUUEQAALIAFB0J/BADYCACABIAIpAgg3AgQgASAANgIkIAFBIjYCICABQbzWwQA2AhwgAUEMaiACQRBq/QACAP0LAgAgAkEgaiQAIAELYQEBfyAAQQRqEOoCAkAgAEEEaygCACIBQXhxIgJBKEEsIAFBA3EiARtPBEAgAUEAIAJBzABPGw0BIAAQogIPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAthAQJ/IABBBGoQ6gICQCAAQQRrKAIAIgFBeHEiAkEoQSwgAUEDcSIBG08EQCABQQAgAkHMAE8bDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC2ICAX8CfiMAQRBrIgEkACAAKAIoQQJGBEBBrJjHABDdCQALIAEgADUC4AIgADUC3AJ+IAAtAOgEQQN0KQOInkkQ3QYgASkDCCECIAEpAwAhAyABQRBqJABCfyADIAJCAFIbC18BAX8gAEEEahDqAgJAIABBBGsoAgAiAUF4cUEsQTAgAUEDcSICG08EQCACQQAgAUHQAE8bDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC18BAn8gAEEEahDqAgJAIABBBGsoAgAiAUF4cUEkQSggAUEDcSICG08EQCACQQAgAUHIAE8bDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC18BAX8gAEEEahDqAgJAIABBBGsoAgAiAUF4cUEkQSggAUEDcSICG08EQCACQQAgAUHIAE8bDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC2EBAX8gAEEEahDqAgJAIABBBGsoAgAiAUF4cUHMAEHQACABQQNxIgIbTwRAIAJBACABQfAATxsNASAAEKICDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALWwEBfyMAQTBrIgMkACADIAE2AgwgAyAANgIIIANBATYCFCADQaD4xwA2AhAgA0IBNwIcIAMgA0EIaq1CgICAgKABhDcDKCADIANBKGo2AhggA0EQaiACEI0IAAtiAQJ/IwBBIGsiASQAAkAgABC4ASICDQAgAC0AgARFBEAgAUEANgIYIAFBATYCDCABQcSjwQA2AgggAUIENwIQIAFBCGoQkgchAgwBCyAAQbwCahDUASECCyABQSBqJAAgAgtiAQJ/IwBBIGsiASQAAkAgABCsASICDQAgAC0A+ANFBEAgAUEANgIYIAFBATYCDCABQcSjwQA2AgggAUIENwIQIAFBCGoQkgchAgwBCyAAQbwCahCjASECCyABQSBqJAAgAgtcAQF/IwBBEGsiBiQAIAFFBEBBrfnEAEEyEI8KAAsgBkEIaiABIAMgBCAFIAIoAhARMwAgBigCDCEBIAAgBigCCCICNgIEIAAgAUEAIAJBAXEbNgIAIAZBEGokAAtcAQF/IwBBEGsiBiQAIAFFBEBBrfnEAEEyEI8KAAsgBkEIaiABIAMgBCAFIAIoAhARBwAgBigCDCEBIAAgBigCCCICNgIEIAAgAUEAIAJBAXEbNgIAIAZBEGokAAtcAQF/IwBBEGsiBiQAIAFFBEBBrfnEAEEyEI8KAAsgBkEIaiABIAMgBCAFIAIoAhARNAAgBigCDCEBIAAgBigCCCICNgIEIAAgAUEAIAJBAXEbNgIAIAZBEGokAAtcAQF/IwBBEGsiBiQAIAFFBEBBrfnEAEEyEI8KAAsgBkEIaiABIAMgBCAFIAIoAhARNQAgBigCDCEBIAAgBigCCCICNgIEIAAgAUEAIAJBAXEbNgIAIAZBEGokAAtYAQJ/IwBBEGsiAiQAIAEtAABBA0cEf0EABSACQQhqIAEoAgQiASgCACABKAIEKAIkEQEAIAIoAgwhAyACKAIICyEBIAAgAzYCBCAAIAE2AgAgAkEQaiQAC1gBAn8jAEEQayICJAAgAS0AAEEDRwR/QQAFIAJBCGogASgCBCIBKAIAIAEoAgQoAhgRAQAgAigCDCEDIAIoAggLIQEgACADNgIEIAAgATYCACACQRBqJAALXQECfyMAQSBrIgMkACADQQhqEOQIQSQQcSICRQRAAAsgAkG0n8EANgIAIAIgAykCCDcCBCACIAE2AiAgAiAANgIcIAJBDGogA0EQav0AAgD9CwIAIANBIGokACACC1gBAn8jAEEgayIDJAAgABC4CiEEIAMgAjYCBCADIAQ2AgAgAiAERwRAIANBADYCCEEAIAMgA0EEaiADQQhqQeD5xAAQ9QcACyAAIAEgAhDgCSADQSBqJAALWgEBfyMAQRBrIgUkACABRQRAQa35xABBMhCPCgALIAVBCGogASADIAQgAigCEBEGACAFKAIMIQEgACAFKAIIIgI2AgQgACABQQAgAkEBcRs2AgAgBUEQaiQAC10BAn8jAEEgayIDJAAgA0EIahDkCEEkEHEiAkUEQAALIAJBiLXHADYCACACIAMpAgg3AgQgAiABNgIgIAIgADYCHCACQQxqIANBEGr9AAIA/QsCACADQSBqJAAgAgtYAQF/IwBBEGsiBCQAIAFFBEBBrfnEAEEyEI8KAAsgBEEIaiABIAMgAigCEBEFACAEKAIMIQEgACAEKAIIIgI2AgQgACABQQAgAkEBcRs2AgAgBEEQaiQAC1QBAn8CQCAAQ////z4gAJiSIgC8IgJBF3ZB/wFxIgFBlQFLDQBBgICAgHhBgICAfCABQf8Aa3UgAUH/AEkbIgFBf3MgAnFFDQAgASACcb4hAAsgAAtXAQF/IAAoAugEIAAoAvAEIgNrIAJJBEAgAEHoBGogAyACQQFBARCkBSAAKALwBCEDCyACBEAgACgC7AQgA2ogASAC/AoAAAsgACACIANqNgLwBCAAEFwLVwEBfyAAKAKoBSAAKAKwBSIDayACSQRAIABBqAVqIAMgAkEBQQEQpAUgACgCsAUhAwsgAgRAIAAoAqwFIANqIAEgAvwKAAALIAAgAiADajYCsAUgABBeC1cBAX8gACgC6AQgACgC8AQiA2sgAkkEQCAAQegEaiADIAJBAUEBEKQFIAAoAvAEIQMLIAIEQCAAKALsBCADaiABIAL8CgAACyAAIAIgA2o2AvAEIAAQXQtXAQF/IAAoAsgFIAAoAtAFIgNrIAJJBEAgAEHIBWogAyACQQFBARCkBSAAKALQBSEDCyACBEAgACgCzAUgA2ogASAC/AoAAAsgACACIANqNgLQBSAAEF8LWAEBfyAAKAKwAiAAKAK4AiIDayACSQRAIABBsAJqIAMgAkEBQQEQpAUgACgCuAIhAwsgAgRAIAAoArQCIANqIAEgAvwKAAALIAAgAiADajYCuAIgABCsAQtYAQF/IAAoArACIAAoArgCIgNrIAJJBEAgAEGwAmogAyACQQFBARCkBSAAKAK4AiEDCyACBEAgACgCtAIgA2ogASAC/AoAAAsgACACIANqNgK4AiAAELgBC1gBAX8gACgC2AIgACgC4AIiA2sgAkkEQCAAQdgCaiADIAJBAUEBEKQFIAAoAuACIQMLIAIEQCAAKALcAiADaiABIAL8CgAACyAAIAIgA2o2AuACIAAQsQELWAEBfyAAKAL4AiAAKAKAAyIDayACSQRAIABB+AJqIAMgAkEBQQEQpAUgACgCgAMhAwsgAgRAIAAoAvwCIANqIAEgAvwKAAALIAAgAiADajYCgAMgABCfAQtXAQF/IAAoArwBIAAoAsQBIgNrIAJJBEAgAEG8AWogAyACQQFBARCkBSAAKALEASEDCyACBEAgACgCwAEgA2ogASAC/AoAAAsgACACIANqNgLEASAAEEELVwEBfyAAKALEASAAKALMASIDayACSQRAIABBxAFqIAMgAkEBQQEQpAUgACgCzAEhAwsgAgRAIAAoAsgBIANqIAEgAvwKAAALIAAgAiADajYCzAEgABBAC1IBAX8gACgCYCAAKAJoIgNrIAJJBEAgAEHgAGogAyACQQFBARCkBSAAKAJoIQMLIAIEQCAAKAJkIANqIAEgAvwKAAALIAAgAiADajYCaCAAED4LUQEBfyAAKAJAIAAoAkgiA2sgAkkEQCAAQUBrIAMgAkEBQQEQpAUgACgCSCEDCyACBEAgACgCRCADaiABIAL8CgAACyAAIAIgA2o2AkggABA9C1ABA38CQAJAIAAEQCAAQQhrIgEgASgCACICQQFqIgM2AgAgA0UNASAAKAIAQf////8HTw0CIAAoAhggASACNgIAQQBHDwsQjgoLAAsQkAoAC00BAX8jAEEQayICJAAgAiAAKAIAIgA2AgwgASAAQQNqQcDAxAAgAEEBakHQwMQAIABBAmpB4MDEACACQQxqQfDAxAAQ7gUgAkEQaiQAC00BAX8jAEEQayICJAAgAiAAKAIAIgA2AgwgASAAQQNqQcioxwAgAEEBakHYqMcAIABBAmpB6KjHACACQQxqQfioxwAQ7gUgAkEQaiQAC08BAX8gACgCQCAAKAJIIgNrIAJJBEAgAEFAayADIAJBAUEBEKQFIAAoAkghAwsgAgRAIAAoAkQgA2ogASAC/AoAAAsgACACIANqNgJIQQALVQEBfyAAKALEASAAKALMASIDayACSQRAIABBxAFqIAMgAkEBQQEQpAUgACgCzAEhAwsgAgRAIAAoAsgBIANqIAEgAvwKAAALIAAgAiADajYCzAFBAAtVAQF/IAAoArwBIAAoAsQBIgNrIAJJBEAgAEG8AWogAyACQQFBARCkBSAAKALEASEDCyACBEAgACgCwAEgA2ogASAC/AoAAAsgACACIANqNgLEAUEAC1ABAX8gACgCYCAAKAJoIgNrIAJJBEAgAEHgAGogAyACQQFBARCkBSAAKAJoIQMLIAIEQCAAKAJkIANqIAEgAvwKAAALIAAgAiADajYCaEEAC1YBAn8jAEEgayICJAAgAkEIahDkCEEkEHEiAUUEQAALIAFBqJ7BADYCACABIAIpAgg3AgQgASAANwIcIAFBDGogAkEQav0AAgD9CwIAIAJBIGokACABC1YBAn8jAEEgayICJAAgAkEIahDkCEEgEHEiAUUEQAALIAFB4J7BADYCACABIAIpAgg3AgQgASAANgIcIAFBDGogAkEQav0AAgD9CwIAIAJBIGokACABC1YBAn8jAEEgayICJAAgAkEIahDkCEEkEHEiAUUEQAALIAFBxJ7BADYCACABIAIpAgg3AgQgASAANwIcIAFBDGogAkEQav0AAgD9CwIAIAJBIGokACABC00AIwBBEGsiACQAIAEgAmwiAQR/IAFBwf///wdPBEBB2ObIAEErIABBD2pBtIPJAEHUg8kAEOAGAAtBwAAgARDBBAVBAAsgAEEQaiQAC1YBAn8jAEEgayICJAAgAkEIahDkCEEgEHEiAUUEQAALIAFBtLTHADYCACABIAIpAgg3AgQgASAAOgAcIAFBDGogAkEQav0AAgD9CwIAIAJBIGokACABC1YBAn8jAEEgayICJAAgAkEIahDkCEEkEHEiAUUEQAALIAFB7LTHADYCACABIAIpAgg3AgQgASAANwIcIAFBDGogAkEQav0AAgD9CwIAIAJBIGokACABC1cBAn8jAEEgayIBJAACQCAAEJ8BIgINAEEAIQIgAC0AnAMNACABQQA2AhggAUEBNgIMIAFBxKPBADYCCCABQgQ3AhAgAUEIahCSByECCyABQSBqJAAgAgtXAQJ/IwBBIGsiASQAAkAgABCxASICDQBBACECIAAtAPwCDQAgAUEANgIYIAFBATYCDCABQcSjwQA2AgggAUIENwIQIAFBCGoQkgchAgsgAUEgaiQAIAILTQEDfwJAAkAgAARAIABBCGsiASABKAIAIgJBAWoiAzYCACADRQ0BIAAoAgBB/////wdPDQIgACgCDCABIAI2AgAPCxCOCgsACxCQCgALSAEBfyMAQRBrIgIkACACIAA2AgwgASAAQQNqQcioxwAgAEEBakHYqMcAIABBAmpB6KjHACACQQxqQfioxwAQ7gUgAkEQaiQAC0wBAX8gACgCACAAKAIIIgNrIAJJBEAgACADIAJBAUEBEKQFIAAoAgghAwsgAgRAIAAoAgQgA2ogASAC/AoAAAsgACACIANqNgIIQQALYwECfgJ/IAEpAgAiAkLa/Zb/6ejo+sEAhSABKQIIIgNC1vuGkcjA4r/+AIWEUEUEQEEAIAJC7bqtts2F1PXjAIUgA0L4gpm9le7Gxbl/hYRCAFINARogAEEcag8LIABBJGoLC2ABAn4CfyABKQIAIgJC96nT7vKhs5V7hSABKQIIIgNClrmj2vbEh9QnhYRQRQRAQQAgAkL117zJyMzWszqFIANC/tvLm/Plucb1AIWEQgBSDQEaIABBHGoPCyAAQShqCwtAAAJAIAFpQQFHIABBgICAgHggAWtLcg0AIAAEQAJ/IAFBCU8EQCABIAAQwQQMAQsgABBxCyIBRQ0BCyABDwsAC0MBA38CQCACRQ0AA0AgAC0AACIEIAEtAAAiBUYEQCAAQQFqIQAgAUEBaiEBIAJBAWsiAg0BDAILCyAEIAVrIQMLIAMLpzsEIX8DfgJ7B30jAEEQayImJAAjAEHgAGsiGiQAIBogATgCCCAaIAQ2AhAgGiAANgIMAn8CfwJAAkACQAJAIARBBHQgCEYEQCAEIApHDQEgBCAMRw0CIAQgDkcNAyAEIBBHDQQgBCASRgRAIBogBjYCVCAaIAU2AlAgGiAENgJIIBogETYCRCAaIAQ2AkAgGiAPNgI8IBogBDYCOCAaIA02AjQgGiAENgIwIBogCzYCLCAaIAQ2AiggGiAJNgIkIBogCDYCICAaIAc2AhwgGiAENgIYIBogAzYCFCAaIBpBEGo2AlwgGiAaQQhqNgJYIBogGkEMajYCTCAaQRRqIQAjAEFAaiIWJABBsLXJACgCAEUEQBBWCwJAAkACQAJAAkACQEG4tckAKAIARQRAIAAoAkghMiAAKAJEISsgACgCQCEsIAAoAjwhGCAAKAI4ITMgACgCNCEtIAAoAjAhJCAAKAIsIS4gACgCKCEcIAAoAiQhLyAAKAIgIR0gACgCHCEwIAAoAhghGyAAKAIUITEgACgCECEXIAAoAgwhKiAAKAIIISEgACgCBCEgIAAoAgAhGUG4tckAQX82AgACQCAgQZqz5gxJBEACQCAgQdAAbCInRQRAQRAhIwwBCyAgIShBECAnEMEEIiNFDQILAkAgIARAA0ACQAJAQcy1yQAoAgBFDQBBACElQcS1yQAoAgAiHkHYtckAKQMAIjQgGSATQQJ0IilqKAIAIiKthSI1QjiGIDVCgP4Dg0IohoQgNUKAgPwHg0IYhiA1QoCAgPgPg0IIhoSEIDRCCIhCgICA+A+DIDRCGIhCgID8B4OEIDRCKIhCgP4DgyA0QjiIhISEQtKBqpur+oLXp39+IjRCOIYgNEKA/gODQiiGhCA0QoCA/AeDQhiGIDRCgICA+A+DQgiGhIQgNEIIiEKAgID4D4MgNEIYiEKAgPwHg4QgNEIoiEKA/gODIDRCOIiEhIQgNULYotHvwqnlvy1+hSI2QjiGIDZCgP4Dg0IohoQgNkKAgPwHg0IYhiA2QoCAgPgPg0IIhoSEIDZCCIhCgICA+A+DIDZCGIhCgID8B4OEIDZCKIhCgP4DgyA2QjiIhISEQdC1yQApAwAiNEJ/hX4iNUI4hiA1QoD+A4NCKIaEIDVCgID8B4NCGIYgNUKAgID4D4NCCIaEhCA1QgiIQoCAgPgPgyA1QhiIQoCA/AeDhCA1QiiIQoD+A4MgNUI4iISEhCA2IDRCOIYgNEKA/gODQiiGhCA0QoCA/AeDQhiGIDRCgICA+A+DQgiGhIQgNEIIiEKAgID4D4MgNEIYiEKAgPwHg4QgNEIoiEKA/gODIDRCOIiEhIR+hSA2iSI1p3EhFSA1QhmIQv8Ag0KBgoSIkKDAgAF+ITRBwLXJACgCACIfQSBrIQADQCAVIB9qKQAAIjYgNIUiNUJ/hSA1QoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIjVQRQRAA0AgIiAAIDV6p0EDdiAVaiAecSIUQQV0aygCAEYNBCA1QgF9IDWDIjVQRQ0ACwsgNiA2QgGGg0KAgYKEiJCgwIB/g1BFDQEgFSAlQQhqIiVqIB5xIRUMAAsAC0HU+sAAEN0JAAsgE0EEdCIlQQhyIR4CQAJAAkACQAJAAkACQCAqICVBC3IiAE8EQCAlQQxyIRUgJUEPciIAICpLDQEgEyAxRg0CIBMgMEYNAyATIC9GDQQgEyAuRg0FICEgHkECdGoiACoCCCE8IAD9XQIAITggISAVQQJ0aiIAKgIIIT0gAP1dAgAhNyAXIClqKgIAIT8gGyApaioCACE6IB0gKWoqAgAhAUMAAIA/ITkgHCApaioCACI7QwAAAABeDQYMBwsgHiAAICpB1PvAABDqBwALIBUgACAqQcT7wAAQ6gcACyAxIDFB5PrAABCMBwALIDAgMEH0+sAAEIwHAAsgLyAvQYT7wAAQjAcACyAuIC5BlPvAABCMBwALQwAANEMgOyA7QwAANENeG0MAAAA/lEM1+o48lBCbAiE5CwJAAkAgEyAtRwRAIB9BACAUa0EFdGohFUMAAIA/IT4gJCApaioCACI7QwAAAABeDQEMAgsgLSAtQaT7wAAQjAcAC0MAADRDIDsgO0MAADRDXhtDAAAAP5RDNfqOPJQQmwIhPgsgFUEEaygCACIUKAIIIgBB/////wdPDQIgFCAAQQFqNgIIICMgE0HQAGxqIgAgPiA5EN8IOAJEIAAgOTgCQCAAIAE4AjwgACA6OAI4IAAgPzgCNCAAICI2AjAgACAVQRBrNgIsIAAgFUEcazYCKCAAIBRBCGo2AiQgACAUQQxqNgIgIAAgNyA9/SACID39IAP9CwQAIAAgOCA8/SACIjf94QEgN/0NAAECAwQFBgcICQoLCAkKCyA3IDz9IAMiNyA3/eYBIjcgN/0NCAkKCwABAgMAAQIDAAECAyA3IDcgN/0NBAUGBwABAgMAAQIDAAECA/3kAf3kAf3jASA3/Q0AAQIDAAECAwABAgMAAQID/ecB/QsEECATQQFqIhMgIEcNAAsLQbi2yQBBADYCAEGstskAQQA2AgAgMygCACIAQbC2yQAoAgBLBEBBsLbJAEEAIABBBEEIEKQFC0HEtskAQQA2AgBB/LXJACgCAARAQfi1yQBB9LXJACgCACIUBH8gFEEJaiIABEBB8LXJACgCAEH/ASAA/AsACyAUIBRBAWpBA3ZBB2wgFEEISRsFQQALNgIAQfy1yQBBADYCAAtBACEZQQAhGyAgBEAgIyAnaiEdICNB0ABqIRcgIEEBa0H/////AHFBAWohGyAjIQBBACETA0AgEyAsRg0HIBgoAgAiFEEQdEEAIBRBf0cbIhwgACgCICIVKAIIIhRPDQYgFSgCBCAcQQR0aiAAEJwCIQEgFiAcNgIwIBYgATgCKCAWIBM2AiwgFkEoahCTBCAAKAIwQQAQkgJFBEAgACgCMCEUQcS2yQAoAgAiFUG8tskAKAIARgRAQby2yQBBxPrAABD5BQtBwLbJACgCACAVQQN0aiIAQQA2AgQgACAUNgIAQcS2yQAgFUEBajYCAAsgGEEEaiEYQdAAQQAgFyIAIB1HGyAAaiEXIBsgE0EBaiITRw0ACwsCQEGstskAKAIAIhVFBEBDAACAfyE5QQAhJwwBC0MAAIB/ITlBACEnA0ACQCArKgIAITogOUGotskAKAIAIgAqAgAiARDfCCE5IAEgOl8NAANAAkACQAJAAkAgICAAKAIEIh5LBEAgACgCCCIkICMgHkHQAGxqIh8oAiAiFCgCCCIATw0BIBQoAgQgJEEEdGoiAC8BDCIYRQRAIBZBKGoQsgJBuLbJACgCACIUQbC2yQAoAgBGBEBBsLbJAEHE9sAAEPkFC0G0tskAKAIAIBRBA3RqIgAgJDYCBCAAIB42AgBBuLbJACAUQQFqNgIAICdBAWohJwwECyAYIBtqQQFrIhQgMygCAEsNBiAAKAIAIQAgFkEoahCyAiAfKAIwIABBEHYiHBCSAkUEQCAfKAIwIRlBxLbJACgCACIXQby2yQAoAgBGBEBBvLbJAEHU9sAAEPkFC0HAtskAKAIAIBdBA3RqIhMgHDYCBCATIBk2AgBBxLbJACAXQQFqNgIACyAAIBhqIhdBAWtBEHYiHSAcRg0CIB8oAjAgHRCSAg0CIB8oAjAhGUHEtskAKAIAIhVBvLbJACgCAEYEQEG8tskAQeT2wAAQ+QULQcC2yQAoAgAgFUEDdGoiEyAdNgIEIBMgGTYCAEHEtskAIBVBAWo2AgAMAgsgHiAgQaT2wAAQjAcACyAkIABBtPbAABCMBwALAkACQAJAIB8oAiwiEygCCCIZIB1LBEAgGSAcTQRAIBwgGUH09sAAEIwHAAsgEygCBCITIBxBAnRqKAIAQX9GDQMgEyAdQQJ0aigCAEF/Rg0DIAAgF08NBQNAIABBEHYiFyAfKAIsIhkoAggiE08NAiAAQf//A3EgGSgCBCAXQQJ0aigCAEEQdHIiFyAfKAIgIhkoAggiE08NAwJAIBkoAgQgF0EEdGogHxCcAiIBICsqAgBfRQRAIBYgFzYCMCAWIB42AiwgFiABOAIoIBZBKGoQkwQMAQtBuLbJACgCACIZQbC2yQAoAgBGBEBBsLbJAEG098AAEPkFC0G0tskAKAIAIBlBA3RqIhMgFzYCBCATIB42AgBBuLbJACAZQQFqNgIACyAAQQFqIQAgGEEBayIYDQALDAULQbi2yQAoAgAiFEGwtskAKAIARgRAQbC2yQBBxPfAABD5BQtBtLbJACgCACAUQQN0aiIAICQ2AgQgACAeNgIAQbi2yQAgFEEBajYCAAwDCyAXIBNBlPfAABCMBwALIBcgE0Gk98AAEIwHAAtBuLbJACgCACIUQbC2yQAoAgBGBEBBsLbJAEGE98AAEPkFC0G0tskAKAIAIBRBA3RqIgAgJDYCBCAAIB42AgBBuLbJACAUQQFqNgIAC0EAIRlBrLbJACgCACIVDQMMBAtBACEZQay2yQAoAgAiFUUNAyArKgIAITogOUGotskAKAIAIgAqAgAiARDfCCE5IBQhGyABIDpfRQ0ACwsLIBUhGQtBACEbQay2yQBBADYCAEG4tskAKAIAIiQhEyAZBEAgGUEMbCEYQai2yQAoAgBBCGohACAkQQN0IRUDQCAAQQRrKAIAIR0gACgCACEXQbC2yQAoAgAgE0YEQEGwtskAQZT6wAAQ+QULQbS2yQAoAgAgFWoiFCAdNgIAIBRBBGogFzYCAEG4tskAIBNBAWoiEzYCACAAQQxqIQAgFUEIaiEVIBhBDGsiGA0ACwsgFkEANgIQIBZCgICAgMAANwIIQQQhGCAyKAIAIhcEQCAWQQhqQQAgF0EEQQQQpAUgFigCDCIYIBYoAhAiE0ECdGohFCAXQQFHBH8gF0ECdEEEayIABEAgFEEAIAD8CwALIBMgF2oiAEEBayETIBggAEECdGpBBGsFIBQLQQA2AgAgE0EBaiEbQbi2yQAoAgAhEwsgFiAbNgIQAkACQAJAAkACQAJAIBMEQCATQQN0IRNBtLbJACgCACEAA0AgACgCACIUIBtPDQIgGCAUQQJ0aiIUIBQoAgBBAWo2AgAgAEEIaiEAIBNBCGsiEw0ACwsgMigCACIAQavVqtUATw0BQQAhFwJAIABBDGwiFEUEQEEEIRVBACEADAELIBQQcSIVRQ0JCyAWQQA2AhwgFiAVNgIYIBYgADYCFCAWKAIIIRwgGwRAIBtBAnQhG0EIIR8gGCEAA0AgACgCACITQf////8DSw0EIBNBAnQiFEH9////B08NBAJAIBRFBEBBBCEdQQAhEwwBCyAUEHEiHUUNCwsgAEEEaiEAIBYoAhQgF0YEQCMAQSBrIiEkAAJAIBZBFGoiIigCACIeQdWq1SpLBH9BAAVBBCAeQQF0IhQgFEEETRsiFUEMbCEUICEgHgR/ICEgHkEMbDYCHCAhICIoAgQ2AhRBBAVBAAs2AhggIUEIakEEIBQgIUEUahCFByAhKAIIQQFHDQEgISgCECEiICEoAgwLICJB9PnAABCTCQALICEoAgwhFCAiIBU2AgAgIiAUNgIEICFBIGokACAWKAIYIRULIBUgH2oiFEEANgIAIBRBBGsgHTYCACAUQQhrIBM2AgAgFiAXQQFqIhc2AhwgH0EMaiEfIBtBBGsiGw0ACwsgHARAIBhBBGsoAgAiAEF4cSITIBxBAnQiFEEEQQggAEEDcSIAG2pJDQ4gAEEAIBMgFEEnaksbDQ8gGBCiAgsgFigCGCEUAkBBuLbJACgCACIABEAgAEEDdCEYQbS2yQAoAgAhEwNAIBMoAgAiGyAXTw0CIBNBBGooAgAhACAUIBtBDGxqIhUoAggiGyAVKAIARgRAIBVB1PnAABD6BQsgFSgCBCAbQQJ0aiAANgIAIBUgG0EBajYCCCATQQhqIRMgGEEIayIYDQALCxDBCSEiIBdFDQ0gFCAXQQxsaiEYICNBMGohGyAUQQxqIQBBfyElIBQhEwNAIBMoAghB//8AakGAgP//A3EQtgkiHkEAIBMoAggQ4QghHyATKAIEIRUgEygCCCEcIB8QuAohHSAWIBw2AiQgFiAdNgIgIBwgHUcNBSAfIBUgHBDgCSAfQYQITwRAIB8QmwcLEL8JIRwCQCAlQQFqIiUgIEcEQCAbKAIAIRUgHEGw8sAAQQUQ7AgiHSAVuBC3CSIVEMAJQbS7yQAtAABFDQFBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgFiAANgIoQdjmyABBKyAWQShqQdjowABBtPnAABDgBgALICAgIEGE+cAAEIwHAAtBuLvJAEEANgIAQbS7yQBBADoAACAVQYQITwRAIBUQmwcLIB1BhAhPBEAgHRCbBwsgHEG56MAAQQkQ7AgiFSATKAIIuBC3CSITEMAJQbS7yQAtAAANBkG4u8kAQQA2AgBBtLvJAEEAOgAAIBNBhAhPBEAgExCbBwsgFUGECE8EQCAVEJsHCyAcQaj0wABBBxDsCCITIB4QwAlBtLvJAC0AAA0HQbi7yQBBADYCAEG0u8kAQQA6AAAgHkGECE8EQCAeEJsHCyATQYQITwRAIBMQmwcLICIgHBDiCSAcQYQITwRAIBwQmwcLIAAiEyAYRiIADQ4gG0HQAGohGyATQQBBDCAAG2ohACATDQALDA0LIBsgF0HE+cAAEIwHAAsgFCAbQYT6wAAQjAcAC0HU98AAEP8HAAtB5PnAABD/BwALIBZBADYCKEEAIBZBIGogFkEkaiAWQShqQeD5xAAQ9QcAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACAWIAA2AihB2ObIAEErIBZBKGpB2OjAAEGk+cAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgFiAANgIoQdjmyABBKyAWQShqQdjowABBlPnAABDgBgALQbT7wAAQsQoAC0Hg/8YAEP8HCwALQayKwQAQsAoACyAcIBRBtPrAABCMBwALICwgLEGk+sAAEIwHAAsQwQkhHUHEtskAKAIAIgAEQCAAQQN0IRhBwLbJACgCACETA0AgE0EEaigCACEbIBMoAgAhABDBCSIVIAC4ELcJIgAQ4gkgAEGECE8EQCAAEJsHCyAVIBu4ELcJIgAQ4gkgAEGECE8EQCAAEJsHCyAdIBUQ4gkgFUGECE8EQCAVEJsHCyATQQhqIRMgGEEIayIYDQALCxC/CSIYQeT3wABBChDsCCITIDm7ELcJIgAQwAkCQAJAAkACQAJAAkBBtLvJAC0AAEUEQEG4u8kAQQA2AgBBtLvJAEEAOgAAIABBhAhPBEAgABCbBwsgE0GECE8EQCATEJsHCyAYQe73wABBDxDsCCIAICIQwAlBtLvJAC0AAA0BQbi7yQBBADYCAEG0u8kAQQA6AAAgIkGECE8EQCAiEJsHCyAAQYQITwRAIAAQmwcLIBhB/ffAAEEGEOwIIgAgHRDACUG0u8kALQAADQJBuLvJAEEANgIAQbS7yQBBADoAACAdQYQITwRAIB0QmwcLIABBhAhPBEAgABCbBwsgGEGD+MAAQQoQ7AgiEyAkuBC3CSIAEMAJQbS7yQAtAAANA0G4u8kAQQA2AgBBtLvJAEEAOgAAIABBhAhPBEAgABCbBwsgE0GECE8EQCATEJsHCyAYQY34wABBDBDsCCITIBm4ELcJIgAQwAlBtLvJAC0AAA0EQbi7yQBBADYCAEG0u8kAQQA6AAAgAEGECE8EQCAAEJsHCyATQYQITwRAIBMQmwcLIBhBmfjAAEEJEOwIIhMgJ7cQtwkiABDACUG0u8kALQAADQVBuLvJAEEANgIAQbS7yQBBADoAACAAQYQITwRAIAAQmwcLIBNBhAhPBEAgExCbBwsgFwRAIBQhAANAIAAoAgAiGQRAIABBBGooAgAiFUEEaygCACITQXhxIhsgGUECdCIZQQRBCCATQQNxIhMbakkNCiATQQAgGyAZQSdqSxsNCyAVEKICCyAAQQxqIQAgF0EBayIXDQALCyAWKAIUIhMEQCAUQQRrKAIAIgBBeHEiGSATQQxsIhNBBEEIIABBA3EiABtqSQ0IIABBACAZIBNBJ2pLGw0JIBQQogILAkAgIEUNACAgQQNxIRNBACEVICBBBE8EQCAjQZQCaiEAICBB/P//D3EhGQNAIABB8AFrKAIAIhQgFCgCAEEBazYCACAAQaABaygCACIUIBQoAgBBAWs2AgAgAEHQAGsoAgAiFCAUKAIAQQFrNgIAIAAoAgAiFCAUKAIAQQFrNgIAIABBwAJqIQAgGSAVQQRqIhVHDQALCyATRQ0AIBVB0ABsICNqQSRqIQADQCAAKAIAIhQgFCgCAEEBazYCACAAQdAAaiEAIBNBAWsiEw0ACwsgKARAICNBBGsoAgAiAEF4cSITIChB0ABsIhRBBEEIIABBA3EiABtySQ0IIABBACATIBRBJ2pLGw0HICMQogILQbi1yQBBuLXJACgCAEEBajYCACAaIBg2AgQgGkEANgIAIBZBQGskAAwJC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACAWIAA2AihB2ObIAEErIBZBKGpB2OjAAEH0+MAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgFiAANgIoQdjmyABBKyAWQShqQdjowABB5PjAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIBYgADYCKEHY5sgAQSsgFkEoakHY6MAAQdT4wAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACAWIAA2AihB2ObIAEErIBZBKGpB2OjAAEHE+MAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgFiAANgIoQdjmyABBKyAWQShqQdjowABBtPjAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIBYgADYCKEHY5sgAQSsgFkEoakHY6MAAQaT4wAAQ4AYACwwBC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgGigCBCEAIBooAgAMBwtBgPXAAEEYEOwIDAULQYT2wABBHhDsCAwEC0Hr9cAAQRkQ7AgMAwtBzfXAAEEeEOwIDAILQbH1wABBHBDsCAwBC0GY9cAAQRkQ7AgLIQBBAQshGQJAAkACQCASBEAgEUEEaygCACIoQXhxIhMgEkECdCIUQQRBCCAoQQNxIhIbakkNASASQQAgEyAUQSdqSxsNAiAREKICCyAQBEAgD0EEaygCACIUQXhxIhIgEEECdCIRQQRBCCAUQQNxIhAbakkNASAQQQAgEiARQSdqSxsNAiAPEKICCyAOBEAgDUEEaygCACIRQXhxIhAgDkECdCIPQQRBCCARQQNxIg4bakkNASAOQQAgECAPQSdqSxsNAiANEKICCyAMBEAgC0EEaygCACIPQXhxIg4gDEECdCINQQRBCCAPQQNxIgwbakkNASAMQQAgDiANQSdqSxsNAiALEKICCyAKBEAgCUEEaygCACINQXhxIgwgCkECdCILQQRBCCANQQNxIgobakkNASAKQQAgDCALQSdqSxsNAiAJEKICCyAIBEAgB0EEaygCACILQXhxIgogCEECdCIJQQRBCCALQQNxIggbakkNASAIQQAgCiAJQSdqSxsNAiAHEKICCyAGBEAgBUEEaygCACIJQXhxIgggBkECdCIHQQRBCCAJQQNxIgYbakkNASAGQQAgCCAHQSdqSxsNAiAFEKICCyAEBEAgA0EEaygCACIHQXhxIgYgBEECdCIFQQRBCCAHQQNxIgQbakkNASAEQQAgBiAFQSdqSxsNAiADEKICCyAmIBlBAXEiAzYCCCAmIABBACADGzYCBCAmQQAgACADGzYCACAaQeAAaiQADAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAmKAIAICYoAgQgJigCCCAmQRBqJAALTQEBfwJ/AkAgAigCBEUNACACKAIIIgNFDQAgAigCACADQQEgARC7AgwBCyABEHELIQIgACABNgIIIAAgAkEBIAIbNgIEIAAgAkU2AgALSwIBfwJ+IwBBEGsiASQAIAEgADUCiAEgADUChAF+QgRCAyAALQCTARsQ3QYgASkDCCECIAEpAwAhAyABQRBqJABCfyADIAJCAFIbC08AAkACQCACKAIQQQFGBEAgASgChAEgAigCFEsNAQsgAigCGEEBRw0BIAEoAogBIAIoAhxNDQELIABCAjcDCCAAQQM2AgAPCyAAQQY2AgALUAEBfyMAQRBrIgIkACACQQhqIAEgASgCACgCBBEBACACIAIoAgggAigCDCgCGBEBACACKAIEIQEgACACKAIANgIAIAAgATYCBCACQRBqJAALSAEBfyAAKAIAIAAoAggiA2sgAkkEQCAAIAMgAhD3BSAAKAIIIQMLIAIEQCAAKAIEIANqIAEgAvwKAAALIAAgAiADajYCCEEAC0gBAX8gACgCACAAKAIIIgNrIAJJBEAgACADIAIQ+AUgACgCCCEDCyACBEAgACgCBCADaiABIAL8CgAACyAAIAIgA2o2AghBAAtIAQF/IAAoAgAgACgCCCIDayACSQRAIAAgAyACEO8FIAAoAgghAwsgAgRAIAAoAgQgA2ogASAC/AoAAAsgACACIANqNgIIQQALRQEBfwJAIAFBAE4EfyABRQRAQQEhAkEAIQEMAgsgARBxIgINAUEBBSACCyABQcDowQAQkwkACyAAIAI2AgQgACABNgIAC08BAn8gACgCBCECIAAoAgAhAwJAIAAoAggiAC0AAEUNACADQbyLwwBBBCACKAIMEQAARQ0AQQEPCyAAIAFBCkY6AAAgAyABIAIoAhARAgALSgECfyAAIAAoAgQiAyACazYCBCAAIAAoAgAgAiADS3IiBDYCAEEBIQMgBAR/IAMFIAAoAggiACgCACABIAIgACgCBCgCDBEAAAsLSAEBfwJAIAFB4QBrIgFB/wFxQRlLBEBBACEBDAELIAFBAnRB/AdxIgIoAtSQSSEBIAIoAuyPSSECCyAAIAI2AgQgACABNgIAC0kCAn8BfSABKAIIIgNBgICAAXEhAiAAKgIAIQQgA0GAgICAAXFFBEAgASAEIAJBAEdBABD3Ag8LIAEgBCACQQBHIAEvAQ4QvQILRwECfyAALQANIgJBgAFNBEAgASgCACAAIAAtAAwiA2ogAiADayABKAIEKAIMEQAADwsgASgCACAAKAIAIAEoAgQoAhARAgALyQIAAkAgACACTQRAIAAgAU0gASACS3INASMAQTBrIgIkACACIAE2AgQgAiAANgIAIAJBAjYCDCACQfydwgA2AgggAkICNwIUIAIgAkEEaq1CgICAgBCENwMoIAIgAq1CgICAgBCENwMgIAIgAkEgajYCECACQQhqIAMQjQgACyMAQTBrIgEkACABIAI2AgQgASAANgIAIAFBAjYCDCABQaidwgA2AgggAUICNwIUIAEgAUEEaq1CgICAgBCENwMoIAEgAa1CgICAgBCENwMgIAEgAUEgajYCECABQQhqIAMQjQgACyMAQTBrIgAkACAAIAI2AgQgACABNgIAIABBAjYCDCAAQcidwgA2AgggAEICNwIUIAAgAEEEaq1CgICAgBCENwMoIAAgAK1CgICAgBCENwMgIAAgAEEgajYCECAAQQhqIAMQjQgAC0IBAX8jAEEgayIDJAAgA0EANgIQIANBATYCBCADQgQ3AgggAyABNgIcIAMgADYCGCADIANBGGo2AgAgAyACEI0IAAuJDQMHfwV+AXwgASgCCCIDQYCAgAFxIQIgACsDACEOIANBgICAgAFxRQRAIAJBAEchA0EAIQIjAEGAAWsiACQAIA69IQkCf0EDIA6ZRAAAAAAAAPB/YQ0AGkECIAlCgICAgICAgPj/AIMiCkKAgICAgICA+P8AUQ0AGiAJQv////////8HgyINQoCAgICAgIAIhCAJQgGGQv7///////8PgyAJQjSIp0H/D3EiAhsiC0IBgyEMIApQBEBBBCANUA0BGiACQbMIayECQgEhCiAMUAwBC0KAgICAgICAICALQgGGIAtCgICAgICAgAhRIgUbIQtCAkIBIAUbIQpBy3dBzHcgBRsgAmohAiAMUAshBSAAIAI7AXggACAKNwNwIABCATcDaCAAIAs3A2AgACAFOgB6An8CQAJAAkACQCAFQf8BcSICQQFNBEBB6rPFAEEBIAlCAFMiAhshBUHqs8UAQciBwgAgAhshAiAJQj+IpyEGIABBIGogAEHgAGogAEEPahDPASAAKAIgRQ0BIABB2ABqIABBKGooAgA2AgAgACAAKQIgNwNQDAILIAJBAkYNAiAAQQI7ASBBASECQeqzxQBByIHCACAJQgBTIgQbQeqzxQBBASAEGyADGyEEIAlCP4inIANyIQMgBUH/AXFBBEYNAyAAQQM2AiggAEHsncYANgIkIABBIGoMBAsgAEHQAGogAEHgAGogAEEPahBXCyACIAUgAxshBCADIAZyIQMgACAAKAJQIAAoAlQgAC8BWEEAIABBIGoQ7AQgACgCBCECIAAoAgAMAgsgAEEDNgIoIABB853GADYCJCAAQQI7ASBBASEEQQAhA0EBIQIgAEEgagwBCyAAQQE2AiggAEGYsMUANgIkIABBIGoLIQUgACACNgJcIAAgBTYCWCAAIAM2AlQgACAENgJQIAEgAEHQAGoQvgMgAEGAAWokAA8LIAJBAEchBSABLwEOIQBBACEDIwBB8AhrIgIkACAOvSEJAn9BAyAOmUQAAAAAAADwf2ENABpBAiAJQoCAgICAgID4/wCDIgtCgICAgICAgPj/AFENABogCUL/////////B4MiDUKAgICAgICACIQgCUIBhkL+////////D4MgCUI0iKdB/w9xIgMbIgpCAYMhDCALUARAQQQgDVANARogA0GzCGshA0IBIQsgDFAMAQtCgICAgICAgCAgCkIBhiAKQoCAgICAgIAIUSIEGyEKQgJCASAEGyELQct3Qcx3IAQbIANqIQMgDFALIQQgAiADOwHoCCACIAs3A+AIIAJCATcD2AggAiAKNwPQCCACIAQ6AOoIAn8CQCAEQf8BcSIGQQFNBEBBdEEFIAPBIgRBAEgbIARsIgRBwP0ASQ0BQcOEwgBBJUHohMIAEOsHAAsCQAJAIAZBAkcEQEEBIQNB6rPFAEHIgcIAIAlCAFMiBhtB6rPFAEEBIAYbIAUbIQYgCUI/iKcgBXIhBSAEQf8BcUEERw0BQQIhAyACQQI7AZAIIAANAkEBIQMgAkEBNgKYCCACQZiwxQA2ApQIIAJBkAhqDAQLIAJBAzYCmAggAkHzncYANgKUCCACQQI7AZAIQQEhBkEAIQVBASEDIAJBkAhqDAMLIAJBAzYCmAggAkHsncYANgKUCCACQQI7AZAIIAJBkAhqDAILIAIgADYCoAggAkEAOwGcCCACQQI2ApgIIAJBuYPCADYClAggAkGQCGoMAQtB6rPFAEEBIAlCAFMiBhshB0Hqs8UAQciBwgAgBhsgCUI/iKchCCACQZAIaiAKIAMgAkEQaiAEQQR2QRVqIgRBgIB+QQAgAGsgAMFBAEgbIgMQ6QIgA8EhAwJAIAIoApAIBEAgAkHICGogAkGYCGooAgA2AgAgAiACKQKQCDcDwAgMAQsgAkHACGogAkHQCGogAkEQaiAEIAMQZQsgByAFGyEGIAUgCHIhBSADIAIuAcgIIgRIBEAgAkEIaiACKALACCACKALECCAEIAAgAkGQCGoQ7AQgAigCDCEDIAIoAggMAQtBAiEDIAJBAjsBkAggAEUEQEEBIQMgAkEBNgKYCCACQZiwxQA2ApQIIAJBkAhqDAELIAIgADYCoAggAkEAOwGcCCACQQI2ApgIIAJBuYPCADYClAggAkGQCGoLIQAgAiADNgLMCCACIAA2AsgIIAIgBTYCxAggAiAGNgLACCABIAJBwAhqEL4DIAJB8AhqJAALQwEBfyMAQRBrIgIkACACQQhqIAEoAggiASABKAIAKAIEEQEAIAIoAgwhASAAIAIoAgg2AgAgACABNgIEIAJBEGokAAtBAAJAIAAoAiQiACgCBEEDRwRAIABBBGohAAwBCyAAIAAoAgAoAhgRBAAiAA0AQYjxwQBBGEGg8cEAEKsHAAsgAAuhAQEDfyAAKAIAIQAgASgCCCIDQYCAgBBxRQRAIANBgICAIHFFBEAgACABELMGDwsgACABENkGDwsgAC0AACEAIwBBEGsiBCQAQQMhAgNAIAIgBGpBDGogAEEPcUHctsUAai0AADoAACAAIgNBBHYhACACQQFrIQIgA0EPSw0ACyABQQFBhLTFAEECIAIgBGpBDWpBAyACaxDIAyAEQRBqJAALMgECfyABQf8BcSEDQQAhAQNAIAAQtAogAkEBdHIhAiABQQFqIgFB/wFxIANJDQALIAILOAEBfyMAQRBrIgIkACACQQhqIAAgACgCACgCBBEBACACKAIIIAEgAigCDCgCEBECACACQRBqJAAL7g8CA34VfyMAQRBrIhMkACMBQQFrIhYkASAWIAgmASAAIRogAiEbQbC1yQAoAgBFBEAQVgsCQAJAAkBBuLXJACgCAEUEQEG4tckAQX82AgAgFiUBEB4hHgJAIAcgBSADIAEgASADSxsiACAAIAVLGyIAIAAgB0sbIh9FDQADQCAXIgAgHkYNASAWJQEgABAfIQgQ2gQiGCAIJgECQAJAQcy1yQAoAgBFDQAgAEEBaiEXIAYgAEECdCIAaigCACERIAAgBGooAgAhDyAAIBtqKAIAIRxBACEMQcS1yQAoAgAiAkHYtckAKQMAIgkgACAaaigCACIdrYUiCkI4hiAKQoD+A4NCKIaEIApCgID8B4NCGIYgCkKAgID4D4NCCIaEhCAJQgiIQoCAgPgPgyAJQhiIQoCA/AeDhCAJQiiIQoD+A4MgCUI4iISEhELSgaqbq/qC16d/fiIJQjiGIAlCgP4Dg0IohoQgCUKAgPwHg0IYhiAJQoCAgPgPg0IIhoSEIAlCCIhCgICA+A+DIAlCGIhCgID8B4OEIAlCKIhCgP4DgyAJQjiIhISEIApC2KLR78Kp5b8tfoUiCUI4hiAJQoD+A4NCKIaEIAlCgID8B4NCGIYgCUKAgID4D4NCCIaEhCAJQgiIQoCAgPgPgyAJQhiIQoCA/AeDhCAJQiiIQoD+A4MgCUI4iISEhEHQtckAKQMAIgpCf4V+IgtCOIYgC0KA/gODQiiGhCALQoCA/AeDQhiGIAtCgICA+A+DQgiGhIQgC0IIiEKAgID4D4MgC0IYiEKAgPwHg4QgC0IoiEKA/gODIAtCOIiEhIQgCSAKQjiGIApCgP4Dg0IohoQgCkKAgPwHg0IYhiAKQoCAgPgPg0IIhoSEIApCCIhCgICA+A+DIApCGIhCgID8B4OEIApCKIhCgP4DgyAKQjiIhISEfoUgCYkiCadxIQ0gCUIZiEL/AINCgYKEiJCgwIABfiELQcC1yQAoAgAiAEEgayEOA0AgACANaikAACIKIAuFIglCf4UgCUKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIJUEUEQANAIB0gDiAJeqdBA3YgDWogAnEiFEEFdGsoAgBGDQQgCUIBfSAJgyIJUEUNAAsLIAogCkIBhoNCgIGChIiQoMCAf4NQRQ0BIA0gDEEIaiIMaiACcSENDAALAAtB6PLAABDdCQALIA9BEHYhDSARQRB2IBFB//8DcUEAR2oiGSAcQRB2Ig9qIhIgAEEAIBRrQQV0aiIOQRRrIhQoAgAiAksEQCASIAIiAGsiDCAOQRxrIhAoAgAgAGtLBEAgECAAIAxBBEEEEKQFIBQoAgAhAAsgDkEYaygCACIVIABBAnRqIRAgDEECTwR/IAJBf3MgEmpBAnQiAgRAIBBB/wEgAvwLAAsgACAMaiICQQFrIQAgFSACQQJ0akEEawUgEAtBfzYCACAUIABBAWo2AgALIA0gGWoiECAOQQhrIhIoAgAiAksEQCAQIAIiAGsiDCAOQRBrIhUoAgAgAGtLBEAgFSAAIAxBBEEEEKQFIBIoAgAhAAsgDkEMaygCACIgIABBAnRqIRUgDEECTwR/IAJBf3MgEGpBAnQiAgRAIBVB/wEgAvwLAAsgACAMaiICQQFrIQAgICACQQJ0akEEawUgFQtBfzYCACASIABBAWo2AgALAkACQAJAAkACQAJAAkAgGCICELkKRQRAIBENAUEAIREMBQsgEQRAIA9BAnQhDCANQQJ0IQAgDkEMayEYIA5BGGshDgNAIA8gFCgCACIRTw0DIA4oAgAgDGpBfzYCACANIBIoAgAiEU8NBCAYKAIAIABqQX82AgAgDEEEaiEMIA9BAWohDyAAQQRqIQAgDUEBaiENIBlBAWsiGQ0ACwsgAkGDCEsNBQwGCyAPQQJ0IQwgDUECdCEAIA5BDGshGCAOQRhrIQ4DQCAPIBQoAgAiEE8NAyAOKAIAIAxqIA02AgAgEigCACIQIA1LBEAgGCgCACAAaiAPNgIAIAxBBGohDCAPQQFqIQ8gAEEEaiEAIA1BAWohDSAZQQFrIhlFDQUMAQsLIA0gEEGI88AAEIwHAAsgDyARQZjzwAAQjAcACyANIBFBqPPAABCMBwALIA8gEEH48sAAEIwHAAsgHSAcIBEgAhDTASACQYQISQ0BCyACEJsHCyAXIB9HDQALCxC/CSEAQbi1yQBBuLXJACgCAEEBajYCACAHBEAgBkEEaygCACICQXhxIhcgB0ECdCIHQQRBCCACQQNxIgIbakkNAiACQQAgFyAHQSdqSxsNAyAGEKICCyAFBEAgBEEEaygCACICQXhxIgYgBUECdCIFQQRBCCACQQNxIgIbakkNAiACQQAgBiAFQSdqSxsNAyAEEKICCyADBEAgG0EEaygCACICQXhxIgQgA0ECdCIDQQRBCCACQQNxIgIbakkNAiACQQAgBCADQSdqSxsNAyAbEKICCwJAIAEEQCAaQQRrKAIAIgJBeHEiAyABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0DIAJBACADIAFBJ2pLGw0BIBoQogILIBNCADcCBCATIAA2AgAMBAsMAgtBrIrBABCwCgALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAW0G9BAfwRASAWQQFqJAEgEygCACATKAIEIBMoAgggE0EQaiQACzgAAkAgAkGAgMQARg0AIAAgAiABKAIQEQIARQ0AQQEPCyADRQRAQQAPCyAAIAMgBCABKAIMEQAAC+ACAgR/An4jAEEQayIJJAAQ2gQiCyAEJgEjAEEwayIIJABBgICAgHghCgJAIABFBEBBgICAgHghAQwBCyAArSABrUIghoQhDAsgAgRAIAKtIAOtQiCGhCENIAMhCgsgCCAMNwIcIAggATYCGCAIIA03AiggCCAKNgIkIAZBAEchACAFQQBHIQECQCAHRQRAIAhBCGogCEEYaiAIQSRqIAsgASAFIAAgBkEAQQAQvwEMAQsgCEEIaiAIQRhqIAhBJGogCyABIAUgACAGQQEgBxC/AQsCQAJAAn8gCCgCCEUEQEEBIQAgCCgCDAwBC0EcEHEiAUUNAUEAIQAgAUEANgIIIAFCgYCAgBA3AgAgASAI/QACCP0LAgwgAUEIagshASAJIAA2AgggCSABQQAgABs2AgQgCUEAIAEgABs2AgAgCEEwaiQADAELAAsgCSgCACAJKAIEIAkoAgggCUEQaiQACzkBAX8jAEEQayIFJAAgBSACNgIMIAUgATYCCCAAIAVBCGpB4IfDACAFQQxqQeCHwwAgAyAEEPIEAAtEACABKQIAQu26rbbNhdT14wCFIAEpAghC+IKZvZXuxsW5f4WEUEUEQCAAKAIkIgAgASAAKAIAKAIQEQIADwsgAEEcags5AQF/IwBBEGsiBCQAIAQgATYCDCAEIAA2AghBACAEQQhqQcS2xAAgBEEMakHEtsQAIAIgAxDyBAAL4AEBBH8jAEEQayICJAAgAiAANgIMIwBBEGsiACQAIAEoAgBBmK3HAEENIAEoAgQoAgwRAAAhAyAAQQA6AA0gACADOgAMIAAgATYCCCAAQQhqQcj7xwBBBCACQQxqQfS3xQAQjAUhAyAALQANIgQgAC0ADCIFciEBAkAgBUEBcSAEQQFHcg0AIAMoAgAiAS0ACkGAAXFFBEAgASgCAEH/s8UAQQIgASgCBCgCDBEAACEBDAELIAEoAgBBpbPFAEEBIAEoAgQoAgwRAAAhAQsgAEEQaiQAIAFBAXEgAkEQaiQACzkBAX8jAEEQayIFJAAgBSACNgIMIAUgATYCCCAAIAVBCGpB3JzIACAFQQxqQdycyAAgAyAEEPIEAAs8AQJ/IAEoAgQhAiABKAIAIQNBCBBxIgFFBEAACyABIAI2AgQgASADNgIAIABBvIzIADYCBCAAIAE2AgALPwEBfyMAQRBrIgIkACACQZvRwAA2AgwgAiAANgIIQQAgAkEIakHohsgAIAJBDGpB6IbIACABQciDyAAQ8gQAC5EDAQV/IwBBEGsiCCQAENoEIgogASYBIAAhCxDaBCIAIAYmASAFIQkjAEHgAWsiByQAIAJBAEchBQJAIAlFBEAgB0H4AGogCyAKIAUgAiAAEGcgBygCfCEFIAcoAngiAEGAgICAeEYEQEEBIQIMAgsgB0EYaiAHQYABakHgAPwKAAAgByAFNgIUIAcgADYCECAHQRBqIgAgAyAEQQBHEDAgByAAEPsDIAcoAgQhBSAHKAIAIQIgABD2AgwBCyAHQfgAaiALIAogBSACIAAQZyAHKAJ8IQUgBygCeCIAQYCAgIB4RgRAIAlBhAhPBEAgCRCbBwtBASECDAELIAdBGGogB0GAAWpB4AD8CgAAIAcgBTYCFCAHIAA2AhAgB0EQaiIAIAkQxAIgACADIARBAEcQMCAHQQhqIAAQ+wMgBygCDCEFIAcoAgghAiAAEPYCCyAIIAJBAXEiADYCCCAIIAVBACAAGzYCBCAIQQAgBSAAGzYCACAHQeABaiQAIAgoAgAgCCgCBCAIKAIIIAhBEGokAAv6AwEFfyMAQRBrIggkABDaBCIHIAEmARDaBCIJIAImASAHIQojAEGgAWsiByQAIANBAEchCwJAIAZFBEAgB0HYAGogACAKIAkgCyADEDsgBygCXCEAIAcoAlgiA0GAgICAeEYEQEEBIQMMAgsgB0HIAGogB0GQAWr9AAIA/QsCACAHQThqIAdBgAFq/QACAP0LAgAgB0EoaiAHQfAAav0AAgD9CwIAIAcgB/0AAmD9CwIYIAcgADYCFCAHIAM2AhAgB0EQaiIGIAQgBUEARxAvIAcgBhCDBSAHKAIEIQAgBygCACEDIAYQ9QIMAQsgB0HYAGogACAKIAkgCyADEDsgBygCXCEAIAcoAlgiA0GAgICAeEYEQCAGQYQITwRAIAYQmwcLQQEhAwwBCyAHQcgAaiAHQZABav0AAgD9CwIAIAdBOGogB0GAAWr9AAIA/QsCACAHQShqIAdB8ABq/QACAP0LAgAgByAH/QACYP0LAhggByAANgIUIAcgAzYCECAAIAcoAhggBhCtAyAHQRBqIgYgBCAFQQBHEC8gB0EIaiAGEIMFIAcoAgwhACAHKAIIIQMgBhD1AgsgCCADQQFxIgM2AgggCCAAQQAgAxs2AgQgCEEAIAAgAxs2AgAgB0GgAWokACAIKAIAIAgoAgQgCCgCCCAIQRBqJAAL0wICA38CfiMAQRBrIggkACMAQTBrIgckAEGAgICAeCEJAkAgAEUEQEGAgICAeCEBDAELIACtIAGtQiCGhCEKCyACBEAgAq0gA61CIIaEIQsgAyEJCyAHIAo3AhwgByABNgIYIAcgCzcCKCAHIAk2AiQgBUEARyEAIARBAEchAQJAIAZFBEAgB0EIaiAHQRhqIAdBJGogASAEIAAgBUEAQQAQ2AEMAQsgB0EIaiAHQRhqIAdBJGogASAEIAAgBUEBIAYQ2AELAkACQAJ/IAcoAghFBEBBASEAIAcoAgwMAQtBHBBxIgFFDQFBACEAIAFBADYCCCABQoGAgIAQNwIAIAEgB/0AAgj9CwIMIAFBCGoLIQEgCCAANgIIIAggAUEAIAAbNgIEIAhBACABIAAbNgIAIAdBMGokAAwBCwALIAgoAgAgCCgCBCAIKAIIIAhBEGokAAs3AQF/IwBBIGsiASQAIAFBADYCGCABQQE2AgwgAUH07sEANgIIIAFCBDcCECABQQhqIAAQjQgACzoBAX8jAEEgayIAJAAgAEEANgIYIABBATYCDCAAQdycwgA2AgggAEIENwIQIABBCGpB5JzCABCNCAALNwEBfyMAQSBrIgEkACABQQA2AhggAUEBNgIMIAFBlIfDADYCCCABQgQ3AhAgAUEIaiAAEI0IAAs3AQF/IwBBIGsiASQAIAFBADYCGCABQQE2AgwgAUHYh8MANgIIIAFCBDcCECABQQhqIAAQjQgAC/ADAQV/IwBBEGsiByQAENoEIgYgASYBENoEIgggAiYBIAYhCSMAQaABayIGJAAgA0EARyEKAkAgBUUEQCAGQdgAaiAAIAkgCCAKIAMQOyAGKAJcIQAgBigCWCIDQYCAgIB4RgRAQQEhAwwCCyAGQcgAaiAGQZABav0AAgD9CwIAIAZBOGogBkGAAWr9AAIA/QsCACAGQShqIAZB8ABq/QACAP0LAgAgBiAG/QACYP0LAhggBiAANgIUIAYgAzYCECAGQRBqIgUgBBAuIAYgBRCDBSAGKAIEIQAgBigCACEDIAUQ9QIMAQsgBkHYAGogACAJIAggCiADEDsgBigCXCEAIAYoAlgiA0GAgICAeEYEQCAFQYQITwRAIAUQmwcLQQEhAwwBCyAGQcgAaiAGQZABav0AAgD9CwIAIAZBOGogBkGAAWr9AAIA/QsCACAGQShqIAZB8ABq/QACAP0LAgAgBiAG/QACYP0LAhggBiAANgIUIAYgAzYCECAAIAYoAhggBRCtAyAGQRBqIgUgBBAuIAZBCGogBRCDBSAGKAIMIQAgBigCCCEDIAUQ9QILIAcgA0EBcSIDNgIIIAcgAEEAIAMbNgIEIAdBACAAIAMbNgIAIAZBoAFqJAAgBygCACAHKAIEIAcoAgggB0EQaiQAC4cDAQV/IwBBEGsiByQAENoEIgkgASYBIAAhChDaBCIAIAUmASAEIQgjAEHgAWsiBiQAIAJBAEchBAJAIAhFBEAgBkH4AGogCiAJIAQgAiAAEGcgBigCfCEEIAYoAngiAEGAgICAeEYEQEEBIQIMAgsgBkEYaiAGQYABakHgAPwKAAAgBiAENgIUIAYgADYCECAGQRBqIgAgAxAtIAYgABD7AyAGKAIEIQQgBigCACECIAAQ9gIMAQsgBkH4AGogCiAJIAQgAiAAEGcgBigCfCEEIAYoAngiAEGAgICAeEYEQCAIQYQITwRAIAgQmwcLQQEhAgwBCyAGQRhqIAZBgAFqQeAA/AoAACAGIAQ2AhQgBiAANgIQIAZBEGoiACAIEMQCIAAgAxAtIAZBCGogABD7AyAGKAIMIQQgBigCCCECIAAQ9gILIAcgAkEBcSIANgIIIAcgBEEAIAAbNgIEIAdBACAEIAAbNgIAIAZB4AFqJAAgBygCACAHKAIEIAcoAgggB0EQaiQAC8ECAQR/IwBBEGsiASQAQdy2yQAtAABBA0cEQCABQQE6AA8gAUEPaiECIwBBIGsiACQAAkACQAJAAkACQAJAAkACQAJAQdy2yQAtAABBAWsOAwQDAQALQdy2yQBBAjoAACACLQAAIAJBADoAAEUNBEGUu8kAKAIAQf////8HcQRAQYy7yQAoAgANBgtBmLvJACgCAA0BQdy2yQBBAzoAAEGcu8kAQQE2AgALIABBIGokAAwGCwALIABBADYCGCAAQQE2AgwgAEGYg8gANgIIDAMLIABBADYCGCAAQQE2AgwgAEGUisEANgIIDAILQZyKwQAQ3QkACyAAQQA2AhggAEEBNgIMIABB0IbIADYCCCAAQgQ3AhAgAEEIakHYhsgAEI0IAAsgAEIENwIQIABBCGpB0OrAABCNCAALCyABQRBqJAALLgACQCADaUEBRyABQYCAgIB4IANrS3JFBEAgACABIAMgAhC7AiIADQELAAsgAAvzCgIJfwJ+IwBBEGsiCSQAENoEIgogBCYBIAMhCCMAQeACayIFJABBgICAgHghAwJAIABFBEBBgICAgHghAQwBCyAArSABrUIghoQhDgsgAgRAIAKtIAitQiCGhCEPIAghAwsgD6chCEEGIQcCQAJAAkACQAJAIAkCfwJAAkACQAJAIAFBgICAgHhGDQAgBUEUaiAOpyIAIA5CIIinEJEFIAUtABRBAUYEQCAFKAIYIQYgBUEANgL8ASAFQoCAgIAQNwL0ASAFQZyTwQA2AoQCIAVCoICAgA43AogCIAUgBUH0AWo2AoACIAYgBUGAAmoQrwQNAiAFKAL0ASEHIAUoAvgBIgsgBSgC/AEQ7AghAiAHBEAgC0EEaygCACIMQXhxIg1BBEEIIAxBA3EiDBsgB2pJDQkgDEEAIA0gB0EnaksbDQogCxCiAgsgBiAGKAIAKAIAEQMAIAEEQCAAQQRrKAIAIgZBeHEiB0EEQQggBkEDcSIGGyABakkNCSAGQQAgByABQSdqSxsNCiAAEKICCyAKQYQISQ0EIAoQmwcMBAsgBS0AFSEHIAFFDQAgAEEEaygCACICQXhxIgZBBEEIIAJBA3EiAhsgAWpJDQcgAkEAIAYgAUEnaksbDQggABCiAgtBAiEBIAoQuQoiDEUEQCAFQYACaiAKELUBIAUoAoACIQIgBS0AnAIiAUECRg0DIAVBMGogBUGUAmopAgA3AwAgBUEeaiAFQZ8Cai0AADoAACAFIAX9AAKEAv0LAyAgBSAFLwCdAjsBHAsgBUGTAWogBUEeai0AADoAACAFQYgBaiAFQTBqKQMANwIAIAUgBS8BHDsAkQEgBSACNgJ0IAVBADYCcCAFQoCAgIAQNwJoIAVCATcCYCAFQgA3AlggBUKAgICAEDcCUCAFQgQ3AkggBUIANwJAIAVCgICAgMAANwI4IAUgBf0AAyD9CwJ4IAVBADYClAEgBSABOgCQAQJ/IAdBBkcEQCAFQQhqIAcgBUE4ahDZAyAFKAIMIQYgBSgCCCELQYCAgIB4DAELIAVBgAJqIAVBPGpB3AD8CgAAQQALIQ1BgICAgHghASADQYCAgIB4RwRAIA9CIIinIQFBASECIA9CgICAgBBaBEAgARBxIgJFDQcLIAEEQCACIAggAfwKAAALIAKtIA9CgICAgHCDhCEOCyAFQZgBaiICIAVBgAJqQdwA/AoAAEGQARBxIgBFDQUgACANNgIYIAAgDjcCECAAIAE2AgwgAEEANgIIIABCgICAgBA3AgAgAEEcaiACQdwA/AoAACAAIAc6AIwBIAAgBjYCiAEgACALNgKEASAAQYCAgIB4NgJ4IAxFIApBhAhJcg0BIAoQmwcMAQtBoJ7GAEE3IAVB3wJqQbSTwQBB2J7GABDgBgALAkAgA0GAgICAeHJBgICAgHhHBEAgCEEEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgA2pJDQYgAUEAIAIgA0EnaksbDQEgCBCiAgtBHBBxIgFFDQQgAUGg78AANgIYIAFBATYCFCABQYjvwAA2AhAgASAANgIMIAFBADYCCCABQoGAgIAQNwIAIAFBCGohAkEADAILDAULIANBgICAgHhyQYCAgIB4RwRAIAhBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIANqSQ0EIABBACABIANBJ2pLGw0CIAgQogILQQELIgA2AgggCSACQQAgABs2AgQgCUEAIAIgABs2AgAgBUHgAmokAAwEC0GMjcgAQS5BvI3IABDrBwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgCSgCACAJKAIEIAkoAgggCUEQaiQACzcBAX9BASEAIAEoAgAiAkGlgcIAQQMgASgCBCgCDCIBEQAABH8gAAUgAkH7gcIAQQcgAREAAAsL9wEBBH8jAEEQayIFJAAQ2gQiBiABJgEQ2gQiBCADJgEgAiEHIAQhAiMAQdAAayIEJAACQCAHRQRAIARBCGogACAGQQBBACACEGkMAQsgBEEIaiAAIAZBASAHIAIQaQsCQAJAIAUCfyAEKAIIQYCAgIB4RgRAIAQoAgwhAEEBDAELQdQAEHEiAEUNASAAQQA2AgggAEKBgICAEDcCACAAQQxqIARBCGpByAD8CgAAIABBCGohAEEACyICNgIIIAUgAEEAIAIbNgIEIAVBACAAIAIbNgIAIARB0ABqJAAMAQsACyAFKAIAIAUoAgQgBSgCCCAFQRBqJAAL9QEBBH8jAEEQayIFJAAQ2gQiBCABJgEQ2gQiBiACJgEgBCEHIwBB0ABrIgQkAAJAIANFBEAgBEEIaiAAIAcgBkEAQQAQOwwBCyAEQQhqIAAgByAGQQEgAxA7CwJAAkACfyAEKAIIQYCAgIB4RgRAQQEhACAEKAIMDAELQdQAEHEiA0UNAUEAIQAgA0EANgIIIANCgYCAgBA3AgAgA0EMaiAEQQhqQcgA/AoAACADQQhqCyEDIAUgADYCCCAFIANBACAAGzYCBCAFQQAgAyAAGzYCACAEQdAAaiQADAELAAsgBSgCACAFKAIEIAUoAgggBUEQaiQAC5oLAgh/An4jAEEQayIIJAAgAiEHIwBB4AFrIgQkAEGAgICAeCECAkAgAEUEQEGAgICAeCEBDAELIACtIAGtQiCGhCEMCyAHBEAgB60gA61CIIaEIQ0gAyECC0GAgICAeCEDIA2nIQcCQAJAAkAgCAJ/AkACQAJAAkACQAJAIAFBgICAgHhHBEAgBEEQaiAMpyIAIAxCIIinEJEFIAQtABBBAUYEQCAEKAIUIQUgBEEANgKcASAEQoCAgIAQNwKUASAEQZyTwQA2AqQBIARCoICAgA43AqgBIAQgBEGUAWo2AqABIAUgBEGgAWoQrwQNBCAEKAKUASEGIAQoApgBIgogBCgCnAEQ7AghAyAGBEAgCkEEaygCACIJQXhxIgtBBEEIIAlBA3EiCRsgBmpJDQogCUEAIAsgBkEnaksbDQsgChCiAgsgBSAFKAIAKAIAEQMAIAEEQCAAQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyABakkNCiAFQQAgBiABQSdqSxsNCyAAEKICCyACQYCAgIB4ckGAgICAeEYNByAHQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyACakkNCSAAQQAgASACQSdqSxsNCiAHEKICQQEMCAsgBC0AESEFIAEEQCAAQQRrKAIAIgNBeHEiBkEEQQggA0EDcSIDGyABakkNCSADQQAgBiABQSdqSxsNBSAAEKICCyAEQoCAgIAgNwJIIARCAjcCQCAEQgA3AjggBEKAgICAIDcCMCAEQgQ3AiggBEIANwIgIARCgICAgMAANwIYIARCADcCUCAEQQhqIAUgBEEYahDgAkGAgICAeCEGIAQoAgwhCSAEKAIIIQpBgICAgHghAyACQYCAgIB4Rw0BDAILIARBLGoiAEIANwIAIARBPGoiAUKAgICAIDcCACAEQcwAakICNwIAIARCgICAgMAANwIkIARCBDcCHCAEQQA2AlQgBEICNwI0IARCADcCRCAEQdgBakEANgIAIARB0AFqQgI3AwAgBEHAAWogAf0AAgD9CwMAIARBsAFqIAD9AAIA/QsDACAEIAT9AAIc/QsDoAFBBiEFIAJBgICAgHhGDQELIA1CIIinIQNBASEBIA1CgICAgBBaBEAgAxBxIgFFDQQLIAMEQCABIAcgA/wKAAALIAGtIA1CgICAgHCDhCEMCyAEQZABaiIBIARB2AFqKAIANgIAIARBiAFqIARB0AFqKQMANwMAIARB+ABqIARBwAFq/QADAP0LAwAgBEHoAGogBEGwAWr9AAMA/QsDACAEIAT9AAOgAf0LA1hB8AAQcSIARQ0CIAAgBjYCGCAAIAw3AhAgACADNgIMIABBADYCCCAAQoCAgIAQNwIAIAAgBCkDWDcCHCAAIAU6AGwgACAJNgJoIAAgCjYCZCAAQYCAgIB4NgJYIABBJGogBEHgAGr9AAMA/QsCACAAQTRqIARB8ABq/QADAP0LAgAgAEHEAGogBEGAAWr9AAMA/QsCACAAQdQAaiABKAIANgIAIAJBgICAgHhyQYCAgIB4RwRAIAdBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0GIAFBACADIAJBJ2pLGw0HIAcQogILQRwQcSICRQ0CIAJB2O/AADYCGCACQQE2AhQgAkHA78AANgIQIAIgADYCDCACQQA2AgggAkKBgICAEDcCACACQQhqIQNBAAwEC0GgnsYAQTcgBEHfAWpBtJPBAEHYnsYAEOAGAAtBjI3IAEEuQbyNyAAQ6wcLAAtBAQsiATYCCCAIIANBACABGzYCBCAIQQAgAyABGzYCACAEQeABaiQADAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAIKAIAIAgoAgQgCCgCCCAIQRBqJAAL9wEBBH8jAEEQayIFJAAQ2gQiBiABJgEQ2gQiBCADJgEgAiEHIAQhAiMAQfAAayIEJAACQCAHRQRAIARBCGogACAGQQBBACACEGcMAQsgBEEIaiAAIAZBASAHIAIQZwsCQAJAIAUCfyAEKAIIQYCAgIB4RgRAIAQoAgwhAEEBDAELQfQAEHEiAEUNASAAQQA2AgggAEKBgICAEDcCACAAQQxqIARBCGpB6AD8CgAAIABBCGohAEEACyICNgIIIAUgAEEAIAIbNgIEIAVBACAAIAIbNgIAIARB8ABqJAAMAQsACyAFKAIAIAUoAgQgBSgCCCAFQRBqJAAL/AECAn8BfiMAQRBrIgIkACACQQE7AQwgAiABNgIIIAIgADYCBCMAQRBrIgEkACACQQRqIgApAgAhBCABIAA2AgwgASAENwIEIwBBEGsiACQAIAFBBGoiASgCACICKAIMIQMCQAJAAkACQCACKAIEDgIAAQILIAMNAUEBIQJBACEDDAILIAMNACACKAIAIgIoAgQhAyACKAIAIQIMAQsgAEGAgICAeDYCACAAIAE2AgwgAEGAhsgAIAEoAgQgASgCCCIALQAIIAAtAAkQkgYACyAAIAM2AgQgACACNgIAIABB5IXIACABKAIEIAEoAggiAC0ACCAALQAJEJIGAAsnACACIARGBEAgBARAIAMgASAE/AoAAAsPCyAEIAJB/JrFABDeCQALJgEBfyMAQRBrIgIkACABKAIEGiAAQYj7xwAgARDBAyACQRBqJAALMwAgASgCACAAKAIAKAIAQQJ0IgBB2LDJAGooAgAgAEG0sMkAaigCACABKAIEKAIMEQAAC+AFAQt/IwBBEGsiBSQAENoEIgYgASYBIwBBsANrIgIkAAJAAkACQAJAAkACQCAABEAgAEEIayIHIAcoAgBBAWoiAzYCACADRQ0BIAAoAgAiBEH/////B08NAiAAIARBAWo2AgBBAiEDAkAgBhC5CiIKRQRAIAJB5AFqIAYQtQEgAigC5AEhBCACLQCAAiIDQQJGBEBBASEDDAILIAJBIGogAkH4AWopAgA3AwAgAkEOaiACQYMCai0AADoAACACIAL9AALoAf0LAxAgAiACLwCBAjsBDAsgAkHwAWogAkEYav0AAwD9CwIAIAJBgwJqIAJBDmotAAA6AAAgAiAENgLkASACIAIpAxA3AugBIAIgAzoAgAIgAiACLwEMOwCBAiACQShqIABBBGpBACACQeQBaiIEEIQBAkAgAigCKEECRgRAIAIoAiwhAyACQQA2AqgDIAJCgICAgBA3AqADIAJBnJPBADYC6AEgAkKggICADjcC7AEgAiACQaADajYC5AEgAyAEEK8EDQYgAigCoAMhCCACKAKkAyILIAIoAqgDEOwIIQQgCARAIAtBBGsoAgAiCUF4cSIMQQRBCCAJQQNxIgkbIAhqSQ0IIAlBACAMIAhBJ2pLGw0JIAsQogILIAMgAygCACgCABEDAEEBIQMgBkGECEkNAiAKDQEMAgsgAkHkAWoiAyACQShqQbwB/AoAACADENIBIQRBACEDIApFIAZBhAhJcg0BCyAGEJsHCyAAIAAoAgBBAWs2AgAgByAHKAIAQQFrIgA2AgAgAEUEQCAHEOMGCyAFIAM2AgggBSAEQQAgAxs2AgQgBUEAIAQgAxs2AgAgAkGwA2okAAwGCxCOCgsACxCQCgALQaCexgBBNyACQa8DakG0k8EAQdiexgAQ4AYAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgBSgCACAFKAIEIAUoAgggBUEQaiQAC+AFAQt/IwBBEGsiBSQAENoEIgYgASYBIwBBsANrIgIkAAJAAkACQAJAAkACQCAABEAgAEEIayIHIAcoAgBBAWoiAzYCACADRQ0BIAAoAgAiBEH/////B08NAiAAIARBAWo2AgBBAiEDAkAgBhC5CiIKRQRAIAJB5AFqIAYQtQEgAigC5AEhBCACLQCAAiIDQQJGBEBBASEDDAILIAJBIGogAkH4AWopAgA3AwAgAkEOaiACQYMCai0AADoAACACIAL9AALoAf0LAxAgAiACLwCBAjsBDAsgAkHwAWogAkEYav0AAwD9CwIAIAJBgwJqIAJBDmotAAA6AAAgAiAENgLkASACIAIpAxA3AugBIAIgAzoAgAIgAiACLwEMOwCBAiACQShqIABBBGpBASACQeQBaiIEEIQBAkAgAigCKEECRgRAIAIoAiwhAyACQQA2AqgDIAJCgICAgBA3AqADIAJBnJPBADYC6AEgAkKggICADjcC7AEgAiACQaADajYC5AEgAyAEEK8EDQYgAigCoAMhCCACKAKkAyILIAIoAqgDEOwIIQQgCARAIAtBBGsoAgAiCUF4cSIMQQRBCCAJQQNxIgkbIAhqSQ0IIAlBACAMIAhBJ2pLGw0JIAsQogILIAMgAygCACgCABEDAEEBIQMgBkGECEkNAiAKDQEMAgsgAkHkAWoiAyACQShqQbwB/AoAACADENIBIQRBACEDIApFIAZBhAhJcg0BCyAGEJsHCyAAIAAoAgBBAWs2AgAgByAHKAIAQQFrIgA2AgAgAEUEQCAHEOMGCyAFIAM2AgggBSAEQQAgAxs2AgQgBUEAIAQgAxs2AgAgAkGwA2okAAwGCxCOCgsACxCQCgALQaCexgBBNyACQa8DakG0k8EAQdiexgAQ4AYAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgBSgCACAFKAIEIAUoAgggBUEQaiQAC58RAwx/A34CfSMAQRBrIg0kACMAQSBrIgQkAEGwtckAKAIARQRAEFYLAkACQAJAAkACfwJAAkBBuLXJACgCAEUEQEG4tckAQX82AgACQAJAQcy1yQAoAgBFDQBBxLXJACgCACIJQdi1yQApAwAiDiAArYUiD0I4hiAPQoD+A4NCKIaEIA9CgID8B4NCGIYgD0KAgID4D4NCCIaEhCAOQgiIQoCAgPgPgyAOQhiIQoCA/AeDhCAOQiiIQoD+A4MgDkI4iISEhELSgaqbq/qC16d/fiIOQjiGIA5CgP4Dg0IohoQgDkKAgPwHg0IYhiAOQoCAgPgPg0IIhoSEIA5CCIhCgICA+A+DIA5CGIhCgID8B4OEIA5CKIhCgP4DgyAOQjiIhISEIA9C2KLR78Kp5b8tfoUiEEI4hiAQQoD+A4NCKIaEIBBCgID8B4NCGIYgEEKAgID4D4NCCIaEhCAQQgiIQoCAgPgPgyAQQhiIQoCA/AeDhCAQQiiIQoD+A4MgEEI4iISEhEHQtckAKQMAIg5Cf4V+Ig9COIYgD0KA/gODQiiGhCAPQoCA/AeDQhiGIA9CgICA+A+DQgiGhIQgD0IIiEKAgID4D4MgD0IYiEKAgPwHg4QgD0IoiEKA/gODIA9COIiEhIQgECAOQjiGIA5CgP4Dg0IohoQgDkKAgPwHg0IYhiAOQoCAgPgPg0IIhoSEIA5CCIhCgICA+A+DIA5CGIhCgID8B4OEIA5CKIhCgP4DgyAOQjiIhISEfoUgEIkiD6dxIQMgD0IZiEL/AINCgYKEiJCgwIABfiEOQcC1yQAoAgAiBkEgayECA0AgAyAGaikAACIQIA6FIg9Cf4UgD0KBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIPUEUEQANAIAAgAiAPeqdBA3YgA2ogCXEiBUEFdGsoAgBGDQQgD0IBfSAPgyIPUEUNAAsLIBAgEEIBhoNCgIGChIiQoMCAf4NQRQ0BIAMgCEEIaiIIaiAJcSEDDAALAAtBiPTAABDdCQALIAZBACAFa0EFdGpBBGsoAgAiCigCCCIAQf////8HTw0BIAogAEEBajYCCCAKKAIUBEAgCigCEEEKai8BACIAQf//AXFFBEAgAEEQdAwFCyAAQf8HcSECIABBgIACcSEFIABBgPgBcSIAQYD4AUYEQCAFQRB0IgBBgICA/AdyIAJFDQUaIAAgAkENdHJBgICA/gdyDAULIAVBEHQhBSAARQ0DIABBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAFcgwEC0EAQQBBmPTAABCMBwwEC0GsisEAELAKAAtB8PTAABCxCgALIAIgAmdBEGsiAEH//wNxQQhqdEH///8DcSAFQYCAgNgDciAAQRd0a3ILQwAAoD8hEUMAAKA/QwAAgD8gASABQR91IgBzIABrIgJBAXEbIRIgAkECTwRAA0AgEiARIBGUIhGUIBIgAkECcRshEiACQQNLIAJBAXYhAg0ACwtBBBBxIgVFDQC+QwAAgD8gEpUgEiABQQBIG5UhESAFQQA2AgAgBEEANgIQIARCgICAgMAANwIIQQQhC0EBIQhBASEDAkADQCAEQQA2AhwgBEKAgICAwAA3AhQgBSADQQJ0aiEGIAUhAANAIAAoAgAiByAKKAIUIgFPBEAgByABQcD0wAAQjAcACwJAIBECfyAKKAIQIAdBBHRqIglBCmovAQAiAUH//wFxRQRAIAFBEHQMAQsgAUH/B3EhAyABQYCAAnEhAiABQYD4AXEiAUGA+AFGBEAgAkEQdCIBQYCAgPwHciADRQ0BGiABIANBDXRyQYCAgP4HcgwBCyACQRB0IgIgAUENdEGAgID8AHEgA0ENdHJBgICAwANqciABDQAaIAMgA2dBEGsiAUH//wNxQQhqdEH///8DcSACQYCAgNgDciABQRd0a3ILvmBFBEAgCSgCACIDIAMgCS8BDCIBak8NASAEKAIcIgJBAnQhBwNAIAQoAhQgAkYEQCAEQRRqQdD0wAAQ+gULIAQoAhggB2ogAzYCACAEIAJBAWoiAjYCHCADQQFqIQMgB0EEaiEHIAFBAWsiAQ0ACwwBCyAEKAIIIAxGBEAgBEEIakHg9MAAEPoFIAQoAgwhCwsgCyAMQQJ0aiAHNgIAIAQgDEEBaiIMNgIQCyAAQQRqIgAgBkcNAAsCQCAIBEAgBUEEaygCACIAQXhxIgIgCEECdCIBQQRBCCAAQQNxIgAbakkNASAAQQAgAiABQSdqSxsNBiAFEKICCyAEKAIYIQUgBCgCFCEIIAQoAhwiA0UNAgwBCwsMAgsgDBC2CSELIAQoAgwhACAEKAIIIQkgDARAIAxBAnQhB0EAIQMgACECA0AgCyUBIAMgAigCABAaIANBAWohAyACQQRqIQIgB0EEayIHDQALCyAJBEAgAEEEaygCACIBQXhxIgYgCUECdCICQQRBCCABQQNxIgEbakkNAiABQQAgBiACQSdqSxsNAyAAEKICCxC/CSIGQaj0wABBBxDsCCIAIAsQwAkCQEG0u8kALQAARQRAQbi7yQBBADYCAEG0u8kAQQA6AAAgC0GECE8EQCALEJsHCyAAQYQITwRAIAAQmwcLIAgEQCAFQQRrKAIAIgBBeHEiAiAIQQJ0IgFBBEEIIABBA3EiABtqSQ0EIABBACACIAFBJ2pLGw0CIAUQogILIAogCigCCEEBazYCCCANQgA3AgQgDSAGNgIAQbi1yQBBuLXJACgCAEEBajYCACAEQSBqJAAMBQtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgBCAANgIUQdjmyABBKyAEQRRqQdjowABBsPTAABDgBgALDAILAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIA0oAgAgDSgCBCANKAIIIA1BEGokAAuWCQILfwF7IwBBEGsiCCQAENoEIgsgASYBIAAhBiMAQUBqIgQkAEGwtckAKAIARQRAEFYLAkACQAJAAkACQEG4tckAKAIARQRAQbi1yQBBfzYCACAGQf////8ASw0BIAZBBHQiAEH9////B08NAUGgtskAKAIAIQwCQAJAIABFBEBBBCEADAELIAYhBSAAEHEiAEUNAQtBGBBxIglFDQAgBkEQdiAGQf//A3FBAEdqIQMgCUEANgIUIAkgADYCECAJIAU2AgwgCUEANgIIIAlCgYCAgBA3AgAgBkUEQEEEIQpBBCEHDAcLIANBAnQiBxBxIgpFDQACQCADQQRPBED9DAAAAAABAAAAAgAAAAMAAAAhDSAKIQAgA0H8P3EiAiEFA0AgACAN/QsCACAAQRBqIQAgDf0MBAAAAAQAAAAEAAAABAAAAP2uASENIAVBBGsiBQ0ACyACIANGDQELIAogAkECdGohAANAIAAgAjYCACAAQQRqIQAgAyACQQFqIgJHDQALIAcQcSIHRQ0BQQAhAiADQQRJDQUMBAsgBxBxIgcNAwsAC0GsisEAELAKAAtByPLAABD/BwAL/QwAAAAAAQAAAAIAAAADAAAAIQ0gByEAIANB/D9xIgIhBQNAIAAgDf0LAgAgAEEQaiEAIA39DAQAAAAEAAAABAAAAAQAAAD9rgEhDSAFQQRrIgUNAAsgAiADRg0BCyAHIAJBAnRqIQADQCAAIAI2AgAgAEEEaiEAIAMgAkEBaiICRw0ACwsgAyECCyAEIAM2AjggBCAHNgI0IAQgAzYCMCAEIAM2AiwgBCAKNgIoIAQgAjYCJCAEIAk2AjwgBEEIaiAMIARBJGoQnwICQAJAAkACQAJAAkACQCAEKAIIIgBBgICAgHhGDQAgBCgCICICIAIoAgBBAWsiAzYCACADRQRAIAIQ0gULIAAEQCAEKAIMIgJBBGsoAgAiA0F4cSIFIABBAnQiAEEEQQggA0EDcSIDG2pJDQIgA0EAIAUgAEEnaksbDQMgAhCiAgsgBCgCFCIARQ0AIAQoAhgiAkEEaygCACIDQXhxIgUgAEECdCIAQQRBCCADQQNxIgMbakkNAyADQQAgBSAAQSdqSxsNBCACEKICC0GgtskAQaC2yQAoAgBBAWo2AgAgDEEAIAYgCxDTARC/CSICQbDywABBBRDsCCIAIAy4ELcJIgYQwAlBtLvJAC0AAA0EQbi7yQBBADYCAEG0u8kAQQA6AAAgBkGECE8EQCAGEJsHCyAAQYQITwRAIAAQmwcLQbi1yQBBuLXJACgCAEEBajYCACALQYQITwRAIAsQmwcLIAhCADcCBCAIIAI2AgAgBEFAayQADAULQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgBCAANgIkQdjmyABBKyAEQSRqQdjowABB2PLAABDgBgALIAgoAgAgCCgCBCAIKAIIIAhBEGokAAvLAwEDfyMAQRBrIgMkAEEIIQQCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkBBFSAAKAIAIgVBgICAgHhzIAVBAE4bQQFrDhUBAgMEBQYHCAkKCwwNDg8UFBAREhMACyADIAAtAAQ6AAEgA0EAOgAADBYLIAMgADEABDcDCAwTCyADIAAzAQQ3AwgMEgsgAyAANQIENwMIDBELIAMgACkDCDcDCAwQCyADIAAwAAQ3AwgMEAsgAyAAMgEENwMIDA8LIAMgADQCBDcDCAwOCyADIAApAwg3AwgMDQsgAyAAKgIEuzkDCCADQQM6AAAMDQsgAyAAKwMIOQMIIANBAzoAAAwMCyADIAAoAgQ2AgQgA0EEOgAADAsLIAMgACkDCDcCBCADQQU6AAAMCgsgAyAAKQIENwIEIANBBToAAAwJCyADIAApAwg3AgQgA0EGOgAADAgLIAMgACkCBDcCBCADQQY6AAAMBwsgA0EHOgAADAYLIANBCToAAAwFCyADQQo6AAAMBAtBCyEECyADIAQ6AAAMAgsgA0EBOgAADAELIANBAjoAAAsgAyABIAIQ3wYgA0EQaiQACy8AIAEoAgAgAC0AAEEEakH/AXFBAnQiACgCgO1BIAAoAuTsQSABKAIEKAIMEQAACy8AIAEoAgAgAC0AAEEBa0H/AXFBAnQiACgCwItJIAAoAviKSSABKAIEKAIMEQAACy8AIAEoAgAgAC0AAEEBa0H/AXFBAnQiACgC4IxJIAAoAoiMSSABKAIEKAIMEQAACy8AIAEoAgAgAC0AAEEBa0H/AXFBAnQiACgCgJpJIAAoAriZSSABKAIEKAIMEQAACy8AIAEoAgAgAC0AAEEBa0H/AXFBAnQiACgCoJtJIAAoAsiaSSABKAIEKAIMEQAACy8AIAEoAgAgAC0AAEEEakH/AXFBAnQiACgCwKFJIAAoAqShSSABKAIEKAIMEQAAC+0DAQp/IwBBEGsiAyQAIwBBoANrIgEkAAJAAkACQAJAAkACQCAABEAgAEEIayIEIAQoAgBBAWoiAjYCACACRQ0BIAAoAgAiAkH/////B08NAiAAIAJBAWo2AgAgAUEIaiAAQQRqQQAQdgJ/IAEoAggiCUECRgRAIAEoAgwhAiABQQA2ApgDIAFCgICAgBA3ApADIAFBnJPBADYC0AEgAUKggICADjcC1AEgASABQZADajYCzAEgAiABQcwBahCvBA0FIAEoApADIQUgASgClAMiCCABKAKYAxDsCCEHIAUEQCAIQQRrKAIAIgZBeHEiCkEEQQggBkEDcSIGGyAFakkNByAGQQAgCiAFQSdqSxsNCCAIEKICCyACIAIoAgAoAgARAwBBAAwBCyABQcwBaiICIAFBCGpBxAH8CgAAIAIQ0QELIQIgACAAKAIAQQFrNgIAIAQgBCgCAEEBayIANgIAIABFBEAgBBDkBgsgAyAHNgIEIAMgAjYCACADIAlBAkY2AgggAUGgA2okAAwGCxCOCgsACxCQCgALQaCexgBBNyABQZ8DakG0k8EAQdiexgAQ4AYAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgAygCACADKAIEIAMoAgggA0EQaiQAC5oFAQp/IwBBEGsiAyQAIwBBsANrIgEkAAJAAkACQAJAAkACQCAABEAgAEEIayIFIAUoAgBBAWoiAjYCACACRQ0BIAAoAgAiAkH/////B08NAiAAIAJBAWo2AgAgAC0AXCICQQJHBEAgAUEgaiAAQdgAaigCADYCACABQRhqIABB0ABqKQIANwMAIAFBBmogAEHfAGotAAA6AAAgASAA/QACQP0LAwggASAALwBdOwEECyABQfgBaiABQSBqKAIANgIAIAFB8AFqIAFBGGopAwA3AwAgAUH/AWogAUEGai0AADoAACABIAH9AAMI/QsD4AEgASACOgD8ASABIAEvAQQ7AP0BIAFBJGogAEEEakEAIAFB4AFqIgQQcgJ/IAEoAiQiCUECRgRAIAEoAighAiABQQA2AqgDIAFCgICAgBA3AqADIAFBnJPBADYC5AEgAUKggICADjcC6AEgASABQaADajYC4AEgAiAEEK8EDQUgASgCoAMhBCABKAKkAyIIIAEoAqgDEOwIIQcgBARAIAhBBGsoAgAiBkF4cSIKQQRBCCAGQQNxIgYbIARqSQ0HIAZBACAKIARBJ2pLGw0IIAgQogILIAIgAigCACgCABEDAEEADAELIAFB4AFqIgIgAUEkakG8AfwKAAAgAhDSAQshAiAAIAAoAgBBAWs2AgAgBSAFKAIAQQFrIgA2AgAgAEUEQCAFEOQGCyADIAc2AgQgAyACNgIAIAMgCUECRjYCCCABQbADaiQADAYLEI4KCwALEJAKAAtBoJ7GAEE3IAFBrwNqQbSTwQBB2J7GABDgBgALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyADKAIAIAMoAgQgAygCCCADQRBqJAAL7QMBCn8jAEEQayIDJAAjAEGgA2siASQAAkACQAJAAkACQAJAIAAEQCAAQQhrIgQgBCgCAEEBaiICNgIAIAJFDQEgACgCACICQf////8HTw0CIAAgAkEBajYCACABQQhqIABBBGpBARB2An8gASgCCCIJQQJGBEAgASgCDCECIAFBADYCmAMgAUKAgICAEDcCkAMgAUGck8EANgLQASABQqCAgIAONwLUASABIAFBkANqNgLMASACIAFBzAFqEK8EDQUgASgCkAMhBSABKAKUAyIIIAEoApgDEOwIIQcgBQRAIAhBBGsoAgAiBkF4cSIKQQRBCCAGQQNxIgYbIAVqSQ0HIAZBACAKIAVBJ2pLGw0IIAgQogILIAIgAigCACgCABEDAEEADAELIAFBzAFqIgIgAUEIakHEAfwKAAAgAhDRAQshAiAAIAAoAgBBAWs2AgAgBCAEKAIAQQFrIgA2AgAgAEUEQCAEEOQGCyADIAc2AgQgAyACNgIAIAMgCUECRjYCCCABQaADaiQADAYLEI4KCwALEJAKAAtBoJ7GAEE3IAFBnwNqQbSTwQBB2J7GABDgBgALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyADKAIAIAMoAgQgAygCCCADQRBqJAAL5AEBBX8jAEEQayIBJAAjAEEQayIDJAACQAJAAkAgAARAIABBCGsiBCAEKAIAQQFqIgI2AgAgAkUNASAAKAIAIgJB/////wdPDQIgACACQQFqNgIAIANBCGogAEEEahD7AyADKAIMIQIgAygCCCEFIAAgACgCAEEBazYCACAEIAQoAgBBAWsiADYCACAARQRAIAQQ5AYLIAEgBTYCCCABIAJBACAFQQFxIgAbNgIEIAFBACACIAAbNgIAIANBEGokAAwDCxCOCgsACxCQCgALIAEoAgAgASgCBCABKAIIIAFBEGokAAvuAwEKfyMAQRBrIgMkACMAQaADayIBJAACQAJAAkACQAJAAkAgAARAIABBCGsiBCAEKAIAQQFqIgI2AgAgAkUNASAAKAIAIgJB/////wdPDQIgACACQQFqNgIAIAFBCGogAEEEakEAEI8BAn8gASgCCCIJQQJGBEAgASgCDCECIAFBADYCmAMgAUKAgICAEDcCkAMgAUGck8EANgLQASABQqCAgIAONwLUASABIAFBkANqNgLMASACIAFBzAFqEK8EDQUgASgCkAMhBSABKAKUAyIIIAEoApgDEOwIIQcgBQRAIAhBBGsoAgAiBkF4cSIKQQRBCCAGQQNxIgYbIAVqSQ0HIAZBACAKIAVBJ2pLGw0IIAgQogILIAIgAigCACgCABEDAEEADAELIAFBzAFqIgIgAUEIakHEAfwKAAAgAhDRAQshAiAAIAAoAgBBAWs2AgAgBCAEKAIAQQFrIgA2AgAgAEUEQCAEEOMGCyADIAc2AgQgAyACNgIAIAMgCUECRjYCCCABQaADaiQADAYLEI4KCwALEJAKAAtBoJ7GAEE3IAFBnwNqQbSTwQBB2J7GABDgBgALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyADKAIAIAMoAgQgAygCCCADQRBqJAAL5AEBBX8jAEEQayIBJAAjAEEQayIDJAACQAJAAkAgAARAIABBCGsiBCAEKAIAQQFqIgI2AgAgAkUNASAAKAIAIgJB/////wdPDQIgACACQQFqNgIAIANBCGogAEEEahCDBSADKAIMIQIgAygCCCEFIAAgACgCAEEBazYCACAEIAQoAgBBAWsiADYCACAARQRAIAQQ4wYLIAEgBTYCCCABIAJBACAFQQFxIgAbNgIEIAFBACACIAAbNgIAIANBEGokAAwDCxCOCgsACxCQCgALIAEoAgAgASgCBCABKAIIIAFBEGokAAvuBQELfyMAQRBrIgckACMAQTBrIgEkAAJAAkACQAJAAkAgAARAIABBCGsiBSgCAEEBRw0BIAAoAhAhAyAAKAIMIQggACgCCCEEIAAoAgQhAiAFQQA2AgACQCAFQX9GDQAgAEEEayIGIAYoAgBBAWsiBjYCACAGDQAgAEEMaygCACIAQXhxIgZBIEEkIABBA3EiABtJDQQgAEEAIAZBxABPGw0FIAUQogILAkAgAiAEKAIUEQQAIgAEQCABQQA2AhggAUKAgICAEDcCECABQZyTwQA2AiAgAUKggICADjcCJCABIAFBEGo2AhwgACABQRxqEK8EDQQgASgCECEFIAEoAhQiCiABKAIYEOwIIQYgBQRAIApBBGsoAgAiCUF4cSILQQRBCCAJQQNxIgkbIAVqSQ0GIAlBACALIAVBJ2pLGw0HIAoQogILIAAgACgCACgCABEDACAEKAIAIgAEQCACIAARAwALIAQoAgQiAARAIAJBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIABqSQ0GIARBACAFIABBJ2pLGw0HIAIQogILIAMoAgAiAARAIAggABEDAAsgAygCBCIABEAgCEEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAGpJDQYgAkEAIAMgAEEnaksbDQcgCBCiAgtBASEADAELIAFBCGogCCACIAQgAygCDBEGACABKAIMIQYgASgCCCEAIAMoAgQiAkUNACAIQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyACakkNBCADQQAgBCACQSdqSxsNBSAIEKICCyAHIABBAXEiADYCCCAHIAZBACAAGzYCBCAHQQAgBiAAGzYCACABQTBqJAAMBQsQjgoAC0GM2sAAQT8QjwoAC0GgnsYAQTcgAUEvakG0k8EAQdiexgAQ4AYAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgBygCACAHKAIEIAcoAgggB0EQaiQAC4EMAgN+CH8jAEEQayIIJAAjAEFAaiIGJABBsLXJACgCAEUEQBBWCwJAAkACQAJAAkACQAJAAkACQAJAQbi1yQAoAgBFBEBBuLXJAEF/NgIAQcy1yQAoAgBFDQhBxLXJACgCACIHQdi1yQApAwAiASAArYUiAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCABQgiIQoCAgPgPgyABQhiIQoCA/AeDhCABQiiIQoD+A4MgAUI4iISEhELSgaqbq/qC16d/fiIBQjiGIAFCgP4Dg0IohoQgAUKAgPwHg0IYhiABQoCAgPgPg0IIhoSEIAFCCIhCgICA+A+DIAFCGIhCgID8B4OEIAFCKIhCgP4DgyABQjiIhISEIAJC2KLR78Kp5b8tfoUiAUI4hiABQoD+A4NCKIaEIAFCgID8B4NCGIYgAUKAgID4D4NCCIaEhCABQgiIQoCAgPgPgyABQhiIQoCA/AeDhCABQiiIQoD+A4MgAUI4iISEhEHQtckAKQMAIgJCf4V+IgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIQgASACQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEfoUgAYkiAadxIQQgAUIZiEL/AINCgYKEiJCgwIABfiEDQcC1yQAoAgAiCUEgayEKA0ACQCAEIAlqKQAAIgIgA4UiAUJ/hSABQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIgFQRQRAA0AgACAKIAF6p0EDdiAEaiAHcSILQQV0aygCAEYNAiABQgF9IAGDIgFQRQ0ACwsgAiACQgGGg0KAgYKEiJCgwIB/g1BFDQogBCAFQQhqIgVqIAdxIQQMAQsLIAlBACALa0EFdGoiBEEEayIHKAIAIgAgACgCAEEBaiIANgIAIABFDQEgBEEcaygCACIAQf////8DSw0CIABBAnQiBUH9////B08NAiAHKAIAIQoCQCAFRQRAQQQhBUEAIQAMAQsgBRBxIgVFDQILIARBEGsoAgAiBEH/////A0sNAyAEQQJ0IgdB/f///wdPDQMCQCAHRQRAQQQhB0EAIQQMAQsgBxBxIgdFDQILQaC2yQBBoLbJACgCACIJQQFqNgIAIAZBADYCOCAGIAc2AjQgBiAENgIwIAZBADYCLCAGIAU2AiggBiAANgIkIAYgCjYCPCAGQQhqIAkgBkEkahCfAgJAIAYoAggiAEGAgICAeEYNACAGKAIgIgQgBCgCAEEBayIFNgIAIAVFBEAgBBDSBQsgAARAIAYoAgwiBEEEaygCACIFQXhxIgcgAEECdCIAQQRBCCAFQQNxIgUbakkNBiAFQQAgByAAQSdqSxsNByAEEKICCyAGKAIUIgBFDQAgBigCGCIEQQRrKAIAIgVBeHEiByAAQQJ0IgBBBEEIIAVBA3EiBRtqSQ0HIAVBACAHIABBJ2pLGw0IIAQQogILEL8JIgVBsPLAAEEFEOwIIgAgCbgQtwkiBBDACUG0u8kALQAADQlBuLvJAEEANgIAQbS7yQBBADoAACAEQYQITwRAIAQQmwcLIABBhAhPBEAgABCbBwsgCEIANwIEIAggBTYCAEG4tckAQbi1yQAoAgBBAWo2AgAgBkFAayQADAoLQayKwQAQsAoLAAtB9PvAABD/BwALQYT8wAAQ/wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQeT7wAAQ3QkAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACAGIAA2AiRB2ObIAEErIAZBJGpB2OjAAEGU/MAAEOAGAAsgCCgCACAIKAIEIAgoAgggCEEQaiQAC7QGAQZ/IwBBEGsiBSQAIwBBQGoiAyQAQbC1yQAoAgBFBEAQVgsCQAJAAkACQAJAAkACQAJAQbi1yQAoAgBFBEBBuLXJAEF/NgIAIABB/////wBLDQEgAEEEdCIBQf3///8HTw0BQaC2yQAoAgAhBgJAIAFFBEBBBCEEDAELIAAhAiABEHEiBEUNAwtBGBBxIgFFDQIgAUEANgIUIAEgBDYCECABIAI2AgwgAUEANgIIIAFCgYCAgBA3AgACQCAARQRAQQQhBEEAIQBBBCECDAELIABB//8DakEQdiIAQQJ0IgIQcSIERQ0DIAIQcSICRQ0DCyADQQA2AjggAyACNgI0IAMgADYCMCADQQA2AiwgAyAENgIoIAMgADYCJCADIAE2AjwgA0EIaiAGIANBJGoQnwICQCADKAIIIgBBgICAgHhGDQAgAygCICICIAIoAgBBAWsiATYCACABRQRAIAIQ0gULIAAEQCADKAIMIgJBBGsoAgAiAUF4cSIEIABBAnQiAEEEQQggAUEDcSIBG2pJDQUgAUEAIAQgAEEnaksbDQYgAhCiAgsgAygCFCIARQ0AIAMoAhgiAkEEaygCACIBQXhxIgQgAEECdCIAQQRBCCABQQNxIgEbakkNBiABQQAgBCAAQSdqSxsNByACEKICC0GgtskAQaC2yQAoAgBBAWo2AgAQvwkiAUGw8sAAQQUQ7AgiACAGuBC3CSICEMAJQbS7yQAtAAANB0G4u8kAQQA2AgBBtLvJAEEAOgAAIAJBhAhPBEAgAhCbBwsgAEGECE8EQCAAEJsHCyAFQgA3AgQgBSABNgIAQbi1yQBBuLXJACgCAEEBajYCACADQUBrJAAMCAtBrIrBABCwCgALQaDywAAQ/wcLAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AiRB2ObIAEErIANBJGpB2OjAAEG48sAAEOAGAAsgBSgCACAFKAIEIAUoAgggBUEQaiQACyYAAkAgAARAIAAoAgBB/////wdPDQEgACgCaA8LEI4KAAsQkAoACyYAAkAgAARAIAAoAgBB/////wdPDQEgACgCZA8LEI4KAAsQkAoACyYAAkAgAARAIAAoAgBB/////wdPDQEgACgCSA8LEI4KAAsQkAoACyYAAkAgAARAIAAoAgBB/////wdPDQEgACgCRA8LEI4KAAsQkAoACykAIAAgAC0ABCABQS5GcjoABCAAKAIAIgAoAgAgASAAKAIEKAIQEQIACy4AIAEoAgBB68LHAEHgwscAIAAoAgAtAAAiABtBCUELIAAbIAEoAgQoAgwRAAALrAgBDn8jAEEQayIKJAAQ2gQiBiABJgEjAEEwayICJAACQAJAAkACQAJAAkACQAJAIAAiCQRAIABBCGsiCyALKAIAQQFqIgA2AgAgAEUNASAJKAIADQIgCUF/NgIAIAlBCGooAgAhDSAJKAIEIQ5BmLXJACgCAEUEQAJAQaS1yQAoAgAhB0GgtckAKAIAIQBBoLXJAEKAgICAEDcCAEGYtckAKAIAIQRBmLXJAEIBNwIAQai1yQBBADYCAAJAAkAgBEUgAEVyRQRAIAdBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIABqSQ0BIARBACAFIABBJ2pLGw0CIAcQogILDAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACwtBnLXJACgCAA0DQZy1yQBBfzYCAAJAQYCAwAAgBhC7CiIAIABBgIDAAE8bIgRBqLXJACgCACIATQRAQaS1yQAoAgAhBQwBCyAEIABrIgNBoLXJACgCACAAa0sEQEGgtckAIAAgA0EBQQEQpAVBqLXJACgCACEAC0GktckAKAIAIgUgAGohByADQQJPBH8gA0EBayIDBEAgB0EAIAP8CwALIAUgACADaiIAagUgBwtBADoAACAAQQFqIQQLQQAhAEGotckAIAQ2AgACQAJAAkADQCAAIgcgBhC7CiIPTw0BIAAgBCAGELsKIABrIgMgAyAESxsiCGohACAGJQEgByAAEBghARDaBCIDIAEmASADELsKIQwgAiAINgIIIAIgDDYCFCAIIAxHDQggBSAIIAMQ4wkgA0GECE8EQCADEJsHCyAOIAUgCCANKAIQEQAAIghFDQALIAJBADYCECACQoCAgIAQNwIIIAJBnJPBADYCHCACQqCAgIAONwIgIAIgAkEIajYCGCAIIAJBGGoQrwQNCCACKAIIIQAgAigCDCIEIAIoAhAQ7AghAyAABEAgBEEEaygCACIFQXhxIgxBBEEIIAVBA3EiBRsgAGpJDQogBUEAIAwgAEEnaksbDQsgBBCiAgsgCCAIKAIAKAIAEQMAQQEhAEGctckAQZy1yQAoAgBBAWo2AgAgBkGDCEsNAQwCC0EAIQBBnLXJAEGctckAKAIAQQFqNgIAIAZBhAhJDQELIAcgD0khACAGEJsHCyAJIAkoAgBBAWo2AgAgCyALKAIAQQFrIgY2AgAgBkUEQCALENcECyAKIAA2AgQgCiADQQAgABs2AgAgAkEwaiQADAgLEI4KCwALEJAKAAtBrIrBABCwCgALIAJBADYCGEEAIAJBFGogAkEIaiACQRhqQeD5xAAQ9QcAC0GgnsYAQTcgAkEUakG0k8EAQdiexgAQ4AYAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgCigCACAKKAIEIApBEGokAAshAAJAIAAEQCAAKAIADQEgACABNgJoDwsQjgoACxCQCgALIQACQCAABEAgACgCAA0BIAAgATYCZA8LEI4KAAsQkAoACyEAAkAgAARAIAAoAgANASAAIAE2AkgPCxCOCgALEJAKAAshAAJAIAAEQCAAKAIADQEgACABNgJEDwsQjgoACxCQCgALLAAgASgCACAAKAIALQAAaEECdCIAKAL0h0kgACgC4IdJIAEoAgQoAgwRAAALLAAgASgCACAAKAIALQAAaEECdCIAKAKEjkkgACgC8I1JIAEoAgQoAgwRAAALLgAgAEEcakEAIAEpAgBC2v2W/+no6PrBAIUgASkCCELW+4aRyMDiv/4AhYRQGwssACAAQRxqQQAgASkCAELtwsSbx9P/rT+FIAEpAghC/J7N1v6Dwrh+hYRQGwsuACAAQRxqQQAgASkCAELtuq22zYXU9eMAhSABKQIIQviCmb2V7sbFuX+FhFAbCywAIABBHGpBACABKQIAQvep0+7yobOVe4UgASkCCEKWuaPa9sSH1CeFhFAbCysAIAEoAgAgACgCAC0AAEECdCIAKALohkkgACgCqIZJIAEoAgQoAgwRAAALKQAgASgCACAALQAAaEECdCIAKAKciEkgACgCiIhJIAEoAgQoAgwRAAALKwAgASgCACAAKAIALQAAQQJ0IgAoAqiJSSAAKALoiEkgASgCBCgCDBEAAAslACAARQRAQa35xABBMhCPCgALIAAgAiADIAQgBSABKAIQEQ8ACysAIAEoAgAgACgCAC0AAEECdCIAKALUjUkgACgCuI1JIAEoAgQoAgwRAAALKwAgASgCACAAKAIALQAAQQJ0IgAoAtiOSSAAKAKYjkkgASgCBCgCDBEAAAsrACABKAIAIAAoAgAtAABBAnQiACgC0JFJIAAoAryRSSABKAIEKAIMEQAACy0AIABBHGpBACABKQIAQp6ptofpq8f75ACFIAEpAghChJXY5rmb/qdphYRQGwsrACABKAIAIAAoAgAtAABBAnQiACgC+JFJIAAoAuSRSSABKAIEKAIMEQAACy0AIABBHGpBACABKQIAQvXXvMnIzNazOoUgASkCCEL+28ub8+W5xvUAhYRQGwsuACAAQSBqQQAgASkCAELhypSvjYKC2fIAhSABKQIIQqbKhrK+ypOwu3+FhFAbCy0AIABBHGpBACABKQIAQpLXooDhkqzi9QCFIAEpAghClJ2A4Jq0sLALhYRQGwslACAAQYiWwQA2AgQgACABQQRqQQAgASgCAEGBgICAeEYbNgIACygAIAEoAgAgAC0AAEECdCIAKAK87EEgACgClOxBIAEoAgQoAgwRAAALKAAgASgCACAALQAAQQJ0IgAoAtDtQSAAKAKc7UEgASgCBCgCDBEAAAshACAAQcDOxAA2AgQgACABQQRqQQAgAS0AAEEkRhs2AgALKAAgASgCACAALQAAQQJ0IgAoAsyISSAAKAKwiEkgASgCBCgCDBEAAAsoACABKAIAIAAtAABBAnQiACgCsIpJIAAoAuiJSSABKAIEKAIMEQAACyMAIABFBEBBrfnEAEEyEI8KAAsgACACIAMgBCABKAIQEQsACyMAIABFBEBBrfnEAEEyEI8KAAsgACACIAMgBCABKAIQEQYACyMAIABFBEBBrfnEAEEyEI8KAAsgACACIAMgBCABKAIQEWUACyMAIABFBEBBrfnEAEEyEI8KAAsgACACIAMgBCABKAIQEWYACyMAIABFBEBBrfnEAEEyEI8KAAsgACACIAMgBCABKAIQEWcACygAIAEoAgAgAC0AAEECdCIAKALwmEkgACgCqJhJIAEoAgQoAgwRAAALIgAgASgCKEECRwRAIAAgASkC3AI3AwAPC0GsmMcAEN0JAAslACAAQailxwA2AgQgACABQQRqQQAgASgCAEGBgICAeEYbNgIACygAIAEoAgAgAC0AAEECdCIAKAKEo0kgACgC3KFJIAEoAgQoAgwRAAALJwAgACgCAC0AAEUEQCABQfKzxQBBBRCXAw8LIAFB97PFAEEEEJcDCyQAIAAtAABFBEAgAUHys8UAQQUQlwMPCyABQfezxQBBBBCXAwshACAARQRAQa35xABBMhCPCgALIAAgAiADIAEoAhARBQALIQAgAEUEQEGt+cQAQTIQjwoACyAAIAIgAyABKAIQEQAACyEAIAEoAgAgAC0AAEECdCgCiOxBQQEgASgCBCgCDBEAAAsiACABIAAtAABBAnQiACgCiIZJIAAoAuiFSSACKAIMEQAACx4AIABBwM7EADYCBCAAQQAgAUEEaiABLQAAGzYCAAscACABIAAoAgAiAEEEaigCACAAQQhqKAIAEJcDCx8AIABFBEBBrfnEAEEyEI8KAAsgACACIAEoAhARAgALthQBEn8Q2gQiCyABJgECfyAAIQ0Q2gQiEiACJgEgCyETIwBBQGoiByQAIAsQuAohAEHUtMkAKAIARQRAAkBBkLXJACgCACELQYy1yQAoAgAhBEGMtckAQoCAgIDAADcCAEGEtckAKAIAIQhBhLXJAEIENwIAQYC1yQAoAgAhA0H8tMkAQgA3AgBB+LTJACgCACEGQfS0yQAoAgAhDkH0tMkAQoCAgIDAADcCAEHstMkAKAIAIQVB7LTJAEIENwIAQei0yQAoAgAhDEHktMkAQgA3AgBB4LTJACgCACEKQdy0yQAoAgAhEEHctMkAQoCAgIDAADcCAEHUtMkAKAIAQdS0yQBCATcCAEGUtckAQQA2AgBFDQACQAJAIBAEQCAKQQRrKAIAIglBeHEiDyAQQQJ0IhBBBEEIIAlBA3EiCRtqSQ0BIAlBACAPIBBBJ2pLGw0CIAoQogILIAwEQCAFQQRrKAIAIgpBeHEiECAMQQJ0IgxBBEEIIApBA3EiChtqSQ0BIApBACAQIAxBJ2pLGw0CIAUQogILIA4EQCAGQQRrKAIAIgVBeHEiDCAOQQJ0Ig5BBEEIIAVBA3EiBRtqSQ0BIAVBACAMIA5BJ2pLGw0CIAYQogILIAMEQCAIQQRrKAIAIgZBeHEiDiADQQJ0IgNBBEEIIAZBA3EiBhtqSQ0BIAZBACAOIANBJ2pLGw0CIAgQogILIARFDQIgC0EEaygCACIIQXhxIgMgBEECdCIEQQRBCCAIQQNxIggbakkNACAIQQAgAyAEQSdqSxsNASALEKICDAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACwsCQAJAQdi0yQAoAgBFBEBB2LTJAEF/NgIAIAAQyQIgE0EAIA0Q4QghEEHktMkAKAIAIgsgDU8EQEHgtMkAKAIAIQsgByAQELgKIgQ2AgwgByANNgIYIAQgDUYEQCALIA0gEBDhCSAAEMkCQeS0yQAoAgAiACANTwRAQeC0yQAoAgAhC0H4tMkAKAIAIQQCQEH8tMkAKAIAIgpFDQAgCkECdCIARQ0AIARBACAA/AsAC0GEtckAKAIAIQ4CQEGItckAKAIAIgxFDQAgDEECdCIARQ0AIA5BACAA/AsACyANQQJ0IQggDQRAIAghAyALIQADQAJAIAAoAgAiBkGAgID8B08NACAKIAZBf3MiBUH//wNxIgZLBEAgBCAGQQJ0aiIGIAYoAgBBAWo2AgAgDCAFQRB2IgZLBEAgDiAGQQJ0aiIGIAYoAgBBAWo2AgAMAgsgBiAMQYDywAAQjAcACyAGIApB8PHAABCMBwALIABBBGohACADQQRrIgMNAAsLAkAgCkUEQEEAIQMMAQsgCkEBa0H/////A3EiAEEBaiIDQQdxIQUCQCAAQQdJBEBBACEDIAQhAAwBCyADQfj///8HcSEGQQAhAyAEIQADQCAAKAIAIQkgACADNgIAIABBBGoiDygCACERIA8gAyAJaiIDNgIAIABBCGoiCSgCACEPIAkgAyARaiIDNgIAIABBDGoiCSgCACERIAkgAyAPaiIDNgIAIABBEGoiCSgCACEPIAkgAyARaiIDNgIAIABBFGoiCSgCACERIAkgAyAPaiIDNgIAIABBGGoiCSgCACEPIAkgAyARaiIDNgIAIABBHGoiCSgCACERIAkgAyAPaiIDNgIAIAMgEWohAyAAQSBqIQAgBkEIayIGDQALCyAFRQ0AA0AgACgCACEGIAAgAzYCACAAQQRqIQAgAyAGaiEDIAVBAWsiBQ0ACwsgByADNgIAIA0EQCAIIAtqIQ8gC0EEaiEGIAhBBGtBAnZBAWohEUGQtckAKAIAIRRBlLXJACgCACEJQQAhBSALIQgDQCAGIQACQCAIKAIAIghBgICA/AdPDQACQCAKIAhBf3NB//8DcSIISwRAIAQgCEECdGoiCCgCACIGIAlPDQEgFCAGQQJ0aiAFNgIAIAggCCgCAEEBajYCAAwCCyAIIApB0PHAABCMBwALIAYgCUHg8cAAEIwHAAsgAEEEQQAgACAPRxtqIQYgACEIIBEgBUEBaiIFRw0ACwsCQCAMRQ0AIAxBAWtB/////wNxIgRBAWoiCEEHcSEGQQAhBSAOIQAgBEEHTwRAIAhB+P///wdxIQgDQCAAKAIAIQQgACAFNgIAIABBBGoiCigCACEJIAogBCAFaiIENgIAIABBCGoiBSgCACEKIAUgBCAJaiIENgIAIABBDGoiBSgCACEJIAUgBCAKaiIENgIAIABBEGoiBSgCACEKIAUgBCAJaiIENgIAIABBFGoiBSgCACEJIAUgBCAKaiIENgIAIABBGGoiBSgCACEKIAUgBCAJaiIENgIAIABBHGoiBSgCACEJIAUgBCAKaiIENgIAIAQgCWohBSAAQSBqIQAgCEEIayIIDQALCyAGRQ0AA0AgACgCACAAIAU2AgAgAEEEaiEAIAVqIQUgBkEBayIGDQALCyADRQ0EQZS1yQAoAgAiBEUNBEGQtckAKAIAIQAgA0EBayEGIARBAnRBBGshBEHstMkAKAIAIQ9B8LTJACgCACEFA0ACQAJAIA0gACgCACIISwRAIAsgCEECdGooAgBBf3NBEHYiCiAMTw0BIA4gCkECdGoiCigCACIJIAVJDQIgCSAFQcDxwAAQjAcACyAIIA1BoPHAABCMBwALIAogDEGw8cAAEIwHAAsgDyAJQQJ0aiAINgIAIAogCigCAEEBajYCACAGRQ0FIAZBAWshBiAAQQRqIQAgBCAEQQRrIQQNAAsMBAtBACANIABBkPLAABDqBwALDAMLQQAgDSALQYjuwAAQ6gcAC0GsisEAELAKAAsCQCAMQYCABE8EQCAOKAL8/w8gA0YNASAHIA5B/P8Paq1CgICAgBCENwMgIAcgB61CgICAgBCENwMYIAdCAjcCNCAHQQI2AiwgB0Hw8MAANgIoIAcgB0EYaiIANgIwIAdBDGoiCyAHQShqIgQQ7AMgBygCECEDIAcoAgwiCEGAgICAeEYNASAHIAcoAhQ2AhQgByADNgIQIAcgCDYCDCAHQQE2AiwgB0Gg+McANgIoIAdCATcCNCAHIAutQoCAgICwBYQ3AwAgByAHNgIwIAAgBBCxBiAHKAIcIAcoAiAQjwoAC0H//wMgDEGQ8cAAEIwHAAsCQCADRQ0AAkBB8LTJACgCACIAIANPBEBB7LTJACgCACEEIBJBACADEOEIIgAQuAohCyAHIAM2AhggByALNgIMIAMgC0cNASAAIAQgAxDgCSAAQYQISQ0CIAAQmwcMAgtBACADIABB+O3AABDqBwALDAELIBBBhAhPBEAgEBCbBwtB2LTJAEHYtMkAKAIAQQFqNgIAIBJBhAhPBEAgEhCbBwsgE0GECE8EQCATEJsHCyAHQUBrJAAgAwwBCyAHQQA2AihBACAHQQxqIAdBGGogB0EoakHg+cQAEPUHAAsLjxEBDX8Q2gQiAyABJgECfyAAIQkQ2gQiDSACJgEgAyEOIwBBQGoiBCQAIAMQvAohB0GotMkAKAIARQRAAkBBzLTJACgCACEAQci0yQAoAgAhA0HItMkAQoCAgIDAADcCAEHAtMkAKAIAIQZBwLTJAEIENwIAQby0yQAoAgAhCEG4tMkAQgA3AgBBtLTJACgCACEFQbC0yQAoAgAhCkGwtMkAQoCAgIAgNwIAQai0yQAoAgBBqLTJAEIBNwIAQdC0yQBBADYCAEUNAAJAAkAgCgRAIAVBBGsoAgAiC0F4cSIMIApBAXQiCkEEQQggC0EDcSILG2pJDQEgC0EAIAwgCkEnaksbDQIgBRCiAgsgCARAIAZBBGsoAgAiBUF4cSIKIAhBAnQiCEEEQQggBUEDcSIFG2pJDQEgBUEAIAogCEEnaksbDQIgBhCiAgsgA0UNAiAAQQRrKAIAIgZBeHEiCCADQQJ0IgNBBEEIIAZBA3EiBhtqSQ0AIAZBACAIIANBJ2pLGw0BIAAQogIMAgtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALCwJAAkACQEGstMkAKAIARQRAQay0yQBBfzYCAEG4tMkAKAIAIgMgB0kEQCAHIANrIgBBsLTJACgCACADa0sEQEGwtMkAIAMgAEECQQIQpAVBuLTJACgCACEDC0G0tMkAKAIAIgggA0EBdGohBiAAQQJPBH8gAEEBdEECayIFBEAgBkEAIAX8CwALIAAgA2oiAEEBayEDIAggAEEBdGpBAmsFIAYLQQA7AQBBuLTJACADQQFqNgIAC0HEtMkAKAIAIgMgB0kEQCAHIAMiAGsiBkG8tMkAKAIAIABrSwRAQby0yQAgACAGQQRBBBCkBUHEtMkAKAIAIQALQcC0yQAoAgAiBSAAQQJ0aiEIIAZBAk8EfyAHIANBf3NqQQJ0IgMEQCAIQQAgA/wLAAsgACAGaiIDQQFrIQAgBSADQQJ0akEEawUgCAtBADYCAEHEtMkAIABBAWo2AgALQdC0yQAoAgAiA0GA+AFNBEBBgfgBIAMiAGsiB0HItMkAKAIAIABrSwRAQci0yQAgACAHQQRBBBCkBUHQtMkAKAIAIQALQcy0yQAoAgAiBiAAQQJ0aiEHIANBgPgBRwR/QYDgByADQQJ0ayIIBEAgB0EAIAj8CwALIAYgACADa0ECdGpBgOAHagUgBwtBADYCAAsgDiUBQQAgCRAcIQEQ2gQiCCABJgEgCUG4tMkAKAIAIgBLDQFBACEGQbS0yQAoAgAhByAEIAgQvAoiADYCDCAEIAk2AhggACAJRw0DIAcgCSAIJQEQHUHQtMkAQQA2AgBByLTJACgCAEGA+AFNBEBByLTJAEEAQYH4AUEEQQQQpAVB0LTJACgCACEGC0HMtMkAKAIAIgogBkECdGoiAEEAQYDgB/wLAEHQtMkAIAZBgfgBaiIPNgIAIABBgOAHakEANgIAIAcgCUEBdCILaiEMAkAgCUUNACAHQQJqIQACfyALQQJrIgNBAnEEQCAAIQMgBwwBCyAHLwEAIgVB//cBTQRAIAogBUECdGoiBSAFKAIAQQFqNgIACyADRQ0BIABBAkEAIAtBAkcbaiEDIAALIQUDQCAFLwEAIgBBgPgBSQRAIAogAEECdGoiACAAKAIAQQFqNgIACyADQQJBACADIAxHG2ohBSADLwEAIgBB//cBTQRAIAogAEECdGoiACAAKAIAQQFqNgIACyAFQQBBAiAFIAxGIgAbaiEDIABFDQALCyAKIA9BAnRqQQhrIgUoAgAhAyAFQQA2AgAgBkEDcUEBRwRAIAZBAWtBA3EhAANAIAVBBGsiBSgCACEGIAUgAzYCACAEIAMgBmoiAzYCACAAQQFrIgANAAsLIAVBEGshBQNAIAVBDGoiACgCACEGIAAgAzYCACAEIAMgBmoiADYCACAFQQhqIgMoAgAhBiADIAA2AgAgBCAAIAZqIgA2AgAgBUEEaiIDKAIAIQYgAyAANgIAIAQgACAGaiIANgIAIAUoAgAhAyAFIAA2AgAgBCAAIANqIgM2AgAgBSAKRyAFQRBrIQUNAAsgCUUNAiAHQQJqIQYgC0ECa0EBdkEBaiELQcC0yQAoAgAhD0HEtMkAKAIAIQlBACEAA0AgBy8BACIHQYD4AUkEQCAJIAogB0ECdGoiBygCACIFTQRAIAUgCUGA8cAAEIwHAAsgDyAFQQJ0aiAANgIAIAcgBygCAEEBajYCAAsgBkECQQAgBiIHIAxHG2ohBiALIABBAWoiAEcNAAsMAgtBrIrBABCwCgALQQAgCSAAQezrwAAQ6gcACwJAIAooAgAgA0YNACAEIAqtQoCAgIAQhDcDICAEIAStQoCAgIAQhDcDGCAEQgI3AjQgBEECNgIsIARB8PDAADYCKCAEIARBGGoiADYCMCAEQQxqIgkgBEEoaiIHEOwDIAQoAhAhAyAEKAIMIgZBgICAgHhGDQAgBCAEKAIUNgIUIAQgAzYCECAEIAY2AgwgBEEBNgIsIARBoPjHADYCKCAEQgE3AjQgBCAJrUKAgICAsAWENwMAIAQgBDYCMCAAIAcQsQYgBCgCHCAEKAIgEI8KAAsCQCADRQ0AAkBBxLTJACgCACIAIANPBEBBwLTJACgCACEHIA1BACADEOEIIgAQuAohCSAEIAM2AhggBCAJNgIMIAMgCUcNASAAIAcgAxDgCSAAQYQISQ0CIAAQmwcMAgtBACADIABB3OvAABDqBwALDAELIAhBhAhPBEAgCBCbBwtBrLTJAEGstMkAKAIAQQFqNgIAIA1BhAhPBEAgDRCbBwsgDkGECE8EQCAOEJsHCyAEQUBrJAAgAwwBCyAEQQA2AihBACAEQQxqIARBGGogBEEoakHg+cQAEPUHAAsLHAAgAEEEahDqAiAAKAIkIgAgACgCACgCABEDAAscACAAKAIAIgAoAgAgASAAQQRqKAIAKAIQEQIACxwAIAAoAgAiACgCACABIABBBGooAgAoAgwRAgALFAAgACAAIAEgACABXRsgASABXBsLFAAgASABIAAgACABXRsgACAAXBsLGwEBbyAAJQEgASACEAAhAxDaBCIAIAMmASAACxsBAW8gACUBIAElARAJIQIQ2gQiACACJgEgAAscAQFvIAAlASABJQEgARCbByACJQEgAhCbBxALCx8AQYi7yQAtAABFBEBBiLvJAEEBOgAACyAAQQE2AgALHQAgASAALQAAQQJ0IgAoAqSESSAAKAKQhEkQlwMLHAAgASgCACAAKAIAIAAoAgQgASgCBCgCDBEAAAsZACABIAAoAgAiACgCACAAQQRqKAIAEJcDCxkBAW8gACUBIAEQDCECENoEIgAgAiYBIAALFwAgACgCACABIAAoAgRBDGooAgARAgALFQAgACgCACIAQYQITwRAIAAQmwcLCxcBAW8gACABEA8hAhDaBCIAIAImASAACxcBAW8gACABECwhAhDaBCIAIAImASAACxYAIAEgACgCACIAKAIAIAAoAgQQlwMLGQAgASgCAEGQl8cAQRMgASgCBCgCDBEAAAsZACABKAIAQdmXxwBBFyABKAIEKAIMEQAACxkAIAEoAgBB6ZLGAEEIIAEoAgQoAgwRAAALGQAgASgCAEGjl8cAQRAgASgCBCgCDBEAAAsZACABKAIAQaTlwABBFCABKAIEKAIMEQAACxkAIAEoAgBB5ZLGAEEEIAEoAgQoAgwRAAALGQAgASgCAEGilscAQQwgASgCBCgCDBEAAAsZACABKAIAQYWQxgBBAyABKAIEKAIMEQAACxkAIAEoAgBB8JfHAEEUIAEoAgQoAgwRAAALGQAgASgCAEH+lccAQQwgASgCBCgCDBEAAAsZACABKAIAQbOXxwBBEiABKAIEKAIMEQAACxkAIAEoAgBBxZfHAEEUIAEoAgQoAgwRAAALGQAgASgCAEHylscAQQ8gASgCBCgCDBEAAAsZACABKAIAQciCwQBBCiABKAIEKAIMEQAACxkAIAEoAgBBhJjHAEEXIAEoAgQoAgwRAAALGQAgASgCAEHM5cAAQRQgASgCBCgCDBEAAAsZACABKAIAQYCQxgBBAiABKAIEKAIMEQAACxkAIAEoAgBBxpbHAEEOIAEoAgQoAgwRAAALGQAgASgCAEGLkMYAQQUgASgCBCgCDBEAAAsZACABKAIAQYKQxgBBAyABKAIEKAIMEQAACxkAIAEoAgBBupbHAEEMIAEoAgQoAgwRAAALGQAgASgCAEG45cAAQRQgASgCBCgCDBEAAAsZACABKAIAQeOWxwBBDyABKAIEKAIMEQAACxkAIAEoAgBBgZfHAEEPIAEoAgQoAgwRAAALGQAgASgCAEHUlscAQQ8gASgCBCgCDBEAAAsZACABKAIAQYiQxgBBAyABKAIEKAIMEQAACxkAIAEoAgBB4OXAAEEUIAEoAgQoAgwRAAALGQAgASgCAEHcksYAQQkgASgCBCgCDBEAAAsZACABKAIAQemVxwBBDiABKAIEKAIMEQAACxkAIAEoAgBBlpbHAEEMIAEoAgQoAgwRAAALGQAgASgCAEGulscAQQwgASgCBCgCDBEAAAsZACABKAIAQYqWxwBBDCABKAIEKAIMEQAACxIAIABBBGoQ6gIgAEEkahCxBAsSACAAQQRqEOoCIABBHGoQ4wQLEgAgAEEEahDqAiAAQRxqELEECxYAIABB8JnBADYCBCAAIAFBCGo2AgALGQAgASgCAEHn+8cAQQUgASgCBCgCDBEAAAsOACAABEAACyACEP8HAAsWACAAQcSXwQA2AgQgACABQRxqNgIACxYAIABBgJjBADYCBCAAIAFBHGo2AgALFgAgAEG8mMEANgIEIAAgAUEcajYCAAsWACAAQfiYwQA2AgQgACABQRxqNgIACxYAIABBtJnBADYCBCAAIAFBHGo2AgALFgAgAEGIlsEANgIEIAAgAUEcajYCAAsWACAAQfCZwQA2AgQgACABQRxqNgIACxYAIABBrJrBADYCBCAAIAFBHGo2AgALEwAgACAAIAAoAgAiAGo2AgAgAAsUACABKAIEGiAAQYzvwQAgARDBAwsRACACKAIEGiAAIAEgAhDBAwsUACABKAIEGiAAQbDxwQAgARDBAwsUACABKAIEGiAAQbTvwQAgARDBAwsUACABKAIEGiAAQdTxwQAgARDBAwsUACABKAIEGiAAQeCBwgAgARDBAwsUACABKAIEGiAAQey1xAAgARDBAwsUACABIAIgAyAEIAUgACgCABEHAAsUACABKAIEGiAAQaC6xQAgARDBAwsZACABKAIAQYS4xQBBEiABKAIEKAIMEQAACxQAIAEoAgQaIABBxJLGACABEMEDCxQAIAEoAgQaIABB+J3GACABEMEDCxYAIABBqLDHADYCBCAAIAFBHGo2AgALFgAgAEHksMcANgIEIAAgAUEcajYCAAsWACAAQbCvxwA2AgQgACABQRxqNgIACxYAIABB7K/HADYCBCAAIAFBIGo2AgALGQAgASgCAEGYrscAQQwgASgCBCgCDBEAAAsSACAAQQRqEOoCIABBIGoQgwILFgAgAEGopccANgIEIAAgAUEcajYCAAsWACAAQaCxxwA2AgQgACABQRxqNgIACxYAIABBnLbHADYCBCAAIAFBDGo2AgALFAAgASgCBBogAEHkt8cAIAEQwQMLFAAgASgCBBogAEHMhcgAIAEQwQMLFgAgASAAKAIAIgAoAgQgACgCCBCXAwsZACABKAIAQcSdyABBCyABKAIEKAIMEQAACxUBAW8gABAEIQEQ2gQiACABJgEgAAsXAgFvAX8gABArIQEQ2gQiAiABJgEgAgsUACAAKAIAIgAgACgCACgCABEDAAsUACAAKAIIIgAgACgCACgCABEDAAsUACAAKAIAIAEgACgCBCgCEBECAAuTBwEDfyMAQfAAayIFJAAgBSADNgIMIAUgAjYCCAJ/AkACQAJAAkAgAUGBAk8EQEH9ASEGA0AgACAGaiIHQQNqLAAAQb9/Sg0DIAdBAmosAABBv39KDQIgB0EBaiwAAEG/f0oNBCAHLAAAQb9/Sg0FIAZBBGsiBkF9Rw0AC0EAIQYMBAsgBSABNgIUIAUgADYCEEEBDAQLIAZBAmohBgwCCyAGQQNqIQYMAQsgBkEBaiEGCyAFIAA2AhAgBSAGNgIUQQVBACABIAZLIgYbIQdB9JjCAEEBIAYbCyEGIAUgBzYCHCAFIAY2AhgCQAJAIAUgASACTwR/IAEgA08NASADBSACCzYCKCAFQQM2AjQgBUG8msIANgIwIAVCAzcCPCAFIAVBGGqtQoCAgICgAYQ3A1ggBSAFQRBqrUKAgICAoAGENwNQIAUgBUEoaq1CgICAgBCENwNIDAELIAIgA00EQCACRSABIAJNckUEQCADIAIgACACaiwAAEG/f0obIQMLIAUgAzYCIAJ/AkACQCABIANNDQBBACEHAkAgA0UNAANAIAAgA2osAABBv39KBEAgAyEHDAILIANBAWsiAw0ACwsgASAHRg0AAkACQCAAIAdqIgIsAAAiA0EASARAIAItAAFBP3EhACADQR9xIQEgA0FfSw0BIAFBBnQgAHIhBgwCCyAFIANB/wFxNgIkQQEMBAsgAi0AAkE/cSAAQQZ0ciEAIANBcEkEQCAAIAFBDHRyIQYMAQsgAUESdEGAgPAAcSACLQADQT9xIABBBnRyciIGQYCAxABGDQELIAUgBjYCJCAGQYABTw0BQQEMAgsgBBDdCQALQQIgBkGAEEkNABpBA0EEIAZBgIAESRsLIQAgBSAHNgIoIAUgACAHajYCLCAFQQU2AjQgBUH8mcIANgIwIAVCBTcCPCAFIAVBGGqtQoCAgICgAYQ3A2ggBSAFQRBqrUKAgICAoAGENwNgIAUgBUEoaq1CgICAgOAFhDcDWCAFIAVBJGqtQoCAgIDwBYQ3A1AgBSAFQSBqrUKAgICAEIQ3A0gMAQsgBUEENgI0IAVBnJnCADYCMCAFQgQ3AjwgBSAFQRhqrUKAgICAoAGENwNgIAUgBUEQaq1CgICAgKABhDcDWCAFIAVBDGqtQoCAgIAQhDcDUCAFIAVBCGqtQoCAgIAQhDcDSAsgBSAFQcgAajYCOCAFQTBqIAQQjQgACxQAIAAoAgAgASAAKAIEKAIMEQIACxEAIAAgASACIAMgBCAFENIECxIAIABBEUEQIAEtAJMBGzoAAAsVAgFvAX8QBSEAENoEIgEgACYBIAELEQAgACUBIAElASACJQEQBhoLFQIBbwF/EAchABDaBCIBIAAmASABC30BA38Q2gQiAyABJgECQAJAAkAgAARAIABBCGsiAiACKAIAQQFqIgQ2AgAgBEUNASAAKAIADQIgAEF/NgIAIABBBGogAxDEAiAAIAAoAgBBAWo2AgAgAiACKAIAQQFrIgA2AgAgAEUEQCACEOQGCwwDCxCOCgsACxCQCgALC4gBAQN/ENoEIgMgASYBAkACQAJAIAAEQCAAQQhrIgIgAigCAEEBaiIENgIAIARFDQEgACgCAA0CIABBfzYCACAAQQhqKAIAIABBDGooAgAgAxCtAyAAIAAoAgBBAWo2AgAgAiACKAIAQQFrIgA2AgAgAEUEQCACEOMGCwwDCxCOCgsACxCQCgALCxEAIAEgACgCACAAKAIEEJcDCxMAIABBKDYCBCAAQZifxwA2AgALEQAgASAAKAIEIAAoAggQlwMLEwAgAEHomsEANgIEIAAgATYCAAsTACAAQaSbwQA2AgQgACABNgIACxMAIABB4JvBADYCBCAAIAE2AgALEwAgAEGMnMEANgIEIAAgATYCAAsTACAAQcicwQA2AgQgACABNgIACxMAIABBhJ3BADYCBCAAIAE2AgALEwAgAEHAncEANgIEIAAgATYCAAsTACAAQfydwQA2AgQgACABNgIACxEAIAAoAgQgACgCCCABELUCCxEAIAEoAgAgASgCBCAAEMEDCxwAIABBmLvP7AM2AgggAELQ5+byk+vFmz83AgALEQAgACgCACAAKAIEIAEQtQILEwAgAEHMs8cANgIEIAAgATYCAAsTACAAQdyxxwA2AgQgACABNgIACxMAIABBiLTHADYCBCAAIAE2AgALEwAgAEHUsscANgIEIAAgATYCAAsTACAAQZiyxwA2AgQgACABNgIACxMAIABBkLPHADYCBCAAIAE2AgALEwAgAEG8jMgANgIEIAAgATYCAAsWAEG4u8kAIAA2AgBBtLvJAEEBOgAACxEBAX8Q2gQiASAAJQEmASABCw4AIAAlASABJQFBABAWCw8AQayewgBBKyAAEOsHAAtpAQF/IwBBMGsiAyQAIAMgADYCBCADIAE2AgAgA0EDNgIMIANB+JvCADYCCCADQgI3AhQgAyADQQRqrUKAgICAEIQ3AyggAyADrUKAgICAEIQ3AyAgAyADQSBqNgIQIANBCGogAhCNCAALEgAgACABLQDoBC0A+J1JOgAACwwAIAAlASABIAIQAgsMACAAIAEgAiUBEAMLDQAgACUBIAElARAIGgsMACAAIAEgAiUBEBkLEQAgAEGohsEA/QACAP0LAgALEQAgAEG4hsEA/QACAP0LAgALEQAgAEHIhsEA/QACAP0LAgALEQAgAEHYhsEA/QACAP0LAgALEQAgAEHohsEA/QACAP0LAgALEQAgAEH4hsEA/QACAP0LAgALEQAgAEGIh8EA/QACAP0LAgALEQAgAEGYh8EA/QACAP0LAgALEQAgAEGoh8EA/QACAP0LAgALEQAgAEG4h8EA/QACAP0LAgALEQAgAEHIh8EA/QACAP0LAgALEQAgAEHYh8EA/QACAP0LAgALEQAgAEHoh8EA/QACAP0LAgALEQAgAEH4h8EA/QACAP0LAgALEQAgAEGIiMEA/QACAP0LAgALEQAgAEGYiMEA/QACAP0LAgALEQAgAEGoiMEA/QACAP0LAgALEQAgAEG4iMEA/QACAP0LAgALEQAgAEHIiMEA/QACAP0LAgALEQAgAEHYiMEA/QACAP0LAgALEQAgAEHoiMEA/QACAP0LAgALEQAgAEH4iMEA/QACAP0LAgALEQAgAEGIicEA/QACAP0LAgALEQAgAEGYicEA/QACAP0LAgALEQAgAEGoicEA/QACAP0LAgALEQAgAEG4icEA/QACAP0LAgALEQAgAEHIicEA/QACAP0LAgALEQAgAEHYicEA/QACAP0LAgALDgAgAEG4oMEAIAEQwQMLDgAgAEGck8EAIAEQwQMLCgAgAEEEahDqAgsKACAAQQhqELEECxEAIABB8KDHAP0AAgD9CwIACxEAIABB5JPBAP0AAgD9CwIACxEAIABB9JPBAP0AAgD9CwIACxEAIABBhJTBAP0AAgD9CwIACxEAIABBlJTBAP0AAgD9CwIACxEAIABBpJTBAP0AAgD9CwIACxEAIABBtJTBAP0AAgD9CwIACxEAIABBxJTBAP0AAgD9CwIACxEAIABB1JTBAP0AAgD9CwIACxEAIABB5JTBAP0AAgD9CwIACw0AQeyNyABBGxCPCgALCQAgACABECgACw4AQYeOyABBzwAQjwoACwsAIAAoAgAgARBoCw4AIAFBsorDAEEYEJcDCw4AIAFBkIrDAEEgEJcDCxEAIABBkKHHAP0AAgD9CwIACw4AIAFBmJbIAEECEJcDCxEAIABBtLbEAP0AAgD9CwIACwwAIAAoAgAgARD8BAsRACAAQaS2xAD9AAIA/QsCAAsMACAAKAIAIAEQpgILDAAgACgCACABEPQECwwAIAAoAgAgARCeBAsMACAAKAIAIAEQiwULEQAgAEHgn8cA/QACAP0LAgALEQAgAEHQn8cA/QACAP0LAgALEQAgAEHgoMcA/QACAP0LAgALEQAgAEGAoMcA/QACAP0LAgALEQAgAEGgoMcA/QACAP0LAgALEQAgAEHAn8cA/QACAP0LAgALEQAgAEHAoMcA/QACAP0LAgALDQAgACABKQKEATcDAAsLACAALQCTAUECcgsKACAAQSBqEMYDCxEAIABB8J/HAP0AAgD9CwIACxEAIABBsKDHAP0AAgD9CwIACxEAIABB0KDHAP0AAgD9CwIACxEAIABBkKDHAP0AAgD9CwIACxEAIABBgKHHAP0AAgD9CwIACxEAIABBgPjHAP0AAgD9CwIACwwAIAAgASkCADcDAAsRACAAQZD4xwD9AAIA/QsCAAsKACAAIAElARAUC00BAX8jAEEwayIBJAAgAUEBNgIMIAFBoPjHADYCCCABQgE3AhQgASABQS9qrUKAgICAkAaENwMgIAEgAUEgajYCECABQQhqIAAQjQgAC00BAX8jAEEwayIBJAAgAUEBNgIMIAFBoPjHADYCCCABQgE3AhQgASABQS9qrUKAgICAoAaENwMgIAEgAUEgajYCECABQQhqIAAQjQgACwkAIABCATcDAAsJACAAQQA2AgALCgAgAEGAARDRBAsIACAAIAEQaAsSACAAQoaAgICAgICAgH83AwAL2QsCBX0GfwJ9QwAAgD8hAgJAAkACQAJAIAC8IgpBgICA/ANGDQAgAbwiCUH/////B3EiCEUNAAJ/AkAgAIsiA7wiB0GAgID8B0sgCEGAgID8B0tyRQRAIApBAE4NAUECIAhB////2wRLDQIaIAhBgICA/ANJDQFBACAIQZYBIAhBF3ZrIgt2IgwgC3QgCEcNAhpBAiAMQQFxawwCCyAAIAGSDAYLQQALIQsCQAJAAkACQCAIQYCAgPwDRwRAIAhBgICA/AdHDQECQAJAIAdBgICA/ANKIAdBgICA/ANIa0H/AXEOAgcBAAtDAAAAACABjCAJQQBOGwwKCyABQwAAAAAgCUEAThsMCQsgCUEASA0BIAAMCAsCQCAJQYCAgPgDRwRAIAlBgICAgARHDQEgACAAlAwJCyAKQQBODQILAkACQAJAAkAgB0EAIAdB/////wNxQYCAgPwDRxtFBEBDAACAPyADlSADIAlBAEgbIQIgCkEATg0IIAcgC2pBgICA/ANHDQEgAiACkyIAIACVDAwLQwAAgD8hBSAKQQBODQMgCw4CAQIDCyACjCACIAtBAUYbDAoLIAAgAJMiACAAlQwJC0MAAIC/IQULIAhBgICA6ARNBEAgA0MAAIBLlLwgByAHQYCAgARJIggbIgdB////A3EiCkGAgID8A3IhCyAHQRd1Qel+QYF/IAgbaiEIQQAhBwJAIApB8ojzAEkNACAKQdfn9gJJBEBBASEHDAELIApBgICA+ANyIQsgCEEBaiEICyAHQQJ0IgoqApC0SUMAAIA/IAoqAoi0SSIAIAu+IgSSlSICIAQgAJMiAyALQQF2QYDg//8BcSAHQRV0akGAgICCAmq+IgYgAyAClCIDvEGAYHG+IgKUkyAAIAaTIASSIAKUk5QiACACIAKUIgRDAABAQJIgACADIAKSlCADIAOUIgAgAJQgACAAIAAgACAAQ0LxUz6UQ1UybD6SlEMFo4s+kpRDq6qqPpKUQ7dt2z6SlEOamRk/kpSSIgaSvEGAYHG+IgCUIAMgBiAAQwAAQMCSIASTk5SSIgMgAyACIACUIgKSvEGAYHG+IgAgApOTQ084dj+UIABDxiP2uJSSkiICIAoqApi0SSIEIAIgAEMAQHY/lCIAkpIgCLIiApK8QYBgcb4iAyACkyAEkyAAk5MhAgwDCyAHQfj///sDTwRAIAdBh4CA/ANNBEAgA0MAAIC/kiIAQ3Cl7DaUIAAgAJRDAAAAPyAAIABDAACAvpRDq6qqPpKUk5RDO6q4v5SSIgIgAiAAQwCquD+UIgCSvEGAYHG+IgMgAJOTIQIMBAsgCUEATA0GDAcLIAlBAE4NBQwGC0MAAIA/IACVDAYLIACRDAULAkACQCADIAlBgGBxviIElCIAIAEgApQgASAEkyADlJIiAZIiArwiCUGAgICYBEwEQCAJQYCAgJgERg0BIAK8Qf////8HcSIHQYCA2JgESw0EIAEgAiAAk19FIAlBgIDYmHxHcg0CDAULDAULIAFDPKo4M5IgAiAAk14NBCACvEH/////B3EhBwtBACEIIAUCfSAHQYCAgPgDSwR/QQBBgICABCAHQRd2QQJqdiAJaiIHQf///wNxQYCAgARyQRYgB0EXdiIKa3YiCGsgCCAJQQBIGyEIIAEgAEGAgIB8IApBAWp1IAdxvpMiAJK8BSAJC0GAgH5xviICQwByMT+UIgUgAkOMvr81lCABIAIgAJOTQxhyMT+UkiICkiIAIAAgACAAIACUIgEgASABIAEgAUNMuzEzlEMO6t21kpRDVbOKOJKUQ2ELNruSlEOrqio+kpSTIgGUIAFDAAAAwJKVIAIgACAFk5MiASAAIAGUkpOTQwAAgD+SIgC8IAhBF3RqIglBgICABE4EQCAJvgwBCyAAIAgQsAYLlCECCyACDAMLIAVDYEKiDZRDYEKiDZQMAgsgBUNgQqINlENgQqINlAwBCyAFQ8rySXGUQ8rySXGUCwsIACAAJQEQAQsIACAAJQEQCgsIACAAJQEQFQsIACAAJQEQFwsIACAAJQEQGwsIACAALQDoBAsHABAqEIUICwQAQQALBABBAQsCAAsLtK4JiAEAQYCAwAAL8WFpbnZhbGlkIGxpdGVyYWwvbGVuZ3RocyBzZXQAaW52YWxpZCBjb2RlIGxlbmd0aHMgc2V0AHVua25vd24gaGVhZGVyIGZsYWdzIHNldABpbnZhbGlkIGRpc3RhbmNlcyBzZXQAaW52YWxpZCBiaXQgbGVuZ3RoIHJlcGVhdAAvVXNlcnMvZG1hcmNvcy9EZXZlbG9wbWVudC9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvc3B6LnJzAGxpYnJhcnkvY29yZS9zcmMvc3RyL2xvc3N5LnJzAC9Vc2Vycy9kbWFyY29zL0RldmVsb3BtZW50L3NwYXJrL3J1c3Qvc3BhcmstbGliL3NyYy9wbHkucnMAL3J1c3QvZGVwcy9ydXN0Yy1kZW1hbmdsZS0wLjEuMjYvc3JjL2xlZ2FjeS5ycwAvcnVzdGMvZjgyOTdlMzUxYTQwYzE0MzlhNDY3YmJiYjY4NzkwODgwNDdmNTBiMy9saWJyYXJ5L2NvcmUvc3JjL2l0ZXIvYWRhcHRlcnMvc3RlcF9ieS5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL21lbWNoci0yLjcuNi9zcmMvYXJjaC9hbGwvdHdvd2F5LnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvemxpYi1ycy0wLjYuMy9zcmMvaW5mbGF0ZS93aW5kb3cucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy95dXYucnMAbGlicmFyeS9jb3JlL3NyYy9udW0vZmx0MmRlYy9zdHJhdGVneS9ncmlzdS5ycwBsaWJyYXJ5L2NvcmUvc3JjL3NsaWNlL3NvcnQvc2hhcmVkL3NtYWxsc29ydC5ycwAvcnVzdGMvZjgyOTdlMzUxYTQwYzE0MzlhNDY3YmJiYjY4NzkwODgwNDdmNTBiMy9saWJyYXJ5L2NvcmUvc3JjL3NsaWNlL3NvcnQvc3RhYmxlL3F1aWNrc29ydC5ycwBzcGFyay13b3JrZXItcnMvc3JjL3NvcnQucnMAL3J1c3RjL2Y4Mjk3ZTM1MWE0MGMxNDM5YTQ2N2JiYmI2ODc5MDg4MDQ3ZjUwYjMvbGlicmFyeS9hbGxvYy9zcmMvYm94ZWQvY29udmVydC5ycwBsaWJyYXJ5L2FsbG9jL3NyYy9mbXQucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9hbnlob3ctMS4wLjk4L3NyYy9mbXQucnMAbGlicmFyeS9jb3JlL3NyYy9udW0vZGl5X2Zsb2F0LnJzAC9Vc2Vycy9kbWFyY29zL0RldmVsb3BtZW50L3NwYXJrL3J1c3Qvc3BhcmstbGliL3NyYy90c3BsYXQucnMAL1VzZXJzL2RtYXJjb3MvRGV2ZWxvcG1lbnQvc3BhcmsvcnVzdC9zcGFyay1saWIvc3JjL2tzcGxhdC5ycwAvVXNlcnMvZG1hcmNvcy9EZXZlbG9wbWVudC9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvYW50aXNwbGF0LnJzAC9Vc2Vycy9kbWFyY29zL0RldmVsb3BtZW50L3NwYXJrL3J1c3Qvc3BhcmstbGliL3NyYy9nc3BsYXQucnMAL1VzZXJzL2RtYXJjb3MvRGV2ZWxvcG1lbnQvc3BhcmsvcnVzdC9zcGFyay1saWIvc3JjL2NzcGxhdC5ycwBzcGFyay13b3JrZXItcnMvc3JjL2V4dF9zcGxhdHMucnMAc3Bhcmstd29ya2VyLXJzL3NyYy9wYWNrZWRfc3BsYXRzLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvZmRlZmxhdGUtMC4zLjcvc3JjL2RlY29tcHJlc3MucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy9sb3NzbGVzcy5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3NlcmRlX2NvcmUtMS4wLjIyOC9zcmMvZGUvaW1wbHMucnMAL1VzZXJzL2RtYXJjb3MvRGV2ZWxvcG1lbnQvc3BhcmsvcnVzdC9zcGFyay1saWIvc3JjL3NvZ3MucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi96bGliLXJzLTAuNi4zL3NyYy9pbmZsYXRlL2luZnRyZWVzLnJzAGxpYnJhcnkvc3RkL3NyYy9zeXMvc3luYy9tdXRleC9ub190aHJlYWRzLnJzAC9ydXN0Yy9mODI5N2UzNTFhNDBjMTQzOWE0NjdiYmJiNjg3OTA4ODA0N2Y1MGIzL2xpYnJhcnkvc3RkL3NyYy9zeXMvc3luYy9vbmNlL25vX3RocmVhZHMucnMAbGlicmFyeS9hbGxvYy9zcmMvc3RyLnJzAC9ydXN0Yy9mODI5N2UzNTFhNDBjMTQzOWE0NjdiYmJiNjg3OTA4ODA0N2Y1MGIzL2xpYnJhcnkvY29yZS9zcmMvaXRlci90cmFpdHMvaXRlcmF0b3IucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9hbnlob3ctMS4wLjk4L3NyYy9lcnJvci5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3NlcmRlX2pzb24tMS4wLjE0NS9zcmMvZXJyb3IucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS0wLjI1LjEwL3NyYy9jb2xvci5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL21lbWNoci0yLjcuNi9zcmMvYXJjaC9nZW5lcmljL3BhY2tlZHBhaXIucnMAbGlicmFyeS9jb3JlL3NyYy9zbGljZS9tZW1jaHIucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy9sb29wX2ZpbHRlci5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3psaWItcnMtMC42LjMvc3JjL2luZmxhdGUvd3JpdGVyLnJzAC9ydXN0Yy9mODI5N2UzNTFhNDBjMTQzOWE0NjdiYmJiNjg3OTA4ODA0N2Y1MGIzL2xpYnJhcnkvY29yZS9zcmMvc2xpY2UvaXRlci5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2luZGV4bWFwLTIuMTMuMC9zcmMvaW5uZXIucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9taW5pel9veGlkZS0wLjguOS9zcmMvaW5mbGF0ZS9vdXRwdXRfYnVmZmVyLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvcG5nLTAuMTguMS9zcmMvZGVjb2Rlci91bmZpbHRlcmluZ19idWZmZXIucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS0wLjI1LjEwL3NyYy9pbWFnZXMvYnVmZmVyLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvcG5nLTAuMTguMS9zcmMvZGVjb2Rlci9yZWFkX2RlY29kZXIucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy92cDhfYXJpdGhtZXRpY19kZWNvZGVyLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvaW1hZ2UtMC4yNS4xMC9zcmMvY29kZWNzL3dlYnAvZGVjb2Rlci5ycwAvVXNlcnMvZG1hcmNvcy9EZXZlbG9wbWVudC9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvZGVjb2Rlci5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2ltYWdlLXdlYnAtMC4yLjQvc3JjL2RlY29kZXIucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi96aXAtNy4yLjAvc3JjL3JlYWQvbWFnaWNfZmluZGVyLnJzAC9ydXN0Yy9mODI5N2UzNTFhNDBjMTQzOWE0NjdiYmJiNjg3OTA4ODA0N2Y1MGIzL2xpYnJhcnkvY29yZS9zcmMvY21wLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvemlwLTcuMi4wL3NyYy9leHRyYV9maWVsZHMvZXh0ZW5kZWRfdGltZXN0YW1wLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvaW1hZ2UtMC4yNS4xMC9zcmMvbWV0YWRhdGEvY2ljcC5ycwBsaWJyYXJ5L3N0ZC9zcmMvaW8vc3RkaW8ucnMAL3J1c3RjL2Y4Mjk3ZTM1MWE0MGMxNDM5YTQ2N2JiYmI2ODc5MDg4MDQ3ZjUwYjMvbGlicmFyeS9jb3JlL3NyYy9zdHIvcGF0dGVybi5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3BuZy0wLjE4LjEvc3JjL2NvbW1vbi5ycwAvcnVzdGMvZjgyOTdlMzUxYTQwYzE0MzlhNDY3YmJiYjY4NzkwODgwNDdmNTBiMy9saWJyYXJ5L2NvcmUvc3JjL29wcy9mdW5jdGlvbi5ycwBsaWJyYXJ5L2NvcmUvc3JjL251bS9mbHQyZGVjL3N0cmF0ZWd5L2RyYWdvbi5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2ZkZWZsYXRlLTAuMy43L3NyYy9odWZmbWFuLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvaW1hZ2Utd2VicC0wLjIuNC9zcmMvaHVmZm1hbi5ycwBsaWJyYXJ5L2NvcmUvc3JjL251bS9iaWdudW0ucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy9sb3NzbGVzc190cmFuc2Zvcm0ucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9wbmctMC4xOC4xL3NyYy9kZWNvZGVyL3RyYW5zZm9ybS5ycwBsaWJyYXJ5L3N0ZC9zcmMvaW8vYnVmZmVyZWQvbGluZXdyaXRlcnNoaW0ucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9wbmctMC4xOC4xL3NyYy9kZWNvZGVyL3N0cmVhbS5ycwAvcnVzdGMvZjgyOTdlMzUxYTQwYzE0MzlhNDY3YmJiYjY4NzkwODgwNDdmNTBiMy9saWJyYXJ5L3N0ZC9zcmMvdGhyZWFkL2xvY2FsLnJzAGxpYnJhcnkvc3RkL3NyYy9zeW5jL2xhenlfbG9jay5ycwBsaWJyYXJ5L3N0ZC9zcmMvc3luYy9yZWVudHJhbnRfbG9jay5ycwAvcnVzdGMvZjgyOTdlMzUxYTQwYzE0MzlhNDY3YmJiYjY4NzkwODgwNDdmNTBiMy9saWJyYXJ5L3N0ZC9zcmMvc3luYy9vbmNlX2xvY2sucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS0wLjI1LjEwL3NyYy9jb2RlY3MvcG5nLnJzAC9ydXN0Yy9mODI5N2UzNTFhNDBjMTQzOWE0NjdiYmJiNjg3OTA4ODA0N2Y1MGIzL2xpYnJhcnkvYWxsb2Mvc3JjL3N0cmluZy5ycwBsaWJyYXJ5L3N0ZC9zcmMvcGFuaWNraW5nLnJzAC9ydXN0Yy9mODI5N2UzNTFhNDBjMTQzOWE0NjdiYmJiNjg3OTA4ODA0N2Y1MGIzL2xpYnJhcnkvY29yZS9zcmMvaW8vYm9ycm93ZWRfYnVmLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2Yvd2FzbS1iaW5kZ2VuLTAuMi4xMTcvc3JjL2V4dGVybnJlZi5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3BuZy0wLjE4LjEvc3JjL2RlY29kZXIvdHJhbnNmb3JtL3BhbGV0dGUucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi96bGliLXJzLTAuNi4zL3NyYy9pbmZsYXRlLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvemxpYi1ycy0wLjYuMy9zcmMvYWxsb2NhdGUucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9taW5pel9veGlkZS0wLjguOS9zcmMvaW5mbGF0ZS9jb3JlLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvaW1hZ2UtMC4yNS4xMC9zcmMvaW8vaW1hZ2VfcmVhZGVyX3R5cGUucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi96bGliLXJzLTAuNi4zL3NyYy9zdGFibGUucnMAbGlicmFyeS9jb3JlL3NyYy91bmljb2RlL3ByaW50YWJsZS5ycwAvVXNlcnMvZG1hcmNvcy9EZXZlbG9wbWVudC9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvY2h1bmtfdHJlZS5ycwBzcGFyay13b3JrZXItcnMvc3JjL2xvZF90cmVlLnJzAHNwYXJrLWxpYi9zcmMvc3BsYXRfZW5jb2RlLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2Yvc2VyZGUtMS4wLjIyOC9zcmMvcHJpdmF0ZS9kZS5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3NlcmRlX2pzb24tMS4wLjE0NS9zcmMvZGUucnMAL3J1c3RjL2Y4Mjk3ZTM1MWE0MGMxNDM5YTQ2N2JiYmI2ODc5MDg4MDQ3ZjUwYjMvbGlicmFyeS9zdGQvc3JjL3N5bmMvcG9pc29uL29uY2UucnMAL3J1c3RjL2Y4Mjk3ZTM1MWE0MGMxNDM5YTQ2N2JiYmI2ODc5MDg4MDQ3ZjUwYjMvbGlicmFyeS9hbGxvYy9zcmMvc2xpY2UucnMAbGlicmFyeS9zdGQvc3JjL2JhY2t0cmFjZS5ycwAvcnVzdC9kZXBzL2hhc2hicm93bi0wLjE1LjUvc3JjL3Jhdy9tb2QucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9oYXNoYnJvd24tMC4xNi4xL3NyYy9yYXcvbW9kLnJzAGxpYnJhcnkvY29yZS9zcmMvZm10L21vZC5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL21lbWNoci0yLjcuNi9zcmMvYXJjaC9hbGwvcGFja2VkcGFpci9tb2QucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9wbmctMC4xOC4xL3NyYy9kZWNvZGVyL21vZC5ycwAvcnVzdGMvZjgyOTdlMzUxYTQwYzE0MzlhNDY3YmJiYjY4NzkwODgwNDdmNTBiMy9saWJyYXJ5L2FsbG9jL3NyYy9jb2xsZWN0aW9ucy9iaW5hcnlfaGVhcC9tb2QucnMAL3J1c3RjL2Y4Mjk3ZTM1MWE0MGMxNDM5YTQ2N2JiYmI2ODc5MDg4MDQ3ZjUwYjMvbGlicmFyeS9zdGQvc3JjL2lvL21vZC5ycwBsaWJyYXJ5L3N0ZC9zcmMvLi4vLi4vYmFja3RyYWNlL3NyYy9zeW1ib2xpemUvbW9kLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvbWluaXpfb3hpZGUtMC44Ljkvc3JjL2luZmxhdGUvbW9kLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2Yvc2VyZGVfY29yZS0xLjAuMjI4L3NyYy9kZS9tb2QucnMAbGlicmFyeS9zdGQvc3JjL3RocmVhZC9tb2QucnMAL3J1c3RjL2Y4Mjk3ZTM1MWE0MGMxNDM5YTQ2N2JiYmI2ODc5MDg4MDQ3ZjUwYjMvbGlicmFyeS9hbGxvYy9zcmMvcmF3X3ZlYy9tb2QucnMAL3J1c3RjL2Y4Mjk3ZTM1MWE0MGMxNDM5YTQ2N2JiYmI2ODc5MDg4MDQ3ZjUwYjMvbGlicmFyeS9hbGxvYy9zcmMvdmVjL21vZC5ycwBsaWJyYXJ5L2NvcmUvc3JjL251bS9mbHQyZGVjL21vZC5ycwAvVXNlcnMvZG1hcmNvcy9EZXZlbG9wbWVudC9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvdGlueV9sb2QucnMAL1VzZXJzL2RtYXJjb3MvRGV2ZWxvcG1lbnQvc3BhcmsvcnVzdC9zcGFyay1saWIvc3JjL2JoYXR0X2xvZC5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3psaWItcnMtMC42LjMvc3JjL2NyYzMyL2JyYWlkLnJzAC9ydXN0Yy9mODI5N2UzNTFhNDBjMTQzOWE0NjdiYmJiNjg3OTA4ODA0N2Y1MGIzL2xpYnJhcnkvYWxsb2Mvc3JjL3ZlYy9zcGVjX2Zyb21faXRlcl9uZXN0ZWQucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy9leHRlbmRlZC5ycwAvVXNlcnMvZG1hcmNvcy9EZXZlbG9wbWVudC9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvcmFkLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2Yvc2VyZGVfanNvbi0xLjAuMTQ1L3NyYy9yZWFkLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvemlwLTcuMi4wL3NyYy9yZWFkLnJzAC9ydXN0L2RlcHMvZGxtYWxsb2MtMC4yLjEwL3NyYy9kbG1hbGxvYy5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3ppcC03LjIuMC9zcmMvc3BlYy5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3BuZy0wLjE4LjEvc3JjL2RlY29kZXIvemxpYi5ycwBzcGFyay13b3JrZXItcnMvc3JjL2xpYi5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2NvbnNvbGVfZXJyb3JfcGFuaWNfaG9vay0wLjEuNy9zcmMvbGliLnJzAC9ydXN0L2RlcHMvcnVzdGMtZGVtYW5nbGUtMC4xLjI2L3NyYy9saWIucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9zZXJkZS13YXNtLWJpbmRnZW4tMC42LjUvc3JjL2xpYi5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2pzLXN5cy0wLjMuOTQvc3JjL2xpYi5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3NtYWxsdmVjLTEuMTUuMS9zcmMvbGliLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvcG5nLTAuMTguMS9zcmMvdGV4dF9tZXRhZGF0YS5ycwBsaWJyYXJ5L2NvcmUvc3JjL3VuaWNvZGUvdW5pY29kZV9kYXRhLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvaW1hZ2Utd2VicC0wLjIuNC9zcmMvdnA4LnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvcG5nLTAuMTguMS9zcmMvYWRhbTcucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi96aXAtNy4yLjAvc3JjL2NwNDM3LnJzAHNwYXJrLWxpYi9zcmMvc3ltbWF0My5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3ppcC03LjIuMC9zcmMvY3JjMzIucnMAL3J1c3QvZGVwcy9ydXN0Yy1kZW1hbmdsZS0wLjEuMjYvc3JjL3YwLnJzAHRvbyBtYW55IGxlbmd0aCBvciBkaXN0YW5jZSBzeW1ib2xzAGludmFsaWQgc3RvcmVkIGJsb2NrIGxlbmd0aHMAaW52YWxpZCBjb2RlIC0tIG1pc3NpbmcgZW5kLW9mLWJsb2NrAGluY29ycmVjdCBoZWFkZXIgY2hlY2sAaW5jb3JyZWN0IGxlbmd0aCBjaGVjawBpbmNvcnJlY3QgZGF0YSBjaGVjawBpbnZhbGlkIGRpc3RhbmNlIHRvbyBmYXIgYmFjawBoZWFkZXIgY3JjIG1pc21hdGNoAGludmFsaWQgd2luZG93IHNpemUAcmVwZWF0ZWQgY2FsbCB3aXRoIGJhZCBzdGF0ZQBpbnZhbGlkIGJsb2NrIHR5cGUAaW52YWxpZCBsaXRlcmFsL2xlbmd0aCBjb2RlAGludmFsaWQgZGlzdGFuY2UgY29kZQB1bmtub3duIGNvbXByZXNzaW9uIG1ldGhvZABJSSoA7AUQACQAAABEAwAADQAAAOwFEAAkAAAARQMAAA0AAADsBRAAJAAAAEYDAAANAAAA7AUQACQAAABDAwAAQQAAAOwFEAAkAAAATwMAAA0AAADsBRAAJAAAAE8DAAA+AAAA7AUQACQAAAC4AwAAIQAAAOwFEAAkAAAAuAMAAA0AAADsBRAAJAAAALYDAAAlAAAA7AUQACQAAADGAwAAIQAAAOwFEAAkAAAAxgMAAA0AAADsBRAAJAAAAMQDAAAlAAAA7AUQACQAAABZAwAADQAAAOwFEAAkAAAAWgMAAA0AAADsBRAAJAAAAFsDAAANAAAA7AUQACQAAABYAwAAOwAAAOwFEAAkAAAAhAMAACUAAADsBRAAJAAAAIQDAAA2AAAA7AUQACQAAACGAwAAHQAAAOwFEAAkAAAAgAMAACUAAADsBRAAJAAAAJYDAAAlAAAA7AUQACQAAACWAwAANgAAAOwFEAAkAAAAlgMAAEsAAADsBRAAJAAAAJYDAABgAAAA7AUQACQAAACYAwAAHgAAAOwFEAAkAAAAkgMAACUAAADsBRAAJAAAAKgDAAAlAAAA7AUQACQAAACoAwAANgAAAOwFEAAkAAAAqAMAAEsAAADsBRAAJAAAAKgDAABgAAAA7AUQACQAAACqAwAAHgAAAOwFEAAkAAAApAMAACUAAADsBRAAJAAAAHEDAAANAAAA7AUQACQAAAByAwAADQAAAOwFEAAkAAAAcwMAAA0AAADsBRAAJAAAAHQDAAANAAAA7AUQACQAAABwAwAAPQAAAOwFEAAkAAAAZQMAAA0AAADsBRAAJAAAAGYDAAANAAAA7AUQACQAAABnAwAADQAAAOwFEAAkAAAAZAMAAD8AAACmAxAAUgAAAFIAAAATAAAADQUQAEAAAAB2AAAAIAAAAA0FEABAAAAAdQAAACIAAAANBRAAQAAAAHQAAAAeAAAADQUQAEAAAABzAAAAJgAAAA0FEABAAAAAcgAAACQAAAANBRAAQAAAAFQAAAAXAAAADQUQAEAAAABVAAAAFwAAAA0FEABAAAAAVgAAABcAAAANBRAAQAAAAFgAAAAWAAAADQUQAEAAAABZAAAAFgAAAA0FEABAAAAAWgAAABYAAAANBRAAQAAAAFwAAAAqAAAADQUQAEAAAABcAAAAFAAAAA0FEABAAAAAXQAAACoAAAANBRAAQAAAAF0AAAAUAAAADQUQAEAAAABeAAAAKgAAAA0FEABAAAAAXgAAABQAAAANBRAAQAAAAGAAAAApAAAADQUQAEAAAABgAAAAGAAAAA0FEABAAAAAYgAAACYAAAANBRAAQAAAAGMAAAAmAAAADQUQAEAAAABkAAAAJgAAAA0FEABAAAAAZQAAACYAAAANBRAAQAAAAGgAAAAVAAAADQUQAEAAAABpAAAAFQAAAA0FEABAAAAAagAAABUAAAANBRAAQAAAAGsAAAAVAAAASW52YWxpZCAuc3BsYXQgZmlsZSBzaXpl7CwQABgAAABhdHRlbXB0ZWQgdG8gdGFrZSBvd25lcnNoaXAgb2YgUnVzdCB2YWx1ZSB3aGlsZSBpdCB3YXMgYm9ycm93ZWRNYXBBY2Nlc3M6Om5leHRfdmFsdWUgY2FsbGVkIGJlZm9yZSBuZXh0X2tleQD6GRAAYwAAAGYKAAAfAAAA7AUQACQAAADuAQAAOAAAAOwFEAAkAAAA7gEAAFkAAADsBRAAJAAAAPcBAABHAAAA7AUQACQAAAD3AQAAOQAAAOwFEAAkAAAAZAIAAC4AAADsBRAAJAAAAGQCAAAfAAAA7AUQACQAAABlAgAAHwAAAOwFEAAkAAAAWQIAACoAAADsBRAAJAAAAIQCAAA2AAAA7AUQACQAAACEAgAAIwAAAOwFEAAkAAAAeAIAACoAAADsBRAAJAAAAKQCAAA2AAAA7AUQACQAAACkAgAAIwAAAOwFEAAkAAAAmAIAACoAAADsBRAAJAAAANQCAAAlAAAA7AUQACQAAADYAgAAPAAAAOwFEAAkAAAA2AIAAB0AAADsBRAAJAAAANICAAAyAAAA7AUQACQAAADDAgAAIQAAAOwFEAAkAAAAxwIAADgAAADsBRAAJAAAAMcCAAAZAAAA7AUQACQAAADBAgAALgAAAOwFEAAkAAAAtAIAAB0AAADsBRAAJAAAALcCAAAsAAAA7AUQACQAAAC3AgAAEQAAAOwFEAAkAAAAuAIAADAAAADsBRAAJAAAALICAAAqAAAA7AUQACQAAADjAgAAJgAAAOwFEAAkAAAA5wIAACAAAADsBRAAJAAAAOcCAAATAAAA7AUQACQAAADtAgAAJgAAAOwFEAAkAAAA8QIAACAAAADsBRAAJAAAAPECAAATAAAA7AUQACQAAAB/AQAANgAAAOwFEAAkAAAAgAEAADYAAADsBRAAJAAAAI0BAAAzAAAA7AUQACQAAACOAQAAMwAAAOwFEAAkAAAAigEAAEQAAADsBRAAJAAAAIUBAAApAAAATWlzc2luZyBjaGlsZF9jb3VudHMgb3IgY2hpbGRfc3RhcnRz+C8QACQAAADsBRAAJAAAAAACAAA1AAAA7AUQACQAAAAAAgAAVgAAAOwFEAAkAAAAMAIAACoAAADsBRAAJAAAABsCAAA2AAAA7AUQACQAAAAbAgAAVwAAAOwFEAAkAAAAxgEAABUAAADsBRAAJAAAAMQBAAAlAAAA7AUQACQAAADIAQAAKAAAAOwFEAAkAAAAyQEAACgAAADsBRAAJAAAAMcBAAAoAAAA7AUQACQAAADFAQAAKAAAAOwFEAAkAAAAEgIAADcAAADsBRAAJAAAABICAABYAEH84cAACwUBAAAAfQBBjOLAAAsFAQAAAH4AQZziwAALBQEAAAB/AEGs4sAACwUBAAAAgABBvOLAAAsFAQAAAIEAQcziwAALBQEAAACCAEHc4sAACwUBAAAAgwBB7OLAAAsFAQAAAIQAQfziwAALBQEAAACFAEGM48AACwUBAAAAhgBBnOPAAAsFAQAAAIcAQazjwAALBQEAAACIAEG848AACwUBAAAAiQBBzOPAAAsFAQAAAIoAQdzjwAALBQEAAACLAEHs48AACwUBAAAAjABB/OPAAAsFAQAAAI0AQYzkwAALBQEAAACNAEGc5MAACwUBAAAAjQBBrOTAAAsFAQAAAI0AQbzkwAALBQEAAACNAEHM5MAACwUBAAAAjQBB3OTAAAsFAQAAAI0AQezkwAALBQEAAACNAEH85MAACwUBAAAAjQBBjOXAAAsFAQAAAI0AQZzlwAAL6QEBAAAAjQAAAGFuIGFycmF5IG9mIGxlbmd0aCAxYW4gYXJyYXkgb2YgbGVuZ3RoIDJhbiBhcnJheSBvZiBsZW5ndGggM2FuIGFycmF5IG9mIGxlbmd0aCA0bWlzc2luZyBmaWVsZCBgAPQyEAAPAAAA6JIRAAEAAABpbnZhbGlkIGxlbmd0aCAAFDMQAA8AAAAakxEACwAAAGR1cGxpY2F0ZSBmaWVsZCBgAAAANDMQABEAAADokhEAAQAAAHVua25vd24gdmFyaWFudCBgYCwgZXhwZWN0ZWQgAAAAWDMQABEAAABpMxAADABBkOfAAAsFAQAAAI4AQaDnwAALBQEAAACPAEGw58AACyUBAAAAkAAAAF4aEABgAAAAoAQAACIAAABeGhAAYAAAAJYEAAAmAEHg58AACwUBAAAAkQBB8OfAAAu9BgEAAACSAAAAc2gxc2gyc2gzYXNoM2Jsb2RUcmVlAAAAygUQACEAAAC4AAAAMAAAAMoFEAAhAAAAtgAAADAAAABtYXhTcGxhdHNudW1TcGxhdHNtYXhTaERlZ3JlZWV4dDBleHQxAAAAkwAAAAQAAAAEAAAAIAAAAMoFEAAhAAAATAAAAFMAAADKBRAAIQAAAE8AAABTAAAAygUQACEAAABSAAAAVQAAAMoFEAAhAAAAVQAAAFUAAABzaDFDb2Rlc8oFEAAhAAAAWAAAAF4AAABzaDJDb2Rlc8oFEAAhAAAAWwAAAF4AAABzaDNDb2Rlc8oFEAAhAAAAYQAAAFkAAADKBRAAIQAAAGQAAABcAAAAygUQACEAAABKAAAAZwAAAMoFEAAhAAAASQAAAGcAAADKBRAAIQAAAEgAAABtAAAAygUQACEAAABHAAAAaAAAAMoFEAAhAAAARgAAAGgAAAArIxAAbQAAAJUAAAAOAAAAcmdiTWlucmdiTWF4bG5TY2FsZU1pbmxuU2NhbGVNYXhzaDFNYXhzaDJNYXhzaDNNYXhsb2RPcGFjaXR5YDUQAAYAAABmNRAABgAAAGw1EAAKAAAAdjUQAAoAAACANRAABgAAAIY1EAAGAAAAjDUQAAYAAACSNRAACgAAABAjEAAaAAAAOQAAAC0AAAAQIxAAGgAAAC4AAAAzAAAA7AUQACQAAACKAAAAJwAAAHNoMwDsBRAAJAAAAJsAAAAuAAAAcGFja2VkAADsBRAAJAAAAEUAAABTAAAA7AUQACQAAABIAAAAUwAAAOwFEAAkAAAASwAAAFMAAADsBRAAJAAAAE4AAABeAAAA7AUQACQAAABRAAAAXgAAAOwFEAAkAAAAVAAAAF4AAADsBRAAJAAAAFcAAABcAAAAc3BsYXRFbmNvZGluZwAAAOwFEAAkAAAAWQAAAHwAAADsBRAAJAAAAEMAAABLAAAA7AUQACQAAABCAAAAbQAAAOwFEAAkAAAAQQAAAGgAAADsBRAAJAAAAEAAAABoAAAAECMQABoAAABWAAAALQAAABAjEAAaAAAASwAAADMAAACUAAAA9AAAAAQAAACVAAAAlgAAAJcAQbjuwAALZQEAAACYAAAAECMQABoAAACXAAAAKwAAAGZpbGVUeXBlECMQABoAAACZAAAAaAAAAJkAAAAIAAAABAAAAJoAAAAQIxAAGgAAAJYAAABYAAAAmwAAAJAAAAAEAAAAnAAAAJ0AAACeAEGo78AACy0BAAAAnwAAABAjEAAaAAAAkAEAAFsAAACgAAAAcAAAAAQAAAChAAAAogAAAKMAQeDvwAALLQEAAACkAAAAECMQABoAAAARAQAAWwAAAKUAAADsAAAABAAAAKYAAACnAAAAqABBmPDAAAvhFQEAAACpAAAAECMQABoAAAB5AAAAKwAAABAjEAAaAAAAewAAAGgAAAAQIxAAGgAAAHgAAABbAAAARXhwZWN0ZWQgIGFjdGl2ZSBzcGxhdHMgYnV0IGdvdCBQOBAACQAAAFk4EAAXAAAAigMQABsAAAAzAAAAFQAAAIoDEAAbAAAApwAAABMAAACKAxAAGwAAAJ8AAAATAAAAigMQABsAAACiAAAAHQAAAIoDEAAbAAAAogAAABEAAACKAxAAGwAAAJAAAAAgAAAAigMQABsAAACQAAAAFAAAAIoDEAAbAAAAfAAAABgAAACKAxAAGwAAAH0AAAAYAAAAigMQABsAAAB0AAAAGQAAALwZEAAfAAAA4wAAABYAAABsb2RJZAAAALwZEAAfAAAA7AAAAFQAAAC8GRAAHwAAAAkBAAAWAAAAvBkQAB8AAAATAQAAVAAAALwZEAAfAAAAJAEAAD0AAAC8GRAAHwAAADcBAAArAAAAvBkQAB8AAAA4AQAAKwAAALwZEAAfAAAAMgEAACsAAAC8GRAAHwAAADMBAAArAAAAvBkQAB8AAAC7AAAAMQAAALwZEAAfAAAA2QAAABMAAAC8GRAAHwAAAMoAAAAnAAAAvBkQAB8AAAC8AAAAJgAAALwZEAAfAAAAzwAAADYAAAC8GRAAHwAAAHcBAAAvAAAAvBkQAB8AAAB6AQAAHwAAAGluZGljZXMAvBkQAB8AAACWAQAAVgAAALwZEAAfAAAAgwEAACQAAAC8GRAAHwAAAIkBAAAjAAAAvBkQAB8AAACGAQAAIgAAALwZEAAfAAAAeAEAACYAAABJbnZhbGlkIGNvbmVfZm92cyBsZW5ndGhJbnZhbGlkIGNvbmVfZm92MHMgbGVuZ3RoSW52YWxpZCBjb25lX2ZvdmVhdGVzIGxlbmd0aEludmFsaWQgYmVoaW5kX2ZvdmVhdGVzIGxlbmd0aEludmFsaWQgbG9kX3NjYWxlcyBsZW5ndGhJbnZhbGlkIHZpZXdfdG9fb2JqZWN0cyBsZW5ndGgAALwZEAAfAAAA5wEAACYAAAC8GRAAHwAAAOkBAABDAAAAvBkQAB8AAADtAQAAGAAAALwZEAAfAAAA+wEAABkAAAC8GRAAHwAAAAACAAAZAAAAvBkQAB8AAAAHAgAAKwAAALwZEAAfAAAACwIAABgAAAC8GRAAHwAAABECAAAvAAAAvBkQAB8AAAATAgAAPgAAALwZEAAfAAAAFQIAABwAAAC8GRAAHwAAAAQCAAAYAAAAvBkQAB8AAAArAgAAJAAAAHBpeGVsTGltaXRpbnN0YW5jZUluZGljZXNjaHVua3NvdXRwdXRTaXplZnJvbnRpZXJTaXplbGVhZkNvdW50AAC8GRAAHwAAAFQCAABcAAAAvBkQAB8AAABTAgAAYgAAALwZEAAfAAAAUgIAAF4AAAC8GRAAHwAAAFECAABZAAAAvBkQAB8AAABQAgAAaAAAALwZEAAfAAAATwIAAGIAAAC8GRAAHwAAAD4CAAAjAAAAvBkQAB8AAABBAgAAWgAAALwZEAAfAAAAQAIAAHIAAAC8GRAAHwAAAD8CAABYAAAAvBkQAB8AAAAxAgAAHQAAALwZEAAfAAAAMQIAADMAAAC8GRAAHwAAAC0CAAAjAAAAvBkQAB8AAAAtAgAAHgAAALwZEAAfAAAAKAIAABwAAAC8GRAAHwAAACICAAAUAAAAvBkQAB8AAADSAQAAHQAAALwZEAAfAAAA1QEAADoAAAC8GRAAHwAAANoBAAAZAAAAvBkQAB8AAAC7AQAAMwAAALwZEAAfAAAAwAEAAB0AAAC8GRAAHwAAAMEBAAAiAAAAvBkQAB8AAADCAQAAIAAAALwZEAAfAAAAwwEAACAAAAC8GRAAHwAAAMQBAAAfAAAAvBkQAB8AAADGAQAAHQAAALwZEAAfAAAAvwEAADwAAAC8GRAAHwAAAL4BAAA9AAAAvBkQAB8AAAD1AAAAOgAAALwZEAAfAAAA9wAAAB0AAAC8GRAAHwAAAPgAAAAdAAAAvBkQAB8AAAD/AAAAWAAAAHZlcnNpb25jb3VudG1heFNoY2h1bmtTaXplYWxsQ2h1bmtCeXRlc3NoQ29kZUNvdW50c3RydWN0IFJhZE1ldGEgd2l0aCAxMSBlbGVtZW50cwAAAFY+EAAfAAAAAAAAAAgAAAAEAAAAqgAAAGZpbGVzbWluc21heHNzaGFwZXN0cnVjdCBNZWFucyB3aXRoIDQgZWxlbWVudHMAAKI+EAAcAAAAZW5jb2RpbmdzdHJ1Y3QgUXVhdHMgd2l0aCAyIGVsZW1lbnRz0D4QABwAAABzdHJ1Y3QgU2gwVjEgd2l0aCAzIGVsZW1lbnRz9D4QABwAAABjb2RlYm9va3N0cnVjdCBTaDBWMiB3aXRoIDIgZWxlbWVudHMgPxAAHAAAAHN0cnVjdCBTaE5WMSB3aXRoIDQgZWxlbWVudHNEPxAAHAAAAGJhbmRzc3RydWN0IFNoTlYyIHdpdGggMyBlbGVtZW50cwAAAG0/EAAcAAAAc3RydWN0IE1lYW5zVjEgd2l0aCA0IGVsZW1lbnRzAACUPxAAHgAAAG1lYW5zc2NhbGVzcXVhdHNzaDBzaE5zdHJ1Y3QgUGNTb2dzVjEgd2l0aCA1IGVsZW1lbnRzAAAA0j8QAB8AAABzdHJ1Y3QgUGNTb2dzVjIgd2l0aCA3IGVsZW1lbnRzAPw/EAAfAAAAc3RydWN0IFNjYWxlc1YxIHdpdGggMyBlbGVtZW50cwAkQBAAHwAAAHN0cnVjdCBTY2FsZXNWMiB3aXRoIDIgZWxlbWVudHMATEAQAB8AAABiYXNlcGF5bG9hZEJ5dGVzcHJvcGVydGllc3N0cnVjdCBSYWRDaHVua01ldGEgd2l0aCA4IGVsZW1lbnRzAAAAjkAQACMAAABnc3BsYXQAALxAEAAGAAAAb2Zmc2V0ZmlsZW5hbWVzdHJ1Y3QgUmFkQ2h1bmtSYW5nZSB3aXRoIDUgZWxlbWVudHMAANpAEAAkAAAAY29tcHJlc3Npb25taW5tYXhzdHJ1Y3QgUmFkQ2h1bmtQcm9wZX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self.location.href);\n }\n const imports = __wbg_get_imports();\n if (typeof module_or_path === "string" || typeof Request === "function" && module_or_path instanceof Request || typeof URL === "function" && module_or_path instanceof URL) {\n module_or_path = fetch(module_or_path);\n }\n const { instance } = await __wbg_load(await module_or_path, imports);\n return __wbg_finalize_init(instance);\n }\n var ch2 = {};\n var wk = function(c, id, msg, transfer, cb) {\n var w = new Worker(ch2[id] || (ch2[id] = URL.createObjectURL(new Blob([\n c + \';addEventListener("error",function(e){e=e.error;postMessage({$e$:[e.message,e.code,e.stack]})})\'\n ], { type: "text/javascript" }))));\n w.onmessage = function(e) {\n var d = e.data, ed = d.$e$;\n if (ed) {\n var err2 = new Error(ed[0]);\n err2["code"] = ed[1];\n err2.stack = ed[2];\n cb(err2, null);\n } else\n cb(null, d);\n };\n w.postMessage(msg, transfer);\n return w;\n };\n var u8 = Uint8Array, u16 = Uint16Array, i32 = Int32Array;\n var fleb = new u8([\n 0,\n 0,\n 0,\n 0,\n 0,\n 0,\n 0,\n 0,\n 1,\n 1,\n 1,\n 1,\n 2,\n 2,\n 2,\n 2,\n 3,\n 3,\n 3,\n 3,\n 4,\n 4,\n 4,\n 4,\n 5,\n 5,\n 5,\n 5,\n 0,\n /* unused */\n 0,\n 0,\n /* impossible */\n 0\n ]);\n var fdeb = new u8([\n 0,\n 0,\n 0,\n 0,\n 1,\n 1,\n 2,\n 2,\n 3,\n 3,\n 4,\n 4,\n 5,\n 5,\n 6,\n 6,\n 7,\n 7,\n 8,\n 8,\n 9,\n 9,\n 10,\n 10,\n 11,\n 11,\n 12,\n 12,\n 13,\n 13,\n /* unused */\n 0,\n 0\n ]);\n var clim = new u8([16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15]);\n var freb = function(eb, start) {\n var b = new u16(31);\n for (var i2 = 0; i2 < 31; ++i2) {\n b[i2] = start += 1 << eb[i2 - 1];\n }\n var r = new i32(b[30]);\n for (var i2 = 1; i2 < 30; ++i2) {\n for (var j = b[i2]; j < b[i2 + 1]; ++j) {\n r[j] = j - b[i2] << 5 | i2;\n }\n }\n return { b, r };\n };\n var _a = freb(fleb, 2), fl = _a.b, revfl = _a.r;\n fl[28] = 258, revfl[258] = 28;\n var _b = freb(fdeb, 0), fd = _b.b;\n var rev = new u16(32768);\n for (var i = 0; i < 32768; ++i) {\n var x = (i & 43690) >> 1 | (i & 21845) << 1;\n x = (x & 52428) >> 2 | (x & 13107) << 2;\n x = (x & 61680) >> 4 | (x & 3855) << 4;\n rev[i] = ((x & 65280) >> 8 | (x & 255) << 8) >> 1;\n }\n var hMap = function(cd, mb, r) {\n var s = cd.length;\n var i2 = 0;\n var l = new u16(mb);\n for (; i2 < s; ++i2) {\n if (cd[i2])\n ++l[cd[i2] - 1];\n }\n var le = new u16(mb);\n for (i2 = 1; i2 < mb; ++i2) {\n le[i2] = le[i2 - 1] + l[i2 - 1] << 1;\n }\n var co;\n if (r) {\n co = new u16(1 << mb);\n var rvb = 15 - mb;\n for (i2 = 0; i2 < s; ++i2) {\n if (cd[i2]) {\n var sv = i2 << 4 | cd[i2];\n var r_1 = mb - cd[i2];\n var v = le[cd[i2] - 1]++ << r_1;\n for (var m = v | (1 << r_1) - 1; v <= m; ++v) {\n co[rev[v] >> rvb] = sv;\n }\n }\n }\n } else {\n co = new u16(s);\n for (i2 = 0; i2 < s; ++i2) {\n if (cd[i2]) {\n co[i2] = rev[le[cd[i2] - 1]++] >> 15 - cd[i2];\n }\n }\n }\n return co;\n };\n var flt = new u8(288);\n for (var i = 0; i < 144; ++i)\n flt[i] = 8;\n for (var i = 144; i < 256; ++i)\n flt[i] = 9;\n for (var i = 256; i < 280; ++i)\n flt[i] = 7;\n for (var i = 280; i < 288; ++i)\n flt[i] = 8;\n var fdt = new u8(32);\n for (var i = 0; i < 32; ++i)\n fdt[i] = 5;\n var flrm = /* @__PURE__ */ hMap(flt, 9, 1);\n var fdrm = /* @__PURE__ */ hMap(fdt, 5, 1);\n var max = function(a) {\n var m = a[0];\n for (var i2 = 1; i2 < a.length; ++i2) {\n if (a[i2] > m)\n m = a[i2];\n }\n return m;\n };\n var bits = function(d, p, m) {\n var o = p / 8 | 0;\n return (d[o] | d[o + 1] << 8) >> (p & 7) & m;\n };\n var bits16 = function(d, p) {\n var o = p / 8 | 0;\n return (d[o] | d[o + 1] << 8 | d[o + 2] << 16) >> (p & 7);\n };\n var shft = function(p) {\n return (p + 7) / 8 | 0;\n };\n var slc = function(v, s, e) {\n if (s == null || s < 0)\n s = 0;\n if (e == null || e > v.length)\n e = v.length;\n return new u8(v.subarray(s, e));\n };\n var ec = [\n "unexpected EOF",\n "invalid block type",\n "invalid length/literal",\n "invalid distance",\n "stream finished",\n "no stream handler",\n ,\n "no callback",\n "invalid UTF-8 data",\n "extra field too long",\n "date not in range 1980-2099",\n "filename too long",\n "stream finishing",\n "invalid zip data"\n // determined by unknown compression method\n ];\n var err = function(ind, msg, nt) {\n var e = new Error(msg || ec[ind]);\n e.code = ind;\n if (Error.captureStackTrace)\n Error.captureStackTrace(e, err);\n if (!nt)\n throw e;\n return e;\n };\n var inflt = function(dat, st, buf, dict) {\n var sl = dat.length, dl = dict ? dict.length : 0;\n if (!sl || st.f && !st.l)\n return buf || new u8(0);\n var noBuf = !buf;\n var resize = noBuf || st.i != 2;\n var noSt = st.i;\n if (noBuf)\n buf = new u8(sl * 3);\n var cbuf = function(l2) {\n var bl = buf.length;\n if (l2 > bl) {\n var nbuf = new u8(Math.max(bl * 2, l2));\n nbuf.set(buf);\n buf = nbuf;\n }\n };\n var final = st.f || 0, pos = st.p || 0, bt = st.b || 0, lm = st.l, dm = st.d, lbt = st.m, dbt = st.n;\n var tbts = sl * 8;\n do {\n if (!lm) {\n final = bits(dat, pos, 1);\n var type = bits(dat, pos + 1, 3);\n pos += 3;\n if (!type) {\n var s = shft(pos) + 4, l = dat[s - 4] | dat[s - 3] << 8, t = s + l;\n if (t > sl) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + l);\n buf.set(dat.subarray(s, t), bt);\n st.b = bt += l, st.p = pos = t * 8, st.f = final;\n continue;\n } else if (type == 1)\n lm = flrm, dm = fdrm, lbt = 9, dbt = 5;\n else if (type == 2) {\n var hLit = bits(dat, pos, 31) + 257, hcLen = bits(dat, pos + 10, 15) + 4;\n var tl = hLit + bits(dat, pos + 5, 31) + 1;\n pos += 14;\n var ldt = new u8(tl);\n var clt = new u8(19);\n for (var i2 = 0; i2 < hcLen; ++i2) {\n clt[clim[i2]] = bits(dat, pos + i2 * 3, 7);\n }\n pos += hcLen * 3;\n var clb = max(clt), clbmsk = (1 << clb) - 1;\n var clm = hMap(clt, clb, 1);\n for (var i2 = 0; i2 < tl; ) {\n var r = clm[bits(dat, pos, clbmsk)];\n pos += r & 15;\n var s = r >> 4;\n if (s < 16) {\n ldt[i2++] = s;\n } else {\n var c = 0, n = 0;\n if (s == 16)\n n = 3 + bits(dat, pos, 3), pos += 2, c = ldt[i2 - 1];\n else if (s == 17)\n n = 3 + bits(dat, pos, 7), pos += 3;\n else if (s == 18)\n n = 11 + bits(dat, pos, 127), pos += 7;\n while (n--)\n ldt[i2++] = c;\n }\n }\n var lt = ldt.subarray(0, hLit), dt = ldt.subarray(hLit);\n lbt = max(lt);\n dbt = max(dt);\n lm = hMap(lt, lbt, 1);\n dm = hMap(dt, dbt, 1);\n } else\n err(1);\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n }\n if (resize)\n cbuf(bt + 131072);\n var lms = (1 << lbt) - 1, dms = (1 << dbt) - 1;\n var lpos = pos;\n for (; ; lpos = pos) {\n var c = lm[bits16(dat, pos) & lms], sym = c >> 4;\n pos += c & 15;\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (!c)\n err(2);\n if (sym < 256)\n buf[bt++] = sym;\n else if (sym == 256) {\n lpos = pos, lm = null;\n break;\n } else {\n var add = sym - 254;\n if (sym > 264) {\n var i2 = sym - 257, b = fleb[i2];\n add = bits(dat, pos, (1 << b) - 1) + fl[i2];\n pos += b;\n }\n var d = dm[bits16(dat, pos) & dms], dsym = d >> 4;\n if (!d)\n err(3);\n pos += d & 15;\n var dt = fd[dsym];\n if (dsym > 3) {\n var b = fdeb[dsym];\n dt += bits16(dat, pos) & (1 << b) - 1, pos += b;\n }\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + 131072);\n var end = bt + add;\n if (bt < dt) {\n var shift = dl - dt, dend = Math.min(dt, end);\n if (shift + bt < 0)\n err(3);\n for (; bt < dend; ++bt)\n buf[bt] = dict[shift + bt];\n }\n for (; bt < end; ++bt)\n buf[bt] = buf[bt - dt];\n }\n }\n st.l = lm, st.p = lpos, st.b = bt, st.f = final;\n if (lm)\n final = 1, st.m = lbt, st.d = dm, st.n = dbt;\n } while (!final);\n return bt != buf.length && noBuf ? slc(buf, 0, bt) : buf.subarray(0, bt);\n };\n var et = /* @__PURE__ */ new u8(0);\n var mrg = function(a, b) {\n var o = {};\n for (var k in a)\n o[k] = a[k];\n for (var k in b)\n o[k] = b[k];\n return o;\n };\n var wcln = function(fn, fnStr, td2) {\n var dt = fn();\n var st = fn.toString();\n var ks = st.slice(st.indexOf("[") + 1, st.lastIndexOf("]")).replace(/\\s+/g, "").split(",");\n for (var i2 = 0; i2 < dt.length; ++i2) {\n var v = dt[i2], k = ks[i2];\n if (typeof v == "function") {\n fnStr += ";" + k + "=";\n var st_1 = v.toString();\n if (v.prototype) {\n if (st_1.indexOf("[native code]") != -1) {\n var spInd = st_1.indexOf(" ", 8) + 1;\n fnStr += st_1.slice(spInd, st_1.indexOf("(", spInd));\n } else {\n fnStr += st_1;\n for (var t in v.prototype)\n fnStr += ";" + k + ".prototype." + t + "=" + v.prototype[t].toString();\n }\n } else\n fnStr += st_1;\n } else\n td2[k] = v;\n }\n return fnStr;\n };\n var ch = [];\n var cbfs = function(v) {\n var tl = [];\n for (var k in v) {\n if (v[k].buffer) {\n tl.push((v[k] = new v[k].constructor(v[k])).buffer);\n }\n }\n return tl;\n };\n var wrkr = function(fns, init, id, cb) {\n if (!ch[id]) {\n var fnStr = "", td_1 = {}, m = fns.length - 1;\n for (var i2 = 0; i2 < m; ++i2)\n fnStr = wcln(fns[i2], fnStr, td_1);\n ch[id] = { c: wcln(fns[m], fnStr, td_1), e: td_1 };\n }\n var td2 = mrg({}, ch[id].e);\n return wk(ch[id].c + ";onmessage=function(e){for(var k in e.data)self[k]=e.data[k];onmessage=" + init.toString() + "}", id, td2, cbfs(td2), cb);\n };\n var bInflt = function() {\n return [u8, u16, i32, fleb, fdeb, clim, fl, fd, flrm, fdrm, rev, ec, hMap, max, bits, bits16, shft, slc, err, inflt, inflateSync, pbf, gopt];\n };\n var pbf = function(msg) {\n return postMessage(msg, [msg.buffer]);\n };\n var gopt = function(o) {\n return o && {\n out: o.size && new u8(o.size),\n dictionary: o.dictionary\n };\n };\n var cbify = function(dat, opts, fns, init, id, cb) {\n var w = wrkr(fns, init, id, function(err2, dat2) {\n w.terminate();\n cb(err2, dat2);\n });\n w.postMessage([dat, opts], opts.consume ? [dat.buffer] : []);\n return function() {\n w.terminate();\n };\n };\n var b2 = function(d, b) {\n return d[b] | d[b + 1] << 8;\n };\n var b4 = function(d, b) {\n return (d[b] | d[b + 1] << 8 | d[b + 2] << 16 | d[b + 3] << 24) >>> 0;\n };\n var b8 = function(d, b) {\n return b4(d, b) + b4(d, b + 4) * 4294967296;\n };\n var gzs = function(d) {\n if (d[0] != 31 || d[1] != 139 || d[2] != 8)\n err(6, "invalid gzip data");\n var flg = d[3];\n var st = 10;\n if (flg & 4)\n st += (d[10] | d[11] << 8) + 2;\n for (var zs = (flg >> 3 & 1) + (flg >> 4 & 1); zs > 0; zs -= !d[st++])\n ;\n return st + (flg & 2);\n };\n var Inflate = /* @__PURE__ */ function() {\n function Inflate2(opts, cb) {\n if (typeof opts == "function")\n cb = opts, opts = {};\n this.ondata = cb;\n var dict = opts && opts.dictionary && opts.dictionary.subarray(-32768);\n this.s = { i: 0, b: dict ? dict.length : 0 };\n this.o = new u8(32768);\n this.p = new u8(0);\n if (dict)\n this.o.set(dict);\n }\n Inflate2.prototype.e = function(c) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n if (!this.p.length)\n this.p = c;\n else if (c.length) {\n var n = new u8(this.p.length + c.length);\n n.set(this.p), n.set(c, this.p.length), this.p = n;\n }\n };\n Inflate2.prototype.c = function(final) {\n this.s.i = +(this.d = final || false);\n var bts = this.s.b;\n var dt = inflt(this.p, this.s, this.o);\n this.ondata(slc(dt, bts, this.s.b), this.d);\n this.o = slc(dt, this.s.b - 32768), this.s.b = this.o.length;\n this.p = slc(this.p, this.s.p / 8 | 0), this.s.p &= 7;\n };\n Inflate2.prototype.push = function(chunk, final) {\n this.e(chunk), this.c(final);\n };\n return Inflate2;\n }();\n function inflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != "function")\n err(7);\n return cbify(data, opts, [\n bInflt\n ], function(ev) {\n return pbf(inflateSync(ev.data[0], gopt(ev.data[1])));\n }, 1, cb);\n }\n function inflateSync(data, opts) {\n return inflt(data, { i: 2 }, opts && opts.out, opts && opts.dictionary);\n }\n var Gunzip = /* @__PURE__ */ function() {\n function Gunzip2(opts, cb) {\n this.v = 1;\n this.r = 0;\n Inflate.call(this, opts, cb);\n }\n Gunzip2.prototype.push = function(chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n this.r += chunk.length;\n if (this.v) {\n var p = this.p.subarray(this.v - 1);\n var s = p.length > 3 ? gzs(p) : 4;\n if (s > p.length) {\n if (!final)\n return;\n } else if (this.v > 1 && this.onmember) {\n this.onmember(this.r - p.length);\n }\n this.p = p.subarray(s), this.v = 0;\n }\n Inflate.prototype.c.call(this, final);\n if (this.s.f && !this.s.l && !final) {\n this.v = shft(this.s.p) + 9;\n this.s = { i: 0 };\n this.o = new u8(0);\n this.push(new u8(0), final);\n }\n };\n return Gunzip2;\n }();\n var td = typeof TextDecoder != "undefined" && /* @__PURE__ */ new TextDecoder();\n try {\n td.decode(et, { stream: true });\n } catch (e) {\n }\n var dutf8 = function(d) {\n for (var r = "", i2 = 0; ; ) {\n var c = d[i2++];\n var eb = (c > 127) + (c > 223) + (c > 239);\n if (i2 + eb > d.length)\n return { s: r, r: slc(d, i2 - 1) };\n if (!eb)\n r += String.fromCharCode(c);\n else if (eb == 3) {\n c = ((c & 15) << 18 | (d[i2++] & 63) << 12 | (d[i2++] & 63) << 6 | d[i2++] & 63) - 65536, r += String.fromCharCode(55296 | c >> 10, 56320 | c & 1023);\n } else if (eb & 1)\n r += String.fromCharCode((c & 31) << 6 | d[i2++] & 63);\n else\n r += String.fromCharCode((c & 15) << 12 | (d[i2++] & 63) << 6 | d[i2++] & 63);\n }\n };\n function strFromU8(dat, latin1) {\n if (latin1) {\n var r = "";\n for (var i2 = 0; i2 < dat.length; i2 += 16384)\n r += String.fromCharCode.apply(null, dat.subarray(i2, i2 + 16384));\n return r;\n } else if (td) {\n return td.decode(dat);\n } else {\n var _a2 = dutf8(dat), s = _a2.s, r = _a2.r;\n if (r.length)\n err(8);\n return s;\n }\n }\n var slzh = function(d, b) {\n return b + 30 + b2(d, b + 26) + b2(d, b + 28);\n };\n var zh = function(d, b, z) {\n var fnl = b2(d, b + 28), fn = strFromU8(d.subarray(b + 46, b + 46 + fnl), !(b2(d, b + 8) & 2048)), es = b + 46 + fnl, bs = b4(d, b + 20);\n var _a2 = z && bs == 4294967295 ? z64e(d, es) : [bs, b4(d, b + 24), b4(d, b + 42)], sc = _a2[0], su = _a2[1], off = _a2[2];\n return [b2(d, b + 10), sc, su, fn, es + b2(d, b + 30) + b2(d, b + 32), off];\n };\n var z64e = function(d, b) {\n for (; b2(d, b) != 1; b += 4 + b2(d, b + 2))\n ;\n return [b8(d, b + 12), b8(d, b + 4), b8(d, b + 20)];\n };\n var mt = typeof queueMicrotask == "function" ? queueMicrotask : typeof setTimeout == "function" ? setTimeout : function(fn) {\n fn();\n };\n function unzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != "function")\n err(7);\n var term = [];\n var tAll = function() {\n for (var i3 = 0; i3 < term.length; ++i3)\n term[i3]();\n };\n var files = {};\n var cbd = function(a, b) {\n mt(function() {\n cb(a, b);\n });\n };\n mt(function() {\n cbd = cb;\n });\n var e = data.length - 22;\n for (; b4(data, e) != 101010256; --e) {\n if (!e || data.length - e > 65558) {\n cbd(err(13, 0, 1), null);\n return tAll;\n }\n }\n var lft = b2(data, e + 8);\n if (lft) {\n var c = lft;\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 101075792;\n if (z) {\n c = lft = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n var _loop_3 = function(i3) {\n var _a2 = zh(data, o, z), c_1 = _a2[0], sc = _a2[1], su = _a2[2], fn = _a2[3], no = _a2[4], off = _a2[5], b = slzh(data, off);\n o = no;\n var cbl = function(e2, d) {\n if (e2) {\n tAll();\n cbd(e2, null);\n } else {\n if (d)\n files[fn] = d;\n if (!--lft)\n cbd(null, files);\n }\n };\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_1\n })) {\n if (!c_1)\n cbl(null, slc(data, b, b + sc));\n else if (c_1 == 8) {\n var infl = data.subarray(b, b + sc);\n if (su < 524288 || sc > 0.8 * su) {\n try {\n cbl(null, inflateSync(infl, { out: new u8(su) }));\n } catch (e2) {\n cbl(e2, null);\n }\n } else\n term.push(inflate(infl, { size: su }, cbl));\n } else\n cbl(err(14, "unknown compression type " + c_1, 1), null);\n } else\n cbl(null, null);\n };\n for (var i2 = 0; i2 < c; ++i2) {\n _loop_3(i2);\n }\n } else\n cbd(null, {});\n return tAll;\n }\n function unzipSync(data, opts) {\n var files = {};\n var e = data.length - 22;\n for (; b4(data, e) != 101010256; --e) {\n if (!e || data.length - e > 65558)\n err(13);\n }\n var c = b2(data, e + 8);\n if (!c)\n return {};\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 101075792;\n if (z) {\n c = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n for (var i2 = 0; i2 < c; ++i2) {\n var _a2 = zh(data, o, z), c_2 = _a2[0], sc = _a2[1], su = _a2[2], fn = _a2[3], no = _a2[4], off = _a2[5], b = slzh(data, off);\n o = no;\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_2\n })) {\n if (!c_2)\n files[fn] = slc(data, b, b + sc);\n else if (c_2 == 8)\n files[fn] = inflateSync(data.subarray(b, b + sc), { out: new u8(su) });\n else\n err(14, "unknown compression type " + c_2);\n }\n }\n return files;\n }\n /**\n * @license\n * Copyright 2010-2025 Three.js Authors\n * SPDX-License-Identifier: MIT\n */\n const REVISION = "180";\n const NoColorSpace = "";\n const SRGBColorSpace = "srgb";\n const LinearSRGBColorSpace = "srgb-linear";\n const LinearTransfer = "linear";\n const SRGBTransfer = "srgb";\n function clamp(value, min, max2) {\n return Math.max(min, Math.min(max2, value));\n }\n function euclideanModulo(n, m) {\n return (n % m + m) % m;\n }\n function lerp(x2, y, t) {\n return (1 - t) * x2 + t * y;\n }\n class Quaternion {\n /**\n * Constructs a new quaternion.\n *\n * @param {number} [x=0] - The x value of this quaternion.\n * @param {number} [y=0] - The y value of this quaternion.\n * @param {number} [z=0] - The z value of this quaternion.\n * @param {number} [w=1] - The w value of this quaternion.\n */\n constructor(x2 = 0, y = 0, z = 0, w = 1) {\n this.isQuaternion = true;\n this._x = x2;\n this._y = y;\n this._z = z;\n this._w = w;\n }\n /**\n * Interpolates between two quaternions via SLERP. This implementation assumes the\n * quaternion data are managed in flat arrays.\n *\n * @param {Array} dst - The destination array.\n * @param {number} dstOffset - An offset into the destination array.\n * @param {Array} src0 - The source array of the first quaternion.\n * @param {number} srcOffset0 - An offset into the first source array.\n * @param {Array} src1 - The source array of the second quaternion.\n * @param {number} srcOffset1 - An offset into the second source array.\n * @param {number} t - The interpolation factor in the range `[0,1]`.\n * @see {@link Quaternion#slerp}\n */\n static slerpFlat(dst, dstOffset, src0, srcOffset0, src1, srcOffset1, t) {\n let x0 = src0[srcOffset0 + 0], y0 = src0[srcOffset0 + 1], z0 = src0[srcOffset0 + 2], w0 = src0[srcOffset0 + 3];\n const x1 = src1[srcOffset1 + 0], y1 = src1[srcOffset1 + 1], z1 = src1[srcOffset1 + 2], w1 = src1[srcOffset1 + 3];\n if (t === 0) {\n dst[dstOffset + 0] = x0;\n dst[dstOffset + 1] = y0;\n dst[dstOffset + 2] = z0;\n dst[dstOffset + 3] = w0;\n return;\n }\n if (t === 1) {\n dst[dstOffset + 0] = x1;\n dst[dstOffset + 1] = y1;\n dst[dstOffset + 2] = z1;\n dst[dstOffset + 3] = w1;\n return;\n }\n if (w0 !== w1 || x0 !== x1 || y0 !== y1 || z0 !== z1) {\n let s = 1 - t;\n const cos = x0 * x1 + y0 * y1 + z0 * z1 + w0 * w1, dir = cos >= 0 ? 1 : -1, sqrSin = 1 - cos * cos;\n if (sqrSin > Number.EPSILON) {\n const sin = Math.sqrt(sqrSin), len = Math.atan2(sin, cos * dir);\n s = Math.sin(s * len) / sin;\n t = Math.sin(t * len) / sin;\n }\n const tDir = t * dir;\n x0 = x0 * s + x1 * tDir;\n y0 = y0 * s + y1 * tDir;\n z0 = z0 * s + z1 * tDir;\n w0 = w0 * s + w1 * tDir;\n if (s === 1 - t) {\n const f = 1 / Math.sqrt(x0 * x0 + y0 * y0 + z0 * z0 + w0 * w0);\n x0 *= f;\n y0 *= f;\n z0 *= f;\n w0 *= f;\n }\n }\n dst[dstOffset] = x0;\n dst[dstOffset + 1] = y0;\n dst[dstOffset + 2] = z0;\n dst[dstOffset + 3] = w0;\n }\n /**\n * Multiplies two quaternions. This implementation assumes the quaternion data are managed\n * in flat arrays.\n *\n * @param {Array} dst - The destination array.\n * @param {number} dstOffset - An offset into the destination array.\n * @param {Array} src0 - The source array of the first quaternion.\n * @param {number} srcOffset0 - An offset into the first source array.\n * @param {Array} src1 - The source array of the second quaternion.\n * @param {number} srcOffset1 - An offset into the second source array.\n * @return {Array} The destination array.\n * @see {@link Quaternion#multiplyQuaternions}.\n */\n static multiplyQuaternionsFlat(dst, dstOffset, src0, srcOffset0, src1, srcOffset1) {\n const x0 = src0[srcOffset0];\n const y0 = src0[srcOffset0 + 1];\n const z0 = src0[srcOffset0 + 2];\n const w0 = src0[srcOffset0 + 3];\n const x1 = src1[srcOffset1];\n const y1 = src1[srcOffset1 + 1];\n const z1 = src1[srcOffset1 + 2];\n const w1 = src1[srcOffset1 + 3];\n dst[dstOffset] = x0 * w1 + w0 * x1 + y0 * z1 - z0 * y1;\n dst[dstOffset + 1] = y0 * w1 + w0 * y1 + z0 * x1 - x0 * z1;\n dst[dstOffset + 2] = z0 * w1 + w0 * z1 + x0 * y1 - y0 * x1;\n dst[dstOffset + 3] = w0 * w1 - x0 * x1 - y0 * y1 - z0 * z1;\n return dst;\n }\n /**\n * The x value of this quaternion.\n *\n * @type {number}\n * @default 0\n */\n get x() {\n return this._x;\n }\n set x(value) {\n this._x = value;\n this._onChangeCallback();\n }\n /**\n * The y value of this quaternion.\n *\n * @type {number}\n * @default 0\n */\n get y() {\n return this._y;\n }\n set y(value) {\n this._y = value;\n this._onChangeCallback();\n }\n /**\n * The z value of this quaternion.\n *\n * @type {number}\n * @default 0\n */\n get z() {\n return this._z;\n }\n set z(value) {\n this._z = value;\n this._onChangeCallback();\n }\n /**\n * The w value of this quaternion.\n *\n * @type {number}\n * @default 1\n */\n get w() {\n return this._w;\n }\n set w(value) {\n this._w = value;\n this._onChangeCallback();\n }\n /**\n * Sets the quaternion components.\n *\n * @param {number} x - The x value of this quaternion.\n * @param {number} y - The y value of this quaternion.\n * @param {number} z - The z value of this quaternion.\n * @param {number} w - The w value of this quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n set(x2, y, z, w) {\n this._x = x2;\n this._y = y;\n this._z = z;\n this._w = w;\n this._onChangeCallback();\n return this;\n }\n /**\n * Returns a new quaternion with copied values from this instance.\n *\n * @return {Quaternion} A clone of this instance.\n */\n clone() {\n return new this.constructor(this._x, this._y, this._z, this._w);\n }\n /**\n * Copies the values of the given quaternion to this instance.\n *\n * @param {Quaternion} quaternion - The quaternion to copy.\n * @return {Quaternion} A reference to this quaternion.\n */\n copy(quaternion) {\n this._x = quaternion.x;\n this._y = quaternion.y;\n this._z = quaternion.z;\n this._w = quaternion.w;\n this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion from the rotation specified by the given\n * Euler angles.\n *\n * @param {Euler} euler - The Euler angles.\n * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromEuler(euler, update = true) {\n const x2 = euler._x, y = euler._y, z = euler._z, order = euler._order;\n const cos = Math.cos;\n const sin = Math.sin;\n const c1 = cos(x2 / 2);\n const c2 = cos(y / 2);\n const c3 = cos(z / 2);\n const s1 = sin(x2 / 2);\n const s2 = sin(y / 2);\n const s3 = sin(z / 2);\n switch (order) {\n case "XYZ":\n this._x = s1 * c2 * c3 + c1 * s2 * s3;\n this._y = c1 * s2 * c3 - s1 * c2 * s3;\n this._z = c1 * c2 * s3 + s1 * s2 * c3;\n this._w = c1 * c2 * c3 - s1 * s2 * s3;\n break;\n case "YXZ":\n this._x = s1 * c2 * c3 + c1 * s2 * s3;\n this._y = c1 * s2 * c3 - s1 * c2 * s3;\n this._z = c1 * c2 * s3 - s1 * s2 * c3;\n this._w = c1 * c2 * c3 + s1 * s2 * s3;\n break;\n case "ZXY":\n this._x = s1 * c2 * c3 - c1 * s2 * s3;\n this._y = c1 * s2 * c3 + s1 * c2 * s3;\n this._z = c1 * c2 * s3 + s1 * s2 * c3;\n this._w = c1 * c2 * c3 - s1 * s2 * s3;\n break;\n case "ZYX":\n this._x = s1 * c2 * c3 - c1 * s2 * s3;\n this._y = c1 * s2 * c3 + s1 * c2 * s3;\n this._z = c1 * c2 * s3 - s1 * s2 * c3;\n this._w = c1 * c2 * c3 + s1 * s2 * s3;\n break;\n case "YZX":\n this._x = s1 * c2 * c3 + c1 * s2 * s3;\n this._y = c1 * s2 * c3 + s1 * c2 * s3;\n this._z = c1 * c2 * s3 - s1 * s2 * c3;\n this._w = c1 * c2 * c3 - s1 * s2 * s3;\n break;\n case "XZY":\n this._x = s1 * c2 * c3 - c1 * s2 * s3;\n this._y = c1 * s2 * c3 - s1 * c2 * s3;\n this._z = c1 * c2 * s3 + s1 * s2 * c3;\n this._w = c1 * c2 * c3 + s1 * s2 * s3;\n break;\n default:\n console.warn("THREE.Quaternion: .setFromEuler() encountered an unknown order: " + order);\n }\n if (update === true) this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion from the given axis and angle.\n *\n * @param {Vector3} axis - The normalized axis.\n * @param {number} angle - The angle in radians.\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromAxisAngle(axis, angle) {\n const halfAngle = angle / 2, s = Math.sin(halfAngle);\n this._x = axis.x * s;\n this._y = axis.y * s;\n this._z = axis.z * s;\n this._w = Math.cos(halfAngle);\n this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion from the given rotation matrix.\n *\n * @param {Matrix4} m - A 4x4 matrix of which the upper 3x3 of matrix is a pure rotation matrix (i.e. unscaled).\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromRotationMatrix(m) {\n const te = m.elements, m11 = te[0], m12 = te[4], m13 = te[8], m21 = te[1], m22 = te[5], m23 = te[9], m31 = te[2], m32 = te[6], m33 = te[10], trace = m11 + m22 + m33;\n if (trace > 0) {\n const s = 0.5 / Math.sqrt(trace + 1);\n this._w = 0.25 / s;\n this._x = (m32 - m23) * s;\n this._y = (m13 - m31) * s;\n this._z = (m21 - m12) * s;\n } else if (m11 > m22 && m11 > m33) {\n const s = 2 * Math.sqrt(1 + m11 - m22 - m33);\n this._w = (m32 - m23) / s;\n this._x = 0.25 * s;\n this._y = (m12 + m21) / s;\n this._z = (m13 + m31) / s;\n } else if (m22 > m33) {\n const s = 2 * Math.sqrt(1 + m22 - m11 - m33);\n this._w = (m13 - m31) / s;\n this._x = (m12 + m21) / s;\n this._y = 0.25 * s;\n this._z = (m23 + m32) / s;\n } else {\n const s = 2 * Math.sqrt(1 + m33 - m11 - m22);\n this._w = (m21 - m12) / s;\n this._x = (m13 + m31) / s;\n this._y = (m23 + m32) / s;\n this._z = 0.25 * s;\n }\n this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion to the rotation required to rotate the direction vector\n * `vFrom` to the direction vector `vTo`.\n *\n * @param {Vector3} vFrom - The first (normalized) direction vector.\n * @param {Vector3} vTo - The second (normalized) direction vector.\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromUnitVectors(vFrom, vTo) {\n let r = vFrom.dot(vTo) + 1;\n if (r < 1e-8) {\n r = 0;\n if (Math.abs(vFrom.x) > Math.abs(vFrom.z)) {\n this._x = -vFrom.y;\n this._y = vFrom.x;\n this._z = 0;\n this._w = r;\n } else {\n this._x = 0;\n this._y = -vFrom.z;\n this._z = vFrom.y;\n this._w = r;\n }\n } else {\n this._x = vFrom.y * vTo.z - vFrom.z * vTo.y;\n this._y = vFrom.z * vTo.x - vFrom.x * vTo.z;\n this._z = vFrom.x * vTo.y - vFrom.y * vTo.x;\n this._w = r;\n }\n return this.normalize();\n }\n /**\n * Returns the angle between this quaternion and the given one in radians.\n *\n * @param {Quaternion} q - The quaternion to compute the angle with.\n * @return {number} The angle in radians.\n */\n angleTo(q) {\n return 2 * Math.acos(Math.abs(clamp(this.dot(q), -1, 1)));\n }\n /**\n * Rotates this quaternion by a given angular step to the given quaternion.\n * The method ensures that the final quaternion will not overshoot `q`.\n *\n * @param {Quaternion} q - The target quaternion.\n * @param {number} step - The angular step in radians.\n * @return {Quaternion} A reference to this quaternion.\n */\n rotateTowards(q, step) {\n const angle = this.angleTo(q);\n if (angle === 0) return this;\n const t = Math.min(1, step / angle);\n this.slerp(q, t);\n return this;\n }\n /**\n * Sets this quaternion to the identity quaternion; that is, to the\n * quaternion that represents "no rotation".\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n identity() {\n return this.set(0, 0, 0, 1);\n }\n /**\n * Inverts this quaternion via {@link Quaternion#conjugate}. The\n * quaternion is assumed to have unit length.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n invert() {\n return this.conjugate();\n }\n /**\n * Returns the rotational conjugate of this quaternion. The conjugate of a\n * quaternion represents the same rotation in the opposite direction about\n * the rotational axis.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n conjugate() {\n this._x *= -1;\n this._y *= -1;\n this._z *= -1;\n this._onChangeCallback();\n return this;\n }\n /**\n * Calculates the dot product of this quaternion and the given one.\n *\n * @param {Quaternion} v - The quaternion to compute the dot product with.\n * @return {number} The result of the dot product.\n */\n dot(v) {\n return this._x * v._x + this._y * v._y + this._z * v._z + this._w * v._w;\n }\n /**\n * Computes the squared Euclidean length (straight-line length) of this quaternion,\n * considered as a 4 dimensional vector. This can be useful if you are comparing the\n * lengths of two quaternions, as this is a slightly more efficient calculation than\n * {@link Quaternion#length}.\n *\n * @return {number} The squared Euclidean length.\n */\n lengthSq() {\n return this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w;\n }\n /**\n * Computes the Euclidean length (straight-line length) of this quaternion,\n * considered as a 4 dimensional vector.\n *\n * @return {number} The Euclidean length.\n */\n length() {\n return Math.sqrt(this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w);\n }\n /**\n * Normalizes this quaternion - that is, calculated the quaternion that performs\n * the same rotation as this one, but has a length equal to `1`.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n normalize() {\n let l = this.length();\n if (l === 0) {\n this._x = 0;\n this._y = 0;\n this._z = 0;\n this._w = 1;\n } else {\n l = 1 / l;\n this._x = this._x * l;\n this._y = this._y * l;\n this._z = this._z * l;\n this._w = this._w * l;\n }\n this._onChangeCallback();\n return this;\n }\n /**\n * Multiplies this quaternion by the given one.\n *\n * @param {Quaternion} q - The quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n multiply(q) {\n return this.multiplyQuaternions(this, q);\n }\n /**\n * Pre-multiplies this quaternion by the given one.\n *\n * @param {Quaternion} q - The quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n premultiply(q) {\n return this.multiplyQuaternions(q, this);\n }\n /**\n * Multiplies the given quaternions and stores the result in this instance.\n *\n * @param {Quaternion} a - The first quaternion.\n * @param {Quaternion} b - The second quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n multiplyQuaternions(a, b) {\n const qax = a._x, qay = a._y, qaz = a._z, qaw = a._w;\n const qbx = b._x, qby = b._y, qbz = b._z, qbw = b._w;\n this._x = qax * qbw + qaw * qbx + qay * qbz - qaz * qby;\n this._y = qay * qbw + qaw * qby + qaz * qbx - qax * qbz;\n this._z = qaz * qbw + qaw * qbz + qax * qby - qay * qbx;\n this._w = qaw * qbw - qax * qbx - qay * qby - qaz * qbz;\n this._onChangeCallback();\n return this;\n }\n /**\n * Performs a spherical linear interpolation between quaternions.\n *\n * @param {Quaternion} qb - The target quaternion.\n * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n * @return {Quaternion} A reference to this quaternion.\n */\n slerp(qb, t) {\n if (t === 0) return this;\n if (t === 1) return this.copy(qb);\n const x2 = this._x, y = this._y, z = this._z, w = this._w;\n let cosHalfTheta = w * qb._w + x2 * qb._x + y * qb._y + z * qb._z;\n if (cosHalfTheta < 0) {\n this._w = -qb._w;\n this._x = -qb._x;\n this._y = -qb._y;\n this._z = -qb._z;\n cosHalfTheta = -cosHalfTheta;\n } else {\n this.copy(qb);\n }\n if (cosHalfTheta >= 1) {\n this._w = w;\n this._x = x2;\n this._y = y;\n this._z = z;\n return this;\n }\n const sqrSinHalfTheta = 1 - cosHalfTheta * cosHalfTheta;\n if (sqrSinHalfTheta <= Number.EPSILON) {\n const s = 1 - t;\n this._w = s * w + t * this._w;\n this._x = s * x2 + t * this._x;\n this._y = s * y + t * this._y;\n this._z = s * z + t * this._z;\n this.normalize();\n return this;\n }\n const sinHalfTheta = Math.sqrt(sqrSinHalfTheta);\n const halfTheta = Math.atan2(sinHalfTheta, cosHalfTheta);\n const ratioA = Math.sin((1 - t) * halfTheta) / sinHalfTheta, ratioB = Math.sin(t * halfTheta) / sinHalfTheta;\n this._w = w * ratioA + this._w * ratioB;\n this._x = x2 * ratioA + this._x * ratioB;\n this._y = y * ratioA + this._y * ratioB;\n this._z = z * ratioA + this._z * ratioB;\n this._onChangeCallback();\n return this;\n }\n /**\n * Performs a spherical linear interpolation between the given quaternions\n * and stores the result in this quaternion.\n *\n * @param {Quaternion} qa - The source quaternion.\n * @param {Quaternion} qb - The target quaternion.\n * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n * @return {Quaternion} A reference to this quaternion.\n */\n slerpQuaternions(qa, qb, t) {\n return this.copy(qa).slerp(qb, t);\n }\n /**\n * Sets this quaternion to a uniformly random, normalized quaternion.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n random() {\n const theta1 = 2 * Math.PI * Math.random();\n const theta2 = 2 * Math.PI * Math.random();\n const x0 = Math.random();\n const r1 = Math.sqrt(1 - x0);\n const r2 = Math.sqrt(x0);\n return this.set(\n r1 * Math.sin(theta1),\n r1 * Math.cos(theta1),\n r2 * Math.sin(theta2),\n r2 * Math.cos(theta2)\n );\n }\n /**\n * Returns `true` if this quaternion is equal with the given one.\n *\n * @param {Quaternion} quaternion - The quaternion to test for equality.\n * @return {boolean} Whether this quaternion is equal with the given one.\n */\n equals(quaternion) {\n return quaternion._x === this._x && quaternion._y === this._y && quaternion._z === this._z && quaternion._w === this._w;\n }\n /**\n * Sets this quaternion\'s components from the given array.\n *\n * @param {Array} array - An array holding the quaternion component values.\n * @param {number} [offset=0] - The offset into the array.\n * @return {Quaternion} A reference to this quaternion.\n */\n fromArray(array, offset = 0) {\n this._x = array[offset];\n this._y = array[offset + 1];\n this._z = array[offset + 2];\n this._w = array[offset + 3];\n this._onChangeCallback();\n return this;\n }\n /**\n * Writes the components of this quaternion to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the quaternion components.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The quaternion components.\n */\n toArray(array = [], offset = 0) {\n array[offset] = this._x;\n array[offset + 1] = this._y;\n array[offset + 2] = this._z;\n array[offset + 3] = this._w;\n return array;\n }\n /**\n * Sets the components of this quaternion from the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - The buffer attribute holding quaternion data.\n * @param {number} index - The index into the attribute.\n * @return {Quaternion} A reference to this quaternion.\n */\n fromBufferAttribute(attribute, index) {\n this._x = attribute.getX(index);\n this._y = attribute.getY(index);\n this._z = attribute.getZ(index);\n this._w = attribute.getW(index);\n this._onChangeCallback();\n return this;\n }\n /**\n * This methods defines the serialization result of this class. Returns the\n * numerical elements of this quaternion in an array of format `[x, y, z, w]`.\n *\n * @return {Array} The serialized quaternion.\n */\n toJSON() {\n return this.toArray();\n }\n _onChange(callback) {\n this._onChangeCallback = callback;\n return this;\n }\n _onChangeCallback() {\n }\n *[Symbol.iterator]() {\n yield this._x;\n yield this._y;\n yield this._z;\n yield this._w;\n }\n }\n class Vector3 {\n /**\n * Constructs a new 3D vector.\n *\n * @param {number} [x=0] - The x value of this vector.\n * @param {number} [y=0] - The y value of this vector.\n * @param {number} [z=0] - The z value of this vector.\n */\n constructor(x2 = 0, y = 0, z = 0) {\n Vector3.prototype.isVector3 = true;\n this.x = x2;\n this.y = y;\n this.z = z;\n }\n /**\n * Sets the vector components.\n *\n * @param {number} x - The value of the x component.\n * @param {number} y - The value of the y component.\n * @param {number} z - The value of the z component.\n * @return {Vector3} A reference to this vector.\n */\n set(x2, y, z) {\n if (z === void 0) z = this.z;\n this.x = x2;\n this.y = y;\n this.z = z;\n return this;\n }\n /**\n * Sets the vector components to the same value.\n *\n * @param {number} scalar - The value to set for all vector components.\n * @return {Vector3} A reference to this vector.\n */\n setScalar(scalar) {\n this.x = scalar;\n this.y = scalar;\n this.z = scalar;\n return this;\n }\n /**\n * Sets the vector\'s x component to the given value\n *\n * @param {number} x - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setX(x2) {\n this.x = x2;\n return this;\n }\n /**\n * Sets the vector\'s y component to the given value\n *\n * @param {number} y - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setY(y) {\n this.y = y;\n return this;\n }\n /**\n * Sets the vector\'s z component to the given value\n *\n * @param {number} z - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setZ(z) {\n this.z = z;\n return this;\n }\n /**\n * Allows to set a vector component with an index.\n *\n * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n * @param {number} value - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setComponent(index, value) {\n switch (index) {\n case 0:\n this.x = value;\n break;\n case 1:\n this.y = value;\n break;\n case 2:\n this.z = value;\n break;\n default:\n throw new Error("index is out of range: " + index);\n }\n return this;\n }\n /**\n * Returns the value of the vector component which matches the given index.\n *\n * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n * @return {number} A vector component value.\n */\n getComponent(index) {\n switch (index) {\n case 0:\n return this.x;\n case 1:\n return this.y;\n case 2:\n return this.z;\n default:\n throw new Error("index is out of range: " + index);\n }\n }\n /**\n * Returns a new vector with copied values from this instance.\n *\n * @return {Vector3} A clone of this instance.\n */\n clone() {\n return new this.constructor(this.x, this.y, this.z);\n }\n /**\n * Copies the values of the given vector to this instance.\n *\n * @param {Vector3} v - The vector to copy.\n * @return {Vector3} A reference to this vector.\n */\n copy(v) {\n this.x = v.x;\n this.y = v.y;\n this.z = v.z;\n return this;\n }\n /**\n * Adds the given vector to this instance.\n *\n * @param {Vector3} v - The vector to add.\n * @return {Vector3} A reference to this vector.\n */\n add(v) {\n this.x += v.x;\n this.y += v.y;\n this.z += v.z;\n return this;\n }\n /**\n * Adds the given scalar value to all components of this instance.\n *\n * @param {number} s - The scalar to add.\n * @return {Vector3} A reference to this vector.\n */\n addScalar(s) {\n this.x += s;\n this.y += s;\n this.z += s;\n return this;\n }\n /**\n * Adds the given vectors and stores the result in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n addVectors(a, b) {\n this.x = a.x + b.x;\n this.y = a.y + b.y;\n this.z = a.z + b.z;\n return this;\n }\n /**\n * Adds the given vector scaled by the given factor to this instance.\n *\n * @param {Vector3|Vector4} v - The vector.\n * @param {number} s - The factor that scales `v`.\n * @return {Vector3} A reference to this vector.\n */\n addScaledVector(v, s) {\n this.x += v.x * s;\n this.y += v.y * s;\n this.z += v.z * s;\n return this;\n }\n /**\n * Subtracts the given vector from this instance.\n *\n * @param {Vector3} v - The vector to subtract.\n * @return {Vector3} A reference to this vector.\n */\n sub(v) {\n this.x -= v.x;\n this.y -= v.y;\n this.z -= v.z;\n return this;\n }\n /**\n * Subtracts the given scalar value from all components of this instance.\n *\n * @param {number} s - The scalar to subtract.\n * @return {Vector3} A reference to this vector.\n */\n subScalar(s) {\n this.x -= s;\n this.y -= s;\n this.z -= s;\n return this;\n }\n /**\n * Subtracts the given vectors and stores the result in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n subVectors(a, b) {\n this.x = a.x - b.x;\n this.y = a.y - b.y;\n this.z = a.z - b.z;\n return this;\n }\n /**\n * Multiplies the given vector with this instance.\n *\n * @param {Vector3} v - The vector to multiply.\n * @return {Vector3} A reference to this vector.\n */\n multiply(v) {\n this.x *= v.x;\n this.y *= v.y;\n this.z *= v.z;\n return this;\n }\n /**\n * Multiplies the given scalar value with all components of this instance.\n *\n * @param {number} scalar - The scalar to multiply.\n * @return {Vector3} A reference to this vector.\n */\n multiplyScalar(scalar) {\n this.x *= scalar;\n this.y *= scalar;\n this.z *= scalar;\n return this;\n }\n /**\n * Multiplies the given vectors and stores the result in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n multiplyVectors(a, b) {\n this.x = a.x * b.x;\n this.y = a.y * b.y;\n this.z = a.z * b.z;\n return this;\n }\n /**\n * Applies the given Euler rotation to this vector.\n *\n * @param {Euler} euler - The Euler angles.\n * @return {Vector3} A reference to this vector.\n */\n applyEuler(euler) {\n return this.applyQuaternion(_quaternion$4.setFromEuler(euler));\n }\n /**\n * Applies a rotation specified by an axis and an angle to this vector.\n *\n * @param {Vector3} axis - A normalized vector representing the rotation axis.\n * @param {number} angle - The angle in radians.\n * @return {Vector3} A reference to this vector.\n */\n applyAxisAngle(axis, angle) {\n return this.applyQuaternion(_quaternion$4.setFromAxisAngle(axis, angle));\n }\n /**\n * Multiplies this vector with the given 3x3 matrix.\n *\n * @param {Matrix3} m - The 3x3 matrix.\n * @return {Vector3} A reference to this vector.\n */\n applyMatrix3(m) {\n const x2 = this.x, y = this.y, z = this.z;\n const e = m.elements;\n this.x = e[0] * x2 + e[3] * y + e[6] * z;\n this.y = e[1] * x2 + e[4] * y + e[7] * z;\n this.z = e[2] * x2 + e[5] * y + e[8] * z;\n return this;\n }\n /**\n * Multiplies this vector by the given normal matrix and normalizes\n * the result.\n *\n * @param {Matrix3} m - The normal matrix.\n * @return {Vector3} A reference to this vector.\n */\n applyNormalMatrix(m) {\n return this.applyMatrix3(m).normalize();\n }\n /**\n * Multiplies this vector (with an implicit 1 in the 4th dimension) by m, and\n * divides by perspective.\n *\n * @param {Matrix4} m - The matrix to apply.\n * @return {Vector3} A reference to this vector.\n */\n applyMatrix4(m) {\n const x2 = this.x, y = this.y, z = this.z;\n const e = m.elements;\n const w = 1 / (e[3] * x2 + e[7] * y + e[11] * z + e[15]);\n this.x = (e[0] * x2 + e[4] * y + e[8] * z + e[12]) * w;\n this.y = (e[1] * x2 + e[5] * y + e[9] * z + e[13]) * w;\n this.z = (e[2] * x2 + e[6] * y + e[10] * z + e[14]) * w;\n return this;\n }\n /**\n * Applies the given Quaternion to this vector.\n *\n * @param {Quaternion} q - The Quaternion.\n * @return {Vector3} A reference to this vector.\n */\n applyQuaternion(q) {\n const vx = this.x, vy = this.y, vz = this.z;\n const qx = q.x, qy = q.y, qz = q.z, qw = q.w;\n const tx = 2 * (qy * vz - qz * vy);\n const ty = 2 * (qz * vx - qx * vz);\n const tz = 2 * (qx * vy - qy * vx);\n this.x = vx + qw * tx + qy * tz - qz * ty;\n this.y = vy + qw * ty + qz * tx - qx * tz;\n this.z = vz + qw * tz + qx * ty - qy * tx;\n return this;\n }\n /**\n * Projects this vector from world space into the camera\'s normalized\n * device coordinate (NDC) space.\n *\n * @param {Camera} camera - The camera.\n * @return {Vector3} A reference to this vector.\n */\n project(camera) {\n return this.applyMatrix4(camera.matrixWorldInverse).applyMatrix4(camera.projectionMatrix);\n }\n /**\n * Unprojects this vector from the camera\'s normalized device coordinate (NDC)\n * space into world space.\n *\n * @param {Camera} camera - The camera.\n * @return {Vector3} A reference to this vector.\n */\n unproject(camera) {\n return this.applyMatrix4(camera.projectionMatrixInverse).applyMatrix4(camera.matrixWorld);\n }\n /**\n * Transforms the direction of this vector by a matrix (the upper left 3 x 3\n * subset of the given 4x4 matrix and then normalizes the result.\n *\n * @param {Matrix4} m - The matrix.\n * @return {Vector3} A reference to this vector.\n */\n transformDirection(m) {\n const x2 = this.x, y = this.y, z = this.z;\n const e = m.elements;\n this.x = e[0] * x2 + e[4] * y + e[8] * z;\n this.y = e[1] * x2 + e[5] * y + e[9] * z;\n this.z = e[2] * x2 + e[6] * y + e[10] * z;\n return this.normalize();\n }\n /**\n * Divides this instance by the given vector.\n *\n * @param {Vector3} v - The vector to divide.\n * @return {Vector3} A reference to this vector.\n */\n divide(v) {\n this.x /= v.x;\n this.y /= v.y;\n this.z /= v.z;\n return this;\n }\n /**\n * Divides this vector by the given scalar.\n *\n * @param {number} scalar - The scalar to divide.\n * @return {Vector3} A reference to this vector.\n */\n divideScalar(scalar) {\n return this.multiplyScalar(1 / scalar);\n }\n /**\n * If this vector\'s x, y or z value is greater than the given vector\'s x, y or z\n * value, replace that value with the corresponding min value.\n *\n * @param {Vector3} v - The vector.\n * @return {Vector3} A reference to this vector.\n */\n min(v) {\n this.x = Math.min(this.x, v.x);\n this.y = Math.min(this.y, v.y);\n this.z = Math.min(this.z, v.z);\n return this;\n }\n /**\n * If this vector\'s x, y or z value is less than the given vector\'s x, y or z\n * value, replace that value with the corresponding max value.\n *\n * @param {Vector3} v - The vector.\n * @return {Vector3} A reference to this vector.\n */\n max(v) {\n this.x = Math.max(this.x, v.x);\n this.y = Math.max(this.y, v.y);\n this.z = Math.max(this.z, v.z);\n return this;\n }\n /**\n * If this vector\'s x, y or z value is greater than the max vector\'s x, y or z\n * value, it is replaced by the corresponding value.\n * If this vector\'s x, y or z value is less than the min vector\'s x, y or z value,\n * it is replaced by the corresponding value.\n *\n * @param {Vector3} min - The minimum x, y and z values.\n * @param {Vector3} max - The maximum x, y and z values in the desired range.\n * @return {Vector3} A reference to this vector.\n */\n clamp(min, max2) {\n this.x = clamp(this.x, min.x, max2.x);\n this.y = clamp(this.y, min.y, max2.y);\n this.z = clamp(this.z, min.z, max2.z);\n return this;\n }\n /**\n * If this vector\'s x, y or z values are greater than the max value, they are\n * replaced by the max value.\n * If this vector\'s x, y or z values are less than the min value, they are\n * replaced by the min value.\n *\n * @param {number} minVal - The minimum value the components will be clamped to.\n * @param {number} maxVal - The maximum value the components will be clamped to.\n * @return {Vector3} A reference to this vector.\n */\n clampScalar(minVal, maxVal) {\n this.x = clamp(this.x, minVal, maxVal);\n this.y = clamp(this.y, minVal, maxVal);\n this.z = clamp(this.z, minVal, maxVal);\n return this;\n }\n /**\n * If this vector\'s length is greater than the max value, it is replaced by\n * the max value.\n * If this vector\'s length is less than the min value, it is replaced by the\n * min value.\n *\n * @param {number} min - The minimum value the vector length will be clamped to.\n * @param {number} max - The maximum value the vector length will be clamped to.\n * @return {Vector3} A reference to this vector.\n */\n clampLength(min, max2) {\n const length = this.length();\n return this.divideScalar(length || 1).multiplyScalar(clamp(length, min, max2));\n }\n /**\n * The components of this vector are rounded down to the nearest integer value.\n *\n * @return {Vector3} A reference to this vector.\n */\n floor() {\n this.x = Math.floor(this.x);\n this.y = Math.floor(this.y);\n this.z = Math.floor(this.z);\n return this;\n }\n /**\n * The components of this vector are rounded up to the nearest integer value.\n *\n * @return {Vector3} A reference to this vector.\n */\n ceil() {\n this.x = Math.ceil(this.x);\n this.y = Math.ceil(this.y);\n this.z = Math.ceil(this.z);\n return this;\n }\n /**\n * The components of this vector are rounded to the nearest integer value\n *\n * @return {Vector3} A reference to this vector.\n */\n round() {\n this.x = Math.round(this.x);\n this.y = Math.round(this.y);\n this.z = Math.round(this.z);\n return this;\n }\n /**\n * The components of this vector are rounded towards zero (up if negative,\n * down if positive) to an integer value.\n *\n * @return {Vector3} A reference to this vector.\n */\n roundToZero() {\n this.x = Math.trunc(this.x);\n this.y = Math.trunc(this.y);\n this.z = Math.trunc(this.z);\n return this;\n }\n /**\n * Inverts this vector - i.e. sets x = -x, y = -y and z = -z.\n *\n * @return {Vector3} A reference to this vector.\n */\n negate() {\n this.x = -this.x;\n this.y = -this.y;\n this.z = -this.z;\n return this;\n }\n /**\n * Calculates the dot product of the given vector with this instance.\n *\n * @param {Vector3} v - The vector to compute the dot product with.\n * @return {number} The result of the dot product.\n */\n dot(v) {\n return this.x * v.x + this.y * v.y + this.z * v.z;\n }\n // TODO lengthSquared?\n /**\n * Computes the square of the Euclidean length (straight-line length) from\n * (0, 0, 0) to (x, y, z). If you are comparing the lengths of vectors, you should\n * compare the length squared instead as it is slightly more efficient to calculate.\n *\n * @return {number} The square length of this vector.\n */\n lengthSq() {\n return this.x * this.x + this.y * this.y + this.z * this.z;\n }\n /**\n * Computes the Euclidean length (straight-line length) from (0, 0, 0) to (x, y, z).\n *\n * @return {number} The length of this vector.\n */\n length() {\n return Math.sqrt(this.x * this.x + this.y * this.y + this.z * this.z);\n }\n /**\n * Computes the Manhattan length of this vector.\n *\n * @return {number} The length of this vector.\n */\n manhattanLength() {\n return Math.abs(this.x) + Math.abs(this.y) + Math.abs(this.z);\n }\n /**\n * Converts this vector to a unit vector - that is, sets it equal to a vector\n * with the same direction as this one, but with a vector length of `1`.\n *\n * @return {Vector3} A reference to this vector.\n */\n normalize() {\n return this.divideScalar(this.length() || 1);\n }\n /**\n * Sets this vector to a vector with the same direction as this one, but\n * with the specified length.\n *\n * @param {number} length - The new length of this vector.\n * @return {Vector3} A reference to this vector.\n */\n setLength(length) {\n return this.normalize().multiplyScalar(length);\n }\n /**\n * Linearly interpolates between the given vector and this instance, where\n * alpha is the percent distance along the line - alpha = 0 will be this\n * vector, and alpha = 1 will be the given one.\n *\n * @param {Vector3} v - The vector to interpolate towards.\n * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n * @return {Vector3} A reference to this vector.\n */\n lerp(v, alpha) {\n this.x += (v.x - this.x) * alpha;\n this.y += (v.y - this.y) * alpha;\n this.z += (v.z - this.z) * alpha;\n return this;\n }\n /**\n * Linearly interpolates between the given vectors, where alpha is the percent\n * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n * be the second one. The result is stored in this instance.\n *\n * @param {Vector3} v1 - The first vector.\n * @param {Vector3} v2 - The second vector.\n * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n * @return {Vector3} A reference to this vector.\n */\n lerpVectors(v1, v2, alpha) {\n this.x = v1.x + (v2.x - v1.x) * alpha;\n this.y = v1.y + (v2.y - v1.y) * alpha;\n this.z = v1.z + (v2.z - v1.z) * alpha;\n return this;\n }\n /**\n * Calculates the cross product of the given vector with this instance.\n *\n * @param {Vector3} v - The vector to compute the cross product with.\n * @return {Vector3} The result of the cross product.\n */\n cross(v) {\n return this.crossVectors(this, v);\n }\n /**\n * Calculates the cross product of the given vectors and stores the result\n * in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n crossVectors(a, b) {\n const ax = a.x, ay = a.y, az = a.z;\n const bx = b.x, by = b.y, bz = b.z;\n this.x = ay * bz - az * by;\n this.y = az * bx - ax * bz;\n this.z = ax * by - ay * bx;\n return this;\n }\n /**\n * Projects this vector onto the given one.\n *\n * @param {Vector3} v - The vector to project to.\n * @return {Vector3} A reference to this vector.\n */\n projectOnVector(v) {\n const denominator = v.lengthSq();\n if (denominator === 0) return this.set(0, 0, 0);\n const scalar = v.dot(this) / denominator;\n return this.copy(v).multiplyScalar(scalar);\n }\n /**\n * Projects this vector onto a plane by subtracting this\n * vector projected onto the plane\'s normal from this vector.\n *\n * @param {Vector3} planeNormal - The plane normal.\n * @return {Vector3} A reference to this vector.\n */\n projectOnPlane(planeNormal) {\n _vector$c.copy(this).projectOnVector(planeNormal);\n return this.sub(_vector$c);\n }\n /**\n * Reflects this vector off a plane orthogonal to the given normal vector.\n *\n * @param {Vector3} normal - The (normalized) normal vector.\n * @return {Vector3} A reference to this vector.\n */\n reflect(normal) {\n return this.sub(_vector$c.copy(normal).multiplyScalar(2 * this.dot(normal)));\n }\n /**\n * Returns the angle between the given vector and this instance in radians.\n *\n * @param {Vector3} v - The vector to compute the angle with.\n * @return {number} The angle in radians.\n */\n angleTo(v) {\n const denominator = Math.sqrt(this.lengthSq() * v.lengthSq());\n if (denominator === 0) return Math.PI / 2;\n const theta = this.dot(v) / denominator;\n return Math.acos(clamp(theta, -1, 1));\n }\n /**\n * Computes the distance from the given vector to this instance.\n *\n * @param {Vector3} v - The vector to compute the distance to.\n * @return {number} The distance.\n */\n distanceTo(v) {\n return Math.sqrt(this.distanceToSquared(v));\n }\n /**\n * Computes the squared distance from the given vector to this instance.\n * If you are just comparing the distance with another distance, you should compare\n * the distance squared instead as it is slightly more efficient to calculate.\n *\n * @param {Vector3} v - The vector to compute the squared distance to.\n * @return {number} The squared distance.\n */\n distanceToSquared(v) {\n const dx = this.x - v.x, dy = this.y - v.y, dz = this.z - v.z;\n return dx * dx + dy * dy + dz * dz;\n }\n /**\n * Computes the Manhattan distance from the given vector to this instance.\n *\n * @param {Vector3} v - The vector to compute the Manhattan distance to.\n * @return {number} The Manhattan distance.\n */\n manhattanDistanceTo(v) {\n return Math.abs(this.x - v.x) + Math.abs(this.y - v.y) + Math.abs(this.z - v.z);\n }\n /**\n * Sets the vector components from the given spherical coordinates.\n *\n * @param {Spherical} s - The spherical coordinates.\n * @return {Vector3} A reference to this vector.\n */\n setFromSpherical(s) {\n return this.setFromSphericalCoords(s.radius, s.phi, s.theta);\n }\n /**\n * Sets the vector components from the given spherical coordinates.\n *\n * @param {number} radius - The radius.\n * @param {number} phi - The phi angle in radians.\n * @param {number} theta - The theta angle in radians.\n * @return {Vector3} A reference to this vector.\n */\n setFromSphericalCoords(radius, phi, theta) {\n const sinPhiRadius = Math.sin(phi) * radius;\n this.x = sinPhiRadius * Math.sin(theta);\n this.y = Math.cos(phi) * radius;\n this.z = sinPhiRadius * Math.cos(theta);\n return this;\n }\n /**\n * Sets the vector components from the given cylindrical coordinates.\n *\n * @param {Cylindrical} c - The cylindrical coordinates.\n * @return {Vector3} A reference to this vector.\n */\n setFromCylindrical(c) {\n return this.setFromCylindricalCoords(c.radius, c.theta, c.y);\n }\n /**\n * Sets the vector components from the given cylindrical coordinates.\n *\n * @param {number} radius - The radius.\n * @param {number} theta - The theta angle in radians.\n * @param {number} y - The y value.\n * @return {Vector3} A reference to this vector.\n */\n setFromCylindricalCoords(radius, theta, y) {\n this.x = radius * Math.sin(theta);\n this.y = y;\n this.z = radius * Math.cos(theta);\n return this;\n }\n /**\n * Sets the vector components to the position elements of the\n * given transformation matrix.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrixPosition(m) {\n const e = m.elements;\n this.x = e[12];\n this.y = e[13];\n this.z = e[14];\n return this;\n }\n /**\n * Sets the vector components to the scale elements of the\n * given transformation matrix.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrixScale(m) {\n const sx = this.setFromMatrixColumn(m, 0).length();\n const sy = this.setFromMatrixColumn(m, 1).length();\n const sz = this.setFromMatrixColumn(m, 2).length();\n this.x = sx;\n this.y = sy;\n this.z = sz;\n return this;\n }\n /**\n * Sets the vector components from the specified matrix column.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @param {number} index - The column index.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrixColumn(m, index) {\n return this.fromArray(m.elements, index * 4);\n }\n /**\n * Sets the vector components from the specified matrix column.\n *\n * @param {Matrix3} m - The 3x3 matrix.\n * @param {number} index - The column index.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrix3Column(m, index) {\n return this.fromArray(m.elements, index * 3);\n }\n /**\n * Sets the vector components from the given Euler angles.\n *\n * @param {Euler} e - The Euler angles to set.\n * @return {Vector3} A reference to this vector.\n */\n setFromEuler(e) {\n this.x = e._x;\n this.y = e._y;\n this.z = e._z;\n return this;\n }\n /**\n * Sets the vector components from the RGB components of the\n * given color.\n *\n * @param {Color} c - The color to set.\n * @return {Vector3} A reference to this vector.\n */\n setFromColor(c) {\n this.x = c.r;\n this.y = c.g;\n this.z = c.b;\n return this;\n }\n /**\n * Returns `true` if this vector is equal with the given one.\n *\n * @param {Vector3} v - The vector to test for equality.\n * @return {boolean} Whether this vector is equal with the given one.\n */\n equals(v) {\n return v.x === this.x && v.y === this.y && v.z === this.z;\n }\n /**\n * Sets this vector\'s x value to be `array[ offset ]`, y value to be `array[ offset + 1 ]`\n * and z value to be `array[ offset + 2 ]`.\n *\n * @param {Array} array - An array holding the vector component values.\n * @param {number} [offset=0] - The offset into the array.\n * @return {Vector3} A reference to this vector.\n */\n fromArray(array, offset = 0) {\n this.x = array[offset];\n this.y = array[offset + 1];\n this.z = array[offset + 2];\n return this;\n }\n /**\n * Writes the components of this vector to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the vector components.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The vector components.\n */\n toArray(array = [], offset = 0) {\n array[offset] = this.x;\n array[offset + 1] = this.y;\n array[offset + 2] = this.z;\n return array;\n }\n /**\n * Sets the components of this vector from the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n * @param {number} index - The index into the attribute.\n * @return {Vector3} A reference to this vector.\n */\n fromBufferAttribute(attribute, index) {\n this.x = attribute.getX(index);\n this.y = attribute.getY(index);\n this.z = attribute.getZ(index);\n return this;\n }\n /**\n * Sets each component of this vector to a pseudo-random value between `0` and\n * `1`, excluding `1`.\n *\n * @return {Vector3} A reference to this vector.\n */\n random() {\n this.x = Math.random();\n this.y = Math.random();\n this.z = Math.random();\n return this;\n }\n /**\n * Sets this vector to a uniformly random point on a unit sphere.\n *\n * @return {Vector3} A reference to this vector.\n */\n randomDirection() {\n const theta = Math.random() * Math.PI * 2;\n const u = Math.random() * 2 - 1;\n const c = Math.sqrt(1 - u * u);\n this.x = c * Math.cos(theta);\n this.y = u;\n this.z = c * Math.sin(theta);\n return this;\n }\n *[Symbol.iterator]() {\n yield this.x;\n yield this.y;\n yield this.z;\n }\n }\n const _vector$c = /* @__PURE__ */ new Vector3();\n const _quaternion$4 = /* @__PURE__ */ new Quaternion();\n class Matrix3 {\n /**\n * Constructs a new 3x3 matrix. The arguments are supposed to be\n * in row-major order. If no arguments are provided, the constructor\n * initializes the matrix as an identity matrix.\n *\n * @param {number} [n11] - 1-1 matrix element.\n * @param {number} [n12] - 1-2 matrix element.\n * @param {number} [n13] - 1-3 matrix element.\n * @param {number} [n21] - 2-1 matrix element.\n * @param {number} [n22] - 2-2 matrix element.\n * @param {number} [n23] - 2-3 matrix element.\n * @param {number} [n31] - 3-1 matrix element.\n * @param {number} [n32] - 3-2 matrix element.\n * @param {number} [n33] - 3-3 matrix element.\n */\n constructor(n11, n12, n13, n21, n22, n23, n31, n32, n33) {\n Matrix3.prototype.isMatrix3 = true;\n this.elements = [\n 1,\n 0,\n 0,\n 0,\n 1,\n 0,\n 0,\n 0,\n 1\n ];\n if (n11 !== void 0) {\n this.set(n11, n12, n13, n21, n22, n23, n31, n32, n33);\n }\n }\n /**\n * Sets the elements of the matrix.The arguments are supposed to be\n * in row-major order.\n *\n * @param {number} [n11] - 1-1 matrix element.\n * @param {number} [n12] - 1-2 matrix element.\n * @param {number} [n13] - 1-3 matrix element.\n * @param {number} [n21] - 2-1 matrix element.\n * @param {number} [n22] - 2-2 matrix element.\n * @param {number} [n23] - 2-3 matrix element.\n * @param {number} [n31] - 3-1 matrix element.\n * @param {number} [n32] - 3-2 matrix element.\n * @param {number} [n33] - 3-3 matrix element.\n * @return {Matrix3} A reference to this matrix.\n */\n set(n11, n12, n13, n21, n22, n23, n31, n32, n33) {\n const te = this.elements;\n te[0] = n11;\n te[1] = n21;\n te[2] = n31;\n te[3] = n12;\n te[4] = n22;\n te[5] = n32;\n te[6] = n13;\n te[7] = n23;\n te[8] = n33;\n return this;\n }\n /**\n * Sets this matrix to the 3x3 identity matrix.\n *\n * @return {Matrix3} A reference to this matrix.\n */\n identity() {\n this.set(\n 1,\n 0,\n 0,\n 0,\n 1,\n 0,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Copies the values of the given matrix to this instance.\n *\n * @param {Matrix3} m - The matrix to copy.\n * @return {Matrix3} A reference to this matrix.\n */\n copy(m) {\n const te = this.elements;\n const me = m.elements;\n te[0] = me[0];\n te[1] = me[1];\n te[2] = me[2];\n te[3] = me[3];\n te[4] = me[4];\n te[5] = me[5];\n te[6] = me[6];\n te[7] = me[7];\n te[8] = me[8];\n return this;\n }\n /**\n * Extracts the basis of this matrix into the three axis vectors provided.\n *\n * @param {Vector3} xAxis - The basis\'s x axis.\n * @param {Vector3} yAxis - The basis\'s y axis.\n * @param {Vector3} zAxis - The basis\'s z axis.\n * @return {Matrix3} A reference to this matrix.\n */\n extractBasis(xAxis, yAxis, zAxis) {\n xAxis.setFromMatrix3Column(this, 0);\n yAxis.setFromMatrix3Column(this, 1);\n zAxis.setFromMatrix3Column(this, 2);\n return this;\n }\n /**\n * Set this matrix to the upper 3x3 matrix of the given 4x4 matrix.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @return {Matrix3} A reference to this matrix.\n */\n setFromMatrix4(m) {\n const me = m.elements;\n this.set(\n me[0],\n me[4],\n me[8],\n me[1],\n me[5],\n me[9],\n me[2],\n me[6],\n me[10]\n );\n return this;\n }\n /**\n * Post-multiplies this matrix by the given 3x3 matrix.\n *\n * @param {Matrix3} m - The matrix to multiply with.\n * @return {Matrix3} A reference to this matrix.\n */\n multiply(m) {\n return this.multiplyMatrices(this, m);\n }\n /**\n * Pre-multiplies this matrix by the given 3x3 matrix.\n *\n * @param {Matrix3} m - The matrix to multiply with.\n * @return {Matrix3} A reference to this matrix.\n */\n premultiply(m) {\n return this.multiplyMatrices(m, this);\n }\n /**\n * Multiples the given 3x3 matrices and stores the result\n * in this matrix.\n *\n * @param {Matrix3} a - The first matrix.\n * @param {Matrix3} b - The second matrix.\n * @return {Matrix3} A reference to this matrix.\n */\n multiplyMatrices(a, b) {\n const ae = a.elements;\n const be = b.elements;\n const te = this.elements;\n const a11 = ae[0], a12 = ae[3], a13 = ae[6];\n const a21 = ae[1], a22 = ae[4], a23 = ae[7];\n const a31 = ae[2], a32 = ae[5], a33 = ae[8];\n const b11 = be[0], b12 = be[3], b13 = be[6];\n const b21 = be[1], b22 = be[4], b23 = be[7];\n const b31 = be[2], b32 = be[5], b33 = be[8];\n te[0] = a11 * b11 + a12 * b21 + a13 * b31;\n te[3] = a11 * b12 + a12 * b22 + a13 * b32;\n te[6] = a11 * b13 + a12 * b23 + a13 * b33;\n te[1] = a21 * b11 + a22 * b21 + a23 * b31;\n te[4] = a21 * b12 + a22 * b22 + a23 * b32;\n te[7] = a21 * b13 + a22 * b23 + a23 * b33;\n te[2] = a31 * b11 + a32 * b21 + a33 * b31;\n te[5] = a31 * b12 + a32 * b22 + a33 * b32;\n te[8] = a31 * b13 + a32 * b23 + a33 * b33;\n return this;\n }\n /**\n * Multiplies every component of the matrix by the given scalar.\n *\n * @param {number} s - The scalar.\n * @return {Matrix3} A reference to this matrix.\n */\n multiplyScalar(s) {\n const te = this.elements;\n te[0] *= s;\n te[3] *= s;\n te[6] *= s;\n te[1] *= s;\n te[4] *= s;\n te[7] *= s;\n te[2] *= s;\n te[5] *= s;\n te[8] *= s;\n return this;\n }\n /**\n * Computes and returns the determinant of this matrix.\n *\n * @return {number} The determinant.\n */\n determinant() {\n const te = this.elements;\n const a = te[0], b = te[1], c = te[2], d = te[3], e = te[4], f = te[5], g = te[6], h = te[7], i2 = te[8];\n return a * e * i2 - a * f * h - b * d * i2 + b * f * g + c * d * h - c * e * g;\n }\n /**\n * Inverts this matrix, using the [analytic method]{@link https://en.wikipedia.org/wiki/Invertible_matrix#Analytic_solution}.\n * You can not invert with a determinant of zero. If you attempt this, the method produces\n * a zero matrix instead.\n *\n * @return {Matrix3} A reference to this matrix.\n */\n invert() {\n const te = this.elements, n11 = te[0], n21 = te[1], n31 = te[2], n12 = te[3], n22 = te[4], n32 = te[5], n13 = te[6], n23 = te[7], n33 = te[8], t11 = n33 * n22 - n32 * n23, t12 = n32 * n13 - n33 * n12, t13 = n23 * n12 - n22 * n13, det = n11 * t11 + n21 * t12 + n31 * t13;\n if (det === 0) return this.set(0, 0, 0, 0, 0, 0, 0, 0, 0);\n const detInv = 1 / det;\n te[0] = t11 * detInv;\n te[1] = (n31 * n23 - n33 * n21) * detInv;\n te[2] = (n32 * n21 - n31 * n22) * detInv;\n te[3] = t12 * detInv;\n te[4] = (n33 * n11 - n31 * n13) * detInv;\n te[5] = (n31 * n12 - n32 * n11) * detInv;\n te[6] = t13 * detInv;\n te[7] = (n21 * n13 - n23 * n11) * detInv;\n te[8] = (n22 * n11 - n21 * n12) * detInv;\n return this;\n }\n /**\n * Transposes this matrix in place.\n *\n * @return {Matrix3} A reference to this matrix.\n */\n transpose() {\n let tmp;\n const m = this.elements;\n tmp = m[1];\n m[1] = m[3];\n m[3] = tmp;\n tmp = m[2];\n m[2] = m[6];\n m[6] = tmp;\n tmp = m[5];\n m[5] = m[7];\n m[7] = tmp;\n return this;\n }\n /**\n * Computes the normal matrix which is the inverse transpose of the upper\n * left 3x3 portion of the given 4x4 matrix.\n *\n * @param {Matrix4} matrix4 - The 4x4 matrix.\n * @return {Matrix3} A reference to this matrix.\n */\n getNormalMatrix(matrix4) {\n return this.setFromMatrix4(matrix4).invert().transpose();\n }\n /**\n * Transposes this matrix into the supplied array, and returns itself unchanged.\n *\n * @param {Array} r - An array to store the transposed matrix elements.\n * @return {Matrix3} A reference to this matrix.\n */\n transposeIntoArray(r) {\n const m = this.elements;\n r[0] = m[0];\n r[1] = m[3];\n r[2] = m[6];\n r[3] = m[1];\n r[4] = m[4];\n r[5] = m[7];\n r[6] = m[2];\n r[7] = m[5];\n r[8] = m[8];\n return this;\n }\n /**\n * Sets the UV transform matrix from offset, repeat, rotation, and center.\n *\n * @param {number} tx - Offset x.\n * @param {number} ty - Offset y.\n * @param {number} sx - Repeat x.\n * @param {number} sy - Repeat y.\n * @param {number} rotation - Rotation, in radians. Positive values rotate counterclockwise.\n * @param {number} cx - Center x of rotation.\n * @param {number} cy - Center y of rotation\n * @return {Matrix3} A reference to this matrix.\n */\n setUvTransform(tx, ty, sx, sy, rotation, cx, cy) {\n const c = Math.cos(rotation);\n const s = Math.sin(rotation);\n this.set(\n sx * c,\n sx * s,\n -sx * (c * cx + s * cy) + cx + tx,\n -sy * s,\n sy * c,\n -sy * (-s * cx + c * cy) + cy + ty,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Scales this matrix with the given scalar values.\n *\n * @param {number} sx - The amount to scale in the X axis.\n * @param {number} sy - The amount to scale in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n scale(sx, sy) {\n this.premultiply(_m3.makeScale(sx, sy));\n return this;\n }\n /**\n * Rotates this matrix by the given angle.\n *\n * @param {number} theta - The rotation in radians.\n * @return {Matrix3} A reference to this matrix.\n */\n rotate(theta) {\n this.premultiply(_m3.makeRotation(-theta));\n return this;\n }\n /**\n * Translates this matrix by the given scalar values.\n *\n * @param {number} tx - The amount to translate in the X axis.\n * @param {number} ty - The amount to translate in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n translate(tx, ty) {\n this.premultiply(_m3.makeTranslation(tx, ty));\n return this;\n }\n // for 2D Transforms\n /**\n * Sets this matrix as a 2D translation transform.\n *\n * @param {number|Vector2} x - The amount to translate in the X axis or alternatively a translation vector.\n * @param {number} y - The amount to translate in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n makeTranslation(x2, y) {\n if (x2.isVector2) {\n this.set(\n 1,\n 0,\n x2.x,\n 0,\n 1,\n x2.y,\n 0,\n 0,\n 1\n );\n } else {\n this.set(\n 1,\n 0,\n x2,\n 0,\n 1,\n y,\n 0,\n 0,\n 1\n );\n }\n return this;\n }\n /**\n * Sets this matrix as a 2D rotational transformation.\n *\n * @param {number} theta - The rotation in radians.\n * @return {Matrix3} A reference to this matrix.\n */\n makeRotation(theta) {\n const c = Math.cos(theta);\n const s = Math.sin(theta);\n this.set(\n c,\n -s,\n 0,\n s,\n c,\n 0,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Sets this matrix as a 2D scale transform.\n *\n * @param {number} x - The amount to scale in the X axis.\n * @param {number} y - The amount to scale in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n makeScale(x2, y) {\n this.set(\n x2,\n 0,\n 0,\n 0,\n y,\n 0,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Returns `true` if this matrix is equal with the given one.\n *\n * @param {Matrix3} matrix - The matrix to test for equality.\n * @return {boolean} Whether this matrix is equal with the given one.\n */\n equals(matrix) {\n const te = this.elements;\n const me = matrix.elements;\n for (let i2 = 0; i2 < 9; i2++) {\n if (te[i2] !== me[i2]) return false;\n }\n return true;\n }\n /**\n * Sets the elements of the matrix from the given array.\n *\n * @param {Array} array - The matrix elements in column-major order.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Matrix3} A reference to this matrix.\n */\n fromArray(array, offset = 0) {\n for (let i2 = 0; i2 < 9; i2++) {\n this.elements[i2] = array[i2 + offset];\n }\n return this;\n }\n /**\n * Writes the elements of this matrix to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the matrix elements in column-major order.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The matrix elements in column-major order.\n */\n toArray(array = [], offset = 0) {\n const te = this.elements;\n array[offset] = te[0];\n array[offset + 1] = te[1];\n array[offset + 2] = te[2];\n array[offset + 3] = te[3];\n array[offset + 4] = te[4];\n array[offset + 5] = te[5];\n array[offset + 6] = te[6];\n array[offset + 7] = te[7];\n array[offset + 8] = te[8];\n return array;\n }\n /**\n * Returns a matrix with copied values from this instance.\n *\n * @return {Matrix3} A clone of this instance.\n */\n clone() {\n return new this.constructor().fromArray(this.elements);\n }\n }\n const _m3 = /* @__PURE__ */ new Matrix3();\n const _cache = {};\n function warnOnce(message) {\n if (message in _cache) return;\n _cache[message] = true;\n console.warn(message);\n }\n const LINEAR_REC709_TO_XYZ = /* @__PURE__ */ new Matrix3().set(\n 0.4123908,\n 0.3575843,\n 0.1804808,\n 0.212639,\n 0.7151687,\n 0.0721923,\n 0.0193308,\n 0.1191948,\n 0.9505322\n );\n const XYZ_TO_LINEAR_REC709 = /* @__PURE__ */ new Matrix3().set(\n 3.2409699,\n -1.5373832,\n -0.4986108,\n -0.9692436,\n 1.8759675,\n 0.0415551,\n 0.0556301,\n -0.203977,\n 1.0569715\n );\n function createColorManagement() {\n const ColorManagement2 = {\n enabled: true,\n workingColorSpace: LinearSRGBColorSpace,\n /**\n * Implementations of supported color spaces.\n *\n * Required:\n * - primaries: chromaticity coordinates [ rx ry gx gy bx by ]\n * - whitePoint: reference white [ x y ]\n * - transfer: transfer function (pre-defined)\n * - toXYZ: Matrix3 RGB to XYZ transform\n * - fromXYZ: Matrix3 XYZ to RGB transform\n * - luminanceCoefficients: RGB luminance coefficients\n *\n * Optional:\n * - outputColorSpaceConfig: { drawingBufferColorSpace: ColorSpace, toneMappingMode: \'extended\' | \'standard\' }\n * - workingColorSpaceConfig: { unpackColorSpace: ColorSpace }\n *\n * Reference:\n * - https://www.russellcottrell.com/photo/matrixCalculator.htm\n */\n spaces: {},\n convert: function(color, sourceColorSpace, targetColorSpace) {\n if (this.enabled === false || sourceColorSpace === targetColorSpace || !sourceColorSpace || !targetColorSpace) {\n return color;\n }\n if (this.spaces[sourceColorSpace].transfer === SRGBTransfer) {\n color.r = SRGBToLinear(color.r);\n color.g = SRGBToLinear(color.g);\n color.b = SRGBToLinear(color.b);\n }\n if (this.spaces[sourceColorSpace].primaries !== this.spaces[targetColorSpace].primaries) {\n color.applyMatrix3(this.spaces[sourceColorSpace].toXYZ);\n color.applyMatrix3(this.spaces[targetColorSpace].fromXYZ);\n }\n if (this.spaces[targetColorSpace].transfer === SRGBTransfer) {\n color.r = LinearToSRGB(color.r);\n color.g = LinearToSRGB(color.g);\n color.b = LinearToSRGB(color.b);\n }\n return color;\n },\n workingToColorSpace: function(color, targetColorSpace) {\n return this.convert(color, this.workingColorSpace, targetColorSpace);\n },\n colorSpaceToWorking: function(color, sourceColorSpace) {\n return this.convert(color, sourceColorSpace, this.workingColorSpace);\n },\n getPrimaries: function(colorSpace) {\n return this.spaces[colorSpace].primaries;\n },\n getTransfer: function(colorSpace) {\n if (colorSpace === NoColorSpace) return LinearTransfer;\n return this.spaces[colorSpace].transfer;\n },\n getToneMappingMode: function(colorSpace) {\n return this.spaces[colorSpace].outputColorSpaceConfig.toneMappingMode || "standard";\n },\n getLuminanceCoefficients: function(target, colorSpace = this.workingColorSpace) {\n return target.fromArray(this.spaces[colorSpace].luminanceCoefficients);\n },\n define: function(colorSpaces) {\n Object.assign(this.spaces, colorSpaces);\n },\n // Internal APIs\n _getMatrix: function(targetMatrix, sourceColorSpace, targetColorSpace) {\n return targetMatrix.copy(this.spaces[sourceColorSpace].toXYZ).multiply(this.spaces[targetColorSpace].fromXYZ);\n },\n _getDrawingBufferColorSpace: function(colorSpace) {\n return this.spaces[colorSpace].outputColorSpaceConfig.drawingBufferColorSpace;\n },\n _getUnpackColorSpace: function(colorSpace = this.workingColorSpace) {\n return this.spaces[colorSpace].workingColorSpaceConfig.unpackColorSpace;\n },\n // Deprecated\n fromWorkingColorSpace: function(color, targetColorSpace) {\n warnOnce("THREE.ColorManagement: .fromWorkingColorSpace() has been renamed to .workingToColorSpace().");\n return ColorManagement2.workingToColorSpace(color, targetColorSpace);\n },\n toWorkingColorSpace: function(color, sourceColorSpace) {\n warnOnce("THREE.ColorManagement: .toWorkingColorSpace() has been renamed to .colorSpaceToWorking().");\n return ColorManagement2.colorSpaceToWorking(color, sourceColorSpace);\n }\n };\n const REC709_PRIMARIES = [0.64, 0.33, 0.3, 0.6, 0.15, 0.06];\n const REC709_LUMINANCE_COEFFICIENTS = [0.2126, 0.7152, 0.0722];\n const D65 = [0.3127, 0.329];\n ColorManagement2.define({\n [LinearSRGBColorSpace]: {\n primaries: REC709_PRIMARIES,\n whitePoint: D65,\n transfer: LinearTransfer,\n toXYZ: LINEAR_REC709_TO_XYZ,\n fromXYZ: XYZ_TO_LINEAR_REC709,\n luminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n workingColorSpaceConfig: { unpackColorSpace: SRGBColorSpace },\n outputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n },\n [SRGBColorSpace]: {\n primaries: REC709_PRIMARIES,\n whitePoint: D65,\n transfer: SRGBTransfer,\n toXYZ: LINEAR_REC709_TO_XYZ,\n fromXYZ: XYZ_TO_LINEAR_REC709,\n luminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n outputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n }\n });\n return ColorManagement2;\n }\n const ColorManagement = /* @__PURE__ */ createColorManagement();\n function SRGBToLinear(c) {\n return c < 0.04045 ? c * 0.0773993808 : Math.pow(c * 0.9478672986 + 0.0521327014, 2.4);\n }\n function LinearToSRGB(c) {\n return c < 31308e-7 ? c * 12.92 : 1.055 * Math.pow(c, 0.41666) - 0.055;\n }\n class Box3 {\n /**\n * Constructs a new bounding box.\n *\n * @param {Vector3} [min=(Infinity,Infinity,Infinity)] - A vector representing the lower boundary of the box.\n * @param {Vector3} [max=(-Infinity,-Infinity,-Infinity)] - A vector representing the upper boundary of the box.\n */\n constructor(min = new Vector3(Infinity, Infinity, Infinity), max2 = new Vector3(-Infinity, -Infinity, -Infinity)) {\n this.isBox3 = true;\n this.min = min;\n this.max = max2;\n }\n /**\n * Sets the lower and upper boundaries of this box.\n * Please note that this method only copies the values from the given objects.\n *\n * @param {Vector3} min - The lower boundary of the box.\n * @param {Vector3} max - The upper boundary of the box.\n * @return {Box3} A reference to this bounding box.\n */\n set(min, max2) {\n this.min.copy(min);\n this.max.copy(max2);\n return this;\n }\n /**\n * Sets the upper and lower bounds of this box so it encloses the position data\n * in the given array.\n *\n * @param {Array} array - An array holding 3D position data.\n * @return {Box3} A reference to this bounding box.\n */\n setFromArray(array) {\n this.makeEmpty();\n for (let i2 = 0, il = array.length; i2 < il; i2 += 3) {\n this.expandByPoint(_vector$b.fromArray(array, i2));\n }\n return this;\n }\n /**\n * Sets the upper and lower bounds of this box so it encloses the position data\n * in the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - A buffer attribute holding 3D position data.\n * @return {Box3} A reference to this bounding box.\n */\n setFromBufferAttribute(attribute) {\n this.makeEmpty();\n for (let i2 = 0, il = attribute.count; i2 < il; i2++) {\n this.expandByPoint(_vector$b.fromBufferAttribute(attribute, i2));\n }\n return this;\n }\n /**\n * Sets the upper and lower bounds of this box so it encloses the position data\n * in the given array.\n *\n * @param {Array} points - An array holding 3D position data as instances of {@link Vector3}.\n * @return {Box3} A reference to this bounding box.\n */\n setFromPoints(points) {\n this.makeEmpty();\n for (let i2 = 0, il = points.length; i2 < il; i2++) {\n this.expandByPoint(points[i2]);\n }\n return this;\n }\n /**\n * Centers this box on the given center vector and sets this box\'s width, height and\n * depth to the given size values.\n *\n * @param {Vector3} center - The center of the box.\n * @param {Vector3} size - The x, y and z dimensions of the box.\n * @return {Box3} A reference to this bounding box.\n */\n setFromCenterAndSize(center, size) {\n const halfSize = _vector$b.copy(size).multiplyScalar(0.5);\n this.min.copy(center).sub(halfSize);\n this.max.copy(center).add(halfSize);\n return this;\n }\n /**\n * Computes the world-axis-aligned bounding box for the given 3D object\n * (including its children), accounting for the object\'s, and children\'s,\n * world transforms. The function may result in a larger box than strictly necessary.\n *\n * @param {Object3D} object - The 3D object to compute the bounding box for.\n * @param {boolean} [precise=false] - If set to `true`, the method computes the smallest\n * world-axis-aligned bounding box at the expense of more computation.\n * @return {Box3} A reference to this bounding box.\n */\n setFromObject(object, precise = false) {\n this.makeEmpty();\n return this.expandByObject(object, precise);\n }\n /**\n * Returns a new box with copied values from this instance.\n *\n * @return {Box3} A clone of this instance.\n */\n clone() {\n return new this.constructor().copy(this);\n }\n /**\n * Copies the values of the given box to this instance.\n *\n * @param {Box3} box - The box to copy.\n * @return {Box3} A reference to this bounding box.\n */\n copy(box) {\n this.min.copy(box.min);\n this.max.copy(box.max);\n return this;\n }\n /**\n * Makes this box empty which means in encloses a zero space in 3D.\n *\n * @return {Box3} A reference to this bounding box.\n */\n makeEmpty() {\n this.min.x = this.min.y = this.min.z = Infinity;\n this.max.x = this.max.y = this.max.z = -Infinity;\n return this;\n }\n /**\n * Returns true if this box includes zero points within its bounds.\n * Note that a box with equal lower and upper bounds still includes one\n * point, the one both bounds share.\n *\n * @return {boolean} Whether this box is empty or not.\n */\n isEmpty() {\n return this.max.x < this.min.x || this.max.y < this.min.y || this.max.z < this.min.z;\n }\n /**\n * Returns the center point of this box.\n *\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} The center point.\n */\n getCenter(target) {\n return this.isEmpty() ? target.set(0, 0, 0) : target.addVectors(this.min, this.max).multiplyScalar(0.5);\n }\n /**\n * Returns the dimensions of this box.\n *\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} The size.\n */\n getSize(target) {\n return this.isEmpty() ? target.set(0, 0, 0) : target.subVectors(this.max, this.min);\n }\n /**\n * Expands the boundaries of this box to include the given point.\n *\n * @param {Vector3} point - The point that should be included by the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n expandByPoint(point) {\n this.min.min(point);\n this.max.max(point);\n return this;\n }\n /**\n * Expands this box equilaterally by the given vector. The width of this\n * box will be expanded by the x component of the vector in both\n * directions. The height of this box will be expanded by the y component of\n * the vector in both directions. The depth of this box will be\n * expanded by the z component of the vector in both directions.\n *\n * @param {Vector3} vector - The vector that should expand the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n expandByVector(vector) {\n this.min.sub(vector);\n this.max.add(vector);\n return this;\n }\n /**\n * Expands each dimension of the box by the given scalar. If negative, the\n * dimensions of the box will be contracted.\n *\n * @param {number} scalar - The scalar value that should expand the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n expandByScalar(scalar) {\n this.min.addScalar(-scalar);\n this.max.addScalar(scalar);\n return this;\n }\n /**\n * Expands the boundaries of this box to include the given 3D object and\n * its children, accounting for the object\'s, and children\'s, world\n * transforms. The function may result in a larger box than strictly\n * necessary (unless the precise parameter is set to true).\n *\n * @param {Object3D} object - The 3D object that should expand the bounding box.\n * @param {boolean} precise - If set to `true`, the method expands the bounding box\n * as little as necessary at the expense of more computation.\n * @return {Box3} A reference to this bounding box.\n */\n expandByObject(object, precise = false) {\n object.updateWorldMatrix(false, false);\n const geometry = object.geometry;\n if (geometry !== void 0) {\n const positionAttribute = geometry.getAttribute("position");\n if (precise === true && positionAttribute !== void 0 && object.isInstancedMesh !== true) {\n for (let i2 = 0, l = positionAttribute.count; i2 < l; i2++) {\n if (object.isMesh === true) {\n object.getVertexPosition(i2, _vector$b);\n } else {\n _vector$b.fromBufferAttribute(positionAttribute, i2);\n }\n _vector$b.applyMatrix4(object.matrixWorld);\n this.expandByPoint(_vector$b);\n }\n } else {\n if (object.boundingBox !== void 0) {\n if (object.boundingBox === null) {\n object.computeBoundingBox();\n }\n _box$4.copy(object.boundingBox);\n } else {\n if (geometry.boundingBox === null) {\n geometry.computeBoundingBox();\n }\n _box$4.copy(geometry.boundingBox);\n }\n _box$4.applyMatrix4(object.matrixWorld);\n this.union(_box$4);\n }\n }\n const children = object.children;\n for (let i2 = 0, l = children.length; i2 < l; i2++) {\n this.expandByObject(children[i2], precise);\n }\n return this;\n }\n /**\n * Returns `true` if the given point lies within or on the boundaries of this box.\n *\n * @param {Vector3} point - The point to test.\n * @return {boolean} Whether the bounding box contains the given point or not.\n */\n containsPoint(point) {\n return point.x >= this.min.x && point.x <= this.max.x && point.y >= this.min.y && point.y <= this.max.y && point.z >= this.min.z && point.z <= this.max.z;\n }\n /**\n * Returns `true` if this bounding box includes the entirety of the given bounding box.\n * If this box and the given one are identical, this function also returns `true`.\n *\n * @param {Box3} box - The bounding box to test.\n * @return {boolean} Whether the bounding box contains the given bounding box or not.\n */\n containsBox(box) {\n return this.min.x <= box.min.x && box.max.x <= this.max.x && this.min.y <= box.min.y && box.max.y <= this.max.y && this.min.z <= box.min.z && box.max.z <= this.max.z;\n }\n /**\n * Returns a point as a proportion of this box\'s width, height and depth.\n *\n * @param {Vector3} point - A point in 3D space.\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} A point as a proportion of this box\'s width, height and depth.\n */\n getParameter(point, target) {\n return target.set(\n (point.x - this.min.x) / (this.max.x - this.min.x),\n (point.y - this.min.y) / (this.max.y - this.min.y),\n (point.z - this.min.z) / (this.max.z - this.min.z)\n );\n }\n /**\n * Returns `true` if the given bounding box intersects with this bounding box.\n *\n * @param {Box3} box - The bounding box to test.\n * @return {boolean} Whether the given bounding box intersects with this bounding box.\n */\n intersectsBox(box) {\n return box.max.x >= this.min.x && box.min.x <= this.max.x && box.max.y >= this.min.y && box.min.y <= this.max.y && box.max.z >= this.min.z && box.min.z <= this.max.z;\n }\n /**\n * Returns `true` if the given bounding sphere intersects with this bounding box.\n *\n * @param {Sphere} sphere - The bounding sphere to test.\n * @return {boolean} Whether the given bounding sphere intersects with this bounding box.\n */\n intersectsSphere(sphere) {\n this.clampPoint(sphere.center, _vector$b);\n return _vector$b.distanceToSquared(sphere.center) <= sphere.radius * sphere.radius;\n }\n /**\n * Returns `true` if the given plane intersects with this bounding box.\n *\n * @param {Plane} plane - The plane to test.\n * @return {boolean} Whether the given plane intersects with this bounding box.\n */\n intersectsPlane(plane) {\n let min, max2;\n if (plane.normal.x > 0) {\n min = plane.normal.x * this.min.x;\n max2 = plane.normal.x * this.max.x;\n } else {\n min = plane.normal.x * this.max.x;\n max2 = plane.normal.x * this.min.x;\n }\n if (plane.normal.y > 0) {\n min += plane.normal.y * this.min.y;\n max2 += plane.normal.y * this.max.y;\n } else {\n min += plane.normal.y * this.max.y;\n max2 += plane.normal.y * this.min.y;\n }\n if (plane.normal.z > 0) {\n min += plane.normal.z * this.min.z;\n max2 += plane.normal.z * this.max.z;\n } else {\n min += plane.normal.z * this.max.z;\n max2 += plane.normal.z * this.min.z;\n }\n return min <= -plane.constant && max2 >= -plane.constant;\n }\n /**\n * Returns `true` if the given triangle intersects with this bounding box.\n *\n * @param {Triangle} triangle - The triangle to test.\n * @return {boolean} Whether the given triangle intersects with this bounding box.\n */\n intersectsTriangle(triangle) {\n if (this.isEmpty()) {\n return false;\n }\n this.getCenter(_center);\n _extents.subVectors(this.max, _center);\n _v0$2.subVectors(triangle.a, _center);\n _v1$7.subVectors(triangle.b, _center);\n _v2$4.subVectors(triangle.c, _center);\n _f0.subVectors(_v1$7, _v0$2);\n _f1.subVectors(_v2$4, _v1$7);\n _f2.subVectors(_v0$2, _v2$4);\n let axes = [\n 0,\n -_f0.z,\n _f0.y,\n 0,\n -_f1.z,\n _f1.y,\n 0,\n -_f2.z,\n _f2.y,\n _f0.z,\n 0,\n -_f0.x,\n _f1.z,\n 0,\n -_f1.x,\n _f2.z,\n 0,\n -_f2.x,\n -_f0.y,\n _f0.x,\n 0,\n -_f1.y,\n _f1.x,\n 0,\n -_f2.y,\n _f2.x,\n 0\n ];\n if (!satForAxes(axes, _v0$2, _v1$7, _v2$4, _extents)) {\n return false;\n }\n axes = [1, 0, 0, 0, 1, 0, 0, 0, 1];\n if (!satForAxes(axes, _v0$2, _v1$7, _v2$4, _extents)) {\n return false;\n }\n _triangleNormal.crossVectors(_f0, _f1);\n axes = [_triangleNormal.x, _triangleNormal.y, _triangleNormal.z];\n return satForAxes(axes, _v0$2, _v1$7, _v2$4, _extents);\n }\n /**\n * Clamps the given point within the bounds of this box.\n *\n * @param {Vector3} point - The point to clamp.\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} The clamped point.\n */\n clampPoint(point, target) {\n return target.copy(point).clamp(this.min, this.max);\n }\n /**\n * Returns the euclidean distance from any edge of this box to the specified point. If\n * the given point lies inside of this box, the distance will be `0`.\n *\n * @param {Vector3} point - The point to compute the distance to.\n * @return {number} The euclidean distance.\n */\n distanceToPoint(point) {\n return this.clampPoint(point, _vector$b).distanceTo(point);\n }\n /**\n * Returns a bounding sphere that encloses this bounding box.\n *\n * @param {Sphere} target - The target sphere that is used to store the method\'s result.\n * @return {Sphere} The bounding sphere that encloses this bounding box.\n */\n getBoundingSphere(target) {\n if (this.isEmpty()) {\n target.makeEmpty();\n } else {\n this.getCenter(target.center);\n target.radius = this.getSize(_vector$b).length() * 0.5;\n }\n return target;\n }\n /**\n * Computes the intersection of this bounding box and the given one, setting the upper\n * bound of this box to the lesser of the two boxes\' upper bounds and the\n * lower bound of this box to the greater of the two boxes\' lower bounds. If\n * there\'s no overlap, makes this box empty.\n *\n * @param {Box3} box - The bounding box to intersect with.\n * @return {Box3} A reference to this bounding box.\n */\n intersect(box) {\n this.min.max(box.min);\n this.max.min(box.max);\n if (this.isEmpty()) this.makeEmpty();\n return this;\n }\n /**\n * Computes the union of this box and another and the given one, setting the upper\n * bound of this box to the greater of the two boxes\' upper bounds and the\n * lower bound of this box to the lesser of the two boxes\' lower bounds.\n *\n * @param {Box3} box - The bounding box that will be unioned with this instance.\n * @return {Box3} A reference to this bounding box.\n */\n union(box) {\n this.min.min(box.min);\n this.max.max(box.max);\n return this;\n }\n /**\n * Transforms this bounding box by the given 4x4 transformation matrix.\n *\n * @param {Matrix4} matrix - The transformation matrix.\n * @return {Box3} A reference to this bounding box.\n */\n applyMatrix4(matrix) {\n if (this.isEmpty()) return this;\n _points[0].set(this.min.x, this.min.y, this.min.z).applyMatrix4(matrix);\n _points[1].set(this.min.x, this.min.y, this.max.z).applyMatrix4(matrix);\n _points[2].set(this.min.x, this.max.y, this.min.z).applyMatrix4(matrix);\n _points[3].set(this.min.x, this.max.y, this.max.z).applyMatrix4(matrix);\n _points[4].set(this.max.x, this.min.y, this.min.z).applyMatrix4(matrix);\n _points[5].set(this.max.x, this.min.y, this.max.z).applyMatrix4(matrix);\n _points[6].set(this.max.x, this.max.y, this.min.z).applyMatrix4(matrix);\n _points[7].set(this.max.x, this.max.y, this.max.z).applyMatrix4(matrix);\n this.setFromPoints(_points);\n return this;\n }\n /**\n * Adds the given offset to both the upper and lower bounds of this bounding box,\n * effectively moving it in 3D space.\n *\n * @param {Vector3} offset - The offset that should be used to translate the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n translate(offset) {\n this.min.add(offset);\n this.max.add(offset);\n return this;\n }\n /**\n * Returns `true` if this bounding box is equal with the given one.\n *\n * @param {Box3} box - The box to test for equality.\n * @return {boolean} Whether this bounding box is equal with the given one.\n */\n equals(box) {\n return box.min.equals(this.min) && box.max.equals(this.max);\n }\n /**\n * Returns a serialized structure of the bounding box.\n *\n * @return {Object} Serialized structure with fields representing the object state.\n */\n toJSON() {\n return {\n min: this.min.toArray(),\n max: this.max.toArray()\n };\n }\n /**\n * Returns a serialized structure of the bounding box.\n *\n * @param {Object} json - The serialized json to set the box from.\n * @return {Box3} A reference to this bounding box.\n */\n fromJSON(json) {\n this.min.fromArray(json.min);\n this.max.fromArray(json.max);\n return this;\n }\n }\n const _points = [\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3()\n ];\n const _vector$b = /* @__PURE__ */ new Vector3();\n const _box$4 = /* @__PURE__ */ new Box3();\n const _v0$2 = /* @__PURE__ */ new Vector3();\n const _v1$7 = /* @__PURE__ */ new Vector3();\n const _v2$4 = /* @__PURE__ */ new Vector3();\n const _f0 = /* @__PURE__ */ new Vector3();\n const _f1 = /* @__PURE__ */ new Vector3();\n const _f2 = /* @__PURE__ */ new Vector3();\n const _center = /* @__PURE__ */ new Vector3();\n const _extents = /* @__PURE__ */ new Vector3();\n const _triangleNormal = /* @__PURE__ */ new Vector3();\n const _testAxis = /* @__PURE__ */ new Vector3();\n function satForAxes(axes, v0, v1, v2, extents) {\n for (let i2 = 0, j = axes.length - 3; i2 <= j; i2 += 3) {\n _testAxis.fromArray(axes, i2);\n const r = extents.x * Math.abs(_testAxis.x) + extents.y * Math.abs(_testAxis.y) + extents.z * Math.abs(_testAxis.z);\n const p0 = v0.dot(_testAxis);\n const p1 = v1.dot(_testAxis);\n const p2 = v2.dot(_testAxis);\n if (Math.max(-Math.max(p0, p1, p2), Math.min(p0, p1, p2)) > r) {\n return false;\n }\n }\n return true;\n }\n const _colorKeywords = {\n "aliceblue": 15792383,\n "antiquewhite": 16444375,\n "aqua": 65535,\n "aquamarine": 8388564,\n "azure": 15794175,\n "beige": 16119260,\n "bisque": 16770244,\n "black": 0,\n "blanchedalmond": 16772045,\n "blue": 255,\n "blueviolet": 9055202,\n "brown": 10824234,\n "burlywood": 14596231,\n "cadetblue": 6266528,\n "chartreuse": 8388352,\n "chocolate": 13789470,\n "coral": 16744272,\n "cornflowerblue": 6591981,\n "cornsilk": 16775388,\n "crimson": 14423100,\n "cyan": 65535,\n "darkblue": 139,\n "darkcyan": 35723,\n "darkgoldenrod": 12092939,\n "darkgray": 11119017,\n "darkgreen": 25600,\n "darkgrey": 11119017,\n "darkkhaki": 12433259,\n "darkmagenta": 9109643,\n "darkolivegreen": 5597999,\n "darkorange": 16747520,\n "darkorchid": 10040012,\n "darkred": 9109504,\n "darksalmon": 15308410,\n "darkseagreen": 9419919,\n "darkslateblue": 4734347,\n "darkslategray": 3100495,\n "darkslategrey": 3100495,\n "darkturquoise": 52945,\n "darkviolet": 9699539,\n "deeppink": 16716947,\n "deepskyblue": 49151,\n "dimgray": 6908265,\n "dimgrey": 6908265,\n "dodgerblue": 2003199,\n "firebrick": 11674146,\n "floralwhite": 16775920,\n "forestgreen": 2263842,\n "fuchsia": 16711935,\n "gainsboro": 14474460,\n "ghostwhite": 16316671,\n "gold": 16766720,\n "goldenrod": 14329120,\n "gray": 8421504,\n "green": 32768,\n "greenyellow": 11403055,\n "grey": 8421504,\n "honeydew": 15794160,\n "hotpink": 16738740,\n "indianred": 13458524,\n "indigo": 4915330,\n "ivory": 16777200,\n "khaki": 15787660,\n "lavender": 15132410,\n "lavenderblush": 16773365,\n "lawngreen": 8190976,\n "lemonchiffon": 16775885,\n "lightblue": 11393254,\n "lightcoral": 15761536,\n "lightcyan": 14745599,\n "lightgoldenrodyellow": 16448210,\n "lightgray": 13882323,\n "lightgreen": 9498256,\n "lightgrey": 13882323,\n "lightpink": 16758465,\n "lightsalmon": 16752762,\n "lightseagreen": 2142890,\n "lightskyblue": 8900346,\n "lightslategray": 7833753,\n "lightslategrey": 7833753,\n "lightsteelblue": 11584734,\n "lightyellow": 16777184,\n "lime": 65280,\n "limegreen": 3329330,\n "linen": 16445670,\n "magenta": 16711935,\n "maroon": 8388608,\n "mediumaquamarine": 6737322,\n "mediumblue": 205,\n "mediumorchid": 12211667,\n "mediumpurple": 9662683,\n "mediumseagreen": 3978097,\n "mediumslateblue": 8087790,\n "mediumspringgreen": 64154,\n "mediumturquoise": 4772300,\n "mediumvioletred": 13047173,\n "midnightblue": 1644912,\n "mintcream": 16121850,\n "mistyrose": 16770273,\n "moccasin": 16770229,\n "navajowhite": 16768685,\n "navy": 128,\n "oldlace": 16643558,\n "olive": 8421376,\n "olivedrab": 7048739,\n "orange": 16753920,\n "orangered": 16729344,\n "orchid": 14315734,\n "palegoldenrod": 15657130,\n "palegreen": 10025880,\n "paleturquoise": 11529966,\n "palevioletred": 14381203,\n "papayawhip": 16773077,\n "peachpuff": 16767673,\n "peru": 13468991,\n "pink": 16761035,\n "plum": 14524637,\n "powderblue": 11591910,\n "purple": 8388736,\n "rebeccapurple": 6697881,\n "red": 16711680,\n "rosybrown": 12357519,\n "royalblue": 4286945,\n "saddlebrown": 9127187,\n "salmon": 16416882,\n "sandybrown": 16032864,\n "seagreen": 3050327,\n "seashell": 16774638,\n "sienna": 10506797,\n "silver": 12632256,\n "skyblue": 8900331,\n "slateblue": 6970061,\n "slategray": 7372944,\n "slategrey": 7372944,\n "snow": 16775930,\n "springgreen": 65407,\n "steelblue": 4620980,\n "tan": 13808780,\n "teal": 32896,\n "thistle": 14204888,\n "tomato": 16737095,\n "turquoise": 4251856,\n "violet": 15631086,\n "wheat": 16113331,\n "white": 16777215,\n "whitesmoke": 16119285,\n "yellow": 16776960,\n "yellowgreen": 10145074\n };\n const _hslA = { h: 0, s: 0, l: 0 };\n const _hslB = { h: 0, s: 0, l: 0 };\n function hue2rgb(p, q, t) {\n if (t < 0) t += 1;\n if (t > 1) t -= 1;\n if (t < 1 / 6) return p + (q - p) * 6 * t;\n if (t < 1 / 2) return q;\n if (t < 2 / 3) return p + (q - p) * 6 * (2 / 3 - t);\n return p;\n }\n class Color {\n /**\n * Constructs a new color.\n *\n * Note that standard method of specifying color in three.js is with a hexadecimal triplet,\n * and that method is used throughout the rest of the documentation.\n *\n * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n * @param {number} [g] - The green component.\n * @param {number} [b] - The blue component.\n */\n constructor(r, g, b) {\n this.isColor = true;\n this.r = 1;\n this.g = 1;\n this.b = 1;\n return this.set(r, g, b);\n }\n /**\n * Sets the colors\'s components from the given values.\n *\n * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n * @param {number} [g] - The green component.\n * @param {number} [b] - The blue component.\n * @return {Color} A reference to this color.\n */\n set(r, g, b) {\n if (g === void 0 && b === void 0) {\n const value = r;\n if (value && value.isColor) {\n this.copy(value);\n } else if (typeof value === "number") {\n this.setHex(value);\n } else if (typeof value === "string") {\n this.setStyle(value);\n }\n } else {\n this.setRGB(r, g, b);\n }\n return this;\n }\n /**\n * Sets the colors\'s components to the given scalar value.\n *\n * @param {number} scalar - The scalar value.\n * @return {Color} A reference to this color.\n */\n setScalar(scalar) {\n this.r = scalar;\n this.g = scalar;\n this.b = scalar;\n return this;\n }\n /**\n * Sets this color from a hexadecimal value.\n *\n * @param {number} hex - The hexadecimal value.\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setHex(hex, colorSpace = SRGBColorSpace) {\n hex = Math.floor(hex);\n this.r = (hex >> 16 & 255) / 255;\n this.g = (hex >> 8 & 255) / 255;\n this.b = (hex & 255) / 255;\n ColorManagement.colorSpaceToWorking(this, colorSpace);\n return this;\n }\n /**\n * Sets this color from RGB values.\n *\n * @param {number} r - Red channel value between `0.0` and `1.0`.\n * @param {number} g - Green channel value between `0.0` and `1.0`.\n * @param {number} b - Blue channel value between `0.0` and `1.0`.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setRGB(r, g, b, colorSpace = ColorManagement.workingColorSpace) {\n this.r = r;\n this.g = g;\n this.b = b;\n ColorManagement.colorSpaceToWorking(this, colorSpace);\n return this;\n }\n /**\n * Sets this color from RGB values.\n *\n * @param {number} h - Hue value between `0.0` and `1.0`.\n * @param {number} s - Saturation value between `0.0` and `1.0`.\n * @param {number} l - Lightness value between `0.0` and `1.0`.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setHSL(h, s, l, colorSpace = ColorManagement.workingColorSpace) {\n h = euclideanModulo(h, 1);\n s = clamp(s, 0, 1);\n l = clamp(l, 0, 1);\n if (s === 0) {\n this.r = this.g = this.b = l;\n } else {\n const p = l <= 0.5 ? l * (1 + s) : l + s - l * s;\n const q = 2 * l - p;\n this.r = hue2rgb(q, p, h + 1 / 3);\n this.g = hue2rgb(q, p, h);\n this.b = hue2rgb(q, p, h - 1 / 3);\n }\n ColorManagement.colorSpaceToWorking(this, colorSpace);\n return this;\n }\n /**\n * Sets this color from a CSS-style string. For example, `rgb(250, 0,0)`,\n * `rgb(100%, 0%, 0%)`, `hsl(0, 100%, 50%)`, `#ff0000`, `#f00`, or `red` ( or\n * any [X11 color name]{@link https://en.wikipedia.org/wiki/X11_color_names#Color_name_chart} -\n * all 140 color names are supported).\n *\n * @param {string} style - Color as a CSS-style string.\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setStyle(style, colorSpace = SRGBColorSpace) {\n function handleAlpha(string) {\n if (string === void 0) return;\n if (parseFloat(string) < 1) {\n console.warn("THREE.Color: Alpha component of " + style + " will be ignored.");\n }\n }\n let m;\n if (m = /^(\\w+)\\(([^\\)]*)\\)/.exec(style)) {\n let color;\n const name = m[1];\n const components = m[2];\n switch (name) {\n case "rgb":\n case "rgba":\n if (color = /^\\s*(\\d+)\\s*,\\s*(\\d+)\\s*,\\s*(\\d+)\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec(components)) {\n handleAlpha(color[4]);\n return this.setRGB(\n Math.min(255, parseInt(color[1], 10)) / 255,\n Math.min(255, parseInt(color[2], 10)) / 255,\n Math.min(255, parseInt(color[3], 10)) / 255,\n colorSpace\n );\n }\n if (color = /^\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec(components)) {\n handleAlpha(color[4]);\n return this.setRGB(\n Math.min(100, parseInt(color[1], 10)) / 100,\n Math.min(100, parseInt(color[2], 10)) / 100,\n Math.min(100, parseInt(color[3], 10)) / 100,\n colorSpace\n );\n }\n break;\n case "hsl":\n case "hsla":\n if (color = /^\\s*(\\d*\\.?\\d+)\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec(components)) {\n handleAlpha(color[4]);\n return this.setHSL(\n parseFloat(color[1]) / 360,\n parseFloat(color[2]) / 100,\n parseFloat(color[3]) / 100,\n colorSpace\n );\n }\n break;\n default:\n console.warn("THREE.Color: Unknown color model " + style);\n }\n } else if (m = /^\\#([A-Fa-f\\d]+)$/.exec(style)) {\n const hex = m[1];\n const size = hex.length;\n if (size === 3) {\n return this.setRGB(\n parseInt(hex.charAt(0), 16) / 15,\n parseInt(hex.charAt(1), 16) / 15,\n parseInt(hex.charAt(2), 16) / 15,\n colorSpace\n );\n } else if (size === 6) {\n return this.setHex(parseInt(hex, 16), colorSpace);\n } else {\n console.warn("THREE.Color: Invalid hex color " + style);\n }\n } else if (style && style.length > 0) {\n return this.setColorName(style, colorSpace);\n }\n return this;\n }\n /**\n * Sets this color from a color name. Faster than {@link Color#setStyle} if\n * you don\'t need the other CSS-style formats.\n *\n * For convenience, the list of names is exposed in `Color.NAMES` as a hash.\n * ```js\n * Color.NAMES.aliceblue // returns 0xF0F8FF\n * ```\n *\n * @param {string} style - The color name.\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setColorName(style, colorSpace = SRGBColorSpace) {\n const hex = _colorKeywords[style.toLowerCase()];\n if (hex !== void 0) {\n this.setHex(hex, colorSpace);\n } else {\n console.warn("THREE.Color: Unknown color " + style);\n }\n return this;\n }\n /**\n * Returns a new color with copied values from this instance.\n *\n * @return {Color} A clone of this instance.\n */\n clone() {\n return new this.constructor(this.r, this.g, this.b);\n }\n /**\n * Copies the values of the given color to this instance.\n *\n * @param {Color} color - The color to copy.\n * @return {Color} A reference to this color.\n */\n copy(color) {\n this.r = color.r;\n this.g = color.g;\n this.b = color.b;\n return this;\n }\n /**\n * Copies the given color into this color, and then converts this color from\n * `SRGBColorSpace` to `LinearSRGBColorSpace`.\n *\n * @param {Color} color - The color to copy/convert.\n * @return {Color} A reference to this color.\n */\n copySRGBToLinear(color) {\n this.r = SRGBToLinear(color.r);\n this.g = SRGBToLinear(color.g);\n this.b = SRGBToLinear(color.b);\n return this;\n }\n /**\n * Copies the given color into this color, and then converts this color from\n * `LinearSRGBColorSpace` to `SRGBColorSpace`.\n *\n * @param {Color} color - The color to copy/convert.\n * @return {Color} A reference to this color.\n */\n copyLinearToSRGB(color) {\n this.r = LinearToSRGB(color.r);\n this.g = LinearToSRGB(color.g);\n this.b = LinearToSRGB(color.b);\n return this;\n }\n /**\n * Converts this color from `SRGBColorSpace` to `LinearSRGBColorSpace`.\n *\n * @return {Color} A reference to this color.\n */\n convertSRGBToLinear() {\n this.copySRGBToLinear(this);\n return this;\n }\n /**\n * Converts this color from `LinearSRGBColorSpace` to `SRGBColorSpace`.\n *\n * @return {Color} A reference to this color.\n */\n convertLinearToSRGB() {\n this.copyLinearToSRGB(this);\n return this;\n }\n /**\n * Returns the hexadecimal value of this color.\n *\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {number} The hexadecimal value.\n */\n getHex(colorSpace = SRGBColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n return Math.round(clamp(_color.r * 255, 0, 255)) * 65536 + Math.round(clamp(_color.g * 255, 0, 255)) * 256 + Math.round(clamp(_color.b * 255, 0, 255));\n }\n /**\n * Returns the hexadecimal value of this color as a string (for example, \'FFFFFF\').\n *\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {string} The hexadecimal value as a string.\n */\n getHexString(colorSpace = SRGBColorSpace) {\n return ("000000" + this.getHex(colorSpace).toString(16)).slice(-6);\n }\n /**\n * Converts the colors RGB values into the HSL format and stores them into the\n * given target object.\n *\n * @param {{h:number,s:number,l:number}} target - The target object that is used to store the method\'s result.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {{h:number,s:number,l:number}} The HSL representation of this color.\n */\n getHSL(target, colorSpace = ColorManagement.workingColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n const r = _color.r, g = _color.g, b = _color.b;\n const max2 = Math.max(r, g, b);\n const min = Math.min(r, g, b);\n let hue, saturation;\n const lightness = (min + max2) / 2;\n if (min === max2) {\n hue = 0;\n saturation = 0;\n } else {\n const delta = max2 - min;\n saturation = lightness <= 0.5 ? delta / (max2 + min) : delta / (2 - max2 - min);\n switch (max2) {\n case r:\n hue = (g - b) / delta + (g < b ? 6 : 0);\n break;\n case g:\n hue = (b - r) / delta + 2;\n break;\n case b:\n hue = (r - g) / delta + 4;\n break;\n }\n hue /= 6;\n }\n target.h = hue;\n target.s = saturation;\n target.l = lightness;\n return target;\n }\n /**\n * Returns the RGB values of this color and stores them into the given target object.\n *\n * @param {Color} target - The target color that is used to store the method\'s result.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {Color} The RGB representation of this color.\n */\n getRGB(target, colorSpace = ColorManagement.workingColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n target.r = _color.r;\n target.g = _color.g;\n target.b = _color.b;\n return target;\n }\n /**\n * Returns the value of this color as a CSS style string. Example: `rgb(255,0,0)`.\n *\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {string} The CSS representation of this color.\n */\n getStyle(colorSpace = SRGBColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n const r = _color.r, g = _color.g, b = _color.b;\n if (colorSpace !== SRGBColorSpace) {\n return `color(${colorSpace} ${r.toFixed(3)} ${g.toFixed(3)} ${b.toFixed(3)})`;\n }\n return `rgb(${Math.round(r * 255)},${Math.round(g * 255)},${Math.round(b * 255)})`;\n }\n /**\n * Adds the given HSL values to this color\'s values.\n * Internally, this converts the color\'s RGB values to HSL, adds HSL\n * and then converts the color back to RGB.\n *\n * @param {number} h - Hue value between `0.0` and `1.0`.\n * @param {number} s - Saturation value between `0.0` and `1.0`.\n * @param {number} l - Lightness value between `0.0` and `1.0`.\n * @return {Color} A reference to this color.\n */\n offsetHSL(h, s, l) {\n this.getHSL(_hslA);\n return this.setHSL(_hslA.h + h, _hslA.s + s, _hslA.l + l);\n }\n /**\n * Adds the RGB values of the given color to the RGB values of this color.\n *\n * @param {Color} color - The color to add.\n * @return {Color} A reference to this color.\n */\n add(color) {\n this.r += color.r;\n this.g += color.g;\n this.b += color.b;\n return this;\n }\n /**\n * Adds the RGB values of the given colors and stores the result in this instance.\n *\n * @param {Color} color1 - The first color.\n * @param {Color} color2 - The second color.\n * @return {Color} A reference to this color.\n */\n addColors(color1, color2) {\n this.r = color1.r + color2.r;\n this.g = color1.g + color2.g;\n this.b = color1.b + color2.b;\n return this;\n }\n /**\n * Adds the given scalar value to the RGB values of this color.\n *\n * @param {number} s - The scalar to add.\n * @return {Color} A reference to this color.\n */\n addScalar(s) {\n this.r += s;\n this.g += s;\n this.b += s;\n return this;\n }\n /**\n * Subtracts the RGB values of the given color from the RGB values of this color.\n *\n * @param {Color} color - The color to subtract.\n * @return {Color} A reference to this color.\n */\n sub(color) {\n this.r = Math.max(0, this.r - color.r);\n this.g = Math.max(0, this.g - color.g);\n this.b = Math.max(0, this.b - color.b);\n return this;\n }\n /**\n * Multiplies the RGB values of the given color with the RGB values of this color.\n *\n * @param {Color} color - The color to multiply.\n * @return {Color} A reference to this color.\n */\n multiply(color) {\n this.r *= color.r;\n this.g *= color.g;\n this.b *= color.b;\n return this;\n }\n /**\n * Multiplies the given scalar value with the RGB values of this color.\n *\n * @param {number} s - The scalar to multiply.\n * @return {Color} A reference to this color.\n */\n multiplyScalar(s) {\n this.r *= s;\n this.g *= s;\n this.b *= s;\n return this;\n }\n /**\n * Linearly interpolates this color\'s RGB values toward the RGB values of the\n * given color. The alpha argument can be thought of as the ratio between\n * the two colors, where `0.0` is this color and `1.0` is the first argument.\n *\n * @param {Color} color - The color to converge on.\n * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n * @return {Color} A reference to this color.\n */\n lerp(color, alpha) {\n this.r += (color.r - this.r) * alpha;\n this.g += (color.g - this.g) * alpha;\n this.b += (color.b - this.b) * alpha;\n return this;\n }\n /**\n * Linearly interpolates between the given colors and stores the result in this instance.\n * The alpha argument can be thought of as the ratio between the two colors, where `0.0`\n * is the first and `1.0` is the second color.\n *\n * @param {Color} color1 - The first color.\n * @param {Color} color2 - The second color.\n * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n * @return {Color} A reference to this color.\n */\n lerpColors(color1, color2, alpha) {\n this.r = color1.r + (color2.r - color1.r) * alpha;\n this.g = color1.g + (color2.g - color1.g) * alpha;\n this.b = color1.b + (color2.b - color1.b) * alpha;\n return this;\n }\n /**\n * Linearly interpolates this color\'s HSL values toward the HSL values of the\n * given color. It differs from {@link Color#lerp} by not interpolating straight\n * from one color to the other, but instead going through all the hues in between\n * those two colors. The alpha argument can be thought of as the ratio between\n * the two colors, where 0.0 is this color and 1.0 is the first argument.\n *\n * @param {Color} color - The color to converge on.\n * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n * @return {Color} A reference to this color.\n */\n lerpHSL(color, alpha) {\n this.getHSL(_hslA);\n color.getHSL(_hslB);\n const h = lerp(_hslA.h, _hslB.h, alpha);\n const s = lerp(_hslA.s, _hslB.s, alpha);\n const l = lerp(_hslA.l, _hslB.l, alpha);\n this.setHSL(h, s, l);\n return this;\n }\n /**\n * Sets the color\'s RGB components from the given 3D vector.\n *\n * @param {Vector3} v - The vector to set.\n * @return {Color} A reference to this color.\n */\n setFromVector3(v) {\n this.r = v.x;\n this.g = v.y;\n this.b = v.z;\n return this;\n }\n /**\n * Transforms this color with the given 3x3 matrix.\n *\n * @param {Matrix3} m - The matrix.\n * @return {Color} A reference to this color.\n */\n applyMatrix3(m) {\n const r = this.r, g = this.g, b = this.b;\n const e = m.elements;\n this.r = e[0] * r + e[3] * g + e[6] * b;\n this.g = e[1] * r + e[4] * g + e[7] * b;\n this.b = e[2] * r + e[5] * g + e[8] * b;\n return this;\n }\n /**\n * Returns `true` if this color is equal with the given one.\n *\n * @param {Color} c - The color to test for equality.\n * @return {boolean} Whether this bounding color is equal with the given one.\n */\n equals(c) {\n return c.r === this.r && c.g === this.g && c.b === this.b;\n }\n /**\n * Sets this color\'s RGB components from the given array.\n *\n * @param {Array} array - An array holding the RGB values.\n * @param {number} [offset=0] - The offset into the array.\n * @return {Color} A reference to this color.\n */\n fromArray(array, offset = 0) {\n this.r = array[offset];\n this.g = array[offset + 1];\n this.b = array[offset + 2];\n return this;\n }\n /**\n * Writes the RGB components of this color to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the color components.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The color components.\n */\n toArray(array = [], offset = 0) {\n array[offset] = this.r;\n array[offset + 1] = this.g;\n array[offset + 2] = this.b;\n return array;\n }\n /**\n * Sets the components of this color from the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - The buffer attribute holding color data.\n * @param {number} index - The index into the attribute.\n * @return {Color} A reference to this color.\n */\n fromBufferAttribute(attribute, index) {\n this.r = attribute.getX(index);\n this.g = attribute.getY(index);\n this.b = attribute.getZ(index);\n return this;\n }\n /**\n * This methods defines the serialization result of this class. Returns the color\n * as a hexadecimal value.\n *\n * @return {number} The hexadecimal value.\n */\n toJSON() {\n return this.getHex();\n }\n *[Symbol.iterator]() {\n yield this.r;\n yield this.g;\n yield this.b;\n }\n }\n const _color = /* @__PURE__ */ new Color();\n Color.NAMES = _colorKeywords;\n if (typeof __THREE_DEVTOOLS__ !== "undefined") {\n __THREE_DEVTOOLS__.dispatchEvent(new CustomEvent("register", { detail: {\n revision: REVISION\n } }));\n }\n if (typeof window !== "undefined") {\n if (window.__THREE__) {\n console.warn("WARNING: Multiple instances of Three.js being imported.");\n } else {\n window.__THREE__ = REVISION;\n }\n }\n const LN_SCALE_MIN = -12;\n const LN_SCALE_MAX = 9;\n const LN_SCALE_ZERO = -30;\n const SCALE_ZERO = Math.exp(LN_SCALE_ZERO);\n const SPLAT_TEX_WIDTH_BITS = 11;\n const SPLAT_TEX_HEIGHT_BITS = 11;\n const SPLAT_TEX_WIDTH = 1 << SPLAT_TEX_WIDTH_BITS;\n const SPLAT_TEX_HEIGHT = 1 << SPLAT_TEX_HEIGHT_BITS;\n const SPLAT_TEX_MIN_HEIGHT = 1;\n var SplatFileType = /* @__PURE__ */ ((SplatFileType2) => {\n SplatFileType2["PLY"] = "ply";\n SplatFileType2["SPZ"] = "spz";\n SplatFileType2["SPLAT"] = "splat";\n SplatFileType2["KSPLAT"] = "ksplat";\n SplatFileType2["PCSOGS"] = "pcsogs";\n SplatFileType2["PCSOGSZIP"] = "pcsogszip";\n SplatFileType2["RAD"] = "rad";\n return SplatFileType2;\n })(SplatFileType || {});\n function unindentLines(s) {\n var _a2;\n let seenNonEmpty = false;\n const lines = s.split("\\n").map((line) => {\n const trimmedLine = line.trimEnd();\n if (seenNonEmpty) {\n return trimmedLine;\n }\n if (trimmedLine.length > 0) {\n seenNonEmpty = true;\n return trimmedLine;\n }\n return null;\n }).filter((line) => line != null);\n while (lines.length > 0 && lines[lines.length - 1].length === 0) {\n lines.pop();\n }\n if (lines.length === 0) {\n return [];\n }\n const indent = (_a2 = lines[0].match(/^\\s*/)) == null ? void 0 : _a2[0];\n if (!indent) {\n return lines;\n }\n const regex = new RegExp(`^${indent}`);\n return lines.map((line) => line.replace(regex, ""));\n }\n function unindent(s) {\n return unindentLines(s).join("\\n");\n }\n const f32buffer = new Float32Array(1);\n const u32buffer = new Uint32Array(f32buffer.buffer);\n const supportsFloat16Array = "Float16Array" in globalThis;\n const f16buffer = supportsFloat16Array ? new globalThis["Float16Array"](1) : null;\n const u16buffer = new Uint16Array(f16buffer == null ? void 0 : f16buffer.buffer);\n function normalize(vec) {\n const norm = Math.sqrt(vec.reduce((acc, v) => acc + v * v, 0));\n return vec.map((v) => v / norm);\n }\n const toHalf = supportsFloat16Array ? toHalfNative : toHalfJS;\n const fromHalf = supportsFloat16Array ? fromHalfNative : fromHalfJS;\n function toHalfNative(f) {\n f16buffer[0] = f;\n return u16buffer[0];\n }\n function toHalfJS(f) {\n f32buffer[0] = f;\n const bits2 = u32buffer[0];\n const sign = bits2 >> 31 & 1;\n const exp = bits2 >> 23 & 255;\n const frac = bits2 & 8388607;\n const halfSign = sign << 15;\n if (exp === 255) {\n if (frac !== 0) {\n return halfSign | 32767;\n }\n return halfSign | 31744;\n }\n const newExp = exp - 127 + 15;\n if (newExp >= 31) {\n return halfSign | 31744;\n }\n if (newExp <= 0) {\n if (newExp < -10) {\n return halfSign;\n }\n const subFrac = (frac | 8388608) >> 1 - newExp + 13;\n return halfSign | subFrac;\n }\n const halfFrac = frac >> 13;\n return halfSign | newExp << 10 | halfFrac;\n }\n function fromHalfNative(u) {\n u16buffer[0] = u;\n return f16buffer[0];\n }\n function fromHalfJS(h) {\n const sign = h >> 15 & 1;\n const exp = h >> 10 & 31;\n const frac = h & 1023;\n let f32bits;\n if (exp === 0) {\n if (frac === 0) {\n f32bits = sign << 31;\n } else {\n let mant = frac;\n let e = -14;\n while ((mant & 1024) === 0) {\n mant <<= 1;\n e--;\n }\n mant &= 1023;\n const newExp = e + 127;\n const newFrac = mant << 13;\n f32bits = sign << 31 | newExp << 23 | newFrac;\n }\n } else if (exp === 31) {\n if (frac === 0) {\n f32bits = sign << 31 | 2139095040;\n } else {\n f32bits = sign << 31 | 2143289344;\n }\n } else {\n const newExp = exp - 15 + 127;\n const newFrac = frac << 13;\n f32bits = sign << 31 | newExp << 23 | newFrac;\n }\n u32buffer[0] = f32bits;\n return f32buffer[0];\n }\n function floatToUint8(v) {\n return Math.max(0, Math.min(255, Math.round(v * 255)));\n }\n function getTransferable(ctx) {\n const buffers = [];\n const seen = /* @__PURE__ */ new Set();\n function traverse(obj) {\n if (obj && typeof obj === "object" && !seen.has(obj)) {\n seen.add(obj);\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n buffers.push(obj.buffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n traverse(ctx);\n return buffers;\n }\n function setPackedSplat(packedSplats, index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b, encoding) {\n const rgbMin = (encoding == null ? void 0 : encoding.rgbMin) ?? 0;\n const rgbMax = (encoding == null ? void 0 : encoding.rgbMax) ?? 1;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8((encoding == null ? void 0 : encoding.lodOpacity) ? 0.5 * opacity : opacity);\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW)\n );\n const uQuatX = uQuat & 255;\n const uQuatY = uQuat >>> 8 & 255;\n const uQuatZ = uQuat >>> 16 & 255;\n const lnScaleMin = (encoding == null ? void 0 : encoding.lnScaleMin) ?? LN_SCALE_MIN;\n const lnScaleMax = (encoding == null ? void 0 : encoding.lnScaleMax) ?? LN_SCALE_MAX;\n const lnScaleScale = 254 / (lnScaleMax - lnScaleMin);\n const uScaleX = scaleX < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleY = scaleY < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleZ = scaleZ < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uCenterX = toHalf(x2);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n const i4 = index * 4;\n packedSplats[i4] = uR | uG << 8 | uB << 16 | uA << 24;\n packedSplats[i4 + 1] = uCenterX | uCenterY << 16;\n packedSplats[i4 + 2] = uCenterZ | uQuatX << 16 | uQuatY << 24;\n packedSplats[i4 + 3] = uScaleX | uScaleY << 8 | uScaleZ << 16 | uQuatZ << 24;\n }\n function setPackedSplatCenter(packedSplats, index, x2, y, z) {\n const uCenterX = toHalf(x2);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n const i4 = index * 4;\n packedSplats[i4 + 1] = uCenterX | uCenterY << 16;\n packedSplats[i4 + 2] = uCenterZ | packedSplats[i4 + 2] & 4294901760;\n }\n function setPackedSplatScales(packedSplats, index, scaleX, scaleY, scaleZ, encoding) {\n const lnScaleMin = (encoding == null ? void 0 : encoding.lnScaleMin) ?? LN_SCALE_MIN;\n const lnScaleMax = (encoding == null ? void 0 : encoding.lnScaleMax) ?? LN_SCALE_MAX;\n const lnScaleScale = 254 / (lnScaleMax - lnScaleMin);\n const uScaleX = scaleX < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleY = scaleY < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleZ = scaleZ < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const i4 = index * 4;\n packedSplats[i4 + 3] = uScaleX | uScaleY << 8 | uScaleZ << 16 | packedSplats[i4 + 3] & 4278190080;\n }\n const tempQuaternion = new Quaternion();\n function setPackedSplatQuat(packedSplats, index, quatX, quatY, quatZ, quatW) {\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW)\n );\n const uQuatX = uQuat & 255;\n const uQuatY = uQuat >>> 8 & 255;\n const uQuatZ = uQuat >>> 16 & 255;\n const i4 = index * 4;\n packedSplats[i4 + 2] = packedSplats[i4 + 2] & 65535 | uQuatX << 16 | uQuatY << 24;\n packedSplats[i4 + 3] = packedSplats[i4 + 3] & 16777215 | uQuatZ << 24;\n }\n function setPackedSplatRgba(packedSplats, index, r, g, b, a, encoding) {\n const rgbMin = (encoding == null ? void 0 : encoding.rgbMin) ?? 0;\n const rgbMax = (encoding == null ? void 0 : encoding.rgbMax) ?? 1;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8((encoding == null ? void 0 : encoding.lodOpacity) ? 0.5 * a : a);\n const i4 = index * 4;\n packedSplats[i4] = uR | uG << 8 | uB << 16 | uA << 24;\n }\n function setPackedSplatRgb(packedSplats, index, r, g, b, encoding) {\n const rgbMin = (encoding == null ? void 0 : encoding.rgbMin) ?? 0;\n const rgbMax = (encoding == null ? void 0 : encoding.rgbMax) ?? 1;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const i4 = index * 4;\n packedSplats[i4] = uR | uG << 8 | uB << 16 | packedSplats[i4] & 4278190080;\n }\n function setPackedSplatOpacity(packedSplats, index, opacity) {\n const uA = floatToUint8(opacity);\n const i4 = index * 4;\n packedSplats[i4] = packedSplats[i4] & 16777215 | uA << 24;\n }\n new Vector3();\n new Vector3();\n new Color();\n function getTextureSize(numSplats) {\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width))\n );\n const depth = Math.ceil(numSplats / (width * height));\n const maxSplats = width * height * depth;\n return { width, height, depth, maxSplats };\n }\n function computeMaxSplats(numSplats) {\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width))\n );\n const depth = Math.ceil(numSplats / (width * height));\n return width * height * depth;\n }\n unindent(`\n precision highp float;\n\n in vec3 position;\n\n void main() {\n gl_Position = vec4(position.xy, 0.0, 1.0);\n }\n`);\n const tempNormalizedQuaternion = new Quaternion();\n const tempAxis = new Vector3();\n function encodeQuatOctXy88R8(q) {\n const qnorm = tempNormalizedQuaternion.copy(q).normalize();\n if (qnorm.w < 0) {\n qnorm.set(-qnorm.x, -qnorm.y, -qnorm.z, -qnorm.w);\n }\n const theta = 2 * Math.acos(qnorm.w);\n const xyz_norm = Math.sqrt(\n qnorm.x * qnorm.x + qnorm.y * qnorm.y + qnorm.z * qnorm.z\n );\n const axis = xyz_norm < 1e-6 ? tempAxis.set(1, 0, 0) : tempAxis.set(qnorm.x, qnorm.y, qnorm.z).divideScalar(xyz_norm);\n const sum = Math.abs(axis.x) + Math.abs(axis.y) + Math.abs(axis.z);\n let p_x = axis.x / sum;\n let p_y = axis.y / sum;\n if (axis.z < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n const quantU = Math.round(u_f * 255);\n const quantV = Math.round(v_f * 255);\n const angleInt = Math.round(theta * (255 / Math.PI));\n return angleInt << 16 | quantV << 8 | quantU;\n }\n function packSint8Bytes(b0, b1, b22, b3) {\n const clampedB0 = Math.round(Math.max(-127, Math.min(127, b0 * 127)));\n const clampedB1 = Math.round(Math.max(-127, Math.min(127, b1 * 127)));\n const clampedB2 = Math.round(Math.max(-127, Math.min(127, b22 * 127)));\n const clampedB3 = Math.round(Math.max(-127, Math.min(127, b3 * 127)));\n return clampedB0 & 255 | (clampedB1 & 255) << 8 | (clampedB2 & 255) << 16 | (clampedB3 & 255) << 24;\n }\n function encodeSh1Rgb(sh1Array, index, sh1Rgb, encoding) {\n const sh1Max = (encoding == null ? void 0 : encoding.sh1Max) ?? 1;\n const sh1Scale = 63 / sh1Max;\n const base = index * 2;\n for (let i2 = 0; i2 < 9; ++i2) {\n const s = sh1Rgb[i2] * sh1Scale;\n const value = Math.round(Math.max(-63, Math.min(63, s))) & 127;\n const bitStart = i2 * 7;\n const bitEnd = bitStart + 7;\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = value << bitOffset & 4294967295;\n sh1Array[base + wordStart] |= firstWord;\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = value >>> 32 - bitOffset & 4294967295;\n sh1Array[base + wordStart + 1] |= secondWord;\n }\n }\n }\n function encodeSh2Rgb(sh2Array, index, sh2Rgb, encoding) {\n const sh2Max = (encoding == null ? void 0 : encoding.sh2Max) ?? 1;\n const sh2Scale = 1 / sh2Max;\n sh2Array[index * 4 + 0] = packSint8Bytes(\n sh2Rgb[0] * sh2Scale,\n sh2Rgb[1] * sh2Scale,\n sh2Rgb[2] * sh2Scale,\n sh2Rgb[3] * sh2Scale\n );\n sh2Array[index * 4 + 1] = packSint8Bytes(\n sh2Rgb[4] * sh2Scale,\n sh2Rgb[5] * sh2Scale,\n sh2Rgb[6] * sh2Scale,\n sh2Rgb[7] * sh2Scale\n );\n sh2Array[index * 4 + 2] = packSint8Bytes(\n sh2Rgb[8] * sh2Scale,\n sh2Rgb[9] * sh2Scale,\n sh2Rgb[10] * sh2Scale,\n sh2Rgb[11] * sh2Scale\n );\n sh2Array[index * 4 + 3] = packSint8Bytes(\n sh2Rgb[12] * sh2Scale,\n sh2Rgb[13] * sh2Scale,\n sh2Rgb[14] * sh2Scale,\n 0\n );\n }\n function encodeSh3Rgb(sh3Array, index, sh3Rgb, encoding) {\n const sh3Max = (encoding == null ? void 0 : encoding.sh3Max) ?? 1;\n const sh3Scale = 31 / sh3Max;\n const base = index * 4;\n for (let i2 = 0; i2 < 21; ++i2) {\n const s = sh3Rgb[i2] * sh3Scale;\n const value = Math.round(Math.max(-31, Math.min(31, s))) & 63;\n const bitStart = i2 * 6;\n const bitEnd = bitStart + 6;\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = value << bitOffset & 4294967295;\n sh3Array[base + wordStart] |= firstWord;\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = value >>> 32 - bitOffset & 4294967295;\n sh3Array[base + wordStart + 1] |= secondWord;\n }\n }\n }\n function decompressPartialGzip(fileBytes, numBytes) {\n const chunks = [];\n let totalBytes = 0;\n let result = null;\n const gunzip = new Gunzip((data, final) => {\n chunks.push(data);\n totalBytes += data.length;\n if (final || totalBytes >= numBytes) {\n const allBytes = new Uint8Array(totalBytes);\n let offset2 = 0;\n for (const chunk of chunks) {\n allBytes.set(chunk, offset2);\n offset2 += chunk.length;\n }\n result = allBytes.slice(0, numBytes);\n }\n });\n const CHUNK_SIZE = 1024;\n let offset = 0;\n while (result == null && offset < fileBytes.length) {\n const chunk = fileBytes.slice(offset, offset + CHUNK_SIZE);\n gunzip.push(chunk, false);\n offset += CHUNK_SIZE;\n }\n if (result == null) {\n gunzip.push(new Uint8Array(), true);\n if (result == null) {\n throw new Error("Failed to decompress partial gzip");\n }\n }\n return result;\n }\n class GunzipReader {\n constructor({\n fileBytes,\n chunkBytes = 64 * 1024\n }) {\n this.fileBytes = fileBytes;\n this.chunkBytes = chunkBytes;\n this.chunks = [];\n this.totalBytes = 0;\n const ds = new DecompressionStream("gzip");\n const decompressionStream = new Blob([fileBytes]).stream().pipeThrough(ds);\n this.reader = decompressionStream.getReader();\n }\n async read(numBytes) {\n while (this.totalBytes < numBytes) {\n const { value: chunk, done: readerDone } = await this.reader.read();\n if (readerDone) {\n break;\n }\n this.chunks.push(chunk);\n this.totalBytes += chunk.length;\n }\n if (this.totalBytes < numBytes) {\n throw new Error(\n `Unexpected EOF: needed ${numBytes}, got ${this.totalBytes}`\n );\n }\n const allBytes = new Uint8Array(this.totalBytes);\n let outOffset = 0;\n for (const chunk of this.chunks) {\n allBytes.set(chunk, outOffset);\n outOffset += chunk.length;\n }\n const result = allBytes.subarray(0, numBytes);\n this.chunks = [allBytes.subarray(numBytes)];\n this.totalBytes -= numBytes;\n return result;\n }\n }\n function decodeAntiSplat(fileBytes, initNumSplats, splatCallback) {\n const numSplats = Math.floor(fileBytes.length / 32);\n if (numSplats * 32 !== fileBytes.length) {\n throw new Error("Invalid .splat file size");\n }\n initNumSplats(numSplats);\n const f32 = new Float32Array(fileBytes.buffer);\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i322 = i2 * 32;\n const i8 = i2 * 8;\n const x2 = f32[i8 + 0];\n const y = f32[i8 + 1];\n const z = f32[i8 + 2];\n const scaleX = f32[i8 + 3];\n const scaleY = f32[i8 + 4];\n const scaleZ = f32[i8 + 5];\n const r = fileBytes[i322 + 24] / 255;\n const g = fileBytes[i322 + 25] / 255;\n const b = fileBytes[i322 + 26] / 255;\n const opacity = fileBytes[i322 + 27] / 255;\n const quatW = (fileBytes[i322 + 28] - 128) / 128;\n const quatX = (fileBytes[i322 + 29] - 128) / 128;\n const quatY = (fileBytes[i322 + 30] - 128) / 128;\n const quatZ = (fileBytes[i322 + 31] - 128) / 128;\n splatCallback(\n i2,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b\n );\n }\n }\n function unpackAntiSplat(fileBytes, splatEncoding) {\n let numSplats = 0;\n let maxSplats = 0;\n let packedArray = new Uint32Array(0);\n decodeAntiSplat(\n fileBytes,\n (cbNumSplats) => {\n numSplats = cbNumSplats;\n maxSplats = computeMaxSplats(numSplats);\n packedArray = new Uint32Array(maxSplats * 4);\n },\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n setPackedSplat(\n packedArray,\n index,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding\n );\n }\n );\n return { packedArray, numSplats };\n }\n const KSPLAT_COMPRESSION = {\n 0: {\n bytesPerCenter: 12,\n bytesPerScale: 12,\n bytesPerRotation: 16,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 4,\n scaleOffsetBytes: 12,\n rotationOffsetBytes: 24,\n colorOffsetBytes: 40,\n sphericalHarmonicsOffsetBytes: 44,\n scaleRange: 1\n },\n 1: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 2,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767\n },\n 2: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 1,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767\n }\n };\n const KSPLAT_SH_DEGREE_TO_COMPONENTS = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45\n };\n function decodeKsplat(fileBytes, initNumSplats, splatCallback, shCallback) {\n var _a2;\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n for (let section = 0; section < maxSectionCount; ++section) {\n let getSh = function(splatOffset, component) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true\n )\n );\n }\n const t = data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) / 255;\n return minSphericalHarmonicsCoeff + t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff);\n };\n const section2 = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n const sectionSplatCount = section2.getUint32(0, true);\n const sectionMaxSplatCount = section2.getUint32(4, true);\n const bucketSize = section2.getUint32(8, true);\n const bucketCount = section2.getUint32(12, true);\n const bucketBlockSize = section2.getFloat32(16, true);\n const bucketStorageSizeBytes = section2.getUint16(20, true);\n const compressionScaleRange = (section2.getUint32(24, true) || ((_a2 = KSPLAT_COMPRESSION[compressionLevel]) == null ? void 0 : _a2.scaleRange)) ?? 1;\n const fullBucketCount = section2.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section2.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes = bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section2.getUint16(40, true);\n const shComponents = KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat = bytesPerCenter + bytesPerScale + bytesPerRotation + bytesPerColor + shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes = splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9,\n 14,\n 19,\n 10,\n 15,\n 20,\n 11,\n 16,\n 21,\n 12,\n 17,\n 22,\n 13,\n 18,\n 23\n ];\n const sh3Index = [\n 24,\n 31,\n 38,\n 25,\n 32,\n 39,\n 26,\n 33,\n 40,\n 27,\n 34,\n 41,\n 28,\n 35,\n 42,\n 29,\n 36,\n 43,\n 30,\n 37,\n 44\n ];\n const sh1 = sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : void 0;\n const sh2 = sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : void 0;\n const sh3 = sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : void 0;\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount\n );\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n for (let i2 = 0; i2 < sectionSplatCount; ++i2) {\n const splatOffset = i2 * bytesPerSplat;\n let bucketIndex;\n if (i2 < fullBucketSplats) {\n bucketIndex = Math.floor(i2 / bucketSize);\n } else {\n const bucketLength = partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i2 >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n const x2 = compressionLevel === 0 ? data.getFloat32(splatOffset + 0, true) : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 0];\n const y = compressionLevel === 0 ? data.getFloat32(splatOffset + 4, true) : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 1];\n const z = compressionLevel === 0 ? data.getFloat32(splatOffset + 8, true) : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 2];\n const scaleX = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n const quatW = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true)\n );\n const quatX = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true)\n );\n const quatY = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true)\n );\n const quatZ = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true)\n );\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n splatCallback(\n i2,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b\n );\n if (sphericalHarmonicsDegree >= 1 && sh1) {\n for (const [i22, key] of sh1Index.entries()) {\n sh1[i22] = getSh(splatOffset, key);\n }\n if (sh2) {\n for (const [i22, key] of sh2Index.entries()) {\n sh2[i22] = getSh(splatOffset, key);\n }\n }\n if (sh3) {\n for (const [i22, key] of sh3Index.entries()) {\n sh3[i22] = getSh(splatOffset, key);\n }\n }\n shCallback == null ? void 0 : shCallback(i2, sh1, sh2, sh3);\n }\n }\n sectionBase += storageSizeBytes;\n }\n }\n function unpackKsplat(fileBytes, splatEncoding) {\n var _a2;\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n const numSplats = splatCount;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra = {};\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n for (let section = 0; section < maxSectionCount; ++section) {\n let getSh = function(splatOffset, component) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true\n )\n );\n }\n const t = data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) / 255;\n return minSphericalHarmonicsCoeff + t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff);\n };\n const section2 = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n const sectionSplatCount = section2.getUint32(0, true);\n const sectionMaxSplatCount = section2.getUint32(4, true);\n const bucketSize = section2.getUint32(8, true);\n const bucketCount = section2.getUint32(12, true);\n const bucketBlockSize = section2.getFloat32(16, true);\n const bucketStorageSizeBytes = section2.getUint16(20, true);\n const compressionScaleRange = (section2.getUint32(24, true) || ((_a2 = KSPLAT_COMPRESSION[compressionLevel]) == null ? void 0 : _a2.scaleRange)) ?? 1;\n const fullBucketCount = section2.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section2.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes = bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section2.getUint16(40, true);\n const shComponents = KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat = bytesPerCenter + bytesPerScale + bytesPerRotation + bytesPerColor + shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes = splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9,\n 14,\n 19,\n 10,\n 15,\n 20,\n 11,\n 16,\n 21,\n 12,\n 17,\n 22,\n 13,\n 18,\n 23\n ];\n const sh3Index = [\n 24,\n 31,\n 38,\n 25,\n 32,\n 39,\n 26,\n 33,\n 40,\n 27,\n 34,\n 41,\n 28,\n 35,\n 42,\n 29,\n 36,\n 43,\n 30,\n 37,\n 44\n ];\n const sh1 = sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : void 0;\n const sh2 = sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : void 0;\n const sh3 = sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : void 0;\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount\n );\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n for (let i2 = 0; i2 < sectionSplatCount; ++i2) {\n const splatOffset = i2 * bytesPerSplat;\n let bucketIndex;\n if (i2 < fullBucketSplats) {\n bucketIndex = Math.floor(i2 / bucketSize);\n } else {\n const bucketLength = partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i2 >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n const x2 = compressionLevel === 0 ? data.getFloat32(splatOffset + 0, true) : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 0];\n const y = compressionLevel === 0 ? data.getFloat32(splatOffset + 4, true) : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 1];\n const z = compressionLevel === 0 ? data.getFloat32(splatOffset + 8, true) : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 2];\n const scaleX = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n const quatW = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true)\n );\n const quatX = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true)\n );\n const quatY = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true)\n );\n const quatZ = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true)\n );\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n setPackedSplat(\n packedArray,\n i2,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding\n );\n if (sphericalHarmonicsDegree >= 1) {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n for (const [i22, key] of sh1Index.entries()) {\n sh1[i22] = getSh(splatOffset, key);\n }\n encodeSh1Rgb(extra.sh1, i2, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n for (const [i22, key] of sh2Index.entries()) {\n sh2[i22] = getSh(splatOffset, key);\n }\n encodeSh2Rgb(extra.sh2, i2, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n for (const [i22, key] of sh3Index.entries()) {\n sh3[i22] = getSh(splatOffset, key);\n }\n encodeSh3Rgb(extra.sh3, i2, sh3, splatEncoding);\n }\n }\n }\n sectionBase += storageSizeBytes;\n }\n return { packedArray, numSplats, extra };\n }\n const PLY_PROPERTY_TYPES = [\n "char",\n "uchar",\n "short",\n "ushort",\n "int",\n "uint",\n "float",\n "double"\n ];\n const _PlyReader = class _PlyReader {\n // Create a PlyReader from a Uint8Array/ArrayBuffer, no parsing done yet\n constructor({ fileBytes }) {\n this.header = "";\n this.littleEndian = true;\n this.elements = {};\n this.comments = [];\n this.data = null;\n this.numSplats = 0;\n this.fileBytes = fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n }\n // Identify and parse the PLY text header (assumed to be <64KB in size).\n // this.elements will contain all the elements in the file, typically\n // "vertex" contains the Gsplat data.\n async parseHeader() {\n const bufferStream = new ReadableStream({\n start: (controller) => {\n controller.enqueue(this.fileBytes.slice(0, 65536));\n controller.close();\n }\n });\n const decoder = bufferStream.pipeThrough(new TextDecoderStream()).getReader();\n this.header = "";\n const headerTerminator = "end_header\\n";\n while (true) {\n const { value, done } = await decoder.read();\n if (done) {\n throw new Error("Failed to read header");\n }\n this.header += value;\n const endHeader = this.header.indexOf(headerTerminator);\n if (endHeader >= 0) {\n this.header = this.header.slice(0, endHeader + headerTerminator.length);\n break;\n }\n }\n const headerLen = new TextEncoder().encode(this.header).length;\n this.data = new DataView(this.fileBytes.buffer, headerLen);\n this.elements = {};\n let curElement = null;\n this.comments = [];\n this.header.trim().split("\\n").forEach((line, lineIndex) => {\n const trimmedLine = line.trim();\n if (lineIndex === 0) {\n if (trimmedLine !== "ply") {\n throw new Error("Invalid PLY header");\n }\n return;\n }\n if (trimmedLine.length === 0) {\n return;\n }\n const fields = trimmedLine.split(" ");\n switch (fields[0]) {\n case "format":\n if (fields[1] === "binary_little_endian") {\n this.littleEndian = true;\n } else if (fields[1] === "binary_big_endian") {\n this.littleEndian = false;\n } else {\n throw new Error(`Unsupported PLY format: ${fields[1]}`);\n }\n if (fields[2] !== "1.0") {\n throw new Error(`Unsupported PLY version: ${fields[2]}`);\n }\n break;\n case "end_header":\n break;\n case "comment":\n this.comments.push(trimmedLine.slice("comment ".length));\n break;\n case "element": {\n const name = fields[1];\n curElement = {\n name,\n count: Number.parseInt(fields[2]),\n properties: {}\n };\n this.elements[name] = curElement;\n break;\n }\n case "property":\n if (curElement == null) {\n throw new Error("Property must be inside an element");\n }\n if (fields[1] === "list") {\n curElement.properties[fields[4]] = {\n isList: true,\n type: fields[3],\n countType: fields[2]\n };\n } else {\n curElement.properties[fields[2]] = {\n isList: false,\n type: fields[1]\n };\n }\n break;\n }\n });\n if (this.elements.vertex) {\n this.numSplats = this.elements.vertex.count;\n }\n }\n parseData(elementCallback) {\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error("No data to parse");\n }\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const item = createEmptyItem(properties);\n const parseFn = createParseFn(properties, this.littleEndian);\n const callback = elementCallback(element) ?? (() => {\n });\n for (let index = 0; index < count; index++) {\n offset = parseFn(data, offset, item);\n callback(index, item);\n }\n }\n }\n // Parse all the Gsplat data in the PLY file in go, invoking the given\n // callbacks for each Gsplat.\n parseSplats(splatCallback, shCallback) {\n if (this.elements.vertex == null) {\n throw new Error("No vertex element found");\n }\n let isSuperSplat = false;\n const ssChunks = [];\n let numSh = 0;\n let sh1Props = [];\n let sh2Props = [];\n let sh3Props = [];\n let sh1 = void 0;\n let sh2 = void 0;\n let sh3 = void 0;\n function prepareSh() {\n const num_f_rest = NUM_SH_TO_NUM_F_REST[numSh];\n sh1Props = new Array(3).fill(null).flatMap((_, k) => [0, 1, 2].map((_2, d) => k + d * num_f_rest / 3));\n sh2Props = new Array(5).fill(null).flatMap(\n (_, k) => [0, 1, 2].map((_2, d) => 3 + k + d * num_f_rest / 3)\n );\n sh3Props = new Array(7).fill(null).flatMap(\n (_, k) => [0, 1, 2].map((_2, d) => 8 + k + d * num_f_rest / 3)\n );\n sh1 = numSh >= 1 ? new Float32Array(3 * 3) : void 0;\n sh2 = numSh >= 2 ? new Float32Array(5 * 3) : void 0;\n sh3 = numSh >= 3 ? new Float32Array(7 * 3) : void 0;\n }\n function ssShCallback(index, item) {\n if (!sh1) {\n throw new Error("Missing sh1");\n }\n const sh = item.f_rest;\n for (let i2 = 0; i2 < sh1Props.length; i2++) {\n sh1[i2] = sh[sh1Props[i2]] * 8 / 255 - 4;\n }\n if (sh2) {\n for (let i2 = 0; i2 < sh2Props.length; i2++) {\n sh2[i2] = sh[sh2Props[i2]] * 8 / 255 - 4;\n }\n }\n if (sh3) {\n for (let i2 = 0; i2 < sh3Props.length; i2++) {\n sh3[i2] = sh[sh3Props[i2]] * 8 / 255 - 4;\n }\n }\n shCallback == null ? void 0 : shCallback(index, sh1, sh2, sh3);\n }\n function initSuperSplat(element) {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z\n } = element.properties;\n if (!min_x || !min_y || !min_z || !max_x || !max_y || !max_z || !min_scale_x || !min_scale_y || !min_scale_z || !max_scale_x || !max_scale_y || !max_scale_z) {\n throw new Error("Missing PLY chunk properties");\n }\n isSuperSplat = true;\n return (index, item) => {\n const {\n min_x: min_x2,\n min_y: min_y2,\n min_z: min_z2,\n max_x: max_x2,\n max_y: max_y2,\n max_z: max_z2,\n min_scale_x: min_scale_x2,\n min_scale_y: min_scale_y2,\n min_scale_z: min_scale_z2,\n max_scale_x: max_scale_x2,\n max_scale_y: max_scale_y2,\n max_scale_z: max_scale_z2,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b\n } = item;\n ssChunks.push({\n min_x: min_x2,\n min_y: min_y2,\n min_z: min_z2,\n max_x: max_x2,\n max_y: max_y2,\n max_z: max_z2,\n min_scale_x: min_scale_x2,\n min_scale_y: min_scale_y2,\n min_scale_z: min_scale_z2,\n max_scale_x: max_scale_x2,\n max_scale_y: max_scale_y2,\n max_scale_z: max_scale_z2,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b\n });\n };\n }\n function decodeSuperSplat(element) {\n if (shCallback && element.name === "sh") {\n numSh = getNumSh(element.properties);\n prepareSh();\n return ssShCallback;\n }\n if (element.name !== "vertex") {\n return null;\n }\n const { packed_position, packed_rotation, packed_scale, packed_color } = element.properties;\n if (!packed_position || !packed_rotation || !packed_scale || !packed_color) {\n throw new Error(\n "Missing PLY properties: packed_position, packed_rotation, packed_scale, packed_color"\n );\n }\n const SQRT2 = Math.sqrt(2);\n return (index, item) => {\n const chunk = ssChunks[index >>> 8];\n if (chunk == null) {\n throw new Error("Missing PLY chunk");\n }\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b\n } = chunk;\n const { packed_position: packed_position2, packed_rotation: packed_rotation2, packed_scale: packed_scale2, packed_color: packed_color2 } = item;\n const x2 = (packed_position2 >>> 21 & 2047) / 2047 * (max_x - min_x) + min_x;\n const y = (packed_position2 >>> 11 & 1023) / 1023 * (max_y - min_y) + min_y;\n const z = (packed_position2 & 2047) / 2047 * (max_z - min_z) + min_z;\n const r0 = ((packed_rotation2 >>> 20 & 1023) / 1023 - 0.5) * SQRT2;\n const r1 = ((packed_rotation2 >>> 10 & 1023) / 1023 - 0.5) * SQRT2;\n const r2 = ((packed_rotation2 & 1023) / 1023 - 0.5) * SQRT2;\n const rr = Math.sqrt(Math.max(0, 1 - r0 * r0 - r1 * r1 - r2 * r2));\n const rOrder = packed_rotation2 >>> 30;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n const scaleX = Math.exp(\n (packed_scale2 >>> 21 & 2047) / 2047 * (max_scale_x - min_scale_x) + min_scale_x\n );\n const scaleY = Math.exp(\n (packed_scale2 >>> 11 & 1023) / 1023 * (max_scale_y - min_scale_y) + min_scale_y\n );\n const scaleZ = Math.exp(\n (packed_scale2 & 2047) / 2047 * (max_scale_z - min_scale_z) + min_scale_z\n );\n const r = (packed_color2 >>> 24 & 255) / 255 * ((max_r ?? 1) - (min_r ?? 0)) + (min_r ?? 0);\n const g = (packed_color2 >>> 16 & 255) / 255 * ((max_g ?? 1) - (min_g ?? 0)) + (min_g ?? 0);\n const b = (packed_color2 >>> 8 & 255) / 255 * ((max_b ?? 1) - (min_b ?? 0)) + (min_b ?? 0);\n const opacity = (packed_color2 & 255) / 255;\n splatCallback(\n index,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b\n );\n };\n }\n const elementCallback = (element) => {\n if (element.name === "chunk") {\n return initSuperSplat(element);\n }\n if (isSuperSplat) {\n return decodeSuperSplat(element);\n }\n if (element.name !== "vertex") {\n return null;\n }\n const {\n x: x2,\n y,\n z,\n scale_0,\n scale_1,\n scale_2,\n rot_0,\n rot_1,\n rot_2,\n rot_3,\n opacity,\n f_dc_0,\n f_dc_1,\n f_dc_2,\n red,\n green,\n blue,\n alpha\n } = element.properties;\n if (!x2 || !y || !z) {\n throw new Error("Missing PLY properties: x, y, z");\n }\n const hasScales = scale_0 && scale_1 && scale_2;\n const hasRots = rot_0 && rot_1 && rot_2 && rot_3;\n const alphaDiv = alpha != null ? FIELD_SCALE[alpha.type] : 1;\n const redDiv = red != null ? FIELD_SCALE[red.type] : 1;\n const greenDiv = green != null ? FIELD_SCALE[green.type] : 1;\n const blueDiv = blue != null ? FIELD_SCALE[blue.type] : 1;\n numSh = getNumSh(element.properties);\n prepareSh();\n return (index, item) => {\n const scaleX = hasScales ? Math.exp(item.scale_0) : _PlyReader.defaultPointScale;\n const scaleY = hasScales ? Math.exp(item.scale_1) : _PlyReader.defaultPointScale;\n const scaleZ = hasScales ? Math.exp(item.scale_2) : _PlyReader.defaultPointScale;\n const quatX = hasRots ? item.rot_1 : 0;\n const quatY = hasRots ? item.rot_2 : 0;\n const quatZ = hasRots ? item.rot_3 : 0;\n const quatW = hasRots ? item.rot_0 : 1;\n const op = opacity != null ? 1 / (1 + Math.exp(-item.opacity)) : alpha != null ? item.alpha / alphaDiv : 1;\n const r = f_dc_0 != null ? item.f_dc_0 * SH_C0$1 + 0.5 : red != null ? item.red / redDiv : 1;\n const g = f_dc_1 != null ? item.f_dc_1 * SH_C0$1 + 0.5 : green != null ? item.green / greenDiv : 1;\n const b = f_dc_2 != null ? item.f_dc_2 * SH_C0$1 + 0.5 : blue != null ? item.blue / blueDiv : 1;\n splatCallback(\n index,\n item.x,\n item.y,\n item.z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n op,\n r,\n g,\n b\n );\n if (shCallback && sh1) {\n const sh = item.f_rest;\n if (sh1) {\n for (let i2 = 0; i2 < sh1Props.length; i2++) {\n sh1[i2] = sh[sh1Props[i2]];\n }\n }\n if (sh2) {\n for (let i2 = 0; i2 < sh2Props.length; i2++) {\n sh2[i2] = sh[sh2Props[i2]];\n }\n }\n if (sh3) {\n for (let i2 = 0; i2 < sh3Props.length; i2++) {\n sh3[i2] = sh[sh3Props[i2]];\n }\n }\n shCallback(index, sh1, sh2, sh3);\n }\n };\n };\n this.parseData(elementCallback);\n }\n // Inject RGBA values into original PLY file, which can be used to modify\n // the color/opacity of the Gsplats and write out the modified PLY file.\n injectRgba(rgba) {\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error("No parsed data");\n }\n if (rgba.length !== this.numSplats * 4) {\n throw new Error("Invalid RGBA array length");\n }\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const parsers = [];\n let rgbaOffset = 0;\n const isVertex = elementName === "vertex";\n if (isVertex) {\n for (const name of ["opacity", "f_dc_0", "f_dc_1", "f_dc_2"]) {\n if (!properties[name] || properties[name].type !== "float") {\n throw new Error(`Can\'t injectRgba due to property: ${name}`);\n }\n }\n }\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!property.isList) {\n if (isVertex) {\n if (propertyName === "f_dc_0" || propertyName === "f_dc_1" || propertyName === "f_dc_2") {\n const component = Number.parseInt(\n propertyName.slice("f_dc_".length)\n );\n parsers.push(() => {\n const value = (rgba[rgbaOffset + component] / 255 - 0.5) / SH_C0$1;\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value\n );\n });\n } else if (propertyName === "opacity") {\n parsers.push(() => {\n const value = Math.max(\n -100,\n Math.min(\n 100,\n -Math.log(1 / (rgba[rgbaOffset + 3] / 255) - 1)\n )\n );\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value\n );\n });\n }\n }\n parsers.push(() => {\n offset += FIELD_BYTES[property.type];\n });\n } else {\n parsers.push(() => {\n const length = PARSE_FIELD[property.countType](\n data,\n offset,\n this.littleEndian\n );\n offset += FIELD_BYTES[property.countType];\n offset += length * FIELD_BYTES[property.type];\n });\n }\n }\n for (let index = 0; index < count; index++) {\n for (const parser of parsers) {\n parser();\n }\n if (isVertex) {\n rgbaOffset += 4;\n }\n }\n }\n }\n };\n _PlyReader.defaultPointScale = 1e-3;\n let PlyReader = _PlyReader;\n const SH_C0$1 = 0.28209479177387814;\n const PARSE_FIELD = {\n char: (data, offset, littleEndian) => {\n return data.getInt8(offset);\n },\n uchar: (data, offset, littleEndian) => {\n return data.getUint8(offset);\n },\n short: (data, offset, littleEndian) => {\n return data.getInt16(offset, littleEndian);\n },\n ushort: (data, offset, littleEndian) => {\n return data.getUint16(offset, littleEndian);\n },\n int: (data, offset, littleEndian) => {\n return data.getInt32(offset, littleEndian);\n },\n uint: (data, offset, littleEndian) => {\n return data.getUint32(offset, littleEndian);\n },\n float: (data, offset, littleEndian) => {\n return data.getFloat32(offset, littleEndian);\n },\n double: (data, offset, littleEndian) => {\n return data.getFloat64(offset, littleEndian);\n }\n };\n const SET_FIELD = {\n char: (data, offset, littleEndian, value) => {\n data.setInt8(offset, value);\n },\n uchar: (data, offset, littleEndian, value) => {\n data.setUint8(offset, value);\n },\n short: (data, offset, littleEndian, value) => {\n data.setInt16(offset, value, littleEndian);\n },\n ushort: (data, offset, littleEndian, value) => {\n data.setUint16(offset, value, littleEndian);\n },\n int: (data, offset, littleEndian, value) => {\n data.setInt32(offset, value, littleEndian);\n },\n uint: (data, offset, littleEndian, value) => {\n data.setUint32(offset, value, littleEndian);\n },\n float: (data, offset, littleEndian, value) => {\n data.setFloat32(offset, value, littleEndian);\n },\n double: (data, offset, littleEndian, value) => {\n data.setFloat64(offset, value, littleEndian);\n }\n };\n const FIELD_BYTES = {\n char: 1,\n uchar: 1,\n short: 2,\n ushort: 2,\n int: 4,\n uint: 4,\n float: 4,\n double: 8\n };\n const FIELD_SCALE = {\n char: 127,\n uchar: 255,\n short: 32767,\n ushort: 65535,\n int: 2147483647,\n uint: 4294967295,\n float: 1,\n double: 1\n };\n const NUM_F_REST_TO_NUM_SH = {\n 0: 0,\n 9: 1,\n 24: 2,\n 45: 3\n };\n const NUM_SH_TO_NUM_F_REST = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45\n };\n const F_REST_REGEX = /^f_rest_([0-9]{1,2})$/;\n function createEmptyItem(properties) {\n const item = {};\n for (const [propertyName, property] of Object.entries(properties)) {\n if (F_REST_REGEX.test(propertyName)) {\n item.f_rest = new Array(getNumSh(properties));\n } else {\n item[propertyName] = property.isList ? [] : 0;\n }\n }\n return item;\n }\n function createParseFn(properties, littleEndian) {\n if (safeToCompile(properties)) {\n return createCompiledParserFn(properties, littleEndian);\n }\n return createDynamicParserFn(properties, littleEndian);\n }\n const UNSAFE_EVAL_ALLOWED = (() => {\n try {\n new Function("return 42;");\n } catch (e) {\n return false;\n }\n return true;\n })();\n const PROPERTY_NAME_REGEX = /^[a-zA-Z0-9_]+$/;\n function safeToCompile(properties) {\n if (!UNSAFE_EVAL_ALLOWED) {\n return false;\n }\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!PROPERTY_NAME_REGEX.test(propertyName)) {\n return false;\n }\n if (property.isList && !PLY_PROPERTY_TYPES.includes(property.countType)) {\n return false;\n }\n if (!PLY_PROPERTY_TYPES.includes(property.type)) {\n return false;\n }\n }\n return true;\n }\n function createCompiledParserFn(properties, littleEndian) {\n const parserSrc = ["let list;"];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parserSrc.push(\n /*js*/\n `\n item.f_rest[${fRestIndex}] = PARSE_FIELD[\'${property.type}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `\n );\n } else if (!property.isList) {\n parserSrc.push(\n /*js*/\n `\n item[\'${propertyName}\'] = PARSE_FIELD[\'${property.type}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `\n );\n } else {\n parserSrc.push(\n /*js*/\n `\n list = item[\'${propertyName}\'];\n list.length = PARSE_FIELD[\'${property.countType}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.countType]};\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD[\'${property.type}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n }\n `\n );\n }\n }\n parserSrc.push("return offset;");\n const fn = new Function(\n "data",\n "offset",\n "item",\n "PARSE_FIELD",\n parserSrc.join("\\n")\n );\n return (data, offset, item) => fn(data, offset, item, PARSE_FIELD);\n }\n function createDynamicParserFn(properties, littleEndian) {\n const parsers = [];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parsers.push(\n (data, offset, item) => {\n item.f_rest[fRestIndex] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian\n );\n return offset + FIELD_BYTES[property.type];\n }\n );\n } else if (!property.isList) {\n parsers.push(\n (data, offset, item) => {\n item[propertyName] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian\n );\n return offset + FIELD_BYTES[property.type];\n }\n );\n } else {\n parsers.push(\n (data, offset, item) => {\n const list = item[propertyName];\n list.length = PARSE_FIELD[property.countType](\n data,\n offset,\n littleEndian\n );\n let currentOffset = offset + FIELD_BYTES[property.countType];\n for (let i2 = 0; i2 < list.length; i2++) {\n list[i2] = PARSE_FIELD[property.type](\n data,\n currentOffset,\n littleEndian\n );\n currentOffset += FIELD_BYTES[property.type];\n }\n return currentOffset;\n }\n );\n }\n }\n return (data, offset, item) => {\n let currentOffset = offset;\n for (let parserIndex = 0; parserIndex < parsers.length; parserIndex++) {\n currentOffset = parsers[parserIndex](data, currentOffset, item);\n }\n return currentOffset;\n };\n }\n function getNumSh(properties) {\n let num_f_rest = 0;\n while (properties[`f_rest_${num_f_rest}`]) {\n num_f_rest += 1;\n }\n const numSh = NUM_F_REST_TO_NUM_SH[num_f_rest];\n if (numSh == null) {\n throw new Error(`Unsupported number of SH coefficients: ${num_f_rest}`);\n }\n return numSh;\n }\n class SpzReader {\n constructor({ fileBytes }) {\n this.version = -1;\n this.numSplats = 0;\n this.shDegree = 0;\n this.fractionalBits = 0;\n this.flags = 0;\n this.flagAntiAlias = false;\n this.flagLod = false;\n this.reserved = 0;\n this.headerParsed = false;\n this.parsed = false;\n this.fileBytes = fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n this.reader = new GunzipReader({\n fileBytes: this.fileBytes\n });\n }\n async parseHeader() {\n if (this.headerParsed) {\n throw new Error("SPZ file header already parsed");\n }\n const header = new DataView((await this.reader.read(16)).buffer);\n if (header.getUint32(0, true) !== 1347635022) {\n throw new Error("Invalid SPZ file");\n }\n this.version = header.getUint32(4, true);\n if (this.version < 1 || this.version > 3) {\n throw new Error(`Unsupported SPZ version: ${this.version}`);\n }\n this.numSplats = header.getUint32(8, true);\n this.shDegree = header.getUint8(12);\n this.fractionalBits = header.getUint8(13);\n this.flags = header.getUint8(14);\n this.flagAntiAlias = (this.flags & 1) !== 0;\n this.flagLod = (this.flags & 128) !== 0;\n this.reserved = header.getUint8(15);\n this.headerParsed = true;\n this.parsed = false;\n }\n async parseSplats(centerCallback, alphaCallback, rgbCallback, scalesCallback, quatCallback, shCallback, {\n childCounts,\n childStarts\n } = {}) {\n if (!this.headerParsed) {\n throw new Error("SPZ file header must be parsed first");\n }\n if (this.parsed) {\n throw new Error("SPZ file already parsed");\n }\n this.parsed = true;\n if (this.version === 1) {\n const centerBytes = await this.reader.read(this.numSplats * 3 * 2);\n const centerUint16 = new Uint16Array(centerBytes.buffer);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const x2 = fromHalf(centerUint16[i3]);\n const y = fromHalf(centerUint16[i3 + 1]);\n const z = fromHalf(centerUint16[i3 + 2]);\n centerCallback == null ? void 0 : centerCallback(i2, x2, y, z);\n }\n } else if (this.version === 2 || this.version === 3) {\n const fixed = 1 << this.fractionalBits;\n const centerBytes = await this.reader.read(this.numSplats * 3 * 3);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i9 = i2 * 9;\n const x2 = ((centerBytes[i9 + 2] << 24 | centerBytes[i9 + 1] << 16 | centerBytes[i9] << 8) >> 8) / fixed;\n const y = ((centerBytes[i9 + 5] << 24 | centerBytes[i9 + 4] << 16 | centerBytes[i9 + 3] << 8) >> 8) / fixed;\n const z = ((centerBytes[i9 + 8] << 24 | centerBytes[i9 + 7] << 16 | centerBytes[i9 + 6] << 8) >> 8) / fixed;\n centerCallback == null ? void 0 : centerCallback(i2, x2, y, z);\n }\n } else {\n throw new Error("Unreachable");\n }\n {\n const bytes = await this.reader.read(this.numSplats);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n alphaCallback == null ? void 0 : alphaCallback(i2, bytes[i2] / 255);\n }\n }\n {\n const rgbBytes = await this.reader.read(this.numSplats * 3);\n const scale = SH_C0 / 0.15;\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const r = (rgbBytes[i3] / 255 - 0.5) * scale + 0.5;\n const g = (rgbBytes[i3 + 1] / 255 - 0.5) * scale + 0.5;\n const b = (rgbBytes[i3 + 2] / 255 - 0.5) * scale + 0.5;\n rgbCallback == null ? void 0 : rgbCallback(i2, r, g, b);\n }\n }\n {\n const scalesBytes = await this.reader.read(this.numSplats * 3);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const scaleX = Math.exp(scalesBytes[i3] / 16 - 10);\n const scaleY = Math.exp(scalesBytes[i3 + 1] / 16 - 10);\n const scaleZ = Math.exp(scalesBytes[i3 + 2] / 16 - 10);\n scalesCallback == null ? void 0 : scalesCallback(i2, scaleX, scaleY, scaleZ);\n }\n }\n if (this.version === 3) {\n const maxValue = 1 / Math.sqrt(2);\n const quatBytes = await this.reader.read(this.numSplats * 4);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 4;\n const quaternion = [0, 0, 0, 0];\n const values = [\n quatBytes[i3],\n quatBytes[i3 + 1],\n quatBytes[i3 + 2],\n quatBytes[i3 + 3]\n ];\n const combinedValues = values[0] + (values[1] << 8) + (values[2] << 16) + (values[3] << 24);\n const valueMask = (1 << 9) - 1;\n const largestIndex = combinedValues >>> 30;\n let remainingValues = combinedValues;\n let sumSquares = 0;\n for (let i22 = 3; i22 >= 0; --i22) {\n if (i22 !== largestIndex) {\n const value = remainingValues & valueMask;\n const sign = remainingValues >>> 9 & 1;\n remainingValues = remainingValues >>> 10;\n quaternion[i22] = maxValue * (value / valueMask);\n quaternion[i22] = sign === 0 ? quaternion[i22] : -quaternion[i22];\n sumSquares += quaternion[i22] * quaternion[i22];\n }\n }\n const square = 1 - sumSquares;\n quaternion[largestIndex] = Math.sqrt(Math.max(square, 0));\n quatCallback == null ? void 0 : quatCallback(\n i2,\n quaternion[0],\n quaternion[1],\n quaternion[2],\n quaternion[3]\n );\n }\n } else {\n const quatBytes = await this.reader.read(this.numSplats * 3);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const quatX = quatBytes[i3] / 127.5 - 1;\n const quatY = quatBytes[i3 + 1] / 127.5 - 1;\n const quatZ = quatBytes[i3 + 2] / 127.5 - 1;\n const quatW = Math.sqrt(\n Math.max(0, 1 - quatX * quatX - quatY * quatY - quatZ * quatZ)\n );\n quatCallback == null ? void 0 : quatCallback(i2, quatX, quatY, quatZ, quatW);\n }\n }\n if (shCallback && this.shDegree >= 1) {\n const sh1 = new Float32Array(3 * 3);\n const sh2 = this.shDegree >= 2 ? new Float32Array(5 * 3) : void 0;\n const sh3 = this.shDegree >= 3 ? new Float32Array(7 * 3) : void 0;\n const shBytes = await this.reader.read(\n this.numSplats * SH_DEGREE_TO_VECS[this.shDegree] * 3\n );\n let offset = 0;\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n for (let j = 0; j < 9; ++j) {\n sh1[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 9;\n if (sh2) {\n for (let j = 0; j < 15; ++j) {\n sh2[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 15;\n }\n if (sh3) {\n for (let j = 0; j < 21; ++j) {\n sh3[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 21;\n }\n shCallback == null ? void 0 : shCallback(i2, sh1, sh2, sh3);\n }\n }\n if (this.flagLod) {\n let bytes = await this.reader.read(this.numSplats * 2);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i22 = i2 * 2;\n const count = bytes[i22] + (bytes[i22 + 1] << 8);\n childCounts == null ? void 0 : childCounts(i2, count);\n }\n bytes = await this.reader.read(this.numSplats * 4);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i4 = i2 * 4;\n const start = bytes[i4] + (bytes[i4 + 1] << 8) + (bytes[i4 + 2] << 16) + (bytes[i4 + 3] << 24);\n childStarts == null ? void 0 : childStarts(i2, start);\n }\n }\n }\n }\n const SH_DEGREE_TO_VECS = { 1: 3, 2: 8, 3: 15 };\n const SH_C0 = 0.28209479177387814;\n const SPZ_MAGIC = 1347635022;\n const SPZ_VERSION = 3;\n const FLAG_ANTIALIASED = 1;\n class SpzWriter {\n constructor({\n numSplats,\n shDegree,\n fractionalBits = 12,\n flagAntiAlias = true\n }) {\n this.clippedCount = 0;\n const splatSize = 9 + // Position\n 1 + // Opacity\n 3 + // Scale\n 3 + // DC-rgb\n 4 + // Rotation\n (shDegree >= 1 ? 9 : 0) + (shDegree >= 2 ? 15 : 0) + (shDegree >= 3 ? 21 : 0);\n const bufferSize = 16 + numSplats * splatSize;\n this.buffer = new ArrayBuffer(bufferSize);\n this.view = new DataView(this.buffer);\n this.view.setUint32(0, SPZ_MAGIC, true);\n this.view.setUint32(4, SPZ_VERSION, true);\n this.view.setUint32(8, numSplats, true);\n this.view.setUint8(12, shDegree);\n this.view.setUint8(13, fractionalBits);\n this.view.setUint8(14, flagAntiAlias ? FLAG_ANTIALIASED : 0);\n this.view.setUint8(15, 0);\n this.numSplats = numSplats;\n this.shDegree = shDegree;\n this.fractionalBits = fractionalBits;\n this.fraction = 1 << fractionalBits;\n this.flagAntiAlias = flagAntiAlias;\n }\n setCenter(index, x2, y, z) {\n const xRounded = Math.round(x2 * this.fraction);\n const xInt = Math.max(-8388607, Math.min(8388607, xRounded));\n const yRounded = Math.round(y * this.fraction);\n const yInt = Math.max(-8388607, Math.min(8388607, yRounded));\n const zRounded = Math.round(z * this.fraction);\n const zInt = Math.max(-8388607, Math.min(8388607, zRounded));\n const clipped = xRounded !== xInt || yRounded !== yInt || zRounded !== zInt;\n if (clipped) {\n this.clippedCount += 1;\n }\n const i9 = index * 9;\n const base = 16 + i9;\n this.view.setUint8(base, xInt & 255);\n this.view.setUint8(base + 1, xInt >> 8 & 255);\n this.view.setUint8(base + 2, xInt >> 16 & 255);\n this.view.setUint8(base + 3, yInt & 255);\n this.view.setUint8(base + 4, yInt >> 8 & 255);\n this.view.setUint8(base + 5, yInt >> 16 & 255);\n this.view.setUint8(base + 6, zInt & 255);\n this.view.setUint8(base + 7, zInt >> 8 & 255);\n this.view.setUint8(base + 8, zInt >> 16 & 255);\n }\n setAlpha(index, alpha) {\n const base = 16 + this.numSplats * 9 + index;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round(alpha * 255)))\n );\n }\n static scaleRgb(r) {\n const v = ((r - 0.5) / (SH_C0 / 0.15) + 0.5) * 255;\n return Math.max(0, Math.min(255, Math.round(v)));\n }\n setRgb(index, r, g, b) {\n const base = 16 + this.numSplats * 10 + index * 3;\n this.view.setUint8(base, SpzWriter.scaleRgb(r));\n this.view.setUint8(base + 1, SpzWriter.scaleRgb(g));\n this.view.setUint8(base + 2, SpzWriter.scaleRgb(b));\n }\n setScale(index, scaleX, scaleY, scaleZ) {\n const base = 16 + this.numSplats * 13 + index * 3;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleX) + 10) * 16)))\n );\n this.view.setUint8(\n base + 1,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleY) + 10) * 16)))\n );\n this.view.setUint8(\n base + 2,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleZ) + 10) * 16)))\n );\n }\n setQuat(index, ...q) {\n const base = 16 + this.numSplats * 16 + index * 4;\n const quat = normalize(q);\n let iLargest = 0;\n for (let i2 = 1; i2 < 4; ++i2) {\n if (Math.abs(quat[i2]) > Math.abs(quat[iLargest])) {\n iLargest = i2;\n }\n }\n const negate = quat[iLargest] < 0 ? 1 : 0;\n let comp = iLargest;\n for (let i2 = 0; i2 < 4; ++i2) {\n if (i2 !== iLargest) {\n const negbit = (quat[i2] < 0 ? 1 : 0) ^ negate;\n const mag = Math.floor(\n ((1 << 9) - 1) * (Math.abs(quat[i2]) / Math.SQRT1_2) + 0.5\n );\n comp = comp << 10 | negbit << 9 | mag;\n }\n }\n this.view.setUint8(base, comp & 255);\n this.view.setUint8(base + 1, comp >> 8 & 255);\n this.view.setUint8(base + 2, comp >> 16 & 255);\n this.view.setUint8(base + 3, comp >>> 24 & 255);\n }\n static quantizeSh(sh, bits2) {\n const value = Math.round(sh * 128) + 128;\n const bucketSize = 1 << 8 - bits2;\n const quantized = Math.floor((value + bucketSize / 2) / bucketSize) * bucketSize;\n return Math.max(0, Math.min(255, quantized));\n }\n setSh(index, sh1, sh2, sh3) {\n const shVecs = SH_DEGREE_TO_VECS[this.shDegree] || 0;\n const base1 = 16 + this.numSplats * 20 + index * shVecs * 3;\n for (let j = 0; j < 9; ++j) {\n this.view.setUint8(base1 + j, SpzWriter.quantizeSh(sh1[j], 5));\n }\n if (sh2) {\n const base2 = base1 + 9;\n for (let j = 0; j < 15; ++j) {\n this.view.setUint8(base2 + j, SpzWriter.quantizeSh(sh2[j], 4));\n }\n if (sh3) {\n const base3 = base2 + 15;\n for (let j = 0; j < 21; ++j) {\n this.view.setUint8(base3 + j, SpzWriter.quantizeSh(sh3[j], 4));\n }\n }\n }\n }\n async finalize() {\n const input = new Uint8Array(this.buffer);\n const stream = new ReadableStream({\n async start(controller) {\n controller.enqueue(input);\n controller.close();\n }\n });\n const compressed = stream.pipeThrough(new CompressionStream("gzip"));\n const response = new Response(compressed);\n const buffer = await response.arrayBuffer();\n console.log(\n "Compressed",\n input.length,\n "bytes to",\n buffer.byteLength,\n "bytes"\n );\n return new Uint8Array(buffer);\n }\n }\n async function transcodeSpz(input) {\n var _a2, _b2, _c;\n const splats = new SplatData();\n const {\n inputs,\n clipXyz,\n maxSh,\n fractionalBits = 12,\n opacityThreshold\n } = input;\n for (const input2 of inputs) {\n let transformPos = function(pos) {\n pos.multiplyScalar(scale);\n pos.applyQuaternion(quaternion);\n pos.add(translate);\n return pos;\n }, transformScales = function(scales) {\n scales.multiplyScalar(scale);\n return scales;\n }, transformQuaternion = function(quat) {\n quat.premultiply(quaternion);\n return quat;\n }, withinClip = function(p) {\n return !clip || clip.containsPoint(p);\n }, withinOpacity = function(opacity) {\n return opacityThreshold !== void 0 ? opacity >= opacityThreshold : true;\n };\n const scale = ((_a2 = input2.transform) == null ? void 0 : _a2.scale) ?? 1;\n const quaternion = new Quaternion().fromArray(\n ((_b2 = input2.transform) == null ? void 0 : _b2.quaternion) ?? [0, 0, 0, 1]\n );\n const translate = new Vector3().fromArray(\n ((_c = input2.transform) == null ? void 0 : _c.translate) ?? [0, 0, 0]\n );\n const clip = clipXyz ? new Box3(\n new Vector3().fromArray(clipXyz.min),\n new Vector3().fromArray(clipXyz.max)\n ) : void 0;\n let fileType = input2.fileType;\n if (!fileType) {\n fileType = getSplatFileType(input2.fileBytes);\n if (!fileType && input2.pathOrUrl) {\n fileType = getSplatFileTypeFromPath(input2.pathOrUrl);\n }\n }\n switch (fileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes: input2.fileBytes });\n await ply.parseHeader();\n let lastIndex = null;\n ply.parseSplats(\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n const center = transformPos(new Vector3(x2, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n lastIndex,\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (sh1 && lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n }\n if (sh2 && lastIndex !== null) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3 && lastIndex !== null) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n );\n break;\n }\n case SplatFileType.SPZ: {\n const spz2 = new SpzReader({ fileBytes: input2.fileBytes });\n await spz2.parseHeader();\n const mapping = new Int32Array(spz2.numSplats);\n mapping.fill(-1);\n const centers = new Float32Array(spz2.numSplats * 3);\n const center = new Vector3();\n spz2.parseSplats(\n (index, x2, y, z) => {\n const center2 = transformPos(new Vector3(x2, y, z));\n centers[index * 3] = center2.x;\n centers[index * 3 + 1] = center2.y;\n centers[index * 3 + 2] = center2.z;\n },\n (index, alpha) => {\n center.fromArray(centers, index * 3);\n if (withinClip(center) && withinOpacity(alpha)) {\n mapping[index] = splats.pushSplat();\n splats.setCenter(mapping[index], center.x, center.y, center.z);\n splats.setOpacity(mapping[index], alpha);\n }\n },\n (index, r, g, b) => {\n if (mapping[index] >= 0) {\n splats.setColor(mapping[index], r, g, b);\n }\n },\n (index, scaleX, scaleY, scaleZ) => {\n if (mapping[index] >= 0) {\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(mapping[index], scales.x, scales.y, scales.z);\n }\n },\n (index, quatX, quatY, quatZ, quatW) => {\n if (mapping[index] >= 0) {\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n mapping[index],\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n }\n },\n (index, sh1, sh2, sh3) => {\n if (mapping[index] >= 0) {\n splats.setSh1(mapping[index], sh1);\n if (sh2) {\n splats.setSh2(mapping[index], sh2);\n }\n if (sh3) {\n splats.setSh3(mapping[index], sh3);\n }\n }\n }\n );\n break;\n }\n case SplatFileType.SPLAT:\n decodeAntiSplat(\n input2.fileBytes,\n (numSplats) => {\n },\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n const center = transformPos(new Vector3(x2, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n const index2 = splats.pushSplat();\n splats.setCenter(index2, center.x, center.y, center.z);\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(index2, scales.x, scales.y, scales.z);\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n index2,\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n splats.setOpacity(index2, opacity);\n splats.setColor(index2, r, g, b);\n }\n }\n );\n break;\n case SplatFileType.KSPLAT: {\n let lastIndex = null;\n decodeKsplat(\n input2.fileBytes,\n (numSplats) => {\n },\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n const center = transformPos(new Vector3(x2, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n lastIndex,\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n if (sh2) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n }\n );\n break;\n }\n default:\n throw new Error(`transcodeSpz not implemented for ${fileType}`);\n }\n }\n const shDegree = Math.min(\n maxSh ?? 3,\n splats.sh3 ? 3 : splats.sh2 ? 2 : splats.sh1 ? 1 : 0\n );\n const spz = new SpzWriter({\n numSplats: splats.numSplats,\n shDegree,\n fractionalBits,\n flagAntiAlias: true\n });\n for (let i2 = 0; i2 < splats.numSplats; ++i2) {\n const i3 = i2 * 3;\n const i4 = i2 * 4;\n spz.setCenter(\n i2,\n splats.centers[i3],\n splats.centers[i3 + 1],\n splats.centers[i3 + 2]\n );\n spz.setScale(\n i2,\n splats.scales[i3],\n splats.scales[i3 + 1],\n splats.scales[i3 + 2]\n );\n spz.setQuat(\n i2,\n splats.quaternions[i4],\n splats.quaternions[i4 + 1],\n splats.quaternions[i4 + 2],\n splats.quaternions[i4 + 3]\n );\n spz.setAlpha(i2, splats.opacities[i2]);\n spz.setRgb(\n i2,\n splats.colors[i3],\n splats.colors[i3 + 1],\n splats.colors[i3 + 2]\n );\n if (splats.sh1 && shDegree >= 1) {\n spz.setSh(\n i2,\n splats.sh1.slice(i2 * 9, (i2 + 1) * 9),\n shDegree >= 2 && splats.sh2 ? splats.sh2.slice(i2 * 15, (i2 + 1) * 15) : void 0,\n shDegree >= 3 && splats.sh3 ? splats.sh3.slice(i2 * 21, (i2 + 1) * 21) : void 0\n );\n }\n }\n const spzBytes = await spz.finalize();\n return { fileBytes: spzBytes, clippedCount: spz.clippedCount };\n }\n function getSplatFileType(fileBytes) {\n const view = new DataView(fileBytes.buffer);\n const magic = view.getUint32(0, true);\n if ((magic & 16777215) === 7957616) {\n return SplatFileType.PLY;\n }\n if ((magic & 16777215) === 559903) {\n const header = decompressPartialGzip(fileBytes, 4);\n const gView = new DataView(header.buffer);\n if (gView.getUint32(0, true) === 1347635022) {\n return SplatFileType.SPZ;\n }\n return void 0;\n }\n if (magic === 67324752) {\n if (tryPcSogsZip(fileBytes)) {\n return SplatFileType.PCSOGSZIP;\n }\n return void 0;\n }\n if (magic === 809779538) {\n return SplatFileType.RAD;\n }\n return void 0;\n }\n function getFileExtension(pathOrUrl) {\n const noTrailing = pathOrUrl.split(/[?#]/, 1)[0];\n const lastSlash = Math.max(\n noTrailing.lastIndexOf("/"),\n noTrailing.lastIndexOf("\\\\")\n );\n const filename = noTrailing.slice(lastSlash + 1);\n const lastDot = filename.lastIndexOf(".");\n if (lastDot <= 0 || lastDot === filename.length - 1) {\n return "";\n }\n return filename.slice(lastDot + 1).toLowerCase();\n }\n function getSplatFileTypeFromPath(pathOrUrl) {\n const extension = getFileExtension(pathOrUrl);\n if (extension === "ply") {\n return SplatFileType.PLY;\n }\n if (extension === "spz") {\n return SplatFileType.SPZ;\n }\n if (extension === "splat") {\n return SplatFileType.SPLAT;\n }\n if (extension === "ksplat") {\n return SplatFileType.KSPLAT;\n }\n if (extension === "sog") {\n return SplatFileType.PCSOGSZIP;\n }\n if (extension === "rad") {\n return SplatFileType.RAD;\n }\n return void 0;\n }\n function tryPcSogs(input) {\n try {\n let text;\n if (typeof input === "string") {\n text = input;\n } else {\n const fileBytes = input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n if (fileBytes.length > 65536) {\n return void 0;\n }\n text = new TextDecoder().decode(fileBytes);\n }\n const json = JSON.parse(text);\n if (!json || typeof json !== "object" || Array.isArray(json)) {\n return void 0;\n }\n const isVersion2 = json.version === 2;\n for (const key of ["means", "scales", "quats", "sh0"]) {\n if (!json[key] || typeof json[key] !== "object" || Array.isArray(json[key])) {\n return void 0;\n }\n if (isVersion2) {\n if (!json[key].files) {\n return void 0;\n }\n if ((key === "scales" || key === "sh0") && !json[key].codebook) {\n return void 0;\n }\n if (key === "means" && (!json[key].mins || !json[key].maxs)) {\n return void 0;\n }\n } else {\n if (!json[key].shape || !json[key].files) {\n return void 0;\n }\n if (key !== "quats" && (!json[key].mins || !json[key].maxs)) {\n return void 0;\n }\n }\n }\n return json;\n } catch {\n return void 0;\n }\n }\n function tryPcSogsZip(input) {\n try {\n const fileBytes = input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let metaFilename = null;\n const unzipped = unzipSync(fileBytes, {\n filter: ({ name }) => {\n const filename = name.split(/[\\\\/]/).pop();\n if (filename === "meta.json") {\n metaFilename = name;\n return true;\n }\n return false;\n }\n });\n if (!metaFilename) {\n return void 0;\n }\n const json = tryPcSogs(unzipped[metaFilename]);\n if (!json) {\n return void 0;\n }\n return { name: metaFilename, json };\n } catch {\n return void 0;\n }\n }\n class SplatData {\n constructor({ maxSplats = 1 } = {}) {\n this.numSplats = 0;\n this.maxSplats = getTextureSize(maxSplats).maxSplats;\n this.centers = new Float32Array(this.maxSplats * 3);\n this.scales = new Float32Array(this.maxSplats * 3);\n this.quaternions = new Float32Array(this.maxSplats * 4);\n this.opacities = new Float32Array(this.maxSplats);\n this.colors = new Float32Array(this.maxSplats * 3);\n }\n pushSplat() {\n const index = this.numSplats;\n this.ensureIndex(index);\n this.numSplats += 1;\n return index;\n }\n unpushSplat(index) {\n if (index === this.numSplats - 1) {\n this.numSplats -= 1;\n } else {\n throw new Error("Cannot unpush splat from non-last position");\n }\n }\n ensureCapacity(numSplats) {\n if (numSplats > this.maxSplats) {\n const targetSplats = Math.max(numSplats, this.maxSplats * 2);\n const newCenters = new Float32Array(targetSplats * 3);\n const newScales = new Float32Array(targetSplats * 3);\n const newQuaternions = new Float32Array(targetSplats * 4);\n const newOpacities = new Float32Array(targetSplats);\n const newColors = new Float32Array(targetSplats * 3);\n newCenters.set(this.centers);\n newScales.set(this.scales);\n newQuaternions.set(this.quaternions);\n newOpacities.set(this.opacities);\n newColors.set(this.colors);\n this.centers = newCenters;\n this.scales = newScales;\n this.quaternions = newQuaternions;\n this.opacities = newOpacities;\n this.colors = newColors;\n if (this.sh1) {\n const newSh1 = new Float32Array(targetSplats * 9);\n newSh1.set(this.sh1);\n this.sh1 = newSh1;\n }\n if (this.sh2) {\n const newSh2 = new Float32Array(targetSplats * 15);\n newSh2.set(this.sh2);\n this.sh2 = newSh2;\n }\n if (this.sh3) {\n const newSh3 = new Float32Array(targetSplats * 21);\n newSh3.set(this.sh3);\n this.sh3 = newSh3;\n }\n this.maxSplats = targetSplats;\n }\n }\n ensureIndex(index) {\n this.ensureCapacity(index + 1);\n }\n setCenter(index, x2, y, z) {\n this.centers[index * 3] = x2;\n this.centers[index * 3 + 1] = y;\n this.centers[index * 3 + 2] = z;\n }\n setScale(index, scaleX, scaleY, scaleZ) {\n this.scales[index * 3] = scaleX;\n this.scales[index * 3 + 1] = scaleY;\n this.scales[index * 3 + 2] = scaleZ;\n }\n setQuaternion(index, x2, y, z, w) {\n this.quaternions[index * 4] = x2;\n this.quaternions[index * 4 + 1] = y;\n this.quaternions[index * 4 + 2] = z;\n this.quaternions[index * 4 + 3] = w;\n }\n setOpacity(index, opacity) {\n this.opacities[index] = opacity;\n }\n setColor(index, r, g, b) {\n this.colors[index * 3] = r;\n this.colors[index * 3 + 1] = g;\n this.colors[index * 3 + 2] = b;\n }\n setSh1(index, sh1) {\n if (!this.sh1) {\n this.sh1 = new Float32Array(this.maxSplats * 9);\n }\n for (let j = 0; j < 9; ++j) {\n this.sh1[index * 9 + j] = sh1[j];\n }\n }\n setSh2(index, sh2) {\n if (!this.sh2) {\n this.sh2 = new Float32Array(this.maxSplats * 15);\n }\n for (let j = 0; j < 15; ++j) {\n this.sh2[index * 15 + j] = sh2[j];\n }\n }\n setSh3(index, sh3) {\n if (!this.sh3) {\n this.sh3 = new Float32Array(this.maxSplats * 21);\n }\n for (let j = 0; j < 21; ++j) {\n this.sh3[index * 21 + j] = sh3[j];\n }\n }\n }\n async function unpackPcSogs(json, extraFiles, splatEncoding) {\n const isVersion2 = "version" in json;\n if (!isVersion2 && json.quats.encoding !== "quaternion_packed") {\n throw new Error("Unsupported quaternion encoding");\n }\n const numSplats = isVersion2 ? json.count : json.means.shape[0];\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra = {};\n const meansPromise = Promise.all([\n decodeImageRgba(extraFiles[json.means.files[0]]),\n decodeImageRgba(extraFiles[json.means.files[1]])\n ]).then((means) => {\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n const fx = (means[0][i4 + 0] + (means[1][i4 + 0] << 8)) / 65535;\n const fy = (means[0][i4 + 1] + (means[1][i4 + 1] << 8)) / 65535;\n const fz = (means[0][i4 + 2] + (means[1][i4 + 2] << 8)) / 65535;\n let x2 = json.means.mins[0] + (json.means.maxs[0] - json.means.mins[0]) * fx;\n let y = json.means.mins[1] + (json.means.maxs[1] - json.means.mins[1]) * fy;\n let z = json.means.mins[2] + (json.means.maxs[2] - json.means.mins[2]) * fz;\n x2 = Math.sign(x2) * (Math.exp(Math.abs(x2)) - 1);\n y = Math.sign(y) * (Math.exp(Math.abs(y)) - 1);\n z = Math.sign(z) * (Math.exp(Math.abs(z)) - 1);\n setPackedSplatCenter(packedArray, i2, x2, y, z);\n }\n });\n const scalesPromise = decodeImageRgba(extraFiles[json.scales.files[0]]).then(\n (scales) => {\n let xLookup;\n let yLookup;\n let zLookup;\n if (isVersion2) {\n xLookup = yLookup = zLookup = json.scales.codebook.map((x2) => Math.exp(x2));\n } else {\n xLookup = new Array(256).fill(0).map(\n (_, i2) => json.scales.mins[0] + (json.scales.maxs[0] - json.scales.mins[0]) * (i2 / 255)\n ).map((x2) => Math.exp(x2));\n yLookup = new Array(256).fill(0).map(\n (_, i2) => json.scales.mins[1] + (json.scales.maxs[1] - json.scales.mins[1]) * (i2 / 255)\n ).map((x2) => Math.exp(x2));\n zLookup = new Array(256).fill(0).map(\n (_, i2) => json.scales.mins[2] + (json.scales.maxs[2] - json.scales.mins[2]) * (i2 / 255)\n ).map((x2) => Math.exp(x2));\n }\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n setPackedSplatScales(\n packedArray,\n i2,\n xLookup[scales[i4 + 0]],\n yLookup[scales[i4 + 1]],\n zLookup[scales[i4 + 2]],\n splatEncoding\n );\n }\n }\n );\n const quatsPromise = decodeImageRgba(extraFiles[json.quats.files[0]]).then(\n (quats) => {\n const SQRT2 = Math.sqrt(2);\n const lookup = new Array(256).fill(0).map((_, i2) => (i2 / 255 - 0.5) * SQRT2);\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n const r0 = lookup[quats[i4 + 0]];\n const r1 = lookup[quats[i4 + 1]];\n const r2 = lookup[quats[i4 + 2]];\n const rr = Math.sqrt(Math.max(0, 1 - r0 * r0 - r1 * r1 - r2 * r2));\n const rOrder = quats[i4 + 3] - 252;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n setPackedSplatQuat(packedArray, i2, quatX, quatY, quatZ, quatW);\n }\n }\n );\n const sh0Promise = decodeImageRgba(extraFiles[json.sh0.files[0]]).then(\n (sh0) => {\n const SH_C02 = 0.28209479177387814;\n let rLookup;\n let gLookup;\n let bLookup;\n let aLookup;\n if (isVersion2) {\n rLookup = gLookup = bLookup = json.sh0.codebook.map((x2) => SH_C02 * x2 + 0.5);\n aLookup = new Array(256).fill(0).map((_, i2) => i2 / 255);\n } else {\n rLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[0] + (json.sh0.maxs[0] - json.sh0.mins[0]) * (i2 / 255)\n ).map((x2) => SH_C02 * x2 + 0.5);\n gLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[1] + (json.sh0.maxs[1] - json.sh0.mins[1]) * (i2 / 255)\n ).map((x2) => SH_C02 * x2 + 0.5);\n bLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[2] + (json.sh0.maxs[2] - json.sh0.mins[2]) * (i2 / 255)\n ).map((x2) => SH_C02 * x2 + 0.5);\n aLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[3] + (json.sh0.maxs[3] - json.sh0.mins[3]) * (i2 / 255)\n ).map((x2) => 1 / (1 + Math.exp(-x2)));\n }\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n setPackedSplatRgba(\n packedArray,\n i2,\n rLookup[sh0[i4 + 0]],\n gLookup[sh0[i4 + 1]],\n bLookup[sh0[i4 + 2]],\n aLookup[sh0[i4 + 3]],\n splatEncoding\n );\n }\n }\n );\n const promises = [meansPromise, scalesPromise, quatsPromise, sh0Promise];\n if (json.shN) {\n const useSH3 = isVersion2 ? json.shN.bands >= 3 : json.shN.shape[1] >= 48 - 3;\n const useSH2 = isVersion2 ? json.shN.bands >= 2 : json.shN.shape[1] >= 27 - 3;\n const useSH1 = isVersion2 ? json.shN.bands >= 1 : json.shN.shape[1] >= 12 - 3;\n if (useSH1) extra.sh1 = new Uint32Array(numSplats * 2);\n if (useSH2) extra.sh2 = new Uint32Array(numSplats * 4);\n if (useSH3) extra.sh3 = new Uint32Array(numSplats * 4);\n const sh1 = new Float32Array(9);\n const sh2 = new Float32Array(15);\n const sh3 = new Float32Array(21);\n const shN = json.shN;\n const shNPromise = Promise.all([\n decodeImage(extraFiles[json.shN.files[0]]),\n decodeImage(extraFiles[json.shN.files[1]])\n ]).then(([centroids, labels]) => {\n const lookup = "codebook" in shN ? shN.codebook : new Array(256).fill(0).map((_, i2) => shN.mins + (shN.maxs - shN.mins) * (i2 / 255));\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n const label = labels.rgba[i4 + 0] + (labels.rgba[i4 + 1] << 8);\n const col = (label & 63) * 15;\n const row = label >>> 6;\n const offset = row * centroids.width + col;\n for (let d = 0; d < 3; ++d) {\n if (useSH1) {\n for (let k = 0; k < 3; ++k) {\n sh1[k * 3 + d] = lookup[centroids.rgba[(offset + k) * 4 + d]];\n }\n }\n if (useSH2) {\n for (let k = 0; k < 5; ++k) {\n sh2[k * 3 + d] = lookup[centroids.rgba[(offset + 3 + k) * 4 + d]];\n }\n }\n if (useSH3) {\n for (let k = 0; k < 7; ++k) {\n sh3[k * 3 + d] = lookup[centroids.rgba[(offset + 8 + k) * 4 + d]];\n }\n }\n }\n if (useSH1)\n encodeSh1Rgb(extra.sh1, i2, sh1, splatEncoding);\n if (useSH2)\n encodeSh2Rgb(extra.sh2, i2, sh2, splatEncoding);\n if (useSH3)\n encodeSh3Rgb(extra.sh3, i2, sh3, splatEncoding);\n }\n });\n promises.push(shNPromise);\n }\n await Promise.all(promises);\n return { packedArray, numSplats, extra };\n }\n let offscreenGlContext = null;\n async function decodeImage(fileBytes) {\n if (!offscreenGlContext) {\n const canvas = new OffscreenCanvas(1, 1);\n offscreenGlContext = canvas.getContext("webgl2");\n if (!offscreenGlContext) {\n throw new Error("Failed to create WebGL2 context");\n }\n }\n const imageBlob = new Blob([fileBytes]);\n const bitmap = await createImageBitmap(imageBlob, {\n premultiplyAlpha: "none"\n });\n const gl = offscreenGlContext;\n const texture = gl.createTexture();\n gl.bindTexture(gl.TEXTURE_2D, texture);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, true);\n gl.texImage2D(gl.TEXTURE_2D, 0, gl.RGBA, gl.RGBA, gl.UNSIGNED_BYTE, bitmap);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST);\n const framebuffer = gl.createFramebuffer();\n gl.bindFramebuffer(gl.FRAMEBUFFER, framebuffer);\n gl.framebufferTexture2D(\n gl.FRAMEBUFFER,\n gl.COLOR_ATTACHMENT0,\n gl.TEXTURE_2D,\n texture,\n 0\n );\n const data = new Uint8Array(bitmap.width * bitmap.height * 4);\n gl.readPixels(\n 0,\n 0,\n bitmap.width,\n bitmap.height,\n gl.RGBA,\n gl.UNSIGNED_BYTE,\n data\n );\n gl.deleteTexture(texture);\n gl.deleteFramebuffer(framebuffer);\n return { rgba: data, width: bitmap.width, height: bitmap.height };\n }\n async function decodeImageRgba(fileBytes) {\n const { rgba } = await decodeImage(fileBytes);\n return rgba;\n }\n async function unpackPcSogsZip(fileBytes, splatEncoding) {\n var _a2;\n const nameJson = tryPcSogsZip(fileBytes);\n if (!nameJson) {\n throw new Error("Invalid PC SOGS zip file");\n }\n const { name, json } = nameJson;\n const lastSlash = name.lastIndexOf("/");\n const lastBackslash = name.lastIndexOf("\\\\");\n const prefix = name.slice(0, Math.max(lastSlash, lastBackslash) + 1);\n const fileMap = /* @__PURE__ */ new Map();\n const refFiles = [\n ...json.means.files,\n ...json.scales.files,\n ...json.quats.files,\n ...json.sh0.files,\n ...((_a2 = json.shN) == null ? void 0 : _a2.files) ?? []\n ];\n for (const file of refFiles) {\n fileMap.set(prefix + file, file);\n }\n const unzipped = await new Promise(\n (resolve, reject) => {\n unzip(\n fileBytes,\n {\n filter: ({ name: name2 }) => {\n return fileMap.has(name2);\n }\n },\n (err2, files) => {\n if (err2) {\n reject(err2);\n } else {\n resolve(files);\n }\n }\n );\n }\n );\n const extraFiles = {};\n for (const [full, name2] of fileMap.entries()) {\n extraFiles[name2] = unzipped[full];\n }\n return await unpackPcSogs(json, extraFiles, splatEncoding);\n }\n async function onMessage(event) {\n const { name, args, id } = event.data;\n let result = void 0;\n let error = void 0;\n try {\n switch (name) {\n case "unpackPly": {\n const { packedArray, fileBytes, splatEncoding } = args;\n const decoded = await unpackPly({\n packedArray,\n fileBytes,\n splatEncoding\n });\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodeSpz": {\n const { fileBytes, splatEncoding } = args;\n const decoded = await unpackSpz(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodeAntiSplat": {\n const { fileBytes, splatEncoding } = args;\n const decoded = unpackAntiSplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray\n };\n break;\n }\n case "decodeKsplat": {\n const { fileBytes, splatEncoding } = args;\n const decoded = unpackKsplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodePcSogs": {\n const { fileBytes, extraFiles, splatEncoding } = args;\n const json = JSON.parse(\n new TextDecoder().decode(fileBytes)\n );\n const decoded = await unpackPcSogs(json, extraFiles, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodePcSogsZip": {\n const { fileBytes, splatEncoding } = args;\n const decoded = await unpackPcSogsZip(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "sortSplats": {\n const { totalSplats, readback, ordering } = args;\n result = {\n id,\n readback,\n ...sortSplats({ totalSplats, readback, ordering })\n };\n break;\n }\n case "sortDoubleSplats": {\n const { numSplats, readback, ordering } = args;\n {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort_splats(numSplats, readback, ordering)\n };\n }\n break;\n }\n case "sort32Splats": {\n const { numSplats, readback, ordering } = args;\n {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort32_splats(numSplats, readback, ordering)\n };\n }\n break;\n }\n case "transcodeSpz": {\n const input = args;\n const spzBytes = await transcodeSpz(input);\n result = {\n id,\n fileBytes: spzBytes,\n input\n };\n break;\n }\n default: {\n throw new Error(`Unknown name: ${name}`);\n }\n }\n } catch (e) {\n error = e;\n console.error(error);\n }\n self.postMessage(\n { id, result, error },\n { transfer: getTransferable(result) }\n );\n }\n async function unpackPly({\n packedArray,\n fileBytes,\n splatEncoding\n }) {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n const extra = {};\n ply.parseSplats(\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n setPackedSplat(\n packedArray,\n index,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding\n );\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3, index, sh3, splatEncoding);\n }\n }\n );\n return { packedArray, numSplats, extra };\n }\n async function unpackSpz(fileBytes, splatEncoding) {\n const spz = new SpzReader({ fileBytes });\n await spz.parseHeader();\n const numSplats = spz.numSplats;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra = {};\n let extraCallbacks = {};\n if (spz.flagLod) {\n const childCounts = new Uint16Array(numSplats);\n const childStarts = new Uint32Array(numSplats);\n extra.childCounts = childCounts;\n extra.childStarts = childStarts;\n extraCallbacks = {\n childCounts: (index, count) => {\n childCounts[index] = count;\n },\n childStarts: (index, start) => {\n childStarts[index] = start;\n }\n };\n }\n await spz.parseSplats(\n (index, x2, y, z) => {\n setPackedSplatCenter(packedArray, index, x2, y, z);\n },\n (index, alpha) => {\n setPackedSplatOpacity(packedArray, index, alpha);\n },\n (index, r, g, b) => {\n setPackedSplatRgb(packedArray, index, r, g, b, splatEncoding);\n },\n (index, scaleX, scaleY, scaleZ) => {\n setPackedSplatScales(\n packedArray,\n index,\n scaleX,\n scaleY,\n scaleZ,\n splatEncoding\n );\n },\n (index, quatX, quatY, quatZ, quatW) => {\n setPackedSplatQuat(packedArray, index, quatX, quatY, quatZ, quatW);\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3, index, sh3, splatEncoding);\n }\n },\n extraCallbacks\n );\n return { packedArray, numSplats, extra };\n }\n const DEPTH_INFINITY_F16 = 31744;\n const DEPTH_SIZE_16 = DEPTH_INFINITY_F16 + 1;\n let depthArray16 = null;\n function sortSplats({\n totalSplats,\n readback,\n ordering\n }) {\n if (!depthArray16) {\n depthArray16 = new Uint32Array(DEPTH_SIZE_16);\n }\n depthArray16.fill(0);\n const readbackUint32 = readback.map((layer) => new Uint32Array(layer.buffer));\n const layerSize = readbackUint32[0].length;\n const numLayers = Math.ceil(totalSplats / layerSize);\n let layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i2 = 0; i2 < layerSplats; ++i2) {\n const pri = readbackLayer[i2] & 32767;\n if (pri < DEPTH_INFINITY_F16) {\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n let activeSplats = 0;\n for (let j = 0; j < DEPTH_SIZE_16; ++j) {\n const nextIndex = activeSplats + depthArray16[j];\n depthArray16[j] = activeSplats;\n activeSplats = nextIndex;\n }\n layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i2 = 0; i2 < layerSplats; ++i2) {\n const pri = readbackLayer[i2] & 32767;\n if (pri < DEPTH_INFINITY_F16) {\n ordering[depthArray16[pri]] = layerBase + i2;\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n if (depthArray16[DEPTH_SIZE_16 - 1] !== activeSplats) {\n throw new Error(\n `Expected ${activeSplats} active splats but got ${depthArray16[DEPTH_SIZE_16 - 1]}`\n );\n }\n return { activeSplats, ordering };\n }\n const messageBuffer = [];\n function bufferMessage(event) {\n messageBuffer.push(event);\n }\n async function initialize() {\n self.addEventListener("message", bufferMessage);\n await __wbg_init();\n self.removeEventListener("message", bufferMessage);\n self.addEventListener("message", onMessage);\n for (const event of messageBuffer) {\n onMessage(event);\n }\n messageBuffer.length = 0;\n }\n initialize().catch(console.error);\n})();\n//# sourceMappingURL=oldWorker-DUF0ALOS.js.map\n'; +const jsContent$1 = '(function() {\n "use strict";\n class CsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(CsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n CsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n CsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_csplatarray_free(ptr, 0);\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.csplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.csplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.csplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.csplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.csplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.csplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.csplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats() {\n const ret = wasm.csplatarray_to_packedsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats_lod() {\n const ret = wasm.csplatarray_to_packedsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_csplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_csplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_csplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_csplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n }\n if (Symbol.dispose) CsplatArray.prototype[Symbol.dispose] = CsplatArray.prototype.free;\n class GsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(GsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n GsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n GsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_gsplatarray_free(ptr, 0);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_gsplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_gsplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.gsplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.gsplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.gsplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.gsplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.gsplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.gsplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.gsplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats_lod(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats_lod(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_gsplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_gsplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n }\n if (Symbol.dispose) GsplatArray.prototype[Symbol.dispose] = GsplatArray.prototype.free;\n function sort32_splats(num_splats, readback, ordering) {\n const ret = wasm.sort32_splats(num_splats, readback, ordering);\n return ret >>> 0;\n }\n function sort_splats(num_splats, readback, ordering) {\n const ret = wasm.sort_splats(num_splats, readback, ordering);\n return ret >>> 0;\n }\n function __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_boolean_get_a86c216575a75c30: function(arg0) {\n const v = arg0;\n const ret = typeof v === "boolean" ? v : void 0;\n return isLikeNone(ret) ? 16777215 : ret ? 1 : 0;\n },\n __wbg___wbindgen_debug_string_dd5d2d07ce9e6c57: function(arg0, arg1) {\n const ret = debugString(arg1);\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_in_4bd7a57e54337366: function(arg0, arg1) {\n const ret = arg0 in arg1;\n return ret;\n },\n __wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof val === "object" && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === void 0;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "number" ? obj : void 0;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "string" ? obj : void 0;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() {\n return handleError(function(arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments);\n },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() {\n return handleError(function(arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments);\n },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, void 0);\n table.set(offset + 0, void 0);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n }\n };\n return {\n __proto__: null,\n "./spark_worker_rs_bg.js": import0\n };\n }\n typeof FinalizationRegistry === "undefined" ? {} : new FinalizationRegistry((ptr) => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\n const CsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\n const GsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n function addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n }\n function debugString(val) {\n const type = typeof val;\n if (type == "number" || type == "boolean" || val == null) {\n return `${val}`;\n }\n if (type == "string") {\n return `"${val}"`;\n }\n if (type == "symbol") {\n const description = val.description;\n if (description == null) {\n return "Symbol";\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == "function") {\n const name = val.name;\n if (typeof name == "string" && name.length > 0) {\n return `Function(${name})`;\n } else {\n return "Function";\n }\n }\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = "[";\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for (let i2 = 1; i2 < length; i2++) {\n debug += ", " + debugString(val[i2]);\n }\n debug += "]";\n return debug;\n }\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n return toString.call(val);\n }\n if (className == "Object") {\n try {\n return "Object(" + JSON.stringify(val) + ")";\n } catch (_) {\n return "Object";\n }\n }\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\n${val.stack}`;\n }\n return className;\n }\n function getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n }\n function getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n }\n function getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n }\n let cachedDataViewMemory0 = null;\n function getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || cachedDataViewMemory0.buffer.detached === void 0 && cachedDataViewMemory0.buffer !== wasm.memory.buffer) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n }\n function getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n }\n let cachedUint16ArrayMemory0 = null;\n function getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n }\n let cachedUint32ArrayMemory0 = null;\n function getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n }\n let cachedUint8ArrayMemory0 = null;\n function getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n }\n function handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n }\n function isLikeNone(x2) {\n return x2 === void 0 || x2 === null;\n }\n function passStringToWasm0(arg, malloc, realloc) {\n if (realloc === void 0) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr2 = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr2, ptr2 + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr2;\n }\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n const mem = getUint8ArrayMemory0();\n let offset = 0;\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 127) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n WASM_VECTOR_LEN = offset;\n return ptr;\n }\n function takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n }\n let cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n const MAX_SAFARI_DECODE_BYTES = 2146435072;\n let numBytesDecoded = 0;\n function decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n }\n const cachedTextEncoder = new TextEncoder();\n if (!("encodeInto" in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function(arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n }\n let WASM_VECTOR_LEN = 0;\n let wasm;\n function __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n cachedDataViewMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n }\n async function __wbg_load(module, imports) {\n if (typeof Response === "function" && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === "function") {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n if (validResponse && module.headers.get("Content-Type") !== "application/wasm") {\n console.warn("`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n", e);\n } else {\n throw e;\n }\n }\n }\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n function expectedResponseType(type) {\n switch (type) {\n case "basic":\n case "cors":\n case "default":\n return true;\n }\n return false;\n }\n }\n async function __wbg_init(module_or_path) {\n if (wasm !== void 0) return wasm;\n if (module_or_path !== void 0) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({ module_or_path } = module_or_path);\n } else {\n console.warn("using deprecated parameters for the initialization function; pass a single object instead");\n }\n }\n if (module_or_path === void 0) {\n module_or_path = new 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ogA2siCCACIANBBGsiBCACIARLGyADa0EEaiIKIAggCkkbIgQgBCAJSxtBAWoiD0ENSQ0AIAEgA2oiCCAnIAkgFiACIAMgFGoiBCACIARLG2ogA2siBCAKIAQgCkkbIgQgBCAJSxsgA2oiCmpJIAogGGoiBCADIB5qS3EgCCAKICBqSSADICFqIARJcXINACAPQQNxIgRBBCAEGyIKIAkgFiACIBQgDiAQakECdCIMaiIEIAIgBEsbaiAMayIEIAQgCUsbIgggAiAMQQRrIgQgAiAESxsgDGtBBGoiBCAEIAhLG0F/c2ohCyAMIB5qIQQgAyAPIApraiEDA0AgBCASaiEIIAT9XAAAISkgBEEEaiIEIAT9XAAAICkgCP1cAAAiKv1OICogKf1RQQH9bf1u/W79WgAAACALQQRqIgsNAAsLIANBBGshBCADIBRqIQsgAyAOIBNqQQJ0ayEDA0AgAiAETQ0bIAIgC00NHCABIARqIgpBBGoiCCAILQAAIAEgC2otAAAgCi0AAGpBAXZqOgAAIARBAWohBCALQQFqIQsgA0EBaiIDDQALDAYLIAIgCUkNFCADIAlLDRMgA0EEayEKIANFDRUgAyADIA1rIgRBBGoiCEkNFiADIA1JDRcgESADIAhrQQJ2IgQgCSADa0ECdiIDIAMgBEsbIgMgAyARSxsiBEUNBSABIApqKAAAIgNBEHb9ESADQRh2/RwBICn9DQAAAAQAAAAAAAAAAAAAAAAgA/0XACADQQh2/RcBISkgASAOIBBqQQJ0aiEDA0AgAyADIBJqIghBBGr9XAAAIiogKf1OICogKf1RQQH9bf1uIisgCP1cAAAiKv1OIAP9XAAA/W4gKyAq/VFBAf1t/W4iKf0WA0EYdCAp/RYCQRB0ciAp/RYBQQh0ciAp/RYAcjYAACADQQRqIQMgBEEBayIEDQALDAULIAIgCUkNECADIAlPDQQCQCAQQQJ0QX9zIBNBAnRqIgwgFiACIAMgDWtBBGsiBCACIARLG2ogA2siBCAEIAxLG0EBaiIPQRFJDQAgASADaiAgIAwgFiACIAMgFGoiBCACIARLG2ogA2siBCAEIAxLGyADaiIEakkgAyAhaiAEIBhqSXENACAPQQ9xIgRBECAEGyIIIAwgFiACIBQgDiAQakECdCIKaiIEIAIgBEsbaiAKayIEIAQgDEsbQX9zaiELIAEgCmohBCADIA8gCGtqIQMDQCAEIAQgFGr9AAAAIAT9AAAA/W79CwAAIARBEGohBCALQRBqIgsNAAsLIA4gE2pBAnQhCANAIAMgEmpBBGsiBCACTw0SIAEgA2oiBCADIBlqQQRrLQAAIAQtAABqOgAAIAggA0EBaiIDRw0ACwwECyACIAlJDQ0gAyAJTw0DAkAgEEECdEF/cyATQQJ0aiIMIBcgAiADIA1rQQRqIgQgAiAESxtqIANrIgQgBCAMSxtBAWoiD0ERSQ0AIAEgA2ogJCAMIBcgAiADIBtqIgQgAiAESxtqIANrIgQgBCAMSxsgA2oiBGpJIAMgJWogBCAYaklxDQAgD0EPcSIEQRAgBBsiCCAMIBcgAiAbIA4gEGpBAnQiCmoiBCACIARLG2ogCmsiBCAEIAxLG0F/c2ohCyABIApqIQQgAyAPIAhraiEDA0AgBCAEIBtq/QAAACAE/QAAAP1u/QsAACAEQRBqIQQgC0EQaiILDQALCyAOIBNqQQJ0IQgDQCADIBJqQQRqIgQgAk8NDyABIANqIgQgAyAZakEEai0AACAELQAAajoAACAIIANBAWoiA0cNAAsMAwsgAiAJSQ0KIAMgCU8NAgJAIBBBAnRBf3MgE0ECdGoiDCANIAIgAyASaiIEIAIgBEsbaiADayIEIAQgDEsbIgRBAWoiD0ERSQ0AIAEgA2ogHyADIARqIgRqSSADIBlqIAQgGGpJcQ0AIA9BD3EiBEEQIAQbIgggDCANIAIgEiAOIBBqQQJ0IgpqIgQgAiAESxtqIAprIgQgBCAMSxtBf3NqIQsgASAKaiEEIAMgDyAIa2ohAwNAIAQgBCASav0AAAAgBP0AAAD9bv0LAAAgBEEQaiEEIAtBEGoiCw0ACwsgDiATakECdCEIA0AgAyASaiIEIAJPDQwgASADaiIEIAMgGWotAAAgBC0AAGo6AAAgCCADQQFqIgNHDQALDAILIAIgCUkNByADIAlPDQEgEEECdEF/cyATQQJ0aiIMIAIgA0EEayIEIAIgBEsbIANrQQRqIgQgBCAMSxtBAWoiD0EFTwRAIA9BA3EiBEEEIAQbIgggDCACIA4gEGpBAnQiCkEEayIEIAIgBEsbIAprQQRqIgQgBCAMSxtBf3NqIQwgCiAeaiEEIAMgDyAIa2ohAwNAIARBBGoiCCAE/VwAACAI/VwAAP1u/VoAAAAgCCEEIAxBBGoiDA0ACwsgDiATakECdCEIA0AgA0EEayIEIAJPDQkgASADaiIEIARBBGstAAAgBC0AAGo6AAAgCCADQQFqIgNHDQALDAELIAIgCUkNBSADQQNyIgsgCU8NACAJIANBB2oiBCAEIAlJGyADa0EEayIDQcAATwRAIAsgA0ECdkEBaiIDIANBD3EiA0EQIAMbIgNrQQJ0aiELIAMgDiATakECdCIEIA4gEGpBAnQiCEEHaiIDIAMgBEkbIAhrQQRrQQJ2QX9zaiEMIAEgCGohAwNAIANBP2ogA0EDaiIP/QAAACADQRNqIgr9AAAA/Q0ABAgMEBQYHAAAAAAAAAAAIANBI2oiCP0AAAAgA0EzaiIE/QAAAP0NAAAAAAAAAAAABAgMEBQYHP0NAAECAwQFBgcYGRobHB0eH/0M//////////////////////1uIin9WAAADyADQTtqICn9WAAADiADQTdqICn9WAAADSAEICn9WAAADCADQS9qICn9WAAACyADQStqICn9WAAACiADQSdqICn9WAAACSAIICn9WAAACCADQR9qICn9WAAAByADQRtqICn9WAAABiADQRdqICn9WAAABSAKICn9WAAABCADQQ9qICn9WAAAAyADQQtqICn9WAAAAiADQQdqICn9WAAAASAPICn9WAAAACADQUBrIQMgDEEQaiIMDQALCwNAIAEgC2oiAyADLQAAQQFrOgAAIAtBBGoiCyAJSQ0ACwsgBUEBaiIEIQsgBSAcRw0ACyAOIBFqIQ4iAyAjRw0ACwsgAEEdOgAAICJBEGokAA8LIAggB0HE1sQAEK4HAAtB9NbEAEEvQaTXxAAQ5wgAC0H01sQAQS9BtNfEABDnCAALIAQgAkHE18QAEK4HAAtB9NbEAEEvQdTXxAAQ5wgACyAEIAJB5NfEABCuBwALQfTWxABBL0H018QAEOcIAAsgBCACQYTYxAAQrgcAC0H01sQAQS9BlNjEABDnCAALIAQgAkGk2MQAEK4HAAtBiNrHAEETQbTYxAAQ2wcAC0EAIAkgAkGE2cQAENUHAAsgCkEAQQBB9NjEABDVBwALIAggAyADQdTYxAAQ1QcACyAEIAMgA0HE2MQAENUHAAtB9NbEAEEvQZTZxAAQ5wgACyAEIAJBpNnEABCuBwALIAsgAkG02cQAEK4HAAtBiNrHAEETQcTZxAAQ2wcAC0EAIAkgAkGE2sQAENUHAAsgCEEAQQBB9NnEABDVBwALIAQgAyADQeTZxAAQ1QcAC0EAIA8gDUHU2cQAENUHAAtB9NbEAEEvQZTaxAAQ5wgACyAEIAJBpNrEABCuBwALIAggAkG02sQAEK4HAAtB9NbEAEEvQcTaxAAQ5wgACyAEIAJB1NrEABCuBwALIAggAkHk2sQAEK4HAAtBiNrHAEETQfTaxAAQ2wcAC0EAIAkgAkG028QAENUHAAsgD0EAQQBBpNvEABDVBwALIAogAyADQZTbxAAQ1QcACyAEIAMgA0GE28QAENUHAAtBiNrHAEETQcTbxAAQ2wcAC0EAIAkgAkGE3MQAENUHAAsgBCADIANB9NvEABDVBwALIApBAEHU28QAEK4HAAsgCCADQeTbxAAQrgcAC0GI2scAQRNBlNzEABDbBwALQQAgCSACQcTcxAAQ1QcACyAIQQBBAEG03MQAENUHAAsgBCADIANBpNzEABDVBwALQYjaxwBBE0HU3MQAENsHAAtBACAJIAJBpN3EABDVBwALIAhBAEEAQZTdxAAQ1QcACyAEIAMgA0GE3cQAENUHAAtBACAKIA1BBGpB9NzEABDVBwALQQAgCiANQeTcxAAQ1QcACyAEQQNqIQQMAgsgBEECaiEEDAELIARBAWohBAsgBCACQdTWxAAQrgcACyADQQNqIQMMAgsgA0ECaiEDDAELIANBAWohAwsgAyACQeTWxAAQrgcACyADIAJBxNfEABCuBwAL4zYDGn8EfgJ7IwBBsAJrIgMkACADQQA2AgwgA0KAgICAwAA3AgQgA0GAgICAeDYCECADQQA2AlggA0EAOwFUIAMgAjYCUCADQQA2AkwgA0EBOgBIIANBCjYCRCADIAI2AkAgA0EANgI8IAMgAjYCOCADIAE2AjQgA0EKNgIwIANBFGoiD0EYaiERAkACQAJAAkACQANAAkAgAygCNCECIANBkAJqIANBMGoQ8gICQAJ/IAMoApACQQFGBEAgAygCTCEBIAMgAygCmAIiBDYCTCABIAJqIQYgBCABawwBCyADLQBVDQIgA0EBOgBVAkAgAy0AVEEBRgRAIAMoAlAhASADKAJMIQIMAQsgAygCUCIBIAMoAkwiAkYNAwsgAygCNCACaiEGIAEgAmsLIgVFDQAgBiAFQQFrIgFqLQAAQQpHDQAgBUECayICIAEgAQR/IAZBACACIAZqLQAAQQ1GGwVBAAsiARshBSABIAYgARshBgsgBkUNACADIAMoAlgiCUEBajYCWCAFIAZqIQRBACEBIAYhAgJAAkAgBUUEQEEAIQgMAQsDQCABIggCfyACIgEsAAAiBUEATgRAIAVB/wFxIQUgAUEBagwBCyABLQABQT9xIQcgBUEfcSECIAVBX00EQCACQQZ0IAdyIQUgAUECagwBCyABLQACQT9xIAdBBnRyIQcgBUFwSQRAIAcgAkEMdHIhBSABQQNqDAELIAJBEnRBgIDwAHEgAS0AA0E/cSAHQQZ0cnIhBSABQQRqCyICIAFraiEBAkAgBUEgRiAFQQlrQQVJcg0AIAVBgAFJDQICQAJAAkACQCAFQQh2IgdBFmsOGwEGBgYGBgYGBgYCBgYGBgYGBgYGBgYGBgYGAwALIAcNBSAFQf8BcS0Ag4ZHQQFxRQ0FDAMLIAVBgC1HDQQMAgsgBUH/AXEtAIOGR0ECcUUNAwwBCyAFQYDgAEcNAgsgAiAERw0AC0EAIQhBACEBDAELIAIgBEYNAANAAkAgBCIHQQFrIgQsAAAiBUEASARAIAVBP3ECfyAHQQJrIgQtAAAiBcAiCkFATgRAIAVBH3EMAQsgCkE/cQJ/IAdBA2siBC0AACIFwCIKQUBOBEAgBUEPcQwBCyAKQT9xIAdBBGsiBC0AAEEHcUEGdHILQQZ0cgtBBnRyIQULAkAgBUEgRiAFQQlrQQVJcg0AIAVBgAFJDQECQAJAAkACQCAFQQh2IgpBFmsOGwAFBQUFBQUFBQUBBQUFBQUFBQUFBQUFBQUFAgMLIAVBgC1GDQMMBAsgBUH/AXEtAIOGR0ECcQ0CDAMLIAVBgOAARw0CDAELIAoNASAFQf8BcS0Ag4ZHQQFxRQ0BCyACIARHDQEMAgsLIAEgAmsgB2ohAQsgAyABIAhrIgo2AmAgAyAGIAhqIg42AlwCQCAJBEAgCkUNASABIAZqIQhBACEMQQAhAkEAIQkgDiIEIQFBACEHQQAhBgNAIAchCwJ/AkAgBkEBcUUEQEEBIQYgASAIRwRAA0AgAiIFAn8gASICLAAAIgRBAE4EQCAEQf8BcSEEIAFBAWoMAQsgAi0AAUE/cSEHIARBH3EhASAEQV9NBEAgAUEGdCAHciEEIAJBAmoMAQsgAi0AAkE/cSAHQQZ0ciEHIARBcEkEQCAHIAFBDHRyIQQgAkEDagwBCyABQRJ0QYCA8ABxIAItAANBP3EgB0EGdHJyIQQgAkEEagsiASACa2ohAiAEQQlrIgdBF01BAEEBIAd0QZ+AgARxGw0DAkAgBEGAAUkNAAJAAkACQAJAIARBCHYiB0EWaw4bAAQEBAQEBAQEBAEEBAQEBAQEBAQEBAQEBAQCAwsgBEGALUYNBwwDCyAEQf8BcS0Ag4ZHQQJxDQYMAgsgBEGA4ABGDQUMAQsgBw0AIARB/wFxLQCDhkdBAXENBAsgASAIRw0ACyAIIQQLQQEhDCAIIQEgCiEFIAsMAgtBAEEAQdyvxwAQrgcACyABIQQgAiEJQQAhBiACCyEHIAUgC0YNAAtBIBBxIg0EQCANIAUgC2s2AgQgDSALIA5qNgIAQQEhCyADQQE2ApgCIAMgDTYClAIgA0EENgKQAgNAIAkhASAMIQYDQCABIQcCfwJAIAZBAXFFBEBBASEGIAQgCEcEQANAIAIiBQJ/IAQiAiwAACIBQQBOBEAgAUH/AXEhASACQQFqDAELIAItAAFBP3EhECABQR9xIQQgAUFfTQRAIARBBnQgEHIhASACQQJqDAELIAItAAJBP3EgEEEGdHIhECABQXBJBEAgECAEQQx0ciEBIAJBA2oMAQsgBEESdEGAgPAAcSACLQADQT9xIBBBBnRyciEBIAJBBGoLIgQgAmtqIQIgAUEJayIQQRdNQQBBASAQdEGfgIAEcRsNAwJAIAFBgAFJDQACQAJAAkACQCABQQh2IhBBFmsOGwAEBAQEBAQEBAQBBAQEBAQEBAQEBAQEBAQEAgMLIAFBgC1GDQcMAwsgAUH/AXEtAIOGR0ECcQ0GDAILIAFBgOAARg0FDAELIBANACABQf8BcS0Ag4ZHQQFxDQQLIAQgCEcNAAsLQQEhDCAKIQUgBwwCCyADKAKQAiEIAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAygClAIiBigCBEEGaw4FAAECCwMLCyAGKAIAQfmLxwBBBhC7ByALQQNHcg0KAkAgBigCDEEURw0AIAYoAghB7K/HAEEUELsHDQAgBigCFEEDRgRAQQEhEiAGKAIQQYCwxwBBAxC7B0UNCwsgAyAGQRBqrUKAgICAIIQ3A5ACIANB8ABqIgFB+5HAACADQZACahC+BCABEIUIDAwLIAMgBkEIaq1CgICAgCCENwOQAiADQeQAaiIBQfiOwAAgA0GQAmoQvgQgARCFCAwLCyAGKAIAIgFB3/rGAEEHELsHRQ0IIAFBg7DHAEEHELsHIAtBA0dyDQkgAygCECECIANBgICAgHg2AhAgAkGAgICAeEcEQCADKAIMIgQgAygCBEYEQCADQQRqEPAGCyADKAIIIARBBXRqIgEgAjYCACABIA8pAgA3AgQgAUEMaiAPQQhq/QACAP0LAgAgAUEcaiARKAIANgIAIAMgBEEBajYCDAsgBigCECEBIAYoAgwhBSAGKAIIIQ5BACEHAkACQAJAIAYoAhQiCg4CCgABC0EBIQcgAS0AACIEQStrDgMJAQkBCyABLQAAIQQLIAEgBEH/AXFBK0YiBGohAgJAIAogBGsiAUEJTwRAQQAhBANAIAFFDQIgAi0AAEEwayIKQQlLDQlBAiEHIAStQgp+Ih1CIIinDQogAkEBaiECIAFBAWshASAKIB2naiIEIApPDQALDAkLQQAhBCABRQ0AA0AgAi0AAEEwayIHQQlLDQggAkEBaiECIAcgBEEKbGohBCABQQFrIgENAAsLAkAgBUUEQEEBIQIMAQsgBRBxIgJFDQMLIAUEQCACIA4gBfwKAAALIANBADYCLCADIAQ2AiggA0EANgIkIANCgICAgMAANwIcIAMgBTYCGCADIAI2AhQgAyAFNgIQDAgLIAYoAgApAABC8OS9g9fMnLr5AFINCCALQQFGDQMgBigCDCICQQRGBEAgBigCCCgAAEHs0s2jB0YNAwsgC0EDRw0DIAMoAhBBgICAgHhGBEBBt7DHAEEbEPsHDAoLIAMgBigCCCIBNgKUASADIAI2ApgBAn8CQAJAAkACQAJAAkACQAJAAkAgAkEDaw4EAwABAgcLIAEoAABB49CFkwdHDQNBACEHQQEMCAsgAUGkv8cAQQUQuwdFBEBBASEHQQEMCAsgAUGpv8cAQQUQuwcNA0ECIQdBAgwHCyABQa6/xwBBBhC7Bw0DQQMhB0ECDAYLIAFBtL/HAEEDELsHDQNBBCEHQQQMBQsgASgAAEH10rmjB0cNAkEFIQdBBAwECyABQbe/xwBBBRC7Bw0BQQYhB0EEDAMLIAFBvL/HAEEGELsHRQ0BCyADIANBlAFqrUKAgICAIIQ3A4ACIANBkAJqIgFBlpbAACADQYACahC+BCABEIUIDAsLQQchB0EICyEBIAMgASADKAIsIg5qNgIsIAYoAhAhAgJAIAYoAhQiAUUEQEEBIQUMAQsgARBxIgVFDQULIAEEQCAFIAIgAfwKAAALIAMoAiQiCiADKAIcRgRAIwBBEGsiAiQAIAJBBGogA0EcaiIEKAIAIg0gBCgCBEEEIA1BAXQiDSANQQRNGyINQQRBFBCLBiACKAIEQQFGBEAgAigCCCACKAIMEOEIAAsgAigCCCEQIAQgDTYCACAEIBA2AgQgAkEQaiQACyADKAIgIApBFGxqIgIgBzoAECACIA42AgwgAiABNgIIIAIgBTYCBCACIAE2AgAgAyAKQQFqNgIkDAcLIAYoAgBB0rDHAEEKELsHDQcgCEUNECAGIAhBA3RBBBCIBwwQC0EBIAUQ4QgAC0GSsMcAQSUQ+wcMBgsgAyADQdwAaq1CgICAgCCENwOQAiADQfwAaiIBQc6WwAAgA0GQAmoQ9QYgARCFCAwFC0EBIAEQ4QgAC0EBIQcLIwBBIGsiBCQAIARBCGoiARDiCEEgEHEiAkUEQEEgEOgJAAsgAkGUmMcANgIAIAIgBzoAHCACIAEpAgA3AgQgAkEMaiABQQhq/QACAP0LAgAgBEEgaiQAIAIMAgsCQCAIBEAgBkEEaygCACIBQXhxIgIgCEEDdCIEQQRBCCABQQNxIgEbakkNECABQQAgAiAEQSdqSxsNASAGEJ8CCyADLQBVRQ0LDAoLDA8LIAMgA0HcAGqtQoCAgIAghDcDkAIgA0GIAWoiAUHolsAAIANBkAJqEL4EIAEQhQgLIQEgAEGAgICAeDYCrAEgACABNgIAIAhFDQkCQCAGQQRrKAIAIgBBeHEiASAIQQN0IgJBBEEIIABBA3EiABtqTwRAIABBACABIAJBJ2pLGw0BIAYQnwIMCwsMDQsMDQsgAiEJQQAhBiACCyEBIAUgB0YNAAsgAygCkAIgC0YEQCADQZACaiALQQFBBEEIEJgGIAMoApQCIQ0LIA0gC0EDdGoiASAFIAdrNgIEIAEgByAOajYCACADIAtBAWoiCzYCmAIMAAsAC0EEQSAQ4QgACyAKQQNGBEAgDkGJsccAQQMQuwdFDQELQYyxxwBBEhD7ByEBIABBgICAgHg2AqwBIAAgATYCAAwDCyADLQBVRQ0BCwsgAygCECECIANBgICAgHg2AhAgAkGAgICAeEcEQCADKAIMIgQgAygCBEYEQCADQQRqEPAGCyADKAIIIARBBXRqIgEgAjYCACABIA8pAgA3AgQgAUEMaiAPQQhq/QACAP0LAgAgAUEcaiAPQRhqKAIANgIAIAMgBEEBajYCDAsgEkUEQEHcsMcAQRcQ+wchASAAQYCAgIB4NgKsASAAIAE2AgAMAgsgAygCDCIHQZPJpBJJBEAgAygCCCEBIAMoAgQhEAJAAkAgB0UEQEEAIQdBCCEGQQAhBAwBCyAHQThsIgIQcSIGRQ0BIAEgB0EFdGohF0EAIQQgASECA0AgA0GIAmoiGCACQQhqKAIANgIAIAMgAikCADcDgAIgAigCFCEIIAIoAhAhBSACKAIMIRMgAigCGCEZIAIoAhwhGkHQjMkALQAAQQFHBEAQxQcLQcCMyQBBwIzJACkDACIdQgF8NwMAIANB2OzHAP0AAwD9CwMwIANByIzJACkDADcDSCADIB03A0ACQCAIRQ0AIAUgCEEUbGohGyADQTBqIAggA0FAayIcEMUBIAUhCANAIAgtABAhFCAIKAIMIRUgCCgCACEKIAMpA0AgAykDSCAIKAIEIg4gCCgCCCINEJEEIR0gAygCOEUEQCADQTBqQQEgHBDFAQsgCEEUaiEIIAMoAjQiDyAdp3EhDCAdQhmIIiBC/wCDQoGChIiQoMCAAX4hHkEAIRIgAygCMCEJQQAhFgNAAn8CQAJAAkAgCSAMaikAACIfIB6FIh1Cf4UgHUKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIdUEUEQANAIAkgHXqnQQN2IAxqIA9xQWxsaiILQQxrKAIAIA1GBEAgDiALQRBrKAIAIA0QuwdFDQMLIB1CAX0gHYMiHVBFDQALCyAfQoCBgoSIkKDAgH+DIR0gEkUEQCAdUA0DIB16p0EDdiAMaiAPcSERC0EBIB0gH0IBhoNQDQMaIAkgEWosAAAiDEEATgRAIAkgCSkDAEKAgYKEiJCgwIB/g3qnQQN2IhFqLQAAIQwLIAkgEWogIKdB/wBxIgs6AAAgCSARQQhrIA9xakEIaiALOgAAIAkgEUFsbGoiCUEUayAKNgIAIAlBEGsgDjYCACAJQQxrIA02AgAgCUEIayAVNgIAIAlBBGsgFDoAACADIAMoAjxBAWo2AjwgAyADKAI4IAxBAXFrNgI4DAELIAtBBGsgFDoAACALQQhrIBU2AgAgCkUNACAOQQRrKAIAIglBeHEiDEEEQQggCUEDcSIJGyAKakkNDSAJQQAgDCAKQSdqSxsNDiAOEJ8CCyAIIBtHDQMMBAtBAAshEiAWQQhqIhYgDGogD3EhDAwACwALAAsgEwRAIAVBBGsoAgAiCEF4cSIJIBNBFGwiCkEEQQggCEEDcSIIG2pJDQggCEEAIAkgCkEnaksbDQkgBRCfAgsgA0GgAmogA0FAa/0AAwAiIf0LAwAgAyAD/QADMCIi/QsDkAIgBiAEQThsaiIFQRBqICH9CwMAIAUgIv0LAwAgBSAaNgIkIAUgGTYCICAFIAMpA4ACNwIoIAVBMGogGCgCADYCACAEQQFqIQQgAkEgaiICIBdHDQALCyAQBEAgAUEEaygCACICQXhxIgUgEEEFdCIIQQRBCCACQQNxIgIbckkNBiACQQAgBSAIQSdqSxsNByABEJ8CCyADIAQ2ApwBIAMgBzYClAEgAyAGNgKYAQJAIAQEQCAGIARBOGwiCGohB0EAIQIDQCACIAZqIgFBMGooAgBBBkYEQCABQSxqKAIAIgVBo7HHAEEGELsHRQ0DCyAIIAJBOGoiAkcNAAsLQfOwxwBBFhD7ByEBIABBgICAgHg2AqwBIAAgATYCACADQZQBahCdBSADQRBqEM8EDAULAn8CQEEGEHEiAgRAIAIgBSgAADYAACACQQRqIAVBBGovAAA7AAAgASgCICEKIAEoAiQhDiADQTBqIAEQ1gMgA0GYAmogA0E8av0AAgD9CwMAIANBqAJqIgUgA0HMAGooAgA2AgAgAyADKQI0NwOQAiADKAIwIRFB87DHAEEWEPsHIQEgA0G4AWogBSgCADYCACADQbABaiADQaACaikDADcDACADIAP9AAOQAv0LA6ABIAEgASgCACgCABEDACADIAc2ApQCIAMgBjYCkAJBgICAgHghCAJ/QQAgA0GQAmoiBSgCACIBIAUoAgQiD0YNABoCQANAIAFBMGooAgBBBUYEQCABQSxqKAIAQZ6xxwBBBRC7B0UNAgsgAUE4aiIBIA9HDQALIAUgATYCAEEADAELIAUgAUE4ajYCACABCyIBDQFBgICAgHgMAgtBAUEGEOEIAAsgA0EwaiABQShqEJsHIAEoAiQhDCABKAIgIQkgA0HAAWogARDWAyADKQI0IR0gAygCMAshDyADIAc2ApQCIAMgBjYCkAICf0EAIANBkAJqIgUoAgAiASAFKAIEIg1GDQAaAkADQCABQTBqKAIAQQJGBEAgAUEsaigCAC8AAEHz0AFGDQILIAFBOGoiASANRw0ACyAFIAE2AgBBAAwBCyAFIAFBOGo2AgAgAQsiAQRAIANBMGogAUEoahCbByABKAIkIQsgASgCICEHIANB4AFqIAEQ1gMgAykCNCEeIAMoAjAhCAsgAyAGNgIwIAMgBiAEQThsajYCNAJ/QQAgA0EwaiIEKAIAIgEgBCgCBCIFRg0AGgJAA0AgAUEwaigCAEEFRgRAIAFBLGooAgBBnrHHAEEFELsHRQ0CCyABQThqIgEgBUcNAAsgBCABNgIAQQAMAQsgBCABQThqNgIAQQELIQEgACAdNwIsIAAgDzYCKCAAIAw2AiQgACAJNgIgIAAgETYCcCAAIB43AmQgACAINgJgIAAgCzYCXCAAIAc2AlggAEG0AWogA0GcAWooAgA2AgAgACADKQKUATcCrAEgACAD/QADwAH9CwMAIABBEGogA0HQAWr9AAMA/QsDACAAIAP9AAPgAf0LAzggAEHIAGogA0HwAWr9AAMA/QsDACAAIAo2AqgBIAD9DAAAAAAGAAAAAAAAAAYAAAAgDv0cACAC/RwC/QsClAEgACAKNgKQASAAIAE6ALgBIABBjAFqIANBuAFqKAIANgIAIABBhAFqIANBsAFqKQMANwIAIAAgA/0AA6AB/QsCdCADQRBqEM8EDAQLQQggAhDhCAALEM8JAAsgAygCECIAQYCAgIB4Rg0AIAAEQCADKAIUIgFBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIABqSQ0DIAJBACAEIABBJ2pLGw0EIAEQnwILIAMoAiAhACADKAIkIgEEQCAAIQIDQCACKAIAIgQEQCACQQRqKAIAIgVBBGsoAgAiCUF4cSIGQQRBCCAJQQNxIgkbIARqSQ0FIAlBACAGIARBJ2pLGw0GIAUQnwILIAJBFGohAiABQQFrIgENAAsLIAMoAhwiAUUNACAAQQRrKAIAIgJBeHEiBCABQRRsIgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAAQnwILIAMoAgghBSADKAIMIgcEQEEAIQkDQCAFIAlBBXRqIgQoAgAiAARAIAQoAgQiAUEEaygCACICQXhxIgZBBEEIIAJBA3EiAhsgAGpJDQQgAkEAIAYgAEEnaksbDQUgARCfAgsgBCgCECEAIAQoAhQiAQRAIAAhAgNAIAIoAgAiBgRAIAJBBGooAgAiCEEEaygCACIKQXhxIgxBBEEIIApBA3EiChsgBmpJDQYgCkEAIAwgBkEnaksbDQcgCBCfAgsgAkEUaiECIAFBAWsiAQ0ACwsgBCgCDCIBBEAgAEEEaygCACICQXhxIgQgAUEUbCIBQQRBCCACQQNxIgIbakkNBCACQQAgBCABQSdqSxsNBSAAEJ8CCyAJQQFqIgkgB0cNAAsLIAMoAgQiAEUNACAFQQRrKAIAIgFBeHEiAiAAQQV0IgBBBEEIIAFBA3EiARtySQ0BIAFBACACIABBJ2pLGw0CIAUQnwILIANBsAJqJAAPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvSWAMvfwV+B3sjAEHwCGsiBCQAIARBEGogAUGgAfwKAAAgBEIANwPoAiAEIAOtIjQ3A/ACIAQgBCgCmAEiDK0gBCgClAEiCq1+IjNCBEIDIAQtAKMBIgcbEMYGAkACQAJAIAQpAwhQRQRAIAT9DAAAAAAAAAAA///////////9CwSwAwwBCyAEKQMAITUgBEIANwOwAyAEIDU3A7gDIDQgNVINAEEJIQgCQAJAAkACQCAzQiCIpw0AIDOnIg2tQgRCAyAHG34iNEIgiKcgAyA0p0dyDQACQAJ/AkACQAJAAkACQAJAAkACQAJAAkACQCAELQBVQQFHBEACQCAEQegAaiIJQbjexgAQoAQiCEUEQCAJQb3exgAQoAQhDUEDIQggBEEDOgCwAyANDQEMEAsgCCkDCCEzIAgpAwAhNCAEQQA6AJAEIAQgBEHYAGo2AogEIARCADcD8AMgBCA0NwNgIARCADcDoAQgBEKAgICAEDcDmAQgBEEEOgDgAyAEQQQ6ANADIARBBDoAwAMgBEEEOgCwAyAEIDMgNH0iMzcDgAQgBCAzNwP4AyAHRQRAIA1BAnQiC0EASA0DAkAgCwRAIAsQcSIJBEAgCUEEay0AAEEDcUUgC0VyRQRAIAlBACAL/AsACyAEQegCaiAEQbADaiAEKAKUASAEKAKYASAJIAsQzQEgBC0A6AIiCEEdRg0CIAQpAvACITMgBCgC7AIhBSAELwDpAiAELQDrAiAJIAtBARCIB0EQdHIhBgwSC0EBIAsQ4QgAC0EBIQkgBEHoAmogBEGwA2ogCiAMQQFBABDNASAELQDoAiIIQR1HDQ4LAkAgA0EDbiIFIA1B/////wNxIgMgAyAFSxsiA0UNAEEAIQcgA0EBRwRAIANBAXEgA0H+////A3EhBSACIQMgCSEIA0AgAyAILwAAOwAAIANBAmogCEECai0AADoAACADQQNqIAhBBGovAAA7AAAgA0EFaiAIQQZqLQAAOgAAIANBBmohAyAIQQhqIQggBSAHQQJqIgdHDQALRQ0BCyACIAdBA2xqIgMgCSAHQQJ0aiICLwAAOwAAIANBAmogAkECai0AADoAAAsgC0UNCyAJIAtBARCIBwwLCyAEQegCaiAEQbADaiAKIAwgAiADEM0BIAQtAOgCIghBHUYNCiAELwDpAiAELQDrAkEQdHIMDQsgBEGwA2oiBRClBCAEIARB2ABqIgc2AogCIA0pAwghNCAEIA0pAwAiMzcDYCAEIDQgM30iMzcDgAIgBCAzNwP4ASAFIARB+AFqEKsCIARB6AJqIAUQMCAEKQL0AiEzIAQoAvACIQUgBCgC7AIhCCAEKALoAiIKQYCAgIB4RgRAIAhBCHYhBgwJCyAEQdQCaiAEQZQDaigCADYCACAEQcwCaiAEQYwDaikCACI0NwIAIAQgBP0AAvwC/QsCvAIgBCAFNgKwAiAEIAg2AqwCIAQgCjYCqAIgBCgClAEhBSAEIDM3ArQCQRchDSAFIDSnIgtB//8DcSIGRw0HIAQvAc4CIiAgBCgCmAFHDQcgBC0ApAEhBSAELQCjAUUEQCAEQagCaiACIAMgBUEBcRCUAQwHCyAEQagCaiACIAMgBUEBcRCJASAJQcLexgAQoAQhCUEDIQ0gBEEDOgCwAyAJRQ0FIARBsANqIgUQpQQgCSkDCCE1IAQgCSkDACI0NwNgIAQgBzYCwAMgBCA1IDR9IjQ3A7gDIAQgNDcDsAMgBEHoAmogBSAEKAKUASAEKAKYARBQIAQoAvQCIREgBCgC8AIhBSAEKALsAiENIAQoAugCRQRAAkACQCAgRSALQf//A3FFckUEQCAELQD5AiEjIAZBAnQhE0EDIQsDQCAFIBtqIQwgCyEHQQAhCANAIAggEiAGICMgAiADELQDIQogCCAbaiIJIBFPDQMgAyAHTQ0EIAIgB2ogCCAMai0AACAKajoAACAHQQRqIQcgBiAIQQFqIghHDQALIAsgE2ohCyAGIBtqIRsgEkEBaiISICBHDQALCyANRQ0JIAUgDUEBEIgHDAkLIAkgEUHI3sYAEK4HAAsgByADQdjexgAQrgcACyARrSAEMQD4AkIghoQgBDEA+QJCKIaEIAQzAfoCQjCGhCE0IA1BCHYhBgwHCyAEQTRqQQA2AgAgBEHQAWogAUEgav0AAwD9CwMAIARBwAFqIAFBEGr9AAMA/QsDACAEQYCAgIB4NgIYIARCADcDECAE/QwAAAAAAAAAAAAAAAAAAAAA/QsCJCAEQQE6ADggBCAB/QADAP0LA7ABIARB6ABqQejexgAQoAQiCEUNASAEIAgpAwAiM0IIfSI1NwMQIAQoApwBRQRAIARBHDoA4AEMBAsgBCA1NwNgQQQhCCAEKAJcIgetITQgBAJ+AkAgB0L/////DyA1IDVC/////w9aG6drIgZBACAGIAdNG0EETwRAIAQoAlggNSA0IDQgNVYbp2ooAAAhBQwBC0GI48cAKQMAIjVCCIghNiA1pyEIIDQgNUL/AYNCBFINARoLIDNCBH0LIjU3A2ACQCAIQf8BcUEERgRAIARBsANqQQFyIAUQkwQgBC0AswMhDSAELwCxAyEGIAQCfgJAIAcgNSA0IDQgNVYbpyIFa0EETwRAIAQoAlggBWo1AAAhN0EEIQhCACE2DAELQYjjxwApAwAiM0IIiCE2IDOnIQggNCAzQv8Bg0IEUg0BGgsgNUIEfAsiNTcDYCAIQf8BcUEERg0BCyAEQQA2AuABIAQgNkIYiD4C6AEgBCAIQf8BcSA2p0EIdHI2AuQBDAQLIAYgDUEQdHJB/wFxQQZGIDdCH1ZxRQRAIARBwZy1sgQ2AOEBIARBBDoA4AEMBAsgBAJ+AkAgByA1IDQgNCA1VhunIgVrQQNPBEAgBCgCWCAFaiIILQABQQh0IQUgCC0AAkEQdCEGIAgtAAAhEkEEIQhCACE2DAELQYjjxwApAwAiM0IIiCE2IDOnIQhBACEFQQAhBkEAIQ0gNCAzQv8Bg0IEUg0BGgsgBSENIAYhGyA1QgN8CyI1NwNgIAhB/wFxQQRHBEAgBCAIrUL/AYMgNkIIhoQiMzcDsAMgBEEAOgDgASAEIDM+AuQBIAQgBCkCtAM3A+gBDAQLAn8CQCAHIDUgNCA0IDVWG6ciBWtBA08EQCAEKAJYIAVqIggtAAFBCHQhByAILQACQRB0IQUgCC0AACELQQQhCEIAITYMAQtBiOPHACkDACIzQgiIITYgM6chCEEAIQdBACEFQQAhBkEAIDNC/wGDQgRSDQEaCyA1QgN8ITQgByEGIAULIQcgBCA0NwNgIAhB/wFxQQRHBEAgBCAIrUL/AYMgNkIIhoQiMzcDsAMgBEEAOgDgASAEIDM+AuQBIAQgBCkCtAM3A+gBDAQLIARBsANqIARB2ABqIgkQrQUgBC0AsAMiBUEdRwRAIAQgBC0AswM6AOMBIAQgBC8AsQM7AOEBIAQgBCkCuAM3A+gBIAQgBCgCtAM2AuQBIAQgBToA4AEMBAsgBCgCtAMhCCAEQbADaiAJEK0FIAQtALADIgVBHUcEQCAEIAQtALMDOgDjASAEIAQvALEDOwDhASAEIAQpArgDNwPoASAEIAQoArQDNgLkASAEIAU6AOABDAQLAkAgCEEBaiIZQYCAAU0EQCAEKAK0A0EBaiInQYGAAUkNAQsgBEEJOgDgAQwECwJAIAQoApQBIBkgDSASciAbckEBdCIgakkNACAEKAKYASAnIAYgC3IgB3JBAXQiI2pJDQAgBEGwA2ogCRCtBSAELQCwAyIFQR1HBEAgBCAELQCzAzoA4wEgBCAELwCxAzsA4QEgBCAEKQK4AzcD6AEgBCAEKAK0AzYC5AEgBCAFOgDgAQwFCyAEKAK0AyEyIARBsANqIAkQkgYgBC0AsANBBEYEQCAELQCxAyEbDAQLIAQpA7ADIjNCCIinIRsgM6ciBUH/AXFBBEYNAyAEIBs6AOUBIAQgBToA5AEgBEEAOgDgASAEIDNCMIg9AeoBIAQgM0IQiD4B5gEMBAsgBEEKOgDgAQwDCxDPCQALQfDexgAQ0AkACyAEKABNIQcgBC0ATCEhIAQtADghDyAEQbADaiAJELwDIAQoArADQQFGBEAgBCAE/QACtAP9CwTgAQwBCyAEIAQtAMQDOgDkCCAEIAQoAsADIgU2AuAIAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCA3IAQpA8gDIjRCGHxaBEAgBCkDuAMhNUHSkpmyBCENIAVB/wFxQQFrDgsBCgsCAwQMBQYHCAkLQdKSmbIEIQMCQAJAAkACQAJAAkACQAJAAkACQAJAAkAgBUH/AXFBAWsOCwABAgMEBQYHCAkKCwtB14qJggUhAwwKC0HWoOGBAiEDDAkLQdag4eEEIQMMCAtB1qDhwQUhAwwHC0HBnKXqBCEDDAYLQcGctbIEIQMMBQtBwZjBwgQhAwwEC0HJho2CBSEDDAMLQcWwpbIEIQMMAgtB2JrBggIhAwwBCyAEKADhCCEDCyAEIAM2AOEBIARBBDoA4AEMDgtB14qJggUhDQwHC0HWoOHBBSENDAYLQcGcpeoEIQ0MBQtBwZy1sgQhDQwEC0HJho2CBSENDAMLQcWwpbIEIQ0MAgtB2JrBggIhDQwBCyAEKADhCCENCyAEIA02AOEBIARBBDoA4AEMBQsgBCA1NwOgAyAEIDU3A5gDIAQgCTYCqAMgBEGwA2oiBSAEQZgDahCrAiAEQegCaiAFEDAgBCAE/QAC7AL9CwOQAiAEKALoAiIFQYCAgIB4Rg0DIARB1AJqIARBlANqKAIANgIAIARBzAJqIARBjANqKQIAIjM3AgAgBCAE/QAC/AL9CwK8AiAEIAT9AAOQAv0LAqwCIAQgBTYCqAICQCAZIDOnQf//A3FHDQAgJyAELwHOAkcNACAEQdgCaiAZICdsQQNsEPgGIARBqAJqIgUgBCgC3AIiDSAEKALgAiILIAQtAKQBEJQBIAUQ9QRBACESDAMLIARBFzoA4AEgBEGoAmoQ9QQMBAsgBEEAOgCQBCAEIAk2AogEIAQgNTcDgAQgBCA1NwP4AyAEQgA3A/ADIARCADcDoAQgBEKAgICAEDcDmAQgBEEEOgDgAyAEQQQ6ANADIARBBDoAwAMgBEEEOgCwAyAEQagCaiAZICdsQQJ0EPgGIARB6AJqIARBsANqIBkgJyAEKAKsAiIIIAQoArACEM0BIAQtAOgCIgVBHUcEQCAEIAQpAOkCNwDhASAEIARB8AJqKQAANwDoASAEIAU6AOABIAQoAqgCIgIEQCAIIAJBARCIBwsgBEGwA2oQ3QYMBAsgBEHgAmoiBSAEQbACaigCADYCACAEIAQpAqgCNwPYAiAEQbADahDdBiAFKAIAIQtBASESIAQoAtwCIQ0MAQsgNyA0QiB8WgRAIAQpA2AhMyAEIDU3A5gCIAQgNTcDkAIgBCAJNgKgAiAEQbADaiAEQZACaiAZICcQUCAEKAKwA0EBRgRAIAQgBP0AArQD/QsE4AEMBAsgBCAzIDR8NwNgIAQtAMEDIRAgBCgCvAMhHCAEKAK4AyEUIAQoArQDISIgBEGwA2ogCRC8AwJAIAQoArADQQFGBEAgBCAE/QACtAP9CwTgAQwBCyAEIAQtAMQDOgDsCCAEIAQoAsADIgU2AugIAkAgNyA1IAQpA7gDIjN8QiB8WgRAIAQgMzcDoAMgBCAzNwOYAyAEIAk2AqgDIARBsANqIgUgBEGYA2oQqwIgBEHoAmogBRAwIAQgBP0AAuwC/QsD2AIgBCgC6AIiBUGAgICAeEcNASAEIAT9AAPYAv0LBOABDAILQdKSmbIEIQMCQAJAAkACQAJAAkACQAJAAkACQAJAAkAgBUH/AXFBAWsOCwABAgMEBQYHCAkKCwtB14qJggUhAwwKC0HWoOGBAiEDDAkLQdag4eEEIQMMCAtB1qDhwQUhAwwHC0HBnKXqBCEDDAYLQcGctbIEIQMMBQtBwZjBwgQhAwwEC0HJho2CBSEDDAMLQcWwpbIEIQMMAgtB2JrBggIhAwwBCyAEKADpCCEDCyAEIAM2AOEBIARBBDoA4AEMAQsgBEHUAmogBEGUA2ooAgA2AgAgBEHMAmogBEGMA2opAgA3AgAgBCAE/QAC/AL9CwK8AiAEIAT9AAPYAv0LAqwCIAQgBTYCqAIgBEHYAmogGSAnbEECdBD4BiAEQagCaiAEKALcAiINIAQoAuACIgsgBC0ApAEQiQECQCAELwHOAiIVRQ0AIAQvAcwCIiRFDQAgJEECdCERQQAhBkEDIQVBACESA0AgBiAUaiETIAUhCUEAIQgCQAJAA0AgCCASICQgECANIAsQtAMhDCAGIAhqIgogHE8NASAJIAtJBEAgCSANaiAIIBNqLQAAIAxqOgAAIAlBBGohCSAkIAhBAWoiCEYNAwwBCwsgCSALQYDexgAQrgcACyAKIBxB8N3GABCuBwALIAUgEWohBSAGICRqIQYgEkEBaiISIBVHDQALCyAEQagCahD1BCAiBEAgFCAiQQEQiAcLQQEhEgwCCyAiRQ0DIBQgIkEBEIgHDAMLIARBwZjBwgQ2AOEBIARBBDoA4AEMAgsgBCgC2AIhMQJAAkACQCAEKAIYQYCAgIB4RgRAIARBkAJqIAQoApQBIAQoApgBbEECdBD4BgJAIAQtAExBAUcNACAEKAKYAiIGQXxxIglFDQAgBCgClAIhBQJAIAZBBGsiCEEsSQRAIAUhCAwBCyAFIARB0QBqTyAEQc0AaiAFIAZBfHFqT3JFBEAgBSEIDAELIAUgCEECdkEBaiIMQfz///8HcSIKQQJ0IgZqIQggCSAGayEJIAohBgNAIAUgBP0AAE39DAAAAAAAAAAAAAAAAAAAAAD9DQABAgMAAQIDAAECAwABAgP9CwAAIAVBEGohBSAGQQRrIgYNAAsgCiAMRg0BCwNAIAggBCgATTYAACAIQQRqIQggCUEEayIJDQALCyAEKAIYIgVBgICAgHhyQYCAgIB4RwRAIAQoAhwgBUEBEIgHCyAEQRhqIgUgBCkCkAI3AgAgBUEIaiAEQZgCaigCADYCACAEKAIYQYCAgIB4Rg0BCyAEKAIcIQggBCgCICEOIAQoApgBISwgIUEAIA8bIQYgByEPICchEyAbQQJxRSEuIAQoAighCiAEKAIsIS0gBCgCMCEoIAQoAjQhKUEAIQlBACEQAkACQAJAICAgI3JFIBkgBCgClAEiF0ZxRQRAIAZBAXFFDQIMAQsCQAJAIBMgLEciBSAucgRAIAZBAXENAQwECyASRQRAIA5BAnYiBiALQQNuIgUgBSAGSxsiBUUNBSAFQQFHBEAgBUEBcSAFQf7///8BcSEGIAghByANIQUDQCAHIAUvAAA7AAAgB0EDakH/AToAACAHQQdqQf8BOgAAIAdBAmogBUECai0AADoAACAHQQRqIAVBA2ovAAA7AAAgB0EGaiAFQQVqLQAAOgAAIAdBCGohByAFQQZqIQUgBiAJQQJqIglHDQALRQ0GCyAIIAlBAnRqIghB/wE6AAMgCCANIAlBA2xqIgUvAAA7AAAgCEECaiAFQQJqLQAAOgAADAULIAsgDkcNASALRQ0EIAggDSAL/AoAAAwECyAFDQEgEkUEQCAOIA5BA3BrIgpBA0kNAwJAIApBA2siB0EDbiIFQQdxQQdGBEAgCCEFDAELIAogBUEBakEHcSIMQQNsayEKIA9BEHYhBiAIIQUDQCAFIA87AAAgBUECaiAGOgAAIAVBA2ohBSAMQQFrIgwNAAsLIAdBFUkNAyAPQRB2IQYDQCAFIA87AAAgBUEXaiAGOgAAIAVBFWogDzsAACAFQRRqIAY6AAAgBUESaiAPOwAAIAVBEWogBjoAACAFQQ9qIA87AAAgBUEOaiAGOgAAIAVBDGogDzsAACAFQQtqIAY6AAAgBUEJaiAPOwAAIAVBCGogBjoAACAFQQZqIA87AAAgBUEFaiAGOgAAIAVBA2ogDzsAACAFQQJqIAY6AAAgBUEYaiEFIApBGGsiCkEDTw0ACwwDCyAOQfz///8HcSIMRQ0CAkAgDkEEayIFQQxJBEAgCCEFDAELIAwgBUECdkEBaiIJQfz///8HcSIHQQJ0IgVrIQwgBSAIaiEFIA/9ESE5IAchBiAIIQoDQCAKIDn9CwAAIApBEGohCiAGQQRrIgYNAAsgByAJRg0DCwNAIAUgDzYAACAFQQRqIQUgDEEEayIMDQALDAILIA4gC0Hk68QAENsJAAsgLUUgCkVyIQUCQAJAAkACQCASRQRAIAUNBSAOQQJqIiIgKCAXIClsaiIGQQNsIgVrIRogCkEBaiEkIApBAWshKiAOQQFqIRggF0EDbCElIBdBfWwhFCAPQRB2ISYgBkF9bCIcIR0gDiAFIhVrIiEhK0EBIREDQCAJIClqIBdsIChqIRZBASEMQQAhBiAiIAkgFGwiEGogBUECIBAgIWoiByAHQQJPG2prQQNuIgogECAcaiAFIAkgJWxqIgcgGCAHIBhLG2oiByAHQQBHIh5rQQNuIB5qIgcgByAKSxsiByAqIAcgKkkbIgdBBE8EQCAHQQFqIhBBA3EiBkEEIAYbIgwgGkECICsgK0ECTxtrQQNuIgcgFSAYIBUgGEsbIB1qIB5rQQNuIB5qIgYgBiAHSxsiBiAqIAYgKkkbQX9zaiEKIBAgDGsiBkEBaiEMIBb9ESE5/QwAAAAAAQAAAAIAAAADAAAAITgDQCAIIDkgOP2uAf0MAwAAAAMAAAADAAAAAwAAAP21ASI6/RsAaiIHIA87AAAgB0ECaiAmOgAAIAggOv0bAWoiB0ECaiAmOgAAIAcgDzsAACAIIDr9GwJqIgdBAmogJjoAACAHIA87AAAgCCA6/RsDaiIHQQJqICY6AAAgByAPOwAAIDj9DAQAAAAEAAAABAAAAAQAAAD9rgEhOCAKQQRqIgoNAAsLA0AgDiAGIBZqQQNsIgdJDQMgDiAHayIGQQNJDQQgByAIaiIGIA87AAAgBkECaiAmOgAAICQgDCIGQQFqIgxHDQALIB0gJWshHSAVICVqIRUgKyAlayErIBogJWshGiAJQQFqIQkgESARIC1JIgZqIREgBg0ACwwFCyAFDQQgDkEDaiIkICggFyApbGpBAnQiB2shFSAKQQFqIRQgCkEBayEeIA5BAWohFkEAIBdBAnQiGGshHCAHIAhqIRFBAyAHayEdIA/9ESE5IA4gB2siISEfIAchCUEBIRoDQEEBIQVBACEKIBAgHGwiIiAHayAHIBAgGGxqIgYgFiAGIBZLG2pBA2pBAnYiDCAiICRqIAdBAyAhICJqIgYgBkEDTxtya0ECdiIGIAYgDEsbIgYgHiAGIB5JGyIGQQRPBEAgBkEBaiIMQQNxIgVBBCAFGyIKIAkgFiAJIBZLGyAdakECdiIGIBVBAyAfIB9BA08ba0ECdiIFIAUgBksbIgUgHiAFIB5JG0F/c2ohBiAMIAprIgpBAWohBSARIQwDQCAMIDn9CwAAIAxBEGohDCAGQQRqIgYNAAsLIBAgKWogF2wgKGohDANAIA4gCiAMakECdCIKSQ0EIA4gCmsiBkEESQ0FIAggCmogDzYAACAFIQogFCAFQQFqIgVHDQALIBEgGGohESAfIBhrIR8gFSAYayEVIB0gGGshHSAJIBhqIQkgEEEBaiEQIBogGiAtSSIFaiEaIAUNAAsMBAsgByAOIA5BhOzEABDVBwALQQBBAyAGQfTrxAAQ1QcACyAKIA4gDkGk7MQAENUHAAtBAEEEIAZBlOzEABDVBwALICwgI2siBUEAIAUgLE0bIgUgEyAFIBNJGyEfIBcgIGsiBUEAIAUgF00bIgUgGSAFIBlJGyEUAkACQAJAAkACQAJAAkACQAJAIBJFBEAgH0UNCiAXQQJ0IRIgFEH+/wFxIRNBASEFIBRBAXEhCiAUQQJ0IQ8gFEEDbCEVIBlBA2whESAIICAgFyAjbGpBAnRqIRBBACEGIA0hCQwBCyAuRQRAIB9FDQogF0ECdCEJIBRBAnQhEyAZQQJ0IQcgDiAgIBcgI2xqQQJ0IgVrIQpBACEMIAshBgNAIAUgDksNBiAKIBNJDQUgCyAMSQ0EIAYgE0kNAyATBEAgBSAIaiAMIA1qIBP8CgAACyAGIAdrIQYgByAMaiEMIAogCWshCiAFIAlqIQUgH0EBayIfDQALDAoLIB9FIBRFcg0JIA5BA2oiIiAgIBcgI2xqQQJ0IhBrISwgFEEBaiEkIBRBAWshJSALQQFqISYgDkEBaiEoQQAhHUEAIBlBAnQiL2shFEEAIBdBAnQiMGshHCAIIBBqIRJBAyAQayEtIA0hEyAOIBBrIiEhKSALIhVBA2oiDyErQQMhHiAQIRFBACEJQQEhLgNAQQEhDEEAIQcgCSAcbCIWIBBrIBAgCSAwbGoiBSAoIAUgKEsbakEDakECdiIGIAkgFGwiCiAJIC9sIgUgJiAFICZLG2pBA2pBAnYiBSAFIAZLGyIGIAogD2pBAyAKIAtqIgUgBUEDTxtrQQJ2IgUgBSAGSxsiBiAWICJqIBBBAyAWICFqIgUgBUEDTxtya0ECdiIFIAUgBksbIgUgJSAFICVJGyIFQQRPBEAgBUEBaiIKQQNxIgVBBCAFGyIHIBEgKCARIChLGyAtakECdiIGIB0gJiAdICZLGyAeakECdiIFIAUgBksbIgYgK0EDIBUgFUEDTxtrQQJ2IgUgBSAGSxsiBiAsQQMgKSApQQNPG2tBAnYiBSAFIAZLGyIFICUgBSAlSRtBf3NqIQYgCiAHayIHQQFqIQwgEiEFIBMhCgNAIAX9AAAAIjxBGP2tASAK/QAAACI9QRj9rQEiPv0M/wAAAP8AAAD/AAAA/wAAAP1R/bUB/QyAAAAAgAAAAIAAAACAAAAA/a4BIjhBCP2tASA4/a4BQQj9rQEiOSA+/a4BITsgPf0M////AP///wD///8A////AP08Ijr9GwBBAXEEQEGAgIAIIDv9GwBu/REhOAsgOv0bAUEBcQRAIDhBgICACCA7/RsBbv0cASE4CyA6/RsCQQFxBEAgOEGAgIAIIDv9GwJu/RwCITgLIDr9GwNBAXEEQCA4QYCAgAggO/0bA279HAMhOAsgBSA4IDkgPP0M/wAAAP8AAAD/AAAA/wAAAP1O/bUBID39DP8AAAD/AAAA/wAAAP8AAAD9TiA+/bUB/a4B/bUBQRj9rQEgO0EY/asB/VAgOCA5IDxBCP2tAf0M/wAAAP8AAAD/AAAA/wAAAP1O/bUBID1BCP2tAf0M/wAAAP8AAAD/AAAA/wAAAP1OID79tQH9rgH9tQFBEP2tAf0MAP8AAAD/AAAA/wAAAP8AAP1O/VAgOCA5IDxBEP2tAf0M/wAAAP8AAAD/AAAA/wAAAP1O/bUBID1BEP2tAf0M/wAAAP8AAAD/AAAA/wAAAP1OID79tQH9rgH9tQFBCP2tAf0MAAD/AAAA/wAAAP8AAAD/AP1O/VAgPCA6/VL9CwAAIAVBEGohBSAKQRBqIQogBkEEaiIGDQALCyAJIBlsIQogCSAjaiAXbCAgaiEGA0AgCyAHIApqQQJ0IhZJDQogCyAWayIFQQRJDQkgDiAGIAdqQQJ0IgdJDQggDiAHayIFQQRJDQcgByAIaiIFKAAAIRogBSANIBZqKAAAIipBgICACE8Ef0GAgIAIICpBGHYiGEH/AXMgGkEYdmxBgAFqIgVBCHYgBWpBCHYiFiAYaiIFbiIHIBYgGkH/AXFsICpB/wFxIBhsamxBGHYgBUEYdHIgByAWIBpBCHZB/wFxbCAqQQh2Qf8BcSAYbGpsQRB2QYD+A3FyIAcgFiAaQRB2Qf8BcWwgKkEQdkH/AXEgGGxqbEEIdkGAgPwHcXIFIBoLNgAAICQgDCIHQQFqIgxHDQALIBIgMGohEiATIC9qIRMgKSAwayEpICwgMGshLCAVIC9rIRUgKyAvayErIB4gL2shHiAdIC9qIR0gLSAwayEtIBEgMGohESAJQQFqIQkgLiAfIC5LIgVqIS4gBQ0ACwwJCwNAIAYhByAFIQYCQAJAAkACQAJAAkAgByARbCIcIAtNBEAgFSALIBxrIgVLDQEgDiAHICNqIBdsICBqQQJ0IiFJDQIgDyAOICFrIgVLDQNBACEMAkAgFA4CBwYACyAQIQcgCSEFA0AgByAFLwAAOwAAIAdBA2pB/wE6AAAgB0EHakH/AToAACAHQQJqIAVBAmotAAA6AAAgB0EEaiAFQQNqLwAAOwAAIAdBBmogBUEFai0AADoAACAHQQhqIQcgBUEGaiEFIBMgDEECaiIMRw0ACwwECyAcIAsgC0Hk7MQAENUHAAtBACAVIAVB1OzEABDVBwALICEgDiAOQcTsxAAQ1QcAC0EAIA8gBUG07MQAENUHAAsgCkUNAQsgCCAhaiAMQQJ0aiIHQf8BOgADIAcgDSAcaiAMQQNsaiIFLwAAOwAAIAdBAmogBUECai0AADoAAAsgECASaiEQIAkgEWohCSAGIAYgH0kiB2ohBSAHDQALDAgLQQAgEyAGQfTsxAAQ1QcACyAMIAsgC0GE7cQAENUHAAtBACATIApBlO3EABDVBwALIAUgDiAOQaTtxAAQ1QcAC0EAQQQgBUHE7cQAENUHAAsgByAOIA5B1O3EABDVBwALQQBBBCAFQbTtxAAQ1QcACyAWIAsgC0Hk7cQAENUHAAsgBCAbQQFxOgA4IAQgIzYCNCAEICA2AjAgBCAnNgIsIAQgGTYCKCAEIAQoAiRBAWo2AiQgBCA3IAQpAxB8Qgh8NwMQIAQtAKMBRQRAIARBAzYCuAIgBCADQQNwIgU2AqwCIAQgAyAFayIDNgK0AiAEIAI2ArACIAQgAiADajYCqAICQAJAIAQoAhhBgICAgHhHBEAgBEEENgL4AiAEIAQoAhwiAzYC6AIgBCAEKAIgIgJBA3E2AvQCIAQgAkH8////B3EiAjYC7AIgBCACIANqNgLwAiAEQbADaiEGIARB6AJqIQMCQAJAIARBqAJqIggoAhAiBQRAIAMoAhAiAkUNASAGQQA2AiggBiAI/QACAP0LAgAgBiAD/QACAP0LAhQgBkEQaiAIQRBqKAIANgIAIAZBJGogA0EQaigCADYCACAGIAMoAgQgAm4iAyAIKAIMIAVuIgIgAiADSxs2AiwMAgtB/I3GABDUCQALQdytxwAQ1AkACyAEKALcAyIHIAQoAtgDIgNNDQYgBCgCuAMiCUUNBiAEKALUAyIKQQNJDQIgBCgCwAMiAkEDRw0BIAQoAsQDIQggA0EBaiECIAcgA2tBAXEEQCAJIANBA2xqIgUgCCADIApsaiIDLwAAOwAAIAVBAmogA0ECai0AADoAACACIQMLIAIgB0YNBiAKQQF0IQsgAyAKbCEGIAcgA2shByAKIANBAWpsIQUgCSADQQNsaiEDA0AgAyAGIAhqIgIvAAA7AAAgA0ECaiACQQJqLQAAOgAAIANBA2ogBSAIaiICLwAAOwAAIANBBWogAkECai0AADoAACADQQZqIQMgCCALaiEIIAdBAmsiBw0ACwwGC0Gg3cYAENAJAAsgAkEDQcDdxgAQ2wkAC0EAQQMgCkGw3cYAENUHAAsgBCgCGEGAgICAeEcEQCADIAQoAiAiBUcNAiADRQ0DIAIgBCgCHCAD/AoAAAwDC0HQ3cYAENAJAAtBkN3GABDQCQALIAMgBUHg3cYAENsJAAsgBEEdOgDgASAEIDI2AuQBIDFFDQEgDSAxQQEQiAcMAQsgBCAE/QADkAL9CwTgAQsCQCAEKAIYIghBgICAgHhyQYCAgIB4RwRAIAQoAhwiBUEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgCGpJDRAgAkEAIAMgCEEnaksbDQEgBRCfAgsgBEEwaiAEQdABav0AAwD9CwMAIARBIGogBEHAAWr9AAMA/QsDACAEIAT9AAOwAf0LAxAgBC0A4AEiCEEdRg0GIAQvAOEBIAQtAOMBQRB0ciEGIAQpA+gBITMgBCgC5AEhBQwKCwwPC0EAIQUMAQsgBEGoAmoQ9QQMAwsgCgRAIAggCkEBEIgHCyAzpyICBEAgM0IgiKcgAkEBEIgHCyAEKALAAiICBEAgBCgCxAIgAkEBEIgHCyANIQggNCEzC0EGIQMgCEH/AXFBHUcNBQwGCyAEQbADahDyAyAEKAKYBCIIRQ0AIAQoApwEIgVBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAhqSQ0JIAJBACADIAhBJ2pLGw0KIAUQnwJBBiEDDAULQQYhAwwECyAELwDpAiAELQDrAkEQdHILIQYgBCkC8AIhMyAEKALsAiEFCyAEQbADahDyAyAEKAKYBCILRQ0AAkAgBCgCnAQiDUEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgC2pPBEAgAkEAIAMgC0EnaksbDQEgDRCfAgwCCwwGCwwGCyAEIDM3ArQDIAQgBTYCsAMgCEH/AXFFBEAgACAEKQOwAzcCBEEFIQMMAQtBEBBxIgJFDQEgAiAEKQOwAzcCBCAAQcy/xAA2AhggACACNgIUIABBgAY7AQQgAiAIQf8BcSAGQQh0cjYCACACQQxqIARBuANqKAIANgIAQQAhAwsgACADNgIAIAQoAhgiBUGAgICAeHJBgICAgHhHBEAgBCgCHCIDQQRrKAIAIgBBeHEiAkEEQQggAEEDcSIAGyAFakkNBCAAQQAgAiAFQSdqSxsNBSADEJ8CCwJAIAQoAmwiAEUNACAAIABBGGwiAGpBIWoiBUUNACAEKAJoIABrIgNBHGsoAgAiAEF4cSICQQRBCCAAQQNxIgAbIAVqSQ0EIABBACACIAVBJ2pLGw0FIANBGGsQnwILIAFBBGsoAgAiAkF4cUGkAUGoASACQQNxIgAbSQ0DIABBACACQcgBTxsNASABEJ8CIARB8AhqJAAPC0EQEOgJAAsMAgsgBEHoAmogBEGwA2pBjI7GABDmBwALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC9YsBBp/BX0CfgF7IwBB0AJrIhckAEKAgICAgICAgMAAIAGtIiWAIiYgJX5CgICAgICAgIDAAFKtAn8gAUGBIE8EQEEBIAFBAXJnQR9zIgZBAXYgBkEBcWoiBnQgASAGdmpBAXYMAQtBwAAgASABQQF2ayIGIAZBwABPGwshGSAmfCElIABBBGshHCAAQRBrIR0gAEEIaiEbQQEhCQJAA0BBACESQQEhDiABIBNLIh4EQCAAIBNBAnQiFGohCiATrSImAn8CQCABIBNrIgwgGUkNAAJAIAxBAkkEQCAMIQcMAQtDAACAPyEgAn8CQCAKKAIEIgYgBSgCAEEEaigCACIHQQhqKAIAIgtJBEAgCigCACEPIAdBBGooAgAiFSAGQSRsaiIHEIMEISIgBy8BFCIOQf//AXFFDQEgDkH/B3EhByAOQYCAAnEhCCAOQYD4AXEiDkGA+AFHBEAgCEEQdCIIIA5BDXRBgICA/ABxIAdBDXRyQYCAgMADanIgDg0DGiAIQYCAgNgDciAHZ0EQayIOQRd0ayAHIA5B//8DcUEIanRB////A3FyDAMLIAhBEHQiDiAHQQ10ckGAgID+B3IgBw0CGiAOQYCAgPwHcgwCCwwHCyAOQRB0C74iIUMAAIA/XgRAICEQugVDVPgtQJRDAACAP5KRISALQwAAgD8hIQJ/AkAgCyAPSwRAIBUgD0EkbGoiBxCDBCEjIAcvARQiDkH//wFxRQ0BIA5B/wdxIQcgDkGAgAJxIQ8gDkGA+AFxIg5BgPgBRwRAIA9BEHQiDyAOQQ10QYCAgPwAcSAHQQ10ckGAgIDAA2pyIA4NAxogD0GAgIDYA3IgB2dBEGsiDkEXdGsgByAOQf//A3FBCGp0Qf///wNxcgwDCyAPQRB0Ig4gB0ENdHJBgICA/gdyIAcNAhogDkGAgID8B3IMAgsgDyALQcSixwAQrgcACyAOQRB0C74iJEMAAIA/XgRAICQQugVDVPgtQJRDAACAP5KRISELAkACQAJAAkAgIiAikiAglCIgICBbICAgIyAjkiAhlGBFcSIYRQRAQQIhByAMQQJGDQUgGyATQQJ0aiEPA0BDAACAPyEgAn8CQCALIA8oAgAiDksEQCAVIA5BJGxqIggQgwQhIiAILwEUIg1B//8BcUUNASANQf8HcSEIIA1BgIACcSESIA1BgPgBcSINQYD4AUcEQCASQRB0IhIgDUENdEGAgID8AHEgCEENdHJBgICAwANqciANDQMaIBJBgICA2ANyIAhnQRBrIg1BF3RrIAggDUH//wNxQQhqdEH///8DcXIMAwsgEkEQdCINIAhBDXRyQYCAgP4HciAIDQIaIA1BgICA/AdyDAILIA4gC0HEoscAEK4HAAsgDUEQdAu+IiFDAACAP14EQCAhELoFQ1T4LUCUQwAAgD+SkSEgC0MAAIA/ISECfwJAIAYgC0kEQCAVIAZBJGxqIgYQgwQhIyAGLwEUIghB//8BcUUNASAIQf8HcSEGIAhBgIACcSENIAhBgPgBcSIIQYD4AUcEQCANQRB0Ig0gCEENdEGAgID8AHEgBkENdHJBgICAwANqciAIDQMaIA1BgICA2ANyIAZnQRBrIghBF3RrIAYgCEH//wNxQQhqdEH///8DcXIMAwsgDUEQdCIIIAZBDXRyQYCAgP4HciAGDQIaIAhBgICA/AdyDAILDA0LIAhBEHQLviIkQwAAgD9eBEAgJBC6BUNU+C1AlEMAAIA/kpEhIQsgIiAikiAglCIgICBbICAgIyAjkiAhlGBFcQ0DIA9BBGohDyAOIQYgDCAHQQFqIgdHDQALDAELIAxBAkYNAkECIQcgGyATQQJ0aiEPA0BDAACAPyEgAn8CQCALIA8oAgAiDksEQCAVIA5BJGxqIggQgwQhIiAILwEUIg1B//8BcUUNASANQf8HcSEIIA1BgIACcSESIA1BgPgBcSINQYD4AUcEQCASQRB0IhIgDUENdEGAgID8AHEgCEENdHJBgICAwANqciANDQMaIBJBgICA2ANyIAhnQRBrIg1BF3RrIAggDUH//wNxQQhqdEH///8DcXIMAwsgEkEQdCINIAhBDXRyQYCAgP4HciAIDQIaIA1BgICA/AdyDAILIA4gC0HEoscAEK4HAAsgDUEQdAu+IiFDAACAP14EQCAhELoFQ1T4LUCUQwAAgD+SkSEgC0MAAIA/ISECfwJAIAYgC0kEQCAVIAZBJGxqIgYQgwQhIyAGLwEUIghB//8BcUUNASAIQf8HcSEGIAhBgIACcSENIAhBgPgBcSIIQYD4AUcEQCANQRB0Ig0gCEENdEGAgID8AHEgBkENdHJBgICAwANqciAIDQMaIA1BgICA2ANyIAZnQRBrIghBF3RrIAYgCEH//wNxQQhqdEH///8DcXIMAwsgDUEQdCIIIAZBDXRyQYCAgP4HciAGDQIaIAhBgICA/AdyDAILDAwLIAhBEHQLviIkQwAAgD9eBEAgJBC6BUNU+C1AlEMAAIA/kpEhIQsgIiAikiAglCIgICBcICAgIyAjkiAhlGByDQIgD0EEaiEPIA4hBiAMIAdBAWoiB0cNAAsLIAwhBwsgByAZSQ0DIBhFDQIgB0ECSQRAQQEhBwwDCyAHQQF2IQsgCiAHQQJ0IgZqIQ9BACEOIAdBCEkNASAdIAYgFGpqIQYgC0H8////B3EiDiEMA0AgCiAG/QACACAK/QACACIn/Q0MDQ4PCAkKCwQFBgcAAQID/QsCACAGICcgJ/0NDA0ODwgJCgsEBQYHAAECA/0LAgAgBkEQayEGIApBEGohCiAMQQRrIgwNAAsgCyAORg0CDAELIApBCGohD0EAIQ5BASELQQIhBwsgACAOQQJ0IgwgFGpqIQYgCyAOayEOIA8gDGtBBGshDANAIAYoAgAhCyAGIAwoAgA2AgAgDCALNgIAIAxBBGshDCAGQQRqIQYgDkEBayIODQALCyAHQQF0QQFyDAELIAwgGSAMIBlJG0EBdCAERQ0AGiAKQSAgDCAMQSBPGyIGIAIgA0EAQQAgBRAvIAZBAXRBAXILIg5BAXYgE2qtfCAlfiATIAlBAXZrrSAmfCAlfoV5pyESCwJAAkAgEUECSQ0AIBwgE0ECdCIGaiEVIAAgBmohHwNAIBFBAWsiDyAXQY4CamotAAAgEkkNAQJ/AkACQCADIBdBBGogD0ECdGooAgAiDEEBdiIGIAlBAXYiB2oiGE8gCSAMckEBcUVxRQRAIAAgEyAYa0ECdGohESAMQQFxRQ0BDAILIBhBAXQMAgsgESAGIAIgAyAGQQFyZ0EBdEE+c0EAIAUQLwsgCUEBcUUEQCARIAZBAnRqIAcgAiADIAdBAXJnQQF0QT5zQQAgBRAvCwJAIAxBAkkgCUECSXINACADIAcgBiAGIAdLIgwbIgdJDQAgBSgCACARIAZBAnRqIQkgB0ECdCIGBEAgAiAJIBEgDBsgBvwKAAALIAIgBmohB0EEaiIaKAIAIRQCQCAMRQRAIAIhDANAAn8CQCAJKAIAIgYgFEEIaigCACILSQRAIBRBBGooAgAiGiAGQSRsaiINLwEcIQZBACEKQQAgDS8BHiIIQf//AXEiEEGA+AFLDQIaQQAgBkH//wFxIhZBgPgBSw0CGiAIwUEASA0BIAYgCEkgBsFBAE4NAhogCCAWckEARwwCCwwLCyAGwUEASCAGIAhLcQshFiAIIAYgFhsgBiAQQYH4AUkbIQYCQCANLwEgIghB//8BcSIWQYD4AUsNACAGQf//AXEiEEGA+AFLDQAgCMFBAE4EQCAGwUEATgRAIAggBkH//wNxSyEKDAILIAggEHJBAEchCgwBCyAGwUEASCAIIAZB//8DcUlxIQoLIAwoAgAhECANLwEUIQ0CfyAIIAYgChsgBiAWQYH4AUkbIgpB//8BcQRAIApB/wdxIQYgCkGAgAJxIQggCkGA+AFxIgpBgPgBRwRAIAhBEHQiCCAKQQ10QYCAgPwAcSAGQQ10ckGAgIDAA2pyIAoNAhogCEGAgIDYA3IgBmdBEGsiCkEXdGsgBiAKQf//A3FBCGp0Qf///wNxcgwCCyAIQRB0IgogBkENdHJBgICA/gdyIAYNARogCkGAgID8B3IMAQsgCkEQdAu+EO4DISJDAACAPyEgAn8gDUH//wFxBEAgDUH/B3EhBiANQYCAAnEhCiANQYD4AXEiCEGA+AFHBEAgCkEQdCIKIAhBDXRBgICA/ABxIAZBDXRyQYCAgMADanIgCA0CGiAKQYCAgNgDciAGZ0EQayIKQRd0ayAGIApB//8DcUEIanRB////A3FyDAILIApBEHQiCiAGQQ10ckGAgID+B3IgBg0BGiAKQYCAgPwHcgwBCyANQRB0C74iIUMAAIA/XgRAICEQugVDVPgtQJRDAACAP5KRISALAn8CQCALIBBLBEAgGiAQQSRsaiIILwEcIQZBACEKQQAgCC8BHiILQf//AXEiDUGA+AFLDQIaQQAgBkH//wFxIhBBgPgBSw0CGiALwUEASA0BIAYgC0kgBsFBAE4NAhogCyAQckEARwwCCyAQIAtBxKLHABCuBwALIAbBQQBIIAYgC0txCyEQIAsgBiAQGyAGIA1BgfgBSRshBgJAIAgvASAiC0H//wFxIg1BgPgBSw0AIAZB//8BcSIQQYD4AUsNACALwUEATgRAIAbBQQBOBEAgCyAGQf//A3FLIQoMAgsgCyAQckEARyEKDAELIAbBQQBIIAsgBkH//wNxSXEhCgsgCC8BFCEIQwAAgD8hISARIAkgDCAiICKSICCUIiAgIFsgIAJ/IAsgBiAKGyAGIA1BgfgBSRsiC0H//wFxBEAgC0H/B3EhBiALQYCAAnEhCiALQYD4AXEiC0GA+AFHBEAgCkEQdCIKIAtBDXRBgICA/ABxIAZBDXRyQYCAgMADanIgCw0CGiAKQYCAgNgDciAGZ0EQayILQRd0ayAGIAtB//8DcUEIanRB////A3FyDAILIApBEHQiCyAGQQ10ckGAgID+B3IgBg0BGiALQYCAgPwHcgwBCyALQRB0C74Q7gMiIyAjkgJ/IAhB//8BcQRAIAhB/wdxIQYgCEGAgAJxIQsgCEGA+AFxIgpBgPgBRwRAIAtBEHQiCyAKQQ10QYCAgPwAcSAGQQ10ckGAgIDAA2pyIAoNAhogC0GAgIDYA3IgBmdBEGsiC0EXdGsgBiALQf//A3FBCGp0Qf///wNxcgwCCyALQRB0IgsgBkENdHJBgICA/gdyIAYNARogC0GAgID8B3IMAQsgCEEQdAu+IiRDAACAP14EfSAkELoFQ1T4LUCUQwAAgD+SkQUgIQuUYEVxIgYbKAIANgIAIBFBBGohESAMIAZFQQJ0aiIMIAdGDQIgCSAGQQJ0aiIJIB9HDQALDAELIBUhCwNAAn8CQCAHQQRrIg0oAgAiBiAUQQhqKAIAIgdJBEAgFEEEaigCACAGQSRsaiIMLwEcIQZBACEKQQAgDC8BHiIHQf//AXEiCEGA+AFLDQIaQQAgBkH//wFxIhBBgPgBSw0CGiAHwUEASA0BIAYgB0kgBsFBAE4NAhogByAQckEARwwCCyAGIAdBxKLHABCuBwALIAbBQQBIIAYgB0txCyEQIAcgBiAQGyAGIAhBgfgBSRshBgJAIAwvASAiB0H//wFxIhZBgPgBSw0AIAZB//8BcSIIQYD4AUsNACAHwUEATgRAIAbBQQBOBEAgByAGQf//A3FLIQoMAgsgByAIckEARyEKDAELIAbBQQBIIAcgBkH//wNxSXEhCgsgCUEEayIQKAIAIQggDC8BFCEJAn8gByAGIAobIAYgFkGB+AFJGyIHQf//AXEEQCAHQf8HcSEGIAdBgIACcSEMIAdBgPgBcSIHQYD4AUcEQCAMQRB0IgwgB0ENdEGAgID8AHEgBkENdHJBgICAwANqciAHDQIaIAxBgICA2ANyIAZnQRBrIgdBF3RrIAYgB0H//wNxQQhqdEH///8DcXIMAgsgDEEQdCIHIAZBDXRyQYCAgP4HciAGDQEaIAdBgICA/AdyDAELIAdBEHQLvhDuAyEiQwAAgD8hIAJ/IAlB//8BcQRAIAlB/wdxIQYgCUGAgAJxIQcgCUGA+AFxIglBgPgBRwRAIAdBEHQiByAJQQ10QYCAgPwAcSAGQQ10ckGAgIDAA2pyIAkNAhogB0GAgIDYA3IgBmdBEGsiCUEXdGsgBiAJQf//A3FBCGp0Qf///wNxcgwCCyAHQRB0IgkgBkENdHJBgICA/gdyIAYNARogCUGAgID8B3IMAQsgCUEQdAu+IiFDAACAP14EQCAhELoFQ1T4LUCUQwAAgD+SkSEgCwJ/AkAgGigCACIGQQhqKAIAIgkgCEsEQCAGQQRqKAIAIAhBJGxqIgcvARwhBkEAIQpBACAHLwEeIglB//8BcSIMQYD4AUsNAhpBACAGQf//AXEiCEGA+AFLDQIaIAnBQQBIDQEgBiAJSSAGwUEATg0CGiAIIAlyQQBHDAILIAggCUHEoscAEK4HAAsgBsFBAEggBiAJS3ELIQggCSAGIAgbIAYgDEGB+AFJGyEGAkAgBy8BICIJQf//AXEiDEGA+AFLDQAgBkH//wFxIghBgPgBSw0AIAnBQQBOBEAgBsFBAE4EQCAJIAZB//8DcUshCgwCCyAIIAlyQQBHIQoMAQsgBsFBAEggCSAGQf//A3FJcSEKCyAHLwEUIQdDAACAPyEhIAsgECANICIgIpIgIJQiICAgWyAgAn8gCSAGIAobIAYgDEGB+AFJGyIJQf//AXEEQCAJQf8HcSEGIAlBgIACcSEMIAlBgPgBcSIJQYD4AUcEQCAMQRB0IgwgCUENdEGAgID8AHEgBkENdHJBgICAwANqciAJDQIaIAxBgICA2ANyIAZnQRBrIglBF3RrIAYgCUH//wNxQQhqdEH///8DcXIMAgsgDEEQdCIJIAZBDXRyQYCAgP4HciAGDQEaIAlBgICA/AdyDAELIAlBEHQLvhDuAyIjICOSAn8gB0H//wFxBEAgB0H/B3EhBiAHQYCAAnEhCSAHQYD4AXEiB0GA+AFHBEAgCUEQdCIJIAdBDXRBgICA/ABxIAZBDXRyQYCAgMADanIgBw0CGiAJQYCAgNgDciAGZ0EQayIJQRd0ayAGIAlB//8DcUEIanRB////A3FyDAILIAlBEHQiCSAGQQ10ckGAgID+B3IgBg0BGiAJQYCAgPwHcgwBCyAHQRB0C74iJEMAAIA/XgR9ICQQugVDVPgtQJRDAACAP5KRBSAhC5RgRXEiBhsoAgA2AgAgDSAGQQJ0aiEHIBEgECAGRUECdGoiCUcEQCALQQRrIQsgAiAHRw0BCwsgCSERIAIhDAsgByAMayIGRQ0AIBEgDCAG/AoAAAsgGEEBdEEBcgshCUEBIQYgDyIRQQFLDQALDAELIBEhBgsgF0GOAmogBmogEjoAACAXQQRqIAZBAnRqIAk2AgAgHgRAIAZBAWohESAOQQF2IBNqIRMgDiEJDAELCyAJQQFxRQRAIAAgASACIAMgAUEBcmdBAXRBPnNBACAFEC8LIBdB0AJqJAAPCyAGIAtBxKLHABCuBwAL1iwEGn8FfQJ+AXsjAEHQAmsiFyQAQoCAgICAgICAwAAgAa0iJYAiJiAlfkKAgICAgICAgMAAUq0CfyABQYEgTwRAQQEgAUEBcmdBH3MiBkEBdiAGQQFxaiIGdCABIAZ2akEBdgwBC0HAACABIAFBAXZrIgYgBkHAAE8bCyEZICZ8ISUgAEEEayEcIABBEGshHSAAQQhqIRtBASEJAkADQEEAIRJBASEOIAEgE0siHgRAIAAgE0ECdCIUaiEKIBOtIiYCfwJAIAEgE2siDCAZSQ0AAkAgDEECSQRAIAwhBwwBC0MAAIA/ISACfwJAIAooAgQiBiAFKAIAQQRqKAIAIgdBCGooAgAiC0kEQCAKKAIAIQ8gB0EEaigCACIVIAZBJGxqIgcQgwQhIiAHLwEUIg5B//8BcUUNASAOQf8HcSEHIA5BgIACcSEIIA5BgPgBcSIOQYD4AUcEQCAIQRB0IgggDkENdEGAgID8AHEgB0ENdHJBgICAwANqciAODQMaIAhBgICA2ANyIAdnQRBrIg5BF3RrIAcgDkH//wNxQQhqdEH///8DcXIMAwsgCEEQdCIOIAdBDXRyQYCAgP4HciAHDQIaIA5BgICA/AdyDAILDAcLIA5BEHQLviIhQwAAgD9eBEAgIRC6BUNU+C1AlEMAAIA/kpEhIAtDAACAPyEhAn8CQCALIA9LBEAgFSAPQSRsaiIHEIMEISMgBy8BFCIOQf//AXFFDQEgDkH/B3EhByAOQYCAAnEhDyAOQYD4AXEiDkGA+AFHBEAgD0EQdCIPIA5BDXRBgICA/ABxIAdBDXRyQYCAgMADanIgDg0DGiAPQYCAgNgDciAHZ0EQayIOQRd0ayAHIA5B//8DcUEIanRB////A3FyDAMLIA9BEHQiDiAHQQ10ckGAgID+B3IgBw0CGiAOQYCAgPwHcgwCCyAPIAtBxKLHABCuBwALIA5BEHQLviIkQwAAgD9eBEAgJBC6BUNU+C1AlEMAAIA/kpEhIQsCQAJAAkACQCAiICKSICCUIiAgIFsgICAjICOSICGUYEVxIhhFBEBBAiEHIAxBAkYNBSAbIBNBAnRqIQ8DQEMAAIA/ISACfwJAIAsgDygCACIOSwRAIBUgDkEkbGoiCBCDBCEiIAgvARQiDUH//wFxRQ0BIA1B/wdxIQggDUGAgAJxIRIgDUGA+AFxIg1BgPgBRwRAIBJBEHQiEiANQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIA0NAxogEkGAgIDYA3IgCGdBEGsiDUEXdGsgCCANQf//A3FBCGp0Qf///wNxcgwDCyASQRB0Ig0gCEENdHJBgICA/gdyIAgNAhogDUGAgID8B3IMAgsgDiALQcSixwAQrgcACyANQRB0C74iIUMAAIA/XgRAICEQugVDVPgtQJRDAACAP5KRISALQwAAgD8hIQJ/AkAgBiALSQRAIBUgBkEkbGoiBhCDBCEjIAYvARQiCEH//wFxRQ0BIAhB/wdxIQYgCEGAgAJxIQ0gCEGA+AFxIghBgPgBRwRAIA1BEHQiDSAIQQ10QYCAgPwAcSAGQQ10ckGAgIDAA2pyIAgNAxogDUGAgIDYA3IgBmdBEGsiCEEXdGsgBiAIQf//A3FBCGp0Qf///wNxcgwDCyANQRB0IgggBkENdHJBgICA/gdyIAYNAhogCEGAgID8B3IMAgsMDQsgCEEQdAu+IiRDAACAP14EQCAkELoFQ1T4LUCUQwAAgD+SkSEhCyAiICKSICCUIiAgIFsgICAjICOSICGUYEVxDQMgD0EEaiEPIA4hBiAMIAdBAWoiB0cNAAsMAQsgDEECRg0CQQIhByAbIBNBAnRqIQ8DQEMAAIA/ISACfwJAIAsgDygCACIOSwRAIBUgDkEkbGoiCBCDBCEiIAgvARQiDUH//wFxRQ0BIA1B/wdxIQggDUGAgAJxIRIgDUGA+AFxIg1BgPgBRwRAIBJBEHQiEiANQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIA0NAxogEkGAgIDYA3IgCGdBEGsiDUEXdGsgCCANQf//A3FBCGp0Qf///wNxcgwDCyASQRB0Ig0gCEENdHJBgICA/gdyIAgNAhogDUGAgID8B3IMAgsgDiALQcSixwAQrgcACyANQRB0C74iIUMAAIA/XgRAICEQugVDVPgtQJRDAACAP5KRISALQwAAgD8hIQJ/AkAgBiALSQRAIBUgBkEkbGoiBhCDBCEjIAYvARQiCEH//wFxRQ0BIAhB/wdxIQYgCEGAgAJxIQ0gCEGA+AFxIghBgPgBRwRAIA1BEHQiDSAIQQ10QYCAgPwAcSAGQQ10ckGAgIDAA2pyIAgNAxogDUGAgIDYA3IgBmdBEGsiCEEXdGsgBiAIQf//A3FBCGp0Qf///wNxcgwDCyANQRB0IgggBkENdHJBgICA/gdyIAYNAhogCEGAgID8B3IMAgsMDAsgCEEQdAu+IiRDAACAP14EQCAkELoFQ1T4LUCUQwAAgD+SkSEhCyAiICKSICCUIiAgIFwgICAjICOSICGUYHINAiAPQQRqIQ8gDiEGIAwgB0EBaiIHRw0ACwsgDCEHCyAHIBlJDQMgGEUNAiAHQQJJBEBBASEHDAMLIAdBAXYhCyAKIAdBAnQiBmohD0EAIQ4gB0EISQ0BIB0gBiAUamohBiALQfz///8HcSIOIQwDQCAKIAb9AAIAIAr9AAIAIif9DQwNDg8ICQoLBAUGBwABAgP9CwIAIAYgJyAn/Q0MDQ4PCAkKCwQFBgcAAQID/QsCACAGQRBrIQYgCkEQaiEKIAxBBGsiDA0ACyALIA5GDQIMAQsgCkEIaiEPQQAhDkEBIQtBAiEHCyAAIA5BAnQiDCAUamohBiALIA5rIQ4gDyAMa0EEayEMA0AgBigCACELIAYgDCgCADYCACAMIAs2AgAgDEEEayEMIAZBBGohBiAOQQFrIg4NAAsLIAdBAXRBAXIMAQsgDCAZIAwgGUkbQQF0IARFDQAaIApBICAMIAxBIE8bIgYgAiADQQBBACAFEC4gBkEBdEEBcgsiDkEBdiATaq18ICV+IBMgCUEBdmutICZ8ICV+hXmnIRILAkACQCARQQJJDQAgHCATQQJ0IgZqIRUgACAGaiEfA0AgEUEBayIPIBdBjgJqai0AACASSQ0BAn8CQAJAIAMgF0EEaiAPQQJ0aigCACIMQQF2IgYgCUEBdiIHaiIYTyAJIAxyQQFxRXFFBEAgACATIBhrQQJ0aiERIAxBAXFFDQEMAgsgGEEBdAwCCyARIAYgAiADIAZBAXJnQQF0QT5zQQAgBRAuCyAJQQFxRQRAIBEgBkECdGogByACIAMgB0EBcmdBAXRBPnNBACAFEC4LAkAgDEECSSAJQQJJcg0AIAMgByAGIAYgB0siDBsiB0kNACAFKAIAIBEgBkECdGohCSAHQQJ0IgYEQCACIAkgESAMGyAG/AoAAAsgAiAGaiEHQQRqIhooAgAhFAJAIAxFBEAgAiEMA0ACfwJAIAkoAgAiBiAUQQhqKAIAIgtJBEAgFEEEaigCACIaIAZBJGxqIg0vARwhBkEAIQpBACANLwEeIghB//8BcSIQQYD4AUsNAhpBACAGQf//AXEiFkGA+AFLDQIaIAjBQQBIDQEgBiAISSAGwUEATg0CGiAIIBZyQQBHDAILDAsLIAbBQQBIIAYgCEtxCyEWIAggBiAWGyAGIBBBgfgBSRshBgJAIA0vASAiCEH//wFxIhZBgPgBSw0AIAZB//8BcSIQQYD4AUsNACAIwUEATgRAIAbBQQBOBEAgCCAGQf//A3FLIQoMAgsgCCAQckEARyEKDAELIAbBQQBIIAggBkH//wNxSXEhCgsgDCgCACEQIA0vARQhDQJ/IAggBiAKGyAGIBZBgfgBSRsiCkH//wFxBEAgCkH/B3EhBiAKQYCAAnEhCCAKQYD4AXEiCkGA+AFHBEAgCEEQdCIIIApBDXRBgICA/ABxIAZBDXRyQYCAgMADanIgCg0CGiAIQYCAgNgDciAGZ0EQayIKQRd0ayAGIApB//8DcUEIanRB////A3FyDAILIAhBEHQiCiAGQQ10ckGAgID+B3IgBg0BGiAKQYCAgPwHcgwBCyAKQRB0C74Q7gMhIkMAAIA/ISACfyANQf//AXEEQCANQf8HcSEGIA1BgIACcSEKIA1BgPgBcSIIQYD4AUcEQCAKQRB0IgogCEENdEGAgID8AHEgBkENdHJBgICAwANqciAIDQIaIApBgICA2ANyIAZnQRBrIgpBF3RrIAYgCkH//wNxQQhqdEH///8DcXIMAgsgCkEQdCIKIAZBDXRyQYCAgP4HciAGDQEaIApBgICA/AdyDAELIA1BEHQLviIhQwAAgD9eBEAgIRC6BUNU+C1AlEMAAIA/kpEhIAsCfwJAIAsgEEsEQCAaIBBBJGxqIggvARwhBkEAIQpBACAILwEeIgtB//8BcSINQYD4AUsNAhpBACAGQf//AXEiEEGA+AFLDQIaIAvBQQBIDQEgBiALSSAGwUEATg0CGiALIBByQQBHDAILIBAgC0HEoscAEK4HAAsgBsFBAEggBiALS3ELIRAgCyAGIBAbIAYgDUGB+AFJGyEGAkAgCC8BICILQf//AXEiDUGA+AFLDQAgBkH//wFxIhBBgPgBSw0AIAvBQQBOBEAgBsFBAE4EQCALIAZB//8DcUshCgwCCyALIBByQQBHIQoMAQsgBsFBAEggCyAGQf//A3FJcSEKCyAILwEUIQhDAACAPyEhIBEgCSAMICIgIpIgIJQiICAgWyAgAn8gCyAGIAobIAYgDUGB+AFJGyILQf//AXEEQCALQf8HcSEGIAtBgIACcSEKIAtBgPgBcSILQYD4AUcEQCAKQRB0IgogC0ENdEGAgID8AHEgBkENdHJBgICAwANqciALDQIaIApBgICA2ANyIAZnQRBrIgtBF3RrIAYgC0H//wNxQQhqdEH///8DcXIMAgsgCkEQdCILIAZBDXRyQYCAgP4HciAGDQEaIAtBgICA/AdyDAELIAtBEHQLvhDuAyIjICOSAn8gCEH//wFxBEAgCEH/B3EhBiAIQYCAAnEhCyAIQYD4AXEiCkGA+AFHBEAgC0EQdCILIApBDXRBgICA/ABxIAZBDXRyQYCAgMADanIgCg0CGiALQYCAgNgDciAGZ0EQayILQRd0ayAGIAtB//8DcUEIanRB////A3FyDAILIAtBEHQiCyAGQQ10ckGAgID+B3IgBg0BGiALQYCAgPwHcgwBCyAIQRB0C74iJEMAAIA/XgR9ICQQugVDVPgtQJRDAACAP5KRBSAhC5RgRXEiBhsoAgA2AgAgEUEEaiERIAwgBkVBAnRqIgwgB0YNAiAJIAZBAnRqIgkgH0cNAAsMAQsgFSELA0ACfwJAIAdBBGsiDSgCACIGIBRBCGooAgAiB0kEQCAUQQRqKAIAIAZBJGxqIgwvARwhBkEAIQpBACAMLwEeIgdB//8BcSIIQYD4AUsNAhpBACAGQf//AXEiEEGA+AFLDQIaIAfBQQBIDQEgBiAHSSAGwUEATg0CGiAHIBByQQBHDAILIAYgB0HEoscAEK4HAAsgBsFBAEggBiAHS3ELIRAgByAGIBAbIAYgCEGB+AFJGyEGAkAgDC8BICIHQf//AXEiFkGA+AFLDQAgBkH//wFxIghBgPgBSw0AIAfBQQBOBEAgBsFBAE4EQCAHIAZB//8DcUshCgwCCyAHIAhyQQBHIQoMAQsgBsFBAEggByAGQf//A3FJcSEKCyAJQQRrIhAoAgAhCCAMLwEUIQkCfyAHIAYgChsgBiAWQYH4AUkbIgdB//8BcQRAIAdB/wdxIQYgB0GAgAJxIQwgB0GA+AFxIgdBgPgBRwRAIAxBEHQiDCAHQQ10QYCAgPwAcSAGQQ10ckGAgIDAA2pyIAcNAhogDEGAgIDYA3IgBmdBEGsiB0EXdGsgBiAHQf//A3FBCGp0Qf///wNxcgwCCyAMQRB0IgcgBkENdHJBgICA/gdyIAYNARogB0GAgID8B3IMAQsgB0EQdAu+EO4DISJDAACAPyEgAn8gCUH//wFxBEAgCUH/B3EhBiAJQYCAAnEhByAJQYD4AXEiCUGA+AFHBEAgB0EQdCIHIAlBDXRBgICA/ABxIAZBDXRyQYCAgMADanIgCQ0CGiAHQYCAgNgDciAGZ0EQayIJQRd0ayAGIAlB//8DcUEIanRB////A3FyDAILIAdBEHQiCSAGQQ10ckGAgID+B3IgBg0BGiAJQYCAgPwHcgwBCyAJQRB0C74iIUMAAIA/XgRAICEQugVDVPgtQJRDAACAP5KRISALAn8CQCAaKAIAIgZBCGooAgAiCSAISwRAIAZBBGooAgAgCEEkbGoiBy8BHCEGQQAhCkEAIAcvAR4iCUH//wFxIgxBgPgBSw0CGkEAIAZB//8BcSIIQYD4AUsNAhogCcFBAEgNASAGIAlJIAbBQQBODQIaIAggCXJBAEcMAgsgCCAJQcSixwAQrgcACyAGwUEASCAGIAlLcQshCCAJIAYgCBsgBiAMQYH4AUkbIQYCQCAHLwEgIglB//8BcSIMQYD4AUsNACAGQf//AXEiCEGA+AFLDQAgCcFBAE4EQCAGwUEATgRAIAkgBkH//wNxSyEKDAILIAggCXJBAEchCgwBCyAGwUEASCAJIAZB//8DcUlxIQoLIAcvARQhB0MAAIA/ISEgCyAQIA0gIiAikiAglCIgICBbICACfyAJIAYgChsgBiAMQYH4AUkbIglB//8BcQRAIAlB/wdxIQYgCUGAgAJxIQwgCUGA+AFxIglBgPgBRwRAIAxBEHQiDCAJQQ10QYCAgPwAcSAGQQ10ckGAgIDAA2pyIAkNAhogDEGAgIDYA3IgBmdBEGsiCUEXdGsgBiAJQf//A3FBCGp0Qf///wNxcgwCCyAMQRB0IgkgBkENdHJBgICA/gdyIAYNARogCUGAgID8B3IMAQsgCUEQdAu+EO4DIiMgI5ICfyAHQf//AXEEQCAHQf8HcSEGIAdBgIACcSEJIAdBgPgBcSIHQYD4AUcEQCAJQRB0IgkgB0ENdEGAgID8AHEgBkENdHJBgICAwANqciAHDQIaIAlBgICA2ANyIAZnQRBrIglBF3RrIAYgCUH//wNxQQhqdEH///8DcXIMAgsgCUEQdCIJIAZBDXRyQYCAgP4HciAGDQEaIAlBgICA/AdyDAELIAdBEHQLviIkQwAAgD9eBH0gJBC6BUNU+C1AlEMAAIA/kpEFICELlGBFcSIGGygCADYCACANIAZBAnRqIQcgESAQIAZFQQJ0aiIJRwRAIAtBBGshCyACIAdHDQELCyAJIREgAiEMCyAHIAxrIgZFDQAgESAMIAb8CgAACyAYQQF0QQFyCyEJQQEhBiAPIhFBAUsNAAsMAQsgESEGCyAXQY4CaiAGaiASOgAAIBdBBGogBkECdGogCTYCACAeBEAgBkEBaiERIA5BAXYgE2ohEyAOIQkMAQsLIAlBAXFFBEAgACABIAIgAyABQQFyZ0EBdEE+c0EAIAUQLgsgF0HQAmokAA8LIAYgC0HEoscAEK4HAAvSMgIDfgt/IwBBIGsiByQAQdCHyQAoAgAiA0UEQBCEBSEDCyADKAIAIAMoAgQoAgwRBAAhDEHQh8kAKAIAIgNFBEAQhAUhAwsgAygCACADKAIEKAIMEQQAIQ0gB0HY7McA/QADAP0LAhACQAJAAkACQAJAQciHyQAtAABBAWsOAgACAQtByIfJAEECOgAAAkBBtIbJACgCACIDRQ0AQbyGyQAoAgAiCwRAQbCGyQAoAgAiCEEIaiEDIAgpAwBCf4VCgIGChIiQoMCAf4MhAgNAIAJQBEADQCAIQYACayEIIAMpAwAgA0EIaiEDQoCBgoSIkKDAgH+DIgJCgIGChIiQoMCAf1ENAAsgAkKAgYKEiJCgwIB/hSECCyAIIAJ6p0ECdEHgA3FrIglBBGsiBSgCACIEIAQoAgBBAWsiBDYCACAERQRAIAUoAgAQxwULIAlBHGsoAgAiBQRAIAlBGGsoAgAiCkEEaygCACIEQXhxIgYgBUECdCIFQQRBCCAEQQNxIgQbakkNBiAEQQAgBiAFQSdqSxsNByAKEJ8CCyAJQRBrKAIAIgUEQCAJQQxrKAIAIgpBBGsoAgAiBEF4cSIGIAVBAnQiBUEEQQggBEEDcSIEG2pJDQYgBEEAIAYgBUEnaksbDQcgChCfAgsgAkIBfSACgyECIAtBAWsiCw0AC0G0hskAKAIAIQMLIAMgA0EFdCIDakEpaiIGRQ0AQbCGyQAoAgAgA2siBUEkaygCACIDQXhxIgRBBEEIIANBA3EiAxsgBmpJDQMgA0EAIAQgBkEnaksbDQQgBUEgaxCfAgtBlIfJACgCACIEBEBBmIfJACgCACIGQQRrKAIAIgNBeHEiBSAEQQxsIgRBBEEIIANBA3EiAxtqSQ0DIANBACAFIARBJ2pLGw0EIAYQnwILQaCHyQAoAgAiBARAQaSHyQAoAgAiBkEEaygCACIDQXhxIgUgBEEDdCIEQQRBCCADQQNxIgMbakkNAyADQQAgBSAEQSdqSxsNBCAGEJ8CC0Gsh8kAKAIAIgQEQEGwh8kAKAIAIgZBBGsoAgAiA0F4cSIFIARBA3QiBEEEQQggA0EDcSIDG2pJDQMgA0EAIAUgBEEnaksbDQQgBhCfAgsCQEHkhskAKAIAIgNFDQAgAyADQQN0IgNqQRFqIgZFDQBB4IbJACgCACADayIFQQxrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyAGakkNAyADQQAgBCAGQSdqSxsNBCAFQQhrEJ8CC0G4h8kAKAIAIgRFDQBBvIfJACgCACIGQQRrKAIAIgNBeHEiBSAEQQJ0IgRBBEEIIANBA3EiAxtqSQ0CIANBACAFIARBJ2pLGw0DIAYQnwILQayGyQAgB/0AAgz9CwIAQciHyQBBAToAAEG4h8kAQoCAgIDAADcDAEGwh8kAQgQ3AwBBqIfJAEIANwMAQaCHyQBCgICAgMAANwMAQZiHyQBCBDcDAEGQh8kAQugHNwMAQeCGyQBB2OzHAP0AAwD9CwMAQbyGyQAgB0EcaigCADYCAEHYhskAIAytQu/5yuP9jezj6gCFIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIRC6o7D/QaEQtKBqpur+oLXp39+IgBCgKgCg0IohiAAQoCA8ASDQhiGIABCgICAkAuDQgiGhIQgAEIIiEKAgID4D4MgAEIYiEKAgPwHg4QgAEIoiEKA/gODIABCOIiEhIRCgICAgICAgIB0hCACQtii0e/CqeW/LX6FIgJCuNGt9pOu2PN9hSIAQtii0e/CqeW/LX4gAEI4hiAAQoD+A4NCKIaEIABCgID8B4NCGIYgAEKAgID4D4NCCIaEhCAAQgiIQoCAgPgPgyAAQhiIQoCA/AeDhCAAQiiIQoD+A4MgAEI4iISEhELSgaqbq/qC16d/fiIAQjiGIABCgP4Dg0IohoQgAEKAgPwHg0IYhiAAQoCAgPgPg0IIhoSEIABCCIhCgICA+A+DIABCGIhCgID8B4OEIABCKIhCgP4DgyAAQjiIhISEhUK3xcr/pO749qZ/hSIBQjiGIAFCgP4Dg0IohoQgAUKAgPwHg0IYhiABQoCAgPgPg0IIhoSEIAFCCIhCgICA+A+DIAFCGIhCgID8B4OEIAFCKIhCgP4DgyABQjiIhISEQtKBqpur+oLXp39+IgBCOIYgAEKA/gODQiiGhCAAQoCA/AeDQhiGIABCgICA+A+DQgiGhIQgAEIIiEKAgID4D4MgAEIYiEKAgPwHg4QgAEIoiEKA/gODIABCOIiEhIQgAULYotHvwqnlvy1+hSIBQjiGIAFCgP4Dg0IohoQgAUKAgPwHg0IYhiABQoCAgPgPg0IIhoSEIAFCCIhCgICA+A+DIAFCGIhCgID8B4OEIAFCKIhCgP4DgyABQjiIhISEQtavw52d5cGmun9+IgBCOIYgAEKA/gODQiiGhCAAQoCA/AeDQhiGIABCgICA+A+DQgiGhIQgAEIIiEKAgID4D4MgAEIYiEKAgPwHg4QgAEIoiEKA/gODIABCOIiEhIQgAULF5OK3zeWTlCl+hSABiTcDAEHQhskAIAJC68nE9dyWjYoKhSIAQtii0e/CqeW/LX4gAEI4hiAAQoD+A4NCKIaEIABCgID8B4NCGIYgAEKAgID4D4NCCIaEhCAAQgiIQoCAgPgPgyAAQhiIQoCA/AeDhCAAQiiIQoD+A4MgAEI4iISEhELSgaqbq/qC16d/fiIAQjiGIABCgP4Dg0IohoQgAEKAgPwHg0IYhiAAQoCAgPgPg0IIhoSEIABCCIhCgICA+A+DIABCGIhCgID8B4OEIABCKIhCgP4DgyAAQjiIhISEhUKT2pzL7aue3VeFIgFCOIYgAUKA/gODQiiGhCABQoCA/AeDQhiGIAFCgICA+A+DQgiGhIQgAUIIiEKAgID4D4MgAUIYiEKAgPwHg4QgAUIoiEKA/gODIAFCOIiEhIRC0oGqm6v6gtenf34iAEI4hiAAQoD+A4NCKIaEIABCgID8B4NCGIYgAEKAgID4D4NCCIaEhCAAQgiIQoCAgPgPgyAAQhiIQoCA/AeDhCAAQiiIQoD+A4MgAEI4iISEhCABQtii0e/CqeW/LX6FIgFCOIYgAUKA/gODQiiGhCABQoCA/AeDQhiGIAFCgICA+A+DQgiGhIQgAUIIiEKAgID4D4MgAUIYiEKAgPwHg4QgAUIoiEKA/gODIAFCOIiEhIRC1q/DnZ3lwaa6f34iAEI4hiAAQoD+A4NCKIaEIABCgID8B4NCGIYgAEKAgID4D4NCCIaEhCAAQgiIQoCAgPgPgyAAQhiIQoCA/AeDhCAAQiiIQoD+A4MgAEI4iISEhCABQsXk4rfN5ZOUKX6FIAGJNwMAQciGyQAgAkKT2pzL7aue3VeFIgBC2KLR78Kp5b8tfiAAQjiGIABCgP4Dg0IohoQgAEKAgPwHg0IYhiAAQoCAgPgPg0IIhoSEIABCCIhCgICA+A+DIABCGIhCgID8B4OEIABCKIhCgP4DgyAAQjiIhISEQtKBqpur+oLXp39+IgBCOIYgAEKA/gODQiiGhCAAQoCA/AeDQhiGIABCgICA+A+DQgiGhIQgAEIIiEKAgID4D4MgAEIYiEKAgPwHg4QgAEIoiEKA/gODIABCOIiEhISFQrjRrfaTrtjzfYUiAUI4hiABQoD+A4NCKIaEIAFCgID8B4NCGIYgAUKAgID4D4NCCIaEhCABQgiIQoCAgPgPgyABQhiIQoCA/AeDhCABQiiIQoD+A4MgAUI4iISEhELSgaqbq/qC16d/fiIAQjiGIABCgP4Dg0IohoQgAEKAgPwHg0IYhiAAQoCAgPgPg0IIhoSEIABCCIhCgICA+A+DIABCGIhCgID8B4OEIABCKIhCgP4DgyAAQjiIhISEIAFC2KLR78Kp5b8tfoUiAUI4hiABQoD+A4NCKIaEIAFCgID8B4NCGIYgAUKAgID4D4NCCIaEhCABQgiIQoCAgPgPgyABQhiIQoCA/AeDhCABQiiIQoD+A4MgAUI4iISEhELWr8OdneXBprp/fiIAQjiGIABCgP4Dg0IohoQgAEKAgPwHg0IYhiAAQoCAgPgPg0IIhoSEIABCCIhCgICA+A+DIABCGIhCgID8B4OEIABCKIhCgP4DgyAAQjiIhISEIAFCxeTit83lk5QpfoUgAYk3AwBBwIbJACACQrfFyv+k7vj2pn+FIgJC2KLR78Kp5b8tfiACQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEQtKBqpur+oLXp39+IgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhISFQuvJxPXclo2KCoUiAEI4hiAAQoD+A4NCKIaEIABCgID8B4NCGIYgAEKAgID4D4NCCIaEhCAAQgiIQoCAgPgPgyAAQhiIQoCA/AeDhCAAQiiIQoD+A4MgAEI4iISEhELSgaqbq/qC16d/fiICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEIABC2KLR78Kp5b8tfoUiAEI4hiAAQoD+A4NCKIaEIABCgID8B4NCGIYgAEKAgID4D4NCCIaEhCAAQgiIQoCAgPgPgyAAQhiIQoCA/AeDhCAAQiiIQoD+A4MgAEI4iISEhELWr8OdneXBprp/fiICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEIABCxeTit83lk5QpfoUgAIk3AwBBiIfJACANrULv+crj/Y3s4+oAhSICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEQuqOw/0GhELSgaqbq/qC16d/fiIAQoCoAoNCKIYgAEKAgPAEg0IYhiAAQoCAgJALg0IIhoSEIABCCIhCgICA+A+DIABCGIhCgID8B4OEIABCKIhCgP4DgyAAQjiIhISEQoCAgICAgICAdIQgAkLYotHvwqnlvy1+hSICQrjRrfaTrtjzfYUiAELYotHvwqnlvy1+IABCOIYgAEKA/gODQiiGhCAAQoCA/AeDQhiGIABCgICA+A+DQgiGhIQgAEIIiEKAgID4D4MgAEIYiEKAgPwHg4QgAEIoiEKA/gODIABCOIiEhIRC0oGqm6v6gtenf34iAEI4hiAAQoD+A4NCKIaEIABCgID8B4NCGIYgAEKAgID4D4NCCIaEhCAAQgiIQoCAgPgPgyAAQhiIQoCA/AeDhCAAQiiIQoD+A4MgAEI4iISEhIVCt8XK/6Tu+Pamf4UiAUI4hiABQoD+A4NCKIaEIAFCgID8B4NCGIYgAUKAgID4D4NCCIaEhCABQgiIQoCAgPgPgyABQhiIQoCA/AeDhCABQiiIQoD+A4MgAUI4iISEhELSgaqbq/qC16d/fiIAQjiGIABCgP4Dg0IohoQgAEKAgPwHg0IYhiAAQoCAgPgPg0IIhoSEIABCCIhCgICA+A+DIABCGIhCgID8B4OEIABCKIhCgP4DgyAAQjiIhISEIAFC2KLR78Kp5b8tfoUiAUI4hiABQoD+A4NCKIaEIAFCgID8B4NCGIYgAUKAgID4D4NCCIaEhCABQgiIQoCAgPgPgyABQhiIQoCA/AeDhCABQiiIQoD+A4MgAUI4iISEhELWr8OdneXBprp/fiIAQjiGIABCgP4Dg0IohoQgAEKAgPwHg0IYhiAAQoCAgPgPg0IIhoSEIABCCIhCgICA+A+DIABCGIhCgID8B4OEIABCKIhCgP4DgyAAQjiIhISEIAFCxeTit83lk5QpfoUgAYk3AwBBgIfJACACQuvJxPXclo2KCoUiAELYotHvwqnlvy1+IABCOIYgAEKA/gODQiiGhCAAQoCA/AeDQhiGIABCgICA+A+DQgiGhIQgAEIIiEKAgID4D4MgAEIYiEKAgPwHg4QgAEIoiEKA/gODIABCOIiEhIRC0oGqm6v6gtenf34iAEI4hiAAQoD+A4NCKIaEIABCgID8B4NCGIYgAEKAgID4D4NCCIaEhCAAQgiIQoCAgPgPgyAAQhiIQoCA/AeDhCAAQiiIQoD+A4MgAEI4iISEhIVCk9qcy+2rnt1XhSIBQjiGIAFCgP4Dg0IohoQgAUKAgPwHg0IYhiABQoCAgPgPg0IIhoSEIAFCCIhCgICA+A+DIAFCGIhCgID8B4OEIAFCKIhCgP4DgyABQjiIhISEQtKBqpur+oLXp39+IgBCOIYgAEKA/gODQiiGhCAAQoCA/AeDQhiGIABCgICA+A+DQgiGhIQgAEIIiEKAgID4D4MgAEIYiEKAgPwHg4QgAEIoiEKA/gODIABCOIiEhIQgAULYotHvwqnlvy1+hSIBQjiGIAFCgP4Dg0IohoQgAUKAgPwHg0IYhiABQoCAgPgPg0IIhoSEIAFCCIhCgICA+A+DIAFCGIhCgID8B4OEIAFCKIhCgP4DgyABQjiIhISEQtavw52d5cGmun9+IgBCOIYgAEKA/gODQiiGhCAAQoCA/AeDQhiGIABCgICA+A+DQgiGhIQgAEIIiEKAgID4D4MgAEIYiEKAgPwHg4QgAEIoiEKA/gODIABCOIiEhIQgAULF5OK3zeWTlCl+hSABiTcDAEH4hskAIAJCk9qcy+2rnt1XhSIAQtii0e/CqeW/LX4gAEI4hiAAQoD+A4NCKIaEIABCgID8B4NCGIYgAEKAgID4D4NCCIaEhCAAQgiIQoCAgPgPgyAAQhiIQoCA/AeDhCAAQiiIQoD+A4MgAEI4iISEhELSgaqbq/qC16d/fiIAQjiGIABCgP4Dg0IohoQgAEKAgPwHg0IYhiAAQoCAgPgPg0IIhoSEIABCCIhCgICA+A+DIABCGIhCgID8B4OEIABCKIhCgP4DgyAAQjiIhISEhUK40a32k67Y832FIgFCOIYgAUKA/gODQiiGhCABQoCA/AeDQhiGIAFCgICA+A+DQgiGhIQgAUIIiEKAgID4D4MgAUIYiEKAgPwHg4QgAUIoiEKA/gODIAFCOIiEhIRC0oGqm6v6gtenf34iAEI4hiAAQoD+A4NCKIaEIABCgID8B4NCGIYgAEKAgID4D4NCCIaEhCAAQgiIQoCAgPgPgyAAQhiIQoCA/AeDhCAAQiiIQoD+A4MgAEI4iISEhCABQtii0e/CqeW/LX6FIgFCOIYgAUKA/gODQiiGhCABQoCA/AeDQhiGIAFCgICA+A+DQgiGhIQgAUIIiEKAgID4D4MgAUIYiEKAgPwHg4QgAUIoiEKA/gODIAFCOIiEhIRC1q/DnZ3lwaa6f34iAEI4hiAAQoD+A4NCKIaEIABCgID8B4NCGIYgAEKAgID4D4NCCIaEhCAAQgiIQoCAgPgPgyAAQhiIQoCA/AeDhCAAQiiIQoD+A4MgAEI4iISEhCABQsXk4rfN5ZOUKX6FIAGJNwMAQfCGyQAgAkK3xcr/pO749qZ/hSICQtii0e/CqeW/LX4gAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhELSgaqbq/qC16d/fiICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEhULrycT13JaNigqFIgBCOIYgAEKA/gODQiiGhCAAQoCA/AeDQhiGIABCgICA+A+DQgiGhIQgAEIIiEKAgID4D4MgAEIYiEKAgPwHg4QgAEIoiEKA/gODIABCOIiEhIRC0oGqm6v6gtenf34iAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhCAAQtii0e/CqeW/LX6FIgBCOIYgAEKA/gODQiiGhCAAQoCA/AeDQhiGIABCgICA+A+DQgiGhIQgAEIIiEKAgID4D4MgAEIYiEKAgPwHg4QgAEIoiEKA/gODIABCOIiEhIRC1q/DnZ3lwaa6f34iAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhCAAQsXk4rfN5ZOUKX6FIACJNwMAQaiGyQBBADYCAEHAh8kAQQA2AgAgB0EgaiQADwtBkOPHAEH9AEHQ48cAENsHAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALqisCGn8DfiMAQaAKayIDJAACQAJAAkACQAJAAkACQAJAIAEpAwAiHVBFBEAgASkDCCIfUEUEQCABKQMQIh5QRQRAIB1Cf4UgHloEQCAdIB9aBEAgASwAGiEUIAEuARghASADIB0+AgAgA0EBQQIgHUKAgICAEFQiBRs2AqABIANBACAdQiCIpyAFGzYCBEEAIgVFBEAgA0EIakEAQZgB/AsACyADIB8+AqQBIANBAUECIB9CgICAgBBUIgYbNgLEAiADQQAgH0IgiKcgBhs2AqgBIAVFBEAgA0GsAWpBAEGYAfwLAAsgAyAePgLIAiADQQFBAiAeQoCAgIAQVCIGGzYC6AMgA0EAIB5CIIinIAYbNgLMAiAFRQRAIANB0AJqQQBBmAH8CwALIANB8ANqQQBBnAH8CwAgA0EBNgLsAyADQQE2AowFIAGsIB0gHnxCAX15fULCmsHoBH5CgKHNoLQCfEIgiKciBcEhEQJAIAFBAE4EQCADIAEQtwMaIANBpAFqIAEQtwMaIANByAJqIAEQtwMaDAELIANB7ANqQQAgAWvBELcDGgsCQCARQQBIBEAgA0EAIBFrQf//A3EiARD1ASADQaQBaiABEPUBIANByAJqIAEQ9QEMAQsgA0HsA2ogBUH//wFxEPUBCyADQfwIaiADQaQB/AoAACADKALoAyIGIAMoApwKIgEgASAGSRsiBUEoTQRAAkAgBUUEQEEAIQUMAQsCQAJAIAVBAUcEQCAFQQFxIAVBPnEhCyADQfwIaiEBIANByAJqIQcDQCABIAcoAgAiCiABKAIAaiIMIARBAXFqIg42AgAgAUEEaiIEIAdBBGooAgAiEyAEKAIAaiIEIAogDEsgDCAOS3JqIgw2AgAgBCATSSAEIAxLciEEIAdBCGohByABQQhqIQEgCyAIQQJqIghHDQALRQ0BCyAIQQJ0IgEgA0H8CGpqIgwgBCADQcgCaiABaigCACIEIAwoAgBqIgFqIgw2AgAgASAESSABIAxLcg0BDAILIARFDQELIAVBKEYNDSADQfwIaiAFQQJ0akEBNgIAIAVBAWohBQsgAyAFNgKcCiAFIAMoAowFIg4gBSAOSxsiAUEpSQRAIAFBAnQhAQJAAkACfwJAA0AgAUUNASABQQRrIgEgA0HsA2pqKAIAIgUgASADQfwIamooAgAiBEYNAAsgBCAFSSAEIAVLawwBC0F/QQAgA0H8CGoiBSABIAVqRxsLIBROBEAgAygCoAEiBEEpTw0CAkAgBEUEQEEAIQQMAQsgBEECdCIMQQRrIgFBAnZBAWoiCUEDcSEFAkAgAUEMSQRAIAMhAUIAIR0MAQsgCUH8////B3EhByADIQFCACEdA0AgASABNQIAQgp+IB18Ih0+AgAgAUEEaiIJIAk1AgBCCn4gHUIgiHwiHT4CACABQQhqIgkgCTUCAEIKfiAdQiCIfCIdPgIAIAFBDGoiCSAJNQIAQgp+IB1CIIh8Ih4+AgAgHkIgiCEdIAFBEGohASAHQQRrIgcNAAsLIAUEQCAFQQJ0IQcDQCABIAE1AgBCCn4gHXwiHj4CACABQQRqIQEgHkIgiCEdIAdBBGsiBw0ACwsgHkKAgICAEFQNACAEQShGDREgAyAMaiAdPgIAIARBAWohBAsgAyAENgKgASADKALEAiIFQSlPDQ5BACEMIAMCf0EAIAVFDQAaIAVBAnQiCEEEayIBQQJ2QQFqIgtBA3EhCQJAIAFBDEkEQCADQaQBaiEBQgAhHgwBCyALQfz///8HcSEHIANBpAFqIQFCACEeA0AgASABNQIAQgp+IB58Ih0+AgAgAUEEaiILIAs1AgBCCn4gHUIgiHwiHT4CACABQQhqIgsgCzUCAEIKfiAdQiCIfCIdPgIAIAFBDGoiCyALNQIAQgp+IB1CIIh8Ih0+AgAgHUIgiCEeIAFBEGohASAHQQRrIgcNAAsLIAkEQCAJQQJ0IQcDQCABIAE1AgBCCn4gHnwiHT4CACABQQRqIQEgHUIgiCEeIAdBBGsiBw0ACwsgBSAdQoCAgIAQVA0AGiAFQShGDREgA0GkAWogCGogHj4CACAFQQFqCzYCxAIgBgRAIAZBAnQiDEEEayIBQQJ2QQFqIglBA3EhBQJAIAFBDEkEQCADQcgCaiEBQgAhHgwBCyAJQfz///8HcSEHIANByAJqIQFCACEeA0AgASABNQIAQgp+IB58Ih0+AgAgAUEEaiIJIAk1AgBCCn4gHUIgiHwiHT4CACABQQhqIgkgCTUCAEIKfiAdQiCIfCIdPgIAIAFBDGoiCSAJNQIAQgp+IB1CIIh8Ih0+AgAgHUIgiCEeIAFBEGohASAHQQRrIgcNAAsLIAUEQCAFQQJ0IQcDQCABIAE1AgBCCn4gHnwiHT4CACABQQRqIQEgHUIgiCEeIAdBBGsiBw0ACwsgHUKAgICAEFQEQCADIAYiDDYC6AMMAwsgBkEoRg0RIANByAJqIAxqIB4+AgAgBkEBaiEMCyADIAw2AugDDAELIBFBAWohESADKAKgASEEIAYhDAtBACIBRQRAIANBkAVqIANB7ANqQaQB/AoAAAsgA0GQBWpBARC3AyETIAFFBEAgA0G0BmogA0HsA2pBpAH8CgAACyADQbQGakECELcDIRUgAUUEQCADQdgHaiADQewDakGkAfwKAAALAkACQAJAAkAgA0HYB2pBAxC3AyIXKAKgASIWIAQgBCAWSRsiBkEoTQRAIBMoAqABIRggFSgCoAEhGUEAIQkDQCAJIQsgBkECdCEBAn8CQAJAAkADQCABRQ0BIAFBBGsiASADaigCACIFIAEgA0HYB2pqKAIAIglGDQALIAUgCUkNAQwCCyAXIANB2AdqIAFqRg0BCyAEIQZBAAwBCwJAIAZFDQBBASEEQQAhCAJAIAZBAUcEQCAGQQFxIAZBPnEhCiADIgFB2AdqIQcDQCABIAEoAgAiDyAHKAIAQX9zaiIFIARBAXFqIg02AgAgAUEEaiIEIAQoAgAiECAHQQRqKAIAQX9zaiIEIAUgD0kgBSANS3JqIgU2AgAgBCAQSSAEIAVLciEEIAdBCGohByABQQhqIQEgCiAIQQJqIghHDQALRQ0BCyADIAhBAnQiAWoiBSAFKAIAIgUgASAXaigCAEF/c2oiASAEaiIENgIAIAEgBUkgASAES3INAQwYCyAERQ0XCyADIAY2AqABQQgLIQogGSAGIAYgGUkbIgVBKU8NEiAFQQJ0IQECQAJAAkADQCABRQ0BIAFBBGsiASADaigCACIEIAEgA0G0BmpqKAIAIglGDQALIAQgCU8NASAGIQUMAgsgFSADQbQGaiABakYNACAGIQUMAQsCQCAFRQ0AQQEhBEEAIQgCQCAFQQFHBEAgBUEBcSAFQT5xIQ8gAyIBQbQGaiEHA0AgASABKAIAIg0gBygCAEF/c2oiBiAEQQFxaiIQNgIAIAFBBGoiBCAEKAIAIhIgB0EEaigCAEF/c2oiBCAGIA1JIAYgEEtyaiIGNgIAIAQgEkkgBCAGS3IhBCAHQQhqIQcgAUEIaiEBIA8gCEECaiIIRw0AC0UNAQsgAyAIQQJ0IgFqIgYgBigCACIGIAEgFWooAgBBf3NqIgEgBGoiBDYCACABIAZJIAEgBEtyDQEMGAsgBEUNFwsgAyAFNgKgASAKQQRyIQoLIBggBSAFIBhJGyIGQSlPDREgBkECdCEBAkACQAJAA0AgAUUNASABQQRrIgEgA2ooAgAiBCABIANBkAVqaigCACIJRg0ACyAEIAlPDQEgBSEGDAILIBMgA0GQBWogAWpGDQAgBSEGDAELAkAgBkUNAEEBIQRBACEIAkAgBkEBRwRAIAZBAXEgBkE+cSEPIAMiAUGQBWohBwNAIAEgASgCACINIAcoAgBBf3NqIgUgBEEBcWoiEDYCACABQQRqIgQgBCgCACISIAdBBGooAgBBf3NqIgQgBSANSSAFIBBLcmoiBTYCACAEIBJJIAQgBUtyIQQgB0EIaiEHIAFBCGohASAPIAhBAmoiCEcNAAtFDQELIAMgCEECdCIBaiIFIAUoAgAiBSABIBNqKAIAQX9zaiIBIARqIgQ2AgAgASAFSSABIARLcg0BDBgLIARFDRcLIAMgBjYCoAEgCkECaiEKCyAOIAYgBiAOSRsiBUEpTw0SIAVBAnQhAQJAAkACQANAIAFFDQEgAUEEayIBIANqKAIAIgQgASADQewDamooAgAiCUYNAAsgBCAJTw0BIAYhBQwCCyADQewDaiIJIAEgCWpGDQAgBiEFDAELAkAgBUUNAEEBIQRBACEIAkAgBUEBRwRAIAVBAXEgBUE+cSEPIAMiAUHsA2ohBwNAIAEgASgCACINIAcoAgBBf3NqIgYgBEEBcWoiEDYCACABQQRqIgQgBCgCACISIAdBBGooAgBBf3NqIgQgBiANSSAGIBBLcmoiBjYCACAEIBJJIAQgBktyIQQgB0EIaiEHIAFBCGohASAPIAhBAmoiCEcNAAtFDQELIAMgCEECdCIBaiIGIAYoAgAiBiADQewDaiABaigCAEF/c2oiASAEaiIENgIAIAEgBkkgASAES3INAQwYCyAERQ0XCyADIAU2AqABIApBAWohCgsgC0ERRg0EIAIgC2ogCkEwajoAACADKALEAiIGIAUgBSAGSRsiAUEpTw0TIAtBAWohCSABQQJ0IQECfwJAA0AgAUUNASABQQRrIgEgA2ooAgAiBCABIANBpAFqaigCACIIRg0ACyAEIAhLIAQgCElrDAELQX9BACADQaQBaiIEIAEgBGpHGwsgA0H8CGogA0GkAfwKAAAgDCADKAKcCiIBIAEgDEkbIgpBKEsNAwJAIApFBEBBACEKDAELQQAhCEEAIQQCQAJAIApBAUcEQCAKQQFxIApBPnEhEiADQfwIaiEBIANByAJqIQcDQCABIAcoAgAiGiABKAIAaiINIARBAXFqIhs2AgAgAUEEaiIEIAdBBGooAgAiHCAEKAIAaiIEIA0gGkkgDSAbS3JqIg02AgAgBCAcSSAEIA1LciEEIAdBCGohByABQQhqIQEgEiAIQQJqIghHDQALRQ0BCyAIQQJ0IgEgA0H8CGpqIgggBCADQcgCaiABaigCACIEIAgoAgBqIgFqIgg2AgAgASAESSABIAhLcg0BDAILIARFDQELIApBKEYNFSADQfwIaiAKQQJ0akEBNgIAIApBAWohCgsgAyAKNgKcCiAKIA4gCiAOSxsiAUEpTw0TIAFBAnQhAQJ/AkADQCABRQ0BIAFBBGsiASADQewDamooAgAiBCABIANB/AhqaigCACIIRg0ACyAEIAhLIAQgCElrDAELQX9BACADQfwIaiIEIAEgBGpHGwshASAUSA0CIAEgFEgNDkEAIQggAwJ/QQAgBUUNABogBUECdCILQQRrIgFBAnZBAWoiB0EDcSEEAkAgAUEMSQRAIAMhAUIAIR0MAQsgB0H8////B3EhByADIQFCACEdA0AgASABNQIAQgp+IB18Ih0+AgAgAUEEaiIKIAo1AgBCCn4gHUIgiHwiHT4CACABQQhqIgogCjUCAEIKfiAdQiCIfCIdPgIAIAFBDGoiCiAKNQIAQgp+IB1CIIh8Ih4+AgAgHkIgiCEdIAFBEGohASAHQQRrIgcNAAsLIAQEQCAEQQJ0IQcDQCABIAE1AgBCCn4gHXwiHj4CACABQQRqIQEgHkIgiCEdIAdBBGsiBw0ACwsgBSAeQoCAgIAQVA0AGiAFQShGDRUgAyALaiAdPgIAIAVBAWoLIgQ2AqABAkAgBkUNACAGQQJ0IghBBGsiAUECdkEBaiILQQNxIQUCQCABQQxJBEAgA0GkAWohAUIAIR0MAQsgC0H8////B3EhByADQaQBaiEBQgAhHQNAIAEgATUCAEIKfiAdfCIdPgIAIAFBBGoiCyALNQIAQgp+IB1CIIh8Ih0+AgAgAUEIaiILIAs1AgBCCn4gHUIgiHwiHT4CACABQQxqIgsgCzUCAEIKfiAdQiCIfCIePgIAIB5CIIghHSABQRBqIQEgB0EEayIHDQALCyAFBEAgBUECdCEHA0AgASABNQIAQgp+IB18Ih4+AgAgAUEEaiEBIB5CIIghHSAHQQRrIgcNAAsLIB5CgICAgBBUBEAgBiEIDAELIAZBKEYNFSADQaQBaiAIaiAdPgIAIAZBAWohCAsgAyAINgLEAgJAIAxFBEBBACEMDAELIAxBAnQiBkEEayIBQQJ2QQFqIghBA3EhBQJAIAFBDEkEQCADQcgCaiEBQgAhHQwBCyAIQfz///8HcSEHIANByAJqIQFCACEdA0AgASABNQIAQgp+IB18Ih0+AgAgAUEEaiIIIAg1AgBCCn4gHUIgiHwiHT4CACABQQhqIgggCDUCAEIKfiAdQiCIfCIdPgIAIAFBDGoiCCAINQIAQgp+IB1CIIh8Ih4+AgAgHkIgiCEdIAFBEGohASAHQQRrIgcNAAsLIAUEQCAFQQJ0IQcDQCABIAE1AgBCCn4gHXwiHj4CACABQQRqIQEgHkIgiCEdIAdBBGsiBw0ACwsgHkKAgICAEFQNACAMQShGDRUgA0HIAmogBmogHT4CACAMQQFqIQwLIAMgDDYC6AMgFiAEIAQgFkkbIgZBKUkNAAsLDA8LIAEgFE4NDCADQQEQtwMaIA4gAygCoAEiASABIA5JGyIBQSlPDRAgAUECdCEBIANBBGshBQNAIAFFDQMgASAFaigCACIGIAFBBGsiASADQewDamooAgAiBEYNAAsgBCAGSw0MDAsLQQAgCkEoQfyMwgAQ1QcAC0ERQRFB2J7CABCuBwALIANB7ANqIgYgASAGakcNCQwIC0EAIARBKEH8jMIAENUHAAsMCwsMCQtBwJvCAEE3QciewgAQ5wgAC0H4msIAQTZBuJ7CABDnCAALQcyawgBBHEGonsIAEOcIAAtBnJrCAEEdQZiewgAQ5wgAC0HAmcIAQRxBiJ7CABDnCAALIAIgCWohBCAJIQECQANAIAEiBUUNASABQQFrIgEgAmoiBi0AAEE5Rg0ACyAGIAYtAABBAWo6AAAgCSAFayIBRQ0BIAIgBWpBMCAB/AsADAELIAJBMToAACALBEAgAkEBakEwIAv8CwALIAtBD00EQCAEQTA6AAAgEUEBaiERIAtBAmohCQwCCyAJQRFB6J7CABCuBwALIAtBEE0NAEEAIAlBEUH4nsIAENUHAAsgACAROwEIIAAgCTYCBCAAIAI2AgAgA0GgCmokAA8LQQAgBkEoQfyMwgAQ1QcAC0EAIAVBKEH8jMIAENUHAAtBACABQShB/IzCABDVBwALQShBKEH8jMIAEK4HAAtB34zCAEEaQfyMwgAQ5wgAC80uAh1/B34jAEGAAmsiHyQAAkACQAJAIAFBIU8EQANAIANFBEAgACEDIAFBAXYgAWohBgNAAkACfyABIAZBAWsiBk0EQCAGIAFrDAELIAMpAgAhISADIAMgBkEDdGoiACkCADcCACAAICE3AgBBAAsiAEEBdCIFQQFyIgIgASAGIAEgBkkbIgRPDQADQCAFQQJqIgUgBEkEQCACIAMgAkEDdGooAgAgAyAFQQN0aigCAElqIQILIAMgAEEDdGoiDSgCACIFIAMgAkEDdGoiCSgCACIATw0BIAkgBTYCACANIAA2AgAgDSgCBCEAIA0gCSgCBDYCBCAJIAA2AgQgAiEAIAJBAXQiBUEBciICIARJDQALCyAGDQALDAULIAAgAUEDdiIFQThsaiEGIAAgBUEFdGohBCADQQFrIQMCfyABQcAATwRAIAAgBCAGIAUQrQYMAQsgACAGIAQgACgCACINIAQoAgAiCUkiBCAJIAYoAgAiBUlzGyAEIAUgDUtzGwsgAGshBAJ/AkAgAkUNACACKAIAIAAgBGoiBSgCAEkNACAAKQIAISEgACAFKQIANwIAIAUgITcCACAAQQhqIQIgACgCACEHIAApAgghIUEAIQkgAEEQaiIEIAAgAUEDdGoiCEEIayIdTwR/IAIFA0AgBEEIayACIAlBA3RqIg0pAgA3AgAgBCgCACEFIA0gBCkCADcCACAEIAIgCSAFIAdNaiIGQQN0aiINKQIANwIAIARBCGoiCSgCACEFIA0gCSkCADcCACAGIAUgB01qIQkgBEEQaiIEIB1JDQALIARBCGsLIQUgBCAIRwR/A0AgBSACIAlBA3RqIg0pAgA3AgAgBCgCACEFIA0gBCkCADcCACAJIAUgB01qIQkgBCEFIARBCGoiBCAIRw0ACyAEQQhrBSAFCyACIAlBA3RqIgIpAgA3AgAgAiAhNwIAIAkgIacgB01qIgUgAU8NBCAAKQIAISEgACAAIAVBA3RqIgIpAgA3AgAgAiAhNwIAIAEgBUEBaiICayEBIAAgAkEDdGohAEEADAELIAApAgAhISAAIAAgBGoiBSkCADcCACAFICE3AgAgAEEIaiENIAAoAgAhCiAAKQIIISFBACEJIABBEGoiBCAAIAFBA3RqIgdBCGsiCE8EfyANBQNAIARBCGsgDSAJQQN0aiIGKQIANwIAIAQoAgAhBSAGIAQpAgA3AgAgBCANIAkgBSAKSWoiHUEDdGoiBikCADcCACAEQQhqIgkoAgAhBSAGIAkpAgA3AgAgHSAFIApJaiEJIARBEGoiBCAISQ0ACyAEQQhrCyEFIAQgB0cEfwNAIAUgDSAJQQN0aiIGKQIANwIAIAQoAgAhBSAGIAQpAgA3AgAgCSAFIApJaiEJIAQhBSAEQQhqIgQgB0cNAAsgBEEIawUgBQsgDSAJQQN0aiIFKQIANwIAIAUgITcCACAJICGnIApJaiIEIAFPDQMgACkCACEhIAAgACAEQQN0aiIFKQIANwIAIAUgITcCACAAIAQgAiADEFogASAEQX9zaiEBIAVBCGohACAFCyECIAFBIU8NAAsLIAFBAkkNAiABIAFBAXYiICABQRJJIh0bIQkgASAgayENIAAgIEEDdGohAyAAIQIDQCAJAn8gCUEMTQRAQQEgCUEITQ0BGiACQRhqIg8gAiACKAIYIgYgAigCACIESSIFGykCACEhIAIgAiAPIAUbKAIENgIcIAIgBiAEIAQgBkkbIhA2AhggAiAhNwIAIAJBCGoiGiACQThqIhQgAigCOCIIIAIoAggiBkkiBBsoAgQhBSACIAJBOEEIIAQbaikCACIiNwIIIAIgBTYCPCACIAggBiAGIAhJGyIHNgI4IAJBKEEQIAIoAigiBiACKAIQIgRJIgUbaikCACElIAIgAkEQaiISIAJBKGoiESAFGygCBDYCLCACIAYgBCAEIAZJGyILNgIoIAIgJTcCECACQcAAQSAgAigCQCIGIAIoAiAiBEkiBRtqKQIAISMgAiACQSBqIg4gAkFAayIVIAUbKAIENgJEIAIgBiAEIAQgBkkbIgg2AkAgAiAjNwIgIBQgAiAHICGnIgRJIgUbKQIAISQgAiACIBQgBRsoAgQ2AjwgAiAHIAQgBCAHSRsiDDYCOCACICQ3AgAgAiASIA4gI6ciBiAlpyIESSIFGygCBDYCJCACIAYgBCAEIAZJGyIKNgIgIAIgIyAlIAUbIiE3AhAgAkHAAEEYIAggEEkiBRtqKQIAISUgAiAPIBUgBRsoAgQ2AkQgAiAIIBAgCCAQSxsiBzYCQCACICU3AhggAkEwQSggAigCMCIEIAtJIgUbaikCACEjIAIgESACQTBqIhsgBRsoAgQ2AjQgAiAEIAsgBCALSxsiCzYCMCACICM3AiggAiACIBIgIaciBiAkpyIESSIFGygCBDYCFCACIAYgBCAEIAZJGyIWNgIQIAIgISAkIAUbIiQ3AgAgAiAaIA8gJaciBiAipyIESSIFGygCBDYCHCACIAYgBCAEIAZJGyIINgIYIAIgJSAiIAUbIiI3AgggAiAOIBEgCiAjpyIESyIFGygCBDYCLCACIAQgCiAEIApLGyIKNgIoIAIgIyACKQIgIAUbIiE3AiAgAkHAAEE4IAcgDEkiBRtqKQIAISUgAiAUIBUgBRsoAgQ2AkQgAiAHIAwgByAMSxsiEDYCQCACICU3AjggAiAaIA4gIaciBiAipyIESSIFGygCBDYCJCACIAYgBCAEIAZJGyIHNgIgIAIgISAiIAUbIiI3AgggAkEwQRggCCALSyIFG2opAgAhIyACIA8gGyAFGygCBDYCNCACIAsgCCAIIAtJGyIINgIwIAIgIzcCGCACIBEgFCAKICWnIgRLIgUbKAIENgI8IAIgBCAKIAQgCksbIgw2AjggAiAlIAIpAiggBRsiITcCKCACIAIgGiAipyIGICSnIgRJIgUbKAIENgIMIAIgBiAEIAQgBkkbIgs2AgggAiAiICQgBRs3AgAgDiASIAcgFkkiBRspAgAhIiACIBIgDiAFGygCBDYCJCACIAcgFiAHIBZLGyIKNgIgIAIgIjcCECACIA8gESAhpyIGICOnIgRJIgUbKAIENgIsIAIgBiAEIAQgBkkbIgc2AiggAiAhICMgBRsiITcCGCACQcAAQTAgCCAQSyIFG2opAgAhIyACIBsgFSAFGygCBDYCRCACIBAgCCAIIBBJGzYCQCACICM3AjAgAiASIA8gIaciBiAipyIESSIFGygCBDYCHCACIAYgBCAEIAZJGyIINgIYIAIgISAiIAUbIiI3AhAgESAOIAcgCkkiBRspAgAhJCACIA4gESAFGygCBDYCLCACIAcgCiAHIApLGyIGNgIoIAIgJDcCICACKQI4ISEgAiAbIBQgDCAjpyIESSIFGygCBDYCPCACIAwgBCAEIAxJGzYCOCACICEgIyAFGyIhNwIwIAIgGiASIAsgIqciBEsiBRsoAgQ2AhQgAiAEIAsgBCALSxs2AhAgAiAiIAIpAgggBRs3AgggAiAPIA4gCCAkpyIESyIFGygCBDYCJCACIAQgCCAEIAhLGzYCICACICQgAikCGCAFGzcCGCACIBEgGyAGICGnIgRLIgUbKAIENgI0IAIgBCAGIAQgBksbNgIwIAIgISACKQIoIAUbNwIoQQkMAQsgAkHgAGoiGiACIAIoAmAiBiACKAIAIgRJIgUbKQIAISEgAiACIBogBRsoAgQ2AmQgAiAGIAQgBCAGSRsiGzYCYCACICE3AgAgAkHQAEEIIAIoAlAiBiACKAIIIgRJIgUbaikCACEkIAIgAkEIaiIUIAJB0ABqIh4gBRsoAgQ2AlQgAiAGIAQgBCAGSRsiFTYCUCACICQ3AgggAkHIAEEQIAIoAkgiBiACKAIQIgRJIgUbaikCACEjIAIgAkEQaiIOIAJByABqIg8gBRsoAgQ2AkwgAiAGIAQgBCAGSRsiFjYCSCACICM3AhAgAkE4QRggAigCOCIGIAIoAhgiBEkiBRtqKQIAISIgAiACQRhqIhcgAkE4aiIRIAUbKAIENgI8IAIgBiAEIAQgBkkbIgw2AjggAiAiNwIYIAJB2ABBKCACKAJYIgYgAigCKCIESSIFG2opAgAhISACIAJBKGoiHCACQdgAaiISIAUbKAIENgJcIAIgBiAEIAQgBkkbIgs2AlggAiAhNwIoIAJBwABBMCACKAJAIgYgAigCMCIESSIFG2opAgAhISACIAJBMGoiEyACQUBrIhggBRsoAgQ2AkQgAiAGIAQgBCAGSRsiBzYCQCACICE3AjAgAiAUIBMgIaciBiAkpyIESSIFGygCBDYCNCACIAYgBCAEIAZJGyIKNgIwIAIgISAkIAUbIiQ3AgggAiAOIBcgIqciBiAjpyIESSIFGygCBDYCHCACIAYgBCAEIAZJGyIINgIYIAIgIiAjIAUbIiI3AhAgAkEgaiIZIBIgCyACKAIgIgZJIgQbKAIEIQUgAiACQdgAQSAgBBtqKQIAIiE3AiAgAiAFNgJcIAIgCyAGIAYgC0kbIhA2AlggAkHIAEE4IAwgFksiBRtqKQIAISYgAiARIA8gBRsoAgQ2AkwgAiAWIAwgDCAWSRsiDDYCSCACICY3AjggAkHQAEHAACAHIBVLIgUbaikCACElIAIgGCAeIAUbKAIENgJUIAIgFSAHIAcgFUkbIgc2AlAgAiAlNwJAIAIgAiAZIAIoAgAiBiAhpyIESyIFGygCBDYCJCACIAQgBiAEIAZLGyILNgIgIAIgISACKQIAIAUbNwIAIAIgFCAOICKnIgYgJKciBEkiBRsoAgQ2AhQgAiAGIAQgBCAGSRsiFTYCECACICIgJCAFGzcCCCATIBcgCCAKSyIFGykCACEjIAIgFyATIAUbKAIENgI0IAIgCiAIIAggCkkbIgo2AjAgAiAjNwIYIAIgESAYICWnIgYgJqciBEkiBRsoAgQ2AkQgAiAGIAQgBCAGSRsiCDYCQCACICUgJiAFGyIkNwI4IAJB0ABByAAgByAMSSIFG2opAgAhIiACIA8gHiAFGygCBDYCVCACIAcgDCAHIAxLGyIMNgJQIAIgIjcCSCACQeAAQdgAIBAgG0siBRtqKQIAISEgAiASIBogBRsoAgQ2AmQgAiAbIBAgECAbSRsiBzYCYCACICE3AlggEyAZIAogC0kiBRspAgAhJiACIBkgEyAFGygCBDYCNCACIAogCyAKIAtLGyILNgIwIAIgJjcCICACIBwgDyACKAIoIgYgIqciBEsiBRsoAgQ2AkwgAiAEIAYgBCAGSxsiCjYCSCACICIgAikCKCAFGyIiNwIoIAIgGCASIAggIaciBEsiBRsoAgQ2AlwgAiAEIAggBCAISxsiCDYCWCACICEgAikCQCAFGyIhNwJAIAJB4ABB0AAgByAMSSIFG2opAgAhJyACIB4gGiAFGygCBDYCZCACIAcgDCAHIAxLGzYCYCACICc3AlAgAiACIBwgAigCACIGICKnIgRLIgUbKAIENgIsIAIgBCAGIAQgBksbIgc2AiggAiAiIAIpAgAgBRsiJTcCACACIBcgGCAhpyIGICOnIgRJIgUbKAIENgJEIAIgBiAEIAQgBkkbIhY2AkAgAiAhICMgBRsiIzcCGCACIBkgESAkpyIGICanIgRJIgUbKAIENgI8IAIgBiAEIAQgBkkbIgw2AjggAiAkICYgBRsiJDcCICASIBMgCCALSSIFGykCACEmIAIgEyASIAUbKAIENgJcIAIgCCALIAggC0sbIhA2AlggAiAmNwIwIAIgDyAeIAogJ6ciBEsiBRsoAgQ2AlQgAiAEIAogBCAKSxsiCzYCUCACICcgAikCSCAFGyIiNwJIIAIpAgghISACIAIgFCACKAIIIgYgJaciBEkiBRsoAgQ2AgwgAiAGIAQgBCAGSRsiCDYCCCACICEgJSAFGzcCACAcIA4gByAVSSIFGykCACEnIAIgDiAcIAUbKAIENgIsIAIgByAVIAcgFUsbIgo2AiggAiAnNwIQIAIgEyAPICKnIgYgJqciBEkiBRsoAgQ2AkwgAiAGIAQgBCAGSRsiBzYCSCACICIgJiAFGyIhNwIwIBggESAMIBZLIgUbKQIAISYgAiARIBggBRsoAgQ2AkQgAiAWIAwgDCAWSRsiDDYCQCACICY3AjggEiAeIAsgEEsiBRspAgAhJSACIB4gEiAFGygCBDYCXCACIBAgCyALIBBJGzYCWCACICU3AlAgAiAUIBcgCCAjpyIESyIFGygCBDYCHCACIAQgCCAEIAhLGyILNgIYIAIgIyACKQIIIAUbIiM3AgggAiAOIBkgJKciBiAnpyIESSIFGygCBDYCJCACIAYgBCAEIAZJGyIINgIgIAIgJCAnIAUbIiI3AhAgAiAcIBMgCiAhpyIESyIFGygCBDYCNCACIAQgCiAEIApLGyIKNgIwIAIgISACKQIoIAUbIiE3AiggAiAPIB4gByAlpyIESyIFGygCBDYCVCACIAQgByAEIAdLGzYCUCACICUgAikCSCAFGyIkNwJIIAIgFCAOICKnIgYgI6ciBEkiBRsoAgQ2AhQgAiAGIAQgBCAGSRsiBzYCECACICIgIyAFGzcCCCAZIBcgCCALSSIFGykCACEiIAIgFyAZIAUbKAIENgIkIAIgCCALIAggC0sbIgg2AiAgAiAiNwIYIAIgHCARICanIgYgIaciBEkiBRsoAgQ2AjwgAiAGIAQgBCAGSRsiBjYCOCACICYgISAFGyIhNwIoIBggEyAKIAxLIgUbKQIAISMgAiATIBggBRsoAgQ2AkQgAiAMIAogCiAMSRsiCjYCQCACICM3AjAgAiAOIBcgByAipyIESyIFGygCBDYCHCACIAQgByAEIAdLGyIHNgIYIAIgIiACKQIQIAUbNwIQIAIgGSAcIAggIaciBEsiBRsoAgQ2AiwgAiAEIAggBCAISxsiCDYCKCACICEgAikCICAFGyIiNwIgIAIpAjghISACIBMgESAGICOnIgRJIgUbKAIENgI8IAIgBiAEIAQgBkkbNgI4IAIgISAjIAUbIiE3AjAgGCAPIAogJKciBksiBBsoAgQhBSACIAYgCiAGIApLGzYCSCACIAU2AkwgAiAkIAIpAkAgBBs3AkAgAiAXIBkgByAipyIESyIFGygCBDYCJCACIAQgByAEIAdLGzYCICACICIgAikCGCAFGzcCGCACIBwgEyAIICGnIgRLIgUbKAIENgI0IAIgBCAIIAQgCEsbNgIwIAIgISACKQIoIAUbNwIoQQ0LIgVJDQEgBSAJRwRAIAIgCUEDdGohBiACIAVBA3QiCWohBQNAIAUoAgAiByAFQQhrKAIASQRAIAU1AgQhISAJIQQCfwNAIAIgBGoiCCAIQQhrKQIANwIAIAIgBEEIRg0BGiAEQQhrIQQgByAIQRBrKAIASQ0ACyACIARqCyAHrSAhQiCGhDcCAAsgCUEIaiEJIAVBCGoiBSAGRw0ACwsgHQ0DIAAgAkYgDSEJIAMhAg0ACyACQQhrIQkgACABQQN0QQhrIgVqIQIgBSAfaiEFIB8hDSAAIQQDQCANIAMgBCADKAIAIgsgBCgCACIKSSIHGykCADcCACAFIAkgAiACKAIAIgggCSgCACIdSSIGGykCADcCACAFQQhrIQUgDUEIaiENIAlBeEEAIAYbaiEJIAJBeEEAIAggHU8baiECIAQgCiALTUEDdGohBCADIAdBA3RqIQMgIEEBayIgDQALIAlBCGohCSABQQFxBH8gDSAEIAMgBCAJSSIFGykCADcCACADIAQgCU9BA3RqIQMgBCAFQQN0agUgBAsgCUcgAyACQQhqR3INASABQQN0IgFFDQIgACAfIAH8CgAADAILAAsQ0wkACyAfQYACaiQAC6ctAgZ7CH8CQAJAAkACQAJAAkACQAJAAn8CQAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAMEQAJAIABB/wFxQQFrDgQCAwQAIgsCQAJAAkACQAJAAkAgAUH/AXFBAmsOBwECAygEKAUACyAFRQ0mIAMgBSADIAVJGyENQQAhA0EAIQADQCAEIAQtAAAgACACLQAAIgEgAyADQf8BcSAAQf8BcSIDayIAIABBH3UiBXMgBWsiBSABIANrIgMgA0EfdSIMcyAMayIMSSIOGyAAIANqIgAgAEEPdSIAcyAAa0H//wNxIAUgDCAOG0kbaiIDOgAAIARBAWohBCACQQFqIQIgASEAIA1BAWsiDQ0ACwwmCyADQQF2IgAgBUEBdiIBIAAgAUkbIgNFDSUDQCAEQQFqIAYgAi8AAP0QIgggByAHIAb9eSAHIAb9d/1x/YkBIgkgCCAG/XkgCCAG/Xf9cf2JASIK/TAgBv0NAAIAAAAAAAAAAAAAAAAAAP1SIAj9iQEgBv2JASIL/ZEBIAf9iQEgC/2RAf2OAf2AASAJIAr9lwH9MCAG/Q0AAgAAAAAAAAAAAAAAAAAA/VIgBC8AAP0Q/W4iB/1YAAABIAQgB/1YAAAAIARBAmohBCACQQJqIQIgCCEGIANBAWsiAw0ACwwlCyADIANBA3BrIgBBA0kNJCAFIAVBA3BrIgFBA0kNJCABQQNrIQwgAEEDayEFQQAhA0EAIQADQCAEQQFqIAYgAi8AAP0QIgggByAHIAb9eSAHIAb9d/1x/YkBIgkgCCAG/XkgCCAG/Xf9cf2JASIK/TAgBv0NAAIAAAAAAAAAAAAAAAAAAP1SIAj9iQEgBv2JASIL/ZEBIAf9iQEgC/2RAf2OAf2AASAJIAr9lwH9MCAG/Q0AAgAAAAAAAAAAAAAAAAAA/VIgBC8AAP0Q/W4iB/1YAAABIAQgB/1YAAAAIARBAmoiASABLQAAIAAgAkECai0AACIBIAMgA0H/AXEgAEH/AXEiA2siACAAQR91Ig1zIA1rIg0gASADayIDIANBH3UiDnMgDmsiDkkiDxsgACADaiIAIABBD3UiAHMgAGtB//8DcSANIA4gDxtJG2oiAzoAACAFQQNJDSUgAkEDaiECIARBA2ohBCAFQQNrIQUgDEECSyAMQQNrIQwgASEAIAghBg0ACwwkCyADQfz///8HcSIARQ0jIAVB/P///wdxIgFFDSNBBCABayEFQQQgAGshAwNAIARBA2ogByAC/VwAACIIIAYgBiAH/XkgBiAH/Xf9cf2JASIJIAggB/15IAggB/13/XH9iQEiCv0wIAb9DQACBAYAAAAAAAAAAAAAAAD9UiAI/YkBIAf9iQEiB/2RASAG/YkBIAf9kQH9jgH9gAEgCSAK/ZcB/TAgBv0NAAIEBgAAAAAAAAAAAAAAAP1SIAT9XAAA/W4iBv1YAAADIARBAmogBv1YAAACIARBAWogBv1YAAABIAQgBv1YAAAAIANFDSQgBEEEaiEEIAUiAEEEaiEFIANBBGohAyACQQRqIQIgCCEHIAANAAsMIwsgA0EGbiIAIAVBBm4iASAAIAFJGyIARQ0iIABBBmwhEkEAIQBBACEFQQAhAQNAIAAgBGoiDkEDaiAHIAAgAmoiD/1cAAAiCCAGIAYgB/15IAYgB/13/XH9iQEiCSAIIAf9eSAIIAf9d/1x/YkBIgr9MCAG/Q0AAgQGAAAAAAAAAAAAAAAA/VIgCP2JASAH/YkBIgf9kQEgBv2JASAH/ZEB/Y4B/YABIAkgCv2XAf0wIAb9DQACBAYAAAAAAAAAAAAAAAD9UiAO/VwAAP1uIgb9WAAAAyAOQQJqIAb9WAAAAiAOQQFqIAb9WAAAASAOIAb9WAAAACAOQQVqIgMgAy0AACAMIA9BBWotAAAiAyAFIAVB/wFxIAxB/wFxIgxrIgUgBUEfdSIQcyAQayIQIAMgDGsiDCAMQR91IhFzIBFrIhFJIhMbIAUgDGoiBSAFQQ91IgVzIAVrQf//A3EgECARIBMbSRtqIgU6AAAgDkEEaiIMIAwtAAAgDSAPQQRqLQAAIg4gASABQf8BcSANQf8BcSIMayIBIAFBH3UiDXMgDWsiDSAOIAxrIgwgDEEfdSIPcyAPayIPSSIQGyABIAxqIgEgAUEPdSIBcyABa0H//wNxIA0gDyAQG0kbaiIBOgAAIAMhDCAOIQ0gCCEHIBIgAEEGaiIARw0ACwwiCyADQQN2IgAgBUEDdiIBIAAgAUkbIgBFDSEgAEEDdCEDQQAhAANAIAAgBGoiAUEHaiAHIAAgAmr9XQAAIgggBiAGIAf9eSAGIAf9d/1x/YkBIgkgCCAH/XkgCCAH/Xf9cf2JASIK/TAgBv0NAAIEBggKDA4AAAAAAAAAAP1SIAj9iQEgB/2JASIH/ZEBIAb9iQEgB/2RAf2OAf2AASAJIAr9lwH9MCAG/Q0AAgQGCAoMDgAAAAAAAAAA/VIgAf1dAAD9biIG/VgAAAcgAUEGaiAG/VgAAAYgAUEFaiAG/VgAAAUgAUEEaiAG/VgAAAQgAUEDaiAG/VgAAAMgAUECaiAG/VgAAAIgAUEBaiAG/VgAAAEgASAG/VgAAAAgCCEHIAMgAEEIaiIARw0ACwwhC0EBIABBACAAQf8BcSIAQQJHGyAAQQRGG0H/AXFBAWsOAwABAyALIAFB/wFxQQJrDgcDBAUgBiAHCAsgAyAFIAMgBUkbIgFFDR4gAUEQTwRAIAQhAyACIQAgAUHw////B3EiDCEFA0AgAyAD/QAAACAA/QAAAP1u/QsAACADQRBqIQMgAEEQaiEAIAVBEGsiBQ0ACyABIAxGDR8LIAEgDGshAyAEIAxqIQQgAiAMaiECA0AgBCAELQAAIAItAABqOgAAIARBAWohBCACQQFqIQIgA0EBayIDDQALDB4LAkACQAJAAkACQAJAIAFB/wFxQQJrDgcBAgMkBCQFAAsgBUUNIkEAIQBBACEBIAMgBSADIAVJGyIDQQFGDRggA0EBcSEFIANB/v///wdxIQwDQCAAIARqIgMgAy0AACAAIAJqIg0tAAAgAUH/AXFqQQF2aiIBOgAAIANBAWoiAyADLQAAIA1BAWotAAAgAUH/AXFqQQF2aiIBOgAAIAwgAEECaiIARw0ACwwXCyADQQF2IgAgBUEBdiIBIAAgAUkbIgNFDSFBACEAQQAhBQNAIAQgBC0AACACLQAAIAVB/wFxakEBdmoiBToAACAEQQFqIgEgAS0AACACQQFqLQAAIABB/wFxakEBdmoiADoAACAEQQJqIQQgAkECaiECIANBAWsiAw0ACwwhCyADQQNuIgAgBUEDbiIBIAAgAUkbIgNFDSBBACEAQQAhBUEAIQEDQCAEIAQtAAAgAi0AACABQf8BcWpBAXZqIgE6AAAgBEECaiIMIAwtAAAgAkECai0AACAAQf8BcWpBAXZqIgA6AAAgBEEBaiIMIAwtAAAgAkEBai0AACAFQf8BcWpBAXZqIgU6AAAgBEEDaiEEIAJBA2ohAiADQQFrIgMNAAsMIAsgA0ECdiIAIAVBAnYiASAAIAFJGyIDRQ0fA0AgBEEDaiAE/VwAACAC/VwAACIHIAb9TiAHIAb9UUEB/W39bv1uIgb9WAAAAyAEQQJqIAb9WAAAAiAEQQFqIAb9WAAAASAEIAb9WAAAACAEQQRqIQQgAkEEaiECIANBAWsiAw0ACwwfCyADQQZuIgAgBUEGbiIBIAAgAUkbIgBFDR4gAEEGbCENQQAhAEEAIQEDQCAAIARqIgMgAy0AACAAIAJqIgUtAAAgAUH/AXFqQQF2aiIBOgAAIANBAWoiDiAOLQAAIAVBAWotAAAgDEH/AXFqQQF2aiIMOgAAIANBBWogA0ECaiIO/VwAACAFQQJq/VwAACIHIAb9TiAHIAb9UUEB/W39bv1uIgb9WAAAAyADQQRqIAb9WAAAAiADQQNqIAb9WAAAASAOIAb9WAAAACANIABBBmoiAEcNAAsMHgsgA0EDdiIAIAVBA3YiASAAIAFJGyIARQ0dIABBA3QhA0EAIQADQCAAIARqIgFBB2ogAf1dAAAgACACav1dAAAiByAG/U4gByAG/VFBAf1t/W79biIG/VgAAAcgAUEGaiAG/VgAAAYgAUEFaiAG/VgAAAUgAUEEaiAG/VgAAAQgAUEDaiAG/VgAAAMgAUECaiAG/VgAAAIgAUEBaiAG/VgAAAEgASAG/VgAAAAgAyAAQQhqIgBHDQALDB0LIAFB/wFxQQJrDgcJCgsdDB0NDgsgBUECSQ0bIAVBAmsiAUEBdkEBaiIDQQNxIQBBACECIAFBBk8NBUEAIQMMGQsgBSAFQQNwayIAQQNJDRogAEEDayIAQQNuIQFBACECIABBA08NBUEAIQNBACEADBcLIAVBBEkNGUEAIQIgBUEEayIAQQRPDQVBACEDQQAhBUEAIQEMFQsgBSAFQQZwayICQQZJDRhBACEDQQAhAANAIARBA2ogBP1cAAAgBv1uIgb9WAAAAyAEQQJqIAb9WAAAAiAEQQFqIAb9WAAAASAEIAb9WAAAACAEQQVqIgEgAS0AACADaiIDOgAAIARBBGoiASABLQAAIABqIgA6AAAgBEEGaiEEIAJBBmsiAkEGTw0ACwwYCyAFQfj///8HcUUNF0EAIAVBeHFrIQIDQCAEQQdqIAT9XQAAIAb9biIG/VgAAAcgBEEGaiAG/VgAAAYgBEEFaiAG/VgAAAUgBEEEaiAG/VgAAAQgBEEDaiAG/VgAAAMgBEECaiAG/VgAAAIgBEEBaiAG/VgAAAEgBCAG/VgAAAAgBEEIaiEEIAJBCGoiAg0ACwwXCyAFRSAFQQFGcg0WIAVBAWsiA0EDcSEBIAQtAAAhAkEAIQAgBUECa0EDSQ0VIANBfHEhBQNAIAAgBGoiA0EBaiIMIAwtAAAgAmoiAjoAACADQQJqIgwgDC0AACACaiICOgAAIANBA2oiDCAMLQAAIAJqIgI6AAAgA0EEaiIDIAMtAAAgAmoiAjoAACAFIABBBGoiAEcNAAsMFQsgA0F8cSEFQQAhAwNAIAQgBC0AACADaiIBOgAAIARBAWoiAyADLQAAIAJqIgI6AAAgBEECaiIDIAMtAAAgAWoiAToAACAEQQNqIgMgAy0AACACaiICOgAAIARBBGoiAyADLQAAIAFqIgE6AAAgBEEFaiIDIAMtAAAgAmoiAjoAACAEQQZqIgMgAy0AACABaiIDOgAAIARBB2oiASABLQAAIAJqIgI6AAAgBEEIaiEEIAVBBGsiBQ0ACwwTCyABQQFqQf7///8HcSEFQQAhA0EAIQADQCAEIAQtAAAgAGoiADoAACAEQQJqIgwgDC0AACACaiICOgAAIARBAWoiDCAMLQAAIANqIgM6AAAgBEEDaiIMIAwtAAAgAGoiADoAACAEQQRqIgwgDC0AACADaiIDOgAAIARBBWoiDCAMLQAAIAJqIgI6AAAgBEEGaiEEIAVBAmsiBQ0ACwwRCyAAQQJ2QQFqQf7///8HcSECA0AgBEEDaiAE/VwAACAG/W4iB/1YAAADIARBAmogB/1YAAACIARBAWogB/1YAAABIAQgB/1YAAAAIARBBGoiASAB/VwAACAH/W4iBv1YAAAAIARBBWogBv1YAAABIARBBmogBv1YAAACIARBB2ogBv1YAAADIARBCGohBCACQQJrIgINAAsgBv0WAyECIAb9FgIhAyAG/RYBIQUgBv0WACEBDA8LIAVBAkkNEkEAIQIgBUECayIBQQJPDQVBAAwMCyAFIAVBA3BrIgBBA0kNESAAQQNrIgBBA24hAUEAIQIgAEEDTw0FQQAhA0EADAkLIAVB/P///wdxRQ0QQQAgBUF8cWshAgNAIARBA2ogBP1cAAAgBkEB/W39biIG/VgAAAMgBEECaiAG/VgAAAIgBEEBaiAG/VgAAAEgBCAG/VgAAAAgBEEEaiEEIAJBBGoiAg0ACwwQCyAFIAVBBnBrIgJBBkkND0EAIQNBACEAA0AgBEEDaiAE/VwAACAGQQH9bf1uIgb9WAAAAyAEQQJqIAb9WAAAAiAEQQFqIAb9WAAAASAEIAb9WAAAACAEQQVqIgEgAS0AACADQf4BcUEBdmoiAzoAACAEQQRqIgEgAS0AACAAQf4BcUEBdmoiADoAACAEQQZqIQQgAkEGayICQQZPDQALDA8LIAVB+P///wdxRQ0OQQAgBUF4cWshAgNAIARBB2ogBP1dAAAgBkEB/W39biIG/VgAAAcgBEEGaiAG/VgAAAYgBEEFaiAG/VgAAAUgBEEEaiAG/VgAAAQgBEEDaiAG/VgAAAMgBEECaiAG/VgAAAIgBEEBaiAG/VgAAAEgBCAG/VgAAAAgBEEIaiEEIAJBCGoiAg0ACwwOCyAFRSAFQQFGcg0NIAVBAWsiA0EDcSEBIAQtAAAhAkEAIQAgBUECa0EDSQ0IIANBfHEhBQNAIAAgBGoiA0EBaiIMIAwtAAAgAkH+AXFBAXZqIgI6AAAgA0ECaiIMIAwtAAAgAkH+AXFBAXZqIgI6AAAgA0EDaiIMIAwtAAAgAkH+AXFBAXZqIgI6AAAgA0EEaiIDIAMtAAAgAkH+AXFBAXZqIgI6AAAgBSAAQQRqIgBHDQALDAgLIAFBAXZBAWpBfnEhAEEAIQMDQCAEQQFqIgUgBS0AACACQf4BcUEBdmoiAjoAACAEIAQtAAAgA0H+AXFBAXZqIgM6AAAgBEECaiIFIAUtAAAgA0H+AXFBAXZqIgM6AAAgBEEDaiIFIAUtAAAgAkH+AXFBAXZqIgI6AAAgBEEEaiEEIABBAmsiAA0ACwwFCyABQQFqQf7///8HcSEFQQAhA0EAIQADQCAEQQJqIgwgDC0AACACQf4BcUEBdmoiAjoAACAEQQFqIgwgDC0AACADQf4BcUEBdmoiAzoAACAEIAQtAAAgAEH+AXFBAXZqIgA6AAAgBEEDaiIMIAwtAAAgAEH+AXFBAXZqIgA6AAAgBEEEaiIMIAwtAAAgA0H+AXFBAXZqIgM6AAAgBEEFaiIMIAwtAAAgAkH+AXFBAXZqIgI6AAAgBEEGaiEEIAVBAmsiBQ0ACwwCCyAFRQ0KCyAAIARqIgMgAy0AACAAIAJqLQAAIAFB/wFxakEBdmo6AAAMCQsgAkH+AXFBAXYhAiADQf4BcUEBdiEDIABB/gFxQQF2CyEAIAFBAXENBwwJCyACQf4BcUEBdiECIANB/gFxQQF2CyEDIAFBAnENBSAEIAQtAAEgAmo6AAEgBCAELQAAIANqOgAADwsgAUUNBCAAIARqQQFqIQQDQCAEIAQtAAAgAkH+AXFBAXZqIgI6AAAgBEEBaiEEIAFBAWsiAQ0ACwwECyAAQQRxDQMgBCAELQADIAJqOgADIAQgBC0AAiADajoAAiAEIAQtAAEgBWo6AAEgBCAELQAAIAFqOgAADwsgAUEBcQ0CDAQLIABFDQEDQCAEIAQtAAAgA2oiAzoAACAEQQFqIgEgAS0AACACaiICOgAAIARBAmohBCAAQQFrIgANAAsMAQsgAUUNACAAIARqQQFqIQQDQCAEIAQtAAAgAmoiAjoAACAEQQFqIQQgAUEBayIBDQALCw8LAAsgBCAELQACIAJqOgACIAQgBC0AASADajoAASAEIAQtAAAgAGo6AAAL5i8DJ38EfQF+IwBBwAxrIgMkAAJAAkACQCAAKALcBCIBQYGAgIB4RgRAAkAgACgC8AQiAkEESQ0AAkAgACgC7AQiBC8AACAELQACQRB0ckHw2OUDRgRAIAJBC0kNAiACQQprIQZBACEBAkADQCABIARqQYDdwQBBCxC7B0UNASAGIAFBAWoiAUcNAAsgAkH//wNNDQNB7NzBAEEUEPkHIQIMBQsgASACSw0GIANB2AdqIAQgARD6AiADKQLcByEsIAMoAtgHQQFGBEAgLBCBCCECDAULIANB2AdqICynICxCIIinEFQgAygC2AchAiADKAKECSIEQYCAgIB4RgRAIAJFDQMMBQsgA0EIaiIGQQRyIANB2AdqIghBBHJBqAH8CgAAIANBwAFqIANBkAlqKQMAIiw3AwAgAyADKQOICTcDuAEgAyAENgK0ASADIAI2AggCQAJAICynIgtBAXFFBEAgAygCsAEhCSADKAKcASECIANBmAZqIgQgA0H4AGoQ1gMgCCAJIAIgBBCiASADKALYByECIAMoArQMIgpBgICAgHhHDQEgBhCgAyACDQcMBQsgA0GYBmoiAiADQQhqQcAB/AoAACADQdgHaiACEHMgAygC3AchCCADKALYByICQYCAgIB4Rw0BIAgiAkUNBAwGCyADKALcByEIIANBsANqIANB4AdqQeQC/AoAACADKALICiEGIAMoAsQKIQQgA0GgAmogA0HMCmpBkAH8CgAAIAMoAtwLIQUgA0HIAWogA0HgC2pB1AD8CgAAIAMpA7gMISwgA0EAOgDgByADIAU2AtwHIAMgCTYC2AcgAEH0BGogA0HYB2oQnQQMAgsgA0GwA2ogA0HgB2pB5AL8CgAAIAMoAsQKIQQgAygCyAohBiADQQA6AOAHIAMgBjYC3AcgAyAENgLYByAAQfQEaiADQdgHahCdBEGAgICAeCEKDAELQZzCwQBBEBD5ByECDAMLIAAoAvAEIgkgAUELaiIBTwRAIABBADYC8AQgASAJRwRAIAkgAWsiCQRAIAAoAuwEIgcgASAHaiAJ/AoAAAsgACAJNgLwBAsCQAJAAkAgACgC3ARBgICAgHhrDgIBAgALIAAQvQIMAQsgABC9AQsgACAINgIEIAAgAjYCACAAQQhqIANBsANqQeQC/AoAACAAIAY2AvACIAAgBDYC7AIgAEH0AmogA0GgAmpBkAH8CgAAIAAgBTYChAQgAEGIBGogA0HIAWpB1AD8CgAAIAAgLDcD4AQgACAKNgLcBCALQQFxDQEgA0EIahCgAwwBC0EAIAEgCUHAiMcAENUHAAtBACECIAAoAtwEIgFBgYCAgHhGDQELAkACQCABQYCAgIB4RgRAIAAoAugCIgIgACgCCE8EQCAAKALwBCEBQQAhAiAAQQA2AvAEIAENAwwECyAAQfQEaiELQQAhBAJAA0ACQCAAKAIEIAJBBnRqIgIoAiQiCARAIAggACgC8AQiBiAEayIFTQ0BDAULQZzfwQAQ1AkACyACLQA8IQpBgIAEIQEgBSAIbiIFIAIoAiAiByACKAI4IglrIgJBACACIAdNGyICIAIgBUsbIgJBgIAETQRAIAIiAUUNBAsCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAKQQFrDgMCAQwACyAAIAEgBCAIIAAoAuwEIAYQjwMMCwsgACgChAFBgICAgHhHDQEMCgsgACABIAkgBCAIIAAoAuwEIAYQ5gEiAg0PIAFBA2wiAiAAKAIgIgZLDQEgASAAKAIsIgZLDQIgAiAAKAI4IgZLDQMgAiAAKAJEIgZLDQQgAUECdCIGIAAoAlAiBUsNBSAAKAIcIQUgACgCKCEKIAAoAjQhByAAKAJAIQwgA0IENwKgCCADQgI3ApgIIANCBDcCkAggA0IENwKICCADQgQ3AoAIIAMgBjYC/AcgAyACNgL0ByADIAw2AvAHIAMgAjYC7AcgAyAHNgLoByADIAE2AuQHIAMgCjYC4AcgAyACNgLcByADIAU2AtgHIAMgACgCTDYC+AcgCyAJIAEgA0HYB2oQmQEMCQsgACABIAQgCCAAKALsBCAGEOUBIAFBCWwiAiAAKAJcIgZLDQUgACgCWCEGAkAgACgC8AIiBUECTwRAIAFBD2wiByAAKAJoIgpNBEAgACgCZCEMIAVBAkcNAkEAIQVBBCEKDAoLQQAgByAKQYzgwQAQ1QcACyALIAkgASAGIAIQzgMMCQsgAUEVbCIFIAAoAnQiCksNBiAAKAJwIQoMBwtBACACIAZB7N/BABDVBwALQQAgASAGQdzfwQAQ1QcAC0EAIAIgBkHM38EAENUHAAtBACACIAZBvN/BABDVBwALQQAgBiAFQazfwQAQ1QcAC0EAIAIgBkGc4MEAENUHAAtBACAFIApB/N/BABDVBwALIAsgCSABIAYgAhDOAyALIAkgASAMIAcQ2AMgBUUNACALIAkgASAKIAUQ2QMLIAAoAugCIgIgACgCCCIGTw0BIAAoAgQgAkEGdGoiBiAGKAI4IAFqIgU2AjggACgC6AIhAiAGKAIgIAVGBEAgACACQQFqIgI2AugCCyABIAhsIARqIQQgAiAAKAIISQ0ACyAAKALwBCEGDAILIAIgBkGs4MEAEK4HAAsCQAJAAkACQAJAAkACQAJAAkACQCAAKAL8AyIBBEAgACgC8AQhBSAAQfQEaiEbIABBQGshHCAAKAKABCECA0BBgIAEIQkgBSAMayIEIAFuIgEgACgC+AMiBiACayICQQAgAiAGTRsiAiABIAJJGyIBQYCABE0EQCABIglFDQsLIAAgCRDpAUEBIQFBACEKQQAhC0EAIQUCQAJAAkACQANAIAEhBiAAKAKoAyAALQCsAyAAKALsBCAAKALwBCAAKAL8AyAFbCAMaiIHEK8EISggBUEDbCIBIAAoApAEIghPDRAgAUECdCINIAAoAowEaiAoOAIAIAAoArADIAAtALQDIAAoAuwEIAAoAvAEIAcQrwQhKCABQQFqIgIgACgCkAQiCE8EQCACIQEMEQsgAkECdCIOIAAoAowEaiAoOAIAIAAoArgDIAAtALwDIAAoAuwEIAAoAvAEIAcQrwQhKCABQQJqIgQgACgCkAQiCE8EQCAEIQEMEQsgBEECdCIPIAAoAowEaiAoOAIAIAAoAvADIAAtAPQDIAAoAuwEIAAoAvAEIAcQrwQhKCAAKAKcBCIIIAVNBEAgBSAIQZzewQAQrgcACyAAKAKYBCAFQQJ0akMAAIA/ICiMEO4DQwAAgD+SlTgCACAAKALYAyAALQDcAyAAKALsBCAAKALwBCAHEK8EISggASAAKAKoBCIITw0DIAAoAqQEIA1qIChDu26QPpRDAAAAP5I4AgAgACgC4AMgAC0A5AMgACgC7AQgACgC8AQgBxCvBCEoIAAoAqgEIgggAk0EQCACIQEMBAsgACgCpAQgDmogKEO7bpA+lEMAAAA/kjgCACAAKALoAyAALQDsAyAAKALsBCAAKALwBCAHEK8EISggACgCqAQiCCAETQRAIAQhAQwECyAAKAKkBCAPaiAoQ7tukD6UQwAAAD+SOAIAIAAoAsADIAAtAMQDIAAoAuwEIAAoAvAEIAcQrwQhKAJAAkACQAJAAkAgASAAKAK0BCIITw0AIAAoArAEIA1qICgQ7gM4AgAgACgCyAMgAC0AzAMgACgC7AQgACgC8AQgBxCvBCEoIAAoArQEIgggAiIBTQ0AIAAoArAEIA5qICgQ7gM4AgAgACgC0AMgAC0A1AMgACgC7AQgACgC8AQgBxCvBCEoIAAoArQEIgggBCIBTQ0AIAAoArAEIA9qICgQ7gM4AgAgACgCICAALQAkIAAoAuwEIAAoAvAEIAcQrwQhKCAAKAIoIAAtACwgACgC7AQgACgC8AQgBxCvBCEpIAAoAjAgAC0ANCAAKALsBCAAKALwBCAHEK8EISogACgCOCAALQA8IAAoAuwEIAAoAvAEIAcQrwQhKyAFQQJ0IgEgACgCwAQiAkkNAQwCCyABIAhB7N7BABCuBwALIAAoArwEIAFBAnRqICggKCAolCApICmUkiAqICqUkiArICuUkpEiKJU4AgAgAUEBciIEIAAoAsAEIgJPBEAgBCEBDAELIAAoArwEIARBAnRqICkgKJU4AgAgAUECciIEIAAoAsAEIgJPBEAgBCEBDAELIAAoArwEIARBAnRqICogKJU4AgAgAUEDciIBIAAoAsAEIgJPDQAgACgCvAQgAUECdGogKyAolTgCACAALQDkAiIBQQhHDQEMAgsgASACQdzewQAQrgcACyAALQCkAyEIIAAoAqADIAAtAJwDIQ4gACgCmAMgAC0AlAMhECAAKAKQAyAALQCMAyESIAAoAogDIAAtAIQDIRQgACgCgAMgAC0A/AIhFiAAKAL4AiAALQD0AiEYIAAoAvACIAAtAOwCIQQgACgC6AIgACgC4AIgASAAKALsBCAAKALwBCAHEK8EISggBUEJbCIBIAAoAswEIgJPDQMgACgCyAQgAUECdGogKDgCACAEIAAoAuwEIAAoAvAEIAcQrwQhKCABQQFqIgQgACgCzAQiAk8EQCAEIQEMBAsgACgCyAQgBEECdGogKDgCACAYIAAoAuwEIAAoAvAEIAcQrwQhKCABQQJqIgQgACgCzAQiAk8EQCAEIQEMBAsgACgCyAQgBEECdGogKDgCACAWIAAoAuwEIAAoAvAEIAcQrwQhKCABQQNqIgQgACgCzAQiAk8EQCAEIQEMBAsgACgCyAQgBEECdGogKDgCACAUIAAoAuwEIAAoAvAEIAcQrwQhKCABQQRqIgQgACgCzAQiAk8EQCAEIQEMBAsgACgCyAQgBEECdGogKDgCACASIAAoAuwEIAAoAvAEIAcQrwQhKCABQQVqIgQgACgCzAQiAk8EQCAEIQEMBAsgACgCyAQgBEECdGogKDgCACAQIAAoAuwEIAAoAvAEIAcQrwQhKCABQQZqIgQgACgCzAQiAk8EQCAEIQEMBAsgACgCyAQgBEECdGogKDgCACAOIAAoAuwEIAAoAvAEIAcQrwQhKCABQQdqIgQgACgCzAQiAk8EQCAEIQEMBAsgACgCyAQgBEECdGogKDgCACAIIAAoAuwEIAAoAvAEIAcQrwQhKCABQQhqIgEgACgCzAQiAk8NAyAAKALIBCABQQJ0aiAoOAIACyAALQDsASIBQQhHBEAgAC0A3AIhBCAAKALYAiAALQDUAiENIAAoAtACIAAtAMwCIQ8gACgCyAIgAC0AxAIhESAAKALAAiAALQC8AiETIAAoArgCIAAtALQCIRUgACgCsAIgAC0ArAIhFyAAKAKoAiAALQCkAiEZIAAoAqACIAAtAJwCIR0gACgCmAIgAC0AlAIhHyAAKAKQAiAALQCMAiEhIAAoAogCIAAtAIQCISMgACgCgAIgAC0A/AEhJSAAKAL4ASAALQD0ASECIAAoAvABIAAoAugBIAEgACgC7AQgACgC8AQgBxCvBCEoIAVBD2wiASAAKALYBCIFTw0CIAAoAtQEIAFBAnRqICg4AgAgAiAAKALsBCAAKALwBCAHEK8EISggAUEBaiICIAAoAtgEIgVPBEAgAiEBDAMLIAAoAtQEIAJBAnRqICg4AgAgJSAAKALsBCAAKALwBCAHEK8EISggAUECaiICIAAoAtgEIgVPBEAgAiEBDAMLIAAoAtQEIAJBAnRqICg4AgAgIyAAKALsBCAAKALwBCAHEK8EISggAUEDaiICIAAoAtgEIgVPBEAgAiEBDAMLIAAoAtQEIAJBAnRqICg4AgAgISAAKALsBCAAKALwBCAHEK8EISggAUEEaiICIAAoAtgEIgVPBEAgAiEBDAMLIAAoAtQEIAJBAnRqICg4AgAgHyAAKALsBCAAKALwBCAHEK8EISggAUEFaiICIAAoAtgEIgVPBEAgAiEBDAMLIAAoAtQEIAJBAnRqICg4AgAgHSAAKALsBCAAKALwBCAHEK8EISggAUEGaiICIAAoAtgEIgVPBEAgAiEBDAMLIAAoAtQEIAJBAnRqICg4AgAgGSAAKALsBCAAKALwBCAHEK8EISggAUEHaiICIAAoAtgEIgVPBEAgAiEBDAMLIAAoAtQEIAJBAnRqICg4AgAgFyAAKALsBCAAKALwBCAHEK8EISggAUEIaiICIAAoAtgEIgVPBEAgAiEBDAMLIAAoAtQEIAJBAnRqICg4AgAgFSAAKALsBCAAKALwBCAHEK8EISggAUEJaiICIAAoAtgEIgVPBEAgAiEBDAMLIAAoAtQEIAJBAnRqICg4AgAgEyAAKALsBCAAKALwBCAHEK8EISggAUEKaiICIAAoAtgEIgVPBEAgAiEBDAMLIAAoAtQEIAJBAnRqICg4AgAgESAAKALsBCAAKALwBCAHEK8EISggAUELaiICIAAoAtgEIgVPBEAgAiEBDAMLIAAoAtQEIAJBAnRqICg4AgAgDyAAKALsBCAAKALwBCAHEK8EISggAUEMaiICIAAoAtgEIgVPBEAgAiEBDAMLIAAoAtQEIAJBAnRqICg4AgAgDSAAKALsBCAAKALwBCAHEK8EISggAUENaiICIAAoAtgEIgVPBEAgAiEBDAMLIAAoAtQEIAJBAnRqICg4AgAgBCAAKALsBCAAKALwBCAHEK8EISggAUEOaiIBIAAoAtgEIgVPDQIgACgC1AQgAUECdGogKDgCAAsCQCAALQBEQQhHBEAgA0HYB2ogHEGoAfwKAABBACEFIAohAiALIQEDQCADQdgHaiAFaiIEKAIAIARBBGotAAAgACgC7AQgACgC8AQgBxCvBCEoIAEgACgC5AQiBE8NAiAAKALgBCACaiAoOAIAIAJBBGohAiABQQFqIQEgBUEIaiIFQagBRw0ACwsgCkHUAGohCiALQRVqIQsgBiAGIAlJIgJqIQEgBiEFIAJFDQUMAQsLIAEgBEHM3sEAEK4HAAsgASAFQbzewQAQrgcACyABIAJBrN7BABCuBwALIAEgCEH83sEAEK4HAAsgCUEDbCIBIAAoApAEIgJLDQIgCSAAKAKcBCICSw0DIAEgACgCqAQiAksNBCABIAAoArQEIgJLDQUgCUECdCICIAAoAsAEIgRLDQYgCUEJbEEAIAAoAoQEIgQbIgYgACgCzAQiBUsNByAJQQ9sQQAgBEEBSxsiBSAAKALYBCIISw0IIAlBFWxBACAEQQJLGyIEIAAoAuQEIghLDQkgACgCgAQhCCAAKAKMBCEKIAAoApgEIQsgACgCpAQhByAAKAKwBCENIAAoArwEIQ4gACgCyAQhDyAAKALUBCEQIANCBDcCoAggA0ICNwKYCCADIAQ2ApQIIAMgBTYCjAggAyAQNgKICCADIAY2AoQIIAMgDzYCgAggAyACNgL8ByADIA42AvgHIAMgATYC9AcgAyANNgLwByADIAE2AuwHIAMgBzYC6AcgAyAJNgLkByADIAs2AuAHIAMgATYC3AcgAyAKNgLYByADIAAoAuAENgKQCCAbIAggCSADQdgHahCZASAAIAAoAoAEIAlqIgI2AoAEIAAoAvwDIgEgCWwgDGohDCAAKALwBCEFIAENAAsLQYzdwQAQ1AkAC0EAIAEgAkGM3sEAENUHAAtBACAJIAJB/N3BABDVBwALQQAgASACQezdwQAQ1QcAC0EAIAEgAkHc3cEAENUHAAtBACACIARBzN3BABDVBwALQQAgBiAFQbzdwQAQ1QcAC0EAIAUgCEGs3cEAENUHAAtBACAEIAhBnN3BABDVBwALIAUgDE8EQEEAIQIgAEEANgLwBAJAIAwEQCAFIAxGDQYgBEUNASAAKALsBCIBIAEgDGogBPwKAAAgACAENgLwBAwGCyAFIAxGDQULIAAgBDYC8AQMBAtBACAMIAVBwIjHABDVBwALIAEgCEGM38EAEK4HAAsgBCAGSw0CQQAhAiAAQQA2AvAEIAYgBGshASAEBEAgBCAGRg0CIAEEQCAAKALsBCIGIAQgBmogAfwKAAALIAAgATYC8AQMAgsgBCAGRg0BCyAAIAE2AvAECyADQcAMaiQAIAIPC0EAIAQgBkHAiMcAENUHAAtBACABIAJB3NzBABDVBwAL5C8DJ38EfQF+IwBBwAxrIgMkAAJAAkACQCAAKALcBCIBQYGAgIB4RgRAAkAgACgC8AQiAkEESQ0AAkAgACgC7AQiBC8AACAELQACQRB0ckHw2OUDRgRAIAJBC0kNAiACQQprIQZBACEBAkADQCABIARqQYDdwQBBCxC7B0UNASAGIAFBAWoiAUcNAAsgAkH//wNNDQNB7NzBAEEUEPkHIQIMBQsgASACSw0GIANB2AdqIAQgARD6AiADKQLcByEsIAMoAtgHQQFGBEAgLBCBCCECDAULIANB2AdqICynICxCIIinEFQgAygC2AchAiADKAKECSIEQYCAgIB4RgRAIAJFDQMMBQsgA0EIaiIGQQRyIANB2AdqIghBBHJBqAH8CgAAIANBwAFqIANBkAlqKQMAIiw3AwAgAyADKQOICTcDuAEgAyAENgK0ASADIAI2AggCQAJAICynIgtBAXFFBEAgAygCsAEhCSADKAKcASECIANBmAZqIgQgA0H4AGoQ1gMgCCAJIAIgBBCiASADKALYByECIAMoArQMIgpBgICAgHhHDQEgBhCgAyACDQcMBQsgA0GYBmoiAiADQQhqQcAB/AoAACADQdgHaiACEHMgAygC3AchCCADKALYByICQYCAgIB4Rw0BIAgiAkUNBAwGCyADKALcByEIIANBsANqIANB4AdqQeQC/AoAACADKALICiEGIAMoAsQKIQQgA0GgAmogA0HMCmpBkAH8CgAAIAMoAtwLIQUgA0HIAWogA0HgC2pB1AD8CgAAIAMpA7gMISwgA0EAOgDgByADIAU2AtwHIAMgCTYC2AcgAEH0BGogA0HYB2oQ1AMMAgsgA0GwA2ogA0HgB2pB5AL8CgAAIAMoAsQKIQQgAygCyAohBiADQQA6AOAHIAMgBjYC3AcgAyAENgLYByAAQfQEaiADQdgHahDUA0GAgICAeCEKDAELQZzCwQBBEBD5ByECDAMLIAAoAvAEIgkgAUELaiIBTwRAIABBADYC8AQgASAJRwRAIAkgAWsiCQRAIAAoAuwEIgcgASAHaiAJ/AoAAAsgACAJNgLwBAsCQAJAAkAgACgC3ARBgICAgHhrDgIBAgALIAAQvQIMAQsgABC9AQsgACAINgIEIAAgAjYCACAAQQhqIANBsANqQeQC/AoAACAAIAY2AvACIAAgBDYC7AIgAEH0AmogA0GgAmpBkAH8CgAAIAAgBTYChAQgAEGIBGogA0HIAWpB1AD8CgAAIAAgLDcD4AQgACAKNgLcBCALQQFxDQEgA0EIahCgAwwBC0EAIAEgCUHAiMcAENUHAAtBACECIAAoAtwEIgFBgYCAgHhGDQELAkACQCABQYCAgIB4RgRAIAAoAugCIgIgACgCCE8EQCAAKALwBCEBQQAhAiAAQQA2AvAEIAENAwwECyAAQfQEaiELQQAhBAJAA0ACQCAAKAIEIAJBBnRqIgIoAiQiCARAIAggACgC8AQiBiAEayIFTQ0BDAULQZzfwQAQ1AkACyACLQA8IQpBgIAEIQEgBSAIbiIFIAIoAiAiByACKAI4IglrIgJBACACIAdNGyICIAIgBUsbIgJBgIAETQRAIAIiAUUNBAsCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAKQQFrDgMCAQwACyAAIAEgBCAIIAAoAuwEIAYQjwMMCwsgACgChAFBgICAgHhHDQEMCgsgACABIAkgBCAIIAAoAuwEIAYQ5gEiAg0PIAFBA2wiAiAAKAIgIgZLDQEgASAAKAIsIgZLDQIgAiAAKAI4IgZLDQMgAiAAKAJEIgZLDQQgAUECdCIGIAAoAlAiBUsNBSAAKAIcIQUgACgCKCEKIAAoAjQhByAAKAJAIQwgA0IENwKgCCADQgI3ApgIIANCBDcCkAggA0IENwKICCADQgQ3AoAIIAMgBjYC/AcgAyACNgL0ByADIAw2AvAHIAMgAjYC7AcgAyAHNgLoByADIAE2AuQHIAMgCjYC4AcgAyACNgLcByADIAU2AtgHIAMgACgCTDYC+AcgCyAJIAEgA0HYB2oQfgwJCyAAIAEgBCAIIAAoAuwEIAYQ5QEgAUEJbCICIAAoAlwiBksNBSAAKAJYIQYCQCAAKALwAiIFQQJPBEAgAUEPbCIHIAAoAmgiCk0EQCAAKAJkIQwgBUECRw0CQQAhBUEEIQoMCgtBACAHIApBjODBABDVBwALIAsgCSABIAYgAhDjAQwJCyABQRVsIgUgACgCdCIKSw0GIAAoAnAhCgwHC0EAIAIgBkHs38EAENUHAAtBACABIAZB3N/BABDVBwALQQAgAiAGQczfwQAQ1QcAC0EAIAIgBkG838EAENUHAAtBACAGIAVBrN/BABDVBwALQQAgAiAGQZzgwQAQ1QcAC0EAIAUgCkH838EAENUHAAsgCyAJIAEgBiACEOMBIAsgCSABIAwgBxCoASAFRQ0AIAsgCSABIAogBRCVAQsgACgC6AIiAiAAKAIIIgZPDQEgACgCBCACQQZ0aiIGIAYoAjggAWoiBTYCOCAAKALoAiECIAYoAiAgBUYEQCAAIAJBAWoiAjYC6AILIAEgCGwgBGohBCACIAAoAghJDQALIAAoAvAEIQYMAgsgAiAGQazgwQAQrgcACwJAAkACQAJAAkACQAJAAkACQAJAIAAoAvwDIgEEQCAAKALwBCEFIABB9ARqIRsgAEFAayEcIAAoAoAEIQIDQEGAgAQhCSAFIAxrIgQgAW4iASAAKAL4AyIGIAJrIgJBACACIAZNGyICIAEgAkkbIgFBgIAETQRAIAEiCUUNCwsgACAJEOkBQQEhAUEAIQpBACELQQAhBQJAAkACQAJAA0AgASEGIAAoAqgDIAAtAKwDIAAoAuwEIAAoAvAEIAAoAvwDIAVsIAxqIgcQrwQhKCAFQQNsIgEgACgCkAQiCE8NECABQQJ0Ig0gACgCjARqICg4AgAgACgCsAMgAC0AtAMgACgC7AQgACgC8AQgBxCvBCEoIAFBAWoiAiAAKAKQBCIITwRAIAIhAQwRCyACQQJ0Ig4gACgCjARqICg4AgAgACgCuAMgAC0AvAMgACgC7AQgACgC8AQgBxCvBCEoIAFBAmoiBCAAKAKQBCIITwRAIAQhAQwRCyAEQQJ0Ig8gACgCjARqICg4AgAgACgC8AMgAC0A9AMgACgC7AQgACgC8AQgBxCvBCEoIAAoApwEIgggBU0EQCAFIAhBnN7BABCuBwALIAAoApgEIAVBAnRqQwAAgD8gKIwQ7gNDAACAP5KVOAIAIAAoAtgDIAAtANwDIAAoAuwEIAAoAvAEIAcQrwQhKCABIAAoAqgEIghPDQMgACgCpAQgDWogKEO7bpA+lEMAAAA/kjgCACAAKALgAyAALQDkAyAAKALsBCAAKALwBCAHEK8EISggACgCqAQiCCACTQRAIAIhAQwECyAAKAKkBCAOaiAoQ7tukD6UQwAAAD+SOAIAIAAoAugDIAAtAOwDIAAoAuwEIAAoAvAEIAcQrwQhKCAAKAKoBCIIIARNBEAgBCEBDAQLIAAoAqQEIA9qIChDu26QPpRDAAAAP5I4AgAgACgCwAMgAC0AxAMgACgC7AQgACgC8AQgBxCvBCEoAkACQAJAAkACQCABIAAoArQEIghPDQAgACgCsAQgDWogKBDuAzgCACAAKALIAyAALQDMAyAAKALsBCAAKALwBCAHEK8EISggACgCtAQiCCACIgFNDQAgACgCsAQgDmogKBDuAzgCACAAKALQAyAALQDUAyAAKALsBCAAKALwBCAHEK8EISggACgCtAQiCCAEIgFNDQAgACgCsAQgD2ogKBDuAzgCACAAKAIgIAAtACQgACgC7AQgACgC8AQgBxCvBCEoIAAoAiggAC0ALCAAKALsBCAAKALwBCAHEK8EISkgACgCMCAALQA0IAAoAuwEIAAoAvAEIAcQrwQhKiAAKAI4IAAtADwgACgC7AQgACgC8AQgBxCvBCErIAVBAnQiASAAKALABCICSQ0BDAILIAEgCEHs3sEAEK4HAAsgACgCvAQgAUECdGogKCAoICiUICkgKZSSICogKpSSICsgK5SSkSIolTgCACABQQFyIgQgACgCwAQiAk8EQCAEIQEMAQsgACgCvAQgBEECdGogKSAolTgCACABQQJyIgQgACgCwAQiAk8EQCAEIQEMAQsgACgCvAQgBEECdGogKiAolTgCACABQQNyIgEgACgCwAQiAk8NACAAKAK8BCABQQJ0aiArICiVOAIAIAAtAOQCIgFBCEcNAQwCCyABIAJB3N7BABCuBwALIAAtAKQDIQggACgCoAMgAC0AnAMhDiAAKAKYAyAALQCUAyEQIAAoApADIAAtAIwDIRIgACgCiAMgAC0AhAMhFCAAKAKAAyAALQD8AiEWIAAoAvgCIAAtAPQCIRggACgC8AIgAC0A7AIhBCAAKALoAiAAKALgAiABIAAoAuwEIAAoAvAEIAcQrwQhKCAFQQlsIgEgACgCzAQiAk8NAyAAKALIBCABQQJ0aiAoOAIAIAQgACgC7AQgACgC8AQgBxCvBCEoIAFBAWoiBCAAKALMBCICTwRAIAQhAQwECyAAKALIBCAEQQJ0aiAoOAIAIBggACgC7AQgACgC8AQgBxCvBCEoIAFBAmoiBCAAKALMBCICTwRAIAQhAQwECyAAKALIBCAEQQJ0aiAoOAIAIBYgACgC7AQgACgC8AQgBxCvBCEoIAFBA2oiBCAAKALMBCICTwRAIAQhAQwECyAAKALIBCAEQQJ0aiAoOAIAIBQgACgC7AQgACgC8AQgBxCvBCEoIAFBBGoiBCAAKALMBCICTwRAIAQhAQwECyAAKALIBCAEQQJ0aiAoOAIAIBIgACgC7AQgACgC8AQgBxCvBCEoIAFBBWoiBCAAKALMBCICTwRAIAQhAQwECyAAKALIBCAEQQJ0aiAoOAIAIBAgACgC7AQgACgC8AQgBxCvBCEoIAFBBmoiBCAAKALMBCICTwRAIAQhAQwECyAAKALIBCAEQQJ0aiAoOAIAIA4gACgC7AQgACgC8AQgBxCvBCEoIAFBB2oiBCAAKALMBCICTwRAIAQhAQwECyAAKALIBCAEQQJ0aiAoOAIAIAggACgC7AQgACgC8AQgBxCvBCEoIAFBCGoiASAAKALMBCICTw0DIAAoAsgEIAFBAnRqICg4AgALIAAtAOwBIgFBCEcEQCAALQDcAiEEIAAoAtgCIAAtANQCIQ0gACgC0AIgAC0AzAIhDyAAKALIAiAALQDEAiERIAAoAsACIAAtALwCIRMgACgCuAIgAC0AtAIhFSAAKAKwAiAALQCsAiEXIAAoAqgCIAAtAKQCIRkgACgCoAIgAC0AnAIhHSAAKAKYAiAALQCUAiEfIAAoApACIAAtAIwCISEgACgCiAIgAC0AhAIhIyAAKAKAAiAALQD8ASElIAAoAvgBIAAtAPQBIQIgACgC8AEgACgC6AEgASAAKALsBCAAKALwBCAHEK8EISggBUEPbCIBIAAoAtgEIgVPDQIgACgC1AQgAUECdGogKDgCACACIAAoAuwEIAAoAvAEIAcQrwQhKCABQQFqIgIgACgC2AQiBU8EQCACIQEMAwsgACgC1AQgAkECdGogKDgCACAlIAAoAuwEIAAoAvAEIAcQrwQhKCABQQJqIgIgACgC2AQiBU8EQCACIQEMAwsgACgC1AQgAkECdGogKDgCACAjIAAoAuwEIAAoAvAEIAcQrwQhKCABQQNqIgIgACgC2AQiBU8EQCACIQEMAwsgACgC1AQgAkECdGogKDgCACAhIAAoAuwEIAAoAvAEIAcQrwQhKCABQQRqIgIgACgC2AQiBU8EQCACIQEMAwsgACgC1AQgAkECdGogKDgCACAfIAAoAuwEIAAoAvAEIAcQrwQhKCABQQVqIgIgACgC2AQiBU8EQCACIQEMAwsgACgC1AQgAkECdGogKDgCACAdIAAoAuwEIAAoAvAEIAcQrwQhKCABQQZqIgIgACgC2AQiBU8EQCACIQEMAwsgACgC1AQgAkECdGogKDgCACAZIAAoAuwEIAAoAvAEIAcQrwQhKCABQQdqIgIgACgC2AQiBU8EQCACIQEMAwsgACgC1AQgAkECdGogKDgCACAXIAAoAuwEIAAoAvAEIAcQrwQhKCABQQhqIgIgACgC2AQiBU8EQCACIQEMAwsgACgC1AQgAkECdGogKDgCACAVIAAoAuwEIAAoAvAEIAcQrwQhKCABQQlqIgIgACgC2AQiBU8EQCACIQEMAwsgACgC1AQgAkECdGogKDgCACATIAAoAuwEIAAoAvAEIAcQrwQhKCABQQpqIgIgACgC2AQiBU8EQCACIQEMAwsgACgC1AQgAkECdGogKDgCACARIAAoAuwEIAAoAvAEIAcQrwQhKCABQQtqIgIgACgC2AQiBU8EQCACIQEMAwsgACgC1AQgAkECdGogKDgCACAPIAAoAuwEIAAoAvAEIAcQrwQhKCABQQxqIgIgACgC2AQiBU8EQCACIQEMAwsgACgC1AQgAkECdGogKDgCACANIAAoAuwEIAAoAvAEIAcQrwQhKCABQQ1qIgIgACgC2AQiBU8EQCACIQEMAwsgACgC1AQgAkECdGogKDgCACAEIAAoAuwEIAAoAvAEIAcQrwQhKCABQQ5qIgEgACgC2AQiBU8NAiAAKALUBCABQQJ0aiAoOAIACwJAIAAtAERBCEcEQCADQdgHaiAcQagB/AoAAEEAIQUgCiECIAshAQNAIANB2AdqIAVqIgQoAgAgBEEEai0AACAAKALsBCAAKALwBCAHEK8EISggASAAKALkBCIETw0CIAAoAuAEIAJqICg4AgAgAkEEaiECIAFBAWohASAFQQhqIgVBqAFHDQALCyAKQdQAaiEKIAtBFWohCyAGIAYgCUkiAmohASAGIQUgAkUNBQwBCwsgASAEQczewQAQrgcACyABIAVBvN7BABCuBwALIAEgAkGs3sEAEK4HAAsgASAIQfzewQAQrgcACyAJQQNsIgEgACgCkAQiAksNAiAJIAAoApwEIgJLDQMgASAAKAKoBCICSw0EIAEgACgCtAQiAksNBSAJQQJ0IgIgACgCwAQiBEsNBiAJQQlsQQAgACgChAQiBBsiBiAAKALMBCIFSw0HIAlBD2xBACAEQQFLGyIFIAAoAtgEIghLDQggCUEVbEEAIARBAksbIgQgACgC5AQiCEsNCSAAKAKABCEIIAAoAowEIQogACgCmAQhCyAAKAKkBCEHIAAoArAEIQ0gACgCvAQhDiAAKALIBCEPIAAoAtQEIRAgA0IENwKgCCADQgI3ApgIIAMgBDYClAggAyAFNgKMCCADIBA2AogIIAMgBjYChAggAyAPNgKACCADIAI2AvwHIAMgDjYC+AcgAyABNgL0ByADIA02AvAHIAMgATYC7AcgAyAHNgLoByADIAk2AuQHIAMgCzYC4AcgAyABNgLcByADIAo2AtgHIAMgACgC4AQ2ApAIIBsgCCAJIANB2AdqEH4gACAAKAKABCAJaiICNgKABCAAKAL8AyIBIAlsIAxqIQwgACgC8AQhBSABDQALC0GM3cEAENQJAAtBACABIAJBjN7BABDVBwALQQAgCSACQfzdwQAQ1QcAC0EAIAEgAkHs3cEAENUHAAtBACABIAJB3N3BABDVBwALQQAgAiAEQczdwQAQ1QcAC0EAIAYgBUG83cEAENUHAAtBACAFIAhBrN3BABDVBwALQQAgBCAIQZzdwQAQ1QcACyAFIAxPBEBBACECIABBADYC8AQCQCAMBEAgBSAMRg0GIARFDQEgACgC7AQiASABIAxqIAT8CgAAIAAgBDYC8AQMBgsgBSAMRg0FCyAAIAQ2AvAEDAQLQQAgDCAFQcCIxwAQ1QcACyABIAhBjN/BABCuBwALIAQgBksNAkEAIQIgAEEANgLwBCAGIARrIQEgBARAIAQgBkYNAiABBEAgACgC7AQiBiAEIAZqIAH8CgAACyAAIAE2AvAEDAILIAQgBkYNAQsgACABNgLwBAsgA0HADGokACACDwtBACAEIAZBwIjHABDVBwALQQAgASACQdzcwQAQ1QcAC8kvAyd/BH0BfiMAQcAMayIDJAACQAJAAkACQAJAAkACQAJAIAAoApwFIgFBgYCAgHhGBEACQCAAKAKwBSICQQRJDQAgACgCrAUiBC8AACAELQACQRB0ckHw2OUDRw0DIAJBC0kNACACQQprIQZBACEBAkADQCABIARqQYDdwQBBCxC7B0UNASAGIAFBAWoiAUcNAAsgAkH//wNNDQFB7NzBAEEUEPkHIQIMCAsgASACSw0JIANB2AdqIAQgARD6AiADKQLcByEsIAMoAtgHQQFGBEAgLBCBCCECDAgLIANB2AdqICynICxCIIinEFQgAygC2AchAiADKAKECSIEQYCAgIB4RgRAIAJFDQEMCAsgA0EIakEEciADQdgHaiIJQQRyQagB/AoAACADQcABaiADQZAJaikDACIsNwMAIAMgAykDiAk3A7gBIAMgBDYCtAEgAyACNgIIAkACQAJAICynIgdBAXFFBEAgAygCsAEhCiADKAKcASECIANBmAZqIgQgA0H4AGoQ1gMgCSAKIAIgBBCiASADKALYByECIAMoArQMIgtBgICAgHhGDQIgAygC3AchCCADQbADaiADQeAHakHkAvwKAAAgAygCyAohBiADKALECiEEIANBoAJqIANBzApqQZAB/AoAACADKALcCyEFIANByAFqIANB4AtqQdQA/AoAACADKQO4DCEsIANBADoA4AcgAyAFNgLcByADIAo2AtgHIAAgCRCCAgwBCyADQZgGaiICIANBCGpBwAH8CgAAIANB2AdqIgkgAhBzIAMoAtwHIQggAygC2AciAkGAgICAeEYNAiADQbADaiADQeAHakHkAvwKAAAgAygCxAohBCADKALICiEGIANBADoA4AcgAyAGNgLcByADIAQ2AtgHIAAgCRCCAkGAgICAeCELCyAAKAKwBSIJIAFBC2oiAUkNBCAAQQA2ArAFIAEgCUcEQCAJIAFrIgkEQCAAKAKsBSIKIAEgCmogCfwKAAALIAAgCTYCsAULIABBQGshAQJAAkACQCAAKAKcBUGAgICAeGsOAgECAAsgARC9AgwBCyABEL0BCyAAIAg2AkQgACACNgJAIABByABqIANBsANqQeQC/AoAACAAIAY2ArADIAAgBDYCrAMgAEG0A2ogA0GgAmpBkAH8CgAAIAAgBTYCxAQgAEHIBGogA0HIAWpB1AD8CgAAIAAgLDcDoAUgACALNgKcBSAHQQFxDQIgA0EIahCgAwwCCyADQQhqEKADIAJFDQEMCAsgCCICDQcLQQAhAiAAKAKcBSIBQYGAgIB4Rg0GCyAAQUBrIREgAUGAgICAeEcNAiAAKAKoAyICIAAoAkhPBEAgACgCsAUhAUEAIQIgAEEANgKwBSABDQUMBgtBACEEAkADQAJAIAAoAkQgAkEGdGoiAigCJCIIBEAgCCAAKAKwBSIGIARrIgVNDQEMBwtBnN/BABDUCQALIAItADwhC0GAgAQhASAFIAhuIgUgAigCICIKIAIoAjgiCWsiAkEAIAIgCk0bIgIgAiAFSxsiAkGAgARNBEAgAiIBRQ0GCwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAtBAWsOAwIBDAALIBEgASAEIAggACgCrAUgBhCPAwwLCyAAKALEAUGAgICAeEcNAQwKCyARIAEgCSAEIAggACgCrAUgBhDmASICDREgAUEDbCICIAAoAmAiBksNASABIAAoAmwiBksNAiACIAAoAngiBksNAyACIAAoAoQBIgZLDQQgAUECdCIGIAAoApABIgVLDQUgACgCXCEFIAAoAmghCyAAKAJ0IQogACgCgAEhByADQgQ3AqAIIANCAjcCmAggA0IENwKQCCADQgQ3AogIIANCBDcCgAggAyAGNgL8ByADIAI2AvQHIAMgBzYC8AcgAyACNgLsByADIAo2AugHIAMgATYC5AcgAyALNgLgByADIAI2AtwHIAMgBTYC2AcgAyAAKAKMATYC+AcgACAJIAEgA0HYB2oQ7wEMCQsgESABIAQgCCAAKAKsBSAGEOUBIAFBCWwiAiAAKAKcASIGSw0FIAAoApgBIQZBACEFIAAoArADIgpBAkkEQCAAIAkgASAGIAJBBEEAQQRBABDJAwwJCyABQQ9sIgsgACgCqAEiB0sNBiAAIAkgASAGIAIgACgCpAEgCyAKQQJHBH8gAUEVbCIFIAAoArQBIgJLDQggACgCsAEFQQQLIAUQyQMMCAtBACACIAZB7N/BABDVBwALQQAgASAGQdzfwQAQ1QcAC0EAIAIgBkHM38EAENUHAAtBACACIAZBvN/BABDVBwALQQAgBiAFQazfwQAQ1QcAC0EAIAIgBkGc4MEAENUHAAtBACALIAdBjODBABDVBwALQQAgBSACQfzfwQAQ1QcACyAAKAKoAyICIAAoAkgiBk8NASAAKAJEIAJBBnRqIgYgBigCOCABaiIFNgI4IAAoAqgDIQIgBigCICAFRgRAIAAgAkEBaiICNgKoAwsgASAIbCAEaiEEIAIgACgCSEkNAAsgACgCsAUhBgwECyACIAZBrODBABCuBwALQQAgASAJQcCIxwAQ1QcAC0GcwsEAQRAQ+QchAgwDCwJAAkACQAJAAkACQAJAAkACQAJAIAAoArwEIgEEQCAAKAKwBSEFIABBgAFqIRwgACgCwAQhAgNAQYCABCEJIAUgDGsiBCABbiIBIAAoArgEIgYgAmsiAkEAIAIgBk0bIgIgASACSRsiAUGAgARNBEAgASIJRQ0LCyARIAkQ6QFBASEBQQAhC0EAIQpBACEFAkACQAJAAkADQCABIQYgACgC6AMgAC0A7AMgACgCrAUgACgCsAUgACgCvAQgBWwgDGoiBxCvBCEoIAVBA2wiASAAKALQBCIITw0QIAFBAnQiDSAAKALMBGogKDgCACAAKALwAyAALQD0AyAAKAKsBSAAKAKwBSAHEK8EISggAUEBaiICIAAoAtAEIghPBEAgAiEBDBELIAJBAnQiDiAAKALMBGogKDgCACAAKAL4AyAALQD8AyAAKAKsBSAAKAKwBSAHEK8EISggAUECaiIEIAAoAtAEIghPBEAgBCEBDBELIARBAnQiDyAAKALMBGogKDgCACAAKAKwBCAALQC0BCAAKAKsBSAAKAKwBSAHEK8EISggACgC3AQiCCAFTQRAIAUgCEGc3sEAEK4HAAsgACgC2AQgBUECdGpDAACAPyAojBDuA0MAAIA/kpU4AgAgACgCmAQgAC0AnAQgACgCrAUgACgCsAUgBxCvBCEoIAEgACgC6AQiCE8NAyAAKALkBCANaiAoQ7tukD6UQwAAAD+SOAIAIAAoAqAEIAAtAKQEIAAoAqwFIAAoArAFIAcQrwQhKCAAKALoBCIIIAJNBEAgAiEBDAQLIAAoAuQEIA5qIChDu26QPpRDAAAAP5I4AgAgACgCqAQgAC0ArAQgACgCrAUgACgCsAUgBxCvBCEoIAAoAugEIgggBE0EQCAEIQEMBAsgACgC5AQgD2ogKEO7bpA+lEMAAAA/kjgCACAAKAKABCAALQCEBCAAKAKsBSAAKAKwBSAHEK8EISgCQAJAAkACQAJAIAEgACgC9AQiCE8NACAAKALwBCANaiAoEO4DOAIAIAAoAogEIAAtAIwEIAAoAqwFIAAoArAFIAcQrwQhKCAAKAL0BCIIIAIiAU0NACAAKALwBCAOaiAoEO4DOAIAIAAoApAEIAAtAJQEIAAoAqwFIAAoArAFIAcQrwQhKCAAKAL0BCIIIAQiAU0NACAAKALwBCAPaiAoEO4DOAIAIAAoAmAgAC0AZCAAKAKsBSAAKAKwBSAHEK8EISggACgCaCAALQBsIAAoAqwFIAAoArAFIAcQrwQhKSAAKAJwIAAtAHQgACgCrAUgACgCsAUgBxCvBCEqIAAoAnggAC0AfCAAKAKsBSAAKAKwBSAHEK8EISsgBUECdCIBIAAoAoAFIgJJDQEMAgsgASAIQezewQAQrgcACyAAKAL8BCABQQJ0aiAoICggKJQgKSAplJIgKiAqlJIgKyArlJKRIiiVOAIAIAFBAXIiBCAAKAKABSICTwRAIAQhAQwBCyAAKAL8BCAEQQJ0aiApICiVOAIAIAFBAnIiBCAAKAKABSICTwRAIAQhAQwBCyAAKAL8BCAEQQJ0aiAqICiVOAIAIAFBA3IiASAAKAKABSICTw0AIAAoAvwEIAFBAnRqICsgKJU4AgAgAC0ApAMiAUEIRw0BDAILIAEgAkHc3sEAEK4HAAsgAC0A5AMhCCAAKALgAyAALQDcAyEOIAAoAtgDIAAtANQDIRAgACgC0AMgAC0AzAMhEyAAKALIAyAALQDEAyEVIAAoAsADIAAtALwDIRcgACgCuAMgAC0AtAMhGSAAKAKwAyAALQCsAyEEIAAoAqgDIAAoAqADIAEgACgCrAUgACgCsAUgBxCvBCEoIAVBCWwiASAAKAKMBSICTw0DIAAoAogFIAFBAnRqICg4AgAgBCAAKAKsBSAAKAKwBSAHEK8EISggAUEBaiIEIAAoAowFIgJPBEAgBCEBDAQLIAAoAogFIARBAnRqICg4AgAgGSAAKAKsBSAAKAKwBSAHEK8EISggAUECaiIEIAAoAowFIgJPBEAgBCEBDAQLIAAoAogFIARBAnRqICg4AgAgFyAAKAKsBSAAKAKwBSAHEK8EISggAUEDaiIEIAAoAowFIgJPBEAgBCEBDAQLIAAoAogFIARBAnRqICg4AgAgFSAAKAKsBSAAKAKwBSAHEK8EISggAUEEaiIEIAAoAowFIgJPBEAgBCEBDAQLIAAoAogFIARBAnRqICg4AgAgEyAAKAKsBSAAKAKwBSAHEK8EISggAUEFaiIEIAAoAowFIgJPBEAgBCEBDAQLIAAoAogFIARBAnRqICg4AgAgECAAKAKsBSAAKAKwBSAHEK8EISggAUEGaiIEIAAoAowFIgJPBEAgBCEBDAQLIAAoAogFIARBAnRqICg4AgAgDiAAKAKsBSAAKAKwBSAHEK8EISggAUEHaiIEIAAoAowFIgJPBEAgBCEBDAQLIAAoAogFIARBAnRqICg4AgAgCCAAKAKsBSAAKAKwBSAHEK8EISggAUEIaiIBIAAoAowFIgJPDQMgACgCiAUgAUECdGogKDgCAAsgAC0ArAIiAUEIRwRAIAAtAJwDIQQgACgCmAMgAC0AlAMhDSAAKAKQAyAALQCMAyEPIAAoAogDIAAtAIQDIRIgACgCgAMgAC0A/AIhFCAAKAL4AiAALQD0AiEWIAAoAvACIAAtAOwCIRggACgC6AIgAC0A5AIhGiAAKALgAiAALQDcAiEdIAAoAtgCIAAtANQCIR8gACgC0AIgAC0AzAIhISAAKALIAiAALQDEAiEjIAAoAsACIAAtALwCISUgACgCuAIgAC0AtAIhAiAAKAKwAiAAKAKoAiABIAAoAqwFIAAoArAFIAcQrwQhKCAFQQ9sIgEgACgCmAUiBU8NAiAAKAKUBSABQQJ0aiAoOAIAIAIgACgCrAUgACgCsAUgBxCvBCEoIAFBAWoiAiAAKAKYBSIFTwRAIAIhAQwDCyAAKAKUBSACQQJ0aiAoOAIAICUgACgCrAUgACgCsAUgBxCvBCEoIAFBAmoiAiAAKAKYBSIFTwRAIAIhAQwDCyAAKAKUBSACQQJ0aiAoOAIAICMgACgCrAUgACgCsAUgBxCvBCEoIAFBA2oiAiAAKAKYBSIFTwRAIAIhAQwDCyAAKAKUBSACQQJ0aiAoOAIAICEgACgCrAUgACgCsAUgBxCvBCEoIAFBBGoiAiAAKAKYBSIFTwRAIAIhAQwDCyAAKAKUBSACQQJ0aiAoOAIAIB8gACgCrAUgACgCsAUgBxCvBCEoIAFBBWoiAiAAKAKYBSIFTwRAIAIhAQwDCyAAKAKUBSACQQJ0aiAoOAIAIB0gACgCrAUgACgCsAUgBxCvBCEoIAFBBmoiAiAAKAKYBSIFTwRAIAIhAQwDCyAAKAKUBSACQQJ0aiAoOAIAIBogACgCrAUgACgCsAUgBxCvBCEoIAFBB2oiAiAAKAKYBSIFTwRAIAIhAQwDCyAAKAKUBSACQQJ0aiAoOAIAIBggACgCrAUgACgCsAUgBxCvBCEoIAFBCGoiAiAAKAKYBSIFTwRAIAIhAQwDCyAAKAKUBSACQQJ0aiAoOAIAIBYgACgCrAUgACgCsAUgBxCvBCEoIAFBCWoiAiAAKAKYBSIFTwRAIAIhAQwDCyAAKAKUBSACQQJ0aiAoOAIAIBQgACgCrAUgACgCsAUgBxCvBCEoIAFBCmoiAiAAKAKYBSIFTwRAIAIhAQwDCyAAKAKUBSACQQJ0aiAoOAIAIBIgACgCrAUgACgCsAUgBxCvBCEoIAFBC2oiAiAAKAKYBSIFTwRAIAIhAQwDCyAAKAKUBSACQQJ0aiAoOAIAIA8gACgCrAUgACgCsAUgBxCvBCEoIAFBDGoiAiAAKAKYBSIFTwRAIAIhAQwDCyAAKAKUBSACQQJ0aiAoOAIAIA0gACgCrAUgACgCsAUgBxCvBCEoIAFBDWoiAiAAKAKYBSIFTwRAIAIhAQwDCyAAKAKUBSACQQJ0aiAoOAIAIAQgACgCrAUgACgCsAUgBxCvBCEoIAFBDmoiASAAKAKYBSIFTw0CIAAoApQFIAFBAnRqICg4AgALAkAgAC0AhAFBCEcEQCADQdgHaiAcQagB/AoAAEEAIQUgCyECIAohAQNAIANB2AdqIAVqIgQoAgAgBEEEai0AACAAKAKsBSAAKAKwBSAHEK8EISggASAAKAKkBSIETw0CIAAoAqAFIAJqICg4AgAgAkEEaiECIAFBAWohASAFQQhqIgVBqAFHDQALCyALQdQAaiELIApBFWohCiAGIAYgCUkiAmohASAGIQUgAkUNBQwBCwsgASAEQczewQAQrgcACyABIAVBvN7BABCuBwALIAEgAkGs3sEAEK4HAAsgASAIQfzewQAQrgcACyAJQQNsIgEgACgC0AQiAksNAiAJIAAoAtwEIgJLDQMgASAAKALoBCICSw0EIAEgACgC9AQiAksNBSAJQQJ0IgIgACgCgAUiBEsNBiAJQQlsQQAgACgCxAQiBBsiBiAAKAKMBSIFSw0HIAlBD2xBACAEQQFLGyIFIAAoApgFIghLDQggCUEVbEEAIARBAksbIgQgACgCpAUiCEsNCSAAKALABCEIIAAoAswEIQsgACgC2AQhCiAAKALkBCEHIAAoAvAEIQ0gACgC/AQhDiAAKAKIBSEPIAAoApQFIRAgA0IENwKgCCADQgI3ApgIIAMgBDYClAggAyAFNgKMCCADIBA2AogIIAMgBjYChAggAyAPNgKACCADIAI2AvwHIAMgDjYC+AcgAyABNgL0ByADIA02AvAHIAMgATYC7AcgAyAHNgLoByADIAk2AuQHIAMgCjYC4AcgAyABNgLcByADIAs2AtgHIAMgACgCoAU2ApAIIAAgCCAJIANB2AdqEO8BIAAgACgCwAQgCWoiAjYCwAQgACgCvAQiASAJbCAMaiEMIAAoArAFIQUgAQ0ACwtBjN3BABDUCQALQQAgASACQYzewQAQ1QcAC0EAIAkgAkH83cEAENUHAAtBACABIAJB7N3BABDVBwALQQAgASACQdzdwQAQ1QcAC0EAIAIgBEHM3cEAENUHAAtBACAGIAVBvN3BABDVBwALQQAgBSAIQazdwQAQ1QcAC0EAIAQgCEGc3cEAENUHAAsgBSAMTwRAQQAhAiAAQQA2ArAFAkAgDARAIAUgDEYNBiAERQ0BIAAoAqwFIgEgASAMaiAE/AoAACAAIAQ2ArAFDAYLIAUgDEYNBQsgACAENgKwBQwEC0EAIAwgBUHAiMcAENUHAAsgASAIQYzfwQAQrgcACyAEIAZLDQJBACECIABBADYCsAUgBiAEayEBIAQEQCAEIAZGDQIgAQRAIAAoAqwFIgYgBCAGaiAB/AoAAAsgACABNgKwBQwCCyAEIAZGDQELIAAgATYCsAULIANBwAxqJAAgAg8LQQAgBCAGQcCIxwAQ1QcAC0EAIAEgAkHc3MEAENUHAAvYLwMnfwR9AX4jAEHADGsiAyQAAkACQAJAAkACQAJAAkACQCAAKAK8BSIBQYGAgIB4RgRAAkAgACgC0AUiAkEESQ0AIAAoAswFIgQvAAAgBC0AAkEQdHJB8NjlA0cNAyACQQtJDQAgAkEKayEGQQAhAQJAA0AgASAEakGA3cEAQQsQuwdFDQEgBiABQQFqIgFHDQALIAJB//8DTQ0BQezcwQBBFBD5ByECDAgLIAEgAksNCSADQdgHaiAEIAEQ+gIgAykC3AchLCADKALYB0EBRgRAICwQgQghAgwICyADQdgHaiAspyAsQiCIpxBUIAMoAtgHIQIgAygChAkiBEGAgICAeEYEQCACRQ0BDAgLIANBCGpBBHIgA0HYB2oiCUEEckGoAfwKAAAgA0HAAWogA0GQCWopAwAiLDcDACADIAMpA4gJNwO4ASADIAQ2ArQBIAMgAjYCCAJAAkACQCAspyIHQQFxRQRAIAMoArABIQogAygCnAEhAiADQZgGaiIEIANB+ABqENYDIAkgCiACIAQQogEgAygC2AchAiADKAK0DCILQYCAgIB4Rg0CIAMoAtwHIQggA0GwA2ogA0HgB2pB5AL8CgAAIAMoAsgKIQYgAygCxAohBCADQaACaiADQcwKakGQAfwKAAAgAygC3AshBSADQcgBaiADQeALakHUAPwKAAAgAykDuAwhLCADQQA6AOAHIAMgBTYC3AcgAyAKNgLYByAAIAkQ5wEMAQsgA0GYBmoiAiADQQhqQcAB/AoAACADQdgHaiIJIAIQcyADKALcByEIIAMoAtgHIgJBgICAgHhGDQIgA0GwA2ogA0HgB2pB5AL8CgAAIAMoAsQKIQQgAygCyAohBiADQQA6AOAHIAMgBjYC3AcgAyAENgLYByAAIAkQ5wFBgICAgHghCwsgACgC0AUiCSABQQtqIgFJDQQgAEEANgLQBSABIAlHBEAgCSABayIJBEAgACgCzAUiCiABIApqIAn8CgAACyAAIAk2AtAFCyAAQeAAaiEBAkACQAJAIAAoArwFQYCAgIB4aw4CAQIACyABEL0CDAELIAEQvQELIAAgCDYCZCAAIAI2AmAgAEHoAGogA0GwA2pB5AL8CgAAIAAgBjYC0AMgACAENgLMAyAAQdQDaiADQaACakGQAfwKAAAgACAFNgLkBCAAQegEaiADQcgBakHUAPwKAAAgACAsNwPABSAAIAs2ArwFIAdBAXENAiADQQhqEKADDAILIANBCGoQoAMgAkUNAQwICyAIIgINBwtBACECIAAoArwFIgFBgYCAgHhGDQYLIABB4ABqIREgAUGAgICAeEcNAiAAKALIAyICIAAoAmhPBEAgACgC0AUhAUEAIQIgAEEANgLQBSABDQUMBgtBACEEAkADQAJAIAAoAmQgAkEGdGoiAigCJCIIBEAgCCAAKALQBSIGIARrIgVNDQEMBwtBnN/BABDUCQALIAItADwhC0GAgAQhASAFIAhuIgUgAigCICIKIAIoAjgiCWsiAkEAIAIgCk0bIgIgAiAFSxsiAkGAgARNBEAgAiIBRQ0GCwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAtBAWsOAwIBDAALIBEgASAEIAggACgCzAUgBhCPAwwLCyAAKALkAUGAgICAeEcNAQwKCyARIAEgCSAEIAggACgCzAUgBhDmASICDREgAUEDbCICIAAoAoABIgZLDQEgASAAKAKMASIGSw0CIAIgACgCmAEiBksNAyACIAAoAqQBIgZLDQQgAUECdCIGIAAoArABIgVLDQUgACgCfCEFIAAoAogBIQsgACgClAEhCiAAKAKgASEHIANCBDcCoAggA0ICNwKYCCADQgQ3ApAIIANCBDcCiAggA0IENwKACCADIAY2AvwHIAMgAjYC9AcgAyAHNgLwByADIAI2AuwHIAMgCjYC6AcgAyABNgLkByADIAs2AuAHIAMgAjYC3AcgAyAFNgLYByADIAAoAqwBNgL4ByAAIAkgASADQdgHahCTAgwJCyARIAEgBCAIIAAoAswFIAYQ5QEgAUEJbCICIAAoArwBIgZLDQUgACgCuAEhBkEAIQUgACgC0AMiCkECSQRAIAAgCSABIAYgAkEEQQBBBEEAEOIEDAkLIAFBD2wiCyAAKALIASIHSw0GIAAgCSABIAYgAiAAKALEASALIApBAkcEfyABQRVsIgUgACgC1AEiAksNCCAAKALQAQVBBAsgBRDiBAwIC0EAIAIgBkHs38EAENUHAAtBACABIAZB3N/BABDVBwALQQAgAiAGQczfwQAQ1QcAC0EAIAIgBkG838EAENUHAAtBACAGIAVBrN/BABDVBwALQQAgAiAGQZzgwQAQ1QcAC0EAIAsgB0GM4MEAENUHAAtBACAFIAJB/N/BABDVBwALIAAoAsgDIgIgACgCaCIGTw0BIAAoAmQgAkEGdGoiBiAGKAI4IAFqIgU2AjggACgCyAMhAiAGKAIgIAVGBEAgACACQQFqIgI2AsgDCyABIAhsIARqIQQgAiAAKAJoSQ0ACyAAKALQBSEGDAQLIAIgBkGs4MEAEK4HAAtBACABIAlBwIjHABDVBwALQZzCwQBBEBD5ByECDAMLAkACQAJAAkACQAJAAkACQAJAAkAgACgC3AQiAQRAIAAoAtAFIQUgAEGgAWohHCAAKALgBCECA0BBgIAEIQkgBSAMayIEIAFuIgEgACgC2AQiBiACayICQQAgAiAGTRsiAiABIAJJGyIBQYCABE0EQCABIglFDQsLIBEgCRDpAUEBIQFBACELQQAhCkEAIQUCQAJAAkACQANAIAEhBiAAKAKIBCAALQCMBCAAKALMBSAAKALQBSAAKALcBCAFbCAMaiIHEK8EISggBUEDbCIBIAAoAvAEIghPDRAgAUECdCINIAAoAuwEaiAoOAIAIAAoApAEIAAtAJQEIAAoAswFIAAoAtAFIAcQrwQhKCABQQFqIgIgACgC8AQiCE8EQCACIQEMEQsgAkECdCIOIAAoAuwEaiAoOAIAIAAoApgEIAAtAJwEIAAoAswFIAAoAtAFIAcQrwQhKCABQQJqIgQgACgC8AQiCE8EQCAEIQEMEQsgBEECdCIPIAAoAuwEaiAoOAIAIAAoAtAEIAAtANQEIAAoAswFIAAoAtAFIAcQrwQhKCAAKAL8BCIIIAVNBEAgBSAIQZzewQAQrgcACyAAKAL4BCAFQQJ0akMAAIA/ICiMEO4DQwAAgD+SlTgCACAAKAK4BCAALQC8BCAAKALMBSAAKALQBSAHEK8EISggASAAKAKIBSIITw0DIAAoAoQFIA1qIChDu26QPpRDAAAAP5I4AgAgACgCwAQgAC0AxAQgACgCzAUgACgC0AUgBxCvBCEoIAAoAogFIgggAk0EQCACIQEMBAsgACgChAUgDmogKEO7bpA+lEMAAAA/kjgCACAAKALIBCAALQDMBCAAKALMBSAAKALQBSAHEK8EISggACgCiAUiCCAETQRAIAQhAQwECyAAKAKEBSAPaiAoQ7tukD6UQwAAAD+SOAIAIAAoAqAEIAAtAKQEIAAoAswFIAAoAtAFIAcQrwQhKAJAAkACQAJAAkAgASAAKAKUBSIITw0AIAAoApAFIA1qICgQ7gM4AgAgACgCqAQgAC0ArAQgACgCzAUgACgC0AUgBxCvBCEoIAAoApQFIgggAiIBTQ0AIAAoApAFIA5qICgQ7gM4AgAgACgCsAQgAC0AtAQgACgCzAUgACgC0AUgBxCvBCEoIAAoApQFIgggBCIBTQ0AIAAoApAFIA9qICgQ7gM4AgAgACgCgAEgAC0AhAEgACgCzAUgACgC0AUgBxCvBCEoIAAoAogBIAAtAIwBIAAoAswFIAAoAtAFIAcQrwQhKSAAKAKQASAALQCUASAAKALMBSAAKALQBSAHEK8EISogACgCmAEgAC0AnAEgACgCzAUgACgC0AUgBxCvBCErIAVBAnQiASAAKAKgBSICSQ0BDAILIAEgCEHs3sEAEK4HAAsgACgCnAUgAUECdGogKCAoICiUICkgKZSSICogKpSSICsgK5SSkSIolTgCACABQQFyIgQgACgCoAUiAk8EQCAEIQEMAQsgACgCnAUgBEECdGogKSAolTgCACABQQJyIgQgACgCoAUiAk8EQCAEIQEMAQsgACgCnAUgBEECdGogKiAolTgCACABQQNyIgEgACgCoAUiAk8NACAAKAKcBSABQQJ0aiArICiVOAIAIAAtAMQDIgFBCEcNAQwCCyABIAJB3N7BABCuBwALIAAtAIQEIQggACgCgAQgAC0A/AMhDiAAKAL4AyAALQD0AyEQIAAoAvADIAAtAOwDIRMgACgC6AMgAC0A5AMhFSAAKALgAyAALQDcAyEXIAAoAtgDIAAtANQDIRkgACgC0AMgAC0AzAMhBCAAKALIAyAAKALAAyABIAAoAswFIAAoAtAFIAcQrwQhKCAFQQlsIgEgACgCrAUiAk8NAyAAKAKoBSABQQJ0aiAoOAIAIAQgACgCzAUgACgC0AUgBxCvBCEoIAFBAWoiBCAAKAKsBSICTwRAIAQhAQwECyAAKAKoBSAEQQJ0aiAoOAIAIBkgACgCzAUgACgC0AUgBxCvBCEoIAFBAmoiBCAAKAKsBSICTwRAIAQhAQwECyAAKAKoBSAEQQJ0aiAoOAIAIBcgACgCzAUgACgC0AUgBxCvBCEoIAFBA2oiBCAAKAKsBSICTwRAIAQhAQwECyAAKAKoBSAEQQJ0aiAoOAIAIBUgACgCzAUgACgC0AUgBxCvBCEoIAFBBGoiBCAAKAKsBSICTwRAIAQhAQwECyAAKAKoBSAEQQJ0aiAoOAIAIBMgACgCzAUgACgC0AUgBxCvBCEoIAFBBWoiBCAAKAKsBSICTwRAIAQhAQwECyAAKAKoBSAEQQJ0aiAoOAIAIBAgACgCzAUgACgC0AUgBxCvBCEoIAFBBmoiBCAAKAKsBSICTwRAIAQhAQwECyAAKAKoBSAEQQJ0aiAoOAIAIA4gACgCzAUgACgC0AUgBxCvBCEoIAFBB2oiBCAAKAKsBSICTwRAIAQhAQwECyAAKAKoBSAEQQJ0aiAoOAIAIAggACgCzAUgACgC0AUgBxCvBCEoIAFBCGoiASAAKAKsBSICTw0DIAAoAqgFIAFBAnRqICg4AgALIAAtAMwCIgFBCEcEQCAALQC8AyEEIAAoArgDIAAtALQDIQ0gACgCsAMgAC0ArAMhDyAAKAKoAyAALQCkAyESIAAoAqADIAAtAJwDIRQgACgCmAMgAC0AlAMhFiAAKAKQAyAALQCMAyEYIAAoAogDIAAtAIQDIRogACgCgAMgAC0A/AIhHSAAKAL4AiAALQD0AiEfIAAoAvACIAAtAOwCISEgACgC6AIgAC0A5AIhIyAAKALgAiAALQDcAiElIAAoAtgCIAAtANQCIQIgACgC0AIgACgCyAIgASAAKALMBSAAKALQBSAHEK8EISggBUEPbCIBIAAoArgFIgVPDQIgACgCtAUgAUECdGogKDgCACACIAAoAswFIAAoAtAFIAcQrwQhKCABQQFqIgIgACgCuAUiBU8EQCACIQEMAwsgACgCtAUgAkECdGogKDgCACAlIAAoAswFIAAoAtAFIAcQrwQhKCABQQJqIgIgACgCuAUiBU8EQCACIQEMAwsgACgCtAUgAkECdGogKDgCACAjIAAoAswFIAAoAtAFIAcQrwQhKCABQQNqIgIgACgCuAUiBU8EQCACIQEMAwsgACgCtAUgAkECdGogKDgCACAhIAAoAswFIAAoAtAFIAcQrwQhKCABQQRqIgIgACgCuAUiBU8EQCACIQEMAwsgACgCtAUgAkECdGogKDgCACAfIAAoAswFIAAoAtAFIAcQrwQhKCABQQVqIgIgACgCuAUiBU8EQCACIQEMAwsgACgCtAUgAkECdGogKDgCACAdIAAoAswFIAAoAtAFIAcQrwQhKCABQQZqIgIgACgCuAUiBU8EQCACIQEMAwsgACgCtAUgAkECdGogKDgCACAaIAAoAswFIAAoAtAFIAcQrwQhKCABQQdqIgIgACgCuAUiBU8EQCACIQEMAwsgACgCtAUgAkECdGogKDgCACAYIAAoAswFIAAoAtAFIAcQrwQhKCABQQhqIgIgACgCuAUiBU8EQCACIQEMAwsgACgCtAUgAkECdGogKDgCACAWIAAoAswFIAAoAtAFIAcQrwQhKCABQQlqIgIgACgCuAUiBU8EQCACIQEMAwsgACgCtAUgAkECdGogKDgCACAUIAAoAswFIAAoAtAFIAcQrwQhKCABQQpqIgIgACgCuAUiBU8EQCACIQEMAwsgACgCtAUgAkECdGogKDgCACASIAAoAswFIAAoAtAFIAcQrwQhKCABQQtqIgIgACgCuAUiBU8EQCACIQEMAwsgACgCtAUgAkECdGogKDgCACAPIAAoAswFIAAoAtAFIAcQrwQhKCABQQxqIgIgACgCuAUiBU8EQCACIQEMAwsgACgCtAUgAkECdGogKDgCACANIAAoAswFIAAoAtAFIAcQrwQhKCABQQ1qIgIgACgCuAUiBU8EQCACIQEMAwsgACgCtAUgAkECdGogKDgCACAEIAAoAswFIAAoAtAFIAcQrwQhKCABQQ5qIgEgACgCuAUiBU8NAiAAKAK0BSABQQJ0aiAoOAIACwJAIAAtAKQBQQhHBEAgA0HYB2ogHEGoAfwKAABBACEFIAshAiAKIQEDQCADQdgHaiAFaiIEKAIAIARBBGotAAAgACgCzAUgACgC0AUgBxCvBCEoIAEgACgCxAUiBE8NAiAAKALABSACaiAoOAIAIAJBBGohAiABQQFqIQEgBUEIaiIFQagBRw0ACwsgC0HUAGohCyAKQRVqIQogBiAGIAlJIgJqIQEgBiEFIAJFDQUMAQsLIAEgBEHM3sEAEK4HAAsgASAFQbzewQAQrgcACyABIAJBrN7BABCuBwALIAEgCEH83sEAEK4HAAsgCUEDbCIBIAAoAvAEIgJLDQIgCSAAKAL8BCICSw0DIAEgACgCiAUiAksNBCABIAAoApQFIgJLDQUgCUECdCICIAAoAqAFIgRLDQYgCUEJbEEAIAAoAuQEIgQbIgYgACgCrAUiBUsNByAJQQ9sQQAgBEEBSxsiBSAAKAK4BSIISw0IIAlBFWxBACAEQQJLGyIEIAAoAsQFIghLDQkgACgC4AQhCCAAKALsBCELIAAoAvgEIQogACgChAUhByAAKAKQBSENIAAoApwFIQ4gACgCqAUhDyAAKAK0BSEQIANCBDcCoAggA0ICNwKYCCADIAQ2ApQIIAMgBTYCjAggAyAQNgKICCADIAY2AoQIIAMgDzYCgAggAyACNgL8ByADIA42AvgHIAMgATYC9AcgAyANNgLwByADIAE2AuwHIAMgBzYC6AcgAyAJNgLkByADIAo2AuAHIAMgATYC3AcgAyALNgLYByADIAAoAsAFNgKQCCAAIAggCSADQdgHahCTAiAAIAAoAuAEIAlqIgI2AuAEIAAoAtwEIgEgCWwgDGohDCAAKALQBSEFIAENAAsLQYzdwQAQ1AkAC0EAIAEgAkGM3sEAENUHAAtBACAJIAJB/N3BABDVBwALQQAgASACQezdwQAQ1QcAC0EAIAEgAkHc3cEAENUHAAtBACACIARBzN3BABDVBwALQQAgBiAFQbzdwQAQ1QcAC0EAIAUgCEGs3cEAENUHAAtBACAEIAhBnN3BABDVBwALIAUgDE8EQEEAIQIgAEEANgLQBQJAIAwEQCAFIAxGDQYgBEUNASAAKALMBSIBIAEgDGogBPwKAAAgACAENgLQBQwGCyAFIAxGDQULIAAgBDYC0AUMBAtBACAMIAVBwIjHABDVBwALIAEgCEGM38EAEK4HAAsgBCAGSw0CQQAhAiAAQQA2AtAFIAYgBGshASAEBEAgBCAGRg0CIAEEQCAAKALMBSIGIAQgBmogAfwKAAALIAAgATYC0AUMAgsgBCAGRg0BCyAAIAE2AtAFCyADQcAMaiQAIAIPC0EAIAQgBkHAiMcAENUHAAtBACABIAJB3NzBABDVBwAL/icEGn8FfQJ+AXsjAEHQAmsiGiQAQoCAgICAgICAwAAgAa0iJYAiJiAlfkKAgICAgICAgMAAUq0CfyABQYEgTwRAQQEgAUEBcmdBH3MiBkEBdiAGQQFxaiIGdCABIAZ2akEBdgwBC0HAACABIAFBAXZrIgYgBkHAAE8bCyEbICZ8ISYgAEEEayEdIABBEGshHiAAQQhqIRxBASEKAkADQEEAIRNBASEOIAEgFUsiHwRAIAAgFUECdCIWaiETIBWtIiUCfwJAIAEgFWsiDSAbSQ0AAkAgDUECSQRAIA0hBwwBC0MAAIA/ISECfwJAIBMoAgQiBiAFKAIAQQRqKAIAIhAoAggiFEkEQCATKAIAIQkgECgCBCIRIAZBGGxqIgstABMiCCALLQASIg4gCy0AESIHIAcgDkkbIgcgByAISRsiDgR9QwAAQMEgECoCRCAQLQBYQQJGIgcbIiBDAAAQQSAQKgJIIAcbICCTQwAAfkOVIA5BAWtB/wFxs5SSEO4DIiAgIJIFQwAAAAALISMgC0EMai8BACIHQf//AXFFDQEgB0H/B3EhCCAHQYCAAnEhDiAHQYD4AXEiB0GA+AFHBEAgDkEQdCIOIAdBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgBw0DGiAIIAhnQRBrIgdB//8DcUEIanRB////A3EgDkGAgIDYA3IgB0EXdGtyDAMLIA5BEHQiByAIQQ10ckGAgID+B3IgCA0CGiAHQYCAgPwHcgwCCwwHCyAHQRB0C74iIEMAAIA/XgRAICAQugVDVPgtQJRDAACAP5KRISELQwAAgD8hIgJ/AkAgCSAUSQRAIBEgCUEYbGoiCy0AEyIIIAstABIiDiALLQARIgcgByAOSRsiByAHIAhJGyIOBH1DAABAwSAQKgJEIBAtAFhBAkYiBxsiIEMAABBBIBAqAkggBxsgIJNDAAB+Q5UgDkEBa0H/AXGzlJIQ7gMiICAgkgVDAAAAAAshJCALQQxqLwEAIgdB//8BcUUNASAHQf8HcSEIIAdBgIACcSEOIAdBgPgBcSIHQYD4AUcEQCAOQRB0Ig4gB0ENdEGAgID8AHEgCEENdHJBgICAwANqciAHDQMaIAggCGdBEGsiB0H//wNxQQhqdEH///8DcSAOQYCAgNgDciAHQRd0a3IMAwsgDkEQdCIHIAhBDXRyQYCAgP4HciAIDQIaIAdBgICA/AdyDAILIAkgFEGcnscAEK4HAAsgB0EQdAu+IiBDAACAP14EQCAgELoFQ1T4LUCUQwAAgD+SkSEiCwJAAkACQAJAICMgIZQiICAgWyAgICQgIpRgRXEiD0UEQEECIQcgDUECRg0FIBwgFUECdGohEgNAQwAAgD8hIQJ/AkAgFCASKAIAIg5LBEAgESAOQRhsaiIYLQATIgkgGC0AEiILIBgtABEiCCAIIAtJGyIIIAggCUkbIgsEfUMAAEDBIBAqAkQgEC0AWEECRiIIGyIgQwAAEEEgECoCSCAIGyAgk0MAAH5DlSALQQFrQf8BcbOUkhDuAyIgICCSBUMAAAAACyEjIBhBDGovAQAiCEH//wFxRQ0BIAhB/wdxIQkgCEGAgAJxIQsgCEGA+AFxIghBgPgBRwRAIAtBEHQiCyAIQQ10QYCAgPwAcSAJQQ10ckGAgIDAA2pyIAgNAxogCSAJZ0EQayIIQf//A3FBCGp0Qf///wNxIAtBgICA2ANyIAhBF3RrcgwDCyALQRB0IgggCUENdHJBgICA/gdyIAkNAhogCEGAgID8B3IMAgsgDiAUQZyexwAQrgcACyAIQRB0C74iIEMAAIA/XgRAICAQugVDVPgtQJRDAACAP5KRISELQwAAgD8hIgJ/AkAgBiAUSQRAIBEgBkEYbGoiCS0AEyILIAktABIiCCAJLQARIgYgBiAISRsiBiAGIAtJGyIIBH1DAABAwSAQKgJEIBAtAFhBAkYiBhsiIEMAABBBIBAqAkggBhsgIJNDAAB+Q5UgCEEBa0H/AXGzlJIQ7gMiICAgkgVDAAAAAAshJCAJQQxqLwEAIgZB//8BcUUNASAGQf8HcSELIAZBgIACcSEIIAZBgPgBcSIGQYD4AUcEQCAIQRB0IgggBkENdEGAgID8AHEgC0ENdHJBgICAwANqciAGDQMaIAsgC2dBEGsiBkH//wNxQQhqdEH///8DcSAIQYCAgNgDciAGQRd0a3IMAwsgCEEQdCIGIAtBDXRyQYCAgP4HciALDQIaIAZBgICA/AdyDAILDA0LIAZBEHQLviIgQwAAgD9eBEAgIBC6BUNU+C1AlEMAAIA/kpEhIgsgIyAhlCIgICBbICAgJCAilGBFcQ0DIBJBBGohEiAOIQYgDSAHQQFqIgdHDQALDAELIA1BAkYNAkECIQcgHCAVQQJ0aiESA0BDAACAPyEhAn8CQCAUIBIoAgAiDksEQCARIA5BGGxqIhgtABMiCSAYLQASIgsgGC0AESIIIAggC0kbIgggCCAJSRsiCwR9QwAAQMEgECoCRCAQLQBYQQJGIggbIiBDAAAQQSAQKgJIIAgbICCTQwAAfkOVIAtBAWtB/wFxs5SSEO4DIiAgIJIFQwAAAAALISMgGEEMai8BACIIQf//AXFFDQEgCEH/B3EhCSAIQYCAAnEhCyAIQYD4AXEiCEGA+AFHBEAgC0EQdCILIAhBDXRBgICA/ABxIAlBDXRyQYCAgMADanIgCA0DGiAJIAlnQRBrIghB//8DcUEIanRB////A3EgC0GAgIDYA3IgCEEXdGtyDAMLIAtBEHQiCCAJQQ10ckGAgID+B3IgCQ0CGiAIQYCAgPwHcgwCCyAOIBRBnJ7HABCuBwALIAhBEHQLviIgQwAAgD9eBEAgIBC6BUNU+C1AlEMAAIA/kpEhIQtDAACAPyEiAn8CQCAGIBRJBEAgESAGQRhsaiIJLQATIgsgCS0AEiIIIAktABEiBiAGIAhJGyIGIAYgC0kbIggEfUMAAEDBIBAqAkQgEC0AWEECRiIGGyIgQwAAEEEgECoCSCAGGyAgk0MAAH5DlSAIQQFrQf8BcbOUkhDuAyIgICCSBUMAAAAACyEkIAlBDGovAQAiBkH//wFxRQ0BIAZB/wdxIQsgBkGAgAJxIQggBkGA+AFxIgZBgPgBRwRAIAhBEHQiCCAGQQ10QYCAgPwAcSALQQ10ckGAgIDAA2pyIAYNAxogCyALZ0EQayIGQf//A3FBCGp0Qf///wNxIAhBgICA2ANyIAZBF3RrcgwDCyAIQRB0IgYgC0ENdHJBgICA/gdyIAsNAhogBkGAgID8B3IMAgsMDAsgBkEQdAu+IiBDAACAP14EQCAgELoFQ1T4LUCUQwAAgD+SkSEiCyAjICGUIiAgIFwgICAkICKUYHINAiASQQRqIRIgDiEGIA0gB0EBaiIHRw0ACwsgDSEHCyAHIBtJDQMgD0UNAiAHQQJJBEBBASEHDAMLIAdBAXYhDiATIAdBAnQiBmohCEEAIQkgB0EISQ0BIB4gBiAWamohDSAOQfz///8HcSIJIQYDQCATIA39AAIAIBP9AAIAIif9DQwNDg8ICQoLBAUGBwABAgP9CwIAIA0gJyAn/Q0MDQ4PCAkKCwQFBgcAAQID/QsCACANQRBrIQ0gE0EQaiETIAZBBGsiBg0ACyAJIA5GDQIMAQsgE0EIaiEIQQAhCUEBIQ5BAiEHCyAAIAlBAnQiBiAWamohDSAOIAlrIQkgCCAGa0EEayEGA0AgDSgCACEOIA0gBigCADYCACAGIA42AgAgBkEEayEGIA1BBGohDSAJQQFrIgkNAAsLIAdBAXRBAXIMAQsgDSAbIA0gG0kbQQF0IARFDQAaIBNBICANIA1BIE8bIgYgAiADQQBBACAFEDcgBkEBdEEBcgsiDkEBdiAVaq18ICZ+IBUgCkEBdmutICV8ICZ+hXmnIRMLAkACQCAMQQJJDQAgHSAVQQJ0IgZqIQggACAGaiEYA0AgDEEBayILIBpBjgJqai0AACATSQ0BAn8CQAJAIAMgGkEEaiALQQJ0aigCACIGQQF2Ig8gCkEBdiIMaiIUTyAGIApyQQFxRXFFBEAgACAVIBRrQQJ0aiENIAZBAXFFDQEMAgsgFEEBdAwCCyANIA8gAiADIA9BAXJnQQF0QT5zQQAgBRA3CyAKQQFxRQRAIA0gD0ECdGogDCACIAMgDEEBcmdBAXRBPnNBACAFEDcLAkAgBkECSSAKQQJJcg0AIAMgDCAPIAwgD0kiCRsiB0kNACAFKAIAIA0gD0ECdGohDCAHQQJ0IgcEQCACIAwgDSAJGyAH/AoAAAsgAiAHaiEHQQRqIgooAgAiFygCCCEZAkAgCUUEQCACIQYDQEMAAIA/ISECfwJAIBkgDCgCACIKSwRAIAYoAgAhEiAXKAIEIhYgCkEYbGoiES0AEyIPIBEtABIiCSARLQARIgogCSAKSxsiCiAKIA9JGyIJBH1DAABAwSAXKgJEIBctAFhBAkYiChsiIEMAABBBIBcqAkggChsgIJNDAAB+Q5UgCUEBa0H/AXGzlJIQ7gMiICAgkgVDAAAAAAshIyARQQxqLwEAIgpB//8BcUUNASAKQf8HcSEPIApBgIACcSEJIApBgPgBcSIKQYD4AUcEQCAJQRB0IgkgCkENdEGAgID8AHEgD0ENdHJBgICAwANqciAKDQMaIA8gD2dBEGsiCkH//wNxQQhqdEH///8DcSAJQYCAgNgDciAKQRd0a3IMAwsgCUEQdCIKIA9BDXRyQYCAgP4HciAPDQIaIApBgICA/AdyDAILIAogGUGcnscAEK4HAAsgCkEQdAu+IiBDAACAP14EQCAgELoFQ1T4LUCUQwAAgD+SkSEhC0MAAIA/ISICfwJAIBIgGUkEQCAWIBJBGGxqIhYtABMiDyAWLQASIgkgFi0AESIKIAkgCksbIgogCiAPSRsiCQR9QwAAQMEgFyoCRCAXLQBYQQJGIgobIiBDAAAQQSAXKgJIIAobICCTQwAAfkOVIAlBAWtB/wFxs5SSEO4DIiAgIJIFQwAAAAALISQgFkEMai8BACIKQf//AXFFDQEgCkH/B3EhDyAKQYCAAnEhCSAKQYD4AXEiCkGA+AFHBEAgCUEQdCIJIApBDXRBgICA/ABxIA9BDXRyQYCAgMADanIgCg0DGiAPIA9nQRBrIgpB//8DcUEIanRB////A3EgCUGAgIDYA3IgCkEXdGtyDAMLIAlBEHQiCiAPQQ10ckGAgID+B3IgDw0CGiAKQYCAgPwHcgwCCyASIBlBnJ7HABCuBwALIApBEHQLviIgQwAAgD9eBEAgIBC6BUNU+C1AlEMAAIA/kpEhIgsgDSAMIAYgIyAhlCIgICBbICAgJCAilGBFcSIKGygCADYCACANQQRqIQ0gBiAKRUECdGoiBiAHRg0CIAwgCkECdGoiDCAYRw0ACwwBCyAIIQkDQEMAAIA/ISECfwJAIBkgB0EEayIWKAIAIgZLBEAgDEEEayIPKAIAIRIgFygCBCAGQRhsaiIRLQATIgcgES0AEiIMIBEtABEiBiAGIAxJGyIGIAYgB0kbIgwEfUMAAEDBIBcqAkQgFy0AWEECRiIGGyIgQwAAEEEgFyoCSCAGGyAgk0MAAH5DlSAMQQFrQf8BcbOUkhDuAyIgICCSBUMAAAAACyEjIBFBDGovAQAiBkH//wFxRQ0BIAZB/wdxIQcgBkGAgAJxIQwgBkGA+AFxIgZBgPgBRwRAIAxBEHQiDCAGQQ10QYCAgPwAcSAHQQ10ckGAgIDAA2pyIAYNAxogByAHZ0EQayIGQf//A3FBCGp0Qf///wNxIAxBgICA2ANyIAZBF3RrcgwDCyAMQRB0IgYgB0ENdHJBgICA/gdyIAcNAhogBkGAgID8B3IMAgsgBiAZQZyexwAQrgcACyAGQRB0C74iIEMAAIA/XgRAICAQugVDVPgtQJRDAACAP5KRISELQwAAgD8hIgJ/AkAgCigCACIQKAIIIgYgEksEQCAQKAIEIBJBGGxqIhEtABMiByARLQASIgwgES0AESIGIAYgDEkbIgYgBiAHSRsiDAR9QwAAQMEgECoCRCAQLQBYQQJGIgYbIiBDAAAQQSAQKgJIIAYbICCTQwAAfkOVIAxBAWtB/wFxs5SSEO4DIiAgIJIFQwAAAAALISQgEUEMai8BACIGQf//AXFFDQEgBkH/B3EhByAGQYCAAnEhDCAGQYD4AXEiBkGA+AFHBEAgDEEQdCIMIAZBDXRBgICA/ABxIAdBDXRyQYCAgMADanIgBg0DGiAHIAdnQRBrIgZB//8DcUEIanRB////A3EgDEGAgIDYA3IgBkEXdGtyDAMLIAxBEHQiBiAHQQ10ckGAgID+B3IgBw0CGiAGQYCAgPwHcgwCCyASIAZBnJ7HABCuBwALIAZBEHQLviIgQwAAgD9eBEAgIBC6BUNU+C1AlEMAAIA/kpEhIgsgCSAPIBYgIyAhlCIgICBbICAgJCAilGBFcSIGGygCADYCACAWIAZBAnRqIQcgDSAPIAZFQQJ0aiIMRwRAIAlBBGshCSACIAdHDQELCyAMIQ0gAiEGCyAHIAZrIgxFDQAgDSAGIAz8CgAACyAUQQF0QQFyCyEKQQEhDSALIgxBAUsNAAsMAQsgDCENCyAaQY4CaiANaiATOgAAIBpBBGogDUECdGogCjYCACAfBEAgDUEBaiEMIA5BAXYgFWohFSAOIQoMAQsLIApBAXFFBEAgACABIAIgAyABQQFyZ0EBdEE+c0EAIAUQNwsgGkHQAmokAA8LIAYgFEGcnscAEK4HAAv+JwQafwV9An4BeyMAQdACayIaJABCgICAgICAgIDAACABrSIlgCImICV+QoCAgICAgICAwABSrQJ/IAFBgSBPBEBBASABQQFyZ0EfcyIGQQF2IAZBAXFqIgZ0IAEgBnZqQQF2DAELQcAAIAEgAUEBdmsiBiAGQcAATxsLIRsgJnwhJiAAQQRrIR0gAEEQayEeIABBCGohHEEBIQoCQANAQQAhE0EBIQ4gASAVSyIfBEAgACAVQQJ0IhZqIRMgFa0iJQJ/AkAgASAVayINIBtJDQACQCANQQJJBEAgDSEHDAELQwAAgD8hIQJ/AkAgEygCBCIGIAUoAgBBBGooAgAiECgCCCIUSQRAIBMoAgAhCSAQKAIEIhEgBkEYbGoiCy0AEyIIIAstABIiDiALLQARIgcgByAOSRsiByAHIAhJGyIOBH1DAABAwSAQKgJEIBAtAFhBAkYiBxsiIEMAABBBIBAqAkggBxsgIJNDAAB+Q5UgDkEBa0H/AXGzlJIQ7gMiICAgkgVDAAAAAAshIyALQQxqLwEAIgdB//8BcUUNASAHQf8HcSEIIAdBgIACcSEOIAdBgPgBcSIHQYD4AUcEQCAOQRB0Ig4gB0ENdEGAgID8AHEgCEENdHJBgICAwANqciAHDQMaIAggCGdBEGsiB0H//wNxQQhqdEH///8DcSAOQYCAgNgDciAHQRd0a3IMAwsgDkEQdCIHIAhBDXRyQYCAgP4HciAIDQIaIAdBgICA/AdyDAILDAcLIAdBEHQLviIgQwAAgD9eBEAgIBC6BUNU+C1AlEMAAIA/kpEhIQtDAACAPyEiAn8CQCAJIBRJBEAgESAJQRhsaiILLQATIgggCy0AEiIOIAstABEiByAHIA5JGyIHIAcgCEkbIg4EfUMAAEDBIBAqAkQgEC0AWEECRiIHGyIgQwAAEEEgECoCSCAHGyAgk0MAAH5DlSAOQQFrQf8BcbOUkhDuAyIgICCSBUMAAAAACyEkIAtBDGovAQAiB0H//wFxRQ0BIAdB/wdxIQggB0GAgAJxIQ4gB0GA+AFxIgdBgPgBRwRAIA5BEHQiDiAHQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAcNAxogCCAIZ0EQayIHQf//A3FBCGp0Qf///wNxIA5BgICA2ANyIAdBF3RrcgwDCyAOQRB0IgcgCEENdHJBgICA/gdyIAgNAhogB0GAgID8B3IMAgsgCSAUQZyexwAQrgcACyAHQRB0C74iIEMAAIA/XgRAICAQugVDVPgtQJRDAACAP5KRISILAkACQAJAAkAgIyAhlCIgICBbICAgJCAilGBFcSIPRQRAQQIhByANQQJGDQUgHCAVQQJ0aiESA0BDAACAPyEhAn8CQCAUIBIoAgAiDksEQCARIA5BGGxqIhgtABMiCSAYLQASIgsgGC0AESIIIAggC0kbIgggCCAJSRsiCwR9QwAAQMEgECoCRCAQLQBYQQJGIggbIiBDAAAQQSAQKgJIIAgbICCTQwAAfkOVIAtBAWtB/wFxs5SSEO4DIiAgIJIFQwAAAAALISMgGEEMai8BACIIQf//AXFFDQEgCEH/B3EhCSAIQYCAAnEhCyAIQYD4AXEiCEGA+AFHBEAgC0EQdCILIAhBDXRBgICA/ABxIAlBDXRyQYCAgMADanIgCA0DGiAJIAlnQRBrIghB//8DcUEIanRB////A3EgC0GAgIDYA3IgCEEXdGtyDAMLIAtBEHQiCCAJQQ10ckGAgID+B3IgCQ0CGiAIQYCAgPwHcgwCCyAOIBRBnJ7HABCuBwALIAhBEHQLviIgQwAAgD9eBEAgIBC6BUNU+C1AlEMAAIA/kpEhIQtDAACAPyEiAn8CQCAGIBRJBEAgESAGQRhsaiIJLQATIgsgCS0AEiIIIAktABEiBiAGIAhJGyIGIAYgC0kbIggEfUMAAEDBIBAqAkQgEC0AWEECRiIGGyIgQwAAEEEgECoCSCAGGyAgk0MAAH5DlSAIQQFrQf8BcbOUkhDuAyIgICCSBUMAAAAACyEkIAlBDGovAQAiBkH//wFxRQ0BIAZB/wdxIQsgBkGAgAJxIQggBkGA+AFxIgZBgPgBRwRAIAhBEHQiCCAGQQ10QYCAgPwAcSALQQ10ckGAgIDAA2pyIAYNAxogCyALZ0EQayIGQf//A3FBCGp0Qf///wNxIAhBgICA2ANyIAZBF3RrcgwDCyAIQRB0IgYgC0ENdHJBgICA/gdyIAsNAhogBkGAgID8B3IMAgsMDQsgBkEQdAu+IiBDAACAP14EQCAgELoFQ1T4LUCUQwAAgD+SkSEiCyAjICGUIiAgIFsgICAkICKUYEVxDQMgEkEEaiESIA4hBiANIAdBAWoiB0cNAAsMAQsgDUECRg0CQQIhByAcIBVBAnRqIRIDQEMAAIA/ISECfwJAIBQgEigCACIOSwRAIBEgDkEYbGoiGC0AEyIJIBgtABIiCyAYLQARIgggCCALSRsiCCAIIAlJGyILBH1DAABAwSAQKgJEIBAtAFhBAkYiCBsiIEMAABBBIBAqAkggCBsgIJNDAAB+Q5UgC0EBa0H/AXGzlJIQ7gMiICAgkgVDAAAAAAshIyAYQQxqLwEAIghB//8BcUUNASAIQf8HcSEJIAhBgIACcSELIAhBgPgBcSIIQYD4AUcEQCALQRB0IgsgCEENdEGAgID8AHEgCUENdHJBgICAwANqciAIDQMaIAkgCWdBEGsiCEH//wNxQQhqdEH///8DcSALQYCAgNgDciAIQRd0a3IMAwsgC0EQdCIIIAlBDXRyQYCAgP4HciAJDQIaIAhBgICA/AdyDAILIA4gFEGcnscAEK4HAAsgCEEQdAu+IiBDAACAP14EQCAgELoFQ1T4LUCUQwAAgD+SkSEhC0MAAIA/ISICfwJAIAYgFEkEQCARIAZBGGxqIgktABMiCyAJLQASIgggCS0AESIGIAYgCEkbIgYgBiALSRsiCAR9QwAAQMEgECoCRCAQLQBYQQJGIgYbIiBDAAAQQSAQKgJIIAYbICCTQwAAfkOVIAhBAWtB/wFxs5SSEO4DIiAgIJIFQwAAAAALISQgCUEMai8BACIGQf//AXFFDQEgBkH/B3EhCyAGQYCAAnEhCCAGQYD4AXEiBkGA+AFHBEAgCEEQdCIIIAZBDXRBgICA/ABxIAtBDXRyQYCAgMADanIgBg0DGiALIAtnQRBrIgZB//8DcUEIanRB////A3EgCEGAgIDYA3IgBkEXdGtyDAMLIAhBEHQiBiALQQ10ckGAgID+B3IgCw0CGiAGQYCAgPwHcgwCCwwMCyAGQRB0C74iIEMAAIA/XgRAICAQugVDVPgtQJRDAACAP5KRISILICMgIZQiICAgXCAgICQgIpRgcg0CIBJBBGohEiAOIQYgDSAHQQFqIgdHDQALCyANIQcLIAcgG0kNAyAPRQ0CIAdBAkkEQEEBIQcMAwsgB0EBdiEOIBMgB0ECdCIGaiEIQQAhCSAHQQhJDQEgHiAGIBZqaiENIA5B/P///wdxIgkhBgNAIBMgDf0AAgAgE/0AAgAiJ/0NDA0ODwgJCgsEBQYHAAECA/0LAgAgDSAnICf9DQwNDg8ICQoLBAUGBwABAgP9CwIAIA1BEGshDSATQRBqIRMgBkEEayIGDQALIAkgDkYNAgwBCyATQQhqIQhBACEJQQEhDkECIQcLIAAgCUECdCIGIBZqaiENIA4gCWshCSAIIAZrQQRrIQYDQCANKAIAIQ4gDSAGKAIANgIAIAYgDjYCACAGQQRrIQYgDUEEaiENIAlBAWsiCQ0ACwsgB0EBdEEBcgwBCyANIBsgDSAbSRtBAXQgBEUNABogE0EgIA0gDUEgTxsiBiACIANBAEEAIAUQOCAGQQF0QQFyCyIOQQF2IBVqrXwgJn4gFSAKQQF2a60gJXwgJn6FeachEwsCQAJAIAxBAkkNACAdIBVBAnQiBmohCCAAIAZqIRgDQCAMQQFrIgsgGkGOAmpqLQAAIBNJDQECfwJAAkAgAyAaQQRqIAtBAnRqKAIAIgZBAXYiDyAKQQF2IgxqIhRPIAYgCnJBAXFFcUUEQCAAIBUgFGtBAnRqIQ0gBkEBcUUNAQwCCyAUQQF0DAILIA0gDyACIAMgD0EBcmdBAXRBPnNBACAFEDgLIApBAXFFBEAgDSAPQQJ0aiAMIAIgAyAMQQFyZ0EBdEE+c0EAIAUQOAsCQCAGQQJJIApBAklyDQAgAyAMIA8gDCAPSSIJGyIHSQ0AIAUoAgAgDSAPQQJ0aiEMIAdBAnQiBwRAIAIgDCANIAkbIAf8CgAACyACIAdqIQdBBGoiCigCACIXKAIIIRkCQCAJRQRAIAIhBgNAQwAAgD8hIQJ/AkAgGSAMKAIAIgpLBEAgBigCACESIBcoAgQiFiAKQRhsaiIRLQATIg8gES0AEiIJIBEtABEiCiAJIApLGyIKIAogD0kbIgkEfUMAAEDBIBcqAkQgFy0AWEECRiIKGyIgQwAAEEEgFyoCSCAKGyAgk0MAAH5DlSAJQQFrQf8BcbOUkhDuAyIgICCSBUMAAAAACyEjIBFBDGovAQAiCkH//wFxRQ0BIApB/wdxIQ8gCkGAgAJxIQkgCkGA+AFxIgpBgPgBRwRAIAlBEHQiCSAKQQ10QYCAgPwAcSAPQQ10ckGAgIDAA2pyIAoNAxogDyAPZ0EQayIKQf//A3FBCGp0Qf///wNxIAlBgICA2ANyIApBF3RrcgwDCyAJQRB0IgogD0ENdHJBgICA/gdyIA8NAhogCkGAgID8B3IMAgsgCiAZQZyexwAQrgcACyAKQRB0C74iIEMAAIA/XgRAICAQugVDVPgtQJRDAACAP5KRISELQwAAgD8hIgJ/AkAgEiAZSQRAIBYgEkEYbGoiFi0AEyIPIBYtABIiCSAWLQARIgogCSAKSxsiCiAKIA9JGyIJBH1DAABAwSAXKgJEIBctAFhBAkYiChsiIEMAABBBIBcqAkggChsgIJNDAAB+Q5UgCUEBa0H/AXGzlJIQ7gMiICAgkgVDAAAAAAshJCAWQQxqLwEAIgpB//8BcUUNASAKQf8HcSEPIApBgIACcSEJIApBgPgBcSIKQYD4AUcEQCAJQRB0IgkgCkENdEGAgID8AHEgD0ENdHJBgICAwANqciAKDQMaIA8gD2dBEGsiCkH//wNxQQhqdEH///8DcSAJQYCAgNgDciAKQRd0a3IMAwsgCUEQdCIKIA9BDXRyQYCAgP4HciAPDQIaIApBgICA/AdyDAILIBIgGUGcnscAEK4HAAsgCkEQdAu+IiBDAACAP14EQCAgELoFQ1T4LUCUQwAAgD+SkSEiCyANIAwgBiAjICGUIiAgIFsgICAkICKUYEVxIgobKAIANgIAIA1BBGohDSAGIApFQQJ0aiIGIAdGDQIgDCAKQQJ0aiIMIBhHDQALDAELIAghCQNAQwAAgD8hIQJ/AkAgGSAHQQRrIhYoAgAiBksEQCAMQQRrIg8oAgAhEiAXKAIEIAZBGGxqIhEtABMiByARLQASIgwgES0AESIGIAYgDEkbIgYgBiAHSRsiDAR9QwAAQMEgFyoCRCAXLQBYQQJGIgYbIiBDAAAQQSAXKgJIIAYbICCTQwAAfkOVIAxBAWtB/wFxs5SSEO4DIiAgIJIFQwAAAAALISMgEUEMai8BACIGQf//AXFFDQEgBkH/B3EhByAGQYCAAnEhDCAGQYD4AXEiBkGA+AFHBEAgDEEQdCIMIAZBDXRBgICA/ABxIAdBDXRyQYCAgMADanIgBg0DGiAHIAdnQRBrIgZB//8DcUEIanRB////A3EgDEGAgIDYA3IgBkEXdGtyDAMLIAxBEHQiBiAHQQ10ckGAgID+B3IgBw0CGiAGQYCAgPwHcgwCCyAGIBlBnJ7HABCuBwALIAZBEHQLviIgQwAAgD9eBEAgIBC6BUNU+C1AlEMAAIA/kpEhIQtDAACAPyEiAn8CQCAKKAIAIhAoAggiBiASSwRAIBAoAgQgEkEYbGoiES0AEyIHIBEtABIiDCARLQARIgYgBiAMSRsiBiAGIAdJGyIMBH1DAABAwSAQKgJEIBAtAFhBAkYiBhsiIEMAABBBIBAqAkggBhsgIJNDAAB+Q5UgDEEBa0H/AXGzlJIQ7gMiICAgkgVDAAAAAAshJCARQQxqLwEAIgZB//8BcUUNASAGQf8HcSEHIAZBgIACcSEMIAZBgPgBcSIGQYD4AUcEQCAMQRB0IgwgBkENdEGAgID8AHEgB0ENdHJBgICAwANqciAGDQMaIAcgB2dBEGsiBkH//wNxQQhqdEH///8DcSAMQYCAgNgDciAGQRd0a3IMAwsgDEEQdCIGIAdBDXRyQYCAgP4HciAHDQIaIAZBgICA/AdyDAILIBIgBkGcnscAEK4HAAsgBkEQdAu+IiBDAACAP14EQCAgELoFQ1T4LUCUQwAAgD+SkSEiCyAJIA8gFiAjICGUIiAgIFsgICAkICKUYEVxIgYbKAIANgIAIBYgBkECdGohByANIA8gBkVBAnRqIgxHBEAgCUEEayEJIAIgB0cNAQsLIAwhDSACIQYLIAcgBmsiDEUNACANIAYgDPwKAAALIBRBAXRBAXILIQpBASENIAsiDEEBSw0ACwwBCyAMIQ0LIBpBjgJqIA1qIBM6AAAgGkEEaiANQQJ0aiAKNgIAIB8EQCANQQFqIQwgDkEBdiAVaiEVIA4hCgwBCwsgCkEBcUUEQCAAIAEgAiADIAFBAXJnQQF0QT5zQQAgBRA4CyAaQdACaiQADwsgBiAUQZyexwAQrgcAC9srAxh/BX4BeyMAQdAGayIEJAAgBEHQAGogAUHwBPwKAAAgBEIANwPABSAEIAOtIh83A8gFAkACQAJAAkACQAJAAkACQAJAAkACfwJAAkAgBCgCeEECRwRAIARBQGsgBCgCsAMiBq0gBCgCrAMiDK1+IAQtALgFQQN0KQPg70gQxgYgBCkDSFBFBEAgBP0MAAAAAAAAAAD///////////0LBNAFDAkLIAQpA0AhHCAEQgA3A9AFIAQgHDcD2AUgHCAfUg0IIARB8ABqIQ5BJiEHIAQoAqwFRQRAQQEhDAwHCyAELQDUBEUNAiAEQdAFaiAOEI4BIAQtANAFQShGDQEgBCgC0AUiB0EIdgwDCwwICyAEKAJ4QQJGDQcgBCgCsAMhBiAEKAKsAyEMCyAEQThqIA4QiQVCACEcIAQtADhBA3QpA7DwSCAEMQA5IAytfn4iHULx/////wBaBEAMAwsgBq0gHUIHfEIDiH4iHUIgiKcNAiAdpyIMQQBIDQICQCADIAxPBEAgBEEwaiAOEIkFIAQtADEhBiAELQAwIQkgBCgCyAQgBEEoaiAOEIkFIAQtAChBAnQoAujwSGwhDAJAAkACQCAELQApIgdBCGsOCQIAAAAAAAAAAQALIAdBCE0EQCAMQQggB24iB24iCyAMIAcgC2xHaiEMDAILDAsLIAxBAXQhDAsgBCgCeEECRwRAAkAgBC0AtANFBEAgDEUNASAEKAK4BCELIAQoArQEIQUgBCAEKALMBCIHNgLkBSAEIAcgCyAFQQJGGyIHNgLoBSAEIAw2AuAFIAQgAyAMcCIFNgLUBSAEIAMgBWsiBTYC3AUgBCACNgLYBSAEIAIgBWo2AtAFA0ACQCAHRQRAIAQoAuQFIgdFDQcgBCAHQQFrNgLkBSAEKALcBSIFIAQoAuAFIgdJDQcgBCAFIAdrNgLcBSAEIAQoAtgFIgwgB2o2AtgFDAELIARBADYC6AUgBEEgaiEJAkACQCAHIARB0AVqIggoAhQiBU8EQCAFDQFBACELDAILIAggBSAHQX9zajYCFAJAIAetIAgoAhAiB61+Ih1CIIhQBEAgCCgCDCIFIB2nIgtLDQELIAhCATcCCEEAIQsMAgsgCCAFIAtrIgU2AgwgCCAIKAIIIAtqIgs2AgggBSAHSQRAQQAhCwwCCyAIIAUgB2s2AgwgCCAHIAtqNgIIDAELAkACQCAFQQFrrSAIKAIQIgetfiIdQiCIUARAIAgoAgwiBSAdpyIGSw0BCyAIQgE3AggMAQsgCCAFIAZrIgs2AgwgCCAIKAIIIAZqIgU2AgggByALSw0AIAggCyAHazYCDCAIIAUgB2o2AggLQQAhCyAIQQA2AhQLIAkgBzYCBCAJIAs2AgAgBCgCICIMRQ0GIAQoAiQhBwsgBEHABWogDiAEKALQBCAMIAcQiAEgBC0AwAUiB0EoRwRAIAQvAMEFIAQtAMMFQRB0ciEGIAQpAsgFIRwgBCgCxAUhDAwKBSAEKALoBSEHDAELAAsACyAEKAKsAyAEQRhqIA4QiQUgBC0AGEECdCgChPFIbCEQAkACQAJAIAQtABkiB0EIaw4JAgAAAAAAAAABAAsgB0EITQRAIBBBCCAHbiIFbiIHIBAgBSAHbEdqIRAMAgsMDQsgEEEBdCEQCyAEQagFaiIHKAIAIQwgB0EANgIAIARByAVqIhggDDYCACAEKQOgBSEdIARCgICAgBA3A6AFIAQgHTcDwAUCQCAEKAJ4QQJHBEAgBEGgBWohFiAGQoGAjIiggIACIAmtQv8Bg0IDhoinbCIZQQN2QR9xIRMgBEGMBmohGiAEQdwFaiEbIARB7ARqIRQgBEH4BGohFQNAIAQ1AqwDIR0gBEEQaiAOEIkFAkACQAJAAkACQAJAIAQtABBBA3QpA6DxSCAdIAQxABF+fiIdQvD/////AFYNACAdQgd8QgOIpyIJQQBIDQACQCAEKALIBSIHIAlPBEAgBCgCxAUhCAwBCyAJIAdrIgUgBCgCwAUgB2tLBEAgBEHABWogByAFQQFBARCYBiAEKALIBSEHCyAEKALEBSIIIAdqIQwgBUECTwRAIAVBAWsiBQRAIAxBACAF/AsACyAIIAUgB2oiB2ohDAsgDEEAOgAAIAdBAWohCQsgBCAJNgLIBQJAAkACQAJAAkAgBCgCtAQiBkECRwRAIAQoAsQEIRcgBCgCwAQhCyAEKAK8BCEMIAQoArgEIQcgBkEBcUUNASAHRQRAIAQoAvgEQQBOBEAgBEHYBWoiDyAVQQhqKAIANgIAIAQgFSkCADcD0AUgBEEANgKABSAEQQE2AvwEIAQoAuwEIhEEQCAEKALwBCINQQRrKAIAIgVBeHEiCkEEQQggBUEDcSIFGyARakkNHiAFQQAgCiARQSdqSxsNHyANEJ8CCyAUIAQpA9AFNwIAIBRBCGogDygCADYCAAsgBEGAgICAeDYC+AQgBCgCeEECRg0GCyAELQC2A0ECdCgC9PFIIAtsIQogBC0AtwMiBUEIaw4JBAICAgICAgIDAgsgBEHQBWogDhDgBCAELQDQBUEoRw0HQQIhBgwICyAHRQRAIAQoAvgEQQBOBEAgBEHYBWoiDyAVQQhqKAIANgIAIAQgFSkCADcD0AUgBEEANgKABSAEQQE2AvwEIAQoAuwEIhEEQCAEKALwBCINQQRrKAIAIgVBeHEiCkEEQQggBUEDcSIFGyARakkNHCAFQQAgCiARQSdqSxsNHSANEJ8CCyAUIAQpA9AFNwIAIBRBCGogDygCADYCAAsgBEGAgICAeDYC+AQLIAQoAsgEIQogBCgC0AQhBQwFCyAFQQhNBEAgCkEIIAVuIg1uIgUgCiAFIA1sR2ohCgwCCwwXCyAKQQF0IQoLIApBAWohBSALIQoMAgsMEwtBJyEHIAQoAsAFIgJFDQMgBCgCxAUgAkEBEIgHDAMLIARBCGogDhCJBSAELQAIQQJ0KALY8UggCmwhCgJAAkACQCAELQAJIg1BCGsOCQIAAAAAAAAAAQALIA1BCE0EQCAKQQggDW4iD24iDSAKIA0gD2xHaiEKDAILDBQLIApBAXQhCgsgCSAKTwRAIARB0AVqIA4gBSAIIAoQiAEgBC0A0AVBKEcNAQwCC0EAIAogCUHQ/8YAENUHAAsgBCgC3AUhFyAEKALYBSELIAQoAtQFIQwgBCgC0AUhB0EDIQYLIAQoAqAFIgoEQCAEKAKkBSIIQQRrKAIAIgVBeHEiCUEEQQggBUEDcSIFGyAKakkNEiAFQQAgCSAKQSdqSxsNEyAIEJ8CCyAWIAQpA8AFNwIAIBZBCGoiESAYKAIANgIAAkACQCAGQQJrDgIKAQALIAQoAsgEIQUgBCAOEIkFIAQtAABBAnQoApDySCALIAUgBkEBcSIIG2whBgJAAkACQCAELQABIgVBCGsOCQIAAAAAAAAAAQALIAVBCE0EQCAGQQggBW4iCW4iBSAGIAUgCWxHaiEGDAILDBMLIAZBAXQhBgsgBiAEKAKoBSIFTQ0CQQAgBiAFQeD+xgAQ1QcACyAHQQh2IQYLIAutIBetQiCGhCEcDAsLAkACQAJAAkACQAJAAkAgCARAIAQoAqQFIQkgF0H/AXFBAWshCAJAAkACQCAZQf8BcSIFQQFrDhABCQAIAAAABwAAAAAAAAAGAAsgCEEHTw0bIAVBCE8NAUHohccAQTdBrIfFABDbBwALIAhBB08NGiAEQgA3ArwGIARBAToAuAYgBEKHjJSgsMDAADcDsAYgBEEANgKUBiAEQQA2AoAGIARBAToA8AUgBEIANwPQBSAEIAutIh43A9gFIAQgCTYCqAYgBCAGIAlqIg02AqwGIAQgCEECdCgA3IdFIgVB/wFxrSIgNwPgBSAEIAVBCHYiCkH/AXEiCK0iHzcD6AUgBCAFQRB2Qf8BcSAHbCAFQRh2aiAQbCIPNgL4BSALRSAGRXINCCAEIAlBAWoiBTYCqAYgBCAJLQAAIgZBAXGtQjiGIAZBAXZBAXGtQjCGhCAGQQJ2QQFxrUIohoQgBkEDdkEBca1CIIaEIAZBBHZBAXGtQhiGhCAGQQV2QQFxrUIQhoQgBkEGdkEBca1CCIaEIAZBB3athCIdNwKMBiADIA8gCEEDdmoiCUsEQCAdpyEIIB8gIHwhHEEBIQYDQCACIAlqIgkgCS0AACAIIApBf3NBB3F0cjoAACAeQgF9Ih5QDQoCfyAGQQhHBEAgBiAaai0AAAwBCyAFIA1GDQsgBCAFQQFqIgk2AqgGIAQgBS0AACIFQQFxrUI4hiAFQQF2QQFxrUIwhoQgBUECdkEBca1CKIaEIAVBA3ZBAXGtQiCGhCAFQQR2QQFxrUIYhoQgBUEFdkEBca1CEIaEIAVBBnZBAXGtQgiGhCAFQQd2rYQiHTcCjAZBACEGIAkhBSAdpwshCCAcQgOIIR0gHKchCiAGQQFqIQYgHCAgfCEcIA8gHadqIgkgA0kNAAsLIAkgA0G8hsUAEK4HAAsgC0UNByALrSEcIBMgCEECdCgA3IdFIgVB/wFxbCEKIAMgBUEQdkH/AXEgB2wgBUEYdmogEGwgEyAFQQh2Qf8BcWxqIghrIQUDQCAGRQ0IIAMgCEkNAiATIAYgBiATSxsiDSAFSw0DIA0EQCACIAhqIAkgDfwKAAALIAYgDWshBiAJIA1qIQkgBSAKayEFIAggCmohCCAcQgF9IhxCAFINAAsMBwtBtP3GABDQCQALIAggAyADQcyHxQAQ1QcAC0EAIA0gBUG8h8UAENUHAAsCQAJAAkAgCEEHSQRAIAtFDQcgC60hHCADIAhBAnQoANyHRSINQRB2Qf8BcSAHbCANQRh2aiAQbCIKayANQQh2Qf8BcUEBdCIFayEIIA1B/wFxQQF0IQ0gBSAKaiEKA0AgBkUNCCADIApJDQIgCEEBTQ0DQQIgBiAGQQJPGyEFIAZBAUYNBCAGIAVrIQYgAiAKaiAJLwAAOwAAIAggDWshCCAKIA1qIQogBSAJaiEJIBxCAX0iHFBFDQALDAcLDBgLIAogAyADQZyHxQAQ1QcAC0EAQQIgCEH8hsUAENUHAAtBAiAFQYyHxQAQ2wkACyAIQQdJBEAgC0UNAyAIQQJ0KADch0UiCEH/AXEhBSALrSEcIAhBEHZB/wFxIAdsIAhBGHZqIBBsIAhBCHZB/wFxaiEKA0AgBkUNBCADIApLBEAgAiAKaiAJLQAAOgAAIAZBAWshBiAFIApqIQogCUEBaiEJIBxCAX0iHFBFDQEMBQsLIAogA0HshsUAEK4HAAsMFAsgCEEHSQRAIAtFIAZFcg0CAkAgCEECdCgA3IdFIhJBEHZB/wFxIAdsIBJBGHZqIBBsIg8gEkEIdiINQf8BcSIIQQF2aiIKIANPDQAgAiAKaiIFIAUtAAAgCS0AACIFQQR2IA1BAnRBf3NBBHF0cjoAACALQQFGDQMgBiAJaiENIAlBAWohCSAFQQ9xIQUgC61CAX0hHiASQf8Bca0iH0IChiEdIB8gCK18QgKGIRxBASEGA0ACfyAGQQJHBEAgBSEIQQIMAQsgCSANRg0FIAktAAAiBkEPcSEFIAZBBHYhCCAJQQFqIQlBAQshBiAPIBxCA4inaiIKIANPDQEgAiAKaiIKIAotAAAgCCAcp0F/c0EEcXRyOgAAIBwgHXwhHCAeQgF9Ih5QRQ0ACwwDCyAKIANB3IbFABCuBwALDBMLIAhBB08NAyAEQgA3A7AGIARBAzoA/AUgBEGGiAg2AvgFIARBADYC4AUgBEEANgLQBSAEIAutIiA3A4gGIAQgCTYC8AUgBCAGIAlqIg82AvQFIARBAjoAoAYgBCAIQQJ0KADch0UiBUH/AXGtIhw3A5AGIAQgBUEIdiINQf8BcSIIrSIdNwOYBiAEIAVBEHZB/wFxIAdsIAVBGHZqIBBsIhI2AqgGIAtFDQAgBEIBNwOABiAGRQ0AIAQgCUEBaiIFNgLwBSAEIAktAAAiBkEDcUEYdCAGQQ50QYCADHFyIAZBBHRBgAZxciAGQQZ2IgpyNgLcBSADIBIgCEECdmoiCUsEQCANQQF0IQhCASEeIBxCAYYhHyAcIB18QgGGIRxBASEGA0AgAiAJaiIJIAktAAAgCiAIQX9zQQZxdHI6AAAgHiAgUQ0CIAQgHkIBfCIeNwOABgJAIAZBBEcEQCAGIBtqLQAAIQoMAQsgBSAPRg0DIAQgBUEBaiIJNgLwBSAEIAUtAAAiBUEDcUEYdCAFQQ50QYCADHFyIAVBBHRBgAZxciAFQQZ2IgpyNgLcBUEAIQYgCSEFCyAcQgOIIR0gHKchCCAcIB98IRwgBkEBaiEGIBIgHadqIgkgA0kNAAsLIAkgA0HMhsUAEK4HAAsgB0EIdiEGIBggESgCADYCACAEIBYpAgA3A8AFIARBADYCqAUgBEKAgICAEDcDoAUgBCgCeEECRw0ACwsMCwsMDgtB6IXHAEE3QaT9xgAQ2wcACwwICyAMrSAfQiCGhCEcQQAhDAwECyAEQdAFaiAOEOAEIAQtANAFIgdBKEYNASAELwDRBSAELQDTBUEQdHILIQYgBCkC2AUhHCAEKALUBSEMDAILQQghC0ECIQZBASEMQQMhCUEBIQcCQAJAAkACQAJAAkACQAJAIAQtALgFIgVBAWsOCQIEAQIBAwYABQcLQQwhCQwDC0EEIQYLIAYhCSAGIQsgBiEHAkAgBUECaw4DAgQFAAtBAiEMDAQLQQYhCQsgCSEHQQMhDAwCC0EQIQsLQQQhDCALIQcLAkACQAJAIAcgDG5BAWsOAgIBAAtBkN7GAEEoQZCtxwAQ5wgACyADQf7///8HcSIGRQ0AIAIhByADQQJrIgNBDk8EQCAHIANBAXZBAWoiC0F4cSIFQQF0aiEHIAUhDCACIQMDQCADIAP9AAAA/QwAAAAAAAAAAAAAAAAAAAAA/Q0BAAMCBQQHBgkICwoNDA8O/QsAACADQRBqIQMgDEEIayIMDQALIAUgC0YNAQsgAiAGaiEDA0AgByAHLwAAIgJBCHQgAkEIdnI7AAAgB0ECaiIHIANHDQALCyAAQQY2AgAMAgtBJyEHCyAEIBw3AsgFIAQgDDYCxAUgBCAHQf8BcSAGQQh0cjYCwAUgBEHQBWogBEHABWoQ8QMgACAE/QAC5AX9CwIUIABBJGogBEH0BWooAgA2AgAgBP0ABNAFISEgACAEKALgBTYCECAAICH9CwMACyAOEMIDAkAgAUEEaygCACICQXhxQfQEQfgEIAJBA3EiABtPBEAgAEEAIAJBmAVPGw0BIAEQnwIgBEHQBmokAA8LDAQLDAQLIARBwAVqIARB0AVqQYCtxwAQ5gcAC0GU/cYAENAJAAtBjInFABDUCQALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyAIQQdBmIjFABCuBwALsSgEEH8EfQF+AXsjAEGwAWsiAyQAAkACQAJAAkACQCABKAKIAUECRwRAIAEoAvACIgIgASgC7AFJBEAgAUG4AmohEQNAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAEoAugBIAJBKGxqIggpAxAgASkDyAJ8IhYgASkDuAJRBEAgASgC4AIiBCAIKAIYIgJBB2pBeHFJDQEgAiAESw0CIAEoAtwCIQQgCC0AICIQQQFGBEAgA0GgAWogBCACEO8CIAMoAqABIgJBgICAgHhHBEAgAiADKAKkARDfBiEODBgLIAMoAqgBIQ4gAygCpAEiD0GAgICAeEYNFyAOIQQgAygCrAEhAgtBCSEHAkACQAJAAkACQAJAAkACQAJAAkACfwJAAkACQAJAAn8CQAJAAkACQAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAgtACJBAWsODQECAxofHR4bHB8dHgQACyAILQAhDgQEBQYHCQsgCC0AIQ4FCwoJCQwJCyAILQAhIgYOBg4NEBAPDxALIAgtACEOChIRERERERERFBMRCyAILQAhQQtrDgIcHRsLIANBoAFqIAQgAkEDIAEoAvgCEO0EDAMLIANBoAFqIAQgAkEDIAEoAvgCENcDDAILIANBoAFqIAQgAiABKAL4AhCeAgwBCyADQaABaiAEIAIgASgC+AIQ/gELIAMoAqQBIQYgASgC+AIiCwRAQQAhCSABKAKAAiIMIAEoAvQCIgprIgJBACACIAxNGyEHIAMoAqgBIg1BA24hBSABKAL8ASAKQSRsakEIaiECIAYhBANAIAdFDTQgBUUNHyACIARBCGogBP1dAgD9VgIAAiIX/VoCCAIgAiAX/VsCAAAgBEEMaiEEIAlBA2ohCSACQSRqIQIgCkEBaiEKIAdBAWshByAFQQFrIQUgC0EBayILDQALCyADKAKgASICRQ0sIAZBBGsoAgAiBEF4cSIFIAJBAnQiAkEEQQggBEEDcSIEG2pJDTMgBEEAIAUgAkEnaksbDTQgBhCfAgwsCyADIAhBIWqtQoCAgICQBYQ3A1ggA0EYaiIBQfmTwAAgA0HYAGoQ9QYgARCACCEBDCoLIAMgCEEhaq1CgICAgJAFhDcDWCADQSRqIgFBmZXAACADQdgAahD1BiABEIAIDAMLIANBoAFqIAQgAkEBIAEoAvgCENcDDCcLIANBoAFqIAQgAkEBIAEoAvgCEO0EDCYLIAgoAgBFBEBBoOHBAEEUEPkHDAELIAgoAggNJEGM4cEAQRQQ+QcLIQEMJQsgA0HYAGogBCACQQMgASgC+AIQ1wMMIQsgA0HYAGogBCACQQMgASgC+AIQ7QQMIAsgCCgCAEUEQEGg4cEAQRQQ+QcMAgsgCCgCCEUEQEGM4cEAQRQQ+QcMAgsgCCoCBCESIAEoAvgCIQUgCCoCDCETIAZBBEcEQCADQdgAaiAEIAJBAyAFIBIgExDkAwwgCyADQdgAaiAEIAJBAyAFIBIgExDuBAwfCyADIAhBIWqtQoCAgICQBYQ3A6ABIANBMGoiAUH8lMAAIANBoAFqEPUGIAEQgAgLIQEMIAsgAyAIQSFqrUKAgICAkAWENwOgASADQTxqIgFB2ZPAACADQaABahD1BiABEIAIDAMLIANB2ABqIAQgAkEDIAEoAvgCEO0EDBoLIANB2ABqIAQgAiABKAL4AhD5AQwZCyAIKAIARQRAQaDhwQBBFBD5BwwBCyAIKAIIDRdBjOHBAEEUEPkHCyEBDBsLAkACQAJAAkACQCAILQAhIgVBCkcEQCAFDgICAwELIANByABqIAQgAiABKAL4AhC1AwwECyADIAhBIWqtQoCAgICQBYQ3A6ABIANB5ABqIgFBmZTAACADQaABahD1BiABEIAIIQEMHgsgA0HYAGogBCACQQMgASgC+AIQ7QQMAQsgA0HYAGogBCACQQMgASgC+AIQ1wMLIAEoAvgCIgtBAnQiAkH/////A0sNDiALQQR0IgRB/f///wdPDQ4CQCAERQRAQQQhCUEAIQIMAQsgBBBxIglFDRAgASgC+AIhCwsgA0EANgKoASADIAk2AqQBIAMgAjYCoAEgCwRAQQAhBEEBIQUgAygCYCEGIAMoAlwhAgNAIAVBAWsiByAGTwRAIAchBQwYCyAGIAdrIgdBACAGIAdPGyIHQQFGDRcgB0ECRg0WQwAAgD8gAioCACISIBKUkyACQQRqKgIAIhMgE5STIAJBCGoqAgAiFCAUlJNDAAAAABDdCJEhFSADKAKgASAEa0EDTQRAIANBoAFqIARBBEEEQQQQmAYgAygCpAEhCSADKAKoASEECyAJIARBAnRqIgcgFTgCDCAHIBQ4AgggByATOAIEIAcgEjgCACADIARBBGoiBDYCqAEgBUEDaiEFIAJBDGohAiALQQFrIgsNAAsLIANB0ABqIANBqAFqKAIANgIAIAMgAykCoAE3A0ggAygCWCICRQ0AIAMoAlwiBEEEaygCACIFQXhxIgYgAkECdCICQQRBCCAFQQNxIgUbakkNIyAFQQAgBiACQSdqSxsNJCAEEJ8CCyADKAJMIQYgASgC+AIiCwRAQQAhCSABKAKAAiIMIAEoAvQCIgprIgJBACACIAxNGyECIAMoAlAiDUECdiEEIAEoAvwBIApBJGxqIQcgBiEFA0AgAkUNIyAERQ0RIAMgBf0AAgD9CwSgASAFQRBqIQUgCUEEaiEJIApBAWohCiACQQFrIQIgBEEBayEEIAcgA0GgAWoQjwIgB0EkaiEHIAtBAWsiCw0ACwsgAygCSCICRQ0bIAZBBGsoAgAiBEF4cSIFIAJBAnQiAkEEQQggBEEDcSIEG2pJDSIgBEEAIAUgAkEnaksbDSMgBhCfAgwbCyAILQAhQQtGDREgAyAIQSFqrUKAgICAkAWENwOgASADQYgBaiIBQbSTwAAgA0GgAWoQ9QYgARCACCEBDBkLIAgtACFBDEYNDyADIAhBIWqtQoCAgICQBYQ3A6ABIANBlAFqIgFBj5PAACADQaABahD1BiABEIAIIQEMGAtBDyEHDAELQRUhBwsCQAJAAkACQAJAIAgtACEiBQ4IAQADAwICBAQDCyADQaABaiAEIAIgByABKAL4AhDXAwwPCyADQaABaiAEIAIgByABKAL4AhDtBAwOCyAIKAIARQRAQaDhwQBBFBD5ByEBDBgLIAgoAghFBEBBjOHBAEEUEPkHIQEMGAsgCCoCBCESIAEoAvgCIQYgCCoCDCETIAVBBEcEQCADQaABaiAEIAIgByAGIBIgExDkAwwOCyADQaABaiAEIAIgByAGIBIgExDuBAwNCyADIAhBIWqtQoCAgICQBYQ3A1ggA0HwAGoiAUHglMAAIANB2ABqEPUGIAEQgAghAQwWCyAIKAIIRQRAQYzhwQBBFBD5ByEBDBYLIAEoAvgCIQYgCCoCDCESIAVBBkcEQCADQaABaiAEIAIgByAGIBIQ+AMMDAsgA0GgAWogBCACIAcgBiASEPgEDAsLIAMgCEEhaq1CgICAgJAFhDcDWCADQfwAaiIBQb6UwAAgA0HYAGoQ9QYgARCACCEBDBQLIANBoAFqIAQgAiABKAL4AhD5BAwBCyADQaABaiAEIAIgASgC+AIQowQLIAMoAqABIgJFDRIgAygCpAEiBEEEaygCACIFQXhxIgYgAkECdCICQQRBCCAFQQNxIgUbakkNGSAFQQAgBiACQSdqSxsNGiAEEJ8CDBILIAMgFjcDWCADQoCAgICgBSIWIANB2ABqrYQ3A6gBIAMgFiARrYQ3A6ABIANBDGoiAUHehcAAIANBoAFqEPUGIAEQgAghASAAQQE6AAAgACABNgIEDBYLIABBADsBAAwVC0EAIAIgBEHE4cEAENUHAAsgCSAJQQNqIA1BtKfHABDVBwALEM8JAAtBBCAEEOEIAAsgCSAJQQRqIA1BlKnHABDVBwALAkACQAJAAkACQAJAAkACQAJAAkAgCC0AIkEFaw4IAQIDAAAEBAQAC0GQ3sYAQShBtOHBABDnCAALIAEoArQCRQ0CIAEoAvgCIgtFDQIgAygCpAEhB0EAIQkgASgCmAIiBiABKAL0AiIKayICQQAgAiAGTRshAiADKAKoASIMQQluIQQgASgClAIgCkESbGohBQNAIAJFDQQgBARAIAUgBxDHAiAHQSRqIQcgCUEJaiEJIAVBEmohBSAKQQFqIQogAkEBayECIARBAWshBCALQQFrIgsNAQwECwsgCSAJQQlqIAxBxKjHABDVBwALIAEoArQCQQJJDQEgASgC+AIiC0UNASADKAKkASEHQQAhCSABKAKkAiIGIAEoAvQCIgprIgJBACACIAZNGyECIAMoAqgBIgxBD24hBCABKAKgAiAKQR5saiEFA0AgAkUNBCAEBEAgBSAHEMICIAdBPGohByAJQQ9qIQkgBUEeaiEFIApBAWohCiACQQFrIQIgBEEBayEEIAtBAWsiCw0BDAMLCyAJIAlBD2ogDEHkqMcAENUHAAsgASgCtAJBA0kNACABKAL4AiILRQ0AIAMoAqQBIQdBACEJIAEoArACIgYgASgC9AIiCmsiAkEAIAIgBk0bIQIgAygCqAEiDEEVbiEEIAEoAqwCIApBKmxqIQUDQCACRQ0EIARFDQUgBSAHELoCIAdB1ABqIQcgCUEVaiEJIAVBKmohBSAKQQFqIQogAkEBayECIARBAWshBCALQQFrIgsNAAsLIAMoAqABIgJFDQ8gAygCpAEiBEEEaygCACIFQXhxIgYgAkECdCICQQRBCCAFQQNxIgUbakkNFiAFQQAgBiACQSdqSxsNBCAEEJ8CDA8LIAogBkG0qMcAEK4HAAsgCiAGQdSoxwAQrgcACyAKIAZB9KjHABCuBwALIAkgCUEVaiAMQYSpxwAQ1QcACwwSCyADQaABaiAEIAIgASgC+AIQpAQgASgCiAIgASgCjAIgASgC9AIgASgC+AIgAygCpAEiAiADKAKoARCHAyADKAKgASIERQ0JAkAgAkEEaygCACIFQXhxIgYgBEECdCIEQQRBCCAFQQNxIgUbak8EQCAFQQAgBiAEQSdqSxsNASACEJ8CDAsLDBELDBELIANBoAFqIAQgAiABKAL4AhCDBSABKAKIAiABKAKMAiABKAL0AiABKAL4AiADKAKkASICIAMoAqgBELsDIAMoAqABIgRFDQgCQCACQQRrKAIAIgVBeHEiBiAEQQF0IgRBBEEIIAVBA3EiBRtqTwRAIAVBACAGIARBJ2pLGw0BIAIQnwIMCgsMEAsMEAsgBUEBaiEFCyAFIAZB1OHBABCuBwALIANB2ABqIAQgAiABKAL4AiAIKgIEIAgqAgwQrAMLIAMoAlwhBgJAAkAgASgC+AIiCwRAQQAhCSABKAKAAiIMIAEoAvQCIgprIgJBACACIAxNGyEEIAMoAmAiDUEDbiEHIAEoAvwBIApBJGxqIQUgBiECA0AgBEUNDiAHRQ0CIAMgAv1dAgAgAkEIaioCACIS/SACIBL9IAP9CwSgASACQQxqIQIgCUEDaiEJIApBAWohCiAEQQFrIQQgB0EBayEHIAUgA0GgAWoQ2gIgBUEkaiEFIAtBAWsiCw0ACwsgAygCWCICRQ0GIAZBBGsoAgAiBEF4cSIFIAJBAnQiAkEEQQggBEEDcSIEG2pJDQ0gBEEAIAUgAkEnaksbDQEgBhCfAgwGCyAJIAlBA2ogDUHUqscAENUHAAsMDAsgAygCXCEGAkACQCABKAL4AiILBEBBACEJIAEoAoACIgwgASgC9AIiCmsiAkEAIAIgDE0bIQQgAygCYCINQQNuIQcgASgC/AEgCkEkbGohBSAGIQIDQCAERQ0NIAdFDQIgAyAC/V0CACACQQhqKgIAIhL9IAIgEv0gA/0LBKABIAJBDGohAiAJQQNqIQkgCkEBaiEKIARBAWshBCAHQQFrIQcgBSADQaABahDgAiAFQSRqIQUgC0EBayILDQALCyADKAJYIgJFDQUgBkEEaygCACIEQXhxIgUgAkECdCICQQRBCCAEQQNxIgQbakkNDCAEQQAgBSACQSdqSxsNASAGEJ8CDAULIAkgCUEDaiANQaSoxwAQ1QcACwwLCyADQaABaiAEIAJBASABKAL4AiAIKgIEIAgqAgwQ7gQLIAEoAvwBIAEoAoACIAEoAvQCIAEoAvgCIAMoAqQBIgIgAygCqAEQrQIgAygCoAEiBEUNAQJAIAJBBGsoAgAiBUF4cSIGIARBAnQiBEEEQQggBUEDcSIFG2pPBEAgBUEAIAYgBEEnaksbDQEgAhCfAgwDCwwJCwwJCyAAQQE6AAAgACABNgIEIBBFIA9Fcg0FIA4gD0EBEIgHDAULAkACQAJAIAEoAuACIgQgCCgCGEEHakF4cSICTwRAIAFBADYC4AIgBCACayEFIAJFDQEgAiAERg0DIAVFDQIgASgC3AIiBCACIARqIAX8CgAADAILQQAgAiAEQcCIxwAQ1QcACyACIARGDQELIAEgBTYC4AILIAgpAxghFiABIAEoAvACQQFqIgI2AvACIAEgASkDuAIgFkIHfEL4////D4N8NwO4AgJAIBBFIA9Fcg0AAkAgDkEEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgD2pPBEAgAkEAIAQgD0EnaksbDQEgDhCfAiABKALwAiECDAILDAgLDAgLIAIgASgC7AFJDQALCyAAQYACOwEADAILQfzgwQAQ0AkACyAAQQE6AAAgACAONgIECyADQbABaiQADwsgCiAMQdSixwAQrgcAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAveLwIXfwR+IwBBoARrIgIkACACQThqIAFBCGooAgAiAzYCACACIAEpAgAiGjcCMCACQYABOgA8IAJBADYCLCACQoCAgIAQNwIkIBqnIQ4CQAJAAkACQCACKAI0IgUgA0sEQANAIAMgDmotAAAiCUEJayIBQRdLQQEgAXRBk4CABHFFcg0CIAUgA0EBaiIDRw0ACyACIAU2AjggBSEDCyACQQU2AogCIAJBGGogDiAFIANBAWoiASAFIAEgBUkbEPoBIAJBiAJqIAIoAhggAigCHBDZByEBIABBAjYCACAAIAE2AgQMAQsgAiADNgI4AkACQAJAAkACQAJAAkACQCAJQdsARwRAIAlB+wBGDQEgAkEkaiIBIAJBnwRqQfzbwQAQ/wEgARCXBiEBIABBAjYCACAAIAE2AgQMCQsgAkH/ADoAPCACIANBAWo2AjggAkEBOgCgAyACIAJBJGo2ApwDIAJBiAJqIAJBnANqEM8DIAItAIgCQQFGBEAgAigCjAIhBEECIQUMBQsCQAJAAkACQAJAAkACQAJAAkACQAJAIAItAIkCQQFGBEAgAkEIaiACKAKcAxCwAyACKAIMIQMgAigCCEEBcQRAIAMhBEECIQUMEQsgAkGIAmogAkGcA2oQzwMgAi0AiAJBAUYEQCACKAKMAiEEQQIhBQwRCyACLQCJAkEBRw0DIAIoApwDEK4DIgQNASACQYgCaiACQZwDahDPAyACLQCIAkEBRw0CIAIoAowCIQRBAiEFDBALQQBB4J3BAEHoncEAEP0GIQQLQQIhBQwOCyACLQCJAkEBRw0CIAJBiAJqIAIoApwDENUDIAIoAogCQQFHDQEgAigCjAIhBEECIQUMDQtBAUHgncEAQeidwQAQ/QYhBEECIQUMDAsgAikDkAIhGiACQYgCaiACQZwDahDPAyACLQCIAkEBRgRAIAIoAowCIQRBAiEFDAwLIAItAIkCQQFHDQIgAkGIAmogAigCnAMQtgIgAigCiAIiD0ECRw0BIAIoAowCIQRBAiEFDAsLQQJB4J3BAEHoncEAEP0GIQRBAiEFDAoLIAIoAowCIQogAkGIAmoiBCACQZwDahDPAyACLQCIAg0IIAItAIkCQQFHDQIgBCACKAKcAxCXAiACLQCIAkEBRw0BIAIoAowCIQRBAiEFDAkLQQNB4J3BAEHoncEAEP0GIQRBAiEFDAgLIAItAIkCIQEgAkGIAmogAkGcA2oQzwMgAi0AiAJBAUYEQCACKAKMAiEEQQIhBQwICyACLQCJAkEBRw0BIAJBiAJqIAIoApwDELYCQQIhBSACKAKIAiIOQQJGBEAgAigCjAIhBAwICyACKAKMAiEJIAJBiAJqIQYjAEEQayIEJAAgBCACQZwDaiILEM8DAkAgBC0AAEEBRgRAIAYgBCgCBDYCCCAGQgI3AwAMAQsgBC0AAUUEQCAGQgA3AwAMAQsgBCALKAIAENUDIAQoAgBBAUYEQCAGIAQoAgQ2AgggBkICNwMADAELIAYgBCkDCDcDCCAGQgE3AwALIARBEGokACACKAKQAiEGIAIpA4gCIhlCAlINAiAGIQQMBwtBBEHgncEAQeidwQAQ/QYhBEECIQUMBgtBBUHgncEAQeidwQAQ/QYhBEECIQUMBQsCQAJAIBmnQQFxBEAgAjUClAIhGSACQYgCaiEHIwBBEGsiBCQAIARBBGogAkGcA2oiCxDPAwJAIAQtAARBAUYEQCAHIAQoAgg2AgQgB0GBgICAeDYCAAwBCyAELQAFRQRAIAdBgICAgHg2AgAMAQsgBEEEaiALKAIAEHggBCgCBEGAgICAeEYEQCAHIAQoAgg2AgQgB0GBgICAeDYCAAwBCyAHIAQpAgQ3AgAgB0EIaiAEQQxqKAIANgIACyAEQRBqJAAgAigCjAIhBCACKAKIAiIHQYCAgIB4aw4CAQcCC0EGQeCdwQBB6J3BABD9BiEEDAYLQQdB4J3BAEHoncEAEP0GIQQMBQsgAiACKAKQAjYCrAMgAiAENgKoAyACIAc2AqQDIAJBiAJqIgQgAkGcA2oiCxDdBSACKAKMAiEIIAIoAogCIhRBBEYNASACQeADaiACQcACaigCADYCACACQdADaiACQbACav0AAgD9CwMAIAJBwANqIAJBoAJq/QACAP0LAwAgAiAC/QACkAL9CwOwAwJAAkACQAJAIBRBA0cEQCMAQRBrIg0kACANQQhqIAsQzwMCQCANLQAIQQFGBEAgBCANKAIMNgIEIARBAzYCAAwBCyANLQAJRQRAIARBAjYCAAwBCyANQQhqIAsoAgAQwAQgDSgCCCILQQJGBEAgBCANKAIMNgIEIARBAzYCAAwBCyAEIA0oAgw2AgQgBCALNgIACyANQRBqJAAgAigCjAIiFSEEIAIoAogCIg1BAmsOAgIHAQtBCEHgncEAQeidwQAQ/QYhBAwGCyACQYgCaiEHIwBBEGsiBCQAIARBBGogAkGcA2oiCxDPAwJAIAQtAARBAUYEQCAHIAQoAgg2AgQgB0GCgICAeDYCAAwBCyAELQAFRQRAIAdBgYCAgHg2AgAMAQsgBEEEaiALKAIAEOYCIAQoAgRBgYCAgHhGBEAgByAEKAIINgIEIAdBgoCAgHg2AgAMAQsgByAEKQIENwIAIAdBCGogBEEMaigCADYCAAsgBEEQaiQAIAIoAowCIQQgAigCiAIiB0H/////B2oOAgIFAQtBCUHgncEAQeidwQAQ/QYhBAwECyAGrSAZQiCGhCEZIAIoApACIRYgAkHIAWogAkGsA2ooAgA2AgAgAkHgAWogAkHAA2r9AAMA/QsDACACQfABaiACQdADav0AAwD9CwMAIAJBgAJqIAJB4ANqKAIANgIAIAIgAikCpAM3A8ABIAIgAv0AA7AD/QsD0AEgBCEMIAohBCAPIQUMBQtBCkHgncEAQeidwQAQ/QYhBAwCCyACQf8AOgA8IAIgA0EBajYCOCACQQE6AKgDIAIgAkEkajYCpAMgAkGQAmohEUGBgICAeCEIQYCAgIB4IQpBAiELQQMhD0ECIQ5BAyESQQIhEAJAAkADQAJAIAkhBiADIQEgAkGIAmogAkGkA2oQ/QIgAi0AiAJBAUYEQCACKAKMAiEFDAELAn8CQAJAAkACQAJAAkACQAJAAkAgAi0AiQJBAUYEQCACKAKkAyIDQQA2AgggAyADKAIUQQFqNgIUIAJBiAJqIANBDGogAxCBAiACKAKMAiEFIAIoAogCQQJGDQsCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCACKAKQAkEEaw4KAwAFARwEHAYcAhwLIAVBk53BAEEFELsHRQ0IIAVBmJ3BAEEFELsHDRsgEEECRg0JQZidwQBBBRDNByEFDB0LIAVBjJ3BAEEHELsHRQ0FIAVBjozBAEEHELsHRQ0JIAVB3/rGAEEHELsHDRogCEGBgICAeEYNEEHf+sYAQQcQzQchAyAIQYCAgIB4ckGAgICAeEcNEyADIQwMHgsgBUGmncEAQQ0QuwdFDQogBUGgkcEAQQ0QuwcNGSAPQQNHDQwgAxDQBSIFDRsgAkGIAmogAxCDASACKAKMAiENIAIoAogCIg9BA0cNDSANIQUMGwsgBSgAAEH08sGrBkYNBAwYCyAFQZ2dwQBBCRC7Bw0XIA5BAkYNB0GdncEAQQkQzQchBQwZCyAFQdWZwQBBBhC7Bw0WIApBgICAgHhGDQhB1ZnBAEEGEM0HIQUMGAsgBUGzncEAQQsQuwcNFSALQQJGDQpBs53BAEELEM0HIQUMFwsgE0UNE0GMncEAQQcQzQchBQwWCyAXDQsgAxDQBSIFDRVBASEXIAMQrgMMFAsgG1ANEEGTncEAQQUQzQchBQwUCyADENAFIgUNEyACQYgCaiADELYCIAEhAyACKAKMAiIEIQUgAigCiAIiEEECRw0UDBMLIBJBA0YNDUGOjMEAQQcQzQchBQwSCyADENAFIgUNESACQYgCaiADELYCIAEhAyACKAKMAiIVIQUgAigCiAIiDkECRw0SDBELIBxQDQpBpp3BAEENEM0HIQUMEAsgAxDQBSIJRQRAIAJBiAJqIAMQeCACKAKQAiEDIAIoAowCIQkgAigCiAIiCkGAgICAeEcNEQtBgICAgHghCiAJIQUMDwtBoJHBAEENEM0HIQUMDgsgAkHgA2ogEUEwaigCADYCACACQdADaiARQSBq/QACAP0LAwAgAkHAA2ogEUEQav0AAgD9CwMAIAIgEf0AAgD9CwOwAyABIQMMDgsgAxDQBSIFDQwgAkGIAmogAxDABCABIQMgAigCjAIiFCEFIAIoAogCIgtBAkcNDQwMCyADENAFIgwNDSACQYgCaiADEOYCIAIoApACIRYgAigCjAIhDCABIQMgAigCiAIiCEGBgICAeEcNDAwNCyATQQFxRQRAQYydwQBBBxDKByEFDAsLIBdFDQIgG1AEQEGTncEAQQUQygchBQwLCyAcUARAQaadwQBBDRDKByEFDAsLIApBgICAgHhGDQNBAiEDIA9BA0cEQCACQZgEaiACQeADaigCADYCACACQYgEaiACQdADav0AAgD9CwMAIAJB+ANqIAJBwANq/QACAP0LAwAgAiAC/QACsAP9CwPoAyAPIQMLIA5BACAOQQJHGyEJIBBBACAQQQJHGyEFQQIgEiASQQNGGyETQYCAgIB4IAggCEGBgICAeEYbIQ4gC0EAIAtBAkcbIQsMDQtBsJPFAEEEEM0HIQUMCQsgDCAIQQEQiAcgAyEMDAoLQbCTxQBBBBDKByEFDAcLQdWZwQBBBhDKByEFQYCAgIB4IQoMBgsgAxDQBSIFDQUgAkGIAmogAxDVAyACKQOQAiEaQgEhHCABIQMgAigCiAJFDQYgAigCjAIhBQwFCyADENAFIgUNBCACQYgCaiADEJcCIAItAIkCIRIgASEDIAItAIgCRQ0FIAIoAowCIQUMBAsgAxDQBSIFDQMgAkGIAmogAxDVAyACKQOQAiEZQgEhGyABIQMgAigCiAJFDQQgAigCjAIhBQwDCyADENAFIgcEf0EBBSACQRBqIAMQsAMgAigCFCEHIAIoAhALQQEhEyABIQMgByEFQQFxRQ0DDAILIAMQqgELIQUgASEDIAVFDQELCyAIRSAIQYKAgIB4SHJFBEAgDEEEaygCACIDQXhxIglBBEEIIANBA3EiAxsgCGpJDQsgA0EAIAkgCEEnaksbDQwgDBCfAgsgBSEMC0ECIQUCQCAKQYCAgIB4RgRAQYCAgIB4IQoMAQsgAQRAIAZBJGohAwNAIANBBGsoAgAiCUGAgICAeHJBgICAgHhHBEAgAygCACIHQQRrKAIAIgRBeHEiCEEEQQggBEEDcSIEGyAJakkNDSAEQQAgCCAJQSdqSxsNDiAHEJ8CCyADQTBqIQMgAUEBayIBDQALCyAKRQRAQQAhCgwBCyAGQQRrKAIAIgNBeHEiASAKQTBsIglBBEEIIANBA3EiAxtySQ0KIANBACABIAlBJ2pLGw0LIAYQnwILIAwhBAsgAiACLQA8QQFqOgA8IAJBJGoQhQUhCCACQcgCaiACQfgDav0AAwD9CwMAIAJB2AJqIAJBiARq/QADAP0LAwAgAkHoAmogAkGYBGooAgA2AgAgAiANNgK0AiACIAM2ArACIAIgGjcDqAIgAiAZNwOgAiACIBQ2ApwCIAIgCzYCmAIgAiAVNgKUAiACIAk2ApACIAIgBDYCjAIgAiATOgCIAyACIAg2ApADIAIgBzYChAMgAiAWNgKAAyACIAw2AvwCIAIgDjYC+AIgAiABNgL0AiACIAY2AvACIAIgCjYC7AIgAiAC/QAD6AP9CwO4AiACIAU2AogCAkAgBUECRwRAIAgNASACQUBrIAJBkAJqQYAB/AoAAAwICyAIRQ0FIAJBkANqELAEQQIhBQwHCyABBEAgBkEkaiEDA0AgA0EEaygCACIEQYCAgIB4ckGAgICAeEcEQCADKAIAIgVBBGsoAgAiCUF4cSIHQQRBCCAJQQNxIgkbIARqSQ0LIAlBACAHIARBJ2pLGw0MIAUQnwILIANBMGohAyABQQFrIgENAAsLIAoEQCAGQQRrKAIAIgFBeHEiAyAKQTBsIgRBBEEIIAFBA3EiARtySQ0JIAFBACADIARBJ2pLGw0KIAYQnwILQQIhBQJAIA5BgICAgHhyQYCAgIB4RwRAIAxBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIA5qSQ0KIAFBACADIA5BJ2pLGw0BIAwQnwILIAghBAwHCwwJCyAIIQQLIAJBpANqIgooAgQhDwJAIAooAggiCwRAIA9BJGohBgNAIAZBBGsoAgAiEUGAgICAeHJBgICAgHhHBEAgBigCACISQQRrKAIAIhBBeHEiE0EEQQggEEEDcSIQGyARakkNCiAQQQAgEyARQSdqSxsNCyASEJ8CCyAGQTBqIQYgC0EBayILDQALCyAKKAIAIgYEQCAPQQRrKAIAIgpBeHEiCyAGQTBsIgZBBEEIIApBA3EiChtySQ0IIApBACALIAZBJ2pLGw0JIA8QnwILDAALDAELIAIoAowCIQRBAiEFCyACIAItADxBAWo6ADwgAkEkahCZBCEGIAJByAJqIAJB4AFq/QADAP0LAwAgAkHYAmogAkHwAWr9AAMA/QsDACACQegCaiACQYACaigCADYCACACQfQCaiACQcgBaigCADYCACACIAg2ArQCIAIgFDYCsAIgAiAZNwOoAiACIBo3A6ACIAIgFTYCnAIgAiANNgKYAiACIAk2ApQCIAIgDjYCkAIgAiAENgKMAiACIAL9AAPQAf0LA7gCIAIgAikDwAE3AuwCIAIgBTYCiAIgAiAGNgKQAyACIAE6AIgDIAIgAzYChAMgAiAWNgKAAyACIAw2AvwCIAIgBzYC+AIgBUECRwRAIAYNAiACQUBrIAJBkAJqQYAB/AoAAAwDCyAGRQ0AIAJBkANqELAEC0ECIQUMAQsgAigC8AIhBCACKAL0AiIBBEAgBEEkaiEDA0AgA0EEaygCACIFQYCAgIB4ckGAgICAeEcEQCADKAIAIglBBGsoAgAiCEF4cSINQQRBCCAIQQNxIggbIAVqSQ0FIAhBACANIAVBJ2pLGw0GIAkQnwILIANBMGohAyABQQFrIgENAAsLIAIoAuwCIgEEQCAEQQRrKAIAIgNBeHEiBSABQTBsIgFBBEEIIANBA3EiAxtySQ0DIANBACAFIAFBJ2pLGw0EIAQQnwILQQIhBSAHQYCAgIB4ckGAgICAeEcEQCAMQQRrKAIAIgFBeHEiA0EEQQggAUEDcSIBGyAHakkNAyABQQAgAyAHQSdqSxsNBCAMEJ8CCyAGIQQLIAVBAkYEQCAEIAJBJGoQlwYhASAAQQI2AgAgACABNgIEDAELIABBCGogAkFAa0GAAfwKAAAgACAFNgIAIAAgBDYCBCACKAI4IgMgAigCNCIBTw0AIAAoAnQhByAAKAJwIQQgACgCbCEJIAAoAmghBSAAKAJkIQwgAigCMCEIAkADQCADIAhqLQAAQQlrIgZBF0tBASAGdEGTgIAEcUVyDQEgASADQQFqIgNHDQALIAIgATYCOAwBCyACIAM2AjggAkEWNgKIAiACIAggASADQQFqIgMgASABIANLGxD6ASACQYgCaiACKAIAIAIoAgQQ2QchASAAQQI2AgAgACABNgIEAkAgCQRAIAVBJGohAwNAIANBBGsoAgAiAEGAgICAeHJBgICAgHhHBEAgAygCACIBQQRrKAIAIghBeHEiBkEEQQggCEEDcSIIGyAAakkNBSAIQQAgBiAAQSdqSxsNAyABEJ8CCyADQTBqIQMgCUEBayIJDQALCyAMBEAgBSAMQTBsQQgQiAcLIARBgICAgHhyQYCAgIB4Rg0BIAcgBEEBEIgHDAELDAILAkAgAigCJCIABEAgAigCKCIBQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyAAakkNAiADQQAgBCAAQSdqSxsNASABEJ8CCyACQaAEaiQADwsMAQtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALqC8BBX8jAEEwayICJAACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAAKAIAIgMtAABBAWsOIwECAwQFBgcICQoLDA0ODxAREhMUFRYXGBkaGxwdHh8gISIjAAsgAiADQQxqNgIQIAEoAgBB8M3EAEELIAEoAgQoAgwRAAAhACACQQA6ACUgAiAAOgAkIAIgATYCICACQSBqQfvNxABBByADQQRqQdDNxAAQ/ARBgs7EAEEHIANBCGpB0M3EABD8BEGesccAQQUgAkEQakHgzcQAEPwEIAItACUiAyACLQAkIgRyIQAgBEEBcSADQQFHcg0jKAIAIgAtAApBgAFxRQRAIAAoAgBBp5/FAEECIAAoAgQoAgwRAAAhAAwkCyAAKAIAQcqexQBBASAAKAIEKAIMEQAAIQAMIwsgASgCAEGJzsQAQRAgASgCBCgCDBEAACEADCILIAEoAgBBmc7EAEELIAEoAgQoAgwRAAAhAAwhCyABKAIAQaTOxABBECABKAIEKAIMEQAAIQAMIAsgAiADQQFqNgIQIAEoAgBBtM7EAEEPIAEoAgQoAgwRAAAhACACQQA6ACUgAiAAOgAkIAIgATYCICACQSBqQcjPxwBBBCACQRBqQeDNxAAQ/AQgAi0AJSIDIAItACQiBHIhACAEQQFxIANBAUdyDR8oAgAiAC0ACkGAAXFFBEAgACgCAEGnn8UAQQIgACgCBCgCDBEAACEADCALIAAoAgBByp7FAEEBIAAoAgQoAgwRAAAhAAwfCyACIANBAWo2AhAgASgCAEHDzsQAQQkgASgCBCgCDBEAACEAIAJBADoAJSACIAA6ACQgAiABNgIgIAJBIGpByM/HAEEEIAJBEGpB4M3EABD8BCACLQAlIgMgAi0AJCIEciEAIARBAXEgA0EBR3INHigCACIALQAKQYABcUUEQCAAKAIAQaefxQBBAiAAKAIEKAIMEQAAIQAMHwsgACgCAEHKnsUAQQEgACgCBCgCDBEAACEADB4LIAIgA0EBajYCECABKAIAQczOxABBCiABKAIEKAIMEQAAIQAgAkEAOgAlIAIgADoAJCACIAE2AiAgAkEgakHIz8cAQQQgAkEQakHgzcQAEPwEIAItACUiAyACLQAkIgRyIQAgBEEBcSADQQFHcg0dKAIAIgAtAApBgAFxRQRAIAAoAgBBp5/FAEECIAAoAgQoAgwRAAAhAAweCyAAKAIAQcqexQBBASAAKAIEKAIMEQAAIQAMHQsgAiADQQFqNgIQIAEoAgBB1s7EAEEJIAEoAgQoAgwRAAAhACACQQA6ACUgAiAAOgAkIAIgATYCICACQSBqQcjPxwBBBCACQRBqQeDNxAAQ/AQgAi0AJSIDIAItACQiBHIhACAEQQFxIANBAUdyDRwoAgAiAC0ACkGAAXFFBEAgACgCAEGnn8UAQQIgACgCBCgCDBEAACEADB0LIAAoAgBByp7FAEEBIAAoAgQoAgwRAAAhAAwcCyACIANBAWo2AhAgASgCAEHfzsQAQQ8gASgCBCgCDBEAACEAIAJBADoAJSACIAA6ACQgAiABNgIgIAJBIGpByM/HAEEEIAJBEGpB4M3EABD8BCACLQAlIgMgAi0AJCIEciEAIARBAXEgA0EBR3INGygCACIALQAKQYABcUUEQCAAKAIAQaefxQBBAiAAKAIEKAIMEQAAIQAMHAsgACgCAEHKnsUAQQEgACgCBCgCDBEAACEADBsLIAIgA0EBajYCECABKAIAQe7OxABBDiABKAIEKAIMEQAAIQAgAkEAOgAlIAIgADoAJCACIAE2AiAgAkEgakHIz8cAQQQgAkEQakHgzcQAEPwEIAItACUiAyACLQAkIgRyIQAgBEEBcSADQQFHcg0aKAIAIgAtAApBgAFxRQRAIAAoAgBBp5/FAEECIAAoAgQoAgwRAAAhAAwbCyAAKAIAQcqexQBBASAAKAIEKAIMEQAAIQAMGgsgAiADQQhqNgIQIAEoAgBB/M7EAEEJIAEoAgQoAgwRAAAhACACQQA6ACUgAiAAOgAkIAIgATYCICACQSBqQYXPxABBByADQQRqQdDNxAAQ/ARBuJLHAEEIIAJBEGpBtLrEABD8BCACLQAlIgMgAi0AJCIEciEAIARBAXEgA0EBR3INGSgCACIALQAKQYABcUUEQCAAKAIAQaefxQBBAiAAKAIEKAIMEQAAIQAMGgsgACgCAEHKnsUAQQEgACgCBCgCDBEAACEADBkLIAIgA0EIajYCECABKAIAQYzPxABBDCABKAIEKAIMEQAAIQAgAkEAOgAlIAIgADoAJCACIAE2AiAgAkEgakG4kscAQQggA0EEakGAxMQAEPwEQZjPxABBAyACQRBqQcS6xAAQ/AQgAi0AJSIDIAItACQiBHIhACAEQQFxIANBAUdyDRgoAgAiAC0ACkGAAXFFBEAgACgCAEGnn8UAQQIgACgCBCgCDBEAACEADBkLIAAoAgBByp7FAEEBIAAoAgQoAgwRAAAhAAwYCyACIANBCGo2AhAgASgCAEGsz8QAQRQgASgCBCgCDBEAACEAIAJBADoAJSACIAA6ACQgAiABNgIgIAJBIGpBwM/EAEEKIANBAWpBnM/EABD8BEG4kscAQQggA0EEakGAxMQAEPwEQZjPxABBAyACQRBqQcS6xAAQ/AQgAi0AJSIDIAItACQiBHIhACAEQQFxIANBAUdyDRcoAgAiAC0ACkGAAXFFBEAgACgCAEGnn8UAQQIgACgCBCgCDBEAACEADBgLIAAoAgBByp7FAEEBIAAoAgQoAgwRAAAhAAwXCyACIANBAWo2AhAgASgCAEHcz8QAQQsgASgCBCgCDBEAACEAIAJBADoAJSACIAA6ACQgAiABNgIgIAJBIGpB58/EAEEMIANBAmpBzM/EABD8BEHzz8QAQQQgAkEQakH0ucQAEPwEIAItACUiAyACLQAkIgRyIQAgBEEBcSADQQFHcg0WKAIAIgAtAApBgAFxRQRAIAAoAgBBp5/FAEECIAAoAgQoAgwRAAAhAAwXCyAAKAIAQcqexQBBASAAKAIEKAIMEQAAIQAMFgsgASgCAEH3z8QAQQ8gASgCBCgCDBEAACEADBULIAIgA0EBajYCECABKAIAQZjQxABBFCABKAIEKAIMEQAAIQAgAkEAOgAlIAIgADoAJCACIAE2AiAgAkEgakHAz8QAQQogA0ECakGcz8QAEPwEQazQxABBCSACQRBqQYjQxAAQ/AQgAi0AJSIDIAItACQiBHIhACAEQQFxIANBAUdyDRQoAgAiAC0ACkGAAXFFBEAgACgCAEGnn8UAQQIgACgCBCgCDBEAACEADBULIAAoAgBByp7FAEEBIAAoAgQoAgwRAAAhAAwUC0EBIQAgASgCACIEQbXQxABBECABKAIEIgYoAgwiBREAAA0TIANBAWohAwJAIAEtAApBgAFxRQRAIARB4J7FAEEBIAURAAANFSABKAIAIAMtAABBAnQiAygCyNhIIAMoAqzYSCABKAIEKAIMEQAARQ0BDBULIARBy4vCAEECIAURAAANFCACIAY2AiQgAiAENgIgIAJBAToAECADLQAAQQJ0IgMoArTWSCEEIAMoAtDWSCEDIAIgAkEQajYCKCACQSBqIgUgAyAEELIDDRQgBUHJi8IAQQIQsgMNFAsgASgCAEHinsUAQQEgASgCBCgCDBEAACEADBMLIAEoAgBBy8vEAEERIAEoAgQoAgwRAAAhAAwSC0EBIQAgAiADQQFqNgIMIAEoAgAiA0HF0MQAQQ8gASgCBCIFKAIMIgQRAAANEQJAIAEtAApBgAFxRQRAIANB4J7FAEEBIAQRAAANEyACQQxqIAEQwgRFDQEMEwsgA0HLi8IAQQIgBBEAAA0SIAJBAToAHyACIAU2AhQgAiADNgIQIAJB0IvCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQwgQNEiACKAIgQcmLwgBBAiACKAIkKAIMEQAADRILIAEoAgBB4p7FAEEBIAEoAgQoAgwRAAAhAAwRC0EBIQAgAiADQQFqNgIMIAEoAgAiA0HU0MQAQRAgASgCBCIFKAIMIgQRAAANEAJAIAEtAApBgAFxRQRAIANB4J7FAEEBIAQRAAANEiACQQxqIAEQwgRFDQEMEgsgA0HLi8IAQQIgBBEAAA0RIAJBAToAHyACIAU2AhQgAiADNgIQIAJB0IvCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQwgQNESACKAIgQcmLwgBBAiACKAIkKAIMEQAADRELIAEoAgBB4p7FAEEBIAEoAgQoAgwRAAAhAAwQC0EBIQAgAiADQQFqNgIMIAEoAgAiA0Hk0MQAQRAgASgCBCIFKAIMIgQRAAANDwJAIAEtAApBgAFxRQRAIANB4J7FAEEBIAQRAAANESACQQxqIAEQwgRFDQEMEQsgA0HLi8IAQQIgBBEAAA0QIAJBAToAHyACIAU2AhQgAiADNgIQIAJB0IvCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQwgQNECACKAIgQcmLwgBBAiACKAIkKAIMEQAADRALIAEoAgBB4p7FAEEBIAEoAgQoAgwRAAAhAAwPC0EBIQAgAiADQQFqNgIMIAEoAgAiA0H00MQAQQ4gASgCBCIFKAIMIgQRAAANDgJAIAEtAApBgAFxRQRAIANB4J7FAEEBIAQRAAANECACQQxqIAEQwgRFDQEMEAsgA0HLi8IAQQIgBBEAAA0PIAJBAToAHyACIAU2AhQgAiADNgIQIAJB0IvCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQwgQNDyACKAIgQcmLwgBBAiACKAIkKAIMEQAADQ8LIAEoAgBB4p7FAEEBIAEoAgQoAgwRAAAhAAwOC0EBIQAgAiADQQFqNgIMIAEoAgAiA0GC0cQAQQsgASgCBCIFKAIMIgQRAAANDQJAIAEtAApBgAFxRQRAIANB4J7FAEEBIAQRAAANDyACQQxqIAEQwgRFDQEMDwsgA0HLi8IAQQIgBBEAAA0OIAJBAToAHyACIAU2AhQgAiADNgIQIAJB0IvCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQwgQNDiACKAIgQcmLwgBBAiACKAIkKAIMEQAADQ4LIAEoAgBB4p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self.location.href);\n }\n const imports = __wbg_get_imports();\n if (typeof module_or_path === "string" || typeof Request === "function" && module_or_path instanceof Request || typeof URL === "function" && module_or_path instanceof URL) {\n module_or_path = fetch(module_or_path);\n }\n const { instance } = await __wbg_load(await module_or_path, imports);\n return __wbg_finalize_init(instance);\n }\n var ch2 = {};\n var wk = function(c, id, msg, transfer, cb) {\n var w = new Worker(ch2[id] || (ch2[id] = URL.createObjectURL(new Blob([\n c + \';addEventListener("error",function(e){e=e.error;postMessage({$e$:[e.message,e.code,e.stack]})})\'\n ], { type: "text/javascript" }))));\n w.onmessage = function(e) {\n var d = e.data, ed = d.$e$;\n if (ed) {\n var err2 = new Error(ed[0]);\n err2["code"] = ed[1];\n err2.stack = ed[2];\n cb(err2, null);\n } else\n cb(null, d);\n };\n w.postMessage(msg, transfer);\n return w;\n };\n var u8 = Uint8Array, u16 = Uint16Array, i32 = Int32Array;\n var fleb = new u8([\n 0,\n 0,\n 0,\n 0,\n 0,\n 0,\n 0,\n 0,\n 1,\n 1,\n 1,\n 1,\n 2,\n 2,\n 2,\n 2,\n 3,\n 3,\n 3,\n 3,\n 4,\n 4,\n 4,\n 4,\n 5,\n 5,\n 5,\n 5,\n 0,\n /* unused */\n 0,\n 0,\n /* impossible */\n 0\n ]);\n var fdeb = new u8([\n 0,\n 0,\n 0,\n 0,\n 1,\n 1,\n 2,\n 2,\n 3,\n 3,\n 4,\n 4,\n 5,\n 5,\n 6,\n 6,\n 7,\n 7,\n 8,\n 8,\n 9,\n 9,\n 10,\n 10,\n 11,\n 11,\n 12,\n 12,\n 13,\n 13,\n /* unused */\n 0,\n 0\n ]);\n var clim = new u8([16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15]);\n var freb = function(eb, start) {\n var b = new u16(31);\n for (var i2 = 0; i2 < 31; ++i2) {\n b[i2] = start += 1 << eb[i2 - 1];\n }\n var r = new i32(b[30]);\n for (var i2 = 1; i2 < 30; ++i2) {\n for (var j = b[i2]; j < b[i2 + 1]; ++j) {\n r[j] = j - b[i2] << 5 | i2;\n }\n }\n return { b, r };\n };\n var _a = freb(fleb, 2), fl = _a.b, revfl = _a.r;\n fl[28] = 258, revfl[258] = 28;\n var _b = freb(fdeb, 0), fd = _b.b;\n var rev = new u16(32768);\n for (var i = 0; i < 32768; ++i) {\n var x = (i & 43690) >> 1 | (i & 21845) << 1;\n x = (x & 52428) >> 2 | (x & 13107) << 2;\n x = (x & 61680) >> 4 | (x & 3855) << 4;\n rev[i] = ((x & 65280) >> 8 | (x & 255) << 8) >> 1;\n }\n var hMap = function(cd, mb, r) {\n var s = cd.length;\n var i2 = 0;\n var l = new u16(mb);\n for (; i2 < s; ++i2) {\n if (cd[i2])\n ++l[cd[i2] - 1];\n }\n var le = new u16(mb);\n for (i2 = 1; i2 < mb; ++i2) {\n le[i2] = le[i2 - 1] + l[i2 - 1] << 1;\n }\n var co;\n if (r) {\n co = new u16(1 << mb);\n var rvb = 15 - mb;\n for (i2 = 0; i2 < s; ++i2) {\n if (cd[i2]) {\n var sv = i2 << 4 | cd[i2];\n var r_1 = mb - cd[i2];\n var v = le[cd[i2] - 1]++ << r_1;\n for (var m = v | (1 << r_1) - 1; v <= m; ++v) {\n co[rev[v] >> rvb] = sv;\n }\n }\n }\n } else {\n co = new u16(s);\n for (i2 = 0; i2 < s; ++i2) {\n if (cd[i2]) {\n co[i2] = rev[le[cd[i2] - 1]++] >> 15 - cd[i2];\n }\n }\n }\n return co;\n };\n var flt = new u8(288);\n for (var i = 0; i < 144; ++i)\n flt[i] = 8;\n for (var i = 144; i < 256; ++i)\n flt[i] = 9;\n for (var i = 256; i < 280; ++i)\n flt[i] = 7;\n for (var i = 280; i < 288; ++i)\n flt[i] = 8;\n var fdt = new u8(32);\n for (var i = 0; i < 32; ++i)\n fdt[i] = 5;\n var flrm = /* @__PURE__ */ hMap(flt, 9, 1);\n var fdrm = /* @__PURE__ */ hMap(fdt, 5, 1);\n var max = function(a) {\n var m = a[0];\n for (var i2 = 1; i2 < a.length; ++i2) {\n if (a[i2] > m)\n m = a[i2];\n }\n return m;\n };\n var bits = function(d, p, m) {\n var o = p / 8 | 0;\n return (d[o] | d[o + 1] << 8) >> (p & 7) & m;\n };\n var bits16 = function(d, p) {\n var o = p / 8 | 0;\n return (d[o] | d[o + 1] << 8 | d[o + 2] << 16) >> (p & 7);\n };\n var shft = function(p) {\n return (p + 7) / 8 | 0;\n };\n var slc = function(v, s, e) {\n if (s == null || s < 0)\n s = 0;\n if (e == null || e > v.length)\n e = v.length;\n return new u8(v.subarray(s, e));\n };\n var ec = [\n "unexpected EOF",\n "invalid block type",\n "invalid length/literal",\n "invalid distance",\n "stream finished",\n "no stream handler",\n ,\n "no callback",\n "invalid UTF-8 data",\n "extra field too long",\n "date not in range 1980-2099",\n "filename too long",\n "stream finishing",\n "invalid zip data"\n // determined by unknown compression method\n ];\n var err = function(ind, msg, nt) {\n var e = new Error(msg || ec[ind]);\n e.code = ind;\n if (Error.captureStackTrace)\n Error.captureStackTrace(e, err);\n if (!nt)\n throw e;\n return e;\n };\n var inflt = function(dat, st, buf, dict) {\n var sl = dat.length, dl = dict ? dict.length : 0;\n if (!sl || st.f && !st.l)\n return buf || new u8(0);\n var noBuf = !buf;\n var resize = noBuf || st.i != 2;\n var noSt = st.i;\n if (noBuf)\n buf = new u8(sl * 3);\n var cbuf = function(l2) {\n var bl = buf.length;\n if (l2 > bl) {\n var nbuf = new u8(Math.max(bl * 2, l2));\n nbuf.set(buf);\n buf = nbuf;\n }\n };\n var final = st.f || 0, pos = st.p || 0, bt = st.b || 0, lm = st.l, dm = st.d, lbt = st.m, dbt = st.n;\n var tbts = sl * 8;\n do {\n if (!lm) {\n final = bits(dat, pos, 1);\n var type = bits(dat, pos + 1, 3);\n pos += 3;\n if (!type) {\n var s = shft(pos) + 4, l = dat[s - 4] | dat[s - 3] << 8, t = s + l;\n if (t > sl) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + l);\n buf.set(dat.subarray(s, t), bt);\n st.b = bt += l, st.p = pos = t * 8, st.f = final;\n continue;\n } else if (type == 1)\n lm = flrm, dm = fdrm, lbt = 9, dbt = 5;\n else if (type == 2) {\n var hLit = bits(dat, pos, 31) + 257, hcLen = bits(dat, pos + 10, 15) + 4;\n var tl = hLit + bits(dat, pos + 5, 31) + 1;\n pos += 14;\n var ldt = new u8(tl);\n var clt = new u8(19);\n for (var i2 = 0; i2 < hcLen; ++i2) {\n clt[clim[i2]] = bits(dat, pos + i2 * 3, 7);\n }\n pos += hcLen * 3;\n var clb = max(clt), clbmsk = (1 << clb) - 1;\n var clm = hMap(clt, clb, 1);\n for (var i2 = 0; i2 < tl; ) {\n var r = clm[bits(dat, pos, clbmsk)];\n pos += r & 15;\n var s = r >> 4;\n if (s < 16) {\n ldt[i2++] = s;\n } else {\n var c = 0, n = 0;\n if (s == 16)\n n = 3 + bits(dat, pos, 3), pos += 2, c = ldt[i2 - 1];\n else if (s == 17)\n n = 3 + bits(dat, pos, 7), pos += 3;\n else if (s == 18)\n n = 11 + bits(dat, pos, 127), pos += 7;\n while (n--)\n ldt[i2++] = c;\n }\n }\n var lt = ldt.subarray(0, hLit), dt = ldt.subarray(hLit);\n lbt = max(lt);\n dbt = max(dt);\n lm = hMap(lt, lbt, 1);\n dm = hMap(dt, dbt, 1);\n } else\n err(1);\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n }\n if (resize)\n cbuf(bt + 131072);\n var lms = (1 << lbt) - 1, dms = (1 << dbt) - 1;\n var lpos = pos;\n for (; ; lpos = pos) {\n var c = lm[bits16(dat, pos) & lms], sym = c >> 4;\n pos += c & 15;\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (!c)\n err(2);\n if (sym < 256)\n buf[bt++] = sym;\n else if (sym == 256) {\n lpos = pos, lm = null;\n break;\n } else {\n var add = sym - 254;\n if (sym > 264) {\n var i2 = sym - 257, b = fleb[i2];\n add = bits(dat, pos, (1 << b) - 1) + fl[i2];\n pos += b;\n }\n var d = dm[bits16(dat, pos) & dms], dsym = d >> 4;\n if (!d)\n err(3);\n pos += d & 15;\n var dt = fd[dsym];\n if (dsym > 3) {\n var b = fdeb[dsym];\n dt += bits16(dat, pos) & (1 << b) - 1, pos += b;\n }\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + 131072);\n var end = bt + add;\n if (bt < dt) {\n var shift = dl - dt, dend = Math.min(dt, end);\n if (shift + bt < 0)\n err(3);\n for (; bt < dend; ++bt)\n buf[bt] = dict[shift + bt];\n }\n for (; bt < end; ++bt)\n buf[bt] = buf[bt - dt];\n }\n }\n st.l = lm, st.p = lpos, st.b = bt, st.f = final;\n if (lm)\n final = 1, st.m = lbt, st.d = dm, st.n = dbt;\n } while (!final);\n return bt != buf.length && noBuf ? slc(buf, 0, bt) : buf.subarray(0, bt);\n };\n var et = /* @__PURE__ */ new u8(0);\n var mrg = function(a, b) {\n var o = {};\n for (var k in a)\n o[k] = a[k];\n for (var k in b)\n o[k] = b[k];\n return o;\n };\n var wcln = function(fn, fnStr, td2) {\n var dt = fn();\n var st = fn.toString();\n var ks = st.slice(st.indexOf("[") + 1, st.lastIndexOf("]")).replace(/\\s+/g, "").split(",");\n for (var i2 = 0; i2 < dt.length; ++i2) {\n var v = dt[i2], k = ks[i2];\n if (typeof v == "function") {\n fnStr += ";" + k + "=";\n var st_1 = v.toString();\n if (v.prototype) {\n if (st_1.indexOf("[native code]") != -1) {\n var spInd = st_1.indexOf(" ", 8) + 1;\n fnStr += st_1.slice(spInd, st_1.indexOf("(", spInd));\n } else {\n fnStr += st_1;\n for (var t in v.prototype)\n fnStr += ";" + k + ".prototype." + t + "=" + v.prototype[t].toString();\n }\n } else\n fnStr += st_1;\n } else\n td2[k] = v;\n }\n return fnStr;\n };\n var ch = [];\n var cbfs = function(v) {\n var tl = [];\n for (var k in v) {\n if (v[k].buffer) {\n tl.push((v[k] = new v[k].constructor(v[k])).buffer);\n }\n }\n return tl;\n };\n var wrkr = function(fns, init, id, cb) {\n if (!ch[id]) {\n var fnStr = "", td_1 = {}, m = fns.length - 1;\n for (var i2 = 0; i2 < m; ++i2)\n fnStr = wcln(fns[i2], fnStr, td_1);\n ch[id] = { c: wcln(fns[m], fnStr, td_1), e: td_1 };\n }\n var td2 = mrg({}, ch[id].e);\n return wk(ch[id].c + ";onmessage=function(e){for(var k in e.data)self[k]=e.data[k];onmessage=" + init.toString() + "}", id, td2, cbfs(td2), cb);\n };\n var bInflt = function() {\n return [u8, u16, i32, fleb, fdeb, clim, fl, fd, flrm, fdrm, rev, ec, hMap, max, bits, bits16, shft, slc, err, inflt, inflateSync, pbf, gopt];\n };\n var pbf = function(msg) {\n return postMessage(msg, [msg.buffer]);\n };\n var gopt = function(o) {\n return o && {\n out: o.size && new u8(o.size),\n dictionary: o.dictionary\n };\n };\n var cbify = function(dat, opts, fns, init, id, cb) {\n var w = wrkr(fns, init, id, function(err2, dat2) {\n w.terminate();\n cb(err2, dat2);\n });\n w.postMessage([dat, opts], opts.consume ? [dat.buffer] : []);\n return function() {\n w.terminate();\n };\n };\n var b2 = function(d, b) {\n return d[b] | d[b + 1] << 8;\n };\n var b4 = function(d, b) {\n return (d[b] | d[b + 1] << 8 | d[b + 2] << 16 | d[b + 3] << 24) >>> 0;\n };\n var b8 = function(d, b) {\n return b4(d, b) + b4(d, b + 4) * 4294967296;\n };\n var gzs = function(d) {\n if (d[0] != 31 || d[1] != 139 || d[2] != 8)\n err(6, "invalid gzip data");\n var flg = d[3];\n var st = 10;\n if (flg & 4)\n st += (d[10] | d[11] << 8) + 2;\n for (var zs = (flg >> 3 & 1) + (flg >> 4 & 1); zs > 0; zs -= !d[st++])\n ;\n return st + (flg & 2);\n };\n var Inflate = /* @__PURE__ */ function() {\n function Inflate2(opts, cb) {\n if (typeof opts == "function")\n cb = opts, opts = {};\n this.ondata = cb;\n var dict = opts && opts.dictionary && opts.dictionary.subarray(-32768);\n this.s = { i: 0, b: dict ? dict.length : 0 };\n this.o = new u8(32768);\n this.p = new u8(0);\n if (dict)\n this.o.set(dict);\n }\n Inflate2.prototype.e = function(c) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n if (!this.p.length)\n this.p = c;\n else if (c.length) {\n var n = new u8(this.p.length + c.length);\n n.set(this.p), n.set(c, this.p.length), this.p = n;\n }\n };\n Inflate2.prototype.c = function(final) {\n this.s.i = +(this.d = final || false);\n var bts = this.s.b;\n var dt = inflt(this.p, this.s, this.o);\n this.ondata(slc(dt, bts, this.s.b), this.d);\n this.o = slc(dt, this.s.b - 32768), this.s.b = this.o.length;\n this.p = slc(this.p, this.s.p / 8 | 0), this.s.p &= 7;\n };\n Inflate2.prototype.push = function(chunk, final) {\n this.e(chunk), this.c(final);\n };\n return Inflate2;\n }();\n function inflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != "function")\n err(7);\n return cbify(data, opts, [\n bInflt\n ], function(ev) {\n return pbf(inflateSync(ev.data[0], gopt(ev.data[1])));\n }, 1, cb);\n }\n function inflateSync(data, opts) {\n return inflt(data, { i: 2 }, opts && opts.out, opts && opts.dictionary);\n }\n var Gunzip = /* @__PURE__ */ function() {\n function Gunzip2(opts, cb) {\n this.v = 1;\n this.r = 0;\n Inflate.call(this, opts, cb);\n }\n Gunzip2.prototype.push = function(chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n this.r += chunk.length;\n if (this.v) {\n var p = this.p.subarray(this.v - 1);\n var s = p.length > 3 ? gzs(p) : 4;\n if (s > p.length) {\n if (!final)\n return;\n } else if (this.v > 1 && this.onmember) {\n this.onmember(this.r - p.length);\n }\n this.p = p.subarray(s), this.v = 0;\n }\n Inflate.prototype.c.call(this, final);\n if (this.s.f && !this.s.l && !final) {\n this.v = shft(this.s.p) + 9;\n this.s = { i: 0 };\n this.o = new u8(0);\n this.push(new u8(0), final);\n }\n };\n return Gunzip2;\n }();\n var td = typeof TextDecoder != "undefined" && /* @__PURE__ */ new TextDecoder();\n try {\n td.decode(et, { stream: true });\n } catch (e) {\n }\n var dutf8 = function(d) {\n for (var r = "", i2 = 0; ; ) {\n var c = d[i2++];\n var eb = (c > 127) + (c > 223) + (c > 239);\n if (i2 + eb > d.length)\n return { s: r, r: slc(d, i2 - 1) };\n if (!eb)\n r += String.fromCharCode(c);\n else if (eb == 3) {\n c = ((c & 15) << 18 | (d[i2++] & 63) << 12 | (d[i2++] & 63) << 6 | d[i2++] & 63) - 65536, r += String.fromCharCode(55296 | c >> 10, 56320 | c & 1023);\n } else if (eb & 1)\n r += String.fromCharCode((c & 31) << 6 | d[i2++] & 63);\n else\n r += String.fromCharCode((c & 15) << 12 | (d[i2++] & 63) << 6 | d[i2++] & 63);\n }\n };\n function strFromU8(dat, latin1) {\n if (latin1) {\n var r = "";\n for (var i2 = 0; i2 < dat.length; i2 += 16384)\n r += String.fromCharCode.apply(null, dat.subarray(i2, i2 + 16384));\n return r;\n } else if (td) {\n return td.decode(dat);\n } else {\n var _a2 = dutf8(dat), s = _a2.s, r = _a2.r;\n if (r.length)\n err(8);\n return s;\n }\n }\n var slzh = function(d, b) {\n return b + 30 + b2(d, b + 26) + b2(d, b + 28);\n };\n var zh = function(d, b, z) {\n var fnl = b2(d, b + 28), fn = strFromU8(d.subarray(b + 46, b + 46 + fnl), !(b2(d, b + 8) & 2048)), es = b + 46 + fnl, bs = b4(d, b + 20);\n var _a2 = z && bs == 4294967295 ? 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This implementation assumes the\n * quaternion data are managed in flat arrays.\n *\n * @param {Array} dst - The destination array.\n * @param {number} dstOffset - An offset into the destination array.\n * @param {Array} src0 - The source array of the first quaternion.\n * @param {number} srcOffset0 - An offset into the first source array.\n * @param {Array} src1 - The source array of the second quaternion.\n * @param {number} srcOffset1 - An offset into the second source array.\n * @param {number} t - The interpolation factor in the range `[0,1]`.\n * @see {@link Quaternion#slerp}\n */\n static slerpFlat(dst, dstOffset, src0, srcOffset0, src1, srcOffset1, t) {\n let x0 = src0[srcOffset0 + 0], y0 = src0[srcOffset0 + 1], z0 = src0[srcOffset0 + 2], w0 = src0[srcOffset0 + 3];\n const x1 = src1[srcOffset1 + 0], y1 = src1[srcOffset1 + 1], z1 = src1[srcOffset1 + 2], w1 = src1[srcOffset1 + 3];\n if (t === 0) {\n dst[dstOffset + 0] = x0;\n dst[dstOffset + 1] = y0;\n dst[dstOffset + 2] = z0;\n dst[dstOffset + 3] = w0;\n return;\n }\n if (t === 1) {\n dst[dstOffset + 0] = x1;\n dst[dstOffset + 1] = y1;\n dst[dstOffset + 2] = z1;\n dst[dstOffset + 3] = w1;\n return;\n }\n if (w0 !== w1 || x0 !== x1 || y0 !== y1 || z0 !== z1) {\n let s = 1 - t;\n const cos = x0 * x1 + y0 * y1 + z0 * z1 + w0 * w1, dir = cos >= 0 ? 1 : -1, sqrSin = 1 - cos * cos;\n if (sqrSin > Number.EPSILON) {\n const sin = Math.sqrt(sqrSin), len = Math.atan2(sin, cos * dir);\n s = Math.sin(s * len) / sin;\n t = Math.sin(t * len) / sin;\n }\n const tDir = t * dir;\n x0 = x0 * s + x1 * tDir;\n y0 = y0 * s + y1 * tDir;\n z0 = z0 * s + z1 * tDir;\n w0 = w0 * s + w1 * tDir;\n if (s === 1 - t) {\n const f = 1 / Math.sqrt(x0 * x0 + y0 * y0 + z0 * z0 + w0 * w0);\n x0 *= f;\n y0 *= f;\n z0 *= f;\n w0 *= f;\n }\n }\n dst[dstOffset] = x0;\n dst[dstOffset + 1] = y0;\n dst[dstOffset + 2] = z0;\n dst[dstOffset + 3] = w0;\n }\n /**\n * Multiplies two quaternions. This implementation assumes the quaternion data are managed\n * in flat arrays.\n *\n * @param {Array} dst - The destination array.\n * @param {number} dstOffset - An offset into the destination array.\n * @param {Array} src0 - The source array of the first quaternion.\n * @param {number} srcOffset0 - An offset into the first source array.\n * @param {Array} src1 - The source array of the second quaternion.\n * @param {number} srcOffset1 - An offset into the second source array.\n * @return {Array} The destination array.\n * @see {@link Quaternion#multiplyQuaternions}.\n */\n static multiplyQuaternionsFlat(dst, dstOffset, src0, srcOffset0, src1, srcOffset1) {\n const x0 = src0[srcOffset0];\n const y0 = src0[srcOffset0 + 1];\n const z0 = src0[srcOffset0 + 2];\n const w0 = src0[srcOffset0 + 3];\n const x1 = src1[srcOffset1];\n const y1 = src1[srcOffset1 + 1];\n const z1 = src1[srcOffset1 + 2];\n const w1 = src1[srcOffset1 + 3];\n dst[dstOffset] = x0 * w1 + w0 * x1 + y0 * z1 - z0 * y1;\n dst[dstOffset + 1] = y0 * w1 + w0 * y1 + z0 * x1 - x0 * z1;\n dst[dstOffset + 2] = z0 * w1 + w0 * z1 + x0 * y1 - y0 * x1;\n dst[dstOffset + 3] = w0 * w1 - x0 * x1 - y0 * y1 - z0 * z1;\n return dst;\n }\n /**\n * The x value of this quaternion.\n *\n * @type {number}\n * @default 0\n */\n get x() {\n return this._x;\n }\n set x(value) {\n this._x = value;\n this._onChangeCallback();\n }\n /**\n * The y value of this quaternion.\n *\n * @type {number}\n * @default 0\n */\n get y() {\n return this._y;\n }\n set y(value) {\n this._y = value;\n this._onChangeCallback();\n }\n /**\n * The z value of this quaternion.\n *\n * @type {number}\n * @default 0\n */\n get z() {\n return this._z;\n }\n set z(value) {\n this._z = value;\n this._onChangeCallback();\n }\n /**\n * The w value of this quaternion.\n *\n * @type {number}\n * @default 1\n */\n get w() {\n return this._w;\n }\n set w(value) {\n this._w = value;\n this._onChangeCallback();\n }\n /**\n * Sets the quaternion components.\n *\n * @param {number} x - The x value of this quaternion.\n * @param {number} y - The y value of this quaternion.\n * @param {number} z - The z value of this quaternion.\n * @param {number} w - The w value of this quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n set(x2, y, z, w) {\n this._x = x2;\n this._y = y;\n this._z = z;\n this._w = w;\n this._onChangeCallback();\n return this;\n }\n /**\n * Returns a new quaternion with copied values from this instance.\n *\n * @return {Quaternion} A clone of this instance.\n */\n clone() {\n return new this.constructor(this._x, this._y, this._z, this._w);\n }\n /**\n * Copies the values of the given quaternion to this instance.\n *\n * @param {Quaternion} quaternion - The quaternion to copy.\n * @return {Quaternion} A reference to this quaternion.\n */\n copy(quaternion) {\n this._x = quaternion.x;\n this._y = quaternion.y;\n this._z = quaternion.z;\n this._w = quaternion.w;\n this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion from the rotation specified by the given\n * Euler angles.\n *\n * @param {Euler} euler - The Euler angles.\n * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromEuler(euler, update = true) {\n const x2 = euler._x, y = euler._y, z = euler._z, order = euler._order;\n const cos = Math.cos;\n const sin = Math.sin;\n const c1 = cos(x2 / 2);\n const c2 = cos(y / 2);\n const c3 = cos(z / 2);\n const s1 = sin(x2 / 2);\n const s2 = sin(y / 2);\n const s3 = sin(z / 2);\n switch (order) {\n case "XYZ":\n this._x = s1 * c2 * c3 + c1 * s2 * s3;\n this._y = c1 * s2 * c3 - s1 * c2 * s3;\n this._z = c1 * c2 * s3 + s1 * s2 * c3;\n this._w = c1 * c2 * c3 - s1 * s2 * s3;\n break;\n case "YXZ":\n this._x = s1 * c2 * c3 + c1 * s2 * s3;\n this._y = c1 * s2 * c3 - s1 * c2 * s3;\n this._z = c1 * c2 * s3 - s1 * s2 * c3;\n this._w = c1 * c2 * c3 + s1 * s2 * s3;\n break;\n case "ZXY":\n this._x = s1 * c2 * c3 - c1 * s2 * s3;\n this._y = c1 * s2 * c3 + s1 * c2 * s3;\n this._z = c1 * c2 * s3 + s1 * s2 * c3;\n this._w = c1 * c2 * c3 - s1 * s2 * s3;\n break;\n case "ZYX":\n this._x = s1 * c2 * c3 - c1 * s2 * s3;\n this._y = c1 * s2 * c3 + s1 * c2 * s3;\n this._z = c1 * c2 * s3 - s1 * s2 * c3;\n this._w = c1 * c2 * c3 + s1 * s2 * s3;\n break;\n case "YZX":\n this._x = s1 * c2 * c3 + c1 * s2 * s3;\n this._y = c1 * s2 * c3 + s1 * c2 * s3;\n this._z = c1 * c2 * s3 - s1 * s2 * c3;\n this._w = c1 * c2 * c3 - s1 * s2 * s3;\n break;\n case "XZY":\n this._x = s1 * c2 * c3 - c1 * s2 * s3;\n this._y = c1 * s2 * c3 - s1 * c2 * s3;\n this._z = c1 * c2 * s3 + s1 * s2 * c3;\n this._w = c1 * c2 * c3 + s1 * s2 * s3;\n break;\n default:\n console.warn("THREE.Quaternion: .setFromEuler() encountered an unknown order: " + order);\n }\n if (update === true) this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion from the given axis and angle.\n *\n * @param {Vector3} axis - The normalized axis.\n * @param {number} angle - The angle in radians.\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromAxisAngle(axis, angle) {\n const halfAngle = angle / 2, s = Math.sin(halfAngle);\n this._x = axis.x * s;\n this._y = axis.y * s;\n this._z = axis.z * s;\n this._w = Math.cos(halfAngle);\n this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion from the given rotation matrix.\n *\n * @param {Matrix4} m - A 4x4 matrix of which the upper 3x3 of matrix is a pure rotation matrix (i.e. unscaled).\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromRotationMatrix(m) {\n const te = m.elements, m11 = te[0], m12 = te[4], m13 = te[8], m21 = te[1], m22 = te[5], m23 = te[9], m31 = te[2], m32 = te[6], m33 = te[10], trace = m11 + m22 + m33;\n if (trace > 0) {\n const s = 0.5 / Math.sqrt(trace + 1);\n this._w = 0.25 / s;\n this._x = (m32 - m23) * s;\n this._y = (m13 - m31) * s;\n this._z = (m21 - m12) * s;\n } else if (m11 > m22 && m11 > m33) {\n const s = 2 * Math.sqrt(1 + m11 - m22 - m33);\n this._w = (m32 - m23) / s;\n this._x = 0.25 * s;\n this._y = (m12 + m21) / s;\n this._z = (m13 + m31) / s;\n } else if (m22 > m33) {\n const s = 2 * Math.sqrt(1 + m22 - m11 - m33);\n this._w = (m13 - m31) / s;\n this._x = (m12 + m21) / s;\n this._y = 0.25 * s;\n this._z = (m23 + m32) / s;\n } else {\n const s = 2 * Math.sqrt(1 + m33 - m11 - m22);\n this._w = (m21 - m12) / s;\n this._x = (m13 + m31) / s;\n this._y = (m23 + m32) / s;\n this._z = 0.25 * s;\n }\n this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion to the rotation required to rotate the direction vector\n * `vFrom` to the direction vector `vTo`.\n *\n * @param {Vector3} vFrom - The first (normalized) direction vector.\n * @param {Vector3} vTo - The second (normalized) direction vector.\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromUnitVectors(vFrom, vTo) {\n let r = vFrom.dot(vTo) + 1;\n if (r < 1e-8) {\n r = 0;\n if (Math.abs(vFrom.x) > Math.abs(vFrom.z)) {\n this._x = -vFrom.y;\n this._y = vFrom.x;\n this._z = 0;\n this._w = r;\n } else {\n this._x = 0;\n this._y = -vFrom.z;\n this._z = vFrom.y;\n this._w = r;\n }\n } else {\n this._x = vFrom.y * vTo.z - vFrom.z * vTo.y;\n this._y = vFrom.z * vTo.x - vFrom.x * vTo.z;\n this._z = vFrom.x * vTo.y - vFrom.y * vTo.x;\n this._w = r;\n }\n return this.normalize();\n }\n /**\n * Returns the angle between this quaternion and the given one in radians.\n *\n * @param {Quaternion} q - The quaternion to compute the angle with.\n * @return {number} The angle in radians.\n */\n angleTo(q) {\n return 2 * Math.acos(Math.abs(clamp(this.dot(q), -1, 1)));\n }\n /**\n * Rotates this quaternion by a given angular step to the given quaternion.\n * The method ensures that the final quaternion will not overshoot `q`.\n *\n * @param {Quaternion} q - The target quaternion.\n * @param {number} step - The angular step in radians.\n * @return {Quaternion} A reference to this quaternion.\n */\n rotateTowards(q, step) {\n const angle = this.angleTo(q);\n if (angle === 0) return this;\n const t = Math.min(1, step / angle);\n this.slerp(q, t);\n return this;\n }\n /**\n * Sets this quaternion to the identity quaternion; that is, to the\n * quaternion that represents "no rotation".\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n identity() {\n return this.set(0, 0, 0, 1);\n }\n /**\n * Inverts this quaternion via {@link Quaternion#conjugate}. The\n * quaternion is assumed to have unit length.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n invert() {\n return this.conjugate();\n }\n /**\n * Returns the rotational conjugate of this quaternion. The conjugate of a\n * quaternion represents the same rotation in the opposite direction about\n * the rotational axis.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n conjugate() {\n this._x *= -1;\n this._y *= -1;\n this._z *= -1;\n this._onChangeCallback();\n return this;\n }\n /**\n * Calculates the dot product of this quaternion and the given one.\n *\n * @param {Quaternion} v - The quaternion to compute the dot product with.\n * @return {number} The result of the dot product.\n */\n dot(v) {\n return this._x * v._x + this._y * v._y + this._z * v._z + this._w * v._w;\n }\n /**\n * Computes the squared Euclidean length (straight-line length) of this quaternion,\n * considered as a 4 dimensional vector. This can be useful if you are comparing the\n * lengths of two quaternions, as this is a slightly more efficient calculation than\n * {@link Quaternion#length}.\n *\n * @return {number} The squared Euclidean length.\n */\n lengthSq() {\n return this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w;\n }\n /**\n * Computes the Euclidean length (straight-line length) of this quaternion,\n * considered as a 4 dimensional vector.\n *\n * @return {number} The Euclidean length.\n */\n length() {\n return Math.sqrt(this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w);\n }\n /**\n * Normalizes this quaternion - that is, calculated the quaternion that performs\n * the same rotation as this one, but has a length equal to `1`.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n normalize() {\n let l = this.length();\n if (l === 0) {\n this._x = 0;\n this._y = 0;\n this._z = 0;\n this._w = 1;\n } else {\n l = 1 / l;\n this._x = this._x * l;\n this._y = this._y * l;\n this._z = this._z * l;\n this._w = this._w * l;\n }\n this._onChangeCallback();\n return this;\n }\n /**\n * Multiplies this quaternion by the given one.\n *\n * @param {Quaternion} q - The quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n multiply(q) {\n return this.multiplyQuaternions(this, q);\n }\n /**\n * Pre-multiplies this quaternion by the given one.\n *\n * @param {Quaternion} q - The quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n premultiply(q) {\n return this.multiplyQuaternions(q, this);\n }\n /**\n * Multiplies the given quaternions and stores the result in this instance.\n *\n * @param {Quaternion} a - The first quaternion.\n * @param {Quaternion} b - The second quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n multiplyQuaternions(a, b) {\n const qax = a._x, qay = a._y, qaz = a._z, qaw = a._w;\n const qbx = b._x, qby = b._y, qbz = b._z, qbw = b._w;\n this._x = qax * qbw + qaw * qbx + qay * qbz - qaz * qby;\n this._y = qay * qbw + qaw * qby + qaz * qbx - qax * qbz;\n this._z = qaz * qbw + qaw * qbz + qax * qby - qay * qbx;\n this._w = qaw * qbw - qax * qbx - qay * qby - qaz * qbz;\n this._onChangeCallback();\n return this;\n }\n /**\n * Performs a spherical linear interpolation between quaternions.\n *\n * @param {Quaternion} qb - The target quaternion.\n * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n * @return {Quaternion} A reference to this quaternion.\n */\n slerp(qb, t) {\n if (t === 0) return this;\n if (t === 1) return this.copy(qb);\n const x2 = this._x, y = this._y, z = this._z, w = this._w;\n let cosHalfTheta = w * qb._w + x2 * qb._x + y * qb._y + z * qb._z;\n if (cosHalfTheta < 0) {\n this._w = -qb._w;\n this._x = -qb._x;\n this._y = -qb._y;\n this._z = -qb._z;\n cosHalfTheta = -cosHalfTheta;\n } else {\n this.copy(qb);\n }\n if (cosHalfTheta >= 1) {\n this._w = w;\n this._x = x2;\n this._y = y;\n this._z = z;\n return this;\n }\n const sqrSinHalfTheta = 1 - cosHalfTheta * cosHalfTheta;\n if (sqrSinHalfTheta <= Number.EPSILON) {\n const s = 1 - t;\n this._w = s * w + t * this._w;\n this._x = s * x2 + t * this._x;\n this._y = s * y + t * this._y;\n this._z = s * z + t * this._z;\n this.normalize();\n return this;\n }\n const sinHalfTheta = Math.sqrt(sqrSinHalfTheta);\n const halfTheta = Math.atan2(sinHalfTheta, cosHalfTheta);\n const ratioA = Math.sin((1 - t) * halfTheta) / sinHalfTheta, ratioB = Math.sin(t * halfTheta) / sinHalfTheta;\n this._w = w * ratioA + this._w * ratioB;\n this._x = x2 * ratioA + this._x * ratioB;\n this._y = y * ratioA + this._y * ratioB;\n this._z = z * ratioA + this._z * ratioB;\n this._onChangeCallback();\n return this;\n }\n /**\n * Performs a spherical linear interpolation between the given quaternions\n * and stores the result in this quaternion.\n *\n * @param {Quaternion} qa - The source quaternion.\n * @param {Quaternion} qb - The target quaternion.\n * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n * @return {Quaternion} A reference to this quaternion.\n */\n slerpQuaternions(qa, qb, t) {\n return this.copy(qa).slerp(qb, t);\n }\n /**\n * Sets this quaternion to a uniformly random, normalized quaternion.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n random() {\n const theta1 = 2 * Math.PI * Math.random();\n const theta2 = 2 * Math.PI * Math.random();\n const x0 = Math.random();\n const r1 = Math.sqrt(1 - x0);\n const r2 = Math.sqrt(x0);\n return this.set(\n r1 * Math.sin(theta1),\n r1 * Math.cos(theta1),\n r2 * Math.sin(theta2),\n r2 * Math.cos(theta2)\n );\n }\n /**\n * Returns `true` if this quaternion is equal with the given one.\n *\n * @param {Quaternion} quaternion - The quaternion to test for equality.\n * @return {boolean} Whether this quaternion is equal with the given one.\n */\n equals(quaternion) {\n return quaternion._x === this._x && quaternion._y === this._y && quaternion._z === this._z && quaternion._w === this._w;\n }\n /**\n * Sets this quaternion\'s components from the given array.\n *\n * @param {Array} array - An array holding the quaternion component values.\n * @param {number} [offset=0] - The offset into the array.\n * @return {Quaternion} A reference to this quaternion.\n */\n fromArray(array, offset = 0) {\n this._x = array[offset];\n this._y = array[offset + 1];\n this._z = array[offset + 2];\n this._w = array[offset + 3];\n this._onChangeCallback();\n return this;\n }\n /**\n * Writes the components of this quaternion to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the quaternion components.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The quaternion components.\n */\n toArray(array = [], offset = 0) {\n array[offset] = this._x;\n array[offset + 1] = this._y;\n array[offset + 2] = this._z;\n array[offset + 3] = this._w;\n return array;\n }\n /**\n * Sets the components of this quaternion from the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - The buffer attribute holding quaternion data.\n * @param {number} index - The index into the attribute.\n * @return {Quaternion} A reference to this quaternion.\n */\n fromBufferAttribute(attribute, index) {\n this._x = attribute.getX(index);\n this._y = attribute.getY(index);\n this._z = attribute.getZ(index);\n this._w = attribute.getW(index);\n this._onChangeCallback();\n return this;\n }\n /**\n * This methods defines the serialization result of this class. Returns the\n * numerical elements of this quaternion in an array of format `[x, y, z, w]`.\n *\n * @return {Array} The serialized quaternion.\n */\n toJSON() {\n return this.toArray();\n }\n _onChange(callback) {\n this._onChangeCallback = callback;\n return this;\n }\n _onChangeCallback() {\n }\n *[Symbol.iterator]() {\n yield this._x;\n yield this._y;\n yield this._z;\n yield this._w;\n }\n }\n class Vector3 {\n /**\n * Constructs a new 3D vector.\n *\n * @param {number} [x=0] - The x value of this vector.\n * @param {number} [y=0] - The y value of this vector.\n * @param {number} [z=0] - The z value of this vector.\n */\n constructor(x2 = 0, y = 0, z = 0) {\n Vector3.prototype.isVector3 = true;\n this.x = x2;\n this.y = y;\n this.z = z;\n }\n /**\n * Sets the vector components.\n *\n * @param {number} x - The value of the x component.\n * @param {number} y - The value of the y component.\n * @param {number} z - The value of the z component.\n * @return {Vector3} A reference to this vector.\n */\n set(x2, y, z) {\n if (z === void 0) z = this.z;\n this.x = x2;\n this.y = y;\n this.z = z;\n return this;\n }\n /**\n * Sets the vector components to the same value.\n *\n * @param {number} scalar - The value to set for all vector components.\n * @return {Vector3} A reference to this vector.\n */\n setScalar(scalar) {\n this.x = scalar;\n this.y = scalar;\n this.z = scalar;\n return this;\n }\n /**\n * Sets the vector\'s x component to the given value\n *\n * @param {number} x - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setX(x2) {\n this.x = x2;\n return this;\n }\n /**\n * Sets the vector\'s y component to the given value\n *\n * @param {number} y - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setY(y) {\n this.y = y;\n return this;\n }\n /**\n * Sets the vector\'s z component to the given value\n *\n * @param {number} z - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setZ(z) {\n this.z = z;\n return this;\n }\n /**\n * Allows to set a vector component with an index.\n *\n * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n * @param {number} value - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setComponent(index, value) {\n switch (index) {\n case 0:\n this.x = value;\n break;\n case 1:\n this.y = value;\n break;\n case 2:\n this.z = value;\n break;\n default:\n throw new Error("index is out of range: " + index);\n }\n return this;\n }\n /**\n * Returns the value of the vector component which matches the given index.\n *\n * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n * @return {number} A vector component value.\n */\n getComponent(index) {\n switch (index) {\n case 0:\n return this.x;\n case 1:\n return this.y;\n case 2:\n return this.z;\n default:\n throw new Error("index is out of range: " + index);\n }\n }\n /**\n * Returns a new vector with copied values from this instance.\n *\n * @return {Vector3} A clone of this instance.\n */\n clone() {\n return new this.constructor(this.x, this.y, this.z);\n }\n /**\n * Copies the values of the given vector to this instance.\n *\n * @param {Vector3} v - The vector to copy.\n * @return {Vector3} A reference to this vector.\n */\n copy(v) {\n this.x = v.x;\n this.y = v.y;\n this.z = v.z;\n return this;\n }\n /**\n * Adds the given vector to this instance.\n *\n * @param {Vector3} v - The vector to add.\n * @return {Vector3} A reference to this vector.\n */\n add(v) {\n this.x += v.x;\n this.y += v.y;\n this.z += v.z;\n return this;\n }\n /**\n * Adds the given scalar value to all components of this instance.\n *\n * @param {number} s - The scalar to add.\n * @return {Vector3} A reference to this vector.\n */\n addScalar(s) {\n this.x += s;\n this.y += s;\n this.z += s;\n return this;\n }\n /**\n * Adds the given vectors and stores the result in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n addVectors(a, b) {\n this.x = a.x + b.x;\n this.y = a.y + b.y;\n this.z = a.z + b.z;\n return this;\n }\n /**\n * Adds the given vector scaled by the given factor to this instance.\n *\n * @param {Vector3|Vector4} v - The vector.\n * @param {number} s - The factor that scales `v`.\n * @return {Vector3} A reference to this vector.\n */\n addScaledVector(v, s) {\n this.x += v.x * s;\n this.y += v.y * s;\n this.z += v.z * s;\n return this;\n }\n /**\n * Subtracts the given vector from this instance.\n *\n * @param {Vector3} v - The vector to subtract.\n * @return {Vector3} A reference to this vector.\n */\n sub(v) {\n this.x -= v.x;\n this.y -= v.y;\n this.z -= v.z;\n return this;\n }\n /**\n * Subtracts the given scalar value from all components of this instance.\n *\n * @param {number} s - The scalar to subtract.\n * @return {Vector3} A reference to this vector.\n */\n subScalar(s) {\n this.x -= s;\n this.y -= s;\n this.z -= s;\n return this;\n }\n /**\n * Subtracts the given vectors and stores the result in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n subVectors(a, b) {\n this.x = a.x - b.x;\n this.y = a.y - b.y;\n this.z = a.z - b.z;\n return this;\n }\n /**\n * Multiplies the given vector with this instance.\n *\n * @param {Vector3} v - The vector to multiply.\n * @return {Vector3} A reference to this vector.\n */\n multiply(v) {\n this.x *= v.x;\n this.y *= v.y;\n this.z *= v.z;\n return this;\n }\n /**\n * Multiplies the given scalar value with all components of this instance.\n *\n * @param {number} scalar - The scalar to multiply.\n * @return {Vector3} A reference to this vector.\n */\n multiplyScalar(scalar) {\n this.x *= scalar;\n this.y *= scalar;\n this.z *= scalar;\n return this;\n }\n /**\n * Multiplies the given vectors and stores the result in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n multiplyVectors(a, b) {\n this.x = a.x * b.x;\n this.y = a.y * b.y;\n this.z = a.z * b.z;\n return this;\n }\n /**\n * Applies the given Euler rotation to this vector.\n *\n * @param {Euler} euler - The Euler angles.\n * @return {Vector3} A reference to this vector.\n */\n applyEuler(euler) {\n return this.applyQuaternion(_quaternion$4.setFromEuler(euler));\n }\n /**\n * Applies a rotation specified by an axis and an angle to this vector.\n *\n * @param {Vector3} axis - A normalized vector representing the rotation axis.\n * @param {number} angle - The angle in radians.\n * @return {Vector3} A reference to this vector.\n */\n applyAxisAngle(axis, angle) {\n return this.applyQuaternion(_quaternion$4.setFromAxisAngle(axis, angle));\n }\n /**\n * Multiplies this vector with the given 3x3 matrix.\n *\n * @param {Matrix3} m - The 3x3 matrix.\n * @return {Vector3} A reference to this vector.\n */\n applyMatrix3(m) {\n const x2 = this.x, y = this.y, z = this.z;\n const e = m.elements;\n this.x = e[0] * x2 + e[3] * y + e[6] * z;\n this.y = e[1] * x2 + e[4] * y + e[7] * z;\n this.z = e[2] * x2 + e[5] * y + e[8] * z;\n return this;\n }\n /**\n * Multiplies this vector by the given normal matrix and normalizes\n * the result.\n *\n * @param {Matrix3} m - The normal matrix.\n * @return {Vector3} A reference to this vector.\n */\n applyNormalMatrix(m) {\n return this.applyMatrix3(m).normalize();\n }\n /**\n * Multiplies this vector (with an implicit 1 in the 4th dimension) by m, and\n * divides by perspective.\n *\n * @param {Matrix4} m - The matrix to apply.\n * @return {Vector3} A reference to this vector.\n */\n applyMatrix4(m) {\n const x2 = this.x, y = this.y, z = this.z;\n const e = m.elements;\n const w = 1 / (e[3] * x2 + e[7] * y + e[11] * z + e[15]);\n this.x = (e[0] * x2 + e[4] * y + e[8] * z + e[12]) * w;\n this.y = (e[1] * x2 + e[5] * y + e[9] * z + e[13]) * w;\n this.z = (e[2] * x2 + e[6] * y + e[10] * z + e[14]) * w;\n return this;\n }\n /**\n * Applies the given Quaternion to this vector.\n *\n * @param {Quaternion} q - The Quaternion.\n * @return {Vector3} A reference to this vector.\n */\n applyQuaternion(q) {\n const vx = this.x, vy = this.y, vz = this.z;\n const qx = q.x, qy = q.y, qz = q.z, qw = q.w;\n const tx = 2 * (qy * vz - qz * vy);\n const ty = 2 * (qz * vx - qx * vz);\n const tz = 2 * (qx * vy - qy * vx);\n this.x = vx + qw * tx + qy * tz - qz * ty;\n this.y = vy + qw * ty + qz * tx - qx * tz;\n this.z = vz + qw * tz + qx * ty - qy * tx;\n return this;\n }\n /**\n * Projects this vector from world space into the camera\'s normalized\n * device coordinate (NDC) space.\n *\n * @param {Camera} camera - The camera.\n * @return {Vector3} A reference to this vector.\n */\n project(camera) {\n return this.applyMatrix4(camera.matrixWorldInverse).applyMatrix4(camera.projectionMatrix);\n }\n /**\n * Unprojects this vector from the camera\'s normalized device coordinate (NDC)\n * space into world space.\n *\n * @param {Camera} camera - The camera.\n * @return {Vector3} A reference to this vector.\n */\n unproject(camera) {\n return this.applyMatrix4(camera.projectionMatrixInverse).applyMatrix4(camera.matrixWorld);\n }\n /**\n * Transforms the direction of this vector by a matrix (the upper left 3 x 3\n * subset of the given 4x4 matrix and then normalizes the result.\n *\n * @param {Matrix4} m - The matrix.\n * @return {Vector3} A reference to this vector.\n */\n transformDirection(m) {\n const x2 = this.x, y = this.y, z = this.z;\n const e = m.elements;\n this.x = e[0] * x2 + e[4] * y + e[8] * z;\n this.y = e[1] * x2 + e[5] * y + e[9] * z;\n this.z = e[2] * x2 + e[6] * y + e[10] * z;\n return this.normalize();\n }\n /**\n * Divides this instance by the given vector.\n *\n * @param {Vector3} v - The vector to divide.\n * @return {Vector3} A reference to this vector.\n */\n divide(v) {\n this.x /= v.x;\n this.y /= v.y;\n this.z /= v.z;\n return this;\n }\n /**\n * Divides this vector by the given scalar.\n *\n * @param {number} scalar - The scalar to divide.\n * @return {Vector3} A reference to this vector.\n */\n divideScalar(scalar) {\n return this.multiplyScalar(1 / scalar);\n }\n /**\n * If this vector\'s x, y or z value is greater than the given vector\'s x, y or z\n * value, replace that value with the corresponding min value.\n *\n * @param {Vector3} v - The vector.\n * @return {Vector3} A reference to this vector.\n */\n min(v) {\n this.x = Math.min(this.x, v.x);\n this.y = Math.min(this.y, v.y);\n this.z = Math.min(this.z, v.z);\n return this;\n }\n /**\n * If this vector\'s x, y or z value is less than the given vector\'s x, y or z\n * value, replace that value with the corresponding max value.\n *\n * @param {Vector3} v - The vector.\n * @return {Vector3} A reference to this vector.\n */\n max(v) {\n this.x = Math.max(this.x, v.x);\n this.y = Math.max(this.y, v.y);\n this.z = Math.max(this.z, v.z);\n return this;\n }\n /**\n * If this vector\'s x, y or z value is greater than the max vector\'s x, y or z\n * value, it is replaced by the corresponding value.\n * If this vector\'s x, y or z value is less than the min vector\'s x, y or z value,\n * it is replaced by the corresponding value.\n *\n * @param {Vector3} min - The minimum x, y and z values.\n * @param {Vector3} max - The maximum x, y and z values in the desired range.\n * @return {Vector3} A reference to this vector.\n */\n clamp(min, max2) {\n this.x = clamp(this.x, min.x, max2.x);\n this.y = clamp(this.y, min.y, max2.y);\n this.z = clamp(this.z, min.z, max2.z);\n return this;\n }\n /**\n * If this vector\'s x, y or z values are greater than the max value, they are\n * replaced by the max value.\n * If this vector\'s x, y or z values are less than the min value, they are\n * replaced by the min value.\n *\n * @param {number} minVal - The minimum value the components will be clamped to.\n * @param {number} maxVal - The maximum value the components will be clamped to.\n * @return {Vector3} A reference to this vector.\n */\n clampScalar(minVal, maxVal) {\n this.x = clamp(this.x, minVal, maxVal);\n this.y = clamp(this.y, minVal, maxVal);\n this.z = clamp(this.z, minVal, maxVal);\n return this;\n }\n /**\n * If this vector\'s length is greater than the max value, it is replaced by\n * the max value.\n * If this vector\'s length is less than the min value, it is replaced by the\n * min value.\n *\n * @param {number} min - The minimum value the vector length will be clamped to.\n * @param {number} max - The maximum value the vector length will be clamped to.\n * @return {Vector3} A reference to this vector.\n */\n clampLength(min, max2) {\n const length = this.length();\n return this.divideScalar(length || 1).multiplyScalar(clamp(length, min, max2));\n }\n /**\n * The components of this vector are rounded down to the nearest integer value.\n *\n * @return {Vector3} A reference to this vector.\n */\n floor() {\n this.x = Math.floor(this.x);\n this.y = Math.floor(this.y);\n this.z = Math.floor(this.z);\n return this;\n }\n /**\n * The components of this vector are rounded up to the nearest integer value.\n *\n * @return {Vector3} A reference to this vector.\n */\n ceil() {\n this.x = Math.ceil(this.x);\n this.y = Math.ceil(this.y);\n this.z = Math.ceil(this.z);\n return this;\n }\n /**\n * The components of this vector are rounded to the nearest integer value\n *\n * @return {Vector3} A reference to this vector.\n */\n round() {\n this.x = Math.round(this.x);\n this.y = Math.round(this.y);\n this.z = Math.round(this.z);\n return this;\n }\n /**\n * The components of this vector are rounded towards zero (up if negative,\n * down if positive) to an integer value.\n *\n * @return {Vector3} A reference to this vector.\n */\n roundToZero() {\n this.x = Math.trunc(this.x);\n this.y = Math.trunc(this.y);\n this.z = Math.trunc(this.z);\n return this;\n }\n /**\n * Inverts this vector - i.e. sets x = -x, y = -y and z = -z.\n *\n * @return {Vector3} A reference to this vector.\n */\n negate() {\n this.x = -this.x;\n this.y = -this.y;\n this.z = -this.z;\n return this;\n }\n /**\n * Calculates the dot product of the given vector with this instance.\n *\n * @param {Vector3} v - The vector to compute the dot product with.\n * @return {number} The result of the dot product.\n */\n dot(v) {\n return this.x * v.x + this.y * v.y + this.z * v.z;\n }\n // TODO lengthSquared?\n /**\n * Computes the square of the Euclidean length (straight-line length) from\n * (0, 0, 0) to (x, y, z). If you are comparing the lengths of vectors, you should\n * compare the length squared instead as it is slightly more efficient to calculate.\n *\n * @return {number} The square length of this vector.\n */\n lengthSq() {\n return this.x * this.x + this.y * this.y + this.z * this.z;\n }\n /**\n * Computes the Euclidean length (straight-line length) from (0, 0, 0) to (x, y, z).\n *\n * @return {number} The length of this vector.\n */\n length() {\n return Math.sqrt(this.x * this.x + this.y * this.y + this.z * this.z);\n }\n /**\n * Computes the Manhattan length of this vector.\n *\n * @return {number} The length of this vector.\n */\n manhattanLength() {\n return Math.abs(this.x) + Math.abs(this.y) + Math.abs(this.z);\n }\n /**\n * Converts this vector to a unit vector - that is, sets it equal to a vector\n * with the same direction as this one, but with a vector length of `1`.\n *\n * @return {Vector3} A reference to this vector.\n */\n normalize() {\n return this.divideScalar(this.length() || 1);\n }\n /**\n * Sets this vector to a vector with the same direction as this one, but\n * with the specified length.\n *\n * @param {number} length - The new length of this vector.\n * @return {Vector3} A reference to this vector.\n */\n setLength(length) {\n return this.normalize().multiplyScalar(length);\n }\n /**\n * Linearly interpolates between the given vector and this instance, where\n * alpha is the percent distance along the line - alpha = 0 will be this\n * vector, and alpha = 1 will be the given one.\n *\n * @param {Vector3} v - The vector to interpolate towards.\n * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n * @return {Vector3} A reference to this vector.\n */\n lerp(v, alpha) {\n this.x += (v.x - this.x) * alpha;\n this.y += (v.y - this.y) * alpha;\n this.z += (v.z - this.z) * alpha;\n return this;\n }\n /**\n * Linearly interpolates between the given vectors, where alpha is the percent\n * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n * be the second one. The result is stored in this instance.\n *\n * @param {Vector3} v1 - The first vector.\n * @param {Vector3} v2 - The second vector.\n * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n * @return {Vector3} A reference to this vector.\n */\n lerpVectors(v1, v2, alpha) {\n this.x = v1.x + (v2.x - v1.x) * alpha;\n this.y = v1.y + (v2.y - v1.y) * alpha;\n this.z = v1.z + (v2.z - v1.z) * alpha;\n return this;\n }\n /**\n * Calculates the cross product of the given vector with this instance.\n *\n * @param {Vector3} v - The vector to compute the cross product with.\n * @return {Vector3} The result of the cross product.\n */\n cross(v) {\n return this.crossVectors(this, v);\n }\n /**\n * Calculates the cross product of the given vectors and stores the result\n * in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n crossVectors(a, b) {\n const ax = a.x, ay = a.y, az = a.z;\n const bx = b.x, by = b.y, bz = b.z;\n this.x = ay * bz - az * by;\n this.y = az * bx - ax * bz;\n this.z = ax * by - ay * bx;\n return this;\n }\n /**\n * Projects this vector onto the given one.\n *\n * @param {Vector3} v - The vector to project to.\n * @return {Vector3} A reference to this vector.\n */\n projectOnVector(v) {\n const denominator = v.lengthSq();\n if (denominator === 0) return this.set(0, 0, 0);\n const scalar = v.dot(this) / denominator;\n return this.copy(v).multiplyScalar(scalar);\n }\n /**\n * Projects this vector onto a plane by subtracting this\n * vector projected onto the plane\'s normal from this vector.\n *\n * @param {Vector3} planeNormal - The plane normal.\n * @return {Vector3} A reference to this vector.\n */\n projectOnPlane(planeNormal) {\n _vector$c.copy(this).projectOnVector(planeNormal);\n return this.sub(_vector$c);\n }\n /**\n * Reflects this vector off a plane orthogonal to the given normal vector.\n *\n * @param {Vector3} normal - The (normalized) normal vector.\n * @return {Vector3} A reference to this vector.\n */\n reflect(normal) {\n return this.sub(_vector$c.copy(normal).multiplyScalar(2 * this.dot(normal)));\n }\n /**\n * Returns the angle between the given vector and this instance in radians.\n *\n * @param {Vector3} v - The vector to compute the angle with.\n * @return {number} The angle in radians.\n */\n angleTo(v) {\n const denominator = Math.sqrt(this.lengthSq() * v.lengthSq());\n if (denominator === 0) return Math.PI / 2;\n const theta = this.dot(v) / denominator;\n return Math.acos(clamp(theta, -1, 1));\n }\n /**\n * Computes the distance from the given vector to this instance.\n *\n * @param {Vector3} v - The vector to compute the distance to.\n * @return {number} The distance.\n */\n distanceTo(v) {\n return Math.sqrt(this.distanceToSquared(v));\n }\n /**\n * Computes the squared distance from the given vector to this instance.\n * If you are just comparing the distance with another distance, you should compare\n * the distance squared instead as it is slightly more efficient to calculate.\n *\n * @param {Vector3} v - The vector to compute the squared distance to.\n * @return {number} The squared distance.\n */\n distanceToSquared(v) {\n const dx = this.x - v.x, dy = this.y - v.y, dz = this.z - v.z;\n return dx * dx + dy * dy + dz * dz;\n }\n /**\n * Computes the Manhattan distance from the given vector to this instance.\n *\n * @param {Vector3} v - The vector to compute the Manhattan distance to.\n * @return {number} The Manhattan distance.\n */\n manhattanDistanceTo(v) {\n return Math.abs(this.x - v.x) + Math.abs(this.y - v.y) + Math.abs(this.z - v.z);\n }\n /**\n * Sets the vector components from the given spherical coordinates.\n *\n * @param {Spherical} s - The spherical coordinates.\n * @return {Vector3} A reference to this vector.\n */\n setFromSpherical(s) {\n return this.setFromSphericalCoords(s.radius, s.phi, s.theta);\n }\n /**\n * Sets the vector components from the given spherical coordinates.\n *\n * @param {number} radius - The radius.\n * @param {number} phi - The phi angle in radians.\n * @param {number} theta - The theta angle in radians.\n * @return {Vector3} A reference to this vector.\n */\n setFromSphericalCoords(radius, phi, theta) {\n const sinPhiRadius = Math.sin(phi) * radius;\n this.x = sinPhiRadius * Math.sin(theta);\n this.y = Math.cos(phi) * radius;\n this.z = sinPhiRadius * Math.cos(theta);\n return this;\n }\n /**\n * Sets the vector components from the given cylindrical coordinates.\n *\n * @param {Cylindrical} c - The cylindrical coordinates.\n * @return {Vector3} A reference to this vector.\n */\n setFromCylindrical(c) {\n return this.setFromCylindricalCoords(c.radius, c.theta, c.y);\n }\n /**\n * Sets the vector components from the given cylindrical coordinates.\n *\n * @param {number} radius - The radius.\n * @param {number} theta - The theta angle in radians.\n * @param {number} y - The y value.\n * @return {Vector3} A reference to this vector.\n */\n setFromCylindricalCoords(radius, theta, y) {\n this.x = radius * Math.sin(theta);\n this.y = y;\n this.z = radius * Math.cos(theta);\n return this;\n }\n /**\n * Sets the vector components to the position elements of the\n * given transformation matrix.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrixPosition(m) {\n const e = m.elements;\n this.x = e[12];\n this.y = e[13];\n this.z = e[14];\n return this;\n }\n /**\n * Sets the vector components to the scale elements of the\n * given transformation matrix.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrixScale(m) {\n const sx = this.setFromMatrixColumn(m, 0).length();\n const sy = this.setFromMatrixColumn(m, 1).length();\n const sz = this.setFromMatrixColumn(m, 2).length();\n this.x = sx;\n this.y = sy;\n this.z = sz;\n return this;\n }\n /**\n * Sets the vector components from the specified matrix column.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @param {number} index - The column index.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrixColumn(m, index) {\n return this.fromArray(m.elements, index * 4);\n }\n /**\n * Sets the vector components from the specified matrix column.\n *\n * @param {Matrix3} m - The 3x3 matrix.\n * @param {number} index - The column index.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrix3Column(m, index) {\n return this.fromArray(m.elements, index * 3);\n }\n /**\n * Sets the vector components from the given Euler angles.\n *\n * @param {Euler} e - The Euler angles to set.\n * @return {Vector3} A reference to this vector.\n */\n setFromEuler(e) {\n this.x = e._x;\n this.y = e._y;\n this.z = e._z;\n return this;\n }\n /**\n * Sets the vector components from the RGB components of the\n * given color.\n *\n * @param {Color} c - The color to set.\n * @return {Vector3} A reference to this vector.\n */\n setFromColor(c) {\n this.x = c.r;\n this.y = c.g;\n this.z = c.b;\n return this;\n }\n /**\n * Returns `true` if this vector is equal with the given one.\n *\n * @param {Vector3} v - The vector to test for equality.\n * @return {boolean} Whether this vector is equal with the given one.\n */\n equals(v) {\n return v.x === this.x && v.y === this.y && v.z === this.z;\n }\n /**\n * Sets this vector\'s x value to be `array[ offset ]`, y value to be `array[ offset + 1 ]`\n * and z value to be `array[ offset + 2 ]`.\n *\n * @param {Array} array - An array holding the vector component values.\n * @param {number} [offset=0] - The offset into the array.\n * @return {Vector3} A reference to this vector.\n */\n fromArray(array, offset = 0) {\n this.x = array[offset];\n this.y = array[offset + 1];\n this.z = array[offset + 2];\n return this;\n }\n /**\n * Writes the components of this vector to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the vector components.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The vector components.\n */\n toArray(array = [], offset = 0) {\n array[offset] = this.x;\n array[offset + 1] = this.y;\n array[offset + 2] = this.z;\n return array;\n }\n /**\n * Sets the components of this vector from the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n * @param {number} index - The index into the attribute.\n * @return {Vector3} A reference to this vector.\n */\n fromBufferAttribute(attribute, index) {\n this.x = attribute.getX(index);\n this.y = attribute.getY(index);\n this.z = attribute.getZ(index);\n return this;\n }\n /**\n * Sets each component of this vector to a pseudo-random value between `0` and\n * `1`, excluding `1`.\n *\n * @return {Vector3} A reference to this vector.\n */\n random() {\n this.x = Math.random();\n this.y = Math.random();\n this.z = Math.random();\n return this;\n }\n /**\n * Sets this vector to a uniformly random point on a unit sphere.\n *\n * @return {Vector3} A reference to this vector.\n */\n randomDirection() {\n const theta = Math.random() * Math.PI * 2;\n const u = Math.random() * 2 - 1;\n const c = Math.sqrt(1 - u * u);\n this.x = c * Math.cos(theta);\n this.y = u;\n this.z = c * Math.sin(theta);\n return this;\n }\n *[Symbol.iterator]() {\n yield this.x;\n yield this.y;\n yield this.z;\n }\n }\n const _vector$c = /* @__PURE__ */ new Vector3();\n const _quaternion$4 = /* @__PURE__ */ new Quaternion();\n class Matrix3 {\n /**\n * Constructs a new 3x3 matrix. The arguments are supposed to be\n * in row-major order. If no arguments are provided, the constructor\n * initializes the matrix as an identity matrix.\n *\n * @param {number} [n11] - 1-1 matrix element.\n * @param {number} [n12] - 1-2 matrix element.\n * @param {number} [n13] - 1-3 matrix element.\n * @param {number} [n21] - 2-1 matrix element.\n * @param {number} [n22] - 2-2 matrix element.\n * @param {number} [n23] - 2-3 matrix element.\n * @param {number} [n31] - 3-1 matrix element.\n * @param {number} [n32] - 3-2 matrix element.\n * @param {number} [n33] - 3-3 matrix element.\n */\n constructor(n11, n12, n13, n21, n22, n23, n31, n32, n33) {\n Matrix3.prototype.isMatrix3 = true;\n this.elements = [\n 1,\n 0,\n 0,\n 0,\n 1,\n 0,\n 0,\n 0,\n 1\n ];\n if (n11 !== void 0) {\n this.set(n11, n12, n13, n21, n22, n23, n31, n32, n33);\n }\n }\n /**\n * Sets the elements of the matrix.The arguments are supposed to be\n * in row-major order.\n *\n * @param {number} [n11] - 1-1 matrix element.\n * @param {number} [n12] - 1-2 matrix element.\n * @param {number} [n13] - 1-3 matrix element.\n * @param {number} [n21] - 2-1 matrix element.\n * @param {number} [n22] - 2-2 matrix element.\n * @param {number} [n23] - 2-3 matrix element.\n * @param {number} [n31] - 3-1 matrix element.\n * @param {number} [n32] - 3-2 matrix element.\n * @param {number} [n33] - 3-3 matrix element.\n * @return {Matrix3} A reference to this matrix.\n */\n set(n11, n12, n13, n21, n22, n23, n31, n32, n33) {\n const te = this.elements;\n te[0] = n11;\n te[1] = n21;\n te[2] = n31;\n te[3] = n12;\n te[4] = n22;\n te[5] = n32;\n te[6] = n13;\n te[7] = n23;\n te[8] = n33;\n return this;\n }\n /**\n * Sets this matrix to the 3x3 identity matrix.\n *\n * @return {Matrix3} A reference to this matrix.\n */\n identity() {\n this.set(\n 1,\n 0,\n 0,\n 0,\n 1,\n 0,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Copies the values of the given matrix to this instance.\n *\n * @param {Matrix3} m - The matrix to copy.\n * @return {Matrix3} A reference to this matrix.\n */\n copy(m) {\n const te = this.elements;\n const me = m.elements;\n te[0] = me[0];\n te[1] = me[1];\n te[2] = me[2];\n te[3] = me[3];\n te[4] = me[4];\n te[5] = me[5];\n te[6] = me[6];\n te[7] = me[7];\n te[8] = me[8];\n return this;\n }\n /**\n * Extracts the basis of this matrix into the three axis vectors provided.\n *\n * @param {Vector3} xAxis - The basis\'s x axis.\n * @param {Vector3} yAxis - The basis\'s y axis.\n * @param {Vector3} zAxis - The basis\'s z axis.\n * @return {Matrix3} A reference to this matrix.\n */\n extractBasis(xAxis, yAxis, zAxis) {\n xAxis.setFromMatrix3Column(this, 0);\n yAxis.setFromMatrix3Column(this, 1);\n zAxis.setFromMatrix3Column(this, 2);\n return this;\n }\n /**\n * Set this matrix to the upper 3x3 matrix of the given 4x4 matrix.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @return {Matrix3} A reference to this matrix.\n */\n setFromMatrix4(m) {\n const me = m.elements;\n this.set(\n me[0],\n me[4],\n me[8],\n me[1],\n me[5],\n me[9],\n me[2],\n me[6],\n me[10]\n );\n return this;\n }\n /**\n * Post-multiplies this matrix by the given 3x3 matrix.\n *\n * @param {Matrix3} m - The matrix to multiply with.\n * @return {Matrix3} A reference to this matrix.\n */\n multiply(m) {\n return this.multiplyMatrices(this, m);\n }\n /**\n * Pre-multiplies this matrix by the given 3x3 matrix.\n *\n * @param {Matrix3} m - The matrix to multiply with.\n * @return {Matrix3} A reference to this matrix.\n */\n premultiply(m) {\n return this.multiplyMatrices(m, this);\n }\n /**\n * Multiples the given 3x3 matrices and stores the result\n * in this matrix.\n *\n * @param {Matrix3} a - The first matrix.\n * @param {Matrix3} b - The second matrix.\n * @return {Matrix3} A reference to this matrix.\n */\n multiplyMatrices(a, b) {\n const ae = a.elements;\n const be = b.elements;\n const te = this.elements;\n const a11 = ae[0], a12 = ae[3], a13 = ae[6];\n const a21 = ae[1], a22 = ae[4], a23 = ae[7];\n const a31 = ae[2], a32 = ae[5], a33 = ae[8];\n const b11 = be[0], b12 = be[3], b13 = be[6];\n const b21 = be[1], b22 = be[4], b23 = be[7];\n const b31 = be[2], b32 = be[5], b33 = be[8];\n te[0] = a11 * b11 + a12 * b21 + a13 * b31;\n te[3] = a11 * b12 + a12 * b22 + a13 * b32;\n te[6] = a11 * b13 + a12 * b23 + a13 * b33;\n te[1] = a21 * b11 + a22 * b21 + a23 * b31;\n te[4] = a21 * b12 + a22 * b22 + a23 * b32;\n te[7] = a21 * b13 + a22 * b23 + a23 * b33;\n te[2] = a31 * b11 + a32 * b21 + a33 * b31;\n te[5] = a31 * b12 + a32 * b22 + a33 * b32;\n te[8] = a31 * b13 + a32 * b23 + a33 * b33;\n return this;\n }\n /**\n * Multiplies every component of the matrix by the given scalar.\n *\n * @param {number} s - The scalar.\n * @return {Matrix3} A reference to this matrix.\n */\n multiplyScalar(s) {\n const te = this.elements;\n te[0] *= s;\n te[3] *= s;\n te[6] *= s;\n te[1] *= s;\n te[4] *= s;\n te[7] *= s;\n te[2] *= s;\n te[5] *= s;\n te[8] *= s;\n return this;\n }\n /**\n * Computes and returns the determinant of this matrix.\n *\n * @return {number} The determinant.\n */\n determinant() {\n const te = this.elements;\n const a = te[0], b = te[1], c = te[2], d = te[3], e = te[4], f = te[5], g = te[6], h = te[7], i2 = te[8];\n return a * e * i2 - a * f * h - b * d * i2 + b * f * g + c * d * h - c * e * g;\n }\n /**\n * Inverts this matrix, using the [analytic method]{@link https://en.wikipedia.org/wiki/Invertible_matrix#Analytic_solution}.\n * You can not invert with a determinant of zero. If you attempt this, the method produces\n * a zero matrix instead.\n *\n * @return {Matrix3} A reference to this matrix.\n */\n invert() {\n const te = this.elements, n11 = te[0], n21 = te[1], n31 = te[2], n12 = te[3], n22 = te[4], n32 = te[5], n13 = te[6], n23 = te[7], n33 = te[8], t11 = n33 * n22 - n32 * n23, t12 = n32 * n13 - n33 * n12, t13 = n23 * n12 - n22 * n13, det = n11 * t11 + n21 * t12 + n31 * t13;\n if (det === 0) return this.set(0, 0, 0, 0, 0, 0, 0, 0, 0);\n const detInv = 1 / det;\n te[0] = t11 * detInv;\n te[1] = (n31 * n23 - n33 * n21) * detInv;\n te[2] = (n32 * n21 - n31 * n22) * detInv;\n te[3] = t12 * detInv;\n te[4] = (n33 * n11 - n31 * n13) * detInv;\n te[5] = (n31 * n12 - n32 * n11) * detInv;\n te[6] = t13 * detInv;\n te[7] = (n21 * n13 - n23 * n11) * detInv;\n te[8] = (n22 * n11 - n21 * n12) * detInv;\n return this;\n }\n /**\n * Transposes this matrix in place.\n *\n * @return {Matrix3} A reference to this matrix.\n */\n transpose() {\n let tmp;\n const m = this.elements;\n tmp = m[1];\n m[1] = m[3];\n m[3] = tmp;\n tmp = m[2];\n m[2] = m[6];\n m[6] = tmp;\n tmp = m[5];\n m[5] = m[7];\n m[7] = tmp;\n return this;\n }\n /**\n * Computes the normal matrix which is the inverse transpose of the upper\n * left 3x3 portion of the given 4x4 matrix.\n *\n * @param {Matrix4} matrix4 - The 4x4 matrix.\n * @return {Matrix3} A reference to this matrix.\n */\n getNormalMatrix(matrix4) {\n return this.setFromMatrix4(matrix4).invert().transpose();\n }\n /**\n * Transposes this matrix into the supplied array, and returns itself unchanged.\n *\n * @param {Array} r - An array to store the transposed matrix elements.\n * @return {Matrix3} A reference to this matrix.\n */\n transposeIntoArray(r) {\n const m = this.elements;\n r[0] = m[0];\n r[1] = m[3];\n r[2] = m[6];\n r[3] = m[1];\n r[4] = m[4];\n r[5] = m[7];\n r[6] = m[2];\n r[7] = m[5];\n r[8] = m[8];\n return this;\n }\n /**\n * Sets the UV transform matrix from offset, repeat, rotation, and center.\n *\n * @param {number} tx - Offset x.\n * @param {number} ty - Offset y.\n * @param {number} sx - Repeat x.\n * @param {number} sy - Repeat y.\n * @param {number} rotation - Rotation, in radians. Positive values rotate counterclockwise.\n * @param {number} cx - Center x of rotation.\n * @param {number} cy - Center y of rotation\n * @return {Matrix3} A reference to this matrix.\n */\n setUvTransform(tx, ty, sx, sy, rotation, cx, cy) {\n const c = Math.cos(rotation);\n const s = Math.sin(rotation);\n this.set(\n sx * c,\n sx * s,\n -sx * (c * cx + s * cy) + cx + tx,\n -sy * s,\n sy * c,\n -sy * (-s * cx + c * cy) + cy + ty,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Scales this matrix with the given scalar values.\n *\n * @param {number} sx - The amount to scale in the X axis.\n * @param {number} sy - The amount to scale in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n scale(sx, sy) {\n this.premultiply(_m3.makeScale(sx, sy));\n return this;\n }\n /**\n * Rotates this matrix by the given angle.\n *\n * @param {number} theta - The rotation in radians.\n * @return {Matrix3} A reference to this matrix.\n */\n rotate(theta) {\n this.premultiply(_m3.makeRotation(-theta));\n return this;\n }\n /**\n * Translates this matrix by the given scalar values.\n *\n * @param {number} tx - The amount to translate in the X axis.\n * @param {number} ty - The amount to translate in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n translate(tx, ty) {\n this.premultiply(_m3.makeTranslation(tx, ty));\n return this;\n }\n // for 2D Transforms\n /**\n * Sets this matrix as a 2D translation transform.\n *\n * @param {number|Vector2} x - The amount to translate in the X axis or alternatively a translation vector.\n * @param {number} y - The amount to translate in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n makeTranslation(x2, y) {\n if (x2.isVector2) {\n this.set(\n 1,\n 0,\n x2.x,\n 0,\n 1,\n x2.y,\n 0,\n 0,\n 1\n );\n } else {\n this.set(\n 1,\n 0,\n x2,\n 0,\n 1,\n y,\n 0,\n 0,\n 1\n );\n }\n return this;\n }\n /**\n * Sets this matrix as a 2D rotational transformation.\n *\n * @param {number} theta - The rotation in radians.\n * @return {Matrix3} A reference to this matrix.\n */\n makeRotation(theta) {\n const c = Math.cos(theta);\n const s = Math.sin(theta);\n this.set(\n c,\n -s,\n 0,\n s,\n c,\n 0,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Sets this matrix as a 2D scale transform.\n *\n * @param {number} x - The amount to scale in the X axis.\n * @param {number} y - The amount to scale in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n makeScale(x2, y) {\n this.set(\n x2,\n 0,\n 0,\n 0,\n y,\n 0,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Returns `true` if this matrix is equal with the given one.\n *\n * @param {Matrix3} matrix - The matrix to test for equality.\n * @return {boolean} Whether this matrix is equal with the given one.\n */\n equals(matrix) {\n const te = this.elements;\n const me = matrix.elements;\n for (let i2 = 0; i2 < 9; i2++) {\n if (te[i2] !== me[i2]) return false;\n }\n return true;\n }\n /**\n * Sets the elements of the matrix from the given array.\n *\n * @param {Array} array - The matrix elements in column-major order.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Matrix3} A reference to this matrix.\n */\n fromArray(array, offset = 0) {\n for (let i2 = 0; i2 < 9; i2++) {\n this.elements[i2] = array[i2 + offset];\n }\n return this;\n }\n /**\n * Writes the elements of this matrix to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the matrix elements in column-major order.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The matrix elements in column-major order.\n */\n toArray(array = [], offset = 0) {\n const te = this.elements;\n array[offset] = te[0];\n array[offset + 1] = te[1];\n array[offset + 2] = te[2];\n array[offset + 3] = te[3];\n array[offset + 4] = te[4];\n array[offset + 5] = te[5];\n array[offset + 6] = te[6];\n array[offset + 7] = te[7];\n array[offset + 8] = te[8];\n return array;\n }\n /**\n * Returns a matrix with copied values from this instance.\n *\n * @return {Matrix3} A clone of this instance.\n */\n clone() {\n return new this.constructor().fromArray(this.elements);\n }\n }\n const _m3 = /* @__PURE__ */ new Matrix3();\n const _cache = {};\n function warnOnce(message) {\n if (message in _cache) return;\n _cache[message] = true;\n console.warn(message);\n }\n const LINEAR_REC709_TO_XYZ = /* @__PURE__ */ new Matrix3().set(\n 0.4123908,\n 0.3575843,\n 0.1804808,\n 0.212639,\n 0.7151687,\n 0.0721923,\n 0.0193308,\n 0.1191948,\n 0.9505322\n );\n const XYZ_TO_LINEAR_REC709 = /* @__PURE__ */ new Matrix3().set(\n 3.2409699,\n -1.5373832,\n -0.4986108,\n -0.9692436,\n 1.8759675,\n 0.0415551,\n 0.0556301,\n -0.203977,\n 1.0569715\n );\n function createColorManagement() {\n const ColorManagement2 = {\n enabled: true,\n workingColorSpace: LinearSRGBColorSpace,\n /**\n * Implementations of supported color spaces.\n *\n * Required:\n * - primaries: chromaticity coordinates [ rx ry gx gy bx by ]\n * - whitePoint: reference white [ x y ]\n * - transfer: transfer function (pre-defined)\n * - toXYZ: Matrix3 RGB to XYZ transform\n * - fromXYZ: Matrix3 XYZ to RGB transform\n * - luminanceCoefficients: RGB luminance coefficients\n *\n * Optional:\n * - outputColorSpaceConfig: { drawingBufferColorSpace: ColorSpace, toneMappingMode: \'extended\' | \'standard\' }\n * - workingColorSpaceConfig: { unpackColorSpace: ColorSpace }\n *\n * Reference:\n * - https://www.russellcottrell.com/photo/matrixCalculator.htm\n */\n spaces: {},\n convert: function(color, sourceColorSpace, targetColorSpace) {\n if (this.enabled === false || sourceColorSpace === targetColorSpace || !sourceColorSpace || !targetColorSpace) {\n return color;\n }\n if (this.spaces[sourceColorSpace].transfer === SRGBTransfer) {\n color.r = SRGBToLinear(color.r);\n color.g = SRGBToLinear(color.g);\n color.b = SRGBToLinear(color.b);\n }\n if (this.spaces[sourceColorSpace].primaries !== this.spaces[targetColorSpace].primaries) {\n color.applyMatrix3(this.spaces[sourceColorSpace].toXYZ);\n color.applyMatrix3(this.spaces[targetColorSpace].fromXYZ);\n }\n if (this.spaces[targetColorSpace].transfer === SRGBTransfer) {\n color.r = LinearToSRGB(color.r);\n color.g = LinearToSRGB(color.g);\n color.b = LinearToSRGB(color.b);\n }\n return color;\n },\n workingToColorSpace: function(color, targetColorSpace) {\n return this.convert(color, this.workingColorSpace, targetColorSpace);\n },\n colorSpaceToWorking: function(color, sourceColorSpace) {\n return this.convert(color, sourceColorSpace, this.workingColorSpace);\n },\n getPrimaries: function(colorSpace) {\n return this.spaces[colorSpace].primaries;\n },\n getTransfer: function(colorSpace) {\n if (colorSpace === NoColorSpace) return LinearTransfer;\n return this.spaces[colorSpace].transfer;\n },\n getToneMappingMode: function(colorSpace) {\n return this.spaces[colorSpace].outputColorSpaceConfig.toneMappingMode || "standard";\n },\n getLuminanceCoefficients: function(target, colorSpace = this.workingColorSpace) {\n return target.fromArray(this.spaces[colorSpace].luminanceCoefficients);\n },\n define: function(colorSpaces) {\n Object.assign(this.spaces, colorSpaces);\n },\n // Internal APIs\n _getMatrix: function(targetMatrix, sourceColorSpace, targetColorSpace) {\n return targetMatrix.copy(this.spaces[sourceColorSpace].toXYZ).multiply(this.spaces[targetColorSpace].fromXYZ);\n },\n _getDrawingBufferColorSpace: function(colorSpace) {\n return this.spaces[colorSpace].outputColorSpaceConfig.drawingBufferColorSpace;\n },\n _getUnpackColorSpace: function(colorSpace = this.workingColorSpace) {\n return this.spaces[colorSpace].workingColorSpaceConfig.unpackColorSpace;\n },\n // Deprecated\n fromWorkingColorSpace: function(color, targetColorSpace) {\n warnOnce("THREE.ColorManagement: .fromWorkingColorSpace() has been renamed to .workingToColorSpace().");\n return ColorManagement2.workingToColorSpace(color, targetColorSpace);\n },\n toWorkingColorSpace: function(color, sourceColorSpace) {\n warnOnce("THREE.ColorManagement: .toWorkingColorSpace() has been renamed to .colorSpaceToWorking().");\n return ColorManagement2.colorSpaceToWorking(color, sourceColorSpace);\n }\n };\n const REC709_PRIMARIES = [0.64, 0.33, 0.3, 0.6, 0.15, 0.06];\n const REC709_LUMINANCE_COEFFICIENTS = [0.2126, 0.7152, 0.0722];\n const D65 = [0.3127, 0.329];\n ColorManagement2.define({\n [LinearSRGBColorSpace]: {\n primaries: REC709_PRIMARIES,\n whitePoint: D65,\n transfer: LinearTransfer,\n toXYZ: LINEAR_REC709_TO_XYZ,\n fromXYZ: XYZ_TO_LINEAR_REC709,\n luminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n workingColorSpaceConfig: { unpackColorSpace: SRGBColorSpace },\n outputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n },\n [SRGBColorSpace]: {\n primaries: REC709_PRIMARIES,\n whitePoint: D65,\n transfer: SRGBTransfer,\n toXYZ: LINEAR_REC709_TO_XYZ,\n fromXYZ: XYZ_TO_LINEAR_REC709,\n luminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n outputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n }\n });\n return ColorManagement2;\n }\n const ColorManagement = /* @__PURE__ */ createColorManagement();\n function SRGBToLinear(c) {\n return c < 0.04045 ? c * 0.0773993808 : Math.pow(c * 0.9478672986 + 0.0521327014, 2.4);\n }\n function LinearToSRGB(c) {\n return c < 31308e-7 ? c * 12.92 : 1.055 * Math.pow(c, 0.41666) - 0.055;\n }\n class Box3 {\n /**\n * Constructs a new bounding box.\n *\n * @param {Vector3} [min=(Infinity,Infinity,Infinity)] - A vector representing the lower boundary of the box.\n * @param {Vector3} [max=(-Infinity,-Infinity,-Infinity)] - A vector representing the upper boundary of the box.\n */\n constructor(min = new Vector3(Infinity, Infinity, Infinity), max2 = new Vector3(-Infinity, -Infinity, -Infinity)) {\n this.isBox3 = true;\n this.min = min;\n this.max = max2;\n }\n /**\n * Sets the lower and upper boundaries of this box.\n * Please note that this method only copies the values from the given objects.\n *\n * @param {Vector3} min - The lower boundary of the box.\n * @param {Vector3} max - The upper boundary of the box.\n * @return {Box3} A reference to this bounding box.\n */\n set(min, max2) {\n this.min.copy(min);\n this.max.copy(max2);\n return this;\n }\n /**\n * Sets the upper and lower bounds of this box so it encloses the position data\n * in the given array.\n *\n * @param {Array} array - An array holding 3D position data.\n * @return {Box3} A reference to this bounding box.\n */\n setFromArray(array) {\n this.makeEmpty();\n for (let i2 = 0, il = array.length; i2 < il; i2 += 3) {\n this.expandByPoint(_vector$b.fromArray(array, i2));\n }\n return this;\n }\n /**\n * Sets the upper and lower bounds of this box so it encloses the position data\n * in the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - A buffer attribute holding 3D position data.\n * @return {Box3} A reference to this bounding box.\n */\n setFromBufferAttribute(attribute) {\n this.makeEmpty();\n for (let i2 = 0, il = attribute.count; i2 < il; i2++) {\n this.expandByPoint(_vector$b.fromBufferAttribute(attribute, i2));\n }\n return this;\n }\n /**\n * Sets the upper and lower bounds of this box so it encloses the position data\n * in the given array.\n *\n * @param {Array} points - An array holding 3D position data as instances of {@link Vector3}.\n * @return {Box3} A reference to this bounding box.\n */\n setFromPoints(points) {\n this.makeEmpty();\n for (let i2 = 0, il = points.length; i2 < il; i2++) {\n this.expandByPoint(points[i2]);\n }\n return this;\n }\n /**\n * Centers this box on the given center vector and sets this box\'s width, height and\n * depth to the given size values.\n *\n * @param {Vector3} center - The center of the box.\n * @param {Vector3} size - The x, y and z dimensions of the box.\n * @return {Box3} A reference to this bounding box.\n */\n setFromCenterAndSize(center, size) {\n const halfSize = _vector$b.copy(size).multiplyScalar(0.5);\n this.min.copy(center).sub(halfSize);\n this.max.copy(center).add(halfSize);\n return this;\n }\n /**\n * Computes the world-axis-aligned bounding box for the given 3D object\n * (including its children), accounting for the object\'s, and children\'s,\n * world transforms. The function may result in a larger box than strictly necessary.\n *\n * @param {Object3D} object - The 3D object to compute the bounding box for.\n * @param {boolean} [precise=false] - If set to `true`, the method computes the smallest\n * world-axis-aligned bounding box at the expense of more computation.\n * @return {Box3} A reference to this bounding box.\n */\n setFromObject(object, precise = false) {\n this.makeEmpty();\n return this.expandByObject(object, precise);\n }\n /**\n * Returns a new box with copied values from this instance.\n *\n * @return {Box3} A clone of this instance.\n */\n clone() {\n return new this.constructor().copy(this);\n }\n /**\n * Copies the values of the given box to this instance.\n *\n * @param {Box3} box - The box to copy.\n * @return {Box3} A reference to this bounding box.\n */\n copy(box) {\n this.min.copy(box.min);\n this.max.copy(box.max);\n return this;\n }\n /**\n * Makes this box empty which means in encloses a zero space in 3D.\n *\n * @return {Box3} A reference to this bounding box.\n */\n makeEmpty() {\n this.min.x = this.min.y = this.min.z = Infinity;\n this.max.x = this.max.y = this.max.z = -Infinity;\n return this;\n }\n /**\n * Returns true if this box includes zero points within its bounds.\n * Note that a box with equal lower and upper bounds still includes one\n * point, the one both bounds share.\n *\n * @return {boolean} Whether this box is empty or not.\n */\n isEmpty() {\n return this.max.x < this.min.x || this.max.y < this.min.y || this.max.z < this.min.z;\n }\n /**\n * Returns the center point of this box.\n *\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} The center point.\n */\n getCenter(target) {\n return this.isEmpty() ? target.set(0, 0, 0) : target.addVectors(this.min, this.max).multiplyScalar(0.5);\n }\n /**\n * Returns the dimensions of this box.\n *\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} The size.\n */\n getSize(target) {\n return this.isEmpty() ? target.set(0, 0, 0) : target.subVectors(this.max, this.min);\n }\n /**\n * Expands the boundaries of this box to include the given point.\n *\n * @param {Vector3} point - The point that should be included by the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n expandByPoint(point) {\n this.min.min(point);\n this.max.max(point);\n return this;\n }\n /**\n * Expands this box equilaterally by the given vector. The width of this\n * box will be expanded by the x component of the vector in both\n * directions. The height of this box will be expanded by the y component of\n * the vector in both directions. The depth of this box will be\n * expanded by the z component of the vector in both directions.\n *\n * @param {Vector3} vector - The vector that should expand the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n expandByVector(vector) {\n this.min.sub(vector);\n this.max.add(vector);\n return this;\n }\n /**\n * Expands each dimension of the box by the given scalar. If negative, the\n * dimensions of the box will be contracted.\n *\n * @param {number} scalar - The scalar value that should expand the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n expandByScalar(scalar) {\n this.min.addScalar(-scalar);\n this.max.addScalar(scalar);\n return this;\n }\n /**\n * Expands the boundaries of this box to include the given 3D object and\n * its children, accounting for the object\'s, and children\'s, world\n * transforms. The function may result in a larger box than strictly\n * necessary (unless the precise parameter is set to true).\n *\n * @param {Object3D} object - The 3D object that should expand the bounding box.\n * @param {boolean} precise - If set to `true`, the method expands the bounding box\n * as little as necessary at the expense of more computation.\n * @return {Box3} A reference to this bounding box.\n */\n expandByObject(object, precise = false) {\n object.updateWorldMatrix(false, false);\n const geometry = object.geometry;\n if (geometry !== void 0) {\n const positionAttribute = geometry.getAttribute("position");\n if (precise === true && positionAttribute !== void 0 && object.isInstancedMesh !== true) {\n for (let i2 = 0, l = positionAttribute.count; i2 < l; i2++) {\n if (object.isMesh === true) {\n object.getVertexPosition(i2, _vector$b);\n } else {\n _vector$b.fromBufferAttribute(positionAttribute, i2);\n }\n _vector$b.applyMatrix4(object.matrixWorld);\n this.expandByPoint(_vector$b);\n }\n } else {\n if (object.boundingBox !== void 0) {\n if (object.boundingBox === null) {\n object.computeBoundingBox();\n }\n _box$4.copy(object.boundingBox);\n } else {\n if (geometry.boundingBox === null) {\n geometry.computeBoundingBox();\n }\n _box$4.copy(geometry.boundingBox);\n }\n _box$4.applyMatrix4(object.matrixWorld);\n this.union(_box$4);\n }\n }\n const children = object.children;\n for (let i2 = 0, l = children.length; i2 < l; i2++) {\n this.expandByObject(children[i2], precise);\n }\n return this;\n }\n /**\n * Returns `true` if the given point lies within or on the boundaries of this box.\n *\n * @param {Vector3} point - The point to test.\n * @return {boolean} Whether the bounding box contains the given point or not.\n */\n containsPoint(point) {\n return point.x >= this.min.x && point.x <= this.max.x && point.y >= this.min.y && point.y <= this.max.y && point.z >= this.min.z && point.z <= this.max.z;\n }\n /**\n * Returns `true` if this bounding box includes the entirety of the given bounding box.\n * If this box and the given one are identical, this function also returns `true`.\n *\n * @param {Box3} box - The bounding box to test.\n * @return {boolean} Whether the bounding box contains the given bounding box or not.\n */\n containsBox(box) {\n return this.min.x <= box.min.x && box.max.x <= this.max.x && this.min.y <= box.min.y && box.max.y <= this.max.y && this.min.z <= box.min.z && box.max.z <= this.max.z;\n }\n /**\n * Returns a point as a proportion of this box\'s width, height and depth.\n *\n * @param {Vector3} point - A point in 3D space.\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} A point as a proportion of this box\'s width, height and depth.\n */\n getParameter(point, target) {\n return target.set(\n (point.x - this.min.x) / (this.max.x - this.min.x),\n (point.y - this.min.y) / (this.max.y - this.min.y),\n (point.z - this.min.z) / (this.max.z - this.min.z)\n );\n }\n /**\n * Returns `true` if the given bounding box intersects with this bounding box.\n *\n * @param {Box3} box - The bounding box to test.\n * @return {boolean} Whether the given bounding box intersects with this bounding box.\n */\n intersectsBox(box) {\n return box.max.x >= this.min.x && box.min.x <= this.max.x && box.max.y >= this.min.y && box.min.y <= this.max.y && box.max.z >= this.min.z && box.min.z <= this.max.z;\n }\n /**\n * Returns `true` if the given bounding sphere intersects with this bounding box.\n *\n * @param {Sphere} sphere - The bounding sphere to test.\n * @return {boolean} Whether the given bounding sphere intersects with this bounding box.\n */\n intersectsSphere(sphere) {\n this.clampPoint(sphere.center, _vector$b);\n return _vector$b.distanceToSquared(sphere.center) <= sphere.radius * sphere.radius;\n }\n /**\n * Returns `true` if the given plane intersects with this bounding box.\n *\n * @param {Plane} plane - The plane to test.\n * @return {boolean} Whether the given plane intersects with this bounding box.\n */\n intersectsPlane(plane) {\n let min, max2;\n if (plane.normal.x > 0) {\n min = plane.normal.x * this.min.x;\n max2 = plane.normal.x * this.max.x;\n } else {\n min = plane.normal.x * this.max.x;\n max2 = plane.normal.x * this.min.x;\n }\n if (plane.normal.y > 0) {\n min += plane.normal.y * this.min.y;\n max2 += plane.normal.y * this.max.y;\n } else {\n min += plane.normal.y * this.max.y;\n max2 += plane.normal.y * this.min.y;\n }\n if (plane.normal.z > 0) {\n min += plane.normal.z * this.min.z;\n max2 += plane.normal.z * this.max.z;\n } else {\n min += plane.normal.z * this.max.z;\n max2 += plane.normal.z * this.min.z;\n }\n return min <= -plane.constant && max2 >= -plane.constant;\n }\n /**\n * Returns `true` if the given triangle intersects with this bounding box.\n *\n * @param {Triangle} triangle - The triangle to test.\n * @return {boolean} Whether the given triangle intersects with this bounding box.\n */\n intersectsTriangle(triangle) {\n if (this.isEmpty()) {\n return false;\n }\n this.getCenter(_center);\n _extents.subVectors(this.max, _center);\n _v0$2.subVectors(triangle.a, _center);\n _v1$7.subVectors(triangle.b, _center);\n _v2$4.subVectors(triangle.c, _center);\n _f0.subVectors(_v1$7, _v0$2);\n _f1.subVectors(_v2$4, _v1$7);\n _f2.subVectors(_v0$2, _v2$4);\n let axes = [\n 0,\n -_f0.z,\n _f0.y,\n 0,\n -_f1.z,\n _f1.y,\n 0,\n -_f2.z,\n _f2.y,\n _f0.z,\n 0,\n -_f0.x,\n _f1.z,\n 0,\n -_f1.x,\n _f2.z,\n 0,\n -_f2.x,\n -_f0.y,\n _f0.x,\n 0,\n -_f1.y,\n _f1.x,\n 0,\n -_f2.y,\n _f2.x,\n 0\n ];\n if (!satForAxes(axes, _v0$2, _v1$7, _v2$4, _extents)) {\n return false;\n }\n axes = [1, 0, 0, 0, 1, 0, 0, 0, 1];\n if (!satForAxes(axes, _v0$2, _v1$7, _v2$4, _extents)) {\n return false;\n }\n _triangleNormal.crossVectors(_f0, _f1);\n axes = [_triangleNormal.x, _triangleNormal.y, _triangleNormal.z];\n return satForAxes(axes, _v0$2, _v1$7, _v2$4, _extents);\n }\n /**\n * Clamps the given point within the bounds of this box.\n *\n * @param {Vector3} point - The point to clamp.\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} The clamped point.\n */\n clampPoint(point, target) {\n return target.copy(point).clamp(this.min, this.max);\n }\n /**\n * Returns the euclidean distance from any edge of this box to the specified point. If\n * the given point lies inside of this box, the distance will be `0`.\n *\n * @param {Vector3} point - The point to compute the distance to.\n * @return {number} The euclidean distance.\n */\n distanceToPoint(point) {\n return this.clampPoint(point, _vector$b).distanceTo(point);\n }\n /**\n * Returns a bounding sphere that encloses this bounding box.\n *\n * @param {Sphere} target - The target sphere that is used to store the method\'s result.\n * @return {Sphere} The bounding sphere that encloses this bounding box.\n */\n getBoundingSphere(target) {\n if (this.isEmpty()) {\n target.makeEmpty();\n } else {\n this.getCenter(target.center);\n target.radius = this.getSize(_vector$b).length() * 0.5;\n }\n return target;\n }\n /**\n * Computes the intersection of this bounding box and the given one, setting the upper\n * bound of this box to the lesser of the two boxes\' upper bounds and the\n * lower bound of this box to the greater of the two boxes\' lower bounds. If\n * there\'s no overlap, makes this box empty.\n *\n * @param {Box3} box - The bounding box to intersect with.\n * @return {Box3} A reference to this bounding box.\n */\n intersect(box) {\n this.min.max(box.min);\n this.max.min(box.max);\n if (this.isEmpty()) this.makeEmpty();\n return this;\n }\n /**\n * Computes the union of this box and another and the given one, setting the upper\n * bound of this box to the greater of the two boxes\' upper bounds and the\n * lower bound of this box to the lesser of the two boxes\' lower bounds.\n *\n * @param {Box3} box - The bounding box that will be unioned with this instance.\n * @return {Box3} A reference to this bounding box.\n */\n union(box) {\n this.min.min(box.min);\n this.max.max(box.max);\n return this;\n }\n /**\n * Transforms this bounding box by the given 4x4 transformation matrix.\n *\n * @param {Matrix4} matrix - The transformation matrix.\n * @return {Box3} A reference to this bounding box.\n */\n applyMatrix4(matrix) {\n if (this.isEmpty()) return this;\n _points[0].set(this.min.x, this.min.y, this.min.z).applyMatrix4(matrix);\n _points[1].set(this.min.x, this.min.y, this.max.z).applyMatrix4(matrix);\n _points[2].set(this.min.x, this.max.y, this.min.z).applyMatrix4(matrix);\n _points[3].set(this.min.x, this.max.y, this.max.z).applyMatrix4(matrix);\n _points[4].set(this.max.x, this.min.y, this.min.z).applyMatrix4(matrix);\n _points[5].set(this.max.x, this.min.y, this.max.z).applyMatrix4(matrix);\n _points[6].set(this.max.x, this.max.y, this.min.z).applyMatrix4(matrix);\n _points[7].set(this.max.x, this.max.y, this.max.z).applyMatrix4(matrix);\n this.setFromPoints(_points);\n return this;\n }\n /**\n * Adds the given offset to both the upper and lower bounds of this bounding box,\n * effectively moving it in 3D space.\n *\n * @param {Vector3} offset - The offset that should be used to translate the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n translate(offset) {\n this.min.add(offset);\n this.max.add(offset);\n return this;\n }\n /**\n * Returns `true` if this bounding box is equal with the given one.\n *\n * @param {Box3} box - The box to test for equality.\n * @return {boolean} Whether this bounding box is equal with the given one.\n */\n equals(box) {\n return box.min.equals(this.min) && box.max.equals(this.max);\n }\n /**\n * Returns a serialized structure of the bounding box.\n *\n * @return {Object} Serialized structure with fields representing the object state.\n */\n toJSON() {\n return {\n min: this.min.toArray(),\n max: this.max.toArray()\n };\n }\n /**\n * Returns a serialized structure of the bounding box.\n *\n * @param {Object} json - The serialized json to set the box from.\n * @return {Box3} A reference to this bounding box.\n */\n fromJSON(json) {\n this.min.fromArray(json.min);\n this.max.fromArray(json.max);\n return this;\n }\n }\n const _points = [\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3()\n ];\n const _vector$b = /* @__PURE__ */ new Vector3();\n const _box$4 = /* @__PURE__ */ new Box3();\n const _v0$2 = /* @__PURE__ */ new Vector3();\n const _v1$7 = /* @__PURE__ */ new Vector3();\n const _v2$4 = /* @__PURE__ */ new Vector3();\n const _f0 = /* @__PURE__ */ new Vector3();\n const _f1 = /* @__PURE__ */ new Vector3();\n const _f2 = /* @__PURE__ */ new Vector3();\n const _center = /* @__PURE__ */ new Vector3();\n const _extents = /* @__PURE__ */ new Vector3();\n const _triangleNormal = /* @__PURE__ */ new Vector3();\n const _testAxis = /* @__PURE__ */ new Vector3();\n function satForAxes(axes, v0, v1, v2, extents) {\n for (let i2 = 0, j = axes.length - 3; i2 <= j; i2 += 3) {\n _testAxis.fromArray(axes, i2);\n const r = extents.x * Math.abs(_testAxis.x) + extents.y * Math.abs(_testAxis.y) + extents.z * Math.abs(_testAxis.z);\n const p0 = v0.dot(_testAxis);\n const p1 = v1.dot(_testAxis);\n const p2 = v2.dot(_testAxis);\n if (Math.max(-Math.max(p0, p1, p2), Math.min(p0, p1, p2)) > r) {\n return false;\n }\n }\n return true;\n }\n const _colorKeywords = {\n "aliceblue": 15792383,\n "antiquewhite": 16444375,\n "aqua": 65535,\n "aquamarine": 8388564,\n "azure": 15794175,\n "beige": 16119260,\n "bisque": 16770244,\n "black": 0,\n "blanchedalmond": 16772045,\n "blue": 255,\n "blueviolet": 9055202,\n "brown": 10824234,\n "burlywood": 14596231,\n "cadetblue": 6266528,\n "chartreuse": 8388352,\n "chocolate": 13789470,\n "coral": 16744272,\n "cornflowerblue": 6591981,\n "cornsilk": 16775388,\n "crimson": 14423100,\n "cyan": 65535,\n "darkblue": 139,\n "darkcyan": 35723,\n "darkgoldenrod": 12092939,\n "darkgray": 11119017,\n "darkgreen": 25600,\n "darkgrey": 11119017,\n "darkkhaki": 12433259,\n "darkmagenta": 9109643,\n "darkolivegreen": 5597999,\n "darkorange": 16747520,\n "darkorchid": 10040012,\n "darkred": 9109504,\n "darksalmon": 15308410,\n "darkseagreen": 9419919,\n "darkslateblue": 4734347,\n "darkslategray": 3100495,\n "darkslategrey": 3100495,\n "darkturquoise": 52945,\n "darkviolet": 9699539,\n "deeppink": 16716947,\n "deepskyblue": 49151,\n "dimgray": 6908265,\n "dimgrey": 6908265,\n "dodgerblue": 2003199,\n "firebrick": 11674146,\n "floralwhite": 16775920,\n "forestgreen": 2263842,\n "fuchsia": 16711935,\n "gainsboro": 14474460,\n "ghostwhite": 16316671,\n "gold": 16766720,\n "goldenrod": 14329120,\n "gray": 8421504,\n "green": 32768,\n "greenyellow": 11403055,\n "grey": 8421504,\n "honeydew": 15794160,\n "hotpink": 16738740,\n "indianred": 13458524,\n "indigo": 4915330,\n "ivory": 16777200,\n "khaki": 15787660,\n "lavender": 15132410,\n "lavenderblush": 16773365,\n "lawngreen": 8190976,\n "lemonchiffon": 16775885,\n "lightblue": 11393254,\n "lightcoral": 15761536,\n "lightcyan": 14745599,\n "lightgoldenrodyellow": 16448210,\n "lightgray": 13882323,\n "lightgreen": 9498256,\n "lightgrey": 13882323,\n "lightpink": 16758465,\n "lightsalmon": 16752762,\n "lightseagreen": 2142890,\n "lightskyblue": 8900346,\n "lightslategray": 7833753,\n "lightslategrey": 7833753,\n "lightsteelblue": 11584734,\n "lightyellow": 16777184,\n "lime": 65280,\n "limegreen": 3329330,\n "linen": 16445670,\n "magenta": 16711935,\n "maroon": 8388608,\n "mediumaquamarine": 6737322,\n "mediumblue": 205,\n "mediumorchid": 12211667,\n "mediumpurple": 9662683,\n "mediumseagreen": 3978097,\n "mediumslateblue": 8087790,\n "mediumspringgreen": 64154,\n "mediumturquoise": 4772300,\n "mediumvioletred": 13047173,\n "midnightblue": 1644912,\n "mintcream": 16121850,\n "mistyrose": 16770273,\n "moccasin": 16770229,\n "navajowhite": 16768685,\n "navy": 128,\n "oldlace": 16643558,\n "olive": 8421376,\n "olivedrab": 7048739,\n "orange": 16753920,\n "orangered": 16729344,\n "orchid": 14315734,\n "palegoldenrod": 15657130,\n "palegreen": 10025880,\n "paleturquoise": 11529966,\n "palevioletred": 14381203,\n "papayawhip": 16773077,\n "peachpuff": 16767673,\n "peru": 13468991,\n "pink": 16761035,\n "plum": 14524637,\n "powderblue": 11591910,\n "purple": 8388736,\n "rebeccapurple": 6697881,\n "red": 16711680,\n "rosybrown": 12357519,\n "royalblue": 4286945,\n "saddlebrown": 9127187,\n "salmon": 16416882,\n "sandybrown": 16032864,\n "seagreen": 3050327,\n "seashell": 16774638,\n "sienna": 10506797,\n "silver": 12632256,\n "skyblue": 8900331,\n "slateblue": 6970061,\n "slategray": 7372944,\n "slategrey": 7372944,\n "snow": 16775930,\n "springgreen": 65407,\n "steelblue": 4620980,\n "tan": 13808780,\n "teal": 32896,\n "thistle": 14204888,\n "tomato": 16737095,\n "turquoise": 4251856,\n "violet": 15631086,\n "wheat": 16113331,\n "white": 16777215,\n "whitesmoke": 16119285,\n "yellow": 16776960,\n "yellowgreen": 10145074\n };\n const _hslA = { h: 0, s: 0, l: 0 };\n const _hslB = { h: 0, s: 0, l: 0 };\n function hue2rgb(p, q, t) {\n if (t < 0) t += 1;\n if (t > 1) t -= 1;\n if (t < 1 / 6) return p + (q - p) * 6 * t;\n if (t < 1 / 2) return q;\n if (t < 2 / 3) return p + (q - p) * 6 * (2 / 3 - t);\n return p;\n }\n class Color {\n /**\n * Constructs a new color.\n *\n * Note that standard method of specifying color in three.js is with a hexadecimal triplet,\n * and that method is used throughout the rest of the documentation.\n *\n * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n * @param {number} [g] - The green component.\n * @param {number} [b] - The blue component.\n */\n constructor(r, g, b) {\n this.isColor = true;\n this.r = 1;\n this.g = 1;\n this.b = 1;\n return this.set(r, g, b);\n }\n /**\n * Sets the colors\'s components from the given values.\n *\n * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n * @param {number} [g] - The green component.\n * @param {number} [b] - The blue component.\n * @return {Color} A reference to this color.\n */\n set(r, g, b) {\n if (g === void 0 && b === void 0) {\n const value = r;\n if (value && value.isColor) {\n this.copy(value);\n } else if (typeof value === "number") {\n this.setHex(value);\n } else if (typeof value === "string") {\n this.setStyle(value);\n }\n } else {\n this.setRGB(r, g, b);\n }\n return this;\n }\n /**\n * Sets the colors\'s components to the given scalar value.\n *\n * @param {number} scalar - The scalar value.\n * @return {Color} A reference to this color.\n */\n setScalar(scalar) {\n this.r = scalar;\n this.g = scalar;\n this.b = scalar;\n return this;\n }\n /**\n * Sets this color from a hexadecimal value.\n *\n * @param {number} hex - The hexadecimal value.\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setHex(hex, colorSpace = SRGBColorSpace) {\n hex = Math.floor(hex);\n this.r = (hex >> 16 & 255) / 255;\n this.g = (hex >> 8 & 255) / 255;\n this.b = (hex & 255) / 255;\n ColorManagement.colorSpaceToWorking(this, colorSpace);\n return this;\n }\n /**\n * Sets this color from RGB values.\n *\n * @param {number} r - Red channel value between `0.0` and `1.0`.\n * @param {number} g - Green channel value between `0.0` and `1.0`.\n * @param {number} b - Blue channel value between `0.0` and `1.0`.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setRGB(r, g, b, colorSpace = ColorManagement.workingColorSpace) {\n this.r = r;\n this.g = g;\n this.b = b;\n ColorManagement.colorSpaceToWorking(this, colorSpace);\n return this;\n }\n /**\n * Sets this color from RGB values.\n *\n * @param {number} h - Hue value between `0.0` and `1.0`.\n * @param {number} s - Saturation value between `0.0` and `1.0`.\n * @param {number} l - Lightness value between `0.0` and `1.0`.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setHSL(h, s, l, colorSpace = ColorManagement.workingColorSpace) {\n h = euclideanModulo(h, 1);\n s = clamp(s, 0, 1);\n l = clamp(l, 0, 1);\n if (s === 0) {\n this.r = this.g = this.b = l;\n } else {\n const p = l <= 0.5 ? l * (1 + s) : l + s - l * s;\n const q = 2 * l - p;\n this.r = hue2rgb(q, p, h + 1 / 3);\n this.g = hue2rgb(q, p, h);\n this.b = hue2rgb(q, p, h - 1 / 3);\n }\n ColorManagement.colorSpaceToWorking(this, colorSpace);\n return this;\n }\n /**\n * Sets this color from a CSS-style string. For example, `rgb(250, 0,0)`,\n * `rgb(100%, 0%, 0%)`, `hsl(0, 100%, 50%)`, `#ff0000`, `#f00`, or `red` ( or\n * any [X11 color name]{@link https://en.wikipedia.org/wiki/X11_color_names#Color_name_chart} -\n * all 140 color names are supported).\n *\n * @param {string} style - Color as a CSS-style string.\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setStyle(style, colorSpace = SRGBColorSpace) {\n function handleAlpha(string) {\n if (string === void 0) return;\n if (parseFloat(string) < 1) {\n console.warn("THREE.Color: Alpha component of " + style + " will be ignored.");\n }\n }\n let m;\n if (m = /^(\\w+)\\(([^\\)]*)\\)/.exec(style)) {\n let color;\n const name = m[1];\n const components = m[2];\n switch (name) {\n case "rgb":\n case "rgba":\n if (color = /^\\s*(\\d+)\\s*,\\s*(\\d+)\\s*,\\s*(\\d+)\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec(components)) {\n handleAlpha(color[4]);\n return this.setRGB(\n Math.min(255, parseInt(color[1], 10)) / 255,\n Math.min(255, parseInt(color[2], 10)) / 255,\n Math.min(255, parseInt(color[3], 10)) / 255,\n colorSpace\n );\n }\n if (color = /^\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec(components)) {\n handleAlpha(color[4]);\n return this.setRGB(\n Math.min(100, parseInt(color[1], 10)) / 100,\n Math.min(100, parseInt(color[2], 10)) / 100,\n Math.min(100, parseInt(color[3], 10)) / 100,\n colorSpace\n );\n }\n break;\n case "hsl":\n case "hsla":\n if (color = /^\\s*(\\d*\\.?\\d+)\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec(components)) {\n handleAlpha(color[4]);\n return this.setHSL(\n parseFloat(color[1]) / 360,\n parseFloat(color[2]) / 100,\n parseFloat(color[3]) / 100,\n colorSpace\n );\n }\n break;\n default:\n console.warn("THREE.Color: Unknown color model " + style);\n }\n } else if (m = /^\\#([A-Fa-f\\d]+)$/.exec(style)) {\n const hex = m[1];\n const size = hex.length;\n if (size === 3) {\n return this.setRGB(\n parseInt(hex.charAt(0), 16) / 15,\n parseInt(hex.charAt(1), 16) / 15,\n parseInt(hex.charAt(2), 16) / 15,\n colorSpace\n );\n } else if (size === 6) {\n return this.setHex(parseInt(hex, 16), colorSpace);\n } else {\n console.warn("THREE.Color: Invalid hex color " + style);\n }\n } else if (style && style.length > 0) {\n return this.setColorName(style, colorSpace);\n }\n return this;\n }\n /**\n * Sets this color from a color name. Faster than {@link Color#setStyle} if\n * you don\'t need the other CSS-style formats.\n *\n * For convenience, the list of names is exposed in `Color.NAMES` as a hash.\n * ```js\n * Color.NAMES.aliceblue // returns 0xF0F8FF\n * ```\n *\n * @param {string} style - The color name.\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setColorName(style, colorSpace = SRGBColorSpace) {\n const hex = _colorKeywords[style.toLowerCase()];\n if (hex !== void 0) {\n this.setHex(hex, colorSpace);\n } else {\n console.warn("THREE.Color: Unknown color " + style);\n }\n return this;\n }\n /**\n * Returns a new color with copied values from this instance.\n *\n * @return {Color} A clone of this instance.\n */\n clone() {\n return new this.constructor(this.r, this.g, this.b);\n }\n /**\n * Copies the values of the given color to this instance.\n *\n * @param {Color} color - The color to copy.\n * @return {Color} A reference to this color.\n */\n copy(color) {\n this.r = color.r;\n this.g = color.g;\n this.b = color.b;\n return this;\n }\n /**\n * Copies the given color into this color, and then converts this color from\n * `SRGBColorSpace` to `LinearSRGBColorSpace`.\n *\n * @param {Color} color - The color to copy/convert.\n * @return {Color} A reference to this color.\n */\n copySRGBToLinear(color) {\n this.r = SRGBToLinear(color.r);\n this.g = SRGBToLinear(color.g);\n this.b = SRGBToLinear(color.b);\n return this;\n }\n /**\n * Copies the given color into this color, and then converts this color from\n * `LinearSRGBColorSpace` to `SRGBColorSpace`.\n *\n * @param {Color} color - The color to copy/convert.\n * @return {Color} A reference to this color.\n */\n copyLinearToSRGB(color) {\n this.r = LinearToSRGB(color.r);\n this.g = LinearToSRGB(color.g);\n this.b = LinearToSRGB(color.b);\n return this;\n }\n /**\n * Converts this color from `SRGBColorSpace` to `LinearSRGBColorSpace`.\n *\n * @return {Color} A reference to this color.\n */\n convertSRGBToLinear() {\n this.copySRGBToLinear(this);\n return this;\n }\n /**\n * Converts this color from `LinearSRGBColorSpace` to `SRGBColorSpace`.\n *\n * @return {Color} A reference to this color.\n */\n convertLinearToSRGB() {\n this.copyLinearToSRGB(this);\n return this;\n }\n /**\n * Returns the hexadecimal value of this color.\n *\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {number} The hexadecimal value.\n */\n getHex(colorSpace = SRGBColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n return Math.round(clamp(_color.r * 255, 0, 255)) * 65536 + Math.round(clamp(_color.g * 255, 0, 255)) * 256 + Math.round(clamp(_color.b * 255, 0, 255));\n }\n /**\n * Returns the hexadecimal value of this color as a string (for example, \'FFFFFF\').\n *\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {string} The hexadecimal value as a string.\n */\n getHexString(colorSpace = SRGBColorSpace) {\n return ("000000" + this.getHex(colorSpace).toString(16)).slice(-6);\n }\n /**\n * Converts the colors RGB values into the HSL format and stores them into the\n * given target object.\n *\n * @param {{h:number,s:number,l:number}} target - The target object that is used to store the method\'s result.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {{h:number,s:number,l:number}} The HSL representation of this color.\n */\n getHSL(target, colorSpace = ColorManagement.workingColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n const r = _color.r, g = _color.g, b = _color.b;\n const max2 = Math.max(r, g, b);\n const min = Math.min(r, g, b);\n let hue, saturation;\n const lightness = (min + max2) / 2;\n if (min === max2) {\n hue = 0;\n saturation = 0;\n } else {\n const delta = max2 - min;\n saturation = lightness <= 0.5 ? delta / (max2 + min) : delta / (2 - max2 - min);\n switch (max2) {\n case r:\n hue = (g - b) / delta + (g < b ? 6 : 0);\n break;\n case g:\n hue = (b - r) / delta + 2;\n break;\n case b:\n hue = (r - g) / delta + 4;\n break;\n }\n hue /= 6;\n }\n target.h = hue;\n target.s = saturation;\n target.l = lightness;\n return target;\n }\n /**\n * Returns the RGB values of this color and stores them into the given target object.\n *\n * @param {Color} target - The target color that is used to store the method\'s result.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {Color} The RGB representation of this color.\n */\n getRGB(target, colorSpace = ColorManagement.workingColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n target.r = _color.r;\n target.g = _color.g;\n target.b = _color.b;\n return target;\n }\n /**\n * Returns the value of this color as a CSS style string. Example: `rgb(255,0,0)`.\n *\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {string} The CSS representation of this color.\n */\n getStyle(colorSpace = SRGBColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n const r = _color.r, g = _color.g, b = _color.b;\n if (colorSpace !== SRGBColorSpace) {\n return `color(${colorSpace} ${r.toFixed(3)} ${g.toFixed(3)} ${b.toFixed(3)})`;\n }\n return `rgb(${Math.round(r * 255)},${Math.round(g * 255)},${Math.round(b * 255)})`;\n }\n /**\n * Adds the given HSL values to this color\'s values.\n * Internally, this converts the color\'s RGB values to HSL, adds HSL\n * and then converts the color back to RGB.\n *\n * @param {number} h - Hue value between `0.0` and `1.0`.\n * @param {number} s - Saturation value between `0.0` and `1.0`.\n * @param {number} l - Lightness value between `0.0` and `1.0`.\n * @return {Color} A reference to this color.\n */\n offsetHSL(h, s, l) {\n this.getHSL(_hslA);\n return this.setHSL(_hslA.h + h, _hslA.s + s, _hslA.l + l);\n }\n /**\n * Adds the RGB values of the given color to the RGB values of this color.\n *\n * @param {Color} color - The color to add.\n * @return {Color} A reference to this color.\n */\n add(color) {\n this.r += color.r;\n this.g += color.g;\n this.b += color.b;\n return this;\n }\n /**\n * Adds the RGB values of the given colors and stores the result in this instance.\n *\n * @param {Color} color1 - The first color.\n * @param {Color} color2 - The second color.\n * @return {Color} A reference to this color.\n */\n addColors(color1, color2) {\n this.r = color1.r + color2.r;\n this.g = color1.g + color2.g;\n this.b = color1.b + color2.b;\n return this;\n }\n /**\n * Adds the given scalar value to the RGB values of this color.\n *\n * @param {number} s - The scalar to add.\n * @return {Color} A reference to this color.\n */\n addScalar(s) {\n this.r += s;\n this.g += s;\n this.b += s;\n return this;\n }\n /**\n * Subtracts the RGB values of the given color from the RGB values of this color.\n *\n * @param {Color} color - The color to subtract.\n * @return {Color} A reference to this color.\n */\n sub(color) {\n this.r = Math.max(0, this.r - color.r);\n this.g = Math.max(0, this.g - color.g);\n this.b = Math.max(0, this.b - color.b);\n return this;\n }\n /**\n * Multiplies the RGB values of the given color with the RGB values of this color.\n *\n * @param {Color} color - The color to multiply.\n * @return {Color} A reference to this color.\n */\n multiply(color) {\n this.r *= color.r;\n this.g *= color.g;\n this.b *= color.b;\n return this;\n }\n /**\n * Multiplies the given scalar value with the RGB values of this color.\n *\n * @param {number} s - The scalar to multiply.\n * @return {Color} A reference to this color.\n */\n multiplyScalar(s) {\n this.r *= s;\n this.g *= s;\n this.b *= s;\n return this;\n }\n /**\n * Linearly interpolates this color\'s RGB values toward the RGB values of the\n * given color. The alpha argument can be thought of as the ratio between\n * the two colors, where `0.0` is this color and `1.0` is the first argument.\n *\n * @param {Color} color - The color to converge on.\n * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n * @return {Color} A reference to this color.\n */\n lerp(color, alpha) {\n this.r += (color.r - this.r) * alpha;\n this.g += (color.g - this.g) * alpha;\n this.b += (color.b - this.b) * alpha;\n return this;\n }\n /**\n * Linearly interpolates between the given colors and stores the result in this instance.\n * The alpha argument can be thought of as the ratio between the two colors, where `0.0`\n * is the first and `1.0` is the second color.\n *\n * @param {Color} color1 - The first color.\n * @param {Color} color2 - The second color.\n * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n * @return {Color} A reference to this color.\n */\n lerpColors(color1, color2, alpha) {\n this.r = color1.r + (color2.r - color1.r) * alpha;\n this.g = color1.g + (color2.g - color1.g) * alpha;\n this.b = color1.b + (color2.b - color1.b) * alpha;\n return this;\n }\n /**\n * Linearly interpolates this color\'s HSL values toward the HSL values of the\n * given color. It differs from {@link Color#lerp} by not interpolating straight\n * from one color to the other, but instead going through all the hues in between\n * those two colors. The alpha argument can be thought of as the ratio between\n * the two colors, where 0.0 is this color and 1.0 is the first argument.\n *\n * @param {Color} color - The color to converge on.\n * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n * @return {Color} A reference to this color.\n */\n lerpHSL(color, alpha) {\n this.getHSL(_hslA);\n color.getHSL(_hslB);\n const h = lerp(_hslA.h, _hslB.h, alpha);\n const s = lerp(_hslA.s, _hslB.s, alpha);\n const l = lerp(_hslA.l, _hslB.l, alpha);\n this.setHSL(h, s, l);\n return this;\n }\n /**\n * Sets the color\'s RGB components from the given 3D vector.\n *\n * @param {Vector3} v - The vector to set.\n * @return {Color} A reference to this color.\n */\n setFromVector3(v) {\n this.r = v.x;\n this.g = v.y;\n this.b = v.z;\n return this;\n }\n /**\n * Transforms this color with the given 3x3 matrix.\n *\n * @param {Matrix3} m - The matrix.\n * @return {Color} A reference to this color.\n */\n applyMatrix3(m) {\n const r = this.r, g = this.g, b = this.b;\n const e = m.elements;\n this.r = e[0] * r + e[3] * g + e[6] * b;\n this.g = e[1] * r + e[4] * g + e[7] * b;\n this.b = e[2] * r + e[5] * g + e[8] * b;\n return this;\n }\n /**\n * Returns `true` if this color is equal with the given one.\n *\n * @param {Color} c - The color to test for equality.\n * @return {boolean} Whether this bounding color is equal with the given one.\n */\n equals(c) {\n return c.r === this.r && c.g === this.g && c.b === this.b;\n }\n /**\n * Sets this color\'s RGB components from the given array.\n *\n * @param {Array} array - An array holding the RGB values.\n * @param {number} [offset=0] - The offset into the array.\n * @return {Color} A reference to this color.\n */\n fromArray(array, offset = 0) {\n this.r = array[offset];\n this.g = array[offset + 1];\n this.b = array[offset + 2];\n return this;\n }\n /**\n * Writes the RGB components of this color to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the color components.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The color components.\n */\n toArray(array = [], offset = 0) {\n array[offset] = this.r;\n array[offset + 1] = this.g;\n array[offset + 2] = this.b;\n return array;\n }\n /**\n * Sets the components of this color from the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - The buffer attribute holding color data.\n * @param {number} index - The index into the attribute.\n * @return {Color} A reference to this color.\n */\n fromBufferAttribute(attribute, index) {\n this.r = attribute.getX(index);\n this.g = attribute.getY(index);\n this.b = attribute.getZ(index);\n return this;\n }\n /**\n * This methods defines the serialization result of this class. Returns the color\n * as a hexadecimal value.\n *\n * @return {number} The hexadecimal value.\n */\n toJSON() {\n return this.getHex();\n }\n *[Symbol.iterator]() {\n yield this.r;\n yield this.g;\n yield this.b;\n }\n }\n const _color = /* @__PURE__ */ new Color();\n Color.NAMES = _colorKeywords;\n if (typeof __THREE_DEVTOOLS__ !== "undefined") {\n __THREE_DEVTOOLS__.dispatchEvent(new CustomEvent("register", { detail: {\n revision: REVISION\n } }));\n }\n if (typeof window !== "undefined") {\n if (window.__THREE__) {\n console.warn("WARNING: Multiple instances of Three.js being imported.");\n } else {\n window.__THREE__ = REVISION;\n }\n }\n const LN_SCALE_MIN = -12;\n const LN_SCALE_MAX = 9;\n const LN_SCALE_ZERO = -30;\n const SCALE_ZERO = Math.exp(LN_SCALE_ZERO);\n const SPLAT_TEX_WIDTH_BITS = 11;\n const SPLAT_TEX_HEIGHT_BITS = 11;\n const SPLAT_TEX_WIDTH = 1 << SPLAT_TEX_WIDTH_BITS;\n const SPLAT_TEX_HEIGHT = 1 << SPLAT_TEX_HEIGHT_BITS;\n const SPLAT_TEX_MIN_HEIGHT = 1;\n var SplatFileType = /* @__PURE__ */ ((SplatFileType2) => {\n SplatFileType2["PLY"] = "ply";\n SplatFileType2["SPZ"] = "spz";\n SplatFileType2["SPLAT"] = "splat";\n SplatFileType2["KSPLAT"] = "ksplat";\n SplatFileType2["PCSOGS"] = "pcsogs";\n SplatFileType2["PCSOGSZIP"] = "pcsogszip";\n SplatFileType2["RAD"] = "rad";\n return SplatFileType2;\n })(SplatFileType || {});\n function unindentLines(s) {\n var _a2;\n let seenNonEmpty = false;\n const lines = s.split("\\n").map((line) => {\n const trimmedLine = line.trimEnd();\n if (seenNonEmpty) {\n return trimmedLine;\n }\n if (trimmedLine.length > 0) {\n seenNonEmpty = true;\n return trimmedLine;\n }\n return null;\n }).filter((line) => line != null);\n while (lines.length > 0 && lines[lines.length - 1].length === 0) {\n lines.pop();\n }\n if (lines.length === 0) {\n return [];\n }\n const indent = (_a2 = lines[0].match(/^\\s*/)) == null ? void 0 : _a2[0];\n if (!indent) {\n return lines;\n }\n const regex = new RegExp(`^${indent}`);\n return lines.map((line) => line.replace(regex, ""));\n }\n function unindent(s) {\n return unindentLines(s).join("\\n");\n }\n const f32buffer = new Float32Array(1);\n const u32buffer = new Uint32Array(f32buffer.buffer);\n const supportsFloat16Array = "Float16Array" in globalThis;\n const f16buffer = supportsFloat16Array ? new globalThis["Float16Array"](1) : null;\n const u16buffer = new Uint16Array(f16buffer == null ? void 0 : f16buffer.buffer);\n function normalize(vec) {\n const norm = Math.sqrt(vec.reduce((acc, v) => acc + v * v, 0));\n return vec.map((v) => v / norm);\n }\n const toHalf = supportsFloat16Array ? toHalfNative : toHalfJS;\n const fromHalf = supportsFloat16Array ? fromHalfNative : fromHalfJS;\n function toHalfNative(f) {\n f16buffer[0] = f;\n return u16buffer[0];\n }\n function toHalfJS(f) {\n f32buffer[0] = f;\n const bits2 = u32buffer[0];\n const sign = bits2 >> 31 & 1;\n const exp = bits2 >> 23 & 255;\n const frac = bits2 & 8388607;\n const halfSign = sign << 15;\n if (exp === 255) {\n if (frac !== 0) {\n return halfSign | 32767;\n }\n return halfSign | 31744;\n }\n const newExp = exp - 127 + 15;\n if (newExp >= 31) {\n return halfSign | 31744;\n }\n if (newExp <= 0) {\n if (newExp < -10) {\n return halfSign;\n }\n const subFrac = (frac | 8388608) >> 1 - newExp + 13;\n return halfSign | subFrac;\n }\n const halfFrac = frac >> 13;\n return halfSign | newExp << 10 | halfFrac;\n }\n function fromHalfNative(u) {\n u16buffer[0] = u;\n return f16buffer[0];\n }\n function fromHalfJS(h) {\n const sign = h >> 15 & 1;\n const exp = h >> 10 & 31;\n const frac = h & 1023;\n let f32bits;\n if (exp === 0) {\n if (frac === 0) {\n f32bits = sign << 31;\n } else {\n let mant = frac;\n let e = -14;\n while ((mant & 1024) === 0) {\n mant <<= 1;\n e--;\n }\n mant &= 1023;\n const newExp = e + 127;\n const newFrac = mant << 13;\n f32bits = sign << 31 | newExp << 23 | newFrac;\n }\n } else if (exp === 31) {\n if (frac === 0) {\n f32bits = sign << 31 | 2139095040;\n } else {\n f32bits = sign << 31 | 2143289344;\n }\n } else {\n const newExp = exp - 15 + 127;\n const newFrac = frac << 13;\n f32bits = sign << 31 | newExp << 23 | newFrac;\n }\n u32buffer[0] = f32bits;\n return f32buffer[0];\n }\n function floatToUint8(v) {\n return Math.max(0, Math.min(255, Math.round(v * 255)));\n }\n function getTransferable(ctx) {\n const buffers = [];\n const seen = /* @__PURE__ */ new Set();\n function traverse(obj) {\n if (obj && typeof obj === "object" && !seen.has(obj)) {\n seen.add(obj);\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n buffers.push(obj.buffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n traverse(ctx);\n return buffers;\n }\n function setPackedSplat(packedSplats, index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b, encoding) {\n const rgbMin = (encoding == null ? void 0 : encoding.rgbMin) ?? 0;\n const rgbMax = (encoding == null ? void 0 : encoding.rgbMax) ?? 1;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8((encoding == null ? void 0 : encoding.lodOpacity) ? 0.5 * opacity : opacity);\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW)\n );\n const uQuatX = uQuat & 255;\n const uQuatY = uQuat >>> 8 & 255;\n const uQuatZ = uQuat >>> 16 & 255;\n const lnScaleMin = (encoding == null ? void 0 : encoding.lnScaleMin) ?? LN_SCALE_MIN;\n const lnScaleMax = (encoding == null ? void 0 : encoding.lnScaleMax) ?? LN_SCALE_MAX;\n const lnScaleScale = 254 / (lnScaleMax - lnScaleMin);\n const uScaleX = scaleX < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleY = scaleY < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleZ = scaleZ < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uCenterX = toHalf(x2);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n const i4 = index * 4;\n packedSplats[i4] = uR | uG << 8 | uB << 16 | uA << 24;\n packedSplats[i4 + 1] = uCenterX | uCenterY << 16;\n packedSplats[i4 + 2] = uCenterZ | uQuatX << 16 | uQuatY << 24;\n packedSplats[i4 + 3] = uScaleX | uScaleY << 8 | uScaleZ << 16 | uQuatZ << 24;\n }\n function setPackedSplatCenter(packedSplats, index, x2, y, z) {\n const uCenterX = toHalf(x2);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n const i4 = index * 4;\n packedSplats[i4 + 1] = uCenterX | uCenterY << 16;\n packedSplats[i4 + 2] = uCenterZ | packedSplats[i4 + 2] & 4294901760;\n }\n function setPackedSplatScales(packedSplats, index, scaleX, scaleY, scaleZ, encoding) {\n const lnScaleMin = (encoding == null ? void 0 : encoding.lnScaleMin) ?? LN_SCALE_MIN;\n const lnScaleMax = (encoding == null ? void 0 : encoding.lnScaleMax) ?? LN_SCALE_MAX;\n const lnScaleScale = 254 / (lnScaleMax - lnScaleMin);\n const uScaleX = scaleX < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleY = scaleY < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleZ = scaleZ < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const i4 = index * 4;\n packedSplats[i4 + 3] = uScaleX | uScaleY << 8 | uScaleZ << 16 | packedSplats[i4 + 3] & 4278190080;\n }\n const tempQuaternion = new Quaternion();\n function setPackedSplatQuat(packedSplats, index, quatX, quatY, quatZ, quatW) {\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW)\n );\n const uQuatX = uQuat & 255;\n const uQuatY = uQuat >>> 8 & 255;\n const uQuatZ = uQuat >>> 16 & 255;\n const i4 = index * 4;\n packedSplats[i4 + 2] = packedSplats[i4 + 2] & 65535 | uQuatX << 16 | uQuatY << 24;\n packedSplats[i4 + 3] = packedSplats[i4 + 3] & 16777215 | uQuatZ << 24;\n }\n function setPackedSplatRgba(packedSplats, index, r, g, b, a, encoding) {\n const rgbMin = (encoding == null ? void 0 : encoding.rgbMin) ?? 0;\n const rgbMax = (encoding == null ? void 0 : encoding.rgbMax) ?? 1;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8((encoding == null ? void 0 : encoding.lodOpacity) ? 0.5 * a : a);\n const i4 = index * 4;\n packedSplats[i4] = uR | uG << 8 | uB << 16 | uA << 24;\n }\n function setPackedSplatRgb(packedSplats, index, r, g, b, encoding) {\n const rgbMin = (encoding == null ? void 0 : encoding.rgbMin) ?? 0;\n const rgbMax = (encoding == null ? void 0 : encoding.rgbMax) ?? 1;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const i4 = index * 4;\n packedSplats[i4] = uR | uG << 8 | uB << 16 | packedSplats[i4] & 4278190080;\n }\n function setPackedSplatOpacity(packedSplats, index, opacity) {\n const uA = floatToUint8(opacity);\n const i4 = index * 4;\n packedSplats[i4] = packedSplats[i4] & 16777215 | uA << 24;\n }\n new Vector3();\n new Vector3();\n new Color();\n function getTextureSize(numSplats) {\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width))\n );\n const depth = Math.ceil(numSplats / (width * height));\n const maxSplats = width * height * depth;\n return { width, height, depth, maxSplats };\n }\n function computeMaxSplats(numSplats) {\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width))\n );\n const depth = Math.ceil(numSplats / (width * height));\n return width * height * depth;\n }\n unindent(`\n precision highp float;\n\n in vec3 position;\n\n void main() {\n gl_Position = vec4(position.xy, 0.0, 1.0);\n }\n`);\n const tempNormalizedQuaternion = new Quaternion();\n const tempAxis = new Vector3();\n function encodeQuatOctXy88R8(q) {\n const qnorm = tempNormalizedQuaternion.copy(q).normalize();\n if (qnorm.w < 0) {\n qnorm.set(-qnorm.x, -qnorm.y, -qnorm.z, -qnorm.w);\n }\n const theta = 2 * Math.acos(qnorm.w);\n const xyz_norm = Math.sqrt(\n qnorm.x * qnorm.x + qnorm.y * qnorm.y + qnorm.z * qnorm.z\n );\n const axis = xyz_norm < 1e-6 ? tempAxis.set(1, 0, 0) : tempAxis.set(qnorm.x, qnorm.y, qnorm.z).divideScalar(xyz_norm);\n const sum = Math.abs(axis.x) + Math.abs(axis.y) + Math.abs(axis.z);\n let p_x = axis.x / sum;\n let p_y = axis.y / sum;\n if (axis.z < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n const quantU = Math.round(u_f * 255);\n const quantV = Math.round(v_f * 255);\n const angleInt = Math.round(theta * (255 / Math.PI));\n return angleInt << 16 | quantV << 8 | quantU;\n }\n function packSint8Bytes(b0, b1, b22, b3) {\n const clampedB0 = Math.round(Math.max(-127, Math.min(127, b0 * 127)));\n const clampedB1 = Math.round(Math.max(-127, Math.min(127, b1 * 127)));\n const clampedB2 = Math.round(Math.max(-127, Math.min(127, b22 * 127)));\n const clampedB3 = Math.round(Math.max(-127, Math.min(127, b3 * 127)));\n return clampedB0 & 255 | (clampedB1 & 255) << 8 | (clampedB2 & 255) << 16 | (clampedB3 & 255) << 24;\n }\n function encodeSh1Rgb(sh1Array, index, sh1Rgb, encoding) {\n const sh1Max = (encoding == null ? void 0 : encoding.sh1Max) ?? 1;\n const sh1Scale = 63 / sh1Max;\n const base = index * 2;\n for (let i2 = 0; i2 < 9; ++i2) {\n const s = sh1Rgb[i2] * sh1Scale;\n const value = Math.round(Math.max(-63, Math.min(63, s))) & 127;\n const bitStart = i2 * 7;\n const bitEnd = bitStart + 7;\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = value << bitOffset & 4294967295;\n sh1Array[base + wordStart] |= firstWord;\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = value >>> 32 - bitOffset & 4294967295;\n sh1Array[base + wordStart + 1] |= secondWord;\n }\n }\n }\n function encodeSh2Rgb(sh2Array, index, sh2Rgb, encoding) {\n const sh2Max = (encoding == null ? void 0 : encoding.sh2Max) ?? 1;\n const sh2Scale = 1 / sh2Max;\n sh2Array[index * 4 + 0] = packSint8Bytes(\n sh2Rgb[0] * sh2Scale,\n sh2Rgb[1] * sh2Scale,\n sh2Rgb[2] * sh2Scale,\n sh2Rgb[3] * sh2Scale\n );\n sh2Array[index * 4 + 1] = packSint8Bytes(\n sh2Rgb[4] * sh2Scale,\n sh2Rgb[5] * sh2Scale,\n sh2Rgb[6] * sh2Scale,\n sh2Rgb[7] * sh2Scale\n );\n sh2Array[index * 4 + 2] = packSint8Bytes(\n sh2Rgb[8] * sh2Scale,\n sh2Rgb[9] * sh2Scale,\n sh2Rgb[10] * sh2Scale,\n sh2Rgb[11] * sh2Scale\n );\n sh2Array[index * 4 + 3] = packSint8Bytes(\n sh2Rgb[12] * sh2Scale,\n sh2Rgb[13] * sh2Scale,\n sh2Rgb[14] * sh2Scale,\n 0\n );\n }\n function encodeSh3Rgb(sh3Array, index, sh3Rgb, encoding) {\n const sh3Max = (encoding == null ? void 0 : encoding.sh3Max) ?? 1;\n const sh3Scale = 31 / sh3Max;\n const base = index * 4;\n for (let i2 = 0; i2 < 21; ++i2) {\n const s = sh3Rgb[i2] * sh3Scale;\n const value = Math.round(Math.max(-31, Math.min(31, s))) & 63;\n const bitStart = i2 * 6;\n const bitEnd = bitStart + 6;\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = value << bitOffset & 4294967295;\n sh3Array[base + wordStart] |= firstWord;\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = value >>> 32 - bitOffset & 4294967295;\n sh3Array[base + wordStart + 1] |= secondWord;\n }\n }\n }\n function decompressPartialGzip(fileBytes, numBytes) {\n const chunks = [];\n let totalBytes = 0;\n let result = null;\n const gunzip = new Gunzip((data, final) => {\n chunks.push(data);\n totalBytes += data.length;\n if (final || totalBytes >= numBytes) {\n const allBytes = new Uint8Array(totalBytes);\n let offset2 = 0;\n for (const chunk of chunks) {\n allBytes.set(chunk, offset2);\n offset2 += chunk.length;\n }\n result = allBytes.slice(0, numBytes);\n }\n });\n const CHUNK_SIZE = 1024;\n let offset = 0;\n while (result == null && offset < fileBytes.length) {\n const chunk = fileBytes.slice(offset, offset + CHUNK_SIZE);\n gunzip.push(chunk, false);\n offset += CHUNK_SIZE;\n }\n if (result == null) {\n gunzip.push(new Uint8Array(), true);\n if (result == null) {\n throw new Error("Failed to decompress partial gzip");\n }\n }\n return result;\n }\n class GunzipReader {\n constructor({\n fileBytes,\n chunkBytes = 64 * 1024\n }) {\n this.fileBytes = fileBytes;\n this.chunkBytes = chunkBytes;\n this.chunks = [];\n this.totalBytes = 0;\n const ds = new DecompressionStream("gzip");\n const decompressionStream = new Blob([fileBytes]).stream().pipeThrough(ds);\n this.reader = decompressionStream.getReader();\n }\n async read(numBytes) {\n while (this.totalBytes < numBytes) {\n const { value: chunk, done: readerDone } = await this.reader.read();\n if (readerDone) {\n break;\n }\n this.chunks.push(chunk);\n this.totalBytes += chunk.length;\n }\n if (this.totalBytes < numBytes) {\n throw new Error(\n `Unexpected EOF: needed ${numBytes}, got ${this.totalBytes}`\n );\n }\n const allBytes = new Uint8Array(this.totalBytes);\n let outOffset = 0;\n for (const chunk of this.chunks) {\n allBytes.set(chunk, outOffset);\n outOffset += chunk.length;\n }\n const result = allBytes.subarray(0, numBytes);\n this.chunks = [allBytes.subarray(numBytes)];\n this.totalBytes -= numBytes;\n return result;\n }\n }\n function decodeAntiSplat(fileBytes, initNumSplats, splatCallback) {\n const numSplats = Math.floor(fileBytes.length / 32);\n if (numSplats * 32 !== fileBytes.length) {\n throw new Error("Invalid .splat file size");\n }\n initNumSplats(numSplats);\n const f32 = new Float32Array(fileBytes.buffer);\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i322 = i2 * 32;\n const i8 = i2 * 8;\n const x2 = f32[i8 + 0];\n const y = f32[i8 + 1];\n const z = f32[i8 + 2];\n const scaleX = f32[i8 + 3];\n const scaleY = f32[i8 + 4];\n const scaleZ = f32[i8 + 5];\n const r = fileBytes[i322 + 24] / 255;\n const g = fileBytes[i322 + 25] / 255;\n const b = fileBytes[i322 + 26] / 255;\n const opacity = fileBytes[i322 + 27] / 255;\n const quatW = (fileBytes[i322 + 28] - 128) / 128;\n const quatX = (fileBytes[i322 + 29] - 128) / 128;\n const quatY = (fileBytes[i322 + 30] - 128) / 128;\n const quatZ = (fileBytes[i322 + 31] - 128) / 128;\n splatCallback(\n i2,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b\n );\n }\n }\n function unpackAntiSplat(fileBytes, splatEncoding) {\n let numSplats = 0;\n let maxSplats = 0;\n let packedArray = new Uint32Array(0);\n decodeAntiSplat(\n fileBytes,\n (cbNumSplats) => {\n numSplats = cbNumSplats;\n maxSplats = computeMaxSplats(numSplats);\n packedArray = new Uint32Array(maxSplats * 4);\n },\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n setPackedSplat(\n packedArray,\n index,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding\n );\n }\n );\n return { packedArray, numSplats };\n }\n const KSPLAT_COMPRESSION = {\n 0: {\n bytesPerCenter: 12,\n bytesPerScale: 12,\n bytesPerRotation: 16,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 4,\n scaleOffsetBytes: 12,\n rotationOffsetBytes: 24,\n colorOffsetBytes: 40,\n sphericalHarmonicsOffsetBytes: 44,\n scaleRange: 1\n },\n 1: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 2,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767\n },\n 2: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 1,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767\n }\n };\n const KSPLAT_SH_DEGREE_TO_COMPONENTS = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45\n };\n function decodeKsplat(fileBytes, initNumSplats, splatCallback, shCallback) {\n var _a2;\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n for (let section = 0; section < maxSectionCount; ++section) {\n let getSh = function(splatOffset, component) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true\n )\n );\n }\n const t = data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) / 255;\n return minSphericalHarmonicsCoeff + t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff);\n };\n const section2 = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n const sectionSplatCount = section2.getUint32(0, true);\n const sectionMaxSplatCount = section2.getUint32(4, true);\n const bucketSize = section2.getUint32(8, true);\n const bucketCount = section2.getUint32(12, true);\n const bucketBlockSize = section2.getFloat32(16, true);\n const bucketStorageSizeBytes = section2.getUint16(20, true);\n const compressionScaleRange = (section2.getUint32(24, true) || ((_a2 = KSPLAT_COMPRESSION[compressionLevel]) == null ? void 0 : _a2.scaleRange)) ?? 1;\n const fullBucketCount = section2.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section2.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes = bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section2.getUint16(40, true);\n const shComponents = KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat = bytesPerCenter + bytesPerScale + bytesPerRotation + bytesPerColor + shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes = splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9,\n 14,\n 19,\n 10,\n 15,\n 20,\n 11,\n 16,\n 21,\n 12,\n 17,\n 22,\n 13,\n 18,\n 23\n ];\n const sh3Index = [\n 24,\n 31,\n 38,\n 25,\n 32,\n 39,\n 26,\n 33,\n 40,\n 27,\n 34,\n 41,\n 28,\n 35,\n 42,\n 29,\n 36,\n 43,\n 30,\n 37,\n 44\n ];\n const sh1 = sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : void 0;\n const sh2 = sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : void 0;\n const sh3 = sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : void 0;\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount\n );\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n for (let i2 = 0; i2 < sectionSplatCount; ++i2) {\n const splatOffset = i2 * bytesPerSplat;\n let bucketIndex;\n if (i2 < fullBucketSplats) {\n bucketIndex = Math.floor(i2 / bucketSize);\n } else {\n const bucketLength = partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i2 >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n const x2 = compressionLevel === 0 ? data.getFloat32(splatOffset + 0, true) : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 0];\n const y = compressionLevel === 0 ? data.getFloat32(splatOffset + 4, true) : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 1];\n const z = compressionLevel === 0 ? data.getFloat32(splatOffset + 8, true) : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 2];\n const scaleX = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n const quatW = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true)\n );\n const quatX = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true)\n );\n const quatY = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true)\n );\n const quatZ = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true)\n );\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n splatCallback(\n i2,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b\n );\n if (sphericalHarmonicsDegree >= 1 && sh1) {\n for (const [i22, key] of sh1Index.entries()) {\n sh1[i22] = getSh(splatOffset, key);\n }\n if (sh2) {\n for (const [i22, key] of sh2Index.entries()) {\n sh2[i22] = getSh(splatOffset, key);\n }\n }\n if (sh3) {\n for (const [i22, key] of sh3Index.entries()) {\n sh3[i22] = getSh(splatOffset, key);\n }\n }\n shCallback == null ? void 0 : shCallback(i2, sh1, sh2, sh3);\n }\n }\n sectionBase += storageSizeBytes;\n }\n }\n function unpackKsplat(fileBytes, splatEncoding) {\n var _a2;\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n const numSplats = splatCount;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra = {};\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n for (let section = 0; section < maxSectionCount; ++section) {\n let getSh = function(splatOffset, component) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true\n )\n );\n }\n const t = data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) / 255;\n return minSphericalHarmonicsCoeff + t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff);\n };\n const section2 = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n const sectionSplatCount = section2.getUint32(0, true);\n const sectionMaxSplatCount = section2.getUint32(4, true);\n const bucketSize = section2.getUint32(8, true);\n const bucketCount = section2.getUint32(12, true);\n const bucketBlockSize = section2.getFloat32(16, true);\n const bucketStorageSizeBytes = section2.getUint16(20, true);\n const compressionScaleRange = (section2.getUint32(24, true) || ((_a2 = KSPLAT_COMPRESSION[compressionLevel]) == null ? void 0 : _a2.scaleRange)) ?? 1;\n const fullBucketCount = section2.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section2.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes = bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section2.getUint16(40, true);\n const shComponents = KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat = bytesPerCenter + bytesPerScale + bytesPerRotation + bytesPerColor + shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes = splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9,\n 14,\n 19,\n 10,\n 15,\n 20,\n 11,\n 16,\n 21,\n 12,\n 17,\n 22,\n 13,\n 18,\n 23\n ];\n const sh3Index = [\n 24,\n 31,\n 38,\n 25,\n 32,\n 39,\n 26,\n 33,\n 40,\n 27,\n 34,\n 41,\n 28,\n 35,\n 42,\n 29,\n 36,\n 43,\n 30,\n 37,\n 44\n ];\n const sh1 = sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : void 0;\n const sh2 = sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : void 0;\n const sh3 = sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : void 0;\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount\n );\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n for (let i2 = 0; i2 < sectionSplatCount; ++i2) {\n const splatOffset = i2 * bytesPerSplat;\n let bucketIndex;\n if (i2 < fullBucketSplats) {\n bucketIndex = Math.floor(i2 / bucketSize);\n } else {\n const bucketLength = partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i2 >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n const x2 = compressionLevel === 0 ? data.getFloat32(splatOffset + 0, true) : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 0];\n const y = compressionLevel === 0 ? data.getFloat32(splatOffset + 4, true) : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 1];\n const z = compressionLevel === 0 ? data.getFloat32(splatOffset + 8, true) : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 2];\n const scaleX = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n const quatW = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true)\n );\n const quatX = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true)\n );\n const quatY = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true)\n );\n const quatZ = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true)\n );\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n setPackedSplat(\n packedArray,\n i2,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding\n );\n if (sphericalHarmonicsDegree >= 1) {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n for (const [i22, key] of sh1Index.entries()) {\n sh1[i22] = getSh(splatOffset, key);\n }\n encodeSh1Rgb(extra.sh1, i2, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n for (const [i22, key] of sh2Index.entries()) {\n sh2[i22] = getSh(splatOffset, key);\n }\n encodeSh2Rgb(extra.sh2, i2, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n for (const [i22, key] of sh3Index.entries()) {\n sh3[i22] = getSh(splatOffset, key);\n }\n encodeSh3Rgb(extra.sh3, i2, sh3, splatEncoding);\n }\n }\n }\n sectionBase += storageSizeBytes;\n }\n return { packedArray, numSplats, extra };\n }\n const PLY_PROPERTY_TYPES = [\n "char",\n "uchar",\n "short",\n "ushort",\n "int",\n "uint",\n "float",\n "double"\n ];\n const _PlyReader = class _PlyReader {\n // Create a PlyReader from a Uint8Array/ArrayBuffer, no parsing done yet\n constructor({ fileBytes }) {\n this.header = "";\n this.littleEndian = true;\n this.elements = {};\n this.comments = [];\n this.data = null;\n this.numSplats = 0;\n this.fileBytes = fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n }\n // Identify and parse the PLY text header (assumed to be <64KB in size).\n // this.elements will contain all the elements in the file, typically\n // "vertex" contains the Gsplat data.\n async parseHeader() {\n const bufferStream = new ReadableStream({\n start: (controller) => {\n controller.enqueue(this.fileBytes.slice(0, 65536));\n controller.close();\n }\n });\n const decoder = bufferStream.pipeThrough(new TextDecoderStream()).getReader();\n this.header = "";\n const headerTerminator = "end_header\\n";\n while (true) {\n const { value, done } = await decoder.read();\n if (done) {\n throw new Error("Failed to read header");\n }\n this.header += value;\n const endHeader = this.header.indexOf(headerTerminator);\n if (endHeader >= 0) {\n this.header = this.header.slice(0, endHeader + headerTerminator.length);\n break;\n }\n }\n const headerLen = new TextEncoder().encode(this.header).length;\n this.data = new DataView(this.fileBytes.buffer, headerLen);\n this.elements = {};\n let curElement = null;\n this.comments = [];\n this.header.trim().split("\\n").forEach((line, lineIndex) => {\n const trimmedLine = line.trim();\n if (lineIndex === 0) {\n if (trimmedLine !== "ply") {\n throw new Error("Invalid PLY header");\n }\n return;\n }\n if (trimmedLine.length === 0) {\n return;\n }\n const fields = trimmedLine.split(" ");\n switch (fields[0]) {\n case "format":\n if (fields[1] === "binary_little_endian") {\n this.littleEndian = true;\n } else if (fields[1] === "binary_big_endian") {\n this.littleEndian = false;\n } else {\n throw new Error(`Unsupported PLY format: ${fields[1]}`);\n }\n if (fields[2] !== "1.0") {\n throw new Error(`Unsupported PLY version: ${fields[2]}`);\n }\n break;\n case "end_header":\n break;\n case "comment":\n this.comments.push(trimmedLine.slice("comment ".length));\n break;\n case "element": {\n const name = fields[1];\n curElement = {\n name,\n count: Number.parseInt(fields[2]),\n properties: {}\n };\n this.elements[name] = curElement;\n break;\n }\n case "property":\n if (curElement == null) {\n throw new Error("Property must be inside an element");\n }\n if (fields[1] === "list") {\n curElement.properties[fields[4]] = {\n isList: true,\n type: fields[3],\n countType: fields[2]\n };\n } else {\n curElement.properties[fields[2]] = {\n isList: false,\n type: fields[1]\n };\n }\n break;\n }\n });\n if (this.elements.vertex) {\n this.numSplats = this.elements.vertex.count;\n }\n }\n parseData(elementCallback) {\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error("No data to parse");\n }\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const item = createEmptyItem(properties);\n const parseFn = createParseFn(properties, this.littleEndian);\n const callback = elementCallback(element) ?? (() => {\n });\n for (let index = 0; index < count; index++) {\n offset = parseFn(data, offset, item);\n callback(index, item);\n }\n }\n }\n // Parse all the Gsplat data in the PLY file in go, invoking the given\n // callbacks for each Gsplat.\n parseSplats(splatCallback, shCallback) {\n if (this.elements.vertex == null) {\n throw new Error("No vertex element found");\n }\n let isSuperSplat = false;\n const ssChunks = [];\n let numSh = 0;\n let sh1Props = [];\n let sh2Props = [];\n let sh3Props = [];\n let sh1 = void 0;\n let sh2 = void 0;\n let sh3 = void 0;\n function prepareSh() {\n const num_f_rest = NUM_SH_TO_NUM_F_REST[numSh];\n sh1Props = new Array(3).fill(null).flatMap((_, k) => [0, 1, 2].map((_2, d) => k + d * num_f_rest / 3));\n sh2Props = new Array(5).fill(null).flatMap(\n (_, k) => [0, 1, 2].map((_2, d) => 3 + k + d * num_f_rest / 3)\n );\n sh3Props = new Array(7).fill(null).flatMap(\n (_, k) => [0, 1, 2].map((_2, d) => 8 + k + d * num_f_rest / 3)\n );\n sh1 = numSh >= 1 ? new Float32Array(3 * 3) : void 0;\n sh2 = numSh >= 2 ? new Float32Array(5 * 3) : void 0;\n sh3 = numSh >= 3 ? new Float32Array(7 * 3) : void 0;\n }\n function ssShCallback(index, item) {\n if (!sh1) {\n throw new Error("Missing sh1");\n }\n const sh = item.f_rest;\n for (let i2 = 0; i2 < sh1Props.length; i2++) {\n sh1[i2] = sh[sh1Props[i2]] * 8 / 255 - 4;\n }\n if (sh2) {\n for (let i2 = 0; i2 < sh2Props.length; i2++) {\n sh2[i2] = sh[sh2Props[i2]] * 8 / 255 - 4;\n }\n }\n if (sh3) {\n for (let i2 = 0; i2 < sh3Props.length; i2++) {\n sh3[i2] = sh[sh3Props[i2]] * 8 / 255 - 4;\n }\n }\n shCallback == null ? void 0 : shCallback(index, sh1, sh2, sh3);\n }\n function initSuperSplat(element) {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z\n } = element.properties;\n if (!min_x || !min_y || !min_z || !max_x || !max_y || !max_z || !min_scale_x || !min_scale_y || !min_scale_z || !max_scale_x || !max_scale_y || !max_scale_z) {\n throw new Error("Missing PLY chunk properties");\n }\n isSuperSplat = true;\n return (index, item) => {\n const {\n min_x: min_x2,\n min_y: min_y2,\n min_z: min_z2,\n max_x: max_x2,\n max_y: max_y2,\n max_z: max_z2,\n min_scale_x: min_scale_x2,\n min_scale_y: min_scale_y2,\n min_scale_z: min_scale_z2,\n max_scale_x: max_scale_x2,\n max_scale_y: max_scale_y2,\n max_scale_z: max_scale_z2,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b\n } = item;\n ssChunks.push({\n min_x: min_x2,\n min_y: min_y2,\n min_z: min_z2,\n max_x: max_x2,\n max_y: max_y2,\n max_z: max_z2,\n min_scale_x: min_scale_x2,\n min_scale_y: min_scale_y2,\n min_scale_z: min_scale_z2,\n max_scale_x: max_scale_x2,\n max_scale_y: max_scale_y2,\n max_scale_z: max_scale_z2,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b\n });\n };\n }\n function decodeSuperSplat(element) {\n if (shCallback && element.name === "sh") {\n numSh = getNumSh(element.properties);\n prepareSh();\n return ssShCallback;\n }\n if (element.name !== "vertex") {\n return null;\n }\n const { packed_position, packed_rotation, packed_scale, packed_color } = element.properties;\n if (!packed_position || !packed_rotation || !packed_scale || !packed_color) {\n throw new Error(\n "Missing PLY properties: packed_position, packed_rotation, packed_scale, packed_color"\n );\n }\n const SQRT2 = Math.sqrt(2);\n return (index, item) => {\n const chunk = ssChunks[index >>> 8];\n if (chunk == null) {\n throw new Error("Missing PLY chunk");\n }\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b\n } = chunk;\n const { packed_position: packed_position2, packed_rotation: packed_rotation2, packed_scale: packed_scale2, packed_color: packed_color2 } = item;\n const x2 = (packed_position2 >>> 21 & 2047) / 2047 * (max_x - min_x) + min_x;\n const y = (packed_position2 >>> 11 & 1023) / 1023 * (max_y - min_y) + min_y;\n const z = (packed_position2 & 2047) / 2047 * (max_z - min_z) + min_z;\n const r0 = ((packed_rotation2 >>> 20 & 1023) / 1023 - 0.5) * SQRT2;\n const r1 = ((packed_rotation2 >>> 10 & 1023) / 1023 - 0.5) * SQRT2;\n const r2 = ((packed_rotation2 & 1023) / 1023 - 0.5) * SQRT2;\n const rr = Math.sqrt(Math.max(0, 1 - r0 * r0 - r1 * r1 - r2 * r2));\n const rOrder = packed_rotation2 >>> 30;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n const scaleX = Math.exp(\n (packed_scale2 >>> 21 & 2047) / 2047 * (max_scale_x - min_scale_x) + min_scale_x\n );\n const scaleY = Math.exp(\n (packed_scale2 >>> 11 & 1023) / 1023 * (max_scale_y - min_scale_y) + min_scale_y\n );\n const scaleZ = Math.exp(\n (packed_scale2 & 2047) / 2047 * (max_scale_z - min_scale_z) + min_scale_z\n );\n const r = (packed_color2 >>> 24 & 255) / 255 * ((max_r ?? 1) - (min_r ?? 0)) + (min_r ?? 0);\n const g = (packed_color2 >>> 16 & 255) / 255 * ((max_g ?? 1) - (min_g ?? 0)) + (min_g ?? 0);\n const b = (packed_color2 >>> 8 & 255) / 255 * ((max_b ?? 1) - (min_b ?? 0)) + (min_b ?? 0);\n const opacity = (packed_color2 & 255) / 255;\n splatCallback(\n index,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b\n );\n };\n }\n const elementCallback = (element) => {\n if (element.name === "chunk") {\n return initSuperSplat(element);\n }\n if (isSuperSplat) {\n return decodeSuperSplat(element);\n }\n if (element.name !== "vertex") {\n return null;\n }\n const {\n x: x2,\n y,\n z,\n scale_0,\n scale_1,\n scale_2,\n rot_0,\n rot_1,\n rot_2,\n rot_3,\n opacity,\n f_dc_0,\n f_dc_1,\n f_dc_2,\n red,\n green,\n blue,\n alpha\n } = element.properties;\n if (!x2 || !y || !z) {\n throw new Error("Missing PLY properties: x, y, z");\n }\n const hasScales = scale_0 && scale_1 && scale_2;\n const hasRots = rot_0 && rot_1 && rot_2 && rot_3;\n const alphaDiv = alpha != null ? FIELD_SCALE[alpha.type] : 1;\n const redDiv = red != null ? FIELD_SCALE[red.type] : 1;\n const greenDiv = green != null ? FIELD_SCALE[green.type] : 1;\n const blueDiv = blue != null ? FIELD_SCALE[blue.type] : 1;\n numSh = getNumSh(element.properties);\n prepareSh();\n return (index, item) => {\n const scaleX = hasScales ? Math.exp(item.scale_0) : _PlyReader.defaultPointScale;\n const scaleY = hasScales ? Math.exp(item.scale_1) : _PlyReader.defaultPointScale;\n const scaleZ = hasScales ? Math.exp(item.scale_2) : _PlyReader.defaultPointScale;\n const quatX = hasRots ? item.rot_1 : 0;\n const quatY = hasRots ? item.rot_2 : 0;\n const quatZ = hasRots ? item.rot_3 : 0;\n const quatW = hasRots ? item.rot_0 : 1;\n const op = opacity != null ? 1 / (1 + Math.exp(-item.opacity)) : alpha != null ? item.alpha / alphaDiv : 1;\n const r = f_dc_0 != null ? item.f_dc_0 * SH_C0$1 + 0.5 : red != null ? item.red / redDiv : 1;\n const g = f_dc_1 != null ? item.f_dc_1 * SH_C0$1 + 0.5 : green != null ? item.green / greenDiv : 1;\n const b = f_dc_2 != null ? item.f_dc_2 * SH_C0$1 + 0.5 : blue != null ? item.blue / blueDiv : 1;\n splatCallback(\n index,\n item.x,\n item.y,\n item.z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n op,\n r,\n g,\n b\n );\n if (shCallback && sh1) {\n const sh = item.f_rest;\n if (sh1) {\n for (let i2 = 0; i2 < sh1Props.length; i2++) {\n sh1[i2] = sh[sh1Props[i2]];\n }\n }\n if (sh2) {\n for (let i2 = 0; i2 < sh2Props.length; i2++) {\n sh2[i2] = sh[sh2Props[i2]];\n }\n }\n if (sh3) {\n for (let i2 = 0; i2 < sh3Props.length; i2++) {\n sh3[i2] = sh[sh3Props[i2]];\n }\n }\n shCallback(index, sh1, sh2, sh3);\n }\n };\n };\n this.parseData(elementCallback);\n }\n // Inject RGBA values into original PLY file, which can be used to modify\n // the color/opacity of the Gsplats and write out the modified PLY file.\n injectRgba(rgba) {\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error("No parsed data");\n }\n if (rgba.length !== this.numSplats * 4) {\n throw new Error("Invalid RGBA array length");\n }\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const parsers = [];\n let rgbaOffset = 0;\n const isVertex = elementName === "vertex";\n if (isVertex) {\n for (const name of ["opacity", "f_dc_0", "f_dc_1", "f_dc_2"]) {\n if (!properties[name] || properties[name].type !== "float") {\n throw new Error(`Can\'t injectRgba due to property: ${name}`);\n }\n }\n }\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!property.isList) {\n if (isVertex) {\n if (propertyName === "f_dc_0" || propertyName === "f_dc_1" || propertyName === "f_dc_2") {\n const component = Number.parseInt(\n propertyName.slice("f_dc_".length)\n );\n parsers.push(() => {\n const value = (rgba[rgbaOffset + component] / 255 - 0.5) / SH_C0$1;\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value\n );\n });\n } else if (propertyName === "opacity") {\n parsers.push(() => {\n const value = Math.max(\n -100,\n Math.min(\n 100,\n -Math.log(1 / (rgba[rgbaOffset + 3] / 255) - 1)\n )\n );\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value\n );\n });\n }\n }\n parsers.push(() => {\n offset += FIELD_BYTES[property.type];\n });\n } else {\n parsers.push(() => {\n const length = PARSE_FIELD[property.countType](\n data,\n offset,\n this.littleEndian\n );\n offset += FIELD_BYTES[property.countType];\n offset += length * FIELD_BYTES[property.type];\n });\n }\n }\n for (let index = 0; index < count; index++) {\n for (const parser of parsers) {\n parser();\n }\n if (isVertex) {\n rgbaOffset += 4;\n }\n }\n }\n }\n };\n _PlyReader.defaultPointScale = 1e-3;\n let PlyReader = _PlyReader;\n const SH_C0$1 = 0.28209479177387814;\n const PARSE_FIELD = {\n char: (data, offset, littleEndian) => {\n return data.getInt8(offset);\n },\n uchar: (data, offset, littleEndian) => {\n return data.getUint8(offset);\n },\n short: (data, offset, littleEndian) => {\n return data.getInt16(offset, littleEndian);\n },\n ushort: (data, offset, littleEndian) => {\n return data.getUint16(offset, littleEndian);\n },\n int: (data, offset, littleEndian) => {\n return data.getInt32(offset, littleEndian);\n },\n uint: (data, offset, littleEndian) => {\n return data.getUint32(offset, littleEndian);\n },\n float: (data, offset, littleEndian) => {\n return data.getFloat32(offset, littleEndian);\n },\n double: (data, offset, littleEndian) => {\n return data.getFloat64(offset, littleEndian);\n }\n };\n const SET_FIELD = {\n char: (data, offset, littleEndian, value) => {\n data.setInt8(offset, value);\n },\n uchar: (data, offset, littleEndian, value) => {\n data.setUint8(offset, value);\n },\n short: (data, offset, littleEndian, value) => {\n data.setInt16(offset, value, littleEndian);\n },\n ushort: (data, offset, littleEndian, value) => {\n data.setUint16(offset, value, littleEndian);\n },\n int: (data, offset, littleEndian, value) => {\n data.setInt32(offset, value, littleEndian);\n },\n uint: (data, offset, littleEndian, value) => {\n data.setUint32(offset, value, littleEndian);\n },\n float: (data, offset, littleEndian, value) => {\n data.setFloat32(offset, value, littleEndian);\n },\n double: (data, offset, littleEndian, value) => {\n data.setFloat64(offset, value, littleEndian);\n }\n };\n const FIELD_BYTES = {\n char: 1,\n uchar: 1,\n short: 2,\n ushort: 2,\n int: 4,\n uint: 4,\n float: 4,\n double: 8\n };\n const FIELD_SCALE = {\n char: 127,\n uchar: 255,\n short: 32767,\n ushort: 65535,\n int: 2147483647,\n uint: 4294967295,\n float: 1,\n double: 1\n };\n const NUM_F_REST_TO_NUM_SH = {\n 0: 0,\n 9: 1,\n 24: 2,\n 45: 3\n };\n const NUM_SH_TO_NUM_F_REST = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45\n };\n const F_REST_REGEX = /^f_rest_([0-9]{1,2})$/;\n function createEmptyItem(properties) {\n const item = {};\n for (const [propertyName, property] of Object.entries(properties)) {\n if (F_REST_REGEX.test(propertyName)) {\n item.f_rest = new Array(getNumSh(properties));\n } else {\n item[propertyName] = property.isList ? [] : 0;\n }\n }\n return item;\n }\n function createParseFn(properties, littleEndian) {\n if (safeToCompile(properties)) {\n return createCompiledParserFn(properties, littleEndian);\n }\n return createDynamicParserFn(properties, littleEndian);\n }\n const UNSAFE_EVAL_ALLOWED = (() => {\n try {\n new Function("return 42;");\n } catch (e) {\n return false;\n }\n return true;\n })();\n const PROPERTY_NAME_REGEX = /^[a-zA-Z0-9_]+$/;\n function safeToCompile(properties) {\n if (!UNSAFE_EVAL_ALLOWED) {\n return false;\n }\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!PROPERTY_NAME_REGEX.test(propertyName)) {\n return false;\n }\n if (property.isList && !PLY_PROPERTY_TYPES.includes(property.countType)) {\n return false;\n }\n if (!PLY_PROPERTY_TYPES.includes(property.type)) {\n return false;\n }\n }\n return true;\n }\n function createCompiledParserFn(properties, littleEndian) {\n const parserSrc = ["let list;"];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parserSrc.push(\n /*js*/\n `\n item.f_rest[${fRestIndex}] = PARSE_FIELD[\'${property.type}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `\n );\n } else if (!property.isList) {\n parserSrc.push(\n /*js*/\n `\n item[\'${propertyName}\'] = PARSE_FIELD[\'${property.type}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `\n );\n } else {\n parserSrc.push(\n /*js*/\n `\n list = item[\'${propertyName}\'];\n list.length = PARSE_FIELD[\'${property.countType}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.countType]};\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD[\'${property.type}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n }\n `\n );\n }\n }\n parserSrc.push("return offset;");\n const fn = new Function(\n "data",\n "offset",\n "item",\n "PARSE_FIELD",\n parserSrc.join("\\n")\n );\n return (data, offset, item) => fn(data, offset, item, PARSE_FIELD);\n }\n function createDynamicParserFn(properties, littleEndian) {\n const parsers = [];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parsers.push(\n (data, offset, item) => {\n item.f_rest[fRestIndex] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian\n );\n return offset + FIELD_BYTES[property.type];\n }\n );\n } else if (!property.isList) {\n parsers.push(\n (data, offset, item) => {\n item[propertyName] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian\n );\n return offset + FIELD_BYTES[property.type];\n }\n );\n } else {\n parsers.push(\n (data, offset, item) => {\n const list = item[propertyName];\n list.length = PARSE_FIELD[property.countType](\n data,\n offset,\n littleEndian\n );\n let currentOffset = offset + FIELD_BYTES[property.countType];\n for (let i2 = 0; i2 < list.length; i2++) {\n list[i2] = PARSE_FIELD[property.type](\n data,\n currentOffset,\n littleEndian\n );\n currentOffset += FIELD_BYTES[property.type];\n }\n return currentOffset;\n }\n );\n }\n }\n return (data, offset, item) => {\n let currentOffset = offset;\n for (let parserIndex = 0; parserIndex < parsers.length; parserIndex++) {\n currentOffset = parsers[parserIndex](data, currentOffset, item);\n }\n return currentOffset;\n };\n }\n function getNumSh(properties) {\n let num_f_rest = 0;\n while (properties[`f_rest_${num_f_rest}`]) {\n num_f_rest += 1;\n }\n const numSh = NUM_F_REST_TO_NUM_SH[num_f_rest];\n if (numSh == null) {\n throw new Error(`Unsupported number of SH coefficients: ${num_f_rest}`);\n }\n return numSh;\n }\n class SpzReader {\n constructor({ fileBytes }) {\n this.version = -1;\n this.numSplats = 0;\n this.shDegree = 0;\n this.fractionalBits = 0;\n this.flags = 0;\n this.flagAntiAlias = false;\n this.flagLod = false;\n this.reserved = 0;\n this.headerParsed = false;\n this.parsed = false;\n this.fileBytes = fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n this.reader = new GunzipReader({\n fileBytes: this.fileBytes\n });\n }\n async parseHeader() {\n if (this.headerParsed) {\n throw new Error("SPZ file header already parsed");\n }\n const header = new DataView((await this.reader.read(16)).buffer);\n if (header.getUint32(0, true) !== 1347635022) {\n throw new Error("Invalid SPZ file");\n }\n this.version = header.getUint32(4, true);\n if (this.version < 1 || this.version > 3) {\n throw new Error(`Unsupported SPZ version: ${this.version}`);\n }\n this.numSplats = header.getUint32(8, true);\n this.shDegree = header.getUint8(12);\n this.fractionalBits = header.getUint8(13);\n this.flags = header.getUint8(14);\n this.flagAntiAlias = (this.flags & 1) !== 0;\n this.flagLod = (this.flags & 128) !== 0;\n this.reserved = header.getUint8(15);\n this.headerParsed = true;\n this.parsed = false;\n }\n async parseSplats(centerCallback, alphaCallback, rgbCallback, scalesCallback, quatCallback, shCallback, {\n childCounts,\n childStarts\n } = {}) {\n if (!this.headerParsed) {\n throw new Error("SPZ file header must be parsed first");\n }\n if (this.parsed) {\n throw new Error("SPZ file already parsed");\n }\n this.parsed = true;\n if (this.version === 1) {\n const centerBytes = await this.reader.read(this.numSplats * 3 * 2);\n const centerUint16 = new Uint16Array(centerBytes.buffer);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const x2 = fromHalf(centerUint16[i3]);\n const y = fromHalf(centerUint16[i3 + 1]);\n const z = fromHalf(centerUint16[i3 + 2]);\n centerCallback == null ? void 0 : centerCallback(i2, x2, y, z);\n }\n } else if (this.version === 2 || this.version === 3) {\n const fixed = 1 << this.fractionalBits;\n const centerBytes = await this.reader.read(this.numSplats * 3 * 3);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i9 = i2 * 9;\n const x2 = ((centerBytes[i9 + 2] << 24 | centerBytes[i9 + 1] << 16 | centerBytes[i9] << 8) >> 8) / fixed;\n const y = ((centerBytes[i9 + 5] << 24 | centerBytes[i9 + 4] << 16 | centerBytes[i9 + 3] << 8) >> 8) / fixed;\n const z = ((centerBytes[i9 + 8] << 24 | centerBytes[i9 + 7] << 16 | centerBytes[i9 + 6] << 8) >> 8) / fixed;\n centerCallback == null ? void 0 : centerCallback(i2, x2, y, z);\n }\n } else {\n throw new Error("Unreachable");\n }\n {\n const bytes = await this.reader.read(this.numSplats);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n alphaCallback == null ? void 0 : alphaCallback(i2, bytes[i2] / 255);\n }\n }\n {\n const rgbBytes = await this.reader.read(this.numSplats * 3);\n const scale = SH_C0 / 0.15;\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const r = (rgbBytes[i3] / 255 - 0.5) * scale + 0.5;\n const g = (rgbBytes[i3 + 1] / 255 - 0.5) * scale + 0.5;\n const b = (rgbBytes[i3 + 2] / 255 - 0.5) * scale + 0.5;\n rgbCallback == null ? void 0 : rgbCallback(i2, r, g, b);\n }\n }\n {\n const scalesBytes = await this.reader.read(this.numSplats * 3);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const scaleX = Math.exp(scalesBytes[i3] / 16 - 10);\n const scaleY = Math.exp(scalesBytes[i3 + 1] / 16 - 10);\n const scaleZ = Math.exp(scalesBytes[i3 + 2] / 16 - 10);\n scalesCallback == null ? void 0 : scalesCallback(i2, scaleX, scaleY, scaleZ);\n }\n }\n if (this.version === 3) {\n const maxValue = 1 / Math.sqrt(2);\n const quatBytes = await this.reader.read(this.numSplats * 4);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 4;\n const quaternion = [0, 0, 0, 0];\n const values = [\n quatBytes[i3],\n quatBytes[i3 + 1],\n quatBytes[i3 + 2],\n quatBytes[i3 + 3]\n ];\n const combinedValues = values[0] + (values[1] << 8) + (values[2] << 16) + (values[3] << 24);\n const valueMask = (1 << 9) - 1;\n const largestIndex = combinedValues >>> 30;\n let remainingValues = combinedValues;\n let sumSquares = 0;\n for (let i22 = 3; i22 >= 0; --i22) {\n if (i22 !== largestIndex) {\n const value = remainingValues & valueMask;\n const sign = remainingValues >>> 9 & 1;\n remainingValues = remainingValues >>> 10;\n quaternion[i22] = maxValue * (value / valueMask);\n quaternion[i22] = sign === 0 ? quaternion[i22] : -quaternion[i22];\n sumSquares += quaternion[i22] * quaternion[i22];\n }\n }\n const square = 1 - sumSquares;\n quaternion[largestIndex] = Math.sqrt(Math.max(square, 0));\n quatCallback == null ? void 0 : quatCallback(\n i2,\n quaternion[0],\n quaternion[1],\n quaternion[2],\n quaternion[3]\n );\n }\n } else {\n const quatBytes = await this.reader.read(this.numSplats * 3);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const quatX = quatBytes[i3] / 127.5 - 1;\n const quatY = quatBytes[i3 + 1] / 127.5 - 1;\n const quatZ = quatBytes[i3 + 2] / 127.5 - 1;\n const quatW = Math.sqrt(\n Math.max(0, 1 - quatX * quatX - quatY * quatY - quatZ * quatZ)\n );\n quatCallback == null ? void 0 : quatCallback(i2, quatX, quatY, quatZ, quatW);\n }\n }\n if (shCallback && this.shDegree >= 1) {\n const sh1 = new Float32Array(3 * 3);\n const sh2 = this.shDegree >= 2 ? new Float32Array(5 * 3) : void 0;\n const sh3 = this.shDegree >= 3 ? new Float32Array(7 * 3) : void 0;\n const shBytes = await this.reader.read(\n this.numSplats * SH_DEGREE_TO_VECS[this.shDegree] * 3\n );\n let offset = 0;\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n for (let j = 0; j < 9; ++j) {\n sh1[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 9;\n if (sh2) {\n for (let j = 0; j < 15; ++j) {\n sh2[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 15;\n }\n if (sh3) {\n for (let j = 0; j < 21; ++j) {\n sh3[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 21;\n }\n shCallback == null ? void 0 : shCallback(i2, sh1, sh2, sh3);\n }\n }\n if (this.flagLod) {\n let bytes = await this.reader.read(this.numSplats * 2);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i22 = i2 * 2;\n const count = bytes[i22] + (bytes[i22 + 1] << 8);\n childCounts == null ? void 0 : childCounts(i2, count);\n }\n bytes = await this.reader.read(this.numSplats * 4);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i4 = i2 * 4;\n const start = bytes[i4] + (bytes[i4 + 1] << 8) + (bytes[i4 + 2] << 16) + (bytes[i4 + 3] << 24);\n childStarts == null ? void 0 : childStarts(i2, start);\n }\n }\n }\n }\n const SH_DEGREE_TO_VECS = { 1: 3, 2: 8, 3: 15 };\n const SH_C0 = 0.28209479177387814;\n const SPZ_MAGIC = 1347635022;\n const SPZ_VERSION = 3;\n const FLAG_ANTIALIASED = 1;\n class SpzWriter {\n constructor({\n numSplats,\n shDegree,\n fractionalBits = 12,\n flagAntiAlias = true\n }) {\n this.clippedCount = 0;\n const splatSize = 9 + // Position\n 1 + // Opacity\n 3 + // Scale\n 3 + // DC-rgb\n 4 + // Rotation\n (shDegree >= 1 ? 9 : 0) + (shDegree >= 2 ? 15 : 0) + (shDegree >= 3 ? 21 : 0);\n const bufferSize = 16 + numSplats * splatSize;\n this.buffer = new ArrayBuffer(bufferSize);\n this.view = new DataView(this.buffer);\n this.view.setUint32(0, SPZ_MAGIC, true);\n this.view.setUint32(4, SPZ_VERSION, true);\n this.view.setUint32(8, numSplats, true);\n this.view.setUint8(12, shDegree);\n this.view.setUint8(13, fractionalBits);\n this.view.setUint8(14, flagAntiAlias ? FLAG_ANTIALIASED : 0);\n this.view.setUint8(15, 0);\n this.numSplats = numSplats;\n this.shDegree = shDegree;\n this.fractionalBits = fractionalBits;\n this.fraction = 1 << fractionalBits;\n this.flagAntiAlias = flagAntiAlias;\n }\n setCenter(index, x2, y, z) {\n const xRounded = Math.round(x2 * this.fraction);\n const xInt = Math.max(-8388607, Math.min(8388607, xRounded));\n const yRounded = Math.round(y * this.fraction);\n const yInt = Math.max(-8388607, Math.min(8388607, yRounded));\n const zRounded = Math.round(z * this.fraction);\n const zInt = Math.max(-8388607, Math.min(8388607, zRounded));\n const clipped = xRounded !== xInt || yRounded !== yInt || zRounded !== zInt;\n if (clipped) {\n this.clippedCount += 1;\n }\n const i9 = index * 9;\n const base = 16 + i9;\n this.view.setUint8(base, xInt & 255);\n this.view.setUint8(base + 1, xInt >> 8 & 255);\n this.view.setUint8(base + 2, xInt >> 16 & 255);\n this.view.setUint8(base + 3, yInt & 255);\n this.view.setUint8(base + 4, yInt >> 8 & 255);\n this.view.setUint8(base + 5, yInt >> 16 & 255);\n this.view.setUint8(base + 6, zInt & 255);\n this.view.setUint8(base + 7, zInt >> 8 & 255);\n this.view.setUint8(base + 8, zInt >> 16 & 255);\n }\n setAlpha(index, alpha) {\n const base = 16 + this.numSplats * 9 + index;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round(alpha * 255)))\n );\n }\n static scaleRgb(r) {\n const v = ((r - 0.5) / (SH_C0 / 0.15) + 0.5) * 255;\n return Math.max(0, Math.min(255, Math.round(v)));\n }\n setRgb(index, r, g, b) {\n const base = 16 + this.numSplats * 10 + index * 3;\n this.view.setUint8(base, SpzWriter.scaleRgb(r));\n this.view.setUint8(base + 1, SpzWriter.scaleRgb(g));\n this.view.setUint8(base + 2, SpzWriter.scaleRgb(b));\n }\n setScale(index, scaleX, scaleY, scaleZ) {\n const base = 16 + this.numSplats * 13 + index * 3;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleX) + 10) * 16)))\n );\n this.view.setUint8(\n base + 1,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleY) + 10) * 16)))\n );\n this.view.setUint8(\n base + 2,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleZ) + 10) * 16)))\n );\n }\n setQuat(index, ...q) {\n const base = 16 + this.numSplats * 16 + index * 4;\n const quat = normalize(q);\n let iLargest = 0;\n for (let i2 = 1; i2 < 4; ++i2) {\n if (Math.abs(quat[i2]) > Math.abs(quat[iLargest])) {\n iLargest = i2;\n }\n }\n const negate = quat[iLargest] < 0 ? 1 : 0;\n let comp = iLargest;\n for (let i2 = 0; i2 < 4; ++i2) {\n if (i2 !== iLargest) {\n const negbit = (quat[i2] < 0 ? 1 : 0) ^ negate;\n const mag = Math.floor(\n ((1 << 9) - 1) * (Math.abs(quat[i2]) / Math.SQRT1_2) + 0.5\n );\n comp = comp << 10 | negbit << 9 | mag;\n }\n }\n this.view.setUint8(base, comp & 255);\n this.view.setUint8(base + 1, comp >> 8 & 255);\n this.view.setUint8(base + 2, comp >> 16 & 255);\n this.view.setUint8(base + 3, comp >>> 24 & 255);\n }\n static quantizeSh(sh, bits2) {\n const value = Math.round(sh * 128) + 128;\n const bucketSize = 1 << 8 - bits2;\n const quantized = Math.floor((value + bucketSize / 2) / bucketSize) * bucketSize;\n return Math.max(0, Math.min(255, quantized));\n }\n setSh(index, sh1, sh2, sh3) {\n const shVecs = SH_DEGREE_TO_VECS[this.shDegree] || 0;\n const base1 = 16 + this.numSplats * 20 + index * shVecs * 3;\n for (let j = 0; j < 9; ++j) {\n this.view.setUint8(base1 + j, SpzWriter.quantizeSh(sh1[j], 5));\n }\n if (sh2) {\n const base2 = base1 + 9;\n for (let j = 0; j < 15; ++j) {\n this.view.setUint8(base2 + j, SpzWriter.quantizeSh(sh2[j], 4));\n }\n if (sh3) {\n const base3 = base2 + 15;\n for (let j = 0; j < 21; ++j) {\n this.view.setUint8(base3 + j, SpzWriter.quantizeSh(sh3[j], 4));\n }\n }\n }\n }\n async finalize() {\n const input = new Uint8Array(this.buffer);\n const stream = new ReadableStream({\n async start(controller) {\n controller.enqueue(input);\n controller.close();\n }\n });\n const compressed = stream.pipeThrough(new CompressionStream("gzip"));\n const response = new Response(compressed);\n const buffer = await response.arrayBuffer();\n console.log(\n "Compressed",\n input.length,\n "bytes to",\n buffer.byteLength,\n "bytes"\n );\n return new Uint8Array(buffer);\n }\n }\n async function transcodeSpz(input) {\n var _a2, _b2, _c;\n const splats = new SplatData();\n const {\n inputs,\n clipXyz,\n maxSh,\n fractionalBits = 12,\n opacityThreshold\n } = input;\n for (const input2 of inputs) {\n let transformPos = function(pos) {\n pos.multiplyScalar(scale);\n pos.applyQuaternion(quaternion);\n pos.add(translate);\n return pos;\n }, transformScales = function(scales) {\n scales.multiplyScalar(scale);\n return scales;\n }, transformQuaternion = function(quat) {\n quat.premultiply(quaternion);\n return quat;\n }, withinClip = function(p) {\n return !clip || clip.containsPoint(p);\n }, withinOpacity = function(opacity) {\n return opacityThreshold !== void 0 ? opacity >= opacityThreshold : true;\n };\n const scale = ((_a2 = input2.transform) == null ? void 0 : _a2.scale) ?? 1;\n const quaternion = new Quaternion().fromArray(\n ((_b2 = input2.transform) == null ? void 0 : _b2.quaternion) ?? [0, 0, 0, 1]\n );\n const translate = new Vector3().fromArray(\n ((_c = input2.transform) == null ? void 0 : _c.translate) ?? [0, 0, 0]\n );\n const clip = clipXyz ? new Box3(\n new Vector3().fromArray(clipXyz.min),\n new Vector3().fromArray(clipXyz.max)\n ) : void 0;\n let fileType = input2.fileType;\n if (!fileType) {\n fileType = getSplatFileType(input2.fileBytes);\n if (!fileType && input2.pathOrUrl) {\n fileType = getSplatFileTypeFromPath(input2.pathOrUrl);\n }\n }\n switch (fileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes: input2.fileBytes });\n await ply.parseHeader();\n let lastIndex = null;\n ply.parseSplats(\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n const center = transformPos(new Vector3(x2, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n lastIndex,\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (sh1 && lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n }\n if (sh2 && lastIndex !== null) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3 && lastIndex !== null) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n );\n break;\n }\n case SplatFileType.SPZ: {\n const spz2 = new SpzReader({ fileBytes: input2.fileBytes });\n await spz2.parseHeader();\n const mapping = new Int32Array(spz2.numSplats);\n mapping.fill(-1);\n const centers = new Float32Array(spz2.numSplats * 3);\n const center = new Vector3();\n spz2.parseSplats(\n (index, x2, y, z) => {\n const center2 = transformPos(new Vector3(x2, y, z));\n centers[index * 3] = center2.x;\n centers[index * 3 + 1] = center2.y;\n centers[index * 3 + 2] = center2.z;\n },\n (index, alpha) => {\n center.fromArray(centers, index * 3);\n if (withinClip(center) && withinOpacity(alpha)) {\n mapping[index] = splats.pushSplat();\n splats.setCenter(mapping[index], center.x, center.y, center.z);\n splats.setOpacity(mapping[index], alpha);\n }\n },\n (index, r, g, b) => {\n if (mapping[index] >= 0) {\n splats.setColor(mapping[index], r, g, b);\n }\n },\n (index, scaleX, scaleY, scaleZ) => {\n if (mapping[index] >= 0) {\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(mapping[index], scales.x, scales.y, scales.z);\n }\n },\n (index, quatX, quatY, quatZ, quatW) => {\n if (mapping[index] >= 0) {\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n mapping[index],\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n }\n },\n (index, sh1, sh2, sh3) => {\n if (mapping[index] >= 0) {\n splats.setSh1(mapping[index], sh1);\n if (sh2) {\n splats.setSh2(mapping[index], sh2);\n }\n if (sh3) {\n splats.setSh3(mapping[index], sh3);\n }\n }\n }\n );\n break;\n }\n case SplatFileType.SPLAT:\n decodeAntiSplat(\n input2.fileBytes,\n (numSplats) => {\n },\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n const center = transformPos(new Vector3(x2, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n const index2 = splats.pushSplat();\n splats.setCenter(index2, center.x, center.y, center.z);\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(index2, scales.x, scales.y, scales.z);\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n index2,\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n splats.setOpacity(index2, opacity);\n splats.setColor(index2, r, g, b);\n }\n }\n );\n break;\n case SplatFileType.KSPLAT: {\n let lastIndex = null;\n decodeKsplat(\n input2.fileBytes,\n (numSplats) => {\n },\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n const center = transformPos(new Vector3(x2, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n lastIndex,\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n if (sh2) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n }\n );\n break;\n }\n default:\n throw new Error(`transcodeSpz not implemented for ${fileType}`);\n }\n }\n const shDegree = Math.min(\n maxSh ?? 3,\n splats.sh3 ? 3 : splats.sh2 ? 2 : splats.sh1 ? 1 : 0\n );\n const spz = new SpzWriter({\n numSplats: splats.numSplats,\n shDegree,\n fractionalBits,\n flagAntiAlias: true\n });\n for (let i2 = 0; i2 < splats.numSplats; ++i2) {\n const i3 = i2 * 3;\n const i4 = i2 * 4;\n spz.setCenter(\n i2,\n splats.centers[i3],\n splats.centers[i3 + 1],\n splats.centers[i3 + 2]\n );\n spz.setScale(\n i2,\n splats.scales[i3],\n splats.scales[i3 + 1],\n splats.scales[i3 + 2]\n );\n spz.setQuat(\n i2,\n splats.quaternions[i4],\n splats.quaternions[i4 + 1],\n splats.quaternions[i4 + 2],\n splats.quaternions[i4 + 3]\n );\n spz.setAlpha(i2, splats.opacities[i2]);\n spz.setRgb(\n i2,\n splats.colors[i3],\n splats.colors[i3 + 1],\n splats.colors[i3 + 2]\n );\n if (splats.sh1 && shDegree >= 1) {\n spz.setSh(\n i2,\n splats.sh1.slice(i2 * 9, (i2 + 1) * 9),\n shDegree >= 2 && splats.sh2 ? splats.sh2.slice(i2 * 15, (i2 + 1) * 15) : void 0,\n shDegree >= 3 && splats.sh3 ? splats.sh3.slice(i2 * 21, (i2 + 1) * 21) : void 0\n );\n }\n }\n const spzBytes = await spz.finalize();\n return { fileBytes: spzBytes, clippedCount: spz.clippedCount };\n }\n function getSplatFileType(fileBytes) {\n const view = new DataView(fileBytes.buffer);\n const magic = view.getUint32(0, true);\n if ((magic & 16777215) === 7957616) {\n return SplatFileType.PLY;\n }\n if ((magic & 16777215) === 559903) {\n const header = decompressPartialGzip(fileBytes, 4);\n const gView = new DataView(header.buffer);\n if (gView.getUint32(0, true) === 1347635022) {\n return SplatFileType.SPZ;\n }\n return void 0;\n }\n if (magic === 67324752) {\n if (tryPcSogsZip(fileBytes)) {\n return SplatFileType.PCSOGSZIP;\n }\n return void 0;\n }\n if (magic === 809779538) {\n return SplatFileType.RAD;\n }\n return void 0;\n }\n function getFileExtension(pathOrUrl) {\n const noTrailing = pathOrUrl.split(/[?#]/, 1)[0];\n const lastSlash = Math.max(\n noTrailing.lastIndexOf("/"),\n noTrailing.lastIndexOf("\\\\")\n );\n const filename = noTrailing.slice(lastSlash + 1);\n const lastDot = filename.lastIndexOf(".");\n if (lastDot <= 0 || lastDot === filename.length - 1) {\n return "";\n }\n return filename.slice(lastDot + 1).toLowerCase();\n }\n function getSplatFileTypeFromPath(pathOrUrl) {\n const extension = getFileExtension(pathOrUrl);\n if (extension === "ply") {\n return SplatFileType.PLY;\n }\n if (extension === "spz") {\n return SplatFileType.SPZ;\n }\n if (extension === "splat") {\n return SplatFileType.SPLAT;\n }\n if (extension === "ksplat") {\n return SplatFileType.KSPLAT;\n }\n if (extension === "sog") {\n return SplatFileType.PCSOGSZIP;\n }\n if (extension === "rad") {\n return SplatFileType.RAD;\n }\n return void 0;\n }\n function tryPcSogs(input) {\n try {\n let text;\n if (typeof input === "string") {\n text = input;\n } else {\n const fileBytes = input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n if (fileBytes.length > 65536) {\n return void 0;\n }\n text = new TextDecoder().decode(fileBytes);\n }\n const json = JSON.parse(text);\n if (!json || typeof json !== "object" || Array.isArray(json)) {\n return void 0;\n }\n const isVersion2 = json.version === 2;\n for (const key of ["means", "scales", "quats", "sh0"]) {\n if (!json[key] || typeof json[key] !== "object" || Array.isArray(json[key])) {\n return void 0;\n }\n if (isVersion2) {\n if (!json[key].files) {\n return void 0;\n }\n if ((key === "scales" || key === "sh0") && !json[key].codebook) {\n return void 0;\n }\n if (key === "means" && (!json[key].mins || !json[key].maxs)) {\n return void 0;\n }\n } else {\n if (!json[key].shape || !json[key].files) {\n return void 0;\n }\n if (key !== "quats" && (!json[key].mins || !json[key].maxs)) {\n return void 0;\n }\n }\n }\n return json;\n } catch {\n return void 0;\n }\n }\n function tryPcSogsZip(input) {\n try {\n const fileBytes = input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let metaFilename = null;\n const unzipped = unzipSync(fileBytes, {\n filter: ({ name }) => {\n const filename = name.split(/[\\\\/]/).pop();\n if (filename === "meta.json") {\n metaFilename = name;\n return true;\n }\n return false;\n }\n });\n if (!metaFilename) {\n return void 0;\n }\n const json = tryPcSogs(unzipped[metaFilename]);\n if (!json) {\n return void 0;\n }\n return { name: metaFilename, json };\n } catch {\n return void 0;\n }\n }\n class SplatData {\n constructor({ maxSplats = 1 } = {}) {\n this.numSplats = 0;\n this.maxSplats = getTextureSize(maxSplats).maxSplats;\n this.centers = new Float32Array(this.maxSplats * 3);\n this.scales = new Float32Array(this.maxSplats * 3);\n this.quaternions = new Float32Array(this.maxSplats * 4);\n this.opacities = new Float32Array(this.maxSplats);\n this.colors = new Float32Array(this.maxSplats * 3);\n }\n pushSplat() {\n const index = this.numSplats;\n this.ensureIndex(index);\n this.numSplats += 1;\n return index;\n }\n unpushSplat(index) {\n if (index === this.numSplats - 1) {\n this.numSplats -= 1;\n } else {\n throw new Error("Cannot unpush splat from non-last position");\n }\n }\n ensureCapacity(numSplats) {\n if (numSplats > this.maxSplats) {\n const targetSplats = Math.max(numSplats, this.maxSplats * 2);\n const newCenters = new Float32Array(targetSplats * 3);\n const newScales = new Float32Array(targetSplats * 3);\n const newQuaternions = new Float32Array(targetSplats * 4);\n const newOpacities = new Float32Array(targetSplats);\n const newColors = new Float32Array(targetSplats * 3);\n newCenters.set(this.centers);\n newScales.set(this.scales);\n newQuaternions.set(this.quaternions);\n newOpacities.set(this.opacities);\n newColors.set(this.colors);\n this.centers = newCenters;\n this.scales = newScales;\n this.quaternions = newQuaternions;\n this.opacities = newOpacities;\n this.colors = newColors;\n if (this.sh1) {\n const newSh1 = new Float32Array(targetSplats * 9);\n newSh1.set(this.sh1);\n this.sh1 = newSh1;\n }\n if (this.sh2) {\n const newSh2 = new Float32Array(targetSplats * 15);\n newSh2.set(this.sh2);\n this.sh2 = newSh2;\n }\n if (this.sh3) {\n const newSh3 = new Float32Array(targetSplats * 21);\n newSh3.set(this.sh3);\n this.sh3 = newSh3;\n }\n this.maxSplats = targetSplats;\n }\n }\n ensureIndex(index) {\n this.ensureCapacity(index + 1);\n }\n setCenter(index, x2, y, z) {\n this.centers[index * 3] = x2;\n this.centers[index * 3 + 1] = y;\n this.centers[index * 3 + 2] = z;\n }\n setScale(index, scaleX, scaleY, scaleZ) {\n this.scales[index * 3] = scaleX;\n this.scales[index * 3 + 1] = scaleY;\n this.scales[index * 3 + 2] = scaleZ;\n }\n setQuaternion(index, x2, y, z, w) {\n this.quaternions[index * 4] = x2;\n this.quaternions[index * 4 + 1] = y;\n this.quaternions[index * 4 + 2] = z;\n this.quaternions[index * 4 + 3] = w;\n }\n setOpacity(index, opacity) {\n this.opacities[index] = opacity;\n }\n setColor(index, r, g, b) {\n this.colors[index * 3] = r;\n this.colors[index * 3 + 1] = g;\n this.colors[index * 3 + 2] = b;\n }\n setSh1(index, sh1) {\n if (!this.sh1) {\n this.sh1 = new Float32Array(this.maxSplats * 9);\n }\n for (let j = 0; j < 9; ++j) {\n this.sh1[index * 9 + j] = sh1[j];\n }\n }\n setSh2(index, sh2) {\n if (!this.sh2) {\n this.sh2 = new Float32Array(this.maxSplats * 15);\n }\n for (let j = 0; j < 15; ++j) {\n this.sh2[index * 15 + j] = sh2[j];\n }\n }\n setSh3(index, sh3) {\n if (!this.sh3) {\n this.sh3 = new Float32Array(this.maxSplats * 21);\n }\n for (let j = 0; j < 21; ++j) {\n this.sh3[index * 21 + j] = sh3[j];\n }\n }\n }\n async function unpackPcSogs(json, extraFiles, splatEncoding) {\n const isVersion2 = "version" in json;\n if (!isVersion2 && json.quats.encoding !== "quaternion_packed") {\n throw new Error("Unsupported quaternion encoding");\n }\n const numSplats = isVersion2 ? json.count : json.means.shape[0];\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra = {};\n const meansPromise = Promise.all([\n decodeImageRgba(extraFiles[json.means.files[0]]),\n decodeImageRgba(extraFiles[json.means.files[1]])\n ]).then((means) => {\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n const fx = (means[0][i4 + 0] + (means[1][i4 + 0] << 8)) / 65535;\n const fy = (means[0][i4 + 1] + (means[1][i4 + 1] << 8)) / 65535;\n const fz = (means[0][i4 + 2] + (means[1][i4 + 2] << 8)) / 65535;\n let x2 = json.means.mins[0] + (json.means.maxs[0] - json.means.mins[0]) * fx;\n let y = json.means.mins[1] + (json.means.maxs[1] - json.means.mins[1]) * fy;\n let z = json.means.mins[2] + (json.means.maxs[2] - json.means.mins[2]) * fz;\n x2 = Math.sign(x2) * (Math.exp(Math.abs(x2)) - 1);\n y = Math.sign(y) * (Math.exp(Math.abs(y)) - 1);\n z = Math.sign(z) * (Math.exp(Math.abs(z)) - 1);\n setPackedSplatCenter(packedArray, i2, x2, y, z);\n }\n });\n const scalesPromise = decodeImageRgba(extraFiles[json.scales.files[0]]).then(\n (scales) => {\n let xLookup;\n let yLookup;\n let zLookup;\n if (isVersion2) {\n xLookup = yLookup = zLookup = json.scales.codebook.map((x2) => Math.exp(x2));\n } else {\n xLookup = new Array(256).fill(0).map(\n (_, i2) => json.scales.mins[0] + (json.scales.maxs[0] - json.scales.mins[0]) * (i2 / 255)\n ).map((x2) => Math.exp(x2));\n yLookup = new Array(256).fill(0).map(\n (_, i2) => json.scales.mins[1] + (json.scales.maxs[1] - json.scales.mins[1]) * (i2 / 255)\n ).map((x2) => Math.exp(x2));\n zLookup = new Array(256).fill(0).map(\n (_, i2) => json.scales.mins[2] + (json.scales.maxs[2] - json.scales.mins[2]) * (i2 / 255)\n ).map((x2) => Math.exp(x2));\n }\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n setPackedSplatScales(\n packedArray,\n i2,\n xLookup[scales[i4 + 0]],\n yLookup[scales[i4 + 1]],\n zLookup[scales[i4 + 2]],\n splatEncoding\n );\n }\n }\n );\n const quatsPromise = decodeImageRgba(extraFiles[json.quats.files[0]]).then(\n (quats) => {\n const SQRT2 = Math.sqrt(2);\n const lookup = new Array(256).fill(0).map((_, i2) => (i2 / 255 - 0.5) * SQRT2);\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n const r0 = lookup[quats[i4 + 0]];\n const r1 = lookup[quats[i4 + 1]];\n const r2 = lookup[quats[i4 + 2]];\n const rr = Math.sqrt(Math.max(0, 1 - r0 * r0 - r1 * r1 - r2 * r2));\n const rOrder = quats[i4 + 3] - 252;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n setPackedSplatQuat(packedArray, i2, quatX, quatY, quatZ, quatW);\n }\n }\n );\n const sh0Promise = decodeImageRgba(extraFiles[json.sh0.files[0]]).then(\n (sh0) => {\n const SH_C02 = 0.28209479177387814;\n let rLookup;\n let gLookup;\n let bLookup;\n let aLookup;\n if (isVersion2) {\n rLookup = gLookup = bLookup = json.sh0.codebook.map((x2) => SH_C02 * x2 + 0.5);\n aLookup = new Array(256).fill(0).map((_, i2) => i2 / 255);\n } else {\n rLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[0] + (json.sh0.maxs[0] - json.sh0.mins[0]) * (i2 / 255)\n ).map((x2) => SH_C02 * x2 + 0.5);\n gLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[1] + (json.sh0.maxs[1] - json.sh0.mins[1]) * (i2 / 255)\n ).map((x2) => SH_C02 * x2 + 0.5);\n bLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[2] + (json.sh0.maxs[2] - json.sh0.mins[2]) * (i2 / 255)\n ).map((x2) => SH_C02 * x2 + 0.5);\n aLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[3] + (json.sh0.maxs[3] - json.sh0.mins[3]) * (i2 / 255)\n ).map((x2) => 1 / (1 + Math.exp(-x2)));\n }\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n setPackedSplatRgba(\n packedArray,\n i2,\n rLookup[sh0[i4 + 0]],\n gLookup[sh0[i4 + 1]],\n bLookup[sh0[i4 + 2]],\n aLookup[sh0[i4 + 3]],\n splatEncoding\n );\n }\n }\n );\n const promises = [meansPromise, scalesPromise, quatsPromise, sh0Promise];\n if (json.shN) {\n const useSH3 = isVersion2 ? json.shN.bands >= 3 : json.shN.shape[1] >= 48 - 3;\n const useSH2 = isVersion2 ? json.shN.bands >= 2 : json.shN.shape[1] >= 27 - 3;\n const useSH1 = isVersion2 ? json.shN.bands >= 1 : json.shN.shape[1] >= 12 - 3;\n if (useSH1) extra.sh1 = new Uint32Array(numSplats * 2);\n if (useSH2) extra.sh2 = new Uint32Array(numSplats * 4);\n if (useSH3) extra.sh3 = new Uint32Array(numSplats * 4);\n const sh1 = new Float32Array(9);\n const sh2 = new Float32Array(15);\n const sh3 = new Float32Array(21);\n const shN = json.shN;\n const shNPromise = Promise.all([\n decodeImage(extraFiles[json.shN.files[0]]),\n decodeImage(extraFiles[json.shN.files[1]])\n ]).then(([centroids, labels]) => {\n const lookup = "codebook" in shN ? shN.codebook : new Array(256).fill(0).map((_, i2) => shN.mins + (shN.maxs - shN.mins) * (i2 / 255));\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n const label = labels.rgba[i4 + 0] + (labels.rgba[i4 + 1] << 8);\n const col = (label & 63) * 15;\n const row = label >>> 6;\n const offset = row * centroids.width + col;\n for (let d = 0; d < 3; ++d) {\n if (useSH1) {\n for (let k = 0; k < 3; ++k) {\n sh1[k * 3 + d] = lookup[centroids.rgba[(offset + k) * 4 + d]];\n }\n }\n if (useSH2) {\n for (let k = 0; k < 5; ++k) {\n sh2[k * 3 + d] = lookup[centroids.rgba[(offset + 3 + k) * 4 + d]];\n }\n }\n if (useSH3) {\n for (let k = 0; k < 7; ++k) {\n sh3[k * 3 + d] = lookup[centroids.rgba[(offset + 8 + k) * 4 + d]];\n }\n }\n }\n if (useSH1)\n encodeSh1Rgb(extra.sh1, i2, sh1, splatEncoding);\n if (useSH2)\n encodeSh2Rgb(extra.sh2, i2, sh2, splatEncoding);\n if (useSH3)\n encodeSh3Rgb(extra.sh3, i2, sh3, splatEncoding);\n }\n });\n promises.push(shNPromise);\n }\n await Promise.all(promises);\n return { packedArray, numSplats, extra };\n }\n let offscreenGlContext = null;\n async function decodeImage(fileBytes) {\n if (!offscreenGlContext) {\n const canvas = new OffscreenCanvas(1, 1);\n offscreenGlContext = canvas.getContext("webgl2");\n if (!offscreenGlContext) {\n throw new Error("Failed to create WebGL2 context");\n }\n }\n const imageBlob = new Blob([fileBytes]);\n const bitmap = await createImageBitmap(imageBlob, {\n premultiplyAlpha: "none"\n });\n const gl = offscreenGlContext;\n const texture = gl.createTexture();\n gl.bindTexture(gl.TEXTURE_2D, texture);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, true);\n gl.texImage2D(gl.TEXTURE_2D, 0, gl.RGBA, gl.RGBA, gl.UNSIGNED_BYTE, bitmap);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST);\n const framebuffer = gl.createFramebuffer();\n gl.bindFramebuffer(gl.FRAMEBUFFER, framebuffer);\n gl.framebufferTexture2D(\n gl.FRAMEBUFFER,\n gl.COLOR_ATTACHMENT0,\n gl.TEXTURE_2D,\n texture,\n 0\n );\n const data = new Uint8Array(bitmap.width * bitmap.height * 4);\n gl.readPixels(\n 0,\n 0,\n bitmap.width,\n bitmap.height,\n gl.RGBA,\n gl.UNSIGNED_BYTE,\n data\n );\n gl.deleteTexture(texture);\n gl.deleteFramebuffer(framebuffer);\n return { rgba: data, width: bitmap.width, height: bitmap.height };\n }\n async function decodeImageRgba(fileBytes) {\n const { rgba } = await decodeImage(fileBytes);\n return rgba;\n }\n async function unpackPcSogsZip(fileBytes, splatEncoding) {\n var _a2;\n const nameJson = tryPcSogsZip(fileBytes);\n if (!nameJson) {\n throw new Error("Invalid PC SOGS zip file");\n }\n const { name, json } = nameJson;\n const lastSlash = name.lastIndexOf("/");\n const lastBackslash = name.lastIndexOf("\\\\");\n const prefix = name.slice(0, Math.max(lastSlash, lastBackslash) + 1);\n const fileMap = /* @__PURE__ */ new Map();\n const refFiles = [\n ...json.means.files,\n ...json.scales.files,\n ...json.quats.files,\n ...json.sh0.files,\n ...((_a2 = json.shN) == null ? void 0 : _a2.files) ?? []\n ];\n for (const file of refFiles) {\n fileMap.set(prefix + file, file);\n }\n const unzipped = await new Promise(\n (resolve, reject) => {\n unzip(\n fileBytes,\n {\n filter: ({ name: name2 }) => {\n return fileMap.has(name2);\n }\n },\n (err2, files) => {\n if (err2) {\n reject(err2);\n } else {\n resolve(files);\n }\n }\n );\n }\n );\n const extraFiles = {};\n for (const [full, name2] of fileMap.entries()) {\n extraFiles[name2] = unzipped[full];\n }\n return await unpackPcSogs(json, extraFiles, splatEncoding);\n }\n async function onMessage(event) {\n const { name, args, id } = event.data;\n let result = void 0;\n let error = void 0;\n try {\n switch (name) {\n case "unpackPly": {\n const { packedArray, fileBytes, splatEncoding } = args;\n const decoded = await unpackPly({\n packedArray,\n fileBytes,\n splatEncoding\n });\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodeSpz": {\n const { fileBytes, splatEncoding } = args;\n const decoded = await unpackSpz(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodeAntiSplat": {\n const { fileBytes, splatEncoding } = args;\n const decoded = unpackAntiSplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray\n };\n break;\n }\n case "decodeKsplat": {\n const { fileBytes, splatEncoding } = args;\n const decoded = unpackKsplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodePcSogs": {\n const { fileBytes, extraFiles, splatEncoding } = args;\n const json = JSON.parse(\n new TextDecoder().decode(fileBytes)\n );\n const decoded = await unpackPcSogs(json, extraFiles, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodePcSogsZip": {\n const { fileBytes, splatEncoding } = args;\n const decoded = await unpackPcSogsZip(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "sortSplats": {\n const { totalSplats, readback, ordering } = args;\n result = {\n id,\n readback,\n ...sortSplats({ totalSplats, readback, ordering })\n };\n break;\n }\n case "sortDoubleSplats": {\n const { numSplats, readback, ordering } = args;\n {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort_splats(numSplats, readback, ordering)\n };\n }\n break;\n }\n case "sort32Splats": {\n const { numSplats, readback, ordering } = args;\n {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort32_splats(numSplats, readback, ordering)\n };\n }\n break;\n }\n case "transcodeSpz": {\n const input = args;\n const spzBytes = await transcodeSpz(input);\n result = {\n id,\n fileBytes: spzBytes,\n input\n };\n break;\n }\n default: {\n throw new Error(`Unknown name: ${name}`);\n }\n }\n } catch (e) {\n error = e;\n console.error(error);\n }\n self.postMessage(\n { id, result, error },\n { transfer: getTransferable(result) }\n );\n }\n async function unpackPly({\n packedArray,\n fileBytes,\n splatEncoding\n }) {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n const extra = {};\n ply.parseSplats(\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n setPackedSplat(\n packedArray,\n index,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding\n );\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3, index, sh3, splatEncoding);\n }\n }\n );\n return { packedArray, numSplats, extra };\n }\n async function unpackSpz(fileBytes, splatEncoding) {\n const spz = new SpzReader({ fileBytes });\n await spz.parseHeader();\n const numSplats = spz.numSplats;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra = {};\n let extraCallbacks = {};\n if (spz.flagLod) {\n const childCounts = new Uint16Array(numSplats);\n const childStarts = new Uint32Array(numSplats);\n extra.childCounts = childCounts;\n extra.childStarts = childStarts;\n extraCallbacks = {\n childCounts: (index, count) => {\n childCounts[index] = count;\n },\n childStarts: (index, start) => {\n childStarts[index] = start;\n }\n };\n }\n await spz.parseSplats(\n (index, x2, y, z) => {\n setPackedSplatCenter(packedArray, index, x2, y, z);\n },\n (index, alpha) => {\n setPackedSplatOpacity(packedArray, index, alpha);\n },\n (index, r, g, b) => {\n setPackedSplatRgb(packedArray, index, r, g, b, splatEncoding);\n },\n (index, scaleX, scaleY, scaleZ) => {\n setPackedSplatScales(\n packedArray,\n index,\n scaleX,\n scaleY,\n scaleZ,\n splatEncoding\n );\n },\n (index, quatX, quatY, quatZ, quatW) => {\n setPackedSplatQuat(packedArray, index, quatX, quatY, quatZ, quatW);\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3, index, sh3, splatEncoding);\n }\n },\n extraCallbacks\n );\n return { packedArray, numSplats, extra };\n }\n const DEPTH_INFINITY_F16 = 31744;\n const DEPTH_SIZE_16 = DEPTH_INFINITY_F16 + 1;\n let depthArray16 = null;\n function sortSplats({\n totalSplats,\n readback,\n ordering\n }) {\n if (!depthArray16) {\n depthArray16 = new Uint32Array(DEPTH_SIZE_16);\n }\n depthArray16.fill(0);\n const readbackUint32 = readback.map((layer) => new Uint32Array(layer.buffer));\n const layerSize = readbackUint32[0].length;\n const numLayers = Math.ceil(totalSplats / layerSize);\n let layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i2 = 0; i2 < layerSplats; ++i2) {\n const pri = readbackLayer[i2] & 32767;\n if (pri < DEPTH_INFINITY_F16) {\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n let activeSplats = 0;\n for (let j = 0; j < DEPTH_SIZE_16; ++j) {\n const nextIndex = activeSplats + depthArray16[j];\n depthArray16[j] = activeSplats;\n activeSplats = nextIndex;\n }\n layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i2 = 0; i2 < layerSplats; ++i2) {\n const pri = readbackLayer[i2] & 32767;\n if (pri < DEPTH_INFINITY_F16) {\n ordering[depthArray16[pri]] = layerBase + i2;\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n if (depthArray16[DEPTH_SIZE_16 - 1] !== activeSplats) {\n throw new Error(\n `Expected ${activeSplats} active splats but got ${depthArray16[DEPTH_SIZE_16 - 1]}`\n );\n }\n return { activeSplats, ordering };\n }\n const messageBuffer = [];\n function bufferMessage(event) {\n messageBuffer.push(event);\n }\n async function initialize() {\n self.addEventListener("message", bufferMessage);\n await __wbg_init();\n self.removeEventListener("message", bufferMessage);\n self.addEventListener("message", onMessage);\n for (const event of messageBuffer) {\n onMessage(event);\n }\n messageBuffer.length = 0;\n }\n initialize().catch(console.error);\n})();\n//# sourceMappingURL=oldWorker-Ga0lx4u7.js.map\n'; const blob$1 = typeof self !== "undefined" && self.Blob && new Blob([jsContent$1], { type: "text/javascript;charset=utf-8" }); function WorkerWrapper$1(options) { let objURL; @@ -2561,7 +2561,7 @@ class FullScreenQuad { this._mesh.material = value; } } -const jsContent = '(function() {\n "use strict";\n class ChunkDecoder {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(ChunkDecoder.prototype);\n obj.__wbg_ptr = ptr;\n ChunkDecoderFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n ChunkDecoderFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_chunkdecoder_free(ptr, 0);\n }\n /**\n * @returns {any}\n */\n finish() {\n const ptr = this.__destroy_into_raw();\n const ret = wasm.chunkdecoder_finish(ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {Uint8Array} bytes\n */\n push(bytes) {\n const ret = wasm.chunkdecoder_push(this.__wbg_ptr, bytes);\n if (ret[1]) {\n throw takeFromExternrefTable0(ret[0]);\n }\n }\n }\n if (Symbol.dispose) ChunkDecoder.prototype[Symbol.dispose] = ChunkDecoder.prototype.free;\n class CsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(CsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n CsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n CsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_csplatarray_free(ptr, 0);\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.csplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.csplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.csplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.csplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.csplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.csplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.csplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats() {\n const ret = wasm.csplatarray_to_packedsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats_lod() {\n const ret = wasm.csplatarray_to_packedsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_csplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_csplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_csplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_csplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n }\n if (Symbol.dispose) CsplatArray.prototype[Symbol.dispose] = CsplatArray.prototype.free;\n class GsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(GsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n GsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n GsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_gsplatarray_free(ptr, 0);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_gsplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_gsplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.gsplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.gsplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.gsplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.gsplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.gsplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.gsplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.gsplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats_lod(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats_lod(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_gsplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_gsplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n }\n if (Symbol.dispose) GsplatArray.prototype[Symbol.dispose] = GsplatArray.prototype.free;\n function bhatt_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, rgba) {\n const ret = wasm.bhatt_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function bhatt_lod_packedsplats(num_splats, packed, extra, lod_base, rgba, encoding) {\n const ret = wasm.bhatt_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function decode_to_csplatarray(file_type, path_name, encoding) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_csplatarray(ptr0, len0, ptr1, len1, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function decode_to_extsplats(file_type, path_name, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_extsplats(ptr0, len0, ptr1, len1, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function decode_to_gsplatarray(file_type, path_name) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_gsplatarray(ptr0, len0, ptr1, len1);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function decode_to_packedsplats(file_type, path_name, encoding, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_packedsplats(ptr0, len0, ptr1, len1, encoding, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function dispose_lod_tree(lod_id) {\n wasm.dispose_lod_tree(lod_id);\n }\n function get_lod_tree_level(lod_id, level) {\n const ret = wasm.get_lod_tree_level(lod_id, level);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function init_lod_tree(num_splats, lod_tree) {\n const ret = wasm.init_lod_tree(num_splats, lod_tree);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function new_lod_tree(capacity) {\n const ret = wasm.new_lod_tree(capacity);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function new_shared_lod_tree(orig_lod_id) {\n const ret = wasm.new_shared_lod_tree(orig_lod_id);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function sort32_splats(num_splats, readback, ordering) {\n const ret = wasm.sort32_splats(num_splats, readback, ordering);\n return ret >>> 0;\n }\n function sort_splats(num_splats, readback, ordering) {\n const ret = wasm.sort_splats(num_splats, readback, ordering);\n return ret >>> 0;\n }\n function tiny_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, merge_filter, rgba) {\n const ret = wasm.tiny_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function tiny_lod_packedsplats(num_splats, packed, extra, lod_base, merge_filter, rgba, encoding) {\n const ret = wasm.tiny_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function traverse_lod_trees(max_splats, pixel_scale_limit, _last_pixel_limit, lod_ids, root_pages, view_to_objects, lod_scales, behind_foveates, cone_foveates, cone_fov0s, cone_fovs) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(root_pages, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArrayF32ToWasm0(view_to_objects, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArrayF32ToWasm0(lod_scales, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ptr4 = passArrayF32ToWasm0(behind_foveates, wasm.__wbindgen_malloc);\n const len4 = WASM_VECTOR_LEN;\n const ptr5 = passArrayF32ToWasm0(cone_foveates, wasm.__wbindgen_malloc);\n const len5 = WASM_VECTOR_LEN;\n const ptr6 = passArrayF32ToWasm0(cone_fov0s, wasm.__wbindgen_malloc);\n const len6 = WASM_VECTOR_LEN;\n const ptr7 = passArrayF32ToWasm0(cone_fovs, wasm.__wbindgen_malloc);\n const len7 = WASM_VECTOR_LEN;\n const ret = wasm.traverse_lod_trees(max_splats, pixel_scale_limit, isLikeNone(_last_pixel_limit) ? 4294967297 : Math.fround(_last_pixel_limit), ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, ptr4, len4, ptr5, len5, ptr6, len6, ptr7, len7);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function update_lod_trees(lod_ids, page_bases, chunk_bases, counts, lod_trees) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(page_bases, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArray32ToWasm0(chunk_bases, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArray32ToWasm0(counts, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ret = wasm.update_lod_trees(ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, lod_trees);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_boolean_get_a86c216575a75c30: function(arg0) {\n const v = arg0;\n const ret = typeof v === "boolean" ? v : void 0;\n return isLikeNone(ret) ? 16777215 : ret ? 1 : 0;\n },\n __wbg___wbindgen_debug_string_dd5d2d07ce9e6c57: function(arg0, arg1) {\n const ret = debugString(arg1);\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_in_4bd7a57e54337366: function(arg0, arg1) {\n const ret = arg0 in arg1;\n return ret;\n },\n __wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof val === "object" && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === void 0;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "number" ? obj : void 0;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "string" ? obj : void 0;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() {\n return handleError(function(arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments);\n },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() {\n return handleError(function(arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments);\n },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, void 0);\n table.set(offset + 0, void 0);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n }\n };\n return {\n __proto__: null,\n "./spark_worker_rs_bg.js": import0\n };\n }\n const ChunkDecoderFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\n const CsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\n const GsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n function addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n }\n function debugString(val) {\n const type = typeof val;\n if (type == "number" || type == "boolean" || val == null) {\n return `${val}`;\n }\n if (type == "string") {\n return `"${val}"`;\n }\n if (type == "symbol") {\n const description = val.description;\n if (description == null) {\n return "Symbol";\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == "function") {\n const name = val.name;\n if (typeof name == "string" && name.length > 0) {\n return `Function(${name})`;\n } else {\n return "Function";\n }\n }\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = "[";\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for (let i = 1; i < length; i++) {\n debug += ", " + debugString(val[i]);\n }\n debug += "]";\n return debug;\n }\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n return toString.call(val);\n }\n if (className == "Object") {\n try {\n return "Object(" + JSON.stringify(val) + ")";\n } catch (_) {\n return "Object";\n }\n }\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\n${val.stack}`;\n }\n return className;\n }\n function getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n }\n function getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n }\n function getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n }\n let cachedDataViewMemory0 = null;\n function getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || cachedDataViewMemory0.buffer.detached === void 0 && cachedDataViewMemory0.buffer !== wasm.memory.buffer) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n }\n let cachedFloat32ArrayMemory0 = null;\n function getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n }\n function getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n }\n let cachedUint16ArrayMemory0 = null;\n function getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n }\n let cachedUint32ArrayMemory0 = null;\n function getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n }\n let cachedUint8ArrayMemory0 = null;\n function getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n }\n function handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n }\n function isLikeNone(x) {\n return x === void 0 || x === null;\n }\n function passArray32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getUint32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n }\n function passArrayF32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getFloat32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n }\n function passStringToWasm0(arg, malloc, realloc) {\n if (realloc === void 0) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr2 = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr2, ptr2 + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr2;\n }\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n const mem = getUint8ArrayMemory0();\n let offset = 0;\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 127) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n WASM_VECTOR_LEN = offset;\n return ptr;\n }\n function takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n }\n let cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n const MAX_SAFARI_DECODE_BYTES = 2146435072;\n let numBytesDecoded = 0;\n function decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n }\n const cachedTextEncoder = new TextEncoder();\n if (!("encodeInto" in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function(arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n }\n let WASM_VECTOR_LEN = 0;\n let wasm;\n function __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n }\n async function __wbg_load(module, imports) {\n if (typeof Response === "function" && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === "function") {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n if (validResponse && module.headers.get("Content-Type") !== "application/wasm") {\n console.warn("`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n", e);\n } else {\n throw e;\n }\n }\n }\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n function expectedResponseType(type) {\n switch (type) {\n case "basic":\n case "cors":\n case "default":\n return true;\n }\n return false;\n }\n }\n async function __wbg_init(module_or_path) {\n if (wasm !== void 0) return wasm;\n if (module_or_path !== void 0) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({ module_or_path } = module_or_path);\n } else {\n console.warn("using deprecated parameters for the initialization function; pass a single object instead");\n }\n }\n if (module_or_path === void 0) {\n module_or_path = new 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0GIBMQogIgIygCACICQXhxQYSAMEGIgDAgAkEDcSIDG0kNBSADQQAgAkGogDBPGw0GIBIQogIgIigCACICQXhxQYSAEEGIgBAgAkEDcSIDG0kNBSADQQAgAkGogBBPGw0GIAsQogIgISgCACICQXhxQYSAMEGIgDAgAkEDcSIDG0kNBSADQQAgAkGogDBPGw0GIBEQogIgFkUNBEGAgJABEHEiAkUNAyACQQRrIg4oAgAiA0EDcSIFBEAgAkEAQYCAkAH8CwALIAdFDQIgASgCICELIAEoAhwhD0EAIQkDQEGAgAQgByAJayIDIANBgIAETxshCiAHIAlHBEAgDyAJQQlsaiEFQQAhCCACIQMDQCALIAggCWoiDE0EQCAMIAtB/LvHABCMBwALIAVBBGr9XAAAISwgBf1cAAAhLSADQSBqIAVBCGosAACyQwAA/kKVOAIAIAMgLf2HAf2nAf36Af0MAAD+QgAA/kIAAP5CAAD+Qv3nAf0LAgAgA0EQaiAs/YcB/acB/foB/QwAAP5CAAD+QgAA/kIAAP5C/ecB/QsCACADQSRqIQMgBUEJaiEFIAhBAWoiCCAKSQ0ACwsgBEEMaiAJIAogAkGAgCQQ5gEgByAJIApqIglLDQALDAELDAQLIA4oAgAiA0EDcSEFCwJAAkAgA0F4cUGEgJABQYiAkAEgBRtPBEAgBUEAIANBqICQAU8bDQYgAhCiAiAWQQFGDQRBgIDwARBxIgJFDQMgAkEEayIOKAIAIgNBA3EiBQRAIAJBAEGAgPAB/AsACyAHRQ0CIAEoAiwhCyABKAIoIQ9BACEKA0BBgIAEIAcgCmsiAyADQYCABE8bIQkgByAKRwRAIA8gCkEPbGohBUEAIQggAiEDA0AgCyAIIApqIgxNBEAgDCALQYy8xwAQjAcACyAFQQRq/VwAACEsIAVBCGr9XAAAIS0gBUEMaiwAACEMIAVBDWosAAAhFCAF/VwAACEuIANBOGogBUEOaiwAALJDAAD+QpU4AgAgA0E0aiAUskMAAP5ClTgCACADQTBqIAyyQwAA/kKVOAIAIAMgLv2HAf2nAf36Af0MAAD+QgAA/kIAAP5CAAD+Qv3nAf0LAgAgA0EgaiAt/YcB/acB/foB/QwAAP5CAAD+QgAA/kIAAP5C/ecB/QsCACADQRBqICz9hwH9pwH9+gH9DAAA/kIAAP5CAAD+QgAA/kL95wH9CwIAIANBPGohAyAFQQ9qIQUgCEEBaiIIIAlJDQALCyAEQQxqIAogCSACQYCAPBCnASAHIAkgCmoiCksNAAsMAQsMBAsgDigCACIDQQNxIQULAkAgA0F4cUGEgPABQYiA8AEgBRtPBEAgBUEAIANBqIDwAU8bDQUgAhCiAiAWQQJNDQNBgIDQAhBxIgJFDQIgAkEEayIJKAIAIgNBA3EiBQRAIAJBAEGAgNAC/AsACyAHBEAgASgCOCEKIAEoAjQhC0EAIQgDQEGAgAQgByAIayIBIAFBgIAETxshASAHIAhHBEBBACEDIAIhBQNAIARB0AFqIAsgCiADIAhqELoGIAUgBP0ABNAB/QsCACAFQRBqIAT9AATgAf0LAgAgBUEgaiAE/QAE8AH9CwIAIAVBMGogBP0ABIAC/QsCACAFQUBrIAT9AASQAv0LAgAgBUHQAGogBCoCoAI4AgAgBUHUAGohBSADQQFqIgMgAUkNAAsLIARBDGogCCABIAJBgIDUABCUASABIAhqIgggB0kNAAsgCSgCACIDQQNxIQULIANBeHFBhIDQAkGIgNACIAUbSQ0EIAVBACADQaiA0AJPGw0BIAIQogIMAwsMAwsMAwsACwJAIARBDGoiARDUASICBEAgAEECNgIAIAAgAjYCBCABEIoCDAELIAAgBEEMakHEAfwKAAALIARBsAJqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAu+HQIQfwR+IwBB4AFrIgIkACABKAIMIQYCQAJAAkACQAJAAkACfwJAAkACQCABKAIUIgQgASgCECIDSQRAA0AgBCAGai0AACIIQQlrIgVBF0tBASAFdEGTgIAEcUVyDQIgASAEQQFqIgQ2AhQgAyAERw0ACyADIQQLIAJBCGogBiADIARBAWoiASADIAEgA0kbEPkBIAIoAgwhAyACKAIIIQFBFBBxIgVFDQEgBSABNgIMIAVBBTYCACAAIAU2AgQgAEGAgICAeDYCACAFIAM2AhAMBwsCQAJAAkACQCAIQdsARgRAIAEgAS0AGEEBayIFOgAYIARBAWohBCAFQf8BcUUNBCABIAQ2AhQgAkEBOgA4IAIgATYCNCACQQA2AkQgAkKAgICAgAE3AjwgAkHIAWohECACQaABaiEPIAJB4ABqIRFBCCEJA0AgAkGYAWogAkE0ahCfAyACLQCYAUEBRgRAIAIoApwBIQkMCAsCQAJAIAItAJkBQQFGBEAgAigCNCIHKAIMIQYCQCAHKAIUIgQgBygCECIDSQRAA0AgBCAGai0AACIIQQlrIgVBF0tBASAFdEGTgIAEcUVyDQIgByAEQQFqIgQ2AhQgAyAERw0ACyADIQQLIAJBKGogBiADIARBAWoiBSADIAMgBUsbEPkBIAIoAiwhBSACKAIoIQNBFBBxIglFDQogCSADNgIMIAlBBTYCACAJIAU2AhAMCwsCQAJAIAhB2wBHBEAgCEH7AEYNASAHIAJB3wFqQfjAwQAQ7gEhBQwKCyAHIActABhBAWsiBToAGCAEQQFqIQQgBUH/AXFFDQcgByAENgIUIAIgBzYC1AEgAkEBOgDYASACQZgBaiACQdQBahCfAwJAAn8gAi0AmAFBAUYEQCACKAKcAQwBCwJAAkACQAJAAkACQAJAIAItAJkBQQFGBEAgAkGYAWogAigC1AEQuwMgAigCmAFBAUYEQCACKAKcAQwJCyACKQOgASESIAJBmAFqIAJB1AFqEJ8DIAItAJgBQQFGBEAgAigCnAEMCQsgAi0AmQFBAUcNAiACQZgBaiACKALUARC7AyACKAKYAUEBRw0BIAIoApwBDAgLQQBBgILBAEGA/cAAENsGDAcLIAIpA6ABIRMgAkGYAWogAkHUAWoQnwMgAi0AmAFBAUYEQCACKAKcAQwHCyACLQCZAUEBRw0CIAJBmAFqIAIoAtQBEKUCIAIoApgBIgRBAkcNASACKAKcAQwGC0EBQYCCwQBBgP3AABDbBgwFCyACKAKcASEFIAJBmAFqIAJB1AFqEJ8DIAItAJgBQQFGBEAgAigCnAEMBQsgAi0AmQFBAUcNAiACQZgBaiACKALUARClAiACKAKYASIKQQJHDQEgAigCnAEMBAtBAkGAgsEAQYD9wAAQ2wYMAwsgAigCnAEhCyACQZgBaiACQdQBahCfAyACLQCYAUEBRgRAIAIoApwBDAMLIAItAJkBQQFHDQEgAkGYAWogAigC1AEQ3AIgAigCnAEiAyACKAKYASIGQYGAgIB4Rg0CGiACKAKgASEOIAMhCCAFIQMMAwtBA0GAgsEAQYD9wAAQ2wYMAQtBBEGAgsEAQYD9wAAQ2wYLIQNBAiEECyAHIActABhBAWo6ABggAiAHELoDIgU2AsgBIAIgDjYCwAEgAiAINgK8ASACIAY2ArgBIAIgEzcDsAEgAiASNwOoASACIAs2AqQBIAIgCjYCoAEgAiADNgKcASACIAQ2ApgBAkAgBEECRwRAIAUNASACQZABaiAPQSBqKQMANwMAIAJBgAFqIA9BEGr9AAMA/QsDACACIA/9AAMA/QsDcCADIQUMBgtBAiEEIAUEQCAQELEECyADIQUMBQtBAiEEIAZBgICAgHhyQYCAgIB4Rg0EIAhBBGsoAgAiA0F4cSIKQQRBCCADQQNxIgMbIAZqSQ0BIANBACAKIAZBJ2pLGw0TIAgQogIMBAsgByAHLQAYQQFrIgU6ABggBEEBaiEEIAVB/wFxRQ0CIAcgBDYCFCACQQE6ANgBIAIgBzYC1AFCACEUQQIhDkGBgICAeCEFQQIhC0IAIRUCQANAAkAgAkGYAWogAkHUAWoQ0QIgAi0AmAFBAUYEQCACKAKcASEDDAELAkAgAi0AmQFBAUYEQCACKALUASIEQQA2AgggBCAEKAIUQQFqNgIUIAJBmAFqIARBDGogBBCCAiACKAKcASEDIAIoApgBQQJGDQICQAJAAkACQAJAAkACQAJAAkAgAigCoAFBBGsOBQIAAQoDCgsgA0G1mMgAQQUQ2wdFDQQgA0Gr/MAAQQUQ2wcNCSAOQQJGDQZBq/zAAEEFEJ8HIQMMCgsgA0HMgcEAQQYQ2wdFDQIMCAsgAygAAEHiws2rBkcNByALQQJGDQNB9IDBAEEEEJ8HIQMMCAsgAykAAELm0rGr5q3YtuUAUg0GIAVBgYCAgHhGDQRBAiEEQdKBwQBBCBCfByEDIAVBgICAgHhyQYCAgIB4Rg0JIAYgBUEBEKIHDAkLIBVQRQRAQcyBwQBBBhCfByEDDAcLIAJBmAFqIAQQqwUgAigCmAFBAUYEQCACKAKcASEDDAcLIAIpA6ABIRNCASEVDAcLIBRQRQRAQbWYyABBBRCfByEDDAYLIAJBmAFqIAQQqwUgAigCmAFBAUYEQCACKAKcASEDDAYLIAIpA6ABIRJCASEUDAYLIAJBmAFqIAQQrgUgAigCnAEhDSACKAKYASILQQJHDQUgDSEDDAQLIAJBmAFqIAQQrgUgAigCnAEhCiACKAKYASIOQQJHDQQgCiEDDAMLIAJBmAFqIAQQrQUgAigCoAEhCCACKAKcASEGIAIoApgBIgVBgYCAgHhHDQNBAiEEIAYhAwwECyAVUARAQcyBwQBBBhCcByEDDAILIBRQBEBBtZjIAEEFEJwHIQMMAgsgC0EAIAtBAkcbIQRBgICAgHggBSAFQYGAgIB4RhshCyAOQQAgDkECRxshDiANIQMMAwsgBBCgASIDRQ0BCwtBAiEEIAVFIAVBgoCAgHhIcg0AIAZBBGsoAgAiCEF4cSIKQQRBCCAIQQNxIggbIAVqSQ0SIAhBACAKIAVBJ2pLGw0TIAYQogILIAcgBy0AGEEBajoAGCACIAcQ4gQiBTYCyAEgAiAINgLAASACIAY2ArwBIAIgCzYCuAEgAiASNwOwASACIBM3A6gBIAIgCjYCpAEgAiAONgKgASACIAM2ApwBIAIgBDYCmAECQAJAAkAgBEECRwRAIAUNASACQZABaiAPQSBqKQMANwMAIAJBgAFqIA9BEGr9AAMA/QsDACACIA/9AAMA/QsDcCADIQUMBwtBAiEEIAUNASADIQUMBgtBAiEEIAtBgICAgHhyQYCAgIB4Rg0FIAZBBGsoAgAiA0F4cSIIQQRBCCADQQNxIgMbIAtqSQ0TIANBACAIIAtBJ2pLGw0BIAYQogIMBQsgEBCxBCADIQUMBAsMEgsMEAsgAigCPCEIDAsLIAJBIGogBiADIAQgAyADIARLGxD5ASACKAIkIQQgAigCICEDQRQQcSIJDQQMBwsgBEECRg0EIAJB6ABqIAJBkAFqKQMANwMAIAJB2ABqIAJBgAFq/QADAP0LAwAgAiAC/QADcP0LA0ggAigCPCAMRgRAIwBBIGsiByQAAkAgAkE8aiIJKAIAIgZB1arVCksEf0EABUEEIAZBAXQiAyADQQRNGyIIQTBsIQMgByAGBH8gByAGQTBsNgIcIAcgCSgCBDYCFEEIBUEACzYCGCAHQQhqQQggAyAHQRRqEIUHIAcoAghBAUcNASAHKAIQIQkgBygCDAsgCUHUgsEAEJMJAAsgBygCDCEDIAkgCDYCACAJIAM2AgQgB0EgaiQAIAIoAkAhCQsgCSAMQTBsaiIDIAU2AgQgAyAENgIAIAMgAikDSDcCCCADQRBqIAJB0ABq/QADAP0LAgAgA0EgaiAR/QADAP0LAgAgAiAMQQFqIgw2AkQMAAsACyABIAJB3wFqQfi/wQAQ7gEhCQwICyACQRhqIAYgAyAEIAMgAyAESxsQ+QEgAigCHCEEIAIoAhghA0EUEHEiCUUNAwsgCSADNgIMIAlBGDYCACAJIAQ2AhAMAwsgBSAHEOsFIQkgAigCRAwDCyACQRBqIAYgAyAEIAMgAyAESxsQ+QEgAigCFCEDIAIoAhAhAUEUEHEiBUUNACAFIAE2AgwgBUEYNgIAIAAgBTYCBCAAQYCAgIB4NgIAIAUgAzYCEAwGCwALIAwLIQMgAigCQCEGIAMEQCAGQSRqIQQDQCAEQQRrKAIAIghBgICAgHhyQYCAgIB4RwRAIAQoAgAiCkEEaygCACIFQXhxIg1BBEEIIAVBA3EiBRsgCGpJDQcgBUEAIA0gCEEnaksbDQggChCiAgsgBEEwaiEEIANBAWsiAw0ACwtBgICAgHghCCACKAI8IgVFDQAgBkEEaygCACIDQXhxIg0gBUEwbCIFQQRBCCADQQNxIgMbckkNBCADQQAgDSAFQSdqSxsNBSAGEKICCyABIAEtABhBAWo6ABggAiABELoDIgM2AqQBIAIgDDYCoAEgAiAJNgKcASACIAg2ApgBIAhBgICAgHhHBEAgA0UNAiAMBEAgCUEkaiEEA0AgBEEEaygCACIGQYCAgIB4ckGAgICAeEcEQCAEKAIAIgpBBGsoAgAiBUF4cSINQQRBCCAFQQNxIgUbIAZqSQ0HIAVBACANIAZBJ2pLGw0IIAoQogILIARBMGohBCAMQQFrIgwNAAsLIAgEQCAJQQRrKAIAIgVBeHEiBCAIQTBsIg1BBEEIIAVBA3EiBRtySQ0FIAVBACAEIA1BJ2pLGw0GIAkQogILIAMhCQwBCyADRQ0AIAJBpAFqELEECyAJIAEQ6wUhASAAQYCAgIB4NgIAIAAgATYCBAwBCyAAIAw2AgggACAJNgIEIAAgCDYCAAsgAkHgAWokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC8EZAhh/AXsjAEHgCmsiCyQAIAtBOGoiDf0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgC0EoaiIQICP9CwMAIAtBGGoiFCAj/QsDACALICP9CwMIAn8CQCABRQ0AIAtBxABqIQ8gASEOIAAhDAJAA0AgDC0AACITQRBJBEAgC0EIaiATQQJ0aiITIBMoAgBBAWo2AgAgDEEBaiEMIA5BAWsiDg0BDAILCyATQRBBwLTEABCMBwALQQEhDkEAIQxBDyALKAJEDQEaIAsoAkBFDQAgC0FAayEPQQ4MAQtBASEOIAsoAjwEQCALQTxqIQ9BDQwBCyALKAI4BEAgDSEPQQwMAQsgCygCNARAIAtBNGohD0ELDAELIAsoAjAEQCALQTBqIQ9BCgwBCyALKAIsBEAgC0EsaiEPQQkMAQsgCygCKARAIBAhD0EIDAELIAsoAiQEQCALQSRqIQ9BBwwBCyALKAIgBEAgC0EgaiEPQQYMAQsgCygCHARAIAtBHGohD0EFDAELIAsoAhgEQCAUIQ9BBAwBCyALKAIUBEAgC0EUaiEPQQMMAQsgCygCEARAIAtBEGohD0ECDAELIAtBCGpBBHIhD0EBIQxBACEOQQELIRYCfwJAIAlFDQAgDCALKAIMQQFGcUUNAAJAIAEEQEEAIQwDQCAAIAxqLQAAQQFGDQIgASAMQQFqIgxHDQALC0HQscQAEN0JAAsgBSAMSwRAIAQgDEEBdGpBADsBACADIAxLIgAEfyACIAxBAnRqKAIABSAOCyAMQRB0IAAbQQFyIQACQANAIAYgADYCACAHQQFGDQEgBkEANgIEIAZBAiAHIAdBAk8bIgFBAnRqIQYgByABayIHDQALQQEMAwtBAUEBQfCxxAAQjAcACyAMIAVB4LHEABCMBwALIAtB+ABqICP9CwMAIAtB6ABqICP9CwMAIAtB2ABqICP9CwMAIAsgI/0LA0ggCyALKAIIIhE2AkxBACEMAkAgDgR/IAsgESALKAIMIgxqIg02AlACQCAWQQFqIg5BA0YNACALIA0gCygCECIJaiINNgJUIAkgDEEBdGohDCAOQQRGDQAgCyANIAsoAhQiCWoiDTYCWCAJIAxBAXRqIQwgDkEFRg0AIAsgDSALKAIYIglqIg02AlwgCSAMQQF0aiEMIA5BBkYNACALIA0gCygCHCIJaiINNgJgIAkgDEEBdGohDCAOQQdGDQAgCyANIAsoAiAiCWoiDTYCZCAJIAxBAXRqIQwgDkEIRg0AIAsgDSALKAIkIglqIg02AmggCSAMQQF0aiEMIA5BCUYNACALIA0gCygCKCIJaiINNgJsIAkgDEEBdGohDCAOQQpGDQAgCyANIAsoAiwiCWoiDTYCcCAJIAxBAXRqIQwgDkELRg0AIAsgDSALKAIwIglqIg02AnQgCSAMQQF0aiEMIA5BDEYNACALIA0gCygCNCIJaiINNgJ4IAkgDEEBdGohDCAOQQ1GDQAgCyANIAsoAjgiCWoiDTYCfCAJIAxBAXRqIQwgDkEORg0AIAsgDSALKAI8IglqIg02AoABIAkgDEEBdGohDCAOQQ9GDQAgCyANIAsoAkAiDmo2AoQBIA4gDEEBdGohDAsgDEEBdAUgDAsgDygCAGoiHUEBIBZ0Ih5HDQAgC0G4AWogC0H4AGr9AAMA/QsDACALQagBaiALQegAav0AAwD9CwMAIAtBmAFqIAtB2ABq/QADAP0LAwAgCyAL/QADSP0LA4gBIAtByAFqQQBBgAn8CwACQAJAIAEEQEEAIQwDQCAAIAxqLQAAIg5BD0sNAiALQYgBaiAOQQJ0aiINKAIAIg5BoAJPDQMgDSAOQQFqNgIAIAtByAFqIA5BAnRqIAw2AgAgASAMQQFqIgxHDQALC0F/IAdnIh9BH3MiF3RBf3MhGkEAIQBBASESA0ACQAJAAkACQAJAIBJBEEkEQEEBIBJ0IRUgC0EIaiASQQJ0aigCACIPBEBBoAIgESARQaACTRshECAVQQFrIQEgC0HIAWogEUECdGohDSAAIQ4DQCAQIBFGDQYgDSgCACIAIANJIhQEQCACIABBAnRqKAIAIQkLIAcgDkH//wNxIgxNDQUgBiAMQQJ0aiAJIABBEHQgFBsgEnI2AgAgACAFTw0EIAQgAEEBdGogDjsBACARQQFqIREgDUEEaiENIAEiAEH//wNxIAxHBEBBASABIA5zQRB0Z0EPc3QiAEEBayAOcSAAciEACyAAIQ4gD0EBayIPDQALCyAKDQEMBQsgEkEQQeCyxAAQjAcACyASQQFrIhlBAkkNAyASQYCEAnIhIEEBIQFBAiEMA0AgASETIAwhAQJAIBNBEEkEQCATQQJ0IgwgC0HIAGoiDmooAgAiDSALQYgBaiAMaigCACIbTw0BIBIgE2siDEEPTQRAIA4gDEECdCIMaigCACIPIAtBiAFqIAxqKAIAIhxPDQIgDSANIBtJaiEMIAtByAFqIA9BAnRqIRQDQCAMIRACQAJAAkACQAJAAkAgDUGgAkkEQCAPIQwgFCEOIAUgC0HIAWogDUECdGooAgAiDU0EQANAIAxBnwJLDQMgDigCACANckGAAkkNBSAOQQRqIQ4gHCAMQQFqIgxHDQAMCAsACyAEIA1BAXRqISEgDUEQdCAgciEiA0AgDEGfAksNAyAOKAIAIhggDXJB/wFNBEAgBSAYTQ0GIAcgIS8BACAEIBhBAXRqLwEAIBN0Qf//A3FyIglNDQcgBiAJQQJ0aiAYQRh0ICJyNgIACyAOQQRqIQ4gDEEBaiIMIBxHDQALDAYLIA1BoAJBoLPEABCMBwALQaACIA8gD0GgAk0bIQwLIAxBoAJBsLPEABCMBwALIA0gBUHAs8QAEIwHAAsgGCAFQdCzxAAQjAcACyAJIAdB4LPEABCMBwALIBAgECAbSSIOaiEMIBAhDSAODQALDAILIAxBEEGQs8QAEIwHAAsgE0EQQYCzxAAQjAcACyABIAEgGUkiDmohDCAODQALDAMLIAAgBUGQtMQAEIwHAAsgDCAHQYC0xAAQjAcACyARQaACQfCzxAAQjAcACwJAIBIgF0kiAUUNAAJAIAcgFU8EQCAVIAcgFWtLDQFBBCASdCIMRQ0CIAYgFUECdGogBiAM/AoAAAwCC0EAIBUgB0HwssQAEOoHAAsgC0EANgLYCiALQQE2AswKIAtB1JzIADYCyAogC0IENwLQCiALQcgKakHwssQAEI0IAAsgEiAXSQRAIAEgEmoiEiAXTQ0BCwsgCEEANgIIIBYgF00NAkEgIB9rIhAgFksNAkEAIQFBACENQQAhAkH//wMhAwNAAkAgC0EIaiAQQQJ0aigCACIJRQ0AQaACIBEgEUGgAk0bIRJBASAQIBdrIgp0IhRBAWsiFUGAwAFyIRhBAiAKQR9xIhl0QQJrIRNBfyAQdEF/cyEKIAtByAFqIBFBAnRqIQ4gACEMAkACQAJAA0ACQCAMIBpxIgBB//8DcSIPIANB//8DcUcEQCAHIA9NDQEgBiAPQQJ0aiANQRB0IBhyNgIAIAgoAgAgDSIBayAUSQRAIAggDSAUQQJBAhCkBSAIKAIIIQELIAgoAgQiAyABQQF0aiEPIBkEfyATBEAgD0EAIBP8CwALIAMgASAUakEBdGpBAmshDyABIBVqBSABCyECIA9BADsBACAIIAJBAWoiATYCCCAAIQMgDSECCyARIBJGDQIgDigCACIAIAVPDQMgBCAAQQF0aiAMOwEAIAIgDEH//wNxIg8gF3ZqIg0gAU8NBCAIKAIEIA1BAXRqIABBBHQgEGo7AQAgEUEBaiERIA5BBGohDiABIQ0gCiIAQf//A3EgD0cEQEEBIAAgDHNBEHRnQQ9zdCIAQQFrIAxxIAByIQALIAAhDCAJQQFrIgkNAQwFCwsgDyAHQaCyxAAQjAcACyARQaACQbCyxAAQjAcACyAAIAVBwLLEABCMBwALIA0gAUHQssQAEIwHAAsCQCAQIBZPIgwNACADQf//A3EiCSAAIBpxQf//A3FHDQAgASACTwRAIAEgAmsiCiAIKAIAIAFrSwRAIAggASAKQQJBAhCkBSAIKAIIIQELIApBAXQiDgRAIAgoAgQiDSABQQF0aiANIAJBAXRqIA78CgAACyAIIAEgCmoiATYCCCAHIAlLBEAgBiAJQQJ0aiABIAJBf3NqIAJBEHRyQYDAAXI2AgAgASENDAILIAkgB0GQssQAEIwHAAsgAiABIAFBgLLEABDqBwALIAwNAyAQIBAgFklqIhAgFk0NAAsMAgsgDkEQQaC0xAAQjAcACyAOQaACQbC0xAAQjAcACyAdIB5GCyALQeAKaiQAC9AjAiZ7E38CQAJAAkACQAJAAkAgAUECSwRAIANFDQEgBUUNAiAHRQ0DIABB/wEgAi0AAEGFlQFsQQh2IjEgBC0AACIvQZqCAmxBCHZqQZWKAWtBBnUiNEEAIDRBAEobIjQgNEH/AU4bOgACIABB/wEgMSAGLQAAIjVBpcwBbEEIdmpBmu8Aa0EGdSI0QQAgNEEAShsiNCA0Qf8BThs6AAAgAEH/ASAxIC9BkzJsQQh2IDVBiOgAbEEIdmprQYTEAGpBBnUiMUEAIDFBAEobIjEgMUH/AU4bOgABIAJBAWohNCADQQFrIgNBfnEhOyAAQQNqITEgA0EBcSE+IAFBA2siASABQQZwIjxrIjlBBkkNBiADQQF2IgMiASA5QQZrIi5BBm4iMiABIDJJGyIBIAdBAWsiMCIyIAEgMkkbIgEgBUEBayIzIjIgASAySRsiAUEQSQ0EIDEgAiADIC5BBm4iLiADIC5JGyIDIDAiLiADIC5JGyIDIDMiLiADIC5JGyIDQQF0akEDakkgNCAAIANBBmxqQQlqIgBJcQ0EIDEgBCADQQJqIgJqSSAAIARLcSAxIAIgBmpJIAAgBktxcg0EIAFBAWoiAEEPcSICQRAgAhsiAiABQX9zaiE2IAcgACACayIwayE6IAYgMGohLiAFIDBrIQMgBCAwaiEyIDQgMEEBdCIAaiECIDsgAGshASAxIDBBBmxqIQAgOSAwQXpsaiE9IC/9DyEZIDX9DyEUIAQhNSAGITAgMSEvIDQhMwNAIC8gM/0AAAAiGiAU/Q0AAgQGAAAAAAAAAAAAAAAA/YkB/akB/QyFSgAAhUoAAIVKAACFSgAAIgz9tQFBCP2tASIkIBQgMEEBav0AAAAiFP0NDxAREhMUFRYXGBkaGxwdHv2JASII/QwJAAkACQAJAAkACQAJAAkAIg39lQEgFP2JASIT/Y4BIBMgCP2OAf0MAwADAAMAAwADAAMAAwADACIO/ZUB/Y4B/QwIAAgACAAIAAgACAAIAAgAIg/9jgFBBP2NASIJ/akBIhH9DCVmAAAlZgAAJWYAACVmAAAiFf21AUEI/a0B/a4B/QxmyP//Zsj//2bI//9myP//Ihb9rgFBBv2sAf0MAAAAAAAAAAAAAAAAAAAAACII/bgB/Qz/AAAA/wAAAP8AAAD/AAAAIgr9tgEgGiAI/Q0ICgwOAAAAAAAAAAAAAAAA/YkB/akBIAz9tQFBCP2tASIlIAn9qgEiCyAV/bUBQQj9rQH9rgEgFv2uAUEG/awBIAj9uAEgCv22Af0NAAQIDBAUGBwAAAAAAAAAACAz/QAAECIhIAj9DQACBAYAAAAAAAAAAAAAAAD9iQH9qQEgDP21AUEI/a0BIiYgFCAI/Q0HCAkKCwwNDgAAAAAAAAAA/YkBIgkgDf2VASAU/YoBIhv9jgEgGyAJ/Y4BIA79lQH9jgEgD/2OAUEE/Y0BIhL9qQEiFyAV/bUBQQj9rQH9rgEgFv2uAUEG/awBIAj9uAEgCv22ASIJ/RsA/RcIIAn9GwH9FwkgCf0bAv0XCiAJ/RsD/RcLICEgCP0NCAoMDgAAAAAAAAAAAAAAAP2JAf2pASAM/bUBQQj9rQEiECAS/aoBIiAgFf21AUEI/a0B/a4BIBb9rgFBBv2sASAI/bgBIAr9tgEiCf0bAP0XDCAJ/RsB/RcNIAn9GwL9Fw4gCf0bA/0XDyIcICQgGSA1QQFq/QAAACIZ/Q0PEBESExQVFhcYGRobHB0e/YkBIgkgDf2VASAZ/YkBIhj9jgEgGCAJ/Y4BIA79lQH9jgEgD/2OAUEE/Y0BIh39qQEiJ/0MExkAABMZAAATGQAAExkAACIJ/bUBQQj9rQEgEf0MCDQAAAg0AAAINAAACDQAACIR/bUBQQj9rQH9rgH9sQH9DAQiAAAEIgAABCIAAAQiAAAiEv2uAUEG/awBIAj9uAEgCv22ASAlIB39qgEiKCAJ/bUBQQj9rQEgCyAR/bUBQQj9rQH9rgH9sQEgEv2uAUEG/awBIAj9uAEgCv22Af0NAAQIDBAUGBwAAAAAAAAAACAmIBkgCP0NBwgJCgsMDQ4AAAAAAAAAAP2JASILIA39lQEgGf2KASId/Y4BIB0gC/2OASAO/ZUB/Y4BIA/9jgFBBP2NASIe/akBIikgCf21AUEI/a0BIBcgEf21AUEI/a0B/a4B/bEBIBL9rgFBBv2sASAI/bgBIAr9tgEiC/0bAP0XCCAL/RsB/RcJIAv9GwL9FwogC/0bA/0XCyAQIB79qgEiHiAJ/bUBQQj9rQEgICAR/bUBQQj9rQH9rgH9sQEgEv2uAUEG/awBIAj9uAEgCv22ASIL/RsA/RcMIAv9GwH9Fw0gC/0bAv0XDiAL/RsD/RcPIhf9DQAAAAAOHgAAAAAPHwAAAAAgECAe/QwagQAAGoEAABqBAAAagQAAIgv9tQFBCP2tAf2uAf0M67r//+u6///ruv//67r//yIQ/a4BQQb9rAEgCP24ASAK/bYBIh4gISAI/Q0JCw0PAAAAAAAAAAAAAAAA/YkB/akBIAz9tQFBCP2tASIgIBsgDf2VASAw/QAAACIf/YoBIiL9jgEgIiAb/Y4BIA79lQH9jgEgD/2OAUEE/Y0BIiL9qgEiKiAV/bUBQQj9rQH9rgEgFv2uAUEG/awBIAj9uAEgCv22ASIr/Q0EFAAAAAAIGAAAAAAMHAAA/Q0QEQAABAUWFwAACgscHQAAIBogCP0NAQMFBwAAAAAAAAAAAAAAAP2JAf2pASAM/bUBQQj9rQEiGyAYIA39lQEgNf0AAAAiLP2JASIj/Y4BICMgGP2OASAO/ZUB/Y4BIA/9jgFBBP2NASIY/akBIiMgCf21AUEI/a0BIBMgDf2VASAf/YkBIh/9jgEgHyAT/Y4BIA79lQH9jgEgD/2OAUEE/Y0BIhP9qQEiHyAR/bUBQQj9rQH9rgH9sQEgEv2uAUEG/awBIAj9uAEgCv22ASAaIAj9DQkLDQ8AAAAAAAAAAAAAAAD9iQH9qQEgDP21AUEI/a0BIhogGP2qASIYIAn9tQFBCP2tASAT/aoBIi0gEf21AUEI/a0B/a4B/bEBIBL9rgFBBv2sASAI/bgBIAr9tgH9hgEgISAI/Q0BAwUHAAAAAAAAAAAAAAAA/YkB/akBIAz9tQFBCP2tASITIB0gDf2VASAs/YoBIgz9jgEgDCAd/Y4BIA79lQH9jgEgD/2OAUEE/Y0BIgz9qQEiDSAJ/bUBQQj9rQEgIv2pASIOIBH9tQFBCP2tAf2uAf2xASAS/a4BQQb9rAEgCP24ASAK/bYBICAgDP2qASIPIAn9tQFBCP2tASAqIBH9tQFBCP2tAf2uAf2xASAS/a4BQQb9rAEgCP24ASAK/bYB/YYB/WYiDP0NAAEdAAQFBgceAAoLDA0fACAbICMgC/21AUEI/a0B/a4BIBD9rgFBBv2sASAI/bgBIAr9tgEgGiAYIAv9tQFBCP2tAf2uASAQ/a4BQQb9rAEgCP24ASAK/bYB/YYBIBMgDSAL/bUBQQj9rQH9rgEgEP2uAUEG/awBIAj9uAEgCv22ASAgIA8gC/21AUEI/a0B/a4BIBD9rgFBBv2sASAI/bgBIAr9tgH9hgH9ZiIN/Q0AAQIdBAUGBwgeCgsMDQ4f/QsAUCAvIBwgF/0NAAALGwAAAAAMHAAAAAANHSAmICkgC/21AUEI/a0B/a4BIBD9rgFBBv2sASAI/bgBIAr9tgEiDyATIA4gFf21AUEI/a0B/a4BIBb9rgFBBv2sASAI/bgBIAr9tgEiDv0NAAAAAAwcAAAAAAAAAAAAACAe/RsA/RcKICv9GwD9Fwv9DQAAAgMUFQAACAkaGwAADg8gDP0NGgACAwQFGwAICQoLHAAODyAN/Q0AGgIDBAUGGwgJCgsMHA4P/QsAQCAvIBwgF/0NCBgAAAAACRkAAAAAChoAACAPIA79DQAAABAAAAAABBQAAAAACBj9DQABEhMAAAYHGBkAAAwNHh8gDP0NAAECAxgABgcICRkADA0ODyAN/Q0AAQIDBBgGBwgJChkMDQ4P/QsAMCAvIBwgF/0NAAAAAAYWAAAAAAcXAAAAACAlICggC/21AUEI/a0B/a4BIBD9rgFBBv2sASAI/bgBIAr9tgEiDiAaIC0gFf21AUEI/a0B/a4BIBb9rgFBBv2sASAI/bgBIAr9tgEiD/0NBBQAAAAACBgAAAAADBwAAP0NEBEAAAQFFhcAAAoLHB0AACAM/Q0AARUABAUGBxYACgsMDRcAIA39DQABAhUEBQYHCBYKCwwNDhf9CwAgIC8gHCAX/Q0AAAMTAAAAAAQUAAAAAAUVICQgJyAL/bUBQQj9rQH9rgEgEP2uAUEG/awBIAj9uAEgCv22ASIJIBsgHyAV/bUBQQj9rQH9rgEgFv2uAUEG/awBIAj9uAEgCv22ASII/Q0AAAAADBwAAAAAAAAAAAAAIA79GwD9FwogD/0bAP0XC/0NAAACAxQVAAAICRobAAAODyAM/Q0SAAIDBAUTAAgJCgsUAA4PIA39DQASAgMEBQYTCAkKCwwUDg/9CwAQIC8gHCAX/Q0AEAAAAAABEQAAAAACEgAAIAkgCP0NAAAAEAAAAAAEFAAAAAAIGP0NAAESEwAABgcYGQAADA0eHyAM/Q0AAQIDEAAGBwgJEQAMDQ4PIA39DQABAgMEEAYHCAkKEQwNDg/9CwAAIDVBEGohNSAwQRBqITAgL0HgAGohLyAzQSBqITMgNkEQaiI2DQALIBn9Fg8hLyAU/RYPITUMBQtBAEEDIAFBmOvEABDqBwALQQBBAEGo68QAEIwHAAtBAEEAQbjrxAAQjAcAC0EAQQBByOvEABCMBwALIAQhMiAFIQMgBiEuIAchOiA5IT0gMSEAIDshASA0IQILA0AgAUUgA0ECSXIgOkEBTXINASAAQQJqQf8BIAItAABBhZUBbEEIdiI2IC9B/wFxIjNBCWwgMkEBaiIwLQAAIi9qIC8gM2pBA2xqQQhqQQR2Ij9BmoICbEEIdmpBlYoBa0EGdSIzQQAgM0EAShsiMyAzQf8BThs6AAAgAEH/ASA2IDVB/wFxIjdBCWwgLkEBaiIzLQAAIjVqIDUgN2pBA2xqQQhqQQR2IkBBpcwBbEEIdmpBmu8Aa0EGdSI3QQAgN0EAShsiNyA3Qf8BThs6AAAgAEEFakH/ASACQQFqLQAAQYWVAWxBCHYiNyAyLQAAIjIgL0EJbGogLyAyakEDbGpBCGpBBHYiMkGaggJsQQh2akGVigFrQQZ1IjhBACA4QQBKGyI4IDhB/wFOGzoAACAAQQNqQf8BIDcgLi0AACIuIDVBCWxqIC4gNWpBA2xqQQhqQQR2Ii5BpcwBbEEIdmpBmu8Aa0EGdSI4QQAgOEEAShsiOCA4Qf8BThs6AAAgAEEBakH/ASA2ID9BkzJsQQh2IEBBiOgAbEEIdmprQYTEAGpBBnUiNkEAIDZBAEobIjYgNkH/AU4bOgAAIABBBGpB/wEgNyAyQZMybEEIdiAuQYjoAGxBCHZqa0GExABqQQZ1Ii5BACAuQQBKGyIuIC5B/wFOGzoAACAAQQZqIQAgAkECaiECIDpBAWshOiADQQFrIQMgAUECayEBIDAhMiAzIS4gPUEGayI9QQZPDQALCwJAAkACQAJAAkAgPgRAIAQgBWpBAWsiAEUNAiAGIAdqQQFrIgNFDQEgPEUNAyAALQAAIQAgMSA5aiIBQf8BIDQgO2otAABBhZUBbEEIdiICIAMtAAAiA0GlzAFsQQh2akGa7wBrQQZ1IgRBACAEQQBKGyIEIARB/wFOGzoAACA8QQFGDQQgAUH/ASACIABBkzJsQQh2IANBiOgAbEEIdmprQYTEAGpBBnUiA0EAIANBAEobIgMgA0H/AU4bOgABIDxBAk0NBSABQf8BIABBmoICbEEIdiACakGVigFrQQZ1IgBBACAAQQBKGyIAIABB/wFOGzoAAgsPC0Ho68QAEN0JAAtB2OvEABDdCQALQQBBAEHI7cQAEIwHAAtBAUEBQdjtxAAQjAcAC0ECQQJB6O3EABCMBwAL5CACE38CfiMAQeAAayIHJAACQAJAAkACQAJAAkACQAJ/AkACQAJAIAACfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgASgCnAQiBiABKAKUBCIMayIIQQAgBiAITxsgAk8NACABQZwEaiERIAFB6ANqIQggAUGYBGohFSABQfADaiEOAkACQAJAAn8CQAJAA0ACQAJAAkACQCABLQDkA0UEQCAIKQMAUA0BIAhBJEEsIAEoAogEQYGAgIB4RhtqKAIAIgUgBiAFIAZJGyIJIAEoAqAESSABKAKYBCILIAEoAvgDIgVBAXZJcg0EIAEoAvQDIQoCQCAFIAtrQQ9LIAUgC09xRQRAIAUgCUkNBCAFIAlrIgUEQCAKIAkgCmogBfwKAAALIAsgCWshCwwBCyAJIAtLDQQgCyAJayILRQ0AIAogCSAKaiAL/AoAAAsgASALNgKYBCABIAYgCWs2ApwEIAEgDCAJazYClAQgASgCiARBgYCAgHhGBEAgASABKAKMBCAJazYCjAQLIAEoAvgDIQUMBAsgB0EdOgAYDA0LQYiaxwBBP0HImscAEOsHAAsgCSAFIAVBgJDFABDqBwALIAkgCyAFQfCPxQAQ6gcACyAFIAtBgEBrIgZJBEAgBiAFayIKIAEoAvADIAVrSwRAIA4gBSAKQQFBARCkBSABKAL4AyEFCyABKAL0AyIGIAVqIQkgCkECTwR/IApBAWsiCgRAIAlBACAK/AsACyAGIAUgCmoiBWoFIAkLQQA6AAAgASAFQQFqIgU2AvgDIAEoApgEIQsLAkAgCCkDACIYQv7///8PVg0AQX8gCyAYp2oiBiAGIAtJGyAFTw0AIAUgBk8EQCABIAYiBTYC+AMMAQsgBiAFayIKIAEoAvADIAVrSwRAIA4gBSAKQQFBARCkBSABKAL4AyEFCyABKAL0AyIGIAVqIQkgCkECTwR/IApBAWsiCgRAIAlBACAK/AsACyAGIAUgCmoiBWoFIAkLQQA6AAAgFSgCACELIAEgBUEBaiIFNgL4AwsgByAVNgJEIAcgETYCQCAHIAU2AjwgByABKAL0AzYCOAJ/AkACfiABKAKcAyIFIAEpA6ADIhkgBa0iGCAYIBlWG6ciBkYEQEEBIQ1BJCEFQiUMAQsgB0HIAGogASABKAKYAyAGaiAFIAZrIAdBOGoQ1gEgBykCUCEYIAcoAkwhBSAHKAJIRQRAIAEgASkDoAMgBa18NwOgAyAYpyENDAILIBinIQ0gBUH/AXFBKEYNASAHKAJYIQ8gGEIIiAshGCAHIA06ADAgByAYPgAxIAcgGEIwiDwANyAHIBhCIIg9ADUgBUEQdiEUIAVBCHYMAQtBKCEFIA1B/wFxQQZGCyEMIAsgFSgCACIKSwRAQfiaxwBBK0Gkm8cAEOsHAAsgCCAIKQMAIhkgCiALa60iGH03AwAgGCAZUQRAIBEgCjYCAAsCQCAFQf8BcSIGQShHBEAgBkEkRw0HIA1B/wFxQQFrDgMBAwQHCyAMQQFxBEAgASgCvAQiBkUNBiABQQE6AOQDIAEgBkEBazYCvAQLIAEoApwEIgYgASgClAQiDGsiBUEAIAUgBk0bIAJJDQEMCAsLIActADEMAgsgBygCNC0ACAwBCyAHKAI0LQAIC0H/AXFBJUcNASAKIAEoApQEayACSQ0BIAcoAjQhFyAHLQAwIAdBGGohCyABLQDFBCEPIwBBEGsiECQAAkACQAJAIAgoAiwiEyAIKAIQIhVJBEACQCAIKAIMIhEgE2otAAAiDkEFTwRAIAsgDjoAASALQRk6AAAMAQsgCCkCFCEYIAhCgICAgBA3AhQgEEEIaiAIQRxqIgYoAgAiCTYCACAGQQA2AgAgECAYNwMAIBACfyAJIAJBAWsiEk8EQCAQKAIEIRYgEgwBCyASIAlrIgYgECgCACAJa0sEQCAQIAkgBhDvBSAQKAIIIQkLIBAoAgQiFiAJaiEFIAZBAk8EfyAGQQFrIgYEQCAFQQAgBvwLAAsgFiAGIAlqIglqBSAFC0EAOgAAIAlBAWoLIgk2AgggEiAVIBNBAWoiBWsiBksNAiAJIBJHDQMgEgRAIBYgBSARaiAS/AoAAAtBASEJAkACQAJAIAgoAiAiBkGAgICAeHNBAiAGQQBIIgYbIgVBAWsOAgABAgsgCCgCJCIFIBNNBEAgBSARaiEJIBMgBWshBQwCCyAFIBMgE0HQkMUAEOoHAAsgCCgCKCEFIAgoAiQhCQsgCEEgaiERIA4gDyAJIAUgFiASEFogBkUEQCAIQRRqIgYgESkCADcCACAGQQhqIBFBCGooAgA2AgALIBEgECkDADcCACALQSg6AAAgCCACIBNqNgIsIBFBCGogEEEIaigCADYCAAsgEEEQaiQADAMLIBMgFUHgj8UAEIwHAAtBACASIAZBsJDFABDqBwALIAkgEkGgkMUAEN4JAAtBA0cNAiAXKAIAIQUgF0EEaigCACIIKAIAIgYEQCAFIAYRAwALIAgoAgQiBgRAIAUgBiAIKAIIEKIHCyAXQQxBBBCiBwwCC0GsmccAQStB2JnHABDrBwALIAcgDzYCJCAHIAcpAzA3AhwgByAFOgAYIAcgFEEIdjoAGyAHIAxB/wFxIBRBCHRyOwAZCyAHLQAYQShHDQIgASgClAQhCwwBCyABKAL4AyIJIAxNDQUgASgC9AMiBiAMaiIFLQAAIgpBBU8EQCAHIAo6ABkgB0EZOgAYDAILIAEtAMUEIRRBASENAkACQAJAQQIgASgCiAQiD0GAgICAeHMgD0EAThsiDkEBaw4CAAECCyABKAKMBCIIIAxNBEAgBiAIaiENIAwgCGshDgwCCyAIIAwgDEHQkMUAEOoHAAsgASgCkAQhDiABKAKMBCENCyACQQFrIgggCSAMayIGSQRAIAogFCANIA4gBUEBaiAIEFogD0EATgRAIAdB0ABqIgUgAUGIBGoiBkEIaigCADYCACABQQA2ApAEIAcgBikCADcDSCABKAL8AyIPBEAgASgCgAQiCEEEaygCACIGQXhxIg1BBEEIIAZBA3EiBhsgD2pJDQkgBkEAIA0gD0EnaksbDQogCBCiAgsgAUH8A2oiBiAHKQNINwIAIAZBCGogBSgCADYCAAsgAUGBgICAeDYCiAQgASACIAxqIgs2ApQEIAEgDEEBajYCjAQMAQtBASACIAZBkJDFABDqBwALIAsgASgC+AMiBksNB0EBIQ5BAiABKAKIBCIGQYCAgIB4cyAGQQBOGyIFQQFrDgIBAgMLIAAgB/0AAhj9CwIADB0LIAEoAowEIgYgC00EQCABKAL0AyAGaiEOIAsgBmshBQwCCyAGIAsgC0HQkMUAEOoHAAsgASgCkAQhBSABKAKMBCEOCyAHIAJBAWsiDzYCLCAHIAU2AiggBSAPRw0EIAEoAqgEIgUNGSABKAIIQQJHBEAgAS0AxgIhCCABKALABCEGIAcgAS0AxwIiBToAOCAGQYCABHEiDEEQdiICIAEoAtQBQYGAgIB4R3IhCgJAAkACQCAGQRBxBEACQAJAIAVBEEYEQAJAIAhBAWsOBhkSAwIZAAULQQEhBSAGQQFxRQ0fQYSYxQAMIAtBACEGIAhBAWsOBhcQGQUXHgQLQQEhBSAGQQFxRQ0dQYSYxQAMHgsgASgC4AFBgYCAgHhHDRhBDgwZCyAFQRBGDQwCQAJAAkAgCEEBaw4GFwEYAhceAAsgDEEAIAVBB00bDQsgAiAKcQ0NDB0LIAwNDAwcCyAMRQ0bIAVBB00NCQwbC0EBIQIgBkEBcSEGDA8LIAVBCE8NCAwHCyAFQQhJDQYMGAtBrJjHABDdCQALIAwgCUHgj8UAEIwHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQQAgCyAGQcCQxQAQ6gcACyAHQQA2AkhBACAHQShqIAdBLGogB0HIAGpB2JrHABD1BwALQQQQcSIFRQ0KIAVB9QBB9gAgChs2AgBBsJjFAAwSCyAKRQ0QC0EAIQYMBQsCQCAIQQFrDgYIAAkDCA4ECyAMRQ0BCyAKDQMLQQEhBSAGQQFxRQ0MQYSYxQAMDQtBASEFIAZBAXFFDQtBhJjFAAwMCyACIApxDQFBASEFIAZBAXFFDQpBhJjFAAwLC0H3AEH4ACAFQQhGIgIbIQ0gAiAGQQFxcg0BQfkAIQ0gBUEQRg0BIAdBADYCSEEAIAdBOGpBnJjFACAHQcgAakGgmMUAEPkHAAtB+ABB+QAgBkEBcRshDQtBBBBxIgVFDQAgBSANNgIAQbCYxQAMCAsACyAMRQ0FC0EOIAEoAuABQYGAgIB4Rg0BGiAFQRBHDQILQQ8LOgAAIABBkAY7AAEMBQsgAUEIaiECIApFBEAgB0EQaiEGIwBBgAhrIggkACAIIAIQrQIgAi0AvwIhAkGACBBxIQUCQAJAAn8gAkEIRgRAIAVFDQJBtJrFAAwBCyAFRQ0BQcyaxQALIQIgBSAIQYAI/AoAACAGIAI2AgQgBiAFNgIAIAhBgAhqJAAMAQsACyAHKAIQIQUgBygCFAwDCyAHQQhqIQYjAEGACGsiCCQAIAggAhCtAgJAQYAIEHEiAgRAIAIgCEGACPwKAAAgBkHkmsUANgIEIAYgAjYCACAIQYAIaiQADAELAAsgBygCCCEFQeSaxQAMAgtBASEFIAZBAXFFDQBBhJjFAAwBC0EBIQVByJjFAAshDQJAIAEoAqgEIgpFDQAgASgCrAQiAigCACIMBEAgCiAMEQMACyACKAIEIghFDQAgCkEEaygCACIGQXhxIgJBBEEIIAZBA3EiDBsgCGpJDQMgDEEAIAIgCEEnaksbDQQgChCiAgsgASANNgKsBCABIAU2AqgECyABKAIIQQJGDQUgBSAOIA8gAyAEIAFBCGogASgCrAQoAhQRCQACQAJAIAEoAqgDQQFGBEACQCABKAKsAyICIAEoArADTw0AIAEoArQDIgxFDQAgASgCuAMhDSABLQDAAyEUQQEhBgwCC0EHIAEtAMADIgUgBUEHTRshCEECIQMgBUECdEGYjsUAaiEOIAEoArwDIQogASgCuAMhDQNAIAUgCEYNAyABIAVBAWoiBSIUOgDAAyAOKAAAIglB/wFxIgZFDQcgASANIAlBCHZB/wFxayICQQAgAiANTRsiBCAGbiICIAQgAiAGbEdqIgw2ArQDIAlBEHZB/wFxIg9FDQhBACECIAFBADYCrAMgASAKIAlBGHZrIgRBACAEIApNGyIGIA9uIgQgBiAEIA9sR2oiBDYCsANBASEGIA5BBGohDiAERSAMRXINAAsMAQtBAiEDQQAhBiABKAKsAyICIAEoArADTw0BCyABIAJBAWo2AqwDIAYhAwsgASAUOgDUAyABIAw2AtADIAEgDTYCzAMgASACNgLIAyABIAM2AsQDIABBKDoAAAsgB0HgAGokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HEjsUAEIEIAAtBtI7FABCBCAALQayYxwAQ3QkAC44aBB5/AnsBfQF+IwBBsMAAayIHJAACQAJAAkAgAiADQf8BcUECdCIEKALQhElwRQRAQQEhBSACIAQoAuCESW5BAnQiBARAQQAhBQJAIARBAE4EQCAHQQA2ArQgIAdBMGpBASAEIAdBsCBqEIUHIAcoAjBBAUcNASAHKAI4IQYgBygCNCEFCyAHIAY2ArQgIAcgBTYCsCBB4L7EAEE2IAdBsCBqQdC+xABBmL/EABDgBgALIAcoAjQhBQsgB0EANgIsIAcgBTYCKCAHIAQ2AiQCQAJAIANB/wFxQQFrDgMDAQEACyACQQNuIgNBAnQiAgRAIAIgBEsEQCAHQSRqQQAgAhDvBSAHKAIsIQYgBygCKCEFCyAFIAZqIQQgAkEBayILBEAgBEEAIAv8CwALIAQgC2pBADoAACACIAZqIQYLIAcgBjYCLCAGQQJ2IgIgAyACIANJGyIERQ0DA0AgBUEDakH/AToAACAFIAEvAQBBgAFqQYECbjoAACAFQQJqIAFBBGovAQBBgAFqQYECbjoAACAFQQFqIAFBAmovAQBBgAFqQYECbjoAACABQQZqIQEgBUEEaiEFIARBAWsiBA0ACwwDCyAHQRBqIAdBLGooAgA2AgAgByAHKQIkNwMIIAdBsCBqEO4CIAcoArAgRQRAIAdBJGpBARDRCQsCQCACIANB/wFxQQJ0KALwhEluQQJ0IhEgBygCECIFTQRAIAcoAgwhEgwBCyARIAVrIgQgBygCCCAFa0sEQCAHQQhqIAUgBBDvBSAHKAIQIQULIAcoAgwiEiAFaiELIARBAk8EfyAEQQFrIgQEQCALQQAgBPwLAAsgEiAEIAVqIgVqBSALC0EAOgAAIAVBAWohEQsgByARNgIQAn8CfwJAAkACQAJAIANB/wFxQQFrDgMBAgMACyAHQTBqQQBBgCD8CwAgB0GwIGpBAEGAIPwLACACQQNuIQ9BASEcQQMMBAsgB0EwakEAQYAg/AsAIAdBsCBqQQBBgCD8CwAgAkECdgwCCyAHQTBqQQBBgCD8CwAgB0GwIGpBAEGAIPwLAEEBIRwgAiEPQQMMAgsgB0EwakEAQYAg/AsAIAdBsCBqQQBBgCD8CwAgAkEBdgshD0EECyEUAkACQAJAIA8EQCAPQQh2IA9B/wFxQQBHaiIEQQFrIgtBACAEIAtPGyEFIAEhCyABIRUgASEWIAEhGUGAAiEXA0AgBSEdIBQgDyAXIA8gF0kbIgQgE0EIdGsiBmwiBUH//wNxQQNuIQkgFCAEIB5qbEH//wNxQQNuIQoCQAJAAkACQCAPIAxBgAJqIgggCCAPSxsiECAMayIYIBRsIg1BgQhJBEAgBEECdCEaIBQgBCAfaiIbbCEIAkACQAJAAkACQAJAAkAgA0H/AXFBAWsOAwEFAgALIBBBA2wiBiAMQQNsIglPIAIgBk9xDQIgCSAGIAJB+LzEABDqBwALIBBBAnQiBCAMQQJ0IgZPIAIgBE9xDQIgBiAEIAJBiL3EABDqBwALIBBBAXQiBiAMQQF0IglPIAIgBk9xDQMgCSAGIAJB2L3EABDqBwALIA0gBiAJayIGIAYgDUsbRQ0HIAggICAEQQNsIgRqIgYgBiAISxshCUEAIQggBSATQYB6bCAEaiIEIAQgBUsbIgpBBE8EQCAJQXxxIQYgCkF8cSEIIAdBMGohBSALIQQDQCAFIAT9BAEA/fsB/QyAAIA3gACAN4AAgDeAAIA3/eYB/QsCACAEQQhqIQQgBUEQaiEFIAZBBGsiBg0ACyAIIApGDQgLIAggCWshBiALIAhBAXRqIQUgB0EwaiAIQQJ0aiEEA0AgBCAFLwEAs0OAAIA3lDgCACAFQQJqIQUgBEEEaiEEIAZBAWoiBg0ACwwHCyANIAQgBmsiBCAEIA1LG0UNBiAIIA4gGmoiBCAEIAhLGyEJQQAhCCAFIBogE0EKdGsiBCAEIAVLGyIKQQRPBEAgCUF8cSEGIApBfHEhCCAHQTBqIQUgFSEEA0AgBSAE/QQBAP37Af0MgACAN4AAgDeAAIA3gACAN/3mAf0LAgAgBEEIaiEEIAVBEGohBSAGQQRrIgYNAAsgCCAKRg0HCyAIIAlrIQYgFSAIQQF0aiEFIAdBMGogCEECdGohBANAIAQgBS8BALNDgACAN5Q4AgAgBUECaiEFIARBBGohBCAGQQFqIgYNAAsMBgsgDCAQSw0CIA1B//8DcUEDbiIEIBggBCAYSRtFDQUgCiAbIAogG0kbIQpBACEIIAkgBiAGIAlLGyIJQQRPBEAgCkH8/wFxIQYgCUH8/wFxIQggB0EwaiEFIBYhBANAIAUgBP0EAQD9+wH9DIAAgDeAAIA3gACAN4AAgDf95gEiIiAi/Q0ICQoLDA0ODwwNDg8MDQ4P/QsCICAFICIgIv0NBAUGBwQFBgcICQoLCAkKC/0LAhAgBSAiICL9DQABAgMAAQIDAAECAwQFBgf9CwIAIARBCGohBCAFQTBqIQUgBkEEayIGDQALIAggCUYNBgsgCCAKayEGIBYgCEEBdGohBCAHQTBqIAhBDGxqIQUDQCAFQQhqIAQvAQCzQ4AAgDeUIiQ4AgAgBUEEaiAkOAIAIAUgJDgCACAEQQJqIQQgBUEMaiEFIAZBAWoiBg0ACwwFCyANQQJ2IgogBiAJa0EBdiIGIAYgCksbRQ0EQQAhBiAFQQJ2IgUgBEEBdCIEIBNBCXRrQQF2IgogBSAKSRsiBUEBRg0DIAhBAnYiBiAEICFqQQF2IgQgBCAGSxtB/v///wNxIQggBUEBcSEKQQAhBiAHQTBqIQUgGSEEA0AgBSAE/QQBAP37Af0MgACAN4AAgDeAAIA3gACAN/3mASIiICL9DQgJCgsICQoLCAkKCwwNDg/9CwIQIAUgIiAi/Q0AAQIDAAECAwABAgMEBQYH/QsCACAEQQhqIQQgBUEgaiEFIAggBkECaiIGRw0ACwwCC0EAIA1BgAhB6L3EABDqBwALIAwgECACQZi9xAAQ6gcACyAKRQ0BCyAHQTBqIAZBBHRqIgQgASAJQQF0aiAGQQJ0aiIFLwEAs0OAAIA3lCIkOAIIIAQgJDgCBCAEICQ4AgAgBCAFLwECs0OAAIA3lDgCDAsCfyAcRQRAIBhBAnQiBCANSw0FIAdBMGoMAQsgDUH//wNxQQNuIQQCQCANQQNJDQBBgAIgBCAEQYACTxshCEEBIQYgB0GwIGohBSAHQTBqIQQDQCAFIAQqAgA4AgAgBUEMakGAgID8AzYCACAFQQRqIARBBGopAgA3AgAgBiAbRg0BIARBDGohBCAFQRBqIQUgBiAISSAGQQFqIQYNAAsLIBhBAnQiBEGBCE8NAyAHQbAgagshBSAQQQJ0IgYgEUsgBiAMQQJ0IgxJcg0EIAYgDGsiDCAEIAQgDEsbBEBBACAaayEGIBIhBANAIARB/wEgBSoCAEMAAH9DlBC5ByIk/AFBACAkQwAAAABgGyAkQwAAf0NeGzoAACAEQQFqQf8BIAVBBGoqAgBDAAB/Q5QQuQciJPwBQQAgJEMAAAAAYBsgJEMAAH9DXhs6AAAgBEECaiEEIAVBCGohBSAOIAZBAmoiBkcNAAsLIBJBgAhqIRIgC0GADGohCyAgQYAGayEgIBVBgBBqIRUgDkGACGshDiAWQYAEaiEWIB5BgAJrIR4gIUGABGshISAfQYACayEfIBlBgAhqIRkgE0EBaiETIB1BAWshBSAXIgxBgAJqIRcgHQ0ACwsgACAHKQMINwIAIABBCGogB0EQaigCADYCAAwGC0EAIARBgAhBqL3EABDqBwALQQAgBCANQci9xAAQ6gcACyAMIAYgEUG4vcQAEOoHAAtB+L3EAEHFAEHAvsQAEOsHAAsCQAJAIAIgBEsEQCAHQSRqQQAgAhDvBSAHKAIoIQUgBygCLCEEDAELQQAhBCACRQ0BC0EAIQMgAkEITwRAIAQgBWohBiAEIAJBeHEiA2ohBCABIQ4gAyELA0AgBiAO/QABACIj/akB/QyAAAAAgAAAAIAAAACAAAAA/a4BIiL9GwBBgQJu/REgIv0bAUGBAm79HAEgIv0bAkGBAm79HAIgIv0bA0GBAm79HAMgI/2qAf0MgAAAAIAAAACAAAAAgAAAAP2uASIi/RsAQYECbv0RICL9GwFBgQJu/RwBICL9GwJBgQJu/RwCICL9GwNBgQJu/RwD/Q0ABAgMEBQYHAAAAAAAAAAA/VsAAAAgDkEQaiEOIAZBCGohBiALQQhrIgsNAAsgAiADRg0BCyACIANrIQ4gASADQQF0aiEGA0AgBCAFaiAGLwEAQYABakGBAm46AAAgBkECaiEGIARBAWohBCAOQQFrIg4NAAsLIAcgBDYCLAsgB0EgaiAHQSxqKAIAIgE2AgAgByAHKQIkIiU3AxggAEEIaiABNgIAIAAgJTcCAAsgB0GwwABqJAAL1BkCDn8CeyMAQUBqIgMkACADIAE2AhwgA0EANgIYIAMgATYCFCADIAA2AhAgA0EBOgAkIANBPzYCDCADQT82AiAgA0E0aiICIANBDGoiBhD9AiADIAMoAjggASADKAI0GyIBNgIcIANBADYCGCADIAE2AhQgAyAANgIQIANBAToAJCADQSM2AgwgA0EjNgIgIAIgBhD9AiADKAI4IQIgAygCNCEHIANBATsBMCADIAIgASAHGyIBNgIsIANBADYCKCADQQE6ACQgA0EuNgIgIAMgATYCHCADQQA2AhggAyABNgIUIAMgADYCECADQS42AgwCQAJAAkACQAJAA0ACQCADKAIQIQEgA0E0aiADQQxqEP0CIAMoAjRFBEACQCADLQAxDQACQCADLQAwQQFGBEAgAygCLCEAIAMoAighAQwBCyADKAIsIgAgAygCKCIBRg0BCyADKAIQIAFqIQggACABayEHDAILIAgNAUEGIQEMAwsgAygCKCEAIAMgAygCPDYCKCAAIAFqIQggAygCOCAAayEHIAMtADFBAUcNAQsLAkACQCAHQQBOBEACQCAHRQRAQQAhBkEBIQQMAQsgBxBxIgRFDQIgCCEBIAQhAAJAIAciAkEQSQ0AIAJB8P///wdxIQpBACEGA0AgBCAGaiEAIAYgCGoiAf0AAAAiEf0M//////////////////////0nIhD9FgFBAXEgEP0WAEEBcWogEP0WAkEBcWogEP0WA0EBcWogEP0WBEEBcWogEP0WBUEBcWogEP0WBkEBcWogEP0WB0EBcWogEP0WCEEBcWogEP0WCUEBcWogEP0WCkEBcWogEP0WC0EBcWogEP0WDEEBcWogEP0WDUEBcWogEP0WDkEBcWogEP0WD0EBcWpB/wFxQRBHBEAgBiEKDAILIAAgEf0Mv7+/v7+/v7+/v7+/v7+/v/1u/QwaGhoaGhoaGhoaGhoaGhoa/Sb9DCAgICAgICAgICAgICAgICD9TiAR/VD9CwAAIAZBEGohBiACQRBrIgJBD0sNAAsgAkUEQCAKIQYMAgsgBiAIaiEBIAQgBmohAAsgAiAKaiEGA0AgASwAACILQQBOBEAgAEEgQQAgC0HBAGtB/wFxQRpJGyALcjoAACAAQQFqIQAgAUEBaiEBIApBAWohCiACQQFrIgINAQwCCwsgAyAKNgIUIAMgBDYCECABIAJqIQ4gAyAHNgIMIAcgCGohDyAKIQZBACECA0ACfwJAAkACfwJAAkACQAJAIAEsAAAiAEEASARAIAEtAAFBP3EhDCAAQR9xIQsCfyAAQV9NBEAgC0EGdCAMciEAIAFBAmoMAQsgAS0AAkE/cSAMQQZ0ciEMIABBcEkEQCAMIAtBDHRyIQAgAUEDagwBCyALQRJ0QYCA8ABxIAEtAANBP3EgDEEGdHJyIQAgAUEEagsiCyACIAFraiEMIABBowdHDQECQCACIApqIgRFDQAgBCAHTwRAIAQgB0YNAQwUCyAEIAhqLAAAQUBIDRMLIAQgCGohAUEAIQUDQEGDASEJIAEgCEYNCCABQQFrIgIsAAAiAEEASARAIABBP3ECfyABQQJrIgItAAAiDcAiAEFATgRAIA1BH3EMAQsgAEE/cQJ/IAFBA2siAi0AACINwCIAQb9/SgRAIA1BD3EMAQsgAEE/cSABQQRrIgItAABBB3FBBnRyC0EGdHILQQZ0ciIAQYCAxABGDQkLIAIhAQJAAkAgBQ0AIABBgAFPBEAgAEGnAU0NASAAEOYERQ0BQYCAxAAhAkEAIQUMAgtBgIDEACECQQAhBSAAQSdrIg1BE01BAEEBIA10QYGBIHEbDQEgAEHeAGsOAwEAAQALQQEhBSAAIQILIAJBgIDEAEYNAAsCQCACQYABTwRAIAJBqQFNDQkgAhD6BA0BDAkLIAJB3wBxQcEAa0EaTw0ICwJAIARBAmoiAEUNACAAIAdPBEAgACAHRg0BDBMLIAAgCGosAABBQEgNEgsgACAIaiEBQQAhBQNAQYIBIQkgASAPRg0IAn8gASwAACIAQQBOBEAgAEH/AXEhACABQQFqDAELIAEtAAFBP3EhBCAAQR9xIQIgAEFfTQRAIAJBBnQgBHIhACABQQJqDAELIAEtAAJBP3EgBEEGdHIhBCAAQXBJBEAgBCACQQx0ciEAIAFBA2oMAQsgAkESdEGAgPAAcSABLQADQT9xIARBBnRyciIAQYCAxABGDQkgAUEEagshAQJAAkAgBQ0AIABBgAFPBEAgAEGnAU0NASAAEOYERQ0BQYCAxAAhAkEAIQUMAgtBgIDEACECQQAhBSAAQSdrIgRBE01BAEEBIAR0QYGBIHEbDQEgAEHeAGsOAwEAAQALQQEhBSAAIQILIAJBgIDEAEYNAAsgAkGAAU8EQCACQakBTQ0IIAIQ+gRFDQgMBwsgAkHfAHFBwQBrQRpJDQYMBwsgAEH/AXEhACABQQFqIgsgAiABa2ohDAwBCyAAQYABSQ0AQc0FQQAgAEHSPU8bIgEgAUHmAmoiASABQQN0KALYnkIgAEsbIgEgAUGzAWoiASABQQN0KALYnkIgAEsbIgEgAUHaAGoiASABQQN0KALYnkIgAEsbIgEgAUEtaiIBIAFBA3QoAtieQiAASxsiASABQRZqIgEgAUEDdCgC2J5CIABLGyIBIAFBC2oiASABQQN0KALYnkIgAEsbIgEgAUEGaiIBIAFBA3QoAtieQiAASxsiASABQQNqIgEgAUEDdCgC2J5CIABLGyIBIAFBAWoiASABQQN0KALYnkIgAEsbIgEgAUEBaiIBIAFBA3QoAtieQiAASxsiAUEDdCgC2J5CIgIgAEYNAQwCC0EgQQAgAEHBAGtBGkkbIAByIQBBASEFQQEMAgsCQCABIAAgAktqIgBBmQtNBEBB6QAgAEEDdCgC3J5CIgAgAEGAsANzQYCAxABrQYCQvH9JIgEbIQAgAQ0BQQEhBSAAQYABTw0CQQEMAwtBmgtBmgtBqPjCABCMBwALAn9BASAAQYABSSIFDQAaQQIgAEGAEEkNABpBA0EEIABBgIAESRsLIgEgAygCDCAGIgJrSwR/IANBDGogAiABEPcFIAMoAhAhBCADKAIUBSACCyAEaiECAkAgBUUEQCAAQT9xQYB/ciEEIABBBnYhBSAAQYAQSQRAIAIgBDoAASACIAVBwAFyOgAADAILIABBDHYhCSAFQT9xQYB/ciEFIABB//8DTQRAIAIgBDoAAiACIAU6AAEgAiAJQeABcjoAAAwCCyACIAQ6AAMgAiAFOgACIAIgCUE/cUGAf3I6AAEgAiAAQRJ2QXByOgAADAELIAIgADoAAAsgAyABIAZqIgE2AhQgAygCDCABIgBrQQFNBH8gA0EMaiAAQQIQ9wUgAygCFAUgAAsgAygCECIEakHMjwI7AAAgAUECagwEC0EAIQVBAiAAQYAQSQ0AGkEDQQQgAEGAgARJGwsiASADKAIMIAYiAmtLBH8gA0EMaiACIAEQ9wUgAygCECEEIAMoAhQFIAILIARqIQICQAJAIAVFBEAgAEE/cUGAf3IhBSAAQQZ2IQkgAEGAEE8NASACIAU6AAEgAiAJQcABcjoAAAwCCyACIAA6AAAMAQsgAEEMdiENIAlBP3FBgH9yIQkgAEH//wNNBEAgAiAFOgACIAIgCToAASACIA1B4AFyOgAADAELIAIgBToAAyACIAk6AAIgAiANQT9xQYB/cjoAASACIABBEnZBcHI6AAALIAEgBmoMAgtBgwEhCQsgAygCDCAGIgFrQQFNBH8gA0EMaiABQQIQ9wUgAygCFAUgAQsgAygCECIEaiIAIAk6AAEgAEHPAToAACAGQQJqCyEGIAwhAiADIAY2AhQgCyIBIA5HDQALIAMoAhAhBCADKAIMIQcLQQYhAQJAAkACQAJAAkAgBkEDaw4EAAQBAgcLIARBkNDHAEEDENsHRQRAQQAhAQwHCyAEQaD3xwBBAxDbBw0CQQEhAQwGC0EGQQIgBEGj98cAQQUQ2wcbIQEMBQtBBkEDIARBqPfHAEEGENsHGyEBDAQLQQQhASAEQdj3xwBBAxDbB0UNAyAEQdv3xwBBAxDbB0UNA0EGQQUgBEG398cAQQMQ2wcbIQEMAwtBBEEGIAQoAABB896dmwdGGyEBDAILQcTuwQAQ/wcLAAsgB0UNACAEQQRrKAIAIgBBeHEiAkEEQQggAEEDcSIAGyAHakkNASAAQQAgAiAHQSdqSxsNAiAEEKICCyADQUBrJAAgAQ8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAIIAcgACAHQeTuwQAQuwkACyAIIAdBACAEQdTuwQAQuwkAC8sYAhN/AX4jAEEwayILJAACQAJAAkACQCAAKAIAIgYoAgAiAEUEQCALQQA2AiggCyABNgIkIAtCADcCHCALIAYpAgQ3AhQgC0EUakEBEMwBIQcMAQsgBigCCCESIAYoAgQhDgJAA0AgEiAUIgZNBEBBACEHDAMLAkACQCAORQ0AIAZBAWoiCCAGIAYgEkkbIRQgDkEBayEHQQAhAiAALQAAIhAhBCAOIQUCQAJAA0ACQAJAIATAQQBIBEAgBEEfcSEPIAAgAmoiCkEBai0AAEE/cSEJIARB/wFxIgNB3wFLDQEgD0EGdCAJciEDDAILIARB/wFxIQMMAQsgCkECai0AAEE/cSAJQQZ0ciEJIANB8AFJBEAgCSAPQQx0ciEDDAELIA9BEnRBgIDwAHEgCkEDai0AAEE/cSAJQQZ0cnIiA0GAgMQARg0ECyAAIAJqIQkgA0Ewa0EKSQRAIAIgB0YNBCAJQQFqLAAAIgRBv39MDQIgAkEBaiECIAVBAWshBQwBCwsgDiAFayICDQFBACEDDAkLIAkgBUEBIAVBqLjFABC7CQALIAAgAmosAABBv39KDQEgACAOQQAgAkG4uMUAELsJAAtBmLjFABDdCQALAkACQAJAIAJBAUYEQEEBIQMgEEEraw4DCQEJAQsgEEErRgRAIAJBAWshAyAAQQFqIQAgAkEKSQ0BDAILIAIiA0EJTw0BC0EAIQIDQCAALQAAQTBrIgdBCUsNByAAQQFqIQAgByACQQpsaiECIANBAWsiAw0ACwwBC0EAIQIgAyEHA0AgB0UNASAALQAAQTBrIgpBCUsNBkECIQMgAq1CCn4iFUIgiKcNByAAQQFqIQAgB0EBayEHIAogFadqIgIgCk8NAAsMBgsCQCACRQ0AIAIgBU8EQCACIAVGDQEMBQsgAiAJaiwAAEG/f0wNBAsgAiAJaiEAAkAgCCASRw0AIAJFIAEoAghBgICABHFFIARB/wFxQegAR3JyDQACQCACQQFHBEAgCSwAAUFASA0BCyAJQQFqIQQDQEEAIQcgACAERg0FAn8gBCwAACIKQQBOBEAgCkH/AXEhAyAEQQFqDAELIAQtAAFBP3EhAyAKQR9xIQggCkFfTQRAIAhBBnQgA3IhAyAEQQJqDAELIAQtAAJBP3EgA0EGdHIhAyAKQXBJBEAgAyAIQQx0ciEDIARBA2oMAQsgCEESdEGAgPAAcSAELQADQT9xIANBBnRyciIDQYCAxABGDQYgBEEEagshBCADQcEAa0FecUEKaiADQTBrIANBOUsbQQ9NDQALDAELIAkgAkEBIAJB4LXFABC7CQALIAYEQCABKAIAQZSzxQBBAiABKAIEKAIMEQAADQILAn8CQCACQQJJDQAgCS8AAEHfyABHDQAgCSwAAUG/f0oEQCAJQQFqIQkgAkEBawwCCyAJIAJBASACQdi4xQAQuwkACyACCyEEIAUgAmshDiABKAIEIQ0gASgCACEMA0ACQCAJIQYCQAJAAkACQCAEIghFDQACQAJAAkACQAJAAkACfwJAAkACQCAGLQAAIgRBJEcEQCAEQS5HDQsgCEEBRg0BIAYsAAEiAkG/f0wNAiACQQBIDQMgAkH/AXEMBAsgCEEBRwRAIAYsAAFBv39MDQgLIAZBAWohBSAIQQFrIQdBACEDA0AgAyAFaiEJAkAgByADayIEQQdNBEAgAyAHRg0OQQAhAgNAIAIgCWotAABBJEYNAiAEIAJBAWoiAkcNAAsMDgsgC0EIakEkIAkgBBCHBSALKAIIQQFxRQ0NIAsoAgwhAgsCQCACIANqIgIgB08NACACIAVqLQAAQSRHDQAgAkEBaiEEAkACQAJAAkAgBS0AACIHwCIDQUBIDQACQCAEIAhPBEAgBCAIRw0CIAJBAmoiBA0BQX4hAiAIIQQgBiEJDAULIAJBAmohBAsCQCAEIAhPBEAgBCAIRg0BDAQLIAQgBmosAABBQEgNAwsgBCAGaiEJIAggBGshBAJAAkACQCACDgMUAQAGCyAFLwAAQdOgAUYEQEG4ucUAIQIMBAsgBS8AAEHCoAFGBEBBsrPFACECDAQLIAUvAABB0owBRgRAQayzxQAhAgwECyAFLwAAQcyoAUYEQEGms8UAIQIMBAsgBS8AAEHHqAFGBEBBq7PFACECDAQLIAUvAABBzKABRgRAQbuzxQAhAgwECyAFLwAAQdKgAUcNAUHejsgAIQIMAwsgB0HDAEcND0G8s8UAIQIMAgtBAiECDAMLIAYgCEEBIARBmLnFABC7CQALQQEhByAMIAJBASANKAIMEQAARQ0TDBYLIAYgCCAEIAhBqLnFABC7CQALIANB9QBHDQ0gBiwAAkG/f0oNCyAFIAJBASACQby5xQAQuwkACyAHIAJBAWoiA08NAAsMCwtBASEHIAxB7LnFAEEBIA0oAgwRAABFDQMMEQsgBiAIQQEgCEHMucUAELsJAAsgBi0AAkE/cSEEIAJBH3EhAyADQQZ0IARyIAJBX00NABogBi0AA0E/cSAEQQZ0ciEEIAQgA0EMdHIgAkFwSQ0AGiADQRJ0QYCA8ABxIAYtAARBP3EgBEEGdHJyCyANKAIMIQRBLkYNAUEBIQcgDEHsucUAQQEgBBEAAA0OIAYsAAFBQEgNAgsgBkEBaiEJIAhBAWshBAwKCyAMQZSzxQBBAiAEEQAADQsCQCAIQQNPBEAgBiwAAkFASA0BCyAGQQJqIQkgCEECayEEDAoLIAYgCEECIAhB3LnFABC7CQALIAYgCEEBIAhB8LnFABC7CQALIAYgCEEBIAhBiLnFABC7CQALIAdB9QBHDQJBASECCyACIAVqIRAgAkEBayEKIAZBAmoiByEFAkADQEEAIQ8gBSAQRg0BAn8gBSwAACIRQQBOBEAgEUH/AXEhAyAFQQFqDAELIAUtAAFBP3EhAyARQR9xIRMgEUFfTQRAIBNBBnQgA3IhAyAFQQJqDAELIAUtAAJBP3EgA0EGdHIhAyARQXBJBEAgAyATQQx0ciEDIAVBA2oMAQsgE0ESdEGAgPAAcSAFLQADQT9xIANBBnRyciIDQYCAxABGDQIgBUEEagshBSADQTprQXVLIANB5wBrQXlLcg0AC0EBIQ8LQQEhAwJAAkACQAJAAkACQCACQQFrDgIFAAELIActAABBK2sOAwQBBAELAkAgBy0AAEErRgRAIAJBAmshAyAGQQNqIQcgAkELTw0BDAILIAohAyACQQpJDQELQQAhBQNAIAVB/////wBLDQMgBy0AACICQcEAa0FfcUEKaiACQTBrIAJBOUsbIgJBEE8NAyAHQQFqIQcgAiAFQQR0ciEFIANBAWsiAw0ACwwBC0EAIQUDQCAHLQAAIgJBwQBrQV9xQQpqIAJBMGsgAkE5SxsiAkEPSw0CIAdBAWohByACIAVBBHRyIQUgA0EBayIDDQALC0EAIQMMAQtBASEDCyAPQYCAxABBgIDEACAFIAVBgLADc0GAgMQAa0GAkLx/SRsgA0EBcRsiA0GAgMQARnINASALIAM2AhQgA0EgSSADQf8Aa0EhSXINASALQRRqIAEQqAVFDQUMBwsgBiAIaiEJQQAhByAGIQIDQCAHIQMgAiAJRg0BAn8gAiwAACIKQQBOBEAgAkEBaiEFIApB/wFxDAELIAItAAFBP3EhBCAKQR9xIQcgCkFfTQRAIAJBAmohBSAHQQZ0IARyDAELIAItAAJBP3EgBEEGdHIhBCAKQXBJBEAgAkEDaiEFIAQgB0EMdHIMAQsgAkEEaiEFIAdBEnRBgIDwAHEgAi0AA0E/cSAEQQZ0cnILIgRBLkcEQCADIAJrIAVqIQcgBSECIARBJEcNAQsLAkACQCADBEAgAyAISQ0BIAMgCEcNAiAMIAYgCCANKAIMEQAADQkMBQsgDCAGQQAgDSgCDBEAAA0IDAQLIAMgBmoiBCwAAEG/f0oNAgsgBiAIQQAgA0HouMUAELsJAAsgDCAGIAggDSgCDBEAAEUNBAwFCyAMIAYgAyANKAIMEQAADQQgBCwAAEFASA0BCyADIAZqIQkgCCADayEEDAELCwsgBiAIIAMgCEH4uMUAELsJAAtBASEHCyALQTBqJAAgBw8LIAkgBSACIAVByLjFABC7CQALQQEhAwsgCyADOgAvQdjmyABBKyALQS9qQYC6xQBBkLrFABDgBgALxhgDH38FfQF+IwBBEGsiEyQAIAAgASACEOkEAkACQCADKAIEIhRFBEAgAygCDCEMDAELAkAgAygCDCIMRQ0AIAMoAhQiHEUNACADKAIcIh1FDQAgAygCJCIZRQ0AIAJFDQIgAkEEdCEgIAAoAoQBISEgACgCiAEhHiAAKAJ4ISIgACgCfCEfIAMoAiAhESADKAIYIRIgAygCECEVIAMoAgghECADKAIAIRogDCEPAkACQAJAA0AgHyANIgRBBGoiDUkEQCAEIA0gH0GIv8EAEOoHAAsCQAJAAkAgDSAeTQRAAkACQCAIIBRPDQAgFCAIayIFQQAgBSAUTRsiBUEBRwRAIAVBAkcNAiAIQQJqIQgMAQsgCEEBaiEICyAIIBRBmL/BABCMBwALIA8EQAJAAkAgCCAcTw0AAkACQCAbIBxqQQFrDgIAAQMLIAhBAWohCAwBCyAIQQJqIQgLIAggHEG4v8EAEIwHAAsCQAJAIAggHU8NAAJAAkAgGyAdakEBaw4CAAEDCyAIQQFqIQgMAQsgCEECaiEICyAIIB1BqL/BABCMBwALIAQgGU8NCAJAIBkgBGsiBUEAIAUgGU0bQQFrDgMFBwgACyAXIBpqIgtBCGooAgAhBiALQQRqKAIAIQUgBCAQaigCACEOIBUgF2oiBCgCACEJIARBCGooAgAhGCAEQQRqKAIAIQogEiAXaiIEKgIAISMgBEEIaioCACEkIARBBGoqAgAhJSARIBZqIgQqAgAhJiAEQQRqKgIAIScgBEEIaikCACEoIBYgImoiByALKAIANgIAIAdBCGogBjYCACAHQQRqIAU2AgAgEyAnOAIEIBMgJjgCACATICg3AgggDkH///8DcSEFIA5BgICAgHhxIQQgDkGAgID8B3EiBkGAgID8B0YEQCAEQRB2IAVBDXZyQYAEQQAgBRtyQYD4AXIhCwwECyAEQRB2IQsgBkGAgIC4BEsNAiAGQYCAgMQDTwRAIA5BDHYgDkH/3wBxQQBHcSAGQQ12IAVBDXZqQYCAAWogC3JqIQsMBAsgBkGAgICYA0kNAyAFQYCAgARyIgVB/gAgBkEXdiIEa3YhDiAFQR0gBGsiBHZBAXEEfyAOQQMgBHRBAWsgBXFBAEdqBSAOCyALciELDAMLIAwgDEH4vsEAEIwHAAsgBCANIB5B6L7BABDqBwALIAtBgPgBciELCyAHQQxqIAtB//8DcTYCACAJQf///wNxIQUgCUGAgICAeHEhBAJAIAlBgICA/AdxIgZBgICA/AdGBEAgBEEQdiAFQQ12ckGABEEAIAUbckGA+AFyIQcMAQsgBEEQdiEHIAZBgICAuARNBEAgBkGAgIDEA08EQCAJQQx2IAlB/98AcUEAR3EgBkENdiAFQQ12akGAgAFqIAdyaiEHDAILIAZBgICAmANJDQEgBUGAgIAEciIFQf4AIAZBF3YiBGt2IQ4gBUEdIARrIgR2QQFxBH8gDkEDIAR0QQFrIAVxQQBHagUgDgsgB3IhBwwBCyAHQYD4AXIhBwsgCkH///8DcSEFIApBgICAgHhxIQQCQCAKQYCAgPwHcSILQYCAgPwHRgRAIARBEHYgBUENdnJBgARBACAFG3JBgPgBciEEDAELIARBEHYhBCALQYCAgLgETQRAIAtBgICAxANPBEAgCkEMdiAKQf/fAHFBAEdxIAtBDXYgBUENdmpBgIABaiAEcmohBAwCCyALQYCAgJgDSQ0BIAVBgICABHIiBkH+ACALQRd2IgVrdiEOIAZBHSAFayIFdkEBcQR/IA5BAyAFdEEBayAGcUEAR2oFIA4LIARyIQQMAQsgBEGA+AFyIQQLIBYgIWoiCyAHQf//A3EgBEEQdHI2AgAgGEH///8DcSEFIBhBgICAgHhxIQQCQCAYQYCAgPwHcSIHQYCAgPwHRgRAIARBEHYgBUENdnJBgARBACAFG3JBgPgBciEJDAELIARBEHYhCSAHQYCAgLgETQRAIAdBgICAxANPBEAgGEEMdiAYQf/fAHFBAEdxIAdBDXYgBUENdmpBgIABaiAJcmohCQwCCyAHQYCAgJgDSQ0BIAVBgICABHIiBkH+ACAHQRd2IgVrdiEEIAZBHSAFayIFdkEBcQR/IARBAyAFdEEBayAGcUEAR2oFIAQLIAlyIQkMAQsgCUGA+AFyIQkLICMQxgW8IgZB////A3EhBSAGQYCAgIB4cSEEAkAgBkGAgID8B3EiB0GAgID8B0YEQCAEQRB2IAVBDXZyQYAEQQAgBRtyQYD4AXIhCgwBCyAEQRB2IQogB0GAgIC4BE0EQCAHQYCAgMQDTwRAIAZBDHYgBkH/3wBxQQBHcSAHQQ12IAVBDXZqQYCAAWogCnJqIQoMAgsgB0GAgICYA0kNASAFQYCAgARyIgZB/gAgB0EXdiIFa3YhBCAGQR0gBWsiBXZBAXEEfyAEQQMgBXRBAWsgBnFBAEdqBSAECyAKciEKDAELIApBgPgBciEKCyALQQRqIAlB//8DcSAKQRB0cjYCACAlEMYFvCIGQf///wNxIQUgBkGAgICAeHEhBAJAIAZBgICA/AdxIgdBgICA/AdGBEAgBEEQdiAFQQ12ckGABEEAIAUbckGA+AFyIQoMAQsgBEEQdiEKIAdBgICAuARNBEAgB0GAgIDEA08EQCAGQQx2IAZB/98AcUEAR3EgB0ENdiAFQQ12akGAgAFqIApyaiEKDAILIAdBgICAmANJDQEgBUGAgIAEciIGQf4AIAdBF3YiBWt2IQQgBkEdIAVrIgV2QQFxBH8gBEEDIAV0QQFrIAZxQQBHagUgBAsgCnIhCgwBCyAKQYD4AXIhCgsgJBDGBbwiBkH///8DcSEFIAZBgICAgHhxIQQCQCAGQYCAgPwHcSIHQYCAgPwHRgRAIARBEHYgBUENdnJBgARBACAFG3JBgPgBciEJDAELIARBEHYhCSAHQYCAgLgETQRAIAdBgICAxANPBEAgBkEMdiAGQf/fAHFBAEdxIAdBDXYgBUENdmpBgIABaiAJcmohCQwCCyAHQYCAgJgDSQ0BIAVBgICABHIiBkH+ACAHQRd2IgVrdiEEIAZBHSAFayIFdkEBcQR/IARBAyAFdEEBayAGcUEAR2oFIAQLIAlyIQkMAQsgCUGA+AFyIQkLIAtBCGogCkH//wNxIAlBEHRyNgIAIAtBDGogExDNBDYCACAXQQxqIRcgG0EDayEbIAhBA2ohCCAPQQFrIQ8gICAWQRBqIhZHDQEMBwsLIARBAWohBAwCCyAEQQJqIQQMAQsgBEEDaiEECyAEIBlByL/BABCMBwALIAAgASACIAMoAgAgFBDCBQsgDARAIAMoAgghBSAAIAEgAhDpBCACBEAgAkECdCEEIAAoAnhBDGohFSAAKAJ8IRogDCEIA0ACQAJAAkAgGiARQQNqSwRAIAhFDQIgBSARaigCACIQQf///wNxIQYgEEGAgICAeHEhDyAQQYCAgPwHcSISQYCAgPwHRgRAIA9BEHYgBkENdnJBgARBACAGG3JBgPgBciENDAQLIA9BEHYhDSASQYCAgLgESw0BIBJBgICAxANPBEAgEEEMdiAQQf/fAHFBAEdxIBJBDXYgBkENdmpBgIABaiANcmohDQwECyASQYCAgJgDSQ0DIAZBgICABHIiBkH+ACASQRd2Ig9rdiEQIAZBHSAPayIPdkEBcQR/IBBBAyAPdEEBayAGcUEAR2oFIBALIA1yIQ0MAwsgESARQQRqIBpByLPBABDqBwALIA1BgPgBciENDAELIAwgDEG4s8EAEIwHAAsgFSANQf//A3E2AgAgFUEQaiEVIAhBAWshCCAEIBFBBGoiEUcNAAsLIABBAToAwAELIAMoAhQiDARAIAAgASACIAMoAhAgDBCkAgsgAygCHCIMBEAgACABIAIgAygCGCAMEJ4CCyADKAIkIgxFDQAgACABIAIgAygCICAMEKAFCyAAQQE6AMABIAMoAjwhBCADKAI4IQ0gAygCNCEIIAMoAjAhDyADKAIsIgwEQCAAIAEgAiADKAIoIAwQ5gELIAgEQCAAIAEgAiAPIAgQpwELIAQEQCAAIAEgAiANIAQQlAELIAMoAkQiDARAIAAgASACIAMoAkAgDBC2BAsgAygCTCIMBEAgACABIAIgAygCSCAMELcECyATQRBqJAALuB0BBX8jAEEwayICJAACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAC0AAEEBaw4cAQIDBAUGBwgJCgsMDQ4PEBESExQVFhcYGRobHAALQQEhAyABKAIAIgRB86XHAEEHIAEoAgQiBigCDCIFEQAADRwgAEEEaiEAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0eIAAgARCuAkUNAQweCyAEQduBwgBBAiAFEQAADR0gAkEBOgAMIAIgBjYCGCACIAQ2AhQgAkHggcIANgIkIAIgASkCCDcCKCACIAJBDGo2AhwgAiACQRRqNgIgIAAgAkEgahCuAg0dIAIoAiBB2YHCAEECIAIoAiQoAgwRAAANHQsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDBwLQQEhAyABKAIAIgRB58nEAEEUIAEoAgQiBigCDCIFEQAADRsgAEEBaiEAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0dIAAgARDZAkUNAQwdCyAEQduBwgBBAiAFEQAADRwgAkEBOgAMIAIgBjYCGCACIAQ2AhQgAkHggcIANgIkIAIgASkCCDcCKCACIAJBDGo2AhwgAiACQRRqNgIgIAAgAkEgahDZAg0cIAIoAiBB2YHCAEECIAIoAiQoAgwRAAANHAsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDBsLQQEhAyABKAIAIgRB+8nEAEEUIAEoAgQiBigCDCIFEQAADRogAEEBaiEAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0cIAAgARDZAkUNAQwcCyAEQduBwgBBAiAFEQAADRsgAkEBOgAMIAIgBjYCGCACIAQ2AhQgAkHggcIANgIkIAIgASkCCDcCKCACIAJBDGo2AhwgAiACQRRqNgIgIAAgAkEgahDZAg0bIAIoAiBB2YHCAEECIAIoAiQoAgwRAAANGwsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDBoLIAEoAgBBj8rEAEEMIAEoAgQoAgwRAAAhAwwZC0EBIQMgASgCACIEQZvKxABBEiABKAIEIgYoAgwiBREAAA0YIABBAWohAAJAIAEtAApBgAFxRQRAIARBu7PFAEEBIAURAAANGiAAIAEQ2QJFDQEMGgsgBEHbgcIAQQIgBREAAA0ZIAJBAToADCACIAY2AhggAiAENgIUIAJB4IHCADYCJCACIAEpAgg3AiggAiACQQxqNgIcIAIgAkEUajYCICAAIAJBIGoQ2QINGSACKAIgQdmBwgBBAiACKAIkKAIMEQAADRkLIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwYCyABKAIAQa3KxABBDiABKAIEKAIMEQAAIQMMFwsgASgCAEG7ysQAQRkgASgCBCgCDBEAACEDDBYLIAEoAgBB1MrEAEEYIAEoAgQoAgwRAAAhAwwVCyABKAIAQezKxABBFiABKAIEKAIMEQAAIQMMFAsgASgCAEGCy8QAQQ0gASgCBCgCDBEAACEDDBMLIAEoAgBBj8vEAEERIAEoAgQoAgwRAAAhAwwSC0EBIQMgAiAAQQFqNgIMIAEoAgAiAEGgy8QAQRggASgCBCIFKAIMIgQRAAANEQJAIAEtAApBgAFxRQRAIABBu7PFAEEBIAQRAAANEyACQQxqIAEQxARFDQEMEwsgAEHbgcIAQQIgBBEAAA0SIAJBAToAEyACIAU2AhggAiAANgIUIAJB4IHCADYCJCACIAEpAgg3AiggAiACQRNqNgIcIAIgAkEUajYCICACQQxqIAJBIGoQxAQNEiACKAIgQdmBwgBBAiACKAIkKAIMEQAADRILIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwRC0EBIQMgAiAAQQFqNgIMIAEoAgAiAEG4y8QAQRQgASgCBCIFKAIMIgQRAAANEAJAIAEtAApBgAFxRQRAIABBu7PFAEEBIAQRAAANEiACQQxqIAEQxARFDQEMEgsgAEHbgcIAQQIgBBEAAA0RIAJBAToAEyACIAU2AhggAiAANgIUIAJB4IHCADYCJCACIAEpAgg3AiggAiACQRNqNgIcIAIgAkEUajYCICACQQxqIAJBIGoQxAQNESACKAIgQdmBwgBBAiACKAIkKAIMEQAADRELIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwQC0EBIQMgAiAAQQFqNgIMIAEoAgAiAEHMy8QAQRUgASgCBCIFKAIMIgQRAAANDwJAIAEtAApBgAFxRQRAIABBu7PFAEEBIAQRAAANESACQQxqIAEQxARFDQEMEQsgAEHbgcIAQQIgBBEAAA0QIAJBAToAEyACIAU2AhggAiAANgIUIAJB4IHCADYCJCACIAEpAgg3AiggAiACQRNqNgIcIAIgAkEUajYCICACQQxqIAJBIGoQxAQNECACKAIgQdmBwgBBAiACKAIkKAIMEQAADRALIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwPCyABKAIAQeHLxABBDCABKAIEKAIMEQAAIQMMDgsgASgCAEHty8QAQQ4gASgCBCgCDBEAACEDDA0LIAEoAgBB+8vEAEEOIAEoAgQoAgwRAAAhAwwMC0EBIQMgASgCACIEQYnMxABBDyABKAIEIgYoAgwiBREAAA0LIABBAWohAAJAIAEtAApBgAFxRQRAIARBu7PFAEEBIAURAAANDSAAIAEQqwNFDQEMDQsgBEHbgcIAQQIgBREAAA0MIAJBAToADCACIAY2AhggAiAENgIUIAJB4IHCADYCJCACIAEpAgg3AiggAiACQQxqNgIcIAIgAkEUajYCICAAIAJBIGoQqwMNDCACKAIgQdmBwgBBAiACKAIkKAIMEQAADQwLIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwLCyABKAIAQZjMxABBESABKAIEKAIMEQAAIQMMCgtBASEDIAIgAEEBajYCDCABKAIAIgBBqczEAEERIAEoAgQiBSgCDCIEEQAADQkCQCABLQAKQYABcUUEQCAAQbuzxQBBASAEEQAADQsgAkEMaiABEMQERQ0BDAsLIABB24HCAEECIAQRAAANCiACQQE6ABMgAiAFNgIYIAIgADYCFCACQeCBwgA2AiQgAiABKQIINwIoIAIgAkETajYCHCACIAJBFGo2AiAgAkEMaiACQSBqEMQEDQogAigCIEHZgcIAQQIgAigCJCgCDBEAAA0KCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMCQtBASEDIAEoAgAiBEG6zMQAQRkgASgCBCIGKAIMIgURAAANCCAAQQFqIQACQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQogACABEKcERQ0BDAoLIARB24HCAEECIAURAAANCSACQQE6AAwgAiAGNgIYIAIgBDYCFCACQeCBwgA2AiQgAiABKQIINwIoIAIgAkEMajYCHCACIAJBFGo2AiAgACACQSBqEKcEDQkgAigCIEHZgcIAQQIgAigCJCgCDBEAAA0JCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMCAtBASEDIAEoAgAiBEHTzMQAQRogASgCBCIGKAIMIgURAAANByAAQQFqIQACQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQkgACABEKcERQ0BDAkLIARB24HCAEECIAURAAANCCACQQE6AAwgAiAGNgIYIAIgBDYCFCACQeCBwgA2AiQgAiABKQIINwIoIAIgAkEMajYCHCACIAJBFGo2AiAgACACQSBqEKcEDQggAigCIEHZgcIAQQIgAigCJCgCDBEAAA0ICyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMBwtBASEDIAEoAgAiBEHtzMQAQRsgASgCBCIGKAIMIgURAAANBiAAQQFqIQACQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQggACABEKcERQ0BDAgLIARB24HCAEECIAURAAANByACQQE6AAwgAiAGNgIYIAIgBDYCFCACQeCBwgA2AiQgAiABKQIINwIoIAIgAkEMajYCHCACIAJBFGo2AiAgACACQSBqEKcEDQcgAigCIEHZgcIAQQIgAigCJCgCDBEAAA0HCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMBgsgASgCAEGIzcQAQRYgASgCBCgCDBEAACEDDAULQQEhAyABKAIAIgRBns3EAEESIAEoAgQiBigCDCIFEQAADQQCQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQYgACgCCCAAKAIMIAEQtQJFDQEMBgsgBEHbgcIAQQIgBREAAA0FIAJBAToADCACIAY2AhggAiAENgIUIAJB4IHCADYCJCACIAEpAgg3AiggAiACQQxqNgIcIAIgAkEUaiIENgIgIAAoAgggACgCDCACQSBqELUCDQUgBEHZgcIAQQIQrwMNBQsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDAQLQQEhAyABKAIAIgRBsM3EAEEQIAEoAgQiBigCDCIFEQAADQMCQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQUgACgCCCAAKAIMIAEQtQJFDQEMBQsgBEHbgcIAQQIgBREAAA0EIAJBAToADCACIAY2AhggAiAENgIUIAJB4IHCADYCJCACIAEpAgg3AiggAiACQQxqNgIcIAIgAkEUaiIENgIgIAAoAgggACgCDCACQSBqELUCDQQgBEHZgcIAQQIQrwMNBAsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDAMLIAEoAgBBwM3EAEETIAEoAgQoAgwRAAAhAwwCCyABKAIAQdPNxABBECABKAIEKAIMEQAAIQMMAQsgASgCAEHjzcQAQQwgASgCBCgCDBEAACEDCyACQTBqJAAgAwveGQMmfwp7BX4jAEEgayIIJAAgAC8BJCIEQQ9qIgtB8P8DcSEFIAtB8P8HcSEMIAAoAiAhCSAAKAIcIRIgACgCFCEGIAAoAhAhEyAAKAIIIQcgACgCBCEUAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAMEQCAMQf//A3EiDEUNASAJIAVBAXYiCnAhACAGIApwIQMgBEUNAiAHIAVuIgcgAiAEQQJ0IhduIgIgAiAHSxsiJkUNEiAJIABrIRggBiADayEZIAQgDEsNESAEQQFxIScgCq0hNiAXQQhrQQN2IgAgBEEBdiICIAAgAkkbIgAgBCACa0H//wNxIhAgACAQSRsiIUF/cyAhQQFqIgBBA3EiAkEEIAIbIgJqISIgBEH+/wNxIhogACACayIdQQF0IihrISMgF0H4/w9xIhUgHUEDdCIpayEkIAEhDCAUIRFBACEHQQAhCQNAAn4gCUUgNEKAgICAEFRyRQRAIDSnIQQgNEKAgICAcINCgICAgBB9DAELIAogGUsNFCAZIAprIRkgNiE0IBMiCSAKIgRqIRNCgICAgBALITcCfiAHRSA1QoCAgIAQVHJFBEAgNachACA1QoCAgIBwg0KAgICAEH0MAQsgCiAYSw0UIBggCmshGCA2ITUgEiIHIAoiAGohEkKAgICAEAshOCAEIBBJDQQgACAQSQ0FIBQgBSAbbGohHCABIBcgG2xqIR4gNEL/////D4MgNUL/////D4MhNSAJIBBqISUgByELIAkhDQJAAkAgFUUNACAVIQYgHiEAIBohBCAcIQ4gIUEETwRAIA4gKGohDiAHIB1qIQsgCSAdaiENIAAgKWohACAJIQMgByEPICIhAiAMIQQgESEGA0AgBEEYaiAP/VwAAP2JAf2pASIv/QwlZgAAJWYAACVmAAAlZgAA/bUBQQj9rQH9DGbI//9myP//Zsj//2bI///9rgEiMCAG/V0AACItICv9DQACBAYAAAAAAAAAAAAAAAD9iQH9qQH9DIVKAACFSgAAhUoAAIVKAAAiMf21AUEI/a0BIi79rgFBBv2sAf0MAAAAAAAAAAAAAAAAAAAAACIr/bgB/Qz/AAAA/wAAAP8AAAD/AAAAIiz9tgEiKv0bAzoAACAEQRBqICr9GwI6AAAgBEEIaiAq/RsBOgAAIAQgKv0bADoAACAEQRpqIC4gA/1cAAD9iQH9qQEiMv0MGoEAABqBAAAagQAAGoEAAP21AUEI/a0B/Qzruv//67r//+u6///ruv///a4BIjP9rgFBBv2sASAr/bgBICz9tgEiKv0bAzoAACAEQRJqICr9GwI6AAAgBEEKaiAq/RsBOgAAIARBAmogKv0bADoAACAEQRxqIC0gK/0NAQMFBwAAAAAAAAAAAAAAAP2JAf2pASAx/bUBQQj9rQEiLSAw/a4BQQb9rAEgK/24ASAs/bYBIir9GwM6AAAgBEEUaiAq/RsCOgAAIARBDGogKv0bAToAACAEQQRqICr9GwA6AAAgBEEZaiAuIC/9DAg0AAAINAAACDQAAAg0AAD9tQFBCP2tASAy/QwTGQAAExkAABMZAAATGQAA/bUBQQj9rQH9rgEiLv2xAf0MBCIAAAQiAAAEIgAABCIAACIv/a4BQQb9rAEgK/24ASAs/bYBIir9GwM6AAAgBEERaiAq/RsCOgAAIARBCWogKv0bAToAACAEQQFqICr9GwA6AAAgBEEdaiAtIC79sQEgL/2uAUEG/awBICv9uAEgLP22ASIq/RsDOgAAIARBFWogKv0bAjoAACAEQQ1qICr9GwE6AAAgBEEFaiAq/RsAOgAAIARBHmogLSAz/a4BQQb9rAEgK/24ASAs/bYBIiv9GwM6AAAgBEEWaiAr/RsCOgAAIARBDmogK/0bAToAACAEQQZqICv9GwA6AAAgA0EEaiEDIA9BBGohDyAEQSBqIQQgBkEIaiEGIAJBBGoiAg0ACyAkIQYgIyEECwNAIARFDQEgDSAlRg0CIABBAmpB/wEgDi0AAEGFlQFsQQh2IgIgDS0AACIPQZqCAmxBCHZBlYoBayIDakEGdSIfQQAgH0EAShsiHyAfQf8BThs6AAAgAEH/ASALLQAAIh9BpcwBbEEIdkGa7wBrIiAgAmpBBnUiFkEAIBZBAEobIhYgFkH/AU4bOgAAIABBBmpB/wEgAyAOQQFqLQAAQYWVAWxBCHYiA2pBBnUiFkEAIBZBAEobIhYgFkH/AU4bOgAAIABBBGpB/wEgAyAgakEGdSIgQQAgIEEAShsiICAgQf8BThs6AAAgAEEBakH/ASACIB9BiOgAbEEIdiAPQZMybEEIdmoiAmtBhMQAakEGdSIPQQAgD0EAShsiDyAPQf8BThs6AAAgAEEFakH/ASADIAJrQYTEAGpBBnUiAkEAIAJBAEobIgIgAkH/AU4bOgAAIABBCGohACAOQQJqIQ4gC0EBaiELIA1BAWohDSAEQQJrIQQgBkEIayIGDQALCyAnRSALIAcgEGpGciANICVGcg0AIBUgHmoiAEH/ASAaIBxqLQAAQYWVAWxBCHYiAiANLQAAIgNBmoICbEEIdmpBlYoBa0EGdSIEQQAgBEEAShsiBCAEQf8BThs6AAIgAEH/ASACIAstAAAiBEGlzAFsQQh2akGa7wBrQQZ1IgZBACAGQQBKGyIGIAZB/wFOGzoAACAAQf8BIAIgA0GTMmxBCHYgBEGI6ABsQQh2amtBhMQAakEGdSIAQQAgAEEAShsiACAAQf8BThs6AAELIDeEITQgNSA4hCE1IAwgF2ohDCAFIBFqIREgG0EBaiIbICZJDQALDBILIAQgB0sNBCAEIARBAXZrIgMgBksNBSADIAlLDQYgAiAEQQJ0IgpJDQcgAC8BJiEVIAEgCiAUIAQgEyADIBIgAxBuIARFDQggAiAKayICIARBA3QiDXAhDyAFIBVsIgAgBUkgACAHS3INCSAMQf//A3EiDEUNCiAFQQF2IQcgASAKaiEaIAAgBWsiACAAIAVBAXQiEXAiHmshACAFIBRqIRwCQCACIA9rIiIgDUkNACAEIAxLBEAgBSAJSyAFIAZLciAAIBFJcg0BQQAgBCAFQejpxAAQ6gcACyADIAdLBEAgBSAJSyAFIAZLciAAIBFJcg0BQQAgAyAHQdjpxAAQ6gcACyAAIBFJIAUgBktyIAUgCUtyIQIgBSAHayIMIANJBEAgAg0BQQAgAyAMQcjpxAAQ6gcACyACDQAgGiAKIBwgBCATIAMgByATaiIjIAMgEiADIAcgEmoiJCADEGYgCiAaaiAKIAUgHGogBCAjIAMgEyADICQgAyASIAMQZiAiIA1rIgwgDUkNACAHQQFrIRAgBiAHayEXIAUgE2ohGCAEQQR0IRkgBEEMbCEbIAUgEmohHSALQfD/A3FBBHYiAkEGdCEhIAJBMGwhJUEAIQsgACECA0AgAiARayICIBFJIAYgC2pBAWsgEElyIAsgF2ogBUkgCSALakEBayAQSXJyDQEgCSALIAdrIgtqIAVJDQEgASAbaiAKIBQgJWogBCAOICNqIiYgAyAOIBhqIicgAyAOICRqIiggAyAOIB1qIikgAxBmIAEgGWogCiAUICFqIAQgJyADICYgAyApIAMgKCADEGYgESAUaiEUIAEgDWohASAHIA5qIQ4gDCANayIMIA1PDQALCyAPRQ0RIAYgFUEBcSAVQQF2akEBayAHbCIBSQ0LIAEgCUsNDCAEIB5LDQ0gAyAGIAFrIgJLDQ4gAyAJIAFrIgJLDQ8gGiAiaiAPIAAgHGogBCABIBNqIAMgASASaiADEG4MEQsgCEEANgIYIAhBATYCDCAIQbyhxwA2AgggCEIENwIQIAhBCGpByOrEABCNCAALIAhBADYCGCAIQQE2AgwgCEG8occANgIIIAhCBDcCECAIQQhqQdjqxAAQjQgAC0EAIBAgBEH46sQAEOoHAAtBACAQIABB6OrEABDqBwALQQAgBCAHQbjqxAAQ6gcAC0EAIAMgBkGo6sQAEOoHAAtBACADIAlBmOrEABDqBwALQQAgCiACQYjqxAAQ6gcACyAIQQA2AhggCEEBNgIMIAhBvKHHADYCCCAIQgQ3AhAgCEEIakHY6MQAEI0IAAsgBSAAIAdB+OnEABDqBwALIAhBADYCGCAIQQE2AgwgCEG8occANgIIIAhCBDcCECAIQQhqQejoxAAQjQgACyABIAYgBkG46cQAEOoHAAsgASAJIAlBqOnEABDqBwALQQAgBCAeQZjpxAAQ6gcAC0EAIAMgAkGI6cQAEOoHAAtBACADIAJB+OjEABDqBwALIAogGUsgCiAYS3INAEEAIAQgBUGI68QAEOoHAAsgCEEgaiQAC50YBCB/AX0BewF+IwBBsMAAayIHJAACQAJAAkAgAiADQf8BcUECdCIFKAKAhUlwRQRAQQEhCCACIAUoApCFSW5BAnQiDARAAkAgDEEATgRAIAdBADYCtCAgB0EwakEBIAwgB0GwIGoQhQcgBygCMEEBRw0BIAcoAjghCCAHKAI0IQQLIAcgCDYCtCAgByAENgKwIEHgvsQAQTYgB0GwIGpB0L7EAEGYv8QAEOAGAAsgBygCNCEICyAHQQA2AiwgByAINgIoIAcgDDYCJAJAAkAgA0H/AXFBAWsOAwMBAQALIAJBA24iBUECdCIOBEAgDCAOSQRAIAdBJGpBACAOEO8FIAcoAighCCAHKAIsIQQLIAQgCGohAyAOQQFrIgIEQCADQQAgAvwLAAsgAiADakEAOgAAIAQgDmohBAsgByAENgIsIARBAnYiAiAFIAIgBUkbIgJFDQNBACEFIAJBAUcEQCACQQFxIAJB/v///wNxIQIgCCEGIAEhBANAIAZBA2pB/wE6AAAgBiAELwAAOwAAIAZBAmogBEECai0AADoAACAGQQdqQf8BOgAAIAZBBmogBEEFai0AADoAACAGQQRqIARBA2ovAAA7AAAgBkEIaiEGIARBBmohBCACIAVBAmoiBUcNAAtFDQQLIAggBUECdGoiAkH/AToAAyACIAEgBUEDbGoiAS0AAjoAAiACIAEvAAA7AAAMAwsgB0EQaiAHQSxqKAIANgIAIAcgBykCJDcDCCAHQbAgahDuAiAHKAKwIEUEQCAHQSRqQQEQ0QkLAkAgAiADQf8BcUECdCgCoIVJbkECdCIRIAcoAhAiBk0EQCAHKAIMIRIMAQsgESAGayIFIAcoAgggBmtLBEAgB0EIaiAGIAUQ7wUgBygCECEGCyAHKAIMIhIgBmohBCAFQQJPBH8gBUEBayIFBEAgBEEAIAX8CwALIBIgBSAGaiIGagUgBAtBADoAACAGQQFqIRELIAcgETYCEAJ/An8CQAJAAkACQCADQf8BcUEBaw4DAQIDAAsgB0EwakEAQYAg/AsAIAdBsCBqQQBBgCD8CwAgAkEDbiENQQEhHkEDDAQLIAdBMGpBAEGAIPwLACAHQbAgakEAQYAg/AsAIAJBAnYMAgsgB0EwakEAQYAg/AsAIAdBsCBqQQBBgCD8CwBBASEeIAIhDUEDDAILIAdBMGpBAEGAIPwLACAHQbAgakEAQYAg/AsAIAJBAXYLIQ1BBAshFgJAAkACQCANBEAgDUEIdiANQf8BcUEAR2oiBEEBayIFQQAgBCAFTxshBiABIRcgASEYIAEhDCABIQ5BgAIhGgNAIAYhHyAWIA0gGiANIBpJGyITIBRBCHRrIghsIhVB//8DcUEDbiEGIBYgEyAgamxB//8DcUEDbiEEAkACQAJAAkAgDSAPQYACaiIFIAUgDUsbIhAgD2siGyAWbCILQYEISQRAIBNBAnQhHCAWIBMgIWoiHWwhCQJAAkACQAJAAkACQAJAIANB/wFxQQFrDgMBBQIACyAQQQNsIgQgD0EDbCIFTyACIARPcQ0CIAUgBCACQfi8xAAQ6gcACyAQQQJ0IgQgD0ECdCIFTyACIARPcQ0CIAUgBCACQYi9xAAQ6gcACyAQQQF0IgUgD0EBdCIKTyACIAVPcQ0DIAogBSACQdi9xAAQ6gcACyALIAQgBWsiBSAFIAtLG0UNByAJICIgE0EDbCIEaiIFIAUgCUsbIQpBACEGIBUgFEGAemwgBGoiBSAFIBVLGyIJQQRPBEAgCkF8cSEIIAlBfHEhBiAHQTBqIQQgFyEFA0AgBCAF/VwAAP2JAf2pAf37Af0MgYCAO4GAgDuBgIA7gYCAO/3mAf0LAgAgBUEEaiEFIARBEGohBCAIQQRrIggNAAsgBiAJRg0ICyAHQTBqIAZBAnRqIQQDQCAEIAYgF2otAACzQ4GAgDuUOAIAIARBBGohBCAKIAZBAWoiBkcNAAsMBwsgCyAEIAVrIgUgBSALSxtFDQYgCSAZIBxqIgUgBSAJSxshCkEAIQYgFSAcIBRBCnRrIgUgBSAVSxsiCUEETwRAIApBfHEhCCAJQXxxIQYgB0EwaiEEIBghBQNAIAQgBf1cAAD9iQH9qQH9+wH9DIGAgDuBgIA7gYCAO4GAgDv95gH9CwIAIAVBBGohBSAEQRBqIQQgCEEEayIIDQALIAYgCUYNBwsgB0EwaiAGQQJ0aiEEA0AgBCAGIBhqLQAAs0OBgIA7lDgCACAEQQRqIQQgCiAGQQFqIgZHDQALDAYLIA8gEEsNAiALQf//A3FBA24iBSAbIAUgG0kbRQ0FIAQgHSAEIB1JGyEKQQAhBCAGIAggBiAISRsiCUEETwRAIApB/P8BcSEIIAlB/P8BcSEEIAdBMGohBiAMIQUDQCAGIAX9XAAA/YkB/akB/fsB/QyBgIA7gYCAO4GAgDuBgIA7/eYBIiUgJf0NCAkKCwwNDg8MDQ4PDA0OD/0LAiAgBiAlICX9DQQFBgcEBQYHCAkKCwgJCgv9CwIQIAYgJSAl/Q0AAQIDAAECAwABAgMEBQYH/QsCACAFQQRqIQUgBkEwaiEGIAhBBGsiCA0ACyAEIAlGDQYLIAdBMGogBEEMbGohBgNAIAZBCGogBCAMai0AALNDgYCAO5QiJDgCACAGQQRqICQ4AgAgBiAkOAIAIAZBDGohBiAKIARBAWoiBEcNAAsMBQsgC0ECdiIEIAUgCmtBAXYiBSAEIAVJG0UNBEEAIQUgFUECdiIGIBNBAXQiCCAUQQl0a0EBdiIEIAQgBksbIgZBAUYNAyAJQQJ2IgQgCCAjakEBdiIFIAQgBUkbQf7///8DcSEJIAZBAXEhCEEAIQUgB0EwaiEGIA4hBANAIAYgBP1cAAD9iQH9qQH9+wH9DIGAgDuBgIA7gYCAO4GAgDv95gEiJSAl/Q0ICQoLCAkKCwgJCgsMDQ4P/QsCECAGICUgJf0NAAECAwABAgMAAQIDBAUGB/0LAgAgBEEEaiEEIAZBIGohBiAJIAVBAmoiBUcNAAsMAgtBACALQYAIQei9xAAQ6gcACyAPIBAgAkGYvcQAEOoHAAsgCEUNAQsgB0EwaiAFQQR0aiIEIAEgCmogBUEBdGoiBS0AALNDgYCAO5QiJDgCCCAEICQ4AgQgBCAkOAIAIAQgBS0AAbNDgYCAO5Q4AgwLAn8gHkUEQCAbQQJ0IgQgC0sNBSAHQTBqDAELIAtB//8DcUEDbiEFAkAgC0EDSQ0AQYACIAUgBUGAAk8bIQlBASEFIAdBsCBqIQYgB0EwaiEEA0AgBiAEKgIAOAIAIAZBDGpBgICA/AM2AgAgBkEEaiAEQQRqKQIANwIAIAUgHUYNASAEQQxqIQQgBkEQaiEGIAUgCUkgBUEBaiEFDQALCyAbQQJ0IgRBgQhPDQMgB0GwIGoLIQYgEEECdCIIIBFLIAggD0ECdCIFSXINBCAIIAVrIgUgBCAEIAVLGwRAQQAgHGshBSASIQQDQCAEQf8BIAYqAgBDAAB/Q5QQuQciJPwBQQAgJEMAAAAAYBsgJEMAAH9DXhs6AAAgBEEBakH/ASAGQQRqKgIAQwAAf0OUELkHIiT8AUEAICRDAAAAAGAbICRDAAB/Q14bOgAAIARBAmohBCAGQQhqIQYgGSAFQQJqIgVHDQALCyASQYAIaiESIBdBgAZqIRcgIkGABmshIiAYQYAIaiEYIBlBgAhrIRkgDEGAAmohDCAgQYACayEgICNBgARrISMgIUGAAmshISAOQYAEaiEOIBRBAWohFCAfQQFrIQYgGiIPQYACaiEaIB8NAAsLIAAgBykDCDcCACAAQQhqIAdBEGooAgA2AgAMBgtBACAEQYAIQai9xAAQ6gcAC0EAIAQgC0HIvcQAEOoHAAsgBSAIIBFBuL3EABDqBwALQfi9xABBxQBBwL7EABDrBwALIAcCfwJAIAIgDEsEQCAHQSRqQQAgAhDvBSAHKAIoIQggBygCLCEGDAELQQAgAkUNARoLIAIEQCAGIAhqIAEgAvwKAAALIAIgBmoLNgIsCyAHQSBqIAdBLGooAgAiATYCACAHIAcpAiQiJjcDGCAAQQhqIAE2AgAgACAmNwIACyAHQbDAAGokAAuOHgINfwF+IwBBsAFrIgIkACABKAIMIQcCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCABKAIUIgQgASgCECIGSQRAIAFBDGohBQNAAkACQCAEIAdqLQAAIgNBCWsOJQEBCwsBCwsLCwsLCwsLCwsLCwsLCwsLAQsICwsLCwsLCwsLCwcACyADQdsAaw4hCAoKCgoKCgoKCgoFCgoKCgoKCgMKCgoKCgQKCgoKCgoJCgsgASAEQQFqIgQ2AhQgBCAGRw0ACyAGIQQLIAJBCGogByAGIARBAWoiASAGIAEgBkkbEPkBIAIoAgwhAyACKAIIIQVBFBBxIgFFDRsgASAFNgIMIAFBBTYCACAAIAE2AgQgAEGVgICAeDYCACABIAM2AhAMGgsgASAEQQFqIgU2AhQCQCAFIAZPDQAgASAEQQJqIgM2AhQgBSAHai0AAEH1AEcNGCADIAUgBiAFIAZLGyIFRg0AIAEgBEEDaiIJNgIUIAMgB2otAABB7ABHBEAgCSEDDBkLIAUgCUYNACABIARBBGoiAzYCFCAHIAlqLQAAQewARw0YIABCkoCAgAg3AwAMGgsgAkEQaiAHIAYgBRD5ASACKAIUIQEgAigCECEDQRQQcSIERQ0aIARBBTYCAAwYCyABIARBAWoiBTYCFAJAIAUgBk8NACABIARBAmoiAzYCFCAFIAdqLQAAQfIARw0VIAMgBSAGIAUgBksbIgVGDQAgASAEQQNqIgk2AhQgAyAHai0AAEH1AEcEQCAJIQMMFgsgBSAJRg0AIAEgBEEEaiIDNgIUIAcgCWotAABB5QBHDRUgAEKAgICAGDcDAAwZCyACQSBqIAcgBiAFEPkBIAIoAiQhASACKAIgIQNBFBBxIgRFDRkgBEEFNgIADBULIAEgBEEBaiIFNgIUAkAgBSAGTw0AIAEgBEECaiIDNgIUIAUgB2otAABB4QBHDRIgAyAFIAYgBSAGSxsiBUYNACABIARBA2oiCTYCFCADIAdqLQAAQewARwRAIAkhAwwTCyAFIAlGDQAgASAEQQRqIgg2AhQgByAJai0AAEHzAEcEQCAIIQMMEwsgBSAIRg0AIAEgBEEFaiIDNgIUIAcgCGotAABB5QBHDRIgAEKAgICACDcDAAwYCyACQTBqIAcgBiAFEPkBIAIoAjQhASACKAIwIQNBFBBxIgRFDRggBEEFNgIADBILIAEgBEEBajYCFCACQeAAaiABQQAQxwMgAikDYCIPQgNRDQ8gACACKQNoNwMIIABBADYCBCAAIA+nQQJ0KALM60E2AgAMFgsgAUEANgIIIAEgBEEBajYCFCACQeAAaiAFIAEQggIgAigCZCEFIAIoAmAiA0ECRg0NIAIoAmghASADQQFxRQ0EIAFBAEgNAwJAIAFFBEBBASEDDAELIAEQcSIDRQ0XCyABBEAgAyAFIAH8CgAACyAAIAE2AgwgACADNgIIIAAgATYCBCAAQYyAgIB4NgIADBULIAEgAS0AGEEBayIFOgAYIARBAWohAyAFQf8BcUUNCyABIAM2AhQgAkEBOgCUASACIAE2ApABIAJCgICAgIABNwKgAUEAIQRBCCEDQQghBgJAA0ACQCACIAQ2AqgBIAJB4ABqIAJBkAFqEJ8DAkACQCACLQBgQQFGBEAgAigCZCEFDAELIAItAGFBAUcNAiACQeAAaiACKAKQARCCASACKAJkIQUgAigCYCIMQZWAgIB4Rw0BCyACKAKkASEGIAQEQCAGIQMDQCADEP4CIANBEGohAyAEQQFrIgQNAAsLQZWAgIB4IQRBASEJIAIoAqABIgNFDQMgBkEEaygCACIIQXhxIgcgA0EEdCIDQQRBCCAIQQNxIggbckkNCCAIQQAgByADQSdqSxsNCSAGEKICDAMLIAIpA2ghDyACKAKgASAERgRAIwBBIGsiBiQAAkACQCACQaABaiIIKAIAIgdB////P0sNAEEEIAdBAXQiDSANQQRNGyINQQR0Ig5B+P///wdLDQAgBiAHBH8gBiAHQQR0NgIcIAYgCCgCBDYCFEEIBUEACzYCGCAGQQhqQQggDiAGQRRqEIUHIAYoAghBAUcNASAGKAIQIQogBigCDCELCyALIApBxKLBABCTCQALIAYoAgwhByAIIA02AgAgCCAHNgIEIAZBIGokACACKAKkASEGCyADIAZqIgggDzcCACAIQQRrIAU2AgAgCEEIayAMNgIAIANBEGohAyAEQQFqIQQMAQsLQZSAgIB4IQQgAikCpAEhDyACKAKgASEFCyABIAEtABhBAWo6ABggAiABELoDIgM2AnAgAiAPNwNoIAIgBTYCZCACIAQ2AmACQAJAIAlFBEAgAw0BIA9CIIinIQMgD6chCQwMC0GVgICAeCEEIANFDQEgAkHwAGoQsQQMAQsgAkHgAGoQ/gJBlYCAgHghBCADIQULDAkLIAEgAS0AGEEBayIFOgAYIARBAWohAyAFQf8BcUUNByABIAM2AhQgAkEBOgCAASACIAE2AnwgAkEANgKMASACQoCAgICAATcChAFBCCEFA0AgAkHgAGogAkH8AGoQ0QICQAJAIAItAGBBAUYEQCACKAJkIQYMAQsgAi0AYUUEQCAJrSEPIAIoAoQBIQQMCgsgAigCfCIIQQA2AgggCCAIKAIUQQFqNgIUIAJB4ABqIAhBDGogCBCCAiACKAJkIQYgAigCYCIDQQJGDQAgAigCaCEEAn8gA0EBcQRAIARBAEgNCgJAIARFBEBBASEDDAELIAQQcSIDRQ0aCyAEBEAgAyAGIAT8CgAACyAEIQZBjICAgHgMAQsgBCEDQY2AgIB4CyELIAIgBDYCrAEgAiADNgKoASACIAY2AqQBIAIgCzYCoAEgCCgCDCEHAkACQAJAIAgoAhQiBCAIKAIQIgNJBEADQAJAIAQgB2otAABBCWsOMgAAAwMAAwMDAwMDAwMDAwMDAwMDAwMDAAMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMEAwsgCCAEQQFqIgQ2AhQgAyAERw0ACyADIQQLIAJB2ABqIAcgAyAEQQFqIgUgAyADIAVLGxD5ASACKAJcIQMgAigCWCEFQRQQcSIGRQ0aIAYgBTYCDCAGQQM2AgAgBiADNgIQDAILIAJB0ABqIAcgAyAEQQFqIgUgAyADIAVLGxD5ASACKAJUIQMgAigCUCEFQRQQcSIGRQ0ZIAYgBTYCDCAGQQY2AgAgBiADNgIQDAELIAggBEEBajYCFCACQeAAaiAIEIIBIAIoAmBBlYCAgHhHDQIgAigCZCEGCyACQaABahD+AgsgAigCiAEhAyAJBEAgAyEEA0AgBBD+AiAEQRBqEP4CIARBIGohBCAJQQFrIgkNAAsLQZWAgIB4IQQgAigChAEiBUUEQCAGIQUMCQsgAyAFQQV0QQgQogcgBiEFDAgLIAIgAv0AA2D9CwOQASACKQOoASEPIAIoAoQBIAlGBEBBACEIQQAhByMAQSBrIgMkAAJAAkAgAkGEAWoiBSgCACIEQf///x9LDQBBBCAEQQF0IgogCkEETRsiCkEFdCIMQfj///8HSw0AIAMgBAR/IAMgBEEFdDYCHCADIAUoAgQ2AhRBCAVBAAs2AhggA0EIakEIIAwgA0EUahCFByADKAIIQQFHDQEgAygCECEHIAMoAgwhCAsgCCAHQbSiwQAQkwkACyADKAIMIQQgBSAKNgIAIAUgBDYCBCADQSBqJAAgAigCiAEhBQsgBSAJQQV0aiIDIA83AgggAyAGNgIEIAMgCzYCACADIAL9AAOQAf0LAhAgAiAJQQFqIgk2AowBDAALAAsgA0Ewa0H/AXFBCk8EQCACIAcgBiAEQQFqIgMgBiADIAZJGxD5ASACKAIEIQMgAigCACEEQRQQcSIFRQ0UIAUgBDYCDCAFQQo2AgAgBSADNgIQDAkLIAJB4ABqIAFBARDHAyACKQNgIg9CA1EEQCAAIAIoAmg2AgQgAEGVgICAeDYCAAwTCyAAIAIpA2g3AwggAEEANgIEIAAgD6dBAnQoAszrQTYCAAwSC0HYmsgAEP8HAAsgACABNgIIIAAgBTYCBCAAQY2AgIB4NgIADBALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HYmsgAEP8HAAsgASABLQAYQQFqOgAYIAIgARDiBCIDNgJwIAIgBTYCZCACIAQ2AmAgAiAPNwNoAkACQCAEQZWAgIB4RwRAIAMNASAPQiCIpyEDIA+nIQkMBAsgAw0BQZWAgIB4IQQgD6chCQwDCyACQeAAahD+AkGVgICAeCEEIAMhBSAPpyEJDAILIAJB8ABqELEEQZWAgIB4IQQgD6chCQwBCyACQcgAaiAHIAYgAyAGIAMgBkkbEPkBIAIoAkwhAyACKAJIIQVBFBBxIgFFDQwgASAFNgIMIAFBGDYCACAAIAE2AgQgAEGVgICAeDYCACABIAM2AhAMCwsgBEGVgICAeEYNACAAIAM2AgwgACAJNgIIIAAgBTYCBCAAIAQ2AgAMCgsgBSABEOsFIQEgAEGVgICAeDYCACAAIAE2AgQMCQsgAkFAayAHIAYgAyAGIAMgBkkbEPkBIAIoAkQhAyACKAJAIQVBFBBxIgFFDQkgASAFNgIMIAFBGDYCACAAIAE2AgQgAEGVgICAeDYCACABIAM2AhAMCAsgAEGVgICAeDYCACAAIAU2AgQMBwsgACACKAJoNgIEIABBlYCAgHg2AgAMBgsgAkE4aiAHIAYgAxD5ASACKAI8IQEgAigCOCEDQRQQcSIERQ0GIARBCTYCAAsgBCADNgIMIAAgBDYCBCAAQZWAgIB4NgIAIAQgATYCEAwECyACQShqIAcgBiADEPkBIAIoAiwhASACKAIoIQNBFBBxIgRFDQQgBEEJNgIACyAEIAM2AgwgACAENgIEIABBlYCAgHg2AgAgBCABNgIQDAILIAJBGGogByAGIAMQ+QEgAigCHCEBIAIoAhghA0EUEHEiBEUNAiAEQQk2AgALIAQgAzYCDCAAIAQ2AgQgAEGVgICAeDYCACAEIAE2AhALIAJBsAFqJAAPCwAL2xoDE38GfQF+IwBBsAFrIgIkAAJAAkACQAJAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAIAEoAhQiAyABKAIQIgRJBEAgASgCDCEGAn4CQANAIAMgBmotAAAiBUEJayIHQRdLQQEgB3RBk4CABHFFcg0BIAEgA0EBaiIDNgIUIAMgBEcNAAsgBCEDQgAMAQtCgAILIAWtQhCGhEKAgrgDUQ0BCwJAIAJBKGogASgCDCIHIAQgAyAESQR/A0AgAyAHai0AACIIQQlrIgVBF0tBASAFdEGTgIAEcUVyDQIgASADQQFqIgM2AhQgAyAERw0ACyAEBSADC0EBaiIBIAQgASAESRsQ+QEgAigCLCEBIAIoAighBEEUEHEiAw0CDBALAkAgCEHbAEcEQCAIQfsARg0BIAEgAkGvAWpBmMHBABDuASEFDA4LIAEgAS0AGEEBayIFOgAYIANBAWohAyAFQf8BcUUNCyABIAM2AhQgAiABNgKkASACQQE6AKgBIAJB5ABqIAJBpAFqEJ8DIAItAGRBAUYEQCACKAJoIQRBAiEDDAoLAkACQAJAAkACQAJAAkACQAJAAkACQCACLQBlQQFGBEAgAkHkAGogAigCpAEQ0gIgAigCZCIFQQJGBEAgAigCaCEEQQIhAwwWCyACKAJoIQ8gAkHkAGogAkGkAWoQnwMgAi0AZEEBRgRAIAIoAmghBEECIQMMFgsgAi0AZUEBRw0CIAJB5ABqIAIoAqQBENICIAIoAmQiB0ECRw0BIAIoAmghBEECIQMMFQtBAEGMg8EAQYD9wAAQ2wYhBEECIQMMFAsgAioCaCEVIAJB5ABqIAJBpAFqEJ8DIAItAGRBAUYEQCACKAJoIQRBAiEDDBQLIAItAGVBAUcNAiACQeQAaiACKAKkARDSAiACKAJkIghBAkcNASACKAJoIQRBAiEDDBMLQQFBjIPBAEGA/cAAENsGIQRBAiEDDBILIAIqAmghFiACQeQAaiACQaQBahCfAyACLQBkQQFGBEAgAigCaCEEQQIhAwwSCyACLQBlQQFHDQIgAkHkAGogAigCpAEQ0gIgAigCZCIQQQJHDQEgAigCaCEEQQIhAwwRC0ECQYyDwQBBgP3AABDbBiEEQQIhAwwQCyACKgJoIRcgAkHkAGogAkGkAWoQnwMgAi0AZEEBRgRAIAIoAmghBEECIQMMEAsgAi0AZUEBRw0CIAJB5ABqIAIoAqQBENICIAIoAmQiEUECRw0BIAIoAmghBEECIQMMDwtBA0GMg8EAQYD9wAAQ2wYhBEECIQMMDgsgAioCaCEYIAJB5ABqIAJBpAFqEJ8DIAItAGRBAUYEQCACKAJoIQRBAiEDDA4LIAItAGVBAUcNASACQeQAaiACKAKkARDSAkECIQMgAigCZCISQQJGBEAgAigCaCEEDA4LIAIoAmghCiACQeQAaiACQaQBahDHBiACKAJoIQQgAigCZCILQQJrDgICDQMLQQRBjIPBAEGA/cAAENsGIQRBAiEDDAwLQQVBjIPBAEGA/cAAENsGIQRBAiEDDAsLQQZBjIPBAEGA/cAAENsGIQQMCgsgAkHkAGohCSMAQRBrIgYkACAGQQhqIAJBpAFqIgwQnwMCQCAGLQAIQQFGBEAgCSAGKAIMNgIEIAlBAToAAAwBCyAGLQAJRQRAIAlBgAY7AQAMAQsgBkEIaiAMKAIAEIECIAYtAAhBAUYEQCAJIAYoAgw2AgQgCUEBOgAADAELIAkgBi0ACToAASAJQQA6AAALIAZBEGokACACLQBkDQggAi0AZSITQQNHBEAgBCEUIA8hBCAFIQMMCgtBB0GMg8EAQYD9wAAQ2wYhBAwJCyABIAEtABhBAWsiBToAGCADQQFqIQMgBUH/AXFFDQYgASADNgIUIAJBAToAqAEgAiABNgKkAUEDIQZBAiEJQQIhDEECIQ1BAiELQQIhBUECIQ5BAiEKAn8CQANAAkAgAkHkAGoiBCACQaQBahDRAiACLQBkQQFGDQAgAi0AZUEBRw0GIAIoAqQBIgNBADYCCCADIAMoAhRBAWo2AhQgBCADQQxqIAMQggIgAigCaCEEIAIoAmRBAkYNAgJAAkACQAJAAkACQAJAAkACQAJAAkACQCACKAJsQQZrDgUAAwMDAQMLIARB4OrAAEEGENsHRQ0DIARB5urAAEEGENsHDQEgDkECRg0EQebqwABBBhCfByEEQQIMDgsgBEHs6sAAQQoQ2wdFDQQgBEH26sAAQQoQ2wdFDQUgBEGS68AAQQoQ2wcNASAGQQNGDQlBkuvAAEEKEJ8HIQRBAgwNCyAEQYDrwABBBhDbB0UNBSAEQYbrwABBBhDbB0UNBiAEQYzrwABBBhDbB0UNBwsgAxCgASIERQ0JDAoLIApBAkcEQEHg6sAAQQYQnwchBEECDAsLIAJB5ABqIAMQsAVBAiEDIAIoAmgiDyEEIAIoAmQiCkECRw0IDBALIAJB5ABqIAMQsAVBAiEDIAIoAmgiBL4hFyACKAJkIg5BAkcNBwwPCyAFQQJHBEBB7OrAAEEKEJ8HIQRBAgwJCyACQeQAaiADELAFQQIhAyACKAJoIgS+IRUgAigCZCIFQQJHDQYMDgsgC0ECRwRAQfbqwABBChCfByEEQQIMCAsgAkHkAGogAxCwBUECIQMgAigCaCIEviEWIAIoAmQiC0ECRw0FDA0LIA1BAkcEQEGA68AAQQYQnwchBEECDAcLIAJB5ABqIAMQsAVBAiEDIAIoAmgiBL4hGCACKAJkIg1BAkcNBAwMCyAMQQJHBEBBhuvAAEEGEJ8HIQRBAgwGCyACQeQAaiADELAFQQIhAyACKAJoIgS+IRkgAigCZCIMQQJHDQMMCwsgCUECRwRAQYzrwABBBhCfByEEQQIMBQsgAkHkAGogAxCwBUECIQMgAigCaCIEviEaIAIoAmQiCUECRw0CDAoLIAJB5ABqIAMQrAUgAi0AZSEGIAItAGRBAUcNAQsLIAIoAmghBAtBAgshAwwFCyABIANBAWoiBTYCFAJAIAQgBU0NACABIANBAmoiCDYCFCAFIAZqLQAAQfUARw0DIAggBSAEIAQgBUkbIgVGDQAgASADQQNqIgc2AhQgBiAIai0AAEHsAEcEQCAHIQgMBAsgBSAHRg0AIAEgA0EEaiIINgIUIAYgB2otAABB7ABHDQMgAEECNgIADA4LIAJBCGogBiAEIAUQ+QEgAigCDCEBIAIoAgghBEEUEHEiA0UNDiADQQU2AgAMAwsgAyAENgIMIANBBTYCACADIAE2AhAMCwsgCkEAIApBAkcbIQMgCUEAIAlBAkcbIRMgDEEAIAxBAkcbIRIgDUEAIA1BAkcbIQcgC0EAIAtBAkcbIQggBUEAIAVBAkcbIRAgDkEAIA5BAkcbIRFBAiAGIAZBA0YbIRQgDyEEDAILIAJBEGogBiAEIAgQ+QEgAigCFCEBIAIoAhAhBEEUEHEiA0UNCyADQQk2AgALIAMgBDYCDCAAIAM2AgQgAEEDNgIAIAMgATYCEAwJCyABIAEtABhBAWo6ABggAiABEOIEIgU2AqABIAIgFDoAnAEgAiAaOAKYASACIBM2ApQBIAIgGTgCkAEgAiASNgKMASACIBg4AogBIAIgBzYChAEgAiAWOAKAASACIAg2AnwgAiAVOAJ4IAIgEDYCdCACIBc4AnAgAiARNgJsIAIgBDYCaCACIAM2AmRBAiEHIANBAkcEQCAFDQQgAkHgAGogAkHsAGoiBUEwaigCADYCACACQdAAaiAFQSBq/QACAP0LAwAgAkFAayAFQRBq/QACAP0LAwAgAiAF/QACAP0LAzAgAyEHIAQhBQwECyAFRQRAIAQhBQwECyACQaABahCxBCAEIQUMAwsgAkEgaiAHIAQgAyAEIAMgBEkbEPkBIAIoAiAhBCACKAIkDAQLIAIoAmghBAsgASABLQAYQQFqOgAYIAIgARC6AyIFNgKgASACIBM6AJwBIAIgFDYCmAEgAiALNgKUASACIAo2ApABIAIgEjYCjAEgAiAYOAKIASACIBE2AoQBIAIgFzgCgAEgAiAQNgJ8IAIgFjgCeCACIAg2AnQgAiAVOAJwIAIgBzYCbCACIAQ2AmggAiADNgJkQQIhBwJAIANBAkcEQCAFDQIgAkHgAGogAkHsAGoiBUEwaigCADYCACACQdAAaiAFQSBq/QACAP0LAwAgAkFAayAFQRBq/QACAP0LAwAgAiAF/QACAP0LAzAgAyEHDAELIAVFDQAgAkGgAWoQsQQLIAQhBQsgB0ECRg0CIAAgAv0AAzD9CwIIIABBOGogAkHgAGooAgA2AgAgAEEoaiACQdAAav0AAwD9CwIAIABBGGogAkFAa/0AAwD9CwIAIAAgBTYCBCAAIAc2AgAMBAsgAkEYaiAHIAQgAyAEIAMgBEkbEPkBIAIoAhghBCACKAIcCyEBQRQQcSIDRQ0DIAMgBDYCDCADQRg2AgAgAyABNgIQDAELIAUgARDrBSEDCyAAQQM2AgAgACADNgIECyACQbABaiQADwsAC88XAyR/A30BeyMAQcACayIEJAACeyADLQAcIgVBAkYEQEMAAIA/IShBACEFQwAAgD8hKUMAAIA/ISr9DAAAAAAAAIA/AABAwQAAEEEMAQsgBEHiAWogA0Efai0AADoAACAEIAMvAB07AeABIAMqAhghKCADKgIUISkgAyoCECEqIAP9AAIACyErIARBABC2CTYCsAEgBEEANgKsASAEQgA3AqQBIARBADYCXCAEQoCAgIDAADcCVCAEQgQ3AkwgBEIANwJEIARCgICAgMAANwI8IARBADYCLCAEQQA2AiQgBEEANgIcIARBADYCFCAEQQA2AgwgBEEANgIEIARBADYCNCAEQYCAgIB4NgJsIARBgICAgHg2AnggBCAr/QsChAEgBCAqOAKUASAEICk4ApgBIAQgKDgCnAEgBCAFOgCgASAEQbwBakEAOgAAIARBowFqIARB4gFqLQAAOgAAIARBADYCaCAEQoCAgIDAADcCYCAEQgA3ArQBIAQgBC8B4AE7AKEBIAEoAjwhEyAEIAI6AOgBIAQgEzYC5AEgBCABKAIIIgg2AuABIARBBGogBEHgAWoQpQQgAgRAIARBAToAoAELAkACQAJAAkBBgIAwEHEiEEUNACAQQQRrIh0tAABBA3EEQCAQQQBBgIAw/AsAC0GAgBAQcSIJRQ0AIAlBBGsiHi0AAEEDcQRAIAlBAEGAgBD8CwALQYCAMBBxIhFFDQAgEUEEayIfLQAAQQNxBEAgEUEAQYCAMPwLAAtBgIAwEHEiEkUNACASQQRrIiAtAABBA3EEQCASQQBBgIAw/AsAC0GAgMAAEHEiC0UNACALQQRrIiEtAABBA3EEQCALQQBBgIDAAPwLAAtBgIAIEHEiDEUNACAMQQRrIiItAABBA3EEQCAMQQBBgIAI/AsAC0GAgBAQcSINRQ0AIA1BBGsiIygCACIFQQNxIgMEQCANQQBBgIAQ/AsACyAIBEAgDEECIAIbISQgDUEEIAIbISVBgIAEQQAgAhshGyABKAIQISYgASgCFCEcIAEoAgQhJwNAQYCABCAIIA5rIgMgA0GAgARPGyEUIAggDkcEQCAnIA5BJGxqIQMgJiAOQRhsaiEGQQAhFSAJIRZBACEFIA0hFyALIRggDCEZA0AgCCAOIBVqIhpNBEAgGiAIQdTAxwAQjAcACyADQRBqKgIAISggA0EMaioCACEpIANBCGoqAgAhKiAEQcABaiADEKQDIARB0AFqIAMQmgMgBEHgAWogAykCABDLAiAE/QAE4AEhKyAFIBBqIgogKjgCACAFIBFqIgcgBCoCwAE4AgAgBSASaiIPIAQqAtABOAIAIApBBGogKTgCACAHQQRqIAQqAsQBOAIAIA9BBGogBCoC1AE4AgAgCkEIaiAoOAIAIAdBCGogBCoCyAE4AgAgD0EIaiAEKgLYATgCACAYICv9CwIAIBYCfyADQRRqLwEAIgdB//8BcUUEQCAHQRB0DAELIAdB/wdxIQogB0GAgAJxIQ8gB0GA+AFxIgdBgPgBRgRAIA9BEHQhByAHQYCAgPwHciAKRQ0BGiAHIApBDXRyQYCAgP4HcgwBCyAPQRB0IQ8gB0ENdEGAgID8AHEgCkENdHJBgICAwANqIA9yIAcNABogD0GAgIDYA3IgCmdBEGsiB0EXdGsgCiAHQf//A3FBCGp0Qf///wNxcgs2AgAgAgRAAn8CQCAaIBxJBEACfyAGQRRqKAIAIgpBBEsEQCAGQQRqKAIAIQogBkEIaigCAAwBCyAGQQRqCyEHIAoNAUEAIQpBAAwCCyAaIBxBxMDHABCMBwwHCyAHKAIACyEHIBkgCjsBACAXIAc2AgALIANBJGohAyAGQRhqIQYgFkEEaiEWIAVBDGohBSAXQQRqIRcgGEEQaiEYIBlBAmohGSAVQQFqIhUgFEkNAAsLIAQgGzYCrAIgBCAlNgKoAiAEIBs2AqQCIAQgJDYCoAIgBEEANgKcAiAEQoCAgIDAADcClAIgBEKAgICAwAA3AowCIARCgICQgMAANwKEAiAEIAs2AoACIARBgIAMNgL8ASAEIBI2AvgBIARBgIAMNgL0ASAEIBE2AvABIARBgIAENgLsASAEIAk2AugBIARBgIAMNgLkASAEIBA2AuABIARBBGogDiAUIARB4AFqEJcBIA4gFGoiDiAISQ0ACyAjKAIAIgVBA3EhAwsCQAJAIAVBeHFBhIAQQYiAECADG08EQCADQQAgBUGogBBPGw0GIA0QogIgIigCACICQXhxQYSACEGIgAggAkEDcSIDG0kNBSADQQAgAkGogAhPGw0GIAwQogIgISgCACICQXhxQYSAwABBiIDAACACQQNxIgMbSQ0FIANBACACQaiAwABPGw0GIAsQogIgICgCACICQXhxQYSAMEGIgDAgAkEDcSIDG0kNBSADQQAgAkGogDBPGw0GIBIQogIgHygCACICQXhxQYSAMEGIgDAgAkEDcSIDG0kNBSADQQAgAkGogDBPGw0GIBEQogIgHigCACICQXhxQYSAEEGIgBAgAkEDcSIDG0kNBSADQQAgAkGogBBPGw0GIAkQogIgHSgCACICQXhxQYSAMEGIgDAgAkEDcSIDG0kNBSADQQAgAkGogDBPGw0GIBAQogIgE0UNBEGAgJABEHEiAkUNAyACQQRrIgsoAgAiBUEDcSIDBEAgAkEAQYCAkAH8CwALIAhFDQIgASgCICEMIAEoAhwhDUEAIQYDQEGAgAQgCCAGayIDIANBgIAETxshCSAGIAhHBEBBACEFIAIhAwNAIARB4AFqIA0gDCAFIAZqELwBIAMgBP0ABOAB/QsCACADQRBqIAT9AATwAf0LAgAgA0EgaiAEKgKAAjgCACADQSRqIQMgBUEBaiIFIAlJDQALCyAEQQRqIAYgCSACQYCAJBDOAyAIIAYgCWoiBksNAAsMAQsMBAsgCygCACIFQQNxIQMLAkAgBUF4cUGEgJABQYiAkAEgAxtPBEAgA0EAIAVBqICQAU8bDQUgAhCiAiATQQFGDQNBgIDwARBxIgJFDQIgAkEEayILKAIAIgVBA3EiAwRAIAJBAEGAgPAB/AsACyAIBEAgASgCLCEMIAEoAighDUEAIQYDQEGAgAQgCCAGayIDIANBgIAETxshCSAGIAhHBEBBACEFIAIhAwNAIARB4AFqIA0gDCAFIAZqEIsBIAMgBP0ABOAB/QsCACADQRBqIAT9AATwAf0LAgAgA0EgaiAE/QAEgAL9CwIAIANBMGogBCoCkAI4AgAgA0E0aiAEKQKUAjcCACADQTxqIQMgBUEBaiIFIAlJDQALCyAEQQRqIAYgCSACQYCAPBDiAyAGIAlqIgYgCEkNAAsgCygCACIFQQNxIQMLIAVBeHFBhIDwAUGIgPABIAMbSQ0EIANBACAFQaiA8AFPGw0FIAIQogIgE0ECTQ0DQYCA0AIQcSICRQ0CIAJBBGsiCSgCACIFQQNxIgMEQCACQQBBgIDQAvwLAAsgCARAIAEoAjghCyABKAI0IQxBACEGA0BBgIAEIAggBmsiASABQYCABE8bIQEgBiAIRwRAQQAhBSACIQMDQCAEQeABaiAMIAsgBSAGahBsIAMgBP0ABOAB/QsCACADQRBqIAT9AATwAf0LAgAgA0EgaiAE/QAEgAL9CwIAIANBMGogBP0ABJAC/QsCACADQUBrIAT9AASgAv0LAgAgA0HQAGogBCoCsAI4AgAgA0HUAGohAyAFQQFqIgUgAUkNAAsLIARBBGogBiABIAJBgIDUABDjAyABIAZqIgYgCEkNAAsgCSgCACIFQQNxIQMLIAVBeHFBhIDQAkGIgNACIAMbSQ0EIANBACAFQaiA0AJPGw0BIAIQogIMAwsMAwsMAwsACwJAIARBBGoiAhCjASIBBEAgAEECNgIAIAAgATYCBCACEMACDAELIAAgBEEEakG8AfwKAAALIARBwAJqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvlFQMRfwF+AW8jAEHgBmsiASQAIAFBoAFqIgcgAiADKAIMEQEAAkACQAJAAkACQAJAIAEpA6ABQsvTs7K7k+HLQoUgASkDqAFC7b+ClN2syJ2df4WEUARAIAFBMGogAkHwAPwKAAAgASgClAEiA0UNASAHIAMgASgCmAEiEigCDCIIEQEAAkACQAJAAkACQCABKQOgAUKf0/elq5SA065/hSABKQOoAUKQkPj2grmEnmyFhFBFBEAgByADIAgRAQAgASkDoAFChq+1jMLkqv4xhSABKQOoAUKbq7TXwZS/hYZ/hYRQDQEgByADIAgRAQAgASkDoAFCx5uZ88LP+aS8f4UgASkDqAFC7sKNnfXyzrRehYRQDQIgByADIAgRAQAgASkDoAFC/pXph6aw4PvMAIUgASkDqAFC1cSH6oL5y8Z7hYRQDQMgByADIAgRAQAgASkDoAFC07aF9P3V/p5VhSABKQOoAUKw3b+ylJ6K/Q2FhFANBCAHIAMgCBEBACABKQOgAUKR3taAjqSFsp9/hSABKQOoAUKAxNGW34qexvsAhYRQIhMNBSABQQA2ArABIAFBATYCpAEgAUHU4MEANgKgASABQgQ3AqgBIAdB3ODBABCNCAALIAFBoAFqIANBuAX8CgAAIAFBEGogA0Ecav0AAgD9CwMAIAFBIGogA0Esav0AAgD9CwMAIAEgA/0AAgz9CwMAIAMoAjwhByADKAIIIQggAykDACEVIAEoAsgGIgQEQCABKALMBiIFQQRrKAIAIgZBeHEiCUEEQQggBkEDcSIGGyAEakkNDCAGQQAgCSAEQSdqSxsNCyAFEKICCyABQeABaiEEAkACQAJAIAEoArwGQYCAgIB4aw4CAQIACyAEEL4CDAELIAQQvQELIANBBGsoAgAiBEF4cUG8BUHABSAEQQNxIgUbSQ0LIAVFDQggBEHgBU8NCgwICyABQRBqIANBHGr9AAIA/QsDACABQSBqIANBLGr9AAIA/QsDACABIAP9AAIM/QsDACADKAKAASEJIAMoAnwhDSADKAJ0IQ4gAygCcCELIAMoAmghEiADKAJkIQQgAygCXCETIAMoAlghBSADKAJQIQwgAygCTCEGIAMoAjwhByADKAIIIQggAykCACEVIAMoAkAiCgRAIAMoAkQiD0EEaygCACIQQXhxIhFBBEEIIBBBA3EiEBsgCmpJDQsgEEEAIBEgCkEnaksbDQogDxCiAgsgBgRAIAxBBGsoAgAiCkF4cSIPQQRBCCAKQQNxIgobIAZqSQ0LIApBACAPIAZBJ2pLGw0KIAwQogILIAUEQCATQQRrKAIAIgZBeHEiDEEEQQggBkEDcSIGGyAFakkNCyAGQQAgDCAFQSdqSxsNCiATEKICCwJAIARBgICAgHhGDQAgBARAIBJBBGsoAgAiBUF4cSIGIARBAnQiBEEEQQggBUEDcSIFG2pJDQwgBUEAIAYgBEEnaksbDQsgEhCiAgsgCwRAIA5BBGsoAgAiBEF4cSIFIAtBAXQiBkEEQQggBEEDcSIEG2pJDQwgBEEAIAUgBkEnaksbDQsgDhCiAgsgDUUNACAJQQRrKAIAIgRBeHEiBSANQQJ0IgZBBEEIIARBA3EiBBtqSQ0LIARBACAFIAZBJ2pLGw0KIAkQogILIANBBGsoAgAiBEF4cUGs0wBBsNMAIARBA3EiBRtJDQogBUUgBEHQ0wBJcg0HDAkLIAFBEGogA0Ecav0AAgD9CwMAIAFBIGogA0Esav0AAgD9CwMAIAEgA/0AAgz9CwMAIAMoAjwhByADKAIIIQggAykCACEVIAMoAkAiBARAIAMoAkQiBUEEaygCACIGQXhxIglBBEEIIAZBA3EiBhsgBGpJDQogBkEAIAkgBEEnaksbDQkgBRCiAgsgA0EEaygCACIEQXhxIgVB0ABB1AAgBEEDcSIEG0kNCSAERSAFQfQASXINBgwICyABQRBqIANBHGr9AAIA/QsDACABQSBqIANBLGr9AAIA/QsDACABIAP9AAIM/QsDACADKAI8IQcgAygCCCEIIAMpAgAhFSADKAJAIgQEQCADKAJEIgVBBGsoAgAiBkF4cSIJQQRBCCAGQQNxIgYbIARqSQ0JIAZBACAJIARBJ2pLGw0IIAUQogILIANBBGsoAgAiBEF4cSIFQdAAQdQAIARBA3EiBBtJDQggBEUgBUH0AElyDQUMBwsgAUEQaiADQRxq/QACAP0LAwAgAUEgaiADQSxq/QACAP0LAwAgASAD/QACDP0LAwAgAygCPCEHIAMoAgghCCADKQIAIRUgAygCQCIEBEAgAygCRCAEQQEQogcLIANBBGsoAgAiBEF4cSIFQdAAQdQAIARBA3EiBBtJDQcgBEUgBUH0AElyDQQMBgsgAUEQaiADQZQCav0AAgD9CwMAIAFBIGogA0GkAmr9AAIA/QsDACABIAP9AAKEAv0LAwAgAygCgAIhCCADKQL4ASEVIAMoAugBIQwgAygC5AEhBiADKAKIASEKIAMoAnQhDyADKAJwIQkgAygCbCEFIAMoAmghDSADKAJkIQ4gAygCACEEIAMoArQCIQcgAygC2AIiCwRAIAMoAtwCIAtBARCiBwsCQCAEQQJGDQAgBQRAIA1BJGohBANAIARBBGsoAgAiC0GAgICAeHJBgICAgHhHBEAgBCgCACIQQQRrKAIAIhFBeHEiFEEEQQggEUEDcSIRGyALakkNCiARQQAgFCALQSdqSxsNCSAQEKICCyAEQTBqIQQgBUEBayIFDQALCyAOBEAgDSAOQTBsQQgQogcLIAlBgICAgHhyQYCAgIB4Rg0AIA8gCUEBEKIHCyADIBIgExshAyAGRSAKQQJGckUEQCAMIAZBKGxBCBCiBwsgA0EEaygCACIEQXhxQYQDQYgDIARBA3EiBRtJDQIgBUUgBEGoA0lyDQMMBQsgASADNgKkASABIAI2AqABQdjmyABBKyABQaABakHo7sAAQejvwAAQ4AYAC0Gw4MEAEN0JAAtBzIzIAEEuQfyMyAAQ6wcMAQsgAxCiAiABKAI8IgNBgICAgHhyQYCAgIB4RwRAIAEoAkAiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQMgBUEAIAYgA0EnaksbDQIgBBCiAgsgASgCSEGAgICAeEcEQCABQcgAahD1AgsgASgCMCIDBEAgASgCNCIEQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyADakkNAyAFQQAgBiADQSdqSxsNAiAEEKICCwJAIAEoAogBIgNBgICAgHhyQYCAgIB4RwRAIAEoAowBIgRBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIANqSQ0EIAVBACAGIANBJ2pLGw0BIAQQogILQdQAEHEiA0UNASADIAg2AhQgAyAVNwIMIANBADYCCCADQoGAgIAQNwIAIAMgAf0AAwD9CwIYIAMgBzYCUCADIAg2AkwgAyAHNgJIIANBKGogAUEQav0AAwD9CwIAIANBOGogAUEgav0AAwD9CwIAIANBCGoQDSEWENoEIgcgFiYBIAJBBGsoAgAiA0F4cUH0AEH4ACADQQNxIggbSQ0DIAhBACADQZgBTxsNAiACEKICIAAgBzYCBCAAQQA2AgAgAUHgBmokAA8LDAELAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwAL5hYCDH8IfUMAAIA/IRACfwJAIAAoAgQiAyACQQhqKAIAIgVJBEAgACgCACEGIAJBBGooAgAiCSADQSRsaiICEIoEIQ8gAi8BFCIDQf//AXFFBEAgA0EQdAwDCyADQf8HcSECIANBgIACcSEEIANBgPgBcSIDQYD4AUYEQCAEQRB0IQMgA0GAgID8B3IgAkUNAxogAyACQQ10ckGAgID+B3IMAwsgBEEQdCEEIANFDQEgA0ENdEGAgID8AHEgAkENdHJBgICAwANqIARyDAILIAMgBUHUwMcAEIwHAAsgBEGAgIDYA3IgAmdBEGsiA0EXdGsgAiADQf//A3FBCGp0Qf///wNxcgu+IhFDAACAP14EQCAREMYFQ1T4LUCUQwAAgD+SkSEQC0MAAIA/IRECfwJAIAUgBksEQCAJIAZBJGxqIgIQigQhEyACLwEUIgNB//8BcUUEQCADQRB0DAMLIANB/wdxIQIgA0GAgAJxIQYgA0GA+AFxIgNBgPgBRgRAIAZBEHQhAyADQYCAgPwHciACRQ0DGiADIAJBDXRyQYCAgP4HcgwDCyAGQRB0IQYgA0UNASADQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogBnIMAgsgBiAFQdTAxwAQjAcACyAGQYCAgNgDciACZ0EQayIDQRd0ayACIANB//8DcUEIanRB////A3FyC74iEkMAAIA/XgRAIBIQxgVDVPgtQJRDAACAP5KRIRELQwAAgD8hFAJAAkACfwJAIAUgACgCDCICSwRAIAAoAgghBiAJIAJBJGxqIgIQigQhEiACLwEUIgNB//8BcUUEQCADQRB0DAMLIANB/wdxIQIgA0GAgAJxIQQgA0GA+AFxIgNBgPgBRgRAIARBEHQhAyADQYCAgPwHciACRQ0DGiADIAJBDXRyQYCAgP4HcgwDCyAEQRB0IQQgA0UNASADQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogBHIMAgsMAgsgBEGAgIDYA3IgAmdBEGsiA0EXdGsgAiADQf//A3FBCGp0Qf///wNxcgu+IhVDAACAP14EQCAVEMYFQ1T4LUCUQwAAgD+SkSEUCwJ/AkAgBSAGSwRAIAkgBkEkbGoiAhCKBCEVIAIvARQiA0H//wFxRQRAIANBEHQMAwsgA0H/B3EhAiADQYCAAnEhBiADQYD4AXEiA0GA+AFGBEAgBkEQdCEDIANBgICA/AdyIAJFDQMaIAMgAkENdHJBgICA/gdyDAMLIAZBEHQhBiADRQ0BIANBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAGcgwCCyAGIAVB1MDHABCMBwALIAZBgICA2ANyIAJnQRBrIgNBF3RrIAIgA0H//wNxQQhqdEH///8DcXILIQJDAACAPyEWAn8CQCAFIABBDEEIIBIgEpIgFJQiEiASWyASIBUgFZIgAr4iFEMAAIA/XgR9IBQQxgVDVPgtQJRDAACAP5KRBSAWC5RgRXEiBxtqIgYoAgAiAksEQCAAIA8gD5IgEJQiDyAPWyAPIBMgE5IgEZRgRXEiCkECdGoiDCgCACEEIAkgAkEkbGoiAhCKBCETIAIvARQiA0H//wFxRQRAIANBEHQMAwsgA0H/B3EhAiADQYCAAnEhCCADQYD4AXEiA0GA+AFGBEAgCEEQdCEDIANBgICA/AdyIAJFDQMaIAMgAkENdHJBgICA/gdyDAMLIAhBEHQhCCADRQ0BIANBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAIcgwCCwwCCyAIQYCAgNgDciACZ0EQayIDQRd0ayACIANB//8DcUEIanRB////A3FyC0MAAIA/IQ++IhBDAACAP14EQCAQEMYFQ1T4LUCUQwAAgD+SkSEPC0MAAIA/IRACfwJAIAQgBUkEQEEIQQwgBxshCCAJIARBJGxqIgIQigQhEiACLwEUIgNB//8BcUUEQCADQRB0DAMLIANB/wdxIQIgA0GAgAJxIQQgA0GA+AFxIgNBgPgBRgRAIARBEHQhAyADQYCAgPwHciACRQ0DGiADIAJBDXRyQYCAgP4HcgwDCyAEQRB0IQQgA0UNASADQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogBHIMAgsMAwsgBEGAgIDYA3IgAmdBEGsiA0EXdGsgAiADQf//A3FBCGp0Qf///wNxcgu+IhFDAACAP14EQCAREMYFQ1T4LUCUQwAAgD+SkSEQC0MAAIA/IRECfwJAIAUgACAIaiIIKAIAIgJLBEAgACAKRUECdGoiAygCACEEIAkgAkEkbGoiABCKBCEUIAAvARQiAkH//wFxRQRAIAJBEHQMAwsgAkH/B3EhACACQYCAAnEhByACQYD4AXEiAkGA+AFGBEAgB0EQdCECIAJBgICA/AdyIABFDQMaIAIgAEENdHJBgICA/gdyDAMLIAdBEHQhByACRQ0BIAJBDXRBgICA/ABxIABBDXRyQYCAgMADaiAHcgwCCwwCCyAHQYCAgNgDciAAZ0EQayICQRd0ayAAIAJB//8DcUEIanRB////A3FyC74iFUMAAIA/XgRAIBUQxgVDVPgtQJRDAACAP5KRIRELAn8CQCAEIAVJBEAgEyATkiAPlCIPIBIgEpIgEJRgRSEHIA8gD1shCiAJIARBJGxqIgAQigQhECAALwEUIgJB//8BcUUEQCACQRB0DAMLIAJB/wdxIQAgAkGAgAJxIQQgAkGA+AFxIgJBgPgBRgRAIARBEHQhAiACQYCAgPwHciAARQ0DGiACIABBDXRyQYCAgP4HcgwDCyAEQRB0IQQgAkUNASACQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2ogBHIMAgsMAwsgBEGAgIDYA3IgAGdBEGsiAkEXdGsgACACQf//A3FBCGp0Qf///wNxcgshAEMAAIA/IQ8CfwJAIAUgCCADIAYgByAKcSIHGyAUIBSSIBGUIhEgEVsgESAQIBCSIAC+IhNDAACAP14EfSATEMYFQ1T4LUCUQwAAgD+SkQUgDwuUYEVxIgobIg0oAgAiAEsEQCAMIAYgAyAKGyAHGyIOKAIAIQQgCSAAQSRsaiIAEIoEIRAgAC8BFCICQf//AXFFBEAgAkEQdAwDCyACQf8HcSEAIAJBgIACcSELIAJBgPgBcSICQYD4AUYEQCALQRB0IQIgAkGAgID8B3IgAEUNAxogAiAAQQ10ckGAgID+B3IMAwsgC0EQdCELIAJFDQEgAkENdEGAgID8AHEgAEENdHJBgICAwANqIAtyDAILIAAgBUHUwMcAEIwHAAsgC0GAgIDYA3IgAGdBEGsiAkEXdGsgACACQf//A3FBCGp0Qf///wNxcgtDAACAPyERviIPQwAAgD9eBEAgDxDGBUNU+C1AlEMAAIA/kpEhEQtDAACAPyEPAn8CQCAEIAVJBEAgCSAEQSRsaiIAEIoEIRMgAC8BFCICQf//AXFFBEAgAkEQdAwDCyACQf8HcSEAIAJBgIACcSEFIAJBgPgBcSICQYD4AUYEQCAFQRB0IQIgAkGAgID8B3IgAEUNAxogAiAAQQ10ckGAgID+B3IMAwsgBUEQdCEFIAJFDQEgAkENdEGAgID8AHEgAEENdHJBgICAwANqIAVyDAILDAMLIAVBgICA2ANyIABnQRBrIgJBF3RrIAAgAkH//wNxQQhqdEH///8DcXILviISQwAAgD9eBEAgEhDGBUNU+C1AlEMAAIA/kpEhDwsgASAGIAwgBxsoAgA2AgAgASANIA4gECAQkiARlCIQIBBbIBAgEyATkiAPlGBFcSIAGygCADYCBCABIA4gDSAAGygCADYCCCABIAMgCCAKGygCADYCDA8LIAIgBUHUwMcAEIwHAAsgBCAFQdTAxwAQjAcAC/YWAh1/BX0jAEGQAWsiASQAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAAKALEASICQR9xRQRAIAFBADoASCABQQA2AkQgASACQQV2Ihg2AkAgACABQUBrEKUEIAFBADYCDCABQoCAgIDAADcCBCABQQA2AhggAUKAgICAwAA3AhAgAUEANgIkIAFCgICAgMAANwIcIAFBADYCMCABQoCAgIDAADcCKCABQQA2AjwgAUKAgICAwAA3AjQgAkUEQEEEIQMgABCjASEPQQQhBUEEIQZBBCESDCQLQQAhAkEEIRIDQCALQYCABCAYIBRrIgcgB0GAgARPGyIHQQNsIg5JBEAgDiALayICIAEoAgQgC2tLBEAgAUEEaiALIAJBBEEEEKQFIAEoAgghEiABKAIMIQsLIBIgC0ECdGohBSACQQJPBH8gAkECdEEEayIGBEAgBUEAIAb8CwALIAIgC2oiAkEBayELIBIgAkECdGpBBGsFIAULQQA2AgAgASALQQFqIgs2AgwgASgCGCECCyACIAdJBEAgByACayIGIAEoAhAgAmtLBEAgAUEQaiACIAZBBEEEEKQFIAEoAhghAgsgASgCFCIDIAJBAnRqIQUgBkECTwR/IAZBAnRBBGsiBARAIAVBACAE/AsACyACIAZqIgVBAWshAiADIAVBAnRqQQRrBSAFC0EANgIAIAEgAkEBaiICNgIYCyABKAIkIgwgDkkEQCAOIAxrIgYgASgCHCAMa0sEQCABQRxqIAwgBkEEQQQQpAUgASgCJCEMCyABKAIgIgMgDEECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAYgDGoiBUEBayEMIAMgBUECdGpBBGsFIAULQQA2AgAgASAMQQFqIgw2AiQLIAEoAjAiDSAOSQRAIA4gDWsiBiABKAIoIA1rSwRAIAFBKGogDSAGQQRBBBCkBSABKAIwIQ0LIAEoAiwiAyANQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiANaiIFQQFrIQ0gAyAFQQJ0akEEawUgBQtBADYCACABIA1BAWoiDTYCMAsgB0ECdCIXIAEoAjwiCEsEQCAXIAhrIgYgASgCNCAIa0sEQCABQTRqIAggBkEEQQQQpAUgASgCPCEICyABKAI4IgMgCEECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAYgCGoiBUEBayEIIAMgBUECdGpBBGsFIAULQQA2AgAgASAIQQFqIgg2AjwLIAEoAgghEiAUIBhHBEAgFEEFdCEDIAAoAsQBIQQgACgCwAEhGUEAIRYgASgCOCEVIAEoAhQhGiABKAIgIRsgASgCLCEcIAIhBSAHIQZBACERQQAhDwNAIANBA2ogBE8NGiADQQdqIARPDRsgA0ELaiAETw0cIANBD2ogBE8NHSADQRNqIARPDR4gA0EXaiAETw0fIAsgEU0NBCADIBlqIglBBGoqAAAhHiAJQQhqKgAAIR8gCUEMaioAACEgIAlBEGoqAAAhISAJQRRqKgAAISIgEiAWaiIQIAkqAAA4AgAgEUEBaiIKIAtPDQUgEEEEaiAeOAIAIBFBAmoiEyALTw0GIBBBCGogHzgCACANIBFNDQcgFiAcaiIQICA4AgAgCiANTw0IIBBBBGogITgCACANIBNNDQkgEEEIaiAiOAIAIANBGGoiECAETw0KIAwgEU0NCyAWIBtqIhAgCUEYai0AALNDAAB/Q5U4AgAgA0EZaiIdIARPDQwgCiAMTw0NIBBBBGogCUEZai0AALNDAAB/Q5U4AgAgA0EaaiIKIARPDQ4gDCATTQ0PIBBBCGogCUEaai0AALNDAAB/Q5U4AgAgA0EbaiIKIARPDRAgBUUNESAPIBpqIAlBG2otAACzQwAAf0OVOAIAIANBHGoiCiAETw0SIANBHWoiCiAETw0TIANBHmoiCiAETw0UIANBH2oiCiAETw0VIAggD00NFiAJQRxqLQAAIQogCUEeai0AACETIAlBH2otAAAhECAVIAlBHWotAACzQwAAAMOSQwAAADyUOAIAIA9BAWoiCSAITw0XIBVBBGogE7NDAAAAw5JDAAAAPJQ4AgAgD0ECaiIJIAhPDRggFUEIaiAQs0MAAADDkkMAAAA8lDgCACAPQQNqIgkgCE8NGSAVQQxqIAqzQwAAAMOSQwAAADyUOAIAIAVBAWshBSAVQRBqIRUgA0EgaiEDIBZBDGohFiARQQNqIREgD0EEaiEPIAZBAWsiBg0ACwsgCyAOSQ0eIAIgB0kNHyAMIA5JDSAgDSAOSQ0hIAggF0kNIiABKAIUIQYgASgCICEFIAEoAiwhAyABQgQ3AogBIAFCAjcCgAEgAUIENwJ4IAFCBDcCcCABQgQ3AmggASAXNgJkIAEgASgCOCIENgJgIAEgDjYCXCABIAM2AlggASAONgJUIAEgBTYCUCABIAc2AkwgASAGNgJIIAEgDjYCRCABIBI2AkAgACAUIAcgAUFAaxCXASAYIAcgFGoiFEsNAAsMIgsgAUEANgJQIAFBATYCRCABQYTawAA2AkAgAUIENwJIIAFBQGsQkgchDwwjCyARIAtBjNfAABCMBwALIAogC0Gc18AAEIwHAAsgEyALQazXwAAQjAcACyARIA1BvNfAABCMBwALIAogDUHM18AAEIwHAAsgEyANQdzXwAAQjAcACyAQIARB7NfAABCMBwALIBEgDEH818AAEIwHAAsgHSAEQYzYwAAQjAcACyAKIAxBnNjAABCMBwALIAogBEGs2MAAEIwHAAsgEyAMQbzYwAAQjAcACyAKIARBzNjAABCMBwALIAIgAkHc2MAAEIwHAAsgCiAEQezYwAAQjAcACyAKIARB/NjAABCMBwALIAogBEGM2cAAEIwHAAsgCiAEQZzZwAAQjAcACyAPIAhBrNnAABCMBwALIAkgCEG82cAAEIwHAAsgCSAIQczZwAAQjAcACyAJIAhB3NnAABCMBwALIAMgA0EEciAEQfDlwQAQ6gcACyADQQRqIANBCHIgBEHw5cEAEOoHAAsgA0EIaiADQQxyIARB8OXBABDqBwALIANBDGogA0EQciAEQfDlwQAQ6gcACyADQRBqIANBFHIgBEHw5cEAEOoHAAsgA0EUaiADQRhyIARB8OXBABDqBwALQQAgDiALQfzWwAAQ6gcAC0EAIAcgAkHs1sAAEOoHAAtBACAOIAxB3NbAABDqBwALQQAgDiANQczWwAAQ6gcAC0EAIBcgCEG81sAAEOoHAAsgASgCNCECIAAQowEhDyACRQ0AIARBBGsoAgAiAEF4cSIHIAJBAnQiAkEEQQggAEEDcSIAG2pJDQIgAEEAIAcgAkEnaksbDQMgBBCiAgsgASgCKCIABEAgA0EEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAiACQQAgByAAQSdqSxsNAyADEKICCyABKAIcIgAEQCAFQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0CIAJBACAHIABBJ2pLGw0DIAUQogILIAEoAhAiAARAIAZBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQIgAkEAIAcgAEEnaksbDQMgBhCiAgsgASgCBCIARQ0AIBJBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQEgAkEAIAcgAEEnaksbDQIgEhCiAgsgAUGQAWokACAPDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL9RYCHX8FfSMAQZABayIBJAACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAAoAswBIgJBH3FFBEAgAUEAOgBIIAFBADYCRCABIAJBBXYiGDYCQCAAIAFBQGsQ4QMgAUEANgIMIAFCgICAgMAANwIEIAFBADYCGCABQoCAgIDAADcCECABQQA2AiQgAUKAgICAwAA3AhwgAUEANgIwIAFCgICAgMAANwIoIAFBADYCPCABQoCAgIDAADcCNCACRQRAQQQhAyAAENQBIQ9BBCEFQQQhBkEEIRIMJAtBACECQQQhEgNAIAtBgIAEIBggFGsiByAHQYCABE8bIgdBA2wiDkkEQCAOIAtrIgIgASgCBCALa0sEQCABQQRqIAsgAkEEQQQQpAUgASgCCCESIAEoAgwhCwsgEiALQQJ0aiEFIAJBAk8EfyACQQJ0QQRrIgYEQCAFQQAgBvwLAAsgAiALaiICQQFrIQsgEiACQQJ0akEEawUgBQtBADYCACABIAtBAWoiCzYCDCABKAIYIQILIAIgB0kEQCAHIAJrIgYgASgCECACa0sEQCABQRBqIAIgBkEEQQQQpAUgASgCGCECCyABKAIUIgMgAkECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAIgBmoiBUEBayECIAMgBUECdGpBBGsFIAULQQA2AgAgASACQQFqIgI2AhgLIAEoAiQiDCAOSQRAIA4gDGsiBiABKAIcIAxrSwRAIAFBHGogDCAGQQRBBBCkBSABKAIkIQwLIAEoAiAiAyAMQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiAMaiIFQQFrIQwgAyAFQQJ0akEEawUgBQtBADYCACABIAxBAWoiDDYCJAsgASgCMCINIA5JBEAgDiANayIGIAEoAiggDWtLBEAgAUEoaiANIAZBBEEEEKQFIAEoAjAhDQsgASgCLCIDIA1BAnRqIQUgBkECTwR/IAZBAnRBBGsiBARAIAVBACAE/AsACyAGIA1qIgVBAWshDSADIAVBAnRqQQRrBSAFC0EANgIAIAEgDUEBaiINNgIwCyAHQQJ0IhcgASgCPCIISwRAIBcgCGsiBiABKAI0IAhrSwRAIAFBNGogCCAGQQRBBBCkBSABKAI8IQgLIAEoAjgiAyAIQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiAIaiIFQQFrIQggAyAFQQJ0akEEawUgBQtBADYCACABIAhBAWoiCDYCPAsgASgCCCESIBQgGEcEQCAUQQV0IQMgACgCzAEhBCAAKALIASEZQQAhFiABKAI4IRUgASgCFCEaIAEoAiAhGyABKAIsIRwgAiEFIAchBkEAIRFBACEPA0AgA0EDaiAETw0aIANBB2ogBE8NGyADQQtqIARPDRwgA0EPaiAETw0dIANBE2ogBE8NHiADQRdqIARPDR8gCyARTQ0EIAMgGWoiCUEEaioAACEeIAlBCGoqAAAhHyAJQQxqKgAAISAgCUEQaioAACEhIAlBFGoqAAAhIiASIBZqIhAgCSoAADgCACARQQFqIgogC08NBSAQQQRqIB44AgAgEUECaiITIAtPDQYgEEEIaiAfOAIAIA0gEU0NByAWIBxqIhAgIDgCACAKIA1PDQggEEEEaiAhOAIAIA0gE00NCSAQQQhqICI4AgAgA0EYaiIQIARPDQogDCARTQ0LIBYgG2oiECAJQRhqLQAAs0MAAH9DlTgCACADQRlqIh0gBE8NDCAKIAxPDQ0gEEEEaiAJQRlqLQAAs0MAAH9DlTgCACADQRpqIgogBE8NDiAMIBNNDQ8gEEEIaiAJQRpqLQAAs0MAAH9DlTgCACADQRtqIgogBE8NECAFRQ0RIA8gGmogCUEbai0AALNDAAB/Q5U4AgAgA0EcaiIKIARPDRIgA0EdaiIKIARPDRMgA0EeaiIKIARPDRQgA0EfaiIKIARPDRUgCCAPTQ0WIAlBHGotAAAhCiAJQR5qLQAAIRMgCUEfai0AACEQIBUgCUEdai0AALNDAAAAw5JDAAAAPJQ4AgAgD0EBaiIJIAhPDRcgFUEEaiATs0MAAADDkkMAAAA8lDgCACAPQQJqIgkgCE8NGCAVQQhqIBCzQwAAAMOSQwAAADyUOAIAIA9BA2oiCSAITw0ZIBVBDGogCrNDAAAAw5JDAAAAPJQ4AgAgBUEBayEFIBVBEGohFSADQSBqIQMgFkEMaiEWIBFBA2ohESAPQQRqIQ8gBkEBayIGDQALCyALIA5JDR4gAiAHSQ0fIAwgDkkNICANIA5JDSEgCCAXSQ0iIAEoAhQhBiABKAIgIQUgASgCLCEDIAFCBDcCiAEgAUICNwKAASABQgQ3AnggAUIENwJwIAFCBDcCaCABIBc2AmQgASABKAI4IgQ2AmAgASAONgJcIAEgAzYCWCABIA42AlQgASAFNgJQIAEgBzYCTCABIAY2AkggASAONgJEIAEgEjYCQCAAIBQgByABQUBrEH4gGCAHIBRqIhRLDQALDCILIAFBADYCUCABQQE2AkQgAUGE2sAANgJAIAFCBDcCSCABQUBrEJIHIQ8MIwsgESALQYzXwAAQjAcACyAKIAtBnNfAABCMBwALIBMgC0Gs18AAEIwHAAsgESANQbzXwAAQjAcACyAKIA1BzNfAABCMBwALIBMgDUHc18AAEIwHAAsgECAEQezXwAAQjAcACyARIAxB/NfAABCMBwALIB0gBEGM2MAAEIwHAAsgCiAMQZzYwAAQjAcACyAKIARBrNjAABCMBwALIBMgDEG82MAAEIwHAAsgCiAEQczYwAAQjAcACyACIAJB3NjAABCMBwALIAogBEHs2MAAEIwHAAsgCiAEQfzYwAAQjAcACyAKIARBjNnAABCMBwALIAogBEGc2cAAEIwHAAsgDyAIQazZwAAQjAcACyAJIAhBvNnAABCMBwALIAkgCEHM2cAAEIwHAAsgCSAIQdzZwAAQjAcACyADIANBBHIgBEHw5cEAEOoHAAsgA0EEaiADQQhyIARB8OXBABDqBwALIANBCGogA0EMciAEQfDlwQAQ6gcACyADQQxqIANBEHIgBEHw5cEAEOoHAAsgA0EQaiADQRRyIARB8OXBABDqBwALIANBFGogA0EYciAEQfDlwQAQ6gcAC0EAIA4gC0H81sAAEOoHAAtBACAHIAJB7NbAABDqBwALQQAgDiAMQdzWwAAQ6gcAC0EAIA4gDUHM1sAAEOoHAAtBACAXIAhBvNbAABDqBwALIAEoAjQhAiAAENQBIQ8gAkUNACAEQQRrKAIAIgBBeHEiByACQQJ0IgJBBEEIIABBA3EiABtqSQ0CIABBACAHIAJBJ2pLGw0DIAQQogILIAEoAigiAARAIANBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQIgAkEAIAcgAEEnaksbDQMgAxCiAgsgASgCHCIABEAgBUEEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAiACQQAgByAAQSdqSxsNAyAFEKICCyABKAIQIgAEQCAGQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0CIAJBACAHIABBJ2pLGw0DIAYQogILIAEoAgQiAEUNACASQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0BIAJBACAHIABBJ2pLGw0CIBIQogILIAFBkAFqJAAgDw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+0WAh1/BX0jAEGQAWsiASQAAkACQAJAIAAoAmgiAkEfcQRAIAFBADYCUCABQQE2AkQgAUGE2sAANgJAIAFCBDcCSCABQUBrEJIHIQMMAQsgAUEAOgBIIAFBADYCRCABIAJBBXYiGDYCQCAAIAFBQGsQ6QEgAUEANgIMIAFCgICAgMAANwIEIAFBADYCGCABQoCAgIDAADcCECABQQA2AiQgAUKAgICAwAA3AhwgAUEANgIwIAFCgICAgMAANwIoIAFBADYCPCABQoCAgIDAADcCNAJAAkAgAkUEQEEEIQNBBCEFQQQhBkEEIREMAQtBACECQQQhEQJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQANAIAtBgIAEIBggFGsiByAHQYCABE8bIgdBA2wiDkkEQCAOIAtrIgIgASgCBCALa0sEQCABQQRqIAsgAkEEQQQQpAUgASgCCCERIAEoAgwhCwsgESALQQJ0aiEFIAJBAk8EfyACQQJ0QQRrIgYEQCAFQQAgBvwLAAsgAiALaiICQQFrIQsgESACQQJ0akEEawUgBQtBADYCACABIAtBAWoiCzYCDCABKAIYIQILIAIgB0kEQCAHIAJrIgYgASgCECACa0sEQCABQRBqIAIgBkEEQQQQpAUgASgCGCECCyABKAIUIgMgAkECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAIgBmoiBUEBayECIAMgBUECdGpBBGsFIAULQQA2AgAgASACQQFqIgI2AhgLIAEoAiQiDCAOSQRAIA4gDGsiBiABKAIcIAxrSwRAIAFBHGogDCAGQQRBBBCkBSABKAIkIQwLIAEoAiAiAyAMQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiAMaiIFQQFrIQwgAyAFQQJ0akEEawUgBQtBADYCACABIAxBAWoiDDYCJAsgASgCMCINIA5JBEAgDiANayIGIAEoAiggDWtLBEAgAUEoaiANIAZBBEEEEKQFIAEoAjAhDQsgASgCLCIDIA1BAnRqIQUgBkECTwR/IAZBAnRBBGsiBARAIAVBACAE/AsACyAGIA1qIgVBAWshDSADIAVBAnRqQQRrBSAFC0EANgIAIAEgDUEBaiINNgIwCyAHQQJ0IhcgASgCPCIISwRAIBcgCGsiBiABKAI0IAhrSwRAIAFBNGogCCAGQQRBBBCkBSABKAI8IQgLIAEoAjgiAyAIQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiAIaiIFQQFrIQggAyAFQQJ0akEEawUgBQtBADYCACABIAhBAWoiCDYCPAsgASgCCCERAkAgFCAYRwRAIBRBBXQhAyAAKAJoIQQgACgCZCEZQQAhFiABKAI4IRUgASgCFCEaIAEoAiAhGyABKAIsIRwgAiEFIAchBkEAIRBBACESA0AgA0EDaiAETw0ZIANBB2ogBE8NGiADQQtqIARPDRsgA0EPaiAETw0cIANBE2ogBE8NHSADQRdqIARPDR4gCyAQTQ0CIAMgGWoiCUEEaioAACEeIAlBCGoqAAAhHyAJQQxqKgAAISAgCUEQaioAACEhIAlBFGoqAAAhIiARIBZqIg8gCSoAADgCACAQQQFqIgogC08NBCAPQQRqIB44AgAgEEECaiITIAtPDQUgD0EIaiAfOAIAIA0gEE0NBiAWIBxqIg8gIDgCACAKIA1PDQcgD0EEaiAhOAIAIA0gE00NCCAPQQhqICI4AgAgA0EYaiIPIARPDQkgDCAQTQ0KIBYgG2oiDyAJQRhqLQAAs0MAAH9DlTgCACADQRlqIh0gBE8NCyAKIAxPDQwgD0EEaiAJQRlqLQAAs0MAAH9DlTgCACADQRpqIgogBE8NDSAMIBNNDQ4gD0EIaiAJQRpqLQAAs0MAAH9DlTgCACADQRtqIgogBE8NDyAFRQ0QIBIgGmogCUEbai0AALNDAAB/Q5U4AgAgA0EcaiIKIARPDREgA0EdaiIKIARPDRIgA0EeaiIKIARPDRMgA0EfaiIKIARPDRQgCCASTQ0VIAlBHGotAAAhCiAJQR5qLQAAIRMgCUEfai0AACEPIBUgCUEdai0AALNDAAAAw5JDAAAAPJQ4AgAgEkEBaiIJIAhPDRYgFUEEaiATs0MAAADDkkMAAAA8lDgCACASQQJqIgkgCE8NFyAVQQhqIA+zQwAAAMOSQwAAADyUOAIAIBJBA2oiCSAITw0YIBVBDGogCrNDAAAAw5JDAAAAPJQ4AgAgBUEBayEFIBVBEGohFSADQSBqIQMgFkEMaiEWIBBBA2ohECASQQRqIRIgBkEBayIGDQALCyALIA5JDR0gAiAHSQ0eIAwgDkkNHyANIA5JDSAgCCAXSQ0hIAEoAhQhBiABKAIgIQUgASgCLCEDIAFCBDcCiAEgAUICNwKAASABQgQ3AnggAUIENwJwIAFCBDcCaCABIBc2AmQgASABKAI4IgQ2AmAgASAONgJcIAEgAzYCWCABIA42AlQgASAFNgJQIAEgBzYCTCABIAY2AkggASAONgJEIAEgETYCQCAAIBQgByABQUBrEJMCIAcgFGoiFCAYTw0iDAELCyAQIAtBjNfAABCMBwALIAogC0Gc18AAEIwHAAsgEyALQazXwAAQjAcACyAQIA1BvNfAABCMBwALIAogDUHM18AAEIwHAAsgEyANQdzXwAAQjAcACyAPIARB7NfAABCMBwALIBAgDEH818AAEIwHAAsgHSAEQYzYwAAQjAcACyAKIAxBnNjAABCMBwALIAogBEGs2MAAEIwHAAsgEyAMQbzYwAAQjAcACyAKIARBzNjAABCMBwALIAIgAkHc2MAAEIwHAAsgCiAEQezYwAAQjAcACyAKIARB/NjAABCMBwALIAogBEGM2cAAEIwHAAsgCiAEQZzZwAAQjAcACyASIAhBrNnAABCMBwALIAkgCEG82cAAEIwHAAsgCSAIQczZwAAQjAcACyAJIAhB3NnAABCMBwALIAMgA0EEciAEQfDlwQAQ6gcACyADQQRqIANBCHIgBEHw5cEAEOoHAAsgA0EIaiADQQxyIARB8OXBABDqBwALIANBDGogA0EQciAEQfDlwQAQ6gcACyADQRBqIANBFHIgBEHw5cEAEOoHAAsgA0EUaiADQRhyIARB8OXBABDqBwALQQAgDiALQfzWwAAQ6gcAC0EAIAcgAkHs1sAAEOoHAAtBACAOIAxB3NbAABDqBwALQQAgDiANQczWwAAQ6gcAC0EAIBcgCEG81sAAEOoHAAsgASgCNCIARQ0AIARBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQMgAkEAIAcgAEEnaksbDQQgBBCiAgsgASgCKCIABEAgA0EEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAyACQQAgByAAQSdqSxsNBCADEKICCyABKAIcIgAEQCAFQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0DIAJBACAHIABBJ2pLGw0EIAUQogILIAEoAhAiAARAIAZBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQMgAkEAIAcgAEEnaksbDQQgBhCiAgsgASgCBCIABEAgEUEEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAyACQQAgByAAQSdqSxsNASAREKICC0EAIQMMAQsMAgsgAUGQAWokACADDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL7RYCHX8FfSMAQZABayIBJAACQAJAAkAgACgCSCICQR9xBEAgAUEANgJQIAFBATYCRCABQYTawAA2AkAgAUIENwJIIAFBQGsQkgchAwwBCyABQQA6AEggAUEANgJEIAEgAkEFdiIYNgJAIAAgAUFAaxCEAiABQQA2AgwgAUKAgICAwAA3AgQgAUEANgIYIAFCgICAgMAANwIQIAFBADYCJCABQoCAgIDAADcCHCABQQA2AjAgAUKAgICAwAA3AiggAUEANgI8IAFCgICAgMAANwI0AkACQCACRQRAQQQhA0EEIQVBBCEGQQQhEQwBC0EAIQJBBCERAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAA0AgC0GAgAQgGCAUayIHIAdBgIAETxsiB0EDbCIOSQRAIA4gC2siAiABKAIEIAtrSwRAIAFBBGogCyACQQRBBBCkBSABKAIIIREgASgCDCELCyARIAtBAnRqIQUgAkECTwR/IAJBAnRBBGsiBgRAIAVBACAG/AsACyACIAtqIgJBAWshCyARIAJBAnRqQQRrBSAFC0EANgIAIAEgC0EBaiILNgIMIAEoAhghAgsgAiAHSQRAIAcgAmsiBiABKAIQIAJrSwRAIAFBEGogAiAGQQRBBBCkBSABKAIYIQILIAEoAhQiAyACQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgAiAGaiIFQQFrIQIgAyAFQQJ0akEEawUgBQtBADYCACABIAJBAWoiAjYCGAsgASgCJCIMIA5JBEAgDiAMayIGIAEoAhwgDGtLBEAgAUEcaiAMIAZBBEEEEKQFIAEoAiQhDAsgASgCICIDIAxBAnRqIQUgBkECTwR/IAZBAnRBBGsiBARAIAVBACAE/AsACyAGIAxqIgVBAWshDCADIAVBAnRqQQRrBSAFC0EANgIAIAEgDEEBaiIMNgIkCyABKAIwIg0gDkkEQCAOIA1rIgYgASgCKCANa0sEQCABQShqIA0gBkEEQQQQpAUgASgCMCENCyABKAIsIgMgDUECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAYgDWoiBUEBayENIAMgBUECdGpBBGsFIAULQQA2AgAgASANQQFqIg02AjALIAdBAnQiFyABKAI8IghLBEAgFyAIayIGIAEoAjQgCGtLBEAgAUE0aiAIIAZBBEEEEKQFIAEoAjwhCAsgASgCOCIDIAhBAnRqIQUgBkECTwR/IAZBAnRBBGsiBARAIAVBACAE/AsACyAGIAhqIgVBAWshCCADIAVBAnRqQQRrBSAFC0EANgIAIAEgCEEBaiIINgI8CyABKAIIIRECQCAUIBhHBEAgFEEFdCEDIAAoAkghBCAAKAJEIRlBACEWIAEoAjghFSABKAIUIRogASgCICEbIAEoAiwhHCACIQUgByEGQQAhEEEAIRIDQCADQQNqIARPDRkgA0EHaiAETw0aIANBC2ogBE8NGyADQQ9qIARPDRwgA0ETaiAETw0dIANBF2ogBE8NHiALIBBNDQIgAyAZaiIJQQRqKgAAIR4gCUEIaioAACEfIAlBDGoqAAAhICAJQRBqKgAAISEgCUEUaioAACEiIBEgFmoiDyAJKgAAOAIAIBBBAWoiCiALTw0EIA9BBGogHjgCACAQQQJqIhMgC08NBSAPQQhqIB84AgAgDSAQTQ0GIBYgHGoiDyAgOAIAIAogDU8NByAPQQRqICE4AgAgDSATTQ0IIA9BCGogIjgCACADQRhqIg8gBE8NCSAMIBBNDQogFiAbaiIPIAlBGGotAACzQwAAf0OVOAIAIANBGWoiHSAETw0LIAogDE8NDCAPQQRqIAlBGWotAACzQwAAf0OVOAIAIANBGmoiCiAETw0NIAwgE00NDiAPQQhqIAlBGmotAACzQwAAf0OVOAIAIANBG2oiCiAETw0PIAVFDRAgEiAaaiAJQRtqLQAAs0MAAH9DlTgCACADQRxqIgogBE8NESADQR1qIgogBE8NEiADQR5qIgogBE8NEyADQR9qIgogBE8NFCAIIBJNDRUgCUEcai0AACEKIAlBHmotAAAhEyAJQR9qLQAAIQ8gFSAJQR1qLQAAs0MAAADDkkMAAAA8lDgCACASQQFqIgkgCE8NFiAVQQRqIBOzQwAAAMOSQwAAADyUOAIAIBJBAmoiCSAITw0XIBVBCGogD7NDAAAAw5JDAAAAPJQ4AgAgEkEDaiIJIAhPDRggFUEMaiAKs0MAAADDkkMAAAA8lDgCACAFQQFrIQUgFUEQaiEVIANBIGohAyAWQQxqIRYgEEEDaiEQIBJBBGohEiAGQQFrIgYNAAsLIAsgDkkNHSACIAdJDR4gDCAOSQ0fIA0gDkkNICAIIBdJDSEgASgCFCEGIAEoAiAhBSABKAIsIQMgAUIENwKIASABQgI3AoABIAFCBDcCeCABQgQ3AnAgAUIENwJoIAEgFzYCZCABIAEoAjgiBDYCYCABIA42AlwgASADNgJYIAEgDjYCVCABIAU2AlAgASAHNgJMIAEgBjYCSCABIA42AkQgASARNgJAIAAgFCAHIAFBQGsQ4gEgByAUaiIUIBhPDSIMAQsLIBAgC0GM18AAEIwHAAsgCiALQZzXwAAQjAcACyATIAtBrNfAABCMBwALIBAgDUG818AAEIwHAAsgCiANQczXwAAQjAcACyATIA1B3NfAABCMBwALIA8gBEHs18AAEIwHAAsgECAMQfzXwAAQjAcACyAdIARBjNjAABCMBwALIAogDEGc2MAAEIwHAAsgCiAEQazYwAAQjAcACyATIAxBvNjAABCMBwALIAogBEHM2MAAEIwHAAsgAiACQdzYwAAQjAcACyAKIARB7NjAABCMBwALIAogBEH82MAAEIwHAAsgCiAEQYzZwAAQjAcACyAKIARBnNnAABCMBwALIBIgCEGs2cAAEIwHAAsgCSAIQbzZwAAQjAcACyAJIAhBzNnAABCMBwALIAkgCEHc2cAAEIwHAAsgAyADQQRyIARB8OXBABDqBwALIANBBGogA0EIciAEQfDlwQAQ6gcACyADQQhqIANBDHIgBEHw5cEAEOoHAAsgA0EMaiADQRByIARB8OXBABDqBwALIANBEGogA0EUciAEQfDlwQAQ6gcACyADQRRqIANBGHIgBEHw5cEAEOoHAAtBACAOIAtB/NbAABDqBwALQQAgByACQezWwAAQ6gcAC0EAIA4gDEHc1sAAEOoHAAtBACAOIA1BzNbAABDqBwALQQAgFyAIQbzWwAAQ6gcACyABKAI0IgBFDQAgBEEEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAyACQQAgByAAQSdqSxsNBCAEEKICCyABKAIoIgAEQCADQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0DIAJBACAHIABBJ2pLGw0EIAMQogILIAEoAhwiAARAIAVBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQMgAkEAIAcgAEEnaksbDQQgBRCiAgsgASgCECIABEAgBkEEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAyACQQAgByAAQSdqSxsNBCAGEKICCyABKAIEIgAEQCARQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0DIAJBACAHIABBJ2pLGw0BIBEQogILQQAhAwwBCwwCCyABQZABaiQAIAMPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAu1FgEOfwJ/AkAgAiADSwRAIAEgA0EebGoiAy8BACICQf//AXFFBEAgAkEQdAwDCyACQf8HcSEBIAJBgIACcSEFIAJBgPgBcSICQYD4AUYEQCAFQRB0IQIgAkGAgID8B3IgAUUNAxogAiABQQ10ckGAgID+B3IMAwsgBUEQdCEFIAJFDQEgAkENdEGAgID8AHEgAUENdHJBgICAwANqIAVyDAILIAMgAkGEwccAEIwHAAsgBUGAgIDYA3IgAWdBEGsiAkEXdGsgASACQf//A3FBCGp0Qf///wNxcgshAQJ/IAMvAQIiBUH//wFxRQRAIAVBEHQMAQsgBUH/B3EhAiAFQYCAAnEhBiAFQYD4AXEiBUGA+AFGBEAgBkEQdCEFIAVBgICA/AdyIAJFDQEaIAUgAkENdHJBgICA/gdyDAELIAZBEHQhBiAFQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogBnIgBQ0AGiAGQYCAgNgDciACZ0EQayIFQRd0ayACIAVB//8DcUEIanRB////A3FyCyEFAn8gAy8BBCIGQf//AXFFBEAgBkEQdAwBCyAGQf8HcSECIAZBgIACcSEHIAZBgPgBcSIGQYD4AUYEQCAHQRB0IQYgBkGAgID8B3IgAkUNARogBiACQQ10ckGAgID+B3IMAQsgB0EQdCEHIAZBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAHciAGDQAaIAdBgICA2ANyIAJnQRBrIgZBF3RrIAIgBkH//wNxQQhqdEH///8DcXILIQYCfyADLwEGIgdB//8BcUUEQCAHQRB0DAELIAdB/wdxIQIgB0GAgAJxIQggB0GA+AFxIgdBgPgBRgRAIAhBEHQhByAHQYCAgPwHciACRQ0BGiAHIAJBDXRyQYCAgP4HcgwBCyAIQRB0IQggB0ENdEGAgID8AHEgAkENdHJBgICAwANqIAhyIAcNABogCEGAgIDYA3IgAmdBEGsiB0EXdGsgAiAHQf//A3FBCGp0Qf///wNxcgshBwJ/IAMvAQgiCEH//wFxRQRAIAhBEHQMAQsgCEH/B3EhAiAIQYCAAnEhCSAIQYD4AXEiCEGA+AFGBEAgCUEQdCEIIAhBgICA/AdyIAJFDQEaIAggAkENdHJBgICA/gdyDAELIAlBEHQhCSAIQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogCXIgCA0AGiAJQYCAgNgDciACZ0EQayIIQRd0ayACIAhB//8DcUEIanRB////A3FyCyEIAn8gAy8BCiIJQf//AXFFBEAgCUEQdAwBCyAJQf8HcSECIAlBgIACcSEKIAlBgPgBcSIJQYD4AUYEQCAKQRB0IQkgCUGAgID8B3IgAkUNARogCSACQQ10ckGAgID+B3IMAQsgCkEQdCEKIAlBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAKciAJDQAaIApBgICA2ANyIAJnQRBrIglBF3RrIAIgCUH//wNxQQhqdEH///8DcXILIQkCfyADLwEMIgpB//8BcUUEQCAKQRB0DAELIApB/wdxIQIgCkGAgAJxIQsgCkGA+AFxIgpBgPgBRgRAIAtBEHQhCiAKQYCAgPwHciACRQ0BGiAKIAJBDXRyQYCAgP4HcgwBCyALQRB0IQsgCkENdEGAgID8AHEgAkENdHJBgICAwANqIAtyIAoNABogC0GAgIDYA3IgAmdBEGsiCkEXdGsgAiAKQf//A3FBCGp0Qf///wNxcgshCgJ/IAMvAQ4iC0H//wFxRQRAIAtBEHQMAQsgC0H/B3EhAiALQYCAAnEhDCALQYD4AXEiC0GA+AFGBEAgDEEQdCELIAtBgICA/AdyIAJFDQEaIAsgAkENdHJBgICA/gdyDAELIAxBEHQhDCALQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogDHIgCw0AGiAMQYCAgNgDciACZ0EQayILQRd0ayACIAtB//8DcUEIanRB////A3FyCyELAn8gAy8BECIMQf//AXFFBEAgDEEQdAwBCyAMQf8HcSECIAxBgIACcSENIAxBgPgBcSIMQYD4AUYEQCANQRB0IQwgDEGAgID8B3IgAkUNARogDCACQQ10ckGAgID+B3IMAQsgDUEQdCENIAxBDXRBgICA/ABxIAJBDXRyQYCAgMADaiANciAMDQAaIA1BgICA2ANyIAJnQRBrIgxBF3RrIAIgDEH//wNxQQhqdEH///8DcXILIQwCfyADLwESIg1B//8BcUUEQCANQRB0DAELIA1B/wdxIQIgDUGAgAJxIQ4gDUGA+AFxIg1BgPgBRgRAIA5BEHQhDSANQYCAgPwHciACRQ0BGiANIAJBDXRyQYCAgP4HcgwBCyAOQRB0IQ4gDUENdEGAgID8AHEgAkENdHJBgICAwANqIA5yIA0NABogDkGAgIDYA3IgAmdBEGsiDUEXdGsgAiANQf//A3FBCGp0Qf///wNxcgshDQJ/IAMvARQiDkH//wFxRQRAIA5BEHQMAQsgDkH/B3EhAiAOQYCAAnEhDyAOQYD4AXEiDkGA+AFGBEAgD0EQdCEOIA5BgICA/AdyIAJFDQEaIA4gAkENdHJBgICA/gdyDAELIA9BEHQhDyAOQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogD3IgDg0AGiAPQYCAgNgDciACZ0EQayIOQRd0ayACIA5B//8DcUEIanRB////A3FyCyEOAn8gAy8BFiIPQf//AXFFBEAgD0EQdAwBCyAPQf8HcSECIA9BgIACcSEQIA9BgPgBcSIPQYD4AUYEQCAQQRB0IQ8gD0GAgID8B3IgAkUNARogDyACQQ10ckGAgID+B3IMAQsgEEEQdCEQIA9BDXRBgICA/ABxIAJBDXRyQYCAgMADaiAQciAPDQAaIBBBgICA2ANyIAJnQRBrIg9BF3RrIAIgD0H//wNxQQhqdEH///8DcXILIQ8CfyADLwEYIhBB//8BcUUEQCAQQRB0DAELIBBB/wdxIQIgEEGAgAJxIQQgEEGA+AFxIhBBgPgBRgRAIARBEHQhECAQQYCAgPwHciACRQ0BGiAQIAJBDXRyQYCAgP4HcgwBCyAEQRB0IQQgEEENdEGAgID8AHEgAkENdHJBgICAwANqIARyIBANABogBEGAgIDYA3IgAmdBEGsiEEEXdGsgAiAQQf//A3FBCGp0Qf///wNxcgshEAJ/IAMvARoiBEH//wFxRQRAIARBEHQMAQsgBEH/B3EhAiAEQYCAAnEhESAEQYD4AXEiBEGA+AFGBEAgEUEQdCEEIARBgICA/AdyIAJFDQEaIAQgAkENdHJBgICA/gdyDAELIBFBEHQhESAEQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogEXIgBA0AGiARQYCAgNgDciACZ0EQayIEQRd0ayACIARB//8DcUEIanRB////A3FyCyECIAACfyADLwEcIgRB//8BcUUEQCAEQRB0DAELIARB/wdxIQMgBEGAgAJxIREgBEGA+AFxIgRBgPgBRgRAIBFBEHQhBCAEQYCAgPwHciADRQ0BGiAEIANBDXRyQYCAgP4HcgwBCyARQRB0IREgBEENdEGAgID8AHEgA0ENdHJBgICAwANqIBFyIAQNABogEUGAgIDYA3IgA2dBEGsiBEEXdGsgAyAEQf//A3FBCGp0Qf///wNxcgs2AjggACACNgI0IAAgEDYCMCAAIA82AiwgACAONgIoIAAgDTYCJCAAIAw2AiAgACALNgIcIAAgCjYCGCAAIAk2AhQgACAINgIQIAAgBzYCDCAAIAY2AgggACAFNgIEIAAgATYCAAv3FQIRfwJ+IwBBIGsiCiQAAkACQAJAA0ACfyABKAKcAyICIAEpA6ADIhMgAq0iFCATIBRUG6ciBEYEQEEBIQVBJSEGQQAhB0EAIQJBACEJQQAhCyADQYB+cUEkcgwBCyAKQQhqIAEgASgCmAMgBGogAiAEa0EAENYBIAopAhAiE0IoiKchByATQiCIpyECIBNCGIinIQkgE0IQiKchCyATQgiIpyEGIAotABshDCAKLQAaIQ4gCi0AGSEIIAotABghDSAKKAIMIQQgE6chBSAEIAooAggNABogASABKQOgAyAErXw3A6ADIANBgH5xQShyCyIDQf8BcUEoRwRAIANBCHYhAQwCCwJAAkACQAJAIAVB/wFxQQFrDgIAAQQLIA1B/wFxIgRByQBGDQEgBEHmAEcgCEHkAEdyIA5B/wFxQcEARyAMQf8BcUHUAEdycg0DDAILIAZB/wFxQckARyALQf8BcUHFAEdyIAlB/wFxQc4ARyACQf8BcUHEAEdycg0CQQMhAwwDCyAIQcQARyAOQf8BcUHBAEdyIAxB/wFxQdQAR3INAQsLAn8CQCABKAIIQQJHBEBBASEHIAFBCGoiA0G4AkGgAiABLQC5AkECRiIFG2ooAgAhBCADQbQCQZwCIAUbaigCACEDIAEtAMQCIg9BAUYEQCAEQQN2IARBB3FBAEdqIQUgA0UgBEVyRQRAIANBA3YgA0EHcUEAR2ohAkEBIQ1BASEIQQEhDEEBDAQLQQEhDSAERSADQQRNcg0CIANBBGsiAkEAIAIgA00bIgJBA3YgAkEHcUEAR2ohAkECIQdBASEIQQIhDEEBDAMLIARFBEBBACENQQAhBUEAIQhBAgwDC0EAIQ0gBCEFQQEhCEEADAILQayYxwAQ3QkACyADRSAEQQVJckUEQEEDIQcgBEEEayICQQAgAiAETRsiAkEDdiACQQdxQQBHaiEFIANBAnYgA0EDcUEAR2ohAkEBIQhBAyEMQQEMAQsgBEUgA0ECTXJFBEAgA0ECayICQQAgAiADTRsiAkECdiACQQNxQQBHaiECIARBAnYgBEEDcUEAR2ohBUEEIQdBASEIQQQhDEEBDAELAkAgBEEDSQ0AIAMgA0EBdmsiAkUNACAEQQJrIgVBACAEIAVPGyIFQQJ2IAVBA3FBAEdqIQVBBSEHQQEhCEEFIQxBAQwBCwJAIAQgBEEBdmsiBUUNACADQQFrIgJBACACIANNGyICIAJBAXZrIgJFDQBBBiEHQQEhCEEGIQxBAQwBC0EAIQhBByEHIARBAWsiAkEAIAIgBE0bIgIgAkEBdmsiBUUgA0VyRQRAIAMhAkEBIQhBByEMQQEMAQsgAyECQQILIQ4gAS0AxgIiCUECdCIQKAKQlEkgA2whCwJAAkACQCABLQDHAiIGQQhrDgkCAAAAAAAAAAEACyAGQQhNBEAgC0EIIAZuIhFuIhIgCyARIBJsR2ohCwwCCwwECyALQQF0IQsLIAFBADoA5AMgASAENgLcAyABIAM2AtgDIAEgDDoA1AMgASACNgLQAyABIAM2AswDIAFBADYCyAMgASAONgLEAyABIAc6AMADIAEgBDYCvAMgASADNgK4AyABIAI2ArQDIAEgBTYCsAMgASAINgKsAyABIA02AqgDIAEgC0EBaiIFNgLgAwJAIBAoAoCVSSAGQQdqQQN2bEEBayICQQdLQa8BIAJ2QQFxRXJFBEAgAUKBhIyggMCBgAggAkEDdK2IPADFBCAPRQRAIAStIAWtfiETDAILIAlBAnQiAigCyJRJIANBA3YgA0EHcUEAR2psIQsCQAJAAkAgBkEIayIFDgkCAAAAAAAAAAEACyAGQQhNBEAgC0EIIAZuIgduIg4gCyAHIA5sR2ohCwwCCwwGCyALQQF0IQsLIAIoApyVSSADQQRrIgJBACACIANNGyICQQN2IAJBB3FBAEdqbCECAkACQAJAAkACQAJAIAUOCQABAQEBAQEBAgELIAlBAnQoAriVSSADQQJ2IANBA3FBAEdqbCEHIAJBAWohDQwECyAGQQlPDQggCUECdCgCuJVJIANBAnYgA0EDcUEAR2psIQcgAkEIIAZuIgVuIg4gAiAFIA5sR2pBAWohDSAGQQhrDgkDAgICAgICAgECCyAJQQJ0KAK4lUkgA0ECdiADQQNxQQBHamwhByACQQF0QQFyIQ0LIAdBAXQhBwwBCyAHQQggBm4iAm4iBSAHIAIgBWxHaiEHCyAJQQJ0IgUoAtSVSSADQQJrIgJBACACIANNGyICQQJ2IAJBA3FBAEdqbCECAkACQAJAAkACQAJAIAZBCGsOCQABAQEBAQEBAgELIAUoAvCVSSADIANBAXZrbCEFIARBAnYgBEEDcUEAR2ohDiACQQFqIQwMBAsgBkEJTw0IIAlBAnQoAvCVSSADIANBAXZrbCEFIARBAnYgBEEDcUEAR2ohDiACQQggBm4iDG4iCCACIAggDGxHakEBaiEMIAZBCGsOCQMCAgICAgICAQILIAUoAvCVSSADIANBAXZrbCEFIARBAnYgBEEDcUEAR2ohDiACQQF0QQFyIQwLIAVBAXQhBQwBCyAFQQggBm4iAm4iCCAFIAIgCGxHaiEFCyAJQQJ0IgIoAoyWSSADQQFrIghBACADIAhPGyIIIAhBAXZrbCEJAkACQAJAIAZBCGsiCA4JAgAAAAAAAAABAAsgBkEITQRAIAlBCCAGbiIPbiIQIAkgDyAQbEdqIQkMAgsMBgsgCUEBdCEJCyACKALklEkgA2whAgJAAkACQCAIDgkCAAAAAAAAAAEACyAGQQhNBEAgAkEIIAZuIgZuIgggAiAGIAhsR2ohAgwCCwwGCyACQQF0IQILIARBBGsiBkEAIAQgBk8bIgZBA3YgBkEHcUEAR2qtIAdBAWqtfiAEQQN2IARBB3FBAEdqrSANrSALQQFqrXx+fCAOrSAMrX58IARBAmsiB0EAIAQgB08bIgdBAnYgB0EDcUEAR2qtIAVBAWqtfnwgBCAEQQF2a60gCUEBaq1+fCAEQQFrIgVBACAEIAVPGyIEIARBAXZrrSACQQFqrX58IRMMAQsgCkEANgIYIApBATYCDCAKQbiPxQA2AgggCkIENwIQIApBCGpBwI/FABCNCAALIAFBADYC+AMCQAJAIAEoAogEIgJBgoCAgHhIIAJFckUEQCABKAKMBCIDQQRrKAIAIgRBeHEiBUEEQQggBEEDcSIEGyACakkNASAEQQAgBSACQSdqSxsNAiADEKICIAEoAtgDIQMLIAFBADYCnAQgAUIANwKUBCABQYCAgIB4NgKIBCABIBM3A+gDIAogARCKBSAKLQAAQQJ0KAKslEkgA2whAwJAAkACQCAKLQABIgJBCGsOCQIAAAAAAAAAAQALIAJBCE0EQCADQQggAm4iAm4iBCADIAIgBGxHaiEDDAILDAYLIANBAXQhAwsgAyABKAKIAyICSwRAIABBJzoAAAwECyAAQSg6AAAgASACIANrNgKIAwwDC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgACAHOwAJIAAgATsAASAAIAw6AA8gACAOOgAOIAAgCDoADSAAIA06AAwgACACOgAIIAAgCToAByAAIAs6AAYgACAGOgAFIAAgBToABCAAIAM6AAAgAEELaiAHQRB2OgAAIABBA2ogAUEQdjoAAAsgCkEgaiQADwtB0I/FABCBCAALyBUCB38HfiMAQeACayICJAACfwJAAn8CQAJAAkACQCAALQAAQQNrDgUBAAAAAgALIAAgARDKAgwFCyAAKQMIIglC/////////weDIQogCUL///////////8Ag0L/////////9/8AWARAIAlCNIinIQAgCUIAUw0CIAJBsAJqDAMLQeydxgBB753GACAJQgBZIgAbQfOdxgAgClAiAxshBEEDQQQgABtBAyADGyEADAMLIAEoAgBB8ZLGAEEEIAEoAgQoAgwRAAAMAwsgAkEtOgCwAkEBIQggAkGxAmoLIQYCfwJAAkACQAJAAkACQAJAAkAgAEH/D3EiAEUgClBxRQRAIABBAkkgCkIAUnIhBCAKQoCAgICAgIAIhCAKIAAbIglCAoYhCiAJQgGDIQ8CQAJAAkAgAEG1CGtBzHcgABsiAEEASARAIAJBkAJqQYC8xQAgACAAQYWiU2xBFHYgAEF/R2siAGoiB0EEdCIDaykDACIJIApCAoQiCxDdBiACQYACakGIvMUAIANrKQMAIg0gCxDdBiACQfABaiACKQOYAiILIAIpA4ACfCIMIAIpA4gCIAsgDFatfCAAIAdBsdm1H2xBE3ZrQfwAakH/AHFBwABzIgMQoQcgAkGwAWogCSAKIARBf3OsfCILEN0GIAJBoAFqIA0gCxDdBiACQZABaiACKQO4ASILIAIpA6ABfCIMIAIpA6gBIAsgDFatfCADEKEHIAJB4AFqIAkgChDdBiACQdABaiANIAoQ3QYgAkHAAWogAikD6AEiCSACKQPQAXwiDSACKQPYASAJIA1WrXwgAxChByACKQPAASELIAIpA5ABIQkgAikD8AEhDCAAQQJJDQFBACEDIABBP0kNAgwFCyACQYABaiAAQcHoBGxBEnYgAEEDS2siB0EEdCIDKQPg5EUiCSAKQgKEIg0Q3QYgAkHwAGogA0Ho5MUAaikDACILIA0Q3QYgAkHgAGogAikDiAEiDCACKQNwfCIOIAIpA3ggDCAOVq18IAcgAGsgB0HPpsoAbEETdmpB/QBqQf8AcUHAAHMiABChByACQSBqIAkgCiAEQX9zrHwiDBDdBiACQRBqIAsgDBDdBiACIAIpAygiDCACKQMQfCIOIAIpAxggDCAOVq18IAAQoQcgAkHQAGogCSAKEN0GIAJBQGsgCyAKEN0GIAJBMGogAikDWCIJIAIpA0B8IgsgAikDSCAJIAtWrXwgABChByACKQMwIQsgAikDACEJIAIpA2AhDCAHQRZJDQJBACEDDAQLIAwgD30hDCAPUCAEcSEDQQEhBQwECyAKQn8gAK2GQn+Fg1AhBQwCC0EAIAqnayAKQgWAp0F7bEYEQEF/IQADQCAAQQFqIQAgCkLNmbPmzJmz5kx+IgpCtObMmbPmzJkzVA0ACyAAIAdPIQVBACEDDAILIA9QRQRAQX8hAANAIABBAWohACANQs2Zs+bMmbPmTH4iDUK05syZs+bMmTNUDQALIAwgACAHT619IQxBACEDDAILIAStQn+FIAp8IQpBfyEAA0AgAEEBaiEAIApCzZmz5syZs+ZMfiIKQrTmzJmz5syZM1QNAAsgACAHTyEDDAELIAZBAmpBwo/GAC0AADoAACAGQcCPxgAvAAA7AAAgCUI/iKdBA2ohACACQbACaiEEDAkLIAMNACAFRQ0BC0EAIQQgDEIKgCIOIAlCCoAiDFYNAUEAIQAgCSEKIAshDQwCC0EAIQQgDELkAIAiCiAJQuQAgCIOVg0CQQAhACAJIQ4gDCEKIAshCQwEC0EAIQADQCADQQAgCadrIAwiCqdBdmxGcSEDIABBAWohACAFIARB/wFxRXEhBSALpyALQgqAIg2nQXZsaiEEIA0hCyAOQgqAIg4gCiIJQgqAIgxWDQALCwJAIAMEQEEAIAqnayAKQgqAIgunQXZsRg0BCyANIQkMAgsDQCAAQQFqIQAgBSAEQf8BcUVxIQUgDacgDUIKgCIJp0F2bGohBCAJIQ1BACALp2sgCyIKQgqAIgunQXZsRg0ACwwBCyALpyALQuQAgCIJp0Gcf2xqQTFLIQRBAiEADAELIA9QIANxRSAJIApRcUEEQQUgCUIBg1AbIAQgBEH/AXFBBUYbIAQgBRtB/wFxQQRLcgwBCyAKQgqAIgogDkIKgCINVgR/A0AgAEEBaiEAIAkiC0IKgCEJIApCCoAiCiANIg5CCoAiDVYNAAsgC6cgCadBdmxqQQRLBSAECyAJIA5RcgshBAJAAn8CfwJAAkACQAJ/AkACQAJAIAAgB2oiA0EATiADAn9BESAJIAStQgGDfCIJQv//g/6m3uERVg0AGkEQIAlC//+Zpuqv4wFWDQAaQQ8gCUL//+iDsd4WVg0AGkEOIAlC/7/K84SjAlYNABpBDSAJQv+flKWNHVYNABpBDCAJQv/P28P0AlYNABpBCyAJQv/Hr6AlVg0AGkEKIAlC/5Pr3ANWDQAaQQkgCUL/wdcvVg0AGkEIIAlC/6ziBFYNABpBByAJQr+EPVYNABpBBiAJQp+NBlYNABpBBSAJQo/OAFYNABpBBCAJQucHVg0AGkEDIAlC4wBWDQAaQQJBASAJQglWGwsiAGoiBUERSHFFBEAgBUEBayIEQRBJDQEgBUEEakEFSQ0CIABBAUcNBSACQbACaiIAIAhqIAmnQTBqOgAAIAZB5QA6AAEgACAIQQJyIgZqIQMgBEEASA0DIAQMBAsgCSAAIAZqEMAEIANFIAAgBU5yRQRAIAJBsAJqIABqIAhqQTAgA/wLAAsgBSAIaiIAIAJBsAJqIgRqQa7gADsAACAAQQJqIQAMCgsgCSAAIAhqQQFqIgAgAkGwAmpqEMAEIAUEQCAGIAZBAWogBfwKAAALIAUgBmpBLjoAACACQbACaiEEDAkLIAJBsAJqIAhqQTA6AAAgBkEuOgABQQIgBWshBAJAIAVBAE4NAEEDIAQgBEEDTRtBAmsiA0UNACAGQQJqQTAgA/wLAAsgCSAAIAhqIARqIgAgAkGwAmoiBGoQwAQMCAsgA0EtOgAAIANBAWohA0EBIAVrCyIAQeMASg0BIABBCUwEQCADIABBMGo6AAAgBEEfdkEBaiEADAYLIAMgAEEBdC8AuLpFOwAAIARBH3ZBAnIhAAwFCyAJIAAgCGoiACACQbACaiIHaiIDQQFqEMAEIAcgCGogBi0AAToAACAGQS46AAEgA0HlADoAASAHIABBAmoiBmohAyAEQQBIDQEgBAwCCyADIABB5ABuIgVBMGo6AAAgAyAAIAVB5ABsa0EBdC8AuLpFOwABIARBH3ZBA2ohAAwDCyADQS06AAAgA0EBaiEDQQEgBWsLIgBB4wBMBEAgAEEJTARAIAMgAEEwajoAACAEQR92QQFqDAILIAMgAEEBdC8AuLpFOwAAIARBH3ZBAnIMAQsgAyAAQeQAbiIFQTBqOgAAIAMgACAFQeQAbGtBAXQvALi6RTsAASAEQR92QQNqCyAGaiEAIAJBsAJqIQQMAQsgACAGaiEAIAJBsAJqIQQLIAIgADYCrAIgAiAENgKoAiACIAJBqAJqrUKAgICAIIQ3A6ACIAEoAgAgASgCBCACQgE3AtQCIAJBAjYCzAIgAkHspcYANgLIAiACIAJBoAJqNgLQAiACQcgCahDBAwsgAkHgAmokAAvbGAMnfwp7BX4jAEEgayIIJAAgAC8BJCIFQQ9qIgtB8P8DcSEHIAtB8P8HcSENIAAoAiAhBiAAKAIcIRIgACgCFCEKIAAoAhAhEyAAKAIIIQQgACgCBCEUAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAMEQCANQf//A3EiEEUNASAGIAdBAXYiCXAhACAKIAlwIQMgBUUNAiAEIAduIgQgAiAFQQNsIhduIgIgAiAESxsiJkUNEiAGIABrIRggCiADayEZIAUgEEsNESAFQQFxIScgCa0hNyAXIBdBBnAiKGsiFUEGa0EGbiIAIAVBAXYiAiAAIAJJGyIAIAUgAmtB//8DcSIRIAAgEUkbIiFBf3MgIUEBaiIAQQNxIgJBBCACGyICaiEiIAAgAmsiGkEGbCEpIAVB/v8DcSIbIBpBAXQiKmshIyAVIBpBemxqISQgASENIBQhEEEAIQpBACEFA0ACfyAFRSA1QoCAgIAQVHJFBEAgNUKAgICAcINCgICAgBB9ITggNacMAQsgCSAZSw0UIBkgCWshGUKAgICAECE4IDchNSAJIBMiBWohEyAJCyEEAn4gCkUgNkKAgICAEFRyRQRAIDanIQAgNkKAgICAcINCgICAgBB9DAELIAkgGEsNFCAYIAlrIRggNyE2IBIiCiAJIgBqIRJCgICAgBALITkgBCARSQ0EIAAgEUkNBSAUIAcgHGxqIR0gASAXIBxsaiEeIDVC/////w+DIDZC/////w+DITYgBSARaiElIAohCyAFIQwCQAJAIBVBBkkNACAVIQYgHiEEIBshACAdIQ4gIUEETwRAIA4gKmohDiAKIBpqIQsgBSAaaiEMIAQgKWohBCANIQAgBSEDIAohDyAiIQIgECEGA0AgACAP/VwAAP2JAf2pASIt/QwlZgAAJWYAACVmAAAlZgAA/bUBQQj9rQH9DGbI//9myP//Zsj//2bI///9rgEiLyAG/V0AACIwICz9DQACBAYAAAAAAAAAAAAAAAD9iQH9qQH9DIVKAACFSgAAhUoAAIVKAAAiMf21AUEI/a0BIiv9rgFBBv2sAf0MAAAAAAAAAAAAAAAAAAAAACIs/bgB/Qz/AAAA/wAAAP8AAAD/AAAAIi79tgEgKyAt/QwINAAACDQAAAg0AAAINAAA/bUBQQj9rQEgA/1cAAD9iQH9qQEiLf0MExkAABMZAAATGQAAExkAAP21AUEI/a0B/a4BIjL9sQH9DAQiAAAEIgAABCIAAAQiAAAiM/2uAUEG/awBICz9uAEgLv22Af0NAAQIDBAUGBwAAAAAAAAAACArIC39DBqBAAAagQAAGoEAABqBAAD9tQFBCP2tAf0M67r//+u6///ruv//67r///2uASI0/a4BQQb9rAEgLP24ASAu/bYBIiv9GwD9FwggK/0bAf0XCSAr/RsC/RcKICv9GwP9FwsgMCAs/Q0BAwUHAAAAAAAAAAAAAAAA/YkB/akBIDH9tQFBCP2tASItIC/9rgFBBv2sASAs/bgBIC79tgEiK/0bAP0XDCAr/RsB/RcNICv9GwL9Fw4gK/0bA/0XDyIrIC0gMv2xASAz/a4BQQb9rAEgLP24ASAu/bYBIC0gNP2uAUEG/awBICz9uAEgLv22Af0NAAQIDBAUGBwAAAAAAAAAACIs/Q0SFgMHCw8TFwAAAAAAAAAA/VsAEAAgACArICz9DQAECAwQFAEFCQ0RFQIGCg79CwAAIABBGGohACADQQRqIQMgD0EEaiEPIAZBCGohBiACQQRqIgINAAsgJCEGICMhAAsDQCAARQ0BIAwgJUYNAiAEQQJqQf8BIA4tAABBhZUBbEEIdiICIAwtAAAiD0GaggJsQQh2QZWKAWsiA2pBBnUiH0EAIB9BAEobIh8gH0H/AU4bOgAAIARB/wEgCy0AACIfQaXMAWxBCHZBmu8AayIgIAJqQQZ1IhZBACAWQQBKGyIWIBZB/wFOGzoAACAEQQVqQf8BIAMgDkEBai0AAEGFlQFsQQh2IgNqQQZ1IhZBACAWQQBKGyIWIBZB/wFOGzoAACAEQQNqQf8BIAMgIGpBBnUiIEEAICBBAEobIiAgIEH/AU4bOgAAIARBAWpB/wEgAiAfQYjoAGxBCHYgD0GTMmxBCHZqIgJrQYTEAGpBBnUiD0EAIA9BAEobIg8gD0H/AU4bOgAAIARBBGpB/wEgAyACa0GExABqQQZ1IgJBACACQQBKGyICIAJB/wFOGzoAACAEQQZqIQQgDkECaiEOIAtBAWohCyAMQQFqIQwgAEECayEAIAZBBmsiBkEGTw0ACwsgCyAKIBFqRiAoQQNJciAnRSAMICVGcnINACAVIB5qIgBB/wEgGyAdai0AAEGFlQFsQQh2IgIgDC0AACIDQZqCAmxBCHZqQZWKAWtBBnUiBkEAIAZBAEobIgYgBkH/AU4bOgACIABB/wEgAiALLQAAIgZBpcwBbEEIdmpBmu8Aa0EGdSIEQQAgBEEAShsiBCAEQf8BThs6AAAgAEH/ASACIANBkzJsQQh2IAZBiOgAbEEIdmprQYTEAGpBBnUiAEEAIABBAEobIgAgAEH/AU4bOgABCyA4hCE1IDYgOYQhNiANIBdqIQ0gByAQaiEQIBxBAWoiHCAmSQ0ACwwSCyAEIAVJDQQgBSAFQQF2ayIDIApLDQUgAyAGSw0GIAIgBUEDbCIJSQ0HIAAvASYhFSABIAkgFCAFIBMgAyASIAMQeSAFRQ0IIAIgCWsiAiAFQQZsIgxwIQ8gByAVbCIAIAdJIAAgBEtyDQkgDUH//wNxIg1FDQogB0EBdiEEIAEgCWohGyAAIAdrIgAgACAHQQF0IhBwIh5rIQAgByAUaiEdAkAgAiAPayIiIAxJDQAgBSANSwRAIAYgB0kgByAKS3IgACAQSXINAUEAIAUgB0Ho6cQAEOoHAAsgAyAESwRAIAYgB0kgByAKS3IgACAQSXINAUEAIAMgBEHY6cQAEOoHAAsgACAQSSAHIApLciAGIAdJciECIAcgBGsiDSADSQRAIAINAUEAIAMgDUHI6cQAEOoHAAsgAg0AIBsgCSAdIAUgEyADIAQgE2oiIyADIBIgAyAEIBJqIiQgAxBrIAkgG2ogCSAHIB1qIAUgIyADIBMgAyAkIAMgEiADEGsgIiAMayINIAxJDQAgBEEBayERIAogBGshFyAHIBNqIRggBUEMbCEZIAVBCWwhGiAHIBJqIRwgC0Hw/wNxQQR2IgJBBnQhISACQTBsISVBACELIAAhAgNAIAIgEGsiAiAQSSAKIAtqQQFrIBFJciALIBdqIAdJIAYgC2pBAWsgEUlycg0BIAYgCyAEayILaiAHSQ0BIAEgGmogCSAUICVqIAUgDiAjaiImIAMgDiAYaiInIAMgDiAkaiIoIAMgDiAcaiIpIAMQayABIBlqIAkgFCAhaiAFICcgAyAmIAMgKSADICggAxBrIBAgFGohFCABIAxqIQEgBCAOaiEOIA0gDGsiDSAMTw0ACwsgD0UNESAKIBVBAXEgFUEBdmpBAWsgBGwiAUkNCyABIAZLDQwgBSAeSw0NIAMgCiABayICSw0OIAMgBiABayICSw0PIBsgImogDyAAIB1qIAUgASATaiADIAEgEmogAxB5DBELIAhBADYCGCAIQQE2AgwgCEG8occANgIIIAhCBDcCECAIQQhqQcjqxAAQjQgACyAIQQA2AhggCEEBNgIMIAhBvKHHADYCCCAIQgQ3AhAgCEEIakHY6sQAEI0IAAtBACARIARB+OrEABDqBwALQQAgESAAQejqxAAQ6gcAC0EAIAUgBEG46sQAEOoHAAtBACADIApBqOrEABDqBwALQQAgAyAGQZjqxAAQ6gcAC0EAIAkgAkGI6sQAEOoHAAsgCEEANgIYIAhBATYCDCAIQbyhxwA2AgggCEIENwIQIAhBCGpB2OjEABCNCAALIAcgACAEQfjpxAAQ6gcACyAIQQA2AhggCEEBNgIMIAhBvKHHADYCCCAIQgQ3AhAgCEEIakHo6MQAEI0IAAsgASAKIApBuOnEABDqBwALIAEgBiAGQajpxAAQ6gcAC0EAIAUgHkGY6cQAEOoHAAtBACADIAJBiOnEABDqBwALQQAgAyACQfjoxAAQ6gcACyAJIBlLIAkgGEtyDQBBACAFIAdBiOvEABDqBwALIAhBIGokAAutFgMlfwN9AXsjAEHQAmsiAyQAQQAQtgkhBCADQQAQtgk2AsABIAMgBDYCvAEgA0EANgK4ASADQgA3ArABIANCBDcCeCADQgA3AnAgA0KAgICAwAA3AmggA0IENwJgIANCADcCWCADQoCAgIDAADcCUCADQQA2AjwgA0EANgI0IANBADYCLCADQQA2AiQgA0EANgIcIANBADYCFCADQQA2AgwgA0EANgJIIANBgICAgHg2ApgBIANBgICAgHg2AqQBIANBzAFqQQA6AAAgA0IENwKQASADQgA3AogBIANCgICAgMAANwKAASADQgA3AsQBIAEoAjwhEyADIAI6APgBIAMgEzYC9AEgAyABKAIIIgg2AvABIANBDGogA0HwAWoQ4QMCQAJAAkACQEGAgDAQcSIQRQ0AIBBBBGsiHS0AAEEDcQRAIBBBAEGAgDD8CwALQYCAEBBxIglFDQAgCUEEayIeLQAAQQNxBEAgCUEAQYCAEPwLAAtBgIAwEHEiEUUNACARQQRrIh8tAABBA3EEQCARQQBBgIAw/AsAC0GAgDAQcSISRQ0AIBJBBGsiIC0AAEEDcQRAIBJBAEGAgDD8CwALQYCAwAAQcSILRQ0AIAtBBGsiIS0AAEEDcQRAIAtBAEGAgMAA/AsAC0GAgAgQcSIMRQ0AIAxBBGsiIi0AAEEDcQRAIAxBAEGAgAj8CwALQYCAEBBxIg1FDQAgDUEEayIjKAIAIgVBA3EiBARAIA1BAEGAgBD8CwALIAgEQCAMQQIgAhshJCANQQQgAhshJUGAgARBACACGyEbIAEoAhAhJiABKAIUIRwgASgCBCEnA0BBgIAEIAggDmsiBCAEQYCABE8bIRQgCCAORwRAICcgDkEkbGohBCAmIA5BGGxqIQZBACEVIAkhFkEAIQUgDSEXIAshGCAMIRkDQCAIIA4gFWoiGk0EQCAaIAhB1MDHABCMBwALIARBEGoqAgAhKCAEQQxqKgIAISkgBEEIaioCACEqIANB0AFqIAQQpAMgA0HgAWogBBCaAyADQfABaiAEKQIAEMsCIAP9AATwASErIAUgEGoiCiAqOAIAIAUgEWoiByADKgLQATgCACAFIBJqIg8gAyoC4AE4AgAgCkEEaiApOAIAIAdBBGogAyoC1AE4AgAgD0EEaiADKgLkATgCACAKQQhqICg4AgAgB0EIaiADKgLYATgCACAPQQhqIAMqAugBOAIAIBggK/0LAgAgFgJ/IARBFGovAQAiB0H//wFxRQRAIAdBEHQMAQsgB0H/B3EhCiAHQYCAAnEhDyAHQYD4AXEiB0GA+AFGBEAgD0EQdCEHIAdBgICA/AdyIApFDQEaIAcgCkENdHJBgICA/gdyDAELIA9BEHQhDyAHQQ10QYCAgPwAcSAKQQ10ckGAgIDAA2ogD3IgBw0AGiAPQYCAgNgDciAKZ0EQayIHQRd0ayAKIAdB//8DcUEIanRB////A3FyCzYCACACBEACfwJAIBogHEkEQAJ/IAZBFGooAgAiCkEESwRAIAZBBGooAgAhCiAGQQhqKAIADAELIAZBBGoLIQcgCg0BQQAhCkEADAILIBogHEHEwMcAEIwHDAcLIAcoAgALIQcgGSAKOwEAIBcgBzYCAAsgBEEkaiEEIAZBGGohBiAWQQRqIRYgBUEMaiEFIBdBBGohFyAYQRBqIRggGUECaiEZIBVBAWoiFSAUSQ0ACwsgAyAbNgK8AiADICU2ArgCIAMgGzYCtAIgAyAkNgKwAiADQQA2AqwCIANCgICAgMAANwKkAiADQoCAgIDAADcCnAIgA0KAgJCAwAA3ApQCIAMgCzYCkAIgA0GAgAw2AowCIAMgEjYCiAIgA0GAgAw2AoQCIAMgETYCgAIgA0GAgAQ2AvwBIAMgCTYC+AEgA0GAgAw2AvQBIAMgEDYC8AEgA0EMaiAOIBQgA0HwAWoQfiAOIBRqIg4gCEkNAAsgIygCACIFQQNxIQQLAkACQCAFQXhxQYSAEEGIgBAgBBtPBEAgBEEAIAVBqIAQTxsNBiANEKICICIoAgAiAkF4cUGEgAhBiIAIIAJBA3EiBBtJDQUgBEEAIAJBqIAITxsNBiAMEKICICEoAgAiAkF4cUGEgMAAQYiAwAAgAkEDcSIEG0kNBSAEQQAgAkGogMAATxsNBiALEKICICAoAgAiAkF4cUGEgDBBiIAwIAJBA3EiBBtJDQUgBEEAIAJBqIAwTxsNBiASEKICIB8oAgAiAkF4cUGEgDBBiIAwIAJBA3EiBBtJDQUgBEEAIAJBqIAwTxsNBiAREKICIB4oAgAiAkF4cUGEgBBBiIAQIAJBA3EiBBtJDQUgBEEAIAJBqIAQTxsNBiAJEKICIB0oAgAiAkF4cUGEgDBBiIAwIAJBA3EiBBtJDQUgBEEAIAJBqIAwTxsNBiAQEKICIBNFDQRBgICQARBxIgJFDQMgAkEEayILKAIAIgVBA3EiBARAIAJBAEGAgJAB/AsACyAIRQ0CIAEoAiAhDCABKAIcIQ1BACEGA0BBgIAEIAggBmsiBCAEQYCABE8bIQkgBiAIRwRAQQAhBSACIQQDQCADQfABaiANIAwgBSAGahC8ASAEIAP9AATwAf0LAgAgBEEQaiAD/QAEgAL9CwIAIARBIGogAyoCkAI4AgAgBEEkaiEEIAVBAWoiBSAJSQ0ACwsgA0EMaiAGIAkgAkGAgCQQ5gEgCCAGIAlqIgZLDQALDAELDAQLIAsoAgAiBUEDcSEECwJAIAVBeHFBhICQAUGIgJABIAQbTwRAIARBACAFQaiAkAFPGw0FIAIQogIgE0EBRg0DQYCA8AEQcSICRQ0CIAJBBGsiCygCACIFQQNxIgQEQCACQQBBgIDwAfwLAAsgCARAIAEoAiwhDCABKAIoIQ1BACEGA0BBgIAEIAggBmsiBCAEQYCABE8bIQkgBiAIRwRAQQAhBSACIQQDQCADQfABaiANIAwgBSAGahCLASAEIAP9AATwAf0LAgAgBEEQaiAD/QAEgAL9CwIAIARBIGogA/0ABJAC/QsCACAEQTBqIAMqAqACOAIAIARBNGogAykCpAI3AgAgBEE8aiEEIAVBAWoiBSAJSQ0ACwsgA0EMaiAGIAkgAkGAgDwQpwEgBiAJaiIGIAhJDQALIAsoAgAiBUEDcSEECyAFQXhxQYSA8AFBiIDwASAEG0kNBCAEQQAgBUGogPABTxsNBSACEKICIBNBAk0NA0GAgNACEHEiAkUNAiACQQRrIgkoAgAiBUEDcSIEBEAgAkEAQYCA0AL8CwALIAgEQCABKAI4IQsgASgCNCEMQQAhBgNAQYCABCAIIAZrIgEgAUGAgARPGyEBIAYgCEcEQEEAIQUgAiEEA0AgA0HwAWogDCALIAUgBmoQbCAEIAP9AATwAf0LAgAgBEEQaiAD/QAEgAL9CwIAIARBIGogA/0ABJAC/QsCACAEQTBqIAP9AASgAv0LAgAgBEFAayAD/QAEsAL9CwIAIARB0ABqIAMqAsACOAIAIARB1ABqIQQgBUEBaiIFIAFJDQALCyADQQxqIAYgASACQYCA1AAQlAEgASAGaiIGIAhJDQALIAkoAgAiBUEDcSEECyAFQXhxQYSA0AJBiIDQAiAEG0kNBCAEQQAgBUGogNACTxsNASACEKICDAMLDAMLDAMLAAsCQCADQQxqIgIQ1AEiAQRAIABBAjYCACAAIAE2AgQgAhCKAgwBCyAAIANBDGpBxAH8CgAACyADQdACaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALhBQDEX8BfgFvIwBBwAdrIgEkACABQeABaiIHIAIgAygCDBEBAAJAAkACQAJAAkACQCABKQPgAULNxp63xqmo+pF/hSABKQPoAULSu7jilPu7/rd/hYRQBEAgAUHQAGogAkGQAfwKAAAgASgC1AEiA0UNASAHIAMgASgC2AEiEigCDCIIEQEAAkACQAJAAkACQCABKQPgAUKgvNiAuoLloN0AhSABKQPoAUK9y93Gj/qznlqFhFBFBEAgByADIAgRAQAgASkD4AFC5fTkmdDWtpP+AIUgASkD6AFCp8KLy4X7pZOff4WEUA0BIAcgAyAIEQEAIAEpA+ABQo+XpKuq1dCexACFIAEpA+gBQq+28uu5uLyVfYWEUA0CIAcgAyAIEQEAIAEpA+ABQsK26uerwMLK5wCFIAEpA+gBQribhIDZ35Xo6wCFhFANAyAHIAMgCBEBACABKQPgAUKy1oinj7SZ7MQAhSABKQPoAULigrnHtPHRgsMAhYRQDQQgByADIAgRAQAgASkD4AFC5YrQwKDQ0OFChSABKQPoAUL7ntmK4K7cny6FhFAiEw0FIAFBADYC8AEgAUEBNgLkASABQdTgwQA2AuABIAFCBDcC6AEgB0Hc4MEAEI0IAAsgAUHgAWogA0HYBfwKAAAgAygCCCEHIAMpAwAhFSABIANBDGpB0AD8CgAAIAMoAlwhCCABKAKoByIEBEAgASgCrAciBUEEaygCACIGQXhxIglBBEEIIAZBA3EiBhsgBGpJDQwgBkEAIAkgBEEnaksbDQsgBRCiAgsgAUHAAmohBAJAAkACQCABKAKcB0GAgICAeGsOAgECAAsgBBC+AgwBCyAEEL0BCyADQQRrKAIAIgRBeHFB3AVB4AUgBEEDcSIFG0kNCyAFRQ0IIARBgAZPDQoMCAsgAygCCCEHIAMpAgAhFSABIANBDGpB0AD8CgAAIAMoAqABIQkgAygCnAEhDiADKAKUASEPIAMoApABIQsgAygCiAEhEiADKAKEASEEIAMoAnwhEyADKAJ4IQUgAygCcCENIAMoAmwhBiADKAJcIQggAygCYCIKBEAgAygCZCIQQQRrKAIAIgxBeHEiEUEEQQggDEEDcSIMGyAKakkNCyAMQQAgESAKQSdqSxsNCiAQEKICCyAGBEAgDUEEaygCACIKQXhxIhBBBEEIIApBA3EiChsgBmpJDQsgCkEAIBAgBkEnaksbDQogDRCiAgsgBQRAIBNBBGsoAgAiBkF4cSINQQRBCCAGQQNxIgYbIAVqSQ0LIAZBACANIAVBJ2pLGw0KIBMQogILAkAgBEGAgICAeEYNACAEBEAgEkEEaygCACIFQXhxIgYgBEECdCIEQQRBCCAFQQNxIgUbakkNDCAFQQAgBiAEQSdqSxsNCyASEKICCyALBEAgD0EEaygCACIEQXhxIgUgC0EBdCIGQQRBCCAEQQNxIgQbakkNDCAEQQAgBSAGQSdqSxsNCyAPEKICCyAORQ0AIAlBBGsoAgAiBEF4cSIFIA5BAnQiBkEEQQggBEEDcSIEG2pJDQsgBEEAIAUgBkEnaksbDQogCRCiAgsgA0EEaygCACIEQXhxQczTAEHQ0wAgBEEDcSIFG0kNCiAFRSAEQfDTAElyDQcMCQsgAygCCCEHIAMpAgAhFSABIANBDGpB0AD8CgAAIAMoAlwhCCADKAJgIgQEQCADKAJkIgVBBGsoAgAiBkF4cSIJQQRBCCAGQQNxIgYbIARqSQ0KIAZBACAJIARBJ2pLGw0JIAUQogILIANBBGsoAgAiBEF4cSIFQfAAQfQAIARBA3EiBBtJDQkgBEUgBUGUAUlyDQYMCAsgAygCCCEHIAMpAgAhFSABIANBDGpB0AD8CgAAIAMoAlwhCCADKAJgIgQEQCADKAJkIgVBBGsoAgAiBkF4cSIJQQRBCCAGQQNxIgYbIARqSQ0JIAZBACAJIARBJ2pLGw0IIAUQogILIANBBGsoAgAiBEF4cSIFQfAAQfQAIARBA3EiBBtJDQggBEUgBUGUAUlyDQUMBwsgAygCCCEHIAMpAgAhFSABIANBDGpB0AD8CgAAIAMoAlwhCCADKAJgIgQEQCADKAJkIARBARCiBwsgA0EEaygCACIEQXhxIgVB8ABB9AAgBEEDcSIEG0kNByAERSAFQZQBSXINBAwGCyADKAKAAiEHIAMpAvgBIRUgAygC/AIhCyADKAL4AiEEIAMoAugBIQ0gAygC5AEhBiADKAKIASEKIAMoAnQhECADKAJwIQkgAygCbCEFIAMoAmghDiADKAJkIQ8gAygCACEMIAEgA0GEAmpB0AD8CgAAIAMoAtQCIQggBARAIAsgBEEBEKIHCwJAIAxBAkYNACAFBEAgDkEkaiEEA0AgBEEEaygCACILQYCAgIB4ckGAgICAeEcEQCAEKAIAIgxBBGsoAgAiEUF4cSIUQQRBCCARQQNxIhEbIAtqSQ0KIBFBACAUIAtBJ2pLGw0JIAwQogILIARBMGohBCAFQQFrIgUNAAsLIA8EQCAOIA9BMGxBCBCiBwsgCUGAgICAeHJBgICAgHhGDQAgECAJQQEQogcLIAMgEiATGyEDIAZFIApBAkZyRQRAIA0gBkEobEEIEKIHCyADQQRrKAIAIgRBeHFBpANBqAMgBEEDcSIFG0kNAiAFRSAEQcgDSXINAwwFCyABIAM2AuQBIAEgAjYC4AFB2ObIAEErIAFB4AFqQejuwABBsO/AABDgBgALQbDgwQAQ3QkAC0HMjMgAQS5B/IzIABDrBwwBCyADEKICIAEoAlwiA0GAgICAeHJBgICAgHhHBEAgASgCYCIEQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyADakkNAyAFQQAgBiADQSdqSxsNAiAEEKICCyABKAJoQYCAgIB4RwRAIAFB6ABqEPYCCyABKAJQIgMEQCABKAJUIgRBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIANqSQ0DIAVBACAGIANBJ2pLGw0CIAQQogILAkAgASgCyAEiA0GAgICAeHJBgICAgHhHBEAgASgCzAEiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQQgBUEAIAYgA0EnaksbDQEgBBCiAgtB9AAQcSIDRQ0BIAMgBzYCFCADIBU3AgwgA0EANgIIIANCgYCAgBA3AgAgA0EYaiABQdAA/AoAACADIAg2AnAgAyAHNgJsIAMgCDYCaCADQQhqEA4hFhDaBCIHIBYmASACQQRrKAIAIgNBeHFBlAFBmAEgA0EDcSIIG0kNAyAIQQAgA0G4AU8bDQIgAhCiAiAAIAc2AgQgAEEANgIAIAFBwAdqJAAPCwwBCwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC+cTARB/IwBBgAprIgEkACABQcADaiIFIAIgAygCDBEBAAJAAkACQAJAIAEpA8ADQuO40dasvJKArn+FIAEpA8gDQryn3YiYlYqsoX+FhFAEQCACLQDwASISQQZHBEAgAUHMAWogAkH0AfwKAAAgASgCtAMiA0UNAiAFIAMgASgCuAMiECgCDCIEEQEAAkACQAJAAkACQCABKQPAA0KI3Nq/5u+y+dkAhSABKQPIA0Kh/ou+w+76j49/hYRQRQRAIAUgAyAEEQEAIAEpA8ADQqGi3oaJvIaD8wCFIAEpA8gDQoSEh9SDyIugQ4WEUA0BIAUgAyAEEQEAIAEpA8ADQv7e4K+u1MjsNoUgASkDyANCyt3cy/j+2PXmAIWEUA0CIAUgAyAEEQEAIAEpA8ADQrOIr+uYlayb4ACFIAEpA8gDQu3H6c+dgu7+tX+FhFANAyAFIAMgBBEBACABKQPAA0Ld9u3S0ufOw3SFIAEpA8gDQvWp6Jax1+m4+wCFhFANBCAFIAMgBBEBACABKQPAA0Lk5cLa8Onu9HCFIAEpA8gDQruhgKOGtavEywCFhFAiEQ0FIAFBADYC0AMgAUEBNgLEAyABQdTgwQA2AsADIAFCBDcCyAMgBUHc4MEAEI0IAAsgAUHAA2ogA0G4BvwKAAAgAUEIaiADQfQEakHEAfwKAAAgASgCqAgiBARAIAEoAqwIIgVBBGsoAgAiBkF4cSIHQQRBCCAGQQNxIgYbIARqSQ0LIAZBACAHIARBJ2pLGw0KIAUQogILAkACQAJAIAEoApwIQYCAgIB4aw4CAQIACyABQcADahC+AgwBCyABQcADahC9AQsgA0EEaygCACIEQXhxQbwGQcAGIARBA3EiBRtJDQogBUUNCCAEQeAGTw0JDAgLIAFBCGogA0HEAfwKAAAgAygChAIhByADKAKAAiELIAMoAvgBIQwgAygC9AEhCSADKALsASEQIAMoAugBIQQgAygC4AEhESADKALcASEFIAMoAtQBIQogAygC0AEhBiADKALEASIIBEAgAygCyAEiDUEEaygCACIOQXhxIg9BBEEIIA5BA3EiDhsgCGpJDQogDkEAIA8gCEEnaksbDQkgDRCiAgsgBgRAIApBBGsoAgAiCEF4cSINQQRBCCAIQQNxIggbIAZqSQ0KIAhBACANIAZBJ2pLGw0JIAoQogILIAUEQCARQQRrKAIAIgZBeHEiCkEEQQggBkEDcSIGGyAFakkNCiAGQQAgCiAFQSdqSxsNCSAREKICCwJAIARBgICAgHhGDQAgBARAIBBBBGsoAgAiBUF4cSIGIARBAnQiBEEEQQggBUEDcSIFG2pJDQsgBUEAIAYgBEEnaksbDQogEBCiAgsgCQRAIAxBBGsoAgAiBEF4cSIFIAlBAXQiBkEEQQggBEEDcSIEG2pJDQsgBEEAIAUgBkEnaksbDQogDBCiAgsgC0UNACAHQQRrKAIAIgRBeHEiBSALQQJ0IgZBBEEIIARBA3EiBBtqSQ0KIARBACAFIAZBJ2pLGw0JIAcQogILIANBBGsoAgAiBEF4cSIFQbDUAEG01AAgBEEDcSIEG0kNCSAERSAFQdTUAElyDQcMCAsgAUEIaiADQcQB/AoAACADKALEASIEBEAgAygCyAEiBUEEaygCACIGQXhxIgdBBEEIIAZBA3EiBhsgBGpJDQkgBkEAIAcgBEEnaksbDQggBRCiAgsgA0EEaygCACIEQXhxQdQBQdgBIARBA3EiBRtJDQggBUUgBEH4AUlyDQYMBwsgAUEIaiADQcQB/AoAACADKALEASIEBEAgAygCyAEiBUEEaygCACIGQXhxIgdBBEEIIAZBA3EiBhsgBGpJDQggBkEAIAcgBEEnaksbDQcgBRCiAgsgA0EEaygCACIEQXhxQdQBQdgBIARBA3EiBRtJDQcgBUUgBEH4AUlyDQUMBgsgAUEIaiADQcQB/AoAACADKALEASIEBEAgAygCyAEgBEEBEKIHCyADQQRrKAIAIgRBeHFB1AFB2AEgBEEDcSIFG0kNBiAFRSAEQfgBSXINBAwFCyADKAK0AiEJIAMoArACIQQgAygChAIhCiADKAKAAiEGIAMoAvwBIQUgAygC+AEhByADKAL0ASELIAMoApABIQggAygCYCENIAMoAlwhDCADKAIAIQ4gAUEIaiADQbwCakHEAfwKAAAgBARAIAkgBEEBEKIHCwJAIAhBAkYNACAFBEAgB0EkaiEEA0AgBEEEaygCACIJQYCAgIB4ckGAgICAeEcEQCAEKAIAIghBBGsoAgAiD0F4cSITQQRBCCAPQQNxIg8bIAlqSQ0JIA9BACATIAlBJ2pLGw0IIAgQogILIARBMGohBCAFQQFrIgUNAAsLIAsEQCAHIAtBMGxBCBCiBwsgBkGAgICAeHJBgICAgHhGDQAgCiAGQQEQogcLIAMgECARGyEDIAxFIA5BAkZyRQRAIA0gDEEobEEIEKIHCyADQQRrKAIAIgRBeHFBjARBkAQgBEEDcSIFG0kNBSAFRSAEQbAESXINAwwEC0HA7sAAEN0JAAsgASADNgLEAyABIAI2AsADQdjmyABBKyABQcADakHo7sAAQfjuwAAQ4AYAC0Gw4MEAEN0JAAsgAxCiAgJAIAEoApwDIgNBgICAgHhyQYCAgIB4RwRAIAEoAqADIgRBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIANqSQ0DIAVBACAGIANBJ2pLGw0CIAQQogILIAEoAswBQQJHBEAgAUHMAWoQigILIAEoApADIgMEQCABKAKUAyIEQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyADakkNAyAFQQAgBiADQSdqSxsNAiAEEKICCyABKAKoAyIDQYCAgIB4ckGAgICAeEcEQCABKAKsAyIEQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyADakkNAyAFQQAgBiADQSdqSxsNAiAEEKICCyASQQJ0IgMoAvDrQSEEIAMoAtjrQSEFIAFBCGoQ0QEiBkHQ7sAAQQgQ7AgiAyAFIAQQ7AgiBBDACUG0u8kALQAABEBBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgASAANgLAA0HY5sgAQSsgAUHAA2pB2OjAAEHY7sAAEOAGAAtBuLvJAEEANgIAQbS7yQBBADoAACAEQYQITwRAIAQQmwcLIANBhAhPBEAgAxCbBwsgAkEEaygCACIDQXhxIgRB+AFB/AEgA0EDcSIDG0kNAiADQQAgBEGcAk8bDQAgAhCiAiAAIAY2AgQgAEEANgIAIAFBgApqJAAPCwtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwAL5BMBEH8jAEHgCWsiASQAIAFBsANqIgUgAiADKAIMEQEAAkACQAJAAkAgASkDsANC/deLibyi8JkohSABKQO4A0KD0J+9oMfru9sAhYRQBEAgAi0A6AEiEkEGRwRAIAFBxAFqIAJB7AH8CgAAIAEoAqQDIgNFDQIgBSADIAEoAqgDIhAoAgwiBBEBAAJAAkACQAJAAkAgASkDsANCl9Ogsr+ekfVxhSABKQO4A0Lr2o7NnpPqglGFhFBFBEAgBSADIAQRAQAgASkDsANC/dnb2/Ko6/wlhSABKQO4A0KEvvuqpe/a4a9/hYRQDQEgBSADIAQRAQAgASkDsANCqqLKsbmZvbFchSABKQO4A0KTsJ7ihNW54coAhYRQDQIgBSADIAQRAQAgASkDsANCgtaMka+W1c/sAIUgASkDuANCst3rmqDTsMKlf4WEUA0DIAUgAyAEEQEAIAEpA7ADQufbvbLs97vyzQCFIAEpA7gDQoXbt7ag4bn/P4WEUA0EIAUgAyAEEQEAIAEpA7ADQo7z6KKs6L31EoUgASkDuANCno+QqKna5+CKf4WEUCIRDQUgAUEANgLAAyABQQE2ArQDIAFB1ODBADYCsAMgAUIENwK4AyAFQdzgwQAQjQgACyABQbADaiADQbAG/AoAACABQQhqIANB9ARqQbwB/AoAACABKAKYCCIEBEAgASgCnAgiBUEEaygCACIGQXhxIgdBBEEIIAZBA3EiBhsgBGpJDQsgBkEAIAcgBEEnaksbDQogBRCiAgsCQAJAAkAgASgCjAhBgICAgHhrDgIBAgALIAFBsANqEL4CDAELIAFBsANqEL0BCyADQQRrKAIAIgRBeHFBtAZBuAYgBEEDcSIFG0kNCiAFRQ0IIARB2AZPDQkMCAsgAUEIaiADQbwB/AoAACADKAL8ASEHIAMoAvgBIQsgAygC8AEhDCADKALsASEJIAMoAuQBIRAgAygC4AEhBCADKALYASERIAMoAtQBIQUgAygCzAEhCiADKALIASEGIAMoArwBIggEQCADKALAASINQQRrKAIAIg5BeHEiD0EEQQggDkEDcSIOGyAIakkNCiAOQQAgDyAIQSdqSxsNCSANEKICCyAGBEAgCkEEaygCACIIQXhxIg1BBEEIIAhBA3EiCBsgBmpJDQogCEEAIA0gBkEnaksbDQkgChCiAgsgBQRAIBFBBGsoAgAiBkF4cSIKQQRBCCAGQQNxIgYbIAVqSQ0KIAZBACAKIAVBJ2pLGw0JIBEQogILAkAgBEGAgICAeEYNACAEBEAgEEEEaygCACIFQXhxIgYgBEECdCIEQQRBCCAFQQNxIgUbakkNCyAFQQAgBiAEQSdqSxsNCiAQEKICCyAJBEAgDEEEaygCACIEQXhxIgUgCUEBdCIGQQRBCCAEQQNxIgQbakkNCyAEQQAgBSAGQSdqSxsNCiAMEKICCyALRQ0AIAdBBGsoAgAiBEF4cSIFIAtBAnQiBkEEQQggBEEDcSIEG2pJDQogBEEAIAUgBkEnaksbDQkgBxCiAgsgA0EEaygCACIEQXhxIgVBqNQAQazUACAEQQNxIgQbSQ0JIARFIAVBzNQASXINBwwICyABQQhqIANBvAH8CgAAIAMoArwBIgQEQCADKALAASIFQQRrKAIAIgZBeHEiB0EEQQggBkEDcSIGGyAEakkNCSAGQQAgByAEQSdqSxsNCCAFEKICCyADQQRrKAIAIgRBeHFBzAFB0AEgBEEDcSIFG0kNCCAFRSAEQfABSXINBgwHCyABQQhqIANBvAH8CgAAIAMoArwBIgQEQCADKALAASIFQQRrKAIAIgZBeHEiB0EEQQggBkEDcSIGGyAEakkNCCAGQQAgByAEQSdqSxsNByAFEKICCyADQQRrKAIAIgRBeHFBzAFB0AEgBEEDcSIFG0kNByAFRSAEQfABSXINBQwGCyABQQhqIANBvAH8CgAAIAMoArwBIgQEQCADKALAASAEQQEQogcLIANBBGsoAgAiBEF4cUHMAUHQASAEQQNxIgUbSQ0GIAVFIARB8AFJcg0EDAULIAMoArQCIQkgAygCsAIhBCADKAKEAiEKIAMoAoACIQYgAygC/AEhBSADKAL4ASEHIAMoAvQBIQsgAygCkAEhCCADKAJgIQ0gAygCXCEMIAMoAgAhDiABQQhqIANBvAJqQbwB/AoAACAEBEAgCSAEQQEQogcLAkAgCEECRg0AIAUEQCAHQSRqIQQDQCAEQQRrKAIAIglBgICAgHhyQYCAgIB4RwRAIAQoAgAiCEEEaygCACIPQXhxIhNBBEEIIA9BA3EiDxsgCWpJDQkgD0EAIBMgCUEnaksbDQggCBCiAgsgBEEwaiEEIAVBAWsiBQ0ACwsgCwRAIAcgC0EwbEEIEKIHCyAGQYCAgIB4ckGAgICAeEYNACAKIAZBARCiBwsgAyAQIBEbIQMgDEUgDkECRnJFBEAgDSAMQShsQQgQogcLIANBBGsoAgAiBEF4cUGEBEGIBCAEQQNxIgUbSQ0FIAVFIARBqARJcg0DDAQLQaDwwAAQ3QkACyABIAM2ArQDIAEgAjYCsANB2ObIAEErIAFBsANqQejuwABBwPDAABDgBgALQbDgwQAQ3QkACyADEKICAkAgASgCjAMiA0GAgICAeHJBgICAgHhHBEAgASgCkAMiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQMgBUEAIAYgA0EnaksbDQIgBBCiAgsgASgCxAFBAkcEQCABQcQBahDAAgsgASgCgAMiAwRAIAEoAoQDIgRBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIANqSQ0DIAVBACAGIANBJ2pLGw0CIAQQogILIAEoApgDIgNBgICAgHhyQYCAgIB4RwRAIAEoApwDIgRBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIANqSQ0DIAVBACAGIANBJ2pLGw0CIAQQogILIBJBAnQiAygC8OtBIQQgAygC2OtBIQUgAUEIahDSASIGQdDuwABBCBDsCCIDIAUgBBDsCCIEEMAJQbS7yQAtAAAEQEG0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACABIAA2ArADQdjmyABBKyABQbADakHY6MAAQbDwwAAQ4AYAC0G4u8kAQQA2AgBBtLvJAEEAOgAAIARBhAhPBEAgBBCbBwsgA0GECE8EQCADEJsHCyACQQRrKAIAIgNBeHEiBEHwAUH0ASADQQNxIgMbSQ0CIANBACAEQZQCTxsNACACEKICIAAgBjYCBCAAQQA2AgAgAUHgCWokAA8LC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAvFFwICfwF+IwBBQGoiAiQAIAEoAgQhAyABKAIAIQECfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgACgCACIALQAAQQFrDiMBAgMEBQYHCAkKCwwNDg8QERITFBUWFxgZGhsjHB0eHyAhIgALIAIgAEEEajYCBCACIABBCGo2AiAgAiAAQQxqNgIkIAIgAkEkaq1CgICAgLAMhDcDGCACQoCAgIDADCIEIAJBIGqthDcDECACIAQgAkEEaq2ENwMIIAJCAzcCNCACQQQ2AiwgAkHsncUANgIoIAIgAkEIajYCMCABIAMgAkEoahDBAwwrCyABQYyexQBBFiADKAIMEQAADCoLIAFBop7FAEElIAMoAgwRAAAMKQsgAUHHnsUAQR4gAygCDBEAAAwoCyACIABBAWo2AiQgAiACQSRqrUKAgICAsAyENwMIIAJCATcCNCACQQI2AiwgAkGIn8UANgIoIAIgAkEIajYCMCABIAMgAkEoahDBAwwnCyACIABBAWo2AiQgAiACQSRqrUKAgICAsAyENwMIIAJCATcCNCACQQI2AiwgAkG8n8UANgIoIAIgAkEIajYCMCABIAMgAkEoahDBAwwmCyACIABBAWo2AiQgAiACQSRqrUKAgICAsAyENwMIIAJCATcCNCACQQI2AiwgAkHsn8UANgIoIAIgAkEIajYCMCABIAMgAkEoahDBAwwlCyACIABBAWo2AiQgAiACQSRqrUKAgICAsAyENwMIIAJCATcCNCACQQI2AiwgAkGcoMUANgIoIAIgAkEIajYCMCABIAMgAkEoahDBAwwkCyACIABBAWo2AiQgAiACQSRqrUKAgICAsAyENwMIIAJCATcCNCACQQI2AiwgAkHYoMUANgIoIAIgAkEIajYCMCABIAMgAkEoahDBAwwjCyACIABBAWo2AiQgAiACQSRqrUKAgICAsAyENwMIIAJCATcCNCACQQI2AiwgAkGEocUANgIoIAIgAkEIajYCMCABIAMgAkEoahDBAwwiCyACIABBBGo2AiAgAiAAQQhqNgIkIAJCgICAgNAMIgQgAkEgaq2ENwMQIAIgBCACQSRqrYQ3AwggAkICNwI0IAJBAzYCLCACQcChxQA2AiggAiACQQhqNgIwIAEgAyACQShqEMEDDCELIAIgAEEEajYCICACIABBCGo2AiQgAkKAgICA0AwiBCACQSRqrYQ3AxAgAiAEIAJBIGqthDcDCCACQgI3AjQgAkEDNgIsIAJB/KHFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMIAsgAiAAQQFqNgIEIAIgAEEEajYCICACIABBCGo2AiQgAiACQQRqrUKAgICA4AyENwMYIAJCgICAgNAMIgQgAkEkaq2ENwMQIAIgBCACQSBqrYQ3AwggAkIDNwI0IAJBBDYCLCACQfSixQA2AiggAiACQQhqNgIwIAEgAyACQShqEMEDDB8LIAIgAEECajYCICACIABBAWo2AiQgAiACQSBqrUKAgICA8AyENwMQIAIgAkEkaq1CgICAgMAIhDcDCCACQgI3AjQgAkEDNgIsIAJB6KPFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMHgsgAUGApMUAQSEgAygCDBEAAAwdCyACIABBAmo2AiAgAiAAQQFqNgIkIAIgAkEkaq1CgICAgPAMhDcDECACIAJBIGqtQoCAgIDgDIQ3AwggAkICNwI0IAJBAjYCLCACQdCkxQA2AiggAiACQQhqNgIwIAEgAyACQShqEMEDDBwLIAIgAEEBajYCJCACIAJBJGqtQoCAgIDgDIQ3AwggAkIBNwI0IAJBAjYCLCACQYilxQA2AiggAiACQQhqNgIwIAEgAyACQShqEMEDDBsLIAFBmKXFAEEYIAMoAgwRAAAMGgsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJBxKXFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMGQsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJB6KXFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMGAsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJBjKbFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMFwsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJBsKbFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMFgsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJB5KbFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMFQsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJBlKfFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMFAsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJBwKfFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMEwsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJB6KfFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMEgsgAiAAQQFqNgIkIAIgAkEkaq1CgICAgMAIhDcDCCACQgE3AjQgAkECNgIsIAJBlKjFADYCKCACIAJBCGo2AjAgASADIAJBKGoQwQMMEQsgAUGkqMUAQRsgAygCDBEAAAwQCyABQdeoxQBBNyADKAIMEQAADA8LIAAtAAFBAWsOBwcICQoLDA0GCyABQbSsxQBBHyADKAIMEQAADA0LIAIgAEEBajYCJCACIAJBJGqtQoCAgICwDIQ3AwggAkIBNwI0IAJBAjYCLCACQfisxQA2AiggAiACQQhqNgIwIAEgAyACQShqEMEDDAwLIAIgAEEBajYCJCACIAJBJGqtQoCAgICwDIQ3AwggAkIBNwI0IAJBATYCLCACQZytxQA2AiggAiACQQhqNgIwIAEgAyACQShqEMEDDAsLIAIgAEEBajYCJCACIAJBJGqtQoCAgICwDIQ3AwggAkIBNwI0IAJBATYCLCACQcStxQA2AiggAiACQQhqNgIwIAEgAyACQShqEMEDDAoLIAFBzK3FAEEQIAMoAgwRAAAMCQsgAiAAQQFqNgIkQQEgAUG/qMUAQRggAygCDBEAAA0IGiACQQE2AiwgAkGg+McANgIoIAJCATcCNCACIAJBJGqtQoCAgICADYQ3AwggAiACQQhqNgIwIAEgAyACQShqEJ4JDAgLIAJBADYCOCACQQE2AiwgAkG0qcUANgIoIAJCBDcCMCABIAMgAkEoahCeCQwHCyACQQA2AjggAkEBNgIsIAJB5KnFADYCKCACQgQ3AjAgASADIAJBKGoQngkMBgsgAkEANgI4IAJBATYCLCACQYyqxQA2AiggAkIENwIwIAEgAyACQShqEJ4JDAULIAJBADYCOCACQQE2AiwgAkG0qsUANgIoIAJCBDcCMCABIAMgAkEoahCeCQwECyACQQA2AjggAkEBNgIsIAJB8KrFADYCKCACQgQ3AjAgASADIAJBKGoQngkMAwsgAkEANgI4IAJBATYCLCACQayrxQA2AiggAkIENwIwIAEgAyACQShqEJ4JDAILIAJBADYCOCACQQE2AiwgAkH8q8UANgIoIAJCBDcCMCABIAMgAkEoahCeCQwBCyACQQA2AjggAkEBNgIsIAJBrKzFADYCKCACQgQ3AjAgASADIAJBKGoQngkLIAJBQGskAAvOFgIHfQ5/IwBBIGsiDiQAIAAQowUgAEHAAWpBADoAACAAQgA3ArgBIAAgAhDQBAJAAkAgACgCEEEBRw0AIAAoAhhFDQACQAJ/AkACQAJAAn8CQAJAAkACQAJAAkAgAkECdCINIhEgACgCfCISTQRAIAAoAogBIhMgEU8EQCAAKAJ4IRcgACgChAEhGCACRQ0NQQAgDWshGUEBIRVBFCEMQQMhDQJ/AkADQAJAAn8CQAJAAkACfwJAAkACQAJ/AkACQAJAAkACQAJAAkAgBCAMQRRrSwRAIAxBE2sgBE8NASAMQRJrIARPDQIgDUEDayIPIBFJDQMgDyENDAQLIAxBFGsMDwsgDEETawwKCyAMQRJrDAULQwAAf0MgA0EEaioCACIIiyIFQwAAgD9DAAD4QUMAAAAAIAMqAgAiCYsiBiAFIANBCGoqAgAiCosiCxDgCBDgCBCeBY5DAABwQZIiBSAFQwAAAABdGyIFIAVDAAD4QV4bELkH/AAiD0EPaxCwBkMAAH9DlSIFlSIHIAdDAAB/Q14bELkHIQcgFCAXaiIQQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgD0EbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACAMQRFrIARPDQsgDEEQayAETw0HIAxBD2sgBE8NAyARIA1BAmtLBEBDAAB/QyADQRBqKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgA0EMaioCACIJiyIGIAUgA0EUaioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIPQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByAQQQRqQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgD0EbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACAMQQ5rIARPDQsgDEENayAETw0HIAxBDGsgBE8NAyARIA1BAWtLBEBDAAB/QyADQRxqKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgA0EYaioCACIJiyIGIAUgA0EgaioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIPQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByAQQQhqQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgD0EbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACAMQQtrIARPDQsgDEEKayAETw0HIAxBCWsgBE8NAyANIBFPDQJDAAB/QyADQShqKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgA0EkaioCACIJiyIGIAUgA0EsaioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIPQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByAQQQxqQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgD0EbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACAMQQhrIARPDR4gDEEHayAETw0aIAxBBmsgBE8NFiANIBlqIhBBA0cNDyANQQNrDBILIA1BAWshDQwBCyANQQJrIQ0LIA0gEUGovsEAEIwHAAsgDEEJawwCCyAMQQxrDAELIAxBD2sLIARBmL7BABCMBwALIAxBCmsMAgsgDEENawwBCyAMQRBrCyAEQYi+wQAQjAcACyAMQQtrDAILIAxBDmsMAQsgDEERawsgBEH4vcEAEIwHAAtDAAB/QyADQTRqKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgA0EwaioCACIJiyIGIAUgA0E4aioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIWQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByAUIBhqIg9DAAB/QyAGIAWVIgYgBkMAAH9DXhsQuQf8ASAWQRt0QYCAgAhBACAJQwAAAABdG3JBgICAEEEAIAhDAAAAAF0bckGAgIAgQQAgCkMAAAAAXRtyciAH/AFBCHRyQwAAf0MgCyAFlSIFIAVDAAB/Q14bELkH/AFBEHRyNgIAIAxBBWsgBE8NDSAMQQRrIARPDQkgDEEDayAETw0FIBBBAkYNAUMAAH9DIANBQGsqAgAiCIsiBUMAAIA/QwAA+EFDAAAAACADQTxqKgIAIgmLIgYgBSADQcQAaioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIWQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByAPQQRqQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgFkEbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACAMQQJrIARPDQwgDEEBayAETw0IIAQgDE0NByAQQQFHBEBDAAB/QyADQcwAaioCACIIiyIFQwAAgD9DAAD4QUMAAAAAIANByABqKgIAIgmLIgYgBSADQdAAaioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIQQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByAPQQhqQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgEEEbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACAUQRBqIRQgDEEVaiEMIANB1ABqIQMgDUEEaiENIAIgFUsgFUEBaiEVDQEMEQsLIA1BAWsMAQsgDUECawsgEUHovcEAEIwHAAtBACARIBNBqL3BABDqBwALQQAgESASQbi+wQAQ6gcACyAMQQNrIQwMAQsgDEEGayEMCyAMIARB2L3BABCMBwALIAxBAWsMAgsgDEEEawwBCyAMQQdrCyAEQci9wQAQjAcACyAMQQJrDAILIAxBBWsMAQsgDEEIawsgBEG4vcEAEIwHAAsgDiAAKAIUIAFBAnQiAyABIAJqQQJ0IgIQ4QgiARC4CiIENgIAIA4gEjYCBCAEIBJHDQEgASAXIBIQ4AkgAUGECE8EQCABEJsHCyAOIAAoAhwgAyACEOEIIgAQuAoiATYCACAOIBM2AgQgASATRw0BIAAgGCATEOAJIABBhAhJDQAgABCbBwsgDkEgaiQADwsgDkEANgIIQQAgDiAOQQRqIA5BCGpB4PnEABD1BwALvhQBDn8jAEEgayIQJAACQAJAIAFBIUkEQCAAIQkgASEKDAELIAJBBGshESACQRBrIRICQAJAA0AgBEUEQCAAIAEgAiADQQEQ3QEMBQsgACABQQN2IghBHGxqIQYgACAIQQR0aiEJIARBAWshBCAQAn8gAUHAAE8EQCAAIAkgBiAIEMIGDAELIAAgBiAJIAAoAgAiCCAJKAIAIglJIgcgCSAGKAIAIgZJcxsgByAGIAhLcxsLIg0oAgAiBjYCBCANIABrQQJ2IQwCQAJAIAUEQCAFKAIAIAZPDQELIAEgA0sNAyACIAFBAnQiE2ohB0EAIQogACEGIAwhCANAIAAgCEEDayIJQQAgCCAJTxtBAnRqIg4gBksEQCANKAIAIQkDQCAKQQJ0IAIgB0EEayAGKAIAIgsgCUkiDxtqIAs2AgAgCiAPaiIKQQJ0IAIgB0EIayAGQQRqKAIAIgsgCUkiDxtqIAs2AgAgCiAPaiIKQQJ0IAIgB0EMayAGQQhqKAIAIgsgCUkiDxtqIAs2AgAgCiAPaiIKQQJ0IAIgB0EQayIHIAZBDGooAgAiCyAJSSIPG2ogCzYCACAKIA9qIQogBkEQaiIGIA5JDQALCyAAIAhBAnRqIgkgBksEQCANKAIAIQ4DQCAKQQJ0IAIgB0EEayIHIAYoAgAiCyAOSSIPG2ogCzYCACAKIA9qIQogBkEEaiIGIAlJDQALCyABIAhHBEAgB0EEayIHIApBAnRqIAYoAgA2AgAgBkEEaiEGIAEhCAwBCwsgCkECdCIOBEAgACACIA78CgAACyABIAprIQsCQCABIApGDQBBACEJIAtBBE8EQCAAIA5qIQYgEiATaiEHIAtBfHEiCSEIA0AgBiAH/QACAP0MAAAAAAAAAAAAAAAAAAAAAP0NDA0ODwgJCgsEBQYHAAECA/0LAgAgB0EQayEHIAZBEGohBiAIQQRrIggNAAsgCSALRg0BCyARIBMgCUECdCIIa2ohBiAAIAhqIA5qIQcgCSABayAKaiEIA0AgByAGKAIANgIAIAZBBGshBiAHQQRqIQcgCEEBaiIIDQALCyAKRQ0AIAEgCk8NASAQQQA2AhggEEEBNgIMIBBBiILIADYCCCAQQgQ3AhAgEEEIakH0lMEAEI0IAAsgASADSw0CIAIgAUECdCIOaiEHQQAhCCAAIQYDQCAAIAxBA2siBUEAIAUgDE0bQQJ0aiIJIAZLBEAgDSgCACEFA0AgCEECdCACIAdBBGsgBSAGKAIAIgpPIgsbaiAKNgIAIAggC2oiCEECdCACIAdBCGsgBSAGQQRqKAIAIgpPIgsbaiAKNgIAIAggC2oiCEECdCACIAdBDGsgBSAGQQhqKAIAIgpPIgsbaiAKNgIAIAggC2oiCEECdCACIAdBEGsiByAFIAZBDGooAgAiCk8iCxtqIAo2AgAgCCALaiEIIAZBEGoiBiAJSQ0ACwsgACAMQQJ0aiIFIAZLBEAgDSgCACEJA0AgCEECdCACIAdBBGsiByAJIAYoAgAiCk8iCxtqIAo2AgAgCCALaiEIIAZBBGoiBiAFSQ0ACwsgASAMRwRAIAIgCEECdGogBigCADYCACAGQQRqIQYgCEEBaiEIIAdBBGshByABIQwMAQsLIAhBAnQiDQRAIAAgAiAN/AoAAAsgASAIRg0FIAAgDWohCUEAIQwCQCABIAhrIgpBBE8EQCAOIBJqIQYgCSEHIApBfHEiDCEFA0AgByAG/QACAP0MAAAAAAAAAAAAAAAAAAAAAP0NDA0ODwgJCgsEBQYHAAECA/0LAgAgBkEQayEGIAdBEGohByAFQQRrIgUNAAsgCiAMRg0BCyARIAxBAnQiBWsgDmohBiAAIAVqIA1qIQcgDCABayAIaiEFA0AgByAGKAIANgIAIAZBBGshBiAHQQRqIQcgBUEBaiIFDQALCyABIAhJDQNBACEFIAkhACAKIgFBIUkNBAwBCyAAIA5qIAsgAiADIAQgEEEEahCVASAKIgFBIU8NAAsgACEJDAILAAsgCCABIAFBhJXBABDqBwALIApBAkkNACAKQQF2IQEgAQJ/IApBD00EQCAKQQdLBEAgAiAJQQhBDCAJKAIMIAkoAghJIgUbaiIIKAIAIgAgCSAJKAIEIgYgCSgCACIHT0ECdGoiAygCACIEIAAgBEsbNgIMIAIgCUEMQQggBRtqIgUoAgAiDCAJIAYgB0lBAnRqIgcoAgAiBiAGIAxLIgYbNgIAIAIgCCADIAUgBhsgACAESSIEGygCACIAIAcgBSADIAQbIAYbKAIAIgMgACADSxs2AgggAiAAIAMgACADSRs2AgQgAiABQQJ0IgBqIgMgACAJaiIAQQhBDCAAKAIMIAAoAghJIggbaiIMKAIAIgQgACAAKAIEIgcgACgCACINT0ECdGoiBSgCACIGIAQgBksbNgIMIAMgAEEMQQggCBtqIggoAgAiDiAAIAcgDUlBAnRqIg0oAgAiACAAIA5LIgcbNgIAIAMgDCAFIAggBxsgBCAGSSIEGygCACIAIA0gCCAFIAQbIAcbKAIAIgQgACAESRs2AgQgAyAAIAQgACAESxs2AghBBAwCCyACIAkoAgA2AgAgAiABQQJ0IgBqIAAgCWooAgA2AgBBAQwBCyAJIAIgAiAKQQJ0aiIAEMwCIAkgAUECdCIDaiACIANqIABBIGoQzAJBCAsiAEsEQCAAQQJ0IQQgAEEBaiEGIAAhBwNAIAYhAyACIAdBAnQiBWoiBiAFIAlqKAIAIgU2AgAgBkEEaygCACIHIAVLBEAgBCEGAn8DQCACIAZqIgggBzYCACACIAZBBEYNARogBkEEayEGIAUgCEEIaygCACIHSQ0ACyACIAZqCyAFNgIACyAEQQRqIQQgAyABIANLIgVqIQYgAyEHIAUNAAsLIAIgAUECdCIDaiEFIAogAWsiBCAASwRAIAMgCWohDCAAQQJ0IQggAEEBaiEGA0AgBiEDIAUgAEECdCIAaiIGIAAgDGooAgAiADYCACAGQQRrKAIAIgcgAEsEQCAIIQYCfwNAIAUgBmoiDSAHNgIAIAUgBkEERg0BGiAGQQRrIQYgACANQQhrKAIAIgdJDQALIAUgBmoLIAA2AgALIAhBBGohCCADIAMgBEkiB2ohBiADIQAgBw0ACwsgBUEEayEIIAIgCkECdEEEayIAaiEMIAAgCWohBANAIAkgBSgCACIGIAIoAgAiByAGIAdJIg0bNgIAIAQgDCgCACIAIAgoAgAiAyAAIANLGzYCACAEQQRrIQQgCUEEaiEJIAhBfEEAIAAgA0kbaiEIIAxBfEEAIAAgA08baiEMIAIgBiAHT0ECdGohAiAFIA1BAnRqIQUgAUEBayIBDQALIAhBBGohACAKQQFxBH8gCSACIAUgACACSyIBGygCADYCACAFIAAgAk1BAnRqIQUgAiABQQJ0agUgAgsgAEYgBSAMQQRqRnENABCACAALIBBBIGokAAv/EwIKfwZ+QQghBQJAIAFBBEkNACAALQAAIgIgAC0AAUcNACABrSEOIAAtAAMhByAALQACIQMCQAJAAkACQAJ+AkACQAJAAkACQAJAAkACQCACQckAaw4FAA0NDQENCyADQSpHIAdyDQwgAUF8cUEERg0BIAA1AAQhDAwICyADIAdBKkdyDQsgAUF8cUEERg0BIAAoAAQhBAwCC0GokMgAKQMAIg2nQf8BcSICQQRGDQYgAkEDRw0KIA1CIIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0JIAMgACACKAIIEKIHDAkLQaiQyAApAwAiDadB/wFxIgJBBEcNAQsgASAEQRh0IARBgP4DcUEIdHIgBEEIdkGA/gNxIARBGHZycq0iECAOIA4gEFYbpyICa0ECSQ0BIAAgAmovAAAhAkEEIQUMAgsgAkEDRw0HIA1CIIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0GIAMgACACKAIIEKIHDAYLQQAhAkGokMgAKQMAIg1CCIghDyANpyEFIA4gDUL/AYNCBFINARoLIBBCAnwLIQwgBUH/AXEiA0EERgRAQQghBUEAIQRBqJDIACkDACIPQv8BgyERIA9CCIghECAPpyEDIAJBCHQgAkGA/gNxQQh2ckH//wNxIQcDQCAEQf//A3EgB08NBgJ+AkAgASAMIA4gDCAOVBunIgJrQQJPBEAgACACai8AAEGBJEYhCEEEIQJCACENDAELQQAhCCAQIQ0gAyECIA4gEUIEUg0BGgsgDEICfAshDCACQf8BcSICQQRHBEAgAkEDRw0HIA1CGIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0GIAMgACACKAIIEKIHDAYLAn4CQCABIAwgDiAMIA5UG6ciAmtBAk8EQCAAIAJqLwAAQYAGRiEJQQQhAkIAIQ0MAQtBACEJIBAhDSADIQIgDiARQgRSDQEaCyAMQgJ8CyEMIAJB/wFxIgJBBEcEQCACQQNHDQcgDUIYiKciASgCACEDIAFBBGooAgAiAigCACIABEAgAyAAEQMACyACKAIEIgBFDQYgAyAAIAIoAggQogcMBgsCfgJAIAEgDCAOIAwgDlQbpyICa0EETwRAIAAgAmooAABBgICACEYhCkEEIQJCACENDAELQQAhCiAQIQ0gAyECIA4gEUIEUg0BGgsgDEIEfAshDCACQf8BcSICQQRHBEAgAkEDRw0HIA1CGIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0GIAMgACACKAIIEKIHDAYLAn4CQCABIAwgDiAMIA5UG6ciAmtBAk8EQCAAIAJqLwAAIQZBBCECQgAhDQwBC0EAIQYgECENIAMhAiAOIBFCBFINARoLIAxCAnwLIQwCQCACQf8BcUEERgRAIAEgDCAOIAwgDlQbp2tBAUsiAiADQf8BcSILQQRGcg0BIAtBA0cNCCAPQiCIpyIBKAIAIQMgAUEEaigCACICKAIAIgAEQCADIAARAwALIAIoAgQiAEUNByADIAAgAigCCBCiBwwHCyACQf8BcUEDRw0HIA1CGIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0GIAMgACACKAIIEKIHDAYLIARBAWohBCAMQgJ8Ig0gDSAOIBFCBFEbIAIbIQwgCCAJcSAKcUUNAAtB/wEgBkEIdCAGQYD+A3FBCHZyQf//A3EiACAAQf8BTxtBAWsiAUH/AXFBB0sNBQwCC0EIIQUgA0EDRw0EIA9CGIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0DIAMgACACKAIIEKIHDAMLAn4CQCABIAwgDiAMIA5UG6ciAmtBAk8EQCAAIAJqLwAAIQJBBCEEDAELQQAhAkGokMgAKQMAIg1CCIghDyANpyEEIA4gDUL/AYNCBFINARoLIAxCAnwLIQwgBEH/AXEiA0EERw0BQQAhBEGokMgAKQMAIg9C/wGDIREgD0IIiCEQIA+nIQMgAkH//wNxIQcDQCAEQf//A3EgB08NBAJ+AkAgASAMIA4gDCAOVBunIgJrQQJPBEAgACACai8AAEGSAkYhCEEEIQJCACENDAELQQAhCCAQIQ0gAyECIA4gEUIEUg0BGgsgDEICfAshDCACQf8BcSICQQRHBEAgAkEDRw0FIA1CGIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0EIAMgACACKAIIEKIHDAQLAn4CQCABIAwgDiAMIA5UG6ciAmtBAk8EQCAAIAJqLwAAQQNGIQlBBCECQgAhDQwBC0EAIQkgECENIAMhAiAOIBFCBFINARoLIAxCAnwLIQwgAkH/AXEiAkEERwRAIAJBA0cNBSANQhiIpyIBKAIAIQMgAUEEaigCACICKAIAIgAEQCADIAARAwALIAIoAgQiAEUNBCADIAAgAigCCBCiBwwECwJ+AkAgASAMIA4gDCAOVBunIgJrQQRPBEAgACACaigAAEEBRiEKQQQhAkIAIQ0MAQtBACEKIBAhDSADIQIgDiARQgRSDQEaCyAMQgR8CyEMIAJB/wFxIgJBBEcEQCACQQNHDQUgDUIYiKciASgCACEDIAFBBGooAgAiAigCACIABEAgAyAAEQMACyACKAIEIgBFDQQgAyAAIAIoAggQogcMBAsCfgJAIAEgDCAOIAwgDlQbpyICa0ECTwRAIAAgAmovAAAhBkEEIQJCACENDAELQQAhBiAQIQ0gAyECIA4gEUIEUg0BGgsgDEICfAshDCACQf8BcSICQQRHBEAgAkEDRw0FIA1CGIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0EIAMgACACKAIIEKIHDAQLIAEgDCAOIAwgDlQbp2tBAUsiAiADQf8BcSILQQRGckUEQCALQQNHDQUgD0IgiKciASgCACEDIAFBBGooAgAiAigCACIABEAgAyAAEQMACyACKAIEIgBFDQQgAyAAIAIoAggQogcMBAsgBEEBaiEEIAxCAnwiDSANIA4gEUIEURsgAhshDCAIIAlxIApxRQ0AC0H/ASAGIAZB/wFPG0EBayIBQf8BcUEITw0DC0KAiIio4KDAgwMgAUEDdK1C+AGDiKchBQwCCyADQQNHDQEgD0IYiKciASgCACEDIAFBBGooAgAiAigCACIABEAgAyAAEQMACyACKAIEIgBFDQAgAyAAIAIoAggQogcLIAFBDEEEEKIHQQgPCyAFC4UVAiF/Dn0jAEEQayIRJAAgACABIAIQzAMCQAJAAkACQCADKAIEIhJFBEAgAygCDCEIDAELAkAgAygCDCIIRQ0AIAMoAhQiGEUNACADKAIcIhlFDQAgAygCJCIVRQ0AIAJFDQJDAAAAQEMAAIA/IAAtAJwBGyExIAJBDGwhGyAAKgKMASAAKgKIASIpkyEqIAAqAoQBIAAqAoABIiuTISwgACgCZCEaIAAoAmAhHCADKAIgIR0gAygCGCEeIAMoAhAhHyADKAIIISAgAygCACEhIAghEAJAAkACQAJAAkACQANAIBogBEEEaiILSQRAIAQgCyAaQYThwAAQ6gcACyAGIBJPDQYgEiAGayIFQQAgBSASTRsiBUEBRg0EIAVBAkYNBQJAAkACQCAQBEACQAJAIAYgGE8NAAJAAkAgFyAYakEBaw4CAAEDCyAGQQFqIQYMAQsgBkECaiEGCyAGIBhBtOHAABCMBwALAkACQCAGIBlPDQACQAJAIBcgGWpBAWsOAgABAwsgBkEBaiEGDAELIAZBAmohBgsgBiAZQZThwAAQjAcACyAEIBVPDQcCQCAVIARrIgVBACAFIBVNG0EBaw4DBAYHAAsgEyAhaiIFKAIAIQkgBUEIaigCACEUIAVBBGooAgAhCiAEICBqKgIAIBMgH2oiBCoCACEmIARBCGoqAgAhKCAEQQRqKgIAIScgEyAeaiIEKgIAIS0gBEEIaioCACEuIARBBGoqAgAhLyAWIB1qIgQqAgAhJSARIARBBGoqAgA4AgQgESAlOAIAIBEgBEEIaikCADcCCEMAAH9DQwAAAAAgJyArkyAslUMAAH9DlCIlICVDAAAAAF0bIiUgJUMAAH9DXhsQuQciMEMAAAAAYCEiIDD8ASEjQwAAf0NDAAAAACAoICuTICyVQwAAf0OUIiUgJUMAAAAAXRsiJSAlQwAAf0NeGxC5ByIoQwAAAABgISQgKPwBIQxDAAB/Q0MAAAAAICYgK5MgLJVDAAB/Q5QiJSAlQwAAAABdGyIlICVDAAB/Q14bELkHISYgMZUhJyAJQf///wNxIQUgCUGAgICAeHEhBCAJQYCAgPwHcSIHQYCAgPwHRgRAIARBEHYgBUENdnJBgARBACAFG3JBgPgBciENDAMLIARBEHYhDSAHQYCAgLgESw0BIAdBgICAxANPBEAgCUEMdiAJQf/fAHFBAEdxIAdBDXYgBUENdmpBgIABaiANcmohDQwDCyAHQYCAgJgDSQ0CIAVBgICABHIiCUH+ACAHQRd2IgVrdiEEIAlBHSAFayIFdkEBcQR/IARBAyAFdEEBayAJcUEAR2oFIAQLIA1yIQ0MAgsgCCAIQfTgwAAQjAcACyANQYD4AXIhDQsgCkH///8DcSEFIApBgICAgHhxIQQCQCAKQYCAgPwHcSIHQYCAgPwHRwRAIARBEHYhDiAHQYCAgLgETQRAIAdBgICAxANPBEAgCkEMdiAKQf/fAHFBAEdxIAdBDXYgBUENdmpBgIABaiAOcmohDgwDCyAHQYCAgJgDSQ0CIAVBgICABHIiCUH+ACAHQRd2IgVrdiEEIAlBHSAFayIFdkEBcQR/IARBAyAFdEEBayAJcUEAR2oFIAQLIA5yIQ4MAgsgDkGA+AFyIQ4MAQsgBEEQdiAFQQ12ckGABEEAIAUbckGA+AFyIQ4LIBRB////A3EhBSAUQYCAgIB4cSEEAkAgFEGAgID8B3EiB0GAgID8B0cEQCAEQRB2IQ8gB0GAgIC4BE0EQCAHQYCAgMQDTwRAIBRBDHYgFEH/3wBxQQBHcSAHQQ12IAVBDXZqQYCAAWogD3JqIQ8MAwsgB0GAgICYA0kNAiAFQYCAgARyIglB/gAgB0EXdiIFa3YhBCAJQR0gBWsiBXZBAXEEfyAEQQMgBXRBAWsgCXFBAEdqBSAECyAPciEPDAILIA9BgPgBciEPDAELIAVBDXYgBEEQdnJBgARBACAFG3JBgPgBciEPCyAREJ0EIQpBACEJQQAhBSAtQwAAAABfRQRAQf8BQwAAgD9DAAAAACAtEMYFICmTICqVIiUgJUMAAAAAXRsiJSAlQwAAgD9eG0MAAH5DlBC5ByIl/AFBACAlQwAAAABgGyAlQwAAf0NeG0EBakH/AXEhBQsgL0MAAAAAX0UEQEH/AUMAAIA/QwAAAAAgLxDGBSApkyAqlSIlICVDAAAAAF0bIiUgJUMAAIA/XhtDAAB+Q5QQuQciJfwBQQAgJUMAAAAAYBsgJUMAAH9DXhtBAWpB/wFxQQh0IQkLQQAhBCAuQwAAAABfRQRAQf8BQwAAgD9DAAAAACAuEMYFICmTICqVIiUgJUMAAAAAXRsiJSAlQwAAgD9eG0MAAH5DlBC5ByIl/AFBACAlQwAAAABgGyAlQwAAf0NeG0EBakH/AXFBEHQhBAsgFiAcaiIHQQRqIA1B//8DcSAOQRB0cjYCACAHQQxqIAUgCkEIdEGAgIB4cXIgBCAJcmo2AgAgB0EIaiAPQf//A3EgCkEQdHJB////B3EgCkGA/v8HcUEIdkEYdHI2AgAgB0H/ASAjQQAgIhsgMEMAAH9DXhtBCHRB/wEgDEEAICQbIChDAAB/Q14bQRB0ckH/ASAm/AFBACAmQwAAAABgGyAmQwAAf0NeG3JB/wFDAAB/Q0MAAAAAICdDAAB/Q5QiJSAlQwAAAABdGyIlICVDAAB/Q14bELkHIiX8AUEAICVDAAAAAGAbICVDAAB/Q14bQRh0cjYCACAWQRBqIRYgF0EDayEXIAZBA2ohBiAQQQFrIRAgCyEEIBsgE0EMaiITRw0BDAoLCyAEQQFqIQQMAgsgBEECaiEEDAELIARBA2ohBAsgBCAVQaThwAAQjAcACyAGQQFqIQYMAQsgBkECaiEGCyAGIBJBxOHAABCMBwALIAAgASACIAMoAgAgEhCjAgsgCARAIAMoAgghBCAAIAEgAhDMAyACBEBDAAAAQEMAAIA/IAAtAJwBQQFxGyEnIAJBAnQhECAAKAJkIQUgACgCYCEGIAghCwNAIAxBA2ogBU8NBCALRQ0FIAZBA2pB/wFDAAB/Q0MAAAAAIAQgDGoqAgAgJ5VDAAB/Q5QiJSAlQwAAAABdGyIlICVDAAB/Q14bELkHIiX8AUEAICVDAAAAAGAbICVDAAB/Q14bOgAAIAZBEGohBiALQQFrIQsgECAMQQRqIgxHDQALCyAAQQE6ALgBCyADKAIUIggEQCAAIAEgAiADKAIQIAgQlgQLIAMoAhwiCARAIAAgASACIAMoAhggCBDJAwsgAygCJCIIRQ0AIAAgASACIAMoAiAgCBD7BAsgAEEBOgC4ASADKAI8IQUgAygCOCEQIAMoAjQhBCADKAIwIQsgAygCLCIIBEAgACABIAIgAygCKCAIEM4DCyAEBEAgACABIAIgCyAEEOIDCyAFBEAgACABIAIgECAFEOMDCyADKAJEIggEQCAAIAEgAiADKAJAIAgQtAQLIAMoAkwiCARAIAAgASACIAMoAkggCBC1BAsgEUEQaiQADwsgDCAMQQRqIAVBuNvAABDqBwALIAggCEGo28AAEIwHAAvXFAIWfwF7IwBB0ABrIgQkACAEQRBq/QwAAAAAAAAAAAAAAAAAAAAA/QsDACAEIBj9CwMAIAEoAgQiCiABKAIIIglBAXQiBmohEyAKIQMCQAJAAkACQAJAAkACQAJAA0AgAyATRwRAIAMvAQAhAiADQQJqIQMgAkUNASACQRBPDQIgBCACQQF0aiICIAIvAQBBAWo7AQAgCEEBaiEIDAELCwJAAkACQAJAAkAgCA4CAwABCyAJBEBBACECIAohAwNAIAMvAQANAyACQQFqIQIgA0ECaiEDIAZBAmsiBg0ACwtB+O3EABDdCQALQRAhBSAEQTBqIBj9CwMAIAQgGP0LAyAgBC8BHiILBEBBDyEDDAYLIAQvARwEQEEPIQVBDiEDDAYLIAQvARoEQEEOIQVBDSEDDAYLIAQvARgEQEENIQVBDCEDDAYLIAQvARYEQEEMIQVBCyEDDAYLIAQvARQEQEELIQVBCiEDDAYLIAQvARIEQEEKIQVBCSEDDAYLIAQvARAEQEEJIQVBCCEDDAYLIAQvAQ4EQEEIIQVBByEDDAYLIAQvAQwEQEEHIQVBBiEDDAYLIAQvAQoEQEEGIQVBBSEDDAYLIAQvAQgEQEEFIQVBBCEDDAYLIAQvAQYEQEEEIQVBAyEDDAYLIAQvAQRFDQJBAyEFQQIhAwwFCyAAIAI7AQQgAEGAgICAeDYCAAwGCyAAQYGAgIB4NgIAIABBDjoABAwFCyAELwECIgJFDQFBASEDIAJBAXQhAkECIQUMAwsgAkEQQZjvxAAQjAcAC0GI7sQAEN0JAAsgBCAELwECQQF0IgI7ASQgBC8BBCACakEBdCECIANBAmoiB0EERgRAQQIhAwwBCyAEIAI7ASYgBC8BBiACakEBdCECIAdBBUYEQEEDIQMMAQsgBCACOwEoIAQvAQggAmpBAXQhAiAHQQZGBEBBBCEDDAELIAQgAjsBKiAELwEKIAJqQQF0IQIgB0EHRgRAQQUhAwwBCyAEIAI7ASwgBC8BDCACakEBdCECIAdBCEYEQEEGIQMMAQsgBCACOwEuIAQvAQ4gAmpBAXQhAiAHQQlGBEBBByEDDAELIAQgAjsBMCAELwEQIAJqQQF0IQIgB0EKRgRAQQghAwwBCyAEIAI7ATIgBC8BEiACakEBdCECIAdBC0YEQEEJIQMMAQsgBCACOwE0IAQvARQgAmpBAXQhAiAHQQxGBEBBCiEDDAELIAQgAjsBNiAELwEWIAJqQQF0IQIgB0ENRgRAQQshAwwBCyAEIAI7ATggBC8BGCACakEBdCECIAdBDkYEQEEMIQMMAQsgBCACOwE6IAQvARogAmpBAXQhAiAHQQ9GBEBBDSEDDAELIAQgAjsBPCAELwEcIAJqQQF0IQIgB0EQRgRAQQ4hAwwBCyAEIAI7AT4gAiALakEBdCECCwJ/AkACQCACQf//A3FBAiADdEH+/wNxRgRAIAVBCiADIANBCk8bIgxBAWoiA0kNASADIAVGDQJBACECQQAhCAJAIAUgA2siB0EITwRAIAQgA0EBdGohAyAHQRhxIgghAgNAIAP9AAEAIBj9jgEhGCADQRBqIQMgAkEIayICDQALIBggGCAY/Q0ICQoLDA0ODwABAAEAAQAB/Y4BIhggGCAY/Q0EBQYHAAEAAQABAAEAAQAB/Y4BIhggGCAY/Q0CAwABAAEAAQABAAEAAQAB/Y4B/RkAIQIgByAIRg0BCyAIQQF0IAxBAXRqIARqQQJqIQMgCCAMaiAFa0EBaiEFA0AgAy8BACACaiECIANBAmohAyAFQQFqIgUNAAsLIAJB//8DcSIDRQ0CIANBBHQQcSIIRQ0FIANBAXQMAwsgAEGBgICAeDYCACAAQQ46AAQMAwsgAyAFQRBBmO7EABDqBwALQQQhCEEACyEDIARBADYCTCAEIAg2AkggBCADNgJEQQQgDHQiDxBxIg1FDQEgDUEEayIWLQAAQQNxRSAPRXJFBEAgDUEAIA/8CwALQQEgDHQiDkEBayEUAkAgCUUNACAKQQJqIQIgBkECa0EBdkEBaiEXQQAhB0EAIQNBASEFIAohCUEAIQsCQANAAkAgCyEQIAkhBiACIQkgBSELAkAgBi8BACIGRQ0AAkAgBkEPTQRAIARBIGogBkEBdGoiAiACLwEAIhJBAWo7AQAgEkEIdCASQQh2ciICQQR2QY8ecSACQY8ecUEEdHIiAkECdkGz5gBxIAJBs+YAcUECdHIiAkEBdkHVqgFxIAJB1aoBcUEBdHIhAgJAAkACQCAGIAxLBEAgDiACQQAgBmtBD3F2IBRxIgJNDQEgDSACQQJ0aiICKAIAIgUNAiACIANBAWoiBzYCACAEKAJEIANGBH8gBEHEAGpByO7EABD5BSAEKAJIBSAICyADQQN0akECOwEAIAQgBzYCTCAHIQIMAwsgDiACQRAgBmt2IgVNDQUgBkEQdCAQciEQQQEgBnQiBkECdCERIA0gBUECdGohAgNAIAIgEDYCACACIBFqIQIgBSAGaiIFIA5JDQALDAULIAIgDkG47sQAEIwHAAsgAyECIAVBAWshAwsgBiAMayIRQf//A3EiBUEBayIGQQAgBSAGTxshBgNAIAYhBQJAAkACQCACIANLBEAgBCgCSCIIIANBA3RqIgYvAQBBAWsOAgoCAQsgAyACQejuxAAQjAcACyAGKAIEIRUMAQsgBkEAOwEAIAYgAiADayIVNgIEIAQoAkQiByACRgRAIARBxABqQfjuxAAQ+QUgBCgCSCEIIAQoAkQhBwsgCCACQQN0akECOwEAIAQgAkEBaiIGNgJMIAYgB0YEfyAEQcQAakGI78QAEPkFIAQoAkgFIAgLIAZBA3RqQQI7AQAgBCACQQJqIgc2AkwgByECCyAFQQFrIQYgEiARQQFrdkEBcSADaiAVaiEDIAUhESAFQf//A3ENAAsMAQsgBkEQQajuxAAQjAcACyADIAdPDQEgBCgCSCIIIANBA3RqIgMvAQBBAkkNAyADIBA7AQIgA0EBOwEAIAchAwsgC0EBaiEFIAlBAkEAIAkgE0cbaiECIAsgF0cNAQwDCwsgAyAHQdjuxAAQjAcACyAAQYGAgIB4NgIAIABBDjoABAJAIBYoAgAiAEF4cSIDQQRBCCAAQQNxIgAbIA9qTwRAIABBACADIA9BJ2pLGw0GIA0QogIgBCgCRCIARQ0DIAhBBGsoAgAiA0F4cSICIABBA3QiAEEEQQggA0EDcSIDG2pJDQUgA0EAIAIgAEEnaksbDQEgCBCiAgwDCwwECwwECyAAIAQpAkQ3AgAgACAUOwEYIAAgDjYCFCAAIA02AhAgACAONgIMIABBCGogBEHMAGooAgA2AgALAkAgASgCACIABEAgCkEEaygCACIBQXhxIgMgAEEBdCIAQQRBCCABQQNxIgEbakkNAyABQQAgAyAAQSdqSxsNASAKEKICCyAEQdAAaiQADwsMAgsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvZFQIPfwN+IwBBMGsiBSQAIAIoAgAiDyACKAIIIg1rIQYCQAJAIAACfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAEoAqgBQQFrDgIBAgALAkACQEElEHEiAUUNACABQR1qQZ2dxwApAAA3AAAgAUEQakGQnccA/QAAAP0LAAAgAUGAnccA/QAAAP0LAABBDBBxIgJFDQAgAkElNgIIIAIgATYCBCACQSU2AgBBDBBxIgFFDQAgAUEoOgAIIAFB7IrBADYCBCABIAI2AgAgBSABrUIghkIDhDcCAAwBCwALDAILIAZBIE8EQCABKQO4ASESIA8hBCANIQYMCAsgBUEQav0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgBf0MAAAAAAAAAAAAAAAAAAAAAP0LAwACfyABKQO4ASISUARAQgAhEiANDAELIAEoAsABIggoAgAgCCkDCCITIAgoAgQiBK0iFCATIBRUG6dqIQcCQCAEQv////8PIBMgE0L/////D1obp2siA0EAIAMgBE0bIgRCICASIBJCIFobpyIDIAMgBEsbIgRBAUYEQCAFIActAAA6AAAMAQsgBEUNACAFIAcgBPwKAAALIAEgEiAErSIUfSISNwO4ASAIIBMgFHw3AwggDSAEIAZNDQAaIAIgDSAEQQFBARCkBSACKAIICyEIIAQEQCACKAIEIAhqIAUgBPwKAAALIAIgBCAIaiIGNgIIIARFBEBBACEDDAsLIAIoAgAhBAwHCyABKAKsASEHIA8hASANIQgCfwJAIAZBIE8NACAFIAcgAhCPBAJAQQACfyAFLQAAQQRGBEAgBSgCBAwBCyAFKQMAIhNCIIghFCATQv8Bg0IEUg0BIBSnC0UNAhogAigCACEBIAIoAgghCAwBCyATQoB+gyESDAYLQYDAACEJA0ACQCABIA9HIAEgCEdyRQRAIAUgByACEI8EAkACQAJ/IAUtAABBBEYEQCAFKAIEDAELIAUpAwAiE0IgiCEUIBNC/wGDQgRSDQEgFKcLDQEgAigCCCEIDAMLIBNCgH6DIRIMCQsgAigCCCEIIAIoAgAhAQsCQCABIAhHBEAgASAIayEMIAIoAgQhBAwBC0IBIRNCgMwAIRJCACEUIAFBIGoiBCABQQF0IgYgBCAGSxsiBkEASA0IIAUgAQR/IAUgATYCCCAFIAIoAgQ2AgBBAQVBAAs2AgQgBUEkakEBIAYgBRCFByAFKAIkQQFGDQggBSgCKCEEIAIgBjYCACACIAQ2AgQgBiABayEMIAYhAQsgBCAIaiEOIAkgDCAJIAxJGyIGIANrIgQEQCADIA5qQQAgBPwLAAsgBSAHIA4gBhDkAgJAIAUtAABBBEYNACAFKQMAIhJCIIgiFKchBEIAIRMCQAJAAkACQAJAIBKnQf8BcUEBaw4EAgEABAwLIAQtAAhBI0YNAgwKCyAELQAIQSNGDQFCAiETDAoLIBJCgP4Dg0KAxgBRDQBCASETDAkLAn8gEkL/AYNCA1EEQCAEKAIAIQsgBEEEaigCACIDKAIAIgoEQCALIAoRAwALIAMoAgQiAwRAIAtBBGsoAgAiCkF4cSIQQQRBCCAKQQNxIgobIANqTwRAIApBACAQIANBJ2pLGw0VQQAMAwsMEwtBAQwBC0ECCyEDA0ACQAJAAkACQAJAAkACQCADDgIAAQILIAsQogIMBAsgBEEEaygCACIDQXhxIgpBEEEUIANBA3EiAxtJDRYgA0EAIApBNE8bDRcgBBCiAgwBCyAFIAcgDiAGEOQCIAUtAABBBEYNBiAFKQMAIhJCIIgiFKchBAJAAkACQAJAIBKnQf8BcUEBaw4EAAECCRELIBJCgP4Dg0KAxgBRDQJCASETDBALIAQtAAhBI0YNAUICIRMMDwsgBC0ACEEjRw0NCyASQv8Bg0IDUQ0BC0ECIQMMAwsgBCgCACELIARBBGooAgAiAygCACIKBEAgCyAKEQMACyADKAIEIgMNAQtBASEDDAELIAtBBGsoAgAiCkF4cSIQQQRBCCAKQQNxIgobIANqSQ0RIApFIBAgA0Enak1yRQRADBMLQQAhAwwACwALIAIgCDYCCAwBCyAFKAIEIgQgBksEQEG0m8cAQTZB7JvHABDrBwALIAIgBCAIaiIINgIIIARFDQBBfyAJQQF0IAlBAEgbIAkgBCAGRhsgCSAJIAxNGyEJIAYgBGshAwwBCwsgCCANawshAyAHLQC0AUEBRw0JIAIoAggiASANSQ0BIAdBoAFqIAIoAgQgDWogASANaxDeASAHKAKwASAHKAKoAUYNCSAFEJMHCyAFLQAAIQMMBAsgDSABIAFB7KvHABDqBwALQgMhEwsgAiAINgIIIBJCgH6DIRILIAUgFD4CBCAFIBOnIgM6AAAgBSASpyIBQRh2OgADIAUgAUEIdjsAAQsgA0H/AXFBBEYEQCAFKAIEIQMMBAsgBSkDACEUDAELIAEoAsABIQlBgMAAIQsgBUEQaiEQQQAhCANAIAQgD0cgBCAGR3JFBEAgEP0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgBf0MAAAAAAAAAAAAAAAAAAAAAP0LAwACfyASUARAQQAhA0IAIRIgDwwBCyAJKQMIIhMgCSgCBCIErSIUIBMgFFQbpyIHIAkoAgBqIQYCQCAEQv////8PIBMgE0L/////D1obp2siA0EAIAMgBE0bIgNCICASIBJCIFobpyIOIAMgDkkbIgNBAUYEQCAFIAYtAAA6AAAMAQsgA0UNACAFIAYgA/wKAAALIAEgEiADrSIUfSISNwO4ASAJIBMgFHw3AwggDyAEIAdGDQAaIAIgDyADQQFBARCkBSACKAIICyEEIAMEQCACKAIEIARqIAUgA/wKAAALIAIgAyAEaiIGNgIIIANFDQMgAigCACEECwJAIAQgBkcEQCACKAIEIQMMAQtCgcwAIRQgBEEgaiIHIARBAXQiAyADIAdJGyIHQQBIDQIgBSAEBH8gBSAENgIIIAUgAigCBDYCAEEBBUEACzYCBCAFQSRqQQEgByAFEIUHIAUoAiRBAUYNAiAFKAIoIQMgAiAHNgIAIAIgAzYCBCAHIQQLIBJQBEAgAiAGNgIIDAMLIAMgBmohDiAJAn4gCyAEIAZrIgcgByALSxsiB60gElgEQCAJKAIEIgpC/////w8gCSkDCCIUIBRC/////w9aG6drIgNBACADIApNGyIDIAcgAyAHSRsiAwRAIA4gCSgCACAUIAqtIhMgEyAUVhunaiAD/AoAAAsgAyAMIAMgDEsbIQwgFCADrSITfAwBCyAJKAIEIgpC/////w8gCSkDCCIUIBRC/////w9aG6drIgNBACADIApNGyIDIBKnIhEgAyARSRsiAwRAIA4gCSgCACAUIAqtIhMgEyAUVhunaiAD/AoAAAsgAyAMIAMgDEsbIQwgFCADrSITfAs3AwggASASIBN9IhI3A7gBIAIgAyAGaiIGNgIIIANFDQJBf0F/IAsgCEEBakEAIAMgB0kbIghBAUobIAsgByAMRxsiC0EBdCALQQBIGyALIAcgC08bIAsgAyAHRhshCyAMIANrIQwMAAsACyAAIBQ3AgRBAQwCCyAGIA1rIQMLIAAgA603AwhBAAs2AgAgBUEwaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL6CcCMH8GfiMAQbAEayIEJAACf0EAIAMoAgwiC0UNABogAykDECADKQMYQbjTxwBBARCVBCE0IAMoAgQiBiA0p3EhBSA0QhmIQv8Ag0KBgoSIkKDAgAF+ITYgAygCACEHA0ACQCAFIAdqKQAAIjUgNoUiNEJ/hSA0QoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIjRQRQRAA0AgByA0eqdBA3YgBWogBnFBbGxqIghBDGsoAgBBAUYEQCAIQRBrKAIALQAAQfgARg0DCyA0QgF9IDSDIjRQRQ0ACwtBACA1IDVCAYaDQoCBgoSIkKDAgH+DUEUNAhogBSAKQQhqIgpqIAZxIQUMAQsLIAhBFGsLIQUgBEEANgKYAyAEQQE2AowDIARBzNPHADYCiAMgBEIENwKQAyAEQYgDahCVByEGAkACQAJAIAVFBEAgAEGAgICAeDYC3AQgACAGNgIAIAMQvwQMAQsgBiAGKAIAKAIAEQMAIAUtABAhFyAFKAIMIRgCf0EAIAtFDQAaIAMpAxAgAykDGEHU08cAQQEQlQQhNCADKAIEIgYgNKdxIQUgNEIZiEL/AINCgYKEiJCgwIABfiE2IAMoAgAhB0EAIQoDQAJAIAUgB2opAAAiNSA2hSI0Qn+FIDRCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiNFBFBEADQCAHIDR6p0EDdiAFaiAGcUFsbGoiCEEMaygCAEEBRgRAIAhBEGsoAgAtAABB+QBGDQMLIDRCAX0gNIMiNFBFDQALC0EAIDUgNUIBhoNCgIGChIiQoMCAf4NQRQ0CGiAFIApBCGoiCmogBnEhBQwBCwsgCEEUawshBSAEQQA2ApgDIARBATYCjAMgBEHo08cANgKIAyAEQgQ3ApADIARBiANqEJUHIQYgBUUEQCAAQYCAgIB4NgLcBCAAIAY2AgAgAxC/BAwBCyAGIAYoAgAoAgARAwAgBS0AECEZIAUoAgwhGiADQfDTxwBBARC5BSEFIARBADYCmAMgBEEBNgKMAyAEQYTUxwA2AogDIARCBDcCkAMgBEGIA2oQlQchBiAFRQRAIABBgICAgHg2AtwEIAAgBjYCACADEL8EDAELIAYgBigCACgCABEDACAFLQAQIRsgBSgCDCEcIANBjNTHAEEHELkFIQUgBEEANgKYAyAEQQE2AowDIARBrNTHADYCiAMgBEIENwKQAyAEQYgDahCVByEGIAVFBEAgAEGAgICAeDYC3AQgACAGNgIAIAMQvwQMAQsgBiAGKAIAKAIAEQMAIAUtABAhHSAFKAIMIR4gA0G01McAQQcQuQUhBSAEQQA2ApgDIARBATYCjAMgBEHU1McANgKIAyAEQgQ3ApADIARBiANqEJUHIQYgBUUEQCAAQYCAgIB4NgLcBCAAIAY2AgAgAxC/BAwBCyAGIAYoAgAoAgARAwAgBS0AECEfIAUoAgwhICADQdzUxwBBBxC5BSEFIARBADYCmAMgBEEBNgKMAyAEQfzUxwA2AogDIARCBDcCkAMgBEGIA2oQlQchBiAFRQRAIABBgICAgHg2AtwEIAAgBjYCACADEL8EDAELIAYgBigCACgCABEDACAFLQAQISEgBSgCDCEiIANBhNXHAEEFELkFIQUgBEEANgKYAyAEQQE2AowDIARBoNXHADYCiAMgBEIENwKQAyAEQYgDahCVByEGIAVFBEAgAEGAgICAeDYC3AQgACAGNgIAIAMQvwQMAQsgBiAGKAIAKAIAEQMAIAUtABAhIyAFKAIMISQgA0Go1ccAQQUQuQUhBSAEQQA2ApgDIARBATYCjAMgBEHE1ccANgKIAyAEQgQ3ApADIARBiANqEJUHIQYgBUUEQCAAQYCAgIB4NgLcBCAAIAY2AgAgAxC/BAwBCyAGIAYoAgAoAgARAwAgBS0AECElIAUoAgwhJiADQczVxwBBBRC5BSEFIARBADYCmAMgBEEBNgKMAyAEQejVxwA2AogDIARCBDcCkAMgBEGIA2oQlQchBiAFRQRAIABBgICAgHg2AtwEIAAgBjYCACADEL8EDAELIAYgBigCACgCABEDACAFLQAQIScgBSgCDCEoIANB8NXHAEEFELkFIQUgBEEANgKYAyAEQQE2AowDIARBjNbHADYCiAMgBEIENwKQAyAEQYgDahCVByEGIAVFBEAgAEGAgICAeDYC3AQgACAGNgIAIAMQvwQMAQsgBiAGKAIAKAIAEQMAIAUtABAhKSAFKAIMISogA0GU1scAQQcQuQUhBSAEQQA2ApgDIARBATYCjAMgBEG01scANgKIAyAEQgQ3ApADIARBiANqEJUHIQYgBUUEQCAAQYCAgIB4NgLcBCAAIAY2AgAgAxC/BAwBCyAGIAYoAgAoAgARAwAgBS0AECErIAUoAgwhLCADQbzWxwBBBhC5BSEFIARBADYCmAMgBEEBNgKMAyAEQdzWxwA2AogDIARCBDcCkAMgBEGIA2oQlQchBiAFRQRAIABBgICAgHg2AtwEIAAgBjYCACADEL8EDAELIAYgBigCACgCABEDACAFLQAQIS0gBSgCDCEuIANB5NbHAEEGELkFIQUgBEEANgKYAyAEQQE2AowDIARBhNfHADYCiAMgBEIENwKQAyAEQYgDahCVByEGIAVFBEAgAEGAgICAeDYC3AQgACAGNgIAIAMQvwQMAQsgBiAGKAIAKAIAEQMAIAUtABAhLyAFKAIMITAgA0GM18cAQQYQuQUhBSAEQQA2ApgDIARBATYCjAMgBEGs18cANgKIAyAEQgQ3ApADIARBiANqEJUHIQYgBUUEQCAAQYCAgIB4NgLcBCAAIAY2AgAgAxC/BAwBCyAGIAYoAgAoAgARAwAgBEEEaq1CgICAgPABhCE0IAUtABAhMSAFKAIMITJBACEGA0ACQCAEIAY2AgQgBEEBNgKMAyAEQYjQxwA2AogDIARCATcClAMgBCA0NwMYIAQgBEEYajYCkAMgBEEIaiAEQYgDahCxBiADIAQoAgwiCyAEKAIQELkFIAQoAgghBUUNACAFBEAgCyAFQQEQogcLIAQoAgRBAWohBgwBCwsgBQRAIAsgBUEBEKIHC0EBIQZBCCEKQQghE0EIIRICQAJAAkACQAJAAkAgBCgCBCIFDhkFAQEBAQEBAQEEAQEBAQEBAQEBAQEBAQECAAsgBUEtRg0CCyAEQQE2AowDIARB3NfHADYCiAMgBEIBNwKUAyAEIDQ3AwggBCAEQQhqNgKQAyAEQSBqIgEgBEGIA2oQsQYgARCQByEBIABBgICAgHg2AtwEIAAgATYCACADEL8EDAQLQQEhDkECIQYMAQtBASEOQQMhBkEBIRELIARBiANqIQUjAEGAAWsiByQAIAdB5ABqrUKAgICAEIQhNQJAAkAgAygCDARAIAMoAgAhDyADKAIEIQ0gAykDGCE3IAMpAxAhOCAGQQJ0QYiSyQBqKAIAIRVBACEIA0AgByA1NwNYIAcgFSAIIAhB/wFxQQNuIglBA2xrQf8BcWwgCWo2AmQgB0IBNwJ0IAdBATYCbCAHQYjQxwA2AmggByAHQdgAajYCcCAHQcwAaiAHQegAahDsAyANIDggNyAHKAJQIhIgBygCVCIUEJUEIjSncSEJIDRCGYhC/wCDQoGChIiQoMCAAX4hOUEAIRADQAJAIAkgD2opAAAiNiA5hSI0Qn+FIDRCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiNFBFBEADQCAPIDR6p0EDdiAJaiANcUFsbGoiDEEMaygCACAURgRAIBIgDEEQaygCACAUENsHRQ0DCyA0QgF9IDSDIjRQRQ0ACwsgNiA2QgGGg0KAgYKEiJCgwIB/g1BFDQQgCSAQQQhqIhBqIA1xIQkMAQsLIAxBBGstAAAhFCAMQQhrKAIAIQwgBygCTCIJBEAgEkEEaygCACIQQXhxIhZBBEEIIBBBA3EiEBsgCWpJDQcgEEEAIBYgCUEnaksbDQggEhCiAgsgB0EEaiIJIAhBA3RqIhIgFDoABCASIAw2AgAgCEEBaiIIQQlHDQALIAUgCUHIAPwKAAAgB0GAAWokAAwCCyAHIDU3A1ggB0EANgJkIAdCATcCdCAHQQE2AmwgB0GI0McANgJoIAcgB0HYAGo2AnAgB0HMAGogB0HoAGoQ7AMLQfTXxwAQ3QkACyAELQCMAyESIAQoAogDIRQgBEEvaiAEQY0DaiIQQcMA/AoAAAJAIA4EQCMAQbABayIHJAAgB0GUAWqtQoCAgIAQhCE1AkACQCADKAIMBEAgAygCACEMIAMoAgQhCSADKQMYITcgAykDECE4IAZBAnRBlJLJAGooAgAhFUEAIQgDQCAHIDU3A4gBIAcgCEH/AXFBA24iCyAVIAggC0EDbGtB/wFxbGpBA2o2ApQBIAdCATcCpAEgB0EBNgKcASAHQYjQxwA2ApgBIAcgB0GIAWo2AqABIAdB/ABqIAdBmAFqEOwDIAkgOCA3IAcoAoABIg4gBygChAEiExCVBCI0p3EhCyA0QhmIQv8Ag0KBgoSIkKDAgAF+ITlBACEPA0ACQCALIAxqKQAAIjYgOYUiNEJ/hSA0QoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIjRQRQRAA0AgDCA0eqdBA3YgC2ogCXFBbGxqIg1BDGsoAgAgE0YEQCAOIA1BEGsoAgAgExDbB0UNAwsgNEIBfSA0gyI0UEUNAAsLIDYgNkIBhoNCgIGChIiQoMCAf4NQRQ0EIAsgD0EIaiIPaiAJcSELDAELCyANQQRrLQAAIRMgDUEIaygCACENIAcoAnwiCwRAIA5BBGsoAgAiD0F4cSIWQQRBCCAPQQNxIg8bIAtqSQ0JIA9BACAWIAtBJ2pLGw0KIA4QogILIAdBBGoiCyAIQQN0aiIOIBM6AAQgDiANNgIAIAhBAWoiCEEPRw0ACyAFIAtB+AD8CgAAIAdBsAFqJAAMAgsgByA1NwOIASAHQQM2ApQBIAdCATcCpAEgB0EBNgKcASAHQYjQxwA2ApgBIAcgB0GIAWo2AqABIAdB/ABqIAdBmAFqEOwDC0GE2McAEN0JAAsgBC0AjAMhEyAEKAKIAyELIARB8gBqIBBB8wD8CgAAIBENASAGIQUMAgsgEQ0AIAYhBQwBCyAEQYgDaiEPIwBB4AFrIgUkACAFQcQBaq1CgICAgBCEITUCQAJAIAMoAgwEQCADKAIAIQ4gAygCBCEIIAMpAxghNyADKQMQITggBkECdEGgkskAaigCACEQQQAhBwNAIAUgNTcDuAEgBSAHQf8BcUEDbiIKIBAgByAKQQNsa0H/AXFsakEIajYCxAEgBUIBNwLUASAFQQE2AswBIAVBiNDHADYCyAEgBSAFQbgBajYC0AEgBUGsAWogBUHIAWoQ7AMgCCA4IDcgBSgCsAEiCSAFKAK0ASINEJUEIjSncSEKIDRCGYhC/wCDQoGChIiQoMCAAX4hOUEAIQwDQAJAIAogDmopAAAiNiA5hSI0Qn+FIDRCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiNFBFBEADQCAOIDR6p0EDdiAKaiAIcUFsbGoiEUEMaygCACANRgRAIAkgEUEQaygCACANENsHRQ0DCyA0QgF9IDSDIjRQRQ0ACwsgNiA2QgGGg0KAgYKEiJCgwIB/g1BFDQQgCiAMQQhqIgxqIAhxIQoMAQsLIBFBBGstAAAhDSARQQhrKAIAIREgBSgCrAEiCgRAIAlBBGsoAgAiDEF4cSIVQQRBCCAMQQNxIgwbIApqSQ0HIAxBACAVIApBJ2pLGw0IIAkQogILIAVBBGoiCiAHQQN0aiIJIA06AAQgCSARNgIAIAdBAWoiB0EVRw0ACyAPIApBqAH8CgAAIAVB4AFqJAAMAgsgBSA1NwO4ASAFQQg2AsQBIAVCATcC1AEgBUEBNgLMASAFQYjQxwA2AsgBIAUgBUG4AWo2AtABIAVBrAFqIAVByAFqEOwDC0Hk18cAEN0JAAsgBC0AjAMhCiAEKAKIAyEzIARB5QFqIARBjQNqQaMB/AoAACAGIQULIAAgCjoARCAAIDM2AkAgACApOgA8IAAgKjYCOCAAICc6ADQgACAoNgIwIAAgJToALCAAICY2AiggACAjOgAkIAAgJDYCICAAIAP9AAMA/QsDACAAQRBqIANBEGr9AAMA/QsDACAAQcUAaiAEQeUBakGjAfwKAAAgACATOgDsASAAIAs2AugBIABB7QFqIARB8gBqQfMA/AoAACAAIBI6AOQCIAAgFDYC4AIgAEHlAmogBEEvakHDAPwKAAAgAEIENwPgBCAAQgA3A9gEIABCgICAgMAANwPQBCAAQgQ3A8gEIABCADcDwAQgAEKAgICAwAA3A7gEIABCBDcDsAQgAEIANwOoBCAAQoCAgIDAADcDoAQgAEIENwOYBCAAQgA3A5AEIABCgICAgMAANwOIBCAAIAU2AoQEIABBADYCgAQgACACNgL8AyAAIAE2AvgDIAAgKzoA9AMgACAsNgLwAyAAIDE6AOwDIAAgMjYC6AMgACAvOgDkAyAAIDA2AuADIAAgLToA3AMgACAuNgLYAyAAICE6ANQDIAAgIjYC0AMgACAfOgDMAyAAICA2AsgDIAAgHToAxAMgACAeNgLAAyAAIBs6ALwDIAAgHDYCuAMgACAZOgC0AyAAIBo2ArADIAAgFzoArAMgACAYNgKoAwsgBEGwBGokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC5wVBA5/An0BfAJ+IwBBIGsiAiQAAkACQAJAAkACQAJ/AkACQCAAAn8CQAJAAkACQAJAQRUgASgCACIDQYCAgIB4cyADQQBOG0EUaw4CAAEDCwJ9AkACQAJAAn0CQAJAIAEoAgwiAwRAIAJBBGogASgCCCIBEKAEIAIoAgghBiACKAIEIgdBgICAgHhGBEAgBiEBDBILIAIoAhQhCiACKAIQIQkgA0EBRg0EIAIoAhghCyACKAIMIQwCQAJAAkACQAJAAkACQAJAAkBBFSABKAIQIgVBgICAgHhzIAVBAE4bQQFrDgoLAAECAwQFBgcICgsgAS8BFLMMCwsgASgCFLMMCgsgASkDGLUMCQsgASwAFLIMCAsgAS4BFLIMBwsgASgCFLIMBgsgASkDGLQMBQsgASoCFAwECyABKwMYIhK2QwAAgD9DAACAvyASvUIAWRuYDAMLQQBB4P7AAEGA/cAAENsGIQEMEAsgAUEQaiACQR9qQdjnwAAQlQghAQwOCyABLQAUswshECADQQJGDQUCQAJAAkACQAJAAkACQAJAAkBBFSABKAIgIgVBgICAgHhzIAVBAE4bQQFrDgoLAAECAwQFBgcICgsgAS8BJLMMCwsgASgCJLMMCgsgASkDKLUMCQsgASwAJLIMCAsgAS4BJLIMBwsgASgCJLIMBgsgASkDKLQMBQsgASoCJAwECyABKwMoIhK2QwAAgD9DAACAvyASvUIAWRuYDAMLQQFB4P7AAEGA/cAAENsGIQEMCwsgAUEgaiACQR9qQdjnwAAQlQghAQwKCyABLQAkswshEQJAIANBA0cEQCACQQRqIAFBMGoQnwUgAigCBEUNASACKAIIIQEMCgtBA0Hg/sAAQYD9wAAQ2wYhAQwJCyADQQRGBEAgAigCCCEDIAIoAgwMBQsgAkEENgIEIANB/P///wBqQf////8AcUEEaiACQQRqQeiVwQAQ2wYhASAHBEAgBiAHQQEQogcLIAlFDQkgCiAJQQEQogcMCQsgASgCCCIDRQ0FIANBBXQhDiABKAIEIQ9BACEDQYCAgIB4IQcDQAJAAkACQAJAAkACQAJAAkBBFSADIA9qIgEoAgAiBEGAgICAeHMgBEEAThtBAWsODwEAAAIAAAAAAAAAAwQFBgALIAEgAkEfakHU5MAAEJUIIQQgAkEBOgAEIAIgBDYCCAwGCyACQQA6AAQgAkEEIAFBBGotAAAiBCAEQQRPGzoABQwFCyACQQA6AAQgAkIEIAFBCGopAwAiFCAUQgRaGzwABQwECyABQQhqKAIAIQQCfwJAAkACQAJAIAFBDGooAgBBBGsOAgEAAwsgBEGQ/cAAQQUQ2wcNAUEADAMLQQEgBCgAAEHt0rmbB0YNAhogBCgAAEHtwuGbB0cNAUECDAILIARBnf3AAEEFENsHDQBBAwwBC0EECyEEIAJBADoABCACIAQ6AAUMAwsgAUEEaigCACEEAn8CQAJAAkACQCABQQhqKAIAQQRrDgIBAAMLIARBkP3AAEEFENsHDQFBAAwDC0EBIAQoAABB7dK5mwdGDQIaIAQoAABB7cLhmwdHDQFBAgwCCyAEQZ39wABBBRDbBw0AQQMMAQtBBAshBCACQQA6AAQgAiAEOgAFDAILIAJBBGogAUEIaigCACABQQxqKAIAENkFDAELIAJBBGogAUEEaigCACABQQhqKAIAENkFCyACLQAEQQFGBEAgAigCCCEBQQEMCAsgAUEQaiEEAkACQAJAAkACQAJAAkACQCACLQAFDgQAAQIDBwsgB0GAgICAeEcEQEGQ/cAAQQUQnwchAUEBDA8LIAJBBGogBBCgBCACKAIIIQYgAigCBCIHQYCAgIB4RgRAIAYhAQwRCyACKAIYIQsgAigCFCEKIAIoAhAhCSACKAIMIQwMBgsgBQ0CAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAQoAgAiBUGAgICAeHMgBUEAThtBAWsOCgABAgMEBQYHCAkKCyABQRRqLQAAsyEQQQEhBQwPCyABQRRqLwEAsyEQQQEhBQwOCyABQRRqKAIAsyEQQQEhBQwNCyABQRhqKQMAtSEQQQEhBQwMCyABQRRqLAAAsiEQQQEhBQwLCyABQRRqLgEAsiEQQQEhBQwKCyABQRRqKAIAsiEQQQEhBQwJCyABQRhqKQMAtCEQQQEhBQwICyABQRRqKgIAIRBBASEFDAcLIAFBGGorAwAiErZDAACAP0MAAIC/IBK9QgBZG5ghEEEBIQUMBgsgBCACQR9qQdjnwAAQlQghAUEBDA0LIAgNAwJAAkACQAJAAkACQAJAAkACQAJAAkBBFSAEKAIAIghBgICAgHhzIAhBAE4bQQFrDgoAAQIDBAUGBwgJCgsgAUEUai0AALMhEUEBIQgMDgsgAUEUai8BALMhEUEBIQgMDQsgAUEUaigCALMhEUEBIQgMDAsgAUEYaikDALUhEUEBIQgMCwsgAUEUaiwAALIhEUEBIQgMCgsgAUEUai4BALIhEUEBIQgMCQsgAUEUaigCALIhEUEBIQgMCAsgAUEYaikDALQhEUEBIQgMBwsgAUEUaioCACERQQEhCAwGCyABQRhqKwMAIhK2QwAAgD9DAACAvyASvUIAWRuYIRFBASEIDAULIAQgAkEfakHY58AAEJUIIQFBAQwMCyANDQEgAkEEaiAEEJ8FIAIoAgghAUEBIAIoAgQNCxogAa0gAjUCDEIghoQhE0EBIQ0MAwtBlf3AAEEEEJ8HIQFBAQwKC0Gd/cAAQQUQnwchAUEBDAkLQZn9wABBBBCfByEBQQEMCAsgA0EgaiIDIA5HDQALDAILQQJB4P7AAEGA/cAAENsGIQEMBgsgASACQR9qQcTiwAAQlQghAQwGCyAHQYCAgIB4Rg0CIAIgCzYCGCACIAo2AhQgAiAJNgIQIAIgDDYCDCACIAY2AgggAiAHNgIEIAVFBEBBlf3AAEEEEJwHIQEMAgsgCEUEQEGZ/cAAQQQQnAchAQwCCyANRQRAQZ39wABBBRCcByEBDAILIBOnIQMgE0IgiKcLNgIkIAAgAzYCICAAIBE4AhwgACAQOAIYIAAgCzYCFCAAIAo2AhAgACAJNgIMIAAgDDYCCCAAIAY2AgQgACAHNgIADAULIAJBBGoQ5gVBAAwBC0GAgICAeCEHQZD9wABBBRCcByEBQQELRSAHQYCAgIB4RnINAQJAIAcEQCAGQQRrKAIAIgNBeHEiBUEEQQggA0EDcSIDGyAHakkNBSADQQAgBSAHQSdqSxsNBiAGEKICCyAJRQ0CIApBBGsoAgAiBkF4cSIDQQRBCCAGQQNxIgYbIAlqSQ0EIAZBACADIAlBJ2pLGw0AIAoQogIMAgsMBAsgBwRAIAZBBGsoAgAiA0F4cSIFQQRBCCADQQNxIgMbIAdqSQ0DIANBACAFIAdBJ2pLGw0EIAYQogILIAlFDQAgCkEEaygCACIGQXhxIgNBBEEIIAZBA3EiBhsgCWpJDQIgBkEAIAMgCUEnaksbDQMgChCiAgsgAEGBgICAeDYCACAAIAE2AgQLIAJBIGokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC6wUAwZ+EH8BeyMAQSBrIhAkAAJAAkACQAJAAkACQAJAAkACQCAAAn8CQAJAAkAgACgCDCISQQFqIggEQCAAKAIEIg8gD0EBaiINQQN2IglBB2wiFCAPQQhJGyIKQQF2IAhJBEAgCkEBaiIJIAggCCAJSRsiCEEPSQ0CIAhB/////wFNBEBBfyAIQQN0QQduQQFrZ3YiCEH+////AUsNCCAIQQFqIQgMBwsMDgtBACANRQ0EGiAAKAIAIQBBACEIIAkgDUEHcUEAR2oiCkEBTQ0CIAAhCCAKQf7///8DcSILIQkDQCAIIAj9AAMAIhj9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gGP0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACAIQRBqIQggCUECayIJDQALIAogC0YNAyALQQN0IQggCkEBcSEKDAILDAwLQQQgCEEIcUEIaiAIQQRJGyEIDAMLIAAgCGohCANAIAggCCkDACICQn+FQgeIQoGChIiQoMCAAYMgAkL//v379+/fv/8AhHw3AwAgCEEIaiEIIApBAWsiCg0ACwsCQCANQQhPBEAgACANaiAAKQAANwAADAELIA1FDQAgAEEIaiAAIA38CgAACyABKQMAIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIQhBSAAQQhqIQsgAEEIayEVIAJCf4UhBiABKQMIIQRBASEBIAAhCUEAIQgDQCAIIQogASEIAkAgACAKaiITLQAAQYABRw0AIBUgCkEDdGshFiAAIApBf3NBA3RqIRcCQANAIA8gBCAWNQIAhSIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEQtKBqpur+oLXp39+IgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIQgA0LYotHvwqnlvy1+hSICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEIAZ+IgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIQgAiAFfoUgAomnIhFxIgwhASAAIAxqKQAAQoCBgoSIkKDAgH+DIgJQBEBBCCEOA0AgASAOaiEBIA5BCGohDiAAIAEgD3EiAWopAABCgIGChIiQoMCAf4MiAlANAAsLIAAgAnqnQQN2IAFqIA9xIgFqLAAAQQBOBEAgACkDAEKAgYKEiJCgwIB/g3qnQQN2IQELIAEgDGsgCiAMa3MgD3FBCE8EQCAAIAFqIgwtAAAgDCARQRl2Igw6AAAgCyABQQhrIA9xaiAMOgAAQf8BRg0CIAAgAUEDdGshDEF4IQEDQCABIAlqIg4oAAAhESAOIAEgDGoiDigAADYAACAOIBE2AAAgAUEEaiIBDQALDAELCyATIBFBGXYiAToAACALIA8gCkEIa3FqIAE6AAAMAQsgE0H/AToAACALIA8gCkEIa3FqQf8BOgAAIAAgAUF/c0EDdGogFykAADcAAAsgCUEIayEJIAggCCANSSIKaiEBIAoNAAsgDyAUIA9BCEkbCyASazYCCAwFCyAIQQhqIgkgCEEDdCINaiIKIAlJIApB+P///wdLcg0AIAoQcSIKRQ0BIAogDWohCyAJBEAgC0H/ASAJ/AsACyAIQQFrIgwgCEEDdkEHbCAMQQhJGyETIAAoAgAhDSASDQJBACESDAMLIBBBADYCGCAQQQE2AgwgEEHEtcQANgIIIBBCBDcCECAQQQhqQZi1xAAQjQgLAAsgC0EIaiERIAEpAwAiAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhCEGIA1BCGshFCACQn+FIQcgDSkDAEJ/hUKAgYKEiJCgwIB/gyEEIAEpAwghBUEAIQggEiEBIA0hCgNAIARQBEADQCAIQQhqIQggCkEIaiIKKQMAQoCBgoSIkKDAgH+DIgJCgIGChIiQoMCAf1ENAAsgAkKAgYKEiJCgwIB/hSEECyALIAwgBSAUIAR6p0EDdiAIaiIVQQN0azUCAIUiA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCAFQgiIQoCAgPgPgyAFQhiIQoCA/AeDhCAFQiiIQoD+A4MgBUI4iISEhELSgaqbq/qC16d/fiICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEIANC2KLR78Kp5b8tfoUiAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhCAHfiIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEIAIgBn6FIAKJpyIWcSIJaikAAEKAgYKEiJCgwIB/gyICUARAQQghDgNAIAkgDmohCSAOQQhqIQ4gCyAJIAxxIglqKQAAQoCBgoSIkKDAgH+DIgJQDQALCyAEQgF9IASDIQQgCyACeqdBA3YgCWogDHEiCWosAABBAE4EQCALKQMAQoCBgoSIkKDAgH+DeqdBA3YhCQsgCSALaiAWQRl2Ig46AAAgESAJQQhrIAxxaiAOOgAAIAsgCUF/c0EDdGogDSAVQX9zQQN0aikAADcDACABQQFrIgENAAsLIAAgDDYCBCAAIAs2AgAgACATIBJrNgIIIA9FDQAgDyAPQQN0QQ9qQXhxIgFqQQlqIgBFDQAgDSABayIBQQRrKAIAIghBeHEiCUEEQQggCEEDcSIIGyAAakkNASAIQQAgCSAAQSdqSxsNAiABEKICCyAQQSBqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgEEEANgIYIBBBATYCDCAQQcS1xAA2AgggEEIENwIQIBBBCGpBmLXEABCNCAALvw4BB38CQAJAIAAoAuACIgEEQCAAKALkAiIEQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyABakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKALwAiIBKAL4BiICQQRrKAIAIgRBeHFBhIABQYiAASAEQQNxIgMbSQ0AIANBACAEQaiAAU8bDQEgAhCiAiABKALgBiIEBEAgASgC5AYiAkEEaygCACIDQXhxIgYgBEEBdCIEQQRBCCADQQNxIgMbakkNASADQQAgBiAEQSdqSxsNAiACEKICCyABKAL8BiICQQRrKAIAIgRBeHFBhBBBiBAgBEEDcSIDG0kNACADQQAgBEGoEE8bDQEgAhCiAiABKALsBiIEBEAgASgC8AYiAkEEaygCACIDQXhxIgYgBEEBdCIEQQRBCCADQQNxIgMbakkNASADQQAgBiAEQSdqSxsNAiACEKICCyABQQRrKAIAIgRBeHFBrAdBsAcgBEEDcSICG0kNACACQQAgBEHQB08bDQEgARCiAgJAIAAoAghBAkYNACAAKALIASIBQYKAgIB4SCABRXJFBEAgACgCzAEiBEEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAWpJDQIgAkEAIAMgAUEnaksbDQMgBBCiAgsgACgC1AEiAUGCgICAeEggAUVyRQRAIAAoAtgBIgRBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0CIAJBACADIAFBJ2pLGw0DIAQQogILIAAoAuABIgFBgoCAgHhIIAFFckUEQCAAKALkASIEQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyABakkNAiACQQAgAyABQSdqSxsNAyAEEKICCyAAKALsASIBQYKAgIB4SCABRXJFBEAgACgC8AEiBEEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAWpJDQIgAkEAIAMgAUEnaksbDQMgBBCiAgsgACgC+AEiAUGCgICAeEggAUVyRQRAIAAoAvwBIgRBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0CIAJBACADIAFBJ2pLGw0DIAQQogILIAAoAoQCIgFBgoCAgHhIIAFFckUEQCAAKAKIAiIEQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyABakkNAiACQQAgAyABQSdqSxsNAyAEEKICCyAAKAKoASEEIAAoAqwBIgIEQCAEIQEDQCABKAIAIgMEQCABQQRqKAIAIgZBBGsoAgAiBUF4cSIHQQRBCCAFQQNxIgUbIANqSQ0EIAVBACAHIANBJ2pLGw0FIAYQogILIAFBDGooAgAiAwRAIAFBEGooAgAiBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgA2pJDQQgBUEAIAcgA0EnaksbDQUgBhCiAgsgAUEYaiEBIAJBAWsiAg0ACwsgACgCpAEiAQRAIARBBGsoAgAiAkF4cSIDIAFBGGwiAUEEQQggAkEDcSICG2pJDQIgAkEAIAMgAUEnaksbDQMgBBCiAgsgACgCtAEhBCAAKAK4ASICBEAgBEEUaiEBA0AgAUEEaygCACIDBEAgASgCACIGQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyADakkNBCAFQQAgByADQSdqSxsNBSAGEKICCyABQRBrKAIAIgMEQCABQQxrKAIAIgZBBGsoAgAiBUF4cSIHQQRBCCAFQQNxIgUbIANqSQ0EIAVBACAHIANBJ2pLGw0FIAYQogILIAFBHGohASACQQFrIgINAAsLIAAoArABIgEEQCAEQQRrKAIAIgJBeHEiAyABQRxsIgFBBEEIIAJBA3EiAhtqSQ0CIAJBACADIAFBJ2pLGw0DIAQQogILIAAoAsABIQQgACgCxAEiAgRAIAQhAQNAIAFBEGooAgAiAwRAIAFBFGooAgAiBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgA2pJDQQgBUEAIAcgA0EnaksbDQUgBhCiAgsgAUEcaigCACIDBEAgAUEgaigCACIGQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyADakkNBCAFQQAgByADQSdqSxsNBSAGEKICCyABQShqKAIAIgMEQCABQSxqKAIAIgZBBGsoAgAiBUF4cSIHQQRBCCAFQQNxIgUbIANqSQ0EIAVBACAHIANBJ2pLGw0FIAYQogILIAFBBGooAgAiAwRAIAFBCGooAgAiBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgA2pJDQQgBUEAIAcgA0EnaksbDQUgBhCiAgsgAUE4aiEBIAJBAWsiAg0ACwsgACgCvAEiAEUNACAEQQRrKAIAIgFBeHEiAiAAQThsIgBBBEEIIAFBA3EiARtqSQ0BIAFBACACIABBJ2pLGw0CIAQQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALkhMDDn8BewF+IwBBEGsiDCQAAkACQAJAAkACQCAAKAIIIglFBEBBACEJQQEhCEEBIQoMAQsgACgCBCEEIAkQcSIKRQ0CIAQhCANAQQAhBQJAAn8gCEEUai8BACICQf//AXFFBEAgAkEQdAwBCyACQf8HcSEBIAJBgIACcSEGIAJBgPgBcSICQYD4AUYEQCAGQRB0IgJBgICA/AdyIAFFDQEaIAIgAUENdHJBgICA/gdyDAELIAZBEHQiBiACQQ10QYCAgPwAcSABQQ10ckGAgIDAA2pyIAINABogBkGAgIDYA3IgAWdBEGsiAkEXdGsgASACQf//A3FBCGp0Qf///wNxcgu+QwAAAABeRQ0AIAhBHGovAQAhBUEAIQICf0EAIAhBHmovAQAiAUH//wFxIgZBgPgBSw0AGkEAIAVB//8BcSIHQYD4AUsNABogAcFBAE4EQCABIAVLIAXBQQBODQEaIAEgB3JBAEcMAQsgBcFBAEggASAFSXELIQcgASAFIAcbIAUgBkGB+AFJGyEBAkAgCEEgai8BACIGQf//AXEiB0GA+AFLDQAgAUH//wFxIgVBgPgBSw0AIAbBQQBOBEAgAcFBAE4EQCAGIAFB//8DcUshAgwCCyAFIAZyQQBHIQIMAQsgAcFBAEggBiABQf//A3FJcSECC0EAIQUCfyAGIAEgAhsgASAHQYH4AUkbIgJB//8BcUUEQCACQRB0DAELIAJB/wdxIQEgAkGAgAJxIQYgAkGA+AFxIgJBgPgBRgRAIAZBEHQiAkGAgID8B3IgAUUNARogAiABQQ10ckGAgID+B3IMAQsgBkEQdCIGIAJBDXRBgICA/ABxIAFBDXRyQYCAgMADanIgAg0AGiAGQYCAgNgDciABZ0EQayICQRd0ayABIAJB//8DcUEIanRB////A3FyC74QiQRDAAAAAF5FDQAgDCAIKQIAIhAQywIgDP0ABAD9DP///3////9/////f////3/9Tv0MAACAfwAAgH8AAIB/AACAf/05/aQBQQ9HDQAgDCAQEMsCIAz9AAQAIg8gD/3mASIPIA8gD/0NCAkKCwwNDg8AAQIDAAECA/3kASIPIA8gD/0NBAUGBwABAgMAAQIDAAECA/3kAf3jAf0fAEMAAAAAXiEFCyADIApqIAU6AAAgCEEkaiEIIAkgA0EBaiIDRw0ACyAEQSRqIQMgCSAKaiEIQQAhASAKIQUCQAJAA0AgBSAIRg0EIAFBAWohBCAFLQAAQQFHDQEgBUEBaiEFIANBJGohAyAEIgEgCUcNAAtBACECDAELIAQgCUYEQEEBIQIMAQsgASAJayEBQQEhBEEBIQIDQAJAAkAgASAEagRAIAQgBWotAAANASACQQFqIQIMAgtB9KHBABDdCQALIAMgAkFcbGoiBiAD/QACAP0LAgAgBkEgaiADQSBqKAIANgIAIAZBEGogA0EQav0AAgD9CwIACyADQSRqIQMgASAEQQFqIgRqDQALCyAAIAkgAms2AggLIAAoAhQiBgRAQQAhBCAAKAIQIgEhAyAKIQUCQANAAkAgBSAIRwRAIAUtAAANAQJAIAEgBEEYbGoiASgCFCICQQVPBEAgASgCCCIBQQRrKAIAIgdBeHEiCyACQQJ0IgJBBEEIIAdBA3EiBxtqSQ0BIAdBACALIAJBJ2pLGw0KIAEQogILQQEhAiAEQQFqIAZGDQQgBCAGayEHQQEhAQNAIAMhBAJAAkAgCCABIAVqIgtHBEAgA0EYaiEDIAstAAANASACQQFqIQIgBEEsaigCACILQQVJDQIgBEEgaigCACIEQQRrKAIAIg1BeHEiDiALQQJ0IgtBBEEIIA1BA3EiDRtqSQ0MIA1BACAOIAtBJ2pLGw0NIAQQogIMAgtBpKLBABDdCQALIAQgAkFobGoiBEEoaiADQRBqKQIANwIAIARBGGogA/0AAgD9CwIACyAHIAFBAWoiAWoNAAsMBAsMBwtBpKLBABDdCQALIAVBAWohBSADQRhqIQMgBEEBaiIEIAZHDQALQQAhAgsgACAGIAJrNgIUCwJAIAAoAiAiAgRAQQAhBEESIQEgCiEFAkACQANAIAUgCEYNBCAEQQFqIQMgBS0AAEEBRw0BIAVBAWohBSABQRJqIQEgAyIEIAJHDQALQQAhAQwBCyACIANGBEBBASEBDAELIAQgAmshBiAAKAIcIAFqIQNBASEEQQEhAQNAAkACQCAIIAQgBWoiB0cEQCAHLQAADQEgAUEBaiEBDAILQYSiwQAQ3QkACyADIAFBbmxqIgcgA/0AAQD9CwEAIAdBEGogA0EQai8BADsBAAsgA0ESaiEDIAYgBEEBaiIEag0ACwsgACACIAFrNgIgCwJAIAAoAiwiAgRAQQAhBEEeIQEgCiEFAkACQANAIAUgCEYNBCAEQQFqIQMgBS0AAEEBRw0BIAVBAWohBSABQR5qIQEgAyIEIAJHDQALQQAhAQwBCyACIANGBEBBASEBDAELIAQgAmshByAAKAIoIAFqIQNBASEEQQEhAQNAAkACQCAIIAQgBWoiBkcEQCAGLQAADQEgAUEBaiEBDAILQeShwQAQ3QkACyADIAFBYmxqIgYgA/0AAQD9CwEAIAZBFmogA0EWaikBADcBACAGQRBqIANBEGopAQA3AQALIANBHmohAyAHIARBAWoiBGoNAAsLIAAgAiABazYCLAsCQCAAKAI4IgIEQEEAIQRBKiEBIAohBQJAAkADQCAFIAhGDQQgBEEBaiEDIAUtAABBAUcNASAFQQFqIQUgAUEqaiEBIAMiBCACRw0AC0EAIQEMAQsgAiADRgRAQQEhAQwBCyAEIAJrIQcgACgCNCABaiEDQQEhBEEBIQEDQAJAAkAgCCAEIAVqIgZHBEAgBi0AAA0BIAFBAWohAQwCC0GUosEAEN0JAAsgAyABQVZsaiIGIAP9AAEA/QsBACAGQShqIANBKGovAQA7AQAgBkEgaiADQSBqKQEANwEAIAZBEGogA0EQav0AAQD9CwEACyADQSpqIQMgByAEQQFqIgRqDQALCyAAIAIgAWs2AjgLAkAgCQRAIApBBGsoAgAiAEF4cSIFQQRBCCAAQQNxIgAbIAlqSQ0HIABBACAFIAlBJ2pLGw0BIAoQogILIAxBEGokAA8LDAYLQZSiwQAQ3QkAC0HkocEAEN0JAAtBhKLBABDdCQALQfShwQAQ3QkACwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC6oVBAh/BH4HfQF7IwBB4AJrIgEkAAJAAkACQAJAAkACQAJAAkACQAJAAkAgAC0AnANFBEAgACgCACICQQJHDQogACgCiAFBAkcNCiAAKAKAAyICQQNNBEBBACECDAwLIAEgACgC/AIiBSgAACIDNgIQAkAgA0HSgpGaBEcEQCADQdKCkYIDRw0DIAJBCEkNASACIAUoAAQiBEEHakF4cUEIaiIDSQ0BIARBCGoiBiACSyAEQXdLcg0EIAFBADYC2AIgASAENgLUAiABIAVBCGo2AtACIAFBIGogAUHQAmoQWSABKAIkIQQgASgCICIGQQJGBEAgBBDOByECDA4LIAFBsAFqIAFBKGpBgAH8CgAAIAEgBDYCrAEgASAGNgKoASAAKAKAAyICIANJDQUgAEEANgKAAyACIANrIQUgA0UNBiACIANGDQggBUUNByAAKAL8AiICIAIgA2ogBfwKAAAMBwsgAUEIaiAAELkCIAEtAAhFBEAgAS0ACQ0JQQAhAgwNCyABKAIMIQIMDAtBACECDAsLIAA1AoADIQkgAEEANgKAAyAAIAkgACkD2AJ8NwPYAgwKCyABQQE2AjQgAUHMyMEANgIwIAFBATYCJCABQcTIwQA2AiAgAUEBNgIsIAEgAUEQaq1CgICAgJAEhDcD0AIgASABQdACajYCKCABQRRqIgAgAUEgahCxBiAAEI4HIQIMCQtBCCAGIAJBnMjBABDqBwALQQAgAyACQYSkxwAQ6gcACyACIANGDQELIAAgBTYCgAMLIAAgACkD2AIgA618Igk3A+ACIAAgCTcD2AICQAJAAkAgASgCpAJBAUYEQCAAIAEoApQCIgM2AogDIAAgASgCtAEgASgCwAEiAiABKAKwARsiBTYCjAMgBUUNASACIAVuIgcgBSAHbCACR2oiBSADRgRAIAEtAKgCIQMgASAEQQAgBkEBcRs2AiQgASACNgIgIAEgA0EBcSICOgAoIABB+AFqIAFBIGoQ6QEgASgC0AEiBEECRwRAAn0gAC0A0AIiA0ECRgRAQwAAQMEhDUMAABBBIQ5DAACAPyEQQQAhA0MAAIA/IRFDAACAPyESQwAAgD8hE0MAAAAADAELIAFBImogAEHTAmotAAA6AAAgASAALwDRAjsBICAAKgLMAiEQIAAqAsgCIREgACoCxAIhEiAAKgLAAiEOIAAqArwCIQ0gACoCuAIhEyAAKgK0AgshDyAAIAEqAoQCIBAgASgCgAIbOALMAiAAIAEqAvwBIBEgASgC+AEbOALIAiAAIAEqAvQBIBIgASgC8AEbOALEAiAAIAEqAuwBIA4gASgC6AEbOALAAiAAIAEqAuQBIA0gASgC4AEbOAK8AiAAIAEqAtwBIBMgASgC2AEbOAK4AiAAIAMgAS0AiAIiAyADQQJGGzoA0AIgACABKgLUASAPIARBAXEbOAK0AiAAQdMCaiABQSJqLQAAOgAAIAAgAS8BIDsA0QILIAJFDQQCfSAALQDQAkECRgRA/QwAAAAAAACAPwAAQMEAABBBIRRDAACAPyENQwAAgD8hDkMAAIA/DAELIAFBImogAEHTAmotAAA6AAAgASAALwDRAjsBICAAKgLIAiENIAAqAsQCIQ4gAP0AArQCIRQgACoCzAILIQ8gAEEBOgDQAiAAIA84AswCIAAgDTgCyAIgACAOOALEAiAAIBT9CwK0AiAAIAEvASA7ANECIABB0wJqIAFBImotAAA6AAAMBAsgASAFNgLMAiABQQI2AiQgAUHox8EANgIgIAFCAjcCLCABQoCAgIAQIgkgAEGIA2qthDcD2AIgASAJIAFBzAJqrYQ3A9ACIAEgAUHQAmo2AiggAUHAAmoiACABQSBqELEGIAAQjgchAgwCCyABQQE2AiQgAUGUyMEANgIgIAFCATcCLCABIAFBpAJqrUKAgICAEIQ3A9ACIAEgAUHQAmo2AiggAUG0AmoiACABQSBqELEGIAAQjgchAiABKAKUAiEDDAELQbTHwQAQgQgACyABKAKQAiEEIAMEQCAEQSRqIQADQCAAQQRrKAIAIgVBgICAgHhyQYCAgIB4RwRAIAAoAgAgBUEBEKIHCyAAQTBqIQAgA0EBayIDDQALCyABKAKMAiIABEAgBCAAQTBsQQgQogcLIAEoApgCIgBBgICAgHhyQYCAgIB4Rg0FIAEoApwCIABBARCiBwwFCwJAIAAoAgBBAkYNACAAKAJoIQQgACgCbCIDBEAgBEEkaiECA0AgAkEEaygCACIFQYCAgIB4ckGAgICAeEcEQCACKAIAIgZBBGsoAgAiB0F4cSIIQQRBCCAHQQNxIgcbIAVqSQ0FIAdBACAIIAVBJ2pLGw0GIAYQogILIAJBMGohAiADQQFrIgMNAAsLIAAoAmQiAwRAIAQgA0EwbEEIEKIHCyAAKAJwIgNBgICAgHhyQYCAgIB4Rg0AIAAoAnQgA0EBEKIHCyAAIAFBqAFqQYgB/AoAAAsgACgCACECDAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACwJAAkACQAJAAn8CQCACQQJHBEAgACgChAMgACgCiANPDQYgACgCiAFBAkYNAUEADAILIAFBqAFqIAAQYyABKAKsAUEAIAEtAKgBIgMbIQIgAw0GIAEtAKkBQQFxRQ0GIAApA/ACIgsgACkD2AIiCVgEQCAAKAKAAyEDDAULIAAoAoADIQRBACEDIABBADYCgAMgBCALIAl9IgogBK0iDCAKIAxUGyIKpyIFayECIApQRQRAIAQgBUYNBCACRQ0DIAAoAvwCIgMgAyAFaiAC/AoAAAwDCyAEIAVHDQIMAwtBAQshAgNAAkACQAJAAkACQAJAAkACQAJAAkACQCACRQRAIAFBqAFqIAAQYyABKAKsASEDIAEtAKgBIgINAiABLQCpAUEBcUUNAiAAKQPwAiIJIAApA9gCIgtWDQEMBgsgAUGoAWogABC5AiABLQCoAUEBRgRAIAEoAqwBIQIMEQsgAS0AqQENCUEAIQIMEAsgACgCgAMhAyAAQQA2AoADIAMgCSALfSIKIAOtIgwgCiAMVBsiCqciAmshBCAKUA0BIAIgA0YNAyAERQ0CIAAoAvwCIgMgAiADaiAE/AoAAAwCCyADQQAgAhshAgwOCyACIANGDQELIAAgBDYCgAMLIAAgCiALfCILNwPYAiAJIAtWDQELAkAgACgCiAFBAkYNACAAKALkASIDRQ0AIAAoAugBIgJBBGsoAgAiBEF4cSIFIANBKGwiA0EEQQggBEEDcSIEG2pJDQIgBEEAIAUgA0EnaksbDQMgAhCiAgsgAEECNgKIASAAIAAoAoQDQQFqIgM2AoQDIAMgACgCiANJDQQMCQtBACECDAkLQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0EAIQIMAQtBASECDAALAAsgACACNgKAAyACIQMLIAAgCSAKfCIJNwPYAiAJIAtaDQBBACECDAILQQAhAiAAQQA2AoADIABBAToAnAMgACAJIAOtfDcD2AIMAQsgAEEBOgCcAyAANQKAAyEJQQAhAiAAQQA2AoADIAAgCSAAKQPYAnw3A9gCCyABQeACaiQAIAILlhoBC38jAEGAAWsiBSQAIAAoAgwhBgJAAkACQAJAAkAgACgCFCIBIAAoAhAiAkkEQCAAQQxqIQsDQAJAIAEgBmotAABBCWsOMgAAAwMAAwMDAwMDAwMDAwMDAwMDAwMDAAMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMEAwsgACABQQFqIgE2AhQgASACRw0ACyACIQELIAVBCGogBiACIAFBAWoiACACIAAgAkkbEPkBIAUoAgwhACAFKAIIIQJBFBBxIgFFDQQgAUEDNgIADAILIAUgBiACIAFBAWoiACACIAAgAkkbEPkBIAUoAgQhACAFKAIAIQJBFBBxIgFFDQMgAUEGNgIADAELIABBADYCCCAAIAFBAWoiATYCFAJAIAEgAk8NAANAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkAgASAGai0AACIEQQlrDiUBAQgIAQgICAgICAgICAgICAgICAgICAEIBwgICAgICAgICAgFAAsgBEHbAGsOIQUHBwcHBwcHBwcHAwcHBwcHBwcBBwcHBwcCBwcHBwcHBQcLIAAgAUEBaiIBNgIUIAEgAkcNCyACIQEMDAsgACABQQFqIgQ2AhQCQCACIARNDQAgACABQQJqIgM2AhQCQCAEIAZqLQAAQfUARw0AIAMgBCACIAIgBEkbIgRGDQEgACABQQNqIgc2AhQgAyAGai0AAEHsAEcEQCAHIQMMAQsgBCAHRg0BIAAgAUEEaiIDNgIUIAYgB2otAABB7ABGDQoLIAVB2ABqIAYgAiADEPkBIAUoAlwhACAFKAJYIQJBFBBxIgFFDQ8gAUEJNgIADA0LIAVB0ABqIAYgAiAEEPkBIAUoAlQhACAFKAJQIQJBFBBxIgFFDQ4gAUEFNgIADAwLIAAgAUEBaiIENgIUAkAgAiAETQ0AIAAgAUECaiIDNgIUAkAgBCAGai0AAEHyAEcNACADIAQgAiACIARJGyIERg0BIAAgAUEDaiIHNgIUIAMgBmotAABB9QBHBEAgByEDDAELIAQgB0YNASAAIAFBBGoiAzYCFCAGIAdqLQAAQeUARg0JCyAFQegAaiAGIAIgAxD5ASAFKAJsIQAgBSgCaCECQRQQcSIBRQ0OIAFBCTYCAAwMCyAFQeAAaiAGIAIgBBD5ASAFKAJkIQAgBSgCYCECQRQQcSIBRQ0NIAFBBTYCAAwLCyAAIAFBAWoiBDYCFAJAIAIgBE0NACAAIAFBAmoiAzYCFAJAIAQgBmotAABB4QBHDQAgAyAEIAIgAiAESRsiBEYNASAAIAFBA2oiBzYCFCADIAZqLQAAQewARwRAIAchAwwBCyAEIAdGDQEgACABQQRqIgg2AhQgBiAHai0AAEHzAEcEQCAIIQMMAQsgBCAIRg0BIAAgAUEFaiIDNgIUIAYgCGotAABB5QBGDQgLIAVB+ABqIAYgAiADEPkBIAUoAnwhACAFKAJ4IQJBFBBxIgFFDQ0gAUEJNgIADAsLIAVB8ABqIAYgAiAEEPkBIAUoAnQhACAFKAJwIQJBFBBxIgFFDQwgAUEFNgIADAoLIAAgAUEBajYCFAwDCyAAKAIAIAAoAggiA2sgCkkEQCAAIAMgCkEBQQEQpAUgACgCCCEDCyAKBEAgACgCBCADaiAJOgAAIANBAWohAwsgACADNgIIIAAgACgCFEEBajYCFEEADAULIAAgAUEBajYCFCALEP0DIgENCAwDCyAEQTBrQf8BcUEKTw0BCwJ/IwBBIGsiByQAIAAoAgwhCAJAAkACQAJAAkAgACgCFCIDIAAoAhAiBEkEQCAAIANBAWoiAjYCFCADIAhqLQAAIgFBMEYEQCACIARPDQQgAiAIai0AAEEwa0H/AXFBCkkNAwwECyABQTFrQf8BcUEITQ0BIAIhAwsgB0EYaiAIIAQgAxD5ASAHKAIcIQIgBygCGCEBQRQQcSIDRQ0EIAMgATYCDCADQQ02AgAgAyACNgIQDAMLIAIgBE8NAQNAIAIgCGotAABBMGtB/wFxQQlLDQIgACACQQFqIgI2AhQgAiAERw0AC0EAIQMMAgsgB0EIaiAIIAQgA0ECaiICIAQgAiAESRsQ+QEgBygCDCECIAcoAgghAUEUEHEiA0UNAiADIAE2AgwgA0ENNgIAIAMgAjYCEAwBC0EAIQMgAiAETw0AAkACQCACIAhqLQAAIgFB5QBGIAFBxQBGckUEQCABQS5HDQMgACACQQFqIgE2AhQgASAETw0BIAEgCGotAABBMGtB/wFxQQlLDQEgAkECaiECA0AgBCACIgFGDQMgAkEBaiECIAEgCGotAAAiBkEwa0H/AXFBCkkNAAsgACABNgIUIAZBIHJB5QBHDQMLAn8jAEEQayIDJAAgACAAKAIUIgFBAWoiAjYCFCAAKAIMIQQCQCACIAAoAhAiCE8NAAJAIAIgBGotAABBK2sOAwABAAELIAAgAUECaiICNgIUCwJAAkACQCADQQhqIAQgCCACIAhJBH8gACACQQFqIgE2AhQgAiAEai0AAEEwa0H/AXFBCU0NASABBSACCxD5ASADKAIMIQEgAygCCCEEQRQQcSICRQ0CIAIgBDYCDCACQQ02AgAgAiABNgIQDAELQQAhAiABIAhPDQADQCABIARqLQAAQTBrQf8BcUEJSw0BIAAgAUEBaiIBNgIUIAEgCEcNAAsLIANBEGokACACDAELAAshAwwCCyAHQRBqIAggBCACQQJqIgIgBCACIARJGxD5ASAHKAIUIQIgBygCECEBQRQQcSIDRQ0CIAMgATYCDCADQQ02AgAgAyACNgIQDAELIAAgBDYCFAsgB0EgaiQAIAMMAQsACyIBRQ0BDAYLIAVByABqIAYgAiABQQFqIgAgAiAAIAJJGxD5ASAFKAJMIQAgBSgCSCECQRQQcSIBRQ0GIAFBCjYCAAwECyAKBEAgACgACCEDIAkhBEEBDAELIAAoAggiAkUEQEEAIQEMBQsgACACQQFrIgM2AgggACgCBCADai0AACEEQQELIQogACgCDCEGAkACfwJAAkACQAJAIAAoAhQiASAAKAIQIgJPBEAgBCEJDAELIAAoAgQhByAEIQkDQAJAAkACQAJAAkACQCABIAZqLQAAIgRBCWsOJAEBCAgBCAgICAgICAgICAgICAgICAgIAQgICAgICAgICAgIAgALIARB3QBGDQIgBEH9AEYNAwwHCyAAIAFBAWoiATYCFCABIAJHDQQgAiEBDAULIApFDQYgACABQQFqIgE2AhQMBgsgCUH/AXFB2wBHDQQMAQsgCUH/AXFB+wBHDQMLIAAgAUEBaiIBNgIUIANFBEBBACEBDAsLIAAgA0EBayIDNgIIIAMgB2otAAAhCUEBIQogASACSQ0ACwtBAiEEAkAgCUH/AXEiAEHbAEcEQCAAQfsARw0BQQMhBAsgBUFAayAGIAIgAUEBaiIAIAIgACACSRsQ+QEgBSgCRCEAIAUoAkAhAkEUEHEiAUUNCiABIAQ2AgAMCAtBpPjGAEEoQbjnwAAQ6wcACyAKRQ0AQQcgCUH/AXEiAEHbAEYNAhogAEH7AEYNAUGk+MYAQShByOfAABDrBwALIAlB/wFxQfsARw0CIAEgAkkEQANAAkACQCABIAZqLQAAQQlrIgNBGUsNAEEBIAN0QZOAgARxDQEgA0EZRw0AIAAgAUEBajYCFCALEP0DIgENCiAAKAIMIQYCQAJAIAAoAhQiASAAKAIQIgJJBEADQAJAIAEgBmotAABBCWsOMgAAAwMAAwMDAwMDAwMDAwMDAwMDAwMDAAMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMEAwsgACABQQFqIgE2AhQgASACRw0ACyACIQELIAVBMGogBiACIAFBAWoiACACIAAgAkkbEPkBIAUoAjQhACAFKAIwIQJBFBBxIgFFDQ0gAUEDNgIADAsLIAVBKGogBiACIAFBAWoiACACIAAgAkkbEPkBIAUoAiwhACAFKAIoIQJBFBBxIgFFDQwgAUEGNgIADAoLIAAgAUEBaiIBNgIUDAYLIAVBGGogBiACIAFBAWoiACACIAAgAkkbEPkBIAUoAhwhACAFKAIYIQJBFBBxIgFFDQogAUERNgIADAgLIAAgAUEBaiIBNgIUIAEgAkcNAAsgAiEBCyAFQSBqIAYgAiABQQFqIgAgAiAAIAJJGxD5ASAFKAIkIQAgBSgCICECQRQQcSIBRQ0HIAFBAzYCAAwFC0EICyEDIAVBEGogBiACIAFBAWoiACACIAAgAkkbEPkBIAUoAhQhACAFKAIQIQJBFBBxIgFFDQUgASADNgIADAMLQQEhCiABIAJJDQALCyAFQThqIAYgAiABQQFqIgAgAiAAIAJJGxD5ASAFKAI8IQAgBSgCOCECQRQQcSIBRQ0CIAFBBTYCAAsgASACNgIMIAEgADYCEAsgBUGAAWokACABDwsAC+UQAgp/B30gA0EITwRAIAAgACADQQN2IgNBBHQiBWogACADQRxsIghqIAMgBBChASEAIAEgASAFaiABIAhqIAMgBBChASEBIAIgAiAFaiACIAhqIAMgBBChASECC0MAAIA/IRACfwJAIAAoAgAiBSAEKAIAQQRqKAIAIgMoAggiCEkEQCABKAIAIQYgAygCBCILIAVBGGxqIgQtABMiBSAELQASIgcgBC0AESIKIAcgCksbIgcgBSAHSxsiBwR9QwAAQMEgAyoCRCADLQBYQQJGIgUbIg9DAAAQQSADKgJIIAUbIA+TQwAAfkOVIAdBAWtB/wFxs5SSEIkEIg8gD5IFQwAAAAALIRIgBEEMai8BACIEQf//AXEiDUUEQCAEQRB0DAMLIARB/wdxIQUgBEGAgAJxIQogBEGA+AFxIglBgPgBRgRAIApBEHQiCkGAgID8B3IgBUUNAxogCiAFQQ10ckGAgID+B3IMAwsgCkEQdCEKIAlFDQEgCUENdEGAgID8AHEgBUENdHJBgICAwANqIApyDAILIAUgCEHcu8cAEIwHAAsgBSAFZ0EQayIFQf//A3FBCGp0Qf///wNxIApBgICA2ANyIAVBF3Rrcgu+Ig9DAACAP14EQCAPEMYFQ1T4LUCUQwAAgD+SkSEQC0MAAIA/IQ8CfwJAIAYgCEkEQCALIAZBGGxqIgUtABMiBiAFLQASIgogBS0AESIJIAkgCkkbIgogBiAKSxsiCgR9QwAAQMEgAyoCRCADLQBYQQJGIgYbIhFDAAAQQSADKgJIIAYbIBGTQwAAfkOVIApBAWtB/wFxs5SSEIkEIhEgEZIFQwAAAAALIRMgBUEMai8BACIFQf//AXEiDkUEQCAFQRB0DAMLIAVB/wdxIQYgBUGAgAJxIQkgBUGA+AFxIgxBgPgBRgRAIAlBEHQiCUGAgID8B3IgBkUNAxogCSAGQQ10ckGAgID+B3IMAwsgCUEQdCEJIAxFDQEgDEENdEGAgID8AHEgBkENdHJBgICAwANqIAlyDAILIAYgCEHcu8cAEIwHAAsgBiAGZ0EQayIGQf//A3FBCGp0Qf///wNxIAlBgICA2ANyIAZBF3Rrcgu+IhFDAACAP14EQCAREMYFQ1T4LUCUQwAAgD+SkSEPCyACKAIAIQkgBwR9QwAAQMEgAyoCRCADLQBYQQJGIgYbIhFDAAAQQSADKgJIIAYbIBGTQwAAfkOVIAdBAWtB/wFxs5SSEIkEIhEgEZIFQwAAAAALIRRDAACAPyERAn8gBEEQdCANRQ0AGiAEQf8HcSEGIARBgIACcSEHIARBgPgBcSIEQYD4AUYEQCAHQRB0IgRBgICA/AdyIAZFDQEaIAQgBkENdHJBgICA/gdyDAELIAdBEHQiByAEQQ10QYCAgPwAcSAGQQ10ckGAgIDAA2pyIAQNABogBiAGZ0EQayIEQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIARBF3Rrcgu+IhVDAACAP14EQCAVEMYFQ1T4LUCUQwAAgD+SkSERCwJ/AkAgCCAJSwRAIBIgEJQiECATIA+UYCALIAlBGGxqIgQtABMiBiAELQASIgcgBC0AESIJIAcgCUsbIgcgBiAHSxsiBgR9QwAAQMEgAyoCRCADLQBYQQJGIgcbIg9DAAAQQSADKgJIIAcbIA+TQwAAfkOVIAZBAWtB/wFxs5SSEIkEIg8gD5IFQwAAAAALIRJFIQsgECAQWyEMIARBDGovAQAiBEH//wFxIg1FBEAgBEEQdAwDCyAEQf8HcSEIIARBgIACcSEHIARBgPgBcSIJQYD4AUYEQCAHQRB0IgdBgICA/AdyIAhFDQMaIAcgCEENdHJBgICA/gdyDAMLIAdBEHQhByAJRQ0BIAlBDXRBgICA/ABxIAhBDXRyQYCAgMADaiAHcgwCCyAJIAhB3LvHABCMBwALIAggCGdBEGsiCEH//wNxQQhqdEH///8DcSAHQYCAgNgDciAIQRd0a3ILQwAAgD8hD74iEEMAAIA/XgRAIBAQxgVDVPgtQJRDAACAP5KRIQ8LIAsgDHEiCCAUIBGUIhAgEFsgECASIA+UYEVxRgR/IAIgASAIIAoEfUMAAEDBIAMqAkQgAy0AWEECRiIAGyIPQwAAEEEgAyoCSCAAGyAPk0MAAH5DlSAKQQFrQf8BcbOUkhCJBCIPIA+SBUMAAAAACwJ/IAVBEHQgDkUNABogBUH/B3EhACAFQYCAAnEhASAFQYD4AXEiAkGA+AFGBEAgAUEQdCIBQYCAgPwHciAARQ0BGiABIABBDXRyQYCAgP4HcgwBCyABQRB0IgEgAkENdEGAgID8AHEgAEENdHJBgICAwANqciACDQAaIAAgAGdBEGsiAEH//wNxQQhqdEH///8DcSABQYCAgNgDciAAQRd0a3ILviIPQwAAgD9eBH0gDxDGBUNU+C1AlEMAAIA/kpEFQwAAgD8LlCIPIA9bIA8gBgR9QwAAQMEgAyoCRCADLQBYQQJGIgAbIhBDAAAQQSADKgJIIAAbIBCTQwAAfkOVIAZBAWtB/wFxs5SSEIkEIhAgEJIFQwAAAAALAn8gBEEQdCANRQ0AGiAEQf8HcSEAIARBgIACcSEBIARBgPgBcSICQYD4AUYEQCABQRB0IgFBgICA/AdyIABFDQEaIAEgAEENdHJBgICA/gdyDAELIAFBEHQiASACQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2pyIAINABogACAAZ0EQayIAQf//A3FBCGp0Qf///wNxIAFBgICA2ANyIABBF3Rrcgu+IhBDAACAP14EfSAQEMYFQ1T4LUCUQwAAgD+SkQVDAACAPwuUYEVxcxsFIAALC+oRAw1/AXsJfQJAAkACQAJAAkAgACgCCCIJRQRAQQEhBkEBIQoMAQsgACgCBCEFIAkQcSIKRQ0CQwAAEEEgACoCSCAALQBYQQJGIgQbQwAAQMEgACoCRCAEGyITk0MAAH5DlSEUIAVBFGohBgNAQQAhBAJAAn8gBkEIay8BACIBQf//AXFFBEAgAUEQdAwBCyABQf8HcSECIAFBgIACcSEHIAFBgPgBcSIBQYD4AUYEQCAHQRB0IgFBgICA/AdyIAJFDQEaIAEgAkENdHJBgICA/gdyDAELIAdBEHQiByABQQ10QYCAgPwAcSACQQ10ckGAgIDAA2pyIAENABogAiACZ0EQayICQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIAJBF3Rrcgu+QwAAAABeRQ0AIAZBAWstAAAiAiAGQQJrLQAAIgEgBkEDay0AACIHIAEgB0sbIgEgASACSRsiAkUNACATIBQgAkEBa0H/AXGzlJIQiQRDAAAAAF5FDQBDAACAPyAGLwEAIgJBCHaz/RMgAiAGQQJqLQAAIgFBEHRyQf8BcbP9IAH9DAAAf0MAAH9DAAB/QwAAf0P95wEiDiAO/eQB/QwAAIC/AACAvwAAgL8AAIC//eQBIg79HwEiD4uTIA79HwAiFYuTIhGMQwAAAAAQ4AghECABs0MAAH9DlUMAAAA/lEPbD0lAlCIWEJkCIhIgDyAQIBCMIhcgDv0MAAAAAAAAAAAAAAAAAAAAAP1G/U0iDv3HAf0bAkEBcRuSIg8gESARlCAPIA+UIBUgECAXIA79GwBBAXEbkiIQIBCUkpKRIg+VlP0TIBIgECAPlZT9IAEgEiARIA+VlP0gAiAWEJsC/SADIg79DP///3////9/////f////3/9Tv0MAACAfwAAgH8AAIB/AACAf/05/aQBQQ9HDQAgDiAO/eYBIg4gDiAO/Q0ICQoLDA0ODwABAgMAAQID/eQBIg4gDiAO/Q0EBQYHAAECAwABAgMAAQID/eQB/eMB/R8AQwAAAABeIQQLIAMgCmogBDoAACAGQRhqIQYgCSADQQFqIgNHDQALIAVBGGohAyAJIApqIQZBACEBIAohBAJAAkADQCAEIAZGDQQgAUEBaiECIAQtAABBAUcNASAEQQFqIQQgA0EYaiEDIAIiASAJRw0AC0EAIQEMAQsgAiAJRgRAQQEhAQwBCyABIAlrIQVBASECQQEhAQNAAkACQCACIAVqBEAgAiAEai0AAA0BIAFBAWohAQwCC0GUocEAEN0JAAsgAyABQWhsaiIHIAP9AAIA/QsCACAHQRBqIANBEGopAgA3AgALIANBGGohAyAFIAJBAWoiAmoNAAsLIAAgCSABazYCCAsgACgCFCIHBEBBACECIAAoAhAiASEDIAohBAJAA0ACQCAEIAZHBEAgBC0AAA0BAkAgASACQRhsaiIBKAIUIgVBBU8EQCABKAIIIgFBBGsoAgAiCEF4cSILIAVBAnQiBUEEQQggCEEDcSIIG2pJDQEgCEEAIAsgBUEnaksbDQogARCiAgtBASEFIAJBAWogB0YNBCACIAdrIQhBASEBA0AgAyECAkACQCAGIAEgBGoiC0cEQCACQRhqIQMgCy0AAA0BIAVBAWohBSACQSxqKAIAIgtBBUkNAiACQSBqKAIAIgJBBGsoAgAiDEF4cSINIAtBAnQiC0EEQQggDEEDcSIMG2pJDQwgDEEAIA0gC0EnaksbDQ0gAhCiAgwCC0GkocEAEN0JAAsgAiAFQWhsaiICQShqIANBEGopAgA3AgAgAkEYaiAD/QACAP0LAgALIAggAUEBaiIBag0ACwwECwwHC0GkocEAEN0JAAsgBEEBaiEEIANBGGohAyACQQFqIgIgB0cNAAtBACEFCyAAIAcgBWs2AhQLAkAgACgCICIFBEBBACECQQkhASAKIQQCQAJAA0AgBCAGRg0EIAJBAWohAyAELQAAQQFHDQEgBEEBaiEEIAFBCWohASADIgIgBUcNAAtBACEBDAELIAMgBUYEQEEBIQEMAQsgAiAFayEHIAAoAhwgAWohA0EBIQJBASEBA0ACQAJAIAYgAiAEaiIIRwRAIAgtAAANASABQQFqIQEMAgtB1KHBABDdCQALIAMgAUF3bGoiCCADKQAANwAAIAhBCGogA0EIai0AADoAAAsgA0EJaiEDIAcgAkEBaiICag0ACwsgACAFIAFrNgIgCwJAIAAoAiwiBQRAQQAhAkEPIQEgCiEEAkACQANAIAQgBkYNBCACQQFqIQMgBC0AAEEBRw0BIARBAWohBCABQQ9qIQEgAyICIAVHDQALQQAhAQwBCyADIAVGBEBBASEBDAELIAIgBWshByAAKAIoIAFqIQNBASECQQEhAQNAAkACQCAGIAIgBGoiCEcEQCAILQAADQEgAUEBaiEBDAILQbShwQAQ3QkACyADIAFBcWxqIgggAykAADcAACAIQQdqIANBB2opAAA3AAALIANBD2ohAyAHIAJBAWoiAmoNAAsLIAAgBSABazYCLAsCQCAAKAI4IgUEQEEAIQJBFSEBIAohBAJAAkADQCAEIAZGDQQgAkEBaiEDIAQtAABBAUcNASAEQQFqIQQgAUEVaiEBIAMiAiAFRw0AC0EAIQEMAQsgAyAFRgRAQQEhAQwBCyACIAVrIQcgACgCNCABaiEDQQEhAkEBIQEDQAJAAkAgBiACIARqIghHBEAgCC0AAA0BIAFBAWohAQwCC0HEocEAEN0JAAsgAyABQWtsaiIIIAP9AAAA/QsAACAIQQ1qIANBDWopAAA3AAALIANBFWohAyAHIAJBAWoiAmoNAAsLIAAgBSABazYCOAsCQCAJBEAgCkEEaygCACIAQXhxIgRBBEEIIABBA3EiABsgCWpJDQcgAEEAIAQgCUEnaksbDQEgChCiAgsPCwwGC0HEocEAEN0JAAtBtKHBABDdCQALQdShwQAQ3QkAC0GUocEAEN0JAAsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvcEAIcfwV9IwBBMGsiBiQAAkACQAJAAkACQAJAAkACQAJAAkAgAC0AuAFBAUcNACAAKAKsASAAKAKwASIBQQJ0IAAoArQBIgMgAWpBAnQQ4QghASADQQJ0IgMgACgCZCIFSw0BIAAoAmAhBSAGIAEQuAoiAjYCFCAGIAM2AgggAiADRw0HIAEgBSADEOAJIAFBhAhJDQAgARCbBwsgAEIANwKwASAAQbgBakEAOgAAIAAoAmgiAUGAgICAeEYgACgCdCIDQYCAgIB4RnENAiABQYCAgIB4RyADQYCAgIB4R3FFBEAgBkEANgIoIAZBATYCHCAGQZzgwAA2AhggBkIENwIgIAZBGGoQkgchAQwGC0GAgBAhCiAAKAJkIgNB//8PTQRAQYCAECADIgFrIgUgACgCXCABa0sEQCAAQdwAaiABIAVBBEEEEKQFIAAoAmQhAQsgACgCYCICIAFBAnRqIQUgA0H//w9HBH9B/P8/IANBAnRrIggEQCAFQQAgCPwLAAsgASADayIDQf//D2ohASACIANBAnRqQfz/P2oFIAULQQA2AgAgAUEBaiEKCyAAIAo2AmQgACgCpAEiC0ECdBC2CSEQAkAgACgCMEUNACAAKAI0IgFBhAhJDQAgARCbBwsgACAQNgI0IABBATYCMCAAKAJoIhFBgICAgHhGDQQgACgCdCISQYCAgIB4Rg0DIAtFDQFDAAAAQEMAAIA/IAAtAJwBQQFxGyEhIAAqAowBIAAqAogBIh2TQwAAfkOVIR4gACgCeCEXIAAoAmwhGCAAKAJ8IRMgACgCcCEUIAAoAqwBIRkgACgCYCEOQQAhAQNAIApBgIAEIAsgAWsiAyADQYCABE8bIghBAnQiBUkEQEEAIAUgCkHo38AAEOoHAAsgBiAZIAFBAnQiFSABIAhqIgNBAnQiGhDhCCICELgKIgQ2AhQgBiAFNgIIAkAgBCAFRgRAIA4gBSACEOEJIAJBhAhPBEAgAhCbBwsgASALRg0BIAhBBHQhFiAVIBdqIRsgGCABQQF0aiEPQQAhDEEAIQgCQANAIAwgFkYEQCAIIAhBBGogBUHY38AAEOoHAAsCfyAMIA5qIg1BBGooAgAiAkH//wFxRQRAIAJBEHQMAQsgAkH/B3EhBCACQYCAAnEhByACQYD4AXEiCUGA+AFGBEAgB0EQdCIHQYCAgPwHciAERQ0BGiAHIARBDXRyQYCAgP4HcgwBCyAHQRB0IgcgCUENdEGAgID8AHEgBEENdHJBgICAwANqciAJDQAaIAdBgICA2ANyIARnQRBrIgdBF3RrIAQgB0H//wNxQQhqdEH///8DcXILIRwCfyACQYCAfHEgAkEQdiICQf//AXFFDQAaIAJB/wdxIQQgAkGAgAJxIQcgAkGA+AFxIglBgPgBRgRAIAdBEHQiB0GAgID8B3IgBEUNARogByACQQ10ckGAgID+B3IMAQsgB0EQdCICIAlBDXRBgICA/ABxIARBDXRyQYCAgMADanIgCQ0AGiACQYCAgNgDciAEZ0EQayICQRd0ayAEIAJB//8DcUEIanRB////A3FyCyEJIAYCfyANQQhqKAIAIgRB//8BcUUEQCAEQRB0DAELIARB/wdxIQIgBEGAgAJxIQcgBEGA+AFxIgRBgPgBRgRAIAdBEHQiBEGAgID8B3IgAkUNARogBCACQQ10ckGAgID+B3IMAQsgB0EQdCIHIARBDXRBgICA/ABxIAJBDXRyQYCAgMADanIgBA0AGiAHQYCAgNgDciACZ0EQayIEQRd0ayACIARB//8DcUEIanRB////A3FyCzYCECAGIAk2AgwgBiAcNgIIIA0tAAMhByANQQxqKAIAIgJBCHYhBEMAAAAAIR8gAkH/AXEEQCAdIB4gAkEBa0H/AXGzlJIQiQQhHwtDAAAAACEgIARB/wFxBEAgHSAeIARBAWtB/wFxs5SSEIkEISALIAYgAkEQdiICQf8BcQR9IB0gHiACQQFrQf8BcbOUkhCJBAVDAAAAAAs4AiAgBiAgOAIcIAYgHzgCGCABIBRJBEAgASATTw0CIA0gBkEIaiAhIAezQwAAf0OVlEMAAAAAkiAGQRhqIA8vAQAgCCAbaigCABCRAiAIQQRqIQggD0ECaiEPIAFBAWohASAWIAxBEGoiDEcNAQwECwsgASAUQbjfwAAQjAcACyABIBNByN/AABCMBwALDAgLIAYgECAVIBoQ4QgiARC4CiICNgIUIAYgBTYCCCACIAVGBEAgASAOIAUQ4AkgAUGECE8EQCABEJsHCyADIgEgC0kNAQwDCwsMBgtBACADIAVB/OvAABDqBwALIBJBgICAgHhyQYCAgIB4RwRAIAAoAngiAUEEaygCACIDQXhxIgUgEkECdCICQQRBCCADQQNxIgMbakkNBiADQQAgBSACQSdqSxsNByABEKICCyAAQYCAgIB4NgJ0IBFBgICAgHhyQYCAgIB4RwRAIAAoAmwiAUEEaygCACIDQXhxIgUgEUEBdCICQQRBCCADQQNxIgMbakkNBiADQQAgBSACQSdqSxsNByABEKICCyAAQYCAgIB4NgJoC0EAIQEgAEEANgJkIAAoAmAhAyAAKAJcIQUgAEKAgICAwAA3AlwgBUUNAiADQQRrKAIAIgBBeHEiAiAFQQJ0IgVBBEEIIABBA3EiABtqSQ0EIABBACACIAVBJ2pLGw0FIAMQogIMAgtBqN/AABDdCQALQZjfwAAQ3QkACyAGQTBqJAAgAQ8LIAZBADYCGEEAIAZBFGogBkEIaiAGQRhqQeD5xAAQ9QcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvuDwEOfyMAQYABayICJAACQAJAAkACQAJAAkACQAJAAkACQAJAIAEoAihBAkcEQCABKALUASIDIAEoAtgBQRxsaiEFAkACQANAIAMiBCAFRiIDDQFB1c3HAEEVIAQoAhQgBCgCGBCsA0UEQCAEQQBBHCADG2ohA0HqzccAQRUgBCgCFCAEKAIYEKwDRQ0BCwsgBCgCGCINQQBIDQMgBCgCFCEDAkAgDUUEQEEBIQEMAQsgDRBxIgFFDQoLIA0EQCABIAMgDfwKAAALIAQoAgBBAUYEQCAEKAIMIgdBAEgNDCAEKAIIIQMCQCAHRQRAQQEhBAwBCyAHEHEiBEUNCwsgBwRAIAQgAyAH/AoAAAsgByEDDAcLIAQoAgwiCUEASA0EIAQoAgghAwJAIAlFBEBBASEKDAELIAkQcSIKRQ0KCyAJBEAgCiADIAn8CgAACyACQThqIAogCUGAgIABEN8BQQEhBCACKAI8IQggAgJ/AkAgAigCOEEBRgRAIAhBgICAgHhHDQFBAwwCCyACKAJEIQsgAigCQCEGIAJBADYCQCACQoCAgIAQNwI4QQAhAyALBEAgAkE4akEAIAsQ7wUgAigCQCEDIAYhBQNAQQFBAiAFLAAAIgdBAE4iDhsiDCACKAI4IAMiBGtLBH8gAkE4aiAEIAwQ7wUgAigCQAUgBAsgAigCPCIEaiIPIA4EfyAHBSAPIAdBvwFxOgABIAdBwAFxQQZ2QUByCzoAACACIAMgDGoiAzYCQCAFQQFqIQUgC0EBayILDQALIAIoAjghBwsgCQRAIApBBGsoAgAiBUF4cSIOQQRBCCAFQQNxIgUbIAlqSQ0PIAVBACAOIAlBJ2pLGw0QIAoQogILIAgEQCAGQQRrKAIAIgVBeHEiCkEEQQggBUEDcSIFGyAIakkNDyAFQQAgCiAIQSdqSxsNECAGEKICCyADQQBODQgMDQsgCARAIAIoAkAiBUEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgCGpJDQ4gA0EAIAQgCEEnaksbDQ8gBRCiAgtBBAs6ACkgAkEeOgAoIAJBOGogAkEoahD8AyACQRBqIgUgAkHMAGr9AAIA/QsDACACQSBqIgQgAkHcAGooAgA2AgAgAiAC/QACPP0LAwAgAigCOCIDQQZGDQEgACAC/QADAP0LAgQgAEEkaiAEKAIANgIAIABBFGogBf0AAwD9CwIAIAAgAzYCAAwICyABKALIASIDIAEoAswBQRhsaiEFAkADQCADIgQgBUYiAQ0BQdXNxwBBFSAEKAIEIAQoAggQrANFBEAgBEEAQRggARtqIQNB6s3HAEEVIAQoAgQgBCgCCBCsA0UNAQsLIAQoAggiBkEASA0LIAQoAgQhAwJAIAZFBEBBASEBDAELIAYQcSIBRQ0KCyAGBEAgASADIAb8CgAACyAEKAIUIgVBAEgNCyAEKAIQIQQCQCAFRQRAQQEhAwwBCyAFEHEiA0UNCgsgBQRAIAMgBCAF/AoAAAsgACAFNgIMIAAgAzYCCCAAIAU2AgQgAEEGNgIAIAZFDQogAUEEaygCACIAQXhxIgNBBEEIIABBA3EiABsgBmpJDQwgAEEAIAMgBkEnaksbDQ0gARCiAgwKCyAAQoaAgICAgICAgH83AwAMCQsgAiAKIAlBfxDfASACKAIEIQwCQAJAIAIoAgBBAUYEQCAMQYCAgIB4Rg0BIAJBADYCSCACQQE2AjwgAkGoscQANgI4IAJCBDcCQCACQThqQbCxxAAQjQgACyAMQYCAgIB4Rw0BCyACQZ4GOwFkIAAgAkHkAGoQ/AMMBwsgAigCDCELIAIoAgghByACQQA2AnwgAkKAgICAEDcCdEEBIQhBACEDIAsEQCACQfQAakEAIAsQ7wUgAigCfCEGIAchBQNAQQFBAiAFLAAAIgNBAE4iDhsiDyACKAJ0IAYiBGtLBH8gAkH0AGogBCAPEO8FIAIoAnwFIAQLIAIoAngiCGoiBCAOBH8gAwUgBCADQb8BcToAASADQcABcUEGdkFAcgs6AAAgAiAGIA9qIgY2AnwgBUEBaiEFIAtBAWsiCw0ACyACKAJ0IQMLIAwEQCAHQQRrKAIAIgRBeHEiBUEEQQggBEEDcSIEGyAMakkNCyAEQQAgBSAMQSdqSxsNDCAHEKICCyAGQQBIDQMMBQtBrJjHABDdCQALQaTvwQAQ/wcMBQtB2JrIABD/BwALQdiayAAQ/wcACwJAIANFBEBBASEIDAELIAMQcSIIRQ0DCyADBEAgCCAEIAP8CgAACyADIQYgBCEKIAchCQsCQCAGRQRAQQEhBwwBCyAGEHEiB0UNAgsgBgRAIAcgCCAG/AoAAAsgAwRAIAhBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIANqSQ0FIARBACAFIANBJ2pLGw0GIAgQogILIAAgBjYCDCAAIAc2AgggACAGNgIEIABBBjYCAAsgDQRAIAFBBGsoAgAiAEF4cSIDQQRBCCAAQQNxIgAbIA1qSQ0EIABBACADIA1BJ2pLGw0FIAEQogILIAlFDQEgCkEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgCWpJDQMgAEEAIAEgCUEnaksbDQQgChCiAgwBCwALIAJBgAFqJAAPC0Gk78EAEP8HAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL7Q8CIX8VfSMAQfAAayIGJAACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAC0AuAFBAUcNACAAKAKsASAAKAKwASIFQQJ0IAAoArQBIgcgBWpBAnQQ4QghBSAHQQJ0IgcgACgCZCIISw0BIAAoAmAhCCAGIAUQuAoiCTYCFCAGIAc2AhggByAJRw0LIAUgCCAHEOAJIAVBhAhJDQAgBRCbBwsgAEIANwKwASAAQbgBakEAOgAAIAAoAhBFDQggACgCFCABQQJ0IAEgAmpBAnQQ4QghDQJAIAJBAnQiASAAKAJkIgVNBEAgACABNgJkIAAoAmAhCiABIQcMAQsgBSEIIAEgBWsiByAAKAJcIAVrSwRAIABB3ABqIAUgB0EEQQQQpAUgACgCZCEICyAAKAJgIgogCEECdCIJaiELIAdBAk8EQCABIAVBf3NqQQJ0IgwEQCALQQAgDPwLAAsgAkEEdCAFQQJ0ayAKaiAJakEEayELIAcgCGpBAWshCAsgC0EANgIAIAAgCEEBaiIHNgJkIAEgB0sNAgsgBiANELgKIgU2AhQgBiABNgIYIAEgBUcNCiAKIAEgDRDhCSAEQRVuIRAgBEEUa0EVbkEBaiERIARBE2tBFW5BAWohEiAEQRJrQRVuQQFqIRMgBEERa0EVbkEBaiEUIARBEGtBFW5BAWohFSAEQQ9rQRVuQQFqIRYgBEEOa0EVbkEBaiEXIARBDWtBFW5BAWohGCAEQQxrQRVuQQFqIRkgBEELa0EVbkEBaiEaIARBCmtBFW5BAWohGyAEQQlrQRVuQQFqIRwgBEEIa0EVbkEBaiEdIARBB2tBFW5BAWohHiAEQQZrQRVuQQFqIR8gBEEFa0EVbkEBaiEgIARBBGtBFW5BAWohISAEQQNrQRVuQQFqISIgBEECa0EVbkEBaiEjIARBAWtBFW5BAWohJEMAAPhBIAAqApgBlSEmQQAhBQNAIAVBAnQiACAHTw0DIABBAXIiASAHTw0EIABBAnIiCCAHTw0FIABBA3IiCSAHTw0HIAogAEECdGooAgAhACAGIAogAUECdGooAgA2AgggBiAANgIEIAYgCiAJQQJ0aigCADYCECAGIAogCEECdGooAgA2AgxBACEMIAZBHGoiDkEAQdQA/AsAIAVBFWwhASAFQQFqQQYhAEEAIQsDQCAGQQRqIABBBmsiD0EDdkH8////AXFqIiUoAgAgD0EecXYhCCAOIA9B4AFxQSBqIABJBH8gC0EPSw0IICUoAgQgDEEecXQgCHIFIAgLQRp0QRp1siAmlTgCACAAQQZqIQAgDEEGayEMIA5BBGohDiALQQFqIgtBFUcNAAsgBSAkRg0KIAYqAmwhJyAGKgJoISggBioCZCEpIAYqAmAhKiAGKgJcISsgBioCWCEsIAYqAlQhLSAGKgJQIS4gBioCTCEvIAYqAkghMCAGKgJEITEgBioCQCEyIAYqAjwhMyAGKgI4ITQgBioCNCE1IAYqAjAhNiAGKgIsITcgBioCKCE4IAYqAiQhOSAGKgIgITogAyABQQJ0aiAGKgIcOAIAIAFBAWohACAFICNGBEAgACEBDAsLIAMgAEECdGogOjgCACABQQJqIQAgBSAiRgRAIAAhAQwLCyADIABBAnRqIDk4AgAgAUEDaiEAIAUgIUYEQCAAIQEMCwsgAyAAQQJ0aiA4OAIAIAFBBGohACAFICBGBEAgACEBDAsLIAMgAEECdGogNzgCACABQQVqIQAgBSAfRgRAIAAhAQwLCyADIABBAnRqIDY4AgAgAUEGaiEAIAUgHkYEQCAAIQEMCwsgAyAAQQJ0aiA1OAIAIAFBB2ohACAFIB1GBEAgACEBDAsLIAMgAEECdGogNDgCACABQQhqIQAgBSAcRgRAIAAhAQwLCyADIABBAnRqIDM4AgAgAUEJaiEAIAUgG0YEQCAAIQEMCwsgAyAAQQJ0aiAyOAIAIAFBCmohACAFIBpGBEAgACEBDAsLIAMgAEECdGogMTgCACABQQtqIQAgBSAZRgRAIAAhAQwLCyADIABBAnRqIDA4AgAgAUEMaiEAIAUgGEYEQCAAIQEMCwsgAyAAQQJ0aiAvOAIAIAFBDWohACAFIBdGBEAgACEBDAsLIAMgAEECdGogLjgCACABQQ5qIQAgBSAWRgRAIAAhAQwLCyADIABBAnRqIC04AgAgAUEPaiEAIAUgFUYEQCAAIQEMCwsgAyAAQQJ0aiAsOAIAIAFBEGohACAFIBRGBEAgACEBDAsLIAMgAEECdGogKzgCACABQRFqIQAgBSATRgRAIAAhAQwLCyADIABBAnRqICo4AgAgAUESaiEAIAUgEkYEQCAAIQEMCwsgAyAAQQJ0aiApOAIAIAFBE2ohACAFIBFGBEAgACEBDAsLIAMgAEECdGogKDgCACABQRRqIQEgBSAQRg0KIAMgAUECdGogJzgCACIFIAJHDQALDAcLQQAgByAIQfzrwAAQ6gcAC0EAIAEgB0GM1cAAEOoHAAsgACAHQbzUwAAQjAcACyABIAdBzNTAABCMBwALIAggB0Hc1MAAEIwHAAtBBEEEQfDPxwAQjAcACyAJIAdB7NTAABCMBwALIA1BhAhJDQAgDRCbBwsgBkHwAGokAA8LIAEgBEH81MAAEIwHAAsgBkEANgIcQQAgBkEUaiAGQRhqIAZBHGpB4PnEABD1BwALvxECE38EfiMAQSBrIgIkAAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkBBFSABKAIAIgZBgICAgHhzIAZBAE4bQRRrDgIBAgALIAEgAkEfakGE48AAEJUIIQEgAEECNgIAIAAgATYCBAwKCyABKAIMIgNFDQIgAkEEaiABKAIIIgcQoAQgAigCCCEGIAIoAgQiCkGAgICAeEYEQCAGIQEMCQsgAigCFCEJIAIoAhAhBSADQQFGDQEgAigCGCEMIAIoAgwhDSACQQRqIgsgB0EQahDTAiACKAIIIQEgAigCBA0HAkACQAJAIANBAkcEQCACKQIMIRUgCyAHQSBqENMCIAIoAgghCyACKAIEBEAgCyEBDAwLIANBA0YNASACKQIMIRYCQAJAAkBBFSAHQTBqIg4oAgAiD0GAgICAeHMgD0EAThtBEGsOAwYBBgALIAJBBGogDhCfBQwBCyACQQRqIAcoAjQQnwULIAIoAgwhECACKAIIIQQgAigCBEUNAiAEIQEMCwtBAkHA/cAAQYD9wAAQ2wYhAQwKC0EDQcD9wABBgP3AABDbBiEBDAkLQQEhCAsgA0EERwRAIAJBBDYCBCADQfz///8AakH/////AHFBBGogAkEEakHolcEAENsGIQEgAEECNgIAIAAgATYCBCAKBEAgBiAKQQEQogcLIAVFDQogCSAFQQEQogcMCgsgACAWNwI0IAAgCzYCMCAAIBU3AiggACABNgIkIAAgDDYCICAAIAk2AhwgACAFNgIYIAAgDTYCFCAAIAY2AhAgACAKNgIMIAAgEDYCCCAAIAQ2AgQgACAINgIADAkLIAEoAggiBkUNAyAGQQV0IRIgASgCBCETQQAhBkECIQVBgICAgHghBwNAAkACQAJAAkACQAJAAkACQEEVIA4gE2oiASgCACIDQYCAgIB4cyADQQBOG0EBaw4PAQAAAgAAAAAAAAADBAUGAAsgASACQR9qQZTkwAAQlQghAyACQQE6AAQgAiADNgIIDAYLIAJBADoABCACQQQgAUEEai0AACIDIANBBE8bOgAFDAULIAJBADoABCACQgQgAUEIaikDACIVIBVCBFobPAAFDAQLIAFBCGooAgAhAwJ/AkACQAJAAkAgAUEMaigCAEEEaw4CAQADCyADQZD9wABBBRDbBw0BQQAMAwtBASADKAAAQe3SuZsHRg0CGiADKAAAQe3C4ZsHRw0BQQIMAgsgA0Gd/cAAQQUQ2wcNAEEDDAELQQQLIQMgAkEAOgAEIAIgAzoABQwDCyABQQRqKAIAIQMCfwJAAkACQAJAIAFBCGooAgBBBGsOAgEAAwsgA0GQ/cAAQQUQ2wcNAUEADAMLQQEgAygAAEHt0rmbB0YNAhogAygAAEHtwuGbB0cNAUECDAILIANBnf3AAEEFENsHDQBBAwwBC0EECyEDIAJBADoABCACIAM6AAUMAgsgAkEEaiABQQhqKAIAIAFBDGooAgAQ2QUMAQsgAkEEaiABQQRqKAIAIAFBCGooAgAQ2QULIAItAARBAUYEQCACKAIIIQRBASEFDAYLIAFBEGohAwJAAkACQAJAAkACQAJAIAItAAUOBAABAgMGCyAHQYCAgIB4RwRAQQEhBUGQ/cAAQQUQnwchBAwMCyACQQRqIAMQoAQgAigCCCEIIAIoAgQiB0GAgICAeEYEQCAIIQQMDQsgAigCGCEQIAIoAhQhDCACKAIQIQkgAigCDCERDAULIAYNAiACQQRqIAMQ0wIgAigCCCEEIAIoAgRBAUYEQEEBIQUMCwsgAikCDCEWQQEhBgwECyAPDQIgAkEEaiADENMCIAIoAgghCyACKAIEQQFGBEBBASEFIAshBAwKCyACKQIMIRdBASEPDAMLIAVBAkcEQEEBIQVBnf3AAEEFEJ8HIQQMCQtBACEFAkACfwJAAkBBFSADKAIAIhRBgICAgHhzIBRBAE4bQRBrDgMDAQMACyACQQRqIAMQnwUgDSACKAIMIAIoAgQiARsMAQsgAkEEaiABQRRqKAIAEJ8FIA0gAigCDCACKAIEIgEbCyENIAIoAgghCkEBIQUgAUUNACAKIQQMCQsgCq0gDa1CIIaEIRgMAgtBASEFQZX9wABBBBCfByEEDAcLQQEhBUGZ/cAAQQQQnwchBAwGCyAOQSBqIg4gEkcNAAsMAgtBAUHA/cAAQYD9wAAQ2wYhAQwFC0EAQcD9wABBgP3AABDbBiEBDAULIAdBgICAgHhGDQAgAiAQNgIYIAIgDDYCFCACIAk2AhAgAiARNgIMIAIgCDYCCCACIAc2AgQgBkEAIA8bRQRAQZn9wABBlf3AACAGG0EEEJwHIQQgAkEEahDmBUEAIQUMAgsgACAXNwI0IAAgCzYCMCAAIBY3AiggACAENgIkIAAgEDYCICAAIAw2AhwgACAJNgIYIAAgETYCFCAAIAg2AhAgACAHNgIMIABCACAYIAVBAkYiARsiFT4CBCAAQQAgBSABGzYCACAAIBVCIIg+AggMBQtBgICAgHghB0EBIQVBkP3AAEEFEJwHIQQLIAVFIAdBgICAgHhGcg0AIAcEQCAIQQRrKAIAIgFBeHEiBkEEQQggAUEDcSIBGyAHakkNBSABQQAgBiAHQSdqSxsNBiAIEKICCyAJRQ0AIAxBBGsoAgAiAUF4cSIIQQRBCCABQQNxIgEbIAlqSQ0EIAFBACAIIAlBJ2pLGw0FIAwQogILIAAgBDYCBCAAQQI2AgAMAgsgCgRAIAZBBGsoAgAiBEF4cSIIQQRBCCAEQQNxIgQbIApqSQ0DIARBACAIIApBJ2pLGw0EIAYQogILIAVFDQAgCUEEaygCACIEQXhxIghBBEEIIARBA3EiBBsgBWpJDQIgBEEAIAggBUEnaksbDQMgCRCiAgsgACABNgIEIABBAjYCAAsgAkEgaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALqBECB30QfyMAQSBrIgwkACAAEKMFIABBwAFqQQA6AAAgAEIANwK4ASAAIAIQ0AQCQAJAAkACQAJAAkACQAJAAkACfwJAAkACQAJAAn8CQAJAAkACQAJ/AkACQAJAAkACQCAAKAIAQQFHDQAgACgCCEUNACACQQJ0Ig0gACgCfCIRSw0SIA0gACgCiAEiEksNEyAAKAJ4IRQgACgChAEhFiAMIAAoAgQiGSABQQJ0IhcgASACakECdCIYEOEIIgEQuAoiDjYCACAMIA02AgQgDSAORw0YIBQgDSABEOEJIAFBhAhPBEAgARCbBwsgAgRAIBRBDGohGiANQQJrIRsgAkH/////A3EhFUEAIQFBACEOA0AgASAETw0WIAFBAWoiDyAETw0XIAFBAmoiDyAETw0YIBVFDRlDAAB/QyADQQRqKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgAyoCACIJiyIGIAUgA0EIaioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIPQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByATIBpqQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgD0EbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACABQQNqIARPDQMgAUEEaiAETw0IIAFBBWogBE8NDSANIA5GDRNDAAB/QyADQRBqKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgA0EMaioCACIJiyIGIAUgA0EUaioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIQQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByATIBZqIg9DAAB/QyAGIAWVIgYgBkMAAH9DXhsQuQf8ASAQQRt0QYCAgAhBACAJQwAAAABdG3JBgICAEEEAIAhDAAAAAF0bckGAgIAgQQAgCkMAAAAAXRtyciAH/AFBCHRyQwAAf0MgCyAFlSIFIAVDAAB/Q14bELkH/AFBEHRyNgIAIAFBBmogBE8NBCABQQdqIARPDQkgAUEIaiAETw0OQwAAf0MgA0EcaioCACIIiyIFQwAAgD9DAAD4QUMAAAAAIANBGGoqAgAiCYsiBiAFIANBIGoqAgAiCosiCxDgCBDgCBCeBY5DAABwQZIiBSAFQwAAAABdGyIFIAVDAAD4QV4bELkH/AAiEEEPaxCwBkMAAH9DlSIFlSIHIAdDAAB/Q14bELkHIQcgD0EEakMAAH9DIAYgBZUiBiAGQwAAf0NeGxC5B/wBIBBBG3RBgICACEEAIAlDAAAAAF0bckGAgIAQQQAgCEMAAAAAXRtyQYCAgCBBACAKQwAAAABdG3JyIAf8AUEIdHJDAAB/QyALIAWVIgUgBUMAAH9DXhsQuQf8AUEQdHI2AgAgAUEJaiAETw0FIAFBCmogBE8NCiABQQtqIARPDQ8gDiAbRg0SQwAAf0MgA0EoaioCACIIiyIFQwAAgD9DAAD4QUMAAAAAIANBJGoqAgAiCYsiBiAFIANBLGoqAgAiCosiCxDgCBDgCBCeBY5DAABwQZIiBSAFQwAAAABdGyIFIAVDAAD4QV4bELkH/AAiEEEPaxCwBkMAAH9DlSIFlSIHIAdDAAB/Q14bELkHIQcgD0EIakMAAH9DIAYgBZUiBiAGQwAAf0NeGxC5B/wBIBBBG3RBgICACEEAIAlDAAAAAF0bckGAgIAQQQAgCEMAAAAAXRtyQYCAgCBBACAKQwAAAABdG3JyIAf8AUEIdHJDAAB/QyALIAWVIgUgBUMAAH9DXhsQuQf8AUEQdHI2AgAgAUEMaiAETw0GIAFBDWogBE8NCyABQQ5qIARPDRBDAAB/QyADQTRqKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgA0EwaioCACIJiyIGIAUgA0E4aioCACIKiyILEOAIEOAIEJ4FjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQuQf8ACIQQQ9rELAGQwAAf0OVIgWVIgcgB0MAAH9DXhsQuQchByAPQQxqQwAAf0MgBiAFlSIGIAZDAAB/Q14bELkH/AEgEEEbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxC5B/wBQRB0cjYCACADQTxqIQMgAUEPaiEBIBNBEGohEyAVQQFrIRUgDkEEaiEOIAJBAWsiAg0ACwsgDCAZIBcgGBDhCCIBELgKIgI2AgAgDCARNgIEIAIgEUcNGCABIBQgERDgCSABQYQITwRAIAEQmwcLIAwgACgCDCAXIBgQ4QgiABC4CiIBNgIAIAwgEjYCBCABIBJHDRggACAWIBIQ4AkgAEGECEkNACAAEJsHCyAMQSBqJAAPCyABQQNqDAMLIAFBBmoMAgsgAUEJagwBCyABQQxqCyAEQdi8wQAQjAcACyABQQRqDAMLIAFBB2oMAgsgAUEKagwBCyABQQ1qCyAEQei8wQAQjAcACyABQQVqDAMLIAFBCGoMAgsgAUELagwBCyABQQ5qCyAEQfi8wQAQjAcACyAOQQJqIQ4LIA4gDUGIvcEAEIwHAAtBACANIBFBmL3BABDqBwALQQAgDSASQYi8wQAQ6gcACyABIARBmLzBABCMBwALIA8gBEGovMEAEIwHAAsgDyAEQbi8wQAQjAcACyAOQQNqIA1ByLzBABCMBwALIAxBADYCCEEAIAwgDEEEaiAMQQhqQeD5xAAQ9QcAC/8SAwt/BH4CeyMAQaACayIEJAACQCABKAIQIgUoAjAgAk0EQCAAQgM3AwAgAEGEgICAeDYCCAwBCyAFKAIsIAJBuAFsaiEGAkACQCADLQAIRQRAIAYtAKABIQUgAygCACICRQ0BIAVBAXENAgtBACECIANBADYCAAwBC0EAIQIgBUEBcUUNACAAQSE2AhAgAEHknccANgIMIABBg4CAgHg2AgggAEIDNwMADAELAkACQCAGLQBoQQNGBEAgBikDYCERDAELIAEoAgQiBa0hEAJAAkAgBUL/////DyAGKQNQIg8gD0L/////D1obp2siCEEAIAUgCE8bQR1NBEBBqJDIACkDACIRpyECAkAgEUL/AYNCBFEEQCABIA9CHnw3AwggAkH/AXFBBEcNAQwDCyABIBA3AwggAkH/AXFBBEYNAgsgEUIgiKchASARQgiIpyIFIQMCQAJAAkACQCACQf8BcSIIQQFrDgMBAAACCyABLQAIIQMLIANB/wFxQSVGDQELIAQgATYCUCAEQYGAgIB4NgJIIAQgBUEIdCAIcjYCTAwFCyAEQR42AiQgBEGFnscANgIgIAQgBEEgaq1CgICAgCCENwMYIARCATcCrAEgBEEBNgKkASAEQbiexwA2AqABIAQgBEEYajYCqAEgBEHIAGogBEGgAWoQ7AMgAkH/AXFBA0cNBCABKAIAIQIgAUEEaigCACIDKAIAIgUEQCACIAURAwALIAMoAgQiBQRAIAIgBSADKAIIEKIHCyABQQxBBBCiBwwECyABIA9CHnwiETcDCCABKAIAIA8gECAPIBBUG6dqIgUoAABB0JaNIEYNAQsgBEHQAGpB5J7HACgCADYCACAEQdyexwApAgA3A0gMAgsgBTMAHCEPIAUzABohECAEQgE3A6ABIAQgDyAQIBF8fCIRNwOoASAGQeAAaiAEQaABahDIBgsgASARNwMIIAQgBikDQCIPNwNAIAQgDzcDOEGDgICAeCEFAn4CQAJAIAYvAYQBIgdBAkYEQEHgnMcAIQFBICECDAELIAQpAjwhECAPQiCIpyEKIA+nIQggBjMBICEPAn8CQAJAAkAgAgRAIA9QDQFBmIvBACEBQccAIQIMBQsgD1ANAUGFgICAeCEFDAQLIAMoAgQhBwJAIAYtAKIBIgxFBEAgBi0AiwEhCwwBCyAGLwGYAUEBcQ0CC0EADAILQgAMBAsgBi0AnQELIQ0CQCAHRQRAQfis0ZEBIQNBic+VmgIhCUGQ8dmiAyEFDAELQZDx2aIDIQVBic+VmgIhCUH4rNGRASEDA0AgBUH/AXEgAi0AACADc0H/AXFBAnQoAvC9SCADQQh2cyIDQf8BcSAJakGFiKLAAGxBAWoiCUEYdnNBAnQoAvC9SCAFQQh2cyEFIAJBAWohAiAHQQFrIgcNAAsLIAQgBTYCwAEgBCAJNgK8ASAEIAM2ArgBIAQgCjYCrAEgBCAQNwKkASAEIAg2AqABIAQgATYCsAEgBEHQAGpBADYCAEIAIRAgBEIANwNIAkACQAJAIAQpA6gBIg9QRQRAIAEoAgAhCiABKAIEIgWtIRAgBEHIAGohB0EMIQMCfgNAIAogESAQIBAgEVYbpyIIaiEJAkAgBSAIayICIA8gA60iEiAPIBJUG6ciDiACIA5JGyICQQFGBEAgByAJLQAAOgAADAELIAJFDQAgByAJIAL8CgAACyAPIAKtIhJ9IQ8gESASfCERIA8gBSAIRg0BGiADIAJrIgNFDQMgAiAHaiEHIA9QRQ0AC0IACyEQIAEgETcDCAsgBCAQNwOoAUGBgICAeCEFQaiQyAApAwAiEEL/AYNCBFENAQwCCyABIBE3AwggBCAPNwOoAQsgBEG4AWoiASAELQBIEM8GGiABIAQtAEkQzwYaIAEgBC0AShDPBhogASAELQBLEM8GGiABIAQtAEwQzwYaIAEgBC0ATRDPBhogASAELQBOEM8GGiABIAQtAE8QzwYaIAEgBC0AUBDPBhogASAELQBREM8GGiABIAQtAFIQzwYaIAEgBC0AUxDPBiECAkACQCAMBEAgAkH/AXEgDUcNAQwCCyACQf8BcSALRg0BC0GFgICAeCEFDAELIAQgAf0AAgD9CwM4IAQpAqQBIRAgBCgCoAEhCCAEKAKwASIBDQIgCCEFCyAQQiCIpyECIBCnIQELIAAgAjYCECAAIAE2AgwgACAFNgIIIABCAzcDAAwDCyAEKAK0ASEDIAQoAqwBIQogBCAE/QADOP0LAyggBi8BhAEhB0IBCyERIAYoAogBIQsCQAJAQYDAABBxIgVFDQAgEEIgiKchAiAQpyEJAn8CQAJAIAdB//8DcUEBaw4CAQQACyAEIAT9AAMo/QsDkAH9DAAAAAAAIAAAAAAAAAAAAAAgBf0cACETIAj9ESAJ/RwBIAL9HAIgCv0cAyEUQgIhD0EADAELIAQgAzYCtAEgBCABNgKwASAEIAo2AqwBIAQgAjYCqAEgBCAJNgKkASAEIAg2AqABIAQgBP0AAyj9CwO4ASAEQcgBahCZBCAEQeAAaiAEQfABav0AAwD9CwMAIARB8ABqIARBgAJq/QADAP0LAwAgBEGAAWogBEGQAmr9AAMA/QsDACAEIAT9AAPYAf0LA5ABIAQgBCkD6AE3A1ggBEHAAWr9AAQAIRQgBCgC1AEhAyAEKALQASEBIAQoArQBIQkgBP0ABKABIRMgESEPIAQpA7gBIREgBCgCsAELIQdBuAEQcSICRQ0AIAIgAzYCVCACIAE2AlAgAiAU/QsDQCACIBE3AzggAiAJNgI0IAIgBzYCMCACIBP9CwMgIAIgDzcDGCACQgA3AgwgAkKAwAA3AgQgAiAFNgIAIAIgBP0AA5AB/QsDWCACIAQpA1g3A2ggAkHwAGogBEHgAGr9AAMA/QsDACACQYABaiAEQfAAav0AAwD9CwMAIAJBkAFqIARBgAFq/QADAP0LAwAgAkEBOgC0ASACIAs2ArABIAJBADYCqAEgAkIANwOgASAAQgI3AwAgACAGNgIIIABBAjYCqAEgACACNgKsAQwDCwALIAVBgMAAQQEQogcgAEEgNgIQIABB4JzHADYCDCAAQYOAgIB4NgIIIABCAzcDAAwBCyAEIAQpAEk3AA0gBCAELQBIOgAMIAQgBC0AUzoAFyAEIAQvAFE7ABUgBCgCDCEBIAAgBCkCEDcCDCAAIAE2AgggAEIDNwMACyAEQaACaiQAC6UQAQ5/IwBBgAhrIgMkAAJAIAFBA2pBfHEgAWsiBCACSwRAQQEhDkEEIQsMAQsgASAEaiILIAIgBGsiAkF8cWohDiACQQNxIQ8gAkECdiEIIAQhAgsgAEF/cyEAAkAgAkUNAEEAIQQgAkEBRwRAIAJBAXEgAkF+cSECA0AgASAEaiIHQQFqLQAAIActAAAgAHNB/wFxQQJ0KALwvUggAEEIdnMiAHNB/wFxQQJ0KALwvUggAEEIdnMhACACIARBAmoiBEcNAAtFDQELIAEgBGotAAAgAHNB/wFxQQJ0KALwvUggAEEIdnMhAAtBACEFIAhBBW4iAUEBayICQQAgASACTxshCQJAIAhBCkkEQEEAIQcMAQtBACECIAshBEEAIQcDQAJAAkAgAiAITw0AIAggAmsiBkEAIAYgCE0bIgZBAUcEQCAGQQJHBEAgBkEDRwRAIAZBBEcNBCACQQRqIQIMAwsgAkEDaiECDAILIAJBAmohAgwBCyACQQFqIQILIAIgCEHgvcgAEIwHAAsgByAEQQhqKAIAcyIHQf8BcUECdCgC0J1IIAdBBnZB/AdxKALQpUhzIAdBDnZB/AdxKALQrUhzIAdBFnZB/AdxKALQtUhzIQcgBSAEQQRqKAIAcyIFQf8BcUECdCgC0J1IIAVBBnZB/AdxKALQpUhzIAVBDnZB/AdxKALQrUhzIAVBFnZB/AdxKALQtUhzIQUgACAEKAIAcyIAQf8BcUECdCgC0J1IIABBBnZB/AdxKALQpUhzIABBDnZB/AdxKALQrUhzIABBFnZB/AdxKALQtUhzIQAgDCAEQRBqKAIAcyIMQf8BcUECdCgC0J1IIAxBBnZB/AdxKALQpUhzIAxBDnZB/AdxKALQrUhzIAxBFnZB/AdxKALQtUhzIQwgBEEMaigCACAKcyIKQf8BcUECdCgC0J1IIApBBnZB/AdxKALQpUhzIApBDnZB/AdxKALQrUhzIApBFnZB/AdxKALQtUhzIQogAkEFaiECIARBFGohBCANQQFqIg0gCUkNAAsLIAlBBWwiAiAITQRAAkAgAiAIRg0AIAsgAkECdGoiBCgCACEJQQAiBkUEQCADQfDFyABBgAj8CgAACyADIAAgCXMiAEH/AXFBAnRqKAIAIQkgBkUEQCADQfDNyABBgAj8CgAACyADIABBBnZB/AdxaigCACENIAZFBEAgA0Hw1cgAQYAI/AoAAAsgAyAAQQ52QfwHcWooAgAhECAGRQRAIANB8N3IAEGACPwKAAALIAMgAEEWdkH8B3FqKAIAIAkgDXMgEHNzIQAgCCACayICQQFGDQAgBCgCBCEJQQBFBEAgA0HwxcgAQYAI/AoAAAsgAyAFIAlzIABzIgBB/wFxQQJ0aigCACEFIAZFBEAgA0HwzcgAQYAI/AoAAAsgAyAAQQZ2QfwHcWooAgAhCSAGRQRAIANB8NXIAEGACPwKAAALIAMgAEEOdkH8B3FqKAIAIQ0gBkUEQCADQfDdyABBgAj8CgAACyADIABBFnZB/AdxaigCACAFIAlzIA1zcyEAIAJBAkYNACAEKAIIIQZBACIFRQRAIANB8MXIAEGACPwKAAALIAMgBiAHcyAAcyIAQf8BcUECdGooAgAhByAFRQRAIANB8M3IAEGACPwKAAALIAMgAEEGdkH8B3FqKAIAIQYgBUUEQCADQfDVyABBgAj8CgAACyADIABBDnZB/AdxaigCACEJIAVFBEAgA0Hw3cgAQYAI/AoAAAsgAyAAQRZ2QfwHcWooAgAgBiAHcyAJc3MhACACQQNGDQAgBCgCDCEHQQBFBEAgA0HwxcgAQYAI/AoAAAsgAyAHIApzIABzIgBB/wFxQQJ0aigCACEHIAVFBEAgA0HwzcgAQYAI/AoAAAsgAyAAQQZ2QfwHcWooAgAhCiAFRQRAIANB8NXIAEGACPwKAAALIAMgAEEOdkH8B3FqKAIAIQYgBUUEQCADQfDdyABBgAj8CgAACyADIABBFnZB/AdxaigCACAHIApzIAZzcyEAIAJBBEYNACAEKAIQIQVBACIERQRAIANB8MXIAEGACPwKAAALIAMgBSAMcyAAcyIAQf8BcUECdGooAgAhBSAERQRAIANB8M3IAEGACPwKAAALIAMgAEEGdkH8B3FqKAIAIQcgBEUEQCADQfDVyABBgAj8CgAACyADIABBDnZB/AdxaigCACEKIARFBEAgA0Hw3cgAQYAI/AoAAAsgAyAAQRZ2QfwHcWooAgAgBSAHcyAKc3MhACACQQVGDQAgAUEUbEEBIAEgARsiBEEUbGsgC2pBFGohAiAIIARBBWxqIAFBBWxrQQVrIQEDQCACKAIAIQtBACIERQRAIANB8MXIAEGACPwKAAALIAMgACALcyIAQf8BcUECdGooAgAhCyAERQRAIANB8M3IAEGACPwKAAALIAMgAEEGdkH8B3FqKAIAIQggBEUEQCADQfDVyABBgAj8CgAACyADIABBDnZB/AdxaigCACEFIARFBEAgA0Hw3cgAQYAI/AoAAAsgAyAAQRZ2QfwHcWooAgAgCCALcyAFc3MhACACQQRqIQIgAUEBayIBDQALCwJAIA9FDQAgDi0AACAAc0H/AXFBAnQoAvC9SCAAQQh2cyEAIA9BAUYNACAOLQABIABzQf8BcUECdCgC8L1IIABBCHZzIQAgD0ECRg0AIA4tAAIgAHNB/wFxQQJ0KALwvUggAEEIdnMhAAsgA0GACGokACAAQX9zDwsgAiAIIAhB0L3IABDqBwALsB8DDn8HfgN7IwBBIGsiDyQAAkACQCABQSFPBEADQCADRQRAIAEiAiACQQF2aiIGBEAgACEDA0ACQAJ/IAIgBkEBayIGTQRAIAYgAmsMAQsgA0EQaiIA/QADACEaIAMgBkEFdGoiAf0AAwAhGyAAIAFBEGoiAP0AAwD9CwMAIAP9AAMAIRkgAyAb/QsDACABIBn9CwMAIAAgGv0LAwBBAAsiAUEBdCIFQQFyIgAgAiAGIAIgBkkbIgdPDQADQCAFQQJqIgUgB0kEQAJ/AkAgAyAAQQV0aiIEKQMIIhMgAyAFQQV0aiIFKQMIIhJSDQAgBCkDECITIAUpAxAiElINAEEAIAQpAxgiEyAFKQMYIhJRDQEaCyASIBNWCyAAaiEACyADIABBBXRqIggpAxghFyADIAFBBXRqIgQpAxghFiAEKQMIIhQhEyAIKQMIIhghEgJAIBQgGFINACAEKQMQIhMgCCkDECISUg0AIBciEiAWIhNRDQILIBIgE1gNASAIKAIUIQUgCCgCECEBIAggBCkDEDcDECAEIBg+AgggCCAUPgIIIAQgGEIgiD4CDCAIIBRCIIg+AgwgBCAXPgIYIAggFj4CGCAEKQMAIRIgBCAIKQMANwMAIAggEjcDACAEIAE2AhAgBCAFNgIUIAQgF0IgiD4CHCAIIBZCIIg+AhwgACIBQQF0IgVBAXIiACAHSQ0ACwsgBg0ACwsMBAsgACABQQN2IgVB4AFsaiEGIAAgBUEHdGohBwJAIAFBwABPBEAgACAHIAYgBRDvBCEFDAELIAcpAxghGCAAKQMYIRcgACkDCCITIRUgBykDCCISIRQCfwJAIBIgE1INACAAKQMQIhUgBykDECIUUg0AQQAgGCIUIBciFVENARoLIBQgFVYLIQQgBikDGCEWIAYpAwgiFSEUAkACQCATIBVSDQAgACkDECITIAYpAxAiFFINACAXIhMgFiIUUg0AIAAhBSAERQ0BDAILIAAhBSAEIBMgFFRzDQELIAYgBwJ/AkAgEiAVUg0AIAcpAxAiEiAGKQMQIhVSDQBBACAYIhIgFiIVUQ0BGgsgEiAVVAsgBHMbIQULIANBAWshAyAFIABrIQUCfwJAIAJFDQACQAJAIAIpAwgiEyAAIAVqIgQpAwgiElINACACKQMQIhMgBCkDECISUg0AIAIpAxgiEyAEKQMYIhJRDQELIBIgE1YNAQsgD0EQaiIQIABBEGoiDv0AAwD9CwMAIA8gAP0AAwD9CwMAIAT9AAMAIRkgDiAEQRBqIgL9AAMA/QsDACAAIBn9CwMAIAIgEP0AAwD9CwMAIAQgD/0AAwD9CwMAQSAhBSAAQSBqIQogACABQQV0IgZqIQkgDikDACEXIABBGGopAwAhFiAAQQhqKQMAIRMgAP0AAzAhGiAA/QADICEbIAApAzghFEEAIQ1BACELA0AgBSEEIAAgDWoiAkFAayEMIAJBIGohCCATIRICfwJAIBMgAkHIAGopAwAiFVINACACQdAAaikDACIVIBciElINAEEBIAJB2ABqKQMAIhUgFiISUQ0BGgsgEiAVWgsgCiALQQV0aiIF/QADACEZIAhBEGogBUEQaiIC/QADAP0LAwAgCCAZ/QsDACACIAxBEGr9AAMA/QsDACAFIAz9AAMA/QsDACAEQSBqIQUgC2ohCyAAIA1BIGoiDWoiB0FAayICIAlJDQALIBv9HQEhGCACIAlGBH8gB0EgagUgBkFAaiEHA0AgACAEaiICQSBqIQwgAkFAayEIIBMhEgJ/AkAgEyACQcgAaikDACIVUg0AIAJB0ABqKQMAIhUgFyISUg0AQQEgAkHYAGopAwAiFSAWIhJRDQEaCyASIBVaCyAKIAtBBXRqIgb9AAMAIRkgDEEQaiAGQRBqIgL9AAMA/QsDACAMIBn9CwMAIAIgCEEQav0AAwD9CwMAIAYgCP0AAwD9CwMAIAtqIQsgByAEQSBqIgRHDQALIAAgBGpBIGoLIQQgCiALQQV0aiIF/QADACEZIARBEGogBUEQaiIC/QADAP0LAwAgBCAZ/QsDACACIBr9CwMAIAUgG/0LAwACfwJAIBMgGFINACAa/R0AIhggFyITUg0AQQEgFiITIBQiGFENARoLIBMgGFoLIAtqIgQgAU8NBCAQIA79AAMA/QsDACAPIAD9AAMA/QsDACAAIARBBXRqIgX9AAMAIRkgDiAFQRBqIgL9AAMA/QsDACAAIBn9CwMAIAIgEP0AAwD9CwMAIAUgD/0AAwD9CwMAIAEgBEEBaiICayEBIAAgAkEFdGohAEEADAELIA9BEGoiDiAAQRBqIhH9AAMA/QsDACAPIAD9AAMA/QsDACAAIAVqIgT9AAMAIRkgESAEQRBqIgX9AAMA/QsDACAAIBn9CwMAIAUgDv0AAwD9CwMAIAQgD/0AAwD9CwMAQSAhBSAAQSBqIRAgACABQQV0IghqIQogESkDACEXIABBGGopAwAhFiAAQQhqKQMAIRMgAP0AAzAhGiAA/QADICEbIAApAzghFEEAIQ1BACELA0AgBSEEIAAgDWoiBUFAayEJIAVBIGohDCATIRICfwJAIAVByABqKQMAIhUgE1INACAXIhIgBUHQAGopAwAiFVINAEEAIBYiEiAFQdgAaikDACIVUQ0BGgsgEiAVVgsgECALQQV0aiIG/QADACEZIAxBEGogBkEQaiIF/QADAP0LAwAgDCAZ/QsDACAFIAlBEGr9AAMA/QsDACAGIAn9AAMA/QsDACAEQSBqIQUgC2ohCyAAIA1BIGoiDWoiBkFAayIHIApJDQALIBv9HQEhGCAHIApGBH8gBkEgagUgCEFAaiEGA0AgACAEaiIFQSBqIQkgBUFAayEMIBMhEgJ/AkAgBUHIAGopAwAiFSATUg0AIBciEiAFQdAAaikDACIVUg0AQQAgFiISIAVB2ABqKQMAIhVRDQEaCyASIBVWCyAQIAtBBXRqIgj9AAMAIRkgCUEQaiAIQRBqIgX9AAMA/QsDACAJIBn9CwMAIAUgDEEQav0AAwD9CwMAIAggDP0AAwD9CwMAIAtqIQsgBiAEQSBqIgRHDQALIAAgBGpBIGoLIQcgECALQQV0aiIE/QADACEZIAdBEGogBEEQaiIF/QADAP0LAwAgByAZ/QsDACAFIBr9CwMAIAQgG/0LAwACfwJAIBMgGFINACAXIhMgGv0dACIYUg0AQQAgFiITIBQiGFENARoLIBMgGFYLIAtqIgQgAU8NAyAOIBH9AAMA/QsDACAPIAD9AAMA/QsDACAAIARBBXRqIgf9AAMAIRkgESAHQRBqIgX9AAMA/QsDACAAIBn9CwMAIAUgDv0AAwD9CwMAIAcgD/0AAwD9CwMAIAAgBCACIAMQqgEgASAEQX9zaiEBIAdBIGohACAHCyECIAFBIU8NAAsLIAAhCiMAQYAMayIHJAACQCABIgxBAkkNAEEBIQIgACABQQF2Ig1BBXQiA2ohESADIAdqIQYCQCABQQhPBEAgACAHEK4DIBEgBhCuA0EEIQIMAQsgB0EQaiAKQRBq/QADAP0LAwAgByAK/QADAP0LAwAgBiAR/QADAP0LAwAgBkEQaiARQRBq/QADAP0LAwALIAIgDUkEQCACQQV0IQEgAkEBaiEFIAIhAANAIAAhAyAFIQAgByADQQV0IgNqIgQgAyAKaiIDKQMANwMAIARBGGogA0EYaikDACIWNwMAIARBEGogA0EQaikDADcDACAEQQhqIANBCGopAwAiEzcDAAJAAkAgBEEYaykDACIUIBMiElINACAEKQMQIhIgBEEQaykDACIUUg0AIARBCGspAwAiFCAWIhJRDQELIBIgFFoNACAEKQMQIRcgBCkDACEYIAEhBQNAAkAgBSAHaiIIIAhBIGsiA/0AAwD9CwMAIAhBEGogA0EQav0AAwD9CwMAIAVBIEYEQCAHIQMMAQsgBEEgayEEAkAgCEE4aykDACIUIBMiElINACAFIAdqQTBrKQMAIhQgFyISUg0AIAhBKGspAwAiFCAWIhJSDQAgBCEDDAELIAVBIGshBSASIBRUDQELCyADIBg3AwAgCEEIayAWNwMAIAhBEGsgFzcDACAIQRhrIBM3AwALIAFBIGohASAAIAAgDUkiA2ohBSADDQALCyAMIA1rIhAgAksEQCACQQV0IQ4gAkEBaiEFQSAhCCAGIQADQCACIQEgBSECIAYgAUEFdCIBaiIEIAEgEWoiASkDADcDACAEQRhqIAFBGGopAwAiFjcDACAEQRBqIAFBEGopAwA3AwAgBEEIaiABQQhqKQMAIhM3AwACQAJAIARBGGspAwAiFCATIhJSDQAgBCkDECISIARBEGspAwAiFFINACAEQQhrKQMAIhQgFiISUQ0BCyASIBRaDQAgBCkDECEXIAQpAwAhGCAIIQMgACEJA0ACQCAJIA5qIgUgBUEgayIB/QADAP0LAwAgBUEQaiABQRBq/QADAP0LAwAgAyAORgRAIAYhAQwBCyAEQSBrIQQCQCAFQThrKQMAIhQgEyISUg0AIAkgDmpBMGspAwAiFCAXIhJSDQAgBUEoaykDACIUIBYiElINACAEIQEMAQsgA0EgaiEDIAlBIGshCSASIBRUDQELCyABIBg3AwAgBUEIayAWNwMAIAVBEGsgFzcDACAFQRhrIBM3AwALIAhBIGshCCAAQSBqIQAgAiACIBBJIgFqIQUgAQ0ACwsgBkEgayEJIAogDEEFdEEgayIAaiEDIAAgB2ohBSAHIQQDQAJAAkACQCAGKQMIIhIgBCkDCCIUUg0AIAYpAxAiEiAEKQMQIhRSDQAgBikDGCISIAQpAxgiFFINACAKIAT9AAMA/QsDACAKQRBqIARBEGr9AAMA/QsDAAwBCyAKIAYgBCASIBRUGyIA/QADAP0LAwAgCkEQaiAAQRBq/QADAP0LAwAgEiAUWg0AIAZBIGohBgwBCyAEQSBqIQQLIApBIGohCiADAn8CQCAFKQMIIhIgCSkDCCIUUg0AIAUpAxAiEiAJKQMQIhRSDQBBACEBIAUgBSkDGCISIAkpAxgiFFENARoLIAkgBSASIBRUIgEbCyIA/QADAP0LAwAgA0EQaiAAQRBq/QADAP0LAwAgA0EgayEDIAkgAUEFdCIAayEJIAAgBWpBIGshBSANQQFrIg0NAAsgCUEgaiECIAxBAXEEfyAKIAQgBiACIARLIgEbIgD9AAMA/QsDACAKQRBqIABBEGr9AAMA/QsDACAGQQBBICABG2ohBiAEQSBBACABG2oFIAQLIAJGIAYgBUEgakZxDQAQgAgACyAHQYAMaiQADAELAAsgD0EgaiQAC/4PAhh/Bn4jAEEwayIGJAAgACgCPCERIAAoAjghAyAAKAI0IQEgACgCMCEEIAD9DAAAAAAAAAAAAQAAAAEAAAD9CwQwIAAoAkAhAiAAQQA2AkAgACgCSCEFIABBATYCSCAAKAJQIQogACgCTCELIABCADcCTCAGIAU2AgwgBiALNgIQIAYgCjYCFEGo58gAIQxBgAQhCAJAAkACQAJAIAAtAJgBQQFrDgMAAQIDCyAAQaQBaiEMQbQKIQgMAgsgAEH0KmohDEG0CiEIDAELIABBxNQAaiEMQdAEIQgLQaj3yAAhDkEgIQ0CQAJAAkACQCAALQCgAUEBaw4DAAECAwsgAEGkAWohDkG0CiENDAILIABB9CpqIQ5BtAohDQwBCyAAQcTUAGohDkHQBCENCyAAKAIMIgVBQGoiB0FBSQRAQn8gADUCnAGGQn8gADUClAGGQn+FIRwgBSAHSSEJIAJB/wFxQQlLBH8gAgUgBK0gAa1CIIaEIAMpAAAgAkEPca2GhCIapyEEIBpCIIinIQEgAyACQQN2QQFxQQdzaiEDIAJBOHILIQUgAEHIAGohEiACQYB+cSEVIAAoAkQhFiAAQQhqIRNCf4UhHkEAIAcgCRshECAcpyEUAkACQANAAkAgBCADKQAAIAWthiIZp3IhAgJAAkACQAJAAkACQAJAAkACQAJAAkAgBUH/AXEiFyAAKAKUAUkEQCAIIAIgFHEiBEsNASAEIAhBqPjIABCMBwALIAggBCAUcSIETQ0BCyAFQThyIQUgASAZQiCIp3IhDyAMIARBAnRqIgEtAAMhBCABLwEAIQkgAS0AAiIBRQ0BIAohBwwCCyAEIAhBuPjIABCMBwALIAogC08NASAGKAIMIhggCmogCToAACAGIApBAWoiBzYCFAJAIAKtIA+tQiCGhCAErYgiGSAcg6ciAiAISQRAIAUgBGshBSAMIAJBAnRqIgIvAQAhCSACLQADIQQgAi0AAiIBRQ0BIBlCIIinIQ8gGachAgwCCyACIAhByPjIABCMBwALIAcgC08NAiAHIBhqIAk6AAAgBiAKQQJqIgc2AhQgCCAZIAStiCIZIByDpyICTQ0DIAUgBGshBSAZQiCIpyEPIAwgAkECdGoiAi8BACEJIAItAAMhBCACLQACIQEgGachAgsgAyAXQQN2QQdzaiEDIAUgBGshBSACrSAPrUIghoQgBK2IIhpCIIghGSAapyEEIAFB/wFxRQ0FAkACQANAIAFBEHENAiABQcAAcQ0BIAkgGkJ/IAGtQi+DhkJ/hYOnakH//wNxIgIgCEkEQCAErSAZQiCGhCAMIAJBAnRqIgItAAMiAUE/ca2IIhpCIIghGSAapyEEIAUgAWshBSACLwEAIQkgAi0AAiIBRQ0JDAELCyACIAhB6PjIABCMBwALIAFBIHFFDQUgAEEMOgAADAgLIA0gGiABrUIPgyIdiCIZIB6DpyICSw0DIAIgDUH4+MgAEIwHAAsgCiALQbz/yAAQjAcACyAHIAtBvP/IABCMBwALIAIgCEHY+MgAEIwHAAsgDiACQQJ0aiIKLQADIQsgCi0AAiEEAn8gBSABQQ9xayIBQf8BcUEcTwRAIAEhBSADDAELIAFBOHIhBSADKQAAIAGthiAZhCEZIAMgAUH4AXFBA3ZBB3NqCyECIAovAQAhAyAFIAtrIQUgGSALrYghGwJAAkACQAJAIARBEHFFBEADQCAEQcAAcQ0DIA0gAyAbQn8gBK1CL4OGQn+Fg6dqQf//A3EiA00NAiAFIA4gA0ECdGoiAS0AAyIDayEFIBsgA0E/ca2IIRsgAS8BACEDIAEtAAIiBEEQcUUNAAsLIAkgGkJ/IB2GQn+Fg6dqIQkgBSAEQQ9xayEFIBsgBK1CD4MiGogiHUIgiCEZIB2nIQQgAyAbQn8gGoZCf4WDp2pB//8DcSIKIAdLDQIgBkEMaiAKIAlB//8DcRDsAiACIQMMBgsgAyANQYj5yAAQjAcACyAbpyEEQefQwAAhAUEWIQgMAQsCQAJAAkACQCAKIAdrIgEgACgCEE0EQCAAKAIUIgMNASAQIAFrIQcMBAsgAC0AAUEEcUUNAUHVz8AAIQFBHiEIDAQLIAEgA0sNASADIAFrIQcMAgsgBkEANgIoIAZBATYCHCAGQcT5yAA2AhggBkIENwIgIAZBGGpBzPnIABCNCAALIBAgASADayIBayEHIAEgCUH//wNxTw0AIAZBDGogEyAHIBAQlAUgCSABayEJQQAhByADIQELIAZBDGogEyAHIAEgCUH//wNxIgMgASADSRsgB2oQlAUgASADTwRAIAIhAwwECyAGQQxqIAogAyABaxDsAiACIQMMAwsgAEEeOgAADAULIABBHjoAAEHL0MAAIQFBHCEIIAMhAgwECyAHIAtPDQQgBigCDCAHaiAJOgAAIAYgB0EBajYCFAsgESADayAFQfgBcUEDdmpBDk0NACAZpyEBIAYoAhAiCyAGKAIUIgprQYMCSw0BCwtBACEBIAMhAgsgACAWNgJEIAAgETYCPCASIAYpAgw3AgAgACAVIAVBB3EiA3I2AkAgEkEIaiAGQRRqKAIANgIAIAAgAiAFQfgBcUEDdms2AjggACAEQX8gA3RBf3NxrTcDMCABBEAgACAINgKIASAAIAE2AoQBCyAGQTBqJAAPCyAHIAtBvP/IABCMBwALQeT8yABBygBBsP3IABDrBwALkBECCX8EfiMAQeACayIBJAACQAJAAkAgAC0A+ANFBEAgACgCkAEiAkECRw0CIAAoAgBBAkcNAiAAKAK4AiIDQQNLDQFBACECDAMLIAA1ArgCIQogAEEANgK4AiAAIAogACkDcHw3A3AMAgsgAEGQAWohBiABIAAoArQCIgQoAAAiAjYCEAJAAkACQAJAAkACQAJAAkAgAkHSgpGaBEcEQCACQdKCkYIDRw0CIANBCEkNASADIAQoAAQiBUEHakF4cUEIaiICSQ0BIAVBCGoiByADSyAFQXdLcg0DIAFBADYC2AIgASAFNgLUAiABIARBCGo2AtACIAFBIGogAUHQAmoQWSABKAIkIQUgASgCICIIQQJGBEAgBRDOByECDAsLIAFBsAFqIAFBKGpBgAH8CgAAIABBADYCuAIgASAFNgKsASABIAg2AqgBIAMgAmshBwJAAkAgAkUNACACIANGDQEgB0UNACAEIAIgBGogB/wKAAALIAAgBzYCuAILIAAgACkDcCACrXwiCjcDeCAAIAo3A3AgASgCpAJBAUcNBCAAIAEoApQCIgQ2ApwCIAAgASgCtAEgASgCwAEiAyABKAKwARsiAjYCoAIgAkUNBSAEIAMgAm4iBCACIARsIANHaiICRgRAIAEtAKgCIQIgASAFQQAgCEEBcRs2AiQgASADNgIgIAEgAkEBcSIDOgAoIABBvAJqIAFBIGoQpQQCQCABKALQASICQQJGDQAgAkEBcQRAIAAgASoC1AE4ArwDCyABKALYAUEBRgRAIAAgASoC3AE4AsADCyABKALgAUEBRgRAIAAgASoC5AE4AsQDCyABKALoAUEBRgRAIAAgASoC7AE4AsgDCyABKALwAUEBRgRAIAAgASoC9AE4AswDCyABKAL4AUEBRgRAIAAgASoC/AE4AtADCyABKAKAAkEBRgRAIAAgASoChAI4AtQDCyABLQCIAiICQQJGDQAgACACOgDYAwsgA0UNCCAAQQE6ANgDDAgLIAEgAjYCzAIgAUECNgIkIAFB6MfBADYCICABQgI3AiwgAUKAgICAECIKIABBnAJqrYQ3A9gCIAEgCiABQcwCaq2ENwPQAiABIAFB0AJqNgIoIAFBwAJqIgAgAUEgahCxBgwGCyABQQhqIAAQugIgAS0ACEUEQCABLQAJDQhBACECDAoLIAEoAgwhAgwJC0EAIQIMCAsgAUEBNgI0IAFBzMjBADYCMCABQQE2AiQgAUHEyMEANgIgIAFBATYCLCABIAFBEGqtQoCAgICQBIQ3A9ACIAEgAUHQAmo2AiggAUEUaiIAIAFBIGoQsQYgABCOByECDAcLQQggByADQZzIwQAQ6gcACyABQQE2AiQgAUGUyMEANgIgIAFCATcCLCABIAFBpAJqrUKAgICAEIQ3A9ACIAEgAUHQAmo2AiggAUG0AmoiACABQSBqELEGDAELQbTHwQAQgQgACyAAEI4HIQIgAUGoAWoQzwQMAwsCQAJAAkAgBigCAEECRg0AIAAoAvgBIQQgACgC/AEiAwRAIARBJGohAgNAIAJBBGsoAgAiBUGAgICAeHJBgICAgHhHBEAgAigCACIHQQRrKAIAIghBeHEiCUEEQQggCEEDcSIIGyAFakkNBCAIQQAgCSAFQSdqSxsNBSAHEKICCyACQTBqIQIgA0EBayIDDQALCyAAKAL0ASIDBEAgBCADQTBsQQgQogcLIAAoAoACIgNBgICAgHhyQYCAgIB4Rg0AIAAoAoQCIANBARCiBwsgBiABQagBakGIAfwKAAAMAgtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAYoAgAhAgsCQAJAAkACQAJ/AkAgAkECRwRAIAAoApgCIAAoApwCTw0GIAAoAgBBAkYNAUEADAILIAFBqAFqIAAQRSABKAKsAUEAIAEtAKgBIgMbIQIgAw0GIAEtAKkBQQFxRQ0GIAApA4gBIgwgACkDcCIKWARAIAAoArgCIQMMBQsgACgCuAIhBEEAIQMgAEEANgK4AiAEIAwgCn0iCyAErSINIAsgDVQbIgunIgZrIQIgC1BFBEAgBCAGRg0EIAJFDQMgACgCtAIiAyADIAZqIAL8CgAADAMLIAQgBkcNAgwDC0EBCyECA0ACQAJAAkACQAJAAkACQAJAAkACQAJAIAJFBEAgAUGoAWogABBFIAEoAqwBIQMgAS0AqAEiAg0CIAEtAKkBQQFxRQ0CIAApA4gBIgogACkDcCIMVg0BDAYLIAFBqAFqIAAQugIgAS0AqAFBAUYEQCABKAKsASECDBELIAEtAKkBDQlBACECDBALIAAoArgCIQMgAEEANgK4AiADIAogDH0iCyADrSINIAsgDVQbIgunIgJrIQQgC1ANASACIANGDQMgBEUNAiAAKAK0AiIDIAIgA2ogBPwKAAAMAgsgA0EAIAIbIQIMDgsgAiADRg0BCyAAIAQ2ArgCCyAAIAsgDHwiDDcDcCAKIAxWDQELAkAgACgCAEECRg0AIAAoAlwiA0UNACAAKAJgIgJBBGsoAgAiBEF4cSIGIANBKGwiA0EEQQggBEEDcSIEG2pJDQIgBEEAIAYgA0EnaksbDQMgAhCiAgsgAEECNgIAIAAgACgCmAJBAWoiAzYCmAIgAyAAKAKcAkkNBAwJC0EAIQIMCQtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQQAhAgwBC0EBIQIMAAsACyAAIAI2ArgCIAIhAwsgACAKIAt8Igo3A3AgCiAMWg0AQQAhAgwCC0EAIQIgAEEANgK4AiAAQQE6APgDIAAgCiADrXw3A3AMAQsgAEEBOgD4AyAANQK4AiEKQQAhAiAAQQA2ArgCIAAgCiAAKQNwfDcDcAsgAUHgAmokACACC4oQAhl/AXsjAEFAaiIJJAAgCUEQav0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgCSAh/QsDAAJAAkAgA0UNACACQQJBACADGyINaiEPIAIgA0EBdCISaiEaIBJBAmohCEEPIQsgAiEMAkACQAJAA0AgDC8BACIKBEAgCkEPSw0CIAkgCkEBdGoiDCAMLwEAQQFqOwEAIA4gCiAKIA5JGyEOIAsgCiAKIAtLGyELCyACIA1qIQwgCCANQQJqIg1HDQALIA5FDQMgCyAOTQRAIAkvAQIiCkECSw0CIAkvAQQiDEEEIApBAXRrIghB/v8DcUsNAiAJLwEGIhYgCCAMa0EBdCIIQf7/A3FLDQIgCS8BCCIbIAggFmtBAXQiCEH+/wNxSw0CIAkvAQoiHCAIIBtrQQF0IghB/v8DcUsNAiAJLwEMIg0gCCAca0EBdCIIQf7/A3FLDQIgCS8BDiIQIAggDWtBAXQiCEH+/wNxSw0CIAkvARAiESAIIBBrQQF0IghB/v8DcUsNAiAIIBFrQf//A3FBAXQiCCAJLwESIhNJDQIgCCATa0EBdCIIIAkvARQiFEkNAiAIIBRrQQF0IgggCS8BFiIVSQ0CIAggFWtBAXQiCCAJLwEYIhdJDQIgCCAXa0EBdCIIIAkvARoiGEkNAiAIIBhrQQF0IgggCS8BHCIZSQ0CIAggGWtBAXQiCCAJLwEeIh1JDQIgCCAdRiABQf8BcUEAIA5BAUYbckUEQCAAQX82AgAMBgsgCyAGIA4gBiAOSRsgBiALSRshCCAJQQA2AiAgCSAKOwEkIAkgCiAMaiIGOwEmIAkgBiAWaiIGOwEoIAkgBiAbaiIGOwEqIAkgBiAcaiIGOwEsIAkgBiANaiIGOwEuIAkgBiAQaiIGOwEwIAkgBiARaiIGOwEyIAkgBiATaiIGOwE0IAkgBiAUaiIGOwE2IAkgBiAVaiIGOwE4IAkgBiAXaiIGOwE6IAkgBiAYaiIGOwE8IAkgBiAZajsBPiASQQJrQQF2QQFqIQwgAiEGQQAhDQNAIA8hCgJAIAYvAQAiBkUNACAGQQ9NBEAgCUEgaiAGQQF0aiIGIAYvAQAiBkEBajsBACAGQaACSQRAIAcgBkEBdGogDTsBAAwCCyAGQaACQZSDyQAQjAcACyAGQRBBhIPJABCMBwALIApBAkEAIAogGkcbaiEPIAohBiAMIA1BAWoiDUcNAAtBFCEUIAFB/wFxIgEhF0EBIRhBAiEZAkACQAJAIAFBAWsOAgABAgsgCEELTw0FQbSAyQAhGUHygMkAIRhBHyEXQYECIRQMAQsgCEEJSw0EQZKByQAhGUHSgckAIRhBICEXQQAhFAtBASAIdCIVQQFrIR4gFEEBa0H//wNxIR8gAUEBayEgQQAhD0EAIRNBACEKQQAhECAIIRJBACERQX8hFgNAAkAgFCAHIAoiG0EBdGovAQAiAUsEQCABQQAgASAfSSIBGyEGQQBB4AAgARshAQwBCyABIBRrQf//A3EiBiAXSQRAIAYgGGotAAAhASAZIAZBAXRqLwEAIQYMAQsgBiAXQYSCyQAQjAcACyAEQX8gCyARayIddCIaQQEgEnQiHCAQIA8gEXZqamoiDUECdGohDCAaQQJ0IQ8gHCEKAkACQAJ/AkACQAJAAkACQAJAA0AgBSANTQ0BIAwgBjsBACAMQQNqIB06AAAgDEECaiABOgAAIAwgD2ohDCANIBpqIQ0gCiAaaiIKDQALIAtBD0sNAUGAgICAeCALQQFrdiATaiITQRh0IBNBgP4DcUEIdHIgE0EIdkGA/gNxIBNBGHZyciIBQQR2QY+evPgAcSABQY+evPgAcUEEdHIiAUECdkGz5syZA3EgAUGz5syZA3FBAnRyIgFBAXZB1arVqgVxIAFB1arVqgVxQQF0ciEPIBtBAWohCiAJIAtBAXRqIgEgAS8BAEEBayIBOwEAAkACQCABQf//A3FFBEAgCyAORg0BIBtBnwJGDQUgAyAHIApBAXRqLwEAIgFNDQYgAiABQQF0ai8BACELCyAIIAtPDQogDyAecSIBIBZHDQEMCgsgE0UNCCAFIBBJDQUgBSAQayIBIA9LBEAgBCAQQQJ0aiAPQQJ0aiIBIB06AAMgAUHAADoAAiABQQA7AQAMCQsgDyABQdSCyQAQjAcAC0EBIAsgESAIIBEbIhFrIhJ0Ig0gCyAOTw0GGiAOIBFrIRIgCSALQQF0aiEMIAshBgNAIA0gDC8BAGsiFkEATARAIAYgEWshEgwHCyAMQQJqIQwgFkEBdCENIAZBAWoiBiAOSQ0ACwwFCyANIAVBlILJABCMBwALIAtBEEGkgskAEIwHAAtBoAJBoAJBtILJABCMBwALIAEgA0HEgskAEIwHAAsgECAFIAVB5ILJABDqBwALQQEgEnQLIBVqIRUCQAJAAkAgIA4CAAECCyAVQbQKTQ0BDAgLIBVB0ARLDQcLIAEgBUkEQCAEIAFBAnRqIgYgCDoAAyAGIBI6AAIgBiAQIBxqIhA7AQAgASEWDAILIAEgBUH0gskAEIwHAAsgACAVNgIIIAAgCDYCBCAAQQA2AgAMBwsgCkGgAkcNAAtBoAJBoAJB9IHJABCMBwALQY2cyABBHEGsnMgAEOsHAAsgCkEQQaSDyQAQjAcACyAAQX82AgAMAgsgAEEBNgIADAELIABBAjYCCCAEQoCAgIqAgICgATcBACAAQoCAgIAQNwIACyAJQUBrJAALsBMEDX8KfQN7AX4jAEGgAmsiAiQAIAEqAgAhESABKgIEIQ8gAiABKgIIIhP9EyABKgIQIhD9IAAgASoCFCIS/SAB/QsEkAEgAiAS/RMgASoCDCIS/SAAIA/9IAH9CwSAASACIBD9EyAR/SAAIBL9IAH9CwRwIAL9DAAAgD8AAAAAAAAAAAAAAAD9CwTAASAC/QwAAAAAAACAPwAAAAAAAAAA/QsEsAEgAv0MAAAAAAAAAAAAAIA/AACAP/0LBKABIBGLIA+LkiATi5JDAACAPxDgCEO9N4Y1lCITIBOUIRQgAkHAAWpBBHIhASACQaABakEEciENIAJBsAFqQQRyIQUgAkGAAWohDkEgIQsCfwNAIAIqAnQiDyAPlCACKgJ4IhAgEJSSIAL9AASAASIZ/R8CIhIgEpSSIBReRQRAIBn9HwG8DAILIAIgGSAC/QAEcCIaIBKLIBCLIhEgD4siDyAPIBFdIgwbXiIDG/0LBGAgGv0fACERIBNBCEEEIAMgDHIiBBsiByACQeAAanIqAgAiEItdBEAgAiAa/QsEUAJ9AkAgAioCmAEgGf0fASIPIAQbIA8gESADG5MiDyAPXCAQIBCSIhEgEVxyRQRAIA+8IghBgICA/ANGBEAgERDcBAwDCyAIQR52QQJxIgogEbwiBkEfdnIhCQJAAkACQAJAAkACQCAGQf////8HcSIGRQRAQ9sPScAhDyAJQQJrDgICBgELIAhB/////wdxIghFDQIgCEGAgID8B0cNAyAGQYCAgPwHRw0EIAlBAnQqAoyxSQwICyARDAcLQ9sPSUAMBgtD2w/JPyARmAwFCyAGQYCAgPwHRiAIQYCAgOgAaiAGSXINAwJ9IAoEQEMAAAAAIAZBgICA6ABqIAhJDQEaCyARIA+VixDcBAshDwJAAkACQCAJQQFrDgMBAgAECyAPQy69uzOSQ9sPScCSDAYLIA+MDAULQ9sPSUAgD0MuvbszkpMMBAsgCUECdCoCnLFJIQ8LIA8MAgsgESAPkgwBC0PbD8k/IBGYCyACQdAAaiIJIAdyKgIAIRBDAAAAP5QiDxCZAiERIANBAnQgCXIqAgAiFSAPEJsCIg+UIBEgEJSTIRIgA60hHAJAIANFBEAgAiASOAJwDAELIAIgEjgCdAtBCEEEIAQbIgkgAkHwAGpyIA8gEJQgESAVlJI4AgAgAiAZ/QsEQCAPIBynQQJ0IgogAkFAayIGcioCACISlCARIAYgB3IqAgAiFZSTIRACQCADBEAgAiAQOAKEAQwBCyACIBA4AoABCyACQfAAakEYQRQgBBtqIA8gFZQgESASlJI4AgAgAiAC/QAEkAH9CwQwIA8gAkEwaiIGIApyKgIAIhKUIBEgBiAHcioCACIVlJMhEAJ/IAMEQCACIBA4ApQBIA4MAQsgAiAQOAKQASACQfAAagshBiACQfAAaiIIQShBJCAEG2ogDyAVlCARIBKUkjgCACAGIA8gAv0ABIABIhkgAv0ABHAgAxv9HwAiEJQgESAC/QAEkAEgGSAEG/0fACISlJM4AgBBIEEQIAQbIAhqIA8gEpQgESAQlJI4AgAgBiAPIAL9AASAASIZIAL9AARwIAMb/R8BIhCUIBEgAv0ABJABIBkgBBv9HwEiEpSTOAIEQSRBFCAEGyAIaiAPIBKUIBEgEJSSOAIAIAYgDyAC/QAEgAEiGSAC/QAEcCIaIAMb/R8CIhCUIBEgAv0ABJABIBkgBBv9HwIiEpSTOAIIQShBGCAEGyAIaiAPIBKUIBEgEJSSOAIAIAYgCWpBADYCAAJ/IANFBEBBIEEQIAwbIAhqQQA2AgBCACEcIAJBwAFqIQMgAkGwAWohBCACQaABagwBCyACQQA2ApQBQgEhHCAFIQQgASEDIA0LIAIgAv0ABMAB/QsEACADIA8gAiAcp0ECdHIqAgAiEJQgESACIAdyKgIAIhKUkzgCACACIAL9AASwAf0LBCAgBCAPIAJBIGoiAyAKcioCACIVlCARIAMgB3IqAgAiFpSTOAIAIAIgAv0ABKAB/QsEECAPIAJBEGoiAyAKcioCACIXlCARIAMgB3IqAgAiGJSTOAIAIAJBwAFqIAlyIBEgEJQgDyASlJI4AgAgAkGwAWogCXIgESAVlCAPIBaUkjgCACACQaABaiAJciARIBeUIA8gGJSSOAIAIBr9HwAhEQsgC0EBayILDQALIAIoAoQBCyEDIAIgAioCmAEiEjgC3AEgAiADNgLYASAC/QAEsAEhGSAC/QAEwAEhGiAC/QAEoAEhGyACIBE4AtQBIAIgGiAZ/Q0ICQoLGBkaGwABAgMAAQIDIBv9DQABAgMEBQYHGBkaGxgZGhv9CwSAAiACIBogGf0NBAUGBxQVFhcAAQIDAAECAyAb/Q0AAQIDBAUGBxQVFhcUFRYX/QsE8AEgAiAaIBn9DQABAgMQERITAAECAwABAgMgG/0NAAECAwQFBgcQERITEBESE/0LBOABIBr9HwAiDyAPlCAZ/R8AIhMgE5SSIBv9HwAiECAQlJIiFEMAAAAAXgRAIAIgECAUkSIQlTgC6AEgAiATIBCVOALkASACIA8gEJU4AuABCyAa/R8BIg8gD5QgGf0fASITIBOUkiAb/R8BIhAgEJSSIhRDAAAAAF4EQCACIBAgFJEiEJU4AvgBIAIgEyAQlTgC9AEgAiAPIBCVOALwAQsgGv0fAiIPIA+UIBn9HwIiEyATlJIgG/0fAiIQIBCUkiIUQwAAAABeBEAgAiAQIBSRIhCVOAKIAiACIBMgEJU4AoQCIAIgDyAQlTgCgAILQQAhBCACQQA2ApwCIAJBATYCmAIgAkHUAWohB0EBIQEgEbwiBSAFQR91QQF2cyIFIANBH3VBAXYgA3MiA0gEQEEBIQQgAkEBNgKcAiACQQA2ApgCIAUhAyACQdgBaiEHQQAhAQsCQCADIBK8IgUgBUEfdUEBdnMiBU4EQEECIQMMAQsgAkGYAmohAyAFIAcoAgAiB0EfdUEBdiAHc0oEfyACIAQ2ApgCIAJBnAJqBSADC0ECNgIAAkAgAigCnAIiBEECTQRAIAIoApgCIgVBA08NASABIQMgBSEBDAILIARBA0Hg98cAEIwHAAsgBUEDQfD3xwAQjAcACyAAIAJB4AFqIgUgA0EEdGr9AAQA/QsEMCAAIAFBBHQgBWr9AAQA/QsEICAAIARBBHQgBWr9AAQA/QsEECAAIAJB1AFqIgUgA0ECdGoqAgA4AgggACABQQJ0IAVqKgIAOAIEIAAgBEECdCAFaioCADgCACACQaACaiQAC7cNAgp/An4gACgCFCECIAAoAhAhBSAAKQMIIQwgACgCBCEIIAAoAgAhCSAAKAIYIgNBAEgEQCAFIAhJBEAgCSAFQQJ0aigAACEHCyAHQRh0IAdBgP4DcUEIdHIgB0EIdkGA/gNxIAdBGHZycq0gDEIghoQhDCAFQQFqIQUgA0EgaiEDCyAMQgAgAiACQQF2IgJrIgatIANBP3GthiINIAwgDVQiBBt9IQxBACEHIAMgBiACIAQbIgJnIgNBGGsiBkEAIAMgBk8bIgZrIQMgAiAGdCECAkACQCAEBEAgBSAITQ0BDAILIANBAEgEQCAFIAhJBEAgCSAFQQJ0aigAACEHCyAHQRh0IAdBgP4DcUEIdHIgB0EIdkGA/gNxIAdBGHZycq0gDEIghoQhDCAFQQFqIQUgA0EgaiEDCyAMQgAgAiACQQF2IgJrIgStIANBP3GthiINIAwgDVQiBxt9IQwgBCACIAcbIgIgAmciAkEYayIEQQAgAiAETxsiAnQhBCADIAJrIgNBAEgEQEEAIQIgBSAISQRAIAkgBUECdGooAAAhAgsgAkEYdCACQYD+A3FBCHRyIAJBCHZBgP4DcSACQRh2cnKtIAxCIIaEIQwgBUEBaiEFIANBIGohAwsgDCAEIARBAXYiAmsiBq0gA0E/ca2GIg1CACAMIA1aIgQbfSEMIAIgBiAEGyICIAJnIgJBGGsiBkEAIAIgBk8bIgJ0IQYgAyACayIDQQBIBEBBACECIAUgCEkEQCAJIAVBAnRqKAAAIQILIAJBGHQgAkGA/gNxQQh0ciACQQh2QYD+A3EgAkEYdnJyrSAMQiCGhCEMIAVBAWohBSADQSBqIQMLIAxCACAGIAZBAXYiAmsiCq0gA0E/ca2GIg0gDCANVCIGG30hDCAKIAIgBhsiAiACZyICQRhrIgpBACACIApPGyICdCIKIApBAXYiCmsiC60gAyACayIDQQBIBEBBACECIAUgCEkEQCAJIAVBAnRqKAAAIQILIAJBGHQgAkGA/gNxQQh0ciACQQh2QYD+A3EgAkEYdnJyrSAMQiCGhCEMIAVBAWohBSADQSBqIQMLIANBP3GthiINIAxYIgJBAEECIAcbIARyQQJ0QQBBAiAGG3JyIQcgDCANQgAgAht9IQwgAyAKIAsgAhsiAmciA0EYayIEQQAgAyAETxsiBGshAwJ/IAIgBHQiBCABQf8BcUEERg0AGiADQQBIBEBBACECIAUgCEkEQCAJIAVBAnRqKAAAIQILIAJBGHQgAkGA/gNxQQh0ciACQQh2QYD+A3EgAkEYdnJyrSAMQiCGhCEMIAVBAWohBSADQSBqIQMLIAwgBCAEQQF2IgRrIgatIANBP3GthiINQgAgDCANWiICG30hDCADIAQgBiACGyIEZyIDQRhrIgZBACADIAZPGyIGayEDIAIgB0EBdHIhByAEIAZ0IgQgAUH/AXFBBkkNABogA0EASARAQQAhAiAFIAhJBEAgCSAFQQJ0aigAACECCyACQRh0IAJBgP4DcUEIdHIgAkEIdkGA/gNxIAJBGHZycq0gDEIghoQhDCAFQQFqIQUgA0EgaiEDCyAMIAQgBEEBdiIEayIGrSADQT9xrYYiDUIAIAwgDVoiAht9IQwgAyAEIAYgAhsiBGciA0EYayIGQQAgAyAGTxsiBmshAyACIAdBAXRyIQcgBCAGdCIEIAFB/wFxQQZGDQAaIANBAEgEQEEAIQIgBSAISQRAIAkgBUECdGooAAAhAgsgAkEYdCACQYD+A3FBCHRyIAJBCHZBgP4DcSACQRh2cnKtIAxCIIaEIQwgBUEBaiEFIANBIGohAwsgDCAEIARBAXYiBGsiBq0gA0E/ca2GIg1CACAMIA1aIgIbfSEMIAMgBCAGIAIbIgRnIgNBGGsiBkEAIAMgBk8bIgZrIQMgAiAHQQF0ciEHIAQgBnQLIQQgA0EASARAQQAhAiAFIAhJBEAgCSAFQQJ0aigAACECCyACQRh0IAJBgP4DcUEIdHIgAkEIdkGA/gNxIAJBGHZycq0gDEIghoQhDCAFQQFqIQUgA0EgaiEDCyAFIAhLDQEgDEIAIAQgBEEBdiICayIIrSADQT9xrYYiDSAMIA1UIgEbfSEMIAggAiABGyICIAJnIgJBGGsiCEEAIAIgCE8bIgh0IQIgAyAIayEDIAdBACAHayABGyEHCyAAIAM2AhggACACNgIUIAAgBTYCECAAIAw3AwggBw8LIAAQtAoEf0EAIAAgARDwB0H/AXEiAWsgASAAELQKGwVBAAsLjhACDn8EfiMAQSBrIgIkAAJAAkACQAJAAkACQAJ/AkACQAJAAkACQAJAAkACQEEVIAEoAgAiA0GAgICAeHMgA0EAThtBFGsOAgECAAsgASACQR9qQfTiwAAQlQghASAAQYCAgIB4NgIAIAAgATYCBAwLCyABKAIMIgVFDQMgAkEEaiABKAIIIgkQoAQgAigCCCEEIAIoAgQiB0GAgICAeEYEQCAEIQEMCgsgAigCFCEIIAIoAhAhAyAFQQFGDQIgAigCGCEKIAIoAgwhCyACQQRqIgYgCUEQahDTAiACKAIIIQEgAigCBA0IIAVBAkYNASACKQIMIRAgBiAJQSBqENMCIAIoAgghBiACKAIEBEAgBiEBDAkLAkAgBUEDRwRAIAIpAgwhESACQQRqIAlBMGoQnwUgAigCBEUNASACKAIIIQEMCgtBA0G0/8AAQYD9wAAQ2wYhAQwJCyAFQQRHBEAgAkEENgIEIAVB/P///wBqQf////8AcUEEaiACQQRqQeiVwQAQ2wYhASAAQYCAgIB4NgIAIAAgATYCBCAHBEAgBCAHQQEQogcLIANFDQsgCCADQQEQogcMCwsgAigCCCEFIAAgAigCDDYCNCAAIAU2AjAgACARNwIoIAAgBjYCJCAAIBA3AhwgACABNgIYIAAgCjYCFCAAIAg2AhAgACADNgIMIAAgCzYCCCAAIAQ2AgQgACAHNgIADAoLIAEoAggiA0UNBCADQQV0IQ0gASgCBCEBQYCAgIB4IQUDQAJAAkACQAJAAkACQAJAAkBBFSABKAIAIgNBgICAgHhzIANBAE4bQQFrDg8BAAACAAAAAAAAAAMEBQYACyABIAJBH2pBxOTAABCVCCEDIAJBAToABCACIAM2AggMBgsgAkEAOgAEIAJBBCABQQRqLQAAIgMgA0EETxs6AAUMBQsgAkEAOgAEIAJCBCABQQhqKQMAIhAgEEIEWhs8AAUMBAsgAUEIaigCACEDAn8CQAJAAkACQCABQQxqKAIAQQRrDgIBAAMLIANBkP3AAEEFENsHDQFBAAwDC0EBIAMoAABB7dK5mwdGDQIaIAMoAABB7cLhmwdHDQFBAgwCCyADQZ39wABBBRDbBw0AQQMMAQtBBAshAyACQQA6AAQgAiADOgAFDAMLIAFBBGooAgAhAwJ/AkACQAJAAkAgAUEIaigCAEEEaw4CAQADCyADQZD9wABBBRDbBw0BQQAMAwtBASADKAAAQe3SuZsHRg0CGiADKAAAQe3C4ZsHRw0BQQIMAgsgA0Gd/cAAQQUQ2wcNAEEDDAELQQQLIQMgAkEAOgAEIAIgAzoABQwCCyACQQRqIAFBCGooAgAgAUEMaigCABDZBQwBCyACQQRqIAFBBGooAgAgAUEIaigCABDZBQsgAi0ABEEBRgRAIAIoAgghBEEBDAcLIAFBEGohAwJAAkACQAJAAkACQAJAAkAgAi0ABQ4EAAECAwcLIAVBgICAgHhHBEBBkP3AAEEFEJ8HIQRBAQwOCyACQQRqIAMQoAQgAigCCCEGIAIoAgQiBUGAgICAeEYEQCAGIQQMDwsgAigCGCEOIAIoAhQhCSACKAIQIQggAigCDCEPDAYLIAoNAiACQQRqIAMQ0wIgAigCCCEEQQEgAigCBEEBRg0MGiACKQIMIRFBASEKDAULIAsNAyACQQRqIAMQ0wIgAigCCCEHIAIoAgRBAUYEQCAHIQRBAQwMCyACKQIMIRJBASELDAQLIAwNASACQQRqIAMQnwUgAigCCCEDIAIoAgRBAUYEQCADIQRBAQwLCyADrSACNQIMQiCGhCETQQEhDAwDC0GV/cAAQQQQnwchBEEBDAkLQZ39wABBBRCfByEEQQEMCAtBmf3AAEEEEJ8HIQRBAQwHCyABQSBqIQEgDUEgayINDQALDAMLQQJBtP/AAEGA/cAAENsGIQEMBgtBAUG0/8AAQYD9wAAQ2wYhAQwFC0EAQbT/wABBgP3AABDbBiEBDAULIAVBgICAgHhGDQAgAiAONgIYIAIgCTYCFCACIAg2AhAgAiAPNgIMIAIgBjYCCCACIAU2AgQCQCAKRQRAQZX9wABBBBCcByEEDAELIAtFBEBBmf3AAEEEEJwHIQQMAQsgDEUEQEGd/cAAQQUQnAchBAwBCyAAIBM3AjAgACASNwIoIAAgBzYCJCAAIBE3AhwgACAENgIYIAAgDjYCFCAAIAk2AhAgACAINgIMIAAgDzYCCCAAIAY2AgQgACAFNgIADAYLIAJBBGoQ5gVBAAwBC0GAgICAeCEFQZD9wABBBRCcByEEQQELRSAFQYCAgIB4RnINACAFBEAgBkEEaygCACIBQXhxIgdBBEEIIAFBA3EiARsgBWpJDQUgAUEAIAcgBUEnaksbDQYgBhCiAgsgCEUNACAJQQRrKAIAIgFBeHEiBkEEQQggAUEDcSIBGyAIakkNBCABQQAgBiAIQSdqSxsNBSAJEKICCyAAIAQ2AgQgAEGAgICAeDYCAAwCCyAHBEAgBEEEaygCACIGQXhxIgVBBEEIIAZBA3EiBhsgB2pJDQMgBkEAIAUgB0EnaksbDQQgBBCiAgsgA0UNACAIQQRrKAIAIgRBeHEiBkEEQQggBEEDcSIEGyADakkNAiAEQQAgBiADQSdqSxsNAyAIEKICCyAAIAE2AgQgAEGAgICAeDYCAAsgAkEgaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALxRACCH8EfiMAQeACayIBJAACQAJAAkACQAJAAkACQAJAAkACQCAALQD8AkUEQCAAKAIAIgJBAkcNCSAAKAKIAUECRw0JIAAoAuACIgNBA00EQEEAIQIMCwsgASAAKALcAiIEKAAAIgI2AhACQCACQdKCkZoERwRAIAJB0oKRggNHDQMgA0EISQ0BIAMgBCgABCIFQQdqQXhxQQhqIgJJDQEgBUEIaiIGIANLIAVBd0tyDQQgAUEANgLYAiABIAU2AtQCIAEgBEEIajYC0AIgAUEgaiABQdACahBZIAEoAiQhBSABKAIgIgdBAkYEQCAFEM4HIQIMDQsgAUGwAWogAUEoakGAAfwKAAAgAEEANgLgAiABIAU2AqwBIAEgBzYCqAEgAyACayEGAkACQCACRQ0AIAIgA0YNASAGRQ0AIAQgAiAEaiAG/AoAAAsgACAGNgLgAgsgACAAKQO4AiACrXwiCTcDwAIgACAJNwO4AiABKAKkAkEBRw0FIAAgASgClAIiAzYC6AIgACABKAK0ASABKALAASICIAEoArABGyIENgLsAiAERQ0GIAIgBG4iBiAEIAZsIAJHaiIEIANGBEAgAS0AqAIhAyABIAVBACAHQQFxGzYCJCABIAI2AiAgASADQQFxOgAoIABB+AFqIAFBIGoQhAICQCAAKAIAQQJGDQAgACgCaCEEIAAoAmwiAwRAIARBJGohAgNAIAJBBGsoAgAiBUGAgICAeHJBgICAgHhHBEAgAigCACIGQQRrKAIAIgdBeHEiCEEEQQggB0EDcSIHGyAFakkNDCAHQQAgCCAFQSdqSxsNDSAGEKICCyACQTBqIQIgA0EBayIDDQALCyAAKAJkIgMEQCAEIANBMGxBCBCiBwsgACgCcCIDQYCAgIB4ckGAgICAeEYNACAAKAJ0IANBARCiBwsgACABQagBakGIAfwKAAAMCwsgASAENgLMAiABQQI2AiQgAUHox8EANgIgIAFCAjcCLCABQoCAgIAQIgkgAEHoAmqthDcD2AIgASAJIAFBzAJqrYQ3A9ACIAEgAUHQAmo2AiggAUHAAmoiACABQSBqELEGIAAQjgchAgwJCyABQQhqIAAQuAIgAS0ACEUEQCABLQAJDQpBACECDAwLIAEoAgwhAgwLC0EAIQIMCgsgADUC4AIhCSAAQQA2AuACIAAgCSAAKQO4Anw3A7gCDAkLIAFBATYCNCABQczIwQA2AjAgAUEBNgIkIAFBxMjBADYCICABQQE2AiwgASABQRBqrUKAgICAkASENwPQAiABIAFB0AJqNgIoIAFBFGoiACABQSBqELEGIAAQjgchAgwIC0EIIAYgA0GcyMEAEOoHAAsgAUEBNgIkIAFBlMjBADYCICABQgE3AiwgASABQaQCaq1CgICAgBCENwPQAiABIAFB0AJqNgIoIAFBtAJqIgAgAUEgahCxBiAAEI4HIQIgASgClAIhAwwDC0G0x8EAEIEIAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAEoApACIQQgAwRAIARBJGohAANAIABBBGsoAgAiBUGAgICAeHJBgICAgHhHBEAgACgCACAFQQEQogcLIABBMGohACADQQFrIgMNAAsLIAEoAowCIgAEQCAEIABBMGxBCBCiBwsgASgCmAIiAEGAgICAeHJBgICAgHhGDQIgASgCnAIgAEEBEKIHDAILIAAoAgAhAgsCQAJAAkACQAJ/AkAgAkECRwRAIAAoAuQCIAAoAugCTw0GIAAoAogBQQJGDQFBAAwCCyABQagBaiAAEFsgASgCrAFBACABLQCoASIDGyECIAMNBiABLQCpAUEBcUUNBiAAKQPQAiILIAApA7gCIglYBEAgACgC4AIhAwwFCyAAKALgAiEEQQAhAyAAQQA2AuACIAQgCyAJfSIKIAStIgwgCiAMVBsiCqciBWshAiAKUEUEQCAEIAVGDQQgAkUNAyAAKALcAiIDIAMgBWogAvwKAAAMAwsgBCAFRw0CDAMLQQELIQIDQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAkUEQCABQagBaiAAEFsgASgCrAEhAyABLQCoASICDQIgAS0AqQFBAXFFDQIgACkD0AIiCSAAKQO4AiILVg0BDAYLIAFBqAFqIAAQuAIgAS0AqAFBAUYEQCABKAKsASECDBELIAEtAKkBDQlBACECDBALIAAoAuACIQMgAEEANgLgAiADIAkgC30iCiADrSIMIAogDFQbIgqnIgJrIQQgClANASACIANGDQMgBEUNAiAAKALcAiIDIAIgA2ogBPwKAAAMAgsgA0EAIAIbIQIMDgsgAiADRg0BCyAAIAQ2AuACCyAAIAogC3wiCzcDuAIgCSALVg0BCwJAIAAoAogBQQJGDQAgACgC5AEiA0UNACAAKALoASICQQRrKAIAIgRBeHEiBSADQShsIgNBBEEIIARBA3EiBBtqSQ0CIARBACAFIANBJ2pLGw0DIAIQogILIABBAjYCiAEgACAAKALkAkEBaiIDNgLkAiADIAAoAugCSQ0EDAkLQQAhAgwJC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBACECDAELQQEhAgwACwALIAAgAjYC4AIgAiEDCyAAIAkgCnwiCTcDuAIgCSALWg0AQQAhAgwCC0EAIQIgAEEANgLgAiAAQQE6APwCIAAgCSADrXw3A7gCDAELIABBAToA/AIgADUC4AIhCUEAIQIgAEEANgLgAiAAIAkgACkDuAJ8NwO4AgsgAUHgAmokACACC70PAg5/AX4jAEEgayICJAACQAJAAkACQAJAAkACQAJ/An8CQAJAAkACQAJAAkACQAJAQRUgASgCACIDQYCAgIB4cyADQQBOG0EUaw4CAAEECyABKAIMIgNFDQIgAkEEaiABKAIIIgEQoAQgAigCCCEIIAIoAgQiBkGAgICAeEYEQCAIIQMMDQsgAigCFCEJIAIoAhAhByADQQFGDQEgAigCGCELIAIoAgwhDCACQQRqIAFBEGoQ0AMgAigCCCEEIAIoAgQiBUGAgICAeEYEQCAEIQMMDAsCQAJ/IANBAkcEQCACKAIMIQ4gAkEEaiABQSBqEKUDIAItAARFDQIgAigCCAwBC0ECQYz/wABBgP3AABDbBgshAyAFRQ0MIARBBGsoAgAiAUF4cSIKIAVBAnQiBUEEQQggAUEDcSIBG2pJDRAgAUEAIAogBUEnaksbDQ8gBBCiAgwMCyADQQNGBEAgAi0ABSEPDAsLIAJBAzYCBCADQf3///8AakH/////AHFBA2ogAkEEakHolcEAENsGIQMgBgRAIAggBkEBEKIHCyAHBEAgCSAHQQEQogcLIAVFDQwgBCAFQQJ0QQQQogcMDAsgASgCCCIDRQRAQYCAgIB4IQUMBgsgA0EFdCEKIAEoAgQhAUGAgICAeCEGQYCAgIB4IQUDQAJAAkACQAJAAkACQAJAAkBBFSABKAIAIgNBgICAgHhzIANBAE4bQQFrDg8BAAACAAAAAAAAAAMEBQYACyABIAJBH2pBlOXAABCVCCEDIAJBAToABCACIAM2AggMBgsgAkEAOgAEIAJBAyABQQRqLQAAIgMgA0EDTxs6AAUMBQsgAkEAOgAEIAJCAyABQQhqKQMAIhAgEEIDWhs8AAUMBAsgAUEIaigCACEDAn8CQAJAAkACQCABQQxqKAIAQQVrDgQAAwMBAwsgA0GQ/cAAQQUQ2wcNAUEADAMLIAMpAABC496Rq6bs27frAFINAUEBDAILIANB6P7AAEEFENsHDQBBAgwBC0EDCyEDIAJBADoABCACIAM6AAUMAwsgAUEEaigCACEDAn8CQAJAAkACQCABQQhqKAIAQQVrDgQAAwMBAwsgA0GQ/cAAQQUQ2wcNAUEADAMLIAMpAABC496Rq6bs27frAFINAUEBDAILIANB6P7AAEEFENsHDQBBAgwBC0EDCyEDIAJBADoABCACIAM6AAUMAgsgAkEEaiABQQhqKAIAIAFBDGooAgAQygUMAQsgAkEEaiABQQRqKAIAIAFBCGooAgAQygULIAItAARBAUYNBSABQRBqIQMCQAJAAkACQCACLQAFQQFrDgMBAgMACyAGQYCAgIB4RwRAQZD9wABBBRCfByEDQQEMCwsgAkEEaiADEKAEIAIoAgghAyACKAIEIgZBgICAgHhGBEBBgICAgHghBkEBDAsLIAIoAhghCyACKAIUIQkgAigCECEHIAIoAgwhDCADIQgMAgsgBUGAgICAeEcEQEGY/sAAQQgQnwchA0EBDAoLIAJBBGogAxDQAyACKAIIIQQgAigCBCIFQYCAgIB4RgRAQQEhCiAEIQMMDAsgAigCDCEODAELIA1FBEAgAkEEaiADEKUDIAItAARBAUYNByACLQAFIQ9BASENDAELQej+wABBBRCfByEDQQEMCAsgAUEgaiEBIApBIGsiCg0ACwwDC0EBQYz/wABBgP3AABDbBiEDDAkLQQBBjP/AAEGA/cAAENsGIQMMCQsgASACQR9qQcTjwAAQlQghAwwICyAGQYCAgIB4Rg0BIAIgCzYCGCACIAk2AhQgAiAHNgIQIAIgDDYCDCACIAg2AgggAiAGNgIEAkAgBUGAgICAeEYiAUUEQCANDQdB6P7AAEEFEJwHIQMgBUUNASAEIAVBAnRBBBCiBwwBC0GY/sAAQQgQnAchAwsgAkEEahDmBUEADAMLIAIoAgghA0EBDAELQYCAgIB4IQZBkP3AAEEFEJwHIQNBAQshAUEBCyEKIAVB/////wdxRSABRXINAAJAIARBBGsoAgAiAUF4cSILIAVBAnQiBUEEQQggAUEDcSIBG2pPBEAgAUEAIAsgBUEnaksbDQEgBBCiAgwCCwwHCwwFCyAKRSAGQYCAgIB4RnINAgJAIAYEQCAIQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyAGakkNByABQQAgBCAGQSdqSxsNBiAIEKICCyAHRQ0DIAlBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAdqSQ0GIAFBACAEIAdBJ2pLGw0AIAkQogIMAwsMBAsgACAENgIcIAAgBTYCGCAAIAs2AhQgACAJNgIQIAAgBzYCDCAAIAw2AgggACAINgIEIAAgBjYCACAAIA6tIA+tQv8Bg0IghoQ3AiAMAgsgBgRAIAhBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAZqSQ0EIAFBACAEIAZBJ2pLGw0DIAgQogILIAdFDQAgCUEEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgB2pJDQMgAUEAIAQgB0EnaksbDQIgCRCiAgsgAEGBgICAeDYCACAAIAM2AgQLIAJBIGokAA8LQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC4YRAg1/AX4jAEHgAGsiAiQAAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiBEGAgICAeHMgBEEAThtBFGsOAgECAAsgASACQRhqQZTjwAAQlQghASAAQYCAgIB4NgIAIAAgATYCBAwHCyABKAIMIgZFDQICQCABKAIIIgUoAgBBlICAgHhGBEACQCAFKAIMIgEEQCACQcgAaiAFKAIIEKgDIAIoAkgiBEGAgICAeEcNASACKAJMIQEMCQtBACACQRhqQYTiwAAQ2wYhAQwICyACKAJMIQcgAUEBRg0BIAJBATYCSCABQQFrQf////8AcUEBaiACQcgAakHolcEAENsGIQEgBEUNByAHIARBARCiBwwHCyAFIAJBGGpBhOLAABCVCCEBDAYLIAZBAUYNASACKAJQIQkgAkHIAGoiAyAFQRBqEKECIAIoAkwhASACKAJIDQQgAkEQaiACQdgAaigCADYCACACIAIpAlA3AwgCQCAGQQJHBEAgAyAFQSBqEKECIAIoAkwhBSACKAJIRQ0BIAUhAQwGC0ECQZD+wABBgP3AABDbBiEBDAULIAJBMGoiAyACQdgAaigCADYCACACQUBrIgggAkEQaigCADYCACACIAIpAlA3AyggAiACKQMINwM4IAZBA0cEQCACQQM2AkggBkH9////AGpB/////wBxQQNqIAJByABqQeiVwQAQ2wYhASAAQYCAgIB4NgIAIAAgATYCBCAERQ0HIAcgBEEBEKIHDAcLIAAgAikDODcCECAAIAIpAyg3AiAgACAFNgIcIAAgATYCDCAAIAk2AgggACAHNgIEIAAgBDYCACAAQRhqIAgoAgA2AgAgAEEoaiADKAIANgIADAYLIAEoAgQhBCABKAIIIQEgAkEANgIUIAIgBCABQQV0aiIMNgIMAkACQAJAIAFFDQAgAkHQAGohCkGAgICAeCEIA0AgAiAEQSBqIgE2AgggAiACKAIUQQFqNgIUIAIgBEEQaiINNgIQAkACQAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAQRUgBCgCACIDQYCAgIB4cyADQQBOG0EBaw4PAA4OAQ4ODg4ODg4CAwQFDgsgBC0ABA4DCgUHDwsgBCkDCCIPQgJWDQ4gD6dBAWsOAgQGCQsgBCgCCCEDAkAgBCgCDEEEaw4CAAgOCyADKAAAQe3SuZsHRg0DIAMoAABB7cLhmwdGDQUMDQsgBCgCBCEDAkAgBCgCCEEEaw4CAAYNCyADKAAAQe3SuZsHRg0CIAMoAABB7cLhmwdGDQQMDAsgBCgCCCEDAkACQCAEKAIMQQRrDgIBAA0LIAMtAABB5gBHDQwgAy0AAUHpAEcNDCADLQACQewARw0MIAMtAANB5QBHDQwgAy0ABEHzAEcNDAwHCyADLQAAQe0ARw0LAkACQCADLQABQeEAaw4JAQ0NDQ0NDQ0ADQsgAy0AAkHuAEcNDCADLQADQfMARg0CDAwLIAMtAAJB+ABHDQsgAy0AA0HzAEYNAwwLCyAEKAIEIQMCQAJAIAQoAghBBGsOAgEADAsgAy0AAEHmAEcNCyADLQABQekARw0LIAMtAAJB7ABHDQsgAy0AA0HlAEcNCyADLQAEQfMARw0LDAYLIAMtAABB7QBHDQoCQCADLQABQeEAaw4JAgsLCwsLCwsACwsgAy0AAkHuAEcNCiADLQADQfMARw0KCyAGRQ0FQZX9wABBBBCfBwwICyADLQACQfgARw0IIAMtAANB8wBHDQgLIAtFDQRBmf3AAEEEEJ8HDAYLIANBkP3AAEEFENsHRQ0BDAYLIANBkP3AAEEFENsHDQULIAhBgICAgHhHBEBBkP3AAEEFEJ8HDAQLIAJByABqIAJBCGoQsgUgAigCTCEHIAIoAkgiCEGAgICAeEYEQCAHIQUMCQsgAigCUCEOIAIoAgwhDCACKAIIIQEMBQsgAkEANgIQIAJByABqIA0QoQIgAigCTCIFIAIoAkhBAUYNAhogAkEwaiAKQQhqKAIANgIAIAIgCikCADcDKEEBIQYMBAsgAkEANgIQIAJByABqIA0QoQIgAigCTCEJIAkgAigCSEEBRg0BGiACQUBrIApBCGooAgA2AgAgAiAKKQIANwM4QQEhCwwDCyAEIAJBGGpBhOXAABCVCAshBSAIQYCAgIB4ckGAgICAeEYNBAJAIAdBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAhqTwRAIAFBACAEIAhBJ2pLGw0BIAcQogIMBgtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAJBADYCEAsgDCABIgRHDQALIAhBgICAgHhGDQAgBkEAIAsbDQJBmf3AAEGV/cAAIAYbQQQQnAchBSAIRQ0BIAcgCEEBEKIHDAELQZD9wABBBRCcByEFCyAAIAU2AgQgAEGAgICAeDYCACAAIAIpA0g3AhAgAEEYaiACQdAAaigCADYCAAwDCyACQSBqIAJBQGsoAgA2AgAgAkHQAGogAkEwaigCACIBNgIAIAIgAikDODcDGCACIAIpAygiDzcDSCAAIAU2AgwgACAONgIIIAAgBzYCBCAAIAg2AgAgACAPNwIQIABBGGogATYCACAAIAk2AhwMAgtBAUGQ/sAAQYD9wAAQ2wYhAQwCC0EAQZD+wABBgP3AABDbBiEBDAILIAAgAikDGDcCICAAQShqIAJBIGooAgA2AgAMAgsgBEUNACAHQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyAEakkNAiAFQQAgBiAEQSdqSxsNAyAHEKICCyAAIAE2AgQgAEGAgICAeDYCAAsgAkHgAGokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+EOAgR/A34jAEGwBWsiBiQAIAYgAjYCECAGIAE2AgwgBiAFNgIYIAYgBDYCFAJAAkACQAJAIAMoAgxFDQAgAykDECADKQMYIAQgBRCVBCEKIAMoAgQiASAKp3EhAiAKQhmIQv8Ag0KBgoSIkKDAgAF+IQwgAygCACEHA0AgAiAHaikAACILIAyFIgpCf4UgCkKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIKUEUEQANAAkAgBSAHIAp6p0EDdiACaiABcUFobGoiCEEQaygCAEcNACAEIAhBFGsoAgAgBRDbBw0AQQAhAwwFCyAKQgF9IAqDIgpQRQ0ACwsgCyALQgGGg0KAgYKEiJCgwIB/g1BFDQEgAiAJQQhqIglqIAFxIQIMAAsACyAGIAZBFGqtQoCAgIAghCIKNwNAIAYgBkEMaq1CgICAgCCENwM4IAZCAjcCzAMgBkECNgLEAyAGQdTvxwA2AsADIAYgBkE4aiIENgLIAyAGQZgFaiIHIAZBwANqIgEQ7AMgBkEANgIkIAZCgICAgBA3AhwgBigCmAUhAiAEIAAgBigCnAUiBSAGKAKgBRDbAQJAAkACQAJAAkACQCAGKQM4QgNSBEAgASAEQcgB/AoAACAHIAEgBkEcahDXASAGKAKYBUEBRgRAIAYpApwFENIHIQMgARDDAQwCCyAGKAIYIgBBAEgNAiAGKAIUIQQCQCAARQRAQQEhAQwBCyAAEHEiAUUNBAsgAARAIAEgBCAA/AoAAAsgBiAANgKgBSAGIAE2ApwFIAYgADYCmAUgBkEoaiADIAZBmAVqIAZBHGoQ8gIgBigCKCIAQYCAgIB4ckGAgICAeEcEQCAGKAIsIgFBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIABqSQ0KIANBACAEIABBJ2pLGw0JIAEQogILIAZBwANqEMMBQQAhAwwFCwJAAkACQAJAQQEgBigCQCIEQf////8HaiAEQYCAgIB4TRsOAgABAwsgBi0AREEDRw0CIAYoAkgiASgCACEEIAFBBGooAgAiBygCACIIBEAgBCAIEQMACyAHKAIEIgcEQCAEQQRrKAIAIghBeHEiCUEEQQggCEEDcSIIGyAHakkNDCAIQQAgCSAHQSdqSxsNCyAEEKICCyABQQRrKAIAIgRBeHEiB0EQQRQgBEEDcSIEG0kNCyAERSAHQTRJcg0BDAoLIARBgICAgHhyQYCAgIB4Rg0BIAYoAkQiAUEEaygCACIHQXhxIghBBEEIIAdBA3EiBxsgBGpJDQogB0UNACAIIARBJ2pLDQkLIAEQogILIAZBwANqIAAgBigCFCAGKAIYENsBIAYgCjcDKCAGQgE3AqQFIAZBAjYCnAUgBkGA8McANgKYBSAGIAZBKGo2AqAFIAZBjAVqIAZBmAVqEOwDIAYpA8ADIgpCA1IEQCAGKALIAyEBIAZBhAJqIAZBzANqQbwB/AoAACAGKAKMBSIABEAgBigCkAUiBEEEaygCACIHQXhxIghBBEEIIAdBA3EiBxsgAGpJDQogB0EAIAggAEEnaksbDQkgBBCiAgsgBiABNgJAIAYgCjcDOCAGQcQAaiAGQYQCakG8AfwKAAAgBkHAA2ogBkE4aiIAIAZBHGoQ1wEgBigCwANBAUYEQCAGKQLEAxDSByEDIAAQwwEMAgsgBigCGCIAQQBIDQQgBigCFCEEAkAgAEUEQEEBIQEMAQsgABBxIgFFDQQLIAAEQCABIAQgAPwKAAALIAYgADYCyAMgBiABNgLEAyAGIAA2AsADIAZBmAVqIAMgBkHAA2ogBkEcahDyAiAGKAKYBSIAQYCAgIB4ckGAgICAeEcEQCAGKAKcBSIBQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyAAakkNCiADQQAgBCAAQSdqSxsNCSABEKICCyAGQThqEMMBIAJFBEBBACEDDAgLIAVBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIAJqSQ0JQQAhAyAARSABIAJBJ2pNcg0GDAgLIwBBMGsiACQAIAAQ5AggAEEgaiIDIAZBjAVqIgFBCGooAgA2AgAgAEEsaiAGQcgDaiIEQQhqKAIANgIAIAAgASkCADcDGCAAIAQpAgA3AiRBNBBxIgFFBEAACyABQcC1xwA2AgAgASAAKQIANwIEIAEgACkDGDcCHCABQQxqIABBCGr9AAIA/QsCACABQSRqIAP9AAMA/QsCACAAQTBqJAAgASEDCyAGKAIcIgBFDQMgBigCICIBQQRrKAIAIgRBeHEiB0EEQQggBEEDcSIEGyAAakkNByAEQQAgByAAQSdqSxsNBiABEKICDAMLQdiayAAQ/wcLAAtB2JrIABD/BwALIAJFDQEgBUEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgAmpPBEAgAEUgASACQSdqTXINAQwDCwwDCyAFEKICCyAGQbAFaiQAIAMPC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAumDwQRfwF8B30BbyMAQSBrIgIkACACIAE2AgACQAJAIAElARAQRQRAIAIgAkEfakH8hcEAEIADIQMgAEECOgAcIAAgAzYCACABIgNBgwhLDQEMAgtBAiEHAkADQCADIQUgBEFAaiEEAkACfwJAAkADQCAEQdzrwABqKAIAIgYgBEHg68AAaigCACIQEM8DIgghAyABJQEgAyUBEBEhGxDaBCIDIBsmAQJAIAMlARASBEAgCCUBIAElARATRQ0BCyAEQcgAaiEEAkACQAJAAkAgEEEGaw4FAAcHBwEHC0EAIAZB4OrAAEEGENsHRQ0HGiAGQebqwABBBhDbBw0BQQEMBwtBAiAGQezqwABBChDbB0UNBhogBkH26sAAQQoQ2wcNAUEDDAYLQQQgBkGA68AAQQYQ2wdFDQUaIAZBhuvAAEEGENsHDQNBBQwFCyAGQZLrwABBChDbBw0DQQcMBAsgA0GECE8EQCADEJsHCyAIQYQITwRAIAgQmwcLIARBCGoiBA0ACyAFIQMMAwtBBiAGQYzrwABBBhDbB0UNARoLQQgLIQUgCEGECE8EQCAIEJsHCwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAUOCAECAwQFBgcIAAsgA0GECEkNESADEJsHDBELIAkNByACIAM2AgQgAkEIaiADEK8KAn0gAigCCCIFBEAgAisDECITtkMAAIA/QwAAgL8gE71CAFkbmAwBCyACQQRqIAJBH2pB2OfAABCAA74LIRQgA0GECE8EQCADEJsHCyAFRQ0IQQEhCQwQCyAKDQ0gAiADNgIEIAJBCGogAxCvCgJ9IAIoAggiBQRAIAIrAxAiE7ZDAACAP0MAAIC/IBO9QgBZG5gMAQsgAkEEaiACQR9qQdjnwAAQgAO+CyEVIANBhAhPBEAgAxCbBwsgBQRAQQEhCgwQCyAAIBU4AgBBACEEDBILIAsNCyACIAM2AgQgAkEIaiADEK8KAn0gAigCCCIFBEAgAisDECITtkMAAIA/QwAAgL8gE71CAFkbmAwBCyACQQRqIAJBH2pB2OfAABCAA74LIRYgA0GECE8EQCADEJsHCyAFBEBBASELDA8LIAAgFjgCAEEAIQQMEQsgDA0JIAIgAzYCBCACQQhqIAMQrwoCfSACKAIIIgUEQCACKwMQIhO2QwAAgD9DAACAvyATvUIAWRuYDAELIAJBBGogAkEfakHY58AAEIADvgshFyADQYQITwRAIAMQmwcLIAUEQEEBIQwMDgsgACAXOAIAQQAhBAwQCyANDQcgAiADNgIEIAJBCGogAxCvCgJ9IAIoAggiBQRAIAIrAxAiE7ZDAACAP0MAAIC/IBO9QgBZG5gMAQsgAkEEaiACQR9qQdjnwAAQgAO+CyEYIANBhAhPBEAgAxCbBwsgBQRAQQEhDQwNCyAAIBg4AgBBACEEDA8LIA4NBSACIAM2AgQgAkEIaiADEK8KAn0gAigCCCIFBEAgAisDECITtkMAAIA/QwAAgL8gE71CAFkbmAwBCyACQQRqIAJBH2pB2OfAABCAA74LIRkgA0GECE8EQCADEJsHCyAFBEBBASEODAwLIAAgGTgCAEEAIQQMDgsgDw0DIAIgAzYCBCACQQhqIAMQrwoCfSACKAIIIgUEQCACKwMQIhO2QwAAgD9DAACAvyATvUIAWRuYDAELIAJBBGogAkEfakHY58AAEIADvgshGiADQYQITwRAIAMQmwcLIAUEQEEBIQ8MCwsgACAaOAIAQQAhBAwNCyAHQQJHBEAgAEGS68AAQQoQngc2AgAMCQsgAiADNgIIAkAgAxC6CiIHQf///wdHIgUEQCAFIAdBAEdxIREMAQsgAkEIaiACQR9qQYyGwQAQgAMhEgsgA0GECE8EQCADEJsHCyAFRQRAIAAgEjYCAEEAIQQMDQsgESEHDAkLIABB4OrAAEEGEJ4HNgIADAcLIAAgFDgCAEEAIQQMCgsgAEGM68AAQQYQngc2AgAMBQsgAEGG68AAQQYQngc2AgAMBAsgAEGA68AAQQYQngc2AgAMAwsgAEH26sAAQQoQngc2AgAMAgsgAEHs6sAAQQoQngc2AgAMAQsgAEHm6sAAQQYQngc2AgALQQEhBAwDCyAEQcAARw0BCwsgCUUEQCAAQeDqwABBBhCdBzYCAEEAIQQMAQsgCkUEQCAAQebqwABBBhCdBzYCAEEAIQQMAQsgC0UEQCAAQezqwABBChCdBzYCAEEAIQQMAQsgDEUEQCAAQfbqwABBChCdBzYCAEEAIQQMAQsgDUUEQCAAQYDrwABBBhCdBzYCAEEAIQQMAQsgDkUEQCAAQYbrwABBBhCdBzYCAEEAIQQMAQsgD0UEQCAAQYzrwABBBhCdBzYCAEEAIQQMAQsgB0ECRgRAIABBkuvAAEEKEJ0HNgIAQQAhBAwBCyAAIAc6ABwgACAaOAIYIAAgGTgCFCAAIBg4AhAgACAXOAIMIAAgFjgCCCAAIBU4AgQgACAUOAIAIAEiA0GDCEsNAQwCCyAAQQI6ABwgAUGECE8EQCABEJsHCyAEQQFzIANBhAhJcg0BCyADEJsHCyACQSBqJAALiA4CDn8FfSACIAFBAnRBBGsiCmohDSAAIApqIQsgACABQQF2Ig9BAnRqIgpBBGshDCADQQRqIRADQEMAAIA/IRMCfwJAIAooAgAiBCAQKAIAIgMoAggiBkkEQCAAKAIAIQkgAygCBCIIIARBGGxqIgQtABMiBSAELQASIgcgBC0AESIOIAcgDksbIgcgBSAHSxsiBQR9QwAAQMEgAyoCRCADLQBYQQJGIgcbIhJDAAAQQSADKgJIIAcbIBKTQwAAfkOVIAVBAWtB/wFxs5SSEIkEIhIgEpIFQwAAAAALIRUgBEEMai8BACIFQf//AXFFBEAgBUEQdAwDCyAFQf8HcSEEIAVBgIACcSEHIAVBgPgBcSIFQYD4AUYEQCAHQRB0IgVBgICA/AdyIARFDQMaIAUgBEENdHJBgICA/gdyDAMLIAdBEHQhByAFRQ0BIAVBDXRBgICA/ABxIARBDXRyQYCAgMADaiAHcgwCCyAEIAZB3LvHABCMBwALIAQgBGdBEGsiBEH//wNxQQhqdEH///8DcSAHQYCAgNgDciAEQRd0a3ILviISQwAAgD9eBEAgEhDGBUNU+C1AlEMAAIA/kpEhEwtDAACAPyESAn8CQCAGIAlLBEAgCCAJQRhsaiIELQATIgUgBC0AEiIGIAQtABEiCSAGIAlLGyIGIAUgBksbIgUEfUMAAEDBIAMqAkQgAy0AWEECRiIGGyIUQwAAEEEgAyoCSCAGGyAUk0MAAH5DlSAFQQFrQf8BcbOUkhCJBCIUIBSSBUMAAAAACyEUIARBDGovAQAiBEH//wFxRQRAIARBEHQMAwsgBEH/B3EhAyAEQYCAAnEhBSAEQYD4AXEiBEGA+AFGBEAgBUEQdCIEQYCAgPwHciADRQ0DGiAEIANBDXRyQYCAgP4HcgwDCyAFQRB0IQUgBEUNASAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogBXIMAgsgCSAGQdy7xwAQjAcACyADIANnQRBrIgNB//8DcUEIanRB////A3EgBUGAgIDYA3IgA0EXdGtyC74iFkMAAIA/XgRAIBYQxgVDVPgtQJRDAACAP5KRIRILIAIgCiAAIBUgE5QiEyATWyATIBQgEpRgRXEiBxsoAgA2AgBDAACAPyETAn8CQCALKAIAIgQgECgCACIDKAIIIgZJBEAgDCgCACEJIAMoAgQiDiAEQRhsaiIELQATIgUgBC0AEiIIIAQtABEiESAIIBFLGyIIIAUgCEsbIgUEfUMAAEDBIAMqAkQgAy0AWEECRiIIGyISQwAAEEEgAyoCSCAIGyASk0MAAH5DlSAFQQFrQf8BcbOUkhCJBCISIBKSBUMAAAAACyEVIARBDGovAQAiBUH//wFxRQRAIAVBEHQMAwsgBUH/B3EhBCAFQYCAAnEhCCAFQYD4AXEiBUGA+AFGBEAgCEEQdCIFQYCAgPwHciAERQ0DGiAFIARBDXRyQYCAgP4HcgwDCyAIQRB0IQggBUUNASAFQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogCHIMAgsgBCAGQdy7xwAQjAcACyAEIARnQRBrIgRB//8DcUEIanRB////A3EgCEGAgIDYA3IgBEEXdGtyC74iEkMAAIA/XgRAIBIQxgVDVPgtQJRDAACAP5KRIRMLQwAAgD8hEgJ/AkAgBiAJSwRAIA4gCUEYbGoiBC0AEyIFIAQtABIiBiAELQARIgkgBiAJSxsiBiAFIAZLGyIFBH1DAABAwSADKgJEIAMtAFhBAkYiBhsiFEMAABBBIAMqAkggBhsgFJNDAAB+Q5UgBUEBa0H/AXGzlJIQiQQiFCAUkgVDAAAAAAshFCAHRSEGIARBDGovAQAiBEH//wFxRQRAIARBEHQMAwsgBEH/B3EhAyAEQYCAAnEhBSAEQYD4AXEiBEGA+AFGBEAgBUEQdCIEQYCAgPwHciADRQ0DGiAEIANBDXRyQYCAgP4HcgwDCyAFQRB0IQUgBEUNASAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogBXIMAgsgCSAGQdy7xwAQjAcACyADIANnQRBrIgNB//8DcUEIanRB////A3EgBUGAgIDYA3IgA0EXdGtyC74iFkMAAIA/XgRAIBYQxgVDVPgtQJRDAACAP5KRIRILIAdBAnQgCmohCiAGQQJ0IABqIQAgAkEEaiECIA0gDCALIBUgE5QiEyATWyATIBQgEpRgRXEiAxsoAgA2AgAgDCADQQJ0IgNrIQwgAyALakEEayELIA1BBGshDSAPQQFrIg8NAAsgDEEEaiEDIAFBAXEEfyACIAAgCiAAIANJIgEbKAIANgIAIAogACADT0ECdGohCiAAIAFBAnRqBSAACyADRyAKIAtBBGpHckUEQA8LEIAIAAvnEAILfwF+IwBBIGsiAyQAAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiBEGAgICAeHMgBEEAThtBFGsOAgECAAsgASADQRRqQeTjwAAQlQghASAAQYCAgIB4NgIAIAAgATYCBAwHCwJAAkACfwJAIAEoAgwiCARAAkAgASgCCCIFKAIAQZSAgIB4RgRAAkAgBSgCDCIEBEAgA0EEaiAFKAIIEKgDIAMoAgQiAUGAgICAeEcNASADKAIIIQQMBwtBACADQRRqQYTiwAAQ2wYhBAwGCyADKAIIIQIgBEEBRg0BIANBATYCBCAEQQFrQf////8AcUEBaiADQQRqQeiVwQAQ2wYhBCABRQ0FIAIgAUEBEKIHDAULIAUgA0EUakGE4sAAEJUIIQQMBAsgCEEBRg0BIAMoAgwhCUGAgICAeCEGAkACfwJAAkBBFSAFQRBqIgooAgAiC0GAgICAeHMgC0EAThtBEGsOAwMBAwALIANBBGogChCoA0GBgICAeCADKAIEIgQgBEGBgICAeEwbDAELIANBBGogBSgCFBCoA0GBgICAeCADKAIEIgQgBEGBgICAeEwbCyEGIAMoAgwhByADKAIIIgQgBkH/////B2pBAkkNAxoLIAhBAkYNBCADQQI2AgQgCEH+////AGpB/////wBxQQJqIANBBGpB6JXBABDbBiEFIABBgICAgHg2AgAgACAFNgIEIAEEQCACIAFBARCiBwsgBkGAgICAeHJBgICAgHhGDQsgBCAGQQEQogcMCwtBAEHs/cAAQYD9wAAQ2wYhBAwCC0EBQez9wABBgP3AABDbBgshBCABRQ0AIAJBBGsoAgAiBkF4cSIFQQRBCCAGQQNxIgYbIAFqSQ0KIAZBACAFIAFBJ2pLGw0JIAIQogILIAAgBDYCBCAAQYCAgIB4NgIADAcLIAAgBzYCFCAAIAQ2AhAgACAGNgIMIAAgCTYCCCAAIAI2AgQgACABNgIADAYLIAEoAgghBCABKAIEIQEgA0IANwIMIAMgATYCBCADIAEgBEEFdGoiCjYCCCAERQRAQYGAgIB4IQUMAgtBgICAgHghB0GBgICAeCEFA0AgAyABQSBqIgQ2AgQgAyADKAIQQQFqNgIQIAMgAUEQaiILNgIMAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiAkGAgICAeHMgAkEAThtBAWsODwAGBgEGBgYGBgYGAgMEBQYLIAEtAAQiAkUNCEEBQQIgAkEBRhshAgwLCyABKQMIIg1QDQdBAUECIA1CAVEbIQIMCgsgASgCCCECIAEoAgxBBWsOBAULCwcLCyABKAIEIQICQCABKAIIQQVrDgQECwsACwsgAikAAELl3I37xqyat+cAUQ0JDAoLIAEoAgghAgJAAkAgASgCDEEFaw4EAAsLAQsLIAItAABB5gBHDQogAi0AAUHpAEcNCiACLQACQewARw0KIAItAANB5QBHDQogAi0ABEHzAEcNCgwFCyACLQAAQeUARw0JIAItAAFB7gBHDQkgAi0AAkHjAEcNCSACLQADQe8ARw0JIAItAARB5ABHDQkgAi0ABUHpAEcNCSACLQAGQe4ARw0JIAItAAdB5wBGDQgMCQsgASgCBCECAkACQCABKAIIQQVrDgQACgoBCgsgAi0AAEHmAEcNCSACLQABQekARw0JIAItAAJB7ABHDQkgAi0AA0HlAEcNCSACLQAEQfMARw0JDAQLIAItAABB5QBHDQggAi0AAUHuAEcNCCACLQACQeMARw0IIAItAANB7wBHDQggAi0ABEHkAEcNCCACLQAFQekARw0IIAItAAZB7gBHDQggAi0AB0HnAEYNBwwICyABIANBFGpB5OTAABCVCCEBDA0LIAJBkP3AAEEFENsHDQYMAQsgAkGQ/cAAQQUQ2wcNBQsgB0GAgICAeEYNAUGQ/cAAQQUQnwchAQwKCyACKQAAQuXcjfvGrJq35wBRDQIMAwsgA0EUaiADQQRqELIFIAMoAhghASADKAIUIgdBgICAgHhGBEBBgICAgHghBwwJCyADKAIcIQwgAygCCCEKIAMoAgQhBCABIQYMBAsgAkECRg0BCyAFQYGAgIB4Rg0BQcj9wABBCBCfByEBIAVBgICAgHhyQYCAgIB4Rg0IDAcLIANBADYCDAwBCyADQQA2AgxBgICAgHghBQJ/AkACQEEVIAsoAgAiAkGAgICAeHMgAkEAThtBEGsOAwMBAwALIANBFGogCxCoAyAIIAMoAhwgAygCFCIBQYCAgIB4RhshCEGBgICAeCABIAFBgYCAgHhMGwwBCyADQRRqIAEoAhQQqAMgCCADKAIcIAMoAhQiAUGAgICAeEYbIQhBgYCAgHggASABQYGAgIB4TBsLIQUgAygCGCIJIQEgBUGBgICAeEYNBgsgCiAEIgFHDQALDAALIAdBgICAgHhGDQAgACAINgIUIAAgCTYCECAAIAw2AgggACAGNgIEIAAgBzYCACAAQYCAgIB4IAUgBUGBgICAeEYbNgIMDAQLQYCAgIB4IQdBkP3AAEEFEJwHIQELIAVFIAVBgoCAgHhIcg0BCyAJQQRrKAIAIgRBeHEiAkEEQQggBEEDcSIEGyAFakkNAyAEQQAgAiAFQSdqSxsNAiAJEKICCyAHQYCAgIB4ckGAgICAeEcEQCAGQQRrKAIAIgRBeHEiBUEEQQggBEEDcSIEGyAHakkNAyAEQQAgBSAHQSdqSxsNAiAGEKICCyAAQgA3AhAgACABNgIEIABBgICAgHg2AgALIANBIGokAA8LQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC7QPAgl/BH4jAEHgAmsiASQAAkACQAJAIAAtAIAERQRAIAAoApABIgJBAkcNAiAAKAIAQQJHDQIgACgCuAIiA0EDSw0BQQAhAgwDCyAANQK4AiEKIABBADYCuAIgACAKIAApA3B8NwNwDAILIABBkAFqIQggASAAKAK0AiIEKAAAIgI2AhACQAJAAkACQAJAAkACQAJAAkAgAkHSgpGaBEcEQCACQdKCkYIDRw0CIANBCEkNASADIAQoAAQiBUEHakF4cUEIaiICSQ0BIAVBCGoiBiADSyAFQXdLcg0DIAFBADYC2AIgASAFNgLUAiABIARBCGo2AtACIAFBIGogAUHQAmoQWSABKAIkIQUgASgCICIHQQJGBEAgBRDOByECDAwLIAFBsAFqIAFBKGpBgAH8CgAAIABBADYCuAIgASAFNgKsASABIAc2AqgBIAMgAmshBgJAAkAgAkUNACACIANGDQEgBkUNACAEIAIgBGogBvwKAAALIAAgBjYCuAILIAAgACkDcCACrXwiCjcDeCAAIAo3A3AgASgCpAJBAUcNBCAAIAEoApQCIgQ2ApwCIAAgASgCtAEgASgCwAEiAyABKAKwARsiAjYCoAIgAkUNBSAEIAMgAm4iBCACIARsIANHaiICRgRAIAEtAKgCIQIgASAFQQAgB0EBcRs2AiQgASADNgIgIAEgAkEBcToAKCAAQbwCaiABQSBqEOEDAkAgACgCkAFBAkYNACAAKAL4ASEEIAAoAvwBIgMEQCAEQSRqIQIDQCACQQRrKAIAIgVBgICAgHhyQYCAgIB4RwRAIAIoAgAiBkEEaygCACIHQXhxIglBBEEIIAdBA3EiBxsgBWpJDQsgB0EAIAkgBUEnaksbDQwgBhCiAgsgAkEwaiECIANBAWsiAw0ACwsgACgC9AEiAwRAIAQgA0EwbEEIEKIHCyAAKAKAAiIDQYCAgIB4ckGAgICAeEYNACAAKAKEAiADQQEQogcLIAggAUGoAWpBiAH8CgAADAoLIAEgAjYCzAIgAUECNgIkIAFB6MfBADYCICABQgI3AiwgAUKAgICAECIKIABBnAJqrYQ3A9gCIAEgCiABQcwCaq2ENwPQAiABIAFB0AJqNgIoIAFBwAJqIgAgAUEgahCxBgwICyABQQhqIAAQtwIgAS0ACEUEQCABLQAJDQlBACECDAsLIAEoAgwhAgwKC0EAIQIMCQsgAUEBNgI0IAFBzMjBADYCMCABQQE2AiQgAUHEyMEANgIgIAFBATYCLCABIAFBEGqtQoCAgICQBIQ3A9ACIAEgAUHQAmo2AiggAUEUaiIAIAFBIGoQsQYgABCOByECDAgLQQggBiADQZzIwQAQ6gcACyABQQE2AiQgAUGUyMEANgIgIAFCATcCLCABIAFBpAJqrUKAgICAEIQ3A9ACIAEgAUHQAmo2AiggAUG0AmoiACABQSBqELEGDAMLQbTHwQAQgQgAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgABCOByECIAFBqAFqEM8EDAILIAgoAgAhAgsCQAJAAkACQAJ/AkAgAkECRwRAIAAoApgCIAAoApwCTw0GIAAoAgBBAkYNAUEADAILIAFBqAFqIAAQNiABKAKsAUEAIAEtAKgBIgMbIQIgAw0GIAEtAKkBQQFxRQ0GIAApA4gBIgwgACkDcCIKWARAIAAoArgCIQMMBQsgACgCuAIhBEEAIQMgAEEANgK4AiAEIAwgCn0iCyAErSINIAsgDVQbIgunIgVrIQIgC1BFBEAgBCAFRg0EIAJFDQMgACgCtAIiAyADIAVqIAL8CgAADAMLIAQgBUcNAgwDC0EBCyECA0ACQAJAAkACQAJAAkACQAJAAkACQAJAIAJFBEAgAUGoAWogABA2IAEoAqwBIQMgAS0AqAEiAg0CIAEtAKkBQQFxRQ0CIAApA4gBIgogACkDcCIMVg0BDAYLIAFBqAFqIAAQtwIgAS0AqAFBAUYEQCABKAKsASECDBELIAEtAKkBDQlBACECDBALIAAoArgCIQMgAEEANgK4AiADIAogDH0iCyADrSINIAsgDVQbIgunIgJrIQQgC1ANASACIANGDQMgBEUNAiAAKAK0AiIDIAIgA2ogBPwKAAAMAgsgA0EAIAIbIQIMDgsgAiADRg0BCyAAIAQ2ArgCCyAAIAsgDHwiDDcDcCAKIAxWDQELAkAgACgCAEECRg0AIAAoAlwiA0UNACAAKAJgIgJBBGsoAgAiBEF4cSIFIANBKGwiA0EEQQggBEEDcSIEG2pJDQIgBEEAIAUgA0EnaksbDQMgAhCiAgsgAEECNgIAIAAgACgCmAJBAWoiAzYCmAIgAyAAKAKcAkkNBAwJC0EAIQIMCQtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQQAhAgwBC0EBIQIMAAsACyAAIAI2ArgCIAIhAwsgACAKIAt8Igo3A3AgCiAMWg0AQQAhAgwCC0EAIQIgAEEANgK4AiAAQQE6AIAEIAAgCiADrXw3A3AMAQsgAEEBOgCABCAANQK4AiEKQQAhAiAAQQA2ArgCIAAgCiAAKQNwfDcDcAsgAUHgAmokACACC5sMAgh/BH4gACgCFCEDIAAoAhAhBSAAKQMIIQsgACgCBCEJIAAoAgAhCCAAKAIYIgJBAEgEQCAFIAlJBEAgCCAFQQJ0aigAACEGCyAGQRh0IAZBgP4DcUEIdHIgBkEIdkGA/gNxIAZBGHZycq0gC0IghoQhCyAFQQFqIQUgAkEgaiECCyALIAMgA0EBdiIDayIErSACQT9xrYYiDEIAIAsgDFoiBht9IQogAiADIAQgBhsiA2ciAkEYayIEQQAgAiAETxsiBGshAiADIAR0IQQCQCABQf8BcUECSQ0AIAJBAEgEQEEAIQYgBSAJSQRAIAggBUECdGooAAAhBgsgBkEYdCAGQYD+A3FBCHRyIAZBCHZBgP4DcSAGQRh2cnKtIApCIIaEIQogBUEBaiEFIAJBIGohAgsgCiAEIARBAXYiBmsiBK0gAkE/ca2GIg1CACAKIA1aIgMbfSEKIAIgBiAEIAMbIgZnIgJBGGsiBEEAIAIgBE8bIgRrIQIgBiAEdCEEIANBAkEAIAsgDFobciEGIAFB/wFxQQJGDQAgAkEASARAQQAhAyAFIAlJBEAgCCAFQQJ0aigAACEDCyADQRh0IANBgP4DcUEIdHIgA0EIdkGA/gNxIANBGHZycq0gCkIghoQhCiAFQQFqIQUgAkEgaiECCyAKIAQgBEEBdiIEayIHrSACQT9xrYYiC0IAIAogC1oiAxt9IQogAiAEIAcgAxsiBGciAkEYayIHQQAgAiAHTxsiB2shAiAEIAd0IQQgAyAGQQF0ciEGIAFB/wFxQQRJDQAgAkEASARAQQAhAyAFIAlJBEAgCCAFQQJ0aigAACEDCyADQRh0IANBgP4DcUEIdHIgA0EIdkGA/gNxIANBGHZycq0gCkIghoQhCiAFQQFqIQUgAkEgaiECCyAKIAQgBEEBdiIEayIHrSACQT9xrYYiC0IAIAogC1oiAxt9IQogAiAEIAcgAxsiBGciAkEYayIHQQAgAiAHTxsiB2shAiAEIAd0IQQgAyAGQQF0ciEGIAFB/wFxQQRGDQAgAkEASARAQQAhAyAFIAlJBEAgCCAFQQJ0aigAACEDCyADQRh0IANBgP4DcUEIdHIgA0EIdkGA/gNxIANBGHZycq0gCkIghoQhCiAFQQFqIQUgAkEgaiECCyAKIAQgBEEBdiIEayIHrSACQT9xrYYiC0IAIAogC1oiAxt9IQogAiAEIAcgAxsiBGciAkEYayIHQQAgAiAHTxsiB2shAiAEIAd0IQQgAyAGQQF0ciEGIAFB/wFxQQZJDQAgAkEASARAQQAhAyAFIAlJBEAgCCAFQQJ0aigAACEDCyADQRh0IANBgP4DcUEIdHIgA0EIdkGA/gNxIANBGHZycq0gCkIghoQhCiAFQQFqIQUgAkEgaiECCyAKIAQgBEEBdiIEayIHrSACQT9xrYYiC0IAIAogC1oiAxt9IQogAiAEIAcgAxsiBGciAkEYayIHQQAgAiAHTxsiB2shAiAEIAd0IQQgAyAGQQF0ciEGIAFB/wFxQQZGDQAgAkEASARAQQAhAyAFIAlJBEAgCCAFQQJ0aigAACEDCyADQRh0IANBgP4DcUEIdHIgA0EIdkGA/gNxIANBGHZycq0gCkIghoQhCiAFQQFqIQUgAkEgaiECCyAKIAQgBEEBdiIEayIHrSACQT9xrYYiC0IAIAogC1oiAxt9IQogAiAEIAcgAxsiBGciAkEYayIHQQAgAiAHTxsiB2shAiAEIAd0IQQgAyAGQQF0ciEGIAFB/wFxQQhJDQAgAkEASARAQQAhAyAFIAlJBEAgCCAFQQJ0aigAACEDCyADQRh0IANBgP4DcUEIdHIgA0EIdkGA/gNxIANBGHZycq0gCkIghoQhCiAFQQFqIQUgAkEgaiECCyAKIAQgBEEBdiIEayIIrSACQT9xrYYiC0IAIAogC1oiAxt9IQogAiAEIAggAxsiBGciAkEYayIIQQAgAiAITxsiCGshAiAEIAh0IQQgAyAGQQF0ciEGCyAFIAlNBEAgACACNgIYIAAgBDYCFCAAIAU2AhAgACAKNwMIIAYPCyAAIAEQ8AcLyA0CDH8BfiMAQdAAayIIJAAgCEEQaiAAKAIEIgYgACgCCCICQficxgBBCRDhAQJAAkACQCAIKAIQQQFGBEAgCEEYaiEHIAgoAkwhAyAIKAJIIQkgCCgCRCEEIAgoAkAhBSAIKAI0QX9GDQEgCEEEaiAHIAUgBCAJIANBABDeAwwCCyAIAn9BACAILQAeDQAaIAgtAB0hCgJAIAgoAhgiAQRAIAgoAkAhDAJAIAgoAkQiBSABTQRAIAEgBUYNAQwHCyABIAxqLAAAQUBIDQYLIAEgDGoiB0EBaywAACIEQQBIBEAgBEE/cQJ/IAdBAmstAAAiCcAiC0G/f0oEQCAJQR9xDAELIAtBP3ECfyAHQQNrLQAAIgPAIglBv39KBEAgA0EPcQwBCyAJQT9xIAdBBGstAABBB3FBBnRyC0EGdHILQQZ0ciEECyAKQQFxDQECf0F/IARBgAFJDQAaQX4gBEGAEEkNABpBfUF8IARBgIAESRsLIAFqIgFFBEBBACEBDAILAkAgASAFTwRAIAEgBUcNBwwBCyABIAxqLAAAQUBIDQYLIAEgDGoiCUEBaywAAEEATg0BIAlBAmssAAAaDAELQQAiASAKQQFxRQ0BGgsgCCABNgIIQQELNgIEDAELIAhBBGogByAFIAQgCSADQQEQ3gMLAkACQAJAAkAgCCgCBEEBRgRAIAgoAggiCUEJaiIFIQEDQAJAIAFFDQAgASACTwRAIAEgAkYNAQwHCyABIAZqLAAAQUBIDQYLAkAgASACRgR/IAIFIAEgBmotAABBMGtB/wFxQQpJDQEgAQshBCABRQ0DAkAgAiAETQRAIAIgBEcNAQwFCyAEIAZqLAAAQb9/Sg0ECyAGIAIgBCACQZSdxgAQuwkACyABQQFqIQEMAAsAC0EAIQoMAQtBACEKIAIgBGtBCEkNACAEIAZqIgcpAABCoMa949aum7cgUg0AIARBCGoiCyEDAkACQAJAAkADQAJAIANFDQAgAiADTQRAIAIgA0YNAQwICyADIAZqLAAAQUBIDQcLAkACQAJAIAIgA0YEQCACIQMMAQsgAyAGai0AAEEwa0H/AXFBCkkNASACIANLDQgLIAQgBUkNAyAFRQ0BIAUgBmosAABBv39KDQEMAwsgA0EBaiEDDAELCyABBEAgBywAAEFASA0BCyAFIAZqIQECQAJAAkAgBCAFayIEDgIHAAELQQEhByABLQAAQStrDgMGAQYBCyABLQAAQStGBEAgBEEBayEHIAFBAWohASAEQQpJDQEMAwsgBCEHIARBCU8NAgtBACEEA0AgAS0AAEEwayIFQQlLDQQgAUEBaiEBIAUgBEEKbGohBCAHQQFrIgcNAAsMAgsgBiACIAUgBEG8ncYAELsJAAtBACEEA0AgB0UNASABLQAAQTBrIgVBCUsNAiAErUIKfiINQiCIpw0CIAFBAWohASAHQQFrIQcgBSANp2oiBCAFTw0ACwwBCwJAAkAgAyALSQ0AIAsEQCACIAtNBEAgAiADRg0DDAILIAIgA0cNASAGIAtqLAAAQUBIDQEMAgsgAiADRg0BCyAGIAIgCyADQcydxgAQuwkACyAGIAtqIQECQAJAAkACQAJAIAIgC2siBQ4CBgABC0EBIQMgAS0AAEEraw4DBQEFAQsgAS0AAEErRgRAIAVBAWshAyABQQFqIQEgBUEKSQ0BDAILIAUiA0EJTw0BC0EAIQUDQCABLQAAQTBrIgdBCUsNBCABQQFqIQEgByAFQQpsaiEFIANBAWsiAw0ACwwBC0EAIQUDQCADRQ0BIAEtAABBMGsiB0EJSw0DIAWtQgp+Ig1CIIinDQMgAUEBaiEBIANBAWshAyAHIAcgDadqIgVNDQALDAILQQEhCiACIAlJDQEgCUUEQCAJIQIMAgsgAiAJTQRAIAkhAgwCCyAJIgIgBmosAABBv39KDQFB5J/GAEEwQdydxgAQ6wcACwsCQAJAAkACQCAAKAIAIgMgAk0NACACRQRAIAZBBGsoAgAiAEF4cSIJQQRBCCAAQQNxIgAbIANqSQ0CIABBACAJIANBJ2pLGw0DIAYQogJBASEGDAELIAYgA0EBIAIQuwIiBkUNAwtBFBBxIgBFDQIgACACNgIIIAAgBjYCBCAAQQA2AgAgACAFQQAgChs2AhAgACAEQQAgChs2AgwgCEHQAGokACAADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwsACyAGIAIgAyACQaydxgAQuwkACyAGIAIgASACQYSdxgAQuwkACyAMIAVBACABQfylxgAQuwkAC4kOAw5/BH4BeyMAQSBrIgokAAJAAkACQCAAKAIMIgsgAWoiASALTwRAAkAgACgCBCIIIAhBAWoiCUEDdiIDQQdsIg4gCEEISRsiBkEBdiABSQRAAkACQAJAAkACfyAGQQFqIgMgASABIANJGyIBQQ9PBEAgAUH/////AUsNC0F/IAFBA3RBB25BAWtndkEBagwBC0EEIAFBCHFBCGogAUEESRsLIgGtQhR+IhFCIIinDQAgEadBB2pBeHEiAyABQQhqIgZqIgUgA0kgBUH4////B0tyDQAgBRBxIgVFDQEgAyAFaiEEIAYEQCAEQf8BIAb8CwALIAFBAWsiCSABQQN2QQdsIAlBCEkbIQwgACgCACEFIAsNAkEAIQsMAwsgCkEANgIYIApBATYCDCAKQcS1xAA2AgggCkIENwIQIApBCGpBmLXEABCNCAsACyAEQQhqIQ0gBUEUayEOIAUpAwBCf4VCgIGChIiQoMCAf4MhESACKQMIIRMgAikDACEUQQAhASALIQIgBSEGA0AgEVAEQANAIAFBCGohASAGQQhqIgYpAwBCgIGChIiQoMCAf4MiEUKAgYKEiJCgwIB/UQ0ACyARQoCBgoSIkKDAgH+FIRELIAQgCSAUIBMgDiAReqdBA3YgAWoiD0FsbGoiA0EEaigCACADQQhqKAIAEJUEpyIQcSIDaikAAEKAgYKEiJCgwIB/gyISUARAQQghBwNAIAMgB2ohAyAHQQhqIQcgBCADIAlxIgNqKQAAQoCBgoSIkKDAgH+DIhJQDQALCyARQgF9IBGDIREgBCASeqdBA3YgA2ogCXEiA2osAABBAE4EQCAEKQMAQoCBgoSIkKDAgH+DeqdBA3YhAwsgAyAEaiAQQRl2Igc6AAAgDSADQQhrIAlxaiAHOgAAIAQgA0F/c0EUbGoiA0EQaiAFIA9Bf3NBFGxqIgdBEGooAAA2AAAgAyAH/QAAAP0LAAAgAkEBayICDQALCyAAIAk2AgQgACAENgIAIAAgDCALazYCCCAIRQ0BIAggCEEUbEEbakF4cSIBakEJaiIARQ0BIAUgAWsiAUEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAGpJDQMgAkEAIAMgAEEnaksbDQQgARCiAgwBCyAAIAkEfyAAKAIAIQACQAJAIAMgCUEHcUEAR2oiBUECSQRAIAUhBgwBCyAFQQFxIQYgBUH+////A3EiBEEDdCEHIAQhAyAAIQEDQCABIAH9AAMAIhX9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gFf0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACABQRBqIQEgA0ECayIDDQALIAQgBUYNAQsgACAHaiEBA0AgASABKQMAIhFCf4VCB4hCgYKEiJCgwIABgyARQv/+/fv379+//wCEfDcDACABQQhqIQEgBkEBayIGDQALCwJAIAlBCE8EQCAAIAlqIAApAAA3AAAMAQsgCUUNACAAQQhqIAAgCfwKAAALIABBCGohBSACKQMIIRIgAikDACETQQEhA0EAIQEDQCABIQYgAyEBAkAgACAGaiIMLQAAQYABRw0AIAAgBkF/c0EUbGohAyAAIAZBbGxqIgJBDGshDyACQRBrIRADQCAIIBMgEiAQKAIAIA8oAgAQlQSnIg1xIgQhAiAAIARqKQAAQoCBgoSIkKDAgH+DIhFQBEBBCCEHA0AgAiAHaiECIAdBCGohByAAIAIgCHEiAmopAABCgIGChIiQoMCAf4MiEVANAAsLIAAgEXqnQQN2IAJqIAhxIgJqLAAAQQBOBEAgACkDAEKAgYKEiJCgwIB/g3qnQQN2IQILIAIgBGsgBiAEa3MgCHFBCE8EQCAAIAJqIgQtAAAgBCANQRl2IgQ6AAAgBSACQQhrIAhxaiAEOgAAIAAgAkF/c0EUbGohAkH/AUYEQCAMQf8BOgAAIAUgCCAGQQhrcWpB/wE6AAAgAkEQaiADQRBqKAAANgAAIAIgA/0AAAD9CwAADAMLIAMoAAAhBCADIAIoAAA2AAAgAiAENgAAIAIoAAQhBCACIAMoAAQ2AAQgAyAENgAEIAMoAAghBCADIAIoAAg2AAggAiAENgAIIAIoAAwhBCACIAMoAAw2AAwgAyAENgAMIAMoABAhBCADIAIoABA2ABAgAiAENgAQDAELCyAMIA1BGXYiAjoAACAFIAggBkEIa3FqIAI6AAALIAEgASAJSSICaiEDIAINAAsgCCAOIAhBCEkbBUEACyALazYCCAsgCkEgaiQADwsMAgtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIApBADYCGCAKQQE2AgwgCkHEtcQANgIIIApCBDcCECAKQQhqQZi1xAAQjQgAC8cNAQh/An8CQCACIANLBEAgASADQRJsaiIDLwEAIgJB//8BcUUEQCACQRB0DAMLIAJB/wdxIQEgAkGAgAJxIQUgAkGA+AFxIgJBgPgBRgRAIAVBEHQhAiACQYCAgPwHciABRQ0DGiACIAFBDXRyQYCAgP4HcgwDCyAFQRB0IQUgAkUNASACQQ10QYCAgPwAcSABQQ10ckGAgIDAA2ogBXIMAgsgAyACQfTAxwAQjAcACyAFQYCAgNgDciABZ0EQayICQRd0ayABIAJB//8DcUEIanRB////A3FyCyEBAn8gAy8BAiIFQf//AXFFBEAgBUEQdAwBCyAFQf8HcSECIAVBgIACcSEGIAVBgPgBcSIFQYD4AUYEQCAGQRB0IQUgBUGAgID8B3IgAkUNARogBSACQQ10ckGAgID+B3IMAQsgBkEQdCEGIAVBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAGciAFDQAaIAZBgICA2ANyIAJnQRBrIgVBF3RrIAIgBUH//wNxQQhqdEH///8DcXILIQUCfyADLwEEIgZB//8BcUUEQCAGQRB0DAELIAZB/wdxIQIgBkGAgAJxIQcgBkGA+AFxIgZBgPgBRgRAIAdBEHQhBiAGQYCAgPwHciACRQ0BGiAGIAJBDXRyQYCAgP4HcgwBCyAHQRB0IQcgBkENdEGAgID8AHEgAkENdHJBgICAwANqIAdyIAYNABogB0GAgIDYA3IgAmdBEGsiBkEXdGsgAiAGQf//A3FBCGp0Qf///wNxcgshBgJ/IAMvAQYiB0H//wFxRQRAIAdBEHQMAQsgB0H/B3EhAiAHQYCAAnEhCCAHQYD4AXEiB0GA+AFGBEAgCEEQdCEHIAdBgICA/AdyIAJFDQEaIAcgAkENdHJBgICA/gdyDAELIAhBEHQhCCAHQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogCHIgBw0AGiAIQYCAgNgDciACZ0EQayIHQRd0ayACIAdB//8DcUEIanRB////A3FyCyEHAn8gAy8BCCIIQf//AXFFBEAgCEEQdAwBCyAIQf8HcSECIAhBgIACcSEJIAhBgPgBcSIIQYD4AUYEQCAJQRB0IQggCEGAgID8B3IgAkUNARogCCACQQ10ckGAgID+B3IMAQsgCUEQdCEJIAhBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAJciAIDQAaIAlBgICA2ANyIAJnQRBrIghBF3RrIAIgCEH//wNxQQhqdEH///8DcXILIQgCfyADLwEKIglB//8BcUUEQCAJQRB0DAELIAlB/wdxIQIgCUGAgAJxIQogCUGA+AFxIglBgPgBRgRAIApBEHQhCSAJQYCAgPwHciACRQ0BGiAJIAJBDXRyQYCAgP4HcgwBCyAKQRB0IQogCUENdEGAgID8AHEgAkENdHJBgICAwANqIApyIAkNABogCkGAgIDYA3IgAmdBEGsiCUEXdGsgAiAJQf//A3FBCGp0Qf///wNxcgshCQJ/IAMvAQwiCkH//wFxRQRAIApBEHQMAQsgCkH/B3EhAiAKQYCAAnEhBCAKQYD4AXEiCkGA+AFGBEAgBEEQdCEKIApBgICA/AdyIAJFDQEaIAogAkENdHJBgICA/gdyDAELIARBEHQhBCAKQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogBHIgCg0AGiAEQYCAgNgDciACZ0EQayIKQRd0ayACIApB//8DcUEIanRB////A3FyCyEKAn8gAy8BDiIEQf//AXFFBEAgBEEQdAwBCyAEQf8HcSECIARBgIACcSELIARBgPgBcSIEQYD4AUYEQCALQRB0IQQgBEGAgID8B3IgAkUNARogBCACQQ10ckGAgID+B3IMAQsgC0EQdCELIARBDXRBgICA/ABxIAJBDXRyQYCAgMADaiALciAEDQAaIAtBgICA2ANyIAJnQRBrIgRBF3RrIAIgBEH//wNxQQhqdEH///8DcXILIQIgAAJ/IAMvARAiBEH//wFxRQRAIARBEHQMAQsgBEH/B3EhAyAEQYCAAnEhCyAEQYD4AXEiBEGA+AFGBEAgC0EQdCEEIARBgICA/AdyIANFDQEaIAQgA0ENdHJBgICA/gdyDAELIAtBEHQhCyAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogC3IgBA0AGiALQYCAgNgDciADZ0EQayIEQRd0ayADIARB//8DcUEIanRB////A3FyCzYCICAAIAI2AhwgACAKNgIYIAAgCTYCFCAAIAg2AhAgACAHNgIMIAAgBjYCCCAAIAU2AgQgACABNgIAC/sJAQd/IAAoAgQhAgJAAkAgACgCCCIFBEAgAiEBA0AgAUEoaigCACIGBEAgAUEsaigCACIHQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyAGakkNAyADQQAgBCAGQSdqSxsNBCAHEKICCyABEL8EIAFBQGshASAFQQFrIgUNAAsLIAAoAgAiAwRAIAJBBGsoAgAiAUF4cSIEIANBBnQiA0EEQQggAUEDcSIBG3JJDQEgAUEAIAQgA0EncksbDQIgAhCiAgsCQCAAKAKEASIBQYCAgIB4Rg0AIAEEQCAAKAKIASIEQQRrKAIAIgJBeHEiAyABQQN0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACADIAFBJ2pLGw0DIAQQogILIAAoApABIgEEQCAAKAKUASIEQQRrKAIAIgJBeHEiAyABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACADIAFBJ2pLGw0DIAQQogILIAAoApwBIgEEQCAAKAKgASIEQQRrKAIAIgJBeHEiAyABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACADIAFBJ2pLGw0DIAQQogILIAAoAqgBIgFFDQAgACgCrAEiBEEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKAIMIgEEQCAAKAIQIgRBBGsoAgAiAkF4cSIDIAFByABsIgFBBEEIIAJBA3EiAhtqSQ0BIAJBACADIAFBJ2pLGw0CIAQQogILIAAoAhgiAQRAIAAoAhwiBEEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKAIkIgEEQCAAKAIoIgRBBGsoAgAiAkF4cSIDIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCiAgsgACgCMCIBBEAgACgCNCIEQQRrKAIAIgJBeHEiAyABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACADIAFBJ2pLGw0CIAQQogILIAAoAjwiAQRAIAAoAkAiBEEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKAJIIgEEQCAAKAJMIgRBBGsoAgAiAkF4cSIDIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCiAgsgACgCVCIBBEAgACgCWCIEQQRrKAIAIgJBeHEiAyABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACADIAFBJ2pLGw0CIAQQogILIAAoAmAiAQRAIAAoAmQiBEEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKAJsIgEEQCAAKAJwIgRBBGsoAgAiAkF4cSIDIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCiAgsgACgCeCICBEAgACgCfCIDQQRrKAIAIgBBeHEiASACQQJ0IgJBBEEIIABBA3EiABtqSQ0BIABBACABIAJBJ2pLGw0CIAMQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL1A0CF38BeyABQeTRAGohEiABQYAEaiETIAFBgM8AaiEUIAFBgB1qIRUgAUGg0QBqIRYgAUGANmohFyABQe3RAGohGCMAQfAAayIIQTBqIRkgAS0A61EhBCAIQRhqIRECfwNAAkACQAJAAkACQAJAIARB/wFxIgsOAwABAgMLIBH9DAAAAAAAAAAAAAAAAAAAAAAiGv0LAwAgCCAa/QsDCEEAIQUgCEEsakEAQcQA/AsAA0AgASAFaiIDQbAEav0MHgMeAx4DHgMeAx4DHgMeAyIa/QsCACADQaAEaiAa/QsCACADQZAEaiAa/QsCACADQYAEaiAa/QsCACAFQUBrIgVBgBBHDQALQaACIQQgEyEMIBQhDwwDCyAR/QwAAAAAAAAAAAAAAAAAAAAAIhr9CwMAIAggGv0LAwhBACEFIAhBLGpBAEHEAPwLAANAIAEgBWoiA0GwHWr9DB4DHgMeAx4DHgMeAx4DHgMiGv0LAgAgA0GgHWogGv0LAgAgA0GQHWogGv0LAgAgA0GAHWogGv0LAgAgBUFAayIFQYAQRw0AC0EgIQQgFSEMIBYhDwwCCyAR/QwAAAAAAAAAAAAAAAAAAAAAIhr9CwMAIAggGv0LAwhBACEFIAhBLGpBAEHEAPwLAANAIAEgBWoiA0GwNmr9DB4DHgMeAx4DHgMeAx4DHgMiGv0LAgAgA0GgNmogGv0LAgAgA0GQNmogGv0LAgAgA0GANmogGv0LAgAgBUFAayIFQYAQRw0AC0ETIQQgFyEMIBghDwwCC0EDDAMLIAxBgBBqQQBBgAn8CwALQRwhCUEDIBIgC0EBdGovAQAiECAESw0BGiAQBEAgECEFIA8hBANAQQMgBC0AACIDQQ9LDQMaIAhBCGogA0EBdGoiAyADLwEAQQFqOwEAIARBAWohBCAFQQFrIgUNAAsLQQAhBEEBIQNBACEFQQAhCgNAAkACfyADRQRAIARBD0sNAiAEQQFqDAELIARBECAEayIGIAMgAyAGSxsiBiAEaiIHIAQgB0sbIgRBD0sNASAGIANrIQYDQCAGBEAgBkEBaiEGIARBAWoiBEEQRw0BDAMLC0EAIQMgBEEBagsgGSAEQQJ0aiAFIAhBCGogBEEBdGovAQAiBGpBAXQiBTYCACAEIApqIQohBAwBCwsgBUGAgARHBEBBASALQQJGIApB//8DcUEBS3INAhoLIAxBgBBqIQ1B//8DIQlBACEKA0AgCiAQSQRAIApBAWohBANAIAohCyAEIQoCQCALIA9qLQAAQQ9xIgdFDQAgCEEsaiAHQQJ0aiIDIAMoAgAiA0EBajYCAAJ/IANBf0EgIAdrdnEiA0GABE8EQCADQQh0IANBgP4DcUEIdnIiA0EEdkGPHnEgA0GPHnFBBHRyIgNBAnZBs+YAcSADQbPmAHFBAnRyIgNBAXZB1aoBcSADQdWqAXFBAXRyDAELIANBAXQvAZT/RAtB//8DcUEQIAdrdiEFIAdBCk0EQCAFQf8HSw0BIAdBCXQgC3IhA0EBIAd0IgZBAXQhCyAMIAVBAXRqIQQDQCAEIAM7AQAgBCALaiEEIAUgBmoiBUGACEkNAAsMAQsgDCAFQf8HcUEBdGoiAy8BACIGQZ4GRwR/IAkFIAMgCTsBACAJIgZBAmsLIQMCQCAHQQtGBEAgBUEJdiEODAELQQohCUEDIAVBCnYiDkEBcSAGQX9zakH//wNxIgRBvwRLDQYaIA0gBEEBdGoiBC8BACIGBH8gAwUgBCADOwEAIAMhBiADQQJrCyEEIAdBDUkEQCAEIQMMAQtBAyAFQQt2Ig5BAXEgBkF/c2pB//8DcSIDQb8ESw0GGiANIANBAXRqIgMvAQAiBgR/IAQFIAMgBDsBACAEIQYgBEECawshAyAHQQ1GDQBBAyAFQQx2Ig5BAXEgBkF/c2pB//8DcSIEQb8ESw0GGiANIARBAXRqIgQvAQAiBgR/IAMFIAQgAzsBACADIQYgA0ECawshBCAHQQ9HBEAgBCEDDAELQQMgBUENdiIOQQFxIAZBf3NqQf//A3EiA0G/BEsNBhogDSADQQF0aiIDLwEAIgYEQCAEIQMMAQsgAyAEOwEAIARBAmshAyAEIQYLIA5BAXZBAXEgBkF/c2pB//8DcSIEQb8ESwRAQQohCUEDDAYLIA0gBEEBdGogCzsBACADIQkMAwsgCiAKIBBJIgNqIQQgAw0ACwsLAkACQAJAIAEtAOtRIgMOAwABAgELIAJBADYCDEEMIQlBAQwDCyABIANBAWsiBDoA61EMAQsLIAJBADYCDEEKIQlBAQshBCAAIAk6AAEgACAEOgAAC6IOBAp/A30BewF+IwBB0ARrIgokAAJAAkACQAJAAnsgAxC5CiISBEBDAACAPyEUQwAAgD8hFUMAAIA/IRb9DAAAAAAAAIA/AABAwQAAEEEMAQsgCkHQAWogAxC1ASAKLQDsASINQQJGBEAgCigC0AEhCyAAQQA2AgAgACALNgIEQQEhDQwCCyAKQQ5qIApB7wFqLQAAOgAAIAogCi8A7QE7AQwgCioC6AEhFCAKKgLkASEVIAoqAuABIRYgCv0ABNABCyEXQQYhDAJAAkACQAJAAkAgASgCACILQYCAgIB4Rg0AIApBEGogASgCBCIOIAEoAggQkQUgCi0AEEEBRgRAIAooAhQhDCAKQQA2ApwDIApCgICAgBA3ApQDIApBnJPBADYC1AEgCkKggICADjcC2AEgCiAKQZQDajYC0AEgDCAKQdABahCvBA0CIAooApQDIQ0gCigCmAMiDyAKKAKcAxDsCCERIA0EQCAPQQRrKAIAIhBBeHEiE0EEQQggEEEDcSIQGyANakkNCSAQQQAgEyANQSdqSxsNCiAPEKICC0EAIQ0gAEEANgIAIAAgETYCBCAMIAwoAgAoAgARAwAgC0UNBiAOQQRrKAIAIgBBeHEiDEEEQQggAEEDcSIAGyALakkNCCAAQQAgDCALQSdqSxsNCSAOEKICDAYLIAotABEhDCALRQ0AIA5BBGsoAgAiAUF4cSIPQQRBCCABQQNxIgEbIAtqSQ0HIAFBACAPIAtBJ2pLGw0IIA4QogILQQQhAUEAIQtBABC2CSEQQQAhDkEEIQ8CQCAEQQFxRQ0AIApB0AFqIAUQlwYgCigC2AEhESAKKALUASEPIAooAtABIQ4gBUGECEkNACAFEJsHC0EAIQUCQCAGQQFxRQ0AIApB0AFqIAcQlwYgCigC2AEhBSAKKALUASEBIAooAtABIQsgB0GECEkNACAHEJsHC0EEIQdBACEGQQAhBAJAIAhBAXFFDQAgCkHQAWogCRCXBiAKKALYASEEIAooAtQBIQcgCigC0AEhBiAJQYQISQ0AIAkQmwcLIAogDToA7AIgCiAUOALoAiAKIBU4AuQCIAogFjgC4AIgCiAX/QsC0AIgCkGAgICAeDYCxAIgCkKAgICAgICAgIB/NwK0AiAKQoCAgIDAADcCrAIgCiAENgKoAiAKIAc2AqQCIAogBjYCoAIgCiAFNgKcAiAKIAE2ApgCIAogCzYClAIgCiARNgKQAiAKIA82AowCIAogDjYCiAIgCkEANgKAAiAKQQA2AvgBIApBADYC8AEgCkEANgLoASAKQQA2AuABIApBADYC2AEgCkEANgLQASAKQYgDakEAOgAAQQIhCSAKQe8CaiAKQQ5qLQAAOgAAIApBADYC+AIgCiAQNgL8AiAKQgA3AvACIApCADcCgAMgCiAKLwEMOwDtAiACKAIAIQQgAigCBCEGIAIoAgghAQJ/IAxBBkcEQCAKIAwgCkHQAWoQ1QMgCigCBCEFIAooAgAMAQsgCkGUA2ogCkHUAWpBuAH8CgAAQQAhCUEACyEIQYCAgIB4IQcgBEGAgICAeEcEQCABQQBIDQICQCABRQRAQQEhBwwBCyABEHEiB0UNBAsgAQRAIAcgBiAB/AoAAAsgB60gAa1CIIaEIRggASEHCyAKQRhqIgIgCkGUA2pBuAH8CgAAQewBEHEiAUUNAiABIAk2AgAgAUEEaiACQbgB/AoAACABIAw6AOgBIAEgBTYC5AEgASAINgLgASABQYCAgIB4NgLUASABIBg3AswBIAEgBzYCyAEgAUEANgLEASABQoCAgIAQNwK8ASAAQZDwwAA2AgwgAEEBNgIIIABB+O/AADYCBCAAIAE2AgAgEkUgA0GECElyDQMgAxCbBwwDC0GgnsYAQTcgCkHPBGpBtJPBAEHYnsYAEOAGAAtB2JrIABD/BwsACyAEQYCAgIB4ckGAgICAeEYNAQJAIAZBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIARqTwRAIABBACABIARBJ2pLGw0BIAYQogIMAwsMAwsMAwsgCEUgCUGECElyRQRAIAkQmwcLIAZFIAdBhAhJckUEQCAHEJsHCyAERSAFQYQISXJFBEAgBRCbBwsgEkUgA0GECElyRQRAIAMQmwcLIAIoAgAiAEGAgICAeHJBgICAgHhHBEAgAigCBCICQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyAAakkNAiADQQAgBCAAQSdqSxsNAyACEKICCyANIAEoAgAiAEGAgICAeEdxRSAARXINACABKAIEIgFBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIABqSQ0BIAJBACADIABBJ2pLGw0CIAEQogILIApB0ARqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvLDQMPfwR+AXsjAEEgayIKJAACQAJAAkAgACgCDCILQQFqIgMEQAJAIAAoAgQiCCAIQQFqIglBA3YiAkEHbCIOIAhBCEkbIgZBAXYgA0kEQAJAAkACQAJAAn8gBkEBaiICIAMgAiADSxsiA0EPTwRAIANB/////wFLDQtBfyADQQN0QQduQQFrZ3ZBAWoMAQtBBCADQQhxQQhqIANBBEkbCyIDrUIYfiIRQiCIpw0AIBGnIgIgA0EIaiIGaiIFIAJJIAVB+P///wdLcg0AIAUQcSIFRQ0BIAIgBWohBCAGBEAgBEH/ASAG/AsACyADQQFrIgkgA0EDdkEHbCAJQQhJGyEMIAAoAgAhBSALDQJBACELDAMLIApBADYCGCAKQQE2AgwgCkHEtcQANgIIIApCBDcCECAKQQhqQZi1xAAQjQgLAAsgBEEIaiENIAVBGGshDiAFKQMAQn+FQoCBgoSIkKDAgH+DIREgASkDCCETIAEpAwAhFEEAIQMgCyEBIAUhBgNAIBFQBEADQCADQQhqIQMgBkEIaiIGKQMAQoCBgoSIkKDAgH+DIhFCgIGChIiQoMCAf1ENAAsgEUKAgYKEiJCgwIB/hSERCyAEIAkgFCATIA4gEXqnQQN2IANqIg9BaGxqEPgDpyIQcSICaikAAEKAgYKEiJCgwIB/gyISUARAQQghBwNAIAIgB2ohAiAHQQhqIQcgBCACIAlxIgJqKQAAQoCBgoSIkKDAgH+DIhJQDQALCyARQgF9IBGDIREgBCASeqdBA3YgAmogCXEiAmosAABBAE4EQCAEKQMAQoCBgoSIkKDAgH+DeqdBA3YhAgsgAiAEaiAQQRl2Igc6AAAgDSACQQhrIAlxaiAHOgAAIAQgAkF/c0EYbGoiAkEQaiAFIA9Bf3NBGGxqIgdBEGopAAA3AAAgAiAH/QAAAP0LAAAgAUEBayIBDQALCyAAIAk2AgQgACAENgIAIAAgDCALazYCCCAIRQ0BIAggCEEYbEEfakF4cSIBakEJaiIARQ0BIAUgAWsiAUEEaygCACIDQXhxIgJBBEEIIANBA3EiAxsgAGpJDQMgA0EAIAIgAEEnaksbDQQgARCiAgwBCyAAIAkEfyAAKAIAIQACQAJAIAIgCUEHcUEAR2oiBUECSQRAIAUhBgwBCyAFQQFxIQYgBUH+////A3EiBEEDdCEHIAQhAiAAIQMDQCADIAP9AAMAIhX9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gFf0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACADQRBqIQMgAkECayICDQALIAQgBUYNAQsgACAHaiEDA0AgAyADKQMAIhFCf4VCB4hCgYKEiJCgwIABgyARQv/+/fv379+//wCEfDcDACADQQhqIQMgBkEBayIGDQALCwJAIAlBCE8EQCAAIAlqIAApAAA3AAAMAQsgCUUNACAAQQhqIAAgCfwKAAALIABBCGohBSAAQRhrIQ8gASkDCCESIAEpAwAhE0EBIQJBACEDA0AgAyEGIAIhAwJAIAAgBmoiDC0AAEGAAUcNACAPIAZBaGxqIRAgACAGQX9zQRhsaiECA0AgCCATIBIgEBD4A6ciDXEiBCEBIAAgBGopAABCgIGChIiQoMCAf4MiEVAEQEEIIQcDQCABIAdqIQEgB0EIaiEHIAAgASAIcSIBaikAAEKAgYKEiJCgwIB/gyIRUA0ACwsgACAReqdBA3YgAWogCHEiAWosAABBAE4EQCAAKQMAQoCBgoSIkKDAgH+DeqdBA3YhAQsgASAEayAGIARrcyAIcUEITwRAIAAgAWoiBC0AACAEIA1BGXYiBDoAACAFIAFBCGsgCHFqIAQ6AAAgACABQX9zQRhsaiEBQf8BRgRAIAxB/wE6AAAgBSAIIAZBCGtxakH/AToAACABQRBqIAJBEGopAAA3AAAgASAC/QAAAP0LAAAMAwsgAikAACERIAIgASkAADcAACABIBE3AAAgASkACCERIAEgAikACDcACCACIBE3AAggAigAECEEIAIgASgAEDYAECABKAAUIQcgASACKAAUNgAUIAIgBzYAFCABIAQ2ABAMAQsLIAwgDUEZdiIBOgAAIAUgCCAGQQhrcWogAToAAAsgAyADIAlJIgFqIQIgAQ0ACyAIIA4gCEEISRsFQQALIAtrNgIICyAKQSBqJAAPCwwCC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgCkEANgIYIApBATYCDCAKQcS1xAA2AgggCkIENwIQIApBCGpBmLXEABCNCAALgg0CCX8HfSADQQhPBEAgACAAIANBA3YiA0EEdCIGaiAAIANBHGwiB2ogAyAEEMEBIQAgASABIAZqIAEgB2ogAyAEEMEBIQEgAiACIAZqIAIgB2ogAyAEEMEBIQILQwAAgD8hDgJ/AkAgACgCACIDIAQoAgBBBGooAgAiBEEIaigCACIHSQRAIAEoAgAhBiAEQQRqKAIAIgkgA0EkbGoiCBCKBCEQIAgvARQiBEH//wFxIgxFBEAgBEEQdAwDCyAEQf8HcSEDIARBgIACcSEFIARBgPgBcSIKQYD4AUYEQCAFQRB0IQUgBUGAgID8B3IgA0UNAxogBSADQQ10ckGAgID+B3IMAwsgBUEQdCEFIApFDQEgCkENdEGAgID8AHEgA0ENdHJBgICAwANqIAVyDAILIAMgB0HUwMcAEIwHAAsgBUGAgIDYA3IgA2dBEGsiBUEXdGsgAyAFQf//A3FBCGp0Qf///wNxcgu+Ig9DAACAP14EQCAPEMYFQ1T4LUCUQwAAgD+SkSEOC0MAAIA/IRICfwJAIAYgB0kEQCAJIAZBJGxqIgoQigQhDyAKLwEUIgZB//8BcSINRQRAIAZBEHQMAwsgBkH/B3EhAyAGQYCAAnEhBSAGQYD4AXEiC0GA+AFGBEAgBUEQdCEFIAVBgICA/AdyIANFDQMaIAUgA0ENdHJBgICA/gdyDAMLIAVBEHQhBSALRQ0BIAtBDXRBgICA/ABxIANBDXRyQYCAgMADaiAFcgwCCyAGIAdB1MDHABCMBwALIAVBgICA2ANyIANnQRBrIgVBF3RrIAMgBUH//wNxQQhqdEH///8DcXILviIRQwAAgD9eBEAgERDGBUNU+C1AlEMAAIA/kpEhEgsgAigCACEFIAgQigQhEUMAAIA/IRMCfyAEQRB0IAxFDQAaIARB/wdxIQMgBEGAgAJxIQggBEGA+AFxIgRBgPgBRgRAIAhBEHQhBCAEQYCAgPwHciADRQ0BGiAEIANBDXRyQYCAgP4HcgwBCyAIQRB0IQggBEENdEGAgID8AHEgA0ENdHJBgICAwANqIAhyIAQNABogCEGAgIDYA3IgA2dBEGsiBEEXdGsgAyAEQf//A3FBCGp0Qf///wNxcgu+IhRDAACAP14EQCAUEMYFQ1T4LUCUQwAAgD+SkSETCwJ/AkAgBSAHSQRAIBAgEJIgDpQiDiAPIA+SIBKUYEUhCCAOIA5bIQsgCSAFQSRsaiIHEIoEIRAgBy8BFCIDQf//AXEiDEUEQCADQRB0DAMLIANB/wdxIQQgA0GAgAJxIQUgA0GA+AFxIglBgPgBRgRAIAVBEHQhBSAFQYCAgPwHciAERQ0DGiAFIARBDXRyQYCAgP4HcgwDCyAFQRB0IQUgCUUNASAJQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogBXIMAgsgBSAHQdTAxwAQjAcACyAFQYCAgNgDciAEZ0EQayIFQRd0ayAEIAVB//8DcUEIanRB////A3FyC0MAAIA/IQ6+Ig9DAACAP14EQCAPEMYFQ1T4LUCUQwAAgD+SkSEOCyAIIAtxIgUgESARkiATlCIPIA9bIA8gECAQkiAOlGBFcUYEfyAKEIoEIRBDAACAPyEPAn8gBkEQdCANRQ0AGiAGQf8HcSEAIAZBgIACcSEEIAZBgPgBcSIGQYD4AUYEQCAEQRB0IQQgBEGAgID8B3IgAEUNARogBCAAQQ10ckGAgID+B3IMAQsgBEEQdCEEIAZBDXRBgICA/ABxIABBDXRyQYCAgMADaiAEciAGDQAaIARBgICA2ANyIABnQRBrIgRBF3RrIAAgBEH//wNxQQhqdEH///8DcXILviIOQwAAgD9eBEAgDhDGBUNU+C1AlEMAAIA/kpEhDwtDAACAPyEOIAIgASAFIBAgEJIgD5QiECAQWyAQIAcQigQiEiASkgJ/IANBEHQgDEUNABogA0H/B3EhACADQYCAAnEhBCADQYD4AXEiA0GA+AFGBEAgBEEQdCEDIANBgICA/AdyIABFDQEaIAMgAEENdHJBgICA/gdyDAELIARBEHQhBCADQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2ogBHIgAw0AGiAEQYCAgNgDciAAZ0EQayIDQRd0ayAAIANB//8DcUEIanRB////A3FyC74iEUMAAIA/XgR9IBEQxgVDVPgtQJRDAACAP5KRBSAOC5RgRXFzGwUgAAsLww0DBHsIfwF+AkACQAJAAkBBfyAELQC/AiILQQ9xdCIJQf8BcUH/AUcEQEH/ASAJQX9zIg9B/wFxbiEMQQEgC3RBlgJxRSALQQhLcg0BIAQoAtABIQogBCgCzAEhDSAEKALUASEQQQggC25BAXStIAGtfiIRQiCIUCARpyADSXENAiAAIAFqIQ4gA0F+cSEEAkAgC0EIRwRAIARFDQZBCCALayEJIA1BgYCAgHhGBEBBACEKQQAgBGshAUF/IQQDQCAEQQBIBEAgACAORg0EIAAtAAAhCiAJIQQgAEEBaiEACyACQQFqQf8BOgAAIAIgCiAEdiAPcSAMbDoAACAEIAtrIQQgAkECaiECIAFBAmoiAQ0ACwwHCyAQBEBBACADQX5xayEBQQAhA0F/IQQDQCAEQQBIBEAgACAORg0EIAAtAAAhAyAJIQQgAEEBaiEACyACIANB/wFxIAR2IA9xIg0gDGw6AAAgAkEBakF/QQAgDSAKLQAARxs6AAAgBCALayEEIAJBAmohAiABQQJqIgENAAsMBwsgAUUNAUEAQQBBkJnFABCMBwALIAFFDQUgDUGBgICAeEYEQCADQQF2IgMgAUEBayIBIAEgA0sbIgFBEEkgACACIAFBAXRqQQJqSSAAIAFqQQFqIAJLcXJFBEAgACABQQFqIgEgAUEPcSIBQRAgARtrIglqIAQgCUEBdCIDayEEIAIgA2ogDP0PIQYDQCACQR9qQf8BOgAAIAJBHWpB/wE6AAAgAkEbakH/AToAACACQRlqQf8BOgAAIAJBF2pB/wE6AAAgAkEVakH/AToAACACQRNqQf8BOgAAIAJBEWpB/wE6AAAgAkEPakH/AToAACACQQ1qQf8BOgAAIAJBC2pB/wE6AAAgAkEJakH/AToAACACQQdqQf8BOgAAIAJBBWpB/wE6AAAgAkEDakH/AToAACACQQFqQf8BOgAAIAJBHmogAP0AAAAiBf0WDyAG/RYPbDoAACACQRxqIAX9Fg4gBv0WDmw6AAAgAkEaaiAF/RYNIAb9Fg1sOgAAIAJBGGogBf0WDCAG/RYMbDoAACACQRZqIAX9FgsgBv0WC2w6AAAgAkEUaiAF/RYKIAb9FgpsOgAAIAJBEmogBf0WCSAG/RYJbDoAACACQRBqIAX9FgggBv0WCGw6AAAgAkEOaiAF/RYHIAb9FgdsOgAAIAJBDGogBf0WBiAG/RYGbDoAACACQQpqIAX9FgUgBv0WBWw6AAAgAkEIaiAF/RYEIAb9FgRsOgAAIAJBBmogBf0WAyAG/RYDbDoAACACQQRqIAX9FgIgBv0WAmw6AAAgAkECaiAF/RYBIAb9FgFsOgAAIAIgBf0WACAG/RYAbDoAACAAQRBqIQAgAkEgaiECIAlBEGsiCQ0ACyECIQALA0AgBEUNByACQQFqQf8BOgAAIAIgAC0AACAMbDoAACAEQQJrIQQgAkECaiECIA4gAEEBaiIARw0ACwwGCyAQBEAgA0EBdiIDIAFBAWsiASABIANLGyIBQQ9NDQUgAiAAIAFqQQFqSSAAIAIgAUEBdGpBAmoiA0lxIAIgCkEBakkgAyAKS3FyDQUgACABQQFqIgEgAUEPcSIBQRAgARtrIglqIAQgCUEBdCIDayEEIAIgA2ohAyAK/QcAACEHIAz9DyEGA0AgAiAA/QAAACIF/RYAIAb9FgBs/Q8gBf0WASAG/RYBbP0XASAF/RYCIAb9FgJs/RcCIAX9FgMgBv0WA2z9FwMgBf0WBCAG/RYEbP0XBCAF/RYFIAb9FgVs/RcFIAX9FgYgBv0WBmz9FwYgBf0WByAG/RYHbP0XByAF/RYIIAb9Fghs/RcIIAX9FgkgBv0WCWz9FwkgBf0WCiAG/RYKbP0XCiAF/RYLIAb9Fgts/RcLIAX9FgwgBv0WDGz9FwwgBf0WDSAG/RYNbP0XDSAF/RYOIAb9Fg5s/RcOIAX9Fg8gBv0WD2z9Fw8iCCAFIAf9JCIF/Q0IGAkZChoLGwwcDR0OHg8f/QsAECACIAggBf0NABABEQISAxMEFAUVBhYHF/0LAAAgAEEQaiEAIAJBIGohAiAJQRBrIgkNAAshACADIQIMBQsgBEUNBUEAQQBBkJnFABCMBwALQfyWxQBBIkGgl8UAEKsHAAtBgJnFABCBCAALQbCXxQBBNEHkl8UAEOsHAAtBhJbFAEHlAEHslsUAEOsHAAsDQCAERQ0BIAIgAC0AACIBIAxsOgAAIAJBAWpBf0EAIAEgCi0AAEcbOgAAIARBAmshBCACQQJqIQIgAEEBaiIAIA5HDQALCwu+DAIGfwR+IwBBwAFrIgQkAAJAAkACQCAAKQMAQgJRDQAgACgCqAEhASAAQQA2AqgBAkACQAJAAkAgAUEBaw4CAQIACyAEQQhqIQICQAJAQSUQcSIBRQ0AIAFBHWpBnZ3HACkAADcAACABQRBqQZCdxwD9AAAA/QsAACABQYCdxwD9AAAA/QsAAEEMEHEiA0UNACADQSU2AgggAyABNgIEIANBJTYCAEEMEHEiAUUNACABQSg6AAggAUG4nccANgIEIAEgAzYCACACQQA2AhAgAiABrUIghkIDhDcDAAwBCwALDAILIARBGGogAEHAAWopAwA3AwAgBCAA/QADsAH9CwMIDAELIAAoAqwBIgFBQGshAiABKAIkIQMgASgCICEFAkAgASkDGCIHQgJSBEAgASkDOCEIIARBMGogAUEQaikDADcDACAEQegAaiACQQhq/QADAP0LAwAgBEGoAWogAUGIAWr9AAMA/QsDACAEQZgBaiABQfgAav0AAwD9CwMAIARBuAFqIAFBmAFqKQMANwMAIAQgAf0AAwD9CwMgIAQgAf0AAyj9CwNIIAQgAikDADcDYCAEIAH9AANY/QsDeCAEIAH9AANo/QsDiAEgBEEYaiAEQdAAaikDADcDACAEIAM2AkQgBCAFNgJAIAQgBzcDOCAEIAg3A1ggBCAE/QADQP0LAwggBCgCJCEDIAQoAiAhBSAEQfgAahCEBQwBCyAEQRhqIAJBEGopAwA3AwAgBCAC/QADAP0LAwgLIAMEQCAFQQRrKAIAIgJBeHEiBkEEQQggAkEDcSICGyADakkNAyACQQAgBiADQSdqSxsNBCAFEKICCyABQQRrKAIAIgNBeHFBvAFBwAEgA0EDcSICG0kNAiACQQAgA0HgAU8bDQMgARCiAgsCQCAEKAIYIgEEQCAEKQMQIghQDQEgASkDCCEHIAEoAgQiA60hCQNAAkAgByADIAcgCSAHIAlUG6ciAmsiBUKAwAAgCCAIQoDAAFobpyIGIAUgBkkbrSIKfCEHIAIgA0YNACAIIAp9IghCAFINAQsLIAEgBzcDCAwBCyAELQAIQQNHDQAgBCgCDCIBKAIAIQMgAUEEaigCACICKAIAIgUEQCADIAURAwALIAIoAgQiAgRAIANBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIAJqSQ0DIAVBACAGIAJBJ2pLGw0EIAMQogILIAFBBGsoAgAiA0F4cSICQRBBFCADQQNxIgMbSQ0CIANBACACQTRPGw0DIAEQogILIAAoAiwiAQRAIAAoAigiA0EEaygCACICQXhxIgVBBEEIIAJBA3EiAhsgAWpJDQIgAkEAIAUgAUEnaksbDQMgAxCiAgsgACgCNCIBBEAgACgCMCIDQQRrKAIAIgJBeHEiBUEEQQggAkEDcSICGyABakkNAiACQQAgBSABQSdqSxsNAyADEKICCwJAIAAoAowBIgFFDQAgASABKAIAIgFBAWs2AgAgAUEBRw0AIAAoAowBEN0FCwJAIAAoApABIgFFDQAgASABKAIAIgFBAWs2AgAgAUEBRw0AIAAoApABEN0FCyAAKAI8IgEEQCAAKAI4IgNBBGsoAgAiAkF4cSIFQQRBCCACQQNxIgIbIAFqSQ0CIAJBACAFIAFBJ2pLGw0DIAMQogILIAAoAngiAUUNACAAKAJ8IgNBBGsoAgAiAkF4cSIFIAFBBXQiAUEEQQggAkEDcSICG3JJDQEgAkEAIAUgAUEnaksbDQIgAxCiAgsgACgCqAFBAk8EQAJAIAAoAqwBIgApAxhCAlEEQCAAKAIkIgFFDQEgACgCICIDQQRrKAIAIgJBeHEiBUEEQQggAkEDcSICGyABakkNAyACQQAgBSABQSdqSxsNBCADEKICDAELIAAoAgQiAQRAIAAoAgAiA0EEaygCACICQXhxIgVBBEEIIAJBA3EiAhsgAWpJDQMgAkEAIAUgAUEnaksbDQQgAxCiAgsgAEHYAGoQhAULIABBBGsoAgAiAUF4cUG8AUHAASABQQNxIgMbSQ0BIANBACABQeABTxsNAiAAEKICCyAEQcABaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALuQ4DBX8CfQF+IwBBIGsiAiQAAkAgASgCACIEQYy1xABBBCABKAIEIgMoAgwiBREAAARAQQEhAwwBCwJAAkACQCABKAIIIgZBgICABHFFBEBBASEDIARBu7PFAEEBIAURAAANBCAGQYCAgAFxIQUgACoCACEHIAZBgICAgAFxDQEgAEEEaiEEIAeLIghDyhsOWmAgB0MAAAAAXCAIQxe30ThdcXJFBEAgASAHIAVBAEdBARD3AkUNAwwFCyABIAcgBUEARxDPAkUNAgwECyAEQduBwgBBAiAFEQAABEBBASEDDAQLIAJBAToADyACIAM2AgQgAiAENgIAIAJB4IHCADYCFCACIAEpAggiCTcCGCAJpyIEQYCAgAFxIQMgAiACQQ9qNgIIIAIgAjYCECAAKgIAIQcCQAJAIARBgICAgAFxRQRAIAeLIghDyhsOWmAgB0MAAAAAXCAIQxe30ThdcXINASACQRBqIAcgA0EAR0EBEPcCDQUMAgsgAkEQaiAHIANBAEcgCUIwiKcQvQJFDQEMBAsgAkEQaiAHIANBAEcQzwINAwsgAigCEEHZgcIAQQIgAigCFCgCDBEAAARAQQEhAwwECyAAQQRqIQQMAQsgASAHIAVBAEcgAS8BDhC9Ag0CIABBBGohBAsCQAJAAkACQAJAIAEoAggiA0GAgIAEcUUEQCABKAIAQeeQxgBBAiABKAIEKAIMEQAABEBBASEDDAgLIANBgICAAXEhBSAEKgIAIQcgA0GAgICAAXENASAAQQhqIQQgB4siCEPKGw5aYCAHQwAAAABcIAhDF7fROF1xckUEQEEBIQMgASAHIAVBAEdBARD3AkUNBQwICyABIAcgBUEARxDPAkUNBEEBIQMMBwsgASkCACEJIAJBAToADyACIAk3AgAgAkHggcIANgIUIAIgASkCCCIJNwIYIAmnIgVBgICAAXEhAyACIAJBD2o2AgggAiACNgIQIAQqAgAhByAFQYCAgIABcUUNASACQRBqIAcgA0EARyAJQjCIpxC9AkUNAgwECyABIAcgBUEARyABLwEOEL0CBEBBASEDDAYLIABBCGohBAwCCyAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyRQRAIAJBEGogByADQQBHQQEQ9wINAwwBCyACQRBqIAcgA0EARxDPAg0CCyACKAIQQdmBwgBBAiACKAIUKAIMEQAARQRAIABBCGohBAwBC0EBIQMMAwsCQAJAAkACQAJAIAEoAggiA0GAgIAEcUUEQCABKAIAQeeQxgBBAiABKAIEKAIMEQAABEBBASEDDAkLIANBgICAAXEhBSAEKgIAIQcgA0GAgICAAXENASAAQQxqIQQgB4siCEPKGw5aYCAHQwAAAABcIAhDF7fROF1xckUEQEEBIQMgASAHIAVBAEdBARD3AkUNBQwJCyABIAcgBUEARxDPAkUNBEEBIQMMCAsgASkCACEJIAJBAToADyACIAk3AgAgAkHggcIANgIUIAIgASkCCCIJNwIYIAmnIgVBgICAAXEhAyACIAJBD2o2AgggAiACNgIQIAQqAgAhByAFQYCAgIABcUUNASACQRBqIAcgA0EARyAJQjCIpxC9AkUNAgwECyABIAcgBUEARyABLwEOEL0CBEBBASEDDAcLIABBDGohBAwCCyAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyRQRAIAJBEGogByADQQBHQQEQ9wINAwwBCyACQRBqIAcgA0EARxDPAg0CCyACKAIQQdmBwgBBAiACKAIUKAIMEQAARQRAIABBDGohBAwBC0EBIQMMBAsCQAJAAkACQAJAIAEoAggiA0GAgIAEcUUEQCABKAIAQeeQxgBBAiABKAIEKAIMEQAABEBBASEDDAoLIANBgICAAXEhACAEKgIAIQcgA0GAgICAAXENASAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyRQRAQQEhAyABIAcgAEEAR0EBEPcCRQ0FDAoLQQEhAyABIAcgAEEARxDPAkUNBAwJCyABKQIAIQkgAkEBOgAPIAIgCTcCACACQeCBwgA2AhQgAiABKQIIIgk3AhggCaciA0GAgIABcSEAIAIgAkEPajYCCCACIAI2AhAgBCoCACEHIANBgICAgAFxRQ0BIAJBEGogByAAQQBHIAlCMIinEL0CRQ0CDAQLQQEhAyABIAcgAEEARyABLwEOEL0CDQcMAgsgB4siCEPKGw5aYCAHQwAAAABcIAhDF7fROF1xckUEQCACQRBqIAcgAEEAR0EBEPcCDQMMAQsgAkEQaiAHIABBAEcQzwINAgsgAigCEEHZgcIAQQIgAigCFCgCDBEAAEUNAEEBIQMMBQsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDAQLQQEhAwwDC0EBIQMMAgtBASEDDAELQQEhAwsgAkEgaiQAIAML6A4CC38BfiMAQSBrIgMkAEGAgICAeCEHAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiBEGAgICAeHMgBEEAThtBFGsOAgECAAsgASADQRRqQaTjwAAQlQghASAAQYCAgIB4NgIAIAAgATYCBAwKCyABKAIMIgVFDQECQCABKAIIIgEoAgBBlICAgHhGBEACQCABKAIMIgIEQCADQQRqIAEoAggQqAMgAygCBCIEQYCAgIB4Rw0BIAMoAgghAQwMC0EAIANBFGpBhOLAABDbBiEBDAsLIAMoAgghCCACQQFGDQEgA0EBNgIEIAJBAWtB/////wBxQQFqIANBBGpB6JXBABDbBiEBIARFDQogCCAEQQEQogcMCgsgASADQRRqQYTiwAAQlQghAQwJCwJAAn8gBUEBRwRAIAMoAgwhBiADQQRqIgcgAUEQahDQAyADKAIIIgEgAygCBCICQYCAgIB4Rg0BGiAFQQJGDQIgA0ECNgIEIAVB/v///wBqQf////8AcUECaiAHQeiVwQAQ2wYhBSAAQYCAgIB4NgIAIAAgBTYCBCAEBEAgCCAEQQEQogcLIAJFDQwgASACQQJ0QQQQogcMDAtBAUHsgMEAQYD9wAAQ2wYLIQEgBEUNCSAIQQRrKAIAIgVBeHEiAkEEQQggBUEDcSIFGyAEakkNDCAFQQAgAiAEQSdqSxsNCyAIEKICDAkLIAAgAygCDDYCFCAAIAE2AhAgACACNgIMIAAgBjYCCCAAIAg2AgQgACAENgIADAkLIAEoAgghBCABKAIEIQEgA0IANwIMIAMgATYCBCADIAEgBEEFdGoiCTYCCCAERQ0CQYCAgIB4IQYDQCADIAFBIGoiBDYCBCADIAMoAhBBAWo2AhAgAyABQRBqIgo2AgwCfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCACICQYCAgIB4cyACQQBOG0EBaw4PAAsLAQsLCwsLCwsCAwQFCwsgAS0ABCIBRQ0HQQFBAiABQQFGGyEBDAsLIAEpAwgiDVANBkEBQQIgDUIBURshAQwKCyABKAIIIQIgASgCDEEFaw4EBAsLBgsLIAEoAgQhAgJAIAEoAghBBWsOBAMLCwALCyACKQAAQuPekaum7Nu36wBRDQkMCgsgASgCCCECAkACQCABKAIMQQVrDgQACwsBCwsgAi0AAEHmAEcNCiACLQABQekARw0KIAItAAJB7ABHDQogAi0AA0HlAEcNCiACLQAEQfMARw0KDAQLIAItAABB4wBHDQkgAi0AAUHvAEcNCSACLQACQeQARw0JIAItAANB5QBHDQkgAi0ABEHiAEcNCSACLQAFQe8ARw0JIAItAAZB7wBHDQkgAi0AB0HrAEYNCAwJCyABKAIEIQICQAJAIAEoAghBBWsOBAAKCgEKCyACLQAAQeYARw0JIAItAAFB6QBHDQkgAi0AAkHsAEcNCSACLQADQeUARw0JIAItAARB8wBHDQkMAwsgAi0AAEHjAEcNCCACLQABQe8ARw0IIAItAAJB5ABHDQggAi0AA0HlAEcNCCACLQAEQeIARw0IIAItAAVB7wBHDQggAi0ABkHvAEcNCCACLQAHQesARg0HDAgLIAJBkP3AAEEFENsHDQcMAQsgAkGQ/cAAQQUQ2wcNBgsgBkGAgICAeEYNAUGQ/cAAQQUQnwchBAwMCyACKQAAQuPekaum7Nu36wBRDQMMBAsgA0EUaiADQQRqELIFIAMoAhghBCADKAIUIgZBgICAgHhGBEBBgICAgHghBgwLCyADKAIcIQsgAygCCCEJIAQhCCADKAIEDAULIAEgA0EUakH048AAEJUIIQQMCQsgAUECRg0BCyAHQYCAgIB4Rg0BQZj+wABBCBCfByEEIAdFDQkMCAsgA0EANgIMIAQMAQsgA0EANgIMIANBFGogChDQAyADKAIYIQUgAygCFCIHQYCAgIB4RgRAIAUhBAwICyADKAIcIQwgBAsiASAJRw0ACwwBC0EAQeyAwQBBgP3AABDbBiEBDAYLIAZBgICAgHhGDQAgB0GAgICAeEYEQEGY/sAAQQgQnAchBCAGRQ0FIAggBkEBEKIHDAULIAAgDDYCFCAAIAU2AhAgACAHNgIMIAAgCzYCCCAAIAg2AgQgACAGNgIADAYLQYCAgIB4IQZBkP3AAEEFEJwHIQQLIAdBgICAgHhyQYCAgIB4Rg0BCyAFQQRrKAIAIgFBeHEiAiAHQQJ0IgdBBEEIIAFBA3EiARtqSQ0FIAFBACACIAdBJ2pLGw0EIAUQogILIAZBgICAgHhyQYCAgIB4Rg0AIAhBBGsoAgAiAUF4cSIFQQRBCCABQQNxIgEbIAZqSQ0EIAFBACAFIAZBJ2pLGw0DIAgQogILIAAgBDYCBCAAQYCAgIB4NgIADAELIAAgATYCBCAAQYCAgIB4NgIACyADQSBqJAAPC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAvoDgILfwF+IwBBIGsiAyQAQYCAgIB4IQcCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCACIEQYCAgIB4cyAEQQBOG0EUaw4CAQIACyABIANBFGpB5OLAABCVCCEBIABBgICAgHg2AgAgACABNgIEDAoLIAEoAgwiBUUNAQJAIAEoAggiASgCAEGUgICAeEYEQAJAIAEoAgwiAgRAIANBBGogASgCCBCoAyADKAIEIgRBgICAgHhHDQEgAygCCCEBDAwLQQAgA0EUakGE4sAAENsGIQEMCwsgAygCCCEIIAJBAUYNASADQQE2AgQgAkEBa0H/////AHFBAWogA0EEakHolcEAENsGIQEgBEUNCiAIIARBARCiBwwKCyABIANBFGpBhOLAABCVCCEBDAkLAkACfyAFQQFHBEAgAygCDCEGIANBBGoiByABQRBqENADIAMoAggiASADKAIEIgJBgICAgHhGDQEaIAVBAkYNAiADQQI2AgQgBUH+////AGpB/////wBxQQJqIAdB6JXBABDbBiEFIABBgICAgHg2AgAgACAFNgIEIAQEQCAIIARBARCiBwsgAkUNDCABIAJBAnRBBBCiBwwMC0EBQbz+wABBgP3AABDbBgshASAERQ0JIAhBBGsoAgAiBUF4cSICQQRBCCAFQQNxIgUbIARqSQ0MIAVBACACIARBJ2pLGw0LIAgQogIMCQsgACADKAIMNgIUIAAgATYCECAAIAI2AgwgACAGNgIIIAAgCDYCBCAAIAQ2AgAMCQsgASgCCCEEIAEoAgQhASADQgA3AgwgAyABNgIEIAMgASAEQQV0aiIJNgIIIARFDQJBgICAgHghBgNAIAMgAUEgaiIENgIEIAMgAygCEEEBajYCECADIAFBEGoiCjYCDAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkBBFSABKAIAIgJBgICAgHhzIAJBAE4bQQFrDg8ACwsBCwsLCwsLCwIDBAULCyABLQAEIgFFDQdBAUECIAFBAUYbIQEMCwsgASkDCCINUA0GQQFBAiANQgFRGyEBDAoLIAEoAgghAiABKAIMQQVrDgQECwsGCwsgASgCBCECAkAgASgCCEEFaw4EAwsLAAsLIAIpAABC496Rq6bs27frAFENCQwKCyABKAIIIQICQAJAIAEoAgxBBWsOBAALCwELCyACLQAAQeYARw0KIAItAAFB6QBHDQogAi0AAkHsAEcNCiACLQADQeUARw0KIAItAARB8wBHDQoMBAsgAi0AAEHjAEcNCSACLQABQe8ARw0JIAItAAJB5ABHDQkgAi0AA0HlAEcNCSACLQAEQeIARw0JIAItAAVB7wBHDQkgAi0ABkHvAEcNCSACLQAHQesARg0IDAkLIAEoAgQhAgJAAkAgASgCCEEFaw4EAAoKAQoLIAItAABB5gBHDQkgAi0AAUHpAEcNCSACLQACQewARw0JIAItAANB5QBHDQkgAi0ABEHzAEcNCQwDCyACLQAAQeMARw0IIAItAAFB7wBHDQggAi0AAkHkAEcNCCACLQADQeUARw0IIAItAARB4gBHDQggAi0ABUHvAEcNCCACLQAGQe8ARw0IIAItAAdB6wBGDQcMCAsgAkGQ/cAAQQUQ2wcNBwwBCyACQZD9wABBBRDbBw0GCyAGQYCAgIB4Rg0BQZD9wABBBRCfByEEDAwLIAIpAABC496Rq6bs27frAFENAwwECyADQRRqIANBBGoQsgUgAygCGCEEIAMoAhQiBkGAgICAeEYEQEGAgICAeCEGDAsLIAMoAhwhCyADKAIIIQkgBCEIIAMoAgQMBQsgASADQRRqQbTkwAAQlQghBAwJCyABQQJGDQELIAdBgICAgHhGDQFBmP7AAEEIEJ8HIQQgB0UNCQwICyADQQA2AgwgBAwBCyADQQA2AgwgA0EUaiAKENADIAMoAhghBSADKAIUIgdBgICAgHhGBEAgBSEEDAgLIAMoAhwhDCAECyIBIAlHDQALDAELQQBBvP7AAEGA/cAAENsGIQEMBgsgBkGAgICAeEYNACAHQYCAgIB4RgRAQZj+wABBCBCcByEEIAZFDQUgCCAGQQEQogcMBQsgACAMNgIUIAAgBTYCECAAIAc2AgwgACALNgIIIAAgCDYCBCAAIAY2AgAMBgtBgICAgHghBkGQ/cAAQQUQnAchBAsgB0GAgICAeHJBgICAgHhGDQELIAVBBGsoAgAiAUF4cSICIAdBAnQiB0EEQQggAUEDcSIBG2pJDQUgAUEAIAIgB0EnaksbDQQgBRCiAgsgBkGAgICAeHJBgICAgHhGDQAgCEEEaygCACIBQXhxIgVBBEEIIAFBA3EiARsgBmpJDQQgAUEAIAUgBkEnaksbDQMgCBCiAgsgACAENgIEIABBgICAgHg2AgAMAQsgACABNgIEIABBgICAgHg2AgALIANBIGokAA8LQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC5kOAgJ9A38CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCACRSAAKAJcQQJJckUEQEMAAP5CQwAA/kIgACoCUJUgAC0AWEECRhshBiAAKAIoIAFBD2xqIQkgACgCLCEIQQAhAANAIAEgCE8NECAAIARPDREgACAJaiIHQf8AQwAA/kJDAAD+wiAGIAMqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQFqIARPDQ8gB0EBakH/AEMAAP5CQwAA/sIgBiADQQRqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEECaiAETw0OIAdBAmpB/wBDAAD+QkMAAP7CIAYgA0EIaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBA2ogBE8NDSAHQQNqQf8AQwAA/kJDAAD+wiAGIANBDGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQRqIARPDQwgB0EEakH/AEMAAP5CQwAA/sIgBiADQRBqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEFaiAETw0LIAdBBWpB/wBDAAD+QkMAAP7CIAYgA0EUaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBBmogBE8NCiAHQQZqQf8AQwAA/kJDAAD+wiAGIANBGGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQdqIARPDQkgB0EHakH/AEMAAP5CQwAA/sIgBiADQRxqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEIaiAETw0IIAdBCGpB/wBDAAD+QkMAAP7CIAYgA0EgaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBCWogBE8NByAHQQlqQf8AQwAA/kJDAAD+wiAGIANBJGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQpqIARPDQYgB0EKakH/AEMAAP5CQwAA/sIgBiADQShqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEELaiAETw0FIAdBC2pB/wBDAAD+QkMAAP7CIAYgA0EsaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBDGogBE8NBCAHQQxqQf8AQwAA/kJDAAD+wiAGIANBMGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQ1qIARPDQMgB0ENakH/AEMAAP5CQwAA/sIgBiADQTRqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEOaiAETw0CIAdBDmpB/wBDAAD+QkMAAP7CIAYgA0E4aioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIANBPGohAyAAQQ9qIQAgAUEBaiEBIAJBAWsiAg0ACwsPCyAAQQ5qIQAMDgsgAEENaiEADA0LIABBDGohAAwMCyAAQQtqIQAMCwsgAEEKaiEADAoLIABBCWohAAwJCyAAQQhqIQAMCAsgAEEHaiEADAcLIABBBmohAAwGCyAAQQVqIQAMBQsgAEEEaiEADAQLIABBA2ohAAwDCyAAQQJqIQAMAgsgAEEBaiEADAELIAAgBE8NACABIAhBpMTHABCMBwALIAAgBEGUxMcAEIwHAAvYDQIEfwF+IwBBMGsiAiQAAn8CQAJAAkACQAJAAkACQCAAKAIAQQFrDgUBAgMEBQALIABBBGohAyABKAIEIQQgASgCACEBIAAoAhQEQCACIABBFGo2AgQgAiACQQRqrUKAgICAkAeENwMQIAIgA61CgICAgKAHhDcDCCACQgI3AiQgAkECNgIcIAJBwMHEADYCGCACIAJBCGo2AiAgASAEIAJBGGoQwQMMBwsgAy0AAEEDRgRAIAFBlcHEAEEMIAQoAgwRAAAMBwsgAiADrUKAgICAoAeENwMIIAJCATcCJCACQQE2AhwgAkG4wcQANgIYIAIgAkEIajYCICABIAQgAkEYahDBAwwGCyAAQQRqIQMgACgCFARAIAIgAEEUajYCBCACIAJBBGqtQoCAgICQB4Q3AxAgAiADrUKAgICAoAeENwMIIAEoAgAgASgCBCACQgI3AiQgAkECNgIcIAJB8MHEADYCGCACIAJBCGo2AiAgAkEYahDBAwwGCyACIAOtQoCAgICgB4Q3AwggASgCACABKAIEIAJCATcCJCACQQE2AhwgAkHowcQANgIYIAIgAkEIajYCICACQRhqEMEDDAULIAEoAgQhAyABKAIAIQQCQAJAAkACQAJAAkACQEEDIAAoAgQiAUGAgICAeHMgAUEAThtBAWsOBQECBQMEAAsgBEGQwsQAQTggAygCDBEAAEUNBUEBDAoLIARByMLEAEHBACADKAIMEQAARQ0EQQEMCQsgAiAAQQhqNgIEIAIgAkEEaq1CgICAgLAHhDcDCCACQgE3AiQgAkECNgIcIAJBtMPEADYCGCACIAJBCGo2AiAgBCADIAJBGGoQwQNFDQNBAQwICyAEQejDxABBJSADKAIMEQAARQ0CQQEMBwsgAiAAQQhqNgIAIAIgAEEMajYCBCACQoCAgICwByIGIAKthDcDECACIAYgAkEEaq2ENwMIIAJCAjcCJCACQQI2AhwgAkG8xMQANgIYIAIgAkEIajYCICAEIAMgAkEYahDBA0UNAUEBDAYLIAIgAEEEajYCBCACIAJBBGqtQoCAgIDAB4Q3AwggAkIBNwIkIAJBATYCHCACQeDDxAA2AhggAiACQQhqNgIgQQEgBCADIAJBGGoQwQMNBRoLQQAgACgCEEUNBBogAiAAQRBqNgIEIAIgAkEEaq1CgICAgJAHhDcDCCACQgE3AiQgAkEBNgIcIAJBzMTEADYCGCACIAJBCGo2AiAgBCADIAJBGGoQwQMMBAsgASgCACEDIAEoAgQoAgwhAQJAAkACQEECIAApAwgiBqdBAmsgBkIBWBtBAWsOAgECAAsgA0G4v8QAQRggAREAAAwFCyADQfj4xABBFSABEQAADAQLIANB0L/EAEHPACABEQAADAMLIABBBGohBCABKAIEIQMgASgCACEBAkACQAJAAkACQEEDIAAtABQiBUEEayAFQQNNG0H/AXFBAWsOBAECAwQACyACIABBFWo2AgQgAiACQQRqrUKAgICA0AeENwMQIAIgBK1CgICAgKAHhDcDCCACQgI3AiQgAkEDNgIcIAJB8MXEADYCGCACIAJBCGo2AiAgASADIAJBGGoQwQMMBgsgAiAAQRVqNgIEIAIgAkEEaq1CgICAgNAHhDcDCCACQgE3AiQgAkECNgIcIAJBxMbEADYCGCACIAJBCGo2AiAgASADIAJBGGoQwQMMBQsgAiAAQRVqNgIEIAIgAkEEaq1CgICAgLAHhDcDCCACQgE3AiQgAkECNgIcIAJBoMfEADYCGCACIAJBCGo2AiAgASADIAJBGGoQwQMMBAsgAEEUaiEAAkACQAJAIAVBAmsOAgECAAsgAiAANgIEIAIgAkEEaq1CgICAgOAHhDcDCCACQgE3AiQgAkECNgIcIAJBuMjEADYCGCACIAJBCGo2AiAgASADIAJBGGoQwQMMBQsgAiAANgIEIAIgAkEEaq1CgICAgOAHhDcDCCACQgE3AiQgAkECNgIcIAJB7MfEADYCGCACIAJBCGo2AiAgASADIAJBGGoQwQMMBAsgAUH8x8QAQSggAygCDBEAAAwDCyACIABBGGo2AgAgAC0ABEEDRg0BIAIgBDYCBCACIAKtQoCAgIDAB4Q3AxAgAiACQQRqrUKAgICA4AeENwMIIAJCAjcCJCACQQI2AhwgAkG4ycQANgIYIAIgAkEIajYCICABIAMgAkEYahDBAwwCCyAAQQRqIAEQngQMAQsgAiACrUKAgICAwAeENwMIIAJCATcCJCACQQE2AhwgAkH4yMQANgIYIAIgAkEIajYCICABIAMgAkEYahDBAwsgAkEwaiQAC+kNAQF/IwBBMGsiAiQAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAAtAABBAWsOHAECAwQFBgcICQoLDA0ODxAREhMUFRYXGBkaGxwACyACIABBBGo2AgwgAiACQQxqrUKAgICA0AaENwMQIAEoAgAgASgCBCACQgE3AiQgAkEBNgIcIAJB9PLEADYCGCACIAJBEGo2AiAgAkEYahDBAwwcCyACIABBAWo2AgwgAiACQQxqrUKAgICAoAiENwMQIAEoAgAgASgCBCACQQE2AiwgAkGc88QANgIoIAJBATYCJCACQQE2AhwgAkGU88QANgIYIAIgAkEQajYCICACQRhqEMEDDBsLIAIgAEEBajYCDCACIAJBDGqtQoCAgICgCIQ3AxAgASgCACABKAIEIAJBATYCLCACQZzzxAA2AiggAkEBNgIkIAJBATYCHCACQczzxAA2AhggAiACQRBqNgIgIAJBGGoQwQMMGgsgASgCAEHU88QAQR0gASgCBCgCDBEAAAwZCyACIABBAWo2AgwgAiACQQxqrUKAgICAoAiENwMQIAEoAgAgASgCBCACQQE2AiwgAkGc88QANgIoIAJBATYCJCACQQE2AhwgAkGI9MQANgIYIAIgAkEQajYCICACQRhqEMEDDBgLIAEoAgBBkPTEAEERIAEoAgQoAgwRAAAMFwsgASgCAEGh9MQAQSYgASgCBCgCDBEAAAwWCyABKAIAQcf0xABBGiABKAIEKAIMEQAADBULIAEoAgBB4fTEAEEZIAEoAgQoAgwRAAAMFAsgASgCAEH69MQAQQ8gASgCBCgCDBEAAAwTCyABKAIAQYn1xABBEyABKAIEKAIMEQAADBILIAIgAEEBajYCDCACIAJBDGqtQoCAgICwCIQ3AxAgASgCACABKAIEIAJBATYCLCACQZzzxAA2AiggAkEBNgIkIAJBATYCHCACQbj1xAA2AhggAiACQRBqNgIgIAJBGGoQwQMMEQsgAiAAQQFqNgIMIAIgAkEMaq1CgICAgMAIhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBATYCHCACQeT1xAA2AhggAiACQRBqNgIgIAJBGGoQwQMMEAsgAiAAQQFqNgIMIAIgAkEMaq1CgICAgMAIhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBATYCHCACQYj2xAA2AhggAiACQRBqNgIgIAJBGGoQwQMMDwsgASgCAEGQ9sQAQRQgASgCBCgCDBEAAAwOCyABKAIAQaT2xABBESABKAIEKAIMEQAADA0LIAEoAgBBtfbEAEERIAEoAgQoAgwRAAAMDAsgAiAAQQFqNgIMIAIgAkEMaq1CgICAgNAIhDcDECABKAIAIAEoAgQgAkEBNgIsIAJBnPPEADYCKCACQQE2AiQgAkEBNgIcIAJB3PbEADYCGCACIAJBEGo2AiAgAkEYahDBAwwLCyABKAIAQeT2xABBGCABKAIEKAIMEQAADAoLIAIgAEEBajYCDCACIAJBDGqtQoCAgIDACIQ3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkGY98QANgIYIAIgAkEQajYCICACQRhqEMEDDAkLIAIgAEEBajYCDCACIAJBDGqtQoCAgIDgCIQ3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkHE98QANgIYIAIgAkEQajYCICACQRhqEMEDDAgLIAIgAEEBajYCDCACIAJBDGqtQoCAgIDgCIQ3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkHw98QANgIYIAIgAkEQajYCICACQRhqEMEDDAcLIAIgAEEBajYCDCACIAJBDGqtQoCAgIDgCIQ3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkGc+MQANgIYIAIgAkEQajYCICACQRhqEMEDDAYLIAEoAgBBpPjEAEEYIAEoAgQoAgwRAAAMBQsgAiAAQQRqNgIMIAIgAkEMaq1CgICAgMAHhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBATYCHCACQdT4xAA2AhggAiACQRBqNgIgIAJBGGoQwQMMBAsgAiAAQQRqNgIMIAIgAkEMaq1CgICAgMAHhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBATYCHCACQfD4xAA2AhggAiACQRBqNgIgIAJBGGoQwQMMAwsgASgCAEH4+MQAQRUgASgCBCgCDBEAAAwCCyABKAIAQY35xABBEiABKAIEKAIMEQAADAELIAEoAgBBn/nEAEEOIAEoAgQoAgwRAAALIAJBMGokAAvZDAILfwV9QwAAgD8hDwJ/AkAgASgCACIIIAJBBGooAgAiBSgCCCIHSQRAIAFBBGsiCygCACEBIAUoAgQiCSAIQRhsaiIDLQATIgQgAy0AEiIGIAMtABEiCiAGIApLGyIGIAQgBksbIgQEfUMAAEDBIAUqAkQgBS0AWEECRiIGGyIOQwAAEEEgBSoCSCAGGyAOk0MAAH5DlSAEQQFrQf8BcbOUkhCJBCIOIA6SBUMAAAAACyERIANBDGovAQAiBEH//wFxRQRAIARBEHQMAwsgBEH/B3EhAyAEQYCAAnEhBiAEQYD4AXEiBEGA+AFGBEAgBkEQdCIEQYCAgPwHciADRQ0DGiAEIANBDXRyQYCAgP4HcgwDCyAGQRB0IQYgBEUNASAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogBnIMAgsgCCAHQdy7xwAQjAcACyADIANnQRBrIgNB//8DcUEIanRB////A3EgBkGAgIDYA3IgA0EXdGtyC74iDkMAAIA/XgRAIA4QxgVDVPgtQJRDAACAP5KRIQ8LQwAAgD8hDgJ/AkAgASAHSQRAIAkgAUEYbGoiAy0AEyIEIAMtABIiByADLQARIgYgBiAHSRsiByAEIAdLGyIEBH1DAABAwSAFKgJEIAUtAFhBAkYiBxsiEEMAABBBIAUqAkggBxsgEJNDAAB+Q5UgBEEBa0H/AXGzlJIQiQQiECAQkgVDAAAAAAshECADQQxqLwEAIgNB//8BcUUEQCADQRB0DAMLIANB/wdxIQUgA0GAgAJxIQQgA0GA+AFxIgNBgPgBRgRAIARBEHQiA0GAgID8B3IgBUUNAxogAyAFQQ10ckGAgID+B3IMAwsgBEEQdCEEIANFDQEgA0ENdEGAgID8AHEgBUENdHJBgICAwANqIARyDAILIAEgB0Hcu8cAEIwHAAsgBSAFZ0EQayIFQf//A3FBCGp0Qf///wNxIARBgICA2ANyIAVBF3Rrcgu+IhJDAACAP14EQCASEMYFQ1T4LUCUQwAAgD+SkSEOCyARIA+UIg8gD1wgDyAQIA6UYHJFBEAgAkEEaiEJIAhBGGwhCgNAAkAgCyICQQRqIAE2AgAgACACRg0AQwAAgD8hDwJ/AkAgCSgCACIFKAIIIgcgCEsEQCACQQRrIgsoAgAhASAFKAIEIgwgCmoiAy0AEyIEIAMtABIiBiADLQARIg0gBiANSxsiBiAEIAZLGyIEBH1DAABAwSAFKgJEIAUtAFhBAkYiBhsiDkMAABBBIAUqAkggBhsgDpNDAAB+Q5UgBEEBa0H/AXGzlJIQiQQiDiAOkgVDAAAAAAshESADQQxqLwEAIgRB//8BcUUEQCAEQRB0DAMLIARB/wdxIQMgBEGAgAJxIQYgBEGA+AFxIgRBgPgBRgRAIAZBEHQiBEGAgID8B3IgA0UNAxogBCADQQ10ckGAgID+B3IMAwsgBkEQdCEGIARFDQEgBEENdEGAgID8AHEgA0ENdHJBgICAwANqIAZyDAILIAggB0Hcu8cAEIwHAAsgAyADZ0EQayIDQf//A3FBCGp0Qf///wNxIAZBgICA2ANyIANBF3Rrcgu+Ig5DAACAP14EQCAOEMYFQ1T4LUCUQwAAgD+SkSEPC0MAAIA/IQ4CfwJAIAEgB0kEQCAMIAFBGGxqIgMtABMiBCADLQASIgcgAy0AESIGIAYgB0kbIgcgBCAHSxsiBAR9QwAAQMEgBSoCRCAFLQBYQQJGIgcbIhBDAAAQQSAFKgJIIAcbIBCTQwAAfkOVIARBAWtB/wFxs5SSEIkEIhAgEJIFQwAAAAALIRAgA0EMai8BACIDQf//AXFFBEAgA0EQdAwDCyADQf8HcSEFIANBgIACcSEEIANBgPgBcSIDQYD4AUYEQCAEQRB0IgNBgICA/AdyIAVFDQMaIAMgBUENdHJBgICA/gdyDAMLIARBEHQhBCADRQ0BIANBDXRBgICA/ABxIAVBDXRyQYCAgMADaiAEcgwCCyABIAdB3LvHABCMBwALIAUgBWdBEGsiBUH//wNxQQhqdEH///8DcSAEQYCAgNgDciAFQRd0a3ILviISQwAAgD9eBEAgEhDGBUNU+C1AlEMAAIA/kpEhDgsgESAPlCIPIA9cDQAgDyAQIA6UYEUNAQsLIAIgCDYCAAsLkAwCCX8BfSMAQYABayIIJAACfwJAIAAoAggiBiABSwRAIAAoAgQgAUEYbGoiBi0AEyIFIAYtABIiByAGLQARIgkgByAJSxsiByAFIAdLGyIFBH1DAABAwSAAKgJEIAAtAFhBAkYiBxsiDkMAABBBIAAqAkggBxsgDpNDAAB+Q5UgBUEBa0H/AXGzlJIQiQQiDiAOkgVDAAAAAAshDiAGQQxqLwEAIgVB//8BcUUEQCAFQRB0DAMLIAVB/wdxIQYgBUGAgAJxIQcgBUGA+AFxIgVBgPgBRgRAIAdBEHQiBUGAgID8B3IgBkUNAxogBSAGQQ10ckGAgID+B3IMAwsgB0EQdCEHIAVFDQEgBUENdEGAgID8AHEgBkENdHJBgICAwANqIAdyDAILIAEgBkHcu8cAEIwHAAsgBiAGZ0EQayIGQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIAZBF3RrcgshBgJAAkACQCAOIAa+Ig5DAACAP14EfSAOEMYFQ1T4LUCUQwAAgD+SkQVDAACAPwuUIANdRQRAIAggACgCECIFIAAoAhQiByABEOcCAkAgCCgCJCIGQQlPBEAgCCgCBCIKDQEgCCgCCCIAQQRrKAIAIgFBeHEiAiAGQQJ0IgRBBEEIIAFBA3EiARtqSQ0EIAFBACACIARBJ2pLGw0FIAAQogIMAwsgBiIKRQ0CCyAIQShqIAIoAggiCSAJIApqEIwDIAUgByABAn8gCCgCTCIKQQlPBEAgCCgCLCEKIAgoAjAMAQsgCEEsagsgChDUAiAIQQRqIQECfyAGQQlJBEAgCEEkaiEFIAEMAQsgASEFIAgoAggLIQcCQCAFKAIAIgVBAkkNACAFQRVPBEAgByAFEMEFDAELIAdBBGohBgJAIAVBAXEEQCAGIQkgByEGDAELIAcoAgQiCSAHKAIAIgtJBEAgByAJNgIAIAcgCzYCBAsgB0EIaiEJCyAFQQJGDQAgByAFQQJ0aiENIAlBBGohDANAIAkoAgAiCiAGKAIAIgVJBEAgCSELAn8DQCALIAU2AgAgByAGIAdGDQEaIAYhCyAKIAZBBGsiBigCACIFSQ0ACyAGQQRqCyAKNgIAIAkoAgAhCgsgCiAJKAIEIgtLBEAgDCEFA0ACQCAFIAo2AgAgByAFQQRrIgZGBEAgByEGDAELIAVBCGshCiAGIQUgCyAKKAIAIgpJDQELCyAGIAs2AgALIAlBBGohBiAMQQhqIQwgCUEIaiIJIA1HDQALCyAIKAIkIgchBSAHQQlPBEAgCCgCBCEFIAgoAgghAQsgBQRAIAVBAnQhBiACKAIIIgVBAnQhBwNAIAEoAgAhCSACKAIAIAVGBEAgAkGA5sEAEIsGCyABQQRqIQEgAigCBCAHaiAJNgIAIAIgBUEBaiIFNgIIIAdBBGohByAGQQRrIgYNAAsgCCgCJCEHCyAIKAIEIQUgCEHwAGogCEEgaigCADYCACAIQegAaiAIQRhqKQIANwIAIAggCP0AAgj9CwJYIAggBSAHIAdBCEsiARsiBjYCfCAIIAdBACABGzYCdCAIQQAgBSABGzYCVAJAAkAgBgRAIAdBCU8EQCAIKAJYIgYhAQNAIAAgASgCACACIAMgBBDLASABQQRqIQEgBUEBayIFDQALDAILIAhB1ABqIQFBACEFA0AgCCAFQQFqIgU2AnggACABKAIAIAIgAyAEEMsBIAFBBGohASAFIAdHDQALDAILIAdBCUkNASAIKAJYIQYLIAZBBGsoAgAiAEF4cSIBIAdBAnQiAkEEQQggAEEDcSIAG2pJDQMgAEEAIAEgAkEnaksbDQQgBhCiAgsgCCgCTCIAQQlJDQEgCCgCMCIBQQRrKAIAIgJBeHEiBCAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIABBJ2pLGw0DIAEQogIMAQsgBCgCCCIAIAQoAgBGBEAgBEGQ5sEAEIsGCyAEKAIEIABBAnRqIAE2AgAgBCAAQQFqNgIICyAIQYABaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALshADB38BfgF7IwBBMGsiAyQAAkACQCAAKAIAIgZFBEAgACgCECIARQ0BIABBk7PFAEEBEJcDIQQMAgsgACAAKAIMQQFqIgQ2AgwCQAJAAkACQAJAAkACQAJAIARB9QNPBEAgACgCECIBRQ0BIAFB+rLFAEEZEJcDRQ0BDAgLAkACQAJAAkAgACgCCCICIAAoAgQiCE8EQCAAKAIQIgFFDQEgAUHqssUAQRAQlwMNDAwBC0EBIQQgACACQQFqIgc2AggCQAJAAkACQAJAAkAgAiAGai0AACIFQckAaw4GAgEBAQgFAAsCQCAFQcIAaw4CAwQACyAFQdgAaw4CBwsACyAAKAIQIgFFDQQgAUHqssUAQRAQlwNFDQQMEQsgACABEMwBDRAgAQ0GDAwLIwBBIGsiAiQAAkACQCAAKAIARQRAIAAoAhAiAUUNASABQZOzxQBBARCXAyEBDAILIAIgABCvBiACKAIARQRAIAAoAhAiBQRAQQEhASAFQfqyxQBB6rLFACACLQAEQQFxIgUbQRlBECAFGxCXAw0DCyAAIAL9AAIA/QsCAAwBCyAAKAIQRQ0AIAD9AAIAIQogACAC/QACAP0LAgAgAiAK/QsDECAAIAFBAXEQzAEhASAAIAL9AAMQ/QsCAAwBC0EAIQELIAJBIGokACABRQ0MDA8LIANBIGogAEHzABCsBiADLQAgQQFGBEAgAy0AISEBIAAoAhAiAgRAIAJB+rLFAEHqssUAIAFBAXEiAhtBGUEQIAIbEJcDDRALIAAgAToABAwKCyAAKAIARQRAIAAoAhAiAEUNDiAAQZOzxQBBARCXAyEEDA8LIAMpAyghCSADQSBqIAAQ7wIgAygCIEUEQCADLQAkIQEgACgCECICBEAgAkH6ssUAQeqyxQAgAUEBcSICG0EZQRAgAhsQlwMNEAsgACABOgAEDAoLIAMgA/0AAiD9CwMAIAAoAhAiAUUNCyADIAEQiwINDCAAKAIQIgFFIAlQcg0LIAEoAghBgICABHENCyABKAIAQeiyxQBBASABKAIEKAIMEQAADQ4gACgCECMAQRBrIgIkAEERIQEDQCABIAJqQQJrIAmnQQ9xLQDctkU6AAAgAUEBayEBIAlCD1YgCUIEiCEJDQALQQFBhLTFAEECIAEgAmpBAWtBESABaxDIAyACQRBqJAANDiAAKAIQIgEoAgBB6bLFAEEBIAEoAgQoAgwRAAANDgwLCyAHIAhJBEAgACACQQJqNgIIIAYgB2otAAAiAkHBAGtB/wFxQRpJDQIgAkHhAGtBgIDEACECQf8BcUEaSQ0CCyAAKAIQIgFFDQAgAUHqssUAQRAQlwMNCwtBACEEIABBADoABCAAQQA2AgAMDAtBASEEIAAgARDMAQ0LAkAgACgCAA0AIAAoAhAiAUUNCyABQZSzxQBBAhCXAw0MIAAoAgANAEEAIQQgACgCECIARQ0MIABBk7PFAEEBEJcDIQQMDAsgA0EgaiAAQfMAEKwGIAMtACBBAUYEQCADLQAhIQEgACgCECICBEAgAkH6ssUAQeqyxQAgAUEBcSICG0EZQRAgAhsQlwMNDQsgACABOgAEDAcLIAAoAgBFBEAgACgCECIARQ0LIABBk7PFAEEBEJcDIQQMDAsgAykDKCEJIANBIGogABDvAiADKAIgRQRAIAMtACQhASAAKAIQIgIEQCACQfqyxQBB6rLFACABQQFxIgIbQRlBECACGxCXAw0NCyAAIAE6AAQMBwsgAyAD/QACIP0LAxACQAJAAkAgAkGAgMQARwRAIAAoAhAiAQRAIAFBlrPFAEEDEJcDDQ4LIAJBwwBGDQEgAkHTAEYNAiADIAI2AiAgACgCECIBRQ0DIANBIGogARCoBQ0NDAMLIAMoAhQgAygCHHJFDQsgACgCECIBRQ0LIAFBlLPFAEECEJcDDQ4gACgCECIBRQ0LIANBEGogARCLAkUNCwwOCyAAKAIQIgFFDQEgAUGZs8UAQQcQlwMNCwwBCyAAKAIQIgFFDQAgAUGgs8UAQQQQlwMNCgsgACgCECECIAMoAhQgAygCHHJFDQUgAkUNCCACQdD4xwBBARCXAw0LIAAoAhAiAUUNCCADQRBqIAEQiwINCyAAKAIQIQIMBQsgA0EgaiAAQfMAEKwGIAMtACBBAUcNAiADLQAhIQEgACgCECICBEAgAkH6ssUAQeqyxQAgAUEBcSICG0EZQRAgAhsQlwMNCwsgACABOgAEDAULIAAoAhAiAUUNBSABQZSzxQBBAhCXA0UNBQwJCyAAQQE6AAQMAwsjAEEQayIBJAAgACgCECECIABBADYCECAAQQAQzAEEQEGotMUAQT0gAUEPakGYtMUAQei0xQAQ4AYACyAAIAI2AhAgAUEQaiQACyAAKAIQIgEEQCABQaazxQBBARCXAw0HCyAAEIYCDQQgBUHNAEcEQCAAKAIQIgEEQCABQaezxQBBBBCXAw0GCyAAQQAQzAENBwsgACgCECIBRQ0DIAFBq7PFAEEBEJcDRQ0DDAYLIAJFDQIgAkGks8UAQQEQlwMNBSAAKAIQIQEgAyAJNwMgIAFFDQIgA0EgaiABEIUFDQUgACgCECIBRQ0CIAFBpbPFAEEBEJcDRQ0CDAULQQAhBCAAQQA2AgAMBAsgACgCECIBBEAgAUGms8UAQQEQlwMNBAsgABDuBA0DIAAoAhAiAUUNACABQauzxQBBARCXAw0DC0EAIQQgACgCAEUNAiAAIAAoAgxBAWs2AgwMAgtBASEEDAELQQAhBAsgA0EwaiQAIAQLkB4CFH8CfiMAQeAAayIIJAAgAUFAayEKAkACQCABLQBgIgdBB0sNACAIQdAAaiAKEI4CAkAgCC0AUCIHQR1GBEAgAS0AYCIHQQhPDQJBDyEHDAELIAggCCkBUjcDACAIIAhB2ABqKQEANwEGIAgtAFEhAQsgACABOgABIAAgBzoAACAAIAgpAwA3AQIgAEEIaiAIKQEGNwEADAELIAEgB0EIayIHOgBgIAEgASkDQCIaQgiIIhs3A0ACQAJAAkACQCAapyIGQf8BcUEvRgRAIAdB/wFxQQ1LDQQgCEHQAGogChCOAiAILQBQIgdBHUcNASABLQBgIgdBDk8NA0EPIQcMAgsgACAGOgABIABBCzoAAAwECyAIQRhqIAhB3ABqKAIANgIAIAggCCkCVDcDECAILwFSIQEgCC0AUSEKCyAAIAE7AQIgACAKOgABIAAgBzoAACAAIAgpAxA3AgQgAEEMaiAIQRhqKAIANgIADAILIAopAwAhGwsgASAHQQ5rIgc6AGAgASAbQg6IIho3A0AgASAbp0H//wBxQQFqIgY7AXQgB0H/AXFBDU0EQCAIQdAAaiAKEI4CAkACQCAILQBQIgdBHUYEQCABLQBgIgdBDk8NAkEPIQcMAQsgCEEoaiAIQdwAaigCADYCACAIIAgpAlQ3AyAgCC8BUiEBIAgtAFEhCgsgACABOwECIAAgCjoAASAAIAc6AAAgACAIKQMgNwIEIABBDGogCEEoaigCADYCAAwCCyABKQNAIRogAS8BdCEGCyABIAdBDmsiBzoAYCABIBpCDogiGzcDQCABIBqnQf//AHFBAWoiCTsBdgJAIAIgBkH//wNxRyADIAlHckUEQCAHQf8BcUUEQCAIQdAAaiAKEI4CAkACQCAILQBQIgdBHUYEQCABLQBgIgcNAkEPIQcMAQsgCCAIKQFSNwMwIAggCEHYAGopAQA3ATYgCC0AUSEBCyAAIAE6AAEgACAHOgAAIAAgCCkDMDcBAiAAQQhqIAgpATY3AQAMBAsgCikDACEbCyABIAdBAWsiAjoAYCABIBtCAYgiGjcDQAJAAkAgB0H/AXFBA00EQCAIQdAAaiAKEI4CIAgtAFAiB0EdRw0BIAEtAGAiAkEDSQRAQQ8hBwwDCyAKKQMAIRoLIAEgAkEDazoAYCABIBpCA4g3A0AgGqdBB3EiAkUNAyAAIAI6AAEgAEEMOgAADAQLIAggCCkBUjcDQCAIIAhB2ABqKQEANwFGIAgtAFEhAQsgACAIKQNANwECIABBCGogCCkBRjcBACAAIAE6AAEgACAHOgAADAILIABBFzoAAAwBCyAIQdAAaiELQQAhByMAQeAAayIGJAAgASIDQegAaiEZIANBQGshESADLwF0IRICQAJAA0ACQAJAAkACQAJAAkACQCADLQBgIgkNACAGQcwAaiAREI4CIAsCfyAGLQBMIglBHUYEQCADLQBgIgkNAkEPIQlBAQwBCyAGIAYpAU43AwAgBiAGQdQAaikBADcBBiAGLQBNCzoAASALIAk6AAAgCyAGKQMANwECIAtBCGogBikBBjcBAAwBCyADIAlBAWsiAjoAYCADIAMpA0AiG0IBiCIaNwNAIBtCAYNQRQRAIAlBAk0EQCAGQcwAaiAREI4CAkACQCAGLQBMIglBHUYEQCADLQBgIgJBAk8NAkEPIQkMAQsgBiAGKQFONwMQIAYgBkHUAGopAQA3ARYgBi0ATSEQCyALIBA6AAEgCyAJOgAAIAsgBikDEDcBAiALQQhqIAYpARY3AQAMAwsgESkDACEaCyADIAJBAms6AGAgAyAaQgKINwNAIAMgGqdBA3EiEEEEdGoiDS0AAEEERwRAIAtBEDoAAAwCCyADKAJwIgIgAygCaEYEQCAZQYj7xgAQpwYLIAMoAmwgAmogEDoAACADIAJBAWo2AnACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgEEEBaw4DARECAAsgAy0AYCIJQQJLDQQgBkHMAGogERCOAiAGLQBMIglBHUcNAiADLQBgIglBA08NBEEPIQkMAwsgAy0AYCIJQQJLDQYgBkHMAGogERCOAiAGLQBMIglBHUcNBCADLQBgIglBA08NBkEPIQkMBQsgAy0AYCIJQQdLDQggBkHMAGogERCOAiAGLQBMIglBHUcNBiADLQBgIglBCE8NCEEPIQkMBwsgBiAGKQFONwMgIAYgBkHUAGopAQA3ASYgBi0ATSEXCyALIBc6AAEgCyAJOgAAIAsgBikDIDcBAiALQQhqIAYpASY3AQAMCAsgAyAJQQNrOgBgIAMgAykDQCIaQgOINwNAQX8gGqdBB3EiF0ECaiIPdEF/cyICIBJB//8DcWogD3YiCiACIAMvAXZqIA92IglsIgJBAnQhDAJAIAJFBEBBASEHDAELIAwQcSIHRQ0KIAdBBGstAABBA3FFIAxFcg0AIAdBACAM/AsACyAGQcwAaiADIAogCUEAIAcgDBA6IAYtAEwiCkEdRg0LIAsgBikATTcAASALQQhqIAZB1ABqKQAANwAAIAsgCjoAACACRQ0HIAdBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAxqSQ0MIAJBACADIAxBJ2pLGw0OIAcQogIMBwsgBiAGKQFONwMwIAYgBkHUAGopAQA3ATYgBi0ATSEYCyALIBg6AAEgCyAJOgAAIAsgBikDMDcBAiALQQhqIAYpATY3AQAMBQsgAyAJQQNrOgBgIAMgAykDQCIaQgOINwNAQX8gGqdBB3EiGEECaiIPdEF/cyICIBJB//8DcWogD3YiCiACIAMvAXZqIA92IglsIgJBAnQhDAJAIAJFBEBBASEHDAELIAwQcSIHRQ0HIAdBBGstAABBA3FFIAxFcg0AIAdBACAM/AsACyAGQcwAaiADIAogCUEAIAcgDBA6IAYtAEwiCkEdRg0IIAsgBikATTcAASALQQhqIAZB1ABqKQAANwAAIAsgCjoAACACRQ0EIAdBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAxqSQ0JIAJBACADIAxBJ2pLGw0FIAcQogIMBAsgBkHIAGogBkHYAGooAgA2AgAgBiAGKQJQNwNAIAYvAU4hDiAGLQBNIQMLIAsgDjsBAiALIAM6AAEgCyAJOgAAIAsgBikDQDcCBCALQQxqIAZByABqKAIANgIADAILIAMgCUEIazoAYCADIAMpA0AiGkIIiDcDQCAapyICQf8BcSIOQQFqIhNBAnQiDBBxIgdFDQMgB0EEayIULQAAQQNxRSAMRXJFBEAgB0EAIAz8CwALIAZBzABqIAMgE0EBQQAgByAMEDogBi0ATCIKQR1HBEAgCyAGKQBNNwABIAtBCGogBkHUAGopAAA3AAAgCyAKOgAAIBQoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAxqSQ0HIAJBACADIAxBJ2pLGw0JIAcQogIMAgsgEkH//wNxQQECf0EDIA5BAkkNABpBAiAOQQRJDQAaIA5BEEkLIgp0akEBayAKdiISQf//A00EQCAORQRAQQEhE0EAIQ4MBwtBBCEJIAJBAnRB/AdxIhVBAWsiAiAMIAIgDEkbIgJBBE8EQCACQQFqIgpBA3EiCUEEIAkbIgkgAkF/c2ohFiAKIAlrQQRqIQkgByECA0AgAkEEaiIKIAL9XAAAIAr9XAAA/W79WgAAACAKIQIgFkEEaiIWDQALCyAVQQhqIQIgFUEEaiEKA0AgAiAJRg0GIAkgFGoiFUEEaiIWIBUtAAAgFi0AAGo6AAAgCUEBaiIJIApHDQALDAYLQdjmyABBKyAGQd8AakGY+8YAQaj7xgAQ4AYACyALQR06AAAgCyASOwECCyAGQeAAaiQADAcLQYyNyABBLkG8jcgAEOsHCwALIAlBBGsgDEG4+8YAEIwHAAsCQAJAIA0tAAAiAkEERiACQQJGcg0AIA0oAgQiAkUNACANKAIIIgpBBGsoAgAiCUF4cSIUQQRBCCAJQQNxIgkbIAJqSQ0BIAlBACAUIAJBJ2pLGw0EIAoQogILIA0gDDYCDCANIAc2AgggDSAMNgIEIA0gEzsBAiANIA86AAEgDSAQOgAADAILCwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAgtAFAiAkEdRwRAIAAgCCkCVDcCBCAAQQxqIAhB3ABqKAIANgIAIAgtAFEhASAAIAgvAVI7AQIgACABOgABIAAgAjoAAAwBCyAFIAgvAVIiCSABLwF2IgJsQQJ0IgNPBEAgCEHQAGogASAJIAJBASAEIAMQOiAILQBQIgJBHUcEQCAAIAgpAFE3AAEgAEEIaiAIQdgAaikAADcAACAAIAI6AAAMAgsgASgCcCICBEAgBEEEaiELIAEoAmwiDCACaiEGA0ACQAJAAkACQAJAAkACQAJAIAZBAWsiBi0AACICQQRJBEAgASACQQR0aiICLQAAQQFrDgQEBQIBAwsgAkEEQaj6xgAQjAcAC0G4+sYAEN0JAAsgBCAFIAEvAXQiCSABLwF2IgMgAi8BAiACKAIIIAIoAgwQSiADIAlsQQJ0IQMMBQsgAyAFSw0DIAhB0ABqIAQgAyAJIAEvAXYgAi0AASACKAIIIAIoAgwQTiAILQBQIgJBHUYNBCAAIAgpAFE3AAEgAEEIaiAIQdgAaikAADcAACAAIAI6AAAMCAsgAyAFSw0BIAQgAyAJIAItAAEgAigCCCACKAIMEJcCDAMLIAMgBU0EQCADQXxxIgpFDQMgA0EEayICQQRxBH8gBAUgBCAELQABIgcgBC0AAGo6AAAgBCAHIAQtAAJqOgACIAJBBEkNBCAKQQRrIQogCwshBwNAIAcgB0EBai0AACICIActAABqOgAAIAdBAmoiDSACIA0tAABqOgAAIAdBBGoiAiAHQQVqLQAAIg0gAi0AAGo6AAAgB0EGaiICIA0gAi0AAGo6AAAgB0EIaiEHIApBCGsiCg0ACwwDC0EAIAMgBUHo+sYAEOoHAAtBACADIAVB2PrGABDqBwALQQAgAyAFQcj6xgAQ6gcACyAGIAxHDQALCyAAQR06AAAMAQtBACADIAVB+PrGABDqBwALIAhB4ABqJAAL7g4CDH8DfiMAQTBrIgIkAAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCACIEQYCAgIB4cyAEQQBOG0EUaw4CAQIACyABIAJBL2pB1OPAABCVCCEBIABBgICAgHg2AgAgACABNgIEDAYLIAEoAgwiBkUNAgJAIAEoAggiBSgCAEGUgICAeEYEQAJAIAUoAgwiAQRAIAJBHGogBSgCCBCoAyACKAIcIgRBgICAgHhHDQEgAigCICEBDAgLQQAgAkEvakGE4sAAENsGIQEMBwsgAigCICEHIAFBAUYNASACQQE2AhwgAUEBa0H/////AHFBAWogAkEcakHolcEAENsGIQEgBEUNBiAHIARBARCiBwwGCyAFIAJBL2pBhOLAABCVCCEBDAULIAZBAUYNASACKAIkIQkgAkEcaiIDIAVBEGoQ0wIgAigCICEBIAIoAhwNAwJAIAZBAkcEQCACKQIkIQ4gAyAFQSBqENMCIAIoAiAhBSACKAIcRQ0BIAUhAQwFC0ECQcSAwQBBgP3AABDbBiEBDAQLIAZBA0cEQCACQQM2AhwgBkH9////AGpB/////wBxQQNqIAJBHGpB6JXBABDbBiEBIABBgICAgHg2AgAgACABNgIEIARFDQYgByAEQQEQogcMBgsgACACKQIkNwIcIAAgBTYCGCAAIA43AhAgACABNgIMIAAgCTYCCCAAIAc2AgQgACAENgIADAULIAEoAgQhBCABKAIIIQEgAkEANgIYIAIgBCABQQV0aiILNgIQAkACQCABRQ0AQYCAgIB4IQgDQCACIARBIGoiATYCDCACIAIoAhhBAWo2AhggAiAEQRBqIgw2AhQCQAJAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkBBFSAEKAIAIgNBgICAgHhzIANBAE4bQQFrDg8ADg4BDg4ODg4ODgIDBAUOCyAELQAEDgMKBQcPCyAEKQMIIg5CAlYNDiAOp0EBaw4CBAYJCyAEKAIIIQMCQCAEKAIMQQRrDgIACA4LIAMoAABB7dK5mwdGDQMgAygAAEHtwuGbB0YNBQwNCyAEKAIEIQMCQCAEKAIIQQRrDgIABg0LIAMoAABB7dK5mwdGDQIgAygAAEHtwuGbB0YNBAwMCyAEKAIIIQMCQAJAIAQoAgxBBGsOAgEADQsgAy0AAEHmAEcNDCADLQABQekARw0MIAMtAAJB7ABHDQwgAy0AA0HlAEcNDCADLQAEQfMARw0MDAcLIAMtAABB7QBHDQsCQAJAIAMtAAFB4QBrDgkBDQ0NDQ0NDQANCyADLQACQe4ARw0MIAMtAANB8wBGDQIMDAsgAy0AAkH4AEcNCyADLQADQfMARg0DDAsLIAQoAgQhAwJAAkAgBCgCCEEEaw4CAQAMCyADLQAAQeYARw0LIAMtAAFB6QBHDQsgAy0AAkHsAEcNCyADLQADQeUARw0LIAMtAARB8wBHDQsMBgsgAy0AAEHtAEcNCgJAIAMtAAFB4QBrDgkCCwsLCwsLCwALCyADLQACQe4ARw0KIAMtAANB8wBHDQoLIAZFDQVBlf3AAEEEEJ8HDAgLIAMtAAJB+ABHDQggAy0AA0HzAEcNCAsgCkUNBEGZ/cAAQQQQnwcMBgsgA0GQ/cAAQQUQ2wdFDQEMBgsgA0GQ/cAAQQUQ2wcNBQsgCEGAgICAeEcEQEGQ/cAAQQUQnwcMBAsgAkEcaiACQQxqELIFIAIoAiAhByACKAIcIghBgICAgHhGBEAgByEFDAkLIAIoAiQhDSACKAIQIQsgAigCDCEBDAULIAJBADYCFCACQRxqIAwQ0wIgAigCICIFIAIoAhxBAUYNAhogAikCJCEPQQEhBgwECyACQQA2AhQgAkEcaiAMENMCIAIoAiAhCSAJIAIoAhxBAUYNARogAikCJCEQQQEhCgwDCyAEIAJBL2pBhOTAABCVCAshBSAIQYCAgIB4ckGAgICAeEYNBAJAIAdBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAhqTwRAIAFBACAEIAhBJ2pLGw0BIAcQogIMBgtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAJBADYCFAsgCyABIgRHDQALIAhBgICAgHhGDQAgBkEAIAobRQRAQZn9wABBlf3AACAGG0EEEJwHIQUgCEUNAiAHIAhBARCiBwwCCyAAIBA3AhwgACAJNgIYIAAgDzcCECAAIAU2AgwgACANNgIIIAAgBzYCBCAAIAg2AgAMBgtBkP3AAEEFEJwHIQULIAAgBTYCBCAAQYCAgIB4NgIADAQLQQFBxIDBAEGA/cAAENsGIQEMAQtBAEHEgMEAQYD9wAAQ2wYhAQwBCyAERQ0AIAdBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIARqSQ0CIAVBACAGIARBJ2pLGw0DIAcQogILIAAgATYCBCAAQYCAgIB4NgIACyACQTBqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAukDAISfgh/IwBB4ABrIhUkAAJAAn8CQAJAAkACQAJAAkACQCABKQMAIgNQRQRAIAEpAwgiBFANASABKQMQIgVQDQIgBSADQn+FVg0DIAMgBFQNBCADIAV8IgVCgICAgICAgIAgWg0FIBUgAS8BGCIBOwE4IBUgAyAEfSIHNwMwIBUgByAFeSIEhiIIIASIIgY3A0AgBiAHUg0JIBUgATsBOCAVIAM3AzAgFSADIARCP4MiB4YiBiAHiCIHNwNAIAMgB1INCUGgfyABIASnayIXa8FB0ABsQbCnBWpBzhBtIgFB0QBPDQYgFUEgaiABQQR0IgEpA4iFQiIDIAUgBIYQ3QYgFUEQaiADIAgQ3QYgFSADIAYQ3QZCAUEAIBcgAS8BkIVCamtBP3GtIgaGIghCAX0hCiAVKQMQQj+HIQwgFSkDAEI/iCEOIBUpAwghDyABLwGShUIhFyAVKQMYIRAgFSkDKCITIBUpAyBCP4giFHwiEUIBfCIJIAaIpyIWQZDOAE8EQCAWQcCEPUkNCCAWQYDC1y9PBEBBCEEJIBZBgJTr3ANJIgEbIRlBgMLXL0GAlOvcAyABGwwKC0EGQQcgFkGAreIESSIBGyEZQcCEPUGAreIEIAEbDAkLIBZB5ABPBEBBAkEDIBZB6AdJIgEbIRlB5ABB6AcgARsMCQtBCkEBIBZBCUsiGRsMCAtB2I/CAEEcQaSQwgAQ6wcAC0G0kMIAQR1B1JDCABDrBwALQeSQwgBBHEGAkcIAEOsHAAtBuJLCAEE2QfCSwgAQ6wcAC0HwkcIAQTdBqJLCABDrBwALQZCRwgBBLUHAkcIAEOsHAAsgAUHRAEGYj8IAEIwHAAtBBEEFIBZBoI0GSSIBGyEZQZDOAEGgjQYgARsLIQEgCSAKgyEEIA4gD3whCyAZIBdrQQFqIRsgDCAQfSAJfEIBfCINIAqDIQUCQAJAAkACQAJAAkACQAJAAkADQCACIBhqIBYgAW4iHEEwaiIaOgAAIBhBAWohFyANIBYgASAcbGsiFq0gBoYiEiAEfCIDVg0CIBggGUYEQCAXIQFCASEDA0AgAyEHIAFBEUYNBSABIAJqIARCCn4iBCAGiKdBMGoiGDoAACABQQFqIQEgA0IKfiEDIAVCCn4iBSAEIAqDIgRYDQALIAUgBH0iCiAIVCEWIAMgCSALfX4iCSADfCEGIAQgCSADfSIJWg0HIAggClgNAgwHCyABQQpJIBchGCABQQpuIQFFDQALQdCRwgAQgQgACyABIAJqQQFrIRcgBSAIfSELIAggCX0hDUIAIAR9IQoDQCAEIAh8IgMgCVQgCSAKfCAEIA18WnJFBEBBACEWDAYLIBcgGEEBayIYOgAAIAogC3wiDCAIVCEWIAMgCVoNBiAKIAh9IQogAyEEIAggDFgNAAsMBQsgDSADfSIFIAGtIAaGIgdUIQEgCSALfSIGQgF8IQggBSAHVCADIAZCAX0iCVpyDQEgAiAXakEBayEYIAwgEXwgEH0gBCAHfCIEIBJ8fUICfCEKIBEgC30gA30hCyAEIA58IA98IBR9IBN9IBJ8IQZCACEEA0AgAyAHfCIFIAlUIAQgC3wgBlpyRQRAQQAhAQwDCyAYIBpBAWsiGjoAACAEIAp8IgwgB1QhASAFIAlaDQMgBiAHfCEGIAQgB30hBCAFIQMgByAMWA0ACwwCC0ERQRFB4JHCABCMBwALIAMhBQsCQCAFIAhaIAFyDQAgCCAFIAd8IgNYIAggBX0gAyAIfVRxDQAgAEEANgIADAQLIAUgDUIEfVggBUICWnFFBEAgAEEANgIADAQLIAAgGzsBCCAAIBc2AgQMAgsgBCEDCwJAIAMgBlogFnINACAGIAMgCHwiBFggBiADfSAEIAZ9VHENACAAQQA2AgAMAgsgAyAFIAdCWH58WCADIAdCFH5acUUEQCAAQQA2AgAMAgsgACAbOwEIIAAgATYCBAsgACACNgIACyAVQeAAaiQADwsgFUEANgJIIwBBEGsiACQAIAAgFUEwajYCDCAAIBVBQGs2AghBACAAQQhqQfCHwwAgAEEMakHwh8MAIBVByABqQeSWwgAQ8gQAC9ELAhd/AX0jAEEgayIHJAACQAJAAkACQAJAAkACQAJAIAAtALgBQQFHDQAgACgCrAEgACgCsAEiBUECdCAAKAK0ASIGIAVqQQJ0EOEIIQUgBkECdCIGIAAoAmQiCEsNASAAKAJgIQggByAFELgKIgs2AgAgByAGNgIEIAYgC0cNByAFIAggBhDgCSAFQYQISQ0AIAUQmwcLIABCADcCsAEgAEG4AWpBADoAAAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAAoAghFDQAgACgCDCABQQJ0IAEgAmpBAnQQ4QghCwJAIAJBAnQiASAAKAJkIgZNBEAgACABNgJkIAAoAmAhCCABIQUMAQsgASAGIgVrIgkgACgCXCAFa0sEQCAAQdwAaiAFIAlBBEEEEKQFIAAoAmQhBQsgACgCYCIIIAVBAnQiDGohCiAJQQJPBEAgASAGQX9zakECdCINBEAgCkEAIA38CwALIAJBBHQgBkECdGsgCGogDGpBBGshCiAFIAlqQQFrIQULIApBADYCACAAIAVBAWoiBTYCZCABIAVLDRILIAcgCxC4CiIGNgIAIAcgATYCBCABIAZHDRYgCCABIAsQ4QkgAkEPbCEMIARBD25BD2whDSAEQQFrQQ9uQQ9sQQ9qIQ4gBEECa0EPbkEPbEEPaiEPIARBA2tBD25BD2xBD2ohECAEQQRrQQ9uQQ9sQQ9qIREgBEEFa0EPbkEPbEEPaiESIARBBmtBD25BD2xBD2ohEyAEQQdrQQ9uQQ9sQQ9qIRQgBEEIa0EPbkEPbEEPaiEVIARBCWtBD25BD2xBD2ohFiAEQQprQQ9uQQ9sQQ9qIRcgBEELa0EPbkEPbEEPaiEYIARBDGtBD25BD2xBD2ohGSAEQQ1rQQ9uQQ9sQQ9qIRogBEEOa0EPbkEPbEEPaiEbQwAA/kIgACoClAGVIRxBACEBQQAhAANAIAEgBU8NEyABQQFqIgIgBU8NFCABQQJqIgIgBU8NFSABQQNqIgIgBU8NFiAAIA5GDRAgCEEEaigCACECIAhBDGooAgAhCSAIQQhqKAIAIQYgAyAIKAIAIgrAsiAclTgCACAAIA9GDQ8gA0EEaiAKQQh2wLIgHJU4AgAgACAQRg0OIANBCGogCkEQdsCyIByVOAIAIAAgEUYNDSADQQxqIApBGHWyIByVOAIAIAAgEkYNDCADQRBqIALAsiAclTgCACAAIBNGDQsgA0EUaiACQQh2wLIgHJU4AgAgACAURg0KIANBGGogAkEQdsCyIByVOAIAIAAgFUYNCSADQRxqIAJBGHWyIByVOAIAIAAgFkYNCCADQSBqIAbAsiAclTgCACAAIBdGDQcgA0EkaiAGQQh2wLIgHJU4AgAgACAYRg0GIANBKGogBkEQdsCyIByVOAIAIAAgGUYNBSADQSxqIAZBGHWyIByVOAIAIAAgGkYNBCADQTBqIAnAsiAclTgCACAAIBtGDQMgA0E0aiAJQQh2wLIgHJU4AgAgACANRg0CIANBOGogCUEQdsCyIByVOAIAIAhBEGohCCABQQRqIQEgA0E8aiEDIAwgAEEPaiIARw0ACyALQYQISQ0AIAsQmwcLIAdBIGokAA8LIABBDmohAAwNCyAAQQ1qIQAMDAsgAEEMaiEADAsLIABBC2ohAAwKCyAAQQpqIQAMCQsgAEEJaiEADAgLIABBCGohAAwHCyAAQQdqIQAMBgsgAEEGaiEADAULIABBBWohAAwECyAAQQRqIQAMAwsgAEEDaiEADAILIABBAmohAAwBCyAAQQFqIQALIAAgBEGc1MAAEIwHAAtBACAGIAhB/OvAABDqBwALQQAgASAFQazUwAAQ6gcACyABIAVB3NPAABCMBwALIAIgBUHs08AAEIwHAAsgAiAFQfzTwAAQjAcACyACIAVBjNTAABCMBwALIAdBADYCCEEAIAcgB0EEaiAHQQhqQeD5xAAQ9QcAC9gQAQR/IwBBEGsiAyQAEL8JIgRBsOjAAEEJEOwIIgIgACgCpAG4ELcJIgEQwAkCQAJAAkACQAJAAkACQAJAAkACQAJAAkBBtLvJAC0AAEUEQEG4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsgAkGECE8EQCACEJsHCyAEQbnowABBCRDsCCICIAAoAqgBuBC3CSIBEMAJQbS7yQAtAAANAUG4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsgAkGECE8EQCACEJsHCyAEQcLowABBCxDsCCICIAAoAqwBuBC3CSIBEMAJQbS7yQAtAAANAkG4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsgAkGECE8EQCACEJsHCyAEQc3owABBBBDsCCICIAAoArABENsJIgEQwAlBtLvJAC0AAA0DQbi7yQBBADYCAEG0u8kAQQA6AAAgAUGECE8EQCABEJsHCyACQYQITwRAIAIQmwcLIARB0ejAAEEEEOwIIgIgACgCtAEQ2wkiARDACUG0u8kALQAADQRBuLvJAEEANgIAQbS7yQBBADoAACABQYQITwRAIAEQmwcLIAJBhAhPBEAgAhCbBwsCQCAAKAIAQQFHDQAgBEH458AAQQMQ7AgiAiAAKAIEENsJIgEQwAlBtLvJAC0AAA0GQbi7yQBBADYCAEG0u8kAQQA6AAAgAUGECE8EQCABEJsHCyACQYQISQ0AIAIQmwcLAkAgACgCCEUNACAEQfvnwABBAxDsCCICIAAoAgwQ2wkiARDACUG0u8kALQAADQdBuLvJAEEANgIAQbS7yQBBADoAACABQYQITwRAIAEQmwcLIAJBhAhJDQAgAhCbBwsCQCAAKAIQRQ0AIARB/ufAAEEEEOwIIgIgACgCFBDbCSIBEMAJQbS7yQAtAAANCEG4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsgAkGECEkNACACEJsHCwJAIAAoAhhFDQAgBEGC6MAAQQQQ7AgiAiAAKAIcENsJIgEQwAlBtLvJAC0AAA0JQbi7yQBBADYCAEG0u8kAQQA6AAAgAUGECE8EQCABEJsHCyACQYQISQ0AIAIQmwcLAkAgACgCIEUNACAEQajpwABBCBDsCCICIAAoAiQQ2wkiARDACUG0u8kALQAADQpBuLvJAEEANgIAQbS7yQBBADoAACABQYQITwRAIAEQmwcLIAJBhAhJDQAgAhCbBwsCQCAAKAIoRQ0AIARBwOnAAEEIEOwIIgIgACgCLBDbCSIBEMAJQbS7yQAtAAANC0G4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsgAkGECEkNACACEJsHCwJAIAAoAjBFDQAQwQkiAiAAKAI0ENsJIgEQ4gkgAUGECE8EQCABEJsHCyACIAAoAjgQ2wkiARDiCSABQYQITwRAIAEQmwcLIARB2OnAAEEIEOwIIgEgAhDACUG0u8kALQAADQxBuLvJAEEANgIAQbS7yQBBADoAACACQYQITwRAIAIQmwcLIAFBhAhJDQAgARCbBwsCQCAAKAI8RQ0AIARBhujAAEEHEOwIIgIgACgCQBDbCSIBEMAJQbS7yQAtAAANDUG4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsgAkGECEkNACACEJsHCyAAEIoCIANBEGokACAEDwtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABBwOrAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQbDqwAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEGg6sAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABBkOrAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQYDqwAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEHo6MAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABB+OjAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQYjpwAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEGY6cAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABBsOnAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQcjpwAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEHg6cAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABB8OnAABDgBgAL2BABBX8jAEEQayIDJAAQvwkiBUGw6MAAQQkQ7AgiASAAKAKgAbgQtwkiAhDACQJAAkACQAJAAkACQAJAAkACQAJAAkBBtLvJAC0AAEUEQEG4u8kAQQA2AgBBtLvJAEEAOgAAIAJBhAhPBEAgAhCbBwsgAUGECE8EQCABEJsHCyAFQbnowABBCRDsCCIBIAAoAqQBuBC3CSICEMAJQbS7yQAtAAANAUG4u8kAQQA2AgBBtLvJAEEAOgAAIAJBhAhPBEAgAhCbBwsgAUGECE8EQCABEJsHCyAFQcLowABBCxDsCCIBIAAoAqgBuBC3CSICEMAJQbS7yQAtAAANAkG4u8kAQQA2AgBBtLvJAEEAOgAAIAJBhAhPBEAgAhCbBwsgAUGECE8EQCABEJsHCyAFQaDswABBBhDsCCIBIAAoAqwBEMAJQbS7yQAtAAANA0G4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsCQCAAKAIAQQFHDQAgBUH458AAQQMQ7AgiASAAKAIEENsJIgIQwAlBtLvJAC0AAA0FQbi7yQBBADYCAEG0u8kAQQA6AAAgAkGECE8EQCACEJsHCyABQYQISQ0AIAEQmwcLAkAgACgCCEUNACAFQfvnwABBAxDsCCIBIAAoAgwQ2wkiAhDACUG0u8kALQAADQZBuLvJAEEANgIAQbS7yQBBADoAACACQYQITwRAIAIQmwcLIAFBhAhJDQAgARCbBwsCQCAAKAIQRQ0AIAVBjOzAAEEDEOwIIgEgACgCFBDbCSICEMAJQbS7yQAtAAANB0G4u8kAQQA2AgBBtLvJAEEAOgAAIAJBhAhPBEAgAhCbBwsgAUGECEkNACABEJsHCwJAIAAoAhhFDQAgBUGo6cAAQQgQ7AgiASAAKAIcENsJIgIQwAlBtLvJAC0AAA0IQbi7yQBBADYCAEG0u8kAQQA6AAAgAkGECE8EQCACEJsHCyABQYQISQ0AIAEQmwcLAkAgACgCIEUNACAFQcDpwABBCBDsCCIBIAAoAiQQ2wkiAhDACUG0u8kALQAADQlBuLvJAEEANgIAQbS7yQBBADoAACACQYQITwRAIAIQmwcLIAFBhAhJDQAgARCbBwsCQCAAKAIoRQ0AIAVB2OnAAEEIEOwIIgEgACgCLBDbCSICEMAJQbS7yQAtAAANCkG4u8kAQQA2AgBBtLvJAEEAOgAAIAJBhAhPBEAgAhCbBwsgAUGECEkNACABEJsHCwJAIAAoAjBFDQAgBUGG6MAAQQcQ7AgiASAAKAI0ENsJIgIQwAlBtLvJAC0AAA0LQbi7yQBBADYCAEG0u8kAQQA6AAAgAkGECE8EQCACEJsHCyABQYQISQ0AIAEQmwcLQZjtwABBDRDsCCECEL8JIQEgACoCgAG7ELcJIQQgAUHg6sAAQQYQzwMgBBDjCCAAKgKEAbsQtwkhBCABQebqwABBBhDPAyAEEOMIIAAqAogBuxC3CSEEIAFB7OrAAEEKEM8DIAQQ4wggACoCjAG7ELcJIQQgAUH26sAAQQoQzwMgBBDjCCAAKgKQAbsQtwkhBCABQYDrwABBBhDPAyAEEOMIIAAqApQBuxC3CSEEIAFBhuvAAEEGEM8DIAQQ4wggACoCmAG7ELcJIQQgAUGM68AAQQYQzwMgBBDjCCAALQCcASEEIAFBkuvAAEEKEM8DQYIIQYMIIAQbEOMIIAUgAiABEMAJQbS7yQAtAAANC0G4u8kAQQA2AgBBtLvJAEEAOgAAIAFBhAhPBEAgARCbBwsgAkGECE8EQCACEJsHCyAAEMACIANBEGokACAFDwtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABB6O3AABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQdjtwAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEHI7cAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABBuO3AABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQajswAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEG47MAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABByOzAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQdjswAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEHo7MAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgAyAANgIMQdjmyABBKyADQQxqQdjowABB+OzAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIAMgADYCDEHY5sgAQSsgA0EMakHY6MAAQYjtwAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AgxB2ObIAEErIANBDGpB2OjAAEGo7cAAEOAGAAvODAIDfhB/IwBBIGsiDSQAAkACQEHMtckAKAIARQ0AQcS1yQAoAgAiCUHYtckAKQMAIgQgAK2FIgVCOIYgBUKA/gODQiiGhCAFQoCA/AeDQhiGIAVCgICA+A+DQgiGhIQgBEIIiEKAgID4D4MgBEIYiEKAgPwHg4QgBEIoiEKA/gODIARCOIiEhIRC0oGqm6v6gtenf34iBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhCAFQtii0e/CqeW/LX6FIgRCOIYgBEKA/gODQiiGhCAEQoCA/AeDQhiGIARCgICA+A+DQgiGhIQgBEIIiEKAgID4D4MgBEIYiEKAgPwHg4QgBEIoiEKA/gODIARCOIiEhIRB0LXJACkDACIFQn+FfiIGQjiGIAZCgP4Dg0IohoQgBkKAgPwHg0IYhiAGQoCAgPgPg0IIhoSEIAZCCIhCgICA+A+DIAZCGIhCgID8B4OEIAZCKIhCgP4DgyAGQjiIhISEIAQgBUI4hiAFQoD+A4NCKIaEIAVCgID8B4NCGIYgBUKAgID4D4NCCIaEhCAFQgiIQoCAgPgPgyAFQhiIQoCA/AeDhCAFQiiIQoD+A4MgBUI4iISEhH6FIASJIgSncSEHIARCGYhC/wCDQoGChIiQoMCAAX4hBkHAtckAKAIAIgtBIGshCgNAIAcgC2opAAAiBSAGhSIEQn+FIARCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiBFBFBEADQCAAIAogBHqnQQN2IAdqIAlxIgxBBXRrKAIARg0EIARCAX0gBIMiBFBFDQALCyAFIAVCAYaDQoCBgoSIkKDAgH+DUEUNASAHIAhBCGoiCGogCXEhBwwACwALQbjzwAAQ3QkACyALQQAgDGtBBXRqQQRrKAIAIgwoAghFBEAgDEF/NgIIQQAhB0HQtskAKAIAIhBFBEBByLbJACgCAEH//w9NBEBByLbJAEEAQYCAEEEEQQQQpAVB0LbJACgCACEHC0HMtskAKAIAIAdBAnRqIgBBAEH8/z/8CwBB0LbJACAHQYCAEGoiEDYCACAAQfz/P2pBADYCAAsgASACaiIAIAwoAhQiCEsEQCAIIQkgACAIQQF0IgogACAKSxsiDiAIayIAIAwoAgwgCGtLBEAgDEEMaiAIIABBBEEQEKQFIAwoAhQhCQsgDCgCECEPIABBA3EiCgRAIAkgCmohCyAPIAlBBHRqIQcgCiEAA0AgB0IANwIAIAdBBmpCADcBACAHQRBqIQcgAEEBayIADQALIAshCSAOIAggCmprIQALIAggDmtBfE0EQCAPIAlBBHRqIQcgCSELA0AgB0IANwIAIAdBBmpCADcBACAHQRBqQgA3AgAgB0EWakIANwEAIAdBIGpCADcCACAHQSZqQgA3AQAgB0EwakIANwIAIAdBNmpCADcBACAHQUBrIQcgC0EEaiELIABBBGsiAA0ACwsgDCALNgIUCyACBEAgAUEEdCEUQQAhCUHMtskAKAIAIQ8DQAJAAkACQCAQQYCABCACIAkiAGsiCSAJQYCABE8bIgpBAnQiC08EQCANIAMgAEECdCAAIApqIglBAnQQ4QgiCBC4CiIHNgIAIA0gCzYCBCAHIAtHDQEgDyALIAgQ4QkgCEGECE8EQCAIEJsHCyAAIAJGDQMgCkEEdCERIAAgAWohCiAUIABBBHRqIRVBACEHQQAhAANAIAAgEUYNAyAMKAIUIgggCksEQCAAIA9qIg4oAgAhEiAOQQRqKAIAIRMgDkEIaigCACEWIAwoAhAgFWogAGoiCCAOQQxqKAIANgIAIAhBDGogFjsBACAIQQpqIBNBEHY7AQAgCEEIaiATOwEAIAhBBmogEkEQdjsBACAIQQRqIBI7AQAgB0EEaiEHIApBAWohCiARIABBEGoiAEYNBQwBCwsgCiAIQcjzwAAQjAcAC0EAIAsgEEHY88AAEOoHAAsgDUEANgIIQQAgDSANQQRqIA1BCGpB4PnEABD1BwALIAcgC0H488AAEIwHAAsgAiAJSw0ACwsgDCAMKAIIQQFqNgIIIA1BIGokAA8LQejzwAAQsAoAC/ELAR1/IwBBMGsiASQAIAAQowUgAEHAAWpBADoAACAAQgA3ArgBAkACQAJAAkACQAJAIAAoAowBIgVBgICAgHhGIAAoApgBIgJBgICAgHhGcUUEQCAFQYCAgIB4RyACQYCAgIB4R3FFBEAgAUEANgIoIAFBATYCHCABQZzgwAA2AhggAUIENwIgIAFBGGoQkgchAgwECyAAQYCABBDQBCAAKAKoASIKQQJ0ELYJIQ8CQCAAKAI8RQ0AIAAoAkAiAkGECEkNACACEJsHCyAAIA82AkAgAEEBNgI8IAAoAowBIhBBgICAgHhGDQIgACgCmAEiEUGAgICAeEYNAQJAIApFDQAgACgCnAEhGSAAKAKQASEaIAAoAqABIRIgACgClAEhEyAAKAK0ASEbIAAoArABIRwgACgCiAEhFCAAKAKEASEVIAAoAnwhFiAAKAJ4IQtBACECA0AgFkGAgAQgCiACayIFIAVBgIAETxsiCEECdCIDSQRAQQAgAyAWQYi7wQAQ6gcACwJAIAMgFE0EQCABIBwgAkECdCIMIAIgCGoiBUECdCIXEOEIIgQQuAoiBzYCFCABIAM2AgggAyAHRgRAIAsgAyAEEOEJIARBhAhPBEAgBBCbBwsgASAbIAwgFxDhCCIEELgKIgc2AhQgASADNgIIIAMgB0YEQCAVIAMgBBDhCSAEQYQITwRAIAQQmwcLIAIgCkYNAyAIQQR0IRggDCAZaiEdIBogAkEBdGohDUEAIQRBACEIAkADQCAEIBhGBEAgCCAIQQRqIANB6LrBABDqBwALIAEgBCALaiIOKQIANwIIIAEgDkEIaioCADgCEAJ/IA5BDGooAgAiBkH//wFxRQRAIAZBEHQMAQsgBkH/B3EhByAGQYCAAnEhCSAGQYD4AXEiBkGA+AFGBEAgCUEQdCEGIAZBgICA/AdyIAdFDQEaIAYgB0ENdHJBgICA/gdyDAELIAlBEHQhCSAGQQ10QYCAgPwAcSAHQQ10ckGAgIDAA2ogCXIgBg0AGiAJQYCAgNgDciAHZ0EQayIGQRd0ayAHIAZB//8DcUEIanRB////A3FyCyEHIAFBGGoiBiAEIBVqEJYDIAIgE0kEQCACIBJPDQIgDiABQQhqIAe+IAYgDS8BACAIIB1qKAIAEJECIAhBBGohCCANQQJqIQ0gAkEBaiECIBggBEEQaiIERw0BDAYLCyACIBNByLrBABCMBwALIAIgEkHYusEAEIwHAAsMCQsMCAtBACADIBRB+LrBABDqBwALIAEgDyAMIBcQ4QgiAhC4CiIENgIUIAEgAzYCCCADIARGBEAgAiALIAMQ4AkgAkGECE8EQCACEJsHCyAFIgIgCkkNAQwCCwsMBQsgEUGAgICAeHJBgICAgHhHBEAgACgCnAEiAkEEaygCACIFQXhxIgMgEUECdCIEQQRBCCAFQQNxIgUbakkNBiAFQQAgAyAEQSdqSxsNByACEKICCyAAQYCAgIB4NgKYASAQQYCAgIB4ckGAgICAeEcEQCAAKAKQASICQQRrKAIAIgVBeHEiAyAQQQF0IgRBBEEIIAVBA3EiBRtqSQ0GIAVBACADIARBJ2pLGw0HIAIQogILIABBgICAgHg2AowBC0EAIQIgAEEANgJ8IAAoAnghBSAAKAJ0IQMgAEKAgICAwAA3AnQgAwRAIAVBBGsoAgAiBEF4cSIIIANBAnQiA0EEQQggBEEDcSIEG2pJDQUgBEEAIAggA0EnaksbDQYgBRCiAgsgAEEANgKIASAAKAKEASEFIAAoAoABIQMgAEKAgICAwAA3AoABIANFDQIgBUEEaygCACIAQXhxIgQgA0ECdCIDQQRBCCAAQQNxIgAbakkNBCAAQQAgBCADQSdqSxsNBSAFEKICDAILQbi6wQAQ3QkAC0GousEAEN0JAAsgAUEwaiQAIAIPCyABQQA2AhhBACABQRRqIAFBCGogAUEYakHg+cQAEPUHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL3hgDB38BfgF7IwBBIGsiBiQAAkACQCAAKAIAIgdFBEAgACgCECIARQ0BIABBk7PFAEEBEJcDIQIMAgsCQAJAAkACQAJAIAAoAggiAiAAKAIEIgVPBEAgACgCECIBRQ0BIAFB6rLFAEEQEJcDRQ0BDAULIAAgAkEBaiIENgIIIAIgB2otAAAhAyAAIAAoAgxBAWoiCDYCDCAIQfUDTwRAIAAoAhAiAQRAIAFB+rLFAEEZEJcDDQYLIABBAToABAwCCwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIANB0QBrDikLCgEPARABAQEBAQEBAQEBBAcIAQkBAQMEAwEEAwQDAgEBBAMBAQEEAwALIANBwQBrDgINBAALIAAoAhAiAUUNESABQeqyxQBBEBCXAw0VDBELIAAoAhAiAUUNE0EBIQIgAUGSssUAQQEQlwNFDRMMFgsgACADEIYFDRMMEgsgBCAFTw0QIAQgB2otAABB7gBGDQEMEAsjAEEgayICJAACQAJAIAAoAgBFBEAgACgCECIBRQ0BIAFBk7PFAEEBEJcDIQEMAgsgAiAAEK8GIAIoAgBFBEAgACgCECIDBEBBASEBIANB+rLFAEHqssUAIAItAARBAXEiAxtBGUEQIAMbEJcDDQMLIAAgAv0AAgD9CwIADAELIAAoAhBFDQAgAP0AAgAhCiAAIAL9AAIA/QsCACACIAr9CwMQIAAgAUEBcRDVASEBIAAgAv0AAxD9CwIADAELQQAhAQsgAkEgaiQAIAENEQwQCyAAIAJBAmo2AgggACgCECIBRQ0OQQEhAiABQeqzxQBBARCXA0UNDgwSCyAGQRhqIAAQyAUgBigCGCIBRQRAIAYtABwhASAAKAIQIgMEQEEBIQIgA0H6ssUAQeqyxQAgAUEBcSIDG0EZQRAgAxsQlwMNEwsgACABOgAEDA0LIAZBCGogASAGKAIcEMIEAkACQAJAIAYoAghBAUcNACAGKQMQIglCAVYNACAJp0EBaw0BDAILIAAoAhAiAUUNDSABQeqyxQBBEBCXAw0RDA0LIAAoAhAiAUUNDyABQfKzxQBBBRCXAw0QDA8LIAAoAhAiAUUNDiABQfezxQBBBBCXAw0PDA4LIAZBGGogABDIBSAGKAIYIgFFBEAgBi0AHCEBIAAoAhAiAwRAQQEhAiADQfqyxQBB6rLFACABQQFxIgMbQRlBECADGxCXAw0SCyAAIAE6AAQMDAsgBkEIaiABIAYoAhwQwgQCQCAGKAIIIAYpAxAiCUKAgICAEFRxRQ0AQYCAxAAgCaciASABQYCwA3NBgIDEAGtBgJC8f0kbIgFBgIDEAEYNACAAKAIQIQMjAEEgayICJAACf0EAIANFDQAaAkAgAygCAEEnIAMoAgQoAhARAgANAANAAkACQAJ/AkACQCABQSJHBEAgAUGAgMQARgRAIAMoAgBBJyADKAIEKAIQEQIADAkLAkACQAJAAkACQAJAIAFBJkwEQCABQQlrDgUBAwYGAgULIAFBJ0YNAyABQdwARw0FIAJCADcBAiACQdy4ATsBAAwICyACQgA3AQIgAkHc6AE7AQAMBwsgAkIANwECIAJB3OQBOwEADAYLIAJCADcBAiACQdzcATsBAAwFCyACQgA3AQIgAkHczgA7AQAMBAsgAUUNAgsCQAJAIAFBgAZPBEAgARDlBA0BCyABEOECDQELIAJBEGogARDWBSACQQhqIgUgAkEYaiIHLwAAOwEAIAIgAikAEDcDACACLQAaIQEgAi0AGyEEIAcgBS8BADsBACACIAIpAwA3AxAgAUH/AXEgBEH/AXFJDQUMBgsgAiABNgIAQYEBIQRBgAEMAwtBgIDEACEBIAMoAgBBIiADKAIEKAIQEQIARQ0FDAYLIAJCADcBAiACQdzgADsBAAtBAiEEQQALIQEgAkEYaiACQQhqLwEAOwEAIAIgAikDADcDEAsgBEH/AXEhByABQf8BcSEEIAMoAgAhASADKAIEKAIQIQUgAigCECEIA0AgASAHQYABTQR/IAJBEGogBGotAAAFIAgLIAURAgANAyAHIARBAWoiBEcNAAsLQYCAxAAhAQwACwALQQELIAJBIGokAA0PDA4LIAAoAhAiAUUNCiABQeqyxQBBEBCXAw0ODAoLAkAgAQ0AIAAoAhAiA0UNAEEBIQIgA0H7s8UAQQEQlwMNEAsgACgCECIDBEBBASECIANBsrPFAEEBEJcDDRALIAAQwQINDQwICyAEIAVPDQAgBCAHai0AAEHlAEYNAQsCQCABDQAgACgCECIERQ0AQQEhAiAEQfuzxQBBARCXAw0OCyAAKAIQIgQEQEEBIQIgBEGss8UAQQEQlwMNDgsgA0HSAEcNAQwFCyAAIAJBAmo2AgggABDBAg0KDAkLIAAoAhAiAkUNAyACQa6zxQBBBBCXAw0JDAMLAkAgAQ0AIAAoAhAiA0UNAEEBIQIgA0H7s8UAQQEQlwMNCwsgACgCECIDBEBBASECIANB6LLFAEEBEJcDDQsLIAAQyQYNCCAAKAIQIgNFDQdBASECIANB6bLFAEEBEJcDRQ0DDAoLAkAgAQ0AIAAoAhAiA0UNAEEBIQIgA0H7s8UAQQEQlwMNCgsgACgCECIDBEBBASECIANBu7PFAEEBEJcDDQoLQQAhAgJ/AkAgACgCACIDRQ0AA0ACQCAAKAIIIgQgACgCBE8NACADIARqLQAAQcUARw0AIAAgBEEBajYCCAwCCwJAIAJFDQAgACgCECIDRQ0AIANB55DGAEECEJcDRQ0AQQEMAwtBASAAQQEQ1QENAhogAkEBaiECIAAoAgAiAw0ACwtBAAshAyAGIAI2AgQgBiADNgIAQQEhAiAGKAIAQQFxDQkgBigCBEEBRgRAIAAoAhAiA0UNByADQbyzxQBBARCXAw0KCyAAKAIQIgNFDQYgA0HejsgAQQEQlwNFDQIMCQsCQCABDQAgACgCECIDRQ0AQQEhAiADQfuzxQBBARCXAw0JC0EBIQIgAEEBEMwBDQggACgCACIERQRAIAAoAhAiAEUNCCAAQZOzxQBBARCXAyECDAkLIAAoAggiAyAAKAIETwRAIAAoAhAiAUUNAyABQeqyxQBBEBCXA0UNAwwJCyAAIANBAWo2AggCQAJAAkAgAyAEai0AAEHTAGsOAwIBBAALIAAoAhAiAUUNBCABQeqyxQBBEBCXAw0IDAQLIAAoAhAiAwRAIANBu7PFAEEBEJcDDQoLIAAQyQYNByAAKAIQIgNFDQYgA0HejsgAQQEQlwNFDQIMCQsgACgCECICBEAgAkH8s8UAQQMQlwMNBwtBASECQQAhByMAQSBrIgMkAAJAAkACQCAAKAIAIgRFDQADQAJAIAAoAggiBSAAKAIETw0AIAQgBWotAABBxQBHDQAgACAFQQFqNgIIDAILAkACQCAHRQ0AIAAoAhAiBEUNACAEQeeQxgBBAhCXAw0EIAAoAgANACAAKAIQIgVFDQFBASEEIAVBk7PFAEEBEJcDRQ0BDAULIAMgAEHzABCsBiADLQAAQQFGBEAgAy0AASEHIAAoAhAiBQRAQQEhBCAFQfqyxQBB6rLFACAHQQFxIgUbQRlBECAFGxCXAw0GCyAAIAc6AAQgAEEANgIADAMLIAAoAgBFBEAgACgCECIFRQ0BQQEhBCAFQZOzxQBBARCXA0UNAQwFCyADIAAQ7wIgAygCAEUEQCADLQAEIQcgACgCECIFBEBBASEEIAVB+rLFAEHqssUAIAdBAXEiBRtBGUEQIAUbEJcDDQYLIAAgBzoABCAAQQA2AgAMAwsgAyAD/QACAP0LAxACQCAAKAIQIgRFDQAgA0EQaiAEEIsCDQQgACgCECIERQ0AIARB3fjHAEECEJcDDQQLQQEhBCAAQQEQ1QENBAsgB0EBayEHIAAoAgAiBA0ACwtBACEEDAELQQEhBAsgA0EgaiQAIAQNCCAAKAIQIgNFDQUgA0H/s8UAQQIQlwNFDQEMCAtBASECIABBARDVAQ0HCyABDQMgACgCECIBRQ0DQQEhAiABQaWzxQBBARCXA0UNAwwGC0EAIQIgAEEAOgAEIABBADYCAAwFC0EAIQIgAEEANgIADAQLIAAgAxCGBQ0BC0EAIQIgACgCAEUNAiAAIAAoAgxBAWs2AgwMAgtBASECDAELQQAhAgsgBkEgaiQAIAIL/gwBFn8jAEFAaiIFJAACQCABLQD4AkEIRwRAAkACQCADBEAgAUHIAmohFCABQf0CaiEPIAVBIGpBBXIhFSAFQRBqIREgAUHgAmohGSADIQkDQCAFQR5qIhYgD0ECaiISLQAAOgAAIAEtAPgCIQ4gAUEIOgD4AiAFIA8vAAA7ARwCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgDkEIRwRAIAEoAoQDIQggASgCgAMhECABKAD5AiETIA5BBmtB/wFxQQFqQQAgDkEFSxtBAWsOAgIDAQtBgJHFABDdCQALIBUgDy8AADsAACAVQQJqIBItAAA6AAAgBSATNgAhIAUgDjoAICAFIBA2AjQgCEUgCUEET3ENAyAJQQQgCGsiBiAGIAlLGyIGIAhqIgcgCEkgB0EFT3INBiAGBEAgBUE0aiAIaiACIAb8CgAACyAHQQRGBEAgBUEIaiABIAVBIGogBUE0aiAEIAYQNQwFCyABIAc2AoQDIAEgBSgCNDYCgAMgASAFKQMgNwP4AiAFQQA6ABAgBSAGNgIMIAVBADYCCAwECyABKALcAiIGRQ0EIAEoAuACIAEoAugCayIHIAkgByAJSRsiByAGIAYgB0sbIQsgAS0AkQNFBEAgFCACIAsQ3gELIAEtAOwCDQ4gASgC6AIiCiABKALgAiIHRwRAIAohBgwOCyABKAKIAyIGRQ0BIAEgBiAGIAogBiAKSRsiDWs2AogDQQAhB0EAIQYgCkUNDSAKIA1qIgdBAE4EfyAFIAo2AjwgBUEBNgI4IAUgASgC5AI2AjQgBUEoakEBIAcgBUE0ahCFByAFKAIoQQFHDQcgBSgCMCEMIAUoAiwFIAYLIAxBoJHFABCTCQALIAEoAtwCIgYgCSAGIAlJGyIKIQcgBA0GDAcLIAVBJzoADAwHCyAFQQhqIAEgBUEgaiACIARBBBA1CyAFKAIIQQFxDQYgBS0AECEGDAsLIAFCADcDgAMgAUEEOgD4AkEAIQYgEUEAOgAAIAVCADcDCAwKCyAIIAdBBEGQkcUAEOoHAAsgBSgCLCEGIAEgBzYC4AIgASAGNgLkAiABKALoAiEGDAYLIAEoAvACIg0tAKMHQQdGDQACQCABLQD0Ag0AIAEtAPUCQQFxRQ0AIA1BAToApgcLIAQoAgQiCyAEKAIMIgwoAgAiGkGAQGsiByAHIAtLGyIXIAQoAggiGCgCACIHSQ0DIAVBNGogDSACIAogBCgCACAHaiAXIAdrIBogB2tBABBCIAUtADRFBEAgBSgCOCEHIAwgDCgCACAFKAI8aiIMNgIAAkAgDS0AowdBB0cEQCAMQYCAAkkNASAMQYCAAmsiDCAYKAIATQ0BCyAYIAw2AgALIAFBAToA9AIMAQsgBSAFLQA1OgANIAVBHDoADAwBCyABLQCRA0UEQCAHIApLDQQgFCACIAcQ3gEgASgC3AIhBgsgASAGIAdrNgLcAgJAIAYgB0YEQEEEIQ5BACEQQQAhCAwBCyAPIAUvARw7AAAgEiAWLQAAOgAACyABIAg2AoQDIAEgEzYA+QIgASAOOgD4AiABIBA2AoADQQUhBiAFQQU6ABAgBSAHNgIMIAVBADYCCAwGCyAFQQE2AggLIAAgBf0AAwj9CwIAIABBEGogBUEYaigCADYCAAwKCyAHIBcgC0HwkMUAEOoHAAtBACAHIApBsJHFABDqBwALIAcgBmsgC0kEQCAZIAYgCxDvBSABKALoAiEGCyALBEAgASgC5AIgBmogAiAL/AoAAAsgASAGIAtqNgLoAgsgASABKALcAiIMIAtrNgLcAkEEIQpBACEGQQAhB0EAIQ0gCyAMRwRAIA8gBS8BHDsAACASIBYtAAA6AAAgDiEKIAghDSAQIQcLIAEgDTYChAMgASATNgD5AiABIAo6APgCIAEgBzYCgAMgBUEAOgAQIAUgCzYCDCAFQQA2AggLIAUoAgwhCCAGQf8BcQ0DIAggCUsNAiACIAhqIQIgCSAIayIJDQALCyAAQQA6AAggACADNgIEIABBADYCAAwDCyAIIAkgCUHklcUAEOoHAAsgCCAJTQRAIABBADYCACAAIBEpAgA3AgggAEEQaiARQQhqKAIANgIAIAAgAyAJayAIajYCBAwCCyAIIAkgCUH0lcUAEOoHAAsgAEECNgIIIABBJjoABCAAQQE2AgALIAVBQGskAAvlDAIOfwN+IwBBIGsiAyQAAkACQCAAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAIAEoAqgBQQFrDgIBAgALIANBEGohBQJAAkBBJRBxIgFFDQAgAUEdakGdnccAKQAANwAAIAFBEGpBkJ3HAP0AAAD9CwAAIAFBgJ3HAP0AAAD9CwAAQQwQcSICRQ0AIAJBJTYCCCACIAE2AgQgAkElNgIAQQwQcSIBRQ0AIAFBKDoACCABQbidxwA2AgQgASACNgIAIAUgAa1CIIZCA4Q3AgAMAQsACwwCCyADQRBqIAFBsAFqIAIQ8wEMAQsgASgCrAEhCiACKAIAIhAhBSACKAIIIgwhBwJ/AkAgECAMa0EgTw0AIANBEGogCiACEI8EAkBBAAJ/IAMtABBBBEYEQCADKAIUDAELIAMpAxAiEUIgiCETIBFC/wGDQgRSDQEgE6cLRQ0CGiACKAIAIQUgAigCCCEHDAELIBFCgH6DIRIMBgtBgMAAIQtBACEBA0ACQCAFIBBHIAUgB0dyRQRAIANBEGogCiACEI8EAkACQAJ/IAMtABBBBEYEQCADKAIUDAELIAMpAxAiEUIgiCETIBFC/wGDQgRSDQEgE6cLDQEgAigCCCEHDAMLIBFCgH6DIRIMCQsgAigCCCEHIAIoAgAhBQsCQCAFIAdHBEAgBSAHayENIAIoAgQhBAwBC0IBIRFCgMwAIRJCACETIAVBIGoiCCAFQQF0IgQgBCAISRsiCEEASA0IIAMgBQR/IAMgBTYCGCADIAIoAgQ2AhBBAQVBAAs2AhQgA0EEakEBIAggA0EQahCFByADKAIEQQFGDQggAygCCCEEIAIgCDYCACACIAQ2AgQgCCAFayENIAghBQsgBCAHaiEOIAsgDSALIA1JGyIIIAFrIgQEQCABIA5qQQAgBPwLAAsgA0EQaiAKIA4gCBDkAgJAIAMtABBBBEYNACADKQMQIhJCIIgiE6chBEIAIRECQAJAAkACQAJAIBKnQf8BcUEBaw4EAgEABAwLIAQtAAhBI0YNAgwKCyAELQAIQSNGDQFCAiERDAoLIBJCgP4Dg0KAxgBRDQBCASERDAkLAn8gEkL/AYNCA1EEQCAEKAIAIQEgBEEEaigCACIGKAIAIgkEQCABIAkRAwALIAYoAgQiBgRAIAFBBGsoAgAiCUF4cSIPQQRBCCAJQQNxIgkbIAZqSQ0RIAlBACAPIAZBJ2pLGw0SIAEQogILIARBBGsoAgAiAUF4cSIGQRBBFCABQQNxIgEbSQ0QIAFBACAGQTRPG0UEQEEADAILDBELQQELIQEDQAJAAkAgAUUEQCAEEKICDAELIANBEGogCiAOIAgQ5AIgAy0AEEEERg0EIAMpAxAiEkIgiCITpyEEAkACQAJAAkAgEqdB/wFxQQFrDgQAAQIHDwsgEkKA/gODQoDGAFENAkIBIREMDgsgBC0ACEEjRg0BQgIhEQwNCyAELQAIQSNHDQsLIBJC/wGDQgNRDQELQQEhAQwBCyAEKAIAIQEgBEEEaigCACIGKAIAIgkEQCABIAkRAwALIAYoAgQiBgRAIAFBBGsoAgAiCUF4cSIPQQRBCCAJQQNxIgkbIAZqSQ0QIAlBACAPIAZBJ2pLGw0RIAEQogILIARBBGsoAgAiAUF4cSIGQRBBFCABQQNxIgEbSQ0PIAFFIAZBNElyRQRADBELQQAhAQwACwALIAIgBzYCCAwBCyADKAIUIgEgCEsEQEG0m8cAQTZB7JvHABDrBwALIAIgASAHaiIHNgIIIAFFDQBBfyALQQF0IAtBAEgbIAsgASAIRhsgCyALIA1NGyELIAggAWshAQwBCwsgByAMawshASAKLQC0AUEBRw0GIAIoAggiBSAMSQ0BIApBoAFqIAIoAgQgDGogBSAMaxDeASAKKAKwASAKKAKoAUYNBiADQRBqEJMHCyADLQAQIQEMBAsgDCAFIAVB7KvHABDqBwALQgMhEQsgAiAHNgIIIBJCgH6DIRILIAMgEz4CFCADIBGnIgE6ABAgAyASpyICQRh2OgATIAMgAkEIdjsAEQsgAUH/AXFBBEcNASADKAIUIQELIAAgAa03AwhBAAwBCyAAIAMpAxA3AgRBAQs2AgAgA0EgaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALtAwCDH8BfiMAQeAEayIJJABBBiELAkACQAJAAkACQAJAAkAgASgCACIKQYCAgIB4Rg0AIAlBEGogASgCBCIMIAEoAggQkQUgCS0AEEEBRgRAIAkoAhQhASAJQQA2AqQDIAlCgICAgBA3ApwDIAlBnJPBADYC3AEgCUKggICADjcC4AEgCSAJQZwDajYC2AEgASAJQdgBahCvBA0CIAkoApwDIQsgCSgCoAMiDSAJKAKkAxDsCCEPIAsEQCANQQRrKAIAIg5BeHEiEEEEQQggDkEDcSIOGyALakkNByAOQQAgECALQSdqSxsNCCANEKICCyAAQQA2AgAgACAPNgIEIAEgASgCACgCABEDACAKBEAgDEEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgCmpJDQcgAEEAIAEgCkEnaksbDQggDBCiAgsgB0UgCEGECElyRQRAIAgQmwcLIAVFIAZBhAhJckUEQCAGEJsHCyADRSAEQYQISXJFBEAgBBCbBwsgAigCACIAQYCAgIB4ckGAgICAeEYNBSACKAIEIgFBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIABqSQ0GIAJBACADIABBJ2pLGw0HIAEQogIMBQsgCS0AESELIApFDQAgDEEEaygCACIBQXhxIg1BBEEIIAFBA3EiARsgCmpJDQUgAUEAIA0gCkEnaksbDQYgDBCiAgtBBCEBQQAhCkEAELYJIRNBABC2CSEUQQAhDEEEIQ0CQCADQQFxRQ0AIAlB2AFqIAQQlwYgCSgC4AEhDyAJKALcASENIAkoAtgBIQwgBEGECEkNACAEEJsHC0EAIQQCQCAFQQFxRQ0AIAlB2AFqIAYQlwYgCSgC4AEhBCAJKALcASEBIAkoAtgBIQogBkGECEkNACAGEJsHC0EEIQZBACEFQQAhA0EEIRACQCAHQQFxRQ0AIAlBnANqIAhBABDoCCIHEJcGIAlB2AFqIAhBARDoCCISEJcGIAkoAuABIREgCSgC3AEhECAJKALYASEOIAkoAqQDIQMgCSgCoAMhBiAJKAKcAyEFIBJBhAhPBEAgEhCbBwsgB0GECE8EQCAHEJsHCyAIQYQISQ0AIAgQmwcLIAkgFDYCjAMgCSATNgKIAyAJQQA2AoQDIAlCADcC/AIgCUGAgICAeDYC8AIgCUGAgICAeDYC5AIgCUIENwLcAiAJQgA3AtQCIAlCgICAgMAANwLMAiAJIBE2AsgCIAkgEDYCxAIgCSAONgLAAiAJIAM2ArwCIAkgBjYCuAIgCSAFNgK0AiAJIAQ2ArACIAkgATYCrAIgCSAKNgKoAiAJIA82AqQCIAkgDTYCoAIgCSAMNgKcAiAJQQA2ApQCIAlBADYCiAIgCUEANgKAAiAJQQA2AvgBIAlBADYC8AEgCUEANgLoASAJQQA2AuABIAlBADYC2AEgCUGYA2pBADoAACAJQgA3ApADIAIoAgAhAyACKAIEIQUgAigCCCEBAn8gC0EGRwRAIAlBCGogCyAJQdgBahDUAyAJKAIMIQQgCSgCCCEHQQIMAQsgCUGcA2ogCUHcAWpBwAH8CgAAQQAhB0EACyEGQYCAgIB4IQggA0GAgICAeEcEQCABQQBIDQICQCABRQRAQQEhCAwBCyABEHEiCEUNBAsgAQRAIAggBSAB/AoAAAsgCK0gAa1CIIaEIRUgASEICyAJQRhqIgIgCUGcA2pBwAH8CgAAQfQBEHEiAUUNAiABIAY2AgAgAUEEaiACQcAB/AoAACABIAs6APABIAEgBDYC7AEgASAHNgLoASABQYCAgIB4NgLcASABIBU3AtQBIAEgCDYC0AEgAUEANgLMASABQoCAgIAQNwLEASAAQbDuwAA2AgwgAEEBNgIIIABBmO7AADYCBCAAIAE2AgAgA0GAgICAeHJBgICAgHhGDQMgBUEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgA2pJDQQgAEEAIAEgA0EnaksbDQUgBRCiAgwDC0GgnsYAQTcgCUHfBGpBtJPBAEHYnsYAEOAGAAtB2JrIABD/BwsACyAJQeAEaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL/Q0BBX8jAEEwayICJAACQAJAAkACQAJAAkACQAJAIAAoAgBBAWsOBQECAwQFAAtBASEDIAEoAgAiBEHUpccAQQggASgCBCIGKAIMIgURAAANBiAAQQRqIQACQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQggACABEIQGRQ0BDAgLIARB24HCAEECIAURAAANByACQQE6ACggAiAGNgIMIAIgBDYCCCACQeCBwgA2AhggAiABKQIINwIcIAIgAkEoajYCECACIAJBCGo2AhQgACACQRRqEIQGDQcgAigCFEHZgcIAQQIgAigCGCgCDBEAAA0HCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMBgtBASEDIAEoAgAiBEHcpccAQQggASgCBCIGKAIMIgURAAANBSAAQQRqIQACQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQcgACABEIUGRQ0BDAcLIARB24HCAEECIAURAAANBiACQQE6ACggAiAGNgIMIAIgBDYCCCACQeCBwgA2AhggAiABKQIINwIcIAIgAkEoajYCECACIAJBCGo2AhQgACACQRRqEIUGDQYgAigCFEHZgcIAQQIgAigCGCgCDBEAAA0GCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMBQtBASEDIAEoAgAiBEHkpccAQQkgASgCBCIGKAIMIgURAAANBCAAQQRqIQACQCABLQAKQYABcUUEQCAEQbuzxQBBASAFEQAADQYgACABEIYGRQ0BDAYLIARB24HCAEECIAURAAANBSACQQE6ACggAiAGNgIMIAIgBDYCCCACQeCBwgA2AhggAiABKQIINwIcIAIgAkEoajYCECACIAJBCGo2AhQgACACQRRqEIYGDQUgAigCFEHZgcIAQQIgAigCGCgCDBEAAA0FCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMBAtBASEDIAEoAgAiBEHtpccAQQYgASgCBCIGKAIMIgURAAANAyAAQQhqIQACQAJAIAEtAApBgAFxRQRAIARBu7PFAEEBIAURAAANBiACIAA2AgggASgCAEGMpscAQQogASgCBCgCDBEAACEAIAJBADoAGSACIAA6ABggAiABNgIUIAJBFGpByPvHAEEEIAJBCGpB/KXHABCMBSEAIAItABgiBEEBcSACLQAZIgVBAUdyRQRAIAAoAgAiAC0ACkGAAXENAiAAKAIAQf+zxQBBAiAAKAIEKAIMEQAARQ0DDAcLIAUNBiAEQQFxRQ0CDAYLIARB24HCAEECIAURAAANBSACIAY2AgwgAiAENgIIIAJBAToAByACQeCBwgA2AhggAiABKQIINwIcIAIgAkEHajYCECACIAJBCGoiAzYCFCACIAA2AiQgA0GMpscAQQoQrwMhACACQQA6AC0gAiAAOgAsIAIgAkEUajYCKCACQShqQcj7xwBBBCACQSRqQfylxwAQjAUhAAJAAkAgAi0ALCIDQQFxIAItAC0iBEEBR3JFBEAgACgCACIALQAKQYABcQ0BIAAoAgBB/7PFAEECIAAoAgQoAgwRAAANBwwCCyAEDQYgA0EBcUUNAQwGCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAADQULIAIoAhRB2YHCAEECIAIoAhgoAgwRAABFDQFBASEDDAULIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAANBAsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDAMLQQEhAyABKAIAIgRBjYvIAEELIAEoAgQiBigCDCIFEQAADQIgAEEEaiEAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0EIAAgARCHBkUNAQwECyAEQduBwgBBAiAFEQAADQMgAkEBOgAoIAIgBjYCDCACIAQ2AgggAkHggcIANgIYIAIgASkCCDcCHCACIAJBKGo2AhAgAiACQQhqNgIUIAAgAkEUahCHBg0DIAIoAhRB2YHCAEECIAIoAhgoAgwRAAANAwsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDAILQQEhAyABKAIAIgRB86XHAEEHIAEoAgQiBigCDCIFEQAADQEgAEEEaiEAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0DIAAgARCuAkUNAQwDCyAEQduBwgBBAiAFEQAADQIgAkEBOgAoIAIgBjYCDCACIAQ2AgggAkHggcIANgIYIAIgASkCCDcCHCACIAJBKGo2AhAgAiACQQhqNgIUIAAgAkEUahCuAg0CIAIoAhRB2YHCAEECIAIoAhgoAgwRAAANAgsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDAELQQEhAwsgAkEwaiQAIAMLrgsCCn8CfSMAQYABayIIJAACfwJAIAAoAggiBSABSwRAIAAoAgQgAUEkbGoiBRCKBCEPIAUvARQiB0H//wFxRQRAIAdBEHQMAwsgB0H/B3EhBiAHQYCAAnEhBSAHQYD4AXEiB0GA+AFGBEAgBUEQdCEFIAVBgICA/AdyIAZFDQMaIAUgBkENdHJBgICA/gdyDAMLIAVBEHQhBSAHRQ0BIAdBDXRBgICA/ABxIAZBDXRyQYCAgMADaiAFcgwCCyABIAVB1MDHABCMBwALIAVBgICA2ANyIAZnQRBrIgVBF3RrIAYgBUH//wNxQQhqdEH///8DcXILIQZDAACAPyEQAkACQAJAIA8gD5IgBr4iD0MAAIA/XgR9IA8QxgVDVPgtQJRDAACAP5KRBSAQC5QgA11FBEAgCCAAKAIQIgogACgCFCIGIAEQ6AICQCAIKAIkIgVBCU8EQCAIKAIEIgkNASAIKAIIIgRBBGsoAgAiAEF4cSICIAVBAnQiAUEEQQggAEEDcSIAG2pJDQQgAEEAIAIgAUEnaksbDQUgBBCiAgwDCyAFIglFDQILIAhBKGogAigCCCIHIAcgCWoQjAMgCiAGIAECfyAIKAJMIglBCU8EQCAIKAIsIQkgCCgCMAwBCyAIQSxqCyAJEOQFIAhBBGohAQJ/IAVBCUkEQCAIQSRqIQYgAQwBCyABIQYgCCgCCAshBwJAIAYoAgAiC0ECSQ0AIAtBFU8EQCAHIAsQwQUMAQsgB0EEaiEFAkAgC0EBcQRAIAUhCiAHIQUMAQsgBygCBCIMIAcoAgAiBkkEQCAHIAw2AgAgByAGNgIECyAHQQhqIQoLIAtBAkYNACAHIAtBAnRqIQ4gCkEEaiELA0AgCigCACIJIAUoAgAiBkkEQCAKIQwCfwNAIAwgBjYCACAHIAUgB0YNARogBSEMIAkgBUEEayIFKAIAIgZJDQALIAVBBGoLIAk2AgAgCigCACEJCyAJIAooAgQiDUsEQCALIQYDQAJAIAYgCTYCACAHIAZBBGsiBUYEQCAHIQUMAQsgBkEIayEMIAUhBiANIAwoAgAiCUkNAQsLIAUgDTYCAAsgCkEEaiEFIAtBCGohCyAKQQhqIgogDkcNAAsLIAgoAiQiByEGIAdBCU8EQCAIKAIEIQYgCCgCCCEBCyAGBEAgBkECdCEFIAIoAggiBkECdCEHA0AgASgCACEMIAIoAgAgBkYEQCACQYDmwQAQiwYLIAFBBGohASACKAIEIAdqIAw2AgAgAiAGQQFqIgY2AgggB0EEaiEHIAVBBGsiBQ0ACyAIKAIkIQcLIAgoAgQhBiAIQfAAaiAIQSBqKAIANgIAIAhB6ABqIAhBGGopAgA3AgAgCCAI/QACCP0LAlggCCAGIAcgB0EISyIFGyIBNgJ8IAggB0EAIAUbNgJ0IAhBACAGIAUbNgJUAkACQCABBEAgB0EJTwRAIAgoAlgiBSEBA0AgACABKAIAIAIgAyAEENoBIAFBBGohASAGQQFrIgYNAAsMAgsgCEHUAGohAUEAIQYDQCAIIAZBAWoiBjYCeCAAIAEoAgAgAiADIAQQ2gEgAUEEaiEBIAYgB0cNAAsMAgsgB0EJSQ0BIAgoAlghBQsgBUEEaygCACIAQXhxIgIgB0ECdCIBQQRBCCAAQQNxIgAbakkNAyAAQQAgAiABQSdqSxsNBCAFEKICCyAIKAJMIgFBCUkNASAIKAIwIgRBBGsoAgAiAEF4cSICIAFBAnQiAUEEQQggAEEDcSIAG2pJDQIgAEEAIAIgAUEnaksbDQMgBBCiAgwBCyAEKAIIIgAgBCgCAEYEQCAEQZDmwQAQiwYLIAQoAgQgAEECdGogATYCACAEIABBAWo2AggMAAsgCEGAAWokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC9QNAwp/A34CeyMAQZACayIEJAACQAJAAkACQAJAAkACQAJAAkAgASgCECIFKAIwIgcOAgUBAAsgBSkDGCAFKQMgIAIgAxCVBCEOIAUoAjgiCSAOp3EhBiAOQhmIQv8Ag0KBgoSIkKDAgAF+IRAgBSgCNCILQQRrIQwgBSgCLCEIA0AgBiALaikAACIPIBCFIg5Cf4UgDkKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIOUEUEQANAIAwgDnqnQQN2IAZqIAlxQQJ0aygCACIFIAdPDQQgCCAFQbgBbGoiDUGsAWooAgAgA0YEQCACIA1BqAFqKAIAIAMQ2wdFDQcLIA5CAX0gDoMiDlBFDQALCyAPIA9CAYaDQoCBgoSIkKDAgH+DUEUNBSAKQQhqIgogBmogCXEhBgwACwALIAMgBSgCLCIIQawBaigCAEYNAQwDCyAFIAdBkJvIABCMBwALIAIgCCgCqAEgAxDbBw0BQQAhBQsgBSAHTwRAIABCAzcDACAAQYSAgIB4NgIIDAQLIAggBUG4AWxqIgMtAKABDQECQCADLQBoQQNGBEAgAykDYCEODAELIAEoAgQiAq0hDwJAAkACQCACQv////8PIAMpA1AiDiAOQv////8PWhunayIFQQAgAiAFTxtBHU0EQEGokMgAKQMAIhCnIQMCQCAQQv8Bg0IEUQRAIAEgDkIefDcDCCADQf8BcUEERw0BDAMLIAEgDzcDCCADQf8BcUEERg0CCyAQQiCIpyECIBBCCIinIgUhAQJAAkACQAJAIANB/wFxIgZBAWsOAwEAAAILIAItAAghAQsgAUH/AXFBJUYNAQsgBCACNgIwIARBgYCAgHg2AiggBCAFQQh0IAZyNgIsDAMLIARBHjYCRCAEQYWexwA2AkAgBCAEQUBrrUKAgICAIIQ3AzggBEIBNwKcASAEQQE2ApQBIARBuJ7HADYCkAEgBCAEQThqNgKYASAEQShqIARBkAFqEOwDIANB/wFxQQNHDQIgAigCACEBIAJBBGooAgAiAygCACIFBEAgASAFEQMACyADKAIEIgUEQCABIAUgAygCCBCiBwsgAkEMQQQQogcMAgsgASAOQh58IhA3AwggASgCACAOIA8gDiAPVBunaiICKAAAQdCWjSBGDQILIARBMGpB5J7HACgCADYCACAEQdyexwApAgA3AygLIAQgBCkAKTcAHSAEIAQtACg6ABwgBCAELQAzOgAnIAQgBC8AMTsAJSAEKAIcIQEgACAEKQIgNwIMIAAgATYCCCAAQgM3AwAMBQsgAjMAHCEOIAIzABohDyAEQgE3A5ABIAQgDiAPIBB8fCIONwOYASADQeAAaiAEQZABahDIBgsgASAONwMIIAQgAykDQCIONwMQIAQgDjcDCAJAIAMvAYQBIglBAkYEf0GDgICAeAUgAy8BIEUNAUGFgICAeAshCCAAQSA2AhAgAEHgnMcANgIMIAAgCDYCCCAAQgM3AwAMBAsgBCkCDCEPIAMoAogBIQpBgMAAEHEiCEUNAiAOQiCIpyECIA6nIQUgD0IgiKchBiAPpyEHAn4gCUUEQP0MAAAAAAAgAAAAAAAAAAAAACAI/RwAIREgBf0RIAf9HAEgBv0cAiAC/RwDIRJBACEHQgIhD0IADAELIAQgATYCoAEgBCACNgKcASAEIAY2ApgBIAQgBzYClAEgBCAFNgKQASAEQbgBahCZBCAEQdAAaiAEQeABav0AAwD9CwMAIARB4ABqIARB8AFq/QADAP0LAwAgBEHwAGogBEGAAmr9AAMA/QsDACAEIAT9AAPIAf0LA4ABIAQgBCkD2AE3A0ggBCgCxAEhBSAEKALAASEBIAT9AASwASESIAQoAqQBIQYgBCgCoAEhByAE/QAEkAEhEUIAIQ8gBCkDqAELIQ5BuAEQcSICRQ0CIAIgBTYCVCACIAE2AlAgAiAS/QsDQCACIA43AzggAiAGNgI0IAIgBzYCMCACIBH9CwMgIAIgDzcDGCACQgA3AgwgAkKAwAA3AgQgAiAINgIAIAIgBP0AA4AB/QsDWCACIAQpA0g3A2ggAkHwAGogBEHQAGr9AAMA/QsDACACQYABaiAEQeAAav0AAwD9CwMAIAJBkAFqIARB8ABq/QADAP0LAwAgAkEBOgC0ASACIAo2ArABIAJBADYCqAEgAkIANwOgASAAQgI3AwAgACADNgIIIABBAjYCqAEgACACNgKsAQwDCyAAQgM3AwAgAEGEgICAeDYCCAwCCyAAQSE2AhAgAEHknccANgIMIABBg4CAgHg2AgggAEIDNwMADAELAAsgBEGQAmokAAv2CQENfyMAQSBrIgUkAAJAAkACQAJAAkACQAJAAkACQAJAIAEoAihBAkcEQCABKALkAUE4bCECIAEoAuABQRhqIQMDQCADIQEgAkUNBCACQThrIQIgAUE4aiEDQcTNxwBBESABQQRrKAIAIAEoAgAQrANFDQALIAFBGGsiASgCGCIIQQBIDQEgASgCFCEDAkAgCEUEQEEBIQwMAQsgCBBxIgxFDQgLIAgEQCAMIAMgCPwKAAALIAEoAiQiCUEASA0IIAEoAiAhAwJAIAlFBEBBASENDAELIAkQcSINRQ0ICyAJBEAgDSADIAn8CgAACyABKAIwIgpBAEgNCCABKAIsIQMCQCAKRQRAQQEhDgwBCyAKEHEiDkUNCAsgCgRAIA4gAyAK/AoAAAsgASgCAEEBRgRAIAEoAgwiA0EASA0JIAEoAgghAQJAIANFBEBBASEGDAELIAMQcSIGRQ0JCyADBEAgBiABIAP8CgAACyADIQEMBQsgASgCDCICQQBIDQIgASgCCCEBAkAgAkUEQEEBIQcMAQsgAhBxIgdFDQgLIAIEQCAHIAEgAvwKAAALIAVBEGogByACQYCAgAEQ3wEgBSgCFCEDAkACQCAFKAIQQQFGBEAgA0GAgICAeEcNAUEDIQEMAgsgBUEQaiAFKAIYIgYgBSgCHCIBEPsCIAUoAhBBAUYEQEEAIQEgA0UNAiAGQQRrKAIAIgRBeHEiC0EEQQggBEEDcSIEGyADakkNDCAEQQAgCyADQSdqSxsNDSAGEKICDAILIAIEQCAHQQRrKAIAIgRBeHEiC0EEQQggBEEDcSIEGyACakkNDCAEQQAgCyACQSdqSxsNDSAHEKICCyABQQBODQYMCgsgAwRAIAUoAhgiAUEEaygCACIGQXhxIgRBBEEIIAZBA3EiBhsgA2pJDQsgBkEAIAQgA0EnaksbDQwgARCiAgtBBCEBCyAFIAE6AAEgBUEeOgAAIAAgBRD8AwwFC0GsmMcAEN0JAAtBpO/BABD/BwwFC0HYmsgAEP8HAAsgAEKGgICAgICAgIB/NwMADAILAkAgAUUEQEEBIQcgAUUiAkUEQEEBIAYgAfwKAAALIAINAUEBQQEgAfwKAAAMAQsgARBxIgJFDQMgAUUiBEUEQCACIAYgAfwKAAALIAEQcSIHRQ0DIARFBEAgByACIAH8CgAACyACQQRrKAIAIgRBeHEiC0EEQQggBEEDcSIEGyABakkNBSAEQQAgCyABQSdqSxsNBiACEKICCyAAIAE2AgwgACAHNgIIIAAgATYCBCAAQQY2AgAgBiEHIAMhAgsgCARAIAxBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIAhqSQ0EIABBACABIAhBJ2pLGw0FIAwQogILIAkEQCANQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyAJakkNBCAAQQAgASAJQSdqSxsNBSANEKICCyAKBEAgDkEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgCmpJDQQgAEEAIAEgCkEnaksbDQUgDhCiAgsgAkUNACAHQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyACakkNAyAAQQAgASACQSdqSxsNBCAHEKICCyAFQSBqJAAPCwALQaTvwQAQ/wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvaCgMTfwJ+AXsjAEHQAmsiDyQAQoCAgICAgICAwAAgAa0iGIAiGSAYfkKAgICAgICAgMAAUq0CfyABQYEgTwRAQQEgAUEBcmdBH3MiBUEBdiAFQQFxaiIFdCABIAV2akEBdgwBC0HAACABIAFBAXZrIgUgBUHAAE8bCyERIBl8IRkgAEEEayEWIABBEGshFyAAQQhqIRRBASEJA0BBASEKQQAhEiABIAxLBEAgACAMQQJ0IhBqIQ0gDK0iGAJ/AkAgASAMayIKIBFJDQACQCAKQQJJBEAgCiEGDAELAkACQAJAAkACQCANKAIEIgUgDSgCAEkiDkUEQEECIQYgCkECRg0GIBQgDEECdGohCANAIAUgCCgCACIFSw0DIAhBBGohCCAKIAZBAWoiBkcNAAsMAQsgCkECRg0CQQIhBiAUIAxBAnRqIQgDQCAFIAgoAgAiBU0NAiAIQQRqIQggCiAGQQFqIgZHDQALCyAKIQYLIAYgEUkNBCAORQ0DIAZBAk8NAUEBIQYMAwsgDUEIaiEKQQAhCEEBIQ5BAiEGDAELIAZBAXYhDiANIAZBAnQiBWohCkEAIQggBkEISQ0AIBcgBSAQamohByAOQfz///8HcSIIIQUDQCANIAf9AAIAIA39AAIAIhr9DQwNDg8ICQoLBAUGBwABAgP9CwIAIAcgGiAa/Q0MDQ4PCAkKCwQFBgcAAQID/QsCACAHQRBrIQcgDUEQaiENIAVBBGsiBQ0ACyAIIA5GDQELIAAgCEECdCIFIBBqaiEHIA4gCGshCCAKIAVrQQRrIQUDQCAHKAIAIQogByAFKAIANgIAIAUgCjYCACAFQQRrIQUgB0EEaiEHIAhBAWsiCA0ACwsgBkEBdEEBcgwBCyAKIBEgCiARSRtBAXQgBEUNABogDUEgIAogCkEgTxsiBSACIANBAEEAEJUBIAVBAXRBAXILIgpBAXYgDGqtfCAZfiAMIAlBAXZrrSAYfCAZfoV5pyESCwJAAkAgC0ECSQ0AIBYgDEECdCIFaiEOIAAgBWohDQNAIAtBAWsiECAPQY4CamotAAAgEkkNAQJ/AkACQCADIA9BBGogEEECdGooAgAiBUEBdiIHIAlBAXYiBmoiE08gBSAJckEBcUVxRQRAIAAgDCATa0ECdGohCyAFQQFxRQ0BDAILIBNBAXQMAgsgCyAHIAIgAyAHQQFyZ0EBdEE+c0EAEJUBCyAJQQFxRQRAIAsgB0ECdGogBiACIAMgBkEBcmdBAXRBPnNBABCVAQsCQCAJQQJJIAVBAklyDQAgAyAGIAcgBiAHSSIGGyIFSQ0AIAsgB0ECdGohCSAFQQJ0IgUEQCACIAkgCyAGGyAF/AoAAAsgAiAFaiEHAkAgBkUEQCACIQUDQCALIAkoAgAiFSAFKAIAIgggCCAVSyIGGzYCACALQQRqIQsgBSAIIBVNQQJ0aiIFIAdGDQIgCSAGQQJ0aiIJIA1HDQALDAELIA4hBgNAAkAgBiAHQQRrIgcoAgAiCCAJQQRrIgUoAgAiCSAIIAlLGzYCACAHIAggCUlBAnRqIQcgBSAIIAlPQQJ0aiIJIAtGDQAgBkEEayEGIAIgB0cNAQsLIAkhCyACIQULIAcgBWsiBkUNACALIAUgBvwKAAALIBNBAXRBAXILIQlBASEHIBAiC0EBSw0ACwwBCyALIQcLIA9BjgJqIAdqIBI6AAAgD0EEaiAHQQJ0aiAJNgIAIAEgDEsEQCAHQQFqIQsgCkEBdiAMaiEMIAohCQwBCwsgCUEBcUUEQCAAIAEgAiADIAFBAXJnQQF0QT5zQQAQlQELIA9B0AJqJAAL4wsBA38gACAAKQMAIAKtfDcDACAAKAIIQX9zIQQgAkHAAE8EQANAIAFBM2otAAAgAUEjai0AACABQRNqLQAAIAEtAAAgBEH/AXFzQQJ0KAKYhUQgAUEBai0AACAEQQh2Qf8BcXNBAnQoApj9QyABQQJqLQAAIARBEHZB/wFxc0ECdCgCmPVDIAFBA2otAAAgBEEYdnNBAnQoApjtQyABQQRqLQAAQQJ0KAKY5UMgAUEFai0AAEECdCgCmN1DIAFBBmotAABBAnQoApjVQyABQQdqLQAAQQJ0KAKYzUMgAUEIai0AAEECdCgCmMVDIAFBCWotAABBAnQoApi9QyABQQpqLQAAQQJ0KAKYtUMgAUELai0AAEECdCgCmK1DIAFBDGotAABBAnQoApilQyABQQ1qLQAAQQJ0KAKYnUMgAUEPai0AAEECdCgCmI1DIAFBDmotAABBAnQoApiVQ3Nzc3Nzc3Nzc3Nzc3NzcyIDQRh2c0ECdCgCmO1DIAFBFGotAABBAnQoApjlQyABQRVqLQAAQQJ0KAKY3UMgAUEWai0AAEECdCgCmNVDIAFBF2otAABBAnQoApjNQyABQRhqLQAAQQJ0KAKYxUMgAUEZai0AAEECdCgCmL1DIAFBGmotAABBAnQoApi1QyABQRtqLQAAQQJ0KAKYrUMgAUEcai0AAEECdCgCmKVDIAFBHWotAABBAnQoApidQyABQR9qLQAAQQJ0KAKYjUMgAUEeai0AAEECdCgCmJVDc3Nzc3Nzc3Nzc3NzIAFBEmotAAAgA0EQdkH/AXFzQQJ0KAKY9UNzIAFBEWotAAAgA0EIdkH/AXFzQQJ0KAKY/UNzIAFBEGotAAAgA0H/AXFzQQJ0KAKYhURzIgNBGHZzQQJ0KAKY7UMgAUEkai0AAEECdCgCmOVDIAFBJWotAABBAnQoApjdQyABQSZqLQAAQQJ0KAKY1UMgAUEnai0AAEECdCgCmM1DIAFBKGotAABBAnQoApjFQyABQSlqLQAAQQJ0KAKYvUMgAUEqai0AAEECdCgCmLVDIAFBK2otAABBAnQoApitQyABQSxqLQAAQQJ0KAKYpUMgAUEtai0AAEECdCgCmJ1DIAFBL2otAABBAnQoApiNQyABQS5qLQAAQQJ0KAKYlUNzc3Nzc3Nzc3Nzc3MgAUEiai0AACADQRB2Qf8BcXNBAnQoApj1Q3MgAUEhai0AACADQQh2Qf8BcXNBAnQoApj9Q3MgAUEgai0AACADQf8BcXNBAnQoApiFRHMiA0EYdnNBAnQoApjtQyABQTRqLQAAQQJ0KAKY5UMgAUE1ai0AAEECdCgCmN1DIAFBNmotAABBAnQoApjVQyABQTdqLQAAQQJ0KAKYzUMgAUE4ai0AAEECdCgCmMVDIAFBOWotAABBAnQoApi9QyABQTpqLQAAQQJ0KAKYtUMgAUE7ai0AAEECdCgCmK1DIAFBPGotAABBAnQoApilQyABQT1qLQAAQQJ0KAKYnUMgAUE+ai0AAEECdCgCmJVDIAFBP2otAABBAnQoApiNQ3Nzc3Nzc3Nzc3NzcyABQTJqLQAAIANBEHZB/wFxc0ECdCgCmPVDcyABQTFqLQAAIANBCHZB/wFxc0ECdCgCmP1DcyABQTBqLQAAIANB/wFxc0ECdCgCmIVEcyEEIAFBQGshASACQUBqIgJBP0sNAAsLAkAgAkUNAAJAIAJBA3EiBUUEQCABIQMMAQsgASEDA0AgAy0AACAEc0H/AXFBAnQoApiNQyAEQQh2cyEEIANBAWohAyAFQQFrIgUNAAsLIAJBBEkNACABIAJqIQEDQCADLQAAIARzQf8BcUECdCgCmI1DIARBCHZzIgIgA0EBai0AAHNB/wFxQQJ0KAKYjUMgAkEIdnMiAiADQQJqLQAAc0H/AXFBAnQoApiNQyACQQh2cyICIANBA2otAABzQf8BcUECdCgCmI1DIAJBCHZzIQQgA0EEaiIDIAFHDQALCyAAIARBf3M2AggLjQoBB38jAEHAB2siBCQAAkACQAJAQYCAARBxIgVFDQAgBUEAQYCAAfwLAEGAEBBxIgZFDQAgBkEAQYAQ/AsAIARBpAdqQQA7AQAgBEEANgKgByAEQQA2ApQHIARBADYCiAcgBEEAOgCEByAEQQA2AoAHIAQgBjYC/AYgBCAFNgL4BiAEQgI3A/AGIARCADcD6AYgBEKAgICAIDcD4AYgBEEAQdgG/AsAIARBADoApgcgBEEBNgLcBiAEQSQ2AtgGQYAIIAMgA0GACE8bIQVBASEIAkAgA0UNACAFEHEiCEUNASAIQQRrLQAAQQNxRSAFRXINACAIQQAgBfwLAAsgBCAFNgKwByAEIAg2AqwHIAQgBTYCqAcCQAJAA0AgBEG0B2ogBCABIAlqIAIgCWsgCCAFIAdBARBCIAQtALQHBEAgACAELQC1BzoACCAAQoGAgICAgICAgH83AgAgBCgCqAciAARAIAhBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIABqSQ0GIAFBACACIABBJ2pLGw0HIAgQogILIAQoAvgGIgFBBGsoAgAiAEF4cUGEgAFBiIABIABBA3EiAhtJDQUgAkEAIABBqIABTxsNBiABEKICIAQoAuAGIgAEQCAEKALkBiIBQQRrKAIAIgJBeHEiAyAAQQF0IgBBBEEIIAJBA3EiAhtqSQ0GIAJBACADIABBJ2pLGw0HIAEQogILIAQoAvwGIgFBBGsoAgAiAEF4cUGEEEGIECAAQQNxIgIbSQ0FIAJBACAAQagQTxsNBgwDCyAELQCjByIGQQdHIAQoArwHIAdqIgcgA0dxRQRAIAUgB0kEQCAHIAVrIgEgBCgCqAcgBWtLBEAgBEGoB2ogBSABQQFBARCkBSAEKAKwByEFCyAEKAKsByICIAVqIQcgAUECTwR/IAFBAWsiAQRAIAdBACAB/AsACyACIAEgBWoiBWoFIAcLQQA6AAAgBUEBaiEHIAQtAKMHIQYLIAAgBCkCqAc3AgQgAEEMaiAHNgIAIAAgBkH/AXFBB0c2AgAgBCgC+AYiAUEEaygCACIAQXhxQYSAAUGIgAEgAEEDcSICG08NAkHMjMgAQS5B/IzIABDrBwALIAQoArgHIAlqIQkgBAJ/IAUgAyAHQYCAAmoiBiADIAZJGyIGTwRAIAYMAQsgBiAFayIKIAQoAqgHIAVrSwRAIARBqAdqIAUgCkEBQQEQpAUgBCgCrAchCCAEKAKwByEFCyAFIAhqIQYgCkECTwR/IApBAWsiCgRAIAZBACAK/AsACyAIIAUgCmoiBWoFIAYLQQA6AAAgBUEBagsiBTYCsAcgAiAJTw0ACyAJIAIgAkHAscQAEOoHAAsgAkEAIABBqIABTxsNAyABEKICIAQoAuAGIgAEQCAEKALkBiIBQQRrKAIAIgJBeHEiAyAAQQF0IgBBBEEIIAJBA3EiAhtqSQ0DIAJBACADIABBJ2pLGw0EIAEQogILIAQoAvwGIgFBBGsoAgAiAEF4cUGEEEGIECAAQQNxIgIbSQ0CIAJBACAAQagQTxsNAwsgARCiAiAEKALsBiIABEAgBCgC8AYiAUEEaygCACICQXhxIgMgAEEBdCIAQQRBCCACQQNxIgIbakkNAiACQQAgAyAAQSdqSxsNAyABEKICCyAEQcAHaiQADwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvQDAEHfyMAQUBqIgQkACABKAIMIQUCQAJAAkACQAJAAkAgASgCFCICIAEoAhAiA0kEQANAIAIgBWotAAAiB0EJayIGQRlLDQNBASAGdEGTgIAEcUUEQCAGQRlHDQQgBEE4aiABEKIDIAQtADhBAUcNAyAAIAQoAjw2AgQgAEEBOgAADAgLIAEgAkEBaiICNgIUIAIgA0cNAAsgAyECCyAEQQhqIAUgAyACQQFqIgEgAyABIANJGxD5ASAEKAIMIQIgBCgCCCEDQRQQcSIBRQ0CIAEgAzYCDCABQQU2AgAgACABNgIEIABBAToAACABIAI2AhAMBQsCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAQtADlBAWsODQECAwQFBgcICQoLDA0ACyAAQQA6AAEgAEEAOgAADBELIABBAToAASAAQQA6AAAMEAsgAEECOgABIABBADoAAAwPCyAAQQM6AAEgAEEAOgAADA4LIABBBDoAASAAQQA6AAAMDQsgAEEFOgABIABBADoAAAwMCyAAQQY6AAEgAEEAOgAADAsLIABBBzoAASAAQQA6AAAMCgsgAEEIOgABIABBADoAAAwJCyAAQQk6AAEgAEEAOgAADAgLIABBCjoAASAAQQA6AAAMBwsgAEELOgABIABBADoAAAwGCyAAQQw6AAEgAEEAOgAADAULIABBDToAASAAQQA6AAAMBAsCQCAHQfsARgRAIAEgAS0AGEEBayIGOgAYIAJBAWohAiAGQf8BcQ0BIARBEGogBSADIAIgAyACIANJGxD5ASAEKAIUIQIgBCgCECEDQRQQcSIBRQ0CIAEgAzYCDCABQRg2AgAgACABNgIEIABBAToAACABIAI2AhAMBQsgBCAFIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCBCECIAQoAgAhA0EUEHEiAUUNASABIAM2AgwgAUEKNgIAIAAgATYCBCAAQQE6AAAgASACNgIQDAQLIAEgAjYCFCAEQThqIAEQogMgBC0AOEEBRgRAIAQoAjwhAgwCCyABKAIMIQUCQAJAIAEoAhQiAiABKAIQIgNJBEAgBC0AOSEGA0ACQCACIAVqLQAAQQlrDjIAAAMDAAMDAwMDAwMDAwMDAwMDAwMDAwADAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDBAMLIAEgAkEBaiICNgIUIAIgA0cNAAsgAyECCyAEQSBqIAUgAyACQQFqIgIgAyACIANJGxD5ASAEKAIkIQMgBCgCICEFQRQQcSICRQ0CIAIgBTYCDCACQQM2AgAgAiADNgIQDAMLIARBGGogBSADIAJBAWoiAiADIAIgA0kbEPkBIAQoAhwhAyAEKAIYIQVBFBBxIgJFDQEgAiAFNgIMIAJBBjYCACACIAM2AhAMAgsgASACQQFqNgIUIAEQhwQhAiABIAEtABhBAWo6ABgCfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgBkEBaw4NAAECAwQFBgcICQoLDA0LQQFBgAIgAhsMDQtBAUGABCACGwwMC0EBQYAGIAIbDAsLQQFBgAggAhsMCgtBAUGACiACGwwJC0EBQYAMIAIbDAgLQQFBgA4gAhsMBwtBAUGAECACGwwGC0EBQYASIAIbDAULQQFBgBQgAhsMBAtBAUGAFiACGwwDC0EBQYAYIAIbDAILQQFBgBogAhsMAQsgAkEARwsiBUEBcQ0CIAEoAgwhBgJAIAEoAhQiAiABKAIQIgNJBEAgBUEIdiEFA0AgAiAGai0AACIHQQlrIghBF0tBASAIdEGTgIAEcUVyDQIgASACQQFqIgI2AhQgAiADRw0ACyADIQILIARBMGogBiADIAIQ+QEgBCgCNCECIAQoAjAhA0EUEHEiAUUNASABIAM2AgwgAUEDNgIAIAAgATYCBCAAQQE6AAAgASACNgIQDAQLIAdB/QBGBEAgACAFOgABIABBADoAACABIAJBAWo2AhQMBAsgBEEoaiAGIAMgAhD5ASAEKAIsIQIgBCgCKCEDQRQQcSIBRQ0AIAEgAzYCDCABQQo2AgAgACABNgIEIABBAToAACABIAI2AhAMAwsAC0EBIQUgASABLQAYQQFqOgAYCyAAIAI2AgQgACAFNgIACyAEQUBrJAALkAsDCn8CewF+QQEhDUEBIQkCQAJAAkACQAJAAkACQAJAIARBAUcEQEEBIQZBASEHA0AgBSAKaiIJIARPDQIgByEIAkAgAyAGai0AACIGIAMgCWotAAAiCUkEQCAFIAdqQQFqIgcgCmshDUEAIQUMAQsgBiAJRwRAQQEhDSAIQQFqIQdBACEFIAghCgwBC0EAIAVBAWoiByAHIA1GIgYbIQUgB0EAIAYbIAhqIQcLIAUgB2oiBiAESQ0AC0EBIQZBASEHQQAhBUEBIQkDQCAFIAtqIgwgBE8NAyAHIQgCQCADIAZqLQAAIgYgAyAMai0AACIMSwRAIAUgB2pBAWoiByALayEJQQAhBQwBCyAGIAxHBEBBASEJIAhBAWohB0EAIQUgCCELDAELQQAgBUEBaiIHIAcgCUYiBhshBSAHQQAgBhsgCGohBwsgBSAHaiIGIARJDQALCyAEIAogCyAKIAtLIgcbIgtJDQIgDSAJIAcbIgcgC2oiBSAHSSAEIAVJcg0DAn8gAyADIAdqIAsQ2wcEQAJAAkAgBEECSQRAQQAhCAwBCyADIQUgBEEecSIIIQcDQEIBIAUvAAD9EP0MPz8/Pz8/Pz8/Pz8/Pz8/P/1O/YkB/akB/ckBIhD9HQCG/RJCASAQ/R0Bhv0eASAP/VAhDyAFQQJqIQUgB0ECayIHDQALIA8gDyAP/Q0ICQoLDA0ODwABAgMEBQYH/VD9HQAhESAEIAhGDQELIAMgCGohBSAEIAhrIQcDQEIBIAUxAACGIBGEIREgBUEBaiEFIAdBAWsiBw0ACwsgBCALayIHIAsgByALSxtBAWohB0F/IQUgCyEKQX8MAQtBASEKQQAhBUEBIQZBACENA0AgBCAGIgggBWoiDEsEQCAEIAVrIAZBf3NqIgYgBE8NByAEIAVBf3NqIA1rIgkgBE8NCAJAIAMgBmotAAAiBiADIAlqLQAAIglJBEAgDEEBaiIGIA1rIQpBACEFDAELIAYgCUcEQCAIQQFqIQZBACEFQQEhCiAIIQ0MAQtBACAFQQFqIgYgBiAKRiIJGyEFIAZBACAJGyAIaiEGCyAHIApHDQELC0EBIQpBACEFQQEhBkEAIQkDQCAEIAYiCCAFaiIOSwRAIAQgBWsgBkF/c2oiBiAETw0JIAQgBUF/c2ogCWsiDCAETw0KAkAgAyAGai0AACIGIAMgDGotAAAiDEsEQCAOQQFqIgYgCWshCkEAIQUMAQsgBiAMRwRAIAhBAWohBkEAIQVBASEKIAghCQwBC0EAIAVBAWoiBiAGIApGIgwbIQUgBkEAIAwbIAhqIQYLIAcgCkcNAQsLIAQgCSANIAkgDUsbayEKQQAhBQJ/AkACQAJAAkAgBw4CAAIBCyAHDAMLIAMhCCAHQX5xIgUhBgNAQgEgCC8AAP0Q/Qw/Pz8/Pz8/Pz8/Pz8/Pz8//U79iQH9qQH9yQEiEP0dAIb9EkIBIBD9HQGG/R4BIA/9UCEPIAhBAmohCCAGQQJrIgYNAAsgDyAPIA/9DQgJCgsMDQ4PAAECAwQFBgf9UP0dACERIAUgB0YNAQsDQEIBIAMgBWoxAACGIBGEIREgByAFQQFqIgVHDQALC0EACyEFIAQLIQggACAENgI8IAAgAzYCOCAAIAI2AjQgACABNgIwIAAgCDYCKCAAIAU2AiQgACACNgIgIABBADYCHCAAIAc2AhggACAKNgIUIAAgCzYCECAAIBE3AwggAEEBNgIADwsgCSAEQdSawgAQjAcACyAMIARB1JrCABCMBwALQQAgCyAEQZSbwgAQ6gcACyAHIAUgBEGEm8IAEOoHAAsgBiAEQeSawgAQjAcACyAJIARB9JrCABCMBwALIAYgBEHkmsIAEIwHAAsgDCAEQfSawgAQjAcAC9wLBBV/AX4BfQF7IwBB0ABrIgQkACAEIAI2AgggBCABNgIEAkAgAygCBCIPIAJBA2wiBU8EQCACIAMoAgwiDU0EQCAFIAMoAhQiEE0EQCAFIAMoAhwiEU0EQCADKAIkIhIgAkECdCIFTwRAAkAgACgCCCITIAEgAmpPBEAgAg0BQQAhBQwHCyAEIBM2AiwgBEEDNgIUIARB+MnHADYCECAEQgM3AhwgBEKAgICAECIZIARBLGqthDcDQCAEIBkgBEEIaq2ENwM4IAQgGSAEQQRqrYQ3AzAgBCAEQTBqNgIYIARBEGpBkMrHABCNCAALIAAoAgQgAUEkbGohAiADKAIgIRQgAygCGCEVIAMoAhAhFiADKAIIIRcgAygCACEYAkACQANAAkACQAJAAkAgEyABIA5qIgVLBEAgCEEDaiIFIA9LDQEgAkEQaiAMIBhqIgZBCGogBv1dAgD9VgIAAiIb/VoCAAIgAkEIaiAb/VsCAAAgDSAORg0DIAsgF2ooAgAiCkH///8DcSEJIApBgICAgHhxIQYgCkGAgID8B3EiB0GAgID8B0YEQCAJQQ12IAZBEHZyQYAEQQAgCRtyQYD4AXIhBgwFCyAGQRB2IQYgB0GAgIC4BEsNAiAHQYCAgMQDTwRAIApBDHYgCkH/3wBxQQBHcSAHQQ12IAlBDXZqQYCAAWogBnJqIQYMBQsgB0GAgICYA0kNBCAJQYCAgARyIgpB/gAgB0EXdiIJa3YhByAKQR0gCWsiCXZBAXEEfyAHQQMgCXRBAWsgCnFBAEdqBSAHCyAGciEGDAQLIAUgE0HkwMcAEIwHAAsgCCAFIA9B4MrHABDqBwALIAZBgPgBciEGDAELIA0gDUGgyscAEIwHAAsgAkEUaiAGOwEAIAUgEEsNASAEIAwgFmoiBv1dAgAgBkEIaioCACIa/SACIBr9IAP9CwQwIAIgBEEwaiIHEOUCIAUgEUsNAiAEIAwgFWoiCP1dAgAgCEEIaioCACIa/SACIBr9IAP9CwQwIAIgBxDdAiASIAtBA2pLBEAgBCAU/QACAP0LBDAgDEEMaiEMIBRBEGohFCALQQRqIQsgAiAHEJACIAJBJGohAiAFIQggDkEBaiIOIAQoAggiBU8NCQwBCwsgCyALQQRqIBJBsMrHABDqBwALIAggBSAQQdDKxwAQ6gcACyAIIAUgEUHAyscAEOoHAAsgBCASNgIMIAQgBTYCLCAEQQI2AjQgBEG0yccANgIwIARCAjcCPCAEQoCAgIAQIhkgBEEsaq2ENwMYIAQgGSAEQQxqrYQ3AxAgBCAEQRBqNgI4IARBMGpBxMnHABCNCAALIAQgETYCDCAEIAU2AiwgBEECNgI0IARB/MjHADYCMCAEQgI3AjwgBEKAgICAECIZIARBLGqthDcDGCAEIBkgBEEMaq2ENwMQIAQgBEEQajYCOCAEQTBqQYzJxwAQjQgACyAEIBA2AgwgBCAFNgIsIARBAjYCNCAEQcTIxwA2AjAgBEICNwI8IARCgICAgBAiGSAEQSxqrYQ3AxggBCAZIARBDGqthDcDECAEIARBEGo2AjggBEEwakHUyMcAEI0IAAsgBCANNgIsIARBAjYCNCAEQYzIxwA2AjAgBEICNwI8IARCgICAgBAiGSAEQQhqrYQ3AxggBCAZIARBLGqthDcDECAEIARBEGo2AjggBEEwakGcyMcAEI0IAAsgBCAPNgIMIAQgBTYCLCAEQQI2AjQgBEHQx8cANgIwIARCAjcCPCAEQoCAgIAQIhkgBEEsaq2ENwMYIAQgGSAEQQxqrYQ3AxAgBCAEQRBqNgI4IARBMGpB4MfHABCNCAALIAAgASAFIAMoAiggAygCLCADKAIwIAMoAjQgAygCOCADKAI8ENsDAkAgAygCRCICRQ0AIAMoAkwiCEUNACAAKAIQIgYgACgCFCIAIAEgBSADKAJIIAgQjgMgBiAAIAEgBSADKAJAIAIQtAMLIARB0ABqJAALqwwCDH0EfwJAAkACQAJAAkAgBARAQwAA/kIgBZUhBQNAIBJBD2oiFSADSyAUQZCixIgBS3INA0MAAP5CQwAA/sIgBSACQTBqKgIAlCIHIAdDAAD+wl0bIgcgB0MAAP5CXhsQuQchB0MAAP5CQwAA/sIgBSACQTRqKgIAlCIIIAhDAAD+wl0bIgggCEMAAP5CXhsQuQchCEMAAP5CQwAA/sIgBSACQThqKgIAlCIJIAlDAAD+wl0bIgkgCUMAAP5CXhsQuQchCUMAAP5CQwAA/sIgBSACQSBqKgIAlCIKIApDAAD+wl0bIgogCkMAAP5CXhsQuQchCkMAAP5CQwAA/sIgBSACQSRqKgIAlCILIAtDAAD+wl0bIgsgC0MAAP5CXhsQuQchC0MAAP5CQwAA/sIgBSACQShqKgIAlCIMIAxDAAD+wl0bIgwgDEMAAP5CXhsQuQchDEMAAP5CQwAA/sIgBSACQSxqKgIAlCINIA1DAAD+wl0bIg0gDUMAAP5CXhsQuQchDUMAAP5CQwAA/sIgBSACQRBqKgIAlCIOIA5DAAD+wl0bIg4gDkMAAP5CXhsQuQchDkMAAP5CQwAA/sIgBSACQRRqKgIAlCIPIA9DAAD+wl0bIg8gD0MAAP5CXhsQuQchD0MAAP5CQwAA/sIgBSACQRhqKgIAlCIQIBBDAAD+wl0bIhAgEEMAAP5CXhsQuQchEEMAAP5CQwAA/sIgBSACQRxqKgIAlCIRIBFDAAD+wl0bIhEgEUMAAP5CXhsQuQchESABIBNNDQQgAEH/AEMAAP5CQwAA/sIgBSACKgIAlCIGIAZDAAD+wl0bIgYgBkMAAP5CXhsQuQciBvwAQYB/IAZDAAAAw2AbIAZDAAD+Ql4bQQAgBiAGWxtB/wFxQf8AQwAA/kJDAAD+wiAFIAJBBGoqAgCUIgYgBkMAAP7CXRsiBiAGQwAA/kJeGxC5ByIG/ABBgH8gBkMAAADDYBsgBkMAAP5CXhtBACAGIAZbG0H/AXFBCHRyQf8AQwAA/kJDAAD+wiAFIAJBCGoqAgCUIgYgBkMAAP7CXRsiBiAGQwAA/kJeGxC5ByIG/ABBgH8gBkMAAADDYBsgBkMAAP5CXhtBACAGIAZbG0H/AXFBEHRyQf8AQwAA/kJDAAD+wiAFIAJBDGoqAgCUIgYgBkMAAP7CXRsiBiAGQwAA/kJeGxC5ByIG/ABBgH8gBkMAAADDYBsgBkMAAP5CXhtBACAGIAZbG0EYdHI2AgAgE0EBaiISIAFPDQUgAEEEakH/ACAO/ABBgH8gDkMAAADDYBsgDkMAAP5CXhtBACAOIA5bG0H/AXFB/wAgD/wAQYB/IA9DAAAAw2AbIA9DAAD+Ql4bQQAgDyAPWxtB/wFxQQh0ckH/ACAQ/ABBgH8gEEMAAADDYBsgEEMAAP5CXhtBACAQIBBbG0H/AXFBEHRyQf8AIBH8AEGAfyARQwAAAMNgGyARQwAA/kJeG0EAIBEgEVsbQRh0cjYCACATQQJqIhIgAU8NBiAAQQhqQf8AIAr8AEGAfyAKQwAAAMNgGyAKQwAA/kJeG0EAIAogClsbQf8BcUH/ACAL/ABBgH8gC0MAAADDYBsgC0MAAP5CXhtBACALIAtbG0H/AXFBCHRyQf8AIAz8AEGAfyAMQwAAAMNgGyAMQwAA/kJeG0EAIAwgDFsbQf8BcUEQdHJB/wAgDfwAQYB/IA1DAAAAw2AbIA1DAAD+Ql4bQQAgDSANWxtBGHRyNgIAIBNBA2oiEiABTw0CIABBDGpB/wAgB/wAQYB/IAdDAAAAw2AbIAdDAAD+Ql4bQQAgByAHWxtB/wFxQf8AIAj8AEGAfyAIQwAAAMNgGyAIQwAA/kJeG0EAIAggCFsbQf8BcUEIdHJB/wAgCfwAQYB/IAlDAAAAw2AbIAlDAAD+Ql4bQQAgCSAJWxtB/wFxQRB0cjYCACAAQRBqIQAgE0EEaiETIAJBPGohAiAVIRIgBCAUQQFqIhRHDQALCw8LIBIgAUHwzscAEIwHAAsgEiAVIANBgM/HABDqBwALIBMgAUHAzscAEIwHAAsgEiABQdDOxwAQjAcACyASIAFB4M7HABCMBwAL9AoCDH8FfSACIAFBAnRBBGsiBmohDCAAIAZqIQogACABQQF2Ig1BAnRqIgZBBGshCyADQQRqIQ4DQEMAAIA/IRACfwJAIAYoAgAiAyAOKAIAIgRBCGooAgAiBUkEQCAAKAIAIQkgBEEEaigCACIHIANBJGxqIgMQigQhEiADLwEUIgRB//8BcUUEQCAEQRB0DAMLIARB/wdxIQMgBEGAgAJxIQggBEGA+AFxIgRBgPgBRgRAIAhBEHQhBCAEQYCAgPwHciADRQ0DGiAEIANBDXRyQYCAgP4HcgwDCyAIQRB0IQggBEUNASAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogCHIMAgsgAyAFQdTAxwAQjAcACyAIQYCAgNgDciADZ0EQayIEQRd0ayADIARB//8DcUEIanRB////A3FyC74iEUMAAIA/XgRAIBEQxgVDVPgtQJRDAACAP5KRIRALQwAAgD8hEQJ/AkAgBSAJSwRAIAcgCUEkbGoiAxCKBCETIAMvARQiBEH//wFxRQRAIARBEHQMAwsgBEH/B3EhAyAEQYCAAnEhBSAEQYD4AXEiBEGA+AFGBEAgBUEQdCEEIARBgICA/AdyIANFDQMaIAQgA0ENdHJBgICA/gdyDAMLIAVBEHQhBSAERQ0BIARBDXRBgICA/ABxIANBDXRyQYCAgMADaiAFcgwCCyAJIAVB1MDHABCMBwALIAVBgICA2ANyIANnQRBrIgRBF3RrIAMgBEH//wNxQQhqdEH///8DcXILviIUQwAAgD9eBEAgFBDGBUNU+C1AlEMAAIA/kpEhEQsgAiAGIAAgEiASkiAQlCIQIBBbIBAgEyATkiARlGBFcSIIGygCADYCAEMAAIA/IRACfwJAIAooAgAiAyAOKAIAIgRBCGooAgAiBUkEQCALKAIAIQkgBEEEaigCACIPIANBJGxqIgMQigQhEiADLwEUIgRB//8BcUUEQCAEQRB0DAMLIARB/wdxIQMgBEGAgAJxIQcgBEGA+AFxIgRBgPgBRgRAIAdBEHQhBCAEQYCAgPwHciADRQ0DGiAEIANBDXRyQYCAgP4HcgwDCyAHQRB0IQcgBEUNASAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogB3IMAgsgAyAFQdTAxwAQjAcACyAHQYCAgNgDciADZ0EQayIEQRd0ayADIARB//8DcUEIanRB////A3FyC74iEUMAAIA/XgRAIBEQxgVDVPgtQJRDAACAP5KRIRALQwAAgD8hEQJ/AkAgBSAJSwRAIAhFIQcgDyAJQSRsaiIDEIoEIRMgAy8BFCIEQf//AXFFBEAgBEEQdAwDCyAEQf8HcSEDIARBgIACcSEFIARBgPgBcSIEQYD4AUYEQCAFQRB0IQQgBEGAgID8B3IgA0UNAxogBCADQQ10ckGAgID+B3IMAwsgBUEQdCEFIARFDQEgBEENdEGAgID8AHEgA0ENdHJBgICAwANqIAVyDAILIAkgBUHUwMcAEIwHAAsgBUGAgIDYA3IgA2dBEGsiBEEXdGsgAyAEQf//A3FBCGp0Qf///wNxcgu+IhRDAACAP14EQCAUEMYFQ1T4LUCUQwAAgD+SkSERCyAIQQJ0IAZqIQYgB0ECdCAAaiEAIAJBBGohAiAMIAsgCiASIBKSIBCUIhAgEFsgECATIBOSIBGUYEVxIgMbKAIANgIAIAsgA0ECdCIDayELIAMgCmpBBGshCiAMQQRrIQwgDUEBayINDQALIAtBBGohAyABQQFxBH8gAiAAIAYgACADSSIBGygCADYCACAGIAAgA09BAnRqIQYgACABQQJ0agUgAAsgA0cgBiAKQQRqR3JFBEAPCxCACAALrgwBB38jAEFAaiIEJAAgASgCDCEFAkACQAJAAkACQAJAIAEoAhQiAiABKAIQIgNJBEADQCACIAVqLQAAIgdBCWsiBkEZSw0DQQEgBnRBk4CABHFFBEAgBkEZRw0EIARBOGogARCxAyAELQA4QQFHDQMgACAEKAI8NgIEIABBAToAAAwICyABIAJBAWoiAjYCFCACIANHDQALIAMhAgsgBEEIaiAFIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCDCECIAQoAgghA0EUEHEiAUUNAiABIAM2AgwgAUEFNgIAIAAgATYCBCAAQQE6AAAgASACNgIQDAULAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgBC0AOUEBaw4MAQIDBAUGBwgJCgsMAAsgAEEAOgABIABBADoAAAwQCyAAQQE6AAEgAEEAOgAADA8LIABBAjoAASAAQQA6AAAMDgsgAEEDOgABIABBADoAAAwNCyAAQQQ6AAEgAEEAOgAADAwLIABBBToAASAAQQA6AAAMCwsgAEEGOgABIABBADoAAAwKCyAAQQc6AAEgAEEAOgAADAkLIABBCDoAASAAQQA6AAAMCAsgAEEJOgABIABBADoAAAwHCyAAQQo6AAEgAEEAOgAADAYLIABBCzoAASAAQQA6AAAMBQsgAEEMOgABIABBADoAAAwECwJAIAdB+wBGBEAgASABLQAYQQFrIgY6ABggAkEBaiECIAZB/wFxDQEgBEEQaiAFIAMgAiADIAIgA0kbEPkBIAQoAhQhAiAEKAIQIQNBFBBxIgFFDQIgASADNgIMIAFBGDYCACAAIAE2AgQgAEEBOgAAIAEgAjYCEAwFCyAEIAUgAyACQQFqIgEgAyABIANJGxD5ASAEKAIEIQIgBCgCACEDQRQQcSIBRQ0BIAEgAzYCDCABQQo2AgAgACABNgIEIABBAToAACABIAI2AhAMBAsgASACNgIUIARBOGogARCxAyAELQA4QQFGBEAgBCgCPCECDAILIAEoAgwhBQJAAkAgASgCFCICIAEoAhAiA0kEQCAELQA5IQYDQAJAIAIgBWotAABBCWsOMgAAAwMAAwMDAwMDAwMDAwMDAwMDAwMDAAMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMEAwsgASACQQFqIgI2AhQgAiADRw0ACyADIQILIARBIGogBSADIAJBAWoiAiADIAIgA0kbEPkBIAQoAiQhAyAEKAIgIQVBFBBxIgJFDQIgAiAFNgIMIAJBAzYCACACIAM2AhAMAwsgBEEYaiAFIAMgAkEBaiICIAMgAiADSRsQ+QEgBCgCHCEDIAQoAhghBUEUEHEiAkUNASACIAU2AgwgAkEGNgIAIAIgAzYCEAwCCyABIAJBAWo2AhQgARCHBCECIAEgAS0AGEEBajoAGAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgBkEBaw4MAAECAwQFBgcICQoLDAtBAUGAAiACGwwMC0EBQYAEIAIbDAsLQQFBgAYgAhsMCgtBAUGACCACGwwJC0EBQYAKIAIbDAgLQQFBgAwgAhsMBwtBAUGADiACGwwGC0EBQYAQIAIbDAULQQFBgBIgAhsMBAtBAUGAFCACGwwDC0EBQYAWIAIbDAILQQFBgBggAhsMAQsgAkEARwsiBUEBcQ0CIAEoAgwhBgJAIAEoAhQiAiABKAIQIgNJBEAgBUEIdiEFA0AgAiAGai0AACIHQQlrIghBF0tBASAIdEGTgIAEcUVyDQIgASACQQFqIgI2AhQgAiADRw0ACyADIQILIARBMGogBiADIAIQ+QEgBCgCNCECIAQoAjAhA0EUEHEiAUUNASABIAM2AgwgAUEDNgIAIAAgATYCBCAAQQE6AAAgASACNgIQDAQLIAdB/QBGBEAgACAFOgABIABBADoAACABIAJBAWo2AhQMBAsgBEEoaiAGIAMgAhD5ASAEKAIsIQIgBCgCKCEDQRQQcSIBRQ0AIAEgAzYCDCABQQo2AgAgACABNgIEIABBAToAACABIAI2AhAMAwsAC0EBIQUgASABLQAYQQFqOgAYCyAAIAI2AgQgACAFNgIACyAEQUBrJAALuQsCCX8HfSMAQSBrIggkACAAEKMFIABBwAFqQQA6AAAgAEIANwK4ASACQQJ0IgYhBSAAKAJ8IgcgBkkEQCAGIAciBWsiCyAAKAJ0IAVrSwRAIABB9ABqIAUgC0EEQQQQpAUgACgCfCEFCyAAKAJ4Ig0gBUECdCIMaiEJIAtBAk8EQCAGIAdBf3NqQQJ0IgoEQCAJQQAgCvwLAAsgAkEEdCAHQQJ0ayANaiAMakEEayEJIAUgC2pBAWshBQsgCUEANgIAIAVBAWohBQsgACAFNgJ8AkACQAJAIAAoAgBBAUcNACAFIAZJDQIgACgCeCELAkAgAkUNACACQf////8DcSEJQQAhDCALIQcgAiENQQghBQJ/AkACQAJ/AkACQAJAA0ACQAJAAkAgBCAFQQhrSwRAIAVBB2sgBE8NASAFQQZrIARPDQIgCQ0DIAwgBkHou8EAEIwHAAsgBUEIawwKCyAFQQdrDAYLIAVBBmshBQwCC0MAAH9DIANBBGoqAgAiEYsiDkMAAIA/QwAA+EFDAAAAACADKgIAIhKLIg8gDiADQQhqKgIAIhOLIhQQ4AgQ4AgQngWOQwAAcEGSIg4gDkMAAAAAXRsiDiAOQwAA+EFeGxC5B/wAIgpBD2sQsAZDAAB/Q5UiDpUiECAQQwAAf0NeGxC5ByEQIAdDAAB/QyAPIA6VIg8gD0MAAH9DXhsQuQf8ASAKQRt0QYCAgAhBACASQwAAAABdG3JBgICAEEEAIBFDAAAAAF0bckGAgIAgQQAgE0MAAAAAXRtyciAQ/AFBCHRyQwAAf0MgFCAOlSIOIA5DAAB/Q14bELkH/AFBEHRyNgIAIAVBBWsgBE8NBiAFQQRrIARPDQMgBCAFQQNrSwRAQwAAf0MgA0EQaioCACIRiyIOQwAAgD9DAAD4QUMAAAAAIANBDGoqAgAiEosiDyAOIANBFGoqAgAiE4siFBDgCBDgCBCeBY5DAABwQZIiDiAOQwAAAABdGyIOIA5DAAD4QV4bELkH/AAiCkEPaxCwBkMAAH9DlSIOlSIQIBBDAAB/Q14bELkHIRAgB0EEakMAAH9DIA8gDpUiDyAPQwAAf0NeGxC5B/wBIApBG3RBgICACEEAIBJDAAAAAF0bckGAgIAQQQAgEUMAAAAAXRtyQYCAgCBBACATQwAAAABdG3JyIBD8AUEIdHJDAAB/QyAUIA6VIg4gDkMAAH9DXhsQuQf8AUEQdHI2AgAgBUECayAETw0GIAVBAWsgBE8NAyAEIAVNDQJDAAB/QyADQRxqKgIAIhGLIg5DAACAP0MAAPhBQwAAAAAgA0EYaioCACISiyIPIA4gA0EgaioCACITiyIUEOAIEOAIEJ4FjkMAAHBBkiIOIA5DAAAAAF0bIg4gDkMAAPhBXhsQuQf8ACIKQQ9rELAGQwAAf0OVIg6VIhAgEEMAAH9DXhsQuQchECAHQQhqQwAAf0MgDyAOlSIPIA9DAAB/Q14bELkH/AEgCkEbdEGAgIAIQQAgEkMAAAAAXRtyQYCAgBBBACARQwAAAABdG3JBgICAIEEAIBNDAAAAAF0bcnIgEPwBQQh0ckMAAH9DIBQgDpUiDiAOQwAAf0NeGxC5B/wBQRB0cjYCACAMQQRqIQwgB0EQaiEHIAlBAWshCSAFQQlqIQUgA0EkaiEDIA1BAWsiDQ0BDAkLCyAFQQNrIQULIAUgBEHYu8EAEIwHAAsgBUEBawwBCyAFQQRrCyAEQci7wQAQjAcACyAFQQJrDAELIAVBBWsLIARBuLvBABCMBwALIAggACgCBCABQQJ0IAEgAmpBAnQQ4QgiABC4CiIBNgIAIAggBjYCBCABIAZHDQEgACALIAYQ4AkgAEGECEkNACAAEJsHCyAIQSBqJAAPCyAIQQA2AghBACAIIAhBBGogCEEIakHg+cQAEPUHAAtBACAGIAVB+LvBABDqBwALrAsCIH8XfSMAQTBrIgckACAAIAEQ7QEgAUEMbCEcIAAtANQBIR0gAC0AzAEhHiAALQDEASEfIAAtALwBISAgACgCTCELIAAoAlAhCSAAKAIoISEgACgCLCETIAAoAjQhIiAAKAI4IQwgACgCQCEjIAAoAkQhDSAAKAIcISQgACgCICEOIAAoAtABIRQgACgCyAEhFSAAKALAASEWIAAoArgBIRcgACgCECElIAAoAhQhJkEAIQECQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkADQCAHIAIgGGoiADYCAAJAAkACQCAmIABBCHYiAEsEQCAgIAUgBiADIBdqEI8FIQggHyAFIAYgAyAWahCPBSEPIB4gBSAGIAMgFWoQjwUhGSAdIAUgBiADIBRqEI8FIREgJSAAQcgAbGoiACoCCCEsIAAqAhQhNSAAKgIEIS0gACoCECE2IAAqAgAhLiAAKgIMITdDAACAPyAPQRR2Qf8HcbNDAMB/RJVDAAAAv5JD8wS1P5QiKCAolJMgD0EKdkH/B3GzQwDAf0SVQwAAAL+SQ/MEtT+UIikgKZSTIA9B/wdxs0MAwH9ElUMAAAC/kkPzBLU/lCIqICqUk0MAAAAAEOAIkSEnICghKyAPQR52IhoOAgMBAgsgB0EBNgIUIAdBgN3HADYCECAHQgE3AhwgByAHrUKAgICAEIQ3AyggByAHQShqNgIYIAdBBGoiACAHQRBqELEGIAAQkAchAAwSCyAnISsMAQsgKSErCyABIA5PDQIgACoCMCEvIAAqAjwhOCAAKgIgITAgACoCLCE5IAAqAhghMSAAKgIkITogACoCOCEyIAAqAkQhOyAAKgI0ITMgACoCQCE8IAAqAhwhNCAAKgIoIT0gEiAkaiIbIC4gCEEVdrNDAOD/RJUgNyAuk5SSOAIAIAFBAWoiACAOTw0DIBtBBGogLSAIQQt2Qf8HcbNDAMB/RJUgNiAtk5SSOAIAIAFBAmoiECAOTw0EIBtBCGogLCAIQf8PcbNDAOD/RJUgNSAsk5SSOAIAIAEgDU8NBSASICNqIgggMSAZQRV2s0MA4P9ElSA6IDGTlJIQiQQ4AgAgACANTw0GIAhBBGogNCAZQQt2Qf8HcbNDAMB/RJUgPSA0k5SSEIkEOAIAIA0gEE0NByAIQQhqIDAgGUH/D3GzQwDg/0SVIDkgMJOUkhCJBDgCACABIAxPDQggEiAiaiIIIC8gEUEYdrNDAAB/Q5UgOCAvk5SSOAIAIAAgDE8NCSAIQQRqIDMgEUEQdkH/AXGzQwAAf0OVIDwgM5OUkjgCACAMIBBNDQogCEEIaiAyIBFBCHZB/wFxs0MAAH9DlSA7IDKTlJI4AgAgEyAYRg0LIAogIWogEUH/AXGzQwAAf0OVOAIAIAkgCk0NDCALICs4AgAgCkEBaiIAIAlPDQ0gC0EEaiAnICogGkECRhsgKSAPQQBIGzgCACAKQQJqIgAgCU8NDiALQQhqICcgKiAaQQNGGzgCACAKQQNqIgAgCU8NASALQQxqICcgKCAPQYCAgIAESRs4AgAgGEEBaiEYIAQgF2ohFyAEIBZqIRYgBCAVaiEVIAQgFGohFCABQQNqIQEgC0EQaiELIApBBGohCiAcIBJBDGoiEkcNAAtBACEADA4LIAAgCUHU3McAEIwHAAsgASAOQYTbxwAQjAcACyAAIA5BlNvHABCMBwALIBAgDkGk28cAEIwHAAsgASANQbTbxwAQjAcACyAAIA1BxNvHABCMBwALIBAgDUHU28cAEIwHAAsgASAMQeTbxwAQjAcACyAAIAxB9NvHABCMBwALIBAgDEGE3McAEIwHAAsgEyATQZTcxwAQjAcACyAKIAlBpNzHABCMBwALIAAgCUG03McAEIwHAAsgACAJQcTcxwAQjAcACyAHQTBqJAAgAAvFCgImfwF9AkACQAJAAkACQAJAAkACQCAAKAKEAUGAgICAeEYNACAAKAK0ASIGIAAoAoABIgdLBEAgBiAHayIGIAAoAnggB2tLBEAgAEH4AGogByAGQQRBBBCkBSAAKAKAASEHCyAAKAJ8IgkgB0ECdGohCCAGQQJPBH8gBkECdEEEayINBEAgCEEAIA38CwALIAYgB2oiBkEBayEHIAkgBkECdGpBBGsFIAgLQQA2AgAgACAHQQFqNgKAAQsgACABEO0BIAAoAoQBQYCAgIB4Rg0AIAAoAogBIhFBCEEAIAAoAowBIhIbIglqIRkgESASQQN0IgZqIRogACgCfCENIAAoAoABIQsgACgC8AIiGwRAIAAoAqwBIhxBBEEAIAAoArABIh0bIghqISIgACgCoAEiHkEEQQAgACgCpAEiHxsiB2ohIyAAKAKUASIgQQRBACAAKAKYASIhGyIKaiEkIBwgHUECdCIMaiElIB4gH0ECdCIOaiEmICAgIUECdCIPaiEnIAAoAnAhEyAAKAJ0IRQgACgCZCEVIAAoAmghFiAAKAJYIRcgACgCXCEYIAwgCGtBAnZBAWohKCAOIAdrQQJ2QQFqISkgDyAKa0ECdkEBaiEqIAYgCWtBA3ZBAWohK0EAIQxBACEOQQAhD0EBIQBBACEKA0AgCiEGIAAhCiASBEAgAyAGbCACaiEHQQAhACANIQkgGSEGIBEhCANAIAgtAAQgBCAFIAcgCCgCAGoQvQQhLCAAIAtGDQogCSAsOAIAIAlBBGohCSAGQQhBACAGIgggGkcbaiEGICsgAEEBaiIARw0ACwsgIQRAIBggDyAPIBhJGyEQICohACAXIQggDyEHICQhCSAgIQYDQCAGKAIAIgYgC08NCCAHIBBGDQkgCCANIAZBAnRqKgIAQwAAAEGUQwAAf0OVQwAAgMCSOAIAIAhBBGohCCAHQQFqIQdBBEEAIAkiBiAnRxsgBmohCSAAQQFrIgANAAsLAkAgG0EBRg0AIB8EQCAWIA4gDiAWSRshECApIQAgFSEIIA4hByAjIQkgHiEGA0AgBigCACIGIAtPDQcgByAQRg0IIAggDSAGQQJ0aioCAEMAAABBlEMAAH9DlUMAAIDAkjgCACAIQQRqIQggB0EBaiEHQQRBACAJIgYgJkcbIAZqIQkgAEEBayIADQALCyAdRSAbQQJNcg0AIBQgDCAMIBRJGyEQICghACATIQggDCEHICIhCSAcIQYDQCAGKAIAIgYgC08NCyAHIBBGDQUgCCANIAZBAnRqKgIAQwAAAEGUQwAAf0OVQwAAgMCSOAIAIAhBBGohCCAHQQFqIQdBBEEAIAkiBiAlRxsgBmohCSAAQQFrIgANAAsLIBNB1ABqIRMgDEEVaiEMIBVBPGohFSAOQQ9qIQ4gF0EkaiEXIA9BCWohDyAKIAEgCksiBmohACAGDQALDAELIBJFDQAgBkEIa0EDdkEBaiEMQQEhAEEAIQcDQCAAIQogAyAHbCACaiEHIA0hCUEAIQAgGSEGIBEhCANAIAgtAAQgBCAFIAcgCCgCAGoQvQQhLCAAIAtGDQggCSAsOAIAIAlBBGohCSAGQQhBACAGIgggGkcbaiEGIAwgAEEBaiIARw0ACyAKIAEgCksiBmohACAKIQcgBg0ACwsPCyAHIBRB4OTHABCMBwALIAYgC0Hw5McAEIwHAAsgByAWQYDlxwAQjAcACyAGIAtBkOXHABCMBwALIAcgGEGg5ccAEIwHAAsgACALQbDlxwAQjAcACyAGIAtB0OTHABCMBwALoAoCB38BeyAAIAEoAgQ2AlwCQAJAAkAgAS0ACEUEQCABKAIAIgWzQwAAwD+UjfwBIgIgACgCACAAKAIIIgFrSwRAIAAgASACQQRBGBCkBQsgACgCDCAAKAIUIgFrIAJJBEAgAEEMaiABIAJBBEEYEKQFCyAAKAJcIgNFDQEgACgCGCAAKAIgIgFrIAJJBEAgAEEYaiABIAJBAUEJEKQFIAAoAlwhAwsgA0ECSQ0BIAAoAiQgACgCLCIBayACSQR/IABBJGogASACQQFBDxCkBSAAKAJcBSADC0EDSQ0BIAIgACgCMCAAKAI4IgFrTQ0BIABBMGogASACQQFBFRCkBQwBCyABKAIAIgUgACgCFCICTQRAIAAgBTYCFCACIAVGDQEgACgCECAFQRhsaiEBA0AgAUEUaigCACIDQQVPBEAgAUEIaigCACIGQQRrKAIAIgRBeHEiCCADQQJ0IgNBBEEIIARBA3EiBBtqSQ0EIARBACAIIANBJ2pLGw0FIAYQogILIAFBGGohASAFIAJBAWsiAkcNAAsMAQsgAiEEIAUgAmsiByAAKAIMIAJrSwRAIABBDGogAiAHQQRBGBCkBSAAKAIUIQQLIAAoAhAhBiAHQQNxIgMEQCADIARqIAUgAmsgA2shByAGIARBGGxqIQEDQCABQQA2AgAgAUEUakEANgIAIAFBGGohASADQQFrIgMNAAshBAsgAiAFa0F8TQRAIAYgBEEYbGohAQNAIAFBADYCACABQdwAakEANgIAIAFBxABqQgA3AgAgAUEsakIANwIAIAFBFGpCADcCACABQeAAaiEBIARBBGohBCAHQQRrIgcNAAsLIAAgBDYCFAsCQCAAKAIIIgYgBSICTw0AIAIgBiICayIEIAAoAgAgAmtLBEAgACACIARBBEEYEKQFIAAoAgghAgsgACgCBCEHIARBA3EiAwRAIAIgA2ogBSAGayADayEEIAcgAkEYbGohAQNAIAH9DAAAAAAAAAAAAAAAAAAAAAD9CwIAIAFBD2pCADcAACABQRhqIQEgA0EBayIDDQALIQILIAYgBWtBfEsNACAHIAJBGGxqIQEDQCAB/QwAAAAAAAAAAAAAAAAAAAAA/QsCACABQQ9qQgA3AAAgAUEYaiAJ/QsCACABQSdqQgA3AAAgAUEwaiAJ/QsCACABQT9qQgA3AAAgAUHIAGogCf0LAgAgAUHXAGpCADcAACABQeAAaiEBIAJBBGohAiAEQQRrIgQNAAsLIAAgAjYCCAJAIAAoAlwiAUUNACAAIAAoAiAiAyAFTwR/IAUFIAUgA2siBCAAKAIYIANrSwRAIABBGGogAyAEQQFBCRCkBSAAKAIgIQMgACgCXCEBCyAEQQlsIgIEQCAAKAIcIANBCWxqQQAgAvwLAAsgAyAEags2AiAgAUECSQ0AIAAgACgCLCIDIAVPBH8gBQUgBSADayIEIAAoAiQgA2tLBEAgAEEkaiADIARBAUEPEKQFIAAoAiwhAyAAKAJcIQELIARBD2wiAgRAIAAoAiggA0EPbGpBACAC/AsACyADIARqCzYCLCABQQNJDQAgACAAKAI4IgEgBUkEfyAFIAFrIgUgACgCMCABa0sEQCAAQTBqIAEgBUEBQRUQpAUgACgCOCEBCyAFQRVsIgIEQCAAKAI0IAFBFWxqQQAgAvwLAAsgASAFagUgBQs2AjgLDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALqQoBDX8jAEEwayIJJAACQAJAAkAgBUEDSQRAIANBB0sNAiAERSITLQC0q0YiCEEHSw0DQQEhCgJAAkACQAJAIAEgA0EobGpBmAFqIgMgASgC8AQgBEGgCGxqIhQgCEGEAWxqIAVBLGxqIgFBCyABKAAAEMgEQf8BcSIFDgwBAAAAAAAAAAAAAAIACyAFQQFrQQRPBEAgBUEFa0H/AXEiCEEFSw0FAn9BACAIQQxsIgEtAPyrRiIFRQ0AGiABLQCGrEYhCiABLQCFrEYhCyABLQCErEYhDCABLQCDrEYhDSABLQCCrEYhDiABLQCBrEYhDyABLQCArEYhECABLQD/q0YhESABLQD+q0YhEiABLQD9q0YhASADIAUQmQUiBSABRQ0AGiADIAEQmQVBAkEAIAUbciIFIBJFDQAaIAMgEhCZBSAFQQF0ciIFIBFFDQAaIAMgERCZBSAFQQF0ciIFIBBFDQAaIAMgEBCZBSAFQQF0ciIFIA9FDQAaIAMgDxCZBSAFQQF0ciIFIA5FDQAaIAMgDhCZBSAFQQF0ciIFIA1FDQAaIAMgDRCZBSAFQQF0ciIFIAxFDQAaIAMgDBCZBSAFQQF0ciIFIAtFDQAaIAMgCxCZBSAFQQF0ciIFIApFDQAaIAMgChCZBSAFQQF0cgsgCC0AxKxGaiEFCyATLQDKrEYhCCADEKoFIQEgCEEPSw0CQQAhCiACIAhBAnRqIAcgBiAIG8FBACAFayAFIAEbbDYCAEEBQQIgBUEBRhtBACAFGyEFC0EBQQIgBBshBANAIARBtKvGAGotAAAiCEEITw0GIApBAnQhAUEBIQtBASEKAkACQCADIBQgCEGEAWxqIAVBLGxqIgVBCyABIAVqKAAAEMgEQf8BcSIFDgwBAAAAAAAAAAAAAAMACyAFQQFrQQRPBEAgBUEFa0H/AXEiCEEGTw0GAn9BACAIQQxsIgEtAPyrRiIFRQ0AGiABLQCGrEYhCiABLQCFrEYhDCABLQCErEYhDSABLQCDrEYhDiABLQCCrEYhDyABLQCBrEYhECABLQCArEYhESABLQD/q0YhEiABLQD+q0YhEyABLQD9q0YhASADIAUQmQUiBSABRQ0AGiADIAEQmQVBAkEAIAUbciIFIBNFDQAaIAMgExCZBSAFQQF0ciIFIBJFDQAaIAMgEhCZBSAFQQF0ciIFIBFFDQAaIAMgERCZBSAFQQF0ciIFIBBFDQAaIAMgEBCZBSAFQQF0ciIFIA9FDQAaIAMgDxCZBSAFQQF0ciIFIA5FDQAaIAMgDhCZBSAFQQF0ciIFIA1FDQAaIAMgDRCZBSAFQQF0ciIFIAxFDQAaIAMgDBCZBSAFQQF0ciIFIApFDQAaIAMgChCZBSAFQQF0cgsgCC0AxKxGaiEFCyAEQcqsxgBqLQAAIQggAxCqBSEBIAhBD0sNA0EAIQogAiAIQQJ0aiAHIAYgCBvBQQAgBWsgBSABG2w2AgBBAUECIAVBAUYbQQAgBRshBQsgBEEBaiIEQRBHDQALC0EPIQUgACADLQAjQfIBRwR/IAAgCzoAAUEdBSAFCzoAACAJQTBqJAAPCyAIQRBB3KzGABCMBwALQfCqxgBBIUGUq8YAEOsHAAsgCSAFOgAPIAlBATYCFCAJQeSrxgA2AhAgCUIBNwIcIAkgCUEPaq1CgICAgMAOhDcDKCAJIAlBKGo2AhggCUEQakHsq8YAEI0IAAsgA0EIQaSrxgAQjAcACyAIQQhBxKvGABCMBwALkAsCCH8BfiMAQZABayIDJAACfyACRQRAIANBEGogA0EcaigCADYCACADIAMpAhQ3AwggACgCACEFIAEhBiABIAJqDAELQQEhBAJ/IAEsAAAiBUEATgRAIAVB/wFxIQUgAUEBagwBCyABLQABQT9xIQcgBUEfcSEGIAVBX00EQCAGQQZ0IAdyIQUgAUECagwBCyABLQACQT9xIAdBBnRyIQcgBUFwSQRAIAcgBkEMdHIhBSABQQNqDAELIAZBEnRBgIDwAHEgAS0AA0E/cSAHQQZ0cnIhBSABQQRqCyEGIANBFGogBUGBggQQgQMgA0EQaiADQRxqKAIAIgc2AgAgAyADKQIUIgs3AwggAy0AISEIIAMtACAhCSAAKAIAIQUgA0GIAWogBzYCACADIAs3A4ABIAEgAmoLIQcgA0HIAGogA0GIAWooAgA2AgAgAyADKQOAATcCQCADIAc2AnwgAyAGNgJ4QQAhACADQQA2AmQgA0EANgJQIAMgCDoATSADIAk6AEwgAyAENgI8IANBADYCKCADQQA2AhQCQAJAIAQEQCADQRhqIgQgA0FAa/0AAgD9CwIAIAMtACQhAQJAIAMtACUiAkGBAU8EQCABIAJPDQEgBCgCACEEIAUoAgAhCCAFKAIEKAIQIQkDQCAIIAQgCRECAA0EIAFBAWoiAUH/AXEgAkkNAAsgAiEBDAELIAEgAk8NACABIAIgASACSxshAiAFKAIAIQggBSgCBCgCECEJA0AgCCABIARqLQAAIAkRAgANAyACIAFBAWoiAUcNAAsgAiEBCyADIAE6ACQLIAYgB0YNASADQdQAaiIJIQAgBSgCBCEIIAUoAgAhBQNAAkACfwJAAkACfyAGLAAAIgFBAE4EQCABQf8BcSEEIAZBAWoMAQsgBi0AAUE/cSEEIAFBH3EhAiABQV9NBEAgAkEGdCAEciEEIAZBAmoMAQsgBi0AAkE/cSAEQQZ0ciEEIAFBcEkEQCAEIAJBDHRyIQQgBkEDagwBCyACQRJ0QYCA8ABxIAYtAANBP3EgBEEGdHJyIgRBgIDEAEYNASAGQQRqCyEGAkACQAJAAkACQAJAAkACQAJAAkAgBA4oAgEBAQEBAQEBAwUBAQQBAQEBAQEBAQEBAQEBAQEBAQEBAQcBAQEBCAALIARB3ABGDQULIAQQ4QINByADQQA6AIIBIANBADsBgAEgAyAEQRR2LQDctkU6AIMBIAMgBEEEdkEPcS0A3LZFOgCHASADIARBCHZBD3EtANy2RToAhgEgAyAEQQx2QQ9xLQDctkU6AIUBIAMgBEEQdkEPcS0A3LZFOgCEASAEQQFyZ0ECdiIBIANBgAFqIgpqIgJB+wA6AAAgAkEBa0H1ADoAACAKIAFBAmsiAWpB3AA6AAAgA0H9ADoAiQEgAyAEQQ9xLQDctkU6AIgBQQoMCgsgA0IANwGCASADQdzgADsBgAEMCAsgA0IANwGCASADQdzoATsBgAEMBwsgA0IANwGCASADQdzkATsBgAEMBgsgA0IANwGCASADQdzcATsBgAEMBQsgA0IANwGCASADQdy4ATsBgAEMBAsgA0IANwGCASADQdzEADsBgAEMAwsgA0IANwGCASADQdzOADsBgAEMAgsgAyAENgKAASAAIAMpAoABNwIAIABBCGogA0GIAWovAQA7AQAgBSAJKAIAIAgoAhARAgBFDQMMBQtBACEADAULQQAhAUECCyEEIAAgAykCgAE3AgAgAEEIaiADQYgBai8BADsBACABIAQgASAESxsiAkH/AXEhBCAIKAIQIQoDQCAFIAAgAWotAAAgChECAA0DIAQgAUEBaiIBRw0ACyADIAI6AGALIAYgB0cNAAtBACEADAELQQEhAAsgA0GQAWokACAAC+MJAQZ/IAFBA2wiBCAAKAKQBCICSwRAIAQgAmsiBSAAKAKIBCACa0sEQCAAQYgEaiACIAVBBEEEEKQFIAAoApAEIQILIAAoAowEIgYgAkECdGohAyAFQQJPBH8gBUECdEEEayIHBEAgA0EAIAf8CwALIAIgBWoiA0EBayECIAYgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgKQBAsgACgCnAQiAiABSQRAIAEgAmsiBSAAKAKUBCACa0sEQCAAQZQEaiACIAVBBEEEEKQFIAAoApwEIQILIAAoApgEIgYgAkECdGohAyAFQQJPBH8gBUECdEEEayIHBEAgA0EAIAf8CwALIAIgBWoiA0EBayECIAYgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgKcBAsgACgCqAQiAiAESQRAIAQgAmsiBSAAKAKgBCACa0sEQCAAQaAEaiACIAVBBEEEEKQFIAAoAqgEIQILIAAoAqQEIgYgAkECdGohAyAFQQJPBH8gBUECdEEEayIHBEAgA0EAIAf8CwALIAIgBWoiA0EBayECIAYgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgKoBAsgACgCtAQiAiAESQRAIAQgAmsiBCAAKAKsBCACa0sEQCAAQawEaiACIARBBEEEEKQFIAAoArQEIQILIAAoArAEIgUgAkECdGohAyAEQQJPBH8gBEECdEEEayIGBEAgA0EAIAb8CwALIAIgBGoiA0EBayECIAUgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgK0BAsgAUECdCICIAAoAsAEIgRLBEAgAiAEayICIAAoArgEIARrSwRAIABBuARqIAQgAkEEQQQQpAUgACgCwAQhBAsgACgCvAQiBSAEQQJ0aiEDIAJBAk8EfyACQQJ0QQRrIgYEQCADQQAgBvwLAAsgAiAEaiICQQFrIQQgBSACQQJ0akEEawUgAwtBADYCACAAIARBAWo2AsAECwJAAkAgACgChAQiBEUNACABQQlsIgMgACgCzAQiAksEQCADIAJrIgQgACgCxAQgAmtLBEAgAEHEBGogAiAEQQRBBBCkBSAAKALMBCECCyAAKALIBCIFIAJBAnRqIQMgBEECTwR/IARBAnRBBGsiBgRAIANBACAG/AsACyACIARqIgNBAWshAiAFIANBAnRqQQRrBSADC0EANgIAIAAgAkEBajYCzAQgACgChAQhBAsgBEEBTQ0AIAFBD2wiAyAAKALYBCICSwR/IAMgAmsiBCAAKALQBCACa0sEQCAAQdAEaiACIARBBEEEEKQFIAAoAtgEIQILIAAoAtQEIgUgAkECdGohAyAEQQJPBH8gBEECdEEEayIGBEAgA0EAIAb8CwALIAIgBGoiA0EBayECIAUgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgLYBCAAKAKEBAUgBAtBAk0NACABQRVsIgIgACgC5AQiAUsNAQsPCyACIAFrIgMgACgC3AQgAWtLBEAgAEHcBGogASADQQRBBBCkBSAAKALkBCEBCyAAKALgBCIEIAFBAnRqIQIgA0ECTwR/IANBAnRBBGsiBQRAIAJBACAF/AsACyABIANqIgJBAWshASAEIAJBAnRqQQRrBSACC0EANgIAIAAgAUEBajYC5AQLtwkBBn8gAUEDbCIEIAAoAiAiAksEQCAEIAJrIgUgACgCGCACa0sEQCAAQRhqIAIgBUEEQQQQpAUgACgCICECCyAAKAIcIgYgAkECdGohAyAFQQJPBH8gBUECdEEEayIHBEAgA0EAIAf8CwALIAIgBWoiA0EBayECIAYgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgIgCyAAKAIsIgIgAUkEQCABIAJrIgUgACgCJCACa0sEQCAAQSRqIAIgBUEEQQQQpAUgACgCLCECCyAAKAIoIgYgAkECdGohAyAFQQJPBH8gBUECdEEEayIHBEAgA0EAIAf8CwALIAIgBWoiA0EBayECIAYgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgIsCyAAKAI4IgIgBEkEQCAEIAJrIgUgACgCMCACa0sEQCAAQTBqIAIgBUEEQQQQpAUgACgCOCECCyAAKAI0IgYgAkECdGohAyAFQQJPBH8gBUECdEEEayIHBEAgA0EAIAf8CwALIAIgBWoiA0EBayECIAYgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgI4CyAAKAJEIgIgBEkEQCAEIAJrIgQgACgCPCACa0sEQCAAQTxqIAIgBEEEQQQQpAUgACgCRCECCyAAKAJAIgUgAkECdGohAyAEQQJPBH8gBEECdEEEayIGBEAgA0EAIAb8CwALIAIgBGoiA0EBayECIAUgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgJECyABQQJ0IgIgACgCUCIESwRAIAIgBGsiAiAAKAJIIARrSwRAIABByABqIAQgAkEEQQQQpAUgACgCUCEECyAAKAJMIgUgBEECdGohAyACQQJPBH8gAkECdEEEayIGBEAgA0EAIAb8CwALIAIgBGoiAkEBayEEIAUgAkECdGpBBGsFIAMLQQA2AgAgACAEQQFqNgJQCwJAAkAgACgC8AIiBEUNACABQQlsIgMgACgCXCICSwRAIAMgAmsiBCAAKAJUIAJrSwRAIABB1ABqIAIgBEEEQQQQpAUgACgCXCECCyAAKAJYIgUgAkECdGohAyAEQQJPBH8gBEECdEEEayIGBEAgA0EAIAb8CwALIAIgBGoiA0EBayECIAUgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgJcIAAoAvACIQQLIARBAU0NACABQQ9sIgMgACgCaCICSwR/IAMgAmsiBCAAKAJgIAJrSwRAIABB4ABqIAIgBEEEQQQQpAUgACgCaCECCyAAKAJkIgUgAkECdGohAyAEQQJPBH8gBEECdEEEayIGBEAgA0EAIAb8CwALIAIgBGoiA0EBayECIAUgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgJoIAAoAvACBSAEC0ECTQ0AIAFBFWwiAiAAKAJ0IgFLDQELDwsgAiABayIDIAAoAmwgAWtLBEAgAEHsAGogASADQQRBBBCkBSAAKAJ0IQELIAAoAnAiBCABQQJ0aiECIANBAk8EfyADQQJ0QQRrIgUEQCACQQAgBfwLAAsgASADaiICQQFrIQEgBCACQQJ0akEEawUgAgtBADYCACAAIAFBAWo2AnQL9AoBCH8jAEGAAWsiBCQAIAAoAgwhBgJAAkACQAJAAkACQAJAIAAoAhQiCCAAKAIQIgNJBEACQAJAAkACQAJAAkACQAJAAkAgBiAIai0AACIFQdsAaw4hBAgICAgICAgICAgDCAgICAgICAEICAgICAIICAgICAgFAAsgBUEiaw4MBgcHBwcHBwcHBwcFBwsgACAIQQFqIgU2AhQCQCADIAVNDQAgACAIQQJqIgc2AhQgBSAGai0AAEH1AEcNDSADIQUgAyAHRg0AIAAgCEEDaiIJNgIUIAYgB2otAABB7ABHBEAgCSEHDA4LIAMgCUYNACAAIAhBBGoiBzYCFCAGIAlqLQAAQewARw0NIARBBzoAcCAEQfAAaiABIAIQ3wYgABDrBSEDDA4LIARBEGogBiADIAUQ+QEgBCgCFCEAIAQoAhAhAUEUEHEiA0UNDiADIAE2AgwgA0EFNgIAIAMgADYCEAwNCyAAIAhBAWoiBTYCFAJAIAMgBU0NACAAIAhBAmoiBzYCFCAFIAZqLQAAQfIARw0LIAMhBSADIAdGDQAgACAIQQNqIgk2AhQgBiAHai0AAEH1AEcEQCAJIQcMDAsgAyAJRg0AIAAgCEEEaiIHNgIUIAYgCWotAABB5QBHDQsgBEGAAjsBcCAEQfAAaiABIAIQ3wYgABDrBSEDDA0LIARBIGogBiADIAUQ+QEgBCgCJCEAIAQoAiAhAUEUEHEiA0UNDSADIAE2AgwgA0EFNgIAIAMgADYCEAwMCyAAIAhBAWoiBTYCFAJAIAMgBU0NACAAIAhBAmoiBzYCFCAFIAZqLQAAQeEARw0JIAMhBSADIAdGDQAgACAIQQNqIgk2AhQgBiAHai0AAEHsAEcEQCAJIQcMCgsgAyAJRg0AIAAgCEEEaiIKNgIUIAYgCWotAABB8wBHBEAgCiEHDAoLIAMgCkYNACAAIAhBBWoiBzYCFCAGIApqLQAAQeUARw0JIARBADsBcCAEQfAAaiABIAIQ3wYgABDrBSEDDAwLIARBMGogBiADIAUQ+QEgBCgCNCEAIAQoAjAhAUEUEHEiA0UNDCADIAE2AgwgA0EFNgIAIAMgADYCEAwLCyAEQQo6AHAgBEHwAGogASACEN8GIAAQ6wUhAwwKCyAEQQs6AHAgBEHwAGogASACEN8GIAAQ6wUhAwwJCyAAIAhBAWo2AhQgBEFAayIFIABBABDHAyAEKQNAQgNRDQQgBSABIAIQhAcgABDrBSEDDAgLIABBADYCCCAAIAhBAWo2AhQgBEHkAGogAEEMaiAAEIICIAQoAmghAyAEKAJkQQJGDQcgBCAEKAJsNgJ4IAQgAzYCdCAEQQU6AHAgBEHwAGogASACEN8GIAAQ6wUhAwwHCyAFQTBrQf8BcUEKSQ0BCyAEQQhqIAYgAyAIQQFqIgEgAyABIANJGxD5ASAEKAIMIQIgBCgCCCEDQRQQcSIBRQ0GIAEgAzYCDCABQQo2AgAgASACNgIQIAEgABDrBSEDDAULIARB0ABqIABBARDHAyAEKQNQQgNRBEAgBCgCWCEDDAULIARB0ABqIAEgAhCEByAAEOsFIQMMBAsgBCgCSCEDDAMLIARBOGogBiADIAcQ+QEgBCgCPCEAIAQoAjghAUEUEHEiA0UNAyADIAE2AgwgA0EJNgIAIAMgADYCEAwCCyAEQShqIAYgAyAHEPkBIAQoAiwhACAEKAIoIQFBFBBxIgNFDQIgAyABNgIMIANBCTYCACADIAA2AhAMAQsgBEEYaiAGIAMgBxD5ASAEKAIcIQAgBCgCGCEBQRQQcSIDRQ0BIAMgATYCDCADQQk2AgAgAyAANgIQCyAEQYABaiQAIAMPCwAL2wsBBX8jAEEwayICJABBASEDAkACQAJAAkACQAJAAkBBASAALQAAIgRBJGsgBEEjTRtB/wFxQQFrDgMBAgMACyABKAIAIgRB86XHAEEHIAEoAgQiBigCDCIFEQAADQUgAEEEaiEAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0HIAAgARCuAkUNAQwHCyAEQduBwgBBAiAFEQAADQYgAkEBOgAoIAIgBjYCCCACIAQ2AgQgAkHggcIANgIYIAIgASkCCDcCHCACIAJBKGo2AgwgAiACQQRqNgIUIAAgAkEUahCuAg0GIAIoAhRB2YHCAEECIAIoAhgoAgwRAAANBgsgASgCAEHejsgAQQEgASgCBCgCDBEAACEDDAULIAEoAgAiBEHQt8cAQQYgASgCBCIGKAIMIgURAAANBAJAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0HIAIgADYCBCABKAIAQdzJxABBCyABKAIEKAIMEQAAIQAgAkEAOgAZIAIgADoAGCACIAE2AhQgAkEUakGQwcQAQQUgAkEEakHMycQAEIwFIQAgAi0AGCIEQQFxIAItABkiBUEBR3JFBEAgACgCACIALQAKQYABcQ0CIAAoAgBB/7PFAEECIAAoAgQoAgwRAABFDQMMCAsgBQ0HIARBAXFFDQIMBwsgBEHbgcIAQQIgBREAAA0GIAIgBjYCCCACIAQ2AgQgAkEBOgATIAJB4IHCADYCGCACIAEpAgg3AhwgAiACQRNqNgIMIAIgAkEEaiIDNgIUIAIgADYCJCADQdzJxABBCxCvAyEAIAJBADoALSACIAA6ACwgAiACQRRqNgIoIAJBKGpBkMHEAEEFIAJBJGpBzMnEABCMBSEAAkACQCACLQAsIgNBAXEgAi0ALSIEQQFHckUEQCAAKAIAIgAtAApBgAFxDQEgACgCAEH/s8UAQQIgACgCBCgCDBEAAA0IDAILIAQNByADQQFxRQ0BDAcLIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAANBgsgAigCFEHZgcIAQQIgAigCGCgCDBEAAEUNAUEBIQMMBgsgACgCAEGls8UAQQEgACgCBCgCDBEAAA0FCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMBAsgASgCACIEQeSlxwBBCSABKAIEIgYoAgwiBREAAA0DIABBBGohAAJAAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0GIAIgADYCBCABKAIAQZCqxwBBDiABKAIEKAIMEQAAIQAgAkEAOgAZIAIgADoAGCACIAE2AhQgAkEUakGQwcQAQQUgAkEEakGAwcQAEIwFIQAgAi0AGCIEQQFxIAItABkiBUEBR3JFBEAgACgCACIALQAKQYABcQ0CIAAoAgBB/7PFAEECIAAoAgQoAgwRAABFDQMMBwsgBQ0GIARBAXFFDQIMBgsgBEHbgcIAQQIgBREAAA0FIAIgBjYCCCACIAQ2AgQgAkEBOgATIAJB4IHCADYCGCACIAEpAgg3AhwgAiACQRNqNgIMIAIgAkEEaiIDNgIUIAIgADYCJCADQZCqxwBBDhCvAyEAIAJBADoALSACIAA6ACwgAiACQRRqNgIoIAJBKGpBkMHEAEEFIAJBJGpBgMHEABCMBSEAAkACQCACLQAsIgNBAXEgAi0ALSIEQQFHckUEQCAAKAIAIgAtAApBgAFxDQEgACgCAEH/s8UAQQIgACgCBCgCDBEAAA0GDAILIAQNBSADQQFxRQ0BDAULIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAANBAsgAigCFEHZgcIAQQIgAigCGCgCDBEAAEUNAUEBIQMMBQsgACgCAEGls8UAQQEgACgCBCgCDBEAAA0ECyABKAIAQd6OyABBASABKAIEKAIMEQAAIQMMAwsgASgCAEGfzsQAQQ4gASgCBCgCDBEAACEDDAILQQEhAwwBC0EBIQMLIAJBMGokACADC8MKAw5/A3sCfiMAQaABayIHJAAgByACNgIEIAcgACgCCCIDNgIIAkACQAJAAkACQAJAAkACQAJAAkAgAiADRgRAIAdBDGogASACEPEDIAcoAhAhAQJAIAcoAhQiDEUNACABIAxBA3RqIQogACgCBCEGIAEhAwNAIAMoAgAiBCACTw0DIANBBGooAgAiBSACTw0MIAYgBEEkbGoiBEEgaiIIKAIAIQkgBiAFQSRsaiIF/QACACESIAVBEGoiC/0AAgAhESAIIAVBIGoiCCgCADYCACAEQRBqIg39AAIAIRMgDSAR/QsCACAE/QACACERIAQgEv0LAgAgCyAT/QsCACAFIBH9CwIAIAggCTYCACADQQhqIgMgCkcNAAsgACgCFCICBEAgACgCECEEIAEhAwNAIAMoAgAiBSACTw0NIANBBGooAgAiBiACTw0FIAQgBUEYbGoiBUEQaiIIKQIAIRQgBCAGQRhsaiIG/QACACESIAggBkEQaiIIKQIANwIAIAX9AAIAIREgBSAS/QsCACAIIBQ3AgAgBiAR/QsCACADQQhqIgMgCkcNAAsLIAAoAiAiAgRAIAAoAhwhBCABIQMDQCADKAIAIgUgAk8NDSADQQRqKAIAIgYgAk8NBiAEIAVBEmxqIgVBEGoiCC8BACEJIAQgBkESbGoiBv0AAQAhEiAIIAZBEGoiCC8BADsBACAF/QABACERIAUgEv0LAQAgCCAJOwEAIAYgEf0LAQAgA0EIaiIDIApHDQALCyAAKAIsIgUEQCAAKAIoIQYgASECA0AgAigCACIDIAVPDQcgAkEEaigCACIEIAVPDQggBiADQR5saiIDQRBqIggpAQAhFCADQRZqKQEAIRUgBiAEQR5saiIEQRxqLwEAIQkgBEEYaigBACELIAT9AAEAIRIgCCAEQRBqIggpAQA3AQAgA/0AAQAhESADIBL9CwEAIANBGGogCzYBACADQRxqIAk7AQAgB0GGAWoiAyAVNwEAIAdBgAFqIgkgFDcDACAEIBH9CwEAIAggCSkDADcBACAEQRZqIAMpAQA3AQAgAkEIaiICIApHDQALCyAAKAI4IgNFIAxFcg0AIAAoAjQhBSABIQIDQCACKAIAIgAgA08NCCACQQRqKAIAIgQgA08NCSAHQZgBaiIMIAUgAEEqbGoiAEEoaiIGLwEAOwEAIAdBkAFqIgggAEEgaiIJKQEANwMAIAdBgAFqIgsgAEEQaiIN/QABAP0LAwAgBSAEQSpsaiIEQRBqIg79AAEAIRIgBP0AAQAhESAEQShqIg8vAQAhECAJIARBIGoiCSkBADcBACAGIBA7AQAgAP0AAQAhEyAAIBH9CwEAIA0gEv0LAQAgByAT/QsDcCAJIAgpAwA3AQAgDyAMLwEAOwEAIAQgB/0AA3D9CwEAIA4gC/0AAwD9CwEAIAJBCGoiAiAKRw0ACwsgBygCDCIABEAgAUEEaygCACICQXhxIgMgAEEDdCIAQQRBCCACQQNxIgIbakkNCSACQQAgAyAAQSdqSxsNCiABEKICCyAHQaABaiQADwsgB0EANgJwQQAgB0EEaiAHQQhqIAdB8ABqQaTBxwAQ9QcACyAEIAJBwPbHABCMBwALIAYgAkHA9scAEIwHAAsgBiACQcD2xwAQjAcACyADIAVBwPbHABCMBwALIAQgBUHA9scAEIwHAAsgACADQcD2xwAQjAcACyAEIANBwPbHABCMBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAFIAJBwPbHABCMBwAL4AoCB38BfiMAQdAAayIEJAAgAAJ/AkACQAJAAkACQAJAIAEoAhQiAiABKAIQIgNJBEAgASgCDCEIAn4CQANAIAIgCGotAAAiBUEJayIHQRdLQQEgB3RBk4CABHFFcg0BIAEgAkEBaiICNgIUIAIgA0cNAAsgAyECQgAMAQtCgAILIAWtQhCGhEKAgrgDUQ0BCyAEQSBqIAEoAgwiBSADIAIgA0kEfwNAIAIgBWotAAAiBkEJayIHQRlLDQNBASAHdEGTgIAEcUUEQCAHQRlHDQQgARDMBCICDQUMCAsgASACQQFqIgI2AhQgAiADRw0ACyADBSACC0EBaiIBIAMgASADSRsQ+QEgBCgCJCECIAQoAiAhA0EUEHEiAUUNBCABIAM2AgwgAUEFNgIAIAEgAjYCECAAIAE2AgQMAwsgASACQQFqIgY2AhQCQAJAAkAgAyAGTQ0AIAEgAkECaiIFNgIUIAYgCGotAABB9QBHDQEgBSAGIAMgAyAGSRsiBkYNACABIAJBA2oiBzYCFCAFIAhqLQAAQewARwRAIAchBQwCCyAGIAdGDQAgASACQQRqIgU2AhQgByAIai0AAEHsAEcNASAAQQA6AAFBAAwICyAEQQhqIAggAyAGEPkBIAQoAgwhBiAEKAIIIQFBFBBxIgJFDQUgAkEFNgIADAELIARBEGogCCADIAUQ+QEgBCgCFCEGIAQoAhAhAUEUEHEiAkUNBCACQQk2AgALIAIgATYCDCAAIAI2AgQgAiAGNgIQDAILIAZB+wBHBEAgBEEYaiAFIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCHCECIAQoAhghA0EUEHEiAUUNAyABIAM2AgwgAUEKNgIAIAEgAjYCECAAIAE2AgQMAgsgASABLQAYQQFrIgc6ABggAkEBaiECIAdB/wFxRQRAIARBKGogBSADIAIgAyACIANJGxD5ASAEKAIsIQIgBCgCKCEDQRQQcSIBRQ0DIAEgAzYCDCABQRg2AgAgASACNgIQIAAgATYCBAwCCyABIAI2AhQCQCABEMwEIgJFBEAgASgCDCEFAkACQCABKAIUIgIgASgCECIDSQRAA0ACQCACIAVqLQAAQQlrDjIAAAMDAAMDAwMDAwMDAwMDAwMDAwMDAwADAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDBgMLIAEgAkEBaiICNgIUIAIgA0cNAAsgAyECCyAEQThqIAUgAyACQQFqIgIgAyACIANJGxD5ASAEKAI8IQYgBCgCOCEDQRQQcSICRQ0GIAJBAzYCAAwBCyAEQTBqIAUgAyACQQFqIgIgAyACIANJGxD5ASAEKAI0IQYgBCgCMCEDQRQQcSICRQ0FIAJBBjYCAAsgAiADNgIMIAIgBjYCEAsgASABLQAYQQFqOgAYIAAgAjYCBAwCCyABIAJBAWo2AhQgARCHBCECIAEgAS0AGEEBajoAGCACDQAgASgCDCEFAkAgASgCFCICIAEoAhAiA0kEQANAIAIgBWotAAAiB0EJayIGQRdLQQEgBnRBk4CABHFFcg0CIAEgAkEBaiICNgIUIAIgA0cNAAsgAyECCyAEQcgAaiAFIAMgAhD5ASAEKAJMIQIgBCgCSCEDQRQQcSIBRQ0DIAEgAzYCDCABQQM2AgAgASACNgIQIAAgATYCBAwCCyAHQf0ARgRAIAEgAkEBajYCFAwECyAEQUBrIAUgAyACEPkBIAQoAkQhASAEKAJAIQNBFBBxIgJFDQIgAiADNgIMIAJBCjYCACACIAE2AhALIAAgAjYCBAtBAQwCCwALIABBAToAAUEACzoAACAEQdAAaiQAC/kKAwV/An0BfiMAQSBrIgIkAAJAIAEoAgAiBEGQtcQAQQUgASgCBCIDKAIMIgURAAAEQEEBIQMMAQsCQAJAAkAgASgCCCIGQYCAgARxRQRAQQEhAyAEQbuzxQBBASAFEQAADQQgBkGAgIABcSEFIAAqAgAhByAGQYCAgIABcQ0BIABBBGohBCAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyRQRAIAEgByAFQQBHQQEQ9wJFDQMMBQsgASAHIAVBAEcQzwJFDQIMBAsgBEHbgcIAQQIgBREAAARAQQEhAwwECyACQQE6AA8gAiADNgIEIAIgBDYCACACQeCBwgA2AhQgAiABKQIIIgk3AhggCaciBEGAgIABcSEDIAIgAkEPajYCCCACIAI2AhAgACoCACEHAkACQCAEQYCAgIABcUUEQCAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyDQEgAkEQaiAHIANBAEdBARD3Ag0FDAILIAJBEGogByADQQBHIAlCMIinEL0CRQ0BDAQLIAJBEGogByADQQBHEM8CDQMLIAIoAhBB2YHCAEECIAIoAhQoAgwRAAAEQEEBIQMMBAsgAEEEaiEEDAELIAEgByAFQQBHIAEvAQ4QvQINAiAAQQRqIQQLAkACQAJAAkACQCABKAIIIgNBgICABHFFBEAgASgCAEHnkMYAQQIgASgCBCgCDBEAAARAQQEhAwwICyADQYCAgAFxIQUgBCoCACEHIANBgICAgAFxDQEgAEEIaiEEIAeLIghDyhsOWmAgB0MAAAAAXCAIQxe30ThdcXJFBEBBASEDIAEgByAFQQBHQQEQ9wJFDQUMCAsgASAHIAVBAEcQzwJFDQRBASEDDAcLIAEpAgAhCSACQQE6AA8gAiAJNwIAIAJB4IHCADYCFCACIAEpAggiCTcCGCAJpyIFQYCAgAFxIQMgAiACQQ9qNgIIIAIgAjYCECAEKgIAIQcgBUGAgICAAXFFDQEgAkEQaiAHIANBAEcgCUIwiKcQvQJFDQIMBAsgASAHIAVBAEcgAS8BDhC9AgRAQQEhAwwGCyAAQQhqIQQMAgsgB4siCEPKGw5aYCAHQwAAAABcIAhDF7fROF1xckUEQCACQRBqIAcgA0EAR0EBEPcCDQMMAQsgAkEQaiAHIANBAEcQzwINAgsgAigCEEHZgcIAQQIgAigCFCgCDBEAAEUEQCAAQQhqIQQMAQtBASEDDAMLAkACQAJAAkACQCABKAIIIgNBgICABHFFBEAgASgCAEHnkMYAQQIgASgCBCgCDBEAAARAQQEhAwwJCyADQYCAgAFxIQAgBCoCACEHIANBgICAgAFxDQEgB4siCEPKGw5aYCAHQwAAAABcIAhDF7fROF1xckUEQEEBIQMgASAHIABBAEdBARD3AkUNBQwJC0EBIQMgASAHIABBAEcQzwJFDQQMCAsgASkCACEJIAJBAToADyACIAk3AgAgAkHggcIANgIUIAIgASkCCCIJNwIYIAmnIgNBgICAAXEhACACIAJBD2o2AgggAiACNgIQIAQqAgAhByADQYCAgIABcUUNASACQRBqIAcgAEEARyAJQjCIpxC9AkUNAgwEC0EBIQMgASAHIABBAEcgAS8BDhC9Ag0GDAILIAeLIghDyhsOWmAgB0MAAAAAXCAIQxe30ThdcXJFBEAgAkEQaiAHIABBAEdBARD3Ag0DDAELIAJBEGogByAAQQBHEM8CDQILIAIoAhBB2YHCAEECIAIoAhQoAgwRAABFDQBBASEDDAQLIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwDC0EBIQMMAgtBASEDDAELQQEhAwsgAkEgaiQAIAML2AkDEH8EfgF7IwBBMGsiBiQAAkACQCACKAIAIg4gAigCCCILayIHQSBPBEAgASkDCCEUIA4hBSALIQcMAQsgBkEQav0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgBiAX/QsDAAJ/IAEpAwgiFVAEQCALDAELIAEoAhAiDygCACAPKQMIIhMgDygCBCIErSIWIBMgFlQbp2ohCAJAIARC/////w8gEyATQv////8PWhunayIFQQAgBCAFTxsiBEIgIBUgFUIgWhunIgUgBCAFSRsiA0EBRgRAIAYgCC0AADoAAAwBCyADRQ0AIAYgCCAD/AoAAAsgASAVIAOtIhZ9IhQ3AwggDyATIBZ8NwMIIAsgAyAHTQ0AGiACIAsgA0EBQQEQpAUgAigCCAshBSADBEAgAigCBCAFaiAGIAP8CgAACyACIAMgBWoiBzYCCCADBEAgAigCACEFDAELIABBBDoAACAAQQA2AgQMAQsgASgCECEJQYDAACEQIAZBEGohDwJAA0ACQCAFIAdHIAUgDkdyRQRAIA/9DAAAAAAAAAAAAAAAAAAAAAD9CwMAIAYgF/0LAwACfyAUUARAQQAhA0IAIRQgDgwBCyAJKQMIIhUgCSgCBCIMrSIWIBUgFlQbpyIHIAkoAgBqIQgCQCAMQv////8PIBUgFUL/////D1obp2siBUEAIAUgDE0bIgRCICAUIBRCIFobpyIFIAQgBUkbIgNBAUYEQCAGIAgtAAA6AAAMAQsgA0UNACAGIAggA/wKAAALIAEgFCADrSIWfSIUNwMIIAkgFSAWfDcDCCAOIAcgDEYNABogAiAOIANBAUEBEKQFIAIoAggLIQUgAwRAIAIoAgQgBWogBiAD/AoAAAsgAiADIAVqIgc2AgggA0UEQCAAQQQ6AAAgACAHIAtrNgIEDAULIAIoAgAhBQsCQCAFIAdHBEAgAigCBCEDDAELIAVBIGoiCCAFQQF0IgQgBCAISRsiBEEASA0BQQAhAyAGIAUEfyAGIAU2AgggBiACKAIENgIAQQEFIAMLNgIEIAZBJGpBASAEIAYQhQcgBigCJEEBRg0BIAYoAighAyACIAQ2AgAgAiADNgIEIAQhBQsgFFAEQCACIAc2AggMAwsgAyAHaiESIAkCfiAQIAUgB2siBCAEIBBLGyINrSAUWARAIAkoAgQiCEL/////DyAJKQMIIhMgE0L/////D1obp2siBEEAIAQgCE0bIgQgDSAEIA1JGyIDBEAgEiAJKAIAIBMgCK0iFiATIBZUG6dqIAP8CgAACyADIAogAyAKSxshCiATIAOtIhV8DAELIAkoAgQiDEL/////DyAJKQMIIhMgE0L/////D1obp2siBEEAIAQgDE0bIgggFKciBCAEIAhLGyIDBEAgEiAJKAIAIBMgDK0iFiATIBZUG6dqIAP8CgAACyADIAogAyAKSxshCiATIAOtIhV8CzcDCCABIBQgFX0iFDcDCCACIAMgB2oiBzYCCCADRQ0CQX9BfyAQIBFBAWpBACADIA1JGyIRQQFKGyAQIAogDUcbIgRBAXQgBEEASBsgBCAEIA1NGyAEIAMgDUYbIRAgCiADayEKDAELCyAAQoHMADcCAAwBCyAAQQQ6AAAgACAHIAtrNgIECyAGQTBqJAALggkCBn8DfgJAAkACQCABQQhPBEAgAUEHcSICRQ0BIAAoAqABIgRBKU8NAiAERQRAIABBADYCoAEMAgsgBEECdCIGQQRrIgNBAnZBAWoiBUEDcSEHIAJBAnQoAqCVQiACdq0hCgJAIANBDEkEQCAAIQIMAQsgBUH8////B3EhAyAAIQIDQCACIAI1AgAgCn4gCXwiCD4CACACQQRqIgUgBTUCACAKfiAIQiCIfCIIPgIAIAJBCGoiBSAFNQIAIAp+IAhCIIh8Igg+AgAgAkEMaiIFIAU1AgAgCn4gCEIgiHwiCD4CACAIQiCIIQkgAkEQaiECIANBBGsiAw0ACwsgBwRAIAdBAnQhAwNAIAIgAjUCACAKfiAJfCIIPgIAIAJBBGohAiAIQiCIIQkgA0EEayIDDQALCyAAIAhCgICAgBBaBH8gBEEoRg0EIAAgBmogCT4CACAEQQFqBSAECzYCoAEMAQsgACgCoAEiBEEpTw0BIARFBEAgAEEANgKgAQ8LIAFBAnQ1AqCVQiEKIARBAnQiB0EEayICQQJ2QQFqIgNBA3EhAQJAIAJBDEkEQCAAIQIMAQsgA0H8////B3EhAyAAIQIDQCACIAI1AgAgCn4gCXwiCD4CACACQQRqIgYgBjUCACAKfiAIQiCIfCIIPgIAIAJBCGoiBiAGNQIAIAp+IAhCIIh8Igg+AgAgAkEMaiIGIAY1AgAgCn4gCEIgiHwiCD4CACAIQiCIIQkgAkEQaiECIANBBGsiAw0ACwsgAQRAIAFBAnQhAwNAIAIgAjUCACAKfiAJfCIIPgIAIAJBBGohAiAIQiCIIQkgA0EEayIDDQALCyAAIAhCgICAgBBaBH8gBEEoRg0DIAAgB2ogCT4CACAEQQFqBSAECzYCoAEPCwJAIAFBCHEEQCAAKAKgASIEQSlPDQICQCAERQRAQQAhBAwBCyAEQQJ0IgZBBGsiAkECdkEBaiIDQQNxIQcCQCACQQxJBEBCACEIIAAhAgwBCyADQfz///8HcSEDQgAhCCAAIQIDQCACIAI1AgBC4esXfiAIfCIIPgIAIAJBBGoiBSAFNQIAQuHrF34gCEIgiHwiCD4CACACQQhqIgUgBTUCAELh6xd+IAhCIIh8Igg+AgAgAkEMaiIFIAU1AgBC4esXfiAIQiCIfCIJPgIAIAlCIIghCCACQRBqIQIgA0EEayIDDQALCyAHBEAgB0ECdCEDA0AgAiACNQIAQuHrF34gCHwiCT4CACACQQRqIQIgCUIgiCEIIANBBGsiAw0ACwsgCUKAgICAEFQNACAEQShGDQIgACAGaiAIPgIAIARBAWohBAsgACAENgKgAQsgAUEQcQRAIABByJXCAEECEPMCCyABQSBxBEAgAEHQlcIAQQMQ8wILIAFBwABxBEAgAEHclcIAQQUQ8wILIAFBgAFxBEAgAEHwlcIAQQoQ8wILIAFBgAJxBEAgAEGYlsIAQRMQ8wILIAAgARC5AxoPCwwBC0EAIARBKEGMg8IAEOoHAAtBKEEoQYyDwgAQjAcAC5oKAgl/Bn4jAEEgayIFJAACQAJAIAEtAAgiBkECRg0AIAIgASkDACIMNwMIIAVCADcDEAJAAkACQAJAAkACQCABKAKYASIDQQlJBEAgASkDGEJ/IAwgA618Ig4gDCAOVhtUDQQgASgClAEhCCACKAIEIgStIQ0gBEL/////DyAMIAxC/////w9aG6drIgdBACAEIAdPGyADTwRAIAIoAgAgDCANIAwgDVQbp2ohBCADQQFHBEAgA0UNAyAFQRBqIAQgA/wKAAAMAwsgBSAELQAAOgAQDAILQaiQyAApAwAiD0IIiCEQIA+nIQcgD0L/AYNCBFINAwwCC0EAIANBCEHMisEAEOoHAAtBBCEHCyAOIQ0LIAIgDTcDCAJAIAdB/wFxIgRBBEcEQCAFIAetQv8BgyAQQgiGhCINNwMYIBBCGIinIQMCfwJAAkAgBEEBaw4DAAEBBAsgEKcMAQsgAy0ACAtB/wFxQSVHDQEgBkEBcUUEQCAFQRhqEM4FDAQLIABBADYCACAAQgA3AwggBUEYahDOBQwGCyAIIAVBEGogAxDbBw0BIAIgDDcDCCABQQI6AAggACAMNwMQIABCATcDCCAAQQA2AgAMBQsgACANNwMIIABCgYCAgJCAgICAfzcDAAwECyAGQQFxDQELIAFBAjoACAwBCyAAQQA2AgAgAEIANwMIDAELAkACQAJAAkAgASkDoAEiDCABKQMQVA0AIAFBIGohCUGokMgAKQMAIg5C/wGDIREgDkIIiCEQIAEpAxghDSACKAIAIQogDqchBiACKAIEIgutIQ4DQCAMIA1aDQFCfyAMIAEoAqwBIgOtfCIPIAwgD1YbIg8gDFgNAQJAAkAgAgJ+AkACQAJAIA0gDyANIA9UGyAMfSIPpyIEIANNBEAgASgCqAEhByABKAKwAQ0FIAsgDCAOIAwgDlQbpyIDayAESQ0CIAMgCmohAyAEQQFGDQEgBARAIAcgAyAE/AoAAAtBBCEDDAMLQQAgBCADQbyKwQAQ6gcACyAHIAMtAAA6AABBBCEDDAELIAYhAyAOIBFCBFINARoLIA9C/////w+DIAx8CzcDCCADQf8BcSIDQQRHBEAgEEIYiKchASAQpyICIQQCQAJAAkAgA0EBaw4DAQACCgsgAS0ACCEECyAEQf8BcUElRg0FDAgLIAEtAAhBJUcNByABKAIAIQIgAUEEaigCACIDKAIAIgYEQCACIAYRAwALIAMoAgQiBgRAIAIgBiADKAIIEKIHCyABQQxBBBCiBwwEC0EAIQMgASgCsAFFDQELIAQgASgCtAEiA0kNAyADIAdqIQcgBCADayEECyAFQgE3AhggASgCmAEiCCAETQRAIAVBCGogCSAFQRhqIAcgBCABKAKUASAIIAEoAogBEQoAIAUoAghBAXENBAsgAUEANgKwAUJ/IAEpA6ABIg0gATUCrAEgCEEBayIDQQAgAyAITRutfXwiDCAMIA1UGyIMIAEpAxgiDVQEQCABIAw3A6ABIAwgASkDEFoNAQwCCwsgASANNwMQCyAAQgA3AwggAEEANgIADAMLIAMgBCAEQeCbyAAQ6gcACyAFKAIMIQYgAUEBNgKwASAAQgE3AwggASADIAZqIAhqNgK0ASACIAatIAwgA618fCINNwMIIAAgDTcDECAAQQA2AgAMAQsgACABNgIMIABBgYCAgHg2AgQgACACQQh0IANyNgIIIABBATYCAAsgBUEgaiQAC6MJAg5/AnsCQAJ/AkACQAJAIAEoAiAiESAETQRAIAMgBGoiECARayEKIAQgEUgEQCADIQIMAwsgECAGayEMIAH9AAQQIRUgAf0ABAAhFiABLQAlIQ0gAS0AJCEOIAZBBEkNASAGQQNxQQJrIRIgBSAGQXxxakECaiETIAMhAgNAAkAgAiAOav0AAAAgFv0jIAIgDWr9AAAAIBX9I/1O/WQiC0UNAANAIAUhByAGIQkgDCACIAtoIg9qIghJDQECQANAIAcoAAAgCCIUKAAARw0BIAhBBGohCCAHQQRqIQcgCUEEayIJQQNLDQALIAlBAUsEQCAHLwAAIAgvAABHDQEgFEEGaiEIIBIhCSATIQcLIAlFDQcgBy0AACAILQAARg0HCyALQQFrIAtxIgsNAAsLIAJBEGoiAiAKTQ0ACwwCCwJAIAQgBkkNACADIARqAkAgBkUEQAwBCyADIAZqIQQgAyEHA0AgBy0AACAIQQF0aiEIIAdBAWoiByAESQ0ACwsgASgCZCEEIAEoAmAhASAGayECIAMhBwNAAkAgASAIRw0AIAcgBSAGELsGRQ0AIAcgA2sMBgsgAiAHTQ0BIAYgB2otAAAgCCAEIActAABsa0EBdGohCCAHQQFqIQcMAAsAC0EAIQMMBAsCQCAGQQJPBEAgBkECRg0BIAMhAgNAAkAgAiAOav0AAAAgFv0jIAIgDWr9AAAAIBX9I/1O/WQiB0UNAANAIAwgAiAHaCIPaiIJSQ0BIAUvAAAgCS8AAEYEQCAFLQACIAktAAJGDQcLIAdBAWsgB3EiBw0ACwsgAkEQaiICIApNDQALDAILIAYEQCADIQIDQAJAIAIgDmr9AAAAIBb9IyACIA1q/QAAACAV/SP9Tv1kIgdFDQADQCAMIAIgB2giD2oiCUkNASAFLQAAIAktAABGDQYgB0EBayAHcSIHDQALCyACQRBqIgIgCk0NAAsMAgsgAyECA0AgAiAOav0AAAAgFv0jIAIgDWr9AAAAIBX9I/1O/WQiBwRAIAwgAiAHaCIPak8NBAsgAkEQaiICIApNDQALDAELIAMhAgNAAkAgAiAOav0AAAAgFv0jIAIgDWr9AAAAIBX9I/1O/WQiB0UNAANAIAwgAiAHaCIPaiIJSQ0BIAUvAAAgCS8AAEYNBCAHQQFrIAdxIgcNAAsLIAJBEGoiAiAKTQ0ACwtBACEDIAYgECACa0sgAiAQT3INAiAKIAEtACRq/QAAACAB/QAEAP0jIAogAS0AJWr9AAAAIAH9AAQQ/SP9Tv1kQX8gAiAKa3RxIgtFDQIgECAGayEBIAZBBEkhAgJAA0AgCiALaCISaiIHIAFLDQQgBiEJIAUhCAJAIAJFBEADQCAIKAAAIAcoAABHDQIgB0EEaiEHIAhBBGohCCAJQQRrIglBA0sNAAsLIAlBAUsEQCAILwAAIAcvAABHDQEgCUECayEJIAhBAmohCCAHQQJqIQcLIAlFDQIgCC0AACAHLQAARg0CCyALQQFrIAtxIgsNAAsMAwsgEiAEIBFragwBCyACIANrIA9qCyEHQQEhAwsgACAHNgIEIAAgAzYCAAv7CQIHfwR9IwBBsAFrIgUkAAJ/AkAgASgCCCIGIAJLBEAgASgCBCACQRhsaiIGQRFqLwAAIAZBE2otAAAiB0EQdHIiCEEIdiEJQwAAEEEgASoCSCABLQBYQQJGIgobIQ1DAABAwSABKgJEIAobIQwgCEH/AXEEQCAMIA0gDJNDAAB+Q5UgCEEBa0H/AXGzlJIQiQQhDgsgCUH/AXEEQCAMIA0gDJNDAAB+Q5UgCUEBa0H/AXGzlJIQiQQhDwsgBwR9IAwgDSAMk0MAAH5DlSAHQQFrQf8BcbOUkhCJBAVDAAAAAAshDCAOIA+UQ4/CzT8QtwohDSAOIAyUQ4/CzT8QtwohDiAPIAyUQ4/CzT8QtwogDSAOkpJDAABAQJVD5kAfPxC3CkPbD0lBlCEMIAZBDGovAQAiB0H//wFxRQRAIAdBEHQMAwsgB0H/B3EhBiAHQYCAAnEhCCAHQYD4AXEiB0GA+AFGBEAgCEEQdCIHQYCAgPwHciAGRQ0DGiAHIAZBDXRyQYCAgP4HcgwDCyAIQRB0IQggB0UNASAHQQ10QYCAgPwAcSAGQQ10ckGAgIDAA2ogCHIMAgsgAiAGQdy7xwAQjAcACyAGIAZnQRBrIgZB//8DcUEIanRB////A3EgCEGAgIDYA3IgBkEXdGtyCyEGIAVBCGogASgCECIJIAEoAhQiCiACEOcCIAwgBr6UIQ0CQAJ/AkACQCAFKAIsIgZBCU8EQCAFKAIMIgdFDQEgBUEANgIwIAVBADYCVCAFKAIQDAMLIAYNAQsgAEEBNgIoIAAgAjYCCCAAQQA2AgQgACANOAIADAILIAVBADYCMCAFQQA2AlQgBiEHIAVBDGoLIQggB0ECdCELIAVBiAFqIQdDAACA/yEMA0AgBUGEAWogASAIKAIAIAMgBBD3ASAFQeAAaiAHQQhq/QACAP0LAwAgBUHwAGogB0EYav0AAgD9CwMAIAUgBykCADcDWCAIQQRqIQggBSoChAEhDiAFQTBqIAVB2ABqEP8BIAwgDhDgCCEMIAtBBGsiCw0ACyADKAIIIQECQAJAAkACQAJAIAQgDJQgDV8EQCABIAJNDQEgAygCBCACakEBOgAACyABIAJNDQEgAygCBCACai0AAEUEQCAJIAogAkEEQQAQ1AIgACAMOAIAIABBJGogBUHQAGopAgA3AgAgAEEUaiAFQUBr/QACAP0LAgAgACAF/QACMP0LAgQMBgsgCSAKIAIgBSgCVCIIQQlJBH8gBUE0agUgBSgCNCIIQYCABE8NAyAFKAI4CyAIENQCIABBATYCKCAAIAI2AgggAEEANgIEIAAgDTgCACAFKAJUIgBBCUkNBSAFKAI4IgFBBGsoAgAiAkF4cSIDIABBAnQiAEEEQQggAkEDcSICG2pJDQMgAkEAIAMgAEEnaksbDQQgARCiAgwFCyACIAFB7OrBABCMBwALIAIgAUH86sEAEIwHAAtBjOvBAEEtQbzrwQAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsCQAJAIAZBCU8EQCAFKAIQIgBBBGsoAgAiAUF4cSICIAZBAnQiA0EEQQggAUEDcSIBG2pJDQEgAUEAIAIgA0EnaksbDQIgABCiAgsgBUGwAWokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC6UKAgZ/AX4jAEHgAGsiByQAIAAoAgQhCyAAKAIAIQggB0EANgIMAn8CQCAILQAQQQFHDQAgCCgCACEJAkACQAJAIAtFBEAgByAIQQxqrUKAgICAEIQ3A0AgCUEEaigCACEKIAkoAgAgB0EBNgIkIAdB8PjHADYCICAHQQE2AhwgB0ECNgIUIAdB4PjHADYCECAHIAdBQGsiDDYCGCAKIAdBEGoQwQMNAiAILQAQQQFHDQEgCCgCACEJIAdCgICAgKABNwNIIAcgB0EMaq1CgICAgMAFhDcDQCAJQQRqKAIAIQogCSgCACAHQQE2AiQgB0Go+McANgIgIAdBAjYCHCAHQQI2AhQgB0GM+ccANgIQIAcgDDYCGCAKIAdBEGoQwQMNAgwBCyAJKAIAQZz5xwBBBiAJQQRqKAIAKAIMEQAADQEgCC0AEEEBRw0AIAgoAgAhCSAHQoCAgIDQATcDSCAHQqD4x4CgATcDQCAJQQRqKAIAIQogCSgCACAHQQE2AiQgB0Go+McANgIgIAdBAjYCHCAHQQE2AhQgB0Gg+McANgIQIAcgB0FAazYCGCAKIAdBEGoQwQMNAQsCQAJAIAEoAgBBA0cEQEKAgICA0AUhDSAILQAQRQ0BIAdBMGogAUEgaikCADcDACAHQSBqIAFBEGr9AAIA/QsDACAHIAH9AAIA/QsDECAIKAIAIQEgByANIAdBEGqthDcDOCABQQRqKAIAIQkgASgCACAHQgE3AkwgB0EBNgJEIAdBoPjHADYCQCAHIAdBOGo2AkggCSAHQUBrEMEDRQ0CDAMLIAgoAgAiASgCAEGi+ccAQQkgAUEEaigCACgCDBEAAA0CDAELIAdBMGogAUEgaikCADcDACAHQSBqIAFBEGr9AAIA/QsDACAHIAH9AAIA/QsDECAIKAIAIQEgByANIAdBEGqthDcDOCABQQRqKAIAIQkgASgCACAHQQE2AlQgB0Gs+ccANgJQIAdBATYCTCAHQQE2AkQgB0Gg+McANgJAIAcgB0E4ajYCSCAJIAdBQGsQwQMNAQsgCCgCACIBKAIAQdz4xwBBASABKAIEKAIMEQAADQAgA0EBcUUgAigCAEECRnINAiAHIAQ2AlwCQCAILQAQQQFGBEAgCCgCACEBIAdCgICAgKABNwNIIAdCoPjHgKABNwNAIAFBBGooAgAhAyABKAIAIAdBATYCJCAHQaj4xwA2AiAgB0ECNgIcIAdBATYCFCAHQaD4xwA2AhAgByAHQUBrNgIYIAMgB0EQahDBAw0BCyAIKAIAIgEoAgBBwPjHAEEQIAFBBGooAgAoAgwRAAANACAIKAIEIAgoAgghAyAHQRxqIAJBCGooAgA2AgAgByAIKAIAIgQ2AhAgByACKQIANwIUIAQgB0EUaiADKAIQEQAADQAgCCgCACEBIAdCgICAgBAiDSAHQdwAaq2ENwNAIAFBBGooAgAhAiABKAIAIAdCATcCHCAHQQE2AhQgB0HU+McANgIQIAcgB0FAayIDNgIYIAIgB0EQahDBAw0AIAVBAXFFDQIgByAGNgI4IAgoAgAhASAHIA0gB0E4aq2ENwNAIAFBBGooAgAhAiABKAIAIAdCATcCHCAHQQE2AhQgB0HU+McANgIQIAcgAzYCGCACIAdBEGoQwQNFDQILQQEMAwtBAQwCC0EBIAgoAgAiAigCAEHc+McAQQEgAkEEaigCACgCDBEAAA0BGgsgACALQQFqNgIEQQALIAdB4ABqJAAL7gsCCH8FewJAAkACQCACIANPBEAgA0UNAiABIANqIQUgA0EPTQRAA0AgASAFTw0EIAVBAWsiBS0AAEEKRw0ADAMLAAsgBUEQayIE/QAAAP0MCgoKCgoKCgoKCgoKCgoKCiIM/SP9ZCIGBEAgBCAGZ0Efc2ohBQwCCwJAAkACQAJAAkAgA0HAAEkgAyAFQQ9xayIFQcAASXINAANAIAEgBWoiBEEwayIG/QAEACAM/SMiDSAEQUBqIgj9AAQAIAz9IyIO/VAgBEEgayIH/QAEACAM/SMiD/1QIARBEGsiBP0ABAAgDP0jIhD9UP1kRQRAIAVBQGoiBUFAa0GAAU8NAQwCCwsgEP1kIgUNAyAP/WQiBA0EIA39ZCIEDQEgCCAO/WRna0EfaiEFDAYLA0AgBUEPTARAQQAhByAFQQBKDQNBACEEDAkLIAEgBUEQayIFaiIE/QAAACAM/SP9ZCIGRQ0ACyAEIAZnQR9zaiEFDAULIAYgBGdBH3NqIQUMBAtBACEEIAH9AAAAIAz9I/1kIgVFDQUgASAFZ2tBH2ohBQwDCyAEIAVnQR9zaiEFDAILIAcgBGdBH3NqIQUMAQtBACADIAJB6JzGABDqBwALIAUgAWsiCUEBaiEHIAIgCUsEQCABIAdqIgogAU0EQEEAIQQMAwsgCUEOTQRAQQAhBAJAIAlBA0kEQCABIQUMAQsgASAHQRxxIgJqIQX9DAAAAAAAAAAAAAAAAAAAAAAhDCACIQQDQCAMIAH9XAAA/QwKCgoKCgoKCgoKCgoKCgoK/SMgDP0NAAAAAAEAAAACAAAAAwAAAP0MAQAAAAEAAAABAAAAAQAAAP1O/a4BIQwgAUEEaiEBIARBBGsiBA0ACyAMIAwgDP0NCAkKCwwNDg8AAQIDAAECA/2uASIMIAwgDP0NBAUGBwABAgMAAQIDAAECA/2uAf0bACEEIAIgB0YNBAsDQCAEIAUtAABBCkZqIQQgBUEBaiIFIApHDQALDAMLQQAhAgJAAkAgAUFwcUEQaiIEIAFBAWoiBiAEIAZLGyABayILQQRJBEAgASEGDAELIAEgC0F8cSIIaiEG/QwAAAAAAAAAAAAAAAAAAAAAIQwgCCECA0AgDCAB/VwAAP0MCgoKCgoKCgoKCgoKCgoKCv0jIAz9DQAAAAABAAAAAgAAAAMAAAD9DAEAAAABAAAAAQAAAAEAAAD9Tv2uASEMIAFBBGohASACQQRrIgINAAsgDCAMIAz9DQgJCgsMDQ4PAAECAwABAgP9rgEiDCAMIAz9DQQFBgcAAQIDAAECAwABAgP9rgH9GwAhAiAIIAtGDQELA0AgAiAGLQAAQQpGaiECIAZBAWoiBiAESQ0ACwsCQCAJQT9JDQAgBCAKQUBqIgFLDQADQCAE/QAEAP0MCgoKCgoKCgoKCgoKCgoKCiIM/SP9ZGkgAmogBEEQav0ABAAgDP0j/WRpaiAEQSBq/QAEACAM/SP9ZGlqIARBMGr9AAQAIAz9I/1kaWohAiAEQUBrIgQgAU0NAAsLIApBEGsiASAETwRAA0AgBP0AAAD9DAoKCgoKCgoKCgoKCgoKCgr9I/1kaSACaiECIARBEGoiBCABTQ0ACwtBACEGAkAgBCAKTw0AAkAgBSAEa0EBaiIJQQRJBEAgBCEBDAELIAQgCUF8cSIIaiEB/QwAAAAAAAAAAAAAAAAAAAAAIQwgCCEFA0AgDCAE/VwAAP0MCgoKCgoKCgoKCgoKCgoKCv0jIAz9DQAAAAABAAAAAgAAAAMAAAD9DAEAAAABAAAAAQAAAAEAAAD9Tv2uASEMIARBBGohBCAFQQRrIgUNAAsgDCAMIAz9DQgJCgsMDQ4PAAECAwABAgP9rgEiDCAMIAz9DQQFBgcAAQIDAAECAwABAgP9rgH9GwAhBiAIIAlGDQELA0AgBiABLQAAQQpGaiEGIAFBAWoiASAKRw0ACwsgAiAGaiEEDAILQQAgByACQdicxgAQ6gcACwsgACADIAdrNgIEIAAgBEEBajYCAAvFCQIJfwV9QwAAgD8hDgJ/AkAgASgCACIHIAJBBGooAgAiBEEIaigCACIFSQRAIAFBBGsiCSgCACEBIARBBGooAgAiCCAHQSRsaiIEEIoEIQwgBC8BFCIDQf//AXFFBEAgA0EQdAwDCyADQf8HcSEEIANBgIACcSEGIANBgPgBcSIDQYD4AUYEQCAGQRB0IQMgA0GAgID8B3IgBEUNAxogAyAEQQ10ckGAgID+B3IMAwsgBkEQdCEGIANFDQEgA0ENdEGAgID8AHEgBEENdHJBgICAwANqIAZyDAILIAcgBUHUwMcAEIwHAAsgBkGAgIDYA3IgBGdBEGsiA0EXdGsgBCADQf//A3FBCGp0Qf///wNxcgu+Ig1DAACAP14EQCANEMYFQ1T4LUCUQwAAgD+SkSEOC0MAAIA/IQ0CfwJAIAEgBUkEQCAIIAFBJGxqIgQQigQhDyAELwEUIgNB//8BcUUEQCADQRB0DAMLIANB/wdxIQQgA0GAgAJxIQUgA0GA+AFxIgNBgPgBRgRAIAVBEHQhAyADQYCAgPwHciAERQ0DGiADIARBDXRyQYCAgP4HcgwDCyAFQRB0IQUgA0UNASADQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogBXIMAgsgASAFQdTAxwAQjAcACyAFQYCAgNgDciAEZ0EQayIDQRd0ayAEIANB//8DcUEIanRB////A3FyC74iEEMAAIA/XgRAIBAQxgVDVPgtQJRDAACAP5KRIQ0LIAwgDJIgDpQiDCAMXCAMIA8gD5IgDZRgckUEQCACQQRqIQggB0EkbCEKA0ACQCAJIgJBBGogATYCACAAIAJGDQBDAACAPyEOAn8CQCAIKAIAIgRBCGooAgAiBSAHSwRAIAJBBGsiCSgCACEBIARBBGooAgAiCyAKaiIEEIoEIQwgBC8BFCIDQf//AXFFBEAgA0EQdAwDCyADQf8HcSEEIANBgIACcSEGIANBgPgBcSIDQYD4AUYEQCAGQRB0IQMgA0GAgID8B3IgBEUNAxogAyAEQQ10ckGAgID+B3IMAwsgBkEQdCEGIANFDQEgA0ENdEGAgID8AHEgBEENdHJBgICAwANqIAZyDAILIAcgBUHUwMcAEIwHAAsgBkGAgIDYA3IgBGdBEGsiA0EXdGsgBCADQf//A3FBCGp0Qf///wNxcgu+Ig1DAACAP14EQCANEMYFQ1T4LUCUQwAAgD+SkSEOC0MAAIA/IQ0CfwJAIAEgBUkEQCALIAFBJGxqIgQQigQhDyAELwEUIgNB//8BcUUEQCADQRB0DAMLIANB/wdxIQQgA0GAgAJxIQUgA0GA+AFxIgNBgPgBRgRAIAVBEHQhAyADQYCAgPwHciAERQ0DGiADIARBDXRyQYCAgP4HcgwDCyAFQRB0IQUgA0UNASADQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogBXIMAgsgASAFQdTAxwAQjAcACyAFQYCAgNgDciAEZ0EQayIDQRd0ayAEIANB//8DcUEIanRB////A3FyC74iEEMAAIA/XgRAIBAQxgVDVPgtQJRDAACAP5KRIQ0LIAwgDJIgDpQiDCAMXA0AIAwgDyAPkiANlGBFDQELCyACIAc2AgALC/YIAg9/AX0jAEEgayIIJAACQAJAAkACQAJAAkAgAC0AuAFBAUcNACAAKAKsASAAKAKwASIFQQJ0IAAoArQBIgYgBWpBAnQQ4QghBSAGQQJ0IgYgACgCZCIHSw0BIAAoAmAhByAIIAUQuAoiCTYCACAIIAY2AgQgBiAJRw0FIAUgByAGEOAJIAVBhAhJDQAgBRCbBwsgAEIANwKwASAAQbgBakEAOgAAAkACQAJAAkACQAJAAkACQAJAAkAgACgCAEUNACAAKAIEIAFBAXQgASACakEBdBDhCCEJAkAgAkECdCIHIAAoAmQiBk0EQCAAIAc2AmQgAkEBdCEFIAAoAmAhAQwBCyAHIAYiBWsiCiAAKAJcIAVrSwRAIABB3ABqIAUgCkEEQQQQpAUgACgCZCEFCyAAKAJgIgEgBUECdCIMaiELIApBAk8EQCAHIAZBf3NqQQJ0IgcEQCALQQAgB/wLAAsgAkEEdCAGQQJ0ayABaiAMakEEayELIAUgCmpBAWshBQsgC0EANgIAIAAgBUEBaiIHNgJkIAJBAXQiBSAHSw0MCyAIIAkQuAoiBjYCACAIIAU2AgQgBSAGRw0OIAEgBSAJEOEJIAJBCWwhCiAEQQluQQlsIQsgBEEBa0EJbkEJbEEJaiEMIARBAmtBCW5BCWxBCWohDSAEQQNrQQluQQlsQQlqIQ4gBEEEa0EJbkEJbEEJaiEPIARBBWtBCW5BCWxBCWohECAEQQZrQQluQQlsQQlqIREgBEEHa0EJbkEJbEEJaiESIARBCGtBCW5BCWxBCWohE0MAAHxCIAAqApABlSEUQQAhBUEAIQADQCAFIAdPDQ0gBUEBaiICIAdPDQ4gACAMRg0KIAFBBGooAgAhAiADIAEoAgAiBkEZdEEZdbIgFJU4AgAgACANRg0JIANBBGogBkESdEEZdbIgFJU4AgAgACAORg0IIANBCGogBkELdEEZdbIgFJU4AgAgACAPRg0HIANBDGogBkEEdEEZdbIgFJU4AgAgACAQRg0GIANBEGogAkEddCAGQQN2ckEZdbIgFJU4AgAgACARRg0FIANBFGogAkEWdEEZdbIgFJU4AgAgACASRg0EIANBGGogAkEPdEEZdbIgFJU4AgAgACATRg0DIANBHGogAkEIdEEZdbIgFJU4AgAgACALRg0CIANBIGogAkEBdEEZdbIgFJU4AgAgAUEIaiEBIAVBAmohBSADQSRqIQMgCiAAQQlqIgBHDQALIAlBhAhJDQAgCRCbBwsgCEEgaiQADwsgAEEIaiEADAcLIABBB2ohAAwGCyAAQQZqIQAMBQsgAEEFaiEADAQLIABBBGohAAwDCyAAQQNqIQAMAgsgAEECaiEADAELIABBAWohAAsgACAEQbzTwAAQjAcAC0EAIAYgB0H868AAEOoHAAtBACAFIAdBzNPAABDqBwALIAUgB0Gc08AAEIwHAAsgAiAHQazTwAAQjAcACyAIQQA2AghBACAIIAhBBGogCEEIakHg+cQAEPUHAAvbCQIGfwR+IwBBwAFrIgIkAAJAAkACQCAAKQMAQgJSBEAgACgCqAEhASAAQQA2AqgBAkACQAJAAkAgAUEBaw4CAQIACyACQQhqIQMCQAJAQSUQcSIBRQ0AIAFBHWpBnZ3HACkAADcAACABQRBqQZCdxwD9AAAA/QsAACABQYCdxwD9AAAA/QsAAEEMEHEiBEUNACAEQSU2AgggBCABNgIEIARBJTYCAEEMEHEiAUUNACABQSg6AAggAUHsisEANgIEIAEgBDYCACADQQA2AhAgAyABrUIghkIDhDcDAAwBCwALDAILIAJBGGogAEHAAWopAwA3AwAgAiAA/QADsAH9CwMIDAELIAAoAqwBIgFBQGshAyABKAIkIQQgASgCICEFAkAgASkDGCIHQgJSBEAgASkDOCEIIAJBMGogAUEQaikDADcDACACQegAaiADQQhq/QADAP0LAwAgAkGoAWogAUGIAWr9AAMA/QsDACACQZgBaiABQfgAav0AAwD9CwMAIAJBuAFqIAFBmAFqKQMANwMAIAIgAf0AAwD9CwMgIAIgAf0AAyj9CwNIIAIgAykDADcDYCACIAH9AANY/QsDeCACIAH9AANo/QsDiAEgAkEYaiACQdAAaikDADcDACACIAQ2AkQgAiAFNgJAIAIgBzcDOCACIAg3A1ggAiAC/QADQP0LAwggAigCJCEEIAIoAiAhBSACQfgAahCEBQwBCyACQRhqIANBEGopAwA3AwAgAiAD/QADAP0LAwgLIAQEQCAFQQRrKAIAIgNBeHEiBkEEQQggA0EDcSIDGyAEakkNBCADQQAgBiAEQSdqSxsNBSAFEKICCyABQQRrKAIAIgRBeHFBvAFBwAEgBEEDcSIDG0kNAyADQQAgBEHgAU8bDQQgARCiAgsCQCACKAIYIgEEQCACKQMQIghQDQEgASkDCCEHIAEoAgQiBK0hCQNAAkAgByAEIAcgCSAHIAlUG6ciA2siBUKAwAAgCCAIQoDAAFobpyIGIAUgBkkbrSIKfCEHIAMgBEYNACAIIAp9IghCAFINAQsLIAEgBzcDCCAAEOoDDAMLIAItAAhBA0cNACACKAIMIgEoAgAhBCABQQRqKAIAIgMoAgAiBQRAIAQgBREDAAsgAygCBCIDBEAgBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQQgBUEAIAYgA0EnaksbDQUgBBCiAgsgAUEEaygCACIEQXhxIgNBEEEUIARBA3EiBBtJDQMgBEEAIANBNE8bDQQgARCiAgsgABDqAwwBCyAAKAKoAUECSQ0AAkAgACgCrAEiACkDGEICUQRAIAAoAiQiAUUNASAAKAIgIgRBBGsoAgAiA0F4cSIFQQRBCCADQQNxIgMbIAFqSQ0DIANBACAFIAFBJ2pLGw0EIAQQogIMAQsgACgCBCIBBEAgACgCACIEQQRrKAIAIgNBeHEiBUEEQQggA0EDcSIDGyABakkNAyADQQAgBSABQSdqSxsNBCAEEKICCyAAQdgAahCEBQsgAEEEaygCACIBQXhxQbwBQcABIAFBA3EiBBtJDQEgBEEAIAFB4AFPGw0CIAAQogILIAJBwAFqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvrCAIOfwF9IwBBEGsiBiQAAkACQCADQQNsIgdB/////wNLDQAgA0EMbCIEQf3///8HTw0AAkAgBEUEQEEEIQpBACEHDAELIAQQcSIKRQ0CCyAGQQA2AgwgBiAKNgIIIAYgBzYCBAJ/AkACQAJAAkACQCADBEAgASADQQF0Ig5qIQ8gASADQQJ0IhBqIRFBACEHIAMhDUEIIQsDQCACIAdNBEAgByEEDAQLIAdBAWogAk8NBCAGKAIEIQwCfyABIAdqIgRBAWotAABBCHQiCCAELQAAciIEQf//AXEEQCAEQf8HcSEEIAhBgIACcSEFIAhBgPgBcSIIQYD4AUcEQCAFQRB0IgUgCEENdEGAgID8AHEgBEENdHJBgICAwANqciAIDQIaIAVBgICA2ANyIARnQRBrIghBF3RrIAQgCEH//wNxQQhqdEH///8DcXIMAgsgBUEQdCIIIARBDXRyQYCAgP4HciAEDQEaIAhBgICA/AdyDAELIARBEHQLvhCJBCESIAkgDEYEQCAGQQRqQfzoxwAQ+gUgBigCCCEKCyAKIAtqQQhrIBI4AgAgBiAJQQFqIgg2AgwgByAOaiIEIAJPDQMgBEEBaiACTw0FIAYoAgQhDAJ/IAcgD2oiBEEBai0AAEEIdCIFIAQtAAByIgRB//8BcQRAIARB/wdxIQQgBUGAgAJxIQkgBUGA+AFxIgVBgPgBRwRAIAlBEHQiCSAFQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2pyIAUNAhogCUGAgIDYA3IgBGdBEGsiBUEXdGsgBCAFQf//A3FBCGp0Qf///wNxcgwCCyAJQRB0IgUgBEENdHJBgICA/gdyIAQNARogBUGAgID8B3IMAQsgBEEQdAu+EIkEIRIgCCAMRgRAIAZBBGpB/OjHABD6BSAGKAIIIQoLIAogC2pBBGsgEjgCACAGIAhBAWoiCDYCDCAHIBBqIgQgAk8NAiAEQQFqIAJPDQYgBigCBCEMAn8gByARaiIEQQFqLQAAQQh0IgUgBC0AAHIiBEH//wFxBEAgBEH/B3EhBCAFQYCAAnEhCSAFQYD4AXEiBUGA+AFHBEAgCUEQdCIJIAVBDXRBgICA/ABxIARBDXRyQYCAgMADanIgBQ0CGiAJQYCAgNgDciAEZ0EQayIFQRd0ayAEIAVB//8DcUEIanRB////A3FyDAILIAlBEHQiBSAEQQ10ckGAgID+B3IgBA0BGiAFQYCAgPwHcgwBCyAEQRB0C74QiQQhEiAIIAxGBEAgBkEEakH86McAEPoFIAYoAgghCgsgCiALaiASOAIAIAYgCEEBaiIJNgIMIAdBAmohByALQQxqIQsgDUEBayINDQALCyAAIAYpAgQ3AgAgAEEIaiAGQQxqKAIANgIAIAZBEGokAA8LIANBAnQgB2ohBAsgBCACQdzoxwAQjAcACyAHQQFqDAILIARBAWoMAQsgA0ECdCAHakEBagsgAkHs6McAEIwHAAtBzOjHABD/BwsAC/YIARN/IwBBEGsiByQAAkACQCADQQNsIgxB/////wNLDQAgA0EMbCIEQf3///8HTw0AAkAgBEUEQEEEIQoMAQsgDCELIAQQcSIKRQ0CCyAHQQA2AgwgByAKNgIIIAcgCzYCBAJAAkACQAJAAkAgAwRAIAIgA2siBEEAIAIgBE8bIQ0gAiAMayIEQQAgAiAETxshDiABIANqIQ8gASAMaiEQIAEgA0ECdCIRaiESIAEgA0EFbCITaiEUIAEgA0EBdCIVaiEWQQghCwNAIAIgBkYEQCAGIQQMBwsgBiAORg0FAn8gBiAQai0AAEEIdCIFIAEgBmotAAByIgRB//8BcQRAIARB/wdxIQQgBUGAgAJxIQggBUGA+AFxIgVBgPgBRwRAIAhBEHQhCCAFQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogCHIgBQ0CGiAIQYCAgNgDciAEZ0EQayIFQRd0ayAEIAVB//8DcUEIanRB////A3FyDAILIAhBEHQhBSAEQQ10IAVyQYCAgP4HciAEDQEaIAVBgICA/AdyDAELIARBEHQLIQQgBygCBCAJRgRAIAdBBGpBvOrHABD6BSAHKAIIIQoLIAogC2pBCGsgBDYCACAHIAlBAWoiCTYCDCAGIA1GDQMgBiARaiACTw0CAn8gBiASai0AAEEIdCIFIAYgD2otAAByIgRB//8BcQRAIARB/wdxIQQgBUGAgAJxIQggBUGA+AFxIgVBgPgBRwRAIAhBEHQhCCAFQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogCHIgBQ0CGiAIQYCAgNgDciAEZ0EQayIFQRd0ayAEIAVB//8DcUEIanRB////A3FyDAILIAhBEHQhBSAEQQ10IAVyQYCAgP4HciAEDQEaIAVBgICA/AdyDAELIARBEHQLIQQgBygCBCAJRgRAIAdBBGpBvOrHABD6BSAHKAIIIQoLIAogC2pBBGsgBDYCACAHIAlBAWoiCTYCDCAGIBVqIgQgAk8NBiAGIBNqIAJPDQQCfyAGIBRqLQAAQQh0IgUgBiAWai0AAHIiBEH//wFxBEAgBEH/B3EhBCAFQYCAAnEhCCAFQYD4AXEiBUGA+AFHBEAgCEEQdCEIIAVBDXRBgICA/ABxIARBDXRyQYCAgMADaiAIciAFDQIaIAhBgICA2ANyIARnQRBrIgVBF3RrIAQgBUH//wNxQQhqdEH///8DcXIMAgsgCEEQdCEFIARBDXQgBXJBgICA/gdyIAQNARogBUGAgID8B3IMAQsgBEEQdAshBCAHKAIEIAlGBEAgB0EEakG86scAEPoFIAcoAgghCgsgCiALaiAENgIAIAcgCUEBaiIJNgIMIAtBDGohCyADIAZBAWoiBkcNAAsLIAAgBykCBDcCACAAQQhqIAdBDGooAgA2AgAgB0EQaiQADwsgA0ECdCAGaiEEDAMLIAMgBmohBAwCCyADQQVsIAZqIQQMAQsgBiAMaiEECyAEIAJBzOrHABCMBwALQazqxwAQ/wcLAAuYCQINfwF+IwBB8ABrIgIkAEEIIQQgASgCBCEFIAFBBEEkIAEoAiQiA0EISyIGG2pBADYCACACQRhqIAFBCGr9AAIA/QsDACACQShqIAFBGGr9AAIA/QsDACACQQA2AjggAiAFIAMgBhsiCDYCPCACIAEpAgA3AxAgAEEkaiELAkACQAJAAkACQAJAIAggACgCJCIBQQggAUEISyIGGyAAKAIEIAEgBhsiBmtLBEACQAJAIAYgCGoiASAGSQ0AQX8gAUEBa2d2QQAgAUECTxsiAUF/Rg0AIAJBCGogACABQQFqEOgDIAIoAggiAUGBgICAeEYNASABDQMLQdiVxwBBEUHUzMcAEOsHAAsgCygCACEBCyAAQQRqIgYhDCALIQkgAUEJTwRAIAAoAgghDCAGIQkgASEECwJAAkACQAJAIAQgCSgCACIFTQRAIAUhBAwBCyACKAIYIQogAigCNCIOQQhNBEAgAkEQakEEciEDIAUgBGshDSAMIAVBAnRqIQdBACEBA0AgASAIRg0DIAIgAUEBaiIBNgI4IAcgAygCADYCACADQQRqIQMgB0EEaiEHIAEgDWoNAAsMAQsgCEUNA0EAIQECQCAEQQFrIg0gBWsiBCAIQQFrIgMgAyAESxsiBEEESQ0AIAVBAnQgDGoiAyAKa0EQSQ0AIAohByAEQQFqIgEgAUEDcSIBQQQgARtrIgEhBANAIAMgB/0AAgD9CwIAIAdBEGohByADQRBqIQMgBEEEayIEDQALIAEgBWohBQsgDCAFQQJ0aiEDIAogAUECdGohBwNAAkAgAyAHKAIANgIAIAVBAWohBCABQQFqIQEgBSANRg0AIANBBGohAyAHQQRqIQcgBCEFIAEgCEcNAQwECwsgAiABNgI4CyAJIAQ2AgAgAkHoAGogAkE4aikDACIPNwMAIAJB4ABqIAJBMGopAwA3AwAgAkHQAGogAkEgav0AAwD9CwMAIAIgAv0AAxD9CwNAIA+nIgEgAigCbEcEQCACQUBrQQRyIQQDQCACIAFBAWo2AmggBCEDIAIoAmRBCU8EfyACKAJIBSADCyABQQJ0aigCACEJAn8gCygCACIHQQlJBEAgByEBIAYhBUEIIQcgCwwBCyAAKAIEIQEgACgCCCEFIAYLIQMgASAHRgR/IAAQzQYgACgCCCEFIAYhAyAAKAIEBSABC0ECdCAFaiAJNgIAIAMgAygCAEEBajYCACACKAJoIgEgAigCbEcNAAsLIAIoAmQiAUEJSQ0IIAIoAkgiA0EEaygCACIAQXhxIgYgAUECdCIBQQRBCCAAQQNxIgAbakkNBCAAQQAgBiABQSdqSxsNBSADEKICDAgLIAEgBWohBAsgCSAENgIAIA5BCUkNBgsgCkEEaygCACIAQXhxIgYgDkECdCIBQQRBCCAAQQNxIgAbakkNAyAAQQAgBiABQSdqSxsNBCAKEKICDAULAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyACQfAAaiQAC6YNAwZ/BHsCfSABKgIAIRMgACoCACESAkACQAJAAkACQAJAAkACQEGACBBxIg1FDQAgEyASk/0TIQ8gEv0TIRD9DAAAAAABAAAAAgAAAAMAAAAhDgNAIAggDWoiCiAQIA8gDv37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgCkEQaiAQIA8gDv0MBAAAAAQAAAAEAAAABAAAAP2uAf37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgDv0MCAAAAAgAAAAIAAAACAAAAP2uASEOIAhBIGoiCEGACEcNAAsgASoCBCAAKgIEIRJBgAgQcSIKRQ0AIBKT/RMhDyAS/RMhEP0MAAAAAAEAAAACAAAAAwAAACEOQQAhCANAIAggCmoiCyAQIA8gDv37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgC0EQaiAQIA8gDv0MBAAAAAQAAAAEAAAABAAAAP2uAf37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgDv0MCAAAAAgAAAAIAAAACAAAAP2uASEOIAhBIGoiCEGACEcNAAsgASoCCCAAKgIIIRJBgAgQcSILRQ0AIBKT/RMhDyAS/RMhEP0MAAAAAAEAAAACAAAAAwAAACEOQQAhCANAIAggC2oiDCAQIA8gDv37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgDEEQaiAQIA8gDv0MBAAAAAQAAAAEAAAABAAAAP2uAf37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgDv0MCAAAAAgAAAAIAAAACAAAAP2uASEOIAhBIGoiCEGACEcNAAsgASoCDCAAKgIMIRJBgAgQcSIBRQ0AIBKT/RMhECAS/RMhEf0MAAAAAAEAAAACAAAAAwAAACEOQQAhCANAIAEgCGr9DAAAgD8AAIA/AACAPwAAgD/9DAAAgD8AAIA/AACAPwAAgD8gESAQIA79+wH9DAAAf0MAAH9DAAB/QwAAf0P95wH95gH95AH94QEiD/0fABCJBP0TIA/9HwEQiQT9IAEgD/0fAhCJBP0gAiAP/R8DEIkE/SAD/eQB/ecB/QsCACAO/QwEAAAABAAAAAQAAAAEAAAA/a4BIQ4gCEEQaiIIQYAIRw0ACyAHRQ0HQQAhAEEAIQgDQCADIAhNBEAgCCADQZDwxwAQjAcACyAAIAVPDQIgBCANIAIgCGoiDC0AAEECdGoqAgA4AgAgCEEBaiIJIANPDQMgAEEBaiIJIAVPDQQgBEEEaiAKIAxBAWotAABBAnRqKgIAOAIAIAhBAmoiCSADTw0FIABBAmoiCSAFTw0GIARBCGogCyAMQQJqLQAAQQJ0aioCADgCACAIQQNqIgkgA08NByAGIAhqIAEgDEEDai0AAEECdGoqAgA4AgAgBEEMaiEEIABBA2ohACAIQQRqIQggB0EBayIHDQALDAcLAAsgACAFQaDwxwAQjAcACyAJIANBsPDHABCMBwALIAkgBUHA8McAEIwHAAsgCSADQdDwxwAQjAcACyAJIAVB4PDHABCMBwALIAkgA0Hw8McAEIwHAAsCQCABQQRrKAIAIgBBeHFBhAhBiAggAEEDcSICG08EQAJAIAJBACAAQagITxsNAiABEKICIAtBBGsoAgAiAEF4cUGECEGICCAAQQNxIgEbSQ0AIAFBACAAQagITxsNAiALEKICIApBBGsoAgAiAEF4cUGECEGICCAAQQNxIgEbSQ0AIAFBACAAQagITxsNAiAKEKICIA1BBGsoAgAiAEF4cUGECEGICCAAQQNxIgEbSQ0AIAFBACAAQagITxsNAiANEKICDwsLQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC7kJAgh/AX4jAEFAaiIFJAACQCAAAn8CQAJAAkAgASgCFCIEIAEoAhAiAkkEQCABKAIMIQkCfgJAA0AgBCAJai0AACIIQQlrIgNBF0tBASADdEGTgIAEcUVyDQEgASAEQQFqIgQ2AhQgAiAERw0ACyACIQRCAAwBC0KAAgsgCK1CEIaEQoCCuANRDQELIAVBEGogASgCDCIGIAIgAiAESwR/A0AgBCAGai0AACIIQQlrIgNBF0tBASADdEGTgIAEcUVyDQMgASAEQQFqIgQ2AhQgAiAERw0ACyACBSAEC0EBaiIBIAIgASACSRsQ+QEgBSgCFCEDIAUoAhAhAUEUEHEiAkUNBCACIAE2AgwgAkEFNgIAIAIgAzYCECAAIAI2AgQMAgsgASAEQQFqIgY2AhQCQAJAAkAgAiAGTQ0AIAEgBEECaiIDNgIUIAYgCWotAABB9QBHDQEgAyAGIAIgAiAGSRsiBkYNACABIARBA2oiCDYCFCADIAlqLQAAQewARwRAIAghAwwCCyAGIAhGDQAgASAEQQRqIgM2AhQgCCAJai0AAEHsAEcNASAAQQI6AAFBAAwFCyAFIAkgAiAGEPkBIAUoAgQhBiAFKAIAIQFBFBBxIgRFDQUgBEEFNgIADAELIAVBCGogCSACIAMQ+QEgBSgCDCEGIAUoAgghAUEUEHEiBEUNBCAEQQk2AgALIAQgATYCDCAAIAQ2AgQgBCAGNgIQDAELAkAgCEHmAGsiAwRAIANBDkcEQCAAIAEgBUE/akGMhsEAEO4BIAEQ6wU2AgQMAwsgASAEQQFqIgc2AhQCQCACIAdNDQAgASAEQQJqIgM2AhQgBiAHai0AAEHyAEcNAiADIAcgAiACIAdJGyIHRg0AIAEgBEEDaiIINgIUIAMgBmotAABB9QBHBEAgCCEDDAMLIAcgCEYNACABIARBBGoiAzYCFCAGIAhqLQAAQeUARw0CIABBAToAAUEADAQLIAVBGGogBiACIAcQ+QEgBSgCHCEDIAUoAhghAUEUEHEiAkUNBCACIAE2AgwgAkEFNgIAIAIgAzYCECAAIAI2AgQMAgsgASAEQQFqIgc2AhQCQAJAIAIgB00NACABIARBAmoiAzYCFCAGIAdqLQAAQeEARw0BIAMgByACIAIgB0kbIgdGDQAgASAEQQNqIgk2AhQgAyAGai0AAEHsAEcEQCAJIQMMAgsgByAJRg0AIAEgBEEEaiIINgIUIAYgCWotAABB8wBHBEAgCCEDDAILIAcgCEYNACABIARBBWoiAzYCFCAGIAhqLQAAQeUARw0BIABBADoAAUEADAQLIAVBKGogBiACIAcQ+QEgBSgCLCEDIAUoAighAUEUEHEiAkUNBCACIAE2AgwgAkEFNgIAIAIgAzYCECAAIAI2AgQMAgsgBUEwaiAGIAIgAxD5ASAFKAI0IQMgBSgCMCEBQRQQcSICRQ0DIAIgATYCDCACQQk2AgAgAiADNgIQIAAgAjYCBAwBCyAFQSBqIAYgAiADEPkBIAUoAiQhAyAFKAIgIQFBFBBxIgJFDQIgAiABNgIMIAJBCTYCACACIAM2AhAgACACNgIEC0EBCzoAACAFQUBrJAAPCwALvRMBCX8jAEEgayIHJAACQAJAAkADQAJAIAEoAgghAyABEM8FAkACQCABKAIIIgQgASgCBCIGRwRAIAQgBk8NASABKAIAIgggBGotAAAiBUHcAEcEQCAFQSJHBEAgASAEQQFqNgIIIAdBEDYCFCAAIAEgB0EUahDyBgwJCwJAAkACQCACKAIIIgUEQCADIARLDQIgBCADayIGIAIoAgAgBWtLBEAgAiAFIAYQ+AUgAigCCCEFCyACKAIEIQkgBgRAIAUgCWogAyAIaiAG/AoAAAsgASAEQQFqNgIIIAIgBSAGaiICNgIIIAdBCGogCSACEPsCIAcoAggNASAHKAIQIQMgBygCDCEBDAsLAkAgAyAETQRAIAEgBEEBajYCCCAHQQhqIAMgCGogBCADaxD7AiAHKAIIRQRAIAcoAhAhAyAHKAIMIQEMDAsgB0EPNgIUIAcgASAHQRRqEPUGIAcoAgAiAUUNASAHKAIEIQMMCwsgAyAEIAZBqJzGABDqBwALIAAgBygCBDYCBCAAQQI2AgAMCwsgB0EPNgIUIAcgASAHQRRqEPUGIAcoAgAiAUUNASAHKAIEIQMMCQsgAyAEIAZBuJzGABDqBwALIAAgBygCBDYCBCAAQQI2AgAMCAsCQCADIARNBEAgBCADayIJIAIoAgAgAigCCCIKa0sEQCACIAogCRD4BSACKAIIIQoLIAIoAgQhBSAJBEAgBSAKaiADIAhqIAn8CgAACyABIARBAWoiCzYCCCACIAkgCmoiAzYCCAJAAkACQAJAAkACQAJAAkACQAJAAn8gBiALSwRAIAEgBEECajYCCCAIIAtqLQAADAELIAdBBDYCFCAHQQhqIAEgB0EUahDzBiAHLQAIDQwgBy0ACQtB/wFxQSJrDlQCAAAAAAAAAAAAAAAABAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAwAAAAAABQAAAAYAAAAAAAAABwAAAAgACQEACyAHQQw2AhQgASAHQRRqEIsHIQMMDgsjAEEgayIEJAACQAJAAkAgASgCBCIDIAEoAggiBk8EQAJAIAMgBmtBA00EQCABIAM2AgggBEEENgIUIARBDGogASAEQRRqEPQGIAMhBQwBCyABIAZBBGoiBTYCCCABKAIAIAZqIgYtAAFBAXQvAYiURiAGLQAAQQF0LwGImEZywUEIdCAGLQACQQF0LgGImEZyIAYtAANBAXQuAYiURnIiBkEATgRAIARBADsBDCAEIAY7AQ4MAQsgBEEMNgIUIARBDGogASAEQRRqEPQGCyAELwEMQQFGBEAgBCgCECEDDAQLIAQvAQ4iBkGA+ANxQYC4A0YNASAGQYDIAGpB//8DcUGA+ANPBEAgASgCACEJAn8gAyAFSwRAIAUgCWotAAAMAQsgBEEENgIUIARBDGogASAEQRRqEPMGIAQtAAxBAUYEQCAEKAIQIQMMBgsgBC0ADQsgASAFQQFqIgg2AghB3ABGBEACfyADIAhLBEAgCCAJai0AAAwBCyAEQQQ2AhQgBEEMaiABIARBFGoQ8wYgBC0ADEEBRgRAIAQoAhAhAwwHCyAELQANCyAFQQJqIQhB9QBGBEAgAyAISQ0FAkAgAyAIa0EDTQRAIAEgAzYCCCAEQQQ2AhQgBEEMaiABIARBFGoQ9AYMAQsgASAFQQZqNgIIIAggCWoiAy0AAUEBdC8BiJRGIAMtAABBAXQvAYiYRnLBQQh0IAMtAAJBAXQuAYiYRnIgAy0AA0EBdC4BiJRGciIDQQBOBEAgBEEAOwEMIAQgAzsBDgwBCyAEQQw2AhQgBEEMaiABIARBFGoQ9AYLIAQvAQxBAUYEQCAEKAIQIQMMBwsgBC8BDiIFQYBAa0H//wNxQYD4A08EQCAFQYDIAGpB//8DcSAGQYDQAGpB//8DcUEKdHIiCEGAgARqIQYgAigCACACKAIIIgNrQQNNBEAgAiADQQQQ+AUgAigCCCEDCyACIANBBGo2AgggAigCBCADaiIDIAZBEnZB8AFyOgAAIANBA2ogBUE/cUGAAXI6AAAgAyAIQQZ2QT9xQYABcjoAAiADIAZBDHZBP3FBgAFyOgABQQAhAwwHCyAEQRQ2AhQgASAEQRRqEIsHIQMMBgsgASAINgIIIARBFzYCFCABIARBFGoQiwchAwwFCyAEQRc2AhQgASAEQRRqEIsHIQMMBAsgBkGAAU8EQCACKAIAIAIoAggiA2tBA00EQCACIANBBBD4BSACKAIIIQMLIAIoAgQgA2ohBQJ/IAZBgBBJBEAgBkEGdkFAciEIQQIMAQsgBSAGQQZ2QT9xQYABcjoAASAGQQx2QWByIQhBAwshCSAFIAg6AAAgAiADIAlqNgIIIAUgCWpBAWsgBkE/cUGAAXI6AABBACEDDAQLIAIoAggiAyACKAIARgRAIAJB+JPGABCnBgsgAiADQQFqNgIIIAIoAgQgA2ogBjoAAEEAIQMMAwsgBiADIANByKXGABDqBwALIARBFDYCFCABIARBFGoQiwchAwwBCyAIIAMgA0HIpcYAEOoHAAsgBEEgaiQAIANFDQ4MDQsgAigCACADRgRAIAJB+JLGABCnBiACKAIEIQULIAIgA0EBajYCCCADIAVqQSI6AAAMCwsgAigCACADRgRAIAJBiJPGABCnBiACKAIEIQULIAIgA0EBajYCCCADIAVqQdwAOgAADAoLIAIoAgAgA0YEQCACQZiTxgAQpwYgAigCBCEFCyACIANBAWo2AgggAyAFakEvOgAADAkLIAIoAgAgA0YEQCACQaiTxgAQpwYgAigCBCEFCyACIANBAWo2AgggAyAFakEIOgAADAgLIAIoAgAgA0YEQCACQbiTxgAQpwYgAigCBCEFCyACIANBAWo2AgggAyAFakEMOgAADAcLIAIoAgAgA0YEQCACQciTxgAQpwYgAigCBCEFCyACIANBAWo2AgggAyAFakEKOgAADAYLIAIoAgAgA0YEQCACQdiTxgAQpwYgAigCBCEFCyACIANBAWo2AgggAyAFakENOgAADAULIAIoAgAgA0YEQCACQeiTxgAQpwYgAigCBCEFCyACIANBAWo2AgggAyAFakEJOgAADAQLIAMgBCAGQcicxgAQ6gcACyAHKAIMIQMMAwsgB0EENgIUIAAgASAHQRRqEPIGDAYLIAQgBkGYnMYAEIwHAAsMAQsLIABBAjYCACAAIAM2AgQMAgsgACADNgIIIAAgATYCBCAAQQA2AgAMAQsgACADNgIIIAAgATYCBCAAQQE2AgALIAdBIGokAAvFBwEEfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAAoAgAOBQECAw0EAAsgAC0ABEEDRw0MIAAoAggiAygCACEAIANBBGooAgAiASgCACICBEAgACACEQMACyABKAIEIgEEQCAAQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNDyACQQAgBCABQSdqSxsNDiAAEKICCyADQQRrKAIAIgBBeHEiAUEQQRQgAEEDcSIAG0kNDiAARSABQTRJcg0LDA0LAkAgAC0ABEEBaw4CAAAKCyAAKAIIIgMNCAwJCwJAIAAtAARBAWsOAgAABwsgACgCCCIDDQUMBgsgACgCBCIDQQBKBEAgACgCCCIBQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyADakkNDCACQQAgBCADQSdqSxsNCyABEKICCyAAKAIQIgNFDQkgACgCFCIAKAIAIgEEQCADIAERAwALIAAoAgQiAEUNCSADQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyAAakkNCyABRQ0IIAIgAEEnaksNCgwICwJAIAAtAARBAWsOAgAAAgsgACgCCCIDDQAMAQsgACgCDCIBQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyADakkNCSACQQAgBCADQSdqSxsNCCABEKICCwJAQQMgAC0AFCIDQQRrIANBA00bQf8BcQ4EBwcHAAELIANBAWsOAgAABgsgACgCGCIBRQ0FIAAoAhwiA0EEaygCACIAQXhxIgJBBEEIIABBA3EiABsgAWpPBEAgAEUgAiABQSdqTXINBQwHCwwHCyAAKAIMIgFBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIANqSQ0GIAJBACAEIANBJ2pLGw0FIAEQogILIAAoAhQiA0UNAyAAKAIYIgAoAgAiAQRAIAMgAREDAAsgACgCBCIARQ0DIANBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIABqSQ0FIAFFIAIgAEEnak1yDQIMBAsgACgCDCIBQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyADakkNBCACQQAgBCADQSdqSxsNAyABEKICCyAAKAIUIgNFDQEgACgCGCIAKAIAIgEEQCADIAERAwALIAAoAgQiAEUNASADQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyAAakkNAyABRSACIABBJ2pNcg0ADAILIAMQogILDwtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALmgkCCH8BeyAAIAEoAgQiAjYCPCABKAIAIgUhAyAAKAIIIgcgBUkEQCAFIAciA2siBiAAKAIAIANrSwRAIAAgAyAGQQRBJBCkBSAAKAIIIQMLIAAoAgQhCSAGQQNxIgQEQCADIARqIAUgB2sgBGshBiAJIANBJGxqIQIDQCAC/QwAAAAAAAAAAAAAAAAAAAAA/QsCACACQSBqQQA7AQAgAkEQaiAK/QsCACACQSRqIQIgBEEBayIEDQALIQMLIAcgBWtBfE0EQCAJIANBJGxqIQIDQCAC/QwAAAAAAAAAAAAAAAAAAAAA/QsCACACQSBqQQA7AQAgAkEQaiAK/QsCACACQSRqIAr9CwIAIAJBNGogCv0LAgAgAkHEAGpBADsBACACQcgAaiAK/QsCACACQdgAaiAK/QsCACACQegAakEAOwEAIAJB7ABqIAr9CwIAIAJB/ABqIAr9CwIAIAJBjAFqQQA7AQAgAkGQAWohAiADQQRqIQMgBkEEayIGDQALCyAAKAI8IQILIABBADYCICAAIAM2AggCQAJ/AkACQCACRQRAIABBADYCLAwBCyAFBEBBACEEIAAoAhggBUkEQCAAQRhqQQAgBUECQRIQpAUgACgCICEEIAAoAjwhAgsgBUESbCIDBEAgACgCHCAEQRJsakEAIAP8CwALIABBADYCLCAAIAQgBWo2AiAgAkEBTQ0BQQAhBCAAKAIkIAVJBEAgAEEkakEAIAVBAkEeEKQFIAAoAiwhBCAAKAI8IQILIAVBHmwiAwRAIAAoAiggBEEebGpBACAD/AsACyAAQQA2AjggACAEIAVqNgIsIAJBAk0NBEEAIQQgACgCMCAFSQRAIABBMGpBACAFQQJBKhCkBSAAKAI4IQQLIAVBKmwiAwRAIAAoAjQgBEEqbGpBACAD/AsACyAEIAVqIQQgAEE4agwDC0EAIQQgAEEANgIsIAJBAUcNAQsgAEEANgI4DAILIABBADYCOCACQQJNDQEgAEE4agsgBDYCAAsgACgCFCEEIABBADYCFCAAKAIQIQcCQAJAAkACQCAEBEAgByECA0AgAkEUaigCACIDQQVPBEAgAkEIaigCACIIQQRrKAIAIgZBeHEiCSADQQJ0IgNBBEEIIAZBA3EiBhtqSQ0DIAZBACAJIANBJ2pLGw0EIAgQogILIAJBGGohAiAEQQFrIgQNAAsLIAEtAAhFDQMgBUUEQEEAIQMMAwtBACEDIAAoAgwgBUkEQCAAQQxqQQAgBUEEQRgQpAUgACgCECEHIAAoAhQhAwsgBUEBayAFQQNxIgQEQCAFQXxxIQUgAyAEaiAHIANBGGxqIQIDQCACQQA2AgAgAkEUakEANgIAIAJBGGohAiAEQQFrIgQNAAshAwtBA0kNAiAHIANBGGxqIQIDQCACQQA2AgAgAkHcAGpBADYCACACQcQAakIANwIAIAJBLGpCADcCACACQRRqQgA3AgAgAkHgAGohAiADQQRqIQMgBUEEayIFDQALDAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAAIAM2AhQLC8gGAQR/AkACQCAAKAIMIgIEQCAAKAIQIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIAAoAhgiAgRAIAAoAhwiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsgACgCPCICBEAgACgCQCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAJIIgIEQCAAKAJMIgNBBGsoAgAiAUF4cSIEIAJBAnQiAkEEQQggAUEDcSIBG2pJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsgACgCVCICBEAgACgCWCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAJgIgJBgICAgHhyQYCAgIB4RwRAIAAoAmQiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsgACgCbCICBEAgACgCcCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAJ4IgIEQCAAKAJ8IgNBBGsoAgAiAUF4cSIEIAJBAnQiAkEEQQggAUEDcSIBG2pJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsCQCAAKAKEASICQYCAgIB4Rg0AIAIEQCAAKAKIASIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNAiABQQAgBCACQSdqSxsNAyADEKICCyAAKAKQASICBEAgACgClAEiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQIgAUEAIAQgAkEnaksbDQMgAxCiAgsgACgCnAEiAkUNACAAKAKgASIAQQRrKAIAIgNBeHEiASACQQJ0IgJBBEEIIANBA3EiAxtqSQ0BIANBACABIAJBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL3xADB38CfgF7IwBBIGsiBSQAAkACQCAAKAIAIgJFBEAgACgCECIARQ0BIABBk7PFAEEBEJcDIQIMAgsCQAJAAkACQAJAAkACQCAAKAIIIgQgACgCBCIGTwRAIAAoAhAiAkUNASACQeqyxQBBEBCXA0UNAQwHCyAAIARBAWoiATYCCCAFQQhqIAIgBGotAAAiAxDnByAFKAIIIgcEQCAAKAIQIgBFDQggACAHIAUoAgwQlwMhAgwJCyAAIAAoAgxBAWoiBzYCDCAHQfUDTwRAIAAoAhAiAgRAIAJB+rLFAEEZEJcDDQgLIABBAToABAwGCwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIANBwQBrDhcCBg8FDwQPDw8PDw8PDwEBAAACAw8PBw8LIAAoAhAiBARAQQEhAiAEQayzxQBBARCXAw0VIAAoAgAiAkUNCSAAKAIEIQYgACgCCCEBCyABIAZPDQggASACai0AAEHMAEcNCCAAIAFBAWo2AgggBUEQaiAAENkEIAUtABBFDQcgBS0AESEBIAAoAhAiAwRAQQEhAiADQfqyxQBB6rLFACABQQFxIgMbQRlBECADGxCXAw0VCyAAIAE6AAQMEQsgACgCECIBBEBBASECIAFBsrPFAEEBEJcDDRQLIANB0ABHDQggACgCECICRQ0JIAJBs7PFAEEGEJcDDREMCQsgACgCECIBBEBBASECIAFB6LLFAEEBEJcDDRMLQQEhAiAAEIYCDRIgA0HBAEYEQCAAKAIQIgEEQCABQbmzxQBBAhCXAw0UCyAAQQEQ1QENEwsgACgCECIBRQ0OIAFB6bLFAEEBEJcDDRIMDgsgACgCECIBBEBBASECIAFBu7PFAEEBEJcDDRILIAUgABC3BkEBIQIgBSgCAEEBcQ0RIAUoAgRBAUYEQCAAKAIQIgFFDQ4gAUG8s8UAQQEQlwMNEgsgACgCECIBRQ0NIAFB3o7IAEEBEJcDDREMDQtBACECIwBBEGsiASQAAkACQAJAAkAgACgCAEUEQCAAKAIQIgMNAQwECyABIABBxwAQrAYgAS0AAEEBRgRAIAEtAAEhAyAAKAIQIgQEQEEBIQIgBEH6ssUAQeqyxQAgA0EBcSIEG0EZQRAgBBsQlwMNBQsgACADOgAEQQAhAiAAQQA2AgAMBAsgACgCECICBEAgASkDCCIJUA0DIAJB+bTFAEEEEJcDDQIDQCAIIAlRBEAgACgCECIDRQ0FQQEhAiADQf20xQBBAhCXA0UNBQwGCwJAIAhQDQAgACgCECICRQ0AIAJB55DGAEECEJcDDQQLQQEhAiAAIAAoAhRBAWo2AhQgCEIBfCEIIABCARCCBkUNAAsMBAsgABDOAiECDAMLIANBk7PFAEEBEJcDIQIMAgtBASECDAELIAAQzgIhAiAAIAAoAhQgCadrNgIUCyABQRBqJAAgAg0ODAwLIAAoAhAiAgRAIAJBvbPFAEEEEJcDDQ4LQQEhAkEAIQEjAEEQayIDJAACQAJAAkACQCAAKAIARQRAIAAoAhAiBA0BDAQLIAMgAEHHABCsBiADLQAAQQFGBEAgAy0AASEEIAAoAhAiBgRAQQEhASAGQfqyxQBB6rLFACAEQQFxIgYbQRlBECAGGxCXAw0FCyAAIAQ6AARBACEBIABBADYCAAwECyAAKAIQIgEEQCADKQMIIglQDQMgAUH5tMUAQQQQlwMNAgNAIAggCVEEQCAAKAIQIgRFDQVBASEBIARB/bTFAEECEJcDRQ0FDAYLAkAgCFANACAAKAIQIgFFDQAgAUHnkMYAQQIQlwMNBAtBASEBIAAgACgCFEEBajYCFCAIQgF8IQggAEIBEIIGRQ0ACwwECyAAEPkDIQEMAwsgBEGTs8UAQQEQlwMhAQwCC0EBIQEMAQsgABD5AyEBIAAgACgCFCAJp2s2AhQLIANBEGokACABDQ8gACgCACIDRQ0GIAAoAggiASAAKAIETw0GIAEgA2otAABBzABHDQYgACABQQFqNgIIIAVBEGogABDZBCAFLQAQRQ0IIAUtABEhASAAKAIQIgMEQCADQfqyxQBB6rLFACABQQFxIgMbQRlBECADGxCXAw0QCyAAIAE6AAQMDAsjAEEgayICJAACQAJAIAAoAgBFBEAgACgCECIBRQ0BIAFBk7PFAEEBEJcDIQEMAgsgAiAAEK8GIAIoAgBFBEAgACgCECIDBEBBASEBIANB+rLFAEHqssUAIAItAARBAXEiAxtBGUEQIAMbEJcDDQMLIAAgAv0AAgD9CwIADAELIAAoAhBFDQAgAP0AAgAhCiAAIAL9AAIA/QsCACACIAr9CwMQIAAQhgIhASAAIAL9AAMQ/QsCAAwBC0EAIQELIAJBIGokACABDQwMCgtBASECIAAQhgINDSAAKAIQIgEEQCABQcGzxQBBBBCXAw0OCyAAEK0EDQ0MCQsgBSkDGCIIUA0AIAAgCBCCBg0KIAAoAhAiAUUNAEEBIQIgAUGts8UAQQEQlwMNDAsgA0HSAEYNBiAAKAIQIgJFDQYgAkGus8UAQQQQlwMNCQwGCyAAKAIQIgJFDQAgAkGus8UAQQQQlwMNCAsgABCGAg0HDAULIAAoAhAiAUUNACABQeqyxQBBEBCXAw0IC0EAIQIgAEEAOgAEIABBADYCAAwHCyAFKQMYIghQDQIgACgCECICBEAgAkHwyccAQQMQlwMNBQsgACAIEIIGDQQMAgsgACAENgIIIABBABDMAQ0DDAELIAAQhgINAgtBACECIAAoAgBFDQMgACAAKAIMQQFrNgIMDAMLQQAhAiAAQQA2AgAMAgtBASECDAELQQAhAgsgBUEgaiQAIAILsB0DB34PfwF7IAEoAgQiCiACKQMQIgYgAikDCCIIIAIpAwAiCSABKQMYhSIDQtii0e/CqeW/LX4gA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhELSgaqbq/qC16d/fiIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEhYUiA0LYotHvwqnlvy1+IANCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhIWFIgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhCADQtii0e/CqeW/LX6FIgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIQgASkDECIEQn+FfiIFQjiGIAVCgP4Dg0IohoQgBUKAgPwHg0IYhiAFQoCAgPgPg0IIhoSEIAVCCIhCgICA+A+DIAVCGIhCgID8B4OEIAVCKIhCgP4DgyAFQjiIhISEIAMgBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhH6FIAOJIgencSEMIAdCGYhC/wCDQoGChIiQoMCAAX4hBSABKAIAIQ0CQANAAkAgDCANaikAACIEIAWFIgNCf4UgA0KBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIDUEUEQANAAkAgDSADeqdBA3YgDGogCnFBBnRrIgtBQGopAwAgCVINACALQThrKQMAIAhSDQAgC0EwaykDACAGUQ0DCyADQgF9IAODIgNQRQ0ACwsgBCAEQgGGg0KAgYKEiJCgwIB/g1BFDQIgDCAPQQhqIg9qIApxIQwMAQsLIAAgATYCBCAAIAs2AgAgAEEANgIgDwsgASgCCEUEQAJAIwBBIGsiESQAIBEgAUEQajYCACABKAIMIQwgESARNgIEAkACQAJAAkACQAJAAkACQAJ/AkAgDEEBaiILBEAgASgCBCIUIBRBAWpBA3ZBB2wgFEEISRsiCkEBdiALSQRAIApBAWoiCiALIAogC0sbIgtBD0kNAiALQf////8BTQRAQX8gC0EDdEEHbkEBa2d2IgtB/v//H0sNBSALQQFqDAQLDAsLIBFBBGohFkEAIQogASINIA0oAgRBAWoiEAR/IA0oAgAhDwJAIBBBA3YgEEEHcUEAR2oiDEECTwRAIAxB/v///wNxIg4hCyAPIQoDQCAKIAr9AAMAIhn9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gGf0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACAKQRBqIQogC0ECayILDQALIAwgDkYNASAOQQN0IQogDEEBcSEMCyAKIA9qIQoDQCAKIAopAwAiA0J/hUIHiEKBgoSIkKDAgAGDIANC//79+/fv37//AIR8NwMAIApBCGohCiAMQQFrIgwNAAsLAkAgEEEITwRAIA8gEGogDykAADcAAAwBCyAQRQ0AIA9BCGogDyAQ/AoAAAtBASELQQAhDANAIAwhDyALIQwCQCAPIA0oAgAiC2otAABBgAFHDQAgCyAPQX9zQQZ0aiESA0AgFiANIA8QtAIhAyANKAIEIg4gA6ciFXEiEyEKIA0oAgAiCyATaikAAEKAgYKEiJCgwIB/gyIDUARAQQghFANAIAogFGohCiAUQQhqIRQgCyAKIA5xIgpqKQAAQoCBgoSIkKDAgH+DIgNQDQALCyALIAN6p0EDdiAKaiAOcSIKaiwAAEEATgRAIAspAwBCgIGChIiQoMCAf4N6p0EDdiEKCyAKIBNrIA8gE2tzIA5xQQhPBEAgCiALaiITLQAAIBMgFUEZdiITOgAAIA0oAgAgCkEIayAOcWpBCGogEzoAACALIApBf3NBBnRqIQtB/wFGBEAgDSgCBCEKIA0oAgAgD2pB/wE6AAAgDSgCACAKIA9BCGtxakEIakH/AToAACALIBJBwAD8CgAADAMLIBIgC0HAABCwAwwBCwsgCyAPaiAVQRl2Igs6AAAgDSgCACAOIA9BCGtxakEIaiALOgAACyAMIAwgEEkiCmohCyAKDQALIA0oAgQiDCAMQQFqQQN2QQdsIAxBCEkbBUEACyANKAIMazYCCAwHCwwJC0EEIAtBCHFBCGogC0EESRsLIgtBCGoiCiALQQZ0Ig9qIg0gCkkgDUH4////B0tyDQAgDRBxIg1FDQEgDSAPaiEQIAoEQCAQQf8BIAr8CwALIAtBAWsiEyALQQN2QQdsIBNBCEkbIRUgASgCACENIAwNAkEAIQwMAwsgEUEANgIYIBFBATYCDCARQcS1xAA2AgggEUIENwIQIBFBCGpBmLXEABCNCAsACyAQQQhqIRYgDSkDAEJ/hUKAgYKEiJCgwIB/gyEGQQAhCiAMIQsgDSEPA0AgBlAEQANAIApBCGohCiAPQQhqIg8pAwBCgIGChIiQoMCAf4MiA0KAgYKEiJCgwIB/UQ0ACyADQoCBgoSIkKDAgH+FIQYLIBAgEyANIAZ6p0EDdiAKaiIXQQZ0ayIOQUBqKQMAIBEoAgAiEikDCIUiA0LYotHvwqnlvy1+IA5BOGspAwCFIANCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhIUiA0LYotHvwqnlvy1+IA5BMGspAwCFIANCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhIUiA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhELSgaqbq/qC16d/fiIEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEIANC2KLR78Kp5b8tfoUiA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCASKQMAIgRCf4V+IgVCOIYgBUKA/gODQiiGhCAFQoCA/AeDQhiGIAVCgICA+A+DQgiGhIQgBUIIiEKAgID4D4MgBUIYiEKAgPwHg4QgBUIoiEKA/gODIAVCOIiEhIQgAyAEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEfoUgA4mnIhhxIg5qKQAAQoCBgoSIkKDAgH+DIgNQBEBBCCESA0AgDiASaiEOIBJBCGohEiAQIA4gE3EiDmopAABCgIGChIiQoMCAf4MiA1ANAAsLIAZCAX0gBoMhBiAQIAN6p0EDdiAOaiATcSIOaiwAAEEATgRAIBApAwBCgIGChIiQoMCAf4N6p0EDdiEOCyAOIBBqIBhBGXYiEjoAACAWIA5BCGsgE3FqIBI6AAAgECAOQX9zQQZ0aiIOQTBqIA0gF0F/c0EGdGoiEkEwav0AAAD9CwAAIA5BIGogEkEgav0AAAD9CwAAIA5BEGogEkEQav0AAAD9CwAAIA4gEv0AAAD9CwAAIAtBAWsiCw0ACwsgASATNgIEIAEgEDYCACABIBUgDGs2AgggFEUNACAUIBRBBnRBxwBqQUBxIgtqQQlqIgxFDQAgDSALayILQQRrKAIAIgpBeHEiDUEEQQggCkEDcSIKGyAMakkNASAKQQAgDSAMQSdqSxsNAiALEKICCyARQSBqJAAMAwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIBFBADYCGCARQQE2AgwgEUHEtcQANgIIIBFCBDcCECARQQhqQZi1xAAQjQgACwsgACAHNwMAIAAgAikDADcDCCAAQRBqIAJBCGr9AAMA/QsDACAAIAE2AiALkwoBBn8jAEEwayICJAACQAJAAkACQAJAAkBBAyAAKAIAIgQtAAAiAEEEayAAQQNNG0H/AXFBAWsOBAECAwQAC0EBIQAgASgCACIDQbK3xwBBBSABKAIEIgYoAgwiBREAAA0EIARBAWohBAJAIAEtAApBgAFxRQRAIANBu7PFAEEBIAURAAANBiAEIAEQxQINBiABKAIAIQMgASgCBCgCDCEFDAELIANB24HCAEECIAURAAANBSACQQE6ACwgAiAGNgIUIAIgAzYCECACQeCBwgA2AiAgAiABKQIINwIkIAIgAkEsajYCGCACIAJBEGo2AhwgBCACQRxqEMUCDQUgAigCHEHZgcIAQQIgAigCICgCDBEAAA0FCyADQd6OyABBASAFEQAAIQAMBAtBASEAIAEoAgAiA0G3t8cAQQsgASgCBCIGKAIMIgURAAANAyAEQQFqIQQCQCABLQAKQYABcUUEQCADQbuzxQBBASAFEQAADQUgBCABEMUCDQUgASgCACEDIAEoAgQoAgwhBQwBCyADQduBwgBBAiAFEQAADQQgAkEBOgAsIAIgBjYCFCACIAM2AhAgAkHggcIANgIgIAIgASkCCDcCJCACIAJBLGo2AhggAiACQRBqNgIcIAQgAkEcahDFAg0EIAIoAhxB2YHCAEECIAIoAiAoAgwRAAANBAsgA0HejsgAQQEgBREAACEADAMLQQEhACABKAIAIgNBwrfHAEEOIAEoAgQiBygCDCIFEQAADQIgBEEBaiEGAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBREAAA0EIAIgBjYCHCABIARBBGpByKjHACAEQQJqQdioxwAgBEEDakHoqMcAIAJBHGpB+KjHABDuBQ0EIAEoAgAhAyABKAIEKAIMIQUMAQsgA0HbgcIAQQIgBREAAA0DIAJBAToADyACIAc2AhQgAiADNgIQIAJB4IHCADYCICACIAEpAgg3AiQgAiACQQ9qNgIYIAIgAkEQajYCHCACIAY2AiwgAkEcaiAEQQRqQcioxwAgBEECakHYqMcAIARBA2pB6KjHACACQSxqQfioxwAQ7gUNAyACKAIcQdmBwgBBAiACKAIgKAIMEQAADQMLIANB3o7IAEEBIAURAAAhAAwCC0EBIQAgASgCACIDQdC3xwBBBiABKAIEIgYoAgwiBREAAA0BAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBREAAA0DIAQgARCUA0UNAQwDCyADQduBwgBBAiAFEQAADQIgAkEBOgAsIAIgBjYCFCACIAM2AhAgAkHggcIANgIgIAIgASkCCDcCJCACIAJBLGo2AhggAiACQRBqIgE2AhwgBCACQRxqEJQDDQIgAUHZgcIAQQIQrwMNAgsgA0HejsgAQQEgBREAACEADAELQQEhACABKAIAIgNB1rfHAEEOIAEoAgQiBigCDCIFEQAADQACQCABLQAKQYABcUUEQCADQbuzxQBBASAFEQAADQIgBEEIaigCACAEQQxqKAIAIAEQtQJFDQEMAgsgA0HbgcIAQQIgBREAAA0BIAJBAToALCACIAY2AhQgAiADNgIQIAJB4IHCADYCICACIAEpAgg3AiQgAiACQSxqNgIYIARBCGooAgAgBEEMaigCACACIAJBEGoiBjYCHCACQRxqELUCDQEgBkHZgcIAQQIQrwMNAQsgA0HejsgAQQEgBREAACEACyACQTBqJAAgAAv6CAMKfwJ+AnsjAEHwAGsiByQAIAcgAjYCACAHIAAoAggiAzYCBAJAAkACQAJAAkACQAJAAkAgAiADRgRAIAdBJGogASACEPEDIAcoAighAQJAIAcoAiwiCkUNACABIApBA3RqIQkgACgCBCEFIAEhAwNAIAMoAgAiBCACTw0JIANBBGooAgAiBiACTw0KIAUgBEEYbGoiBEEQaiIIKQIAIQ0gBSAGQRhsaiIG/QACACEPIAggBkEQaiIIKQIANwIAIAT9AAIAIRAgBCAP/QsCACAIIA03AgAgBiAQ/QsCACADQQhqIgMgCUcNAAsgACgCFCICBEAgACgCECEFIAEhAwNAIAMoAgAiBCACTw0KIANBBGooAgAiBiACTw0LIAUgBEEYbGoiBEEQaiIIKQIAIQ0gBSAGQRhsaiIG/QACACEPIAggBkEQaiIIKQIANwIAIAT9AAIAIRAgBCAP/QsCACAIIA03AgAgBiAQ/QsCACADQQhqIgMgCUcNAAsLIAAoAiAiAgRAIAAoAhwhBSABIQMDQCADKAIAIgQgAk8NCiADQQRqKAIAIgYgAk8NCyAFIARBCWxqIgQpAAAhDSAFIAZBCWxqIgZBCGoiCC0AACELIAQgBikAADcAACAEQQhqIgQtAAAhDCAEIAs6AAAgCCAMOgAAIAYgDTcAACADQQhqIgMgCUcNAAsLIAAoAiwiBARAIAAoAighBiABIQIDQCACKAIAIgMgBE8NBCACQQRqKAIAIgUgBE8NBSAGIANBD2xqIgNBB2opAAAhDSADKQAAIQ4gBiAFQQ9saiIFQQhqKAAAIQggBUEMai8AACELIAVBDmotAAAhDCADIAUpAAA3AAAgA0EOaiAMOgAAIANBDGogCzsAACADQQhqIAg2AAAgByAONwMIIAcgDTcADyAFQQdqIAcpAA83AAAgBSAHKQMINwAAIAJBCGoiAiAJRw0ACwsgACgCOCIDRSAKRXINACAAKAI0IQQgASECA0AgAigCACIAIANPDQUgAkEEaigCACIFIANPDQYgB0EVaiIKIAQgAEEVbGoiAEENaikAADcAACAEIAVBFWxqIgX9AAAAIQ8gBUEUai0AACEGIABBEGogBUEQaigAADYAACAAQRRqIAY6AAAgAP0AAAAhECAAIA/9CwAAIAcgEP0LAwggBSAH/QADCP0LAAAgBUENaiAKKQAANwAAIAJBCGoiAiAJRw0ACwsgBygCJCIABEAgAUEEaygCACICQXhxIgMgAEEDdCIAQQRBCCACQQNxIgIbakkNBiACQQAgAyAAQSdqSxsNByABEKICCyAHQfAAaiQADwsgB0EANgIIQQAgByAHQQRqIAdBCGpBrLzHABD1BwALIAMgBEHA9scAEIwHAAsgBSAEQcD2xwAQjAcACyAAIANBwPbHABCMBwALIAUgA0HA9scAEIwHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAQgAkHA9scAEIwHAAsgBiACQcD2xwAQjAcAC7gHAQR/IAAoArABIgFBhAhPBEAgARCbBwsgACgCtAEiAUGECE8EQCABEJsHCwJAIAAoAgBFDQAgACgCBCIBQYQISQ0AIAEQmwcLAkAgACgCCEUNACAAKAIMIgFBhAhJDQAgARCbBwsCQCAAKAIQRQ0AIAAoAhQiAUGECEkNACABEJsHCwJAIAAoAhhFDQAgACgCHCIBQYQISQ0AIAEQmwcLAkAgACgCIEUNACAAKAIkIgFBhAhJDQAgARCbBwsCQCAAKAIoRQ0AIAAoAiwiAUGECEkNACABEJsHCwJAIAAoAjBFDQAgACgCNCIBQYQITwRAIAEQmwcLIAAoAjgiAUGECEkNACABEJsHCwJAAkAgACgCRCIBBEAgACgCSCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAlAiAQRAIAAoAlQiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAJcIgEEQCAAKAJgIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCaCIBBEAgACgCbCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILAkAgACgCPEUNACAAKAJAIgFBhAhJDQAgARCbBwsgACgCjAEiAUGAgICAeHJBgICAgHhHBEAgACgCkAEiA0EEaygCACICQXhxIgQgAUEBdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAKYASIBQYCAgIB4ckGAgICAeEcEQCAAKAKcASIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAnQiAQRAIAAoAngiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAKAASIBBEAgACgChAEiAEEEaygCACIDQXhxIgIgAUECdCIBQQRBCCADQQNxIgMbakkNASADQQAgAiABQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC6QIAhN/An4jAEGQBGsiByQAIAdBDGpBAEGABPwLAAJAIAAoAgwiEUUEQCABKAIAIAAoAgAgACgCBCABKAIEKAIMEQAAIQAMAQsgACgCACEOIAAoAggiDy0AACEKAkACQCAAKAIEIhBFDQAgDiAQaiELIAdBDGohAiAOIQADQAJ/IAAsAAAiBkEATgRAIAZB/wFxIQQgAEEBagwBCyAALQABQT9xIQUgBkEfcSEEIAZBX00EQCAEQQZ0IAVyIQQgAEECagwBCyAALQACQT9xIAVBBnRyIQUgBkFwSQRAIAUgBEEMdHIhBCAAQQNqDAELIARBEnRBgIDwAHEgAC0AA0E/cSAFQQZ0cnIiBEGAgMQARg0CIABBBGoLIQAgA0GAAUYNAiACIAQ2AgAgAkEEaiECIANBAWohAyAAIAtHDQALCyAPIBFqIRIgA0ECdCIAQQRqIQwgACAHakEIaiELQbwFIRNByAAhFCAPIQRBgAEhDQNAIARBAWohBEEAIQJBJCEAQQEhCUEBIQZBACEFA0ACQCACQQFxBEAgBCASRg0EIAQtAAAhAiAEQQFqIQQMAQsgCiECIAlBAXFFDQMLIAJB4QBrIglB/wFxQRpPBEAgAkEwa0H/AXFBCUsNAyACQRZrIQkLIAatIhYgCUH/AXEiBq1+IhVCIIinDQIgFaciAiAFaiIFIAJJDQIgBkEaQQEgACAUayICQQAgACACTxsiAiACQQFNGyICIAJBGk8bIgJPBEAgAEEkaiEAIBZBJCACa61+IhWnIQZBACEJQQEhAiAVQiCIUA0BDAMLCyAFIAhqIgYgBUkNASAGIANBAWoiAm4iCiANaiINIApJIA1BgLADc0GAgMQAa0GAkLx/SXIgA0H/AEtyDQEgCyEAAkAgBiACIApsayIIIANPBEAgCEGAAUkNASAIQYABQZiyxQAQjAcACwNAIABBBGogACgCADYCACAAQQRrIQAgA0EBayIDIAhLDQALCyAHQQxqIAhBAnRqIA02AgAgBCASRwRAIAQtAAAhCkEAIQMCQCAFIBNuIgAgAm4gAGoiAEHIA0kEQCAAIQUMAQsDQCADQSRqIQMgAEHX/ABLIABBI24iBSEADQALCyAIQQFqIQggAyAFQSRsQfz/A3EgBUEmakH//wNxbmohFCALQQRqIQsgDEEEaiEMQQIhEyACIQMMAQsLIAdBDGohAwNAIAcgAygCADYCjAQgB0GMBGogARCoBSIADQIgA0EEaiEDIAxBBGsiDA0ACwwBC0EBIQAgASgCACICQei3xQBBCSABKAIEKAIMIgERAAANACAQBEAgAiAOIBAgAREAAA0BIAJB6rPFAEEBIAERAAANAQsgAiAPIBEgAREAAA0AIAJBpbPFAEEBIAERAAAhAAsgB0GQBGokACAAC6cJAgN+Bn9BsLXJACgCAEUEQBBWCwJAAkACQAJAQbi1yQAoAgBFBEBBuLXJAEF/NgIAQcS1yQAoAgAiBUHYtckAKQMAIgEgAK2FIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAUIIiEKAgID4D4MgAUIYiEKAgPwHg4QgAUIoiEKA/gODIAFCOIiEhIRC0oGqm6v6gtenf34iAUI4hiABQoD+A4NCKIaEIAFCgID8B4NCGIYgAUKAgID4D4NCCIaEhCABQgiIQoCAgPgPgyABQhiIQoCA/AeDhCABQiiIQoD+A4MgAUI4iISEhCACQtii0e/CqeW/LX6FIgFCOIYgAUKA/gODQiiGhCABQoCA/AeDQhiGIAFCgICA+A+DQgiGhIQgAUIIiEKAgID4D4MgAUIYiEKAgPwHg4QgAUIoiEKA/gODIAFCOIiEhIRB0LXJACkDACICQn+FfiIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEIAEgAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhH6FIAGJIgGncSEEIAFCGYhC/wCDQoGChIiQoMCAAX4hA0HAtckAKAIAIgZBIGshCQJAA0ACQCAEIAZqKQAAIgIgA4UiAUJ/hSABQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIgFQRQRAA0AgACAJIAF6p0EDdiAEaiAFcSIIQQV0aygCAEYNAiABQgF9IAGDIgFQRQ0ACwsgAiACQgGGg0KAgYKEiJCgwIB/g1BFDQIgBCAHQQhqIgdqIAVxIQQMAQsLQYABIQAgBiAIaiIEKQAAIgEgAUIBhoNCgIGChIiQoMCAf4N6p0EDdiAGIAhBCGsgBXFqIgUpAAAiASABQgGGg0KAgYKEiJCgwIB/g3mnQQN2akEHTQRAQci1yQBByLXJACgCAEEBajYCAEH/ASEACyAEIAA6AAAgBUEIaiAAOgAAQcy1yQBBzLXJACgCAEEBazYCACAGQQAgCGtBBXRqIgBBHGsoAgAiBEGAgICAeEYNACAAQQxrKAIAIQYgAEEQaygCACEFIABBGGsoAgAhCCAAQQRrKAIAIgAgACgCAEEBayIHNgIAIAdFBEAgABDSBQsgBARAIAhBBGsoAgAiAEF4cSIHIARBAnQiBEEEQQggAEEDcSIAG2pJDQMgAEEAIAcgBEEnaksbDQQgCBCiAgsgBUUNACAGQQRrKAIAIgBBeHEiBCAFQQJ0IgVBBEEIIABBA3EiABtqSQ0EIABBACAEIAVBJ2pLGw0FIAYQogILQbi1yQBBuLXJACgCAEEBajYCAA8LQayKwQAQsAoAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALzAYBBH8CQAJAAkAgACgCACIBQYCAgIB4Rg0AIAEEQCAAKAIEIgNBBGsoAgAiAkF4cSIEIAFBA3QiAUEEQQggAkEDcSICG2pJDQIgAkEAIAQgAUEnaksbDQMgAxCiAgsgACgCDCIBRQ0AIAAoAhAiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAoAhwiAUGAgICAeEYNACABBEAgACgCICIDQQRrKAIAIgJBeHEiBCABQQN0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQogILIAAoAigiAUUNACAAKAIsIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsCQCAAKAI4IgFBgICAgHhGDQAgAQRAIAAoAjwiA0EEaygCACICQXhxIgQgAUEDdCIBQQRBCCACQQNxIgIbakkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAJEIgFFDQAgACgCSCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILAkAgACgCVCIBQYCAgIB4Rg0AIAEEQCAAKAJYIgNBBGsoAgAiAkF4cSIEIAFBA3QiAUEEQQggAkEDcSICG2pJDQIgAkEAIAQgAUEnaksbDQMgAxCiAgsgACgCYCIBRQ0AIAAoAmQiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAoAnAiAUGAgICAeEYNACABBEAgACgCdCIDQQRrKAIAIgJBeHEiBCABQQN0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQogILIAAoAnwiAUUNACAAKAKAASIAQQRrKAIAIgNBeHEiAiABQQJ0IgFBBEEIIANBA3EiAxtqSQ0BIANBACACIAFBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALtwcCCn4GfwJAIAEpAxAiA1ANACABKAIYIg4oAgAiECAOKQMIIgQgDigCBCIMrSIHIAQgB1QbpyIPaiENAkACQCADIAxC/////w8gBCAEQv////8PWhunayIRQQAgDCARTxutIgIgAiADVhtCB1gEQCAMIA9GDQMgAS0AICIPQTdLDQMgDTEAACEIIA4gBEIBfCIGNwMIIANCAX0hAiAPrUL/AYMiCkIIfCEEIAEpAwAgCCAKhoQhCCADQgFRDQIgAiAMIAYgByAGIAdUG6ciDWutIgUgAiAFVBtQIA9BL0tyDQIgDSAQajEAACAOIAYgAkIAUq0iC3wiBTcDCCAKQhB8IQYgAiALfSECIASGIAiEIQggA0IDVARAIAYhBAwDCyACIAwgBSAHIAUgB1QbpyINa60iBCACIARUG1AEQCAGIQQMAwsgD0EnSwRAIAYhBAwDCyANIBBqMQAAIA4gBSACQgBSrSIDfCIFNwMIIApCGHwhBCACIAN9IQMgBoYgCIQhCCACQgJUBEAgAyECDAMLIAMgDCAFIAcgBSAHVBunIg1rrSICIAIgA1YbUARAIAMhAgwDCyAPQR9LBEAgAyECDAMLIA0gEGoxAAAgDiAFIANCAFKtIgJ8IgU3AwggCkIghCEGIAMgAn0hAiAEhiAIhCEIIANCAlQEQCAGIQQMAwsgAiAMIAUgByAFIAdUG6ciDWutIgQgAiAEVBtQBEAgBiEEDAMLIA9BF0sEQCAGIQQMAwsgDSAQajEAACAOIAUgAkIAUq0iA3wiBTcDCCAKQih8IQQgAiADfSEDIAaGIAiEIQggAkICVARAIAMhAgwDCyADIAwgBSAHIAUgB1QbpyINa60iAiACIANWG1AEQCADIQIMAwsgBkIvVgRAIAMhAgwDCyANIBBqMQAAIA4gBSADQgBSrSICfCIFNwMIIApCMHwhBiADIAJ9IQIgBIYgCIQhCCADQgJUBEAgBiEEDAMLIAIgDCAFIAcgBSAHVBunIgxrrSIEIAIgBFQbUARAIAYhBAwDCyAPQQdNDQEgBiEEDAILIAEgAS0AICIMQThyOgAgIAEgASkDACANKQAAIAxBP3GthoQ3AwAgASADIANBPyAMa0H4AXFBA3atIgIgAiADVhsiAn03AxAgDiACIAR8NwMIDAILIAwgEGoxAAAgDiAFIAJCAFKtIgd8NwMIIApCOIQhBCACIAd9IQIgBoYgCIQhCAsgASAEPAAgIAEgCDcDACABIAI3AxALIABBHToAAAvtBwIGfwh+AkAgASgCCCIFQQhqKQMAIghQDQAgBUEQaigCACIGKAIAIAYpAwgiDSAGKAIEIgStIgkgCSANVhunIgNqIQICQAJAIAggBEL/////DyANIA1C/////w9aG6drIgdBACAEIAdPG60iCSAIIAlUG0IHWARAIAMgBEYNAyABLQAMIgRBN0sNAyACMQAAIQkgBUEIaiIHIgIgCEIBfTcDACAGIA1CAXw3AwggBK1C/wGDIg5CCHwhCCABKQMAIAkgDoaEIQsgAikDACIJUA0CIAVBEGooAgAiAigCBCIDIAIpAwgiCiADrSIMIAogDFQbpyIDRiAEQS9Lcg0CIAIoAgAgA2oxAAAgBiANQgJ8NwMIIAciAiAJQgF9NwMAIA5CEHwhCSAIhiALhCELIAIpAwAiCFAEQCAJIQgMAwsgBUEQaigCACICKAIEIgMgAikDCCIKIAOtIgwgCiAMVBunIgNGBEAgCSEIDAMLIARBJ0sEQCAJIQgMAwsgAigCACADajEAACAGIA1CA3w3AwggBUEIaiIHIgIgCEIBfTcDACAOQhh8IQggCYYgC4QhCyACKQMAIglQDQIgBUEQaigCACICKAIEIgMgAikDCCIKIAOtIgwgCiAMVBunIgNGIARBH0tyDQIgAigCACADajEAACAGIA1CBHw3AwggByICIAlCAX03AwAgDkIghCEJIAiGIAuEIQsgAikDACIIUARAIAkhCAwDCyAFQRBqKAIAIgIoAgQiAyACKQMIIgogA60iDCAKIAxUG6ciA0YEQCAJIQgMAwsgBEEXSwRAIAkhCAwDCyACKAIAIANqMQAAIAYgDUIFfDcDCCAFQQhqIgciAiAIQgF9NwMAIA5CKHwhCCAJhiALhCELIAIpAwAiClANAiAFQRBqKAIAIgIoAgQiAyACKQMIIgwgA60iDyAMIA9UG6ciA0YgCUIvVnINAiACKAIAIANqMQAAIAYgDUIGfDcDCCAHIgIgCkIBfTcDACAOQjB8IQkgCIYgC4QhCyACKQMAIghQBEAgCSEIDAMLIAVBEGooAgAiAigCBCIDIAIpAwgiCiADrSIMIAogDFQbpyIDRgRAIAkhCAwDCyAEQQdNDQEgCSEIDAILIAEgAS0ADCIEQThyOgAMIAEgASkDACACKQAAIARBP3GthoQ3AwAgBUEIaiAIIAhBPyAEa0H4AXFBA3atIgkgCCAJVBsiCH03AwAgBiAIIA18NwMIDAILIAIoAgAgA2oxAAAgBiANQgd8NwMIIAVBCGogCEIBfTcDACAOQjiEIQggCYYgC4QhCwsgASAIPAAMIAEgCzcDAAsgAEEdOgAAC/YHAgV/A34gASgCACICQf///wNxIQUgAkGAgICAeHEhBiABKAIEIQMCfiAGQRB2IAVBDXZyQYAEQQAgBRtyQYD4AXKtIAJBgICA/AdxIgRBgICA/AdGDQAaIAZBEHYhBgJAIARBgICAuARNBEAgBEENdiAFQQ12akGAgAFqIAZyrSACQQx2IAJB/98AcUEAR3GtfCAEQYCAgMQDTw0CGiAEQYCAgJgDSQ0BIAVBgICABHIiAkH+ACAEQRd2IgVrdiEEIAJBHSAFayIFdkEBcQR/IARBAyAFdEEBayACcUEAR2oFIAQLIAZyrQwCCyAGQYD4AXKtDAELIAatCyEHIAEoAgghBCADQf///wNxIQUgA0GAgICAeHEhBgJ+IANBgICA/AdxIgJBgICA/AdHBEAgBkEQdiEGIAJBgICAuARNBEAgAkENdiAFQQ12akGAgAFqIAZyrSADQQx2IANB/98AcUEAR3GtfCACQYCAgMQDTw0CGiACQYCAgJgDTwRAIAVBgICABHIiBUH+ACACQRd2IgJrdiEDIAVBHSACayICdkEBcQR/IANBAyACdEEBayAFcUEAR2oFIAMLIAZyrQwDCyAGrQwCCyAGQYD4AXKtDAELIAZBEHYgBUENdnJBgARBACAFG3JBgPgBcq0LIQggASgCDCEBIARB////A3EhAiAEQYCAgIB4cSEFAn4gBEGAgID8B3EiA0GAgID8B0cEQCAFQRB2IQUgA0GAgIC4BE0EQCADQQ12IAJBDXZqQYCAAWogBXKtIARBDHYgBEH/3wBxQQBHca18IANBgICAxANPDQIaIANBgICAmANPBEAgAkGAgIAEciIEQf4AIANBF3YiAmt2IQMgBEEdIAJrIgJ2QQFxBH8gA0EDIAJ0QQFrIARxQQBHagUgAwsgBXKtDAMLIAWtDAILIAVBgPgBcq0MAQsgBUEQdiACQQ12ckGABEEAIAIbckGA+AFyrQshCSABQf///wNxIQQgAUGAgICAeHEhAiAAIAdC//8DgyAIQhCGQoCA/P8PgyAJQiCGQoCAgIDw/z+DAn4gAUGAgID8B3EiA0GAgID8B0cEQCACQRB2IQIgA0GAgIC4BE0EQCADQQ12IARBDXZqQYCAAWogAnKtIAFBDHYgAUH/3wBxQQBHca18IANBgICAxANPDQIaIANBgICAmANPBEAgBEGAgIAEciIEQf4AIANBF3YiA2t2IQEgBEEdIANrIgN2QQFxBH8gAUEDIAN0QQFrIARxQQBHagUgAQsgAnKtDAMLIAKtDAILIAJBgPgBcq0MAQsgAkEQdiAEQQ12ckGABEEAIAQbckGA+AFyrQtCMIaEhIQ3AgALvwgCBX8BfSABKAIAIglB////A3EhBiAJQYCAgIB4cSEKAkAgCUGAgID8B3EiB0GAgID8B0YEQCAKQRB2IAZBDXZyQYAEQQAgBhtyQYD4AXIhCgwBCyAKQRB2IQogB0GAgIC4BE0EQCAHQYCAgMQDTwRAIAlBDHYgCUH/3wBxQQBHcSAHQQ12IAZBDXZqQYCAAWogCnJqIQoMAgsgB0GAgICYA0kNASAGQYCAgARyIglB/gAgB0EXdiIGa3YhByAJQR0gBmsiBnZBAXEEfyAHQQMgBnRBAWsgCXFBAEdqBSAHCyAKciEKDAELIApBgPgBciEKCyABKAIEIgZB////A3EhCCAGQYCAgIB4cSEJAkAgBkGAgID8B3EiB0GAgID8B0cEQCAJQRB2IQkgB0GAgIC4BE0EQCAHQYCAgMQDTwRAIAZBDHYgBkH/3wBxQQBHcSAHQQ12IAhBDXZqQYCAAWogCXJqIQkMAwsgB0GAgICYA0kNAiAIQYCAgARyIgZB/gAgB0EXdiIIa3YhByAGQR0gCGsiCHZBAXEEfyAHQQMgCHRBAWsgBnFBAEdqBSAHCyAJciEJDAILIAlBgPgBciEJDAELIAlBEHYgCEENdnJBgARBACAIG3JBgPgBciEJCyABKAIIIgZB////A3EhCCAGQYCAgIB4cSEHAkAgBkGAgID8B3EiAUGAgID8B0cEQCAHQRB2IQcgAUGAgIC4BE0EQCABQYCAgMQDTwRAIAZBDHYgBkH/3wBxQQBHcSABQQ12IAhBDXZqQYCAAWogB3JqIQcMAwsgAUGAgICYA0kNAiAIQYCAgARyIgZB/gAgAUEXdiIIa3YhASAGQR0gCGsiCHZBAXEEfyABQQMgCHRBAWsgBnFBAEdqBSABCyAHciEHDAILIAdBgPgBciEHDAELIAdBEHYgCEENdnJBgARBACAIG3JBgPgBciEHC0MAAABAIQsgAyoCACADKgIEkiADKgIIkkMAAEBAlSACQwAAgD9fBH0gCwUgAkMAAIBAlEMAAEDAkkMAAIC/kkMzMzM/lEMAAIA/kiICIAKSC5S8IgZB////A3EhCCAGQYCAgIB4cSEDAkAgBkGAgID8B3EiAUGAgID8B0YEQCADQRB2IAhBDXZyQYAEQQAgCBtyQYD4AXIhAwwBCyADQRB2IQMgAUGAgIC4BE0EQCABQYCAgMQDTwRAIAZBDHYgBkH/3wBxQQBHcSABQQ12IAhBDXZqQYCAAWogA3JqIQMMAgsgAUGAgICYA0kNASAIQYCAgARyIgZB/gAgAUEXdiIIa3YhASAGQR0gCGsiCHZBAXEEfyABQQMgCHRBAWsgBnFBAEdqBSABCyADciEDDAELIANBgPgBciEDCyAAIAU2AgwgACAEQf//A3E2AgggACAHQf//A3EgA0EQdHI2AgQgACAKQf//A3EgCUEQdHI2AgALlSEDBX4RfwF7IAGtQYi2yQApAwAiAiAArYUiA0LYotHvwqnlvy1+hSADQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEQtKBqpur+oLXp39+IgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhISFIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCACQtii0e/CqeW/LX6FIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIRBgLbJACkDACIDQn+FfiIEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEIAIgA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhH6FIAKJIQZB+LXJACgCAEUEQAJAIwBBIGsiDyQAAkACQAJAAkACfwJAAkACQAJAQfi1yQACfwJAAkACQEH8tckAKAIAQQFqIgkEQEH0tckAKAIAIgcgB0EBaiINQQN2IgtBB2wgB0EISRsiB0EBdiAJSQRAIAdBAWoiByAJIAcgCUsbIglBD0kNAiAJQf////8BTQRAQX8gCUEDdEEHbkEBa2d2IglB/v///wFLDQggCUEBaiEIDAcLDA4LQQAgDUUNBBpB8LXJACgCACEKIAsgDUEHcUEAR2oiCUEBTQ0CIAohCCAJQf7///8DcSILIQcDQCAIIAj9AAMAIhj9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gGP0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACAIQRBqIQggB0ECayIHDQALIAkgC0YNAyALQQN0IQggCUEBcSEJDAILDAwLQQQgCUEIcUEIaiAJQQRJGyEIDAMLIAggCmohCANAIAggCCkDACICQn+FQgeIQoGChIiQoMCAAYMgAkL//v379+/fv/8AhHw3AwAgCEEIaiEIIAlBAWsiCQ0ACwsCQCANQQhPBEAgCiANaiAKKQAANwAADAELIA1FDQAgCkEIaiAKIA38CgAAC0EBIQdBACEJA0AgCSEKIAchCQJAIApB8LXJACgCACIHai0AAEGAAUcNACAHIAxqIRMgByAKQX9zQQN0aiEUQQAgCmtBA3QhFQJAA0BB9LXJACgCACILQYi2yQApAwAiAiAHIBVqIghBCGs1AgCFIgNC2KLR78Kp5b8tfiAIQQRrNQIAhSADQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEQtKBqpur+oLXp39+IgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhISFIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCACQtii0e/CqeW/LX6FIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIRBgLbJACkDACIDQn+FfiIEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEIAIgA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhH6FIAKJpyIScSIOIQggByAOaikAAEKAgYKEiJCgwIB/gyICUARAQQghEANAIAggEGohCCAQQQhqIRAgByAIIAtxIghqKQAAQoCBgoSIkKDAgH+DIgJQDQALCyAHIAJ6p0EDdiAIaiALcSIIaiwAAEEATgRAIAcpAwBCgIGChIiQoMCAf4N6p0EDdiEICyAIIA5rIAogDmtzIAtxQQhPBEAgByAIaiIOLQAAIA4gEkEZdiIOOgAAQfC1yQAoAgAgCEEIayALcWpBCGogDjoAAEH/AUYNAiAHIAhBA3RrIQhBeCEHA0AgByATaiILKAAAIQ4gCyAHIAhqIgsoAAA2AAAgCyAONgAAIAdBBGoiBw0AC0HwtckAKAIAIQcMAQsLIAcgCmogEkEZdiIHOgAAQfC1yQAoAgAgCyAKQQhrcWpBCGogBzoAAAwBC0H0tckAKAIAIQtB8LXJACgCACAKakH/AToAAEHwtckAKAIAIAsgCkEIa3FqQQhqQf8BOgAAIAcgCEF/c0EDdGogFCkAADcAAAsgDEEIayEMIAkgCSANSSIIaiEHIAgNAAtB9LXJACgCACIJIAlBAWpBA3ZBB2wgCUEISRsLQfy1yQAoAgBrNgIADAULIAhBCGoiCSAIQQN0IgpqIgcgCUkgB0H4////B0tyDQAgBxBxIgdFDQEgByAKaiEKIAkEQCAKQf8BIAn8CwALIAhBAWsiDSAIQQN2QQdsIA1BCEkbIRBB8LXJACgCACEHQfy1yQAoAgAiDg0CQQAMAwsgD0EANgIYIA9BATYCDCAPQcS1xAA2AgggD0IENwIQIA9BCGpBmLXEABCNCAsACyAKQQhqIRIgBykDAEJ/hUKAgYKEiJCgwIB/gyEFQQAhCCAHIQkDQCAFUARAA0AgCEEIaiEIIAlBCGoiCSkDAEKAgYKEiJCgwIB/gyICQoCBgoSIkKDAgH9RDQALIAJCgIGChIiQoMCAf4UhBQsgCiANQYi2yQApAwAiAiAHIAV6p0EDdiAIaiITQQN0ayIMQQhrNQIAhSIDQtii0e/CqeW/LX4gDEEEazUCAIUgA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhELSgaqbq/qC16d/fiICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEhSICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEQtKBqpur+oLXp39+IgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIQgAkLYotHvwqnlvy1+hSICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEQYC2yQApAwAiA0J/hX4iBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhCACIANCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIR+hSACiaciFHEiDGopAABCgIGChIiQoMCAf4MiAlAEQEEIIQsDQCALIAxqIQwgC0EIaiELIAogDCANcSIMaikAAEKAgYKEiJCgwIB/gyICUA0ACwsgBUIBfSAFgyEFIAogAnqnQQN2IAxqIA1xIgxqLAAAQQBOBEAgCikDAEKAgYKEiJCgwIB/g3qnQQN2IQwLIAogDGogFEEZdiILOgAAIBIgDEEIayANcWogCzoAACAKIAxBf3NBA3RqIAcgE0F/c0EDdGopAAA3AwAgDkEBayIODQALQfC1yQAoAgAhB0H8tckAKAIACyEIQfC1yQAgCjYCAEH0tckAKAIAIQlB9LXJACANNgIAQfi1yQAgECAIazYCACAJRQ0AIAkgCUEDdEEPakF4cSIIakEJaiIJRQ0AIAcgCGsiB0EEaygCACIIQXhxIgpBBEEIIAhBA3EiCBsgCWpJDQEgCEEAIAogCUEnaksbDQIgBxCiAgsgD0EgaiQADAMLQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAPQQA2AhggD0EBNgIMIA9BxLXEADYCCCAPQgQ3AhAgD0EIakGYtcQAEI0IAAsLQfS1yQAoAgAiCCAGp3EhCSAGQhmIIgRC/wCDQoGChIiQoMCAAX4hBUHwtckAKAIAIQcDQAJ/AkACQCAHIAlqKQAAIgMgBYUiAkJ/hSACQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIgJQRQRAA0AgByACeqdBA3YgCWogCHFBA3RrIgxBCGsoAgAgAEYEQEEBIQogASAMQQRrKAIARg0DCyACQgF9IAKDIgJQRQ0ACwsgA0KAgYKEiJCgwIB/gyECIBZFBEAgAlANAiACeqdBA3YgCWogCHEhEQtBASACIANCAYaDUA0CGkEAIQogByARaiwAACIJQQBOBEAgByAHKQMAQoCBgoSIkKDAgH+DeqdBA3YiEWotAAAhCQsgByARaiAEp0H/AHEiDDoAACAHIBFBCGsgCHFqQQhqIAw6AABB+LXJAEH4tckAKAIAIAlBAXFrNgIAQfy1yQBB/LXJACgCAEEBajYCACAHIBFBA3RrIglBCGsgADYCACAJQQRrIAE2AgALIAoPC0EACyEWIBdBCGoiFyAJaiAIcSEJDAALAAuECQMZfwR9AXsjAEEQayIOJAACQAJAAkACQAJAIAIEQCAAKAIIIhEgAWsiBUEAIAUgEU0bIRZDAACAPyAAKgJAIAAtAFhBAkYiBRtDAAAAACAAKgI8IAUbIh+TISAgAkEMbCEXIABBPGohGCAAKAIEIAFBGGxqIQYgAygCICEPIAMoAiQhEiADKAIYIRkgAygCHCETIAMoAhAhGiADKAIUIRQgAygCCCEbIAMoAgwhECADKAIAIRwgAygCBCEVA0ACQAJAAkACQCANIBZHBEAgB0EDaiIFIBVLDQEgBiAMIBxqIgRBCGogBP1dAgD9VgIAAiIh/VoCCAIgBiAh/VsCAAAgDSAQRg0DIAsgG2ooAgAiCkH///8DcSEIIApBgICAgHhxIQQgCkGAgID8B3EiCUGAgID8B0YEQCAIQQ12IARBEHZyQYAEQQAgCBtyQYD4AXIhBAwFCyAEQRB2IQQgCUGAgIC4BEsNAiAJQYCAgMQDTwRAIApBDHYgCkH/3wBxQQBHcSAJQQ12IAhBDXZqQYCAAWogBHJqIQQMBQsgCUGAgICYA0kNBCAIQYCAgARyIgpB/gAgCUEXdiIIa3YhCSAKQR0gCGsiCHZBAXEEfyAJQQMgCHRBAWsgCnFBAEdqBSAJCyAEciEEDAQLIAEgDWogEUHsu8cAEIwHAAsgByAFIBVBpMXHABDqBwALIARBgPgBciEEDAELIBAgEEHkxMcAEIwHAAsgBkEMaiAEOwEAIAUgFEsNBEMAAH9DQwAAAAAgDCAaaiIEQQRqKgIAIB+TICCVQwAAf0OUIh0gHUMAAAAAXRsiHSAdQwAAf0NeGxC5ByEdIAZBDmpB/wFDAAB/Q0MAAAAAIARBCGoqAgAgH5MgIJVDAAB/Q5QiHiAeQwAAAABdGyIeIB5DAAB/Q14bELkHIh78AUEAIB5DAAAAAGAbIB5DAAB/Q14bQRB0Qf8BIB38AUEAIB1DAAAAAGAbIB1DAAB/Q14bQQh0ckH/AUMAAH9DQwAAAAAgBCoCACAfkyAglUMAAH9DlCIdIB1DAAAAAF0bIh0gHUMAAH9DXhsQuQciHfwBQQAgHUMAAAAAYBsgHUMAAH9DXhtyIgQ7AQAgBkEQaiAEQRB2OgAAIAUgE0sNBSAGIBggDCAZaiIH/V0CACAHQQhqKgIAIh39IAIgHf0gAxDfBCALQQNqIBJPDQIgDiAP/QACAP0LBAAgBkEWaiAOEJ0EIgdBEHY6AAAgBkEUaiAHOwEAIA1BAWohDSAPQRBqIQ8gBkEYaiEGIAtBBGohCyAFIQcgFyAMQQxqIgxHDQALCyAAIAEgAiADKAIoIAMoAiwgAygCMCADKAI0IAMoAjggAygCPBDqBCADKAJEIgVFDQQgAygCTCIHDQEMBAsgCyALQQRqIBJBhMXHABDqBwALIAAoAhAiBiAAKAIUIgAgASACIAMoAkggBxCNAyAGIAAgASACIAMoAkAgBRCzAwwCCyAHIAUgFEGUxccAEOoHAAsgByAFIBNB9MTHABDqBwALIA5BEGokAAvXBwIHfwN9IAEoAggiAkEDdCEGIAEoAgQhBCABKAIAIQcgACgCCCIDIQEgACgCACADayACSQRAIAAgAyACQQRBCBCkBSAAKAIIIQELIAAoAgQhBSAGBEAgBSABQQN0aiAEIAb8CgAACyAAIAEgAmoiAjYCCAJAAkACQAJAIAcEQCAEQQRrKAIAIgBBeHEiASAHQQN0IgZBBEEIIABBA3EiABtqSQ0BIABBACABIAZBJ2pLGw0CIAQQogILIAIgA0YNAwJAAkAgAiADayIAIANNBEAgAkEBdCEBIAJBgBBLDQEgASAAQR8gA2drbE8NAgsgAkECSQ0FDAQLIAEgAEELbEkNAwsgAiADTQ0DA0AgBSADQQN0aiIAKAIEIQQgACoCACEKAkAgA0UEQEEAIQEMAQsgAyEAIAogClwEQANAAkAgBSAAQQFrIgdBAXYiAUEDdGoiBioCACIJIAlbIAkgCmBFcQ0AIAQgBkEEaigCAEsNACAAIQEMAwsgBSAAQQN0aiAGKQIANwIAIAEhACAHQQJPDQAMAgsACwNAIAUgAEEBayIHQQF2IgFBA3RqIgYqAgAiCSAJWyAJIApgRXFBfyAJIApfGyIIQQBMIAQgBkEEaigCAE0gCBsEQCAAIQEMAgsgBSAAQQN0aiAGKQIANwIAIAEhACAHQQFLDQALCyAFIAFBA3RqIgAgBDYCBCAAIAo4AgAgA0EBaiIDIAJHDQALDAMLQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyACQQJrIQYgAkEBdiEDA0AgA0EBayIDQQF0IgRBAXIhACAFIANBA3RqIgEoAgQhByABKgIAIQogAyEBAkACQCAEIAZPDQADQAJAIAogBSAAIARBA3QgBWoiAkEQaioCACIJIAlbIAkgBSAAQQN0aiIEKgIAIgtgRXEiCCAIQX8gCSALXxsgCyALXBsiCEEATCAEQQRqKAIAIAJBFGooAgBNIAgbaiICQQN0aiIAKgIAIglgRSAKIApbcUUEQCAJIApgRSAJIAlbcSAHIABBBGooAgBPcg0BCyAFIAFBA3RqIAApAgA3AgAgAkEBdCIEQQFyIQAgAiEBIAQgBkkNAQwCCwsgASEADAELIAQgBkcEQCABIQAMAQsCQCAKIApcIAogBSAAQQN0aiICKgIAIglgciIEIAkgCVwgCSAKYHJxRQRAIARFDQEgASEADAILIAcgAkEEaigCAEkNACABIQAMAQsgBSABQQN0aiACKQIANwIACyAFIABBA3RqIgAgBzYCBCAAIAo4AgAgAw0ACwsL4wgDB38EfQF7IwBBsAFrIgUkAAJ/AkAgASgCCCIHIAJLBEAgBUGAAWogASgCBCACQSRsaiIHEJoDIAX9AASAASIQ/R8AIgwgEP0fASINlEOPws0/ELcKIQ4gDCAQ/R8CIgyUQ4/CzT8QtwohDyANIAyUQ4/CzT8QtwogDiAPkpJDAABAQJVD5kAfPxC3CkPbD0lBlCEMIAcvARQiBkH//wFxRQRAIAZBEHQMAwsgBkH/B3EhByAGQYCAAnEhCCAGQYD4AXEiBkGA+AFGBEAgCEEQdCEGIAZBgICA/AdyIAdFDQMaIAYgB0ENdHJBgICA/gdyDAMLIAhBEHQhCCAGRQ0BIAZBDXRBgICA/ABxIAdBDXRyQYCAgMADaiAIcgwCCyACIAdB1MDHABCMBwALIAhBgICA2ANyIAdnQRBrIgZBF3RrIAcgBkH//wNxQQhqdEH///8DcXILIQggBUEIaiABKAIQIgkgASgCFCIKIAIQ6AIgDCAIvpQhDQJAAn8CQAJAIAUoAiwiBkEJTwRAIAUoAgwiB0UNASAFQQA2AjAgBUEANgJUIAUoAhAMAwsgBg0BCyAAQQE2AiggACACNgIIIABBADYCBCAAIA04AgAMAgsgBUEANgIwIAVBADYCVCAGIQcgBUEMagshCCAHQQJ0IQsgBUGEAWohB0MAAID/IQwDQCAFQYABaiABIAgoAgAgAyAEEJUCIAVB4ABqIAdBCGr9AAIA/QsDACAFQfAAaiAHQRhq/QACAP0LAwAgBSAHKQIANwNYIAhBBGohCCAFKgKAASEOIAVBMGogBUHYAGoQ/wEgDCAOEOAIIQwgC0EEayILDQALIAMoAgghAQJAAkACQAJAAkAgBCAMlCANXwRAIAEgAk0NASADKAIEIAJqQQE6AAALIAEgAk0NASADKAIEIAJqLQAARQRAIAkgCiACQQRBABDkBSAAIAw4AgAgAEEkaiAFQdAAaikCADcCACAAQRRqIAVBQGv9AAIA/QsCACAAIAX9AAIw/QsCBAwGCyAJIAogAiAFKAJUIghBCUkEfyAFQTRqBSAFKAI0IghBgIAETw0DIAUoAjgLIAgQ5AUgAEEBNgIoIAAgAjYCCCAAQQA2AgQgACANOAIAIAUoAlQiAEEJSQ0FIAUoAjgiAUEEaygCACICQXhxIgMgAEECdCIAQQRBCCACQQNxIgIbakkNAyACQQAgAyAAQSdqSxsNBCABEKICDAULIAIgAUHs6sEAEIwHAAsgAiABQfzqwQAQjAcAC0GM68EAQS1BvOvBABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACwJAAkAgBkEJTwRAIAUoAhAiAEEEaygCACIBQXhxIgIgBkECdCIDQQRBCCABQQNxIgEbakkNASABQQAgAiADQSdqSxsNAiAAEKICCyAFQbABaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL9wgCAn0DfwJAAkACQAJAAkACQAJAAkACQAJAIAAoAlxFIAJFckUEQEMAAP5CQwAA/kIgACoCTJUgAC0AWEECRhshBiAAKAIcIAFBCWxqIQkgACgCICEIQQAhAANAIAEgCE8NCiAAIARPDQsgACAJaiIHQf8AQwAA/kJDAAD+wiAGIAMqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQFqIARPDQkgB0EBakH/AEMAAP5CQwAA/sIgBiADQQRqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEECaiAETw0IIAdBAmpB/wBDAAD+QkMAAP7CIAYgA0EIaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBA2ogBE8NByAHQQNqQf8AQwAA/kJDAAD+wiAGIANBDGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQRqIARPDQYgB0EEakH/AEMAAP5CQwAA/sIgBiADQRBqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEFaiAETw0FIAdBBWpB/wBDAAD+QkMAAP7CIAYgA0EUaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBBmogBE8NBCAHQQZqQf8AQwAA/kJDAAD+wiAGIANBGGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxC5ByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQdqIARPDQMgB0EHakH/AEMAAP5CQwAA/sIgBiADQRxqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQuQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEIaiAETw0CIAdBCGpB/wBDAAD+QkMAAP7CIAYgA0EgaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIANBJGohAyAAQQlqIQAgAUEBaiEBIAJBAWsiAg0ACwsPCyAAQQhqIQAMCAsgAEEHaiEADAcLIABBBmohAAwGCyAAQQVqIQAMBQsgAEEEaiEADAQLIABBA2ohAAwDCyAAQQJqIQAMAgsgAEEBaiEADAELIAAgBE8NACABIAhBhMTHABCMBwALIAAgBEH0w8cAEIwHAAuOCQISfwl7IwBBIGsiBiQAAkACQCACQf//A3EiCUEBIAN0akEBayADdiICQf//A00EQCAJRQ0BIAEgASAJQQJ0IgdwayIBIAdPBEAgA0EfcSIOQR1LDQMgByAOQQJqdkEEIA50IghBAWsgB3FBAEdqIREgAkECdCEVIAEgB2shDwNAAkACQCAVIBAgDnZsIgIgBU0EQCAFIAJrQQJ2IgEgESABIBFJGyIWRQ0CIAIgBGohF0EAIQsgACEJIAchDAwBCyACIAUgBUHI2MQAEOoHAAsDQCAIIAcgCCALbCICayIBIAEgCEsbIgEEQCAAIAJqIQIgFyALQQJ0aiIDLAAAIRIgAywAASETIAMsAAIhFCABQYGAgIB8bEEEayIDQSBPBEBBfCAIIAwgCCAMSRtB/////wNsa0ECdiADQQJ2QQFqIgpBB3EiA0EIIAMbIgNrQQFqIQ0gAiAKIANrQQJ0IgNqIQIgASADayEBIBL9ESEcIBP9ESEdIBT9ESEeIAkhAwNAIANBDGogHiAD/QAAACIfIBj9DQEFCQ0AAAAAAAAAAAAAAAD9hwH9pwEiGv21AUEF/a0BIB8gGP0NAAQIDAAAAAAAAAAAAAAAAP2JAf2pAf2uASIZ/RsDOgAAIANBCGogGf0bAjoAACADQQRqIBn9GwE6AAAgAyAZ/RsAOgAAIANBHGogHiADQRBqIgr9AAAAIiAgGf0NAQUJDQAAAAAAAAAAAAAAAP2HAf2nASIY/bUBQQX9rQEgICAZ/Q0ABAgMAAAAAAAAAAAAAAAA/YkB/akB/a4BIhv9GwM6AAAgA0EYaiAb/RsCOgAAIANBFGogG/0bAToAACAKIBv9GwA6AAAgA0EOaiAdIBr9tQFBBf2tASAfIBn9DQIAAAAGAAAACgAAAA4AAAD9rgEgGUEY/asBQRj9rAEgHP21AUEF/a0B/a4BIhr9GwM6AAAgA0EKaiAa/RsCOgAAIANBBmogGv0bAToAACADQQJqIBr9GwA6AAAgA0EeaiAdIBj9tQFBBf2tASAgIBr9DQIAAAAGAAAACgAAAA4AAAD9rgEgG0EY/asBQRj9rAEgHP21AUEF/a0B/a4BIhj9GwM6AAAgA0EaaiAY/RsCOgAAIANBFmogGP0bAToAACADQRJqIBj9GwA6AAAgA0EgaiEDIA1BCGsiDQ0ACwsDQCACIAItAAAgAkEBaiwAACINIBRsQQV2aiIKOgAAIAJBAmoiAyADLQAAIA0gE2xBBXZqIArAIBJsQQV2ajoAACACQQRqIQIgAUEEayIBDQALCyAIIAlqIQkgDCAIayEMIAtBAWoiCyAWRw0ACwsgEEEBaiEQIAAgB2ohACAPQQAgByAHIA9LIgEbayEPIAFFDQALCyAGQSBqJAAPC0HY5sgAQSsgBkEfakHY2MQAQaj7xgAQ4AYACyAGQQA2AhQgBkEBNgIIIAZBvKHHADYCBCAGQgQ3AgwgBkEEakGo2MQAEI0IAAsgBkEANgIUIAZBATYCCCAGQbyhxwA2AgQgBkIENwIMIAZBBGpBuNjEABCNCAAL/gcCE38BfgJAAkACQAJAIAEoAgBBAUYEQCABKAIcIgUgASgCNCIERwRAIAEoAjAhCyAEIQMgBSABKAI8IghBAWsiEGoiAiAETw0CIAEoAjghDSAFIAtqIREgBSAIaiEGIAEoAhgiAyAFaiEOIAggA2shEiAFIAEoAhAiDGtBAWohEyABKQMIIRUgASgCJCIPQX9GIQkgDyEHIAUhAwNAIAMgBUcNAwJAAkAgFSACIAtqMQAAiKdBAXFFBEAgASAGNgIcIAYhAyAJDQJBACECDAELIAwgByAMIAcgDEsbIAkbIgogCCAIIApJGyEUIAohAwJAAkACQANAIAMiAiAURgRAQQAgByAJGyEKIAwhAgNAIAIgCk0EQCABIAY2AhwgD0F/RwRAIAFBADYCJAsgACAGNgIIIAAgBTYCBCAAQQA2AgAPCyACQQFrIgIgCE8NBSACIAVqIgMgBE8NAyACIA1qLQAAIAMgC2otAABGDQALIAEgDjYCHCASIQIgDiEDIAlFDQUMBgsgAiAFaiAETw0CIAJBAWohAyACIA1qLQAAIAIgEWotAABGDQALIAIgE2ohAyAJDQRBACECDAMLIAMgBEH4nscAEIwHAAsgBCAFIApqIgAgACAESRsgBEGIn8cAEIwHAAsgAiAIQeiexwAQjAcACyABIAI2AiQgAiEHCyADIBBqIgIgBEkNAAsgBCEDDAMLIABBAjYCAA8LAkAgAS0ADkUEQCABIAEtAAwiBUEBczoADCABKAI0IQIgASgCMCEEIAEoAgQiA0UNAQJAIAIgA00EQCACIANHDQEMAwsgAyAEaiwAAEG/f0oNAgsgBCACIAMgAkHUuMcAELsJAAsgAEECNgIADwsCQAJAIAIgA0cEQAJ/IAMgBGoiBCwAACICQQBOBEAgAkH/AXEMAQsgBC0AAUE/cSEGIAJBH3EhByAHQQZ0IAZyIAJBX00NABogBC0AAkE/cSAGQQZ0ciEGIAYgB0EMdHIgAkFwSQ0AGiAHQRJ0QYCA8ABxIAQtAANBP3EgBkEGdHJyCyEEQQEhAiAFQQFxRQ0BDAILIAVBAXENASAAQQI2AgAgAUEBOgAODwsCQCAEQYABSQ0AQQIhAiAEQYAQSQ0AQQNBBCAEQYCABEkbIQILIAAgAzYCBCAAQQE2AgAgACACIANqIgA2AgggASAANgIEDwsgACADNgIIIAAgAzYCBCAAQQA2AgAPCyADRQ0BCyADIQIDQAJAIAIgBE8EQCACIARGDQQMAQsgAiALaiwAAEG/f0wNACACIQQMAwsgAkEBaiICDQALC0EAIQQLIAAgBDYCCCAAIAU2AgQgAEEBNgIAIAEgAyAEIAMgBEsbNgIcC7QKAgN8A38jAEEQayIFJAAgALshAQJAIAC8IgZB/////wdxIgRB25+k+gNPBEAgBEHSp+2DBE8EQCAEQdbjiIcETwRAAkACQAJAAkAgBEH////7B00EQCAFQgA3AwgCQCAEQdqfpO4ETQRAIAEgAUSDyMltMF/kP6JEAAAAAAAAOEOgRAAAAAAAADjDoCICRAAAAFD7Ifm/oqAgAkRjYhphtBBRvqKgIQEgAvwCIQQMAQsgBSAEIARBF3ZBlgFrIgRBF3Rrvrs5AwAgBSAFQQhqIAQQdCEEIAZBAE4EQCAFKwMIIQEMAQtBACAEayEEIAUrAwiaIQELIARBA3FBAWsOAwMEAQILIAAgAJMhAAwHCyABIAGiIgFEgV4M/f//37+iRAAAAAAAAPA/oCABIAGiIgJEQjoF4VNVpT+ioCABIAKiIAFEaVDu4EKT+T6iRCceD+iHwFa/oKKgtowhAAwGCyABIAEgAaIiAqIiAyACIAKioiACRKdGO4yHzcY+okR058ri+QAqv6CiIAEgAyACRLL7bokQEYE/okR3rMtUVVXFv6CioKC2IQAMBQsgASABoiIBRIFeDP3//9+/okQAAAAAAADwP6AgASABoiICREI6BeFTVaU/oqAgASACoiABRGlQ7uBCk/k+okQnHg/oh8BWv6CioLYhAAwECyABIAGiIgIgAZqiIgMgAiACoqIgAkSnRjuMh83GPqJEdOfK4vkAKr+goiADIAJEsvtuiRARgT+iRHesy1RVVcW/oKIgAaGgtiEADAMLIARB4Nu/hQRPBEBEGC1EVPshGcBEGC1EVPshGUAgBkEAThsgAaAiAiACIAKiIgGiIgMgASABoqIgAUSnRjuMh83GPqJEdOfK4vkAKr+goiACIAMgAUSy+26JEBGBP6JEd6zLVFVVxb+goqCgtiEADAMLIAZBAE4EQCABRNIhM3982RLAoCIBIAGiIgFEgV4M/f//37+iRAAAAAAAAPA/oCABIAGiIgJEQjoF4VNVpT+ioCABIAKiIAFEaVDu4EKT+T6iRCceD+iHwFa/oKKgtowhAAwDCyABRNIhM3982RJAoCIBIAGiIgFEgV4M/f//37+iRAAAAAAAAPA/oCABIAGiIgJEQjoF4VNVpT+ioCABIAKiIAFEaVDu4EKT+T6iRCceD+iHwFa/oKKgtiEADAILIARB5JfbgARPBEBEGC1EVPshCcBEGC1EVPshCUAgBkEAThsgAaAiAiACoiIBIAKaoiIDIAEgAaKiIAFEp0Y7jIfNxj6iRHTnyuL5ACq/oKIgAyABRLL7bokQEYE/okR3rMtUVVXFv6CiIAKhoLYhAAwCCyAGQQBOBEAgAUQYLURU+yH5v6AiASABoiIBRIFeDP3//9+/okQAAAAAAADwP6AgASABoiICREI6BeFTVaU/oqAgASACoiABRGlQ7uBCk/k+okQnHg/oh8BWv6CioLYhAAwCCyABRBgtRFT7Ifk/oCIBIAGiIgFEgV4M/f//37+iRAAAAAAAAPA/oCABIAGiIgJEQjoF4VNVpT+ioCABIAKiIAFEaVDu4EKT+T6iRCceD+iHwFa/oKKgtowhAAwBCyAEQYCAgMwDTwRAIAEgAaIiAiABoiIDIAIgAqKiIAJEp0Y7jIfNxj6iRHTnyuL5ACq/oKIgAyACRLL7bokQEYE/okR3rMtUVVXFv6CiIAGgoLYhAAwBCyAFIABDAACAA5QgAEMAAIB7kiAEQYCAgARJGzgCCCAFKgIIGgsgBUEQaiQAIAALxgcBDn4gACAANQIgIgIgADUCACIEfCIFIAA0AhAiAUL7nAF+QhCHIAF8IAA0AjAiA0KMlQJ+QhCHfCIGfT4CMCAAIAFCjJUCfkIQhyADIANC+5wBfkIQh3x9IgEgBCACfSIDfD4CECAAIAUgBnw+AgAgACADIAF9PgIgIAAgADQCFCIBQoyVAn5CEIcgADQCNCIDQvucAX5CEIcgA3x9IgIgADUCBCIEIAA1AiQiBX0iBnw+AhQgACAGIAJ9PgIkIAAgBCAFfCICIAEgAUL7nAF+QhCHfCADQoyVAn5CEId8IgR9PgI0IAAgADUCKCIFIAA1AggiBnwiByAANAIYIgFC+5wBfkIQhyABfCAANAI4IgNCjJUCfkIQh3wiCH0+AjggACAGIAV9IgUgAUKMlQJ+QhCHIAMgA0L7nAF+QhCHfH0iBn0iCj4CKCAAIAA1AiwiCyAANQIMIgx8IgkgADQCHCIBQvucAX5CEIcgAXwgADQCPCIDQoyVAn5CEId8Ig19PgI8IAAgByAIfMQiByAANAIAIgh8QgR8Ig4gAiAEfMQiAkL7nAF+QhCHIAJ8IAkgDXzEIgRCjJUCfkIQh3wiCX1CA4g+AgwgACAJIA58QgOIPgIAIAAgCCAHfUIEfCIHIAJCjJUCfkIQhyAEQvucAX5CEIcgBHx9IgJ9QgOIPgIIIAAgAiAHfEIDiD4CBCAAIAUgBnzEIgQgADQCECIFfEIEfCIGIAA0AhQiAkL7nAF+QhCHIAJ8IAFCjJUCfkIQhyADIANC+5wBfkIQh3x9IgMgDCALfSIHfMQiAUKMlQJ+QhCHfCIIfUIDiD4CHCAAIAYgCHxCA4g+AhAgACAFIAR9QgR8IgQgAkKMlQJ+QhCHIAFC+5wBfkIQhyABfH0iAX1CA4g+AhggACABIAR8QgOIPgIUIAAgCsQiAiAANAIgIgR8QgR8IgUgADQCJCIBQvucAX5CEIcgAXwgByADfcQiA0KMlQJ+QhCHfCIGfUIDiD4CLCAAIAUgBnxCA4g+AiAgACAEIAJ9QgR8IgIgAUKMlQJ+QhCHIANC+5wBfkIQhyADfH0iAX1CA4g+AiggACABIAJ8QgOIPgIkIAAgADQCOCICIAA0AjAiBHxCBHwiBSAANAI0IgFC+5wBfkIQhyABfCAANAI8IgNCjJUCfkIQh3wiBn1CA4g+AjwgACAFIAZ8QgOIPgIwIAAgBCACfUIEfCICIAFCjJUCfkIQhyADIANC+5wBfkIQh3x9IgF9QgOIPgI4IAAgASACfEIDiD4CNAuMCgIDfAN/IwBBEGsiBSQAIAC7IQECfQJAAkAgALwiBkH/////B3EiBEHbn6T6A08EQCAEQdKn7YMETwRAIARB1uOIhwRPBEACQAJAAkACQCAEQf////sHTQRAIAVCADcDCAJAIARB2p+k7gRNBEAgASABRIPIyW0wX+Q/okQAAAAAAAA4Q6BEAAAAAAAAOMOgIgJEAAAAUPsh+b+ioCACRGNiGmG0EFG+oqAhASAC/AIhBAwBCyAFIAQgBEEXdkGWAWsiBEEXdGu+uzkDACAFIAVBCGogBBB0IQQgBkEATgRAIAUrAwghAQwBC0EAIARrIQQgBSsDCJohAQsgBEEDcUEBaw4DAwQBAgsgACAAkwwJCyABIAEgAaIiAqIiAyACIAKioiACRKdGO4yHzcY+okR058ri+QAqv6CiIAEgAyACRLL7bokQEYE/okR3rMtUVVXFv6CioKC2DAgLIAEgAaIiAUSBXgz9///fv6JEAAAAAAAA8D+gIAEgAaIiAkRCOgXhU1WlP6KgIAEgAqIgAURpUO7gQpP5PqJEJx4P6IfAVr+goqC2DAcLIAEgAaIiAiABmqIiAyACIAKioiACRKdGO4yHzcY+okR058ri+QAqv6CiIAMgAkSy+26JEBGBP6JEd6zLVFVVxb+goiABoaC2DAYLIAEgAaIiAUSBXgz9///fv6JEAAAAAAAA8D+gIAEgAaIiAkRCOgXhU1WlP6KgIAEgAqIgAURpUO7gQpP5PqJEJx4P6IfAVr+goqC2jAwFCyAEQd/bv4UESw0CIAZBAE4EQCABRNIhM3982RLAoCICIAIgAqIiAaIiAyABIAGioiABRKdGO4yHzcY+okR058ri+QAqv6CiIAIgAyABRLL7bokQEYE/okR3rMtUVVXFv6CioKC2DAULRNIhM3982RLAIAGhIgIgAiACoiIBoiIDIAEgAaKiIAFEp0Y7jIfNxj6iRHTnyuL5ACq/oKIgAiADIAFEsvtuiRARgT+iRHesy1RVVcW/oKKgoLYMBAsgBEHjl9uABEsNAiAGQQBOBEBEGC1EVPsh+T8gAaEiAiACIAKiIgGiIgMgASABoqIgAUSnRjuMh83GPqJEdOfK4vkAKr+goiACIAMgAUSy+26JEBGBP6JEd6zLVFVVxb+goqCgtgwECyABRBgtRFT7Ifk/oCICIAIgAqIiAaIiAyABIAGioiABRKdGO4yHzcY+okR058ri+QAqv6CiIAIgAyABRLL7bokQEYE/okR3rMtUVVXFv6CioKC2DAMLIARBgICAzANPBEAgASABoiIBRIFeDP3//9+/okQAAAAAAADwP6AgASABoiICREI6BeFTVaU/oqAgASACoiABRGlQ7uBCk/k+okQnHg/oh8BWv6CioLYMAwsgBSAAQwAAgHuSOAIIIAUqAggaQwAAgD8MAgtEGC1EVPshGcBEGC1EVPshGUAgBkEAThsgAaAiASABoiIBRIFeDP3//9+/okQAAAAAAADwP6AgASABoiICREI6BeFTVaU/oqAgASACoiABRGlQ7uBCk/k+okQnHg/oh8BWv6CioLYMAQtEGC1EVPshCcBEGC1EVPshCUAgBkEAThsgAaAiASABoiIBRIFeDP3//9+/okQAAAAAAADwP6AgASABoiICREI6BeFTVaU/oqAgASACoiABRGlQ7uBCk/k+okQnHg/oh8BWv6CioLaMCyAFQRBqJAALgQgDBX8DewZ9IAAvAQYhAwJ/IAAvAQQiAkH//wFxRQRAIAJBEHQMAQsgAkH/B3EhBiACQYCAAnEhBCACQYD4AXEiAkGA+AFGBEAgBEEQdCECIAJBgICA/AdyIAZFDQEaIAIgBkENdHJBgICA/gdyDAELIARBEHQhBCACQQ10QYCAgPwAcSAGQQ10ckGAgIDAA2ogBHIgAg0AGiAGIAZnQRBrIgZB//8DcUEIanRB////A3EgBEGAgIDYA3IgBkEXdGtyCyEGIAAvAQghAgJ/IANB//8BcQRAIANB/wdxIQQgA0GAgAJxIQUgA0GA+AFxIgNBgPgBRwRAIAVBEHQhBSADQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogBXIgAw0CGiAEIARnQRBrIgNB//8DcUEIanRB////A3EgBUGAgIDYA3IgA0EXdGtyDAILIAVBEHQhAyADIARBDXRyQYCAgP4HciAEDQEaIANBgICA/AdyDAELIANBEHQLIQMgAf0ABAAhByABKgJEIQsgASoCQCEOIAEqAjwhDCABKgI4IQ0gAf0ABBAhCSABKgI0QwAAgD8CfyACQf//AXEEQCACQf8HcSEEIAJBgIACcSEFIAJBgPgBcSICQYD4AUcEQCAFQRB0IQUgAkENdEGAgID8AHEgBEENdHJBgICAwANqIAVyIAINAhogBCAEZ0EQayICQf//A3FBCGp0Qf///wNxIAVBgICA2ANyIAJBF3RrcgwCCyAFQRB0IQIgAiAEQQ10ckGAgID+B3IgBA0BGiACQYCAgPwHcgwBCyACQRB0C/0RIAb9HAAgA/0cASAH/eUBIgcgB/3mASIIIAf9DQgJCgsAAQIDAAECAwABAgMgCCAIIAf9DQQFBgcAAQIDAAECAwABAgP95AH95AH94wH9HwBDvTeGNRDgCJUiDwJ/IAAvAQoiAUH//wFxRQRAIAFBEHQMAQsgAUH/B3EhACABQYCAAnEhAyABQYD4AXEiAUGA+AFGBEAgA0EQdCEBIAFBgICA/AdyIABFDQEaIAEgAEENdHJBgICA/gdyDAELIANBEHQhAyABQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2ogA3IgAQ0AGiAAIABnQRBrIgBB//8DcUEIanRB////A3EgA0GAgIDYA3IgAEEXdGtyC76UlAJ9IA0gCSAH/eYBIgcgB/0NCAkKCwABAgMAAQIDAAECAyAHIAcgB/0NBAUGBwABAgMAAQIDAAECA/3kAf3kAf0fACIKQwAAAABfDQAaQwAAgD8gCiAPlCIKIA5gDQAaIA0gDCANkyAKIAuVlJIgCiALYEUNABogDEMAAIA/IAyTIAogC5MgDiALk5WUkguUC6UIAQl/IwBBIGsiByQAIARBfHEiBiADaiEFAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCACIANJIgkgAiADayADIAJrIgggAiADSxtBAUZxRQRAIAFBA2siBkEAIAEgBk8bIgYgBSAFIAZLGyEKIAlBACAIQQNLGw0BIAMgCkkNAiADIQUMDgsgA0EBayICIAFPDQMgASAFSSADIAVLcg0EIAYEQCAAIANqIAAgAmotAAAgBvwLAAsgBUEBayECDA0LIAMgCkkNASADIQUMDAsgACADaiELIAAgAmohDEEAIQYDQCADIAZqQQNqIAFPDQQgAiAGaiIFQQNqIAFPDQUgASAFTQ0GIAYgC2oiCCAGIAxqIgktAAA6AAAgBUEBaiINIAFPDQcgCEEBaiAJQQFqLQAAOgAAIAEgBUECaiIFSwRAIAhBAmogCUECai0AADoAACAIQQNqIAlBA2otAAA6AAAgAyAGQQRqIgZqIgUgCk8NDAwBCwsgBSABQfyIxQAQjAcACyABQQRrIQYgAyEFA0AgAkEDaiIDIAFPDQcgAkF8Tw0IIAUgBksNCSAAIAVqIAAgAmooAAA2AAAgAkEEaiECIAogBUEEaiIFSw0ACwwKCyACIAFBpIfFABCMBwALIAMgBSABQbSHxQAQ6gcAC0HEh8UAQS9B9IfFABDrBwALQYSIxQBByABBzIjFABDrBwALIAUgAUHciMUAEIwHAAsgDSABQeyIxQAQjAcAC0EAIAMgAUG8jMUAEOoHAAsgAiACQQRqIAFBvIzFABDqBwALIAdBADYCGCAHQQE2AgwgB0HUnMgANgIIIAdCBDcCECAHQQhqQbyMxQAQjQgACyACIAZqIQILAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIARBA3FBAWsOAwABAg4LIAEgAksNCiACIAFBjInFABCMBwALIAVBAWoiBiABTw0BIAJBAWoiAyABTw0CIAEgAk0NAyABIAVLDQogBSABQdSKxQAQjAcACyAFQQJqIgYgAU8NAyACQQJqIgMgAU8NBCABIAJNDQUgASAFTQ0GIAAgBWogACACai0AADoAACACQQFqIgIgAU8NByAFQQFqIgUgAUkNCSAFIAFBrIzFABCMBwALQayJxQBBL0HcicUAEOsHAAtB7InFAEHIAEG0isUAEOsHAAsgAiABQcSKxQAQjAcAC0HkisUAQS9BlIvFABDrBwALQaSLxQBByABB7IvFABDrBwALIAIgAUH8i8UAEIwHAAsgBSABQYyMxQAQjAcACyACIAFBnIzFABCMBwALIAEgBUsEQCACIQMgBSEGDAILIAUgAUGcicUAEIwHAAsgACAFaiAAIAJqLQAAOgAACyAAIAZqIAAgA2otAAA6AAALIAdBIGokAAvPBwIJfwJ9IAAgASACEOkEAkACQCACBEAgACgChAFBCGohASAAKAKIASEMQQEhCgNAAkACQCAMIAtBA2pLBEAgCkEBayIGIgUgBE8EQCAGIQoMBwsgBCAFayIFQQAgBCAFTxsiBUEBRg0GIAVBAkYNBSADKgIAEMYFvCIHQf///wNxIQggB0GAgICAeHEhBSABQQRrIgkvAQAhDSADQQRqKgIAIQ4gB0GAgID8B3EiBkGAgID8B0YEQCAFQRB2IAhBDXZyQYAEQQAgCBtyQYD4AXIhBQwDCyAFQRB2IQUgBkGAgIC4BEsNASAGQYCAgMQDTwRAIAdBDHYgB0H/3wBxQQBHcSAGQQ12IAhBDXZqQYCAAWogBXJqIQUMAwsgBkGAgICYA0kNAiAIQYCAgARyIgdB/gAgBkEXdiIIa3YhBiAHQR0gCGsiCHZBAXEEfyAGQQMgCHRBAWsgB3FBAEdqBSAGCyAFciEFDAILIAsgC0EEaiAMQdi/wQAQ6gcACyAFQYD4AXIhBQsgA0EIaioCACAJIAVBEHQgDXI2AgAgDhDGBbwiB0H///8DcSEIIAdBgICAgHhxIQUCQCAHQYCAgPwHcSIGQYCAgPwHRgRAIAVBEHYgCEENdnJBgARBACAIG3JBgPgBciEFDAELIAVBEHYhBSAGQYCAgLgETQRAIAZBgICAxANPBEAgB0EMdiAHQf/fAHFBAEdxIAZBDXYgCEENdmpBgIABaiAFcmohBQwCCyAGQYCAgJgDSQ0BIAhBgICABHIiB0H+ACAGQRd2IghrdiEGIAdBHSAIayIIdkEBcQR/IAZBAyAIdEEBayAHcUEAR2oFIAYLIAVyIQUMAQsgBUGA+AFyIQULEMYFvCIIQf///wNxIQkgCEGAgICAeHEhBwJAIAhBgICA/AdxIgZBgICA/AdGBEAgB0EQdiAJQQ12ckGABEEAIAkbckGA+AFyIQcMAQsgB0EQdiEHIAZBgICAuARNBEAgBkGAgIDEA08EQCAIQQx2IAhB/98AcUEAR3EgBkENdiAJQQ12akGAgAFqIAdyaiEHDAILIAZBgICAmANJDQEgCUGAgIAEciIIQf4AIAZBF3YiCWt2IQYgCEEdIAlrIgl2QQFxBH8gBkEDIAl0QQFrIAhxQQBHagUgBgsgB3IhBwwBCyAHQYD4AXIhBwsgASAFQf//A3EgB0EQdHI2AgAgAUEQaiEBIAtBBGohCyAKQQNqIQogA0EMaiEDIAJBAWsiAg0ACwsgAEEBOgDAAQ8LIApBAWohCgsgCiAEQei/wQAQjAcAC6IdAwV+EX8Be0HYtckAKQMAIgMgAa2FIgRCOIYgBEKA/gODQiiGhCAEQoCA/AeDQhiGIARCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCAEQtii0e/CqeW/LX6FIgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRB0LXJACkDACIEQn+FfiIFQjiGIAVCgP4Dg0IohoQgBUKAgPwHg0IYhiAFQoCAgPgPg0IIhoSEIAVCCIhCgICA+A+DIAVCGIhCgID8B4OEIAVCKIhCgP4DgyAFQjiIhISEIAMgBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhH6FIAOJIQdByLXJACgCAEUEQAJAIwBBIGsiDiQAAkACQAJAAkACfwJAAkACQAJAQci1yQACfwJAAkACQEHMtckAKAIAQQFqIggEQEHEtckAKAIAIgkgCUEBaiIMQQN2Ig1BB2wgCUEISRsiCUEBdiAISQRAIAlBAWoiCSAIIAggCUkbIghBD0kNAiAIQf////8BTQRAQX8gCEEDdEEHbkEBa2d2IghB/v//P0sNCCAIQQFqIQoMBwsMDgtBACAMRQ0EGkHAtckAKAIAIQsgDSAMQQdxQQBHaiIIQQFNDQIgCyEKIAhB/v///wNxIg0hCQNAIAogCv0AAwAiGf1NQQf9zQH9DAEBAQEBAQEBAQEBAQEBAQH9TiAZ/Qx/f39/f39/f39/f39/f39//VD9zgH9CwMAIApBEGohCiAJQQJrIgkNAAsgCCANRg0DIA1BA3QhCiAIQQFxIQgMAgsMDAtBBCAIQQhxQQhqIAhBBEkbIQoMAwsgCiALaiEKA0AgCiAKKQMAIgNCf4VCB4hCgYKEiJCgwIABgyADQv/+/fv379+//wCEfDcDACAKQQhqIQogCEEBayIIDQALCwJAIAxBCE8EQCALIAxqIAspAAA3AAAMAQsgDEUNACALQQhqIAsgDPwKAAALQQEhCUEAIQgDQCAIIQsgCSEIAkAgC0HAtckAKAIAIglqLQAAQYABRw0AIAkgC0F/c0EFdGohD0EAIAtrQQV0IRQDQEHEtckAKAIAIg1B2LXJACkDACIDIAkgFGpBIGs1AgCFIgRCOIYgBEKA/gODQiiGhCAEQoCA/AeDQhiGIARCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCAEQtii0e/CqeW/LX6FIgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRB0LXJACkDACIEQn+FfiIFQjiGIAVCgP4Dg0IohoQgBUKAgPwHg0IYhiAFQoCAgPgPg0IIhoSEIAVCCIhCgICA+A+DIAVCGIhCgID8B4OEIAVCKIhCgP4DgyAFQjiIhISEIAMgBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhH6FIAOJpyITcSIQIQogCSAQaikAAEKAgYKEiJCgwIB/gyIDUARAQQghEQNAIAogEWohCiARQQhqIREgCSAKIA1xIgpqKQAAQoCBgoSIkKDAgH+DIgNQDQALCyAJIAN6p0EDdiAKaiANcSIKaiwAAEEATgRAIAkpAwBCgIGChIiQoMCAf4N6p0EDdiEKCyAKIBBrIAsgEGtzIA1xQQhPBEAgCSAKaiIQLQAAIBAgE0EZdiIQOgAAQcC1yQAoAgAgCkEIayANcWpBCGogEDoAACAJIApBf3NBBXRqIQlB/wFGBEBBxLXJACgCACEKQcC1yQAoAgAgC2pB/wE6AABBwLXJACgCACAKIAtBCGtxakEIakH/AToAACAJQRBqIA9BEGr9AAAA/QsAACAJIA/9AAAA/QsAAAwDCyAPIAlBIBCwA0HAtckAKAIAIQkMAQsLIAkgC2ogE0EZdiIJOgAAQcC1yQAoAgAgDSALQQhrcWpBCGogCToAAAsgCCAIIAxJIgpqIQkgCg0AC0HEtckAKAIAIgggCEEBakEDdkEHbCAIQQhJGwtBzLXJACgCAGs2AgAMBQsgCkEIaiIIIApBBXQiC2oiCSAISSAJQfj///8HS3INACAJEHEiCUUNASAJIAtqIQsgCARAIAtB/wEgCPwLAAsgCkEBayINIApBA3ZBB2wgDUEISRshEUHAtckAKAIAIQlBzLXJACgCACIQDQJBAAwDCyAOQQA2AhggDkEBNgIMIA5BxLXEADYCCCAOQgQ3AhAgDkEIakGYtcQAEI0ICwALIAtBCGohEyAJQSBrIRQgCSkDAEJ/hUKAgYKEiJCgwIB/gyEGQQAhCiAJIQgDQCAGUARAA0AgCkEIaiEKIAhBCGoiCCkDAEKAgYKEiJCgwIB/gyIDQoCBgoSIkKDAgH9RDQALIANCgIGChIiQoMCAf4UhBgsgCyANQdi1yQApAwAiAyAUIAZ6p0EDdiAKaiIVQQV0azUCAIUiBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhELSgaqbq/qC16d/fiIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEIARC2KLR78Kp5b8tfoUiA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhEHQtckAKQMAIgRCf4V+IgVCOIYgBUKA/gODQiiGhCAFQoCA/AeDQhiGIAVCgICA+A+DQgiGhIQgBUIIiEKAgID4D4MgBUIYiEKAgPwHg4QgBUIoiEKA/gODIAVCOIiEhIQgAyAEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEfoUgA4mnIhZxIgxqKQAAQoCBgoSIkKDAgH+DIgNQBEBBCCEPA0AgDCAPaiEMIA9BCGohDyALIAwgDXEiDGopAABCgIGChIiQoMCAf4MiA1ANAAsLIAZCAX0gBoMhBiALIAN6p0EDdiAMaiANcSIMaiwAAEEATgRAIAspAwBCgIGChIiQoMCAf4N6p0EDdiEMCyALIAxqIBZBGXYiDzoAACATIAxBCGsgDXFqIA86AAAgCyAMQX9zQQV0aiIMQRBqIAkgFUF/c0EFdGoiD0EQav0AAAD9CwAAIAwgD/0AAAD9CwAAIBBBAWsiEA0AC0HAtckAKAIAIQlBzLXJACgCAAshCkHAtckAIAs2AgBBxLXJACgCACEIQcS1yQAgDTYCAEHItckAIBEgCms2AgAgCEUNACAIIAhBBXRBJ2pBYHEiCmpBCWoiCEUNACAJIAprIglBBGsoAgAiCkF4cSILQQRBCCAKQQNxIgobIAhqSQ0BIApBACALIAhBJ2pLGw0CIAkQogILIA5BIGokAAwDC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgDkEANgIYIA5BATYCDCAOQcS1xAA2AgggDkIENwIQIA5BCGpBmLXEABCNCAALC0HEtckAKAIAIgogB6dxIQggB0IZiCIFQv8Ag0KBgoSIkKDAgAF+IQZBwLXJACgCACEJA0ACfwJAAkAgCCAJaikAACIEIAaFIgNCf4UgA0KBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIDUEUEQANAIAEgCSADeqdBA3YgCGogCnFBBXRrIgtBIGsoAgBGDQIgA0IBfSADgyIDUEUNAAsLIARCgIGChIiQoMCAf4MhAyAXRQRAIANQDQIgA3qnQQN2IAhqIApxIRILQQEgAyAEQgGGg1ANAhogCSASaiwAACIIQQBOBEAgCSAJKQMAQoCBgoSIkKDAgH+DeqdBA3YiEmotAAAhCAsgCSASaiAFp0H/AHEiCzoAACAJIBJBCGsgCnFqQQhqIAs6AABByLXJAEHItckAKAIAIAhBAXFrNgIAIABBgICAgHg2AgBBzLXJAEHMtckAKAIAQQFqNgIAIAkgEkEFdGsiCEEcayIAQRhqIAJBGGooAgA2AgAgACACKQIANwIAIAhBIGsgATYCACAAQQhqIAJBCGr9AAIA/QsCAA8LIAAgC0EcayIB/QACAP0LAgAgASACKQIANwIAIABBGGogAUEYaiIIKAIANgIAIABBEGogAUEQaikCADcCACABQQhqIAJBCGr9AAIA/QsCACAIIAJBGGooAgA2AgAPC0EACyEXIBhBCGoiGCAIaiAKcSEIDAALAAupBwEffyMAQRBrIgYkAAJAAkAgA0EDbCIKQf////8DSw0AIANBDGwiBEH9////B08NAAJAIARFBEBBBCEHDAELIAohCCAEEHEiB0UNAgsgBkEANgIMIAYgBzYCCCAGIAg2AgQCQAJAAkACQAJAAkACQAJAAkACQAJAIAMEQCACIANrIgRBACACIARPGyENIAIgCmsiBEEAIAIgBE8bIQ4gAiADQQlsIgtrIgRBACACIARPGyEPIAIgA0EGbCIMayIEQQAgAiAETxshECABIANqIREgASAKaiESIAEgA0ECdCITaiEUIAEgA0EHbCIVaiEWIAEgA0EKbCIXaiEYIAEgA0EBdCIZaiEaIAEgA0EFbCIbaiEcIAEgA0EDdCIdaiEeIAEgA0ELbCIfaiEgIAEgDGohISABIAtqISJBCCEIQQAhBANAIAIgBEYEQCAEIQUMDQsgBCAORg0JIAQgEEYNCiAEIA9GDQsgASAEai0AACAEIBJqLQAAQQh0ciAEICFqLQAAQRB0ciAEICJqLQAAQRh0ciEJIAYoAgQgBUYEQCAGQQRqQezqxwAQ+gUgBigCCCEHCyAHIAhqQQhrIAk2AgAgBiAFQQFqIgU2AgwgBCANRg0FIAQgE2ogAk8NAiAEIBVqIAJPDQMgBCAXaiACTw0EIAQgEWotAAAgBCAUai0AAEEIdHIgBCAWai0AAEEQdHIgBCAYai0AAEEYdHIhCSAGKAIEIAVGBEAgBkEEakHs6scAEPoFIAYoAgghBwsgByAIakEEayAJNgIAIAYgBUEBaiIJNgIMIAQgGWoiBSACTw0MIAQgG2ogAk8NBiAEIB1qIAJPDQcgBCAfaiACTw0IIAQgGmotAAAgBCAcai0AAEEIdHIgBCAeai0AAEEQdHIgBCAgai0AAEEYdHIhBSAGKAIEIAlGBEAgBkEEakHs6scAEPoFIAYoAgghBwsgByAIaiAFNgIAIAYgCUEBaiIFNgIMIAhBDGohCCADIARBAWoiBEcNAAsLIAAgBikCBDcCACAAQQhqIAZBDGooAgA2AgAgBkEQaiQADwsgA0ECdCAEaiEFDAkLIANBB2wgBGohBQwICyADQQpsIARqIQUMBwsgAyAEaiEFDAYLIANBBWwgBGohBQwFCyADQQN0IARqIQUMBAsgA0ELbCAEaiEFDAMLIAQgCmohBQwCCyAEIAxqIQUMAQsgBCALaiEFCyAFIAJB/OrHABCMBwALQdzqxwAQ/wcLAAuwCAMDfwF8BH0jAEEQayICJAACQCABKAIAQZSAgIB4RgRAAn0CQCAAAn8CQAJAAkACfQJAAkACQAJ9AkACQCABKAIMIgQEQAJ9AkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAggiASgCACIDQYCAgIB4cyADQQBOG0EBaw4KCgABAgMEBQYHCAkLIAEvAQSzDAoLIAEoAgSzDAkLIAEpAwi1DAgLIAEsAASyDAcLIAEuAQSyDAYLIAEoAgSyDAULIAEpAwi0DAQLIAEqAgQMAwsgASsDCCIFtkMAAIA/QwAAgL8gBb1CAFkbmAwCCyABIAJBD2pB2OfAABCVCAwNCyABLQAEswshBiAEQQFGDQQCQAJAAkACQAJAAkACQAJAAkBBFSABKAIQIgNBgICAgHhzIANBAE4bQQFrDgoLAAECAwQFBgcICgsgAS8BFLMMCwsgASgCFLMMCgsgASkDGLUMCQsgASwAFLIMCAsgAS4BFLIMBwsgASgCFLIMBgsgASkDGLQMBQsgASoCFAwECyABKwMYIgW2QwAAgD9DAACAvyAFvUIAWRuYDAMLQQAgAkEPakGk4sAAENsGDAoLIAFBEGogAkEPakHY58AAEJUIDAkLIAEtABSzCyEHIARBAkYNBAJAAkACQAJAAkACQAJAAkACQEEVIAEoAiAiA0GAgICAeHMgA0EAThtBAWsOCgsAAQIDBAUGBwgKCyABLwEkswwLCyABKAIkswwKCyABKQMotQwJCyABLAAksgwICyABLgEksgwHCyABKAIksgwGCyABKQMotAwFCyABKgIkDAQLIAErAygiBbZDAACAP0MAAIC/IAW9QgBZG5gMAwtBASACQQ9qQaTiwAAQ2wYMBgsgAUEgaiACQQ9qQdjnwAAQlQgMBQsgAS0AJLMLIQggBEEDRg0CAkACQAJAAkACQAJAAkACQAJAQRUgASgCMCIDQYCAgIB4cyADQQBOG0EBaw4KDQABAgMEBQYHCAoLIAEvATSzDA0LIAEoAjSzDAwLIAEpAzi1DAsLIAEsADSyDAoLIAEuATSyDAkLIAEoAjSyDAgLIAEpAzi0DAcLIAEqAjQMBgsgASsDOCIFtkMAAIA/QwAAgL8gBb1CAFkbmAwFC0ECIAJBD2pBpOLAABDbBgwCCyABQTBqIAJBD2pB2OfAABCVCAwBC0EDIAJBD2pBpOLAABDbBgs2AgQgAEEBNgIADAMLIAEtADSzCyEJIARBBEcEQCACQQQ2AgggBEH8////AGpB/////wBxQQRqIAJBCGpB6JXBABDbBiEBIABBATYCACAAIAE2AgQMAgsgACAJOAIQIAAgCDgCDCAAIAc4AgggACAGOAIEIABBADYCAAwBCyABIAJBD2pBpOLAABCVCCEBIABBATYCACAAIAE2AgQLIAJBEGokAAvGCAEFfyAAQQhrIgEgAEEEaygCACIDQXhxIgBqIQICQAJAIANBAXENACADQQJxRQ0BIAEoAgAiAyAAaiEAIAEgA2siAUHYuskAKAIARgRAIAIoAgRBA3FBA0cNAUHQuskAIAA2AgAgAiACKAIEQX5xNgIEIAEgAEEBcjYCBCACIAA2AgAPCyABIAMQ1gQLAkACQAJAAkACQAJAAkAgAigCBCIDQQJxRQRAIAJB3LrJACgCAEYNAiACQdi6yQAoAgBGDQMgAiADQXhxIgIQ1gQgASAAIAJqIgBBAXI2AgQgACABaiAANgIAIAFB2LrJACgCAEcNAUHQuskAIAA2AgAPCyACIANBfnE2AgQgASAAQQFyNgIEIAAgAWogADYCAAsgAEGAAkkNAkEfIQIgAUIANwIQIABB////B00EQCAAQSYgAEEIdmciAmt2QQFxIAJBAXRrQT5qIQILIAEgAjYCHCACQQJ0QbC3yQBqIQNBASACdCIEQcy6yQAoAgBxDQMgAyABNgIAIAEgAzYCGCABIAE2AgwgASABNgIIQcy6yQBBzLrJACgCACAEcjYCAAwEC0HcuskAIAE2AgBB1LrJAEHUuskAKAIAIABqIgA2AgAgASAAQQFyNgIEQdi6yQAoAgAgAUYEQEHQuskAQQA2AgBB2LrJAEEANgIACyAAQei6yQAoAgAiAk0NBUHcuskAKAIAIgBFDQVB1LrJACgCACIDQSlJDQRBsLjJACEBA0AgACABKAIAIgVPBEAgACAFIAEoAgRqSQ0GCyABKAIIIQEMAAsAC0HYuskAIAE2AgBB0LrJAEHQuskAKAIAIABqIgA2AgAgASAAQQFyNgIEIAAgAWogADYCAA8LAn9ByLrJACgCACICQQEgAEEDdnQiA3FFBEBByLrJACACIANyNgIAIABB+AFxQcC4yQBqIgAMAQsgAEH4AXEiAkHAuMkAaiEAIAJByLjJAGooAgALIQIgACABNgIIIAIgATYCDCABIAA2AgwgASACNgIIDwsCQAJAIAAgAygCACIDKAIEQXhxRgRAIAMhAgwBCyAAQRkgAkEBdmtBACACQR9HG3QhBANAIAMgBEEddkEEcWoiBSgCECICRQ0CIARBAXQhBCACIQMgAigCBEF4cSAARw0ACwsgAigCCCIAIAE2AgwgAiABNgIIIAFBADYCGCABIAI2AgwgASAANgIIDAELIAVBEGogATYCACABIAM2AhggASABNgIMIAEgATYCCAtBACEBQfC6yQBB8LrJACgCAEEBayIANgIAIAANAUG4uMkAKAIAIgAEQANAIAFBAWohASAAKAIIIgANAAsLQfC6yQBB/x8gASABQf8fTRs2AgAPC0G4uMkAKAIAIgEEQANAIARBAWohBCABKAIIIgENAAsLQfC6yQBB/x8gBCAEQf8fTRs2AgAgAiADTw0AQei6yQBBfzYCAAsLrgcBCX8gACABIAIQzAMCQAJAIAIEQCAAKAJgQQhqIQwgACgCZCENQQEhCgNAAkACQCANIAtBA2pLBEAgCkEBayIBIARPBEAgASEKDAcLIAQgAWsiAUEAIAEgBE0bIgFBAUYNBiABQQJGDQUgAygCACIHQf///wNxIQUgB0GAgICAeHEhCSADQQRqKAIAIQEgB0GAgID8B3EiBkGAgID8B0YEQCAJQRB2IAVBDXZyQYAEQQAgBRtyQYD4AXIhCQwDCyAJQRB2IQkgBkGAgIC4BEsNASAGQYCAgMQDTwRAIAdBDHYgB0H/3wBxQQBHcSAGQQ12IAVBDXZqQYCAAWogCXJqIQkMAwsgBkGAgICYA0kNAiAFQYCAgARyIgVB/gAgBkEXdiIGa3YhByAFQR0gBmsiBnZBAXEEfyAHQQMgBnRBAWsgBXFBAEdqBSAHCyAJciEJDAILIAsgC0EEaiANQYjbwAAQ6gcACyAJQYD4AXIhCQsgA0EIaigCACEHIAFB////A3EhCCABQYCAgIB4cSEGAkAgAUGAgID8B3EiBUGAgID8B0cEQCAGQRB2IQYgBUGAgIC4BE0EQCAFQYCAgMQDTwRAIAFBDHYgAUH/3wBxQQBHcSAFQQ12IAhBDXZqQYCAAWogBnJqIQYMAwsgBUGAgICYA0kNAiAIQYCAgARyIghB/gAgBUEXdiIFa3YhASAIQR0gBWsiBXZBAXEEfyABQQMgBXRBAWsgCHFBAEdqBSABCyAGciEGDAILIAZBgPgBciEGDAELIAZBEHYgCEENdnJBgARBACAIG3JBgPgBciEGCyAHQf///wNxIQggB0GAgICAeHEhAQJAIAdBgICA/AdxIgVBgICA/AdHBEAgAUEQdiEBIAVBgICAuARNBEAgBUGAgIDEA08EQCAHQQx2IAdB/98AcUEAR3EgBUENdiAIQQ12akGAgAFqIAFyaiEBDAMLIAVBgICAmANJDQIgCEGAgIAEciIIQf4AIAVBF3YiBWt2IQcgCEEdIAVrIgV2QQFxBH8gB0EDIAV0QQFrIAhxQQBHagUgBwsgAXIhAQwCCyABQYD4AXIhAQwBCyABQRB2IAhBDXZyQYAEQQAgCBtyQYD4AXIhAQsgDCABOwEAIAxBBGsgCUH//wNxIAZBEHRyNgIAIAxBEGohDCALQQRqIQsgCkEDaiEKIANBDGohAyACQQFrIgINAAsLIABBAToAuAEPCyAKQQFqIQoLIAogBEGY28AAEIwHAAutBwEJfyAAIAEgAhDpBAJAAkAgAgRAIAAoAoQBIQwgACgCiAEhDUEBIQkDQAJAAkAgDSALQQNqSwRAIAlBAWsiASAETwRAIAEhCQwHCyAEIAFrIgFBACABIARNGyIBQQFGDQYgAUECRg0FIAMoAgAiCEH///8DcSEHIAhBgICAgHhxIQYgA0EEaigCACEBIAhBgICA/AdxIgVBgICA/AdGBEAgBkEQdiAHQQ12ckGABEEAIAcbckGA+AFyIQYMAwsgBkEQdiEGIAVBgICAuARLDQEgBUGAgIDEA08EQCAIQQx2IAhB/98AcUEAR3EgBUENdiAHQQ12akGAgAFqIAZyaiEGDAMLIAVBgICAmANJDQIgB0GAgIAEciIIQf4AIAVBF3YiB2t2IQUgCEEdIAdrIgd2QQFxBH8gBUEDIAd0QQFrIAhxQQBHagUgBQsgBnIhBgwCCyALIAtBBGogDUGYu8EAEOoHAAsgBkGA+AFyIQYLIANBCGooAgAhCCABQf///wNxIQogAUGAgICAeHEhBQJAIAFBgICA/AdxIgdBgICA/AdGBEAgBUEQdiAKQQ12ckGABEEAIAobckGA+AFyIQUMAQsgBUEQdiEFIAdBgICAuARNBEAgB0GAgIDEA08EQCABQQx2IAFB/98AcUEAR3EgB0ENdiAKQQ12akGAgAFqIAVyaiEFDAILIAdBgICAmANJDQEgCkGAgIAEciIKQf4AIAdBF3YiB2t2IQEgCkEdIAdrIgd2QQFxBH8gAUEDIAd0QQFrIApxQQBHagUgAQsgBXIhBQwBCyAFQYD4AXIhBQsgDCAGQf//A3EgBUEQdHI2AgAgCEH///8DcSEFIAhBgICAgHhxIQECQCAIQYCAgPwHcSIGQYCAgPwHRgRAIAFBEHYgBUENdnJBgARBACAFG3JBgPgBciEBDAELIAFBEHYhASAGQYCAgLgETQRAIAZBgICAxANPBEAgCEEMdiAIQf/fAHFBAEdxIAZBDXYgBUENdmpBgIABaiABcmohAQwCCyAGQYCAgJgDSQ0BIAVBgICABHIiCEH+ACAGQRd2IgZrdiEFIAhBHSAGayIGdkEBcQR/IAVBAyAGdEEBayAIcUEAR2oFIAULIAFyIQEMAQsgAUGA+AFyIQELIAxBBGogATsBACAMQRBqIQwgC0EEaiELIAlBA2ohCSADQQxqIQMgAkEBayICDQALCyAAQQE6AMABDwsgCUEBaiEJCyAJIARBqLvBABCMBwALqggCB38CfiMAQUBqIgIkAAJAAkACQAJAAkAgASgCFCIDIAEoAhAiBEkEQCABKAIMIQgCfgJAA0AgAyAIai0AACIFQQlrIgZBF0tBASAGdEGTgIAEcUVyDQEgASADQQFqIgM2AhQgAyAERw0ACyAEIQNCAAwBC0KAAgsgBa1CEIaEQoCCuANRDQELAkACQAJAIAJBEGogASgCDCIFIAQgAyAESQR/A0ACQCADIAVqLQAAIgZBCWsOJQAABAQABAQEBAQEBAQEBAQEBAQEBAQEAAQEBAQEBAQEBAQEBAMECyABIANBAWoiAzYCFCADIARHDQALIAQFIAMLQQFqIgEgBCABIARJGxD5ASACKAIUIQEgAigCECEEQRQQcSIDRQ0EIAMgBDYCDCADQQU2AgAgAyABNgIQDAYLIAEgA0EBajYCFCACQRhqIAFBABDHAyACKQMYIgpCA1ENBCACKQMgIQkCQAJAAkAgCqdBAWsOAgABAgsgCUKAgICAEFQNAyACQQE6ACggAiAJNwMwIAJBKGogAkE/akGY58AAEN4GIAEQ6wUhAwwHCyAJQoCAgIAQVA0CIAJBAjoAKCACIAk3AzAgAkEoaiACQT9qQZjnwAAQ3gYgARDrBSEDDAYLIAJBAzoAKCACIAk3AzAgAkEoaiACQT9qQZjnwAAQ3wYgARDrBSEDDAULIAZBMGtB/wFxQQpPBEAgASACQT9qQZjnwAAQ7gEgARDrBSEDDAULIAJBGGogAUEBEMcDIAIpAxgiCkIDUQRAIAIoAiAhAwwFCyACKQMgIQkCfwJAAkACQCAKp0EBaw4CAAECCyAJQoCAgIAQVA0DIAJBAToAKCACIAk3AzAgAkEoaiACQT9qQZjnwAAQ3gYMAgsgCUKAgICAEFQNAiACQQI6ACggAiAJNwMwIAJBKGogAkE/akGY58AAEN4GDAELIAJBAzoAKCACIAk3AzAgAkEoaiACQT9qQZjnwAAQ3wYLIAEQ6wUhAwwECyAAIAk+AgQgAEEBNgIADAQLIAEgA0EBaiIHNgIUAkACQAJAIAQgB00NACABIANBAmoiBTYCFCAHIAhqLQAAQfUARw0BIAUgByAEIAQgB0kbIgdGDQAgASADQQNqIgY2AhQgBSAIai0AAEHsAEcEQCAGIQUMAgsgBiAHRg0AIAEgA0EEaiIFNgIUIAYgCGotAABB7ABHDQEgAEEANgIADAYLIAIgCCAEIAcQ+QEgAigCBCEEIAIoAgAhAUEUEHEiA0UNAiADQQU2AgAMAQsgAkEIaiAIIAQgBRD5ASACKAIMIQQgAigCCCEBQRQQcSIDRQ0BIANBCTYCAAsgAyABNgIMIAAgAzYCBCAAQQI2AgAgAyAENgIQDAMLAAsgAigCICEDCyAAQQI2AgAgACADNgIECyACQUBrJAALmAcCDn8CfiMAQdAAayICJAAgACgCCCEDIAAoAgQhBQJAAn9BASABKAIAIghBIiABKAIEIgooAhAiCxECAA0AGiACIAM2AgggAiAFNgIEIAJBL2qtQoCAgICAB4QhEANAAkAgAkEMaiACQQRqEO0DIAgCfwJAIAIoAgwiBQRAIAIoAhghDCACKAIUIQ1BACACKAIQIgNFDQIaIAMgBWohD0EAIQAgBSEBQQAhBwNAAn8gASwAACIEQQBOBEAgBEH/AXEhBCABQQFqDAELIAEtAAFBP3EhBiAEQR9xIQkgBEFfTQRAIAlBBnQgBnIhBCABQQJqDAELIAEtAAJBP3EgBkEGdHIhBiAEQXBJBEAgBiAJQQx0ciEEIAFBA2oMAQsgCUESdEGAgPAAcSABLQADQT9xIAZBBnRyciEEIAFBBGoLIQkgAkEcaiAEQYGCBBCBAyACLQApIAItAChrQf8BcUEBRwRAAkACQCAAIAdLDQACQCAARQ0AIAAgA08EQCAAIANHDQIMAQsgACAFaiwAAEG/f0wNAQsCQCAHRQ0AIAMgB00EQCADIAdGDQEMAgsgBSAHaiwAAEG/f0wNAQsgCCAAIAVqIAcgAGsgCigCDBEAAEUNAQwHCyAFIAMgACAHQYCKwwAQuwkACyACQThqIAJBJGopAgA3AwAgAiACKQIcIhE3AzAgAi0APCEAAkAgAi0APSIGQYEBTwRAIBGnIQ4DQCAAQf8BcSAGTw0CIABBAWohACAIIA4gCxECAEUNAAsMBwsgACAGIAAgBksbIQYDQCAAIAZGDQEgAkEwaiAAaiEOIABBAWohACAIIA4tAAAgCxECAEUNAAsMBgsCf0EBIARBgAFJDQAaQQIgBEGAEEkNABpBA0EEIARBgIAESRsLIAdqIQALIAcgAWsgCWohByAJIgEgD0cNAAsMAQsgCEEiIAsRAgAMBAtBACAARQ0AGiAAIANPBEAgAyAAIANGDQEaDAULIAAgBWosAABBQEgNBCAACyIBIAVqIAMgAWsgCigCDBEAAA0AIAxFDQEDQCACIA0tAAA6AC8gAkEBNgJEIAJB6InDADYCQCACQQE2AjQgAkHgicMANgIwIAJBATYCPCACIBA3A0ggAiACQcgAajYCOCAIIAogAkEwahDBAw0BIA1BAWohDSAMQQFrIgwNAAsMAQsLQQELIAJB0ABqJAAPCyAFIAMgACADQcyJwwAQuwkAC+MHAwZ/B30BeyMAQZABayICJAAgAiAAKAIAIgb9AAIAIg8gD/0NAAECAwQFBgcICQoLCAkKC/0LBAAgAgJ/IA/9GQYiA0H//wFxRQRAIANBEHQMAQsgA0H/B3EhBCADQYCAAnEhBSADQYD4AXEiA0GA+AFGBEAgBUEQdCIDQYCAgPwHciAERQ0BGiADIARBDXRyQYCAgP4HcgwBCyAFQRB0IgUgA0ENdEGAgID8AHEgBEENdHJBgICAwANqciADDQAaIAQgBGdBEGsiBEH//wNxQQhqdEH///8DcSAFQYCAgNgDciAEQRd0a3ILNgIcIAJDAAAAACAAKAIEIgAqAgAgAC0AHEECRiIEGyIIIAZBEGotAAAiA7NDAAB/Q5VDAACAPyAAKgIEIAQbIAiTIgmUkv0TIAggBkEOai8BACIFIANBEHRyQf8BcbNDAAB/Q5UgCZSS/SAAIAggBUEIdrNDAAB/Q5UgCZSS/SAB/QsEICAGQRFqLwAAIAZBE2otAAAiA0EQdHIiBUEIdiEHQwAAEEEgACoCDCAEGyEJQwAAQMEgACoCCCAEGyEIIAVB/wFxBEAgCCAJIAiTQwAAfkOVIAVBAWtB/wFxs5SSEIkEIQsLIAdB/wFxBEAgCCAJIAiTQwAAfkOVIAdBAWtB/wFxs5SSEIkEIQoLIAIgAwR9IAggCSAIk0MAAH5DlSADQQFrQf8BcbOUkhCJBAVDAAAAAAv9EyAL/SAAIAr9IAH9CwQwQwAAgD8gBkEUai8BACIAQQh2s/0TIAAgBkEWai0AACIGQRB0ckH/AXGz/SAB/QwAAH9DAAB/QwAAf0MAAH9D/ecBIg8gD/3kAf0MAACAvwAAgL8AAIC/AACAv/3kASIP/R8BIgqLkyAP/R8AIgyLkyIIjEMAAAAAEOAIIQkgAiAGs0MAAH9DlUMAAAA/lEPbD0lAlCINEJkCIgsgCiAJIAmMIg4gD/0MAAAAAAAAAAAAAAAAAAAAAP1G/U0iD/3HAf0bAkEBcRuSIgogCCAIlCAKIAqUIAwgCSAOIA/9GwBBAXEbkiIJIAmUkpKRIgqVlP0TIAsgCSAKlZT9IAEgCyAIIAqVlP0gAiANEJsC/SAD/QsEQCACIAJBQGutQoCAgIDAAoQ3A3AgAiACQTBqrUKAgICAoAKENwNoIAIgAkEgaq1CgICAgKAChDcDYCACIAJBHGqtQoCAgIDQAoQ3A1ggAiACrUKAgICAoAKENwNQIAEoAgAgASgCBCACQgU3AoQBIAJBBjYCfCACQeCqxwA2AnggAiACQdAAajYCgAEgAkH4AGoQwQMgAkGQAWokAAuyBwEJfyMAQdAAayIBJABBgYDEACECAkACQCAAKAIEIgQgACgCECIDSQ0AIAAgBCADayIENgIEIAAgACgCACICIANqIgg2AgACQAJAIANBAkYEQCACLQAAIgNBwQBrQV9xQQpqIANBMGsgA0E5SxsiBUEPSw0EIAItAAEiA0HBAGtBX3FBCmogA0EwayADQTlLGyIDQRBPDQQgBUEEdCADciIFwEEATg0BQYCAxAAhAiAFQf8BcSIDQcABSQ0DAn9BAiADQeABSQ0AGkEDIANB8AFJDQAaIANB+AFPDQRBBAshA0EAIQIgAUEAOgATIAFBADsAESABIAU6ABAgASADNgIMIANBAXRBAmshCSABIAFBEGo2AgggAUERaiEFA0AgBEECSQRAQYCAxAAhAgwFCyAAIARBAmsiBDYCBCAAIAIgCGoiBkECajYCACAGLQAAIgdBwQBrQV9xQQpqIAdBMGsgB0E5SxsiB0EPSw0FIAZBAWotAAAiBkHBAGtBX3FBCmogBkEwayAGQTlLGyIGQRBPDQUgBSAHQQR0IAZyOgAAIAVBAWohBSAJIAJBAmoiAkcNAAsMAgtBpPjGAEEoQbywxQAQ6wcAC0EBIQMgAUEBNgIMIAFBADoAEyABQQA7ABEgASAFOgAQIAEgAUEQajYCCAsgAUE4aiABQRBqIAMQ+wJBgIDEACECIAEoAjgNACABKAI8IQAgASABKAJAIgI2AhggASAANgIUIAAgAmohAwJAIAJFDQAgAwJ/IAAsAAAiAkEATgRAIAJB/wFxIQIgAEEBagwBCyAALQABQT9xIQUgAkEfcSEEIAJBX00EQCAEQQZ0IAVyIQIgAEECagwBCyAALQACQT9xIAVBBnRyIQUgAkFwSQRAIAUgBEEMdHIhAiAAQQNqDAELIARBEnRBgIDwAHEgAC0AA0E/cSAFQQZ0cnIhAiAAQQRqCyIERwRAIAQsAAAaDAELIAJBgIDEAEcNAQsgAQJ/QQAhAiADIABrIgRBEE8EQCAAIAQQxwIMAQsgACADRwRAA0AgAiAALAAAQb9/SmohAiAAQQFqIQAgBEEBayIEDQALCyACCzYCNCABQQQ2AiAgAUG8scUANgIcIAFCAzcCKCABIAFBNGqtQoCAgIAQhDcDSCABIAFBFGqtQoCAgICgDYQ3A0AgASABQQhqrUKAgICAsA2ENwM4IAEgAUE4ajYCJCABQRxqQdyxxQAQjQgACyABQdAAaiQAIAIPC0GssMUAEN0JAAvpBwIGfQZ/AkACQAJAIAQEQEMAAHxCIAWVIQUgAUEBdiEQIAFBAWpBAXYhEQNAIAxBCWoiDyADSyANQZuOx+MBS3INA0MAAHxCQwAAfMIgBSACQSBqKgIAlCIHIAdDAAB8wl0bIgcgB0MAAHxCXhsQuQchB0MAAHxCQwAAfMIgBSACQRxqKgIAlCIIIAhDAAB8wl0bIgggCEMAAHxCXhsQuQchCEMAAHxCQwAAfMIgBSACQRBqKgIAlCIJIAlDAAB8wl0bIgkgCUMAAHxCXhsQuQchCUMAAHxCQwAAfMIgBSACQRRqKgIAlCIKIApDAAB8wl0bIgogCkMAAHxCXhsQuQchCkMAAHxCQwAAfMIgBSACQRhqKgIAlCILIAtDAAB8wl0bIgsgC0MAAHxCXhsQuQchCyANIBFGDQQgAEH/AEMAAHxCQwAAfMIgBSACKgIAlCIGIAZDAAB8wl0bIgYgBkMAAHxCXhsQuQciBvwAQYB/IAZDAAAAw2AbIAZDAAD+Ql4bQQAgBiAGWxtB/wBxQf8AQwAAfEJDAAB8wiAFIAJBBGoqAgCUIgYgBkMAAHzCXRsiBiAGQwAAfEJeGxC5ByIG/ABBgH8gBkMAAADDYBsgBkMAAP5CXhtBACAGIAZbG0H/AHFBB3RyQf8AQwAAfEJDAAB8wiAFIAJBCGoqAgCUIgYgBkMAAHzCXRsiBiAGQwAAfEJeGxC5ByIG/ABBgH8gBkMAAADDYBsgBkMAAP5CXhtBACAGIAZbG0H/AHFBDnRyQf8AQwAAfEJDAAB8wiAFIAJBDGoqAgCUIgYgBkMAAHzCXRsiBiAGQwAAfEJeGxC5ByIG/ABBgH8gBkMAAADDYBsgBkMAAP5CXhtBACAGIAZbG0H/AHFBFXRyQf8AIAn8AEGAfyAJQwAAAMNgGyAJQwAA/kJeG0EAIAkgCVsbQf8AcSIMQRx0cjYCACANIBBGDQIgAEEEakH/ACAI/ABBgH8gCEMAAADDYBsgCEMAAP5CXhtBACAIIAhbG0H/AHFBEXRB/wAgB/wAQYB/IAdDAAAAw2AbIAdDAAD+Ql4bQQAgByAHWxtB/wBxQRh0ckH/ACAK/ABBgH8gCkMAAADDYBsgCkMAAP5CXhtBACAKIApbG0H/AHFBA3QgDEEEdnJB/wAgC/wAQYB/IAtDAAAAw2AbIAtDAAD+Ql4bQQAgCyALWxtB/wBxQQp0cnI2AgAgAEEIaiEAIA5BAmohDiACQSRqIQIgDyEMIAQgDUEBaiINRw0ACwsPCyAOQQFqIAFBoM7HABCMBwALIAwgDyADQbDOxwAQ6gcACyAOIAFBkM7HABCMBwAL/AoCC3sIfyADBEAgBSABIAJrIhFBACABIBFPGyIWIAUgFkkbIhEgA0EBayISIBEgEkkbQQFqIhJBBEsEQCAC/REhDv0MAAAAAAEAAAACAAAAAwAAACELIAQhESASIBJBA3EiE0EEIBMbayITIRIDQCAAIAsgDv2uASIM/RsAQRhsaiAR/QACACIG/Qz//38A//9/AP//fwD//38A/U4iB0EN/a0BIAb9DAAAAIAAAACAAAAAgAAAAID9TkEQ/a0BIgj9UCIJIAf9DAAAAAAAAAAAAAAAAAAAAAD9OP0MAAIAAAACAAAAAgAAAAIAAP1O/VAgBv0NAAEEBQgJDA0AAQABAAEAAf0MAHwAfAB8AHwAfAB8AHwAfCIN/VAgCCAG/Q0AAQQFCAkMDQABAAEAAQABIA39UCAJIAb9DAAAgH8AAIB/AACAfwAAgH8iDf1OIglBDf2tAf0MAEAAAABAAAAAQAAAAEAAAP2uAf1QIAb9DQABBAUICQwNAAEAAQABAAEgBv0MABAAAAAQAAAAEAAAABAAAP1OIAr9OCAG/Qz/LwAA/y8AAP8vAAD/LwAA/U4gCv04/U79DAEAAAABAAAAAQAAAAEAAAD9TiAG/Q0AAQQFCAkMDQABAAEAAQAB/Y4BIAj9DAAAgPoAAID6AACA+gAAgPoiCCAH/QwAAIAAAACAAAAAgAAAAIAA/VAiBv0bAP0MfgAAAH4AAAB+AAAAfgAAACAJQRf9rQEiD/2xASIH/RsAdv0RIAb9GwEgB/0bAXb9HAEgBv0bAiAH/RsCdv0cAiAG/RsDIAf9GwN2/RwDIAn9DAAAgMcAAIDHAACAxwAAgMf9rgEiECAI/ToiCEEB/QwdAAAAHQAAAB0AAAAdAAAAIA/9sQH9DB8AAAAfAAAAHwAAAB8AAAD9TiIH/RsAIhV0/RFBASAH/RsBIhR0/RwBQQEgB/0bAiIXdP0cAkEBIAf9GwMiGHT9HAMgBv1OIAr9OP1QQQMgFXT9EUEDIBR0/RwBQQMgF3T9HAJBAyAYdP0cA/0M//////////////////////2uASAG/U4gCv04/U79sQEgCP1S/VAgBv0NAAEEBQgJDA0AAQABAAEAASAQ/QwBAIAOAQCADgEAgA4BAIAO/TogBv0NAAEEBQgJDA0AAQABAAEAAf1SIAn9DAAAAEcAAABHAAAARwAAAEf9PCAG/Q0AAQQFCAkMDQABAAEAAQAB/VIgCSAN/TcgBv0NAAEEBQgJDA0AAQABAAEAAf1SIgb9WQEMACAAIAz9GwFBGGxqIAb9WQEMASAAIAz9GwJBGGxqIAb9WQEMAiAAIAz9GwNBGGxqIAb9WQEMAyARQRBqIREgC/0MBAAAAAQAAAAEAAAABAAAAP2uASELIBJBBGsiEg0ACwsgBCATQQJ0aiERIAIgE2pBGGwgAGpBDGohEgNAAkACQCATIBZHBEAgBSATRwRAIBEoAgAiFUH///8DcSEUIBVBgICAgHhxIQQgFUGAgID8B3EiAEGAgID8B0YEQCAUQQ12IARBEHZyQYAEQQAgFBtyQYD4AXIhBAwECyAEQRB2IQQgAEGAgIC4BEsNAiAAQYCAgMQDTwRAIBVBDHYgFUH/3wBxQQBHcSAAQQ12IBRBDXZqQYCAAWogBHJqIQQMBAsgAEGAgICYA0kNAyAUQYCAgARyIhVB/gAgAEEXdiIUa3YhACAVQR0gFGsiFHZBAXEEfyAAQQMgFHRBAWsgFXFBAEdqBSAACyAEciEEDAMLIAUgBUGEw8cAEIwHAAsgAiATaiABQey7xwAQjAcACyAEQYD4AXIhBAsgEiAEOwEAIBJBGGohEiARQQRqIREgAyATQQFqIhNHDQALCwv8CgILewh/IAMEQCAFIAEgAmsiEUEAIAEgEU8bIhYgBSAWSRsiESADQQFrIhIgESASSRtBAWoiEkEESwRAIAL9ESEO/QwAAAAAAQAAAAIAAAADAAAAIQsgBCERIBIgEkEDcSITQQQgExtrIhMhEgNAIAAgCyAO/a4BIgz9GwBBJGxqIBH9AAIAIgb9DP//fwD//38A//9/AP//fwD9TiIHQQ39rQEgBv0MAAAAgAAAAIAAAACAAAAAgP1OQRD9rQEiCP1QIgkgB/0MAAAAAAAAAAAAAAAAAAAAAP04/QwAAgAAAAIAAAACAAAAAgAA/U79UCAG/Q0AAQQFCAkMDQABAAEAAQAB/QwAfAB8AHwAfAB8AHwAfAB8Ig39UCAIIAb9DQABBAUICQwNAAEAAQABAAEgDf1QIAkgBv0MAACAfwAAgH8AAIB/AACAfyIN/U4iCUEN/a0B/QwAQAAAAEAAAABAAAAAQAAA/a4B/VAgBv0NAAEEBQgJDA0AAQABAAEAASAG/QwAEAAAABAAAAAQAAAAEAAA/U4gCv04IAb9DP8vAAD/LwAA/y8AAP8vAAD9TiAK/Tj9Tv0MAQAAAAEAAAABAAAAAQAAAP1OIAb9DQABBAUICQwNAAEAAQABAAH9jgEgCP0MAACA+gAAgPoAAID6AACA+iIIIAf9DAAAgAAAAIAAAACAAAAAgAD9UCIG/RsA/Qx+AAAAfgAAAH4AAAB+AAAAIAlBF/2tASIP/bEBIgf9GwB2/REgBv0bASAH/RsBdv0cASAG/RsCIAf9GwJ2/RwCIAb9GwMgB/0bA3b9HAMgCf0MAACAxwAAgMcAAIDHAACAx/2uASIQIAj9OiIIQQH9DB0AAAAdAAAAHQAAAB0AAAAgD/2xAf0MHwAAAB8AAAAfAAAAHwAAAP1OIgf9GwAiFXT9EUEBIAf9GwEiFHT9HAFBASAH/RsCIhd0/RwCQQEgB/0bAyIYdP0cAyAG/U4gCv04/VBBAyAVdP0RQQMgFHT9HAFBAyAXdP0cAkEDIBh0/RwD/Qz//////////////////////a4BIAb9TiAK/Tj9Tv2xASAI/VL9UCAG/Q0AAQQFCAkMDQABAAEAAQABIBD9DAEAgA4BAIAOAQCADgEAgA79OiAG/Q0AAQQFCAkMDQABAAEAAQAB/VIgCf0MAAAARwAAAEcAAABHAAAAR/08IAb9DQABBAUICQwNAAEAAQABAAH9UiAJIA39NyAG/Q0AAQQFCAkMDQABAAEAAQAB/VIiBv1ZARQAIAAgDP0bAUEkbGogBv1ZARQBIAAgDP0bAkEkbGogBv1ZARQCIAAgDP0bA0EkbGogBv1ZARQDIBFBEGohESAL/QwEAAAABAAAAAQAAAAEAAAA/a4BIQsgEkEEayISDQALCyAEIBNBAnRqIREgAiATakEkbCAAakEUaiESA0ACQAJAIBMgFkcEQCAFIBNHBEAgESgCACIVQf///wNxIRQgFUGAgICAeHEhBCAVQYCAgPwHcSIAQYCAgPwHRgRAIBRBDXYgBEEQdnJBgARBACAUG3JBgPgBciEEDAQLIARBEHYhBCAAQYCAgLgESw0CIABBgICAxANPBEAgFUEMdiAVQf/fAHFBAEdxIABBDXYgFEENdmpBgIABaiAEcmohBAwECyAAQYCAgJgDSQ0DIBRBgICABHIiFUH+ACAAQRd2IhRrdiEAIBVBHSAUayIUdkEBcQR/IABBAyAUdEEBayAVcUEAR2oFIAALIARyIQQMAwsgBSAFQdTFxwAQjAcACyACIBNqIAFB5MDHABCMBwALIARBgPgBciEECyASIAQ7AQAgEkEkaiESIBFBBGohESADIBNBAWoiE0cNAAsLC7wJAgJ/AXsjAEHQAGsiAiQAIAJBDmpBADoAACACQR5qQQA6AAAgAkEmakEAOgAAIAJBLmpBADoAACACQTZqQQA6AAAgAkE+akEAOgAAIAJBxgBqQQA6AAAgAkEAOwEMIAJBFmpBADoAACACQQA7ARwgAkEAOwEkIAJBADsBLCACQQA7ATQgAkEAOwE8IAJBADsBRCACQQA7ARQgAkHOAGpBADoAACACQQA7AUxBgCEQcSIDBEAgA0HI1cYAQYAh/AoAACAAQQE2AnAgAP0MAAAAAAAAAAAAAAAAAAAAAP0LAnQgAEL/gYCAgH83AoQBIABBADYCoAUgAEHyAToAkwEgAEEANgKYBCAAQoCAgIAQNwOQBCAAQQA6AKYFIABBADsBpAUgAEKAgICAEDcDACAAQgA3AwggAEIBNwMQIABCgICAgBA3AxggAEHoA2ogAUEQaikDADcDACAAIAH9AAMA/QsD2AMgACACKAIINgKMASAAQY8BaiACKAALNgAAIABBJ2pCADcAACAAQgA3AyAgAEIANwMwIABBN2pCADcAACAAQgA3A0AgAEHHAGpCADcAACAAQgA3A1AgAEHXAGpCADcAACAAQgA3A2AgAEHnAGpCADcAACAAIAT9CwPwAyAAQYAEaiAE/QsDACAAQQE2ApgBIAAgBP0LApwBIABC/4GAgIB/NwKsASAAQbcBaiACKAATNgAAIAAgAigCEDYCtAEgACAE/QsCxAEgAEEBNgLAASAAQfIBOgC7ASAAQv+BgICAfzcC1AEgAEHyAToA4wEgACAE/QsC7AEgAEEBNgLoASAAQv+BgICAfzcC/AEgAEEBNgKQAiAAIAT9CwKUAiAAQfIBOgCLAiAAQd8BaiACKAAbNgAAIAAgAigCGDYC3AEgAEGHAmogAigAIzYAACAAIAIoAiA2AoQCIABC/4GAgIB/NwKkAiAAQa8CaiACKAArNgAAIAAgAigCKDYCrAIgACAE/QsCvAIgAEEBNgK4AiAAQfIBOgCzAiAAQv+BgICAfzcCzAIgAEHXAmogAigAMzYAACAAIAIoAjA2AtQCIAAgBP0LAuQCIABBATYC4AIgAEHyAToA2wIgAEL/gYCAgH83AvQCIABB/wJqIAIoADs2AAAgACACKAI4NgL8AiAAIAT9CwKMAyAAQQE2AogDIABB8gE6AIMDIABC/4GAgIB/NwKcAyAAQacDaiACKABDNgAAIAAgAigCQDYCpAMgACAE/QsCtAMgAEEBNgKwAyAAQfIBOgCrAyAAQv+BgICAfzcCxAMgAEHPA2ogAigASzYAACAAIAIoAkg2AswDIABBAToApwUgAEHyAToA0wMgAEH8BGpB0PbGACgAADYAACAAQcj2xgApAAA3APQEIABBADoAqAUgACADNgLwBCAAQQA6AIAFIABCADcCpAQgAEKAgICAEDcCnAQgAEGYBWpCADcBACAAQZIFakIANwEAIAAgBP0LAYIFIABBADYC7AQgAEKAgICAEDcC5AQgAEIBNwLcBCAAQgA3AtQEIABCgICAgBA3AswEIABCATcCxAQgAEIANwK8BCAAQoCAgIAQNwK0BCAAQgE3AqwEIAJB0ABqJAAPCwAL2AcCDH8BeyMAQYAIayIGJAACQAJAAkAgASgC2AFBgYCAgHhHBEAgASgC3AEhAiABKALgASEHIAEoAtABIQsgASgC1AEhDCABKALMASENQQAhAQNAIAEgBmr9DAAAAP8AAAD/AAAA/wAAAP/9CwAAIAFBEGoiAUGACEcNAAsgB0EDbiEKIAdBBE8EQCAHQQRrIgFBC00EQEGAAiEEIAYhASAHIQMMAwtBgAJBgAIgAUEDbiIBIAFBgAJPG0EBaiIBIAFBA3EiAUEEIAEbayIFayEEIAcgBUF9bGohAyACIAVBA2xqIAYgBUECdGohASAGIQgDQCAIIAJBCWogAkEGaiACQQNqIAL9XAAA/VYAAAH9VgAAAv1WAAAD/QsAACACQQxqIQIgCEEQaiEIIAVBBGsiBQ0ACyECDAILIAYhASAHIQMgB0UNAwwCC0GgmcUAQRRBtJnFABCrBwALA0AgBEUEQEEAQQBB9JnFABCMBwALIAEgAigAADYAACABQQRqIQEgBEEBayEEIAJBA2ohAiADQQNrIgNBA0sNAAsgBA0AQQBBAEHEmcUAEIwHAAsgA0EDRgRAIAEgAi8AADsAACABQQJqIAJBAmotAAA6AAAMAQtBAEEDIANB1JnFABDqBwALAkBBAEEAIAwgDUGBgICAeEYiARsiAyADIApLIgMbIghFDQBBAUEBIAsgAxsgARshA0GAAiAIIAhBgAJPGyEJQQAhBSAIQRBPBEAgCUHwA3EhBSAJQQJ0QUBxIQtBACEBIAMhBANAIAEgBmoiAkE/aiAE/QAAACIO/VgAAA8gAkE7aiAO/VgAAA4gAkE3aiAO/VgAAA0gAkEzaiAO/VgAAAwgAkEvaiAO/VgAAAsgAkEraiAO/VgAAAogAkEnaiAO/VgAAAkgAkEjaiAO/VgAAAggAkEfaiAO/VgAAAcgAkEbaiAO/VgAAAYgAkEXaiAO/VgAAAUgAkETaiAO/VgAAAQgAkEPaiAO/VgAAAMgAkELaiAO/VgAAAIgAkEHaiAO/VgAAAEgAkEDaiAO/VgAAAAgBEEQaiEEIAsgAUFAayIBRw0ACyAFIAlGDQELIAkgBWshBCADIAVqIQIgBUECdCAGakEDaiEBA0AgASACLQAAOgAAIAJBAWohAiABQQRqIQEgBEEBayIEDQALCyAHQYMGSQRAIAggCkcEQCAKQQJ0IAhBAnQiB2shASAGIAdqQQNqIQIDQCACQf8BOgAAIAJBBGohAiABQQRrIgENAAsLIAAgBkGACPwKAAAgBkGACGokAA8LIAggCkGAAkHkmcUAEOoHAAvSCAEEfyMAQSBrIgIkAAJAAkACQAJAAkACQAJAAkAgAC0AAEEBaw4DAQIDAAsgAiAAKAIENgIEIAEoAgBBoPvHAEECIAEoAgQoAgwRAAAhACACQQA6AA0gAiAAOgAMIAIgATYCCCACQQhqQbT7xwBBBCACQQRqQaT7xwAQjAUgAkEpOgATQcj7xwBBBCACQRNqQbj7xwAQjAVBFBBxIgBFDQQgAEEQakHcgsgAKAAANgAAIABBzILIAP0AAAD9CwAAIAJBFDYCHCACIAA2AhggAkEUNgIUQdz7xwBBByACQRRqQcz7xwAQjAUhASACLQANIgMgAi0ADCIEciEAAkAgBEEBcSADQQFHcg0AIAEoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEADAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAAsgAigCFCIBRQ0DIAIoAhgiA0EEaygCACIEQXhxIgVBBEEIIARBA3EiBBsgAWpJDQUgBEEAIAUgAUEnaksbDQYgAxCiAgwDCyAALQABIQNBASEAIAEoAgBB4/vHAEEEIAEoAgQoAgwRAAANAgJAIAEtAApBgAFxRQRAIAEoAgBBu7PFAEEBIAEoAgQoAgwRAAANBCABKAIAIANBAnQiAygCpKhJIAMoAvymSSABKAIEKAIMEQAARQ0BDAQLIAEoAgBB24HCAEECIAEoAgQoAgwRAAANAyACQQE6AAggAiABKQIANwIUIANBAnQiAygCzKlJIQQgAygC9KpJIQMgAiACQQhqNgIcIAJBFGoiBSADIAQQrwMNAyAFQdmBwgBBAhCvAw0DCyABKAIAQd6OyABBASABKAIEKAIMEQAAIQAMAgsgACgCBCEAIAEoAgBB5/vHAEEFIAEoAgQoAgwRAAAhAyACQQA6ABkgAiADOgAYIAIgATYCFCACQRRqQcj7xwBBBCAAQQhqQbj7xwAQjAVB3PvHAEEHIABB7PvHABCMBSACLQAZIgMgAi0AGCIEciEAIARBAXEgA0EBR3INASgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQAMAgsgACgCAEGls8UAQQEgACgCBCgCDBEAACEADAELIAIgACgCBCIANgIIIAEoAgBBjPzHAEEGIAEoAgQoAgwRAAAhAyACQQA6ABkgAiADOgAYIAIgATYCFCACQRRqQcj7xwBBBCAAQQhqQbj7xwAQjAVBupjIAEEFIAJBCGpB/PvHABCMBSACLQAZIgMgAi0AGCIEciEAIARBAXEgA0EBR3INACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQAMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEACyACQSBqJAAgAEEBcQ8LAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALvQcDCX8CfAJ+IwBBMGsiBCQAAkACQAJAAkACQAJAAkACQAJAAkACQCABKAIUIgYgASgCECIFSQRAIAEoAgwiCSAGai0AACIHQS5GDQEgB0HFAEYgB0HlAEZyDQILIAJFDQJCASEPDAgLIAEgBkEBaiIGNgIUIAUgBk0NAyAGIAVrIQcCQANAIAYgCWotAAAiCkEwayILQf8BcSIMQQpPBEAgCEUNBiAKQSByQeUARwRAIAghBwwGCyAEQSBqIAEgAiADIAgQ2AIMCAsgDEEFSyADQpmz5syZs+bMGVJyIANCmLPmzJmz5swZVnENASABIAZBAWoiBjYCFCAIQQFrIQggA0IKfiALrUL/AYN8IQMgBSAGRw0ACyAFIQYgB0UNBQwDCyAEQSBqIAEgAiADIAgQ6AYMBQsgBEEgaiABIAIgA0EAENgCIAQoAiBFDQUgACAEKAIkNgIIIABCAzcDAAwHC0IAIAN9IhBCAFMEQEICIQ8gECEDDAYLIAO6vUKAgICAgICAgIB/hCEDDAULIAO6IQ0CQAJAAkAgByAHQR91IgFzIAFrIgFBtQJPBEADQCANRAAAAAAAAAAAYQ0EIAdBAE4NAiANRKDI64XzzOF/oyENIAdBtAJqIgcgB0EfdSIBcyABayIBQbUCTw0ACwsgAUEDdCsDoIJHIQ4gB0EATg0BIA0gDqMhDQwCCyAEQRBqIAkgBSAGEPkBIAQoAhQhAiAEKAIQIQVBFBBxIgFFDQggASAFNgIMIAFBDjYCACABIAI2AhAgBCABNgIkIARBATYCIAwECyANIA6iIg2ZRAAAAAAAAPB/Yg0AIARBCGogCSAFIAYQ+QEgBCgCDCECIAQoAgghBUEUEHEiAUUNByABIAU2AgwgAUEONgIAIAEgAjYCECAEIAE2AiQgBEEBNgIgDAMLIAQgDSANmiACGzkDKCAEQQA2AiAMAgsgBSAGTQ0AIARBGGogCSAFIAZBAWoiASAFIAEgBUkbEPkBIAQoAhwhAiAEKAIYIQVBFBBxIgFFDQUgASAFNgIMIAFBDTYCACABIAI2AhAgBCABNgIkIARBATYCIAwBCyAEIAkgBSAGQQFqIgEgBSABIAVJGxD5ASAEKAIEIQIgBCgCACEFQRQQcSIBRQ0EIAEgBTYCDCABQQU2AgAgASACNgIQIAQgATYCJCAEQQE2AiALIAQoAiBFDQAgACAEKAIkNgIIIABCAzcDAAwCCyAEKQMoIQMLIAAgAzcDCCAAIA83AwALIARBMGokAA8LAAvqBwENfyMAQUBqIgUkAEEAELYJIQYgBUEQakEAOgAAIAVBPGogBEEYaigCADYCACAFQTRqIARBEGopAgA3AgAgBUEaaiAEQR9qLQAAOgAAIAVCADcDCCAFIAT9AAIA/QsCJCAFIAQvAB07ARggBC0AHCEPIAEQuAohECAGQYQITwRAIAYQmwcLAkAgA0UEQAwBC0H458AAQQMQ7AghBCADKAIAIgogBBDiCCEIQbS7yQAtAAAhA0G0u8kAQQA6AABBuLvJACgCAEG4u8kAQQA2AgAgCCADGyELAkACQAJAIANFBEAgCxC5CkUEQEEBIQkMBAsgC0GDCEsNAQwCCyALQYQISQ0CCyALEJsHCwsgBEGECE8EQCAEEJsHCyAKQfvnwABBAxDsCCIDEOIIIQhBtLvJAC0AACEEQbS7yQBBADoAAEG4u8kAKAIAQbi7yQBBADYCACAIIAQbIQYCfwJAAkAgBEUEQCAGELkKRQRAQQEhDUECDAQLIAZBgwhLDQEMAgsgCSAGQYQISQ0CGgsgBhCbBwsgCQshCCADQYQITwRAIAMQmwcLIApBjOzAAEEDEOwIIgQQ4gghA0G0u8kALQAAIQdBtLvJAEEAOgAAQbi7yQAoAgBBuLvJAEEANgIAIAMgBxshAwJAAkACQCAHRQRAIAMQuQpFBEBBASEMQQMhCAwECyADQYMISw0BDAILIANBhAhJDQILIAMQmwcLCyAEQYQITwRAIAQQmwcLQQAhByAKQYbowABBBxDsCCIKEOIIIQRBtLvJAC0AACEOQbS7yQBBADoAAEG4u8kAKAIAQbi7yQBBADYCACAEIA4bIQQCQAJAAkAgDkUEQCAEELkKRQRAQQEhD0EBIQcMBAsgBEGDCEsNAQwCCyAEQYQISQ0CCyAEEJsHCwsgCkGECEkNACAKEJsHCyAAQYCAgIB4NgJ0IABBgICAgHg2AmggAEIENwJgIABCADcCWCAAQoCAgIDAADcCUCAAQgQ3AkggAEIANwJAIABCgICAgMAANwI4IAAgBDYCNCAAIAc2AjAgAEEANgIoIABBADYCICAAQQA2AhggACADNgIUIAAgDDYCECAAIAY2AgwgACANNgIIIAAgCzYCBCAAIAk2AgAgACAPOgCcASAAIAE2AqwBIAAgCDYCqAEgACACNgKkASAAIBBBAnY2AqABIABBmAFqIAVBPGooAgA2AgAgAEGIAWogBUEsav0AAgD9CwIAIAAgBf0AAhz9CwJ4IAAgBS8BGDsAnQEgAEGfAWogBUEaai0AADoAACAAIAUpAwg3ArABIABBuAFqIAVBEGotAAA6AAAgBUFAayQAC8cHAgZ/AnsCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAFFBEBBBCELDAELIAFBAnQQcSILRQ0BIAFBBE8EQCABQXxxIgwhCQNAIAggC2ogACAIav0AAgD9DLtukD67bpA+u26QPrtukD795gH9DAAAAD8AAAA/AAAAPwAAAD/95AH9CwIAIAhBEGohCCAJQQRrIgkNAAsgASAMRg0BCyAMQQJ0IQggASAMayEJA0AgCCALaiAAIAhqKgIAQ7tukD6UQwAAAD+SOAIAIAhBBGohCCAJQQFrIgkNAAsLQYAIEHEiAEUNAP0MAAAAAAEAAAACAAAAAwAAACEOQQAhCANAIAAgCGoiCSAO/fsB/QwAAH9DAAB/QwAAf0MAAH9DIg/95wH9CwIAIAlBEGogDv0MBAAAAAQAAAAEAAAABAAAAP2uAf37ASAP/ecB/QsCACAO/QwIAAAACAAAAAgAAAAIAAAA/a4BIQ4gCEEgaiIIQYAIRw0ACwJAAkAgBwRAQQAhCUEAIQgDQCADIAhNDQUgASACIAhqIgwtAAAiCk0NBiAFIAlNDQcgBCALIApBAnRqKgIAOAIAIAhBAWoiCiADTw0IIAEgDEEBai0AACIKTQ0JIAlBAWoiDSAFTw0KIARBBGogCyAKQQJ0aioCADgCACAIQQJqIgogA08NCyABIAxBAmotAAAiCk0NDCAJQQJqIg0gBU8NDSAEQQhqIAsgCkECdGoqAgA4AgAgCEEDaiIKIANPDQ4gBiAIaiAAIAxBA2otAABBAnRqKgIAOAIAIARBDGohBCAJQQNqIQkgCEEEaiEIIAdBAWsiBw0ACyAAQQRrKAIAIgJBeHFBhAhBiAggAkEDcSIDG0kNDiADQQAgAkGoCE8bDQ8gABCiAgwBCyAAQQRrKAIAIgJBeHFBhAhBiAggAkEDcSIDG0kNDSADQQAgAkGoCE8bDQ4gABCiAiABRQ0BCyALQQRrKAIAIgBBeHEiAiABQQJ0IgFBBEEIIABBA3EiABtqSQ0MIABBACACIAFBJ2pLGw0NIAsQogILDwsACyAIIANBgPHHABCMBwALIAogAUGQ8ccAEIwHAAsgCSAFQaDxxwAQjAcACyAKIANBsPHHABCMBwALIAogAUHA8ccAEIwHAAsgDSAFQdDxxwAQjAcACyAKIANB4PHHABCMBwALIAogAUHw8ccAEIwHAAsgDSAFQYDyxwAQjAcACyAKIANBkPLHABCMBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC9kGAg1/An0gAEGstskAKAIAIgcEfyMAQRBrIQhBrLbJACAHQQFrIgY2AgBBqLbJACgCACIFIAZBDGxqIgQoAgghASAEKAIEIQMgBCgCACEEAkAgBkUEQCABIQogAyELIAQhDAwBCyAFKAAAIQwgBSAENgAAIAUoAAQhCyAFIAM2AAQgBUEIaiIDKAAAIQogAyABNgAAIAhBCGogAygCADYCACAIIAUpAgA3AwBBASEBIAdBBE8EQCAGQQJrIgFBACABIAZNGyEGQQEhAQNAAn8gBSABQQxsaiIDQQxqIgQqAgAiDiAOWyAOIAMqAgAiD2BFcSIJIAlBfyAOIA9fGyAPIA9cGyIJBEAgCUEATAwBCyADKAIEIgkgBCgCBCINRwRAIAkgDU0MAQsgAygCCCAEKAIITQshAyAFIAJBDGxqIgQgBSABIANqIgJBDGxqIgEpAgA3AgAgBEEIaiABQQhqKAIANgIAIAJBAXQiA0EBciEBIAMgBkkNAAsLAkAgB0ECayABRwRAIAIhAQwBCyAFIAJBDGxqIgIgBSABQQxsaiIDKQIANwIAIAJBCGogA0EIaigCADYCAAsgBSABQQxsaiICIAgpAwA3AgAgAkEIaiAIQQhqKAIAIgg2AgAgAigCBCEDIAIqAgAhDgJAIAFFBEBBACEBDAELIA4gDlsEQANAAkAgBSABIgJBAWsiBkEBdiIBQQxsaiIEKgIAIg8gD1sgDiAPX0VxQX8gDiAPYBsiBwRAIAdBAEoNASACIQEMBAsgBCgCBCIHIANHBEAgAyAHSw0BIAIhAQwECyAIIAQoAghLDQAgAiEBDAMLIAUgAkEMbGoiAiAEKQIANwIAIAJBCGogBEEIaigCADYCACAGQQFLDQAMAgsACwNAAkAgBSABIgJBAWsiBkEBdiIBQQxsaiIEKgIAIg8gD1sgDiAPX0VxDQAgBCgCBCIHIANHBEAgAyAHSw0BIAIhAQwDCyAIIAQoAghLDQAgAiEBDAILIAUgAkEMbGoiAiAEKQIANwIAIAJBCGogBEEIaigCADYCACAGQQJPDQALCyAFIAFBDGxqIgEgCDYCCCABIAM2AgQgASAOOAIACyAAIAo2AgwgACALNgIIIAAgDDYCBEEBBSABCzYCAAuWCAMGfwR7An0gBUEDbiEKIAEqAgAhESAAKgIAIRACQAJAAkACQAJAAkACQAJAQYAIEHEiCEUNACARIBCT/RMhDiAQ/RMhD/0MAAAAAAEAAAACAAAAAwAAACEMA0AgBiAIaiAPIA4gDP37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kASIN/R8AEIkE/RMgDf0fARCJBP0gASAN/R8CEIkE/SACIA39HwMQiQT9IAP9CwIAIAz9DAQAAAAEAAAABAAAAAQAAAD9rgEhDCAGQRBqIgZBgAhHDQALIAEqAgQgACoCBCEQQYAIEHEiCUUNACAQk/0TIQ4gEP0TIQ/9DAAAAAABAAAAAgAAAAMAAAAhDEEAIQYDQCAGIAlqIA8gDiAM/fsB/QwAAH9DAAB/QwAAf0MAAH9D/ecB/eYB/eQBIg39HwAQiQT9EyAN/R8BEIkE/SABIA39HwIQiQT9IAIgDf0fAxCJBP0gA/0LAgAgDP0MBAAAAAQAAAAEAAAABAAAAP2uASEMIAZBEGoiBkGACEcNAAsgASoCCCAAKgIIIRBBgAgQcSIARQ0AIBCT/RMhDiAQ/RMhD/0MAAAAAAEAAAACAAAAAwAAACEMQQAhBgNAIAAgBmogDyAOIAz9+wH9DAAAf0MAAH9DAAB/QwAAf0P95wH95gH95AEiDf0fABCJBP0TIA39HwEQiQT9IAEgDf0fAhCJBP0gAiAN/R8DEIkE/SAD/QsCACAM/QwEAAAABAAAAAQAAAAEAAAA/a4BIQwgBkEQaiIGQYAIRw0ACwJAIAVBA08EQEEAIQZBACEBA0AgAyAGTQ0EIAEgBU8NBSAEIAggAiAGaiILLQAAQQJ0aioCADgCACAGQQFqIgcgA08NBiABQQFqIgcgBU8NByAEQQRqIAkgC0EBai0AAEECdGoqAgA4AgAgBkECaiIHIANPDQggAUECaiIHIAVPDQIgBEEIaiAAIAtBAmotAABBAnRqKgIAOAIAIAZBBGohBiAEQQxqIQQgAUEDaiEBIApBAWsiCg0ACwsgAEEEaygCACIBQXhxQYQIQYgIIAFBA3EiAhtJDQcgAkEAIAFBqAhPGw0IIAAQogIgCUEEaygCACIAQXhxQYQIQYgIIABBA3EiARtJDQcgAUEAIABBqAhPGw0IIAkQogIgCEEEaygCACIAQXhxQYQIQYgIIABBA3EiARtJDQcgAUEAIABBqAhPGw0IIAgQogIPCyAHIAVBoPXHABCMBwsACyAGIANB0PTHABCMBwALIAEgBUHg9McAEIwHAAsgByADQfD0xwAQjAcACyAHIAVBgPXHABCMBwALIAcgA0GQ9ccAEIwHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALggcBA34gASgCACACQQZ0ayIBQUBqKQMAIAAoAgAoAgAiACkDCIUiA0LYotHvwqnlvy1+IAFBOGspAwCFIANCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhIUiA0LYotHvwqnlvy1+IAFBMGspAwCFIANCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhIUiA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhELSgaqbq/qC16d/fiIEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEIANC2KLR78Kp5b8tfoUiA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCAAKQMAIgRCf4V+IgVCOIYgBUKA/gODQiiGhCAFQoCA/AeDQhiGIAVCgICA+A+DQgiGhIQgBUIIiEKAgID4D4MgBUIYiEKAgPwHg4QgBUIoiEKA/gODIAVCOIiEhIQgAyAEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEfoUgA4kLwwYBDH8jAEEQayIJJABBASELAkAgAigCACIKQSIgAigCBCIMKAIQIg0RAgANAAJAAkAgAUUEQEEAIQFBACECDAELIAAhBSABIQYDQCAFIAZqIQ5BACECAkACQANAIAIgBWoiBy0AACIIQf8Aa0H/AXFBoQFJIAhBIkZyIAhB3ABGcg0BIAYgAkEBaiICRw0ACyADIAZqIQMMAQsgAiADaiEDAkACQCAHLAAAIgJBAE4EQCAHQQFqIQUgAkH/AXEhAgwBCyAHLQABQT9xIQUgAkEfcSEGIAJBX00EQCAGQQZ0IAVyIQIgB0ECaiEFDAELIActAAJBP3EgBUEGdHIhCCACQXBJBEAgCCAGQQx0ciECIAdBA2ohBQwBCyAHQQRqIQUgBkESdEGAgPAAcSAHLQADQT9xIAhBBnRyciICQYCAxABGDQELIAkgAkGBgAQQgQMCQCAJLQANIgYgCS0ADCIHayIIQf8BcUEBRg0AAkACQAJAIAMgBEkNAAJAIARFDQAgASAETQRAIAEgBEcNAgwBCyAAIARqLAAAQb9/TA0BCwJAIANFDQAgASADTQRAIAEgA0YNAQwCCyAAIANqLAAAQb9/TA0BCyAKIAAgBGogAyAEayAMKAIMIgQRAABFDQEMAgsgACABIAQgA0GogcIAELsJAAsCQCAGQYEBTwRAIAogCSgCACANEQIADQIMAQsgCiAHIAlqIAggBBEAAA0BCyACQYABSQRAIANBAWohBAwCCyACQYAQSQRAIANBAmohBAwCC0EDQQQgAkGAgARJGyADaiEEDAELDAYLAn9BASACQYABSQ0AGkECIAJBgBBJDQAaQQNBBCACQYCABEkbCyADaiEDCyAOIAVrIgYNAQsLIAMgBEkNAUEAIQICQCAERQ0AIAEgBE0EQCAEIAEiAkcNAwwBCyAEIgIgAGosAABBv39MDQILIANFBEBBACEBDAELIAEgA00EQCABIANGDQEgAiEEDAILIAAgA2osAABBv39MBEAgAiEEDAILIAMhAQsgCiAAIAJqIAEgAmsgDCgCDBEAAA0BIApBIiANEQIAIQsMAQsgACABIAQgA0G4gcIAELsJAAsgCUEQaiQAIAsLzwYBCH8jAEEwayEIA0AgASgCACIEQf///wNxIQMgBEGAgICAeHEhBgJAIARBgICA/AdxIgJBgICA/AdGBEAgA0ENdiAGQRB2ckGABEEAIAMbckGA+AFyIQYMAQsgBkEQdiEGIAJBgICAuARNBEAgAkGAgIDEA08EQCAEQQx2IARB/98AcUEAR3EgAkENdiADQQ12akGAgAFqIAZyaiEGDAILIAJBgICAmANJDQEgA0GAgIAEciIEQf4AIAJBF3YiA2t2IQIgBEEdIANrIgN2QQFxBH8gAkEDIAN0QQFrIARxQQBHagUgAgsgBnIhBgwBCyAGQYD4AXIhBgsgAUEEaigCACIDQf///wNxIQUgA0GAgICAeHEhBAJAIANBgICA/AdxIgJBgICA/AdHBEAgBEEQdiEEIAJBgICAuARNBEAgAkGAgIDEA08EQCADQQx2IANB/98AcUEAR3EgAkENdiAFQQ12akGAgAFqIARyaiEEDAMLIAJBgICAmANJDQIgBUGAgIAEciIDQf4AIAJBF3YiBWt2IQIgA0EdIAVrIgV2QQFxBH8gAkEDIAV0QQFrIANxQQBHagUgAgsgBHIhBAwCCyAEQYD4AXIhBAwBCyAFQQ12IARBEHZyQYAEQQAgBRtyQYD4AXIhBAsgAUEIaigCACIFQf///wNxIQcgBUGAgICAeHEhAwJAIAVBgICA/AdxIgJBgICA/AdHBEAgA0EQdiEDIAJBgICAuARNBEAgAkGAgIDEA08EQCAFQQx2IAVB/98AcUEAR3EgAkENdiAHQQ12akGAgAFqIANyaiEDDAMLIAJBgICAmANJDQIgB0GAgIAEciIFQf4AIAJBF3YiB2t2IQIgBUEdIAdrIgd2QQFxBH8gAkEDIAd0QQFrIAVxQQBHagUgAgsgA3IhAwwCCyADQYD4AXIhAwwBCyAHQQ12IANBEHZyQYAEQQAgBxtyQYD4AXIhAwsgCEEGaiAJaiICIAY7AQAgAkEEaiADOwEAIAJBAmogBDsBACABQQxqIQEgCUEGaiIJQSpHDQALIAAgCP0AAQb9CwEAIABBKGogCEEuai8BADsBACAAQSBqIAhBJmopAQA3AQAgAEEQaiAIQRZq/QABAP0LAQALogcCCH8CfiMAQZACayICJAACQCABKAK4AiIDQQNNBEAgAEEAOwEADAELIAIgASgCtAIiBSgAACIENgIIAkACQAJAAkAgBEHSgpGaBEYEQCADQQhJBEAgAEEAOgABIABBADoAAAwGCyADIAUoAAQiBkEHakF4cSIIQRBqIgRJDQEgBkEIaiIHIANLIAZBd0tyDQIgAkEANgKAAiACIAY2AvwBIAIgBUEIajYC+AEgAkEYaiACQfgBahBvIAIoAhwhBiACKAIYIglBAkYEQCAAIAYQzgc2AgQgAEEBOgAADAYLIAJBkAFqIAJBIGpB6AD8CgAAIAIgBjYCjAEgAiAJNgKIASAIQQhqIgggBEsNAyABQQA2ArgCIAMgBGshByAFIAhqKQAAIQsCQAJAIARFDQAgAyAERg0BIAdFDQAgBSAEIAVqIAf8CgAACyABIAc2ArgCCyABIAEpA3AgBK18Igo3A3AgASAKIAt8NwOIASABIAo3A4ABAkAgAigC8AFBAUYEQCABIAIpA5ABPgKoAiABIAIoApgBIgM2AqwCIAEoApABQQJGDQEMBgsgAkEBNgIcIAJBhMnBADYCGCACQgE3AiQgAiACQfABaq1CgICAgBCENwOIAiACIAJBiAJqNgIgIAJB+AFqIgEgAkEYahCxBiABEI4HIQEgAigC5AEiAwRAIAIoAugBIANBKGxBCBCiBwsgACABNgIEIABBAToAAAwGCyABQQA2AqgCIAIgAi0A9AFBAXE6ACAgAiAGQQAgCUEBcRs2AhwgAiADNgIYIAFBvAJqIAJBGGoQ4QMMBAsgAkEBNgIsIAJBzMjBADYCKCACQQE2AhwgAkGQzsEANgIYIAJBATYCJCACIAJBCGqtQoCAgICQBIQ3A/gBIAIgAkH4AWo2AiAgAkEMaiIBIAJBGGoQsQYgACABEI4HNgIEIABBAToAAAwECyAAQQA6AAEgAEEAOgAADAMLQQggByADQeTNwQAQ6gcACyAIIAQgA0HUzcEAEOoHAAsgAUEANgKkAgJAIAEoAgBBAkYNACABKAJcIgNFDQACQCABKAJgIgRBBGsoAgAiBUF4cSIGIANBKGwiA0EEQQggBUEDcSIFG2pPBEAgBUEAIAYgA0EnaksbDQEgBBCiAgwCC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgASACQYgBakHwAPwKAAAgAEGAAjsBAAsgAkGQAmokAAumBwIIfwJ+IwBBkAJrIgIkAAJAAkACQCABKALgAiIDQQNNBEAgAEEAOwEADAELIAIgASgC3AIiBSgAACIENgIIAkACQAJAAkAgBEHSgpGaBEYEQCADQQhJBEAgAEEAOgABIABBADoAAAwGCyADIAUoAAQiBkEHakF4cSIIQRBqIgRJDQEgBkEIaiIHIANLIAZBd0tyDQIgAkEANgKAAiACIAY2AvwBIAIgBUEIajYC+AEgAkEYaiACQfgBahBvIAIoAhwhBiACKAIYIglBAkYEQCAAIAYQzgc2AgQgAEEBOgAADAYLIAJBkAFqIAJBIGpB6AD8CgAAIAIgBjYCjAEgAiAJNgKIASAIQQhqIgggBEsNAyABQQA2AuACIAMgBGshByAFIAhqKQAAIQsCQAJAIARFDQAgAyAERg0BIAdFDQAgBSAEIAVqIAf8CgAACyABIAc2AuACCyABIAEpA7gCIAStfCIKNwO4AiABIAogC3w3A9ACIAEgCjcDyAIgAigC8AFBAUYEQCABIAIpA5ABPgL0AiABIAIoApgBIgM2AvgCIAEoAgBBAkcNBSABQQA2AvQCIAIgAi0A9AFBAXE6ACAgAiAGQQAgCUEBcRs2AhwgAiADNgIYIAFB+AFqIAJBGGoQhAIMBQsgAkEBNgIcIAJBhMnBADYCGCACQgE3AiQgAiACQfABaq1CgICAgBCENwOIAiACIAJBiAJqNgIgIAJB+AFqIgEgAkEYahCxBiABEI4HIQEgAigC5AEiAwRAIAIoAugBIANBKGxBCBCiBwsgACABNgIEIABBAToAAAwFCyACQQE2AiwgAkHMyMEANgIoIAJBATYCHCACQZDOwQA2AhggAkEBNgIkIAIgAkEIaq1CgICAgJAEhDcD+AEgAiACQfgBajYCICACQQxqIgEgAkEYahCxBiAAIAEQjgc2AgQgAEEBOgAADAQLIABBADoAASAAQQA6AAAMAwtBCCAHIANB5M3BABDqBwALIAggBCADQdTNwQAQ6gcACyABQQA2AvACAkAgASgCiAFBAkYNACABKALkASIDRQ0AIAEoAugBIgRBBGsoAgAiBUF4cSIGIANBKGwiA0EEQQggBUEDcSIFG2pJDQIgBUEAIAYgA0EnaksbDQMgBBCiAgsgAUGIAWogAkGIAWpB8AD8CgAAIABBgAI7AQALIAJBkAJqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAumBwIIfwJ+IwBBkAJrIgIkAAJAAkACQCABKAKAAyIDQQNNBEAgAEEAOwEADAELIAIgASgC/AIiBSgAACIENgIIAkACQAJAAkAgBEHSgpGaBEYEQCADQQhJBEAgAEEAOgABIABBADoAAAwGCyADIAUoAAQiBkEHakF4cSIIQRBqIgRJDQEgBkEIaiIHIANLIAZBd0tyDQIgAkEANgKAAiACIAY2AvwBIAIgBUEIajYC+AEgAkEYaiACQfgBahBvIAIoAhwhBiACKAIYIglBAkYEQCAAIAYQzgc2AgQgAEEBOgAADAYLIAJBkAFqIAJBIGpB6AD8CgAAIAIgBjYCjAEgAiAJNgKIASAIQQhqIgggBEsNAyABQQA2AoADIAMgBGshByAFIAhqKQAAIQsCQAJAIARFDQAgAyAERg0BIAdFDQAgBSAEIAVqIAf8CgAACyABIAc2AoADCyABIAEpA9gCIAStfCIKNwPYAiABIAogC3w3A/ACIAEgCjcD6AIgAigC8AFBAUYEQCABIAIpA5ABPgKUAyABIAIoApgBIgM2ApgDIAEoAgBBAkcNBSABQQA2ApQDIAIgAi0A9AFBAXE6ACAgAiAGQQAgCUEBcRs2AhwgAiADNgIYIAFB+AFqIAJBGGoQ6QEMBQsgAkEBNgIcIAJBhMnBADYCGCACQgE3AiQgAiACQfABaq1CgICAgBCENwOIAiACIAJBiAJqNgIgIAJB+AFqIgEgAkEYahCxBiABEI4HIQEgAigC5AEiAwRAIAIoAugBIANBKGxBCBCiBwsgACABNgIEIABBAToAAAwFCyACQQE2AiwgAkHMyMEANgIoIAJBATYCHCACQZDOwQA2AhggAkEBNgIkIAIgAkEIaq1CgICAgJAEhDcD+AEgAiACQfgBajYCICACQQxqIgEgAkEYahCxBiAAIAEQjgc2AgQgAEEBOgAADAQLIABBADoAASAAQQA6AAAMAwtBCCAHIANB5M3BABDqBwALIAggBCADQdTNwQAQ6gcACyABQQA2ApADAkAgASgCiAFBAkYNACABKALkASIDRQ0AIAEoAugBIgRBBGsoAgAiBUF4cSIGIANBKGwiA0EEQQggBUEDcSIFG2pJDQIgBUEAIAYgA0EnaksbDQMgBBCiAgsgAUGIAWogAkGIAWpB8AD8CgAAIABBgAI7AQALIAJBkAJqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuiBwIIfwJ+IwBBkAJrIgIkAAJAIAEoArgCIgNBA00EQCAAQQA7AQAMAQsgAiABKAK0AiIFKAAAIgQ2AggCQAJAAkACQCAEQdKCkZoERgRAIANBCEkEQCAAQQA6AAEgAEEAOgAADAYLIAMgBSgABCIGQQdqQXhxIghBEGoiBEkNASAGQQhqIgcgA0sgBkF3S3INAiACQQA2AoACIAIgBjYC/AEgAiAFQQhqNgL4ASACQRhqIAJB+AFqEG8gAigCHCEGIAIoAhgiCUECRgRAIAAgBhDOBzYCBCAAQQE6AAAMBgsgAkGQAWogAkEgakHoAPwKAAAgAiAGNgKMASACIAk2AogBIAhBCGoiCCAESw0DIAFBADYCuAIgAyAEayEHIAUgCGopAAAhCwJAAkAgBEUNACADIARGDQEgB0UNACAFIAQgBWogB/wKAAALIAEgBzYCuAILIAEgASkDcCAErXwiCjcDcCABIAogC3w3A4gBIAEgCjcDgAECQCACKALwAUEBRgRAIAEgAikDkAE+AqgCIAEgAigCmAEiAzYCrAIgASgCkAFBAkYNAQwGCyACQQE2AhwgAkGEycEANgIYIAJCATcCJCACIAJB8AFqrUKAgICAEIQ3A4gCIAIgAkGIAmo2AiAgAkH4AWoiASACQRhqELEGIAEQjgchASACKALkASIDBEAgAigC6AEgA0EobEEIEKIHCyAAIAE2AgQgAEEBOgAADAYLIAFBADYCqAIgAiACLQD0AUEBcToAICACIAZBACAJQQFxGzYCHCACIAM2AhggAUG8AmogAkEYahClBAwECyACQQE2AiwgAkHMyMEANgIoIAJBATYCHCACQZDOwQA2AhggAkEBNgIkIAIgAkEIaq1CgICAgJAEhDcD+AEgAiACQfgBajYCICACQQxqIgEgAkEYahCxBiAAIAEQjgc2AgQgAEEBOgAADAQLIABBADoAASAAQQA6AAAMAwtBCCAHIANB5M3BABDqBwALIAggBCADQdTNwQAQ6gcACyABQQA2AqQCAkAgASgCAEECRg0AIAEoAlwiA0UNAAJAIAEoAmAiBEEEaygCACIFQXhxIgYgA0EobCIDQQRBCCAFQQNxIgUbak8EQCAFQQAgBiADQSdqSxsNASAEEKICDAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyABIAJBiAFqQfAA/AoAACAAQYACOwEACyACQZACaiQAC+oGAQV/AkACQAJAAkACQAJAAkAgAEEEayIHKAIAIghBeHEiBEEEQQggCEEDcSIFGyABak8EQCAFQQAgAUEnaiIGIARJGw0BAkAgAkEJTwRAIAIgAxDBBCICDQFBAA8LQQAhAiADQcz/e0sNCEEQIANBC2pBeHEgA0ELSRshASAAQQhrIQYgBUUEQCAGRSABQYACSXIgBCABa0GAgAhLIAEgBE9ycg0HIAAPCyAEIAZqIQUCQCABIARLBEAgBUHcuskAKAIARg0BQdi6yQAoAgAgBUcEQCAFKAIEIghBAnENCSAIQXhxIgggBGoiBCABSQ0JIAUgCBDWBCAEIAFrIgVBEE8EQCAHIAEgBygCAEEBcXJBAnI2AgAgASAGaiIBIAVBA3I2AgQgBCAGaiIEIAQoAgRBAXI2AgQgASAFEOMCDAkLIAcgBCAHKAIAQQFxckECcjYCACAEIAZqIgEgASgCBEEBcjYCBAwIC0HQuskAKAIAIARqIgQgAUkNCAJAIAQgAWsiBUEPTQRAIAcgCEEBcSAEckECcjYCACAEIAZqIgEgASgCBEEBcjYCBEEAIQVBACEBDAELIAcgASAIQQFxckECcjYCACABIAZqIgEgBUEBcjYCBCAEIAZqIgQgBTYCACAEIAQoAgRBfnE2AgQLQdi6yQAgATYCAEHQuskAIAU2AgAMBwsgBCABayIEQQ9NDQYgByABIAhBAXFyQQJyNgIAIAEgBmoiASAEQQNyNgIEIAUgBSgCBEEBcjYCBCABIAQQ4wIMBgtB1LrJACgCACAEaiIEIAFLDQQMBgsgAyABIAEgA0sbIgMEQCACIAAgA/wKAAALIAcoAgAiA0F4cSIHIAFBBEEIIANBA3EiARtqSQ0CIAFFIAYgB09yDQZBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcACyAHIAEgCEEBcXJBAnI2AgAgASAGaiIFIAQgAWsiAUEBcjYCBEHUuskAIAE2AgBB3LrJACAFNgIACyAGRQ0AIAAPCyADEHEiAUUNASADQXxBeCAHKAIAIgJBA3EbIAJBeHFqIgIgAiADSxsiAgRAIAEgACAC/AoAAAsgASECCyAAEKICCyACC68HAQZ/IwBBQGoiAyQAIAAoAgwhBAJAAkACQCAAKAIUIgEgACgCECICSQRAA0AgASAEai0AACIGQQlrIgVBGUsNAkEBIAV0QZOAgARxRQRAIAVBGUcNAyAAEMsEIQEMBAsgACABQQFqIgE2AhQgASACRw0ACyACIQELIANBEGogBCACIAFBAWoiACACIAAgAkkbEPkBIAMoAhQhACADKAIQIQJBFBBxIgFFDQIgASACNgIMIAFBBTYCACABIAA2AhAMAQsgBkH7AEYEQCAAIAAtABhBAWsiBToAGCABQQFqIQEgBUH/AXEEQCAAIAE2AhQCQCAAEMsEIgFFBEAgACgCDCEEAkACQCAAKAIUIgEgACgCECICSQRAA0ACQCABIARqLQAAQQlrDjIAAAMDAAMDAwMDAwMDAwMDAwMDAwMDAwADAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDBgMLIAAgAUEBaiIBNgIUIAEgAkcNAAsgAiEBCyADQShqIAQgAiABQQFqIgEgAiABIAJJGxD5ASADKAIsIQIgAygCKCEEQRQQcSIBRQ0HIAFBAzYCAAwBCyADQSBqIAQgAiABQQFqIgEgAiABIAJJGxD5ASADKAIkIQIgAygCICEEQRQQcSIBRQ0GIAFBBjYCAAsgASAENgIMIAEgAjYCEAsgACAALQAYQQFqOgAYDAMLIAAgAUEBajYCFCAAEIcEIQEgACAALQAYQQFqOgAYIAENAiAAKAIMIQQCQCAAKAIUIgEgACgCECICSQRAA0AgASAEai0AACIFQQlrIgZBF0tBASAGdEGTgIAEcUVyDQIgACABQQFqIgE2AhQgASACRw0ACyACIQELIANBOGogBCACIAEQ+QEgAygCPCEAIAMoAjghAkEUEHEiAUUNBCABIAI2AgwgAUEDNgIAIAEgADYCEAwDCyAFQf0ARgRAIAAgAUEBajYCFEEAIQEMAwsgA0EwaiAEIAIgARD5ASADKAI0IQAgAygCMCECQRQQcSIBRQ0DIAEgAjYCDCABQQo2AgAgASAANgIQDAILIANBGGogBCACIAEgAiABIAJJGxD5ASADKAIcIQAgAygCGCECQRQQcSIBRQ0CIAEgAjYCDCABQRg2AgAgASAANgIQDAELIANBCGogBCACIAFBAWoiACACIAAgAkkbEPkBIAMoAgwhACADKAIIIQJBFBBxIgFFDQEgASACNgIMIAFBCjYCACABIAA2AhALIANBQGskACABDwsAC6IHAgd/A34jAEHwCGsiBCQAIAG8IQcCf0EDIAGLQwAAgH9bDQAaQQIgB0GAgID8B3EiBUGAgID8B0YNABogB0H///8DcSIIQYCAgARyIAdBAXRB/v//B3EgB0EXdkH/AXEiBhsiCa0iC0IBgyEMIAVFBEBBBCAIRQ0BGiAGQZYBayEGQgEhDSAMUAwBC0KAgIAQIAtCAYYgCUGAgIAERiIIGyELQgJCASAIGyENQeh+Qel+IAgbIAZqIQYgDFALIQUgA0H//wNxIQggBCAGOwHoCCAEIA03A+AIIARCATcD2AggBCALNwPQCCAEIAU6AOoIAn8CQCAFQf8BcUEBTQRAQXRBBSAGwSIFQQBIGyAFbCIFQcD9AEkNAUHDhMIAQSVB6ITCABDrBwALAkACQCAFQf8BcSIJQQJHBEBBASEFQeqzxQBByIHCACAHQQBIIgYbQeqzxQBBASAGGyACGyEGQQEgB0EfdiACGyECIAlBBEcNAUECIQUgBEECOwGQCCADQf//A3ENAkEBIQUgBEEBNgKYCCAEQZiwxQA2ApQIIARBkAhqDAQLIARBAzYCmAggBEHzncYANgKUCCAEQQI7AZAIQQEhBkEAIQJBASEFIARBkAhqDAMLIARBAzYCmAggBEHsncYANgKUCCAEQQI7AZAIIARBkAhqDAILIAQgCDYCoAggBEEAOwGcCCAEQQI2ApgIIARBuYPCADYClAggBEGQCGoMAQtB6rPFAEEBIAdBAEgiCRshCkHqs8UAQciBwgAgCRsgB0EfdiEHIARBkAhqIAsgBiAEQRBqIAVBBHZBFWoiBkGAgH5BACADayADwUEASBsiBRDpAiAFwSEFAkAgBCgCkAgEQCAEQcgIaiAEQZgIaigCADYCACAEIAQpApAINwPACAwBCyAEQcAIaiAEQdAIaiAEQRBqIAYgBRBlCyAKIAIbIQZBASAHIAIbIQIgBSAELgHICCIHSARAIARBCGogBCgCwAggBCgCxAggByAIIARBkAhqEOwEIAQoAgwhBSAEKAIIDAELQQIhBSAEQQI7AZAIIANB//8DcUUEQEEBIQUgBEEBNgKYCCAEQZiwxQA2ApQIIARBkAhqDAELIAQgCDYCoAggBEEAOwGcCCAEQQI2ApgIIARBuYPCADYClAggBEGQCGoLIQMgBCAFNgLMCCAEIAM2AsgIIAQgAjYCxAggBCAGNgLACCAAIARBwAhqEL4DIARB8AhqJAALiAUBBH8gABC/BAJAAkAgACgCiAQiAQRAIAAoAowEIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgClAQiAQRAIAAoApgEIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCoAQiAQRAIAAoAqQEIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCrAQiAQRAIAAoArAEIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCuAQiAQRAIAAoArwEIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCxAQiAQRAIAAoAsgEIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgC0AQiAQRAIAAoAtQEIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgC3AQiAQRAIAAoAuAEIgBBBGsoAgAiA0F4cSICIAFBAnQiAUEEQQggA0EDcSIDG2pJDQEgA0EAIAIgAUEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAv7BAEEfwJAAkAgACgCBCIBBEAgACgCACIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAiwiAQRAIAAoAigiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAJUIgEEQCAAKAJQIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCfCIBBEAgACgCeCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAqQBIgEEQCAAKAKgASIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAswBIgEEQCAAKALIASIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAvQBIgEEQCAAKALwASIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoApwCIgEEQCAAKAKYAiIAQQRrKAIAIgNBeHEiAiABQQJ0IgFBBEEIIANBA3EiAxtqSQ0BIANBACACIAFBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL3AUBBH8gACgCrAEiAUGECE8EQCABEJsHCwJAIAAoAgBFDQAgACgCBCIBQYQISQ0AIAEQmwcLAkAgACgCCEUNACAAKAIMIgFBhAhJDQAgARCbBwsCQCAAKAIQRQ0AIAAoAhQiAUGECEkNACABEJsHCwJAIAAoAhhFDQAgACgCHCIBQYQISQ0AIAEQmwcLAkAgACgCIEUNACAAKAIkIgFBhAhJDQAgARCbBwsCQCAAKAIoRQ0AIAAoAiwiAUGECEkNACABEJsHCwJAAkAgACgCOCIBBEAgACgCPCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAkQiAQRAIAAoAkgiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAJQIgEEQCAAKAJUIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsCQCAAKAIwRQ0AIAAoAjQiAUGECEkNACABEJsHCyAAKAJoIgFBgICAgHhyQYCAgIB4RwRAIAAoAmwiA0EEaygCACICQXhxIgQgAUEBdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAJ0IgFBgICAgHhyQYCAgIB4RwRAIAAoAngiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAJcIgEEQCAAKAJgIgBBBGsoAgAiA0F4cSICIAFBAnQiAUEEQQggA0EDcSIDG2pJDQEgA0EAIAIgAUEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuIBwEHfyMAQUBqIgEkAAJAAkAgACgCAEUEQCAAKAIQIgBFDQEgAEGTs8UAQQEQlwMhAgwCCyABQQxqIAAQyAUCQAJ/IAEoAgwiBEUEQCABLQAQIQQgACgCECIDBEBBASECIANB+rLFAEHqssUAIARBAXEiAxtBGUEQIAMbEJcDDQULIAAgBDoABEEADAELAkAgASgCECICQQFxDQAgAUKAgICAIDcCGCABIAQ2AgwgASACNgIQIAEgAiAEaiIFNgIUA0ACQCABQQxqEKgCQYCAxABrDgICAAELCyAAKAIQIgNFDQMgAygCAEEiIAMoAgQoAhARAgANAiABQoCAgIAgNwIYIAEgBTYCFCABIAI2AhAgASAENgIMA0ACQAJ/AkACQAJAIAFBDGoQqAIiAEGBgMQARwRAIABBgIDEAEYNASAAQSdHBEACQAJAAkACQAJAAkAgAEEhTARAIABBCWsOBQEDBgYCBQsgAEEiRg0DIABB3ABHDQUgAUIANwEiIAFB3LgBOwEgDAoLIAFCADcBIiABQdzoATsBIAwJCyABQgA3ASIgAUHc5AE7ASAMCAsgAUIANwEiIAFB3NwBOwEgDAcLIAFCADcBIiABQdzEADsBIAwGCyAARQ0ECwJAAkAgAEGABk8EQCAAEOUEDQELIAAQ4QINAQsgAUEwaiAAENYFIAFBKGogAUE4ai8AADsBACABIAEpADA3AyAgAS0AOiEAIAEtADshAiABQThqIAFBKGovAQA7AQAgASABKQMgNwMwIABB/wFxIAJB/wFxTw0IDAcLIAEgADYCIEGBASECQYABDAULIAMoAgBBJyADKAIEKAIQEQIADQkMBgsgAygCAEEiIAMoAgQoAhARAgAhAgwKC0HY5sgAQSsgAUEwakHstsUAQcy2xQAQ4AYACyABQgA3ASIgAUHc4AA7ASALQQIhAkEACyEAIAFBOGogAUEoai8BADsBACABIAEpAyA3AzALIAJB/wFxIQUgAEH/AXEhAiADKAIAIQYgAygCBCgCECEHIAEoAjAhBANAIAQhACAGIAVBgAFNBH8gAUEwaiACai0AAAUgAAsgBxECAA0EIAJBAWoiAiAFRw0ACwwACwALIAAoAhAiBARAIARB6rLFAEEQEJcDDQILIABBADoABEEACyECIAAgAjYCAAwCC0EBIQIMAQtBACECCyABQUBrJAAgAgu9BgEIfyMAQSBrIQgDQCABKAIAIgRB////A3EhAyAEQYCAgIB4cSEGAkAgBEGAgID8B3EiAkGAgID8B0YEQCADQQ12IAZBEHZyQYAEQQAgAxtyQYD4AXIhBgwBCyAGQRB2IQYgAkGAgIC4BE0EQCACQYCAgMQDTwRAIARBDHYgBEH/3wBxQQBHcSACQQ12IANBDXZqQYCAAWogBnJqIQYMAgsgAkGAgICYA0kNASADQYCAgARyIgRB/gAgAkEXdiIDa3YhAiAEQR0gA2siA3ZBAXEEfyACQQMgA3RBAWsgBHFBAEdqBSACCyAGciEGDAELIAZBgPgBciEGCyABQQRqKAIAIgNB////A3EhBSADQYCAgIB4cSEEAkAgA0GAgID8B3EiAkGAgID8B0cEQCAEQRB2IQQgAkGAgIC4BE0EQCACQYCAgMQDTwRAIANBDHYgA0H/3wBxQQBHcSACQQ12IAVBDXZqQYCAAWogBHJqIQQMAwsgAkGAgICYA0kNAiAFQYCAgARyIgNB/gAgAkEXdiIFa3YhAiADQR0gBWsiBXZBAXEEfyACQQMgBXRBAWsgA3FBAEdqBSACCyAEciEEDAILIARBgPgBciEEDAELIAVBDXYgBEEQdnJBgARBACAFG3JBgPgBciEECyABQQhqKAIAIgVB////A3EhByAFQYCAgIB4cSEDAkAgBUGAgID8B3EiAkGAgID8B0cEQCADQRB2IQMgAkGAgIC4BE0EQCACQYCAgMQDTwRAIAVBDHYgBUH/3wBxQQBHcSACQQ12IAdBDXZqQYCAAWogA3JqIQMMAwsgAkGAgICYA0kNAiAHQYCAgARyIgVB/gAgAkEXdiIHa3YhAiAFQR0gB2siB3ZBAXEEfyACQQMgB3RBAWsgBXFBAEdqBSACCyADciEDDAILIANBgPgBciEDDAELIAdBDXYgA0EQdnJBgARBACAHG3JBgPgBciEDCyAIQQJqIAlqIgIgBjsBACACQQRqIAM7AQAgAkECaiAEOwEAIAFBDGohASAJQQZqIglBHkcNAAsgACAI/QABAv0LAQAgAEEWaiAIQRhqKQEANwEAIABBEGogCEESaikBADcBAAuBCQEEfyMAQTBrIgIkAAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAAKAIAIgMtAABBAWsOHAECAwQFBgcICQoLDA0ODxAREhMUFRYXGBkaGxwACyABKAIAQaWtxwBBAiABKAIEKAIMEQAAIQAMHAsgASgCAEGnrccAQQIgASgCBCgCDBEAACEADBsLIAEoAgBBqa3HAEEDIAEoAgQoAgwRAAAhAAwaCyABKAIAQaytxwBBBCABKAIEKAIMEQAAIQAMGQsgASgCAEGwrccAQQUgASgCBCgCDBEAACEADBgLIAEoAgBBta3HAEECIAEoAgQoAgwRAAAhAAwXCyABKAIAQbetxwBBAyABKAIEKAIMEQAAIQAMFgsgASgCAEG6rccAQQQgASgCBCgCDBEAACEADBULIAEoAgBBvq3HAEEFIAEoAgQoAgwRAAAhAAwUCyABKAIAQcOtxwBBAiABKAIEKAIMEQAAIQAMEwsgASgCAEHFrccAQQMgASgCBCgCDBEAACEADBILIAEoAgBByK3HAEEEIAEoAgQoAgwRAAAhAAwRCyABKAIAQcytxwBBBSABKAIEKAIMEQAAIQAMEAsgASgCAEHRrccAQQYgASgCBCgCDBEAACEADA8LIAEoAgBB163HAEECIAEoAgQoAgwRAAAhAAwOCyABKAIAQdmtxwBBAyABKAIEKAIMEQAAIQAMDQsgASgCAEHcrccAQQQgASgCBCgCDBEAACEADAwLIAEoAgBB4K3HAEEFIAEoAgQoAgwRAAAhAAwLCyABKAIAQeWtxwBBAyABKAIEKAIMEQAAIQAMCgsgASgCAEHorccAQQQgASgCBCgCDBEAACEADAkLIAEoAgBB7K3HAEEFIAEoAgQoAgwRAAAhAAwICyABKAIAQfGtxwBBBiABKAIEKAIMEQAAIQAMBwsgASgCAEH3rccAQQQgASgCBCgCDBEAACEADAYLIAEoAgBB+63HAEEFIAEoAgQoAgwRAAAhAAwFCyABKAIAQYCuxwBBBiABKAIEKAIMEQAAIQAMBAsgASgCAEGGrscAQQcgASgCBCgCDBEAACEADAMLIAEoAgBBja7HAEEFIAEoAgQoAgwRAAAhAAwCCyABKAIAQZKuxwBBBiABKAIEKAIMEQAAIQAMAQtBASEAIAIgA0EBajYCDCABKAIAIgNBpqvHAEEHIAEoAgQiBSgCDCIEEQAADQACQCABLQAKQYABcUUEQCADQbuzxQBBASAEEQAADQIgAkEMaiABEMQEDQIgASgCACEDIAEoAgQoAgwhBAwBCyADQduBwgBBAiAEEQAADQEgAkEBOgAfIAIgBTYCFCACIAM2AhAgAkHggcIANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDEBA0BIAIoAiBB2YHCAEECIAIoAiQoAgwRAAANAQsgA0HejsgAQQEgBBEAACEACyACQTBqJAAgAAuDBwMIfwN9AXsjAEEQayIHJAAgB0EEaiABEKsGIAcoAgghCAJ/AkACQCAAKAIIIgIEQCAHKAIMIQRDAACAPyAAKgJAIAAtAFhBAkYiBRtDAAAAACAAKgI8IAUbIguTIQwgAkECdCEJIAAoAgRBDGohBUEAIQADQCAEIABBA2oiAk0EQCACIARB0NvBABCMBwALIAQgAGsiAkEAIAIgBE0bIgJBAUYNAyACQQJGDQIgACAIaiIDLQAAs/0TIANBAWotAACz/SAB/QwAAH9DAAB/QwAAf0MAAH9D/ecBIQ0gA0EDai0AALNDAAB/Q5W8IgJB////A3EhBiADQQJqLQAAs0MAAH9DlSEKAkAgAkGAgID8B3EiA0GAgID8B0YEQCAGQQ12QYAEQQAgBhtyQYD4AXIhAgwBCyADQYCAgLgESwRAQYD4ASECDAELIAJBgICAxANPBEAgA0ENdiAGQQ12aiACQQx2IAJB/98AcUEAR3FqQYCAAWohAgwBCyACQYCAgJgDSQRAQQAhAgwBCyAGQYCAgARyIgZB/gAgAkEXdiIDa3YhAiAGQR0gA2siA3ZBAXFFDQAgAkEDIAN0QQFrIAZxQQBHaiECCyAFIAI7AQAgBUECakH/AUMAAH9DQwAAAAAgCiALkyAMlUMAAH9DlCIKIApDAAAAAF0bIgogCkMAAH9DXhsQuQciCvwBQQAgCkMAAAAAYBsgCkMAAH9DXhtBEHRB/wFDAAB/Q0MAAAAAIA39HwEgC5MgDJVDAAB/Q5QiCiAKQwAAAABdGyIKIApDAAB/Q14bELkHIgr8AUEAIApDAAAAAGAbIApDAAB/Q14bQQh0ckH/AUMAAH9DQwAAAAAgDf0fACALkyAMlUMAAH9DlCIKIApDAAAAAF0bIgogCkMAAH9DXhsQuQciCvwBQQAgCkMAAAAAYBsgCkMAAH9DXhtyIgI7AQAgBUEEaiACQRB2OgAAIAVBGGohBSAJIABBBGoiAEcNAAsLAkACQCAHKAIEIgAEQCAIQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyAAakkNASACQQAgBCAAQSdqSxsNAiAIEKICCyABQYQITwRAIAEQmwcLIAdBEGokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAAQQJqDAELIABBAWoLIARB4NvBABCMBwAL8AgBBX8jAEEgayIDJAACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAC0AAEEBaw4cAQIDBAUGBwgJCgsMDQ4PEBESExQVFhcYGRobHAALIAEoAgBBpa3HAEECIAEoAgQoAgwRAAAhAgwcCyABKAIAQaetxwBBAiABKAIEKAIMEQAAIQIMGwsgASgCAEGprccAQQMgASgCBCgCDBEAACECDBoLIAEoAgBBrK3HAEEEIAEoAgQoAgwRAAAhAgwZCyABKAIAQbCtxwBBBSABKAIEKAIMEQAAIQIMGAsgASgCAEG1rccAQQIgASgCBCgCDBEAACECDBcLIAEoAgBBt63HAEEDIAEoAgQoAgwRAAAhAgwWCyABKAIAQbqtxwBBBCABKAIEKAIMEQAAIQIMFQsgASgCAEG+rccAQQUgASgCBCgCDBEAACECDBQLIAEoAgBBw63HAEECIAEoAgQoAgwRAAAhAgwTCyABKAIAQcWtxwBBAyABKAIEKAIMEQAAIQIMEgsgASgCAEHIrccAQQQgASgCBCgCDBEAACECDBELIAEoAgBBzK3HAEEFIAEoAgQoAgwRAAAhAgwQCyABKAIAQdGtxwBBBiABKAIEKAIMEQAAIQIMDwsgASgCAEHXrccAQQIgASgCBCgCDBEAACECDA4LIAEoAgBB2a3HAEEDIAEoAgQoAgwRAAAhAgwNCyABKAIAQdytxwBBBCABKAIEKAIMEQAAIQIMDAsgASgCAEHgrccAQQUgASgCBCgCDBEAACECDAsLIAEoAgBB5a3HAEEDIAEoAgQoAgwRAAAhAgwKCyABKAIAQeitxwBBBCABKAIEKAIMEQAAIQIMCQsgASgCAEHsrccAQQUgASgCBCgCDBEAACECDAgLIAEoAgBB8a3HAEEGIAEoAgQoAgwRAAAhAgwHCyABKAIAQfetxwBBBCABKAIEKAIMEQAAIQIMBgsgASgCAEH7rccAQQUgASgCBCgCDBEAACECDAULIAEoAgBBgK7HAEEGIAEoAgQoAgwRAAAhAgwECyABKAIAQYauxwBBByABKAIEKAIMEQAAIQIMAwsgASgCAEGNrscAQQUgASgCBCgCDBEAACECDAILIAEoAgBBkq7HAEEGIAEoAgQoAgwRAAAhAgwBC0EBIQIgASgCACIEQaarxwBBByABKAIEIgYoAgwiBREAAA0AIABBAWohAAJAIAEtAApBgAFxRQRAIARBu7PFAEEBIAURAAANAiAAIAEQygQNAiABKAIAIQQgASgCBCgCDCEFDAELIARB24HCAEECIAURAAANASADQQE6AA8gAyAGNgIEIAMgBDYCACADQeCBwgA2AhQgAyABKQIINwIYIAMgA0EPajYCCCADIAM2AhAgACADQRBqEMoEDQEgAygCEEHZgcIAQQIgAygCFCgCDBEAAA0BCyAEQd6OyABBASAFEQAAIQILIANBIGokACACC60GAQh/IwBBIGshCANAIAEoAgAiBEH///8DcSEDIARBgICAgHhxIQYCQCAEQYCAgPwHcSICQYCAgPwHRgRAIANBDXYgBkEQdnJBgARBACADG3JBgPgBciEGDAELIAZBEHYhBiACQYCAgLgETQRAIAJBgICAxANPBEAgBEEMdiAEQf/fAHFBAEdxIAJBDXYgA0ENdmpBgIABaiAGcmohBgwCCyACQYCAgJgDSQ0BIANBgICABHIiBEH+ACACQRd2IgNrdiECIARBHSADayIDdkEBcQR/IAJBAyADdEEBayAEcUEAR2oFIAILIAZyIQYMAQsgBkGA+AFyIQYLIAFBBGooAgAiA0H///8DcSEFIANBgICAgHhxIQQCQCADQYCAgPwHcSICQYCAgPwHRwRAIARBEHYhBCACQYCAgLgETQRAIAJBgICAxANPBEAgA0EMdiADQf/fAHFBAEdxIAJBDXYgBUENdmpBgIABaiAEcmohBAwDCyACQYCAgJgDSQ0CIAVBgICABHIiA0H+ACACQRd2IgVrdiECIANBHSAFayIFdkEBcQR/IAJBAyAFdEEBayADcUEAR2oFIAILIARyIQQMAgsgBEGA+AFyIQQMAQsgBUENdiAEQRB2ckGABEEAIAUbckGA+AFyIQQLIAFBCGooAgAiBUH///8DcSEHIAVBgICAgHhxIQMCQCAFQYCAgPwHcSICQYCAgPwHRwRAIANBEHYhAyACQYCAgLgETQRAIAJBgICAxANPBEAgBUEMdiAFQf/fAHFBAEdxIAJBDXYgB0ENdmpBgIABaiADcmohAwwDCyACQYCAgJgDSQ0CIAdBgICABHIiBUH+ACACQRd2IgdrdiECIAVBHSAHayIHdkEBcQR/IAJBAyAHdEEBayAFcUEAR2oFIAILIANyIQMMAgsgA0GA+AFyIQMMAQsgB0ENdiADQRB2ckGABEEAIAcbckGA+AFyIQMLIAhBDmogCWoiAiAGOwEAIAJBBGogAzsBACACQQJqIAQ7AQAgAUEMaiEBIAlBBmoiCUESRw0ACyAAIAj9AAEO/QsBACAAQRBqIAhBHmovAQA7AQALzwgCB3sKfyABIAAgAEEDakF8cSIKayILaiIMQQNxIQ1BACEBIAAgCkcEQANAIAEgACwAAEG/f0pqIQEgAEEBaiEAIAtBAWoiCw0ACwsCQCANRQ0AIAogDEF8cWoiACwAAEG/f0ohCSANQQFGDQAgCSAALAABQb9/SmohCSANQQJGDQAgCSAALAACQb9/SmohCQsgDEECdiELIAEgCWohDAJAA0AgCiEJIAtFDQFBwAEgCyALQcABTxsiDkEDcSEPAkAgDkECdCIQQfAHcSIRRQRAQQAhAQwBC0EAIQEgCSEAIBBBEGsiCkEwTwRAIAAgCkEEdkEBaiISQfz///8BcSINQQR0aiEA/QwAAAAAAAAAAAAAAAAAAAAAIQIgDSEKIAkhAQNAIAH9AAIAIgMgAf0AAhAiBP0NDA0ODxwdHh8AAQIDAAECAyAB/QACICIGIAH9AAIwIgf9DQABAgMAAQIDDA0ODxwdHh/9DQABAgMEBQYHGBkaGxwdHh8iBf1NQQf9rQEgBUEG/a0B/VD9DAEBAQEBAQEBAQEBAQEBAQEiBf1OIAMgBP0NCAkKCxgZGhsAAQIDAAECAyAGIAf9DQABAgMAAQIDCAkKCxgZGhv9DQABAgMEBQYHGBkaGxwdHh8iCP1NQQf9rQEgCEEG/a0B/VAgBf1OIAMgBP0NBAUGBxQVFhcAAQIDAAECAyAGIAf9DQABAgMAAQIDBAUGBxQVFhf9DQABAgMEBQYHGBkaGxwdHh8iCP1NQQf9rQEgCEEG/a0B/VAgBf1OIAMgBP0NAAECAxAREhMAAQIDAAECAyAGIAf9DQABAgMAAQIDAAECAxAREhP9DQABAgMEBQYHGBkaGxwdHh8iA/1NQQf9rQEgA0EG/a0B/VAgBf1OIAL9rgH9rgH9rgH9rgEhAiABQUBrIQEgCkEEayIKDQALIAIgAiAD/Q0ICQoLDA0ODwABAgMAAQID/a4BIgIgAiAC/Q0EBQYHAAECAwABAgMAAQID/a4B/RsAIQEgDSASRg0BCyAJIBFqIQoDQCAAQQhq/V0CACIC/U1BB/2tASACQQb9rQH9UP0MAQEBAQEBAQEBAQEBAQEBASIC/U4iA/0bASAA/V0CACIE/U1BB/2tASAEQQb9rQH9UCAC/U4iAv0bASAC/RsAIAFqaiAD/RsAamohASAAQRBqIgAgCkcNAAsLIAsgDmshCyAJIBBqIQogAUEIdkH/gfwHcSABQf+B/AdxakGBgARsQRB2IAxqIQwgD0UNAAsCfyAJIA5B/AFxQQJ0aiIBKAIAIgBBf3NBB3YgAEEGdnJBgYKECHEiACAPQQFGDQAaIAAgASgCBCIAQX9zQQd2IABBBnZyQYGChAhxaiIAIA9BAkYNABogACABKAIIIgBBf3NBB3YgAEEGdnJBgYKECHFqCyIAQQh2Qf+BHHEgAEH/gfwHcWpBgYAEbEEQdiAMaiEMCyAMC+sEAQR/AkACQCAAKAIAIgIEQCAAKAIEIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIAAoAgwiAgRAIAAoAhAiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsgACgCOCICBEAgACgCPCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAJcIgIEQCAAKAJgIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIAAoAmgiAkGAgICAeHJBgICAgHhHBEAgACgCbCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAJ0IgIEQCAAKAJ4IgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILAkAgACgCoAEiAkGAgICAeEYNACACBEAgACgCpAEiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQIgAUEAIAQgAkEnaksbDQMgAxCiAgsgACgCrAEiAkUNACAAKAKwASIAQQRrKAIAIgNBeHEiAUEEQQggA0EDcSIDGyACakkNASADQQAgASACQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC90GAQZ/QeS0yQAoAgAiAiAASQRAIAAgAiIBayIDQdy0yQAoAgAgAWtLBEBB3LTJACABIANBBEEEEKQFQeS0yQAoAgAhAQtB4LTJACgCACIFIAFBAnRqIQQgA0ECTwRAIAAgAkF/c2pBAnQiBgRAIARBACAG/AsACyAAIAFqQQJ0IAJBAnRrIAVqQQRrIQQgASADakEBayEBCyAEQQA2AgBB5LTJACABQQFqNgIAC0HwtMkAKAIAIgIgAEkEQCAAIAIiAWsiA0HotMkAKAIAIAFrSwRAQei0yQAgASADQQRBBBCkBUHwtMkAKAIAIQELQey0yQAoAgAiBSABQQJ0aiEEIANBAk8EQCAAIAJBf3NqQQJ0IgYEQCAEQQAgBvwLAAsgACABakECdCACQQJ0ayAFakEEayEEIAEgA2pBAWshAQsgBEEANgIAQfC0yQAgAUEBajYCAAtBlLXJACgCACICIABJBEAgACACIgFrIgNBjLXJACgCACABa0sEQEGMtckAIAEgA0EEQQQQpAVBlLXJACgCACEBC0GQtckAKAIAIgUgAUECdGohBCADQQJPBEAgACACQX9zakECdCIGBEAgBEEAIAb8CwALIAAgAWpBAnQgAkECdGsgBWpBBGshBCABIANqQQFrIQELIARBADYCAEGUtckAIAFBAWo2AgALQfy0yQAoAgAiAkH//wNNBEAgAiEAQYCABCACayIBQfS0yQAoAgAgAmtLBEBB9LTJACACIAFBBEEEEKQFQfy0yQAoAgAhAAtB+LTJACgCACIEIABBAnQiA2ohASACQf//A0cEQEH8/w8gAkECdCIFayIGBEAgAUEAIAb8CwALIAMgBWsgBGpB/P8PaiEBIAAgAmtB//8DaiEACyABQQA2AgBB/LTJACAAQQFqNgIAC0GItckAKAIAIgJB//8DTQRAIAIhAEGAgAQgAmsiAUGAtckAKAIAIAJrSwRAQYC1yQAgAiABQQRBBBCkBUGItckAKAIAIQALQYS1yQAoAgAiBCAAQQJ0IgNqIQEgAkH//wNHBEBB/P8PIAJBAnQiBWsiBgRAIAFBACAG/AsACyADIAVrIARqQfz/D2ohASAAIAJrQf//A2ohAAsgAUEANgIAQYi1yQAgAEEBajYCAAsLjgcCAX8BfCMAQTBrIgIkAAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAAtAABBAWsOEQECAwQFBgcICQoLDA0ODxARAAsgAiAALQABOgAIIAIgAkEIaq1CgICAgMABhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBAjYCHCACQfSQxgA2AhggAiACQRBqNgIgIAJBGGoQwQMMEQsgAiAAKQMINwMIIAIgAkEIaq1CgICAgKAFhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBAjYCHCACQZCRxgA2AhggAiACQRBqNgIgIAJBGGoQwQMMEAsgAiAAKQMINwMIIAIgAkEIaq1CgICAgNANhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBAjYCHCACQZCRxgA2AhggAiACQRBqNgIgIAJBGGoQwQMMDwsgACsDCCEDIAIgAkEQaq1CgICAgOANhDcDCCACIAM5AxAgASgCACABKAIEIAJCATcCJCACQQI2AhwgAkHspcYANgIYIAIgAkEIajYCICACQRhqEMEDDA4LIAIgACgCBDYCCCACIAJBCGqtQoCAgIDwDYQ3AxAgASgCACABKAIEIAJCATcCJCACQQI2AhwgAkGskcYANgIYIAIgAkEQajYCICACQRhqEMEDDA0LIAIgACkCBDcCCCACIAJBCGqtQoCAgICADoQ3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkHEkcYANgIYIAIgAkEQajYCICACQRhqEMEDDAwLIAEoAgBBzJHGAEEKIAEoAgQoAgwRAAAMCwsgASgCAEHWkcYAQQogASgCBCgCDBEAAAwKCyABKAIAQeCRxgBBDCABKAIEKAIMEQAADAkLIAEoAgBB7JHGAEEOIAEoAgQoAgwRAAAMCAsgASgCAEH6kcYAQQggASgCBCgCDBEAAAwHCyABKAIAQYKSxgBBAyABKAIEKAIMEQAADAYLIAEoAgBBhZLGAEEEIAEoAgQoAgwRAAAMBQsgASgCAEGJksYAQQwgASgCBCgCDBEAAAwECyABKAIAQZWSxgBBDyABKAIEKAIMEQAADAMLIAEoAgBBpJLGAEENIAEoAgQoAgwRAAAMAgsgASgCAEGxksYAQQ4gASgCBCgCDBEAAAwBCyABKAIAIAAoAgQgACgCCCABKAIEKAIMEQAACyACQTBqJAAL9AUCBX8BfiABQiCIIAFCEIinIQUCfyABpyIDQf//AXFFBEAgA0EQdAwBCyADQf8HcSEGIANBgIACcSECIANBgPgBcSIDQYD4AUYEQCACQRB0IQMgA0GAgID8B3IgBkUNARogAyAGQQ10ckGAgID+B3IMAQsgAkEQdCECIANBDXRBgICA/ABxIAZBDXRyQYCAgMADaiACciADDQAaIAYgBmdBEGsiBkH//wNxQQhqdEH///8DcSACQYCAgNgDciAGQRd0a3ILIQYgAUIwiCEBpyEDAn8gBUH//wFxBEAgBUH/B3EhAiAFQYCAAnEhBCAFQYD4AXEiBUGA+AFHBEAgBEEQdCEEIAVBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAEciAFDQIaIAIgAmdBEGsiBUH//wNxQQhqdEH///8DcSAEQYCAgNgDciAFQRd0a3IMAgsgBEEQdCEFIAUgAkENdHJBgICA/gdyIAINARogBUGAgID8B3IMAQsgBUEQdAshBSABpyECIAAgBv0RIAX9HAECfyADQf//AXEEQCADQf8HcSEEIANBgIACcSEAIANBgPgBcSIDQYD4AUcEQCAAQRB0IQAgA0ENdEGAgID8AHEgBEENdHJBgICAwANqIAByIAMNAhogBCAEZ0EQayIDQf//A3FBCGp0Qf///wNxIABBgICA2ANyIANBF3RrcgwCCyAAQRB0IQMgAyAEQQ10ckGAgID+B3IgBA0BGiADQYCAgPwHcgwBCyADQRB0C/0cAgJ/IAJB//8BcQRAIAJB/wdxIQQgAkGAgAJxIQAgAkGA+AFxIgJBgPgBRwRAIABBEHQhACACQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogAHIgAg0CGiAEIARnQRBrIgJB//8DcUEIanRB////A3EgAEGAgIDYA3IgAkEXdGtyDAILIABBEHQhAiACIARBDXRyQYCAgP4HciAEDQEaIAJBgICA/AdyDAELIAJBEHQL/RwD/QsEAAuOBgENfyAAIAAoAgQiCCAAKAIAIgNJQQJ0aiIFIABBDEEIIAAoAgwgACgCCEkiBBtqIgkgACADIAhNQQJ0aiIIIABBCEEMIAQbaiIDKAIAIAgoAgBJIgQbIAkoAgAiCyAFKAIAIgpJIgUbIgYoAgAhDCADIAggCSAFGyAEGyIHKAIAIQ0gAiALIAogBRsiCTYCACACIAcgBiAMIA1LIgUbKAIANgIEIAIgBiAHIAUbKAIANgIIIAJBDGoiCyAIIAMgBBsoAgAiCDYCACAAQRBqIgMgACgCFCIFIAAoAhAiBklBAnRqIgcgA0EMQQggACgCHCAAKAIYSSIKG2oiBCADIAUgBk9BAnRqIgAgA0EIQQwgChtqIgUoAgAgACgCAEkiBhsgBCgCACIKIAcoAgAiDEkiAxsiBygCACENIAUgACAEIAMbIAYbIgQoAgAhDiACQRBqIg8gCiAMIAMbIgM2AgAgAkEUaiAEIAcgDSAOSyIKGygCADYCACACQRhqIAcgBCAKGygCADYCACACQRxqIgcgACAFIAYbKAIAIgA2AgAgASAD/REgDyADIAlJQQJ0aiIFKAIAIgT9HAEgBSAEIAIgAyAJT0ECdGoiBigCACICSUECdGoiBSgCACID/RwCIAUgAyAGIAIgBE1BAnRqIgYoAgAiBElBAnRqIgooAgAiBf0cAyAJ/REgAv0cASAE/RwCIAYgAyAET0ECdGoiDCgCACIC/RwD/bcB/QsCACABIAdBfEEAIAAgCE8baiIBQXxBACABKAIAIgEgC0F8QQAgACAISRtqIgQoAgAiCU8baiIDQXxBACADKAIAIgMgBEF8QQAgASAJSRtqIgcoAgAiBE8baiILKAIAIgb9ESAD/RwBIAH9HAIgAP0cAyAHQXxBACADIARJG2oiASgCACIA/REgBP0cASAJ/RwCIAj9HAP9uQH9CwIQAkAgDCACIAVNQQJ0aiABQXxBACAAIAZLG2pBBGpGBEAgCiACIAVLQQJ0aiALQXxBACAAIAZNG2pBBGpGDQELEIAIAAsLrQYCBX8EfSMAQSBrIgQkAEEBIQUCQAJAAkAgAiACQQRBAyADQQFxGyIHbiIGIAdsRgRAIAZBAnQiBwRAQQAhBQJAIAdBAE4EQCAEQQA2AhggBEEIakEBIAcgBEEUahCFByAEKAIIQQFHDQEgBCgCECEGIAQoAgwhBQsgBCAGNgIYIAQgBTYCFEHgvsQAQTYgBEEUakHQvsQAQZi/xAAQ4AYACyAEKAIMIQULQQAhBiAEQQA2AhwgBCAFNgIYIAQgBzYCFCADQQFxDQEgAkEDbiIDQQJ0IgIEQCACIAdLBEAgBEEUakEAIAIQ7wUgBCgCHCEGIAQoAhghBQsgBSAGaiEHIAJBAWsiCARAIAdBACAI/AsACyAHIAhqQQA6AAAgAiAGaiEGCyAEIAY2AhwgBkECdiICIAMgAiADSRsiA0UNAgNAIAFBCGoqAgAhCyABQQRqKgIAIQpDAAB/QyEJIAEqAgAiDEMAAIA/XQR9IAxDAAAAABDgCEMAAH9DlAUgCQsQuQciDEMAAIC/XkUgDEMAAIBDXUVyDQQgCkMAAIA/XQR9IApDAAAAABDgCEMAAH9DlAUgCQsQuQciCkMAAIC/XkUgCkMAAIBDXUVyDQQgC0MAAIA/XQR9IAtDAAAAABDgCEMAAH9DlAUgCQsQuQciCUMAAIC/XkUgCUMAAIBDXUVyDQQgBSAM/AE6AAAgBUEDakH/AToAACAFQQJqIAn8AToAACAFQQFqIAr8AToAACABQQxqIQEgBUEEaiEFIANBAWsiAw0ACwwCC0H4vcQAQcUAQcC+xAAQ6wcACwJAAkAgAiAHSwRAIARBFGpBACACEO8FIAQoAhghBSAEKAIcIQMMAQtBACEDIAJFDQELA0BDAAB/QyEJIAEqAgAiC0MAAIA/XQR9IAtDAAAAABDgCEMAAH9DlAUgCQsQuQciCUMAAIC/XkUgCUMAAIBDXUVyDQMgAyAFaiAJ/AE6AAAgAUEEaiEBIANBAWohAyACQQFrIgINAAsLIAQgAzYCHAsgACAEKQIUNwIAIABBCGogBEEcaigCADYCACAEQSBqJAAPC0Gov8QAEN0JAAvABgEGfyMAQfAAayICJAACfwJAAkACQCAAKAIAIgFFDQACQCAAKAIIIgMgACgCBCIFTw0AIAEgA2otAABB1QBHDQBBASEEIAAgA0EBaiIDNgIICwJAAkACQCADIAVJBEAgASADai0AAEHLAEYNAQsgBEUNA0EAIQMMAQsgACADQQFqIgY2AggCQAJAIAUgBk0NACABIAZqLQAAQcMARw0AIAAgA0ECajYCCEEBIQFBxbPFACEDDAELIAJByABqIAAQ7wIgAigCSCIDRQRAIAItAEwhASAAKAIQIgQEQEEBIARB+rLFAEHqssUAIAFBAXEiBBtBGUEQIAQbEJcDDQgaCyAAIAE6AAQgAEEANgIAQQAMBwsgAigCTCIBBEAgAigCVEUNAQsgACgCECIBBEAgAUHqssUAQRAQlwMNBQsgAEEAOgAEIABBADYCAEEADAYLIARFDQELIAAoAhAiBARAIARBxrPFAEEHEJcDDQMLIANFDQELIAAoAhAiBARAIARBzbPFAEEIEJcDDQILIAJBATsBRCACIAE2AkAgAkEANgI8IAJBAToAOCACQd8ANgI0IAIgATYCMCACQQA2AiwgAiABNgIoIAIgAzYCJCACQd8ANgIgIAJBGGogAkEgahCuBCACKAIYIgEEQCAEBEAgBCABIAIoAhwQlwMNAwsgAkHIAGogAkEgakEo/AoAACAEIQEDQCABIQMCQANAIAMhBSACQRBqIAJByABqEK4EIAIoAhAiBkUNAUEAIQMgBUUNAAsgAigCFCEDIAVB6rPFAEEBEJcDDQRBACEBIARFDQEgBCIBIAYgAxCXAw0EDAELCyABRQ0BIAFB6LPFAEECEJcDRQ0BDAILQdizxQAQ3QkACyAAKAIQIgEEQCABQeuzxQBBAxCXAw0BCyACQQhqIAAQtwZBASACKAIIQQFxDQIaIAAoAhAiAQRAQQEgAUHejsgAQQEQlwMNAxoLIAAoAgAiA0UNASAAKAIIIgEgACgCBE8NASABIANqLQAAQfUARw0BIAAgAUEBajYCCEEADAILQQEMAQsgACgCECIBBEBBASABQe6zxQBBBBCXAw0BGgsgABCGAgsgAkHwAGokAAvLBgIIfwN+IwBBoAFrIgMkACABvCEEAn9BAyABi0MAAIB/Ww0AGkECIARBgICA/AdxIgdBgICA/AdGDQAaIARB////A3EiBUGAgIAEciAEQQF0Qf7//wdxIARBF3ZB/wFxIgYbIgitIgtCAYMhDCAHRQRAQQQgBUUNARogBkGWAWshBkIBIQ0gDFAMAQtCgICAECALQgGGIAhBgICABEYiBRshC0ICQgEgBRshDUHofkHpfiAFGyAGaiEGIAxQCyEHIAMgBjsBiAEgAyANNwOAASADQgE3A3ggAyALNwNwIAMgBzoAigECQAJAAkACQAJAAkACQAJAIAdB/wFxQQFNBEAgA0HgAGogA0HwAGogA0EHahDPASADKAJgRQ0BIANBmAFqIANB6ABqKAIANgIAIAMgAykCYDcDkAEMAgsgB0H/AXEiBUECRg0CIANBAjsBGEEBIQdB6rPFAEHIgcIAIARBAEgiBhtB6rPFAEEBIAYbIAIbIQZBASAEQR92IAIbIQIgBUEERg0DIANBAzYCICADQeydxgA2AhwMBwsgA0GQAWogA0HwAGogA0EHahBXCyADKAKUASIHRQ0CIAMoApABIgYtAABBME0NA0Hqs8UAQQEgBEEASCIFGyEIQeqzxQBByIHCACAFGyEJIARBH3YhCiADLgGYASEFIAMgBjYCHCADQQI7ARggA0EBNgIgIAdBAUYEQCADQSRqIQRBAyEHDAULIANBPGohBCADQQI7ATAgA0HsucUANgIoIANBAjsBJCADIAdBAWs2AjggA0EBNgIsIAMgBkEBajYCNEEFIQcMBAsgA0EDNgIgIANB853GADYCHCADQQI7ARhBASEGQQAhAkEBIQcMBAsgA0EDNgIgIANBu4PCADYCHAwDC0G+g8IAQSFBoITCABDrBwALQfCDwgBBH0GwhMIAEOsHAAsgCSAIIAIbIQZBASAKIAIbIQIgBEEBOwEMIARBAjsBACAEQQEgBWsgBUEBayAFQQBMIgUbOwEOIARBAkEBIAUbNgIIIARBwYTCAEHAhMIAIAUbNgIECyADIAc2AmwgAyACNgJkIAMgBjYCYCADIANBGGo2AmggACADQeAAahC+AyADQaABaiQAC8QHAg1/AnsjAEEwayICJAAgAS0AASIFIAEtAAAiBkEBdGohDEECIQ1BAiIDBEAgAUECaiEEA0AgDUEBdCENIAQtAAAgDEEBdGohDCAEQQFqIQQgA0EBayIDDQALCyABQQRqIQMgAkEAOgASIAJBAToAEwJ/IAUtAPD5RCAGLQDw+URPBEBBASEKIAUhCCAGIQVBAAwBCyACQQA6ABMgAkEBOgASIAYhCEEBCyEGQQIhBCACQQI2AiQgAkKAgICA8B83AhwgAiADNgIYIAIgATYCFAJAAkADQAJAAkACQCAERQRAIAIoAiAiA0UNBiACIANBAWs2AiAgAigCFCIEIAIoAhhHDQEMBgsgAkEANgIkIAJBCGohCwJAAkACQCAEIAJBFGoiAygCDCIHTwRAIAcNAQwCCyADIAcgBEF/c2o2AgwgAyADKAIAIgkgBGoiB0EBaiADKAIEIg4gBCAOIAlrIglJGzYCACAEIAlPDQEgAyADKAIIIARqIgRBAWo2AggMAgsgAyADKAIAIgkgB0EBayIEakEBaiADKAIEIg4gBCAOIAlrIglJGzYCACAEIAlJBEAgAyADKAIIIAdqNgIIC0EAIQcgA0EANgIMDAELQQAhBwsgCyAHNgIEIAsgBDYCACACKAIMIgRFDQUgAigCCCEDDAELIAIgBEEBajYCFCACIAIoAhwiA0EBajYCHAsgBC0AACIELQDw+UQiByAFQf8BcSILLQDw+URPBEACQCAEIAtGDQAgByAIQf8BcS0A8PlETw0AIANBgAJPDQIgAiADOgATIAMhCiAEIQgLIAIoAiQhBAwCCyACIAY6ABMgA0H/AUsNAiACIAM6ABIgBiEKIAMhBiAFIQggBCEFIAIoAiQhBAwBCwtB2ObIAEErIAJBL2pBiJbIAEHYmMgAEOAGAAtB2ObIAEErIAJBL2pBiJbIAEHomMgAEOAGAAsgBkH/AXEiCCAKQf8BcUYEQCACQQA2AhRBASACQRJqIAJBE2ogAkEUakHImMgAEPkHAAsCQCAIQQRJBEAgCkH/AXEiBUEETw0BIAEgBWr9BwAAIQ8gASAIav0HAAAhECAAQQQ2AnggACABNgJ0IABBADYCcCAAQRw2AmggACANNgJkIAAgDDYCYCAAQRo2AjAgACAKOgAlIAAgBjoAJCAAQQQgBSAGQf8BcSIBIAEgBUkbQRBqIgEgAUEETRs2AiAgACAP/QsEECAAIBD9CwQAIAJBMGokAA8LIAhBBEGImsgAEIwHAAsgBUEEQZiayAAQjAcAC58GAQd/IwBBMGsiBCQAIAEoAgAiBygCDCEGAkACQAJAIAcoAhQiAyAHKAIQIgJJBEADQCADIAZqLQAAIghBCWsiBUEXS0EBIAV0QZOAgARxRXINAiAHIANBAWoiAzYCFCACIANHDQALIAIhAwtBASEFIARBKGogBiACIANBAWoiASACIAEgAkkbEPkBIAQoAiwhAyAEKAIoIQFBFBBxIgJFDQIgAiABNgIMIAJBAzYCACAAIAI2AgQgAiADNgIQDAELIAhB/QBGBEBBACEFIABBADoAAQwBCwJAIAEtAARFBEAgA0EBaiEDIAhBLEYEQCAHIAM2AhQgAiADSwRAA0AgAyAGai0AACIBQQlrIgVBGUsNBEEBIAV0QZOAgARxRQRAIAVBGUcNBSAAQQE6AAFBACEFDAYLIAcgA0EBaiIDNgIUIAIgA0cNAAsgAiEDC0EBIQUgBEEQaiAGIAIgA0EBaiIBIAIgASACSRsQ+QEgBCgCFCEDIAQoAhAhAUEUEHEiAkUNBCACIAE2AgwgAkEFNgIAIAAgAjYCBCACIAM2AhAMAwsgBEEgaiAGIAIgAyACIAIgA0sbEPkBIAQoAiQhAyAEKAIgIQFBFBBxIgJFDQMgAiABNgIMIAJBCDYCACAAIAI2AgQgAiADNgIQQQEhBQwCC0EAIQUgAUEAOgAEIAhBIkcEQEEBIQUgBCAGIAIgA0EBaiIBIAIgASACSRsQ+QEgBCgCBCEDIAQoAgAhAUEUEHEiAkUNAyACIAE2AgwgAkERNgIAIAAgAjYCBCACIAM2AhAMAgsgAEEBOgABDAELQQEhBSABQf0ARwRAIARBCGogBiACIANBAWoiASACIAEgAkkbEPkBIAQoAgwhAyAEKAIIIQFBFBBxIgJFDQIgAiABNgIMIAJBETYCACAAIAI2AgQgAiADNgIQDAELIARBGGogBiACIANBAWoiASACIAEgAkkbEPkBIAQoAhwhAyAEKAIYIQFBFBBxIgJFDQEgAiABNgIMIAJBFTYCACAAIAI2AgQgAiADNgIQCyAAIAU6AAAgBEEwaiQADwsAC8gGAgd/An4jAEEwayIDJAACQAJAAkAgASgCFCICIAEoAhAiBEkEQCABKAIMIQgCfgJAA0AgAiAIai0AACIFQQlrIgZBF0tBASAGdEGTgIAEcUVyDQEgASACQQFqIgI2AhQgAiAERw0ACyAEIQJCAAwBC0KAAgsgBa1CEIaEQoCCuANRDQELIAACfQJAAkACQAJAAkAgA0EQaiABKAIMIgUgBCACIARJBH8DQAJAIAIgBWotAAAiBkEJaw4lAAAEBAAEBAQEBAQEBAQEBAQEBAQEBAQABAQEBAQEBAQEBAQEAwQLIAEgAkEBaiICNgIUIAIgBEcNAAsgBAUgAgtBAWoiASAEIAEgBEkbEPkBIAMoAhQhBCADKAIQIQFBFBBxIgJFDQggAiABNgIMIAJBBTYCACACIAQ2AhAMAwsgASACQQFqNgIUIANBGGogAUEAEMcDIAMpAxgiCkIDUQ0BIAMpAyAhCQJAAkAgCqdBAWsOAgABBQsgCbUMBQsgCbQMBAsgBkEwa0H/AXFBCk8EQCABIANBL2pB2OfAABDuASABEOsFIQIMAgsgA0EYaiABQQEQxwMgAykDGCIKQgNRDQAgAykDICEJAkACQAJAIAqnQQFrDgIBAgALIAm/tkMAAIA/QwAAgL8gCUIAWRuYDAULIAm1DAQLIAm0DAMLIAMoAiAhAgsgAEECNgIAIAAgAjYCBAwDCyAJv7ZDAACAP0MAAIC/IAlCAFkbmAs4AgQgAEEBNgIADAELIAEgAkEBaiIHNgIUAkACQAJAIAQgB00NACABIAJBAmoiBTYCFCAHIAhqLQAAQfUARw0BIAUgByAEIAQgB0kbIgdGDQAgASACQQNqIgY2AhQgBSAIai0AAEHsAEcEQCAGIQUMAgsgBiAHRg0AIAEgAkEEaiIFNgIUIAYgCGotAABB7ABHDQEgAEEANgIADAMLIAMgCCAEIAcQ+QEgAygCBCEEIAMoAgAhAUEUEHEiAkUNAyACQQU2AgAMAQsgA0EIaiAIIAQgBRD5ASADKAIMIQQgAygCCCEBQRQQcSICRQ0CIAJBCTYCAAsgAiABNgIMIAAgAjYCBCAAQQI2AgAgAiAENgIQCyADQTBqJAAPCwALzQYDA38BfAN9IwBBEGsiAiQAAkAgASgCAEGUgICAeEYEQAJ9AkAgAAJ/AkACQAJAAn0CQAJAIAEoAgwiBARAAn0CQAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCCCIBKAIAIgNBgICAgHhzIANBAE4bQQFrDgoKAAECAwQFBgcICQsgAS8BBLMMCgsgASgCBLMMCQsgASkDCLUMCAsgASwABLIMBwsgAS4BBLIMBgsgASgCBLIMBQsgASkDCLQMBAsgASoCBAwDCyABKwMIIgW2QwAAgD9DAACAvyAFvUIAWRuYDAILIAEgAkEPakHY58AAEJUIDAkLIAEtAASzCyEGIARBAUYNBAJAAkACQAJAAkACQAJAAkACQEEVIAEoAhAiA0GAgICAeHMgA0EAThtBAWsOCgsAAQIDBAUGBwgKCyABLwEUswwLCyABKAIUswwKCyABKQMYtQwJCyABLAAUsgwICyABLgEUsgwHCyABKAIUsgwGCyABKQMYtAwFCyABKgIUDAQLIAErAxgiBbZDAACAP0MAAIC/IAW9QgBZG5gMAwtBACACQQ9qQfThwAAQ2wYMBgsgAUEQaiACQQ9qQdjnwAAQlQgMBQsgAS0AFLMLIQcgBEECRg0CAkACQAJAAkACQAJAAkACQAJAQRUgASgCICIDQYCAgIB4cyADQQBOG0EBaw4KDQABAgMEBQYHCAoLIAEvASSzDA0LIAEoAiSzDAwLIAEpAyi1DAsLIAEsACSyDAoLIAEuASSyDAkLIAEoAiSyDAgLIAEpAyi0DAcLIAEqAiQMBgsgASsDKCIFtkMAAIA/QwAAgL8gBb1CAFkbmAwFC0EBIAJBD2pB9OHAABDbBgwCCyABQSBqIAJBD2pB2OfAABCVCAwBC0ECIAJBD2pB9OHAABDbBgs2AgQgAEEBNgIADAMLIAEtACSzCyEIIARBA0cEQCACQQM2AgggBEH9////AGpB/////wBxQQNqIAJBCGpB6JXBABDbBiEBIABBATYCACAAIAE2AgQMAgsgACAIOAIMIAAgBzgCCCAAIAY4AgQgAEEANgIADAELIAEgAkEPakH04cAAEJUIIQEgAEEBNgIAIAAgATYCBAsgAkEQaiQAC+4FAQp/IwBBQGoiBSQAIAVBADYCKCAFQQA2AjxBBCEHIAVBLGohCSAFQTxqIQwCQAJAAkACfyAEQQVJBEAgCSEKIAwMAQsgBUEIaiAFQShqQX8gBEEBa2d2QQFqEPUDIAUoAggiBkGBgICAeEcEQCAGDQJB2JXHAEERQdTMxwAQ6wcACyAFKAI8IgdBBUkEQCAHIQYgCSEKQQQhByAMDAELIAUoAiwhBiAFKAIwIQogCQshCyADIARBAnRqIQ0CQAJAIAsgBiAHSQR/AkAgBEH/////A3EiCCAHIAZBf3NqIgQgBCAISxsiCEEHTQ0AIAZBAnQgCmoiBCADa0EQSQ0AIAYgCEEBaiIIIAhBA3EiCEEEIAgbayIOaiEGIAMgDkECdGoDQCAEIAP9AAIA/QsCACADQRBqIQMgBEEQaiEEIA5BBGsiDg0ACyEDCyAKIAZBAnRqIQQDQCADIA1GDQIgBCADKAIANgIAIARBBGohBCADQQRqIQMgByAGQQFqIgZHDQALIAcFIAYLNgIAIAMgDUYNAQNAAn8gBSgCPCIHQQVJBEAgByEEIAkhC0EEIQcgDAwBCyAFKAIsIQQgBSgCMCELIAkLIQYgAygCACEKIAQgB0YEfyAFQShqENQGIAUoAjAhCyAJIQYgBSgCLAUgBAtBAnQgC2ogCjYCACAGIAYoAgBBAWo2AgAgA0EEaiIDIA1HDQALDAELIAsgBjYCAAsgBUEgaiAFQThqKQIANwMAIAUgBf0AAij9CwMQIAEgAksEQCAAIAJBGGxqIgQoAhQiAUEFTwRAIAQoAggiA0EEaygCACIAQXhxIgIgAUECdCIBQQRBCCAAQQNxIgAbakkNAyAAQQAgAiABQSdqSxsNBCADEKICCyAEIAX9AAMQ/QsCACAEQRBqIAVBIGopAwA3AgAgBUFAayQADwsgAiABQby7xwAQjAcLAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALigYCEX8BfiMAQTBrIgUkACAFQQxqrUKAgICAEIQhFCAALQAMIQwgACgCBCERIAAoAgAhECAAKAIIIglBBGohCgJ/A0ACQCANIhINACAEIQtBASENAkACfyACIAZPBEADQCABIAZqIQcCQAJAAkACQAJAAkACQAJAIAIgBmsiCEEITwRAIAdBA2pBfHEiBCAHRg0BIAQgB2shBEEAIQMDQCADIAdqLQAAQQpGDQkgBCADQQFqIgNHDQALIAQgCEEIayIDSw0DDAILIAIgBkYNA0EAIQMDQCADIAdqLQAAQQpGDQggA0EBaiIDIAhHDQALDAULIAhBCGshA0EAIQQLA0BBgIKECCAEIAdqIg8oAgAiE0GKlKjQAHNrIBNyQYCChAggD0EEaigCACIPQYqUqNAAc2sgD3JxQYCBgoR4cUGAgYKEeEcNASAEQQhqIgQgA00NAAsLIAQgCEcNAQsgAiEGIAsMBgsgBCAHaiEHIAIgBGsgBmshCEEAIQMDQCADIAdqLQAAQQpGDQIgCCADQQFqIgNHDQALCyACIQYgCwwECyADIARqIQMLIAMgBmoiA0EBaiEGAkAgAiADTQ0AIAEgA2otAABBCkcNAEEAIQ0gBiEEDAQLIAIgBk8NAAsLIAsLIQQgAiEDCwJAIAxBAXFFBEAgAEEBOgAMIBAEQCAFIBE2AgwgBSAUNwMQIAooAgAhCCAJKAIAIQwgBUEBNgIsIAVBiPDBADYCKCAFQQE2AiQgBUECNgIcIAVB4PjHADYCGCAFIAVBEGo2AiBBASAMIAggBUEYahDBAw0FGgwCCyAJKAIAQbyLwwBBBCAKKAIAKAIMEQAADQIMAQsgDkUNACAJKAIAQQogCigCACgCEBECAA0BIBAEQCAJKAIAQaDwwQBBByAKKAIAKAIMEQAADQIMAQsgCSgCAEG8i8MAQQQgCigCACgCDBEAAA0BCyAOQQFqIQ5BASEMIAkoAgAgASALaiADIAtrIAooAgAoAgwRAABFDQELCyASQQFzCyAFQTBqJABBAXEL4gYCBX8BfiMAQTBrIgIkACAAKAIAIQAgASgCACIDQeiyxQBBASABKAIEIgQoAgwiBREAACEGIAIgADYCDAJAAkACQAJAAkACQAJAIAYNAAJAIAEtAApBgAFxRQRAIAJBDGogARDEBCACIABBAWo2AgxFDQEMAwsgA0Hc+McAQQEgBREAAA0BIAJBAToAHyACIAQ2AhQgAiADNgIQIAJB4IHCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQxAQNASACKAIgQdmBwgBBAiACKAIkKAIMEQAAIAIgAEEBajYCDA0CCwJAIAEtAApBgAFxBEAgASkCACEHIAJBAToAHyACIAc3AhAgAkHggcIANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDEBA0DIAIoAiBB2YHCAEECIAIoAiQoAgwRAAAgAiAAQQJqNgIMRQ0BDAcLIAEoAgBB55DGAEECIAEoAgQoAgwRAAANAiACQQxqIAEQxAQgAiAAQQJqNgIMDQYLAkAgAS0ACkGAAXEEQCABKQIAIQcgAkEBOgAfIAIgBzcCECACQeCBwgA2AiQgAiABKQIINwIoIAIgAkEfajYCGCACIAJBEGo2AiAgAkEMaiACQSBqEMQEDQcgAigCIEHZgcIAQQIgAigCJCgCDBEAACACIABBA2o2AgxFDQEMBgsgASgCAEHnkMYAQQIgASgCBCgCDBEAAA0GIAJBDGogARDEBCACIABBA2o2AgwNBQsgAS0ACkGAAXFFDQIgASgCACEDIAEoAgQhBEEBIQAgAkEBOgAfIAIgBDYCFCACIAM2AhAgAkHggcIANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDEBA0EIAIoAiBB2YHCAEECIAIoAiQoAgwRAABFDQMMBgsgAiAAQQFqNgIMCyACIABBAmo2AgwMAwsgASgCAEHnkMYAQQIgASgCBCgCDBEAAA0BQQEhACACQQxqIAEQxAQNAyABKAIEIQQgASgCACEDCyADQemyxQBBASAEKAIMEQAAIQAMAgtBASEADAELIAIgAEEDajYCDEEBIQALIAJBMGokACAAC4IGAQF/AkACQCABIAMgBWwgBGoiA0kNAAJAIAEgA2siBEEDTQ0AIAAgA2oiBEH/ASACKAIAIAQtAABqIgZBACAGQQBKGyIGIAZB/wFOGzoAACAEQf8BIAIoAgQgBC0AAWoiBkEAIAZBAEobIgYgBkH/AU4bOgABIARB/wEgAigCCCAELQACaiIGQQAgBkEAShsiBiAGQf8BThs6AAIgBEH/ASACKAIMIAQtAANqIgRBACAEQQBKGyIEIARB/wFOGzoAAyABIAMgBWoiA0kNASABIANrIgRBBEkNACAAIANqIgRB/wEgAigCECAELQAAaiIGQQAgBkEAShsiBiAGQf8BThs6AAAgBEH/ASACKAIUIAQtAAFqIgZBACAGQQBKGyIGIAZB/wFOGzoAASAEQf8BIAIoAhggBC0AAmoiBkEAIAZBAEobIgYgBkH/AU4bOgACIARB/wEgAigCHCAELQADaiIEQQAgBEEAShsiBCAEQf8BThs6AAMgASADIAVqIgNJDQEgASADayIEQQRJDQAgACADaiIEQf8BIAIoAiAgBC0AAGoiBkEAIAZBAEobIgYgBkH/AU4bOgAAIARB/wEgAigCJCAELQABaiIGQQAgBkEAShsiBiAGQf8BThs6AAEgBEH/ASACKAIoIAQtAAJqIgZBACAGQQBKGyIGIAZB/wFOGzoAAiAEQf8BIAIoAiwgBC0AA2oiBEEAIARBAEobIgQgBEH/AU4bOgADIAEgAyAFaiIDSQ0BIAEgA2siBEEETw0CC0EAQQQgBEGY4sQAEOoHAAsgAyABIAFBqOLEABDqBwALIAAgA2oiAEH/ASACKAIwIAAtAABqIgFBACABQQBKGyIBIAFB/wFOGzoAACAAQf8BIAIoAjQgAC0AAWoiAUEAIAFBAEobIgEgAUH/AU4bOgABIABB/wEgAigCOCAALQACaiIBQQAgAUEAShsiASABQf8BThs6AAIgAEH/ASACKAI8IAAtAANqIgBBACAAQQBKGyIAIABB/wFOGzoAAwuBBgIHfwJ8IwBBIGsiBiQAQQEhCSABIAEoAhQiB0EBaiIFNgIUAkAgBSABKAIQIghPDQACQAJAIAEoAgwgBWotAABBK2sOAwECAAILQQAhCQsgASAHQQJqIgU2AhQLAkAgAAJ/AkACQAJAAn8CQAJAIAUgCEkEQCABIAVBAWoiBzYCFCABKAIMIgogBWotAABBMGtB/wFxIgVBCk8NAQJAIAcgCE8NAANAIAcgCmotAABBMGtB/wFxIgtBCk8NASABIAdBAWoiBzYCFCAFQcyZs+YARyALQQdLciAFQcuZs+YASnENBiAFQQpsIAtqIQUgByAIRw0ACyAIIQcLIAkNAiAEIAVrIgFBH3VBgICAgHhzIAEgASAESCAFQQBKcxsMAwsgBkEYaiABKAIMIAggBRD5ASAGKAIcIQIgBigCGCEEQRQQcSIBRQ0EIAEgBDYCDCABQQU2AgAgACABNgIEIABBATYCACABIAI2AhAMBwsgBkEQaiAKIAggBxD5ASAGKAIUIQIgBigCECEEQRQQcSIBRQ0DIAEgBDYCDCABQQ02AgAgACABNgIEIABBATYCACABIAI2AhAMBgsgBCAFaiIBQR91QYCAgIB4cyABIAVBAEggASAESHMbCyEFIAO6IQwCQAJAAkAgBSAFQR91IgFzIAFrIgFBtQJPBEADQCAMRAAAAAAAAAAAYQ0HIAVBAE4NAiAMRKDI64XzzOF/oyEMIAVBtAJqIgUgBUEfdSIBcyABayIBQbUCTw0ACwsgAUEDdCsDoIJHIQ0gBUEATg0BIAwgDaMhDAwFCyAGQQhqIAogCCAHEPkBIAYoAgwhAiAGKAIIIQQMAQsgDCANoiIMmUQAAAAAAADwf2INAyAGIAogCCAHEPkBIAYoAgQhAiAGKAIAIQQLQRQQcSIBRQ0BIAEgBDYCDCABQQ42AgAgACABNgIEIAEgAjYCEEEBDAMLIAAgASACIANQIAkQ7AUMAwsACyAAIAwgDJogAhs5AwhBAAs2AgALIAZBIGokAAvbBgIFfwF+IwBBMGsiAiQAIAEoAgAiA0HossUAQQEgASgCBCIEKAIMIgURAAAhBiACIAA2AgwCQAJAAkACQAJAAkACQCAGDQACQCABLQAKQYABcUUEQCACQQxqIAEQxAQgAiAAQQFqNgIMRQ0BDAMLIANB3PjHAEEBIAURAAANASACQQE6AB8gAiAENgIUIAIgAzYCECACQeCBwgA2AiQgAiABKQIINwIoIAIgAkEfajYCGCACIAJBEGo2AiAgAkEMaiACQSBqEMQEDQEgAigCIEHZgcIAQQIgAigCJCgCDBEAACACIABBAWo2AgwNAgsCQCABLQAKQYABcQRAIAEpAgAhByACQQE6AB8gAiAHNwIQIAJB4IHCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQxAQNAyACKAIgQdmBwgBBAiACKAIkKAIMEQAAIAIgAEECajYCDEUNAQwHCyABKAIAQeeQxgBBAiABKAIEKAIMEQAADQIgAkEMaiABEMQEIAIgAEECajYCDA0GCwJAIAEtAApBgAFxBEAgASkCACEHIAJBAToAHyACIAc3AhAgAkHggcIANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDEBA0HIAIoAiBB2YHCAEECIAIoAiQoAgwRAAAgAiAAQQNqNgIMRQ0BDAYLIAEoAgBB55DGAEECIAEoAgQoAgwRAAANBiACQQxqIAEQxAQgAiAAQQNqNgIMDQULIAEtAApBgAFxRQ0CIAEoAgAhAyABKAIEIQRBASEAIAJBAToAHyACIAQ2AhQgAiADNgIQIAJB4IHCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQxAQNBCACKAIgQdmBwgBBAiACKAIkKAIMEQAARQ0DDAYLIAIgAEEBajYCDAsgAiAAQQJqNgIMDAMLIAEoAgBB55DGAEECIAEoAgQoAgwRAAANAUEBIQAgAkEMaiABEMQEDQMgASgCBCEEIAEoAgAhAwsgA0HpssUAQQEgBCgCDBEAACEADAILQQEhAAwBCyACIABBA2o2AgxBASEACyACQTBqJAAgAAuOBgIGfwV+QQQhAyABKAIIIgRBBGooAgAhBSABAn4gBEEIaigCACIGIAEpAwAiCiAGrSIJIAkgClYbp0YEQEGokMgAKQMAIg1CCIghCyANpyEDIAkgDUL/AYNCBFINARoLIApCAXwLIgw3AwAgA0H/AXFBBEcEQCAAQoGAgICQgICAgH83AgAgACADrUL/AYMgC0IIhoQ3AggPCyABAn4CQCAGIAwgCSAJIAxWG6ciA2tBBE8EQCADIAVqKAAAIQZBBCEDQgAhCwwBC0EAIQZBqJDIACkDACINQgiIIQsgDachAyAJIA1C/wGDQgRSDQEaCyAMQgR8CyIKNwMAIANB/wFxQQRHBEAgACADOgAIIABCgYCAgJCAgICAfzcCACAAIAunIgE7AAkgACALQhiIPgIMIABBC2ogAUEQdjoAAA8LAkACQAJAAkAgAkH//wNxIgdBBU8EQCAHQQVrIgIEQCACEHEiAwRAIANBBGstAABBA3FFIAJFckUEQCADQQAgAvwLAAsgBEEIaigCACIFrSEJIAVC/////w8gCiAKQv////8PWhunayIIQQAgBSAITxsgAk8EQCAEQQRqKAIAIAogCSAJIApWG6dqIQQgAkEBRw0EIAMgBC0AADoAAAwFC0GokMgAKQMAIgtCCIghDCALpyEEIAtC/wGDQgRSDQYMBQsACyAFIAogCSAJIApWG6dqIQRBASEDDAELIAD9DAEAAAAAAACAXAgSACAAAAD9CwIADwsgAkUNACADIAQgAvwKAAALQgAhDEEEIQQLIAogAq18IQkLIAEgCTcDAAJAAkACQCAEQf8BcUEERwRAIABCgYCAgJCAgICAfzcCACAAIAStQv8BgyAMQgiGhDcCCCACRQ0BIANBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIAJqSQ0CIABBACABIAdBImpLGw0DIAMQogIPCyAAIAY2AgwgACACNgIIIAAgAzYCBCAAQQA2AgALDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALhwcBBn8jAEEwayICJAACQAJAAkACQAJAAkACQEEDIAAoAgAiA0GAgICAeHMgA0EAThtBAWsOBQECAwQFAAsgASgCAEGkrscAQREgASgCBCgCDBEAACEDDAULIAEoAgBBta7HAEENIAEoAgQoAgwRAAAhAwwEC0EBIQMgASgCACIEQdSuxwBBDyABKAIEIgcoAgwiBREAAA0DIABBBGohBgJAIAEtAApBgAFxRQRAIARBu7PFAEEBIAURAAANBSACIAY2AhwgASAAQQdqQcioxwAgAEEFakHYqMcAIABBBmpB6KjHACACQRxqQfioxwAQ7gVFDQEMBQsgBEHbgcIAQQIgBREAAA0EIAJBAToADyACIAc2AhQgAiAENgIQIAJB4IHCADYCICACIAEpAgg3AiQgAiACQQ9qNgIYIAIgAkEQajYCHCACIAY2AiwgAkEcaiAAQQdqQcioxwAgAEEFakHYqMcAIABBBmpB6KjHACACQSxqQfioxwAQ7gUNBCACKAIcQdmBwgBBAiACKAIgKAIMEQAADQQLIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwDC0EBIQMgASgCACIEQeOuxwBBByABKAIEIgYoAgwiBREAAA0CAkAgAS0ACkGAAXFFBEAgBEG7s8UAQQEgBREAAA0EIAAoAgQgACgCCCABELUCRQ0BDAQLIARB24HCAEECIAURAAANAyACQQE6ACwgAiAGNgIUIAIgBDYCECACQeCBwgA2AiAgAiABKQIINwIkIAIgAkEsajYCGCACIAJBEGoiBDYCHCAAKAIEIAAoAgggAkEcahC1Ag0DIARB2YHCAEECEK8DDQMLIAEoAgBB3o7IAEEBIAEoAgQoAgwRAAAhAwwCCyABKAIAQequxwBBCiABKAIEKAIMEQAAIQMMAQsgAiAAQQhqNgIQIAEoAgBBhK/HAEEMIAEoAgQoAgwRAAAhAyACQQA6ACEgAiADOgAgIAIgATYCHCACQRxqQZCvxwBBCCAAQQRqQfSuxwAQjAVBmK/HAEEFIAJBEGpBxK7HABCMBSACLQAhIgEgAi0AICIEciEDIARBAXEgAUEBR3INACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQMMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEDCyACQTBqJAAgA0EBcQufBgIHfwF+IwBBMGsiBCQAAkACQAJAAkACQAJAAkACQAJAAkAgASgCFCICIAEoAhAiA0kEQCABKAIMIQcCfgJAA0AgAiAHai0AACIFQQlrIghBF0tBASAIdEGTgIAEcUVyDQEgASACQQFqIgI2AhQgAiADRw0ACyADIQJCAAwBC0KAAgsgBa1CEIaEQoCCuANRDQELAkAgBEEYaiABKAIMIgcgAyACIANJBH8gAUEMaiEIA0ACQCACIAdqLQAAQQlrIgVBGU0EQEEBIAV0QZOAgARxDQEgBUEZRg0ECyABIARBL2pBtOLAABDuASABEOsFIQIMDAsgASACQQFqIgI2AhQgAiADRw0ACyADBSACC0EBaiIBIAMgASADSRsQ+QEgBCgCHCEDIAQoAhghAUEUEHEiAkUNByACIAE2AgwgAkEFNgIAIAIgAzYCEAwJCyABQQA2AgggASACQQFqNgIUIARBIGogCCABEIICIAQoAiQhAiAEKAIgIgFBAkYNCCAEKAIoIQMCQCABQQFxBEAgA0EASA0DIANFDQEMBwsgA0EASA0DIAMNBgtBASEBDAcLIAEgAkEBaiIGNgIUAkAgAyAGTQ0AIAEgAkECaiIFNgIUIAYgB2otAABB9QBHDQMgBSAGIAMgAyAGSRsiBkYNACABIAJBA2oiCDYCFCAFIAdqLQAAQewARwRAIAghBQwECyAGIAhGDQAgASACQQRqIgU2AhQgByAIai0AAEHsAEcNAyAAQYCAgIB4NgIADAkLIARBCGogByADIAYQ+QEgBCgCDCEGIAQoAgghAUEUEHEiAkUNBSACQQU2AgAMAwtB2JrIABD/BwALQdiayAAQ/wcACyAEQRBqIAcgAyAFEPkBIAQoAhQhBiAEKAIQIQFBFBBxIgJFDQIgAkEJNgIACyACIAE2AgwgACACNgIEIABBgYCAgHg2AgAgAiAGNgIQDAQLIAMQcSIBDQELAAsgAwRAIAEgAiAD/AoAAAsgACADNgIIIAAgATYCBCAAIAM2AgAMAQsgAEGBgICAeDYCACAAIAI2AgQLIARBMGokAAvyBQIFfwJ9IAEqAgAQxgW8IgJB////A3EhAyACQYCAgIB4cSEFIAEqAgQCQCACQYCAgPwHcSIEQYCAgPwHRgRAIANBDXYgBUEQdnJBgARBACADG3JBgPgBciEFDAELIAVBEHYhBSAEQYCAgLgETQRAIARBgICAxANPBEAgAkEMdiACQf/fAHFBAEdxIARBDXYgA0ENdmpBgIABaiAFcmohBQwCCyAEQYCAgJgDSQ0BIANBgICABHIiAkH+ACAEQRd2IgNrdiEEIAJBHSADayIDdkEBcQR/IARBAyADdEEBayACcUEAR2oFIAQLIAVyIQUMAQsgBUGA+AFyIQULIAEqAgghCBDGBbwiAkH///8DcSEDIAJBgICAgHhxIQQCQCACQYCAgPwHcSIBQYCAgPwHRwRAIARBEHYhBCABQYCAgLgETQRAIAFBgICAxANPBEAgAkEMdiACQf/fAHFBAEdxIAFBDXYgA0ENdmpBgIABaiAEcmohBAwDCyABQYCAgJgDSQ0CIANBgICABHIiAkH+ACABQRd2IgNrdiEBIAJBHSADayIDdkEBcQR/IAFBAyADdEEBayACcUEAR2oFIAELIARyIQQMAgsgBEGA+AFyIQQMAQsgA0ENdiAEQRB2ckGABEEAIAMbckGA+AFyIQQLIAgQxgW8IgNB////A3EhBiADQYCAgIB4cSECAkAgA0GAgID8B3EiAUGAgID8B0cEQCACQRB2IQIgAUGAgIC4BE0EQCABQYCAgMQDTwRAIANBDHYgA0H/3wBxQQBHcSABQQ12IAZBDXZqQYCAAWogAnJqIQIMAwsgAUGAgICYA0kNAiAGQYCAgARyIgNB/gAgAUEXdiIGa3YhASADQR0gBmsiBnZBAXEEfyABQQMgBnRBAWsgA3FBAEdqBSABCyACciECDAILIAJBgPgBciECDAELIAZBDXYgAkEQdnJBgARBACAGG3JBgPgBciECCyAAIAI7ASAgACAEOwEeIAAgBTsBHAu7BwIFewd/IAJB//8DcSECIAFB//8DcSEKIAQgBEGgK3AiC2siDUGgK08EQCANIQwgAyEBA0D9DAAAAAAAAAAAAAAAAAAAAAAiBSAC/RwAIQYgBSAKQa0BbP0cACEHQQAhBANAIAEgBGoiAv0AAAAiCP2JAf0MIAAfAB4AHQAcABsAGgAZAP26ASAG/a4BIAj9igH9DBgAFwAWABUAFAATABIAEQD9ugH9rgEgAkEQav0AAAAiCf2JAf0MEAAPAA4ADQAMAAsACgAJAP26Af2uASAJ/YoB/QwIAAcABgAFAAQAAwACAAEA/boB/a4BIQYgBSAH/a4BIQcgCP19/X8gBf2uASAJ/X39f/2uASEFIARBIGoiBEGgK0cNAAsgBiAHQQX9qwH9rgEiBv0bASAG/RsAaiAG/RsCaiAG/RsDakHx/wNwIQIgAUGgK2ohASAF/RsAIApqIAX9GwFqIAX9GwJqIAX9GwNqQfH/A3AhCiAMQaArayIMQZ8rSw0ACwsgAyANaiEDIAtBIE8EQP0MAAAAAAAAAAAAAAAAAAAAACIFIAL9HAAhBkEAIAtB4D9xIgFrIQIgBSAKIAtBBXZs/RwAIQcgAyEEA0AgBP0AAAAiCP2JAf0MIAAfAB4AHQAcABsAGgAZAP26ASAG/a4BIAj9igH9DBgAFwAWABUAFAATABIAEQD9ugH9rgEgBEEQav0AAAAiCf2JAf0MEAAPAA4ADQAMAAsACgAJAP26Af2uASAJ/YoB/QwIAAcABgAFAAQAAwACAAEA/boB/a4BIQYgBEEgaiEEIAUgB/2uASEHIAj9ff1/IAX9rgEgCf19/X/9rgEhBSACQSBqIgINAAsgASADaiEDIAtBH3EhCyAF/RsAIApqIAX9GwFqIAX9GwJqIAX9GwNqIQogBiAHQQX9qwH9rgEiBv0bASAG/RsAaiAG/RsCaiAG/RsDaiECCwJAIAtFDQACQCALQQdxIgxFBEAgAyEEDAELIAMhAQNAIAogAS0AAGoiCiACaiECIAFBAWoiBCEBIAxBAWsiDA0ACwsgC0EISQ0AIAMgC2ohAQNAIAogBC0AAGoiAyAEQQFqLQAAaiIMIARBAmotAABqIg0gBEEDai0AAGoiCyAEQQRqLQAAaiIOIARBBWotAABqIg8gBEEGai0AAGoiECAEQQdqLQAAaiIKIBAgDyAOIAsgDSAMIAIgA2pqampqampqIQIgBEEIaiIEIAFHDQALCyAAIAJB8f8DcDsBAiAAIApB8f8DcDsBAAuzBwIFewh/IABB//8DcSEJIABBEHYhCCACIAJBoCtwIgprIgxBoCtPBEAgDCELIAEhAgNA/QwAAAAAAAAAAAAAAAAAAAAAIgMgCP0cACEEIAMgCUGtAWz9HAAhBUEAIQADQCAAIAJqIgj9AAAAIgb9iQH9DCAAHwAeAB0AHAAbABoAGQD9ugEgBP2uASAG/YoB/QwYABcAFgAVABQAEwASABEA/boB/a4BIAhBEGr9AAAAIgf9iQH9DBAADwAOAA0ADAALAAoACQD9ugH9rgEgB/2KAf0MCAAHAAYABQAEAAMAAgABAP26Af2uASEEIAMgBf2uASEFIAb9ff1/IAP9rgEgB/19/X/9rgEhAyAAQSBqIgBBoCtHDQALIAQgBUEF/asB/a4BIgT9GwEgBP0bAGogBP0bAmogBP0bA2pB8f8DcCEIIAJBoCtqIQIgA/0bACAJaiAD/RsBaiAD/RsCaiAD/RsDakHx/wNwIQkgC0GgK2siC0GfK0sNAAsLIAEgDGohASAKQSBPBED9DAAAAAAAAAAAAAAAAAAAAAAiAyAI/RwAIQRBACAKQeA/cSICayEIIAMgCSAKQQV2bP0cACEFIAEhAANAIAD9AAAAIgb9iQH9DCAAHwAeAB0AHAAbABoAGQD9ugEgBP2uASAG/YoB/QwYABcAFgAVABQAEwASABEA/boB/a4BIABBEGr9AAAAIgf9iQH9DBAADwAOAA0ADAALAAoACQD9ugH9rgEgB/2KAf0MCAAHAAYABQAEAAMAAgABAP26Af2uASEEIABBIGohACADIAX9rgEhBSAG/X39fyAD/a4BIAf9ff1//a4BIQMgCEEgaiIIDQALIAQgBUEF/asB/a4BIgT9GwEgBP0bAGogBP0bAmogBP0bA2ohCCAKQR9xIQogA/0bACAJaiAD/RsBaiAD/RsCaiAD/RsDaiEJIAEgAmohAQsCQCAKRQ0AAkAgCkEHcSILRQRAIAEhAAwBCyABIQIDQCAJIAItAABqIgkgCGohCCACQQFqIgAhAiALQQFrIgsNAAsLIApBCEkNACABIApqIQEDQCAJIAAtAABqIgIgAEEBai0AAGoiCyAAQQJqLQAAaiIMIABBA2otAABqIgogAEEEai0AAGoiDSAAQQVqLQAAaiIOIABBBmotAABqIg8gAEEHai0AAGoiCSAPIA4gDSAKIAwgCyACIAhqampqampqaiEIIABBCGoiACABRw0ACwsgCUHx/wNwIAhB8f8DcEEQdHILrAcCAn8BeyMAQYDSAGsiAyQAAkACQAJAAkACQAJAAkACQCABQf8BcUEBaw4FAAIDBAUBC0GAgAgQcSIERQ0FIARBBGstAABBA3EEQCAEQQBBgIAI/AsACyADQUBrQQBBwNEA/AsAQajTABBxIgFFDQUgAUGAgICAeDYCZCABQgE3AlwgAUKAgAg3AlQgASAENgJQIAFCgICAgICAgAE3AkggAUKAgICAEDcCQCABIAL9AAIA/QsCACABQTBqIAJBMGr9AAIA/QsCACABQSBqIAJBIGr9AAIA/QsCACABQRBqIAJBEGr9AAIA/QsCACABQegAaiADQQxqQfTRAPwKAAAgAUHc0gBqQQBBwQD8CwAgAUEAOwGkUyABQQA2AqBTQajewQAhAgwGC0G4BRBxIgFFDQQgAUEANgKwBSABQoCAgIAQNwOoBSABQYGAgIB4NgKcBSABIAL9AAIA/QsCACABQTBqIAJBMGr9AAIA/QsCACABQSBqIAJBIGr9AAIA/QsCACABQRBqIAJBEGr9AAIA/QsCAEGQ3sEAIQIMBQtBzAAQcSIBRQ0DIAFBADYCSCABQoCAgIAQNwJAIAEgAv0AAgD9CwIAIAFBMGogAkEwav0AAgD9CwIAIAFBIGogAkEgav0AAgD9CwIAIAFBEGogAkEQav0AAgD9CwIAQcDewQAhAgwEC0HMABBxIgFFDQIgAUEANgJIIAFCgICAgBA3AkAgASAC/QACAP0LAgAgAUEwaiACQTBq/QACAP0LAgAgAUEgaiACQSBq/QACAP0LAgAgAUEQaiACQRBq/QACAP0LAgBB2N7BACECDAMLQcwAEHEiAUUNASABQQA2AkggAUKAgICAEDcCQCABIAL9AAIA/QsCACABQTBqIAJBMGr9AAIA/QsCACABQSBqIAJBIGr9AAIA/QsCACABQRBqIAJBEGr9AAIA/QsCAEHw3sEAIQIMAgtBgAMQcSIBRQ0AIAFBAjYCiAEgAUECNgIAIAH9DAAAAAAAAAAAAAAAAAAAAAD9CwO4AiABIAX9CwPgAiABIAL9AAIA/QsC+AEgAUHIAmogBf0LAwAgAUHYAmpCgICAgBA3AwAgAUH1AmpCADcAACABQfACakIANwMAIAFBiAJqIAJBEGr9AAIA/QsCACABQZgCaiACQSBq/QACAP0LAgAgAUGoAmogAkEwav0AAgD9CwIAQYjfwQAhAgwBCwALIAAgAjYCBCAAIAE2AgAgA0GA0gBqJAALkgYBBn8CQAJAAkACQAJAAkAgAEEgSQ0AIABB/wBJBEBBASEDDAYLAkAgAEGAgARPBEAgAEGAgAhJDQEgAEHg//8AcUHgzQpHIABB/v//AHFBnvAKR3EgAEHwgzhJcSAA/RH9DMBI/f9QMf3/EBT9/wAI/f/9rgH9DPn////x////8P///132///9PP1TQX9zcSAAQYCADGtBnnRJcSAAQdCmDGtBe0lxIABBgII4a0GwxVRJcSEDDAcLIABBCHZB/wFxIQUDQCABQQJqIQYgAiABLQC7gUMiA2ohBCAFIAEtALqBQyIBRwRAIAEgBUsNByAEIQIgBiIBQdAARw0BDAcLIAIgBEsgBEGiAktyDQUgAkGKgsMAaiEBA0AgA0UEQCAEIQIgBiIBQdAARw0CDAgLIANBAWshAyABLQAAIAFBAWohASAAQf8BcUcNAAsLDAELIABBCHZB/wFxIQUDQCABQQJqIQYgAiABLQCt+0IiA2ohBCAFIAEtAKz7QiIBRwRAIAEgBUsNBCAEIQIgBiIBQdgARw0BDAQLIAIgBEsgBEHQAUtyDQIgAkGE/MIAaiEBA0AgA0UEQCAEIQIgBiIBQdgARw0CDAULIANBAWshAyABLQAAIAFBAWohASAAQf8BcUcNAAsLC0EAIQMMBAsgAiAEQdABQeiGwwAQ6gcACyAAQf//A3EhAkEBIQNBACEBA0AgAUEBaiEEAkAgASwA1P1CIgBBAE4EQCAEIQEMAQsgBEHmA0cEQCABQdX9wgBqLQAAIABB/wBxQQh0ciEAIAFBAmohAQwBC0HYhsMAEN0JAAsgAiAAayICQQBIDQMgA0EBcyEDIAFB5gNHDQALDAILIAIgBEGiAkHohsMAEOoHAAtBASEDQQAhAQNAIAFBAWohBAJAIAEsAKyEQyICQQBOBEAgBCEBDAELIARBqQJHBEAgAUGthMMAai0AACACQf8AcUEIdHIhAiABQQJqIQEMAQtB2IbDABDdCQALIAAgAmsiAEEASA0BIANBAXMhAyABQakCRw0ACwsgA0EBcQvCBgILfwR7IwBBIGsiCSQAAkACQAJAAkACQCADIAQgBWwiCmoiC0EBayIGIAFNBEAgBEEBayAFbCADaiIEQQFrIgcgBk8NASAEIAZLDQIgASAGayEMIAQgBkYEQCABIAprIANrIQRBACEAIAIhAwNAIAAgDE8NBSACIARLDQYgBCAFayEEIAAgBWohACADQQFrIgMNAAsMBgsgACAGaiEOIAAgB2otAAAhDyAAIARqIQ0gBiAEayIBIAIgASACSRsiBkEBcSEQIAZBEHEhAyAAIAtqIQtBACEHA0AgBSAHbCIAIAxPDQQgAiAMIABBAWoiAWsiBEsNBSAAIA5qLQAAIA9rIQogASAOaiEEQQAhAQJAIAZBEEkgB0EBaiIHIAVsQRBJckUEQCAEIAr9ESIRIA39AAAAIhL9iQH9qQH9rgH9DAAAAAAAAAAAAAAAAAAAAAD9uAH9DP8AAAD/AAAA/wAAAP8AAAAiFP22ASARIBIgEf0NBAUGBwAAAAAAAAAAAAAAAP2JAf2pAf2uASAT/bgBIBT9tgH9hgEgESASIBH9DQgJCgsAAAAAAAAAAAAAAAD9iQH9qQH9rgEgE/24ASAU/bYBIBEgEiAR/Q0MDQ4PAAAAAAAAAAAAAAAA/YkB/akB/a4BIBP9uAEgFP22Af2GAf1m/QsAACAGIAMiAUYNAQsgAUEBciEAIBAEQCABIARqQf8BIAogASANai0AAGoiAUEAIAFBAEobIgEgAUH/AU4bOgAAIAAhAQsgACAGRg0AIAEgC2ohACABIA1qIQQgBiABayEBA0AgAEH/ASAKIAQtAABqIghBACAIQQBKGyIIIAhB/wFOGzoAACAAQQFqQf8BIAogBEEBai0AAGoiCEEAIAhBAEobIgggCEH/AU4bOgAAIABBAmohACAEQQJqIQQgAUECayIBDQALCyAFIAtqIQsgAiAHRw0ACwwFCyAJQQA2AhggCUEBNgIMIAlBiILIADYCCCAJQgQ3AhAgCUEIakHo4sQAEI0IAAsgByAGQfjixAAQjAcACyAEIAYgBkGo48QAEOoHAAsgACAMQYjjxAAQjAcAC0EAIAIgBEGY48QAEOoHAAsgCUEgaiQAC78GAQR/IAAgAWohAgJAAkAgACgCBCIDQQFxDQAgA0ECcUUNASAAKAIAIgMgAWohASAAIANrIgBB2LrJACgCAEYEQCACKAIEQQNxQQNHDQFB0LrJACABNgIAIAIgAigCBEF+cTYCBCAAIAFBAXI2AgQgAiABNgIADAILIAAgAxDWBAsCQAJAAkAgAigCBCIDQQJxRQRAIAJB3LrJACgCAEYNAiACQdi6yQAoAgBGDQMgAiADQXhxIgMQ1gQgACABIANqIgFBAXI2AgQgACABaiABNgIAIABB2LrJACgCAEcNAUHQuskAIAE2AgAPCyACIANBfnE2AgQgACABQQFyNgIEIAAgAWogATYCAAsgAUGAAk8EQEEfIQIgAEIANwIQIAFB////B00EQCABQSYgAUEIdmciA2t2QQFxIANBAXRrQT5qIQILIAAgAjYCHCACQQJ0QbC3yQBqIQRBASACdCIDQcy6yQAoAgBxRQRAIAQgADYCACAAIAQ2AhggACAANgIMIAAgADYCCEHMuskAQcy6yQAoAgAgA3I2AgAPCwJAAkAgASAEKAIAIgMoAgRBeHFGBEAgAyECDAELIAFBGSACQQF2a0EAIAJBH0cbdCEFA0AgAyAFQR12QQRxaiIEKAIQIgJFDQIgBUEBdCEFIAIhAyACKAIEQXhxIAFHDQALCyACKAIIIgEgADYCDCACIAA2AgggAEEANgIYIAAgAjYCDCAAIAE2AggPCyAEQRBqIAA2AgAgACADNgIYIAAgADYCDCAAIAA2AggPCwJ/Qci6yQAoAgAiAkEBIAFBA3Z0IgNxRQRAQci6yQAgAiADcjYCACABQfgBcUHAuMkAaiIBDAELIAFB+AFxIgNBwLjJAGohASADQci4yQBqKAIACyECIAEgADYCCCACIAA2AgwgACABNgIMIAAgAjYCCA8LQdy6yQAgADYCAEHUuskAQdS6yQAoAgAgAWoiATYCACAAIAFBAXI2AgQgAEHYuskAKAIARw0BQdC6yQBBADYCAEHYuskAQQA2AgAPC0HYuskAIAA2AgBB0LrJAEHQuskAKAIAIAFqIgE2AgAgACABQQFyNgIEIAAgAWogATYCAAsL3HkDH38IfgJ7IwBBEGsiFSQAAkAgASkDGEICUgRAIAFBGGohIiABQcgAaiERIAEoAgwhCSABKAIIIQsDQCABKAIAIQcCQCAJIAtLDQAgASgCBCIIIAEoAhAiBmsiBQRAIAYgB2pBACAF/AsACyAVICIgByAIEKYDIBUtAABBBEYEQCAIIBUoAgQiCU8EQCABIAg2AhAgASAJNgIMQQAhCyABQQA2AggMAgtBtJvHAEE2QeybxwAQ6wcACyAVKAIEIQYgFSgCACEFIBUxAAAgASAINgIQIAFCADcDCEEAIQlBACELQgRRDQAgACAGNgIEIAAgBTYCAAwDCyABKQNQISkgASkDSCEqQQRBACAJIAtGIiAbISEjAEEwayIMJAAgESADNgIwIBEgCSALayIGNgIkIBEgAjYCLCARIAcgC2oiHzYCICARKAI8IgQtAAAiBUEMRgRAIARBDToAAEENIQULIBEpAxghJyARKQMQISggBCADNgJ0IAQgBjYCcCAEQQA2AlAgBCADNgJMIAQgAjYCSCAEIB82AjggBCAhOgAEIAQgBiAfajYCPCAEQcEAaiEUIARBCGohGSAEQYTsAGohDiAEQYTnAGohGiAEQaQBaiEdIARB9CpqIRsgBEHE1ABqIRcgBEHIAGohEwJAAkACQAJAA0AgBSEGQRIhBUEBIQgCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAGQf8BcUEBaw4eHBsaDQwLCgkCARkYCBcdBx8WFRQGBRMSHgARECEPDgsgBCgCJCIJIAQoAiAiECAEKAIcIg1qIgtPDQMgBCgCOCEGIAQtAEAhBSAEKQMwISMDQEJ/IAQ1ApQBhkJ/hSElIAQoAjwhEiAELQCYASEIAkACQAJAAkACQAJAAkACQAJAAkACQANAICMgJYOnIQ9BgAQhCkGo58gAIQcCQAJAAkACQCAIQQFrDgMAAQIDC0G0CiEKIB0hBwwCC0G0CiEKIBshBwwBC0HQBCEKIBchBwsgCiAPTQ0BIAcgD0ECdGooAQAiCkEYdiIPIAVB/wFxSwRAIAYgEkYNECAGMQAAISQgBCAFQQhqIgc6AEAgBCAGQQFqIgY2AjggBCAkIAWthiAjhCIjNwMwIAchBQwBCwsgCkH//wNxIgdBEE8EQCAFQf8BcSEIAkACQAJAAkAgB0EQaw4CAQIACwJAIAggD0EHaiIKTwRAIAUhBwwBCyAGIQgDQCAIIBJGDRQgBCAIQQFqIgY2AjggBCAFQQhqIgc6AEAgBCAIMQAAIAWthiAjhCIjNwMwIAYhCCAKIAciBUH/AXFLDQALCyAEIAcgD2tBB2siBToAQCAEICMgD62IIiRCB4giIzcDMCALICSnQf8AcUELaiILIAlqIgdJDQogCUHAAksNCyALQcACIAlrIghLDQwgC0EBdCIIBEAgGiAJQQF0akEAIAj8CwALIAQgBzYCJCAHIQkMDgsCQCAIIA9BAmoiCk8EQCAFIQcMAQsgBiEIA0AgCCASRg0TIAQgCEEBaiIGNgI4IAQgBUEIaiIHOgBAIAQgCDEAACAFrYYgI4QiIzcDMCAGIQggCiAHIgVB/wFxSw0ACwsgBCAHIA9rIgU6AEAgBCAjIA+tiCIkNwMwIAkNASAEQRo2AogBIARB5IDAADYChAEMLgsCQCAIIA9BA2oiCk8EQCAFIQcMAQsgBiEIA0AgCCASRg0SIAQgCEEBaiIGNgI4IAQgBUEIaiIHOgBAIAQgCDEAACAFrYYgI4QiIzcDMCAGIQggCiAHIgVB/wFxSw0ACwtBfSEIIAQgByAPa0EDayIFOgBAIAQgIyAPrYgiJEIDiCIjNwMwIAsgJKdBB3FBA2oiCiAJaiIHSQ0FIAlBwAJLDQYgCkHAAiAJayIISw0HIApBAXQiCARAIBogCUEBdGpBACAI/AsACyAEIAc2AiQgByEJDAwLIAlBAWshByAJQcACSw0CIBogB0EBdGovAQAhDSAEIAVBAmsiBToAQCAEICRCAogiIzcDMCALICSnQQNxIghBA2oiCiAJakkEQCAEQRo2AogBIARB5IDAADYChAEMLQsgCkHAAiAJayIHSw0DIBogCUEBdGohByAIQQJq/REiK/0MAAAAAAEAAAACAAAAAwAAAP1AIiz9GwBBAXEEQCAHIA07AQALICz9GwFBAXEEQCAHQQJqIA07AQALICz9GwJBAXEEQCAHQQRqIA07AQALICz9GwNBAXEEQCAHQQZqIA07AQALICv9DAQAAAAFAAAABgAAAAcAAAD9QCIr/RsAQQFxBEAgB0EIaiANOwEACyAr/RsBQQFxBEAgB0EKaiANOwEACyAr/RsCQQFxBEAgB0EMaiANOwEACyAr/RsDQQFxBEAgB0EOaiANOwEACyAEIAQoAiQgCmoiCTYCJCAEKAIgIRAgBCgCHCENDAsLIAQgBSAPayIFOgBAIAQgIyAPrYgiIzcDMCAJQcACSQ0JIAlBwAJB1PzIABCMBwALIA8gCkHc+cgAEIwHAAsgB0HAAkH0+8gAEIwHAAtBACAKIAdBhPzIABDqBwALIARBGjYCiAEgBEHkgMAANgKEAUEeIQYMKAsgCUHAAkHAAkGk/MgAEOoHAAtBACAKIAhBlPzIABDqBwALIARBGjYCiAEgBEHkgMAANgKEAQwkCyAJQcACQcACQcT8yAAQ6gcAC0EAIAsgCEG0/MgAEOoHAAsgBCAJQQFqIgc2AiQgGiAJQQF0aiAKOwEAIAchCQsgCSANIBBqIgtJDQALDAMLQXwhCAwfC0F+IQgMHgtBACEIQRohBgwdCyAELwGEa0UEQCAEQSU2AogBIARB7c7AADYChAEMHAsCQAJAAkAgDUHBAkkEQCAMQRhqIgZBASAaIA0gG0G0CkEKIA4QrQEgDCgCGA0BIAwoAiAhBSAEIAwoAhw2ApQBIARBAjoAmAEgBCAFNgIoIAQoAhwiCEHAAksNAiAEKAIgIgdBwAIgCGsiBUsNAyAGQQIgGiAIQQF0aiAHIBdB0ARBCSAOEK0BIAwoAhhFBEAgDCgCICEGIAwoAhwhBSAEQQM6AKABIAQgBTYCnAEgBCAGIAQoAihqNgIoQREhBSAELQAEQQZHDR9BACEIQREhBgwhCyAEQRY2AogBIARBzoDAADYChAEMHwtBACANQcACQeT7yAAQ6gcACyAEQRw2AogBIARBgIDAADYChAEMHQsgCEHAAkHAAkHU+8gAEOoHAAtBACAHIAVBxPvIABDqBwALQRchBSAEKAJgIglFDRkgBCkDMCEjAkAgBC0AQCIIIAlPBEAgCCEKDAELIAQoAjghBiAEKAI8IQsDQCAGIAtGBEBBACEIQRYhBgweCyAEIAZBAWoiBzYCOCAEIAhBCGoiCjoAQCAEIAYxAAAgCK2GICOEIiM3AzAgByEGIAkgCiIIQf8BcUsNAAsLIAQgCiAJazoAQCAEICMgCa2INwMwIAQgBCgCZCAJajYCZCAEIAQoAlwgI0J/IAlBP3GthkJ/hYOnajYCXAwZC0J/IAQ1ApwBhkJ/hSElIAQoAjghBiAELQBAIQUgBCgCPCEPIAQpAzAhIyAELQCgASEQAkACQAJAAkADQCAjICWDpyEIQSAhCkGo98gAIQcCQAJAAkACQCAQQQFrDgMAAQIDC0G0CiEKIB0hBwwCC0G0CiEKIBshBwwBC0HQBCEKIBchBwsgCCAKTw0CAkACQCAHIAhBAnRqKAEAIghBGHYiCyAFQf8BcUsEQCAGIA9HDQEMBwsgCEEQdiIJQf8BcUEPTQ0BIAshBwwDCyAGMQAAISQgBCAFQQhqIgc6AEAgBCAGQQFqIgY2AjggBCAkIAWthiAjhCIjNwMwIAchBQwBCwsgC0EfcSENIAhB//8DcSEKQn8gCSALakE/ca2GQn+FISUDQCAjICWDpyANdiAKaiEIQSAhB0Go98gAIQkCQAJAAkACQCAQQQFrDgMAAQIDC0G0CiEHIB0hCQwCC0G0CiEHIBshCQwBC0HQBCEHIBchCQsgByAITQ0DIAkgCEECdGooAQAiCEEYdiIHIAtqQf8BcSAFQf8BcUsEQCAGIA9GDQUgBjEAACEkIAQgBUEIaiIHOgBAIAQgBkEBaiIGNgI4IAQgJCAFrYYgI4QiIzcDMCAHIQUMAQsLIAQgBCgCZCALajYCZCAFIAtrIQUgCEEQdiEJICMgC62IISMLIAQgBSAHazoAQCAEICMgB62INwMwIAlBwABxRQRAIAQgCUEPcTYCYCAEIAhB//8DcTYCXEEWIQUMHAsgBEEWNgKIASAEQefQwAA2AoQBDBwLIAggCkHs+cgAEIwHAAsgCCAHQez5yAAQjAcAC0EAIQhBFSEGDBoLQQshBSAELQADIgtFDRcCQCAELQBAIgpBH0sNAEEAIQhBECEGIAQoAjgiDSAEKAI8IglGDRogBCANQQFqIgc2AjggBCAKrSImQgh8IiM8AEAgBCAEKQMwIA0xAAAgJoaEIiQ3AzAgCkEXSw0AIAcgCUYNGiAEIA1BAmoiBzYCOCAEICZCEHwiJTwAQCAEIA0xAAEgI4YgJIQiJDcDMCAKQQ9LDQAgByAJRg0aIAQgDUEDaiIHNgI4IAQgJkIYfCIjPABAIAQgDTEAAiAlhiAkhCIkNwMwIApBB0sNACAHIAlGDRogBCANQQRqNgI4IAQgCkEgcjoAQCAEIA0xAAMgI4YgJIQ3AzALIAQgBCgCUCIHIAQoAlRqNgJUIAQoAnghBgJ/AkACQCALQQRxBEAgBkUEQCAEIAQoAnwgBCgCSCAHEN8CNgJ8IAQpAzAhIwwCCyAEIAQoAoABIAQoAkggBxCpASIGNgJ8IAQgBjYCgAEgBCgCeCEGCyAEKQMwISMgBg0BCyAjpyIGQRh0IAZBgP4DcUEIdHIgBkEIdkGA/gNxIAZBGHZycgwBCyAjpwshBiAEIAQoAkwgBCgCUGs2AnQCQCAELQADQQRxBEAgBiAEKAJ8Rw0BCyAEQQA6AEAgBEIANwMwDBgLIARBFTYCiAEgBEHAz8AANgKEAQwYCyAELQABIgZBAXEEQCAEIAQtAEAiBUH4AXE6AEAgBCAEKQMwIAVBB3GtiDcDMEEQIQUMFwsgBCkDMCEjIAQtAEAiBUECTQRAIAQoAjgiByAEKAI8RgRAQQAhCEENIQYMGgsgBCAHQQFqNgI4IAcxAAAgBa2GICOEISMgBUEIciEFCyAEIAVBAWs6AEAgBCAjQgGIIiQ3AzAgBCAjp0EBcSAGcjoAAQJAAkACQAJAICSnQQNxQQFrDgMBAgMACyAEIAVBA2s6AEAgBCAjQgOINwMwQQ4hBQwZC0EAIQggBEEAOgCgASAEQQU2ApwBIARBADoAmAEgBEEJNgKUASAEIAVBA2s6AEAgBCAjQgOINwMwQREhBUERIQYgBC0ABEEGRw0YDBoLIAQgBUEDazoAQCAEICNCA4g3AzBBGCEFDBcLIARBEzYCiAEgBEG40MAANgKEAUF9IQggBCAFQQNrOgBAIAQgI0IDiDcDMEEeIQYMGAsCQCAEKAJ4IgpBgARxBEACQCAELQBAIgtBD0sNAEEAIQhBCCEGIAQoAjgiCSAEKAI8IgdGDRogBCAJQQFqIgU2AjggBCALrSIkQgh8IiM8AEAgBCAEKQMwIAkxAAAgJIaEIiQ3AzAgC0EHSw0AIAUgB0YNGiAEIAlBAmo2AjggBCALQRByOgBAIAQgCTEAASAjhiAkhDcDMAsgBC0AA0EEcQRAIAQvAXwgBCgCMEcNAgsgBEEAOgBAIARCADcDMAsgBCgCjAEiBQRAIAUgCkEJdkEBcTYCLCAEKAKMAUEBNgIwIAQoAnghCgtBDCEFIAQtAANBBHFFIApFcg0WIARCADcCfAwWCyAEQRQ2AogBIARB88/AADYChAEMFgsCQCAEKAJ4Ig9BgCBxBEBBByEGIAQoAnANAUEAIQgMGAtBCCEFIAQoAowBIgZFDRUgBkEANgIkDBULAkAgBCgCPCIIIAQoAjgiCUYEQEEAIQcMAQsgCCAJayEHQQAhBQNAIAUgCWotAAAEQCAJIAVBAWoiBWogCEcNAQwCCwsgBUEBaiEHCwJAIAQoAowBIgVFDQAgBSgCJCIIRQ0AIAUoAigiBSAEKAJYIgtPBEAgBSALayIFIAcgBSAHSRsiBQRAIAggC2ogCSAF/AoAAAsgBCAEKAJYIAVqNgJYIAQoAnghDwwBC0GA+8gAQRJBlPvIABCrBwALAkAgD0GABHFFDQAgBC0AA0EEcUUNACAEIAQoAnwgCSAHEKkBNgJ8C0EBIQoCQCAHRQ0AIAcgCWpBAWsiBUUNACAFLQAAQQBHIQoLIAQgBCgCPCIIIAQoAjggB2oiBSAFIAhLGyIHNgI4QQghBSAKRSAHIAhHcg0UQQAhCAwWCwJAAkAgBCgCeCIPQYAQcQRAQQYhBiAEKAJwDQFBACEIDBgLIAQoAowBIgVFDQEgBUEANgIcDAELAkAgBCgCPCIIIAQoAjgiCUYEQEEAIQcMAQsgCCAJayEHQQAhBQNAIAUgCWotAAAEQCAJIAVBAWoiBWogCEcNAQwCCwsgBUEBaiEHCwJAIAQoAowBIgVFDQAgBSgCHCIIRQ0AIAUoAiAiBSAEKAJYIgtPBEAgBSALayIFIAcgBSAHSRsiBQRAIAggC2ogCSAF/AoAAAsgBCAEKAJYIAVqNgJYIAQoAnghDwwBC0Hc+sgAQRJB8PrIABCrBwALAkAgD0GABHFFDQAgBC0AA0EEcUUNACAEIAQoAnwgCSAHEKkBNgJ8C0EBIQoCQCAHRQ0AIAcgCWpBAWsiBUUNACAFLQAAQQBHIQoLIAQgBCgCPCIIIAQoAjggB2oiBSAFIAhLGyIFNgI4IApFIAUgCEdyDQBBACEIDBYLIARBADYCWEEHIQUMEwsCQCAEKAJ4IghBgAhxRQ0AIAQoAjwgBCgCOCIHayIGIAQoAlgiBSAFIAZLGyIKBEACQCAEKAKMASIJRQ0AIAkoAhAiBkUNACAKIAkoAhgiCyAJKAIUIAVrIghrIgVBACAFIAtNGyIFIAUgCksbIgUEQCAGIAsgCCAIIAtLG2ogByAF/AoAAAsgBCgCeCEICwJAIAhBgARxRQ0AIAQtAANBBHFFDQAgBCgCPCAEKAI4IgZrIgUgCk8EQCAEIAQoAnwgBiAKEKkBNgJ8DAELQQAgCiAFQcz6yAAQ6gcACyAEIAQoAnAgCms2AnAgBCAEKAJYIAprIgU2AlggBCAEKAI8IgcgBCgCOCAKaiIGIAYgB0sbNgI4CyAFRQ0AQQAhCEEFIQYMFQsgBEEANgJYQQYhBQwSCwJAAkAgBCgCeCILQYAIcQRAIAQpAzAhIwJAIAQtAEAiCUEPSw0AQQAhCEEEIQYgBCgCOCIKIAQoAjwiB0YNFyAEIApBAWoiBTYCOCAEIAmtIiVCCHwiJDwAQCAEIAoxAAAgJYYgI4QiIzcDMCAJQQdLDQAgBSAHRg0XIAQgCkECajYCOCAEIAlBEHI6AEAgBCAKMQABICSGICOEIiM3AzALIAQgI6ciBjYCWCAEKAKMASIFBH8gBSAGNgIUIAQoAngFIAsLQYAEcUUNAiAELQADQQRxDQEMAgtBBSEFIAQoAowBIgZFDRMgBkEANgIQDBMLIAwgBCkDMD0BGCAEIAQoAnwgDEEYakECEKkBNgJ8CyAEQQA6AEAgBEIANwMwQQUhBQwRC0ENIQUgBC0AAyIHRQ0QIAQpAzAhIwJAAkAgBC0AQCIIQQ9LDQAgBCgCOCILIAQoAjwiBkYNASAEIAtBAWoiBTYCOCAEIAitIiVCCHwiJDwAQCAEIAsxAAAgJYYgI4QiIzcDMCAIQQdLDQAgBSAGRg0BIAQgC0ECajYCOCAEIAhBEHI6AEAgBCALMQABICSGICOEIiM3AzALAkAgB0ECcUEAICNCn5YCURtFBEAgBCgCjAEiBQR/IAVBfzYCMCAELQADBSAHC0EBcQRAIAQpAzAiI0IIhkKA/gODICNCCIh8Qh+CUA0CCyAEQRc2AogBIARBks/AADYChAEMFAsgBC0AAkUEQCAEQQ86AAILIAxBn5YCOwAYIARBACAMQRhqQQIQqQE2AnwgBEEAOgBAIARCADcDMEEBIQUMEgsgI0IPg0IIUQRAIAQgI0IEiCIkNwMwIAQgBC0AQEEEazoAQCAkp0EPcSIGQQhqIQcgBC0AAiIFBH8gBQUgBCAHOgACIAcLIAdJIAZBB0tyRQRAIARCgICAgBA3A3ggBEEAOgBAIARCADcDMCAEQQEgB3Q2ApABQQxBGyAjQoDAAINQGyEFDBMLIARBFDYCiAEgBEGH0MAANgKEAQwTCyAEQRs2AogBIARB/dDAADYChAEMEgtBACEGQQAhCAwSCyAEQR02AogBIARBm9DAADYChAEMEAtBAiEIIAQtAAFBAnFFBEBBHCEGDBELIARBATYCfEEMIQUMDgsgBCkDMCEjAkAgBC0AQCILQR9LDQBBACEIQRshBiAEKAI4IgkgBCgCPCIHRg0QIAQgCUEBaiIFNgI4IAQgC60iJkIIfCIkPABAIAQgCTEAACAmhiAjhCIjNwMwIAtBF0sNACAFIAdGDRAgBCAJQQJqIgU2AjggBCAmQhB8IiU8AEAgBCAJMQABICSGICOEIiM3AzAgC0EPSw0AIAUgB0YNECAEIAlBA2oiBTYCOCAEICZCGHwiJDwAQCAEIAkxAAIgJYYgI4QiIzcDMCALQQdLDQAgBSAHRg0QIAQgCUEEajYCOCAEIAtBIHI6AEAgBCAJMQADICSGICOEIiM3AzALIARBADoAQCAEQgA3AzAgBCAjpyIFQRh0IAVBgP4DcUEIdHIgBUEIdkGA/gNxIAVBGHZycjYCfEEcIQUMDQsgBCkDMCEjAkAgBC0AQCIFQQ1LDQBBACEIQRghBiAEKAI4IgkgBCgCPCILRg0PIAQgCUEBaiIHNgI4IAQgBa0iJEIIfCIlPABAIAQgCTEAACAkhiAjhCIjNwMwIAVBBUsEQCAlpyEFDAELIAcgC0YNDyAEIAlBAmo2AjggBCAFQRByIgU6AEAgBCAJMQABICWGICOEIiM3AzALIAQgBUEOazoAQCAEICNCDog3AzAgBCAjpyIHQR9xIgZBgQJqNgIcIAQgB0EFdkEfcSIFQQFqNgIgIAQgB0EKdkEPcUEEajYCGCAGQR1LIAVBHUtyRQRAIARBADYCJEEZIQUMDQsgBEEkNgKIASAEQazOwAA2AoQBDA0LA0AgBCgCTCIGIAQoAlAiB0YEQEEAIQhBFyEGDA8LIAYgB2shCgJAIAcgBCgCXCIGTwRAIBMgBiAKIAQoAlgiBiAGIApLGyIGEOwCDAELIAYgB2siCSAEKAIQTQRAIAQoAgwiBkFAaiIHQUFPDREgEyAZIAdBACAGIAdPGyAJIAQoAhQiBmsiC2sgBiAJayAGIAlJIgYbIgggCCAKIAQoAlgiByALIAkgBhsiBiAGIAdLGyIGIAYgCksbIgZqEJQFDAELIAQtAAFBBHEEQEEeIQYgBEEeNgKIASAEQdXPwAA2AoQBQX0hCAwQCyAMQQA2AiggDEEBNgIcIAxBxPnIADYCGCAMQgQ3AiAgDEEYakGk+8gAEI0IAAsgBCAEKAJYIgcgBms2AlggBiAHRw0ACwwLCwJAIAQoAmAiCUUEQCAEKAJYIQUMAQsgBCkDMCEjAkAgBC0AQCIGIAlPBEAgBiEIDAELIAQoAjghBSAEKAI8IQsDQCAFIAtGBEBBACEIQRQhBgwQCyAEIAVBAWoiBzYCOCAEIAZBCGoiCDoAQCAEIAUxAAAgBq2GICOEIiM3AzAgByEFIAkgCCIGQf8BcUsNAAsLIAQgCCAJazoAQCAEICMgCa2INwMwIAQgBCgCZCAJajYCZCAEIAQoAlggI0J/IAlBP3GthkJ/hYOnaiIFNgJYCyAEIAU2AmhBFSEFDAoLIAQoAlAiByAEKAJMIgZGBEBBACEIQRMhBgwMCyAGIAdLBEAgBCgCWCEGIAQgB0EBajYCUCAEKAJIIAdqIAY6AAAMCgsgByAGQbz/yAAQjAcACyAEQRI6AAACQCAEKAI8IgggBCgCOCILa0EPSQ0AIAQoAkwgBCgCUGtBgwJNDQAgBBCrASAELQAAIgVBEkcNCSAEKAI8IQggBCgCOCELCyAMQQhqIBNBCGooAgA2AgAgBEEANgJQIBMpAgAhJCAEQgE3A0ggDCAkNwMAIAwgFCgAADYCECAMIBRBA2ooAAA2ABNBqOfIACEJQYAEIR4CQAJAAkACQCAELQCYAUEBaw4DAAECAwtBtAohHiAdIQkMAgtBtAohHiAbIQkMAQtB0AQhHiAXIQkLQaj3yAAhD0EgIQcCQAJAAkACQCAELQCgAUEBaw4DAAECAwtBtAohByAdIQ8MAgtBtAohByAbIQ8MAQtB0AQhByAXIQ8LIAQtAEAhECAEKQMwISMCQAJAA0BBEiEKA0ACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAKQf8BcUETaw4FBAEIAgsACyAIIAtrQQ9PBEAgDCgCBCAMKAIIa0GDAksNDAsgBEEANgJkIAshBiAQIQUgHiAjQn8gBDUClAGGQn+FIiaDpyIKSw0CDBgLIAQoAmAiCkUEQCAEKAJYIQUMBgsgCyEFIAogECIGQf8BcUsNAyAFIQ0MBAtBFyEKIAQoAmAiDUUNEyALIQUgDSAQIgZB/wFxSw0GIAUhEgwHCwNAIAkgCkECdGoiDS0AAyIKIAVB/wFxTQ0SIAYgCEcEQCAFrSElIAYxAAAhJCAGQQFqIQYgBUEIaiEFIB4gJCAlhiAjhCIjICaDpyIKTQ0XDAELC0ESIQYgBEESOgAAIBMgDCkDADcCACAEIAg2AjwgBCAINgI4IAQgIzcDMCAUIAwoAhA2AAAgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCACAEIBAgCEEDdGogC0EDdGs6AEBBACEIDCALIAwoAggiBiAMKAIEIgVHBEAgBSAGTQ0JIAwoAgAgBmogBCgCWDoAACAMIAZBAWo2AggMEwtBEyEGIARBEzoAACATIAwpAwA3AgAgBCAQOgBAIAQgCDYCPCAEIAs2AjggBCAjNwMwIBQgDCgCEDYAACAUQQNqIAwoABM2AAAgE0EIaiAMQQhqKAIANgIAQQAhCAwfCwNAIAUgCEYNCSAFMQAAIAathiAjhCEjIAVBAWoiDSEFIAogBkEIaiIGQf8BcUsNAAsLIAQgBCgCZCAKajYCZCAEIAQoAlggI0J/IApBP3GthkJ/hYOnaiIFNgJYIAYgCmshECAjIAqtiCEjIA0hCwsgBCAFNgJoQRUhCgwOCyALIQYgECEFIAcgI0J/IAQ1ApwBhkJ/hSImg6ciCk0NCwNAIA8gCkECdGoiDS0AAyIKIAVB/wFxTQ0LIAYgCEcEQCAFrSElIAYxAAAhJCAGQQFqIQYgBUEIaiEFIAcgJCAlhiAjhCIjICaDpyIKTQ0NDAELC0EVIQYgBEEVOgAAIBMgDCkDADcCACAEIAg2AjwgBCAINgI4IAQgIzcDMCAUIAwoAhA2AAAgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCACAEIBAgCEEDdGogC0EDdGs6AEBBACEIDBsLA0AgBSAIRg0GIAUxAAAgBq2GICOEISMgBUEBaiISIQUgDSAGQQhqIgZB/wFxSw0ACwsgBCAEKAJkIA1qNgJkIAQgBCgCXCAjQn8gDUE/ca2GQn+Fg6dqNgJcIAYgDWshECAjIA2tiCEjIBIhCwwLCyAMKAIEIgUgDCgCCCIGRg0EIAUgBmshFiAGIAQoAlwiBU8EQCAMIAUgFiAEKAJYIgUgBSAWSxsiBRDsAgwHCyAFIAZrIhIgBCgCEE0EQCAEKAIMIgVBQGoiBkFBTw0aIAwgGSAGQQAgBSAGTxsgEiAEKAIUIgVrIg1rIAUgEmsgBSASSSIFGyIKIAogFiAEKAJYIgYgDSASIAUbIgUgBSAGSxsiBSAFIBZLGyIFahCUBQwHCyAELQABQQRxRQ0FIBMgDCkDADcCACAEIBA6AEAgBCAINgI8IAQgCzYCOCAEICM3AzAgFCAMKAIQNgAAQR4hBiAEQR42AogBIARB1c/AADYChAEgBEEeOgAAIBRBA2ogDCgAEzYAACATQQhqIAxBCGooAgA2AgBBfSEIDBgLIARBEjoAACATIAwpAwA3AgAgBCAQOgBAIAQgCDYCPCAEIAs2AjggBCAjNwMwIBQgDCgCEDYAACAUQQNqIAwoABM2AAAgE0EIaiAMQQhqKAIANgIAIAQQqwEgBC0AACEFDBULIAYgBUG8/8gAEIwHAAtBFCEGIARBFDoAACATIAwpAwA3AgAgBCAINgI8IAQgCDYCOCAEICM3AzAgFCAMKAIQNgAAIBRBA2ogDCgAEzYAACATQQhqIAxBCGooAgA2AgAgBCAQIAhBA3RqIAtBA3RrOgBAQQAhCAwVC0EWIQYgBEEWOgAAIBMgDCkDADcCACAEIAg2AjwgBCAINgI4IAQgIzcDMCAUIAwoAhA2AAAgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCACAEIBAgCEEDdGogC0EDdGs6AEBBACEIDBQLQRchBiAEQRc6AAAgEyAMKQMANwIAIAQgEDoAQCAEIAg2AjwgBCALNgI4IAQgIzcDMCAUIAwoAhA2AAAgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCAEEAIQgMEwsgDEEANgIoIAxBATYCHCAMQcT5yAA2AhggDEIENwIgIAxBGGpBvPrIABCNCAALIAQgBCgCWCIGIAVrNgJYQRJBFyAFIAZGGyEKDAMLIA0vAQAhEgJAAkAgDS0AAiIcQQ9LBEAgCiENDAELICNCfyAKIBxqQT9xrYZCf4UiJoOnIAp2IBJqIg0gB08NASAKQR9xIRYCQANAIA8gDUECdGoiGC0AAyINIApqQf8BcSAFQf8BcU0NASAGIAhHBEAgBa0hJSAGMQAAIAZBAWohBiAFQQhqIQUgJYYgI4QiIyAmg6cgFnYgEmoiDSAHTw0EDAELC0EVIQYgBEEVOgAAIBMgDCkDADcCACAEIAg2AjwgBCAINgI4IAQgIzcDMCAUIAwoAhA2AAAgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCACAEIBAgCEEDdGogC0EDdGs6AEBBACEIDBMLIBgtAAIhHCAYLwEAIRIgBCAEKAJkIApqNgJkIAUgCmshBSAjIAqtiCEjCyAFIA1rIRAgIyANrYghIyAcQcAAcUUEQCAEIBxBD3E2AmAgBCASQf//A3E2AlxBFiEKIAYhCwwECyATIAwpAwA3AgAgBCAQOgBAIAQgCDYCPCAEIAY2AjggBCAjNwMwIBQgDCgCEDYAACAEQRY2AogBIARB59DAADYChAFBHiEGIARBHjoAACAUQQNqIAwoABM2AAAgE0EIaiAMQQhqKAIANgIAQX0hCAwRCyANIAdBrPrIABCMBwALIAogB0Gc+sgAEIwHAAsgDS8BACESAkAgDS0AAiIcRQRAQQAhDSAGIQtBACEcDAELQQAhDSAcQQ9LBEAgBiELDAELAkAgHiAjQn8gCiAcakE/ca2GQn+FIiaDp0H//wNxIApBD3EiGHYgEmpB//8DcSINTQ0AAkADQCAJIA1BAnRqIg0tAAMiFiAKakH/AXEgBUH/AXFNDQEgBiAIRwRAIAWtISUgBjEAACEkIAZBAWohBiAFQQhqIQUgHiAkICWGICOEIiMgJoOnQf//A3EgGHYgEmpB//8DcSINTQ0DDAELC0ESIQYgBEESOgAAIBMgDCkDADcCACAEIAg2AjwgBCAINgI4IAQgIzcDMCAUIAwoAhA2AAAgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCACAEIBAgCEEDdGogC0EDdGs6AEBBACEIDBELIAUgCmshBSAjIAqtiCEjIA0tAAIhHCANLwEAIRIgCiENIAYhCyAWIQoMAQsgDSAeQYz6yAAQjAcACyAEIBJB//8DcTYCWCAEIA0gCkH/AXFqNgJkIAUgCmshECAjIAqtiCEjQRMhCiAcRQ0AIBxBIHENAiAcQcAAcUUEQCAEIBxBD3E2AmBBFCEKDAELCwtBHiEGIARBHjoAACATIAwpAwA3AgAgBCAQOgBAIAQgCDYCPCAEIAs2AjggBCAjNwMwIBQgDCgCEDYAACAEQRw2AogBIARBy9DAADYChAEgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCAEF9IQgMDAtBDCEFIARBDDoAACAEQX82AmQgEyAMKQMANwIAIAQgEDoAQCAEIAg2AjwgBCALNgI4IAQgIzcDMCAUIAwoAhA2AAAgFEEDaiAMKAATNgAAIBNBCGogDEEIaigCADYCAAwJCyAKIB5B/PnIABCMBwALIAQgBC0AQCIHQfgBcToAQCAEIAQpAzAgB0EHca2IIiM3AzACQCAHQR9LDQBBACEIQQ4hBiAEKAI4IgkgBCgCPCILRg0KIAQgCUEBaiIFNgI4IAQgB61CGIMiJkIIfCIkPABAIAQgCTEAACAmhiAjhCIjNwMwIAdBGHEiB0EYRg0AIAUgC0YNCiAEIAlBAmoiBTYCOCAEICZCEHwiJTwAQCAEIAkxAAEgJIYgI4QiIzcDMCAHQQ9LDQAgBSALRg0KIAQgCUEDaiIFNgI4IAQgJkIYfCIkPABAIAQgCTEAAiAlhiAjhCIjNwMwIAcNACAFIAtGDQogBEEgOgBAIAQgCUEEajYCOCAEIAkxAAMgJIYgI4QiIzcDMAsgI0IQiCAjhUL//wODQv//A1EEQEEAIQggBEEAOgBAIARCADcDMCAEICOnQf//A3E2AlhBDyEFIAQtAARBBkcNCEEOIQYMCgsgBEEdNgKIASAEQdDOwAA2AoQBDAgLQQ0hBSAELQAEQQVrQf8BcUECTw0GQQAhCEEMIQYMCAtBHSEGIAQtAAMiB0UNByAEKAJ4RQ0HAkAgBC0AQCIJQR9LDQBBACEIQQshBiAEKAI4IhcgBCgCPCILRg0IIAQgF0EBaiIFNgI4IAQgCa0iJkIIfCIjPABAIAQgBCkDMCAXMQAAICaGhCIkNwMwIAlBF0sNACAFIAtGDQggBCAXQQJqIgU2AjggBCAmQhB8IiU8AEAgBCAXMQABICOGICSEIiQ3AzAgCUEPSw0AIAUgC0YNCCAEIBdBA2oiBTYCOCAEICZCGHwiIzwAQCAEIBcxAAIgJYYgJIQiJDcDMCAJQQdLDQAgBSALRg0IIAQgF0EEajYCOCAEIAlBIHI6AEAgBCAXMQADICOGICSENwMwCwJAIAdBBHEEQCAEKAJUIAQoAjBHDQELIARBADoAQCAEQgA3AzBBHSEGQQEhCAwICyAEQRc2AogBIARBqc/AADYChAEMBgsCQCAELQBAIgtBD0sNAEEAIQhBAyEGIAQoAjgiCSAEKAI8IgdGDQcgBCAJQQFqIgU2AjggBCALrSIkQgh8IiM8AEAgBCAEKQMwIAkxAAAgJIaEIiQ3AzAgC0EHSw0AIAUgB0YNByAEIAlBAmo2AjggBCALQRByOgBAIAQgCTEAASAjhiAkhDcDMAsgBCgCjAEiBQRAIAUgBC0AMDYCCCAEKAKMASAEKQMwQgiIPgIMCwJAIAQtAHlBAnFFDQAgBC0AA0EEcUUNACAMIAQpAzA9ARggBCAEKAJ8IAxBGGpBAhCpATYCfAsgBEEAOgBAIARCADcDMEEEIQUMBAsCQCAELQBAIgtBH0sNAEEAIQhBAiEGIAQoAjgiCSAEKAI8IgdGDQYgBCAJQQFqIgU2AjggBCALrSImQgh8IiM8AEAgBCAEKQMwIAkxAAAgJoaEIiQ3AzAgC0EXSw0AIAUgB0YNBiAEIAlBAmoiBTYCOCAEICZCEHwiJTwAQCAEIAkxAAEgI4YgJIQiJDcDMCALQQ9LDQAgBSAHRg0GIAQgCUEDaiIFNgI4IAQgJkIYfCIjPABAIAQgCTEAAiAlhiAkhCIkNwMwIAtBB0sNACAFIAdGDQYgBCAJQQRqNgI4IAQgC0EgcjoAQCAEIAkxAAMgI4YgJIQ3AzALIAQoAowBIgUEQCAFIAQpAzA+AgQLAkAgBC0AeUECcUUNACAELQADQQRxRQ0AIAwgBCkDMD4CGCAEIAQoAnwgDEEYakEEEKkBNgJ8CyAEQQA6AEAgBEIANwMwQQMhBQwDCyAEKQMwISMCQCAELQBAIgtBD0sNAEEAIQggBCgCOCIJIAQoAjwiB0YEQEEBIQYMBgtBASEGIAQgCUEBaiIFNgI4IAQgC60iJUIIfCIkPABAIAQgCTEAACAlhiAjhCIjNwMwIAtBB0sNACAFIAdGDQUgBCAJQQJqNgI4IAQgC0EQcjoAQCAEIAkxAAEgJIYgI4QiIzcDMAsgBCAjpyIGNgJ4AkACQCAGQf8BcUEIRgRAIAZBgMADcQ0BIAQoAowBIgUEfyAFIAZBCHZBAXE2AgAgBCgCeAUgBgtBgARxRQ0CIAQtAANBBHFFDQIgBCgCfCEFIAwgBCkDMD0AGCAEIAUgDEEYakECEKkBNgJ8DAILIARBGzYCiAEgBEH90MAANgKEAQwFCyAEQRk2AogBIARBtYDAADYChAEMBAsgBEEAOgBAIARCADcDMEECIQUMAgtBDCEFIAQoAlgiCkUNASAEKAI4IQ8gBCgCPCEHIAQoAlAhCCAEKAJIIQsgBCgCTCEJAkADQCAHIA9rIgcgBCgCTCAIayIGIAogBiAKSRsiBiAGIAdLGyINRQRAQQAhCEEPIQYMBgsgCCAJTQRAIA0gCSAIayIGSw0CIA0EQCAIIAtqIA8gDfwKAAALIAQgCCANaiIINgJQIAQgBCgCWCANayIKNgJYIAQgBCgCPCIHIAQoAjggDWoiBiAGIAdLGyIPNgI4IApFDQQMAQsLIAggCSAJQdz/yAAQ6gcAC0EAIA0gBkHM/8gAEOoHAAsCQCAEKAIkIgUgBCgCGCILTw0AQRMgBSAFQRNNGyENIAQoAjghCiAEKQMwISQgBC0AQCEGIAQoAjwhCQJAA0ACQCAGQf8BcUECSwRAICQhIyAGIQgMAQsgCSAKRgRAQQAhCEEZIQYMBwsgBCAKQQFqIgc2AjggBCAGQQhyIgg6AEAgBCAKMQAAIAathiAkhCIjNwMwIAchCgsgBSANRg0BIAQgCEEDayIGOgBAIAQgI0IDiCIkNwMwIAQgBUEBaiIHNgIkIBogBUGD58gAai0AAEEBdGogI6dBB3E7AQAgByIFIAtHDQALIAshBQwBCyANQRNBtPvIABCMBwALIAVBEk0EQAJAIAVBC00EQCAFQYPnyABqIQYgBUETIAVrIgtBGHEiB2ohBSAHIQgDQCAaIAb9XQAAIiv9iQH9qQEiLP0bAEEBdGpBADsBACAaICz9GwFBAXRqQQA7AQAgGiAs/RsCQQF0akEAOwEAIBogLP0bA0EBdGpBADsBACAaICsgLP0NBAUGBwAAAAAAAAAAAAAAAP2JAf2pASIr/RsAQQF0akEAOwEAIBogK/0bAUEBdGpBADsBACAaICv9GwJBAXRqQQA7AQAgGiAr/RsDQQF0akEAOwEAIAZBCGohBiAIQQhrIggNAAsgByALRg0BCwNAIBogBUGD58gAai0AAEEBdGpBADsBACAFQQFqIgVBE0cNAAsLIARBEzYCJAsgDEEYakEAIBpBEyAdQbQKQQcgDhCtASAMKAIYRQRAIAwoAhwhBiAMKAIgIQUgBEEBOgCYASAEIAU2AiggBCAGNgKUASAEQQA2AiRBGiEFDAELCyAEQRk2AogBIARBnIDAADYChAELQX0hCEEeIQYLIAQgBjoAACARKAIgIQkgESARKAI8Ig4oAjgiHTYCICARIA4oAjwgHWs2AiQgESAOKAJMIgUgDigCUCIGazYCMCARIAYgDigCSCIPaiIHNgIsIBEgESgCKCAdIAlrajYCKCAOIA4oAnQgBiAFa2oiFiAOKAJUaiIFNgJUIBEgBTYCNCARIA4oAnwiFzYCUAJAAkACQAJAAkACQAJAAkACQAJAAkAgDkEMaigCACISQUBqQUFJBEACQCASQcAASw0AIBZFDQwgDi0AACIFQR5LDQBBASAFdCIFQYCMgIAEcQ0MIAVBgJAEcUUNACAOLQAEQQRGDQwLIAYgFkkNASAOLQADQQRxIQYgDigCeCELIBJBQGoiBUEAIAUgEk0bIhggFksEQCAWIBYgGCAOKAIUIhBrIhsgFiAbSRsiGWshDSAPIBlqIQogBkUEQCAQIBJLDQQgEiAQayIFIBlJBEBBACAZIAVBwP3IABDqBwALIA4oAgghBSAZBEAgBSAQaiAPIBn8CgAACyAWIBtNDQogDUUNDCAFIAogDfwKAAAMDAsgECASSw0EIBkgEiAQayIFSw0FIA4oAggiBiAQaiEFIAtFDQcMCAsgDyAWIBhrIgVqIRsCQCAGBEAgCw0BIBcgDyAFEN8CIQUgGARAIA4oAgggGyAY/AoAAAsgDiAFIBsgGBDfAjYCfAwHCyAYRQ0GIA4oAgggGyAY/AoAAAwGCyAOKAKAASAPIAUQqQEhBiAOKAIIIA4gBiAbIBgQqQE2AoABIBhFDQUgGyAY/AoAAAwFCwwLC0EAIBYgBkGkgMkAEOoHAAsgECASIBJB0P3IABDqBwALIBAgEiASQfD9yAAQ6gcAC0EAIBkgBUHg/cgAEOoHAAsgDiAYNgIQIA5BADYCFAwFCyAZBEAgBSAPIBn8CgAACyAOIBcgDyAZEN8CIgU2AnwgFiAbTQ0BIA0EQCAGIAogDfwKAAALIA4gBSAKIA0Q3wI2AnwMAwsgDiAOKAKAASAPIBkQqQE2AoABIBkEQCAFIA8gGfwKAAALIBYgG0sNAQsgDiAQIBlqIgVBACAFIBhHGzYCFCAYIA4oAhAiBU0NAiAOIAUgGWo2AhAMAgsgDiAOKAKAASAKIA0QqQE2AoABIA1FDQAgBiAKIA38CgAACyAOIBg2AhAgDiANNgIUCyAOKAKEASIGBEACQCAOKAKIASIFBEAgBSAGakEBay0AAEUNAQtB7P/IAEElQZSAyQAQ6wcACyARIAY2AjgLIBEgDi0AAEEMa0H/AXEiBUEGSQR/IAVBAnQoAriESQVBAAsgDi0AQCAOLQABQQZ0QcAAcXJyNgJMIBEgESkDECAdIB9rrXwiIzcDECARIBEpAxggByACa618IiQ3AxgCQAJAAkACQAJAAkACQCAIRQRAIBZFIAkgHUZxICFB/wFxQQRGcg0BCwJAAkAgCEEEag4HBQUFAQMABAILQQIhCAwCCyAMQQA2AiggDEEBNgIcIAxBwObIADYCGCAMQgQ3AiAgDEEYakHI5sgAEI0IAAtBASEICyARIBEpAwAgIyAofXw3AwAgESARKQMIICQgJ318NwMIDAMLIBEgESkDACAjICh9fDcDACARIBEpAwggJCAnfXw3AwgMAQsgESARKQMAICMgKH18NwMAIBEgESkDCCAkICd9fDcDCAJAIAhBAmsOAgECAAsgESgCOCIGBH8gDEEYaiAGAkAgBi0AAEUEQEEAIQcMAQsgBkEBaiEGQQAhBwNAIAYgB2ogB0EBaiEHLQAADQALCyAHEPsCIAwoAiAhBkEAIAwoAhwgDCgCGBsFQQALIQUgFSAGNgIIIBUgBTYCBCAVQQA2AgAMAgsgFSAXNgIEIBVBATYCAAwBCyAVQQI2AgAgFSAIOgAECyAMQTBqJAAMAQtB5PzIAEHKAEGw/cgAEOsHAAsgFS0ABCEHIBUoAgAgASABKAIMIgkgASgCCCABKQNIICp9p2oiBSAFIAlLGyILNgIIQQJHBEACQEEWEHEiAUUNACABQci2xwD9AAAA/QsAACABQQ5qQda2xwApAAA3AABBDBBxIgJFDQAgAkEWNgIIIAIgATYCBCACQRY2AgBBDBBxIgFFDQAgAUEUOgAIIAFBuJ/GADYCBCABIAI2AgAgACABrUIghkIDhDcCAAwECwALIAEpA1AgKX2nIQUCQAJAAkAgB0EBaw4CAQIACyAgIANFcg0BIAVFDQIMAQsgICADRXINACAFRQ0BCwsgAEEEOgAAIAAgBTYCBAwBCwJAAkACQCABKAIoIgsgASgCLCIJRiABKAIkIgggA01xRQRAIAEoAiAhByAJIAtLDQIgCCABKAIwIgZrIgUEQCAGIAdqQQAgBfwLAAsgFSABQThqIAcgCBCmAyAVLQAAQQRHDQEgCCAVKAIEIglPBEAgASAINgIwIAEgCTYCLEEAIQsMAwtBtJvHAEE2QeybxwAQ6wcACyABQgA3AyggACABQThqIAIgAxCmAwwDCyAVKAIEIQYgFSgCACEFIBUxAAAgASAINgIwIAFCADcDKEEAIQlBACELQgRSDQELIAcgC2ohBgJAIAkgC2siBSADIAMgBUsbIgNBAUYEQCACIAYtAAA6AAAMAQsgA0UNACACIAYgA/wKAAALIAAgAzYCBCAAQQQ6AAAgASAJIAMgC2oiACAAIAlLGzYCKAwBCyAAIAY2AgQgACAFNgIACyAVQRBqJAAL5AUBBX8gASgCACICQf///wNxIQMgAkGAgICAeHEhBiABKAIEIQQCQCACQYCAgPwHcSIFQYCAgPwHRgRAIANBDXYgBkEQdnJBgARBACADG3JBgPgBciEGDAELIAZBEHYhBiAFQYCAgLgETQRAIAVBgICAxANPBEAgAkEMdiACQf/fAHFBAEdxIAVBDXYgA0ENdmpBgIABaiAGcmohBgwCCyAFQYCAgJgDSQ0BIANBgICABHIiAkH+ACAFQRd2IgNrdiEFIAJBHSADayIDdkEBcQR/IAVBAyADdEEBayACcUEAR2oFIAULIAZyIQYMAQsgBkGA+AFyIQYLIAEoAgghASAEQf///wNxIQMgBEGAgICAeHEhBQJAIARBgICA/AdxIgJBgICA/AdHBEAgBUEQdiEFIAJBgICAuARNBEAgAkGAgIDEA08EQCAEQQx2IARB/98AcUEAR3EgAkENdiADQQ12akGAgAFqIAVyaiEFDAMLIAJBgICAmANJDQIgA0GAgIAEciIDQf4AIAJBF3YiAmt2IQQgA0EdIAJrIgJ2QQFxBH8gBEEDIAJ0QQFrIANxQQBHagUgBAsgBXIhBQwCCyAFQYD4AXIhBQwBCyADQQ12IAVBEHZyQYAEQQAgAxtyQYD4AXIhBQsgAUH///8DcSEDIAFBgICAgHhxIQQCQCABQYCAgPwHcSICQYCAgPwHRwRAIARBEHYhBCACQYCAgLgETQRAIAJBgICAxANPBEAgAUEMdiABQf/fAHFBAEdxIAJBDXYgA0ENdmpBgIABaiAEcmohBAwDCyACQYCAgJgDSQ0CIANBgICABHIiA0H+ACACQRd2IgJrdiEBIANBHSACayICdkEBcQR/IAFBAyACdEEBayADcUEAR2oFIAELIARyIQQMAgsgBEGA+AFyIQQMAQsgA0ENdiAEQRB2ckGABEEAIAMbckGA+AFyIQQLIAAgBDsBGiAAIAU7ARggACAGOwEWC9cFAwR+CH8BeyABKQMQIAEpAxggAhDyAyEFIAEoAghFBEAgASABQRBqEMABCyABKAIEIgwgBadxIQkgBUIZiCIIQv8Ag0KBgoSIkKDAgAF+IQcgASgCACEKAkACQCACLQAAIhBBC0cEQANAIAkgCmopAAAiBiAHhSIFQn+FIAVCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiBVBFBEADQCAQIAogBXqnQQN2IAlqIAxxQWhsaiIPQRhrLQAARg0EIAVCAX0gBYMiBVBFDQALCyAGQoCBgoSIkKDAgH+DIQUCfwJAIA1FBEAgBVANASAFeqdBA3YgCWogDHEhCwsgBSAGQgGGg0IAUg0FQQEMAQtBAAshDSAOQQhqIg4gCWogDHEhCQwACwALIAIoAAEhEANAIAkgCmopAAAiBiAHhSIFQn+FIAVCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiBVBFBEADQCAKIAV6p0EDdiAJaiAMcUFobGoiD0EYay0AAEELRgRAIBAgD0EXaygAAEYNBAsgBUIBfSAFgyIFUEUNAAsLIAZCgIGChIiQoMCAf4MhBQJ/AkAgDUUEQCAFUA0BIAV6p0EDdiAJaiAMcSELCyAFIAZCAYaDQgBSDQRBAQwBC0EACyENIA5BCGoiDiAJaiAMcSEJDAALAAsgD0EQayIB/QADACERIA9BCGsgBDcDACABIAM3AwAgACAR/QsDCCAAQgE3AwAPCyAKIAtqLAAAIglBAE4EQCAKIAopAwBCgIGChIiQoMCAf4N6p0EDdiILai0AACEJCyAKIAtqIAinQf8AcSINOgAAIAogC0EIayAMcWpBCGogDToAACABIAEoAgggCUEBcWs2AgggASABKAIMQQFqNgIMIAogC0FobGoiAUEIayAENwMAIAFBEGsgAzcDACABQRhrIAI1AAAgAkEEajEAAEIghoQ3AwAgAEIANwMAC8IFAQl/IwBBMGsiBCQAAkACQAJ/AkACQCACIANLBEAgASADQRhsaiIGKAIUIgJBBE0EQEEAIQEgBEEANgIIIARBADYCLCAGQQRqIgMgAkECdGohCUEIIQUgBEEMaiIGIQogBEEsaiILDAQLIAYoAgghAyAGKAIEIQJBACEBIARBADYCCCAEQQA2AiwgAyACQQJ0aiEJIARBDGohBiAEQSxqIQsgAkEJSQ0CIAQgBEEIakF/IAJBAWtndkEBahD2AyAEKAIAIgFBgYCAgHhHBEAgAQ0CQdiVxwBBEUHUzMcAEOsHAAsgBCgCLCIFQQlJBEAgBSEBDAMLIAQoAgwhASAEKAIQIQogBgwDCyADIAJBrLvHABCMBwsACyAGIQpBCCEFIAsLIgwgASAFSQR/AkAgCSADayIHQQJ2IgggBSABQX9zaiICIAIgCEsbIghBB00gB0EDcXINACABQQJ0IApqIgIgA2tBEEkNACABIAhBAWoiCCAIQQNxIghBBCAIG2siB2ohASADIAdBAnRqA0AgAiAD/QACAP0LAgAgA0EQaiEDIAJBEGohAiAHQQRrIgcNAAshAwsgCiABQQJ0aiECA0AgAyAJRg0CIAIgAygCADYCACACQQRqIQIgA0EEaiEDIAUgAUEBaiIBRw0ACyAFBSABCzYCACADIAlGDQEDQAJ/IAQoAiwiBUEJSQRAIAUhAiAGIQdBCCEFIAsMAQsgBCgCDCECIAQoAhAhByAGCyEBIAMoAgAhDCACIAVGBEAgBEEIahDVBiAEKAIMIQIgBCgCECEHIAYhAQsgByACQQJ0aiAMNgIAIAEgASgCAEEBajYCACADQQRqIgMgCUcNAAsMAQsgDCABNgIACyAAIAT9AAII/QsCACAAQSBqIARBKGopAgA3AgAgAEEQaiAEQRhq/QACAP0LAgAgBEEwaiQAC8IFAQl/IwBBMGsiBCQAAkACQAJ/AkACQCACIANLBEAgASADQRhsaiIGKAIUIgJBBE0EQEEAIQEgBEEANgIIIARBADYCLCAGQQRqIgMgAkECdGohCUEIIQUgBEEMaiIGIQogBEEsaiILDAQLIAYoAgghAyAGKAIEIQJBACEBIARBADYCCCAEQQA2AiwgAyACQQJ0aiEJIARBDGohBiAEQSxqIQsgAkEJSQ0CIAQgBEEIakF/IAJBAWtndkEBahD2AyAEKAIAIgFBgYCAgHhHBEAgAQ0CQdiVxwBBEUHUzMcAEOsHAAsgBCgCLCIFQQlJBEAgBSEBDAMLIAQoAgwhASAEKAIQIQogBgwDCyADIAJBpMDHABCMBwsACyAGIQpBCCEFIAsLIgwgASAFSQR/AkAgCSADayIHQQJ2IgggBSABQX9zaiICIAIgCEsbIghBB00gB0EDcXINACABQQJ0IApqIgIgA2tBEEkNACABIAhBAWoiCCAIQQNxIghBBCAIG2siB2ohASADIAdBAnRqA0AgAiAD/QACAP0LAgAgA0EQaiEDIAJBEGohAiAHQQRrIgcNAAshAwsgCiABQQJ0aiECA0AgAyAJRg0CIAIgAygCADYCACACQQRqIQIgA0EEaiEDIAUgAUEBaiIBRw0ACyAFBSABCzYCACADIAlGDQEDQAJ/IAQoAiwiBUEJSQRAIAUhAiAGIQdBCCEFIAsMAQsgBCgCDCECIAQoAhAhByAGCyEBIAMoAgAhDCACIAVGBEAgBEEIahDVBiAEKAIMIQIgBCgCECEHIAYhAQsgByACQQJ0aiAMNgIAIAEgASgCAEEBajYCACADQQRqIgMgCUcNAAsMAQsgDCABNgIACyAAIAT9AAII/QsCACAAQSBqIARBKGopAgA3AgAgAEEQaiAEQRhq/QACAP0LAgAgBEEwaiQAC9MFAgl/BX4jAEEQayILJAACQAJ/AkACQCABUEUEQEGgfyACIAF5Ig+nayIGa8FB0ABsQbCnBWpBzhBtIgJB0QBPDQEgCyACQQR0IgIpA4iFQiABIA+GEN0GQgFBQCAGIAIvAZCFQmprIgdBP3GtIg+GIhFCAX0iEiALKQMIIAspAwBCP4h8IgGDIhBQRQRAIAIvAZKFQiEIIAEgD4inIgZBkM4ATwRAIAZBwIQ9SQ0EIAZBgMLXL08EQEEIQQkgBkGAlOvcA0kiAhshCUGAwtcvQYCU69wDIAIbDAYLQQZBByAGQYCt4gRJIgIbIQlBwIQ9QYCt4gQgAhsMBQsgBkHkAE8EQEECQQMgBkHoB0kiAhshCUHkAEHoByACGwwFC0EKQQEgBkEJSyIJGwwECyAAQQA2AgAMBAtB2I/CAEEcQfSPwgAQ6wcACyACQdEAQZiPwgAQjAcAC0EEQQUgBkGgjQZJIgIbIQlBkM4AQaCNBiACGwshAgJAAkACQCAJIAhrQQFqwSIIIAXBIgpKBEAgB0H//wNxIQ0gCCAFa8EgBCAIIAprIARJGyIKQQFrIQ5BACEHA0AgAyAHaiAGIAJuIgxBMGo6AAAgBiACIAxsayEGIAcgDkYNAyAHIAlGDQIgB0EBaiEHIAJBCkkgAkEKbiECRQ0AC0GEkMIAEIEIAAsgACADIARBACAIIAUgAUIKgCACrSAPhiARELIEDAMLIAdBAWohAiANQQFrQT9xrSETQgEhAQNAIAEgE4hQRQRAIABBADYCAAwECyACIARGDQIgAiADaiAQQgp+IhAgD4inQTBqOgAAIAFCCn4hASAQIBKDIRAgCiACQQFqIgJHDQALIAAgAyAEIAogCCAFIBAgESABELIEDAILIAAgAyAEIAogCCAFIAatIA+GIBB8IAKtIA+GIBEQsgQMAQsgBCAEQZSQwgAQjAcACyALQRBqJAAL8QQBDH8jAEEgayIEJAACQAJAAkAgACgCACIBQQNGIAFBAklyDQACQAJAIAAtABRBAWsOAgIAAQsgBEEANgIYIARBATYCDCAEQbzLxwA2AgggBEIENwIQIARBCGpBxMvHABCNCAALIAAoAgghCiAAKAIMIgwEQANAIAogB0EMbGoiBSgCBCELIAUoAggiCQRAIAtBJGohAQNAIAFBBGsoAgAiAkGAgICAeHJBgICAgHhHBEAgASgCACIGQQRrKAIAIgNBeHEiCEEEQQggA0EDcSIDGyACakkNByADQQAgCCACQSdqSxsNBiAGEKICCwJAIAFBFGsoAgAiBkECRg0AIAFBEGshAgJAIAZFBEAgAigCACICRQ0CIAFBDGsoAgAiBkEEaygCACIDQXhxIghBBEEIIANBA3EiAxsgAmpJDQkgA0UgCCACQSdqTXINAQwICyACKAIAIgJFDQEgAUEMaygCACIGQQRrKAIAIgNBeHEiCCACQQF0IgJBBEEIIANBA3EiAxtqSQ0IIANFDQAgCCACQSdqSw0HCyAGEKICCyABQSxqIQEgCUEBayIJDQALCyAFKAIAIgEEQCALQQRrKAIAIgVBeHEiCSABQSxsIgFBBEEIIAVBA3EiBRtqSQ0FIAVBACAJIAFBJ2pLGw0EIAsQogILIAdBAWoiByAMRw0ACwsgACgCBCIARQ0AIApBBGsoAgAiAUF4cSIHIABBDGwiAEEEQQggAUEDcSIBG2pJDQIgAUEAIAcgAEEnaksbDQEgChCiAgsgBEEgaiQADwtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALtwgCBX8DfiMAQUBqIgEkACABQQY2AgQgAUGQgsgANgIAQai3yQAtAABBA0cEQAJAIwBBIGsiAiQAAkACQAJAAkBBqLfJAC0AAEECaw4CAwEAC0Got8kAQQI6AABBgAgQcSIDRQ0BQai3yQBBAzoAAEGYt8kAIAM2AgBBkLfJAEKAgICAgIABNwMAQYC3yQBCADcDAEGgt8kAQQA6AABBnLfJAEEANgIAQYy3yQBBADoAAEGIt8kAQQA2AgALIAJBIGokAAwCCwALIAJBADYCGCACQQE2AgwgAkGYg8gANgIIIAJCBDcCECACQQhqQZCEyAAQjQgACwsCQAJAAkACQAJAAkACQAJAQfi6yQApAwAiBlAEQEGAu8kAKQMAIQcDQCAHQn9RDQJBgLvJACAHQgF8IgZBgLvJACkDACIIIAcgCFEiAhs3AwAgCCEHIAJFDQALQfi6yQAgBjcDAAsCQEGAt8kAKQMAIAZSBEBBjLfJAC0AACECQQEhA0GMt8kAQQE6AAAgASACOgAYIAINA0GAt8kAIAY3AwAMAQtBiLfJACgCACICQX9GDQMgAkEBaiEDC0GIt8kAIAM2AgAgAUGAt8kANgIQIAAoAgQaIAFBBDoAGCABIAFBEGo2AiACQAJAIAFBGGpBiPvHACAAEMEDBEAgAS0AGEEERw0BIAFBADYCOCABQQE2AiwgAUHw+scANgIoIAFCBDcCMCABQShqQfj6xwAQjQgACyABQQQ6AAggASgCHCEAIAEtABgiAkEETSACQQNHcQ0BIAAoAgAhAiAAQQRqKAIAIgMoAgAiBARAIAIgBBEDAAsgAygCBCIDBEAgAkEEaygCACIEQXhxIgVBBEEIIARBA3EiBBsgA2pJDQYgBEEAIAUgA0EnaksbDQcgAhCiAgsgAEEEaygCACICQXhxIgNBEEEUIAJBA3EiAhtJDQcgAkEAIANBNE8bDQggABCiAgwBCyABIAEpAxg3AwgLIAEoAhAiACAAKAIIQQFrIgI2AgggAkUEQCAAQQA6AAwgAEIANwMACyABLQAIQQRHDQcgAUFAayQADwsjAEEgayIAJAAgAEEANgIYIABBATYCDCAAQbCFyAA2AgggAEIENwIQIABBCGpBuIXIABCNCAALIAFCADcCNCABQoGAgIDAADcCLCABQcCDyAA2AiggAUEYaiABQShqEPsHAAtB2IPIAEEmQYCEyAAQqwcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAEgASkDCDcDECABQQI2AiwgAUGsgsgANgIoIAFCAjcCNCABIAFBEGqtQoCAgIDgAoQ3AyAgASABrUKAgICAoAGENwMYIAEgAUEYajYCMCABQShqQbyCyAAQjQgAC9UFAQl/IwBBIGsiCCQAIAAgACgCCCIEIAJqIgM2AgggACgCBCIJIANBEGoiByAHIAlLGyEDIAAoAgAhBQJAAkACQAJAAkACQAJAAkACQAJAAkAgASACTwRAIAEgBEsNASAEIAFrIQAgByAJTwRAIAAgAmoiASADSw0DIAAgAUsNBCAEIAMgAmtLDQUgAkUNCiAEIAVqIAAgBWogAvwKAAAMCgsgAkUNCSAEIAVqIgMgACAFaiIA/QAAAP0LAAAgAkERSQ0JIAAgAmohAkEAIAFrIQEgA0EQaiEAA0AgACAAIAFq/QAAAP0LAAAgAEEQaiIAIAFqIAJJDQALDAkLIAFBAUcEQEEAIQAgASADIAQgAWsiCSADIAlLG2ogBGsiBiADIARrIgdBACADIAdPGyIHIAYgB0kbIgYgAkEBayIKIAYgCkkbIgpBAWoiBkERSSABQQ9Ncg0IIAZBD3EiAEEQIAAbIgAgCkF/c2ohCkEAIAFrIQsgBCAFaiEBIAYgAGshAANAIAEgASALav0AAAD9CwAAIAFBEGohASAKQRBqIgoNAAsMCAsgBEEBayIAIANPDQQgAyAESQ0FIAIgAyAEayIBSw0GIAJFDQggBCAFaiAAIAVqLQAAIAL8CwAMCAtB8P7IAEEJQfz+yAAQqwcAC0EAIAEgA0Hg/sgAEOoHAAsgACABIANB4P7IABDqBwALIAhBADYCGCAIQQE2AgwgCEHUnMgANgIIIAhCBDcCECAIQQhqQeD+yAAQjQgACyAAIANBkP7IABCMBwALIAQgAyADQbD+yAAQ6gcAC0EAIAIgAUGg/sgAEOoHAAsgBSAJaiEBIAQgBWohBQNAIAAgCWoiBiADTw0CIAAgB0YNAyAAIAVqIAAgAWotAAA6AAAgAEEBaiIAIAJHDQALCyAIQSBqJAAPCyAGIANBwP7IABCMBwALIAAgBGogA0HQ/sgAEIwHAAuVBgEFfyMAQcDSAGsiAyQAAkACQAJAAkAgAkEJTQRAIABBgICAgHg2AgAMAQsCQAJAIAEtAABBH0cNACABLQABQYsBRw0AIAEtAAJBCEcNAEEKIQQgAS0AAyIFQQRxRQ0BIAJBDEkEQCAAQYCAgIB4NgIADAMLIAIgAS8ACkEMaiIETw0BIABBgICAgHg2AgAMAgsgA0EANgIcIANBATYCECADQbztxwA2AgwgA0IENwIUIANBDGoQlQchASAAQYGAgIB4NgIAIAAgATYCBAwBCyAFQQhxBEACQCACIARLBEADQCABIARqLQAARQ0CIAIgBEEBaiIERw0ACwsgAEGAgICAeDYCAAwCCyAEQQFqIQQLAkAgBUEQcUUNACACIARLBEADQCABIARqLQAARQRAIARBAWohBAwDCyACIARBAWoiBEcNAAsLIABBgICAgHg2AgAMAQsCQAJAIAVBAnEEQCACIARBAmoiBEkNAQsgAiAESw0BIABBgICAgHg2AgAMAgsgAEGAgICAeDYCAAwBC0EEEHEiBUUNASAFQQRrIgYtAABBA3EEQCAFQQA2AAALIANBDGoiB0EAQYHSAPwLACADQaDSAGogByABIARqIAIgBGsgBUEEQQBBBhBEIAMgAy0ApFIiAToAk1ICQAJAAkACQCABDgMBAgEACyABQf8BRwRAIANBATYCpFIgA0GY98cANgKgUiADQgE3AqxSIAMgA0GT0gBqrUKAgICA4ASENwO4UiADIANBuNIAajYCqFIgA0GU0gBqIgEgA0Gg0gBqELEGIAEQkAchASAAQYGAgIB4NgIAIAAgATYCBAwDCyAAQQA2AgggAEKAgICAEDcCAAwCCyADKAKoUiEBIAAgBTYCBCAAQQQ2AgAgAEEEIAEgAUEETxs2AggMAgsgAEGAgICAeDYCAAsgBigCACIAQXhxIgFBCEEMIABBA3EiABtJDQIgAEEAIAFBLE8bDQMgBRCiAgsgA0HA0gBqJAAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC64DAhp9A3xDAACAPyEMRAAAAAAAAPA/RAAAAODTDtU/IhujIhxEAAAAAAAA8D9EAAAAwJoD1D8iHaEgG6GitiELQwAAgD8hDUMAAIA/IQFDmpkZPiIIQ8P1qD4iA5QiDkMAAIA/Q5qZmT4iCZNDmpkZPyIEkyIClCAJQ4/CdT0iBZQiD0MAAIA/QwrXIz8iCpMgA5MiBpQgCiAElCIQQwAAgD8gCJMgBZMiB5SSkiAIIASUIhEgBpSTIAkgA5QiEiAHlJMgCiAFlCITIAKUkyIUQwAAAABcBEAgECASk0MAAIA/IBSVIgGUIQwgDiATkyABlCEVIA8gEZMgAZQhFiAJIAaUIAogApSTIAGUIRcgAyAClCAEIAaUkyABlCEYIAogB5QgCCAGlJMgAZQhDSAFIAaUIAMgB5STIAGUIRkgCCAClCAJIAeUkyABlCEaIAQgB5QgBSAClJMgAZQhAQsgACAFIBggHCAdorYiApQgF5IgDCALlJKUOAIMIAAgBCAZIAKUIA2SIBUgC5SSlDgCCCAAIAMgASAClCAaIBYgC5SSkpQ4AgQgAEEBNgIAC5kFAgZ/AX4CQCABKAIIIgIgASgCBCIETw0AIAEoAgAgAmotAABB9QBHDQBBASEHIAEgAkEBaiICNgIICwJAAkAgAiAESQRAIAEoAgAiBiACai0AAEEwayIDQf8BcSIFQQpJDQELDAELIAEgAkEBaiICNgIIAkACQCAFRQRAQQAhAwwBCyADQf8BcSEDA0AgAiAERgRAIAQhAgwDCyACIAZqLQAAQTBrQf8BcSIFQQlLDQEgASACQQFqIgI2AgggA61CCn4iCEIgiFAEQCAFIAinIgVqIgMgBU8NAQsLDAILIAIgBE8NACACIAZqLQAAQd8ARw0AIAEgAkEBaiICNgIICwJAAkACQAJAIAIgAiADaiIFTQRAIAEgBTYCCCAEIAVJDQUgAkUNAiACIARJDQEMAgsMBAsgAiAGaiwAAEG/f0wNAQsgBUUgBCAFTXJFBEAgBSAGaiwAAEG/f0wNAQsgAiAGaiEEIAcNASAAQgE3AgggACADNgIEIAAgBDYCAA8LIAYgBCACIAVBuLLFABC7CQALIAIgBmpBAWshBiADIQECfwNAIAEiAkUEQEEAIQEgBCEFQQEMAgsgAkEBayEBIAIgBmotAABB3wBHDQALAkACQCABRQ0AAkAgASADTwRAIAEgA0cNASACDQJBACEGDAMLIAEgBGosAABBv39KDQELIAQgA0EAIAFByLLFABC7CQALAkAgAiADTwRAIAMhBiACIANHDQEMAgsgAiAEaiwAAEG/f0wNACACIQYMAQsgBCADIAIgA0HYssUAELsJAAsgBCAGaiEFIAMgBmshAyAECyECIANFBEAMAQsgACADNgIMIAAgBTYCCCAAIAE2AgQgACACNgIADwsgAEEANgIAIABBADoABAvbBQIKfwF+IwBBIGsiAyQAAn8CQAJAIAIEQANAIAEgBWosAABBAE4EQCAFQQFqIgUgAkcNAQwDCwsgA0EANgIQIANCgICAgBA3AwggA0EIakEAIAIQ7wUgAygCECEFIAEhByACIQgDQCAFIQYgBywAACIEQQBIBEAgBEH/AHFBAnQoApysSSEEC0EBQQJBAyAEQYAQSSIMGyAEQYABSSIJGyIKIAMoAgggBWtLBH8gA0EIaiAFIAoQ7wUgAygCEAUgBgsgAygCDGohBgJAIAlFBEAgBEEGdiEJIARBP3FBgH9yIQsgDARAIAYgCzoAASAGIAlBwAFyOgAADAILIAYgCzoAAiAGIAlBgAFyOgABIAYgBEEMdkHgAXI6AAAMAQsgBiAEOgAACyADIAUgCmoiBTYCECAHQQFqIQcgCEEBayIIDQALIAMpAwghDUEADAMLIANBADYCECADIAE2AgwMAQsgA0EIaiIGIAEgAhD7AiADKAIIRQ0AIAMgAykCDCINQiCIPgIYIAMgDT4CFCADIAI2AhAgAyABNgIMIAMgAjYCCEHY5sgAQSsgBkG4msgAQciayAAQ4AYACyACrSABrUIghoQhDSACIQVBAQshByANQiCIpyEEAkACQAJAAkACQAJAAkAgBSANpyIITw0AIAVFBEAgBEEEaygCACIGQXhxIgpBBEEIIAZBA3EiBhsgCGpJDQIgBkEAIAogCEEnaksbDQMgBBCiAkEBIQQMAQsgBCAIQQEgBRC7AiIERQ0DCyACRSAHcg0FIAFBBGsoAgAiB0F4cSIIQQRBCCAHQQNxIgcbIAJqSQ0DIAdBACAIIAJBJ2pLGw0EIAEQogIMBQtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgACAFNgIEIAAgBDYCACADQSBqJAALpAQBB38CQAJAIAAoAjgiBQRAIAAoAjQgBUECdEELakF4cSIBayIEQQRrKAIAIgJBeHEiAyABIAVqQQlqIgFBBEEIIAJBA3EiAhtqSQ0BIAJBACADIAFBJ2pLGw0CIAQQogILIAAoAiwhAiAAKAIwIgYEQCACIQEDQCABQawBaigCACIHBEAgAUGoAWooAgAiBUEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgB2pJDQMgA0EAIAQgB0EnaksbDQQgBRCiAgsgARDqAyABQbgBaiEBIAZBAWsiBg0ACwsgACgCKCIDBEAgAkEEaygCACIBQXhxIgQgA0G4AWwiA0EEQQggAUEDcSIBG2pJDQEgAUEAIAQgA0EnaksbDQIgAhCiAgsgACgCTCIEBEAgACgCSCIDQQRrKAIAIgJBeHEiAUEEQQggAkEDcSICGyAEakkNASACQQAgASAEQSdqSxsNAiADEKICCwJAIAAoAmAiBEUNACAAKAJkIgNFDQAgBEEEaygCACICQXhxIgFBBEEIIAJBA3EiAhsgA2pJDQEgAkEAIAEgA0EnaksbDQIgBBCiAgsCQCAAQX9GDQAgACAAKAIEIgJBAWs2AgQgAkEBRw0AIABBBGsoAgAiAUF4cUHsAEHwACABQQNxIgIbSQ0BIAJBACABQZABTxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC6kTAxh/BX4BeyMAQSBrIhMkACABKQMQIAEpAxggAigCBCIWIAIoAggiGRCVBCEeIAEoAghFBEACQCABQRBqIRAjAEEgayIMJAACQAJAAkAgASgCDCIUQQFqIgQEQAJAIAEoAgQiCiAKQQFqIhFBA3YiCEEHbCIXIApBCEkbIgVBAXYgBEkEQAJAAkACQAJAAn8gBUEBaiIFIAQgBCAFSRsiBUEPTwRAIAVB/////wFLDQtBfyAFQQN0QQduQQFrZ3ZBAWoMAQtBBCAFQQhxQQhqIAVBBEkbCyIHrUIYfiIcQiCIpw0AIBynIgQgB0EIaiIIaiIFIARJIAVB+P///wdLcg0AIAUQcSIFRQ0BIAQgBWohCyAIBEAgC0H/ASAI/AsACyAHQQFrIg8gB0EDdkEHbCAPQQhJGyEVIAEoAgAhByAUDQJBACEUDAMLIAxBADYCGCAMQQE2AgwgDEHEtcQANgIIIAxCBDcCECAMQQhqQZi1xAAQjQgLAAsgC0EIaiEXIAdBGGshGCAHKQMAQn+FQoCBgoSIkKDAgH+DIR0gECkDCCEfIBApAwAhIEEAIQUgFCEGIAchCANAIB1QBEADQCAFQQhqIQUgCEEIaiIIKQMAQoCBgoSIkKDAgH+DIhxCgIGChIiQoMCAf1ENAAsgHEKAgYKEiJCgwIB/hSEdCyALIA8gICAfIBggHXqnQQN2IAVqIhBBaGxqIgRBBGooAgAgBEEIaigCABCVBKciCXEiBGopAABCgIGChIiQoMCAf4MiHFAEQEEIIQ0DQCAEIA1qIQQgDUEIaiENIAsgBCAPcSIEaikAAEKAgYKEiJCgwIB/gyIcUA0ACwsgHUIBfSAdgyEdIAsgHHqnQQN2IARqIA9xIgRqLAAAQQBOBEAgCykDAEKAgYKEiJCgwIB/g3qnQQN2IQQLIAQgC2ogCUEZdiIJOgAAIBcgBEEIayAPcWogCToAACALIARBf3NBGGxqIglBEGogByAQQX9zQRhsaiIEQRBqKQAANwAAIAkgBP0AAAD9CwAAIAZBAWsiBg0ACwsgASAPNgIEIAEgCzYCACABIBUgFGs2AgggCkUNASAKIApBGGxBH2pBeHEiBWpBCWoiBkUNASAHIAVrIgRBBGsoAgAiBUF4cSIIQQRBCCAFQQNxIgUbIAZqSQ0DIAVBACAIIAZBJ2pLGw0EIAQQogIMAQsgASARBH8gASgCACEJAkACQCAIIBFBB3FBAEdqIgZBAkkEQCAGIQgMAQsgBkEBcSEIIAZB/v///wNxIgdBA3QhDSAHIQQgCSEFA0AgBSAF/QADACIh/U1BB/3NAf0MAQEBAQEBAQEBAQEBAQEBAf1OICH9DH9/f39/f39/f39/f39/f3/9UP3OAf0LAwAgBUEQaiEFIARBAmsiBA0ACyAGIAdGDQELIAkgDWohBQNAIAUgBSkDACIcQn+FQgeIQoGChIiQoMCAAYMgHEL//v379+/fv/8AhHw3AwAgBUEIaiEFIAhBAWsiCA0ACwsCQCARQQhPBEAgCSARaiAJKQAANwAADAELIBFFDQAgCUEIaiAJIBH8CgAACyAJQQhqIQsgECkDCCEfIBApAwAhIEEBIQRBACEFA0AgBSEIIAQhBQJAIAggCWoiDy0AAEGAAUcNACAJIAhBf3NBGGxqIQ4gCSAIQWhsaiIEQRBrIRggBEEUayEQA0AgCiAgIB8gECgCACAYKAIAEJUEpyIVcSIHIQYgByAJaikAAEKAgYKEiJCgwIB/gyIdUARAQQghDQNAIAYgDWohBCANQQhqIQ0gCSAEIApxIgZqKQAAQoCBgoSIkKDAgH+DIh1QDQALCyAJIB16p0EDdiAGaiAKcSIGaiwAAEEATgRAIAkpAwBCgIGChIiQoMCAf4N6p0EDdiEGCyAGIAdrIAggB2tzIApxQQhPBEAgBiAJaiIELQAAIAQgFUEZdiIEOgAAIAsgBkEIayAKcWogBDoAACAJIAZBf3NBGGxqIQZB/wFGBEAgD0H/AToAACALIAogCEEIa3FqQf8BOgAAIAZBEGogDkEQaikAADcAACAGIA79AAAA/QsAAAwDCyAOKQAAIRwgDiAGKQAANwAAIAYgHDcAACAGKQAIIRwgBiAOKQAINwAIIA4gHDcACCAOKAAQIQcgDiAGKAAQNgAQIAYoABQhBCAGIA4oABQ2ABQgDiAENgAUIAYgBzYAEAwBCwsgDyAVQRl2IgQ6AAAgCyAKIAhBCGtxaiAEOgAACyAFIAUgEUkiCGohBCAIDQALIAogFyAKQQhJGwVBAAsgFGs2AggLIAxBIGokAAwECwwCC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgDEEANgIYIAxBATYCDCAMQcS1xAA2AgggDEIENwIQIAxBCGpBmLXEABCNCAALCyABKAIEIgggHqdxIQcgHkIZiCIfQv8Ag0KBgoSIkKDAgAF+ISAgASgCACEEA0ACQAJAAkACQAJAAkAgBCAHaikAACIeICCFIhxCf4UgHEKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIcUEUEQANAIAQgHHqnQQN2IAdqIAhxQWhsaiIFQRBrKAIAIBlGBEAgFiAFQRRrKAIAIBkQ2wdFDQMLIBxCAX0gHIMiHFBFDQALCyAeQoCBgoSIkKDAgH+DIRwgGkUEQCAcUA0DIBx6p0EDdiAHaiAIcSESCyAcIB5CAYaDUARAQQEhGgwGCyAEIBJqLAAAIgdBAE4EQCAEIAQpAwBCgIGChIiQoMCAf4N6p0EDdiISai0AACEHCyAEIBJqIB+nQf8AcSIFOgAAIAQgEkEIayAIcWpBCGogBToAACATQRBqIgUgAkEIaigCADYCACATQRxqIANBCGooAgA2AgAgASABKAIIIAdBAXFrNgIIIAEgASgCDEEBajYCDCAEIBJBaGxqQRhrIgEgAikCADcCACATIAMpAgA3AhQgAUEIaiAFKQMANwIAIAFBEGogE0EYaikDADcCACAAQYCAgIB4NgIADAELIAAgBUEMayIBKQIANwIAIAEgAykCADcCACAAQQhqIAFBCGoiACgCADYCACAAIANBCGooAgA2AgAgAigCACICRQ0AIBZBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIAJqSQ0CIABBACABIAJBJ2pLGw0DIBYQogILIBNBIGokAA8LQQAhGgwCC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgG0EIaiIbIAdqIAhxIQcMAAsAC44FAgx/A34jAEGgAWsiCCQAIAhBAEGgAfwLAAJAAkAgAiAAKAKgASIFTQRAIAVBKU8NAiAFQQFqIQwgBUECdCEJIAEgAkECdGohDQJAA0AgCCAGQQJ0aiEDA0AgBiECIAMhBCABIA1GDQQgA0EEaiEDIAJBAWohBiABKAIAIQcgAUEEaiILIQEgB0UNAAsgB60hEUIAIQ8gCSEHIAIhASAAIQMDQCABQShPDQIgBCAPIAQ1AgB8IAM1AgAgEX58IhA+AgAgEEIgiCEPIARBBGohBCABQQFqIQEgA0EEaiEDIAdBBGsiBw0ACwJAIAogEEKAgICAEFoEfyACIAVqIgFBKE8NASAIIAFBAnRqIA8+AgAgDAUgBQsgAmoiASABIApJGyEKIAshAQwBCwsgAUEoQYyDwgAQjAcACyABQShBjIPCABCMBwALIAJBAWohDSACQQJ0IQwgACAFQQJ0aiEOIAAhAwJAA0AgCCAHQQJ0aiEGA0AgByELIAYhBCADIA5GDQMgBEEEaiEGIAdBAWohByADKAIAIQkgA0EEaiIFIQMgCUUNAAsgCa0hEUIAIQ8gDCEJIAshAyABIQYDQCADQShPDQIgBCAPIAQ1AgB8IAY1AgAgEX58IhA+AgAgEEIgiCEPIARBBGohBCADQQFqIQMgBkEEaiEGIAlBBGsiCQ0ACwJAIAogEEKAgICAEFoEfyACIAtqIgNBKE8NASAIIANBAnRqIA8+AgAgDQUgAgsgC2oiAyADIApJGyEKIAUhAwwBCwsgA0EoQYyDwgAQjAcACyADQShBjIPCABCMBwALIAAgCEGgAfwKAAAgACAKNgKgASAIQaABaiQADwtBACAFQShBjIPCABDqBwALpQUCBX8EfgJAAkACQAJAAkAgAkUEQEEBIQUMAQsgAhBxIgVFDQEgBUEEay0AAEEDcUUgAkVyDQAgBUEAIAL8CwALIAEoAgQiA60hCCADQv////8PIAEpAwgiCSAJQv////8PWhunayIEQQAgAyAETxsgAk8EQCABKAIAIAkgCCAIIAlWG6dqIQMgAkEBRwRAIAJFDQMgBSADIAL8CgAADAMLIAUgAy0AADoAAAwCC0GokMgAKQMAIgtCCIghCiALpyEDIAtC/wGDQgRSDQMMAgsAC0EEIQMLIAkgAq18IQgLIAEgCDcDCAJAAkACQAJAIANB/wFxIgZBBEcEQCAKQhiIpyEBIAqnIgchBAJAAkACQAJAIAZBAWsOAwEAAgMLIAEtAAghBAsgBEH/AXFBJUcNASAAQTI2AgggAEHfi8EANgIEIABBgICAgHg2AgAMBAsgAS0ACEElRg0CCyAAIAE2AgggAEGBgICAeDYCACAAIANB/wFxIAdBCHRyNgIEDAILIAAgAjYCCCAAIAU2AgQgAEGGgICAeDYCAA8LIABBMjYCCCAAQd+LwQA2AgQgAEGAgICAeDYCACABKAIAIQAgAUEEaigCACIDKAIAIgQEQCAAIAQRAwALIAMoAgQiAwRAIABBBGsoAgAiBEF4cSIGQQRBCCAEQQNxIgQbIANqSQ0CIARBACAGIANBJ2pLGw0DIAAQogILIAFBBGsoAgAiAEF4cSIDQRBBFCAAQQNxIgAbSQ0BIABBACADQTRPGw0CIAEQogILIAIEQCAFQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyACakkNASAAQQAgASACQSdqSxsNAiAFEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC40EAQd/AkACQCAAKAIAIgEEQCAAKAIEIgRBBGsoAgAiAkF4cSIDIAFBJGwiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCiAgsgACgCECECIAAoAhQiBQRAIAIhAQNAIAFBFGooAgAiBEEFTwRAIAFBCGooAgAiBkEEaygCACIDQXhxIgcgBEECdCIEQQRBCCADQQNxIgMbakkNAyADQQAgByAEQSdqSxsNBCAGEKICCyABQRhqIQEgBUEBayIFDQALCyAAKAIMIgMEQCACQQRrKAIAIgFBeHEiBCADQRhsIgNBBEEIIAFBA3EiARtqSQ0BIAFBACAEIANBJ2pLGw0CIAIQogILIAAoAhgiAQRAIAAoAhwiBEEEaygCACICQXhxIgMgAUESbCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKAIkIgEEQCAAKAIoIgRBBGsoAgAiAkF4cSIDIAFBHmwiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCiAgsgACgCMCICBEAgACgCNCIDQQRrKAIAIgBBeHEiASACQSpsIgJBBEEIIABBA3EiABtqSQ0BIABBACABIAJBJ2pLGw0CIAMQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALjQQBB38CQAJAIAAoAgAiAQRAIAAoAgQiBEEEaygCACICQXhxIgMgAUEYbCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKAIQIQIgACgCFCIFBEAgAiEBA0AgAUEUaigCACIEQQVPBEAgAUEIaigCACIGQQRrKAIAIgNBeHEiByAEQQJ0IgRBBEEIIANBA3EiAxtqSQ0DIANBACAHIARBJ2pLGw0EIAYQogILIAFBGGohASAFQQFrIgUNAAsLIAAoAgwiAwRAIAJBBGsoAgAiAUF4cSIEIANBGGwiA0EEQQggAUEDcSIBG2pJDQEgAUEAIAQgA0EnaksbDQIgAhCiAgsgACgCGCIBBEAgACgCHCIEQQRrKAIAIgJBeHEiAyABQQlsIgFBBEEIIAJBA3EiAhtqSQ0BIAJBACADIAFBJ2pLGw0CIAQQogILIAAoAiQiAQRAIAAoAigiBEEEaygCACICQXhxIgMgAUEPbCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEKICCyAAKAIwIgIEQCAAKAI0IgNBBGsoAgAiAEF4cSIBIAJBFWwiAkEEQQggAEEDcSIAG2pJDQEgAEEAIAEgAkEnaksbDQIgAxCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvLBQIGfwN+IwBBgAFrIgQkACABvCEGAn9BAyABi0MAAIB/Ww0AGkECIAZBgICA/AdxIgVBgICA/AdGDQAaIAZB////A3EiCEGAgIAEciAGQQF0Qf7//wdxIAZBF3ZB/wFxIgcbIgmtIgpCAYMhCyAFRQRAQQQgCEUNARogB0GWAWshB0IBIQwgC1AMAQtCgICAECAKQgGGIAlBgICABEYiCBshCkICQgEgCBshDEHofkHpfiAIGyAHaiEHIAtQCyEFIAQgBzsBeCAEIAw3A3AgBEIBNwNoIAQgCjcDYCAEIAU6AHoCfwJAAkACQAJAAkAgBUH/AXFBAU0EQCADQf//A3EhA0Hqs8UAQQEgBkEASCIFGyEHQeqzxQBByIHCACAFGyEFIAZBH3YhBiAEQSBqIARB4ABqIARBD2oQzwEgBCgCIEUNASAEQdgAaiAEQShqKAIANgIAIAQgBCkCIDcDUAwCCyAFQf8BcSIIQQJGDQJBASEFQeqzxQBByIHCACAGQQBIIgcbQeqzxQBBASAHGyACGyEHQQEgBkEfdiACGyEGIAhBBEcNA0ECIQUgBEECOwEgIANB//8DcQ0EQQEhBSAEQQE2AiggBEGYsMUANgIkIARBIGoMBQsgBEHQAGogBEHgAGogBEEPahBXCyAFIAcgAhshB0EBIAYgAhshBiAEIAQoAlAgBCgCVCAELwFYIAMgBEEgahDsBCAEKAIEIQUgBCgCAAwDCyAEQQM2AiggBEHzncYANgIkIARBAjsBIEEBIQdBACEGQQEhBSAEQSBqDAILIARBAzYCKCAEQeydxgA2AiQgBEECOwEgIARBIGoMAQsgBEEBNgIwIARBADsBLCAEQQI2AiggBEG5g8IANgIkIARBIGoLIQIgBCAFNgJcIAQgAjYCWCAEIAY2AlQgBCAHNgJQIAAgBEHQAGoQvgMgBEGAAWokAAv3BAEIfwJAIAMtAAMiByADLQAEIgtrIgggCEEfdSIIcyAIa0EBdCADLQACIgggAy0ABSIKayIEIARBH3UiBXMgBWtBAXZqIAJB/wFxSw0AIAFB/wFxIgEgAy0AACADLQABIgJrIgUgBUEfdSIFcyAFa0kNACABIgUgAiAIayIGIAZBH3UiBnMgBmtB/wFxSQ0AIAUgCCAHayIGIAZBH3UiBnMgBmsiBkH/AXFJDQAgBSADLQAHIAMtAAYiBWsiCSAJQR91IglzIAlrSQ0AIAEgBSAKayIJIAlBH3UiCXMgCWtB/wFxSQ0AIAEgCiALayIBIAFBH3UiAXMgAWsiAUH/AXFJDQAgAEH/AXEiACAGQf8BcU8gAUH/AXEgAE1xRQRAQQEgAxDiBRoPCyADQf8BIAVB/wBBgH8gCyAHa0EDbEH/AEGAfyAEIARBgH9MGyIAIABB/wBOG2oiACAAQYB/TBsiACAAQf8AThsiAEEJbEE/akEHdSIBayIEQQAgBEEAShsiBCAEQf8BThs6AAYgA0H/AEGAfyAKIABBEmxBP2pBB3UiCmtBgAFrIgQgBEGAf0wbIgQgBEH/AE4bQYABczoABSADQf8AQYB/IAcgAEEbbEE/akEHdSIAakGAAWsiByAHQYB/TBsiByAHQf8AThtBgAFzOgADIANB/wBBgH8gCyAAa0GAAWsiACAAQYB/TBsiACAAQf8AThtBgAFzOgAEIANB/wBBgH8gCCAKakGAAWsiACAAQYB/TBsiACAAQf8AThtBgAFzOgACIANB/wBBgH8gASACakGAAWsiACAAQYB/TBsiACAAQf8AThtBgAFzOgABCwvDBQIHfwF7IwBB0NEAayIDJABBASEHAkACQAJAIAJBAXQiBEEATgRAAkAgAkUNACAEEHEiB0UNAiAHQQRrLQAAQQNxRSAERXINACAHQQAgBPwLAAsgAyAENgIMIAMgBzYCCCADIAQ2AgRBhNIAEHEiBUUNASAFQQA2AuRRIAVB6NEAakEAOwEAIANBkM8AakEAQcAC/AsAIAVB/NEAakEANgAAIAX9DAAAAAAAAAAAAAAAAAAAAAD9CwDtUSADQRBqIgZBAEGAzwD8CwAgBSAGQcDRAPwKAAAgBUHg0QBqQQA2AgAgBUHQ0QBqIAr9CwIAIAUgCv0LAsBRIAVBADoAgFIgBUEAOgDsUSAFQQA7AepRA0AgA0EQaiAFIAEgAiAHIAQgCEEEEEQgAygCGCAIaiEIIAMtABQiBkECRwRAIAYEQCAAIAMpAgQ3AgAgACAGOgAMIABBCGogA0EMaigCADYCAAwGCyAEIAhPBEAgAyAINgIMCyAAIAMpAgQ3AgQgAEGAgICAeDYCACAAQQxqIANBDGooAgA2AgAMBQsgAiADKAIQIgZJDQMgASAGaiEBIAIgBmshAiADIAQEfyAEIQYgAygCBCAEayAESQRAIANBBGogBCAEEPgFIAMoAgghByADKAIMIQYLIAYgB2ohCSAEQQFHBH8gBEEBayIEBEAgCUEAIAT8CwALIAcgBCAGaiIGagUgCQtBADoAACAGQQFqBSAEQQF0CyIENgIMDAALAAtBwPzEABD/BwsACyAAIAMpAgQ3AgAgAEECOgAMIABBCGogA0EMaigCADYCAAsCQCAFQQRrKAIAIgBBeHEiAUGI0gBBjNIAIABBA3EiABtPBEAgAEEAIAFBrNIATxsNASAFEKICIANB0NEAaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALowUBCH8CQAJAAkACQAJAAkACQCABIAIgAyAEIAUgBhDAAwRAIAUgBkEBdCIIayIBIARPDQIgBSAGayICIARPDQMgAEH/AXEiDCABIANqIgotAAAiASACIANqIgstAAAiAmsiByAHQR91IgdzIAdrSQ0GIAUgBmoiByAETw0EIAQgBU0NBSAMIAMgB2oiDS0AACIHIAMgBWoiDi0AACIJayIAIABBH3UiAHMgAGtJDQYgBkF9bCAFaiIAIARPDQcgBSAIaiIFIARPDQEgACADaiIELQAAIQYgAyAFaiIDLQAAIQUgDkH/AEGAfyAJQf8AQYB/IAkgAmtBA2xB/wBBgH8gASAHayIAIABBgH9MGyIAIABB/wBOG2oiACAAQYB/TBsiACAAQf8AThsiAEEbbEE/akEHdSIJa0GAAWsiCCAIQYB/TBsiCCAIQf8AThtBgAFzOgAAIAtB/wBBgH8gAiAJakGAAWsiAiACQYB/TBsiAiACQf8AThtBgAFzOgAAIA1B/wBBgH8gByAAQRJsQT9qQQd1IgJrQYABayIHIAdBgH9MGyIHIAdB/wBOG0GAAXM6AAAgCkH/AEGAfyABIAJqQYABayIBIAFBgH9MGyIBIAFB/wBOG0GAAXM6AAAgA0H/AEGAfyAFIABBCWxBP2pBB3UiAGtBgAFrIgEgAUGAf0wbIgEgAUH/AE4bQYABczoAACAEQf8AQYB/IAAgBmpBgAFrIgAgAEGAf0wbIgAgAEH/AE4bQYABczoAAAsPCyAFIARB2NfEABCMBwALIAEgBEHo18QAEIwHAAsgAiAEQfjXxAAQjAcACyAHIARBiNjEABCMBwALIAUgBEGY2MQAEIwHAAtBASADIAQgBSAGEOgEGg8LIAAgBEHI18QAEIwHAAvMBQIGfwJ+AkAgAkUNACACQQdrIgNBACACIANPGyEHIAFBA2pBfHEgAWshCEEAIQMDQAJAAkACQCABIANqLQAAIgXAIgZBAE4EQCAIIANrQQNxDQEgAyAHTw0CA0AgASADaiIEQQRqKAIAIAQoAgByQYCBgoR4cQ0DIANBCGoiAyAHSQ0ACwwCC0KAgICAgCAhCkKAgICAECEJAkACQAJ+AkACQAJAAkACQAJAAkACQAJAIAUtAPSWQkECaw4DAAECCgsgA0EBaiIEIAJJDQJCACEKQgAhCQwJC0IAIQogA0EBaiIEIAJJDQJCACEJDAgLQgAhCiADQQFqIgQgAkkNAkIAIQkMBwsgASAEaiwAAEG/f0oNBgwHCyABIARqLAAAIQQCQAJAIAVB4AFrIgUEQCAFQQ1GBEAMAgUMAwsACyAEQWBxQaB/Rg0EDAMLIARBn39KDQIMAwsgBkEfakH/AXFBDE8EQCAGQX5xQW5HDQIgBEFASA0DDAILIARBQEgNAgwBCyABIARqLAAAIQQCQAJAAkACQCAFQfABaw4FAQAAAAIACyAGQQ9qQf8BcUECSyAEQUBOcg0DDAILIARB8ABqQf8BcUEwTw0CDAELIARBj39KDQELIAIgA0ECaiIETQRAQgAhCQwFCyABIARqLAAAQb9/Sg0CQgAhCSADQQNqIgQgAk8NBCABIARqLAAAQUBIDQVCgICAgIDgAAwDC0KAgICAgCAMAgtCACEJIANBAmoiBCACTw0CIAEgBGosAABBv39MDQMLQoCAgICAwAALIQpCgICAgBAhCQsgACAKIAOthCAJhDcCBCAAQQE2AgAPCyAEQQFqIQMMAgsgA0EBaiEDDAELIAIgA00NAANAIAEgA2osAABBAEgNASACIANBAWoiA0cNAAsMAgsgAiADSw0ACwsgACACNgIIIAAgATYCBCAAQQA2AgALiwUCB38CewJAAn8CQCABKAIgIgUgA00EQCACIANqIgggBWshByADIAVIBEAgAiEEDAILIAH9AAQQIQsgAf0ABAAhDCABLQAlIQkgAS0AJCEGIAIhBANAIAQgBmr9AAAAIAz9IyAEIAlq/QAAACAL/SP9Tv1kIgoEQCAKaCAEIAJragwECyAHIARBEGoiBE8NAAsMAQsgA0UNAiABLQA0IQUCQAJAAkAgA0EETwRAQYCChAggBUGBgoQIbCIHIAIoAABzIgRrIARyQYCBgoR4cUGAgYKEeEcEQCACIQQDQCAFIAQtAABGDQUgBEEBaiEEIANBAWsiAw0ACwwHCyACQQQgAkEDcSIIayIGaiEEIANBCUkNASAEIAIgA2oiA0EIayIISw0CA0BBgIKECCAEKAIAIAdzIgZrIAZyQYCBgoR4cUGAgYKEeEcNA0GAgoQIIARBBGooAgAgB3MiBmsgBnJBgIGChHhxQYCBgoR4Rw0DIARBCGoiBCAITQ0ACwwCCyAFIAIiBC0AAEYNAiADQQFGDQUgBC0AASAFRgRAIARBAWohBAwDCyADQQJGDQUgBSACLQACRw0FIAJBAmohBAwCCyADIAZNDQQgAyAIakEEayEDA0AgBSAELQAARg0CIARBAWohBCADQQFrIgMNAAsMBAsgAyAETQ0DA0AgBSAELQAARg0BIARBAWoiBCADRw0ACwwDCyAEIAJrIgIgAS0ANWsiAUEAIAEgAk0bDAELQQAhCSAEIAhPDQEgByABLQAkav0AAAAgAf0ABAD9IyAHIAEtACVq/QAAACAB/QAEEP0j/U79ZCIERQ0BIARoIAMgBWtqCyEEQQEhCQsgACAENgIEIAAgCTYCAAuLBQEQfyMAQRBrIgokAAJAIAEoAhAiBiABKAIMIgNJDQAgBiABKAIIIg5LDQAgASgCBCELIAFBFGoiECABLQAYIgdqQQFrLQAAIQgCQCAHQQVPBEADQCADIAtqIQQCQCAGIANrIgVBB00EQCADIAZGDQRBACECA0AgAiAEai0AACAIRg0CIAUgAkEBaiICRw0ACwwECyAKQQhqIAggBCAFEIcFIAooAghBAXFFDQMgCigCDCECCyABIAIgA2pBAWoiAzYCDCADIA5NIAMgB09xRQRAIAMgBk0NAQwECwtBACAHQQRB5LjHABDqBwALIAhBgYKECGwhDwNAIAMgC2ohBQJAAkACQAJAIAYgA2siCUEITwRAIAVBA2pBfHEiAiAFRg0BIAIgBWshBEEAIQIDQCACIAVqLQAAIAhGDQUgBCACQQFqIgJHDQALIAQgCUEIayICSw0DDAILIAMgBkYNBUEAIQIDQCACIAVqLQAAIAhGDQQgAkEBaiICIAlHDQALDAULIAlBCGshAkEAIQQLA0BBgIKECCAEIAVqIgwoAgAgD3MiEWsgEXJBgIKECCAMQQRqKAIAIA9zIgxrIAxycUGAgYKEeHFBgIGChHhHDQEgBEEIaiIEIAJNDQALCyAEIAlGDQIgBCAFaiEFIAYgBGsgA2shCUEAIQIDQCAIIAIgBWotAABHBEAgAkEBaiICIAlHDQEMBAsLIAIgBGohAgsgASACIANqQQFqIgM2AgwCQCADIAdJIAMgDktyRQRAIAsgAyAHayICaiAQIAcQ2wdFDQELIAMgBk0NAQwDCwsgACADNgIIIAAgAjYCBEEBIQ0MAQsgASAGNgIMCyAAIA02AgAgCkEQaiQAC7oEAQR/AkACQAJAAkACQAJAAkACQAJAAkBBFSAAKAIAIgRBgICAgHhzIARBAE4bDhUHBwcHBwcHBwcHBwcBBwIHBwMHBAUACyAAKAIEIQIgACgCCCIABEAgAiEBA0AgARD+AiABQRBqEP4CIAFBIGohASAAQQFrIgANAAsLIARFDQYgAkEEaygCACIAQXhxIgMgBEEFdCIBQQRBCCAAQQNxIgAbckkNCCAARQ0FIAMgAUEnaksNBwwFCyAAKAIEIgNFDQUgACgCCCICQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyADakkNByAARSABIANBJ2pNcg0EDAYLIAAoAgQiA0UNBCAAKAIIIgJBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIANqSQ0GIABFIAEgA0Enak1yDQMMBQsgACgCBCICEP4CIAJBBGsoAgAiAUF4cUEUQRggAUEDcSIAG0kNBSAARSABQThJcg0CDAQLIAAoAgQiAhD+AiACQQRrKAIAIgFBeHFBFEEYIAFBA3EiABtJDQQgAEUgAUE4SXINAQwDCyAAKAIIIQIgACgCDCIDBEAgAiEBA0AgARD+AiABQRBqIQEgA0EBayIDDQALCyAAKAIEIgFFDQEgAkEEaygCACIAQXhxIgMgAUEEdCIBQQRBCCAAQQNxIgAbckkNAyAARSADIAFBJ2pNcg0ADAILIAIQogILDwtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALtAUCB38BeyAFQQNuIQwCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAQRAIAFBAnQiChBxIglFDQUCQCABQQRPBEAgACEIIAkhByABQXxxIgshBgNAIAcgCP0AAgAiDf0fABCJBP0TIA39HwEQiQT9IAEgDf0fAhCJBP0gAiAN/R8DEIkE/SAD/QsCACAIQRBqIQggB0EQaiEHIAZBBGsiBg0ACyABIAtGDQELIAEgC2shBiAAIAtBAnQiB2ohCCAHIAlqIQcDQCAHIAgqAgAQiQQ4AgAgCEEEaiEIIAdBBGohByAGQQFrIgYNAAsLIAVBA08NAQwCC0EEIQkgBUEDSQ0CC0EAIQhBACEHA0AgAyAITQ0HIAEgAiAIaiIALQAAIgZNDQggBSAHTQ0JIAQgCSAGQQJ0aioCADgCACAIQQFqIgYgA08NCiABIABBAWotAAAiBk0NCyAHQQFqIgogBU8NDCAEQQRqIAkgBkECdGoqAgA4AgAgCEECaiIGIANPDQ0gASAAQQJqLQAAIgBNDQ4gB0ECaiIGIAVPDQMgBEEIaiAJIABBAnRqKgIAOAIAIAhBBGohCCAEQQxqIQQgB0EDaiEHIAxBAWsiDA0ACyABQQJ0IQoLIAlBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIApqSQ0DIABBACABIApBJ2pLGw0EIAkQogILDwsgBiAFQbD2xwAQjAcLAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAggA0Gw9ccAEIwHAAsgBiABQcD1xwAQjAcACyAHIAVB0PXHABCMBwALIAYgA0Hg9ccAEIwHAAsgBiABQfD1xwAQjAcACyAKIAVBgPbHABCMBwALIAYgA0GQ9scAEIwHAAsgACABQaD2xwAQjAcAC6QFAwd/AX4BbyMAQTBrIgMkAAJAAn8CQCAAKAIAIgQlAUGBCCUBECNFBEBBAiAEELoKIgVBAEcgBUH///8HRiIFGyEIQQEhByAFDQFBAAwCCyADQQc6ABggA0EYaiABIAIQ0AUhAAwCCyADQRhqIAQQrwogAygCGARAIAMpAyAhCkEDDAELIANBGGogBCUBECQgAygCGCIFBEAgAygCHCIErSEKQQAhB0EFDAELAkACQCAEJQEQJQRAIANBGGogBBCrBiADKQIcIQogAygCGCEGDAELIAQlARAmRQ0BIAQlARAnIQsQ2gQiBCALJgEgA0EYaiAEEKsGIAMpAhwhCiADKAIYIQYgBEGECEkNACAEEJsHCyAGQYCAgIB4Rg0AIAqnIQVBASEJIApCIIghCkEGDAELIAMgAK1CgICAgIAEhDcDECADQgE3AiQgA0EBNgIcIANBoPjHADYCGCADIANBEGo2AiAgA0EEaiADQRhqEOwDQYCAgIB4IQYgAygCCCEFIAMoAgQhBCADNQIMIQpBACEHQRELIQAgAyAKNwMgIAMgBTYCHCADIAg6ABkgAyAAOgAYIANBGGogASACENAFIQACQAJAAkACQAJAIAlFBEAgByAERXINBgwBCyAGBEAgBUEEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgBmpJDQIgAUEAIAIgBkEnaksbDQMgBRCiAgsgBEUgB3INBQsgBUEEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgBGpJDQIgAUEAIAIgBEEnaksbDQMgBRCiAgwEC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIANBMGokACAAC+YFAQN/IwBBIGsiAyQAIAACfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAQ4oAgEBAQEBAQEBAwUBAQQBAQEBAQEBAQEBAQEBAQEBAQEBAQgBAQEBBwALIAFB3ABGDQULIAJBAXFFIAFB/wVNcg0HIAEQ5QRFDQcgA0EOakEAOgAAIANBADsBDCADIAFBFHYtANy2RToADyADIAFBBHZBD3EtANy2RToAEyADIAFBCHZBD3EtANy2RToAEiADIAFBDHZBD3EtANy2RToAESADIAFBEHZBD3EtANy2RToAECABQQFyZ0ECdiICIANBDGoiBWoiBEH7ADoAACAEQQFrQfUAOgAAIAUgAkECayICakHcADoAACADQRRqIgQgAUEPcS0A3LZFOgAAIAAgAykBDDcAACADQf0AOgAVDAgLIABCADcBAiAAQdzgADsBAAwKCyAAQgA3AQIgAEHc6AE7AQAMCQsgAEIANwECIABB3OQBOwEADAgLIABCADcBAiAAQdzcATsBAAwHCyAAQgA3AQIgAEHcuAE7AQAMBgsgAkGAAnFFDQEgAEIANwECIABB3M4AOwEADAULIAJB////B3FBgIAETw0DCyABEOECDQEgA0EYakEAOgAAIANBADsBFiADIAFBFHYtANy2RToAGSADIAFBBHZBD3EtANy2RToAHSADIAFBCHZBD3EtANy2RToAHCADIAFBDHZBD3EtANy2RToAGyADIAFBEHZBD3EtANy2RToAGiABQQFyZ0ECdiICIANBFmoiBWoiBEH7ADoAACAEQQFrQfUAOgAAIAUgAkECayICakHcADoAACADQR5qIgQgAUEPcS0A3LZFOgAAIAAgAykBFjcAACADQf0AOgAfCyAAQQhqIAQvAQA7AABBCgwDCyAAIAE2AgBBgAEhAkGBAQwCCyAAQgA3AQIgAEHcxAA7AQALQQAhAkECCzoADSAAIAI6AAwgA0EgaiQAC9MEAgZ+BH8gACAAKAI4IAJqNgI4AkAgACgCPCILRQRADAELQQQhCQJ+QQggC2siCiACIAIgCksbIgxBBEkEQEEAIQlCAAwBCyABNQAACyEDIAwgCUEBcksEQCABIAlqMwAAIAlBA3SthiADhCEDIAlBAnIhCQsgACAAKQMwIAkgDEkEfiABIAlqMQAAIAlBA3SthiADhAUgAwsgC0EDdEE4ca2GhCIDNwMwIAIgCk8EQCAAIAApAxggA4UiBCAAKQMIfCIGIAApAxAiBUINiSAFIAApAwB8IgWFIgd8IgggB0IRiYU3AxAgACAIQiCJNwMIIAAgBiAEQhCJhSIEQhWJIAQgBUIgiXwiBIU3AxggACADIASFNwMADAELIAAgAiALajYCPA8LIAIgCmsiAkEHcSEJIAJBeHEiAiAKSwRAIAApAwghBCAAKQMQIQMgACkDGCEGIAApAwAhBQNAIAQgBiABIApqKQAAIgeFIgZ8IgQgAyAFfCIFIANCDYmFIgN8IgggA0IRiYUhAyAEIAZCEImFIgRCFYkgBCAFQiCJfCIFhSEGIAhCIIkhBCAFIAeFIQUgCkEIaiIKIAJJDQALIAAgAzcDECAAIAY3AxggACAENwMIIAAgBTcDAAtBBCECAn4gCUEESQRAQQAhAkIADAELIAEgCmo1AAALIQMgCSACQQFySwRAIAEgCmogAmozAAAgAkEDdK2GIAOEIQMgAkECciECCyAAIAIgCUkEfiABIAIgCmpqMQAAIAJBA3SthiADhAUgAws3AzAgACAJNgI8C5MFAwJ7BX8BfgJAAkACQEF/IAQtAL8CIgdBD3F0IgRB/wFxQf8BRwRAQf8BIARBf3MiC0H/AXFuIQhBASAHdEGWAnFFIAdBCEtyDQFBCCAHbq0gAa1+IgxCIIhQIAynIANJcQ0CIAAgAWohCQJAIAdBCEcEQCADRQ0BQQggB2shBEF/IQEDQCABQQBIBEAgACAJRg0HIAAtAAAhCiAEIQEgAEEBaiEACyACIAogAXYgC3EgCGw6AAAgASAHayEBIAJBAWohAiADQQFrIgMNAAsMAQsgAUUNACADIAFBAWsiASABIANLG0EBaiIBQRFPBEAgAiABIAFBD3EiAUEQIAEbayIBaiADIAFrIQMgACABaiEHIAj9DyEFA0AgAiAA/QAAACIG/RYAIAX9FgBs/Q8gBv0WASAF/RYBbP0XASAG/RYCIAX9FgJs/RcCIAb9FgMgBf0WA2z9FwMgBv0WBCAF/RYEbP0XBCAG/RYFIAX9FgVs/RcFIAb9FgYgBf0WBmz9FwYgBv0WByAF/RYHbP0XByAG/RYIIAX9Fghs/RcIIAb9FgkgBf0WCWz9FwkgBv0WCiAF/RYKbP0XCiAG/RYLIAX9Fgts/RcLIAb9FgwgBf0WDGz9FwwgBv0WDSAF/RYNbP0XDSAG/RYOIAX9Fg5s/RcOIAb9Fg8gBf0WD2z9Fw/9CwAAIABBEGohACACQRBqIQIgAUEQayIBDQALIQIgByEACwNAIANFDQEgAiAALQAAIAhsOgAAIAJBAWohAiADQQFrIQMgAEEBaiIAIAlHDQALCw8LQfSXxQAQgQgAC0Gwl8UAQTRB5JfFABDrBwALQYSWxQBB5QBB7JbFABDrBwALQfyWxQBBIkGgl8UAEKsHAAvkBAIIfwR9IAEoAggiCEUEQCAAQQA2AgAPCyABIAhBAWsiAjYCCCABKAIEIgMgAkEDdGoiASgCBCEFIAEqAgAhCgJAIAJFBEAgBSEJIAohDQwBCyADKAIEIQkgAyAFNgIEIAMqAgAhDSADIAo4AgBBACEBQQEhBCAIQQRPBEAgAkECayIBQQAgASACTRshB0EAIQIDQCADIAJBA3RqIAMgBCADIARBA3RqIgJBCGoqAgAiDCAMWyAMIAIqAgAiC2BFcSIBIAFBfyALIAxgGyALIAtcGyIBQQBMIAJBBGooAgAgAkEMaigCAE0gARtqIgFBA3RqKQIANwIAIAFBAXQiBkEBciEEIAEhAiAGIAdJDQALCwJAAkAgCEECayAERgRAIAMgAUEDdGogAyAEQQN0aiIBKQIANwIAIAEgBTYCBCABIAo4AgAgBCEBDAELIAMgAUEDdGoiAiAFNgIEIAIgCjgCACABDQBBACECDAELIAogClsEQANAIAMgAUEBayIGQQF2IgJBA3RqIgcqAgAiCyALWyAKIAtfRXFBfyAKIAtgGyIEQQBMIAUgB0EEaigCAE0gBBsEQCABIQIMAwsgAyABQQN0aiAHKQIANwIAIAIhASAGQQFLDQAMAgsACwNAAkAgAyABQQFrIgRBAXYiAkEDdGoiBioCACILIAtbIAogC19FcQ0AIAUgBkEEaigCAEsNACABIQIMAgsgAyABQQN0aiAGKQIANwIAIAIhASAEQQJPDQALCyADIAJBA3RqIgEgBTYCBCABIAo4AgALIAAgCTYCCCAAIA04AgQgAEEBNgIAC4kGAQV/IwBBIGsiAiQAQQEhBAJAAkACQAJAAkACQEEBIAAoAgAiA0H/////B2ogA0GAgICAeE0bQQFrDgQBAgMEAAsgASgCACIDQcSjxwBBAiABKAIEIgYoAgwiBREAAA0EIABBBGohAAJAIAEtAApBgAFxRQRAIANBu7PFAEEBIAURAAANBiAAIAEQrgINBiABKAIAIQMgASgCBCgCDCEFDAELIANB24HCAEECIAURAAANBSACQQE6AA8gAiAGNgIEIAIgAzYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgACACQRBqEK4CDQUgAigCEEHZgcIAQQIgAigCFCgCDBEAAA0FCyADQd6OyABBASAFEQAAIQQMBAsgASgCACIDQcajxwBBDiABKAIEIgYoAgwiBREAAA0DAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBREAAA0FIAAoAgQgACgCCCABELUCRQ0BDAULIANB24HCAEECIAURAAANBCACQQE6AA8gAiAGNgIEIAIgAzYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgACgCBCAAKAIIIAJBEGoQtQINBCACQdmBwgBBAhCvAw0ECyADQd6OyABBASAFEQAAIQQMAwsgASgCACIDQdSjxwBBEiABKAIEIgYoAgwiBREAAA0CAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBREAAA0EIAAoAgQgACgCCCABELUCRQ0BDAQLIANB24HCAEECIAURAAANAyACQQE6AA8gAiAGNgIEIAIgAzYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgACgCBCAAKAIIIAJBEGoQtQINAyACQdmBwgBBAhCvAw0DCyADQd6OyABBASAFEQAAIQQMAgsgASgCAEHmo8cAQQwgASgCBCgCDBEAACEEDAELIAEoAgBB8qPHAEEPIAEoAgQoAgwRAAAhBAsgAkEgaiQAIAQL8QMBBH8gABDAAgJAAkAgACgCvAEiAQRAIAAoAsABIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAsgBIgEEQCAAKALMASIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKALUASIBBEAgACgC2AEiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsCQCAAKALgASIBQYCAgIB4Rg0AIAEEQCAAKALkASIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQogILIAAoAuwBIgEEQCAAKALwASIDQQRrKAIAIgJBeHEiBCABQQF0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQogILIAAoAvgBIgFFDQAgACgC/AEiAEEEaygCACIDQXhxIgIgAUECdCIBQQRBCCADQQNxIgMbakkNASADQQAgAiABQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+sDAQR/IAAQ9gICQAJAIAAoAmAiAQRAIAAoAmQiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCbCIBBEAgACgCcCIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKAJ4IgEEQCAAKAJ8IgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILAkAgACgChAEiAUGAgICAeEYNACABBEAgACgCiAEiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAKQASIBBEAgACgClAEiA0EEaygCACICQXhxIgQgAUEBdCIBQQRBCCACQQNxIgIbakkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAKcASIBRQ0AIAAoAqABIgBBBGsoAgAiA0F4cSICIAFBAnQiAUEEQQggA0EDcSIDG2pJDQEgA0EAIAIgAUEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvmAwEEfyAAEPUCAkACQCAAKAJAIgEEQCAAKAJEIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAkwiAQRAIAAoAlAiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCWCIBBEAgACgCXCIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAoAmQiAUGAgICAeEYNACABBEAgACgCaCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQogILIAAoAnAiAQRAIAAoAnQiA0EEaygCACICQXhxIgQgAUEBdCIBQQRBCCACQQNxIgIbakkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAJ8IgFFDQAgACgCgAEiAEEEaygCACIDQXhxIgIgAUECdCIBQQRBCCADQQNxIgMbakkNASADQQAgAiABQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC/EDAQR/IAAQigICQAJAIAAoAsQBIgEEQCAAKALIASIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAKALQASIBBEAgACgC1AEiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgC3AEiAQRAIAAoAuABIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILAkAgACgC6AEiAUGAgICAeEYNACABBEAgACgC7AEiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAL0ASIBBEAgACgC+AEiA0EEaygCACICQXhxIgQgAUEBdCIBQQRBCCACQQNxIgIbakkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAKAAiIBRQ0AIAAoAoQCIgBBBGsoAgAiA0F4cSICIAFBAnQiAUEEQQggA0EDcSIDG2pJDQEgA0EAIAIgAUEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAv7BAEQfyMAQdAAayITJAAgAQRAIAJBAUYhIgNAAkACQAJAAkACQEGAgAQgASAYIhZrIhggGEGAgARPGyIXQQNsIhsgFkEDbCIcaiIUIBtJIAQgFElyRQRAIBYgF2oiGCAXSSAMIBhJcg0BIAogFEkNAiAGIBRJDQMCQCAXQQJ0IiAgFkECdCIdaiIUICBJIAggFElyRQRAQQAhHkEEIRkgAg0BQQQhFUEAIRRBACEfQQQhIQwHCyAdIBQgCEGo18EAEOoHAAsCQCAXQQlsIh8gFkEJbCIUaiIVIB9JIA4gFUlyRQRAIA0gFEECdGohISAiRQ0BQQQhFUEAIRQMBwsgFCAVIA5BmNfBABDqBwALIBdBD2wiFCAWQQ9sIhVqIhogFEkgECAaSXINBCAPIBVBAnRqIRUgAkEDRw0FIBdBFWwiHiAWQRVsIhlqIhogHkkgEiAaSXJFBEAgESAZQQJ0aiEZDAYLIBkgGiASQfjWwQAQ6gcACyAcIBQgBEHo18EAEOoHAAsgFiAYIAxB2NfBABDqBwALIBwgFCAKQcjXwQAQ6gcACyAcIBQgBkG418EAEOoHAAsgFSAaIBBBiNfBABDqBwALIBNCBDcCSCATQgI3AkAgEyAeNgI8IBMgGTYCOCATIBQ2AjQgEyAVNgIwIBMgHzYCLCATICE2AiggEyAgNgIkIBMgByAdQQJ0ajYCICATIBs2AhwgEyAFIBxBAnQiFGo2AhggEyAbNgIUIBMgCSAUajYCECATIBc2AgwgEyALIB1qNgIIIBMgGzYCBCATIAMgFGo2AgAgACAWIBcgExCXASABIBhLDQALCyAAEKMBIBNB0ABqJAAL+gQBEH8jAEHQAGsiEyQAIAEEQCACQQFGISIDQAJAAkACQAJAAkBBgIAEIAEgGCIWayIYIBhBgIAETxsiF0EDbCIbIBZBA2wiHGoiFCAbSSAEIBRJckUEQCAWIBdqIhggF0kgDCAYSXINASAKIBRJDQIgBiAUSQ0DAkAgF0ECdCIgIBZBAnQiHWoiFCAgSSAIIBRJckUEQEEAIR5BBCEZIAINAUEEIRVBACEUQQAhH0EEISEMBwsgHSAUIAhBqNfBABDqBwALAkAgF0EJbCIfIBZBCWwiFGoiFSAfSSAOIBVJckUEQCANIBRBAnRqISEgIkUNAUEEIRVBACEUDAcLIBQgFSAOQZjXwQAQ6gcACyAXQQ9sIhQgFkEPbCIVaiIaIBRJIBAgGklyDQQgDyAVQQJ0aiEVIAJBA0cNBSAXQRVsIh4gFkEVbCIZaiIaIB5JIBIgGklyRQRAIBEgGUECdGohGQwGCyAZIBogEkH41sEAEOoHAAsgHCAUIARB6NfBABDqBwALIBYgGCAMQdjXwQAQ6gcACyAcIBQgCkHI18EAEOoHAAsgHCAUIAZBuNfBABDqBwALIBUgGiAQQYjXwQAQ6gcACyATQgQ3AkggE0ICNwJAIBMgHjYCPCATIBk2AjggEyAUNgI0IBMgFTYCMCATIB82AiwgEyAhNgIoIBMgIDYCJCATIAcgHUECdGo2AiAgEyAbNgIcIBMgBSAcQQJ0IhRqNgIYIBMgGzYCFCATIAkgFGo2AhAgEyAXNgIMIBMgCyAdajYCCCATIBs2AgQgEyADIBRqNgIAIAAgFiAXIBMQfiABIBhLDQALCyAAENQBIBNB0ABqJAALhAUCC38BeyMAQTBrIgQkACAEQQA2AgggBEEANgIsIARBDGohCCAEQSxqIQtBCCEHAkACQAJAAkACQAJ/IAIgAWsiCUEAIAIgCU8bIglBCUkEQCAIIQogCwwBCwJAIAlBAWtnIgMEQCAEIARBCGpBfyADdkEBahDoAyAEKAIAIgNBgYCAgHhGDQEgAw0DC0HYlccAQRFB1MzHABDrBwALIAQoAiwiB0EJSQRAIAchAyAIIQpBCCEHIAsMAQsgBCgCDCEDIAQoAhAhCiAICyEJIAMgB08NAiAHIANBf3NqIgUgAiABIAEgAkkbIg0gAWsiBiAFIAZJG0EBaiIGQQRNDQEgCiADQQJ0aiEFIAH9Ef0MAAAAAAEAAAACAAAAAwAAAP2uASEOIAYgBkEDcSIGQQQgBhtrIgwhBgNAIAUgDv0LAgAgBUEQaiEFIA79DAQAAAAEAAAABAAAAAQAAAD9rgEhDiAGQQRrIgYNAAsgASAMaiEBIAMgDGohAwwBCwALIAogA0ECdGohBQNAIAEgDUYNAiAFIAE2AgAgBUEEaiEFIAFBAWohASAHIANBAWoiA0cNAAsgByEDCyAJIAM2AgAgASACTw0BA0ACfyAEKAIsIgZBCUkEQCAGIQUgCCEHQQghBiALDAELIAQoAgwhBSAEKAIQIQcgCAshAyAFIAZGBEAgBEEIahDNBiAEKAIMIQUgBCgCECEHIAghAwsgByAFQQJ0aiABNgIAIAMgAygCAEEBajYCACABQQFqIgEgAkcNAAsMAQsgCSADNgIACyAAIAT9AAII/QsCACAAQSBqIARBKGopAgA3AgAgAEEQaiAEQRhq/QACAP0LAgAgBEEwaiQAC94EAQt/IwBBEGsiDSQAIAMEQANAAkACQAJAAkAgBSALRwRAIAIgC2ohBiAEIAtBAnRqKAIAIg5FBEAgASAGTQ0CIAAgBkEYbGoiCEEEQRQgCCgCFEEESyIGG2ooAgBFDQUgCEEEaiAIQRRqIAYbQQA2AgAMBQsgASAGSw0CIAYgAUHUw8cAEIwHAAsgBSAFQbTDxwAQjAcACyAGIAFBxMPHABCMBwwBCyAAIAZBGGxqIgooAhQiByEGIAdBBU8EQCAKKAIEIQYLIApBFGohDCAKQQRqIQggCkEEQRQgB0EESyIJG2ooAgAEQCAIIAwgCRtBADYCACAMKAIAIQcLQQEgBiAGQQFNGyEJIAciBkEFTwRAIAgoAgAhBgsgBiAJTwRAIAYgCU0NAiAJIAggDCAHQQRLGyIGKAIATw0CIAYgCTYCAAwCCwJAIAkgBmsiDyAHQQQgB0EESyIGGyAIKAIAIAcgBhsiBmtNDQACQCAGIAYgD2oiBksNAEF/IAZBAWtndkEAIAZBAk8bIgZBf0YNACANQQhqIAogBkEBahD1AyANKAIIIgZBgYCAgHhGDQEgBg0CC0HYlccAQRFB1MzHABDrBwALA0ACfyAMKAIAIhBBBUkEQCAQIQcgCCEJQQQhECAMDAELIAooAgQhByAKKAIIIQkgCAshBiAHIBBGBEAgChDUBiAKKAIEIQcgCigCCCEJIAghBgsgCSAHQQJ0aiAONgIAIAYgBigCAEEBajYCACAOQQFqIQ4gD0EBayIPDQALDAELAAsgC0EBaiILIANHDQALCyANQRBqJAAL3gQBC38jAEEQayINJAAgAwRAA0ACQAJAAkACQCAFIAtHBEAgAiALaiEGIAQgC0ECdGooAgAiDkUEQCABIAZNDQIgACAGQRhsaiIIQQRBFCAIKAIUQQRLIgYbaigCAEUNBSAIQQRqIAhBFGogBhtBADYCAAwFCyABIAZLDQIgBiABQaTGxwAQjAcACyAFIAVBhMbHABCMBwALIAYgAUGUxscAEIwHDAELIAAgBkEYbGoiCigCFCIHIQYgB0EFTwRAIAooAgQhBgsgCkEUaiEMIApBBGohCCAKQQRBFCAHQQRLIgkbaigCAARAIAggDCAJG0EANgIAIAwoAgAhBwtBASAGIAZBAU0bIQkgByIGQQVPBEAgCCgCACEGCyAGIAlPBEAgBiAJTQ0CIAkgCCAMIAdBBEsbIgYoAgBPDQIgBiAJNgIADAILAkAgCSAGayIPIAdBBCAHQQRLIgYbIAgoAgAgByAGGyIGa00NAAJAIAYgBiAPaiIGSw0AQX8gBkEBa2d2QQAgBkECTxsiBkF/Rg0AIA1BCGogCiAGQQFqEPUDIA0oAggiBkGBgICAeEYNASAGDQILQdiVxwBBEUHUzMcAEOsHAAsDQAJ/IAwoAgAiEEEFSQRAIBAhByAIIQlBBCEQIAwMAQsgCigCBCEHIAooAgghCSAICyEGIAcgEEYEQCAKENQGIAooAgQhByAKKAIIIQkgCCEGCyAJIAdBAnRqIA42AgAgBiAGKAIAQQFqNgIAIA5BAWohDiAPQQFrIg8NAAsMAQsACyALQQFqIgsgA0cNAAsLIA1BEGokAAv2BAEQfyMAQdAAayITJAAgAQRAIAJBAUYhIgNAAkACQAJAAkACQEGAgAQgASAYIhZrIhggGEGAgARPGyIXQQNsIhsgFkEDbCIcaiIUIBtJIAQgFElyRQRAIBYgF2oiGCAXSSAMIBhJcg0BIAogFEkNAiAGIBRJDQMCQCAXQQJ0IiAgFkECdCIdaiIUICBJIAggFElyRQRAQQAhHkEEIRkgAg0BQQQhFUEAIRRBACEfQQQhIQwHCyAdIBQgCEGo18EAEOoHAAsCQCAXQQlsIh8gFkEJbCIUaiIVIB9JIA4gFUlyRQRAIA0gFEECdGohISAiRQ0BQQQhFUEAIRQMBwsgFCAVIA5BmNfBABDqBwALIBdBD2wiFCAWQQ9sIhVqIhogFEkgECAaSXINBCAPIBVBAnRqIRUgAkEDRw0FIBdBFWwiHiAWQRVsIhlqIhogHkkgEiAaSXJFBEAgESAZQQJ0aiEZDAYLIBkgGiASQfjWwQAQ6gcACyAcIBQgBEHo18EAEOoHAAsgFiAYIAxB2NfBABDqBwALIBwgFCAKQcjXwQAQ6gcACyAcIBQgBkG418EAEOoHAAsgFSAaIBBBiNfBABDqBwALIBNCBDcCSCATQgI3AkAgEyAeNgI8IBMgGTYCOCATIBQ2AjQgEyAVNgIwIBMgHzYCLCATICE2AiggEyAgNgIkIBMgByAdQQJ0ajYCICATIBs2AhwgEyAFIBxBAnQiFGo2AhggEyAbNgIUIBMgCSAUajYCECATIBc2AgwgEyALIB1qNgIIIBMgGzYCBCATIAMgFGo2AgAgACAWIBcgExCTAiABIBhLDQALCyATQdAAaiQAC/YEARB/IwBB0ABrIhMkACABBEAgAkEBRiEiA0ACQAJAAkACQAJAQYCABCABIBgiFmsiGCAYQYCABE8bIhdBA2wiGyAWQQNsIhxqIhQgG0kgBCAUSXJFBEAgFiAXaiIYIBdJIAwgGElyDQEgCiAUSQ0CIAYgFEkNAwJAIBdBAnQiICAWQQJ0Ih1qIhQgIEkgCCAUSXJFBEBBACEeQQQhGSACDQFBBCEVQQAhFEEAIR9BBCEhDAcLIB0gFCAIQajXwQAQ6gcACwJAIBdBCWwiHyAWQQlsIhRqIhUgH0kgDiAVSXJFBEAgDSAUQQJ0aiEhICJFDQFBBCEVQQAhFAwHCyAUIBUgDkGY18EAEOoHAAsgF0EPbCIUIBZBD2wiFWoiGiAUSSAQIBpJcg0EIA8gFUECdGohFSACQQNHDQUgF0EVbCIeIBZBFWwiGWoiGiAeSSASIBpJckUEQCARIBlBAnRqIRkMBgsgGSAaIBJB+NbBABDqBwALIBwgFCAEQejXwQAQ6gcACyAWIBggDEHY18EAEOoHAAsgHCAUIApByNfBABDqBwALIBwgFCAGQbjXwQAQ6gcACyAVIBogEEGI18EAEOoHAAsgE0IENwJIIBNCAjcCQCATIB42AjwgEyAZNgI4IBMgFDYCNCATIBU2AjAgEyAfNgIsIBMgITYCKCATICA2AiQgEyAHIB1BAnRqNgIgIBMgGzYCHCATIAUgHEECdCIUajYCGCATIBs2AhQgEyAJIBRqNgIQIBMgFzYCDCATIAsgHWo2AgggEyAbNgIEIBMgAyAUajYCACAAIBYgFyATEOIBIAEgGEsNAAsLIBNB0ABqJAALggcCBn8SfSAAQQxqIQcDQCAALQCMAiAEIAUgAiAAKAKIAmoQvQQhEiAALQCUAiAEIAUgAiAAKAKQAmoQvQQhEyAALQCcAiAEIAUgAiAAKAKYAmoQvQQhFCAALQCkAiAEIAUgAiAAKAKgAmoQvQQhFSAALQCsAiAEIAUgAiAAKAKoAmoQvQQhFiAALQC0AiAEIAUgAiAAKAKwAmoQvQQhFyAALQC8AiAEIAUgAiAAKAK4AmoQvQQhGCAALQDEAiAEIAUgAiAAKALAAmoQvQQhGSAALQDMAiAEIAUgAiAAKALIAmoQvQQhGiAALQDUAiAEIAUgAiAAKALQAmoQvQQhGyAALQDcAiAEIAUgAiAAKALYAmoQvQQhHCAALQDkAiAEIAUgAiAAKALgAmoQvQQhHUMAAAAAIQxDAAAAACENIAAtANwBIgZBCEcEQCAGIAQgBSACIAAoAtgBahC9BCENCyAALQDkASIGQQhHBEAgBiAEIAUgAiAAKALgAWoQvQQhDAtDAAAAACEOIAAtAOwBIgZBCEcEQCAGIAQgBSACIAAoAugBahC9BCEOC0MAAIA/IQ9DAACAPyEQIAAtAPQBIgZBCEcEQCAGIAQgBSACIAAoAvABahC9BCEQCyAALQD8ASIGQQhHBEAgBiAEIAUgAiAAKAL4AWoQvQQhDwtDAACAPyERIAAtAIQCIgZBCEcEQCAGIAQgBSACIAAoAoACahC9BCERCyAAKAIUIgogACgCDEYEQCMAQSBrIgYkAAJAIAcoAgAiCEG4nI4HSwR/QQAFQQQgCEEBdCIJIAlBBE0bIglByABsIQsgBiAIBH8gBiAIQcgAbDYCHCAGIAcoAgQ2AhRBBAVBAAs2AhggBkEIakEEIAsgBkEUahCFByAGKAIIQQFHDQEgBigCECEHIAYoAgwLIAdB9NrHABCTCQALIAYoAgwhCCAHIAk2AgAgByAINgIEIAZBIGokAAsgACgCECAKQcgAbGoiBiAROAJEIAYgDzgCQCAGIBA4AjwgBiAOOAI4IAYgDDgCNCAGIA04AjAgBiAdOAIsIAYgHDgCKCAGIBs4AiQgBiAaOAIgIAYgGTgCHCAGIBg4AhggBiAXOAIUIAYgFjgCECAGIBU4AgwgBiAUOAIIIAYgEzgCBCAGIBI4AgAgACAKQQFqNgIUIAIgA2ohAiABQQFrIgENAAsL6QQBCX8jAEEgayIHJAACQAJAAkACQAJAIAAtALgBQQFHDQAgACgCrAEgACgCsAEiBkECdCAAKAK0ASIFIAZqQQJ0EOEIIQYgBUECdCIFIAAoAmQiCEsNASAAKAJgIQggByAGELgKIgk2AgAgByAFNgIEIAUgCUcNBCAGIAggBRDgCSAGQYQISQ0AIAYQmwcLIABCADcCsAEgAEG4AWpBADoAAAJAAkAgACgCMEUNACAAKAI0IAFBAnQgASACakECdBDhCCEJAkAgAkECdCIBIAAoAmQiBk0EQCAAIAE2AmQgACgCYCEIIAEhAgwBCyAGIQUgASAGayIKIAAoAlwgBmtLBEAgAEHcAGogBiAKQQRBBBCkBSAAKAJkIQULIAAoAmAiCCAFQQJ0IgxqIQsgCkECTwRAIAEgBkF/c2pBAnQiDQRAIAtBACAN/AsACyACQQR0IAZBAnRrIAhqIAxqQQRrIQsgBSAKakEBayEFCyALQQA2AgAgACAFQQFqIgI2AmQgASACSw0ECyAHIAkQuAoiADYCACAHIAE2AgQgACABRw0FIAggASAJEOEJIAhBCGohCCAEQQJ0IQZBACEAA0AgAEECaiIFIAJPDQUgACAGRg0CIAMgCCgCADsBACAIQRBqIQggA0ECaiEDIAEgAEEEaiIARw0ACyAJQYQISQ0AIAkQmwcLIAdBIGokAA8LIAQgBEGM0sAAEIwHAAtBACAFIAhB/OvAABDqBwALQQAgASACQZzSwAAQ6gcACyAFIAJB/NHAABCMBwALIAdBADYCCEEAIAcgB0EEaiAHQQhqQeD5xAAQ9QcAC+UEAQl/IwBBIGsiByQAAkACQAJAAkACQCAALQC4AUEBRw0AIAAoAqwBIAAoArABIgZBAnQgACgCtAEiBSAGakECdBDhCCEGIAVBAnQiBSAAKAJkIghLDQEgACgCYCEIIAcgBhC4CiIJNgIAIAcgBTYCBCAFIAlHDQQgBiAIIAUQ4AkgBkGECEkNACAGEJsHCyAAQgA3ArABIABBuAFqQQA6AAACQAJAIAAoAjBFDQAgACgCNCABQQJ0IAEgAmpBAnQQ4QghCQJAIAJBAnQiASAAKAJkIgZNBEAgACABNgJkIAAoAmAhCCABIQIMAQsgBiEFIAEgBmsiCiAAKAJcIAZrSwRAIABB3ABqIAYgCkEEQQQQpAUgACgCZCEFCyAAKAJgIgggBUECdCIMaiELIApBAk8EQCABIAZBf3NqQQJ0Ig0EQCALQQAgDfwLAAsgAkEEdCAGQQJ0ayAIaiAMakEEayELIAUgCmpBAWshBQsgC0EANgIAIAAgBUEBaiICNgJkIAEgAksNBAsgByAJELgKIgA2AgAgByABNgIEIAAgAUcNBSAIIAEgCRDhCSAIQQxqIQggBEECdCEGQQAhAANAIABBA2oiBSACTw0FIAAgBkYNAiAAIANqIAgoAgA2AgAgCEEQaiEIIAEgAEEEaiIARw0ACyAJQYQISQ0AIAkQmwcLIAdBIGokAA8LIAQgBEG80sAAEIwHAAtBACAFIAhB/OvAABDqBwALQQAgASACQczSwAAQ6gcACyAFIAJBrNLAABCMBwALIAdBADYCCEEAIAcgB0EEaiAHQQhqQeD5xAAQ9QcAC9QFAQV/IwBBIGsiAiQAAkACQAJAAkACQCAALQAAQQFrDgMBAgMAC0EBIQQgASgCACIDQZCrxwBBBSABKAIEIgYoAgwiBREAAA0DAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBREAAA0FIAMgAC0AAUECdCIAKALolkkgACgCqJZJIAURAABFDQEMBQsgA0HbgcIAQQIgBREAAA0EIAIgBjYCFCACIAM2AhAgAkEBOgAAIAAtAAFBAnQiACgCqJdJIQEgACgC6JdJIQAgAiACNgIYIAJBEGoiBiAAIAEQrwMNBCAGQdmBwgBBAhCvAw0ECyADQd6OyABBASAFEQAAIQQMAwtBASEEIAEoAgAiA0GVq8cAQQQgASgCBCIGKAIMIgURAAANAgJAIAEtAApBgAFxRQRAIANBu7PFAEEBIAURAAANBCAAQQhqKAIAIABBDGooAgAgARC1AkUNAQwECyADQduBwgBBAiAFEQAADQMgAkEBOgAPIAIgBjYCBCACIAM2AgAgAkHggcIANgIUIAIgASkCCDcCGCAAQQhqKAIAIABBDGooAgAgAiACQQ9qNgIIIAIgAjYCECACQRBqELUCDQMgAkHZgcIAQQIQrwMNAwsgA0HejsgAQQEgBREAACEEDAILQQEhBCABKAIAIgNBmavHAEENIAEoAgQiBigCDCIFEQAADQEgAEEEaiEAAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBREAAA0DIAAgARCmAkUNAQwDCyADQduBwgBBAiAFEQAADQIgAkEBOgAPIAIgBjYCBCACIAM2AgAgAkHggcIANgIUIAIgASkCCDcCGCACIAJBD2o2AgggAiACNgIQIAAgAkEQahCmAg0CIAJB2YHCAEECEK8DDQILIANB3o7IAEEBIAURAAAhBAwBCyABKAIAQaarxwBBByABKAIEKAIMEQAAIQQLIAJBIGokACAEC8UFAgV/An4jAEEwayICJAAgASgCDCEGAkACQAJAAkACQCABKAIUIgMgASgCECIFSQRAA0ACQCADIAZqLQAAIgRBCWsOJQAABAQABAQEBAQEBAQEBAQEBAQEBAQEAAQEBAQEBAQEBAQEBAMECyABIANBAWoiAzYCFCADIAVHDQALIAUhAwtBASEEIAIgBiAFIANBAWoiASAFIAEgBUkbEPkBIAIoAgQhASACKAIAIQVBFBBxIgNFDQIgAyAFNgIMIANBBTYCACADIAE2AhAMBAtBASEEIAEgA0EBajYCFCACQQhqIAFBABDHAyACKQMIIghCA1ENAiACKQMQIQcCfwJAAkACQAJAIAinQQFrDgIAAQMLIAdCgICAgBBUDQEgAkEBOgAYIAIgBzcDICACQRhqIAJBL2pBqOfAABDeBgwDCyAHQoCAgIAQVA0AIAJBAjoAGCACIAc3AyAgAkEYaiACQS9qQajnwAAQ3gYMAgsgB6chA0EAIQQMBQsgAkEDOgAYIAIgBzcDICACQRhqIAJBL2pBqOfAABDfBgsgARDrBSEDDAMLIARBMGtB/wFxQQpPBEBBASEEIAEgAkEvakGo58AAEO4BIAEQ6wUhAwwDC0EBIQQgAkEIaiABQQEQxwMgAikDCCIIQgNRBEAgAigCECEDDAMLIAIpAxAhBwJ/AkACQAJAAkAgCKdBAWsOAgABAwsgB0KAgICAEFQNASACQQE6ABggAiAHNwMgIAJBGGogAkEvakGo58AAEN4GDAMLIAdCgICAgBBUDQAgAkECOgAYIAIgBzcDICACQRhqIAJBL2pBqOfAABDeBgwCCyAHpyEDQQAhBAwECyACQQM6ABggAiAHNwMgIAJBGGogAkEvakGo58AAEN8GCyABEOsFIQMMAgsACyACKAIQIQMLIAAgAzYCBCAAIAQ2AgAgAkEwaiQAC8AEAQV/IAEoAgghAwJ/IAEoAgQiAkEQdiIBQf//AXFFBEAgAkGAgHxxDAELIAFB/wdxIQIgAUGAgAJxIQQgAUGA+AFxIgVBgPgBRgRAIARBEHQiBEGAgID8B3IgAkUNARogBCABQQ10ckGAgID+B3IMAQsgBEEQdCIBIAVBDXRBgICA/ABxIAJBDXRyQYCAgMADanIgBQ0AGiACIAJnQRBrIgJB//8DcUEIanRB////A3EgAUGAgIDYA3IgAkEXdGtyCyEGIANBEHYhAQJ/IANB//8BcQRAIANB/wdxIQIgA0GAgAJxIQQgA0GA+AFxIgVBgPgBRwRAIARBEHQiBCAFQQ10QYCAgPwAcSACQQ10ckGAgIDAA2pyIAUNAhogAiACZ0EQayICQf//A3FBCGp0Qf///wNxIARBgICA2ANyIAJBF3RrcgwCCyAEQRB0IgQgAkENdHJBgICA/gdyIAINARogBEGAgID8B3IMAQsgA0EQdAshBSAAAn8gAUH//wFxBEAgAUH/B3EhAyABQYCAAnEhAiABQYD4AXEiBEGA+AFHBEAgAkEQdCIBIARBDXRBgICA/ABxIANBDXRyQYCAgMADanIgBA0CGiADIANnQRBrIgNB//8DcUEIanRB////A3EgAUGAgIDYA3IgA0EXdGtyDAILIAFBDXQgAkEQdCIBckGAgID+B3IgAw0BGiABQYCAgPwHcgwBCyADQYCAfHELvhCJBDgCCCAAIAW+EIkEOAIEIAAgBr4QiQQ4AgAL5wQCB38BewJAAkAgACgCCCIHQYCAgMABcUUNAAJAAkACQAJAIAdBgICAgAFxBEAgAC8BDiIDDQFBACECDAILIAJBEE8EQCABIAIQxwIhAwwECyACRQRAQQAhAgwECyACQQNxIQUCQCACQQRJBEAMAQsgAkEMcSEGA0AgAyABIARq/VwAAP0Mv7+/v7+/v7+/v7+/v7+/v/0nIgr9GwBBAXFqIAr9hwH9pwEiCv0bAWsgCv0bAmsgCv0bA2shAyAGIARBBGoiBEcNAAsLIAVFDQMgASAEaiEEA0AgAyAELAAAQb9/SmohAyAEQQFqIQQgBUEBayIFDQALDAMLIAEgAmohCUEAIQIgASEEIAMhBQNAIAQiBiAJRg0CAn8gBEEBaiAELAAAIghBAE4NABogBkECaiAIQWBJDQAaIAZBA2ogCEFwSQ0AGiAGQQRqCyIEIAZrIAJqIQIgBUEBayIFDQALC0EAIQULIAMgBWshAwsgAyAALwEMIgRPDQAgBCADayEGQQAhA0EAIQUCQAJAAkAgB0EddkEDcUEBaw4CAAECCyAGIQUMAQsgBkH+/wNxQQF2IQULIAdB////AHEhCCAAKAIEIQcgACgCACEAA0AgA0H//wNxIAVB//8DcUkEQEEBIQQgA0EBaiEDIAAgCCAHKAIQEQIARQ0BDAMLC0EBIQQgACABIAIgBygCDBEAAA0BIAYgBWtB//8DcSEBQQAhAwNAIAEgA0H//wNxTQRAQQAPCyADQQFqIQMgACAIIAcoAhARAgBFDQALDAELIAAoAgAgASACIAAoAgQoAgwRAAAhBAsgBAvoBQMIfwV9BHsCQAJAAkACQEGACBBxIgUEQCADQQJ2IQr9DAAAAAABAAAAAgAAAAMAAAAhEQNAIAQgBWoiByAR/fsB/QwAAH9DAAB/QwAAf0MAAH9DIhL95wH9DAAAAL8AAAC/AAAAvwAAAL8iE/3kAf0M8wS1P/MEtT/zBLU/8wS1PyIU/eYB/QsCACAHQRBqIBH9DAQAAAAEAAAABAAAAAQAAAD9rgH9+wEgEv3nASAT/eQBIBT95gH9CwIAIBH9DAgAAAAIAAAACAAAAAgAAAD9rgEhESAEQSBqIgRBgAhHDQALIANBBEkNBEEAIQQDQAJAAkACQAJAIAEgBEsEQCAEQQFqIgcgAU8NASAEQQJqIgggAU8NAkMAAIA/IAUgACAEaiIGLQAAQQJ0aioCACIOIA6UIAUgBkEBai0AAEECdGoqAgAiDyAPlJIgBSAGQQJqLQAAQQJ0aioCACIQIBCUkpNDAAAAABDgCCEMAkAgASAEQQNqIglLBEAgDJEhDSAOIQwgBkEDai0AACIGQfwBayILDgIGAQULIAkgAUGE78cAEIwHAAsgDSEMDAQLIAQgAUHU7scAEIwHAAsgByABQeTuxwAQjAcACyAIIAFB9O7HABCMBwALIA8hDAsgAyAETQ0CIAIgDDgCACADIAdNDQMgAkEEaiAPIA0gECALQQJGGyAGQf4BSRs4AgAgAyAITQ0EIAJBCGogDSAQIAZB/wFGGzgCACADIAlLBEAgAkEMaiAOIA0gCxs4AgAgAkEQaiECIARBBGohBCAKQQFrIgoNAQwGCwsgCSADQcTvxwAQjAcLAAsgBCADQZTvxwAQjAcACyAHIANBpO/HABCMBwALIAggA0G078cAEIwHAAsCQCAFQQRrKAIAIgBBeHFBhAhBiAggAEEDcSIBG08EQCABQQAgAEGoCE8bDQEgBRCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC8YEAQp/IwBBIGsiBCQAIARBADYCCCAEQQA2AhxBBCEGIARBDGohCCAEQRxqIQsCQAJAAkACQAJAAn8gAiABayIFQRFJBEAgCCEJIAsMAQsgBCAEQQhqQX8gBUECdkEBa2d2QQFqEPUDIAQoAgAiA0GBgICAeEcEQCADDQJB2JXHAEERQdTMxwAQ6wcACyAEKAIcIgZBBUkEQCAGIQMgCCEJQQQhBiALDAELIAQoAgwhAyAEKAIQIQkgCAshCiADIAZPDQIgBUEDcSAFQQJ2IgUgBiADQX9zaiIHIAUgB0kbIgdBB01yDQEgA0ECdCAJaiIFIAFrQRBJDQEgAyAHQQFqIgcgB0EDcSIHQQQgBxtrIgxqIQMgASAMQQJ0agNAIAUgAf0AAgD9CwIAIAFBEGohASAFQRBqIQUgDEEEayIMDQALIQEMAQsACyAJIANBAnRqIQUDQCABIAJGDQIgBSABKAIANgIAIAVBBGohBSABQQRqIQEgBiADQQFqIgNHDQALIAYhAwsgCiADNgIAIAEgAkYNAQNAAn8gBCgCHCIGQQVJBEAgBiEFIAghCkEEIQYgCwwBCyAEKAIMIQUgBCgCECEKIAgLIQMgASgCACEJIAUgBkYEQCAEQQhqENQGIAQoAgwhBSAEKAIQIQogCCEDCyAKIAVBAnRqIAk2AgAgAyADKAIAQQFqNgIAIAFBBGoiASACRw0ACwwBCyAKIAM2AgALIAAgBP0AAgj9CwIAIABBEGogBEEYaikCADcCACAEQSBqJAALtgQBBH8gAS8BHiECAn8gAS8BHCIEQf//AXFFBEAgBEEQdAwBCyAEQf8HcSEDIARBgIACcSEFIARBgPgBcSIEQYD4AUYEQCAFQRB0IgRBgICA/AdyIANFDQEaIAQgA0ENdHJBgICA/gdyDAELIAVBEHQiBSAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2pyIAQNABogAyADZ0EQayIDQf//A3FBCGp0Qf///wNxIAVBgICA2ANyIANBF3RrcgshBSABLwEgIQECfyACQf//AXEEQCACQf8HcSEDIAJBgIACcSEEIAJBgPgBcSICQYD4AUcEQCAEQRB0IgQgAkENdEGAgID8AHEgA0ENdHJBgICAwANqciACDQIaIAMgA2dBEGsiAkH//wNxQQhqdEH///8DcSAEQYCAgNgDciACQRd0a3IMAgsgBEEQdCICIANBDXRyQYCAgP4HciADDQEaIAJBgICA/AdyDAELIAJBEHQLIQMgAAJ/IAFB//8BcQRAIAFB/wdxIQAgAUGAgAJxIQIgAUGA+AFxIgFBgPgBRwRAIAJBEHQiAiABQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2pyIAENAhogACAAZ0EQayIAQf//A3FBCGp0Qf///wNxIAJBgICA2ANyIABBF3RrcgwCCyACQRB0IgEgAEENdHJBgICA/gdyIAANARogAUGAgID8B3IMAQsgAUEQdAu+EIkE/RMgBb4QiQT9IAAgA74QiQT9IAH9CwQAC/gDAQd/IABBvAJqEMACAkACQCAAKAKwAiIBBEAgACgCtAIiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsCQCAAKAKQAUECRg0AIAAoAvgBIQMgACgC/AEiAgRAIANBJGohAQNAIAFBBGsoAgAiBEGAgICAeHJBgICAgHhHBEAgASgCACIGQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyAEakkNBCAFQQAgByAEQSdqSxsNBSAGEKICCyABQTBqIQEgAkEBayICDQALCyAAKAL0ASIBBEAgA0EEaygCACICQXhxIgQgAUEwbCIBQQRBCCACQQNxIgIbckkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAKAAiIBQYCAgIB4ckGAgICAeEYNACAAKAKEAiIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAoAgBBAkYNACAAKAJcIgFFDQAgACgCYCIAQQRrKAIAIgNBeHEiAiABQShsIgFBBEEIIANBA3EiAxtqSQ0BIANBACACIAFBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL9QMBB38gAEH4AWoQ9gICQAJAIAAoAvgCIgEEQCAAKAL8AiIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAoAgBBAkYNACAAKAJoIQMgACgCbCICBEAgA0EkaiEBA0AgAUEEaygCACIEQYCAgIB4ckGAgICAeEcEQCABKAIAIgZBBGsoAgAiBUF4cSIHQQRBCCAFQQNxIgUbIARqSQ0EIAVBACAHIARBJ2pLGw0FIAYQogILIAFBMGohASACQQFrIgINAAsLIAAoAmQiAQRAIANBBGsoAgAiAkF4cSIEIAFBMGwiAUEEQQggAkEDcSICG3JJDQIgAkEAIAQgAUEnaksbDQMgAxCiAgsgACgCcCIBQYCAgIB4ckGAgICAeEYNACAAKAJ0IgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILAkAgACgCiAFBAkYNACAAKALkASIBRQ0AIAAoAugBIgBBBGsoAgAiA0F4cSICIAFBKGwiAUEEQQggA0EDcSIDG2pJDQEgA0EAIAIgAUEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAv1AwEHfyAAQfgBahD1AgJAAkAgACgC2AIiAQRAIAAoAtwCIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILAkAgACgCAEECRg0AIAAoAmghAyAAKAJsIgIEQCADQSRqIQEDQCABQQRrKAIAIgRBgICAgHhyQYCAgIB4RwRAIAEoAgAiBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgBGpJDQQgBUEAIAcgBEEnaksbDQUgBhCiAgsgAUEwaiEBIAJBAWsiAg0ACwsgACgCZCIBBEAgA0EEaygCACICQXhxIgQgAUEwbCIBQQRBCCACQQNxIgIbckkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAJwIgFBgICAgHhyQYCAgIB4Rg0AIAAoAnQiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsCQCAAKAKIAUECRg0AIAAoAuQBIgFFDQAgACgC6AEiAEEEaygCACIDQXhxIgIgAUEobCIBQQRBCCADQQNxIgMbakkNASADQQAgAiABQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC/gDAQd/IABBvAJqEIoCAkACQCAAKAKwAiIBBEAgACgCtAIiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsCQCAAKAKQAUECRg0AIAAoAvgBIQMgACgC/AEiAgRAIANBJGohAQNAIAFBBGsoAgAiBEGAgICAeHJBgICAgHhHBEAgASgCACIGQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyAEakkNBCAFQQAgByAEQSdqSxsNBSAGEKICCyABQTBqIQEgAkEBayICDQALCyAAKAL0ASIBBEAgA0EEaygCACICQXhxIgQgAUEwbCIBQQRBCCACQQNxIgIbckkNAiACQQAgBCABQSdqSxsNAyADEKICCyAAKAKAAiIBQYCAgIB4ckGAgICAeEYNACAAKAKEAiIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAoAgBBAkYNACAAKAJcIgFFDQAgACgCYCIAQQRrKAIAIgNBeHEiAiABQShsIgFBBEEIIANBA3EiAxtqSQ0BIANBACACIAFBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL6gQBB38jAEEgayIEJAAgASgCACIHKAIMIQYCQAJAAkAgBygCFCICIAcoAhAiA0kEQANAIAIgBmotAAAiCEEJayIFQRdLQQEgBXRBk4CABHFFcg0CIAcgAkEBaiICNgIUIAIgA0cNAAsgAyECC0EBIQUgBEEYaiAGIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCHCEDIAQoAhghAUEUEHEiAkUNAiACIAE2AgwgAkECNgIAIAAgAjYCBCACIAM2AhAMAQsgCEHdAEYEQEEAIQUgAEEAOgABDAELAkAgAS0ABEUEQCACQQFqIQIgCEEsRgRAIAcgAjYCFCACIANJBEADQCACIAZqLQAAIgVBCWsiAUEXS0EBIAF0QZOAgARxRXINBCAHIAJBAWoiAjYCFCACIANHDQALIAMhAgtBASEFIAQgBiADIAJBAWoiASADIAEgA0kbEPkBIAQoAgQhAyAEKAIAIQFBFBBxIgJFDQQgAiABNgIMIAJBBTYCACAAIAI2AgQgAiADNgIQDAMLIARBEGogBiADIAIgAyACIANJGxD5ASAEKAIUIQMgBCgCECEBQRQQcSICRQ0DIAIgATYCDCACQQc2AgAgACACNgIEIAIgAzYCEEEBIQUMAgsgAEEBOgABQQAhBSABQQA6AAQMAQsgBUHdAEcEQCAAQQE6AAFBACEFDAELQQEhBSAEQQhqIAYgAyACQQFqIgEgAyABIANJGxD5ASAEKAIMIQMgBCgCCCEBQRQQcSICRQ0BIAIgATYCDCACQRU2AgAgACACNgIEIAIgAzYCEAsgACAFOgAAIARBIGokAA8LAAvlAwEHfyAAKAKwASEBAkACQCAAKAK0ASIFBEAgASECA0AgAkEoaigCACIGBEAgAkEsaigCACIHQQRrKAIAIgRBeHEiA0EEQQggBEEDcSIEGyAGakkNAyAEQQAgAyAGQSdqSxsNBCAHEKICCyACEL8EIAJBOGohAiAFQQFrIgUNAAsLIAAoAqwBIgQEQCABQQRrKAIAIgJBeHEiAyAEQThsIgRBBEEIIAJBA3EiAhtqSQ0BIAJBACADIARBJ2pLGw0CIAEQogILIAAoApgBIgMEQCAAKAKcASIEQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyADakkNASABQQAgAiADQSdqSxsNAiAEEKICCyAAQfAAahC/BCAAKAIoIgNBgICAgHhHBEAgAwRAIAAoAiwiBEEEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgA2pJDQIgAUEAIAIgA0EnaksbDQMgBBCiAgsgABC/BAsgACgCYCIDQYCAgIB4RwRAIAMEQCAAKAJkIgRBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIANqSQ0CIAFBACACIANBJ2pLGw0DIAQQogILIABBOGoQvwQLDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALzwQBB38jAEEQayIGJAACfwJAIAIoAgQiA0UNACAAIAIoAgAgAyABKAIMEQAARQ0AQQEMAQsgAigCDCIDBEAgAigCCCIFIANBDGxqIQcgBkEMaiEIA0ACQAJAAkACQCAFLwEAQQFrDgICAQALAkAgBSgCBCICQcEATwRAIAFBDGooAgAhAwNAQQEgAEGCgsIAQcAAIAMRAAANCBogAkFAaiICQcAASw0ACwwBCyACRQ0DIAFBDGooAgAhAwsgAEGCgsIAIAIgAxEAAEUNAkEBDAULIAAgBSgCBCAFKAIIIAFBDGooAgARAABFDQFBAQwECyAFLwECIQIgCEEAOgAAIAZBADYCCAJAAkAgAkUEQCAGIAJBMHI6AAhBASEDDAELIAJB9v8XaiACQZz/H2pxIAJBmPg3aiACQfCxH2pxcyIEQRF2QQFqIQMgBEGAgChPDQEgBkEIaiADaiIEQQFrIAIgAkEKbiIJQQpsa0EwcjoAACADQQFGDQAgBEECayAJQQpwQTByOgAAIANBAkYNACAEQQNrIAJB5ABuQQpwQTByOgAAIANBA0YNACAEQQRrIAJB6AduQQpwQTByOgAAIANBBEYNACAEQQVrIAJBkM4AbkEwcjoAACADQQVGDQAgBEEGa0EwOgAAIANBBkYNACAEQQdrQTA6AAAgA0EHRg0AIARBCGtBMDoAAAsgACAGQQhqIAMgAUEMaigCABEAAEUNAUEBDAQLQQAgA0EFQcSCwgAQ6gcACyAFQQxqIgUgB0cNAAsLQQALIAZBEGokAAuhBQEGfyMAQSBrIgMkACABKAIMIQUCQAJAAn8CQAJAIAEoAhQiAiABKAIQIgRJBEAgAUEMaiEHA0AgAiAFai0AAEEJayIGQRlLDQJBASAGdEGTgIAEcUUEQCAGQRlHDQMgAUEANgIIIAEgAkEBajYCFCADQRRqIAcgARCCAiADKAIYIQIgAygCFEECRw0EIABBAToAACAAIAI2AgQMBgsgASACQQFqIgI2AhQgAiAERw0ACyAEIQILIANBCGogBSAEIAJBAWoiASAEIAEgBEkbEPkBIAMoAgwhBCADKAIIIQFBFBBxIgJFDQQgAiABNgIMIAJBBTYCACAAIAI2AgQgAEEBOgAAIAIgBDYCEAwDCyABIANBFGpBmMDBABDuAQwBCwJAAn8CQAJAAkACQAJAAkACQAJAIAMoAhwiBEEDaw4JAgkBAAkHCQkECQsgAkGUg8EAQQYQ2wcNAkEADAcLIAJBmoPBAEEFENsHDQdBAQwGCyACQZ+DwQBBAxDbBw0CQQIMBQsgAkHB/8AAQQYQ2wcNBUEDDAQLIAJBooPBAEELENsHDQFBBAwDC0EFIAJB+OfAAEEDENsHRQ0CGkEGIAJB++fAAEEDENsHRQ0CGiACQYzswABBAxDbBw0DQQcMAgtBCCACQa2DwQBBCxDbB0UNARogAkG4g8EAQQsQ2wcNAkEJDAELQQogAikAAELz0MX5teybsuUAUQ0AGkELIAIpAABC89DJ+bXsm7LlAFENABpBDCACKQAAQvPQzfm17Juy5QBRDQAaIAIpAABC89D94pbM2LLsAFINAUENCyECIABBADoAACAAIAI6AAEMAgsgAiAEQeSDwQBBDhDMBgsgARDrBSEBIABBAToAACAAIAE2AgQLIANBIGokAA8LAAvIBQEFfyMAQSBrIgIkAAJAAkACQAJAAkAgAC0AAEEBaw4DAQIDAAtBASEEIAEoAgAiA0GQq8cAQQUgASgCBCIGKAIMIgURAAANAwJAIAEtAApBgAFxRQRAIANBu7PFAEEBIAURAAANBSADIAAtAAFBAnQiACgCuJxJIAAoAvibSSAFEQAARQ0BDAULIANB24HCAEECIAURAAANBCACIAY2AhQgAiADNgIQIAJBAToAACAALQABQQJ0IgAoAvicSSEBIAAoAridSSEAIAIgAjYCGCACQRBqIgYgACABEK8DDQQgBkHZgcIAQQIQrwMNBAsgA0HejsgAQQEgBREAACEEDAMLQQEhBCABKAIAIgNBlavHAEEEIAEoAgQiBigCDCIFEQAADQICQCABLQAKQYABcUUEQCADQbuzxQBBASAFEQAADQQgACgCCCAAKAIMIAEQtQJFDQEMBAsgA0HbgcIAQQIgBREAAA0DIAJBAToADyACIAY2AgQgAiADNgIAIAJB4IHCADYCFCACIAEpAgg3AhggAiACQQ9qNgIIIAIgAjYCECAAKAIIIAAoAgwgAkEQahC1Ag0DIAJB2YHCAEECEK8DDQMLIANB3o7IAEEBIAURAAAhBAwCC0EBIQQgASgCACIDQZmrxwBBDSABKAIEIgYoAgwiBREAAA0BIABBBGohAAJAIAEtAApBgAFxRQRAIANBu7PFAEEBIAURAAANAyAAIAEQpgJFDQEMAwsgA0HbgcIAQQIgBREAAA0CIAJBAToADyACIAY2AgQgAiADNgIAIAJB4IHCADYCFCACIAEpAgg3AhggAiACQQ9qNgIIIAIgAjYCECAAIAJBEGoQpgINAiACQdmBwgBBAhCvAw0CCyADQd6OyABBASAFEQAAIQQMAQsgASgCAEGmq8cAQQcgASgCBCgCDBEAACEECyACQSBqJAAgBAu2BAEEfyABLwEYIQQCfyABLwEWIgJB//8BcUUEQCACQRB0DAELIAJB/wdxIQUgAkGAgAJxIQMgAkGA+AFxIgJBgPgBRgRAIANBEHQhAiACQYCAgPwHciAFRQ0BGiACIAVBDXRyQYCAgP4HcgwBCyADQRB0IQMgAkENdEGAgID8AHEgBUENdHJBgICAwANqIANyIAINABogBSAFZ0EQayIFQf//A3FBCGp0Qf///wNxIANBgICA2ANyIAVBF3RrcgshBSABLwEaIQECfyAEQf//AXEEQCAEQf8HcSECIARBgIACcSEDIARBgPgBcSIEQYD4AUcEQCADQRB0IQMgBEENdEGAgID8AHEgAkENdHJBgICAwANqIANyIAQNAhogAiACZ0EQayIEQf//A3FBCGp0Qf///wNxIANBgICA2ANyIARBF3RrcgwCCyADQRB0IQQgBCACQQ10ckGAgID+B3IgAg0BGiAEQYCAgPwHcgwBCyAEQRB0CyEEIAACfyABQf//AXEEQCABQf8HcSECIAFBgIACcSEDIAFBgPgBcSIBQYD4AUcEQCADQRB0IQMgAUENdEGAgID8AHEgAkENdHJBgICAwANqIANyIAENAhogAiACZ0EQayIBQf//A3FBCGp0Qf///wNxIANBgICA2ANyIAFBF3RrcgwCCyADQRB0IQEgASACQQ10ckGAgID+B3IgAg0BGiABQYCAgPwHcgwBCyABQRB0C/0RIAX9HAAgBP0cAf0LBAALoQUCAn8BfiMAQSBrIgIkAAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCACIDQYCAgIB4cyADQQBOG0EBaw4IAQIDBAUGBwgACyABIAJBH2pB6OfAABCVCCEBIABBAToAACAAIAE2AgQMCAsgAEEAOgAAIAAgAS0ABDoAAQwHCyABLwEEIgFB/wFNBEAgACABOgABIABBADoAAAwHCyACQQE6AAggAiABrTcDECAAIAJBCGogAkEfakHo58AAEN4GNgIEIABBAToAAAwGCyABKAIEIgFB/wFNBEAgACABOgABIABBADoAAAwGCyACQQE6AAggAiABrTcDECAAIAJBCGogAkEfakHo58AAEN4GNgIEIABBAToAAAwFCyABKQMIIgRC/wFYBEAgACAEPAABIABBADoAAAwFCyACQQE6AAggAiAENwMQIAAgAkEIaiACQR9qQejnwAAQ3gY2AgQgAEEBOgAADAQLIAEsAAQiAUEASARAIAJBAjoACCACIAGsNwMQIAAgAkEIaiACQR9qQejnwAAQ3gY2AgQgAEEBOgAADAQLIAAgAToAASAAQQA6AAAMAwsgAS8BBCIBQYACTwRAIAJBAjoACCACIAGtwzcDECAAIAJBCGogAkEfakHo58AAEN4GNgIEIABBAToAAAwDCyAAIAE6AAEgAEEAOgAADAILIAEoAgQiAUGAAk8EQCACQQI6AAggAiABrDcDECAAIAJBCGogAkEfakHo58AAEN4GNgIEIABBAToAAAwCCyAAIAE6AAEgAEEAOgAADAELIAACfyABKQMIIgRCgAJaBEAgAkECOgAIIAIgBDcDECAAIAJBCGogAkEfakHo58AAEN4GNgIEQQEMAQsgACAEPAABQQALOgAACyACQSBqJAALxgQCBn8DfgJAIAEoAgBBAUYEQCABKQMQIgpQBEAMAgsgASgCGCIGKAIAIAYpAwgiCyAGKAIEIgWtIgwgCyAMVBunaiEHAkAgBUL/////DyALIAtC/////w9aG6drIgRBACAEIAVNGyIFIAogA60iDCAKIAxUG6ciBCAEIAVLGyIEQQFGBEAgAiAHLQAAOgAADAELIARFDQAgAiAHIAT8CgAACyABIAogBK0iCn03AxAgBiAKIAt8NwMIIARFBEBBACEEDAILQQEgBGshCCADQQFrIQYgASgCJCEJIAEoAiAhByABKAIoIQMDQAJAIAIgAi0AACADQQNyIgVB/v8DcSAFbEGA/gNxQQh2cyIFOgAAIANB/wFxIAkgBSAHc0H/AXFBAnQoAvC9SCAHQQh2cyIHQf8BcWpBhYiiwABsQQFqIglBGHZzQQJ0KALwvUggA0EIdnMhAyAIRQ0AIAhBAWohCCACQQFqIQIgBiIFQQFrIQYgBQ0BCwsgASAJNgIkIAEgBzYCICABIAM2AigMAQsgASkDECIKUARADAELIAEoAhgiBigCACAGKQMIIgsgBigCBCIFrSIMIAsgDFQbp2ohBwJAIAVC/////w8gCyALQv////8PWhunayIEQQAgBCAFTRsiBSAKIAOtIgwgCiAMVBunIgMgAyAFSxsiBEEBRgRAIAIgBy0AADoAAAwBCyAERQ0AIAIgByAE/AoAAAsgASAKIAStIgp9NwMQIAYgCiALfDcDCAsgAEEEOgAAIAAgBDYCBAubBQIFfwF+IwBBMGsiAiQAIAAoAgAhACABKAIAIgNB6LLFAEEBIAEoAgQiBCgCDCIFEQAAIQYgAiAANgIMAkACQAJAAkACQCAGDQACQCABLQAKQYABcUUEQCACQQxqIAEQxAQgAiAAQQFqNgIMRQ0BDAMLIANB3PjHAEEBIAURAAANASACQQE6AB8gAiAENgIUIAIgAzYCECACQeCBwgA2AiQgAiABKQIINwIoIAIgAkEfajYCGCACIAJBEGo2AiAgAkEMaiACQSBqEMQEDQEgAigCIEHZgcIAQQIgAigCJCgCDBEAACACIABBAWo2AgwNAgsCQCABLQAKQYABcQRAIAEpAgAhByACQQE6AB8gAiAHNwIQIAJB4IHCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQxAQNAyACKAIgQdmBwgBBAiACKAIkKAIMEQAAIAIgAEECajYCDEUNAQwECyABKAIAQeeQxgBBAiABKAIEKAIMEQAADQIgAkEMaiABEMQEIAIgAEECajYCDA0DCyABLQAKQYABcQRAIAEoAgAhAyABKAIEIQRBASEAIAJBAToAHyACIAQ2AhQgAiADNgIQIAJB4IHCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQxAQNAyACKAIgQdmBwgBBAiACKAIkKAIMEQAADQUMBAsgASgCAEHnkMYAQQIgASgCBCgCDBEAAA0CQQEhACACQQxqIAEQxAQNBCABKAIEIQQgASgCACEDDAMLIAIgAEEBajYCDAsgAiAAQQJqNgIMC0EBIQAMAQsgA0HpssUAQQEgBCgCDBEAACEACyACQTBqJAAgAAudBQEDfyMAQTBrIgMkAAJAAkACQAJAAkACQAJAAkACQAJAAkBBFSABKAIAIgJBgICAgHhzIAJBAE4bQQxrDgQBAgMEAAsgASADQS9qQbTiwAAQlQghASAAQYCAgIB4NgIAIAAgATYCBAwECyABKAIMIgJBAEgNBCABKAIIIQQCQCACRQRAQQEhAQwBCyACEHEiAUUNBgsgAgRAIAEgBCAC/AoAAAsgACACNgIIIAAgATYCBCAAIAI2AgAMAwsgASgCCCICQQBIDQUgASgCBCEEAkAgAkUEQEEBIQEMAQsgAhBxIgFFDQULIAIEQCABIAQgAvwKAAALIAAgAjYCCCAAIAE2AgQgACACNgIADAILIANBDGogASgCCCICIAEoAgwiARD7AiADKAIMQQFGBEAgAyABNgIgIAMgAjYCHCADQQY6ABggA0EYaiADQS9qQbTiwAAQ3gYhASAAQYCAgIB4NgIAIAAgATYCBAwCCyADKAIUIgJBAEgNBSADKAIQIQQCQCACRQRAQQEhAQwBCyACEHEiAUUNBAsgAgRAIAEgBCAC/AoAAAsgACACNgIIIAAgATYCBCAAIAI2AgAMAQsgA0EMaiABKAIEIgIgASgCCCIBEPsCIAMoAgxBAUYEQCADIAE2AiAgAyACNgIcIANBBjoAGCADQRhqIANBL2pBtOLAABDeBiEBIABBgICAgHg2AgAgACABNgIEDAELIAMoAhQiAkEASA0FIAMoAhAhBAJAIAJFBEBBASEBDAELIAIQcSIBRQ0DCyACBEAgASAEIAL8CgAACyAAIAI2AgggACABNgIEIAAgAjYCAAsgA0EwaiQADwtB2JrIABD/BwsAC0HYmsgAEP8HAAtB2JrIABD/BwALQdiayAAQ/wcAC5MEAQZ/IAMgAyACQQNqQXxxIAJrIghrQQdxQQAgAyAITxsiBWshCQJ/AkACQCADIAVPBEACQCAFRQ0AAn8gBUEBayACIANqIgZBAWsiBC0AACABQf8BcUYNABogAiAJaiIHIARGDQEgBUECayAGQQJrIgQtAAAgAUH/AXFGDQAaIAQgB0YNASAFQQNrIAZBA2siBC0AACABQf8BcUYNABogBCAHRg0BIAVBBGsgBkEEayIELQAAIAFB/wFxRg0AGiAEIAdGDQEgBUEFayAGQQVrIgQtAAAgAUH/AXFGDQAaIAQgB0YNASAFQQZrIAZBBmsiBC0AACABQf8BcUYNABogBCAHRg0BIAVBB2sgBkEHayIELQAAIAFB/wFxRg0AGiAEIAdGDQEgBUF4cgsgCWohBAwDCyAIIAMgAyAISxshBiABQf8BcUGBgoQIbCEFA0AgBiAJIgRJBEAgBEEIayEJQYCChAggAiAEaiIHQQhrKAIAIAVzIghrIAhyQYCChAggB0EEaygCACAFcyIIayAIcnFBgIGChHhxQYCBgoR4Rg0BCwsgAyAESQ0BIAJBAWshAyABQf8BcSECA0BBACAERQ0EGiADIARqIQEgBEEBayEEIAIgAS0AAEcNAAsMAgsgCSADIANBjJ7CABDqBwALQQAgBCADQZyewgAQ6gcAC0EBCyEJIAAgBDYCBCAAIAk2AgALwwQCCn8BfSMAQRBrIgYkAAJAAkAgA0EDbCIHQf////8DSw0AIANBDGwiCEH9////B08NAAJAIAhFBEBBBCEIQQAhBwwBCyAIEHEiCEUNAgsgBkEANgIMIAYgCDYCCCAGIAc2AgQCQAJAAkAgAwRAIAIgA2siB0EAIAIgB08bIQwgASADaiENIAEgA0EBdCIOaiEPIAUgBJNDAAB+Q5UhBUEIIQpBACEHA0AgAiAHRg0EIAEgB2otAAAiCwR9IAQgBSALQQFrQf8BcbOUkhCJBAVDAAAAAAshECAGKAIEIAlGBEAgBkEEakG86McAEPoFIAYoAgghCAsgCCAKakEIayAQOAIAIAYgCUEBaiIJNgIMIAcgDEYNAyAHIA1qLQAAIgsEfSAEIAUgC0EBa0H/AXGzlJIQiQQFQwAAAAALIRAgBigCBCAJRgRAIAZBBGpBvOjHABD6BSAGKAIIIQgLIAggCmpBBGsgEDgCACAGIAlBAWoiCTYCDCAHIA5qIAJPDQIgByAPai0AACILBH0gBCAFIAtBAWtB/wFxs5SSEIkEBUMAAAAACyEQIAYoAgQgCUYEQCAGQQRqQbzoxwAQ+gUgBigCCCEICyAIIApqIBA4AgAgBiAJQQFqIgk2AgwgCkEMaiEKIAMgB0EBaiIHRw0ACwsgACAGKQIENwIAIABBCGogBkEMaigCADYCACAGQRBqJAAPCyADQQF0IAdqIQcMAQsgAyAHaiEHCyAHIAJBrOjHABCMBwALQZzoxwAQ/wcLAAuUBQIFfwF+IwBBMGsiAiQAIAEoAgAiA0HossUAQQEgASgCBCIEKAIMIgURAAAhBiACIAA2AgwCQAJAAkACQAJAIAYNAAJAIAEtAApBgAFxRQRAIAJBDGogARDEBCACIABBAWo2AgxFDQEMAwsgA0Hc+McAQQEgBREAAA0BIAJBAToAHyACIAQ2AhQgAiADNgIQIAJB4IHCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQxAQNASACKAIgQdmBwgBBAiACKAIkKAIMEQAAIAIgAEEBajYCDA0CCwJAIAEtAApBgAFxBEAgASkCACEHIAJBAToAHyACIAc3AhAgAkHggcIANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDEBA0DIAIoAiBB2YHCAEECIAIoAiQoAgwRAAAgAiAAQQJqNgIMRQ0BDAQLIAEoAgBB55DGAEECIAEoAgQoAgwRAAANAiACQQxqIAEQxAQgAiAAQQJqNgIMDQMLIAEtAApBgAFxBEAgASgCACEDIAEoAgQhBEEBIQAgAkEBOgAfIAIgBDYCFCACIAM2AhAgAkHggcIANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDEBA0DIAIoAiBB2YHCAEECIAIoAiQoAgwRAAANBQwECyABKAIAQeeQxgBBAiABKAIEKAIMEQAADQJBASEAIAJBDGogARDEBA0EIAEoAgQhBCABKAIAIQMMAwsgAiAAQQFqNgIMCyACIABBAmo2AgwLQQEhAAwBCyADQemyxQBBASAEKAIMEQAAIQALIAJBMGokACAAC7IEAQV/IwBB0ABrIgQkAAJAAkACQCABIANPBEAgASADRg0BDAMLIARBEGogAiADIAAgARDhAQJAIAQoAhBBAUYEQCAEQRhqIQAgBCgCTCEBIAQoAkghAiAEKAJEIQMgBCgCQCEFIAQoAjRBf0YNASAEQQRqIAAgBSADIAIgAUEAEIgEIAQoAgQhBQwEC0EAIQMCQCAELQAeDQAgBC0AHCEIIAQoAkQhACAEKAJAIQICQCAEKAIUIgFFDQAgACABTQRAIAAgAUYNAQwFCyABIAJqLAAAQUBIDQQLAkAgACABRwRAAn8gASACaiIFLAAAIgNBAEgEQCAFLQABQT9xIQYgA0EfcSEHIAdBBnQgBnIgA0FgSQ0BGiAFLQACQT9xIAZBBnRyIQYgBiAHQQx0ciADQXBJDQEaIAdBEnRBgIDwAHEgBS0AA0E/cSAGQQZ0cnIMAQsgA0H/AXELIQNBASEFIAhBAXENAQJAIANBgAFJDQBBAiEFIANBgBBJDQBBA0EEIANBgIAESRshBQsCQCABIAVqIgFFDQAgACABTQRAIAAgAUcNBwwBCyABIAJqLAAAQUBIDQYLIAAgAUYNASABIAJqLAAAGgwBCyAIQQFxRQ0BC0EBIQMLIAQgAzYCBCAEKAIEIQUMAwsgBEEEaiAAIAUgAyACIAFBARCIBCAEKAIEIQUMAgsgACACIAEQ2wdFIQUMAQsgAiAAIAEgAEHUuMcAELsJAAsgBEHQAGokACAFC9oEAwd/AX0BeyMAQSBrIgUkACAFQQRqIAIQqwYgBSgCCCEJAkACQAJAIAEEQCAFKAIMIQhBASEEA0AgBEECaiIDIAhPDQICQCAIIARBAWtrIgNBACADIAhNGyIDQQFHBH8gA0ECRw0BIARBAWoFIAQLIAhB4NvBABCMBwALIAQgCWoiA0EBay0AALP9EyADLQAAs/0gAf0MAAB/QwAAf0MAAH9DAAB/Q/3nASADQQFqLQAAs0MAAH9DlSIK/SACIAr9IAMhCyADQQJqLQAAs0MAAH9DlbwiA0H///8DcSEGAkAgA0GAgID8B3EiB0GAgID8B0YEQCAGQQ12QYAEQQAgBhtyQYD4AXIhAwwBCyAHQYCAgLgESwRAQYD4ASEDDAELIANBgICAxANPBEAgB0ENdiAGQQ12aiADQQx2IANB/98AcUEAR3FqQYCAAWohAwwBCyADQYCAgJgDSQRAQQAhAwwBCyAGQYCAgARyIgZB/gAgA0EXdiIHa3YhAyAGQR0gB2siB3ZBAXFFDQAgA0EDIAd0QQFrIAZxQQBHaiEDCyAAQRRqIAM7AQAgBSAL/QsEECAAIAVBEGoQ5QIgBEEEaiEEIABBJGohACABQQFrIgENAAsLIAUoAgQiAARAIAlBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIABqSQ0CIAFBACAEIABBJ2pLGw0DIAkQogILIAJBhAhPBEAgAhCbBwsgBUEgaiQADwsgAyAIQdDbwQAQjAcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvoBAICfgZ/An8CQCAAKQMoIgIgACkDCCIDUg0AIAApAzAiAiAAKQMQIgNSDQBBACAAKQM4IgIgACkDGCIDUQ0BGgsgAiADVAshBQJ/AkAgACkDaCICIAApA0giA1INACAAKQNwIgIgACkDUCIDUg0AIAApA3giAiAAKQNYIgNSDQBBAyEEQcAADAELQQJBAyACIANUIgYbIQRB4ABBwAAgBhsLIQcgACAEQQV0aiEGIAAgBUEBc0EFdGohBAJ/AkAgACAHaiIIKQMIIgIgACAFQQV0aiIAKQMIIgNSDQAgCCkDECICIAApAxAiA1INAEEAIAgpAxgiAiAAKQMYIgNRDQEaCyACIANUCyEHAkACfwJAIAYpAwgiAiAEKQMIIgNSDQAgBikDECICIAQpAxAiA1INACAGKQMYIgIgBCkDGCIDUg0AIAQgCCAHGyEFIAggACAHGyEJIAAgBCAHGwwBCyAIIAAgBxshCSACIANUBEAgACAIIAcbIQAgBiEFDAILIAQgCCAHGyEFIAAgBCAHGwshACAGIQQLAkACQCAFKQMIIgIgACkDCCIDUg0AIAUpAxAiAiAAKQMQIgNSDQAgBSkDGCICIAApAxgiA1INACAFIQYMAQsgACAFIAIgA1QiBxshBiAFIAAgBxshAAsgASAJ/QADAP0LAwAgAUEQaiAJQRBq/QADAP0LAwAgAUEwaiAAQRBq/QADAP0LAwAgASAA/QADAP0LAyAgAUHQAGogBkEQav0AAwD9CwMAIAEgBv0AAwD9CwNAIAFB8ABqIARBEGr9AAMA/QsDACABIAT9AAMA/QsDYAuyBAEMfyABQQFrIQ0gACgCBCEJIAAoAgAhCiAAKAIIIQsCQANAIAYNAQJ/AkAgAiAESQ0AA0AgASAEaiEFAkACQAJAAkACQCACIARrIgZBB00EQCACIARHDQEgAiEEDAcLIAVBA2pBfHEiACAFRg0BIAAgBWshA0EAIQADQCAAIAVqLQAAQQpGDQUgAyAAQQFqIgBHDQALIAMgBkEIayIASw0DDAILQQAhAANAIAAgBWotAABBCkYNBCAGIABBAWoiAEcNAAsgAiEEDAULIAZBCGshAEEAIQMLA0BBgIKECCADIAVqIgcoAgAiDkGKlKjQAHNrIA5yQYCChAggB0EEaigCACIHQYqUqNAAc2sgB3JxQYCBgoR4cUGAgYKEeEcNASADQQhqIgMgAE0NAAsLIAMgBkYEQCACIQQMAwsgAyAFaiEGIAIgA2sgBGshB0EAIQACQANAIAAgBmotAABBCkYNASAHIABBAWoiAEcNAAsgAiEEDAMLIAAgA2ohAAsgACAEaiIDQQFqIQQCQCACIANNDQAgACAFai0AAEEKRw0AQQAhBiAEIgUMAwsgAiAETw0ACwsgAiAIRg0CQQEhBiAIIQUgAgshAAJAIAstAAAEQCAKQbyLwwBBBCAJKAIMEQAADQELQQAhAyAAIAhHBEAgACANai0AAEEKRiEDCyAAIAhrIQAgASAIaiEHIAsgAzoAACAFIQggCiAHIAAgCSgCDBEAAEUNAQsLQQEhDAsgDAvTBAIIfwF7IAJBAnYhBgJAAkAgAkEgSQ0AIAEgAkH8AHEiA2ogAEsgASAAIANqSXENACAA/QAAACELIAAgAf0AAAD9CwAAIAEgC/0LAAACQCAGQRxxIgRBBEYNACAA/QAAECELIAAgAf0AABD9CwAQIAEgC/0LABAgBEEIRg0AIAD9AAAgIQsgACAB/QAAIP0LACAgASAL/QsAICAEQQxGDQAgAP0AADAhCyAAIAH9AAAw/QsAMCABIAv9CwAwCyAEIAZGDQELIAQhByAGQQNxIgMEQCADIARqIQcgACAEQQJ0IghqIQkgASAIaiEIA0AgCSgAACEFIAkgCCgAADYAACAIIAU2AAAgCUEEaiEJIAhBBGohCCADQQFrIgMNAAsLIAQgBmtBfEsNACAHQQJ0IQkgBiAHayEIIAAhAyABIQQDQCADIAlqIgcoAAAhBSAHIAQgCWoiBigAADYAACAGIAU2AAAgBkEEaiIFKAAAIQogBSAHQQRqIgUoAAA2AAAgBSAKNgAAIAdBCGoiBSgAACEKIAUgBkEIaiIFKAAANgAAIAUgCjYAACAGQQxqIgYoAAAhBSAGIAdBDGoiBygAADYAACAHIAU2AAAgA0EQaiEDIARBEGohBCAIQQRrIggNAAsLAkAgAkEDcSIDRQ0AIAEgAkH8AHEiBGohASAAIARqIQAgACADQQFGBH9BAAUgAC8AACEDIAAgAS8AADsAACABIAM7AAAgAkEBcUUNAUECCyIDaiIALQAAIQIgACABIANqIgAtAAA6AAAgACACOgAACwuIBQEGfyMAQSBrIgMkACABKAIMIQUCQAJAAn8CQAJAIAEoAhQiAiABKAIQIgRJBEAgAUEMaiEHA0AgAiAFai0AAEEJayIGQRlLDQJBASAGdEGTgIAEcUUEQCAGQRlHDQMgAUEANgIIIAEgAkEBajYCFCADQRRqIAcgARCCAiADKAIYIQIgAygCFEECRw0EIABBAToAACAAIAI2AgQMBgsgASACQQFqIgI2AhQgAiAERw0ACyAEIQILIANBCGogBSAEIAJBAWoiASAEIAEgBEkbEPkBIAMoAgwhBCADKAIIIQFBFBBxIgJFDQQgAiABNgIMIAJBBTYCACAAIAI2AgQgAEEBOgAAIAIgBDYCEAwDCyABIANBFGpBiMDBABDuAQwBCwJAAn8CQAJAAkACQAJAAkACQAJAAkAgAygCHCIEQQJrDgoCAAoKBgcDCgoBCgtBACACQYKQxgBBAxDbB0UNCBogAkHUhMEAQQMQ2wcNB0EBDAgLQQIgAkHXhMEAQQsQ2wdFDQcaIAJB4oTBAEELENsHDQhBAwwHCyACLwAAQfLwAEcNAUEEDAYLIAIpAABC8vD8otaMm7rhAFINAUEFDAULIAIvAABB8/AARw0FQQYMBAsgAikAAELz8Pyi1oybuuEAUg0EQQcMAwtBCCACQYGFwQBBBhDbB0UNAhogAkGHhcEAQQYQ2wcNA0EJDAILIAJBjYXBAEEHENsHDQJBCgwBC0ELIAJBh7LFAEEDENsHRQ0AGiACQYWQxgBBAxDbBw0BQQwLIQIgAEEAOgAAIAAgAjoAAQwCCyACIARBlIXBAEENEMwGCyABEOsFIQEgAEEBOgAAIAAgATYCBAsgA0EgaiQADwsAC8MEAQZ/IwBBEGsiBSQAIAVBADoACiAFQQA7AQgCQAJAAkACQAJAAkACQAJAIAIoAggiBkECdCADRgRAIAIoAgQhByACKAIAIQQMAQsgBkUEQCAAQRI6AAAgAigCACIARQ0HIAIoAgQiAUEEaygCACICQXhxIgMgAEECdCIAQQRBCCACQQNxIgIbakkNCCACQQAgAyAAQSdqSxsNAiABEKICDAcLIAIoAgAhBCAFIAIoAgQiByAGQQFrIgZBAnQiAmooAAA2AgwgAyACayIIQQRPDQIgCEUNACAFQQhqIAVBDGogCPwKAAALAkAgBCAGTQ0AIARBAnQhAiAGRQRAIAdBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAJqSQ0IIANBACAEIAJBJ2pLGw0EIAcQogJBASEHDAELIAcgAkEBIAZBAnQQuwIiB0UNBAsgASgCBCICBEAgASgCACIDQQRrKAIAIgRBeHEiCSACQQJ0IgJBBEEIIARBA3EiBBtqSQ0HIARBACAJIAJBJ2pLGw0FIAMQogILIAFBeDYCGCABQoCAgIDwHzcDECABQgA3AwggASAGNgIEIAEgBzYCACABIAUvAQg7ASAgASAIOgAjIABBHToAACABQSJqIAUtAAo6AAAMBQtBjI3IAEEuQbyNyAAQ6wcAC0EAIAhBA0GI4sQAEOoHAAtBjI3IAEEuQbyNyAAQ6wcLAAtBjI3IAEEuQbyNyAAQ6wcACyAFQRBqJAAPC0HMjMgAQS5B/IzIABDrBwALrwQBDH8jAEEQayIOJAACQAJAIAMEQCABIAJrIgZBACABIAZPGyERA0AgAiALaiEGAn8CQCALIBFHBEAgACAGQRhsaiIIKAIUIgdBBUkNASAIKAIEIQwgCCgCCAwCCyAGIAFBlMPHABCMBwALIAchDCAIQQRqCyAIQRRqIQ0gCEEEaiEKQfDlyAAgDBsoAgAhDCAIQQRBFCAHQQRLIgYbaigCAARAIAogDSAGG0EANgIACyAFIAtGDQIgBCALQQF0ai8BACEHIA0oAgAiCSEGIAlBBU8EQCAKKAIAIQYLAkAgBiAHTwRAIAYgB00NASAKIA0gCUEESxsiBigCACAHTQ0BIAYgBzYCAAwBCwJAIAcgBmsiDyAJQQQgCUEESyIGGyAKKAIAIAkgBhsiBmtNDQACQCAGIAYgD2oiBksNAEF/IAZBAWtndkEAIAZBAk8bIgZBf0YNACAOQQhqIAggBkEBahD1AyAOKAIIIgZBgYCAgHhGDQEgBg0GC0HYlccAQRFB1MzHABDrBwALA0ACfyANKAIAIglBBUkEQCAJIQcgCiEQQQQhCSANDAELIAgoAgQhByAIKAIIIRAgCgshBiAHIAlGBEAgCBDUBiAIKAIEIQcgCCgCCCEQIAohBgsgECAHQQJ0aiAMNgIAIAYgBigCAEEBajYCACAMQQFqIQwgD0EBayIPDQALCyALQQFqIgsgA0cNAAsLIA5BEGokAA8LIAUgBUGkw8cAEIwHCwALrwQBDH8jAEEQayIOJAACQAJAIAMEQCABIAJrIgZBACABIAZPGyERA0AgAiALaiEGAn8CQCALIBFHBEAgACAGQRhsaiIIKAIUIgdBBUkNASAIKAIEIQwgCCgCCAwCCyAGIAFB5MXHABCMBwALIAchDCAIQQRqCyAIQRRqIQ0gCEEEaiEKQfDlyAAgDBsoAgAhDCAIQQRBFCAHQQRLIgYbaigCAARAIAogDSAGG0EANgIACyAFIAtGDQIgBCALQQF0ai8BACEHIA0oAgAiCSEGIAlBBU8EQCAKKAIAIQYLAkAgBiAHTwRAIAYgB00NASAKIA0gCUEESxsiBigCACAHTQ0BIAYgBzYCAAwBCwJAIAcgBmsiDyAJQQQgCUEESyIGGyAKKAIAIAkgBhsiBmtNDQACQCAGIAYgD2oiBksNAEF/IAZBAWtndkEAIAZBAk8bIgZBf0YNACAOQQhqIAggBkEBahD1AyAOKAIIIgZBgYCAgHhGDQEgBg0GC0HYlccAQRFB1MzHABDrBwALA0ACfyANKAIAIglBBUkEQCAJIQcgCiEQQQQhCSANDAELIAgoAgQhByAIKAIIIRAgCgshBiAHIAlGBEAgCBDUBiAIKAIEIQcgCCgCCCEQIAohBgsgECAHQQJ0aiAMNgIAIAYgBigCAEEBajYCACAMQQFqIQwgD0EBayIPDQALCyALQQFqIgsgA0cNAAsLIA5BEGokAA8LIAUgBUH0xccAEIwHCwAL0wQCB38BfiMAQdAAayIBJAACQCAAEF0iAw0AIAAoAtwEIgJBgYCAgHhGIgRFBEACQAJAIAJBgICAgHhGBEBBACAAIAQbIQUgACgCCCIGQQZ0IQMgACgCBCIHQTxqIQICQANAIAIhBCADRQ0BIANBQGohAyACQUBrIQIgBC0AAEEBRw0ACyAEQTxrIgIoAjggAigCICIERw0DIAQgACgC7AJHDQMLIAZBBnQhAyAHQTxqIQIDQCACIQQgA0UNAiADQUBqIQMgAkFAayECIAQtAABBAkcNAAsgBEE8ayICKAI4IAIoAiBGDQEgAUECNgIsIAFBiKPBADYCKCABQgI3AjQgAUKAgICAECIIIAJBOGqthDcDSCABIAggAkEgaq2ENwNAIAEgAUFAazYCMCABQRxqIgAgAUEoahCxBiAAEI4HIQMMBAsgACgCgAQgACgC+ANGDQAgAUECNgIsIAFB5KLBADYCKCABQgI3AjQgAUKAgICAECIIIABBgARqrYQ3A0ggASAIIABB+ANqrYQ3A0AgASABQUBrNgIwIAFBBGoiACABQShqELEGIAAQjgchAwwDCyAAQfQEahDUASEDDAILIAFBAjYCLCABQeSiwQA2AiggAUICNwI0IAFCgICAgBAiCCACQThqrYQ3A0ggASAIIAVB7AJqrYQ3A0AgASABQUBrNgIwIAFBEGoiACABQShqELEGIAAQjgchAwwBCyABQQA2AjggAUEBNgIsIAFBqKPBADYCKCABQgQ3AjAgAUEoahCSByEDCyABQdAAaiQAIAML0wQCB38BfiMAQdAAayIBJAACQCAAEFwiAw0AIAAoAtwEIgJBgYCAgHhGIgRFBEACQAJAIAJBgICAgHhGBEBBACAAIAQbIQUgACgCCCIGQQZ0IQMgACgCBCIHQTxqIQICQANAIAIhBCADRQ0BIANBQGohAyACQUBrIQIgBC0AAEEBRw0ACyAEQTxrIgIoAjggAigCICIERw0DIAQgACgC7AJHDQMLIAZBBnQhAyAHQTxqIQIDQCACIQQgA0UNAiADQUBqIQMgAkFAayECIAQtAABBAkcNAAsgBEE8ayICKAI4IAIoAiBGDQEgAUECNgIsIAFBiKPBADYCKCABQgI3AjQgAUKAgICAECIIIAJBOGqthDcDSCABIAggAkEgaq2ENwNAIAEgAUFAazYCMCABQRxqIgAgAUEoahCxBiAAEI4HIQMMBAsgACgCgAQgACgC+ANGDQAgAUECNgIsIAFB5KLBADYCKCABQgI3AjQgAUKAgICAECIIIABBgARqrYQ3A0ggASAIIABB+ANqrYQ3A0AgASABQUBrNgIwIAFBBGoiACABQShqELEGIAAQjgchAwwDCyAAQfQEahCjASEDDAILIAFBAjYCLCABQeSiwQA2AiggAUICNwI0IAFCgICAgBAiCCACQThqrYQ3A0ggASAIIAVB7AJqrYQ3A0AgASABQUBrNgIwIAFBEGoiACABQShqELEGIAAQjgchAwwBCyABQQA2AjggAUEBNgIsIAFBqKPBADYCKCABQgQ3AjAgAUEoahCSByEDCyABQdAAaiQAIAMLzgQCB38BfiMAQdAAayIBJAACQCAAEF4iAg0AIAAoApwFIgNBgYCAgHhGIgJFBEACQCADQYCAgIB4RgRAQQAgAEFAayACGyEFIAAoAkgiBkEGdCEEIAAoAkQiB0E8aiEDAkADQCADIQIgBEUNASAEQUBqIQQgAkFAayEDIAItAABBAUcNAAsgAkE8ayIDKAI4IAMoAiAiAkcNAiACIAAoAqwDRw0CCyAGQQZ0IQQgB0E8aiEDA0AgAyEAQQAhAiAERQ0EIARBQGohBCAAQUBrIQMgAC0AAEECRw0ACyAAQTxrIgAoAjggACgCIEYNAyABQQI2AiwgAUGIo8EANgIoIAFCAjcCNCABQoCAgIAQIgggAEE4aq2ENwNIIAEgCCAAQSBqrYQ3A0AgASABQUBrNgIwIAFBHGoiACABQShqELEGIAAQjgchAgwDC0EAIQIgACgCwAQgACgCuARGDQIgAUECNgIsIAFB5KLBADYCKCABQgI3AjQgAUKAgICAECIIIABBwARqrYQ3A0ggASAIIABBuARqrYQ3A0AgASABQUBrNgIwIAFBBGoiACABQShqELEGIAAQjgchAgwCCyABQQI2AiwgAUHkosEANgIoIAFCAjcCNCABQoCAgIAQIgggA0E4aq2ENwNIIAEgCCAFQewCaq2ENwNAIAEgAUFAazYCMCABQRBqIgAgAUEoahCxBiAAEI4HIQIMAQsgAUEANgI4IAFBATYCLCABQaijwQA2AiggAUIENwIwIAFBKGoQkgchAgsgAUHQAGokACACC88EAgd/AX4jAEHQAGsiASQAAkAgABBfIgINACAAKAK8BSIDQYGAgIB4RiICRQRAAkAgA0GAgICAeEYEQEEAIABB4ABqIAIbIQUgACgCaCIGQQZ0IQQgACgCZCIHQTxqIQMCQANAIAMhAiAERQ0BIARBQGohBCACQUBrIQMgAi0AAEEBRw0ACyACQTxrIgMoAjggAygCICICRw0CIAIgACgCzANHDQILIAZBBnQhBCAHQTxqIQMDQCADIQBBACECIARFDQQgBEFAaiEEIABBQGshAyAALQAAQQJHDQALIABBPGsiACgCOCAAKAIgRg0DIAFBAjYCLCABQYijwQA2AiggAUICNwI0IAFCgICAgBAiCCAAQThqrYQ3A0ggASAIIABBIGqthDcDQCABIAFBQGs2AjAgAUEcaiIAIAFBKGoQsQYgABCOByECDAMLQQAhAiAAKALgBCAAKALYBEYNAiABQQI2AiwgAUHkosEANgIoIAFCAjcCNCABQoCAgIAQIgggAEHgBGqthDcDSCABIAggAEHYBGqthDcDQCABIAFBQGs2AjAgAUEEaiIAIAFBKGoQsQYgABCOByECDAILIAFBAjYCLCABQeSiwQA2AiggAUICNwI0IAFCgICAgBAiCCADQThqrYQ3A0ggASAIIAVB7AJqrYQ3A0AgASABQUBrNgIwIAFBEGoiACABQShqELEGIAAQjgchAgwBCyABQQA2AjggAUEBNgIsIAFBqKPBADYCKCABQgQ3AjAgAUEoahCSByECCyABQdAAaiQAIAILtgQBCn8CQAJAIAFBgApJBEAgAUEFdiEHAkACQCAAKAKgASIEBEAgBEEBayECIARBAnQgAGpBBGshBSAEIAdqQQJ0IABqQQRrIQMgBEEpSSEEA0AgBEUNAiACIAdqIgZBKE8NAyADIAUoAgA2AgAgA0EEayEDIAVBBGshBSACQQFrIgJBf0cNAAsLIAFBH3EhBgJAIAFBIEkNACAHQQJ0IgFFDQAgAEEAIAH8CwALIAAoAqABIgUgB2ohASAGRQRAIAAgATYCoAEgAA8LIAFBAWsiA0EnSw0DIAEhBCAAIANBAnRqKAIAQSAgBmsiCHYiA0UNBCABQSdNBEAgACABQQJ0aiADNgIAIAFBAWohBAwFCyABQShBjIPCABCMBwALIAJBKEGMg8IAEIwHAAsgBkEoQYyDwgAQjAcAC0Gcg8IAQR1BjIPCABDrBwALIANBKEGMg8IAEIwHAAsCQCAHQQFqIgogAU8NAAJAIAVBAWsiCUEESQRAIAEhAwwBCyABIAlBfHEiBWshAyABQQJ0IABqQRRrIQIgBSEBA0AgAkEEaiILIAL9AAIAIAj9rQEgC/0AAgAgBv2rAf1Q/QsCACACQRBrIQIgAUEEayIBDQALIAUgCUYNAQsgA0ECdCAAakEIayECA0AgAkEEaiIBIAEoAgAgBnQgAigCACAIdnI2AgAgAkEEayECIAogA0EBayIDSQ0ACwsgACAHQQJ0aiIBIAEoAgAgBnQ2AgAgACAENgKgASAAC+YEAgZ/AX4jAEEwayIDJAAgACgCDCEEAkACQAJAAkACQAJAIAAoAhQiASAAKAIQIgJJBEADQAJAIAEgBGotAAAiBUEJaw4kAAAEBAAEBAQEBAQEBAQEBAQEBAQEBAQABAQEBAQEBAQEBAQGAwsgACABQQFqIgE2AhQgASACRw0ACyACIQELIANBEGogBCACIAFBAWoiACACIAAgAkkbEPkBIAMoAhQhAiADKAIQIQBBFBBxIgFFDQUgASAANgIMIAFBAjYCACABIAI2AhAMBAsgBUHdAEYNAQsgA0EIaiAEIAIgAUEBaiIAIAIgACACSRsQ+QEgAygCDCECIAMoAgghAEEUEHEiAUUNAyABIAA2AgwgAUEWNgIAIAEgAjYCEAwCCyAAIAFBAWo2AhRBACEBDAELIAAgAUEBaiIBNgIUAkAgASACSQRAAn4CQANAIAEgBGotAAAiBkEJayIFQRdLQQEgBXRBk4CABHFFcg0BIAAgAUEBaiIBNgIUIAEgAkcNAAsgAiEBQgAMAQtCgAILIQcgAyAHIAatQhCGhCIHNwMoIAdCgIL0AlINASADQRhqIAQgAiABQQFqIgAgAiAAIAJJGxD5ASADKAIcIQIgAygCGCEAQRQQcSIBRQ0DIAEgADYCDCABQRU2AgAgASACNgIQDAILIANCADcDKAsgA0EgaiAEIAIgAUEBaiIAIAIgACACSRsQ+QEgAygCJCECIAMoAiAhAEEUEHEiAUUNASABIAA2AgwgAUEWNgIAIAEgAjYCECAHQv8Bg1ANACADQShqQQRyELEECyADQTBqJAAgAQ8LAAuVBQIFfwJ+IwBBMGsiAiQAIAEoAgwhBQJAAkACQAJAAkAgASgCFCIDIAEoAhAiBEkEQANAAkAgAyAFai0AACIGQQlrDiUAAAQEAAQEBAQEBAQEBAQEBAQEBAQEBAAEBAQEBAQEBAQEBAQDBAsgASADQQFqIgM2AhQgAyAERw0ACyAEIQMLIAIgBSAEIANBAWoiASAEIAEgBEkbEPkBIAIoAgQhAyACKAIAIQRBFBBxIgFFDQIgASAENgIMIAFBBTYCACAAIAE2AgQgAEEBNgIAIAEgAzYCEAwECyABIANBAWo2AhQgAkEIaiABQQAQxwMgAikDCCIIQgNRDQIgAikDECEHAkACfwJAAkAgCKdBAWsOAgMAAQsgB0IAWQ0CIAJBAjoAGCACIAc3AyAgAkEYaiACQS9qQYjnwAAQ3gYMAQsgAkEDOgAYIAIgBzcDICACQRhqIAJBL2pBiOfAABDfBgsgARDrBSEBIABBATYCACAAIAE2AgQMBAsgAEEANgIAIAAgBzcDCAwDCyAGQTBrQf8BcUEKTwRAIAEgAkEvakGI58AAEO4BIAEQ6wUhASAAQQE2AgAgACABNgIEDAMLIAJBCGogAUEBEMcDIAIpAwgiCEIDUQRAIAAgAigCEDYCBCAAQQE2AgAMAwsgAikDECEHAkACfwJAAkAgCKdBAWsOAgMAAQsgB0IAWQ0CIAJBAjoAGCACIAc3AyAgAkEYaiACQS9qQYjnwAAQ3gYMAQsgAkEDOgAYIAIgBzcDICACQRhqIAJBL2pBiOfAABDfBgsgARDrBSEBIABBATYCACAAIAE2AgQMAwsgAEEANgIAIAAgBzcDCAwCCwALIAAgAigCEDYCBCAAQQE2AgALIAJBMGokAAuJBAACQAJAAkACQAJAAkACQAJAIANB/wFxQQFrDgMBAAMGCyAAIAFyDQEMBAsgAEUNAiAFIAEgAmwgAGpBAnRBAWsiAEsNBSAAIAVByPHEABCMBwALIAFFBEAgBSAAQQJ0QQFrIgBLDQUgACAFQdjxxAAQjAcACyABQQFrIAJsIABqQQJ0QQNyIgAgBUkNBCAAIAVB6PHEABCMBwALAkACQAJ/IAAEQCABRQRAIAUgAEECdEEBayIASwRAIAAgBGotAAAMAwsgACAFQYjyxAAQjAcACwJAIAUgASACbCAAakECdEEBayIDSwRAIAFBAWsgAmwgAGpBAnQiAEEDciIBIAVPDQEgBSAAQQFrIgBLBEAgAyAEai0AACEDIAAgBGotAAAhACABIARqLQAAIQEMBgsgACAFQbjyxAAQjAcACyADIAVBmPLEABCMBwALIAEgBUGo8sQAEIwHAAsgAUUEQEEAIQNBACEBQQAhAAwDCyACIAFBAWtsQQJ0QQNyIgAgBU8NASAAIARqLQAACyIDIgEhAAwBCyAAIAVB+PHEABCMBwALQf8BIAFB/wFxIANB/wFxaiAAQf8BcWsiAEEAIABBAEobIgAgAEH/AU4bDwsgAUUNACAFIAIgAUEBa2xBAnRBA3IiAEsNAiAAIAVBuPHEABCMBwALQQAhAwsgAw8LIAAgBGotAAALrgQCBX8EfiMAQSBrIgIkAEEEIQMgASgCBCIErSEIIAECfgJAIARC/////w8gASkDCCIHIAdC/////w9aG6drIgZBACAEIAZPG0EETwRAIAEoAgAgByAIIAcgCFQbp2ooAAAhBQwBC0GokMgAKQMAIglCCIghCiAJpyEDIAggCUL/AYNCBFINARoLIAdCBHwLIgk3AwgCQCADQf8BcUEERwRAIABBEmogAkEWai8BADsBACACIAOtQv8BgyAKQgiGhDcCDCACQQRqIAJBDWotAAAiAToAACAAIAIpAQ43AQogAiACKAAJIgM2AgAgAEEJaiABOgAAIAAgAzYABSAAQQA6AAQgAEEBNgIADAELIAJBCGpBAXIgBRCYBCACQRxqIAJBDWotAAA6AAAgAiACKAAJIgM2AgAgAiADNgIYAkACQCAEIAkgCCAIIAlWG6ciA2tBBE8EQCABKAIAIANqKAAAIQRBBCEDQgAhBwwBC0EAIQRBqJDIACkDACIKQgiIIQcgCqchAyAKQv8Bg0IEUg0BCyAJQgR8IQgLIAEgCDcDCCADQf8BcUEERwRAIAAgAzoACCAAQQA6AAQgAEEBNgIAIAAgB6ciATsACSAAIAdCGIg+AgwgAEELaiABQRB2OgAADAELIAAgAigCGDYAECAAQQA2AgAgACAErTcDCCAAQRRqIAJBHGotAAA6AAAgAEF/IAQgBEEBcWoiACAAIARJG603AxgLIAJBIGokAAvdBAIHfwF+IwBBEGsiAyQAAkAgAC8BDCICRQRAIAAoAgAgACgCBCABEKEDIQEMAQsgAyAB/QACAP0LAwACQAJ/IAApAggiCaciB0GAgIAIcUUEQCADKAIEDAELIAAoAgAgAygCACADKAIEIgEgACgCBCgCDBEAAA0BIAAgB0GAgID/eXFBsICAgAJyIgc2AgggA0IBNwMAIAIgAUH//wNxayIBQQAgASACTRshAkEACyEIAkAgAygCDCIFRQRADAELIAMoAgghAQNAAn8CQAJAAkACQCABLwEAQQFrDgIBAgALIAFBBGooAgAMAwsgAUECai8BACIEDQFBAQwCCyABQQhqKAIADAELIARB9v8XaiAEQZz/H2pxIARBmPg3aiAEQfCxH2pxc0ERdkEBagsgAUEMaiEBIAZqIQYgBUEBayIFDQALCwJAIAYgCGoiASACQf//A3FJBEAgAiABayEFQQAhAUEAIQICQAJAAkAgB0EddkEDcUEBaw4DAAEAAgsgBSECDAELIAVB/v8DcUEBdiECCyAHQf///wBxIQggACgCBCEGIAAoAgAhBANAIAFB//8DcSACQf//A3FPDQIgAUEBaiEBIAQgCCAGKAIQEQIARQ0ACwwCCyAAKAIAIAAoAgQgAxChAyEBIAAgCTcCCAwCCyAEIAYgAxChAw0AIAUgAmtB//8DcSEFQQAhAgNAIAUgAkH//wNxTQRAQQAhASAAIAk3AggMAwtBASEBIAJBAWohAiAEIAggBigCEBECAEUNAAsgACAJNwIIDAELQQEhAQsgA0EQaiQAIAELogQBB38jAEHQAGsiAiQAIAAgAToAbCAAKAIYIQMgAEGAgICAeDYCGAJAAkAgA0GAgICAeEcEQCACQRxqIABBJGr9AAIA/QsCACACQSxqIABBNGr9AAIA/QsCACACQTxqIABBxABq/QACAP0LAgAgAkHMAGogAEHUAGooAgA2AgAgAiADNgIQIAIgACkCHDcCFCACQQhqIAEgAkEQahDgAgJAIAIoAggiASAAKAIEIAAoAgggAigCDCIDKAIQEQAAIggEQCADKAIAIgAEQCABIAARAwALIAMoAgQiAEUNASABQQRrKAIAIgNBeHEiBUEEQQggA0EDcSIDGyAAakkNAyADQQAgBSAAQSdqSxsNBCABEKICDAELIABBADYCCCAAKAJYIgVBgICAgHhyQYCAgIB4RwRAIAAoAlwiBkEEaygCACIEQXhxIgdBBEEIIARBA3EiBBsgBWpJDQMgBEEAIAcgBUEnaksbDQQgBhCiAgsgAEGAgICAeDYCWAJAIAAoAmQiBUUNACAAKAJoIgYoAgAiBARAIAUgBBEDAAsgBigCBCIGRQ0AIAVBBGsoAgAiBEF4cSIHQQRBCCAEQQNxIgQbIAZqSQ0DIARBACAHIAZBJ2pLGw0EIAUQogILIAAgAzYCaCAAIAE2AmQLIAJB0ABqJAAgCA8LQezgwQAQ3QkAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuGBAEHfwJAAkACQAJAAkACQAJAIAMgBCAFayIGSwRAIAMgBE0NASAEIAVBAXQiCmsiCCADTw0CIAQgBWoiByADTw0DAkAgAiAGai0AACILIAIgBGotAAAiDGsiBiAGQR91IgZzIAZrQQF0Qf4DcSACIAhqLQAAIgYgAiAHai0AACIIayIHIAdBH3UiB3MgB2tBAXZqIAFB/wFxSw0AIAQgBUECdGsiASADTw0FIAQgBUEDbCIHayIFIANPDQYgAEH/AXEiACABIAJqLQAAIAIgBWotAAAiAWsiBSAFQR91IgVzIAVrSQ0AIAAgASAGayIBIAFBH3UiAXMgAWtB/wFxSQ0AIAYgC2siASABQR91IgFzIAFrQf8BcSAASw0AIAQgB2oiASADTw0HIAQgCmoiBCADTw0IIAAiAyABIAJqLQAAIAIgBGotAAAiAWsiAiACQR91IgJzIAJrSQ0AIAMgASAIayIBIAFBH3UiAXMgAWtB/wFxSQ0AIAggDGsiACAAQR91IgBzIABrQf8BcSADTSEJCyAJDwsgBiADQYjXxAAQjAcACyAEIANBmNfEABCMBwALIAggA0Go18QAEIwHAAsgByADQbjXxAAQjAcACyABIANByNbEABCMBwALIAUgA0HY1sQAEIwHAAsgASADQejWxAAQjAcACyAEIANB+NbEABCMBwALuAQBCH8jAEEQayIDJAAgAyABNgIEIAMgADYCACADQqCAgIAONwIIAn8CQAJAAkAgAigCECIJBEAgAigCFCIADQEMAgsgAigCDCIARQ0BIAIoAggiASAAQQN0IgBqIQQgAEEIa0EDdkEBaiEGIAIoAgAhAANAAkAgAEEEaigCACIFRQ0AIAMoAgAgACgCACAFIAMoAgQoAgwRAABFDQBBAQwFC0EBIAEoAgAgAyABQQRqKAIAEQIADQQaIABBCGohACAEIAFBCGoiAUcNAAsMAgsgAEEYbCEKIABBAWtB/////wFxQQFqIQYgAigCCCEEIAIoAgAhAANAAkAgAEEEaigCACIBRQ0AIAMoAgAgACgCACABIAMoAgQoAgwRAABFDQBBAQwEC0EAIQdBACEIAkACQAJAIAUgCWoiAUEIai8BAEEBaw4CAQIACyABQQpqLwEAIQgMAQsgBCABQQxqKAIAQQN0ai8BBCEICwJAAkACQCABLwEAQQFrDgIBAgALIAFBAmovAQAhBwwBCyAEIAFBBGooAgBBA3RqLwEEIQcLIAMgBzsBDiADIAg7AQwgAyABQRRqKAIANgIIQQEgBCABQRBqKAIAQQN0aiIBKAIAIAMgASgCBBECAA0DGiAAQQhqIQAgBUEYaiIFIApHDQALDAELCwJAIAYgAigCBE8NACADKAIAIAIoAgAgBkEDdGoiACgCACAAKAIEIAMoAgQoAgwRAABFDQBBAQwBC0EACyADQRBqJAALpQQCBX8EfSABKAIAIgIgASgCBEYEf0EABSABIAJBBGo2AgACfwJAIAIoAgAiAiABKAIIIgEoAggiA0kEQCABKAIEIAJBGGxqIgJBEWovAAAgAkETai0AACIDQRB0ciIEQQh2IQVDAAAQQSABKgJIIAEtAFhBAkYiBhshCEMAAEDBIAEqAkQgBhshByAEQf8BcQRAIAcgCCAHk0MAAH5DlSAEQQFrQf8BcbOUkhCJBCEJCyAFQf8BcQRAIAcgCCAHk0MAAH5DlSAFQQFrQf8BcbOUkhCJBCEKCyADBH0gByAIIAeTQwAAfkOVIANBAWtB/wFxs5SSEIkEBUMAAAAACyEHIAJBDGovAQAiAkH//wFxRQRAIAJBEHQMAwsgAkH/B3EhASACQYCAAnEhAyACQYD4AXEiAkGA+AFGBEAgA0EQdCICQYCAgPwHciABRQ0DGiACIAFBDXRyQYCAgP4HcgwDCyADQRB0IQMgAkUNASACQQ10QYCAgPwAcSABQQ10ckGAgIDAA2ogA3IMAgsgAiADQdy7xwAQjAcACyABIAFnQRBrIgFB//8DcUEIanRB////A3EgA0GAgIDYA3IgAUEXdGtyCyEBIAkgCpRDj8LNPxC3CiEIIAkgB5RDj8LNPxC3CiEJIAogB5RDj8LNPxC3CiAIIAmSkkMAAEBAlUPmQB8/ELcKQ9sPSUGUIAG+lCEHQQELIQEgACAHOAIEIAAgATYCAAu8BAMBfg5/AXsjAEEgayIEJAAgAf0AAxAhEQJAAkACfyABKAIEIgpFBEBB6JrIACELQQAhCkEADAELAkACQAJAIApBAWqtQhR+IgJCIIinDQAgAqdBB2pBeHEiBSAKQQlqIghqIgMgBUkgA0H4////B0tyDQAgAw0BQQghAwwCCyAEQQA2AhggBEEBNgIMIARBxLXEADYCCCAEQgQ3AhAgBEEIakGYtcQAEI0IDAQLIAMQcSIDRQ0DCyADIAVqIQsgASgCACEJIAgEQCALIAkgCPwKAAALIAEoAgwiDQRAIAtBFGshECAJQQhqIQMgCSkDAEJ/hUKAgYKEiJCgwIB/gyECIA0hCCAJIQUDQCACUARAA0AgBUGgAWshBSADKQMAIANBCGohA0KAgYKEiJCgwIB/gyICQoCBgoSIkKDAgH9RDQALIAJCgIGChIiQoMCAf4UhAgsgCSAFIAJ6p0EDdkFsbGoiDGtBbG0hBiAMQQxrKAIAIgdBAEgNAyAMQRBrKAIAIQ4CQCAHRQRAQQEhDwwBCyAHEHEiD0UNBQsgBwRAIA8gDiAH/AoAAAsgAkIBfSACgyECIAxBCGsoAgAhDiAQIAZBFGxqIgYgDEEEay0AADoAECAGIA42AgwgBiAHNgIIIAYgDzYCBCAGIAc2AgAgCEEBayIIDQALCyABKAIICyEDIAAgDTYCDCAAIAM2AgggACAKNgIEIAAgCzYCACAAIBH9CwMQIARBIGokAA8LQaTvwQAQ/wcACwALvgQBBn8jAEEwayIDJAAgAyACNgIIIAMgATYCBCADQSBqIANBBGoQ7QMCQAJAAkAgAygCICIGBEAgAygCJCEBIAMoAixFBEAgACABNgIIIAAgBjYCBCAAQYCAgIB4NgIADAQLIAJBAEgNAQJAIAJFBEBBASEEDAELIAIQcSIERQ0DCyADQQA2AhQgAyAENgIQIAMgAjYCDCABIAJLBEAgA0EMakEAIAEQ9wUgAygCECEEIAMoAhQhBSADKAIMIQILIAEEQCAEIAVqIAYgAfwKAAALIAMgASAFaiIBNgIUIAIgAWtBAk0EQCADQQxqIAFBAxD3BSADKAIQIQQgAygCFCEBCyABIARqIgJBxPnHAC8AACIFOwAAIAJBAmpBxvnHAC0AACIGOgAAIAMgAUEDaiICNgIUIAMgAykCBDcCGANAAkAgA0EgaiADQRhqEO0DIAMoAiAiB0UNACADKAIsIAMoAiQiASADKAIMIAJrSwRAIANBDGogAiABEPcFIAMoAhAhBCADKAIUIQILIAEEQCACIARqIAcgAfwKAAALIAMgASACaiICNgIURQ0BIAMoAgwgAmtBAk0EQCADQQxqIAJBAxD3BSADKAIQIQQgAygCFCECCyACIARqIgEgBTsAACABQQJqIAY6AAAgAyACQQNqIgI2AhQMAQsLIAAgAykCDDcCACAAQQhqIANBFGooAgA2AgAMAwsgAEEANgIIIABCgICAgBg3AgAMAgtBlO7BABD/BwsACyADQTBqJAAL2QQDBX8BewZ9IwBBEGsiBSQAAkACQAJAAkAgA0ECdCIGQf////8DSw0AIANBBHQiB0H9////B08NAAJAIAdFBEBBBCEIQQAhBgwBCyAHEHEiCEUNAgsgBUEANgIMIAUgCDYCCCAFIAY2AgQCQCADBEBBACEGQQAhBwNAIAIgBk0NBSAGQQFqIgQgAk8NBiAGQQJqIgQgAk8NAkMAAIA/IAEgBmoiBC0AALP9EyAEQQFqLQAAs/0gAf0MAAB/QwAAf0MAAH9DAAB/Q/3nASIJIAn95AH9DAAAgL8AAIC/AACAvwAAgL/95AEiCf0fACIKi5MgCf0fASINi5MiC4xDAAAAABDgCCEMIARBAmotAACzQwAAf0OVQwAAAD+UQ9sPSUCUIg4QmQIiDyALIAsgC5QgCiAMIAyMIgogCf0MAAAAAAAAAAAAAAAAAAAAAP1G/U0iCf0bAEEBcRuSIgsgC5QgDSAMIAogCf3HAf0bAkEBcRuSIgwgDJSSkpEiCpWUIQ0gBSgCBCAOEJsCIQ4gB2tBA00EQCAFQQRqIAdBBEEEQQQQpAUgBSgCCCEIIAUoAgwhBwsgCCAHQQJ0aiIEIA44AgwgBCANOAIIIAQgDyAMIAqVlDgCBCAEIA8gCyAKlZQ4AgAgBSAHQQRqIgc2AgwgBkEDaiEGIANBAWsiAw0ACwsgACAFKQIENwIAIABBCGogBUEMaigCADYCACAFQRBqJAAPCyAEIAJBvOvHABCMBwALQYzrxwAQ/wcLAAsgBiACQZzrxwAQjAcACyAEIAJBrOvHABCMBwALuAMBBH8gABCdAQJAAkAgACgC8AMiAgRAIAAoAvQDIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIAAoAogEIgJBgoCAgHhIIAJFckUEQCAAKAKMBCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAL8AyICBEAgACgCgAQiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsCQCAAKAKoBCICRQ0AIAAoAqwEIgMoAgAiAQRAIAIgAREDAAsgAygCBCIDRQ0AIAJBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIANqSQ0BIAFBACAEIANBJ2pLGw0CIAIQogILIAAoArAEIgIEQCAAKAK0BCIAQQRrKAIAIgNBeHEiAUEEQQggA0EDcSIDGyACakkNASADQQAgASACQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC4kJAg9/AX4jAEEwayIHJAACQAJAAkACQAJAIAEoAhQiBSABKAIQIghJBEAgASAFQQFqIgQ2AhQgASgCDCIGIAVqLQAAIgNBMEcNAiAEIAhJBEAgBCAGai0AAEEwa0H/AXFBCkkNAgsgACABIAJCABCvAgwFCyAHQRhqIAEoAgwgCCAFEPkBIAcoAhwhAiAHKAIYIQFBFBBxIgNFDQIgAyABNgIMIANBBTYCACAAIAM2AgggAEIDNwMAIAMgAjYCEAwECyAHQQhqIAYgCCAFQQJqIgEgCCABIAhJGxD5ASAHKAIMIQIgBygCCCEBQRQQcSIDRQ0BIAMgATYCDCADQQ02AgAgACADNgIIIABCAzcDACADIAI2AhAMAwsgA0Exa0H/AXFBCU8EQCAHQRBqIAYgCCAEEPkBIAcoAhQhAiAHKAIQIQFBFBBxIgNFDQEgAyABNgIMIANBDTYCACAAIAM2AgggAEIDNwMAIAMgAjYCEAwDCyADQTBrrUL/AYMhEiAEIAhPDQEDQCAEIAZqLQAAQTBrIgVB/wFxIgNBCk8NAiADQQVLIBJCmbPmzJmz5swZUnIgEkKZs+bMmbPmzBlacUUEQCABIARBAWoiBDYCFCASQgp+IAWtQv8Bg3whEiAEIAhHDQEMAwsLIAdBIGohCUEAIQYjAEEQayILJAACQAJAAkACQAJAIAEiBSgCECIKIAEoAhQiA00NACAKIANrIQEgBSgCDCEMIAMhBANAIAQgDGotAAAiCEEwa0H/AXFBCk8EQCAIQS5GDQMgCEHFAEcgCEHlAEdxDQIgCSAFIAIgEiAGEO4DDAQLIAUgBEEBaiIENgIUIAZBAWoiBiABRw0ACyABIQYLIAkgBSACIBIgBhDwBAwBCyAFIARBAWoiBDYCFAJAIAQgCk8NACAGIAxqIQ4gBCAKayEPIAMgCmsgBmpBAWohEEEAIQQCQANAIAMgBmohDSADIA5qQQFqLQAAIhFBMGsiCEH/AXEiAUEKTwRAIARFBEAgDUEBaiEEDAQLIAQgBmohASARQSByQeUARwRAIAkgBSACIBIgARDwBAwFCyAJIAUgAiASIAEQ7gMMBAsgAUEFSyASQpmz5syZs+bMGVJyIBJCmLPmzJmz5swZVnENASAFIA1BAmo2AhQgA0EBaiEDIBJCCn4gCK1C/wGDfCESIBAgBEEBayIERw0ACyAJIAUgAiASIAYgD2oQ8AQMAgsgCSAFIAIgEiAEIAZqEOgGDAELIAtBCGogDCAKIARBAWoiASAKIAEgCkkbEPkBIAsoAgwhAiALKAIIIQFBFBBxIQMgBCAKSQRAIANFDQIgAyABNgIMIANBDTYCACAJIAM2AgQgCUEBNgIAIAMgAjYCEAwBCyADRQ0BIAMgATYCDCADQQU2AgAgCSADNgIEIAlBATYCACADIAI2AhALIAtBEGokAAwBCwALIAcoAiBBAUYEQCAAIAcoAiQ2AgggAEIDNwMADAMLIAAgBysDKDkDCCAAQgA3AwAMAgsACyAAIAEgAiASEK8CCyAHQTBqJAALwwQCBn8BfgJ/IAFFBEAgACgCCCEGQS0hCyAFQQFqDAELQStBgIDEACAAKAIIIgZBgICAAXEiARshCyABQRV2IAVqCyEHAkAgBkGAgIAEcUUEQEEAIQIMAQsCf0EAIANFDQAaIAIsAABBv39KIgEgA0EBRg0AGiABIAIsAAFBv39KagsgB2ohBwsCQCAALwEMIgkgB0sEQAJAAkAgBkGAgIAIcUUEQCAJIAdrIQlBACEBQQAhBwJAAkACQCAGQR12QQNxQQFrDgMAAQACCyAJIQcMAQsgCUH+/wNxQQF2IQcLIAZB////AHEhCiAAKAIEIQggACgCACEAA0AgAUH//wNxIAdB//8DcU8NAkEBIQYgAUEBaiEBIAAgCiAIKAIQEQIARQ0ACwwECyAAIAApAggiDKdBgICA/3lxQbCAgIACcjYCCEEBIQYgACgCACIIIAAoAgQiCiALIAIgAxDzBw0DQQAhASAJIAdrQf//A3EhAgNAIAFB//8DcSACTw0CIAFBAWohASAIQTAgCigCEBECAEUNAAsMAwtBASEGIAAgCCALIAIgAxDzBw0CIAAgBCAFIAgoAgwRAAANAiAJIAdrQf//A3EhAkEAIQEDQCACIAFB//8DcU0EQEEADwsgAUEBaiEBIAAgCiAIKAIQEQIARQ0ACwwCCyAIIAQgBSAKKAIMEQAADQEgACAMNwIIQQAPC0EBIQYgACgCACIBIAAoAgQiACALIAIgAxDzBw0AIAEgBCAFIAAoAgwRAAAhBgsgBgu7BAIGfwV9IAAgASACEMwDAkACQAJAIAIEQCAAKAJgQQxqIQEgACoCjAEgACoCiAEiDpMhDyAAKAJkIQlBASEGA0AgB0EDaiAJTw0CIAZBAWsiBSAETwRAIAUhBgwFCyAEIAVrIgVBACAEIAVPGyIFQQFGDQQgBUECRg0DIANBCGoqAgAhCyADQQRqKgIAIQxBACEFQQAhCCADKgIAIg1DAAAAAF9FBEBB/wFDAACAP0MAAAAAIA0QxgUgDpMgD5UiDSANQwAAAABdGyINIA1DAACAP14bQwAAfkOUELkHIg38AUEAIA1DAAAAAGAbIA1DAAB/Q14bQQFqQf8BcSEICyAMQwAAAABfRQRAQf8BQwAAgD9DAAAAACAMEMYFIA6TIA+VIgwgDEMAAAAAXRsiDCAMQwAAgD9eG0MAAH5DlBC5ByIM/AFBACAMQwAAAABgGyAMQwAAf0NeG0EBakH/AXFBCHQhBQsgASALQwAAAABfBH8gCgVB/wFDAACAP0MAAAAAIAsQxgUgDpMgD5UiCyALQwAAAABdGyILIAtDAACAP14bQwAAfkOUELkHIgv8AUEAIAtDAAAAAGAbIAtDAAB/Q14bQQFqQf8BcUEQdAsgBSAIcnIgAS0AA0EYdHI2AgAgAUEQaiEBIAdBBGohByAGQQNqIQYgA0EMaiEDIAJBAWsiAg0ACwsgAEEBOgC4AQ8LIAcgB0EEaiAJQdThwAAQ6gcACyAGQQFqIQYLIAYgBEHk4cAAEIwHAAvOBAMFfwN7B30CQAJAAkACQAJAAkACQAJAAkAgB0EDTwRAIAdBA24hCSABKgIAIAAqAgAiEZMhEiAB/V0CBCAA/V0CBCIO/eUBIQ9BACEBQQAhAANAIAEgA08NAyABIAVPDQQgAUEBaiIIIANPDQUgBSAITQ0GIAFBAmoiCCADTw0HIAUgCE0NCCABIARqIggtAAAhCyABIAJqIgotAAAhDCAOIA8gCkEBai0AACAIQQFqLQAAQQh0crNDAP9/R5X9EyAKQQJqLQAAIAhBAmotAABBCHRys0MA/39Hlf0gAf3mAf3kASIN/R8AIhOLEIkEIRQgDf0fASIVixCJBCEWIAAgB08NCSAGQwAAwH9DAACAPyARIAtBCHQgDHKzQwD/f0eVIBKUkiIQmCAQIBBcGyAQixCJBEMAAIC/kpQ4AgAgAEEBaiIIIAdPDQogBkEEakMAAMB/QwAAgD8gE5ggDSAN/UIiDf0bAEEBcRsgFEMAAIC/kpQ4AgAgAEECaiIIIAdPDQIgBkEIakMAAMB/QwAAgD8gFZggDf3HAf0bAkEBcRsgFkMAAIC/kpQ4AgAgAUEEaiEBIAZBDGohBiAAQQNqIQAgCUEBayIJDQALCw8LIAggB0HE7scAEIwHAAsgASADQcTtxwAQjAcACyABIAVB1O3HABCMBwALIAggA0Hk7ccAEIwHAAsgCCAFQfTtxwAQjAcACyAIIANBhO7HABCMBwALIAggBUGU7scAEIwHAAsgACAHQaTuxwAQjAcACyAIIAdBtO7HABCMBwALiAQBBX8jAEEgayIEJABBovnHACEFQQkhAwJAAkAgAigCAEEBcQ0AIARBEGogAigCBCACKAIIEPsCQaL5xwAgBCgCFCAEKAIQIgIbIQUgAg0AIAQoAhgiAw0AIAFBAUEAEJcDIQIMAQsgBCADNgIMIAQgBTYCCCABKAIEIQUgASgCACEDA0ACQCAEQRBqIARBCGoQ7QMgBCgCECIGRQ0AIAQoAhQhByAEKAIcRQRAIAEgBiAHEJcDIQIMAwtBASECIAMgBiAHIAUoAgwRAAANAiADQf3/AyAFKAIQEQIARQ0BDAILC0EAIQILAkACQAJAAkAgACgCACIBQYCAgIB4RwRAIAFFDQIgACgCBCIFQQRrKAIAIgBBeHEiA0EEQQggAEEDcSIAGyABakkNBCAARSADIAFBJ2pNcg0BDAMLIAAtAARBA0cNASAAKAIIIgUoAgAhACAFQQRqKAIAIgEoAgAiAwRAIAAgAxEDAAsgASgCBCIBBEAgAEEEaygCACIDQXhxIgZBBEEIIANBA3EiAxsgAWpJDQQgA0EAIAYgAUEnaksbDQMgABCiAgsgBUEEaygCACIAQXhxIgFBEEEUIABBA3EiABtJDQMgAEUNACABQTRPDQILIAUQogILIARBIGokACACDwtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALgwQBCX8jAEEgayIFJAACQAJAAkACQCABIAAoArABIgNGIAAoArQBIgQgAkZxDQACQCAALQC4AUUEQCAAKAJkIQQMAQsgACgCrAEgA0ECdCADIARqQQJ0EOEIIQMgBEECdCIGIAAoAmQiBEsNAiAAKAJgIQcgBSADELgKIgg2AgAgBSAGNgIEIAYgCEcNBCADIAcgBhDgCSAAQQA6ALgBIANBhAhJDQAgAxCbBwsgAkECdCIGIQMgBCAGSQRAIAYgBCIDayIHIAAoAlwgA2tLBEAgAEHcAGogAyAHQQRBBBCkBSAAKAJkIQMLIAAoAmAiCSADQQJ0IgpqIQggB0ECTwRAIAYgBEF/c2pBAnQiCwRAIAhBACAL/AsACyACQQR0IARBAnRrIAlqIApqQQRrIQggAyAHakEBayEDCyAIQQA2AgAgA0EBaiEDCyAAIAM2AmQgACgCrAEgAUECdCABIAJqQQJ0EOEIIQQgAyAGSQ0CIAAoAmAgBSAEELgKIgc2AgAgBSAGNgIEIAYgB0cNAyAGIAQQ4QkgAEEAOgC4ASAAIAI2ArQBIAAgATYCsAEgBEGECEkNACAEEJsHCyAFQSBqJAAPC0EAIAYgBEH868AAEOoHAAtBACAGIANBkOzAABDqBwALIAVBADYCCEEAIAUgBUEEaiAFQQhqQeD5xAAQ9QcAC8gEAgJ/AX0jAEEgayIDJAAgASgCBCgCACABKAIAKAIAaiABKAIIKAIQIAJsaiECIAACfwJAAkACQAJAAkAgASgCDCgCAA4CAAECCwJAIAJBe0sNACABKAIUIAJBBGpJDQAgACABKAIQIAJqKgAAOAIEDAQLIANBADYCGCADQQE2AgwgA0HI28EANgIIIANCBDcCECAAIANBCGoQkgc2AgRBAQwECwJAIAJBfU0EQCABKAIUIAJBAmpPDQELIANBADYCGCADQQE2AgwgA0HI28EANgIIIANCBDcCECAAIANBCGoQkgc2AgRBAQwECyABKAIQIAJqIgEtAAFBCHQiAiABLQAAciIBQf//AXFFBEAgACABQRB0NgIEDAMLIAFB/wdxIQEgAkGAgAJxIQQgAkGA+AFxIgJBgPgBRgRAIARBEHQhAiABRQRAIAAgAkGAgID8B3I2AgQMBAsgACABQQ10IAJyQYCAgP4HcjYCBAwDCyAEQRB0IQQgAkUNASAAIAJBDXRBgICA/ABxIAFBDXRyQYCAgMADaiAEcjYCBAwCCyABKAIUIAJNBEAgA0EANgIYIANBATYCDCADQZCzwQA2AgggA0IENwIQIAAgA0EIahCSBzYCBEEBDAMLIAAgASgCGCoCACIFIAEoAhAgAmotAACzQwAAf0OVIAEoAhwqAgAgBZOUkjgCBAwBCyAAIARBgICA2ANyIAFnQRBrIgJBF3RrIAEgAkH//wNxQQhqdEH///8DcXI2AgQLQQALNgIAIANBIGokAAuKBAEIfyMAQSBrIgckAAJAAkACQAJAIAAtALgBRQRAIAAoAmQhBQwBCyAAKAKsASAAKAKwASIFQQJ0IAUgACgCtAEiBWpBAnQQ4QghBiAFQQJ0IgggACgCZCIFSw0BIAAoAmAhCSAHIAYQuAoiCjYCACAHIAg2AgQgCCAKRw0DIAYgCSAIEOAJIAZBhAhJDQAgBhCbBwsgAEIANwKwASAAQbgBakEAOgAAIAUgAkECdCIISQRAIAUhBiAIIAVrIgkgACgCXCAFa0sEQCAAQdwAaiAFIAlBBEEEEKQFIAAoAmQhBgsgACgCYCILIAZBAnQiDGohCiAJQQJPBEAgCCAFQX9zakECdCIIBEAgCkEAIAj8CwALIAJBBHQgBUECdGsgC2ogDGpBBGshCiAGIAlqQQFrIQYLIApBADYCACAGQQFqIQgLIAAgCDYCZAJAIAAoAgBBAUcNACACQQF0IgUgCEsNAiAAKAJgIgYgBSADIAQgAiAAKgKQARCpAiAAKAIEIAFBAXQgASACakEBdBDhCCIAELgKIQEgByAFNgIEIAcgATYCACABIAVHDQMgACAGIAUQ4AkgAEGECEkNACAAEJsHCyAHQSBqJAAPC0EAIAggBUH868AAEOoHAAtBACAFIAhBxODAABDqBwALIAdBADYCCEEAIAcgB0EEaiAHQQhqQeD5xAAQ9QcAC/8UAxN/A34Be0HgtskAKAIARQRAAkBB4LbJACgCAEHgtskAQgE3AgBB7LbJACgCACECQei2yQAoAgAhBEHotskAQfCayAApAwA3AgBB9LbJACgCACEFQfC2yQBB+JrIACkDADcCAEUgAkVyDQAgBQRAIARBCGohDSAEKQMAQn+FQoCBgoSIkKDAgH+DIRUgBCEDA0AgFVAEQANAIANB4ABrIQMgDSkDACANQQhqIQ1CgIGChIiQoMCAf4MiFUKAgYKEiJCgwIB/UQ0ACyAVQoCBgoSIkKDAgH+FIRULIAMgFXqnQQN2QXRsakEEaygCACIHQYQITwRAIAcQmwcLIBVCAX0gFYMhFSAFQQFrIgUNAAsLIAIgAkEMbEETakF4cSIFakEJaiIDRQ0AAkAgBCAFayIEQQRrKAIAIgJBeHEiBUEEQQggAkEDcSICGyADak8EQCACQQAgBSADQSdqSxsNASAEEKICDAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACwtB5LbJACgCAEUEQEHktskAQX82AgBB7LbJACgCACIDIABxIQQgAEEZdiITrUKBgoSIkKDAgAF+IRdB6LbJACgCACECAkACQANAIAIgBGopAAAiFiAXhSIVQn+FIBVCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiFVBFBEADQCAAIAIgFXqnQQN2IARqIANxQXRsaiIFQQxrKAIARgRAIAVBCGsoAgAgAUYNBAsgFUIBfSAVgyIVUEUNAAsLIBYgFkIBhoNCgIGChIiQoMCAf4NQBEAgBCAGQQhqIgZqIANxIQQMAQsLQfC2yQAoAgBFBEACQEEAIQIjAEEgayIJJAACQAJAAkBB9LbJACgCACINQQFqIgQEQAJAQey2yQAoAgAiCiAKQQFqIg5BA3YiA0EHbCAKQQhJGyIPQQF2IARJBEACQAJAAn8gD0EBaiIDIAQgAyAESxsiBEEPTwRAIARB/////wFLDQlBfyAEQQN0QQduQQFrZ3ZBAWoMAQtBBCAEQQhxQQhqIARBBEkbCyIErUIMfiIVQiCIpw0AIBWnIgNBeEsNACADQQdqQXhxIgMgBEEIaiIGaiICIANJIAJB+P///wdLcg0AIAIQcSICRQ0BIAIgA2ohBSAGBEAgBUH/ASAG/AsACyAEQQFrIgsgBEEDdkEHbCALQQhJGyEMQei2yQAoAgAhBiANBEAgBUEMayEPIAVBCGohECAGQQxrIREgBikDAEJ/hUKAgYKEiJCgwIB/gyEVIAYhA0EAIQQgDSECA0AgFVAEQANAIARBCGohBCADQQhqIgMpAwBCgIGChIiQoMCAf4MiFUKAgYKEiJCgwIB/UQ0ACyAVQoCBgoSIkKDAgH+FIRULIAUgBiAVeqdBA3YgBGoiEkF0bGoiB0EMaygCACIIIAdBCGsoAgAgCBsiFCALcSIHaikAAEKAgYKEiJCgwIB/gyIWUARAQQghCANAIAcgCGohByAIQQhqIQggBSAHIAtxIgdqKQAAQoCBgoSIkKDAgH+DIhZQDQALCyAVQgF9IBWDIRUgBSAWeqdBA3YgB2ogC3EiB2osAABBAE4EQCAFKQMAQoCBgoSIkKDAgH+DeqdBA3YhBwsgBSAHaiAUQRl2Igg6AAAgECAHQQhrIAtxaiAIOgAAIA8gB0F0bGoiB0EIaiARIBJBdGxqIghBCGooAAA2AAAgByAIKQAANwAAIAJBAWsiAg0ACwtB7LbJACALNgIAQei2yQAgBTYCAEHwtskAIAwgDWs2AgAgCkUNAyAKIA5BDGxBB2pBeHEiA2pBCWoiBEUNAyAGIANrIgNBBGsoAgAiBkF4cSICQQRBCCAGQQNxIgYbIARqSQ0FIAZBACACIARBJ2pLGw0GIAMQogIMAwsgCUEANgIYIAlBATYCDCAJQcS1xAA2AgggCUIENwIQIAlBCGpBmLXEABCNCAsACyAOBEBB6LbJACgCACEFAkACQCADIA5BB3FBAEdqIgdBAkkEQCAHIQMMAQsgB0EBcSEDIAdB/v///wNxIghBA3QhAiAIIQYgBSEEA0AgBCAE/QADACIY/U1BB/3NAf0MAQEBAQEBAQEBAQEBAQEBAf1OIBj9DH9/f39/f39/f39/f39/f3/9UP3OAf0LAwAgBEEQaiEEIAZBAmsiBg0ACyAHIAhGDQELIAIgBWohBANAIAQgBCkDACIVQn+FQgeIQoGChIiQoMCAAYMgFUL//v379+/fv/8AhHw3AwAgBEEIaiEEIANBAWsiAw0ACwsgBUEIaiELAkAgDkEITwRAIAUgDmogBSkAADcAAAwBCyAORQ0AIAsgBSAO/AoAAAtBASEGQQAhBANAIAQhAyAGIQQCQCADIAVqIhAtAABBgAFHDQAgBSADQXRsaiICQQRrIREgAkEIayEGIAJBDGshBwNAIAcoAgAiAiAGKAIAIAIbIhIgCnEiDCECIAUgDGopAABCgIGChIiQoMCAf4MiFVAEQEEIIQgDQCACIAhqIQIgCEEIaiEIIAUgAiAKcSICaikAAEKAgYKEiJCgwIB/gyIVUA0ACwsgBSAVeqdBA3YgAmogCnEiAmosAABBAE4EQCAFKQMAQoCBgoSIkKDAgH+DeqdBA3YhAgsgAiAMayADIAxrcyAKcUEITwRAIAIgBWoiCC0AACAIIBJBGXYiCDoAACALIAJBCGsgCnFqIAg6AAAgBSACQXRsaiIIQQxrIQJB/wFGBEAgEEH/AToAACALIANBCGsgCnFqQf8BOgAAIAJBCGogB0EIaigAADYAACACIAcpAAA3AAAMAwsgBygAACEMIAcgAigAADYAACACIAw2AAAgBigAACECIAYgCEEIayIMKAAANgAAIAwgAjYAACARKAAAIQIgESAIQQRrIggoAAA2AAAgCCACNgAADAELCyAQIBJBGXYiBjoAACALIANBCGsgCnFqIAY6AAALIAQgBCAOSSIDaiEGIAMNAAsLQfC2yQAgDyANazYCAAsgCUEgaiQADAQLDAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAJQQA2AhggCUEBNgIMIAlBxLXEADYCCCAJQgQ3AhAgCUEIakGYtcQAEI0IAAsLIAAgARDsCCEEQei2yQAoAgAiAkHstskAKAIAIgUgAHEiA2opAABCgIGChIiQoMCAf4MiFVAEQEEIIQYDQCADIAZqIQMgBkEIaiEGIAIgAyAFcSIDaikAAEKAgYKEiJCgwIB/gyIVUA0ACwsgAiAVeqdBA3YgA2ogBXEiA2osAAAiBkEATgRAIAIgAikDAEKAgYKEiJCgwIB/g3qnQQN2IgNqLQAAIQYLIAIgA2ogEzoAACACIANBCGsgBXFqQQhqIBM6AABB8LbJAEHwtskAKAIAIAZBAXFrNgIAQfS2yQBB9LbJACgCAEEBajYCACACIANBdGxqIgNBBGsgBDYCACADQQhrIAE2AgAgA0EMayAANgIADAELIAVBBGsoAgAhBAsgBBDbCUHktskAQeS2yQAoAgBBAWo2AgAPC0G4psYAELAKAAu/BAMGfwF8AX0jAEEQayICJAACQAJAIAEoAgBBlICAgHhGBEBBBCEDAkAgASgCDCIEBEAgASgCCCEBQYCAECAEIARBgIAQTxsiA0ECdBBxIgVFDQQgBEEEdCEGIAJBADYCCCACIAU2AgQgAiADNgIAQQAhA0EAIQQCQANAAn0CQAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCACIHQYCAgIB4cyAHQQBOG0EBaw4KCgABAgMEBQYHCAkLIAFBBGovAQCzDAoLIAFBBGooAgCzDAkLIAFBCGopAwC1DAgLIAFBBGosAACyDAcLIAFBBGouAQCyDAYLIAFBBGooAgCyDAULIAFBCGopAwC0DAQLIAFBBGoqAgAMAwsgAUEIaisDACIItkMAAIA/QwAAgL8gCL1CAFkbmAwCCyABIAJBD2pB2OfAABCVCCEDIAIoAgAiAQRAIAIoAgQgAUECdEEEEKIHCwwDCyABQQRqLQAAswshCSABQRBqIQEgAigCACAERgRAIAJB1ILBABD6BSACKAIEIQULIAMgBWogCTgCACACIARBAWoiBDYCCCADQQRqIQMgBkEQayIGDQALIAIoAgQhAyACKAIAIgFBgICAgHhHDQILIAAgBDYCCCAAIAM2AgQgAEGAgICAeDYCAAwDC0EAIQFBACEECyAAIAQ2AgggACADNgIEIAAgATYCAAwBCyABIAJBD2pB+L/BABCVCCEBIABBgICAgHg2AgAgACABNgIECyACQRBqJAAPCwAL7AQBA38jAEEgayIDJAACQAJAAkAgAC0A8AFBBkcEQCAAKALoASIFRQ0BIAUgASACIAAoAuwBKAIQEQAAIQIMAwsgACgCxAEgACgCzAEiBGsgAkkEQCAAQcQBaiAEIAJBAUEBEKQFIAAoAswBIQQLIAAoAsgBIQUgAgRAIAQgBWogASAC/AoAAAsgACACIARqIgE2AswBQQAhAiABQQRJDQICQAJAAkACQCAFLwAAIAUtAAJBEHRyIgRBn5YiRwRAIARB8NjlA0YEQCAAQQAQ3wMhAgwICyAEIAUtAANBGHRyIgFB0JaNIEYNASABQdKCkYIDRyABQdKCkZoER3ENBCAAQQUQ3wMhAgwHCyAAKALcAUGAgICAeEYNASAAKALkASEBDAILIAAoAtABQYCAgIB4Rg0CIAAoAtQBIAAoAtgBEHxB/wFxQQRHDQIgAEEEEN8DIQIMBQsgA0EIaiAFIAEQ7QIgAygCDCEFIAMoAggiBEGBgICAeEYEQCAFIQIMBQsgACADKAIQIgE2AuQBIAAgBTYC4AEgACAENgLcASAEQYCAgIB4Rg0ECyABQQRJDQAgACgC4AEoAABBzo7NggVHDQAgAEEBEN8DIQIMAwsgACgC0AFBgICAgHhGDQEgACgC1AEgACgC2AEQfEH/AXEiAUEGRwRAIAAgARDfAyECDAMLIANBADYCGCADQQE2AgwgA0GUqsEANgIIIANCBDcCECADQQhqEJIHIQIMAgtB8KnBABDdCQALIANBADYCGCADQQE2AgwgA0GUqsEANgIIIANCBDcCECADQQhqEJIHIQILIANBIGokACACC+wEAQN/IwBBIGsiAyQAAkACQAJAIAAtAOgBQQZHBEAgACgC4AEiBUUNASAFIAEgAiAAKALkASgCEBEAACECDAMLIAAoArwBIAAoAsQBIgRrIAJJBEAgAEG8AWogBCACQQFBARCkBSAAKALEASEECyAAKALAASEFIAIEQCAEIAVqIAEgAvwKAAALIAAgAiAEaiIBNgLEAUEAIQIgAUEESQ0CAkACQAJAAkAgBS8AACAFLQACQRB0ciIEQZ+WIkcEQCAEQfDY5QNGBEAgAEEAEN0DIQIMCAsgBCAFLQADQRh0ciIBQdCWjSBGDQEgAUHSgpGCA0cgAUHSgpGaBEdxDQQgAEEFEN0DIQIMBwsgACgC1AFBgICAgHhGDQEgACgC3AEhAQwCCyAAKALIAUGAgICAeEYNAiAAKALMASAAKALQARB8Qf8BcUEERw0CIABBBBDdAyECDAULIANBCGogBSABEO0CIAMoAgwhBSADKAIIIgRBgYCAgHhGBEAgBSECDAULIAAgAygCECIBNgLcASAAIAU2AtgBIAAgBDYC1AEgBEGAgICAeEYNBAsgAUEESQ0AIAAoAtgBKAAAQc6OzYIFRw0AIABBARDdAyECDAMLIAAoAsgBQYCAgIB4Rg0BIAAoAswBIAAoAtABEHxB/wFxIgFBBkcEQCAAIAEQ3QMhAgwDCyADQQA2AhggA0EBNgIMIANBlKrBADYCCCADQgQ3AhAgA0EIahCSByECDAILQfCpwQAQ3QkACyADQQA2AhggA0EBNgIMIANBlKrBADYCCCADQgQ3AhAgA0EIahCSByECCyADQSBqJAAgAgv8AwEEfyMAQRBrIgQkAAJAAkACQCABKAIIIgJBgICAEHFFBEAgAkGAgIAgcQ0BIAAgARCLBUUNAkEBIQIMAwsgACgCACECQQkhAwNAIAMgBGpBBmogAkEPcS0A3LZFOgAAIANBAWshAyACQRBJIAJBBHYhAkUNAAtBASECIAFBAUGEtMUAQQIgAyAEakEHakEJIANrEMgDRQ0BDAILIAAoAgAhAkEJIQMDQCADIARqQQZqIAJBD3EtAMmBQjoAACADQQFrIQMgAkEPSyACQQR2IQINAAtBASECIAFBAUGEtMUAQQIgAyAEakEHakEJIANrEMgDDQELIAEoAgBBsIrDAEECIAEoAgQoAgwRAAAEQEEBIQIMAQsgAEEEaiEAAkAgASgCCCICQYCAgBBxRQRAIAJBgICAIHENASAAIAEQiwUhAgwCCyAAKAIAIQJBCSEDA0AgAyAEakEGaiACQQ9xLQDctkU6AAAgA0EBayEDIAJBD0sgAkEEdiECDQALIAFBAUGEtMUAQQIgAyAEakEHakEJIANrEMgDIQIMAQsgACgCACECQQkhAwNAIAMgBGpBBmogAkEPcS0AyYFCOgAAIANBAWshAyACQQ9LIAJBBHYhAg0ACyABQQFBhLTFAEECIAMgBGpBB2pBCSADaxDIAyECCyAEQRBqJAAgAgvyBAICfwF7IwBBgNIAayIDJAACQAJAAkACQAJAAkACQAJAIAFB/wFxQQFrDgUAAgMEBQELQYCACBBxIgRFDQUgBEEEay0AAEEDcQRAIARBAEGAgAj8CwALIANBQGtBAEHA0QD8CwBBrNQAEHEiAUUNBSABIAJBxAH8CgAAIAFBgICAgHg2AugBIAFCATcC4AEgAUKAgAg3AtgBIAEgBDYC1AEgAUKAgICAgICAATcCzAEgAUKAgICAEDcCxAEgAUHsAWogA0EMakH00QD8CgAAIAFB4NMAakEAQcEA/AsAIAFBADsBqFQgAUEANgKkVEG438EAIQIMBgtBuAYQcSIBRQ0EIAFBADYC8AQgAUKAgICAEDcD6AQgAUGBgICAeDYC3AQgAUH0BGogAkHEAfwKAABBoN/BACECDAULQdABEHEiAUUNAyABIAJBxAH8CgAAIAFBADYCzAEgAUKAgICAEDcCxAFB0N/BACECDAQLQdABEHEiAUUNAiABIAJBxAH8CgAAIAFBADYCzAEgAUKAgICAEDcCxAFB6N/BACECDAMLQdABEHEiAUUNASABIAJBxAH8CgAAIAFBADYCzAEgAUKAgICAEDcCxAFBgODBACECDAILQYgEEHEiAUUNACABQQI2AgAgAf0MAAAAAAAAAAAAAAAAAAAAAP0LA3AgAUIANwOYAiABQQI2ApABIAFCATcCtAIgAUGAAWogBf0LAwAgAUGgAmogBf0LAwAgAUGwAmpBADYCACABQbwCaiACQcQB/AoAACABQQA6AIAEQZjgwQAhAgwBCwALIAAgAjYCBCAAIAE2AgAgA0GA0gBqJAAL8gQCAn8BeyMAQYDSAGsiAyQAAkACQAJAAkACQAJAAkACQCABQf8BcUEBaw4FAAIDBAUBC0GAgAgQcSIERQ0FIARBBGstAABBA3EEQCAEQQBBgIAI/AsACyADQUBrQQBBwNEA/AsAQaTUABBxIgFFDQUgASACQbwB/AoAACABQYCAgIB4NgLgASABQgE3AtgBIAFCgIAINwLQASABIAQ2AswBIAFCgICAgICAgAE3AsQBIAFCgICAgBA3ArwBIAFB5AFqIANBDGpB9NEA/AoAACABQdjTAGpBAEHBAPwLACABQQA7AaBUIAFBADYCnFRBmN3BACECDAYLQbAGEHEiAUUNBCABQQA2AvAEIAFCgICAgBA3A+gEIAFBgYCAgHg2AtwEIAFB9ARqIAJBvAH8CgAAQYDdwQAhAgwFC0HIARBxIgFFDQMgASACQbwB/AoAACABQQA2AsQBIAFCgICAgBA3ArwBQbDdwQAhAgwEC0HIARBxIgFFDQIgASACQbwB/AoAACABQQA2AsQBIAFCgICAgBA3ArwBQcjdwQAhAgwDC0HIARBxIgFFDQEgASACQbwB/AoAACABQQA2AsQBIAFCgICAgBA3ArwBQeDdwQAhAgwCC0GABBBxIgFFDQAgAUECNgIAIAH9DAAAAAAAAAAAAAAAAAAAAAD9CwNwIAFCADcDmAIgAUECNgKQASABQgE3ArQCIAFBgAFqIAX9CwMAIAFBoAJqIAX9CwMAIAFBsAJqQQA2AgAgAUG8AmogAkG8AfwKAAAgAUEAOgD4A0H43cEAIQIMAQsACyAAIAI2AgQgACABNgIAIANBgNIAaiQAC9kEAQN/IwBBIGsiAyQAAkACQAJAIAAtAIwBQQZHBEAgACgChAEiBUUNASAFIAEgAiAAKAKIASgCEBEAACECDAMLIAAoAgAgACgCCCIEayACSQRAIAAgBCACQQFBARCkBSAAKAIIIQQLIAAoAgQhBSACBEAgBCAFaiABIAL8CgAACyAAIAIgBGoiATYCCEEAIQIgAUEESQ0CAkACQAJAAkAgBS8AACAFLQACQRB0ciIEQZ+WIkcEQCAEQfDY5QNGBEAgAEEAEOADIQIMCAsgBCAFLQADQRh0ciIBQdCWjSBGDQEgAUHSgpGCA0cgAUHSgpGaBEdxDQQgAEEFEOADIQIMBwsgACgCeEGAgICAeEYNASAAKAKAASEBDAILIAAoAgxBgICAgHhGDQIgACgCECAAKAIUEHxB/wFxQQRHDQIgAEEEEOADIQIMBQsgA0EIaiAFIAEQ7QIgAygCDCEFIAMoAggiBEGBgICAeEYEQCAFIQIMBQsgACADKAIQIgE2AoABIAAgBTYCfCAAIAQ2AnggBEGAgICAeEYNBAsgAUEESQ0AIAAoAnwoAABBzo7NggVHDQAgAEEBEOADIQIMAwsgACgCDEGAgICAeEYNASAAKAIQIAAoAhQQfEH/AXEiAUEGRwRAIAAgARDgAyECDAMLIANBADYCGCADQQE2AgwgA0GUqsEANgIIIANCBDcCECADQQhqEJIHIQIMAgtB8KnBABDdCQALIANBADYCGCADQQE2AgwgA0GUqsEANgIIIANCBDcCECADQQhqEJIHIQILIANBIGokACACC9QEAQN/IwBBIGsiAyQAAkACQAJAIAAtAGxBBkcEQCAAKAJkIgVFDQEgBSABIAIgACgCaCgCEBEAACECDAMLIAAoAgAgACgCCCIEayACSQRAIAAgBCACQQFBARCkBSAAKAIIIQQLIAAoAgQhBSACBEAgBCAFaiABIAL8CgAACyAAIAIgBGoiATYCCEEAIQIgAUEESQ0CAkACQAJAAkAgBS8AACAFLQACQRB0ciIEQZ+WIkcEQCAEQfDY5QNGBEAgAEEAEL8DIQIMCAsgBCAFLQADQRh0ciIBQdCWjSBGDQEgAUHSgpGCA0cgAUHSgpGaBEdxDQQgAEEFEL8DIQIMBwsgACgCWEGAgICAeEYNASAAKAJgIQEMAgsgACgCDEGAgICAeEYNAiAAKAIQIAAoAhQQfEH/AXFBBEcNAiAAQQQQvwMhAgwFCyADQQhqIAUgARDtAiADKAIMIQUgAygCCCIEQYGAgIB4RgRAIAUhAgwFCyAAIAMoAhAiATYCYCAAIAU2AlwgACAENgJYIARBgICAgHhGDQQLIAFBBEkNACAAKAJcKAAAQc6OzYIFRw0AIABBARC/AyECDAMLIAAoAgxBgICAgHhGDQEgACgCECAAKAIUEHxB/wFxIgFBBkcEQCAAIAEQvwMhAgwDCyADQQA2AhggA0EBNgIMIANBlKrBADYCCCADQgQ3AhAgA0EIahCSByECDAILQfCpwQAQ3QkACyADQQA2AhggA0EBNgIMIANBlKrBADYCCCADQgQ3AhAgA0EIahCSByECCyADQSBqJAAgAgv8AwMFfwF7AX4CQAJAAkACQCAFLQC/AiIGQQhLQQEgBnRBlgJxRXJFBEBBCCAGbkECdK0gAq1+IgxCIIhQIAynIARJcQ0BIAEgAmohCCAEQXxxIQUgBkEIRgRAIAJFDQUgBEECdiIEIAJBAWsiAiACIARLGyICQQNNDQQgASACQQFqIgIgAkEDcSICQQQgAhtrIgJqIAMgAkECdCIGaiEHIAUgBmshBQNAIAMgACAB/VwAAP2JAf2pASIL/RsDQQJ0aiAAIAv9GwJBAnRqIAAgC/0bAUECdGogACAL/RsAQQJ0av1cAAD9VgAAAf1WAAAC/VYAAAP9CwAAIAFBBGohASADQRBqIQMgAkEEayICDQALIQEgByEDDAQLIAVFDQRBfyAGdEF/cyEKQQggBmshB0EAIARBfHFrIQJBfyEFA0AgBUEASARAIAEgCEYNBCABLQAAIQkgByEFIAFBAWohAQsgAyAAIAkgBXYgCnFBAnRqKAAANgAAIAUgBmshBSADQQRqIQMgAkEEaiICDQALDAQLQbCXxQBBNEHkl8UAEOsHAAtBhJbFAEHlAEHslsUAEOsHAAtB/JbFAEEiQaCXxQAQqwcACwNAIAVFDQEgAyAAIAEtAABBAnRqKAAANgAAIANBBGohAyAFQQRrIQUgAUEBaiIBIAhHDQALCwvjBAICfwF7IwBBgNIAayIDJAACQAJAAkACQAJAAkACQAJAIAFB/wFxQQFrDgUAAgMEBQELQYCACBBxIgRFDQUgBEEEay0AAEEDcQRAIARBAEGAgAj8CwALIANBQGtBAEHA0QD8CwBByNMAEHEiAUUNBSABIAJB4AD8CgAAIAFBgICAgHg2AoQBIAFCATcCfCABQoCACDcCdCABIAQ2AnAgAUKAgICAgICAATcCaCABQoCAgIAQNwJgIAFBiAFqIANBDGpB9NEA/AoAACABQfzSAGpBAEHBAPwLACABQQA7AcRTIAFBADYCwFNBiNzBACECDAYLQdgFEHEiAUUNBCABIAJB4AD8CgAAIAFBADYC0AUgAUKAgICAEDcDyAUgAUGBgICAeDYCvAVB8NvBACECDAULQewAEHEiAUUNAyABIAJB4AD8CgAAIAFBADYCaCABQoCAgIAQNwJgQaDcwQAhAgwEC0HsABBxIgFFDQIgASACQeAA/AoAACABQQA2AmggAUKAgICAEDcCYEG43MEAIQIMAwtB7AAQcSIBRQ0BIAEgAkHgAPwKAAAgAUEANgJoIAFCgICAgBA3AmBB0NzBACECDAILQaADEHEiAUUNACABQQI2AogBIAFBAjYCACABQfgBaiACQeAA/AoAACABQegCav0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgASAF/QsD2AIgAUIANwOAAyABQfgCakKAgICAEDcDACABQYgDaiAF/QsDACABQZUDakIANwAAQejcwQAhAgwBCwALIAAgAjYCBCAAIAE2AgAgA0GA0gBqJAALqAQCCn8BfSMAQRBrIggkAAJAAkACQAJAAkACQCAEBEBDAAD4QSAFlSEQA0AgCUEVbCIGQRVqIgcgA0sgCUGLhsPhAEtyDQQgCUECdCEHIAlBAWohCSAI/QwAAAAAAAAAAAAAAAAAAAAA/QsDAEEAIQtBBiEKIAIhBkEAIQwDQCAIIApBBmsiDkEDdkH8////AXFqIg1B/wBDAAD4QUMAAPjBIBAgBioCAJQiBSAFQwAA+MFdGyIFIAVDAAD4QV4bELkHIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbQT9xIg8gDkEecXQgDSgCAHI2AgAgDkHgAXFBIGogCkkEQCAMQRBPDQUgDSANKAIEIA8gC0EecXZyNgIECyAGQQRqIQYgCkEGaiEKIAtBBmshCyAMQQFqIgxBFUcNAAsgASAHTQ0FIAgoAgwhCiAIKAIIIQsgCCgCBCEMIAAgB0ECdGogCCgCADYCACAHQQFyIgYgAU8NBiAAIAZBAnRqIAw2AgAgB0ECciIGIAFPDQcgACAGQQJ0aiALNgIAIAdBA3IiBiABTw0CIAAgBkECdGogCjYCACACQdQAaiECIAQgCUcNAAsLIAhBEGokAA8LIAYgAUHAz8cAEIwHAAtBBEEEQeDPxwAQjAcACyAGIAcgA0HQz8cAEOoHAAsgByABQZDPxwAQjAcACyAGIAFBoM/HABCMBwALIAYgAUGwz8cAEIwHAAv9AwEGfwJAAkACQAJAAkACQAJAIARFIAJFcg0AIAAoAjxFDQAgACgCICINIAFrIgpBACAKIA1NGyEOIAAoAhwgAUESbGohCgNAIAkgDkYNAiALQQlqIgwgBEsgCUGbjsfjAUtyDQMgCiADEMYCIANBJGohAyAKQRJqIQogDCELIAIgCUEBaiIJRw0ACwsCQCAGRSACRXINACAAKAI8QQJJDQBBACEEIAAoAiwiCyABayIDQQAgAyALTRshDCAAKAIoIAFBHmxqIQNBACEJA0AgCSAMRg0EIARBD2oiCiAGSyAJQZCixIgBS3INBSADIAUQwgIgBUE8aiEFIANBHmohAyAKIQQgAiAJQQFqIglHDQALCwJAIAhFIAJFcg0AIAAoAjxBA0kNAEEAIQogACgCOCIEIAFrIgNBACADIARNGyEFIAAoAjQgAUEqbGohA0EAIQkDQCAFIAlGDQYgCkEVaiIAIAhLIAlBi4bD4QBLcg0HIAMgBxC2AiAHQdQAaiEHIANBKmohAyAAIQogAiAJQQFqIglHDQALCw8LIAEgCWogDUHExscAEIwHAAsgCyAMIARB1MbHABDqBwALIAEgCWogC0HkxscAEIwHAAsgBCAKIAZB9MbHABDqBwALIAEgCWogBEGEx8cAEIwHAAsgCiAAIAhBlMfHABDqBwALxQQCBX8BfiMAQTBrIgIkAAJAAkAgACgCACIDQQJHBEBBASEEAkACfwJAIANBAXEEQCACIABBBGo2AgAgASgCCCACIAE2AgwgAkKAgICAgMjQBzcCBCACrUKAgICAoA+EIQdBgICABHENASACIAc3AxAgAkIBNwIkIAJBATYCHCACQaD4xwA2AhggAiACQRBqNgIgIAJBBGpBoLrFACACQRhqEMEDDAILIAEoAgAiAyAAKAIQIAAoAhQgASgCBCgCDCIBEQAADQUMBAsgAiAHNwMQIAJBATYCLCACQaz5xwA2AiggAkEBNgIkIAJBATYCHCACQaD4xwA2AhggAiACQRBqNgIgIAJBBGpBoLrFACACQRhqEMEDCyIDQQAgAigCBCIFG0UEQCADDQQgBUUNAUGgt8UAQTcgAkEYakGQt8UAQdi3xQAQ4AYACyABKAIAQfy2xQBBFCABKAIEKAIMEQAADQMLIAEoAgAhAyABKAIEKAIMIQEMAQsCQAJAAkAgACgCJCIERQ0AIAAoAiAhAANAIAJBGGogACAEEPsCAkAgAigCGEEBRgRAIAItACEhAyACLQAgIQUgAigCHCEGIAFBxPnHAEEDEJcDRQ0BDAULIAEgAigCHCACKAIgEJcDDQQMAgsgBUEBcUUNASAEIAMgBmoiA0kNAiAAIANqIQAgBCADayIEDQALC0EAIQQMAwsgAyAEIARByPnHABDqBwALQQEhBAwBCyADIAAoAhggACgCHCABEQAAIQQLIAJBMGokACAEC+MDAQd/IwBB0AFrIgUkACAAIAE6AOgBIAAoAgAhAiAAQQI2AgACQAJAIAJBAkcEQCAFIAI2AhQgBUEYaiAAQQRqQbgB/AoAACAFQQhqIAEgBUEUahDVAwJAIAUoAggiASAAKALAASAAKALEASAFKAIMIgIoAhARAAAiCARAIAIoAgAiAARAIAEgABEDAAsgAigCBCIARQ0BIAFBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIABqSQ0DIAJBACAEIABBJ2pLGw0EIAEQogIMAQsgAEEANgLEASAAKALUASIEQYCAgIB4ckGAgICAeEcEQCAAKALYASIGQQRrKAIAIgNBeHEiB0EEQQggA0EDcSIDGyAEakkNAyADQQAgByAEQSdqSxsNBCAGEKICCyAAQYCAgIB4NgLUAQJAIAAoAuABIgRFDQAgACgC5AEiBigCACIDBEAgBCADEQMACyAGKAIEIgZFDQAgBEEEaygCACIDQXhxIgdBBEEIIANBA3EiAxsgBmpJDQMgA0EAIAcgBkEnaksbDQQgBBCiAgsgACACNgLkASAAIAE2AuABCyAFQdABaiQAIAgPC0Hs4MEAEN0JAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL+wMCD38BfiADIAEoAhgiCiAFayIJSwRAQQAgASgCDCIIayEQIAQgCGohESAIIAUgBSAISRsiEiAIayETIAEoAiAhDSABKAIQIQ8gASkDACEWA0ACQAJAIBYgAiAJajEAAIhCAYNQBEAgASAJNgIYIAUhByAJIQogBg0CDAELIAggDSAIIAggDUsbIAYbIgdBAWsgBUkhDAJAAkACQAJAA0AgB0UEQCAQIAUgDSAGGyIHIAggByAISxtqIQ4gCCAJaiEHIBMhCyARIQwDQCAORQRAIAEgCTYCGCAGRQRAIAEgBTYCIAsgACAKNgIIIAAgCTYCBCAAQQE2AgAPCyALRQ0DIAMgB00NBCAOQQFrIQ4gC0EBayELIAIgB2ohFCAMLQAAIAxBAWohDCAHQQFqIQcgFC0AAEYNAAsgCiAPayEKIA8hByAGRQ0GDAcLIAdBAWshByAMRQ0EIAcgCWoiCyADTw0DIAQgB2otAAAgAiALai0AAEYNAAsgByAKaiAIayEKIAUhByAGRQ0EDAULIBIgBUHonsYAEIwHAAsgAyAIIAlqIgAgACADSRsgA0H4nsYAEIwHAAsgCyADQZifxgAQjAcACyAHIAVBiJ/GABCMBwALIAEgBzYCICAHIQ0LIAogBWsiCSADSQ0ACwsgAUEANgIYIABBADYCAAvgAwEHfyMAQdABayIFJAAgACABOgDwASAAKAIAIQIgAEECNgIAAkACQCACQQJHBEAgBSACNgIMIAVBEGogAEEEakHAAfwKAAAgBSABIAVBDGoQ1AMCQCAFKAIAIgEgACgCyAEgACgCzAEgBSgCBCICKAIQEQAAIggEQCACKAIAIgAEQCABIAARAwALIAIoAgQiAEUNASABQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyAAakkNAyACQQAgBCAAQSdqSxsNBCABEKICDAELIABBADYCzAEgACgC3AEiBEGAgICAeHJBgICAgHhHBEAgACgC4AEiBkEEaygCACIDQXhxIgdBBEEIIANBA3EiAxsgBGpJDQMgA0EAIAcgBEEnaksbDQQgBhCiAgsgAEGAgICAeDYC3AECQCAAKALoASIERQ0AIAAoAuwBIgYoAgAiAwRAIAQgAxEDAAsgBigCBCIGRQ0AIARBBGsoAgAiA0F4cSIHQQRBCCADQQNxIgMbIAZqSQ0DIANBACAHIAZBJ2pLGw0EIAQQogILIAAgAjYC7AEgACABNgLoAQsgBUHQAWokACAIDwtB7ODBABDdCQALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+UDAQd/IwBB8ABrIgUkACAAIAE6AIwBIAAoAhghAiAAQYCAgIB4NgIYAkACQCACQYCAgIB4RwRAIAUgAjYCECAFQRRqIABBHGpB3AD8CgAAIAVBCGogASAFQRBqENkDAkAgBSgCCCIBIAAoAgQgACgCCCAFKAIMIgIoAhARAAAiCARAIAIoAgAiAARAIAEgABEDAAsgAigCBCIARQ0BIAFBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIABqSQ0DIAJBACAEIABBJ2pLGw0EIAEQogIMAQsgAEEANgIIIAAoAngiBEGAgICAeHJBgICAgHhHBEAgACgCfCIGQQRrKAIAIgNBeHEiB0EEQQggA0EDcSIDGyAEakkNAyADQQAgByAEQSdqSxsNBCAGEKICCyAAQYCAgIB4NgJ4AkAgACgChAEiBEUNACAAKAKIASIGKAIAIgMEQCAEIAMRAwALIAYoAgQiBkUNACAEQQRrKAIAIgNBeHEiB0EEQQggA0EDcSIDGyAGakkNAyADQQAgByAGQSdqSxsNBCAEEKICCyAAIAI2AogBIAAgATYChAELIAVB8ABqJAAgCA8LQezgwQAQ3QkAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuRBAEGfyAAIAEoAgAiBDYCqAEgACABKAIEIgc2AqwBIABBASAEQRZ2IARB////AXFBAEdqIgIgAkEBTRtBgBAgBEELdiAEQf8PcUEAR2oiAiACQYAQTxtBASAEG2wiAkELdDYCpAEgAkENdCIFELYJIQIgACgCsAEiA0GECE8EQCADEJsHCyAAIAI2ArABIAUQtgkhAiAAKAK0ASIDQYQITwRAIAMQmwcLIAAgAjYCtAEgBwR/IAUQtgkhA0EBBUEACyECAkAgACgCAEUNACAAKAIEIgZBhAhJDQAgBhCbBwsgACADNgIEIAAgAjYCACAHQQJJBH9BAAUgBRC2CSEDQQELIQICQCAAKAIIRQ0AIAAoAgwiBkGECEkNACAGEJsHCyAAIAM2AgwgACACNgIIIAdBA0kEf0EABSAFELYJIQNBAQshAgJAIAAoAhBFDQAgACgCFCIGQYQISQ0AIAYQmwcLIAAgAzYCFCAAIAI2AhAgB0EDSQR/QQAFIAUQtgkhBUEBCyECAkAgACgCGEUNACAAKAIcIgNBhAhJDQAgAxCbBwsgACAFNgIcIAAgAjYCGEEBIQICQCABLQAIQQFHBEBBACECDAELIARBAnQQtgkhBAsCQCAAKAI8RQ0AIAAoAkAiAUGECEkNACABEJsHCyAAQgA3ArgBIAAgBDYCQCAAIAI2AjwgAEHAAWpBADoAAAvsAwEIfyMAQSBrIgckAAJAAkACQCAALQC4AUUEQCAAKAJkIQUMAQsgACgCrAEgACgCsAEiBUECdCAFIAAoArQBIgVqQQJ0EOEIIQggBUECdCIGIAAoAmQiBUsNASAAKAJgIQkgByAIELgKIgo2AgAgByAGNgIEIAYgCkcNAiAIIAkgBhDgCSAIQYQISQ0AIAgQmwcLIABCADcCsAEgAEG4AWpBADoAACAFIAJBAnQiBkkEQCAFIQggBiAFayIJIAAoAlwgBWtLBEAgAEHcAGogBSAJQQRBBBCkBSAAKAJkIQgLIAAoAmAiCyAIQQJ0IgxqIQogCUECTwRAIAYgBUF/c2pBAnQiBgRAIApBACAG/AsACyACQQR0IAVBAnRrIAtqIAxqQQRrIQogCCAJakEBayEICyAKQQA2AgAgCEEBaiEGCyAAIAY2AmQCQCAAKAIIQQFHDQAgACgCYCIFIAYgAyAEIAIgACoClAEQ4wEgACgCDCABQQJ0IAEgAmpBAnQQ4QgiABC4CiEBIAcgBjYCBCAHIAE2AgAgASAGRw0CIAAgBSAGEOAJIABBhAhJDQAgABCbBwsgB0EgaiQADwtBACAGIAVB/OvAABDqBwALIAdBADYCCEEAIAcgB0EEaiAHQQhqQeD5xAAQ9QcAC+wDAQh/IwBBIGsiByQAAkACQAJAIAAtALgBRQRAIAAoAmQhBQwBCyAAKAKsASAAKAKwASIFQQJ0IAUgACgCtAEiBWpBAnQQ4QghCCAFQQJ0IgYgACgCZCIFSw0BIAAoAmAhCSAHIAgQuAoiCjYCACAHIAY2AgQgBiAKRw0CIAggCSAGEOAJIAhBhAhJDQAgCBCbBwsgAEIANwKwASAAQbgBakEAOgAAIAUgAkECdCIGSQRAIAUhCCAGIAVrIgkgACgCXCAFa0sEQCAAQdwAaiAFIAlBBEEEEKQFIAAoAmQhCAsgACgCYCILIAhBAnQiDGohCiAJQQJPBEAgBiAFQX9zakECdCIGBEAgCkEAIAb8CwALIAJBBHQgBUECdGsgC2ogDGpBBGshCiAIIAlqQQFrIQgLIApBADYCACAIQQFqIQYLIAAgBjYCZAJAIAAoAhBBAUcNACAAKAJgIgUgBiADIAQgAiAAKgKYARDaAyAAKAIUIAFBAnQgASACakECdBDhCCIAELgKIQEgByAGNgIEIAcgATYCACABIAZHDQIgACAFIAYQ4AkgAEGECEkNACAAEJsHCyAHQSBqJAAPC0EAIAYgBUH868AAEOoHAAsgB0EANgIIQQAgByAHQQRqIAdBCGpB4PnEABD1BwALvQUAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgACgCAEEBaw4YAQIDBAUGBwgJCgsMDQ4PEBESExQVFhcYAAsgASgCACAAKAIEIAAoAgggASgCBCgCDBEAAA8LIABBBGogARCeBA8LIAEoAgBB7KDGAEEYIAEoAgQoAgwRAAAPCyABKAIAQYShxgBBGyABKAIEKAIMEQAADwsgASgCAEGfocYAQRogASgCBCgCDBEAAA8LIAEoAgBBuaHGAEEZIAEoAgQoAgwRAAAPCyABKAIAQdKhxgBBDCABKAIEKAIMEQAADwsgASgCAEHeocYAQRMgASgCBCgCDBEAAA8LIAEoAgBB8aHGAEETIAEoAgQoAgwRAAAPCyABKAIAQYSixgBBDiABKAIEKAIMEQAADwsgASgCAEGSosYAQQ4gASgCBCgCDBEAAA8LIAEoAgBBoKLGAEEMIAEoAgQoAgwRAAAPCyABKAIAQayixgBBDiABKAIEKAIMEQAADwsgASgCAEG6osYAQQ4gASgCBCgCDBEAAA8LIAEoAgBByKLGAEETIAEoAgQoAgwRAAAPCyABKAIAQduixgBBGiABKAIEKAIMEQAADwsgASgCAEH1osYAQT4gASgCBCgCDBEAAA8LIAEoAgBBs6PGAEEUIAEoAgQoAgwRAAAPCyABKAIAQcejxgBBNCABKAIEKAIMEQAADwsgASgCAEH7o8YAQSwgASgCBCgCDBEAAA8LIAEoAgBBp6TGAEEkIAEoAgQoAgwRAAAPCyABKAIAQcukxgBBDiABKAIEKAIMEQAADwsgASgCAEHZpMYAQRMgASgCBCgCDBEAAA8LIAEoAgBB7KTGAEEcIAEoAgQoAgwRAAAPCyABKAIAQYilxgBBGCABKAIEKAIMEQAAC7gDAgl/AX4CQAJAAkAgACgCBCIHRQ0AIAAoAgwiCARAIAAoAgAiAUEIaiEDIAEpAwBCf4VCgIGChIiQoMCAf4MhCgNAIApQBEADQCABQcABayEBIAMpAwAgA0EIaiEDQoCBgoSIkKDAgH+DIgpCgIGChIiQoMCAf1ENAAsgCkKAgYKEiJCgwIB/hSEKCyABIAp6p0EDdkFobGoiAkEYaygCACIEBEAgAkEUaygCACIFQQRrKAIAIgZBeHEiCUEEQQggBkEDcSIGGyAEakkNBCAGQQAgCSAEQSdqSxsNBSAFEKICCyACQQxrKAIAIgQEQCACQQhrKAIAIgJBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIARqSQ0EIAVBACAGIARBJ2pLGw0FIAIQogILIApCAX0gCoMhCiAIQQFrIggNAAsLIAdBGGwiASAHakEhaiIDRQ0AIAAoAgAgAWsiAEEcaygCACIBQXhxIgJBBEEIIAFBA3EiARsgA2pJDQEgAUEAIAIgA0EnaksbDQIgAEEYaxCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvjAwELfyMAQRBrIgYkAAJAAkAgAyAEbCIHQf////8DSw0AIAdBAnQiCUH9////B08NAAJAIAlFBEBBBCELQQAhBwwBCyAJEHEiC0UNAgsgBkEANgIMIAYgCzYCCCAGIAc2AgQCQCAEBEAgBEEBdCEPA0AgDEECdCEOIA1BAXQhByANQQFqIQ0gAyEJA0AgB0EBaiACTw0DAn8gASAHai8AACIFQf//AXEEQCAFQf8HcSEIIAVBgIACcSEKIAVBgPgBcSIFQYD4AUcEQCAKQRB0IQogBUENdEGAgID8AHEgCEENdHJBgICAwANqIApyIAUNAhogCkGAgIDYA3IgCGdBEGsiBUEXdGsgCCAFQf//A3FBCGp0Qf///wNxcgwCCyAKQRB0IQUgBSAIQQ10ckGAgID+B3IgCA0BGiAFQYCAgPwHcgwBCyAFQRB0CyEIIAYoAgQgDEYEQCAGQQRqQazmxwAQ+gUgBigCCCELCyALIA5qIAg2AgAgBiAMQQFqIgw2AgwgDkEEaiEOIAcgD2ohByAJQQFrIgkNAAsgBCANRw0ACwsgACAGKQIENwIAIABBCGogBkEMaigCADYCACAGQRBqJAAPCyAHIAdBAmogAkG85scAEOoHAAtBnObHABD/BwsAC8wDAQV7QQAhBQJAIARFDQAgAS0AACECAkAgBEEPTQRAIAMhAQNAIAEtAAAgAkYNAiABQQFqIQEgBEEBayIEDQALDAILIAL9DyIHIAP9AAAA/SP9ZCIBBEAgAyABaGohAQwBCyADIARqIQYgA0FwcUEQaiEBAkACQAJAIARBwABJDQAgASAGQUBqIgRLDQAgAyADQQ9xa0FAayEBA0AgByABQSBr/QAEAP0jIgggByABQTBrIgL9AAQA/SMiCf1QIAcgAUEQa/0ABAD9IyIK/VAgByAB/QAEAP0jIgv9UP1kDQIgAUEQaiABQUBrIQEgBE0NAAsgAUEwayEBCyABIAZBEGsiBEsNAQNAIAcgAf0AAAD9I/1kIgJFBEAgBCABQRBqIgFPDQEMAwsLIAEgAmhqIQEMAgsCQCAJ/WQiAUUEQCAI/WQiAQ0BIAr9ZCIBRQRAIAv9ZGggAkEwamohAQwECyABaCACQSBqaiEBDAMLIAIgAWhqIQEMAgsgAWggAkEQamohAQwBCyABIAZPDQEgByAGQRBrIgH9AAAA/SP9ZCICBEAgASACaGohAQwBCwwBCyABIANrIQFBASEFCyAAIAE2AgQgACAFNgIAC5gEAQd/IwBBEGsiCCQAIAFBBGohBAJAAkACQAJAAn8gASgCJCIDQQlJBEBBCCEGIAQhByABQSRqDAELIAEoAgghByADIQYgBAsoAgAiCSACTQRAAkACQAJAAkACQCACQQlPBEBBgYCAgHghBSACIAZGDQpBACEFIAJB/////wNLIAJBAnQiBEH8////B0tyDQogA0EJSQ0CIAZBAnQhAyAGQf////8DTQ0BIAMhBAwKC0GBgICAeCEFIANBCUkNCSABQQA2AgAgCUECdCICBEAgBCAHIAL8CgAACyABIAk2AiQgBkECdCIBQf3///8HSSAGQf////8DTXENBCAIIAE2AgwgCEEANgIIQdjmyABBKyAIQQhqQcikwQBBxMzHABDgBgALIANB/f///wdJDQEgAyEEDAgLIAQQcSIDDQFBBCEFDAcLQQQhBSAHIANBBCAEELsCIgNFDQYMBQsgCUECdCIFRQ0EIAMgByAF/AoAAAwECyAHQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiAHEKICDAQLQfTMxwBBIEGUzccAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAEgAjYCJCABIAM2AgggASAJNgIEIAFBATYCAEGBgICAeCEFCyAAIAQ2AgQgACAFNgIAIAhBEGokAAuYBAEHfyMAQRBrIggkAEEEIQQgAUEEaiEFAkACQAJAAkACfyABKAIUIgNBBUkEQCAFIQYgAUEUagwBCyABKAIIIQYgAyEEIAULKAIAIgkgAk0EQAJAAkACQAJAAkAgAkEFTwRAQYGAgIB4IQcgAiAERg0KQQAhByACQf////8DSyACQQJ0IgVB/P///wdLcg0KIANBBUkNAiAEQQJ0IQMgBEH/////A00NASADIQUMCgtBgYCAgHghByADQQVJDQkgAUEANgIAIAlBAnQiAgRAIAUgBiAC/AoAAAsgASAJNgIUIARBAnQiAUH9////B0kgBEH/////A01xDQQgCCABNgIMIAhBADYCCEHY5sgAQSsgCEEIakHIpMEAQcTMxwAQ4AYACyADQf3///8HSQ0BIAMhBQwICyAFEHEiBA0BQQQhBwwHC0EEIQcgBiADQQQgBRC7AiIERQ0GDAULIAlBAnQiA0UNBCAEIAYgA/wKAAAMBAsgBkEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAMgAUEnaksbDQIgBhCiAgwEC0H0zMcAQSBBlM3HABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyABIAI2AhQgASAENgIIIAEgCTYCBCABQQE2AgBBgYCAgHghBwsgACAFNgIEIAAgBzYCACAIQRBqJAALmgMBBH8CQAJAIAAoAiwiAQRAIAAoAigiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCNCIBBEAgACgCMCIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAoAowBIgFFDQAgASABKAIAIgFBAWs2AgAgAUEBRw0AIAAoAowBEN0FCwJAIAAoApABIgFFDQAgASABKAIAIgFBAWs2AgAgAUEBRw0AIAAoApABEN0FCyAAKAI8IgEEQCAAKAI4IgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILIAAoAngiAQRAIAAoAnwiAEEEaygCACIDQXhxIgIgAUEFdCIBQQRBCCADQQNxIgMbckkNASADQQAgAiABQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC50DAQp/IAAoAgAhAwJAAkACQCAAKAIMIgJFDQAgACgCBCEFIAMgACgCCCIBIANBACABIANPG2siASACaiACIAMgAWsiB0sbIgQgAUcEQCAEIAFrIQQgBSABQQxsaiEBA0AgASgCACIGBEAgAUEEaigCACIJQQRrKAIAIghBeHEiCiAGQQJ0IgZBBEEIIAhBA3EiCBtqSQ0EIAhBACAKIAZBJ2pLGw0FIAkQogILIAFBDGohASAEQQFrIgQNAAsLIAIgB00NACACIAdrIgFBACABIAJNGyEBA0AgBSgCACICBEAgBUEEaigCACIHQQRrKAIAIgRBeHEiBiACQQJ0IgJBBEEIIARBA3EiBBtqSQ0DIARBACAGIAJBJ2pLGw0EIAcQogILIAVBDGohBSABQQFrIgENAAsLIAMEQCAAKAIEIgBBBGsoAgAiAUF4cSICIANBDGwiA0EEQQggAUEDcSIBG2pJDQEgAUEAIAIgA0EnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuTBAMHfwF7AX4jAEEwayIEJAAgASgCACEIAkACQAJAAkACQAJAAkACQCABKAIEIgcEQAJAIAdBBE8EQCAIQRxqIQMgB0F8cSIFIQIDQCADIANBCGsgA0EQayADQRhr/VwCAP1WAgAB/VYCAAL9VgIAAyAJ/a4BIQkgA0EgaiEDIAJBBGsiAg0ACyAJIAkgCf0NCAkKCwwNDg8AAQIDAAECA/2uASIJIAkgCf0NBAUGBwABAgMAAQIDAAECA/2uAf0bACECIAUgB0YNAQsgByAFayEGIAVBA3QgCGpBBGohAwNAIAMoAgAgAmohAiADQQhqIQMgBkEBayIGDQALCyABKAIMIgMNAUEAIQMMBAsgASgCDCIDRQ0BDAILIAJBD0sNASADIQYgCCgCBA0BC0EBIQVBACECDAILIAJBACACQQBKG0EBdCECCyACQQBIDQECQCACRQRAQQEhBUEAIQIMAQsgAhBxIgVFDQMLIAMhBgsgBEEANgIQIAQgBTYCDCAEIAI2AgggASkCECEKIAEoAgghASAEIAo3AiQgBCAGNgIgIAQgATYCHCAEIAc2AhggBCAINgIUIARBCGpBjO/BACAEQRRqEMEDDQIgACAEKQIINwIAIABBCGogBEEQaigCADYCACAEQTBqJAAPC0GU7sEAEP8HCwALQZj6xwBB1gAgBEEvakGk7sEAQbTuwQAQ4AYAC/IDAQh/IAEoAgQiBQRAIAEoAgAhBANAAkAgA0EBaiECAn8gAiADIARqLQAAIgjAIglBAE4NABoCQAJAAkACQAJAAkACQAJAAkACQAJAIAgtAPSWQkECaw4DAAECDAtBm9HAACACIARqIAIgBU8bLAAAQUBODQsgA0ECagwKC0Gb0cAAIAIgBGogAiAFTxssAAAhByAIQeABayIGRQ0BIAZBDUYNAgwDC0Gb0cAAIAIgBGogAiAFTxssAAAhBiAIQfABaw4FBAMDAwUDCyAHQWBxQaB/Rw0IDAYLIAdBn39KDQcMBQsgCUEfakH/AXFBDE8EQCAJQX5xQW5HIAdBQE5yDQcMBQsgB0FATg0GDAQLIAlBD2pB/wFxQQJLIAZBQE5yDQUMAgsgBkHwAGpB/wFxQTBPDQQMAQsgBkGPf0oNAwtBm9HAACAEIANBAmoiAmogAiAFTxssAABBv39KDQJBm9HAACAEIANBA2oiAmogAiAFTxssAABBv39KDQIgA0EEagwBC0Gb0cAAIAQgA0ECaiICaiACIAVPGywAAEFATg0BIANBA2oLIgMiAiAFSQ0BCwsgACADNgIEIAAgBDYCACABIAUgAms2AgQgASACIARqNgIAIAAgAiADazYCDCAAIAMgBGo2AggPCyAAQQA2AgAL+AMBB38jAEEQayIHJABBASEJIAEgASgCFCIFQQFqIgY2AhQCQCAGIAEoAhAiCE8NAAJAAkAgASgCDCAGai0AAEEraw4DAQIAAgtBACEJCyABIAVBAmoiBjYCFAsCQAJAAkACfwJAAkAgBiAISQRAIAEgBkEBaiIFNgIUIAEoAgwiCiAGai0AAEEwa0H/AXEiBkEKTw0BAkAgBSAITw0AA0AgBSAKai0AAEEwa0H/AXEiC0EKTw0BIAEgBUEBaiIFNgIUIAZBzJmz5gBHIAtBB0tyIAZBy5mz5gBKcQ0GIAZBCmwgC2ohBiAFIAhHDQALCyAJDQIgBCAGayIFQR91QYCAgIB4cyAFIAZBAEogBCAFSnMbDAMLIAdBCGogASgCDCAIIAYQ+QEgBygCDCECIAcoAgghBEEUEHEiAUUNBCABIAQ2AgwgAUEFNgIAIAAgATYCBCAAQQE2AgAgASACNgIQDAULIAcgCiAIIAUQ+QEgBygCBCECIAcoAgAhBEEUEHEiAUUNAyABIAQ2AgwgAUENNgIAIAAgATYCBCAAQQE2AgAgASACNgIQDAQLIAQgBmoiBUEfdUGAgICAeHMgBSAGQQBIIAQgBUpzGwshBSAAIAEgAiADIAUQ8AQMAgsgACABIAIgA1AgCRDsBQwBCwALIAdBEGokAAvyAwEGfyMAQRBrIgIkACACQQA2AgQCfyABQYABTwRAIAFBP3FBgH9yIQMgAUEGdiEEIAFBgBBJBEAgAiADOgAFIAIgBEHAAXI6AARBAgwCCyABQQx2IQYgBEE/cUGAf3IhBCABQf//A00EQCACIAM6AAYgAiAEOgAFIAIgBkHgAXI6AARBAwwCCyACIAM6AAcgAiAEOgAGIAIgBkE/cUGAf3I6AAUgAiABQRJ2QXByOgAEQQQMAQsgAiABOgAEQQELIQEgAkEIaiAAKAIIKAIAIAJBBGogARCRBAJAAkACQAJAIAItAAgiBkEERwRAIAAoAgQhASAALQAAIgNBBE0gA0EDR3FFBEAgASgCACEDIAFBBGooAgAiBCgCACIFBEAgAyAFEQMACyAEKAIEIgQEQCADQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyAEakkNAyAFQQAgByAEQSdqSxsNBCADEKICCyABQQRrKAIAIgNBeHEiBEEQQRQgA0EDcSIDG0kNBCADQQAgBEE0TxsNBSABEKICCyAAIAIpAwg3AgALIAJBEGokACAGQQRHDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+sDAgd9CX8gACABIAIQzAMgAkEEdCEOIARBAnQiAUFwcSEPIAFBDGpBcHEhECABQQhqQXBxIRFBAiAEIARBAk0bQQJ0QQRqQXBxIRIgACgCYCETIAAoAmQhDUEAIQFBACEAAkACQAJAAkACQANAIAFBBGoiAiANSw0CQwAAgD8gACATaiIMQQhqKAIAIhRBEHZB/wFxs0MAAH9DlSIGIAaSQwAAgL+SIgWLkyAUQRh2s0MAAH9DlSIGIAaSQwAAgL+SIgqLkyIGjEMAAAAAEOAIIQcgDEEPai0AALNDAAB/Q5VDAAAAP5RD2w9JQJQiCBCZAiEJIAgQmwIhCCAAIBBGDQMgACADaiIMIAkgBSAHjCILIAcgBUMAAAAAYBuSIgUgBiAGlCAFIAWUIAogCyAHIApDAAAAAGAbkiIHIAeUkpKRIgWVlDgCACAAIBFGDQQgDEEEaiAJIAcgBZWUOAIAIAAgEkYNBSAMQQhqIAkgBiAFlZQ4AgAgACAPRg0BIAxBDGogCDgCACACIQEgDiAAQRBqIgBHDQALDwsgAUEDaiAEQczVwAAQjAcACyABIAIgDUHc1cAAEOoHAAsgASAEQZzVwAAQjAcACyABQQFqIARBrNXAABCMBwALIAFBAmogBEG81cAAEIwHAAufBQEPfyMAQRBrIgQkAAJAAkACQAJAIAIEQCACQQJ0IgkQcSIIBEAgCEEEayIQLQAAQQNxRSAJRXJFBEAgCEEAIAn8CwALIAkhBgNAIAEoAgAiAyACTw0FIAggA0ECdGogBTYCACABQQRqIQEgBUEBaiEFIAZBBGsiBg0AC0EAIQYgBEEANgIMIARCgICAgMAANwIEQQQhA0EAIQUCQANAIAUgCCAFQQJ0aiILKAIAIgFHBEAgBkEDdCEMA0AgBCgCBCAGRgRAIwBBIGsiAyQAAkACQCAEQQRqIgcoAgAiCkH/////AEsNAEEEIApBAXQiDSANQQRNGyINQQN0IhFB/P///wdLDQAgAyAKBH8gAyAKQQN0NgIcIAMgBygCBDYCFEEEBUEACzYCGCADQQhqQQQgESADQRRqEIUHIAMoAghBAUcNASADKAIQIQ8gAygCDCEOCyAOIA9B4PbHABCTCQALIAMoAgwhCiAHIA02AgAgByAKNgIEIANBIGokACAEKAIIIQMLIAMgDGoiByAFNgIAIAdBBGogATYCACAEIAZBAWoiBjYCDCABIAJPDQMgCygCACEHIAsgCCABQQJ0aiIBKAIANgIAIAEgBzYCACAMQQhqIQwgCygCACIBIAVHDQALCyAFQQFqIgUgAkcNAAsgACAEKQIENwIAIABBCGogBEEMaigCADYCACAQKAIAIgBBeHEiAUEEQQggAEEDcSIAGyAJakkNAyAAQQAgASAJQSdqSxsNBCAIEKICDAYLIAEgAkHw9scAEIwHCwALIABCgICAgMAANwIAIABBCGpBADYCAAwDC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgAyACQdD2xwAQjAcACyAEQRBqJAAL5QMCBH8EfiMAQdAAayIDJAAgA/0MAAAAAAAAAAAAAAAAAAAAAP0LAzggAyABNwMwIAMgAULzytHLp4zZsvQAhTcDICADIAFC7d6R85bM3LfkAIU3AxggAyAANwMoIAMgAELh5JXz1uzZvOwAhTcDECADIABC9crNg9es27fzAIU3AwggAyACLQAAIgU2AkwgA0EIaiIEIANBzABqIgZBBBCCAyAFQQtGBEAgA0EENgJMIAQgBkEEEIIDIAQgAkEBakEEEIIDCyADKQMIIQEgAykDGCEAIAM1AkAhCSADKQM4IQcgAykDICADKQMQIQogA0HQAGokACAHIAlCOIaEIgmFIgdCEIkgByAKfCIHhSIIQhWJIAggACABfCIBQiCJfCIIhSIKQhCJIAogByAAQg2JIAGFIgB8IgFCIIlC/wGFfCIHhSIKQhWJIAogASAAQhGJhSIAIAggCYV8IgFCIIl8IgmFIghCEIkgCCABIABCDYmFIgAgB3wiAUIgiXwiB4UiCEIViSAIIAEgAEIRiYUiACAJfCIBQiCJfCIJhSIIQhCJIAggAEINiSABhSIAIAd8IgFCIIl8IgeFQhWJIABCEYkgAYUiAEINiSAAIAl8hSIAQhGJhSAAIAd8IgBCIImFIACFC/oDAgd/AX4jAEEwayICJAACQAJAAkACQAJAAkAgACgCBCIDDgMBAwIAC0EBIQQgASgCACIFQeCQxgBBByABKAIEIgYoAgwiBxEAAA0EIAIgACgCACIANgIUIAIgAkEUaq1CgICAgNAAhCIJNwMAIAJCATcCJCACQQI2AhwgAkGwkMYANgIYIAIgAjYCICAFIAYgAkEYahDBAw0DQQAhBCADQQN0IgFBCGsiA0UNBCAAIAFqIQggA0EDdiEDIABBCGoiAEEIQQAgAUEIRxtqIQEDQCACIAA2AhQgBUHnkMYAQQIgBxEAAA0EIAIgCTcDACACQgE3AiQgAkECNgIcIAJBsJDGADYCGCACIAI2AiAgBSAGIAJBGGoQwQMNBCABQQhBACABIgAgCEcbaiEBIANBAWsiAw0ACwwEC0GQkMYAQQ5BoJDGABDrBwALIAJCgICAgCAiCSAAKAIAIgCthDcDACACIAkgAEEIaq2ENwMIIAEoAgAgASgCBCACQgI3AiQgAkEDNgIcIAJByJDGADYCGCACIAI2AiAgAkEYahDBAyEEDAILIAIgADUCAEKAgICAIIQ3AwAgASgCACABKAIEIAJCATcCJCACQQI2AhwgAkGwkMYANgIYIAIgAjYCICACQRhqEMEDIQQMAQtBASEECyACQTBqJAAgBAuVBAEHfyMAQRBrIgkkAEEgIQQgASgChAEiAyEGIAFBBGoiBSEHIANBIU8EQCABKAIEIQYgASgCCCEHIAMhBAsCQAJAAkACQCACIAZPBEACQAJAAkACQAJAIAJBIU8EQEGBgICAeCEIIAIgBEYNCkEAIQggAkH/////A0sgAkECdCIFQfz///8HS3INCiADQSFJDQIgBEECdCEDIARB/////wNNDQEgAyEFDAoLQYGAgIB4IQggA0EhSQ0JIAFBADYCACAGQQJ0IgIEQCAFIAcgAvwKAAALIAEgBjYChAEgBEECdCIDQf3///8HSSAEQf////8DTXENBCAJIAM2AgwgCUEANgIIQdjmyABBKyAJQQhqQbTMxwBBxMzHABDgBgALIANB/f///wdJDQEgAyEFDAgLIAUQcSIEDQFBBCEIDAcLQQQhCCAHIANBBCAFELsCIgRFDQYMBQsgBkECdCIDRQ0EIAQgByAD/AoAAAwECyAHQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyADakkNASABQQAgAiADQSdqSxsNAiAHEKICDAQLQfTMxwBBIEGUzccAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAEgAjYChAEgASAENgIIIAEgBjYCBCABQQE2AgBBgYCAgHghCAsgACAFNgIEIAAgCDYCACAJQRBqJAALkgQBB38jAEEQayIJJABBBCEEIAEoAhQiAyEGIAFBBGoiBSEHIANBBU8EQCABKAIEIQYgASgCCCEHIAMhBAsCQAJAAkACQCACIAZPBEACQAJAAkACQAJAIAJBBU8EQEGBgICAeCEIIAIgBEYNCkEAIQggAkH/////A0sgAkECdCIFQfz///8HS3INCiADQQVJDQIgBEECdCEDIARB/////wNNDQEgAyEFDAoLQYGAgIB4IQggA0EFSQ0JIAFBADYCACAGQQJ0IgIEQCAFIAcgAvwKAAALIAEgBjYCFCAEQQJ0IgNB/f///wdJIARB/////wNNcQ0EIAkgAzYCDCAJQQA2AghB2ObIAEErIAlBCGpBtMzHAEHEzMcAEOAGAAsgA0H9////B0kNASADIQUMCAsgBRBxIgQNAUEEIQgMBwtBBCEIIAcgA0EEIAUQuwIiBEUNBgwFCyAGQQJ0IgNFDQQgBCAHIAP8CgAADAQLIAdBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIANqSQ0BIAFBACACIANBJ2pLGw0CIAcQogIMBAtB9MzHAEEgQZTNxwAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgASACNgIUIAEgBDYCCCABIAY2AgQgAUEBNgIAQYGAgIB4IQgLIAAgBTYCBCAAIAg2AgAgCUEQaiQAC5IEAQd/IwBBEGsiCSQAQQghBCABKAIkIgMhBiABQQRqIgUhByADQQlPBEAgASgCBCEGIAEoAgghByADIQQLAkACQAJAAkAgAiAGTwRAAkACQAJAAkACQCACQQlPBEBBgYCAgHghCCACIARGDQpBACEIIAJB/////wNLIAJBAnQiBUH8////B0tyDQogA0EJSQ0CIARBAnQhAyAEQf////8DTQ0BIAMhBQwKC0GBgICAeCEIIANBCUkNCSABQQA2AgAgBkECdCICBEAgBSAHIAL8CgAACyABIAY2AiQgBEECdCIDQf3///8HSSAEQf////8DTXENBCAJIAM2AgwgCUEANgIIQdjmyABBKyAJQQhqQbTMxwBBxMzHABDgBgALIANB/f///wdJDQEgAyEFDAgLIAUQcSIEDQFBBCEIDAcLQQQhCCAHIANBBCAFELsCIgRFDQYMBQsgBkECdCIDRQ0EIAQgByAD/AoAAAwECyAHQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyADakkNASABQQAgAiADQSdqSxsNAiAHEKICDAQLQfTMxwBBIEGUzccAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAEgAjYCJCABIAQ2AgggASAGNgIEIAFBATYCAEGBgICAeCEICyAAIAU2AgQgACAINgIAIAlBEGokAAuPAwEEfwJAAkACQCAALQAAIgFBBEYgAUECRnINACAAKAIEIgFFDQAgACgCCCIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCwJAIAAtABAiAUEERiABQQJGcg0AIAAoAhQiAUUNACAAKAIYIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQogILAkAgAC0AICIBQQRGIAFBAkZyDQAgACgCJCIBRQ0AIAAoAigiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsCQCAALQAwIgFBBEYgAUECRnINACAAKAI0IgFFDQAgACgCOCIAQQRrKAIAIgNBeHEiAkEEQQggA0EDcSIDGyABakkNASADQQAgAiABQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC98DAgR/BH4jAEHQAGsiAyQAIAP9DAAAAAAAAAAAAAAAAAAAAAD9CwM4IAMgATcDMCADIAFC88rRy6eM2bL0AIU3AyAgAyABQu3ekfOWzNy35ACFNwMYIAMgADcDKCADIABC4eSV89bs2bzsAIU3AxAgAyAAQvXKzYPXrNu38wCFNwMIIAMgAi0AACIFNgJMIANBCGoiBCADQcwAaiIGEIsEIAVBC0YEQCADQQQ2AkwgBCAGEIsEIAQgAkEBahCLBAsgAykDCCEBIAMpAxghACADNQJAIQkgAykDOCEHIAMpAyAgAykDECEKIANB0ABqJAAgByAJQjiGhCIJhSIHQhCJIAcgCnwiB4UiCEIViSAIIAAgAXwiAUIgiXwiCIUiCkIQiSAKIAcgAEINiSABhSIAfCIBQiCJQv8BhXwiB4UiCkIViSAKIAEgAEIRiYUiACAIIAmFfCIBQiCJfCIJhSIIQhCJIAggASAAQg2JhSIAIAd8IgFCIIl8IgeFIghCFYkgCCABIABCEYmFIgAgCXwiAUIgiXwiCYUiCEIQiSAIIABCDYkgAYUiACAHfCIBQiCJfCIHhUIViSAAQhGJIAGFIgBCDYkgACAJfIUiAEIRiYUgACAHfCIAQiCJhSAAhQuOBAEFfyMAQSBrIgMkAAJAAkACQCAAKAIAIgFFDQADQAJAIAAoAggiAiAAKAIETw0AIAEgAmotAABBxQBHDQAgACACQQFqNgIIDAILAkAgBEUNACAAKAIQIgFFDQAgAUHwyccAQQMQlwMNAwsgABCJBUH/AXEiAUECRg0CA0ACQAJAAkACQAJAIAAoAgAiBUUNACAAKAIIIgIgACgCBE8NACACIAVqLQAAQfAARw0AIAAgAkEBajYCCCABQQFxDQEgACgCECIBRQ0CIAFBprPFAEEBEJcDDQgMAgsgAUEBcUUNAiAAKAIQIgJFDQJBASEBIAJBq7PFAEEBEJcDRQ0CDAgLIAAoAhAiAUUNACABQeeQxgBBAhCXAw0GCyAAKAIADQEgACgCECICRQ0AQQEhASACQZOzxQBBARCXAw0GCyAEQQFqIQQgACgCACIBDQIMAwsgAyAAEO8CIAMoAgBFBEAgAy0ABCEEIAAoAhAiAgRAQQEhASACQfqyxQBB6rLFACAEQQFxIgIbQRlBECACGxCXAw0GCyAAIAQ6AARBACEBIABBADYCAAwFCyADIAP9AAIA/QsDEAJAIAAoAhAiAUUNACADQRBqIAEQiwINBCAAKAIQIgFFDQAgAUGBtMUAQQMQlwMNBAtBASEBIAAQhgJFDQALCwwBC0EAIQEMAQtBASEBCyADQSBqJAAgAQvTAwEEfwJAAkACQAJAAkAgAkEHTQRAIAINAQwFCyABQQNqQXxxIgQgAUYNASAEIAFrIQUgASAEayEGQQEhAyABIQQDQCAELQAAQS5GDQUgBEEBaiEEIAZBAWoiBg0ACyAFIAJBCGsiA0sNAwwCC0EBIQMgAS0AAEEuRg0DIAJBAUYEQEEAIQMMBAsgAS0AAUEuRg0DIAJBAkYEQEEAIQMMBAsgAS0AAkEuRg0DIAJBA0YEQEEAIQMMBAsgAS0AA0EuRg0DIAJBBEYEQEEAIQMMBAsgAS0ABEEuRg0DIAJBBUYEQEEAIQMMBAsgAS0ABUEuRg0DQQAhAyACQQZGDQMgAS0ABkEuRiEDDAMLIAJBCGshAwsDQEGAgoQIIAEgBWoiBCgCACIGQa7cuPECc2sgBnJBgIKECCAEQQRqKAIAIgRBrty48QJzayAEcnFBgIGChHhxQYCBgoR4Rw0BIAVBCGoiBSADTQ0ACwsgAiAFRgRAQQAhAwwBCyABIAVqIQQgBUF/cyACaiEGA0AgBC0AAEEuRiIDDQEgBEEBaiEEIAYiBUEBayEGIAUNAAsLIAAgAyAALQAEcjoABCAAKAIAIgAoAgAgASACIAAoAgQoAgwRAAAL/wMBBn8jAEHQA2siAiQAIAEtAFgiA0ECRwRAIAJBIGogAUHUAGooAgA2AgAgAkEYaiABQcwAaikCADcDACACQQZqIAFB2wBqLQAAOgAAIAIgAf0AAjz9CwMIIAIgAS8AWTsBBAsgAkH4AWogAkEgaigCADYCACACQfABaiACQRhqKQMANwMAIAJB/wFqIAJBBmotAAA6AAAgAiAC/QADCP0LA+ABIAIgAzoA/AEgAiACLwEEOwD9ASACQSRqIAFBASACQeABaiIBEHICQAJAAkACfyACKAIkQQJGBEAgAigCKCEDIAJBADYCyAMgAkKAgICAEDcCwAMgAkGck8EANgLkASACQqCAgIAONwLoASACIAJBwANqNgLgASADIAEQrwQNAiACKALAAyEEIAIoAsQDIgYgAigCyAMQ7AghASAEBEAgBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgBGpJDQQgBUEAIAcgBEEnaksbDQUgBhCiAgsgAyADKAIAKAIAEQMAQQEMAQsgAkGEAmoiASACQSRqQbwB/AoAACABENIBIQFBAAshAyAAIAE2AgQgACADNgIAIAJB0ANqJAAPC0GgnsYAQTcgAkHPA2pBtJPBAEHYnsYAEOAGAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALogQBBH8jAEEwayICJAACQAJAAkACQAJAAkACQAJAAkACQAJAQQEgAS0AACIDQSRrIANBI00bQf8BcUEBaw4DAwECAAsgAEEFNgIAIAAgASkCBDcCBAwJCyACIAH9AAIA/QsDACACQQA2AhggAkKAgICAEDcCECACQey1xAA2AiAgAkKggICADjcCJCACIAJBEGo2AhwgAiACQRxqEOEEDQIgACACKQIQNwIEIABBDGogAkEYaigCADYCACAAQQI2AgAgAEEANgIQIAItAABBJEcNCCACLQAEQQNHDQggAigCCCIAKAIAIQEgAEEEaigCACIDKAIAIgQEQCABIAQRAwALIAMoAgQiAwRAIAFBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIANqSQ0EIARBACAFIANBJ2pLGw0FIAEQogILIABBBGsoAgAiAUF4cSIDQRBBFCABQQNxIgEbSQ0FIAFBACADQTRPGw0GIAAQogIMCAsgAEEDNgIAIABCAzcDCAwHC0EQEHEiA0UNBSAAQbC7xAA2AhggACADNgIUIABBADsBBCAAQQA2AgAgAyAB/QACAP0LAgAMBgtBoJ7GAEE3IAJBL2pBhLbEAEHYnsYAEOAGAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACwALIAJBMGokAAu9BAEFfyMAQSBrIgEkAAJAAkACQAJAAkADQCAAEM8FIAAoAggiAiAAKAIEIgNGDQEgAiADTw0CIAAoAgAiBSACai0AACIEQdwARwRAIARBIkcEQCABQRA2AhQgACABQRRqEIsHIQAMBwsgACACQQFqNgIIQQAhAAwGCyAAIAJBAWoiBDYCCAJAAkACfyADIARLBEAgACACQQJqIgI2AgggBCAFai0AAAwBCyABQQQ2AhQgAUEMaiAAIAFBFGoQ8wYgAS0ADA0GIAQhAiABLQANC0Eiaw5UAgAAAAAAAAAAAAAAAAIAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAIAAAAAAAIAAAACAAAAAAAAAAIAAAACAAIBAAsgAUEMNgIUIAAgAUEUahCLByEADAYLIAIgA0sNBAJAIAMgAmtBA00EQCAAIAM2AgggAUEENgIUIAFBDGogACABQRRqEPQGDAELIAAgAkEEajYCCCACIAVqIgItAAFBAXQvAYiURiACLQAAQQF0LwGImEZyIAItAAJBAXQvAYiYRnIgAi0AA0EBdC8BiJRGcsFBAE4EQCABQQA7AQwMAQsgAUEMNgIUIAFBDGogACABQRRqEPQGCyABLwEMQQFHDQALIAEoAhAhAAwECyABQQQ2AhQgACABQRRqEIsHIQAMAwsgAiADQbilxgAQjAcACyABKAIQIQAMAQsgAiADIANByKXGABDqBwALIAFBIGokACAAC+EDAwJ/BX4BeyAAKQM4IQcgACkDKCIEIQYCQAJAAkACQAJAAkAgBCAAKQMIIgVSDQAgACkDMCIGIAApAxAiBVINACAHIQYgByAAKQMYIgVRDQELIAUgBlgNACAAQTBqIQJBAiEDA0AgAkEoaikDACEGIAJBGGopAwAiCCEFAkAgBCAIUg0AIAJBIGopAwAiBSACKQMAIgRSDQAgByEEIAYiBSAHUQ0DCyAEIAVYDQIgAkEgaiECIAYhByAIIQQgASADQQFqIgNHDQALDAILIABBMGohAkECIQMDQAJAIAJBKGopAwAhBiACQRhqKQMAIgghBQJAAkAgBCAIUg0AIAJBIGopAwAiBSACKQMAIgRSDQAgByEEIAYiBSAHUQ0BCyAEIAVWDQELIAJBIGohAiAGIQcgCCEEIAEgA0EBaiIDRw0BDAULCyABIANGDQMMAgsgASADRw0BCyABQQF2IQMgAUEFdCAAakEgayECA0AgAP0AAwAhCSAAIAL9AAMA/QsDACACIAn9CwMAIABBEGoiAf0AAwAhCSABIAJBEGoiAf0AAwD9CwMAIAEgCf0LAwAgAkEgayECIABBIGohACADQQFrIgMNAAsMAQsgACABQQAgAUEBcmdBAXRBPnMQqgELC9YDAQt/IwBBEGsiCCQAAkACQAJAAkAgAyAEbCIHQf////8DSw0AIAdBAnQiCkH9////B08NAAJAIApFBEBBBCELQQAhBwwBCyAKEHEiC0UNAgsgCEEANgIMIAggCzYCCCAIIAc2AgQgAxBxIgxFDQEgDEEEayIQKAIAIglBA3EiB0UgA0VyRQRAIAxBACAD/AsACwJAIAQEQCAGIAWTIQZBACEHA0AgDUECdCEOIAdBAWogAyEPIAwhCQNAIAIgB00NAyAJIAEgB2otAAAgCS0AAGoiEToAACAIKAIEIA1GBEAgCEEEakGs6ccAEPoFIAgoAgghCwsgCyAOaiAFIAYgEUH/AXGzQwAAf0OVlJI4AgAgCCANQQFqIg02AgwgCUEBaiEJIA5BBGohDiAEIAdqIQcgD0EBayIPDQALIgcgBEcNAAsgECgCACIJQQNxIQcLIAAgCCkCBDcCACAAQQhqIAhBDGooAgA2AgAgCUF4cSIAQQRBCCAHGyADakkNAyAHQQAgACADQSdqSxsNBCAMEKICIAhBEGokAA8LIAcgAkGc6ccAEIwHAAtBjOnHABD/BwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuOAwEEfwJAAkAgACgCDCICQYCAgIB4ckGAgICAeEcEQCAAKAIQIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIAAoAhhBgICAgHhHBEAgAEEYahD2AgsgACgCACICBEAgACgCBCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAJ4IgJBgICAgHhyQYCAgIB4RwRAIAAoAnwiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsCQCAAKAKEASICRQ0AIAAoAogBIgAoAgAiAwRAIAIgAxEDAAsgACgCBCIARQ0AIAJBBGsoAgAiA0F4cSIBQQRBCCADQQNxIgMbIABqSQ0BIANBACABIABBJ2pLGw0CIAIQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALjAMBBH8CQAJAIAAoAgwiAkGAgICAeHJBgICAgHhHBEAgACgCECIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAIYQYCAgIB4RwRAIABBGGoQ9QILIAAoAgAiAgRAIAAoAgQiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsgACgCWCICQYCAgIB4ckGAgICAeEcEQCAAKAJcIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILAkAgACgCZCICRQ0AIAAoAmgiACgCACIDBEAgAiADEQMACyAAKAIEIgBFDQAgAkEEaygCACIDQXhxIgFBBEEIIANBA3EiAxsgAGpJDQEgA0EAIAEgAEEnaksbDQIgAhCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvJAwINfwF+An8gAyAFQQFrIg0gASgCFCIIaiIHSwRAIAUgASgCECIOayEPIAEoAhwhCyABKAIIIQogASkDACEUA0ACQCABAn8CQCAUIAIgB2oxAACIQgGDUARAIAEgBSAIaiIINgIUIAYNAwwBCyAKIAsgCiAKIAtJGyAGGyIJIAUgBSAJSRshDCACIAhqIRAgCSEHAkACQAJAA0AgByAMRgRAQQAgCyAGGyEMIAohBwNAIAcgDE0EQCABIAUgCGoiAjYCFCAGRQRAIAFBADYCHAsgACACNgIIIAAgCDYCBEEBDAwLIAdBAWsiByAFTw0FIAcgCGoiCSADTw0DIAQgB2otAAAgAiAJai0AAEYNAAsgASAIIA5qIgg2AhQgDyAGRQ0GGgwHCyAHIAhqIhEgA08NAiAHIBBqIRIgBCAHaiAHQQFqIQctAAAgEi0AAEYNAAsgESAKa0EBaiEIIAZFDQMMBQsgCSADQfiexwAQjAcACyADIAggCWoiACAAIANJGyADQYifxwAQjAcACyAHIAVB6J7HABCMBwALQQALIgc2AhwgByELCyAIIA1qIgcgA0kNAAsLIAEgAzYCFEEACyEHIAAgBzYCAAvtAwIFfwF7QQJBAyACQQhGGyEJAkACQCAFBEAgAUEBayADbiEGIAMhByACIQoDQCAGRQ0CIAZBAWshBiAIIAAgB2otAABqIQggAyAHaiEHIApBAWsiCg0ACyAJQQFqIQkLIARFDQECeyAA/VwAAf2JAf2pASAA/VwABf2JAf2pAf2uASILIAJBHHEiBkEIRg0AGiALIAD9XAAJ/YkB/akB/a4BIgsgBkEMRg0AGiALIAD9XAAN/YkB/akB/a4BCyILIAsgC/0NCAkKCwwNDg8AAQIDAAECA/2uASILIAsgC/0NBAUGBwABAgMAAQIDAAECA/2uAf0bACEHIAIgBkcEQCACIAZrIQogACAGakEBaiEGA0AgByAGLQAAaiEHIAZBAWohBiAKQQFrIgoNAAsLIAlBAWohCSAHIAhqIQgMAQsgByABQdjixAAQjAcAC0EBIAlBAWt0IAhqIAl2IgcgB0GAfyAFGyAEGyEEIANBAWohCCABQQFrIgUgA2shBiAFIANuIQVBACEHAkACQANAIAUgB0YNAiACIAZNBEAgAgRAIAAgCGogBCAC/AsACyAGIANrIQYgAyAIaiEIIAIgB0EBaiIHRg0CDAELC0EAIAIgBkG44sQAEOoHAAsPCyAIIAEgAUHI4sQAEOoHAAvdAwIEfgZ/IAEpAxAgASkDGCACEPIDIQUgASgCBCIJIAWncSEHIAVCGYhC/wCDQoGChIiQoMCAAX4hBiABKAIAIQoCQAJAIAItAAAiC0ELRwRAA0AgByAKaikAACIEIAaFIgNCf4UgA0KBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIDUEUEQANAIAogA3qnQQN2IAdqIAlxQWhsaiIMQRhrLQAAIAtGDQQgA0IBfSADgyIDUEUNAAsLIAQgBEIBhoNCgIGChIiQoMCAf4NCAFINAyAHIAhBCGoiCGogCXEhBwwACwALIAIoAAEhCwNAIAcgCmopAAAiBCAGhSIDQn+FIANCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiA1BFBEADQCAKIAN6p0EDdiAHaiAJcUFobGoiDEEYay0AAEELRgRAIAxBF2soAAAgC0YNBAsgA0IBfSADgyIDUEUNAAsLIAQgBEIBhoNCgIGChIiQoMCAf4NQRQ0CIAcgCEEIaiIIaiAJcSEHDAALAAsgAEEMOgAMIAAgATYCBCAAIAw2AgAPCyABKAIIRQRAIAEgAUEQahDAAQsgACABNgIIIAAgBTcDACAAIAIoAAA2AAwgAEEQaiACQQRqLQAAOgAAC40DAQR/AkACQCAAKALQASICQYCAgIB4ckGAgICAeEcEQCAAKALUASIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAIAQQJHBEAgABCKAgsgACgCxAEiAgRAIAAoAsgBIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIAAoAtwBIgJBgICAgHhyQYCAgIB4RwRAIAAoAuABIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILAkAgACgC6AEiAkUNACAAKALsASIAKAIAIgMEQCACIAMRAwALIAAoAgQiAEUNACACQQRrKAIAIgNBeHEiAUEEQQggA0EDcSIDGyAAakkNASADQQAgASAAQSdqSxsNAiACEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC40DAQR/AkACQCAAKALIASICQYCAgIB4ckGAgICAeEcEQCAAKALMASIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAIAQQJHBEAgABDAAgsgACgCvAEiAgRAIAAoAsABIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIAAoAtQBIgJBgICAgHhyQYCAgIB4RwRAIAAoAtgBIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILAkAgACgC4AEiAkUNACAAKALkASIAKAIAIgMEQCACIAMRAwALIAAoAgQiAEUNACACQQRrKAIAIgNBeHEiAUEEQQggA0EDcSIDGyAAakkNASADQQAgASAAQSdqSxsNAiACEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC9wDAQd/IwBBIGsiAyQAIAAoAgwhBAJAAkACQCAAKAIUIgEgACgCECICSQRAA0AgASAEai0AACIFQQlrIgdBF0tBASAHdEGTgIAEcUVyDQIgACABQQFqIgE2AhQgASACRw0ACyACIQELIAMgBCACIAFBAWoiACACIAAgAkkbEPkBIAMoAgQhACADKAIAIQJBFBBxIgFFDQIgASACNgIMIAFBBTYCACABIAA2AhAMAQsgBUHuAEYEQCAAIAFBAWoiBjYCFAJAIAIgBk0NACAAIAFBAmoiBTYCFAJAIAQgBmotAABB9QBHDQAgBSAGIAIgAiAGSRsiBkYNASAAIAFBA2oiBzYCFCAEIAVqLQAAQewARwRAIAchBQwBCyAGIAdGDQEgACABQQRqIgU2AhRBACEBIAQgB2otAABB7ABGDQMLIANBEGogBCACIAUQ+QEgAygCFCEAIAMoAhAhAkEUEHEiAUUNAyABIAI2AgwgAUEJNgIAIAEgADYCEAwCCyADQQhqIAQgAiAGEPkBIAMoAgwhACADKAIIIQJBFBBxIgFFDQIgASACNgIMIAFBBTYCACABIAA2AhAMAQsgACADQR9qQcjAwQAQ7gEgABDrBSEBCyADQSBqJAAgAQ8LAAvGAwINfwF+IAMgBUEBayINIAEoAhQiCGoiB0sEQCAFIAEoAhAiDmshDyABKAIcIQsgASgCCCEKIAEpAwAhFANAAkAgAQJ/AkAgFCACIAdqMQAAiEIBg1AEQCABIAUgCGoiCDYCFCAGDQMMAQsgCiALIAogCiALSRsgBhsiCSAFIAUgCUkbIQwgAiAIaiEQIAkhBwJAAkACQANAIAcgDEYEQEEAIAsgBhshDCAKIQcDQCAHIAxNBEAgASAFIAhqIgI2AhQgBkUEQCABQQA2AhwLIAAgAjYCCCAAIAg2AgQgAEEBNgIADwsgB0EBayIHIAVPDQUgByAIaiIJIANPDQMgBCAHai0AACACIAlqLQAARg0ACyABIAggDmoiCDYCFCAPIAZFDQYaDAcLIAcgCGoiESADTw0CIAcgEGohEiAEIAdqIAdBAWohBy0AACASLQAARg0ACyARIAprQQFqIQggBkUNAwwFCyAJIANB+J7HABCMBwALIAMgCCAJaiIAIAAgA0kbIANBiJ/HABCMBwALIAcgBUHonscAEIwHAAtBAAsiBzYCHCAHIQsLIAggDWoiByADSQ0ACwsgASADNgIUIABBADYCAAvzAwIEfwJ9IwBBEGshAiAAvCIDQR92IQQCQAJ9IAACfwJAAkACQAJAIANB/////wdxIgFB0Ni6lQRPBEAgAUGAgID8B0sEQCAADwsgA0EASCIDRSABQZfkxZUES3ENAiADRQ0BIAJDAACAgCAAlTgCCCACKgIIGiABQbTjv5YETQ0BDAcLIAFBmOTF9QNNBEAgAUGAgIDIA00NA0EAIQEgAAwGCyABQZKrlPwDTQ0DCyAAQzuquD+UIARBAnQqAuSwSZL8AAwDCyAAQwAAAH+UDwsgAiAAQwAAAH+SOAIMIAIqAgwaIABDAACAP5IPCyAERSAEawsiAbIiBUMAcjG/lJIiACAFQ46+vzWUIgaTCyEFIAAgBSAFIAUgBZQiACAAQxVSNbuUQ4+qKj6SlJMiAJRDAAAAQCAAk5UgBpOSQwAAgD+SIQUgAUUNAAJAAkACQCABQf8ATARAIAFBgn9ODQMgBUMAAIAMlCEFIAFBm35NDQEgAUHmAGohAQwDCyAFQwAAAH+UIQUgAUH+AUsNASABQf8AayEBDAILIAVDAACADJQhBUG2fSABIAFBtn1NG0HMAWohAQwBCyAFQwAAAH+UIQVB/QIgASABQf0CTxtB/gFrIQELIAUgAUEXdEGAgID8A2pBgICA/AdxvpQhBQsgBQuiAwEFfyAALwEcIQECf0EAIAAvAR4iAkH//wFxIgNBgPgBSw0AGkEAIAFB//8BcSIEQYD4AUsNABogAsFBAE4EQCABIAJJIAHBQQBODQEaIAIgBHJBAEcMAQsgAcFBAEggASACS3ELIQQgAiABIAQbIAEgA0GB+AFJGyEBAkAgAC8BICIAQf//AXEiAkGA+AFLDQAgAUH//wFxIgNBgPgBSw0AIADBQQBOBEAgAcFBAE4EQCAAIAFB//8DcUshBQwCCyAAIANyQQBHIQUMAQsgAcFBAEggACABQf//A3FJcSEFCwJ/IAAgASAFGyABIAJBgfgBSRsiAUH//wFxRQRAIAFBEHQMAQsgAUH/B3EhACABQYCAAnEhAiABQYD4AXEiAUGA+AFGBEAgAkEQdCIBQYCAgPwHciAARQ0BGiABIABBDXRyQYCAgP4HcgwBCyACQRB0IgIgAUENdEGAgID8AHEgAEENdHJBgICAwANqciABDQAaIAJBgICA2ANyIABnQRBrIgFBF3RrIAAgAUH//wNxQQhqdEH///8DcXILvhCJBAugAwIGfwZ+QQQhAyAAIAAoAjhBBGo2AjhBBCECAn4CQCAAKAI8IgRFDQBBCCAEayIFQQQgBUEESSIHGyEGAn4gBwRAQQAhAkIADAELIAE1AAALIQggBiACQQFySwRAIAEgAmozAAAgAkEDdK2GIAiEIQggAkECciECCyAAIAApAzAgAiAGSQR+IAEgAmoxAAAgAkEDdK2GIAiEBSAICyAEQQN0QThxrYaEIgg3AzAgBUEFTwRAIAAgBEEEajYCPA8LIAAgACkDGCAIhSIJIAApAwh8IgsgACkDECIKQg2JIAogACkDAHwiCoUiDHwiDSAMQhGJhTcDECAAIA1CIIk3AwggACALIAlCEImFIglCFYkgCSAKQiCJfCIJhTcDGCAAIAggCYU3AwAgBEEEayECIARBCEYNAEEAIQNCAAwBC0EAIQUgATUAAAshCCACIANBAXJLBEAgASAFaiADajMAACADQQN0rYYgCIQhCCADQQJyIQMLIAAgAiADSwR+IAEgAyAFamoxAAAgA0EDdK2GIAiEBSAICzcDMCAAIAI2AjwL3wMCBX8BfiMAQTBrIgQkAAJAAkACQAJAAkACQAJAIAEgAigCLBETACIIQv////8PVg0AIAinIgNBAEgNACADQQF2IQcCQCADQf7///8HcSIGRQRAQQIhAwwBCyAGEHEiA0UNAiADQQRrLQAAQQNxRSAGRXJFBEAgA0EAIAb8CwALIAchBQsgBEEIaiABIAMgBiACKAI0EQYAIAQoAghBBkcEQCAAIAT9AAMI/QsDACAAQSBqIARBKGopAwA3AwAgAEEQaiAEQRhq/QADAP0LAwAgBUUNByADQQRrKAIAIgBBeHEiASAFQQF0IgJBBEEIIABBA3EiABtqSQ0DIABBACABIAJBJ2pLGw0EIAMQogIMBwsgACAHNgIMIAAgAzYCCCAAIAU2AgQgAEEGNgIADAYLIABCAzcDCCAAQQM2AgAgAigCACIABEAgASAAEQMACyACKAIEIgBFDQUgAUEEaygCACICQXhxIgVBBEEIIAJBA3EiAhsgAGpJDQMgAkEAIAUgAEEnaksbDQQgARCiAgwFCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgBEEwaiQAC98DAgV/AX4jAEEwayIEJAACQAJAAkACQAJAAkACQCABIAIoAiwREwAiCEL/////D1YNACAIpyIDQQBIDQAgA0ECdiEHAkAgA0H8////B3EiBkUEQEEEIQMMAQsgBhBxIgNFDQIgA0EEay0AAEEDcUUgBkVyRQRAIANBACAG/AsACyAHIQULIARBCGogASADIAYgAigCNBEGACAEKAIIQQZHBEAgACAE/QADCP0LAwAgAEEgaiAEQShqKQMANwMAIABBEGogBEEYav0AAwD9CwMAIAVFDQcgA0EEaygCACIAQXhxIgEgBUECdCICQQRBCCAAQQNxIgAbakkNAyAAQQAgASACQSdqSxsNBCADEKICDAcLIAAgBzYCDCAAIAM2AgggACAFNgIEIABBBjYCAAwGCyAAQgM3AwggAEEDNgIAIAIoAgAiAARAIAEgABEDAAsgAigCBCIARQ0FIAFBBGsoAgAiAkF4cSIFQQRBCCACQQNxIgIbIABqSQ0DIAJBACAFIABBJ2pLGw0EIAEQogIMBQsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIARBMGokAAveAwEKfyMAQSBrIgMkACADQQA2AhAgA0KAgICAwAA3AgggA0EANgIcIANCgICAgMAANwIUIAEoAgghByABKAIAIQgCQAJAAkAgASgCBCIGIAEoAgwiCkcEQCACKAIIIQsgAigCBCEJIAIoAgAhDEEEIQIDQCAGQQRqKAIAIgEgCUEIaigCACIFTw0CAkAgCUEEaigCACABQSRsaiAMLQAAQQJ0QQxxaioCCCALKgIAXUUEQCADKAIUIARGBEAgA0EUakHEk8EAEIsGIAMoAhghAgsgAiAEQQJ0aiABNgIAIAMgBEEBaiIENgIcDAELIAMoAhAiBSADKAIIRgRAIANBCGpB1JPBABCLBgsgAygCDCAFQQJ0aiABNgIAIAMgBUEBajYCEAsgBkEIaiIGIApHDQALCyAHBEAgCEEEaygCACIBQXhxIgIgB0EDdCIEQQRBCCABQQNxIgEbakkNAiABQQAgAiAEQSdqSxsNAyAIEKICCyAAIAMpAgg3AgAgACADKQIUNwIMIABBCGogA0EQaigCADYCACAAQRRqIANBHGooAgA2AgAgA0EgaiQADwsgASAFQdTAxwAQjAcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAv7AwIGfwF7IwBBMGsiBCQAIARBGGr9DAAAAAAAAAAAAAAAAAAAAAD9CwMAIAQgCf0LAwgCQAJAAkACQAJAAkADQAJAIARBKGogASAEQQhqQSAQ5AICQAJAIAQtACgiA0EERwRAAkAgA0EBaw4DAgADCgsgBCgCLC0ACEEjRg0EDAkLIAQoAiwiA0EhTw0CIAIoAgAgAigCCCIBayADSQRAIAIgASADQQFBARCkBSACKAIIIQELIAMEQCACKAIEIAFqIARBCGogA/wKAAALIAAgAzYCBCACIAEgA2o2AgggAEEEOgAADAkLIAQtAClBI0YNAgwHCyAEKAIsIgMtAAhBI0cNBiADKAIAIQUgA0EEaigCACIGKAIAIgcEQCAFIAcRAwALIAYoAgQiBgRAIAVBBGsoAgAiB0F4cSIIQQRBCCAHQQNxIgcbIAZqSQ0DIAdBACAIIAZBJ2pLGw0EIAUQogILIANBBGsoAgAiBUF4cSIGQRBBFCAFQQNxIgUbSQ0EIAVBACAGQTRPGw0FIAMQogIMAQsLQQAgA0EgQfybxwAQ6gcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAAgBCkDKDcCAAsgBEEwaiQAC8kDAQt/IwBBEGsiByQAAkACQAJAAkAgAyAEbCIGQf////8DSw0AIAZBAnQiCUH9////B08NAAJAIAlFBEBBBCEKQQAhBgwBCyAJEHEiCkUNAgsgB0EANgIMIAcgCjYCCCAHIAY2AgQgAxBxIgtFDQEgC0EEayIPKAIAIghBA3EiBkUgA0VyRQRAIAtBACAD/AsACwJAIAQEQEEAIQYDQCAMQQJ0IQ0gBkEBaiADIQ4gCyEIA0AgAiAGTQ0DIAggASAGai0AACAILQAAaiIQOgAAIAcoAgQgDEYEQCAHQQRqQdzpxwAQ+gUgBygCCCEKCyAKIA1qIAUgEMCyQwAA/kKVlDgCACAHIAxBAWoiDDYCDCAIQQFqIQggDUEEaiENIAQgBmohBiAOQQFrIg4NAAsiBiAERw0ACyAPKAIAIghBA3EhBgsgACAHKQIENwIAIABBCGogB0EMaigCADYCACAIQXhxIgBBBEEIIAYbIANqSQ0DIAZBACAAIANBJ2pLGw0EIAsQogIgB0EQaiQADwsgBiACQczpxwAQjAcAC0G86ccAEP8HCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC94DAQN/IwBBIGsiBSQAIAEoAhBFBEAgAUF/NgIQIAVBCiACIAMQqQMCQAJAIAUoAgBBAXEEQCADIAUoAgRBAWoiBE8NASAFQQA2AhggBUEBNgIMIAVBiILIADYCCCAFQgQ3AhAgBUEIakHMjcgAEI0IAAsCQCABKAIcIgRFBEBBACEEDAELIAEoAhggBGpBAWstAABBCkcNAEEAIQQgAUEANgIcIAFBADoAIAsgASgCFCAEayADTQRAIAAgAUEUaiACIAMQ/QYMAgsgAwRAIAEoAhggBGogAiAD/AoAAAsgAEEEOgAAIAEgAyAEajYCHAwBCwJAIAEoAhwiBkUNAAJAAkAgASgCFCAGayAETQRAIAVBCGogAUEUaiACIAQQ/QYgBS0ACEEERg0BIAAgBSkDCDcCAAwECyAEBEAgASgCGCAGaiACIAT8CgAACyABIAQgBmoiBjYCHAwBCyABKAIcIQYLIAZFDQAgAUEANgIcIAFBADoAIAsgAiAEaiEGIAMgBGsiAiABKAIUTwRAIAAgAUEUaiAGIAIQ/QYMAQsgAgRAIAEoAhggBiAC/AoAAAsgAEEEOgAAIAEgAjYCHAsgASABKAIQQQFqNgIQIAVBIGokAA8LQaiHyAAQsAoAC5cDAQV/AkACQAJAAkACQCABRQRAIABFDQEgAEEIayIBKAIAQQFHDQIgACgCECEGIAAoAgwhBSAAKAIIIQQgACgCBCECIAFBADYCAAJAIAFBf0YNACAAQQRrIgMgAygCAEEBayIDNgIAIAMNACAAQQxrKAIAIgBBeHEiA0EgQSQgAEEDcSIAG0kNBSAAQQAgA0HEAE8bDQYgARCiAgsgBCgCACIABEAgAiAAEQMACyAEKAIEIgAEQCACQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyAAakkNBSABQQAgBCAAQSdqSxsNBiACEKICCyAGKAIAIgAEQCAFIAARAwALIAYoAgQiAEUNAyAFQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyAAakkNBCABQQAgAiAAQSdqSxsNBSAFEKICDAMLIABFDQAgAEEIayIAIAAoAgBBAWsiATYCACABDQIgABDXBA8LEI4KAAtBjNrAAEE/EI8KAAsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvnBAIHfwJ9Qay2yQAoAgAiAkGktskAKAIARgRAIwBBIGsiASQAAkBBpLbJACgCACIEQdWq1SpNBH9BBCAEQQF0IgMgA0EETRsiA0EMbCEGIAEgBAR/IAEgBEEMbDYCHCABQai2yQAoAgA2AhRBBAVBAAs2AhggAUEIakEEIAYgAUEUahCFByABKAIIQQFHDQEgASgCECEDIAEoAgwFQQALIANByJXBABCTCQALQai2yQAgASgCDDYCAEGktskAIAM2AgAgAUEgaiQAC0GotskAKAIAIgEgAkEMbGoiAyAAKQIANwIAIANBCGoiBCAAQQhqKAIANgIAQay2yQAgAkEBajYCACAEKAIAIQYgAygCBCEEIAMqAgAhCAJAIAJFDQAgCCAIWwRAIAIhBQNAAkAgASAFIgBBAWsiA0EBdiIFQQxsaiICKgIAIgkgCVsgCCAJX0VxQX8gCCAJYBsiBwRAIAdBAEoNASAAIQUMBAsgAigCBCIHIARHBEAgBCAHSw0BIAAhBQwECyAGIAIoAghLDQAgACEFDAMLIAEgAEEMbGoiACACKQIANwIAIABBCGogAkEIaigCADYCACADQQFLDQALDAELIAIhBQNAAkAgASAFIgBBAWsiA0EBdiIFQQxsaiICKgIAIgkgCVsgCCAJX0VxDQAgAigCBCIHIARHBEAgBCAHSw0BIAAhBQwDCyAGIAIoAghLDQAgACEFDAILIAEgAEEMbGoiACACKQIANwIAIABBCGogAkEIaigCADYCACADQQJPDQALCyABIAVBDGxqIgAgBjYCCCAAIAQ2AgQgACAIOAIAC5UDAQV/AkAgAy0AAyIGIAMtAAQiCGsiBSAFQR91IgVzIAVrQQF0IAMtAAIiBSADLQAFIgdrIgQgBEEfdSIEcyAEa0EBdmogAkH/AXFLDQAgAy0AACADLQABIgJrIgQgBEEfdSIEcyAEayABQf8BcSIESw0AIAIgBWsiAiACQR91IgJzIAJrQf8BcSAESw0AIAQgBSAGayICIAJBH3UiAnMgAmsiAkH/AXFJDQAgBCIFIAMtAAcgAy0ABiIGayIEIARBH3UiBHMgBGtJDQAgBSAGIAdrIgYgBkEfdSIGcyAGa0H/AXFJDQAgByAIayIBIAFBH3UiAXMgAWsiAUH/AXEgBUsNACAAQf8BcSACQf8BcUkEQEEBIAMQ4gUaDwsgAEH/AXEiACABQf8BcSIBSSADEOIFIQIgACABSQ0AIANB/wEgAy0ABSACQQFqQQF1IgBrIgFBACABQQBKGyIBIAFB/wFOGzoABSADQf8AQYB/IAAgAy0AAmpBgAFrIgAgAEGAf0wbIgAgAEH/AE4bQYABczoAAgsLxwMCAn8EfiMAQdAAayIEJAAgBP0MAAAAAAAAAAAAAAAAAAAAAP0LAzggBCABNwMwIAQgAULzytHLp4zZsvQAhTcDICAEIAFC7d6R85bM3LfkAIU3AxggBCAANwMoIAQgAELh5JXz1uzZvOwAhTcDECAEIABC9crNg9es27fzAIU3AwggBEEIaiIFIAIgAxCCAyAEQf8BOgBPIAUgBEHPAGpBARCCAyAEKQMIIQEgBCkDGCEAIARBQGs1AgAhCCAEKQM4IQYgBCkDICAEKQMQIQkgBEHQAGokACAGIAhCOIaEIgiFIgZCEIkgBiAJfCIGhSIHQhWJIAcgACABfCIBQiCJfCIHhSIJQhCJIAkgBiAAQg2JIAGFIgB8IgFCIIlC/wGFfCIGhSIJQhWJIAkgASAAQhGJhSIAIAcgCIV8IgFCIIl8IgiFIgdCEIkgByABIABCDYmFIgAgBnwiAUIgiXwiBoUiB0IViSAHIAEgAEIRiYUiACAIfCIBQiCJfCIIhSIHQhCJIAcgAEINiSABhSIAIAZ8IgFCIIl8IgaFQhWJIABCEYkgAYUiAEINiSAAIAh8hSIAQhGJhSAAIAZ8IgBCIImFIACFC9wDAgN9BH8gACABIAIQzAMCQAJAAkAgAgRAIAAqAoQBIAAqAoABIgaTIQcgACgCYCEBIAAoAmQhC0EBIQgDQCAKQQNqIAtPDQIgCEEBayIJIARPBEAgCSEIDAULIAQgCWsiCUEAIAQgCU8bIglBAUYNBCAJQQJGDQNDAAB/Q0MAAAAAIAMqAgAgBpMgB5VDAAB/Q5QiBSAFQwAAAABdGyIFIAVDAAB/Q14bELkHIQUgASABLQADQRh0Qf8BIAX8AUEAIAVDAAAAAGAbIAVDAAB/Q14bckH/AUMAAH9DQwAAAAAgA0EEaioCACAGkyAHlUMAAH9DlCIFIAVDAAAAAF0bIgUgBUMAAH9DXhsQuQciBfwBQQAgBUMAAAAAYBsgBUMAAH9DXhtBCHRyQf8BQwAAf0NDAAAAACADQQhqKgIAIAaTIAeVQwAAf0OUIgUgBUMAAAAAXRsiBSAFQwAAf0NeGxC5ByIF/AFBACAFQwAAAABgGyAFQwAAf0NeG0EQdHI2AgAgAUEQaiEBIApBBGohCiAIQQNqIQggA0EMaiEDIAJBAWsiAg0ACwsgAEEBOgC4AQ8LIAogCkEEaiALQaTgwAAQ6gcACyAIQQFqIQgLIAggBEG04MAAEIwHAAvVAwEKfyMAQSBrIgMkACADQQA2AhAgA0KAgICAwAA3AgggA0EANgIcIANCgICAgMAANwIUIAEoAgghByABKAIAIQgCQAJAAkAgASgCBCIGIAEoAgwiCkcEQCACKAIIIQsgAigCBCEJIAIoAgAhDEEEIQIDQCAGQQRqKAIAIgEgCSgCCCIFTw0CAkAgCSgCBCABQRhsaiAMLQAAQQJ0aioCACALKgIAXUUEQCADKAIUIARGBEAgA0EUakHEk8EAEIsGIAMoAhghAgsgAiAEQQJ0aiABNgIAIAMgBEEBaiIENgIcDAELIAMoAhAiBSADKAIIRgRAIANBCGpB1JPBABCLBgsgAygCDCAFQQJ0aiABNgIAIAMgBUEBajYCEAsgBkEIaiIGIApHDQALCyAHBEAgCEEEaygCACIBQXhxIgIgB0EDdCIEQQRBCCABQQNxIgEbakkNAiABQQAgAiAEQSdqSxsNAyAIEKICCyAAIAMpAgg3AgAgACADKQIUNwIMIABBCGogA0EQaigCADYCACAAQRRqIANBHGooAgA2AgAgA0EgaiQADwsgASAFQdy7xwAQjAcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAv5AwEEfyABQRh2IQIgAUEQdiEDQQghBSABQQh2IQQCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCABQf8BcUHBAGsOGAIPDw8EDw8PAw8PDw8PDw8PBg8PDwEABQ8LIAJB0ABHIARB/wFxQcUAR3IgA0H/AXFBwgBHcg0OIABBAToAAA8LIARB/wFxQdAARyADQf8BcUE4R3INDSACQcwAaw4NBw0NDQ0NDQ0NDQ0NCAYLIARB/wFxQcwAaw4DCQwIDAsgAkHQAEcgBEH/AXFBwwBHcg0LIANB/wFxQcMARg0DDAsLIAJBxgBHIARB/wFxQdgAR3IgA0H/AXFByQBHcg0KIABBCToAAA8LIAJBIEcgBEH/AXFBzQBHciADQf8BcUHQAEdyDQkgAEEKOgAADwsgBEH/AXFByQBHIAJBxgBHciADQf8BcUHGAEdyDQhBACEFCyAAIAU6AAAPCyACQSBHDQYgAEECOgAADwsgAEEDOgAADwsgAEEEOgAADwsgA0H/AXFByQBrDgUBAwMDAgMLIAJByABHIANB/wFxQdAAR3INAiAAQQc6AAAPCyACQc0ARw0BIABBBToAAA8LIAJBxgBHDQAgAEEGOgAADwsgACACOgAEIAAgAzoAAyAAIAQ6AAIgACABOgABIABBCzoAAAuYBQEDfyMAQeApayICJAAgAkEPakEAQdAp/AsAQcAAQYDyAhDBBCIDBEAgA0E/akFAcSIBQgA3AjAgAUHAgAI2AgwgAUEAOgAEIAFBgAg2AgAgAUIANwMQIAH9DAAAAAAAAAAAAAAAAAAAAAD9CwMYIAFBADYCKCABQQE2AkggAUEAOgBAIAFCgYCAgBA3AjggAf0MAAAAAAAAAAAAAAAAAAAAAP0LAkwgAUEAOgCgASABQQA2ApwBIAFBIDYCbCAB/QwAAAAAAAAAAAAAAAAAAAAA/QsEcCABIAFBgPEAajYCCCABQdwAav0MAAAAAAAAAAAAAAAAAAAAAP0LAgAgAUGAAWpCADcDACABQZEBakIANwAAIAFCADcCjAEgAUGhAWogAkEMakHTKfwKAAAgAUH0KmpBAEHYxQD8CwAgAUGA8gI2AshwIAEgAzYCxHAgAUHUAGpBADYCACABQQA2AhQgAUL/////HzcDeCABQYCIPDYCACABQQA6AKABIAFBADYCnAEgAUKAgAI3A5ABIAFBADoAQCABQQE2AjggAUIANwMwIAFB5ABqQX82AgAgAEHUAGpBADYCACAAQgA3AkwgAEE4akEANgIAIABBMGpCADcDACAAQSBq/QwAAAAAAAAAAAAAAAAAAAAA/QsDACAAQRBq/QwAAAAAAAAAAAAAAAAAAAAA/QsDACAA/QwAAAAAAAAAAAAAAAAAAAAA/QsDACAAQQA2AkggAEEdNgJEIABBHjYCQCAAIAE2AjwgAkHgKWokAA8LIAJBfDYCCCACQQA2AgwjAEEQayIAJAAgAEHw5cgANgIMIAAgAkEIajYCCEEAIABBCGpB7JzIACAAQQxqQeycyAAgAkEMakGY58gAEPIEAAuvAwEIfwJAAkACQCAAKAIIIgQgACgCFCICTQRAIAAgBDYCFCACIARGDQEgAiAEayEFIAAoAhAgBEEYbGohAQNAIAFBFGooAgAiAEEFTwRAIAFBCGooAgAiA0EEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNBCACQQAgByAAQSdqSxsNBSADEKICCyABQRhqIQEgBUEBayIFDQALDAELIAIhAyAEIAJrIgYgACgCDCACa0sEQCAAQQxqIAIgBkEEQRgQpAUgACgCFCEDCyAAKAIQIQggBkEDcSIFBEAgAyAFaiAEIAJrIAVrIQYgCCADQRhsaiEBA0AgAUEANgIAIAFBFGpBADYCACABQRhqIQEgBUEBayIFDQALIQMLIAIgBGtBfE0EQCAIIANBGGxqIQEDQCABQQA2AgAgAUHcAGpBADYCACABQcQAakIANwIAIAFBLGpCADcCACABQRRqQgA3AgAgAUHgAGohASADQQRqIQMgBkEEayIGDQALCyAAIAM2AhQLDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALkwQCBn8BfiMAQTBrIgIkACACQQhqrUKAgICAoAyEIQggASgCBCEEIAEoAgAhBUEAIQEDQCACAn8CQAJAAkACQAJAAkACQAJAAkACQCAAIAFqLQAAIgMOKAAHBwcHBwcHBwEDBwcCBwcHBwcHBwcHBwcHBwcHBwcHBwcEBwcHBwUGCyACQgA3AQogAkHc4AA7AQgMCAsgAkIANwEKIAJB3OgBOwEIDAcLIAJCADcBCiACQdzkATsBCAwGCyACQgA3AQogAkHc3AE7AQgMBQsgAkIANwEKIAJB3MQAOwEIDAQLIAJCADcBCiACQdzOADsBCAwDCyADQdwARg0BCyADEOECRQRAIAJBIGoiBiADQQ9xLQDctkU6AAAgAkGw4MCBAzYAGyACIANBBHYtANy2RToAHyADQQFyZ0ECdiIDIAJBGGoiB2pB+wA6AAAgByADQQJrIgNqQdzqATsAACACQRpqQQA6AAAgAkH9ADoAISACQRBqIAYvAQA7AQAgAkEAOwEYIAIgAikBGDcDCEEKDAMLIAIgAzYCCEGAASEDQYEBDAILIAJCADcBCiACQdy4ATsBCAtBACEDQQILOgAVIAIgAzoAFCACIAg3AwAgAkIBNwIkIAJBATYCHCACQaD4xwA2AhggAiACNgIgIAUgBCACQRhqEMEDIgNFBEAgAUEBaiIBQQRHDQELCyACQTBqJAAgAwu0AwICfgt/IwBBIGsiBCQAIAFBCGohDQJAAkADQCANKAIAQQJHDQECfyABKAKcAyIFIAEpA6ADIgMgBa0iAiACIANWG6ciBkYEQEEBIQhBJSEJQQAhCkEAIQtBACEMQQAhBSAHQYB+cUEkcgwBCyAEQQxqIAEgASgCmAMgBmogBSAGa0EAENYBIAQpAhQiAkIoiKchCiACQiCIpyELIAJCGIinIQwgAkIQiKchBSACQgiIpyEJIAQoAhwhDiAEKAIQIQYgAqchCCAGIAQoAgwNABogASABKQOgAyAGrXw3A6ADIAdBgH5xQShyCyIHQf8BcUEoRwRAIAAgCjsACSAAIA42AgwgACALOgAIIAAgDDoAByAAIAU6AAYgACAJOgAFIAAgCDoABCAAIAc6AAAgAEELaiAKQRB2OgAAIABBA2ogB0EYdjoAACAAIAdBCHY7AAEMAwsgCEH/AXFBAkcgCUH/AXFByQBHciAFQf8BcUHFAEcgDEH/AXFBzgBHcnIgC0H/AXFBxABHcg0AC0Gk+MYAQShBnJjHABDrBwALIABBKDoAACAAIA02AgQLIARBIGokAAvuAwEJfQJ9IAAqAgwiA0MAAAAAXUUEQCAAKgIEIQUgACoCACEGIAAqAggMAQsgA4whAyAAKgIEjCEFIAAqAgCMIQYgACoCCIwLIQhDAACAPyEEQwAAgD8gAyADQwAAgD9eGxD2BCICIAKSIglDAAAAP5QQmQIiAotDvTeGNV1FBEAgBSAClSEHIAYgApUhBCAIIAKVIQELIAcgB4sgBIuSIAGLkiIDlSECIAQgA5UhAwJAIAFDAAAAAF1FBEAgAiEBDAELQwAAgD8gA4uTIgEgAYwgAkMAAAAAYBshAUMAAIA/IAKLkyICIAKMIANDAAAAAGAbIQMLQf8BQwAAf0NDAAAAACAJQ9sPSUCVQwAAf0OUIgIgAkMAAAAAXRsiAiACQwAAf0NeGxC5ByIC/AFBACACQwAAAABgGyACQwAAf0NeG0EQdEH/AUMAAH9DQwAAAAAgAUMAAIA/kkMAAAA/lEMAAH9DlCIBIAFDAAAAAF0bIgEgAUMAAH9DXhsQuQciAfwBQQAgAUMAAAAAYBsgAUMAAH9DXhtBCHRyQf8BQwAAf0NDAAAAACADQwAAgD+SQwAAAD+UQwAAf0OUIgEgAUMAAAAAXRsiASABQwAAf0NeGxC5ByIB/AFBACABQwAAAABgGyABQwAAf0NeG3IL4wMBBH8jAEFAaiICJAACQAJAAkACQAJAAkACQAJAIAAtAABBAWsOAwECAwALIAIgACgCBDYCBEEUEHEiAEUNBCAAQRBqQdyCyAAoAAA2AAAgAEHMgsgA/QAAAP0LAAAgAkEUNgIQIAIgADYCDCACQRQ2AgggAiACQQRqrUKAgICA8AGENwMgIAIgAkEIaq1CgICAgJAIhDcDGCABKAIAIAEoAgQgAkICNwI0IAJBAzYCLCACQZCHyAA2AiggAiACQRhqNgIwIAJBKGoQwQMhACACKAIIIgFFDQMgAigCDCIEQQRrKAIAIgNBeHEiBUEEQQggA0EDcSIDGyABakkNBSADQQAgBSABQSdqSxsNBiAEEKICDAMLIAIgAC0AAUECdCIAKAKspEk2AhwgAiAAKALUpUk2AhggAiACQRhqrUKAgICAoAGENwMIIAEoAgAgASgCBCACQgE3AjQgAkEBNgIsIAJBoPjHADYCKCACIAJBCGo2AjAgAkEoahDBAyEADAILIAEgACgCBCIAKAIAIAAoAgQQlwMhAAwBCyAAKAIEIgAoAgAgASAAKAIEKAIQEQIAIQALIAJBQGskACAADwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuxAwIHfwF+IwBBIGsiAyQAAkAgAAJ/AkAgASgCFCICIAEoAhAiBUkEQCABKAIMIQcCfgJAA0AgAiAHai0AACIGQQlrIghBF0tBASAIdEGTgIAEcUVyDQEgASACQQFqIgI2AhQgAiAFRw0ACyAFIQJCAAwBC0KAAgsgBq1CEIaEQoCCuANRDQELIANBGGogARCVAyADKAIYIAAgAygCHDYCBEEBagwBCyABIAJBAWoiBDYCFAJAAkAgBCAFTw0AIAEgAkECaiIGNgIUAkAgBCAHai0AAEH1AEcNACAGIAQgBSAEIAVLGyIERg0BIAEgAkEDaiIINgIUIAYgB2otAABB7ABHBEAgCCEGDAELIAQgCEYNASABIAJBBGoiBjYCFEEAIAcgCGotAABB7ABGDQMaCyADQRBqIAcgBSAGEPkBIAMoAhQhBCADKAIQIQFBFBBxIgJFDQMgAkEJNgIADAELIANBCGogByAFIAQQ+QEgAygCDCEEIAMoAgghAUEUEHEiAkUNAiACQQU2AgALIAIgATYCDCAAIAI2AgQgAiAENgIQQQILNgIAIANBIGokAA8LAAv3AwEGfyMAQRBrIgIkAAJAAkACQAJAAkAgASgCAEGUgICAeEYEQCABKAIMIgNFDQEgAiABKAIIIgQQqAMgAigCACIBQYCAgIB4RgRAIAIoAgQhAwwFCyACKAIEIQUCQCADQQFHBEAgAigCCCEHIAIgBEEQahCoAyACKAIAIgRBgICAgHhHDQEgAigCBCEDIAFFDQYgBUEEaygCACIEQXhxIgZBBEEIIARBA3EiBBsgAWpJDQQgBEEAIAYgAUEnaksbDQUgBRCiAgwGC0EBIAJBD2pBlOLAABDbBiEDIAFFDQUgBSABQQEQogcMBQsgAigCBCEGIANBAkcEQCACQQI2AgAgA0H+////AGpB/////wBxQQJqIAJB6JXBABDbBiEDIABBgICAgHg2AgAgACADNgIEIAEEQCAFIAFBARCiBwsgBEUNBiAGIARBARCiBwwGCyAAIAIoAgg2AhQgACAGNgIQIAAgBDYCDCAAIAc2AgggACAFNgIEIAAgATYCAAwFCyABIAJBD2pBlOLAABCVCCEBIABBgICAgHg2AgAgACABNgIEDAQLQQAgAkEPakGU4sAAENsGIQMMAgtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAAgAzYCBCAAQYCAgIB4NgIACyACQRBqJAALxQMCBH8BfiMAQTBrIgUkAAJAAkACQAJAAkACQAJAIAEgAigCLBETACIHQv////8PVg0AIAenIgNBAEgNAAJAIAdQIgYEQEEBIQQMAQsgAxBxIgRFDQIgBEEEay0AAEEDcUUgA0VyDQAgBEEAIAP8CwALIAVBCGogASAEIAMgAigCNBEGACAFKAIIQQZHBEAgACAF/QADCP0LAwAgAEEgaiAFQShqKQMANwMAIABBEGogBUEYav0AAwD9CwMAIAYNByAEQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyADakkNAyAAQQAgASADQSdqSxsNBCAEEKICDAcLIAAgAzYCDCAAIAQ2AgggACADNgIEIABBBjYCAAwGCyAAQgM3AwggAEEDNgIAIAIoAgAiAARAIAEgABEDAAsgAigCBCIARQ0FIAFBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIABqSQ0DIAJBACADIABBJ2pLGw0EIAEQogIMBQsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIAVBMGokAAvfAwIFfwF+IwBBIGsiAiQAIAAoAgghBCAAKAIEIQVBASEDIAEoAgBB6LLFAEEBIAEoAgQoAgwRAAAhAAJAIARFBEAgACEDDAELAkAgAA0AIAEtAApBgAFxBEAgASgCACIAQdz4xwBBASABKAIEIgYoAgwRAAANASACQQE6AA8gAiAGNgIEIAIgADYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgBSACQRBqELoFDQEgAigCEEHZgcIAQQIgAigCFCgCDBEAACEDDAELIAUgARC6BSEDCyAEQQFGDQAgBUEEaiEAIARBAnRBBGshBANAAn9BASADQQFxDQAaAkAgAS0ACkGAAXEEQCABKQIAIQcgAkEBOgAPIAIgBzcCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgACACQRBqELoFRQ0BQQEMAgtBASABKAIAQeeQxgBBAiABKAIEKAIMEQAADQEaIAAgARC6BQwBCyACKAIQQdmBwgBBAiACKAIUKAIMEQAACyEDIABBBGohACAEQQRrIgQNAAsLQQEhACADRQRAIAEoAgBB6bLFAEEBIAEoAgQoAgwRAAAhAAsgAkEgaiQAIAALzAMCBX8DfiMAQTBrIgQkACAEIAM2AgwgBCACNgIIAkACQAJAAkAgASgCDEUNACABKQMQIAEpAxggAiADEJUEIQkgASgCBCIHIAmncSEFIAlCGYhC/wCDQoGChIiQoMCAAX4hCyABKAIAIQEDQAJAIAEgBWopAAAiCiALhSIJQn+FIAlCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiCVBFBEADQCABIAl6p0EDdiAFaiAHcUFobGoiBkEQaygCACADRgRAIAIgBkEUaygCACADENsHRQ0DCyAJQgF9IAmDIglQRQ0ACwsgCiAKQgGGg0KAgYKEiJCgwIB/g1BFDQIgBSAIQQhqIghqIAdxIQUMAQsLIAZBBGsoAgAiAUEASA0CIAZBCGsoAgAhAgJAIAFFBEBBASEDDAELIAEQcSIDRQ0ECyABBEAgAyACIAH8CgAACyAAIAE2AgggACADNgIEIAAgATYCAAwBCyAEQQI2AhQgBEHo1sEANgIQIARCATcCHCAEIARBCGqtQoCAgIAghDcDKCAEIARBKGo2AhggBEEQahCSByEBIABBgICAgHg2AgAgACABNgIECyAEQTBqJAAPC0HYmsgAEP8HCwAL1QMCBH0FfwJAAkAgAgRAIAAoAggiCyABayIJQQAgCSALTRshDUMAAIA/IAAqAkAgAC0AWEECRiIJG0MAAAAAIAAqAjwgCRsiB5MhCCAAKAIEIAFBGGxqQQ5qIQpBACEJQQAhAANAIAAgDUYNAyAJQQNqIgwgBEsgAEHUqtWqBUtyDQJDAAB/Q0MAAAAAIANBBGoqAgAgB5MgCJVDAAB/Q5QiBSAFQwAAAABdGyIFIAVDAAB/Q14bELkHIQUgCkH/AUMAAH9DQwAAAAAgA0EIaioCACAHkyAIlUMAAH9DlCIGIAZDAAAAAF0bIgYgBkMAAH9DXhsQuQciBvwBQQAgBkMAAAAAYBsgBkMAAH9DXhtBEHRB/wEgBfwBQQAgBUMAAAAAYBsgBUMAAH9DXhtBCHRyQf8BQwAAf0NDAAAAACADKgIAIAeTIAiVQwAAf0OUIgUgBUMAAAAAXRsiBSAFQwAAf0NeGxC5ByIF/AFBACAFQwAAAABgGyAFQwAAf0NeG3IiCTsBACAKQQJqIAlBEHY6AAAgA0EMaiEDIApBGGohCiAMIQkgAiAAQQFqIgBHDQALCw8LIAkgDCAEQeTDxwAQ6gcACyAAIAFqIAtB7LvHABCMBwALuQMBB38gACABKAIAIgQ2AqQBIAAgASgCBCIFNgKoASAAQQEgBEEWdiAEQf///wFxQQBHaiICIAJBAU0bQYAQIARBC3YgBEH/D3FBAEdqIgIgAkGAEE8bQQEgBBtsIgJBC3QiBjYCoAEgAkENdCIHELYJIQIgACgCrAEiCEGECE8EQCAIEJsHCyAAIAI2AqwBIAUEQCAGQQF0ELYJIQJBASEDCwJAIAAoAgBFDQAgACgCBCIGQYQISQ0AIAYQmwcLIAAgAjYCBCAAIAM2AgAgBUECSQR/QQAFIAcQtgkhAkEBCyEDAkAgACgCCEUNACAAKAIMIgZBhAhJDQAgBhCbBwsgACACNgIMIAAgAzYCCCAFQQNJBH9BAAUgBxC2CSEDQQELIQICQCAAKAIQRQ0AIAAoAhQiBUGECEkNACAFEJsHCyAAIAM2AhQgACACNgIQQQEhAgJAIAEtAAgiAUEBRwRAQQAhAgwBCyAEQQJ0ELYJIQQLAkAgACgCMEUNACAAKAI0IgNBhAhJDQAgAxCbBwsgAEIANwKwASAAIAE6AJwBIAAgBDYCNCAAIAI2AjAgAEG4AWpBADoAAAvjAwIEfwF+IwBBIGsiAiQAIAAoAgghBCAAKAIEIQUgASgCAEHossUAQQEgASgCBCgCDBEAACEDAkAgBEUEQCADIQAMAQsCf0EBIAMNABogAS0ACkGAAXEEQEEBIAEoAgAiA0Hc+McAQQEgASgCBCIAKAIMEQAADQEaIAJBAToADyACIAA2AgQgAiADNgIAIAJB4IHCADYCFCACIAEpAgg3AhggAiACQQ9qNgIIIAIgAjYCEEEBIAUgAkEQahDKBA0BGiACKAIQQdmBwgBBAiACKAIUKAIMEQAADAELIAUgARDKBAshACAEQQFGDQAgBUEBaiEDIARBAWshBANAIABBAXEhBQJ/QQEgBQ0AGgJAIAEtAApBgAFxBEAgASkCACEGIAJBAToADyACIAY3AgAgAkHggcIANgIUIAIgASkCCDcCGCACIAJBD2o2AgggAiACNgIQIAMgAkEQahDKBEUNAUEBDAILQQEgASgCAEHnkMYAQQIgASgCBCgCDBEAAA0BGiADIAEQygQMAQsgAigCEEHZgcIAQQIgAigCFCgCDBEAAAshACADQQFqIQMgBEEBayIEDQALC0EBIQMgAEUEQCABKAIAQemyxQBBASABKAIEKAIMEQAAIQMLIAJBIGokACADC4sDAQR/IwBBEGsiAyQAAn8CQCABKAIIIgJBgICAEHFFBEAgAkGAgIAgcQ0BQQMhAiAALAAAIgQgBMBBB3UiAHMgAGsiAEH/AXEiBUEKTwRAQQEhAiADIABBAXQiACAAQThqIAVB5ABJG0H+AXEvALi6RTsADCAFQeMASyEAC0EAIAQgAEH/AXEiABtFBEAgAkEBayICIANBC2pqIABBAXQtALm6RToAAAsgASAEQQBOQQFBACADQQtqIAJqQQMgAmsQyAMMAgsgAC0AACECQQMhAANAIAAgA2pBB2ogAkEPcUHctsUAai0AADoAACACQf8BcSIEQQR2IQIgAEEBayEAIARBD0sNAAsgAUEBQYS0xQBBAiAAIANqQQhqQQMgAGsQyAMMAQsgAC0AACECQQMhAANAIAAgA2pBDGogAkEPcUHJgcIAai0AADoAACACQf8BcSIEQQR2IQIgAEEBayEAIARBD0sNAAsgAUEBQYS0xQBBAiAAIANqQQ1qQQMgAGsQyAMLIANBEGokAAuuAwIDfgR/IAAoAgxFBEBBAA8LIAApAxAgACkDGCABEPIDIQIgACgCBCIGIAKncSEFIAJCGYhC/wCDQoGChIiQoMCAAX4hBCAAKAIAIQcCQAJAIAEtAAAiCEELRwRAQQAhAQNAIAUgB2opAAAiAyAEhSICQn+FIAJCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiAlBFBEADQCAIIAcgAnqnQQN2IAVqIAZxQWhsaiIAQRhrLQAARg0FIAJCAX0gAoMiAlBFDQALCyADIANCAYaDQoCBgoSIkKDAgH+DQgBSDQIgBSABQQhqIgFqIAZxIQUMAAsACyABKAABIQhBACEBA0AgBSAHaikAACIDIASFIgJCf4UgAkKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyICUEUEQANAIAcgAnqnQQN2IAVqIAZxQWhsaiIAQRhrLQAAQQtGBEAgCCAAQRdrKAAARg0FCyACQgF9IAKDIgJQRQ0ACwsgAyADQgGGg0KAgYKEiJCgwIB/g1BFDQEgBSABQQhqIgFqIAZxIQUMAAsAC0EAIQALIABBGGtBACAAGwvPAwIDfwF+IwBBIGsiAiQAAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiBEGAgICAeHMgBEEAThtBAWsOCAECAwQFBgcIAAtBASEDIAEgAkEfakGY58AAEJUIIQEMCQsgAS0ABCEBDAgLIAEvAQQhAQwHCyABKAIEIQEMBgsgASkDCCIFQv////8PWARAIAWnIQEMBQtBASEDIAJBAToACCACIAU3AxAgAkEIaiACQR9qQZjnwAAQ3gYhAQwFCyABLAAEIgFBAEgEQCACQQI6AAggAiABrDcDECACQQhqIAJBH2pBmOfAABDeBiEBQQEhAwwFCyABQf8BcSEBDAMLIAEuAQQiAUEASARAIAJBAjoACCACIAGsNwMQIAJBCGogAkEfakGY58AAEN4GIQFBASEDDAQLIAFB//8DcSEBDAILIAEoAgQiAUEATg0BIAJBAjoACCACIAGsNwMQIAJBCGogAkEfakGY58AAEN4GIQFBASEDDAILIAEpAwgiBUKAgICAEFoEQCACQQI6AAggAiAFNwMQIAJBCGogAkEfakGY58AAEN4GIQFBASEDDAILIAWnIQELCyAAIAE2AgQgACADNgIAIAJBIGokAAvPAwIDfwF+IwBBIGsiAiQAAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiBEGAgICAeHMgBEEAThtBAWsOCAECAwQFBgcIAAtBASEDIAEgAkEfakGo58AAEJUIIQEMCQsgAS0ABCEBDAgLIAEvAQQhAQwHCyABKAIEIQEMBgsgASkDCCIFQv////8PWARAIAWnIQEMBQtBASEDIAJBAToACCACIAU3AxAgAkEIaiACQR9qQajnwAAQ3gYhAQwFCyABLAAEIgFBAEgEQCACQQI6AAggAiABrDcDECACQQhqIAJBH2pBqOfAABDeBiEBQQEhAwwFCyABQf8BcSEBDAMLIAEuAQQiAUEASARAIAJBAjoACCACIAGsNwMQIAJBCGogAkEfakGo58AAEN4GIQFBASEDDAQLIAFB//8DcSEBDAILIAEoAgQiAUEATg0BIAJBAjoACCACIAGsNwMQIAJBCGogAkEfakGo58AAEN4GIQFBASEDDAILIAEpAwgiBUKAgICAEFoEQCACQQI6AAggAiAFNwMQIAJBCGogAkEfakGo58AAEN4GIQFBASEDDAILIAWnIQELCyAAIAE2AgQgACADNgIAIAJBIGokAAv6AgEEfwJAAkACQAJAAkACQAJAIAAtAAAOGgAEBAQEBAQEBAQEBAQEBAQEBAQEBAQEBAECBAsgAC0ABEEDRw0DIAAoAggiACgCACECIABBBGooAgAiASgCACIDBEAgAiADEQMACyABKAIEIgEEQCACQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyABakkNBiADQQAgBCABQSdqSxsNBSACEKICCyAAQQRrKAIAIgJBeHEiAUEQQRQgAkEDcSICG0kNBSACRSABQTRJcg0CDAQLIAAoAgQiAkUNAiAAKAIIIgBBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0EIAFFIAMgAkEnak1yDQEMAwsgACgCBCICRQ0BIAAoAggiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQMgAUUgAyACQSdqTXINAAwCCyAAEKICCw8LQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC6gDAwV/AXsBfiMAQZABayICJAAgASgCBCEFIAEoAgAgAiAAKAIAIgT9AAIIIgcgB/0NAAECAwQFBgcICQoLCAkKC/0LBAAgAgJ/IAf9GQYiAUH//wFxRQRAIAFBEHQMAQsgAUH/B3EhACABQYCAAnEhAyABQYD4AXEiAUGA+AFGBEAgA0EQdCEBIAFBgICA/AdyIABFDQEaIAEgAEENdHJBgICA/gdyDAELIANBEHQhAyABQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2ogA3IgAQ0AGiAAIABnQRBrIgBB//8DcUEIanRB////A3EgA0GAgIDYA3IgAEEXdGtyCzYCHCACQSBqIgAgBBCkAyACQTBqIgEgBBCaAyACQUBrIgMgBCkCABDLAiACIAOtQoCAgIDAAoQ3A3AgAkKAgICAoAIiCCABrYQ3A2ggAiAIIACthDcDYCACIAJBHGqtQoCAgIDQAoQ3A1ggAiAIIAKthDcDUCACQgU3AoQBIAJBBjYCfCACQZynxwA2AnggAiACQdAAajYCgAEgBSACQfgAahDBAyACQZABaiQAC8oDAQN/AkAgACgCACIDRQRAIAAoAhAiAEUNASAAQZOzxQBBARCXAw8LAkACfwJAAkAgACgCCCIBIAAoAgRPBEAgACgCECICRQ0BIAJB6rLFAEEQEJcDRQ0BQQEPC0EBIQIgACABQQFqNgIIAkACQAJAAkAgASADai0AAEHOAGsOBQIDAAABAAsgACgCECIBRQ0DIAFB6rLFAEEQEJcDRQ0DDAYLIABBABDVAQ0FIAAoAhAiAQRAIAFB/7TFAEEDEJcDDQYLIABBABDVAUUNBgwFCyAAKAIQIgBFDQUgAEGFtcUAQQUQlwNFDQUMBAsgACAAKAIMQQFqIgE2AgwgAUH0A0sNASAAEK0EDQMDQCAAKAIAIgMEQAJAIAAoAggiASAAKAIETw0AIAEgA2otAABBxQBHDQAgACABQQFqNgIIIAAgACgCDEEBazYCDAwHCyAAKAIQIgEEQCABQYK1xQBBAxCXAw0GCyAAEK0ERQ0BDAULCyAAKAIQIgFFDQAgAUHqssUAQRAQlwMNAwsgAEEAOgAEQQAMAQsgACgCECIBBEAgAUH6ssUAQRkQlwMNAgsgAEEBOgAEQQALIQIgACACNgIACyACDwtBAAuPAwENfyMAQRBrIgYkAAJAIAEtACUNACABKAIEIQcCQCABKAIQIgQgASgCCCIMSw0AIAQgASgCDCICSQ0AIAFBFGoiDSABLQAYIgVqQQFrLQAAIQkgBUEFSSEOA0ACQCACIAdqIQoCQCAEIAJrIgtBB00EQCACIARGDQJBACEDA0AgAyAKai0AACAJRg0CIAsgA0EBaiIDRw0ACwwCCyAGQQhqIAkgCiALEIcFIAYoAghBAXFFDQEgBigCDCEDCyABIAIgA2pBAWoiAjYCDAJAIAIgBUkgAiAMS3INACAOBEAgByACIAVrIgNqIA0gBRDbBw0BIAEoAhwhBCABIAI2AhwgBCAHaiEIIAMgBGshAwwFC0EAIAVBBEHkuMcAEOoHAAsgAiAETQ0BDAILCyABIAQ2AgwLIAFBAToAJQJAIAEtACRBAUYEQCABKAIgIQIgASgCHCEBDAELIAEoAiAiAiABKAIcIgFGDQELIAEgB2ohCCACIAFrIQMLIAAgAzYCBCAAIAg2AgAgBkEQaiQAC70DAgZ/AX4jAEHQAGsiAiQAIAJBIGogACAAKAIAKAIEEQEAIAIgAkEwaq1CgICAgLABhDcDKCACIAIpAyA3AjAgASgCACEFIAEoAgQhBiACQgE3AkRBASEDIAJBATYCPCACQaD4xwA2AjggAiACQShqNgJAAkAgBSAGIAJBOGoQwQMNACABLQAKQYABcUUEQEEAIQMMAQsgAkEYaiAAIAAoAgAoAgQRAQAgAkEQaiACKAIYIAIoAhwoAhgRAQAgAigCECIERQRAQQAhAwwBCyACQQhqIAQgAigCFCIHKAIYEQEAIAIoAgwhACACKAIIIQEgAiAHNgIsIAIgBDYCKCACQQE2AjwgAkGA8cEANgI4IAJCATcCRCACIAJBKGqtQoCAgICwAYQiCDcDMCACIAJBMGo2AkAgBSAGIAJBOGoQngkNAANAIAFFBEBBACEDDAILIAIgASAAKAIYEQEAIAIoAgQgAigCACACIAA2AiwgAiABNgIoIAJBATYCPCACQYDxwQA2AjggAkIBNwJEIAIgCDcDMCACIAJBMGo2AkAhASEAIAUgBiACQThqEJ4JRQ0ACwsgAkHQAGokACADC5QDACAAIARqIQACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCABQf8BcUEBaw4HBwABAgMEBQYLIABBfU0gAEECaiIBIANNcQ0HIAAgASADQbTZxwAQ6gcACyAAQX1NIABBAmoiASADTXENByAAIAEgA0HE2ccAEOoHAAsgAEF7TSAAQQRqIgEgA01xDQcgACABIANB1NnHABDqBwALIABBe00gAEEEaiIBIANNcQ0HIAAgASADQeTZxwAQ6gcACyAAQXtNIABBBGoiASADTXENByAAIAEgA0H02ccAEOoHAAsgAEF3TSAAQQhqIgEgA01xDQcgACABIANBhNrHABDqBwALIAAgA0kNCCAAIANBlNnHABCMBwALIAAgA0kNBiAAIANBpNnHABCMBwALIAAgAmouAACyDwsgACACai8AALMPCyAAIAJqKAAAsg8LIAAgAmooAACzDwsgACACaioAAA8LIAAgAmorAAC2DwsgACACai0AALNDAAB/Q5UPCyAAIAJqLAAAskMAAH9DlQvSAgEFfwJAAkACQAJAAkACQCAAKAIAIgAoAgAOAgABAwsgACgCCCIBRQ0CIAAoAgQiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQQgAkUgBCABQSdqTXINAQwDCyAALQAEQQNHDQEgACgCCCIDKAIAIQEgA0EEaigCACICKAIAIgQEQCABIAQRAwALIAIoAgQiAgRAIAFBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIAJqSQ0EIARBACAFIAJBJ2pLGw0DIAEQogILIANBBGsoAgAiAUF4cSICQRBBFCABQQNxIgEbSQ0DIAFFDQAgAkE0Tw0CCyADEKICCyAAQQRrKAIAIgNBeHEiAUEYQRwgA0EDcSIDG0kNASADQQAgAUE8TxsNACAAEKICDwtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALkgMBBH8CQAJAAkACQAJAAkAgByAIVgRAIAcgCH0gCFgNAyAGIAcgBn1UIAcgBkIBhn0gCEIBhlpxDQIgBiAIWA0GIAcgBiAIfSIGfSAGVg0GIAIgA08NAUEAIAMgAkG4j8IAEOoHAAsgAEEANgIADwsgASADaiEMIAMhCgJAAkACQANAIAoiCUUNASAJQQFrIgogAWoiCy0AAEE5Rg0ACyALIAstAABBAWo6AAAgAyAJTw0BIAkgAyADQfiEwgAQ6gcACwJAIANFBEBBMSEKDAELIAFBMToAAEEwIQogA0EBayIJRSAJRXINACABQQFqQTAgCfwLAAsgBEEBasEiBCAFwUwgAiADTXINASAMIAo6AAAgA0EBaiEDDAELIAMgCUYNACADIAlrIgVFDQAgASAJakEwIAX8CwALIAIgA0kNAgwDCyACIANPDQJBACADIAJByI/CABDqBwALIABBADYCAA8LQQAgAyACQaiPwgAQ6gcACyAAIAQ7AQggACADNgIEIAAgATYCAA8LIABBADYCAAu8AwIFfwF+IwBBIGsiAiQAAkACQAJAAkACQCABLQCYASIDQQhHDQAgAkEJOgAQIAIgASACQRBqIAEoAoABEOQEAkAgAi0AACIDQR1GBEAgAigCBCIEQYCAgIB4Rw0BQQAhAyABQQA6AJgBDAILIAIpAgQhBwJ/IANFBEAgAiAHNwMQIAenIQMgAikCFCEHQQUMAQsgAigCDCEEQRAQcSIBRQ0EIAEgAzoAACABIAQ2AgwgASAHNwIEIAEgAkEBciIDLwAAOwABIAFBA2ogA0ECai0AADoAACACQYAGOwEQIAIoAhAhA0EACyEEIABB7LvEADYCGCAAIAE2AhQgACAHQiCIPgIMIAAgBz4CCCAAIAM2AgQgACAENgIADAILIAIpAgggASACKAIIIAIoAgwQlgFB/wFxIgFBACABQQhHGyIDOgCYASAERQ0ApyIBQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyAEakkNAyAFQQAgBiAEQSdqSxsNBCABEKICCyAAQQY2AgAgACADOgAECyACQSBqJAAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC5QDAQZ/AkAgACgCaEGAgICAeEcNAAJAAkAgACgCpAEiBUEASA0AIAVBAXQiBkH/////B08NAAJ/IAZFBEBBAiEHQQAMAQsgBhBxIgdFDQIgB0EEay0AAEEDcUUgBkVyRQRAIAdBACAG/AsACyAFCyEGIAAgBTYCcCAAIAc2AmwgACAGNgJoDAILQbjewAAQ/wcLAAsCQAJAIAIEQEEAIQUgACgCbCEHIAAoAnAiCSABayIAQQAgACAJTRsiCiACQQFrIgAgACAKSxsiACAEIAAgBEkbIghBB0sEQCAHIAFBAXRqIQAgAyEGIAhBAWoiBSAFQQdxIgVBCCAFG2siBSEIA0AgACAG/QABAP0LAQAgBkEQaiEGIABBEGohACAIQQhrIggNAAsLIAMgBUEBdGohACAHIAEgBWpBAXRqIQYDQCAEIAVGDQMgBSAKRg0CIAYgAC8BADsBACAGQQJqIQYgAEECaiEAIAIgBUEBaiIFRw0ACwsPCyABIAVqIAlB2N7AABCMBwALIAQgBEHI3sAAEIwHAAuYAwEGfwJAIAAoAnRBgICAgHhHDQACQAJAIAAoAqQBIgVB/////wNLDQAgBUECdCIGQf3///8HTw0AAn8gBkUEQEEEIQdBAAwBCyAGEHEiB0UNAiAHQQRrLQAAQQNxRSAGRXJFBEAgB0EAIAb8CwALIAULIQYgACAFNgJ8IAAgBzYCeCAAIAY2AnQMAgtB6N7AABD/BwsACwJAAkAgAgRAQQAhBSAAKAJ4IQcgACgCfCIJIAFrIgBBACAAIAlNGyIKIAJBAWsiACAAIApLGyIAIAQgACAESRsiCEEDSwRAIAcgAUECdGohACADIQYgCEEBaiIFIAVBA3EiBUEEIAUbayIFIQgDQCAAIAb9AAIA/QsCACAGQRBqIQYgAEEQaiEAIAhBBGsiCA0ACwsgAyAFQQJ0aiEAIAcgASAFakECdGohBgNAIAQgBUYNAyAFIApGDQIgBiAAKAIANgIAIAZBBGohBiAAQQRqIQAgAiAFQQFqIgVHDQALCw8LIAEgBWogCUGI38AAEIwHAAsgBCAEQfjewAAQjAcAC5oDAQZ/AkAgACgCjAFBgICAgHhHDQACQAJAIAAoAqgBIgVBAEgNACAFQQF0IgZB/////wdPDQACfyAGRQRAQQIhB0EADAELIAYQcSIHRQ0CIAdBBGstAABBA3FFIAZFckUEQCAHQQAgBvwLAAsgBQshBiAAIAU2ApQBIAAgBzYCkAEgACAGNgKMAQwCC0HIucEAEP8HCwALAkACQCACBEBBACEFIAAoApABIQcgACgClAEiCSABayIAQQAgACAJTRsiCiACQQFrIgAgACAKSxsiACAEIAAgBEkbIghBB0sEQCAHIAFBAXRqIQAgAyEGIAhBAWoiBSAFQQdxIgVBCCAFG2siBSEIA0AgACAG/QABAP0LAQAgBkEQaiEGIABBEGohACAIQQhrIggNAAsLIAMgBUEBdGohACAHIAEgBWpBAXRqIQYDQCAEIAVGDQMgBSAKRg0CIAYgAC8BADsBACAGQQJqIQYgAEECaiEAIAIgBUEBaiIFRw0ACwsPCyABIAVqIAlB6LnBABCMBwALIAQgBEHYucEAEIwHAAueAwEGfwJAIAAoApgBQYCAgIB4Rw0AAkACQCAAKAKoASIFQf////8DSw0AIAVBAnQiBkH9////B08NAAJ/IAZFBEBBBCEHQQAMAQsgBhBxIgdFDQIgB0EEay0AAEEDcUUgBkVyRQRAIAdBACAG/AsACyAFCyEGIAAgBTYCoAEgACAHNgKcASAAIAY2ApgBDAILQfi5wQAQ/wcLAAsCQAJAIAIEQEEAIQUgACgCnAEhByAAKAKgASIJIAFrIgBBACAAIAlNGyIKIAJBAWsiACAAIApLGyIAIAQgACAESRsiCEEDSwRAIAcgAUECdGohACADIQYgCEEBaiIFIAVBA3EiBUEEIAUbayIFIQgDQCAAIAb9AAIA/QsCACAGQRBqIQYgAEEQaiEAIAhBBGsiCA0ACwsgAyAFQQJ0aiEAIAcgASAFakECdGohBgNAIAQgBUYNAyAFIApGDQIgBiAAKAIANgIAIAZBBGohBiAAQQRqIQAgAiAFQQFqIgVHDQALCw8LIAEgBWogCUGYusEAEIwHAAsgBCAEQYi6wQAQjAcAC40DAQV/IwBBIGsiBiQAAkACQAJAAkAgASgCCCIDQQpJDQACQAJAIAEoAgQiBC0AAEEfRw0AIAQtAAFBiwFHDQAgBC0AAkEIRw0AQQohAiAELQADIgVBBHEEQCADQQxJDQMgAyAELwAKQQxqIgJJDQMLIAVBCHFFDQEgAiADTw0CA0AgAiAEai0AAEUEQCACQQFqIQIMAwsgAyACQQFqIgJHDQALDAILIAZBADYCGEEBIQUgBkEBNgIMIAZBvO3HADYCCCAGQgQ3AhAgACAGQQhqEJUHNgIEDAMLIAVBEHEEQCACIANPDQEDQCACIARqLQAABEAgAyACQQFqIgJHDQEMAwsLIAJBAWohAgsgBUECcUUNASADIAJBAmoiAk8NAQtBACEFIABBADoAAQwBCyACIANLDQFBACEFIAFBADYCCCACIANHBEAgAyACayIDBEAgBCACIARqIAP8CgAACyABIAM2AggLIABBAToAAQsgACAFOgAAIAZBIGokAA8LQQAgAiADQYSkxwAQ6gcAC88DAQV/IwBBIGsiAiQAIAAoAgAiA0EIaiEFQQEhAAJAIAMoAgBBAUYEQCABKAIAIgNByMnEAEEDIAEoAgQiBigCDCIEEQAADQECQCABLQAKQYABcUUEQCADQbuzxQBBASAEEQAADQMgBSABEPIFRQ0BDAMLIANB24HCAEECIAQRAAANAiACQQE6AA8gAiAGNgIEIAIgAzYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgBSACQRBqEPIFDQIgAkHZgcIAQQIQrwMNAgsgA0HejsgAQQEgBBEAACEADAELIAEoAgAiA0H8nMgAQQIgASgCBCIGKAIMIgQRAAANAAJAIAEtAApBgAFxRQRAIANBu7PFAEEBIAQRAAANAiAFIAEQxAUNAiABKAIAIQMgASgCBCgCDCEEDAELIANB24HCAEECIAQRAAANASACQQE6AA8gAiAGNgIEIAIgAzYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgBSACQRBqEMQFDQEgAigCEEHZgcIAQQIgAigCFCgCDBEAAA0BCyADQd6OyABBASAEEQAAIQALIAJBIGokACAAC6ADAQJ/IwBB0ABrIgckACAHQQBB0AD8CwACQCACRQRAIAdC//79+/fv37//ADcDAAwBCyABQQN0IgggBE0EQCAEIAhGDQFBCCAEIAhrIgQgBEEITxsiBEUNASAHIAMgCGogBPwKAAAMAQsgCCAEIARByOjEABDqBwALIAACfyABRQRAIAdBgQE6AEcgB0GBAToAPiAHQYEBOgA1IAdBgQE6ACwgB0GBAToAIyAHQYEBOgAaIAdBgQE6ABEgB0GBAToACEGBf0H/ACACGwwBCwJAIAYEQCAGQQFrIgFFDQEgByAFLQABOgAIIAFBAUYNASAHIAUtAAI6ABEgAUECRg0BIAcgBS0AAzoAGiABQQNGDQEgByAFLQAEOgAjIAFBBEYNASAHIAUtAAU6ACwgAUEFRg0BIAcgBS0ABjoANSABQQZGDQEgByAFLQAHOgA+IAFBB0YNASAHIAUtAAg6AEcMAQtBAUEAQQBBuOjEABDqBwALQYF/Qf8AIAIbIAJFDQAaIAUtAAALOgAAIABBAWogB0HQAPwKAAAgB0HQAGokAAuDAwEBfyMAQSBrIgUkACAAAn8CQCAERQRAIANBBGogAksgA0F7S3JFBEAgACABIANqKgAAOAIEDAILIAVBADYCGCAFQQE2AgwgBUHI28EANgIIIAVCBDcCECAAIAVBCGoQkgc2AgRBAQwCCyADQX1NIANBAmogAk1xRQRAIAVBADYCGCAFQQE2AgwgBUHI28EANgIIIAVCBDcCECAAIAVBCGoQkgc2AgRBAQwCCyAAAn8gASADaiIBLQABQQh0IgIgAS0AAHIiAUH//wFxRQRAIAFBEHQMAQsgAUH/B3EhASACQYCAAnEhAyACQYD4AXEiAkGA+AFGBEAgA0EQdCECIAJBgICA/AdyIAFFDQEaIAFBDXQgAnJBgICA/gdyDAELIANBEHQhAyACQQ10QYCAgPwAcSABQQ10ckGAgIDAA2ogA3IgAg0AGiADQYCAgNgDciABZ0EQayICQRd0ayABIAJB//8DcUEIanRB////A3FyCzYCBAtBAAs2AgAgBUEgaiQAC4QDAgJ/AXsCQAJAIARBBE8EQCACIARBBGtBA24iBSACIAVJGyIFQQNNDQEgAiAFQQFqIgIgAkEDcSICQQQgAhtrIgZrIQIgASAGaiAEIAZBfWxqIQQgAyAGQQNsaiEHA0AgAyAAIAH9XAAA/YkB/akBIgj9GwBBAnRqKAAANgAAIANBA2ogACAI/RsBQQJ0aigAADYAACADQQZqIAAgCP0bAkECdGooAAA2AAAgA0EJaiAAIAj9GwNBAnRqKAAANgAAIAFBBGohASADQQxqIQMgBkEEayIGDQALIQEgByEDDAELIAQNAQ8LA0AgAkUEQEEAQQBBpJrFABCMBwALIAMgACABLQAAQQJ0aigAADYAACADQQNqIQMgAkEBayECIAFBAWohASAEQQNrIgRBA0sNAAsLAkAgAgRAIARBA0cNASADIAAgAS0AAEECdGoiAC8AADsAACADQQJqIABBAmotAAA6AAAPC0EAQQBBhJrFABCMBwALQQBBAyAEQZSaxQAQ6gcAC4EDAAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIABB/wFxQQFrDgcHAAECAwQFBgsgA0F9TSADQQJqIgAgAk1xDQcgAyAAIAJBtNjHABDqBwALIANBfU0gA0ECaiIAIAJNcQ0HIAMgACACQcTYxwAQ6gcACyADQXtNIANBBGoiACACTXENByADIAAgAkHU2McAEOoHAAsgA0F7TSADQQRqIgAgAk1xDQcgAyAAIAJB5NjHABDqBwALIANBe00gA0EEaiIAIAJNcQ0HIAMgACACQfTYxwAQ6gcACyADQXdNIANBCGoiACACTXENByADIAAgAkGE2ccAEOoHAAsgAiADTQ0HIAEgA2osAACyDwsgAiADSw0HIAMgAkGk2McAEIwHAAsgASADai4AALIPCyABIANqLwAAsw8LIAEgA2ooAACyDwsgASADaigAALMPCyABIANqKgAADwsgASADaisAALYPCyADIAJBlNjHABCMBwALIAEgA2otAACzC58DAgF+CH8CQAJAAkACQAJAIAAoAgQiBEUNACAAKAIMIggEQCAAKAIAIgJBCGohAyACKQMAQn+FQoCBgoSIkKDAgH+DIQEDQCABUARAA0AgAkGABGshAiADKQMAIANBCGohA0KAgYKEiJCgwIB/gyIBQoCBgoSIkKDAgH9RDQALIAFCgIGChIiQoMCAf4UhAQsgAiABeqdBA3RBwAdxayIFQQRrKAIAIgZBCU8EQCAFQSBrKAIAIgVBBGsoAgAiB0F4cSIJIAZBAnQiBkEEQQggB0EDcSIHG2pJDQQgB0EAIAkgBkEnaksbDQUgBRCiAgsgAUIBfSABgyEBIAhBAWsiCA0ACwsgBEEGdCICIARqQckAaiIDRQ0AIAAoAgAgAmsiAEHEAGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIANqSQ0DIAJBACAEIANBJ2pLGw0EIABBQGoQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC5cDAgh/AX4CQAJAAkACQAJAIAAoAgQiA0UNACAAKAIMIgYEQCAAKAIAIgFBCGohAiABKQMAQn+FQoCBgoSIkKDAgH+DIQkDQCAJUARAA0AgAUGgAWshASACKQMAIAJBCGohAkKAgYKEiJCgwIB/gyIJQoCBgoSIkKDAgH9RDQALIAlCgIGChIiQoMCAf4UhCQsgASAJeqdBA3ZBbGxqIgRBFGsoAgAiBwRAIARBEGsoAgAiBEEEaygCACIFQXhxIghBBEEIIAVBA3EiBRsgB2pJDQQgBUEAIAggB0EnaksbDQUgBBCiAgsgCUIBfSAJgyEJIAZBAWsiBg0ACwsgAyADQRRsQRtqQXhxIgFqQQlqIgJFDQAgACgCACABayIAQQRrKAIAIgFBeHEiA0EEQQggAUEDcSIBGyACakkNAyABQQAgAyACQSdqSxsNBCAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuZAwEFfwJAIABCgICAgBBUBEAgASECDAELIAFBCGsiAiAAIABCgMLXL4AiAEKAvqjQD358pyIDQZDOAG4iBEGQzgBwIgVB5ABuIgZBAXQvALi6RTsAACABQQRrIAMgBEGQzgBsayIDQf//A3FB5ABuIgRBAXQvALi6RTsAACABQQZrIAUgBkHkAGxrQf//A3FBAXQvALi6RTsAACABQQJrIAMgBEHkAGxrQf//A3FBAXQvALi6RTsAAAsCQCAApyIBQZDOAEkEQCABIQMMAQsgAkEEayECA0AgAiABQZDOAG4iA0HwsX9sIAFqIgRB5ABuIgVBAXQvALi6RTsAACACQQJqIAQgBUHkAGxrQQF0LwC4ukU7AAAgAkEEayECIAFB/8HXL0sgAyEBDQALIAJBBGohAgsCQCADQeMATQRAIAMhAQwBCyACQQJrIgIgAyADQf//A3FB5ABuIgFB5ABsa0H//wNxQQF0LwC4ukU7AAALIAFBCU0EQCACQQFrIAFBMHI6AAAPCyACQQJrIAFBAXQvALi6RTsAAAvpAgEFfwJAIAFBzf97QRAgACAAQRBNGyIAa08NACAAQRAgAUELakF4cSABQQtJGyIEakEMahBxIgJFDQAgAkEIayEBAkAgAEEBayIDIAJxRQRAIAEhAAwBCyACQQRrIgUoAgAiBkF4cSACIANqQQAgAGtxQQhrIgIgAEEAIAIgAWtBEE0baiIAIAFrIgJrIQMgBkEDcQRAIAAgAyAAKAIEQQFxckECcjYCBCAAIANqIgMgAygCBEEBcjYCBCAFIAIgBSgCAEEBcXJBAnI2AgAgASACaiIDIAMoAgRBAXI2AgQgASACEOMCDAELIAEoAgAhASAAIAM2AgQgACABIAJqNgIACwJAIAAoAgQiAUEDcUUNACABQXhxIgIgBEEQak0NACAAIAQgAUEBcXJBAnI2AgQgACAEaiIBIAIgBGsiBEEDcjYCBCAAIAJqIgIgAigCBEEBcjYCBCABIAQQ4wILIABBCGohAwsgAwvbAgIEfwF+IwBB0ABrIgQkACAEIAEgAkGYsMUAQQEQ4QEDQCAEQcQAaiAEEJgCIAQoAkQiA0UNAAsCQCAAIAICfyADQQJHBEAgBCgCSAwBCyACCyIDa0EQTQR+IAIgA0cEQCABIAJqIQYgASADaiEDA0ACfyADLAAAIgFBAE4EQCABQf8BcSECIANBAWoMAQsgAy0AAUE/cSEFIAFBH3EhAiABQV9NBEAgAkEGdCAFciECIANBAmoMAQsgAy0AAkE/cSAFQQZ0ciEFIAFBcEkEQCAFIAJBDHRyIQIgA0EDagwBCyACQRJ0QYCA8ABxIAMtAANBP3EgBUEGdHJyIQIgA0EEagshAyACQcEAa0FfcUEKaiACQTBrIAJBOUsbIgFBEE8NAyABrSAHQgSGhCEHIAMgBkcNAAsLIAAgBzcDCEIBBSAHCzcDACAEQdAAaiQADwtBnLDFABDdCQALmgMDA38EfQF7IwBBEGsiBCQAIAEoAgAiAiABKAIERgR/QQAFIAEgAkEEajYCAAJ/AkAgAigCACICIAEoAggiASgCCCIDSQRAIAQgASgCBCACQSRsaiIBEJoDIAT9AAQAIQkgAS8BFCICQf//AXFFBEAgAkEQdAwDCyACQf8HcSEBIAJBgIACcSEDIAJBgPgBcSICQYD4AUYEQCADQRB0IQIgAkGAgID8B3IgAUUNAxogAiABQQ10ckGAgID+B3IMAwsgA0EQdCEDIAJFDQEgAkENdEGAgID8AHEgAUENdHJBgICAwANqIANyDAILIAIgA0HUwMcAEIwHAAsgASABZ0EQayIBQf//A3FBCGp0Qf///wNxIANBgICA2ANyIAFBF3RrcgshASAJ/R8AIgUgCf0fASIGlEOPws0/ELcKIQcgBSAJ/R8CIgWUQ4/CzT8QtwohCCAGIAWUQ4/CzT8QtwogByAIkpJDAABAQJVD5kAfPxC3CkPbD0lBlCABvpQhBUEBCyEBIAAgBTgCBCAAIAE2AgAgBEEQaiQAC/ACAQN/IwBBEGsiAyQAIAAoAgAhAAJ/AkAgASgCCCICQYCAgBBxRQRAIAJBgICAIHENAUEDIQIgAC0AACIAIQQgAEEKTwRAIAMgACAAQeQAbiIEQeQAbGtB/wFxQQF0LwC4ukU7AAxBASECC0EAIAAgBBtFBEAgAkEBayICIANBC2pqIARBAXQtALm6RToAAAsgAUEBQQFBACADQQtqIAJqQQMgAmsQyAMMAgsgAC0AACECQQMhAANAIAAgA2pBB2ogAkEPcUHctsUAai0AADoAACACQf8BcSIEQQR2IQIgAEEBayEAIARBD0sNAAsgAUEBQYS0xQBBAiAAIANqQQhqQQMgAGsQyAMMAQsgAC0AACECQQMhAANAIAAgA2pBDGogAkEPcUHJgcIAai0AADoAACACQf8BcSIEQQR2IQIgAEEBayEAIARBD0sNAAsgAUEBQYS0xQBBAiAAIANqQQ1qQQMgAGsQyAMLIANBEGokAAuHAwEGf0EBIQdBASEFAkACfwJAAkACQAJAIAQtAL4CQQFrDgYAAQUCAAMFCwALQQMhBUEBIQhBACEHDAMLQQEhBkEAIQdBAgwBC0EAIQdBBAshBQsCQCADIAVBAWoiCW4iAyABIAVBAXQiAW4iCiADIApJGyIDRQ0AAkAgBCgCzAFBgYCAgHhGDQAgBCgC1AEgAUcNACAEKALQASEEA0AgAiAALQAAOgAAAkAgBw0AIAJBAWogAEECai0AADoAACAGDQAgAkECaiAAQQRqLQAAOgAAIAgNACACQQNqIABBBmotAAA6AAALIAIgBWpBf0EAIAAgBCABENsHGzoAACAAIAFqIQAgAiAJaiECIANBAWsiAw0ACwwBCwNAIAIgAC0AADoAAAJAIAcNACACQQFqIABBAmotAAA6AAAgBg0AIAJBAmogAEEEai0AADoAACAIDQAgAkEDaiAAQQZqLQAAOgAACyACIAVqQf8BOgAAIAAgAWohACACIAlqIQIgA0EBayIDDQALCwv/AgIFfQV/IAAgASACEMwDIAJBA2whDSAAKAJgQQxqIQFBAiAEIARBAk0bQQNuQQNsIQ4gACoCjAEgACoCiAEiBZNDAAB+Q5UhBiAAKAJkIQpBACECQQAhAAJAAkACQAJAA0AgAkEEaiILIApLDQIgASgCACICQQh2IQxDAAAAACEHQwAAAAAhCCACQf8BcQRAIAUgBiACQQFrQf8BcbOUkhCJBCEICyAMQf8BcQRAIAUgBiAMQQFrQf8BcbOUkhCJBCEHCyACQRB2IgJB/wFxBH0gBSAGIAJBAWtB/wFxs5SSEIkEBUMAAAAACyEJIAAgBE8NAyADIAg4AgAgAEEBaiICIARPDQQgA0EEaiAHOAIAIAAgDkYNASADQQhqIAk4AgAgAUEQaiEBIANBDGohAyALIQIgDSAAQQNqIgBHDQALDwsgAEECaiAEQYzWwAAQjAcACyACIAsgCkGc1sAAEOoHAAsgACAEQezVwAAQjAcACyACIARB/NXAABCMBwALrgMAAn8CQAJAAkACQAJAIAJBA2sOBQMEAQIABAsgAS0AAEH2AEcNAyABLQABQeUARw0DIAEtAAJB8gBHDQMgAS0AA0HzAEcNAyABLQAEQekARw0DIAEtAAVB7wBHDQMgAS0ABkHuAEcNA0EADAQLAkACQAJAIAEtAABB4wBrDg8ABQUFBQUFBQUFAQUFBQIFCyABLQABQe8ARw0EIAEtAAJB9QBHDQQgAS0AA0HuAEcNBCABLQAEQfQARw0EQQEMBQsgAS0AAUHlAEcNAyABLQACQeEARw0DIAEtAANB7gBHDQMgAS0ABEHzAEcNA0ECDAQLIAEtAAFB9QBHDQIgAS0AAkHhAEcNAiABLQADQfQARw0CIAEtAARB8wBHDQJBBAwDCyABLQAAQfMARw0BIAEtAAFB4wBHDQEgAS0AAkHhAEcNASABLQADQewARw0BIAEtAARB5QBHDQEgAS0ABUHzAEcNAUEDDAILIAEtAABB8wBHDQAgAS0AAUHoAEcNAEEFQQZBByABLQACIgFBzgBGGyABQTBGGwwBC0EHCyEBIABBADoAACAAIAE6AAELrgMCCX8CfiADQRB2IQcgA0EIdiEKIAAoAhghBSAAKAIUIQggACgCECEJIAApAwghDSAAKAIEIQsgACgCACEMIAMhBgNAIAVBAEgEQEEAIQQgCSALSQRAIAwgCUECdGooAAAhBAsgBEEYdCAEQYD+A3FBCHRyIARBCHZBgP4DcSAEQRh2cnKtIA1CIIaEIQ0gCUEBaiEJIAVBIGohBQsgBSAIQQFrIAdB/wFxbEEIdkEBaiIEIAggBGsgDSAErSAFQT9xrYYiDlQiBBsiCGciBUEYayIHQQAgBSAHTxsiB2shBSAIIAd0IQggDUIAIA4gBBt9IQ0gBiAKIAQbIgZB/wFxIgQgAkkEQCABIARBAnRqIgYtAAIhByAGLQABIQogBi0AACEGDAELCyAJIAtNBEAgACAFNgIYIAAgCDYCFCAAIAk2AhAgACANNwMIIAZB/wBxDwsCfyADQRh2IQMCQANAIAIgA00NASACIAEgA0ECdGoiAy0AASADLQAAIAAgAy0AAhDRBBsiBkH/AXEiA0sNAAsgBkH/AHEMAQsgAyACQfjhxAAQjAcAC0H/AXELowMCCn8DfiMAQRBrIgUkAAJAAkACQAJAAkACQAJAIAEoAhAiBCgCMCIHDgIFAQALIAQpAxggBCkDICACIAMQlQQhDiAEKAI4IgggDqdxIQYgDkIZiEL/AINCgYKEiJCgwIABfiEQIAQoAjQiCkEEayELIAQoAiwhDANAIAYgCmopAAAiDyAQhSIOQn+FIA5CgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiDlBFBEADQCALIA56p0EDdiAGaiAIcUECdGsoAgAiBCAHTw0EIAwgBEG4AWxqIg1BrAFqKAIAIANGBEAgAiANQagBaigCACADENsHRQ0HCyAOQgF9IA6DIg5QRQ0ACwsgDyAPQgGGg0KAgYKEiJCgwIB/g1BFDQUgCUEIaiIJIAZqIAhxIQYMAAsACyADIAQoAiwiBEGsAWooAgBGDQEMAwsgBCAHQZCbyAAQjAcACyACIAQoAqgBIAMQ2wcNAUEAIQQLIAVBADoADCAFQQA2AgQgACABIAQgBUEEahCoAQwBCyAAQgM3AwAgAEGEgICAeDYCCAsgBUEQaiQAC+kCAQN/IwBBEGsiAyQAAn8CQCABKAIIIgJBgICAEHFFBEAgAkGAgIAgcQ0BQQMhAiAALQAAIgAhBCAAQQpPBEAgAyAAIABB5ABuIgRB5ABsa0H/AXFBAXQvALi6RTsADEEBIQILQQAgACAEG0UEQCACQQFrIgIgA0ELamogBEEBdC0AubpFOgAACyABQQFBAUEAIANBC2ogAmpBAyACaxDIAwwCCyAALQAAIQJBAyEAA0AgACADakEHaiACQQ9xQdy2xQBqLQAAOgAAIAJB/wFxIgRBBHYhAiAAQQFrIQAgBEEPSw0ACyABQQFBhLTFAEECIAAgA2pBCGpBAyAAaxDIAwwBCyAALQAAIQJBAyEAA0AgACADakEMaiACQQ9xQcmBwgBqLQAAOgAAIAJB/wFxIgRBBHYhAiAAQQFrIQAgBEEPSw0ACyABQQFBhLTFAEECIAAgA2pBDWpBAyAAaxDIAwsgA0EQaiQAC4sDAQZ/IwBBIGsiAiQAIAAoAgwhBQJAAkACfwJAAkACQCAAKAIUIgEgACgCECIDSQRAIABBDGohBANAIAEgBWotAABBCWsiBkEZSw0CQQEgBnRBk4CABHFFBEAgBkEZRw0DIABBADYCCCAAIAFBAWo2AhQgAkEUaiAEIAAQggIgAigCGCEBIAIoAhQiA0ECRg0HIAIoAhwhBCADQQFxRQ0FIARBBkcNBEEGIQQgAUG8gcEAQQYQ2wcNBEEAIQEMBwsgACABQQFqIgE2AhQgASADRw0ACyADIQELIAJBCGogBSADIAFBAWoiACADIAAgA0kbEPkBIAIoAgwhAyACKAIIIQBBFBBxIgFFDQUgASAANgIMIAFBBTYCACABIAM2AhAMBAsgACACQRRqQajAwQAQ7gEMAgsgASAEQcSBwQBBARDMBgwBCwJAIARBBkcNAEEGIQQgAUG8gcEAQQYQ2wcNAEEAIQEMAgsgASAEQcSBwQBBARDMBgsgABDrBSEBCyACQSBqJAAgAQ8LAAuHAwEGfyMAQSBrIgIkACAAKAIMIQUCQAJAAn8CQAJAAkAgACgCFCIBIAAoAhAiA0kEQCAAQQxqIQQDQCABIAVqLQAAQQlrIgZBGUsNAkEBIAZ0QZOAgARxRQRAIAZBGUcNAyAAQQA2AgggACABQQFqNgIUIAJBFGogBCAAEIICIAIoAhghASACKAIUIgNBAkYNByACKAIcIQQgA0EBcUUNBSAEQQJHDQRBAiEEIAEvAABB5/QBRw0EQQAhAQwHCyAAIAFBAWoiATYCFCABIANHDQALIAMhAQsgAkEIaiAFIAMgAUEBaiIAIAMgACADSRsQ+QEgAigCDCEDIAIoAgghAEEUEHEiAUUNBSABIAA2AgwgAUEFNgIAIAEgAzYCEAwECyAAIAJBFGpBuMDBABDuAQwCCyABIARBoIbBAEEBEMwGDAELAkAgBEECRw0AQQIhBCABLwAAQef0AUcNAEEAIQEMAgsgASAEQaCGwQBBARDMBgsgABDrBSEBCyACQSBqJAAgAQ8LAAunAwEJfQJ9IAAqAgwiA0MAAAAAXUUEQCAAKgIEIQQgACoCACEFIAAqAggMAQsgA4whAyAAKgIEjCEEIAAqAgCMIQUgACoCCIwLIQhDAACAPyEBQwAAgD8gAyADQwAAgD9eGxD2BCICIAKSIglDAAAAP5QQmQIiAotDvTeGNV1FBEAgCCAClSEGIAQgApUhByAFIAKVIQELIAcgB4sgAYuSIAaLkiIDlSECIAEgA5UhAwJAIAZDAAAAAF1FBEAgAiEBDAELQwAAgD8gA4uTIgEgAYwgAkMAAAAAYBshAUMAAIA/IAKLkyICIAKMIANDAAAAAGAbIQMLQwDwf0VDAAAAACAJQ9sPSUCVQwDwf0WUIgIgAkMAAAAAXRsiAiACQwDwf0VeGxC5ByECQwDAf0RDAAAAACABQwAAAD+UQwAAAD+SQwDAf0SUIgEgAUMAAAAAXRsiASABQwDAf0ReGxC5B/wBQQp0IAL8AUEUdHJDAMB/REMAAAAAIANDAAAAP5RDAAAAP5JDAMB/RJQiASABQwAAAABdGyIBIAFDAMB/RF4bELkH/AFyC+kCAgd/AX4CQAJAAkAgACgCCCIFIAAoAgBJIgNFBEAgAEEQaiECQQIhBANAIAUgAigCACIFSw0CIAJBCGohAiABIARBAWoiBEcNAAsMAgsgAEEQaiECQQIhBANAIAUgAigCACIFTQ0BIAJBCGohAiABIARBAWoiBEcNAAsMAQsgASAERw0BCwJAIANFDQAgAUEBdkH+////B3EhByAAIAFBA3QiBWohBkEAIQRBACECA0AgACAFakEIayIDKQIAIQkgAyAAIARqIgMpAgA3AgAgAyAJNwIAIANBCGoiAykCACEJIAMgBiACIgNB/v///wFzQQN0aiIIKQIANwIAIAggCTcCACAFQRBrIQUgBEEQaiEEIAcgAkECaiICRw0ACyABQQJxRQ0AIAAgAkEDdGoiACkCACEJIAAgBkF9IANrQQN0aiIAKQIANwIAIAAgCTcCAAsPCyAAIAFBACABQQFyZ0EBdEE+cxBYC8ECAQd/IAAoAmghAwJAAkAgACgCbCICBEAgA0EkaiEBA0AgAUEEaygCACIEQYCAgIB4ckGAgICAeEcEQCABKAIAIgZBBGsoAgAiBUF4cSIHQQRBCCAFQQNxIgUbIARqSQ0DIAVBACAHIARBJ2pLGw0EIAYQogILIAFBMGohASACQQFrIgINAAsLIAAoAmQiAQRAIANBBGsoAgAiAkF4cSIEIAFBMGwiAUEEQQggAkEDcSICG3JJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgACgCcCIBQYCAgIB4ckGAgICAeEcEQCAAKAJ0IgBBBGsoAgAiA0F4cSICQQRBCCADQQNxIgMbIAFqSQ0BIANBACACIAFBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL0gIBCH8gAUECdCIDIQIgACAAKAJ8IgQgA0kEfyADIAQiAmsiBSAAKAJ0IAJrSwRAIABB9ABqIAIgBUEEQQQQpAUgACgCfCECCyAAKAJ4IgcgAkECdCIIaiEGIAVBAk8EQCADIARBf3NqQQJ0IgkEQCAGQQAgCfwLAAsgAUEEdCAIaiAEQQJ0ayAHakEEayEGIAIgBWpBAWshAgsgBkEANgIAIAJBAWoFIAILNgJ8IAAgACgCiAEiBCADSQR/IAMgBCICayIFIAAoAoABIAJrSwRAIABBgAFqIAIgBUEEQQQQpAUgACgCiAEhAgsgACgChAEiByACQQJ0IghqIQYgBUECTwRAIAMgBEF/c2pBAnQiAwRAIAZBACAD/AsACyABQQR0IAhqIARBAnRrIAdqQQRrIQYgAiAFakEBayECCyAGQQA2AgAgAkEBagUgAws2AogBC+cCAgN/An4CQCAAKAIYIgNBAE4EQCAAKQMIIQUMAQsCQCAAKAIQIgIgACgCBE8EQCAALAAjIgJBAEwEQCACDQIgAEH/AToAIyAAIAApAwhCCIYiBTcDCCADQQhqIQMMAwsgACACQQFrOgAjIAAtACAhAiAAIAAvACE7ASAgACACOgAiIAAgAq1C/wGDIAApAwhCCIaEIgU3AwggA0EIaiEDDAILIAAgAkEBajYCECAAIAAoAgAgAkECdGooAAAiAkEYdCACQYD+A3FBCHRyIAJBCHZBgP4DcSACQRh2cnKtIAApAwhCIIaEIgU3AwggA0EgaiEDDAELIABB8gE6ACNBAA8LIAUgACgCFCICQQFrIAFB/wFxbEEIdkEBaiIBrSADQT9xrYYiBloiBARAIAAgBSAGfTcDCCACIAFrIQELIAAgAyABZyIDQRhrIgJBACACIANNGyIDazYCGCAAIAEgA3Q2AhQgBAvgAgIFfwF+AkACQCAFLQC/AiIGQQhLQQEgBnRBlgJxRXJFBEBBCCAGbkEDbK0gAq1+IgtCIIhQIAunIARJcQ0BIAQgBEEDcGshBAJAIAZBCEYEQCACRQ0BA0AgBEEDSQ0CIAMgACABLQAAQQJ0aiIFLQAAOgAAIANBAWogBS8AATsAACADQQNqIQMgBEEDayEEIAFBAWohASACQQFrIgINAAsMAQsgBEEDSQ0AIAEgAmohCEF/IAZ0QX9zIQlBCCAGayEFQX8hAgNAIAJBAEgEQCABIAhGDQUgAS0AACEHIAUhAiABQQFqIQELIAMgACAHIAJ2IAlxQQJ0aiIKLQAAOgAAIANBAWogCi8AATsAACADQQNqIQMgAiAGayECIARBA2siBEEDTw0ACwsPC0Gwl8UAQTRB5JfFABDrBwALQYSWxQBB5QBB7JbFABDrBwALQfyWxQBBIkGgl8UAEKsHAAv4AgEFfyMAQRBrIgYkAAJAAkAgA0H/////A0sNACADQQJ0IgRB/f///wdPDQACQCAERQRAQQQhCAwBCyADIQcgBBBxIghFDQILIAZBADYCDCAGIAg2AgggBiAHNgIEAkACQAJAAkAgAwRAQQAhBEEAIQcDQCACIARNDQIgBEEBaiIFIAJPDQMgBEECaiIFIAJPDQQgBEEDaiIFIAJPDQUgASAEaiIFQQFqLQAAQQh0IAUtAAByIAVBAmotAABBEHRyIAVBA2otAABBGHRyIQUgBigCBCAHRgRAIAZBBGpBjOjHABD6BSAGKAIIIQgLIAQgCGogBTYCACAGIAdBAWoiBzYCDCAEQQRqIQQgAyAHRw0ACwsgACAGKQIENwIAIABBCGogBkEMaigCADYCACAGQRBqJAAPCyAEIAJBzOfHABCMBwALIAUgAkHc58cAEIwHAAsgBSACQeznxwAQjAcACyAFIAJB/OfHABCMBwALQbznxwAQ/wcLAAv4AgEFfyMAQRBrIgYkAAJAAkAgA0H/////A0sNACADQQJ0IgRB/f///wdPDQACQCAERQRAQQQhCAwBCyADIQcgBBBxIghFDQILIAZBADYCDCAGIAg2AgggBiAHNgIEAkACQAJAAkAgAwRAQQAhBEEAIQcDQCACIARNDQIgBEEBaiIFIAJPDQMgBEECaiIFIAJPDQQgBEEDaiIFIAJPDQUgASAEaiIFQQFqLQAAQQh0IAUtAAByIAVBAmotAABBEHRyIAVBA2otAABBGHRyIQUgBigCBCAHRgRAIAZBBGpBnOzHABCLBiAGKAIIIQgLIAQgCGogBTYCACAGIAdBAWoiBzYCDCAEQQRqIQQgAyAHRw0ACwsgACAGKQIENwIAIABBCGogBkEMaigCADYCACAGQRBqJAAPCyAEIAJB3OvHABCMBwALIAUgAkHs68cAEIwHAAsgBSACQfzrxwAQjAcACyAFIAJBjOzHABCMBwALQczrxwAQ/wcLAAvkAgEIfwJAIAMgBC0AvgJBAnQoAtCPSSIFQQJqIgduIgMgASAFbiIBIAEgA0sbIgFFDQACQCAEKALMAUGBgICAeEYNACAEKALUASAFRw0AIAQoAtABIQMDQCAFBEAgAiAAIAX8CgAACyACIAVqIgRBAWpBf0EAIAAgAyAFENsHGyIGOgAAIAQgBjoAACAAIAVqIQAgAiAHaiECIAFBAWsiAQ0ACwwBC0EAIQMgAUEBRwRAIAFBAXEgAUF+cSEJIAVBAXQiBkEEaiEKIAIhASAAIQQDQCAFRSILRQRAIAEgBCAF/AoAAAsgASAFaiIMQf//AzsAACALRQRAIAxBAmogBCAFaiAF/AoAAAsgASAGakECakH//wM7AAAgASAKaiEBIAQgBmohBCAJIANBAmoiA0cNAAtFDQELIAIgAyAHbGohASAFBEAgASAAIAMgBWxqIAX8CgAACyABIAVqQf//AzsAAAsLggMBBH8gACgCDCECAkACQAJAIAFBgAJPBEAgACgCGCEDAkACQCAAIAJGBEAgAEEUQRAgACgCFCICG2ooAgAiAQ0BQQAhAgwCCyAAKAIIIgEgAjYCDCACIAE2AggMAQsgAEEUaiAAQRBqIAIbIQQDQCAEIQUgASICQRRqIAJBEGogAigCFCIBGyEEIAJBFEEQIAEbaigCACIBDQALIAVBADYCAAsgA0UNAgJAIAAoAhxBAnRBsLfJAGoiASgCACAARwRAIAMoAhAgAEYNASADIAI2AhQgAg0DDAQLIAEgAjYCACACRQ0EDAILIAMgAjYCECACDQEMAgsgACgCCCIAIAJHBEAgACACNgIMIAIgADYCCA8LQci6yQBByLrJACgCAEF+IAFBA3Z3cTYCAA8LIAIgAzYCGCAAKAIQIgEEQCACIAE2AhAgASACNgIYCyAAKAIUIgBFDQAgAiAANgIUIAAgAjYCGA8LDwtBzLrJAEHMuskAKAIAQX4gACgCHHdxNgIAC7ACAQR/IAAoAgwhASAAKAIQIgIoAgAiAwRAIAEgAxEDAAsCQAJAIAIoAgQiAgRAIAFBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAJqSQ0BIANBACAEIAJBJ2pLGw0CIAEQogILIAAoAhQhASAAKAIYIgIoAgAiAwRAIAEgAxEDAAsgAigCBCICBEAgAUEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAmpJDQEgA0EAIAQgAkEnaksbDQIgARCiAgsCQCAAQX9GDQAgACAAKAIEQQFrIgE2AgQgAQ0AIABBBGsoAgAiAUF4cSICQSBBJCABQQNxIgEbSQ0BIAFBACACQcQATxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC6QDAQJ/AkACfwJAIAAoAgBBgICAgHhHBEAgAyABIAIgBCAAKAIEIAAoAggQtAEiBQ0DIAMgASACIAQgACgCECAAKAIUELQBIgUNAyADIAEgAiAEIAAoAjwgACgCQBC0ASIFDQMgAyABIAIgBCAAKAJgIAAoAmQQtAEiBQ0DIAMgASACIAQgACgCeCAAKAJ8ELQBIgUNAyAAKAKgAUGAgICAeEcNAUEADwsgAyABIAIgBCAAKAIUIAAoAhgQtAEiBQ0CIAMgASACIAQgACgCICAAKAIkELQBIgUNAiADIAEgAiAEIAAoAkQgACgCSBC0ASIFDQIgAyABIAIgBCAAKAJcIAAoAmAQtAEiBQ0CIAMgASACIAQgACgCdCAAKAJ4ELQBIgUNAiAAKAKIAUGAgICAeEYEQEEADwsgAyABIAIgBCAAKAKMASAAKAKQARC0ASIFDQJBmAEhBkGcAQwBCyADIAEgAiAEIAAoAqQBIAAoAqgBELQBIgUNAUGwASEGQbQBCyEFIAMgASACIAQgACAGaigCACAAIAVqKAIAELQBIQULIAULzQICB38CfiMAQRBrIgQkACABKAIAIQYCQAJAIAEoAggiAiABKAIEIgdJBEAgAiAGai0AAEHfAEYNAQsgAiAHIAIgB0sbIQgCQANAAkAgAiAHSQRAIAIgBmotAABB3wBGDQMLAkACQCACIAhGDQIgAiAGai0AACIFQTBrIgNB/wFxQQpJDQEgBUHhAGtB/wFxQRpJDQAgBUHBAGtB/wFxQRpPDQIgBUEdayEDDAELIAVB1wBrIQMLIAEgAkEBaiICNgIIIAQgCUI+EN0GIAQpAwhQRQRADAELIAQpAwAiCiADrUL/AYN8IgkgCloNAQsLIABBADoAAUEBIQMMAgtBASEDIAEgAkEBajYCCCAJQn9SBEAgACAJQgF8NwMIQQAhAwwCCyAAQQA6AAEMAQsgAEIANwMIIAEgAkEBajYCCAsgACADOgAAIARBEGokAAuWAwEFfyMAQSBrIgIkAAJAQaC7yQAoAgBFBEBBoLvJAEF/NgIAAn8CQAJAAkBBrLvJACgCACIBQai7yQAoAgAiAEYEQCABQaS7yQAoAgAiAEcNAdBvQYABIAEgAUGAAU0bIgP8DwEiAEF/Rw0CDAYLIAAgAU0NBUGgtMkAKAIAIAFBAnRqKAIAIQBBAAwDCyAAIAFNDQRBoLTJACgCACEADAELAkBBsLvJACgCACIERQRAQbC7yQAgADYCAAwBCyABIARqIABHDQQLIAEgA2oiA0H/////AUsNA0EAIQAgAiABBH8gAiABQQJ0NgIcIAJBoLTJACgCADYCFEEEBSAACzYCGCACQQhqIANBAnQgAkEUahCBByACKAIIQQFGDQNBoLTJACACKAIMIgA2AgBBpLvJACADNgIACyAAIAFBAnRqIAFBAWoiADYCAEGou8kAIAA2AgBBoLvJACgCAEEBagshA0Gsu8kAIAA2AgBBoLvJACADNgIAQbC7yQAoAgAgAkEgaiQAIAFqDwtB8I7IABCwCgALAAvXAgEJfwJAIAMgBC0AvgJBAnQoArSPSSIFQQFqIgZuIgMgASAFbiIBIAEgA0sbIgFFDQACQCAEKALMAUGBgICAeEYNACAEKALUASAFRw0AIAQoAtABIQMDQCAFBEAgAiAAIAX8CgAACyACIAVqQX9BACAAIAMgBRDbBxs6AAAgACAFaiEAIAIgBmohAiABQQFrIgENAAsMAQtBACEDIAFBAUcEQCABQQFxIAFBfnEhCSAFQQF0IgdBAmohCiAHQQFyIQsgAiEBIAAhBANAIAVFIgxFBEAgASAEIAX8CgAACyABIAVqIg1B/wE6AAAgDEUEQCANQQFqIAQgBWogBfwKAAALIAEgC2pB/wE6AAAgASAKaiEBIAQgB2ohBCAJIANBAmoiA0cNAAtFDQELIAIgAyAGbGohASAFBEAgASAAIAMgBWxqIAX8CgAACyABIAVqQf8BOgAACwv/AgIDfQN/IwBBEGshBSAAvCEGAkAgAIsiAbwiBEH////jBE0EQAJ/AkACQCAEQYCAgPcDTwRAIARBgIDg/ANJDQIgBEGAgPCABEkNAUMAAIC/IAGVIQBBAwwDC0F/IARBgICAzANPDQIaIARBgICABE8NBCAFIAAgAJQ4AgwgBSoCDBogAA8LIAFDAADAv5IgAUMAAMA/lEMAAIA/kpUhAEECDAELIARBgIDA+QNPBEAgAUMAAIC/kiABQwAAgD+SlSEAQQEMAQsgASABkkMAAIC/kiABQwAAAECSlSEAQQALIQUgACAAlCICIAKUIgEgAUNHEtq9lEOYyky+kpQhAyACIAEgAUMlrHw9lEMN9RE+kpRDqaqqPpKUIQEgBEGAgID3A08EQCAFQQJ0IgQqAuywSSAAIAMgAZKUIAQqAvywSZMgAJOTIgAgAIwgBkEAThsPCyAAIAAgAyABkpSTIQAMAQsgACAAXA0AQ9oPyT9D2g/JvyAGQQBOGw8LIAAL8AIBAn8jAEEwayICJAACfwJAAkACQAJAAkBBASAAKAIAIgNB/////wdqIANBgICAgHhNG0EBaw4EAQIDBAALIAIgAEEEajYCDCACIAJBDGqtQoCAgIDQBoQ3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkG4lsgANgIYIAIgAkEQajYCICACQRhqEMEDDAQLIAIgADYCDCACIAJBDGqtQoCAgICwD4Q3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkHYlsgANgIYIAIgAkEQajYCICACQRhqEMEDDAMLIAIgAEEEajYCDCACIAJBDGqtQoCAgIDAD4Q3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkH8lsgANgIYIAIgAkEQajYCICACQRhqEMEDDAILIAEoAgBBhJfIAEEjIAEoAgQoAgwRAAAMAQsgASgCAEGnl8gAQR4gASgCBCgCDBEAAAsgAkEwaiQAC/cCAgV/AX4jAEEwayIBJAAgACkCECEGIAAoAgwhAyAAKAIIIQQgACgCACECAkACQAJAAkACfwJAAkACQAJAAkAgACgCBCIADgIAAQILIAMNAUEBIQNBACEAQQEhAgwDCyADRQ0BCyABIAY3AiggASADNgIkIAEgBDYCICABIAA2AhwgASACNgIYIAFBDGogAUEYahDsAyABKAIMIQAgASgCECECIAEoAhQMAgsgAigCBCIAQQBIDQIgAigCACEDIABFBEBBASECQQAhAAwBCyAAEHEiAkUNAwsgAARAIAIgAyAA/AoAAAsgASAANgIUIAEgAjYCECABIAA2AgwgAAshAyACIAMQ6wggAARAIAJBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIABqSQ0DIARBACAFIABBJ2pLGw0EIAIQogILIAFBMGokAA8LQdiayAAQ/wcLAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALhQMCA30Cf0MAABBBIAEqAgwgAS0AHEECRiIGGyEFQwAAQMEgASoCCCAGGyEEQQAhAUEAIQYgAv0fACIDQwAAAABfRQRAQf8BQwAAgD9DAAAAACADEMYFIASTIAUgBJOVIgMgA0MAAAAAXRsiAyADQwAAgD9eG0MAAH5DlBC5ByID/AFBACADQwAAAABgGyADQwAAf0NeG0EBaiEGCyAC/R8BIgNDAAAAAF9FBEBB/wFDAACAP0MAAAAAIAMQxgUgBJMgBSAEk5UiAyADQwAAAABdGyIDIANDAACAP14bQwAAfkOUELkHIgP8AUEAIANDAAAAAGAbIANDAAB/Q14bQQFqIQELIABBE2ogAv0fAiIDQwAAAABfBH8gBwVB/wFDAACAP0MAAAAAIAMQxgUgBJMgBSAEk5UiBCAEQwAAAABdGyIEIARDAACAP14bQwAAfkOUELkHIgT8AUEAIARDAAAAAGAbIARDAAB/Q14bQQFqCzoAACAAIAZB/wFxIAFBCHRyOwARC9gCAQF/AkACQAJAAkAgASACIAMgBCAFIAYQwANFDQAgBSAGQQF0ayIBIARPDQECQCAEIAUgBmsiAksEQCABIANqIgEtAAAgAiADai0AAGsiAiACQR91IgJzIAJrIABB/wFxTQ0BQQEgAyAEIAUgBhDoBBoPCyACIARB+NfEABCMBwALIAUgBmoiAiAETw0CIAQgBU0NAyAAQf8BcSIHIAIgA2oiAC0AACADIAVqLQAAayICIAJBH3UiAnMgAmsiAkkgAyAEIAUgBhDoBCEDIAIgB0sNACAAQf8BIAAtAAAgA0EBakEBdSIAayICQQAgAkEAShsiAiACQf8BThs6AAAgAUH/AEGAfyAAIAEtAABqQYABayIAIABBgH9MGyIAIABB/wBOG0GAAXM6AAALDwsgASAEQejXxAAQjAcACyACIARBiNjEABCMBwALIAUgBEGY2MQAEIwHAAvZAgECfyMAQTBrIgIkAAJ/AkACQAJAAkBBASAALQAAIgNBJGsgA0EjTRtB/wFxQQFrDgMBAgMACyACIABBBGo2AgwgAiACQQxqrUKAgICA0AaENwMQIAEoAgAgASgCBCACQgE3AiQgAkEBNgIcIAJBoPjHADYCGCACIAJBEGo2AiAgAkEYahDBAwwDCyACIAA2AgwgAiACQQxqrUKAgICA4AaENwMQIAEoAgAgASgCBCACQgE3AiQgAkEBNgIcIAJBoPjHADYCGCACIAJBEGo2AiAgAkEYahDBAwwCCyACIABBBGo2AgggAiACQQxqrUKAgICA8AaENwMQIAIgAkEIajYCDCABKAIAIAEoAgQgAkIBNwIkIAJBATYCHCACQaD4xwA2AhggAiACQRBqNgIgIAJBGGoQwQMMAQsgASgCAEHcrcUAQRMgASgCBCgCDBEAAAsgAkEwaiQAC4UDAQV/IwBBIGsiAyQAIAAoAgwhBAJAAkACQAJAAkACQCAAKAIUIgEgACgCECICSQRAA0ACQCABIARqLQAAIgVBCWsOJAAABAQABAQEBAQEBAQEBAQEBAQEBAQEAAQEBAQEBAQEBAQEBgMLIAAgAUEBaiIBNgIUIAEgAkcNAAsgAiEBCyADQRBqIAQgAiABQQFqIgAgAiAAIAJJGxD5ASADKAIUIQIgAygCECEAQRQQcSIBRQ0FIAEgADYCDCABQQM2AgAgASACNgIQDAQLIAVB/QBGDQELIANBCGogBCACIAFBAWoiACACIAAgAkkbEPkBIAMoAgwhAiADKAIIIQBBFBBxIgFFDQMgASAANgIMIAFBFjYCACABIAI2AhAMAgsgACABQQFqNgIUQQAhAQwBCyADQRhqIAQgAiABQQFqIgAgAiAAIAJJGxD5ASADKAIcIQIgAygCGCEAQRQQcSIBRQ0BIAEgADYCDCABQRU2AgAgASACNgIQCyADQSBqJAAgAQ8LAAu8AgEEfwJAAkACQAJAAkACQEEBIAAoAgAiAUH/////B2ogAUGAgICAeE0bDgIAAQMLIAAtAARBA0cNAiAAKAIIIgAoAgAhASAAQQRqKAIAIgIoAgAiAwRAIAEgAxEDAAsgAigCBCICBEAgAUEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAmpJDQUgA0EAIAQgAkEnaksbDQQgARCiAgsgAEEEaygCACIBQXhxIgJBEEEUIAFBA3EiARtJDQQgAUUgAkE0SXINAQwDCyABQYCAgIB4ckGAgICAeEYNASAAKAIEIgBBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0DIAJFIAMgAUEnak1yDQAMAgsgABCiAgsPC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAvmAgIEfgN/AkACQAJAIAFB2ABqIAIQqAQiAgRAIAIpAxAiBSACKQMIIgR9IgcgA61WBEAgAEEaOgAADwsgB6ciAkEASA0BQQEhAwJAIAQgBVEiCQ0AIAIQcSIDRQ0DIANBBGstAABBA3FFIAJFcg0AIANBACAC/AsACyABKAJMIgitIQYgAiAIQv////8PIAQgBEL/////D1obp2siCkEAIAggCk8bTQRAIAEoAkggBCAGIAQgBlQbp2ohCAJAIAdCAVIEQCACRQ0BIAMgCCAC/AoAAAwBCyADIAgtAAA6AAALIAEgBTcDUAwECyABIAUgBkGokMgAKQMAIgRC/wGDQgRRIgEbNwNQIAENAyAAIAQ3AgQgAEEAOgAAIAlFBEAgAyACQQEQogcLDwsgAEEdOgAAIABBgICAgHg2AgQPC0HU9sYAEP8HCwALIAAgAjYCDCAAIAM2AgggACACNgIEIABBHToAAAvFAgEFf0ERQQAgAEGvsARPGyICIAJBCHIiASAAQQt0IgIgAUECdCgCzPlCQQt0SRsiASABQQRyIgEgAUECdCgCzPlCQQt0IAJLGyIBIAFBAnIiASABQQJ0KALM+UJBC3QgAksbIgEgAUEBaiIBIAFBAnQoAsz5QkELdCACSxsiASABQQFqIgEgAUECdCgCzPlCQQt0IAJLGyIBQQJ0KALM+UJBC3QiBCACRiACIARLaiABaiIEQQJ0IgJBzPnCAGohBSACKALM+UJBFXYhAkHvBSEBAkAgBEEgTQRAIAUoAgRBFXYhASAERQ0BCyAFQQRrKAIAQf///wBxIQMLAkAgASACQX9zakUNACAAIANrIQMgAUEBayEBQQAhAANAIAAgAkH7+MEAai0AAGoiACADSw0BIAEgAkEBaiICRw0ACwsgAkEBcQvFAgEFf0ESQQAgAEGwuARPGyICIAJBCXIiASAAQQt0IgIgAUECdCgCuPhCQQt0SRsiASABQQVqIgEgAUECdCgCuPhCQQt0IAJLGyIBIAFBAmoiASABQQJ0KAK4+EJBC3QgAksbIgEgAUEBaiIBIAFBAnQoArj4QkELdCACSxsiASABQQFqIgEgAUECdCgCuPhCQQt0IAJLGyIBQQJ0KAK4+EJBC3QiBCACRiACIARLaiABaiIEQQJ0IgJBuPjCAGohBSACKAK4+EJBFXYhAkH/BiEBAkAgBEEjTQRAIAUoAgRBFXYhASAERQ0BCyAFQQRrKAIAQf///wBxIQMLAkAgASACQX9zakUNACAAIANrIQMgAUEBayEBQQAhAANAIAAgAkH88cEAai0AAGoiACADSw0BIAEgAkEBaiICRw0ACwsgAkEBcQvuAgIDfwJ+IwBBIGsiBCQAAkAgASgCxANBAkYEQAJAIAACfgJAIAEtAOQDRQRAA0AgASgCnAMiAiABKQOgAyIFIAKtIgYgBSAGVBunIgNGBEBBASEDQSQhAkIlDAQLIARBDGogASABKAKYAyADaiACIANrQQAQ1gEgBCkCFCEFIAQoAhAhAgJAIAQoAgxFBEAgASABKQOgAyACrXw3A6ADIAWnIQMMAQsgBachAyACQf8BcUEoRw0DCyADQf8BcUEGRw0ACyABKAK8BCICRQ0FIAFBAToA5AMgASACQQFrNgK8BAsgAEEoOgAADAILIAQoAhwhASAFQgiICyIFPgAFIAAgATYCDCAAIAM6AAQgACACOgAAIABBC2ogBUIwiDwAACAAQQlqIAVCIIg9AAAgACACQRB2OwECIAAgAkEIdjoAAQsgBEEgaiQADwtB3JjHAEHAAEGcmccAEOsHAAtBrJnHAEErQdiZxwAQ6wcAC8sCAQR/AkACQAJAIAIgAyAEQQF0ayIGSwRAIAMgBGsiBSACTw0BIAIgA00NAiADIARqIgQgAk8NAyABIAVqIgctAAAhAiABIANqIggtAAAhBUEAIQMgCEH/AEGAfyAFQfsAQYB/IAAEf0H/AEGAfyABIAZqLQAAIAEgBGotAABrIgAgAEGAf0wbIgAgAEH/AE4bBSADCyAFIAJrQQNsaiIAIABBgH9MGyIAIABB+wBOG0EEakEDdSIBa0GAAWsiAyADQYB/TBsiAyADQf8AThtBgAFzOgAAIAdB/wBBgH8gAkH8ACAAIABB/ABOG0EDakEDdWpBgAFrIgAgAEGAf0wbIgAgAEH/AE4bQYABczoAACABDwsgBiACQYjWxAAQjAcACyAFIAJBmNbEABCMBwALIAMgAkGo1sQAEIwHAAsgBCACQbjWxAAQjAcAC8kCAQd/IwBBIGsiAyQAAkACQAJAAkAgASAAKAK4AUYEQCAAKAK8ASACRg0BCyAAEKMFIAAgAhDQBCAAKAKwASABQQJ0IgUgASACakECdCIGEOEIIQggAkECdCIEIAAoAnwiB0sNASAAKAJ4IAMgCBC4CiIJNgIAIAMgBDYCBCAEIAlHDQMgBCAIEOEJIAAoArQBIAUgBhDhCCEFIAQgACgCiAEiBksNAiAAKAKEASADIAUQuAoiBzYCACADIAQ2AgQgBCAHRw0DIAQgBRDhCSAAQQA6AMABIAAgAjYCvAEgACABNgK4ASAFQYQITwRAIAUQmwcLIAhBhAhJDQAgCBCbBwsgA0EgaiQADwtBACAEIAdBoOjAABDqBwALQQAgBCAGQZDowAAQ6gcACyADQQA2AghBACADIANBBGogA0EIakHg+cQAEPUHAAvUAgICfQJ/IAQEQCAAIAEgAiADIAQQlgILIAYEQCAAIAEgAiAFIAYQxwELAkACQAJAIAhFIAJFcg0AIAAoAlxBA0kNAEMAAP5CQwAA/kIgACoCVJUgAC0AWEECRhshCiAAKAI0IAFBFWxqIQUgACgCOCEMQQAhBANAIAEgC2oiACAMTw0CIAtBAWohC0EAIQAgByEGA0AgACAEaiIDIAhPDQQgACAFakH/AEMAAP5CQwAA/sIgCiAGKgIAlCIJIAlDAAD+wl0bIgkgCUMAAP5CXhsQuQciCfwAQYB/IAlDAAAAw2AbIAlDAAD+Ql4bQQAgCSAJWxs6AAAgBkEEaiEGIABBAWoiAEEVRw0ACyAHQdQAaiEHIARBFWohBCAFQRVqIQUgAiALRw0ACwsPCyALQRVsIgMgCE8NACAAIAxBxMTHABCMBwALIAMgCEG0xMcAEIwHAAvcAgIEfwF+IwBBQGoiAiQAIAAoAgAhACACQQA2AhggAkKAgICAEDcCECACQfidxgA2AiwgAkKggICADjcCMCACIAJBEGoiAzYCKAJAAkAgACACQShqIgQQ5ANFBEAgAkEIaiACQRhqKAIANgIAIAIgAikCEDcDACACQoCAgIAQIgYgAEEQaq2ENwMgIAIgBiAAQQxqrYQ3AxggAiACrUKAgICAkA6ENwMQIAEoAgAgASgCBCACQgM3AjQgAkEENgIsIAJBrKDGADYCKCACIAM2AjAgBBDBAyACKAIAIgAEQCACKAIEIgRBBGsoAgAiA0F4cSIFQQRBCCADQQNxIgMbIABqSQ0CIANBACAFIABBJ2pLGw0DIAQQogILIAJBQGskAA8LQaCexgBBNyACQZCexgBB2J7GABDgBgALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC/ACAQF/AkAgAgRAIAEtAABBME0NASAFQQI7AQACQAJAAkACQCADwSIGQQBKBEAgBSABNgIEIAIgA0H//wNxIgNLDQIgBUEAOwEMIAUgAjYCCCAFIAMgAms2AhAgBA0BQQIhAQwECyAFIAI2AiAgBSABNgIcIAVBAjsBGCAFQQA7AQwgBUECNgIIIAVBuYPCADYCBCAFQQAgBmsiAzYCEEEDIQEgAiAETw0DIAQgAmsiAiADTQ0DIAIgBmohBAwCCyAFQQE2AiAgBUHsucUANgIcIAVBAjsBGAwBCyAFQQI7ARggBUEBNgIUIAVB7LnFADYCECAFQQI7AQwgBSADNgIIIAUgAiADayICNgIgIAUgASADajYCHCACIARPBEBBAyEBDAILIAQgAmshBAsgBSAENgIoIAVBADsBJEEEIQELIAAgATYCBCAAIAU2AgAPC0G+g8IAQSFB4IPCABDrBwALQfCDwgBBH0GQhMIAEOsHAAuaAgEEfwJAAkACQAJAIAAoAgAiAUGAgICAeEcEQCABRQ0CIAAoAgQiAEEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAWpJDQQgAkUgAyABQSdqTXINAQwDCyAALQAEQQNHDQEgACgCCCIAKAIAIQEgAEEEaigCACICKAIAIgMEQCABIAMRAwALIAIoAgQiAgRAIAFBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAJqSQ0EIANBACAEIAJBJ2pLGw0DIAEQogILIABBBGsoAgAiAUF4cSICQRBBFCABQQNxIgEbSQ0DIAFFDQAgAkE0Tw0CCyAAEKICCw8LQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC9gCAQZ/IwBBEGsiBCQAAn8CQAJAAkAgACgCACIDRQ0AA0ACQCAAKAIIIgEgACgCBCIFTw0AIAEgA2otAABBxQBHDQAgACABQQFqNgIIDAILAkACQAJAAkAgAkUNACAAKAIQIgZFDQAgBkHnkMYAQQIQlwMNByAAKAIAIgNFDQEgACgCCCEBIAAoAgQhBQsgASAFTw0AAkAgASADai0AAEHLAGsOAgIAAQsgACABQQFqNgIIIAQgABDZBCAELQAADQUgACAEKQMIEIIGDQYMAgsgABCGAg0FDAELIAAgAUEBajYCCEEBIABBABDVAQ0FGgsgAkEBayECIAAoAgAiAw0ACwtBAAwCCyAELQABIQEgACgCECICBEBBASACQfqyxQBB6rLFACABQQFxIgIbQRlBECACGxCXAw0CGgsgACABOgAEIABBADYCAEEADAELQQELIARBEGokAAu6AgIHfgJ/IANBCE8EQCAAIAAgA0EDdiILQQd0IgxqIAAgC0HgAWwiA2ogCxDvBCEAIAEgASAMaiABIANqIAsQ7wQhASACIAIgDGogAiADaiALEO8EIQILIAEpAxghCCAAKQMYIQogACkDCCIGIQQgASkDCCIHIQUCfwJAIAYgB1INACAAKQMQIgQgASkDECIFUg0AIAghBUEAIAoiBCAIUQ0BGgsgBCAFVAshAyACKQMYIQkgAikDCCIEIQUCQAJAAkAgBCAGUg0AIAApAxAiBiACKQMQIgVSDQAgCSEFIAkgCiIGUg0AIANFDQEMAgsgAyAFIAZWcw0BCyACIAECfwJAIAQgB1INACABKQMQIgcgAikDECIEUg0AIAghB0EAIAkiBCAIUQ0BGgsgBCAHVgsgA3MbIQALIAALuAICAnwCfyMAQRBrIgckACADuiEFIAACfwJAAkACQAJAIAQgBEEfdSIIcyAIayIIQbUCTwRAA0AgBUQAAAAAAAAAAGENBSAEQQBODQIgBUSgyOuF88zhf6MhBSAEQbQCaiIEIARBH3UiCHMgCGsiCEG1Ak8NAAsLIAhBA3QrA6CCRyEGIARBAE4NASAFIAajIQUMAwsgB0EIaiABKAIMIAEoAhAgASgCFBD5ASAHKAIMIQIgBygCCCEEDAELIAUgBqIiBZlEAAAAAAAA8H9iDQEgByABKAIMIAEoAhAgASgCFBD5ASAHKAIEIQIgBygCACEEC0EUEHEiAQRAIAEgBDYCDCABQQ42AgAgACABNgIEIAEgAjYCEEEBDAILAAsgACAFIAWaIAIbOQMIQQALNgIAIAdBEGokAAuzAgIFfwF9IAAoAggiAyAAKAIARgRAIABByJXBABD5BQsgACADQQFqNgIIIAAoAgQiBCADQQN0aiIAIAI2AgQgACABOAIAAkAgA0UEQEEAIQAMAQsgASABWwRAA0AgBCADQQFrIgZBAXYiAEEDdGoiBSoCACIIIAhbIAEgCF9FcUF/IAEgCGAbIgdBAEwgAiAFQQRqKAIATSAHGwRAIAMhAAwDCyAEIANBA3RqIAUpAgA3AgAgACEDIAZBAUsNAAwCCwALA0ACQCAEIANBAWsiBkEBdiIAQQN0aiIFKgIAIgggCFsgASAIX0VxDQAgAiAFQQRqKAIASw0AIAMhAAwCCyAEIANBA3RqIAUpAgA3AgAgACEDIAZBAk8NAAsLIAQgAEEDdGoiACACNgIEIAAgATgCAAujAgIBfwF+IwBB8ABrIgckACAHIAI2AgwgByABNgIIIAcgBDYCFCAHIAM2AhAgB0ECNgIcIAdBxojDAEHEiMMAIABBAXEbNgIYAkAgBSgCAARAIAdBMGogBUEQaikCADcDACAHIAX9AAIA/QsDICAHQQQ2AlwgB0GsicMANgJYIAdCBDcCZCAHQoCAgICQASIIIAdBEGqthDcDUCAHIAggB0EIaq2ENwNIIAcgB0Egaq1CgICAgIAGhDcDQAwBCyAHQQM2AlwgB0H4iMMANgJYIAdCAzcCZCAHQoCAgICQASIIIAdBEGqthDcDSCAHIAggB0EIaq2ENwNACyAHIAdBGGqtQoCAgICgAYQ3AzggByAHQThqNgJgIAdB2ABqIAYQjQgAC64CAgR/A34jAEEgayIDJABBFCECAkAgACkDACIIIAhCP4ciBoUgBn0iB0LoB1QEQCAHIQYMAQsDQCADQQxqIAJqIgBBBGsgByAHQpDOAIAiBkKQzgB+faciBEH//wNxQeQAbiIFQQF0LwC4ukU7AAAgAEECayAEIAVB5ABsa0H//wNxQQF0LwC4ukU7AAAgAkEEayECIAdC/6ziBFYgBiEHDQALCyAGQglWBEAgAkECayICIANBDGpqIAanIgAgAEH//wNxQeQAbiIAQeQAbGtB//8DcUEBdC8AuLpFOwAAIACtIQYLIAhQRSAGUHFFBEAgAkEBayICIANBDGpqIAanQQF0LQC5ukU6AAALIAEgCEIAWUEBQQAgA0EMaiACakEUIAJrEMgDIANBIGokAAvBAgEBfyMAQTBrIgIkAAJ/AkACQAJAAkAgAC0AAEEBaw4DAQIDAAsgAiAAQQFqNgIMIAIgAkEMaq1CgICAgPAHhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBATYCHCACQaD4xwA2AhggAiACQRBqNgIgIAJBGGoQwQMMAwsgAiAAQQRqNgIMIAIgAkEMaq1CgICAgMAHhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBAjYCHCACQbCQxgA2AhggAiACQRBqNgIgIAJBGGoQwQMMAgsgAiAAQQRqNgIMIAIgAkEMaq1CgICAgIAIhDcDECABKAIAIAEoAgQgAkIBNwIkIAJBAjYCHCACQdjExAA2AhggAiACQRBqNgIgIAJBGGoQwQMMAQsgASgCAEHoxMQAQQkgASgCBCgCDBEAAAsgAkEwaiQAC60CAQd/IwBBEGsiBCQAQQohAgJAIAAoAgAiBSAFQR91IgBzIABrIgBB6AdJBEAgACEDDAELA0AgBEEGaiACaiIGQQRrIAAgAEGQzgBuIgNBkM4AbGsiB0H//wNxQeQAbiIIQQF0LwC4ukU7AAAgBkECayAHIAhB5ABsa0H//wNxQQF0LwC4ukU7AAAgAkEEayECIABB/6ziBEsgAyEADQALCwJAIANBCU0EQCADIQAMAQsgAkECayICIARBBmpqIAMgA0H//wNxQeQAbiIAQeQAbGtB//8DcUEBdC8AuLpFOwAAC0EAIAUgABtFBEAgAkEBayICIARBBmpqIABBAXQtALm6RToAAAsgASAFQX9zQR92QQFBACAEQQZqIAJqQQogAmsQyAMgBEEQaiQAC+ACAgF9An8CQAJ9IAC8IgNB/////wdxIgJB////+wNNBEAgAkGAgID4A08EQCADQQBOBEBDAACAPyAAk0MAAAA/lCIAkSIBIAAgACAAQ2vTDbyUQ7oTL72SlEN1qio+kpQgAEOu5TS/lEMAAIA/kpWUIAAgAbxBgGBxviIAIACUkyABIACSlZIgAJIiACAAkg8LQ9oPyT8gAEMAAIA/kkMAAAA/lCIAkSIBIAEgACAAIABDa9MNvJRDuhMvvZKUQ3WqKj6SlCAAQ67lNL+UQwAAgD+SlZRDaCGis5KSkyIAIACSDwtD2g/JPyACQYGAgJQDSQ0BGkNoIaIzIAAgACAAlCIBIAEgAUNr0w28lEO6Ey+9kpRDdaoqPpKUIAFDruU0v5RDAACAP5KVlJMgAJND2g/JP5IPCyACQYCAgPwDRg0BQwAAAAAgACAAk5ULDwtDAAAAAEPaD0lAIANBAE4bC4ECAQV/IABBBGoQ6gICQAJAIAAtABxBA0YEQCAAKAIgIgIoAgAhASACQQRqKAIAIgMoAgAiBARAIAEgBBEDAAsgAygCBCIDBEAgAUEEaygCACIEQXhxIgVBBEEIIARBA3EiBBsgA2pJDQIgBEEAIAUgA0EnaksbDQMgARCiAgsgAkEEaygCACIBQXhxIgNBEEEUIAFBA3EiARtJDQEgAUEAIANBNE8bDQIgAhCiAgsgAEEEaygCACICQXhxIgFBKEEsIAJBA3EiAhtJDQAgAkEAIAFBzABPGw0BIAAQogIPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAu4AgIIfwF9IwBBEGsiBSQAAkACQCADIARsIgZB/////wNLDQAgBkECdCIHQf3///8HTw0AAkAgB0UEQEEEIQhBACEGDAELIAcQcSIIRQ0CCyAFQQA2AgwgBSAINgIIIAUgBjYCBAJAIAQEQCAEQQJ0IQwDQCAJQQJ0IQsgCkECdCEGIApBAWohCiADIQcDQCAGQQNqIAJPDQMgASAGaioAACENIAUoAgQgCUYEQCAFQQRqQdzmxwAQ+gUgBSgCCCEICyAIIAtqIA04AgAgBSAJQQFqIgk2AgwgC0EEaiELIAYgDGohBiAHQQFrIgcNAAsgBCAKRw0ACwsgACAFKQIENwIAIABBCGogBUEMaigCADYCACAFQRBqJAAPCyAGIAZBBGogAkHs5scAEOoHAAtBzObHABD/BwsAC7gCAgd/AX0jAEEQayIIJAACQAJAIAMgBGwiB0H/////A0sNACAHQQJ0IglB/f///wdPDQACQCAJRQRAQQQhCkEAIQcMAQsgCRBxIgpFDQILIAhBADYCDCAIIAo2AgggCCAHNgIEAkAgBARAIAYgBZMhDkEAIQcDQCALQQJ0IQwgB0EBaiADIQ0DQCACIAdNDQMgBSAOIAEgB2otAACzQwAAf0OVlJIhBiAIKAIEIAtGBEAgCEEEakHM7McAEPoFIAgoAgghCgsgCiAMaiAGOAIAIAggC0EBaiILNgIMIAxBBGohDCAEIAdqIQcgDUEBayINDQALIgcgBEcNAAsLIAAgCCkCBDcCACAAQQhqIAhBDGooAgA2AgAgCEEQaiQADwsgByACQbzsxwAQjAcAC0Gs7McAEP8HCwALqwIBBX9BC0EAIABBgI8ETxsiAiACQQVqIgEgAEELdCICIAFBAnQoAtT6QkELdEkbIgEgAUEDaiIBIAFBAnQoAtT6QkELdCACSxsiASABQQFqIgEgAUECdCgC1PpCQQt0IAJLGyIBIAFBAWoiASABQQJ0KALU+kJBC3QgAksbIgFBAnQoAtT6QkELdCIEIAJGIAIgBEtqIAFqIgRBAnQiAkHU+sIAaiEFIAIoAtT6QkEVdiECQbsCIQECQCAEQRRNBEAgBSgCBEEVdiEBIARFDQELIAVBBGsoAgBB////AHEhAwsCQCABIAJBf3NqRQ0AIAAgA2shAyABQQFrIQFBACEAA0AgACACQer+wQBqLQAAaiIAIANLDQEgASACQQFqIgJHDQALCyACQQFxC7YCAQZ/IwBBEGsiBiQAIAAgASACEMwDAkAgAgRAIAAoAmAhCSAAKAJkIQhBACEBA0AgAUEDaiAITw0CAkACQCABIARPDQAgBCABayIFQQAgBCAFTxsiBUEBRwRAAkACQCAFQQJrDgIBAAQLIAFBA2ohAQwCCyABQQJqIQEMAQsgAUEBaiEBCyABIARB5ODAABCMBwALIAYgAyAHaiIFKgIAOAIAIAYgBUEMaioCADgCDCAGIAVBBGopAgA3AgQgByAJaiIFQQ9qIAYQnQQiCkEQdjoAACAFQQhqIgUgBS8BACAKQRB0IgVBgID8B3FyIAVBgICAeHFyNgIAIAdBEGohByABQQRqIQEgAkEBayICDQALCyAAQQE6ALgBIAZBEGokAA8LIAEgAUEEaiAIQdTgwAAQ6gcAC9kCAQN/IwBBEGsiAiQAIAEoAgBBjJvFAEEJIAEoAgQoAgwRAAAhAyACQQA6AAUgAiADOgAEIAIgATYCACACIAAoAAAiADYCCCACQaibxQBBBCACQQhqQZibxQAQjAUgAiAAQX9zQQV2QQFxOgAMQbybxQBBCCACQQxqQaybxQAQjAUgAiAAQQ12QQFxOgANQcSbxQBBByACQQ1qQaybxQAQjAUgAiAAQRV2QQFxOgAOQcubxQBBCCACQQ5qQaybxQAQjAUgAiAAQR12QQFxOgAPQdObxQBBCCACQQ9qQaybxQAQjAUhACACLQAFIgMgAi0ABCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXEL9wEBBH8CQAJAIAAoAgAiAgRAIAAoAgQiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCiAgsgACgCDCICBEAgACgCECIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAKAIYIgIEQCAAKAIcIgBBBGsoAgAiA0F4cSIBQQRBCCADQQNxIgMbIAJqSQ0BIANBACABIAJBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALsQICBX8DfiAALQAMQQxHBEAgAEEQajEAAEIghiEJIAA1AgwhCiAAKAIIIgUoAgAiAyAFKAIEIgYgACkDAKciB3EiAGopAABCgIGChIiQoMCAf4MiCFAEQEEIIQQDQCAAIARqIQAgBEEIaiEEIAMgACAGcSIAaikAAEKAgYKEiJCgwIB/gyIIUA0ACwsgAyAIeqdBA3YgAGogBnEiAGosAAAiBEEATgRAIAMgAykDAEKAgYKEiJCgwIB/g3qnQQN2IgBqLQAAIQQLIAAgA2ogB0EZdiIHOgAAIAMgAEEIayAGcWpBCGogBzoAACAFIAUoAgggBEEBcWs2AgggBSAFKAIMQQFqNgIMIAMgAEFobGoiAEEIayACNwMAIABBEGsgATcDACAAQRhrIAkgCoQ3AwALC7oCAQV/IwBBEGsiBSQAIAVBCGogACgCCCgCACABIAIQkQQCQAJAAkACQCAFLQAIIgZBBEcEQCAAKAIEIQEgAC0AACICQQRNIAJBA0dxRQRAIAEoAgAhAiABQQRqKAIAIgMoAgAiBARAIAIgBBEDAAsgAygCBCIDBEAgAkEEaygCACIEQXhxIgdBBEEIIARBA3EiBBsgA2pJDQMgBEEAIAcgA0EnaksbDQQgAhCiAgsgAUEEaygCACICQXhxIgNBEEEUIAJBA3EiAhtJDQQgAkEAIANBNE8bDQUgARCiAgsgACAFKQMINwIACyAFQRBqJAAgBkEERw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAu6AgEEf0EfIQIgAEIANwIQIAFB////B00EQCABQSYgAUEIdmciA2t2QQFxIANBAXRrQT5qIQILIAAgAjYCHCACQQJ0QbC3yQBqIQRBASACdCIDQcy6yQAoAgBxRQRAIAQgADYCACAAIAQ2AhggACAANgIMIAAgADYCCEHMuskAQcy6yQAoAgAgA3I2AgAPCwJAAkAgASAEKAIAIgMoAgRBeHFGBEAgAyECDAELIAFBGSACQQF2a0EAIAJBH0cbdCEFA0AgAyAFQR12QQRxaiIEKAIQIgJFDQIgBUEBdCEFIAIhAyACKAIEQXhxIAFHDQALCyACKAIIIgEgADYCDCACIAA2AgggAEEANgIYIAAgAjYCDCAAIAE2AggPCyAEQRBqIAA2AgAgACADNgIYIAAgADYCDCAAIAA2AggLtQICAn0FfyAAIAEgAhDMAyACQQNsIQkgACoChAEgACoCgAEiBZMhBkECIAQgBEECTRtBA25BA2whCiAAKAJgIQIgACgCZCEHQQAhAUEAIQACQAJAAkACQANAIAFBBGoiCCAHSw0CIAAgBE8NAyADIAUgBiACKAIAIgFB/wFxs0MAAH9DlZSSOAIAIABBAWoiCyAETw0EIANBBGogBSAGIAFBCHZB/wFxs0MAAH9DlZSSOAIAIAAgCkYNASADQQhqIAUgBiABQRB2Qf8BcbNDAAB/Q5WUkjgCACACQRBqIQIgA0EMaiEDIAghASAJIABBA2oiAEcNAAsPCyAAQQJqIARB/NLAABCMBwALIAEgCCAHQYzTwAAQ6gcACyAAIARB3NLAABCMBwALIAsgBEHs0sAAEIwHAAuuAgIHfwF9IwBBEGsiByQAAkACQCADIARsIgZB/////wNLDQAgBkECdCIIQf3///8HTw0AAkAgCEUEQEEEIQlBACEGDAELIAgQcSIJRQ0CCyAHQQA2AgwgByAJNgIIIAcgBjYCBAJAIAQEQEEAIQYDQCAKQQJ0IQsgBkEBaiADIQwDQCACIAZNDQMgBSABIAZqLAAAskMAAP5ClZQhDSAHKAIEIApGBEAgB0EEakH87McAEPoFIAcoAgghCQsgCSALaiANOAIAIAcgCkEBaiIKNgIMIAtBBGohCyAEIAZqIQYgDEEBayIMDQALIgYgBEcNAAsLIAAgBykCBDcCACAAQQhqIAdBDGooAgA2AgAgB0EQaiQADwsgBiACQezsxwAQjAcAC0Hc7McAEP8HCwAL0wIBBn8jAEGwA2siAiQAIAJBCGogAUEBEI8BAkACQAJAAn8gAigCCEECRgRAIAIoAgwhAyACQQA2ApgDIAJCgICAgBA3ApADIAJBnJPBADYCoAMgAkKggICADjcCpAMgAiACQZADajYCnAMgAyACQZwDahCvBA0CIAIoApADIQQgAigClAMiBiACKAKYAxDsCCEBIAQEQCAGQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyAEakkNBCAFQQAgByAEQSdqSxsNBSAGEKICCyADIAMoAgAoAgARAwBBAQwBCyACQcwBaiIBIAJBCGpBxAH8CgAAIAEQ0QEhAUEACyEDIAAgATYCBCAAIAM2AgAgAkGwA2okAA8LQaCexgBBNyACQa8DakG0k8EAQdiexgAQ4AYAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAveAgEEfyMAQTBrIgEkACAAKAIsIgL9DAEAAAAAAAAAAAAAAAAAAAD9CwMIIABBADYCLCAAKAI4IQQgACgCNCEDIAIoAsRwIQAgASACKALIcCICNgIMIAEgADYCCAJAAkACQAJAAkAgAEUNACADQR1HBEAgBCAAQQRrKAAAIAMRAQAMAQsgAkUNASACQcH///8HTw0CIABBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAJqSQ0DIANBACAEIAJBJ2pLGw0EIAAQogILIAFBMGokAA8LIAFCATcCHCABQQE2AhQgAUH4g8kANgIQIAEgAUEIaq1CgICAgPADhDcDKCABIAFBKGo2AhhBASABQQxqQfDlyAAgAUEQakGAhMkAEPUHAAtB2ObIAEErIAFBEGpBtIPJAEHEg8kAEOAGAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALnQICBH8DfiMAQSBrIgMkAEEUIQIgACkDACIIIQYgCELoB1oEQCAIIQcDQCADQQxqIAJqIgBBBGsgByAHQpDOAIAiBkKQzgB+faciBEH//wNxQeQAbiIFQQF0LwC4ukU7AAAgAEECayAEIAVB5ABsa0H//wNxQQF0LwC4ukU7AAAgAkEEayECIAdC/6ziBFYgBiEHDQALCyAGQglWBEAgAkECayICIANBDGpqIAanIgAgAEH//wNxQeQAbiIAQeQAbGtB//8DcUEBdC8AuLpFOwAAIACtIQYLIAhQRSAGUHFFBEAgAkEBayICIANBDGpqIAanQQF0LQC5ukU6AAALIAFBAUEBQQAgA0EMaiACakEUIAJrEMgDIANBIGokAAu7AgEDfyMAQSBrIgIkAAJ/AkACQAJAIAAoAgBFBEAgACgCECIADQEMAwsgAkEIaiAAEMgFIAIoAggiA0UEQCACLQAMIQMgACgCECIEBEBBASAEQfqyxQBB6rLFACADQQFxIgQbQRlBECAEGxCXAw0FGgsgACADOgAEIABBADYCAEEADAQLIAJBCGogAyACKAIMIgQQwgQCQCACKAIIQQFGBEAgAiACKQMQNwMYIAAoAhAiAEUNBCACQRhqIAAQhQUNAQwDCyAAKAIQIgBFDQMgAEGEtMUAQQIQlwMNACAAIAMgBBCXA0UNAgtBAQwDCyAAQZOzxQBBARCXAwwCCyAALQAKQYABcQ0AIAIgARDnByACKAIAIgEEQCAAIAEgAigCBBCXAwwCC0GItMUAEN0JAAtBAAsgAkEgaiQAC6MCAQV/AkACQAJAIAIgAkEDakF8cSIERwRAIAQgAmshBUEAIQQgAUH/AXEhB0EBIQYDQCACIARqLQAAIAdGDQQgBSAEQQFqIgRHDQALIAUgA0EIayIGSw0CDAELIANBCGshBgsgAUH/AXFBgYKECGwhBANAQYCChAggAiAFaiIHKAIAIARzIghrIAhyQYCChAggB0EEaigCACAEcyIHayAHcnFBgIGChHhxQYCBgoR4Rw0BIAVBCGoiBSAGTQ0ACwsCQCADIAVGDQAgAyAFayEDIAIgBWohAkEAIQQgAUH/AXEhAQNAIAEgAiAEai0AAEcEQCAEQQFqIgQgA0cNAQwCCwsgBCAFaiEEQQEhBgwBC0EAIQYLIAAgBDYCBCAAIAY2AgALqAIBBn8gACgCCCABTwRAIAAgATYCCAsCQAJAAkACQAJAIAAoAhQiAkUgASACS3INACAAIAE2AhQgASACRg0AIAIgAWshBSAAKAIQIAFBGGxqIQIDQCACQRRqKAIAIgNBBU8EQCACQQhqKAIAIgZBBGsoAgAiBEF4cSIHIANBAnQiA0EEQQggBEEDcSIEG2pJDQMgBEEAIAcgA0EnaksbDQQgBhCiAgsgAkEYaiECIAVBAWsiBQ0ACwsgACgCICICRQ0DIAEgAk0NAgwDC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgACABNgIgCyAAKAIsIgJFIAEgAktyRQRAIAAgATYCLAsgACgCOCICRSABIAJLckUEQCAAIAE2AjgLC8UCAgN/AXsjAEEgayICJAACQAJAAkAgACgCACIDRQ0AIAAoAggiASAAKAIETw0AAkACQAJAIAEgA2otAAAiA0HJAEcEQCADQcIARw0EIAAgAUEBajYCCCACIAAQrwYgAigCAA0BIAAoAhAiAUUNAiABQfqyxQBB6rLFACACLQAEQQFxIgEbQRlBECABGxCXA0UNAkECIQEMBgsgACABQQFqNgIIQQIhASAAQQAQzAFFDQQMBQsgACgCEEUNASAA/QACACEEIAAgAv0AAgD9CwIAIAIgBP0LAxAgABCJBSAAIAL9AAMQ/QsCAEH/AXEhAQwECyAAIAL9AAIA/QsCAAtBACEBDAILQQJBACAAQQAQzAEbIQEMAQsgACgCECIDBEAgA0Gms8UAQQEQlwMNAQtBAkEBIAAQ7gQbIQELIAJBIGokACABC78CAQR/AkACQAJAIAEoAghBAkcEQCABKALABCICRQRAIAEtAMcCIQMgAS0AxgIhAgwECyACQZCABHEhBAJAIAJBAXEgAS0AxwIiAyIFQRBGcUUEQCAERQ0BQQggBSAFQQhNGyADIAQbIQMMAwtBCCEDIAQNAiABLQDGAiECDAQLIAEtAMYCIQIMAgtBrJjHABDdCQALAkACQAJAIAEoAtQBQYGAgIB4RwRAQQQhAiABLQDGAiIBDgQEAQMDAQsgAkGAgARxIQICQAJAIAEtAMYCIgEOBAACAQMCCyACRQRAQQAhAgwFC0EEIQIMBAsgAg0CQQIhAQsgASECDAILIAINAEECIQIMAQtBBiECCyADQf8BcSIBQRBNQQBBASABdEGWggRxGw0AQeiZxwAQ3QkACyAAIAM6AAEgACACOgAAC5kCAQd/IwBBEGsiBCQAQQohAiAAKAIAIgUhAyAFQegHTwRAIAUhAANAIARBBmogAmoiBkEEayAAIABBkM4AbiIDQZDOAGxrIgdB//8DcUHkAG4iCEEBdC8AuLpFOwAAIAZBAmsgByAIQeQAbGtB//8DcUEBdC8AuLpFOwAAIAJBBGshAiAAQf+s4gRLIAMhAA0ACwsCQCADQQlNBEAgAyEADAELIAJBAmsiAiAEQQZqaiADIANB//8DcUHkAG4iAEHkAGxrQf//A3FBAXQvALi6RTsAAAtBACAFIAAbRQRAIAJBAWsiAiAEQQZqaiAAQQF0LQC5ukU6AAALIAFBAUEBQQAgBEEGaiACakEKIAJrEMgDIARBEGokAAvQAgEEfyMAQSBrIgUkAEEBIQcCQCAALQAEDQAgAC0ABSEIIAAoAgAiBi0ACkGAAXFFBEAgBigCAEHnkMYAQfyzxQAgCEEBcSIIG0ECQQMgCBsgBigCBCgCDBEAAA0BIAYoAgAgASACIAYoAgQoAgwRAAANASAGKAIAQd34xwBBAiAGKAIEKAIMEQAADQEgAyAGIAQoAgwRAgAhBwwBCyAIQQFxRQRAIAYoAgBB+IHCAEEDIAYoAgQoAgwRAAANAQsgBUEBOgAPIAVB4IHCADYCFCAFIAYpAgA3AgAgBSAGKQIINwIYIAUgBUEPajYCCCAFIAU2AhAgBSABIAIQrwMNACAFQd34xwBBAhCvAw0AIAMgBUEQaiAEKAIMEQIADQAgBSgCEEHZgcIAQQIgBSgCFCgCDBEAACEHCyAAQQE6AAUgACAHOgAEIAVBIGokACAAC8ACAgN/AX4jAEEgayICJAAgAkEJOgAQIAIgASACQRBqIAEoAoABEOQEAkACQCACLQAAIgNBHUcEQCACKQIEIQUCfyADRQRAIAIgBTcDECAFpyEDIAIpAhQhBUEFDAELIAIoAgwhBEEQEHEiAUUNAyABIAM6AAAgASAENgIMIAEgBTcCBCABIAJBAXIiAy8AADsAASABQQNqIANBAmotAAA6AAAgAkGABjsBECACKAIQIQNBAAshBCAAQey7xAA2AhggACABNgIUIAAgBTcDCCAAIAM2AgQgACAENgIADAELIAIpAgghBUEAIQMgAigCBCIEQYCAgIB4RwRAIAIoAgggAigCDBCWAUH/AXEiA0EAIANBCEcbIQMLIAAgBTcDCCAAIAQ2AgQgASADOgCYASAAQQY2AgALIAJBIGokAA8LAAuhAgEGfyMAQRBrIgQkAAJAAkAgA0H/////A0sNACADQQJ0IgVB/f///wdPDQACQCAFRQRAQQQhBwwBCyADIQYgBRBxIgdFDQILIARBADYCDCAEIAc2AgggBCAGNgIEAkACQCADBEBBACEFQQAhBgNAIAIgBU0NAiAFQQFqIgkgAk8NAyABIAVqLwAAIQkgBCgCBCAGRgRAIARBBGpBnOrHABD6BSAEKAIIIQcLIAcgCGogCTYCACAEIAZBAWoiBjYCDCAIQQRqIQggBUECaiEFIAMgBkcNAAsLIAAgBCkCBDcCACAAQQhqIARBDGooAgA2AgAgBEEQaiQADwsgBSACQfzpxwAQjAcACyAJIAJBjOrHABCMBwALQezpxwAQ/wcLAAucAgACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAEH/AXFBAWsOBwUAAQICAgMECyADQX1NIANBAmoiACACTXENBSADIAAgAkG02scAEOoHAAsgA0F9TSADQQJqIgAgAk1xDQUgAyAAIAJBxNrHABDqBwALIANBe00gA0EEaiIAIAJNcQ0FIAMgACACQdTaxwAQ6gcACyADQXdNIANBCGoiACACTXENBSADIAAgAkHk2scAEOoHAAsgAiADTQ0FIAEgA2osAAAPCyACIANLDQUgAyACQaTaxwAQjAcACyABIANqLgAADwsgASADai8AAA8LIAEgA2ooAAAPCyABIANqKwAA/AMPCyADIAJBlNrHABCMBwALIAEgA2otAAALzQIBBH8jAEEgayIEJAAgASgCDCEFAkAgAAJ/AkACQAJAIAEoAhQiAiABKAIQIgNJBEADQAJAIAIgBWotAABBCWsOMgAAAwMAAwMDAwMDAwMDAwMDAwMDAwMDAAMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMFAwsgASACQQFqIgI2AhQgAiADRw0ACyADIQILIARBEGogBSADIAJBAWoiASADIAEgA0kbEPkBIAQoAhQhASAEKAIQIQNBFBBxIgJFDQQgAkEDNgIADAELIARBCGogBSADIAJBAWoiASADIAEgA0kbEPkBIAQoAgwhASAEKAIIIQNBFBBxIgJFDQMgAkEGNgIACyACIAM2AgwgAiABNgIQQQEMAQsgASACQQFqNgIUIARBGGogARCVAyAEKAIcIQIgBCgCGAs2AgAgACACNgIEIARBIGokAA8LAAu2AgEBfyMAQUBqIgMkACADIAI2AhAgAyABNgIMIAACfwJAAkACQAJAAkACQAJAIAJBA2sOBwAFAQIFBQMFCyABQZDQxwBBAxDbB0UEQCAAQQA6AAFBAAwHCyABQaD3xwBBAxDbBw0DIABBAToAAUEADAYLIAFBo/fHAEEFENsHDQMgAEECOgABQQAMBQsgAUGo98cAQQYQ2wcNAiAAQQM6AAFBAAwECyABQa73xwBBCRDbBw0BIABBBDoAAUEADAMLIAFBt/fHAEEDENsHRQ0BCyADQQE2AiQgA0HQ98cANgIgIANCATcCLCADIANBDGqtQoCAgIAghDcDOCADIANBOGo2AiggA0EUaiIBIANBIGoQ7AMgACABEJAHNgIEQQEMAQsgAEEFOgABQQALOgAAIANBQGskAAuNAgEGfyAAKAIIIgQhAgJ/QQEgAUGAAUkNABpBAiABQYAQSQ0AGkEDQQQgAUGAgARJGwsiBiAAKAIAIARrSwR/IAAgBCAGQQFBARCkBSAAKAIIBSACCyAAKAIEaiECAkAgAUGAAU8EQCABQT9xQYB/ciEFIAFBBnYhAyABQYAQSQRAIAIgBToAASACIANBwAFyOgAADAILIAFBDHYhByADQT9xQYB/ciEDIAFB//8DTQRAIAIgBToAAiACIAM6AAEgAiAHQeABcjoAAAwCCyACIAU6AAMgAiADOgACIAIgB0E/cUGAf3I6AAEgAiABQRJ2QXByOgAADAELIAIgAToAAAsgACAEIAZqNgIIQQALrQIBBn8CQAJAAkACQAJAQQQQcSIBRQ0AIAFBmJXBADYCAEEIEHEiAEUNACAAIAE2AgAgAEG4lcEANgIEQdi2yQBB2LbJACgCACIBIAAgARs2AgAgAUUEQCAADwsgACgCACECIAAoAgQiAygCACIEBEAgAiAEEQMACyADKAIEIgMEQCACQQRrKAIAIgRBeHEiBUEEQQggBEEDcSIEGyADakkNAiAEQQAgBSADQSdqSxsNAyACEKICCyAAQQRrKAIAIgJBeHFBDEEQIAJBA3EiAxtJDQMgA0EAIAJBME8bDQQgABCiAiABDwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALoQIBBn8CQAJAAkACQAJAIAAoAgQiBCAAKAIIIgVrIgggAyACayIGQRBqSQRAIAEoAggiByABKAIEIglLDQUgAiADSyADIAdLcg0BIAQgBUkNAiAGIAhNDQNBACAGIAhBjP/IABDqBwALIAIgA0YNAyAAKAIAIAVqIgQgASgCACIBIAJqIgL9AAAA/QsAACACQRBqIgIgASADaiIBTw0DIARBEGohAwNAIAMgAv0AAAD9CwAAIANBEGohAyACQRBqIgIgAUkNAAsMAwsgAiADIAdBrP/IABDqBwALIAUgBCAEQZz/yAAQ6gcACyAGRQ0AIAAoAgAgBWogASgCACACaiAG/AoAAAsgACAFIAZqNgIIDwtBACAHIAlBgP7IABDqBwALrgICBX8BfiMAQUBqIgIkACABKAIAQYCAgIB4RgRAIAEoAgwgAkEANgIkIAJCgICAgBA3AhwoAgAiAykCECEHIAMoAgwhBCADKAIIIQUgAygCACEGIAMoAgQhAyACIAc3AjggAiAENgI0IAIgBTYCMCACIAM2AiwgAiAGNgIoIAJBHGpBzIXIACACQShqEMEDGiACQRhqIAJBJGooAgAiAzYCACACIAIpAhwiBzcDECABQQhqIAM2AgAgASAHNwIACyABKQIAIQcgAUKAgICAEDcCACACQQhqIgMgAUEIaiIBKAIANgIAIAFBADYCACACIAc3AwBBDBBxIgFFBEAACyABIAIpAwA3AgAgAUEIaiADKAIANgIAIABB3I3IADYCBCAAIAE2AgAgAkFAayQAC4kCAQZ/IAAoAggiBCECAn9BASABQYABSQ0AGkECIAFBgBBJDQAaQQNBBCABQYCABEkbCyIGIAAoAgAgBGtLBH8gACAEIAYQ9wUgACgCCAUgAgsgACgCBGohAgJAIAFBgAFPBEAgAUE/cUGAf3IhBSABQQZ2IQMgAUGAEEkEQCACIAU6AAEgAiADQcABcjoAAAwCCyABQQx2IQcgA0E/cUGAf3IhAyABQf//A00EQCACIAU6AAIgAiADOgABIAIgB0HgAXI6AAAMAgsgAiAFOgADIAIgAzoAAiACIAdBP3FBgH9yOgABIAIgAUESdkFwcjoAAAwBCyACIAE6AAALIAAgBCAGajYCCEEAC4kCAQZ/IAAoAggiBCECAn9BASABQYABSQ0AGkECIAFBgBBJDQAaQQNBBCABQYCABEkbCyIGIAAoAgAgBGtLBH8gACAEIAYQ+AUgACgCCAUgAgsgACgCBGohAgJAIAFBgAFPBEAgAUE/cUGAf3IhBSABQQZ2IQMgAUGAEEkEQCACIAU6AAEgAiADQcABcjoAAAwCCyABQQx2IQcgA0E/cUGAf3IhAyABQf//A00EQCACIAU6AAIgAiADOgABIAIgB0HgAXI6AAAMAgsgAiAFOgADIAIgAzoAAiACIAdBP3FBgH9yOgABIAIgAUESdkFwcjoAAAwBCyACIAE6AAALIAAgBCAGajYCCEEAC4kCAQZ/IAAoAggiBCECAn9BASABQYABSQ0AGkECIAFBgBBJDQAaQQNBBCABQYCABEkbCyIGIAAoAgAgBGtLBH8gACAEIAYQ7wUgACgCCAUgAgsgACgCBGohAgJAIAFBgAFPBEAgAUE/cUGAf3IhBSABQQZ2IQMgAUGAEEkEQCACIAU6AAEgAiADQcABcjoAAAwCCyABQQx2IQcgA0E/cUGAf3IhAyABQf//A00EQCACIAU6AAIgAiADOgABIAIgB0HgAXI6AAAMAgsgAiAFOgADIAIgAzoAAiACIAdBP3FBgH9yOgABIAIgAUESdkFwcjoAAAwBCyACIAE6AAALIAAgBCAGajYCCEEAC/gBAgR/An4gACgCECECIAApAwghBiAAKAIEIQUgACgCGCIEQQBIBEAgAiAFSQRAIAAoAgAgAkECdGooAAAhAwsgA0EYdCADQYD+A3FBCHRyIANBCHZBgP4DcSADQRh2cnKtIAZCIIaEIQYgBEEgaiEEIAJBAWohAgsgAiAFTQRAIAAoAhQhAyAAIAI2AhAgACAGIANBAWsgAUH/AXFsQQh2QQFqIgGtIARBP3GthiIHQgAgBiAHWiICG303AwggACAEIAMgAWsgASACGyIBZyIEQRhrIgNBACADIARNGyIEazYCGCAAIAEgBHQ2AhQgAg8LIAAgARDRBAuUAgEEfyMAQRBrIgIkACACQQA2AgwCfyABQYABTwRAIAFBP3FBgH9yIQMgAUEGdiEEIAFBgBBJBEAgAiADOgANIAIgBEHAAXI6AAxBAgwCCyABQQx2IQUgBEE/cUGAf3IhBCABQf//A00EQCACIAM6AA4gAiAEOgANIAIgBUHgAXI6AAxBAwwCCyACIAM6AA8gAiAEOgAOIAIgBUE/cUGAf3I6AA0gAiABQRJ2QXByOgAMQQQMAQsgAiABOgAMQQELIQEgACAAKAIEIgMgAWs2AgQgACAAKAIAIAEgA0tyIgQ2AgBBASEDIARFBEAgACgCCCIAKAIAIAJBDGogASAAKAIEKAIMEQAAIQMLIAJBEGokACADC4ICAQV/IwBBEGsiAyQAAkAgAC4BACIFIAXBQQ91IgBzIABrIgJB//8DcSIEQegHTwRAQQEhACADIAIgBEGQzgBuIgJBkM4AbGsiBEH//wNxQeQAbiIGQQF0LwC4ukU7AAwgAyAEIAZB5ABsa0H//wNxQQF0LwC4ukU7AA4MAQtBBSEAIARBCkkNACADIAIgAkH//wNxQeQAbiICQeQAbGtB//8DcUEBdC8AuLpFOwAOQQMhAAtBACAFIAJB//8DcSICG0UEQCAAQQFrIgAgA0ELamogAkEBdC0AubpFOgAACyABIAVBAE5BAUEAIANBC2ogAGpBBSAAaxDIAyADQRBqJAALugMBDH8jAEEQayIFJAACQAJAIANBAEgNACADQQF0IgRB/////wdPDQACQCAERQRAQQIhBAwBCyADIQcgBBBxIgRFDQILIAVBADYCDCAFIAQ2AgggBSAHNgIEAkACQCADBEBBACEHA0AgAiAGTQ0CIAZBAWoiCCACTw0DIAEgBmovAAAhDSAFKAIEIAdGBEBBACEJIwBBIGsiBCQAAkACQEEEIAVBBGoiCCgCACIOQQF0IgsgC0EETRsiDEEASA0AIAxBAXQiD0H+////B0sNACAEIA4EfyAEIAs2AhwgBCAIKAIENgIUQQIFQQALNgIYIARBCGpBAiAPIARBFGoQhQcgBCgCCEEBRw0BIAQoAhAhCiAEKAIMIQkLIAkgCkGs58cAEJMJAAsgBCgCDCEJIAggDDYCACAIIAk2AgQgBEEgaiQAIAUoAgghBAsgBCAGaiANOwEAIAUgB0EBaiIHNgIMIAZBAmohBiADIAdHDQALCyAAIAUpAgQ3AgAgAEEIaiAFQQxqKAIANgIAIAVBEGokAA8LIAYgAkGM58cAEIwHAAsgCCACQZznxwAQjAcAC0H85scAEP8HCwALuwIBBX8jAEEgayICJAACQCAAKAIAIgQoAgAEQEEBIQAgASgCACIDQcOYyABBBCABKAIEIgYoAgwiBREAAA0BAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBREAAA0DIAQoAgAgASAEQQRqKAIAKAIMEQIADQMgASgCACEDIAEoAgQoAgwhBQwBCyADQduBwgBBAiAFEQAADQIgAkEBOgAPIAIgBjYCBCACIAM2AgAgAkHggcIANgIUIAIgASkCCDcCGCACIAJBD2o2AgggAiACNgIQIAQoAgAgAkEQaiAEQQRqKAIAKAIMEQIADQIgAigCEEHZgcIAQQIgAigCFCgCDBEAAA0CCyADQd6OyABBASAFEQAAIQAMAQsgASgCAEG/mMgAQQQgASgCBCgCDBEAACEACyACQSBqJAAgAAuhAgICfwJ9AkACQCAAvCIBQYCAgAROBEAgAUH////7B0sNAUGBfyECQwAAAAAhACABQYCAgPwDRg0BDAILIABDAAAAAFsEQEMAAIC/IAAgAJSVDwsgAUEATgRAIABDAAAATJS8IQFB6H4hAgwCCyAAIACTQwAAAACVIQALIAAPCyABQY32qwJqIgFB////A3FB84nU+QNqvkMAAIC/kiIAIAAgAEMAAAA/lJQiA5O8QYBgcb4iBEMAsLg/lCAAIASTIAOTIAAgAEMAAABAkpUiACADIAAgAJQiACAAIACUIgBD7umRPpRDqqoqP5KUIAAgAEMmnng+lEMTzsw+kpSSkpSSIgBDALC4P5QgACAEkkPUmji5lJKSIAFBF3YgAmqykguaAgEEfyMAQSBrIgIkAAJAIAACfwJAIAEoAgBBlICAgHhGBEAgASgCDCIERQRADAILIAJBEGogASgCCCIFEKkEQQEhAyACKAIUIgEgAigCEEEBcQ0CGiAEQQFGDQEgAkEIaiAFQRBqEKkEIAIoAgwhAyADIAIoAghBAXENAhogBEECRwRAIAJBAjYCHCAEQf7///8AakH/////AHFBAmogAkEcakHolcEAENsGIQEgAEEBNgIAIAAgATYCBAwECyAAIAM2AgggACABNgIEIABBADYCAAwDCyABIAJBHGpBlOLAABCVCCEBIABBATYCACAAIAE2AgQMAgsgAyACQRxqQZTiwAAQ2wYLNgIEIABBATYCAAsgAkEgaiQAC4sCAQV/IwBBEGsiBiQAIAAgASACEOkEAkAgAgRAIAAoAoQBQQxqIQkgACgCiAEhCEEAIQEDQCABQQNqIAhPDQICQAJAIAEgBE8NACAEIAFrIgVBACAEIAVPGyIFQQFHBEACQAJAIAVBAmsOAgEABAsgAUEDaiEBDAILIAFBAmohAQwBCyABQQFqIQELIAEgBEHYvsEAEIwHAAsgBiADIAdqIgUqAgA4AgAgBiAFQQxqKgIAOAIMIAYgBUEEaikCADcCBCAHIAlqIAYQzQQ2AgAgB0EQaiEHIAFBBGohASACQQFrIgINAAsLIABBAToAwAEgBkEQaiQADwsgASABQQRqIAhByL7BABDqBwALwQICA38BfiMAQRBrIgIkAAJAAkACQAJAQQIgACgCACIAKQMAIgWnQQJrIAVCAVgbQQFrDgIBAgALIAEoAgBBranHAEEOIAEoAgQoAgwRAAAhAQwCCyABKAIAQbupxwBBEiABKAIEKAIMEQAAIQEMAQsgAiAAQSBqNgIEIAEoAgBBjYvIAEELIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQfCpxwBBBiAAQdCpxwAQjAVB9qnHAEEJIAJBBGpB4KnHABCMBSACLQANIgMgAi0ADCIEciEBIARBAXEgA0EBR3INACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQuwBgEKfyMAQRBrIggkAAJAAkACQAJAIAIEQCAAIAEgAhDMAyACQQNsIQxBAiAEIARBAk0bQQNuQQNsIQ0gACgCYCEBIAAoAmQhCkEAIQBBACECA0AgAEEEaiILIApLDQMgCEEEaiEJAn8gASgCBCIAQf//AXFFBEAgAEEQdAwBCyAAQf8HcSEFIABBgIACcSEGIABBgPgBcSIHQYD4AUYEQCAGQRB0IgZBgICA/AdyIAVFDQEaIAYgBUENdHJBgICA/gdyDAELIAZBEHQiBiAHQQ10QYCAgPwAcSAFQQ10ckGAgIDAA2pyIAcNABogBkGAgIDYA3IgBWdBEGsiBkEXdGsgBSAGQf//A3FBCGp0Qf///wNxcgshDgJ/IABBgIB8cSAAQRB2IgBB//8BcUUNABogAEH/B3EhBSAAQYCAAnEhBiAAQYD4AXEiB0GA+AFGBEAgBkEQdCIGQYCAgPwHciAFRQ0BGiAGIABBDXRyQYCAgP4HcgwBCyAGQRB0IgAgB0ENdEGAgID8AHEgBUENdHJBgICAwANqciAHDQAaIABBgICA2ANyIAVnQRBrIgBBF3RrIAUgAEH//wNxQQhqdEH///8DcXILIQcgCQJ/IAEoAggiBUH//wFxRQRAIAVBEHQMAQsgBUH/B3EhACAFQYCAAnEhBiAFQYD4AXEiBUGA+AFGBEAgBkEQdCIFQYCAgPwHciAARQ0BGiAFIABBDXRyQYCAgP4HcgwBCyAGQRB0IgYgBUENdEGAgID8AHEgAEENdHJBgICAwANqciAFDQAaIAZBgICA2ANyIABnQRBrIgVBF3RrIAAgBUH//wNxQQhqdEH///8DcXILNgIIIAkgBzYCBCAJIA42AgAgAiAETw0EIAMgCCoCBDgCACACQQFqIgAgBE8NBSADQQRqIAgqAgg4AgAgAiANRg0CIANBCGogCCoCDDgCACABQRBqIQEgA0EMaiEDIAshACAMIAJBA2oiAkcNAAsLIAhBEGokAA8LIAJBAmogBEG80cAAEIwHAAsgACALIApBzNHAABDqBwALIAIgBEGc0cAAEIwHAAsgACAEQazRwAAQjAcAC4ACAQd/IwBBIGsiASQAAkAgAC0AwAEEQCAAKAKwASAAKAK4ASICQQJ0IgUgACgCvAEgAmpBAnQiBhDhCCECIAAoAnghByAAKAJ8IQMgAhC4CiEEIAEgAzYCBCABIAQ2AgAgAyAERw0BIAIgByADEOAJIAJBhAhPBEAgAhCbBwsgACgCtAEgBSAGEOEIIQIgACgChAEhBSAAKAKIASEDIAIQuAohBCABIAM2AgQgASAENgIAIAMgBEcNASACIAUgAxDgCSACQYQITwRAIAIQmwcLIABBADoAwAELIAFBIGokAA8LIAFBADYCCEEAIAEgAUEEaiABQQhqQeD5xAAQ9QcAC/oBAgR/AX4jAEEgayIFJAACQAJAIAIgASACaiIGSwRAQQAhAQwBC0EAIQEgAyAEakEBa0EAIANrca0gBiAAKAIAIgdBAXQiAiACIAZJGyICQQhBBCAEQQFGGyIGIAIgBksbIgatfiIJQiCIUEUNACAJpyIIQYCAgIB4IANrSw0AQQAhAiAFIAcEfyAFIAQgB2w2AhwgBSAAKAIENgIUIAMFIAILNgIYIAVBCGogAyAIIAVBFGoQhQcgBSgCCEEBRw0BIAUoAhAhAiAFKAIMIQELIAEgAkGclsgAEJMJAAsgBSgCDCEBIAAgBjYCACAAIAE2AgQgBUEgaiQAC6ECAAJ/AkACQAJAAkAgAkEDaw4EAgMAAQMLAkACQAJAIAEtAABB7QBrDgUBBQUFAAULIAEtAAFB9QBGDQEMBAsgAS0AAUHlAEcNAyABLQACQeEARw0DIAEtAANB7gBHDQMgAS0ABEHzAEcNA0EADAQLIAEtAAJB4QBHDQIgAS0AA0H0AEcNAiABLQAEQfMARw0CQQIMAwsgAS0AAEHzAEcNASABLQABQeMARw0BIAEtAAJB4QBHDQEgAS0AA0HsAEcNASABLQAEQeUARw0BIAEtAAVB8wBHDQFBAQwCCyABLQAAQfMARw0AIAEtAAFB6ABHDQBBA0EEQQUgAS0AAiIBQc4ARhsgAUEwRhsMAQtBBQshASAAQQA6AAAgACABOgABC5oCAQJ/IwBBQGoiASQAAkAgABBBIgINACAALQChVEUEQCABQQA2AjggAUEBNgIsIAFB5KPBADYCKCABQgQ3AjAgAUEoahCSByECDAELAkAgACgC4AFBgICAgHhHBEAgAC0AlAIiAkEJRg0BIAJBBUYEQCAAKAKMAkUNAgsgAUECNgIsIAFBnKTBADYCKCABQgI3AjQgASAAQYwCaq1CgICAgBCENwMgIAEgAEGUAmqtQoCAgICwBIQ3AxggASABQRhqNgIwIAFBDGoiACABQShqELEGIAAQjgchAgwCCyABQQA2AjggAUEBNgIsIAFBwKTBADYCKCABQgQ3AjAgAUEoahCSByECDAELIAAQowEhAgsgAUFAayQAIAILmgIBAn8jAEFAaiIBJAACQCAAEEAiAg0AIAAtAKlURQRAIAFBADYCOCABQQE2AiwgAUHko8EANgIoIAFCBDcCMCABQShqEJIHIQIMAQsCQCAAKALoAUGAgICAeEcEQCAALQCcAiICQQlGDQEgAkEFRgRAIAAoApQCRQ0CCyABQQI2AiwgAUGcpMEANgIoIAFCAjcCNCABIABBlAJqrUKAgICAEIQ3AyAgASAAQZwCaq1CgICAgLAEhDcDGCABIAFBGGo2AjAgAUEMaiIAIAFBKGoQsQYgABCOByECDAILIAFBADYCOCABQQE2AiwgAUHApMEANgIoIAFCBDcCMCABQShqEJIHIQIMAQsgABDUASECCyABQUBrJAAgAgv7AQEDfyMAQRBrIgIkACAAKAIAIQACfyABLQALQRhxRQRAIAEoAgAgACABKAIEKAIQEQIADAELIAJBADYCDCABIAJBDGoCfyAAQYABTwRAIABBP3FBgH9yIQMgAEEGdiEBIABBgBBJBEAgAiADOgANIAIgAUHAAXI6AAxBAgwCCyAAQQx2IQQgAUE/cUGAf3IhASAAQf//A00EQCACIAM6AA4gAiABOgANIAIgBEHgAXI6AAxBAwwCCyACIAM6AA8gAiABOgAOIAIgBEE/cUGAf3I6AA0gAiAAQRJ2QXByOgAMQQQMAQsgAiAAOgAMQQELEJcDCyACQRBqJAAL7QEBA38jAEEQayIDJAAgACgCACEAAn8CQCABKAIIIgJBgICAEHFFBEAgAkGAgIAgcQ0BIAAgARCLBQwCCyAAKAIAIQBBCSECA0AgAiADakEGaiAAQQ9xLQDctkU6AAAgAkEBayECIABBD0sgAEEEdiEADQALIAFBAUGEtMUAQQIgAiADakEHakEJIAJrEMgDDAELIAAoAgAhAEEJIQIDQCACIANqQQZqIABBD3EtAMmBQjoAACACQQFrIQIgAEEPSyAAQQR2IQANAAsgAUEBQYS0xQBBAiACIANqQQdqQQkgAmsQyAMLIANBEGokAAvrAQIEfwJ+IAAoAhAhAiAAKQMIIQUgACgCBCEEIAAoAhgiA0EASARAIAIgBEkEQCAAKAIAIAJBAnRqKAAAIQELIAFBGHQgAUGA/gNxQQh0ciABQQh2QYD+A3EgAUEYdnJyrSAFQiCGhCEFIANBIGohAyACQQFqIQILIAIgBE0EQCAAKAIUIQEgACACNgIQIAAgBSABIAFBAXYiAWsiBK0gA0E/ca2GIgZCACAFIAZaIgIbfTcDCCAAIAMgASAEIAIbIgFnIgNBGGsiBEEAIAMgBE8bIgNrNgIYIAAgASADdDYCFCACDwsgABC0Cgu7AgEEfyMAQRBrIgQkACABKAIMIQUCQAJAAkACQAJAIAEoAhQiAiABKAIQIgNJBEADQAJAIAIgBWotAABBCWsOMgAAAwMAAwMDAwMDAwMDAwMDAwMDAwMDAAMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMFAwsgASACQQFqIgI2AhQgAiADRw0ACyADIQILIARBCGogBSADIAJBAWoiASADIAEgA0kbEPkBIAQoAgwhASAEKAIIIQNBFBBxIgJFDQQgAkEDNgIADAELIAQgBSADIAJBAWoiASADIAEgA0kbEPkBIAQoAgQhASAEKAIAIQNBFBBxIgJFDQMgAkEGNgIACyACIAM2AgwgACACNgIEIABBATYCACACIAE2AhAMAQsgASACQQFqNgIUIAAgARC7AwsgBEEQaiQADwsAC7sCAQR/IwBBEGsiBCQAIAEoAgwhBQJAAkACQAJAAkAgASgCFCICIAEoAhAiA0kEQANAAkAgAiAFai0AAEEJaw4yAAADAwADAwMDAwMDAwMDAwMDAwMDAwMAAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwUDCyABIAJBAWoiAjYCFCACIANHDQALIAMhAgsgBEEIaiAFIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCDCEBIAQoAgghA0EUEHEiAkUNBCACQQM2AgAMAQsgBCAFIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCBCEBIAQoAgAhA0EUEHEiAkUNAyACQQY2AgALIAIgAzYCDCAAIAI2AgQgAEEBOgAAIAIgATYCEAwBCyABIAJBAWo2AhQgACABEIECCyAEQRBqJAAPCwALvwIBBH8jAEEQayIEJAAgASgCDCEFAkACQAJAAkACQCABKAIUIgIgASgCECIDSQRAA0ACQCACIAVqLQAAQQlrDjIAAAMDAAMDAwMDAwMDAwMDAwMDAwMDAwADAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDBQMLIAEgAkEBaiICNgIUIAIgA0cNAAsgAyECCyAEQQhqIAUgAyACQQFqIgEgAyABIANJGxD5ASAEKAIMIQEgBCgCCCEDQRQQcSICRQ0EIAJBAzYCAAwBCyAEIAUgAyACQQFqIgEgAyABIANJGxD5ASAEKAIEIQEgBCgCACEDQRQQcSICRQ0DIAJBBjYCAAsgAiADNgIMIAAgAjYCBCAAQYGAgIB4NgIAIAIgATYCEAwBCyABIAJBAWo2AhQgACABENwCCyAEQRBqJAAPCwALuwIBBH8jAEEQayIEJAAgASgCDCEFAkACQAJAAkACQCABKAIUIgIgASgCECIDSQRAA0ACQCACIAVqLQAAQQlrDjIAAAMDAAMDAwMDAwMDAwMDAwMDAwMDAwADAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDBQMLIAEgAkEBaiICNgIUIAIgA0cNAAsgAyECCyAEQQhqIAUgAyACQQFqIgEgAyABIANJGxD5ASAEKAIMIQEgBCgCCCEDQRQQcSICRQ0EIAJBAzYCAAwBCyAEIAUgAyACQQFqIgEgAyABIANJGxD5ASAEKAIEIQEgBCgCACEDQRQQcSICRQ0DIAJBBjYCAAsgAiADNgIMIAAgAjYCBCAAQQI2AgAgAiABNgIQDAELIAEgAkEBajYCFCAAIAEQpQILIARBEGokAA8LAAu7AgEEfyMAQRBrIgQkACABKAIMIQUCQAJAAkACQAJAIAEoAhQiAiABKAIQIgNJBEADQAJAIAIgBWotAABBCWsOMgAAAwMAAwMDAwMDAwMDAwMDAwMDAwMDAAMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMFAwsgASACQQFqIgI2AhQgAiADRw0ACyADIQILIARBCGogBSADIAJBAWoiASADIAEgA0kbEPkBIAQoAgwhASAEKAIIIQNBFBBxIgJFDQQgAkEDNgIADAELIAQgBSADIAJBAWoiASADIAEgA0kbEPkBIAQoAgQhASAEKAIAIQNBFBBxIgJFDQMgAkEGNgIACyACIAM2AgwgACACNgIEIABBAzYCACACIAE2AhAMAQsgASACQQFqNgIUIAAgARCDAQsgBEEQaiQADwsAC7sCAQR/IwBBEGsiBCQAIAEoAgwhBQJAAkACQAJAAkAgASgCFCICIAEoAhAiA0kEQANAAkAgAiAFai0AAEEJaw4yAAADAwADAwMDAwMDAwMDAwMDAwMDAwMAAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwUDCyABIAJBAWoiAjYCFCACIANHDQALIAMhAgsgBEEIaiAFIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCDCEBIAQoAgghA0EUEHEiAkUNBCACQQM2AgAMAQsgBCAFIAMgAkEBaiIBIAMgASADSRsQ+QEgBCgCBCEBIAQoAgAhA0EUEHEiAkUNAyACQQY2AgALIAIgAzYCDCAAIAI2AgQgAEECNgIAIAIgATYCEAwBCyABIAJBAWo2AhQgACABENICCyAEQRBqJAAPCwALqQIBBX8jAEEgayICJABBASEDAkAgACgCACIELQAAQQFGBEAgASgCACIAQcOYyABBBCABKAIEIgYoAgwiBREAAA0BIARBAWohBAJAIAEtAApBgAFxRQRAIABBu7PFAEEBIAURAAANAyAEIAEQygQNAyABKAIAIQAgASgCBCgCDCEFDAELIABB24HCAEECIAURAAANAiACQQE6AA8gAiAGNgIEIAIgADYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgBCACQRBqEMoEDQIgAigCEEHZgcIAQQIgAigCFCgCDBEAAA0CCyAAQd6OyABBASAFEQAAIQMMAQsgASgCAEG/mMgAQQQgASgCBCgCDBEAACEDCyACQSBqJAAgAwutAgEDfyMAQRBrIgIkACABKAIIIQMgAUEANgIIAkACQCADBEAgAygCAEGUgICAeEYEQAJAIAACfyADKAIMIgQEQCACIAMoAggQqAMgAigCACIBQYCAgIB4Rw0CIAIoAgQMAQtBACACQQ9qQYTiwAAQ2wYLNgIEIABBgICAgHg2AgAMBAsgAigCBCEDIARBAUYNAiACQQE2AgAgBEEBa0H/////AHFBAWogAkHolcEAENsGIQQgAEGAgICAeDYCACAAIAQ2AgQgAUUNAyADIAFBARCiBwwDCyADIAJBD2pBhOLAABCVCCEBIABBgICAgHg2AgAgACABNgIEDAILQcvawABBLEH42sAAEKsHAAsgACACKAIINgIIIAAgAzYCBCAAIAE2AgALIAJBEGokAAupAgEFfyMAQSBrIgIkAEEBIQMCQCAAKAIAIgQoAgBBAUYEQCABKAIAIgBBw5jIAEEEIAEoAgQiBigCDCIFEQAADQEgBEEIaiEEAkAgAS0ACkGAAXFFBEAgAEG7s8UAQQEgBREAAA0DIAQgARDEBQ0DIAEoAgAhACABKAIEKAIMIQUMAQsgAEHbgcIAQQIgBREAAA0CIAJBAToADyACIAY2AgQgAiAANgIAIAJB4IHCADYCFCACIAEpAgg3AhggAiACQQ9qNgIIIAIgAjYCECAEIAJBEGoQxAUNAiACKAIQQdmBwgBBAiACKAIUKAIMEQAADQILIABB3o7IAEEBIAURAAAhAwwBCyABKAIAQb+YyABBBCABKAIEKAIMEQAAIQMLIAJBIGokACADC5ECAQN/IwBBQGoiASQAAkAgABA9IgINACAALQClU0UEQCABQQA2AjggAUEBNgIsIAFB5KPBADYCKCABQgQ3AjAgAUEoahCSByECDAELIAAoAmRBgICAgHhHBEBBACECIAAtAJgBIgNBCUYNASADQQVGBEAgACgCkAFFDQILIAFBAjYCLCABQZykwQA2AiggAUICNwI0IAEgAEGQAWqtQoCAgIAQhDcDICABIABBmAFqrUKAgICAsASENwMYIAEgAUEYajYCMCABQQxqIgAgAUEoahCxBiAAEI4HIQIMAQsgAUEANgI4IAFBATYCLCABQcCkwQA2AiggAUIENwIwIAFBKGoQkgchAgsgAUFAayQAIAILkgIBA38jAEFAaiIBJAACQCAAED4iAg0AIAAtAMVTRQRAIAFBADYCOCABQQE2AiwgAUHko8EANgIoIAFCBDcCMCABQShqEJIHIQIMAQsgACgChAFBgICAgHhHBEBBACECIAAtALgBIgNBCUYNASADQQVGBEAgACgCsAFFDQILIAFBAjYCLCABQZykwQA2AiggAUICNwI0IAEgAEGwAWqtQoCAgIAQhDcDICABIABBuAFqrUKAgICAsASENwMYIAEgAUEYajYCMCABQQxqIgAgAUEoahCxBiAAEI4HIQIMAQsgAUEANgI4IAFBATYCLCABQcCkwQA2AiggAUIENwIwIAFBKGoQkgchAgsgAUFAayQAIAILiAIBAn8jAEHwAGsiAyQAAkACQAJAAkACQCABRQRAIABFDQEgAEEIayIBKAIAQQFHDQQgA0EIaiAAQQRqQegA/AoAACABQQA2AgACQCABQX9GDQAgAEEEayICIAIoAgBBAWsiAjYCACACDQAgAEEMaygCACIAQXhxIgJB+ABB/AAgAEEDcSIAG0kNAyAAQQAgAkGcAU8bDQQgARCiAgsgA0EIahD2AgwFCyAARQ0AIABBCGsiACAAKAIAQQFrIgE2AgAgAQ0EIAAQ5AYMBAsQjgoAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBjNrAAEE/EI8KAAsgA0HwAGokAAuIAgECfyMAQdAAayIDJAACQAJAAkACQAJAIAFFBEAgAEUNASAAQQhrIgEoAgBBAUcNBCADQQhqIABBBGpByAD8CgAAIAFBADYCAAJAIAFBf0YNACAAQQRrIgIgAigCAEEBayICNgIAIAINACAAQQxrKAIAIgBBeHEiAkHYAEHcACAAQQNxIgAbSQ0DIABBACACQfwATxsNBCABEKICCyADQQhqEPUCDAULIABFDQAgAEEIayIAIAAoAgBBAWsiATYCACABDQQgABDjBgwECxCOCgALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0GM2sAAQT8QjwoACyADQdAAaiQAC+cBAQN/IwBBEGsiAyQAIAMgACgCACIANgIEAn8CQCABKAIIIgJBgICAEHFFBEAgAkGAgIAgcQ0BIANBBGogARCLBQwCC0EJIQIDQCACIANqQQZqIABBD3EtANy2RToAACACQQFrIQIgAEEPSyAAQQR2IQANAAsgAUEBQYS0xQBBAiACIANqQQdqQQkgAmsQyAMMAQtBCSECA0AgAiADakEGaiAAQQ9xLQDJgUI6AAAgAkEBayECIABBD0sgAEEEdiEADQALIAFBAUGEtMUAQQIgAiADakEHakEJIAJrEMgDCyADQRBqJAALgwICA34EfyAAKAIMRQRAQQAPCyAAKQMQIAApAxggASACEJUEIQMgACgCBCIHIAOncSEGIANCGYhC/wCDQoGChIiQoMCAAX4hBSAAKAIAIQgDQAJAIAYgCGopAAAiBCAFhSIDQn+FIANCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiA1BFBEADQCAIIAN6p0EDdiAGaiAHcUFsbGoiAEEMaygCACACRgRAIAEgAEEQaygCACACENsHRQ0DCyADQgF9IAODIgNQRQ0ACwtBACEAIAQgBEIBhoNCgIGChIiQoMCAf4NQRQ0AIAYgCUEIaiIJaiAHcSEGDAELCyAAQRRrQQAgABsL5gEBA38jAEEQayIDJAACfwJAIAEoAggiAkGAgIAQcUUEQCACQYCAgCBxDQEgACABEIsFDAILIAAoAgAhAEEJIQIDQCACIANqQQZqIABBD3EtANy2RToAACACQQFrIQIgAEEPSyAAQQR2IQANAAsgAUEBQYS0xQBBAiACIANqQQdqQQkgAmsQyAMMAQsgACgCACEAQQkhAgNAIAIgA2pBBmogAEEPcS0AyYFCOgAAIAJBAWshAiAAQQ9LIABBBHYhAA0ACyABQQFBhLTFAEECIAIgA2pBB2pBCSACaxDIAwsgA0EQaiQAC7QCAQN/IwBBEGsiAiQAAkACQAJAAkAgACgCACIAKAIAQQFrDgIBAgALIAIgAEEIajYCBCABKAIAQfHExABBDyABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakGQr8cAQQggAEEEakGgwMQAEIwFQYDFxABBBiACQQRqQeS2xAAQjAUgAi0ADSIDIAItAAwiBHIhASAEQQFxIANBAUdyDQIoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAMLIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQwCCyABKAIAQYbFxABBFSABKAIEKAIMEQAAIQEMAQsgASgCAEGbxcQAQRUgASgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQukAgEFfyMAQSBrIgIkAEEBIQMCQCAAKAIAQQFGBEAgASgCACIEQcOYyABBBCABKAIEIgYoAgwiBREAAA0BIABBBGohAAJAIAEtAApBgAFxRQRAIARBu7PFAEEBIAURAAANAyAAIAEQugUNAyABKAIAIQQgASgCBCgCDCEFDAELIARB24HCAEECIAURAAANAiACQQE6AA8gAiAGNgIEIAIgBDYCACACQeCBwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgACACQRBqELoFDQIgAigCEEHZgcIAQQIgAigCFCgCDBEAAA0CCyAEQd6OyABBASAFEQAAIQMMAQsgASgCAEG/mMgAQQQgASgCBCgCDBEAACEDCyACQSBqJAAgAwvmAQEDfyMAQRBrIgMkAAJ/AkAgASgCCCICQYCAgBBxRQRAIAJBgICAIHENASAAIAEQ9QQMAgsgACgCACEAQQkhAgNAIAIgA2pBBmogAEEPcS0A3LZFOgAAIAJBAWshAiAAQQ9LIABBBHYhAA0ACyABQQFBhLTFAEECIAIgA2pBB2pBCSACaxDIAwwBCyAAKAIAIQBBCSECA0AgAiADakEGaiAAQQ9xLQDJgUI6AAAgAkEBayECIABBD0sgAEEEdiEADQALIAFBAUGEtMUAQQIgAiADakEHakEJIAJrEMgDCyADQRBqJAAL4gECBH8EfiABKAIEIgOtIQYCQAJAIANC/////w8gASkDCCIHIAdC/////w9aG6drIgRBACADIARPG0EDTwRAIAEoAgAgByAGIAYgB1Ybp2oiAi0AAUEIdCEDIAItAAJBEHQhBCACLQAAIQVBBCECDAELQaiQyAApAwAiCUIIiCEIIAmnIQJBACEDQQAhBCAJQv8Bg0IEUg0BCyAHQgN8IQYLIAEgBjcDCCACQf8BcUEERwRAIAAgAq1C/wGDIAhCCIaENwIEIABBADoAAA8LIAAgAyAFciAEcjYCBCAAQR06AAAL8QECAX4CfyMAQRBrIgMkACAAKAIAIQACfwJAIAEoAggiBEGAgIAQcUUEQCAEQYCAgCBxDQEgACABEIUFDAILIAApAwAhAkERIQADQCAAIANqQQJrIAKnQQ9xLQDctkU6AAAgAEEBayEAIAJCD1YgAkIEiCECDQALIAFBAUGEtMUAQQIgACADakEBa0ERIABrEMgDDAELIAApAwAhAkERIQADQCAAIANqQQJrIAKnQQ9xLQDJgUI6AAAgAEEBayEAIAJCD1YgAkIEiCECDQALIAFBAUGEtMUAQQIgACADakEBa0ERIABrEMgDCyADQRBqJAALggIBBH8CQAJAAkACQCAAKAIIIgFBgICAgHhyQYCAgIB4RwRAIAAoAgwiAkEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAWpJDQEgA0EAIAQgAUEnaksbDQIgAhCiAgsCQCAAKAJcIgFFDQAgAUEYbCICIAFqQSFqIgFFDQAgACgCWCACayIAQRxrKAIAIgJBeHEiA0EEQQggAkEDcSICGyABakkNAyACQQAgAyABQSdqSxsNBCAAQRhrEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuCAgEEfyMAQYAgayIEJAACQAJAAkACQAJAQYCJ+gAgASABQYCJ+gBPGyICIAEgAUEBdmsiAyACIANLGyICQYEITwRAIANB/////wNLDQJBMCACIAJBME0bIgVBAnQiA0H9////B08NAiADEHEiAkUNAyAAIAEgAiAFIAFBwQBJEN0BIAJBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIANqSQ0EIABBACABIANBJ2pLGw0FIAIQogIMAQsgACABIARBgAggAUHBAEkQ3QELIARBgCBqJAAPC0HYlcEAEP8HCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+gBAQR/IAAgASACEOkEAkACQAJAIAIEQCAAKAJ4IQEgACgCfCEIQQEhBQNAIAdBA2ogCE8NAiAFQQFrIgYgBE8EQCAGIQUMBQsgBCAGayIGQQAgBCAGTxsiBkEBRg0EIAZBAkYNAyABIAMqAgA4AgAgAUEIaiADQQhqKAIANgIAIAFBBGogA0EEaioCADgCACABQRBqIQEgB0EEaiEHIAVBA2ohBSADQQxqIQMgAkEBayICDQALCyAAQQE6AMABDwsgByAHQQRqIAhBmLPBABDqBwALIAVBAWohBQsgBSAEQaizwQAQjAcAC/oBAQR/IAAoAgQhAwJAAkACQAJAIAAtAAAiAEEETSAAQQNHcUUEQCADKAIAIQAgA0EEaigCACIBKAIAIgIEQCAAIAIRAwALIAEoAgQiAQRAIABBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0CIAJBACAEIAFBJ2pLGw0DIAAQogILIANBBGsoAgAiAEF4cSIBQRBBFCAAQQNxIgAbSQ0DIABBACABQTRPGw0EIAMQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+oBAgF+An8jAEEQayIDJAACfwJAIAEoAggiBEGAgIAQcUUEQCAEQYCAgCBxDQEgACABEIUFDAILIAApAwAhAkERIQADQCAAIANqQQJrIAKnQQ9xLQDctkU6AAAgAEEBayEAIAJCD1YgAkIEiCECDQALIAFBAUGEtMUAQQIgACADakEBa0ERIABrEMgDDAELIAApAwAhAkERIQADQCAAIANqQQJrIAKnQQ9xLQDJgUI6AAAgAEEBayEAIAJCD1YgAkIEiCECDQALIAFBAUGEtMUAQQIgACADakEBa0ERIABrEMgDCyADQRBqJAAL+wEBBH8CQAJAAkACQAJAIAAtAABBJEcNACAALQAEQQNHDQAgACgCCCIAKAIAIQEgAEEEaigCACICKAIAIgMEQCABIAMRAwALIAIoAgQiAgRAIAFBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAJqSQ0CIANBACAEIAJBJ2pLGw0DIAEQogILIABBBGsoAgAiAUF4cSICQRBBFCABQQNxIgEbSQ0DIAFBACACQTRPGw0EIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC4cCAgJ/An0CQAJAIAC8IgFBgICABE4EQCABQf////sHSw0BQYF/IQJDAAAAACEAIAFBgICA/ANGDQEMAgsgAEMAAAAAWwRAQwAAgL8gACAAlJUPCyABQQBOBEAgAEMAAABMlLwhAUHofiECDAILIAAgAJNDAAAAAJUhAAsgAA8LIAFBjfarAmoiAUEXdiACarIiA0OAcTE/lCABQf///wNxQfOJ1PkDar5DAACAv5IiACADQ9H3FzeUIAAgAEMAAABAkpUiAyAAIABDAAAAP5SUIgQgAyADlCIAIAAgAJQiAEPu6ZE+lEOqqio/kpQgACAAQyaeeD6UQxPOzD6SlJKSlJIgBJOSkguBAgIEfwF+IwBBMGsiASQAIAApAhAhBSAAKAIMIQIgACgCCCEEIAAoAgAhAwJAAkACQAJAAkACQAJAAkAgACgCBCIADgIAAQILIAINAUEBIQNBACEAQQEhAgwDCyACRQ0BCyABIAU3AiggASACNgIkIAEgBDYCICABIAA2AhwgASADNgIYIAFBDGogAUEYahDsAwwCCyADKAIEIgBBAEgNAiADKAIAIQMgAEUEQEEBIQJBACEADAELIAAQcSICRQ0DCyAABEAgAiADIAD8CgAACyABIAA2AhQgASACNgIQIAEgADYCDAsgAUEMahC6ASABQTBqJAAPC0HYmsgAEP8HCwAL4wEBCH8gASgCCCICIAEoAgQiAyACIANLGyEIIAEoAgAhBSACIQYCQAJAA0AgCCAGIgRGDQEgASAEQQFqIgY2AgggBCAFai0AACIHQeEAayEJIAdBMGtB/wFxQQpJIAlB/wFxQQZJcg0ACyAHQd8ARw0AAkAgAgRAIAIgA08EQCACIANHDQIgAyAETw0EDAILIAIgBWosAABBQEggAyAESXINAQwDCyADIARPDQILIAUgAyACIARBqLLFABC7CQALIABBADYCACAAQQA6AAQPCyAAIAQgAms2AgQgACACIAVqNgIAC/cBAQR/IABBBGoQ6gICQAJAAkACQCAALQAcQQNGBEAgACgCICIAKAIAIQEgAEEEaigCACICKAIAIgMEQCABIAMRAwALIAIoAgQiAgRAIAFBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAJqSQ0CIANBACAEIAJBJ2pLGw0DIAEQogILIABBBGsoAgAiAUF4cSICQRBBFCABQQNxIgEbSQ0DIAFBACACQTRPGw0EIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC4QCAAJ/AkACQAJAIAJBBWsOBAACAgECCwJAAkACQCABLQAAQeIAaw4FAAQEBAEECyABLQABQeEARg0BDAMLIAEtAAFB6QBHDQIgAS0AAkHsAEcNAiABLQADQeUARw0CIAEtAARB8wBHDQJBAAwDCyABLQACQe4ARw0BIAEtAANB5ABHDQEgAS0ABEHzAEcNAUECDAILIAEtAABB4wBHDQAgAS0AAUHvAEcNACABLQACQeQARw0AIAEtAANB5QBHDQAgAS0ABEHiAEcNACABLQAFQe8ARw0AIAEtAAZB7wBHDQAgAS0AB0HrAEcNAEEBDAELQQMLIQEgAEEAOgAAIAAgAToAAQvxAQEEfyMAQTBrIgIkACACQRhqIgMgACgCACUBECkgAiACQQxqrUKAgICAsAWENwMAIAIgAigCHCIANgIUIAIgAigCGDYCECACIAA2AgwgASgCACABKAIEIAJCATcCJCACQQI2AhwgAkHgjsgANgIYIAIgAjYCICADEMEDIQECQAJAIAIoAgwiAARAIAIoAhAiA0EEaygCACIEQXhxIgVBBEEIIARBA3EiBBsgAGpJDQEgBEEAIAUgAEEnaksbDQIgAxCiAgsgAkEwaiQAIAEPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuJAgEDfwJAAkACQAJAAkAgASkCAEL117zJyMzWszqFIAEpAghC/tvLm/Plucb1AIWEUEUEQCAAQQRqEOoCIAAoAhwiAUUNASAAKAIgIgJBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAFqSQ0CIANBACAEIAFBJ2pLGw0DIAIQogIMAQsgAEEEahDqAiAAQShqEOMECyAAQQRrKAIAIgFBeHEiAkE4QTwgAUEDcSIBG0kNAiABQQAgAkHcAE8bDQMgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuOAgEDfwJAAkACQAJAIAEpAgBC7bqtts2F1PXjAIUgASkCCEL4gpm9le7Gxbl/hYRQRQRAIAAoAiQhAiAAQQRqEOoCIABBBGsoAgAiA0F4cUEsQTAgA0EDcSIEG0kNASAEQQAgA0HQAE8bDQIgABCiAiACIAEgAigCACgCFBEBAA8LIABBBGoQ6gIgACgCJCIBIAEoAgAoAgARAwAgAEEEaygCACIBQXhxQSxBMCABQQNxIgIbSQ0CIAJBACABQdAATxsNAyAAEKICDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+8BAQR/AkACQAJAAkAgAC0AAEEDRgRAIAAoAgQiACgCACEBIABBBGooAgAiAigCACIDBEAgASADEQMACyACKAIEIgIEQCABQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyACakkNAiADQQAgBCACQSdqSxsNAyABEKICCyAAQQRrKAIAIgFBeHEiAkEQQRQgAUEDcSIBG0kNAyABQQAgAkE0TxsNBCAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvPAgIGfwF+AkACQCAAKAIIIgEgACgCBCICRg0AIAEgAk8NASAAKAIAIgQgAWotAAAiA0EiRiADQdwARnIgA0EfTXINACAEIAFBAWoiBWohA0EAIAIgBWtBeHEiBmshAgNAIAMhASACRQRAIAAgBSAGajYCCAJAIAAoAggiASAAKAIEIgJPDQAgACgCACEEA0AgASAEai0AACIDQSJGIANB3ABGciADQSBJcg0BIAAgAUEBaiIBNgIIIAEgAkcNAAsLDwsgAkEIaiECIAFBCGohAyABKQAAIgdCf4UgB0LcuPHixYuXrtwAhUKBgoSIkKDAgAF9IAdCosSIkaLEiJEihUKBgoSIkKDAgAF9IAdCoMCAgYKEiJAgfYSEg0KAgYKEiJCgwIB/gyIHUA0ACyAAIAEgBGsgB3qnQQN2ajYCCAsPCyABIAJBiJzGABCMBwAL6wEBA38jAEFAaiIDJAAgAyACNgIEIAMgATYCACADIAOtQoCAgIAwhDcDECADIACtQoCAgICwDoQ3AwggA0ICNwI0IANBAjYCLCADQaimxgA2AiggAyADQQhqNgIwIANBHGogA0EoahDsAyADKAIcIQAgAygCICIBIAMoAiQQ6wghAgJAAkAgAARAIAFBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIABqSQ0BIARBACAFIABBJ2pLGw0CIAEQogILIANBQGskACACDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALiAIBA38jAEEQayICJAACQCAAKAIAIgAoAgAEQCACIABBCGo2AgQgASgCAEHw1cQAQQogASgCBCgCDBEAACEDIAJBADoADSACIAM6AAwgAiABNgIIIAJBCGpByKrHAEEGIABB4NXEABCMBUH61cQAQQ4gAkEEakGAwsQAEIwFIAItAA0iAyACLQAMIgRyIQEgBEEBcSADQQFHcg0BKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAQwCCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQEMAQsgASgCAEGeqscAQRAgASgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvrAQEEfwJAAkACQAJAIABBDGooAgAiAQRAIABBEGooAgAiAkEEaygCACIDQXhxIgQgAUEEdCIBQQRBCCADQQNxIgMbckkNASADQQAgBCABQSdqSxsNAiACEKICCwJAIABBf0YNACAAIAAoAgRBAWsiATYCBCABDQAgAEEEaygCACIBQXhxQRxBICABQQNxIgIbSQ0DIAJBACABQcAATxsNBCAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAv/AQEBfyMAQTBrIgIkAAJAIAApAwBC////////////AINCgICAgICAgPj/AFoEQCACIACtQoCAgIDwAoQ3AxAgASgCACABKAIEIAJCATcCJCACQQE2AhwgAkGg+McANgIYIAIgAkEQajYCICACQRhqEMEDIQAMAQsgAkEAOgAMIAIgATYCCCACIACtQoCAgIDwAoQ3AxAgAkIBNwIkQQEhACACQQE2AhwgAkGg+McANgIYIAIgAkEQajYCICACQQhqQcSSxgAgAkEYahDBAw0AIAItAAxFBEAgASgCAEG/ksYAQQIgASgCBCgCDBEAAA0BC0EAIQALIAJBMGokACAAC+sBAQR/AkACQAJAAkAgASgCKEECRwRAAkAgASgCpAJBgYCAgHhGDQAgASgCrAIiAkEASA0CIAIEQCABKAKoAiEDIAIQcSIBRQ0EIAIEQCABIAMgAvwKAAALIAEgAhCWASABQQRrKAIAIgRBeHEiBUEEQQggBEEDcSIEGyACakkNBSAEQQAgBSACQSdqSxsNBiABEKICQf8BcSICQQhHDQELQQAhAgsgAEEGNgIAIAAgAjoABA8LQayYxwAQ3QkAC0HYmsgAEP8HCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+cBAQF/IwBBEGsiBiQAAkACQAJAIAEEQCAGQQRqIAEgAyAEIAUgAigCEBEHACAGKAIIIQECQCAGKAIEIgMgBigCDCICTQ0AIANBAnQhAyACRQRAIAFBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIANqSQ0DIARBACAFIANBJ2pLGw0EIAEQogJBBCEBDAELIAEgA0EEIAJBAnQQuwIiAUUNBAsgACACNgIEIAAgATYCACAGQRBqJAAPC0Gt+cQAQTIQjwoAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHCwAL6AEBBH8jAEEQayICQQhqQQA6AAAgAkEAOwEGIAIgAUEUdi0A3LZFOgAJIAIgAUEEdkEPcS0A3LZFOgANIAIgAUEIdkEPcS0A3LZFOgAMIAIgAUEMdkEPcS0A3LZFOgALIAIgAUEQdkEPcS0A3LZFOgAKIAFBAXJnQQJ2IgMgAkEGaiIFaiIEQfsAOgAAIARBAWtB9QA6AAAgBSADQQJrIgNqQdwAOgAAIAJBDmoiBCABQQ9xLQDctkU6AAAgAEEKOgALIAAgAzoACiAAIAIpAQY3AAAgAkH9ADoADyAAQQhqIAQvAQA7AAAL5AECA38BfiMAQSBrIgIkACACQQg6ABsgAkEIaiABIAJBG2ogASgCgAEQ5AQCQCAAAn8gAi0ACCIDQR1HBEAgAikCDCEFIANFBEAgACAFNwIEQQUMAgsgAigCFCEEQRAQcSIBRQ0CIAEgAzoAACABIAQ2AgwgASAFNwIEIABB7LvEADYCGCAAIAE2AhQgAEGABjsBBCABIAJBCGpBAXIiAy8AADsAASABQQNqIANBAmotAAA6AABBAAwBCyAAIAIpAgw3AgQgAEEMaiACQRRqKAIANgIAQQYLNgIAIAJBIGokAA8LAAvkAQIDfwF+IwBBIGsiAiQAIAJBCjoAGyACQQhqIAEgAkEbaiABKAKAARDkBAJAIAACfyACLQAIIgNBHUcEQCACKQIMIQUgA0UEQCAAIAU3AgRBBQwCCyACKAIUIQRBEBBxIgFFDQIgASADOgAAIAEgBDYCDCABIAU3AgQgAEHsu8QANgIYIAAgATYCFCAAQYAGOwEEIAEgAkEIakEBciIDLwAAOwABIAFBA2ogA0ECai0AADoAAEEADAELIAAgAikCDDcCBCAAQQxqIAJBFGooAgA2AgBBBgs2AgAgAkEgaiQADwsAC4gCAAJ/AkACQAJAIAJBBGsOAgEAAgsCQCABLQAAQeYAayICBEAgAkENRgRADAIFDAQLAAsgAS0AAUHpAEcNAiABLQACQewARw0CIAEtAANB5QBHDQIgAS0ABEHzAEcNAkEADAMLIAEtAAFB6ABHDQEgAS0AAkHhAEcNASABLQADQfAARw0BIAEtAARB5QBHDQFBAwwCCyABLQAAQe0ARw0AAkACQAJAIAEtAAFB4QBrDgkAAwMDAwMDAwEDCyABLQACQfgARg0BDAILIAEtAAJB7gBHDQEgAS0AA0HzAEcNAUEBDAILIAEtAANB8wBHDQBBAgwBC0EECyEBIABBADoAACAAIAE6AAEL0QEBA38jAEEQayICJAAgAkEANgIMIAAgAkEMagJ/IAFBgAFPBEAgAUE/cUGAf3IhAyABQQZ2IQAgAUGAEEkEQCACIAM6AA0gAiAAQcABcjoADEECDAILIAFBDHYhBCAAQT9xQYB/ciEAIAFB//8DTQRAIAIgAzoADiACIAA6AA0gAiAEQeABcjoADEEDDAILIAIgAzoADyACIAA6AA4gAiAEQT9xQYB/cjoADSACIAFBEnZBcHI6AAxBBAwBCyACIAE6AAxBAQsQ6wEgAkEQaiQAC9EBAQN/IwBBEGsiAiQAIAJBADYCDCAAIAJBDGoCfyABQYABTwRAIAFBP3FBgH9yIQMgAUEGdiEAIAFBgBBJBEAgAiADOgANIAIgAEHAAXI6AAxBAgwCCyABQQx2IQQgAEE/cUGAf3IhACABQf//A00EQCACIAM6AA4gAiAAOgANIAIgBEHgAXI6AAxBAwwCCyACIAM6AA8gAiAAOgAOIAIgBEE/cUGAf3I6AA0gAiABQRJ2QXByOgAMQQQMAQsgAiABOgAMQQELENUCIAJBEGokAAvlAQECfyMAQRBrIgUkAAJAAkACQCABBEAgBUEEaiABIAMgBCACKAIQEQYAIAUoAgghAQJAIAUoAgQiAyAFKAIMIgJNDQAgA0ECdCEDIAJFBEAgAUEEaygCACIEQXhxIgZBBEEIIARBA3EiBBsgA2pJDQMgBEEAIAYgA0EnaksbDQQgARCiAkEEIQEMAQsgASADQQQgAkECdBC7AiIBRQ0ECyAAIAI2AgQgACABNgIAIAVBEGokAA8LQa35xABBMhCPCgALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcLAAvkAQEEfwJAAkACQAJAIAAoAggiAQRAIAAoAgwiAkEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAWpJDQEgA0EAIAQgAUEnaksbDQIgAhCiAgsCQCAAQX9GDQAgACAAKAIEIgFBAWs2AgQgAUEBRw0AIABBBGsoAgAiAUF4cSICQRhBHCABQQNxIgEbSQ0DIAFBACACQTxPGw0EIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+gBAQR/IwBBMGsiAiQAIAJBKGoiAyABQUBrKQMANwMAIAJBGGoiBSABQTBq/QADAP0LAwAgAiAB/QADIP0LAwgCQAJAQSgQcSIEBEAgBCAC/QADCP0LAwAgBEEgaiADKQMANwMAIARBEGogBf0AAwD9CwMAIAFBBGoQ6gIgAUEEaygCACIDQXhxQcwAQdAAIANBA3EiBRtJDQEgBUEAIANB8ABPGw0CIAEQogIgAEHsr8cANgIEIAAgBDYCACACQTBqJAAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC94BAQR/AkACQAJAAkAgACgCACIBBEAgACgCBCICQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyABakkNASADQQAgBCABQSdqSxsNAiACEKICCyAAKAIMIgEEQCAAKAIQIgBBBGsoAgAiAkF4cSIDIAFBAnQiAUEEQQggAkEDcSICG2pJDQMgAkEAIAMgAUEnaksbDQQgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL5wEBBH8CQAJAAkACQCAAKAIAIgEEQCAAKAIEIgJBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAFqSQ0BIANBACAEIAFBJ2pLGw0CIAIQogILIAAoAgwiAUGAgICAeHJBgICAgHhHBEAgACgCECIAQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyABakkNAyACQQAgAyABQSdqSxsNBCAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvQAQEDfwJAAkACQCACIAMgBGsiBUsEQCACIANNDQEgAyAEQQF0ayIGIAJPDQIgAyAEaiIHIAJPDQMgASAFai0AACABIANqLQAAayIFIAVBH3UiBXMgBWtBAXRB/gNxIAEgBmotAAAgASAHai0AAGsiBSAFQR91IgVzIAVrQQF2aiAAQf8BcU0EQEEBIAEgAiADIAQQ6AQaCw8LIAUgAkGI18QAEIwHAAsgAyACQZjXxAAQjAcACyAGIAJBqNfEABCMBwALIAcgAkG418QAEIwHAAvGAQEDfyABQf8AQYB/QfwAQYB/IAAEf0H/AEGAfyABLQACIAEtAAVrIgAgAEGAf0wbIgAgAEH/AE4bBSADCyABLQAEIgQgAS0AAyICa0EDbGoiACAAQYB/TBsiACAAQfwAThtBA2pBA3UgAmpBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoAAyABQf8AQYB/IARB+wAgACAAQfsAThtBBGpBA3UiAGtBgAFrIgEgAUGAf0wbIgEgAUH/AE4bQYABczoABCAAC+8BAQR/IwBBIGsiACQAQaL5xwAhA0EJIQQCQAJAIAIoAgANACAAQRBqIAIoAgQgAigCCBD7AkGi+ccAIAAoAhQgACgCECICGyEDIAINACAAKAIYIgQNACABQQFBABCXAyECDAELIAAgBDYCDCAAIAM2AgggASgCBCEDIAEoAgAhBANAAkAgAEEQaiAAQQhqEO0DIAAoAhAiBUUNACAAKAIUIQYgACgCHEUEQCABIAUgBhCXAyECDAMLQQEhAiAEIAUgBiADKAIMEQAADQIgBEH9/wMgAygCEBECAEUNAQwCCwtBACECCyAAQSBqJAAgAgvSAQEBfyMAQSBrIgUkACAFQQhqIAMgAyAEQQJ0ahCZAwJAAkAgASACSwRAIAAgAkEYbGoiACgCFCIBQQVPBEAgACgCCCICQQRrKAIAIgNBeHEiBCABQQJ0IgFBBEEIIANBA3EiAxtqSQ0CIANBACAEIAFBJ2pLGw0DIAIQogILIAAgBf0AAgj9CwIAIABBEGogBUEYaikCADcCACAFQSBqJAAPCyACIAFBtMDHABCMBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC9kBAQR/AkACQAJAAkAgACgCDCIBBEAgACgCECICQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyABakkNASADQQAgBCABQSdqSxsNAiACEKICCyAAKAIYIgEEQCAAKAIcIgBBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0DIAJBACADIAFBJ2pLGw0EIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC9kBAQR/AkACQAJAAkAgACgCACIBBEAgACgCBCICQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyABakkNASADQQAgBCABQSdqSxsNAiACEKICCyAAKAIMIgEEQCAAKAIQIgBBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0DIAJBACADIAFBJ2pLGw0EIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC+8BAQN/IwBBEGsiAiQAAkAgACgCAARAIAIgADYCBCABKAIAQcCqxwBBCCABKAIEKAIMEQAAIQAgAkEAOgANIAIgADoADCACIAE2AgggAkEIakHIqscAQQYgAkEEakHolsEAEIwFIAItAA0iAyACLQAMIgRyIQEgBEEBcSADQQFHcg0BKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAQwCCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQEMAQsgASgCAEGeqscAQRAgASgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvvAQEDfyMAQRBrIgIkAAJAIAAoAgAEQCACIAA2AgQgASgCAEHAqscAQQggASgCBCgCDBEAACEAIAJBADoADSACIAA6AAwgAiABNgIIIAJBCGpByKrHAEEGIAJBBGpBsKrHABCMBSACLQANIgMgAi0ADCIEciEBIARBAXEgA0EBR3INASgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQEMAgsgACgCAEGls8UAQQEgACgCBCgCDBEAACEBDAELIAEoAgBBnqrHAEEQIAEoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXEL+AEBA38jAEEQayICJAAgAiAANgIEIAEoAgBB7aXHAEEGIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQbimxwBBDyAAQRBqQZimxwAQjAVBx6bHAEEQIABBGGpBmKbHABCMBUHXpscAQQkgAkEEakGopscAEIwFIQEgAi0ADSIDIAItAAwiBHIhAAJAIARBAXEgA0EBR3INACABKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAAwBCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQALIAJBEGokACAAQQFxC8wBAQF/IwBBQGoiAiQAIAJBBGogARCfAwJAIAItAARBAUYEQCAAIAIoAgg2AgQgAEEENgIADAELIAItAAVFBEAgAEEDNgIADAELIAJBBGogASgCABCDASACKAIEQQNGBEAgACACKAIINgIEIABBBDYCAAwBCyAAIAL9AAIE/QsCACAAQThqIAJBPGooAgA2AgAgAEEwaiACQTRqKQIANwIAIABBIGogAkEkav0AAgD9CwIAIABBEGogAkEUav0AAgD9CwIACyACQUBrJAAL1wEBA38jAEEQayIDJAACQAJAAkACQCAAKAIMBEAgACEBDAELIANBCGogASgCDCABKAIQIAEoAhQQ+QEgAygCDCECIAMoAgghBEEUEHEiAUUNASABIAApAgA3AgAgAUEIaiAAQQhqKAIANgIAIAEgAjYCECABIAQ2AgwgAEEEaygCACICQXhxIgRBGEEcIAJBA3EiAhtJDQIgAkEAIARBPE8bDQMgABCiAgsgA0EQaiQAIAEPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC9gBAQJ/IwBBEGsiBSQAIAACfwJAIANBASAEGwRAIAEoAhQiAyABKAIQIgRPDQEgASgCDCEGA0AgAyAGai0AAEEwa0H/AXFBCk8NAiABIANBAWoiAzYCFCADIARHDQALDAELIAVBCGogASgCDCABKAIQIAEoAhQQ+QEgBSgCDCECIAUoAgghA0EUEHEiAQRAIAEgAzYCDCABQQ42AgAgACABNgIEIAEgAjYCEEEBDAILAAsgAEQAAAAAAAAAAEQAAAAAAAAAgCACGzkDCEEACzYCACAFQRBqJAAL1QEBBH8gAEEEahDqAgJAAkACQAJAIAAoAhwiAQRAIAAoAiAiAkEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAWpJDQEgA0EAIAQgAUEnaksbDQIgAhCiAgsgAEEoahDjBCAAQQRrKAIAIgFBeHEiAkE4QTwgAUEDcSIBG0kNAiABQQAgAkHcAE8bDQMgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAvtAQECfyMAQRBrIgkkACAAKAIAQYipxwBBBCAAKAIEKAIMEQAAIQogCUEAOgANIAkgCjoADCAJIAA2AgggCUEIakGMqccAQQkgASACEIwFQZWpxwBBCCADIAQQjAVBnanHAEEGIAUgBhCMBUGjqccAQQogByAIEIwFIQEgCS0ADSICIAktAAwiA3IhAAJAIANBAXEgAkEBR3INACABKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAAwBCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQALIAlBEGokACAAQQFxC7wBAQN/IwBBIGsiAyQAAkACf0EAIAIgASACaiIESw0AGkEAQQggBCAAKAIAIgJBAXQiASABIARJGyIEIARBCE0bIgRBAEgNABpBACEBIAMgAgR/IAMgAjYCHCADIAAoAgQ2AhRBAQUgAQs2AhggA0EIakEBIAQgA0EUahCFByADKAIIQQFHDQEgAygCECEFIAMoAgwLIAVBnJbIABCTCQALIAMoAgwhASAAIAQ2AgAgACABNgIEIANBIGokAAvpAQEDfyMAQRBrIgIkACACIAAoAgAiADYCBCABKAIAQeynxwBBBiABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakHyp8cAQQQgAEEEakG0lsEAEIwFQfanxwBBBSACQQRqQcSWwQAQjAUhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXELxwEBAX8jAEEwayICJAACfyAALQAEQQFGBEAgAiAALQAFOgAHIAJBAjYCHCACQfiKwwA2AhggAkICNwIkIAIgAK1CgICAgBCENwMQIAIgAkEHaq1CgICAgPAEhDcDCCACIAJBCGo2AiAgASgCACABKAIEIAJBGGoQwQMMAQsgAkEBNgIcIAJBtIvDADYCGCACQgE3AiQgAiAArUKAgICAEIQ3AwggAiACQQhqNgIgIAEoAgAgASgCBCACQRhqEMEDCyACQTBqJAAL5gEBBH8jAEEgayIAJABBASECAkAgASgCACIDQaiayABBDyABKAIEIgUoAgwiBBEAAA0AAkAgAS0ACkGAAXFFBEAgA0G7s8UAQQEgBBEAAA0CIAFBmJbIAEECEJcDRQ0BDAILIANB24HCAEECIAQRAAANASAAQQE6AA8gACAFNgIEIAAgAzYCACAAQeCBwgA2AhQgACABKQIINwIYIAAgAEEPajYCCCAAIAA2AhAgAEEQakGYlsgAQQIQlwMNASAAQdmBwgBBAhCvAw0BCyADQd6OyABBASAEEQAAIQILIABBIGokACACC+YBAQR/IwBBIGsiACQAQQEhAgJAIAEoAgAiA0HY8sQAQREgASgCBCIFKAIMIgQRAAANAAJAIAEtAApBgAFxRQRAIANBu7PFAEEBIAQRAAANAiABQZiWyABBAhCXA0UNAQwCCyADQduBwgBBAiAEEQAADQEgAEEBOgAPIAAgBTYCBCAAIAM2AgAgAEHggcIANgIUIAAgASkCCDcCGCAAIABBD2o2AgggACAANgIQIABBEGpBmJbIAEECEJcDDQEgAEHZgcIAQQIQrwMNAQsgA0HejsgAQQEgBBEAACECCyAAQSBqJAAgAgvpAQEDfyMAQRBrIgIkACACIAAoAgAiADYCBCABKAIAQeynxwBBBiABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakHyp8cAQQQgAEEEakHMp8cAEIwFQfanxwBBBSACQQRqQdynxwAQjAUhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXEL2AECBX8BfiMAQTBrIgIkACABKAIAQYCAgIB4RgRAIAEoAgwgAkEANgIUIAJCgICAgBA3AgwoAgAiAykCECEHIAMoAgwhBCADKAIIIQUgAygCACEGIAMoAgQhAyACIAc3AiggAiAENgIkIAIgBTYCICACIAM2AhwgAiAGNgIYIAJBDGpBzIXIACACQRhqEMEDGiACQQhqIAJBFGooAgAiAzYCACACIAIpAgwiBzcDACABQQhqIAM2AgAgASAHNwIACyAAQdyNyAA2AgQgACABNgIAIAJBMGokAAvpAQEDfyMAQRBrIgIkACACIAAoAgAiAEEEajYCBCABKAIAQeiXyABBCSABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakHxl8gAQQsgAEHIl8gAEIwFQfyXyABBCSACQQRqQdiXyAAQjAUhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXELugEBA38jAEEgayIDJAACQAJ/QQAgAiABIAJqIgRLDQAaQQBBCCAEIAAoAgAiAkEBdCIBIAEgBEkbIgQgBEEITRsiBEEASA0AGkEAIQEgAyACBH8gAyACNgIcIAMgACgCBDYCFEEBBSABCzYCGCADQQhqIAQgA0EUahDdByADKAIIQQFHDQEgAygCECEFIAMoAgwLIAVB/O7BABCTCQALIAMoAgwhASAAIAQ2AgAgACABNgIEIANBIGokAAu6AQEDfyMAQSBrIgMkAAJAAn9BACACIAEgAmoiBEsNABpBAEEIIAQgACgCACICQQF0IgEgASAESRsiBCAEQQhNGyIEQQBIDQAaQQAhASADIAIEfyADIAI2AhwgAyAAKAIENgIUQQEFIAELNgIYIANBCGogBCADQRRqEN0HIAMoAghBAUcNASADKAIQIQUgAygCDAsgBUGclsgAEJMJAAsgAygCDCEBIAAgBDYCACAAIAE2AgQgA0EgaiQAC7wBAQV/IwBBIGsiAiQAIAAoAgAiBEH/////AEsEQEEAQQAgARCTCQALAkBBBCAEQQF0IgUgBUEETRsiBUEDdCIGQfz///8HTQR/IAIgBAR/IAIgBEEDdDYCHCACIAAoAgQ2AhRBBAUgAws2AhggAkEIakEEIAYgAkEUahCFByACKAIIQQFHDQEgAigCECEDIAIoAgwFIAMLIAMgARCTCQALIAIoAgwhASAAIAU2AgAgACABNgIEIAJBIGokAAu8AQEFfyMAQSBrIgIkACAAKAIAIgRB/////wFLBEBBAEEAIAEQkwkACwJAQQQgBEEBdCIFIAVBBE0bIgVBAnQiBkH8////B00EfyACIAQEfyACIARBAnQ2AhwgAiAAKAIENgIUQQQFIAMLNgIYIAJBCGpBBCAGIAJBFGoQhQcgAigCCEEBRw0BIAIoAhAhAyACKAIMBSADCyADIAEQkwkACyACKAIMIQEgACAFNgIAIAAgATYCBCACQSBqJAALuwEBBX8jAEEgayICJAAgACgCACIEQf///x9LBEBBAEEAIAEQkwkACwJAQQQgBEEBdCIFIAVBBE0bIgVBBXQiBkH4////B00EfyACIAQEfyACIARBBXQ2AhwgAiAAKAIENgIUQQgFIAMLNgIYIAJBCGpBCCAGIAJBFGoQhQcgAigCCEEBRw0BIAIoAhAhAyACKAIMBSADCyADIAEQkwkACyACKAIMIQEgACAFNgIAIAAgATYCBCACQSBqJAAL5AEBA38jAEEQayICJAAgAiAAQQRqNgIEIAEoAgBB6JfIAEEJIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQfGXyABBCyAAQbSWwQAQjAVB/JfIAEEJIAJBBGpB1JbBABCMBSEAIAItAA0iAyACLQAMIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvkAQEDfyMAQRBrIgIkACABKAIAQef7xwBBBSABKAIEKAIMEQAAIQMgAkEAOgAJIAIgAzoACCACIAE2AgQgAiAANgIMIAJBBGpB7LXHAEEHIAJBDGpBiKDBABCMBUGEtscAQQYgAEEIakGYoMEAEIwFIQAgAi0ACSIDIAItAAgiBHIhAQJAIARBAXEgA0EBR3INACAAKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAQwBCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQELIAJBEGokACABQQFxC+QBAQN/IwBBEGsiAiQAIAEoAgBB5/vHAEEFIAEoAgQoAgwRAAAhAyACQQA6AAkgAiADOgAIIAIgATYCBCACIAA2AgwgAkEEakHstccAQQcgAkEMakGIoMEAEIwFQYS2xwBBBiAAQQhqQaigwQAQjAUhACACLQAJIgMgAi0ACCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXEL5AEBA38jAEEQayICJAAgAiAANgIEIAEoAgBB7KfHAEEGIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQfKnxwBBBCAAQQRqQaDAxAAQjAVB9qfHAEEFIAJBBGpBsMDEABCMBSEAIAItAA0iAyACLQAMIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQuvAQEEfyMAQRBrIgMkAEEDIQIgACgCACwAACIEIATAQQd1IgBzIABrIgBB/wFxIgVBCk8EQEEBIQIgAyAAQQF0IgAgAEE4aiAFQeQASRtB/gFxLwC4ukU7AA4gBUHjAEshAAtBACAEIABB/wFxIgAbRQRAIAJBAWsiAiADQQ1qaiAAQQF0LQC5ukU6AAALIAEgBEEATkEBQQAgA0ENaiACakEDIAJrEMgDIANBEGokAAvkAQEDfyMAQRBrIgIkACACIABBBGo2AgQgASgCAEHol8gAQQkgASgCBCgCDBEAACEDIAJBADoADSACIAM6AAwgAiABNgIIIAJBCGpB8ZfIAEELIABBmJzFABCMBUH8l8gAQQkgAkEEakGonMUAEIwFIQAgAi0ADSIDIAItAAwiBHIhAQJAIARBAXEgA0EBR3INACAAKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAQwBCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQELIAJBEGokACABQQFxC8kBAgN/AX4jAEEQayIEJAACQCAAKAIQIgNFBEAMAQtBASECIANB+LTFAEEBEJcDDQAgAVAEQCADQZKyxQBBARCXAyECDAELAkAgASAANQIUIgVYBEAgBSABfSIBQhpUDQEgA0GSssUAQQEQlwMNAiAEIAE3AwggBEEIaiADEIUFIQIMAgsgA0HqssUAQRAQlwMNAUEAIQIgAEEAOgAEIABBADYCAAwBCyAEIAGnQeEAajYCBCAEQQRqIAMQqAUhAgsgBEEQaiQAIAILuwEBBX8jAEEgayICJAAgACgCACIEQf///x9LBEBBAEEAIAEQkwkACwJAQQQgBEEBdCIFIAVBBE0bIgVBBXQiBkH8////B00EfyACIAQEfyACIARBBXQ2AhwgAiAAKAIENgIUQQQFIAMLNgIYIAJBCGpBBCAGIAJBFGoQhQcgAigCCEEBRw0BIAIoAhAhAyACKAIMBSADCyADIAEQkwkACyACKAIMIQEgACAFNgIAIAAgATYCBCACQSBqJAAL5AEBA38jAEEQayICJAAgAiAAQRBqNgIEIAEoAgBBnKjHAEENIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQamoxwBBBiAAQfynxwAQjAVBr6jHAEEKIAJBBGpBjKjHABCMBSEAIAItAA0iAyACLQAMIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvkAQEDfyMAQRBrIgIkACACIABBEGo2AgQgASgCAEG5qMcAQQ0gASgCBCgCDBEAACEDIAJBADoADSACIAM6AAwgAiABNgIIIAJBCGpBqajHAEEGIABB/KfHABCMBUGvqMcAQQogAkEEakGMqMcAEIwFIQAgAi0ADSIDIAItAAwiBHIhAQJAIARBAXEgA0EBR3INACAAKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAQwBCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQELIAJBEGokACABQQFxC+QBAQN/IwBBEGsiAiQAIAIgAEEMajYCBCABKAIAQZCqxwBBDiABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakHI+8cAQQQgAEGAqscAEIwFQa+oxwBBCiACQQRqQYyoxwAQjAUhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXEL5AEBA38jAEEQayICJAAgAiAAQRBqNgIEIAEoAgBBuKzHAEEQIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQamoxwBBBiAAQfynxwAQjAVByPvHAEEEIAJBBGpBqKzHABCMBSEAIAItAA0iAyACLQAMIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvkAQEDfyMAQRBrIgIkACABKAIAQef7xwBBBSABKAIEKAIMEQAAIQMgAkEAOgAJIAIgAzoACCACIAE2AgQgAiAANgIMIAJBBGpB7LXHAEEHIAJBDGpB3LXHABCMBUGEtscAQQYgAEEMakH0tccAEIwFIQAgAi0ACSIDIAItAAgiBHIhAQJAIARBAXEgA0EBR3INACAAKAIAIgAtAApBgAFxRQRAIAAoAgBB/7PFAEECIAAoAgQoAgwRAAAhAQwBCyAAKAIAQaWzxQBBASAAKAIEKAIMEQAAIQELIAJBEGokACABQQFxC74BAgN/AX4jAEEQayIDJAAgACgCACEAAkAgASkCCCIFpyICQYCAgARxRQ0AIAJBgICAwABxBEAgAkGAgIAIciECDAELIAFBCjsBDCACQYCAgMgAciECCyABIAJBgICABHI2AghBCSECA0AgAiADakEGaiAAQQ9xLQDctkU6AAAgAkEBayECIABBEEkgAEEEdiEARQ0ACyABQQFBhLTFAEECIAIgA2pBB2pBCSACaxDIAyABIAU3AgggA0EQaiQAC+QBAQN/IwBBEGsiAiQAIAIgAEEMajYCBCABKAIAQaiYyABBDSABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakG1mMgAQQUgAEGImMgAEIwFQbqYyABBBSACQQRqQZiYyAAQjAUhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXELugEBBX8jAEEgayICJAAgACgCACIEQf////8BSwRAQQBBACABEJMJAAsCQEEEIARBAXQiBSAFQQRNGyIFQQJ0IgZB/P///wdNBH8gAiAEBH8gAiAEQQJ0NgIcIAIgACgCBDYCFEEEBSADCzYCGCACQQhqIAYgAkEUahCBByACKAIIQQFHDQEgAigCECEDIAIoAgwFIAMLIAMgARCTCQALIAIoAgwhASAAIAU2AgAgACABNgIEIAJBIGokAAvLAQEEfyAAQQRqEOoCAkACQAJAAkAgACgCHCIBBEAgACgCICICQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyABakkNASADQQAgBCABQSdqSxsNAiACEKICCyAAQQRrKAIAIgFBeHFBLEEwIAFBA3EiAhtJDQIgAkEAIAFB0ABPGw0DIAAQogIPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALrAEBBH8jAEEQayIDJABBAyECIAAsAAAiBCAEwEEHdSIAcyAAayIAQf8BcSIFQQpPBEBBASECIAMgAEEBdCIAIABBOGogBUHkAEkbQf4BcS8AuLpFOwAOIAVB4wBLIQALQQAgBCAAQf8BcSIAG0UEQCACQQFrIgIgA0ENamogAEEBdC0AubpFOgAACyABIARBAE5BAUEAIANBDWogAmpBAyACaxDIAyADQRBqJAAL1AEAAkACQCABBEAgACAELQAIOgAAIAFBAWsiAUEHTQRAQQBBCCABQcjjxAAQ6gcACyAAIAQtABE6AAEgACAELQAaOgACIAAgBC0AIzoAAyAAIAQtACw6AAQgACAELQA1OgAFIAAgBC0APjoABiAAIAQtAEc6AAcgACAELQBQOgAIIAMgBUEDdCIASQ0CIAMgAGsiAUEHSw0BQQBBCCABQdjjxAAQ6gcAC0EAQQBBuOPEABCMBwALIAAgAmogBCkASTcAAA8LIAAgAyADQejjxAAQ6gcAC9ABAgF/AX4jAEEwayICJAACfwJAAkACQCAAKAIAKAIAIgAoAgBBAWsOAgECAAsgAiAAKAIENgIAIAIgACgCCDYCBCACQoCAgIAQIgMgAkEEaq2ENwMQIAIgAyACrYQ3AwggASgCACABKAIEIAJCAjcCJCACQQI2AhwgAkHYnMUANgIYIAIgAkEIajYCICACQRhqEMEDDAILIAEoAgBB6JzFAEEdIAEoAgQoAgwRAAAMAQsgASgCAEGFncUAQTEgASgCBCgCDBEAAAsgAkEwaiQAC7cBAgN/BH4gASgCBCICrSEFAkACQCACQv////8PIAEpAwgiBiAGQv////8PWhunayIEQQAgAiAETxtBAk8EQCABKAIAIAYgBSAFIAZWG6dqLwAAIQNBBCECDAELQaiQyAApAwAiCEIIiCEHIAinIQIgCEL/AYNCBFINAQsgBkICfCEFCyABIAU3AwggAkH/AXFBBEcEQCAAIAKtQv8BgyAHQgiGhDcCAA8LIABBBDoAACAAIAM7AQILtwECBH4Ef0EEIQYgASgCBCIIrSECAkACQCAIQv////8PIAEpAwgiAyADQv////8PWhunayIJQQAgCCAJTxtBBE8EQCABKAIAIAMgAiACIANWG6dqKAAAIQcMAQtBqJDIACkDACIFQgiIIQQgBachBiAFQv8Bg0IEUg0BCyADQgR8IQILIAEgAjcDCCAGQf8BcUEERwRAIAAgBq1C/wGDIARCCIaENwIADwsgAEEEOgAAIAAgBzYCBAugCAMDfwF+AW8jAEEgayIFJABBlLvJAEGUu8kAKAIAIgZBAWo2AgACQCAGQQBIDQBBkLvJAC0AAEUEQEGQu8kAQQE6AABBjLvJAEGMu8kAKAIAQQFqNgIAQZi7yQAoAgAiBkEASA0BQZi7yQAgBkEBajYCAEGYu8kAQZy7yQAoAgAEfyAFQQhqIAAgASgCFBEBACAFIAQ6AB0gBSADOgAcIAUgAjYCGCAFIAUpAwg3AhAgBUEQaiEAIwBB0ABrIgIkACACQQA2AgwgAkKAgICAEDcCBAJAAkACQAJAAkAgAkEEaiIEQZiMyABBDBDiBw0AIAIgACgCCCIBKQIANwIQIAIgAUEMaq1CgICAgBCENwMoIAIgAUEIaq1CgICAgBCENwMgIAIgAkEQaq1CgICAgKABhDcDGCACQgM3AjwgAkEDNgI0IAJBpIzIADYCMCACIAJBGGo2AjggBEHU8cEAIAJBMGoiBBDBAw0AIAQgACgCACIBIAAoAgQoAgwiBREBACABIQACQCACKQMwQu26rbbNhdT14wCFIAIpAzhC+IKZvZXuxsW5f4WEUAR/QQQFIAQgACAFEQEAIAIpAzBC9de8ycjM1rM6hSACKQM4Qv7by5vz5bnG9QCFhEIAUg0BIABBBGohAEEICyABaigCACEBIAAoAgAhACACQQRqIgRByIXIAEECEOIHDQEgBCAAIAEQ4gcNAQsgAkE4aiACQQxqKAIAIgA2AgAgAiACKQIEIgg3AzAgCKciBiAAa0EJTQRAIAJBMGogAEEKEPgFIAIoAjAhBiACKAI4IQALIAIoAjQiBCAAaiIBQcjxwQApAAA3AAAgAUEIakHQ8cEALwAAOwAAIAIgAEEKaiIANgI4ECAhCRDaBCIBIAkmASACQRhqIAElARAhIAIoAhghByACKAIcIgUgBiAAa0sEQCACQTBqIAAgBRD4BSACKAIwIQYgAigCNCEEIAIoAjghAAsgBQRAIAAgBGogByAF/AoAAAsgAiAAIAVqIgA2AjggBiAAa0EBTQRAIAJBMGogAEECEPgFIAIoAjQhBCACKAI4IQALIAAgBGpBihQ7AAAgAiAAQQJqIgA2AjggACACKAIwIgZJBEAgBCAGQQEgABC7AiIERQ0CCyAEIAAQIiAFBEAgB0EEaygCACIAQXhxIgRBBEEIIABBA3EiABsgBWpJDQMgAEEAIAQgBUEnaksbDQQgBxCiAgsgAUGECE8EQCABEJsHCyACQdAAaiQADAQLQaCexgBBNyACQTBqQezxwQBB2J7GABDgBgsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBmLvJACgCAEEBawUgBgs2AgBBkLvJAEEAOgAAIANFDQEACyAFIAAgASgCGBEBAAsAC7YBAQZ/IwBBIGsiASQAAkACQCAAKAIAIgNB////H0sNAEEEIANBAXQiBCAEQQRNGyIEQQV0IgVB+P///wdLDQAgASADBH8gASADQQV0NgIcIAEgACgCBDYCFEEIBSACCzYCGCABQQhqQQggBSABQRRqEIUHIAEoAghBAUcNASABKAIQIQYgASgCDCECCyACIAZByOPBABCTCQALIAEoAgwhAiAAIAQ2AgAgACACNgIEIAFBIGokAAvFAQEEfyMAQSBrIgMkACADQRhqIgIgAUEsaikCADcDACADIAH9AAIc/QsDCAJAAkBBGBBxIgQEQCAEIAP9AAMI/QsCACAEQRBqIAIpAwA3AgAgAUEEahDqAiABQQRrKAIAIgJBeHEiBUE4QTwgAkEDcSICG0kNASACQQAgBUHcAE8bDQIgARCiAiAAQaCxxwA2AgQgACAENgIAIANBIGokAA8LAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALrgEBBX8jAEEgayIBJAACQCAAKAIAIgJBksmkEksEf0EABUEEIAJBAXQiAyADQQRNGyIEQRxsIQVBACEDIAEgAgR/IAEgAkEcbDYCHCABIAAoAgQ2AhRBBAUgAws2AhggAUEIakEEIAUgAUEUahCFByABKAIIQQFHDQEgASgCECEAIAEoAgwLIABB0OXBABCTCQALIAEoAgwhAiAAIAQ2AgAgACACNgIEIAFBIGokAAuwAQEFfwJAAkAgACgCBCICIAAoAgAiAUcEQCACIAFrIQIgAUEMbCAAakEMaiEAA0AgAEEEaygCACIBBEAgACgCACIEQQRrKAIAIgNBeHEiBSABQQJ0IgFBBEEIIANBA3EiAxtqSQ0DIANBACAFIAFBJ2pLGw0EIAQQogILIABBDGohACACQQFrIgINAAsLDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALwgEBBn8jAEEgayICJAACQAJAAkAgARC4CiIEQf////8DSw0AIARBAnQiA0H9////B08NAAJAIANFBEBBBCEDDAELIAQhBiADEHEiA0UNAgsgARC4CiEFIAEQuAohByACIAU2AgQgAiAHNgIAIAUgB0cNAiADIAUgARDhCSAAIAQ2AgggACADNgIEIAAgBjYCACACQSBqJAAPC0Hg+cQAEP8HCwALIAJBADYCCEEAIAIgAkEEaiACQQhqQeD5xAAQ9QcAC78BAQR/IwBBEGsiAiQAIAJBCGoiAyABQSRqKAIANgIAIAIgASkCHDcDAAJAAkBBDBBxIgQEQCAEIAIpAwA3AgAgBEEIaiADKAIANgIAIAFBBGoQ6gIgAUEEaygCACIDQXhxQSxBMCADQQNxIgUbSQ0BIAVBACADQdAATxsNAiABEKICIABB+JjBADYCBCAAIAQ2AgAgAkEQaiQADwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAu/AQEEfyMAQRBrIgIkACACQQhqIgMgAUEkaigCADYCACACIAEpAhw3AwACQAJAQQwQcSIEBEAgBCACKQMANwIAIARBCGogAygCADYCACABQQRqEOoCIAFBBGsoAgAiA0F4cUEsQTAgA0EDcSIFG0kNASAFQQAgA0HQAE8bDQIgARCiAiAAQbyYwQA2AgQgACAENgIAIAJBEGokAA8LAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALvwEBBH8jAEEQayICJAAgAkEIaiIDIAFBJGooAgA2AgAgAiABKQIcNwMAAkACQEEMEHEiBARAIAQgAikDADcCACAEQQhqIAMoAgA2AgAgAUEEahDqAiABQQRrKAIAIgNBeHFBLEEwIANBA3EiBRtJDQEgBUEAIANB0ABPGw0CIAEQogIgAEG0mcEANgIEIAAgBDYCACACQRBqJAAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC78BAQR/IwBBEGsiAiQAIAJBCGoiAyABQSRqKAIANgIAIAIgASkCHDcDAAJAAkBBDBBxIgQEQCAEIAIpAwA3AgAgBEEIaiADKAIANgIAIAFBBGoQ6gIgAUEEaygCACIDQXhxQSxBMCADQQNxIgUbSQ0BIAVBACADQdAATxsNAiABEKICIABBrJrBADYCBCAAIAQ2AgAgAkEQaiQADwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuvAQEDfyAAAn8CQAJAIAIgBEsEQEEKIQYDQCABIARBA3RqIggvAQAiBwRAIAdBAmsNAwwECyAGQQFqIQYgA0EBcSEHIANBAXYhAyAIKAIEIAQgB2pqIgQgAkkNAAsLIAQgAkHctcQAEIwHAAtBDyAFLQAgIgEgBkH/AXFJDQEaIAUgASAGazoAICAAIAgvAQI7AQIgBSAFKQMAIAatiDcDACAAQR06AAAPC0EOCzoAAAuvAQEDfyAAAn8CQAJAIAIgBEsEQEEKIQYDQCABIARBA3RqIggvAQAiBwRAIAdBAmsNAwwECyAGQQFqIQYgA0EBcSEHIANBAXYhAyAIKAIEIAQgB2pqIgQgAkkNAAsLIAQgAkHctcQAEIwHAAtBDyAFLQAMIgEgBkH/AXFJDQEaIAUgASAGazoADCAAIAgvAQI7AQIgBSAFKQMAIAatiDcDACAAQR06AAAPC0EOCzoAAAvQAQEDfyMAQRBrIgIkACACIAA2AgQgASgCAEGQzsQAQQ8gASgCBCgCDBEAACEAIAJBADoADSACIAA6AAwgAiABNgIIIAJBCGpByPvHAEEEIAJBBGpBgM7EABCMBSEAIAItAA0iAyACLQAMIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQf+zxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEGls8UAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQuwAQEFfyMAQSBrIgEkAAJAIAAoAgAiAkHQjtQDSwR/QQAFQQQgAkEBdCIDIANBBE0bIgRBjAFsIQVBACEDIAEgAgR/IAEgAkGMAWw2AhwgASAAKAIENgIUQQQFIAMLNgIYIAFBCGpBBCAFIAFBFGoQhQcgASgCCEEBRw0BIAEoAhAhACABKAIMCyAAQfD/xgAQkwkACyABKAIMIQIgACAENgIAIAAgAjYCBCABQSBqJAAL0AEBA38jAEEQayICJAAgAiAANgIEIAEoAgBBmK3HAEENIAEoAgQoAgwRAAAhACACQQA6AA0gAiAAOgAMIAIgATYCCCACQQhqQcj7xwBBBCACQQRqQYitxwAQjAUhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEH/s8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBBpbPFAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXELvwEBBH8jAEEQayICJAAgAkEIaiIDIAFBJGooAgA2AgAgAiABKQIcNwMAAkACQEEMEHEiBARAIAQgAikDADcCACAEQQhqIAMoAgA2AgAgAUEEahDqAiABQQRrKAIAIgNBeHFBLEEwIANBA3EiBRtJDQEgBUEAIANB0ABPGw0CIAEQogIgAEHksMcANgIEIAAgBDYCACACQRBqJAAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC6wBAQV/IwBBIGsiAiQAIAAoAgAiA0HVqtUqSwRAQQBBACABEJMJAAtBBCADQQF0IgQgBEEETRsiBUEMbCEGQQAhBCACIAMEfyACIANBDGw2AhwgAiAAKAIENgIUQQQFIAQLNgIYIAJBCGpBBCAGIAJBFGoQhQcgAigCCEEBRgRAIAIoAgwgAigCECABEJMJAAsgAigCDCEBIAAgBTYCACAAIAE2AgQgAkEgaiQAC6cDAQh/IwBBEGsiAyQAIAAoAgQhBSAAKAIAIQBBASEHIAEoAgBB6LLFAEEBIAEoAgQoAgwRAAAhAiADQQA6AAkgAyACOgAIIAMgATYCBAJAAkAgBQRAA0AgAyAANgIMIANBDGohCCMAQSBrIgEkAEEBIQYCQCADQQRqIgQtAAQNACAELQAFIQkCQCAEKAIAIgItAApBgAFxRQRAIAlBAXFFDQEgAigCAEHnkMYAQQIgAigCBCgCDBEAAEUNAQwCCyAJQQFxRQRAIAIoAgBB3PjHAEEBIAIoAgQoAgwRAAANAgsgAUEBOgAPIAFB4IHCADYCFCABIAIpAgA3AgAgASACKQIINwIYIAEgAUEPajYCCCABIAE2AhAgCCABQRBqEO8HDQEgASgCEEHZgcIAQQIgASgCFCgCDBEAACEGDAELIAggAhDvByEGCyAEQQE6AAUgBCAGOgAEIAFBIGokACAAQQFqIQAgBUEBayIFDQALIAMtAAhFDQEMAgsgAg0BCyADKAIEIgAoAgBB6bLFAEEBIAAoAgQoAgwRAAAhBwsgA0EQaiQAIAcLnQEBBH8gACgCACECIAAgARCiBgJAIAAoAggiBSACIAAoAgwiA2tNDQAgAiAFayIBIAMgAWsiA0sgACgCACIEIAJrIANPcUUEQCAEIAFrIQIgAUEMbCIBBEAgACgCBCIEIAJBDGxqIAQgBUEMbGogAfwKAAALIAAgAjYCCA8LIANBDGwiAUUNACAAKAIEIgAgAkEMbGogACAB/AoAAAsLxAEBBH8jAEEQayIEJAACQAJAAkACQAJAAkACQAJAIAEoAgBBAWsOBQECBwcDAAsgASgCFCIDDQMMBgsgASgCFCIDDQMMBQsgASgCECIDDQMMBAsgAS0ABEEDRw0DIARBCGogASgCCCIBKAIAIAEoAgQoAhgRAQAgBCgCDCEFIAQoAgghAgwDCyABKAIYIQUgAyECDAILIAEoAhghBSADIQIMAQsgASgCFCEFIAMhAgsgACAFNgIEIAAgAjYCACAEQRBqJAALnQEBBH8jAEEgayIBJAACQEEIIAAoAgAiBEEBdCIDIANBCE0bIgNBAE4EfyABIAQEfyABIAQ2AhwgASAAKAIENgIUQQEFIAILNgIYIAFBCGpBASADIAFBFGoQhQcgASgCCEEBRw0BIAEoAhAhAiABKAIMBSACCyACQfznwQAQkwkACyABKAIMIQIgACADNgIAIAAgAjYCBCABQSBqJAALmAEBBH8jAEEgayICJAACQEEIIAAoAgAiBUEBdCIEIARBCE0bIgRBAE4EfyACIAUEfyACIAU2AhwgAiAAKAIENgIUQQEFIAMLNgIYIAJBCGogBCACQRRqEN0HIAIoAghBAUcNASACKAIQIQMgAigCDAUgAwsgAyABEJMJAAsgAigCDCEBIAAgBDYCACAAIAE2AgQgAkEgaiQAC64BAQN/IwBBEGsiAyQAAkACQAJAAkAgAEUgAUVyDQAgACgCACIARQ0AIABBwf///wdPDQEgAUEEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAGpJDQIgAkEAIAQgAEEnaksbDQMgARCiAgsgA0EQaiQADwtB2ObIAEErIANBD2pBtIPJAEHEg8kAEOAGAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALmQECAn8EfgJAAkAgASgCBCICIAEpAwgiBSACrSIEIAQgBVYbpyICRwRAIAEoAgAgAmotAAAhA0EEIQIMAQtBqJDIACkDACIHQgiIIQYgB6chAiAHQv8Bg0IEUg0BCyAFQgF8IQQLIAEgBDcDCCACQf8BcUEERwRAIAAgAq1C/wGDIAZCCIaENwIADwsgAEEEOgAAIAAgAzoAAQu0AQACfwJAAkACQAJAAkACQCACQQNrDgUEBQECAAULIAFBpPzAAEEHENsHDQRBAAwFC0EBIAFBq/zAAEEFENsHRQ0EGiABQbz/wABBBRDbBw0BQQIMBAsgAUHB/8AAQQYQ2wcNAkEDDAMLIAFBx//AAEEFENsHDQFBBAwCC0EFIAFBzP/AAEEDENsHRQ0BGiABQc//wABBAxDbBw0AQQYMAQtBBwshASAAQQA6AAAgACABOgABC6gBAQV/IwBBIGsiAiQAAkACQCABELsKIgNBAE4EQAJAIANFBEBBASEEDAELIAMQcSIERQ0CCyABELsKIQUgARC7CiEGIAIgBTYCBCACIAY2AgAgBSAGRw0CIAQgBSABEOMJIAAgAzYCCCAAIAQ2AgQgACADNgIAIAJBIGokAA8LQeD5xAAQ/wcLAAsgAkEANgIIQQAgAiACQQRqIAJBCGpB4PnEABD1BwALowECAn8BfiMAQRBrIgMkAAJAAkACQCABKAIIIgQgASgCBEkEQCABKAIAIARqLQAAIAJB/wFxRg0BCyAAQgA3AwgMAQtBASECIAEgBEEBajYCCCADIAEQ2QQgAy0AAEUEQCADKQMIIgVCf1IEQCAAIAVCAXw3AwgMAgsgAEEAOgABDAILIAAgAy0AAToAAQwBC0EAIQILIAAgAjoAACADQRBqJAALqAECBX8BfiMAQSBrIgIkAAJ/IAAoAgBBgICAgHhHBEAgASgCACAAKAIEIAAoAgggASgCBCgCDBEAAAwBCyABKAIEIQMgASgCACAAKAIMKAIAIgApAhAhByAAKAIMIQQgACgCCCEFIAAoAgAhBiAAKAIEIQAgAiAHNwIYIAIgBDYCFCACIAU2AhAgAiAANgIMIAIgBjYCCCADIAJBCGoQwQMLIAJBIGokAAuTAQIBfwF+IwBBMGsiAiQAAn8gACgCACIAKAIMRQRAIAAgARDkAwwBCyACQoCAgIAQIgMgAEEQaq2ENwMQIAIgAyAAQQxqrYQ3AwggAiAArUKAgICAoA6ENwMAIAEoAgAgASgCBCACQgM3AiQgAkEDNgIcIAJBoKXGADYCGCACIAI2AiAgAkEYahDBAwsgAkEwaiQAC6MBAgJ/AX4jAEEQayICJAAgASgCCCEDIAIgARDZBAJAIAItAABBAUYEQCACLQABIQEgAEEANgIAIAAgAToABAwBCyACKQMIIgQgA0EBa61UBEAgASgCDEEBaiIDQfQDTQRAIAAgAzYCDCAAIAQ+AgggACABKQIANwIADAILIABBADYCACAAQQE6AAQMAQsgAEEANgIAIABBADoABAsgAkEQaiQAC6UBAAJAAkACQCABQf8ATARAIAFBgn9ODQMgAEMAAIAMlCEAIAFBm35NDQEgAUHmAGohAQwDCyAAQwAAAH+UIQAgAUH+AUsNASABQf8AayEBDAILIABDAACADJQhAEG2fSABIAFBtn1NG0HMAWohAQwBCyAAQwAAAH+UIQBB/QIgASABQf0CTxtB/gFrIQELIAAgAUEXdEGAgID8A2pBgICA/AdxvpQLqAEBAn8gASgCDCECAkACQAJAAkACQAJAAkAgASgCBA4CAAECCyACDQFBASEDQQAhAUEBIQIMAwsgAkUNAQsgACABEOwDDwsgASgCACICKAIEIgFBAEgNASACKAIAIQMgAUUEQEEBIQJBACEBDAELIAEQcSICRQ0CCyABBEAgAiADIAH8CgAACyAAIAE2AgggACACNgIEIAAgATYCAA8LQdiayAAQ/wcLAAuNAQEDfyMAQRBrIgMkAEEDIQIgACgCAC0AACIAIQQgAEEKTwRAIAMgACAAQeQAbiIEQeQAbGtB/wFxQQF0LwC4ukU7AA5BASECC0EAIAAgBBtFBEAgAkEBayICIANBDWpqIARBAXQtALm6RToAAAsgAUEBQQFBACADQQ1qIAJqQQMgAmsQyAMgA0EQaiQAC4oBAQN/IwBBEGsiAyQAQQMhAiAALQAAIgAhBCAAQQpPBEAgAyAAIABB5ABuIgRB5ABsa0H/AXFBAXQvALi6RTsADkEBIQILQQAgACAEG0UEQCACQQFrIgIgA0ENamogBEEBdC0AubpFOgAACyABQQFBAUEAIANBDWogAmpBAyACaxDIAyADQRBqJAALlQEDA3wBfgF/IAC7IAG7oiIDIAK7IgSgIgW9IgZC/////wGDQoCAgIABUiAGQoCAgICAgID4/wCDQoCAgICAgID4/wBRciAEIAUgA6FhIAUgBKEgA2FxcgR8IAUFIAZCAX0gBkIBhCAGQgBTIgcgAyAEIAWhoCADIAWhIASgIAcgAyAEY3MbRAAAAAAAAAAAY3Mbvwu2C6QBAQR/IAAQ9gICQAJAIAAoAsgFIgEEQCAAKALMBSIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEKICCyAAQeAAaiEBAkACQAJAIAAoArwFQYCAgIB4aw4CAQIACyABEL4CDwsgARC9AQsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAujAQEEfyAAEPUCAkACQCAAKAKoBSIBBEAgACgCrAUiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCiAgsgAEFAayEBAkACQAJAIAAoApwFQYCAgIB4aw4CAQIACyABEL4CDwsgARC9AQsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuWAQEDfwJ/AkACQCABKAIAIgNFBEAMAQsDQAJAIAEoAggiBCABKAIETw0AIAMgBGotAABBxQBHDQAgASAEQQFqNgIIDAILAkAgAkUNACABKAIQIgNFDQAgA0HnkMYAQQIQlwMNAwsgARCGAg0CIAJBAWohAiABKAIAIgMNAAsLQQAMAQtBAQshASAAIAI2AgQgACABNgIAC6YBAgJ/AX4CQAJAAkACQCABKAIoQQJHBEAgASgCmAJBgYCAgHhHDQFBgICAgHghAgwCC0GsmMcAEN0JAAsgASgCoAIiAkEASA0BIAEoApwCIQMCQCACRQRAQQEhAQwBCyACEHEiAUUNAwsgAgRAIAEgAyAC/AoAAAsgAa0gAq1CIIaEIQQLIAAgBDcDCCAAIAI2AgQgAEEGNgIADwtB2JrIABD/BwsAC6YBAgJ/AX4CQAJAAkACQCABKAIoQQJHBEAgASgCpAJBgYCAgHhHDQFBgICAgHghAgwCC0GsmMcAEN0JAAsgASgCrAIiAkEASA0BIAEoAqgCIQMCQCACRQRAQQEhAQwBCyACEHEiAUUNAwsgAgRAIAEgAyAC/AoAAAsgAa0gAq1CIIaEIQQLIAAgBDcDCCAAIAI2AgQgAEEGNgIADwtB2JrIABD/BwsAC8cBAQF7IAIgA0sEQCAAIAEgA0EVbGoiASwAFLJDAAD+QpU4AlAgACAB/VwAAP2HAf2nAf36Af0MAAD+QgAA/kIAAP5CAAD+QiIE/ecB/QsCACAAIAH9XAAE/YcB/acB/foBIAT95wH9CwIQIAAgAf1cAAj9hwH9pwH9+gEgBP3nAf0LAiAgACAB/VwADP2HAf2nAf36ASAE/ecB/QsCMCAAIAH9XAAQ/YcB/acB/foBIAT95wH9CwJADwsgAyACQZy8xwAQjAcAC38BAX8gAkEETwRAA0AgACgAACABKAAARwRAQQAPCyABQQRqIQEgAEEEaiEAIAJBBGsiAkEDSw0ACwtBASEDIAJBAUsEQCAALwAAIAEvAABHBEBBAA8LIAJBAmshAiABQQJqIQEgAEECaiEACyACBH8gAC0AACABLQAARgUgAwsLoAEBBH8gAEH0BGoQwAICQAJAIAAoAugEIgIEQCAAKALsBCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCwJAAkACQCAAKALcBEGAgICAeGsOAgECAAsgABC+Ag8LIAAQvQELDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALoAEBBH8gAEH0BGoQigICQAJAIAAoAugEIgIEQCAAKALsBCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCwJAAkACQCAAKALcBEGAgICAeGsOAgECAAsgABC+Ag8LIAAQvQELDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALmgEBA38gASgCICECIAEoAhwhAwJAAkBBCBBxIgQEQCAEIAI2AgQgBCADNgIAIAFBBGoQ6gIgAUEEaygCACICQXhxIgNBKEEsIAJBA3EiAhtJDQEgAkEAIANBzABPGw0CIAEQogIgAEGAmMEANgIEIAAgBDYCAA8LAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALjgEBA38jAEEQayIBJAAgAUEAOgAPAkACQEEBEHEiAgRAIAAgAUEPaq03AwAgACACrTcDCCACQQRrKAIAIgBBeHEiA0EFQQkgAEEDcSIAG0kNASAAQQAgA0EpTxsNAiACEKICIAFBEGokAA8LAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALjgEBBH8jAEEQayICJAACf0EBIAEoAgAiA0EnIAEoAgQiBSgCECIBEQIADQAaIAIgACgCAEGBAhCBAwJAIAItAA0iAEGBAU8EQCADIAIoAgAgARECAEUNAUEBDAILIAMgAiACLQAMIgRqIAAgBGsgBSgCDBEAAEUNAEEBDAELIANBJyABEQIACyACQRBqJAALmgEBA38gASgCICECIAEoAhwhAwJAAkBBCBBxIgQEQCAEIAI2AgQgBCADNgIAIAFBBGoQ6gIgAUEEaygCACICQXhxIgNBKEEsIAJBA3EiAhtJDQEgAkEAIANBzABPGw0CIAEQogIgAEGwr8cANgIEIAAgBDYCAA8LAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALgAEBAn8gA0EITwRAIAAgACADQQN2IgNBBHQiBGogACADQRxsIgVqIAMQwgYhACABIAEgBGogASAFaiADEMIGIQEgAiACIARqIAIgBWogAxDCBiECCyAAIAIgASAAKAIAIgAgASgCACIBSSIDIAEgAigCACICSXMbIAMgACACSXMbC4ABAQJ/IANBCE8EQCAAIAAgA0EDdiIDQQV0IgRqIAAgA0E4bCIFaiADEMMGIQAgASABIARqIAEgBWogAxDDBiEBIAIgAiAEaiACIAVqIAMQwwYhAgsgACACIAEgACgCACIAIAEoAgAiAUkiAyABIAIoAgAiAklzGyADIAAgAklzGwt+AQJ/IAAgACgCCCIDIAFJBH8gASADayIEIAAoAgAgA2tLBEAgACADIARBAUEBEKQFIAAoAgghAwsgACgCBCIAIANqIQEgBEECTwR/IARBAWsiBARAIAEgAiAE/AsACyAAIAMgBGoiA2oFIAELIAI6AAAgA0EBagUgAQs2AggLkAEBAX8jAEEwayICJAACf0EBIAEoAgBBIiABKAIEKAIQEQIADQAaIAIgATYCDCACIACtQoCAgIDQAIQ3AxAgAkIBNwIkIAJBATYCHCACQaD4xwA2AhggAiACQRBqNgIgQQEgAkEMakG4oMEAIAJBGGoQwQMNABogASgCAEEiIAEoAgQoAhARAgALIAJBMGokAAuQAQEBfyMAQTBrIgIkAAJ/QQEgASgCAEEiIAEoAgQoAhARAgANABogAiABNgIMIAIgAK1CgICAgMAHhDcDECACQgE3AiQgAkEBNgIcIAJBoPjHADYCGCACIAJBEGo2AiBBASACQQxqQeS3xwAgAkEYahDBAw0AGiABKAIAQSIgASgCBCgCEBECAAsgAkEwaiQAC48BAQF/IwBBEGsiAiQAIAJBCGogARCfAwJAIAItAAhBAUYEQCAAIAIoAgw2AgQgAEEDNgIADAELIAItAAlFBEAgAEECNgIADAELIAJBCGogASgCABDSAiACKAIIIgFBAkYEQCAAIAIoAgw2AgQgAEEDNgIADAELIAAgAioCDDgCBCAAIAE2AgALIAJBEGokAAuSAQICfwF+IwBBIGsiAiQAAkACQCAALQAIIgNBA0cEQCADQQFLDQIgAEECOgAIIAEoAgAgAUIANwMARQ0BIAEpAwghBCAAQQM6AAggACAENwMACyACQSBqJAAPC0HQnMcAEN0JAAsgAkEANgIYIAJBATYCDCACQZiDyAA2AgggAkIENwIQIAJBCGpBwJzHABCNCAALhQEBA38CfwJAIAAoAgAiAUUNAANAAkAgACgCCCIDIAAoAgRPDQAgASADai0AAEHFAEcNACAAIANBAWo2AggMAgsCQCACRQ0AIAAoAhAiAUUNACABQeeQxgBBAhCXA0UNAEEBDwtBASAAQQEQ1QENAhogAkEBayECIAAoAgAiAQ0ACwtBAAsLhwEBA38gACgCACECIAAoAgQiACgCACIBBEAgAiABEQMACwJAAkAgACgCBCIABEAgAkEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAGpJDQEgAUEAIAMgAEEnaksbDQIgAhCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuUAQICfgF/IAEpAgAgASkCCCEDIABBBGoQ6gJC7bqtts2F1PXjAIUgA0L4gpm9le7Gxbl/hYRQBEAgAEEkahCxBAsCQCAAQQRrKAIAIgFBeHFBLEEwIAFBA3EiBBtPBEAgBEEAIAFB0ABPGw0BIAAQogIPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAt/AQF/IwBBQGoiBCQAIAQgATYCDCAEIAA2AgggBCADNgIsIAQgAjYCKCAEQQI2AhQgBEH45sAANgIQIARCAjcCHCAEIARBKGqtQoCAgIDAAIQ3AzggBCAEQQhqrUKAgICAIIQ3AzAgBCAEQTBqNgIYIARBEGoQxwUgBEFAayQAC4oBAQJ/IwBBEGsiAiQAAkACQCAAKAIkIgFBCU8EQCAAKAIEIgFBf0YNAQtBfyABZ3ZBACABGyIBQX9GDQAgAkEIaiAAIAFBAWoQ6AMgAigCCCIAQYGAgIB4RwRAIAANAkHYlccAQRFB1MzHABDrBwALIAJBEGokAA8LQdiVxwBBEUHkzMcAEKsHCwALigEBAn8jAEEQayICJAACQAJAIAAoAhQiAUEFTwRAIAAoAgQiAUF/Rg0BC0F/IAFndkEAIAEbIgFBf0YNACACQQhqIAAgAUEBahDpAyACKAIIIgBBgYCAgHhHBEAgAA0CQdiVxwBBEUHUzMcAEOsHAAsgAkEQaiQADwtB2JXHAEERQeTMxwAQqwcLAAuEAQECfyAAIAEgACgCCCIDQQNyIgJB/v8DcSACbEGA/gNxQQh2cyIBIAAoAgAiAnNB/wFxQQJ0KALwvUggAkEIdnMiAjYCACAAIAAoAgQgAkH/AXFqQYWIosAAbEEBaiICNgIEIAAgA0H/AXEgAkEYdnNBAnQoAvC9SCADQQh2czYCCCABC44BAgN/AX4gASkCHCEFAkACQEEIEHEiAwRAIAMgBTcCACABQQRqEOoCIAFBBGsoAgAiAkF4cSIEQShBLCACQQNxIgIbSQ0BIAJBACAEQcwATxsNAiABEKICIABBxJfBADYCBCAAIAM2AgAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC44BAgN/AX4gASkCHCEFAkACQEEIEHEiAwRAIAMgBTcCACABQQRqEOoCIAFBBGsoAgAiAkF4cSIEQShBLCACQQNxIgIbSQ0BIAJBACAEQcwATxsNAiABEKICIABBiJbBADYCBCAAIAM2AgAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC4IBAQF/IwBBMGsiAiQAIAIgACgCACgCACIANgIYIAIgAGg2AhwgAkEDNgIEIAJByIvDADYCACACQgI3AgwgAiACQRxqrUKAgICAsAaENwMoIAIgAkEYaq1CgICAgMAGhDcDICACIAJBIGo2AgggASgCACABKAIEIAIQwQMgAkEwaiQAC4sBAQJ/IwBBEGsiAiQAAkACQCAAKAKEASIBQSFPBEAgACgCBCIBQX9GDQELQX8gAWd2QQAgARsiAUF/Rg0AIAJBCGogACABQQFqEPQDIAIoAggiAEGBgICAeEcEQCAADQJB2JXHAEERQdTMxwAQ6wcACyACQRBqJAAPC0HYlccAQRFB5MzHABCrBwsAC4oBAQJ/IwBBEGsiAiQAAkACQCAAKAIUIgFBBU8EQCAAKAIEIgFBf0YNAQtBfyABZ3ZBACABGyIBQX9GDQAgAkEIaiAAIAFBAWoQ9QMgAigCCCIAQYGAgIB4RwRAIAANAkHYlccAQRFB1MzHABDrBwALIAJBEGokAA8LQdiVxwBBEUHkzMcAEKsHCwALigEBAn8jAEEQayICJAACQAJAIAAoAiQiAUEJTwRAIAAoAgQiAUF/Rg0BC0F/IAFndkEAIAEbIgFBf0YNACACQQhqIAAgAUEBahD2AyACKAIIIgBBgYCAgHhHBEAgAA0CQdiVxwBBEUHUzMcAEOsHAAsgAkEQaiQADwtB2JXHAEERQeTMxwAQqwcLAAuOAQIDfwF+IAEpAhwhBQJAAkBBCBBxIgMEQCADIAU3AgAgAUEEahDqAiABQQRrKAIAIgJBeHEiBEEoQSwgAkEDcSICG0kNASACQQAgBEHMAE8bDQIgARCiAiAAQailxwA2AgQgACADNgIADwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAuKAQEDfyABKAIcIQICQAJAQQQQcSIDBEAgAyACNgIAIAFBBGoQ6gIgAUEEaygCACICQXhxQSRBKCACQQNxIgQbSQ0BIARBACACQcgATxsNAiABEKICIABB8JnBADYCBCAAIAM2AgAPCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC4oBAQN/IAEtABwhAgJAAkBBARBxIgMEQCADIAI6AAAgAUEEahDqAiABQQRrKAIAIgJBeHFBJEEoIAJBA3EiBBtJDQEgBEEAIAJByABPGw0CIAEQogIgAEGosMcANgIEIAAgAzYCAA8LAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALbQEDfyMAQRBrIgIkACAALQAAIQNBAyEAA0AgACACakEMaiADQQ9xQcmBwgBqLQAAOgAAIAMiBEEEdiEDIABBAWshACAEQQ9LDQALIAFBAUGEtMUAQQIgACACakENakEDIABrEMgDIAJBEGokAAt7AQF/IwBBIGsiAiQAAn8gACgCAEEBRgRAIAEoAgBBw4/GAEEVIAEoAgQoAgwRAAAMAQsgAiAArUKAgICAEIQ3AwAgASgCACABKAIEIAJCATcCFCACQQI2AgwgAkHwj8YANgIIIAIgAjYCECACQQhqEMEDCyACQSBqJAALdwEBfyMAQUBqIgMkACADIAI2AhQgAyABNgIQIAMgADYCDCADQQI2AhwgA0Gk5sAANgIYIANCAjcCJCADIANBEGqtQoCAgIAwhDcDOCADIANBDGqtQoCAgIAQhDcDMCADIANBMGo2AiAgA0EYahDHBSADQUBrJAALfwEEfyAAQQRqEOoCAkACQCAAKAIcIgIEQCAAKAIgIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQogILIABBKGoQ4wQPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtiAQR+IAAgAkL/////D4MiAyABQv////8PgyIEfiIFIAQgAkIgiCICfiIEIAMgAUIgiCIGfnwiAUIghnwiAzcDACAAIAMgBVStIAIgBn4gASAEVK1CIIYgAUIgiIR8fDcDCAt6AQF/IwBBQGoiAyQAIAMgAjYCBCADIAE2AgAgAyAA/QADAP0LAyAgA0ECNgIMIANB3KDGADYCCCADQgI3AhQgAyADrUKAgICAMIQ3AzggAyADQSBqrUKAgICA4ACENwMwIAMgA0EwajYCECADQQhqEMcFIANBQGskAAt6AQF/IwBBQGoiAyQAIAMgAjYCBCADIAE2AgAgAyAA/QADAP0LAyAgA0ECNgIMIANBqKbGADYCCCADQgI3AhQgAyADrUKAgICAMIQ3AzggAyADQSBqrUKAgICA4ACENwMwIAMgA0EwajYCECADQQhqEMcFIANBQGskAAt8AQF/IwBBQGoiBSQAIAUgATYCDCAFIAA2AgggBSADNgIUIAUgAjYCECAFQQI2AhwgBUHg+McANgIYIAVCAjcCJCAFIAVBEGqtQoCAgICQAYQ3AzggBSAFQQhqrUKAgICAoAGENwMwIAUgBUEwajYCICAFQRhqIAQQjQgAC2oBA38jAEEQayIDJAAgACgCACgCACEAQQkhAgNAIAIgA2pBBmogAEEPcS0A3LZFOgAAIAJBAWshAiAAQQ9LIABBBHYhAA0ACyABQQFBhLTFAEECIAIgA2pBB2pBCSACaxDIAyADQRBqJAALjAEAAn8CQAJAAkACQAJAIAJBA2sOBAMEAAEECyABQbz/wABBBRDbBw0BQQAMBAsgAUHB/8AAQQYQ2wcNAkEBDAMLIAFBx//AAEEFENsHDQFBAgwCC0EDIAFBzP/AAEEDENsHRQ0BGiABQc//wABBAxDbBw0AQQQMAQtBBQshAiAAQQA6AAAgACACOgABC4IBAQJ/IABBDGoQ9QICQAJAAkAgAEF/Rg0AIAAgACgCBEEBayIBNgIEIAENACAAQQRrKAIAIgFBeHEiAkHYAEHcACABQQNxIgEbSQ0BIAFBACACQfwATxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC4IBAQJ/IABBDGoQ9gICQAJAAkAgAEF/Rg0AIAAgACgCBEEBayIBNgIEIAENACAAQQRrKAIAIgFBeHEiAkH4AEH8ACABQQNxIgEbSQ0BIAFBACACQZwBTxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC3wBAX8CQAJAIAFB/////wNLDQAgAUECdCIDQf3///8HTw0AAn8gA0UEQEEEIQJBAAwBCyADEHEiAkUNAiACQQRrLQAAQQNxRSADRXJFBEAgAkEAIAP8CwALIAELIQMgACABNgIIIAAgAjYCBCAAIAM2AgAPCyACEP8HCwALZwEDfyMAQRBrIgMkACAAKAIAIQBBCSECA0AgAiADakEGaiAAQQ9xLQDctkU6AAAgAkEBayECIABBD0sgAEEEdiEADQALIAFBAUGEtMUAQQIgAiADakEHakEJIAJrEMgDIANBEGokAAuCAQEDfwJAAkACQAJAIAAtAABBAWsOAgAAAQsgACgCBCICRQ0AIAAoAggiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAt3AQR/AkACQCABKAIUIgUgASgCECIGTw0AIAEoAgwhBwNAIAUgB2otAAAiCEEwa0H/AXFBCU0EQCABIAVBAWoiBTYCFCAFIAZHDQEMAgsLIAhBIHJB5QBGDQELIAAgASACIAMgBBDwBA8LIAAgASACIAMgBBDuAwuCAQAgASgCKEECRwRAAkACQCACKAIQQQFGBEAgASgC3AIgAigCFEsNAQsgAigCGEEBRw0BIAEoAuACIAIoAhxNDQELIABCAjcDCCAAQQM2AgAPCyAAQQY2AgAgASAC/QADAP0LAwAgAUEQaiACQRBq/QADAP0LAwAPC0GsmMcAEN0JAAt3AQN/IABBBGoQ6gICQAJAIAAoAhwiAgRAIAAoAiAiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAt0AQJ/AkACQCAABEAgAEEIayIDIAMoAgBBAWoiBDYCACAERQ0BIAAoAgANAiAAQX82AgAgAEEEaiABIAJBAEcQMCAAIAAoAgBBAWo2AgAgAyADKAIAQQFrIgA2AgAgAEUEQCADEOQGCw8LEI4KCwALEJAKAAt0AQJ/AkACQCAABEAgAEEIayIDIAMoAgBBAWoiBDYCACAERQ0BIAAoAgANAiAAQX82AgAgAEEEaiABIAJBAEcQLyAAIAAoAgBBAWo2AgAgAyADKAIAQQFrIgA2AgAgAEUEQCADEOMGCw8LEI4KCwALEJAKAAt1AgF/AX4jAEEQayIFJAAgAUUEQEGt+cQAQTIQjwoACyAFQQhqIAEgAyAEIAIoAhARBgAgACAFKQMIIganIgFB/wFxNgIIIAAgBkIgiKdBACABQQFxIgIbNgIEIABBACABQQh2Qf8BcSACGzYCACAFQRBqJAALdQIBfwF+IwBBEGsiBSQAIAFFBEBBrfnEAEEyEI8KAAsgBUEIaiABIAMgBCACKAIQEQYAIAAgBSkDCCIGpyICQQJGIgE2AgggACAGQiCIpyIDQQAgARs2AgQgAEEAIANBgAggAkEBcRsgARs2AgAgBUEQaiQAC3ABAX8CQAJAIAJBAk8EQCACQQF2IQZBACEAQQAhBQNAIAAgAk8NAiAEIAVGDQMgAyAFaiAAIAFqLQAAOgAAIABBAmohACAFQQFqIgUgBkcNAAsLDwsgACACQeCYxQAQjAcACyAEIARB8JjFABCMBwALdwEEfwJAAkAgACgCACICBEAgACgCBCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAQQxqEOMEDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALcwIBfwF+IwBBEGsiBCQAIAFFBEBBrfnEAEEyEI8KAAsgBEEIaiABIAMgAigCEBEFACAAIAQpAwgiBaciAUH/AXE2AgggACAFQiCIp0EAIAFBAXEiAhs2AgQgAEEAIAFBCHZB/wFxIAIbNgIAIARBEGokAAt6AQN/IwBBEGsiAyQAIANBCGogASgCACABKAIEIAEoAggQ+QEgAygCDCEEIAMoAgghBUEUEHEiAUUEQAALIAEgBTYCDCAAIAE2AgQgAEECNgIAIAEgAikCADcCACABIAQ2AhAgAUEIaiACQQhqKAIANgIAIANBEGokAAt6AQN/IwBBEGsiAyQAIANBCGogASgCACABKAIEIAEoAggQ+QEgAygCDCEEIAMoAgghBUEUEHEiAUUEQAALIAEgBTYCDCAAIAE2AgQgAEEBOgAAIAEgAikCADcCACABIAQ2AhAgAUEIaiACQQhqKAIANgIAIANBEGokAAt6AQN/IwBBEGsiAyQAIANBCGogASgCACABKAIEIAEoAggQ+QEgAygCDCEEIAMoAgghBUEUEHEiAUUEQAALIAEgBTYCDCAAIAE2AgQgAEEBOwEAIAEgAikCADcCACABIAQ2AhAgAUEIaiACQQhqKAIANgIAIANBEGokAAt6AQN/IwBBEGsiAyQAIANBCGogASgCACABKAIEIAEoAggQ+QEgAygCDCEEIAMoAgghBUEUEHEiAUUEQAALIAEgBTYCDCAAIAE2AgQgAEEANgIAIAEgAikCADcCACABIAQ2AhAgAUEIaiACQQhqKAIANgIAIANBEGokAAt9AQN/AkACQCAAKAIAIgJBgICAgHhyQYCAgIB4RwRAIAAoAgQiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAt2AQN/IAAQigICQAJAIAAoAsQBIgIEQCAAKALIASIAQQRrKAIAIgFBeHEiA0EEQQggAUEDcSIBGyACakkNASABQQAgAyACQSdqSxsNAiAAEKICCw8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC3YBA38gABDAAgJAAkAgACgCvAEiAgRAIAAoAsABIgBBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0BIAFBACADIAJBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALdAEDfyAAEPYCAkACQCAAKAJgIgIEQCAAKAJkIgBBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0BIAFBACADIAJBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALdAEDfyAAEPUCAkACQCAAKAJAIgIEQCAAKAJEIgBBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0BIAFBACADIAJBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALdAEEfwJAAkAgACgCKCICBEAgACgCLCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEKICCyAAEL8EDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALdAEDfyAAEPcDAkACQCAAKAJoIgIEQCAAKAJsIgBBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0BIAFBACADIAJBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALbQECfyABKAIIIgRFIAMgASgCACIFIARrTXJFBEAgAUEANgIIIAFBADoADEEAIQQLIAMgBUkEQCADBEAgASgCBCAEaiACIAP8CgAACyAAQQQ6AAAgASADIARqNgIIDwsgAEIENwIAIAFBADoADAtvAQJ/AkACQCAABEAgAEEIayICIAIoAgBBAWoiAzYCACADRQ0BIAAoAgANAiAAQX82AgAgAEEEaiABEC0gACAAKAIAQQFqNgIAIAIgAigCAEEBayIANgIAIABFBEAgAhDkBgsPCxCOCgsACxCQCgALbwECfwJAAkAgAARAIABBCGsiAiACKAIAQQFqIgM2AgAgA0UNASAAKAIADQIgAEF/NgIAIABBBGogARAuIAAgACgCAEEBajYCACACIAIoAgBBAWsiADYCACAARQRAIAIQ4wYLDwsQjgoLAAsQkAoAC3IBA38CQAJAIAAoAgAiAkEASgRAIAAoAgQiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAttAQF/An8CQAJ/AkAgAigCBARAIAIoAggiA0UEQCABDQIMBAsgAigCACADQQQgARC7AgwCCyABRQ0CCyABEHELIgJBBCACGyEDIAJFDAELQQQhA0EACyECIAAgATYCCCAAIAM2AgQgACACNgIAC3cCAn0CfyABKAIIIgVBgICAAXEhBCAAKgIAIQIgBUGAgICAAXFFBEAgAosiA0PKGw5aYCACQwAAAABcIANDF7fROF1xckUEQCABIAIgBEEAR0EBEPcCDwsgASACIARBAEcQzwIPCyABIAIgBEEARyABLwEOEL0CC28BA38CQAJAIAAoAgAiAgRAIAAoAgQiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCiAgsPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAt9AwF/AX4BfCMAQRBrIgMkAAJAAkACQAJAIAAoAgBBAWsOAgECAAsgACsDCCEFIANBAzoAACADIAU5AwgMAgsgACkDCCEEIANBAToAACADIAQ3AwgMAQsgACkDCCEEIANBAjoAACADIAQ3AwgLIAMgASACEN8GIANBEGokAAtnAQF/An8CfwJAIAMoAgQEQCADKAIIIgRFBEAgAg0CQQAMBAsgAygCACAEIAEgAhC7AgwCCyACDQBBAAwCCyACEHELIgMgASADGyEBIANFCyEDIAAgAjYCCCAAIAE2AgQgACADNgIAC3EBAn8gAEEEahDqAiAAKAIkIgEgASgCACgCABEDAAJAIABBBGsoAgAiAUF4cUEsQTAgAUEDcSICG08EQCACQQAgAUHQAE8bDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC2sBAn8jAEEgayIBJAACfyAALQBsQQZHBEAgACgCZCICBEAgAiAAKAJoKAIUEQQADAILQZyqwQAQ3QkACyABQQA2AhggAUEBNgIMIAFBlKrBADYCCCABQgQ3AhAgAUEIahCSBwsgAUEgaiQAC24BAn8jAEEgayIBJAACfyAALQDoAUEGRwRAIAAoAuABIgIEQCACIAAoAuQBKAIUEQQADAILQZyqwQAQ3QkACyABQQA2AhggAUEBNgIMIAFBlKrBADYCCCABQgQ3AhAgAUEIahCSBwsgAUEgaiQAC24BAn8jAEEgayIBJAACfyAALQCMAUEGRwRAIAAoAoQBIgIEQCACIAAoAogBKAIUEQQADAILQZyqwQAQ3QkACyABQQA2AhggAUEBNgIMIAFBlKrBADYCCCABQgQ3AhAgAUEIahCSBwsgAUEgaiQAC24BAn8jAEEgayIBJAACfyAALQDwAUEGRwRAIAAoAugBIgIEQCACIAAoAuwBKAIUEQQADAILQZyqwQAQ3QkACyABQQA2AhggAUEBNgIMIAFBlKrBADYCCCABQgQ3AhAgAUEIahCSBwsgAUEgaiQAC24BA38jAEEQayICJAAgAkEIaiAAKAIAIAAoAgQgACgCCBD5ASACKAIMIQMgAigCCCEEQRQQcSIARQRAAAsgACAENgIMIAAgASkCADcCACAAIAM2AhAgAEEIaiABQQhqKAIANgIAIAJBEGokACAAC2kCAX8BfiMAQTBrIgMkACADIAE2AgQgAyAANgIAIANBAjYCDCADQbSIwwA2AgggA0ICNwIUIANCgICAgBAiBCADrYQ3AyggAyAEIANBBGqthDcDICADIANBIGo2AhAgA0EIaiACEI0IAAtmAQN/IwBBEGsiAiQAAkAgASgCACIEKAIAQQFHDQAgBC0ABEEDRw0AIAJBCGogBCgCCCIBKAIAIAEoAgQoAhgRAQAgAigCDCEBIAIoAgghAwsgACABNgIEIAAgAzYCACACQRBqJAALaQECfyMAQSBrIgIkACACQQhqEOQIQSgQcSIBRQRAAAsgAUGYn8EANgIAIAEgAikCCDcCBCABIAApAgA3AhwgAUEMaiACQRBq/QACAP0LAgAgAUEkaiAAQQhqKAIANgIAIAJBIGokACABC2kBAn8jAEEgayICJAAgAkEIahDkCEEoEHEiAUUEQAALIAFB/J7BADYCACABIAIpAgg3AgQgASAAKQIANwIcIAFBDGogAkEQav0AAgD9CwIAIAFBJGogAEEIaigCADYCACACQSBqJAAgAQtpAQJ/IwBBIGsiAiQAIAJBCGoQ5AhBKBBxIgFFBEAACyABQaS1xwA2AgAgASACKQIINwIEIAEgACkCADcCHCABQQxqIAJBEGr9AAIA/QsCACABQSRqIABBCGooAgA2AgAgAkEgaiQAIAELagEBfyMAQRBrIgYkACABRQRAQa35xABBMhCPCgALIAZBCGogASADIAQgBSACKAIQEQcAIAYoAgwhASAAIAYoAggiAjYCCCAAIAFBACACQQFxIgIbNgIEIABBACABIAIbNgIAIAZBEGokAAtnAQJ/IwBBEGsiAiQAIAAoAgwhAQJ/AkACQAJAIAAoAgQOAgABAgsgAQ0BQQFBABC0BwwCCyABDQAgACgCACIAKAIAIAAoAgQQtAcMAQsgAkEEaiIBIAAQ7AMgARCOBwsgAkEQaiQAC24BAn8CQEEQEHEiAUUNACABQfWVyAD9AAAA/QsAAEEMEHEiAkUNACACQRA2AgggAiABNgIEIAJBEDYCAEEMEHEiAUUNACABQRU6AAggAUHgtMQANgIEIAEgAjYCACAAIAGtQiCGQgOENwIADwsAC2gBAX8jAEEQayIFJAAgAUUEQEGt+cQAQTIQjwoACyAFQQhqIAEgAyAEIAIoAhARBgAgBSgCDCEBIAAgBSgCCCICNgIIIAAgAUEAIAJBAXEiAhs2AgQgAEEAIAEgAhs2AgAgBUEQaiQAC2cBAn8jAEEQayICJAAgACgCDCEBAn8CQAJAAkAgACgCBA4CAAECCyABDQFBAUEAELcHDAILIAENACAAKAIAIgAoAgAgACgCBBC3BwwBCyACQQRqIgEgABDsAyABEJAHCyACQRBqJAALZQEBfwJAAkAgAQRAIABBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0BIAJBACADIAFBJ2pLGw0CIAAQogILDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALZwECfyAAQQRqEOoCIABBJGoQsQQCQCAAQQRrKAIAIgFBeHFBLEEwIAFBA3EiAhtPBEAgAkEAIAFB0ABPGw0BIAAQogIPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtnAQJ/IABBBGoQ6gIgAEEcahCxBAJAIABBBGsoAgAiAUF4cUEkQSggAUEDcSICG08EQCACQQAgAUHIAE8bDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC2cBAn8gAEEEahDqAiAAQRxqEOMEAkAgAEEEaygCACIBQXhxQSxBMCABQQNxIgIbTwRAIAJBACABQdAATxsNASAAEKICDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALaQECfyAAQQRqEOoCIABBIGoQgwICQCAAQQRrKAIAIgFBeHFBzABB0AAgAUEDcSICG08EQCACQQAgAUHwAE8bDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC3wBAX8CQAJAIABBhAhPBEAgANBvJgFBoLvJACgCAA0CIABBsLvJACgCACIBSQ0BIAAgAWsiAEGou8kAKAIATw0BQaC0yQAoAgAgAEECdGpBrLvJACgCADYCAEGsu8kAIAA2AgBBoLvJAEEANgIACw8LAAtBgI/IABCwCgALXgEBfyMAQTBrIgIkACACIAE2AgwgAiAANgIIIAJBAjYCFCACQYTmwAA2AhAgAkIBNwIcIAIgAkEIaq1CgICAgCCENwMoIAIgAkEoajYCGCACQRBqEMcFIAJBMGokAAteAQF/IwBBMGsiAiQAIAIgATYCDCACIAA2AgggAkECNgIUIAJBhObAADYCECACQgE3AhwgAiACQQhqrUKAgICAIIQ3AyggAiACQShqNgIYIAJBEGoQ3gQgAkEwaiQAC14BAX8jAEEwayICJAAgAiABNgIMIAIgADYCCCACQQI2AhQgAkHI5sAANgIQIAJCATcCHCACIAJBCGqtQoCAgIAghDcDKCACIAJBKGo2AhggAkEQahDeBCACQTBqJAALXgEBfyMAQTBrIgIkACACIAE2AgwgAiAANgIIIAJBAjYCFCACQcjmwAA2AhAgAkIBNwIcIAIgAkEIaq1CgICAgCCENwMoIAIgAkEoajYCGCACQRBqEMcFIAJBMGokAAtcAAJAIAFBAE4EQAJAIAFFBEBBASECDAELIAEQcSICRQ0CIAJBBGstAABBA3FFIAFFcg0AIAJBACAB/AsACyAAIAE2AgggACACNgIEIAAgATYCAA8LIAIQ/wcLAAtWAQF+AkAgA0HAAHFFBEAgA0UNASACQQAgA2tBP3GthiABIANBP3GtIgSIhCEBIAIgBIghAgwBCyACIANBP3GtiCEBQgAhAgsgACABNwMAIAAgAjcDCAteAQF/AkAgAEEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAWpPBEAgAkEAIAMgAUEnaksbDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC2cBAn8jAEEgayICJAAgAkEIahDkCEEoEHEiAUUEQAALIAFB0J/BADYCACABIAIpAgg3AgQgASAANgIkIAFBIjYCICABQbzWwQA2AhwgAUEMaiACQRBq/QACAP0LAgAgAkEgaiQAIAELYQEBfyAAQQRqEOoCAkAgAEEEaygCACIBQXhxIgJBKEEsIAFBA3EiARtPBEAgAUEAIAJBzABPGw0BIAAQogIPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAthAQJ/IABBBGoQ6gICQCAAQQRrKAIAIgFBeHEiAkEoQSwgAUEDcSIBG08EQCABQQAgAkHMAE8bDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC2ICAX8CfiMAQRBrIgEkACAAKAIoQQJGBEBBrJjHABDdCQALIAEgADUC4AIgADUC3AJ+IAAtAOgEQQN0KQOInkkQ3QYgASkDCCECIAEpAwAhAyABQRBqJABCfyADIAJCAFIbC18BAX8gAEEEahDqAgJAIABBBGsoAgAiAUF4cUEsQTAgAUEDcSICG08EQCACQQAgAUHQAE8bDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC18BAn8gAEEEahDqAgJAIABBBGsoAgAiAUF4cUEkQSggAUEDcSICG08EQCACQQAgAUHIAE8bDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC18BAX8gAEEEahDqAgJAIABBBGsoAgAiAUF4cUEkQSggAUEDcSICG08EQCACQQAgAUHIAE8bDQEgABCiAg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC2EBAX8gAEEEahDqAgJAIABBBGsoAgAiAUF4cUHMAEHQACABQQNxIgIbTwRAIAJBACABQfAATxsNASAAEKICDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALWwEBfyMAQTBrIgMkACADIAE2AgwgAyAANgIIIANBATYCFCADQaD4xwA2AhAgA0IBNwIcIAMgA0EIaq1CgICAgKABhDcDKCADIANBKGo2AhggA0EQaiACEI0IAAtiAQJ/IwBBIGsiASQAAkAgABC4ASICDQAgAC0AgARFBEAgAUEANgIYIAFBATYCDCABQcSjwQA2AgggAUIENwIQIAFBCGoQkgchAgwBCyAAQbwCahDUASECCyABQSBqJAAgAgtiAQJ/IwBBIGsiASQAAkAgABCsASICDQAgAC0A+ANFBEAgAUEANgIYIAFBATYCDCABQcSjwQA2AgggAUIENwIQIAFBCGoQkgchAgwBCyAAQbwCahCjASECCyABQSBqJAAgAgtcAQF/IwBBEGsiBiQAIAFFBEBBrfnEAEEyEI8KAAsgBkEIaiABIAMgBCAFIAIoAhARMwAgBigCDCEBIAAgBigCCCICNgIEIAAgAUEAIAJBAXEbNgIAIAZBEGokAAtcAQF/IwBBEGsiBiQAIAFFBEBBrfnEAEEyEI8KAAsgBkEIaiABIAMgBCAFIAIoAhARBwAgBigCDCEBIAAgBigCCCICNgIEIAAgAUEAIAJBAXEbNgIAIAZBEGokAAtcAQF/IwBBEGsiBiQAIAFFBEBBrfnEAEEyEI8KAAsgBkEIaiABIAMgBCAFIAIoAhARNAAgBigCDCEBIAAgBigCCCICNgIEIAAgAUEAIAJBAXEbNgIAIAZBEGokAAtcAQF/IwBBEGsiBiQAIAFFBEBBrfnEAEEyEI8KAAsgBkEIaiABIAMgBCAFIAIoAhARNQAgBigCDCEBIAAgBigCCCICNgIEIAAgAUEAIAJBAXEbNgIAIAZBEGokAAtYAQJ/IwBBEGsiAiQAIAEtAABBA0cEf0EABSACQQhqIAEoAgQiASgCACABKAIEKAIkEQEAIAIoAgwhAyACKAIICyEBIAAgAzYCBCAAIAE2AgAgAkEQaiQAC1gBAn8jAEEQayICJAAgAS0AAEEDRwR/QQAFIAJBCGogASgCBCIBKAIAIAEoAgQoAhgRAQAgAigCDCEDIAIoAggLIQEgACADNgIEIAAgATYCACACQRBqJAALXQECfyMAQSBrIgMkACADQQhqEOQIQSQQcSICRQRAAAsgAkG0n8EANgIAIAIgAykCCDcCBCACIAE2AiAgAiAANgIcIAJBDGogA0EQav0AAgD9CwIAIANBIGokACACC1gBAn8jAEEgayIDJAAgABC4CiEEIAMgAjYCBCADIAQ2AgAgAiAERwRAIANBADYCCEEAIAMgA0EEaiADQQhqQeD5xAAQ9QcACyAAIAEgAhDgCSADQSBqJAALWgEBfyMAQRBrIgUkACABRQRAQa35xABBMhCPCgALIAVBCGogASADIAQgAigCEBEGACAFKAIMIQEgACAFKAIIIgI2AgQgACABQQAgAkEBcRs2AgAgBUEQaiQAC10BAn8jAEEgayIDJAAgA0EIahDkCEEkEHEiAkUEQAALIAJBiLXHADYCACACIAMpAgg3AgQgAiABNgIgIAIgADYCHCACQQxqIANBEGr9AAIA/QsCACADQSBqJAAgAgtYAQF/IwBBEGsiBCQAIAFFBEBBrfnEAEEyEI8KAAsgBEEIaiABIAMgAigCEBEFACAEKAIMIQEgACAEKAIIIgI2AgQgACABQQAgAkEBcRs2AgAgBEEQaiQAC1QBAn8CQCAAQ////z4gAJiSIgC8IgJBF3ZB/wFxIgFBlQFLDQBBgICAgHhBgICAfCABQf8Aa3UgAUH/AEkbIgFBf3MgAnFFDQAgASACcb4hAAsgAAtXAQF/IAAoAugEIAAoAvAEIgNrIAJJBEAgAEHoBGogAyACQQFBARCkBSAAKALwBCEDCyACBEAgACgC7AQgA2ogASAC/AoAAAsgACACIANqNgLwBCAAEFwLVwEBfyAAKAKoBSAAKAKwBSIDayACSQRAIABBqAVqIAMgAkEBQQEQpAUgACgCsAUhAwsgAgRAIAAoAqwFIANqIAEgAvwKAAALIAAgAiADajYCsAUgABBeC1cBAX8gACgC6AQgACgC8AQiA2sgAkkEQCAAQegEaiADIAJBAUEBEKQFIAAoAvAEIQMLIAIEQCAAKALsBCADaiABIAL8CgAACyAAIAIgA2o2AvAEIAAQXQtXAQF/IAAoAsgFIAAoAtAFIgNrIAJJBEAgAEHIBWogAyACQQFBARCkBSAAKALQBSEDCyACBEAgACgCzAUgA2ogASAC/AoAAAsgACACIANqNgLQBSAAEF8LWAEBfyAAKAKwAiAAKAK4AiIDayACSQRAIABBsAJqIAMgAkEBQQEQpAUgACgCuAIhAwsgAgRAIAAoArQCIANqIAEgAvwKAAALIAAgAiADajYCuAIgABCsAQtYAQF/IAAoArACIAAoArgCIgNrIAJJBEAgAEGwAmogAyACQQFBARCkBSAAKAK4AiEDCyACBEAgACgCtAIgA2ogASAC/AoAAAsgACACIANqNgK4AiAAELgBC1gBAX8gACgC2AIgACgC4AIiA2sgAkkEQCAAQdgCaiADIAJBAUEBEKQFIAAoAuACIQMLIAIEQCAAKALcAiADaiABIAL8CgAACyAAIAIgA2o2AuACIAAQsQELWAEBfyAAKAL4AiAAKAKAAyIDayACSQRAIABB+AJqIAMgAkEBQQEQpAUgACgCgAMhAwsgAgRAIAAoAvwCIANqIAEgAvwKAAALIAAgAiADajYCgAMgABCfAQtXAQF/IAAoArwBIAAoAsQBIgNrIAJJBEAgAEG8AWogAyACQQFBARCkBSAAKALEASEDCyACBEAgACgCwAEgA2ogASAC/AoAAAsgACACIANqNgLEASAAEEELVwEBfyAAKALEASAAKALMASIDayACSQRAIABBxAFqIAMgAkEBQQEQpAUgACgCzAEhAwsgAgRAIAAoAsgBIANqIAEgAvwKAAALIAAgAiADajYCzAEgABBAC1IBAX8gACgCYCAAKAJoIgNrIAJJBEAgAEHgAGogAyACQQFBARCkBSAAKAJoIQMLIAIEQCAAKAJkIANqIAEgAvwKAAALIAAgAiADajYCaCAAED4LUQEBfyAAKAJAIAAoAkgiA2sgAkkEQCAAQUBrIAMgAkEBQQEQpAUgACgCSCEDCyACBEAgACgCRCADaiABIAL8CgAACyAAIAIgA2o2AkggABA9C1ABA38CQAJAIAAEQCAAQQhrIgEgASgCACICQQFqIgM2AgAgA0UNASAAKAIAQf////8HTw0CIAAoAhggASACNgIAQQBHDwsQjgoLAAsQkAoAC00BAX8jAEEQayICJAAgAiAAKAIAIgA2AgwgASAAQQNqQcDAxAAgAEEBakHQwMQAIABBAmpB4MDEACACQQxqQfDAxAAQ7gUgAkEQaiQAC00BAX8jAEEQayICJAAgAiAAKAIAIgA2AgwgASAAQQNqQcioxwAgAEEBakHYqMcAIABBAmpB6KjHACACQQxqQfioxwAQ7gUgAkEQaiQAC08BAX8gACgCQCAAKAJIIgNrIAJJBEAgAEFAayADIAJBAUEBEKQFIAAoAkghAwsgAgRAIAAoAkQgA2ogASAC/AoAAAsgACACIANqNgJIQQALVQEBfyAAKALEASAAKALMASIDayACSQRAIABBxAFqIAMgAkEBQQEQpAUgACgCzAEhAwsgAgRAIAAoAsgBIANqIAEgAvwKAAALIAAgAiADajYCzAFBAAtVAQF/IAAoArwBIAAoAsQBIgNrIAJJBEAgAEG8AWogAyACQQFBARCkBSAAKALEASEDCyACBEAgACgCwAEgA2ogASAC/AoAAAsgACACIANqNgLEAUEAC1ABAX8gACgCYCAAKAJoIgNrIAJJBEAgAEHgAGogAyACQQFBARCkBSAAKAJoIQMLIAIEQCAAKAJkIANqIAEgAvwKAAALIAAgAiADajYCaEEAC1YBAn8jAEEgayICJAAgAkEIahDkCEEkEHEiAUUEQAALIAFBqJ7BADYCACABIAIpAgg3AgQgASAANwIcIAFBDGogAkEQav0AAgD9CwIAIAJBIGokACABC1YBAn8jAEEgayICJAAgAkEIahDkCEEgEHEiAUUEQAALIAFB4J7BADYCACABIAIpAgg3AgQgASAANgIcIAFBDGogAkEQav0AAgD9CwIAIAJBIGokACABC1YBAn8jAEEgayICJAAgAkEIahDkCEEkEHEiAUUEQAALIAFBxJ7BADYCACABIAIpAgg3AgQgASAANwIcIAFBDGogAkEQav0AAgD9CwIAIAJBIGokACABC00AIwBBEGsiACQAIAEgAmwiAQR/IAFBwf///wdPBEBB2ObIAEErIABBD2pBtIPJAEHUg8kAEOAGAAtBwAAgARDBBAVBAAsgAEEQaiQAC1YBAn8jAEEgayICJAAgAkEIahDkCEEgEHEiAUUEQAALIAFBtLTHADYCACABIAIpAgg3AgQgASAAOgAcIAFBDGogAkEQav0AAgD9CwIAIAJBIGokACABC1YBAn8jAEEgayICJAAgAkEIahDkCEEkEHEiAUUEQAALIAFB7LTHADYCACABIAIpAgg3AgQgASAANwIcIAFBDGogAkEQav0AAgD9CwIAIAJBIGokACABC1cBAn8jAEEgayIBJAACQCAAEJ8BIgINAEEAIQIgAC0AnAMNACABQQA2AhggAUEBNgIMIAFBxKPBADYCCCABQgQ3AhAgAUEIahCSByECCyABQSBqJAAgAgtXAQJ/IwBBIGsiASQAAkAgABCxASICDQBBACECIAAtAPwCDQAgAUEANgIYIAFBATYCDCABQcSjwQA2AgggAUIENwIQIAFBCGoQkgchAgsgAUEgaiQAIAILTQEDfwJAAkAgAARAIABBCGsiASABKAIAIgJBAWoiAzYCACADRQ0BIAAoAgBB/////wdPDQIgACgCDCABIAI2AgAPCxCOCgsACxCQCgALSAEBfyMAQRBrIgIkACACIAA2AgwgASAAQQNqQcioxwAgAEEBakHYqMcAIABBAmpB6KjHACACQQxqQfioxwAQ7gUgAkEQaiQAC0wBAX8gACgCACAAKAIIIgNrIAJJBEAgACADIAJBAUEBEKQFIAAoAgghAwsgAgRAIAAoAgQgA2ogASAC/AoAAAsgACACIANqNgIIQQALYwECfgJ/IAEpAgAiAkLa/Zb/6ejo+sEAhSABKQIIIgNC1vuGkcjA4r/+AIWEUEUEQEEAIAJC7bqtts2F1PXjAIUgA0L4gpm9le7Gxbl/hYRCAFINARogAEEcag8LIABBJGoLC2ABAn4CfyABKQIAIgJC96nT7vKhs5V7hSABKQIIIgNClrmj2vbEh9QnhYRQRQRAQQAgAkL117zJyMzWszqFIANC/tvLm/Plucb1AIWEQgBSDQEaIABBHGoPCyAAQShqCwtAAAJAIAFpQQFHIABBgICAgHggAWtLcg0AIAAEQAJ/IAFBCU8EQCABIAAQwQQMAQsgABBxCyIBRQ0BCyABDwsAC0MBA38CQCACRQ0AA0AgAC0AACIEIAEtAAAiBUYEQCAAQQFqIQAgAUEBaiEBIAJBAWsiAg0BDAILCyAEIAVrIQMLIAMLpzsEIX8DfgJ7B30jAEEQayImJAAjAEHgAGsiGiQAIBogATgCCCAaIAQ2AhAgGiAANgIMAn8CfwJAAkACQAJAIARBBHQgCEYEQCAEIApHDQEgBCAMRw0CIAQgDkcNAyAEIBBHDQQgBCASRgRAIBogBjYCVCAaIAU2AlAgGiAENgJIIBogETYCRCAaIAQ2AkAgGiAPNgI8IBogBDYCOCAaIA02AjQgGiAENgIwIBogCzYCLCAaIAQ2AiggGiAJNgIkIBogCDYCICAaIAc2AhwgGiAENgIYIBogAzYCFCAaIBpBEGo2AlwgGiAaQQhqNgJYIBogGkEMajYCTCAaQRRqIQAjAEFAaiIWJABBsLXJACgCAEUEQBBWCwJAAkACQAJAAkACQEG4tckAKAIARQRAIAAoAkghMiAAKAJEISsgACgCQCEsIAAoAjwhGCAAKAI4ITMgACgCNCEtIAAoAjAhJCAAKAIsIS4gACgCKCEcIAAoAiQhLyAAKAIgIR0gACgCHCEwIAAoAhghGyAAKAIUITEgACgCECEXIAAoAgwhKiAAKAIIISEgACgCBCEgIAAoAgAhGUG4tckAQX82AgACQCAgQZqz5gxJBEACQCAgQdAAbCInRQRAQRAhIwwBCyAgIShBECAnEMEEIiNFDQILAkAgIARAA0ACQAJAQcy1yQAoAgBFDQBBACElQcS1yQAoAgAiHkHYtckAKQMAIjQgGSATQQJ0IilqKAIAIiKthSI1QjiGIDVCgP4Dg0IohoQgNUKAgPwHg0IYhiA1QoCAgPgPg0IIhoSEIDRCCIhCgICA+A+DIDRCGIhCgID8B4OEIDRCKIhCgP4DgyA0QjiIhISEQtKBqpur+oLXp39+IjRCOIYgNEKA/gODQiiGhCA0QoCA/AeDQhiGIDRCgICA+A+DQgiGhIQgNEIIiEKAgID4D4MgNEIYiEKAgPwHg4QgNEIoiEKA/gODIDRCOIiEhIQgNULYotHvwqnlvy1+hSI2QjiGIDZCgP4Dg0IohoQgNkKAgPwHg0IYhiA2QoCAgPgPg0IIhoSEIDZCCIhCgICA+A+DIDZCGIhCgID8B4OEIDZCKIhCgP4DgyA2QjiIhISEQdC1yQApAwAiNEJ/hX4iNUI4hiA1QoD+A4NCKIaEIDVCgID8B4NCGIYgNUKAgID4D4NCCIaEhCA1QgiIQoCAgPgPgyA1QhiIQoCA/AeDhCA1QiiIQoD+A4MgNUI4iISEhCA2IDRCOIYgNEKA/gODQiiGhCA0QoCA/AeDQhiGIDRCgICA+A+DQgiGhIQgNEIIiEKAgID4D4MgNEIYiEKAgPwHg4QgNEIoiEKA/gODIDRCOIiEhIR+hSA2iSI1p3EhFSA1QhmIQv8Ag0KBgoSIkKDAgAF+ITRBwLXJACgCACIfQSBrIQADQCAVIB9qKQAAIjYgNIUiNUJ/hSA1QoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIjVQRQRAA0AgIiAAIDV6p0EDdiAVaiAecSIUQQV0aygCAEYNBCA1QgF9IDWDIjVQRQ0ACwsgNiA2QgGGg0KAgYKEiJCgwIB/g1BFDQEgFSAlQQhqIiVqIB5xIRUMAAsAC0HU+sAAEN0JAAsgE0EEdCIlQQhyIR4CQAJAAkACQAJAAkACQCAqICVBC3IiAE8EQCAlQQxyIRUgJUEPciIAICpLDQEgEyAxRg0CIBMgMEYNAyATIC9GDQQgEyAuRg0FICEgHkECdGoiACoCCCE8IAD9XQIAITggISAVQQJ0aiIAKgIIIT0gAP1dAgAhNyAXIClqKgIAIT8gGyApaioCACE6IB0gKWoqAgAhAUMAAIA/ITkgHCApaioCACI7QwAAAABeDQYMBwsgHiAAICpB1PvAABDqBwALIBUgACAqQcT7wAAQ6gcACyAxIDFB5PrAABCMBwALIDAgMEH0+sAAEIwHAAsgLyAvQYT7wAAQjAcACyAuIC5BlPvAABCMBwALQwAANEMgOyA7QwAANENeG0MAAAA/lEM1+o48lBCbAiE5CwJAAkAgEyAtRwRAIB9BACAUa0EFdGohFUMAAIA/IT4gJCApaioCACI7QwAAAABeDQEMAgsgLSAtQaT7wAAQjAcAC0MAADRDIDsgO0MAADRDXhtDAAAAP5RDNfqOPJQQmwIhPgsgFUEEaygCACIUKAIIIgBB/////wdPDQIgFCAAQQFqNgIIICMgE0HQAGxqIgAgPiA5EN8IOAJEIAAgOTgCQCAAIAE4AjwgACA6OAI4IAAgPzgCNCAAICI2AjAgACAVQRBrNgIsIAAgFUEcazYCKCAAIBRBCGo2AiQgACAUQQxqNgIgIAAgNyA9/SACID39IAP9CwQAIAAgOCA8/SACIjf94QEgN/0NAAECAwQFBgcICQoLCAkKCyA3IDz9IAMiNyA3/eYBIjcgN/0NCAkKCwABAgMAAQIDAAECAyA3IDcgN/0NBAUGBwABAgMAAQIDAAECA/3kAf3kAf3jASA3/Q0AAQIDAAECAwABAgMAAQID/ecB/QsEECATQQFqIhMgIEcNAAsLQbi2yQBBADYCAEGstskAQQA2AgAgMygCACIAQbC2yQAoAgBLBEBBsLbJAEEAIABBBEEIEKQFC0HEtskAQQA2AgBB/LXJACgCAARAQfi1yQBB9LXJACgCACIUBH8gFEEJaiIABEBB8LXJACgCAEH/ASAA/AsACyAUIBRBAWpBA3ZBB2wgFEEISRsFQQALNgIAQfy1yQBBADYCAAtBACEZQQAhGyAgBEAgIyAnaiEdICNB0ABqIRcgIEEBa0H/////AHFBAWohGyAjIQBBACETA0AgEyAsRg0HIBgoAgAiFEEQdEEAIBRBf0cbIhwgACgCICIVKAIIIhRPDQYgFSgCBCAcQQR0aiAAEJwCIQEgFiAcNgIwIBYgATgCKCAWIBM2AiwgFkEoahCTBCAAKAIwQQAQkgJFBEAgACgCMCEUQcS2yQAoAgAiFUG8tskAKAIARgRAQby2yQBBxPrAABD5BQtBwLbJACgCACAVQQN0aiIAQQA2AgQgACAUNgIAQcS2yQAgFUEBajYCAAsgGEEEaiEYQdAAQQAgFyIAIB1HGyAAaiEXIBsgE0EBaiITRw0ACwsCQEGstskAKAIAIhVFBEBDAACAfyE5QQAhJwwBC0MAAIB/ITlBACEnA0ACQCArKgIAITogOUGotskAKAIAIgAqAgAiARDfCCE5IAEgOl8NAANAAkACQAJAAkAgICAAKAIEIh5LBEAgACgCCCIkICMgHkHQAGxqIh8oAiAiFCgCCCIATw0BIBQoAgQgJEEEdGoiAC8BDCIYRQRAIBZBKGoQsgJBuLbJACgCACIUQbC2yQAoAgBGBEBBsLbJAEHE9sAAEPkFC0G0tskAKAIAIBRBA3RqIgAgJDYCBCAAIB42AgBBuLbJACAUQQFqNgIAICdBAWohJwwECyAYIBtqQQFrIhQgMygCAEsNBiAAKAIAIQAgFkEoahCyAiAfKAIwIABBEHYiHBCSAkUEQCAfKAIwIRlBxLbJACgCACIXQby2yQAoAgBGBEBBvLbJAEHU9sAAEPkFC0HAtskAKAIAIBdBA3RqIhMgHDYCBCATIBk2AgBBxLbJACAXQQFqNgIACyAAIBhqIhdBAWtBEHYiHSAcRg0CIB8oAjAgHRCSAg0CIB8oAjAhGUHEtskAKAIAIhVBvLbJACgCAEYEQEG8tskAQeT2wAAQ+QULQcC2yQAoAgAgFUEDdGoiEyAdNgIEIBMgGTYCAEHEtskAIBVBAWo2AgAMAgsgHiAgQaT2wAAQjAcACyAkIABBtPbAABCMBwALAkACQAJAIB8oAiwiEygCCCIZIB1LBEAgGSAcTQRAIBwgGUH09sAAEIwHAAsgEygCBCITIBxBAnRqKAIAQX9GDQMgEyAdQQJ0aigCAEF/Rg0DIAAgF08NBQNAIABBEHYiFyAfKAIsIhkoAggiE08NAiAAQf//A3EgGSgCBCAXQQJ0aigCAEEQdHIiFyAfKAIgIhkoAggiE08NAwJAIBkoAgQgF0EEdGogHxCcAiIBICsqAgBfRQRAIBYgFzYCMCAWIB42AiwgFiABOAIoIBZBKGoQkwQMAQtBuLbJACgCACIZQbC2yQAoAgBGBEBBsLbJAEG098AAEPkFC0G0tskAKAIAIBlBA3RqIhMgFzYCBCATIB42AgBBuLbJACAZQQFqNgIACyAAQQFqIQAgGEEBayIYDQALDAULQbi2yQAoAgAiFEGwtskAKAIARgRAQbC2yQBBxPfAABD5BQtBtLbJACgCACAUQQN0aiIAICQ2AgQgACAeNgIAQbi2yQAgFEEBajYCAAwDCyAXIBNBlPfAABCMBwALIBcgE0Gk98AAEIwHAAtBuLbJACgCACIUQbC2yQAoAgBGBEBBsLbJAEGE98AAEPkFC0G0tskAKAIAIBRBA3RqIgAgJDYCBCAAIB42AgBBuLbJACAUQQFqNgIAC0EAIRlBrLbJACgCACIVDQMMBAtBACEZQay2yQAoAgAiFUUNAyArKgIAITogOUGotskAKAIAIgAqAgAiARDfCCE5IBQhGyABIDpfRQ0ACwsLIBUhGQtBACEbQay2yQBBADYCAEG4tskAKAIAIiQhEyAZBEAgGUEMbCEYQai2yQAoAgBBCGohACAkQQN0IRUDQCAAQQRrKAIAIR0gACgCACEXQbC2yQAoAgAgE0YEQEGwtskAQZT6wAAQ+QULQbS2yQAoAgAgFWoiFCAdNgIAIBRBBGogFzYCAEG4tskAIBNBAWoiEzYCACAAQQxqIQAgFUEIaiEVIBhBDGsiGA0ACwsgFkEANgIQIBZCgICAgMAANwIIQQQhGCAyKAIAIhcEQCAWQQhqQQAgF0EEQQQQpAUgFigCDCIYIBYoAhAiE0ECdGohFCAXQQFHBH8gF0ECdEEEayIABEAgFEEAIAD8CwALIBMgF2oiAEEBayETIBggAEECdGpBBGsFIBQLQQA2AgAgE0EBaiEbQbi2yQAoAgAhEwsgFiAbNgIQAkACQAJAAkACQAJAIBMEQCATQQN0IRNBtLbJACgCACEAA0AgACgCACIUIBtPDQIgGCAUQQJ0aiIUIBQoAgBBAWo2AgAgAEEIaiEAIBNBCGsiEw0ACwsgMigCACIAQavVqtUATw0BQQAhFwJAIABBDGwiFEUEQEEEIRVBACEADAELIBQQcSIVRQ0JCyAWQQA2AhwgFiAVNgIYIBYgADYCFCAWKAIIIRwgGwRAIBtBAnQhG0EIIR8gGCEAA0AgACgCACITQf////8DSw0EIBNBAnQiFEH9////B08NBAJAIBRFBEBBBCEdQQAhEwwBCyAUEHEiHUUNCwsgAEEEaiEAIBYoAhQgF0YEQCMAQSBrIiEkAAJAIBZBFGoiIigCACIeQdWq1SpLBH9BAAVBBCAeQQF0IhQgFEEETRsiFUEMbCEUICEgHgR/ICEgHkEMbDYCHCAhICIoAgQ2AhRBBAVBAAs2AhggIUEIakEEIBQgIUEUahCFByAhKAIIQQFHDQEgISgCECEiICEoAgwLICJB9PnAABCTCQALICEoAgwhFCAiIBU2AgAgIiAUNgIEICFBIGokACAWKAIYIRULIBUgH2oiFEEANgIAIBRBBGsgHTYCACAUQQhrIBM2AgAgFiAXQQFqIhc2AhwgH0EMaiEfIBtBBGsiGw0ACwsgHARAIBhBBGsoAgAiAEF4cSITIBxBAnQiFEEEQQggAEEDcSIAG2pJDQ4gAEEAIBMgFEEnaksbDQ8gGBCiAgsgFigCGCEUAkBBuLbJACgCACIABEAgAEEDdCEYQbS2yQAoAgAhEwNAIBMoAgAiGyAXTw0CIBNBBGooAgAhACAUIBtBDGxqIhUoAggiGyAVKAIARgRAIBVB1PnAABD6BQsgFSgCBCAbQQJ0aiAANgIAIBUgG0EBajYCCCATQQhqIRMgGEEIayIYDQALCxDBCSEiIBdFDQ0gFCAXQQxsaiEYICNBMGohGyAUQQxqIQBBfyElIBQhEwNAIBMoAghB//8AakGAgP//A3EQtgkiHkEAIBMoAggQ4QghHyATKAIEIRUgEygCCCEcIB8QuAohHSAWIBw2AiQgFiAdNgIgIBwgHUcNBSAfIBUgHBDgCSAfQYQITwRAIB8QmwcLEL8JIRwCQCAlQQFqIiUgIEcEQCAbKAIAIRUgHEGw8sAAQQUQ7AgiHSAVuBC3CSIVEMAJQbS7yQAtAABFDQFBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgFiAANgIoQdjmyABBKyAWQShqQdjowABBtPnAABDgBgALICAgIEGE+cAAEIwHAAtBuLvJAEEANgIAQbS7yQBBADoAACAVQYQITwRAIBUQmwcLIB1BhAhPBEAgHRCbBwsgHEG56MAAQQkQ7AgiFSATKAIIuBC3CSITEMAJQbS7yQAtAAANBkG4u8kAQQA2AgBBtLvJAEEAOgAAIBNBhAhPBEAgExCbBwsgFUGECE8EQCAVEJsHCyAcQaj0wABBBxDsCCITIB4QwAlBtLvJAC0AAA0HQbi7yQBBADYCAEG0u8kAQQA6AAAgHkGECE8EQCAeEJsHCyATQYQITwRAIBMQmwcLICIgHBDiCSAcQYQITwRAIBwQmwcLIAAiEyAYRiIADQ4gG0HQAGohGyATQQBBDCAAG2ohACATDQALDA0LIBsgF0HE+cAAEIwHAAsgFCAbQYT6wAAQjAcAC0HU98AAEP8HAAtB5PnAABD/BwALIBZBADYCKEEAIBZBIGogFkEkaiAWQShqQeD5xAAQ9QcAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACAWIAA2AihB2ObIAEErIBZBKGpB2OjAAEGk+cAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgFiAANgIoQdjmyABBKyAWQShqQdjowABBlPnAABDgBgALQbT7wAAQsQoAC0Hg/8YAEP8HCwALQayKwQAQsAoACyAcIBRBtPrAABCMBwALICwgLEGk+sAAEIwHAAsQwQkhHUHEtskAKAIAIgAEQCAAQQN0IRhBwLbJACgCACETA0AgE0EEaigCACEbIBMoAgAhABDBCSIVIAC4ELcJIgAQ4gkgAEGECE8EQCAAEJsHCyAVIBu4ELcJIgAQ4gkgAEGECE8EQCAAEJsHCyAdIBUQ4gkgFUGECE8EQCAVEJsHCyATQQhqIRMgGEEIayIYDQALCxC/CSIYQeT3wABBChDsCCITIDm7ELcJIgAQwAkCQAJAAkACQAJAAkBBtLvJAC0AAEUEQEG4u8kAQQA2AgBBtLvJAEEAOgAAIABBhAhPBEAgABCbBwsgE0GECE8EQCATEJsHCyAYQe73wABBDxDsCCIAICIQwAlBtLvJAC0AAA0BQbi7yQBBADYCAEG0u8kAQQA6AAAgIkGECE8EQCAiEJsHCyAAQYQITwRAIAAQmwcLIBhB/ffAAEEGEOwIIgAgHRDACUG0u8kALQAADQJBuLvJAEEANgIAQbS7yQBBADoAACAdQYQITwRAIB0QmwcLIABBhAhPBEAgABCbBwsgGEGD+MAAQQoQ7AgiEyAkuBC3CSIAEMAJQbS7yQAtAAANA0G4u8kAQQA2AgBBtLvJAEEAOgAAIABBhAhPBEAgABCbBwsgE0GECE8EQCATEJsHCyAYQY34wABBDBDsCCITIBm4ELcJIgAQwAlBtLvJAC0AAA0EQbi7yQBBADYCAEG0u8kAQQA6AAAgAEGECE8EQCAAEJsHCyATQYQITwRAIBMQmwcLIBhBmfjAAEEJEOwIIhMgJ7cQtwkiABDACUG0u8kALQAADQVBuLvJAEEANgIAQbS7yQBBADoAACAAQYQITwRAIAAQmwcLIBNBhAhPBEAgExCbBwsgFwRAIBQhAANAIAAoAgAiGQRAIABBBGooAgAiFUEEaygCACITQXhxIhsgGUECdCIZQQRBCCATQQNxIhMbakkNCiATQQAgGyAZQSdqSxsNCyAVEKICCyAAQQxqIQAgF0EBayIXDQALCyAWKAIUIhMEQCAUQQRrKAIAIgBBeHEiGSATQQxsIhNBBEEIIABBA3EiABtqSQ0IIABBACAZIBNBJ2pLGw0JIBQQogILAkAgIEUNACAgQQNxIRNBACEVICBBBE8EQCAjQZQCaiEAICBB/P//D3EhGQNAIABB8AFrKAIAIhQgFCgCAEEBazYCACAAQaABaygCACIUIBQoAgBBAWs2AgAgAEHQAGsoAgAiFCAUKAIAQQFrNgIAIAAoAgAiFCAUKAIAQQFrNgIAIABBwAJqIQAgGSAVQQRqIhVHDQALCyATRQ0AIBVB0ABsICNqQSRqIQADQCAAKAIAIhQgFCgCAEEBazYCACAAQdAAaiEAIBNBAWsiEw0ACwsgKARAICNBBGsoAgAiAEF4cSITIChB0ABsIhRBBEEIIABBA3EiABtySQ0IIABBACATIBRBJ2pLGw0HICMQogILQbi1yQBBuLXJACgCAEEBajYCACAaIBg2AgQgGkEANgIAIBZBQGskAAwJC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACAWIAA2AihB2ObIAEErIBZBKGpB2OjAAEH0+MAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgFiAANgIoQdjmyABBKyAWQShqQdjowABB5PjAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIBYgADYCKEHY5sgAQSsgFkEoakHY6MAAQdT4wAAQ4AYAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACAWIAA2AihB2ObIAEErIBZBKGpB2OjAAEHE+MAAEOAGAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgFiAANgIoQdjmyABBKyAWQShqQdjowABBtPjAABDgBgALQbS7yQBBADoAAEG4u8kAKAIAIQBBuLvJAEEANgIAIBYgADYCKEHY5sgAQSsgFkEoakHY6MAAQaT4wAAQ4AYACwwBC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgGigCBCEAIBooAgAMBwtBgPXAAEEYEOwIDAULQYT2wABBHhDsCAwEC0Hr9cAAQRkQ7AgMAwtBzfXAAEEeEOwIDAILQbH1wABBHBDsCAwBC0GY9cAAQRkQ7AgLIQBBAQshGQJAAkACQCASBEAgEUEEaygCACIoQXhxIhMgEkECdCIUQQRBCCAoQQNxIhIbakkNASASQQAgEyAUQSdqSxsNAiAREKICCyAQBEAgD0EEaygCACIUQXhxIhIgEEECdCIRQQRBCCAUQQNxIhAbakkNASAQQQAgEiARQSdqSxsNAiAPEKICCyAOBEAgDUEEaygCACIRQXhxIhAgDkECdCIPQQRBCCARQQNxIg4bakkNASAOQQAgECAPQSdqSxsNAiANEKICCyAMBEAgC0EEaygCACIPQXhxIg4gDEECdCINQQRBCCAPQQNxIgwbakkNASAMQQAgDiANQSdqSxsNAiALEKICCyAKBEAgCUEEaygCACINQXhxIgwgCkECdCILQQRBCCANQQNxIgobakkNASAKQQAgDCALQSdqSxsNAiAJEKICCyAIBEAgB0EEaygCACILQXhxIgogCEECdCIJQQRBCCALQQNxIggbakkNASAIQQAgCiAJQSdqSxsNAiAHEKICCyAGBEAgBUEEaygCACIJQXhxIgggBkECdCIHQQRBCCAJQQNxIgYbakkNASAGQQAgCCAHQSdqSxsNAiAFEKICCyAEBEAgA0EEaygCACIHQXhxIgYgBEECdCIFQQRBCCAHQQNxIgQbakkNASAEQQAgBiAFQSdqSxsNAiADEKICCyAmIBlBAXEiAzYCCCAmIABBACADGzYCBCAmQQAgACADGzYCACAaQeAAaiQADAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAmKAIAICYoAgQgJigCCCAmQRBqJAALTQEBfwJ/AkAgAigCBEUNACACKAIIIgNFDQAgAigCACADQQEgARC7AgwBCyABEHELIQIgACABNgIIIAAgAkEBIAIbNgIEIAAgAkU2AgALSwIBfwJ+IwBBEGsiASQAIAEgADUCiAEgADUChAF+QgRCAyAALQCTARsQ3QYgASkDCCECIAEpAwAhAyABQRBqJABCfyADIAJCAFIbC08AAkACQCACKAIQQQFGBEAgASgChAEgAigCFEsNAQsgAigCGEEBRw0BIAEoAogBIAIoAhxNDQELIABCAjcDCCAAQQM2AgAPCyAAQQY2AgALUAEBfyMAQRBrIgIkACACQQhqIAEgASgCACgCBBEBACACIAIoAgggAigCDCgCGBEBACACKAIEIQEgACACKAIANgIAIAAgATYCBCACQRBqJAALSAEBfyAAKAIAIAAoAggiA2sgAkkEQCAAIAMgAhD3BSAAKAIIIQMLIAIEQCAAKAIEIANqIAEgAvwKAAALIAAgAiADajYCCEEAC0gBAX8gACgCACAAKAIIIgNrIAJJBEAgACADIAIQ+AUgACgCCCEDCyACBEAgACgCBCADaiABIAL8CgAACyAAIAIgA2o2AghBAAtIAQF/IAAoAgAgACgCCCIDayACSQRAIAAgAyACEO8FIAAoAgghAwsgAgRAIAAoAgQgA2ogASAC/AoAAAsgACACIANqNgIIQQALRQEBfwJAIAFBAE4EfyABRQRAQQEhAkEAIQEMAgsgARBxIgINAUEBBSACCyABQcDowQAQkwkACyAAIAI2AgQgACABNgIAC08BAn8gACgCBCECIAAoAgAhAwJAIAAoAggiAC0AAEUNACADQbyLwwBBBCACKAIMEQAARQ0AQQEPCyAAIAFBCkY6AAAgAyABIAIoAhARAgALSgECfyAAIAAoAgQiAyACazYCBCAAIAAoAgAgAiADS3IiBDYCAEEBIQMgBAR/IAMFIAAoAggiACgCACABIAIgACgCBCgCDBEAAAsLSAEBfwJAIAFB4QBrIgFB/wFxQRlLBEBBACEBDAELIAFBAnRB/AdxIgIoAtSQSSEBIAIoAuyPSSECCyAAIAI2AgQgACABNgIAC0kCAn8BfSABKAIIIgNBgICAAXEhAiAAKgIAIQQgA0GAgICAAXFFBEAgASAEIAJBAEdBABD3Ag8LIAEgBCACQQBHIAEvAQ4QvQILRwECfyAALQANIgJBgAFNBEAgASgCACAAIAAtAAwiA2ogAiADayABKAIEKAIMEQAADwsgASgCACAAKAIAIAEoAgQoAhARAgALyQIAAkAgACACTQRAIAAgAU0gASACS3INASMAQTBrIgIkACACIAE2AgQgAiAANgIAIAJBAjYCDCACQfydwgA2AgggAkICNwIUIAIgAkEEaq1CgICAgBCENwMoIAIgAq1CgICAgBCENwMgIAIgAkEgajYCECACQQhqIAMQjQgACyMAQTBrIgEkACABIAI2AgQgASAANgIAIAFBAjYCDCABQaidwgA2AgggAUICNwIUIAEgAUEEaq1CgICAgBCENwMoIAEgAa1CgICAgBCENwMgIAEgAUEgajYCECABQQhqIAMQjQgACyMAQTBrIgAkACAAIAI2AgQgACABNgIAIABBAjYCDCAAQcidwgA2AgggAEICNwIUIAAgAEEEaq1CgICAgBCENwMoIAAgAK1CgICAgBCENwMgIAAgAEEgajYCECAAQQhqIAMQjQgAC0IBAX8jAEEgayIDJAAgA0EANgIQIANBATYCBCADQgQ3AgggAyABNgIcIAMgADYCGCADIANBGGo2AgAgAyACEI0IAAuJDQMHfwV+AXwgASgCCCIDQYCAgAFxIQIgACsDACEOIANBgICAgAFxRQRAIAJBAEchA0EAIQIjAEGAAWsiACQAIA69IQkCf0EDIA6ZRAAAAAAAAPB/YQ0AGkECIAlCgICAgICAgPj/AIMiCkKAgICAgICA+P8AUQ0AGiAJQv////////8HgyINQoCAgICAgIAIhCAJQgGGQv7///////8PgyAJQjSIp0H/D3EiAhsiC0IBgyEMIApQBEBBBCANUA0BGiACQbMIayECQgEhCiAMUAwBC0KAgICAgICAICALQgGGIAtCgICAgICAgAhRIgUbIQtCAkIBIAUbIQpBy3dBzHcgBRsgAmohAiAMUAshBSAAIAI7AXggACAKNwNwIABCATcDaCAAIAs3A2AgACAFOgB6An8CQAJAAkACQCAFQf8BcSICQQFNBEBB6rPFAEEBIAlCAFMiAhshBUHqs8UAQciBwgAgAhshAiAJQj+IpyEGIABBIGogAEHgAGogAEEPahDPASAAKAIgRQ0BIABB2ABqIABBKGooAgA2AgAgACAAKQIgNwNQDAILIAJBAkYNAiAAQQI7ASBBASECQeqzxQBByIHCACAJQgBTIgQbQeqzxQBBASAEGyADGyEEIAlCP4inIANyIQMgBUH/AXFBBEYNAyAAQQM2AiggAEHsncYANgIkIABBIGoMBAsgAEHQAGogAEHgAGogAEEPahBXCyACIAUgAxshBCADIAZyIQMgACAAKAJQIAAoAlQgAC8BWEEAIABBIGoQ7AQgACgCBCECIAAoAgAMAgsgAEEDNgIoIABB853GADYCJCAAQQI7ASBBASEEQQAhA0EBIQIgAEEgagwBCyAAQQE2AiggAEGYsMUANgIkIABBIGoLIQUgACACNgJcIAAgBTYCWCAAIAM2AlQgACAENgJQIAEgAEHQAGoQvgMgAEGAAWokAA8LIAJBAEchBSABLwEOIQBBACEDIwBB8AhrIgIkACAOvSEJAn9BAyAOmUQAAAAAAADwf2ENABpBAiAJQoCAgICAgID4/wCDIgtCgICAgICAgPj/AFENABogCUL/////////B4MiDUKAgICAgICACIQgCUIBhkL+////////D4MgCUI0iKdB/w9xIgMbIgpCAYMhDCALUARAQQQgDVANARogA0GzCGshA0IBIQsgDFAMAQtCgICAgICAgCAgCkIBhiAKQoCAgICAgIAIUSIEGyEKQgJCASAEGyELQct3Qcx3IAQbIANqIQMgDFALIQQgAiADOwHoCCACIAs3A+AIIAJCATcD2AggAiAKNwPQCCACIAQ6AOoIAn8CQCAEQf8BcSIGQQFNBEBBdEEFIAPBIgRBAEgbIARsIgRBwP0ASQ0BQcOEwgBBJUHohMIAEOsHAAsCQAJAIAZBAkcEQEEBIQNB6rPFAEHIgcIAIAlCAFMiBhtB6rPFAEEBIAYbIAUbIQYgCUI/iKcgBXIhBSAEQf8BcUEERw0BQQIhAyACQQI7AZAIIAANAkEBIQMgAkEBNgKYCCACQZiwxQA2ApQIIAJBkAhqDAQLIAJBAzYCmAggAkHzncYANgKUCCACQQI7AZAIQQEhBkEAIQVBASEDIAJBkAhqDAMLIAJBAzYCmAggAkHsncYANgKUCCACQQI7AZAIIAJBkAhqDAILIAIgADYCoAggAkEAOwGcCCACQQI2ApgIIAJBuYPCADYClAggAkGQCGoMAQtB6rPFAEEBIAlCAFMiBhshB0Hqs8UAQciBwgAgBhsgCUI/iKchCCACQZAIaiAKIAMgAkEQaiAEQQR2QRVqIgRBgIB+QQAgAGsgAMFBAEgbIgMQ6QIgA8EhAwJAIAIoApAIBEAgAkHICGogAkGYCGooAgA2AgAgAiACKQKQCDcDwAgMAQsgAkHACGogAkHQCGogAkEQaiAEIAMQZQsgByAFGyEGIAUgCHIhBSADIAIuAcgIIgRIBEAgAkEIaiACKALACCACKALECCAEIAAgAkGQCGoQ7AQgAigCDCEDIAIoAggMAQtBAiEDIAJBAjsBkAggAEUEQEEBIQMgAkEBNgKYCCACQZiwxQA2ApQIIAJBkAhqDAELIAIgADYCoAggAkEAOwGcCCACQQI2ApgIIAJBuYPCADYClAggAkGQCGoLIQAgAiADNgLMCCACIAA2AsgIIAIgBTYCxAggAiAGNgLACCABIAJBwAhqEL4DIAJB8AhqJAALQwEBfyMAQRBrIgIkACACQQhqIAEoAggiASABKAIAKAIEEQEAIAIoAgwhASAAIAIoAgg2AgAgACABNgIEIAJBEGokAAtBAAJAIAAoAiQiACgCBEEDRwRAIABBBGohAAwBCyAAIAAoAgAoAhgRBAAiAA0AQYjxwQBBGEGg8cEAEKsHAAsgAAuhAQEDfyAAKAIAIQAgASgCCCIDQYCAgBBxRQRAIANBgICAIHFFBEAgACABELMGDwsgACABENkGDwsgAC0AACEAIwBBEGsiBCQAQQMhAgNAIAIgBGpBDGogAEEPcUHctsUAai0AADoAACAAIgNBBHYhACACQQFrIQIgA0EPSw0ACyABQQFBhLTFAEECIAIgBGpBDWpBAyACaxDIAyAEQRBqJAALMgECfyABQf8BcSEDQQAhAQNAIAAQtAogAkEBdHIhAiABQQFqIgFB/wFxIANJDQALIAILOAEBfyMAQRBrIgIkACACQQhqIAAgACgCACgCBBEBACACKAIIIAEgAigCDCgCEBECACACQRBqJAAL7g8CA34VfyMAQRBrIhMkACMBQQFrIhYkASAWIAgmASAAIRogAiEbQbC1yQAoAgBFBEAQVgsCQAJAAkBBuLXJACgCAEUEQEG4tckAQX82AgAgFiUBEB4hHgJAIAcgBSADIAEgASADSxsiACAAIAVLGyIAIAAgB0sbIh9FDQADQCAXIgAgHkYNASAWJQEgABAfIQgQ2gQiGCAIJgECQAJAQcy1yQAoAgBFDQAgAEEBaiEXIAYgAEECdCIAaigCACERIAAgBGooAgAhDyAAIBtqKAIAIRxBACEMQcS1yQAoAgAiAkHYtckAKQMAIgkgACAaaigCACIdrYUiCkI4hiAKQoD+A4NCKIaEIApCgID8B4NCGIYgCkKAgID4D4NCCIaEhCAJQgiIQoCAgPgPgyAJQhiIQoCA/AeDhCAJQiiIQoD+A4MgCUI4iISEhELSgaqbq/qC16d/fiIJQjiGIAlCgP4Dg0IohoQgCUKAgPwHg0IYhiAJQoCAgPgPg0IIhoSEIAlCCIhCgICA+A+DIAlCGIhCgID8B4OEIAlCKIhCgP4DgyAJQjiIhISEIApC2KLR78Kp5b8tfoUiCUI4hiAJQoD+A4NCKIaEIAlCgID8B4NCGIYgCUKAgID4D4NCCIaEhCAJQgiIQoCAgPgPgyAJQhiIQoCA/AeDhCAJQiiIQoD+A4MgCUI4iISEhEHQtckAKQMAIgpCf4V+IgtCOIYgC0KA/gODQiiGhCALQoCA/AeDQhiGIAtCgICA+A+DQgiGhIQgC0IIiEKAgID4D4MgC0IYiEKAgPwHg4QgC0IoiEKA/gODIAtCOIiEhIQgCSAKQjiGIApCgP4Dg0IohoQgCkKAgPwHg0IYhiAKQoCAgPgPg0IIhoSEIApCCIhCgICA+A+DIApCGIhCgID8B4OEIApCKIhCgP4DgyAKQjiIhISEfoUgCYkiCadxIQ0gCUIZiEL/AINCgYKEiJCgwIABfiELQcC1yQAoAgAiAEEgayEOA0AgACANaikAACIKIAuFIglCf4UgCUKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIJUEUEQANAIB0gDiAJeqdBA3YgDWogAnEiFEEFdGsoAgBGDQQgCUIBfSAJgyIJUEUNAAsLIAogCkIBhoNCgIGChIiQoMCAf4NQRQ0BIA0gDEEIaiIMaiACcSENDAALAAtB6PLAABDdCQALIA9BEHYhDSARQRB2IBFB//8DcUEAR2oiGSAcQRB2Ig9qIhIgAEEAIBRrQQV0aiIOQRRrIhQoAgAiAksEQCASIAIiAGsiDCAOQRxrIhAoAgAgAGtLBEAgECAAIAxBBEEEEKQFIBQoAgAhAAsgDkEYaygCACIVIABBAnRqIRAgDEECTwR/IAJBf3MgEmpBAnQiAgRAIBBB/wEgAvwLAAsgACAMaiICQQFrIQAgFSACQQJ0akEEawUgEAtBfzYCACAUIABBAWo2AgALIA0gGWoiECAOQQhrIhIoAgAiAksEQCAQIAIiAGsiDCAOQRBrIhUoAgAgAGtLBEAgFSAAIAxBBEEEEKQFIBIoAgAhAAsgDkEMaygCACIgIABBAnRqIRUgDEECTwR/IAJBf3MgEGpBAnQiAgRAIBVB/wEgAvwLAAsgACAMaiICQQFrIQAgICACQQJ0akEEawUgFQtBfzYCACASIABBAWo2AgALAkACQAJAAkACQAJAAkAgGCICELkKRQRAIBENAUEAIREMBQsgEQRAIA9BAnQhDCANQQJ0IQAgDkEMayEYIA5BGGshDgNAIA8gFCgCACIRTw0DIA4oAgAgDGpBfzYCACANIBIoAgAiEU8NBCAYKAIAIABqQX82AgAgDEEEaiEMIA9BAWohDyAAQQRqIQAgDUEBaiENIBlBAWsiGQ0ACwsgAkGDCEsNBQwGCyAPQQJ0IQwgDUECdCEAIA5BDGshGCAOQRhrIQ4DQCAPIBQoAgAiEE8NAyAOKAIAIAxqIA02AgAgEigCACIQIA1LBEAgGCgCACAAaiAPNgIAIAxBBGohDCAPQQFqIQ8gAEEEaiEAIA1BAWohDSAZQQFrIhlFDQUMAQsLIA0gEEGI88AAEIwHAAsgDyARQZjzwAAQjAcACyANIBFBqPPAABCMBwALIA8gEEH48sAAEIwHAAsgHSAcIBEgAhDTASACQYQISQ0BCyACEJsHCyAXIB9HDQALCxC/CSEAQbi1yQBBuLXJACgCAEEBajYCACAHBEAgBkEEaygCACICQXhxIhcgB0ECdCIHQQRBCCACQQNxIgIbakkNAiACQQAgFyAHQSdqSxsNAyAGEKICCyAFBEAgBEEEaygCACICQXhxIgYgBUECdCIFQQRBCCACQQNxIgIbakkNAiACQQAgBiAFQSdqSxsNAyAEEKICCyADBEAgG0EEaygCACICQXhxIgQgA0ECdCIDQQRBCCACQQNxIgIbakkNAiACQQAgBCADQSdqSxsNAyAbEKICCwJAIAEEQCAaQQRrKAIAIgJBeHEiAyABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0DIAJBACADIAFBJ2pLGw0BIBoQogILIBNCADcCBCATIAA2AgAMBAsMAgtBrIrBABCwCgALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAW0G9BAfwRASAWQQFqJAEgEygCACATKAIEIBMoAgggE0EQaiQACzgAAkAgAkGAgMQARg0AIAAgAiABKAIQEQIARQ0AQQEPCyADRQRAQQAPCyAAIAMgBCABKAIMEQAAC+ACAgR/An4jAEEQayIJJAAQ2gQiCyAEJgEjAEEwayIIJABBgICAgHghCgJAIABFBEBBgICAgHghAQwBCyAArSABrUIghoQhDAsgAgRAIAKtIAOtQiCGhCENIAMhCgsgCCAMNwIcIAggATYCGCAIIA03AiggCCAKNgIkIAZBAEchACAFQQBHIQECQCAHRQRAIAhBCGogCEEYaiAIQSRqIAsgASAFIAAgBkEAQQAQvwEMAQsgCEEIaiAIQRhqIAhBJGogCyABIAUgACAGQQEgBxC/AQsCQAJAAn8gCCgCCEUEQEEBIQAgCCgCDAwBC0EcEHEiAUUNAUEAIQAgAUEANgIIIAFCgYCAgBA3AgAgASAI/QACCP0LAgwgAUEIagshASAJIAA2AgggCSABQQAgABs2AgQgCUEAIAEgABs2AgAgCEEwaiQADAELAAsgCSgCACAJKAIEIAkoAgggCUEQaiQACzkBAX8jAEEQayIFJAAgBSACNgIMIAUgATYCCCAAIAVBCGpB4IfDACAFQQxqQeCHwwAgAyAEEPIEAAtEACABKQIAQu26rbbNhdT14wCFIAEpAghC+IKZvZXuxsW5f4WEUEUEQCAAKAIkIgAgASAAKAIAKAIQEQIADwsgAEEcags5AQF/IwBBEGsiBCQAIAQgATYCDCAEIAA2AghBACAEQQhqQcS2xAAgBEEMakHEtsQAIAIgAxDyBAAL4AEBBH8jAEEQayICJAAgAiAANgIMIwBBEGsiACQAIAEoAgBBmK3HAEENIAEoAgQoAgwRAAAhAyAAQQA6AA0gACADOgAMIAAgATYCCCAAQQhqQcj7xwBBBCACQQxqQfS3xQAQjAUhAyAALQANIgQgAC0ADCIFciEBAkAgBUEBcSAEQQFHcg0AIAMoAgAiAS0ACkGAAXFFBEAgASgCAEH/s8UAQQIgASgCBCgCDBEAACEBDAELIAEoAgBBpbPFAEEBIAEoAgQoAgwRAAAhAQsgAEEQaiQAIAFBAXEgAkEQaiQACzkBAX8jAEEQayIFJAAgBSACNgIMIAUgATYCCCAAIAVBCGpB3JzIACAFQQxqQdycyAAgAyAEEPIEAAs8AQJ/IAEoAgQhAiABKAIAIQNBCBBxIgFFBEAACyABIAI2AgQgASADNgIAIABBvIzIADYCBCAAIAE2AgALPwEBfyMAQRBrIgIkACACQZvRwAA2AgwgAiAANgIIQQAgAkEIakHohsgAIAJBDGpB6IbIACABQciDyAAQ8gQAC5EDAQV/IwBBEGsiCCQAENoEIgogASYBIAAhCxDaBCIAIAYmASAFIQkjAEHgAWsiByQAIAJBAEchBQJAIAlFBEAgB0H4AGogCyAKIAUgAiAAEGcgBygCfCEFIAcoAngiAEGAgICAeEYEQEEBIQIMAgsgB0EYaiAHQYABakHgAPwKAAAgByAFNgIUIAcgADYCECAHQRBqIgAgAyAEQQBHEDAgByAAEPsDIAcoAgQhBSAHKAIAIQIgABD2AgwBCyAHQfgAaiALIAogBSACIAAQZyAHKAJ8IQUgBygCeCIAQYCAgIB4RgRAIAlBhAhPBEAgCRCbBwtBASECDAELIAdBGGogB0GAAWpB4AD8CgAAIAcgBTYCFCAHIAA2AhAgB0EQaiIAIAkQxAIgACADIARBAEcQMCAHQQhqIAAQ+wMgBygCDCEFIAcoAgghAiAAEPYCCyAIIAJBAXEiADYCCCAIIAVBACAAGzYCBCAIQQAgBSAAGzYCACAHQeABaiQAIAgoAgAgCCgCBCAIKAIIIAhBEGokAAv6AwEFfyMAQRBrIggkABDaBCIHIAEmARDaBCIJIAImASAHIQojAEGgAWsiByQAIANBAEchCwJAIAZFBEAgB0HYAGogACAKIAkgCyADEDsgBygCXCEAIAcoAlgiA0GAgICAeEYEQEEBIQMMAgsgB0HIAGogB0GQAWr9AAIA/QsCACAHQThqIAdBgAFq/QACAP0LAgAgB0EoaiAHQfAAav0AAgD9CwIAIAcgB/0AAmD9CwIYIAcgADYCFCAHIAM2AhAgB0EQaiIGIAQgBUEARxAvIAcgBhCDBSAHKAIEIQAgBygCACEDIAYQ9QIMAQsgB0HYAGogACAKIAkgCyADEDsgBygCXCEAIAcoAlgiA0GAgICAeEYEQCAGQYQITwRAIAYQmwcLQQEhAwwBCyAHQcgAaiAHQZABav0AAgD9CwIAIAdBOGogB0GAAWr9AAIA/QsCACAHQShqIAdB8ABq/QACAP0LAgAgByAH/QACYP0LAhggByAANgIUIAcgAzYCECAAIAcoAhggBhCtAyAHQRBqIgYgBCAFQQBHEC8gB0EIaiAGEIMFIAcoAgwhACAHKAIIIQMgBhD1AgsgCCADQQFxIgM2AgggCCAAQQAgAxs2AgQgCEEAIAAgAxs2AgAgB0GgAWokACAIKAIAIAgoAgQgCCgCCCAIQRBqJAAL0wICA38CfiMAQRBrIggkACMAQTBrIgckAEGAgICAeCEJAkAgAEUEQEGAgICAeCEBDAELIACtIAGtQiCGhCEKCyACBEAgAq0gA61CIIaEIQsgAyEJCyAHIAo3AhwgByABNgIYIAcgCzcCKCAHIAk2AiQgBUEARyEAIARBAEchAQJAIAZFBEAgB0EIaiAHQRhqIAdBJGogASAEIAAgBUEAQQAQ2AEMAQsgB0EIaiAHQRhqIAdBJGogASAEIAAgBUEBIAYQ2AELAkACQAJ/IAcoAghFBEBBASEAIAcoAgwMAQtBHBBxIgFFDQFBACEAIAFBADYCCCABQoGAgIAQNwIAIAEgB/0AAgj9CwIMIAFBCGoLIQEgCCAANgIIIAggAUEAIAAbNgIEIAhBACABIAAbNgIAIAdBMGokAAwBCwALIAgoAgAgCCgCBCAIKAIIIAhBEGokAAs3AQF/IwBBIGsiASQAIAFBADYCGCABQQE2AgwgAUH07sEANgIIIAFCBDcCECABQQhqIAAQjQgACzoBAX8jAEEgayIAJAAgAEEANgIYIABBATYCDCAAQdycwgA2AgggAEIENwIQIABBCGpB5JzCABCNCAALNwEBfyMAQSBrIgEkACABQQA2AhggAUEBNgIMIAFBlIfDADYCCCABQgQ3AhAgAUEIaiAAEI0IAAs3AQF/IwBBIGsiASQAIAFBADYCGCABQQE2AgwgAUHYh8MANgIIIAFCBDcCECABQQhqIAAQjQgAC/ADAQV/IwBBEGsiByQAENoEIgYgASYBENoEIgggAiYBIAYhCSMAQaABayIGJAAgA0EARyEKAkAgBUUEQCAGQdgAaiAAIAkgCCAKIAMQOyAGKAJcIQAgBigCWCIDQYCAgIB4RgRAQQEhAwwCCyAGQcgAaiAGQZABav0AAgD9CwIAIAZBOGogBkGAAWr9AAIA/QsCACAGQShqIAZB8ABq/QACAP0LAgAgBiAG/QACYP0LAhggBiAANgIUIAYgAzYCECAGQRBqIgUgBBAuIAYgBRCDBSAGKAIEIQAgBigCACEDIAUQ9QIMAQsgBkHYAGogACAJIAggCiADEDsgBigCXCEAIAYoAlgiA0GAgICAeEYEQCAFQYQITwRAIAUQmwcLQQEhAwwBCyAGQcgAaiAGQZABav0AAgD9CwIAIAZBOGogBkGAAWr9AAIA/QsCACAGQShqIAZB8ABq/QACAP0LAgAgBiAG/QACYP0LAhggBiAANgIUIAYgAzYCECAAIAYoAhggBRCtAyAGQRBqIgUgBBAuIAZBCGogBRCDBSAGKAIMIQAgBigCCCEDIAUQ9QILIAcgA0EBcSIDNgIIIAcgAEEAIAMbNgIEIAdBACAAIAMbNgIAIAZBoAFqJAAgBygCACAHKAIEIAcoAgggB0EQaiQAC4cDAQV/IwBBEGsiByQAENoEIgkgASYBIAAhChDaBCIAIAUmASAEIQgjAEHgAWsiBiQAIAJBAEchBAJAIAhFBEAgBkH4AGogCiAJIAQgAiAAEGcgBigCfCEEIAYoAngiAEGAgICAeEYEQEEBIQIMAgsgBkEYaiAGQYABakHgAPwKAAAgBiAENgIUIAYgADYCECAGQRBqIgAgAxAtIAYgABD7AyAGKAIEIQQgBigCACECIAAQ9gIMAQsgBkH4AGogCiAJIAQgAiAAEGcgBigCfCEEIAYoAngiAEGAgICAeEYEQCAIQYQITwRAIAgQmwcLQQEhAgwBCyAGQRhqIAZBgAFqQeAA/AoAACAGIAQ2AhQgBiAANgIQIAZBEGoiACAIEMQCIAAgAxAtIAZBCGogABD7AyAGKAIMIQQgBigCCCECIAAQ9gILIAcgAkEBcSIANgIIIAcgBEEAIAAbNgIEIAdBACAEIAAbNgIAIAZB4AFqJAAgBygCACAHKAIEIAcoAgggB0EQaiQAC8ECAQR/IwBBEGsiASQAQdy2yQAtAABBA0cEQCABQQE6AA8gAUEPaiECIwBBIGsiACQAAkACQAJAAkACQAJAAkACQAJAQdy2yQAtAABBAWsOAwQDAQALQdy2yQBBAjoAACACLQAAIAJBADoAAEUNBEGUu8kAKAIAQf////8HcQRAQYy7yQAoAgANBgtBmLvJACgCAA0BQdy2yQBBAzoAAEGcu8kAQQE2AgALIABBIGokAAwGCwALIABBADYCGCAAQQE2AgwgAEGYg8gANgIIDAMLIABBADYCGCAAQQE2AgwgAEGUisEANgIIDAILQZyKwQAQ3QkACyAAQQA2AhggAEEBNgIMIABB0IbIADYCCCAAQgQ3AhAgAEEIakHYhsgAEI0IAAsgAEIENwIQIABBCGpB0OrAABCNCAALCyABQRBqJAALLgACQCADaUEBRyABQYCAgIB4IANrS3JFBEAgACABIAMgAhC7AiIADQELAAsgAAvzCgIJfwJ+IwBBEGsiCSQAENoEIgogBCYBIAMhCCMAQeACayIFJABBgICAgHghAwJAIABFBEBBgICAgHghAQwBCyAArSABrUIghoQhDgsgAgRAIAKtIAitQiCGhCEPIAghAwsgD6chCEEGIQcCQAJAAkACQAJAIAkCfwJAAkACQAJAIAFBgICAgHhGDQAgBUEUaiAOpyIAIA5CIIinEJEFIAUtABRBAUYEQCAFKAIYIQYgBUEANgL8ASAFQoCAgIAQNwL0ASAFQZyTwQA2AoQCIAVCoICAgA43AogCIAUgBUH0AWo2AoACIAYgBUGAAmoQrwQNAiAFKAL0ASEHIAUoAvgBIgsgBSgC/AEQ7AghAiAHBEAgC0EEaygCACIMQXhxIg1BBEEIIAxBA3EiDBsgB2pJDQkgDEEAIA0gB0EnaksbDQogCxCiAgsgBiAGKAIAKAIAEQMAIAEEQCAAQQRrKAIAIgZBeHEiB0EEQQggBkEDcSIGGyABakkNCSAGQQAgByABQSdqSxsNCiAAEKICCyAKQYQISQ0EIAoQmwcMBAsgBS0AFSEHIAFFDQAgAEEEaygCACICQXhxIgZBBEEIIAJBA3EiAhsgAWpJDQcgAkEAIAYgAUEnaksbDQggABCiAgtBAiEBIAoQuQoiDEUEQCAFQYACaiAKELUBIAUoAoACIQIgBS0AnAIiAUECRg0DIAVBMGogBUGUAmopAgA3AwAgBUEeaiAFQZ8Cai0AADoAACAFIAX9AAKEAv0LAyAgBSAFLwCdAjsBHAsgBUGTAWogBUEeai0AADoAACAFQYgBaiAFQTBqKQMANwIAIAUgBS8BHDsAkQEgBSACNgJ0IAVBADYCcCAFQoCAgIAQNwJoIAVCATcCYCAFQgA3AlggBUKAgICAEDcCUCAFQgQ3AkggBUIANwJAIAVCgICAgMAANwI4IAUgBf0AAyD9CwJ4IAVBADYClAEgBSABOgCQAQJ/IAdBBkcEQCAFQQhqIAcgBUE4ahDZAyAFKAIMIQYgBSgCCCELQYCAgIB4DAELIAVBgAJqIAVBPGpB3AD8CgAAQQALIQ1BgICAgHghASADQYCAgIB4RwRAIA9CIIinIQFBASECIA9CgICAgBBaBEAgARBxIgJFDQcLIAEEQCACIAggAfwKAAALIAKtIA9CgICAgHCDhCEOCyAFQZgBaiICIAVBgAJqQdwA/AoAAEGQARBxIgBFDQUgACANNgIYIAAgDjcCECAAIAE2AgwgAEEANgIIIABCgICAgBA3AgAgAEEcaiACQdwA/AoAACAAIAc6AIwBIAAgBjYCiAEgACALNgKEASAAQYCAgIB4NgJ4IAxFIApBhAhJcg0BIAoQmwcMAQtBoJ7GAEE3IAVB3wJqQbSTwQBB2J7GABDgBgALAkAgA0GAgICAeHJBgICAgHhHBEAgCEEEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgA2pJDQYgAUEAIAIgA0EnaksbDQEgCBCiAgtBHBBxIgFFDQQgAUGg78AANgIYIAFBATYCFCABQYjvwAA2AhAgASAANgIMIAFBADYCCCABQoGAgIAQNwIAIAFBCGohAkEADAILDAULIANBgICAgHhyQYCAgIB4RwRAIAhBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIANqSQ0EIABBACABIANBJ2pLGw0CIAgQogILQQELIgA2AgggCSACQQAgABs2AgQgCUEAIAIgABs2AgAgBUHgAmokAAwEC0GMjcgAQS5BvI3IABDrBwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgCSgCACAJKAIEIAkoAgggCUEQaiQACzcBAX9BASEAIAEoAgAiAkGlgcIAQQMgASgCBCgCDCIBEQAABH8gAAUgAkH7gcIAQQcgAREAAAsL9wEBBH8jAEEQayIFJAAQ2gQiBiABJgEQ2gQiBCADJgEgAiEHIAQhAiMAQdAAayIEJAACQCAHRQRAIARBCGogACAGQQBBACACEGkMAQsgBEEIaiAAIAZBASAHIAIQaQsCQAJAIAUCfyAEKAIIQYCAgIB4RgRAIAQoAgwhAEEBDAELQdQAEHEiAEUNASAAQQA2AgggAEKBgICAEDcCACAAQQxqIARBCGpByAD8CgAAIABBCGohAEEACyICNgIIIAUgAEEAIAIbNgIEIAVBACAAIAIbNgIAIARB0ABqJAAMAQsACyAFKAIAIAUoAgQgBSgCCCAFQRBqJAAL9QEBBH8jAEEQayIFJAAQ2gQiBCABJgEQ2gQiBiACJgEgBCEHIwBB0ABrIgQkAAJAIANFBEAgBEEIaiAAIAcgBkEAQQAQOwwBCyAEQQhqIAAgByAGQQEgAxA7CwJAAkACfyAEKAIIQYCAgIB4RgRAQQEhACAEKAIMDAELQdQAEHEiA0UNAUEAIQAgA0EANgIIIANCgYCAgBA3AgAgA0EMaiAEQQhqQcgA/AoAACADQQhqCyEDIAUgADYCCCAFIANBACAAGzYCBCAFQQAgAyAAGzYCACAEQdAAaiQADAELAAsgBSgCACAFKAIEIAUoAgggBUEQaiQAC5oLAgh/An4jAEEQayIIJAAgAiEHIwBB4AFrIgQkAEGAgICAeCECAkAgAEUEQEGAgICAeCEBDAELIACtIAGtQiCGhCEMCyAHBEAgB60gA61CIIaEIQ0gAyECC0GAgICAeCEDIA2nIQcCQAJAAkAgCAJ/AkACQAJAAkACQAJAIAFBgICAgHhHBEAgBEEQaiAMpyIAIAxCIIinEJEFIAQtABBBAUYEQCAEKAIUIQUgBEEANgKcASAEQoCAgIAQNwKUASAEQZyTwQA2AqQBIARCoICAgA43AqgBIAQgBEGUAWo2AqABIAUgBEGgAWoQrwQNBCAEKAKUASEGIAQoApgBIgogBCgCnAEQ7AghAyAGBEAgCkEEaygCACIJQXhxIgtBBEEIIAlBA3EiCRsgBmpJDQogCUEAIAsgBkEnaksbDQsgChCiAgsgBSAFKAIAKAIAEQMAIAEEQCAAQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyABakkNCiAFQQAgBiABQSdqSxsNCyAAEKICCyACQYCAgIB4ckGAgICAeEYNByAHQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyACakkNCSAAQQAgASACQSdqSxsNCiAHEKICQQEMCAsgBC0AESEFIAEEQCAAQQRrKAIAIgNBeHEiBkEEQQggA0EDcSIDGyABakkNCSADQQAgBiABQSdqSxsNBSAAEKICCyAEQoCAgIAgNwJIIARCAjcCQCAEQgA3AjggBEKAgICAIDcCMCAEQgQ3AiggBEIANwIgIARCgICAgMAANwIYIARCADcCUCAEQQhqIAUgBEEYahDgAkGAgICAeCEGIAQoAgwhCSAEKAIIIQpBgICAgHghAyACQYCAgIB4Rw0BDAILIARBLGoiAEIANwIAIARBPGoiAUKAgICAIDcCACAEQcwAakICNwIAIARCgICAgMAANwIkIARCBDcCHCAEQQA2AlQgBEICNwI0IARCADcCRCAEQdgBakEANgIAIARB0AFqQgI3AwAgBEHAAWogAf0AAgD9CwMAIARBsAFqIAD9AAIA/QsDACAEIAT9AAIc/QsDoAFBBiEFIAJBgICAgHhGDQELIA1CIIinIQNBASEBIA1CgICAgBBaBEAgAxBxIgFFDQQLIAMEQCABIAcgA/wKAAALIAGtIA1CgICAgHCDhCEMCyAEQZABaiIBIARB2AFqKAIANgIAIARBiAFqIARB0AFqKQMANwMAIARB+ABqIARBwAFq/QADAP0LAwAgBEHoAGogBEGwAWr9AAMA/QsDACAEIAT9AAOgAf0LA1hB8AAQcSIARQ0CIAAgBjYCGCAAIAw3AhAgACADNgIMIABBADYCCCAAQoCAgIAQNwIAIAAgBCkDWDcCHCAAIAU6AGwgACAJNgJoIAAgCjYCZCAAQYCAgIB4NgJYIABBJGogBEHgAGr9AAMA/QsCACAAQTRqIARB8ABq/QADAP0LAgAgAEHEAGogBEGAAWr9AAMA/QsCACAAQdQAaiABKAIANgIAIAJBgICAgHhyQYCAgIB4RwRAIAdBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0GIAFBACADIAJBJ2pLGw0HIAcQogILQRwQcSICRQ0CIAJB2O/AADYCGCACQQE2AhQgAkHA78AANgIQIAIgADYCDCACQQA2AgggAkKBgICAEDcCACACQQhqIQNBAAwEC0GgnsYAQTcgBEHfAWpBtJPBAEHYnsYAEOAGAAtBjI3IAEEuQbyNyAAQ6wcLAAtBAQsiATYCCCAIIANBACABGzYCBCAIQQAgAyABGzYCACAEQeABaiQADAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAIKAIAIAgoAgQgCCgCCCAIQRBqJAAL9wEBBH8jAEEQayIFJAAQ2gQiBiABJgEQ2gQiBCADJgEgAiEHIAQhAiMAQfAAayIEJAACQCAHRQRAIARBCGogACAGQQBBACACEGcMAQsgBEEIaiAAIAZBASAHIAIQZwsCQAJAIAUCfyAEKAIIQYCAgIB4RgRAIAQoAgwhAEEBDAELQfQAEHEiAEUNASAAQQA2AgggAEKBgICAEDcCACAAQQxqIARBCGpB6AD8CgAAIABBCGohAEEACyICNgIIIAUgAEEAIAIbNgIEIAVBACAAIAIbNgIAIARB8ABqJAAMAQsACyAFKAIAIAUoAgQgBSgCCCAFQRBqJAAL/AECAn8BfiMAQRBrIgIkACACQQE7AQwgAiABNgIIIAIgADYCBCMAQRBrIgEkACACQQRqIgApAgAhBCABIAA2AgwgASAENwIEIwBBEGsiACQAIAFBBGoiASgCACICKAIMIQMCQAJAAkACQCACKAIEDgIAAQILIAMNAUEBIQJBACEDDAILIAMNACACKAIAIgIoAgQhAyACKAIAIQIMAQsgAEGAgICAeDYCACAAIAE2AgwgAEGAhsgAIAEoAgQgASgCCCIALQAIIAAtAAkQkgYACyAAIAM2AgQgACACNgIAIABB5IXIACABKAIEIAEoAggiAC0ACCAALQAJEJIGAAsnACACIARGBEAgBARAIAMgASAE/AoAAAsPCyAEIAJB/JrFABDeCQALJgEBfyMAQRBrIgIkACABKAIEGiAAQYj7xwAgARDBAyACQRBqJAALMwAgASgCACAAKAIAKAIAQQJ0IgBB2LDJAGooAgAgAEG0sMkAaigCACABKAIEKAIMEQAAC+AFAQt/IwBBEGsiBSQAENoEIgYgASYBIwBBsANrIgIkAAJAAkACQAJAAkACQCAABEAgAEEIayIHIAcoAgBBAWoiAzYCACADRQ0BIAAoAgAiBEH/////B08NAiAAIARBAWo2AgBBAiEDAkAgBhC5CiIKRQRAIAJB5AFqIAYQtQEgAigC5AEhBCACLQCAAiIDQQJGBEBBASEDDAILIAJBIGogAkH4AWopAgA3AwAgAkEOaiACQYMCai0AADoAACACIAL9AALoAf0LAxAgAiACLwCBAjsBDAsgAkHwAWogAkEYav0AAwD9CwIAIAJBgwJqIAJBDmotAAA6AAAgAiAENgLkASACIAIpAxA3AugBIAIgAzoAgAIgAiACLwEMOwCBAiACQShqIABBBGpBACACQeQBaiIEEIQBAkAgAigCKEECRgRAIAIoAiwhAyACQQA2AqgDIAJCgICAgBA3AqADIAJBnJPBADYC6AEgAkKggICADjcC7AEgAiACQaADajYC5AEgAyAEEK8EDQYgAigCoAMhCCACKAKkAyILIAIoAqgDEOwIIQQgCARAIAtBBGsoAgAiCUF4cSIMQQRBCCAJQQNxIgkbIAhqSQ0IIAlBACAMIAhBJ2pLGw0JIAsQogILIAMgAygCACgCABEDAEEBIQMgBkGECEkNAiAKDQEMAgsgAkHkAWoiAyACQShqQbwB/AoAACADENIBIQRBACEDIApFIAZBhAhJcg0BCyAGEJsHCyAAIAAoAgBBAWs2AgAgByAHKAIAQQFrIgA2AgAgAEUEQCAHEOMGCyAFIAM2AgggBSAEQQAgAxs2AgQgBUEAIAQgAxs2AgAgAkGwA2okAAwGCxCOCgsACxCQCgALQaCexgBBNyACQa8DakG0k8EAQdiexgAQ4AYAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgBSgCACAFKAIEIAUoAgggBUEQaiQAC+AFAQt/IwBBEGsiBSQAENoEIgYgASYBIwBBsANrIgIkAAJAAkACQAJAAkACQCAABEAgAEEIayIHIAcoAgBBAWoiAzYCACADRQ0BIAAoAgAiBEH/////B08NAiAAIARBAWo2AgBBAiEDAkAgBhC5CiIKRQRAIAJB5AFqIAYQtQEgAigC5AEhBCACLQCAAiIDQQJGBEBBASEDDAILIAJBIGogAkH4AWopAgA3AwAgAkEOaiACQYMCai0AADoAACACIAL9AALoAf0LAxAgAiACLwCBAjsBDAsgAkHwAWogAkEYav0AAwD9CwIAIAJBgwJqIAJBDmotAAA6AAAgAiAENgLkASACIAIpAxA3AugBIAIgAzoAgAIgAiACLwEMOwCBAiACQShqIABBBGpBASACQeQBaiIEEIQBAkAgAigCKEECRgRAIAIoAiwhAyACQQA2AqgDIAJCgICAgBA3AqADIAJBnJPBADYC6AEgAkKggICADjcC7AEgAiACQaADajYC5AEgAyAEEK8EDQYgAigCoAMhCCACKAKkAyILIAIoAqgDEOwIIQQgCARAIAtBBGsoAgAiCUF4cSIMQQRBCCAJQQNxIgkbIAhqSQ0IIAlBACAMIAhBJ2pLGw0JIAsQogILIAMgAygCACgCABEDAEEBIQMgBkGECEkNAiAKDQEMAgsgAkHkAWoiAyACQShqQbwB/AoAACADENIBIQRBACEDIApFIAZBhAhJcg0BCyAGEJsHCyAAIAAoAgBBAWs2AgAgByAHKAIAQQFrIgA2AgAgAEUEQCAHEOMGCyAFIAM2AgggBSAEQQAgAxs2AgQgBUEAIAQgAxs2AgAgAkGwA2okAAwGCxCOCgsACxCQCgALQaCexgBBNyACQa8DakG0k8EAQdiexgAQ4AYAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgBSgCACAFKAIEIAUoAgggBUEQaiQAC58RAwx/A34CfSMAQRBrIg0kACMAQSBrIgQkAEGwtckAKAIARQRAEFYLAkACQAJAAkACfwJAAkBBuLXJACgCAEUEQEG4tckAQX82AgACQAJAQcy1yQAoAgBFDQBBxLXJACgCACIJQdi1yQApAwAiDiAArYUiD0I4hiAPQoD+A4NCKIaEIA9CgID8B4NCGIYgD0KAgID4D4NCCIaEhCAOQgiIQoCAgPgPgyAOQhiIQoCA/AeDhCAOQiiIQoD+A4MgDkI4iISEhELSgaqbq/qC16d/fiIOQjiGIA5CgP4Dg0IohoQgDkKAgPwHg0IYhiAOQoCAgPgPg0IIhoSEIA5CCIhCgICA+A+DIA5CGIhCgID8B4OEIA5CKIhCgP4DgyAOQjiIhISEIA9C2KLR78Kp5b8tfoUiEEI4hiAQQoD+A4NCKIaEIBBCgID8B4NCGIYgEEKAgID4D4NCCIaEhCAQQgiIQoCAgPgPgyAQQhiIQoCA/AeDhCAQQiiIQoD+A4MgEEI4iISEhEHQtckAKQMAIg5Cf4V+Ig9COIYgD0KA/gODQiiGhCAPQoCA/AeDQhiGIA9CgICA+A+DQgiGhIQgD0IIiEKAgID4D4MgD0IYiEKAgPwHg4QgD0IoiEKA/gODIA9COIiEhIQgECAOQjiGIA5CgP4Dg0IohoQgDkKAgPwHg0IYhiAOQoCAgPgPg0IIhoSEIA5CCIhCgICA+A+DIA5CGIhCgID8B4OEIA5CKIhCgP4DgyAOQjiIhISEfoUgEIkiD6dxIQMgD0IZiEL/AINCgYKEiJCgwIABfiEOQcC1yQAoAgAiBkEgayECA0AgAyAGaikAACIQIA6FIg9Cf4UgD0KBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIPUEUEQANAIAAgAiAPeqdBA3YgA2ogCXEiBUEFdGsoAgBGDQQgD0IBfSAPgyIPUEUNAAsLIBAgEEIBhoNCgIGChIiQoMCAf4NQRQ0BIAMgCEEIaiIIaiAJcSEDDAALAAtBiPTAABDdCQALIAZBACAFa0EFdGpBBGsoAgAiCigCCCIAQf////8HTw0BIAogAEEBajYCCCAKKAIUBEAgCigCEEEKai8BACIAQf//AXFFBEAgAEEQdAwFCyAAQf8HcSECIABBgIACcSEFIABBgPgBcSIAQYD4AUYEQCAFQRB0IgBBgICA/AdyIAJFDQUaIAAgAkENdHJBgICA/gdyDAULIAVBEHQhBSAARQ0DIABBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAFcgwEC0EAQQBBmPTAABCMBwwEC0GsisEAELAKAAtB8PTAABCxCgALIAIgAmdBEGsiAEH//wNxQQhqdEH///8DcSAFQYCAgNgDciAAQRd0a3ILQwAAoD8hEUMAAKA/QwAAgD8gASABQR91IgBzIABrIgJBAXEbIRIgAkECTwRAA0AgEiARIBGUIhGUIBIgAkECcRshEiACQQNLIAJBAXYhAg0ACwtBBBBxIgVFDQC+QwAAgD8gEpUgEiABQQBIG5UhESAFQQA2AgAgBEEANgIQIARCgICAgMAANwIIQQQhC0EBIQhBASEDAkADQCAEQQA2AhwgBEKAgICAwAA3AhQgBSADQQJ0aiEGIAUhAANAIAAoAgAiByAKKAIUIgFPBEAgByABQcD0wAAQjAcACwJAIBECfyAKKAIQIAdBBHRqIglBCmovAQAiAUH//wFxRQRAIAFBEHQMAQsgAUH/B3EhAyABQYCAAnEhAiABQYD4AXEiAUGA+AFGBEAgAkEQdCIBQYCAgPwHciADRQ0BGiABIANBDXRyQYCAgP4HcgwBCyACQRB0IgIgAUENdEGAgID8AHEgA0ENdHJBgICAwANqciABDQAaIAMgA2dBEGsiAUH//wNxQQhqdEH///8DcSACQYCAgNgDciABQRd0a3ILvmBFBEAgCSgCACIDIAMgCS8BDCIBak8NASAEKAIcIgJBAnQhBwNAIAQoAhQgAkYEQCAEQRRqQdD0wAAQ+gULIAQoAhggB2ogAzYCACAEIAJBAWoiAjYCHCADQQFqIQMgB0EEaiEHIAFBAWsiAQ0ACwwBCyAEKAIIIAxGBEAgBEEIakHg9MAAEPoFIAQoAgwhCwsgCyAMQQJ0aiAHNgIAIAQgDEEBaiIMNgIQCyAAQQRqIgAgBkcNAAsCQCAIBEAgBUEEaygCACIAQXhxIgIgCEECdCIBQQRBCCAAQQNxIgAbakkNASAAQQAgAiABQSdqSxsNBiAFEKICCyAEKAIYIQUgBCgCFCEIIAQoAhwiA0UNAgwBCwsMAgsgDBC2CSELIAQoAgwhACAEKAIIIQkgDARAIAxBAnQhB0EAIQMgACECA0AgCyUBIAMgAigCABAaIANBAWohAyACQQRqIQIgB0EEayIHDQALCyAJBEAgAEEEaygCACIBQXhxIgYgCUECdCICQQRBCCABQQNxIgEbakkNAiABQQAgBiACQSdqSxsNAyAAEKICCxC/CSIGQaj0wABBBxDsCCIAIAsQwAkCQEG0u8kALQAARQRAQbi7yQBBADYCAEG0u8kAQQA6AAAgC0GECE8EQCALEJsHCyAAQYQITwRAIAAQmwcLIAgEQCAFQQRrKAIAIgBBeHEiAiAIQQJ0IgFBBEEIIABBA3EiABtqSQ0EIABBACACIAFBJ2pLGw0CIAUQogILIAogCigCCEEBazYCCCANQgA3AgQgDSAGNgIAQbi1yQBBuLXJACgCAEEBajYCACAEQSBqJAAMBQtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgBCAANgIUQdjmyABBKyAEQRRqQdjowABBsPTAABDgBgALDAILAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIA0oAgAgDSgCBCANKAIIIA1BEGokAAuWCQILfwF7IwBBEGsiCCQAENoEIgsgASYBIAAhBiMAQUBqIgQkAEGwtckAKAIARQRAEFYLAkACQAJAAkACQEG4tckAKAIARQRAQbi1yQBBfzYCACAGQf////8ASw0BIAZBBHQiAEH9////B08NAUGgtskAKAIAIQwCQAJAIABFBEBBBCEADAELIAYhBSAAEHEiAEUNAQtBGBBxIglFDQAgBkEQdiAGQf//A3FBAEdqIQMgCUEANgIUIAkgADYCECAJIAU2AgwgCUEANgIIIAlCgYCAgBA3AgAgBkUEQEEEIQpBBCEHDAcLIANBAnQiBxBxIgpFDQACQCADQQRPBED9DAAAAAABAAAAAgAAAAMAAAAhDSAKIQAgA0H8P3EiAiEFA0AgACAN/QsCACAAQRBqIQAgDf0MBAAAAAQAAAAEAAAABAAAAP2uASENIAVBBGsiBQ0ACyACIANGDQELIAogAkECdGohAANAIAAgAjYCACAAQQRqIQAgAyACQQFqIgJHDQALIAcQcSIHRQ0BQQAhAiADQQRJDQUMBAsgBxBxIgcNAwsAC0GsisEAELAKAAtByPLAABD/BwAL/QwAAAAAAQAAAAIAAAADAAAAIQ0gByEAIANB/D9xIgIhBQNAIAAgDf0LAgAgAEEQaiEAIA39DAQAAAAEAAAABAAAAAQAAAD9rgEhDSAFQQRrIgUNAAsgAiADRg0BCyAHIAJBAnRqIQADQCAAIAI2AgAgAEEEaiEAIAMgAkEBaiICRw0ACwsgAyECCyAEIAM2AjggBCAHNgI0IAQgAzYCMCAEIAM2AiwgBCAKNgIoIAQgAjYCJCAEIAk2AjwgBEEIaiAMIARBJGoQnwICQAJAAkACQAJAAkACQCAEKAIIIgBBgICAgHhGDQAgBCgCICICIAIoAgBBAWsiAzYCACADRQRAIAIQ0gULIAAEQCAEKAIMIgJBBGsoAgAiA0F4cSIFIABBAnQiAEEEQQggA0EDcSIDG2pJDQIgA0EAIAUgAEEnaksbDQMgAhCiAgsgBCgCFCIARQ0AIAQoAhgiAkEEaygCACIDQXhxIgUgAEECdCIAQQRBCCADQQNxIgMbakkNAyADQQAgBSAAQSdqSxsNBCACEKICC0GgtskAQaC2yQAoAgBBAWo2AgAgDEEAIAYgCxDTARC/CSICQbDywABBBRDsCCIAIAy4ELcJIgYQwAlBtLvJAC0AAA0EQbi7yQBBADYCAEG0u8kAQQA6AAAgBkGECE8EQCAGEJsHCyAAQYQITwRAIAAQmwcLQbi1yQBBuLXJACgCAEEBajYCACALQYQITwRAIAsQmwcLIAhCADcCBCAIIAI2AgAgBEFAayQADAULQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBtLvJAEEAOgAAQbi7yQAoAgAhAEG4u8kAQQA2AgAgBCAANgIkQdjmyABBKyAEQSRqQdjowABB2PLAABDgBgALIAgoAgAgCCgCBCAIKAIIIAhBEGokAAvLAwEDfyMAQRBrIgMkAEEIIQQCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkBBFSAAKAIAIgVBgICAgHhzIAVBAE4bQQFrDhUBAgMEBQYHCAkKCwwNDg8UFBAREhMACyADIAAtAAQ6AAEgA0EAOgAADBYLIAMgADEABDcDCAwTCyADIAAzAQQ3AwgMEgsgAyAANQIENwMIDBELIAMgACkDCDcDCAwQCyADIAAwAAQ3AwgMEAsgAyAAMgEENwMIDA8LIAMgADQCBDcDCAwOCyADIAApAwg3AwgMDQsgAyAAKgIEuzkDCCADQQM6AAAMDQsgAyAAKwMIOQMIIANBAzoAAAwMCyADIAAoAgQ2AgQgA0EEOgAADAsLIAMgACkDCDcCBCADQQU6AAAMCgsgAyAAKQIENwIEIANBBToAAAwJCyADIAApAwg3AgQgA0EGOgAADAgLIAMgACkCBDcCBCADQQY6AAAMBwsgA0EHOgAADAYLIANBCToAAAwFCyADQQo6AAAMBAtBCyEECyADIAQ6AAAMAgsgA0EBOgAADAELIANBAjoAAAsgAyABIAIQ3wYgA0EQaiQACy8AIAEoAgAgAC0AAEEEakH/AXFBAnQiACgCgO1BIAAoAuTsQSABKAIEKAIMEQAACy8AIAEoAgAgAC0AAEEBa0H/AXFBAnQiACgCwItJIAAoAviKSSABKAIEKAIMEQAACy8AIAEoAgAgAC0AAEEBa0H/AXFBAnQiACgC4IxJIAAoAoiMSSABKAIEKAIMEQAACy8AIAEoAgAgAC0AAEEBa0H/AXFBAnQiACgCgJpJIAAoAriZSSABKAIEKAIMEQAACy8AIAEoAgAgAC0AAEEBa0H/AXFBAnQiACgCoJtJIAAoAsiaSSABKAIEKAIMEQAACy8AIAEoAgAgAC0AAEEEakH/AXFBAnQiACgCwKFJIAAoAqShSSABKAIEKAIMEQAAC+0DAQp/IwBBEGsiAyQAIwBBoANrIgEkAAJAAkACQAJAAkACQCAABEAgAEEIayIEIAQoAgBBAWoiAjYCACACRQ0BIAAoAgAiAkH/////B08NAiAAIAJBAWo2AgAgAUEIaiAAQQRqQQAQdgJ/IAEoAggiCUECRgRAIAEoAgwhAiABQQA2ApgDIAFCgICAgBA3ApADIAFBnJPBADYC0AEgAUKggICADjcC1AEgASABQZADajYCzAEgAiABQcwBahCvBA0FIAEoApADIQUgASgClAMiCCABKAKYAxDsCCEHIAUEQCAIQQRrKAIAIgZBeHEiCkEEQQggBkEDcSIGGyAFakkNByAGQQAgCiAFQSdqSxsNCCAIEKICCyACIAIoAgAoAgARAwBBAAwBCyABQcwBaiICIAFBCGpBxAH8CgAAIAIQ0QELIQIgACAAKAIAQQFrNgIAIAQgBCgCAEEBayIANgIAIABFBEAgBBDkBgsgAyAHNgIEIAMgAjYCACADIAlBAkY2AgggAUGgA2okAAwGCxCOCgsACxCQCgALQaCexgBBNyABQZ8DakG0k8EAQdiexgAQ4AYAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgAygCACADKAIEIAMoAgggA0EQaiQAC5oFAQp/IwBBEGsiAyQAIwBBsANrIgEkAAJAAkACQAJAAkACQCAABEAgAEEIayIFIAUoAgBBAWoiAjYCACACRQ0BIAAoAgAiAkH/////B08NAiAAIAJBAWo2AgAgAC0AXCICQQJHBEAgAUEgaiAAQdgAaigCADYCACABQRhqIABB0ABqKQIANwMAIAFBBmogAEHfAGotAAA6AAAgASAA/QACQP0LAwggASAALwBdOwEECyABQfgBaiABQSBqKAIANgIAIAFB8AFqIAFBGGopAwA3AwAgAUH/AWogAUEGai0AADoAACABIAH9AAMI/QsD4AEgASACOgD8ASABIAEvAQQ7AP0BIAFBJGogAEEEakEAIAFB4AFqIgQQcgJ/IAEoAiQiCUECRgRAIAEoAighAiABQQA2AqgDIAFCgICAgBA3AqADIAFBnJPBADYC5AEgAUKggICADjcC6AEgASABQaADajYC4AEgAiAEEK8EDQUgASgCoAMhBCABKAKkAyIIIAEoAqgDEOwIIQcgBARAIAhBBGsoAgAiBkF4cSIKQQRBCCAGQQNxIgYbIARqSQ0HIAZBACAKIARBJ2pLGw0IIAgQogILIAIgAigCACgCABEDAEEADAELIAFB4AFqIgIgAUEkakG8AfwKAAAgAhDSAQshAiAAIAAoAgBBAWs2AgAgBSAFKAIAQQFrIgA2AgAgAEUEQCAFEOQGCyADIAc2AgQgAyACNgIAIAMgCUECRjYCCCABQbADaiQADAYLEI4KCwALEJAKAAtBoJ7GAEE3IAFBrwNqQbSTwQBB2J7GABDgBgALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyADKAIAIAMoAgQgAygCCCADQRBqJAAL7QMBCn8jAEEQayIDJAAjAEGgA2siASQAAkACQAJAAkACQAJAIAAEQCAAQQhrIgQgBCgCAEEBaiICNgIAIAJFDQEgACgCACICQf////8HTw0CIAAgAkEBajYCACABQQhqIABBBGpBARB2An8gASgCCCIJQQJGBEAgASgCDCECIAFBADYCmAMgAUKAgICAEDcCkAMgAUGck8EANgLQASABQqCAgIAONwLUASABIAFBkANqNgLMASACIAFBzAFqEK8EDQUgASgCkAMhBSABKAKUAyIIIAEoApgDEOwIIQcgBQRAIAhBBGsoAgAiBkF4cSIKQQRBCCAGQQNxIgYbIAVqSQ0HIAZBACAKIAVBJ2pLGw0IIAgQogILIAIgAigCACgCABEDAEEADAELIAFBzAFqIgIgAUEIakHEAfwKAAAgAhDRAQshAiAAIAAoAgBBAWs2AgAgBCAEKAIAQQFrIgA2AgAgAEUEQCAEEOQGCyADIAc2AgQgAyACNgIAIAMgCUECRjYCCCABQaADaiQADAYLEI4KCwALEJAKAAtBoJ7GAEE3IAFBnwNqQbSTwQBB2J7GABDgBgALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyADKAIAIAMoAgQgAygCCCADQRBqJAAL5AEBBX8jAEEQayIBJAAjAEEQayIDJAACQAJAAkAgAARAIABBCGsiBCAEKAIAQQFqIgI2AgAgAkUNASAAKAIAIgJB/////wdPDQIgACACQQFqNgIAIANBCGogAEEEahD7AyADKAIMIQIgAygCCCEFIAAgACgCAEEBazYCACAEIAQoAgBBAWsiADYCACAARQRAIAQQ5AYLIAEgBTYCCCABIAJBACAFQQFxIgAbNgIEIAFBACACIAAbNgIAIANBEGokAAwDCxCOCgsACxCQCgALIAEoAgAgASgCBCABKAIIIAFBEGokAAvuAwEKfyMAQRBrIgMkACMAQaADayIBJAACQAJAAkACQAJAAkAgAARAIABBCGsiBCAEKAIAQQFqIgI2AgAgAkUNASAAKAIAIgJB/////wdPDQIgACACQQFqNgIAIAFBCGogAEEEakEAEI8BAn8gASgCCCIJQQJGBEAgASgCDCECIAFBADYCmAMgAUKAgICAEDcCkAMgAUGck8EANgLQASABQqCAgIAONwLUASABIAFBkANqNgLMASACIAFBzAFqEK8EDQUgASgCkAMhBSABKAKUAyIIIAEoApgDEOwIIQcgBQRAIAhBBGsoAgAiBkF4cSIKQQRBCCAGQQNxIgYbIAVqSQ0HIAZBACAKIAVBJ2pLGw0IIAgQogILIAIgAigCACgCABEDAEEADAELIAFBzAFqIgIgAUEIakHEAfwKAAAgAhDRAQshAiAAIAAoAgBBAWs2AgAgBCAEKAIAQQFrIgA2AgAgAEUEQCAEEOMGCyADIAc2AgQgAyACNgIAIAMgCUECRjYCCCABQaADaiQADAYLEI4KCwALEJAKAAtBoJ7GAEE3IAFBnwNqQbSTwQBB2J7GABDgBgALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyADKAIAIAMoAgQgAygCCCADQRBqJAAL5AEBBX8jAEEQayIBJAAjAEEQayIDJAACQAJAAkAgAARAIABBCGsiBCAEKAIAQQFqIgI2AgAgAkUNASAAKAIAIgJB/////wdPDQIgACACQQFqNgIAIANBCGogAEEEahCDBSADKAIMIQIgAygCCCEFIAAgACgCAEEBazYCACAEIAQoAgBBAWsiADYCACAARQRAIAQQ4wYLIAEgBTYCCCABIAJBACAFQQFxIgAbNgIEIAFBACACIAAbNgIAIANBEGokAAwDCxCOCgsACxCQCgALIAEoAgAgASgCBCABKAIIIAFBEGokAAvuBQELfyMAQRBrIgckACMAQTBrIgEkAAJAAkACQAJAAkAgAARAIABBCGsiBSgCAEEBRw0BIAAoAhAhAyAAKAIMIQggACgCCCEEIAAoAgQhAiAFQQA2AgACQCAFQX9GDQAgAEEEayIGIAYoAgBBAWsiBjYCACAGDQAgAEEMaygCACIAQXhxIgZBIEEkIABBA3EiABtJDQQgAEEAIAZBxABPGw0FIAUQogILAkAgAiAEKAIUEQQAIgAEQCABQQA2AhggAUKAgICAEDcCECABQZyTwQA2AiAgAUKggICADjcCJCABIAFBEGo2AhwgACABQRxqEK8EDQQgASgCECEFIAEoAhQiCiABKAIYEOwIIQYgBQRAIApBBGsoAgAiCUF4cSILQQRBCCAJQQNxIgkbIAVqSQ0GIAlBACALIAVBJ2pLGw0HIAoQogILIAAgACgCACgCABEDACAEKAIAIgAEQCACIAARAwALIAQoAgQiAARAIAJBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIABqSQ0GIARBACAFIABBJ2pLGw0HIAIQogILIAMoAgAiAARAIAggABEDAAsgAygCBCIABEAgCEEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAGpJDQYgAkEAIAMgAEEnaksbDQcgCBCiAgtBASEADAELIAFBCGogCCACIAQgAygCDBEGACABKAIMIQYgASgCCCEAIAMoAgQiAkUNACAIQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyACakkNBCADQQAgBCACQSdqSxsNBSAIEKICCyAHIABBAXEiADYCCCAHIAZBACAAGzYCBCAHQQAgBiAAGzYCACABQTBqJAAMBQsQjgoAC0GM2sAAQT8QjwoAC0GgnsYAQTcgAUEvakG0k8EAQdiexgAQ4AYAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgBygCACAHKAIEIAcoAgggB0EQaiQAC4EMAgN+CH8jAEEQayIIJAAjAEFAaiIGJABBsLXJACgCAEUEQBBWCwJAAkACQAJAAkACQAJAAkACQAJAQbi1yQAoAgBFBEBBuLXJAEF/NgIAQcy1yQAoAgBFDQhBxLXJACgCACIHQdi1yQApAwAiASAArYUiAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCABQgiIQoCAgPgPgyABQhiIQoCA/AeDhCABQiiIQoD+A4MgAUI4iISEhELSgaqbq/qC16d/fiIBQjiGIAFCgP4Dg0IohoQgAUKAgPwHg0IYhiABQoCAgPgPg0IIhoSEIAFCCIhCgICA+A+DIAFCGIhCgID8B4OEIAFCKIhCgP4DgyABQjiIhISEIAJC2KLR78Kp5b8tfoUiAUI4hiABQoD+A4NCKIaEIAFCgID8B4NCGIYgAUKAgID4D4NCCIaEhCABQgiIQoCAgPgPgyABQhiIQoCA/AeDhCABQiiIQoD+A4MgAUI4iISEhEHQtckAKQMAIgJCf4V+IgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIQgASACQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEfoUgAYkiAadxIQQgAUIZiEL/AINCgYKEiJCgwIABfiEDQcC1yQAoAgAiCUEgayEKA0ACQCAEIAlqKQAAIgIgA4UiAUJ/hSABQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIgFQRQRAA0AgACAKIAF6p0EDdiAEaiAHcSILQQV0aygCAEYNAiABQgF9IAGDIgFQRQ0ACwsgAiACQgGGg0KAgYKEiJCgwIB/g1BFDQogBCAFQQhqIgVqIAdxIQQMAQsLIAlBACALa0EFdGoiBEEEayIHKAIAIgAgACgCAEEBaiIANgIAIABFDQEgBEEcaygCACIAQf////8DSw0CIABBAnQiBUH9////B08NAiAHKAIAIQoCQCAFRQRAQQQhBUEAIQAMAQsgBRBxIgVFDQILIARBEGsoAgAiBEH/////A0sNAyAEQQJ0IgdB/f///wdPDQMCQCAHRQRAQQQhB0EAIQQMAQsgBxBxIgdFDQILQaC2yQBBoLbJACgCACIJQQFqNgIAIAZBADYCOCAGIAc2AjQgBiAENgIwIAZBADYCLCAGIAU2AiggBiAANgIkIAYgCjYCPCAGQQhqIAkgBkEkahCfAgJAIAYoAggiAEGAgICAeEYNACAGKAIgIgQgBCgCAEEBayIFNgIAIAVFBEAgBBDSBQsgAARAIAYoAgwiBEEEaygCACIFQXhxIgcgAEECdCIAQQRBCCAFQQNxIgUbakkNBiAFQQAgByAAQSdqSxsNByAEEKICCyAGKAIUIgBFDQAgBigCGCIEQQRrKAIAIgVBeHEiByAAQQJ0IgBBBEEIIAVBA3EiBRtqSQ0HIAVBACAHIABBJ2pLGw0IIAQQogILEL8JIgVBsPLAAEEFEOwIIgAgCbgQtwkiBBDACUG0u8kALQAADQlBuLvJAEEANgIAQbS7yQBBADoAACAEQYQITwRAIAQQmwcLIABBhAhPBEAgABCbBwsgCEIANwIEIAggBTYCAEG4tckAQbi1yQAoAgBBAWo2AgAgBkFAayQADAoLQayKwQAQsAoLAAtB9PvAABD/BwALQYT8wAAQ/wcAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQeT7wAAQ3QkAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACAGIAA2AiRB2ObIAEErIAZBJGpB2OjAAEGU/MAAEOAGAAsgCCgCACAIKAIEIAgoAgggCEEQaiQAC7QGAQZ/IwBBEGsiBSQAIwBBQGoiAyQAQbC1yQAoAgBFBEAQVgsCQAJAAkACQAJAAkACQAJAQbi1yQAoAgBFBEBBuLXJAEF/NgIAIABB/////wBLDQEgAEEEdCIBQf3///8HTw0BQaC2yQAoAgAhBgJAIAFFBEBBBCEEDAELIAAhAiABEHEiBEUNAwtBGBBxIgFFDQIgAUEANgIUIAEgBDYCECABIAI2AgwgAUEANgIIIAFCgYCAgBA3AgACQCAARQRAQQQhBEEAIQBBBCECDAELIABB//8DakEQdiIAQQJ0IgIQcSIERQ0DIAIQcSICRQ0DCyADQQA2AjggAyACNgI0IAMgADYCMCADQQA2AiwgAyAENgIoIAMgADYCJCADIAE2AjwgA0EIaiAGIANBJGoQnwICQCADKAIIIgBBgICAgHhGDQAgAygCICICIAIoAgBBAWsiATYCACABRQRAIAIQ0gULIAAEQCADKAIMIgJBBGsoAgAiAUF4cSIEIABBAnQiAEEEQQggAUEDcSIBG2pJDQUgAUEAIAQgAEEnaksbDQYgAhCiAgsgAygCFCIARQ0AIAMoAhgiAkEEaygCACIBQXhxIgQgAEECdCIAQQRBCCABQQNxIgEbakkNBiABQQAgBCAAQSdqSxsNByACEKICC0GgtskAQaC2yQAoAgBBAWo2AgAQvwkiAUGw8sAAQQUQ7AgiACAGuBC3CSICEMAJQbS7yQAtAAANB0G4u8kAQQA2AgBBtLvJAEEAOgAAIAJBhAhPBEAgAhCbBwsgAEGECE8EQCAAEJsHCyAFQgA3AgQgBSABNgIAQbi1yQBBuLXJACgCAEEBajYCACADQUBrJAAMCAtBrIrBABCwCgALQaDywAAQ/wcLAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0G0u8kAQQA6AABBuLvJACgCACEAQbi7yQBBADYCACADIAA2AiRB2ObIAEErIANBJGpB2OjAAEG48sAAEOAGAAsgBSgCACAFKAIEIAUoAgggBUEQaiQACyYAAkAgAARAIAAoAgBB/////wdPDQEgACgCaA8LEI4KAAsQkAoACyYAAkAgAARAIAAoAgBB/////wdPDQEgACgCZA8LEI4KAAsQkAoACyYAAkAgAARAIAAoAgBB/////wdPDQEgACgCSA8LEI4KAAsQkAoACyYAAkAgAARAIAAoAgBB/////wdPDQEgACgCRA8LEI4KAAsQkAoACykAIAAgAC0ABCABQS5GcjoABCAAKAIAIgAoAgAgASAAKAIEKAIQEQIACy4AIAEoAgBB68LHAEHgwscAIAAoAgAtAAAiABtBCUELIAAbIAEoAgQoAgwRAAALrAgBDn8jAEEQayIKJAAQ2gQiBiABJgEjAEEwayICJAACQAJAAkACQAJAAkACQAJAIAAiCQRAIABBCGsiCyALKAIAQQFqIgA2AgAgAEUNASAJKAIADQIgCUF/NgIAIAlBCGooAgAhDSAJKAIEIQ5BmLXJACgCAEUEQAJAQaS1yQAoAgAhB0GgtckAKAIAIQBBoLXJAEKAgICAEDcCAEGYtckAKAIAIQRBmLXJAEIBNwIAQai1yQBBADYCAAJAAkAgBEUgAEVyRQRAIAdBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIABqSQ0BIARBACAFIABBJ2pLGw0CIAcQogILDAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACwtBnLXJACgCAA0DQZy1yQBBfzYCAAJAQYCAwAAgBhC7CiIAIABBgIDAAE8bIgRBqLXJACgCACIATQRAQaS1yQAoAgAhBQwBCyAEIABrIgNBoLXJACgCACAAa0sEQEGgtckAIAAgA0EBQQEQpAVBqLXJACgCACEAC0GktckAKAIAIgUgAGohByADQQJPBH8gA0EBayIDBEAgB0EAIAP8CwALIAUgACADaiIAagUgBwtBADoAACAAQQFqIQQLQQAhAEGotckAIAQ2AgACQAJAAkADQCAAIgcgBhC7CiIPTw0BIAAgBCAGELsKIABrIgMgAyAESxsiCGohACAGJQEgByAAEBghARDaBCIDIAEmASADELsKIQwgAiAINgIIIAIgDDYCFCAIIAxHDQggBSAIIAMQ4wkgA0GECE8EQCADEJsHCyAOIAUgCCANKAIQEQAAIghFDQALIAJBADYCECACQoCAgIAQNwIIIAJBnJPBADYCHCACQqCAgIAONwIgIAIgAkEIajYCGCAIIAJBGGoQrwQNCCACKAIIIQAgAigCDCIEIAIoAhAQ7AghAyAABEAgBEEEaygCACIFQXhxIgxBBEEIIAVBA3EiBRsgAGpJDQogBUEAIAwgAEEnaksbDQsgBBCiAgsgCCAIKAIAKAIAEQMAQQEhAEGctckAQZy1yQAoAgBBAWo2AgAgBkGDCEsNAQwCC0EAIQBBnLXJAEGctckAKAIAQQFqNgIAIAZBhAhJDQELIAcgD0khACAGEJsHCyAJIAkoAgBBAWo2AgAgCyALKAIAQQFrIgY2AgAgBkUEQCALENcECyAKIAA2AgQgCiADQQAgABs2AgAgAkEwaiQADAgLEI4KCwALEJAKAAtBrIrBABCwCgALIAJBADYCGEEAIAJBFGogAkEIaiACQRhqQeD5xAAQ9QcAC0GgnsYAQTcgAkEUakG0k8EAQdiexgAQ4AYAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgCigCACAKKAIEIApBEGokAAshAAJAIAAEQCAAKAIADQEgACABNgJoDwsQjgoACxCQCgALIQACQCAABEAgACgCAA0BIAAgATYCZA8LEI4KAAsQkAoACyEAAkAgAARAIAAoAgANASAAIAE2AkgPCxCOCgALEJAKAAshAAJAIAAEQCAAKAIADQEgACABNgJEDwsQjgoACxCQCgALLAAgASgCACAAKAIALQAAaEECdCIAKAL0h0kgACgC4IdJIAEoAgQoAgwRAAALLAAgASgCACAAKAIALQAAaEECdCIAKAKEjkkgACgC8I1JIAEoAgQoAgwRAAALLgAgAEEcakEAIAEpAgBC2v2W/+no6PrBAIUgASkCCELW+4aRyMDiv/4AhYRQGwssACAAQRxqQQAgASkCAELtwsSbx9P/rT+FIAEpAghC/J7N1v6Dwrh+hYRQGwsuACAAQRxqQQAgASkCAELtuq22zYXU9eMAhSABKQIIQviCmb2V7sbFuX+FhFAbCywAIABBHGpBACABKQIAQvep0+7yobOVe4UgASkCCEKWuaPa9sSH1CeFhFAbCysAIAEoAgAgACgCAC0AAEECdCIAKALohkkgACgCqIZJIAEoAgQoAgwRAAALKQAgASgCACAALQAAaEECdCIAKAKciEkgACgCiIhJIAEoAgQoAgwRAAALKwAgASgCACAAKAIALQAAQQJ0IgAoAqiJSSAAKALoiEkgASgCBCgCDBEAAAslACAARQRAQa35xABBMhCPCgALIAAgAiADIAQgBSABKAIQEQ8ACysAIAEoAgAgACgCAC0AAEECdCIAKALUjUkgACgCuI1JIAEoAgQoAgwRAAALKwAgASgCACAAKAIALQAAQQJ0IgAoAtiOSSAAKAKYjkkgASgCBCgCDBEAAAsrACABKAIAIAAoAgAtAABBAnQiACgC0JFJIAAoAryRSSABKAIEKAIMEQAACy0AIABBHGpBACABKQIAQp6ptofpq8f75ACFIAEpAghChJXY5rmb/qdphYRQGwsrACABKAIAIAAoAgAtAABBAnQiACgC+JFJIAAoAuSRSSABKAIEKAIMEQAACy0AIABBHGpBACABKQIAQvXXvMnIzNazOoUgASkCCEL+28ub8+W5xvUAhYRQGwsuACAAQSBqQQAgASkCAELhypSvjYKC2fIAhSABKQIIQqbKhrK+ypOwu3+FhFAbCy0AIABBHGpBACABKQIAQpLXooDhkqzi9QCFIAEpAghClJ2A4Jq0sLALhYRQGwslACAAQYiWwQA2AgQgACABQQRqQQAgASgCAEGBgICAeEYbNgIACygAIAEoAgAgAC0AAEECdCIAKAK87EEgACgClOxBIAEoAgQoAgwRAAALKAAgASgCACAALQAAQQJ0IgAoAtDtQSAAKAKc7UEgASgCBCgCDBEAAAshACAAQcDOxAA2AgQgACABQQRqQQAgAS0AAEEkRhs2AgALKAAgASgCACAALQAAQQJ0IgAoAsyISSAAKAKwiEkgASgCBCgCDBEAAAsoACABKAIAIAAtAABBAnQiACgCsIpJIAAoAuiJSSABKAIEKAIMEQAACyMAIABFBEBBrfnEAEEyEI8KAAsgACACIAMgBCABKAIQEQsACyMAIABFBEBBrfnEAEEyEI8KAAsgACACIAMgBCABKAIQEQYACyMAIABFBEBBrfnEAEEyEI8KAAsgACACIAMgBCABKAIQEWUACyMAIABFBEBBrfnEAEEyEI8KAAsgACACIAMgBCABKAIQEWYACyMAIABFBEBBrfnEAEEyEI8KAAsgACACIAMgBCABKAIQEWcACygAIAEoAgAgAC0AAEECdCIAKALwmEkgACgCqJhJIAEoAgQoAgwRAAALIgAgASgCKEECRwRAIAAgASkC3AI3AwAPC0GsmMcAEN0JAAslACAAQailxwA2AgQgACABQQRqQQAgASgCAEGBgICAeEYbNgIACygAIAEoAgAgAC0AAEECdCIAKAKEo0kgACgC3KFJIAEoAgQoAgwRAAALJwAgACgCAC0AAEUEQCABQfKzxQBBBRCXAw8LIAFB97PFAEEEEJcDCyQAIAAtAABFBEAgAUHys8UAQQUQlwMPCyABQfezxQBBBBCXAwshACAARQRAQa35xABBMhCPCgALIAAgAiADIAEoAhARBQALIQAgAEUEQEGt+cQAQTIQjwoACyAAIAIgAyABKAIQEQAACyEAIAEoAgAgAC0AAEECdCgCiOxBQQEgASgCBCgCDBEAAAsiACABIAAtAABBAnQiACgCiIZJIAAoAuiFSSACKAIMEQAACx4AIABBwM7EADYCBCAAQQAgAUEEaiABLQAAGzYCAAscACABIAAoAgAiAEEEaigCACAAQQhqKAIAEJcDCx8AIABFBEBBrfnEAEEyEI8KAAsgACACIAEoAhARAgALthQBEn8Q2gQiCyABJgECfyAAIQ0Q2gQiEiACJgEgCyETIwBBQGoiByQAIAsQuAohAEHUtMkAKAIARQRAAkBBkLXJACgCACELQYy1yQAoAgAhBEGMtckAQoCAgIDAADcCAEGEtckAKAIAIQhBhLXJAEIENwIAQYC1yQAoAgAhA0H8tMkAQgA3AgBB+LTJACgCACEGQfS0yQAoAgAhDkH0tMkAQoCAgIDAADcCAEHstMkAKAIAIQVB7LTJAEIENwIAQei0yQAoAgAhDEHktMkAQgA3AgBB4LTJACgCACEKQdy0yQAoAgAhEEHctMkAQoCAgIDAADcCAEHUtMkAKAIAQdS0yQBCATcCAEGUtckAQQA2AgBFDQACQAJAIBAEQCAKQQRrKAIAIglBeHEiDyAQQQJ0IhBBBEEIIAlBA3EiCRtqSQ0BIAlBACAPIBBBJ2pLGw0CIAoQogILIAwEQCAFQQRrKAIAIgpBeHEiECAMQQJ0IgxBBEEIIApBA3EiChtqSQ0BIApBACAQIAxBJ2pLGw0CIAUQogILIA4EQCAGQQRrKAIAIgVBeHEiDCAOQQJ0Ig5BBEEIIAVBA3EiBRtqSQ0BIAVBACAMIA5BJ2pLGw0CIAYQogILIAMEQCAIQQRrKAIAIgZBeHEiDiADQQJ0IgNBBEEIIAZBA3EiBhtqSQ0BIAZBACAOIANBJ2pLGw0CIAgQogILIARFDQIgC0EEaygCACIIQXhxIgMgBEECdCIEQQRBCCAIQQNxIggbakkNACAIQQAgAyAEQSdqSxsNASALEKICDAILQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACwsCQAJAQdi0yQAoAgBFBEBB2LTJAEF/NgIAIAAQyQIgE0EAIA0Q4QghEEHktMkAKAIAIgsgDU8EQEHgtMkAKAIAIQsgByAQELgKIgQ2AgwgByANNgIYIAQgDUYEQCALIA0gEBDhCSAAEMkCQeS0yQAoAgAiACANTwRAQeC0yQAoAgAhC0H4tMkAKAIAIQQCQEH8tMkAKAIAIgpFDQAgCkECdCIARQ0AIARBACAA/AsAC0GEtckAKAIAIQ4CQEGItckAKAIAIgxFDQAgDEECdCIARQ0AIA5BACAA/AsACyANQQJ0IQggDQRAIAghAyALIQADQAJAIAAoAgAiBkGAgID8B08NACAKIAZBf3MiBUH//wNxIgZLBEAgBCAGQQJ0aiIGIAYoAgBBAWo2AgAgDCAFQRB2IgZLBEAgDiAGQQJ0aiIGIAYoAgBBAWo2AgAMAgsgBiAMQYDywAAQjAcACyAGIApB8PHAABCMBwALIABBBGohACADQQRrIgMNAAsLAkAgCkUEQEEAIQMMAQsgCkEBa0H/////A3EiAEEBaiIDQQdxIQUCQCAAQQdJBEBBACEDIAQhAAwBCyADQfj///8HcSEGQQAhAyAEIQADQCAAKAIAIQkgACADNgIAIABBBGoiDygCACERIA8gAyAJaiIDNgIAIABBCGoiCSgCACEPIAkgAyARaiIDNgIAIABBDGoiCSgCACERIAkgAyAPaiIDNgIAIABBEGoiCSgCACEPIAkgAyARaiIDNgIAIABBFGoiCSgCACERIAkgAyAPaiIDNgIAIABBGGoiCSgCACEPIAkgAyARaiIDNgIAIABBHGoiCSgCACERIAkgAyAPaiIDNgIAIAMgEWohAyAAQSBqIQAgBkEIayIGDQALCyAFRQ0AA0AgACgCACEGIAAgAzYCACAAQQRqIQAgAyAGaiEDIAVBAWsiBQ0ACwsgByADNgIAIA0EQCAIIAtqIQ8gC0EEaiEGIAhBBGtBAnZBAWohEUGQtckAKAIAIRRBlLXJACgCACEJQQAhBSALIQgDQCAGIQACQCAIKAIAIghBgICA/AdPDQACQCAKIAhBf3NB//8DcSIISwRAIAQgCEECdGoiCCgCACIGIAlPDQEgFCAGQQJ0aiAFNgIAIAggCCgCAEEBajYCAAwCCyAIIApB0PHAABCMBwALIAYgCUHg8cAAEIwHAAsgAEEEQQAgACAPRxtqIQYgACEIIBEgBUEBaiIFRw0ACwsCQCAMRQ0AIAxBAWtB/////wNxIgRBAWoiCEEHcSEGQQAhBSAOIQAgBEEHTwRAIAhB+P///wdxIQgDQCAAKAIAIQQgACAFNgIAIABBBGoiCigCACEJIAogBCAFaiIENgIAIABBCGoiBSgCACEKIAUgBCAJaiIENgIAIABBDGoiBSgCACEJIAUgBCAKaiIENgIAIABBEGoiBSgCACEKIAUgBCAJaiIENgIAIABBFGoiBSgCACEJIAUgBCAKaiIENgIAIABBGGoiBSgCACEKIAUgBCAJaiIENgIAIABBHGoiBSgCACEJIAUgBCAKaiIENgIAIAQgCWohBSAAQSBqIQAgCEEIayIIDQALCyAGRQ0AA0AgACgCACAAIAU2AgAgAEEEaiEAIAVqIQUgBkEBayIGDQALCyADRQ0EQZS1yQAoAgAiBEUNBEGQtckAKAIAIQAgA0EBayEGIARBAnRBBGshBEHstMkAKAIAIQ9B8LTJACgCACEFA0ACQAJAIA0gACgCACIISwRAIAsgCEECdGooAgBBf3NBEHYiCiAMTw0BIA4gCkECdGoiCigCACIJIAVJDQIgCSAFQcDxwAAQjAcACyAIIA1BoPHAABCMBwALIAogDEGw8cAAEIwHAAsgDyAJQQJ0aiAINgIAIAogCigCAEEBajYCACAGRQ0FIAZBAWshBiAAQQRqIQAgBCAEQQRrIQQNAAsMBAtBACANIABBkPLAABDqBwALDAMLQQAgDSALQYjuwAAQ6gcAC0GsisEAELAKAAsCQCAMQYCABE8EQCAOKAL8/w8gA0YNASAHIA5B/P8Paq1CgICAgBCENwMgIAcgB61CgICAgBCENwMYIAdCAjcCNCAHQQI2AiwgB0Hw8MAANgIoIAcgB0EYaiIANgIwIAdBDGoiCyAHQShqIgQQ7AMgBygCECEDIAcoAgwiCEGAgICAeEYNASAHIAcoAhQ2AhQgByADNgIQIAcgCDYCDCAHQQE2AiwgB0Gg+McANgIoIAdCATcCNCAHIAutQoCAgICwBYQ3AwAgByAHNgIwIAAgBBCxBiAHKAIcIAcoAiAQjwoAC0H//wMgDEGQ8cAAEIwHAAsCQCADRQ0AAkBB8LTJACgCACIAIANPBEBB7LTJACgCACEEIBJBACADEOEIIgAQuAohCyAHIAM2AhggByALNgIMIAMgC0cNASAAIAQgAxDgCSAAQYQISQ0CIAAQmwcMAgtBACADIABB+O3AABDqBwALDAELIBBBhAhPBEAgEBCbBwtB2LTJAEHYtMkAKAIAQQFqNgIAIBJBhAhPBEAgEhCbBwsgE0GECE8EQCATEJsHCyAHQUBrJAAgAwwBCyAHQQA2AihBACAHQQxqIAdBGGogB0EoakHg+cQAEPUHAAsLjxEBDX8Q2gQiAyABJgECfyAAIQkQ2gQiDSACJgEgAyEOIwBBQGoiBCQAIAMQvAohB0GotMkAKAIARQRAAkBBzLTJACgCACEAQci0yQAoAgAhA0HItMkAQoCAgIDAADcCAEHAtMkAKAIAIQZBwLTJAEIENwIAQby0yQAoAgAhCEG4tMkAQgA3AgBBtLTJACgCACEFQbC0yQAoAgAhCkGwtMkAQoCAgIAgNwIAQai0yQAoAgBBqLTJAEIBNwIAQdC0yQBBADYCAEUNAAJAAkAgCgRAIAVBBGsoAgAiC0F4cSIMIApBAXQiCkEEQQggC0EDcSILG2pJDQEgC0EAIAwgCkEnaksbDQIgBRCiAgsgCARAIAZBBGsoAgAiBUF4cSIKIAhBAnQiCEEEQQggBUEDcSIFG2pJDQEgBUEAIAogCEEnaksbDQIgBhCiAgsgA0UNAiAAQQRrKAIAIgZBeHEiCCADQQJ0IgNBBEEIIAZBA3EiBhtqSQ0AIAZBACAIIANBJ2pLGw0BIAAQogIMAgtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALCwJAAkACQEGstMkAKAIARQRAQay0yQBBfzYCAEG4tMkAKAIAIgMgB0kEQCAHIANrIgBBsLTJACgCACADa0sEQEGwtMkAIAMgAEECQQIQpAVBuLTJACgCACEDC0G0tMkAKAIAIgggA0EBdGohBiAAQQJPBH8gAEEBdEECayIFBEAgBkEAIAX8CwALIAAgA2oiAEEBayEDIAggAEEBdGpBAmsFIAYLQQA7AQBBuLTJACADQQFqNgIAC0HEtMkAKAIAIgMgB0kEQCAHIAMiAGsiBkG8tMkAKAIAIABrSwRAQby0yQAgACAGQQRBBBCkBUHEtMkAKAIAIQALQcC0yQAoAgAiBSAAQQJ0aiEIIAZBAk8EfyAHIANBf3NqQQJ0IgMEQCAIQQAgA/wLAAsgACAGaiIDQQFrIQAgBSADQQJ0akEEawUgCAtBADYCAEHEtMkAIABBAWo2AgALQdC0yQAoAgAiA0GA+AFNBEBBgfgBIAMiAGsiB0HItMkAKAIAIABrSwRAQci0yQAgACAHQQRBBBCkBUHQtMkAKAIAIQALQcy0yQAoAgAiBiAAQQJ0aiEHIANBgPgBRwR/QYDgByADQQJ0ayIIBEAgB0EAIAj8CwALIAYgACADa0ECdGpBgOAHagUgBwtBADYCAAsgDiUBQQAgCRAcIQEQ2gQiCCABJgEgCUG4tMkAKAIAIgBLDQFBACEGQbS0yQAoAgAhByAEIAgQvAoiADYCDCAEIAk2AhggACAJRw0DIAcgCSAIJQEQHUHQtMkAQQA2AgBByLTJACgCAEGA+AFNBEBByLTJAEEAQYH4AUEEQQQQpAVB0LTJACgCACEGC0HMtMkAKAIAIgogBkECdGoiAEEAQYDgB/wLAEHQtMkAIAZBgfgBaiIPNgIAIABBgOAHakEANgIAIAcgCUEBdCILaiEMAkAgCUUNACAHQQJqIQACfyALQQJrIgNBAnEEQCAAIQMgBwwBCyAHLwEAIgVB//cBTQRAIAogBUECdGoiBSAFKAIAQQFqNgIACyADRQ0BIABBAkEAIAtBAkcbaiEDIAALIQUDQCAFLwEAIgBBgPgBSQRAIAogAEECdGoiACAAKAIAQQFqNgIACyADQQJBACADIAxHG2ohBSADLwEAIgBB//cBTQRAIAogAEECdGoiACAAKAIAQQFqNgIACyAFQQBBAiAFIAxGIgAbaiEDIABFDQALCyAKIA9BAnRqQQhrIgUoAgAhAyAFQQA2AgAgBkEDcUEBRwRAIAZBAWtBA3EhAANAIAVBBGsiBSgCACEGIAUgAzYCACAEIAMgBmoiAzYCACAAQQFrIgANAAsLIAVBEGshBQNAIAVBDGoiACgCACEGIAAgAzYCACAEIAMgBmoiADYCACAFQQhqIgMoAgAhBiADIAA2AgAgBCAAIAZqIgA2AgAgBUEEaiIDKAIAIQYgAyAANgIAIAQgACAGaiIANgIAIAUoAgAhAyAFIAA2AgAgBCAAIANqIgM2AgAgBSAKRyAFQRBrIQUNAAsgCUUNAiAHQQJqIQYgC0ECa0EBdkEBaiELQcC0yQAoAgAhD0HEtMkAKAIAIQlBACEAA0AgBy8BACIHQYD4AUkEQCAJIAogB0ECdGoiBygCACIFTQRAIAUgCUGA8cAAEIwHAAsgDyAFQQJ0aiAANgIAIAcgBygCAEEBajYCAAsgBkECQQAgBiIHIAxHG2ohBiALIABBAWoiAEcNAAsMAgtBrIrBABCwCgALQQAgCSAAQezrwAAQ6gcACwJAIAooAgAgA0YNACAEIAqtQoCAgIAQhDcDICAEIAStQoCAgIAQhDcDGCAEQgI3AjQgBEECNgIsIARB8PDAADYCKCAEIARBGGoiADYCMCAEQQxqIgkgBEEoaiIHEOwDIAQoAhAhAyAEKAIMIgZBgICAgHhGDQAgBCAEKAIUNgIUIAQgAzYCECAEIAY2AgwgBEEBNgIsIARBoPjHADYCKCAEQgE3AjQgBCAJrUKAgICAsAWENwMAIAQgBDYCMCAAIAcQsQYgBCgCHCAEKAIgEI8KAAsCQCADRQ0AAkBBxLTJACgCACIAIANPBEBBwLTJACgCACEHIA1BACADEOEIIgAQuAohCSAEIAM2AhggBCAJNgIMIAMgCUcNASAAIAcgAxDgCSAAQYQISQ0CIAAQmwcMAgtBACADIABB3OvAABDqBwALDAELIAhBhAhPBEAgCBCbBwtBrLTJAEGstMkAKAIAQQFqNgIAIA1BhAhPBEAgDRCbBwsgDkGECE8EQCAOEJsHCyAEQUBrJAAgAwwBCyAEQQA2AihBACAEQQxqIARBGGogBEEoakHg+cQAEPUHAAsLHAAgAEEEahDqAiAAKAIkIgAgACgCACgCABEDAAscACAAKAIAIgAoAgAgASAAQQRqKAIAKAIQEQIACxwAIAAoAgAiACgCACABIABBBGooAgAoAgwRAgALFAAgACAAIAEgACABXRsgASABXBsLFAAgASABIAAgACABXRsgACAAXBsLGwEBbyAAJQEgASACEAAhAxDaBCIAIAMmASAACxsBAW8gACUBIAElARAJIQIQ2gQiACACJgEgAAscAQFvIAAlASABJQEgARCbByACJQEgAhCbBxALCx8AQYi7yQAtAABFBEBBiLvJAEEBOgAACyAAQQE2AgALHQAgASAALQAAQQJ0IgAoAqSESSAAKAKQhEkQlwMLHAAgASgCACAAKAIAIAAoAgQgASgCBCgCDBEAAAsZACABIAAoAgAiACgCACAAQQRqKAIAEJcDCxkBAW8gACUBIAEQDCECENoEIgAgAiYBIAALFwAgACgCACABIAAoAgRBDGooAgARAgALFQAgACgCACIAQYQITwRAIAAQmwcLCxcBAW8gACABEA8hAhDaBCIAIAImASAACxcBAW8gACABECwhAhDaBCIAIAImASAACxYAIAEgACgCACIAKAIAIAAoAgQQlwMLGQAgASgCAEGQl8cAQRMgASgCBCgCDBEAAAsZACABKAIAQdmXxwBBFyABKAIEKAIMEQAACxkAIAEoAgBB6ZLGAEEIIAEoAgQoAgwRAAALGQAgASgCAEGjl8cAQRAgASgCBCgCDBEAAAsZACABKAIAQaTlwABBFCABKAIEKAIMEQAACxkAIAEoAgBB5ZLGAEEEIAEoAgQoAgwRAAALGQAgASgCAEGilscAQQwgASgCBCgCDBEAAAsZACABKAIAQYWQxgBBAyABKAIEKAIMEQAACxkAIAEoAgBB8JfHAEEUIAEoAgQoAgwRAAALGQAgASgCAEH+lccAQQwgASgCBCgCDBEAAAsZACABKAIAQbOXxwBBEiABKAIEKAIMEQAACxkAIAEoAgBBxZfHAEEUIAEoAgQoAgwRAAALGQAgASgCAEHylscAQQ8gASgCBCgCDBEAAAsZACABKAIAQciCwQBBCiABKAIEKAIMEQAACxkAIAEoAgBBhJjHAEEXIAEoAgQoAgwRAAALGQAgASgCAEHM5cAAQRQgASgCBCgCDBEAAAsZACABKAIAQYCQxgBBAiABKAIEKAIMEQAACxkAIAEoAgBBxpbHAEEOIAEoAgQoAgwRAAALGQAgASgCAEGLkMYAQQUgASgCBCgCDBEAAAsZACABKAIAQYKQxgBBAyABKAIEKAIMEQAACxkAIAEoAgBBupbHAEEMIAEoAgQoAgwRAAALGQAgASgCAEG45cAAQRQgASgCBCgCDBEAAAsZACABKAIAQeOWxwBBDyABKAIEKAIMEQAACxkAIAEoAgBBgZfHAEEPIAEoAgQoAgwRAAALGQAgASgCAEHUlscAQQ8gASgCBCgCDBEAAAsZACABKAIAQYiQxgBBAyABKAIEKAIMEQAACxkAIAEoAgBB4OXAAEEUIAEoAgQoAgwRAAALGQAgASgCAEHcksYAQQkgASgCBCgCDBEAAAsZACABKAIAQemVxwBBDiABKAIEKAIMEQAACxkAIAEoAgBBlpbHAEEMIAEoAgQoAgwRAAALGQAgASgCAEGulscAQQwgASgCBCgCDBEAAAsZACABKAIAQYqWxwBBDCABKAIEKAIMEQAACxIAIABBBGoQ6gIgAEEkahCxBAsSACAAQQRqEOoCIABBHGoQ4wQLEgAgAEEEahDqAiAAQRxqELEECxYAIABB8JnBADYCBCAAIAFBCGo2AgALGQAgASgCAEHn+8cAQQUgASgCBCgCDBEAAAsOACAABEAACyACEP8HAAsWACAAQcSXwQA2AgQgACABQRxqNgIACxYAIABBgJjBADYCBCAAIAFBHGo2AgALFgAgAEG8mMEANgIEIAAgAUEcajYCAAsWACAAQfiYwQA2AgQgACABQRxqNgIACxYAIABBtJnBADYCBCAAIAFBHGo2AgALFgAgAEGIlsEANgIEIAAgAUEcajYCAAsWACAAQfCZwQA2AgQgACABQRxqNgIACxYAIABBrJrBADYCBCAAIAFBHGo2AgALEwAgACAAIAAoAgAiAGo2AgAgAAsUACABKAIEGiAAQYzvwQAgARDBAwsRACACKAIEGiAAIAEgAhDBAwsUACABKAIEGiAAQbDxwQAgARDBAwsUACABKAIEGiAAQbTvwQAgARDBAwsUACABKAIEGiAAQdTxwQAgARDBAwsUACABKAIEGiAAQeCBwgAgARDBAwsUACABKAIEGiAAQey1xAAgARDBAwsUACABIAIgAyAEIAUgACgCABEHAAsUACABKAIEGiAAQaC6xQAgARDBAwsZACABKAIAQYS4xQBBEiABKAIEKAIMEQAACxQAIAEoAgQaIABBxJLGACABEMEDCxQAIAEoAgQaIABB+J3GACABEMEDCxYAIABBqLDHADYCBCAAIAFBHGo2AgALFgAgAEHksMcANgIEIAAgAUEcajYCAAsWACAAQbCvxwA2AgQgACABQRxqNgIACxYAIABB7K/HADYCBCAAIAFBIGo2AgALGQAgASgCAEGYrscAQQwgASgCBCgCDBEAAAsSACAAQQRqEOoCIABBIGoQgwILFgAgAEGopccANgIEIAAgAUEcajYCAAsWACAAQaCxxwA2AgQgACABQRxqNgIACxYAIABBnLbHADYCBCAAIAFBDGo2AgALFAAgASgCBBogAEHkt8cAIAEQwQMLFAAgASgCBBogAEHMhcgAIAEQwQMLFgAgASAAKAIAIgAoAgQgACgCCBCXAwsZACABKAIAQcSdyABBCyABKAIEKAIMEQAACxUBAW8gABAEIQEQ2gQiACABJgEgAAsXAgFvAX8gABArIQEQ2gQiAiABJgEgAgsUACAAKAIAIgAgACgCACgCABEDAAsUACAAKAIIIgAgACgCACgCABEDAAsUACAAKAIAIAEgACgCBCgCEBECAAuTBwEDfyMAQfAAayIFJAAgBSADNgIMIAUgAjYCCAJ/AkACQAJAAkAgAUGBAk8EQEH9ASEGA0AgACAGaiIHQQNqLAAAQb9/Sg0DIAdBAmosAABBv39KDQIgB0EBaiwAAEG/f0oNBCAHLAAAQb9/Sg0FIAZBBGsiBkF9Rw0AC0EAIQYMBAsgBSABNgIUIAUgADYCEEEBDAQLIAZBAmohBgwCCyAGQQNqIQYMAQsgBkEBaiEGCyAFIAA2AhAgBSAGNgIUQQVBACABIAZLIgYbIQdB9JjCAEEBIAYbCyEGIAUgBzYCHCAFIAY2AhgCQAJAIAUgASACTwR/IAEgA08NASADBSACCzYCKCAFQQM2AjQgBUG8msIANgIwIAVCAzcCPCAFIAVBGGqtQoCAgICgAYQ3A1ggBSAFQRBqrUKAgICAoAGENwNQIAUgBUEoaq1CgICAgBCENwNIDAELIAIgA00EQCACRSABIAJNckUEQCADIAIgACACaiwAAEG/f0obIQMLIAUgAzYCIAJ/AkACQCABIANNDQBBACEHAkAgA0UNAANAIAAgA2osAABBv39KBEAgAyEHDAILIANBAWsiAw0ACwsgASAHRg0AAkACQCAAIAdqIgIsAAAiA0EASARAIAItAAFBP3EhACADQR9xIQEgA0FfSw0BIAFBBnQgAHIhBgwCCyAFIANB/wFxNgIkQQEMBAsgAi0AAkE/cSAAQQZ0ciEAIANBcEkEQCAAIAFBDHRyIQYMAQsgAUESdEGAgPAAcSACLQADQT9xIABBBnRyciIGQYCAxABGDQELIAUgBjYCJCAGQYABTw0BQQEMAgsgBBDdCQALQQIgBkGAEEkNABpBA0EEIAZBgIAESRsLIQAgBSAHNgIoIAUgACAHajYCLCAFQQU2AjQgBUH8mcIANgIwIAVCBTcCPCAFIAVBGGqtQoCAgICgAYQ3A2ggBSAFQRBqrUKAgICAoAGENwNgIAUgBUEoaq1CgICAgOAFhDcDWCAFIAVBJGqtQoCAgIDwBYQ3A1AgBSAFQSBqrUKAgICAEIQ3A0gMAQsgBUEENgI0IAVBnJnCADYCMCAFQgQ3AjwgBSAFQRhqrUKAgICAoAGENwNgIAUgBUEQaq1CgICAgKABhDcDWCAFIAVBDGqtQoCAgIAQhDcDUCAFIAVBCGqtQoCAgIAQhDcDSAsgBSAFQcgAajYCOCAFQTBqIAQQjQgACxQAIAAoAgAgASAAKAIEKAIMEQIACxEAIAAgASACIAMgBCAFENIECxIAIABBEUEQIAEtAJMBGzoAAAsVAgFvAX8QBSEAENoEIgEgACYBIAELEQAgACUBIAElASACJQEQBhoLFQIBbwF/EAchABDaBCIBIAAmASABC30BA38Q2gQiAyABJgECQAJAAkAgAARAIABBCGsiAiACKAIAQQFqIgQ2AgAgBEUNASAAKAIADQIgAEF/NgIAIABBBGogAxDEAiAAIAAoAgBBAWo2AgAgAiACKAIAQQFrIgA2AgAgAEUEQCACEOQGCwwDCxCOCgsACxCQCgALC4gBAQN/ENoEIgMgASYBAkACQAJAIAAEQCAAQQhrIgIgAigCAEEBaiIENgIAIARFDQEgACgCAA0CIABBfzYCACAAQQhqKAIAIABBDGooAgAgAxCtAyAAIAAoAgBBAWo2AgAgAiACKAIAQQFrIgA2AgAgAEUEQCACEOMGCwwDCxCOCgsACxCQCgALCxEAIAEgACgCACAAKAIEEJcDCxMAIABBKDYCBCAAQZifxwA2AgALEQAgASAAKAIEIAAoAggQlwMLEwAgAEHomsEANgIEIAAgATYCAAsTACAAQaSbwQA2AgQgACABNgIACxMAIABB4JvBADYCBCAAIAE2AgALEwAgAEGMnMEANgIEIAAgATYCAAsTACAAQcicwQA2AgQgACABNgIACxMAIABBhJ3BADYCBCAAIAE2AgALEwAgAEHAncEANgIEIAAgATYCAAsTACAAQfydwQA2AgQgACABNgIACxEAIAAoAgQgACgCCCABELUCCxEAIAEoAgAgASgCBCAAEMEDCxwAIABBmLvP7AM2AgggAELQ5+byk+vFmz83AgALEQAgACgCACAAKAIEIAEQtQILEwAgAEHMs8cANgIEIAAgATYCAAsTACAAQdyxxwA2AgQgACABNgIACxMAIABBiLTHADYCBCAAIAE2AgALEwAgAEHUsscANgIEIAAgATYCAAsTACAAQZiyxwA2AgQgACABNgIACxMAIABBkLPHADYCBCAAIAE2AgALEwAgAEG8jMgANgIEIAAgATYCAAsWAEG4u8kAIAA2AgBBtLvJAEEBOgAACxEBAX8Q2gQiASAAJQEmASABCw4AIAAlASABJQFBABAWCw8AQayewgBBKyAAEOsHAAtpAQF/IwBBMGsiAyQAIAMgADYCBCADIAE2AgAgA0EDNgIMIANB+JvCADYCCCADQgI3AhQgAyADQQRqrUKAgICAEIQ3AyggAyADrUKAgICAEIQ3AyAgAyADQSBqNgIQIANBCGogAhCNCAALEgAgACABLQDoBC0A+J1JOgAACwwAIAAlASABIAIQAgsMACAAIAEgAiUBEAMLDQAgACUBIAElARAIGgsMACAAIAEgAiUBEBkLEQAgAEGohsEA/QACAP0LAgALEQAgAEG4hsEA/QACAP0LAgALEQAgAEHIhsEA/QACAP0LAgALEQAgAEHYhsEA/QACAP0LAgALEQAgAEHohsEA/QACAP0LAgALEQAgAEH4hsEA/QACAP0LAgALEQAgAEGIh8EA/QACAP0LAgALEQAgAEGYh8EA/QACAP0LAgALEQAgAEGoh8EA/QACAP0LAgALEQAgAEG4h8EA/QACAP0LAgALEQAgAEHIh8EA/QACAP0LAgALEQAgAEHYh8EA/QACAP0LAgALEQAgAEHoh8EA/QACAP0LAgALEQAgAEH4h8EA/QACAP0LAgALEQAgAEGIiMEA/QACAP0LAgALEQAgAEGYiMEA/QACAP0LAgALEQAgAEGoiMEA/QACAP0LAgALEQAgAEG4iMEA/QACAP0LAgALEQAgAEHIiMEA/QACAP0LAgALEQAgAEHYiMEA/QACAP0LAgALEQAgAEHoiMEA/QACAP0LAgALEQAgAEH4iMEA/QACAP0LAgALEQAgAEGIicEA/QACAP0LAgALEQAgAEGYicEA/QACAP0LAgALEQAgAEGoicEA/QACAP0LAgALEQAgAEG4icEA/QACAP0LAgALEQAgAEHIicEA/QACAP0LAgALEQAgAEHYicEA/QACAP0LAgALDgAgAEG4oMEAIAEQwQMLDgAgAEGck8EAIAEQwQMLCgAgAEEEahDqAgsKACAAQQhqELEECxEAIABB8KDHAP0AAgD9CwIACxEAIABB5JPBAP0AAgD9CwIACxEAIABB9JPBAP0AAgD9CwIACxEAIABBhJTBAP0AAgD9CwIACxEAIABBlJTBAP0AAgD9CwIACxEAIABBpJTBAP0AAgD9CwIACxEAIABBtJTBAP0AAgD9CwIACxEAIABBxJTBAP0AAgD9CwIACxEAIABB1JTBAP0AAgD9CwIACxEAIABB5JTBAP0AAgD9CwIACw0AQeyNyABBGxCPCgALCQAgACABECgACw4AQYeOyABBzwAQjwoACwsAIAAoAgAgARBoCw4AIAFBsorDAEEYEJcDCw4AIAFBkIrDAEEgEJcDCxEAIABBkKHHAP0AAgD9CwIACw4AIAFBmJbIAEECEJcDCxEAIABBtLbEAP0AAgD9CwIACwwAIAAoAgAgARD8BAsRACAAQaS2xAD9AAIA/QsCAAsMACAAKAIAIAEQpgILDAAgACgCACABEPQECwwAIAAoAgAgARCeBAsMACAAKAIAIAEQiwULEQAgAEHgn8cA/QACAP0LAgALEQAgAEHQn8cA/QACAP0LAgALEQAgAEHgoMcA/QACAP0LAgALEQAgAEGAoMcA/QACAP0LAgALEQAgAEGgoMcA/QACAP0LAgALEQAgAEHAn8cA/QACAP0LAgALEQAgAEHAoMcA/QACAP0LAgALDQAgACABKQKEATcDAAsLACAALQCTAUECcgsKACAAQSBqEMYDCxEAIABB8J/HAP0AAgD9CwIACxEAIABBsKDHAP0AAgD9CwIACxEAIABB0KDHAP0AAgD9CwIACxEAIABBkKDHAP0AAgD9CwIACxEAIABBgKHHAP0AAgD9CwIACxEAIABBgPjHAP0AAgD9CwIACwwAIAAgASkCADcDAAsRACAAQZD4xwD9AAIA/QsCAAsKACAAIAElARAUC00BAX8jAEEwayIBJAAgAUEBNgIMIAFBoPjHADYCCCABQgE3AhQgASABQS9qrUKAgICAkAaENwMgIAEgAUEgajYCECABQQhqIAAQjQgAC00BAX8jAEEwayIBJAAgAUEBNgIMIAFBoPjHADYCCCABQgE3AhQgASABQS9qrUKAgICAoAaENwMgIAEgAUEgajYCECABQQhqIAAQjQgACwkAIABCATcDAAsJACAAQQA2AgALCgAgAEGAARDRBAsIACAAIAEQaAsSACAAQoaAgICAgICAgH83AwAL2QsCBX0GfwJ9QwAAgD8hAgJAAkACQAJAIAC8IgpBgICA/ANGDQAgAbwiCUH/////B3EiCEUNAAJ/AkAgAIsiA7wiB0GAgID8B0sgCEGAgID8B0tyRQRAIApBAE4NAUECIAhB////2wRLDQIaIAhBgICA/ANJDQFBACAIQZYBIAhBF3ZrIgt2IgwgC3QgCEcNAhpBAiAMQQFxawwCCyAAIAGSDAYLQQALIQsCQAJAAkACQCAIQYCAgPwDRwRAIAhBgICA/AdHDQECQAJAIAdBgICA/ANKIAdBgICA/ANIa0H/AXEOAgcBAAtDAAAAACABjCAJQQBOGwwKCyABQwAAAAAgCUEAThsMCQsgCUEASA0BIAAMCAsCQCAJQYCAgPgDRwRAIAlBgICAgARHDQEgACAAlAwJCyAKQQBODQILAkACQAJAAkAgB0EAIAdB/////wNxQYCAgPwDRxtFBEBDAACAPyADlSADIAlBAEgbIQIgCkEATg0IIAcgC2pBgICA/ANHDQEgAiACkyIAIACVDAwLQwAAgD8hBSAKQQBODQMgCw4CAQIDCyACjCACIAtBAUYbDAoLIAAgAJMiACAAlQwJC0MAAIC/IQULIAhBgICA6ARNBEAgA0MAAIBLlLwgByAHQYCAgARJIggbIgdB////A3EiCkGAgID8A3IhCyAHQRd1Qel+QYF/IAgbaiEIQQAhBwJAIApB8ojzAEkNACAKQdfn9gJJBEBBASEHDAELIApBgICA+ANyIQsgCEEBaiEICyAHQQJ0IgoqApC0SUMAAIA/IAoqAoi0SSIAIAu+IgSSlSICIAQgAJMiAyALQQF2QYDg//8BcSAHQRV0akGAgICCAmq+IgYgAyAClCIDvEGAYHG+IgKUkyAAIAaTIASSIAKUk5QiACACIAKUIgRDAABAQJIgACADIAKSlCADIAOUIgAgAJQgACAAIAAgACAAQ0LxUz6UQ1UybD6SlEMFo4s+kpRDq6qqPpKUQ7dt2z6SlEOamRk/kpSSIgaSvEGAYHG+IgCUIAMgBiAAQwAAQMCSIASTk5SSIgMgAyACIACUIgKSvEGAYHG+IgAgApOTQ084dj+UIABDxiP2uJSSkiICIAoqApi0SSIEIAIgAEMAQHY/lCIAkpIgCLIiApK8QYBgcb4iAyACkyAEkyAAk5MhAgwDCyAHQfj///sDTwRAIAdBh4CA/ANNBEAgA0MAAIC/kiIAQ3Cl7DaUIAAgAJRDAAAAPyAAIABDAACAvpRDq6qqPpKUk5RDO6q4v5SSIgIgAiAAQwCquD+UIgCSvEGAYHG+IgMgAJOTIQIMBAsgCUEATA0GDAcLIAlBAE4NBQwGC0MAAIA/IACVDAYLIACRDAULAkACQCADIAlBgGBxviIElCIAIAEgApQgASAEkyADlJIiAZIiArwiCUGAgICYBEwEQCAJQYCAgJgERg0BIAK8Qf////8HcSIHQYCA2JgESw0EIAEgAiAAk19FIAlBgIDYmHxHcg0CDAULDAULIAFDPKo4M5IgAiAAk14NBCACvEH/////B3EhBwtBACEIIAUCfSAHQYCAgPgDSwR/QQBBgICABCAHQRd2QQJqdiAJaiIHQf///wNxQYCAgARyQRYgB0EXdiIKa3YiCGsgCCAJQQBIGyEIIAEgAEGAgIB8IApBAWp1IAdxvpMiAJK8BSAJC0GAgH5xviICQwByMT+UIgUgAkOMvr81lCABIAIgAJOTQxhyMT+UkiICkiIAIAAgACAAIACUIgEgASABIAEgAUNMuzEzlEMO6t21kpRDVbOKOJKUQ2ELNruSlEOrqio+kpSTIgGUIAFDAAAAwJKVIAIgACAFk5MiASAAIAGUkpOTQwAAgD+SIgC8IAhBF3RqIglBgICABE4EQCAJvgwBCyAAIAgQsAYLlCECCyACDAMLIAVDYEKiDZRDYEKiDZQMAgsgBUNgQqINlENgQqINlAwBCyAFQ8rySXGUQ8rySXGUCwsIACAAJQEQAQsIACAAJQEQCgsIACAAJQEQFQsIACAAJQEQFwsIACAAJQEQGwsIACAALQDoBAsHABAqEIUICwQAQQALBABBAQsCAAsLtK4JiAEAQYCAwAAL8WFpbnZhbGlkIGxpdGVyYWwvbGVuZ3RocyBzZXQAaW52YWxpZCBjb2RlIGxlbmd0aHMgc2V0AHVua25vd24gaGVhZGVyIGZsYWdzIHNldABpbnZhbGlkIGRpc3RhbmNlcyBzZXQAaW52YWxpZCBiaXQgbGVuZ3RoIHJlcGVhdAAvVXNlcnMvZG1hcmNvcy9EZXZlbG9wbWVudC9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvc3B6LnJzAGxpYnJhcnkvY29yZS9zcmMvc3RyL2xvc3N5LnJzAC9Vc2Vycy9kbWFyY29zL0RldmVsb3BtZW50L3NwYXJrL3J1c3Qvc3BhcmstbGliL3NyYy9wbHkucnMAL3J1c3QvZGVwcy9ydXN0Yy1kZW1hbmdsZS0wLjEuMjYvc3JjL2xlZ2FjeS5ycwAvcnVzdGMvZjgyOTdlMzUxYTQwYzE0MzlhNDY3YmJiYjY4NzkwODgwNDdmNTBiMy9saWJyYXJ5L2NvcmUvc3JjL2l0ZXIvYWRhcHRlcnMvc3RlcF9ieS5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL21lbWNoci0yLjcuNi9zcmMvYXJjaC9hbGwvdHdvd2F5LnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvemxpYi1ycy0wLjYuMy9zcmMvaW5mbGF0ZS93aW5kb3cucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy95dXYucnMAbGlicmFyeS9jb3JlL3NyYy9udW0vZmx0MmRlYy9zdHJhdGVneS9ncmlzdS5ycwBsaWJyYXJ5L2NvcmUvc3JjL3NsaWNlL3NvcnQvc2hhcmVkL3NtYWxsc29ydC5ycwAvcnVzdGMvZjgyOTdlMzUxYTQwYzE0MzlhNDY3YmJiYjY4NzkwODgwNDdmNTBiMy9saWJyYXJ5L2NvcmUvc3JjL3NsaWNlL3NvcnQvc3RhYmxlL3F1aWNrc29ydC5ycwBzcGFyay13b3JrZXItcnMvc3JjL3NvcnQucnMAL3J1c3RjL2Y4Mjk3ZTM1MWE0MGMxNDM5YTQ2N2JiYmI2ODc5MDg4MDQ3ZjUwYjMvbGlicmFyeS9hbGxvYy9zcmMvYm94ZWQvY29udmVydC5ycwBsaWJyYXJ5L2FsbG9jL3NyYy9mbXQucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9hbnlob3ctMS4wLjk4L3NyYy9mbXQucnMAbGlicmFyeS9jb3JlL3NyYy9udW0vZGl5X2Zsb2F0LnJzAC9Vc2Vycy9kbWFyY29zL0RldmVsb3BtZW50L3NwYXJrL3J1c3Qvc3BhcmstbGliL3NyYy90c3BsYXQucnMAL1VzZXJzL2RtYXJjb3MvRGV2ZWxvcG1lbnQvc3BhcmsvcnVzdC9zcGFyay1saWIvc3JjL2tzcGxhdC5ycwAvVXNlcnMvZG1hcmNvcy9EZXZlbG9wbWVudC9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvYW50aXNwbGF0LnJzAC9Vc2Vycy9kbWFyY29zL0RldmVsb3BtZW50L3NwYXJrL3J1c3Qvc3BhcmstbGliL3NyYy9nc3BsYXQucnMAL1VzZXJzL2RtYXJjb3MvRGV2ZWxvcG1lbnQvc3BhcmsvcnVzdC9zcGFyay1saWIvc3JjL2NzcGxhdC5ycwBzcGFyay13b3JrZXItcnMvc3JjL2V4dF9zcGxhdHMucnMAc3Bhcmstd29ya2VyLXJzL3NyYy9wYWNrZWRfc3BsYXRzLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvZmRlZmxhdGUtMC4zLjcvc3JjL2RlY29tcHJlc3MucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy9sb3NzbGVzcy5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3NlcmRlX2NvcmUtMS4wLjIyOC9zcmMvZGUvaW1wbHMucnMAL1VzZXJzL2RtYXJjb3MvRGV2ZWxvcG1lbnQvc3BhcmsvcnVzdC9zcGFyay1saWIvc3JjL3NvZ3MucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi96bGliLXJzLTAuNi4zL3NyYy9pbmZsYXRlL2luZnRyZWVzLnJzAGxpYnJhcnkvc3RkL3NyYy9zeXMvc3luYy9tdXRleC9ub190aHJlYWRzLnJzAC9ydXN0Yy9mODI5N2UzNTFhNDBjMTQzOWE0NjdiYmJiNjg3OTA4ODA0N2Y1MGIzL2xpYnJhcnkvc3RkL3NyYy9zeXMvc3luYy9vbmNlL25vX3RocmVhZHMucnMAbGlicmFyeS9hbGxvYy9zcmMvc3RyLnJzAC9ydXN0Yy9mODI5N2UzNTFhNDBjMTQzOWE0NjdiYmJiNjg3OTA4ODA0N2Y1MGIzL2xpYnJhcnkvY29yZS9zcmMvaXRlci90cmFpdHMvaXRlcmF0b3IucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9hbnlob3ctMS4wLjk4L3NyYy9lcnJvci5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3NlcmRlX2pzb24tMS4wLjE0NS9zcmMvZXJyb3IucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS0wLjI1LjEwL3NyYy9jb2xvci5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL21lbWNoci0yLjcuNi9zcmMvYXJjaC9nZW5lcmljL3BhY2tlZHBhaXIucnMAbGlicmFyeS9jb3JlL3NyYy9zbGljZS9tZW1jaHIucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy9sb29wX2ZpbHRlci5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3psaWItcnMtMC42LjMvc3JjL2luZmxhdGUvd3JpdGVyLnJzAC9ydXN0Yy9mODI5N2UzNTFhNDBjMTQzOWE0NjdiYmJiNjg3OTA4ODA0N2Y1MGIzL2xpYnJhcnkvY29yZS9zcmMvc2xpY2UvaXRlci5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2luZGV4bWFwLTIuMTMuMC9zcmMvaW5uZXIucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9taW5pel9veGlkZS0wLjguOS9zcmMvaW5mbGF0ZS9vdXRwdXRfYnVmZmVyLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvcG5nLTAuMTguMS9zcmMvZGVjb2Rlci91bmZpbHRlcmluZ19idWZmZXIucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS0wLjI1LjEwL3NyYy9pbWFnZXMvYnVmZmVyLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvcG5nLTAuMTguMS9zcmMvZGVjb2Rlci9yZWFkX2RlY29kZXIucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy92cDhfYXJpdGhtZXRpY19kZWNvZGVyLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvaW1hZ2UtMC4yNS4xMC9zcmMvY29kZWNzL3dlYnAvZGVjb2Rlci5ycwAvVXNlcnMvZG1hcmNvcy9EZXZlbG9wbWVudC9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvZGVjb2Rlci5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2ltYWdlLXdlYnAtMC4yLjQvc3JjL2RlY29kZXIucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi96aXAtNy4yLjAvc3JjL3JlYWQvbWFnaWNfZmluZGVyLnJzAC9ydXN0Yy9mODI5N2UzNTFhNDBjMTQzOWE0NjdiYmJiNjg3OTA4ODA0N2Y1MGIzL2xpYnJhcnkvY29yZS9zcmMvY21wLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvemlwLTcuMi4wL3NyYy9leHRyYV9maWVsZHMvZXh0ZW5kZWRfdGltZXN0YW1wLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvaW1hZ2UtMC4yNS4xMC9zcmMvbWV0YWRhdGEvY2ljcC5ycwBsaWJyYXJ5L3N0ZC9zcmMvaW8vc3RkaW8ucnMAL3J1c3RjL2Y4Mjk3ZTM1MWE0MGMxNDM5YTQ2N2JiYmI2ODc5MDg4MDQ3ZjUwYjMvbGlicmFyeS9jb3JlL3NyYy9zdHIvcGF0dGVybi5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3BuZy0wLjE4LjEvc3JjL2NvbW1vbi5ycwAvcnVzdGMvZjgyOTdlMzUxYTQwYzE0MzlhNDY3YmJiYjY4NzkwODgwNDdmNTBiMy9saWJyYXJ5L2NvcmUvc3JjL29wcy9mdW5jdGlvbi5ycwBsaWJyYXJ5L2NvcmUvc3JjL251bS9mbHQyZGVjL3N0cmF0ZWd5L2RyYWdvbi5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2ZkZWZsYXRlLTAuMy43L3NyYy9odWZmbWFuLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvaW1hZ2Utd2VicC0wLjIuNC9zcmMvaHVmZm1hbi5ycwBsaWJyYXJ5L2NvcmUvc3JjL251bS9iaWdudW0ucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy9sb3NzbGVzc190cmFuc2Zvcm0ucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9wbmctMC4xOC4xL3NyYy9kZWNvZGVyL3RyYW5zZm9ybS5ycwBsaWJyYXJ5L3N0ZC9zcmMvaW8vYnVmZmVyZWQvbGluZXdyaXRlcnNoaW0ucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9wbmctMC4xOC4xL3NyYy9kZWNvZGVyL3N0cmVhbS5ycwAvcnVzdGMvZjgyOTdlMzUxYTQwYzE0MzlhNDY3YmJiYjY4NzkwODgwNDdmNTBiMy9saWJyYXJ5L3N0ZC9zcmMvdGhyZWFkL2xvY2FsLnJzAGxpYnJhcnkvc3RkL3NyYy9zeW5jL2xhenlfbG9jay5ycwBsaWJyYXJ5L3N0ZC9zcmMvc3luYy9yZWVudHJhbnRfbG9jay5ycwAvcnVzdGMvZjgyOTdlMzUxYTQwYzE0MzlhNDY3YmJiYjY4NzkwODgwNDdmNTBiMy9saWJyYXJ5L3N0ZC9zcmMvc3luYy9vbmNlX2xvY2sucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS0wLjI1LjEwL3NyYy9jb2RlY3MvcG5nLnJzAC9ydXN0Yy9mODI5N2UzNTFhNDBjMTQzOWE0NjdiYmJiNjg3OTA4ODA0N2Y1MGIzL2xpYnJhcnkvYWxsb2Mvc3JjL3N0cmluZy5ycwBsaWJyYXJ5L3N0ZC9zcmMvcGFuaWNraW5nLnJzAC9ydXN0Yy9mODI5N2UzNTFhNDBjMTQzOWE0NjdiYmJiNjg3OTA4ODA0N2Y1MGIzL2xpYnJhcnkvY29yZS9zcmMvaW8vYm9ycm93ZWRfYnVmLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2Yvd2FzbS1iaW5kZ2VuLTAuMi4xMTcvc3JjL2V4dGVybnJlZi5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3BuZy0wLjE4LjEvc3JjL2RlY29kZXIvdHJhbnNmb3JtL3BhbGV0dGUucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi96bGliLXJzLTAuNi4zL3NyYy9pbmZsYXRlLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvemxpYi1ycy0wLjYuMy9zcmMvYWxsb2NhdGUucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9taW5pel9veGlkZS0wLjguOS9zcmMvaW5mbGF0ZS9jb3JlLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvaW1hZ2UtMC4yNS4xMC9zcmMvaW8vaW1hZ2VfcmVhZGVyX3R5cGUucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi96bGliLXJzLTAuNi4zL3NyYy9zdGFibGUucnMAbGlicmFyeS9jb3JlL3NyYy91bmljb2RlL3ByaW50YWJsZS5ycwAvVXNlcnMvZG1hcmNvcy9EZXZlbG9wbWVudC9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvY2h1bmtfdHJlZS5ycwBzcGFyay13b3JrZXItcnMvc3JjL2xvZF90cmVlLnJzAHNwYXJrLWxpYi9zcmMvc3BsYXRfZW5jb2RlLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2Yvc2VyZGUtMS4wLjIyOC9zcmMvcHJpdmF0ZS9kZS5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3NlcmRlX2pzb24tMS4wLjE0NS9zcmMvZGUucnMAL3J1c3RjL2Y4Mjk3ZTM1MWE0MGMxNDM5YTQ2N2JiYmI2ODc5MDg4MDQ3ZjUwYjMvbGlicmFyeS9zdGQvc3JjL3N5bmMvcG9pc29uL29uY2UucnMAL3J1c3RjL2Y4Mjk3ZTM1MWE0MGMxNDM5YTQ2N2JiYmI2ODc5MDg4MDQ3ZjUwYjMvbGlicmFyeS9hbGxvYy9zcmMvc2xpY2UucnMAbGlicmFyeS9zdGQvc3JjL2JhY2t0cmFjZS5ycwAvcnVzdC9kZXBzL2hhc2hicm93bi0wLjE1LjUvc3JjL3Jhdy9tb2QucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9oYXNoYnJvd24tMC4xNi4xL3NyYy9yYXcvbW9kLnJzAGxpYnJhcnkvY29yZS9zcmMvZm10L21vZC5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL21lbWNoci0yLjcuNi9zcmMvYXJjaC9hbGwvcGFja2VkcGFpci9tb2QucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9wbmctMC4xOC4xL3NyYy9kZWNvZGVyL21vZC5ycwAvcnVzdGMvZjgyOTdlMzUxYTQwYzE0MzlhNDY3YmJiYjY4NzkwODgwNDdmNTBiMy9saWJyYXJ5L2FsbG9jL3NyYy9jb2xsZWN0aW9ucy9iaW5hcnlfaGVhcC9tb2QucnMAL3J1c3RjL2Y4Mjk3ZTM1MWE0MGMxNDM5YTQ2N2JiYmI2ODc5MDg4MDQ3ZjUwYjMvbGlicmFyeS9zdGQvc3JjL2lvL21vZC5ycwBsaWJyYXJ5L3N0ZC9zcmMvLi4vLi4vYmFja3RyYWNlL3NyYy9zeW1ib2xpemUvbW9kLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvbWluaXpfb3hpZGUtMC44Ljkvc3JjL2luZmxhdGUvbW9kLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2Yvc2VyZGVfY29yZS0xLjAuMjI4L3NyYy9kZS9tb2QucnMAbGlicmFyeS9zdGQvc3JjL3RocmVhZC9tb2QucnMAL3J1c3RjL2Y4Mjk3ZTM1MWE0MGMxNDM5YTQ2N2JiYmI2ODc5MDg4MDQ3ZjUwYjMvbGlicmFyeS9hbGxvYy9zcmMvcmF3X3ZlYy9tb2QucnMAL3J1c3RjL2Y4Mjk3ZTM1MWE0MGMxNDM5YTQ2N2JiYmI2ODc5MDg4MDQ3ZjUwYjMvbGlicmFyeS9hbGxvYy9zcmMvdmVjL21vZC5ycwBsaWJyYXJ5L2NvcmUvc3JjL251bS9mbHQyZGVjL21vZC5ycwAvVXNlcnMvZG1hcmNvcy9EZXZlbG9wbWVudC9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvdGlueV9sb2QucnMAL1VzZXJzL2RtYXJjb3MvRGV2ZWxvcG1lbnQvc3BhcmsvcnVzdC9zcGFyay1saWIvc3JjL2JoYXR0X2xvZC5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3psaWItcnMtMC42LjMvc3JjL2NyYzMyL2JyYWlkLnJzAC9ydXN0Yy9mODI5N2UzNTFhNDBjMTQzOWE0NjdiYmJiNjg3OTA4ODA0N2Y1MGIzL2xpYnJhcnkvYWxsb2Mvc3JjL3ZlYy9zcGVjX2Zyb21faXRlcl9uZXN0ZWQucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy9leHRlbmRlZC5ycwAvVXNlcnMvZG1hcmNvcy9EZXZlbG9wbWVudC9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvcmFkLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2Yvc2VyZGVfanNvbi0xLjAuMTQ1L3NyYy9yZWFkLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvemlwLTcuMi4wL3NyYy9yZWFkLnJzAC9ydXN0L2RlcHMvZGxtYWxsb2MtMC4yLjEwL3NyYy9kbG1hbGxvYy5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3ppcC03LjIuMC9zcmMvc3BlYy5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3BuZy0wLjE4LjEvc3JjL2RlY29kZXIvemxpYi5ycwBzcGFyay13b3JrZXItcnMvc3JjL2xpYi5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2NvbnNvbGVfZXJyb3JfcGFuaWNfaG9vay0wLjEuNy9zcmMvbGliLnJzAC9ydXN0L2RlcHMvcnVzdGMtZGVtYW5nbGUtMC4xLjI2L3NyYy9saWIucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9zZXJkZS13YXNtLWJpbmRnZW4tMC42LjUvc3JjL2xpYi5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2pzLXN5cy0wLjMuOTQvc3JjL2xpYi5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3NtYWxsdmVjLTEuMTUuMS9zcmMvbGliLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvcG5nLTAuMTguMS9zcmMvdGV4dF9tZXRhZGF0YS5ycwBsaWJyYXJ5L2NvcmUvc3JjL3VuaWNvZGUvdW5pY29kZV9kYXRhLnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvaW1hZ2Utd2VicC0wLjIuNC9zcmMvdnA4LnJzAC9Vc2Vycy9kbWFyY29zLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvcG5nLTAuMTguMS9zcmMvYWRhbTcucnMAL1VzZXJzL2RtYXJjb3MvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi96aXAtNy4yLjAvc3JjL2NwNDM3LnJzAHNwYXJrLWxpYi9zcmMvc3ltbWF0My5ycwAvVXNlcnMvZG1hcmNvcy8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3ppcC03LjIuMC9zcmMvY3JjMzIucnMAL3J1c3QvZGVwcy9ydXN0Yy1kZW1hbmdsZS0wLjEuMjYvc3JjL3YwLnJzAHRvbyBtYW55IGxlbmd0aCBvciBkaXN0YW5jZSBzeW1ib2xzAGludmFsaWQgc3RvcmVkIGJsb2NrIGxlbmd0aHMAaW52YWxpZCBjb2RlIC0tIG1pc3NpbmcgZW5kLW9mLWJsb2NrAGluY29ycmVjdCBoZWFkZXIgY2hlY2sAaW5jb3JyZWN0IGxlbmd0aCBjaGVjawBpbmNvcnJlY3QgZGF0YSBjaGVjawBpbnZhbGlkIGRpc3RhbmNlIHRvbyBmYXIgYmFjawBoZWFkZXIgY3JjIG1pc21hdGNoAGludmFsaWQgd2luZG93IHNpemUAcmVwZWF0ZWQgY2FsbCB3aXRoIGJhZCBzdGF0ZQBpbnZhbGlkIGJsb2NrIHR5cGUAaW52YWxpZCBsaXRlcmFsL2xlbmd0aCBjb2RlAGludmFsaWQgZGlzdGFuY2UgY29kZQB1bmtub3duIGNvbXByZXNzaW9uIG1ldGhvZABJSSoA7AUQACQAAABEAwAADQAAAOwFEAAkAAAARQMAAA0AAADsBRAAJAAAAEYDAAANAAAA7AUQACQAAABDAwAAQQAAAOwFEAAkAAAATwMAAA0AAADsBRAAJAAAAE8DAAA+AAAA7AUQACQAAAC4AwAAIQAAAOwFEAAkAAAAuAMAAA0AAADsBRAAJAAAALYDAAAlAAAA7AUQACQAAADGAwAAIQAAAOwFEAAkAAAAxgMAAA0AAADsBRAAJAAAAMQDAAAlAAAA7AUQACQAAABZAwAADQAAAOwFEAAkAAAAWgMAAA0AAADsBRAAJAAAAFsDAAANAAAA7AUQACQAAABYAwAAOwAAAOwFEAAkAAAAhAMAACUAAADsBRAAJAAAAIQDAAA2AAAA7AUQACQAAACGAwAAHQAAAOwFEAAkAAAAgAMAACUAAADsBRAAJAAAAJYDAAAlAAAA7AUQACQAAACWAwAANgAAAOwFEAAkAAAAlgMAAEsAAADsBRAAJAAAAJYDAABgAAAA7AUQACQAAACYAwAAHgAAAOwFEAAkAAAAkgMAACUAAADsBRAAJAAAAKgDAAAlAAAA7AUQACQAAACoAwAANgAAAOwFEAAkAAAAqAMAAEsAAADsBRAAJAAAAKgDAABgAAAA7AUQACQAAACqAwAAHgAAAOwFEAAkAAAApAMAACUAAADsBRAAJAAAAHEDAAANAAAA7AUQACQAAAByAwAADQAAAOwFEAAkAAAAcwMAAA0AAADsBRAAJAAAAHQDAAANAAAA7AUQACQAAABwAwAAPQAAAOwFEAAkAAAAZQMAAA0AAADsBRAAJAAAAGYDAAANAAAA7AUQACQAAABnAwAADQAAAOwFEAAkAAAAZAMAAD8AAACmAxAAUgAAAFIAAAATAAAADQUQAEAAAAB2AAAAIAAAAA0FEABAAAAAdQAAACIAAAANBRAAQAAAAHQAAAAeAAAADQUQAEAAAABzAAAAJgAAAA0FEABAAAAAcgAAACQAAAANBRAAQAAAAFQAAAAXAAAADQUQAEAAAABVAAAAFwAAAA0FEABAAAAAVgAAABcAAAANBRAAQAAAAFgAAAAWAAAADQUQAEAAAABZAAAAFgAAAA0FEABAAAAAWgAAABYAAAANBRAAQAAAAFwAAAAqAAAADQUQAEAAAABcAAAAFAAAAA0FEABAAAAAXQAAACoAAAANBRAAQAAAAF0AAAAUAAAADQUQAEAAAABeAAAAKgAAAA0FEABAAAAAXgAAABQAAAANBRAAQAAAAGAAAAApAAAADQUQAEAAAABgAAAAGAAAAA0FEABAAAAAYgAAACYAAAANBRAAQAAAAGMAAAAmAAAADQUQAEAAAABkAAAAJgAAAA0FEABAAAAAZQAAACYAAAANBRAAQAAAAGgAAAAVAAAADQUQAEAAAABpAAAAFQAAAA0FEABAAAAAagAAABUAAAANBRAAQAAAAGsAAAAVAAAASW52YWxpZCAuc3BsYXQgZmlsZSBzaXpl7CwQABgAAABhdHRlbXB0ZWQgdG8gdGFrZSBvd25lcnNoaXAgb2YgUnVzdCB2YWx1ZSB3aGlsZSBpdCB3YXMgYm9ycm93ZWRNYXBBY2Nlc3M6Om5leHRfdmFsdWUgY2FsbGVkIGJlZm9yZSBuZXh0X2tleQD6GRAAYwAAAGYKAAAfAAAA7AUQACQAAADuAQAAOAAAAOwFEAAkAAAA7gEAAFkAAADsBRAAJAAAAPcBAABHAAAA7AUQACQAAAD3AQAAOQAAAOwFEAAkAAAAZAIAAC4AAADsBRAAJAAAAGQCAAAfAAAA7AUQACQAAABlAgAAHwAAAOwFEAAkAAAAWQIAACoAAADsBRAAJAAAAIQCAAA2AAAA7AUQACQAAACEAgAAIwAAAOwFEAAkAAAAeAIAACoAAADsBRAAJAAAAKQCAAA2AAAA7AUQACQAAACkAgAAIwAAAOwFEAAkAAAAmAIAACoAAADsBRAAJAAAANQCAAAlAAAA7AUQACQAAADYAgAAPAAAAOwFEAAkAAAA2AIAAB0AAADsBRAAJAAAANICAAAyAAAA7AUQACQAAADDAgAAIQAAAOwFEAAkAAAAxwIAADgAAADsBRAAJAAAAMcCAAAZAAAA7AUQACQAAADBAgAALgAAAOwFEAAkAAAAtAIAAB0AAADsBRAAJAAAALcCAAAsAAAA7AUQACQAAAC3AgAAEQAAAOwFEAAkAAAAuAIAADAAAADsBRAAJAAAALICAAAqAAAA7AUQACQAAADjAgAAJgAAAOwFEAAkAAAA5wIAACAAAADsBRAAJAAAAOcCAAATAAAA7AUQACQAAADtAgAAJgAAAOwFEAAkAAAA8QIAACAAAADsBRAAJAAAAPECAAATAAAA7AUQACQAAAB/AQAANgAAAOwFEAAkAAAAgAEAADYAAADsBRAAJAAAAI0BAAAzAAAA7AUQACQAAACOAQAAMwAAAOwFEAAkAAAAigEAAEQAAADsBRAAJAAAAIUBAAApAAAATWlzc2luZyBjaGlsZF9jb3VudHMgb3IgY2hpbGRfc3RhcnRz+C8QACQAAADsBRAAJAAAAAACAAA1AAAA7AUQACQAAAAAAgAAVgAAAOwFEAAkAAAAMAIAACoAAADsBRAAJAAAABsCAAA2AAAA7AUQACQAAAAbAgAAVwAAAOwFEAAkAAAAxgEAABUAAADsBRAAJAAAAMQBAAAlAAAA7AUQACQAAADIAQAAKAAAAOwFEAAkAAAAyQEAACgAAADsBRAAJAAAAMcBAAAoAAAA7AUQACQAAADFAQAAKAAAAOwFEAAkAAAAEgIAADcAAADsBRAAJAAAABICAABYAEH84cAACwUBAAAAfQBBjOLAAAsFAQAAAH4AQZziwAALBQEAAAB/AEGs4sAACwUBAAAAgABBvOLAAAsFAQAAAIEAQcziwAALBQEAAACCAEHc4sAACwUBAAAAgwBB7OLAAAsFAQAAAIQAQfziwAALBQEAAACFAEGM48AACwUBAAAAhgBBnOPAAAsFAQAAAIcAQazjwAALBQEAAACIAEG848AACwUBAAAAiQBBzOPAAAsFAQAAAIoAQdzjwAALBQEAAACLAEHs48AACwUBAAAAjABB/OPAAAsFAQAAAI0AQYzkwAALBQEAAACNAEGc5MAACwUBAAAAjQBBrOTAAAsFAQAAAI0AQbzkwAALBQEAAACNAEHM5MAACwUBAAAAjQBB3OTAAAsFAQAAAI0AQezkwAALBQEAAACNAEH85MAACwUBAAAAjQBBjOXAAAsFAQAAAI0AQZzlwAAL6QEBAAAAjQAAAGFuIGFycmF5IG9mIGxlbmd0aCAxYW4gYXJyYXkgb2YgbGVuZ3RoIDJhbiBhcnJheSBvZiBsZW5ndGggM2FuIGFycmF5IG9mIGxlbmd0aCA0bWlzc2luZyBmaWVsZCBgAPQyEAAPAAAA6JIRAAEAAABpbnZhbGlkIGxlbmd0aCAAFDMQAA8AAAAakxEACwAAAGR1cGxpY2F0ZSBmaWVsZCBgAAAANDMQABEAAADokhEAAQAAAHVua25vd24gdmFyaWFudCBgYCwgZXhwZWN0ZWQgAAAAWDMQABEAAABpMxAADABBkOfAAAsFAQAAAI4AQaDnwAALBQEAAACPAEGw58AACyUBAAAAkAAAAF4aEABgAAAAoAQAACIAAABeGhAAYAAAAJYEAAAmAEHg58AACwUBAAAAkQBB8OfAAAu9BgEAAACSAAAAc2gxc2gyc2gzYXNoM2Jsb2RUcmVlAAAAygUQACEAAAC4AAAAMAAAAMoFEAAhAAAAtgAAADAAAABtYXhTcGxhdHNudW1TcGxhdHNtYXhTaERlZ3JlZWV4dDBleHQxAAAAkwAAAAQAAAAEAAAAIAAAAMoFEAAhAAAATAAAAFMAAADKBRAAIQAAAE8AAABTAAAAygUQACEAAABSAAAAVQAAAMoFEAAhAAAAVQAAAFUAAABzaDFDb2Rlc8oFEAAhAAAAWAAAAF4AAABzaDJDb2Rlc8oFEAAhAAAAWwAAAF4AAABzaDNDb2Rlc8oFEAAhAAAAYQAAAFkAAADKBRAAIQAAAGQAAABcAAAAygUQACEAAABKAAAAZwAAAMoFEAAhAAAASQAAAGcAAADKBRAAIQAAAEgAAABtAAAAygUQACEAAABHAAAAaAAAAMoFEAAhAAAARgAAAGgAAAArIxAAbQAAAJUAAAAOAAAAcmdiTWlucmdiTWF4bG5TY2FsZU1pbmxuU2NhbGVNYXhzaDFNYXhzaDJNYXhzaDNNYXhsb2RPcGFjaXR5YDUQAAYAAABmNRAABgAAAGw1EAAKAAAAdjUQAAoAAACANRAABgAAAIY1EAAGAAAAjDUQAAYAAACSNRAACgAAABAjEAAaAAAAOQAAAC0AAAAQIxAAGgAAAC4AAAAzAAAA7AUQACQAAACKAAAAJwAAAHNoMwDsBRAAJAAAAJsAAAAuAAAAcGFja2VkAADsBRAAJAAAAEUAAABTAAAA7AUQACQAAABIAAAAUwAAAOwFEAAkAAAASwAAAFMAAADsBRAAJAAAAE4AAABeAAAA7AUQACQAAABRAAAAXgAAAOwFEAAkAAAAVAAAAF4AAADsBRAAJAAAAFcAAABcAAAAc3BsYXRFbmNvZGluZwAAAOwFEAAkAAAAWQAAAHwAAADsBRAAJAAAAEMAAABLAAAA7AUQACQAAABCAAAAbQAAAOwFEAAkAAAAQQAAAGgAAADsBRAAJAAAAEAAAABoAAAAECMQABoAAABWAAAALQAAABAjEAAaAAAASwAAADMAAACUAAAA9AAAAAQAAACVAAAAlgAAAJcAQbjuwAALZQEAAACYAAAAECMQABoAAACXAAAAKwAAAGZpbGVUeXBlECMQABoAAACZAAAAaAAAAJkAAAAIAAAABAAAAJoAAAAQIxAAGgAAAJYAAABYAAAAmwAAAJAAAAAEAAAAnAAAAJ0AAACeAEGo78AACy0BAAAAnwAAABAjEAAaAAAAkAEAAFsAAACgAAAAcAAAAAQAAAChAAAAogAAAKMAQeDvwAALLQEAAACkAAAAECMQABoAAAARAQAAWwAAAKUAAADsAAAABAAAAKYAAACnAAAAqABBmPDAAAvhFQEAAACpAAAAECMQABoAAAB5AAAAKwAAABAjEAAaAAAAewAAAGgAAAAQIxAAGgAAAHgAAABbAAAARXhwZWN0ZWQgIGFjdGl2ZSBzcGxhdHMgYnV0IGdvdCBQOBAACQAAAFk4EAAXAAAAigMQABsAAAAzAAAAFQAAAIoDEAAbAAAApwAAABMAAACKAxAAGwAAAJ8AAAATAAAAigMQABsAAACiAAAAHQAAAIoDEAAbAAAAogAAABEAAACKAxAAGwAAAJAAAAAgAAAAigMQABsAAACQAAAAFAAAAIoDEAAbAAAAfAAAABgAAACKAxAAGwAAAH0AAAAYAAAAigMQABsAAAB0AAAAGQAAALwZEAAfAAAA4wAAABYAAABsb2RJZAAAALwZEAAfAAAA7AAAAFQAAAC8GRAAHwAAAAkBAAAWAAAAvBkQAB8AAAATAQAAVAAAALwZEAAfAAAAJAEAAD0AAAC8GRAAHwAAADcBAAArAAAAvBkQAB8AAAA4AQAAKwAAALwZEAAfAAAAMgEAACsAAAC8GRAAHwAAADMBAAArAAAAvBkQAB8AAAC7AAAAMQAAALwZEAAfAAAA2QAAABMAAAC8GRAAHwAAAMoAAAAnAAAAvBkQAB8AAAC8AAAAJgAAALwZEAAfAAAAzwAAADYAAAC8GRAAHwAAAHcBAAAvAAAAvBkQAB8AAAB6AQAAHwAAAGluZGljZXMAvBkQAB8AAACWAQAAVgAAALwZEAAfAAAAgwEAACQAAAC8GRAAHwAAAIkBAAAjAAAAvBkQAB8AAACGAQAAIgAAALwZEAAfAAAAeAEAACYAAABJbnZhbGlkIGNvbmVfZm92cyBsZW5ndGhJbnZhbGlkIGNvbmVfZm92MHMgbGVuZ3RoSW52YWxpZCBjb25lX2ZvdmVhdGVzIGxlbmd0aEludmFsaWQgYmVoaW5kX2ZvdmVhdGVzIGxlbmd0aEludmFsaWQgbG9kX3NjYWxlcyBsZW5ndGhJbnZhbGlkIHZpZXdfdG9fb2JqZWN0cyBsZW5ndGgAALwZEAAfAAAA5wEAACYAAAC8GRAAHwAAAOkBAABDAAAAvBkQAB8AAADtAQAAGAAAALwZEAAfAAAA+wEAABkAAAC8GRAAHwAAAAACAAAZAAAAvBkQAB8AAAAHAgAAKwAAALwZEAAfAAAACwIAABgAAAC8GRAAHwAAABECAAAvAAAAvBkQAB8AAAATAgAAPgAAALwZEAAfAAAAFQIAABwAAAC8GRAAHwAAAAQCAAAYAAAAvBkQAB8AAAArAgAAJAAAAHBpeGVsTGltaXRpbnN0YW5jZUluZGljZXNjaHVua3NvdXRwdXRTaXplZnJvbnRpZXJTaXplbGVhZkNvdW50AAC8GRAAHwAAAFQCAABcAAAAvBkQAB8AAABTAgAAYgAAALwZEAAfAAAAUgIAAF4AAAC8GRAAHwAAAFECAABZAAAAvBkQAB8AAABQAgAAaAAAALwZEAAfAAAATwIAAGIAAAC8GRAAHwAAAD4CAAAjAAAAvBkQAB8AAABBAgAAWgAAALwZEAAfAAAAQAIAAHIAAAC8GRAAHwAAAD8CAABYAAAAvBkQAB8AAAAxAgAAHQAAALwZEAAfAAAAMQIAADMAAAC8GRAAHwAAAC0CAAAjAAAAvBkQAB8AAAAtAgAAHgAAALwZEAAfAAAAKAIAABwAAAC8GRAAHwAAACICAAAUAAAAvBkQAB8AAADSAQAAHQAAALwZEAAfAAAA1QEAADoAAAC8GRAAHwAAANoBAAAZAAAAvBkQAB8AAAC7AQAAMwAAALwZEAAfAAAAwAEAAB0AAAC8GRAAHwAAAMEBAAAiAAAAvBkQAB8AAADCAQAAIAAAALwZEAAfAAAAwwEAACAAAAC8GRAAHwAAAMQBAAAfAAAAvBkQAB8AAADGAQAAHQAAALwZEAAfAAAAvwEAADwAAAC8GRAAHwAAAL4BAAA9AAAAvBkQAB8AAAD1AAAAOgAAALwZEAAfAAAA9wAAAB0AAAC8GRAAHwAAAPgAAAAdAAAAvBkQAB8AAAD/AAAAWAAAAHZlcnNpb25jb3VudG1heFNoY2h1bmtTaXplYWxsQ2h1bmtCeXRlc3NoQ29kZUNvdW50c3RydWN0IFJhZE1ldGEgd2l0aCAxMSBlbGVtZW50cwAAAFY+EAAfAAAAAAAAAAgAAAAEAAAAqgAAAGZpbGVzbWluc21heHNzaGFwZXN0cnVjdCBNZWFucyB3aXRoIDQgZWxlbWVudHMAAKI+EAAcAAAAZW5jb2RpbmdzdHJ1Y3QgUXVhdHMgd2l0aCAyIGVsZW1lbnRz0D4QABwAAABzdHJ1Y3QgU2gwVjEgd2l0aCAzIGVsZW1lbnRz9D4QABwAAABjb2RlYm9va3N0cnVjdCBTaDBWMiB3aXRoIDIgZWxlbWVudHMgPxAAHAAAAHN0cnVjdCBTaE5WMSB3aXRoIDQgZWxlbWVudHNEPxAAHAAAAGJhbmRzc3RydWN0IFNoTlYyIHdpdGggMyBlbGVtZW50cwAAAG0/EAAcAAAAc3RydWN0IE1lYW5zVjEgd2l0aCA0IGVsZW1lbnRzAACUPxAAHgAAAG1lYW5zc2NhbGVzcXVhdHNzaDBzaE5zdHJ1Y3QgUGNTb2dzVjEgd2l0aCA1IGVsZW1lbnRzAAAA0j8QAB8AAABzdHJ1Y3QgUGNTb2dzVjIgd2l0aCA3IGVsZW1lbnRzAPw/EAAfAAAAc3RydWN0IFNjYWxlc1YxIHdpdGggMyBlbGVtZW50cwAkQBAAHwAAAHN0cnVjdCBTY2FsZXNWMiB3aXRoIDIgZWxlbWVudHMATEAQAB8AAABiYXNlcGF5bG9hZEJ5dGVzcHJvcGVydGllc3N0cnVjdCBSYWRDaHVua01ldGEgd2l0aCA4IGVsZW1lbnRzAAAAjkAQACMAAABnc3BsYXQAALxAEAAGAAAAb2Zmc2V0ZmlsZW5hbWVzdHJ1Y3QgUmFkQ2h1bmtSYW5nZSB3aXRoIDUgZWxlbWVudHMAANpAEAAkAAAAY29tcHJlc3Npb25taW5tYXhzdHJ1Y3QgUmFkQ2h1bmtQcm9wZX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self.location.href);\n }\n const imports = __wbg_get_imports();\n if (typeof module_or_path === "string" || typeof Request === "function" && module_or_path instanceof Request || typeof URL === "function" && module_or_path instanceof URL) {\n module_or_path = fetch(module_or_path);\n }\n const { instance } = await __wbg_load(await module_or_path, imports);\n return __wbg_finalize_init(instance);\n }\n const rpcHandlers = {\n sortSplats16,\n sortSplats32,\n loadPackedSplats,\n loadExtSplats,\n tinyLodPackedSplats,\n qualityLodPackedSplats,\n tinyLodExtSplats,\n qualityLodExtSplats,\n newLodTree,\n newSharedLodTree,\n initLodTree,\n disposeLodTree,\n updateLodTrees,\n traverseLodTrees,\n getLodTreeLevel,\n nextChunk\n };\n async function onMessage(event) {\n const {\n id,\n name,\n args\n } = event.data;\n try {\n const handler = rpcHandlers[name];\n if (!handler) {\n throw new Error(`Unknown worker RPC: ${name}`);\n }\n const sendStatus = (data) => {\n self.postMessage(\n { id, status: data },\n { transfer: getTransferable(data) }\n );\n };\n const result = await handler(args, { sendStatus });\n self.postMessage({ id, result }, { transfer: getTransferable(result) });\n } catch (error) {\n console.warn(`Worker error: ${error}`);\n self.postMessage({ id, error }, { transfer: getTransferable(error) });\n }\n }\n function sortSplats16({\n numSplats,\n readback,\n ordering\n }) {\n const activeSplats = sort_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n }\n function sortSplats32({\n numSplats,\n readback,\n ordering\n }) {\n const activeSplats = sort32_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n }\n async function decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n }) {\n if (fileBytes) {\n const CHUNK_SIZE = 1048576;\n for (let i = 0; i < fileBytes.length; i += CHUNK_SIZE) {\n decoder.push(\n fileBytes.subarray(i, Math.min(i + CHUNK_SIZE, fileBytes.length))\n );\n }\n } else if (url) {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : void 0,\n credentials: withCredentials ? "include" : "same-origin"\n });\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch "${url}": ${response.status} ${response.statusText}`\n );\n }\n const readStream = response.body.getReader();\n const contentLength = Number.parseInt(\n response.headers.get("Content-Length") || "0"\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n let loaded = 0;\n while (true) {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n break;\n }\n loaded += value.length;\n sendStatus({ loaded, total });\n decoder.push(value);\n }\n } else if (chunked) {\n let loaded = 0;\n const total = chunkedLength ?? 0;\n while (true) {\n const readNextChunk = new Promise((resolve) => {\n nextChunkWaiter = resolve;\n });\n sendStatus({ nextChunk: true });\n const nextChunk2 = await readNextChunk;\n if (nextChunk2.length === 0) {\n break;\n }\n decoder.push(nextChunk2);\n loaded += nextChunk2.length;\n sendStatus({ progress: { loaded, total } });\n }\n if (total === 0) {\n sendStatus({ progress: { loaded, total: loaded } });\n }\n } else {\n throw new Error("No url or fileBytes provided");\n }\n const decoded = decoder.finish();\n return decoded;\n }\n function toPackedResult(packed) {\n return {\n numSplats: packed.numSplats,\n packedArray: packed.packed,\n extra: {\n sh1: packed.sh1,\n sh2: packed.sh2,\n sh3: packed.sh3,\n sh1Codes: packed.sh1Codes,\n sh2Codes: packed.sh2Codes,\n sh3Codes: packed.sh3Codes,\n lodTree: packed.lodTree\n },\n splatEncoding: packed.splatEncoding\n };\n }\n async function loadPackedSplats({\n url,\n requestHeader,\n withCredentials,\n fileBytes,\n fileType,\n pathName,\n chunked,\n chunkedLength,\n encoding,\n lod,\n lodBase,\n lodAbove,\n nonLod,\n sh1Codes,\n sh2Codes,\n sh3Codes\n }, {\n sendStatus\n }) {\n if (!lod) {\n const decoder2 = decode_to_packedsplats(\n fileType,\n pathName ?? url,\n encoding,\n sh1Codes,\n sh2Codes,\n sh3Codes\n );\n const decoded2 = await decodeBytesUrl({\n decoder: decoder2,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n const result2 = toPackedResult(decoded2);\n if (result2.splatEncoding.lodOpacity) {\n return { lodSplats: result2 };\n }\n return result2;\n }\n const decoder = decode_to_csplatarray(fileType, pathName ?? url, encoding);\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n if (decoded.has_lod()) {\n const result2 = toPackedResult(\n decoded.to_packedsplats_lod()\n );\n return { lodSplats: result2 };\n }\n if (lodAbove !== void 0) {\n if (decoded.len() < lodAbove) {\n return toPackedResult(decoded.to_packedsplats());\n }\n }\n let result = {};\n if (nonLod) {\n result = toPackedResult(decoded.to_packedsplats());\n }\n const initialSplats = decoded.len();\n const lodName = lod === "quality" ? "Bhatt" : "Tiny";\n console.log(\n `Loaded ${initialSplats} splats. Starting ${lodName} LoD build...`\n );\n const lodStart = performance.now();\n if (lod === "quality") {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.25));\n decoded.bhatt_lod(base);\n } else {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n decoded.tiny_lod(base, false);\n }\n const lodDuration = performance.now() - lodStart;\n console.log(\n `${lodName} LoD: ${initialSplats} -> ${decoded.len()} (${lodDuration} ms)`\n );\n const lodPacked = decoded.to_packedsplats_lod();\n result.lodSplats = toPackedResult(lodPacked);\n return result;\n }\n function toExtResult(packed) {\n return {\n numSplats: packed.numSplats,\n extArrays: [packed.ext0, packed.ext1],\n extra: {\n sh1: packed.sh1,\n sh2: packed.sh2,\n sh3a: packed.sh3a,\n sh3b: packed.sh3b,\n sh1Codes: packed.sh1Codes,\n sh2Codes: packed.sh2Codes,\n sh3Codes: packed.sh3Codes,\n lodTree: packed.lodTree\n }\n };\n }\n async function loadExtSplats({\n url,\n requestHeader,\n withCredentials,\n fileBytes,\n fileType,\n pathName,\n chunked,\n chunkedLength,\n lod,\n lodBase,\n lodAbove,\n nonLod,\n sh1Codes,\n sh2Codes,\n sh3Codes\n }, {\n sendStatus\n }) {\n if (!lod) {\n const decoder2 = decode_to_extsplats(\n fileType,\n pathName ?? url,\n sh1Codes,\n sh2Codes,\n sh3Codes\n );\n const decoded2 = await decodeBytesUrl({\n decoder: decoder2,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n const result2 = toExtResult(decoded2);\n if (result2.extra.lodTree) {\n return { lodSplats: result2 };\n }\n return result2;\n }\n const decoder = decode_to_gsplatarray(fileType, pathName ?? url);\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n if (decoded.has_lod()) {\n return {\n lodSplats: toExtResult(decoded.to_extsplats_lod())\n };\n }\n if (lodAbove !== void 0) {\n if (decoded.len() < lodAbove) {\n return toExtResult(decoded.to_extsplats());\n }\n }\n let result = {};\n if (nonLod) {\n result = toExtResult(decoded.to_extsplats());\n }\n const initialSplats = decoded.len();\n const lodName = lod === "quality" ? "Bhatt" : "Tiny";\n console.log(\n `Loaded ${initialSplats} splats. Starting ${lodName} LoD build...`\n );\n const lodStart = performance.now();\n if (lod === "quality") {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.75));\n decoded.bhatt_lod(base);\n } else {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n decoded.tiny_lod(base, false);\n }\n const lodDuration = performance.now() - lodStart;\n console.log(\n `${lodName} LoD: ${initialSplats} -> ${decoded.len()} (${lodDuration} ms)`\n );\n const lodPacked = decoded.to_extsplats_lod();\n result.lodSplats = toExtResult(lodPacked);\n return result;\n }\n async function tinyLodPackedSplats({\n numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n const lodStart = performance.now();\n const filter = false;\n const decoded = tiny_lod_packedsplats(\n numSplats,\n packedArray,\n extra,\n base,\n filter,\n rgba,\n encoding\n );\n const lodDuration = performance.now() - lodStart;\n const result = toPackedResult(decoded);\n console.log(\n `Tiny LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n async function qualityLodPackedSplats({\n numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.75));\n const lodStart = performance.now();\n const decoded = bhatt_lod_packedsplats(\n numSplats,\n packedArray,\n extra,\n base,\n rgba,\n encoding\n );\n const lodDuration = performance.now() - lodStart;\n const result = toPackedResult(decoded);\n console.log(\n `Bhatt LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n async function tinyLodExtSplats({\n numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n const lodStart = performance.now();\n const filter = false;\n const decoded = tiny_lod_extsplats(\n numSplats,\n extArrays[0],\n extArrays[1],\n extra,\n base,\n filter,\n rgba\n );\n const lodDuration = performance.now() - lodStart;\n const result = toExtResult(decoded);\n console.log(\n `Tiny LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n async function qualityLodExtSplats({\n numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.75));\n const lodStart = performance.now();\n const decoded = bhatt_lod_extsplats(\n numSplats,\n extArrays[0],\n extArrays[1],\n extra,\n base,\n rgba\n );\n const lodDuration = performance.now() - lodStart;\n const result = toExtResult(decoded);\n console.log(\n `Bhatt LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n function newLodTree({\n capacity\n }) {\n const { lodId } = new_lod_tree(capacity);\n return { lodId };\n }\n function newSharedLodTree({\n lodId\n }) {\n const { lodId: newLodId } = new_shared_lod_tree(lodId);\n return { lodId: newLodId };\n }\n function initLodTree({\n numSplats,\n lodTree\n }) {\n const { lodId, chunkToPage } = init_lod_tree(numSplats, lodTree);\n return { lodId, chunkToPage };\n }\n function disposeLodTree({ lodId }) {\n dispose_lod_tree(lodId);\n }\n function updateLodTrees({\n ranges\n }) {\n const lodIds = new Uint32Array(ranges.map(({ lodId }) => lodId));\n const pageBases = new Uint32Array(ranges.map(({ pageBase }) => pageBase));\n const chunkBases = new Uint32Array(ranges.map(({ chunkBase }) => chunkBase));\n const counts = new Uint32Array(ranges.map(({ count }) => count));\n const lodTreeData = ranges.map(({ lodTreeData: lodTreeData2 }) => lodTreeData2);\n update_lod_trees(\n lodIds,\n pageBases,\n chunkBases,\n counts,\n lodTreeData\n );\n }\n function traverseLodTrees({\n maxSplats,\n pixelScaleLimit,\n lastPixelLimit,\n instances\n }) {\n const keyInstances = Object.entries(instances);\n const lodIds = new Uint32Array(\n keyInstances.map(([_key, instance]) => instance.lodId)\n );\n const rootPages = new Uint32Array(\n keyInstances.map(([_key, instance]) => instance.rootPage ?? 4294967295)\n );\n const viewToObjects = new Float32Array(\n keyInstances.flatMap(([_key, instance]) => {\n if (instance.viewToObjectCols.length !== 16) {\n throw new Error("Incorrect array size for viewToObjectCols");\n }\n return instance.viewToObjectCols;\n })\n );\n const lodScales = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.lodScale)\n );\n const behindFoveates = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.behindFoveate)\n );\n const coneFov0s = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.coneFov0)\n );\n const coneFovs = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.coneFov)\n );\n const coneFoveates = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.coneFoveate)\n );\n const result = traverse_lod_trees(\n maxSplats,\n pixelScaleLimit,\n lastPixelLimit,\n lodIds,\n rootPages,\n viewToObjects,\n lodScales,\n behindFoveates,\n coneFoveates,\n coneFov0s,\n coneFovs\n );\n const { instanceIndices, chunks, pixelLimit } = result;\n const indices = keyInstances.reduce(\n (indices2, [key, _instance], index) => {\n indices2[key] = instanceIndices[index];\n return indices2;\n },\n {}\n );\n return {\n keyIndices: indices,\n chunks,\n pixelLimit\n };\n }\n function getLodTreeLevel({\n lodId,\n level\n }) {\n return get_lod_tree_level(lodId, level);\n }\n let nextChunkWaiter = (_chunk) => {\n };\n async function nextChunk({ chunk }) {\n nextChunkWaiter(chunk);\n }\n function getTransferable(ctx) {\n const buffers = [];\n const seen = /* @__PURE__ */ new Set();\n function traverse(obj) {\n if (obj && typeof obj === "object" && !seen.has(obj)) {\n seen.add(obj);\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n buffers.push(obj.buffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n traverse(ctx);\n return buffers;\n }\n async function initialize() {\n const pending = [];\n const bufferMessage = (event) => {\n pending.push(event);\n };\n self.addEventListener("message", bufferMessage);\n await __wbg_init();\n self.removeEventListener("message", bufferMessage);\n self.addEventListener("message", onMessage);\n for (const event of pending) {\n onMessage(event);\n }\n pending.length = 0;\n }\n initialize().catch(console.error);\n})();\n//# sourceMappingURL=worker-On-THXgb.js.map\n'; +const jsContent = '(function() {\n "use strict";\n class ChunkDecoder {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(ChunkDecoder.prototype);\n obj.__wbg_ptr = ptr;\n ChunkDecoderFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n ChunkDecoderFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_chunkdecoder_free(ptr, 0);\n }\n /**\n * @returns {any}\n */\n finish() {\n const ptr = this.__destroy_into_raw();\n const ret = wasm.chunkdecoder_finish(ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {Uint8Array} bytes\n */\n push(bytes) {\n const ret = wasm.chunkdecoder_push(this.__wbg_ptr, bytes);\n if (ret[1]) {\n throw takeFromExternrefTable0(ret[0]);\n }\n }\n }\n if (Symbol.dispose) ChunkDecoder.prototype[Symbol.dispose] = ChunkDecoder.prototype.free;\n class CsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(CsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n CsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n CsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_csplatarray_free(ptr, 0);\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.csplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.csplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.csplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.csplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.csplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.csplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.csplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats() {\n const ret = wasm.csplatarray_to_packedsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats_lod() {\n const ret = wasm.csplatarray_to_packedsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_csplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_csplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_csplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_csplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n }\n if (Symbol.dispose) CsplatArray.prototype[Symbol.dispose] = CsplatArray.prototype.free;\n class GsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(GsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n GsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n GsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_gsplatarray_free(ptr, 0);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_gsplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_gsplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.gsplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.gsplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.gsplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.gsplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.gsplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.gsplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.gsplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats_lod(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats_lod(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_gsplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_gsplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n }\n if (Symbol.dispose) GsplatArray.prototype[Symbol.dispose] = GsplatArray.prototype.free;\n function bhatt_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, rgba) {\n const ret = wasm.bhatt_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function bhatt_lod_packedsplats(num_splats, packed, extra, lod_base, rgba, encoding) {\n const ret = wasm.bhatt_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function decode_to_csplatarray(file_type, path_name, encoding) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_csplatarray(ptr0, len0, ptr1, len1, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function decode_to_extsplats(file_type, path_name, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_extsplats(ptr0, len0, ptr1, len1, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function decode_to_gsplatarray(file_type, path_name) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_gsplatarray(ptr0, len0, ptr1, len1);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function decode_to_packedsplats(file_type, path_name, encoding, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_packedsplats(ptr0, len0, ptr1, len1, encoding, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function dispose_lod_tree(lod_id) {\n wasm.dispose_lod_tree(lod_id);\n }\n function get_lod_tree_level(lod_id, level) {\n const ret = wasm.get_lod_tree_level(lod_id, level);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function init_lod_tree(num_splats, lod_tree) {\n const ret = wasm.init_lod_tree(num_splats, lod_tree);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function new_lod_tree(capacity) {\n const ret = wasm.new_lod_tree(capacity);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function new_shared_lod_tree(orig_lod_id) {\n const ret = wasm.new_shared_lod_tree(orig_lod_id);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function sort32_splats(num_splats, readback, ordering) {\n const ret = wasm.sort32_splats(num_splats, readback, ordering);\n return ret >>> 0;\n }\n function sort_splats(num_splats, readback, ordering) {\n const ret = wasm.sort_splats(num_splats, readback, ordering);\n return ret >>> 0;\n }\n function tiny_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, merge_filter, rgba) {\n const ret = wasm.tiny_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function tiny_lod_packedsplats(num_splats, packed, extra, lod_base, merge_filter, rgba, encoding) {\n const ret = wasm.tiny_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function traverse_lod_trees(max_splats, pixel_scale_limit, _last_pixel_limit, lod_ids, root_pages, view_to_objects, lod_scales, behind_foveates, cone_foveates, cone_fov0s, cone_fovs) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(root_pages, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArrayF32ToWasm0(view_to_objects, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArrayF32ToWasm0(lod_scales, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ptr4 = passArrayF32ToWasm0(behind_foveates, wasm.__wbindgen_malloc);\n const len4 = WASM_VECTOR_LEN;\n const ptr5 = passArrayF32ToWasm0(cone_foveates, wasm.__wbindgen_malloc);\n const len5 = WASM_VECTOR_LEN;\n const ptr6 = passArrayF32ToWasm0(cone_fov0s, wasm.__wbindgen_malloc);\n const len6 = WASM_VECTOR_LEN;\n const ptr7 = passArrayF32ToWasm0(cone_fovs, wasm.__wbindgen_malloc);\n const len7 = WASM_VECTOR_LEN;\n const ret = wasm.traverse_lod_trees(max_splats, pixel_scale_limit, isLikeNone(_last_pixel_limit) ? 4294967297 : Math.fround(_last_pixel_limit), ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, ptr4, len4, ptr5, len5, ptr6, len6, ptr7, len7);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function update_lod_trees(lod_ids, page_bases, chunk_bases, counts, lod_trees) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(page_bases, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArray32ToWasm0(chunk_bases, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArray32ToWasm0(counts, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ret = wasm.update_lod_trees(ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, lod_trees);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_boolean_get_a86c216575a75c30: function(arg0) {\n const v = arg0;\n const ret = typeof v === "boolean" ? v : void 0;\n return isLikeNone(ret) ? 16777215 : ret ? 1 : 0;\n },\n __wbg___wbindgen_debug_string_dd5d2d07ce9e6c57: function(arg0, arg1) {\n const ret = debugString(arg1);\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_in_4bd7a57e54337366: function(arg0, arg1) {\n const ret = arg0 in arg1;\n return ret;\n },\n __wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof val === "object" && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === void 0;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "number" ? obj : void 0;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "string" ? obj : void 0;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() {\n return handleError(function(arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments);\n },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() {\n return handleError(function(arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments);\n },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, void 0);\n table.set(offset + 0, void 0);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n }\n };\n return {\n __proto__: null,\n "./spark_worker_rs_bg.js": import0\n };\n }\n const ChunkDecoderFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\n const CsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\n const GsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n function addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n }\n function debugString(val) {\n const type = typeof val;\n if (type == "number" || type == "boolean" || val == null) {\n return `${val}`;\n }\n if (type == "string") {\n return `"${val}"`;\n }\n if (type == "symbol") {\n const description = val.description;\n if (description == null) {\n return "Symbol";\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == "function") {\n const name = val.name;\n if (typeof name == "string" && name.length > 0) {\n return `Function(${name})`;\n } else {\n return "Function";\n }\n }\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = "[";\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for (let i = 1; i < length; i++) {\n debug += ", " + debugString(val[i]);\n }\n debug += "]";\n return debug;\n }\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n return toString.call(val);\n }\n if (className == "Object") {\n try {\n return "Object(" + JSON.stringify(val) + ")";\n } catch (_) {\n return "Object";\n }\n }\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\n${val.stack}`;\n }\n return className;\n }\n function getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n }\n function getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n }\n function getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n }\n let cachedDataViewMemory0 = null;\n function getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || cachedDataViewMemory0.buffer.detached === void 0 && cachedDataViewMemory0.buffer !== wasm.memory.buffer) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n }\n let cachedFloat32ArrayMemory0 = null;\n function getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n }\n function getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n }\n let cachedUint16ArrayMemory0 = null;\n function getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n }\n let cachedUint32ArrayMemory0 = null;\n function getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n }\n let cachedUint8ArrayMemory0 = null;\n function getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n }\n function handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n }\n function isLikeNone(x) {\n return x === void 0 || x === null;\n }\n function passArray32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getUint32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n }\n function passArrayF32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getFloat32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n }\n function passStringToWasm0(arg, malloc, realloc) {\n if (realloc === void 0) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr2 = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr2, ptr2 + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr2;\n }\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n const mem = getUint8ArrayMemory0();\n let offset = 0;\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 127) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n WASM_VECTOR_LEN = offset;\n return ptr;\n }\n function takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n }\n let cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n const MAX_SAFARI_DECODE_BYTES = 2146435072;\n let numBytesDecoded = 0;\n function decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n }\n const cachedTextEncoder = new TextEncoder();\n if (!("encodeInto" in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function(arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n }\n let WASM_VECTOR_LEN = 0;\n let wasm;\n function __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n }\n async function __wbg_load(module, imports) {\n if (typeof Response === "function" && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === "function") {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n if (validResponse && module.headers.get("Content-Type") !== "application/wasm") {\n console.warn("`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n", e);\n } else {\n throw e;\n }\n }\n }\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n function expectedResponseType(type) {\n switch (type) {\n case "basic":\n case "cors":\n case "default":\n return true;\n }\n return false;\n }\n }\n async function __wbg_init(module_or_path) {\n if (wasm !== void 0) return wasm;\n if (module_or_path !== void 0) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({ module_or_path } = module_or_path);\n } else {\n console.warn("using deprecated parameters for the initialization function; pass a single object instead");\n }\n }\n if (module_or_path === void 0) {\n module_or_path = new 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J0IBQgDEE/cWxBAnRqIApqQRBqCyAQQdjHxwAQrgcACyAKIB5qIgsgCU8NCCAIIBpqIhYgESASQSBqLQAAQQJ0aioCADgCACAVQSRqIBBPDQ4gC0EDaiAJTw0HIBZBDGogESASQSRqLQAAQQJ0aioCADgCACAVQShqIBBPDQ0gC0EGaiAJTw0GIBZBGGogESASQShqLQAAQQJ0aioCADgCACAVQSxqIBBPDQwgC0EJaiAJTw0FIBZBJGogESASQSxqLQAAQQJ0aioCADgCACAVQTBqIBBPDQsgC0EMaiAJTw0EIBZBMGogESASQTBqLQAAQQJ0aioCADgCACAVQTRqIBBPDQogC0EPaiAJTw0DIBZBPGogESASQTRqLQAAQQJ0aioCADgCACAVQThqIBBPDQkgC0ESaiAJTw0BIBZByABqIBEgEkE4ai0AAEECdGoqAgA4AgALIBpBBGohGiAKQQFqIgpBA0kNAQwPCwsgC0ESaiELDAULIAtBD2ohCwwECyALQQxqIQsMAwsgC0EJaiELDAILIAtBBmohCwwBCyALQQNqIQsLIAsgCUHIx8cAEK4HAAsgEyANQQh0IAxyQcD/A3FBBnZsQQJ0IBQgDEE/cWxBAnRqIApqQThqDAULIBMgDUEIdCAMckHA/wNxQQZ2bEECdCAUIAxBP3FsQQJ0aiAKakE0agwECyATIA1BCHQgDHJBwP8DcUEGdmxBAnQgFCAMQT9xbEECdGogCmpBMGoMAwsgEyANQQh0IAxyQcD/A3FBBnZsQQJ0IBQgDEE/cWxBAnRqIApqQSxqDAILIBMgDUEIdCAMckHA/wNxQQZ2bEECdCAUIAxBP3FsQQJ0aiAKakEoagwBCyATIA1BCHQgDHJBwP8DcUEGdmxBAnQgFCAMQT9xbEECdGogCmpBJGoLIBBBuMfHABCuBwALIB5BFWohHiAIQdQAaiEIIAZBPGohBiAfQQ9qIR8gBEEkaiEEICBBCWohICAOIAIgDksiC2ohCiAOIQ0gCw0ACwwGC0EEQYAIEOEIAAsMCQsMCAsgCkEBaiENCyANIBlBqMfHABCuBwALIAogGUGYx8cAEK4HAAsCQCARQQRrKAIAIgJBeHFBhAhBiAggAkEDcSIDG08EQCADQQAgAkGoCE8bDQUgERCfAiAdBEAgAUEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgHWpJDQcgAkEAIAMgHUEnaksbDQYgARCfAgsgGARAIBdBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIBhqSQ0HIAFBACACIBhBJ2pLGw0GIBcQnwILIAAoAgAiAQRAIBtBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0HIAJBACADIAFBJ2pLGw0GIBsQnwILIAAoAgwiAEUEQEEAIRcMBQsgHEEEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgAGpJDQZBACEXIAFFDQMgAiAAQSdqSw0BDAMLDAULDAMLIAAoAgAiAQRAIBtBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0EIAJBACADIAFBJ2pLGw0DIBsQnwILIAAoAgwiAUUNASAAKAIQIhxBBGsoAgAiAEF4cSICQQRBCCAAQQNxIgAbIAFqSQ0DIABFIAIgAUEnak1yDQAMAgsgHBCfAgsgD0EgaiQAIBcPC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAuOHwINfwZ+IwBB0ANrIgIkACACQThqIAFBCGooAgAiBDYCACACIAEpAgAiDzcCMCACQYABOgA8IAJBADYCLCACQoCAgIAQNwIkIA+nIQYCQAJAAkACQCACKAI0IgMgBEsEQANAIAQgBmotAAAiBUEJayIBQRdLQQEgAXRBk4CABHFFcg0CIAMgBEEBaiIERw0ACyACIAM2AjggAyEECyACQQU2ApgCIAJBGGogBiADIARBAWoiASADIAEgA0kbEPoBIAJBmAJqIAIoAhggAigCHBDZByEBIABBAjYCACAAIAE2AgQMAQsgAiAENgI4AkACQAJAAkACQAJAAkACQCAFQdsARwRAIAVB+wBGDQEgAkEkaiIBIAJBzwNqQZzcwQAQ/wEgARCXBiEBIABBAjYCACAAIAE2AgQMCQsgAkH/ADoAPCACIARBAWo2AjggAkEBOgCUAyACIAJBJGo2ApADIAJBmAJqIAJBkANqEM8DIAItAJgCQQFGBEAgAigCnAIhAwwDCwJAAkACQAJAAkACQAJAAkACQAJAIAItAJkCQQFGBEAgAkEIaiACKAKQAxCwAyACKAIMIQYgAigCCEEBcQRAIAYhAwwOCyACQZgCaiACQZADahDPAyACLQCYAkEBRgRAIAIoApwCIQMMDgsgAi0AmQJBAUcNAiACQZgCaiACKAKQAxDVAyACKAKYAkEBRw0BIAIoApwCIQMMDQtBAEGcosEAQeidwQAQ/QYhAwwMCyACKQOgAiEPIAJBmAJqIAJBkANqEM8DIAItAJgCQQFGBEAgAigCnAIhAwwMCyACLQCZAkEBRw0CIAJBmAJqIAIoApADENUDIAIoApgCQQFHDQEgAigCnAIhAwwLC0EBQZyiwQBB6J3BABD9BiEDDAoLIAIpA6ACIRAgAkGYAmogAkGQA2oQzwMgAi0AmAJBAUYEQCACKAKcAiEDDAoLIAItAJkCQQFHDQIgAkGYAmogAigCkAMQ1QMgAigCmAJBAUcNASACKAKcAiEDDAkLQQJBnKLBAEHoncEAEP0GIQMMCAsgAikDoAIhESACQZgCaiACQZADahDPAyACLQCYAkEBRgRAIAIoApwCIQMMCAsgAi0AmQJBAUcNAiACQZgCaiACKAKQAxC2AiACKAKYAiIEQQJHDQEgAigCnAIhAwwHC0EDQZyiwQBB6J3BABD9BiEDDAYLIAIoApwCIQ4gAkGYAmogAkGQA2oQzwMgAi0AmAJBAUYEQCACKAKcAiEDDAYLIAItAJkCQQFHDQEgAkGYAmogAigCkAMQlwIgAi0AmAJBAUcNAiACKAKcAiEDDAULQQRBnKLBAEHoncEAEP0GIQMMBAtBBUGcosEAQeidwQAQ/QYhAwwDCyACLQCZAiEJIAJBmAJqIgEgAkGQA2oiAxDdBSACKAKcAiELIAIoApgCIghBBEYNASACQcgDaiACQdACaigCADYCACACQbgDaiACQcACav0AAgD9CwMAIAJBqANqIAJBsAJq/QACAP0LAwAgAiAC/QACoAL9CwOYAwJAAkAgCEEDRwRAIwBBEGsiBSQAIAVBBGogAxDPAwJAIAUtAARBAUYEQCABIAUoAgg2AgQgAUGBgICAeDYCAAwBCyAFLQAFRQRAIAFBgICAgHg2AgAMAQsgBUEEaiADKAIAEIEBIAUoAgRBgICAgHhGBEAgASAFKAIINgIEIAFBgYCAgHg2AgAMAQsgASAFKQIENwIAIAFBCGogBUEMaigCADYCAAsgBUEQaiQAIAIoApwCIQMgAigCmAIiBUGAgICAeGsOAgIFAQtBBkGcosEAQeidwQAQ/QYhAwwECyACKAKgAiEKIAJB2AFqIAJByANqKAIANgIAIAJByAFqIAJBuANq/QADAP0LAwAgAkG4AWogAkGoA2r9AAMA/QsDACACIAL9AAOYA/0LA6gBIAMhByAOIQMMBAtBB0GcosEAQeidwQAQ/QYhAwwCCyACQf8AOgA8IAIgBEEBajYCOCACQQE6AJQDIAIgAkEkajYCkAMgAkGgAmohCEGAgICAeCEGQQMhCUEDIQxBAiENAkACfwJAAkADQAJAIAJBmAJqIAJBkANqEP0CIAItAJgCQQFGBEAgAigCnAIhAQwBCwJAAkACQAJAAkAgAi0AmQJBAUYEQCACKAKQAyIEQQA2AgggBCAEKAIUQQFqNgIUIAJBmAJqIARBDGogBBCBAiACKAKcAiEBIAIoApgCQQJGDQYCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAIoAqACQQRrDgoCABMBExMFEwMEEwsgAUGTncEAQQUQuwdFDQcgAUGYncEAQQUQuwcNEiANQQJGDQlBmJ3BAEEFEM0HIQEMEwsgAUGMncEAQQcQuwdFDQQgAUGOjMEAQQcQuwcNESAMQQNGDQlBjozBAEEHEM0HIQEMEgsgASgAAEHiws2rBkYNBAwQCyABQeChwQBBDBC7Bw0PIBJQDQVB4KHBAEEMEM0HIQEMEAsgAUGgkcEAQQ0QuwcNDiAJQQNHDQogBBDQBSIBDQ8gAkGYAmogBBCDASACKAKcAiEHIAIoApgCIglBA0cNByAHIQEMDwsgAUHsocEAQQoQuwcNDSAGQYCAgIB4Rg0HQeyhwQBBChDNByEBIAYNEEEAIQZBAgwSCyAKRQ0LQYydwQBBBxDNByEBDA0LIBNQDQlB3KHBAEEEEM0HIQEMDAsgFFANB0GTncEAQQUQzQchAQwLCyAEENAFIgENCiACQZgCaiAEENUDIAIpA6ACIQ9CASESIAIoApgCRQ0LIAIoApwCIQEMCgsgBBDQBSIBDQkgAkGYAmogBBC2AiACKAKcAiIOIQEgAigCmAIiDUECRw0KDAkLIAQQ0AUiAQ0IIAJBmAJqIAQQlwIgAi0AmQIhDCACLQCYAkUNCSACKAKcAiEBDAgLIAJByANqIAhBMGooAgA2AgAgAkG4A2ogCEEgav0AAgD9CwMAIAJBqANqIAhBEGr9AAIA/QsDACACIAj9AAIA/QsDmAMMCAsgBBDQBSIDRQRAIAJBmAJqIAQQgQEgAigCoAIhCyACKAKcAiEDIAIoApgCIgZBgICAgHhHDQgLQQIhBEGAgICAeCEGDAsLIApBAXFFBEBBjJ3BAEEHEMoHIQEMBgsgE1AEQEHcocEAQQQQygchAQwGCyAUUARAQZOdwQBBBRDKByEBDAYLIBJQBEBB4KHBAEEMEMoHIQEMBgtBAiEKIAlBA0cEQCACQcgCaiACQcgDaigCADYCACACQbgCaiACQbgDav0AAgD9CwMAIAJBqAJqIAJBqANq/QACAP0LAwAgAiAC/QACmAP9CwOYAiAJIQoLIAZBgICAgHhGBEBBAiEEQeyhwQBBChDKByEDQYCAgIB4IQYMCwsgDUEAIA1BAkcbIQRBAiAMIAxBA0YbIQkgAkGQAmogAkHIAmooAgA2AgAgAkGAAmogAkG4Amr9AAMA/QsDACACQfABaiACQagCav0AAwD9CwMAIAIgAv0AA5gC/QsD4AEgAyEIIA4hAwwKC0GgkcEAQQ0QzQchAQwECyAEENAFIgENAyACQZgCaiAEENUDIAIpA6ACIRBCASEUIAIoApgCRQ0EIAIoApwCIQEMAwsgBBDQBSIBDQIgAkGYAmogBBDVAyACKQOgAiERQgEhEyACKAKYAkUNAyACKAKcAiEBDAILIAQQ0AUiBQR/QQEFIAJBEGogBBCwAyACKAIUIQUgAigCEAtBASEKIAUhAUEBcUUNAgwBCyAEEKoBIgFFDQELCyAGQYCAgIB4ckGAgICAeEYNAQsgA0EEaygCACIEQXhxIgUgBkEobCIHQQRBCCAEQQNxIgQbakkNCyAEQQAgBSAHQSdqSxsNDCADEJ8CC0ECCyEEIAEhAwsgAiACLQA8QQFqOgA8IAJBJGoQhQUhASACQdACaiACQfABav0AAwD9CwMAIAJB4AJqIAJBgAJq/QADAP0LAwAgAkHwAmogAkGQAmooAgA2AgAgAiAHNgK8AiACIAo2ArgCIAIgDzcDsAIgAiAQNwOoAiACIBE3A6ACIAIgAzYCnAIgAiAGNgL0AiACIAg2AvgCIAIgCzYC/AIgAiAFNgKAAyACIAE2AogDIAIgCToAhAMgAiAC/QAD4AH9CwPAAiACIAQ2ApgCAkAgBEECRwRAIAENASACQUBrIAJBoAJqQegA/AoAAAwHCyABRQ0EIAJBiANqELAEQQIhBAwGC0ECIQQCQCAGBEAgCEEEaygCACIDQXhxIgcgBkEobCIGQQRBCCADQQNxIgMbakkNCiADQQAgByAGQSdqSxsNASAIEJ8CCyABIQMMBgsMCQsgCyEDC0ECIQQLIAIgAi0APEEBajoAPCACQSRqEJkEIQEgAkHQAmogAkG4AWr9AAMA/QsDACACQeACaiACQcgBav0AAwD9CwMAIAJB8AJqIAJB2AFqKAIANgIAIAIgCzYCvAIgAiAINgK4AiACIBE3A7ACIAIgEDcDqAIgAiAPNwOgAiACIAM2ApwCIAIgBTYC9AIgAiAHNgL4AiACIAo2AvwCIAIgBjYCgAMgAiABNgKIAyACIAk6AIQDIAIgAv0AA6gB/QsDwAIgAiAENgKYAiAEQQJHBEAgAQ0CIAJBQGsgAkGgAmpB6AD8CgAADAMLIAFFDQAgAkGIA2oQsAQLQQIhBAwBC0ECIQQgBQRAIAdBBGsoAgAiA0F4cSIGIAVBKGwiBUEEQQggA0EDcSIDG2pJDQQgA0EAIAYgBUEnaksbDQIgBxCfAgsgASEDCyAEQQJGBEAgAyACQSRqEJcGIQEgAEECNgIAIAAgATYCBAwCCyAAQQhqIAJBQGtB6AD8CgAAIAAgBDYCACAAIAM2AgQgAigCOCIEIAIoAjQiAU8NASAAKAJgIAAoAlwhAyACKAIwIQcCQANAIAQgB2otAABBCWsiBUEXS0EBIAV0QZOAgARxRXINASABIARBAWoiBEcNAAsgAiABNgI4DAILIAIgBDYCOCACQRY2ApgCIAIgByABIARBAWoiByABIAEgB0sbEPoBIAJBmAJqIAIoAgAgAigCBBDZByEBIABBAjYCACAAIAE2AgQgA0UNASADQShsQQgQiAcMAQsMAgsCQCACKAIkIgAEQCACKAIoIgFBBGsoAgAiA0F4cSIHQQRBCCADQQNxIgMbIABqSQ0CIANBACAHIABBJ2pLGw0BIAEQnwILIAJB0ANqJAAPCwwBC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAuRHQIQfwR+IwBB4AFrIgIkACABKAIMIQYCQAJAAkACQCABKAIUIgQgASgCECIDSQRAA0AgBCAGai0AACIFQQlrIgdBF0tBASAHdEGTgIAEcUVyDQIgASAEQQFqIgQ2AhQgAyAERw0ACyADIQQLIAJBBTYCmAEgAkEIaiAGIAMgBEEBaiIBIAMgASADSRsQ+gEgAkGYAWogAigCCCACKAIMENkHIQEgAEGAgICAeDYCACAAIAE2AgQMAQsgBUHbAEYEQCABIAEtABhBAWsiBToAGCAFQf8BcQRAIAEgBEEBajYCFCACQQE6ADggAiABNgI0IAJBADYCRCACQoCAgICAATcCPCACQcgBaiEQIAJBoAFqIQ4gAkHgAGohEUEIIQoDQAJAIAJBmAFqIAJBNGoQzwMCQAJ/IAItAJgBQQFGBEAgAigCnAEMAQsCQCACLQCZAUEBRgRAIAIoAjQiCCgCDCEDAkAgCCgCFCIEIAgoAhAiB0kEQANAIAMgBGotAAAiBkEJayIFQRdLQQEgBXRBk4CABHFFcg0CIAggBEEBaiIENgIUIAQgB0cNAAsgByEECyACQQU2ApgBIAJBKGogAyAHIARBAWoiAyAHIAMgB0kbEPoBIAJBmAFqIAIoAiggAigCLBDZBwwDCwJAAkAgBkHbAEcEQCAGQfsARg0BIAggAkHfAWpB7NvBABD/ASAIEJcGDAULIAggCC0AGEEBayIFOgAYIAVB/wFxRQ0BIAggBEEBajYCFCACQQE6ANgBIAIgCDYC1AEgAkGYAWogAkHUAWoQzwMCQAJ/IAItAJgBQQFGBEAgAigCnAEMAQsCQAJAAkACQAJAAkACQCACLQCZAUEBRgRAIAJBmAFqIAIoAtQBENUDIAIoApgBQQFGBEAgAigCnAEMCQsgAikDoAEhEiACQZgBaiACQdQBahDPAyACLQCYAUEBRgRAIAIoApwBDAkLIAItAJkBQQFHDQIgAkGYAWogAigC1AEQ1QMgAigCmAFBAUcNASACKAKcAQwIC0EAQeiiwQBB6J3BABD9BgwHCyACKQOgASETIAJBmAFqIAJB1AFqEM8DIAItAJgBQQFGBEAgAigCnAEMBwsgAi0AmQFBAUcNAiACQZgBaiACKALUARC2AiACKAKYASIEQQJHDQEgAigCnAEMBgtBAUHoosEAQeidwQAQ/QYMBQsgAigCnAEhAyACQZgBaiACQdQBahDPAyACLQCYAUEBRgRAIAIoApwBDAULIAItAJkBQQFHDQIgAkGYAWogAigC1AEQtgIgAigCmAEiCUECRw0BIAIoApwBDAQLQQJB6KLBAEHoncEAEP0GDAMLIAIoApwBIQsgAkGYAWogAkHUAWoQzwMgAi0AmAFBAUYEQCACKAKcAQwDCyACLQCZAUEBRw0BIAJBmAFqIAIoAtQBEOYCIAIoApwBIgUgAigCmAEiBkGBgICAeEYNAhogAigCoAEhDSAFIQcMAwtBA0HoosEAQeidwQAQ/QYMAQtBBEHoosEAQeidwQAQ/QYLIQNBAiEECyAIIAgtABhBAWo6ABggAiAIEJkEIgU2AsgBIAIgDTYCwAEgAiAHNgK8ASACIAY2ArgBIAIgEzcDsAEgAiASNwOoASACIAs2AqQBIAIgCTYCoAEgAiADNgKcASACIAQ2ApgBAkAgBEECRwRAIAUNASACQZABaiAOQSBqKQMANwMAIAJBgAFqIA5BEGr9AAMA/QsDACACIA79AAMA/QsDcCADIQUMBQtBAiEEIAUEQCAQELAECyADIQUMBAtBAiEEIAZBgICAgHhyQYCAgIB4Rg0DIAdBBGsoAgAiA0F4cSIJQQRBCCADQQNxIgMbIAZqSQ0LIANBACAJIAZBJ2pLGw0MIAcQnwIMAwsgCCAILQAYQQFrIgU6ABggBUH/AXEEQCAIIARBAWo2AhQgAkEBOgDYASACIAg2AtQBQgAhFEECIQ1BgYCAgHghBUECIQtCACEVAkADQAJAIAJBmAFqIAJB1AFqEP0CIAItAJgBQQFGBEAgAigCnAEhAwwBCwJAAkACQAJAAkAgAi0AmQFBAUYEQCACKALUASIEQQA2AgggBCAEKAIUQQFqNgIUIAJBmAFqIARBDGogBBCBAiACKAKcASEDIAIoApgBQQJGDQYCQAJAAkACQAJAAkACQAJAAkAgAigCoAFBBGsOBQIAAQ4DDgsgA0Gt6scAQQUQuwdFDQQgA0GTncEAQQUQuwcNDSANQQJGDQZBk53BAEEFEM0HIQMMDgsgA0G0osEAQQYQuwdFDQIMDAsgAygAAEHiws2rBkcNCyALQQJGDQNB3KHBAEEEEM0HIQMMDAsgAykAAELm0rGr5q3YtuUAUg0KIAVBgYCAgHhGDQRBAiEEQbqiwQBBCBDNByEDIAVBgICAgHhyQYCAgIB4Rw0GIAMhBgwNCyAVUA0IQbSiwQBBBhDNByEDDAoLIBRQDQZBrerHAEEFEM0HIQMMCQsgBBDQBSIDDQggAkGYAWogBBC2AiACKAKcASEPIAIoApgBIgtBAkcNCSAPIQMMCAsgBBDQBSIDDQcgAkGYAWogBBC2AiACKAKcASEJIAIoApgBIg1BAkcNCCAJIQMMBwsgBBDQBSIGRQRAIAJBmAFqIAQQ5gIgAigCoAEhByACKAKcASEGIAIoApgBIgVBgYCAgHhHDQgLQQIhBAwICyAVUARAQbSiwQBBBhDKByEDDAYLIBSnDQFBrerHAEEFEMoHIQMMBQsgBiAFQQEQiAcgAyEGDAYLIAtBACALQQJHGyEEQYCAgIB4IAUgBUGBgICAeEYbIQMgDUEAIA1BAkcbIQ0gBiELIA8hBgwFCyAEENAFIgMNAiACQZgBaiAEENUDIAIoApgBBEAgAigCnAEhAwwDCyACKQOgASESQgEhFAwDCyAEENAFIgMNASACQZgBaiAEENUDIAIoApgBBEAgAigCnAEhAwwCCyACKQOgASETQgEhFQwCCyAEEKoBIgNFDQELC0ECIQQgBUUgBUGCgICAeEhyRQRAIAZBBGsoAgAiB0F4cSIJQQRBCCAHQQNxIgcbIAVqSQ0NIAdBACAJIAVBJ2pLGw0OIAYQnwILIAMhBgsgCCAILQAYQQFqOgAYIAIgCBCFBSIFNgLIASACIAc2AsABIAIgCzYCvAEgAiADNgK4ASACIBI3A7ABIAIgEzcDqAEgAiAJNgKkASACIA02AqABIAIgBjYCnAEgAiAENgKYAQJAAkACQCAEQQJHBEAgBQ0BIAJBkAFqIA5BIGopAwA3AwAgAkGAAWogDkEQav0AAwD9CwMAIAIgDv0AAwD9CwNwIAYhBQwHC0ECIQQgBQ0BIAYhBQwGC0ECIQQgA0GAgICAeHJBgICAgHhGDQUgC0EEaygCACIGQXhxIgdBBEEIIAZBA3EiBhsgA2pJDQ0gBkEAIAcgA0EnaksbDQEgCxCfAgwFCyAQELAEIAYhBQwECwwMCyACQRg2ApgBIAJBIGogAyAHIARBAWoiAyAHIAMgB0kbEPoBIAJBmAFqIAIoAiAgAigCJBDZBwwDCyACQRg2ApgBIAJBGGogAyAHIARBAWoiAyAHIAMgB0kbEPoBIAJBmAFqIAIoAhggAigCHBDZBwwCCyACKAI8IQcMAwsgBEECRgRAIAUgCBCXBgwBCyACQegAaiACQZABaikDADcDACACQdgAaiACQYABav0AAwD9CwMAIAIgAv0AA3D9CwNIIARBA0cNASAFCyEKIAIoAkAhBiAMBEAgBkEkaiEEIAwhAwNAIARBBGsoAgAiBUGAgICAeHJBgICAgHhHBEAgBCgCACIHQQRrKAIAIglBeHEiD0EEQQggCUEDcSIJGyAFakkNCSAJQQAgDyAFQSdqSxsNCiAHEJ8CCyAEQTBqIQQgA0EBayIDDQALC0GAgICAeCEHIAIoAjwiA0UNASAGQQRrKAIAIgVBeHEiBCADQTBsIgNBBEEIIAVBA3EiBRtySQ0GIAVBACAEIANBJ2pLGw0HIAYQnwIMAQsgAigCPCAMRgRAIwBBEGsiAyQAIANBBGogAkE8aiIGKAIAIgcgBigCBEEEIAdBAXQiByAHQQRNGyIHQQhBMBCLBiADKAIEQQFGBEAgAygCCCADKAIMEOEIAAsgAygCCCEKIAYgBzYCACAGIAo2AgQgA0EQaiQAIAIoAkAhCgsgCiAMQTBsaiIDIAU2AgQgAyAENgIAIAMgAikDSDcCCCADQRBqIAJB0ABq/QADAP0LAgAgA0EgaiAR/QADAP0LAgAgAiAMQQFqIgw2AkQMAQsLIAEgAS0AGEEBajoAGCACIAEQmQQiCTYCpAEgAiAMNgKgASACIAo2ApwBIAIgBzYCmAECQAJAAkAgB0GAgICAeEcEQCAJRQ0CIAwEQCAKQSRqIQQDQCAEQQRrKAIAIgNBgICAgHhyQYCAgIB4RwRAIAQoAgAiBkEEaygCACIFQXhxIg9BBEEIIAVBA3EiBRsgA2pJDQogBUEAIA8gA0EnaksbDQsgBhCfAgsgBEEwaiEEIAxBAWsiDA0ACwsgB0UNASAKQQRrKAIAIgNBeHEiBiAHQTBsIgVBBEEIIANBA3EiAxtySQ0HIANBACAGIAVBJ2pLGw0DIAoQnwIMAQsgCQRAIAJBpAFqELAECyAKIQkLIAkgARCXBiEBIABBgICAgHg2AgAgACABNgIEDAQLIAAgDDYCCCAAIAo2AgQgACAHNgIADAMLDAQLIAJBGDYCmAEgAkEQaiAGIAMgBEEBaiIBIAMgASADSRsQ+gEgAkGYAWogAigCECACKAIUENkHIQEgAEGAgICAeDYCACAAIAE2AgQMAQsgASACQd8BakGM28EAEP8BIAEQlwYhASAAQYCAgIB4NgIAIAAgATYCBAsgAkHgAWokAA8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC50ZAhh/AXsjAEHACmsiDCQAIAxBMGoiDv0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgDEEgaiIQICP9CwMAIAxBEGoiFCAj/QsDACAMICP9CwMAAn8CQCABRQ0AIAxBPGohDyABIQ0gACELAkADQCALLQAAIhNBEEkEQCAMIBNBAnRqIhMgEygCAEEBajYCACALQQFqIQsgDUEBayINDQEMAgsLIBNBEEGouMQAEK4HAAtBASENQQAhC0EPIAwoAjwNARogDCgCOEUNACAMQThqIQ9BDgwBC0EBIQ0gDCgCNARAIAxBNGohD0ENDAELIAwoAjAEQCAOIQ9BDAwBCyAMKAIsBEAgDEEsaiEPQQsMAQsgDCgCKARAIAxBKGohD0EKDAELIAwoAiQEQCAMQSRqIQ9BCQwBCyAMKAIgBEAgECEPQQgMAQsgDCgCHARAIAxBHGohD0EHDAELIAwoAhgEQCAMQRhqIQ9BBgwBCyAMKAIUBEAgDEEUaiEPQQUMAQsgDCgCEARAIBQhD0EEDAELIAwoAgwEQCAMQQxqIQ9BAwwBCyAMKAIIBEAgDEEIaiEPQQIMAQsgDEEEciEPQQEhC0EAIQ1BAQshFgJ/AkAgCUUNACALIAwoAgRBAUZxRQ0AAkAgAQRAQQAhCwNAIAAgC2otAABBAUYNAiABIAtBAWoiC0cNAAsLQfi3xAAQ0AkACyAFIAtLBEAgBCALQQF0akEAOwEAIAMgC0siAAR/IAIgC0ECdGooAgAFIA0LIAtBEHQgABtBAXIhAAJAA0AgBiAANgIAIAdBAUYNASAGQQA2AgQgBkECIAcgB0ECTxsiAUECdGohBiAHIAFrIgcNAAtBAQwDC0EBQQFBmLjEABCuBwALIAsgBUGIuMQAEK4HAAsgDEHwAGogI/0LAwAgDEHgAGogI/0LAwAgDEHQAGogI/0LAwAgDCAj/QsDQCAMIAwoAgAiETYCREEAIQsCQCANBH8gDCARIAwoAgQiC2oiDTYCSAJAIBZBAWoiDkEDRg0AIAwgDSAMKAIIIglqIg02AkwgCSALQQF0aiELIA5BBEYNACAMIA0gDCgCDCIJaiINNgJQIAkgC0EBdGohCyAOQQVGDQAgDCANIAwoAhAiCWoiDTYCVCAJIAtBAXRqIQsgDkEGRg0AIAwgDSAMKAIUIglqIg02AlggCSALQQF0aiELIA5BB0YNACAMIA0gDCgCGCIJaiINNgJcIAkgC0EBdGohCyAOQQhGDQAgDCANIAwoAhwiCWoiDTYCYCAJIAtBAXRqIQsgDkEJRg0AIAwgDSAMKAIgIglqIg02AmQgCSALQQF0aiELIA5BCkYNACAMIA0gDCgCJCIJaiINNgJoIAkgC0EBdGohCyAOQQtGDQAgDCANIAwoAigiCWoiDTYCbCAJIAtBAXRqIQsgDkEMRg0AIAwgDSAMKAIsIglqIg02AnAgCSALQQF0aiELIA5BDUYNACAMIA0gDCgCMCIJaiINNgJ0IAkgC0EBdGohCyAOQQ5GDQAgDCANIAwoAjQiCWoiDTYCeCAJIAtBAXRqIQsgDkEPRg0AIAwgDSAMKAI4Ig5qNgJ8IA4gC0EBdGohCwsgC0EBdAUgCwsgDygCAGoiHUEBIBZ0Ih5HDQAgDEGwAWogDEHwAGr9AAMA/QsDACAMQaABaiAMQeAAav0AAwD9CwMAIAxBkAFqIAxB0ABq/QADAP0LAwAgDCAM/QADQP0LA4ABIAxBwAFqQQBBgAn8CwACQAJAIAEEQEEAIQsDQCAAIAtqLQAAIg5BD0sNAiAMQYABaiAOQQJ0aiINKAIAIg5BoAJPDQMgDSAOQQFqNgIAIAxBwAFqIA5BAnRqIAs2AgAgASALQQFqIgtHDQALC0F/IAdnIh9BH3MiF3RBf3MhGkEAIQ5BASESA0ACQAJAAkACQAJAIBJBEEkEQEEBIBJ0IRUgDCASQQJ0aigCACIPBEBBoAIgESARQaACTRshECAVQQFrIQEgDEHAAWogEUECdGohACAOIQ0DQCAQIBFGDQYgACgCACILIANJIhQEQCACIAtBAnRqKAIAIQkLIAcgDUH//wNxIg5NDQUgBiAOQQJ0aiAJIAtBEHQgFBsgEnI2AgAgBSALTQ0EIAQgC0EBdGogDTsBACARQQFqIREgAEEEaiEAIA4gASIOQf//A3FHBEBBASANIA5zQRB0Z0EPc3QiC0EBayANcSALciEOCyAOIQ0gD0EBayIPDQALCyAKDQEMBQsgEkEQQZi2xAAQrgcACyASQQFrIhlBAkkNAyASQYCEAnIhIEEBIQFBAiELA0AgASETIAshAQJAIBNBEEkEQCATQQJ0IgsgDEFAayINaigCACIAIAxBgAFqIAtqKAIAIhtPDQEgEiATayILQQ9NBEAgDSALQQJ0IgtqKAIAIg8gDEGAAWogC2ooAgAiHE8NAiAAIAAgG0lqIQsgDEHAAWogD0ECdGohFANAIAshEAJAAkACQAJAAkACQCAAQaACSQRAIA8hCyAUIQ0gBSAMQcABaiAAQQJ0aigCACIATQRAA0AgC0GfAksNAyANKAIAIAByQYACSQ0FIA1BBGohDSAcIAtBAWoiC0cNAAwICwALIAQgAEEBdGohISAAQRB0ICByISIDQCALQZ8CSw0DIA0oAgAiGCAAckH/AU0EQCAFIBhNDQYgByAhLwEAIAQgGEEBdGovAQAgE3RB//8DcXIiCU0NByAGIAlBAnRqIBhBGHQgInI2AgALIA1BBGohDSALQQFqIgsgHEcNAAsMBgsgAEGgAkHYtsQAEK4HAAtBoAIgDyAPQaACTRshCwsgC0GgAkHotsQAEK4HAAsgACAFQfi2xAAQrgcACyAYIAVBiLfEABCuBwALIAkgB0GYt8QAEK4HAAsgECAQIBtJIg1qIQsgECEAIA0NAAsMAgsgC0EQQci2xAAQrgcACyATQRBBuLbEABCuBwALIAEgASAZSSIAaiELIAANAAsMAwsgCyAFQci3xAAQrgcACyAOIAdBuLfEABCuBwALIBFBoAJBqLfEABCuBwALAkAgEiAXSSIARQ0AAkAgByAVTwRAIBUgByAVa0sNAUEEIBJ0IgFFDQIgBiAVQQJ0aiAGIAH8CgAADAILQQAgFSAHQai2xAAQ1QcAC0H07ccAQStBqLbEABDbBwALIBIgF0kEQCAAIBJqIhIgF00NAQsLIAhBADYCCCAWIBdNDQJBICAfayIQIBZLDQJBACEBQQAhAEEAIQJB//8DIQMDQAJAIAwgEEECdGooAgAiCUUNAEGgAiARIBFBoAJNGyESQQEgECAXayIKdCIUQQFrIhVBgMABciEYQQIgCkEfcSIZdEECayETQX8gEHRBf3MhCiAMQcABaiARQQJ0aiENIA4hCwJAAkACQANAAkAgCyAacSIOQf//A3EiDyADQf//A3FHBEAgByAPTQ0BIAYgD0ECdGogAEEQdCAYcjYCACAIKAIAIAAiAWsgFEkEQCAIIAEgFEECQQIQmAYgCCgCCCEBCyAIKAIEIgMgAUEBdGohDyAZBH8gEwRAIA9BACAT/AsACyADIAEgFGpBAXRqQQJrIQ8gASAVagUgAQshAiAPQQA7AQAgCCACQQFqIgE2AgggDiEDIAAhAgsgESASRg0CIA0oAgAiACAFTw0DIAQgAEEBdGogCzsBACACIAtB//8DcSIPIBd2aiIOIAFPDQQgCCgCBCAOQQF0aiAAQQR0IBBqOwEAIAoiDkH//wNxIA9HBEBBASALIA5zQRB0Z0EPc3QiAEEBayALcSAAciEOCyARQQFqIREgDUEEaiENIAEhACAOIQsgCUEBayIJDQEMBQsLIA8gB0HYtcQAEK4HAAsgEUGgAkHotcQAEK4HAAsgACAFQfi1xAAQrgcACyAOIAFBiLbEABCuBwALAkAgECAWTyILDQAgA0H//wNxIgkgDiAacUH//wNxRw0AIAEgAk8EQCABIQAgASACayIKIAgoAgAgAWtLBEAgCCABIApBAkECEJgGIAgoAgghAAsgCkEAIAEgCk8bIgFBAXQiCgRAIAgoAgQiDSAAQQF0aiANIAJBAXRqIAr8CgAACyAIIAAgAWoiATYCCCAHIAlLBEAgBiAJQQJ0aiABIAJBf3NqIAJBEHRyQYDAAXI2AgAgASEADAILIAkgB0HItcQAEK4HAAsgAiABIAFB9JHEABDVBwALIAsNAyAQIBAgFklqIhAgFk0NAAsMAgsgDkEQQdi3xAAQrgcACyAOQaACQei3xAAQrgcACyAdIB5GCyAMQcAKaiQAC9AjAiZ7E38CQAJAAkACQAJAAkAgAUECSwRAIANFDQEgBUUNAiAHRQ0DIABB/wEgAi0AAEGFlQFsQQh2IjEgBC0AACIvQZqCAmxBCHZqQZWKAWtBBnUiNEEAIDRBAEobIjQgNEH/AU4bOgACIABB/wEgMSAGLQAAIjVBpcwBbEEIdmpBmu8Aa0EGdSI0QQAgNEEAShsiNCA0Qf8BThs6AAAgAEH/ASAxIC9BkzJsQQh2IDVBiOgAbEEIdmprQYTEAGpBBnUiMUEAIDFBAEobIjEgMUH/AU4bOgABIAJBAWohNCADQQFrIgNBfnEhOyAAQQNqITEgA0EBcSE+IAFBA2siASABQQZwIjxrIjlBBkkNBiADQQF2IgMiASA5QQZrIi5BBm4iMiABIDJJGyIBIAdBAWsiMCIyIAEgMkkbIgEgBUEBayIzIjIgASAySRsiAUEQSQ0EIDEgAiADIC5BBm4iLiADIC5JGyIDIDAiLiADIC5JGyIDIDMiLiADIC5JGyIDQQF0akEDakkgNCAAIANBBmxqQQlqIgBJcQ0EIDEgBCADQQJqIgJqSSAAIARLcSAxIAIgBmpJIAAgBktxcg0EIAFBAWoiAEEPcSICQRAgAhsiAiABQX9zaiE2IAcgACACayIwayE6IAYgMGohLiAFIDBrIQMgBCAwaiEyIDQgMEEBdCIAaiECIDsgAGshASAxIDBBBmxqIQAgOSAwQXpsaiE9IC/9DyEZIDX9DyEUIAQhNSAGITAgMSEvIDQhMwNAIC8gM/0AAAAiGiAU/Q0AAgQGAAAAAAAAAAAAAAAA/YkB/akB/QyFSgAAhUoAAIVKAACFSgAAIgz9tQFBCP2tASIkIBQgMEEBav0AAAAiFP0NDxAREhMUFRYXGBkaGxwdHv2JASII/QwJAAkACQAJAAkACQAJAAkAIg39lQEgFP2JASIT/Y4BIBMgCP2OAf0MAwADAAMAAwADAAMAAwADACIO/ZUB/Y4B/QwIAAgACAAIAAgACAAIAAgAIg/9jgFBBP2NASIJ/akBIhH9DCVmAAAlZgAAJWYAACVmAAAiFf21AUEI/a0B/a4B/QxmyP//Zsj//2bI//9myP//Ihb9rgFBBv2sAf0MAAAAAAAAAAAAAAAAAAAAACII/bgB/Qz/AAAA/wAAAP8AAAD/AAAAIgr9tgEgGiAI/Q0ICgwOAAAAAAAAAAAAAAAA/YkB/akBIAz9tQFBCP2tASIlIAn9qgEiCyAV/bUBQQj9rQH9rgEgFv2uAUEG/awBIAj9uAEgCv22Af0NAAQIDBAUGBwAAAAAAAAAACAz/QAAECIhIAj9DQACBAYAAAAAAAAAAAAAAAD9iQH9qQEgDP21AUEI/a0BIiYgFCAI/Q0HCAkKCwwNDgAAAAAAAAAA/YkBIgkgDf2VASAU/YoBIhv9jgEgGyAJ/Y4BIA79lQH9jgEgD/2OAUEE/Y0BIhL9qQEiFyAV/bUBQQj9rQH9rgEgFv2uAUEG/awBIAj9uAEgCv22ASIJ/RsA/RcIIAn9GwH9FwkgCf0bAv0XCiAJ/RsD/RcLICEgCP0NCAoMDgAAAAAAAAAAAAAAAP2JAf2pASAM/bUBQQj9rQEiECAS/aoBIiAgFf21AUEI/a0B/a4BIBb9rgFBBv2sASAI/bgBIAr9tgEiCf0bAP0XDCAJ/RsB/RcNIAn9GwL9Fw4gCf0bA/0XDyIcICQgGSA1QQFq/QAAACIZ/Q0PEBESExQVFhcYGRobHB0e/YkBIgkgDf2VASAZ/YkBIhj9jgEgGCAJ/Y4BIA79lQH9jgEgD/2OAUEE/Y0BIh39qQEiJ/0MExkAABMZAAATGQAAExkAACIJ/bUBQQj9rQEgEf0MCDQAAAg0AAAINAAACDQAACIR/bUBQQj9rQH9rgH9sQH9DAQiAAAEIgAABCIAAAQiAAAiEv2uAUEG/awBIAj9uAEgCv22ASAlIB39qgEiKCAJ/bUBQQj9rQEgCyAR/bUBQQj9rQH9rgH9sQEgEv2uAUEG/awBIAj9uAEgCv22Af0NAAQIDBAUGBwAAAAAAAAAACAmIBkgCP0NBwgJCgsMDQ4AAAAAAAAAAP2JASILIA39lQEgGf2KASId/Y4BIB0gC/2OASAO/ZUB/Y4BIA/9jgFBBP2NASIe/akBIikgCf21AUEI/a0BIBcgEf21AUEI/a0B/a4B/bEBIBL9rgFBBv2sASAI/bgBIAr9tgEiC/0bAP0XCCAL/RsB/RcJIAv9GwL9FwogC/0bA/0XCyAQIB79qgEiHiAJ/bUBQQj9rQEgICAR/bUBQQj9rQH9rgH9sQEgEv2uAUEG/awBIAj9uAEgCv22ASIL/RsA/RcMIAv9GwH9Fw0gC/0bAv0XDiAL/RsD/RcPIhf9DQAAAAAOHgAAAAAPHwAAAAAgECAe/QwagQAAGoEAABqBAAAagQAAIgv9tQFBCP2tAf2uAf0M67r//+u6///ruv//67r//yIQ/a4BQQb9rAEgCP24ASAK/bYBIh4gISAI/Q0JCw0PAAAAAAAAAAAAAAAA/YkB/akBIAz9tQFBCP2tASIgIBsgDf2VASAw/QAAACIf/YoBIiL9jgEgIiAb/Y4BIA79lQH9jgEgD/2OAUEE/Y0BIiL9qgEiKiAV/bUBQQj9rQH9rgEgFv2uAUEG/awBIAj9uAEgCv22ASIr/Q0EFAAAAAAIGAAAAAAMHAAA/Q0QEQAABAUWFwAACgscHQAAIBogCP0NAQMFBwAAAAAAAAAAAAAAAP2JAf2pASAM/bUBQQj9rQEiGyAYIA39lQEgNf0AAAAiLP2JASIj/Y4BICMgGP2OASAO/ZUB/Y4BIA/9jgFBBP2NASIY/akBIiMgCf21AUEI/a0BIBMgDf2VASAf/YkBIh/9jgEgHyAT/Y4BIA79lQH9jgEgD/2OAUEE/Y0BIhP9qQEiHyAR/bUBQQj9rQH9rgH9sQEgEv2uAUEG/awBIAj9uAEgCv22ASAaIAj9DQkLDQ8AAAAAAAAAAAAAAAD9iQH9qQEgDP21AUEI/a0BIhogGP2qASIYIAn9tQFBCP2tASAT/aoBIi0gEf21AUEI/a0B/a4B/bEBIBL9rgFBBv2sASAI/bgBIAr9tgH9hgEgISAI/Q0BAwUHAAAAAAAAAAAAAAAA/YkB/akBIAz9tQFBCP2tASITIB0gDf2VASAs/YoBIgz9jgEgDCAd/Y4BIA79lQH9jgEgD/2OAUEE/Y0BIgz9qQEiDSAJ/bUBQQj9rQEgIv2pASIOIBH9tQFBCP2tAf2uAf2xASAS/a4BQQb9rAEgCP24ASAK/bYBICAgDP2qASIPIAn9tQFBCP2tASAqIBH9tQFBCP2tAf2uAf2xASAS/a4BQQb9rAEgCP24ASAK/bYB/YYB/WYiDP0NAAEdAAQFBgceAAoLDA0fACAbICMgC/21AUEI/a0B/a4BIBD9rgFBBv2sASAI/bgBIAr9tgEgGiAYIAv9tQFBCP2tAf2uASAQ/a4BQQb9rAEgCP24ASAK/bYB/YYBIBMgDSAL/bUBQQj9rQH9rgEgEP2uAUEG/awBIAj9uAEgCv22ASAgIA8gC/21AUEI/a0B/a4BIBD9rgFBBv2sASAI/bgBIAr9tgH9hgH9ZiIN/Q0AAQIdBAUGBwgeCgsMDQ4f/QsAUCAvIBwgF/0NAAALGwAAAAAMHAAAAAANHSAmICkgC/21AUEI/a0B/a4BIBD9rgFBBv2sASAI/bgBIAr9tgEiDyATIA4gFf21AUEI/a0B/a4BIBb9rgFBBv2sASAI/bgBIAr9tgEiDv0NAAAAAAwcAAAAAAAAAAAAACAe/RsA/RcKICv9GwD9Fwv9DQAAAgMUFQAACAkaGwAADg8gDP0NGgACAwQFGwAICQoLHAAODyAN/Q0AGgIDBAUGGwgJCgsMHA4P/QsAQCAvIBwgF/0NCBgAAAAACRkAAAAAChoAACAPIA79DQAAABAAAAAABBQAAAAACBj9DQABEhMAAAYHGBkAAAwNHh8gDP0NAAECAxgABgcICRkADA0ODyAN/Q0AAQIDBBgGBwgJChkMDQ4P/QsAMCAvIBwgF/0NAAAAAAYWAAAAAAcXAAAAACAlICggC/21AUEI/a0B/a4BIBD9rgFBBv2sASAI/bgBIAr9tgEiDiAaIC0gFf21AUEI/a0B/a4BIBb9rgFBBv2sASAI/bgBIAr9tgEiD/0NBBQAAAAACBgAAAAADBwAAP0NEBEAAAQFFhcAAAoLHB0AACAM/Q0AARUABAUGBxYACgsMDRcAIA39DQABAhUEBQYHCBYKCwwNDhf9CwAgIC8gHCAX/Q0AAAMTAAAAAAQUAAAAAAUVICQgJyAL/bUBQQj9rQH9rgEgEP2uAUEG/awBIAj9uAEgCv22ASIJIBsgHyAV/bUBQQj9rQH9rgEgFv2uAUEG/awBIAj9uAEgCv22ASII/Q0AAAAADBwAAAAAAAAAAAAAIA79GwD9FwogD/0bAP0XC/0NAAACAxQVAAAICRobAAAODyAM/Q0SAAIDBAUTAAgJCgsUAA4PIA39DQASAgMEBQYTCAkKCwwUDg/9CwAQIC8gHCAX/Q0AEAAAAAABEQAAAAACEgAAIAkgCP0NAAAAEAAAAAAEFAAAAAAIGP0NAAESEwAABgcYGQAADA0eHyAM/Q0AAQIDEAAGBwgJEQAMDQ4PIA39DQABAgMEEAYHCAkKEQwNDg/9CwAAIDVBEGohNSAwQRBqITAgL0HgAGohLyAzQSBqITMgNkEQaiI2DQALIBn9Fg8hLyAU/RYPITUMBQtBAEEDIAFBhOjEABDVBwALQQBBAEGU6MQAEK4HAAtBAEEAQaToxAAQrgcAC0EAQQBBtOjEABCuBwALIAQhMiAFIQMgBiEuIAchOiA5IT0gMSEAIDshASA0IQILA0AgAUUgA0ECSXIgOkEBTXINASAAQQJqQf8BIAItAABBhZUBbEEIdiI2IC9B/wFxIjNBCWwgMkEBaiIwLQAAIi9qIC8gM2pBA2xqQQhqQQR2Ij9BmoICbEEIdmpBlYoBa0EGdSIzQQAgM0EAShsiMyAzQf8BThs6AAAgAEH/ASA2IDVB/wFxIjdBCWwgLkEBaiIzLQAAIjVqIDUgN2pBA2xqQQhqQQR2IkBBpcwBbEEIdmpBmu8Aa0EGdSI3QQAgN0EAShsiNyA3Qf8BThs6AAAgAEEFakH/ASACQQFqLQAAQYWVAWxBCHYiNyAyLQAAIjIgL0EJbGogLyAyakEDbGpBCGpBBHYiMkGaggJsQQh2akGVigFrQQZ1IjhBACA4QQBKGyI4IDhB/wFOGzoAACAAQQNqQf8BIDcgLi0AACIuIDVBCWxqIC4gNWpBA2xqQQhqQQR2Ii5BpcwBbEEIdmpBmu8Aa0EGdSI4QQAgOEEAShsiOCA4Qf8BThs6AAAgAEEBakH/ASA2ID9BkzJsQQh2IEBBiOgAbEEIdmprQYTEAGpBBnUiNkEAIDZBAEobIjYgNkH/AU4bOgAAIABBBGpB/wEgNyAyQZMybEEIdiAuQYjoAGxBCHZqa0GExABqQQZ1Ii5BACAuQQBKGyIuIC5B/wFOGzoAACAAQQZqIQAgAkECaiECIDpBAWshOiADQQFrIQMgAUECayEBIDAhMiAzIS4gPUEGayI9QQZPDQALCwJAAkACQAJAAkAgPgRAIAQgBWpBAWsiAEUNAiAGIAdqQQFrIgNFDQEgPEUNAyAALQAAIQAgMSA5aiIBQf8BIDQgO2otAABBhZUBbEEIdiICIAMtAAAiA0GlzAFsQQh2akGa7wBrQQZ1IgRBACAEQQBKGyIEIARB/wFOGzoAACA8QQFGDQQgAUH/ASACIABBkzJsQQh2IANBiOgAbEEIdmprQYTEAGpBBnUiA0EAIANBAEobIgMgA0H/AU4bOgABIDxBAk0NBSABQf8BIABBmoICbEEIdiACakGVigFrQQZ1IgBBACAAQQBKGyIAIABB/wFOGzoAAgsPC0HU6MQAENAJAAtBxOjEABDQCQALQQBBAEG06sQAEK4HAAtBAUEBQcTqxAAQrgcAC0ECQQJB1OrEABCuBwALhxoCDn8CeyMAQUBqIgIkACACIAE2AhwgAkEANgIYIAIgATYCFCACIAA2AhAgAkEBOgAkIAJBPzYCDCACQT82AiAgAkE0aiIDIAJBDGoiBhDyAiACIAIoAjggASACKAI0GyIBNgIcIAJBADYCGCACIAE2AhQgAiAANgIQIAJBAToAJCACQSM2AgwgAkEjNgIgIAMgBhDyAiACKAI4IQMgAigCNCEHIAJBATsBMCACIAMgASAHGyIBNgIsIAJBADYCKCACQQE6ACQgAkEuNgIgIAIgATYCHCACQQA2AhggAiABNgIUIAIgADYCECACQS42AgwCQAJAAkADQAJAIAIoAhAhASACQTRqIAJBDGoQ8gIgAigCNEUEQAJAIAItADENAAJAIAItADBBAUYEQCACKAIsIQAgAigCKCEBDAELIAIoAiwiACACKAIoIgFGDQELIAIoAhAgAWohCCAAIAFrIQcMAgsgCA0BQQYhAQwDCyACKAIoIQAgAiACKAI8NgIoIAAgAWohCCACKAI4IABrIQcgAi0AMUEBRw0BCwsCQCAHQQBOBEACQAJAIAdFBEBBACEGQQEhBAwBCyAHEHEiBEUNASAEIQAgCCEBAkAgByIDQRBJDQAgA0Hw////B3EhC0EAIQYDQCAEIAZqIQAgBiAIaiIB/QAAACIR/Qz//////////////////////SciEP0WAUEBcSAQ/RYAQQFxaiAQ/RYCQQFxaiAQ/RYDQQFxaiAQ/RYEQQFxaiAQ/RYFQQFxaiAQ/RYGQQFxaiAQ/RYHQQFxaiAQ/RYIQQFxaiAQ/RYJQQFxaiAQ/RYKQQFxaiAQ/RYLQQFxaiAQ/RYMQQFxaiAQ/RYNQQFxaiAQ/RYOQQFxaiAQ/RYPQQFxakH/AXFBEEcEQCAGIQsMAgsgACAR/Qy/v7+/v7+/v7+/v7+/v7+//W79DBoaGhoaGhoaGhoaGhoaGhr9Jv0MICAgICAgICAgICAgICAgIP1OIBH9UP0LAAAgBkEQaiEGIANBEGsiA0EPSw0ACyADRQRAIAshBgwCCyAEIAZqIQAgBiAIaiEBCyADIAtqIQYDQCABLAAAIgVBAE4EQCAAQSBBACAFQcEAa0H/AXFBGkkbIAVyOgAAIABBAWohACABQQFqIQEgC0EBaiELIANBAWsiAw0BDAILCyACIAs2AhQgAiAENgIQIAEgA2ohDiACIAc2AgwgByAIaiEPIAshBkEAIQMDQAJ/An8CQAJAAkACQAJAAkACQAJAAkACQCABLAAAIgBBAEgEQCABLQABQT9xIQwgAEEfcSEFAn8gAEFfTQRAIAVBBnQgDHIhACABQQJqDAELIAEtAAJBP3EgDEEGdHIhDCAAQXBJBEAgDCAFQQx0ciEAIAFBA2oMAQsgBUESdEGAgPAAcSABLQADQT9xIAxBBnRyciEAIAFBBGoLIgwgAyABa2ohDSAAQaMHRg0DIABBgAFJIgUNAUHbBUEAIABB7j1PGyIBIAFB7QJqIgEgAUEDdCgC3KRCIABLGyIBIAFBtwFqIgEgAUEDdCgC3KRCIABLGyIBIAFB2wBqIgEgAUEDdCgC3KRCIABLGyIBIAFBLmoiASABQQN0KALcpEIgAEsbIgEgAUEXaiIBIAFBA3QoAtykQiAASxsiASABQQtqIgEgAUEDdCgC3KRCIABLGyIBIAFBBmoiASABQQN0KALcpEIgAEsbIgEgAUEDaiIBIAFBA3QoAtykQiAASxsiASABQQFqIgEgAUEDdCgC3KRCIABLGyIBIAFBAWoiASABQQN0KALcpEIgAEsbIgFBA3QoAtykQiIDIABGDQIMCgsgAEH/AXEhACABQQFqIgwgAyABa2ohDQtBIEEAIABBwQBrQRpJGyAAciIAQYABSSEFQQEMCQsgASAAIANLaiIAQbYLTw0BIABBA3QoAuCkQiIAQekAIABBgLADc0GAEGtBgPDDAEkiChshACAKRQ0CIABBgAFJIgVFDQdBAQwICwJAIAMgC2oiBEUNACAEIAdPBEAgBCAHRg0BDAcLIAQgCGosAABBQEgNBgsgBCAIaiEBQQAhBQNAQYMBIQogASAIRg0EIAFBAWsiAywAACIAQQBIBEAgAEE/cQJ/IAFBAmsiAy0AACIJwCIAQUBOBEAgCUEfcQwBCyAAQT9xAn8gAUEDayIDLQAAIgnAIgBBv39KBEAgCUEPcQwBCyAAQT9xIAFBBGsiAy0AAEEHcUEGdHILQQZ0cgtBBnRyIgBBgIDEAEYNBQsgAyEBAkACQCAFQQFxDQAgAEGAAU8EQCAAQacBTQ0BIAAQ3wRFDQFBgIDEACEDQQAhBQwCC0GAgMQAIQNBACEFIABBJ2siCUETTUEAQQEgCXRBgYEgcRsNASAAQd4Aaw4DAQABAAtBASEFIAAhAwsgA0GAgMQARg0ACwJAIANBgAFPBEAgA0GpAU0NBSADEPEEDQEMBQsgA0HfAHFBwQBrQRpPDQQLAkAgBEECaiIARQ0AIAAgB08EQCAAIAdGDQEMBgsgACAIaiwAAEFASA0FCyAAIAhqIQFBACEFA0BBggEhCiABIA9GDQQCfyABLAAAIgBBAE4EQCAAQf8BcSEAIAFBAWoMAQsgAS0AAUE/cSEEIABBH3EhAyAAQV9NBEAgA0EGdCAEciEAIAFBAmoMAQsgAS0AAkE/cSAEQQZ0ciEEIABBcEkEQCAEIANBDHRyIQAgAUEDagwBCyADQRJ0QYCA8ABxIAEtAANBP3EgBEEGdHJyIgBBgIDEAEYNBSABQQRqCyEBAkACQCAFQQFxDQAgAEGAAU8EQCAAQacBTQ0BIAAQ3wRFDQFBgIDEACEDQQAhBQwCC0GAgMQAIQNBACEFIABBJ2siBEETTUEAQQEgBHRBgYEgcRsNASAAQd4Aaw4DAQABAAtBASEFIAAhAwsgA0GAgMQARg0ACyADQYABTwRAIANBqQFNDQQgAxDxBEUNBAwDCyADQd8AcUHBAGtBGkkNAgwDC0G2C0G2C0GMgMMAEK4HAAsgBiEFAn9BASAAQYABSSIJDQAaQQIgAEGAEEkNABpBA0EEIABBgIAESRsLIgMgAigCDCAGa0sEfyACQQxqIAYgAxCzBiACKAIUIQUgAigCEAUgBAsgBWohAQJAAkAgCUUEQCAAQT9xQYB/ciEEIABBBnYhBSAAQYAQSQ0BIABBDHYhCSAFQT9xQYB/ciEFIABBgIAETwRAIAEgBDoAAyABIAU6AAIgASAJQT9xQYB/cjoAASABIABBEnZBcHI6AAAMAwsgASAEOgACIAEgBToAASABIAlB4AFyOgAADAILIAEgADoAAAwBCyABIAQ6AAEgASAFQcABcjoAAAsgAiADIAZqIgA2AhQgAigCDCAAIgNrQQFNBH8gAkEMaiAAQQIQswYgAigCFAUgAwsgAigCECIEaiIBQQBBhwYgChsiA0GAAXI6AAEgASADQQZ2QcABcjoAACAAQQJqDAYLQYMBIQoLIAIoAgwgBiIBa0EBTQR/IAJBDGogAUECELMGIAIoAhQFIAELIAIoAhAiBGoiACAKOgABIABBzwE6AAAgBkECagwECyAIIAcgACAHQfz4wQAQrgkACyAIIAdBACAEQez4wQAQrgkAC0ECIABBgBBJDQAaQQNBBCAAQYCABEkbCyIBIAIoAgwgBiIDa0sEfyACQQxqIAMgARCzBiACKAIQIQQgAigCFAUgAwsgBGohAwJAAkAgBUUEQCAAQT9xQYB/ciEFIABBBnYhCiAAQYAQSQ0BIABBDHYhCSAKQT9xQYB/ciEKIABBgIAESQ0CIAMgBToAAyADIAo6AAIgAyAJQT9xQYB/cjoAASADIABBEnZBcHI6AAAgASAGagwDCyADIAA6AAAgASAGagwCCyADIAU6AAEgAyAKQcABcjoAACABIAZqDAELIAMgBToAAiADIAo6AAEgAyAJQeABcjoAACABIAZqCyEGIA0hAyACIAY2AhQgDCIBIA5HDQALIAIoAhAhBCACKAIMIQcLQQYhAQJAAkACQAJAAkAgBkEDaw4EAAQBAgcLIARBibHHAEEDELsHRQRAQQAhAQwHCyAEQejLxwBBAxC7Bw0CQQEhAQwGC0EGQQIgBEHry8cAQQUQuwcbIQEMBQtBBkEDIARB8MvHAEEGELsHGyEBDAQLQQQhASAEQYLMxwBBAxC7B0UNAyAEQYXMxwBBAxC7B0UNA0EGQQUgBEH/y8cAQQMQuwcbIQEMAwtBBEEGIAQoAABB896dmwdGGyEBDAILQQEgBxDhCAALEM8JAAsgB0UNACAEQQRrKAIAIgBBeHEiA0EEQQggAEEDcSIAGyAHakkNASAAQQAgAyAHQSdqSxsNAiAEEJ8CCyACQUBrJAAgAQ8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC9IaBB5/AnsBfQF+IwBBsMAAayIGJAACQCACIANB/wFxQQJ0IgsoAtTVSHBFBEAgBkEANgK4ICAGQoCAgIAQNwKwICACIAsoAuTVSCILbiEQIAIgC0kEQEEBIQcMAgsgBiAGQbAgaiAQQQJ0EOwGAkAgBigCACIHQYGAgIB4RwRAIAYoAgQhBCAGKAKwICIARQ0BIAYoArQgIABBARCIBwwBCyAGKAK4ICEEIAYoArQgIQcgBigCsCAiBUGAgICAeEcNAgsgBiAENgK0ICAGIAc2ArAgQcDCxABBNiAGQbAgakGwwsQAQfjCxAAQiQcAC0HYwcQAQcUAQaDCxAAQ5wgACyAGIAQ2AjggBiAHNgI0IAYgBTYCMAJAAkACQAJAAkAgA0H/AXFBAWsOAwADAwELAkACQCAFIARrIAJJBEAgBkEwaiAEIAIQpgYgBigCNCEHIAYoAjghBAwBCyACRQ0BC0EAIQMgAkEITwRAIAQgB2ohBSAEIAJB+P///wNxIgNqIQQgASEJIAMhCwNAIAUgCf0AAQAiI/2pAf0MgAAAAIAAAACAAAAAgAAAAP2uASIi/RsAQYECbv0RICL9GwFBgQJu/RwBICL9GwJBgQJu/RwCICL9GwNBgQJu/RwDICP9qgH9DIAAAACAAAAAgAAAAIAAAAD9rgEiIv0bAEGBAm79ESAi/RsBQYECbv0cASAi/RsCQYECbv0cAiAi/RsDQYECbv0cA/0NAAQIDBAUGBwAAAAAAAAAAP1bAAAAIAlBEGohCSAFQQhqIQUgC0EIayILDQALIAIgA0YNAQsgAiADayEJIAEgA0EBdGohBQNAIAQgB2ogBS8BAEGAAWpBgQJuOgAAIAVBAmohBSAEQQFqIQQgCUEBayIJDQALCyAGIAQ2AjgMAQsgBCACQQNuIgNBAnQiCUkEQCAJIARrIgIgBSAEa0sEQCAGQTBqIAQgAhCmBiAGKAI0IQcgBigCOCEECyAEIAdqIQUgAkECTwR/IAJBAWsiAgRAIAVBACAC/AsACyAHIAIgBGoiBGoFIAULQQA6AAAgBEEBaiEJCyAGIAk2AjggCUECdiICIAMgAiADSRsiAkUNACACQQJ0IQNBACEFA0AgBSAHaiICQQNqQf8BOgAAIAIgAS8BAEGAAWpBgQJuOgAAIAJBAmogAUEEai8BAEGAAWpBgQJuOgAAIAJBAWogAUECai8BAEGAAWpBgQJuOgAAIAFBBmohASADIAVBBGoiBUcNAAsLIAZBIGogBkE4aigCACIBNgIAIAYgBikCMCIlNwMYIABBCGogATYCACAAICU3AgAMAQsgBkEQaiAGQThqKAIANgIAIAYgBikCMDcDCCAGQbAgahDpAiAGKAKwIEUEQCAGQSRqQQEQwwkLAkAgAiADQf8BcUECdCgC9NVIbkECdCITIAYoAhAiBE0EQCAGKAIMIRQMAQsgEyAEayIFIAYoAgggBGtLBEAgBkEIaiAEIAUQpgYgBigCECEECyAGKAIMIhQgBGohCyAFQQJPBH8gBUEBayIFBEAgC0EAIAX8CwALIBQgBCAFaiIEagUgCwtBADoAACAEQQFqIRMLIAYgEzYCEAJ/An8CQAJAAkACQCADQf8BcUEBaw4DAQIDAAtBAEUEQCAGQTBqQQBBgCD8CwALIAZBsCBqQQBBgCD8CwAgAkEDbiEOQQEhHUEDDAQLQQBFBEAgBkEwakEAQYAg/AsACyAGQbAgakEAQYAg/AsAIAJBAnYMAgtBAEUEQCAGQTBqQQBBgCD8CwALIAZBsCBqQQBBgCD8CwBBASEdIAIhDkEDDAILQQBFBEAgBkEwakEAQYAg/AsACyAGQbAgakEAQYAg/AsAIAJBAXYLIQ5BBAshFQJAAkACQCAOBEAgDkH/AWpBCHYhHiABIQsgASEQIAEhFyABIRtBgAIhGANAIA4gGCAOIBhJGyIEIBlBCHQiGmsiCiAVbCIHQf//A3FBA24hDyAVIAQgH2psQf//A3FBA24hCAJAAkACQAJAIA4gDEGAAmoiBSAFIA5LGyIRIAxrIhIgFWwiDUGBCEkEQCAEQQJ0IRwgFSAEICBqIhZsIQUCQAJAAkACQAJAAkACQCADQf8BcUEBaw4DAQUCAAsgDEEDbCEIIAwgDk0gEUEDbCIKIAJNcQ0CIAggCiACQdjAxAAQ1QcACyARQQJ0IgQgDEECdCIITyACIARPcQ0CIAggBCACQejAxAAQ1QcACyARQQF0IgQgDEEBdCIITyACIARPcQ0DIAggBCACQbjBxAAQ1QcACyANIAogCGsiCCAIIA1LG0UNByAFICEgBEEDbCIEaiIIIAUgCEkbIQpBACEIIAcgGUGAemwgBGoiBSAFIAdLGyIPQQRPBEAgCkF8cSEHIA9BfHEhCCAGQTBqIQQgCyEFA0AgBCAF/QQBAP37Af0MgACAN4AAgDeAAIA3gACAN/3mAf0LAgAgBUEIaiEFIARBEGohBCAHQQRrIgcNAAsgCCAPRg0ICyAIIAprIQcgCyAIQQF0aiEEIAZBMGogCEECdGohBQNAIAUgBC8BALNDgACAN5Q4AgAgBEECaiEEIAVBBGohBSAHQQFqIgcNAAsMBwsgDSAEIAhrIgQgBCANSxtFDQYgBSAJIBxqIgQgBCAFSxshCkEAIQggByAcIBlBCnRrIgUgBSAHSxsiD0EETwRAIApBfHEhByAPQXxxIQggBkEwaiEEIBAhBQNAIAQgBf0EAQD9+wH9DIAAgDeAAIA3gACAN4AAgDf95gH9CwIAIAVBCGohBSAEQRBqIQQgB0EEayIHDQALIAggD0YNBwsgCCAKayEHIBAgCEEBdGohBCAGQTBqIAhBAnRqIQUDQCAFIAQvAQCzQ4AAgDeUOAIAIARBAmohBCAFQQRqIQUgB0EBaiIHDQALDAYLIAwgDksNAiANQf//A3FBA24iBSASIAUgEkkbRQ0FIAggFiAIIBZJGyEaQQAhCCAPIAogCiAPSxsiCkEETwRAIBpB/P8BcSEHIApB/P8BcSEIIAZBMGohBCAXIQUDQCAEIAX9BAEA/fsB/QyAAIA3gACAN4AAgDeAAIA3/eYBIiIgIv0NCAkKCwwNDg8MDQ4PDA0OD/0LAiAgBCAiICL9DQQFBgcEBQYHCAkKCwgJCgv9CwIQIAQgIiAi/Q0AAQIDAAECAwABAgMEBQYH/QsCACAFQQhqIQUgBEEwaiEEIAdBBGsiBw0ACyAIIApGDQYLIAggGmshByAXIAhBAXRqIQUgBkEwaiAIQQxsaiEEA0AgBEEIaiAFLwEAs0OAAIA3lCIkOAIAIARBBGogJDgCACAEICQ4AgAgBUECaiEFIARBDGohBCAHQQFqIgcNAAsMBQsgDUECdiIEIBIgBCASSRtFDQRBACEHIBUgESAaayIEbEECdiIKIAQgBCAKSxsiBEEBRg0DIAVBAnYiBSAWIAUgFkkbQf7///8DcSEKIARBAXEhDyAGQTBqIQQgGyEFA0AgBCAF/QQBAP37Af0MgACAN4AAgDeAAIA3gACAN/3mASIiICL9DQgJCgsICQoLCAkKCwwNDg/9CwIQIAQgIiAi/Q0AAQIDAAECAwABAgMEBQYH/QsCACAFQQhqIQUgBEEgaiEEIAogB0ECaiIHRw0ACwwCC0EAIA1BgAhByMHEABDVBwALIAwgESACQfjAxAAQ1QcACyAPRQ0BCyAGQTBqIAdBBHRqIgUgASAIQQF0aiAHQQJ0aiIELwEAs0OAAIA3lCIkOAIIIAUgJDgCBCAFICQ4AgAgBSAELwECs0OAAIA3lDgCDAsCfyAdRQRAIBJBAnQiBSANSw0FIAZBMGoMAQsgDUH//wNxQQNuIQUCQCANQQNJDQBBgAIgBSAFQYACTxshCEEBIQcgBkGwIGohBCAGQTBqIQUDQCAEIAUqAgA4AgAgBEEMakGAgID8AzYCACAEQQRqIAVBBGopAgA3AgAgByAWRg0BIAVBDGohBSAEQRBqIQQgByAISSAHQQFqIQcNAAsLIBJBAnQiBUGBCE8NAyAGQbAgagshBCARQQJ0IgcgE0sgByAMQQJ0IgxJcg0EIAcgDGsiDCAFIAUgDEsbBEBBACAcayEHIBQhBQNAIAVB/wEgBCoCAEMAAH9DlBCdByIk/AFBACAkQwAAAABgGyAkQwAAf0NeGzoAACAFQQFqQf8BIARBBGoqAgBDAAB/Q5QQnQciJPwBQQAgJEMAAAAAYBsgJEMAAH9DXhs6AAAgBUECaiEFIARBCGohBCAJIAdBAmoiB0cNAAsLIBRBgAhqIRQgC0GADGohCyAhQYAGayEhIBBBgBBqIRAgCUGACGshCSAXQYAEaiEXIB9BgAJrIR8gIEGAAmshICAbQYAIaiEbIBlBAWohGSAYIgxBgAJqIRggHkEBayIeDQALCyAAIAYpAwg3AgAgAEEIaiAGQRBqKAIANgIADAMLQQAgBUGACEGIwcQAENUHAAtBACAFIA1BqMHEABDVBwALIAwgByATQZjBxAAQ1QcACyAGQbDAAGokAAumGQISfwF+IwBBMGsiCyQAAkACQAJAIAAoAgAiACgCACIJRQRAIAtBADYCKCALIAE2AiQgC0IANwIcIAsgACkCBDcCFCALQRRqQQEQzAEhAwwBCyAAKAIIIREgACgCBCEKAkACQANAIBEgEiIHTQRAQQAhAwwECwJAAkAgCkUNACAHQQFqIg0gByAHIBFJGyESIApBAWshD0EAIQAgCS0AACIGIQQgCiECAkADQAJAAkAgBMBBAEgEQCAEQR9xIQUgACAJaiIIQQFqLQAAQT9xIQMgBEH/AXEiDEHfAUsNASAFQQZ0IANyIQMMAgsgBEH/AXEhAwwBCyAIQQJqLQAAQT9xIANBBnRyIQMgDEHwAUkEQCADIAVBDHRyIQMMAQsgBUESdEGAgPAAcSAIQQNqLQAAQT9xIANBBnRyciIDQYCAxABGDQMLIAAgCWohCAJAIANBMGtBCk8EQCACIApHDQFBACEFDAsLIAAgD0YNAyAAIAlqQQFqLAAAIgRBv39MDQIgAEEBaiEAIAJBAWshAgwBCwsgCSAKIAJrIgNqLAAAQb9/Sg0CIAkgCkEAIANBmKTFABCuCQALIAggAkEBIAJBkKbFABCuCQALQYikxQAQ0AkACwJAIANBAUcNAEEBIQUgBkEraw4DBgAGAAtBf0EAIAZBK0YiBRshCiAFIAlqIQkCfwJAAkAgAyAFayIFQQlPBEBBACEDQQAgCmshBgNAIAAgBkYNAiAJLQAAQTBrIgpBCUsNCUECIQUgA61CCn4iFEIgiKcNCiAGQQFqIQYgCUEBaiEJIAogFKdqIgMgCk8NAAsMCQsgBUUNAUEAIQNBACAKayEGA0AgCS0AAEEwayIFQQlLDQggCUEBaiEJIAUgA0EKbGohAyAAIAZBAWoiBkcNAAsLIANFDQACQAJAAkAgAiADTQRAIAIgA0cNASADIAhqIQlBACEKDAMLIAMgCGoiCSwAAEG/f0oNAQsgCCACIAMgAkGopMUAEK4JAAsgCSwAAEG/f0oEQCACIANrIQogAyECDAELIAggAkEAIANBuKTFABCuCQALAkAgDSARRw0AIAEoAghBgICABHFFIARB/wFxQegAR3INAAJAIAJBAUcEQCAILAABQUBIDQELIAIgCGohDSAIQQFqIQADQEEAIQMgACANRg0IAn8gACwAACIEQQBOBEAgBEH/AXEhBCAAQQFqDAELIAAtAAFBP3EhBiAEQR9xIQUgBEFfTQRAIAVBBnQgBnIhBCAAQQJqDAELIAAtAAJBP3EgBkEGdHIhBiAEQXBJBEAgBiAFQQx0ciEEIABBA2oMAQsgBUESdEGAgPAAcSAALQADQT9xIAZBBnRyciIEQYCAxABGDQkgAEEEagshACAEQcEAa0FecUEKaiAEQTBrIARBOUsbQQ9NDQALDAELIAggAkEBIAJBiKHFABCuCQALIAIMAQsgAiEKIAghCUEACyEEIAcEQCABKAIAQbiexQBBAiABKAIEKAIMEQAADQMLAkAgBEECSQ0AIAgvAABB38gARw0AIAgsAAFBv39MDQIgCEEBaiEIIARBAWshBAsgASgCBCEPIAEoAgAhDQNAAkAgCCEFAkACQAJAAkAgBCIHRQ0AAkACQAJAAkACQAJAAn8CQAJAAkAgBS0AACIAQSRHBEAgAEEuRw0LIAdBAUYNASAFLAABIgBBv39MDQIgAEEASA0DIABB/wFxDAQLIAdBAUcEQCAFLAABQb9/TA0ICyAFQQFqIQYgB0EBayEIQQAhAwNAIAMgBmohAgJ/IAggA2siBEEHTQRAQQAhAEEAIARFDQEaA0BBASAAIAJqLQAAQSRGDQIaIAQgAEEBaiIARw0ACyAEIQBBAAwBCyALQQhqQSQgAiAEEO8EIAsoAgwhACALKAIIC0EBcUUNDAJAIAAgA2oiACAITw0AIAAgBmotAABBJEcNACAAQQFqIQICQAJAAkAgBi0AACIDwCIMQUBIDQACQAJAAkACQCACIAdPBEAgAiAHRw0FIABBAmoiBA0BIAUhCCAHIQQMAgsgAEECaiEECyAFAn8gBCAHTwRAIAciAiACIARGDQEaDAcLIAQgBWosAABBQEgNBiAECyICaiEIIAcgAmshBAJAIAAOAxQDAAELIAYvAABB06ABRgRAQailxQAhAAwFCyAGLwAAQcKgAUYEQEHXnsUAIQAMBQsgBi8AAEHSjAFGBEBB0Z7FACEADAULIAYvAABBzKgBRgRAQcuexQAhAAwFCyAGLwAAQceoAUYEQEHQnsUAIQAMBQsgBi8AAEHMoAFGBEBB4J7FACEADAULIAYvAABB0qABRg0BQQIhAAsgDEH1AEcNEiAFLAACQb9/Sg0QIAYgAEEBIABBrKXFABCuCQALQeKexQAhAAwCCyADQcMARw0NQeGexQAhAAwBCyAFIAdBASACQYilxQAQrgkAC0EBIQMgDSAAQQEgDygCDBEAAEUNEgwWCyAFIAcgBCAHQZilxQAQrgkACyAIIABBAWoiA08NAAsMCwtBASEDIA1B3KXFAEEBIA8oAgwRAABFDQMMEgsgBSAHQQEgB0G8pcUAEK4JAAsgBS0AAkE/cSEEIABBH3EhAiACQQZ0IARyIABBX00NABogBS0AA0E/cSAEQQZ0ciEEIAQgAkEMdHIgAEFwSQ0AGiACQRJ0QYCA8ABxIAUtAARBP3EgBEEGdHJyCyAPKAIMIQJBLkYNAUEBIQMgDUHcpcUAQQEgAhEAAA0PIAUsAAFBQEgNAgsgBUEBaiEIIAdBAWshBAwKCyANQbiexQBBAiACEQAADQwCQCAHQQNPBEAgBSwAAkFASA0BCyAFQQJqIQggB0ECayEEDAoLIAUgB0ECIAdBzKXFABCuCQALIAUgB0EBIAdB4KXFABCuCQALIAUgB0EBIAdB+KTFABCuCQALIANB9QBHDQJBASEACyAAIAZqIRMgAEEBayEOIAVBAmoiBiEAAkADQEEAIQMgACATRg0BAn8gACwAACICQQBOBEAgAkH/AXEhAiAAQQFqDAELIAAtAAFBP3EhECACQR9xIQwgAkFfTQRAIAxBBnQgEHIhAiAAQQJqDAELIAAtAAJBP3EgEEEGdHIhECACQXBJBEAgECAMQQx0ciECIABBA2oMAQsgDEESdEGAgPAAcSAALQADQT9xIBBBBnRyciICQYCAxABGDQIgAEEEagshACACQTprQXVLIAJB5wBrQXlLcg0AC0EBIQMLQQEhDAJAAkACQAJAIA4OAgMAAQsgBi0AACICQStrDgMCAQIBCyAGLQAAIQILIAYgAkH/AXFBK0YiAGohAgJAAkACQAJAIA4gAGsiBkEJTwRAQQAhAAwBCyAGDQFBACEMQQAhAAwECwNAIABB/////wBLDQMgAi0AACIOQcEAa0FfcUEKaiAOQTBrIA5BOUsbIg5BEE8NAyACQQFqIQIgDiAAQQR0ciEAIAZBAWsiBg0ACwwBC0EAIQADQCACLQAAIg5BwQBrQV9xQQpqIA5BMGsgDkE5SxsiDkEPSw0CIAJBAWohAiAOIABBBHRyIQAgBkEBayIGDQALC0EAIQwLCyADQYCAxABBgIDEACAAIABBgLADc0GAgMQAa0GAkLx/SRsgDBsiAEGAgMQARnINASALIAA2AhQgAEEgSSAAQf8Aa0EhSXINASALQRRqIAEQnwVFDQUMCAsgBSAHaiEMQQAhBiAFIQADQCAGIQMgACAMRg0BAn8gACwAACIEQQBOBEAgBEH/AXEhBCAAQQFqDAELIAAtAAFBP3EhCCAEQR9xIQIgBEFfTQRAIAJBBnQgCHIhBCAAQQJqDAELIAAtAAJBP3EgCEEGdHIhCCAEQXBJBEAgCCACQQx0ciEEIABBA2oMAQsgAkESdEGAgPAAcSAALQADQT9xIAhBBnRyciEEIABBBGoLIQIgBEEuRwRAIAMgAGsgAmohBiACIQAgBEEkRw0BCwsCQAJAIAMEQCADIAdJDQEgAyAHRw0CIA0gBSAHIA8oAgwRAAANCgwFCyANIAVBACAPKAIMEQAADQkMBAsgAyAFaiIALAAAQb9/Sg0CCyAFIAdBACADQdikxQAQrgkACyANIAUgByAPKAIMEQAARQ0EDAYLIA0gBSADIA8oAgwRAAANBSAALAAAQUBIDQELIAMgBWohCCAHIANrIQQMAQsLCyAFIAcgAyAHQeikxQAQrgkACyAIIARBASAEQcikxQAQrgkAC0EBIQMLIAtBMGokACADDwtBASEFCyALIAU6AC9BgLjIAEErIAtBL2pB8KXFAEGApsUAEIkHAAvlGAMffwV9AX4jAEEQayISJAAgACABIAIQ6QQCQAJAAkACQAJAAkAgAygCBCIORQRAIAMoAgwhCgwBCwJAIAMoAgwiCkUNACADKAIUIhVFDQAgAygCHCIWRQ0AIAMoAiQiE0UNACACRQ0GIAJBBHQhGiAAKAKEASEbIAAoAogBIRggACgCeCEcIAAoAnwhGSADKAIgIR0gAygCGCEeIAMoAhAhHyADKAIIISAgAygCACEhIAohDANAIAsiBUEEaiELIBkgBUEDak0EQCAFIAsgGUGc2sEAENUHAAsCQAJAAkAgCyAYTQRAAkACQCAIIA5PDQAgDiAIayIEQQAgBCAOTRsiBEEBRwRAIARBAkcNAiAIQQJqIQgMAQsgCEEBaiEICyAIIA5B3NrBABCuBwALIAwEQAJAAkAgCCAVTw0AAkACQCAUIBVqQQFrDgIAAQMLIAhBAWohCAwBCyAIQQJqIQgLIAggFUHM2sEAEK4HAAsCQAJAIAggFk8NAAJAAkAgFCAWakEBaw4CAAEDCyAIQQFqIQgMAQsgCEECaiEICyAIIBZBvNrBABCuBwALIAUgE08NCyATIAVrIgRBACAEIBNNGyIEQQFGDQgCQCAEQQJrDgIKCwALIBEgIWoiBEEIaigCACEPIARBBGooAgAhIiAFICBqKAIAIQUgESAfaiIGKAIAIQcgBkEIaigCACEJIAZBBGooAgAhDSARIB5qIgYqAgAhIyAGQQhqKgIAISQgBkEEaioCACElIBAgHWoiBioCACEmIAZBBGopAgAhKCAGQQxqKgIAIScgECAcaiIXIAQoAgA2AgAgF0EIaiAPNgIAIBdBBGogIjYCACASICY4AgAgEiAnOAIMIBIgKDcCBCAFQf///wNxIQ8gBUGAgICAeHEhBCAFQYCAgPwHcSIGQYCAgPwHRg0CIARBEHYhBCAGQYCAgLgESw0DIAZBgICAxANPBEAgBUEMdiAFQf/fAHFBAEdxIAZBDXYgD0ENdmpBgIABaiAEcmohBAwFCyAGQYCAgJgDSQ0EIA9BgICABHIiD0H+ACAGQRd2IgZrdiEFIA9BHSAGayIGdkEBcQR/IAVBAyAGdEEBayAPcUEAR2oFIAULIARyIQQMBAsgCiAKQYzawQAQrgcACyAFIAsgGEH82cEAENUHAAsgBEEQdiAPQQ12ckGABEEAIA8bckGA+AFyIQQMAQsgBEGA+AFyIQQLIBdBDGogBEH//wNxNgIAIAdB////A3EhBCAHQYCAgIB4cSEGAkACQCAHQYCAgPwHcSIFQYCAgPwHRwRAIAZBEHYhBiAFQYCAgLgESw0BIAVBgICAxANPBEAgB0EMdiAHQf/fAHFBAEdxIAVBDXYgBEENdmpBgIABaiAGcmohBgwDCyAFQYCAgJgDSQ0CIARBgICABHIiBEH+ACAFQRd2IgdrdiEFIARBHSAHayIHdkEBcQR/IAVBAyAHdEEBayAEcUEAR2oFIAULIAZyIQYMAgsgBkEQdiAEQQ12ckGABEEAIAQbckGA+AFyIQYMAQsgBkGA+AFyIQYLIA1B////A3EhByANQYCAgIB4cSEEAkACQCANQYCAgPwHcSIFQYCAgPwHRwRAIARBEHYhBCAFQYCAgLgESw0BIAVBgICAxANPBEAgDUEMdiANQf/fAHFBAEdxIAVBDXYgB0ENdmpBgIABaiAEcmohBAwDCyAFQYCAgJgDSQ0CIAdBgICABHIiB0H+ACAFQRd2Ig1rdiEFIAdBHSANayINdkEBcQR/IAVBAyANdEEBayAHcUEAR2oFIAULIARyIQQMAgsgBEEQdiAHQQ12ckGABEEAIAcbckGA+AFyIQQMAQsgBEGA+AFyIQQLIBAgG2oiDSAGQf//A3EgBEEQdHI2AgAgCUH///8DcSEGIAlBgICAgHhxIQUCQAJAIAlBgICA/AdxIgRBgICA/AdHBEAgBUEQdiEFIARBgICAuARLDQEgBEGAgIDEA08EQCAJQQx2IAlB/98AcUEAR3EgBEENdiAGQQ12akGAgAFqIAVyaiEFDAMLIARBgICAmANJDQIgBkGAgIAEciIGQf4AIARBF3YiB2t2IQQgBkEdIAdrIgd2QQFxBH8gBEEDIAd0QQFrIAZxQQBHagUgBAsgBXIhBQwCCyAFQRB2IAZBDXZyQYAEQQAgBhtyQYD4AXIhBQwBCyAFQYD4AXIhBQsgIxC6BbwiB0H///8DcSEJIAdBgICAgHhxIQYCQAJAIAdBgICA/AdxIgRBgICA/AdHBEAgBkEQdiEGIARBgICAuARLDQEgBEGAgIDEA08EQCAHQQx2IAdB/98AcUEAR3EgBEENdiAJQQ12akGAgAFqIAZyaiEGDAMLIARBgICAmANJDQIgCUGAgIAEciIHQf4AIARBF3YiCWt2IQQgB0EdIAlrIgl2QQFxBH8gBEEDIAl0QQFrIAdxQQBHagUgBAsgBnIhBgwCCyAGQRB2IAlBDXZyQYAEQQAgCRtyQYD4AXIhBgwBCyAGQYD4AXIhBgsgDUEEaiAFQf//A3EgBkEQdHI2AgAgJRC6BbwiBEH///8DcSEHIARBgICAgHhxIQYCQAJAIARBgICA/AdxIgVBgICA/AdHBEAgBkEQdiEGIAVBgICAuARLDQEgBUGAgIDEA08EQCAEQQx2IARB/98AcUEAR3EgBUENdiAHQQ12akGAgAFqIAZyaiEGDAMLIAVBgICAmANJDQIgB0GAgIAEciIHQf4AIAVBF3YiBWt2IQQgB0EdIAVrIgV2QQFxBH8gBEEDIAV0QQFrIAdxQQBHagUgBAsgBnIhBgwCCyAGQRB2IAdBDXZyQYAEQQAgBxtyQYD4AXIhBgwBCyAGQYD4AXIhBgsgJBC6BbwiB0H///8DcSEJIAdBgICAgHhxIQUCQAJAIAdBgICA/AdxIgRBgICA/AdHBEAgBUEQdiEFIARBgICAuARLDQEgBEGAgIDEA08EQCAHQQx2IAdB/98AcUEAR3EgBEENdiAJQQ12akGAgAFqIAVyaiEFDAMLIARBgICAmANJDQIgCUGAgIAEciIHQf4AIARBF3YiCWt2IQQgB0EdIAlrIgl2QQFxBH8gBEEDIAl0QQFrIAdxQQBHagUgBAsgBXIhBQwCCyAFQRB2IAlBDXZyQYAEQQAgCRtyQYD4AXIhBQwBCyAFQYD4AXIhBQsgDUEIaiAGQf//A3EgBUEQdHI2AgAgDUEMaiASENwENgIAIBFBDGohESAUQQNrIRQgCEEDaiEIIAxBAWshDCAaIBBBEGoiEEcNAAsMBgsgACABIAIgAygCACAOELIFCyAKBEAgAygCCCERIAAgASACEOkEIAIEQCACQQJ0IQcgACgCeEEMaiEOIAAoAnwhECAKIQgDQAJAAkACQAJAIBAgBUEDaksEQCAIRQ0DIAUgEWooAgAiBEH///8DcSEGIARBgICAgHhxIQsgBEGAgID8B3EiDEGAgID8B0YNASALQRB2IQsgDEGAgIC4BEsNAiAMQYCAgMQDTwRAIARBDHYgBEH/3wBxQQBHcSAMQQ12IAZBDXZqQYCAAWogC3JqIQsMBQsgDEGAgICYA0kNBCAGQYCAgARyIgRB/gAgDEEXdiIGa3YhDCAEQR0gBmsiBnZBAXEEfyAMQQMgBnRBAWsgBHFBAEdqBSAMCyALciELDAQLIAUgBUEEaiAQQYzPwQAQ1QcACyALQRB2IAZBDXZyQYAEQQAgBhtyQYD4AXIhCwwCCyALQYD4AXIhCwwBCyAKIApB/M7BABCuBwALIA4gC0H//wNxNgIAIA5BEGohDiAIQQFrIQggByAFQQRqIgVHDQALCyAAQQE6AMABCyADKAIUIgoEQCAAIAEgAiADKAIQIAoQowILIAMoAhwiCgRAIAAgASACIAMoAhggChCcAgsgAygCJCIKRQ0EIAAgASACIAMoAiAgChCUBQwECyAFQQFqIQUMAgsgBUECaiEFDAELIAVBA2ohBQsgBSATQazawQAQrgcACyAAQQE6AMABIAMoAjwhCiADKAI4IQUgAygCNCEIIAMoAjAhCyADKAIsIgwEQCAAIAEgAiADKAIoIAwQ4wELIAgEQCAAIAEgAiALIAgQqAELIAoEQCAAIAEgAiAFIAoQlQELIAMoAkQiCgRAIAAgASACIAMoAkAgChCtBAsgAygCTCIKBEAgACABIAIgAygCSCAKEK4ECyASQRBqJAALsBgDJH8DfQF7IwBBwAJrIgQkAAJ7IAMtABwiBUECRgRAQwAAgD8hKEEAIQVDAACAPyEpQwAAgD8hKv0MAAAAAAAAgD8AAEDBAAAQQQwBCyAEQeIBaiADQR9qLQAAOgAAIAQgAy8AHTsB4AEgAyoCGCEoIAMqAhQhKSADKgIQISogA/0AAgALISsgBEEAEKkJNgKwASAEQQA2AqwBIARCADcCpAEgBEEANgJcIARCgICAgMAANwJUIARCBDcCTCAEQgA3AkQgBEKAgICAwAA3AjwgBEEANgIsIARBADYCJCAEQQA2AhwgBEEANgIUIARBADYCDCAEQQA2AgQgBEEANgI0IARBgICAgHg2AmwgBEGAgICAeDYCeCAEICv9CwKEASAEICo4ApQBIAQgKTgCmAEgBCAoOAKcASAEIAU6AKABIARBvAFqQQA6AAAgBEGjAWogBEHiAWotAAA6AAAgBEEANgJoIARCgICAgMAANwJgIARCADcCtAEgBCAELwHgATsAoQEgASgCPCETIAQgAjoA6AEgBCATNgLkASAEIAEoAggiCDYC4AEgBEEEaiAEQeABahCdBCACBEAgBEEBOgCgAQsCQAJAAkACQAJAAkBBgIAwEHEiEARAIBBBBGsiHS0AAEEDcQRAIBBBAEGAgDD8CwALQYCAEBBxIgkEQCAJQQRrIh4tAABBA3EEQCAJQQBBgIAQ/AsAC0GAgDAQcSIRBEAgEUEEayIfLQAAQQNxBEAgEUEAQYCAMPwLAAtBgIAwEHEiEgRAIBJBBGsiIC0AAEEDcQRAIBJBAEGAgDD8CwALQYCAwAAQcSILBEAgC0EEayIhLQAAQQNxBEAgC0EAQYCAwAD8CwALQYCACBBxIgwEQCAMQQRrIiItAABBA3EEQCAMQQBBgIAI/AsAC0GAgBAQcSINRQ0IIA1BBGsiIygCACIFQQNxIgMEQCANQQBBgIAQ/AsACyAIRQ0HIAxBAiACGyEkIA1BBCACGyElQYCABEEAIAIbIRsgASgCECEmIAEoAhQhHCABKAIEIScDQEGAgAQgCCAOayIDIANBgIAETxshFCAIIA5HBEAgJyAOQSRsaiEDICYgDkEYbGohBkEAIQVBACEVIAkhFiANIRcgCyEYIAwhGQNAIAggDiAVaiIaTQRAIBogCEHEoscAEK4HAAsgA0EQaioCACEoIANBDGoqAgAhKSADQQhqKgIAISogBEHAAWogAxCiAyAEQdABaiADEJsDIARB4AFqIAMpAgAQygIgBP0ABOABISsgBSAQaiIKICo4AgAgBSARaiIHIAQqAsABOAIAIAUgEmoiDyAEKgLQATgCACAKQQRqICk4AgAgB0EEaiAEKgLEATgCACAPQQRqIAQqAtQBOAIAIApBCGogKDgCACAHQQhqIAQqAsgBOAIAIA9BCGogBCoC2AE4AgAgGCAr/QsCACAWAn8gA0EUai8BACIHQf//AXEEQCAHQf8HcSEKIAdBgIACcSEPIAdBgPgBcSIHQYD4AUcEQCAPQRB0IQ8gB0ENdEGAgID8AHEgCkENdHJBgICAwANqIA9yIAcNAhogD0GAgIDYA3IgCmdBEGsiB0EXdGsgCiAHQf//A3FBCGp0Qf///wNxcgwCCyAPQRB0IQcgByAKQQ10ckGAgID+B3IgCg0BGiAHQYCAgPwHcgwBCyAHQRB0CzYCACACBEACfwJAIBogHEkEQCAGQRRqKAIAIgpBBE0EfyAGQQRqBSAGQQRqKAIAIQogBkEIaigCAAshByAKDQFBACEKQQAMAgsgGiAcQbSixwAQrgcACyAHKAIACyEHIBkgCjsBACAXIAc2AgALIAVBDGohBSADQSRqIQMgBkEYaiEGIBZBBGohFiAXQQRqIRcgGEEQaiEYIBlBAmohGSAVQQFqIhUgFEkNAAsLIAQgGzYCrAIgBCAlNgKoAiAEIBs2AqQCIAQgJDYCoAIgBEEANgKcAiAEQoCAgIDAADcClAIgBEKAgICAwAA3AowCIARCgICQgMAANwKEAiAEIAs2AoACIARBgIAMNgL8ASAEIBI2AvgBIARBgIAMNgL0ASAEIBE2AvABIARBgIAENgLsASAEIAk2AugBIARBgIAMNgLkASAEIBA2AuABIARBBGogDiAUIARB4AFqEJkBIAggDiAUaiIOSw0ACwwGC0ECQYCACBDhCAALQQRBgIDAABDhCAALDAYLDAULQQRBgIAQEOEIAAsMAwsgIygCACIFQQNxIQMLAkACQAJAAkAgBUF4cUGEgBBBiIAQIAMbTwRAIANBACAFQaiAEE8bDQggDRCfAiAiKAIAIgJBeHFBhIAIQYiACCACQQNxIgMbSQ0HIANBACACQaiACE8bDQggDBCfAiAhKAIAIgJBeHFBhIDAAEGIgMAAIAJBA3EiAxtJDQcgA0EAIAJBqIDAAE8bDQggCxCfAiAgKAIAIgJBeHFBhIAwQYiAMCACQQNxIgMbSQ0HIANBACACQaiAME8bDQggEhCfAiAfKAIAIgJBeHFBhIAwQYiAMCACQQNxIgMbSQ0HIANBACACQaiAME8bDQggERCfAiAeKAIAIgJBeHFBhIAQQYiAECACQQNxIgMbSQ0HIANBACACQaiAEE8bDQggCRCfAiAdKAIAIgJBeHFBhIAwQYiAMCACQQNxIgMbSQ0HIANBACACQaiAME8bDQggEBCfAiATRQ0EQYCAkAEQcSICRQ0BIAJBBGsiCygCACIFQQNxIgMEQCACQQBBgICQAfwLAAsgCEUNAyABKAIgIQwgASgCHCENQQAhBgNAQYCABCAIIAZrIgMgA0GAgARPGyEJIAYgCEcEQEEAIQUgAiEDA0AgBEHgAWogDSAMIAUgBmoQuAEgAyAE/QAE4AH9CwIAIANBEGogBP0ABPAB/QsCACADQSBqIAQqAoACOAIAIANBJGohAyAFQQFqIgUgCUkNAAsLIARBBGogBiAJIAJBgIAkEM4DIAggBiAJaiIGSw0ACwwCCwwGC0EEQYCAkAEQ4QgACyALKAIAIgVBA3EhAwsCQAJAIAVBeHFBhICQAUGIgJABIAMbTwRAIANBACAFQaiAkAFPGw0HIAIQnwIgE0EBRg0DQYCA8AEQcSICRQ0BIAJBBGsiCygCACIFQQNxIgMEQCACQQBBgIDwAfwLAAsgCARAIAEoAiwhDCABKAIoIQ1BACEGA0BBgIAEIAggBmsiAyADQYCABE8bIQkgBiAIRwRAQQAhBSACIQMDQCAEQeABaiANIAwgBSAGahCGASADIAT9AATgAf0LAgAgA0EQaiAE/QAE8AH9CwIAIANBIGogBP0ABIAC/QsCACADQTBqIAQqApACOAIAIANBNGogBCkClAI3AgAgA0E8aiEDIAVBAWoiBSAJSQ0ACwsgBEEEaiAGIAkgAkGAgDwQ2AMgBiAJaiIGIAhJDQALIAsoAgAiBUEDcSEDCyAFQXhxQYSA8AFBiIDwASADG0kNBiADQQAgBUGogPABTxsNByACEJ8CIBNBAk0NA0GAgNACEHEiAkUNAiACQQRrIgkoAgAiBUEDcSIDBEAgAkEAQYCA0AL8CwALIAgEQCABKAI4IQsgASgCNCEMQQAhBgNAQYCABCAIIAZrIgEgAUGAgARPGyEBIAYgCEcEQEEAIQUgAiEDA0AgBEHgAWogDCALIAUgBmoQbSADIAT9AATgAf0LAgAgA0EQaiAE/QAE8AH9CwIAIANBIGogBP0ABIAC/QsCACADQTBqIAT9AASQAv0LAgAgA0FAayAE/QAEoAL9CwIAIANB0ABqIAQqArACOAIAIANB1ABqIQMgBUEBaiIFIAFJDQALCyAEQQRqIAYgASACQYCA1AAQ2QMgASAGaiIGIAhJDQALIAkoAgAiBUEDcSEDCyAFQXhxQYSA0AJBiIDQAiADG0kNBiADQQAgBUGogNACTxsNByACEJ8CDAMLDAULQQRBgIDwARDhCAALQQRBgIDQAhDhCAALAkAgBEEEaiICEKMBIgEEQCAAQQI2AgAgACABNgIEIAIQwAIMAQsgACAEQQRqQbwB/AoAAAsgBEHAAmokAA8LQQRBgIAQEOEIAAtBBEGAgDAQ4QgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAu4HQEFfyMAQTBrIgIkAAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAALQAAQQFrDhwBAgMEBQYHCAkKCwwNDg8QERITFBUWFxgZGhscAAtBASEDIAEoAgAiBEGviscAQQcgASgCBCIGKAIMIgURAAANHCAAQQRqIQACQCABLQAKQYABcUUEQCAEQeCexQBBASAFEQAADR4gACABEK4CRQ0BDB4LIARBy4vCAEECIAURAAANHSACQQE6AAwgAiAGNgIYIAIgBDYCFCACQdCLwgA2AiQgAiABKQIINwIoIAIgAkEMajYCHCACIAJBFGo2AiAgACACQSBqEK4CDR0gAigCIEHJi8IAQQIgAigCJCgCDBEAAA0dCyABKAIAQeKexQBBASABKAIEKAIMEQAAIQMMHAtBASEDIAEoAgAiBEHDx8QAQRQgASgCBCIGKAIMIgURAAANGyAAQQFqIQACQCABLQAKQYABcUUEQCAEQeCexQBBASAFEQAADR0gACABENUCRQ0BDB0LIARBy4vCAEECIAURAAANHCACQQE6AAwgAiAGNgIYIAIgBDYCFCACQdCLwgA2AiQgAiABKQIINwIoIAIgAkEMajYCHCACIAJBFGo2AiAgACACQSBqENUCDRwgAigCIEHJi8IAQQIgAigCJCgCDBEAAA0cCyABKAIAQeKexQBBASABKAIEKAIMEQAAIQMMGwtBASEDIAEoAgAiBEHXx8QAQRQgASgCBCIGKAIMIgURAAANGiAAQQFqIQACQCABLQAKQYABcUUEQCAEQeCexQBBASAFEQAADRwgACABENUCRQ0BDBwLIARBy4vCAEECIAURAAANGyACQQE6AAwgAiAGNgIYIAIgBDYCFCACQdCLwgA2AiQgAiABKQIINwIoIAIgAkEMajYCHCACIAJBFGo2AiAgACACQSBqENUCDRsgAigCIEHJi8IAQQIgAigCJCgCDBEAAA0bCyABKAIAQeKexQBBASABKAIEKAIMEQAAIQMMGgsgASgCAEHrx8QAQQwgASgCBCgCDBEAACEDDBkLQQEhAyABKAIAIgRB98fEAEESIAEoAgQiBigCDCIFEQAADRggAEEBaiEAAkAgAS0ACkGAAXFFBEAgBEHgnsUAQQEgBREAAA0aIAAgARDVAkUNAQwaCyAEQcuLwgBBAiAFEQAADRkgAkEBOgAMIAIgBjYCGCACIAQ2AhQgAkHQi8IANgIkIAIgASkCCDcCKCACIAJBDGo2AhwgAiACQRRqNgIgIAAgAkEgahDVAg0ZIAIoAiBByYvCAEECIAIoAiQoAgwRAAANGQsgASgCAEHinsUAQQEgASgCBCgCDBEAACEDDBgLIAEoAgBBicjEAEEOIAEoAgQoAgwRAAAhAwwXCyABKAIAQZfIxABBGSABKAIEKAIMEQAAIQMMFgsgASgCAEGwyMQAQRggASgCBCgCDBEAACEDDBULIAEoAgBByMjEAEEWIAEoAgQoAgwRAAAhAwwUCyABKAIAQd7IxABBDSABKAIEKAIMEQAAIQMMEwsgASgCAEHryMQAQREgASgCBCgCDBEAACEDDBILQQEhAyACIABBAWo2AgwgASgCACIAQfzIxABBGCABKAIEIgUoAgwiBBEAAA0RAkAgAS0ACkGAAXFFBEAgAEHgnsUAQQEgBBEAAA0TIAJBDGogARDCBEUNAQwTCyAAQcuLwgBBAiAEEQAADRIgAkEBOgATIAIgBTYCGCACIAA2AhQgAkHQi8IANgIkIAIgASkCCDcCKCACIAJBE2o2AhwgAiACQRRqNgIgIAJBDGogAkEgahDCBA0SIAIoAiBByYvCAEECIAIoAiQoAgwRAAANEgsgASgCAEHinsUAQQEgASgCBCgCDBEAACEDDBELQQEhAyACIABBAWo2AgwgASgCACIAQZTJxABBFCABKAIEIgUoAgwiBBEAAA0QAkAgAS0ACkGAAXFFBEAgAEHgnsUAQQEgBBEAAA0SIAJBDGogARDCBEUNAQwSCyAAQcuLwgBBAiAEEQAADREgAkEBOgATIAIgBTYCGCACIAA2AhQgAkHQi8IANgIkIAIgASkCCDcCKCACIAJBE2o2AhwgAiACQRRqNgIgIAJBDGogAkEgahDCBA0RIAIoAiBByYvCAEECIAIoAiQoAgwRAAANEQsgASgCAEHinsUAQQEgASgCBCgCDBEAACEDDBALQQEhAyACIABBAWo2AgwgASgCACIAQajJxABBFSABKAIEIgUoAgwiBBEAAA0PAkAgAS0ACkGAAXFFBEAgAEHgnsUAQQEgBBEAAA0RIAJBDGogARDCBEUNAQwRCyAAQcuLwgBBAiAEEQAADRAgAkEBOgATIAIgBTYCGCACIAA2AhQgAkHQi8IANgIkIAIgASkCCDcCKCACIAJBE2o2AhwgAiACQRRqNgIgIAJBDGogAkEgahDCBA0QIAIoAiBByYvCAEECIAIoAiQoAgwRAAANEAsgASgCAEHinsUAQQEgASgCBCgCDBEAACEDDA8LIAEoAgBBvcnEAEEMIAEoAgQoAgwRAAAhAwwOCyABKAIAQcnJxABBDiABKAIEKAIMEQAAIQMMDQsgASgCAEHXycQAQQ4gASgCBCgCDBEAACEDDAwLQQEhAyABKAIAIgRB5cnEAEEPIAEoAgQiBigCDCIFEQAADQsgAEEBaiEAAkAgAS0ACkGAAXFFBEAgBEHgnsUAQQEgBREAAA0NIAAgARCkA0UNAQwNCyAEQcuLwgBBAiAFEQAADQwgAkEBOgAMIAIgBjYCGCACIAQ2AhQgAkHQi8IANgIkIAIgASkCCDcCKCACIAJBDGo2AhwgAiACQRRqNgIgIAAgAkEgahCkAw0MIAIoAiBByYvCAEECIAIoAiQoAgwRAAANDAsgASgCAEHinsUAQQEgASgCBCgCDBEAACEDDAsLIAEoAgBB9MnEAEERIAEoAgQoAgwRAAAhAwwKC0EBIQMgAiAAQQFqNgIMIAEoAgAiAEGFysQAQREgASgCBCIFKAIMIgQRAAANCQJAIAEtAApBgAFxRQRAIABB4J7FAEEBIAQRAAANCyACQQxqIAEQwgRFDQEMCwsgAEHLi8IAQQIgBBEAAA0KIAJBAToAEyACIAU2AhggAiAANgIUIAJB0IvCADYCJCACIAEpAgg3AiggAiACQRNqNgIcIAIgAkEUajYCICACQQxqIAJBIGoQwgQNCiACKAIgQcmLwgBBAiACKAIkKAIMEQAADQoLIAEoAgBB4p7FAEEBIAEoAgQoAgwRAAAhAwwJC0EBIQMgASgCACIEQZbKxABBGSABKAIEIgYoAgwiBREAAA0IIABBAWohAAJAIAEtAApBgAFxRQRAIARB4J7FAEEBIAURAAANCiAAIAEQnwRFDQEMCgsgBEHLi8IAQQIgBREAAA0JIAJBAToADCACIAY2AhggAiAENgIUIAJB0IvCADYCJCACIAEpAgg3AiggAiACQQxqNgIcIAIgAkEUajYCICAAIAJBIGoQnwQNCSACKAIgQcmLwgBBAiACKAIkKAIMEQAADQkLIAEoAgBB4p7FAEEBIAEoAgQoAgwRAAAhAwwIC0EBIQMgASgCACIEQa/KxABBGiABKAIEIgYoAgwiBREAAA0HIABBAWohAAJAIAEtAApBgAFxRQRAIARB4J7FAEEBIAURAAANCSAAIAEQnwRFDQEMCQsgBEHLi8IAQQIgBREAAA0IIAJBAToADCACIAY2AhggAiAENgIUIAJB0IvCADYCJCACIAEpAgg3AiggAiACQQxqNgIcIAIgAkEUajYCICAAIAJBIGoQnwQNCCACKAIgQcmLwgBBAiACKAIkKAIMEQAADQgLIAEoAgBB4p7FAEEBIAEoAgQoAgwRAAAhAwwHC0EBIQMgASgCACIEQcnKxABBGyABKAIEIgYoAgwiBREAAA0GIABBAWohAAJAIAEtAApBgAFxRQRAIARB4J7FAEEBIAURAAANCCAAIAEQnwRFDQEMCAsgBEHLi8IAQQIgBREAAA0HIAJBAToADCACIAY2AhggAiAENgIUIAJB0IvCADYCJCACIAEpAgg3AiggAiACQQxqNgIcIAIgAkEUajYCICAAIAJBIGoQnwQNByACKAIgQcmLwgBBAiACKAIkKAIMEQAADQcLIAEoAgBB4p7FAEEBIAEoAgQoAgwRAAAhAwwGCyABKAIAQeTKxABBFiABKAIEKAIMEQAAIQMMBQtBASEDIAEoAgAiBEH6ysQAQRIgASgCBCIGKAIMIgURAAANBAJAIAEtAApBgAFxRQRAIARB4J7FAEEBIAURAAANBiAAKAIIIAAoAgwgARC7AkUNAQwGCyAEQcuLwgBBAiAFEQAADQUgAkEBOgAMIAIgBjYCGCACIAQ2AhQgAkHQi8IANgIkIAIgASkCCDcCKCACIAJBDGo2AhwgAiACQRRqIgQ2AiAgACgCCCAAKAIMIAJBIGoQuwINBSAEQcmLwgBBAhCyAw0FCyABKAIAQeKexQBBASABKAIEKAIMEQAAIQMMBAtBASEDIAEoAgAiBEGMy8QAQRAgASgCBCIGKAIMIgURAAANAwJAIAEtAApBgAFxRQRAIARB4J7FAEEBIAURAAANBSAAKAIIIAAoAgwgARC7AkUNAQwFCyAEQcuLwgBBAiAFEQAADQQgAkEBOgAMIAIgBjYCGCACIAQ2AhQgAkHQi8IANgIkIAIgASkCCDcCKCACIAJBDGo2AhwgAiACQRRqIgQ2AiAgACgCCCAAKAIMIAJBIGoQuwINBCAEQcmLwgBBAhCyAw0ECyABKAIAQeKexQBBASABKAIEKAIMEQAAIQMMAwsgASgCAEGcy8QAQRMgASgCBCgCDBEAACEDDAILIAEoAgBBr8vEAEEQIAEoAgQoAgwRAAAhAwwBCyABKAIAQb/LxABBDCABKAIEKAIMEQAAIQMLIAJBMGokACADC8gcAxB/BH4BfSMAQeABayICJAAgASgCDCEEAkACQCABKAIUIgUgASgCECIDSQRAA0AgBCAFai0AACIGQQlrIgdBF0tBASAHdEGTgIAEcUVyDQIgASAFQQFqIgU2AhQgAyAFRw0ACyADIQULIAJBBTYCoAEgAiAEIAMgBUEBaiIBIAMgASADSRsQ+gEgAkGgAWogAigCACACKAIEENkHIQEgAEGAgICAeDYCACAAIAE2AgQMAQsgBkHbAEYEQCABIAEtABhBAWsiBjoAGCAGQf8BcQRAIAEgBUEBajYCFCACQQE6ADAgAiABNgIsIAJBADYCPCACQoCAgICAATcCNCACQcgBaiEPIAJBqAFqIQxBCCEQAkACQAJAAkADQAJAIAJBoAFqIAJBLGoQzwMCQAJAIAItAKABQQFGBEAgAigCpAEhBQwBCwJAAkACQAJAAkAgAi0AoQFBAUYEQCACKAIsIggoAgwhBgJAIAgoAhQiBSAIKAIQIgdJBEADQCAFIAZqLQAAIgNBCWsiBEEXS0EBIAR0QZOAgARxRXINAiAIIAVBAWoiBTYCFCAFIAdHDQALIAchBQsgAkEFNgKgASACQSBqIAYgByAFQQFqIgUgByAFIAdJGxD6ASACQaABaiACKAIgIAIoAiQQ2QchBQwHCwJAAkACQCADQdsARwRAIANB+wBGDQEgCCACQd8BakGs3MEAEP8BIAgQlwYhBQwKCyAIIAgtABhBAWsiAzoAGCADQf8BcUUNAiAIIAVBAWo2AhQgAkEBOgDYASACIAg2AtQBIAJBoAFqIAJB1AFqEM8DAkACQCACLQCgAUEBRgRAIAIoAqQBIQMMAQsCQAJAAkACQAJAAkACQAJAAkACQAJAIAItAKEBQQFGBEAgAkGgAWogAigC1AEQ1QMgAigCoAFBAUYEQCACKAKkASEDDA0LIAIpA6gBIRIgAkGgAWogAkHUAWoQzwMgAi0AoAFBAUYEQCACKAKkASEDDA0LIAItAKEBQQFHDQIgAkGgAWogAigC1AEQ1QMgAigCoAFBAUcNASACKAKkASEDDAwLQQBBqKPBAEHoncEAEP0GIQMMCwsgAikDqAEhEyACQaABaiACQdQBahDPAyACLQCgAUEBRgRAIAIoAqQBIQMMCwsgAi0AoQFBAUcNAiACQaABaiACKALUARCkAiACLQCgAUEBRw0BIAIoAqQBIQMMCgtBAUGoo8EAQeidwQAQ/QYhAwwJCyACLQChASEGIAJBoAFqIAJB1AFqEM8DIAItAKABQQFGBEAgAigCpAEhAwwJCyACLQChAUEBRw0CIAJBoAFqIAIoAtQBEKoCIAItAKABQQFHDQEgAigCpAEhAwwIC0ECQaijwQBB6J3BABD9BiEDDAcLIAItAKEBIQcgAkGgAWogAkHUAWoQzwMgAi0AoAFBAUYEQCACKAKkASEDDAcLIAItAKEBQQFHDQIgAkGgAWogAigC1AEQpQIgAi0AoAFBAUcNASACKAKkASEDDAYLQQNBqKPBAEHoncEAEP0GIQMMBQsgAi0AoQEhDSACQaABaiACQdQBahDPAyACLQCgAUEBRgRAIAIoAqQBIQMMBQsgAi0AoQFBAUcNASACQaABaiACKALUARDnAiACKAKgASIEQQJGBEAgAigCpAEhAwwFCyACKAKkASEFIAJBoAFqIAJB1AFqELoGIAIoAqQBIQMgAigCoAEiDkECaw4CAwQCC0EEQaijwQBB6J3BABD9BiEDDAMLQQVBqKPBAEHoncEAEP0GIQMMAgsgAyEJIAUhAwwCC0EGQaijwQBB6J3BABD9BiEDC0ECIQQLIAggCC0AGEEBajoAGCACIAgQmQQiBTYCyAEgAiAGOgDCASACIAc6AMEBIAIgDToAwAEgAiATNwO4ASACIBI3A7ABIAIgCTYCrAEgAiAONgKoASACIAM2AqQBIAIgBDYCoAEgBEECRwRAQQIhBiAFDQkgAkGQAWogDEEQav0AAwD9CwMAIAIgDP0AAwD9CwOAASADIQUgBCEGDAkLQQIhBiAFDQEMBwsgCCAILQAYQQFrIgM6ABggA0H/AXEEQCAIIAVBAWo2AhQgAkEBOgDYASACIAg2AtQBQgAhFEEOIQZBDSEHQQIhCkECIQlBAiEFQgAhFQNAIAJBoAFqIgQgAkHUAWoQ/QIgAi0AoAFBAUYNBQJAAkACQAJAIAItAKEBQQFGBEAgAigC1AEiA0EANgIIIAMgAygCFEEBajYCFCAEIANBDGogAxCBAiACKAKkASEEIAIoAqABQQJGDQsCQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAigCqAFBA2sOCQEQAwIQABAQBBALIAQpAABC8OS9g9fMnLr5AFENBiAEKQAAQuXcjfvGrJq35wBSDQ8gB0H/AXFBDUYNB0ECIQNBsJ7BAEEIEM0HIQQMFwsgBEH7osEAQQMQuwdFDQggBEH+osEAQQMQuwcNDiAKQQJGDQlBAiEDQf6iwQBBAxDNByEEDBYLIARBtKLBAEEGELsHRQ0CDA0LIARBrerHAEEFELsHDQwgFFANAkECIQNBrerHAEEFEM0HIQQMFAsgBEHwosEAQQsQuwcNCyAFQQJGDQRBAiEDQfCiwQBBCxDNByEEDBMLIBVQDQlBAiEDQbSiwQBBBhDNByEEDBILIAMQ0AUiBA0QIAJBoAFqIAMQ1QMgAikDqAEhEkIBIRQgAigCoAFFDQoMDwsgBkH/AXFBDkYNBkECIQNBirDHAEEIEM0HIQQMEAsgAxDQBSIEDQ4gAkGgAWogAxCqAiACLQChASEHIAItAKABRQ0IDA0LIAMQ0AUiBA0NIAJBoAFqIAMQpQIgAi0AoQEhBSACLQCgAUUNBwwMCyAJQQJGDQJBAiEDQfuiwQBBAxDNByEEDA0LIAMQ0AUiBA0LIAJBoAFqIAMQ5wJBAiEDIAIoAqQBIgS+IRYgAigCoAEiCkECRw0FDAwLIBVQBEBBAiEDQbSiwQBBBhDKByEEDAwLIBRQBEBBAiEDQa3qxwBBBRDKByEEDAwLIAZB/wFxQQ5GBEBBAiEDQYqwxwBBCBDKByEEDAwLIAdB/wFxQQ1GBEBBAiEDQbCewQBBCBDKByEEDAwLIAlBACAJQQJHGyEDIApBACAKQQJHGyEOIAVBAXEhDSARIQQMCwsgAxDQBSIEDQkgAkGgAWogAxDnAkECIQMgAigCpAEiESEEIAIoAqABIglBAkcNAwwKCyADENAFIgQNCCACQaABaiADEKQCIAItAKEBIQYgAi0AoAFFDQIMBwsgAxDQBSIEDQcgAkGgAWogAxDVAyACKQOoASETQgEhFSACKAKgAUUNAQwGCyADEKoBIgRFDQALDAULIAJBGDYCoAEgAkEYaiAGIAcgBUEBaiIFIAcgBSAHSRsQ+gEgAkGgAWogAigCGCACKAIcENkHIQUMCAsgDxCwBAwFCyACQRg2AqABIAJBEGogBiAHIAVBAWoiBSAHIAUgB0kbEPoBIAJBoAFqIAIoAhAgAigCFBDZByEFDAYLIAIoAjghBSACKAI0IQQMBwsgAigCpAEhBAtBAiEDCyAIIAgtABhBAWo6ABggAiAIEIUFIgU2AsgBIAIgBjoAwgEgAiAHOgDBASACIA06AMABIAIgEjcDuAEgAiATNwOwASACIBY4AqwBIAIgDjYCqAEgAiAENgKkASACIAM2AqABIANBAkcEQEECIQYgBQ0CIAJBkAFqIAxBEGr9AAMA/QsDACACIAz9AAMA/QsDgAEgBCEFIAMhBgwCC0ECIQYgBUUEQCAEIQUMAgsgDxCwBCAEIQUMAQsgAyEFCyAGQQJGBEAgBSAIEJcGIQUMAQsgAkHQAGoiAyACQZABav0AAwD9CwMAIAIgAv0AA4AB/QsDQCAGQQNHDQELQYCAgIB4IQQgAigCNCIDRQ0BIAIoAjgiBkEEaygCACIHQXhxIgkgA0EobCIDQQRBCCAHQQNxIgcbakkNAyAHQQAgCSADQSdqSxsNBCAGEJ8CDAELIAJB8ABqIgcgA/0AAwD9CwMAIAIgAv0AA0D9CwNgIAIoAjQgC0YEQCMAQRBrIgMkACADQQRqIAJBNGoiBCgCACIIIAQoAgRBBCAIQQF0IgggCEEETRsiCEEIQSgQiwYgAygCBEEBRgRAIAMoAgggAygCDBDhCAALIAMoAgghCiAEIAg2AgAgBCAKNgIEIANBEGokACACKAI4IRALIBAgC0EobGoiAyAFNgIEIAMgBjYCACADIAL9AANg/QsCCCADQRhqIAf9AAMA/QsCACACIAtBAWoiCzYCPAwBCwsgASABLQAYQQFqOgAYIAIgARCZBCIDNgKsASACIAs2AqgBIAIgBTYCpAEgAiAENgKgAQJAAkAgBEGAgICAeEcEQCADRQ0CIARFDQEgBUEEaygCACIGQXhxIgcgBEEobCIEQQRBCCAGQQNxIgYbakkNBSAGQQAgByAEQSdqSxsNBiAFEJ8CDAELIAMEQCACQawBahCwBAsgBSEDCyADIAEQlwYhASAAQYCAgIB4NgIAIAAgATYCBAwHCyAAIAs2AgggACAFNgIEIAAgBDYCAAwGC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIAJBGDYCoAEgAkEIaiAEIAMgBUEBaiIBIAMgASADSRsQ+gEgAkGgAWogAigCCCACKAIMENkHIQEgAEGAgICAeDYCACAAIAE2AgQMAQsgASACQd8BakGM28EAEP8BIAEQlwYhASAAQYCAgIB4NgIAIAAgATYCBAsgAkHgAWokAAu0GAQffwF9AXsBfiMAQbDAAGsiByQAAkAgAiADQf8BcUECdCIEKAKE1khwRQRAIAdBADYCuCAgB0KAgICAEDcCsCAgAiAEKAKU1khuQQJ0IgRFBEBBASEIDAILIAcgB0GwIGogBBDsBgJAIAcoAgAiCEGBgICAeEcEQCAHKAIEIQUgBygCsCAiAEUNASAHKAK0ICAAQQEQiAcMAQsgBygCuCAhBSAHKAK0ICEIIAcoArAgIgZBgICAgHhHDQILIAcgBTYCtCAgByAINgKwIEHAwsQAQTYgB0GwIGpBsMLEAEH4wsQAEIkHAAtB2MHEAEHFAEGgwsQAEOcIAAsgByAFNgI4IAcgCDYCNCAHIAY2AjACQAJAAkACQAJAIANB/wFxQQFrDgMAAwMBCwJAAkAgBiAFayACSQRAIAdBMGogBSACEKYGIAcoAjQhCCAHKAI4IQUMAQsgAkUNAQsgAgRAIAUgCGogASAC/AoAAAsgAiAFaiEFCyAHIAU2AjgMAQsgBSACQQNuIg5BAnQiBEkEQCAEIAVrIgIgBiAFa0sEQCAHQTBqIAUgAhCmBiAHKAI4IQUgBygCNCEICyAFIAhqIQMgAkECTwR/IAJBAWsiAgRAIANBACAC/AsACyAIIAIgBWoiBWoFIAMLQQA6AAAgBUEBaiEECyAHIAQ2AjggBEECdiICIA4gAiAOSRsiAkUNAEEAIQQgAkEBRwRAIAJBAXEgAkH+////A3EhAiAIIQUgASEGA0AgBUEDakH/AToAACAFIAYvAAA7AAAgBUECaiAGQQJqLQAAOgAAIAVBB2pB/wE6AAAgBUEGaiAGQQVqLQAAOgAAIAVBBGogBkEDai8AADsAACAFQQhqIQUgBkEGaiEGIAIgBEECaiIERw0AC0UNAQsgCCAEQQJ0aiICQf8BOgADIAIgASAEQQNsaiIBLQACOgACIAIgAS8AADsAAAsgB0EgaiAHQThqKAIAIgE2AgAgByAHKQIwIiU3AxggAEEIaiABNgIAIAAgJTcCAAwBCyAHQRBqIAdBOGooAgA2AgAgByAHKQIwNwMIIAdBsCBqEOkCIAcoArAgRQRAIAdBJGpBARDDCQsCQCACIANB/wFxQQJ0KAKk1khuQQJ0IhAgBygCECIFTQRAIAcoAgwhEQwBCyAQIAVrIgQgBygCCCAFa0sEQCAHQQhqIAUgBBCmBiAHKAIQIQULIAcoAgwiESAFaiEGIARBAk8EfyAEQQFrIgQEQCAGQQAgBPwLAAsgESAEIAVqIgVqBSAGC0EAOgAAIAVBAWohEAsgByAQNgIQAn8CfwJAAkACQAJAIANB/wFxQQFrDgMBAgMACyAHQTBqQQBBgCD8CwAgB0GwIGpBAEGAIPwLACACQQNuIQxBASEeQQMMBAsgB0EwakEAQYAg/AsAIAdBsCBqQQBBgCD8CwAgAkECdgwCCyAHQTBqQQBBgCD8CwAgB0GwIGpBAEGAIPwLAEEBIR4gAiEMQQMMAgsgB0EwakEAQYAg/AsAIAdBsCBqQQBBgCD8CwAgAkEBdgshDEEECyEWAkACQAJAIAwEQCAMQf8BakEIdiEfIAEhFyABIRggASEaIAEhDkGAAiEbA0AgFiAMIBsgDCAbSRsiCSAcQQh0ayIFbCISQf//A3FBA24hCCAWIAkgIGpsQf//A3FBA24hBgJAAkACQAJAIAwgDUGAAmoiBCAEIAxLGyITIA1rIg8gFmwiCkGBCEkEQCAJQQJ0IR0gFiAJICFqIhRsIRUCQAJAAkACQAJAAkACQCADQf8BcUEBaw4DAQUCAAsgE0EDbCIGIA1BA2wiBE8gAiAGT3ENAiAEIAYgAkHYwMQAENUHAAsgE0ECdCIGIA1BAnQiBE8gAiAGT3ENAiAEIAYgAkHowMQAENUHAAsgE0EBdCIEIA1BAXQiC08gAiAET3ENAyALIAQgAkG4wcQAENUHAAsgCiAGIARrIgQgBCAKSxtFDQcgFSAiIAlBA2wiBmoiBCAEIBVLGyELQQAhBSASIBxBgHpsIAZqIgQgBCASSxsiCUEETwRAIAtBfHEhCCAJQXxxIQUgB0EwaiEGIBchBANAIAYgBP1cAAD9iQH9qQH9+wH9DIGAgDuBgIA7gYCAO4GAgDv95gH9CwIAIARBBGohBCAGQRBqIQYgCEEEayIIDQALIAUgCUYNCAsgB0EwaiAFQQJ0aiEGA0AgBiAFIBdqLQAAs0OBgIA7lDgCACAGQQRqIQYgCyAFQQFqIgVHDQALDAcLIAogBiAEayIEIAQgCksbRQ0GIBUgGSAdaiIEIAQgFUsbIQtBACEFIBIgHSAcQQp0ayIEIAQgEksbIglBBE8EQCALQXxxIQggCUF8cSEFIAdBMGohBiAYIQQDQCAGIAT9XAAA/YkB/akB/fsB/QyBgIA7gYCAO4GAgDuBgIA7/eYB/QsCACAEQQRqIQQgBkEQaiEGIAhBBGsiCA0ACyAFIAlGDQcLIAdBMGogBUECdGohBgNAIAYgBSAYai0AALNDgYCAO5Q4AgAgBkEEaiEGIAsgBUEBaiIFRw0ACwwGCyAMIA1JDQIgCkH//wNxQQNuIgQgDyAEIA9JG0UNBSAGIBQgBiAUSRshC0EAIQYgCCAFIAUgCEsbIglBBE8EQCALQfz/AXEhCCAJQfz/AXEhBiAHQTBqIQUgGiEEA0AgBSAE/VwAAP2JAf2pAf37Af0MgYCAO4GAgDuBgIA7gYCAO/3mASIkICT9DQgJCgsMDQ4PDA0ODwwNDg/9CwIgIAUgJCAk/Q0EBQYHBAUGBwgJCgsICQoL/QsCECAFICQgJP0NAAECAwABAgMAAQIDBAUGB/0LAgAgBEEEaiEEIAVBMGohBSAIQQRrIggNAAsgBiAJRg0GCyAHQTBqIAZBDGxqIQUDQCAFQQhqIAYgGmotAACzQ4GAgDuUIiM4AgAgBUEEaiAjOAIAIAUgIzgCACAFQQxqIQUgCyAGQQFqIgZHDQALDAULIApBAnYiBCAPIAQgD0kbRQ0EQQAhBCASQQJ2IgYgBSAFIAZLGyIGQQFGDQMgFUECdiIEIBQgBCAUSRtB/v///wNxIQkgBkEBcSEIQQAhBCAHQTBqIQUgDiEGA0AgBSAG/VwAAP2JAf2pAf37Af0MgYCAO4GAgDuBgIA7gYCAO/3mASIkICT9DQgJCgsICQoLCAkKCwwNDg/9CwIQIAUgJCAk/Q0AAQIDAAECAwABAgMEBQYH/QsCACAGQQRqIQYgBUEgaiEFIAkgBEECaiIERw0ACwwCC0EAIApBgAhByMHEABDVBwALIA0gEyACQfjAxAAQ1QcACyAIRQ0BCyAHQTBqIARBBHRqIgYgASALaiAEQQF0aiIELQAAs0OBgIA7lCIjOAIIIAYgIzgCBCAGICM4AgAgBiAELQABs0OBgIA7lDgCDAsCfyAeRQRAIA9BAnQiBiAKSw0FIAdBMGoMAQsgCkH//wNxQQNuIQQCQCAKQQNJDQBBgAIgBCAEQYACTxshCUEBIQQgB0GwIGohBSAHQTBqIQYDQCAFIAYqAgA4AgAgBUEMakGAgID8AzYCACAFQQRqIAZBBGopAgA3AgAgBCAURg0BIAZBDGohBiAFQRBqIQUgBCAJSSAEQQFqIQQNAAsLIA9BAnQiBkGBCE8NAyAHQbAgagshBSATQQJ0IgggEEsgCCANQQJ0IgRJcg0EIAggBGsiBCAGIAQgBkkbBEBBACAdayEEIBEhBgNAIAZB/wEgBSoCAEMAAH9DlBCdByIj/AFBACAjQwAAAABgGyAjQwAAf0NeGzoAACAGQQFqQf8BIAVBBGoqAgBDAAB/Q5QQnQciI/wBQQAgI0MAAAAAYBsgI0MAAH9DXhs6AAAgBkECaiEGIAVBCGohBSAZIARBAmoiBEcNAAsLIBFBgAhqIREgF0GABmohFyAiQYAGayEiIBhBgAhqIRggGUGACGshGSAaQYACaiEaICBBgAJrISAgIUGAAmshISAOQYAEaiEOIBxBAWohHCAbIg1BgAJqIRsgH0EBayIfDQALCyAAIAcpAwg3AgAgAEEIaiAHQRBqKAIANgIADAMLQQAgBkGACEGIwcQAENUHAAtBACAGIApBqMHEABDVBwALIAQgCCAQQZjBxAAQ1QcACyAHQbDAAGokAAuCGwIUfwZ9IwBBsAFrIgIkAAJAAkACQAJAAkACQAJAAkACQCABKAIUIgQgASgCECIFSQRAIAEoAgwhBgNAIAQgBmotAAAiA0EJayIHQRdLQQEgB3RBk4CABHFFckUEQCABIARBAWoiBDYCFCAEIAVHDQEMAwsLIANB7gBGDQQLIAEoAgwhBiAEIAVPDQEDQCAEIAZqLQAAIgdBCWsiA0EXS0EBIAN0QZOAgARxRXINAyABIARBAWoiBDYCFCAEIAVHDQALCyAFIQQLIAJBBTYCZCACQRhqIAYgBSAEQQFqIgEgBSABIAVJGxD6ASACQeQAaiACKAIYIAIoAhwQ2QchBAwFCwJAAkAgB0HbAEcEQCAHQfsARg0BIAEgAkGvAWpBjNzBABD/ASABEJcGIQQMBwsgASABLQAYQQFrIgM6ABggA0H/AXFFDQEgASAEQQFqNgIUIAJBAToAqAEgAiABNgKkASACQeQAaiACQaQBahDPAyACLQBkQQFGBEAgAigCaCEFQQIhAwwFCwJAAkACQAJAAkACQAJAAkACQAJAAkAgAi0AZUEBRgRAIAJB5ABqIAIoAqQBEOcCIAIoAmQiBEECRgRAIAIoAmghBUECIQMMEQsgAigCaCERIAJB5ABqIAJBpAFqEM8DIAItAGRBAUYEQCACKAJoIQVBAiEDDBELIAItAGVBAUcNAiACQeQAaiACKAKkARDnAiACKAJkIgZBAkcNASACKAJoIQVBAiEDDBALQQBB5KPBAEHoncEAEP0GIQVBAiEDDA8LIAIqAmghFiACQeQAaiACQaQBahDPAyACLQBkQQFGBEAgAigCaCEFQQIhAwwPCyACLQBlQQFHDQIgAkHkAGogAigCpAEQ5wIgAigCZCIHQQJHDQEgAigCaCEFQQIhAwwOC0EBQeSjwQBB6J3BABD9BiEFQQIhAwwNCyACKgJoIRcgAkHkAGogAkGkAWoQzwMgAi0AZEEBRgRAIAIoAmghBUECIQMMDQsgAi0AZUEBRw0CIAJB5ABqIAIoAqQBEOcCIAIoAmQiEkECRw0BIAIoAmghBUECIQMMDAtBAkHko8EAQeidwQAQ/QYhBUECIQMMCwsgAioCaCEYIAJB5ABqIAJBpAFqEM8DIAItAGRBAUYEQCACKAJoIQVBAiEDDAsLIAItAGVBAUcNAiACQeQAaiACKAKkARDnAiACKAJkIhNBAkcNASACKAJoIQVBAiEDDAoLQQNB5KPBAEHoncEAEP0GIQVBAiEDDAkLIAIqAmghGSACQeQAaiACQaQBahDPAyACLQBkQQFGBEAgAigCaCEFQQIhAwwJCyACLQBlQQFHDQEgAkHkAGogAigCpAEQ5wJBAiEDIAIoAmQiFEECRgRAIAIoAmghBQwJCyACKAJoIQsgAkHkAGogAkGkAWoQugYgAigCaCEFIAIoAmQiDEECaw4CAggDC0EEQeSjwQBB6J3BABD9BiEFQQIhAwwHC0EFQeSjwQBB6J3BABD9BiEFQQIhAwwGC0EGQeSjwQBB6J3BABD9BiEFDAULIAJB5ABqIQkjAEEQayIIJAAgCEEIaiACQaQBaiINEM8DAkAgCC0ACEEBRgRAIAkgCCgCDDYCBCAJQQE6AAAMAQsgCC0ACUUEQCAJQYAGOwEADAELIAhBCGogDSgCABCXAiAILQAIQQFGBEAgCSAIKAIMNgIEIAlBAToAAAwBCyAJIAgtAAk6AAEgCUEAOgAACyAIQRBqJAAgAi0AZA0DIAItAGUiFUEDRwRAIAUhCiARIQUgBCEDDAULQQdB5KPBAEHoncEAEP0GIQUMBAsgASABLQAYQQFrIgM6ABggA0H/AXEEQCABIARBAWo2AhQgAkEBOgCoASACIAE2AqQBQQMhCEECIQlBAiENQQIhDkECIQ9BAiELQQIhEEECIQwCQANAAkAgAkHkAGoiAyACQaQBahD9AgJAAkACQAJAAkACQAJAIAItAGRBAUcEQCACLQBlQQFHDQEgAigCpAEiBEEANgIIIAQgBCgCFEEBajYCFCADIARBDGogBBCBAiACKAJoIQMgAigCZEECRg0IAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAIoAmxBBmsOBQADAwMBAwsgA0HojsEAQQYQuwdFDQMgA0HujsEAQQYQuwcNASAQQQJGDQRBAiEFQe6OwQBBBhDNByEDDBULIANB9I7BAEEKELsHRQ0EIANB/o7BAEEKELsHRQ0FIANBmo/BAEEKELsHDQEgCEEDRg0JQQIhBUGaj8EAQQoQzQchAwwUCyADQYiPwQBBBhC7B0UNBSADQY6PwQBBBhC7B0UNBiADQZSPwQBBBhC7B0UNBwsgBBCqASIDRQ0RDBALIAxBAkYNDkECIQVB6I7BAEEGEM0HIQMMEQsgBBDQBSIDDQ4gAkHkAGogBBDnAkECIQUgAigCaCIDviEYIAIoAmQiEEECRw0PDBALIAtBAkYNC0ECIQVB9I7BAEEKEM0HIQMMDwsgD0ECRg0JQQIhBUH+jsEAQQoQzQchAwwOCyAOQQJGDQdBAiEFQYiPwQBBBhDNByEDDA0LIA1BAkYNBUECIQVBjo/BAEEGEM0HIQMMDAsgCUECRg0DQQIhBUGUj8EAQQYQzQchAwwLCyAEENAFIgMNCCACQeQAaiAEEJcCIAItAGUhCCACLQBkRQ0JCyACKAJoIQMMBwsgDEEAIAxBAkcbIQUgCUEAIAlBAkcbIQYgDUEAIA1BAkcbIQcgDkEAIA5BAkcbIRIgD0EAIA9BAkcbIRMgC0EAIAtBAkcbIRQgEEEAIBBBAkcbIRVBAiAIIAhBA0YbIQogESEDDAgLIAQQ0AUiAw0FIAJB5ABqIAQQ5wJBAiEFIAIoAmgiA74hGiACKAJkIglBAkcNBgwHCyAEENAFIgMNBCACQeQAaiAEEOcCQQIhBSACKAJoIgO+IRsgAigCZCINQQJHDQUMBgsgBBDQBSIDDQMgAkHkAGogBBDnAkECIQUgAigCaCIDviEZIAIoAmQiDkECRw0EDAULIAQQ0AUiAw0CIAJB5ABqIAQQ5wJBAiEFIAIoAmgiA74hFyACKAJkIg9BAkcNAwwECyAEENAFIgMNASACQeQAaiAEEOcCQQIhBSACKAJoIgO+IRYgAigCZCILQQJHDQIMAwsgBBDQBSIDDQAgAkHkAGogBBDnAkECIQUgAigCaCIRIQMgAigCZCIMQQJHDQEMAgsLQQIhBQsgASABLQAYQQFqOgAYIAIgARCFBSIENgKgASACIAo6AJwBIAIgGjgCmAEgAiAGNgKUASACIBs4ApABIAIgBzYCjAEgAiAZOAKIASACIBI2AoQBIAIgFzgCgAEgAiATNgJ8IAIgFjgCeCACIBQ2AnQgAiAYOAJwIAIgFTYCbCACIAM2AmggAiAFNgJkQQIhBiAFQQJHBEAgBA0GIAJB4ABqIAJB7ABqIgRBMGooAgA2AgAgAkHQAGogBEEgav0AAgD9CwMAIAJBQGsgBEEQav0AAgD9CwMAIAIgBP0AAgD9CwMwIAMhBCAFIQYMBgsgBEUEQCADIQQMBgsgAkGgAWoQsAQgAyEEDAULIAJBGDYCZCACQRBqIAYgBSAEQQFqIgEgBSABIAVJGxD6ASACQeQAaiACKAIQIAIoAhQQ2QchBAwFCyACQRg2AmQgAkEIaiAGIAUgBEEBaiIBIAUgASAFSRsQ+gEgAkHkAGogAigCCCACKAIMENkHIQQMBAsgASAEQQFqIgM2AhQCfwJAIAMgBU8NACABIARBAmoiBzYCFAJAAkAgAyAGai0AAEH1AEcNACAHIAMgBSADIAVLGyIDRg0CIAEgBEEDaiIKNgIUIAYgB2otAABB7ABHBEAgCiEHDAELIAMgCkYNAiABIARBBGoiBzYCFCAGIApqLQAAQewARg0BCyACQQk2AmQgAkEoaiAGIAUgBxD6ASACQeQAaiACKAIoIAIoAiwQ2QcMAgsgAEECNgIADAYLIAJBBTYCZCACQSBqIAYgBSADEPoBIAJB5ABqIAIoAiAgAigCJBDZBwshASAAQQM2AgAgACABNgIEDAQLIAIoAmghBQsgASABLQAYQQFqOgAYIAIgARCZBCIENgKgASACIBU6AJwBIAIgCjYCmAEgAiAMNgKUASACIAs2ApABIAIgFDYCjAEgAiAZOAKIASACIBM2AoQBIAIgGDgCgAEgAiASNgJ8IAIgFzgCeCACIAc2AnQgAiAWOAJwIAIgBjYCbCACIAU2AmggAiADNgJkQQIhBiADQQJHBEAgBA0BIAJB4ABqIAJB7ABqIgRBMGooAgA2AgAgAkHQAGogBEEgav0AAgD9CwMAIAJBQGsgBEEQav0AAgD9CwMAIAIgBP0AAgD9CwMwIAUhBCADIQYMAQsgBARAIAJBoAFqELAECyAFIQQLIAZBAkYEQCAEIAEQlwYhBAwBCyAAIAL9AAMw/QsCCCAAQThqIAJB4ABqKAIANgIAIABBKGogAkHQAGr9AAMA/QsCACAAQRhqIAJBQGv9AAMA/QsCACAAIAQ2AgQgACAGNgIADAELIABBAzYCACAAIAQ2AgQLIAJBsAFqJAALvhYCDH8IfUMAAIA/IRACfwJAIAAoAgQiAyACQQhqKAIAIgVJBEAgACgCACEGIAJBBGooAgAiCSADQSRsaiICEIMEIQ8gAi8BFCIDQf//AXFFDQEgA0H/B3EhAiADQYCAAnEhBCADQYD4AXEiA0GA+AFHBEAgBEEQdCEEIANBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAEciADDQMaIARBgICA2ANyIAJnQRBrIgNBF3RrIAIgA0H//wNxQQhqdEH///8DcXIMAwsgBEEQdCEDIAMgAkENdHJBgICA/gdyIAINAhogA0GAgID8B3IMAgsgAyAFQcSixwAQrgcACyADQRB0C74iEUMAAIA/XgRAIBEQugVDVPgtQJRDAACAP5KRIRALQwAAgD8hEQJ/AkAgBSAGSwRAIAkgBkEkbGoiAhCDBCETIAIvARQiA0H//wFxRQ0BIANB/wdxIQIgA0GAgAJxIQYgA0GA+AFxIgNBgPgBRwRAIAZBEHQhBiADQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogBnIgAw0DGiAGQYCAgNgDciACZ0EQayIDQRd0ayACIANB//8DcUEIanRB////A3FyDAMLIAZBEHQhAyADIAJBDXRyQYCAgP4HciACDQIaIANBgICA/AdyDAILIAYgBUHEoscAEK4HAAsgA0EQdAu+IhJDAACAP14EQCASELoFQ1T4LUCUQwAAgD+SkSERC0MAAIA/IRQCQAJAAn8CQCAFIAAoAgwiAksEQCAAKAIIIQYgCSACQSRsaiICEIMEIRIgAi8BFCIDQf//AXFFDQEgA0H/B3EhAiADQYCAAnEhBCADQYD4AXEiA0GA+AFHBEAgBEEQdCEEIANBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAEciADDQMaIARBgICA2ANyIAJnQRBrIgNBF3RrIAIgA0H//wNxQQhqdEH///8DcXIMAwsgBEEQdCEDIAMgAkENdHJBgICA/gdyIAINAhogA0GAgID8B3IMAgsMAgsgA0EQdAu+IhVDAACAP14EQCAVELoFQ1T4LUCUQwAAgD+SkSEUCwJ/AkAgBSAGSwRAIAkgBkEkbGoiAhCDBCEVIAIvARQiA0H//wFxRQ0BIANB/wdxIQIgA0GAgAJxIQYgA0GA+AFxIgNBgPgBRwRAIAZBEHQhBiADQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogBnIgAw0DGiAGQYCAgNgDciACZ0EQayIDQRd0ayACIANB//8DcUEIanRB////A3FyDAMLIAZBEHQhAyADIAJBDXRyQYCAgP4HciACDQIaIANBgICA/AdyDAILIAYgBUHEoscAEK4HAAsgA0EQdAshAkMAAIA/IRYCfwJAIAUgAEEMQQggEiASkiAUlCISIBJbIBIgFSAVkiACviIUQwAAgD9eBH0gFBC6BUNU+C1AlEMAAIA/kpEFIBYLlGBFcSIHG2oiBigCACICSwRAIAAgDyAPkiAQlCIPIA9bIA8gEyATkiARlGBFcSIKQQJ0aiIMKAIAIQQgCSACQSRsaiICEIMEIRMgAi8BFCIDQf//AXFFDQEgA0H/B3EhAiADQYCAAnEhCCADQYD4AXEiA0GA+AFHBEAgCEEQdCEIIANBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAIciADDQMaIAhBgICA2ANyIAJnQRBrIgNBF3RrIAIgA0H//wNxQQhqdEH///8DcXIMAwsgCEEQdCEDIAMgAkENdHJBgICA/gdyIAINAhogA0GAgID8B3IMAgsMAgsgA0EQdAtDAACAPyEPviIQQwAAgD9eBEAgEBC6BUNU+C1AlEMAAIA/kpEhDwtDAACAPyEQAn8CQCAEIAVJBEBBCEEMIAcbIQggCSAEQSRsaiICEIMEIRIgAi8BFCIDQf//AXFFDQEgA0H/B3EhAiADQYCAAnEhBCADQYD4AXEiA0GA+AFHBEAgBEEQdCEEIANBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAEciADDQMaIARBgICA2ANyIAJnQRBrIgNBF3RrIAIgA0H//wNxQQhqdEH///8DcXIMAwsgBEEQdCEDIAMgAkENdHJBgICA/gdyIAINAhogA0GAgID8B3IMAgsMAwsgA0EQdAu+IhFDAACAP14EQCARELoFQ1T4LUCUQwAAgD+SkSEQC0MAAIA/IRECfwJAIAUgACAIaiIIKAIAIgJLBEAgACAKRUECdGoiAygCACEEIAkgAkEkbGoiABCDBCEUIAAvARQiAkH//wFxRQ0BIAJB/wdxIQAgAkGAgAJxIQcgAkGA+AFxIgJBgPgBRwRAIAdBEHQhByACQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2ogB3IgAg0DGiAHQYCAgNgDciAAZ0EQayICQRd0ayAAIAJB//8DcUEIanRB////A3FyDAMLIAdBEHQhAiACIABBDXRyQYCAgP4HciAADQIaIAJBgICA/AdyDAILDAILIAJBEHQLviIVQwAAgD9eBEAgFRC6BUNU+C1AlEMAAIA/kpEhEQsCfwJAIAQgBUkEQCATIBOSIA+UIg8gEiASkiAQlGBFIQcgDyAPWyEKIAkgBEEkbGoiABCDBCEQIAAvARQiAkH//wFxRQ0BIAJB/wdxIQAgAkGAgAJxIQQgAkGA+AFxIgJBgPgBRwRAIARBEHQhBCACQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2ogBHIgAg0DGiAEQYCAgNgDciAAZ0EQayICQRd0ayAAIAJB//8DcUEIanRB////A3FyDAMLIARBEHQhAiACIABBDXRyQYCAgP4HciAADQIaIAJBgICA/AdyDAILDAMLIAJBEHQLIQBDAACAPyEPAn8CQCAFIAggAyAGIAcgCnEiBxsgFCAUkiARlCIRIBFbIBEgECAQkiAAviITQwAAgD9eBH0gExC6BUNU+C1AlEMAAIA/kpEFIA8LlGBFcSIKGyINKAIAIgBLBEAgDCAGIAMgChsgBxsiDigCACEEIAkgAEEkbGoiABCDBCEQIAAvARQiAkH//wFxRQ0BIAJB/wdxIQAgAkGAgAJxIQsgAkGA+AFxIgJBgPgBRwRAIAtBEHQhCyACQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2ogC3IgAg0DGiALQYCAgNgDciAAZ0EQayICQRd0ayAAIAJB//8DcUEIanRB////A3FyDAMLIAtBEHQhAiACIABBDXRyQYCAgP4HciAADQIaIAJBgICA/AdyDAILIAAgBUHEoscAEK4HAAsgAkEQdAtDAACAPyERviIPQwAAgD9eBEAgDxC6BUNU+C1AlEMAAIA/kpEhEQtDAACAPyEPAn8CQCAEIAVJBEAgCSAEQSRsaiIAEIMEIRMgAC8BFCICQf//AXFFDQEgAkH/B3EhACACQYCAAnEhBSACQYD4AXEiAkGA+AFHBEAgBUEQdCEFIAJBDXRBgICA/ABxIABBDXRyQYCAgMADaiAFciACDQMaIAVBgICA2ANyIABnQRBrIgJBF3RrIAAgAkH//wNxQQhqdEH///8DcXIMAwsgBUEQdCECIAIgAEENdHJBgICA/gdyIAANAhogAkGAgID8B3IMAgsMAwsgAkEQdAu+IhJDAACAP14EQCASELoFQ1T4LUCUQwAAgD+SkSEPCyABIAYgDCAHGygCADYCACABIA0gDiAQIBCSIBGUIhAgEFsgECATIBOSIA+UYEVxIgAbKAIANgIEIAEgDiANIAAbKAIANgIIIAEgAyAIIAobKAIANgIMDwsgAiAFQcSixwAQrgcACyAEIAVBxKLHABCuBwALjhcDJX8DfQF7IwBB0AJrIgMkAEEAEKkJIQQgA0EAEKkJNgLAASADIAQ2ArwBIANBADYCuAEgA0IANwKwASADQgQ3AnggA0IANwJwIANCgICAgMAANwJoIANCBDcCYCADQgA3AlggA0KAgICAwAA3AlAgA0EANgI8IANBADYCNCADQQA2AiwgA0EANgIkIANBADYCHCADQQA2AhQgA0EANgIMIANBADYCSCADQYCAgIB4NgKYASADQYCAgIB4NgKkASADQcwBakEAOgAAIANCBDcCkAEgA0IANwKIASADQoCAgIDAADcCgAEgA0IANwLEASABKAI8IRMgAyACOgD4ASADIBM2AvQBIAMgASgCCCIINgLwASADQQxqIANB8AFqENQDAkACQAJAAkACQAJAQYCAMBBxIhAEQCAQQQRrIh0tAABBA3EEQCAQQQBBgIAw/AsAC0GAgBAQcSIJBEAgCUEEayIeLQAAQQNxBEAgCUEAQYCAEPwLAAtBgIAwEHEiEQRAIBFBBGsiHy0AAEEDcQRAIBFBAEGAgDD8CwALQYCAMBBxIhIEQCASQQRrIiAtAABBA3EEQCASQQBBgIAw/AsAC0GAgMAAEHEiCwRAIAtBBGsiIS0AAEEDcQRAIAtBAEGAgMAA/AsAC0GAgAgQcSIMBEAgDEEEayIiLQAAQQNxBEAgDEEAQYCACPwLAAtBgIAQEHEiDUUNCCANQQRrIiMoAgAiBUEDcSIEBEAgDUEAQYCAEPwLAAsgCEUNByAMQQIgAhshJCANQQQgAhshJUGAgARBACACGyEbIAEoAhAhJiABKAIUIRwgASgCBCEnA0BBgIAEIAggDmsiBCAEQYCABE8bIRQgCCAORwRAICcgDkEkbGohBCAmIA5BGGxqIQZBACEFQQAhFSAJIRYgDSEXIAshGCAMIRkDQCAIIA4gFWoiGk0EQCAaIAhBxKLHABCuBwALIARBEGoqAgAhKCAEQQxqKgIAISkgBEEIaioCACEqIANB0AFqIAQQogMgA0HgAWogBBCbAyADQfABaiAEKQIAEMoCIAP9AATwASErIAUgEGoiCiAqOAIAIAUgEWoiByADKgLQATgCACAFIBJqIg8gAyoC4AE4AgAgCkEEaiApOAIAIAdBBGogAyoC1AE4AgAgD0EEaiADKgLkATgCACAKQQhqICg4AgAgB0EIaiADKgLYATgCACAPQQhqIAMqAugBOAIAIBggK/0LAgAgFgJ/IARBFGovAQAiB0H//wFxBEAgB0H/B3EhCiAHQYCAAnEhDyAHQYD4AXEiB0GA+AFHBEAgD0EQdCEPIAdBDXRBgICA/ABxIApBDXRyQYCAgMADaiAPciAHDQIaIA9BgICA2ANyIApnQRBrIgdBF3RrIAogB0H//wNxQQhqdEH///8DcXIMAgsgD0EQdCEHIAcgCkENdHJBgICA/gdyIAoNARogB0GAgID8B3IMAQsgB0EQdAs2AgAgAgRAAn8CQCAaIBxJBEAgBkEUaigCACIKQQRNBH8gBkEEagUgBkEEaigCACEKIAZBCGooAgALIQcgCg0BQQAhCkEADAILIBogHEG0oscAEK4HAAsgBygCAAshByAZIAo7AQAgFyAHNgIACyAFQQxqIQUgBEEkaiEEIAZBGGohBiAWQQRqIRYgF0EEaiEXIBhBEGohGCAZQQJqIRkgFUEBaiIVIBRJDQALCyADIBs2ArwCIAMgJTYCuAIgAyAbNgK0AiADICQ2ArACIANBADYCrAIgA0KAgICAwAA3AqQCIANCgICAgMAANwKcAiADQoCAkIDAADcClAIgAyALNgKQAiADQYCADDYCjAIgAyASNgKIAiADQYCADDYChAIgAyARNgKAAiADQYCABDYC/AEgAyAJNgL4ASADQYCADDYC9AEgAyAQNgLwASADQQxqIA4gFCADQfABahB+IAggDiAUaiIOSw0ACwwGC0ECQYCACBDhCAALQQRBgIDAABDhCAALDAYLDAULQQRBgIAQEOEIAAsMAwsgIygCACIFQQNxIQQLAkACQAJAAkAgBUF4cUGEgBBBiIAQIAQbTwRAIARBACAFQaiAEE8bDQggDRCfAiAiKAIAIgJBeHFBhIAIQYiACCACQQNxIgQbSQ0HIARBACACQaiACE8bDQggDBCfAiAhKAIAIgJBeHFBhIDAAEGIgMAAIAJBA3EiBBtJDQcgBEEAIAJBqIDAAE8bDQggCxCfAiAgKAIAIgJBeHFBhIAwQYiAMCACQQNxIgQbSQ0HIARBACACQaiAME8bDQggEhCfAiAfKAIAIgJBeHFBhIAwQYiAMCACQQNxIgQbSQ0HIARBACACQaiAME8bDQggERCfAiAeKAIAIgJBeHFBhIAQQYiAECACQQNxIgQbSQ0HIARBACACQaiAEE8bDQggCRCfAiAdKAIAIgJBeHFBhIAwQYiAMCACQQNxIgQbSQ0HIARBACACQaiAME8bDQggEBCfAiATRQ0EQYCAkAEQcSICRQ0BIAJBBGsiCygCACIFQQNxIgQEQCACQQBBgICQAfwLAAsgCEUNAyABKAIgIQwgASgCHCENQQAhBgNAQYCABCAIIAZrIgQgBEGAgARPGyEJIAYgCEcEQEEAIQUgAiEEA0AgA0HwAWogDSAMIAUgBmoQuAEgBCAD/QAE8AH9CwIAIARBEGogA/0ABIAC/QsCACAEQSBqIAMqApACOAIAIARBJGohBCAFQQFqIgUgCUkNAAsLIANBDGogBiAJIAJBgIAkEOMBIAggBiAJaiIGSw0ACwwCCwwGC0EEQYCAkAEQ4QgACyALKAIAIgVBA3EhBAsCQAJAIAVBeHFBhICQAUGIgJABIAQbTwRAIARBACAFQaiAkAFPGw0HIAIQnwIgE0EBRg0DQYCA8AEQcSICRQ0BIAJBBGsiCygCACIFQQNxIgQEQCACQQBBgIDwAfwLAAsgCARAIAEoAiwhDCABKAIoIQ1BACEGA0BBgIAEIAggBmsiBCAEQYCABE8bIQkgBiAIRwRAQQAhBSACIQQDQCADQfABaiANIAwgBSAGahCGASAEIAP9AATwAf0LAgAgBEEQaiAD/QAEgAL9CwIAIARBIGogA/0ABJAC/QsCACAEQTBqIAMqAqACOAIAIARBNGogAykCpAI3AgAgBEE8aiEEIAVBAWoiBSAJSQ0ACwsgA0EMaiAGIAkgAkGAgDwQqAEgBiAJaiIGIAhJDQALIAsoAgAiBUEDcSEECyAFQXhxQYSA8AFBiIDwASAEG0kNBiAEQQAgBUGogPABTxsNByACEJ8CIBNBAk0NA0GAgNACEHEiAkUNAiACQQRrIgkoAgAiBUEDcSIEBEAgAkEAQYCA0AL8CwALIAgEQCABKAI4IQsgASgCNCEMQQAhBgNAQYCABCAIIAZrIgEgAUGAgARPGyEBIAYgCEcEQEEAIQUgAiEEA0AgA0HwAWogDCALIAUgBmoQbSAEIAP9AATwAf0LAgAgBEEQaiAD/QAEgAL9CwIAIARBIGogA/0ABJAC/QsCACAEQTBqIAP9AASgAv0LAgAgBEFAayAD/QAEsAL9CwIAIARB0ABqIAMqAsACOAIAIARB1ABqIQQgBUEBaiIFIAFJDQALCyADQQxqIAYgASACQYCA1AAQlQEgASAGaiIGIAhJDQALIAkoAgAiBUEDcSEECyAFQXhxQYSA0AJBiIDQAiAEG0kNBiAEQQAgBUGogNACTxsNByACEJ8CDAMLDAULQQRBgIDwARDhCAALQQRBgIDQAhDhCAALAkAgA0EMaiICENgBIgEEQCAAQQI2AgAgACABNgIEIAIQiAIMAQsgACADQQxqQcQB/AoAAAsgA0HQAmokAA8LQQRBgIAQEOEIAAtBBEGAgDAQ4QgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAuVFgEOfwJ/AkAgAiADSwRAIAEgA0EebGoiAy8BACICQf//AXFFDQEgAkH/B3EhASACQYCAAnEhBSACQYD4AXEiAkGA+AFHBEAgBUEQdCEFIAJBDXRBgICA/ABxIAFBDXRyQYCAgMADaiAFciACDQMaIAVBgICA2ANyIAFnQRBrIgJBF3RrIAEgAkH//wNxQQhqdEH///8DcXIMAwsgBUEQdCECIAIgAUENdHJBgICA/gdyIAENAhogAkGAgID8B3IMAgsgAyACQfSixwAQrgcACyACQRB0CyEBAn8gAy8BAiIFQf//AXEEQCAFQf8HcSECIAVBgIACcSEGIAVBgPgBcSIFQYD4AUcEQCAGQRB0IQYgBUENdEGAgID8AHEgAkENdHJBgICAwANqIAZyIAUNAhogBkGAgIDYA3IgAmdBEGsiBUEXdGsgAiAFQf//A3FBCGp0Qf///wNxcgwCCyAGQRB0IQUgBSACQQ10ckGAgID+B3IgAg0BGiAFQYCAgPwHcgwBCyAFQRB0CyEFAn8gAy8BBCIGQf//AXEEQCAGQf8HcSECIAZBgIACcSEHIAZBgPgBcSIGQYD4AUcEQCAHQRB0IQcgBkENdEGAgID8AHEgAkENdHJBgICAwANqIAdyIAYNAhogB0GAgIDYA3IgAmdBEGsiBkEXdGsgAiAGQf//A3FBCGp0Qf///wNxcgwCCyAHQRB0IQYgBiACQQ10ckGAgID+B3IgAg0BGiAGQYCAgPwHcgwBCyAGQRB0CyEGAn8gAy8BBiIHQf//AXEEQCAHQf8HcSECIAdBgIACcSEIIAdBgPgBcSIHQYD4AUcEQCAIQRB0IQggB0ENdEGAgID8AHEgAkENdHJBgICAwANqIAhyIAcNAhogCEGAgIDYA3IgAmdBEGsiB0EXdGsgAiAHQf//A3FBCGp0Qf///wNxcgwCCyAIQRB0IQcgByACQQ10ckGAgID+B3IgAg0BGiAHQYCAgPwHcgwBCyAHQRB0CyEHAn8gAy8BCCIIQf//AXEEQCAIQf8HcSECIAhBgIACcSEJIAhBgPgBcSIIQYD4AUcEQCAJQRB0IQkgCEENdEGAgID8AHEgAkENdHJBgICAwANqIAlyIAgNAhogCUGAgIDYA3IgAmdBEGsiCEEXdGsgAiAIQf//A3FBCGp0Qf///wNxcgwCCyAJQRB0IQggCCACQQ10ckGAgID+B3IgAg0BGiAIQYCAgPwHcgwBCyAIQRB0CyEIAn8gAy8BCiIJQf//AXEEQCAJQf8HcSECIAlBgIACcSEKIAlBgPgBcSIJQYD4AUcEQCAKQRB0IQogCUENdEGAgID8AHEgAkENdHJBgICAwANqIApyIAkNAhogCkGAgIDYA3IgAmdBEGsiCUEXdGsgAiAJQf//A3FBCGp0Qf///wNxcgwCCyAKQRB0IQkgCSACQQ10ckGAgID+B3IgAg0BGiAJQYCAgPwHcgwBCyAJQRB0CyEJAn8gAy8BDCIKQf//AXEEQCAKQf8HcSECIApBgIACcSELIApBgPgBcSIKQYD4AUcEQCALQRB0IQsgCkENdEGAgID8AHEgAkENdHJBgICAwANqIAtyIAoNAhogC0GAgIDYA3IgAmdBEGsiCkEXdGsgAiAKQf//A3FBCGp0Qf///wNxcgwCCyALQRB0IQogCiACQQ10ckGAgID+B3IgAg0BGiAKQYCAgPwHcgwBCyAKQRB0CyEKAn8gAy8BDiILQf//AXEEQCALQf8HcSECIAtBgIACcSEMIAtBgPgBcSILQYD4AUcEQCAMQRB0IQwgC0ENdEGAgID8AHEgAkENdHJBgICAwANqIAxyIAsNAhogDEGAgIDYA3IgAmdBEGsiC0EXdGsgAiALQf//A3FBCGp0Qf///wNxcgwCCyAMQRB0IQsgCyACQQ10ckGAgID+B3IgAg0BGiALQYCAgPwHcgwBCyALQRB0CyELAn8gAy8BECIMQf//AXEEQCAMQf8HcSECIAxBgIACcSENIAxBgPgBcSIMQYD4AUcEQCANQRB0IQ0gDEENdEGAgID8AHEgAkENdHJBgICAwANqIA1yIAwNAhogDUGAgIDYA3IgAmdBEGsiDEEXdGsgAiAMQf//A3FBCGp0Qf///wNxcgwCCyANQRB0IQwgDCACQQ10ckGAgID+B3IgAg0BGiAMQYCAgPwHcgwBCyAMQRB0CyEMAn8gAy8BEiINQf//AXEEQCANQf8HcSECIA1BgIACcSEOIA1BgPgBcSINQYD4AUcEQCAOQRB0IQ4gDUENdEGAgID8AHEgAkENdHJBgICAwANqIA5yIA0NAhogDkGAgIDYA3IgAmdBEGsiDUEXdGsgAiANQf//A3FBCGp0Qf///wNxcgwCCyAOQRB0IQ0gDSACQQ10ckGAgID+B3IgAg0BGiANQYCAgPwHcgwBCyANQRB0CyENAn8gAy8BFCIOQf//AXEEQCAOQf8HcSECIA5BgIACcSEPIA5BgPgBcSIOQYD4AUcEQCAPQRB0IQ8gDkENdEGAgID8AHEgAkENdHJBgICAwANqIA9yIA4NAhogD0GAgIDYA3IgAmdBEGsiDkEXdGsgAiAOQf//A3FBCGp0Qf///wNxcgwCCyAPQRB0IQ4gDiACQQ10ckGAgID+B3IgAg0BGiAOQYCAgPwHcgwBCyAOQRB0CyEOAn8gAy8BFiIPQf//AXEEQCAPQf8HcSECIA9BgIACcSEQIA9BgPgBcSIPQYD4AUcEQCAQQRB0IRAgD0ENdEGAgID8AHEgAkENdHJBgICAwANqIBByIA8NAhogEEGAgIDYA3IgAmdBEGsiD0EXdGsgAiAPQf//A3FBCGp0Qf///wNxcgwCCyAQQRB0IQ8gDyACQQ10ckGAgID+B3IgAg0BGiAPQYCAgPwHcgwBCyAPQRB0CyEPAn8gAy8BGCIQQf//AXEEQCAQQf8HcSECIBBBgIACcSEEIBBBgPgBcSIQQYD4AUcEQCAEQRB0IQQgEEENdEGAgID8AHEgAkENdHJBgICAwANqIARyIBANAhogBEGAgIDYA3IgAmdBEGsiEEEXdGsgAiAQQf//A3FBCGp0Qf///wNxcgwCCyAEQRB0IRAgECACQQ10ckGAgID+B3IgAg0BGiAQQYCAgPwHcgwBCyAQQRB0CyEQAn8gAy8BGiIEQf//AXEEQCAEQf8HcSECIARBgIACcSERIARBgPgBcSIEQYD4AUcEQCARQRB0IREgBEENdEGAgID8AHEgAkENdHJBgICAwANqIBFyIAQNAhogEUGAgIDYA3IgAmdBEGsiBEEXdGsgAiAEQf//A3FBCGp0Qf///wNxcgwCCyARQRB0IQQgBCACQQ10ckGAgID+B3IgAg0BGiAEQYCAgPwHcgwBCyAEQRB0CyECIAACfyADLwEcIgRB//8BcQRAIARB/wdxIQMgBEGAgAJxIREgBEGA+AFxIgRBgPgBRwRAIBFBEHQhESAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogEXIgBA0CGiARQYCAgNgDciADZ0EQayIEQRd0ayADIARB//8DcUEIanRB////A3FyDAILIBFBEHQhBCAEIANBDXRyQYCAgP4HciADDQEaIARBgICA/AdyDAELIARBEHQLNgI4IAAgAjYCNCAAIBA2AjAgACAPNgIsIAAgDjYCKCAAIA02AiQgACAMNgIgIAAgCzYCHCAAIAo2AhggACAJNgIUIAAgCDYCECAAIAc2AgwgACAGNgIIIAAgBTYCBCAAIAE2AgALshUDEX8BfgFvIwBB4AZrIgEkACABQaABaiIHIAIgAygCDBEBAAJAAkACQAJAIAEpA6ABQo+Q0frM8Ij4CYUgASkDqAFClLyHtavc4L+Yf4WEUARAIAFBMGogAkHwAPwKAAAgASgClAEiA0UNASAHIAMgASgCmAEiEigCDCIIEQEAAkACQAJAAkACQCABKQOgAUKf7o+Ni573tQGFIAEpA6gBQoToybncifjXP4WEUEUEQCAHIAMgCBEBACABKQOgAULHhtqV0IXbxAuFIAEpA6gBQqTus/WZmf3zboWEUA0BIAcgAyAIEQEAIAEpA6ABQuuz9Zepo+ijC4UgASkDqAFCvsOhgYPUzsMhhYRQDQIgByADIAgRAQAgASkDoAFCxsruhJag1uDaAIUgASkDqAFCgtaXjuvVkbXeAIWEUA0DIAcgAyAIEQEAIAEpA6ABQqq5upCZrf6pkX+FIAEpA6gBQpSH49fK/drD1ACFhFANBCAHIAMgCBEBACABKQOgAULq3K6joN/990mFIAEpA6gBQreey/W928nDKIWEUCITDQVBhPLBAEEpQZjywQAQ2wcACyABQaABaiADQbgF/AoAACABQRBqIANBHGr9AAIA/QsDACABQSBqIANBLGr9AAIA/QsDACABIAP9AAIM/QsDACADKAI8IQcgAygCCCEIIAMpAwAhFSABKALIBiIEBEAgASgCzAYiBUEEaygCACIGQXhxIglBBEEIIAZBA3EiBhsgBGpJDQogBkEAIAkgBEEnaksbDQkgBRCfAgsgAUHgAWohBAJAAkACQCABKAK8BkGAgICAeGsOAgECAAsgBBC9AgwBCyAEEL0BCyADQQRrKAIAIgRBeHFBvAVBwAUgBEEDcSIFG0kNCSAFRQ0HIARB4AVPDQgMBwsgAUEQaiADQRxq/QACAP0LAwAgAUEgaiADQSxq/QACAP0LAwAgASAD/QACDP0LAwAgAygCgAEhCSADKAJ8IQ0gAygCdCEOIAMoAnAhCyADKAJoIRIgAygCZCEEIAMoAlwhEyADKAJYIQUgAygCUCEMIAMoAkwhBiADKAI8IQcgAygCCCEIIAMpAgAhFSADKAJAIgoEQCADKAJEIg9BBGsoAgAiEEF4cSIRQQRBCCAQQQNxIhAbIApqSQ0JIBBBACARIApBJ2pLGw0IIA8QnwILIAYEQCAMQQRrKAIAIgpBeHEiD0EEQQggCkEDcSIKGyAGakkNCSAKQQAgDyAGQSdqSxsNCCAMEJ8CCyAFBEAgE0EEaygCACIGQXhxIgxBBEEIIAZBA3EiBhsgBWpJDQkgBkEAIAwgBUEnaksbDQggExCfAgsCQCAEQYCAgIB4Rg0AIAQEQCASQQRrKAIAIgVBeHEiBiAEQQJ0IgRBBEEIIAVBA3EiBRtqSQ0KIAVBACAGIARBJ2pLGw0JIBIQnwILIAsEQCAOQQRrKAIAIgRBeHEiBSALQQF0IgZBBEEIIARBA3EiBBtqSQ0KIARBACAFIAZBJ2pLGw0JIA4QnwILIA1FDQAgCUEEaygCACIEQXhxIgUgDUECdCIGQQRBCCAEQQNxIgQbakkNCSAEQQAgBSAGQSdqSxsNCCAJEJ8CCyADQQRrKAIAIgRBeHFBrNMAQbDTACAEQQNxIgUbSQ0IIAVFIARB0NMASXINBgwHCyABQRBqIANBHGr9AAIA/QsDACABQSBqIANBLGr9AAIA/QsDACABIAP9AAIM/QsDACADKAI8IQcgAygCCCEIIAMpAgAhFSADKAJAIgQEQCADKAJEIgVBBGsoAgAiBkF4cSIJQQRBCCAGQQNxIgYbIARqSQ0IIAZBACAJIARBJ2pLGw0HIAUQnwILIANBBGsoAgAiBEF4cSIFQdAAQdQAIARBA3EiBBtJDQcgBEUgBUH0AElyDQUMBgsgAUEQaiADQRxq/QACAP0LAwAgAUEgaiADQSxq/QACAP0LAwAgASAD/QACDP0LAwAgAygCPCEHIAMoAgghCCADKQIAIRUgAygCQCIEBEAgAygCRCIFQQRrKAIAIgZBeHEiCUEEQQggBkEDcSIGGyAEakkNByAGQQAgCSAEQSdqSxsNBiAFEJ8CCyADQQRrKAIAIgRBeHEiBUHQAEHUACAEQQNxIgQbSQ0GIARFIAVB9ABJcg0EDAULIAFBEGogA0Ecav0AAgD9CwMAIAFBIGogA0Esav0AAgD9CwMAIAEgA/0AAgz9CwMAIAMoAjwhByADKAIIIQggAykCACEVIAMoAkAiBARAIAMoAkQgBEEBEIgHCyADQQRrKAIAIgRBeHEiBUHQAEHUACAEQQNxIgQbSQ0FIARFIAVB9ABJcg0DDAQLIAFBEGogA0GUAmr9AAIA/QsDACABQSBqIANBpAJq/QACAP0LAwAgASAD/QAChAL9CwMAIAMoAoACIQggAykC+AEhFSADKALoASEMIAMoAuQBIQYgAygCiAEhCiADKAJ0IQ8gAygCcCEJIAMoAmwhBSADKAJoIQ0gAygCZCEOIAMoAgAhBCADKAK0AiEHIAMoAtgCIgsEQCADKALcAiALQQEQiAcLAkAgBEECRg0AIAUEQCANQSRqIQQDQCAEQQRrKAIAIgtBgICAgHhyQYCAgIB4RwRAIAQoAgAiEEEEaygCACIRQXhxIhRBBEEIIBFBA3EiERsgC2pJDQggEUEAIBQgC0EnaksbDQcgEBCfAgsgBEEwaiEEIAVBAWsiBQ0ACwsgDgRAIA0gDkEwbEEIEIgHCyAJQYCAgIB4ckGAgICAeEYNACAPIAlBARCIBwsgAyASIBMbIQMgBkUgCkECRnJFBEAgDCAGQShsQQgQiAcLIANBBGsoAgAiBEF4cUGEA0GIAyAEQQNxIgUbSQ0EIAVFIARBqANJcg0CDAMLIAEgAzYCpAEgASACNgKgAUGAuMgAQSsgAUGgAWpB8JLBAEHwk8EAEIkHAAtB9PHBABDQCQALIAMQnwIgASgCPCIDQYCAgIB4ckGAgICAeEcEQCABKAJAIgRBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIANqSQ0CIAVBACAGIANBJ2pLGw0BIAQQnwILIAEoAkhBgICAgHhHBEAgAUHIAGoQ8wILIAEoAjAiAwRAIAEoAjQiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQIgBUEAIAYgA0EnaksbDQEgBBCfAgsgASgCiAEiA0GAgICAeHJBgICAgHhHBEAgASgCjAEiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQIgBUEAIAYgA0EnaksbDQEgBBCfAgsCQEHUABBxIgMEQCADIAg2AhQgAyAVNwIMIANBADYCCCADQoGAgIAQNwIAIAMgAf0AAwD9CwIYIAMgBzYCUCADIAg2AkwgAyAHNgJIIANBKGogAUEQav0AAwD9CwIAIANBOGogAUEgav0AAwD9CwIAIANBCGoQDSEWEP8EIgcgFiYBIAJBBGsoAgAiA0F4cUH0AEH4ACADQQNxIggbSQ0DIAhBACADQZgBTxsNASACEJ8CIAAgBzYCBCAAQQA2AgAgAUHgBmokAA8LQdQAEOgJAAsLQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC9weAhN/An4jAEHgAGsiCCQAAkACQAJAAkACQAJAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAEoApwEIgYgASgClAQiDGsiB0EAIAYgB08bIAJPDQAgAUGcBGohESABQegDaiEHIAFBmARqIRUgAUHwA2ohDgJAAkACQAJ/AkACQANAAkACQAJAAkAgAS0A5ANFBEAgBykDAFANASAHQSRBLCABKAKIBEGBgICAeEYbaigCACIFIAYgBSAGSRsiCSABKAKgBEkgASgCmAQiCyABKAL4AyIFQQF2SXINBCABKAL0AyEKAkAgBSALa0EPSyAFIAtPcUUEQCAFIAlJDQQgBSAJayIFBEAgCiAJIApqIAX8CgAACyALIAlrIQsMAQsgCSALSw0EIAsgCWsiC0UNACAKIAkgCmogC/wKAAALIAEgCzYCmAQgASAGIAlrNgKcBCABIAwgCWs2ApQEIAEoAogEQYGAgIB4RgRAIAEgASgCjAQgCWs2AowECyABKAL4AyEFDAQLIAhBHToAGAwNC0Hw/sYAQT9BsP/GABDnCAALIAkgBSAFQbyJxQAQ1QcACyAJIAsgBUGsicUAENUHAAsgBSALQYBAayIGSQRAIAYgBWsiCiABKALwAyAFa0sEQCAOIAUgCkEBQQEQmAYgASgC+AMhBQsgASgC9AMiBiAFaiEJIApBAk8EfyAKQQFrIgoEQCAJQQAgCvwLAAsgBiAFIApqIgVqBSAJC0EAOgAAIAEgBUEBaiIFNgL4AyABKAKYBCELCwJAIAcpAwAiGEL+////D1YNAEF/IAsgGKdqIgYgBiALSRsgBU8NACAFIAZPBEAgASAGIgU2AvgDDAELIAYgBWsiCiABKALwAyAFa0sEQCAOIAUgCkEBQQEQmAYgASgC+AMhBQsgASgC9AMiBiAFaiEJIApBAk8EfyAKQQFrIgoEQCAJQQAgCvwLAAsgBiAFIApqIgVqBSAJC0EAOgAAIBUoAgAhCyABIAVBAWoiBTYC+AMLIAggFTYCRCAIIBE2AkAgCCAFNgI8IAggASgC9AM2AjgCfwJAAn4gASgCnAMiBSABKQOgAyIZIAWtIhggGCAZVhunIgZGBEBBASENQSQhBUIlDAELIAhByABqIAEgASgCmAMgBmogBSAGayAIQThqEOIBIAgpAlAhGCAIKAJMIQUgCCgCSEUEQCABIAEpA6ADIAWtfDcDoAMgGKchDQwCCyAYpyENIAVB/wFxQShGDQEgCCgCWCEPIBhCCIgLIRggCCANOgAwIAggGD4AMSAIIBhCMIg8ADcgCCAYQiCIPQA1IAVBEHYhFCAFQQh2DAELQSghBSANQf8BcUEGRgshDCALIBUoAgAiCksEQEHg/8YAQStBjIDHABDnCAALIAcgBykDACIZIAogC2utIhh9NwMAIBggGVEEQCARIAo2AgALAkAgBUH/AXEiBkEoRwRAIAZBJEcNByANQf8BcUEBaw4DAQMEBwsgDEEBcQRAIAEoArwEIgZFDQYgAUEBOgDkAyABIAZBAWs2ArwECyABKAKcBCIGIAEoApQEIgxrIgVBACAFIAZNGyACSQ0BDAgLCyAILQAxDAILIAgoAjQtAAgMAQsgCCgCNC0ACAtB/wFxQSVHDQEgCiABKAKUBGsgAkkNASAIKAI0IRcgCC0AMCAIQRhqIQsgAS0AxQQhDyMAQRBrIhAkAAJAAkACQCAHKAIsIhMgBygCECIVSQRAAkAgBygCDCIRIBNqLQAAIg5BBU8EQCALIA46AAEgC0EZOgAADAELIAcpAhQhGCAHQoCAgIAQNwIUIBBBCGogB0EcaiIGKAIAIgk2AgAgBkEANgIAIBAgGDcDACAQAn8gCSACQQFrIhJPBEAgECgCBCEWIBIMAQsgEiAJayIGIBAoAgAgCWtLBEAgECAJIAYQpgYgECgCCCEJCyAQKAIEIhYgCWohBSAGQQJPBH8gBkEBayIGBEAgBUEAIAb8CwALIBYgBiAJaiIJagUgBQtBADoAACAJQQFqCyIJNgIIIBIgFSATQQFqIgVrIgZLDQIgCSASRw0DIBIEQCAWIAUgEWogEvwKAAALQQEhCQJAAkACQCAHKAIgIgZBgICAgHhzQQIgBkEASCIGGyIFQQFrDgIAAQILIAcoAiQiBSATTQRAIAUgEWohCSATIAVrIQUMAgsgBSATIBNBjIrFABDVBwALIAcoAighBSAHKAIkIQkLIAdBIGohESAOIA8gCSAFIBYgEhBbIAZFBEAgB0EUaiIGIBEpAgA3AgAgBkEIaiARQQhqKAIANgIACyARIBApAwA3AgAgC0EoOgAAIAcgAiATajYCLCARQQhqIBBBCGooAgA2AgALIBBBEGokAAwDCyATIBVBnInFABCuBwALQQAgEiAGQeyJxQAQ1QcACyAJIBJB3InFABDbCQALQQNHDQIgFygCACEFIBdBBGooAgAiBygCACIGBEAgBSAGEQMACyAHKAIEIgYEQCAFIAYgBygCCBCIBwsgF0EMQQQQiAcMAgtBlP7GAEErQcD+xgAQ5wgACyAIIA82AiQgCCAIKQMwNwIcIAggBToAGCAIIBRBCHY6ABsgCCAMQf8BcSAUQQh0cjsAGQsgCC0AGEEoRw0CIAEoApQEIQsMAQsgASgC+AMiCSAMTQ0FIAEoAvQDIgYgDGoiBS0AACIKQQVPBEAgCCAKOgAZIAhBGToAGAwCCyABLQDFBCEUQQEhDQJAAkACQEECIAEoAogEIg9BgICAgHhzIA9BAE4bIg5BAWsOAgABAgsgASgCjAQiByAMTQRAIAYgB2ohDSAMIAdrIQ4MAgsgByAMIAxBjIrFABDVBwALIAEoApAEIQ4gASgCjAQhDQsgAkEBayIHIAkgDGsiBkkEQCAKIBQgDSAOIAVBAWogBxBbIA9BAE4EQCAIQdAAaiIFIAFBiARqIgZBCGooAgA2AgAgAUEANgKQBCAIIAYpAgA3A0ggASgC/AMiDwRAIAEoAoAEIgdBBGsoAgAiBkF4cSINQQRBCCAGQQNxIgYbIA9qSQ0JIAZBACANIA9BJ2pLGw0KIAcQnwILIAFB/ANqIgYgCCkDSDcCACAGQQhqIAUoAgA2AgALIAFBgYCAgHg2AogEIAEgAiAMaiILNgKUBCABIAxBAWo2AowEDAELQQEgAiAGQcyJxQAQ1QcACyALIAEoAvgDIgZLDQdBASEOQQIgASgCiAQiBkGAgICAeHMgBkEAThsiBUEBaw4CAQIDCyAAIAj9AAIY/QsCAAwNCyABKAKMBCIGIAtNBEAgASgC9AMgBmohDiALIAZrIQUMAgsgBiALIAtBjIrFABDVBwALIAEoApAEIQUgASgCjAQhDgsgCCACQQFrIg82AiwgCCAFNgIoIAUgD0cNBCABKAKoBCIFDQkCQAJAIAEoAghBAkcEQCABLQDGAiECIAEoAsAEIQYgCCABLQDHAiIKOgBIIAZBgIAEcUEQdiABKALUAUGBgICAeEdyIQcgBkGQgARxIQUgBiAKQRBGcSEMAkACQAJAAkACQAJAAkACQAJAIAJBAWsOBgAFAgMACAELAAsgBUEAIApBCEkbDQIgBUEARyAHcQ0EDAYLIAUNBAwQCyAFRSAKQQhPcg0EC0EEEHEiBQ0NQQQQ6AkACyAFQQBHIAdxRQ0CCwJAIAwNAAJAIApBCGsOCQEAAAAAAAAAAQALQQAgCEHIAGpBjJDFAEGQkMUAEOcHAAtBBBBxIgVFDQogBUH0AEH1AEH2ACAMGyAKQQhGGzYCAEGgkMUADA0LIAEoAuABQYGAgIB4RiICIApBEEZyDQMgAUEIaiECIAcNAiAIQRBqIQYjAEGACGsiByQAIAcgAhCvAiACLQC/AiECQYAIEHEhBQJAAkACQAJ/IAJBCEcEQCAFRQ0DQbySxQAMAQsgBUUNAUHUksUACyECIAUgB0GACPwKAAAgBiACNgIEIAYgBTYCACAHQYAIaiQADAILQYAIEOgJAAtBgAgQ6AkACyAIKAIQIQUgCCgCFAwMCyAMRQ0KQQEhBUHQkMUADAsLQZT9xgAQ0AkACyAIQQhqIQYjAEGACGsiByQAIAcgAhCvAgJAQYAIEHEiAgRAIAIgB0GACPwKAAAgBkHsksUANgIEIAYgAjYCACAHQYAIaiQADAELQYAIEOgJAAsgCCgCCCEFQeySxQAMCQsgAEGQBjsAASAAQQ5BDyACGzoAAAwKCyAMIAlBnInFABCuBwALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0EAIAsgBkH8icUAENUHAAtBACAIQShqIAhBLGpBACABQcD/xgAQ5AcAC0EEEOgJAAsgBUH3AEH4ACAHGzYCAEGgkMUADAELQQEhBUG4kMUACyENAkAgASgCqAQiCkUNACABKAKsBCICKAIAIgwEQCAKIAwRAwALIAIoAgQiB0UNACAKQQRrKAIAIgZBeHEiAkEEQQggBkEDcSIMGyAHakkNAyAMQQAgAiAHQSdqSxsNBCAKEJ8CCyABIA02AqwEIAEgBTYCqAQLIAEoAghBAkcEQCAFIA4gDyADIAQgAUEIaiABKAKsBCgCFBEJAAJAAkAgASgCqANBAUYEQAJAIAEoAqwDIgIgASgCsANPDQAgASgCtAMiDEUNACABKAK4AyENIAEtAMADIRRBASEGDAILQQcgAS0AwAMiBSAFQQdNGyEHQQIhAyAFQQJ0QdyHxQBqIQ4gASgCvAMhCiABKAK4AyENA0AgBSAHRg0DIAEgBUEBaiIFIhQ6AMADIA4oAAAiCUH/AXEiBkUNCCABIA0gCUEIdkH/AXFrIgJBACACIA1NGyIEIAZuIgIgBCACIAZsR2oiDDYCtAMgCUEQdkH/AXEiD0UNCUEAIQIgAUEANgKsAyABIAogCUEYdmsiBEEAIAQgCk0bIgYgD24iBCAGIAQgD2xHaiIENgKwA0EBIQYgDkEEaiEOIARFIAxFcg0ACwwBC0ECIQNBACEGIAEoAqwDIgIgASgCsANPDQELIAEgAkEBajYCrAMgBiEDCyABIBQ6ANQDIAEgDDYC0AMgASANNgLMAyABIAI2AsgDIAEgAzYCxAMgAEEoOgAADAELQZT9xgAQ0AkACyAIQeAAaiQADwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQYiIxQAQ1AkAC0H4h8UAENQJAAvaGAMlfwp7BX4gAC8BJCIEQQ9qIgpB8P8DcSEFIApB8P8HcSELIAAoAiAhCCAAKAIcIREgACgCFCEGIAAoAhAhEiAAKAIIIQcgACgCBCETAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAMEQCALQf//A3EiC0UNASAIIAVBAXYiCXAhACAGIAlwIQMgBEUNAiAHIAVuIgcgAiAEQQJ0IhZuIgIgAiAHSxsiJUUNEiAIIABrIRcgBiADayEYIAQgC0sNESAEQQFxISYgCa0hNSAWQQhrQQN2IgAgBEEBdiICIAAgAkkbIgAgBCACa0H//wNxIg8gACAPSRsiIEF/cyAgQQFqIgBBA3EiAkEEIAIbIgJqISEgBEH+/wNxIhkgACACayIcQQF0IidrISIgFkH4/w9xIhQgHEEDdCIoayEjIAEhCyATIRBBACEHQQAhCANAAn4gCEUgM0KAgICAEFRyRQRAIDOnIQQgM0KAgICAcINCgICAgBB9DAELIAkgGEsNFCAYIAlrIRggNSEzIBIiCCAJIgRqIRJCgICAgBALITYCfiAHRSA0QoCAgIAQVHJFBEAgNKchACA0QoCAgIBwg0KAgICAEH0MAQsgCSAXSw0UIBcgCWshFyA1ITQgESIHIAkiAGohEUKAgICAEAshNyAEIA9JDQQgACAPSQ0FIBMgBSAabGohGyABIBYgGmxqIR0gM0L/////D4MgNEL/////D4MhNCAIIA9qISQgByEKIAghDAJAAkAgFEUNACAUIQYgHSEAIBkhBCAbIQ0gIEEETwRAIA0gJ2ohDSAAIChqIQAgCCAcaiEMIAcgHGohCiAHIQMgCCEOICEhAiALIQQgECEGA0AgBEEYaiAD/VwAAP2JAf2pASIu/QwlZgAAJWYAACVmAAAlZgAA/bUBQQj9rQH9DGbI//9myP//Zsj//2bI///9rgEiLyAG/V0AACIsICr9DQACBAYAAAAAAAAAAAAAAAD9iQH9qQH9DIVKAACFSgAAhUoAAIVKAAAiMP21AUEI/a0BIi39rgFBBv2sAf0MAAAAAAAAAAAAAAAAAAAAACIq/bgB/Qz/AAAA/wAAAP8AAAD/AAAAIiv9tgEiKf0bAzoAACAEQRBqICn9GwI6AAAgBEEIaiAp/RsBOgAAIAQgKf0bADoAACAEQRpqIC0gDv1cAAD9iQH9qQEiMf0MGoEAABqBAAAagQAAGoEAAP21AUEI/a0B/Qzruv//67r//+u6///ruv///a4BIjL9rgFBBv2sASAq/bgBICv9tgEiKf0bAzoAACAEQRJqICn9GwI6AAAgBEEKaiAp/RsBOgAAIARBAmogKf0bADoAACAEQRxqICwgKv0NAQMFBwAAAAAAAAAAAAAAAP2JAf2pASAw/bUBQQj9rQEiLCAv/a4BQQb9rAEgKv24ASAr/bYBIin9GwM6AAAgBEEUaiAp/RsCOgAAIARBDGogKf0bAToAACAEQQRqICn9GwA6AAAgBEEZaiAtIC79DAg0AAAINAAACDQAAAg0AAD9tQFBCP2tASAx/QwTGQAAExkAABMZAAATGQAA/bUBQQj9rQH9rgEiLf2xAf0MBCIAAAQiAAAEIgAABCIAACIu/a4BQQb9rAEgKv24ASAr/bYBIin9GwM6AAAgBEERaiAp/RsCOgAAIARBCWogKf0bAToAACAEQQFqICn9GwA6AAAgBEEdaiAsIC39sQEgLv2uAUEG/awBICr9uAEgK/22ASIp/RsDOgAAIARBFWogKf0bAjoAACAEQQ1qICn9GwE6AAAgBEEFaiAp/RsAOgAAIARBHmogLCAy/a4BQQb9rAEgKv24ASAr/bYBIir9GwM6AAAgBEEWaiAq/RsCOgAAIARBDmogKv0bAToAACAEQQZqICr9GwA6AAAgA0EEaiEDIA5BBGohDiAEQSBqIQQgBkEIaiEGIAJBBGoiAg0ACyAjIQYgIiEECwNAIARFDQEgDCAkRg0CIABBAmpB/wEgDS0AAEGFlQFsQQh2IgIgDC0AACIOQZqCAmxBCHZBlYoBayIDakEGdSIeQQAgHkEAShsiHiAeQf8BThs6AAAgAEH/ASAKLQAAIh5BpcwBbEEIdkGa7wBrIh8gAmpBBnUiFUEAIBVBAEobIhUgFUH/AU4bOgAAIABBBmpB/wEgAyANQQFqLQAAQYWVAWxBCHYiA2pBBnUiFUEAIBVBAEobIhUgFUH/AU4bOgAAIABBBGpB/wEgAyAfakEGdSIfQQAgH0EAShsiHyAfQf8BThs6AAAgAEEBakH/ASACIB5BiOgAbEEIdiAOQZMybEEIdmoiAmtBhMQAakEGdSIOQQAgDkEAShsiDiAOQf8BThs6AAAgAEEFakH/ASADIAJrQYTEAGpBBnUiAkEAIAJBAEobIgIgAkH/AU4bOgAAIABBCGohACANQQJqIQ0gCkEBaiEKIAxBAWohDCAEQQJrIQQgBkEIayIGDQALCyAmRSAKIAcgD2pGciAMICRGcg0AIBQgHWoiAEH/ASAZIBtqLQAAQYWVAWxBCHYiAiAMLQAAIgNBmoICbEEIdmpBlYoBa0EGdSIEQQAgBEEAShsiBCAEQf8BThs6AAIgAEH/ASACIAotAAAiBEGlzAFsQQh2akGa7wBrQQZ1IgZBACAGQQBKGyIGIAZB/wFOGzoAACAAQf8BIAIgA0GTMmxBCHYgBEGI6ABsQQh2amtBhMQAakEGdSIAQQAgAEEAShsiACAAQf8BThs6AAELIDaEITMgNCA3hCE0IAsgFmohCyAFIBBqIRAgGkEBaiIaICVJDQALDBILIAQgB0sNBCAEIARBAXZrIgMgBksNBSADIAhLDQYgAiAEQQJ0IglJDQcgAC8BJiEUIAEgCSATIAQgEiADIBEgAxBvIARFDQggAiAJayICIARBA3QiDHAhDiAFIBRsIgAgBUkgACAHS3INCSALQf//A3EiC0UNCiAFQQF2IQcgASAJaiEZIAAgBWsiACAAIAVBAXQiEHAiHWshACAFIBNqIRsCQCACIA5rIiEgDEkNACAEIAtLBEAgACAQSSAFIAZLciAFIAhLcg0BQQAgBCAFQdTmxAAQ1QcACyADIAdLBEAgACAQSSAFIAZLciAFIAhLcg0BQQAgAyAHQcTmxAAQ1QcACyAFIAZLIAUgCEtyIAAgEElyIQIgBSAHayILIANJBEAgAg0BQQAgAyALQbTmxAAQ1QcACyACDQAgGSAJIBsgBCASIAMgByASaiIiIAMgESADIAcgEWoiIyADEGYgCSAZaiAJIAUgG2ogBCAiIAMgEiADICMgAyARIAMQZiAMICEgDGsiC0sNACAHQQFrIQ8gBiAHayEWIAUgEmohFyAEQQR0IRggBEEMbCEaIAUgEWohHCAKQfD/A3FBBHYiAkEGdCEgIAJBMGwhJEEAIQogACECA0AgBiAKakEBayAPSSAQIAIgEGsiAktyIAogFmogBUkgCCAKakEBayAPSXJyDQEgCCAKIAdrIgpqIAVJDQEgASAaaiAJIBMgJGogBCANICJqIiUgAyANIBdqIiYgAyANICNqIicgAyANIBxqIiggAxBmIAEgGGogCSATICBqIAQgJiADICUgAyAoIAMgJyADEGYgECATaiETIAEgDGohASAHIA1qIQ0gDCALIAxrIgtNDQALCyAORQ0RIAYgFEEBcSAUQQF2akEBayAHbCIBSQ0LIAEgCEsNDCAEIB1LDQ0gAyAGIAFrIgJLDQ4gAyAIIAFrIgJLDQ8gGSAhaiAOIAAgG2ogBCABIBJqIAMgASARaiADEG8MEQtB6IXHAEE3QbTnxAAQ2wcAC0HohccAQTdBxOfEABDbBwALQQAgDyAEQeTnxAAQ1QcAC0EAIA8gAEHU58QAENUHAAtBACAEIAdBpOfEABDVBwALQQAgAyAGQZTnxAAQ1QcAC0EAIAMgCEGE58QAENUHAAtBACAJIAJB9ObEABDVBwALQeiFxwBBN0HE5cQAENsHAAsgBSAAIAdB5ObEABDVBwALQeiFxwBBN0HU5cQAENsHAAsgASAGIAZBpObEABDVBwALIAEgCCAIQZTmxAAQ1QcAC0EAIAQgHUGE5sQAENUHAAtBACADIAJB9OXEABDVBwALQQAgAyACQeTlxAAQ1QcACyAJIBhLIAkgF0tyDQBBACAEIAVB9OfEABDVBwALC9kWAh1/BX0jAEGQAWsiASQAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAAKALEASICQR9xRQRAIAFBADoASCABQQA2AkQgASACQQV2Ihg2AkAgACABQUBrEJ0EIAFBADYCDCABQoCAgIDAADcCBCABQQA2AhggAUKAgICAwAA3AhAgAUEANgIkIAFCgICAgMAANwIcIAFBADYCMCABQoCAgIDAADcCKCABQQA2AjwgAUKAgICAwAA3AjQgAkUEQEEEIQMgABCjASEPQQQhBUEEIQZBBCESDCQLQQAhAkEEIRIDQCALQYCABCAYIBRrIgcgB0GAgARPGyIHQQNsIg5JBEAgDiALayICIAEoAgQgC2tLBEAgAUEEaiALIAJBBEEEEJgGIAEoAgghEiABKAIMIQsLIBIgC0ECdGohBSACQQJPBH8gAkECdEEEayIGBEAgBUEAIAb8CwALIAIgC2oiAkEBayELIBIgAkECdGpBBGsFIAULQQA2AgAgASALQQFqIgs2AgwgASgCGCECCyACIAdJBEAgByACayIGIAEoAhAgAmtLBEAgAUEQaiACIAZBBEEEEJgGIAEoAhghAgsgASgCFCIDIAJBAnRqIQUgBkECTwR/IAZBAnRBBGsiBARAIAVBACAE/AsACyACIAZqIgVBAWshAiADIAVBAnRqQQRrBSAFC0EANgIAIAEgAkEBaiICNgIYCyABKAIkIgwgDkkEQCAOIAxrIgYgASgCHCAMa0sEQCABQRxqIAwgBkEEQQQQmAYgASgCJCEMCyABKAIgIgMgDEECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAYgDGoiBUEBayEMIAMgBUECdGpBBGsFIAULQQA2AgAgASAMQQFqIgw2AiQLIAEoAjAiDSAOSQRAIA4gDWsiBiABKAIoIA1rSwRAIAFBKGogDSAGQQRBBBCYBiABKAIwIQ0LIAEoAiwiAyANQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiANaiIFQQFrIQ0gAyAFQQJ0akEEawUgBQtBADYCACABIA1BAWoiDTYCMAsgB0ECdCIXIAEoAjwiCEsEQCAXIAhrIgYgASgCNCAIa0sEQCABQTRqIAggBkEEQQQQmAYgASgCPCEICyABKAI4IgMgCEECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAYgCGoiBUEBayEIIAMgBUECdGpBBGsFIAULQQA2AgAgASAIQQFqIgg2AjwLIAEoAgghEiAUIBhHBEAgFEEFdCEDIAAoAsQBIQQgACgCwAEhGUEAIRYgASgCOCEVIAEoAhQhGiABKAIgIRsgASgCLCEcIAIhBSAHIQZBACERQQAhDwNAIANBA2ogBE8NGiADQQdqIARPDRsgA0ELaiAETw0cIANBD2ogBE8NHSADQRNqIARPDR4gA0EXaiAETw0fIAsgEU0NBCADIBlqIglBBGoqAAAhHiAJQQhqKgAAIR8gCUEMaioAACEgIAlBEGoqAAAhISAJQRRqKgAAISIgEiAWaiIQIAkqAAA4AgAgEUEBaiIKIAtPDQUgEEEEaiAeOAIAIBFBAmoiEyALTw0GIBBBCGogHzgCACANIBFNDQcgFiAcaiIQICA4AgAgCiANTw0IIBBBBGogITgCACANIBNNDQkgEEEIaiAiOAIAIANBGGoiECAETw0KIAwgEU0NCyAWIBtqIhAgCUEYai0AALNDAAB/Q5U4AgAgA0EZaiIdIARPDQwgCiAMTw0NIBBBBGogCUEZai0AALNDAAB/Q5U4AgAgA0EaaiIKIARPDQ4gDCATTQ0PIBBBCGogCUEaai0AALNDAAB/Q5U4AgAgA0EbaiIKIARPDRAgBUUNESAPIBpqIAlBG2otAACzQwAAf0OVOAIAIANBHGoiCiAETw0SIANBHWoiCiAETw0TIANBHmoiCiAETw0UIANBH2oiCiAETw0VIAggD00NFiAJQRxqLQAAIQogCUEeai0AACETIAlBH2otAAAhECAVIAlBHWotAACzQwAAAMOSQwAAADyUOAIAIA9BAWoiCSAITw0XIBVBBGogE7NDAAAAw5JDAAAAPJQ4AgAgD0ECaiIJIAhPDRggFUEIaiAQs0MAAADDkkMAAAA8lDgCACAPQQNqIgkgCE8NGSAVQQxqIAqzQwAAAMOSQwAAADyUOAIAIAVBAWshBSAVQRBqIRUgA0EgaiEDIBZBDGohFiARQQNqIREgD0EEaiEPIAZBAWsiBg0ACwsgCyAOSQ0eIAIgB0kNHyAMIA5JDSAgDSAOSQ0hIAggF0kNIiABKAIUIQYgASgCICEFIAEoAiwhAyABQgQ3AogBIAFCAjcCgAEgAUIENwJ4IAFCBDcCcCABQgQ3AmggASAXNgJkIAEgASgCOCIENgJgIAEgDjYCXCABIAM2AlggASAONgJUIAEgBTYCUCABIAc2AkwgASAGNgJIIAEgDjYCRCABIBI2AkAgACAUIAcgAUFAaxCZASAYIAcgFGoiFEsNAAsMIgtBuP/AAEEYEPkHIQ8MIwsgESALQdj8wAAQrgcACyAKIAtB6PzAABCuBwALIBMgC0H4/MAAEK4HAAsgESANQYj9wAAQrgcACyAKIA1BmP3AABCuBwALIBMgDUGo/cAAEK4HAAsgECAEQbj9wAAQrgcACyARIAxByP3AABCuBwALIB0gBEHY/cAAEK4HAAsgCiAMQej9wAAQrgcACyAKIARB+P3AABCuBwALIBMgDEGI/sAAEK4HAAsgCiAEQZj+wAAQrgcACyACIAJBqP7AABCuBwALIAogBEG4/sAAEK4HAAsgCiAEQcj+wAAQrgcACyAKIARB2P7AABCuBwALIAogBEHo/sAAEK4HAAsgDyAIQfj+wAAQrgcACyAJIAhBiP/AABCuBwALIAkgCEGY/8AAEK4HAAsgCSAIQaj/wAAQrgcACyADIANBBHIgBEGc9MEAENUHAAsgA0EEaiADQQhyIARBnPTBABDVBwALIANBCGogA0EMciAEQZz0wQAQ1QcACyADQQxqIANBEHIgBEGc9MEAENUHAAsgA0EQaiADQRRyIARBnPTBABDVBwALIANBFGogA0EYciAEQZz0wQAQ1QcAC0EAIA4gC0HI/MAAENUHAAtBACAHIAJBuPzAABDVBwALQQAgDiAMQaj8wAAQ1QcAC0EAIA4gDUGY/MAAENUHAAtBACAXIAhBiPzAABDVBwALIAEoAjQhAiAAEKMBIQ8gAkUNACAEQQRrKAIAIgBBeHEiByACQQJ0IgJBBEEIIABBA3EiABtqSQ0CIABBACAHIAJBJ2pLGw0DIAQQnwILIAEoAigiAARAIANBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQIgAkEAIAcgAEEnaksbDQMgAxCfAgsgASgCHCIABEAgBUEEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAiACQQAgByAAQSdqSxsNAyAFEJ8CCyABKAIQIgAEQCAGQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0CIAJBACAHIABBJ2pLGw0DIAYQnwILIAEoAgQiAEUNACASQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0BIAJBACAHIABBJ2pLGw0CIBIQnwILIAFBkAFqJAAgDw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC9gWAh1/BX0jAEGQAWsiASQAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAAKALMASICQR9xRQRAIAFBADoASCABQQA2AkQgASACQQV2Ihg2AkAgACABQUBrENQDIAFBADYCDCABQoCAgIDAADcCBCABQQA2AhggAUKAgICAwAA3AhAgAUEANgIkIAFCgICAgMAANwIcIAFBADYCMCABQoCAgIDAADcCKCABQQA2AjwgAUKAgICAwAA3AjQgAkUEQEEEIQMgABDYASEPQQQhBUEEIQZBBCESDCQLQQAhAkEEIRIDQCALQYCABCAYIBRrIgcgB0GAgARPGyIHQQNsIg5JBEAgDiALayICIAEoAgQgC2tLBEAgAUEEaiALIAJBBEEEEJgGIAEoAgghEiABKAIMIQsLIBIgC0ECdGohBSACQQJPBH8gAkECdEEEayIGBEAgBUEAIAb8CwALIAIgC2oiAkEBayELIBIgAkECdGpBBGsFIAULQQA2AgAgASALQQFqIgs2AgwgASgCGCECCyACIAdJBEAgByACayIGIAEoAhAgAmtLBEAgAUEQaiACIAZBBEEEEJgGIAEoAhghAgsgASgCFCIDIAJBAnRqIQUgBkECTwR/IAZBAnRBBGsiBARAIAVBACAE/AsACyACIAZqIgVBAWshAiADIAVBAnRqQQRrBSAFC0EANgIAIAEgAkEBaiICNgIYCyABKAIkIgwgDkkEQCAOIAxrIgYgASgCHCAMa0sEQCABQRxqIAwgBkEEQQQQmAYgASgCJCEMCyABKAIgIgMgDEECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAYgDGoiBUEBayEMIAMgBUECdGpBBGsFIAULQQA2AgAgASAMQQFqIgw2AiQLIAEoAjAiDSAOSQRAIA4gDWsiBiABKAIoIA1rSwRAIAFBKGogDSAGQQRBBBCYBiABKAIwIQ0LIAEoAiwiAyANQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiANaiIFQQFrIQ0gAyAFQQJ0akEEawUgBQtBADYCACABIA1BAWoiDTYCMAsgB0ECdCIXIAEoAjwiCEsEQCAXIAhrIgYgASgCNCAIa0sEQCABQTRqIAggBkEEQQQQmAYgASgCPCEICyABKAI4IgMgCEECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAYgCGoiBUEBayEIIAMgBUECdGpBBGsFIAULQQA2AgAgASAIQQFqIgg2AjwLIAEoAgghEiAUIBhHBEAgFEEFdCEDIAAoAswBIQQgACgCyAEhGUEAIRYgASgCOCEVIAEoAhQhGiABKAIgIRsgASgCLCEcIAIhBSAHIQZBACERQQAhDwNAIANBA2ogBE8NGiADQQdqIARPDRsgA0ELaiAETw0cIANBD2ogBE8NHSADQRNqIARPDR4gA0EXaiAETw0fIAsgEU0NBCADIBlqIglBBGoqAAAhHiAJQQhqKgAAIR8gCUEMaioAACEgIAlBEGoqAAAhISAJQRRqKgAAISIgEiAWaiIQIAkqAAA4AgAgEUEBaiIKIAtPDQUgEEEEaiAeOAIAIBFBAmoiEyALTw0GIBBBCGogHzgCACANIBFNDQcgFiAcaiIQICA4AgAgCiANTw0IIBBBBGogITgCACANIBNNDQkgEEEIaiAiOAIAIANBGGoiECAETw0KIAwgEU0NCyAWIBtqIhAgCUEYai0AALNDAAB/Q5U4AgAgA0EZaiIdIARPDQwgCiAMTw0NIBBBBGogCUEZai0AALNDAAB/Q5U4AgAgA0EaaiIKIARPDQ4gDCATTQ0PIBBBCGogCUEaai0AALNDAAB/Q5U4AgAgA0EbaiIKIARPDRAgBUUNESAPIBpqIAlBG2otAACzQwAAf0OVOAIAIANBHGoiCiAETw0SIANBHWoiCiAETw0TIANBHmoiCiAETw0UIANBH2oiCiAETw0VIAggD00NFiAJQRxqLQAAIQogCUEeai0AACETIAlBH2otAAAhECAVIAlBHWotAACzQwAAAMOSQwAAADyUOAIAIA9BAWoiCSAITw0XIBVBBGogE7NDAAAAw5JDAAAAPJQ4AgAgD0ECaiIJIAhPDRggFUEIaiAQs0MAAADDkkMAAAA8lDgCACAPQQNqIgkgCE8NGSAVQQxqIAqzQwAAAMOSQwAAADyUOAIAIAVBAWshBSAVQRBqIRUgA0EgaiEDIBZBDGohFiARQQNqIREgD0EEaiEPIAZBAWsiBg0ACwsgCyAOSQ0eIAIgB0kNHyAMIA5JDSAgDSAOSQ0hIAggF0kNIiABKAIUIQYgASgCICEFIAEoAiwhAyABQgQ3AogBIAFCAjcCgAEgAUIENwJ4IAFCBDcCcCABQgQ3AmggASAXNgJkIAEgASgCOCIENgJgIAEgDjYCXCABIAM2AlggASAONgJUIAEgBTYCUCABIAc2AkwgASAGNgJIIAEgDjYCRCABIBI2AkAgACAUIAcgAUFAaxB+IBggByAUaiIUSw0ACwwiC0G4/8AAQRgQ+QchDwwjCyARIAtB2PzAABCuBwALIAogC0Ho/MAAEK4HAAsgEyALQfj8wAAQrgcACyARIA1BiP3AABCuBwALIAogDUGY/cAAEK4HAAsgEyANQaj9wAAQrgcACyAQIARBuP3AABCuBwALIBEgDEHI/cAAEK4HAAsgHSAEQdj9wAAQrgcACyAKIAxB6P3AABCuBwALIAogBEH4/cAAEK4HAAsgEyAMQYj+wAAQrgcACyAKIARBmP7AABCuBwALIAIgAkGo/sAAEK4HAAsgCiAEQbj+wAAQrgcACyAKIARByP7AABCuBwALIAogBEHY/sAAEK4HAAsgCiAEQej+wAAQrgcACyAPIAhB+P7AABCuBwALIAkgCEGI/8AAEK4HAAsgCSAIQZj/wAAQrgcACyAJIAhBqP/AABCuBwALIAMgA0EEciAEQZz0wQAQ1QcACyADQQRqIANBCHIgBEGc9MEAENUHAAsgA0EIaiADQQxyIARBnPTBABDVBwALIANBDGogA0EQciAEQZz0wQAQ1QcACyADQRBqIANBFHIgBEGc9MEAENUHAAsgA0EUaiADQRhyIARBnPTBABDVBwALQQAgDiALQcj8wAAQ1QcAC0EAIAcgAkG4/MAAENUHAAtBACAOIAxBqPzAABDVBwALQQAgDiANQZj8wAAQ1QcAC0EAIBcgCEGI/MAAENUHAAsgASgCNCECIAAQ2AEhDyACRQ0AIARBBGsoAgAiAEF4cSIHIAJBAnQiAkEEQQggAEEDcSIAG2pJDQIgAEEAIAcgAkEnaksbDQMgBBCfAgsgASgCKCIABEAgA0EEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAiACQQAgByAAQSdqSxsNAyADEJ8CCyABKAIcIgAEQCAFQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0CIAJBACAHIABBJ2pLGw0DIAUQnwILIAEoAhAiAARAIAZBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQIgAkEAIAcgAEEnaksbDQMgBhCfAgsgASgCBCIARQ0AIBJBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQEgAkEAIAcgAEEnaksbDQIgEhCfAgsgAUGQAWokACAPDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL0BYCHX8FfSMAQZABayIBJAACQAJAAkAgACgCSCICQR9xBEBBuP/AAEEYEPkHIQMMAQsgAUEAOgBIIAFBADYCRCABIAJBBXYiGDYCQCAAIAFBQGsQggIgAUEANgIMIAFCgICAgMAANwIEIAFBADYCGCABQoCAgIDAADcCECABQQA2AiQgAUKAgICAwAA3AhwgAUEANgIwIAFCgICAgMAANwIoIAFBADYCPCABQoCAgIDAADcCNAJAAkAgAkUEQEEEIQNBBCEFQQQhBkEEIREMAQtBACECQQQhEQJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQANAIAtBgIAEIBggFGsiByAHQYCABE8bIgdBA2wiDkkEQCAOIAtrIgIgASgCBCALa0sEQCABQQRqIAsgAkEEQQQQmAYgASgCCCERIAEoAgwhCwsgESALQQJ0aiEFIAJBAk8EfyACQQJ0QQRrIgYEQCAFQQAgBvwLAAsgAiALaiICQQFrIQsgESACQQJ0akEEawUgBQtBADYCACABIAtBAWoiCzYCDCABKAIYIQILIAIgB0kEQCAHIAJrIgYgASgCECACa0sEQCABQRBqIAIgBkEEQQQQmAYgASgCGCECCyABKAIUIgMgAkECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAIgBmoiBUEBayECIAMgBUECdGpBBGsFIAULQQA2AgAgASACQQFqIgI2AhgLIAEoAiQiDCAOSQRAIA4gDGsiBiABKAIcIAxrSwRAIAFBHGogDCAGQQRBBBCYBiABKAIkIQwLIAEoAiAiAyAMQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiAMaiIFQQFrIQwgAyAFQQJ0akEEawUgBQtBADYCACABIAxBAWoiDDYCJAsgASgCMCINIA5JBEAgDiANayIGIAEoAiggDWtLBEAgAUEoaiANIAZBBEEEEJgGIAEoAjAhDQsgASgCLCIDIA1BAnRqIQUgBkECTwR/IAZBAnRBBGsiBARAIAVBACAE/AsACyAGIA1qIgVBAWshDSADIAVBAnRqQQRrBSAFC0EANgIAIAEgDUEBaiINNgIwCyAHQQJ0IhcgASgCPCIISwRAIBcgCGsiBiABKAI0IAhrSwRAIAFBNGogCCAGQQRBBBCYBiABKAI8IQgLIAEoAjgiAyAIQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiAIaiIFQQFrIQggAyAFQQJ0akEEawUgBQtBADYCACABIAhBAWoiCDYCPAsgASgCCCERAkAgFCAYRwRAIBRBBXQhAyAAKAJIIQQgACgCRCEZQQAhFiABKAI4IRUgASgCFCEaIAEoAiAhGyABKAIsIRwgAiEFIAchBkEAIRBBACESA0AgA0EDaiAETw0ZIANBB2ogBE8NGiADQQtqIARPDRsgA0EPaiAETw0cIANBE2ogBE8NHSADQRdqIARPDR4gCyAQTQ0CIAMgGWoiCUEEaioAACEeIAlBCGoqAAAhHyAJQQxqKgAAISAgCUEQaioAACEhIAlBFGoqAAAhIiARIBZqIg8gCSoAADgCACAQQQFqIgogC08NBCAPQQRqIB44AgAgEEECaiITIAtPDQUgD0EIaiAfOAIAIA0gEE0NBiAWIBxqIg8gIDgCACAKIA1PDQcgD0EEaiAhOAIAIA0gE00NCCAPQQhqICI4AgAgA0EYaiIPIARPDQkgDCAQTQ0KIBYgG2oiDyAJQRhqLQAAs0MAAH9DlTgCACADQRlqIh0gBE8NCyAKIAxPDQwgD0EEaiAJQRlqLQAAs0MAAH9DlTgCACADQRpqIgogBE8NDSAMIBNNDQ4gD0EIaiAJQRpqLQAAs0MAAH9DlTgCACADQRtqIgogBE8NDyAFRQ0QIBIgGmogCUEbai0AALNDAAB/Q5U4AgAgA0EcaiIKIARPDREgA0EdaiIKIARPDRIgA0EeaiIKIARPDRMgA0EfaiIKIARPDRQgCCASTQ0VIAlBHGotAAAhCiAJQR5qLQAAIRMgCUEfai0AACEPIBUgCUEdai0AALNDAAAAw5JDAAAAPJQ4AgAgEkEBaiIJIAhPDRYgFUEEaiATs0MAAADDkkMAAAA8lDgCACASQQJqIgkgCE8NFyAVQQhqIA+zQwAAAMOSQwAAADyUOAIAIBJBA2oiCSAITw0YIBVBDGogCrNDAAAAw5JDAAAAPJQ4AgAgBUEBayEFIBVBEGohFSADQSBqIQMgFkEMaiEWIBBBA2ohECASQQRqIRIgBkEBayIGDQALCyALIA5JDR0gAiAHSQ0eIAwgDkkNHyANIA5JDSAgCCAXSQ0hIAEoAhQhBiABKAIgIQUgASgCLCEDIAFCBDcCiAEgAUICNwKAASABQgQ3AnggAUIENwJwIAFCBDcCaCABIBc2AmQgASABKAI4IgQ2AmAgASAONgJcIAEgAzYCWCABIA42AlQgASAFNgJQIAEgBzYCTCABIAY2AkggASAONgJEIAEgETYCQCAAIBQgByABQUBrEO8BIAcgFGoiFCAYTw0iDAELCyAQIAtB2PzAABCuBwALIAogC0Ho/MAAEK4HAAsgEyALQfj8wAAQrgcACyAQIA1BiP3AABCuBwALIAogDUGY/cAAEK4HAAsgEyANQaj9wAAQrgcACyAPIARBuP3AABCuBwALIBAgDEHI/cAAEK4HAAsgHSAEQdj9wAAQrgcACyAKIAxB6P3AABCuBwALIAogBEH4/cAAEK4HAAsgEyAMQYj+wAAQrgcACyAKIARBmP7AABCuBwALIAIgAkGo/sAAEK4HAAsgCiAEQbj+wAAQrgcACyAKIARByP7AABCuBwALIAogBEHY/sAAEK4HAAsgCiAEQej+wAAQrgcACyASIAhB+P7AABCuBwALIAkgCEGI/8AAEK4HAAsgCSAIQZj/wAAQrgcACyAJIAhBqP/AABCuBwALIAMgA0EEciAEQZz0wQAQ1QcACyADQQRqIANBCHIgBEGc9MEAENUHAAsgA0EIaiADQQxyIARBnPTBABDVBwALIANBDGogA0EQciAEQZz0wQAQ1QcACyADQRBqIANBFHIgBEGc9MEAENUHAAsgA0EUaiADQRhyIARBnPTBABDVBwALQQAgDiALQcj8wAAQ1QcAC0EAIAcgAkG4/MAAENUHAAtBACAOIAxBqPzAABDVBwALQQAgDiANQZj8wAAQ1QcAC0EAIBcgCEGI/MAAENUHAAsgASgCNCIARQ0AIARBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQMgAkEAIAcgAEEnaksbDQQgBBCfAgsgASgCKCIABEAgA0EEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAyACQQAgByAAQSdqSxsNBCADEJ8CCyABKAIcIgAEQCAFQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0DIAJBACAHIABBJ2pLGw0EIAUQnwILIAEoAhAiAARAIAZBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQMgAkEAIAcgAEEnaksbDQQgBhCfAgsgASgCBCIABEAgEUEEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAyACQQAgByAAQSdqSxsNASAREJ8CC0EAIQMMAQsMAgsgAUGQAWokACADDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL0BYCHX8FfSMAQZABayIBJAACQAJAAkAgACgCaCICQR9xBEBBuP/AAEEYEPkHIQMMAQsgAUEAOgBIIAFBADYCRCABIAJBBXYiGDYCQCAAIAFBQGsQ5wEgAUEANgIMIAFCgICAgMAANwIEIAFBADYCGCABQoCAgIDAADcCECABQQA2AiQgAUKAgICAwAA3AhwgAUEANgIwIAFCgICAgMAANwIoIAFBADYCPCABQoCAgIDAADcCNAJAAkAgAkUEQEEEIQNBBCEFQQQhBkEEIREMAQtBACECQQQhEQJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQANAIAtBgIAEIBggFGsiByAHQYCABE8bIgdBA2wiDkkEQCAOIAtrIgIgASgCBCALa0sEQCABQQRqIAsgAkEEQQQQmAYgASgCCCERIAEoAgwhCwsgESALQQJ0aiEFIAJBAk8EfyACQQJ0QQRrIgYEQCAFQQAgBvwLAAsgAiALaiICQQFrIQsgESACQQJ0akEEawUgBQtBADYCACABIAtBAWoiCzYCDCABKAIYIQILIAIgB0kEQCAHIAJrIgYgASgCECACa0sEQCABQRBqIAIgBkEEQQQQmAYgASgCGCECCyABKAIUIgMgAkECdGohBSAGQQJPBH8gBkECdEEEayIEBEAgBUEAIAT8CwALIAIgBmoiBUEBayECIAMgBUECdGpBBGsFIAULQQA2AgAgASACQQFqIgI2AhgLIAEoAiQiDCAOSQRAIA4gDGsiBiABKAIcIAxrSwRAIAFBHGogDCAGQQRBBBCYBiABKAIkIQwLIAEoAiAiAyAMQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiAMaiIFQQFrIQwgAyAFQQJ0akEEawUgBQtBADYCACABIAxBAWoiDDYCJAsgASgCMCINIA5JBEAgDiANayIGIAEoAiggDWtLBEAgAUEoaiANIAZBBEEEEJgGIAEoAjAhDQsgASgCLCIDIA1BAnRqIQUgBkECTwR/IAZBAnRBBGsiBARAIAVBACAE/AsACyAGIA1qIgVBAWshDSADIAVBAnRqQQRrBSAFC0EANgIAIAEgDUEBaiINNgIwCyAHQQJ0IhcgASgCPCIISwRAIBcgCGsiBiABKAI0IAhrSwRAIAFBNGogCCAGQQRBBBCYBiABKAI8IQgLIAEoAjgiAyAIQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgQEQCAFQQAgBPwLAAsgBiAIaiIFQQFrIQggAyAFQQJ0akEEawUgBQtBADYCACABIAhBAWoiCDYCPAsgASgCCCERAkAgFCAYRwRAIBRBBXQhAyAAKAJoIQQgACgCZCEZQQAhFiABKAI4IRUgASgCFCEaIAEoAiAhGyABKAIsIRwgAiEFIAchBkEAIRBBACESA0AgA0EDaiAETw0ZIANBB2ogBE8NGiADQQtqIARPDRsgA0EPaiAETw0cIANBE2ogBE8NHSADQRdqIARPDR4gCyAQTQ0CIAMgGWoiCUEEaioAACEeIAlBCGoqAAAhHyAJQQxqKgAAISAgCUEQaioAACEhIAlBFGoqAAAhIiARIBZqIg8gCSoAADgCACAQQQFqIgogC08NBCAPQQRqIB44AgAgEEECaiITIAtPDQUgD0EIaiAfOAIAIA0gEE0NBiAWIBxqIg8gIDgCACAKIA1PDQcgD0EEaiAhOAIAIA0gE00NCCAPQQhqICI4AgAgA0EYaiIPIARPDQkgDCAQTQ0KIBYgG2oiDyAJQRhqLQAAs0MAAH9DlTgCACADQRlqIh0gBE8NCyAKIAxPDQwgD0EEaiAJQRlqLQAAs0MAAH9DlTgCACADQRpqIgogBE8NDSAMIBNNDQ4gD0EIaiAJQRpqLQAAs0MAAH9DlTgCACADQRtqIgogBE8NDyAFRQ0QIBIgGmogCUEbai0AALNDAAB/Q5U4AgAgA0EcaiIKIARPDREgA0EdaiIKIARPDRIgA0EeaiIKIARPDRMgA0EfaiIKIARPDRQgCCASTQ0VIAlBHGotAAAhCiAJQR5qLQAAIRMgCUEfai0AACEPIBUgCUEdai0AALNDAAAAw5JDAAAAPJQ4AgAgEkEBaiIJIAhPDRYgFUEEaiATs0MAAADDkkMAAAA8lDgCACASQQJqIgkgCE8NFyAVQQhqIA+zQwAAAMOSQwAAADyUOAIAIBJBA2oiCSAITw0YIBVBDGogCrNDAAAAw5JDAAAAPJQ4AgAgBUEBayEFIBVBEGohFSADQSBqIQMgFkEMaiEWIBBBA2ohECASQQRqIRIgBkEBayIGDQALCyALIA5JDR0gAiAHSQ0eIAwgDkkNHyANIA5JDSAgCCAXSQ0hIAEoAhQhBiABKAIgIQUgASgCLCEDIAFCBDcCiAEgAUICNwKAASABQgQ3AnggAUIENwJwIAFCBDcCaCABIBc2AmQgASABKAI4IgQ2AmAgASAONgJcIAEgAzYCWCABIA42AlQgASAFNgJQIAEgBzYCTCABIAY2AkggASAONgJEIAEgETYCQCAAIBQgByABQUBrEJMCIAcgFGoiFCAYTw0iDAELCyAQIAtB2PzAABCuBwALIAogC0Ho/MAAEK4HAAsgEyALQfj8wAAQrgcACyAQIA1BiP3AABCuBwALIAogDUGY/cAAEK4HAAsgEyANQaj9wAAQrgcACyAPIARBuP3AABCuBwALIBAgDEHI/cAAEK4HAAsgHSAEQdj9wAAQrgcACyAKIAxB6P3AABCuBwALIAogBEH4/cAAEK4HAAsgEyAMQYj+wAAQrgcACyAKIARBmP7AABCuBwALIAIgAkGo/sAAEK4HAAsgCiAEQbj+wAAQrgcACyAKIARByP7AABCuBwALIAogBEHY/sAAEK4HAAsgCiAEQej+wAAQrgcACyASIAhB+P7AABCuBwALIAkgCEGI/8AAEK4HAAsgCSAIQZj/wAAQrgcACyAJIAhBqP/AABCuBwALIAMgA0EEciAEQZz0wQAQ1QcACyADQQRqIANBCHIgBEGc9MEAENUHAAsgA0EIaiADQQxyIARBnPTBABDVBwALIANBDGogA0EQciAEQZz0wQAQ1QcACyADQRBqIANBFHIgBEGc9MEAENUHAAsgA0EUaiADQRhyIARBnPTBABDVBwALQQAgDiALQcj8wAAQ1QcAC0EAIAcgAkG4/MAAENUHAAtBACAOIAxBqPzAABDVBwALQQAgDiANQZj8wAAQ1QcAC0EAIBcgCEGI/MAAENUHAAsgASgCNCIARQ0AIARBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQMgAkEAIAcgAEEnaksbDQQgBBCfAgsgASgCKCIABEAgA0EEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAyACQQAgByAAQSdqSxsNBCADEJ8CCyABKAIcIgAEQCAFQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0DIAJBACAHIABBJ2pLGw0EIAUQnwILIAEoAhAiAARAIAZBBGsoAgAiAkF4cSIHIABBAnQiAEEEQQggAkEDcSICG2pJDQMgAkEAIAcgAEEnaksbDQQgBhCfAgsgASgCBCIABEAgEUEEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNAyACQQAgByAAQSdqSxsNASAREJ8CC0EAIQMMAQsMAgsgAUGQAWokACADDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL4xUCEX8CfiMAQSBrIg4kAAJAAkACQANAAn8CQCABKAKcAyICIAEpA6ADIhMgAq0iFCATIBRUG6ciBEcEQCAOQQxqIAEgASgCmAMgBGogAiAEa0EAEOIBIA4pAhQiE0IoiKchByATQiCIpyECIBNCGIinIQkgE0IQiKchCiATQgiIpyEFIA4tAB8hCyAOLQAeIQ0gDi0AHSEIIA4tABwhDCAOKAIQIQQgE6chBiAOKAIMRQ0BIAQMAgtBASEGQSUhBUEAIQdBACECQQAhCUEAIQogA0GAfnFBJHIMAQsgASABKQOgAyAErXw3A6ADIANBgH5xQShyCyIDQf8BcUEoRwRAIANBCHYhAQwCCwJAAkACQAJAIAZB/wFxQQFrDgIAAQQLIAxB/wFxIgRByQBGDQEgBEHmAEcgCEHkAEdyIA1B/wFxQcEARyALQf8BcUHUAEdycg0DDAILIAVB/wFxQckARyAKQf8BcUHFAEdyIAlB/wFxQc4ARyACQf8BcUHEAEdycg0CQQMhAwwDCyAIQcQARyANQf8BcUHBAEdyIAtB/wFxQdQAR3INAQsLAn8CQCABKAIIQQJHBEBBASEHIAFBCGoiA0G4AkGgAiABLQC5AkECRiIFG2ooAgAhBCADQbQCQZwCIAUbaigCACEDIAEtAMQCIg9BAUYEQCAEQQN2IARBB3FBAEdqIQUgA0UgBEVyRQRAIANBA3YgA0EHcUEAR2ohAkEBIQxBASEIQQEhC0EBDAQLQQEhDCAERSADQQRNcg0CIANBBGsiAkEAIAIgA00bIgJBA3YgAkEHcUEAR2ohAkECIQdBASEIQQIhC0EBDAMLIARFBEBBACEMQQAhBUEAIQhBAgwDC0EAIQwgBCEFQQEhCEEADAILQZT9xgAQ0AkACyADRSAEQQVJckUEQEEDIQcgBEEEayICQQAgAiAETRsiAkEDdiACQQdxQQBHaiEFIANBAnYgA0EDcUEAR2ohAkEBIQhBAyELQQEMAQsgBEUgA0ECTXJFBEAgA0ECayICQQAgAiADTRsiAkECdiACQQNxQQBHaiECIARBAnYgBEEDcUEAR2ohBUEEIQdBASEIQQQhC0EBDAELAkAgBEEDSQ0AIAMgA0EBdmsiAkUNACAEQQJrIgVBACAEIAVPGyIFQQJ2IAVBA3FBAEdqIQVBBSEHQQEhCEEFIQtBAQwBCwJAIAQgBEEBdmsiBUUNACADQQFrIgJBACACIANNGyICIAJBAXZrIgJFDQBBBiEHQQEhCEEGIQtBAQwBC0EAIQhBByEHIARBAWsiAkEAIAIgBE0bIgIgAkEBdmsiBUUgA0VyRQRAIAMhAkEBIQhBByELQQEMAQsgAyECQQILIQ0gAS0AxgIiCUECdCIQKAKY5UggA2whCgJAAkACQCABLQDHAiIGQQhrDgkCAAAAAAAAAAEACyAGQQhNBEAgCkEIIAZuIhFuIhIgCiARIBJsR2ohCgwCCwwECyAKQQF0IQoLIAFBADoA5AMgASAENgLcAyABIAM2AtgDIAEgCzoA1AMgASACNgLQAyABIAM2AswDIAFBADYCyAMgASANNgLEAyABIAc6AMADIAEgBDYCvAMgASADNgK4AyABIAI2ArQDIAEgBTYCsAMgASAINgKsAyABIAw2AqgDIAEgCkEBaiIFNgLgAwJAIBAoAojmSCAGQQdqQQN2bEEBayICQQdLQa8BIAJ2QQFxRXJFBEAgAUKBhIyggMCBgAggAkEDdK2IPADFBCAPRQRAIAStIAWtfiETDAILIAlBAnQiAigC0OVIIANBA3YgA0EHcUEAR2psIQoCQAJAAkAgBkEIayIFDgkCAAAAAAAAAAEACyAGQQhNBEAgCkEIIAZuIgduIg0gCiAHIA1sR2ohCgwCCwwGCyAKQQF0IQoLIAIoAqTmSCADQQRrIgJBACACIANNGyICQQN2IAJBB3FBAEdqbCECAkACQAJAAkACQAJAIAUOCQABAQEBAQEBAgELIAlBAnQoAsDmSCADQQJ2IANBA3FBAEdqbCEHIAJBAWohDAwECyAGQQlPDQggCUECdCgCwOZIIANBAnYgA0EDcUEAR2psIQcgAkEIIAZuIgVuIg0gAiAFIA1sR2pBAWohDCAGQQhrDgkDAgICAgICAgECCyAJQQJ0KALA5kggA0ECdiADQQNxQQBHamwhByACQQF0QQFyIQwLIAdBAXQhBwwBCyAHQQggBm4iAm4iBSAHIAIgBWxHaiEHCyAJQQJ0IgUoAtzmSCADQQJrIgJBACACIANNGyICQQJ2IAJBA3FBAEdqbCECAkACQAJAAkACQAJAIAZBCGsOCQABAQEBAQEBAgELIAUoAvjmSCADIANBAXZrbCEFIARBAnYgBEEDcUEAR2ohDSACQQFqIQsMBAsgBkEJTw0IIAlBAnQoAvjmSCADIANBAXZrbCEFIARBAnYgBEEDcUEAR2ohDSACQQggBm4iC24iCCACIAggC2xHakEBaiELIAZBCGsOCQMCAgICAgICAQILIAUoAvjmSCADIANBAXZrbCEFIARBAnYgBEEDcUEAR2ohDSACQQF0QQFyIQsLIAVBAXQhBQwBCyAFQQggBm4iAm4iCCAFIAIgCGxHaiEFCyAJQQJ0IgIoApTnSCADQQFrIghBACADIAhPGyIIIAhBAXZrbCEJAkACQAJAIAZBCGsiCA4JAgAAAAAAAAABAAsgBkEITQRAIAlBCCAGbiIPbiIQIAkgDyAQbEdqIQkMAgsMBgsgCUEBdCEJCyACKALs5UggA2whAgJAAkACQCAIDgkCAAAAAAAAAAEACyAGQQhNBEAgAkEIIAZuIgZuIgggAiAGIAhsR2ohAgwCCwwGCyACQQF0IQILIARBBGsiBkEAIAQgBk8bIgZBA3YgBkEHcUEAR2qtIAdBAWqtfiAEQQN2IARBB3FBAEdqrSAMrSAKQQFqrXx+fCANrSALrX58IARBAmsiB0EAIAQgB08bIgdBAnYgB0EDcUEAR2qtIAVBAWqtfnwgBCAEQQF2a60gCUEBaq1+fCAEQQFrIgVBACAEIAVPGyIEIARBAXZrrSACQQFqrX58IRMMAQtBqIjFAEGjAUH8iMUAENsHAAsgAUEANgL4AwJAAkAgASgCiAQiAkGCgICAeEggAkVyRQRAIAEoAowEIgNBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIAJqSQ0BIARBACAFIAJBJ2pLGw0CIAMQnwIgASgC2AMhAwsgAUEANgKcBCABQgA3ApQEIAFBgICAgHg2AogEIAEgEzcD6AMgDkEIaiABEIkFIA4tAAhBAnQoArTlSCADbCEDAkACQAJAIA4tAAkiAkEIaw4JAgAAAAAAAAABAAsgAkEITQRAIANBCCACbiICbiIEIAMgAiAEbEdqIQMMAgsMBgsgA0EBdCEDCyADIAEoAogDIgJLBEAgAEEnOgAADAQLIABBKDoAACABIAIgA2s2AogDDAMLQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyAAIAc7AAkgACABOwABIAAgCzoADyAAIA06AA4gACAIOgANIAAgDDoADCAAIAI6AAggACAJOgAHIAAgCjoABiAAIAU6AAUgACAGOgAEIAAgAzoAACAAQQtqIAdBEHY6AAAgAEEDaiABQRB2OgAACyAOQSBqJAAPC0GMicUAENQJAAupFQIHfwd+IwBB0AJrIgIkAAJ/AkACfwJAAkACQAJAIAAtAABBA2sOBQEAAAACAAsgACABEKsDDAULIAApAwgiCUL///////////8Ag0L/////////9/8AWARAIAlC/////////weDIQsgCUI0iKchACAJQgBTDQIgAkGwAmoMAwtBnIfGAEGfh8YAIAlCAFkiABtBo4fGACAJQv////////8Hg1AiAxshBEEDQQQgABtBAyADGyEADAMLIAEoAgBBu/3FAEEEIAEoAgQoAgwRAAAMAwsgAkEtOgCwAkEBIQggAkGxAmoLIQYCfwJAAkACfwJAIABB/w9xIgBFIAtQcUUEQCAAQQJJIAtCAFJyIQQgC0KAgICAgICACIQgCyAAGyIJQgKGIQogCUIBgyEPAkACQCAAQbUIa0HMdyAAGyIAQQBIBEAgAkGQAmpBiKjFACAAIABBhaJTbEEUdiAAQX9HayIAaiIFQQR0IgNrKQMAIgkgCkIChCIMEMYGIAJBgAJqQZCoxQAgA2spAwAiCyAMEMYGIAJB8AFqIAIpA5gCIgwgAikDgAJ8Ig0gAikDiAIgDCANVq18IAAgBUGx2bUfbEETdmtB/ABqQf8AcUHAAHMiAxCGByACQbABaiAJIAogBEF/c6x8IgwQxgYgAkGgAWogCyAMEMYGIAJBkAFqIAIpA7gBIgwgAikDoAF8Ig0gAikDqAEgDCANVq18IAMQhgcgAkHgAWogCSAKEMYGIAJB0AFqIAsgChDGBiACQcABaiACKQPoASIJIAIpA9ABfCILIAIpA9gBIAkgC1atfCADEIYHIAIpA8ABIQwgAikDkAEhDSACKQPwASEJIABBAkkNASAAQT9PIApCfyAArYZCf4WDQgBScg0HQQEhB0EAIQMMBgsgAkGAAWogAEHB6ARsQRJ2IABBA0trIgVBBHQiAykD6NBFIgkgCkIChCILEMYGIAJB8ABqIANB8NDFAGopAwAiDCALEMYGIAJB4ABqIAIpA4gBIg0gAikDcHwiDiACKQN4IA0gDlatfCAFIABrIAVBz6bKAGxBE3ZqQf0AakH/AHFBwABzIgAQhgcgAkEgaiAJIAogBEF/c6x8Ig0QxgYgAkEQaiAMIA0QxgYgAiACKQMoIg0gAikDEHwiDiACKQMYIA0gDlatfCAAEIYHIAJB0ABqIAkgChDGBiACQUBrIAwgChDGBiACQTBqIAIpA1giCSACKQNAfCIMIAIpA0ggCSAMVq18IAAQhgcgAikDMCEMIAIpAwAhDSACKQNgIQkgBUEWSQ0BDAYLIAkgD30hCSAPUCAEcSEDQQEhBwwEC0EAIAqnayAKQgWAp0F7bEYEQEF/IQADQCAAQQFqIQAgCkLNmbPmzJmz5kx+IgpCtObMmbPmzJkzVA0AC0EAIQMgACAFTwwDCyAPUEUEQEF/IQADQCAAQQFqIQAgC0LNmbPmzJmz5kx+IgtCtObMmbPmzJkzVA0ACyAJIAAgBU+tfSEJQQAhAwwCCyAErUJ/hSAKfCEKQX8hAANAIABBAWohACAKQs2Zs+bMmbPmTH4iCkK05syZs+bMmTNUDQALIAAgBU8hAwwBCyAGQQJqQcr7xQAtAAA6AAAgBkHI+8UALwAAOwAAIAlCP4inQQNqIQAgAkGwAmohBAwFC0EACyEHIAMNACAHRQ0BC0EAIQQCQCAJQgqAIgogDUIKgCIOWARAQQAhACANIQsgDCEJDAELQQAhAANAIANBACANp2sgDiILp0F2bEZxIQMgAEEBaiEAIAcgBEH/AXFFcSEHIAynIAxCCoAiCadBdmxqIQQgCSEMIAshDSAKQgqAIgogC0IKgCIOVg0ACwsCQAJAIAMEQEEAIAunayALQgqAIgynQXZsRg0BCyAJIQoMAQsDQCAAQQFqIQAgByAEQf8BcUVxIQcgCacgCUIKgCIKp0F2bGohBCAKIQlBACAMp2sgDCILQgqAIgynQXZsRg0ACwsgD1AgA3FFIAogC1FxQQRBBSAKQgGDUBsgBCAEQf8BcUEFRhsgBCAHG0H/AXFBBEtyDAELQQAhAAJ/IAlC5ACAIgsgDULkAIAiDlgEQCANIQ4gCSELIAwhCkEADAELQQIhACAMpyAMQuQAgCIKp0Gcf2xqQTFLCyEEIAtCCoAiCyAOQgqAIglWBH8DQCAAQQFqIQAgCiIMQgqAIQogC0IKgCILIAkiDkIKgCIJVg0ACyAMpyAKp0F2bGpBBEsFIAQLIAogDlFyCyEEAkACfwJ/AkACQAJAAn8CQAJAAkAgACAFaiIDQQBOIAMCf0ERIAogBK1CAYN8IglC//+D/qbe4RFWDQAaQRAgCUL//5mm6q/jAVYNABpBDyAJQv//6IOx3hZWDQAaQQ4gCUL/v8rzhKMCVg0AGkENIAlC/5+UpY0dVg0AGkEMIAlC/8/bw/QCVg0AGkELIAlC/8evoCVWDQAaQQogCUL/k+vcA1YNABpBCSAJQv/B1y9WDQAaQQggCUL/rOIEVg0AGkEHIAlCv4Q9Vg0AGkEGIAlCn40GVg0AGkEFIAlCj84AVg0AGkEEIAlC5wdWDQAaQQMgCULjAFYNABpBAkEBIAlCCVYbCyIAaiIFQRFIcUUEQCAFQQFrIgRBEEkNASAFQQRqQQVJDQIgAEEBRg0FIAkgACAIaiIAIAJBsAJqIgdqIgNBAWoQugQgByAIaiAGLQABOgAAIAZBLjoAASADQeUAOgABIAcgAEECaiIGaiEDIARBAEgNAyAEDAQLIAkgACAGahC6BCADRSAAIAVOckUEQCACQbACaiAAaiAIakEwIAP8CwALIAUgCGoiACACQbACaiIEakGu4AA7AAAgAEECaiEADAoLIAkgACAIakEBaiIAIAJBsAJqahC6BCAFBEAgBiAGQQFqIAX8CgAACyAFIAZqQS46AAAgAkGwAmohBAwJCyACQbACaiAIakEwOgAAIAZBLjoAAUECIAVrIQQCQCAFQQBODQBBAyAEIARBA00bQQJrIgNFDQAgBkECakEwIAP8CwALIAkgACAIaiAEaiIAIAJBsAJqIgRqELoEDAgLIANBLToAACADQQFqIQNBASAFawsiAEHjAEoNASAAQQlMBEAgAyAAQTBqOgAAIARBH3ZBAWohAAwGCyADIABBAXQvAMCmRTsAACAEQR92QQJyIQAMBQsgAkGwAmoiACAIaiAJp0EwajoAACAGQeUAOgABIAAgCEECciIGaiEDIARBAEgNASAEDAILIAMgAEHkAG4iBUEwajoAACADIAAgBUHkAGxrQQF0LwDApkU7AAEgBEEfdkEDaiEADAMLIANBLToAACADQQFqIQNBASAFawsiAEHjAEwEQCAAQQlMBEAgAyAAQTBqOgAAIARBH3ZBAWoMAgsgAyAAQQF0LwDApkU7AAAgBEEfdkECcgwBCyADIABB5ABuIgVBMGo6AAAgAyAAIAVB5ABsa0EBdC8AwKZFOwABIARBH3ZBA2oLIAZqIQAgAkGwAmohBAwBCyAAIAZqIQAgAkGwAmohBAsgAiAANgKsAiACIAQ2AqgCIAIgAkGoAmqtQoCAgIAghDcDyAIgASgCACABKAIEQc7qwAAgAkHIAmoQxAMLIAJB0AJqJAAL0hMDEX8BfgFvIwBBwAdrIgEkACABQeABaiIHIAIgAygCDBEBAAJAAkACQAJAIAEpA+ABQs2ZttaH5KujwgCFIAEpA+gBQtCx6q/F56LnbIWEUARAIAFB0ABqIAJBkAH8CgAAIAEoAtQBIgNFDQEgByADIAEoAtgBIhIoAgwiCBEBAAJAAkACQAJAAkAgASkD4AFCvbH+99O5o7rsAIUgASkD6AFCoaWU+Mzy7pX4AIWEUEUEQCAHIAMgCBEBACABKQPgAULh0pOK0Iih+o1/hSABKQPoAULBwOW1jbynmc8AhYRQDQEgByADIAgRAQAgASkD4AFCgpGa5KOp2+OBf4UgASkD6AFC56DphfqC4JZdhYRQDQIgByADIAgRAQAgASkD4AFCxYi8oqWBwP5chSABKQPoAUK4s8+robmSqrh/hYRQDQMgByADIAgRAQAgASkD4AFC+uT3kPat7qYHhSABKQPoAULWiYmcqZ3LyXWFhFANBCAHIAMgCBEBACABKQPgAULFn4KE8Z21ku8AhSABKQPoAUK6tPD9p86Brt8AhYRQIhMNBUGE8sEAQSlBmPLBABDbBwALIAFB4AFqIANB2AX8CgAAIAMoAgghByADKQMAIRUgASADQQxqQdAA/AoAACADKAJcIQggASgCqAciBARAIAEoAqwHIgVBBGsoAgAiBkF4cSIJQQRBCCAGQQNxIgYbIARqSQ0KIAZBACAJIARBJ2pLGw0JIAUQnwILIAFBwAJqIQQCQAJAAkAgASgCnAdBgICAgHhrDgIBAgALIAQQvQIMAQsgBBC9AQsgA0EEaygCACIEQXhxQdwFQeAFIARBA3EiBRtJDQkgBUUNByAEQYAGTw0IDAcLIAMoAgghByADKQIAIRUgASADQQxqQdAA/AoAACADKAKgASEJIAMoApwBIQ4gAygClAEhDyADKAKQASELIAMoAogBIRIgAygChAEhBCADKAJ8IRMgAygCeCEFIAMoAnAhDSADKAJsIQYgAygCXCEIIAMoAmAiCgRAIAMoAmQiEEEEaygCACIMQXhxIhFBBEEIIAxBA3EiDBsgCmpJDQkgDEEAIBEgCkEnaksbDQggEBCfAgsgBgRAIA1BBGsoAgAiCkF4cSIQQQRBCCAKQQNxIgobIAZqSQ0JIApBACAQIAZBJ2pLGw0IIA0QnwILIAUEQCATQQRrKAIAIgZBeHEiDUEEQQggBkEDcSIGGyAFakkNCSAGQQAgDSAFQSdqSxsNCCATEJ8CCwJAIARBgICAgHhGDQAgBARAIBJBBGsoAgAiBUF4cSIGIARBAnQiBEEEQQggBUEDcSIFG2pJDQogBUEAIAYgBEEnaksbDQkgEhCfAgsgCwRAIA9BBGsoAgAiBEF4cSIFIAtBAXQiBkEEQQggBEEDcSIEG2pJDQogBEEAIAUgBkEnaksbDQkgDxCfAgsgDkUNACAJQQRrKAIAIgRBeHEiBSAOQQJ0IgZBBEEIIARBA3EiBBtqSQ0JIARBACAFIAZBJ2pLGw0IIAkQnwILIANBBGsoAgAiBEF4cUHM0wBB0NMAIARBA3EiBRtJDQggBUUgBEHw0wBJcg0GDAcLIAMoAgghByADKQIAIRUgASADQQxqQdAA/AoAACADKAJcIQggAygCYCIEBEAgAygCZCIFQQRrKAIAIgZBeHEiCUEEQQggBkEDcSIGGyAEakkNCCAGQQAgCSAEQSdqSxsNByAFEJ8CCyADQQRrKAIAIgRBeHEiBUHwAEH0ACAEQQNxIgQbSQ0HIARFIAVBlAFJcg0FDAYLIAMoAgghByADKQIAIRUgASADQQxqQdAA/AoAACADKAJcIQggAygCYCIEBEAgAygCZCIFQQRrKAIAIgZBeHEiCUEEQQggBkEDcSIGGyAEakkNByAGQQAgCSAEQSdqSxsNBiAFEJ8CCyADQQRrKAIAIgRBeHEiBUHwAEH0ACAEQQNxIgQbSQ0GIARFIAVBlAFJcg0EDAULIAMoAgghByADKQIAIRUgASADQQxqQdAA/AoAACADKAJcIQggAygCYCIEBEAgAygCZCAEQQEQiAcLIANBBGsoAgAiBEF4cSIFQfAAQfQAIARBA3EiBBtJDQUgBEUgBUGUAUlyDQMMBAsgAygCgAIhByADKQL4ASEVIAMoAvwCIQsgAygC+AIhBCADKALoASENIAMoAuQBIQYgAygCiAEhCiADKAJ0IRAgAygCcCEJIAMoAmwhBSADKAJoIQ4gAygCZCEPIAMoAgAhDCABIANBhAJqQdAA/AoAACADKALUAiEIIAQEQCALIARBARCIBwsCQCAMQQJGDQAgBQRAIA5BJGohBANAIARBBGsoAgAiC0GAgICAeHJBgICAgHhHBEAgBCgCACIMQQRrKAIAIhFBeHEiFEEEQQggEUEDcSIRGyALakkNCCARQQAgFCALQSdqSxsNByAMEJ8CCyAEQTBqIQQgBUEBayIFDQALCyAPBEAgDiAPQTBsQQgQiAcLIAlBgICAgHhyQYCAgIB4Rg0AIBAgCUEBEIgHCyADIBIgExshAyAGRSAKQQJGckUEQCANIAZBKGxBCBCIBwsgA0EEaygCACIEQXhxQaQDQagDIARBA3EiBRtJDQQgBUUgBEHIA0lyDQIMAwsgASADNgLkASABIAI2AuABQYC4yABBKyABQeABakHwksEAQbiTwQAQiQcAC0H08cEAENAJAAsgAxCfAiABKAJcIgNBgICAgHhyQYCAgIB4RwRAIAEoAmAiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQIgBUEAIAYgA0EnaksbDQEgBBCfAgsgASgCaEGAgICAeEcEQCABQegAahD0AgsgASgCUCIDBEAgASgCVCIEQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyADakkNAiAFQQAgBiADQSdqSxsNASAEEJ8CCyABKALIASIDQYCAgIB4ckGAgICAeEcEQCABKALMASIEQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyADakkNAiAFQQAgBiADQSdqSxsNASAEEJ8CCwJAQfQAEHEiAwRAIAMgBzYCFCADIBU3AgwgA0EANgIIIANCgYCAgBA3AgAgA0EYaiABQdAA/AoAACADIAg2AnAgAyAHNgJsIAMgCDYCaCADQQhqEA4hFhD/BCIHIBYmASACQQRrKAIAIgNBeHFBlAFBmAEgA0EDcSIIG0kNAyAIQQAgA0G4AU8bDQEgAhCfAiAAIAc2AgQgAEEANgIAIAFBwAdqJAAPC0H0ABDoCQALC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAvtGQIJfwF+IwBBoAFrIgIkACABKAIMIQUCQAJ/AkACQAJAAn8CQAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAIAEoAhQiAyABKAIQIgRJBEAgAUEMaiEHA0ACQAJAIAMgBWotAAAiBkEJaw4lAQEODgEODg4ODg4ODg4ODg4ODg4ODg4BDgsODg4ODg4ODg4OCgALIAZB2wBrDiELDQ0NDQ0NDQ0NDQUNDQ0NDQ0NAw0NDQ0NBA0NDQ0NDQwNCyABIANBAWoiAzYCFCADIARHDQALIAQhAwsgAkEFNgJQIAJBCGogBSAEIANBAWoiASAEIAEgBEkbEPoBIAJB0ABqIAIoAgggAigCDBDZByEBIABBlYCAgHg2AgAgACABNgIEDB8LIAEgA0EBaiIGNgIUIAQgBk0NAiABIANBAmoiBzYCFCAFIAZqLQAAQfUARw0cIAcgBiAEIAQgBkkbIgZGDQIgASADQQNqIgg2AhQgBSAHai0AAEHsAEcEQCAIIQcMHQsgBiAIRg0CIAEgA0EEaiIHNgIUIAUgCGotAABB7ABHDRxBkoCAgHghAwwaCyABIANBAWoiBjYCFCAEIAZNDQIgASADQQJqIgc2AhQgBSAGai0AAEHyAEcNFyAHIAYgBCAEIAZJGyIGRg0CIAEgA0EDaiIINgIUIAUgB2otAABB9QBHBEAgCCEHDBgLIAYgCEYNAiABIANBBGoiBzYCFCAFIAhqLQAAQeUARw0XQYCAgIB4IQNBASEEQQAhBgwaCyABIANBAWoiBjYCFCAEIAZNDQIgASADQQJqIgc2AhQgBSAGai0AAEHhAEcNFCAHIAYgBCAEIAZJGyIGRg0CIAEgA0EDaiIINgIUIAUgB2otAABB7ABHBEAgCCEHDBULIAYgCEYNAiABIANBBGoiCTYCFCAFIAhqLQAAQfMARwRAIAkhBwwVCyAGIAlGDQIgASADQQVqIgc2AhQgBSAJai0AAEHlAEcNFEGAgICAeCEDDBgLIAJBBTYCUCACQRBqIAUgBCAGEPoBIAJB0ABqIAIoAhAgAigCFBDZBwwaCyACQQU2AlAgAkEgaiAFIAQgBhD6ASACQdAAaiACKAIgIAIoAiQQ2QcMFQsgAkEFNgJQIAJBMGogBSAEIAYQ+gEgAkHQAGogAigCMCACKAI0ENkHDBILIAEgA0EBajYCFEEAIQYgAkHQAGogAUEAEN0DIAIpA1AiC0IDUQ0OIAunQQJ0KAL89UEhAyACKAJcIQUgAigCWAwECyABQQA2AgggASADQQFqNgIUIAJB0ABqIAcgARCBAiACKAJUIQQgAigCUCIBQQJGDQwgAigCWCEFAn8gAUEBcQRAAkAgBUUEQEEBIQcMAQsgBRBxIgdFDQcLIAUEQCAHIAQgBfwKAAALIAUhBEGMgICAeAwBCyAFIQdBjYCAgHgLIQMgBEGAfnEhBgwUCyABIAEtABhBAWsiBjoAGCAGQf8BcUUNBiABIANBAWo2AhQgAkEBOgCEASACIAE2AoABIAJCgICAgIABNwKQAUEAIQNBCCEFQQghBgJAA0ACQCACIAM2ApgBIAJB0ABqIAJBgAFqEM8DAkACQCACLQBQQQFGBEAgAigCVCEEDAELIAItAFFBAUcNAiACQdAAaiACKAKAARCRASACKAJUIQQgAigCUCIHQZWAgIB4Rw0BCyACKAKUASEHIAMEQCAHIQUDQCAFEP4CIAVBEGohBSADQQFrIgMNAAsLQZWAgIB4IQNBASEGIAIoApABIgVFDQMgB0EEaygCACIIQXhxIgkgBUEEdCIFQQRBCCAIQQNxIggbckkNCCAIQQAgCSAFQSdqSxsNCSAHEJ8CDAMLIAIpA1ghCyACKAKQASADRgRAIwBBEGsiBiQAIAZBBGogAkGQAWoiCCgCACIJIAgoAgRBBCAJQQF0IgkgCUEETRsiCUEIQRAQiwYgBigCBEEBRgRAIAYoAgggBigCDBDhCAALIAYoAgghCiAIIAk2AgAgCCAKNgIEIAZBEGokACACKAKUASEGCyAFIAZqIgggCzcCACAIQQRrIAQ2AgAgCEEIayAHNgIAIAVBEGohBSADQQFqIQMMAQsLQZSAgIB4IQNBACEGIAIpApQBIQsgAigCkAEhBAsgASABLQAYQQFqOgAYIAIgARCZBCIFNgJgIAIgCzcDWCACIAQ2AlQgAiADNgJQAn8CQCAGRQRAIAUNASALQiCIpyEFIAunIQcMEAtBlYCAgHgiAyAFRQ0BGiACQeAAahCwBAwPCyACQdAAahD+AiAFIQRBlYCAgHgLIQMMDQsgASABLQAYQQFrIgc6ABggB0H/AXFFDQkgASADQQFqNgIUIAJBAToAcCACIAE2AmwgAkEANgJ8IAJCgICAgIABNwJ0QQghCEEQIQdBACEFAkADQAJAIAJB0ABqIAJB7ABqEP0CAkACQCACLQBQQQFGBEAgAigCVCEEDAELIAItAFFBAUcNAiACKAJsIglBADYCCCAJIAkoAhRBAWo2AhQgAkHQAGogCUEMaiAJEIECIAIoAlQhBgJ/AkAgAigCUCIDQQJHBEAgAigCWCEEIANBAXFFDQECQCAERQRAQQEhAwwBCyAEEHEiA0UNDwsgBARAIAMgBiAE/AoAAAsgBCEGQYyAgIB4DAILIAYhBAwCCyAEIQNBjYCAgHgLIQogAiAENgKcASACIAM2ApgBIAIgBjYClAEgAiAKNgKQASAJENAFIgRFBEAgAkHQAGogCRCRASACKAJQQZWAgIB4Rw0CIAIoAlQhBAsgAkGQAWoQ/gILIAIoAnghByAFBEAgByEDA0AgAxD+AiADQRBqEP4CIANBIGohAyAFQQFrIgUNAAsLQZWAgIB4IQMgAigCdCIFRQ0DIAdBBGsoAgAiBkF4cSIIIAVBBXQiBUEEQQggBkEDcSIGG3JJDQsgBkEAIAggBUEnaksbDQwgBxCfAgwDCyACIAL9AANQ/QsDgAEgAikDmAEhCyACKAJ0IAVGBEAgAkH0AGoQ5AYgAigCeCEICyAHIAhqIgRBCGsgCzcCACAEQQxrIAY2AgAgBEEQayAKNgIAIAQgAv0AA4AB/QsCACACIAVBAWoiBTYCfCAHQSBqIQcMAQsLIAWtIQsgAigCdCEDIAghBAsgASABLQAYQQFqOgAYIAIgARCFBSIFNgJgIAIgBDYCVCACIAM2AlAgAiALNwNYAkACQCADQZWAgIB4RwRAIAUNASALQiCIpyEFIAunIQcMDwsgBQ0BQZWAgIB4IQMgC6chBwwOCyACQdAAahD+AkGVgICAeCEDIAUhBCALpyEHDA0LIAJB4ABqELAEQZWAgIB4IQMgC6chBwwMCyAGQTBrQf8BcUEKTwRAIAJBCjYCUCACIAUgBCADQQFqIgcgBCAEIAdLGxD6ASACQdAAaiACKAIAIAIoAgQQ2QcgARCXBiEBIABBlYCAgHg2AgAgACABNgIEDBULIAJB0ABqIAFBARDdAyACKQNQIgtCA1EEQCAAIAIoAlg2AgQgAEGVgICAeDYCAAwVCyALp0ECdCgC/PVBIQMgAigCXCEFQQAhBiACKAJYCyEHQQAhBAwQC0EBIAUQ4QgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsgAkEYNgJQIAJBQGsgBSAEIANBAWoiASAEIAEgBEkbEPoBIAJB0ABqIAIoAkAgAigCRBDZByEBIABBlYCAgHg2AgAgACABNgIEDA8LQQEgBBDhCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyACQRg2AlAgAkHIAGogBSAEIANBAWoiASAEIAEgBEkbEPoBIAJB0ABqIAIoAkggAigCTBDZByEBIABBlYCAgHg2AgAgACABNgIEDAsLIABBlYCAgHg2AgAgACAENgIEDAoLIAAgAigCWDYCBCAAQZWAgIB4NgIADAkLIANBlYCAgHhHBEAgBEGAfnEhBgwGCyAEIAEQlwYhASAAQZWAgIB4NgIAIAAgATYCBAwICyACQQk2AlAgAkE4aiAFIAQgBxD6ASACQdAAaiACKAI4IAIoAjwQ2QcLIQEgAEGVgICAeDYCACAAIAE2AgQMBgsgAkEJNgJQIAJBKGogBSAEIAcQ+gEgAkHQAGogAigCKCACKAIsENkHCyEBIABBlYCAgHg2AgAgACABNgIEDAQLQQAhBkEAIQQLIAAgBTYCDCAAIAc2AgggACADNgIAIAAgBEH/AXEgBnI2AgQMAgsgAkEJNgJQIAJBGGogBSAEIAcQ+gEgAkHQAGogAigCGCACKAIcENkHCyEBIABBlYCAgHg2AgAgACABNgIECyACQaABaiQAC8cTARB/IwBB4AlrIgEkACABQbADaiIFIAIgAygCDBEBAAJAAkACQAJAIAEpA7ADQvDD3b+GyoOLqn+FIAEpA7gDQorJyp7yy6mnbIWEUARAIAItAOgBIhJBBkcEQCABQcQBaiACQewB/AoAACABKAKkAyIDRQ0CIAUgAyABKAKoAyIQKAIMIgQRAQACQAJAAkACQAJAIAEpA7ADQuaQ6fbf7bPdwgCFIAEpA7gDQtvL7sm1hOnXqn+FhFBFBEAgBSADIAQRAQAgASkDsANC6+SK7tvWzuz2AIUgASkDuANC3LnM7ZqvpNfCAIWEUA0BIAUgAyAEEQEAIAEpA7ADQovF0MLS8bX8OoUgASkDuANC8+rQ1ofM1NiPf4WEUA0CIAUgAyAEEQEAIAEpA7ADQrv+weeV29GrboUgASkDuANCkrP2ys367f/IAIWEUA0DIAUgAyAEEQEAIAEpA7ADQtu/r66r7ePIL4UgASkDuANC7fPM7dbUxaKSf4WEUA0EIAUgAyAEEQEAIAEpA7ADQubQtc2lq47MToUgASkDuANC2LHVgamx6ZMuhYRQIhENBUGE8sEAQSlBmPLBABDbBwALIAFBsANqIANBsAb8CgAAIAFBCGogA0H0BGpBvAH8CgAAIAEoApgIIgQEQCABKAKcCCIFQQRrKAIAIgZBeHEiB0EEQQggBkEDcSIGGyAEakkNCyAGQQAgByAEQSdqSxsNCiAFEJ8CCwJAAkACQCABKAKMCEGAgICAeGsOAgECAAsgAUGwA2oQvQIMAQsgAUGwA2oQvQELIANBBGsoAgAiBEF4cUG0BkG4BiAEQQNxIgUbSQ0KIAVFDQggBEHYBk8NCQwICyABQQhqIANBvAH8CgAAIAMoAvwBIQcgAygC+AEhCyADKALwASEMIAMoAuwBIQkgAygC5AEhECADKALgASEEIAMoAtgBIREgAygC1AEhBSADKALMASEKIAMoAsgBIQYgAygCvAEiCARAIAMoAsABIg1BBGsoAgAiDkF4cSIPQQRBCCAOQQNxIg4bIAhqSQ0KIA5BACAPIAhBJ2pLGw0JIA0QnwILIAYEQCAKQQRrKAIAIghBeHEiDUEEQQggCEEDcSIIGyAGakkNCiAIQQAgDSAGQSdqSxsNCSAKEJ8CCyAFBEAgEUEEaygCACIGQXhxIgpBBEEIIAZBA3EiBhsgBWpJDQogBkEAIAogBUEnaksbDQkgERCfAgsCQCAEQYCAgIB4Rg0AIAQEQCAQQQRrKAIAIgVBeHEiBiAEQQJ0IgRBBEEIIAVBA3EiBRtqSQ0LIAVBACAGIARBJ2pLGw0KIBAQnwILIAkEQCAMQQRrKAIAIgRBeHEiBSAJQQF0IgZBBEEIIARBA3EiBBtqSQ0LIARBACAFIAZBJ2pLGw0KIAwQnwILIAtFDQAgB0EEaygCACIEQXhxIgUgC0ECdCIGQQRBCCAEQQNxIgQbakkNCiAEQQAgBSAGQSdqSxsNCSAHEJ8CCyADQQRrKAIAIgRBeHEiBUGo1ABBrNQAIARBA3EiBBtJDQkgBEUgBUHM1ABJcg0HDAgLIAFBCGogA0G8AfwKAAAgAygCvAEiBARAIAMoAsABIgVBBGsoAgAiBkF4cSIHQQRBCCAGQQNxIgYbIARqSQ0JIAZBACAHIARBJ2pLGw0IIAUQnwILIANBBGsoAgAiBEF4cUHMAUHQASAEQQNxIgUbSQ0IIAVFIARB8AFJcg0GDAcLIAFBCGogA0G8AfwKAAAgAygCvAEiBARAIAMoAsABIgVBBGsoAgAiBkF4cSIHQQRBCCAGQQNxIgYbIARqSQ0IIAZBACAHIARBJ2pLGw0HIAUQnwILIANBBGsoAgAiBEF4cUHMAUHQASAEQQNxIgUbSQ0HIAVFIARB8AFJcg0FDAYLIAFBCGogA0G8AfwKAAAgAygCvAEiBARAIAMoAsABIARBARCIBwsgA0EEaygCACIEQXhxQcwBQdABIARBA3EiBRtJDQYgBUUgBEHwAUlyDQQMBQsgAygCtAIhCSADKAKwAiEEIAMoAoQCIQogAygCgAIhBiADKAL8ASEFIAMoAvgBIQcgAygC9AEhCyADKAKQASEIIAMoAmAhDSADKAJcIQwgAygCACEOIAFBCGogA0G8AmpBvAH8CgAAIAQEQCAJIARBARCIBwsCQCAIQQJGDQAgBQRAIAdBJGohBANAIARBBGsoAgAiCUGAgICAeHJBgICAgHhHBEAgBCgCACIIQQRrKAIAIg9BeHEiE0EEQQggD0EDcSIPGyAJakkNCSAPQQAgEyAJQSdqSxsNCCAIEJ8CCyAEQTBqIQQgBUEBayIFDQALCyALBEAgByALQTBsQQgQiAcLIAZBgICAgHhyQYCAgIB4Rg0AIAogBkEBEIgHCyADIBAgERshAyAMRSAOQQJGckUEQCANIAxBKGxBCBCIBwsgA0EEaygCACIEQXhxQYQEQYgEIARBA3EiBRtJDQUgBUUgBEGoBElyDQMMBAtBqJTBABDQCQALIAEgAzYCtAMgASACNgKwA0GAuMgAQSsgAUGwA2pB8JLBAEHIlMEAEIkHAAtB9PHBABDQCQALIAMQnwICQCABKAKMAyIDQYCAgIB4ckGAgICAeEcEQCABKAKQAyIEQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyADakkNAyAFQQAgBiADQSdqSxsNAiAEEJ8CCyABKALEAUECRwRAIAFBxAFqEMACCyABKAKAAyIDBEAgASgChAMiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQMgBUEAIAYgA0EnaksbDQIgBBCfAgsgASgCmAMiA0GAgICAeHJBgICAgHhHBEAgASgCnAMiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQMgBUEAIAYgA0EnaksbDQIgBBCfAgsgEkECdCIDKAKg9kEhBCADKAKI9kEhBSABQQhqENEBIgZB2JLBAEEIEOwIIgMgBSAEEOwIIgQQswlBrIzJAC0AAARAQayMyQBBADoAAEGwjMkAKAIAIQBBsIzJAEEANgIAIAEgADYCsANBgLjIAEErIAFBsANqQeCMwQBBuJTBABCJBwALQbCMyQBBADYCAEGsjMkAQQA6AAAgBEGECE8EQCAEEIUHCyADQYQITwRAIAMQhQcLIAJBBGsoAgAiA0F4cSIEQfABQfQBIANBA3EiAxtJDQIgA0EAIARBlAJPGw0AIAIQnwIgACAGNgIEIABBADYCACABQeAJaiQADwsLQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC8UTARB/IwBBgAprIgEkACABQcADaiIFIAIgAygCDBEBAAJAAkACQAJAIAEpA8ADQseX/rb7xtD8uH+FIAEpA8gDQqXlw8H984PFNoWEUARAIAItAPABIhJBBkcEQCABQcwBaiACQfQB/AoAACABKAK0AyIDRQ0CIAUgAyABKAK4AyIQKAIMIgQRAQACQAJAAkACQAJAIAEpA8ADQruL/u6tgoK0vn+FIAEpA8gDQtSNqp/ql4Gqhn+FhFBFBEAgBSADIAQRAQAgASkDwANCnZHhn4O6n51WhSABKQPIA0Kbr9HJ0YbGzPUAhYRQDQEgBSADIAQRAQAgASkDwANCmMm737mVztO7f4UgASkDyANC772F0eLMrpANhYRQDQIgBSADIAQRAQAgASkDwANC1MqiysryxpBChSABKQPIA0K3zrvllIGHsmWFhFANAyAFIAMgBBEBACABKQPAA0KHyP/+w/uA+qB/hSABKQPIA0K83IS+4Y/d72SFhFANBCAFIAMgBBEBACABKQPAA0KKloeFpqL+hg6FIAEpA8gDQovftoWc2b/bKoWEUCIRDQVBhPLBAEEpQZjywQAQ2wcACyABQcADaiADQbgG/AoAACABQQhqIANB9ARqQcQB/AoAACABKAKoCCIEBEAgASgCrAgiBUEEaygCACIGQXhxIgdBBEEIIAZBA3EiBhsgBGpJDQsgBkEAIAcgBEEnaksbDQogBRCfAgsCQAJAAkAgASgCnAhBgICAgHhrDgIBAgALIAFBwANqEL0CDAELIAFBwANqEL0BCyADQQRrKAIAIgRBeHFBvAZBwAYgBEEDcSIFG0kNCiAFRQ0IIARB4AZPDQkMCAsgAUEIaiADQcQB/AoAACADKAKEAiEHIAMoAoACIQsgAygC+AEhDCADKAL0ASEJIAMoAuwBIRAgAygC6AEhBCADKALgASERIAMoAtwBIQUgAygC1AEhCiADKALQASEGIAMoAsQBIggEQCADKALIASINQQRrKAIAIg5BeHEiD0EEQQggDkEDcSIOGyAIakkNCiAOQQAgDyAIQSdqSxsNCSANEJ8CCyAGBEAgCkEEaygCACIIQXhxIg1BBEEIIAhBA3EiCBsgBmpJDQogCEEAIA0gBkEnaksbDQkgChCfAgsgBQRAIBFBBGsoAgAiBkF4cSIKQQRBCCAGQQNxIgYbIAVqSQ0KIAZBACAKIAVBJ2pLGw0JIBEQnwILAkAgBEGAgICAeEYNACAEBEAgEEEEaygCACIFQXhxIgYgBEECdCIEQQRBCCAFQQNxIgUbakkNCyAFQQAgBiAEQSdqSxsNCiAQEJ8CCyAJBEAgDEEEaygCACIEQXhxIgUgCUEBdCIGQQRBCCAEQQNxIgQbakkNCyAEQQAgBSAGQSdqSxsNCiAMEJ8CCyALRQ0AIAdBBGsoAgAiBEF4cSIFIAtBAnQiBkEEQQggBEEDcSIEG2pJDQogBEEAIAUgBkEnaksbDQkgBxCfAgsgA0EEaygCACIEQXhxIgVBsNQAQbTUACAEQQNxIgQbSQ0JIARFIAVB1NQASXINBwwICyABQQhqIANBxAH8CgAAIAMoAsQBIgQEQCADKALIASIFQQRrKAIAIgZBeHEiB0EEQQggBkEDcSIGGyAEakkNCSAGQQAgByAEQSdqSxsNCCAFEJ8CCyADQQRrKAIAIgRBeHFB1AFB2AEgBEEDcSIFG0kNCCAFRSAEQfgBSXINBgwHCyABQQhqIANBxAH8CgAAIAMoAsQBIgQEQCADKALIASIFQQRrKAIAIgZBeHEiB0EEQQggBkEDcSIGGyAEakkNCCAGQQAgByAEQSdqSxsNByAFEJ8CCyADQQRrKAIAIgRBeHFB1AFB2AEgBEEDcSIFG0kNByAFRSAEQfgBSXINBQwGCyABQQhqIANBxAH8CgAAIAMoAsQBIgQEQCADKALIASAEQQEQiAcLIANBBGsoAgAiBEF4cUHUAUHYASAEQQNxIgUbSQ0GIAVFIARB+AFJcg0EDAULIAMoArQCIQkgAygCsAIhBCADKAKEAiEKIAMoAoACIQYgAygC/AEhBSADKAL4ASEHIAMoAvQBIQsgAygCkAEhCCADKAJgIQ0gAygCXCEMIAMoAgAhDiABQQhqIANBvAJqQcQB/AoAACAEBEAgCSAEQQEQiAcLAkAgCEECRg0AIAUEQCAHQSRqIQQDQCAEQQRrKAIAIglBgICAgHhyQYCAgIB4RwRAIAQoAgAiCEEEaygCACIPQXhxIhNBBEEIIA9BA3EiDxsgCWpJDQkgD0EAIBMgCUEnaksbDQggCBCfAgsgBEEwaiEEIAVBAWsiBQ0ACwsgCwRAIAcgC0EwbEEIEIgHCyAGQYCAgIB4ckGAgICAeEYNACAKIAZBARCIBwsgAyAQIBEbIQMgDEUgDkECRnJFBEAgDSAMQShsQQgQiAcLIANBBGsoAgAiBEF4cUGMBEGQBCAEQQNxIgUbSQ0FIAVFIARBsARJcg0DDAQLQciSwQAQ0AkACyABIAM2AsQDIAEgAjYCwANBgLjIAEErIAFBwANqQfCSwQBBgJPBABCJBwALQfTxwQAQ0AkACyADEJ8CAkAgASgCnAMiA0GAgICAeHJBgICAgHhHBEAgASgCoAMiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQMgBUEAIAYgA0EnaksbDQIgBBCfAgsgASgCzAFBAkcEQCABQcwBahCIAgsgASgCkAMiAwRAIAEoApQDIgRBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIANqSQ0DIAVBACAGIANBJ2pLGw0CIAQQnwILIAEoAqgDIgNBgICAgHhyQYCAgIB4RwRAIAEoAqwDIgRBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIANqSQ0DIAVBACAGIANBJ2pLGw0CIAQQnwILIBJBAnQiAygCoPZBIQQgAygCiPZBIQUgAUEIahDQASIGQdiSwQBBCBDsCCIDIAUgBBDsCCIEELMJQayMyQAtAAAEQEGsjMkAQQA6AABBsIzJACgCACEAQbCMyQBBADYCACABIAA2AsADQYC4yABBKyABQcADakHgjMEAQeCSwQAQiQcAC0GwjMkAQQA2AgBBrIzJAEEAOgAAIARBhAhPBEAgBBCFBwsgA0GECE8EQCADEIUHCyACQQRrKAIAIgNBeHEiBEH4AUH8ASADQQNxIgMbSQ0CIANBACAEQZwCTxsNACACEJ8CIAAgBjYCBCAAQQA2AgAgAUGACmokAA8LC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAvZFwMmfwl7BX4gAC8BJCIFQQ9qIgtB8P8DcSEGIAtB8P8HcSEHIAAoAiAhCSAAKAIcIRIgACgCFCEKIAAoAhAhFSAAKAIIIRAgACgCBCEWAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAMEQCAHQf//A3EiB0UNASAJIAZBAXYiDHAhEyAKIAxwIQsgBUUNAiAQIAZuIgMgAiAFQQNsIiRuIgAgACADSxsiEUUNEiAJIBNrISUgCiALayEmIAUgB0sNESAFQQFxIRcgDK0hNSAkICRBBnAiGGsiG0EGa0EGbiICIAVBAXYiAyIAIAAgAksbIgAgBSADa0H//wNxIhwgACAcSRsiCUF/cyAJQQFqIgJBA3EiAEEEIAAbIgBqIScgAiAAayIEQQZsIR4gBUH+/wNxIh8gBEEBdCIgayEoIBsgBEF6bGohKSABIR0gFiEQQQAhE0EAIQtBACEFA0ACfyALRSAzQoCAgIAQVHJFBEAgM0KAgICAcINCgICAgBB9ITYgM6cMAQsgDCAmSw0UICYgDGshJkKAgICAECE2IDUhMyAMIBUiC2ohFSAMCyEIAn4gE0UgNEKAgICAEFRyRQRAIDSnIQAgNEKAgICAcINCgICAgBB9DAELIAwgJUsNFCAlIAxrISUgEiETIDUhNCAMIgAgEmohEkKAgICAEAshNyAIIBxJDQQgACAcSQ0FIBYgBSAGbGohISABIAUgJGxqISIgM0L/////D4MgNEL/////D4MhNCALIBxqIQogEyENIAshFAJAAkAgG0EGSQ0AIBshByAiIQggHyEAICEhDiAJQQRPBEAgDiAgaiEOIAggHmohCCAEIAtqIRQgBCANaiENIBMhAyALIRkgHSEAICchAiAQIQcDQCAAIAP9XAAA/YkB/akBIir9DCVmAAAlZgAAJWYAACVmAAD9tQFBCP2tAf0MZsj//2bI//9myP//Zsj///2uASIvIAf9XQAAIjAgK/0NAAIEBgAAAAAAAAAAAAAAAP2JAf2pAf0MhUoAAIVKAACFSgAAhUoAACIu/bUBQQj9rQEiK/2uAUEG/awB/QwAAAAAAAAAAAAAAAAAAAAA/bgB/Qz/AAAA/wAAAP8AAAD/AAAAIi39tgEgKyAq/QwINAAACDQAAAg0AAAINAAA/bUBQQj9rQEgGf1cAAD9iQH9qQEiKv0MExkAABMZAAATGQAAExkAAP21AUEI/a0B/a4BIjH9sQH9DAQiAAAEIgAABCIAAAQiAAAiMv2uAUEG/awBICz9uAEgLf22Af0NAAQIDBAUGBwAAAAAAAAAACArICr9DBqBAAAagQAAGoEAABqBAAD9tQFBCP2tAf0M67r//+u6///ruv//67r///2uASIr/a4BQQb9rAEgLP24ASAt/bYBIir9GwD9FwggKv0bAf0XCSAq/RsC/RcKICr9GwP9FwsgMCAs/Q0BAwUHAAAAAAAAAAAAAAAA/YkB/akBIC79tQFBCP2tASIuIC/9rgFBBv2sASAs/bgBIC39tgEiKv0bAP0XDCAq/RsB/RcNICr9GwL9Fw4gKv0bA/0XDyIqIC4gMf2xASAy/a4BQQb9rAEgLP24ASAt/bYBIC4gK/2uAUEG/awBICz9uAEgLf22Af0NAAQIDBAUGBwAAAAAAAAAACIr/Q0SFgMHCw8TFwAAAAAAAAAA/VsAEAAgACAqICv9DQAECAwQFAEFCQ0RFQIGCg79CwAAIANBBGohAyAZQQRqIRkgAEEYaiEAIAdBCGohByACQQRqIgINAAsgKSEHICghAAsDQCAARQ0BIAogFEYNAiAIQQJqQf8BIA4tAABBhZUBbEEIdiIPIBQtAAAiI0GaggJsQQh2QZWKAWsiGmpBBnUiAkEAIAJBAEobIgIgAkH/AU4bOgAAIAhB/wEgDS0AACIZQaXMAWxBCHZBmu8AayIDIA9qQQZ1IgJBACACQQBKGyICIAJB/wFOGzoAACAIQQVqQf8BIBogDkEBai0AAEGFlQFsQQh2IhpqQQZ1IgJBACACQQBKGyICIAJB/wFOGzoAACAIQQNqQf8BIAMgGmpBBnUiAkEAIAJBAEobIgIgAkH/AU4bOgAAIAhBAWpB/wEgDyAZQYjoAGxBCHYgI0GTMmxBCHZqIgNrQYTEAGpBBnUiAkEAIAJBAEobIgIgAkH/AU4bOgAAIAhBBGpB/wEgGiADa0GExABqQQZ1IgJBACACQQBKGyICIAJB/wFOGzoAACAIQQZqIQggDkECaiEOIA1BAWohDSAUQQFqIRQgAEECayEAIAdBBmsiB0EGTw0ACwsgDSATIBxqRiAYQQNJciAXRSAKIBRGcnINACAbICJqIghB/wEgHyAhai0AAEGFlQFsQQh2IgcgFC0AACIDQZqCAmxBCHZqQZWKAWtBBnUiAEEAIABBAEobIgAgAEH/AU4bOgACIAhB/wEgByANLQAAIgJBpcwBbEEIdmpBmu8Aa0EGdSIAQQAgAEEAShsiACAAQf8BThs6AAAgCEH/ASAHIANBkzJsQQh2IAJBiOgAbEEIdmprQYTEAGpBBnUiAEEAIABBAEobIgAgAEH/AU4bOgABCyA2hCEzIDQgN4QhNCAdICRqIR0gBiAQaiEQIAVBAWoiBSARSQ0ACwwSCyAFIBBLDQQgBSAFQQF2ayIEIApLDQUgBCAJSw0GIAIgBUEDbCIRSQ0HIAAvASYhHiABIBEgFiAFIBUgBCASIAQQeiAFRQ0IIAIgEWsiAyAFQQZsIhdwISAgBiAebCIAIAZJIAAgEEtyDQkgB0H//wNxIgdFDQogBkEBdiEPIAEgEWohIyAAIAZrIgAgACAGQQF0IhhwIhtrIQIgBiAWaiEaAkAgAyAgayIZIBdJDQAgBSAHSwRAIAIgGEkgBiAKS3IgBiAJS3INAUEAIAUgBkHU5sQAENUHAAsgBCAPSwRAIAIgGEkgBiAKS3IgBiAJS3INAUEAIAQgD0HE5sQAENUHAAsgBiAKSyAGIAlLciACIBhJciEDIAYgD2siACAESQRAIAMNAUEAIAQgAEG05sQAENUHAAsgAw0AICMgESAaIAUgFSAEIA8gFWoiHyAEIBIgBCAPIBJqIiEgBBBsIBEgI2ogESAGIBpqIAUgHyAEIBUgBCAhIAQgEiAEEGwgFyAZIBdrIh1LDQAgD0EBayEiIAogD2shJyAGIBVqISggBUEMbCEpIAVBCWwhCCAGIBJqIQwgC0Hw/wNxQQR2IgBBBnQhFCAAQTBsIRAgAiEAA0AgCiANakEBayAiSSAYIAAgGGsiAEtyIA0gJ2ogBkkgCSANakEBayAiSXJyDQEgCSANIA9rIg1qIAZJDQEgASAIaiARIBAgFmogBSAOIB9qIgcgBCAOIChqIhMgBCAOICFqIgsgBCAMIA5qIgMgBBBsIAEgKWogESAUIBZqIAUgEyAEIAcgBCADIAQgCyAEEGwgFiAYaiEWIAEgF2ohASAOIA9qIQ4gFyAdIBdrIh1NDQALCyAgRQ0RIAogHkEBcSAeQQF2akEBayAPbCIBSQ0LIAEgCUsNDCAFIBtLDQ0gBCAKIAFrIgBLDQ4gBCAJIAFrIgBLDQ8gGSAjaiAgIAIgGmogBSABIBVqIAQgASASaiAEEHoMEQtB6IXHAEE3QbTnxAAQ2wcAC0HohccAQTdBxOfEABDbBwALQQAgHCAIQeTnxAAQ1QcAC0EAIBwgAEHU58QAENUHAAtBACAFIBBBpOfEABDVBwALQQAgBCAKQZTnxAAQ1QcAC0EAIAQgCUGE58QAENUHAAtBACARIAJB9ObEABDVBwALQeiFxwBBN0HE5cQAENsHAAsgBiAAIBBB5ObEABDVBwALQeiFxwBBN0HU5cQAENsHAAsgASAKIApBpObEABDVBwALIAEgCSAJQZTmxAAQ1QcAC0EAIAUgG0GE5sQAENUHAAtBACAEIABB9OXEABDVBwALQQAgBCAAQeTlxAAQ1QcACyAMICZLIAwgJUtyDQBBACAFIAZB9OfEABDVBwALC+UWAgd9Dn8jAEEQayIQJAAgABCiBSAAQcABakEAOgAAIABCADcCuAEgACACEMwEAkACQAJAIAAoAhBBAUcNACAAKAIYRQ0AAkACfwJAAkACQAJ/AkACQAJAAkACQAJAIAJBAnQiDSIRIAAoAnwiEk0EQCAAKAKIASITIBFPBEAgACgCeCEXIAAoAoQBIRggAkUNDUEAIA1rIRlBASEVQRQhDEEDIQ0CfwJAA0ACQAJ/AkACQAJAAn8CQAJAAkACfwJAAkACQAJAAkACQAJAIAQgDEEUa0sEQCAMQRNrIARPDQEgDEESayAETw0CIA1BA2siDiARSQ0DIA4hDQwECyAMQRRrDA8LIAxBE2sMCgsgDEESawwFC0MAAH9DIANBBGoqAgAiCIsiBUMAAIA/QwAA+EFDAAAAACADKgIAIgmLIgYgBSADQQhqKgIAIgqLIgsQ3QgQ3QgQmQWOQwAAcEGSIgUgBUMAAAAAXRsiBSAFQwAA+EFeGxCdB/wAIg5BD2sQmgZDAAB/Q5UiBZUiByAHQwAAf0NeGxCdByEHIBQgF2oiD0MAAH9DIAYgBZUiBiAGQwAAf0NeGxCdB/wBIA5BG3RBgICACEEAIAlDAAAAAF0bckGAgIAQQQAgCEMAAAAAXRtyQYCAgCBBACAKQwAAAABdG3JyIAf8AUEIdHJDAAB/QyALIAWVIgUgBUMAAH9DXhsQnQf8AUEQdHI2AgAgDEERayAETw0LIAxBEGsgBE8NByAMQQ9rIARPDQMgESANQQJrSwRAQwAAf0MgA0EQaioCACIIiyIFQwAAgD9DAAD4QUMAAAAAIANBDGoqAgAiCYsiBiAFIANBFGoqAgAiCosiCxDdCBDdCBCZBY5DAABwQZIiBSAFQwAAAABdGyIFIAVDAAD4QV4bEJ0H/AAiDkEPaxCaBkMAAH9DlSIFlSIHIAdDAAB/Q14bEJ0HIQcgD0EEakMAAH9DIAYgBZUiBiAGQwAAf0NeGxCdB/wBIA5BG3RBgICACEEAIAlDAAAAAF0bckGAgIAQQQAgCEMAAAAAXRtyQYCAgCBBACAKQwAAAABdG3JyIAf8AUEIdHJDAAB/QyALIAWVIgUgBUMAAH9DXhsQnQf8AUEQdHI2AgAgDEEOayAETw0LIAxBDWsgBE8NByAMQQxrIARPDQMgESANQQFrSwRAQwAAf0MgA0EcaioCACIIiyIFQwAAgD9DAAD4QUMAAAAAIANBGGoqAgAiCYsiBiAFIANBIGoqAgAiCosiCxDdCBDdCBCZBY5DAABwQZIiBSAFQwAAAABdGyIFIAVDAAD4QV4bEJ0H/AAiDkEPaxCaBkMAAH9DlSIFlSIHIAdDAAB/Q14bEJ0HIQcgD0EIakMAAH9DIAYgBZUiBiAGQwAAf0NeGxCdB/wBIA5BG3RBgICACEEAIAlDAAAAAF0bckGAgIAQQQAgCEMAAAAAXRtyQYCAgCBBACAKQwAAAABdG3JyIAf8AUEIdHJDAAB/QyALIAWVIgUgBUMAAH9DXhsQnQf8AUEQdHI2AgAgDEELayAETw0LIAxBCmsgBE8NByAMQQlrIARPDQMgDSARTw0CQwAAf0MgA0EoaioCACIIiyIFQwAAgD9DAAD4QUMAAAAAIANBJGoqAgAiCYsiBiAFIANBLGoqAgAiCosiCxDdCBDdCBCZBY5DAABwQZIiBSAFQwAAAABdGyIFIAVDAAD4QV4bEJ0H/AAiDkEPaxCaBkMAAH9DlSIFlSIHIAdDAAB/Q14bEJ0HIQcgD0EMakMAAH9DIAYgBZUiBiAGQwAAf0NeGxCdB/wBIA5BG3RBgICACEEAIAlDAAAAAF0bckGAgIAQQQAgCEMAAAAAXRtyQYCAgCBBACAKQwAAAABdG3JyIAf8AUEIdHJDAAB/QyALIAWVIgUgBUMAAH9DXhsQnQf8AUEQdHI2AgAgDEEIayAETw0eIAxBB2sgBE8NGiAMQQZrIARPDRYgDSAZaiIPQQNHDQ8gDUEDawwSCyANQQFrIQ0MAQsgDUECayENCyANIBFBvNnBABCuBwALIAxBCWsMAgsgDEEMawwBCyAMQQ9rCyAEQazZwQAQrgcACyAMQQprDAILIAxBDWsMAQsgDEEQawsgBEGc2cEAEK4HAAsgDEELawwCCyAMQQ5rDAELIAxBEWsLIARBjNnBABCuBwALQwAAf0MgA0E0aioCACIIiyIFQwAAgD9DAAD4QUMAAAAAIANBMGoqAgAiCYsiBiAFIANBOGoqAgAiCosiCxDdCBDdCBCZBY5DAABwQZIiBSAFQwAAAABdGyIFIAVDAAD4QV4bEJ0H/AAiFkEPaxCaBkMAAH9DlSIFlSIHIAdDAAB/Q14bEJ0HIQcgFCAYaiIOQwAAf0MgBiAFlSIGIAZDAAB/Q14bEJ0H/AEgFkEbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxCdB/wBQRB0cjYCACAMQQVrIARPDQ0gDEEEayAETw0JIAxBA2sgBE8NBSAPQQJGDQFDAAB/QyADQUBrKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgA0E8aioCACIJiyIGIAUgA0HEAGoqAgAiCosiCxDdCBDdCBCZBY5DAABwQZIiBSAFQwAAAABdGyIFIAVDAAD4QV4bEJ0H/AAiFkEPaxCaBkMAAH9DlSIFlSIHIAdDAAB/Q14bEJ0HIQcgDkEEakMAAH9DIAYgBZUiBiAGQwAAf0NeGxCdB/wBIBZBG3RBgICACEEAIAlDAAAAAF0bckGAgIAQQQAgCEMAAAAAXRtyQYCAgCBBACAKQwAAAABdG3JyIAf8AUEIdHJDAAB/QyALIAWVIgUgBUMAAH9DXhsQnQf8AUEQdHI2AgAgDEECayAETw0MIAxBAWsgBE8NCCAEIAxNDQcgD0EBRwRAQwAAf0MgA0HMAGoqAgAiCIsiBUMAAIA/QwAA+EFDAAAAACADQcgAaioCACIJiyIGIAUgA0HQAGoqAgAiCosiCxDdCBDdCBCZBY5DAABwQZIiBSAFQwAAAABdGyIFIAVDAAD4QV4bEJ0H/AAiD0EPaxCaBkMAAH9DlSIFlSIHIAdDAAB/Q14bEJ0HIQcgDkEIakMAAH9DIAYgBZUiBiAGQwAAf0NeGxCdB/wBIA9BG3RBgICACEEAIAlDAAAAAF0bckGAgIAQQQAgCEMAAAAAXRtyQYCAgCBBACAKQwAAAABdG3JyIAf8AUEIdHJDAAB/QyALIAWVIgUgBUMAAH9DXhsQnQf8AUEQdHI2AgAgFEEQaiEUIAxBFWohDCADQdQAaiEDIA1BBGohDSACIBVLIBVBAWohFQ0BDBELCyANQQFrDAELIA1BAmsLIBFB/NjBABCuBwALQQAgESATQbzYwQAQ1QcAC0EAIBEgEkHM2cEAENUHAAsgDEEDayEMDAELIAxBBmshDAsgDCAEQezYwQAQrgcACyAMQQFrDAILIAxBBGsMAQsgDEEHawsgBEHc2MEAEK4HAAsgDEECawwCCyAMQQVrDAELIAxBCGsLIARBzNjBABCuBwALIBAgACgCFCABQQJ0IgMgASACakECdCICEN4IIgEQuwoiBDYCCCAQIBI2AgwgBCASRw0BIAEgFyASEOQJIAFBhAhPBEAgARCFBwsgECAAKAIcIAMgAhDeCCIAELsKIgE2AgggECATNgIMIAEgE0cNAiAAIBggExDkCSAAQYQISQ0AIAAQhQcLIBBBEGokAA8LQQAgEEEIaiAQQQxqQQAgAUG088QAEOQHAAtBACAQQQhqIBBBDGpBACAAQbTzxAAQ5AcAC54UAQ5/IwBBEGsiECQAAkACQCABQSFJBEAgACEJIAEhCgwBCyACQQRrIREgAkEQayESAkACQANAIARFBEAgACABIAIgA0EBENwBDAULIAAgAUEDdiIIQRxsaiEGIAAgCEEEdGohCSAEQQFrIQQgEAJ/IAFBwABPBEAgACAJIAYgCBCuBgwBCyAAIAYgCSAAKAIAIgggCSgCACIJSSIHIAkgBigCACIGSXMbIAcgBiAIS3MbCyINKAIAIgY2AgwgDSAAa0ECdiEMAkAgBQRAIAUoAgAgBk8NAQsgASADSw0DIAIgAUECdCITaiEHQQAhCiAAIQYgDCEIA0AgACAIQQNrIglBACAIIAlPG0ECdGoiDiAGSwRAIA0oAgAhCQNAIApBAnQgAiAHQQRrIAYoAgAiCyAJSSIPG2ogCzYCACAKIA9qIgpBAnQgAiAHQQhrIAZBBGooAgAiCyAJSSIPG2ogCzYCACAKIA9qIgpBAnQgAiAHQQxrIAZBCGooAgAiCyAJSSIPG2ogCzYCACAKIA9qIgpBAnQgAiAHQRBrIgcgBkEMaigCACILIAlJIg8baiALNgIAIAogD2ohCiAGQRBqIgYgDkkNAAsLIAAgCEECdGoiCSAGSwRAIA0oAgAhDgNAIApBAnQgAiAHQQRrIgcgBigCACILIA5JIg8baiALNgIAIAogD2ohCiAGQQRqIgYgCUkNAAsLIAEgCEcEQCAHQQRrIgcgCkECdGogBigCADYCACAGQQRqIQYgASEIDAELCyAKQQJ0Ig4EQCAAIAIgDvwKAAALIAEgCmshCwJAIAEgCkYNAEEAIQkgC0EETwRAIAAgDmohBiASIBNqIQcgC0F8cSIJIQgDQCAGIAf9AAIA/QwAAAAAAAAAAAAAAAAAAAAA/Q0MDQ4PCAkKCwQFBgcAAQID/QsCACAGQRBqIQYgB0EQayEHIAhBBGsiCA0ACyAJIAtGDQELIAAgCUECdCIIaiAOaiEGIBEgEyAIa2ohByAJIAFrIApqIQgDQCAGIAcoAgA2AgAgBkEEaiEGIAdBBGshByAIQQFqIggNAAsLIApFDQAgASAKSQ0CIAAgDmogCyACIAMgBCAQQQxqEJYBIAoiAUEhTw0BIAAhCQwECyABIANLDQIgAiABQQJ0Ig5qIQdBACEIIAAhBgNAIAAgDEEDayIFQQAgBSAMTRtBAnRqIgkgBksEQCANKAIAIQUDQCAIQQJ0IAIgB0EEayAFIAYoAgAiCk8iCxtqIAo2AgAgCCALaiIIQQJ0IAIgB0EIayAFIAZBBGooAgAiCk8iCxtqIAo2AgAgCCALaiIIQQJ0IAIgB0EMayAFIAZBCGooAgAiCk8iCxtqIAo2AgAgCCALaiIIQQJ0IAIgB0EQayIHIAUgBkEMaigCACIKTyILG2ogCjYCACAIIAtqIQggBkEQaiIGIAlJDQALCyAAIAxBAnRqIgUgBksEQCANKAIAIQkDQCAIQQJ0IAIgB0EEayIHIAkgBigCACIKTyILG2ogCjYCACAIIAtqIQggBkEEaiIGIAVJDQALCyABIAxHBEAgAiAIQQJ0aiAGKAIANgIAIAZBBGohBiAIQQFqIQggB0EEayEHIAEhDAwBCwsgCEECdCINBEAgACACIA38CgAACyABIAhGDQQgACANaiEJQQAhDAJAIAEgCGsiCkEETwRAIA4gEmohBiAJIQcgCkF8cSIMIQUDQCAHIAb9AAIA/QwAAAAAAAAAAAAAAAAAAAAA/Q0MDQ4PCAkKCwQFBgcAAQID/QsCACAHQRBqIQcgBkEQayEGIAVBBGsiBQ0ACyAKIAxGDQELIAAgDEECdCIFaiANaiEGIBEgBWsgDmohByAMIAFrIAhqIQUDQCAGIAcoAgA2AgAgBkEEaiEGIAdBBGshByAFQQFqIgUNAAsLIAEgCE8EQEEAIQUgCSEAIAoiAUEhSQ0EDAELCyAIIAEgAUGMtcEAENUHAAtBiNrHAEETQfy0wQAQ2wcLAAsgCkECSQ0AIApBAXYhASABAn8gCkEPTQRAIApBB0sEQCACIAlBCEEMIAkoAgwgCSgCCEkiBRtqIggoAgAiACAJIAkoAgQiBiAJKAIAIgdPQQJ0aiIDKAIAIgQgACAESxs2AgwgAiAJQQxBCCAFG2oiBSgCACIMIAkgBiAHSUECdGoiBygCACIGIAYgDEsiBhs2AgAgAiAIIAMgBSAGGyAAIARJIgQbKAIAIgAgByAFIAMgBBsgBhsoAgAiAyAAIANLGzYCCCACIAAgAyAAIANJGzYCBCACIAFBAnQiAGoiAyAAIAlqIgBBCEEMIAAoAgwgACgCCEkiCBtqIgwoAgAiBCAAIAAoAgQiByAAKAIAIg1PQQJ0aiIFKAIAIgYgBCAGSxs2AgwgAyAAQQxBCCAIG2oiCCgCACIOIAAgByANSUECdGoiDSgCACIAIAAgDksiBxs2AgAgAyAMIAUgCCAHGyAEIAZJIgQbKAIAIgAgDSAIIAUgBBsgBxsoAgAiBCAAIARJGzYCBCADIAAgBCAAIARLGzYCCEEEDAILIAIgCSgCADYCACACIAFBAnQiAGogACAJaigCADYCAEEBDAELIAkgAiACIApBAnRqIgAQzAIgCSABQQJ0IgNqIAIgA2ogAEEgahDMAkEICyIASwRAIABBAnQhBCAAQQFqIQYgACEHA0AgBiEDIAIgB0ECdCIFaiIGIAUgCWooAgAiBTYCACAGQQRrKAIAIgcgBUsEQCAEIQYCfwNAIAIgBmoiCCAHNgIAIAIgBkEERg0BGiAGQQRrIQYgBSAIQQhrKAIAIgdJDQALIAIgBmoLIAU2AgALIARBBGohBCADIAEgA0siBWohBiADIQcgBQ0ACwsgAiABQQJ0IgNqIQUgCiABayIEIABLBEAgAyAJaiEMIABBAnQhCCAAQQFqIQYDQCAGIQMgBSAAQQJ0IgBqIgYgACAMaigCACIANgIAIAZBBGsoAgAiByAASwRAIAghBgJ/A0AgBSAGaiINIAc2AgAgBSAGQQRGDQEaIAZBBGshBiAAIA1BCGsoAgAiB0kNAAsgBSAGagsgADYCAAsgCEEEaiEIIAMgAyAESSIHaiEGIAMhACAHDQALCyAFQQRrIQggAiAKQQJ0QQRrIgBqIQwgACAJaiEEA0AgCSAFKAIAIgYgAigCACIHIAYgB0kiDRs2AgAgBCAMKAIAIgAgCCgCACIDIAAgA0sbNgIAIARBBGshBCAJQQRqIQkgCEF8QQAgACADSRtqIQggDEF8QQAgACADTxtqIQwgAiAGIAdPQQJ0aiECIAUgDUECdGohBSABQQFrIgENAAsgCEEEaiEAIApBAXEEfyAJIAIgBSAAIAJLIgEbKAIANgIAIAUgACACTUECdGohBSACIAFBAnRqBSACCyAARiAFIAxBBGpGcQ0AENMJAAsgEEEQaiQAC4cUAgp/Bn5BCCEFAkAgAUEESQ0AIAAtAAAiAiAALQABRw0AIAGtIQ4gAC0AAyEHIAAtAAIhAwJAAkACQAJAAn4CQAJAAkACQAJAAkACQAJAIAJByQBrDgUADQ0NAQ0LIANBKkcgB3INDCABQfz///8HcUEERg0BIAA1AAQhDAwICyADIAdBKkdyDQsgAUH8////B3FBBEYNASAAKAAEIQQMAgtBiOPHACkDACINp0H/AXEiAkEERg0GIAJBA0cNCiANQiCIpyIBKAIAIQMgAUEEaigCACICKAIAIgAEQCADIAARAwALIAIoAgQiAEUNCSADIAAgAigCCBCIBwwJC0GI48cAKQMAIg2nQf8BcSICQQRHDQELIAEgBEEYdCAEQYD+A3FBCHRyIARBCHZBgP4DcSAEQRh2cnKtIhAgDiAOIBBWG6ciAmtBAkkNASAAIAJqLwAAIQJBBCEFDAILIAJBA0cNByANQiCIpyIBKAIAIQMgAUEEaigCACICKAIAIgAEQCADIAARAwALIAIoAgQiAEUNBiADIAAgAigCCBCIBwwGC0EAIQJBiOPHACkDACINQgiIIQ8gDachBSAOIA1C/wGDQgRSDQEaCyAQQgJ8CyEMIAVB/wFxIgNBBEYEQEEIIQVBACEEQYjjxwApAwAiD0L/AYMhESAPQgiIIRAgD6chAyACQQh0IAJBgP4DcUEIdnJB//8DcSEHA0AgBEH//wNxIAdPDQYCfgJAIAEgDCAOIAwgDlQbpyICa0ECTwRAIAAgAmovAABBgSRGIQhBBCECQgAhDQwBC0EAIQggECENIAMhAiAOIBFCBFINARoLIAxCAnwLIQwgAkH/AXEiAkEERwRAIAJBA0cNByANQhiIpyIBKAIAIQMgAUEEaigCACICKAIAIgAEQCADIAARAwALIAIoAgQiAEUNBiADIAAgAigCCBCIBwwGCwJ+AkAgASAMIA4gDCAOVBunIgJrQQJPBEAgACACai8AAEGABkYhCUEEIQJCACENDAELQQAhCSAQIQ0gAyECIA4gEUIEUg0BGgsgDEICfAshDCACQf8BcSICQQRHBEAgAkEDRw0HIA1CGIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0GIAMgACACKAIIEIgHDAYLAn4CQCABIAwgDiAMIA5UG6ciAmtBBE8EQCAAIAJqKAAAQYCAgAhGIQpBBCECQgAhDQwBC0EAIQogECENIAMhAiAOIBFCBFINARoLIAxCBHwLIQwgAkH/AXEiAkEERwRAIAJBA0cNByANQhiIpyIBKAIAIQMgAUEEaigCACICKAIAIgAEQCADIAARAwALIAIoAgQiAEUNBiADIAAgAigCCBCIBwwGCwJ+AkAgASAMIA4gDCAOVBunIgJrQQJPBEAgACACai8AACEGQQQhAkIAIQ0MAQtBACEGIBAhDSADIQIgDiARQgRSDQEaCyAMQgJ8CyEMAkAgAkH/AXFBBEYEQCABIAwgDiAMIA5UG6drQQFLIgIgA0H/AXEiC0EERnINASALQQNHDQggD0IgiKciASgCACEDIAFBBGooAgAiAigCACIABEAgAyAAEQMACyACKAIEIgBFDQcgAyAAIAIoAggQiAcMBwsgAkH/AXFBA0cNByANQhiIpyIBKAIAIQMgAUEEaigCACICKAIAIgAEQCADIAARAwALIAIoAgQiAEUNBiADIAAgAigCCBCIBwwGCyAEQQFqIQQgDEICfCINIA0gDiARQgRRGyACGyEMIAggCXEgCnFFDQALQf8BIAZBCHQgBkGA/gNxQQh2ckH//wNxIgAgAEH/AU8bQQFrIgFB/wFxQQdLDQUMAgtBCCEFIANBA0cNBCAPQhiIpyIBKAIAIQMgAUEEaigCACICKAIAIgAEQCADIAARAwALIAIoAgQiAEUNAyADIAAgAigCCBCIBwwDCwJ+AkAgASAMIA4gDCAOVBunIgJrQQJPBEAgACACai8AACECQQQhBAwBC0EAIQJBiOPHACkDACINQgiIIQ8gDachBCAOIA1C/wGDQgRSDQEaCyAMQgJ8CyEMIARB/wFxIgNBBEcNAUEAIQRBiOPHACkDACIPQv8BgyERIA9CCIghECAPpyEDIAJB//8DcSEHA0AgBEH//wNxIAdPDQQCfgJAIAEgDCAOIAwgDlQbpyICa0ECTwRAIAAgAmovAABBkgJGIQhBBCECQgAhDQwBC0EAIQggECENIAMhAiAOIBFCBFINARoLIAxCAnwLIQwgAkH/AXEiAkEERwRAIAJBA0cNBSANQhiIpyIBKAIAIQMgAUEEaigCACICKAIAIgAEQCADIAARAwALIAIoAgQiAEUNBCADIAAgAigCCBCIBwwECwJ+AkAgASAMIA4gDCAOVBunIgJrQQJPBEAgACACai8AAEEDRiEJQQQhAkIAIQ0MAQtBACEJIBAhDSADIQIgDiARQgRSDQEaCyAMQgJ8CyEMIAJB/wFxIgJBBEcEQCACQQNHDQUgDUIYiKciASgCACEDIAFBBGooAgAiAigCACIABEAgAyAAEQMACyACKAIEIgBFDQQgAyAAIAIoAggQiAcMBAsCfgJAIAEgDCAOIAwgDlQbpyICa0EETwRAIAAgAmooAABBAUYhCkEEIQJCACENDAELQQAhCiAQIQ0gAyECIA4gEUIEUg0BGgsgDEIEfAshDCACQf8BcSICQQRHBEAgAkEDRw0FIA1CGIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0EIAMgACACKAIIEIgHDAQLAn4CQCABIAwgDiAMIA5UG6ciAmtBAk8EQCAAIAJqLwAAIQZBBCECQgAhDQwBC0EAIQYgECENIAMhAiAOIBFCBFINARoLIAxCAnwLIQwgAkH/AXEiAkEERwRAIAJBA0cNBSANQhiIpyIBKAIAIQMgAUEEaigCACICKAIAIgAEQCADIAARAwALIAIoAgQiAEUNBCADIAAgAigCCBCIBwwECyABIAwgDiAMIA5UG6drQQFLIgIgA0H/AXEiC0EERnJFBEAgC0EDRw0FIA9CIIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0EIAMgACACKAIIEIgHDAQLIARBAWohBCAMQgJ8Ig0gDSAOIBFCBFEbIAIbIQwgCCAJcSAKcUUNAAtB/wEgBiAGQf8BTxtBAWsiAUH/AXFBCE8NAwtCgIiIqOCgwIMDIAFBA3StQvgBg4inIQUMAgsgA0EDRw0BIA9CGIinIgEoAgAhAyABQQRqKAIAIgIoAgAiAARAIAMgABEDAAsgAigCBCIARQ0AIAMgACACKAIIEIgHCyABQQxBBBCIB0EIDwsgBQvTFAIWfwF7IwBB0ABrIgQkACAEQRBq/QwAAAAAAAAAAAAAAAAAAAAA/QsDACAEIBj9CwMAIAEoAgQiDCABKAIIIgpBAXQiCWohEyAMIQMCQAJAAkACQAJAAkACQAJAA0AgAyATRwRAIAMvAQAhAiADQQJqIQMgAkUNASACQRBPDQIgBCACQQF0aiICIAIvAQBBAWo7AQAgB0EBaiEHDAELCwJAAkACQAJAAkAgBw4CAwEAC0EQIQUgBEEwaiAY/QsDACAEIBj9CwMgIAQvAR4iDQRAQQ8hAwwHCyAELwEcBEBBDyEFQQ4hAwwHCyAELwEaBEBBDiEFQQ0hAwwHCyAELwEYBEBBDSEFQQwhAwwHCyAELwEWBEBBDCEFQQshAwwHCyAELwEUBEBBCyEFQQohAwwHCyAELwESBEBBCiEFQQkhAwwHCyAELwEQBEBBCSEFQQghAwwHCyAELwEOBEBBCCEFQQchAwwHCyAELwEMBEBBByEFQQYhAwwHCyAELwEKBEBBBiEFQQUhAwwHCyAELwEIBEBBBSEFQQQhAwwHCyAELwEGBEBBBCEFQQMhAwwHCyAELwEERQ0BQQMhBUECIQMMBgsgCgRAQQAhAiAMIQMDQCADLwEADQQgAkEBaiECIANBAmohAyAJQQJrIgkNAAsLQcTrxAAQ0AkACyAELwECIgJFDQNBASEDIAJBAXQhAkECIQUMBQsgAEGBgICAeDYCACAAQQ46AAQMBQsgACACOwEEIABBgICAgHg2AgAMBAsgAkEQQdTrxAAQrgcAC0Hk6sQAENAJAAsgBCAELwECQQF0IgI7ASQgBC8BBCACakEBdCECIANBAmoiBkEERgRAQQIhAwwBCyAEIAI7ASYgBC8BBiACakEBdCECIAZBBUYEQEEDIQMMAQsgBCACOwEoIAQvAQggAmpBAXQhAiAGQQZGBEBBBCEDDAELIAQgAjsBKiAELwEKIAJqQQF0IQIgBkEHRgRAQQUhAwwBCyAEIAI7ASwgBC8BDCACakEBdCECIAZBCEYEQEEGIQMMAQsgBCACOwEuIAQvAQ4gAmpBAXQhAiAGQQlGBEBBByEDDAELIAQgAjsBMCAELwEQIAJqQQF0IQIgBkEKRgRAQQghAwwBCyAEIAI7ATIgBC8BEiACakEBdCECIAZBC0YEQEEJIQMMAQsgBCACOwE0IAQvARQgAmpBAXQhAiAGQQxGBEBBCiEDDAELIAQgAjsBNiAELwEWIAJqQQF0IQIgBkENRgRAQQshAwwBCyAEIAI7ATggBC8BGCACakEBdCECIAZBDkYEQEEMIQMMAQsgBCACOwE6IAQvARogAmpBAXQhAiAGQQ9GBEBBDSEDDAELIAQgAjsBPCAELwEcIAJqQQF0IQIgBkEQRgRAQQ4hAwwBCyAEIAI7AT4gAiANakEBdCECCyACQf//A3FBAiADdEH+/wNxRgRAAkBBCiADIANBCk8bIg5BAWoiAyAFTQRAAkACfyADIAVGBEBBBCEHQQAMAQtBACEHQQAhAgJAIAUgA2siBkEITwRAIAQgA0EBdGohAyAGQRhxIgchAgNAIAP9AAEAIBj9jgEhGCADQRBqIQMgAkEIayICDQALIBggGCAY/Q0ICQoLDA0ODwABAAEAAQAB/Y4BIhggGCAY/Q0EBQYHAAEAAQABAAEAAQAB/Y4BIhggGCAY/Q0CAwABAAEAAQABAAEAAQAB/Y4B/RkAIQIgBiAHRg0BCyAHQQF0IA5BAXRqIARqQQJqIQMgByAOaiAFa0EBaiEFA0AgAy8BACACaiECIANBAmohAyAFQQFqIgUNAAsLQQQhB0EAIAJB//8DcSIDRQ0AGiADQQR0IgIQcSIHRQ0BIANBAXQLIQMgBEEANgJMIAQgBzYCSCAEIAM2AkRBBCAOdCIREHEiD0UNBUEBIA50IQsgD0EEayIWLQAAQQNxRSARRXJFBEAgD0EAIBH8CwALIAtBAWshFCAKRQ0CIAxBAmohAiAJQQJrQQF2QQFqIRdBACEGQQAhA0EBIQUgDCEJQQAhCgJAA0ACQCAKIQ0gCSEIIAIhCSAFIQoCQCAILwEAIghFDQACQCAIQQ9NBEAgBEEgaiAIQQF0aiICIAIvAQAiEkEBajsBACASQQh0IBJBCHZyIgJBBHZBjx5xIAJBjx5xQQR0ciICQQJ2QbPmAHEgAkGz5gBxQQJ0ciICQQF2QdWqAXEgAkHVqgFxQQF0ckEAIAhrQQ9xdiEFAkACQCAIIA5LBEAgCyAFIBRxIgJNDQEgDyACQQJ0aiICKAIAIgVFDQIgAyECIAVBAWshAwwECyAFIAtPDQQgCEEQdCANciENQQEgCHQiCEECdCESIA8gBUECdGohAgNAIAIgDTYCACACIBJqIQIgBSAIaiIFIAtJDQALDAQLIAIgC0GU68QAEK4HAAsgAiADQQFqIgY2AgAgBCgCRCADRgR/IARBxABqEOkGIAQoAkgFIAcLIANBA3RqQQI7AQAgBCAGNgJMIAYhAgwBCyAIQRBBhOvEABCuBwALIAggDmsiCEH//wNxIgVBAWsiB0EAIAUgB08bIQUDQAJAAkACQCACIANLBEAgBCgCSCIHIANBA3RqIhAvAQBBAWsOAggCAQsgAyACQbTrxAAQrgcACyAQKAIEIRAMAQsgEEEAOwEAIBAgAiADayIQNgIEIAQoAkQiBiACRgRAIARBxABqEOkGIAQoAkghByAEKAJEIQYLIAcgAkEDdGpBAjsBACAEIAJBAWoiFTYCTCAGIBVGBH8gBEHEAGoQ6QYgBCgCSAUgBwsgFUEDdGpBAjsBACAEIAJBAmoiBjYCTCAGIQILIBIgCEEBa3ZBAXEgA2ogEGohAyAFQf//A3EgBSEIIAVBAWshBQ0ACyADIAZPDQEgBCgCSCIHIANBA3RqIgMvAQBBAkkNAyADIA07AQIgA0EBOwEAIAYhAwsgCkEBaiEFIAlBAkEAIAkgE0cbaiECIAogF0cNAQwFCwsgAyAGQaTrxAAQrgcACyAAQYGAgIB4NgIAIABBDjoABAJAIBYoAgAiAEF4cSIDQQRBCCAAQQNxIgAbIBFqTwRAIABBACADIBFBJ2pLGw0JIA8QnwIgBCgCRCIARQ0GIAdBBGsoAgAiA0F4cSICIABBA3QiAEEEQQggA0EDcSIDG2pJDQggA0EAIAIgAEEnaksbDQEgBxCfAgwGCwwHCwwHC0EEIAIQ4QgACyADIAVBEEH06sQAENUHAAsgACAEKQJENwIAIAAgFDsBGCAAIAs2AhQgACAPNgIQIAAgCzYCDCAAQQhqIARBzABqKAIANgIADAELIABBgYCAgHg2AgAgAEEOOgAECwJAIAEoAgAiAARAIAxBBGsoAgAiAUF4cSIDIABBAXQiAEEEQQggAUEDcSIBG2pJDQMgAUEAIAMgAEEnaksbDQEgDBCfAgsgBEHQAGokAA8LDAILQQQgERDhCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC5AVAiB/DH0jAEEQayIOJAAgACABIAIQzQMCQAJAAkACQAJAAkACQAJAAkAgAygCBCIPRQRAIAMoAgwhCgwBCwJAIAMoAgwiCkUNACADKAIUIhRFDQAgAygCHCIVRQ0AIAMoAiQiEUUNACACRQ0JQwAAAEBDAACAPyAALQCcARshLyACQQxsIRkgACoCjAEgACoCiAEiJpMhKSAAKgKEASAAKgKAASIqkyErIAAoAmQhGCAAKAJgIRogAygCICEbIAMoAhghHCADKAIQIR0gAygCCCEeIAMoAgAhHyAKIQ0DQCAYIAhBA2pNBEAgCCAIQQRqIBhBoIbBABDVBwALIAYgD08NCSAPIAZrIgRBACAEIA9NGyIEQQFGDQcgBEECRg0IAkACQAJAIA0EQAJAAkAgBiAUTw0AAkACQCATIBRqQQFrDgIAAQMLIAZBAWohBgwBCyAGQQJqIQYLIAYgFEHQhsEAEK4HAAsCQAJAIAYgFU8NAAJAAkAgEyAVakEBaw4CAAEDCyAGQQFqIQYMAQsgBkECaiEGCyAGIBVB4IbBABCuBwALIAggEU8NCiARIAhrIgRBACAEIBFNGyIEQQFGDQcCQCAEQQJrDgIJCgALIBAgH2oiBygCACEEIAdBCGooAgAhDCAHQQRqKAIAIQsgCCAeaioCACAQIB1qIgcqAgAhJSAHQQhqKgIAIScgB0EEaioCACEoIBAgHGoiByoCACEkIAdBCGoqAgAhLSAHQQRqKgIAIS4gDiASIBtqIgcqAgA4AgAgDiAHQQxqKgIAOAIMIA4gB0EEaikCADcCBEMAAH9DQwAAAAAgKCAqkyArlUMAAH9DlCIoIChDAAAAAF0bIiggKEMAAH9DXhsQnQciKEMAAAAAYCEgICj8ASEhQwAAf0NDAAAAACAnICqTICuVQwAAf0OUIicgJ0MAAAAAXRsiJyAnQwAAf0NeGxCdByInQwAAAABgISIgJ/wBISNDAAB/Q0MAAAAAICUgKpMgK5VDAAB/Q5QiJSAlQwAAAABdGyIlICVDAAB/Q14bEJ0HISUgL5UhLCAEQf///wNxIQUgBEGAgICAeHEhByAEQYCAgPwHcSIJQYCAgPwHRg0BIAdBEHYhByAJQYCAgLgESw0CIAlBgICAxANPBEAgBEEMdiAEQf/fAHFBAEdxIAlBDXYgBUENdmpBgIABaiAHcmohBwwECyAJQYCAgJgDSQ0DIAVBgICABHIiBUH+ACAJQRd2IglrdiEEIAVBHSAJayIJdkEBcQR/IARBAyAJdEEBayAFcUEAR2oFIAQLIAdyIQcMAwsgCiAKQZCGwQAQrgcACyAHQRB2IAVBDXZyQYAEQQAgBRtyQYD4AXIhBwwBCyAHQYD4AXIhBwsgC0H///8DcSEFIAtBgICAgHhxIQkCQCALQYCAgPwHcSIEQYCAgPwHRwRAIAlBEHYhCSAEQYCAgLgETQRAIARBgICAxANPBEAgC0EMdiALQf/fAHFBAEdxIARBDXYgBUENdmpBgIABaiAJcmohCQwDCyAEQYCAgJgDSQ0CIAVBgICABHIiC0H+ACAEQRd2IgVrdiEEIAtBHSAFayIFdkEBcQR/IARBAyAFdEEBayALcUEAR2oFIAQLIAlyIQkMAgsgCUGA+AFyIQkMAQsgCUEQdiAFQQ12ckGABEEAIAUbckGA+AFyIQkLIAxB////A3EhBSAMQYCAgIB4cSELAkAgDEGAgID8B3EiBEGAgID8B0cEQCALQRB2IQsgBEGAgIC4BE0EQCAEQYCAgMQDTwRAIAxBDHYgDEH/3wBxQQBHcSAEQQ12IAVBDXZqQYCAAWogC3JqIQsMAwsgBEGAgICYA0kNAiAFQYCAgARyIgxB/gAgBEEXdiIFa3YhBCAMQR0gBWsiBXZBAXEEfyAEQQMgBXRBAWsgDHFBAEdqBSAECyALciELDAILIAtBgPgBciELDAELIAVBDXYgC0EQdnJBgARBACAFG3JBgPgBciELCyAOELEEIQRBACEFQQAhFiAkQwAAAABfRQRAQf8BQwAAgD9DAAAAACAkELoFICaTICmVIiQgJEMAAAAAXRsiJCAkQwAAgD9eG0MAAH5DlBCdByIk/AFBACAkQwAAAABgGyAkQwAAf0NeG0EBakH/AXEhFgsgLkMAAAAAX0UEQEH/AUMAAIA/QwAAAAAgLhC6BSAmkyAplSIkICRDAAAAAF0bIiQgJEMAAIA/XhtDAAB+Q5QQnQciJPwBQQAgJEMAAAAAYBsgJEMAAH9DXhtBAWpB/wFxQQh0IQULQQAhFyAtQwAAAABfRQRAQf8BQwAAgD9DAAAAACAtELoFICaTICmVIiQgJEMAAAAAXRsiJCAkQwAAgD9eG0MAAH5DlBCdByIk/AFBACAkQwAAAABgGyAkQwAAf0NeG0EBakH/AXFBEHQhFwsgEiAaaiIMQQRqIAdB//8DcSAJQRB0cjYCACAMQQxqIBYgBEEIdEGAgIB4cXIgBSAXcmo2AgAgDEEIaiALQf//A3EgBEEQdHJB////B3EgBEGA/v8HcUEIdkEYdHI2AgAgDEH/ASAhQQAgIBsgKEMAAH9DXhtBCHRB/wEgI0EAICIbICdDAAB/Q14bQRB0ckH/ASAl/AFBACAlQwAAAABgGyAlQwAAf0NeG3JB/wFDAAB/Q0MAAAAAICxDAAB/Q5QiJSAlQwAAAABdGyIlICVDAAB/Q14bEJ0HIiX8AUEAICVDAAAAAGAbICVDAAB/Q14bQRh0cjYCACASQRBqIRIgE0EDayETIAZBA2ohBiANQQFrIQ0gCEEEaiEIIBkgEEEMaiIQRw0ACwwJCyAAIAEgAiADKAIAIA8QogILAkACQCAKBEAgAygCCCEHIAAgASACEM0DIAIEQEMAAABAQwAAgD8gAC0AnAFBAXEbISkgAkECdCEJIAAoAmQhBCAAKAJgIQYgCiENA0AgCEEDaiAETw0DIA1FDQQgBkEDakH/AUMAAH9DQwAAAAAgByAIaioCACAplUMAAH9DlCImICZDAAAAAF0bIiYgJkMAAH9DXhsQnQciJvwBQQAgJkMAAAAAYBsgJkMAAH9DXhs6AAAgBkEQaiEGIA1BAWshDSAJIAhBBGoiCEcNAAsLIABBAToAuAELIAMoAhQiCgRAIAAgASACIAMoAhAgChCSBAsgAygCHCIKBEAgACABIAIgAygCGCAKEMcDCyADKAIkIgpFDQkgACABIAIgAygCICAKEOsEDAkLIAggCEEEaiAEQfyAwQAQ1QcACyAKIApB7IDBABCuBwALIAhBAWohCAwCCyAIQQJqIQgMAQsgCEEDaiEICyAIIBFBwIbBABCuBwALIAZBAWohBgwBCyAGQQJqIQYLIAYgD0GwhsEAEK4HAAsgAEEBOgC4ASADKAI8IQogAygCOCEGIAMoAjQhDSADKAIwIQggAygCLCIEBEAgACABIAIgAygCKCAEEM4DCyANBEAgACABIAIgCCANENgDCyAKBEAgACABIAIgBiAKENkDCyADKAJEIgoEQCAAIAEgAiADKAJAIAoQqwQLIAMoAkwiCgRAIAAgASACIAMoAkggChCsBAsgDkEQaiQAC4cVBBB/An0BfAF+IwBBIGsiAiQAAkACQAJAAkACQAJAAn8CQAJAAkACQAJAAkACQEEVIAEoAgAiBkGAgICAeHMgBkEAThtBFGsOAgABAwsCfQJAAkACQAJ9AkACQCABKAIMIgMEQCACQQRqIAEoAggiARCFBCACKAIIIQcgAigCBCIGQYCAgIB4RgRAIAchAwwSCyACKAIUIQogAigCECEJIANBAUYNBCACKAIYIQsgAigCDCEMAkACQAJAAkACQAJAAkACQAJAQRUgASgCECIFQYCAgIB4cyAFQQBOG0EBaw4KCwABAgMEBQYHCAoLIAEvARSzDAsLIAEoAhSzDAoLIAEpAxi1DAkLIAEsABSyDAgLIAEuARSyDAcLIAEoAhSyDAYLIAEpAxi0DAULIAEqAhQMBAsgASsDGCIUtkMAAIA/QwAAgL8gFL1CAFkbmAwDC0EAQcifwQBB6J3BABD9BiEDDBALIAFBEGogAkEfakHgi8EAEI8IIQMMDgsgAS0AFLMLIRIgA0ECRg0FAkACQAJAAkACQAJAAkACQAJAQRUgASgCICIFQYCAgIB4cyAFQQBOG0EBaw4KCwABAgMEBQYHCAoLIAEvASSzDAsLIAEoAiSzDAoLIAEpAyi1DAkLIAEsACSyDAgLIAEuASSyDAcLIAEoAiSyDAYLIAEpAyi0DAULIAEqAiQMBAsgASsDKCIUtkMAAIA/QwAAgL8gFL1CAFkbmAwDC0EBQcifwQBB6J3BABD9BiEDDAsLIAFBIGogAkEfakHgi8EAEI8IIQMMCgsgAS0AJLMLIRMCQCADQQNHBEAgAkEEaiABQTBqEJoFIAIoAgRFDQEgAigCCCEDDAoLQQNByJ/BAEHoncEAEP0GIQMMCQsgA0EERgRAIAIoAgwhDyACKAIIIQMMCAsgAkEENgIEIANB/P///wBqQf////8AcUEEaiACQQRqQdC1wQAQ/QYhAyAGBEAgByAGQQEQiAcLIAlFDQkgCiAJQQEQiAcMCQsgASgCCCIGRQ0EIAZBBXQhECABKAIEIRFBgICAgHghBgNAAkACQAJAAkACQAJAAkACQEEVIA0gEWoiASgCACIEQYCAgIB4cyAEQQBOG0EBaw4PAQAAAgAAAAAAAAADBAUGAAsgASACQR9qQeCJwQAQjwghBCACQQE6AAQgAiAENgIIDAYLIAJBADoABCACQQQgAUEEai0AACIEIARBBE8bOgAFDAULIAJBADoABCACQgQgAUEIaikDACIVIBVCBFobPAAFDAQLIAFBCGooAgAhBAJ/AkACQAJAAkAgAUEMaigCAEEEaw4CAQADCyAEQfidwQBBBRC7Bw0BQQAMAwtBASAEKAAAQe3SuZsHRg0CGiAEKAAAQe3C4ZsHRw0BQQIMAgsgBEGFnsEAQQUQuwcNAEEDDAELQQQLIQQgAkEAOgAEIAIgBDoABQwDCyABQQRqKAIAIQQCfwJAAkACQAJAIAFBCGooAgBBBGsOAgEAAwsgBEH4ncEAQQUQuwcNAUEADAMLQQEgBCgAAEHt0rmbB0YNAhogBCgAAEHtwuGbB0cNAUECDAILIARBhZ7BAEEFELsHDQBBAwwBC0EECyEEIAJBADoABCACIAQ6AAUMAgsgAkEEaiABQQhqKAIAIAFBDGooAgAQywUMAQsgAkEEaiABQQRqKAIAIAFBCGooAgAQywULIAItAARBAUYEQCACKAIIIQNBAQwHCyABQRBqIQQCQAJAAkACQAJAAkAgAi0ABQ4EAAECAwULIAZBgICAgHhHBEBB+J3BAEEFEM0HIQNBAQwMCyACQQRqIAQQhQQgAigCCCEHIAIoAgQiBkGAgICAeEYNCCACKAIYIQsgAigCFCEKIAIoAhAhCSACKAIMIQwMBAsgBQ0CAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAQoAgAiBUGAgICAeHMgBUEAThtBAWsOCgABAgMEBQYHCAkKCyABQRRqLQAAsyESQQEhBQwNCyABQRRqLwEAsyESQQEhBQwMCyABQRRqKAIAsyESQQEhBQwLCyABQRhqKQMAtSESQQEhBQwKCyABQRRqLAAAsiESQQEhBQwJCyABQRRqLgEAsiESQQEhBQwICyABQRRqKAIAsiESQQEhBQwHCyABQRhqKQMAtCESQQEhBQwGCyABQRRqKgIAIRJBASEFDAULIAFBGGorAwAiFLZDAACAP0MAAIC/IBS9QgBZG5ghEkEBIQUMBAsgBCACQR9qQeCLwQAQjwghA0EBDAoLAkAgCEUEQAJAAkACQAJAAkACQAJAAkACQAJAQRUgBCgCACIIQYCAgIB4cyAIQQBOG0EBaw4KAAECAwQFBgcICQsLIAFBFGotAACzIRNBASEIDA0LIAFBFGovAQCzIRNBASEIDAwLIAFBFGooAgCzIRNBASEIDAsLIAFBGGopAwC1IRNBASEIDAoLIAFBFGosAACyIRNBASEIDAkLIAFBFGouAQCyIRNBASEIDAgLIAFBFGooAgCyIRNBASEIDAcLIAFBGGopAwC0IRNBASEIDAYLIAFBFGoqAgAhE0EBIQgMBQsgAUEYaisDACIUtkMAAIA/QwAAgL8gFL1CAFkbmCETQQEhCAwEC0GBnsEAQQQQzQchA0EBDAoLIAQgAkEfakHgi8EAEI8IIQNBAQwJCwJAIA5FBEAgAkEEaiAEEJoFIAIoAgghAyACKAIERQ0BQQEMCgtBhZ7BAEEFEM0HIQNBAQwJCyACKAIMIQ9BASEODAELQf2dwQBBBBDNByEDQQEMBwsgDUEgaiINIBBHDQALDAMLQQJByJ/BAEHoncEAEP0GIQMMBgsgASACQR9qQdCIwQAQjwghAwwGCyAHIQMMBQsgBkGAgICAeEYNACACIAs2AhggAiAKNgIUIAIgCTYCECACIAw2AgwgAiAHNgIIIAIgBjYCBAJ/IAVFBEBB/Z3BAEEEEMoHDAELIAhFBEBBgZ7BAEEEEMoHDAELIA4NA0GFnsEAQQUQygcLIQMgAkEEahDYBUEADAELQYCAgIB4IQZB+J3BAEEFEMoHIQNBAQtFIAZBgICAgHhGcg0CAkAgBgRAIAdBBGsoAgAiAUF4cSIFQQRBCCABQQNxIgEbIAZqSQ0GIAFBACAFIAZBJ2pLGw0HIAcQnwILIAlFDQMgCkEEaygCACIBQXhxIgdBBEEIIAFBA3EiARsgCWpJDQUgAUEAIAcgCUEnaksbDQAgChCfAgwDCwwFCyAAIA82AiQgACADNgIgIAAgEzgCHCAAIBI4AhggACALNgIUIAAgCjYCECAAIAk2AgwgACAMNgIIIAAgBzYCBCAAIAY2AgAMAgsgBgRAIAdBBGsoAgAiAUF4cSIFQQRBCCABQQNxIgEbIAZqSQ0DIAFBACAFIAZBJ2pLGw0EIAcQnwILIAlFDQAgCkEEaygCACIBQXhxIgdBBEEIIAFBA3EiARsgCWpJDQIgAUEAIAcgCUEnaksbDQMgChCfAgsgAEGBgICAeDYCACAAIAM2AgQLIAJBIGokAA8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC44VAg9/A34jAEEgayIFJAAgAigCACIPIAIoAggiC2shCAJAAkAgAAJ/AkACQCAAAn4CQAJAAn4CQAJAAkACQAJAAkACQCABKAKoAUEBaw4CAQIACwJAAkACQEElEHEiAQRAIAFBHWpBhYLHACkAADcAACABQRBqQfiBxwD9AAAA/QsAACABQeiBxwD9AAAA/QsAAEEMEHEiAkUNASACQSU2AgggAiABNgIEIAJBJTYCAEEMEHEiAUUNAiABQSg6AAggAUG8q8EANgIEIAEgAjYCACAFIAGtQiCGQgOENwIADAMLQQFBJRDhCAALQQwQ6AkAC0EMEOgJAAsMAgsgCEEgTwRAIAEpA7gBIRMgDyEHIAshCAwICyAFQRBq/QwAAAAAAAAAAAAAAAAAAAAA/QsDACAF/QwAAAAAAAAAAAAAAAAAAAAA/QsDAAJ/IAEpA7gBIhNQBEBCACETIAsMAQsgASgCwAEiBCgCACAEKQMIIhIgBCgCBCIHrSIUIBIgFFQbp2ohAwJAIAdC/////w8gEiASQv////8PWhunayIGQQAgBiAHTRsiB0IgIBMgE0IgWhunIgYgBiAHSxsiBkEBRwRAIAZFDQEgBSADIAb8CgAADAELIAUgAy0AADoAAAsgASATIAatIhR9IhM3A7gBIAQgEiAUfDcDCCALIAYgCE0NABogAiALIAZBAUEBEJgGIAIoAggLIQQgBgRAIAIoAgQgBGogBSAG/AoAAAsgAiAEIAZqIgg2AgggBkUEQEEAIQMMCwsgAigCACEHDAcLIAEoAqwBIQcgDyEBIAshBAJ/AkAgCEEgTw0AIAUgByACEIsEAkBBAAJ/IAUtAABBBEYEQCAFKAIEDAELIAUpAwAiEkIgiCEUIBJC/wGDQgRSDQEgFKcLRQ0CGiACKAIAIQEgAigCCCEEDAELIBJCgH6DDAYLQYDAACEOA0ACQAJAIAEgD0cgASAER3INACAFIAcgAhCLBAJAAn8gBS0AAEEERgRAIAUoAgQMAQsgBSkDACISQiCIIRQgEkL/AYNCBFINASAUpwsgAigCCCEERQ0CIAIoAgAhAQwBCyASQoB+gwwICyACKAIEIQMCQAJAAn8CQAJAAkACQCABIARGBEAgBSABIAMgAUEgaiIIIAFBAXQiASABIAhJGyIBQQFBARCLBiAFKAIADQEgBSgCBCEDIAIgATYCACACIAM2AgQLIAMgBGohCiAOIAEgBGsiDSANIA5LGyIIIAZrIgMEQCAGIApqQQAgA/wLAAsgBSAHIAogCBDdAiAFLQAAQQRGDQYgBSkDACITQiCIIhSnIQZCACESAkACQAJAAkAgE6dB/wFxQQFrDgQCAQAJEQsgBi0ACEEjRg0CDA8LIAYtAAhBI0YNAUICIRIMDwsgE0KA/gODQoDGAFENAEIBIRIMDgsgE0L/AYNCA1INAyAGKAIAIQwgBkEEaigCACIDKAIAIgkEQCAMIAkRAwALIAMoAgQiA0UNAiAMQQRrKAIAIglBeHEiEEEEQQggCUEDcSIJGyADakkNFiAJRSAQIANBJ2pNcg0BDBULQgEhEkIAIRRCgMwADA0LQQAMAgtBAQwBC0ECCyEDA0ACQAJAAkACQAJAAkACQCADDgIAAQILIAwQnwIMBAsgBkEEaygCACIDQXhxIglBEEEUIANBA3EiAxtJDRcgA0EAIAlBNE8bDRYgBhCfAgwBCyAFIAcgCiAIEN0CIAUtAABBBEYNBiAFKQMAIhNCIIgiFKchBgJAAkACQAJAIBOnQf8BcUEBaw4EAAECCRELIBNCgP4Dg0KAxgBRDQJCASESDBALIAYtAAhBI0YNAUICIRIMDwsgBi0ACEEjRw0NCyATQv8Bg0IDUQ0BC0ECIQMMAwsgBigCACEMIAZBBGooAgAiAygCACIJBEAgDCAJEQMACyADKAIEIgMNAQtBASEDDAELIAxBBGsoAgAiCUF4cSIQQQRBCCAJQQNxIgkbIANqSQ0SIAlFIBAgA0Enak1yRQRADBILQQAhAwwACwALIAIgBDYCCAwBCyAFKAIEIgMgCEsEQEGcgMcAQTZB1IDHABDnCAALIAIgAyAEaiIENgIIIANFDQAgCCADayEGIAMgCEcgDSAOSXINASAOQQBIIA5BAXQhDkUNAUF/IQ4MAQsLIAQgC2sLIQMgBy0AtAFBAUcNCSACKAIIIgEgC0kNASAHQaABaiACKAIEIAtqIAEgC2sQ3QEgBygCsAEgBygCqAFGDQkgBUEVQdzoxwBBEBC7BgsgBS0AACEDDAQLIAsgASABQfyOxwAQ1QcAC0IDIRILIAIgBDYCCCATQoB+gwshEyAFIBQ+AgQgBSASpyIDOgAAIAUgE6ciAUEYdjoAAyAFIAFBCHY7AAELIANB/wFxQQRGBEAgBSgCBCEDDAQLIAUpAwAMAQsgASgCwAEhCkGAwAAhBiAFQRBqIRADQAJAIAcgD0YgByAIRnFFBEAgAigCBCEEDAELIBD9DAAAAAAAAAAAAAAAAAAAAAD9CwMAIAX9DAAAAAAAAAAAAAAAAAAAAAD9CwMAAn8gE1AEQEEAIQNCACETIA8MAQsgCikDCCISIAooAgQiBK0iFCASIBRUG6ciCCAKKAIAaiEHAkAgBEL/////DyASIBJC/////w9aG6drIgNBACADIARNGyIDQiAgEyATQiBaG6ciDSADIA1JGyIDQQFHBEAgA0UNASAFIAcgA/wKAAAMAQsgBSAHLQAAOgAACyABIBMgA60iFH0iEzcDuAEgCiASIBR8NwMIIA8gBCAIRg0AGiACIA8gA0EBQQEQmAYgAigCCAshByACKAIEIQQgAwRAIAQgB2ogBSAD/AoAAAsgAiADIAdqIgg2AgggA0UNAyACKAIAIQcLAkAgByAIRgRAIAUgByAEIAdBIGoiBCAHQQF0IgcgBCAHSxsiB0EBQQEQiwYgBSgCAA0BIAUoAgQhBCACIAc2AgAgAiAENgIECyATUARAIAIgCDYCCAwECyAEIAhqIQ0CfyAGIAcgCGsiBCAEIAZLGyIErSATWARAIAooAgQiCUL/////DyAKKQMIIhQgFEL/////D1obp2siA0EAIAMgCU0bIgMgBCADIARJGyIDBEAgDSAKKAIAIBQgCa0iEiASIBRWG6dqIAP8CgAACyAUIAOtIhJ8IRQgAyAMIAMgDEsbDAELIAooAgQiCUL/////DyAKKQMIIhQgFEL/////D1obp2siA0EAIAMgCU0bIgMgE6ciESADIBFJGyIDBEAgDSAKKAIAIBQgCa0iEiASIBRWG6dqIAP8CgAACyAUIAOtIhJ8IRQgAyAMIAMgDEsbCyENIAogFDcDCCABIBMgEn0iEzcDuAEgAiADIAhqIgg2AgggA0UNAyANIANrIQwgAyAERyAEQX8gBiAOQQFqQQAgAyAESRsiDkEBShsgBiAEIA1HGyIGSXINASAGQQBOIAZBAXQhBg0BQX8hBgwBCwtCgcwACzcCBEEBDAILIAggC2shAwsgACADrTcDCEEACzYCACAFQSBqJAAPC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAu/DgEHfwJAAkAgACgC4AIiAQRAIAAoAuQCIgRBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0BIAJBACADIAFBJ2pLGw0CIAQQnwILIAAoAvACIgEoAvgGIgJBBGsoAgAiBEF4cUGEgAFBiIABIARBA3EiAxtJDQAgA0EAIARBqIABTxsNASACEJ8CIAEoAuAGIgQEQCABKALkBiICQQRrKAIAIgNBeHEiBiAEQQF0IgRBBEEIIANBA3EiAxtqSQ0BIANBACAGIARBJ2pLGw0CIAIQnwILIAEoAvwGIgJBBGsoAgAiBEF4cUGEEEGIECAEQQNxIgMbSQ0AIANBACAEQagQTxsNASACEJ8CIAEoAuwGIgQEQCABKALwBiICQQRrKAIAIgNBeHEiBiAEQQF0IgRBBEEIIANBA3EiAxtqSQ0BIANBACAGIARBJ2pLGw0CIAIQnwILIAFBBGsoAgAiBEF4cUGsB0GwByAEQQNxIgIbSQ0AIAJBACAEQdAHTxsNASABEJ8CAkAgACgCCEECRg0AIAAoAsgBIgFBgoCAgHhIIAFFckUEQCAAKALMASIEQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyABakkNAiACQQAgAyABQSdqSxsNAyAEEJ8CCyAAKALUASIBQYKAgIB4SCABRXJFBEAgACgC2AEiBEEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAWpJDQIgAkEAIAMgAUEnaksbDQMgBBCfAgsgACgC4AEiAUGCgICAeEggAUVyRQRAIAAoAuQBIgRBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0CIAJBACADIAFBJ2pLGw0DIAQQnwILIAAoAuwBIgFBgoCAgHhIIAFFckUEQCAAKALwASIEQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyABakkNAiACQQAgAyABQSdqSxsNAyAEEJ8CCyAAKAL4ASIBQYKAgIB4SCABRXJFBEAgACgC/AEiBEEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAWpJDQIgAkEAIAMgAUEnaksbDQMgBBCfAgsgACgChAIiAUGCgICAeEggAUVyRQRAIAAoAogCIgRBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0CIAJBACADIAFBJ2pLGw0DIAQQnwILIAAoAqgBIQQgACgCrAEiAgRAIAQhAQNAIAEoAgAiAwRAIAFBBGooAgAiBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgA2pJDQQgBUEAIAcgA0EnaksbDQUgBhCfAgsgAUEMaigCACIDBEAgAUEQaigCACIGQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyADakkNBCAFQQAgByADQSdqSxsNBSAGEJ8CCyABQRhqIQEgAkEBayICDQALCyAAKAKkASIBBEAgBEEEaygCACICQXhxIgMgAUEYbCIBQQRBCCACQQNxIgIbakkNAiACQQAgAyABQSdqSxsNAyAEEJ8CCyAAKAK0ASEEIAAoArgBIgIEQCAEQRRqIQEDQCABQQRrKAIAIgMEQCABKAIAIgZBBGsoAgAiBUF4cSIHQQRBCCAFQQNxIgUbIANqSQ0EIAVBACAHIANBJ2pLGw0FIAYQnwILIAFBEGsoAgAiAwRAIAFBDGsoAgAiBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgA2pJDQQgBUEAIAcgA0EnaksbDQUgBhCfAgsgAUEcaiEBIAJBAWsiAg0ACwsgACgCsAEiAQRAIARBBGsoAgAiAkF4cSIDIAFBHGwiAUEEQQggAkEDcSICG2pJDQIgAkEAIAMgAUEnaksbDQMgBBCfAgsgACgCwAEhBCAAKALEASICBEAgBCEBA0AgAUEQaigCACIDBEAgAUEUaigCACIGQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyADakkNBCAFQQAgByADQSdqSxsNBSAGEJ8CCyABQRxqKAIAIgMEQCABQSBqKAIAIgZBBGsoAgAiBUF4cSIHQQRBCCAFQQNxIgUbIANqSQ0EIAVBACAHIANBJ2pLGw0FIAYQnwILIAFBKGooAgAiAwRAIAFBLGooAgAiBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgA2pJDQQgBUEAIAcgA0EnaksbDQUgBhCfAgsgAUEEaigCACIDBEAgAUEIaigCACIGQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyADakkNBCAFQQAgByADQSdqSxsNBSAGEJ8CCyABQThqIQEgAkEBayICDQALCyAAKAK8ASIARQ0AIARBBGsoAgAiAUF4cSICIABBOGwiAEEEQQggAUEDcSIBG2pJDQEgAUEAIAIgAEEnaksbDQIgBBCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAuVEwMOfwF7AX4jAEEQayIMJAACQAJAAkACQAJAIAAoAggiCUUEQEEAIQlBASEIQQEhCgwBCyAAKAIEIQQgCRBxIgpFDQIgBCEIA0BBACEFAkACfyAIQRRqLwEAIgJB//8BcQRAIAJB/wdxIQEgAkGAgAJxIQYgAkGA+AFxIgJBgPgBRwRAIAZBEHQiBiACQQ10QYCAgPwAcSABQQ10ckGAgIDAA2pyIAINAhogBkGAgIDYA3IgAWdBEGsiAkEXdGsgASACQf//A3FBCGp0Qf///wNxcgwCCyAGQRB0IgIgAUENdHJBgICA/gdyIAENARogAkGAgID8B3IMAQsgAkEQdAu+QwAAAABeRQ0AIAhBHGovAQAhBUEAIQICf0EAIAhBHmovAQAiAUH//wFxIgZBgPgBSw0AGkEAIAVB//8BcSIHQYD4AUsNABogAcFBAE4EQCABIAVLIAXBQQBODQEaIAEgB3JBAEcMAQsgBcFBAEggASAFSXELIQcgASAFIAcbIAUgBkGB+AFJGyEBAkAgCEEgai8BACIGQf//AXEiB0GA+AFLDQAgAUH//wFxIgVBgPgBSw0AIAbBQQBOBEAgAcFBAE4EQCAGIAFB//8DcUshAgwCCyAFIAZyQQBHIQIMAQsgAcFBAEggBiABQf//A3FJcSECC0EAIQUCfyAGIAEgAhsgASAHQYH4AUkbIgJB//8BcQRAIAJB/wdxIQEgAkGAgAJxIQYgAkGA+AFxIgJBgPgBRwRAIAZBEHQiBiACQQ10QYCAgPwAcSABQQ10ckGAgIDAA2pyIAINAhogBkGAgIDYA3IgAWdBEGsiAkEXdGsgASACQf//A3FBCGp0Qf///wNxcgwCCyAGQRB0IgIgAUENdHJBgICA/gdyIAENARogAkGAgID8B3IMAQsgAkEQdAu+EO4DQwAAAABeRQ0AIAwgCCkCACIQEMoCIAz9AAQA/Qz///9/////f////3////9//U79DAAAgH8AAIB/AACAfwAAgH/9Of2kAUEPRw0AIAwgEBDKAiAM/QAEACIPIA/95gEiDyAPIA/9DQgJCgsMDQ4PAAECAwABAgP95AEiDyAPIA/9DQQFBgcAAQIDAAECAwABAgP95AH94wH9HwBDAAAAAF4hBQsgAyAKaiAFOgAAIAhBJGohCCAJIANBAWoiA0cNAAsgBEEkaiEDIAkgCmohCEEAIQEgCiEFAkACQANAIAUgCEYNBCABQQFqIQQgBS0AAEEBRw0BIAVBAWohBSADQSRqIQMgBCIBIAlHDQALQQAhAgwBCyAEIAlGBEBBASECDAELIAEgCWshAUEBIQRBASECA0ACQAJAIAEgBGoEQCAEIAVqLQAADQEgAkEBaiECDAILQYzCwQAQ0AkACyADIAJBXGxqIgYgA/0AAgD9CwIAIAZBIGogA0EgaigCADYCACAGQRBqIANBEGr9AAIA/QsCAAsgA0EkaiEDIAEgBEEBaiIEag0ACwsgACAJIAJrNgIICyAAKAIUIgYEQEEAIQQgACgCECIBIQMgCiEFAkADQAJAIAUgCEcEQCAFLQAADQECQCABIARBGGxqIgEoAhQiAkEFTwRAIAEoAggiAUEEaygCACIHQXhxIgsgAkECdCICQQRBCCAHQQNxIgcbakkNASAHQQAgCyACQSdqSxsNCiABEJ8CC0EBIQIgBEEBaiAGRg0EIAQgBmshB0EBIQEDQCADIQQCQAJAIAggASAFaiILRwRAIANBGGohAyALLQAADQEgAkEBaiECIARBLGooAgAiC0EFSQ0CIARBIGooAgAiBEEEaygCACINQXhxIg4gC0ECdCILQQRBCCANQQNxIg0bakkNDCANQQAgDiALQSdqSxsNDSAEEJ8CDAILQdzBwQAQ0AkACyAEIAJBaGxqIgRBKGogA0EQaikCADcCACAEQRhqIAP9AAIA/QsCAAsgByABQQFqIgFqDQALDAQLDAcLQdzBwQAQ0AkACyAFQQFqIQUgA0EYaiEDIARBAWoiBCAGRw0AC0EAIQILIAAgBiACazYCFAsCQCAAKAIgIgIEQEEAIQRBEiEBIAohBQJAAkADQCAFIAhGDQQgBEEBaiEDIAUtAABBAUcNASAFQQFqIQUgAUESaiEBIAMiBCACRw0AC0EAIQEMAQsgAiADRgRAQQEhAQwBCyAEIAJrIQYgACgCHCABaiEDQQEhBEEBIQEDQAJAAkAgCCAEIAVqIgdHBEAgBy0AAA0BIAFBAWohAQwCC0HswcEAENAJAAsgAyABQW5saiIHIAP9AAEA/QsBACAHQRBqIANBEGovAQA7AQALIANBEmohAyAGIARBAWoiBGoNAAsLIAAgAiABazYCIAsCQCAAKAIsIgIEQEEAIQRBHiEBIAohBQJAAkADQCAFIAhGDQQgBEEBaiEDIAUtAABBAUcNASAFQQFqIQUgAUEeaiEBIAMiBCACRw0AC0EAIQEMAQsgAiADRgRAQQEhAQwBCyAEIAJrIQcgACgCKCABaiEDQQEhBEEBIQEDQAJAAkAgCCAEIAVqIgZHBEAgBi0AAA0BIAFBAWohAQwCC0HMwcEAENAJAAsgAyABQWJsaiIGIAP9AAEA/QsBACAGQRZqIANBFmopAQA3AQAgBkEQaiADQRBqKQEANwEACyADQR5qIQMgByAEQQFqIgRqDQALCyAAIAIgAWs2AiwLAkAgACgCOCICBEBBACEEQSohASAKIQUCQAJAA0AgBSAIRg0EIARBAWohAyAFLQAAQQFHDQEgBUEBaiEFIAFBKmohASADIgQgAkcNAAtBACEBDAELIAIgA0YEQEEBIQEMAQsgBCACayEHIAAoAjQgAWohA0EBIQRBASEBA0ACQAJAIAggBCAFaiIGRwRAIAYtAAANASABQQFqIQEMAgtB/MHBABDQCQALIAMgAUFWbGoiBiAD/QABAP0LAQAgBkEoaiADQShqLwEAOwEAIAZBIGogA0EgaikBADcBACAGQRBqIANBEGr9AAEA/QsBAAsgA0EqaiEDIAcgBEEBaiIEag0ACwsgACACIAFrNgI4CwJAIAkEQCAKQQRrKAIAIgBBeHEiBUEEQQggAEEDcSIAGyAJakkNByAAQQAgBSAJQSdqSxsNASAKEJ8CCyAMQRBqJAAPCwwGC0H8wcEAENAJAAtBzMHBABDQCQALQezBwQAQ0AkAC0GMwsEAENAJAAtBASAJEOEIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL0xMDBn4PfwF7AkACQAJAAkACQCAAAn8CQAJAAkAgACgCDCIRQQFqIggEQCAAKAIEIg8gD0EBaiINQQN2IglBB2wiEyAPQQhJGyIKQQF2IAhJBEAgCkEBaiIJIAggCCAJSRsiCEEPSQ0CIAhB/////wFNBEBBfyAIQQN0QQduQQFrZ3YiCEH+////AUsNCyAIQQFqIQgMBwsMCgtBACANRQ0EGiAAKAIAIQBBACEIIAkgDUEHcUEAR2oiCkEBTQ0CIAAhCCAKQf7///8DcSILIQkDQCAIIAj9AAMAIhf9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gF/0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACAIQRBqIQggCUECayIJDQALIAogC0YNAyAKQQFxIQogC0EDdCEIDAILDAgLQQQgCEEIcUEIaiAIQQRJGyEIDAMLIAAgCGohCANAIAggCCkDACICQn+FQgeIQoGChIiQoMCAAYMgAkL//v379+/fv/8AhHw3AwAgCEEIaiEIIApBAWsiCg0ACwsCQCANQQhPBEAgACANaiAAKQAANwAADAELIA1FDQAgAEEIaiAAIA38CgAACyABKQMAIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIQhBSAAQQhqIQsgAEEIayEUIAJCf4UhBiABKQMIIQRBASEBIAAhCUEAIQgDQCAIIQogASEIAkAgACAKaiISLQAAQYABRw0AIBQgCkEDdGshFSAAIApBf3NBA3RqIRYCQANAIA8gBCAVNQIAhSIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEQtKBqpur+oLXp39+IgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIQgA0LYotHvwqnlvy1+hSICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEIAZ+IgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIQgAiAFfoUgAomnIhBxIgwhASAAIAxqKQAAQoCBgoSIkKDAgH+DIgJQBEBBCCEOA0AgASAOaiEBIA5BCGohDiAAIAEgD3EiAWopAABCgIGChIiQoMCAf4MiAlANAAsLIAAgAnqnQQN2IAFqIA9xIgFqLAAAQQBOBEAgACkDAEKAgYKEiJCgwIB/g3qnQQN2IQELIAEgDGsgCiAMa3MgD3FBCEkNASAAIAFqIgwtAAAgDCAQQRl2Igw6AAAgCyABQQhrIA9xaiAMOgAAQf8BRwRAIAAgAUEDdGshDEF4IQEDQCABIAlqIg4oAAAhECAOIAEgDGoiDigAADYAACAOIBA2AAAgAUEEaiIBDQALDAELCyASQf8BOgAAIAsgDyAKQQhrcWpB/wE6AAAgACABQX9zQQN0aiAWKQAANwAADAELIBIgEEEZdiIBOgAAIAsgDyAKQQhrcWogAToAAAsgCUEIayEJIAggCCANSSIKaiEBIAoNAAsgDyATIA9BCEkbCyARazYCCAwBCyAIQQhqIgkgCEEDdCINaiIKIAlJIApB+P///wdLcg0DIAoQcSILRQRAIAoQ6AkACyALIA1qIQsgCQRAIAtB/wEgCfwLAAsgCEEBayIMIAhBA3ZBB2wgDEEISRshEiAAKAIAIQ0CQCARRQRAQQAhEQwBCyALQQhqIRAgASkDACICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEIQYgDUEIayETIAJCf4UhByANKQMAQn+FQoCBgoSIkKDAgH+DIQQgASkDCCEFQQAhCCARIQEgDSEKA0AgBFAEQANAIAhBCGohCCAKQQhqIgopAwBCgIGChIiQoMCAf4MiAkKAgYKEiJCgwIB/UQ0ACyACQoCBgoSIkKDAgH+FIQQLIAsgDCAFIBMgBHqnQQN2IAhqIhRBA3RrNQIAhSIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIAVCCIhCgICA+A+DIAVCGIhCgID8B4OEIAVCKIhCgP4DgyAFQjiIhISEQtKBqpur+oLXp39+IgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIQgA0LYotHvwqnlvy1+hSICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEIAd+IgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIQgAiAGfoUgAomnIhVxIglqKQAAQoCBgoSIkKDAgH+DIgJQBEBBCCEOA0AgCSAOaiEJIA5BCGohDiALIAkgDHEiCWopAABCgIGChIiQoMCAf4MiAlANAAsLIARCAX0gBIMhBCALIAJ6p0EDdiAJaiAMcSIJaiwAAEEATgRAIAspAwBCgIGChIiQoMCAf4N6p0EDdiEJCyAJIAtqIBVBGXYiDjoAACAQIAlBCGsgDHFqIA46AAAgCyAJQX9zQQN0aiANIBRBf3NBA3RqKQAANwMAIAFBAWsiAQ0ACwsgACAMNgIEIAAgCzYCACAAIBIgEWs2AgggD0UNACAPIA9BA3RBD2pBeHEiAWpBCWoiAEUNACANIAFrIgFBBGsoAgAiCEF4cSIJQQRBCCAIQQNxIggbIABqSQ0BIAhBACAJIABBJ2pLGw0CIAEQnwIPCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0GQucQAQTlBrLnEABDbBwALtBQECH8Efgd9AXsjAEHQAmsiASQAAkACQAJAAkACQAJAAkACQAJAAkACQCAALQCcA0UEQCAAKAIAIgJBAkcNCiAAKAKIAUECRw0KAkAgACgCgAMiAkEESQ0AIAEgACgC/AIiBSgAACIDNgIQIANB0oKRmgRHBEAgA0HSgpGCA0cNAyACQQhJDQEgAiAFKAAEIgRBB2pBeHFBCGoiA0kNASAEQQhqIgYgAksgBEF3S3INBCABQQA2AsgCIAEgBDYCxAIgASAFQQhqNgLAAiABQSBqIAFBwAJqEGQgASgCJCEEIAEoAiAiBkECRgRAIAQQggghAgwOCyABQbABaiABQShqQYAB/AoAACABIAQ2AqwBIAEgBjYCqAEgACgCgAMiAiADSQ0FIABBADYCgAMgAiADayEFIANFDQYgAiADRg0IIAVFDQcgACgC/AIiAiACIANqIAX8CgAADAcLIAFBCGogABDSAiABLQAIRQRAIAEtAAkNCUEAIQIMDQsgASgCDCECDAwLQQAhAgwLCyAANQKAAyEJIABBADYCgAMgACAJIAApA9gCfDcD2AIMCgsgASABQRBqrUKAgICAgASENwMgIAFBFGoiAEHc4MEAIAFBIGoQ9QYgABCACCECDAkLQQggBiACQczgwQAQ1QcAC0EAIAMgAkHAiMcAENUHAAsgAiADRg0BCyAAIAU2AoADCyAAIAApA9gCIAOtfCIJNwPgAiAAIAk3A9gCAkACQAJAIAEoAqQCQQFGBEAgACABKAKUAiIDNgKIAyAAIAEoArQBIAEoAsABIgIgASgCsAEbIgU2AowDIAVFDQEgAiAFbiIHIAUgB2wgAkdqIgUgA0YEQCABLQCoAiEDIAEgBEEAIAZBAXEbNgIkIAEgAjYCICABIANBAXEiAjoAKCAAQfgBaiABQSBqEOcBIAEoAtABIgRBAkcEQAJ9IAAtANACIgNBAkYEQEMAAEDBIQ1DAAAQQSEOQwAAgD8hEEEAIQNDAACAPyERQwAAgD8hEkMAAIA/IRNDAAAAAAwBCyABQSJqIABB0wJqLQAAOgAAIAEgAC8A0QI7ASAgACoCzAIhECAAKgLIAiERIAAqAsQCIRIgACoCwAIhDiAAKgK8AiENIAAqArgCIRMgACoCtAILIQ8gACABKgKEAiAQIAEoAoACGzgCzAIgACABKgL8ASARIAEoAvgBGzgCyAIgACABKgL0ASASIAEoAvABGzgCxAIgACABKgLsASAOIAEoAugBGzgCwAIgACABKgLkASANIAEoAuABGzgCvAIgACABKgLcASATIAEoAtgBGzgCuAIgACADIAEtAIgCIgMgA0ECRhs6ANACIAAgASoC1AEgDyAEQQFxGzgCtAIgAEHTAmogAUEiai0AADoAACAAIAEvASA7ANECCyACRQ0EAn0gAC0A0AJBAkYEQP0MAAAAAAAAgD8AAEDBAAAQQSEUQwAAgD8hDUMAAIA/IQ5DAACAPwwBCyABQSJqIABB0wJqLQAAOgAAIAEgAC8A0QI7ASAgACoCyAIhDSAAKgLEAiEOIAD9AAK0AiEUIAAqAswCCyEPIABBAToA0AIgACAPOALMAiAAIA04AsgCIAAgDjgCxAIgACAU/QsCtAIgACABLwEgOwDRAiAAQdMCaiABQSJqLQAAOgAADAQLIAEgBTYCzAIgAUKAgICAECIJIABBiANqrYQ3AyggASAJIAFBzAJqrYQ3AyAgAUHAAmoiAEG1hcAAIAFBIGoQ9QYgABCACCECDAILIAEgAUGkAmqtQoCAgIAQhDcDICABQbQCaiIAQZeSwAAgAUEgahD1BiAAEIAIIQIgASgClAIhAwwBC0G84MEAENQJAAsgASgCkAIhBCADBEAgBEEkaiEAA0AgAEEEaygCACIFQYCAgIB4ckGAgICAeEcEQCAAKAIAIAVBARCIBwsgAEEwaiEAIANBAWsiAw0ACwsgASgCjAIiAARAIAQgAEEwbEEIEIgHCyABKAKYAiIAQYCAgIB4ckGAgICAeEYNBSABKAKcAiAAQQEQiAcMBQsCQCAAKAIAQQJGDQAgACgCaCEEIAAoAmwiAwRAIARBJGohAgNAIAJBBGsoAgAiBUGAgICAeHJBgICAgHhHBEAgAigCACIGQQRrKAIAIgdBeHEiCEEEQQggB0EDcSIHGyAFakkNBSAHQQAgCCAFQSdqSxsNBiAGEJ8CCyACQTBqIQIgA0EBayIDDQALCyAAKAJkIgMEQCAEIANBMGxBCBCIBwsgACgCcCIDQYCAgIB4ckGAgICAeEYNACAAKAJ0IANBARCIBwsgACABQagBakGIAfwKAAALIAAoAgAhAgwCC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsCQAJAAkACQAJ/AkAgAkECRwRAIAAoAoQDIAAoAogDTw0GIAAoAogBQQJGDQFBAAwCCyABQagBaiAAEGkgASgCrAFBACABLQCoASIDGyECIAMNBiABLQCpAUEBcUUNBiAAKQPwAiILIAApA9gCIglYBEAgACgCgAMhAwwFCyAAKAKAAyEEQQAhAyAAQQA2AoADIAQgCyAJfSIKIAStIgwgCiAMVBsiCqciBWshAiAKUEUEQCAEIAVGDQQgAkUNAyAAKAL8AiIDIAMgBWogAvwKAAAMAwsgBCAFRw0CDAMLQQELIQIDQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAkUEQCABQagBaiAAEGkgASgCrAEhAyABLQCoASICDQIgAS0AqQFBAXFFDQIgACkD8AIiCSAAKQPYAiILVg0BDAYLIAFBqAFqIAAQ0gIgAS0AqAFBAUYEQCABKAKsASECDBELIAEtAKkBDQlBACECDBALIAAoAoADIQMgAEEANgKAAyADIAkgC30iCiADrSIMIAogDFQbIgqnIgJrIQQgClANASACIANGDQMgBEUNAiAAKAL8AiIDIAIgA2ogBPwKAAAMAgsgA0EAIAIbIQIMDgsgAiADRg0BCyAAIAQ2AoADCyAAIAogC3wiCzcD2AIgCSALVg0BCwJAIAAoAogBQQJGDQAgACgC5AEiA0UNACAAKALoASICQQRrKAIAIgRBeHEiBSADQShsIgNBBEEIIARBA3EiBBtqSQ0CIARBACAFIANBJ2pLGw0DIAIQnwILIABBAjYCiAEgACAAKAKEA0EBaiIDNgKEAyADIAAoAogDSQ0EDAkLQQAhAgwJC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBACECDAELQQEhAgwACwALIAAgAjYCgAMgAiEDCyAAIAkgCnwiCTcD2AIgCSALWg0AQQAhAgwCC0EAIQIgAEEANgKAAyAAQQE6AJwDIAAgCSADrXw3A9gCDAELIABBAToAnAMgADUCgAMhCUEAIQIgAEEANgKAAyAAIAkgACkD2AJ8NwPYAgsgAUHQAmokACACC9MQAgp/B30gA0EITwRAIAAgACADQQN2IgNBBHQiBWogACADQRxsIghqIAMgBBCgASEAIAEgASAFaiABIAhqIAMgBBCgASEBIAIgAiAFaiACIAhqIAMgBBCgASECC0MAAIA/IRACfwJAIAAoAgAiBSAEKAIAQQRqKAIAIgMoAggiCEkEQCABKAIAIQYgAygCBCILIAVBGGxqIgQtABMiBSAELQASIgcgBC0AESIKIAcgCksbIgcgBSAHSxsiBwR9QwAAQMEgAyoCRCADLQBYQQJGIgUbIg9DAAAQQSADKgJIIAUbIA+TQwAAfkOVIAdBAWtB/wFxs5SSEO4DIg8gD5IFQwAAAAALIRIgBEEMai8BACIEQf//AXEiDUUNASAEQf8HcSEFIARBgIACcSEKIARBgPgBcSIJQYD4AUcEQCAKQRB0IgogCUENdEGAgID8AHEgBUENdHJBgICAwANqciAJDQMaIAUgBWdBEGsiBUH//wNxQQhqdEH///8DcSAKQYCAgNgDciAFQRd0a3IMAwsgCkEQdCIKIAVBDXRyQYCAgP4HciAFDQIaIApBgICA/AdyDAILIAUgCEGcnscAEK4HAAsgBEEQdAu+Ig9DAACAP14EQCAPELoFQ1T4LUCUQwAAgD+SkSEQC0MAAIA/IQ8CfwJAIAYgCEkEQCALIAZBGGxqIgUtABMiBiAFLQASIgogBS0AESIJIAkgCkkbIgogBiAKSxsiCgR9QwAAQMEgAyoCRCADLQBYQQJGIgYbIhFDAAAQQSADKgJIIAYbIBGTQwAAfkOVIApBAWtB/wFxs5SSEO4DIhEgEZIFQwAAAAALIRMgBUEMai8BACIFQf//AXEiDkUNASAFQf8HcSEGIAVBgIACcSEJIAVBgPgBcSIMQYD4AUcEQCAJQRB0IgkgDEENdEGAgID8AHEgBkENdHJBgICAwANqciAMDQMaIAYgBmdBEGsiBkH//wNxQQhqdEH///8DcSAJQYCAgNgDciAGQRd0a3IMAwsgCUEQdCIJIAZBDXRyQYCAgP4HciAGDQIaIAlBgICA/AdyDAILIAYgCEGcnscAEK4HAAsgBUEQdAu+IhFDAACAP14EQCARELoFQ1T4LUCUQwAAgD+SkSEPCyACKAIAIQkgBwR9QwAAQMEgAyoCRCADLQBYQQJGIgYbIhFDAAAQQSADKgJIIAYbIBGTQwAAfkOVIAdBAWtB/wFxs5SSEO4DIhEgEZIFQwAAAAALIRRDAACAPyERAn8gDQRAIARB/wdxIQYgBEGAgAJxIQcgBEGA+AFxIgRBgPgBRwRAIAdBEHQiByAEQQ10QYCAgPwAcSAGQQ10ckGAgIDAA2pyIAQNAhogBiAGZ0EQayIEQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIARBF3RrcgwCCyAHQRB0IgQgBkENdHJBgICA/gdyIAYNARogBEGAgID8B3IMAQsgBEEQdAu+IhVDAACAP14EQCAVELoFQ1T4LUCUQwAAgD+SkSERCwJ/AkAgCCAJSwRAIBIgEJQiECATIA+UYCALIAlBGGxqIgQtABMiBiAELQASIgcgBC0AESIJIAcgCUsbIgcgBiAHSxsiBgR9QwAAQMEgAyoCRCADLQBYQQJGIgcbIg9DAAAQQSADKgJIIAcbIA+TQwAAfkOVIAZBAWtB/wFxs5SSEO4DIg8gD5IFQwAAAAALIRJFIQsgECAQWyEMIARBDGovAQAiBEH//wFxIg1FDQEgBEH/B3EhCCAEQYCAAnEhByAEQYD4AXEiCUGA+AFHBEAgB0EQdCIHIAlBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCQ0DGiAIIAhnQRBrIghB//8DcUEIanRB////A3EgB0GAgIDYA3IgCEEXdGtyDAMLIAdBEHQiByAIQQ10ckGAgID+B3IgCA0CGiAHQYCAgPwHcgwCCyAJIAhBnJ7HABCuBwALIARBEHQLQwAAgD8hD74iEEMAAIA/XgRAIBAQugVDVPgtQJRDAACAP5KRIQ8LIAsgDHEiCCAUIBGUIhAgEFsgECASIA+UYEVxRgR/IAIgASAIIAoEfUMAAEDBIAMqAkQgAy0AWEECRiIAGyIPQwAAEEEgAyoCSCAAGyAPk0MAAH5DlSAKQQFrQf8BcbOUkhDuAyIPIA+SBUMAAAAACwJ/IA4EQCAFQf8HcSEAIAVBgIACcSEBIAVBgPgBcSICQYD4AUcEQCABQRB0IgEgAkENdEGAgID8AHEgAEENdHJBgICAwANqciACDQIaIAAgAGdBEGsiAEH//wNxQQhqdEH///8DcSABQYCAgNgDciAAQRd0a3IMAgsgAUEQdCIBIABBDXRyQYCAgP4HciAADQEaIAFBgICA/AdyDAELIAVBEHQLviIPQwAAgD9eBH0gDxC6BUNU+C1AlEMAAIA/kpEFQwAAgD8LlCIPIA9bIA8gBgR9QwAAQMEgAyoCRCADLQBYQQJGIgAbIhBDAAAQQSADKgJIIAAbIBCTQwAAfkOVIAZBAWtB/wFxs5SSEO4DIhAgEJIFQwAAAAALAn8gDQRAIARB/wdxIQAgBEGAgAJxIQEgBEGA+AFxIgJBgPgBRwRAIAFBEHQiASACQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2pyIAINAhogACAAZ0EQayIAQf//A3FBCGp0Qf///wNxIAFBgICA2ANyIABBF3RrcgwCCyABQRB0IgEgAEENdHJBgICA/gdyIAANARogAUGAgID8B3IMAQsgBEEQdAu+IhBDAACAP14EfSAQELoFQ1T4LUCUQwAAgD+SkQVDAACAPwuUYEVxcxsFIAALC+8RAw1/AXsJfQJAAkACQAJAAkAgACgCCCIJRQRAQQEhBkEBIQoMAQsgACgCBCEFIAkQcSIKRQ0CQwAAEEEgACoCSCAALQBYQQJGIgQbQwAAQMEgACoCRCAEGyITk0MAAH5DlSEUIAVBFGohBgNAQQAhBAJAAn8gBkEIay8BACIBQf//AXEEQCABQf8HcSECIAFBgIACcSEHIAFBgPgBcSIBQYD4AUcEQCAHQRB0IgcgAUENdEGAgID8AHEgAkENdHJBgICAwANqciABDQIaIAIgAmdBEGsiAkH//wNxQQhqdEH///8DcSAHQYCAgNgDciACQRd0a3IMAgsgB0EQdCIBIAJBDXRyQYCAgP4HciACDQEaIAFBgICA/AdyDAELIAFBEHQLvkMAAAAAXkUNACAGQQFrLQAAIgIgBkECay0AACIBIAZBA2stAAAiByABIAdLGyIBIAEgAkkbIgJFDQAgEyAUIAJBAWtB/wFxs5SSEO4DQwAAAABeRQ0AQwAAgD8gBi8BACICQQh2s/0TIAIgBkECai0AACIBQRB0ckH/AXGz/SAB/QwAAH9DAAB/QwAAf0MAAH9D/ecBIg4gDv3kAf0MAACAvwAAgL8AAIC/AACAv/3kASIO/R8BIg+LkyAO/R8AIhWLkyIRjEMAAAAAEN0IIRAgAbNDAAB/Q5VDAAAAP5RD2w9JQJQiFhCYAiISIA8gECAQjCIXIA79DAAAAAAAAAAAAAAAAAAAAAD9Rv1NIg79xwH9GwJBAXEbkiIPIBEgEZQgDyAPlCAVIBAgFyAO/RsAQQFxG5IiECAQlJKSkSIPlZT9EyASIBAgD5WU/SABIBIgESAPlZT9IAIgFhCbAv0gAyIO/Qz///9/////f////3////9//U79DAAAgH8AAIB/AACAfwAAgH/9Of2kAUEPRw0AIA4gDv3mASIOIA4gDv0NCAkKCwwNDg8AAQIDAAECA/3kASIOIA4gDv0NBAUGBwABAgMAAQIDAAECA/3kAf3jAf0fAEMAAAAAXiEECyADIApqIAQ6AAAgBkEYaiEGIAkgA0EBaiIDRw0ACyAFQRhqIQMgCSAKaiEGQQAhASAKIQQCQAJAA0AgBCAGRg0EIAFBAWohAiAELQAAQQFHDQEgBEEBaiEEIANBGGohAyACIgEgCUcNAAtBACEBDAELIAIgCUYEQEEBIQEMAQsgASAJayEFQQEhAkEBIQEDQAJAAkAgAiAFagRAIAIgBGotAAANASABQQFqIQEMAgtBvMHBABDQCQALIAMgAUFobGoiByAD/QACAP0LAgAgB0EQaiADQRBqKQIANwIACyADQRhqIQMgBSACQQFqIgJqDQALCyAAIAkgAWs2AggLIAAoAhQiBwRAQQAhAiAAKAIQIgEhAyAKIQQCQANAAkAgBCAGRwRAIAQtAAANAQJAIAEgAkEYbGoiASgCFCIFQQVPBEAgASgCCCIBQQRrKAIAIghBeHEiCyAFQQJ0IgVBBEEIIAhBA3EiCBtqSQ0BIAhBACALIAVBJ2pLGw0KIAEQnwILQQEhBSACQQFqIAdGDQQgAiAHayEIQQEhAQNAIAMhAgJAAkAgBiABIARqIgtHBEAgAkEYaiEDIAstAAANASAFQQFqIQUgAkEsaigCACILQQVJDQIgAkEgaigCACICQQRrKAIAIgxBeHEiDSALQQJ0IgtBBEEIIAxBA3EiDBtqSQ0MIAxBACANIAtBJ2pLGw0NIAIQnwIMAgtB/MDBABDQCQALIAIgBUFobGoiAkEoaiADQRBqKQIANwIAIAJBGGogA/0AAgD9CwIACyAIIAFBAWoiAWoNAAsMBAsMBwtB/MDBABDQCQALIARBAWohBCADQRhqIQMgAkEBaiICIAdHDQALQQAhBQsgACAHIAVrNgIUCwJAIAAoAiAiBQRAQQAhAkEJIQEgCiEEAkACQANAIAQgBkYNBCACQQFqIQMgBC0AAEEBRw0BIARBAWohBCABQQlqIQEgAyICIAVHDQALQQAhAQwBCyADIAVGBEBBASEBDAELIAIgBWshByAAKAIcIAFqIQNBASECQQEhAQNAAkACQCAGIAIgBGoiCEcEQCAILQAADQEgAUEBaiEBDAILQZzBwQAQ0AkACyADIAFBd2xqIgggAykAADcAACAIQQhqIANBCGotAAA6AAALIANBCWohAyAHIAJBAWoiAmoNAAsLIAAgBSABazYCIAsCQCAAKAIsIgUEQEEAIQJBDyEBIAohBAJAAkADQCAEIAZGDQQgAkEBaiEDIAQtAABBAUcNASAEQQFqIQQgAUEPaiEBIAMiAiAFRw0AC0EAIQEMAQsgAyAFRgRAQQEhAQwBCyACIAVrIQcgACgCKCABaiEDQQEhAkEBIQEDQAJAAkAgBiACIARqIghHBEAgCC0AAA0BIAFBAWohAQwCC0GswcEAENAJAAsgAyABQXFsaiIIIAMpAAA3AAAgCEEHaiADQQdqKQAANwAACyADQQ9qIQMgByACQQFqIgJqDQALCyAAIAUgAWs2AiwLAkAgACgCOCIFBEBBACECQRUhASAKIQQCQAJAA0AgBCAGRg0EIAJBAWohAyAELQAAQQFHDQEgBEEBaiEEIAFBFWohASADIgIgBUcNAAtBACEBDAELIAMgBUYEQEEBIQEMAQsgAiAFayEHIAAoAjQgAWohA0EBIQJBASEBA0ACQAJAIAYgAiAEaiIIRwRAIAgtAAANASABQQFqIQEMAgtBjMHBABDQCQALIAMgAUFrbGoiCCAD/QAAAP0LAAAgCEENaiADQQ1qKQAANwAACyADQRVqIQMgByACQQFqIgJqDQALCyAAIAUgAWs2AjgLAkAgCQRAIApBBGsoAgAiAEF4cSIEQQRBCCAAQQNxIgAbIAlqSQ0HIABBACAEIAlBJ2pLGw0BIAoQnwILDwsMBgtBjMHBABDQCQALQazBwQAQ0AkAC0GcwcEAENAJAAtBvMHBABDQCQALQQEgCRDhCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC+AhAjB/Bn4jAEGgBGsiCCQAAkACQAJAAkAgAygCDEUNACADKQMQIjYgAykDGCI3QamxxwBBARCRBCE0IAMoAgQiBCA0p3EhBSA0QhmIQv8Ag0KBgoSIkKDAgAF+ITggAygCACEGA0ACQCAFIAZqKQAAIjUgOIUiNEJ/hSA0QoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIjRQRQRAA0AgBiA0eqdBA3YgBWogBHFBbGxqIgdBDGsoAgBBAUYEQCAHQRBrKAIALQAAQfgARg0DCyA0QgF9IDSDIjRQRQ0ACwsgNSA1QgGGg0KAgYKEiJCgwIB/g1BFDQIgBSALQQhqIgtqIARxIQUMAQsLQaqxxwBBEhD7ByIFIAUoAgAoAgARAwAgB0EEay0AACEWIAdBCGsoAgAhFyAEIDYgN0G8sccAQQEQkQQiNKdxIQUgNEIZiEL/AINCgYKEiJCgwIABfiE2QQAhCwJAA0AgBSAGaikAACI1IDaFIjRCf4UgNEKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyI0UEUEQANAIAYgNHqnQQN2IAVqIARxQWxsaiIHQQxrKAIAQQFGBEAgB0EQaygCAC0AAEH5AEYNBAsgNEIBfSA0gyI0UEUNAAsLIDUgNUIBhoNCgIGChIiQoMCAf4NQBEAgBSALQQhqIgtqIARxIQUMAQsLQb2xxwBBEhD7ByEBIABBgICAgHg2AtwEIAAgATYCACADELkEDAILQb2xxwBBEhD7ByIFIAUoAgAoAgARAwAgB0EEay0AACEYIAdBCGsoAgAhGSADQc+xxwBBARCnBSEFQdCxxwBBEhD7ByEEIAVFBEAgAEGAgICAeDYC3AQgACAENgIAIAMQuQQMAgsgBCAEKAIAKAIAEQMAIAUtAAQhGiAFKAIAIRsgA0HisccAQQcQpwUhBUHpsccAQRgQ+wchBCAFRQRAIABBgICAgHg2AtwEIAAgBDYCACADELkEDAILIAQgBCgCACgCABEDACAFLQAEIRwgBSgCACEdIANBgbLHAEEHEKcFIQVBiLLHAEEYEPsHIQQgBUUEQCAAQYCAgIB4NgLcBCAAIAQ2AgAgAxC5BAwCCyAEIAQoAgAoAgARAwAgBS0ABCEeIAUoAgAhHyADQaCyxwBBBxCnBSEFQaeyxwBBGBD7ByEEIAVFBEAgAEGAgICAeDYC3AQgACAENgIAIAMQuQQMAgsgBCAEKAIAKAIAEQMAIAUtAAQhICAFKAIAISEgA0G/sscAQQUQpwUhBUHEsscAQRYQ+wchBCAFRQRAIABBgICAgHg2AtwEIAAgBDYCACADELkEDAILIAQgBCgCACgCABEDACAFLQAEISIgBSgCACEjIANB2rLHAEEFEKcFIQVB37LHAEEWEPsHIQQgBUUEQCAAQYCAgIB4NgLcBCAAIAQ2AgAgAxC5BAwCCyAEIAQoAgAoAgARAwAgBS0ABCEkIAUoAgAhJSADQfWyxwBBBRCnBSEFQfqyxwBBFhD7ByEEIAVFBEAgAEGAgICAeDYC3AQgACAENgIAIAMQuQQMAgsgBCAEKAIAKAIAEQMAIAUtAAQhJiAFKAIAIScgA0GQs8cAQQUQpwUhBUGVs8cAQRYQ+wchBCAFRQRAIABBgICAgHg2AtwEIAAgBDYCACADELkEDAILIAQgBCgCACgCABEDACAFLQAEISggBSgCACEpIANBq7PHAEEHEKcFIQVBsrPHAEEYEPsHIQQgBUUEQCAAQYCAgIB4NgLcBCAAIAQ2AgAgAxC5BAwCCyAEIAQoAgAoAgARAwAgBS0ABCEqIAUoAgAhKyADQcqzxwBBBhCnBSEFQdCzxwBBFxD7ByEEIAVFBEAgAEGAgICAeDYC3AQgACAENgIAIAMQuQQMAgsgBCAEKAIAKAIAEQMAIAUtAAQhLCAFKAIAIS0gA0Hns8cAQQYQpwUhBUHts8cAQRcQ+wchBCAFRQRAIABBgICAgHg2AtwEIAAgBDYCACADELkEDAILIAQgBCgCACgCABEDACAFLQAEIS4gBSgCACEvIANBhLTHAEEGEKcFIQVBirTHAEEXEPsHIQQgBUUEQCAAQYCAgIB4NgLcBCAAIAQ2AgAgAxC5BAwCCyAEIAQoAgAoAgARAwAgCEEEaq1CgICAgPABhCE0IAUtAAQhMCAFKAIAITFBACEFAkACQAJAAkACQANAAkAgCCAFNgIEIAggNDcDCCAIQfgCakGjgcAAIAhBCGoQ9QYgAyAIKAL8AiIEIAgoAoADELkFIQsgCCgC+AIhBSALRQRAIAUEQCAEIAVBARCIBwtBASEFQQghE0EIIQlBCCEQIAgoAgQiBA4ZBwMDAwMDAwMDBgMDAwMDAwMDAwMDAwMDBAELIAUEQCAEIAVBARCIBwsgCCgCBEEBaiEFDAELCyAEQS1GDQILIAggNDcD+AIgCEEQaiIBQaqQwAAgCEH4AmoQ9QYgARCFCCEBIABBgICAgHg2AtwEIAAgATYCACADELkEDAULQQEhD0ECIQUMAQtBASEPQQMhBUEBIRILIAhB+AJqIQQjAEHgAGsiBiQAIAZB1ABqrUKAgICAEIQhNQJAAkAgAygCDARAIAMoAgAhDCADKAIEIQ4gAykDGCE3IAMpAxAhOCAFQQJ0QYzjyABqKAIAIRRBACEHA0AgBiAUIAcgB0H/AXFBA24iCUEDbGtB/wFxbCAJajYCVCAGIDU3A1ggBkHIAGpBo4HAACAGQdgAahC+BCAOIDggNyAGKAJMIgogBigCUCINEJEEIjSncSEJIDRCGYhC/wCDQoGChIiQoMCAAX4hOUEAIREDQAJAIAkgDGopAAAiNiA5hSI0Qn+FIDRCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiNFBFBEADQCAMIDR6p0EDdiAJaiAOcUFsbGoiEEEMaygCACANRgRAIAogEEEQaygCACANELsHRQ0DCyA0QgF9IDSDIjRQRQ0ACwsgNiA2QgGGg0KAgYKEiJCgwIB/g1BFDQQgCSARQQhqIhFqIA5xIQkMAQsLIBBBBGstAAAhDSAQQQhrKAIAIRAgBigCSCIJBEAgCkEEaygCACIRQXhxIhVBBEEIIBFBA3EiERsgCWpJDQggEUEAIBUgCUEnaksbDQkgChCfAgsgBiAHQQN0aiIJIA06AAQgCSAQNgIAIAdBAWoiB0EJRw0ACyAEIAZByAD8CgAAIAZB4ABqJAAMAgsgBkEANgJUIAYgNTcDWCAGQcgAakGjgcAAIAZB2ABqEL4EC0GktMcAENAJAAsgCC0A/AIhECAIKAL4AiERIAhBH2ogCEH9AmoiFEHDAPwKAAACQCAPBEAjAEGQAWsiBiQAIAZBhAFqrUKAgICAEIQhNQJAAkAgAygCDARAIAMoAgAhDyADKAIEIQkgAykDGCE3IAMpAxAhOCAFQQJ0QZjjyABqKAIAIRVBACELA0AgBiALQf8BcUEDbiIHIBUgCyAHQQNsa0H/AXFsakEDajYChAEgBiA1NwOIASAGQfgAakGjgcAAIAZBiAFqEL4EIAkgOCA3IAYoAnwiDiAGKAKAASIMEJEEIjSncSEHIDRCGYhC/wCDQoGChIiQoMCAAX4hOUEAIQ0DQAJAIAcgD2opAAAiNiA5hSI0Qn+FIDRCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiNFBFBEADQCAPIDR6p0EDdiAHaiAJcUFsbGoiCkEMaygCACAMRgRAIA4gCkEQaygCACAMELsHRQ0DCyA0QgF9IDSDIjRQRQ0ACwsgNiA2QgGGg0KAgYKEiJCgwIB/g1BFDQQgByANQQhqIg1qIAlxIQcMAQsLIApBBGstAAAhDCAKQQhrKAIAIQogBigCeCIHBEAgDkEEaygCACINQXhxIjJBBEEIIA1BA3EiDRsgB2pJDQogDUEAIDIgB0EnaksbDQsgDhCfAgsgBiALQQN0aiIHIAw6AAQgByAKNgIAIAtBAWoiC0EPRw0ACyAEIAZB+AD8CgAAIAZBkAFqJAAMAgsgBkEDNgKEASAGIDU3A4gBIAZB+ABqQaOBwAAgBkGIAWoQvgQLQbS0xwAQ0AkACyAILQD8AiEJIAgoAvgCIQsgCEHiAGogFEHzAPwKAAAgEg0BIAUhBAwCC0EIIQkgEg0AIAUhBAwBCyAIQfgCaiENIwBBwAFrIgQkACAEQbQBaq1CgICAgBCEITUCQAJAIAMoAgwEQCADKAIAIRMgAygCBCESIAMpAxghNyADKQMQITggBUECdEGk48gAaigCACEUQQAhBgNAIAQgBkH/AXFBA24iByAUIAYgB0EDbGtB/wFxbGpBCGo2ArQBIAQgNTcDuAEgBEGoAWpBo4HAACAEQbgBahC+BCASIDggNyAEKAKsASIOIAQoArABIg8QkQQiNKdxIQcgNEIZiEL/AINCgYKEiJCgwIABfiE5QQAhDANAAkAgByATaikAACI2IDmFIjRCf4UgNEKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyI0UEUEQANAIBMgNHqnQQN2IAdqIBJxQWxsaiIKQQxrKAIAIA9GBEAgDiAKQRBrKAIAIA8QuwdFDQMLIDRCAX0gNIMiNFBFDQALCyA2IDZCAYaDQoCBgoSIkKDAgH+DUEUNBCAHIAxBCGoiDGogEnEhBwwBCwsgCkEEay0AACEPIApBCGsoAgAhCiAEKAKoASIHBEAgDkEEaygCACIMQXhxIhVBBEEIIAxBA3EiDBsgB2pJDQggDEEAIBUgB0EnaksbDQkgDhCfAgsgBCAGQQN0aiIHIA86AAQgByAKNgIAIAZBAWoiBkEVRw0ACyANIARBqAH8CgAAIARBwAFqJAAMAgsgBEEINgK0ASAEIDU3A7gBIARBqAFqQaOBwAAgBEG4AWoQvgQLQcS0xwAQ0AkACyAILQD8AiETIAgoAvgCITMgCEHVAWogCEH9AmpBowH8CgAAIAUhBAsgACATOgBEIAAgMzYCQCAAICg6ADwgACApNgI4IAAgJjoANCAAICc2AjAgACAkOgAsIAAgJTYCKCAAICI6ACQgACAjNgIgIAAgA/0AAwD9CwMAIABBEGogA0EQav0AAwD9CwMAIABBxQBqIAhB1QFqQaMB/AoAACAAIAk6AOwBIAAgCzYC6AEgAEHtAWogCEHiAGpB8wD8CgAAIAAgEDoA5AIgACARNgLgAiAAQeUCaiAIQR9qQcMA/AoAACAAQgQ3A+AEIABCADcD2AQgAEKAgICAwAA3A9AEIABCBDcDyAQgAEIANwPABCAAQoCAgIDAADcDuAQgAEIENwOwBCAAQgA3A6gEIABCgICAgMAANwOgBCAAQgQ3A5gEIABCADcDkAQgAEKAgICAwAA3A4gEIAAgBDYChAQgAEEANgKABCAAIAI2AvwDIAAgATYC+AMgACAqOgD0AyAAICs2AvADIAAgMDoA7AMgACAxNgLoAyAAIC46AOQDIAAgLzYC4AMgACAsOgDcAyAAIC02AtgDIAAgIDoA1AMgACAhNgLQAyAAIB46AMwDIAAgHzYCyAMgACAcOgDEAyAAIB02AsADIAAgGjoAvAMgACAbNgK4AyAAIBg6ALQDIAAgGTYCsAMgACAWOgCsAyAAIBc2AqgDDAELQaqxxwBBEhD7ByEBIABBgICAgHg2AtwEIAAgATYCACADELkECyAIQaAEaiQADwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALwhACHH8FfSMAQSBrIgYkAAJAAkACQAJAAkACQAJAAkACQAJAIAAtALgBQQFHDQAgACgCrAEgACgCsAEiAUECdCAAKAK0ASIEIAFqQQJ0EN4IIQEgBEECdCIEIAAoAmQiBUsNASAAKAJgIQUgBiABELsKIgI2AgggBiAENgIUIAIgBEcNByABIAUgBBDkCSABQYQISQ0AIAEQhQcLIABCADcCsAEgAEG4AWpBADoAACAAKAJoIgFBgICAgHhGIAAoAnQiBEGAgICAeEZxDQQgAUGAgICAeEcgBEGAgICAeEdxRQRAQZyFwQBBJBD5ByEBDAYLQYCAECEKIAAoAmQiBEH//w9NBEBBgIAQIAQiAWsiBSAAKAJcIAFrSwRAIABB3ABqIAEgBUEEQQQQmAYgACgCZCEBCyAAKAJgIgIgAUECdGohBSAEQf//D0cEf0H8/z8gBEECdGsiCARAIAVBACAI/AsACyABIARrIgRB//8PaiEBIAIgBEECdGpB/P8/agUgBQtBADYCACABQQFqIQoLIAAgCjYCZCAAKAKkASILQQJ0EKkJIRACQCAAKAIwRQ0AIAAoAjQiAUGECEkNACABEIUHCyAAIBA2AjQgAEEBNgIwIAAoAmgiEUGAgICAeEYNAyAAKAJ0IhJBgICAgHhGDQIgC0UNAUMAAABAQwAAgD8gAC0AnAFBAXEbISEgACoCjAEgACoCiAEiHZNDAAB+Q5UhHiAAKAJ4IRcgACgCbCEYIAAoAnwhEyAAKAJwIRQgACgCrAEhGSAAKAJgIQ5BACEBA0AgCkGAgAQgCyABayIEIARBgIAETxsiCEECdCIFSQRAQQAgBSAKQYyFwQAQ1QcACyAGIBkgAUECdCIVIAEgCGoiBEECdCIaEN4IIgIQuwoiAzYCCCAGIAU2AhQCQCADIAVGBEAgDiAFIAIQ5QkgAkGECE8EQCACEIUHCyABIAtGDQEgCEEEdCEWIBUgF2ohGyAYIAFBAXRqIQ9BACEMQQAhCAJAA0AgDCAWRgRAIAggCEEEaiAFQfyEwQAQ1QcACwJ/IAwgDmoiDUEEaigCACICQf//AXEEQCACQf8HcSEDIAJBgIACcSEHIAJBgPgBcSIJQYD4AUcEQCAHQRB0IgcgCUENdEGAgID8AHEgA0ENdHJBgICAwANqciAJDQIaIAdBgICA2ANyIANnQRBrIgdBF3RrIAMgB0H//wNxQQhqdEH///8DcXIMAgsgB0EQdCIHIANBDXRyQYCAgP4HciADDQEaIAdBgICA/AdyDAELIAJBEHQLIRwCfyACQRB2IgNB//8BcQRAIANB/wdxIQIgA0GAgAJxIQcgA0GA+AFxIglBgPgBRwRAIAdBEHQiAyAJQQ10QYCAgPwAcSACQQ10ckGAgIDAA2pyIAkNAhogA0GAgIDYA3IgAmdBEGsiA0EXdGsgAiADQf//A3FBCGp0Qf///wNxcgwCCyADQQ10IAdBEHQiA3JBgICA/gdyIAINARogA0GAgID8B3IMAQsgAkGAgHxxCyEJIAYCfyANQQhqKAIAIgNB//8BcQRAIANB/wdxIQIgA0GAgAJxIQcgA0GA+AFxIgNBgPgBRwRAIAdBEHQiByADQQ10QYCAgPwAcSACQQ10ckGAgIDAA2pyIAMNAhogB0GAgIDYA3IgAmdBEGsiA0EXdGsgAiADQf//A3FBCGp0Qf///wNxcgwCCyAHQRB0IgMgAkENdHJBgICA/gdyIAINARogA0GAgID8B3IMAQsgA0EQdAs2AhAgBiAJNgIMIAYgHDYCCCANLQADIQcgDUEMaigCACICQQh2IQNDAAAAACEfIAJB/wFxBEAgHSAeIAJBAWtB/wFxs5SSEO4DIR8LQwAAAAAhICADQf8BcQRAIB0gHiADQQFrQf8BcbOUkhDuAyEgCyAGIAJBEHYiAkH/AXEEfSAdIB4gAkEBa0H/AXGzlJIQ7gMFQwAAAAALOAIcIAYgIDgCGCAGIB84AhQgASAUSQRAIAEgE08NAiANIAZBCGogISAHs0MAAH9DlZRDAAAAAJIgBkEUaiAPLwEAIAggG2ooAgAQkQIgCEEEaiEIIA9BAmohDyABQQFqIQEgFiAMQRBqIgxHDQEMBAsLIAEgFEHchMEAEK4HAAsgASATQeyEwQAQrgcACwwICyAGIBAgFSAaEN4IIgEQuwoiAjYCCCAGIAU2AhQgAiAFRgRAIAEgDiAFEOQJIAFBhAhPBEAgARCFBwsgBCIBIAtJDQEMAwsLDAYLQQAgBCAFQYSQwQAQ1QcACyASQYCAgIB4ckGAgICAeEcEQCAAKAJ4IgFBBGsoAgAiBEF4cSIFIBJBAnQiAkEEQQggBEEDcSIEG2pJDQYgBEEAIAUgAkEnaksbDQcgARCfAgsgAEGAgICAeDYCdAJAIBFBgICAgHhyQYCAgIB4RwRAIAAoAmwiAUEEaygCACIEQXhxIgUgEUEBdCICQQRBCCAEQQNxIgQbakkNByAEQQAgBSACQSdqSxsNASABEJ8CCyAAQYCAgIB4NgJoDAMLDAYLQcyEwQAQ0AkAC0G8hMEAENAJAAtBACEBIABBADYCZCAAKAJgIQQgACgCXCEFIABCgICAgMAANwJcIAVFDQACQCAEQQRrKAIAIgBBeHEiAiAFQQJ0IgVBBEEIIABBA3EiABtqTwRAIABBACACIAVBJ2pLGw0BIAQQnwIMAgsMAwsMAwsgBkEgaiQAIAEPC0EAIAZBCGogBkEUakEAIAZBtPPEABDkBwALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC/gRAhN/A34jAEEgayICJAACQAJAAkACQAJ/AkACQAJAAkACQAJAAkACQEEVIAEoAgAiBEGAgICAeHMgBEEAThtBFGsOAgECAAsgASACQR9qQYCJwQAQjwghASAAQQI2AgAgACABNgIEDAkLAkACQAJAAkACQAJ/IAEoAgwiBwRAIAJBBGoiBiABKAIIIggQhQQgAigCCCIBIAIoAgQiA0GAgICAeEYNARogAigCFCEJIAIoAhAhBSAHQQFGDQggAigCGCEMIAIoAgwhDiAGIAhBEGoQ2AIgAigCCCEEIAIoAgQNDiAHQQJGDQMgAikCDCEVIAYgCEEgahDYAiACKAIIIQYgAigCBEUNAiAGIQQMDgtBAEGonsEAQeidwQAQ/QYLIQEgAEECNgIAIAAgATYCBAwNCyAHQQNGDQEgAikCDCEWAkACQAJAQRUgCEEwaiIPKAIAIhBBgICAgHhzIBBBAE4bQRBrDgMGAQYACyACQQRqIA8QmgUMAQsgAkEEaiAIKAI0EJoFCyACKAIMIQsgAigCCCEKIAIoAgRFDQIgCiEEDAsLQQJBqJ7BAEHoncEAEP0GIQQMCgtBA0GonsEAQeidwQAQ/QYhBAwJC0EBIQ0LIAAgFjcCNCAAIAY2AjAgACAVNwIoIAAgBDYCJCAAIAw2AiAgACAJNgIcIAAgBTYCGCAAIA42AhQgACABNgIQIAAgAzYCDCAAIAs2AgggACAKNgIEIAAgDTYCACAHQQRGDQggAkEENgIEIAdB/P///wBqQf////8AcUEEaiACQQRqQdC1wQAQ/QYhBCAAQQI2AgAgACAENgIEIAMEQCABIANBARCIBwsgBUUNCCAJIAVBARCIBwwICyABKAIIIgRFDQMgBEEFdCEQIAEoAgQhEUECIQVBgICAgHghBANAAkACQAJAAkACQAJAAkACQEEVIAggEWoiASgCACIDQYCAgIB4cyADQQBOG0EBaw4PAQAAAgAAAAAAAAADBAUGAAsgASACQR9qQdCJwQAQjwghAyACQQE6AAQgAiADNgIIDAYLIAJBADoABCACQQQgAUEEai0AACIDIANBBE8bOgAFDAULIAJBADoABCACQgQgAUEIaikDACIVIBVCBFobPAAFDAQLIAFBCGooAgAhAwJ/AkACQAJAAkAgAUEMaigCAEEEaw4CAQADCyADQfidwQBBBRC7Bw0BQQAMAwtBASADKAAAQe3SuZsHRg0CGiADKAAAQe3C4ZsHRw0BQQIMAgsgA0GFnsEAQQUQuwcNAEEDDAELQQQLIQMgAkEAOgAEIAIgAzoABQwDCyABQQRqKAIAIQMCfwJAAkACQAJAIAFBCGooAgBBBGsOAgEAAwsgA0H4ncEAQQUQuwcNAUEADAMLQQEgAygAAEHt0rmbB0YNAhogAygAAEHtwuGbB0cNAUECDAILIANBhZ7BAEEFELsHDQBBAwwBC0EECyEDIAJBADoABCACIAM6AAUMAgsgAkEEaiABQQhqKAIAIAFBDGooAgAQywUMAQsgAkEEaiABQQRqKAIAIAFBCGooAgAQywULIAItAARBAUYEQCACKAIIIQEgAEECNgIAIAAgATYCBAwGCyABQRBqIQMCQAJAAkACQAJAAkACQAJAIAItAAUOBAABAgMHCyAEQYCAgIB4RwRAQfidwQBBBRDNByEBIABBAjYCACAAIAE2AgQMDQsgAkEEaiADEIUEIAIoAgghCyACKAIEIgRBgICAgHhGDQkgAigCGCESIAIoAhQhDCACKAIQIQogAigCDCETDAYLIAYNAiACQQRqIAMQ2AIgAigCCCENIAIoAgQEQCAAQQI2AgAgACANNgIEDAwLIAIpAgwhFkEBIQYMBQsgCQ0CIAJBBGogAxDYAiACKAIIIQ4gAigCBARAIABBAjYCACAAIA42AgQMCwsgAikCDCEXQQEhCQwECyAFQQJGDQJBhZ7BAEEFEM0HIQEgAEECNgIAIAAgATYCBAwJC0H9ncEAQQQQzQchASAAQQI2AgAgACABNgIEDAgLQYGewQBBBBDNByEBIABBAjYCACAAIAE2AgQMBwtBACEFAn8CQAJAQRUgAygCACIUQYCAgIB4cyAUQQBOG0EQaw4DAwEDAAsgAkEEaiADEJoFIAcgAigCDCACKAIEIgEbDAELIAJBBGogAUEUaigCABCaBSAHIAIoAgwgAigCBCIBGwshByACKAIIIQ8gAUUEQEEBIQUMAQsgAEECNgIAIAAgDzYCBAwGCyAIQSBqIgggEEcNAAsMAgtBAUGonsEAQeidwQAQ/QYhBAwFCyAAQQI2AgAgACALNgIEDAULIARBgICAgHhGDQAgAiASNgIYIAIgDDYCFCACIAo2AhAgAiATNgIMIAIgCzYCCCACIAQ2AgQgBkEAIAkbRQRAQYGewQBB/Z3BACAGG0EEEMoHIQEgAEECNgIAIAAgATYCBCACQQRqENgFQQAMAwsgACAC/QACBP0LAgwgACAXNwI0IAAgDjYCMCAAIBY3AiggACANNgIkIAAgBzYCCCAAIA82AgQgAEEcaiACQRRqKQIANwIAIAAgBUEAIAVBAkcbNgIADAQLQfidwQBBBRDKByEBIABBAjYCACAAIAE2AgRBgICAgHghBAtBAQtFIARBgICAgHhGcg0BAkAgBARAIAtBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIARqSQ0EIABBACABIARBJ2pLGw0FIAsQnwILIApFDQIgDEEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgCmpJDQMgAEEAIAEgCkEnaksbDQAgDBCfAgwCCwwDCyAAQQI2AgAgACAENgIEIAMEQCABQQRrKAIAIgBBeHEiBEEEQQggAEEDcSIAGyADakkNAiAAQQAgBCADQSdqSxsNAyABEJ8CCyAFRQ0AIAlBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIAVqSQ0BIABBACABIAVBJ2pLGw0CIAkQnwILIAJBIGokAA8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC5cTAwt/BH4CeyMAQZACayIEJAACQCABKAIQIgUoAjAgAk0EQCAAQgM3AwAgAEGEgICAeDYCCAwBCyAFKAIsIAJBuAFsaiEGAkACQCADLQAIRQRAIAYtAKABIQUgAygCACICRQ0BIAVBAXENAgtBACECIANBADYCAAwBC0EAIQIgBUEBcUUNACAAQSE2AhAgAEHMgscANgIMIABBg4CAgHg2AgggAEIDNwMADAELAkACQCAGLQBoQQNHBEAgASgCBCIFrSEQAkACQCAFQv////8PIAYpA1AiDyAPQv////8PWhunayIHQQAgBSAHTxtBHU0EQEGI48cAKQMAIhGnIQICQCARQv8Bg0IEUQRAIAEgD0IefDcDCCACQf8BcUEERw0BDAMLIAEgEDcDCCACQf8BcUEERg0CCyARQiCIpyEBIBFCCIinIgUhAwJAAkACQAJAIAJB/wFxIgdBAWsOAwEAAAILIAEtAAghAwsgA0H/AXFBJUYNAQsgBCABNgKcASAEQYGAgIB4NgKUASAEIAVBCHQgB3I2ApgBDAYLIARBHjYCDCAEQe2CxwA2AgggBCAEQQhqrUKAgICAIIQ3AxAgBEGUAWpB3YnAACAEQRBqEL4EIAJB/wFxQQNHDQUgASgCACECIAFBBGooAgAiAygCACIFBEAgAiAFEQMACyADKAIEIgUEQCACIAUgAygCCBCIBwsgAUEMQQQQiAcMBQsgASAPQh58IhE3AwggASgCACAPIBAgDyAQVBunaiIFKAAAQdCWjSBGDQELIARBnAFqQayDxwAoAgA2AgAgBEGkg8cAKQIANwKUAQwDCyAEQa0BaiIHIAVBHGovAAA7AAAgBEGlAWogBUEUaikAADcAACAHMwAAIQ8gBDMAqwEhECAEQgE3A5ABIAQgDyAQIBF8fCIRNwOYASAGQeAAaiAEQZABahCQBwwBCyAGKQNgIRELIAEgETcDCCAEIAYpA0AiDzcDMCAEIA83AyhBg4CAgHghBQJ+AkACQCAGLwGEASIIQQJGBEBByIHHACEBQSAhAgwBCyAEKQIsIRAgD0IgiKchCiAPpyEHIAYzASAhDwJ/AkACQAJAIAIEQCAPUA0BQeirwQAhAUHHACECDAULIA9QDQFBhYCAgHghBQwECyADKAIEIQgCQCAGLQCiASIMRQRAIAYtAIsBIQsMAQsgBi8BmAFBAXENAgtBAAwCC0IADAQLIAYtAJ0BCyENAkAgCEUEQEH4rNGRASEDQYnPlZoCIQlBkPHZogMhBQwBC0GQ8dmiAyEFQYnPlZoCIQlB+KzRkQEhAwNAIAVB/wFxIAItAAAgA3NB/wFxQQJ0KAKgj0ggA0EIdnMiA0H/AXEgCWpBhYiiwABsQQFqIglBGHZzQQJ0KAKgj0ggBUEIdnMhBSACQQFqIQIgCEEBayIIDQALCyAEIAU2ArABIAQgCTYCrAEgBCADNgKoASAEIAo2ApwBIAQgEDcClAEgBCAHNgKQASAEIAE2AqABIARBQGtBADYCAEIAIRAgBEIANwM4AkACQAJAIAQpA5gBIg9QRQRAIAEoAgAhCiABKAIEIgWtIRAgBEE4aiEIQQwhAwJ+A0AgCiARIBAgECARVhunIgdqIQkCQCAFIAdrIgIgDyADrSISIA8gElQbpyIOIAIgDkkbIgJBAUcEQCACRQ0BIAggCSAC/AoAAAwBCyAIIAktAAA6AAALIA8gAq0iEn0hDyARIBJ8IREgDyAFIAdGDQEaIAMgAmsiA0UNAyACIAhqIQggD1BFDQALQgALIRAgASARNwMICyAEIBA3A5gBQYGAgIB4IQVBiOPHACkDACIQQv8Bg0IEUQ0BDAILIAEgETcDCCAEIA83A5gBCyAEQagBaiIBIAQtADgQwQYaIAEgBC0AORDBBhogASAELQA6EMEGGiABIAQtADsQwQYaIAEgBC0APBDBBhogASAELQA9EMEGGiABIAQtAD4QwQYaIAEgBC0APxDBBhogASAELQBAEMEGGiABIAQtAEEQwQYaIAEgBC0AQhDBBhogASAELQBDEMEGIQICQAJAIAwEQCACQf8BcSANRw0BDAILIAJB/wFxIAtGDQELQYWAgIB4IQUMAQsgBCAB/QACAP0LAyggBCkClAEhECAEKAKQASEHIAQoAqABIgENAiAHIQULIBBCIIinIQIgEKchAQsgACACNgIQIAAgATYCDCAAIAU2AgggAEIDNwMADAMLIAQoAqQBIQMgBCgCnAEhCiAEIAT9AAMo/QsDGCAGLwGEASEIQgELIREgBigCiAEhC0GAwAAQcSIFBEAgEEIgiKchAiAQpyEJAkACQAJ/AkACQCAIQf//A3FBAWsOAgEDAAsgBCAE/QADGP0LA4AB/QwAAAAAACAAAAAAAAAAAAAAIAX9HAAhEyAH/REgCf0cASAC/RwCIAr9HAMhFEICIQ9BAAwBCyAEIAM2AqQBIAQgATYCoAEgBCAKNgKcASAEIAI2ApgBIAQgCTYClAEgBCAHNgKQASAEIAT9AAMY/QsDqAEgBEG4AWoQmwQgBEHQAGogBEHgAWr9AAMA/QsDACAEQeAAaiAEQfABav0AAwD9CwMAIARB8ABqIARBgAJq/QADAP0LAwAgBCAE/QADyAH9CwOAASAEIAQpA9gBNwNIIARBsAFq/QAEACEUIAQoAsQBIQMgBCgCwAEhASAEKAKkASEJIAT9AASQASETIBEhDyAEKQOoASERIAQoAqABCyEIQbgBEHEiAg0BQbgBEOgJAAsgBUGAwABBARCIByAAQSA2AhAgAEHIgccANgIMIABBg4CAgHg2AgggAEIDNwMADAMLIAIgAzYCVCACIAE2AlAgAiAU/QsDQCACIBE3AzggAiAJNgI0IAIgCDYCMCACIBP9CwMgIAIgDzcDGCACQgA3AgwgAkKAwAA3AgQgAiAFNgIAIAIgBP0AA4AB/QsDWCACIAQpA0g3A2ggAkHwAGogBEHQAGr9AAMA/QsDACACQYABaiAEQeAAav0AAwD9CwMAIAJBkAFqIARB8ABq/QADAP0LAwAgAkEBOgC0ASACIAs2ArABIAJBADYCqAEgAkIANwOgASAAQgI3AwAgACAGNgIIIABBAjYCqAEgACACNgKsAQwCC0EBQYDAABDhCAALIAQgBCkAlQE3ADkgBCAELQCUAToAOCAEIAQtAJ8BOgBDIAQgBC8AnQE7AEEgBCgCOCEBIAAgBCkCPDcCDCAAIAE2AgggAEIDNwMACyAEQZACaiQAC5gPAiF/AX0jAEHwAGsiBiQAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAAtALgBQQFHDQAgACgCrAEgACgCsAEiBUECdCAAKAK0ASIHIAVqQQJ0EN4IIQUgB0ECdCIHIAAoAmQiCEsNASAAKAJgIQggBiAFELsKIgk2AmwgBiAHNgIYIAcgCUcNCyAFIAggBxDkCSAFQYQISQ0AIAUQhQcLIABCADcCsAEgAEG4AWpBADoAACAAKAIQQQFHDQggACgCFCABQQJ0IAEgAmpBAnQQ3gghDQJAIAJBAnQiASAAKAJkIgVNBEAgACABNgJkIAAoAmAhCiABIQcMAQsgBSEIIAEgBWsiByAAKAJcIAVrSwRAIABB3ABqIAUgB0EEQQQQmAYgACgCZCEICyAAKAJgIgogCEECdCIJaiELIAdBAk8EQCABIAVBf3NqQQJ0IgwEQCALQQAgDPwLAAsgAkEEdCAFQQJ0ayAKaiAJakEEayELIAcgCGpBAWshCAsgC0EANgIAIAAgCEEBaiIHNgJkIAEgB0sNAgsgBiANELsKIgU2AmwgBiABNgIYIAEgBUcNCiAKIAEgDRDlCSAEQRVuIRAgBEEUa0EVbkEBaiERIARBE2tBFW5BAWohEiAEQRJrQRVuQQFqIRMgBEERa0EVbkEBaiEUIARBEGtBFW5BAWohFSAEQQ9rQRVuQQFqIRYgBEEOa0EVbkEBaiEXIARBDWtBFW5BAWohGCAEQQxrQRVuQQFqIRkgBEELa0EVbkEBaiEaIARBCmtBFW5BAWohGyAEQQlrQRVuQQFqIRwgBEEIa0EVbkEBaiEdIARBB2tBFW5BAWohHiAEQQZrQRVuQQFqIR8gBEEFa0EVbkEBaiEgIARBBGtBFW5BAWohISAEQQNrQRVuQQFqISIgBEECa0EVbkEBaiEjIARBAWtBFW5BAWohJEMAAPhBIAAqApgBlSEmQQAhBQNAIAVBAnQiACAHTw0DIABBAXIiASAHTw0EIABBAnIiCCAHTw0FIABBA3IiCSAHTw0HIAogAEECdGooAgAhACAGIAogAUECdGooAgA2AgwgBiAANgIIIAYgCiAJQQJ0aigCADYCFCAGIAogCEECdGooAgA2AhBBACEMIAZBGGoiDkEAQdQA/AsAIAVBFWwhASAFQQFqQQYhAEEAIQsDQCAGQQhqIABBBmsiD0EDdkH8////AXFqIiUoAgAgD0EecXYhCCAOIA9B4AFxQSBqIABJBH8gC0EPSw0IICUoAgQgDEEecXQgCHIFIAgLQRp0QRp1siAmlTgCACAAQQZqIQAgDEEGayEMIA5BBGohDiALQQFqIgtBFUcNAAsgBSAkRg0KIAMgAUECdGogBioCGDgCACABQQFqIQAgBSAjRgRAIAAhAQwLCyADIABBAnRqIAYqAhw4AgAgAUECaiEAIAUgIkYEQCAAIQEMCwsgAyAAQQJ0aiAGKgIgOAIAIAFBA2ohACAFICFGBEAgACEBDAsLIAMgAEECdGogBioCJDgCACABQQRqIQAgBSAgRgRAIAAhAQwLCyADIABBAnRqIAYqAig4AgAgAUEFaiEAIAUgH0YEQCAAIQEMCwsgAyAAQQJ0aiAGKgIsOAIAIAFBBmohACAFIB5GBEAgACEBDAsLIAMgAEECdGogBioCMDgCACABQQdqIQAgBSAdRgRAIAAhAQwLCyADIABBAnRqIAYqAjQ4AgAgAUEIaiEAIAUgHEYEQCAAIQEMCwsgAyAAQQJ0aiAGKgI4OAIAIAFBCWohACAFIBtGBEAgACEBDAsLIAMgAEECdGogBioCPDgCACABQQpqIQAgBSAaRgRAIAAhAQwLCyADIABBAnRqIAYqAkA4AgAgAUELaiEAIAUgGUYEQCAAIQEMCwsgAyAAQQJ0aiAGKgJEOAIAIAFBDGohACAFIBhGBEAgACEBDAsLIAMgAEECdGogBioCSDgCACABQQ1qIQAgBSAXRgRAIAAhAQwLCyADIABBAnRqIAYqAkw4AgAgAUEOaiEAIAUgFkYEQCAAIQEMCwsgAyAAQQJ0aiAGKgJQOAIAIAFBD2ohACAFIBVGBEAgACEBDAsLIAMgAEECdGogBioCVDgCACABQRBqIQAgBSAURgRAIAAhAQwLCyADIABBAnRqIAYqAlg4AgAgAUERaiEAIAUgE0YEQCAAIQEMCwsgAyAAQQJ0aiAGKgJcOAIAIAFBEmohACAFIBJGBEAgACEBDAsLIAMgAEECdGogBioCYDgCACABQRNqIQAgBSARRgRAIAAhAQwLCyADIABBAnRqIAYqAmQ4AgAgAUEUaiEBIAUgEEYNCiADIAFBAnRqIAYqAmg4AgAiBSACRw0ACwwHC0EAIAcgCEGEkMEAENUHAAtBACABIAdB6PrAABDVBwALIAAgB0GY+sAAEK4HAAsgASAHQaj6wAAQrgcACyAIIAdBuPrAABCuBwALQQRBBEHMr8cAEK4HAAsgCSAHQcj6wAAQrgcACyANQYQISQ0AIA0QhQcLIAZB8ABqJAAPCyABIARB2PrAABCuBwALQQAgBkHsAGogBkEYakEAIABBtPPEABDkBwALrRABDn8jAEGACGsiAyQAAkAgAUEDakF8cSABayIEIAJLBEBBASEOQQQhCwwBCyABIARqIgsgAiAEayICQfz///8HcWohDiACQQNxIQ8gAkECdiEIIAQhAgsgAEF/cyEAAkAgAkUNAEEAIQQgAkEBRwRAIAJBAXEgAkH+////B3EhAgNAIAEgBGoiB0EBai0AACAHLQAAIABzQf8BcUECdCgCoI9IIABBCHZzIgBzQf8BcUECdCgCoI9IIABBCHZzIQAgAiAEQQJqIgRHDQALRQ0BCyABIARqLQAAIABzQf8BcUECdCgCoI9IIABBCHZzIQALQQAhBSAIQQVuIgFBAWsiAkEAIAEgAk8bIQkCQCAIQQpJBEBBACEHDAELQQAhAiALIQRBACEHA0ACQAJAIAIgCE8NACAIIAJrIgZBACAGIAhNGyIGQQFHBEAgBkECRwRAIAZBA0cEQCAGQQRHDQQgAkEEaiECDAMLIAJBA2ohAgwCCyACQQJqIQIMAQsgAkEBaiECCyACIAhBkI/IABCuBwALIAcgBEEIaigCAHMiB0H/AXFBAnQoAoDvRyAHQQZ2QfwHcSgCgPdHcyAHQQ52QfwHcSgCgP9HcyAHQRZ2QfwHcSgCgIdIcyEHIAUgBEEEaigCAHMiBUH/AXFBAnQoAoDvRyAFQQZ2QfwHcSgCgPdHcyAFQQ52QfwHcSgCgP9HcyAFQRZ2QfwHcSgCgIdIcyEFIAAgBCgCAHMiAEH/AXFBAnQoAoDvRyAAQQZ2QfwHcSgCgPdHcyAAQQ52QfwHcSgCgP9HcyAAQRZ2QfwHcSgCgIdIcyEAIAwgBEEQaigCAHMiDEH/AXFBAnQoAoDvRyAMQQZ2QfwHcSgCgPdHcyAMQQ52QfwHcSgCgP9HcyAMQRZ2QfwHcSgCgIdIcyEMIARBDGooAgAgCnMiCkH/AXFBAnQoAoDvRyAKQQZ2QfwHcSgCgPdHcyAKQQ52QfwHcSgCgP9HcyAKQRZ2QfwHcSgCgIdIcyEKIAJBBWohAiAEQRRqIQQgDUEBaiINIAlJDQALCyAJQQVsIgIgCE0EQAJAIAIgCEYNACALIAJBAnRqIgQoAgAhCUEAIgZFBEAgA0Ggl8gAQYAI/AoAAAsgAyAAIAlzIgBB/wFxQQJ0aigCACEJIAZFBEAgA0Ggn8gAQYAI/AoAAAsgAyAAQQZ2QfwHcWooAgAhDSAGRQRAIANBoKfIAEGACPwKAAALIAMgAEEOdkH8B3FqKAIAIRAgBkUEQCADQaCvyABBgAj8CgAACyADIABBFnZB/AdxaigCACAJIA1zIBBzcyEAIAggAmsiAkEBRg0AIAQoAgQhCUEARQRAIANBoJfIAEGACPwKAAALIAMgBSAJcyAAcyIAQf8BcUECdGooAgAhBSAGRQRAIANBoJ/IAEGACPwKAAALIAMgAEEGdkH8B3FqKAIAIQkgBkUEQCADQaCnyABBgAj8CgAACyADIABBDnZB/AdxaigCACENIAZFBEAgA0Ggr8gAQYAI/AoAAAsgAyAAQRZ2QfwHcWooAgAgBSAJcyANc3MhACACQQJGDQAgBCgCCCEGQQAiBUUEQCADQaCXyABBgAj8CgAACyADIAYgB3MgAHMiAEH/AXFBAnRqKAIAIQcgBUUEQCADQaCfyABBgAj8CgAACyADIABBBnZB/AdxaigCACEGIAVFBEAgA0Ggp8gAQYAI/AoAAAsgAyAAQQ52QfwHcWooAgAhCSAFRQRAIANBoK/IAEGACPwKAAALIAMgAEEWdkH8B3FqKAIAIAYgB3MgCXNzIQAgAkEDRg0AIAQoAgwhB0EARQRAIANBoJfIAEGACPwKAAALIAMgByAKcyAAcyIAQf8BcUECdGooAgAhByAFRQRAIANBoJ/IAEGACPwKAAALIAMgAEEGdkH8B3FqKAIAIQogBUUEQCADQaCnyABBgAj8CgAACyADIABBDnZB/AdxaigCACEGIAVFBEAgA0Ggr8gAQYAI/AoAAAsgAyAAQRZ2QfwHcWooAgAgByAKcyAGc3MhACACQQRGDQAgBCgCECEFQQAiBEUEQCADQaCXyABBgAj8CgAACyADIAUgDHMgAHMiAEH/AXFBAnRqKAIAIQUgBEUEQCADQaCfyABBgAj8CgAACyADIABBBnZB/AdxaigCACEHIARFBEAgA0Ggp8gAQYAI/AoAAAsgAyAAQQ52QfwHcWooAgAhCiAERQRAIANBoK/IAEGACPwKAAALIAMgAEEWdkH8B3FqKAIAIAUgB3MgCnNzIQAgAkEFRg0AIAFBFGxBASABIAEbIgRBFGxrIAtqQRRqIQIgCCAEQQVsaiABQQVsa0EFayEBA0AgAigCACELQQAiBEUEQCADQaCXyABBgAj8CgAACyADIAAgC3MiAEH/AXFBAnRqKAIAIQsgBEUEQCADQaCfyABBgAj8CgAACyADIABBBnZB/AdxaigCACEIIARFBEAgA0Ggp8gAQYAI/AoAAAsgAyAAQQ52QfwHcWooAgAhBSAERQRAIANBoK/IAEGACPwKAAALIAMgAEEWdkH8B3FqKAIAIAggC3MgBXNzIQAgAkEEaiECIAFBAWsiAQ0ACwsCQCAPRQ0AIA4tAAAgAHNB/wFxQQJ0KAKgj0ggAEEIdnMhACAPQQFGDQAgDi0AASAAc0H/AXFBAnQoAqCPSCAAQQh2cyEAIA9BAkYNACAOLQACIABzQf8BcUECdCgCoI9IIABBCHZzIQALIANBgAhqJAAgAEF/cw8LIAIgCCAIQYCPyAAQ1QcAC6URAgd9Dn8jAEEQayINJAAgABCiBSAAQcABakEAOgAAIABCADcCuAEgACACEMwEAkACQAJAIAAoAgBBAUcNACAAKAIIRQ0AAkACfwJAAkACQAJ/AkACQAJAAn8CQAJAAkACQAJAIAJBAnQiDiAAKAJ8IhBNBEAgDiAAKAKIASIRSw0BIAAoAnghEyAAKAKEASEWIA0gACgCBCIZIAFBAnQiFyABIAJqQQJ0IhgQ3ggiARC7CiIPNgIIIA0gDjYCDCAOIA9HDQIgEyAOIAEQ5QkgAUGECE8EQCABEIUHCyACRQ0PIBNBDGohFEEBIRVBACEBQQMhEiAWIQ8DQAJAAkACQAJAAkACQCABIARJBEAgAUEBaiIMIARPDQEgAUECaiIMIARPDQIgDiASTQ0DQwAAf0MgA0EEaioCACIIiyIFQwAAgD9DAAD4QUMAAAAAIAMqAgAiCYsiBiAFIANBCGoqAgAiCosiCxDdCBDdCBCZBY5DAABwQZIiBSAFQwAAAABdGyIFIAVDAAD4QV4bEJ0H/AAiDEEPaxCaBkMAAH9DlSIFlSIHIAdDAAB/Q14bEJ0HIQcgFEMAAH9DIAYgBZUiBiAGQwAAf0NeGxCdB/wBIAxBG3RBgICACEEAIAlDAAAAAF0bckGAgIAQQQAgCEMAAAAAXRtyQYCAgCBBACAKQwAAAABdG3JyIAf8AUEIdHJDAAB/QyALIAWVIgUgBUMAAH9DXhsQnQf8AUEQdHI2AgAgAUEDaiAETw0EIAFBBGogBE8NBSABQQVqIgwgBEkNBiAMDA4LIAEgBEG818EAEK4HAAsgDCAEQczXwQAQrgcACyAMIARB3NfBABCuBwALIBIgDkHs18EAEK4HAAsgAUEDagwRCyABQQRqDAwLQwAAf0MgA0EQaioCACIIiyIFQwAAgD9DAAD4QUMAAAAAIANBDGoqAgAiCYsiBiAFIANBFGoqAgAiCosiCxDdCBDdCBCZBY5DAABwQZIiBSAFQwAAAABdGyIFIAVDAAD4QV4bEJ0H/AAiDEEPaxCaBkMAAH9DlSIFlSIHIAdDAAB/Q14bEJ0HIQcgD0MAAH9DIAYgBZUiBiAGQwAAf0NeGxCdB/wBIAxBG3RBgICACEEAIAlDAAAAAF0bckGAgIAQQQAgCEMAAAAAXRtyQYCAgCBBACAKQwAAAABdG3JyIAf8AUEIdHJDAAB/QyALIAWVIgUgBUMAAH9DXhsQnQf8AUEQdHI2AgAgAUEGaiAETw0OIAFBB2ogBE8NCiABQQhqIARPDQZDAAB/QyADQRxqKgIAIgiLIgVDAACAP0MAAPhBQwAAAAAgA0EYaioCACIJiyIGIAUgA0EgaioCACIKiyILEN0IEN0IEJkFjkMAAHBBkiIFIAVDAAAAAF0bIgUgBUMAAPhBXhsQnQf8ACIMQQ9rEJoGQwAAf0OVIgWVIgcgB0MAAH9DXhsQnQchByAPQQRqQwAAf0MgBiAFlSIGIAZDAAB/Q14bEJ0H/AEgDEEbdEGAgIAIQQAgCUMAAAAAXRtyQYCAgBBBACAIQwAAAABdG3JBgICAIEEAIApDAAAAAF0bcnIgB/wBQQh0ckMAAH9DIAsgBZUiBSAFQwAAf0NeGxCdB/wBQRB0cjYCACABQQlqIARPDQ0gAUEKaiAETw0JIAFBC2ogBE8NBUMAAH9DIANBKGoqAgAiCIsiBUMAAIA/QwAA+EFDAAAAACADQSRqKgIAIgmLIgYgBSADQSxqKgIAIgqLIgsQ3QgQ3QgQmQWOQwAAcEGSIgUgBUMAAAAAXRsiBSAFQwAA+EFeGxCdB/wAIgxBD2sQmgZDAAB/Q5UiBZUiByAHQwAAf0NeGxCdByEHIA9BCGpDAAB/QyAGIAWVIgYgBkMAAH9DXhsQnQf8ASAMQRt0QYCAgAhBACAJQwAAAABdG3JBgICAEEEAIAhDAAAAAF0bckGAgIAgQQAgCkMAAAAAXRtyciAH/AFBCHRyQwAAf0MgCyAFlSIFIAVDAAB/Q14bEJ0H/AFBEHRyNgIAIAFBDGogBE8NDCABQQ1qIARPDQggAUEOaiAETw0EQwAAf0MgA0E0aioCACIIiyIFQwAAgD9DAAD4QUMAAAAAIANBMGoqAgAiCYsiBiAFIANBOGoqAgAiCosiCxDdCBDdCBCZBY5DAABwQZIiBSAFQwAAAABdGyIFIAVDAAD4QV4bEJ0H/AAiDEEPaxCaBkMAAH9DlSIFlSIHIAdDAAB/Q14bEJ0HIQcgD0EMakMAAH9DIAYgBZUiBiAGQwAAf0NeGxCdB/wBIAxBG3RBgICACEEAIAlDAAAAAF0bckGAgIAQQQAgCEMAAAAAXRtyQYCAgCBBACAKQwAAAABdG3JyIAf8AUEIdHJDAAB/QyALIAWVIgUgBUMAAH9DXhsQnQf8AUEQdHI2AgAgA0E8aiEDIAFBD2ohASAUQRBqIRQgEkEEaiESIA9BEGohDyACIBVLIBVBAWohFQ0ACwwPC0EAIA4gEEGs2MEAENUHAAtBACAOIBFBrNfBABDVBwALQQAgDUEIaiANQQxqQQAgA0G088QAEOQHAAsgAUEOagwCCyABQQtqDAELIAFBCGoLIARBnNjBABCuBwALIAFBDWoMAgsgAUEKagwBCyABQQdqCyAEQYzYwQAQrgcACyABQQxqDAILIAFBCWoMAQsgAUEGagsgBEH818EAEK4HAAsgDSAZIBcgGBDeCCIBELsKIgI2AgggDSAQNgIMIAIgEEcNASABIBMgEBDkCSABQYQITwRAIAEQhQcLIA0gACgCDCAXIBgQ3ggiABC7CiIBNgIIIA0gETYCDCABIBFHDQIgACAWIBEQ5AkgAEGECEkNACAAEIUHCyANQRBqJAAPC0EAIA1BCGogDUEMakEAIAFBtPPEABDkBwALQQAgDUEIaiANQQxqQQAgAEG088QAEOQHAAurHwMOfwd+A3sjAEEgayIPJAACQAJAIAFBIU8EQANAAn8CQCADBEAgACABQQN2IgVB4AFsaiEGIAAgBUEHdGohBwJAIAFBwABPBEAgACAHIAYgBRDqBCEFDAELIAcpAxghFyAAKQMYIRggACkDCCITIRUgBykDCCISIRQCfwJAIBIgE1INACAAKQMQIhUgBykDECIUUg0AQQAgFyIUIBgiFVENARoLIBQgFVYLIQQgBikDGCEWIAYpAwgiFSEUAkACQCATIBVSDQAgACkDECITIAYpAxAiFFINACAYIhMgFiIUUg0AIAAhBSAERQ0BDAILIAAhBSAEIBMgFFRzDQELIAYgBwJ/AkAgEiAVUg0AIAcpAxAiEiAGKQMQIhVSDQBBACAXIhIgFiIVUQ0BGgsgEiAVVAsgBHMbIQULIANBAWshAyAFIABrIQUgAkUNAQJAAkAgAikDCCITIAAgBWoiBCkDCCISUg0AIAIpAxAiEyAEKQMQIhJSDQAgAikDGCITIAQpAxgiElENAQsgEiATVg0CCyAPQRBqIhAgAEEQaiIO/QADAP0LAwAgDyAA/QADAP0LAwAgBP0AAwAhGSAOIARBEGoiAv0AAwD9CwMAIAAgGf0LAwAgAiAQ/QADAP0LAwAgBCAP/QADAP0LAwBBICEFIABBIGohCiAAIAFBBXQiBmohCSAOKQMAIRggAEEYaikDACEWIABBCGopAwAhEyAA/QADMCEaIAD9AAMgIRsgACkDOCEUQQAhDUEAIQsDQCAFIQQgACANaiICQUBrIQwgAkEgaiEIIBMhEgJ/AkAgEyACQcgAaikDACIVUg0AIAJB0ABqKQMAIhUgGCISUg0AQQEgAkHYAGopAwAiFSAWIhJRDQEaCyASIBVaCyAKIAtBBXRqIgX9AAMAIRkgCEEQaiAFQRBqIgL9AAMA/QsDACAIIBn9CwMAIAIgDEEQav0AAwD9CwMAIAUgDP0AAwD9CwMAIARBIGohBSALaiELIAAgDUEgaiINaiIHQUBrIgIgCUkNAAsgG/0dASEXIAIgCUYEfyAHQSBqBSAGQUBqIQcDQCAAIARqIgJBIGohDCACQUBrIQggEyESAn8CQCATIAJByABqKQMAIhVSDQAgAkHQAGopAwAiFSAYIhJSDQBBASACQdgAaikDACIVIBYiElENARoLIBIgFVoLIAogC0EFdGoiBv0AAwAhGSAMQRBqIAZBEGoiAv0AAwD9CwMAIAwgGf0LAwAgAiAIQRBq/QADAP0LAwAgBiAI/QADAP0LAwAgC2ohCyAHIARBIGoiBEcNAAsgACAEakEgagshBCAKIAtBBXRqIgX9AAMAIRkgBEEQaiAFQRBqIgL9AAMA/QsDACAEIBn9CwMAIAIgGv0LAwAgBSAb/QsDAAJ/AkAgEyAXUg0AIBr9HQAiFyAYIhNSDQBBASAWIhMgFCIXUQ0BGgsgEyAXWgsgC2oiBCABTw0GIBAgDv0AAwD9CwMAIA8gAP0AAwD9CwMAIAAgBEEFdGoiBf0AAwAhGSAOIAVBEGoiAv0AAwD9CwMAIAAgGf0LAwAgAiAQ/QADAP0LAwAgBSAP/QADAP0LAwAgASAEQQFqIgJrIQEgACACQQV0aiEAQQAMAgsgACEDIAEiAiACQQF2aiEGA0ACQAJ/IAIgBkEBayIGTQRAIAYgAmsMAQsgA0EQaiIA/QADACEaIAMgBkEFdGoiAf0AAwAhGyAAIAFBEGoiAP0AAwD9CwMAIAP9AAMAIRkgAyAb/QsDACABIBn9CwMAIAAgGv0LAwBBAAsiAUEBdCIFQQFyIgAgAiAGIAIgBkkbIgdPDQADQCAFQQJqIgUgB0kEQAJ/AkAgAyAAQQV0aiIEKQMIIhMgAyAFQQV0aiIFKQMIIhJSDQAgBCkDECITIAUpAxAiElINAEEAIAQpAxgiEyAFKQMYIhJRDQEaCyASIBNWCyAAaiEACyADIABBBXRqIggpAxghGCADIAFBBXRqIgQpAxghFiAEKQMIIhQhEyAIKQMIIhchEgJAIBQgF1INACAEKQMQIhMgCCkDECISUg0AIBgiEiAWIhNRDQILIBIgE1gNASAIKAIUIQUgCCgCECEBIAggBCkDEDcDECAEIBc+AgggCCAUPgIIIAQgF0IgiD4CDCAIIBRCIIg+AgwgBCAYPgIYIAggFj4CGCAEKQMAIRIgBCAIKQMANwMAIAggEjcDACAEIAE2AhAgBCAFNgIUIAQgGEIgiD4CHCAIIBZCIIg+AhwgACIBQQF0IgVBAXIiACAHSQ0ACwsgBg0ACwwECyAPQRBqIg4gAEEQaiIR/QADAP0LAwAgDyAA/QADAP0LAwAgACAFaiIE/QADACEZIBEgBEEQaiIF/QADAP0LAwAgACAZ/QsDACAFIA79AAMA/QsDACAEIA/9AAMA/QsDAEEgIQUgAEEgaiEQIAAgAUEFdCIIaiEKIBEpAwAhGCAAQRhqKQMAIRYgAEEIaikDACETIAD9AAMwIRogAP0AAyAhGyAAKQM4IRRBACENQQAhCwNAIAUhBCAAIA1qIgVBQGshCSAFQSBqIQwgEyESAn8CQCAFQcgAaikDACIVIBNSDQAgGCISIAVB0ABqKQMAIhVSDQBBACAWIhIgBUHYAGopAwAiFVENARoLIBIgFVYLIBAgC0EFdGoiBv0AAwAhGSAMQRBqIAZBEGoiBf0AAwD9CwMAIAwgGf0LAwAgBSAJQRBq/QADAP0LAwAgBiAJ/QADAP0LAwAgBEEgaiEFIAtqIQsgACANQSBqIg1qIgZBQGsiByAKSQ0ACyAb/R0BIRcgByAKRgR/IAZBIGoFIAhBQGohBgNAIAAgBGoiBUEgaiEJIAVBQGshDCATIRICfwJAIAVByABqKQMAIhUgE1INACAYIhIgBUHQAGopAwAiFVINAEEAIBYiEiAFQdgAaikDACIVUQ0BGgsgEiAVVgsgECALQQV0aiII/QADACEZIAlBEGogCEEQaiIF/QADAP0LAwAgCSAZ/QsDACAFIAxBEGr9AAMA/QsDACAIIAz9AAMA/QsDACALaiELIAYgBEEgaiIERw0ACyAAIARqQSBqCyEHIBAgC0EFdGoiBP0AAwAhGSAHQRBqIARBEGoiBf0AAwD9CwMAIAcgGf0LAwAgBSAa/QsDACAEIBv9CwMAAn8CQCATIBdSDQAgGCITIBr9HQAiF1INAEEAIBYiEyAUIhdRDQEaCyATIBdWCyALaiIEIAFPDQQgDiAR/QADAP0LAwAgDyAA/QADAP0LAwAgACAEQQV0aiIH/QADACEZIBEgB0EQaiIF/QADAP0LAwAgACAZ/QsDACAFIA79AAMA/QsDACAHIA/9AAMA/QsDACAAIAQgAiADEKkBIAEgBEF/c2ohASAHQSBqIQAgBwshAiABQSFPDQALCyAAIQojAEGADGsiByQAAkAgASIMQQJJDQBBASECIAAgAUEBdiINQQV0IgNqIREgAyAHaiEGAkAgAUEITwRAIAAgBxCxAyARIAYQsQNBBCECDAELIAdBEGogCkEQav0AAwD9CwMAIAcgCv0AAwD9CwMAIAYgEf0AAwD9CwMAIAZBEGogEUEQav0AAwD9CwMACyACIA1JBEAgAkEFdCEBIAJBAWohBSACIQADQCAAIQMgBSEAIAcgA0EFdCIDaiIEIAMgCmoiAykDADcDACAEQRhqIANBGGopAwAiFjcDACAEQRBqIANBEGopAwA3AwAgBEEIaiADQQhqKQMAIhM3AwACQAJAIARBGGspAwAiFCATIhJSDQAgBCkDECISIARBEGspAwAiFFINACAEQQhrKQMAIhQgFiISUQ0BCyASIBRaDQAgBCkDECEYIAQpAwAhFyABIQUDQAJAIAUgB2oiCCAIQSBrIgP9AAMA/QsDACAIQRBqIANBEGr9AAMA/QsDACAFQSBGBEAgByEDDAELIARBIGshBAJAIAhBOGspAwAiFCATIhJSDQAgBSAHakEwaykDACIUIBgiElINACAIQShrKQMAIhQgFiISUg0AIAQhAwwBCyAFQSBrIQUgEiAUVA0BCwsgAyAXNwMAIAhBCGsgFjcDACAIQRBrIBg3AwAgCEEYayATNwMACyABQSBqIQEgACAAIA1JIgNqIQUgAw0ACwsgDCANayIQIAJLBEAgAkEFdCEOIAJBAWohBUEgIQggBiEAA0AgAiEBIAUhAiAGIAFBBXQiAWoiBCABIBFqIgEpAwA3AwAgBEEYaiABQRhqKQMAIhY3AwAgBEEQaiABQRBqKQMANwMAIARBCGogAUEIaikDACITNwMAAkACQCAEQRhrKQMAIhQgEyISUg0AIAQpAxAiEiAEQRBrKQMAIhRSDQAgBEEIaykDACIUIBYiElENAQsgEiAUWg0AIAQpAxAhGCAEKQMAIRcgCCEDIAAhCQNAAkAgCSAOaiIFIAVBIGsiAf0AAwD9CwMAIAVBEGogAUEQav0AAwD9CwMAIAMgDkYEQCAGIQEMAQsgBEEgayEEAkAgBUE4aykDACIUIBMiElINACAJIA5qQTBrKQMAIhQgGCISUg0AIAVBKGspAwAiFCAWIhJSDQAgBCEBDAELIANBIGohAyAJQSBrIQkgEiAUVA0BCwsgASAXNwMAIAVBCGsgFjcDACAFQRBrIBg3AwAgBUEYayATNwMACyAIQSBrIQggAEEgaiEAIAIgAiAQSSIBaiEFIAENAAsLIAZBIGshCSAKIAxBBXRBIGsiAGohAyAAIAdqIQUgByEEA0ACQAJAAkAgBikDCCISIAQpAwgiFFINACAGKQMQIhIgBCkDECIUUg0AIAYpAxgiEiAEKQMYIhRSDQAgCiAE/QADAP0LAwAgCkEQaiAEQRBq/QADAP0LAwAMAQsgCiAGIAQgEiAUVBsiAP0AAwD9CwMAIApBEGogAEEQav0AAwD9CwMAIBIgFFoNACAGQSBqIQYMAQsgBEEgaiEECyAKQSBqIQogAwJ/AkAgBSkDCCISIAkpAwgiFFINACAFKQMQIhIgCSkDECIUUg0AQQAhASAFIAUpAxgiEiAJKQMYIhRRDQEaCyAJIAUgEiAUVCIBGwsiAP0AAwD9CwMAIANBEGogAEEQav0AAwD9CwMAIANBIGshAyAJIAFBBXQiAGshCSAAIAVqQSBrIQUgDUEBayINDQALIAlBIGohAiAMQQFxBH8gCiAEIAYgAiAESyIBGyIA/QADAP0LAwAgCkEQaiAAQRBq/QADAP0LAwAgBkEAQSAgARtqIQYgBEEgQQAgARtqBSAECyACRiAGIAVBIGpGcQ0AENMJAAsgB0GADGokAAsgD0EgaiQADwsAC7UXAQt/IwBBgAFrIgIkAAJAIAAQ0AUiAQ0AIABBADYCCCAAQQxqIQsCQCAAKAIUIgEgACgCECIDTwRAIAsoAgAhBwwBCyAAKAIMIQcDQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAEgB2otAAAiBUEJaw4lAQEICAEICAgICAgICAgICAgICAgICAgBCAcICAgICAgICAgIBQALIAVB2wBrDiEFBwcHBwcHBwcHBwMHBwcHBwcHAQcHBwcHAgcHBwcHBwUHCyAAIAFBAWoiATYCFCABIANHDQ4gAyEBDA8LIAAgAUEBaiIFNgIUIAMgBU0NByAAIAFBAmoiBDYCFAJAIAUgB2otAABB9QBHDQAgBCAFIAMgAyAFSRsiBUYNCCAAIAFBA2oiBjYCFCAEIAdqLQAAQewARwRAIAYhBAwBCyAFIAZGDQggACABQQRqIgQ2AhQgBiAHai0AAEHsAEYNDAsgAkEJNgJ0IAJByABqIAcgAyAEEPoBIAJB9ABqIAIoAkggAigCTBDZByEBDA8LIAAgAUEBaiIFNgIUIAMgBU0NByAAIAFBAmoiBDYCFAJAIAUgB2otAABB8gBHDQAgBCAFIAMgAyAFSRsiBUYNCCAAIAFBA2oiBjYCFCAEIAdqLQAAQfUARwRAIAYhBAwBCyAFIAZGDQggACABQQRqIgQ2AhQgBiAHai0AAEHlAEYNCwsgAkEJNgJ0IAJB2ABqIAcgAyAEEPoBIAJB9ABqIAIoAlggAigCXBDZByEBDA4LIAAgAUEBaiIFNgIUIAMgBU0NByAAIAFBAmoiBDYCFAJAIAUgB2otAABB4QBHDQAgBCAFIAMgAyAFSRsiBUYNCCAAIAFBA2oiBjYCFCAEIAdqLQAAQewARwRAIAYhBAwBCyAFIAZGDQggACABQQRqIgg2AhQgBiAHai0AAEHzAEcEQCAIIQQMAQsgBSAIRg0IIAAgAUEFaiIENgIUIAcgCGotAABB5QBGDQoLIAJBCTYCdCACQegAaiAHIAMgBBD6ASACQfQAaiACKAJoIAIoAmwQ2QchAQwNCyAAIAFBAWo2AhQMAwsgCkEBcSIEIAAoAgAgACgCCCIBa0sEQCAAIAEgBEEBQQEQmAYgACgCCCEBCyAAIAQEfyAAKAIEIAFqIAk6AAAgAUEBagUgAQs2AgggACAAKAIUQQFqNgIUQQAhBAwICyAAIAFBAWo2AhQgCxD2AyIBDQoMBgsgBUEwa0H/AXFBCk8NBAsjAEEwayIFJAAgACgCDCEIAkACQAJAAkAgACgCFCIBIAAoAhAiBkkEQCAAIAFBAWoiBDYCFCABIAhqLQAAIgNBMEYNAiADQTFrQf8BcUEITQ0BIAQhAQsgBUENNgIkIAVBGGogCCAGIAEQ+gEgBUEkaiAFKAIYIAUoAhwQ2QchAQwDCyAEIAZPDQEDQCAEIAhqLQAAQTBrQf8BcUEJSw0CIAAgBEEBaiIENgIUIAQgBkcNAAtBACEBDAILIAQgBk8NACAEIAhqLQAAQTBrQf8BcUEJSw0AIAVBDTYCJCAFQQhqIAggBiABQQJqIgQgBiAEIAZJGxD6ASAFQSRqIAUoAgggBSgCDBDZByEBDAELQQAhASAEIAZPDQACQAJAIAQgCGotAAAiA0HlAEYgA0HFAEZyRQRAIANBLkcNAyAAIARBAWoiAzYCFCADIAZPDQIgAyAIai0AAEEwa0H/AXFBCUsNAiAEQQJqIQQDQCAGIAQiA0YNAiADQQFqIQQgAyAIai0AACIHQTBrQf8BcUEKSQ0ACyAAIAM2AhQgB0EgckHlAEcNAwsjAEEgayIDJAAgACAAKAIUIgFBAWoiBDYCFCAAKAIMIQYCQCAEIAAoAhAiCE8NAAJAIAQgBmotAABBK2sOAwABAAELIAAgAUECaiIENgIUCwJAAkAgBCAISQRAIAAgBEEBaiIBNgIUIAQgBmotAABBMGtB/wFxQQlNDQEgASEECyADQQ02AhQgA0EIaiAGIAggBBD6ASADQRRqIAMoAgggAygCDBDZByEEDAELQQAhBCABIAhPDQADQCABIAZqLQAAQTBrQf8BcUEJSw0BIAAgAUEBaiIBNgIUIAEgCEcNAAsLIANBIGokACAEIQEMAgsgACAGNgIUDAELIAVBDTYCJCAFQRBqIAggBiAEQQJqIgQgBiAEIAZJGxD6ASAFQSRqIAUoAhAgBSgCFBDZByEBCyAFQTBqJAAgAUUNBAwICyACQQU2AnQgAkFAayAHIAMgBRD6ASACQfQAaiACKAJAIAIoAkQQ2QchAQwHCyACQQU2AnQgAkHQAGogByADIAUQ+gEgAkH0AGogAigCUCACKAJUENkHIQEMBgsgAkEFNgJ0IAJB4ABqIAcgAyAFEPoBIAJB9ABqIAIoAmAgAigCZBDZByEBDAULIAJBCjYCdCACQThqIAcgAyABQQFqIgAgAyAAIANJGxD6ASACQfQAaiACKAI4IAIoAjwQ2QchAQwEC0EBIQQgCkEBcQRAIAkhBQwBCyAAKAIIIgFFBEBBACEBDAQLIAAgAUEBayIBNgIIIAAoAgQgAWotAAAhBQsCQCACAn8CQAJAAkACQCAAKAIUIgEgACgCECIDTwRAIAUhCQwBCyAAKAIEIQYgACgCDCEHIAAoAAghCiAFIQkDQAJAAkACQAJAAkACQCABIAdqLQAAIgVBCWsOJAEBCAgBCAgICAgICAgICAgICAgICAgIAQgICAgICAgICAgIAgALIAVB3QBGDQIgBUH9AEYNAwwHCyAAIAFBAWoiATYCFCABIANHDQQgAyEBDAULIARBAXFFDQYgACABQQFqIgE2AhQMBgsgCUH/AXFB2wBHDQQMAQsgCUH/AXFB+wBHDQMLIAAgAUEBaiIBNgIUIApFBEBBACEBDAoLIAAgCkEBayIKNgIIIAYgCmotAAAhCUEBIQQgASADSQ0ACwsCQCACIAlB/wFxIgBB2wBHBH8gAEH7AEcNAUEDBUECCzYCdCACQTBqIAsoAgAgAyABQQFqIgAgAyAAIANJGxD6ASACQfQAaiACKAIwIAIoAjQQ2QchAQwIC0GQ3sYAQShBwIvBABDnCAALIARBAXFFDQBBByAJQf8BcSIAQdsARg0CGiAAQfsARg0BQZDexgBBKEHQi8EAEOcIAAsgCUH/AXFB+wBHDQIgASADSQRAA0ACQAJAIAEgB2otAABBCWsiBEEZSw0AQQEgBHRBk4CABHENASAEQRlHDQAgACABQQFqNgIUIAsQ9gMiAQ0JIAAoAgwhBwJAAkAgACgCFCIBIAAoAhAiA0kEQANAAkAgASAHai0AAEEJaw4yAAAEBAAEBAQEBAQEBAQEBAQEBAQEBAQABAQEBAQEBAQEBAQEBAQEBAQEBAQEBAQEBAMECyAAIAFBAWoiATYCFCABIANHDQALIAMhAQsgAkEDNgJ0IAJBIGogByADIAFBAWoiACADIAAgA0kbEPoBIAJB9ABqIAIoAiAgAigCJBDZByEBDAsLIAAgAUEBaiIBNgIUDAcLIAJBBjYCdCACQRhqIAcgAyABQQFqIgAgAyAAIANJGxD6ASACQfQAaiACKAIYIAIoAhwQ2QchAQwJCyACQRE2AnQgAkEIaiAHIAMgAUEBaiIAIAMgACADSRsQ+gEgAkH0AGogAigCCCACKAIMENkHIQEMCAsgACABQQFqIgE2AhQgASADRw0ACyADIQELIAJBAzYCdCACQRBqIAcgAyABQQFqIgAgAyAAIANJGxD6ASACQfQAaiACKAIQIAIoAhQQ2QchAQwFC0EICzYCdCACIAcgAyABQQFqIgAgAyAAIANJGxD6ASACQfQAaiACKAIAIAIoAgQQ2QchAQwDC0EBIQogASADSQ0ACwsgAkEFNgJ0IAJBKGogByADIAFBAWoiACADIAAgA0kbEPoBIAJB9ABqIAIoAiggAigCLBDZByEBCyACQYABaiQAIAEL4A8CGH8GfiMAQRBrIgkkACAAKAI8IREgACgCOCECIAAoAjQhASAAKAIwIQMgAP0MAAAAAAAAAAABAAAAAQAAAP0LBDAgACgCQCEEIABBADYCQCAAKAJIIQUgAEEBNgJIIAAoAlAhCiAAKAJMIQsgAEIANwJMIAkgBTYCBCAJIAs2AgggCSAKNgIMQdC4yAAhDEGABCEIAkACQAJAAkAgAC0AmAFBAWsOAwABAgMLIABBpAFqIQxBtAohCAwCCyAAQfQqaiEMQbQKIQgMAQsgAEHE1ABqIQxB0AQhCAtB0MjIACEOQSAhDQJAAkACQAJAIAAtAKABQQFrDgMAAQIDCyAAQaQBaiEOQbQKIQ0MAgsgAEH0KmohDkG0CiENDAELIABBxNQAaiEOQdAEIQ0LIAAoAgwiBUFAaiIGQUFJBEBCfyAANQKcAYZCfyAANQKUAYZCf4UhHCAFIAZJIQcgBEH/AXFBCUsEfyAEBSADrSABrUIghoQgAikAACAEQQ9xrYaEIhqnIQMgGkIgiKchASACIARBA3ZBAXFBB3NqIQIgBEE4cgshBSAAQcgAaiESIARBgH5xIRUgACgCRCEWIABBCGohE0J/hSEeQQAgBiAHGyEQIBynIRQCQAJAA0AgAyACKQAAIAWthiIZp3IhDwJAAkACQAJAIAVB/wFxIhcgACgClAFJBEAgCCAPIBRxIgNLDQEgAyAIQdDJyAAQrgcACyAIIAMgFHEiA00NAQsgBUE4ciEFIAEgGUIgiKdyIQQgDCADQQJ0aiIBLQADIQMgAS8BACEHIAEtAAIiAUUNASAKIQYMAgsgAyAIQeDJyAAQrgcACwJAIAogC0kEQCAJKAIEIhggCmogBzoAACAJIApBAWoiBjYCDAJAIA+tIAStQiCGhCADrYgiGSAcg6ciBCAISQRAIAUgA2shBSAMIARBAnRqIgQvAQAhByAELQADIQMgBC0AAiIBRQ0BIBlCIIinIQQgGachDwwECyAEIAhB8MnIABCuBwALIAYgC08NASAGIBhqIAc6AAAgCSAKQQJqIgY2AgwgGSADrYgiGSAcg6ciASAISQRAIAUgA2shBSAZQiCIpyEEIAwgAUECdGoiAS8BACEHIAEtAAMhAyABLQACIQEgGachDwwDCyABIAhBgMrIABCuBwALIAogC0Hc0MgAEK4HAAsgBiALQdzQyAAQrgcACyACIBdBA3ZBB3NqIQIgBSADayEFIA+tIAStQiCGhCADrYgiGkIgiCEZIBqnIQMCQAJAAkAgAUH/AXFFDQACQAJAA0AgAUEQcQ0BIAFBwABxBEAgAUEgcQ0DIABBHjoAAEHl58AAIQhBASEHQRwhDAwICyAHIBpCfyABrUIvg4ZCf4WDp2pB//8DcSIEIAhJBEAgA60gGUIghoQgDCAEQQJ0aiIELQADIgFBP3GtiCIaQiCIIRkgGqchAyAFIAFrIQUgBC8BACEHIAQtAAIiAUUNBAwBCwsgBCAIQZDKyAAQrgcACyAaIAGtQg+DIh2IIhkgHoOnIgQgDU8EQCAEIA1BoMrIABCuBwALIA4gBEECdGoiCi0AAyELIAotAAIhAwJ/IAUgAUEPcWsiAUH/AXFBHE8EQCABIQUgAgwBCyABQThyIQUgAikAACABrYYgGYQhGSACIAFB+AFxQQN2QQdzagshBCAKLwEAIQIgBSALayEFIBkgC62IIRsCQAJAAkACQAJAAkACfyADQRBxRQRAA0AgA0HAAHEEQCAAQR46AAAgG6chA0GB6MAAIQhBFiEMQQEMAwsgDSACIBtCfyADrUIvg4ZCf4WDp2pB//8DcSICTQ0DIAUgDiACQQJ0aiIBLQADIgJrIQUgGyACQT9xrYghGyABLwEAIQIgAS0AAiIDQRBxRQ0ACwsgByAaQn8gHYZCf4WDp2ohByAFIANBD3FrIQUgGyADrUIPgyIaiCIdQiCIIRkgHachAyAGIAIgG0J/IBqGQn+Fg6dqQf//A3EiCk8EQCAJQQRqIAogB0H//wNxEPgCDAcLIAogBmsiASAAKAIQTQRAIAAoAhQiAkUNAyABIAJNDQQgECABIAJrIgFrIQYgASAHQf//A3FPDQYgCUEEaiATIAYgEBCOBSAHIAFrIQdBACEGIAIhAQwGCyAALQABQQRxRQ0EQR4hDCAAQR46AABB1ebAACEIQQELIQcgBCECDAsLIAIgDUGwysgAEK4HAAsgECABayEGDAILIAIgAWshBgwBC0HAysgAQdUAQezKyAAQ2wcACyAJQQRqIgsgEyAGIAEgB0H//wNxIgIgASACSRsgBmoQjgUgASACTw0AIAsgCiACIAFrEPgCCyAEIQIMAgsgAEEMOgAADAILIAYgC08NBCAJKAIEIAZqIAc6AAAgCSAGQQFqNgIMCyARIAJrIAVB+AFxQQN2akEOTQ0AIBmnIQEgCSgCCCILIAkoAgwiCmtBgwJLDQELC0EAIQdBACEICyAAIBY2AkQgACARNgI8IBIgCSkCBDcCACAAIBUgBUEHcSIEcjYCQCASQQhqIAlBDGooAgA2AgAgACACIAVB+AFxQQN2azYCOCAAIANBfyAEdEF/c3GtNwMwIAcEQCAAIAw2AogBIAAgCDYChAELIAlBEGokAA8LIAYgC0Hc0MgAEK4HAAtBhM7IAEHKAEHQzsgAEOcIAAuMEAIZfwF7IwBBQGoiCSQAIAlBEGr9DAAAAAAAAAAAAAAAAAAAAAD9CwMAIAkgIf0LAwACQAJAAkACQAJAIANFDQAgAkECQQAgAxsiDWohDyACIANBAXQiEmohGiASQQJqIQggAiELQQ8hDAJAA0AgCy8BACIKBEAgCkEPSw0CIAkgCkEBdGoiCyALLwEAQQFqOwEAIA4gCiAKIA5JGyEOIAwgCiAKIAxLGyEMCyACIA1qIQsgCCANQQJqIg1HDQALIA5FDQEgDCAOTQRAIAkvAQIiCkECSw0DIAkvAQQiC0EEIApBAXRrIghB/v8DcUsNAyAJLwEGIhYgCCALa0EBdCIIQf7/A3FLDQMgCS8BCCIbIAggFmtBAXQiCEH+/wNxSw0DIAkvAQoiHCAIIBtrQQF0IghB/v8DcUsNAyAJLwEMIg0gCCAca0EBdCIIQf7/A3FLDQMgCS8BDiIQIAggDWtBAXQiCEH+/wNxSw0DIAkvARAiESAIIBBrQQF0IghB/v8DcUsNAyAIIBFrQf//A3FBAXQiCCAJLwESIhNJDQMgCCATa0EBdCIIIAkvARQiFEkNAyAIIBRrQQF0IgggCS8BFiIVSQ0DIAggFWtBAXQiCCAJLwEYIhdJDQMgCCAXa0EBdCIIIAkvARoiGEkNAyAIIBhrQQF0IgggCS8BHCIZSQ0DIAggGWtBAXQiCCAJLwEeIh1JDQMgCCAdRiABQf8BcUEAIA5BAUYbckUEQCAAQX82AgAMBwsgDCAGIA4gBiAOSRsgBiAMSRshCCAJQQA2AiAgCSAKOwEkIAkgCiALaiIGOwEmIAkgBiAWaiIGOwEoIAkgBiAbaiIGOwEqIAkgBiAcaiIGOwEsIAkgBiANaiIGOwEuIAkgBiAQaiIGOwEwIAkgBiARaiIGOwEyIAkgBiATaiIGOwE0IAkgBiAUaiIGOwE2IAkgBiAVaiIGOwE4IAkgBiAXaiIGOwE6IAkgBiAYaiIGOwE8IAkgBiAZajsBPiASQQJrQQF2QQFqIQsgAiEGQQAhDQNAIA8hCgJAIAYvAQAiBkUNACAGQQ9NBEAgCUEgaiAGQQF0aiIGIAYvAQAiBkEBajsBACAGQaACSQRAIAcgBkEBdGogDTsBAAwCCyAGQaACQbTUyAAQrgcACyAGQRBBpNTIABCuBwALIApBAkEAIAogGkcbaiEPIAohBiALIA1BAWoiDUcNAAtBFCEUQQIhGCABQf8BcSIBIRdBASEZAkACQCABQQFrDgIAAQYLIAhBCksNBkGS0sgAIRlBHyEXQdTRyAAhGEGBAiEUDAULIAhBCUsNBUHy0sgAIRlBICEXQbLSyAAhGEEAIRQMBAtBxe3HAEEcQeTtxwAQ5wgACyAKQRBBxNTIABCuBwALIABBAjYCCCAEQoCAgIqAgICgATcBACAAQoCAgIAQNwIADAMLIABBfzYCAAwCC0EBIAh0IhVBAWshHiAUQQFrQf//A3EhHyABQQFrISBBACEPQQAhE0EAIQpBACEQIAghEkEAIRFBfyEWA0ACQAJ/AkACQAJAAkACQAJAAkAgFCAHIAoiG0EBdGovAQAiAUsEQCABQQAgASAfSSIBGyEGQQBB4AAgARshAQwBCyAXIAEgFGtB//8DcSIGTQ0BIAYgGWotAAAhASAYIAZBAXRqLwEAIQYLIARBfyAMIBFrIh10IhpBASASdCIcIBAgDyARdmpqaiINQQJ0aiELIBpBAnQhDyAcIQoDQCAFIA1NDQIgCyAGOwEAIAtBA2ogHToAACALQQJqIAE6AAAgCyAPaiELIA0gGmohDSAKIBpqIgoNAAsgDEEPSw0CQYCAgIB4IAxBAWt2IBNqIhNBGHQgE0GA/gNxQQh0ciATQQh2QYD+A3EgE0EYdnJyIgFBBHZBj568+ABxIAFBj568+ABxQQR0ciIBQQJ2QbPmzJkDcSABQbPmzJkDcUECdHIiAUEBdkHVqtWqBXEgAUHVqtWqBXFBAXRyIQ8gG0EBaiEKIAkgDEEBdGoiASABLwEAQQFrIgE7AQACQAJAAkACQCABQf//A3FFBEAgDCAORg0EIBtBnwJGDQEgAyAHIApBAXRqLwEAIgFNDQIgAiABQQF0ai8BACEMCyAIIAxPDQsgDyAecSIBIBZHDQIMCwtBoAJBoAJB1NPIABCuBwALIAEgA0Hk08gAEK4HAAtBASAMIBEgCCARGyIRayISdCINIAwgDk8NBxogDiARayESIAkgDEEBdGohCyAMIQYDQCANIAsvAQBrIhZBAEwEQCAGIBFrIRIMCAsgC0ECaiELIBZBAXQhDSAGQQFqIgYgDkkNAAsMBgsgE0UNBCAFIBBJDQMgBSAQayIBIA9LBEAgBCAQQQJ0aiAPQQJ0aiIBIB06AAMgAUHAADoAAiABQQA7AQAMBQsgDyABQYTUyAAQrgcACyAGIBdBpNPIABCuBwALIA0gBUG008gAEK4HAAsgDEEQQcTTyAAQrgcACyAQIAUgBUGU1MgAENUHAAsgACAVNgIIIAAgCDYCBCAAQQA2AgAMBQtBASASdAsgFWohFQJAAkACQCAgDgIAAQILIBVBtApLDQQMAQsgFUHQBEsNAwsgASAFSQRAIAQgAUECdGoiBiAIOgADIAYgEjoAAiAGIBAgHGoiEDsBACABIRYMAQsgASAFQfTTyAAQrgcACyAKQaACRw0AC0GgAkGgAkGU08gAEK4HAAsgAEEBNgIACyAJQUBrJAAL8hIEDX8KfQN7AX4jAEGgAmsiAiQAIAEqAgAhECABKgIEIQ8gAiABKgIIIhH9EyABKgIQIhP9IAAgASoCFCIS/SAB/QsEkAEgAiAS/RMgASoCDCIS/SAAIA/9IAH9CwSAASACIBP9EyAQ/SAAIBL9IAH9CwRwIAJBkMzHAP0ABAD9CwTAASACQaDMxwD9AAQA/QsEsAEgAkGwzMcA/QAEAP0LBKABIBCLIA+LkiARi5JDAACAPxDdCEO9N4Y1lCITIBOUIRggAkHAAWpBBHIhASACQaABakEEciEFIAJBsAFqQQRyIQwgAkGAAWohDUEgIQoCfwNAIAL9AARwIhn9HwEiESARlCAZ/R8CIhAgEJSSIAL9AASAASIa/R8CIg8gD5SSIBheRQRAIBr9HwG8IQMgGf0fALwMAgsgAiAaIBkgD4sgEIsiECARiyIPIA8gEF0iCxteIgYb/QsEYCATQQhBBCAGIAtyIgQbIgkgAkHgAGpyKgIAIhCLXQRAIAIqApgBIQ8gAiAZ/QsEQAJ9AkAgDyAa/R8BIhIgBBsgEiAZ/R8AIhQgBhuTIg8gD1wgECAQkiIQIBBcckUEQCAPvCIIQYCAgPwDRg0BIAhBHnZBAnEiDiAQvCIHQR92ciEDAkACQAJAAkACQAJAAkACQAJAIAdB/////wdxIgcEQCAIQf////8HcSIIRQ0BIAhBgICA/AdGDQUgB0GAgID8B0YgCEGAgIDoAGogB0lyDQcCfSAOBEBDAAAAACAHQYCAgOgAaiAISQ0BGgsgECAPlYsQ1QQLIQ8gA0EBaw4DAwQCBgtD2w9JwCEPIANBAmsOAggFBwtD2w/JPyAQmAwKCyAPQy69uzOSQ9sPScCSDAkLIA+MDAgLQ9sPSUAgD0MuvbszkpMMBwsgB0GAgID8B0cEQCADQQJ0KgKIhUkMBwsgA0ECdCoCmIVJIQ8LIA8MBQtD2w/JPyAQmAwECyAQDAMLQ9sPSUAMAgsgECAPkgwBCyAQENUECyACIBr9CwQwIAJBMGogCXIqAgAhFUMAAAA/lCIPEJgCIRAgAkHwAGoiA0EUQRAgBhtqIA8QmwIiDyASIBr9HwAgBhsiEpQgECAVlJM4AgAgAiAC/QAEkAEiGf0LBFBBJEEgIAYbIANqIA8gGf0fASAZ/R8AIAYbIhaUIBAgAkHQAGogCXIqAgAiF5STOAIAQQRBACAGGyADciAPIBEgFCAGGyIRlCAQIAJBQGsgCXIqAgAiFJSTOAIAQRhBFCAEGyADaiAQIBKUIA8gFZSSOAIAQShBJCAEGyADaiAQIBaUIA8gF5SSOAIAIANBCEEEIAQbIgdyIBAgEZQgDyAUlJI4AgBBEEEAIAYbIANqIA8gAv0ABIABIhkgAv0ABHAgBhv9HwAiEZQgECAC/QAEkAEgGSAEG/0fACISlJM4AgBBIEEQIAQbIANqIBAgEZQgDyASlJI4AgBBFEEEIAYbIANqIA8gAv0ABIABIhkgAv0ABHAgBhv9HwEiEZQgECAC/QAEkAEgGSAEG/0fASISlJM4AgBBJEEUIAQbIANqIBAgEZQgDyASlJI4AgBBGEEIIAYbIANqIA8gAv0ABIABIhkgAv0ABHAgBhv9HwIiEZQgECAC/QAEkAEgGSAEG/0fAiISlJM4AgBBKEEYIAQbIANqIBAgEZQgDyASlJI4AgAgDSADIAYbIAdqQQA2AgACfyAGRQRAQSBBECALGyADakEANgIAQgAhHCACQcABaiEEIAJBoAFqIQMgAkGwAWoMAQsgAkEANgKUAUIBIRwgBSEDIAEhBCAMCyACIAL9AATAAf0LBCAgBCAPIAJBIGoiBCAcp0ECdHIqAgAiEZQgECAEIAlyKgIAIhKUkzgCACACIAL9AASwASIZ/QsEECAPIBn9HwEgGf0fACAGGyIVlCAQIAJBEGogCXIqAgAiFJSTOAIAIAIgAv0ABKABIhn9CwQAIAMgDyAZ/R8BIBn9HwAgBhsiFpQgECACIAlyKgIAIheUkzgCACACQcABaiAHciAQIBGUIA8gEpSSOAIAIAJBsAFqIAdyIBAgFZQgDyAUlJI4AgAgAkGgAWogB3IgECAWlCAPIBeUkjgCAAsgCkEBayIKDQALIAIoAoQBIQMgAigCcAshBSACIAIqApgBIhM4AtwBIAIgAzYC2AEgAiAFNgLUASACIAL9AATAASIZIAL9AASwASIa/Q0ICQoLGBkaGwABAgMAAQIDIAL9AASgASIb/Q0AAQIDBAUGBxgZGhsYGRob/QsEgAIgAiAZIBr9DQQFBgcUFRYXAAECAwABAgMgG/0NAAECAwQFBgcUFRYXFBUWF/0LBPABIAIgGSAa/Q0AAQIDEBESEwABAgMAAQIDIBv9DQABAgMEBQYHEBESExAREhP9CwTgASAZ/R8AIhAgEJQgGv0fACIPIA+UkiAb/R8AIhEgEZSSIhJDAAAAAF4EQCACIBEgEpEiEZU4AugBIAIgDyARlTgC5AEgAiAQIBGVOALgAQsgGf0fASIQIBCUIBr9HwEiDyAPlJIgG/0fASIRIBGUkiISQwAAAABeBEAgAiARIBKRIhGVOAL4ASACIA8gEZU4AvQBIAIgECARlTgC8AELIBn9HwIiECAQlCAa/R8CIg8gD5SSIBv9HwIiESARlJIiEkMAAAAAXgRAIAIgESASkSIRlTgCiAIgAiAPIBGVOAKEAiACIBAgEZU4AoACC0EAIQQgAkEANgKcAiACQQE2ApgCIAJB1AFqIQpBASEBIAVBH3VBAXYgBXMiBSADQR91QQF2IANzIgNIBEBBASEEIAJBATYCnAIgAkEANgKYAiAFIQMgAkHYAWohCkEAIQELAkAgAyATvCIFIAVBH3VBAXZzIgVOBEBBAiEDDAELIAJBmAJqIQMgBSAKKAIAIgZBH3VBAXYgBnNKBH8gAiAENgKYAiACQZwCagUgAwtBAjYCAAJAIAIoApwCIgRBAk0EQCACKAKYAiIFQQNPDQEgASEDIAUhAQwCCyAEQQNBwMzHABCuBwALIAVBA0HQzMcAEK4HAAsgACACQeABaiIFIANBBHRq/QAEAP0LBDAgACABQQR0IAVq/QAEAP0LBCAgACAEQQR0IAVq/QAEAP0LBBAgACACQdQBaiIFIANBAnRqKgIAOAIIIAAgAUECdCAFaioCADgCBCAAIARBAnQgBWoqAgA4AgAgAkGgAmokAAuaEQIQfwN+IwBBIGsiAiQAAkACQAJAAkACfwJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiBEGAgICAeHMgBEEAThtBFGsOAgECAAsgASACQR9qQYCIwQAQjwghASAAQYCAgIB4NgIAIAAgATYCBAwKCwJAAn8gASgCDCIHBEAgAkEEaiIDIAEoAggiCRCFBCACKAIIIgEgAigCBCIFQYCAgIB4Rg0BGiACKAIUIQggAigCECEGIAdBAUYNBSACKAIYIQogAigCDCELIAMgCUEQahDYAiACKAIIIQQgAigCBA0LIAdBAkYNBCACKQIMIRIgAyAJQSBqENgCIAIoAgghAyACKAIERQ0CIAMhBAwLC0EAQZygwQBB6J3BABD9BgshASAAQYCAgIB4NgIAIAAgATYCBAwKCwJAIAdBA0cEQCACKQIMIRMgAkEEaiAJQTBqEJoFIAIoAgRFDQEgAigCCCEEDAoLQQNBnKDBAEHoncEAEP0GIQQMCQsgACACKQIINwIwIAAgEzcCKCAAIAM2AiQgACASNwIcIAAgBDYCGCAAIAo2AhQgACAINgIQIAAgBjYCDCAAIAs2AgggACABNgIEIAAgBTYCACAHQQRGDQkgAkEENgIEIAdB/P///wBqQf////8AcUEEaiACQQRqQdC1wQAQ/QYhBCAAQYCAgIB4NgIAIAAgBDYCBCAFBEAgASAFQQEQiAcLIAZFDQkgCCAGQQEQiAcMCQsgASgCCCIERQ0EIARBBXQhCyABKAIEIQFBACEEQYCAgIB4IQUDQAJAAkACQAJAAkACQAJAAkBBFSABKAIAIgNBgICAgHhzIANBAE4bQQFrDg8BAAACAAAAAAAAAAMEBQYACyABIAJBH2pBsIrBABCPCCEDIAJBAToABCACIAM2AggMBgsgAkEAOgAEIAJBBCABQQRqLQAAIgMgA0EETxs6AAUMBQsgAkEAOgAEIAJCBCABQQhqKQMAIhIgEkIEWhs8AAUMBAsgAUEIaigCACEDAn8CQAJAAkACQCABQQxqKAIAQQRrDgIBAAMLIANB+J3BAEEFELsHDQFBAAwDC0EBIAMoAABB7dK5mwdGDQIaIAMoAABB7cLhmwdHDQFBAgwCCyADQYWewQBBBRC7Bw0AQQMMAQtBBAshAyACQQA6AAQgAiADOgAFDAMLIAFBBGooAgAhAwJ/AkACQAJAAkAgAUEIaigCAEEEaw4CAQADCyADQfidwQBBBRC7Bw0BQQAMAwtBASADKAAAQe3SuZsHRg0CGiADKAAAQe3C4ZsHRw0BQQIMAgsgA0GFnsEAQQUQuwcNAEEDDAELQQQLIQMgAkEAOgAEIAIgAzoABQwCCyACQQRqIAFBCGooAgAgAUEMaigCABDLBQwBCyACQQRqIAFBBGooAgAgAUEIaigCABDLBQsgAi0ABEEBRgRAIAIoAgghASAAQYCAgIB4NgIAIAAgATYCBAwHCyABQRBqIQMCQAJAAkACQAJAAkACQAJAIAItAAUOBAABAgMHCyAFQYCAgIB4RwRAQfidwQBBBRDNByEBIABBgICAgHg2AgAgACABNgIEDA4LIAJBBGogAxCFBCACKAIIIQYgAigCBCIFQYCAgIB4Rg0KIAIoAhghDyACKAIUIQogAigCECEHIAIoAgwhEAwGCyAIDQIgAkEEaiADENgCIAIoAgghDCACKAIEBEAgAEGAgICAeDYCACAAIAw2AgQMDQsgAikCDCETQQEhCAwFCyAEQQFGDQIgAkEEaiADENgCIAIoAgghDSACKAIEBEAgAEGAgICAeDYCACAAIA02AgQMDAsgAikCDCEUQQEhBAwECyAJDQIgAkEEaiADEJoFIAIoAgghDiACKAIEBEAgAEGAgICAeDYCACAAIA42AgQMCwsgAigCDCERQQEhCQwDC0H9ncEAQQQQzQchASAAQYCAgIB4NgIAIAAgATYCBAwJC0GBnsEAQQQQzQchASAAQYCAgIB4NgIAIAAgATYCBAwIC0GFnsEAQQUQzQchASAAQYCAgIB4NgIAIAAgATYCBAwHCyABQSBqIQEgC0EgayILDQALDAMLQQJBnKDBAEHoncEAEP0GIQQMBgtBAUGcoMEAQeidwQAQ/QYhBAwFCyAAQYCAgIB4NgIAIAAgBjYCBAwFCyAFQYCAgIB4Rg0AIAIgDzYCGCACIAo2AhQgAiAHNgIQIAIgEDYCDCACIAY2AgggAiAFNgIEAkAgCEUEQEH9ncEAQQQQygchAQwBCyAEQQFxRQRAQYGewQBBBBDKByEBDAELIAlFBEBBhZ7BAEEFEMoHIQEMAQsgACAC/QACBP0LAgAgACARNgI0IAAgDjYCMCAAIBQ3AiggACANNgIkIAAgEzcCHCAAIAw2AhggAEEQaiACQRRqKQIANwIADAULIABBgICAgHg2AgAgACABNgIEIAJBBGoQ2AVBAAwCC0GAgICAeCEFQfidwQBBBRDKByEBIABBgICAgHg2AgAgACABNgIEC0EBC0UgBUGAgICAeEZyDQECQCAFBEAgBkEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgBWpJDQQgAEEAIAEgBUEnaksbDQUgBhCfAgsgB0UNAiAKQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyAHakkNAyAAQQAgASAHQSdqSxsNACAKEJ8CDAILDAMLIABBgICAgHg2AgAgACAENgIEIAUEQCABQQRrKAIAIgBBeHEiBEEEQQggAEEDcSIAGyAFakkNAiAAQQAgBCAFQSdqSxsNAyABEJ8CCyAGRQ0AIAhBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIAZqSQ0BIABBACABIAZBJ2pLGw0CIAgQnwILIAJBIGokAA8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC7cNAgp/An4gACgCFCECIAAoAhAhBSAAKQMIIQwgACgCBCEIIAAoAgAhCSAAKAIYIgNBAEgEQCAFIAhJBEAgCSAFQQJ0aigAACEHCyAHQRh0IAdBgP4DcUEIdHIgB0EIdkGA/gNxIAdBGHZycq0gDEIghoQhDCAFQQFqIQUgA0EgaiEDCyAMQgAgAiACQQF2IgJrIgatIANBP3GthiINIAwgDVQiBBt9IQxBACEHIAMgBiACIAQbIgJnIgNBGGsiBkEAIAMgBk8bIgZrIQMgAiAGdCECAkACQCAEBEAgBSAITQ0BDAILIANBAEgEQCAFIAhJBEAgCSAFQQJ0aigAACEHCyAHQRh0IAdBgP4DcUEIdHIgB0EIdkGA/gNxIAdBGHZycq0gDEIghoQhDCAFQQFqIQUgA0EgaiEDCyAMQgAgAiACQQF2IgJrIgStIANBP3GthiINIAwgDVQiBxt9IQwgBCACIAcbIgIgAmciAkEYayIEQQAgAiAETxsiAnQhBCADIAJrIgNBAEgEQEEAIQIgBSAISQRAIAkgBUECdGooAAAhAgsgAkEYdCACQYD+A3FBCHRyIAJBCHZBgP4DcSACQRh2cnKtIAxCIIaEIQwgBUEBaiEFIANBIGohAwsgDCAEIARBAXYiAmsiBq0gA0E/ca2GIg1CACAMIA1aIgQbfSEMIAIgBiAEGyICIAJnIgJBGGsiBkEAIAIgBk8bIgJ0IQYgAyACayIDQQBIBEBBACECIAUgCEkEQCAJIAVBAnRqKAAAIQILIAJBGHQgAkGA/gNxQQh0ciACQQh2QYD+A3EgAkEYdnJyrSAMQiCGhCEMIAVBAWohBSADQSBqIQMLIAxCACAGIAZBAXYiAmsiCq0gA0E/ca2GIg0gDCANVCIGG30hDCAKIAIgBhsiAiACZyICQRhrIgpBACACIApPGyICdCIKIApBAXYiCmsiC60gAyACayIDQQBIBEBBACECIAUgCEkEQCAJIAVBAnRqKAAAIQILIAJBGHQgAkGA/gNxQQh0ciACQQh2QYD+A3EgAkEYdnJyrSAMQiCGhCEMIAVBAWohBSADQSBqIQMLIANBP3GthiINIAxYIgJBAEECIAcbIARyQQJ0QQBBAiAGG3JyIQcgDCANQgAgAht9IQwgAyAKIAsgAhsiAmciA0EYayIEQQAgAyAETxsiBGshAwJ/IAIgBHQiBCABQf8BcUEERg0AGiADQQBIBEBBACECIAUgCEkEQCAJIAVBAnRqKAAAIQILIAJBGHQgAkGA/gNxQQh0ciACQQh2QYD+A3EgAkEYdnJyrSAMQiCGhCEMIAVBAWohBSADQSBqIQMLIAwgBCAEQQF2IgRrIgatIANBP3GthiINQgAgDCANWiICG30hDCADIAQgBiACGyIEZyIDQRhrIgZBACADIAZPGyIGayEDIAIgB0EBdHIhByAEIAZ0IgQgAUH/AXFBBkkNABogA0EASARAQQAhAiAFIAhJBEAgCSAFQQJ0aigAACECCyACQRh0IAJBgP4DcUEIdHIgAkEIdkGA/gNxIAJBGHZycq0gDEIghoQhDCAFQQFqIQUgA0EgaiEDCyAMIAQgBEEBdiIEayIGrSADQT9xrYYiDUIAIAwgDVoiAht9IQwgAyAEIAYgAhsiBGciA0EYayIGQQAgAyAGTxsiBmshAyACIAdBAXRyIQcgBCAGdCIEIAFB/wFxQQZGDQAaIANBAEgEQEEAIQIgBSAISQRAIAkgBUECdGooAAAhAgsgAkEYdCACQYD+A3FBCHRyIAJBCHZBgP4DcSACQRh2cnKtIAxCIIaEIQwgBUEBaiEFIANBIGohAwsgDCAEIARBAXYiBGsiBq0gA0E/ca2GIg1CACAMIA1aIgIbfSEMIAMgBCAGIAIbIgRnIgNBGGsiBkEAIAMgBk8bIgZrIQMgAiAHQQF0ciEHIAQgBnQLIQQgA0EASARAQQAhAiAFIAhJBEAgCSAFQQJ0aigAACECCyACQRh0IAJBgP4DcUEIdHIgAkEIdkGA/gNxIAJBGHZycq0gDEIghoQhDCAFQQFqIQUgA0EgaiEDCyAFIAhLDQEgDEIAIAQgBEEBdiICayIIrSADQT9xrYYiDSAMIA1UIgEbfSEMIAggAiABGyICIAJnIgJBGGsiCEEAIAIgCE8bIgh0IQIgAyAIayEDIAdBACAHayABGyEHCyAAIAM2AhggACACNgIUIAAgBTYCECAAIAw3AwggBw8LIAAQuAoEf0EAIAAgARDiB0H/AXEiAWsgASAAELgKGwVBAAsLhBACAn8BfiMAQTBrIgIkACABKAIEIQMgASgCACEBAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAAoAgAiAC0AAEEBaw4jGhscAQIDBAUGBwgJCh0LDB4NDg8QERITFBUfICEWKhcYGSsACyACIABBBGo2AgwgAiAAQQhqNgIoIAIgAEEMajYCLCACIAJBLGqtQoCAgICADIQ3AyAgAkKAgICAkAwiBCACQShqrYQ3AxggAiAEIAJBDGqthDcDECABIANBl+7AACACQRBqEMQDDCsLIAIgAEEBajYCLCACIAJBLGqtQoCAgICADIQ3AxAgASADQcnlwAAgAkEQahDEAwwqCyACIABBAWo2AiwgAiACQSxqrUKAgICAgAyENwMQIAEgA0Gh7cAAIAJBEGoQxAMMKQsgAiAAQQFqNgIsIAIgAkEsaq1CgICAgIAMhDcDECABIANB7+3AACACQRBqEMQDDCgLIAIgAEEBajYCLCACIAJBLGqtQoCAgICADIQ3AxAgASADQcjtwAAgAkEQahDEAwwnCyACIABBAWo2AiwgAiACQSxqrUKAgICAgAyENwMQIAEgA0Ht7MAAIAJBEGoQxAMMJgsgAiAAQQFqNgIsIAIgAkEsaq1CgICAgIAMhDcDECABIANBuu/AACACQRBqEMQDDCULIAIgAEEEajYCKCACIABBCGo2AiwgAkKAgICAoAwiBCACQShqrYQ3AxggAiAEIAJBLGqthDcDECABIANB3u/AACACQRBqEMQDDCQLIAIgAEEEajYCKCACIABBCGo2AiwgAkKAgICAoAwiBCACQSxqrYQ3AxggAiAEIAJBKGqthDcDECABIANBj/DAACACQRBqEMQDDCMLIAIgAEEBajYCDCACIABBBGo2AiggAiAAQQhqNgIsIAIgAkEMaq1CgICAgLAMhDcDICACQoCAgICgDCIEIAJBLGqthDcDGCACIAQgAkEoaq2ENwMQIAEgA0HU7sAAIAJBEGoQxAMMIgsgAiAAQQJqNgIoIAIgAEEBajYCLCACIAJBKGqtQoCAgIDADIQ3AxggAiACQSxqrUKAgICAkAiENwMQIAEgA0HM8cAAIAJBEGoQxAMMIQsgAiAAQQJqNgIoIAIgAEEBajYCLCACIAJBLGqtQoCAgIDADIQ3AxggAiACQShqrUKAgICAsAyENwMQIAEgA0HwgsAAIAJBEGoQxAMMIAsgAiAAQQFqNgIsIAIgAkEsaq1CgICAgLAMhDcDECABIANBpPLAACACQRBqEMQDDB8LIAIgAEEBajYCLCACIAJBLGqtQoCAgICQCIQ3AxAgASADQbXxwAAgAkEQahDEAwweCyACIABBAWo2AiwgAiACQSxqrUKAgICAkAiENwMQIAEgA0HR8sAAIAJBEGoQxAMMHQsgAiAAQQFqNgIsIAIgAkEsaq1CgICAgJAIhDcDECABIANBh/HAACACQRBqEMQDDBwLIAIgAEEBajYCLCACIAJBLGqtQoCAgICQCIQ3AxAgASADQZ/xwAAgAkEQahDEAwwbCyACIABBAWo2AiwgAiACQSxqrUKAgICAkAiENwMQIAEgA0Hh8MAAIAJBEGoQxAMMGgsgAiAAQQFqNgIsIAIgAkEsaq1CgICAgJAIhDcDECABIANBvvDAACACQRBqEMQDDBkLIAIgAEEBajYCLCACIAJBLGqtQoCAgICQCIQ3AxAgASADQYTzwAAgAkEQahDEAwwYCyACIABBAWo2AiwgAiACQSxqrUKAgICAkAiENwMQIAEgA0Hp8sAAIAJBEGoQxAMMFwsgAiAAQQFqNgIsIAIgAkEsaq1CgICAgJAIhDcDECABIANBpPPAACACQRBqEMQDDBYLIAAtAAFBAWsOBwwNDg8QERILCyACIABBAWo2AiwgAiACQSxqrUKAgICAgAyENwMQIAEgA0Gv6MAAIAJBEGoQxAMMFAsgAiAAQQFqNgIsIAIgAkEsaq1CgICAgIAMhDcDECABIANB+JLAACACQRBqEMQDDBMLIAIgAEEBajYCLCACIAJBLGqtQoCAgICADIQ3AxAgASADQdiSwAAgAkEQahDEAwwSCyABQY6VxQBBFiADKAIMEQAADBELIAFBpJXFAEElIAMoAgwRAAAMEAsgAUHJlcUAQR4gAygCDBEAAAwPCyABQeeVxQBBISADKAIMEQAADA4LIAFBiJbFAEEYIAMoAgwRAAAMDQsgAUGglsUAQRsgAygCDBEAAAwMCyACIABBAWo2AixBASABQbuWxQBBGCADKAIMEQAADQsaIAIgAkEsaq1CgICAgNAMhDcDECABIANBqJrAACACQRBqEMQDDAsLIAFB05bFAEE3IAMoAgwRAAAMCgsgAUGKl8UAQSMgAygCDBEAAAwJCyABQa2XxQBBJiADKAIMEQAADAgLIAFB05fFAEEgIAMoAgwRAAAMBwsgAUHzl8UAQR0gAygCDBEAAAwGCyABQZCYxQBBNCADKAIMEQAADAULIAFBxJjFAEExIAMoAgwRAAAMBAsgAUH1mMUAQccAIAMoAgwRAAAMAwsgAUG8mcUAQSYgAygCDBEAAAwCCyABQeKZxQBBHyADKAIMEQAADAELIAFBgZrFAEEQIAMoAgwRAAALIAJBMGokAAudEAIJfwR+IwBB0AJrIgEkAAJAAkACQAJAIAAtAPgDRQRAIAAoApABIgJBAkcNAiAAKAIAQQJHDQIgACgCuAIiA0EETw0BDAMLIAA1ArgCIQogAEEANgK4AiAAIAogACkDcHw3A3AMAwsgAEGQAWohBiABIAAoArQCIgQoAAAiAjYCEAJAAkACQAJAAkACQAJAIAJB0oKRmgRHBEAgAkHSgpGCA0cNASADQQhJDQkgAyAEKAAEIgVBB2pBeHFBCGoiAkkNCSAFQQhqIgcgA0sgBUF3S3INAiABQQA2AsgCIAEgBTYCxAIgASAEQQhqNgLAAiABQSBqIAFBwAJqEGQgASgCJCEFIAEoAiAiCEECRgRAIAUQggghAgwLCyABQbABaiABQShqQYAB/AoAACAAQQA2ArgCIAEgBTYCrAEgASAINgKoASADIAJrIQcCQAJAIAJFDQAgAiADRg0BIAdFDQAgBCACIARqIAf8CgAACyAAIAc2ArgCCyAAIAApA3AgAq18Igo3A3ggACAKNwNwIAEoAqQCQQFHDQMgACABKAKUAiIENgKcAiAAIAEoArQBIAEoAsABIgMgASgCsAEbIgI2AqACIAJFDQQgBCADIAJuIgQgAiAEbCADR2oiAkYEQCABLQCoAiECIAEgBUEAIAhBAXEbNgIkIAEgAzYCICABIAJBAXEiAzoAKCAAQbwCaiABQSBqEJ0EAkAgASgC0AEiAkECRg0AIAJBAXEEQCAAIAEqAtQBOAK8AwsgASgC2AFBAUYEQCAAIAEqAtwBOALAAwsgASgC4AFBAUYEQCAAIAEqAuQBOALEAwsgASgC6AFBAUYEQCAAIAEqAuwBOALIAwsgASgC8AFBAUYEQCAAIAEqAvQBOALMAwsgASgC+AFBAUYEQCAAIAEqAvwBOALQAwsgASgCgAJBAUYEQCAAIAEqAoQCOALUAwsgAS0AiAIiAkECRg0AIAAgAjoA2AMLIANFDQcgAEEBOgDYAwwHCyABIAI2AswCIAFCgICAgBAiCiAAQZwCaq2ENwMoIAEgCiABQcwCaq2ENwMgIAFBwAJqIgBBtYXAACABQSBqEPUGDAULIAFBCGogABDUAiABLQAIRQRAIAEtAAkNB0EAIQIMCgsgASgCDCECDAkLIAEgAUEQaq1CgICAgIAEhDcDICABQRRqIgBB3ODBACABQSBqEPUGIAAQgAghAgwIC0EIIAcgA0HM4MEAENUHAAsgASABQaQCaq1CgICAgBCENwMgIAFBtAJqIgBBl5LAACABQSBqEPUGDAELQbzgwQAQ1AkACyAAEIAIIQIgAUGoAWoQygQMBAsCQAJAAkAgBigCAEECRg0AIAAoAvgBIQQgACgC/AEiAwRAIARBJGohAgNAIAJBBGsoAgAiBUGAgICAeHJBgICAgHhHBEAgAigCACIHQQRrKAIAIghBeHEiCUEEQQggCEEDcSIIGyAFakkNBCAIQQAgCSAFQSdqSxsNBSAHEJ8CCyACQTBqIQIgA0EBayIDDQALCyAAKAL0ASIDBEAgBCADQTBsQQgQiAcLIAAoAoACIgNBgICAgHhyQYCAgIB4Rg0AIAAoAoQCIANBARCIBwsgBiABQagBakGIAfwKAAAMAgtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIAYoAgAhAgsCQAJAAkACQAJ/AkAgAkECRwRAIAAoApgCIAAoApwCTw0GIAAoAgBBAkYNAUEADAILIAFBqAFqIAAQSiABKAKsAUEAIAEtAKgBIgMbIQIgAw0HIAEtAKkBQQFxRQ0HIAApA4gBIgwgACkDcCIKWARAIAAoArgCIQMMBQsgACgCuAIhBEEAIQMgAEEANgK4AiAEIAwgCn0iCyAErSINIAsgDVQbIgunIgZrIQIgC1BFBEAgBCAGRg0EIAJFDQMgACgCtAIiAyADIAZqIAL8CgAADAMLIAQgBkcNAgwDC0EBCyECA0ACQAJAAkACQAJAAkACQAJAAkACQAJAIAJFBEAgAUGoAWogABBKIAEoAqwBIQMgAS0AqAEiAg0CIAEtAKkBQQFxRQ0CIAApA4gBIgogACkDcCIMVg0BDAYLIAFBqAFqIAAQ1AIgAS0AqAFBAUYEQCABKAKsASECDBILIAEtAKkBDQlBACECDBELIAAoArgCIQMgAEEANgK4AiADIAogDH0iCyADrSINIAsgDVQbIgunIgJrIQQgC1ANASACIANGDQMgBEUNAiAAKAK0AiIDIAIgA2ogBPwKAAAMAgsgA0EAIAIbIQIMDwsgAiADRg0BCyAAIAQ2ArgCCyAAIAsgDHwiDDcDcCAKIAxWDQELAkAgACgCAEECRg0AIAAoAlwiA0UNACAAKAJgIgJBBGsoAgAiBEF4cSIGIANBKGwiA0EEQQggBEEDcSIEG2pJDQIgBEEAIAYgA0EnaksbDQMgAhCfAgsgAEECNgIAIAAgACgCmAJBAWoiAzYCmAIgAyAAKAKcAkkNBAwJC0EAIQIMCgtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQQAhAgwBC0EBIQIMAAsACyAAIAI2ArgCIAIhAwsgACAKIAt8Igo3A3AgCiAMWg0AQQAhAgwDC0EAIQIgAEEANgK4AiAAQQE6APgDIAAgCiADrXw3A3AMAgsgAEEBOgD4AyAANQK4AiEKQQAhAiAAQQA2ArgCIAAgCiAAKQNwfDcDcAwBC0EAIQILIAFB0AJqJAAgAgu6DwIOfwF+IwBBIGsiAiQAAkACQAJAAkACQAJAAkACfwJ/AkACQAJAAkACQAJAAkACQEEVIAEoAgAiA0GAgICAeHMgA0EAThtBFGsOAgABBAsgASgCDCIDRQ0CIAJBBGogASgCCCIBEIUEIAIoAgghCCACKAIEIgZBgICAgHhGBEAgCCEDDA0LIAIoAhQhCSACKAIQIQcgA0EBRg0BIAIoAhghCyACKAIMIQwgAkEEaiABQRBqEJADIAIoAgghBCACKAIEIgVBgICAgHhGBEAgBCEDDAwLAkACfyADQQJHBEAgAigCDCEOIAJBBGogAUEgahCnAyACLQAERQ0CIAIoAggMAQtBAkH0n8EAQeidwQAQ/QYLIQMgBUUNDCAEQQRrKAIAIgFBeHEiCiAFQQJ0IgVBBEEIIAFBA3EiARtqSQ0QIAFBACAKIAVBJ2pLGw0PIAQQnwIMDAsgA0EDRgRAIAItAAUhDwwLCyACQQM2AgQgA0H9////AGpB/////wBxQQNqIAJBBGpB0LXBABD9BiEDIAYEQCAIIAZBARCIBwsgBwRAIAkgB0EBEIgHCyAFRQ0MIAQgBUECdEEEEIgHDAwLIAEoAggiA0UEQEGAgICAeCEFDAYLIANBBXQhCiABKAIEIQFBgICAgHghBkGAgICAeCEFA0ACQAJAAkACQAJAAkACQAJAQRUgASgCACIDQYCAgIB4cyADQQBOG0EBaw4PAQAAAgAAAAAAAAADBAUGAAsgASACQR9qQcCJwQAQjwghAyACQQE6AAQgAiADNgIIDAYLIAJBADoABCACQQMgAUEEai0AACIDIANBA08bOgAFDAULIAJBADoABCACQgMgAUEIaikDACIQIBBCA1obPAAFDAQLIAFBCGooAgAhAwJ/AkACQAJAAkAgAUEMaigCAEEFaw4EAAMDAQMLIANB+J3BAEEFELsHDQFBAAwDCyADKQAAQuPekaum7Nu36wBSDQFBAQwCCyADQdCfwQBBBRC7Bw0AQQIMAQtBAwshAyACQQA6AAQgAiADOgAFDAMLIAFBBGooAgAhAwJ/AkACQAJAAkAgAUEIaigCAEEFaw4EAAMDAQMLIANB+J3BAEEFELsHDQFBAAwDCyADKQAAQuPekaum7Nu36wBSDQFBAQwCCyADQdCfwQBBBRC7Bw0AQQIMAQtBAwshAyACQQA6AAQgAiADOgAFDAILIAJBBGogAUEIaigCACABQQxqKAIAEL0FDAELIAJBBGogAUEEaigCACABQQhqKAIAEL0FCyACLQAEQQFGDQUgAUEQaiEDAkACQAJAAkACQAJAAkAgAi0ABUEBaw4DAQIGAAsgBkGAgICAeEcEQEH4ncEAQQUQzQchA0EBDA4LIAJBBGogAxCFBCACKAIIIQMgAigCBCIGQYCAgIB4Rg0CIAIoAhghCyACKAIUIQkgAigCECEHIAIoAgwhDCADIQgMBQsgBUGAgICAeEcEQEGAn8EAQQgQzQchA0EBDA0LIAJBBGogAxCQAyACKAIIIQQgAigCBCIFQYCAgIB4Rg0DIAIoAgwhDgwECyANDQEgAkEEaiADEKcDIAItAAQNCSACLQAFIQ9BASENDAMLQYCAgIB4IQZBAQwKC0HQn8EAQQUQzQchA0EBDAkLQQEhCiAEIQMMCgsgAUEgaiEBIApBIGsiCg0ACwwDC0EBQfSfwQBB6J3BABD9BiEDDAkLQQBB9J/BAEHoncEAEP0GIQMMCQsgASACQR9qQeCIwQAQjwghAwwICyAGQYCAgIB4Rg0BIAIgCzYCGCACIAk2AhQgAiAHNgIQIAIgDDYCDCACIAg2AgggAiAGNgIEAkAgBUGAgICAeEYiAUUEQCANDQdB0J/BAEEFEMoHIQMgBUUNASAEIAVBAnRBBBCIBwwBC0GAn8EAQQgQygchAwsgAkEEahDYBUEADAMLIAIoAgghA0EBDAELQYCAgIB4IQZB+J3BAEEFEMoHIQNBAQshAUEBCyEKIAVB/////wdxRSABRXINAAJAIARBBGsoAgAiAUF4cSILIAVBAnQiBUEEQQggAUEDcSIBG2pPBEAgAUEAIAsgBUEnaksbDQEgBBCfAgwCCwwHCwwFCyAKRSAGQYCAgIB4RnINAgJAIAYEQCAIQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyAGakkNByABQQAgBCAGQSdqSxsNBiAIEJ8CCyAHRQ0DIAlBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAdqSQ0GIAFBACAEIAdBJ2pLGw0AIAkQnwIMAwsMBAsgACAPOgAkIAAgDjYCICAAIAQ2AhwgACAFNgIYIAAgCzYCFCAAIAk2AhAgACAHNgIMIAAgDDYCCCAAIAg2AgQgACAGNgIADAILIAYEQCAIQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyAGakkNBCABQQAgBCAGQSdqSxsNAyAIEJ8CCyAHRQ0AIAlBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAdqSQ0DIAFBACAEIAdBJ2pLGw0CIAkQnwILIABBgYCAgHg2AgAgACADNgIECyACQSBqJAAPC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAunEQILfwF+IwBBIGsiAyQAAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiBUGAgICAeHMgBUEAThtBFGsOAgECAAsgASADQRRqQaCIwQAQjwghASAAQYCAgIB4NgIAIAAgATYCBAwHCwJ/AkACQCABKAIMIgIEQAJAIAEoAggiASgCAEGUgICAeEYEQAJAIAEoAgwiBwRAIANBBGogASgCCBC9AyADKAIEIgZBgICAgHhHDQEgAygCCCEBDAULQQAgA0EUakGgh8EAEP0GIQEMBAsgAygCCCEFIAdBAUYNASADQQE2AgQgB0EBa0H/////AHFBAWogA0EEakHQtcEAEP0GIQEgBkUNAyAFIAZBARCIBwwDCyABIANBFGpBoIfBABCPCCEBDAILIAJBAUYNAiADKAIMIQlBgICAgHghBwJAAn8CQAJAQRUgAUEQaiIKKAIAIgtBgICAgHhzIAtBAE4bQRBrDgMDAQMACyADQQRqIAoQvQNBgYCAgHggAygCBCIBIAFBgYCAgHhMGwwBCyADQQRqIAEoAhQQvQNBgYCAgHggAygCBCIBIAFBgYCAgHhMGwshByADKAIMIQggAygCCCIEIAdB/////wdqQQJJDQQaCyAAIAg2AhQgACAENgIQIAAgBzYCDCAAIAk2AgggACAFNgIEIAAgBjYCACACQQJGDQogA0ECNgIEIAJB/v///wBqQf////8AcUECaiADQQRqQdC1wQAQ/QYhASAAQYCAgIB4NgIAIAAgATYCBCAGBEAgBSAGQQEQiAcLIAdBgICAgHhyQYCAgIB4Rg0KIAQgB0EBEIgHDAoLQQBB1J7BAEHoncEAEP0GIQELIABBgICAgHg2AgAgACABNgIEDAgLQQFB1J7BAEHoncEAEP0GCyEEIABBgICAgHg2AgAgACAENgIEIAZFDQYgBUEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgBmpJDQggAEEAIAEgBkEnaksbDQcgBRCfAgwGCyABKAIIIQUgASgCBCEBIANCADcCDCADIAE2AgQgAyABIAVBBXRqIgc2AgggBUUEQEGBgICAeCEEDAILQYCAgIB4IQhBgYCAgHghBANAIAMgAUEgaiIFNgIEIAMgAygCEEEBajYCECADIAFBEGoiCzYCDAJAAkACfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiAkGAgICAeHMgAkEAThtBAWsODwAGBgEGBgYGBgYGAgMEBQYLIAEtAAQiAkUNCEEBQQIgAkEBRhshAgwMCyABKQMIIg1QDQdBAUECIA1CAVEbIQIMCwsgASgCCCECIAEoAgxBBWsOBAUMDAcMCyABKAIEIQICQCABKAIIQQVrDgQEDAwADAsgAikAAELl3I37xqyat+cAUQ0KDAsLIAEoAgghAgJAAkAgASgCDEEFaw4EAQwMAAwLIAItAABB5QBHDQsgAi0AAUHuAEcNCyACLQACQeMARw0LIAItAANB7wBHDQsgAi0ABEHkAEcNCyACLQAFQekARw0LIAItAAZB7gBHDQsgAi0AB0HnAEYNCgwLCyACLQAAQeYARw0KIAItAAFB6QBHDQogAi0AAkHsAEcNCiACLQADQeUARw0KIAItAARB8wBHDQoMBAsgASgCBCECAkACQCABKAIIQQVrDgQBCwsACwsgAi0AAEHlAEcNCiACLQABQe4ARw0KIAItAAJB4wBHDQogAi0AA0HvAEcNCiACLQAEQeQARw0KIAItAAVB6QBHDQogAi0ABkHuAEcNCiACLQAHQecARg0JDAoLIAItAABB5gBHDQkgAi0AAUHpAEcNCSACLQACQewARw0JIAItAANB5QBHDQkgAi0ABEHzAEcNCQwDCyABIANBFGpBoInBABCPCCEBDBELIAJB+J3BAEEFELsHDQcMAQsgAkH4ncEAQQUQuwcNBgsgCEGAgICAeEcNASADQRRqIANBBGoQqQUgAygCGCEBIAMoAhQiCEGAgICAeEcNAkGAgICAeCEIDA4LIAIpAABC5dyN+8asmrfnAFENAwwEC0H4ncEAQQUQzQchAQwMCyADKAIcIQwgAygCCCEHIAMoAgQhBSABIQYMBwsgAkECRg0BCyAEQYGAgIB4Rw0EIANBADYCDEGAgICAeCEEQRUgCygCACICQYCAgIB4cyACQQBOG0EQaw4DBQIFAQsgA0EANgIMDAQLIANBFGogCxC9AyAJIAMoAhwgAygCFCIBQYCAgIB4RhshCUGBgICAeCABIAFBgYCAgHhMGwwBCyADQRRqIAEoAhQQvQMgCSADKAIcIAMoAhQiAUGAgICAeEYbIQlBgYCAgHggASABQYGAgIB4TBsLIQQgAygCGCEKIARBgYCAgHhHDQEgAEGAgICAeDYCACAAIAo2AgQMBwtBsJ7BAEEIEM0HIQEgAEGAgICAeDYCACAAIAE2AgQgBEGAgICAeHJBgICAgHhGDQYMBQsgByAFIgFHDQALDAALIAhBgICAgHhGDQAgACAMNgIIIAAgBjYCBCAAIAg2AgAgAEGAgICAeCAEIARBgYCAgHhGGzYCDCAAIAqtIAmtQiCGhDcCEAwEC0GAgICAeCEIQfidwQBBBRDKByEBCyAAQYCAgIB4NgIAIAAgATYCBCAERSAEQYKAgIB4SHINAQsCQCAKQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyAEak8EQCAAQQAgASAEQSdqSxsNASAKEJ8CDAILDAQLDAILIAhBgICAgHhyQYCAgIB4Rg0AAkAgBkEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgCGpPBEAgAEEAIAEgCEEnaksbDQEgBhCfAgwCCwwDCwwBCyADQSBqJAAPC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAvwDQIOfwV9IAIgAUECdEEEayIKaiENIAAgCmohCyAAIAFBAXYiD0ECdGoiCkEEayEMIANBBGohEANAQwAAgD8hEwJ/AkAgCigCACIEIBAoAgAiAygCCCIGSQRAIAAoAgAhCSADKAIEIgggBEEYbGoiBC0AEyIFIAQtABIiByAELQARIg4gByAOSxsiByAFIAdLGyIFBH1DAABAwSADKgJEIAMtAFhBAkYiBxsiEkMAABBBIAMqAkggBxsgEpNDAAB+Q5UgBUEBa0H/AXGzlJIQ7gMiEiASkgVDAAAAAAshFSAEQQxqLwEAIgVB//8BcUUNASAFQf8HcSEEIAVBgIACcSEHIAVBgPgBcSIFQYD4AUcEQCAHQRB0IgcgBUENdEGAgID8AHEgBEENdHJBgICAwANqciAFDQMaIAQgBGdBEGsiBEH//wNxQQhqdEH///8DcSAHQYCAgNgDciAEQRd0a3IMAwsgB0EQdCIFIARBDXRyQYCAgP4HciAEDQIaIAVBgICA/AdyDAILIAQgBkGcnscAEK4HAAsgBUEQdAu+IhJDAACAP14EQCASELoFQ1T4LUCUQwAAgD+SkSETC0MAAIA/IRICfwJAIAYgCUsEQCAIIAlBGGxqIgQtABMiBSAELQASIgYgBC0AESIJIAYgCUsbIgYgBSAGSxsiBQR9QwAAQMEgAyoCRCADLQBYQQJGIgYbIhRDAAAQQSADKgJIIAYbIBSTQwAAfkOVIAVBAWtB/wFxs5SSEO4DIhQgFJIFQwAAAAALIRQgBEEMai8BACIEQf//AXFFDQEgBEH/B3EhAyAEQYCAAnEhBSAEQYD4AXEiBEGA+AFHBEAgBUEQdCIFIARBDXRBgICA/ABxIANBDXRyQYCAgMADanIgBA0DGiADIANnQRBrIgNB//8DcUEIanRB////A3EgBUGAgIDYA3IgA0EXdGtyDAMLIAVBEHQiBCADQQ10ckGAgID+B3IgAw0CGiAEQYCAgPwHcgwCCyAJIAZBnJ7HABCuBwALIARBEHQLviIWQwAAgD9eBEAgFhC6BUNU+C1AlEMAAIA/kpEhEgsgAiAKIAAgFSATlCITIBNbIBMgFCASlGBFcSIHGygCADYCAEMAAIA/IRMCfwJAIAsoAgAiBCAQKAIAIgMoAggiBkkEQCAMKAIAIQkgAygCBCIOIARBGGxqIgQtABMiBSAELQASIgggBC0AESIRIAggEUsbIgggBSAISxsiBQR9QwAAQMEgAyoCRCADLQBYQQJGIggbIhJDAAAQQSADKgJIIAgbIBKTQwAAfkOVIAVBAWtB/wFxs5SSEO4DIhIgEpIFQwAAAAALIRUgBEEMai8BACIFQf//AXFFDQEgBUH/B3EhBCAFQYCAAnEhCCAFQYD4AXEiBUGA+AFHBEAgCEEQdCIIIAVBDXRBgICA/ABxIARBDXRyQYCAgMADanIgBQ0DGiAEIARnQRBrIgRB//8DcUEIanRB////A3EgCEGAgIDYA3IgBEEXdGtyDAMLIAhBEHQiBSAEQQ10ckGAgID+B3IgBA0CGiAFQYCAgPwHcgwCCyAEIAZBnJ7HABCuBwALIAVBEHQLviISQwAAgD9eBEAgEhC6BUNU+C1AlEMAAIA/kpEhEwtDAACAPyESAn8CQCAGIAlLBEAgDiAJQRhsaiIELQATIgUgBC0AEiIGIAQtABEiCSAGIAlLGyIGIAUgBksbIgUEfUMAAEDBIAMqAkQgAy0AWEECRiIGGyIUQwAAEEEgAyoCSCAGGyAUk0MAAH5DlSAFQQFrQf8BcbOUkhDuAyIUIBSSBUMAAAAACyEUIAdFIQYgBEEMai8BACIEQf//AXFFDQEgBEH/B3EhAyAEQYCAAnEhBSAEQYD4AXEiBEGA+AFHBEAgBUEQdCIFIARBDXRBgICA/ABxIANBDXRyQYCAgMADanIgBA0DGiADIANnQRBrIgNB//8DcUEIanRB////A3EgBUGAgIDYA3IgA0EXdGtyDAMLIAVBEHQiBCADQQ10ckGAgID+B3IgAw0CGiAEQYCAgPwHcgwCCyAJIAZBnJ7HABCuBwALIARBEHQLviIWQwAAgD9eBEAgFhC6BUNU+C1AlEMAAIA/kpEhEgsgB0ECdCAKaiEKIAZBAnQgAGohACACQQRqIQIgDSAMIAsgFSATlCITIBNbIBMgFCASlGBFcSIDGygCADYCACAMIANBAnQiA2shDCADIAtqQQRrIQsgDUEEayENIA9BAWsiDw0ACyAMQQRqIQMgAUEBcQR/IAIgACAKIAAgA0kiARsoAgA2AgAgCiAAIANPQQJ0aiEKIAAgAUECdGoFIAALIANHIAogC0EEakdyRQRADwsQ0wkAC7IPBBF/AXwHfQFvIwBBIGsiAiQAIAIgATYCAAJAAkAgASUBEBBFBEAgAiACQR9qQeSmwQAQhAQhAyAAQQI6ABwgACADNgIAIAEiA0GDCEsNAQwCC0ECIQcCQANAIAMhBSAEQUBqIQQCQAJ/AkACQANAIARB5I/BAGooAgAiBiAEQeiPwQBqKAIAIhAQygMiCCEDIAElASADJQEQESEbEP8EIgMgGyYBAkAgAyUBEBIEQCAIJQEgASUBEBNFDQELIARByABqIQQCQAJAAkACQCAQQQZrDgUABwcHAQcLQQAgBkHojsEAQQYQuwdFDQcaIAZB7o7BAEEGELsHDQFBAQwHC0ECIAZB9I7BAEEKELsHRQ0GGiAGQf6OwQBBChC7Bw0BQQMMBgtBBCAGQYiPwQBBBhC7B0UNBRogBkGOj8EAQQYQuwcNA0EFDAULIAZBmo/BAEEKELsHDQNBBwwECyADQYQITwRAIAMQhQcLIAhBhAhPBEAgCBCFBwsgBEEIaiIEDQALIAUhAwwDC0EGIAZBlI/BAEEGELsHRQ0BGgtBCAshBSAIQYQITwRAIAgQhQcLAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAFDggBAgMEBQYHCAALIANBhAhJDQwgAxCFBwwMCyAJDQcgAiADNgIEIAJBCGogAxCyCgJ9IAIoAggiBQRAIAIrAxAiE7ZDAACAP0MAAIC/IBO9QgBZG5gMAQsgAkEEaiACQR9qQeCLwQAQhAS+CyEUIANBhAhPBEAgAxCFBwsgBUUNCUEBIQkMCwsCQCAKRQRAIAIgAzYCBCACQQhqIAMQsgoCfSACKAIIIgUEQCACKwMQIhO2QwAAgD9DAACAvyATvUIAWRuYDAELIAJBBGogAkEfakHgi8EAEIQEvgshFSADQYQITwRAIAMQhQcLIAVFDQFBASEKDAwLIABB7o7BAEEGEMwHNgIADAgLIAAgFTgCAEEAIQQMDQsCQCALRQRAIAIgAzYCBCACQQhqIAMQsgoCfSACKAIIIgUEQCACKwMQIhO2QwAAgD9DAACAvyATvUIAWRuYDAELIAJBBGogAkEfakHgi8EAEIQEvgshFiADQYQITwRAIAMQhQcLIAVFDQFBASELDAsLIABB9I7BAEEKEMwHNgIADAcLIAAgFjgCAEEAIQQMDAsCQCAMRQRAIAIgAzYCBCACQQhqIAMQsgoCfSACKAIIIgUEQCACKwMQIhO2QwAAgD9DAACAvyATvUIAWRuYDAELIAJBBGogAkEfakHgi8EAEIQEvgshFyADQYQITwRAIAMQhQcLIAVFDQFBASEMDAoLIABB/o7BAEEKEMwHNgIADAYLIAAgFzgCAEEAIQQMCwsCQCANRQRAIAIgAzYCBCACQQhqIAMQsgoCfSACKAIIIgUEQCACKwMQIhO2QwAAgD9DAACAvyATvUIAWRuYDAELIAJBBGogAkEfakHgi8EAEIQEvgshGCADQYQITwRAIAMQhQcLIAVFDQFBASENDAkLIABBiI/BAEEGEMwHNgIADAULIAAgGDgCAEEAIQQMCgsCQCAORQRAIAIgAzYCBCACQQhqIAMQsgoCfSACKAIIIgUEQCACKwMQIhO2QwAAgD9DAACAvyATvUIAWRuYDAELIAJBBGogAkEfakHgi8EAEIQEvgshGSADQYQITwRAIAMQhQcLIAVFDQFBASEODAgLIABBjo/BAEEGEMwHNgIADAQLIAAgGTgCAEEAIQQMCQsCQCAPRQRAIAIgAzYCBCACQQhqIAMQsgoCfSACKAIIIgUEQCACKwMQIhO2QwAAgD9DAACAvyATvUIAWRuYDAELIAJBBGogAkEfakHgi8EAEIQEvgshGiADQYQITwRAIAMQhQcLIAVFDQFBASEPDAcLIABBlI/BAEEGEMwHNgIADAMLIAAgGjgCAEEAIQQMCAsgB0ECRg0DIABBmo/BAEEKEMwHNgIADAELIABB6I7BAEEGEMwHNgIAC0EBIQQMBQsgACAUOAIAQQAhBAwECyACIAM2AggCQCADEL0KIgdB////B0ciBQRAIAUgB0EAR3EhEQwBCyACQQhqIAJBH2pB1KbBABCEBCESCyADQYQITwRAIAMQhQcLIAVFBEAgACASNgIAQQAhBAwECyARIQcLIARBwABHDQELCyAJRQRAIABB6I7BAEEGEMsHNgIAQQAhBAwBCyAKRQRAIABB7o7BAEEGEMsHNgIAQQAhBAwBCyALRQRAIABB9I7BAEEKEMsHNgIAQQAhBAwBCyAMRQRAIABB/o7BAEEKEMsHNgIAQQAhBAwBCyANRQRAIABBiI/BAEEGEMsHNgIAQQAhBAwBCyAORQRAIABBjo/BAEEGEMsHNgIAQQAhBAwBCyAPRQRAIABBlI/BAEEGEMsHNgIAQQAhBAwBCyAHQQJGBEAgAEGaj8EAQQoQywc2AgBBACEEDAELIAAgBzoAHCAAIBo4AhggACAZOAIUIAAgGDgCECAAIBc4AgwgACAWOAIIIAAgFTgCBCAAIBQ4AgAgASIDQYMISw0BDAILIABBAjoAHCABQYQITwRAIAEQhQcLIARBAXMgA0GECElyDQELIAMQhQcLIAJBIGokAAvPDwIIfwR+IwBB0AJrIgEkAAJAAkACQAJAAkACQAJAAkACQAJAIAAtAPwCRQRAIAAoAgAiAkECRw0JIAAoAogBQQJHDQkCQCAAKALgAiIDQQRJDQAgASAAKALcAiIEKAAAIgI2AhAgAkHSgpGaBEcEQCACQdKCkYIDRw0DIANBCEkNASADIAQoAAQiBUEHakF4cUEIaiICSQ0BIAVBCGoiBiADSyAFQXdLcg0EIAFBADYCyAIgASAFNgLEAiABIARBCGo2AsACIAFBIGogAUHAAmoQZCABKAIkIQUgASgCICIHQQJGBEAgBRCCCCECDA0LIAFBsAFqIAFBKGpBgAH8CgAAIABBADYC4AIgASAFNgKsASABIAc2AqgBIAMgAmshBgJAAkAgAkUNACACIANGDQEgBkUNACAEIAIgBGogBvwKAAALIAAgBjYC4AILIAAgACkDuAIgAq18Igk3A8ACIAAgCTcDuAIgASgCpAJBAUcNBSAAIAEoApQCIgM2AugCIAAgASgCtAEgASgCwAEiAiABKAKwARsiBDYC7AIgBEUNBiACIARuIgYgBCAGbCACR2oiBCADRgRAIAEtAKgCIQMgASAFQQAgB0EBcRs2AiQgASACNgIgIAEgA0EBcToAKCAAQfgBaiABQSBqEIICAkAgACgCAEECRg0AIAAoAmghBCAAKAJsIgMEQCAEQSRqIQIDQCACQQRrKAIAIgVBgICAgHhyQYCAgIB4RwRAIAIoAgAiBkEEaygCACIHQXhxIghBBEEIIAdBA3EiBxsgBWpJDQwgB0EAIAggBUEnaksbDQ0gBhCfAgsgAkEwaiECIANBAWsiAw0ACwsgACgCZCIDBEAgBCADQTBsQQgQiAcLIAAoAnAiA0GAgICAeHJBgICAgHhGDQAgACgCdCADQQEQiAcLIAAgAUGoAWpBiAH8CgAADAsLIAEgBDYCzAIgAUKAgICAECIJIABB6AJqrYQ3AyggASAJIAFBzAJqrYQ3AyAgAUHAAmoiAEG1hcAAIAFBIGoQ9QYgABCACCECDAkLIAFBCGogABDRAiABLQAIRQRAIAEtAAkNCkEAIQIMDAsgASgCDCECDAsLQQAhAgwKCyAANQLgAiEJIABBADYC4AIgACAJIAApA7gCfDcDuAIMCQsgASABQRBqrUKAgICAgASENwMgIAFBFGoiAEHc4MEAIAFBIGoQ9QYgABCACCECDAgLQQggBiADQczgwQAQ1QcACyABIAFBpAJqrUKAgICAEIQ3AyAgAUG0AmoiAEGXksAAIAFBIGoQ9QYgABCACCECIAEoApQCIQMMAwtBvODBABDUCQALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyABKAKQAiEEIAMEQCAEQSRqIQADQCAAQQRrKAIAIgVBgICAgHhyQYCAgIB4RwRAIAAoAgAgBUEBEIgHCyAAQTBqIQAgA0EBayIDDQALCyABKAKMAiIABEAgBCAAQTBsQQgQiAcLIAEoApgCIgBBgICAgHhyQYCAgIB4Rg0CIAEoApwCIABBARCIBwwCCyAAKAIAIQILAkACQAJAAkACfwJAIAJBAkcEQCAAKALkAiAAKALoAk8NBiAAKAKIAUECRg0BQQAMAgsgAUGoAWogABBjIAEoAqwBQQAgAS0AqAEiAxshAiADDQYgAS0AqQFBAXFFDQYgACkD0AIiCyAAKQO4AiIJWARAIAAoAuACIQMMBQsgACgC4AIhBEEAIQMgAEEANgLgAiAEIAsgCX0iCiAErSIMIAogDFQbIgqnIgVrIQIgClBFBEAgBCAFRg0EIAJFDQMgACgC3AIiAyADIAVqIAL8CgAADAMLIAQgBUcNAgwDC0EBCyECA0ACQAJAAkACQAJAAkACQAJAAkACQAJAIAJFBEAgAUGoAWogABBjIAEoAqwBIQMgAS0AqAEiAg0CIAEtAKkBQQFxRQ0CIAApA9ACIgkgACkDuAIiC1YNAQwGCyABQagBaiAAENECIAEtAKgBQQFGBEAgASgCrAEhAgwRCyABLQCpAQ0JQQAhAgwQCyAAKALgAiEDIABBADYC4AIgAyAJIAt9IgogA60iDCAKIAxUGyIKpyICayEEIApQDQEgAiADRg0DIARFDQIgACgC3AIiAyACIANqIAT8CgAADAILIANBACACGyECDA4LIAIgA0YNAQsgACAENgLgAgsgACAKIAt8Igs3A7gCIAkgC1YNAQsCQCAAKAKIAUECRg0AIAAoAuQBIgNFDQAgACgC6AEiAkEEaygCACIEQXhxIgUgA0EobCIDQQRBCCAEQQNxIgQbakkNAiAEQQAgBSADQSdqSxsNAyACEJ8CCyAAQQI2AogBIAAgACgC5AJBAWoiAzYC5AIgAyAAKALoAkkNBAwJC0EAIQIMCQtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQQAhAgwBC0EBIQIMAAsACyAAIAI2AuACIAIhAwsgACAJIAp8Igk3A7gCIAkgC1oNAEEAIQIMAgtBACECIABBADYC4AIgAEEBOgD8AiAAIAkgA618NwO4AgwBCyAAQQE6APwCIAA1AuACIQlBACECIABBADYC4AIgACAJIAApA7gCfDcDuAILIAFB0AJqJAAgAgvsDQINfwF+IwBB0ABrIgkkACAJQRBqIAAoAgQiByAAKAIIIgJBsIbGAEEJEOEBAkACQAJAIAkoAhBBAUYEQCAJQRhqIQggCSgCTCEEIAkoAkghASAJKAJEIQUgCSgCQCEDIAkoAjRBf0YNASAJQQRqIAggAyAFIAEgBEEAENEDDAILIAkCf0EAIAktAB4NABogCS0AHSEDAkAgCSgCGCIBBEAgCSgCQCEIAkAgCSgCRCIEIAFNBEAgASAERg0BDAcLIAEgCGosAABBQEgNBgsgASAIaiIGQQFrLAAAIgVBAEgEQCAFQT9xAn8gBkECay0AACIKwCILQb9/SgRAIApBH3EMAQsgC0E/cQJ/IAZBA2stAAAiCsAiDEG/f0oEQCAKQQ9xDAELIAxBP3EgBkEEay0AAEEHcUEGdHILQQZ0cgsiBkEGdHIhBQsgA0EBcQ0BAn9BfyAFQYABSQ0AGkF+IAVBgBBJDQAaQX1BfCAFQYCABEkbCyABaiIBRQRAQQAhAQwCCwJAIAEgBE8EQCABIARHDQcMAQsgASAIaiwAAEFASA0GCyABIAhqIghBAWssAABBAE4NASAIQQJrLAAAGgwBC0EAIgEgA0EBcUUNARoLIAkgATYCCEEBCzYCBAwBCyAJQQRqIAggAyAFIAEgBEEBENEDCwJAAkACQAJAIAkoAgRBAUYEQCAJKAIIIghBCWoiBSEBA0ACQCABRQ0AIAEgAk8EQCABIAJGDQEMBwsgASAHaiwAAEFASA0GCwJAIAEgAkYEfyACBSABIAdqLQAAQTBrQf8BcUEKSQ0BIAELIQQgAUUNAwJAIAIgBE0EQCACIARHDQEMBQsgBCAHaiwAAEG/f0oNBAsgByACIAQgAkHMhsYAEK4JAAsgAUEBaiEBDAALAAtBACEKDAELQQAhCiACIARrQQhJDQAgBCAHaiIGKQAAQqDGvePWrpu3IFINACAEQQhqIgshAwJAAkACQANAAkAgA0UNACACIANNBEAgAiADRg0BDAcLIAMgB2osAABBQEgNBgsCQAJAAkAgAiADRgRAIAIhAwwBCyADIAdqLQAAQTBrQf8BcUEKSQ0BIAIgA0sNBwsgBCAFSQ0BIAUEQCAFIAdqLAAAQUBIDQILIAEEQCAGLAAAQUBIDQILIAUgB2ohAQJAAkACQCAEIAVrIg0OAgkAAQsgAS0AACIMQStrDgMIAQgBCyABLQAAIQwLIAEgDEErRiIGaiEBIA0gBmsiBkEJSQ0DQQAhBQNAIAZFDQUgAS0AAEEwayIMQQlLDQYgBa1CCn4iDkIgiKcNBiABQQFqIQEgBkEBayEGIAwgDqdqIgUgDE8NAAsMBQsgA0EBaiEDDAELCyAHIAIgBSAEQeyGxgAQrgkACyAGRQRAQQAhBQwBC0EAIQUDQCABLQAAQTBrIgxBCUsNAiABQQFqIQEgDCAFQQpsaiEFIAZBAWsiBg0ACwsCQCADIAtJDQACQCALBEAgAiALTQRAIAIgA0YNAgwDCyACIANHDQIgByALaiwAAEG/f0wNAgwBCyACIANHDQELIAcgC2ohAQJAAkACQCACIAtrIgsOAgUAAQsgAS0AACIDQStrDgMEAQQBCyABLQAAIQMLQQAhBkF/QQAgA0ErRiIDGyEKIAEgA2ohAQJAIAsgA2siA0EJTwRAIAQgCmtBCGohAwNAIAIgA0YNAkEAIQogAS0AAEEwayIEQQlLDQUgBq1CCn4iDkIgiKcNBSADQQFqIQMgAUEBaiEBIAQgBCAOp2oiBk0NAAsMBAsgA0UEQAwBCyAEIAprQQhqIQNBACEKA0AgAS0AAEEwayIEQQlLDQQgAUEBaiEBIAQgBkEKbGohBiACIANBAWoiA0cNAAsLQQEhCiACIAhJDQIgCEUEQCAIIQIMAwsgAiAITQRAIAghAgwDCyAIIgIgB2osAABBv39KDQJB2IjGAEEwQYyHxgAQ5wgACyAHIAIgCyADQfyGxgAQrgkACwsCQAJAAkACQAJAIAAoAgAiACACTQ0AIAJFBEAgB0EEaygCACIIQXhxIgRBBEEIIAhBA3EiCBsgAGpJDQIgCEEAIAQgAEEnaksbDQMgBxCfAkEBIQcMAQsgByAAQQEgAhC5AiIHRQ0DC0EUEHEiAEUNAyAAIAI2AgggACAHNgIEIABBADYCACAAIAZBACAKGzYCECAAIAVBACAKGzYCDCAJQdAAaiQAIAAPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBASACEOEIAAtBFBDoCQALIAcgAiADIAJB3IbGABCuCQALIAcgAiABIAJBvIbGABCuCQALIAggBEEAIAFB3I3GABCuCQALsw0BCH8CfwJAIAIgA0sEQCABIANBEmxqIgMvAQAiAkH//wFxRQ0BIAJB/wdxIQEgAkGAgAJxIQUgAkGA+AFxIgJBgPgBRwRAIAVBEHQhBSACQQ10QYCAgPwAcSABQQ10ckGAgIDAA2ogBXIgAg0DGiAFQYCAgNgDciABZ0EQayICQRd0ayABIAJB//8DcUEIanRB////A3FyDAMLIAVBEHQhAiACIAFBDXRyQYCAgP4HciABDQIaIAJBgICA/AdyDAILIAMgAkHkoscAEK4HAAsgAkEQdAshAQJ/IAMvAQIiBUH//wFxBEAgBUH/B3EhAiAFQYCAAnEhBiAFQYD4AXEiBUGA+AFHBEAgBkEQdCEGIAVBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAGciAFDQIaIAZBgICA2ANyIAJnQRBrIgVBF3RrIAIgBUH//wNxQQhqdEH///8DcXIMAgsgBkEQdCEFIAUgAkENdHJBgICA/gdyIAINARogBUGAgID8B3IMAQsgBUEQdAshBQJ/IAMvAQQiBkH//wFxBEAgBkH/B3EhAiAGQYCAAnEhByAGQYD4AXEiBkGA+AFHBEAgB0EQdCEHIAZBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAHciAGDQIaIAdBgICA2ANyIAJnQRBrIgZBF3RrIAIgBkH//wNxQQhqdEH///8DcXIMAgsgB0EQdCEGIAYgAkENdHJBgICA/gdyIAINARogBkGAgID8B3IMAQsgBkEQdAshBgJ/IAMvAQYiB0H//wFxBEAgB0H/B3EhAiAHQYCAAnEhCCAHQYD4AXEiB0GA+AFHBEAgCEEQdCEIIAdBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAIciAHDQIaIAhBgICA2ANyIAJnQRBrIgdBF3RrIAIgB0H//wNxQQhqdEH///8DcXIMAgsgCEEQdCEHIAcgAkENdHJBgICA/gdyIAINARogB0GAgID8B3IMAQsgB0EQdAshBwJ/IAMvAQgiCEH//wFxBEAgCEH/B3EhAiAIQYCAAnEhCSAIQYD4AXEiCEGA+AFHBEAgCUEQdCEJIAhBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAJciAIDQIaIAlBgICA2ANyIAJnQRBrIghBF3RrIAIgCEH//wNxQQhqdEH///8DcXIMAgsgCUEQdCEIIAggAkENdHJBgICA/gdyIAINARogCEGAgID8B3IMAQsgCEEQdAshCAJ/IAMvAQoiCUH//wFxBEAgCUH/B3EhAiAJQYCAAnEhCiAJQYD4AXEiCUGA+AFHBEAgCkEQdCEKIAlBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAKciAJDQIaIApBgICA2ANyIAJnQRBrIglBF3RrIAIgCUH//wNxQQhqdEH///8DcXIMAgsgCkEQdCEJIAkgAkENdHJBgICA/gdyIAINARogCUGAgID8B3IMAQsgCUEQdAshCQJ/IAMvAQwiCkH//wFxBEAgCkH/B3EhAiAKQYCAAnEhBCAKQYD4AXEiCkGA+AFHBEAgBEEQdCEEIApBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAEciAKDQIaIARBgICA2ANyIAJnQRBrIgpBF3RrIAIgCkH//wNxQQhqdEH///8DcXIMAgsgBEEQdCEKIAogAkENdHJBgICA/gdyIAINARogCkGAgID8B3IMAQsgCkEQdAshCgJ/IAMvAQ4iBEH//wFxBEAgBEH/B3EhAiAEQYCAAnEhCyAEQYD4AXEiBEGA+AFHBEAgC0EQdCELIARBDXRBgICA/ABxIAJBDXRyQYCAgMADaiALciAEDQIaIAtBgICA2ANyIAJnQRBrIgRBF3RrIAIgBEH//wNxQQhqdEH///8DcXIMAgsgC0EQdCEEIAQgAkENdHJBgICA/gdyIAINARogBEGAgID8B3IMAQsgBEEQdAshAiAAAn8gAy8BECIEQf//AXEEQCAEQf8HcSEDIARBgIACcSELIARBgPgBcSIEQYD4AUcEQCALQRB0IQsgBEENdEGAgID8AHEgA0ENdHJBgICAwANqIAtyIAQNAhogC0GAgIDYA3IgA2dBEGsiBEEXdGsgAyAEQf//A3FBCGp0Qf///wNxcgwCCyALQRB0IQQgBCADQQ10ckGAgID+B3IgAw0BGiAEQYCAgPwHcgwBCyAEQRB0CzYCICAAIAI2AhwgACAKNgIYIAAgCTYCFCAAIAg2AhAgACAHNgIMIAAgBjYCCCAAIAU2AgQgACABNgIAC5AOAgR/A34jAEGgBWsiBiQAIAYgAjYCCCAGIAE2AgQgBiAFNgIQIAYgBDYCDAJAAkACQAJAIAMoAgxFDQAgAykDECADKQMYIAQgBRCRBCEKIAMoAgQiASAKp3EhAiAKQhmIQv8Ag0KBgoSIkKDAgAF+IQwgAygCACEHA0AgAiAHaikAACILIAyFIgpCf4UgCkKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIKUEUEQANAAkAgBSAHIAp6p0EDdiACaiABcUFobGoiCEEQaygCAEcNACAEIAhBFGsoAgAgBRC7Bw0AQQAhAwwFCyAKQgF9IAqDIgpQRQ0ACwsgCyALQgGGg0KAgYKEiJCgwIB/g1BFDQEgAiAJQQhqIglqIAFxIQIMAAsACyAGIAZBDGqtQoCAgIAghCIKNwPQAyAGIAZBBGqtQoCAgIAghDcDyAMgBkFAayIBQYCAwAAgBkHIA2oiBBC+BCAGQQA2AhwgBkKAgICAEDcCFCAGKAJAIQIgASAAIAYoAkQiBSAGKAJIENcBAkACQAJAAkACQAJAIAYpA0BCA1IEQCAEIAFByAH8CgAAIAZBIGogBCAGQRRqEOABIAYoAiBFBEAgBigCDCEEAkAgBigCECIARQRAQQEhAQwBCyAAEHEiAUUNAwsgAARAIAEgBCAA/AoAAAsgBiAANgIoIAYgATYCJCAGIAA2AiAgBkE0aiADIAZBIGogBkEUahDtAiAGKAI0IgBBgICAgHhyQYCAgIB4RwRAIAYoAjgiAUEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAGpJDQsgA0EAIAQgAEEnaksbDQogARCfAgsgBkHIA2oQvgFBACEDDAYLIAYpAiQQhgghAyAGQcgDahC+AQwECwJAAkACQAJAQQEgBigCSCIEQf////8HaiAEQYCAgIB4TRsOAgABAwsgBi0ATEEDRw0CIAYoAlAiASgCACEEIAFBBGooAgAiBygCACIIBEAgBCAIEQMACyAHKAIEIgcEQCAEQQRrKAIAIghBeHEiCUEEQQggCEEDcSIIGyAHakkNDCAIQQAgCSAHQSdqSxsNCyAEEJ8CCyABQQRrKAIAIgRBeHEiB0EQQRQgBEEDcSIEG0kNCyAERSAHQTRJcg0BDAoLIARBgICAgHhyQYCAgIB4Rg0BIAYoAkwiAUEEaygCACIHQXhxIghBBEEIIAdBA3EiBxsgBGpJDQogB0UNACAIIARBJ2pLDQkLIAEQnwILIAZByANqIAAgBigCDCAGKAIQENcBIAYgCjcDICAGQZQFakHE5MAAIAZBIGoQvgQgBikDyAMiCkIDUQ0BIAYoAtADIQEgBkGMAmogBkHUA2pBvAH8CgAAIAYoApQFIgAEQCAGKAKYBSIEQQRrKAIAIgdBeHEiCEEEQQggB0EDcSIHGyAAakkNCSAHQQAgCCAAQSdqSxsNCCAEEJ8CCyAGIAE2AkggBiAKNwNAIAZBzABqIAZBjAJqQbwB/AoAACAGQcgDaiAGQUBrIgAgBkEUahDgAUEBIQEgBigCyANBAUYEQCAGKQLMAxCGCCEDIAAQvgEMBAsgBigCDCEEIAYoAhAiAARAIAAQcSIBRQ0DCyAABEAgASAEIAD8CgAACyAGIAA2AtADIAYgATYCzAMgBiAANgLIAyAGQSBqIAMgBkHIA2ogBkEUahDtAiAGKAIgIgBBgICAgHhyQYCAgIB4RwRAIAYoAiQiAUEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAGpJDQkgA0EAIAQgAEEnaksbDQggARCfAgsgBkFAaxC+ASACRQRAQQAhAwwHCyAFQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyACakkNCEEAIQMgAEUNBSABIAJBJ2pLDQcMBQtBASAAEOEIAAsjAEEwayIAJAAgABDiCCAAQSBqIAZBlAVqIgFBCGooAgA2AgAgAEEsaiAGQdADaiIDQQhqKAIANgIAIAAgASkCADcDGCAAIAMpAgA3AiQgAEEYaiEBQTQQcSIDRQRAQTQQ6AkACyADQeiYxwA2AgAgAyAAKQIANwIEIAMgASkCADcCHCADQQxqIABBCGr9AAIA/QsCACADQSRqIAFBCGr9AAIA/QsCACAAQTBqJAAMAQtBASAAEOEIAAsgBigCFCIARQ0AAkAgBigCGCIBQQRrKAIAIgRBeHEiB0EEQQggBEEDcSIEGyAAak8EQCAEQQAgByAAQSdqSxsNASABEJ8CDAILDAULDAMLIAJFDQEgBUEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgAmpJDQMgAEUgASACQSdqTXINAAwCCyAFEJ8CCyAGQaAFaiQAIAMPC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAvSDgQKfwJ9AXsBfiMAQdAEayIKJAACQAJAAkACQAJAAnsgAxC8CiITBEBDAACAPyEUQwAAgD8hFf0MAACAPwAAQMEAABBBAACAPwwBCyAKQdgBaiADELUBIAooAtgBIQ0gCi0A9AEiEUECRgRAIABBADYCACAAIA02AgQgCEUgCUGECElyRQRAIAkQhQcLIAZFIAdBhAhJckUEQCAHEIUHC0EBIQAgBEUgBUGDCE1yDQMMAgsgCkEWaiAKQfcBai0AADoAACAKIAovAPUBOwEUIAoqAvABIRQgCioC7AEhFSAK/QAC3AELIRZBBiELAkACQAJAAkAgASgCACIMQYCAgIB4Rg0AIApBGGogASgCBCIOIAEoAggQqAUgCi0AGEEBRgRAIAooAhwhCyAKQQA2ApwDIApCgICAgBA3ApQDIApBxLPBADYC3AEgCkKggICABjcC4AEgCiAKQZQDajYC2AEgCyAKQdgBahDnBA0CIAooApQDIQ0gCigCmAMiESAKKAKcAxDsCCEPIA0EQCARQQRrKAIAIhBBeHEiEkEEQQggEEEDcSIQGyANakkNCSAQQQAgEiANQSdqSxsNCiAREJ8CCyAAQQA2AgAgACAPNgIEIAsgCygCACgCABEDACAMBEAgDkEEaygCACIAQXhxIgtBBEEIIABBA3EiABsgDGpJDQkgAEEAIAsgDEEnaksbDQogDhCfAgsgCEUgCUGECElyRQRAIAkQhQcLIAZFIAdBhAhJckUEQCAHEIUHCyAERSAFQYQISXJFBEAgBRCFBwtBACEAIANBhAhJDQYgAyEFIBMNBQwGCyAKLQAZIQsgDEUNACAOQQRrKAIAIgFBeHEiD0EEQQggAUEDcSIBGyAMakkNByABQQAgDyAMQSdqSxsNCCAOEJ8CC0EEIQFBACEMQQAQqQkhEkEAIQ5BBCEPAkAgBEEBcUUNACAKQdgBaiAFEIIGIAooAuABIRAgCigC3AEhDyAKKALYASEOIAVBhAhJDQAgBRCFBwtBACEFAkAgBkEBcUUNACAKQdgBaiAHEIIGIAooAuABIQUgCigC3AEhASAKKALYASEMIAdBhAhJDQAgBxCFBwtBBCEHQQAhBkEAIQQCQCAIQQFxRQ0AIApB2AFqIAkQggYgCigC4AEhBCAKKALcASEHIAooAtgBIQYgCUGECEkNACAJEIUHCyAKIBE6APQCIAogFDgC8AIgCiAVOALsAiAKIBb9CwLcAiAKIA02AtgCIApBgICAgHg2AswCIApCgICAgICAgICAfzcCvAIgCkKAgICAwAA3ArQCIAogBDYCsAIgCiAHNgKsAiAKIAY2AqgCIAogBTYCpAIgCiABNgKgAiAKIAw2ApwCIAogEDYCmAIgCiAPNgKUAiAKIA42ApACIApBADYCiAIgCkEANgKAAiAKQQA2AvgBIApBADYC8AEgCkEANgLoASAKQQA2AuABIApBADYC2AEgCkGQA2pBADoAAEECIQUgCkH3AmogCkEWai0AADoAACAKQQA2AoADIAogEjYChAMgCkIANwL4AiAKQgA3AogDIAogCi8BFDsA9QIgAigCACEEIAIoAgQhBiACKAIIIQECfyALQQZHBEAgCkEIaiALIApB2AFqEKYDIAooAgwhByAKKAIIDAELIApBlANqIApB3AFqQbgB/AoAAEEAIQVBAAshCEGAgICAeCEJIARBgICAgHhHBEACQCABRQRAQQEhCQwBCyABEHEiCUUNAwsgAQRAIAkgBiAB/AoAAAsgCa0gAa1CIIaEIRcgASEJCyAKQSBqIApBlANqQbgB/AoAAEHsARBxIgFFBEBB7AEQ6AkACyABIAU2AgAgAUEEaiAKQSBqQbgB/AoAACABIAs6AOgBIAEgBzYC5AEgASAINgLgASABQYCAgIB4NgLUASABIBc3AswBIAEgCTYCyAEgAUEANgLEASABQoCAgIAQNwK8ASAAQZiUwQA2AgwgAEEBNgIIIABBgJTBADYCBCAAIAE2AgAgE0UgA0GECElyDQIgAxCFBwwCC0HQh8YAQTcgCkHPBGpB3LPBAEGIiMYAEIkHAAtBASABEOEIAAsgBEGAgICAeHJBgICAgHhGDQICQCAGQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyAEak8EQCAAQQAgASAEQSdqSxsNASAGEJ8CDAQLDAQLDAQLIAUQhQcLAkAgAigCACIDQYCAgIB4ckGAgICAeEcEQCACKAIEIgJBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIANqSQ0DIARBACAFIANBJ2pLGw0EIAIQnwILIAAgASgCACICQYCAgIB4R3FFIAJFcg0BIAEoAgQiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQIgAUEAIAMgAkEnaksbDQAgABCfAgwBCwwCCyAKQdAEaiQADwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALmwwCCH8EfiAAKAIUIQMgACgCECEFIAApAwghCyAAKAIEIQkgACgCACEIIAAoAhgiAkEASARAIAUgCUkEQCAIIAVBAnRqKAAAIQYLIAZBGHQgBkGA/gNxQQh0ciAGQQh2QYD+A3EgBkEYdnJyrSALQiCGhCELIAVBAWohBSACQSBqIQILIAsgAyADQQF2IgNrIgStIAJBP3GthiIMQgAgCyAMWiIGG30hCiACIAMgBCAGGyIDZyICQRhrIgRBACACIARPGyIEayECIAMgBHQhBAJAIAFB/wFxQQJJDQAgAkEASARAQQAhBiAFIAlJBEAgCCAFQQJ0aigAACEGCyAGQRh0IAZBgP4DcUEIdHIgBkEIdkGA/gNxIAZBGHZycq0gCkIghoQhCiAFQQFqIQUgAkEgaiECCyAKIAQgBEEBdiIGayIErSACQT9xrYYiDUIAIAogDVoiAxt9IQogAiAGIAQgAxsiBmciAkEYayIEQQAgAiAETxsiBGshAiAGIAR0IQQgA0ECQQAgCyAMWhtyIQYgAUH/AXFBAkYNACACQQBIBEBBACEDIAUgCUkEQCAIIAVBAnRqKAAAIQMLIANBGHQgA0GA/gNxQQh0ciADQQh2QYD+A3EgA0EYdnJyrSAKQiCGhCEKIAVBAWohBSACQSBqIQILIAogBCAEQQF2IgRrIgetIAJBP3GthiILQgAgCiALWiIDG30hCiACIAQgByADGyIEZyICQRhrIgdBACACIAdPGyIHayECIAQgB3QhBCADIAZBAXRyIQYgAUH/AXFBBEkNACACQQBIBEBBACEDIAUgCUkEQCAIIAVBAnRqKAAAIQMLIANBGHQgA0GA/gNxQQh0ciADQQh2QYD+A3EgA0EYdnJyrSAKQiCGhCEKIAVBAWohBSACQSBqIQILIAogBCAEQQF2IgRrIgetIAJBP3GthiILQgAgCiALWiIDG30hCiACIAQgByADGyIEZyICQRhrIgdBACACIAdPGyIHayECIAQgB3QhBCADIAZBAXRyIQYgAUH/AXFBBEYNACACQQBIBEBBACEDIAUgCUkEQCAIIAVBAnRqKAAAIQMLIANBGHQgA0GA/gNxQQh0ciADQQh2QYD+A3EgA0EYdnJyrSAKQiCGhCEKIAVBAWohBSACQSBqIQILIAogBCAEQQF2IgRrIgetIAJBP3GthiILQgAgCiALWiIDG30hCiACIAQgByADGyIEZyICQRhrIgdBACACIAdPGyIHayECIAQgB3QhBCADIAZBAXRyIQYgAUH/AXFBBkkNACACQQBIBEBBACEDIAUgCUkEQCAIIAVBAnRqKAAAIQMLIANBGHQgA0GA/gNxQQh0ciADQQh2QYD+A3EgA0EYdnJyrSAKQiCGhCEKIAVBAWohBSACQSBqIQILIAogBCAEQQF2IgRrIgetIAJBP3GthiILQgAgCiALWiIDG30hCiACIAQgByADGyIEZyICQRhrIgdBACACIAdPGyIHayECIAQgB3QhBCADIAZBAXRyIQYgAUH/AXFBBkYNACACQQBIBEBBACEDIAUgCUkEQCAIIAVBAnRqKAAAIQMLIANBGHQgA0GA/gNxQQh0ciADQQh2QYD+A3EgA0EYdnJyrSAKQiCGhCEKIAVBAWohBSACQSBqIQILIAogBCAEQQF2IgRrIgetIAJBP3GthiILQgAgCiALWiIDG30hCiACIAQgByADGyIEZyICQRhrIgdBACACIAdPGyIHayECIAQgB3QhBCADIAZBAXRyIQYgAUH/AXFBCEkNACACQQBIBEBBACEDIAUgCUkEQCAIIAVBAnRqKAAAIQMLIANBGHQgA0GA/gNxQQh0ciADQQh2QYD+A3EgA0EYdnJyrSAKQiCGhCEKIAVBAWohBSACQSBqIQILIAogBCAEQQF2IgRrIgitIAJBP3GthiILQgAgCiALWiIDG30hCiACIAQgCCADGyIEZyICQRhrIghBACACIAhPGyIIayECIAQgCHQhBCADIAZBAXRyIQYLIAUgCU0EQCAAIAI2AhggACAENgIUIAAgBTYCECAAIAo3AwggBg8LIAAgARDiBwumEAINfwF+IwBB0ABrIgIkAAJAAkACQAJ/AkACQAJAAkBBFSABKAIAIgRBgICAgHhzIARBAE4bQRRrDgIBAgALIAEgAkHPAGpBkIjBABCPCCEBIABBgICAgHg2AgAgACABNgIEDAQLAkACQAJAIAEoAgwiCARAAkAgASgCCCIEKAIAQZSAgIB4RgRAAkAgBCgCDCIBBEAgAkE4aiAEKAIIEL0DIAIoAjgiBUGAgICAeEcNASACKAI8IQQMBQtBACACQc8AakGgh8EAEP0GIQQMBAsgAigCPCEHIAFBAUYNASACQQE2AjggAUEBa0H/////AHFBAWogAkE4akHQtcEAEP0GIQQgBUUNAyAHIAVBARCIBwwDCyAEIAJBzwBqQaCHwQAQjwghBAwCCyAIQQFGDQUgAigCQCEDIAJBOGoiBiAEQRBqEKACIAIoAjwiASACKAI4DQYaIAJBEGogAkHIAGooAgA2AgAgAiACKQJANwMIIAhBAkYNAiAGIARBIGoQoAIgAigCPCEEIAIoAjhFDQMgBAwGC0EAQfiewQBB6J3BABD9BiEECyAAQYCAgIB4NgIAIAAgBDYCBAwFC0ECQfiewQBB6J3BABD9BgwDCyAAIAIpAkA3AiAgAEEoaiACQcgAaigCADYCACAAQRhqIAJBEGooAgA2AgAgACACKQMINwIQIAAgBDYCHCAAIAE2AgwgACADNgIIIAAgBzYCBCAAIAU2AgAgCEEDRg0DIAJBAzYCOCAIQf3///8AakH/////AHFBA2ogAkE4akHQtcEAEP0GIQEgAEGAgICAeDYCACAAIAE2AgQgBUUNAyAHIAVBARCIBwwDCyABKAIEIQQgASgCCCEBIAJBADYCFCACIAQgAUEFdGoiDDYCDAJAAn8CQCABRQ0AIAJBQGshCkGAgICAeCEGA0AgAiAEQSBqIgE2AgggAiACKAIUQQFqNgIUIAIgBEEQaiINNgIQAkACQAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAQRUgBCgCACIDQYCAgIB4cyADQQBOG0EBaw4PABAQARAQEBAQEBACAwQFEAsgBC0ABA4DCwUHEgsgBCkDCCIPQgJWDREgD6dBAWsOAgQGCgsgBCgCCCEDAkAgBCgCDEEEaw4CAAkRCyADKAAAQe3SuZsHRg0DIAMoAABB7cLhmwdGDQUMEAsgBCgCBCEDAkAgBCgCCEEEaw4CAAcQCyADKAAAQe3SuZsHRg0CIAMoAABB7cLhmwdGDQQMDwsgBCgCCCEDAkACQCAEKAIMQQRrDgIAARALIAMtAABB7QBHDQ8CQAJAIAMtAAFB4QBrDgkBEREREREREQARCyADLQACQe4ARw0QIAMtAANB8wBGDQMMEAsgAy0AAkH4AEcNDyADLQADQfMARg0EDA8LIAMtAABB5gBHDQ4gAy0AAUHpAEcNDiADLQACQewARw0OIAMtAANB5QBHDQ4gAy0ABEHzAEcNDgwHCyAEKAIEIQMCQCAEKAIIQQRrDgIABA4LIAMtAABB7QBHDQ0CQCADLQABQeEAaw4JAg4ODg4ODg4ADgsgAy0AAkHuAEcNDSADLQADQfMARw0NCyAHDQYgAkEANgIQIAJBOGogDRCgAiACKAI8IgUgAigCOA0LGiACQSBqIApBCGooAgA2AgAgAiAKKQIANwMYQQEhBwwNCyADLQACQfgARw0LIAMtAANB8wBHDQsLIAsNBSACQQA2AhAgAkE4aiANEKACIAIoAjwhCCACKAI4RQ0GIAgMCQsgAy0AAEHmAEcNCSADLQABQekARw0JIAMtAAJB7ABHDQkgAy0AA0HlAEcNCSADLQAEQfMARw0JDAILIANB+J3BAEEFELsHRQ0BDAgLIANB+J3BAEEFELsHDQcLIAZBgICAgHhHDQQgAkE4aiACQQhqEKkFIAIoAjwiCSACKAI4IgZBgICAgHhGDQoaIAIoAkAhDiACKAIMIQwgAigCCCEBDAcLQf2dwQBBBBDNBwwEC0GBnsEAQQQQzQcMAwsgAkEwaiAKQQhqKAIANgIAIAIgCikCADcDKEEBIQsMBAsgBCACQc8AakGgisEAEI8IDAELQfidwQBBBRDNBwshBSAAQYCAgIB4NgIAIAAgBTYCBCAGQYCAgIB4ckGAgICAeEYNCAJAIAlBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIAZqTwRAIABBACABIAZBJ2pLGw0BIAkQnwIMCgtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIAJBADYCEAsgDCABIgRHDQALIAZBgICAgHhGDQAgB0EAIAsbDQJBgZ7BAEH9ncEAIAcbQQQQygchASAAQYCAgIB4NgIAIAAgATYCBCAGRQ0FIAkgBkEBEIgHDAULQfidwQBBBRDKBwshCSAAQYCAgIB4NgIAIAAgCTYCBAwDCyAAIAIpAyg3AiAgACACKQMYNwIQIAAgCDYCHCAAIAU2AgwgACAONgIIIAAgCTYCBCAAIAY2AgAgAEEoaiACQTBqKAIANgIAIABBGGogAkEgaigCADYCAAwCC0EBQfiewQBB6J3BABD9BgshASAAQYCAgIB4NgIAIAAgATYCBCAFRQ0AIAdBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIAVqSQ0BIABBACABIAVBJ2pLGw0CIAcQnwILIAJB0ABqJAAPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAv7CQEHfyAAKAIEIQICQAJAIAAoAggiBQRAIAIhAQNAIAFBKGooAgAiBgRAIAFBLGooAgAiB0EEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgBmpJDQMgA0EAIAQgBkEnaksbDQQgBxCfAgsgARC5BCABQUBrIQEgBUEBayIFDQALCyAAKAIAIgMEQCACQQRrKAIAIgFBeHEiBCADQQZ0IgNBBEEIIAFBA3EiARtySQ0BIAFBACAEIANBJ3JLGw0CIAIQnwILAkAgACgChAEiAUGAgICAeEYNACABBEAgACgCiAEiBEEEaygCACICQXhxIgMgAUEDdCIBQQRBCCACQQNxIgIbakkNAiACQQAgAyABQSdqSxsNAyAEEJ8CCyAAKAKQASIBBEAgACgClAEiBEEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNAiACQQAgAyABQSdqSxsNAyAEEJ8CCyAAKAKcASIBBEAgACgCoAEiBEEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNAiACQQAgAyABQSdqSxsNAyAEEJ8CCyAAKAKoASIBRQ0AIAAoAqwBIgRBBGsoAgAiAkF4cSIDIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCfAgsgACgCDCIBBEAgACgCECIEQQRrKAIAIgJBeHEiAyABQcgAbCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEJ8CCyAAKAIYIgEEQCAAKAIcIgRBBGsoAgAiAkF4cSIDIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCfAgsgACgCJCIBBEAgACgCKCIEQQRrKAIAIgJBeHEiAyABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACADIAFBJ2pLGw0CIAQQnwILIAAoAjAiAQRAIAAoAjQiBEEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEJ8CCyAAKAI8IgEEQCAAKAJAIgRBBGsoAgAiAkF4cSIDIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCfAgsgACgCSCIBBEAgACgCTCIEQQRrKAIAIgJBeHEiAyABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACADIAFBJ2pLGw0CIAQQnwILIAAoAlQiAQRAIAAoAlgiBEEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEJ8CCyAAKAJgIgEEQCAAKAJkIgRBBGsoAgAiAkF4cSIDIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCfAgsgACgCbCIBBEAgACgCcCIEQQRrKAIAIgJBeHEiAyABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACADIAFBJ2pLGw0CIAQQnwILIAAoAngiAgRAIAAoAnwiA0EEaygCACIAQXhxIgEgAkECdCICQQRBCCAAQQNxIgAbakkNASAAQQAgASACQSdqSxsNAiADEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC6wNAgZ/A34jAEHQAWsiBCQAAkACQAJAIAApAwBCAlENACAAKAKoASEBIABBADYCqAECQAJAAkACQCABQQFrDgIBAgALIARBMGohAwJAAkACQEElEHEiAQRAIAFBHWpBhYLHACkAADcAACABQRBqQfiBxwD9AAAA/QsAACABQeiBxwD9AAAA/QsAAEEMEHEiAkUNASACQSU2AgggAiABNgIEIAJBJTYCAEEMEHEiAUUNAiABQSg6AAggAUGggscANgIEIAEgAjYCACADQQA2AhAgAyABrUIghkIDhDcDAAwDC0EBQSUQ4QgAC0EMEOgJAAtBDBDoCQALDAILIARBQGsgAEHAAWopAwA3AwAgBCAA/QADsAH9CwMwDAELIAAoAqwBIgFBKGohAiABKAIkIQMgASgCICEFAkAgASkDGCIHQgJSBEAgBEHYAGoiBiAC/QADAP0LAwAgBEFAayABQRBqKQMANwMAIARB6ABqIAJBEGr9AAMA/QsDACAEQfgAaiACQSBq/QADAP0LAwAgBEHIAWogAUGYAWopAwA3AwAgBEGoAWogAUH4AGr9AAMA/QsDACAEQbgBaiABQYgBav0AAwD9CwMAIAQgAf0AAwD9CwMwIAQgAf0AA1j9CwOIASAEIAH9AANo/QsDmAEgBEHIAGoiAiAHNwMAIARBIGogBv0AAwD9CwMAIAQgAzYCVCAEIAU2AlAgBEEQaiAC/QADAP0LAwAgBCAEQThq/QADAP0LAwAgBCgCMCEFIAQoAjQhAyAEQYgBahCWBQwBCyAEQSBqIAJBIGr9AAMA/QsDACAEQRBqIAJBEGr9AAMA/QsDACAEIAL9AAMA/QsDAAsgAwRAIAVBBGsoAgAiAkF4cSIGQQRBCCACQQNxIgIbIANqSQ0DIAJBACAGIANBJ2pLGw0EIAUQnwILIARBQGsgBEEYaiICQRBqKQMANwMAIAQgAv0AAwD9CwMwIAFBBGsoAgAiAkF4cUG8AUHAASACQQNxIgMbSQ0CIANBACACQeABTxsNAyABEJ8CCwJAIAQoAkAiAQRAIAQpAzghBwNAIAdQDQIgASABKQMIIgggASgCBCICQv////8PIAggCEL/////D1obp2siA0EAIAIgA08bIgNCgMAAIAcgB0KAwABaG6ciBSADIAVJG60iCXw3AwggByAJfSEHIAIgCCACrSIJIAggCVQbp0cNAAsMAQsgBC0AMEEDRw0AIAQoAjQiASgCACECIAFBBGooAgAiAygCACIFBEAgAiAFEQMACyADKAIEIgMEQCACQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyADakkNAyAFQQAgBiADQSdqSxsNBCACEJ8CCyABQQRrKAIAIgJBeHEiA0EQQRQgAkEDcSICG0kNAiACQQAgA0E0TxsNAyABEJ8CCyAAKAIsIgEEQCAAKAIoIgJBBGsoAgAiA0F4cSIFQQRBCCADQQNxIgMbIAFqSQ0CIANBACAFIAFBJ2pLGw0DIAIQnwILIAAoAjQiAQRAIAAoAjAiAkEEaygCACIDQXhxIgVBBEEIIANBA3EiAxsgAWpJDQIgA0EAIAUgAUEnaksbDQMgAhCfAgsCQCAAKAKMASIBRQ0AIAEgASgCACIBQQFrNgIAIAFBAUcNACAAKAKMARDRBQsCQCAAKAKQASIBRQ0AIAEgASgCACIBQQFrNgIAIAFBAUcNACAAKAKQARDRBQsgACgCPCIBBEAgACgCOCICQQRrKAIAIgNBeHEiBUEEQQggA0EDcSIDGyABakkNAiADQQAgBSABQSdqSxsNAyACEJ8CCyAAKAJ4IgFFDQAgACgCfCICQQRrKAIAIgNBeHEiBSABQQV0IgFBBEEIIANBA3EiAxtySQ0BIANBACAFIAFBJ2pLGw0CIAIQnwILIAAoAqgBQQJPBEACQCAAKAKsASIAKQMYQgJRBEAgACgCJCIBRQ0BIAAoAiAiAkEEaygCACIDQXhxIgVBBEEIIANBA3EiAxsgAWpJDQMgA0EAIAUgAUEnaksbDQQgAhCfAgwBCyAAKAIEIgEEQCAAKAIAIgJBBGsoAgAiA0F4cSIFQQRBCCADQQNxIgMbIAFqSQ0DIANBACAFIAFBJ2pLGw0EIAIQnwILIABB2ABqEJYFCyAAQQRrKAIAIgFBeHFBvAFBwAEgAUEDcSICG0kNASACQQAgAUHgAU8bDQIgABCfAgsgBEHQAWokAA8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC8EOAgl/BH4jAEHQAmsiAiQAAkACQAJAAkAgAC0AgARFBEAgACgCkAEiAUECRw0CIAAoAgBBAkcNAiAAKAK4AiIDQQRPDQEMAwsgADUCuAIhCiAAQQA2ArgCIAAgCiAAKQNwfDcDcAwDCyAAQZABaiEIIAIgACgCtAIiBCgAACIBNgIQAkACQAJAAkACQAJAAkACQCABQdKCkZoERwRAIAFB0oKRggNHDQEgA0EISQ0KIAMgBCgABCIFQQdqQXhxQQhqIgFJDQogBUEIaiIGIANLIAVBd0tyDQIgAkEANgLIAiACIAU2AsQCIAIgBEEIajYCwAIgAkEgaiACQcACahBkIAIoAiQhBSACKAIgIgdBAkYEQCAFEIIIIQEMDAsgAkGwAWogAkEoakGAAfwKAAAgAEEANgK4AiACIAU2AqwBIAIgBzYCqAEgAyABayEGAkACQCABRQ0AIAEgA0YNASAGRQ0AIAQgASAEaiAG/AoAAAsgACAGNgK4AgsgACAAKQNwIAGtfCIKNwN4IAAgCjcDcCACKAKkAkEBRw0DIAAgAigClAIiBDYCnAIgACACKAK0ASACKALAASIDIAIoArABGyIBNgKgAiABRQ0EIAQgAyABbiIEIAEgBGwgA0dqIgFGBEAgAi0AqAIhASACIAVBACAHQQFxGzYCJCACIAM2AiAgAiABQQFxOgAoIABBvAJqIAJBIGoQ1AMCQCAAKAKQAUECRg0AIAAoAvgBIQQgACgC/AEiAwRAIARBJGohAQNAIAFBBGsoAgAiBUGAgICAeHJBgICAgHhHBEAgASgCACIGQQRrKAIAIgdBeHEiCUEEQQggB0EDcSIHGyAFakkNCiAHQQAgCSAFQSdqSxsNCyAGEJ8CCyABQTBqIQEgA0EBayIDDQALCyAAKAL0ASIDBEAgBCADQTBsQQgQiAcLIAAoAoACIgNBgICAgHhyQYCAgIB4Rg0AIAAoAoQCIANBARCIBwsgCCACQagBakGIAfwKAAAMCQsgAiABNgLMAiACQoCAgIAQIgogAEGcAmqthDcDKCACIAogAkHMAmqthDcDICACQcACaiIAQbWFwAAgAkEgahD1BgwHCyACQQhqIAAQ0wIgAi0ACEUEQCACLQAJDQhBACEBDAsLIAIoAgwhAQwKCyACIAJBEGqtQoCAgICABIQ3AyAgAkEUaiIAQdzgwQAgAkEgahD1BiAAEIAIIQEMCQtBCCAGIANBzODBABDVBwALIAIgAkGkAmqtQoCAgIAQhDcDICACQbQCaiIAQZeSwAAgAkEgahD1BgwDC0G84MEAENQJAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIAAQgAghASACQagBahDKBAwDCyAIKAIAIQELAkACQAJAAkACfwJAIAFBAkcEQCAAKAKYAiAAKAKcAk8NBiAAKAIAQQJGDQFBAAwCCyACQagBaiAAEDMgAigCrAFBACACLQCoASIDGyEBIAMNByACLQCpAUEBcUUNByAAKQOIASIMIAApA3AiClgEQCAAKAK4AiEDDAULIAAoArgCIQRBACEDIABBADYCuAIgBCAMIAp9IgsgBK0iDSALIA1UGyILpyIFayEBIAtQRQRAIAQgBUYNBCABRQ0DIAAoArQCIgMgAyAFaiAB/AoAAAwDCyAEIAVHDQIMAwtBAQshAQNAAkACQAJAAkACQAJAAkACQAJAAkACQCABRQRAIAJBqAFqIAAQMyACKAKsASEDIAItAKgBIgENAiACLQCpAUEBcUUNAiAAKQOIASIKIAApA3AiDFYNAQwGCyACQagBaiAAENMCIAItAKgBQQFGBEAgAigCrAEhAQwSCyACLQCpAQ0JQQAhAQwRCyAAKAK4AiEDIABBADYCuAIgAyAKIAx9IgsgA60iDSALIA1UGyILpyIBayEEIAtQDQEgASADRg0DIARFDQIgACgCtAIiAyABIANqIAT8CgAADAILIANBACABGyEBDA8LIAEgA0YNAQsgACAENgK4AgsgACALIAx8Igw3A3AgCiAMVg0BCwJAIAAoAgBBAkYNACAAKAJcIgNFDQAgACgCYCIBQQRrKAIAIgRBeHEiBSADQShsIgNBBEEIIARBA3EiBBtqSQ0CIARBACAFIANBJ2pLGw0DIAEQnwILIABBAjYCACAAIAAoApgCQQFqIgM2ApgCIAMgACgCnAJJDQQMCQtBACEBDAoLQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0EAIQEMAQtBASEBDAALAAsgACABNgK4AiABIQMLIAAgCiALfCIKNwNwIAogDFoNAEEAIQEMAwtBACEBIABBADYCuAIgAEEBOgCABCAAIAogA618NwNwDAILIABBAToAgAQgADUCuAIhCkEAIQEgAEEANgK4AiAAIAogACkDcHw3A3AMAQtBACEBCyACQdACaiQAIAEL9gwCCX8HfSADQQhPBEAgACAAIANBA3YiA0EEdCIGaiAAIANBHGwiB2ogAyAEEMABIQAgASABIAZqIAEgB2ogAyAEEMABIQEgAiACIAZqIAIgB2ogAyAEEMABIQILQwAAgD8hDgJ/AkAgACgCACIDIAQoAgBBBGooAgAiBEEIaigCACIHSQRAIAEoAgAhBiAEQQRqKAIAIgkgA0EkbGoiCBCDBCEQIAgvARQiBEH//wFxIgxFDQEgBEH/B3EhAyAEQYCAAnEhBSAEQYD4AXEiCkGA+AFHBEAgBUEQdCEFIApBDXRBgICA/ABxIANBDXRyQYCAgMADaiAFciAKDQMaIAVBgICA2ANyIANnQRBrIgVBF3RrIAMgBUH//wNxQQhqdEH///8DcXIMAwsgBUEQdCEFIAUgA0ENdHJBgICA/gdyIAMNAhogBUGAgID8B3IMAgsgAyAHQcSixwAQrgcACyAEQRB0C74iD0MAAIA/XgRAIA8QugVDVPgtQJRDAACAP5KRIQ4LQwAAgD8hEgJ/AkAgBiAHSQRAIAkgBkEkbGoiChCDBCEPIAovARQiBkH//wFxIg1FDQEgBkH/B3EhAyAGQYCAAnEhBSAGQYD4AXEiC0GA+AFHBEAgBUEQdCEFIAtBDXRBgICA/ABxIANBDXRyQYCAgMADaiAFciALDQMaIAVBgICA2ANyIANnQRBrIgVBF3RrIAMgBUH//wNxQQhqdEH///8DcXIMAwsgBUEQdCEFIAUgA0ENdHJBgICA/gdyIAMNAhogBUGAgID8B3IMAgsgBiAHQcSixwAQrgcACyAGQRB0C74iEUMAAIA/XgRAIBEQugVDVPgtQJRDAACAP5KRIRILIAIoAgAhBSAIEIMEIRFDAACAPyETAn8gDARAIARB/wdxIQMgBEGAgAJxIQggBEGA+AFxIgRBgPgBRwRAIAhBEHQhCCAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogCHIgBA0CGiAIQYCAgNgDciADZ0EQayIEQRd0ayADIARB//8DcUEIanRB////A3FyDAILIAhBEHQhBCAEIANBDXRyQYCAgP4HciADDQEaIARBgICA/AdyDAELIARBEHQLviIUQwAAgD9eBEAgFBC6BUNU+C1AlEMAAIA/kpEhEwsCfwJAIAUgB0kEQCAQIBCSIA6UIg4gDyAPkiASlGBFIQggDiAOWyELIAkgBUEkbGoiBxCDBCEQIAcvARQiA0H//wFxIgxFDQEgA0H/B3EhBCADQYCAAnEhBSADQYD4AXEiCUGA+AFHBEAgBUEQdCEFIAlBDXRBgICA/ABxIARBDXRyQYCAgMADaiAFciAJDQMaIAVBgICA2ANyIARnQRBrIgVBF3RrIAQgBUH//wNxQQhqdEH///8DcXIMAwsgBUEQdCEFIAUgBEENdHJBgICA/gdyIAQNAhogBUGAgID8B3IMAgsgBSAHQcSixwAQrgcACyADQRB0C0MAAIA/IQ6+Ig9DAACAP14EQCAPELoFQ1T4LUCUQwAAgD+SkSEOCyAIIAtxIgUgESARkiATlCIPIA9bIA8gECAQkiAOlGBFcUYEfyAKEIMEIRBDAACAPyEPAn8gDQRAIAZB/wdxIQAgBkGAgAJxIQQgBkGA+AFxIgZBgPgBRwRAIARBEHQhBCAGQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2ogBHIgBg0CGiAEQYCAgNgDciAAZ0EQayIEQRd0ayAAIARB//8DcUEIanRB////A3FyDAILIARBEHQhBCAEIABBDXRyQYCAgP4HciAADQEaIARBgICA/AdyDAELIAZBEHQLviIOQwAAgD9eBEAgDhC6BUNU+C1AlEMAAIA/kpEhDwtDAACAPyEOIAIgASAFIBAgEJIgD5QiECAQWyAQIAcQgwQiEiASkgJ/IAwEQCADQf8HcSEAIANBgIACcSEEIANBgPgBcSIDQYD4AUcEQCAEQRB0IQQgA0ENdEGAgID8AHEgAEENdHJBgICAwANqIARyIAMNAhogBEGAgIDYA3IgAGdBEGsiA0EXdGsgACADQf//A3FBCGp0Qf///wNxcgwCCyAEQRB0IQMgAyAAQQ10ckGAgID+B3IgAA0BGiADQYCAgPwHcgwBCyADQRB0C74iEUMAAIA/XgR9IBEQugVDVPgtQJRDAACAP5KRBSAOC5RgRXFzGwUgAAsLtw8CC38BfiMAQSBrIgMkAEGAgICAeCEGAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiBEGAgICAeHMgBEEAThtBFGsOAgECAAsgASADQRRqQfCIwQAQjwghASAAQYCAgIB4NgIAIAAgATYCBAwHCwJ/AkACQCABKAIMIgIEQAJAIAEoAggiASgCAEGUgICAeEYEQAJAIAEoAgwiBQRAIANBBGogASgCCBC9AyADKAIEIgRBgICAgHhHDQEgAygCCCEBDAULQQAgA0EUakGgh8EAEP0GIQEMBAsgAygCCCEHIAVBAUYNASADQQE2AgQgBUEBa0H/////AHFBAWogA0EEakHQtcEAEP0GIQEgBEUNAyAHIARBARCIBwwDCyABIANBFGpBoIfBABCPCCEBDAILIAJBAUYNAiADKAIMIQYgA0EEaiIIIAFBEGoQkAMgAygCCCIBIAMoAgQiBUGAgICAeEYNAxogACADKAIMNgIUIAAgATYCECAAIAU2AgwgACAGNgIIIAAgBzYCBCAAIAQ2AgAgAkECRg0KIANBAjYCBCACQf7///8AakH/////AHFBAmogCEHQtcEAEP0GIQIgAEGAgICAeDYCACAAIAI2AgQgBARAIAcgBEEBEIgHCyAFRQ0KIAEgBUECdEEEEIgHDAoLQQBB1KHBAEHoncEAEP0GIQELIABBgICAgHg2AgAgACABNgIEDAgLQQFB1KHBAEHoncEAEP0GCyEBIABBgICAgHg2AgAgACABNgIEIARFDQYgB0EEaygCACIAQXhxIgFBBEEIIABBA3EiABsgBGpJDQggAEEAIAEgBEEnaksbDQcgBxCfAgwGCyABKAIIIQQgASgCBCEBIANCADcCDCADIAE2AgQgAyABIARBBXRqIgk2AgggBEUNAUGAgICAeCEFA0AgAyABQSBqIgQ2AgQgAyADKAIQQQFqNgIQIAMgAUEQaiIKNgIMAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkBBFSABKAIAIgJBgICAgHhzIAJBAE4bQQFrDg8ADAwBDAwMDAwMDAIDBAUMCyABLQAEIgFFDQdBAUECIAFBAUYbIQEMDAsgASkDCCINUA0GQQFBAiANQgFRGyEBDAsLIAEoAgghAiABKAIMQQVrDgQEDAwGDAsgASgCBCECAkAgASgCCEEFaw4EAwwMAAwLIAIpAABC496Rq6bs27frAFENCgwLCyABKAIIIQICQAJAIAEoAgxBBWsOBAEMDAAMCyACLQAAQeMARw0LIAItAAFB7wBHDQsgAi0AAkHkAEcNCyACLQADQeUARw0LIAItAARB4gBHDQsgAi0ABUHvAEcNCyACLQAGQe8ARw0LIAItAAdB6wBGDQoMCwsgAi0AAEHmAEcNCiACLQABQekARw0KIAItAAJB7ABHDQogAi0AA0HlAEcNCiACLQAEQfMARw0KDAMLIAEoAgQhAgJAAkAgASgCCEEFaw4EAQsLAAsLIAItAABB4wBHDQogAi0AAUHvAEcNCiACLQACQeQARw0KIAItAANB5QBHDQogAi0ABEHiAEcNCiACLQAFQe8ARw0KIAItAAZB7wBHDQogAi0AB0HrAEYNCQwKCyACLQAAQeYARw0JIAItAAFB6QBHDQkgAi0AAkHsAEcNCSACLQADQeUARw0JIAItAARB8wBHDQkMAgsgAkH4ncEAQQUQuwcNCAwBCyACQfidwQBBBRC7Bw0HCyAFQYCAgIB4Rw0BIANBFGogA0EEahCpBSADKAIYIQQgAygCFCIFQYCAgIB4Rw0CQYCAgIB4IQUMDQsgAikAAELj3pGrpuzbt+sAUQ0EDAULQfidwQBBBRDNByEEDAsLIAMoAhwhCyADKAIIIQkgAygCBCEBIAQhBwwGCyABIANBFGpB8InBABCPCCEEDAkLIAFBAkYNAQsgBkGAgICAeEcNAiADQQA2AgwgA0EUaiAKEJADIAMoAhghCCADKAIUIgZBgICAgHhHDQEgAEGAgICAeDYCACAAIAg2AgQMCQsgA0EANgIMIAQhAQwCCyADKAIcIQwgBCEBDAELQYCfwQBBCBDNByEBIABBgICAgHg2AgAgACABNgIEIAZFDQYMBQsgASAJRw0ACwwACyAFQYCAgIB4Rg0AIAZBgICAgHhGBEBBgJ/BAEEIEMoHIQEgAEGAgICAeDYCACAAIAE2AgQgBUUNBSAHIAVBARCIBwwFCyAAIAw2AhQgACAINgIQIAAgBjYCDCAAIAs2AgggACAHNgIEIAAgBTYCAAwEC0GAgICAeCEFQfidwQBBBRDKByEECyAAQYCAgIB4NgIAIAAgBDYCBCAGQYCAgIB4ckGAgICAeEYNAQsCQCAIQQRrKAIAIgBBeHEiASAGQQJ0IgRBBEEIIABBA3EiABtqTwRAIABBACABIARBJ2pLGw0BIAgQnwIMAgsMBAsMAgsgBUGAgICAeHJBgICAgHhGDQAgB0EEaygCACIAQXhxIgFBBEEIIABBA3EiABsgBWpJDQIgAEEAIAEgBUEnaksbDQEgBxCfAgsgA0EgaiQADwtBgODHAEEuQbDgxwAQ5wgAC0HA38cAQS5B8N/HABDnCAALtw8CC38BfiMAQSBrIgMkAEGAgICAeCEGAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAEoAgAiBEGAgICAeHMgBEEAThtBFGsOAgECAAsgASADQRRqQeCHwQAQjwghASAAQYCAgIB4NgIAIAAgATYCBAwHCwJ/AkACQCABKAIMIgIEQAJAIAEoAggiASgCAEGUgICAeEYEQAJAIAEoAgwiBQRAIANBBGogASgCCBC9AyADKAIEIgRBgICAgHhHDQEgAygCCCEBDAULQQAgA0EUakGgh8EAEP0GIQEMBAsgAygCCCEHIAVBAUYNASADQQE2AgQgBUEBa0H/////AHFBAWogA0EEakHQtcEAEP0GIQEgBEUNAyAHIARBARCIBwwDCyABIANBFGpBoIfBABCPCCEBDAILIAJBAUYNAiADKAIMIQYgA0EEaiIIIAFBEGoQkAMgAygCCCIBIAMoAgQiBUGAgICAeEYNAxogACADKAIMNgIUIAAgATYCECAAIAU2AgwgACAGNgIIIAAgBzYCBCAAIAQ2AgAgAkECRg0KIANBAjYCBCACQf7///8AakH/////AHFBAmogCEHQtcEAEP0GIQIgAEGAgICAeDYCACAAIAI2AgQgBARAIAcgBEEBEIgHCyAFRQ0KIAEgBUECdEEEEIgHDAoLQQBBpJ/BAEHoncEAEP0GIQELIABBgICAgHg2AgAgACABNgIEDAgLQQFBpJ/BAEHoncEAEP0GCyEBIABBgICAgHg2AgAgACABNgIEIARFDQYgB0EEaygCACIAQXhxIgFBBEEIIABBA3EiABsgBGpJDQggAEEAIAEgBEEnaksbDQcgBxCfAgwGCyABKAIIIQQgASgCBCEBIANCADcCDCADIAE2AgQgAyABIARBBXRqIgk2AgggBEUNAUGAgICAeCEFA0AgAyABQSBqIgQ2AgQgAyADKAIQQQFqNgIQIAMgAUEQaiIKNgIMAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkBBFSABKAIAIgJBgICAgHhzIAJBAE4bQQFrDg8ADAwBDAwMDAwMDAIDBAUMCyABLQAEIgFFDQdBAUECIAFBAUYbIQEMDAsgASkDCCINUA0GQQFBAiANQgFRGyEBDAsLIAEoAgghAiABKAIMQQVrDgQEDAwGDAsgASgCBCECAkAgASgCCEEFaw4EAwwMAAwLIAIpAABC496Rq6bs27frAFENCgwLCyABKAIIIQICQAJAIAEoAgxBBWsOBAEMDAAMCyACLQAAQeMARw0LIAItAAFB7wBHDQsgAi0AAkHkAEcNCyACLQADQeUARw0LIAItAARB4gBHDQsgAi0ABUHvAEcNCyACLQAGQe8ARw0LIAItAAdB6wBGDQoMCwsgAi0AAEHmAEcNCiACLQABQekARw0KIAItAAJB7ABHDQogAi0AA0HlAEcNCiACLQAEQfMARw0KDAMLIAEoAgQhAgJAAkAgASgCCEEFaw4EAQsLAAsLIAItAABB4wBHDQogAi0AAUHvAEcNCiACLQACQeQARw0KIAItAANB5QBHDQogAi0ABEHiAEcNCiACLQAFQe8ARw0KIAItAAZB7wBHDQogAi0AB0HrAEYNCQwKCyACLQAAQeYARw0JIAItAAFB6QBHDQkgAi0AAkHsAEcNCSACLQADQeUARw0JIAItAARB8wBHDQkMAgsgAkH4ncEAQQUQuwcNCAwBCyACQfidwQBBBRC7Bw0HCyAFQYCAgIB4Rw0BIANBFGogA0EEahCpBSADKAIYIQQgAygCFCIFQYCAgIB4Rw0CQYCAgIB4IQUMDQsgAikAAELj3pGrpuzbt+sAUQ0EDAULQfidwQBBBRDNByEEDAsLIAMoAhwhCyADKAIIIQkgAygCBCEBIAQhBwwGCyABIANBFGpBgIrBABCPCCEEDAkLIAFBAkYNAQsgBkGAgICAeEcNAiADQQA2AgwgA0EUaiAKEJADIAMoAhghCCADKAIUIgZBgICAgHhHDQEgAEGAgICAeDYCACAAIAg2AgQMCQsgA0EANgIMIAQhAQwCCyADKAIcIQwgBCEBDAELQYCfwQBBCBDNByEBIABBgICAgHg2AgAgACABNgIEIAZFDQYMBQsgASAJRw0ACwwACyAFQYCAgIB4Rg0AIAZBgICAgHhGBEBBgJ/BAEEIEMoHIQEgAEGAgICAeDYCACAAIAE2AgQgBUUNBSAHIAVBARCIBwwFCyAAIAw2AhQgACAINgIQIAAgBjYCDCAAIAs2AgggACAHNgIEIAAgBTYCAAwEC0GAgICAeCEFQfidwQBBBRDKByEECyAAQYCAgIB4NgIAIAAgBDYCBCAGQYCAgIB4ckGAgICAeEYNAQsCQCAIQQRrKAIAIgBBeHEiASAGQQJ0IgRBBEEIIABBA3EiABtqTwRAIABBACABIARBJ2pLGw0BIAgQnwIMAgsMBAsMAgsgBUGAgICAeHJBgICAgHhGDQAgB0EEaygCACIAQXhxIgFBBEEIIABBA3EiABsgBWpJDQIgAEEAIAEgBUEnaksbDQEgBxCfAgsgA0EgaiQADwtBgODHAEEuQbDgxwAQ5wgAC0HA38cAQS5B8N/HABDnCAALpw4DBX8CfQF+IwBBIGsiAiQAAkAgASgCACIEQfS4xABBBCABKAIEIgMoAgwiBREAAARAQQEhAwwBCwJAAkACQCABKAIIIgZBgICABHFFBEBBASEDIARB4J7FAEEBIAURAAANBCAGQYCAgAFxIQUgACoCACEHIAZBgICAgAFxRQRAIABBBGohBCAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyRQ0CIAEgByAFQQBHEM8CRQ0DDAULIAEgByAFQQBHIAEvAQ4QvAINBCAAQQRqIQQMAgsgBEHLi8IAQQIgBREAAARAQQEhAwwECyACQQE6AA8gAiADNgIEIAIgBDYCACACQdCLwgA2AhQgAiABKQIIIgk3AhggCaciBEGAgIABcSEDIAIgAkEPajYCCCACIAI2AhAgACoCACEHAkAgBEGAgICAAXFFBEAgB4siCEPKGw5aYCAHQwAAAABcIAhDF7fROF1xcgRAIAJBEGogByADQQBHEM8CDQUMAgsgAkEQaiAHIANBAEdBARD1AkUNAQwECyACQRBqIAcgA0EARyAJQjCIpxC8Ag0DCyACKAIQQcmLwgBBAiACKAIUKAIMEQAABEBBASEDDAQLIABBBGohBAwBCyABIAcgBUEAR0EBEPUCDQILAkACQAJAAkACQCABKAIIIgNBgICABHFFBEAgASgCAEGX/MUAQQIgASgCBCgCDBEAAARAQQEhAwwICyADQYCAgAFxIQUgBCoCACEHIANBgICAgAFxRQRAIABBCGohBCAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyRQ0CIAEgByAFQQBHEM8CRQ0GQQEhAwwICyABIAcgBUEARyABLwEOELwCBEBBASEDDAgLIABBCGohBAwFCyABKQIAIQkgAkEBOgAPIAIgCTcCACACQdCLwgA2AhQgAiABKQIIIgk3AhggCaciBUGAgIABcSEDIAIgAkEPajYCCCACIAI2AhAgBCoCACEHIAVBgICAgAFxRQ0BIAJBEGogByADQQBHIAlCMIinELwCDQMMAgtBASEDIAEgByAFQQBHQQEQ9QINBQwDCyAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyBEAgAkEQaiAHIANBAEcQzwJFDQEMAgsgAkEQaiAHIANBAEdBARD1Ag0BCyACKAIQQcmLwgBBAiACKAIUKAIMEQAADQAgAEEIaiEEDAELQQEhAwwCCwJAAkACQAJAAkAgASgCCCIDQYCAgARxRQRAIAEoAgBBl/zFAEECIAEoAgQoAgwRAAAEQEEBIQMMCAsgA0GAgIABcSEFIAQqAgAhByADQYCAgIABcUUEQCAAQQxqIQQgB4siCEPKGw5aYCAHQwAAAABcIAhDF7fROF1xckUNAiABIAcgBUEARxDPAkUNBkEBIQMMCAsgASAHIAVBAEcgAS8BDhC8AgRAQQEhAwwICyAAQQxqIQQMBQsgASkCACEJIAJBAToADyACIAk3AgAgAkHQi8IANgIUIAIgASkCCCIJNwIYIAmnIgVBgICAAXEhAyACIAJBD2o2AgggAiACNgIQIAQqAgAhByAFQYCAgIABcUUNASACQRBqIAcgA0EARyAJQjCIpxC8Ag0DDAILQQEhAyABIAcgBUEAR0EBEPUCDQUMAwsgB4siCEPKGw5aYCAHQwAAAABcIAhDF7fROF1xcgRAIAJBEGogByADQQBHEM8CRQ0BDAILIAJBEGogByADQQBHQQEQ9QINAQsgAigCEEHJi8IAQQIgAigCFCgCDBEAAA0AIABBDGohBAwBC0EBIQMMAgsCQAJAAkACQAJAAkAgASgCCCIDQYCAgARxRQRAIAEoAgBBl/zFAEECIAEoAgQoAgwRAAAEQEEBIQMMCQsgA0GAgIABcSEAIAQqAgAhByADQYCAgIABcQ0CIAeLIghDyhsOWmAgB0MAAAAAXCAIQxe30ThdcXJFDQFBASEDIAEgByAAQQBHEM8CRQ0GDAgLIAEpAgAhCSACQQE6AA8gAiAJNwIAIAJB0IvCADYCFCACIAEpAggiCTcCGCAJpyIDQYCAgAFxIQAgAiACQQ9qNgIIIAIgAjYCECAEKgIAIQcgA0GAgICAAXFFDQIgAkEQaiAHIABBAEcgCUIwiKcQvAINAwwEC0EBIQMgASAHIABBAEdBARD1Ag0GDAQLQQEhAyABIAcgAEEARyABLwEOELwCRQ0DDAULIAeLIghDyhsOWmAgB0MAAAAAXCAIQxe30ThdcXIEQCACQRBqIAcgAEEARxDPAkUNAgwBCyACQRBqIAcgAEEAR0EBEPUCRQ0BC0EBIQMMAwsgAigCEEHJi8IAQQIgAigCFCgCDBEAAEUNAEEBIQMMAgsgASgCAEHinsUAQQEgASgCBCgCDBEAACEDDAELQQEhAwsgAkEgaiQAIAMLyg0DBHsIfwF+AkACQAJAAkBBfyAELQC/AiILQQ9xdCIJQf8BcUH/AUcEQEH/ASAJQX9zIg9B/wFxbiEMQQEgC3RBlgJxRSALQQhLcg0BIAQoAtABIQogBCgCzAEhDSAEKALUASEQQQggC25BAXStIAGtfiIRQiCIUCARpyADSXENAiAAIAFqIQ4gA0H+////B3EhBAJAIAtBCEcEQCAERQ0GQQggC2shCSANQYGAgIB4RgRAQQAhCkEAIANBfnFrIQFBfyEEA0AgBEEASARAIAAgDkYNBCAALQAAIQogCSEEIABBAWohAAsgAkEBakH/AToAACACIAogBHYgD3EgDGw6AAAgBCALayEEIAJBAmohAiABQQJqIgENAAsMBwsgEARAQQAgA0F+cWshAUEAIQNBfyEEA0AgBEEASARAIAAgDkYNBCAALQAAIQMgCSEEIABBAWohAAsgAiADQf8BcSAEdiAPcSINIAxsOgAAIAJBAWpBf0EAIA0gCi0AAEcbOgAAIAQgC2shBCACQQJqIQIgAUECaiIBDQALDAcLIAFFDQFBAEEAQZiRxQAQrgcACyABRQ0FIA1BgYCAgHhGBEAgA0EBdiIDIAFBAWsiASABIANLGyIBQRBJIAAgAiABQQF0akECakkgACABakEBaiACS3FyRQRAIAAgAUEBaiIBIAFBD3EiAUEQIAEbayIJaiAEIAlBAXQiA2shBCACIANqIAz9DyEGA0AgAkEfakH/AToAACACQR1qQf8BOgAAIAJBG2pB/wE6AAAgAkEZakH/AToAACACQRdqQf8BOgAAIAJBFWpB/wE6AAAgAkETakH/AToAACACQRFqQf8BOgAAIAJBD2pB/wE6AAAgAkENakH/AToAACACQQtqQf8BOgAAIAJBCWpB/wE6AAAgAkEHakH/AToAACACQQVqQf8BOgAAIAJBA2pB/wE6AAAgAkEBakH/AToAACACQR5qIAD9AAAAIgX9Fg8gBv0WD2w6AAAgAkEcaiAF/RYOIAb9Fg5sOgAAIAJBGmogBf0WDSAG/RYNbDoAACACQRhqIAX9FgwgBv0WDGw6AAAgAkEWaiAF/RYLIAb9FgtsOgAAIAJBFGogBf0WCiAG/RYKbDoAACACQRJqIAX9FgkgBv0WCWw6AAAgAkEQaiAF/RYIIAb9FghsOgAAIAJBDmogBf0WByAG/RYHbDoAACACQQxqIAX9FgYgBv0WBmw6AAAgAkEKaiAF/RYFIAb9FgVsOgAAIAJBCGogBf0WBCAG/RYEbDoAACACQQZqIAX9FgMgBv0WA2w6AAAgAkEEaiAF/RYCIAb9FgJsOgAAIAJBAmogBf0WASAG/RYBbDoAACACIAX9FgAgBv0WAGw6AAAgAEEQaiEAIAJBIGohAiAJQRBrIgkNAAshAiEACwNAIARFDQcgAkEBakH/AToAACACIAAtAAAgDGw6AAAgBEECayEEIAJBAmohAiAOIABBAWoiAEcNAAsMBgsgEARAIANBAXYiAyABQQFrIgEgASADSxsiAUEPTQ0FIAIgACABakEBakkgACACIAFBAXRqQQJqIgNJcSACIApBAWpJIAMgCktxcg0FIAAgAUEBaiIBIAFBD3EiAUEQIAEbayIJaiAEIAlBAXQiA2shBCACIANqIQMgCv0HAAAhByAM/Q8hBgNAIAIgAP0AAAAiBf0WACAG/RYAbP0PIAX9FgEgBv0WAWz9FwEgBf0WAiAG/RYCbP0XAiAF/RYDIAb9FgNs/RcDIAX9FgQgBv0WBGz9FwQgBf0WBSAG/RYFbP0XBSAF/RYGIAb9FgZs/RcGIAX9FgcgBv0WB2z9FwcgBf0WCCAG/RYIbP0XCCAF/RYJIAb9Fgls/RcJIAX9FgogBv0WCmz9FwogBf0WCyAG/RYLbP0XCyAF/RYMIAb9Fgxs/RcMIAX9Fg0gBv0WDWz9Fw0gBf0WDiAG/RYObP0XDiAF/RYPIAb9Fg9s/RcPIgggBSAH/SQiBf0NCBgJGQoaCxsMHA0dDh4PH/0LABAgAiAIIAX9DQAQARECEgMTBBQFFQYWBxf9CwAAIABBEGohACACQSBqIQIgCUEQayIJDQALIQAgAyECDAULIARFDQVBAEEAQZiRxQAQrgcAC0GEj8UAQSJBqI/FABDcBwALQYiRxQAQ1AkAC0G4j8UAQTRB7I/FABDnCAALQYyOxQBB5QBB9I7FABDnCAALA0AgBEUNASACIAAtAAAiASAMbDoAACACQQFqQX9BACABIAotAABHGzoAACAEQQJrIQQgAkECaiECIABBAWoiACAORw0ACwsLrg0DDX8EfgF7IAAoAgwiCiABaiIBIApPBEACQAJAAkACQCAAKAIEIgggCEEBaiIJQQN2IgNBB2wiDSAIQQhJGyIFQQF2IAFJBEACfyAFQQFqIgMgASABIANJGyIBQQ9PBEAgAUH/////AUsNBkF/IAFBA3RBB25BAWtndkEBagwBC0EEIAFBCHFBCGogAUEESRsLIgGtQhR+IhBCIIinDQQgEKdBB2pBeHEiBSABQQhqIgRqIgMgBUkgA0H4////B0tyDQQgAxBxIgZFBEAgAxDoCQALIAUgBmohBiAEBEAgBkH/ASAE/AsACyABQQFrIgkgAUEDdkEHbCAJQQhJGyELIAAoAgAhBAJAIApFBEBBACEKDAELIAZBCGohDCAEQRRrIQ0gBCkDAEJ/hUKAgYKEiJCgwIB/gyEQIAIpAwghEiACKQMAIRNBACEBIAohAiAEIQUDQCAQUARAA0AgAUEIaiEBIAVBCGoiBSkDAEKAgYKEiJCgwIB/gyIQQoCBgoSIkKDAgH9RDQALIBBCgIGChIiQoMCAf4UhEAsgBiAJIBMgEiANIBB6p0EDdiABaiIOQWxsaiIDQQRqKAIAIANBCGooAgAQkQSnIg9xIgNqKQAAQoCBgoSIkKDAgH+DIhFQBEBBCCEHA0AgAyAHaiEDIAdBCGohByAGIAMgCXEiA2opAABCgIGChIiQoMCAf4MiEVANAAsLIBBCAX0gEIMhECAGIBF6p0EDdiADaiAJcSIDaiwAAEEATgRAIAYpAwBCgIGChIiQoMCAf4N6p0EDdiEDCyADIAZqIA9BGXYiBzoAACAMIANBCGsgCXFqIAc6AAAgBiADQX9zQRRsaiIDQRBqIAQgDkF/c0EUbGoiB0EQaigAADYAACADIAf9AAAA/QsAACACQQFrIgINAAsLIAAgCTYCBCAAIAY2AgAgACALIAprNgIIIAhFDQEgCCAIQRRsQRtqQXhxIgFqQQlqIgBFDQEgBCABayIBQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyAAakkNAyACQQAgAyAAQSdqSxsNAiABEJ8CDwsgACAJBH8gACgCACEAAkACQCADIAlBB3FBAEdqIgRBAkkEQCAEIQUMAQsgBEEBcSEFIARB/v///wNxIgZBA3QhByAGIQMgACEBA0AgASAB/QADACIU/U1BB/3NAf0MAQEBAQEBAQEBAQEBAQEBAf1OIBT9DH9/f39/f39/f39/f39/f3/9UP3OAf0LAwAgAUEQaiEBIANBAmsiAw0ACyAEIAZGDQELIAAgB2ohAQNAIAEgASkDACIQQn+FQgeIQoGChIiQoMCAAYMgEEL//v379+/fv/8AhHw3AwAgAUEIaiEBIAVBAWsiBQ0ACwsCQCAJQQhPBEAgACAJaiAAKQAANwAADAELIAlFDQAgAEEIaiAAIAn8CgAACyAAQQhqIQYgAikDCCERIAIpAwAhEkEBIQNBACEBA0AgASEFIAMhAQJAIAAgBWoiCy0AAEGAAUcNACAAIAVBf3NBFGxqIQQgACAFQWxsaiICQQxrIQ4gAkEQayEPAkADQCAIIBIgESAPKAIAIA4oAgAQkQSnIgxxIgchAiAAIAdqKQAAQoCBgoSIkKDAgH+DIhBQBEBBCCEDA0AgAiADaiECIANBCGohAyAAIAIgCHEiAmopAABCgIGChIiQoMCAf4MiEFANAAsLIAAgEHqnQQN2IAJqIAhxIgJqLAAAQQBOBEAgACkDAEKAgYKEiJCgwIB/g3qnQQN2IQILIAIgB2sgBSAHa3MgCHFBCEkNASAAIAJqIgMtAAAgAyAMQRl2IgM6AAAgBiACQQhrIAhxaiADOgAAIAAgAkF/c0EUbGohAkH/AUcEQCAEKAAAIQMgBCACKAAANgAAIAIgAzYAACACKAAEIQMgAiAEKAAENgAEIAQgAzYABCAEKAAIIQMgBCACKAAINgAIIAIgAzYACCACKAAMIQMgAiAEKAAMNgAMIAQgAzYADCAEKAAQIQMgBCACKAAQNgAQIAIgAzYAEAwBCwsgC0H/AToAACAGIAggBUEIa3FqQf8BOgAAIAJBEGogBEEQaigAADYAACACIAT9AAAA/QsAAAwBCyALIAxBGXYiAjoAACAGIAggBUEIa3FqIAI6AAALIAEgASAJSSICaiEDIAINAAsgCCANIAhBCEkbBUEACyAKazYCCAsPC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAsLQZC5xABBOUGsucQAENsHAAuoDgICfQR/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAkUgACgCXEECSXJFBEBDAAD+QkMAAP5CIAAqAlCVIAAtAFhBAkYbIQYgACgCKCABQQ9saiEJQQ4gBCAEQQ5NG0EPbkEPbCEKIAAoAiwhCEEAIQADQCABIAhPDRAgACAETw0RIAAgCWoiB0H/AEMAAP5CQwAA/sIgBiADKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQnQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEBaiAETw0PIAdBAWpB/wBDAAD+QkMAAP7CIAYgA0EEaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bEJ0HIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBAmogBE8NDiAHQQJqQf8AQwAA/kJDAAD+wiAGIANBCGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxCdByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQNqIARPDQ0gB0EDakH/AEMAAP5CQwAA/sIgBiADQQxqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQnQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEEaiAETw0MIAdBBGpB/wBDAAD+QkMAAP7CIAYgA0EQaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bEJ0HIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBBWogBE8NCyAHQQVqQf8AQwAA/kJDAAD+wiAGIANBFGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxCdByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQZqIARPDQogB0EGakH/AEMAAP5CQwAA/sIgBiADQRhqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQnQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEHaiAETw0JIAdBB2pB/wBDAAD+QkMAAP7CIAYgA0EcaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bEJ0HIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBCGogBE8NCCAHQQhqQf8AQwAA/kJDAAD+wiAGIANBIGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxCdByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQlqIARPDQcgB0EJakH/AEMAAP5CQwAA/sIgBiADQSRqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQnQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEKaiAETw0GIAdBCmpB/wBDAAD+QkMAAP7CIAYgA0EoaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bEJ0HIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBC2ogBE8NBSAHQQtqQf8AQwAA/kJDAAD+wiAGIANBLGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxCdByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQxqIARPDQQgB0EMakH/AEMAAP5CQwAA/sIgBiADQTBqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQnQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEENaiAETw0DIAdBDWpB/wBDAAD+QkMAAP7CIAYgA0E0aioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bEJ0HIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIAAgCkYNAiAHQQ5qQf8AQwAA/kJDAAD+wiAGIANBOGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxCdByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACADQTxqIQMgAUEBaiEBIABBD2ohACACQQFrIgINAAsLDwsgAEEOaiEADA4LIABBDWohAAwNCyAAQQxqIQAMDAsgAEELaiEADAsLIABBCmohAAwKCyAAQQlqIQAMCQsgAEEIaiEADAgLIABBB2ohAAwHCyAAQQZqIQAMBgsgAEEFaiEADAULIABBBGohAAwECyAAQQNqIQAMAwsgAEECaiEADAILIABBAWohAAwBCyAAIARPDQAgASAIQZSmxwAQrgcACyAAIARBhKbHABCuBwALzAwCFn8BeyABQeTRAGohEiABQYAEaiETIAFBgM8AaiEUIAFBoNEAaiEVIAFBgDZqIRYgAUHt0QBqIRcjAEHwAGsiC0EwaiEYIAEtAOtRIQQgC0EYaiERAn8CQANAQaACIQUgFCEPAkACQAJAAkACQAJAIARB/wFxIgkOAwEAAgQLQSAhBSAVIQ8LIBH9DAAAAAAAAAAAAAAAAAAAAAAiGf0LAwAgCyAZ/QsDCEEAIQYgC0EsakEAQcQA/AsAIAEgCUGAGWwiBGohAyAEIBNqIQ0DQCADIAZqIgRBsARq/QweAx4DHgMeAx4DHgMeAx4DIhn9CwIAIARBoARqIBn9CwIAIARBkARqIBn9CwIAIARBgARqIBn9CwIAIAZBQGsiBkGAEEcNAAsgDUGAEGpBAEGACfwLAAwBCyAR/QwAAAAAAAAAAAAAAAAAAAAAIhn9CwMAIAsgGf0LAwhBACEGIAtBLGpBAEHEAPwLAANAIAEgBmoiA0GwNmr9DB4DHgMeAx4DHgMeAx4DHgMiGf0LAgAgA0GgNmogGf0LAgAgA0GQNmogGf0LAgAgA0GANmogGf0LAgAgBkFAayIGQYAQRw0AC0ETIQUgFyEPIBYhDQtBHCEHQQMgEiAJQQF0ai8BACIQIAVLDQQaIBBFDQEgECEGIA8hBANAQQMgBC0AACIDQQ9LDQUaIAtBCGogA0EBdGoiAyADLwEAQQFqOwEAIARBAWohBCAGQQFrIgYNAAsMAQtBAwwDC0EAIQRBASEDQQAhBkEAIQoDQAJAAn8gA0UEQCAEQQ9LDQIgBEEBagwBCyAEQRAgBGsiBSADIAMgBUsbIgwgBGoiBSAEIAVLGyIEQQ9LDQEgDCADayEFA0AgBQRAIAVBAWohBSAEQQFqIgRBEEcNAQwDCwtBACEDIARBAWoLIBggBEECdGogBiALQQhqIARBAXRqLwEAIgRqQQF0IgY2AgAgBCAKaiEKIQQMAQsLIAZBgIAERwRAQQEgCUECRiAKQf//A3FBAUtyDQMaCyANQYAQaiEOQQAhDEH//wMhBwNAIAwgEEkEQCAMQQFqIQQDQCAMIQogBCEMAkAgCiAPai0AAEEPcSIIRQ0AIAtBLGogCEECdGoiAyADKAIAIgNBAWo2AgACfyADQX9BICAIa3ZxIgNBgARPBEAgA0EIdCADQYD+A3FBCHZyIgNBBHZBjx5xIANBjx5xQQR0ciIDQQJ2QbPmAHEgA0Gz5gBxQQJ0ciIDQQF2QdWqAXEgA0HVqgFxQQF0cgwBCyADQQF0LwHY+EQLQf//A3FBECAIa3YhBiAIQQpNBEAgBkH/B0sNASAIQQl0IApyIQpBASAIdCIFQQF0IQMgDSAGQQF0aiEEA0AgBCAKOwEAIAMgBGohBCAFIAZqIgZBgAhJDQALDAELIA0gBkH/B3FBAXRqIgMvAQAiBUGeBkcEfyAHBSADIAc7AQAgByIFQQJrCyEDAkAgCEELRgRAIAZBCXYhCQwBC0EKIQdBAyAGQQp2IglBAXEgBUF/c2pB//8DcSIEQb8ESw0HGiAOIARBAXRqIgQvAQAiBQR/IAMFIAQgAzsBACADIQUgA0ECawshBCAIQQ1JBEAgBCEDDAELQQMgBkELdiIJQQFxIAVBf3NqQf//A3EiA0G/BEsNBxogDiADQQF0aiIDLwEAIgUEfyAEBSADIAQ7AQAgBCEFIARBAmsLIQMgCEENRg0AQQMgBkEMdiIJQQFxIAVBf3NqQf//A3EiBEG/BEsNBxogDiAEQQF0aiIELwEAIgUEfyADBSAEIAM7AQAgAyEFIANBAmsLIQQgCEEPRwRAIAQhAwwBC0EDIAZBDXYiCUEBcSAFQX9zakH//wNxIgNBvwRLDQcaIA4gA0EBdGoiAy8BACIFBEAgBCEDDAELIAMgBDsBACAEQQJrIQMgBCEFCyAJQQF2QQFxIAVBf3NqQf//A3EiBEG/BEsEQEEKIQdBAwwHCyAOIARBAXRqIAo7AQAgAyEHDAMLIAwgDCAQSSIDaiEEIAMNAAsLCwJAAkAgAS0A61EiAw4DAQADAAsgASADQQFrIgQ6AOtRDAELCyACQQA2AgxBDCEHQQEMAQsgAkEANgIMQQohB0EBCyEEIAAgBzoAASAAIAQ6AAALsQ8CDH8DfiMAQTBrIgIkAAJAAkACQAJ/AkACQAJAAkBBFSABKAIAIgRBgICAgHhzIARBAE4bQRRrDgIBAgALIAEgAkEvakHwh8EAEI8IIQEgAEGAgICAeDYCACAAIAE2AgQMBAsCQAJAAkAgASgCDCIDBEACQCABKAIIIgQoAgBBlICAgHhGBEACQCAEKAIMIgEEQCACQRxqIAQoAggQvQMgAigCHCIFQYCAgIB4Rw0BIAIoAiAhBAwFC0EAIAJBL2pBoIfBABD9BiEEDAQLIAIoAiAhByABQQFGDQEgAkEBNgIcIAFBAWtB/////wBxQQFqIAJBHGpB0LXBABD9BiEEIAVFDQMgByAFQQEQiAcMAwsgBCACQS9qQaCHwQAQjwghBAwCCyADQQFGDQUgAigCJCEGIAJBHGoiCCAEQRBqENgCIAIoAiAiASACKAIcDQYaIANBAkYNAiACKQIkIQ4gCCAEQSBqENgCIAIoAiAhBCACKAIcRQ0DIAQMBgtBAEGsocEAQeidwQAQ/QYhBAsgAEGAgICAeDYCACAAIAQ2AgQMBQtBAkGsocEAQeidwQAQ/QYMAwsgACACKQIkNwIcIAAgBDYCGCAAIA43AhAgACABNgIMIAAgBjYCCCAAIAc2AgQgACAFNgIAIANBA0YNAyACQQM2AhwgA0H9////AGpB/////wBxQQNqIAJBHGpB0LXBABD9BiEBIABBgICAgHg2AgAgACABNgIEIAVFDQMgByAFQQEQiAcMAwsgASgCBCEEIAEoAgghASACQQA2AhggAiAEIAFBBXRqIgs2AhACQAJAAkACQCABRQ0AQYCAgIB4IQYDQCACIARBIGoiATYCDCACIAIoAhhBAWo2AhggAiAEQRBqIgw2AhQCQAJAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkBBFSAEKAIAIgNBgICAgHhzIANBAE4bQQFrDg8AEBABEBAQEBAQEAIDBAUQCyAELQAEDgMLBQcSCyAEKQMIIg5CAlYNESAOp0EBaw4CBAYKCyAEKAIIIQMCQCAEKAIMQQRrDgIACRELIAMoAABB7dK5mwdGDQMgAygAAEHtwuGbB0YNBQwQCyAEKAIEIQMCQCAEKAIIQQRrDgIABxALIAMoAABB7dK5mwdGDQIgAygAAEHtwuGbB0YNBAwPCyAEKAIIIQMCQAJAIAQoAgxBBGsOAgABEAsgAy0AAEHtAEcNDwJAAkAgAy0AAUHhAGsOCQERERERERERABELIAMtAAJB7gBHDRAgAy0AA0HzAEYNAwwQCyADLQACQfgARw0PIAMtAANB8wBGDQQMDwsgAy0AAEHmAEcNDiADLQABQekARw0OIAMtAAJB7ABHDQ4gAy0AA0HlAEcNDiADLQAEQfMARw0ODAcLIAQoAgQhAwJAIAQoAghBBGsOAgAEDgsgAy0AAEHtAEcNDQJAIAMtAAFB4QBrDgkCDg4ODg4ODgAOCyADLQACQe4ARw0NIAMtAANB8wBHDQ0LIAoNBiACQQA2AhQgAkEcaiAMENgCIAIoAiAiBSACKAIcDQsaIAIpAiQhD0EBIQoMDQsgAy0AAkH4AEcNCyADLQADQfMARw0LCyAJDQUgAkEANgIUIAJBHGogDBDYAiACKAIgIQcgAigCHEUNBiAHDAkLIAMtAABB5gBHDQkgAy0AAUHpAEcNCSADLQACQewARw0JIAMtAANB5QBHDQkgAy0ABEHzAEcNCQwCCyADQfidwQBBBRC7B0UNAQwICyADQfidwQBBBRC7Bw0HCyAGQYCAgIB4Rw0EIAJBHGogAkEMahCpBSACKAIgIQggAigCHCIGQYCAgIB4RgRAIABBgICAgHg2AgAgACAINgIEDBALIAIoAiQhDSACKAIQIQsgAigCDCEBDAcLQf2dwQBBBBDNBwwEC0GBnsEAQQQQzQcMAwsgAikCJCEQQQEhCQwECyAEIAJBL2pBkInBABCPCAwBC0H4ncEAQQUQzQcLIQUgAEGAgICAeDYCACAAIAU2AgQgBkGAgICAeHJBgICAgHhGDQkCQCAIQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyAGak8EQCAAQQAgASAGQSdqSxsNASAIEJ8CDAsLQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyACQQA2AhQLIAsgASIERw0ACyAGQYCAgIB4Rg0AIApFDQEgCQ0DIABBgZ7BAEEEEMoHNgIEDAILQfidwQBBBRDKByEBIABBgICAgHg2AgAgACABNgIEDAULIABB/Z3BAEEEEMoHNgIECyAAQYCAgIB4NgIAIAZFDQMgCCAGQQEQiAcMAwsgACAQNwIcIAAgBzYCGCAAIA83AhAgACAFNgIMIAAgDTYCCCAAIAg2AgQgACAGNgIADAILQQFBrKHBAEHoncEAEP0GCyEBIABBgICAgHg2AgAgACABNgIEIAVFDQAgB0EEaygCACIAQXhxIgFBBEEIIABBA3EiABsgBWpJDQEgAEEAIAEgBUEnaksbDQIgBxCfAgsgAkEwaiQADwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALwQwCC38FfUMAAIA/IQ8CfwJAIAEoAgAiCCACQQRqKAIAIgUoAggiB0kEQCABQQRrIgsoAgAhASAFKAIEIgkgCEEYbGoiAy0AEyIEIAMtABIiBiADLQARIgogBiAKSxsiBiAEIAZLGyIEBH1DAABAwSAFKgJEIAUtAFhBAkYiBhsiDkMAABBBIAUqAkggBhsgDpNDAAB+Q5UgBEEBa0H/AXGzlJIQ7gMiDiAOkgVDAAAAAAshESADQQxqLwEAIgRB//8BcUUNASAEQf8HcSEDIARBgIACcSEGIARBgPgBcSIEQYD4AUcEQCAGQRB0IgYgBEENdEGAgID8AHEgA0ENdHJBgICAwANqciAEDQMaIAMgA2dBEGsiA0H//wNxQQhqdEH///8DcSAGQYCAgNgDciADQRd0a3IMAwsgBkEQdCIEIANBDXRyQYCAgP4HciADDQIaIARBgICA/AdyDAILIAggB0GcnscAEK4HAAsgBEEQdAu+Ig5DAACAP14EQCAOELoFQ1T4LUCUQwAAgD+SkSEPC0MAAIA/IQ4CfwJAIAEgB0kEQCAJIAFBGGxqIgMtABMiBCADLQASIgcgAy0AESIGIAYgB0kbIgcgBCAHSxsiBAR9QwAAQMEgBSoCRCAFLQBYQQJGIgcbIhBDAAAQQSAFKgJIIAcbIBCTQwAAfkOVIARBAWtB/wFxs5SSEO4DIhAgEJIFQwAAAAALIRAgA0EMai8BACIDQf//AXFFDQEgA0H/B3EhBSADQYCAAnEhBCADQYD4AXEiA0GA+AFHBEAgBEEQdCIEIANBDXRBgICA/ABxIAVBDXRyQYCAgMADanIgAw0DGiAFIAVnQRBrIgVB//8DcUEIanRB////A3EgBEGAgIDYA3IgBUEXdGtyDAMLIARBEHQiAyAFQQ10ckGAgID+B3IgBQ0CGiADQYCAgPwHcgwCCyABIAdBnJ7HABCuBwALIANBEHQLviISQwAAgD9eBEAgEhC6BUNU+C1AlEMAAIA/kpEhDgsgESAPlCIPIA9cIA8gECAOlGByRQRAIAJBBGohCSAIQRhsIQoDQAJAIAsiAkEEaiABNgIAIAAgAkYNAEMAAIA/IQ8CfwJAIAkoAgAiBSgCCCIHIAhLBEAgAkEEayILKAIAIQEgBSgCBCIMIApqIgMtABMiBCADLQASIgYgAy0AESINIAYgDUsbIgYgBCAGSxsiBAR9QwAAQMEgBSoCRCAFLQBYQQJGIgYbIg5DAAAQQSAFKgJIIAYbIA6TQwAAfkOVIARBAWtB/wFxs5SSEO4DIg4gDpIFQwAAAAALIREgA0EMai8BACIEQf//AXFFDQEgBEH/B3EhAyAEQYCAAnEhBiAEQYD4AXEiBEGA+AFHBEAgBkEQdCIGIARBDXRBgICA/ABxIANBDXRyQYCAgMADanIgBA0DGiADIANnQRBrIgNB//8DcUEIanRB////A3EgBkGAgIDYA3IgA0EXdGtyDAMLIAZBEHQiBCADQQ10ckGAgID+B3IgAw0CGiAEQYCAgPwHcgwCCyAIIAdBnJ7HABCuBwALIARBEHQLviIOQwAAgD9eBEAgDhC6BUNU+C1AlEMAAIA/kpEhDwtDAACAPyEOAn8CQCABIAdJBEAgDCABQRhsaiIDLQATIgQgAy0AEiIHIAMtABEiBiAGIAdJGyIHIAQgB0sbIgQEfUMAAEDBIAUqAkQgBS0AWEECRiIHGyIQQwAAEEEgBSoCSCAHGyAQk0MAAH5DlSAEQQFrQf8BcbOUkhDuAyIQIBCSBUMAAAAACyEQIANBDGovAQAiA0H//wFxRQ0BIANB/wdxIQUgA0GAgAJxIQQgA0GA+AFxIgNBgPgBRwRAIARBEHQiBCADQQ10QYCAgPwAcSAFQQ10ckGAgIDAA2pyIAMNAxogBSAFZ0EQayIFQf//A3FBCGp0Qf///wNxIARBgICA2ANyIAVBF3RrcgwDCyAEQRB0IgMgBUENdHJBgICA/gdyIAUNAhogA0GAgID8B3IMAgsgASAHQZyexwAQrgcACyADQRB0C74iEkMAAIA/XgRAIBIQugVDVPgtQJRDAACAP5KRIQ4LIBEgD5QiDyAPXA0AIA8gECAOlGBFDQELCyACIAg2AgALC80LAQ5/IwBBIGsiBSQAAkACQAJAAkACQAJ/AkACQAJAAkAgASgCKEECRwRAIAEoAtgBQRxsIQIgASgC1AEhAwJAA0AgAyEGIAJFDQFBsa3HAEEVIANBFGooAgAiBCADQRhqKAIAIgcQuANFBEAgAkEcayECIANBHGohA0HGrccAQRUgBCAHELgDRQ0BCwsgBigCFCEBAkAgBigCGCIJRQRAQQEhDAwBCyAJEHEiDEUNAwsgCQRAIAwgASAJ/AoAAAtBASEEIAYoAgBBAUYEQCAGKAIIIQICQCAGKAIMIgFFBEAMAQsgARBxIgRFDQsLIAEEQCAEIAIgAfwKAAALIAEMBwsgBigCCCEBIAYoAgwiAgRAIAIQcSIERQ0ECyACBEAgBCABIAL8CgAACyAFQRBqIAQgAkGAgIABENkBQQEhBiAFKAIUIQoCQCAFKAIQQQFGBEAgBUEeOgAAIApBgICAgHhHDQEgBUEDOgABIAAgBRDxAwwJCyAFKAIcIQsgBSgCGCEHQQAhAyAFQQA2AhggBUKAgICAEDcCEEEAIQEgCwRAIAVBEGpBACALEKYGIAUoAhghASAHIQgDQCABIQZBAUECIAgsAAAiA0EATiIOGyINIAUoAhAgAWtLBH8gBUEQaiABIA0QpgYgBSgCGAUgBgsgBSgCFCIGaiIPIA4EfyADBSAPIANBvwFxOgABIANBwAFxQQZ2QUByCzoAACAFIAEgDWoiATYCGCAIQQFqIQggC0EBayILDQALIAUoAhAhAwsgAgRAIARBBGsoAgAiCEF4cSILQQRBCCAIQQNxIggbIAJqSQ0MIAhBACALIAJBJ2pLGw0NIAQQnwILIApFDQYgB0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgCmpJDQsgAkEAIAQgCkEnaksbDQwgBxCfAgwGCyAFQQQ6AAEgCgRAIAUoAhgiAUEEaygCACIDQXhxIgZBBEEIIANBA3EiAxsgCmpJDQsgA0EAIAYgCkEnaksbDQwgARCfAgsgACAFEPEDDAcLIAEoAswBQRhsIQIgASgCyAEhAwJAA0AgAyEBIAJFDQFBsa3HAEEVIAFBBGooAgAiBCABQQhqKAIAIgYQuANFBEAgAkEYayECIAFBGGohA0HGrccAQRUgBCAGELgDRQ0BCwsgASgCBCEEAkAgASgCCCICRQRAQQEhAwwBCyACEHEiA0UNBQsgAgRAIAMgBCAC/AoAAAsgASgCECEGAkAgASgCFCIBRQRAQQEhBAwBCyABEHEiBEUNCgsgAQRAIAQgBiAB/AoAAAsgACABNgIMIAAgBDYCCCAAIAE2AgQgAEEGNgIAIAJFDQggA0EEaygCACIAQXhxIgFBBEEIIABBA3EiABsgAmpJDQogAEEAIAEgAkEnaksbDQsgAxCfAgwICyAAQoaAgICAgICAgH83AwAMBwtBlP3GABDQCQALQQEgCRDhCAALQQEgAhDhCAALQQEgAhDhCAALIAYhBCADCyECAkAgAUUEQEEBIQYgAUUiA0UEQEEBIAQgAfwKAAALIAMNAUEBQQEgAfwKAAAMAQsgARBxIgNFDQMgAUUiB0UEQCADIAQgAfwKAAALIAEQcSIGRQ0DIAdFBEAgBiADIAH8CgAACyADQQRrKAIAIgdBeHEiCEEEQQggB0EDcSIHGyABakkNBCAHQQAgCCABQSdqSxsNBSADEJ8CCyAAIAE2AgwgACAGNgIIIAAgATYCBCAAQQY2AgALIAkEQCAMQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyAJakkNAyAAQQAgASAJQSdqSxsNBCAMEJ8CCyACRQ0AIARBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIAJqSQ0CIABBACABIAJBJ2pLGw0DIAQQnwIMAAsgBUEgaiQADwtBASABEOEIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL8AwDDn8EfgF7IAAoAgwiCkEBaiIDBEACQAJAAkACQCAAKAIEIgggCEEBaiIJQQN2IgJBB2wiDSAIQQhJGyIFQQF2IANJBEACfyAFQQFqIgIgAyACIANLGyIDQQ9PBEAgA0H/////AUsNBkF/IANBA3RBB25BAWtndkEBagwBC0EEIANBCHFBCGogA0EESRsLIgOtQhh+IhBCIIinDQQgEKciBSADQQhqIgRqIgIgBUkgAkH4////B0tyDQQgAhBxIgZFBEAgAhDoCQALIAUgBmohBiAEBEAgBkH/ASAE/AsACyADQQFrIgkgA0EDdkEHbCAJQQhJGyELIAAoAgAhBAJAIApFBEBBACEKDAELIAZBCGohDCAEQRhrIQ0gBCkDAEJ/hUKAgYKEiJCgwIB/gyEQIAEpAwghEiABKQMAIRNBACEDIAohASAEIQUDQCAQUARAA0AgA0EIaiEDIAVBCGoiBSkDAEKAgYKEiJCgwIB/gyIQQoCBgoSIkKDAgH9RDQALIBBCgIGChIiQoMCAf4UhEAsgBiAJIBMgEiANIBB6p0EDdiADaiIOQWhsahDzA6ciD3EiAmopAABCgIGChIiQoMCAf4MiEVAEQEEIIQcDQCACIAdqIQIgB0EIaiEHIAYgAiAJcSICaikAAEKAgYKEiJCgwIB/gyIRUA0ACwsgEEIBfSAQgyEQIAYgEXqnQQN2IAJqIAlxIgJqLAAAQQBOBEAgBikDAEKAgYKEiJCgwIB/g3qnQQN2IQILIAIgBmogD0EZdiIHOgAAIAwgAkEIayAJcWogBzoAACAGIAJBf3NBGGxqIgJBEGogBCAOQX9zQRhsaiIHQRBqKQAANwAAIAIgB/0AAAD9CwAAIAFBAWsiAQ0ACwsgACAJNgIEIAAgBjYCACAAIAsgCms2AgggCEUNASAIIAhBGGxBH2pBeHEiAWpBCWoiAEUNASAEIAFrIgFBBGsoAgAiA0F4cSICQQRBCCADQQNxIgMbIABqSQ0DIANBACACIABBJ2pLGw0CIAEQnwIPCyAAIAkEfyAAKAIAIQACQAJAIAIgCUEHcUEAR2oiBEECSQRAIAQhBQwBCyAEQQFxIQUgBEH+////A3EiBkEDdCEHIAYhAiAAIQMDQCADIAP9AAMAIhT9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gFP0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACADQRBqIQMgAkECayICDQALIAQgBkYNAQsgACAHaiEDA0AgAyADKQMAIhBCf4VCB4hCgYKEiJCgwIABgyAQQv/+/fv379+//wCEfDcDACADQQhqIQMgBUEBayIFDQALCwJAIAlBCE8EQCAAIAlqIAApAAA3AAAMAQsgCUUNACAAQQhqIAAgCfwKAAALIABBCGohBiAAQRhrIQ4gASkDCCERIAEpAwAhEkEBIQJBACEDA0AgAyEFIAIhAwJAIAAgBWoiCy0AAEGAAUcNACAOIAVBaGxqIQ8gACAFQX9zQRhsaiEEAkADQCAIIBIgESAPEPMDpyIMcSIHIQEgACAHaikAAEKAgYKEiJCgwIB/gyIQUARAQQghAgNAIAEgAmohASACQQhqIQIgACABIAhxIgFqKQAAQoCBgoSIkKDAgH+DIhBQDQALCyAAIBB6p0EDdiABaiAIcSIBaiwAAEEATgRAIAApAwBCgIGChIiQoMCAf4N6p0EDdiEBCyABIAdrIAUgB2tzIAhxQQhJDQEgACABaiICLQAAIAIgDEEZdiICOgAAIAYgAUEIayAIcWogAjoAACAAIAFBf3NBGGxqIQFB/wFHBEAgBCkAACEQIAQgASkAADcAACABIBA3AAAgASkACCEQIAEgBCkACDcACCAEIBA3AAggBCgAECECIAQgASgAEDYAECABKAAUIQcgASAEKAAUNgAUIAQgBzYAFCABIAI2ABAMAQsLIAtB/wE6AAAgBiAIIAVBCGtxakH/AToAACABQRBqIARBEGopAAA3AAAgASAE/QAAAP0LAAAMAQsgCyAMQRl2IgE6AAAgBiAIIAVBCGtxaiABOgAACyADIAMgCUkiAWohAiABDQALIAggDSAIQQhJGwVBAAsgCms2AggLDwtBgODHAEEuQbDgxwAQ5wgAC0HA38cAQS5B8N/HABDnCAALC0GQucQAQTlBrLnEABDbBwALqBADB38BfgF7IwBBMGsiAyQAAkACQCAAKAIAIgZFBEAgACgCECIARQ0BIABBt57FAEEBEJgDIQQMAgsgACAAKAIMQQFqIgQ2AgwCQAJAAkACQAJAAkAgBEH0A00EQAJAAkACQAJAIAAoAggiAiAAKAIEIghPBEAgACgCECIBRQ0BIAFBjp7FAEEQEJgDRQ0BDAsLQQEhBCAAIAJBAWoiBzYCCAJAAkACQAJAAkACQCACIAZqLQAAIgVByQBrDgYCAQEBCAUACwJAIAVBwgBrDgIDBAALIAVB2ABrDgIHCwALIAAoAhAiAUUNBCABQY6exQBBEBCYA0UNBAwQCyAAIAEQzAENDyABDQYMCwsjAEEgayICJAACQAJAIAAoAgBFBEAgACgCECIBRQ0BIAFBt57FAEEBEJgDIQEMAgsgAiAAEJkGIAIoAgBFBEAgACgCECIFBEBBASEBIAVBnp7FAEGOnsUAIAItAARBAXEiBRtBGUEQIAUbEJgDDQMLIAAgAv0AAgD9CwIADAELIAAoAhBFDQAgAP0AAgAhCiAAIAL9AAIA/QsCACACIAr9CwMQIAAgAUEBcRDMASEBIAAgAv0AAxD9CwIADAELQQAhAQsgAkEgaiQAIAFFDQsMDgsgA0EgaiAAQfMAEJYGIAMtACBBAUYEQCADLQAhIQEgACgCECICBEAgAkGensUAQY6exQAgAUEBcSICG0EZQRAgAhsQmAMNDwsgACABOgAEDAkLIAAoAgBFBEAgACgCECIARQ0NIABBt57FAEEBEJgDIQQMDgsgAykDKCEJIANBIGogABDrAiADKAIgRQRAIAMtACQhASAAKAIQIgIEQCACQZ6exQBBjp7FACABQQFxIgIbQRlBECACGxCYAw0PCyAAIAE6AAQMCQsgAyAD/QACIP0LAwAgACgCECIBRQ0KIAMgARCJAg0LIAAoAhAiAUUgCVByDQogASgCCEGAgIAEcQ0KIAEoAgBBjJ7FAEEBIAEoAgQoAgwRAAANDSAAKAIQIwBBEGsiAiQAQREhAQNAIAEgAmpBAmsgCadBD3EtALSiRToAACABQQFrIQEgCUIPViAJQgSIIQkNAAtBAUGun8UAQQIgASACakEBa0ERIAFrEMMDIAJBEGokAA0NIAAoAhAiASgCAEGNnsUAQQEgASgCBCgCDBEAAA0NDAoLIAcgCEkEQCAAIAJBAmo2AgggBiAHai0AACICQcEAa0H/AXFBGkkNAiACQeEAa0GAgMQAIQJB/wFxQRpJDQILIAAoAhAiAUUNACABQY6exQBBEBCYAw0KC0EAIQQgAEEAOgAEIABBADYCAAwLC0EBIQQgACABEMwBDQoCQCAAKAIADQAgACgCECIBRQ0KIAFBuJ7FAEECEJgDDQsgACgCAA0AQQAhBCAAKAIQIgBFDQsgAEG3nsUAQQEQmAMhBAwLCyADQSBqIABB8wAQlgYgAy0AIEEBRgRAIAMtACEhASAAKAIQIgIEQCACQZ6exQBBjp7FACABQQFxIgIbQRlBECACGxCYAw0MCyAAIAE6AAQMBgsgACgCAEUEQCAAKAIQIgBFDQogAEG3nsUAQQEQmAMhBAwLCyADKQMoIQkgA0EgaiAAEOsCIAMoAiBFBEAgAy0AJCEBIAAoAhAiAgRAIAJBnp7FAEGOnsUAIAFBAXEiAhtBGUEQIAIbEJgDDQwLIAAgAToABAwGCyADIAP9AAIg/QsDEAJAAkACQCACQYCAxABHBEAgACgCECIBBEAgAUG6nsUAQQMQmAMNDQsgAkHDAEYNASACQdMARg0CIAMgAjYCICAAKAIQIgFFDQMgA0EgaiABEJ8FDQwMAwsgAygCFCADKAIcckUNCiAAKAIQIgFFDQogAUG4nsUAQQIQmAMNDSAAKAIQIgFFDQogA0EQaiABEIkCRQ0KDA0LIAAoAhAiAUUNASABQb2exQBBBxCYAw0KDAELIAAoAhAiAUUNACABQcSexQBBBBCYAw0JCyAAKAIQIQIgAygCFCADKAIccgRAIAJFDQggAkHInsUAQQEQmAMNCyAAKAIQIgFFDQggA0EQaiABEIkCDQsgACgCECECCyACRQ0HIAJByZ7FAEEBEJgDDQogACgCECEBIAMgCTcDICABRQ0HIANBIGogARDTBw0KIAAoAhAiAUUNByABQcqexQBBARCYA0UNBwwKCyADQSBqIABB8wAQlgYgAy0AIEEBRw0CIAMtACEhASAAKAIQIgIEQCACQZ6exQBBjp7FACABQQFxIgIbQRlBECACGxCYAw0KCyAAIAE6AAQMBAsgACgCECIBRQ0EIAFBuJ7FAEECEJgDRQ0EDAgLIAAoAhAiAQRAIAFBnp7FAEEZEJgDDQYLIABBAToABAwCCyMAQRBrIgEkACAAKAIQIQIgAEEANgIQIABBABDMAQRAQdCfxQBBPSABQQ9qQcCfxQBBkKDFABCJBwALIAAgAjYCECABQRBqJAALIAAoAhAiAQRAIAFBy57FAEEBEJgDDQYLIAAQgwINAyAFQc0ARwRAIAAoAhAiAQRAIAFBzJ7FAEEEEJgDDQULIABBABDMAQ0GCyAAKAIQIgFFDQIgAUHQnsUAQQEQmANFDQIMBQtBACEEIABBADYCAAwECyAAKAIQIgEEQCABQcuexQBBARCYAw0ECyAAEOgEDQMgACgCECIBRQ0AIAFB0J7FAEEBEJgDDQMLQQAhBCAAKAIARQ0CIAAgACgCDEEBazYCDAwCC0EBIQQMAQtBACEECyADQTBqJAAgBAuFHgIUfwJ+IwBB4ABrIggkACABQUBrIQoCQAJAIAEtAGAiB0EHSw0AIAhB0ABqIAoQjAICQCAILQBQIgdBHUYEQCABLQBgIgdBCE8NAkEPIQcMAQsgCCAIKQFSNwMAIAggCEHYAGopAQA3AQYgCC0AUSEBCyAAIAE6AAEgACAHOgAAIAAgCCkDADcBAiAAQQhqIAgpAQY3AQAMAQsgASAHQQhrIgc6AGAgASABKQNAIhpCCIgiGzcDQAJAAkACQAJAIBqnIgZB/wFxQS9GBEAgB0H/AXFBDUsNBCAIQdAAaiAKEIwCIAgtAFAiB0EdRw0BIAEtAGAiB0EOTw0DQQ8hBwwCCyAAIAY6AAEgAEELOgAADAQLIAhBGGogCEHcAGooAgA2AgAgCCAIKQJUNwMQIAgvAVIhASAILQBRIQoLIAAgATsBAiAAIAo6AAEgACAHOgAAIAAgCCkDEDcCBCAAQQxqIAhBGGooAgA2AgAMAgsgCikDACEbCyABIAdBDmsiBzoAYCABIBtCDogiGjcDQCABIBunQf//AHFBAWoiCTsBdCAHQf8BcUENTQRAIAhB0ABqIAoQjAICQAJAIAgtAFAiB0EdRgRAIAEtAGAiB0EOTw0CQQ8hBwwBCyAIQShqIAhB3ABqKAIANgIAIAggCCkCVDcDICAILwFSIQEgCC0AUSEKCyAAIAE7AQIgACAKOgABIAAgBzoAACAAIAgpAyA3AgQgAEEMaiAIQShqKAIANgIADAILIAEpA0AhGiABLwF0IQkLIAEgB0EOayIHOgBgIAEgGkIOiCIbNwNAIAEgGqdB//8AcUEBaiIGOwF2AkAgAiAJQf//A3FHIAMgBkdyRQRAIAdB/wFxRQRAIAhB0ABqIAoQjAICQAJAIAgtAFAiB0EdRgRAIAEtAGAiBw0CQQ8hBwwBCyAIIAgpAVI3AzAgCCAIQdgAaikBADcBNiAILQBRIQELIAAgAToAASAAIAc6AAAgACAIKQMwNwECIABBCGogCCkBNjcBAAwECyAKKQMAIRsLIAEgB0EBayICOgBgIAEgG0IBiCIaNwNAAkACQCAHQf8BcUEDTQRAIAhB0ABqIAoQjAIgCC0AUCIHQR1HDQEgAS0AYCICQQNJBEBBDyEHDAMLIAopAwAhGgsgASACQQNrOgBgIAEgGkIDiDcDQCAap0EHcSICRQ0DIAAgAjoAASAAQQw6AAAMBAsgCCAIKQFSNwNAIAggCEHYAGopAQA3AUYgCC0AUSEBCyAAIAgpA0A3AQIgAEEIaiAIKQFGNwEAIAAgAToAASAAIAc6AAAMAgsgAEEXOgAADAELIAhB0ABqIQtBACEHIwBB4ABrIgYkACABIgNBQGshESADLwF0IRIgA0HoAGohGQJAAkACQAJAAkADQAJAIAMtAGAiCQ0AIAZBzABqIBEQjAIgCwJ/IAYtAEwiCUEdRgRAIAMtAGAiCQ0CQQ8hCUEBDAELIAYgBikBTjcDACAGIAZB1ABqKQEANwEGIAYtAE0LOgABIAsgCToAACALIAYpAwA3AQIgC0EIaiAGKQEGNwEADAILIAMgCUEBayICOgBgIAMgAykDQCIbQgGIIho3A0AgG6dBAXFFBEAgC0EdOgAAIAsgEjsBAgwCCyAJQQJNBEAgBkHMAGogERCMAgJAAkAgBi0ATCIJQR1GBEAgAy0AYCICQQJPDQJBDyEJDAELIAYgBikBTjcDECAGIAZB1ABqKQEANwEWIAYtAE0hEAsgCyAQOgABIAsgCToAACALIAYpAxA3AQIgC0EIaiAGKQEWNwEADAMLIBEpAwAhGgsgAyACQQJrOgBgIAMgGkICiDcDQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAMgGqdBA3EiEEEEdGoiDS0AAEEERgRAIAMoAnAiAiADKAJoRgRAIBkQ9wYLIAMoAmwgAmogEDoAACADIAJBAWo2AnAgEEEBaw4DAg0DAQsgC0EQOgAADA4LIAMtAGAiCUECSw0EIAZBzABqIBEQjAIgBi0ATCIJQR1HDQIgAy0AYCIJQQNPDQRBDyEJDAMLIAMtAGAiCUECSw0GIAZBzABqIBEQjAIgBi0ATCIJQR1HDQQgAy0AYCIJQQNPDQZBDyEJDAULIAMtAGAiCUEHSw0IIAZBzABqIBEQjAIgBi0ATCIJQR1HDQYgAy0AYCIJQQhPDQhBDyEJDAcLIAYgBikBTjcDICAGIAZB1ABqKQEANwEmIAYtAE0hFwsgCyAXOgABIAsgCToAACALIAYpAyA3AQIgC0EIaiAGKQEmNwEADAkLIAMgCUEDazoAYCADIAMpA0AiGkIDiDcDQEF/IBqnQQdxIhdBAmoiD3RBf3MiAiASQf//A3FqIA92IgogAiADLwF2aiAPdiIJbCICQQJ0IQwCQCACRQRAQQEhBwwBCyAMEHEiB0UNCiAHQQRrLQAAQQNxRSAMRXINACAHQQAgDPwLAAsgBkHMAGogAyAKIAlBACAHIAwQOiAGLQBMIgpBHUYNBiALIAYpAE03AAEgC0EIaiAGQdQAaikAADcAACALIAo6AAAgAkUNCCAHQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyAMakkNCiACQQAgAyAMQSdqSxsNCyAHEJ8CDAgLIAYgBikBTjcDMCAGIAZB1ABqKQEANwE2IAYtAE0hGAsgCyAYOgABIAsgCToAACALIAYpAzA3AQIgC0EIaiAGKQE2NwEADAYLIAMgCUEDazoAYCADIAMpA0AiGkIDiDcDQEF/IBqnQQdxIhhBAmoiD3RBf3MiAiASQf//A3FqIA92IgogAiADLwF2aiAPdiIJbCICQQJ0IQwCQCACRQRAQQEhBwwBCyAMEHEiB0UNByAHQQRrLQAAQQNxRSAMRXINACAHQQAgDPwLAAsgBkHMAGogAyAKIAlBACAHIAwQOiAGLQBMIgpBHUYNAyALIAYpAE03AAEgC0EIaiAGQdQAaikAADcAACALIAo6AAAgAkUNBSAHQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyAMakkNByACQQAgAyAMQSdqSxsNCCAHEJ8CDAULIAZByABqIAZB2ABqKAIANgIAIAYgBikCUDcDQCAGLwFOIQ4gBi0ATSEDCyALIA47AQIgCyADOgABIAsgCToAACALIAYpA0A3AgQgC0EMaiAGQcgAaigCADYCAAwDCyADIAlBCGs6AGAgAyADKQNAIhpCCIg3A0AgGqciAkH/AXEiDkEBaiITQQJ0IgwQcSIHRQ0DIAdBBGsiFC0AAEEDcUUgDEVyRQRAIAdBACAM/AsACyAGQcwAaiADIBNBAUEAIAcgDBA6IAYtAEwiCkEdRwRAIAsgBikATTcAASALQQhqIAZB1ABqKQAANwAAIAsgCjoAACAUKAIAIgJBeHEiA0EEQQggAkEDcSICGyAMakkNBSACQQAgAyAMQSdqSxsNBiAHEJ8CDAMLAkAgEkH//wNxQQECf0EDIA5BAkkNABpBAiAOQQRJDQAaIA5BEEkLIgp0akEBayAKdiISQf//A00EQCAORQRAQQEhE0EAIQ4MAwtBBCEJIAJBAnRB/AdxIhVBAWsiAiAMIAIgDEkbIgJBBE8EQCACQQFqIgpBA3EiCUEEIAkbIgkgAkF/c2ohFiAKIAlrQQRqIQkgByECA0AgAkEEaiIKIAL9XAAAIAr9XAAA/W79WgAAACAKIQIgFkEEaiIWDQALCyAVQQhqIQIgFUEEaiEKA0AgAiAJRg0CIAkgFGoiFUEEaiIWIBUtAAAgFi0AAGo6AAAgCUEBaiIJIApHDQALDAILQYC4yABBKyAGQd8AakGw4MYAQcDgxgAQiQcACyAJQQRrIAxB0ODGABCuBwALAkACQCANLQAAIgJBBEYgAkECRnINACANKAIEIgJFDQAgDSgCCCIKQQRrKAIAIglBeHEiFEEEQQggCUEDcSIJGyACakkNASAJQQAgFCACQSdqSxsNBiAKEJ8CCyANIAw2AgwgDSAHNgIIIA0gDDYCBCANIBM7AQIgDSAPOgABIA0gEDoAAAwBCwsMAgsgBkHgAGokAAwDC0EBIAwQ4QgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsgCC0AUCICQR1HBEAgACAIKQJUNwIEIABBDGogCEHcAGooAgA2AgAgCC0AUSEBIAAgCC8BUjsBAiAAIAE6AAEgACACOgAADAELIAUgCC8BUiILIAEvAXYiAmxBAnQiBk8EQCAIQdAAaiABIAsgAkEBIAQgBhA6IAgtAFAiAkEdRwRAIAAgCCkAUTcAASAAQQhqIAhB2ABqKQAANwAAIAAgAjoAAAwCCyABKAJwIgIEQCAEQQRqIQMgASgCbCIMIAJqIQkDQAJAAkACQAJAAkACQAJAAkAgCUEBayIJLQAAIgJBBEkEQCABIAJBBHRqIgItAABBAWsOBAQFAgEDCyACQQRB0N/GABCuBwALQeDfxgAQ0AkACyAEIAUgAS8BdCILIAEvAXYiByACLwECIAIoAgggAigCDBBSIAcgC2xBAnQhBgwFCyAFIAZJDQMgCEHQAGogBCAGIAsgAS8BdiACLQABIAIoAgggAigCDBBTIAgtAFAiAkEdRg0EIAAgCCkAUTcAASAAQQhqIAhB2ABqKQAANwAAIAAgAjoAAAwICyAFIAZJDQEgBCAGIAsgAi0AASACKAIIIAIoAgwQoQIMAwsgBSAGTwRAIAZB/P///wdxIgpFDQMgBCEHIApBBGsiAkEEcUUEQCAHIActAAEiCiAHLQAAajoAACAHIAogBy0AAmo6AAIgAiEKIAMhBwsgAkUNAwNAIAcgB0EBai0AACICIActAABqOgAAIAdBAmoiDSACIA0tAABqOgAAIAdBBGoiAiAHQQVqLQAAIg0gAi0AAGo6AAAgB0EGaiICIA0gAi0AAGo6AAAgB0EIaiEHIApBCGsiCg0ACwwDC0EAIAYgBUGQ4MYAENUHAAtBACAGIAVBgODGABDVBwALQQAgBiAFQfDfxgAQ1QcACyAJIAxHDQALCyAAQR06AAAMAQtBACAGIAVBoODGABDVBwALIAhB4ABqJAAL8AsCCX8BfSMAQYABayIIJAACfwJAIAAoAggiByABSwRAIAAoAgQgAUEYbGoiBy0AEyIFIActABIiBiAHLQARIgkgBiAJSxsiBiAFIAZLGyIFBH1DAABAwSAAKgJEIAAtAFhBAkYiBhsiDkMAABBBIAAqAkggBhsgDpNDAAB+Q5UgBUEBa0H/AXGzlJIQ7gMiDiAOkgVDAAAAAAshDiAHQQxqLwEAIgVB//8BcUUNASAFQf8HcSEHIAVBgIACcSEGIAVBgPgBcSIFQYD4AUcEQCAGQRB0IgYgBUENdEGAgID8AHEgB0ENdHJBgICAwANqciAFDQMaIAcgB2dBEGsiB0H//wNxQQhqdEH///8DcSAGQYCAgNgDciAHQRd0a3IMAwsgBkEQdCIFIAdBDXRyQYCAgP4HciAHDQIaIAVBgICA/AdyDAILIAEgB0GcnscAEK4HAAsgBUEQdAshBwJAAkACQCAOIAe+Ig5DAACAP14EfSAOELoFQ1T4LUCUQwAAgD+SkQVDAACAPwuUIANdRQRAIAggACgCECIHIAAoAhQiBiABEOICAkAgCCgCJCIFQQlPBEAgCCgCBCIKDQEgCCgCCCIAQQRrKAIAIgFBeHEiAiAFQQJ0IgRBBEEIIAFBA3EiARtqSQ0EIAFBACACIARBJ2pLGw0FIAAQnwIMAwsgBSEKIAVFDQILIAhBKGogAigCCCIJIAkgCmoQiAMgByAGIAEgCCgCTCIKQQhNBH8gCEEsagUgCCgCLCEKIAgoAjALIAoQzgIgCEEEaiIBIQYgBUEJTwRAIAgoAgghBiAIKAIEIQULAkAgBUECSQ0AIAVBFU8EQCAGIAUQuwUMAQsgBkEEaiEHAkAgBUEBcQRAIAchCSAGIQcMAQsgBigCBCIJIAYoAgAiC0kEQCAGIAk2AgAgBiALNgIECyAGQQhqIQkLIAVBAkYNACAGIAVBAnRqIQ0gCUEEaiEMA0AgCSgCACIKIAcoAgAiBUkEQCAJIQsCfwNAIAsgBTYCACAGIAYgB0YNARogByELIAogB0EEayIHKAIAIgVJDQALIAdBBGoLIAo2AgAgCSgCACEKCyAKIAkoAgQiC0sEQCAMIQUDQAJAIAUgCjYCACAGIAVBBGsiB0YEQCAGIQcMAQsgBUEIayEKIAchBSALIAooAgAiCkkNAQsLIAcgCzYCAAsgCUEEaiEHIAxBCGohDCAJQQhqIgkgDUcNAAsLIAgoAiQiBiEFIAZBCU8EQCAIKAIEIQUgCCgCCCEBCyAFBEAgBUECdCEHIAIoAggiBUECdCEGA0AgASgCACEJIAIoAgAgBUYEQCACEOYGCyABQQRqIQEgAigCBCAGaiAJNgIAIAIgBUEBaiIFNgIIIAZBBGohBiAHQQRrIgcNAAsgCCgCJCEGCyAIKAIEIQUgCEHwAGogCEEgaigCADYCACAIQegAaiAIQRhqKQIANwIAIAggCP0AAgj9CwJYIAggBSAGIAZBCEsiARsiBzYCfCAIIAZBACABGzYCdCAIQQAgBSABGzYCVAJAAkAgBwRAIAZBCU8EQCAIKAJYIgchAQNAIAAgASgCACACIAMgBBDOASABQQRqIQEgBUEBayIFDQALDAILIAhB1ABqIQFBACEFA0AgCCAFQQFqIgU2AnggACABKAIAIAIgAyAEEM4BIAFBBGohASAFIAZHDQALDAILIAZBCUkNASAIKAJYIQcLIAdBBGsoAgAiAEF4cSIBIAZBAnQiAkEEQQggAEEDcSIAG2pJDQMgAEEAIAEgAkEnaksbDQQgBxCfAgsgCCgCTCIAQQlJDQEgCCgCMCIBQQRrKAIAIgJBeHEiBCAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIABBJ2pLGw0DIAEQnwIMAQsgBCgCCCIAIAQoAgBGBEAgBBDmBgsgBCgCBCAAQQJ0aiABNgIAIAQgAEEBajYCCAsgCEGAAWokAA8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC84LAhd/AX0jAEEQayIIJAACQAJAAkACQAJAAkACQAJAIAAtALgBQQFHDQAgACgCrAEgACgCsAEiBUECdCAAKAK0ASIGIAVqQQJ0EN4IIQUgBkECdCIGIAAoAmQiB0sNASAAKAJgIQcgCCAFELsKIgs2AgggCCAGNgIMIAYgC0cNByAFIAcgBhDkCSAFQYQISQ0AIAUQhQcLIABCADcCsAEgAEG4AWpBADoAAAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAAoAghBAUcNACAAKAIMIAFBAnQgASACakECdBDeCCELAkAgAkECdCIBIAAoAmQiBk0EQCAAIAE2AmQgACgCYCEHIAEhBQwBCyABIAYiBWsiCSAAKAJcIAVrSwRAIABB3ABqIAUgCUEEQQQQmAYgACgCZCEFCyAAKAJgIgcgBUECdCIMaiEKIAlBAk8EQCABIAZBf3NqQQJ0Ig0EQCAKQQAgDfwLAAsgAkEEdCAGQQJ0ayAHaiAMakEEayEKIAUgCWpBAWshBQsgCkEANgIAIAAgBUEBaiIFNgJkIAEgBUsNEgsgCCALELsKIgY2AgggCCABNgIMIAEgBkcNFiAHIAEgCxDlCSACQQ9sIQwgBEEPbkEPbCENIARBAWtBD25BD2xBD2ohDiAEQQJrQQ9uQQ9sQQ9qIQ8gBEEDa0EPbkEPbEEPaiEQIARBBGtBD25BD2xBD2ohESAEQQVrQQ9uQQ9sQQ9qIRIgBEEGa0EPbkEPbEEPaiETIARBB2tBD25BD2xBD2ohFCAEQQhrQQ9uQQ9sQQ9qIRUgBEEJa0EPbkEPbEEPaiEWIARBCmtBD25BD2xBD2ohFyAEQQtrQQ9uQQ9sQQ9qIRggBEEMa0EPbkEPbEEPaiEZIARBDWtBD25BD2xBD2ohGiAEQQ5rQQ9uQQ9sQQ9qIRtDAAD+QiAAKgKUAZUhHEEAIQFBACEAA0AgASAFTw0TIAFBAWoiAiAFTw0UIAFBAmoiAiAFTw0VIAFBA2oiAiAFTw0WIAAgDkYNECAHQQRqKAIAIQIgB0EMaigCACEJIAdBCGooAgAhBiADIAcoAgAiCsCyIByVOAIAIAAgD0YNDyADQQRqIApBCHbAsiAclTgCACAAIBBGDQ4gA0EIaiAKQRB2wLIgHJU4AgAgACARRg0NIANBDGogCkEYdbIgHJU4AgAgACASRg0MIANBEGogAsCyIByVOAIAIAAgE0YNCyADQRRqIAJBCHbAsiAclTgCACAAIBRGDQogA0EYaiACQRB2wLIgHJU4AgAgACAVRg0JIANBHGogAkEYdbIgHJU4AgAgACAWRg0IIANBIGogBsCyIByVOAIAIAAgF0YNByADQSRqIAZBCHbAsiAclTgCACAAIBhGDQYgA0EoaiAGQRB2wLIgHJU4AgAgACAZRg0FIANBLGogBkEYdbIgHJU4AgAgACAaRg0EIANBMGogCcCyIByVOAIAIAAgG0YNAyADQTRqIAlBCHbAsiAclTgCACAAIA1GDQIgA0E4aiAJQRB2wLIgHJU4AgAgB0EQaiEHIAFBBGohASADQTxqIQMgDCAAQQ9qIgBHDQALIAtBhAhJDQAgCxCFBwsgCEEQaiQADwsgAEEOaiEADA0LIABBDWohAAwMCyAAQQxqIQAMCwsgAEELaiEADAoLIABBCmohAAwJCyAAQQlqIQAMCAsgAEEIaiEADAcLIABBB2ohAAwGCyAAQQZqIQAMBQsgAEEFaiEADAQLIABBBGohAAwDCyAAQQNqIQAMAgsgAEECaiEADAELIABBAWohAAsgACAEQfj5wAAQrgcAC0EAIAYgB0GEkMEAENUHAAtBACABIAVBiPrAABDVBwALIAEgBUG4+cAAEK4HAAsgAiAFQcj5wAAQrgcACyACIAVB2PnAABCuBwALIAIgBUHo+cAAEK4HAAtBACAIQQhqIAhBDGpBACADQbTzxAAQ5AcAC9gQAQR/IwBBEGsiAyQAELIJIgRBuIzBAEEJEOwIIgIgACgCpAG4EKoJIgEQswkCQAJAAkACQAJAAkACQAJAAkACQAJAAkBBrIzJAC0AAEUEQEGwjMkAQQA2AgBBrIzJAEEAOgAAIAFBhAhPBEAgARCFBwsgAkGECE8EQCACEIUHCyAEQcGMwQBBCRDsCCICIAAoAqgBuBCqCSIBELMJQayMyQAtAAANAUGwjMkAQQA2AgBBrIzJAEEAOgAAIAFBhAhPBEAgARCFBwsgAkGECE8EQCACEIUHCyAEQcqMwQBBCxDsCCICIAAoAqwBuBCqCSIBELMJQayMyQAtAAANAkGwjMkAQQA2AgBBrIzJAEEAOgAAIAFBhAhPBEAgARCFBwsgAkGECE8EQCACEIUHCyAEQdWMwQBBBBDsCCICIAAoArABEM0JIgEQswlBrIzJAC0AAA0DQbCMyQBBADYCAEGsjMkAQQA6AAAgAUGECE8EQCABEIUHCyACQYQITwRAIAIQhQcLIARB2YzBAEEEEOwIIgIgACgCtAEQzQkiARCzCUGsjMkALQAADQRBsIzJAEEANgIAQayMyQBBADoAACABQYQITwRAIAEQhQcLIAJBhAhPBEAgAhCFBwsCQCAAKAIAQQFHDQAgBEGAjMEAQQMQ7AgiAiAAKAIEEM0JIgEQswlBrIzJAC0AAA0GQbCMyQBBADYCAEGsjMkAQQA6AAAgAUGECE8EQCABEIUHCyACQYQISQ0AIAIQhQcLAkAgACgCCEUNACAEQYOMwQBBAxDsCCICIAAoAgwQzQkiARCzCUGsjMkALQAADQdBsIzJAEEANgIAQayMyQBBADoAACABQYQITwRAIAEQhQcLIAJBhAhJDQAgAhCFBwsCQCAAKAIQRQ0AIARBhozBAEEEEOwIIgIgACgCFBDNCSIBELMJQayMyQAtAAANCEGwjMkAQQA2AgBBrIzJAEEAOgAAIAFBhAhPBEAgARCFBwsgAkGECEkNACACEIUHCwJAIAAoAhhFDQAgBEGKjMEAQQQQ7AgiAiAAKAIcEM0JIgEQswlBrIzJAC0AAA0JQbCMyQBBADYCAEGsjMkAQQA6AAAgAUGECE8EQCABEIUHCyACQYQISQ0AIAIQhQcLAkAgACgCIEUNACAEQbCNwQBBCBDsCCICIAAoAiQQzQkiARCzCUGsjMkALQAADQpBsIzJAEEANgIAQayMyQBBADoAACABQYQITwRAIAEQhQcLIAJBhAhJDQAgAhCFBwsCQCAAKAIoRQ0AIARByI3BAEEIEOwIIgIgACgCLBDNCSIBELMJQayMyQAtAAANC0GwjMkAQQA2AgBBrIzJAEEAOgAAIAFBhAhPBEAgARCFBwsgAkGECEkNACACEIUHCwJAIAAoAjBFDQAQtAkiAiAAKAI0EM0JIgEQ5gkgAUGECE8EQCABEIUHCyACIAAoAjgQzQkiARDmCSABQYQITwRAIAEQhQcLIARB4I3BAEEIEOwIIgEgAhCzCUGsjMkALQAADQxBsIzJAEEANgIAQayMyQBBADoAACACQYQITwRAIAIQhQcLIAFBhAhJDQAgARCFBwsCQCAAKAI8RQ0AIARBjozBAEEHEOwIIgIgACgCQBDNCSIBELMJQayMyQAtAAANDUGwjMkAQQA2AgBBrIzJAEEAOgAAIAFBhAhPBEAgARCFBwsgAkGECEkNACACEIUHCyAAEIgCIANBEGokACAEDwtBrIzJAEEAOgAAQbCMyQAoAgAhAEGwjMkAQQA2AgAgAyAANgIMQYC4yABBKyADQQxqQeCMwQBByI7BABCJBwALQayMyQBBADoAAEGwjMkAKAIAIQBBsIzJAEEANgIAIAMgADYCDEGAuMgAQSsgA0EMakHgjMEAQbiOwQAQiQcAC0GsjMkAQQA6AABBsIzJACgCACEAQbCMyQBBADYCACADIAA2AgxBgLjIAEErIANBDGpB4IzBAEGojsEAEIkHAAtBrIzJAEEAOgAAQbCMyQAoAgAhAEGwjMkAQQA2AgAgAyAANgIMQYC4yABBKyADQQxqQeCMwQBBmI7BABCJBwALQayMyQBBADoAAEGwjMkAKAIAIQBBsIzJAEEANgIAIAMgADYCDEGAuMgAQSsgA0EMakHgjMEAQYiOwQAQiQcAC0GsjMkAQQA6AABBsIzJACgCACEAQbCMyQBBADYCACADIAA2AgxBgLjIAEErIANBDGpB4IzBAEHwjMEAEIkHAAtBrIzJAEEAOgAAQbCMyQAoAgAhAEGwjMkAQQA2AgAgAyAANgIMQYC4yABBKyADQQxqQeCMwQBBgI3BABCJBwALQayMyQBBADoAAEGwjMkAKAIAIQBBsIzJAEEANgIAIAMgADYCDEGAuMgAQSsgA0EMakHgjMEAQZCNwQAQiQcAC0GsjMkAQQA6AABBsIzJACgCACEAQbCMyQBBADYCACADIAA2AgxBgLjIAEErIANBDGpB4IzBAEGgjcEAEIkHAAtBrIzJAEEAOgAAQbCMyQAoAgAhAEGwjMkAQQA2AgAgAyAANgIMQYC4yABBKyADQQxqQeCMwQBBuI3BABCJBwALQayMyQBBADoAAEGwjMkAKAIAIQBBsIzJAEEANgIAIAMgADYCDEGAuMgAQSsgA0EMakHgjMEAQdCNwQAQiQcAC0GsjMkAQQA6AABBsIzJACgCACEAQbCMyQBBADYCACADIAA2AgxBgLjIAEErIANBDGpB4IzBAEHojcEAEIkHAAtBrIzJAEEAOgAAQbCMyQAoAgAhAEGwjMkAQQA2AgAgAyAANgIMQYC4yABBKyADQQxqQeCMwQBB+I3BABCJBwAL2BABBX8jAEEQayIDJAAQsgkiBUG4jMEAQQkQ7AgiASAAKAKgAbgQqgkiAhCzCQJAAkACQAJAAkACQAJAAkACQAJAAkBBrIzJAC0AAEUEQEGwjMkAQQA2AgBBrIzJAEEAOgAAIAJBhAhPBEAgAhCFBwsgAUGECE8EQCABEIUHCyAFQcGMwQBBCRDsCCIBIAAoAqQBuBCqCSICELMJQayMyQAtAAANAUGwjMkAQQA2AgBBrIzJAEEAOgAAIAJBhAhPBEAgAhCFBwsgAUGECE8EQCABEIUHCyAFQcqMwQBBCxDsCCIBIAAoAqgBuBCqCSICELMJQayMyQAtAAANAkGwjMkAQQA2AgBBrIzJAEEAOgAAIAJBhAhPBEAgAhCFBwsgAUGECE8EQCABEIUHCyAFQaiQwQBBBhDsCCIBIAAoAqwBELMJQayMyQAtAAANA0GwjMkAQQA2AgBBrIzJAEEAOgAAIAFBhAhPBEAgARCFBwsCQCAAKAIAQQFHDQAgBUGAjMEAQQMQ7AgiASAAKAIEEM0JIgIQswlBrIzJAC0AAA0FQbCMyQBBADYCAEGsjMkAQQA6AAAgAkGECE8EQCACEIUHCyABQYQISQ0AIAEQhQcLAkAgACgCCEUNACAFQYOMwQBBAxDsCCIBIAAoAgwQzQkiAhCzCUGsjMkALQAADQZBsIzJAEEANgIAQayMyQBBADoAACACQYQITwRAIAIQhQcLIAFBhAhJDQAgARCFBwsCQCAAKAIQRQ0AIAVBlJDBAEEDEOwIIgEgACgCFBDNCSICELMJQayMyQAtAAANB0GwjMkAQQA2AgBBrIzJAEEAOgAAIAJBhAhPBEAgAhCFBwsgAUGECEkNACABEIUHCwJAIAAoAhhFDQAgBUGwjcEAQQgQ7AgiASAAKAIcEM0JIgIQswlBrIzJAC0AAA0IQbCMyQBBADYCAEGsjMkAQQA6AAAgAkGECE8EQCACEIUHCyABQYQISQ0AIAEQhQcLAkAgACgCIEUNACAFQciNwQBBCBDsCCIBIAAoAiQQzQkiAhCzCUGsjMkALQAADQlBsIzJAEEANgIAQayMyQBBADoAACACQYQITwRAIAIQhQcLIAFBhAhJDQAgARCFBwsCQCAAKAIoRQ0AIAVB4I3BAEEIEOwIIgEgACgCLBDNCSICELMJQayMyQAtAAANCkGwjMkAQQA2AgBBrIzJAEEAOgAAIAJBhAhPBEAgAhCFBwsgAUGECEkNACABEIUHCwJAIAAoAjBFDQAgBUGOjMEAQQcQ7AgiASAAKAI0EM0JIgIQswlBrIzJAC0AAA0LQbCMyQBBADYCAEGsjMkAQQA6AAAgAkGECE8EQCACEIUHCyABQYQISQ0AIAEQhQcLQaCRwQBBDRDsCCECELIJIQEgACoCgAG7EKoJIQQgAUHojsEAQQYQygMgBBDgCCAAKgKEAbsQqgkhBCABQe6OwQBBBhDKAyAEEOAIIAAqAogBuxCqCSEEIAFB9I7BAEEKEMoDIAQQ4AggACoCjAG7EKoJIQQgAUH+jsEAQQoQygMgBBDgCCAAKgKQAbsQqgkhBCABQYiPwQBBBhDKAyAEEOAIIAAqApQBuxCqCSEEIAFBjo/BAEEGEMoDIAQQ4AggACoCmAG7EKoJIQQgAUGUj8EAQQYQygMgBBDgCCAALQCcASEEIAFBmo/BAEEKEMoDQYIIQYMIIAQbEOAIIAUgAiABELMJQayMyQAtAAANC0GwjMkAQQA2AgBBrIzJAEEAOgAAIAFBhAhPBEAgARCFBwsgAkGECE8EQCACEIUHCyAAEMACIANBEGokACAFDwtBrIzJAEEAOgAAQbCMyQAoAgAhAEGwjMkAQQA2AgAgAyAANgIMQYC4yABBKyADQQxqQeCMwQBB8JHBABCJBwALQayMyQBBADoAAEGwjMkAKAIAIQBBsIzJAEEANgIAIAMgADYCDEGAuMgAQSsgA0EMakHgjMEAQeCRwQAQiQcAC0GsjMkAQQA6AABBsIzJACgCACEAQbCMyQBBADYCACADIAA2AgxBgLjIAEErIANBDGpB4IzBAEHQkcEAEIkHAAtBrIzJAEEAOgAAQbCMyQAoAgAhAEGwjMkAQQA2AgAgAyAANgIMQYC4yABBKyADQQxqQeCMwQBBwJHBABCJBwALQayMyQBBADoAAEGwjMkAKAIAIQBBsIzJAEEANgIAIAMgADYCDEGAuMgAQSsgA0EMakHgjMEAQbCQwQAQiQcAC0GsjMkAQQA6AABBsIzJACgCACEAQbCMyQBBADYCACADIAA2AgxBgLjIAEErIANBDGpB4IzBAEHAkMEAEIkHAAtBrIzJAEEAOgAAQbCMyQAoAgAhAEGwjMkAQQA2AgAgAyAANgIMQYC4yABBKyADQQxqQeCMwQBB0JDBABCJBwALQayMyQBBADoAAEGwjMkAKAIAIQBBsIzJAEEANgIAIAMgADYCDEGAuMgAQSsgA0EMakHgjMEAQeCQwQAQiQcAC0GsjMkAQQA6AABBsIzJACgCACEAQbCMyQBBADYCACADIAA2AgxBgLjIAEErIANBDGpB4IzBAEHwkMEAEIkHAAtBrIzJAEEAOgAAQbCMyQAoAgAhAEGwjMkAQQA2AgAgAyAANgIMQYC4yABBKyADQQxqQeCMwQBBgJHBABCJBwALQayMyQBBADoAAEGwjMkAKAIAIQBBsIzJAEEANgIAIAMgADYCDEGAuMgAQSsgA0EMakHgjMEAQZCRwQAQiQcAC0GsjMkAQQA6AABBsIzJACgCACEAQbCMyQBBADYCACADIAA2AgxBgLjIAEErIANBDGpB4IzBAEGwkcEAEIkHAAucDAISfgh/IwBB0ABrIhUkAAJAAn8CQAJAAkACQAJAAkACQCABKQMAIgNQRQRAIAEpAwgiBFANASABKQMQIgVQDQIgBSADQn+FVg0DIAMgBFQNBCADIAV8IgVCgICAgICAgIAgWg0FIBUgAS8BGCIBOwFAIBUgAyAEfSIHNwM4IBUgByAFeSIEhiIIIASIIgY3A0ggBiAHUg0JIBUgATsBQCAVIAM3AzggFSADIARCP4MiB4YiBiAHiCIHNwNIIAMgB1INCUGgfyABIASnayIXa8FB0ABsQbCnBWpBzhBtIgFB0QBPDQYgFUEgaiABQQR0IgEpA/COQiIDIAUgBIYQxgYgFUEQaiADIAgQxgYgFSADIAYQxgZCAUEAIBcgAS8B+I5CamtBP3GtIgaGIghCAX0hCiAVKQMQQj+HIQwgFSkDAEI/iCEOIBUpAwghDyABLwH6jkIhFyAVKQMYIRAgFSkDKCITIBUpAyBCP4giFHwiEUIBfCIJIAaIpyIWQZDOAE8EQCAWQcCEPUkNCCAWQYDC1y9PBEBBCEEJIBZBgJTr3ANJIgEbIRlBgMLXL0GAlOvcAyABGwwKC0EGQQcgFkGAreIESSIBGyEZQcCEPUGAreIEIAEbDAkLIBZB5ABPBEBBAkEDIBZB6AdJIgEbIRlB5ABB6AcgARsMCQtBCkEBIBZBCUsiGRsMCAtBwJnCAEEcQYyawgAQ5wgAC0GcmsIAQR1BvJrCABDnCAALQcyawgBBHEHomsIAEOcIAAtB+JrCAEE2QbCbwgAQ5wgAC0HAm8IAQTdB+JvCABDnCAALQYicwgBBLUG4nMIAEOcIAAsgAUHRAEGAmcIAEK4HAAtBBEEFIBZBoI0GSSIBGyEZQZDOAEGgjQYgARsLIQEgCSAKgyEEIA4gD3whCyAZIBdrQQFqIRsgDCAQfSAJfEIBfCINIAqDIQUCQAJAAkACQAJAAkACQAJAAkADQCACIBhqIBYgAW4iHEEwaiIaOgAAIBhBAWohFyANIBYgASAcbGsiFq0gBoYiEiAEfCIDVg0CIBggGUYEQCAXIQFCASEDA0AgAyEHIAFBEUYNBSABIAJqIARCCn4iBCAGiKdBMGoiGDoAACABQQFqIQEgA0IKfiEDIAVCCn4iBSAEIAqDIgRYDQALIAUgBH0iCiAIVCEWIAMgCSALfX4iCSADfCEGIAQgCSADfSIJWg0HIAggClgNAgwHCyABQQpJIAFBCm4hASAXIRhFDQALQcicwgAQ1AkACyABIAJqQQFrIRcgBSAIfSELIAggCX0hDUIAIAR9IQoDQCAEIAh8IgMgCVQgCSAKfCAEIA18WnJFBEBBACEWDAYLIBcgGEEBayIYOgAAIAogC3wiDCAIVCEWIAMgCVoNBiAKIAh9IQogAyEEIAggDFgNAAsMBQsgDSADfSIFIAGtIAaGIgdUIQEgCSALfSIGQgF8IQggBSAHVCADIAZCAX0iCVpyDQEgAiAXakEBayEYIAwgEXwgEH0gBCAHfCIEIBJ8fUICfCEKIBEgC30gA30hCyAEIA58IA98IBR9IBN9IBJ8IQZCACEEA0AgAyAHfCIFIAlUIAQgC3wgBlpyRQRAQQAhAQwDCyAYIBpBAWsiGjoAACAEIAp8IgwgB1QhASAFIAlaDQMgBiAHfCEGIAQgB30hBCAFIQMgByAMWA0ACwwCC0ERQRFB2JzCABCuBwALIAMhBQsCQCAFIAhaIAFyDQAgCCAFIAd8IgNYIAggBX0gAyAIfVRxDQAgAEEANgIADAQLIAUgDUIEfVggBUICWnFFBEAgAEEANgIADAQLIAAgGzsBCCAAIBc2AgQMAgsgBCEDCwJAIAMgBlogFnINACAGIAMgCHwiBFggBiADfSAEIAZ9VHENACAAQQA2AgAMAgsgAyAFIAdCWH58WCADIAdCFH5acUUEQCAAQQA2AgAMAgsgACAbOwEIIAAgATYCBAsgACACNgIACyAVQdAAaiQADwsjAEEQayIAJAAgACAVQThqNgIMIAAgFUHIAGo2AghBACAAQQhqQbCPwwAgAEEMakGwj8MAQQAgAEHMoMIAEK8FAAvKDAIDfhB/IwBBEGsiDiQAAkACQEG8hskAKAIARQ0AQbSGyQAoAgAiCUHIhskAKQMAIgQgAK2FIgVCOIYgBUKA/gODQiiGhCAFQoCA/AeDQhiGIAVCgICA+A+DQgiGhIQgBEIIiEKAgID4D4MgBEIYiEKAgPwHg4QgBEIoiEKA/gODIARCOIiEhIRC0oGqm6v6gtenf34iBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhCAFQtii0e/CqeW/LX6FIgRCOIYgBEKA/gODQiiGhCAEQoCA/AeDQhiGIARCgICA+A+DQgiGhIQgBEIIiEKAgID4D4MgBEIYiEKAgPwHg4QgBEIoiEKA/gODIARCOIiEhIRBwIbJACkDACIFQn+FfiIGQjiGIAZCgP4Dg0IohoQgBkKAgPwHg0IYhiAGQoCAgPgPg0IIhoSEIAZCCIhCgICA+A+DIAZCGIhCgID8B4OEIAZCKIhCgP4DgyAGQjiIhISEIAQgBUI4hiAFQoD+A4NCKIaEIAVCgID8B4NCGIYgBUKAgID4D4NCCIaEhCAFQgiIQoCAgPgPgyAFQhiIQoCA/AeDhCAFQiiIQoD+A4MgBUI4iISEhH6FIASJIgSncSEHIARCGYhC/wCDQoGChIiQoMCAAX4hBkGwhskAKAIAIgtBIGshCgNAAkAgByALaikAACIFIAaFIgRCf4UgBEKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIEUEUEQANAIAAgCiAEeqdBA3YgB2ogCXEiDEEFdGsoAgBGDQIgBEIBfSAEgyIEUEUNAAsLIAUgBUIBhoNCgIGChIiQoMCAf4NQRQ0CIAcgCEEIaiIIaiAJcSEHDAELCyALQQAgDGtBBXRqQQRrKAIAIgwoAghFBEAgDEF/NgIIQQAhB0HAh8kAKAIAIhANAkG4h8kAKAIAQf//D00EQEG4h8kAQQBBgIAQQQRBBBCYBkHAh8kAKAIAIQcLQbyHyQAoAgAgB0ECdGoiAEEAQfz/P/wLAEHAh8kAIAdBgIAQaiIQNgIAIABB/P8/akEANgIADAILQbCWwQAQswoAC0GglsEAENAJAAsgASACaiIAIAwoAhQiCEsEQCAIIQkgACAIQQF0IgogACAKSxsiDSAIayIAIAwoAgwgCGtLBEAgDEEMaiAIIABBBEEQEJgGIAwoAhQhCQsgDCgCECEPIABBA3EiCgRAIAkgCmohCyAPIAlBBHRqIQcgCiEAA0AgB0IANwIAIAdBBmpCADcBACAHQRBqIQcgAEEBayIADQALIAshCSANIAggCmprIQALIAggDWtBfE0EQCAPIAlBBHRqIQcgCSELA0AgB0IANwIAIAdBBmpCADcBACAHQRBqQgA3AgAgB0EWakIANwEAIAdBIGpCADcCACAHQSZqQgA3AQAgB0EwakIANwIAIAdBNmpCADcBACAHQUBrIQcgC0EEaiELIABBBGsiAA0ACwsgDCALNgIUCyACBEAgAUEEdCEUQQAhCUG8h8kAKAIAIQ8DQAJAAkACQCAQQYCABCACIAkiAGsiCSAJQYCABE8bIgpBAnQiC08EQCAOIAMgAEECdCAAIApqIglBAnQQ3ggiCBC7CiIHNgIIIA4gCzYCDCAHIAtHDQEgDyALIAgQ5QkgCEGECE8EQCAIEIUHCyAAIAJGDQMgCkEEdCERIAAgAWohCiAUIABBBHRqIRVBACEHQQAhAANAIAAgEUYNAyAMKAIUIgggCksEQCAAIA9qIg0oAgAhEiANQQRqKAIAIRMgDUEIaigCACEWIAwoAhAgFWogAGoiCCANQQxqKAIANgIAIAhBDGogFjsBACAIQQpqIBNBEHY7AQAgCEEIaiATOwEAIAhBBmogEkEQdjsBACAIQQRqIBI7AQAgB0EEaiEHIApBAWohCiARIABBEGoiAEYNBQwBCwsgCiAIQcCWwQAQrgcAC0EAIAsgEEHQlsEAENUHAAtBACAOQQhqIA5BDGpBACAAQbTzxAAQ5AcACyAHIAtB4JbBABCuBwALIAIgCUsNAAsLIAwgDCgCCEEBajYCCCAOQRBqJAAL3xgDB38BfgF7IwBBIGsiBiQAAkACQCAAKAIAIgdFBEAgACgCECIARQ0BIABBt57FAEEBEJgDIQIMAgsCQAJAAkACQAJAIAAoAggiAiAAKAIEIgVPBEAgACgCECIBRQ0BIAFBjp7FAEEQEJgDRQ0BDAULIAAgAkEBaiIENgIIIAIgB2otAAAhAyAAIAAoAgxBAWoiCDYCDAJAAkACQCAIQfQDTQRAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIANB0QBrDikLCgENAQ4BAQEBAQEBAQEBBAcIAQkBAQMEAwEEAwQDAgEBBAMBAQEEAwALIANBwQBrDgILBAALIAAoAhAiAUUNESABQY6exQBBEBCYAw0VDBELIAAoAhAiAUUNE0EBIQIgAUG2ncUAQQEQmANFDRMMFgsgACADEP4EDRMMEgsgBCAFTw0QIAQgB2otAABB7gBGDQEMEAsjAEEgayICJAACQAJAIAAoAgBFBEAgACgCECIBRQ0BIAFBt57FAEEBEJgDIQEMAgsgAiAAEJkGIAIoAgBFBEAgACgCECIDBEBBASEBIANBnp7FAEGOnsUAIAItAARBAXEiAxtBGUEQIAMbEJgDDQMLIAAgAv0AAgD9CwIADAELIAAoAhBFDQAgAP0AAgAhCiAAIAL9AAIA/QsCACACIAr9CwMQIAAgAUEBcRDUASEBIAAgAv0AAxD9CwIADAELQQAhAQsgAkEgaiQAIAENEQwQCyAAIAJBAmo2AgggACgCECIBRQ0OQQEhAiABQZKfxQBBARCYA0UNDgwSCyAGQRhqIAAQuAUgBigCGCIBRQRAIAYtABwhASAAKAIQIgMEQEEBIQIgA0GensUAQY6exQAgAUEBcSIDG0EZQRAgAxsQmAMNEwsgACABOgAEDA0LIAZBCGogASAGKAIcEL8EAkACQAJAIAYoAghBAUcNACAGKQMQIglCAVYNACAJp0EBaw0BDAILIAAoAhAiAUUNDSABQY6exQBBEBCYAw0RDA0LIAAoAhAiAUUNDyABQZqfxQBBBRCYAw0QDA8LIAAoAhAiAUUNDiABQZ+fxQBBBBCYAw0PDA4LIAZBGGogABC4BSAGKAIYIgFFBEAgBi0AHCEBIAAoAhAiAwRAQQEhAiADQZ6exQBBjp7FACABQQFxIgMbQRlBECADGxCYAw0SCyAAIAE6AAQMDAsgBkEIaiABIAYoAhwQvwQCQCAGKAIIIAYpAxAiCUKAgICAEFRxRQ0AQYCAxAAgCaciASABQYCwA3NBgIDEAGtBgJC8f0kbIgFBgIDEAEYNACAAKAIQIQMjAEEgayICJAACf0EAIANFDQAaAkAgAygCAEEnIAMoAgQoAhARAgANAANAAkACQAJ/AkACQAJAAkACQCABQSJHBEAgAUGAgMQARgRAIAMoAgBBJyADKAIEKAIQEQIADAwLAkACQAJAAkACQAJAIAFBJkwEQCABQQlrDgUBAwYGAgULIAFBJ0YNAyABQdwARw0FIAJCADcBAiACQdy4ATsBAAwLCyACQgA3AQIgAkHc6AE7AQAMCgsgAkIANwECIAJB3OQBOwEADAkLIAJCADcBAiACQdzcATsBAAwICyACQgA3AQIgAkHczgA7AQAMBwsgAUUNBQsgAUH/BU0NASABEN4ERQ0BDAILQYCAxAAhASADKAIAQSIgAygCBCgCEBECAA0JDAgLIAEQ3wINAQsgAkEQaiABEMkFIAJBCGoiBSACQRhqIgcvAAA7AQAgAiACKQAQNwMAIAItABohASACLQAbIQQgByAFLwEAOwEAIAIgAikDADcDECABQf8BcSAEQf8BcUkNBAwFCyACIAE2AgBBgQEhBEGAAQwCCyACQgA3AQIgAkHc4AA7AQALQQIhBEEACyEBIAJBGGogAkEIai8BADsBACACIAIpAwA3AxALIARB/wFxIQcgAUH/AXEhBCADKAIAIQEgAygCBCgCECEFIAIoAhAhCANAIAEgB0GAAU0EfyACQRBqIARqLQAABSAICyAFEQIADQMgByAEQQFqIgRHDQALC0GAgMQAIQEMAAsAC0EBCyACQSBqJAANDwwOCyAAKAIQIgFFDQogAUGOnsUAQRAQmAMNDgwKCwJAIAENACAAKAIQIgNFDQBBASECIANBo5/FAEEBEJgDDRALIAAoAhAiAwRAQQEhAiADQdeexQBBARCYAw0QCyAAEL4CDQ0MCAsgBCAFTw0AIAQgB2otAABB5QBHDQAgACACQQJqNgIIIAAQvgINDAwLCwJAIAENACAAKAIQIgRFDQBBASECIARBo5/FAEEBEJgDDQ4LIAAoAhAiBARAQQEhAiAEQdGexQBBARCYAw0OCyADQdIARg0FIAAoAhAiAkUNBSACQdOexQBBBBCYAw0LDAULAkAgAQ0AIAAoAhAiA0UNAEEBIQIgA0Gjn8UAQQEQmAMNDQsgACgCECIDBEBBASECIANBjJ7FAEEBEJgDDQ0LIAAQvQYNCiAAKAIQIgNFDQlBASECIANBjZ7FAEEBEJgDRQ0FDAwLAkAgAQ0AIAAoAhAiA0UNAEEBIQIgA0Gjn8UAQQEQmAMNDAsgACgCECIDBEBBASECIANB4J7FAEEBEJgDDQwLQQAhAgJ/AkAgACgCACIDRQ0AA0ACQCAAKAIIIgQgACgCBE8NACADIARqLQAAQcUARw0AIAAgBEEBajYCCAwCCwJAIAJFDQAgACgCECIDRQ0AIANBl/zFAEECEJgDRQ0AQQEMAwtBASAAQQEQ1AENAhogAkEBaiECIAAoAgAiAw0ACwtBAAshAyAGIAI2AgQgBiADNgIAQQEhAiAGKAIAQQFxDQsgBigCBEEBRw0CIAAoAhAiA0UNCCADQeGexQBBARCYA0UNAgwLCwJAIAENACAAKAIQIgNFDQBBASECIANBo5/FAEEBEJgDDQsLQQEhAiAAQQEQzAENCiAAKAIAIgRFBEAgACgCECIARQ0KIABBt57FAEEBEJgDIQIMCwsgACgCCCIDIAAoAgRPBEAgACgCECIBRQ0FIAFBjp7FAEEQEJgDRQ0FDAsLIAAgA0EBajYCCAJAAkACQCADIARqLQAAQdMAaw4DAgEGAAsgACgCECIBRQ0GIAFBjp7FAEEQEJgDDQoMBgsgACgCECIDBEAgA0HgnsUAQQEQmAMNDAsgABC9Bg0JIAAoAhAiA0UNCCADQeKexQBBARCYA0UNBAwLCyAAKAIQIgIEQCACQaSfxQBBAxCYAw0JC0EBIQJBACEHIwBBIGsiAyQAAkACQAJAIAAoAgAiBEUNAANAAkAgACgCCCIFIAAoAgRPDQAgBCAFai0AAEHFAEcNACAAIAVBAWo2AggMAgsCQAJAIAdFDQAgACgCECIERQ0AIARBl/zFAEECEJgDDQQgACgCAA0AIAAoAhAiBUUNAUEBIQQgBUG3nsUAQQEQmANFDQEMBQsgAyAAQfMAEJYGIAMtAABBAUYEQCADLQABIQcgACgCECIFBEBBASEEIAVBnp7FAEGOnsUAIAdBAXEiBRtBGUEQIAUbEJgDDQYLIAAgBzoABCAAQQA2AgAMAwsgACgCAEUEQCAAKAIQIgVFDQFBASEEIAVBt57FAEEBEJgDRQ0BDAULIAMgABDrAiADKAIARQRAIAMtAAQhByAAKAIQIgUEQEEBIQQgBUGensUAQY6exQAgB0EBcSIFG0EZQRAgBRsQmAMNBgsgACAHOgAEIABBADYCAAwDCyADIAP9AAIA/QsDEAJAIAAoAhAiBEUNACADQRBqIAQQiQINBCAAKAIQIgRFDQAgBEGpn8UAQQIQmAMNBAtBASEEIABBARDUAQ0ECyAHQQFrIQcgACgCACIEDQALC0EAIQQMAQtBASEECyADQSBqJAAgBA0KIAAoAhAiA0UNByADQaefxQBBAhCYA0UNAwwKCyAAKAIQIgEEQCABQZ6exQBBGRCYAw0ICyAAQQE6AAQMBAsgACgCECIDRQ0FIANB4p7FAEEBEJgDRQ0BDAgLQQEhAiAAQQEQ1AENBwsgAQ0DIAAoAhAiAUUNA0EBIQIgAUHKnsUAQQEQmANFDQMMBgtBACECIABBADoABCAAQQA2AgAMBQtBACECIABBADYCAAwECyAAIAMQ/gQNAQtBACECIAAoAgBFDQIgACAAKAIMQQFrNgIMDAILQQEhAgwBC0EAIQILIAZBIGokACACC/oNAQV/IwBBMGsiAiQAAkACQAJAAkACQAJAAkACQCAAKAIAQQFrDgUBAgMEBQALQQEhAyABKAIAIgRBkIrHAEEIIAEoAgQiBigCDCIFEQAADQYgAEEEaiEAAkAgAS0ACkGAAXFFBEAgBEHgnsUAQQEgBREAAA0IIAAgARDsBUUNAQwICyAEQcuLwgBBAiAFEQAADQcgAkEBOgAoIAIgBjYCDCACIAQ2AgggAkHQi8IANgIYIAIgASkCCDcCHCACIAJBKGo2AhAgAiACQQhqNgIUIAAgAkEUahDsBQ0HIAIoAhRByYvCAEECIAIoAhgoAgwRAAANBwsgASgCAEHinsUAQQEgASgCBCgCDBEAACEDDAYLQQEhAyABKAIAIgRBmIrHAEEIIAEoAgQiBigCDCIFEQAADQUgAEEEaiEAAkAgAS0ACkGAAXFFBEAgBEHgnsUAQQEgBREAAA0HIAAgARDtBUUNAQwHCyAEQcuLwgBBAiAFEQAADQYgAkEBOgAoIAIgBjYCDCACIAQ2AgggAkHQi8IANgIYIAIgASkCCDcCHCACIAJBKGo2AhAgAiACQQhqNgIUIAAgAkEUahDtBQ0GIAIoAhRByYvCAEECIAIoAhgoAgwRAAANBgsgASgCAEHinsUAQQEgASgCBCgCDBEAACEDDAULQQEhAyABKAIAIgRBoIrHAEEJIAEoAgQiBigCDCIFEQAADQQgAEEEaiEAAkAgAS0ACkGAAXFFBEAgBEHgnsUAQQEgBREAAA0GIAAgARDuBUUNAQwGCyAEQcuLwgBBAiAFEQAADQUgAkEBOgAoIAIgBjYCDCACIAQ2AgggAkHQi8IANgIYIAIgASkCCDcCHCACIAJBKGo2AhAgAiACQQhqNgIUIAAgAkEUahDuBQ0FIAIoAhRByYvCAEECIAIoAhgoAgwRAAANBQsgASgCAEHinsUAQQEgASgCBCgCDBEAACEDDAQLQQEhAyABKAIAIgRBqYrHAEEGIAEoAgQiBigCDCIFEQAADQMgAEEIaiEAAkACQCABLQAKQYABcUUEQCAEQeCexQBBASAFEQAADQYgAiAANgIIIAEoAgBByIrHAEEKIAEoAgQoAgwRAAAhACACQQA6ABkgAiAAOgAYIAIgATYCFCACQRRqQcjPxwBBBCACQQhqQbiKxwAQ/AQhBCACLQAYQQFxRSIAIAItABkiBUEBRnENASAFDQYgAA0CDAYLIARBy4vCAEECIAURAAANBSACIAY2AgwgAiAENgIIIAJBAToAByACQdCLwgA2AhggAiABKQIINwIcIAIgAkEHajYCECACIAJBCGoiAzYCFCACIAA2AiQgA0HIiscAQQoQsgMhACACQQA6AC0gAiAAOgAsIAIgAkEUajYCKCACQShqQcjPxwBBBCACQSRqQbiKxwAQ/AQhAAJAAkAgAi0ALCIDQQFxIAItAC0iBEEBR3JFBEAgACgCACIALQAKQYABcQ0BIAAoAgBBp5/FAEECIAAoAgQoAgwRAAANBwwCCyAEDQYgA0EBcUUNAQwGCyAAKAIAQcqexQBBASAAKAIEKAIMEQAADQULIAIoAhRByYvCAEECIAIoAhgoAgwRAABFDQFBASEDDAULIAQoAgAiAC0ACkGAAXFFBEAgACgCAEGnn8UAQQIgACgCBCgCDBEAAEUNAQwFCyAAKAIAQcqexQBBASAAKAIEKAIMEQAADQQLIAEoAgBB4p7FAEEBIAEoAgQoAgwRAAAhAwwDC0EBIQMgASgCACIEQZXexwBBCyABKAIEIgYoAgwiBREAAA0CIABBBGohAAJAIAEtAApBgAFxRQRAIARB4J7FAEEBIAURAAANBCAAIAEQ7wVFDQEMBAsgBEHLi8IAQQIgBREAAA0DIAJBAToAKCACIAY2AgwgAiAENgIIIAJB0IvCADYCGCACIAEpAgg3AhwgAiACQShqNgIQIAIgAkEIajYCFCAAIAJBFGoQ7wUNAyACKAIUQcmLwgBBAiACKAIYKAIMEQAADQMLIAEoAgBB4p7FAEEBIAEoAgQoAgwRAAAhAwwCC0EBIQMgASgCACIEQa+KxwBBByABKAIEIgYoAgwiBREAAA0BIABBBGohAAJAIAEtAApBgAFxRQRAIARB4J7FAEEBIAURAAANAyAAIAEQrgJFDQEMAwsgBEHLi8IAQQIgBREAAA0CIAJBAToAKCACIAY2AgwgAiAENgIIIAJB0IvCADYCGCACIAEpAgg3AhwgAiACQShqNgIQIAIgAkEIajYCFCAAIAJBFGoQrgINAiACKAIUQcmLwgBBAiACKAIYKAIMEQAADQILIAEoAgBB4p7FAEEBIAEoAgQoAgwRAAAhAwwBC0EBIQMLIAJBMGokACADC7MMAgx/AX4jAEHgBGsiCSQAQQYhCwJAAkACQAJAAkACQAJAIAEoAgAiCkGAgICAeEYNACAJQRBqIAEoAgQiDCABKAIIEKgFIAktABBBAUYEQCAJKAIUIQEgCUEANgKkAyAJQoCAgIAQNwKcAyAJQcSzwQA2AtwBIAlCoICAgAY3AuABIAkgCUGcA2o2AtgBIAEgCUHYAWoQ5wQNAiAJKAKcAyELIAkoAqADIg0gCSgCpAMQ7AghDyALBEAgDUEEaygCACIOQXhxIhBBBEEIIA5BA3EiDhsgC2pJDQcgDkEAIBAgC0EnaksbDQggDRCfAgsgAEEANgIAIAAgDzYCBCABIAEoAgAoAgARAwAgCgRAIAxBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIApqSQ0HIABBACABIApBJ2pLGw0IIAwQnwILIAdFIAhBhAhJckUEQCAIEIUHCyAFRSAGQYQISXJFBEAgBhCFBwsgA0UgBEGECElyRQRAIAQQhQcLIAIoAgAiAEGAgICAeHJBgICAgHhGDQUgAigCBCIBQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyAAakkNBiACQQAgAyAAQSdqSxsNByABEJ8CDAULIAktABEhCyAKRQ0AIAxBBGsoAgAiAUF4cSINQQRBCCABQQNxIgEbIApqSQ0FIAFBACANIApBJ2pLGw0GIAwQnwILQQQhAUEAIQpBABCpCSETQQAQqQkhFEEAIQxBBCENAkAgA0EBcUUNACAJQdgBaiAEEIIGIAkoAuABIQ8gCSgC3AEhDSAJKALYASEMIARBhAhJDQAgBBCFBwtBACEEAkAgBUEBcUUNACAJQdgBaiAGEIIGIAkoAuABIQQgCSgC3AEhASAJKALYASEKIAZBhAhJDQAgBhCFBwtBBCEGQQAhBUEAIQNBBCEQAkAgB0EBcUUNACAJQZwDaiAIQQAQ5ggiBxCCBiAJQdgBaiAIQQEQ5ggiEhCCBiAJKALgASERIAkoAtwBIRAgCSgC2AEhDiAJKAKkAyEDIAkoAqADIQYgCSgCnAMhBSASQYQITwRAIBIQhQcLIAdBhAhPBEAgBxCFBwsgCEGECEkNACAIEIUHCyAJIBQ2AowDIAkgEzYCiAMgCUEANgKEAyAJQgA3AvwCIAlBgICAgHg2AvACIAlBgICAgHg2AuQCIAlCBDcC3AIgCUIANwLUAiAJQoCAgIDAADcCzAIgCSARNgLIAiAJIBA2AsQCIAkgDjYCwAIgCSADNgK8AiAJIAY2ArgCIAkgBTYCtAIgCSAENgKwAiAJIAE2AqwCIAkgCjYCqAIgCSAPNgKkAiAJIA02AqACIAkgDDYCnAIgCUEANgKUAiAJQQA2AogCIAlBADYCgAIgCUEANgL4ASAJQQA2AvABIAlBADYC6AEgCUEANgLgASAJQQA2AtgBIAlBmANqQQA6AAAgCUIANwKQAyACKAIAIQMgAigCBCEFIAIoAgghAQJ/IAtBBkcEQCAJQQhqIAsgCUHYAWoQpQMgCSgCDCEEIAkoAgghB0ECDAELIAlBnANqIAlB3AFqQcAB/AoAAEEAIQdBAAshBkGAgICAeCEIIANBgICAgHhHBEACQCABRQRAQQEhCAwBCyABEHEiCEUNAwsgAQRAIAggBSAB/AoAAAsgCK0gAa1CIIaEIRUgASEICyAJQRhqIgIgCUGcA2pBwAH8CgAAQfQBEHEiAUUNAiABIAY2AgAgAUEEaiACQcAB/AoAACABIAs6APABIAEgBDYC7AEgASAHNgLoASABQYCAgIB4NgLcASABIBU3AtQBIAEgCDYC0AEgAUEANgLMASABQoCAgIAQNwLEASAAQbiSwQA2AgwgAEEBNgIIIABBoJLBADYCBCAAIAE2AgAgA0GAgICAeHJBgICAgHhGDQMgBUEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgA2pJDQQgAEEAIAEgA0EnaksbDQUgBRCfAgwDC0HQh8YAQTcgCUHfBGpB3LPBAEGIiMYAEIkHAAtBASABEOEIAAtB9AEQ6AkACyAJQeAEaiQADwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL7A0DCn8DfgJ7IwBBgAJrIgQkAAJAAkACQAJAAkACQAJAAkACQCABKAIQIgUoAjAiBw4CAwEACyAFKQMYIAUpAyAgAiADEJEEIQ4gBSgCOCIJIA6ncSEGIA5CGYhC/wCDQoGChIiQoMCAAX4hECAFKAI0IgtBBGshDCAFKAIsIQgDQCAGIAtqKQAAIg8gEIUiDkJ/hSAOQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIg5QRQRAA0AgDCAOeqdBA3YgBmogCXFBAnRrKAIAIgUgB08NBiAIIAVBuAFsaiINQawBaigCACADRgRAIAIgDUGoAWooAgAgAxC7B0UNBQsgDkIBfSAOgyIOUEUNAAsLIA8gD0IBhoNCgIGChIiQoMCAf4NQRQ0DIAYgCkEIaiIKaiAJcSEGDAALAAsgAyAFKAIsIghBrAFqKAIARw0BIAIgCCgCqAEgAxC7Bw0BQQAhBQsgBSAHTwRAIABCAzcDACAAQYSAgIB4NgIIDAYLAkACQCAIIAVBuAFsaiIDLQCgAUUEQCADLQBoQQNGDQEgASgCBCICrSEPAkACQCACQv////8PIAMpA1AiDiAOQv////8PWhunayIFQQAgAiAFTxtBHU0EQEGI48cAKQMAIhCnIQMCQCAQQv8Bg0IEUQRAIAEgDkIefDcDCCADQf8BcUEERw0BDAMLIAEgDzcDCCADQf8BcUEERg0CCyAQQiCIpyECIBBCCIinIgUhAQJAAkACQAJAIANB/wFxIgZBAWsOAwEAAAILIAItAAghAQsgAUH/AXFBJUYNAQsgBCACNgKMASAEQYGAgIB4NgKEASAEIAVBCHQgBnI2AogBDAsLIARBHjYCLCAEQe2CxwA2AiggBCAEQShqrUKAgICAIIQ3AzAgBEGEAWpB3YnAACAEQTBqEL4EIANB/wFxQQNHDQogAigCACEBIAJBBGooAgAiAygCACIFBEAgASAFEQMACyADKAIEIgUEQCABIAUgAygCCBCIBwsgAkEMQQQQiAcMCgsgASAOQh58IhA3AwggASgCACAOIA8gDiAPVBunaiICKAAAQdCWjSBGDQELIARBjAFqQayDxwAoAgA2AgAgBEGkg8cAKQIANwKEAQwICyAEQZ0BaiIFIAJBHGovAAA7AAAgBEGVAWogAkEUaikAADcAACAFMwAAIQ4gBDMAmwEhDyAEQgE3A4ABIAQgDiAPIBB8fCIONwOIASADQeAAaiAEQYABahCQBwwCCyAAQSE2AhAgAEHMgscANgIMIABBg4CAgHg2AgggAEIDNwMADAcLIAMpA2AhDgsgASAONwMIIAQgAykDQCIONwMQIAQgDjcDCAJAIAMvAYQBIglBAkYEf0GDgICAeAUgAy8BIEUNAUGFgICAeAshCCAAQSA2AhAgAEHIgccANgIMIAAgCDYCCCAAQgM3AwAMBgsgBCkCDCEPIAMoAogBIQpBgMAAEHEiCEUNAiAOQiCIpyECIA6nIQUgD0IgiKchBiAPpyEHAn4gCUUEQP0MAAAAAAAgAAAAAAAAAAAAACAI/RwAIREgBf0RIAf9HAEgBv0cAiAC/RwDIRJBACEHQgIhD0IADAELIAQgATYCkAEgBCACNgKMASAEIAY2AogBIAQgBzYChAEgBCAFNgKAASAEQagBahCbBCAEQUBrIARB0AFq/QADAP0LAwAgBEHQAGogBEHgAWr9AAMA/QsDACAEQeAAaiAEQfABav0AAwD9CwMAIAQgBP0AA7gB/QsDcCAEIAQpA8gBNwM4IAQoArQBIQUgBCgCsAEhASAE/QAEoAEhEiAEKAKUASEGIAQoApABIQcgBP0ABIABIRFCACEPIAQpA5gBCyEOQbgBEHEiAkUNAyACIAU2AlQgAiABNgJQIAIgEv0LA0AgAiAONwM4IAIgBjYCNCACIAc2AjAgAiAR/QsDICACIA83AxggAkIANwIMIAJCgMAANwIEIAIgCDYCACACIAT9AANw/QsDWCACIAQpAzg3A2ggAkHwAGogBEFAa/0AAwD9CwMAIAJBgAFqIARB0ABq/QADAP0LAwAgAkGQAWogBEHgAGr9AAMA/QsDACACQQE6ALQBIAIgCjYCsAEgAkEANgKoASACQgA3A6ABIABCAjcDACAAIAM2AgggAEECNgKoASAAIAI2AqwBDAULIABCAzcDACAAQYSAgIB4NgIIDAQLIAUgB0Ho7McAEK4HAAtBAUGAwAAQ4QgAC0G4ARDoCQALIAQgBCkAhQE3AB0gBCAELQCEAToAHCAEIAQtAI8BOgAnIAQgBC8AjQE7ACUgBCgCHCEBIAAgBCkCIDcCDCAAIAE2AgggAEIDNwMACyAEQYACaiQAC9MLAR1/IwBBIGsiBCQAIAAQogUgAEHAAWpBADoAACAAQgA3ArgBAkACQAJAAkACQCAAKAKMASIFQYCAgIB4RiAAKAKYASIBQYCAgIB4RnENACAFQYCAgIB4RyABQYCAgIB4R3FFBEBBnIXBAEEkEPkHIQEMAgsgAEGAgAQQzAQgACgCqAEiCkECdBCpCSEPAkAgACgCPEUNACAAKAJAIgFBhAhJDQAgARCFBwsgACAPNgJAIABBATYCPCAAKAKMASIQQYCAgIB4RwRAIAAoApgBIhFBgICAgHhHBEACQCAKRQ0AIAAoApwBIRkgACgCkAEhGiAAKAKgASESIAAoApQBIRMgACgCtAEhGyAAKAKwASEcIAAoAogBIRQgACgChAEhFSAAKAJ8IRYgACgCeCELQQAhAQNAIBZBgIAEIAogAWsiBSAFQYCABE8bIghBAnQiAkkEQEEAIAIgFkGs1sEAENUHAAsCQCACIBRNBEAgBCAcIAFBAnQiDCABIAhqIgVBAnQiFxDeCCIDELsKIgc2AgggBCACNgIUIAIgB0YEQCALIAIgAxDlCSADQYQITwRAIAMQhQcLIAQgGyAMIBcQ3ggiAxC7CiIHNgIIIAQgAjYCFCACIAdGBEAgFSACIAMQ5QkgA0GECE8EQCADEIUHCyABIApGDQMgCEEEdCEYIAwgGWohHSAaIAFBAXRqIQ1BACEDQQAhCAJAA0AgAyAYRgRAIAggCEEEaiACQYzWwQAQ1QcACyAEIAMgC2oiDikCADcCCCAEIA5BCGoqAgA4AhACfyAOQQxqKAIAIgZB//8BcQRAIAZB/wdxIQcgBkGAgAJxIQkgBkGA+AFxIgZBgPgBRwRAIAlBEHQhCSAGQQ10QYCAgPwAcSAHQQ10ckGAgIDAA2ogCXIgBg0CGiAJQYCAgNgDciAHZ0EQayIGQRd0ayAHIAZB//8DcUEIanRB////A3FyDAILIAlBEHQhBiAGIAdBDXRyQYCAgP4HciAHDQEaIAZBgICA/AdyDAELIAZBEHQLIQcgBEEUaiIJIAMgFWoQlgMgASATSQRAIAEgEk8NAiAOIARBCGogB74gCSANLwEAIAggHWooAgAQkQIgCEEEaiEIIA1BAmohDSABQQFqIQEgGCADQRBqIgNHDQEMBgsLIAEgE0Hs1cEAEK4HAAsgASASQfzVwQAQrgcACwwJCwwIC0EAIAIgFEGc1sEAENUHAAsgBCAPIAwgFxDeCCIBELsKIgM2AgggBCACNgIUIAIgA0YEQCABIAsgAhDkCSABQYQITwRAIAEQhQcLIAUiASAKSQ0BDAILCwwFCwJAIBFBgICAgHhyQYCAgIB4RwRAIAAoApwBIgFBBGsoAgAiBUF4cSICIBFBAnQiA0EEQQggBUEDcSIFG2pJDQcgBUEAIAIgA0EnaksbDQggARCfAgsgAEGAgICAeDYCmAEgEEGAgICAeHJBgICAgHhHBEAgACgCkAEiAUEEaygCACIFQXhxIgIgEEEBdCIDQQRBCCAFQQNxIgUbakkNByAFQQAgAiADQSdqSxsNASABEJ8CCyAAQYCAgIB4NgKMAQwDCwwGC0Hc1cEAENAJAAtBzNXBABDQCQALQQAhASAAQQA2AnwgACgCeCEFIAAoAnQhAiAAQoCAgIDAADcCdAJAIAIEQCAFQQRrKAIAIgNBeHEiCCACQQJ0IgJBBEEIIANBA3EiAxtqSQ0EIANBACAIIAJBJ2pLGw0FIAUQnwILIABBADYCiAEgACgChAEhBSAAKAKAASECIABCgICAgMAANwKAASACRQ0BIAVBBGsoAgAiAEF4cSIDIAJBAnQiAkEEQQggAEEDcSIAG2pJDQMgAEEAIAMgAkEnaksbDQAgBRCfAgwBCwwDCyAEQSBqJAAgAQ8LQQAgBEEIaiAEQRRqQQAgBEG088QAEOQHAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALwgoBB38jAEHAB2siBCQAAkACQAJAAkBBgIABEHEiBQRAIAVBBGstAABBA3EEQCAFQQBBgIAB/AsAC0GAEBBxIgZFDQEgBkEEay0AAEEDcQRAIAZBAEGAEPwLAAsgBEGkB2pBADsBACAEQQA2AqAHIARBADYClAcgBEEANgKIByAEQQA6AIQHIARBADYCgAcgBCAGNgL8BiAEIAU2AvgGIARCAjcD8AYgBEIANwPoBiAEQoCAgIAgNwPgBiAEQQBB2Ab8CwAgBEEAOgCmByAEQQE2AtwGIARBIzYC2AZBgAggAyADQYAITxshBUEBIQgCQCADRQ0AIAUQcSIIRQ0DIAhBBGstAABBA3FFIAVFcg0AIAhBACAF/AsACyAEIAU2ArAHIAQgCDYCrAcgBCAFNgKoBwJAAkADQCAEQbQHaiAEIAEgCWogAiAJayAIIAUgB0EBEEIgBC0AtAcEQCAAIAQtALUHOgAIIABCgYCAgICAgICAfzcCACAEKAKoByIABEAgCEEEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgAGpJDQggAUEAIAIgAEEnaksbDQkgCBCfAgsgBCgC+AYiAUEEaygCACIAQXhxQYSAAUGIgAEgAEEDcSICG0kNByACQQAgAEGogAFPGw0IIAEQnwIgBCgC4AYiAARAIAQoAuQGIgFBBGsoAgAiAkF4cSIDIABBAXQiAEEEQQggAkEDcSICG2pJDQggAkEAIAMgAEEnaksbDQkgARCfAgsgBCgC/AYiAUEEaygCACIAQXhxQYQQQYgQIABBA3EiAhtJDQcgAkEAIABBqBBPGw0IDAMLIAQtAKMHIgZBB0cgBCgCvAcgB2oiByADR3FFBEAgBSAHSQRAIAcgBWsiASAEKAKoByAFa0sEQCAEQagHaiAFIAFBAUEBEJgGIAQoArAHIQULIAQoAqwHIgIgBWohByABQQJPBH8gAUEBayIBBEAgB0EAIAH8CwALIAIgASAFaiIFagUgBwtBADoAACAFQQFqIQcgBC0AowchBgsgACAEKQKoBzcCBCAAQQxqIAc2AgAgACAGQf8BcUEHRzYCACAEKAL4BiIBQQRrKAIAIgBBeHFBhIABQYiAASAAQQNxIgIbTw0CQcDfxwBBLkHw38cAEOcIAAsgBCgCuAcgCWohCSAEAn8gBSADIAdBgIACaiIGIAMgBkkbIgZPBEAgBgwBCyAGIAVrIgogBCgCqAcgBWtLBEAgBEGoB2ogBSAKQQFBARCYBiAEKAKsByEIIAQoArAHIQULIAUgCGohBiAKQQJPBH8gCkEBayIKBEAgBkEAIAr8CwALIAggBSAKaiIFagUgBgtBADoAACAFQQFqCyIFNgKwByACIAlPDQALIAkgAiACQbi1xAAQ1QcACyACQQAgAEGogAFPGw0FIAEQnwIgBCgC4AYiAARAIAQoAuQGIgFBBGsoAgAiAkF4cSIDIABBAXQiAEEEQQggAkEDcSICG2pJDQUgAkEAIAMgAEEnaksbDQYgARCfAgsgBCgC/AYiAUEEaygCACIAQXhxQYQQQYgQIABBA3EiAhtJDQQgAkEAIABBqBBPGw0FCyABEJ8CIAQoAuwGIgAEQCAEKALwBiIBQQRrKAIAIgJBeHEiAyAAQQF0IgBBBEEIIAJBA3EiAhtqSQ0EIAJBACADIABBJ2pLGw0FIAEQnwILIARBwAdqJAAPC0GAgAEQ6AkAC0GAEBDoCQALQQEgBRDhCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC5ALAgl/An0jAEGAAWsiCCQAAn8CQCAAKAIIIgcgAUsEQCAAKAIEIAFBJGxqIgcQgwQhDiAHLwEUIgVB//8BcUUNASAFQf8HcSEHIAVBgIACcSEGIAVBgPgBcSIFQYD4AUcEQCAGQRB0IQYgBUENdEGAgID8AHEgB0ENdHJBgICAwANqIAZyIAUNAxogBkGAgIDYA3IgB2dBEGsiBUEXdGsgByAFQf//A3FBCGp0Qf///wNxcgwDCyAGQRB0IQUgBSAHQQ10ckGAgID+B3IgBw0CGiAFQYCAgPwHcgwCCyABIAdBxKLHABCuBwALIAVBEHQLIQVDAACAPyEPAkACQAJAIA4gDpIgBb4iDkMAAIA/XgR9IA4QugVDVPgtQJRDAACAP5KRBSAPC5QgA11FBEAgCCAAKAIQIgcgACgCFCIGIAEQ4wICQCAIKAIkIgVBCU8EQCAIKAIEIgkNASAIKAIIIgBBBGsoAgAiAUF4cSICIAVBAnQiBEEEQQggAUEDcSIBG2pJDQQgAUEAIAIgBEEnaksbDQUgABCfAgwDCyAFIQkgBUUNAgsgCEEoaiACKAIIIgogCSAKahCIAyAHIAYgASAIKAJMIglBCE0EfyAIQSxqBSAIKAIsIQkgCCgCMAsgCRDWBSAIQQRqIgEhBiAFQQlPBEAgCCgCCCEGIAgoAgQhBQsCQCAFQQJJDQAgBUEVTwRAIAYgBRC7BQwBCyAGQQRqIQcCQCAFQQFxBEAgByEKIAYhBwwBCyAGKAIEIgogBigCACILSQRAIAYgCjYCACAGIAs2AgQLIAZBCGohCgsgBUECRg0AIAYgBUECdGohDSAKQQRqIQwDQCAKKAIAIgkgBygCACIFSQRAIAohCwJ/A0AgCyAFNgIAIAYgBiAHRg0BGiAHIQsgCSAHQQRrIgcoAgAiBUkNAAsgB0EEagsgCTYCACAKKAIAIQkLIAkgCigCBCILSwRAIAwhBQNAAkAgBSAJNgIAIAYgBUEEayIHRgRAIAYhBwwBCyAFQQhrIQkgByEFIAsgCSgCACIJSQ0BCwsgByALNgIACyAKQQRqIQcgDEEIaiEMIApBCGoiCiANRw0ACwsgCCgCJCIGIQUgBkEJTwRAIAgoAgQhBSAIKAIIIQELIAUEQCAFQQJ0IQcgAigCCCIFQQJ0IQYDQCABKAIAIQogAigCACAFRgRAIAIQ5gYLIAFBBGohASACKAIEIAZqIAo2AgAgAiAFQQFqIgU2AgggBkEEaiEGIAdBBGsiBw0ACyAIKAIkIQYLIAgoAgQhBSAIQfAAaiAIQSBqKAIANgIAIAhB6ABqIAhBGGopAgA3AgAgCCAI/QACCP0LAlggCCAFIAYgBkEISyIBGyIHNgJ8IAggBkEAIAEbNgJ0IAhBACAFIAEbNgJUAkACQCAHBEAgBkEJTwRAIAgoAlgiByEBA0AgACABKAIAIAIgAyAEENoBIAFBBGohASAFQQFrIgUNAAsMAgsgCEHUAGohAUEAIQUDQCAIIAVBAWoiBTYCeCAAIAEoAgAgAiADIAQQ2gEgAUEEaiEBIAUgBkcNAAsMAgsgBkEJSQ0BIAgoAlghBwsgB0EEaygCACIAQXhxIgEgBkECdCICQQRBCCAAQQNxIgAbakkNAyAAQQAgASACQSdqSxsNBCAHEJ8CCyAIKAJMIgBBCUkNASAIKAIwIgFBBGsoAgAiAkF4cSIEIABBAnQiAEEEQQggAkEDcSICG2pJDQIgAkEAIAQgAEEnaksbDQMgARCfAgwBCyAEKAIIIgAgBCgCAEYEQCAEEOYGCyAEKAIEIABBAnRqIAE2AgAgBCAAQQFqNgIIDAALIAhBgAFqJAAPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvVDAIMfQl/AkACQAJAAkACQCAEBEBDAAD+QiAFlSEFIAFBfHEhFiADQQ9uQTxsIRcgAUEDakF8cSEYIAFBAmpBfHEhGUECIAEgAUECTRtBAWpBfHEhGgNAIBUgF0YNA0MAAP5CQwAA/sIgBSACIBVqIhJBMGoqAgCUIgcgB0MAAP7CXRsiByAHQwAA/kJeGxCdByEHQwAA/kJDAAD+wiAFIBJBNGoqAgCUIgggCEMAAP7CXRsiCCAIQwAA/kJeGxCdByEIQwAA/kJDAAD+wiAFIBJBOGoqAgCUIgkgCUMAAP7CXRsiCSAJQwAA/kJeGxCdByEJQwAA/kJDAAD+wiAFIBJBIGoqAgCUIgogCkMAAP7CXRsiCiAKQwAA/kJeGxCdByEKQwAA/kJDAAD+wiAFIBJBJGoqAgCUIgsgC0MAAP7CXRsiCyALQwAA/kJeGxCdByELQwAA/kJDAAD+wiAFIBJBKGoqAgCUIgwgDEMAAP7CXRsiDCAMQwAA/kJeGxCdByEMQwAA/kJDAAD+wiAFIBJBLGoqAgCUIg0gDUMAAP7CXRsiDSANQwAA/kJeGxCdByENQwAA/kJDAAD+wiAFIBJBEGoqAgCUIg4gDkMAAP7CXRsiDiAOQwAA/kJeGxCdByEOQwAA/kJDAAD+wiAFIBJBFGoqAgCUIg8gD0MAAP7CXRsiDyAPQwAA/kJeGxCdByEPQwAA/kJDAAD+wiAFIBJBGGoqAgCUIhAgEEMAAP7CXRsiECAQQwAA/kJeGxCdByEQQwAA/kJDAAD+wiAFIBJBHGoqAgCUIhEgEUMAAP7CXRsiESARQwAA/kJeGxCdByERIBMgGEYNBCAAQf8AQwAA/kJDAAD+wiAFIBIqAgCUIgYgBkMAAP7CXRsiBiAGQwAA/kJeGxCdByIG/ABBgH8gBkMAAADDYBsgBkMAAP5CXhtBACAGIAZbG0H/AXFB/wBDAAD+QkMAAP7CIAUgEkEEaioCAJQiBiAGQwAA/sJdGyIGIAZDAAD+Ql4bEJ0HIgb8AEGAfyAGQwAAAMNgGyAGQwAA/kJeG0EAIAYgBlsbQf8BcUEIdHJB/wBDAAD+QkMAAP7CIAUgEkEIaioCAJQiBiAGQwAA/sJdGyIGIAZDAAD+Ql4bEJ0HIgb8AEGAfyAGQwAAAMNgGyAGQwAA/kJeG0EAIAYgBlsbQf8BcUEQdHJB/wBDAAD+QkMAAP7CIAUgEkEMaioCAJQiBiAGQwAA/sJdGyIGIAZDAAD+Ql4bEJ0HIgb8AEGAfyAGQwAAAMNgGyAGQwAA/kJeG0EAIAYgBlsbQRh0cjYCACATIBlGDQUgAEEEakH/ACAO/ABBgH8gDkMAAADDYBsgDkMAAP5CXhtBACAOIA5bG0H/AXFB/wAgD/wAQYB/IA9DAAAAw2AbIA9DAAD+Ql4bQQAgDyAPWxtB/wFxQQh0ckH/ACAQ/ABBgH8gEEMAAADDYBsgEEMAAP5CXhtBACAQIBBbG0H/AXFBEHRyQf8AIBH8AEGAfyARQwAAAMNgGyARQwAA/kJeG0EAIBEgEVsbQRh0cjYCACATIBpGDQYgAEEIakH/ACAK/ABBgH8gCkMAAADDYBsgCkMAAP5CXhtBACAKIApbG0H/AXFB/wAgC/wAQYB/IAtDAAAAw2AbIAtDAAD+Ql4bQQAgCyALWxtB/wFxQQh0ckH/ACAM/ABBgH8gDEMAAADDYBsgDEMAAP5CXhtBACAMIAxbG0H/AXFBEHRyQf8AIA38AEGAfyANQwAAAMNgGyANQwAA/kJeG0EAIA0gDVsbQRh0cjYCACATIBZGDQIgAEEMakH/ACAH/ABBgH8gB0MAAADDYBsgB0MAAP5CXhtBACAHIAdbG0H/AXFB/wAgCPwAQYB/IAhDAAAAw2AbIAhDAAD+Ql4bQQAgCCAIWxtB/wFxQQh0ckH/ACAJ/ABBgH8gCUMAAADDYBsgCUMAAP5CXhtBACAJIAlbG0H/AXFBEHRyNgIAIABBEGohACAUQQ9qIRQgFUE8aiEVIBNBBGohEyAEQQFrIgQNAAsLDwsgE0EDaiABQcyuxwAQrgcACyAUIBRBD2ogA0HcrscAENUHAAsgEyABQZyuxwAQrgcACyATQQFqIAFBrK7HABCuBwALIBNBAmogAUG8rscAEK4HAAvZCgMUfwJ+AXsjAEHQAmsiDyQAQoCAgICAgICAwAAgAa0iGYAiGiAZfkKAgICAgICAgMAAUq0CfyABQYEgTwRAQQEgAUEBcmdBH3MiBUEBdiAFQQFxaiIFdCABIAV2akEBdgwBC0HAACABIAFBAXZrIgUgBUHAAE8bCyERIBp8IRogAEEEayEWIABBEGshFyAAQQhqIRRBASEJA0BBACESQQEhCiABIAxLIhgEQCAAIAxBAnQiEGohDSAMrSIZAn8CQCABIAxrIgogEUkNAAJAIApBAkkEQCAKIQYMAQsCQAJAAkACQAJAIA0oAgQiBSANKAIASSIORQRAQQIhBiAKQQJGDQYgFCAMQQJ0aiEIA0AgBSAIKAIAIgVLDQMgCEEEaiEIIAogBkEBaiIGRw0ACwwBCyAKQQJGDQJBAiEGIBQgDEECdGohCANAIAUgCCgCACIFTQ0CIAhBBGohCCAKIAZBAWoiBkcNAAsLIAohBgsgBiARSQ0EIA5FDQMgBkECTw0BQQEhBgwDCyANQQhqIQpBACEIQQEhDkECIQYMAQsgBkEBdiEOIA0gBkECdCIFaiEKQQAhCCAGQQhJDQAgFyAFIBBqaiEHIA5B/P///wdxIgghBQNAIA0gB/0AAgAgDf0AAgAiG/0NDA0ODwgJCgsEBQYHAAECA/0LAgAgByAbIBv9DQwNDg8ICQoLBAUGBwABAgP9CwIAIAdBEGshByANQRBqIQ0gBUEEayIFDQALIAggDkYNAQsgACAIQQJ0IgUgEGpqIQcgDiAIayEIIAogBWtBBGshBQNAIAcoAgAhCiAHIAUoAgA2AgAgBSAKNgIAIAVBBGshBSAHQQRqIQcgCEEBayIIDQALCyAGQQF0QQFyDAELIAogESAKIBFJG0EBdCAERQ0AGiANQSAgCiAKQSBPGyIFIAIgA0EAQQAQlgEgBUEBdEEBcgsiCkEBdiAMaq18IBp+IAwgCUEBdmutIBl8IBp+hXmnIRILAkACQCALQQJJDQAgFiAMQQJ0IgVqIQ4gACAFaiENA0AgC0EBayIQIA9BjgJqai0AACASSQ0BAn8CQAJAIAMgD0EEaiAQQQJ0aigCACIFQQF2IgcgCUEBdiIGaiITTyAFIAlyQQFxRXFFBEAgACAMIBNrQQJ0aiELIAVBAXFFDQEMAgsgE0EBdAwCCyALIAcgAiADIAdBAXJnQQF0QT5zQQAQlgELIAlBAXFFBEAgCyAHQQJ0aiAGIAIgAyAGQQFyZ0EBdEE+c0EAEJYBCwJAIAVBAkkgCUECSXINACADIAYgByAGIAdJIgYbIgVJDQAgCyAHQQJ0aiEJIAVBAnQiBQRAIAIgCSALIAYbIAX8CgAACyACIAVqIQcCQCAGRQRAIAIhBQNAIAsgCSgCACIVIAUoAgAiCCAIIBVLIgYbNgIAIAtBBGohCyAFIAggFU1BAnRqIgUgB0YNAiAJIAZBAnRqIgkgDUcNAAsMAQsgDiEGA0ACQCAGIAdBBGsiBygCACIIIAlBBGsiBSgCACIJIAggCUsbNgIAIAcgCCAJSUECdGohByAFIAggCU9BAnRqIgkgC0YNACAGQQRrIQYgAiAHRw0BCwsgCSELIAIhBQsgByAFayIGRQ0AIAsgBSAG/AoAAAsgE0EBdEEBcgshCUEBIQcgECILQQFLDQALDAELIAshBwsgD0GOAmogB2ogEjoAACAPQQRqIAdBAnRqIAk2AgAgGARAIAdBAWohCyAKQQF2IAxqIQwgCiEJDAELCyAJQQFxRQRAIAAgASACIAMgAUEBcmdBAXRBPnNBABCWAQsgD0HQAmokAAvjCwEDfyAAIAApAwAgAq18NwMAIAAoAghBf3MhBCACQcAATwRAA0AgAUEzai0AACABQSNqLQAAIAFBE2otAAAgAS0AACAEQf8BcXNBAnQoAvSJRCABQQFqLQAAIARBCHZB/wFxc0ECdCgC9IFEIAFBAmotAAAgBEEQdkH/AXFzQQJ0KAL0+UMgAUEDai0AACAEQRh2c0ECdCgC9PFDIAFBBGotAABBAnQoAvTpQyABQQVqLQAAQQJ0KAL04UMgAUEGai0AAEECdCgC9NlDIAFBB2otAABBAnQoAvTRQyABQQhqLQAAQQJ0KAL0yUMgAUEJai0AAEECdCgC9MFDIAFBCmotAABBAnQoAvS5QyABQQtqLQAAQQJ0KAL0sUMgAUEMai0AAEECdCgC9KlDIAFBDWotAABBAnQoAvShQyABQQ9qLQAAQQJ0KAL0kUMgAUEOai0AAEECdCgC9JlDc3Nzc3Nzc3Nzc3Nzc3NzIgNBGHZzQQJ0KAL08UMgAUEUai0AAEECdCgC9OlDIAFBFWotAABBAnQoAvThQyABQRZqLQAAQQJ0KAL02UMgAUEXai0AAEECdCgC9NFDIAFBGGotAABBAnQoAvTJQyABQRlqLQAAQQJ0KAL0wUMgAUEaai0AAEECdCgC9LlDIAFBG2otAABBAnQoAvSxQyABQRxqLQAAQQJ0KAL0qUMgAUEdai0AAEECdCgC9KFDIAFBH2otAABBAnQoAvSRQyABQR5qLQAAQQJ0KAL0mUNzc3Nzc3Nzc3Nzc3MgAUESai0AACADQRB2Qf8BcXNBAnQoAvT5Q3MgAUERai0AACADQQh2Qf8BcXNBAnQoAvSBRHMgAUEQai0AACADQf8BcXNBAnQoAvSJRHMiA0EYdnNBAnQoAvTxQyABQSRqLQAAQQJ0KAL06UMgAUElai0AAEECdCgC9OFDIAFBJmotAABBAnQoAvTZQyABQSdqLQAAQQJ0KAL00UMgAUEoai0AAEECdCgC9MlDIAFBKWotAABBAnQoAvTBQyABQSpqLQAAQQJ0KAL0uUMgAUErai0AAEECdCgC9LFDIAFBLGotAABBAnQoAvSpQyABQS1qLQAAQQJ0KAL0oUMgAUEvai0AAEECdCgC9JFDIAFBLmotAABBAnQoAvSZQ3Nzc3Nzc3Nzc3NzcyABQSJqLQAAIANBEHZB/wFxc0ECdCgC9PlDcyABQSFqLQAAIANBCHZB/wFxc0ECdCgC9IFEcyABQSBqLQAAIANB/wFxc0ECdCgC9IlEcyIDQRh2c0ECdCgC9PFDIAFBNGotAABBAnQoAvTpQyABQTVqLQAAQQJ0KAL04UMgAUE2ai0AAEECdCgC9NlDIAFBN2otAABBAnQoAvTRQyABQThqLQAAQQJ0KAL0yUMgAUE5ai0AAEECdCgC9MFDIAFBOmotAABBAnQoAvS5QyABQTtqLQAAQQJ0KAL0sUMgAUE8ai0AAEECdCgC9KlDIAFBPWotAABBAnQoAvShQyABQT5qLQAAQQJ0KAL0mUMgAUE/ai0AAEECdCgC9JFDc3Nzc3Nzc3Nzc3NzIAFBMmotAAAgA0EQdkH/AXFzQQJ0KAL0+UNzIAFBMWotAAAgA0EIdkH/AXFzQQJ0KAL0gURzIAFBMGotAAAgA0H/AXFzQQJ0KAL0iURzIQQgAUFAayEBIAJBQGoiAkE/Sw0ACwsCQCACRQ0AAkAgAkEDcSIFRQRAIAEhAwwBCyABIQMDQCADLQAAIARzQf8BcUECdCgC9JFDIARBCHZzIQQgA0EBaiEDIAVBAWsiBQ0ACwsgAkEESQ0AIAEgAmohAQNAIAMtAAAgBHNB/wFxQQJ0KAL0kUMgBEEIdnMiAiADQQFqLQAAc0H/AXFBAnQoAvSRQyACQQh2cyICIANBAmotAABzQf8BcUECdCgC9JFDIAJBCHZzIgIgA0EDai0AAHNB/wFxQQJ0KAL0kUMgAkEIdnMhBCADQQRqIgMgAUcNAAsLIAAgBEF/czYCCAvkCgIMfwV9IAIgAUECdEEEayIGaiEMIAAgBmohCiAAIAFBAXYiDUECdGoiBkEEayELIANBBGohDgNAQwAAgD8hEAJ/AkAgBigCACIDIA4oAgAiBEEIaigCACIFSQRAIAAoAgAhCSAEQQRqKAIAIgcgA0EkbGoiAxCDBCESIAMvARQiBEH//wFxRQ0BIARB/wdxIQMgBEGAgAJxIQggBEGA+AFxIgRBgPgBRwRAIAhBEHQhCCAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogCHIgBA0DGiAIQYCAgNgDciADZ0EQayIEQRd0ayADIARB//8DcUEIanRB////A3FyDAMLIAhBEHQhBCAEIANBDXRyQYCAgP4HciADDQIaIARBgICA/AdyDAILIAMgBUHEoscAEK4HAAsgBEEQdAu+IhFDAACAP14EQCARELoFQ1T4LUCUQwAAgD+SkSEQC0MAAIA/IRECfwJAIAUgCUsEQCAHIAlBJGxqIgMQgwQhEyADLwEUIgRB//8BcUUNASAEQf8HcSEDIARBgIACcSEFIARBgPgBcSIEQYD4AUcEQCAFQRB0IQUgBEENdEGAgID8AHEgA0ENdHJBgICAwANqIAVyIAQNAxogBUGAgIDYA3IgA2dBEGsiBEEXdGsgAyAEQf//A3FBCGp0Qf///wNxcgwDCyAFQRB0IQQgBCADQQ10ckGAgID+B3IgAw0CGiAEQYCAgPwHcgwCCyAJIAVBxKLHABCuBwALIARBEHQLviIUQwAAgD9eBEAgFBC6BUNU+C1AlEMAAIA/kpEhEQsgAiAGIAAgEiASkiAQlCIQIBBbIBAgEyATkiARlGBFcSIIGygCADYCAEMAAIA/IRACfwJAIAooAgAiAyAOKAIAIgRBCGooAgAiBUkEQCALKAIAIQkgBEEEaigCACIPIANBJGxqIgMQgwQhEiADLwEUIgRB//8BcUUNASAEQf8HcSEDIARBgIACcSEHIARBgPgBcSIEQYD4AUcEQCAHQRB0IQcgBEENdEGAgID8AHEgA0ENdHJBgICAwANqIAdyIAQNAxogB0GAgIDYA3IgA2dBEGsiBEEXdGsgAyAEQf//A3FBCGp0Qf///wNxcgwDCyAHQRB0IQQgBCADQQ10ckGAgID+B3IgAw0CGiAEQYCAgPwHcgwCCyADIAVBxKLHABCuBwALIARBEHQLviIRQwAAgD9eBEAgERC6BUNU+C1AlEMAAIA/kpEhEAtDAACAPyERAn8CQCAFIAlLBEAgCEUhByAPIAlBJGxqIgMQgwQhEyADLwEUIgRB//8BcUUNASAEQf8HcSEDIARBgIACcSEFIARBgPgBcSIEQYD4AUcEQCAFQRB0IQUgBEENdEGAgID8AHEgA0ENdHJBgICAwANqIAVyIAQNAxogBUGAgIDYA3IgA2dBEGsiBEEXdGsgAyAEQf//A3FBCGp0Qf///wNxcgwDCyAFQRB0IQQgBCADQQ10ckGAgID+B3IgAw0CGiAEQYCAgPwHcgwCCyAJIAVBxKLHABCuBwALIARBEHQLviIUQwAAgD9eBEAgFBC6BUNU+C1AlEMAAIA/kpEhEQsgCEECdCAGaiEGIAdBAnQgAGohACACQQRqIQIgDCALIAogEiASkiAQlCIQIBBbIBAgEyATkiARlGBFcSIDGygCADYCACALIANBAnQiA2shCyADIApqQQRrIQogDEEEayEMIA1BAWsiDQ0ACyALQQRqIQMgAUEBcQR/IAIgACAGIAAgA0kiARsoAgA2AgAgBiAAIANPQQJ0aiEGIAAgAUECdGoFIAALIANHIAYgCkEEakdyRQRADwsQ0wkAC+kJAQ1/IwBBIGsiBCQAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAEoAihBAkcEQCABKALkAUE4bCECIAEoAuABQRhqIQECQANAIAEhAyACRQ0BIAJBOGshAiABQThqIQFBoK3HAEERIANBBGsoAgAgAygCABC4A0UNAAsgA0EYayICKAIUIQECQCACKAIYIghFBEBBASEMDAELIAgQcSIMRQ0DCyAIBEAgDCABIAj8CgAACyACKAIgIQECQCACKAIkIglFBEBBASENDAELIAkQcSINRQ0ECyAJBEAgDSABIAn8CgAACyACKAIsIQECQCACKAIwIgpFBEBBASEODAELIAoQcSIORQ0FCyAKBEAgDiABIAr8CgAAC0EBIQUgAigCAEEBRgRAIAIoAgghAwJAIAIoAgwiAUUEQAwBCyABEHEiBUUNDQsgAQRAIAUgAyAB/AoAAAsgASEDDAkLIAIoAgghASACKAIMIgMEQCADEHEiBUUNBgsgAwRAIAUgASAD/AoAAAsgBEEQaiAFIANBgICAARDZASAEKAIUIQcCQCAEKAIQQQFGBEAgBEEeOgAAIAdBgICAgHhHDQEgBEEDOgABIAAgBBDxAwwLCyAEQRBqIAQoAhgiAiAEKAIcIgEQ+gIgBCgCEEEBRgRAIAcEQCACQQRrKAIAIgFBeHEiBkEEQQggAUEDcSIBGyAHakkNDyABQQAgBiAHQSdqSxsNECACEJ8CCyAEQR47AQAMCQsgA0UNByAFQQRrKAIAIgZBeHEiC0EEQQggBkEDcSIGGyADakkNDSAGQQAgCyADQSdqSxsNDiAFEJ8CDAcLIARBBDoAASAHRQ0HIAQoAhgiBkEEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgB2pJDQwgAUEAIAIgB0EnaksbDQ0gBhCfAiAAIAQQ8QMMCQsgAEKGgICAgICAgIB/NwMADAkLQZT9xgAQ0AkAC0EBIAgQ4QgAC0EBIAkQ4QgAC0EBIAoQ4QgAC0EBIAMQ4QgACyACIQUgByEDDAELIAAgBBDxAwwBCwJAIAFFBEBBASEGIAFFIgJFBEBBASAFIAH8CgAACyACDQFBAUEBIAH8CgAADAELIAEQcSILRQ0DIAFFIgJFBEAgCyAFIAH8CgAACyABEHEiBkUNAyACRQRAIAYgCyAB/AoAAAsgC0EEaygCACICQXhxIgdBBEEIIAJBA3EiAhsgAWpJDQQgAkEAIAcgAUEnaksbDQUgCxCfAgsgACABNgIMIAAgBjYCCCAAIAE2AgQgAEEGNgIACyAIBEAgDEEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgCGpJDQMgAEEAIAEgCEEnaksbDQQgDBCfAgsgCQRAIA1BBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIAlqSQ0DIABBACABIAlBJ2pLGw0EIA0QnwILIAoEQCAOQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyAKakkNAyAAQQAgASAKQSdqSxsNBCAOEJ8CCyADRQ0AIAVBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIANqSQ0CIABBACABIANBJ2pLGw0DIAUQnwIMAAsgBEEgaiQADwtBASABEOEIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALogwCDn8DfiMAQRBrIgMkAAJAAkAgAAJ/AkACQAJAAn4CQAJAAkACQAJAAkACQCABKAKoAUEBaw4CAQIACwJAAkACQEElEHEiAQRAIAFBHWpBhYLHACkAADcAACABQRBqQfiBxwD9AAAA/QsAACABQeiBxwD9AAAA/QsAAEEMEHEiAkUNASACQSU2AgggAiABNgIEIAJBJTYCAEEMEHEiAUUNAiABQSg6AAggAUGggscANgIEIAEgAjYCACADIAGtQiCGQgOENwIADAMLQQFBJRDhCAALQQwQ6AkAC0EMEOgJAAsMAgsgAyABQbABaiACEPgBDAELIAEoAqwBIQkgAigCACIPIQUgAigCCCILIQcCfwJAIA8gC2tBIE8NACADIAkgAhCLBAJAQQACfyADLQAAQQRGBEAgAygCBAwBCyADKQMAIhFCIIghEyARQv8Bg0IEUg0BIBOnC0UNAhogAigCACEFIAIoAgghBwwBCyARQoB+gwwGC0GAwAAhCgNAAkACQCAFIA9HIAUgB0dyDQAgAyAJIAIQiwQCQAJ/IAMtAABBBEYEQCADKAIEDAELIAMpAwAiEUIgiCETIBFC/wGDQgRSDQEgE6cLIAIoAgghB0UNAiACKAIAIQUMAQsgEUKAfoMMCAsgAigCBCEBIAUgB0YEQCADIAUgASAFQSBqIgEgBUEBdCIFIAEgBUsbIgVBAUEBEIsGIAMoAgBBAUYEQEIBIRFCACETQoDMAAwJCyADKAIEIQEgAiAFNgIAIAIgATYCBAsgASAHaiENIAogBSAHayIQIAogEEkbIgwgBGsiAQRAIAQgDWpBACAB/AsACyADIAkgDSAMEN0CAkAgAy0AAEEERg0AIAMpAwAiEkIgiCITpyEEQgAhEQJAAkACQAJAAkAgEqdB/wFxQQFrDgQCAQAEDAsgBC0ACEEjRg0CDAoLIAQtAAhBI0YNAUICIREMCgsgEkKA/gODQoDGAFENAEIBIREMCQsCfyASQv8Bg0IDUQRAIAQoAgAhASAEQQRqKAIAIgYoAgAiCARAIAEgCBEDAAsgBigCBCIGBEAgAUEEaygCACIIQXhxIg5BBEEIIAhBA3EiCBsgBmpJDREgCEEAIA4gBkEnaksbDRIgARCfAgsgBEEEaygCACIBQXhxIgZBEEEUIAFBA3EiARtJDRAgAUEAIAZBNE8bRQRAQQAMAgsMEQtBAQshAQNAAkACQCABRQRAIAQQnwIMAQsgAyAJIA0gDBDdAiADLQAAQQRGDQQgAykDACISQiCIIhOnIQQCQAJAAkACQCASp0H/AXFBAWsOBAABAgcPCyASQoD+A4NCgMYAUQ0CQgEhEQwOCyAELQAIQSNGDQFCAiERDA0LIAQtAAhBI0cNCwsgEkL/AYNCA1ENAQtBASEBDAELIAQoAgAhASAEQQRqKAIAIgYoAgAiCARAIAEgCBEDAAsgBigCBCIGBEAgAUEEaygCACIIQXhxIg5BBEEIIAhBA3EiCBsgBmpJDRAgCEEAIA4gBkEnaksbDREgARCfAgsgBEEEaygCACIBQXhxIgZBEEEUIAFBA3EiARtJDQ8gAUUgBkE0SXJFBEAMEQtBACEBDAALAAsgAiAHNgIIDAELIAMoAgQiASAMSwRAQZyAxwBBNkHUgMcAEOcIAAsgAiABIAdqIgc2AgggAUUNACAMIAFrIQQgASAMRyAKIBBLcg0BIApBAEggCkEBdCEKRQ0BQX8hCgwBCwsgByALawshASAJLQC0AUEBRw0GIAIoAggiBCALSQ0BIAlBoAFqIAIoAgQgC2ogBCALaxDdASAJKAKwASAJKAKoAUYNBiADQRVB3OjHAEEQELsGCyADLQAAIQEMBAsgCyAEIARB/I7HABDVBwALQgMhEQsgAiAHNgIIIBJCgH6DCyESIAMgEz4CBCADIBGnIgE6AAAgAyASpyICQRh2OgADIAMgAkEIdjsAAQsgAUH/AXFBBEcNASADKAIEIQELIAAgAa03AwhBAAwBCyAAIAMpAwA3AgRBAQs2AgAgA0EQaiQADwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALiwsDC38CewF+QQEhCkEBIQwgBEEBRwRAQQEhCEEBIQcDQAJAIAQgBSAJaiIGSwRAIAMgCGotAAAiCCADIAZqLQAAIgZPBEAgBiAIRwRAQQEhCkEAIQUgByEJIAdBAWohBwwDC0EAIAVBAWoiCCAIIApGIgYbIQUgCEEAIAYbIAdqIQcMAgsgBSAHakEBaiIHIAlrIQpBACEFDAELIAYgBEHkosIAEK4HAAsgBSAHaiIIIARJDQALQQEhCEEBIQdBACEFQQAhBgNAAkACQCAEIAUgBmoiC0sEQCADIAhqLQAAIgggAyALai0AACILSw0BIAggC0cEQEEBIQxBACEFIAchBiAHQQFqIQcMAwtBACAFQQFqIgggCCAMRiILGyEFIAhBACALGyAHaiEHDAILIAsgBEHkosIAEK4HAAsgBSAHakEBaiIHIAZrIQxBACEFCyAFIAdqIgggBEkNAAsLAkACQAJAAkACQCAJIAYgBiAJSSIHGyILIARNBEAgCiAMIAcbIgcgC2oiBSAHSSAEIAVJcg0BAn8gAyADIAdqIAsQuwcEQAJAAkAgBEECSQRAQQAhCAwBCyADIQUgBEEecSIIIQcDQEIBIAUvAAD9EP0MPz8/Pz8/Pz8/Pz8/Pz8/P/1O/YkB/akB/ckBIhH9HQCG/RJCASAR/R0Bhv0eASAQ/VAhECAFQQJqIQUgB0ECayIHDQALIBAgECAQ/Q0ICQoLDA0ODwABAgMEBQYH/VD9HQAhEiAEIAhGDQELIAMgCGohBSAEIAhrIQcDQEIBIAUxAACGIBKEIRIgBUEBaiEFIAdBAWsiBw0ACwsgBCALayIHIAsgByALSxtBAWohB0F/IQUgCyEJQX8MAQsgBEEBayEOQQEhCUEAIQVBASEGQQAhDANAIAQgBiIIIAVqIg1LBEAgBCAFayAIQX9zaiIGIARPDQggDiAFIAxqayIKIARPDQcCQAJAIAMgBmotAAAiBiADIApqLQAAIgpPBEAgBiAKRg0BIAhBAWohBkEAIQVBASEJIAghDAwCCyANQQFqIgYgDGshCUEAIQUMAQtBACAFQQFqIgYgBiAJRiIKGyEFIAZBACAKGyAIaiEGCyAHIAlHDQELC0EBIQlBACEFQQEhBkEAIQoDQCAEIAYiCCAFaiIPSwRAIAQgBWsgCEF/c2oiBiAETw0FIA4gBSAKamsiDSAETw0GAkACQCADIAZqLQAAIgYgAyANai0AACINTQRAIAYgDUYNASAIQQFqIQZBACEFQQEhCSAIIQoMAgsgD0EBaiIGIAprIQlBACEFDAELQQAgBUEBaiIGIAYgCUYiDRshBSAGQQAgDRsgCGohBgsgByAJRw0BCwsgBCAKIAwgCiAMSxtrIQlBACEFAn8CQAJAAkACQCAHDgIAAgELIAcMAwsgAyEIIAdBfnEiBSEGA0BCASAILwAA/RD9DD8/Pz8/Pz8/Pz8/Pz8/Pz/9Tv2JAf2pAf3JASIR/R0Ahv0SQgEgEf0dAYb9HgEgEP1QIRAgCEECaiEIIAZBAmsiBg0ACyAQIBAgEP0NCAkKCwwNDg8AAQIDBAUGB/1Q/R0AIRIgBSAHRg0BCwNAQgEgAyAFajEAAIYgEoQhEiAHIAVBAWoiBUcNAAsLQQALIQUgBAshCCAAIAQ2AjwgACADNgI4IAAgAjYCNCAAIAE2AjAgACAINgIoIAAgBTYCJCAAIAI2AiAgAEEANgIcIAAgBzYCGCAAIAk2AhQgACALNgIQIAAgEjcDCCAAQQE2AgAPC0EAIAsgBEGko8IAENUHAAsgByAFIARBlKPCABDVBwALIAYgBEH0osIAEK4HAAsgDSAEQYSjwgAQrgcACyAKIARBhKPCABCuBwALIAYgBEH0osIAEK4HAAuRDAEVfyMAQSBrIgckAAJAIAEtAPgCQQhHBEACQAJAIAMEQCABQcgCaiETIAFB/QJqIQ4gB0EIakEFciEUIAFB4AJqIRggAyEJA0AgB0EGaiIVIA5BAmoiES0AADoAACABLQD4AiENIAFBCDoA+AIgByAOLwAAOwEEAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCANQQhHBEAgASgChAMhCCABKAKAAyEPIAEoAPkCIRIgDUEGa0H/AXFBAWpBACANQQVLG0EBaw4CAgMBC0G8isUAENAJAAsgFCAOLwAAOwAAIBRBAmogES0AADoAACAHIBI2AAkgByANOgAIIAcgDzYCFCAIRSAJQQRPcUUEQCAJQQQgCGsiBSAFIAlLGyIFIAhqIgYgCEkgBkEFT3INByAFBEAgB0EUaiAIaiACIAX8CgAACyAGQQRHDQQgACABIAdBCGogB0EUaiAEIAUQMQwFCyAAIAEgB0EIaiACIARBBBAxDAQLIAEoAtwCIgVFDQQgASgC4AIgASgC6AJrIgYgCSAGIAlJGyIGIAUgBSAGSxshCyABLQCRA0UEQCATIAIgCxDdAQsgAS0A7AINDSABKALoAiIKIAEoAuACIgZHBEAgCiEFDA0LIAEoAogDIgVFDQEgASAFIAUgCiAFIApJGyIMazYCiANBACEGQQAhBSAKRQ0MIAdBFGogCiABKALkAiAKIAxqIgZBAUEBEIsGIAcoAhRBAUYNBiAHKAIYIQUgASAGNgLgAiABIAU2AuQCIAEoAugCIQUMDAsgASgC3AIiBSAJIAUgCUkbIgohBiAEDQYMBwsgAEEnOgAEDAcLIAEgBjYChAMgASAHKAIUNgKAAyABIAcpAwg3A/gCIABBADoACCAAIAU2AgQgAEEANgIACyAAKAIADRAgAC0ACCEFDAoLIAFCADcDgAMgAUEEOgD4AiAAQgA3AgBBACEFIABBCGpBADoAAAwJCyAIIAZBBEHMisUAENUHAAsgBygCGCAHKAIcEOEIAAsgASgC8AIiCy0AowdBB0YNAAJAIAEtAPQCDQAgAS0A9QJBAXFFDQAgC0EBOgCmBwsgBCgCBCIMIAQoAgwiECgCACIZQYBAayIGIAYgDEsbIhYgBCgCCCIXKAIAIgZJDQIgB0EUaiALIAIgCiAEKAIAIAZqIBYgBmsgGSAGa0EAEEIgBy0AFEUEQCAHKAIYIQYgECAQKAIAIAcoAhxqIgw2AgACQCALLQCjB0EHRwRAIAxBgIACSQ0BIAxBgIACayIMIBcoAgBNDQELIBcgDDYCAAsgAUEBOgD0AgwBCyAAIActABU6AAUgAEEcOgAEDAELIAEtAJEDRQRAIAYgCksNAyATIAIgBhDdASABKALcAiEFCyABIAUgBms2AtwCAkAgBSAGRgRAQQQhDUEAIQ9BACEIDAELIA4gBy8BBDsAACARIBUtAAA6AAALIAEgCDYChAMgASASNgD5AiABIA06APgCIAEgDzYCgANBBSEFIABBBToACCAAIAY2AgQgAEEANgIADAULIABBATYCAAwKCyAGIBYgDEGsisUAENUHAAtBACAGIApB3IrFABDVBwALIAYgBWsgC0kEQCAYIAUgCxCmBiABKALoAiEFCyALBEAgASgC5AIgBWogAiAL/AoAAAsgASAFIAtqNgLoAgsgASABKALcAiIQIAtrNgLcAkEEIQpBACEFQQAhBkEAIQwgCyAQRwRAIA4gBy8BBDsAACARIBUtAAA6AAAgDSEKIAghDCAPIQYLIAEgDDYChAMgASASNgD5AiABIAo6APgCIAEgBjYCgAMgAEEAOgAIIAAgCzYCBCAAQQA2AgALIAAoAgQhCCAFQf8BcQ0DIAggCUsNAiACIAhqIQIgCSAIayIJDQALCyAAQQA6AAggACADNgIEIABBADYCAAwDCyAIIAkgCUHsjcUAENUHAAsgCCAJTQRAIABBADYCACAAIAMgCWsgCGo2AgQMAgsgCCAJIAlB/I3FABDVBwALIABBAjYCCCAAQSY6AAQgAEEBNgIACyAHQSBqJAALwwsCCn8HfSMAQRBrIgokACAAEKIFIABBwAFqQQA6AAAgAEIANwK4ASACQQJ0IgYhBSAAKAJ8IgcgBkkEQCAGIAciBWsiCSAAKAJ0IAVrSwRAIABB9ABqIAUgCUEEQQQQmAYgACgCfCEFCyAAKAJ4Ig0gBUECdCILaiEIIAlBAk8EQCAGIAdBf3NqQQJ0Ig4EQCAIQQAgDvwLAAsgAkEEdCAHQQJ0ayANaiALakEEayEIIAUgCWpBAWshBQsgCEEANgIAIAVBAWohBQsgACAFNgJ8AkACQAJAIAAoAgBBAUcNACAFIAZJDQIgACgCeCEJAkAgAkUNACACQf////8DcSEIQQggBCAEQQhNG0EJbkEJbCEOQQAhCyAJIQcgAiENQQAhBQJAAkACQAJ/AkACQAJ/AkADQCAEIAVNDQgCQAJAIAQgBUEBaksEQCAFQQJqIARPDQEgCA0CIAsgBkGM18EAEK4HAAsgBUEBagwHCyAFQQJqDAMLQwAAf0MgA0EEaioCACISiyIPQwAAgD9DAAD4QUMAAAAAIAMqAgAiE4siECAPIANBCGoqAgAiFIsiFRDdCBDdCBCZBY5DAABwQZIiDyAPQwAAAABdGyIPIA9DAAD4QV4bEJ0H/AAiDEEPaxCaBkMAAH9DlSIPlSIRIBFDAAB/Q14bEJ0HIREgB0MAAH9DIBAgD5UiECAQQwAAf0NeGxCdB/wBIAxBG3RBgICACEEAIBNDAAAAAF0bckGAgIAQQQAgEkMAAAAAXRtyQYCAgCBBACAUQwAAAABdG3JyIBH8AUEIdHJDAAB/QyAVIA+VIg8gD0MAAH9DXhsQnQf8AUEQdHI2AgAgBUEDaiAETw0HIAVBBGogBE8NBCAFQQVqIARPDQFDAAB/QyADQRBqKgIAIhKLIg9DAACAP0MAAPhBQwAAAAAgA0EMaioCACITiyIQIA8gA0EUaioCACIUiyIVEN0IEN0IEJkFjkMAAHBBkiIPIA9DAAAAAF0bIg8gD0MAAPhBXhsQnQf8ACIMQQ9rEJoGQwAAf0OVIg+VIhEgEUMAAH9DXhsQnQchESAHQQRqQwAAf0MgECAPlSIQIBBDAAB/Q14bEJ0H/AEgDEEbdEGAgIAIQQAgE0MAAAAAXRtyQYCAgBBBACASQwAAAABdG3JBgICAIEEAIBRDAAAAAF0bcnIgEfwBQQh0ckMAAH9DIBUgD5UiDyAPQwAAf0NeGxCdB/wBQRB0cjYCACAFQQZqIARPDQYgBUEHaiAETw0DIAUgDkcEQEMAAH9DIANBHGoqAgAiEosiD0MAAIA/QwAA+EFDAAAAACADQRhqKgIAIhOLIhAgDyADQSBqKgIAIhSLIhUQ3QgQ3QgQmQWOQwAAcEGSIg8gD0MAAAAAXRsiDyAPQwAA+EFeGxCdB/wAIgxBD2sQmgZDAAB/Q5UiD5UiESARQwAAf0NeGxCdByERIAdBCGpDAAB/QyAQIA+VIhAgEEMAAH9DXhsQnQf8ASAMQRt0QYCAgAhBACATQwAAAABdG3JBgICAEEEAIBJDAAAAAF0bckGAgIAgQQAgFEMAAAAAXRtyciAR/AFBCHRyQwAAf0MgFSAPlSIPIA9DAAB/Q14bEJ0H/AFBEHRyNgIAIAtBBGohCyAHQRBqIQcgCEEBayEIIANBJGohAyAFQQlqIQUgDUEBayINDQEMCgsLIAVBCGoMAQsgBUEFagsgBEH81sEAEK4HAAsgBUEHagwBCyAFQQRqCyAEQezWwQAQrgcACyAFQQZqIQUMAQsgBUEDaiEFCyAFIARB3NbBABCuBwALIAogACgCBCABQQJ0IAEgAmpBAnQQ3ggiABC7CiIBNgIIIAogBjYCDCABIAZHDQEgACAJIAYQ5AkgAEGECEkNACAAEIUHCyAKQRBqJAAPC0EAIApBCGogCkEMakEAIABBtPPEABDkBwALQQAgBiAFQZzXwQAQ1QcAC94NAgZ/AX4jAEEgayICJAAgAq1CgICAgPALhCEIIAEoAgQhBSABKAIAIQYgAgJ/AkACQAJAAkACQAJAAkACQAJAAkAgAC0AACIBDigABwcHBwcHBwcBAwcHAgcHBwcHBwcHBwcHBwcHBwcHBwcHBAcHBwcFBgsgAkIANwECIAJB3OAAOwEADAgLIAJCADcBAiACQdzoATsBAAwHCyACQgA3AQIgAkHc5AE7AQAMBgsgAkIANwECIAJB3NwBOwEADAULIAJCADcBAiACQdzEADsBAAwECyACQgA3AQIgAkHczgA7AQAMAwsgAUHcAEYNAQsgARDfAkUEQCACQRhqIgMgAUEPcS0AtKJFOgAAIAJBsODAgQM2ABMgAiABQQR2LQC0okU6ABcgAUEBcmdBAnYiASACQRBqIgRqQfsAOgAAIAQgAUECayIBakHc6gE7AAAgAkESakEAOgAAIAJB/QA6ABkgAkEIaiADLwEAOwEAIAJBADsBECACIAIpARA3AwBBCgwDCyACIAE2AgBBgAEhAUGBAQwCCyACQgA3AQIgAkHcuAE7AQALQQAhAUECCzoADSACIAE6AAwgAiAINwMQQQEhAwJAIAYgBUGomsAAIAJBEGoQxAMNACACAn8CQAJAAkACQAJAAkACQAJAAkACQCAALQABIgEOKAUHBwcHBwcHBwQCBwcDBwcHBwcHBwcHBwcHBwcHBwcHBwcBBwcHBwAGCyACQgA3AQIgAkHczgA7AQAMCAsgAkIANwECIAJB3MQAOwEADAcLIAJCADcBAiACQdzcATsBAAwGCyACQgA3AQIgAkHc5AE7AQAMBQsgAkIANwECIAJB3OgBOwEADAQLIAJCADcBAiACQdzgADsBAAwDCyABQdwARg0BCyABEN8CRQRAIAJBGGoiBCABQQ9xLQC0okU6AAAgAkGw4MCBAzYAEyACIAFBBHYtALSiRToAFyABQQFyZ0ECdiIBIAJBEGoiB2pB+wA6AAAgByABQQJrIgFqQdzqATsAACACQRJqQQA6AAAgAkH9ADoAGSACQQhqIAQvAQA7AQAgAkEAOwEQIAIgAikBEDcDAEEKDAMLIAIgATYCAEGAASEBQYEBDAILIAJCADcBAiACQdy4ATsBAAtBACEBQQILOgANIAIgAToADCACIAg3AxAgBiAFQaiawAAgAkEQahDEAw0AIAICfwJAAkACQAJAAkACQAJAAkACQAJAIAAtAAIiAQ4oBQcHBwcHBwcHBAIHBwMHBwcHBwcHBwcHBwcHBwcHBwcHBwEHBwcHAAYLIAJCADcBAiACQdzOADsBAAwICyACQgA3AQIgAkHcxAA7AQAMBwsgAkIANwECIAJB3NwBOwEADAYLIAJCADcBAiACQdzkATsBAAwFCyACQgA3AQIgAkHc6AE7AQAMBAsgAkIANwECIAJB3OAAOwEADAMLIAFB3ABGDQELIAEQ3wJFBEAgAkEYaiIEIAFBD3EtALSiRToAACACQbDgwIEDNgATIAIgAUEEdi0AtKJFOgAXIAFBAXJnQQJ2IgEgAkEQaiIHakH7ADoAACAHIAFBAmsiAWpB3OoBOwAAIAJBEmpBADoAACACQf0AOgAZIAJBCGogBC8BADsBACACQQA7ARAgAiACKQEQNwMAQQoMAwsgAiABNgIAQYABIQFBgQEMAgsgAkIANwECIAJB3LgBOwEAC0EAIQFBAgs6AA0gAiABOgAMIAIgCDcDECAGIAVBqJrAACACQRBqEMQDDQAgAgJ/AkACQAJAAkACQAJAAkACQAJAAkAgAC0AAyIADigFBwcHBwcHBwcEAgcHAwcHBwcHBwcHBwcHBwcHBwcHBwcHAQcHBwcABgsgAkIANwECIAJB3M4AOwEADAgLIAJCADcBAiACQdzEADsBAAwHCyACQgA3AQIgAkHc3AE7AQAMBgsgAkIANwECIAJB3OQBOwEADAULIAJCADcBAiACQdzoATsBAAwECyACQgA3AQIgAkHc4AA7AQAMAwsgAEHcAEYNAQsgABDfAkUEQCACQRhqIgEgAEEPcS0AtKJFOgAAIAJBsODAgQM2ABMgAiAAQQR2LQC0okU6ABcgAEEBcmdBAnYiACACQRBqIgRqQfsAOgAAIAQgAEECayIDakHc6gE7AAAgAkESakEAOgAAIAJB/QA6ABkgAkEIaiABLwEAOwEAIAJBADsBECACIAIpARA3AwBBCgwDCyACIAA2AgBBgAEhA0GBAQwCCyACQgA3AQIgAkHcuAE7AQALQQAhA0ECCzoADSACIAM6AAwgAiAINwMQIAYgBUGomsAAIAJBEGoQxAMhAwsgAkEgaiQAIAMLxQoCJn8BfQJAAkACQAJAAkACQAJAAkAgACgChAFBgICAgHhGDQAgACgCtAEiBiAAKAKAASIHSwRAIAYgB2siBiAAKAJ4IAdrSwRAIABB+ABqIAcgBkEEQQQQmAYgACgCgAEhBwsgACgCfCIJIAdBAnRqIQggBkECTwR/IAZBAnRBBGsiDQRAIAhBACAN/AsACyAGIAdqIgZBAWshByAJIAZBAnRqQQRrBSAIC0EANgIAIAAgB0EBajYCgAELIAAgARDqASAAKAKEAUGAgICAeEYNACAAKAKIASIRQQhBACAAKAKMASISGyIJaiEZIBEgEkEDdCIGaiEaIAAoAnwhDSAAKAKAASELIAAoAvACIhsEQCAAKAKsASIcQQRBACAAKAKwASIdGyIIaiEiIAAoAqABIh5BBEEAIAAoAqQBIh8bIgdqISMgACgClAEiIEEEQQAgACgCmAEiIRsiCmohJCAcIB1BAnQiDGohJSAeIB9BAnQiDmohJiAgICFBAnQiD2ohJyAAKAJwIRMgACgCdCEUIAAoAmQhFSAAKAJoIRYgACgCWCEXIAAoAlwhGCAMIAhrQQJ2QQFqISggDiAHa0ECdkEBaiEpIA8gCmtBAnZBAWohKiAGIAlrQQN2QQFqIStBACEMQQAhDkEAIQ9BASEAQQAhCgNAIAohBiAAIQogEgRAIAMgBmwgAmohB0EAIQAgDSEJIBkhBiARIQgDQCAILQAEIAQgBSAHIAgoAgBqELcEISwgACALRg0KIAkgLDgCACAJQQRqIQkgBkEIQQAgBiIIIBpHG2ohBiArIABBAWoiAEcNAAsLICEEQCAYIA8gDyAYSRshECAqIQAgFyEIIA8hByAkIQkgICEGA0AgBigCACIGIAtPDQggByAQRg0JIAggDSAGQQJ0aioCAEMAAABBlEMAAH9DlUMAAIDAkjgCACAIQQRqIQggB0EBaiEHQQRBACAJIgYgJ0cbIAZqIQkgAEEBayIADQALCwJAIBtBAUYNACAfBEAgFiAOIA4gFkkbIRAgKSEAIBUhCCAOIQcgIyEJIB4hBgNAIAYoAgAiBiALTw0HIAcgEEYNCCAIIA0gBkECdGoqAgBDAAAAQZRDAAB/Q5VDAACAwJI4AgAgCEEEaiEIIAdBAWohB0EEQQAgCSIGICZHGyAGaiEJIABBAWsiAA0ACwsgHUUgG0ECTXINACAUIAwgDCAUSRshECAoIQAgEyEIIAwhByAiIQkgHCEGA0AgBigCACIGIAtPDQsgByAQRg0FIAggDSAGQQJ0aioCAEMAAABBlEMAAH9DlUMAAIDAkjgCACAIQQRqIQggB0EBaiEHQQRBACAJIgYgJUcbIAZqIQkgAEEBayIADQALCyATQdQAaiETIAxBFWohDCAVQTxqIRUgDkEPaiEOIBdBJGohFyAPQQlqIQ8gCiABIApLIgZqIQAgBg0ACwwBCyASRQ0AIAZBCGtBA3ZBAWohDEEBIQBBACEHA0AgACEKIAMgB2wgAmohByANIQlBACEAIBkhBiARIQgDQCAILQAEIAQgBSAHIAgoAgBqELcEISwgACALRg0IIAkgLDgCACAJQQRqIQkgBkEIQQAgBiIIIBpHG2ohBiAMIABBAWoiAEcNAAsgCiABIApLIgZqIQAgCiEHIAYNAAsLDwsgByAUQcC+xwAQrgcACyAGIAtB0L7HABCuBwALIAcgFkHgvscAEK4HAAsgBiALQfC+xwAQrgcACyAHIBhBgL/HABCuBwALIAAgC0GQv8cAEK4HAAsgBiALQbC+xwAQrgcAC/gKAh9/FX0jAEEgayIMJAAgACABEOoBIAFBDGwhGyAALQDUASEcIAAtAMwBIR0gAC0AxAEhHiAALQC8ASEfIAAoAkwhDSAAKAJQIQggACgCKCEgIAAoAiwhEyAAKAI0ISEgACgCOCEOIAAoAkAhIiAAKAJEIQ8gACgCHCEjIAAoAiAhECAAKALQASEUIAAoAsgBIRUgACgCwAEhFiAAKAK4ASEXIAAoAhAhJCAAKAIUISVBACEBAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJ/AkADQCAMIAIgGGoiADYCCCAAQQh2IgAgJU8NASAfIAUgBiADIBdqEIwFIQdDAACAPyAeIAUgBiADIBZqEIwFIglBFHZB/wdxs0MAwH9ElUMAAAC/kkPzBLU/lCInICeUkyAJQQp2Qf8HcbNDAMB/RJVDAAAAv5JD8wS1P5QiKCAolJMgCUH/B3GzQwDAf0SVQwAAAL+SQ/MEtT+UIikgKZSTQwAAAAAQ3QghMSAdIAUgBiADIBVqEIwFIRkgHCAFIAYgAyAUahCMBSERIAEgEE8NAyAkIABByABsaiIAKgIgISYgACoCLCEyIAAqAhghKiAAKgIkITMgACoCCCErIAAqAhQhNCAAKgIEISwgACoCECE1IAAqAjAhLSAAKgI8ITYgACoCHCEuIAAqAighNyAAKgI4IS8gACoCRCE4IAAqAjQhMCAAKgJAITkgEiAjaiIaIAAqAgAiOiAHQRV2s0MA4P9ElSAAKgIMIDqTlJI4AgAgAUEBaiIAIBBPDQQgGkEEaiAsIAdBC3ZB/wdxs0MAwH9ElSA1ICyTlJI4AgAgAUECaiIKIBBPDQUgGkEIaiArIAdB/w9xs0MA4P9ElSA0ICuTlJI4AgAgASAPTw0GIBIgImoiByAqIBlBFXazQwDg/0SVIDMgKpOUkhDuAzgCACAAIA9PDQcgB0EEaiAuIBlBC3ZB/wdxs0MAwH9ElSA3IC6TlJIQ7gM4AgAgCiAPTw0IIAdBCGogJiAZQf8PcbNDAOD/RJUgMiAmk5SSEO4DOAIAIAEgDk8NCSASICFqIgcgLSARQRh2s0MAAH9DlSA2IC2TlJI4AgAgACAOTw0KIAdBBGogMCARQRB2Qf8BcbNDAAB/Q5UgOSAwk5SSOAIAIAogDk8NCyAHQQhqIC8gEUEIdkH/AXGzQwAAf0OVIDggL5OUkjgCACATIBhGDQwgCyAgaiARQf8BcbNDAAB/Q5U4AgAgCCALTQ0NIA0gJyAxkSImICggCUEediIAQQFGGyAJQYCAgIAESSIKGzgCACALQQFqIhEgCE8NDiANQQRqICYgKSAAQQJGGyAoIAlBAEgbOAIAIAtBAmoiCSAITw0PIA1BCGogJiApIABBA0YbOAIAIAtBA2oiACAITw0QIA1BDGogJiAnIAobOAIAIBhBAWohGCAEIBdqIRcgBCAWaiEWIAQgFWohFSAEIBRqIRQgAUEDaiEBIA1BEGohDSALQQRqIQsgGyASQQxqIhJHDQALQQAMAQsgDCAMQQhqrUKAgICAEIQ3AxggDEEMaiIAQbCGwAAgDEEYahD1BiAAEIUICyAMQSBqJAAPCyABIBBBtLfHABCuBwALIAAgEEHEt8cAEK4HAAsgCiAQQdS3xwAQrgcACyABIA9B5LfHABCuBwALIAAgD0H0t8cAEK4HAAsgCiAPQYS4xwAQrgcACyABIA5BlLjHABCuBwALIAAgDkGkuMcAEK4HAAsgCiAOQbS4xwAQrgcACyATIBNBxLjHABCuBwALIAsgCEHUuMcAEK4HAAsgESAIQeS4xwAQrgcACyAJIAhB9LjHABCuBwALIAAgCEGEuccAEK4HAAugCgIHfwF7IAAgASgCBDYCXAJAAkACQCABLQAIRQRAIAEoAgAiBbNDAADAP5SN/AEiAiAAKAIAIAAoAggiAWtLBEAgACABIAJBBEEYEJgGCyAAKAIMIAAoAhQiAWsgAkkEQCAAQQxqIAEgAkEEQRgQmAYLIAAoAlwiA0UNASAAKAIYIAAoAiAiAWsgAkkEQCAAQRhqIAEgAkEBQQkQmAYgACgCXCEDCyADQQJJDQEgACgCJCAAKAIsIgFrIAJJBH8gAEEkaiABIAJBAUEPEJgGIAAoAlwFIAMLQQNJDQEgAiAAKAIwIAAoAjgiAWtNDQEgAEEwaiABIAJBAUEVEJgGDAELIAEoAgAiBSAAKAIUIgJNBEAgACAFNgIUIAIgBUYNASAAKAIQIAVBGGxqIQEDQCABQRRqKAIAIgNBBU8EQCABQQhqKAIAIgZBBGsoAgAiBEF4cSIIIANBAnQiA0EEQQggBEEDcSIEG2pJDQQgBEEAIAggA0EnaksbDQUgBhCfAgsgAUEYaiEBIAUgAkEBayICRw0ACwwBCyACIQQgBSACayIHIAAoAgwgAmtLBEAgAEEMaiACIAdBBEEYEJgGIAAoAhQhBAsgACgCECEGIAdBA3EiAwRAIAMgBGogBSACayADayEHIAYgBEEYbGohAQNAIAFBADYCACABQRRqQQA2AgAgAUEYaiEBIANBAWsiAw0ACyEECyACIAVrQXxNBEAgBiAEQRhsaiEBA0AgAUEANgIAIAFB3ABqQQA2AgAgAUHEAGpCADcCACABQSxqQgA3AgAgAUEUakIANwIAIAFB4ABqIQEgBEEEaiEEIAdBBGsiBw0ACwsgACAENgIUCwJAIAAoAggiBiAFIgJPDQAgAiAGIgJrIgQgACgCACACa0sEQCAAIAIgBEEEQRgQmAYgACgCCCECCyAAKAIEIQcgBEEDcSIDBEAgAiADaiAFIAZrIANrIQQgByACQRhsaiEBA0AgAf0MAAAAAAAAAAAAAAAAAAAAAP0LAgAgAUEPakIANwAAIAFBGGohASADQQFrIgMNAAshAgsgBiAFa0F8Sw0AIAcgAkEYbGohAQNAIAH9DAAAAAAAAAAAAAAAAAAAAAD9CwIAIAFBD2pCADcAACABQRhqIAn9CwIAIAFBJ2pCADcAACABQTBqIAn9CwIAIAFBP2pCADcAACABQcgAaiAJ/QsCACABQdcAakIANwAAIAFB4ABqIQEgAkEEaiECIARBBGsiBA0ACwsgACACNgIIAkAgACgCXCIBRQ0AIAAgACgCICIDIAVPBH8gBQUgBSADayIEIAAoAhggA2tLBEAgAEEYaiADIARBAUEJEJgGIAAoAiAhAyAAKAJcIQELIARBCWwiAgRAIAAoAhwgA0EJbGpBACAC/AsACyADIARqCzYCICABQQJJDQAgACAAKAIsIgMgBU8EfyAFBSAFIANrIgQgACgCJCADa0sEQCAAQSRqIAMgBEEBQQ8QmAYgACgCLCEDIAAoAlwhAQsgBEEPbCICBEAgACgCKCADQQ9sakEAIAL8CwALIAMgBGoLNgIsIAFBA0kNACAAIAAoAjgiASAFSQR/IAUgAWsiBSAAKAIwIAFrSwRAIABBMGogASAFQQFBFRCYBiAAKAI4IQELIAVBFWwiAgRAIAAoAjQgAUEVbGpBACAC/AsACyABIAVqBSAFCzYCOAsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAuQCwIIfwF+IwBBoAFrIgMkAAJ/IAJFBEAgA0EQaiADQRxqKAIANgIAIAMgAykCFDcDCCAAKAIAIQUgASEGIAEgAmoMAQtBASEEAn8gASwAACIFQQBOBEAgBUH/AXEhBSABQQFqDAELIAEtAAFBP3EhByAFQR9xIQYgBUFfTQRAIAZBBnQgB3IhBSABQQJqDAELIAEtAAJBP3EgB0EGdHIhByAFQXBJBEAgByAGQQx0ciEFIAFBA2oMAQsgBkESdEGAgPAAcSABLQADQT9xIAdBBnRyciEFIAFBBGoLIQYgA0EUaiAFQYGCBBCBAyADQRBqIANBHGooAgAiBzYCACADIAMpAhQiCzcDCCADLQAhIQggAy0AICEJIAAoAgAhBSADQZgBaiAHNgIAIAMgCzcDkAEgASACagshByADQcgAaiADQZgBaigCADYCACADIAMpA5ABNwJAIAMgBzYCfCADIAY2AnhBACEAIANBADYCZCADQQA2AlAgAyAIOgBNIAMgCToATCADIAQ2AjwgA0EANgIoIANBADYCFAJAAkAgBARAIANBGGoiBCADQUBr/QACAP0LAgAgAy0AJCEBAkAgAy0AJSICQYEBTwRAIAEgAk8NASAEKAIAIQQgBSgCACEIIAUoAgQoAhAhCQNAIAggBCAJEQIADQQgAUEBaiIBQf8BcSACSQ0ACyACIQEMAQsgASACTw0AIAEgAiABIAJLGyECIAUoAgAhCCAFKAIEKAIQIQkDQCAIIAEgBGotAAAgCRECAA0DIAIgAUEBaiIBRw0ACyACIQELIAMgAToAJAsgBiAHRg0BIANB1ABqIgkhACAFKAIEIQggBSgCACEFA0ACQAJ/AkACQAJ/IAYsAAAiAUEATgRAIAFB/wFxIQQgBkEBagwBCyAGLQABQT9xIQQgAUEfcSECIAFBX00EQCACQQZ0IARyIQQgBkECagwBCyAGLQACQT9xIARBBnRyIQQgAUFwSQRAIAQgAkEMdHIhBCAGQQNqDAELIAJBEnRBgIDwAHEgBi0AA0E/cSAEQQZ0cnIiBEGAgMQARg0BIAZBBGoLIQYCQAJAAkACQAJAAkACQAJAAkACQCAEDigCAQEBAQEBAQEDBQEBBAEBAQEBAQEBAQEBAQEBAQEBAQEBBwEBAQEIAAsgBEHcAEYNBQsgBBDfAg0HIANBADoAkgEgA0EAOwGQASADIARBFHYtALSiRToAkwEgAyAEQQR2QQ9xLQC0okU6AJcBIAMgBEEIdkEPcS0AtKJFOgCWASADIARBDHZBD3EtALSiRToAlQEgAyAEQRB2QQ9xLQC0okU6AJQBIARBAXJnQQJ2IgEgA0GQAWoiCmoiAkH7ADoAACACQQFrQfUAOgAAIAogAUECayIBakHcADoAACADQf0AOgCZASADIARBD3EtALSiRToAmAFBCgwKCyADQgA3AZIBIANB3OAAOwGQAQwICyADQgA3AZIBIANB3OgBOwGQAQwHCyADQgA3AZIBIANB3OQBOwGQAQwGCyADQgA3AZIBIANB3NwBOwGQAQwFCyADQgA3AZIBIANB3LgBOwGQAQwECyADQgA3AZIBIANB3MQAOwGQAQwDCyADQgA3AZIBIANB3M4AOwGQAQwCCyADIAQ2ApABIAAgAykCkAE3AgAgAEEIaiADQZgBai8BADsBACAFIAkoAgAgCCgCEBECAEUNAwwFC0EAIQAMBQtBACEBQQILIQQgACADKQKQATcCACAAQQhqIANBmAFqLwEAOwEAIAEgBCABIARLGyICQf8BcSEEIAgoAhAhCgNAIAUgACABai0AACAKEQIADQMgBCABQQFqIgFHDQALIAMgAjoAYAsgBiAHRw0AC0EAIQAMAQtBASEACyADQaABaiQAIAAL4wkBBn8gAUEDbCIEIAAoApAEIgJLBEAgBCACayIFIAAoAogEIAJrSwRAIABBiARqIAIgBUEEQQQQmAYgACgCkAQhAgsgACgCjAQiBiACQQJ0aiEDIAVBAk8EfyAFQQJ0QQRrIgcEQCADQQAgB/wLAAsgAiAFaiIDQQFrIQIgBiADQQJ0akEEawUgAwtBADYCACAAIAJBAWo2ApAECyAAKAKcBCICIAFJBEAgASACayIFIAAoApQEIAJrSwRAIABBlARqIAIgBUEEQQQQmAYgACgCnAQhAgsgACgCmAQiBiACQQJ0aiEDIAVBAk8EfyAFQQJ0QQRrIgcEQCADQQAgB/wLAAsgAiAFaiIDQQFrIQIgBiADQQJ0akEEawUgAwtBADYCACAAIAJBAWo2ApwECyAAKAKoBCICIARJBEAgBCACayIFIAAoAqAEIAJrSwRAIABBoARqIAIgBUEEQQQQmAYgACgCqAQhAgsgACgCpAQiBiACQQJ0aiEDIAVBAk8EfyAFQQJ0QQRrIgcEQCADQQAgB/wLAAsgAiAFaiIDQQFrIQIgBiADQQJ0akEEawUgAwtBADYCACAAIAJBAWo2AqgECyAAKAK0BCICIARJBEAgBCACayIEIAAoAqwEIAJrSwRAIABBrARqIAIgBEEEQQQQmAYgACgCtAQhAgsgACgCsAQiBSACQQJ0aiEDIARBAk8EfyAEQQJ0QQRrIgYEQCADQQAgBvwLAAsgAiAEaiIDQQFrIQIgBSADQQJ0akEEawUgAwtBADYCACAAIAJBAWo2ArQECyABQQJ0IgIgACgCwAQiBEsEQCACIARrIgIgACgCuAQgBGtLBEAgAEG4BGogBCACQQRBBBCYBiAAKALABCEECyAAKAK8BCIFIARBAnRqIQMgAkECTwR/IAJBAnRBBGsiBgRAIANBACAG/AsACyACIARqIgJBAWshBCAFIAJBAnRqQQRrBSADC0EANgIAIAAgBEEBajYCwAQLAkACQCAAKAKEBCIERQ0AIAFBCWwiAyAAKALMBCICSwRAIAMgAmsiBCAAKALEBCACa0sEQCAAQcQEaiACIARBBEEEEJgGIAAoAswEIQILIAAoAsgEIgUgAkECdGohAyAEQQJPBH8gBEECdEEEayIGBEAgA0EAIAb8CwALIAIgBGoiA0EBayECIAUgA0ECdGpBBGsFIAMLQQA2AgAgACACQQFqNgLMBCAAKAKEBCEECyAEQQFNDQAgAUEPbCIDIAAoAtgEIgJLBH8gAyACayIEIAAoAtAEIAJrSwRAIABB0ARqIAIgBEEEQQQQmAYgACgC2AQhAgsgACgC1AQiBSACQQJ0aiEDIARBAk8EfyAEQQJ0QQRrIgYEQCADQQAgBvwLAAsgAiAEaiIDQQFrIQIgBSADQQJ0akEEawUgAwtBADYCACAAIAJBAWo2AtgEIAAoAoQEBSAEC0ECTQ0AIAFBFWwiAiAAKALkBCIBSw0BCw8LIAIgAWsiAyAAKALcBCABa0sEQCAAQdwEaiABIANBBEEEEJgGIAAoAuQEIQELIAAoAuAEIgQgAUECdGohAiADQQJPBH8gA0ECdEEEayIFBEAgAkEAIAX8CwALIAEgA2oiAkEBayEBIAQgAkECdGpBBGsFIAILQQA2AgAgACABQQFqNgLkBAu3CQEGfyABQQNsIgQgACgCICICSwRAIAQgAmsiBSAAKAIYIAJrSwRAIABBGGogAiAFQQRBBBCYBiAAKAIgIQILIAAoAhwiBiACQQJ0aiEDIAVBAk8EfyAFQQJ0QQRrIgcEQCADQQAgB/wLAAsgAiAFaiIDQQFrIQIgBiADQQJ0akEEawUgAwtBADYCACAAIAJBAWo2AiALIAAoAiwiAiABSQRAIAEgAmsiBSAAKAIkIAJrSwRAIABBJGogAiAFQQRBBBCYBiAAKAIsIQILIAAoAigiBiACQQJ0aiEDIAVBAk8EfyAFQQJ0QQRrIgcEQCADQQAgB/wLAAsgAiAFaiIDQQFrIQIgBiADQQJ0akEEawUgAwtBADYCACAAIAJBAWo2AiwLIAAoAjgiAiAESQRAIAQgAmsiBSAAKAIwIAJrSwRAIABBMGogAiAFQQRBBBCYBiAAKAI4IQILIAAoAjQiBiACQQJ0aiEDIAVBAk8EfyAFQQJ0QQRrIgcEQCADQQAgB/wLAAsgAiAFaiIDQQFrIQIgBiADQQJ0akEEawUgAwtBADYCACAAIAJBAWo2AjgLIAAoAkQiAiAESQRAIAQgAmsiBCAAKAI8IAJrSwRAIABBPGogAiAEQQRBBBCYBiAAKAJEIQILIAAoAkAiBSACQQJ0aiEDIARBAk8EfyAEQQJ0QQRrIgYEQCADQQAgBvwLAAsgAiAEaiIDQQFrIQIgBSADQQJ0akEEawUgAwtBADYCACAAIAJBAWo2AkQLIAFBAnQiAiAAKAJQIgRLBEAgAiAEayICIAAoAkggBGtLBEAgAEHIAGogBCACQQRBBBCYBiAAKAJQIQQLIAAoAkwiBSAEQQJ0aiEDIAJBAk8EfyACQQJ0QQRrIgYEQCADQQAgBvwLAAsgAiAEaiICQQFrIQQgBSACQQJ0akEEawUgAwtBADYCACAAIARBAWo2AlALAkACQCAAKALwAiIERQ0AIAFBCWwiAyAAKAJcIgJLBEAgAyACayIEIAAoAlQgAmtLBEAgAEHUAGogAiAEQQRBBBCYBiAAKAJcIQILIAAoAlgiBSACQQJ0aiEDIARBAk8EfyAEQQJ0QQRrIgYEQCADQQAgBvwLAAsgAiAEaiIDQQFrIQIgBSADQQJ0akEEawUgAwtBADYCACAAIAJBAWo2AlwgACgC8AIhBAsgBEEBTQ0AIAFBD2wiAyAAKAJoIgJLBH8gAyACayIEIAAoAmAgAmtLBEAgAEHgAGogAiAEQQRBBBCYBiAAKAJoIQILIAAoAmQiBSACQQJ0aiEDIARBAk8EfyAEQQJ0QQRrIgYEQCADQQAgBvwLAAsgAiAEaiIDQQFrIQIgBSADQQJ0akEEawUgAwtBADYCACAAIAJBAWo2AmggACgC8AIFIAQLQQJNDQAgAUEVbCICIAAoAnQiAUsNAQsPCyACIAFrIgMgACgCbCABa0sEQCAAQewAaiABIANBBEEEEJgGIAAoAnQhAQsgACgCcCIEIAFBAnRqIQIgA0ECTwR/IANBAnRBBGsiBQRAIAJBACAF/AsACyABIANqIgJBAWshASAEIAJBAnRqQQRrBSACC0EANgIAIAAgAUEBajYCdAuMCgENfyMAQRBrIgokAAJAAkACQCAFQQNJBEAgA0EHSw0CIARFIhMtALiSRiIIQQdLDQNBASEJAkACQAJAAkAgASADQShsakGYAWoiAyABKALwBCAEQaAIbGoiFCAIQYQBbGogBUEsbGoiAUELIAEoAAAQxARB/wFxIgUODAEAAAAAAAAAAAAAAgALIAVBAWtBBE8EQCAFQQVrQf8BcSIIQQVLDQUCf0EAIAhBDGwiAS0A6JJGIgVFDQAaIAEtAPKSRiEJIAEtAPGSRiELIAEtAPCSRiEMIAEtAO+SRiENIAEtAO6SRiEOIAEtAO2SRiEPIAEtAOySRiEQIAEtAOuSRiERIAEtAOqSRiESIAEtAOmSRiEBIAMgBRCSBSIFIAFFDQAaIAMgARCSBUECQQAgBRtyIgUgEkUNABogAyASEJIFIAVBAXRyIgUgEUUNABogAyAREJIFIAVBAXRyIgUgEEUNABogAyAQEJIFIAVBAXRyIgUgD0UNABogAyAPEJIFIAVBAXRyIgUgDkUNABogAyAOEJIFIAVBAXRyIgUgDUUNABogAyANEJIFIAVBAXRyIgUgDEUNABogAyAMEJIFIAVBAXRyIgUgC0UNABogAyALEJIFIAVBAXRyIgUgCUUNABogAyAJEJIFIAVBAXRyCyAILQCwk0ZqIQULIBMtALaTRiEIIAMQoAUhASAIQQ9LDQJBACEJIAIgCEECdGogByAGIAgbwUEAIAVrIAUgARtsNgIAQQFBAiAFQQFGG0EAIAUbIQULQQFBAiAEGyEEA0AgBEG4ksYAai0AACIIQQhPDQYgCUECdCEBQQEhC0EBIQkCQAJAIAMgFCAIQYQBbGogBUEsbGoiBUELIAEgBWooAAAQxARB/wFxIgUODAEAAAAAAAAAAAAAAwALIAVBAWtBBE8EQCAFQQVrQf8BcSIIQQZPDQYCf0EAIAhBDGwiAS0A6JJGIgVFDQAaIAEtAPKSRiEJIAEtAPGSRiEMIAEtAPCSRiENIAEtAO+SRiEOIAEtAO6SRiEPIAEtAO2SRiEQIAEtAOySRiERIAEtAOuSRiESIAEtAOqSRiETIAEtAOmSRiEBIAMgBRCSBSIFIAFFDQAaIAMgARCSBUECQQAgBRtyIgUgE0UNABogAyATEJIFIAVBAXRyIgUgEkUNABogAyASEJIFIAVBAXRyIgUgEUUNABogAyAREJIFIAVBAXRyIgUgEEUNABogAyAQEJIFIAVBAXRyIgUgD0UNABogAyAPEJIFIAVBAXRyIgUgDkUNABogAyAOEJIFIAVBAXRyIgUgDUUNABogAyANEJIFIAVBAXRyIgUgDEUNABogAyAMEJIFIAVBAXRyIgUgCUUNABogAyAJEJIFIAVBAXRyCyAILQCwk0ZqIQULIARBtpPGAGotAAAhCCADEKAFIQEgCEEPSw0DQQAhCSACIAhBAnRqIAcgBiAIG8FBACAFayAFIAEbbDYCAEEBQQIgBUEBRhtBACAFGyEFCyAEQQFqIgRBEEcNAAsLQQ8hBSAAIAMtACNB8gFHBH8gACALOgABQR0FIAULOgAAIApBEGokAA8LIAhBEEHIk8YAEK4HAAtB9JHGAEEhQZiSxgAQ5wgACyAKIAU6AAcgCiAKQQdqrUKAgICAsA6ENwMIQcaSwAAgCkEIakHYksYAENsHAAsgA0EIQaiSxgAQrgcACyAIQQhByJLGABCuBwAL1QsBBX8jAEEwayICJABBASEDAkACQAJAAkACQAJAAkBBASAALQAAIgRBJGsgBEEjTRtB/wFxQQFrDgMBAgMACyABKAIAIgRBr4rHAEEHIAEoAgQiBigCDCIFEQAADQUgAEEEaiEAAkAgAS0ACkGAAXFFBEAgBEHgnsUAQQEgBREAAA0HIAAgARCuAkUNAQwHCyAEQcuLwgBBAiAFEQAADQYgAkEBOgAoIAIgBjYCCCACIAQ2AgQgAkHQi8IANgIYIAIgASkCCDcCHCACIAJBKGo2AgwgAiACQQRqNgIUIAAgAkEUahCuAg0GIAIoAhRByYvCAEECIAIoAhgoAgwRAAANBgsgASgCAEHinsUAQQEgASgCBCgCDBEAACEDDAULIAEoAgAiBEH4mscAQQYgASgCBCIGKAIMIgURAAANBAJAAkAgAS0ACkGAAXFFBEAgBEHgnsUAQQEgBREAAA0HIAIgADYCBCABKAIAQbjHxABBCyABKAIEKAIMEQAAIQAgAkEAOgAZIAIgADoAGCACIAE2AhQgAkEUakHwxMQAQQUgAkEEakGox8QAEPwEIQQgAi0AGEEBcUUiACACLQAZIgVBAUZxDQEgBQ0HIAANAgwHCyAEQcuLwgBBAiAFEQAADQYgAiAGNgIIIAIgBDYCBCACQQE6ABMgAkHQi8IANgIYIAIgASkCCDcCHCACIAJBE2o2AgwgAiACQQRqIgM2AhQgAiAANgIkIANBuMfEAEELELIDIQAgAkEAOgAtIAIgADoALCACIAJBFGo2AiggAkEoakHwxMQAQQUgAkEkakGox8QAEPwEIQACQAJAIAItACwiA0EBcSACLQAtIgRBAUdyRQRAIAAoAgAiAC0ACkGAAXENASAAKAIAQaefxQBBAiAAKAIEKAIMEQAADQgMAgsgBA0HIANBAXFFDQEMBwsgACgCAEHKnsUAQQEgACgCBCgCDBEAAA0GCyACKAIUQcmLwgBBAiACKAIYKAIMEQAARQ0BQQEhAwwGCyAEKAIAIgAtAApBgAFxRQRAIAAoAgBBp5/FAEECIAAoAgQoAgwRAABFDQEMBgsgACgCAEHKnsUAQQEgACgCBCgCDBEAAA0FCyABKAIAQeKexQBBASABKAIEKAIMEQAAIQMMBAsgASgCACIEQaCKxwBBCSABKAIEIgYoAgwiBREAAA0DIABBBGohAAJAAkAgAS0ACkGAAXFFBEAgBEHgnsUAQQEgBREAAA0GIAIgADYCBCABKAIAQeCNxwBBDiABKAIEKAIMEQAAIQAgAkEAOgAZIAIgADoAGCACIAE2AhQgAkEUakHwxMQAQQUgAkEEakHgxMQAEPwEIQQgAi0AGEEBcUUiACACLQAZIgVBAUZxDQEgBQ0GIAANAgwGCyAEQcuLwgBBAiAFEQAADQUgAiAGNgIIIAIgBDYCBCACQQE6ABMgAkHQi8IANgIYIAIgASkCCDcCHCACIAJBE2o2AgwgAiACQQRqIgM2AhQgAiAANgIkIANB4I3HAEEOELIDIQAgAkEAOgAtIAIgADoALCACIAJBFGo2AiggAkEoakHwxMQAQQUgAkEkakHgxMQAEPwEIQACQAJAIAItACwiA0EBcSACLQAtIgRBAUdyRQRAIAAoAgAiAC0ACkGAAXENASAAKAIAQaefxQBBAiAAKAIEKAIMEQAADQYMAgsgBA0FIANBAXFFDQEMBQsgACgCAEHKnsUAQQEgACgCBCgCDBEAAA0ECyACKAIUQcmLwgBBAiACKAIYKAIMEQAARQ0BQQEhAwwFCyAEKAIAIgAtAApBgAFxRQRAIAAoAgBBp5/FAEECIAAoAgQoAgwRAABFDQEMBQsgACgCAEHKnsUAQQEgACgCBCgCDBEAAA0ECyABKAIAQeKexQBBASABKAIEKAIMEQAAIQMMAwsgASgCAEH7y8QAQQ4gASgCBCgCDBEAACEDDAILQQEhAwwBC0EBIQMLIAJBMGokACADC84KAgh/BH0jAEGwAWsiBSQAAn8CQCABKAIIIgYgAksEQCABKAIEIAJBGGxqIgZBEWovAAAgBkETai0AACIHQRB0ciIIQQh2IQlDAAAQQSABKgJIIAEtAFhBAkYiChshDkMAAEDBIAEqAkQgChshDSAIQf8BcQRAIA0gDiANk0MAAH5DlSAIQQFrQf8BcbOUkhDuAyEPCyAJQf8BcQRAIA0gDiANk0MAAH5DlSAJQQFrQf8BcbOUkhDuAyEQCyAHBH0gDSAOIA2TQwAAfkOVIAdBAWtB/wFxs5SSEO4DBUMAAAAACyENIA8gEJRDj8LNPxC6CiEOIA8gDZRDj8LNPxC6CiEPIBAgDZRDj8LNPxC6CiAOIA+SkkMAAEBAlUPmQB8/ELoKQ9sPSUGUIQ0gBkEMai8BACIHQf//AXFFDQEgB0H/B3EhBiAHQYCAAnEhCCAHQYD4AXEiB0GA+AFHBEAgCEEQdCIIIAdBDXRBgICA/ABxIAZBDXRyQYCAgMADanIgBw0DGiAGIAZnQRBrIgZB//8DcUEIanRB////A3EgCEGAgIDYA3IgBkEXdGtyDAMLIAhBEHQiByAGQQ10ckGAgID+B3IgBg0CGiAHQYCAgPwHcgwCCyACIAZBnJ7HABCuBwALIAdBEHQLIQYgBUEIaiABKAIQIgkgASgCFCIKIAIQ4gIgDSAGvpQhDgJAAkACQAJAAkACQAJAAkACQAJ/IAUoAiwiBkEJTwRAIAUoAgwiB0UNAiAFQQA2AjAgBUEANgJUIAVBNGohCyAFKAIQDAELIAZFDQEgBUEANgIwIAVBADYCVCAFQTRqIQsgBiEHIAVBDGoLIQggB0ECdCEMIAVBiAFqIQdDAACA/yENA0AgBUGEAWogASAIKAIAIAMgBBDtASAFQeAAaiAHQQhq/QACAP0LAwAgBUHwAGogB0EYav0AAgD9CwMAIAUgBykCADcDWCAIQQRqIQggBSoChAEhDyAFQTBqIAVB2ABqEPsBIA0gDxDdCCENIAxBBGsiDA0ACyADKAIIIQEgBCANlCAOXwRAIAEgAk0NAyADKAIEIAJqQQE6AAALIAEgAk0NAyADKAIEIAJqLQAARQRAIAkgCiACQQRBABDOAiAAIA04AgAgAEEkaiAFQdAAaikCADcCACAAQRRqIAVBQGv9AAIA/QsCACAAIAX9AAIw/QsCBAwCCyAJIAogAiAFKAJUIghBCU8EfyAFKAI0IghBgIAETw0FIAUoAjgFIAsLIAgQzgIgAEIANwIMIAAgAjYCCCAAQQA2AgQgACAOOAIAIABBFGr9DAAAAAAAAAAAAAAAAAAAAAD9CwIAIABBJGpCgICAgBA3AgAgBSgCVCIAQQlJDQEgBSgCOCIBQQRrKAIAIgJBeHEiAyAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0FIAJBACADIABBJ2pLGw0GIAEQnwIMAQsgAEIANwIMIAAgAjYCCCAAQQA2AgQgACAOOAIAIABBFGr9DAAAAAAAAAAAAAAAAAAAAAD9CwIAIABBJGpCgICAgBA3AgALIAZBCU8EQCAFKAIQIgBBBGsoAgAiAUF4cSICIAZBAnQiA0EEQQggAUEDcSIBG2pJDQYgAUEAIAIgA0EnaksbDQcgABCfAgsgBUGwAWokAA8LIAIgAUGc9cEAEK4HAAsgAiABQaz1wQAQrgcAC0G89cEAQS1B7PXBABDnCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvwCgMFfwJ9AX4jAEEgayICJAACQCABKAIAIgRB+LjEAEEFIAEoAgQiAygCDCIFEQAABEBBASEDDAELAkACQAJAIAEoAggiBkGAgIAEcUUEQEEBIQMgBEHgnsUAQQEgBREAAA0EIAZBgICAAXEhBSAAKgIAIQcgBkGAgICAAXFFBEAgAEEEaiEEIAeLIghDyhsOWmAgB0MAAAAAXCAIQxe30ThdcXJFDQIgASAHIAVBAEcQzwJFDQMMBQsgASAHIAVBAEcgAS8BDhC8Ag0EIABBBGohBAwCCyAEQcuLwgBBAiAFEQAABEBBASEDDAQLIAJBAToADyACIAM2AgQgAiAENgIAIAJB0IvCADYCFCACIAEpAggiCTcCGCAJpyIEQYCAgAFxIQMgAiACQQ9qNgIIIAIgAjYCECAAKgIAIQcCQCAEQYCAgIABcUUEQCAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyBEAgAkEQaiAHIANBAEcQzwINBQwCCyACQRBqIAcgA0EAR0EBEPUCRQ0BDAQLIAJBEGogByADQQBHIAlCMIinELwCDQMLIAIoAhBByYvCAEECIAIoAhQoAgwRAAAEQEEBIQMMBAsgAEEEaiEEDAELIAEgByAFQQBHQQEQ9QINAgsCQAJAAkACQAJAIAEoAggiA0GAgIAEcUUEQCABKAIAQZf8xQBBAiABKAIEKAIMEQAABEBBASEDDAgLIANBgICAAXEhBSAEKgIAIQcgA0GAgICAAXFFBEAgAEEIaiEEIAeLIghDyhsOWmAgB0MAAAAAXCAIQxe30ThdcXJFDQIgASAHIAVBAEcQzwJFDQZBASEDDAgLIAEgByAFQQBHIAEvAQ4QvAIEQEEBIQMMCAsgAEEIaiEEDAULIAEpAgAhCSACQQE6AA8gAiAJNwIAIAJB0IvCADYCFCACIAEpAggiCTcCGCAJpyIFQYCAgAFxIQMgAiACQQ9qNgIIIAIgAjYCECAEKgIAIQcgBUGAgICAAXFFDQEgAkEQaiAHIANBAEcgCUIwiKcQvAINAwwCC0EBIQMgASAHIAVBAEdBARD1Ag0FDAMLIAeLIghDyhsOWmAgB0MAAAAAXCAIQxe30ThdcXIEQCACQRBqIAcgA0EARxDPAkUNAQwCCyACQRBqIAcgA0EAR0EBEPUCDQELIAIoAhBByYvCAEECIAIoAhQoAgwRAAANACAAQQhqIQQMAQtBASEDDAILAkACQAJAAkACQAJAIAEoAggiA0GAgIAEcUUEQCABKAIAQZf8xQBBAiABKAIEKAIMEQAABEBBASEDDAkLIANBgICAAXEhACAEKgIAIQcgA0GAgICAAXENAiAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyRQ0BQQEhAyABIAcgAEEARxDPAkUNBgwICyABKQIAIQkgAkEBOgAPIAIgCTcCACACQdCLwgA2AhQgAiABKQIIIgk3AhggCaciA0GAgIABcSEAIAIgAkEPajYCCCACIAI2AhAgBCoCACEHIANBgICAgAFxRQ0CIAJBEGogByAAQQBHIAlCMIinELwCDQMMBAtBASEDIAEgByAAQQBHQQEQ9QINBgwEC0EBIQMgASAHIABBAEcgAS8BDhC8AkUNAwwFCyAHiyIIQ8obDlpgIAdDAAAAAFwgCEMXt9E4XXFyBEAgAkEQaiAHIABBAEcQzwJFDQIMAQsgAkEQaiAHIABBAEdBARD1AkUNAQtBASEDDAMLIAIoAhBByYvCAEECIAIoAhQoAgwRAABFDQBBASEDDAILIAEoAgBB4p7FAEEBIAEoAgQoAgwRAAAhAwwBC0EBIQMLIAJBIGokACADC6sKBBV/AX4BfQF7IwBBMGsiBCQAIAQgAjYCBCAEIAE2AgACQCADKAIEIg8gAkEDbCIFTwRAIAIgAygCDCINTQRAIAUgAygCFCIQTQRAIAUgAygCHCIRTQRAIAMoAiQiEiACQQJ0IgVPBEACQCAAKAIIIhMgASACak8EQCACDQFBACEFDAcLIAQgEzYCDCAEQoCAgIAQIhkgBEEMaq2ENwMgIAQgGSAEQQRqrYQ3AxggBCAZIASthDcDEEHVi8AAIARBEGpB9KnHABDbBwALIAAoAgQgAUEkbGohAiADKAIgIRQgAygCGCEVIAMoAhAhFiADKAIIIRcgAygCACEYAkACQANAAkACQAJAAkACQCATIAEgDmoiBUsEQCAIQQNqIgUgD0sNASACQRBqIAwgGGoiBkEIaiAG/V0CAP1WAgACIhv9WgIAAiACQQhqIBv9WwIAACANIA5GDQQgCyAXaigCACIKQf///wNxIQkgCkGAgICAeHEhBiAKQYCAgPwHcSIHQYCAgPwHRg0CIAZBEHYhBiAHQYCAgLgESw0DIAdBgICAxANPBEAgCkEMdiAKQf/fAHFBAEdxIAdBDXYgCUENdmpBgIABaiAGcmohBgwGCyAHQYCAgJgDSQ0FIAlBgICABHIiCkH+ACAHQRd2IglrdiEHIApBHSAJayIJdkEBcQR/IAdBAyAJdEEBayAKcUEAR2oFIAcLIAZyIQYMBQsgBSATQdSixwAQrgcACyAIIAUgD0HEqscAENUHAAsgCUENdiAGQRB2ckGABEEAIAkbckGA+AFyIQYMAgsgBkGA+AFyIQYMAQsgDSANQYSqxwAQrgcACyACQRRqIAY7AQAgBSAQSw0BIAQgDCAWaiIG/V0CACAGQQhqKgIAIhr9IAIgGv0gA/0LBBAgAiAEQRBqIgcQ4AIgBSARSw0CIAQgDCAVaiII/V0CACAIQQhqKgIAIhr9IAIgGv0gA/0LBBAgAiAHENoCIBIgC0EDaksEQCAEIBT9AAIA/QsEECAMQQxqIQwgFEEQaiEUIAtBBGohCyACIAcQjwIgAkEkaiECIAUhCCAOQQFqIg4gBCgCBCIFTw0JDAELCyALIAtBBGogEkGUqscAENUHAAsgCCAFIBBBtKrHABDVBwALIAggBSARQaSqxwAQ1QcACyAEIBI2AgggBCAFNgIMIARCgICAgBAiGSAEQQxqrYQ3AxggBCAZIARBCGqthDcDEEH0jMAAIARBEGpB5KnHABDbBwALIAQgETYCCCAEIAU2AgwgBEKAgICAECIZIARBDGqthDcDGCAEIBkgBEEIaq2ENwMQQbKNwAAgBEEQakHUqccAENsHAAsgBCAQNgIIIAQgBTYCDCAEQoCAgIAQIhkgBEEMaq2ENwMYIAQgGSAEQQhqrYQ3AxBB0Y3AACAEQRBqQcSpxwAQ2wcACyAEIA02AgwgBEKAgICAECIZIARBBGqthDcDGCAEIBkgBEEMaq2ENwMQQdOMwAAgBEEQakG0qccAENsHAAsgBCAPNgIIIAQgBTYCDCAEQoCAgIAQIhkgBEEMaq2ENwMYIAQgGSAEQQhqrYQ3AxBBko3AACAEQRBqQaSpxwAQ2wcACyAAIAEgBSADKAIoIAMoAiwgAygCMCADKAI0IAMoAjggAygCPBDJAwJAIAMoAkQiAkUNACADKAJMIghFDQAgACgCECIGIAAoAhQiACABIAUgAygCSCAIEIcDIAYgACABIAUgAygCQCACELsDCyAEQTBqJAALxAoCBn8DfiMAQdABayIDJAACQAJAAkAgACkDAEICUgRAIAAoAqgBIQEgAEEANgKoAQJAAkACQAJAIAFBAWsOAgECAAsgA0EwaiEEAkACQAJAQSUQcSIBBEAgAUEdakGFgscAKQAANwAAIAFBEGpB+IHHAP0AAAD9CwAAIAFB6IHHAP0AAAD9CwAAQQwQcSICRQ0BIAJBJTYCCCACIAE2AgQgAkElNgIAQQwQcSIBRQ0CIAFBKDoACCABQbyrwQA2AgQgASACNgIAIARBADYCECAEIAGtQiCGQgOENwMADAMLQQFBJRDhCAALQQwQ6AkAC0EMEOgJAAsMAgsgA0FAayAAQcABaikDADcDACADIAD9AAOwAf0LAzAMAQsgACgCrAEiAUEoaiECIAEoAiQhBCABKAIgIQUCQCABKQMYIgdCAlIEQCADQdgAaiIGIAL9AAMA/QsDACADQUBrIAFBEGopAwA3AwAgA0HoAGogAkEQav0AAwD9CwMAIANB+ABqIAJBIGr9AAMA/QsDACADQcgBaiABQZgBaikDADcDACADQagBaiABQfgAav0AAwD9CwMAIANBuAFqIAFBiAFq/QADAP0LAwAgAyAB/QADAP0LAzAgAyAB/QADWP0LA4gBIAMgAf0AA2j9CwOYASADQcgAaiICIAc3AwAgA0EgaiAG/QADAP0LAwAgAyAENgJUIAMgBTYCUCADQRBqIAL9AAMA/QsDACADIANBOGr9AAMA/QsDACADKAIwIQUgAygCNCEEIANBiAFqEJYFDAELIANBIGogAkEgav0AAwD9CwMAIANBEGogAkEQav0AAwD9CwMAIAMgAv0AAwD9CwMACyAEBEAgBUEEaygCACICQXhxIgZBBEEIIAJBA3EiAhsgBGpJDQQgAkEAIAYgBEEnaksbDQUgBRCfAgsgA0FAayADQRhqIgJBEGopAwA3AwAgAyAC/QADAP0LAzAgAUEEaygCACICQXhxQbwBQcABIAJBA3EiBBtJDQMgBEEAIAJB4AFPGw0EIAEQnwILAkAgAygCQCIBBEAgAykDOCEHA0AgB1ANAiABIAEpAwgiCCABKAIEIgJC/////w8gCCAIQv////8PWhunayIEQQAgAiAETxsiBEKAwAAgByAHQoDAAFobpyIFIAQgBUkbrSIJfDcDCCAHIAl9IQcgAiAIIAKtIgkgCCAJVBunRw0ACwwBCyADLQAwQQNHDQAgAygCNCIBKAIAIQIgAUEEaigCACIEKAIAIgUEQCACIAURAwALIAQoAgQiBARAIAJBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIARqSQ0EIAVBACAGIARBJ2pLGw0FIAIQnwILIAFBBGsoAgAiAkF4cSIEQRBBFCACQQNxIgIbSQ0DIAJBACAEQTRPGw0EIAEQnwILIAAQ3gMMAQsgACgCqAFBAkkNAAJAIAAoAqwBIgApAxhCAlEEQCAAKAIkIgFFDQEgACgCICICQQRrKAIAIgRBeHEiBUEEQQggBEEDcSIEGyABakkNAyAEQQAgBSABQSdqSxsNBCACEJ8CDAELIAAoAgQiAQRAIAAoAgAiAkEEaygCACIEQXhxIgVBBEEIIARBA3EiBBsgAWpJDQMgBEEAIAUgAUEnaksbDQQgAhCfAgsgAEHYAGoQlgULIABBBGsoAgAiAUF4cUG8AUHAASABQQNxIgIbSQ0BIAJBACABQeABTxsNAiAAEJ8CCyADQdABaiQADwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALugoDDn8DewJ+IwBBoAFrIggkACAIIAI2AgQgCCAAKAIIIgM2AggCQAJAAkACQAJAAkACQAJAAkACQCACIANGBEAgCEEMaiABIAIQ4AMgCCgCECEBAkAgCCgCFCIMRQ0AIAEgDEEDdGohCiAAKAIEIQYgASEDA0AgAygCACIEIAJPDQMgA0EEaigCACIFIAJPDQwgBiAEQSRsaiIEQSBqIgcoAgAhCSAGIAVBJGxqIgX9AAIAIRIgBUEQaiIL/QACACERIAcgBUEgaiIHKAIANgIAIARBEGoiDf0AAgAhEyANIBH9CwIAIAT9AAIAIREgBCAS/QsCACALIBP9CwIAIAUgEf0LAgAgByAJNgIAIANBCGoiAyAKRw0ACyAAKAIUIgIEQCAAKAIQIQQgASEDA0AgAygCACIFIAJPDQ0gA0EEaigCACIGIAJPDQUgBCAFQRhsaiIFQRBqIgcpAgAhFCAEIAZBGGxqIgb9AAIAIRIgByAGQRBqIgcpAgA3AgAgBf0AAgAhESAFIBL9CwIAIAcgFDcCACAGIBH9CwIAIANBCGoiAyAKRw0ACwsgACgCICICBEAgACgCHCEEIAEhAwNAIAMoAgAiBSACTw0NIANBBGooAgAiBiACTw0GIAQgBUESbGoiBUEQaiIHLwEAIQkgBCAGQRJsaiIG/QABACESIAcgBkEQaiIHLwEAOwEAIAX9AAEAIREgBSAS/QsBACAHIAk7AQAgBiAR/QsBACADQQhqIgMgCkcNAAsLIAAoAiwiBQRAIAAoAighBiABIQIDQCACKAIAIgMgBU8NByACQQRqKAIAIgQgBU8NCCAGIANBHmxqIgNBEGoiBykBACEUIANBFmopAQAhFSAGIARBHmxqIgRBHGovAQAhCSAEQRhqKAEAIQsgBP0AAQAhEiAHIARBEGoiBykBADcBACAD/QABACERIAMgEv0LAQAgA0EYaiALNgEAIANBHGogCTsBACAIQYYBaiIDIBU3AQAgCEGAAWoiCSAUNwMAIAQgEf0LAQAgByAJKQMANwEAIARBFmogAykBADcBACACQQhqIgIgCkcNAAsLIAAoAjgiA0UgDEVyDQAgACgCNCEFIAEhAgNAIAIoAgAiACADTw0IIAJBBGooAgAiBCADTw0JIAhBmAFqIgwgBSAAQSpsaiIAQShqIgYvAQA7AQAgCEGQAWoiByAAQSBqIgkpAQA3AwAgCEGAAWoiCyAAQRBqIg39AAEA/QsDACAFIARBKmxqIgRBEGoiDv0AAQAhEiAE/QABACERIARBKGoiDy8BACEQIAkgBEEgaiIJKQEANwEAIAYgEDsBACAA/QABACETIAAgEf0LAQAgDSAS/QsBACAIIBP9CwNwIAkgBykDADcBACAPIAwvAQA7AQAgBCAI/QADcP0LAQAgDiAL/QADAP0LAQAgAkEIaiICIApHDQALCyAIKAIMIgAEQCABQQRrKAIAIgJBeHEiAyAAQQN0IgBBBEEIIAJBA3EiAhtqSQ0JIAJBACADIABBJ2pLGw0KIAEQnwILIAhBoAFqJAAPC0EAIAhBBGogCEEIakEAIANBlKPHABDkBwALIAQgAkG4y8cAEK4HAAsgBiACQbjLxwAQrgcACyAGIAJBuMvHABCuBwALIAMgBUG4y8cAEK4HAAsgBCAFQbjLxwAQrgcACyAAIANBuMvHABCuBwALIAQgA0G4y8cAEK4HAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIAUgAkG4y8cAEK4HAAu0CgIEfwF+IwBBIGsiAiQAAn8CQAJAAkACQAJAAkACQCAAKAIAQQFrDgUBAgMEBQALIABBBGohAyAAKAIUBEAgAiAAQRRqNgIMIAIgAkEMaq1CgICAgOAGhDcDGCACIAOtQoCAgIDwBoQ3AxAgASgCACABKAIEQaGZwAAgAkEQahDEAwwHCyADLQAAQQNHBEAgAiADrUKAgICA8AaENwMQIAEoAgAgASgCBEHEicAAIAJBEGoQxAMMBwsgASgCAEH1xMQAQQwgASgCBCgCDBEAAAwGCyAAQQRqIQMgACgCFARAIAIgAEEUajYCDCACIAJBDGqtQoCAgIDgBoQ3AxggAiADrUKAgICA8AaENwMQIAEoAgAgASgCBEGJmsAAIAJBEGoQxAMMBgsgAiADrUKAgICA8AaENwMQIAEoAgAgASgCBEGricAAIAJBEGoQxAMMBQsgASgCBCEDIAEoAgAhAQJAAkACQAJAAkACQAJAQQMgACgCBCIEQYCAgIB4cyAEQQBOG0EBaw4FBAABBQMCCyACIABBCGo2AgwgAiACQQxqrUKAgICAgAeENwMQIAEgA0GY5MAAIAJBEGoQxANFDQVBAQwKCyACIABBBGo2AgwgAiACQQxqrUKAgICAkAeENwMQIAEgA0GsmMAAIAJBEGoQxANFDQRBAQwJCyABQZTFxABBOCADKAIMEQAARQ0DQQEMCAsgAiAAQQhqNgIIIAIgAEEMajYCDCACQoCAgICAByIGIAJBCGqthDcDGCACIAYgAkEMaq2ENwMQIAEgA0GlisAAIAJBEGoQxANFDQJBAQwHCyABQczFxABBwQAgAygCDBEAAEUNAUEBDAYLIAFBjcbEAEElIAMoAgwRAABFDQBBAQwFC0EAIAAoAhBFDQQaIAIgAEEQajYCDCACIAJBDGqtQoCAgIDgBoQ3AxAgASADQaaawAAgAkEQahDEAwwECyABKAIAIQMgASgCBCgCDCEBAkACQAJAQQIgACkDCCIGp0ECayAGQgFYG0EBaw4CAQIACyADQZjDxABBGCABEQAADAULIANBjPDEAEEVIAERAAAMBAsgA0Gww8QAQc8AIAERAAAMAwsgAEEEaiEEIAEoAgQhAyABKAIAIQECQAJAAkACQAJAQQMgAC0AFCIFQQRrIAVBA00bQf8BcUEBaw4EAQIDBAALIAIgAEEVajYCDCACIAJBDGqtQoCAgICgB4Q3AxggAiAErUKAgICA8AaENwMQIAEgA0Hu68AAIAJBEGoQxAMMBgsgAiAAQRVqNgIMIAIgAkEMaq1CgICAgKAHhDcDECABIANB6+nAACACQRBqEMQDDAULIAIgAEEVajYCDCACIAJBDGqtQoCAgICAB4Q3AxAgASADQePqwAAgAkEQahDEAwwECyAAQRRqIQACQAJAAkAgBUECaw4CAQIACyACIAA2AgwgAiACQQxqrUKAgICAsAeENwMQIAEgA0Go6sAAIAJBEGoQxAMMBQsgAiAANgIMIAIgAkEMaq1CgICAgLAHhDcDECABIANBjpvAACACQRBqEMQDDAQLIAFB+sbEAEEoIAMoAgwRAAAMAwsgAiAAQRhqNgIIIAAtAARBA0YNASACIAQ2AgwgAiACQQhqrUKAgICAkAeENwMYIAIgAkEMaq1CgICAgLAHhDcDECABIANBrofAACACQRBqEMQDDAILIABBBGogARDIBAwBCyACIAJBCGqtQoCAgICQB4Q3AxAgASADQfKJwAAgAkEQahDEAwsgAkEgaiQAC8oNAwd/BHsCfSABKgIAIRQgACoCACETAkACQAJAAkACQAJAAkACQAJAAkBBgAgQcSIMBEAgFCATk/0TIRAgE/0TIRH9DAAAAAABAAAAAgAAAAMAAAAhDwNAIAggDGoiCiARIBAgD/37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgCkEQaiARIBAgD/0MBAAAAAQAAAAEAAAABAAAAP2uAf37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgD/0MCAAAAAgAAAAIAAAACAAAAP2uASEPIAhBIGoiCEGACEcNAAsgASoCBCAAKgIEIRNBgAgQcSIKRQ0IIBOT/RMhECAT/RMhEf0MAAAAAAEAAAACAAAAAwAAACEPQQAhCANAIAggCmoiCyARIBAgD/37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgC0EQaiARIBAgD/0MBAAAAAQAAAAEAAAABAAAAP2uAf37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgD/0MCAAAAAgAAAAIAAAACAAAAP2uASEPIAhBIGoiCEGACEcNAAsgASoCCCAAKgIIIRNBgAgQcSILRQ0IIBOT/RMhECAT/RMhEf0MAAAAAAEAAAACAAAAAwAAACEPQQAhCANAIAggC2oiDSARIBAgD/37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgDUEQaiARIBAgD/0MBAAAAAQAAAAEAAAABAAAAP2uAf37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kAf0Mu26QPrtukD67bpA+u26QPv3mAf0MAAAAPwAAAD8AAAA/AAAAP/3kAf0LAgAgD/0MCAAAAAgAAAAIAAAACAAAAP2uASEPIAhBIGoiCEGACEcNAAsgASoCDCAAKgIMIRNBgAgQcSIBRQ0IIBOT/RMhESAT/RMhEv0MAAAAAAEAAAACAAAAAwAAACEPQQAhCANAIAEgCGr9DAAAgD8AAIA/AACAPwAAgD/9DAAAgD8AAIA/AACAPwAAgD8gEiARIA/9+wH9DAAAf0MAAH9DAAB/QwAAf0P95wH95gH95AH94QEiEP0fABDuA/0TIBD9HwEQ7gP9IAEgEP0fAhDuA/0gAiAQ/R8DEO4D/SAD/eQB/ecB/QsCACAP/QwEAAAABAAAAAQAAAAEAAAA/a4BIQ8gCEEQaiIIQYAIRw0ACyAHRQ0HIAdBAnQhDUECIAUgBUECTRtBA25BAnQhDkEAIQBBACEIA0AgAyAITQRAIAggA0GIxccAEK4HAAsgACAFTw0CIAQgDCACIAhqIgctAABBAnRqKgIAOAIAIAhBAWoiCSADTw0DIABBAWoiCSAFTw0EIARBBGogCiAHQQFqLQAAQQJ0aioCADgCACAIQQJqIgkgA08NBSAIIA5GDQYgBEEIaiALIAdBAmotAABBAnRqKgIAOAIAIAhBA2oiCSADTw0HIAYgCGogASAHQQNqLQAAQQJ0aioCADgCACAEQQxqIQQgAEEDaiEAIA0gCEEEaiIIRw0ACwwHCwwHCyAAIAVBmMXHABCuBwALIAkgA0GoxccAEK4HAAsgCSAFQbjFxwAQrgcACyAJIANByMXHABCuBwALIABBAmogBUHYxccAEK4HAAsgCSADQejFxwAQrgcACwJAIAFBBGsoAgAiAEF4cUGECEGICCAAQQNxIgIbTwRAIAJBACAAQagITxsNBCABEJ8CIAtBBGsoAgAiAEF4cUGECEGICCAAQQNxIgEbSQ0DIAFBACAAQagITxsNBCALEJ8CIApBBGsoAgAiAEF4cUGECEGICCAAQQNxIgEbSQ0DIAFBACAAQagITxsNBCAKEJ8CIAxBBGsoAgAiAEF4cUGECEGICCAAQQNxIgEbSQ0DIAFBACAAQagITxsNASAMEJ8CDwsMAgsMAgtBBEGACBDhCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC6AKAgl/Bn4jAEEgayIFJAACQAJAIAEtAAgiBkECRg0AIAIgASkDACIMNwMIIAVCADcDEAJAAkACQAJAAkACQCABKAKYASIDQQlJBEAgASkDGEJ/IAwgA618Ig4gDCAOVhtUDQQgASgClAEhCCACKAIEIgStIQ0gBEL/////DyAMIAxC/////w9aG6drIgdBACAEIAdPGyADTwRAIAIoAgAgDCANIAwgDVQbp2ohBCADQQFHBEAgA0UNAyAFQRBqIAQgA/wKAAAMAwsgBSAELQAAOgAQDAILQYjjxwApAwAiD0IIiCEQIA+nIQcgD0L/AYNCBFINAwwCC0EAIANBCEGcq8EAENUHAAtBBCEHCyAOIQ0LIAIgDTcDCCAHQf8BcSIEQQRHBEAgBSAHrUL/AYMgEEIIhoQiDTcDGCAQQhiIpyEDAkACQAJ/AkACQCAEQQFrDgMAAQEDCyAQpwwBCyADLQAIC0H/AXFBJUYNAQsgACANNwMIIABCgYCAgJCAgICAfzcDAAwGCyAGQQFxRQRAIAVBGGoQwgUMAwsgAEEANgIAIABCADcDCCAFQRhqEMIFDAULIAggBUEQaiADELsHDQAgAiAMNwMIIAFBAjoACCAAIAw3AxAgAEIBNwMIIABBADYCAAwECyAGQQFxDQELIAFBAjoACAwBCyAAQQA2AgAgAEIANwMIDAELAkACQAJAIAEpA6ABIgwgASkDEFQNACABQSBqIQlBiOPHACkDACIOQv8BgyERIA5CCIghECABKQMYIQ0gAigCACEKIA6nIQYgAigCBCILrSEOA0AgDCANWg0BQn8gDCABKAKsASIDrXwiDyAMIA9WGyIPIAxYDQECQAJAIAICfgJAAkACQCANIA8gDSAPVBsgDH0iD6ciBCADTQRAIAEoAqgBIQcgASgCsAENBSALIAwgDiAMIA5UG6ciA2sgBEkNAiADIApqIQMgBEEBRg0BIAQEQCAHIAMgBPwKAAALQQQhAwwDC0EAIAQgA0GMq8EAENUHAAsgByADLQAAOgAAQQQhAwwBCyAGIQMgDiARQgRSDQEaCyAPQv////8PgyAMfAs3AwggA0H/AXEiA0EERwRAIBBCGIinIQEgEKciAiEEAkACQAJAAkACQCADQQFrDgMBAAIDCyABLQAIIQQLIARB/wFxQSVHDQEMBwsgAS0ACEElRg0BCyAAIAE2AgwgAEGBgICAeDYCBCAAIAJBCHQgA3I2AgggAEEBNgIADAgLIAEoAgAhAiABQQRqKAIAIgMoAgAiBgRAIAIgBhEDAAsgAygCBCIGBEAgAiAGIAMoAggQiAcLIAFBDEEEEIgHDAQLQQAhAyABKAKwAUUNAQsgBCABKAK0ASIDSQ0DIAMgB2ohByAEIANrIQQLIAVCATcCGCABKAKYASIIIARNBEAgBUEIaiAJIAVBGGogByAEIAEoApQBIAggASgCiAERCgAgBSgCCEEBcQ0ECyABQQA2ArABQn8gASkDoAEiDSABNQKsASAIQQFrIgNBACADIAhNG619fCIMIAwgDVQbIgwgASkDGCINVARAIAEgDDcDoAEgDCABKQMQWg0BDAILCyABIA03AxALIABCADcDCCAAQQA2AgAMAgsgAyAEIARBmO3HABDVBwALIAUoAgwhBiABQQE2ArABIABCATcDCCABIAMgBmogCGo2ArQBIAIgBq0gDCADrXx8Ig03AwggACANNwMQIABBADYCAAsgBUEgaiQAC4IJAgZ/A34CQAJAAkAgAUEITwRAIAFBB3EiAkUNASAAKAKgASIEQSlPDQIgBEUEQCAAQQA2AqABDAILIARBAnQiBkEEayIDQQJ2QQFqIgVBA3EhByACQQJ0KAKIn0IgAnatIQoCQCADQQxJBEAgACECDAELIAVB/P///wdxIQMgACECA0AgAiACNQIAIAp+IAl8Igg+AgAgAkEEaiIFIAU1AgAgCn4gCEIgiHwiCD4CACACQQhqIgUgBTUCACAKfiAIQiCIfCIIPgIAIAJBDGoiBSAFNQIAIAp+IAhCIIh8Igg+AgAgCEIgiCEJIAJBEGohAiADQQRrIgMNAAsLIAcEQCAHQQJ0IQMDQCACIAI1AgAgCn4gCXwiCD4CACACQQRqIQIgCEIgiCEJIANBBGsiAw0ACwsgACAIQoCAgIAQWgR/IARBKEYNBCAAIAZqIAk+AgAgBEEBagUgBAs2AqABDAELIAAoAqABIgRBKU8NASAERQRAIABBADYCoAEPCyABQQJ0NQKIn0IhCiAEQQJ0IgdBBGsiAkECdkEBaiIDQQNxIQECQCACQQxJBEAgACECDAELIANB/P///wdxIQMgACECA0AgAiACNQIAIAp+IAl8Igg+AgAgAkEEaiIGIAY1AgAgCn4gCEIgiHwiCD4CACACQQhqIgYgBjUCACAKfiAIQiCIfCIIPgIAIAJBDGoiBiAGNQIAIAp+IAhCIIh8Igg+AgAgCEIgiCEJIAJBEGohAiADQQRrIgMNAAsLIAEEQCABQQJ0IQMDQCACIAI1AgAgCn4gCXwiCD4CACACQQRqIQIgCEIgiCEJIANBBGsiAw0ACwsgACAIQoCAgIAQWgR/IARBKEYNAyAAIAdqIAk+AgAgBEEBagUgBAs2AqABDwsCQCABQQhxBEAgACgCoAEiBEEpTw0CAkAgBEUEQEEAIQQMAQsgBEECdCIGQQRrIgJBAnZBAWoiA0EDcSEHAkAgAkEMSQRAQgAhCCAAIQIMAQsgA0H8////B3EhA0IAIQggACECA0AgAiACNQIAQuHrF34gCHwiCD4CACACQQRqIgUgBTUCAELh6xd+IAhCIIh8Igg+AgAgAkEIaiIFIAU1AgBC4esXfiAIQiCIfCIIPgIAIAJBDGoiBSAFNQIAQuHrF34gCEIgiHwiCT4CACAJQiCIIQggAkEQaiECIANBBGsiAw0ACwsgBwRAIAdBAnQhAwNAIAIgAjUCAELh6xd+IAh8Igk+AgAgAkEEaiECIAlCIIghCCADQQRrIgMNAAsLIAlCgICAgBBUDQAgBEEoRg0CIAAgBmogCD4CACAEQQFqIQQLIAAgBDYCoAELIAFBEHEEQCAAQbCfwgBBAhDwAgsgAUEgcQRAIABBuJ/CAEEDEPACCyABQcAAcQRAIABBxJ/CAEEFEPACCyABQYABcQRAIABB2J/CAEEKEPACCyABQYACcQRAIABBgKDCAEETEPACCyAAIAEQtwMaDwsMAQtBACAEQShB/IzCABDVBwALQShBKEH8jMIAEK4HAAv+CQEBfyMAQRBrIgIkAAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAALQAAQQFrDhwBAgMEBQYHCAkKCwwNDg8QERITFBUWFxgZGhscAAsgAiAAQQRqNgIEIAEoAgAgASgCBCACIAJBBGqtQoCAgICgBoQ3AwhB9pDAACACQQhqEMQDDBwLIAIgAEEBajYCBCABKAIAIAEoAgQgAiACQQRqrUKAgICA8AeENwMIQbPwxAAgAkEIahDEAwwbCyACIABBAWo2AgQgASgCACABKAIEIAIgAkEEaq1CgICAgPAHhDcDCEGI8cQAIAJBCGoQxAMMGgsgASgCAEHv78QAQR0gASgCBCgCDBEAAAwZCyACIABBAWo2AgQgASgCACABKAIEIAIgAkEEaq1CgICAgPAHhDcDCEGQ8sQAIAJBCGoQxAMMGAsgASgCAEHS8MQAQREgASgCBCgCDBEAAAwXCyABKAIAQerxxABBJiABKAIEKAIMEQAADBYLIAEoAgBB1PLEAEEaIAEoAgQoAgwRAAAMFQsgASgCAEGz78QAQRkgASgCBCgCDBEAAAwUCyABKAIAQa3yxABBDyABKAIEKAIMEQAADBMLIAEoAgBB7vLEAEETIAEoAgQoAgwRAAAMEgsgAiAAQQFqNgIEIAEoAgAgASgCBCACIAJBBGqtQoCAgICACIQ3AwhBzO/EACACQQhqEMQDDBELIAIgAEEBajYCBCABKAIAIAEoAgQgAiACQQRqrUKAgICAkAiENwMIQZmRwAAgAkEIahDEAwwQCyACIABBAWo2AgQgASgCACABKAIEIAIgAkEEaq1CgICAgJAIhDcDCEHKj8AAIAJBCGoQxAMMDwsgASgCAEHj8MQAQRQgASgCBCgCDBEAAAwOCyABKAIAQafxxABBESABKAIEKAIMEQAADA0LIAEoAgBB9/DEAEERIAEoAgQoAgwRAAAMDAsgAiAAQQFqNgIEIAEoAgAgASgCBCACIAJBBGqtQoCAgICgCIQ3AwhBuPHEACACQQhqEMQDDAsLIAEoAgBB0vHEAEEYIAEoAgQoAgwRAAAMCgsgAiAAQQFqNgIEIAEoAgAgASgCBCACIAJBBGqtQoCAgICQCIQ3AwhBkJjAACACQQhqEMQDDAkLIAIgAEEBajYCBCABKAIAIAEoAgQgAiACQQRqrUKAgICAsAiENwMIQcSXwAAgAkEIahDEAwwICyACIABBAWo2AgQgASgCACABKAIEIAIgAkEEaq1CgICAgLAIhDcDCEGel8AAIAJBCGoQxAMMBwsgAiAAQQFqNgIEIAEoAgAgASgCBCACIAJBBGqtQoCAgICwCIQ3AwhB6ZfAACACQQhqEMQDDAYLIAEoAgBBvPLEAEEYIAEoAgQoAgwRAAAMBQsgAiAAQQRqNgIEIAEoAgAgASgCBCACIAJBBGqtQoCAgICQB4Q3AwhB/pXAACACQQhqEMQDDAQLIAIgAEEEajYCBCABKAIAIAEoAgQgAiACQQRqrUKAgICAkAeENwMIQYORwAAgAkEIahDEAwwDCyABKAIAQYzwxABBFSABKAIEKAIMEQAADAILIAEoAgBBofDEAEESIAEoAgQoAgwRAAAMAQsgASgCAEGl78QAQQ4gASgCBCgCDBEAAAsgAkEQaiQAC7UJAgl/BX1DAACAPyEOAn8CQCABKAIAIgcgAkEEaigCACIEQQhqKAIAIgVJBEAgAUEEayIJKAIAIQEgBEEEaigCACIIIAdBJGxqIgQQgwQhDCAELwEUIgNB//8BcUUNASADQf8HcSEEIANBgIACcSEGIANBgPgBcSIDQYD4AUcEQCAGQRB0IQYgA0ENdEGAgID8AHEgBEENdHJBgICAwANqIAZyIAMNAxogBkGAgIDYA3IgBGdBEGsiA0EXdGsgBCADQf//A3FBCGp0Qf///wNxcgwDCyAGQRB0IQMgAyAEQQ10ckGAgID+B3IgBA0CGiADQYCAgPwHcgwCCyAHIAVBxKLHABCuBwALIANBEHQLviINQwAAgD9eBEAgDRC6BUNU+C1AlEMAAIA/kpEhDgtDAACAPyENAn8CQCABIAVJBEAgCCABQSRsaiIEEIMEIQ8gBC8BFCIDQf//AXFFDQEgA0H/B3EhBCADQYCAAnEhBSADQYD4AXEiA0GA+AFHBEAgBUEQdCEFIANBDXRBgICA/ABxIARBDXRyQYCAgMADaiAFciADDQMaIAVBgICA2ANyIARnQRBrIgNBF3RrIAQgA0H//wNxQQhqdEH///8DcXIMAwsgBUEQdCEDIAMgBEENdHJBgICA/gdyIAQNAhogA0GAgID8B3IMAgsgASAFQcSixwAQrgcACyADQRB0C74iEEMAAIA/XgRAIBAQugVDVPgtQJRDAACAP5KRIQ0LIAwgDJIgDpQiDCAMXCAMIA8gD5IgDZRgckUEQCACQQRqIQggB0EkbCEKA0ACQCAJIgJBBGogATYCACAAIAJGDQBDAACAPyEOAn8CQCAIKAIAIgRBCGooAgAiBSAHSwRAIAJBBGsiCSgCACEBIARBBGooAgAiCyAKaiIEEIMEIQwgBC8BFCIDQf//AXFFDQEgA0H/B3EhBCADQYCAAnEhBiADQYD4AXEiA0GA+AFHBEAgBkEQdCEGIANBDXRBgICA/ABxIARBDXRyQYCAgMADaiAGciADDQMaIAZBgICA2ANyIARnQRBrIgNBF3RrIAQgA0H//wNxQQhqdEH///8DcXIMAwsgBkEQdCEDIAMgBEENdHJBgICA/gdyIAQNAhogA0GAgID8B3IMAgsgByAFQcSixwAQrgcACyADQRB0C74iDUMAAIA/XgRAIA0QugVDVPgtQJRDAACAP5KRIQ4LQwAAgD8hDQJ/AkAgASAFSQRAIAsgAUEkbGoiBBCDBCEPIAQvARQiA0H//wFxRQ0BIANB/wdxIQQgA0GAgAJxIQUgA0GA+AFxIgNBgPgBRwRAIAVBEHQhBSADQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogBXIgAw0DGiAFQYCAgNgDciAEZ0EQayIDQRd0ayAEIANB//8DcUEIanRB////A3FyDAMLIAVBEHQhAyADIARBDXRyQYCAgP4HciAEDQIaIANBgICA/AdyDAILIAEgBUHEoscAEK4HAAsgA0EQdAu+IhBDAACAP14EQCAQELoFQ1T4LUCUQwAAgD+SkSENCyAMIAySIA6UIgwgDFwNACAMIA8gD5IgDZRgRQ0BCwsgAiAHNgIACwuxCQMPfwN+AXsjAEEgayIIJAACQAJAIAIoAgAiDCACKAIIIgtrIglBIE8EQCABKQMIIRMgDCEFIAshBAwBCyAIQRBq/QwAAAAAAAAAAAAAAAAAAAAA/QsDACAIIBX9CwMAAn8gASkDCCITUARAQgAhEyALDAELIAEoAhAiBCgCACAEKQMIIhIgBCgCBCIGrSIUIBIgFFQbp2ohBQJAIAZC/////w8gEiASQv////8PWhunayIDQQAgAyAGTRsiBkIgIBMgE0IgWhunIgMgAyAGSxsiA0EBRwRAIANFDQEgCCAFIAP8CgAADAELIAggBS0AADoAAAsgASATIAOtIhR9IhM3AwggBCASIBR8NwMIIAsgAyAJTQ0AGiACIAsgA0EBQQEQmAYgAigCCAshBiADBEAgAigCBCAGaiAIIAP8CgAACyACIAMgBmoiBDYCCCADBEAgAigCACEFDAELIABBBDoAACAAQQA2AgQMAQsgASgCECEJQYDAACEGIAhBEGohEANAAkAgBCAFRiAFIAxGcUUEQCACKAIEIQcMAQsgEP0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgCCAV/QsDAAJ/IBNQBEBBACEDQgAhEyAMDAELIAkpAwgiEiAJKAIEIgStIhQgEiAUVBunIgcgCSgCAGohBQJAIARC/////w8gEiASQv////8PWhunayIDQQAgAyAETRsiA0IgIBMgE0IgWhunIgogAyAKSRsiA0EBRwRAIANFDQEgCCAFIAP8CgAADAELIAggBS0AADoAAAsgASATIAOtIhR9IhM3AwggCSASIBR8NwMIIAwgBCAHRg0AGiACIAwgA0EBQQEQmAYgAigCCAshBCACKAIEIQcgAwRAIAQgB2ogCCAD/AoAAAsgAiADIARqIgQ2AgggAwRAIAIoAgAhBQwBCyAAQQQ6AAAgACAEIAtrNgIEDAILIAQgBUYEQCAIIAUgByAFQSBqIgMgBUEBdCIFIAMgBUsbIgVBAUEBEIsGIAgoAgBBAUYEQCAAQoHMADcCAAwDCyAIKAIEIQcgAiAFNgIAIAIgBzYCBAsCQCATUARAIAIgBDYCCAwBCyAEIAdqIQogCQJ+IAYgBSAEayIDIAMgBksbIgetIBNYBEAgCSgCBCIOQv////8PIAkpAwgiEiASQv////8PWhunayIDQQAgAyAOTRsiAyAHIAMgB0kbIgMEQCAKIAkoAgAgEiAOrSIUIBIgFFQbp2ogA/wKAAALIAMgDSADIA1LGyEKIBIgA60iFHwMAQsgCSgCBCIOQv////8PIAkpAwgiEiASQv////8PWhunayIDQQAgAyAOTRsiAyATpyIRIAMgEUkbIgMEQCAKIAkoAgAgEiAOrSIUIBIgFFQbp2ogA/wKAAALIAMgDSADIA1LGyEKIBIgA60iFHwLNwMIIAEgEyAUfSITNwMIIAIgAyAEaiIENgIIIANFDQAgCiADayENIAMgB0cgB0F/IAYgD0EBakEAIAMgB0kbIg9BAUobIAYgByAKRxsiBklyDQEgBkEATiAGQQF0IQYNAUF/IQYMAQsLIABBBDoAACAAIAQgC2s2AgQLIAhBIGokAAvyCAIQfwF9IwBBEGsiBiQAAkACQCADQQNsIgdB/////wNLDQAgA0EMbCIEQf3///8HTw0AAkAgBEUEQEEEIQpBACEHDAELIAQQcSIKRQ0CCyAGQQA2AgwgBiAKNgIIIAYgBzYCBAJ/AkACQAJAAkACQCADBEAgAkF+cSEPIAEgA0EBdCIQaiERIAEgA0ECdCISaiETIAJBAWpBAXYhDUEAIQcgAyEOQQghCwNAIA1FBEAgByEEDAQLIAcgD0YNBCAGKAIEIQwCfyABIAdqIgRBAWotAABBCHQiCCAELQAAciIEQf//AXEEQCAEQf8HcSEEIAhBgIACcSEFIAhBgPgBcSIIQYD4AUcEQCAFQRB0IgUgCEENdEGAgID8AHEgBEENdHJBgICAwANqciAIDQIaIAVBgICA2ANyIARnQRBrIghBF3RrIAQgCEH//wNxQQhqdEH///8DcXIMAgsgBUEQdCIIIARBDXRyQYCAgP4HciAEDQEaIAhBgICA/AdyDAELIARBEHQLvhDuAyEUIAkgDEYEQCAGQQRqEPYGIAYoAgghCgsgCiALakEIayAUOAIAIAYgCUEBaiIINgIMIAcgEGoiBCACTw0DIARBAWogAk8NBSAGKAIEIQwCfyAHIBFqIgRBAWotAABBCHQiBSAELQAAciIEQf//AXEEQCAEQf8HcSEEIAVBgIACcSEJIAVBgPgBcSIFQYD4AUcEQCAJQRB0IgkgBUENdEGAgID8AHEgBEENdHJBgICAwANqciAFDQIaIAlBgICA2ANyIARnQRBrIgVBF3RrIAQgBUH//wNxQQhqdEH///8DcXIMAgsgCUEQdCIFIARBDXRyQYCAgP4HciAEDQEaIAVBgICA/AdyDAELIARBEHQLvhDuAyEUIAggDEYEQCAGQQRqEPYGIAYoAgghCgsgCiALakEEayAUOAIAIAYgCEEBaiIINgIMIAcgEmoiBCACTw0CIARBAWogAk8NBiAGKAIEIQwCfyAHIBNqIgRBAWotAABBCHQiBSAELQAAciIEQf//AXEEQCAEQf8HcSEEIAVBgIACcSEJIAVBgPgBcSIFQYD4AUcEQCAJQRB0IgkgBUENdEGAgID8AHEgBEENdHJBgICAwANqciAFDQIaIAlBgICA2ANyIARnQRBrIgVBF3RrIAQgBUH//wNxQQhqdEH///8DcXIMAgsgCUEQdCIFIARBDXRyQYCAgP4HciAEDQEaIAVBgICA/AdyDAELIARBEHQLvhDuAyEUIAggDEYEQCAGQQRqEPYGIAYoAgghCgsgCiALaiAUOAIAIAYgCEEBaiIJNgIMIA1BAWshDSAHQQJqIQcgC0EMaiELIA5BAWsiDg0ACwsgACAGKQIENwIAIABBCGogBkEMaigCADYCACAGQRBqJAAPCyADQQJ0IAdqIQQLIAQgAkHUwMcAEK4HAAsgB0EBagwCCyAEQQFqDAELIANBAnQgB2pBAWoLIAJB5MDHABCuBwALEM8JAAtBBCAEEOEIAAvuCwIIfwV7AkACQAJAIAIgA08EQCADRQ0CIAEgA2ohBSADQQ9NBEADQCABIAVPDQQgBUEBayIFLQAAQQpHDQAMAwsACyAFQRBrIgT9AAAA/QwKCgoKCgoKCgoKCgoKCgoKIgz9I/1kIgYEQCAEIAZnQR9zaiEFDAILAkACQAJAAkACQCADQcAASSADIAVBD3FrIgVBwABJcg0AA0AgASAFaiIEQTBrIgb9AAQAIAz9IyINIARBQGoiCP0ABAAgDP0jIg79UCAEQSBrIgf9AAQAIAz9IyIP/VAgBEEQayIE/QAEACAM/SMiEP1Q/WRFBEAgBUFAaiIFQUBrQYABTw0BDAILCyAQ/WQiBQ0DIA/9ZCIEDQQgDf1kIgQNASAIIA79ZGdrQR9qIQUMBgsDQCAFQQ9MBEBBACEHIAVBAEoNA0EAIQQMCQsgASAFQRBrIgVqIgT9AAAAIAz9I/1kIgZFDQALIAQgBmdBH3NqIQUMBQsgBiAEZ0Efc2ohBQwEC0EAIQQgAf0AAAAgDP0j/WQiBUUNBSABIAVna0EfaiEFDAMLIAQgBWdBH3NqIQUMAgsgByAEZ0Efc2ohBQwBC0EAIAMgAkGghsYAENUHAAsgBSABayIJQQFqIQcgAiAJSwRAIAEgB2oiCiABTQRAQQAhBAwDCyAJQQ5NBEBBACEEAkAgCUEDSQRAIAEhBQwBCyABIAdBHHEiAmohBf0MAAAAAAAAAAAAAAAAAAAAACEMIAIhBANAIAwgAf1cAAD9DAoKCgoKCgoKCgoKCgoKCgr9IyAM/Q0AAAAAAQAAAAIAAAADAAAA/QwBAAAAAQAAAAEAAAABAAAA/U79rgEhDCABQQRqIQEgBEEEayIEDQALIAwgDCAM/Q0ICQoLDA0ODwABAgMAAQID/a4BIgwgDCAM/Q0EBQYHAAECAwABAgMAAQID/a4B/RsAIQQgAiAHRg0ECwNAIAQgBS0AAEEKRmohBCAFQQFqIgUgCkcNAAsMAwtBACECAkACQCABQXBxQRBqIgQgAUEBaiIGIAQgBksbIAFrIgtBBEkEQCABIQYMAQsgASALQXxxIghqIQb9DAAAAAAAAAAAAAAAAAAAAAAhDCAIIQIDQCAMIAH9XAAA/QwKCgoKCgoKCgoKCgoKCgoK/SMgDP0NAAAAAAEAAAACAAAAAwAAAP0MAQAAAAEAAAABAAAAAQAAAP1O/a4BIQwgAUEEaiEBIAJBBGsiAg0ACyAMIAwgDP0NCAkKCwwNDg8AAQIDAAECA/2uASIMIAwgDP0NBAUGBwABAgMAAQIDAAECA/2uAf0bACECIAggC0YNAQsDQCACIAYtAABBCkZqIQIgBkEBaiIGIARJDQALCwJAIAlBP0kNACAEIApBQGoiAUsNAANAIAT9AAQA/QwKCgoKCgoKCgoKCgoKCgoKIgz9I/1kaSACaiAEQRBq/QAEACAM/SP9ZGlqIARBIGr9AAQAIAz9I/1kaWogBEEwav0ABAAgDP0j/WRpaiECIARBQGsiBCABTQ0ACwsgCkEQayIBIARPBEADQCAE/QAAAP0MCgoKCgoKCgoKCgoKCgoKCv0j/WRpIAJqIQIgBEEQaiIEIAFNDQALC0EAIQYCQCAEIApPDQACQCAFIARrQQFqIglBBEkEQCAEIQEMAQsgBCAJQXxxIghqIQH9DAAAAAAAAAAAAAAAAAAAAAAhDCAIIQUDQCAMIAT9XAAA/QwKCgoKCgoKCgoKCgoKCgoK/SMgDP0NAAAAAAEAAAACAAAAAwAAAP0MAQAAAAEAAAABAAAAAQAAAP1O/a4BIQwgBEEEaiEEIAVBBGsiBQ0ACyAMIAwgDP0NCAkKCwwNDg8AAQIDAAECA/2uASIMIAwgDP0NBAUGBwABAgMAAQIDAAECA/2uAf0bACEGIAggCUYNAQsDQCAGIAEtAABBCkZqIQYgAUEBaiIBIApHDQALCyACIAZqIQQMAgtBACAHIAJBkIbGABDVBwALCyAAIAMgB2s2AgQgACAEQQFqNgIAC7oJAg1/AX4jAEHwAGsiAyQAQQghBCABKAIEIQIgAUEEQSQgASgCJCIHQQhLIgUbakEANgIAIANBGGogAUEIav0AAgD9CwMAIANBKGogAUEYav0AAgD9CwMAIANBADYCOCADIAIgByAFGyIINgI8IAMgASkCADcDECAAKAIkIgIhASACQQlPBEAgAiEEIAAoAgQhAQsgAEEkaiELAkACQAJAAkACQAJAIAggBCABa0sEQAJAAkAgASABIAhqIgFLDQBBfyABQQFrZ3ZBACABQQJPGyIBQX9GDQAgA0EIaiAAIAFBAWoQ6QMgAygCCCIBQYGAgIB4Rg0BIAENAwtBwPrGAEERQbCsxwAQ5wgACyALKAIAIQILIABBBGohBwJ/IAJBCUkEQCACIQUgByEMQQghAiALDAELIAAoAgQhBSAAKAIIIQwgBwshCQJAAkACQAJAAkAgAiAFTQRAIAUhAgwBCyADKAIYIQogAygCNCIOQQhNBEAgA0EQakEEciEEIAUgAmshDSAMIAVBAnRqIQZBACEBA0AgASAIRg0EIAMgAUEBaiIBNgI4IAYgBCgCADYCACAEQQRqIQQgBkEEaiEGIAEgDWoNAAsMAQsgCEUNAUEAIQECQCAIQQFrIgQgAkEBayINIAVrIgIgAiAESxsiBkEESQ0AIAVBAnQgDGoiAiAKa0EQSQ0AIAohBCAGQQFqIgEgAUEDcSIBQQQgARtrIgEhBgNAIAIgBP0AAgD9CwIAIARBEGohBCACQRBqIQIgBkEEayIGDQALIAEgBWohBQsgDCAFQQJ0aiEEIAogAUECdGohBgNAAkAgBCAGKAIANgIAIAVBAWohAiABQQFqIQEgBSANRg0AIARBBGohBCAGQQRqIQYgAiEFIAEgCEcNAQwFCwsgAyABNgI4CyAJIAI2AgAgA0HoAGogA0E4aikDACIPNwMAIANB4ABqIANBMGopAwA3AwAgA0HQAGogA0Egav0AAwD9CwMAIAMgA/0AAxD9CwNAIA+nIgEgAygCbEcEQCADQUBrQQRyIQUDQCADIAFBAWo2AmggBSECIAMoAmRBCU8EfyADKAJIBSACCyABQQJ0aigCACEJAn8gCygCACIEQQlJBEAgBCEBIAchBkEIIQQgCwwBCyAAKAIEIQEgACgCCCEGIAcLIQIgASAERgR/IAAQqwYgACgCCCEGIAchAiAAKAIEBSABC0ECdCAGaiAJNgIAIAIgAigCAEEBajYCACADKAJoIgEgAygCbEcNAAsLIAMoAmQiAEEJSQ0JIAMoAkgiAUEEaygCACICQXhxIgcgAEECdCIAQQRBCCACQQNxIgIbakkNBSACQQAgByAAQSdqSxsNBiABEJ8CDAkLIAkgBTYCAAwCCyABIAVqIQILIAkgAjYCACAOQQlJDQYLIApBBGsoAgAiAEF4cSIBIA5BAnQiAkEEQQggAEEDcSIAG2pJDQMgAEEAIAEgAkEnaksbDQQgChCfAgwFCyADKAIMEOgJAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyADQfAAaiQAC/MIAg9/AX0jAEEQayIIJAACQAJAAkACQAJAAkAgAC0AuAFBAUcNACAAKAKsASAAKAKwASIGQQJ0IAYgACgCtAEiBmpBAnQQ3gghCSAGQQJ0IgogACgCZCIGSw0BIAAoAmAhBSAIIAkQuwoiBjYCCCAIIAo2AgwgBiAKRw0FIAkgBSAKEOQJIAlBhAhJDQAgCRCFBwsgAEIANwKwASAAQbgBakEAOgAAAkACQAJAAkACQAJAAkACQAJAAkAgACgCAEEBRw0AIAAoAgQgAUEBdCABIAJqQQF0EN4IIQ4CQCACQQJ0IgcgACgCZCIGTQRAIAAgBzYCZCACQQF0IQUgACgCYCEBDAELIAcgBiIFayILIAAoAlwgBWtLBEAgAEHcAGogBSALQQRBBBCYBiAAKAJkIQULIAAoAmAiASAFQQJ0IglqIQwgC0ECTwRAIAcgBkF/c2pBAnQiCgRAIAxBACAK/AsACyACQQR0IAZBAnRrIAFqIAlqQQRrIQwgBSALakEBayEFCyAMQQA2AgAgACAFQQFqIgc2AmQgAkEBdCIFIAdLDQwLIAggDhC7CiIGNgIIIAggBTYCDCAFIAZHDQ4gASAFIA4Q5QkgAkEJbCEPIARBCW5BCWwhECAEQQFrQQluQQlsQQlqIREgBEECa0EJbkEJbEEJaiESIARBA2tBCW5BCWxBCWohEyAEQQRrQQluQQlsQQlqIQsgBEEFa0EJbkEJbEEJaiEMIARBBmtBCW5BCWxBCWohCSAEQQdrQQluQQlsQQlqIQogBEEIa0EJbkEJbEEJaiEGQwAAfEIgACoCkAGVIRRBACEFQQAhAANAIAUgB08NDSAFQQFqIgIgB08NDiAAIBFGDQogAUEEaigCACENIAMgASgCACICQRl0QRl1siAUlTgCACAAIBJGDQkgA0EEaiACQRJ0QRl1siAUlTgCACAAIBNGDQggA0EIaiACQQt0QRl1siAUlTgCACAAIAtGDQcgA0EMaiACQQR0QRl1siAUlTgCACAAIAxGDQYgA0EQaiANQR10IAJBA3ZyQRl1siAUlTgCACAAIAlGDQUgA0EUaiANQRZ0QRl1siAUlTgCACAAIApGDQQgA0EYaiANQQ90QRl1siAUlTgCACAAIAZGDQMgA0EcaiANQQh0QRl1siAUlTgCACAAIBBGDQIgA0EgaiANQQF0QRl1siAUlTgCACABQQhqIQEgBUECaiEFIANBJGohAyAPIABBCWoiAEcNAAsgDkGECEkNACAOEIUHCyAIQRBqJAAPCyAAQQhqIQAMBwsgAEEHaiEADAYLIABBBmohAAwFCyAAQQVqIQAMBAsgAEEEaiEADAMLIABBA2ohAAwCCyAAQQJqIQAMAQsgAEEBaiEACyAAIARBmPnAABCuBwALQQAgCiAGQYSQwQAQ1QcAC0EAIAUgB0Go+cAAENUHAAsgBSAHQfj4wAAQrgcACyACIAdBiPnAABCuBwALQQAgCEEIaiAIQQxqQQAgA0G088QAEOQHAAuECQINfwJ7AkACfwJAAkACQCABKAIgIhEgBE0EQCADIARqIhAgBmshDCAQIBFrIQogAf0ABBAhFCAB/QAEACEVIAEtACUhDSABLQAkIQ4gBkEESQ0BIAZBA3FBAmshASAFIAZB/P///wdxakECaiESIAMhAgNAAkAgAiAOav0AAAAgFf0jIAIgDWr9AAAAIBT9I/1O/WQiC0UNAANAIAUhByAGIQkgDCACIAtoIg9qIghJDQECQANAIAcoAAAgCCITKAAARw0BIAhBBGohCCAHQQRqIQcgCUEEayIJQQNLDQALIAlBAUsEQCAHLwAAIAgvAABHDQEgE0EGaiEIIAEhCSASIQcLIAlFDQcgBy0AACAILQAARg0HCyALQQFrIAtxIgsNAAsLIAJBEGoiAiAKTQ0ACwwCCwJAIAQgBkkNACADIARqAkAgBkUEQAwBCyADIAZqIQQgAyEHA0AgBy0AACAIQQF0aiEIIAdBAWoiByAESQ0ACwsgASgCZCEEIAEoAmAhASAGayECIAMhBwNAAkAgASAIRw0AIAcgBSAGEKUGRQ0AIAcgA2sMBgsgAiAHTQ0BIAYgB2otAAAgCCAEIActAABsa0EBdGohCCAHQQFqIQcMAAsAC0EAIQEMBAsCQCAGQQJPBEAgBkECRg0BIAMhAgNAAkAgAiAOav0AAAAgFf0jIAIgDWr9AAAAIBT9I/1O/WQiB0UNAANAIAwgAiAHaCIPaiIBSQ0BIAUvAAAgAS8AAEYEQCAFLQACIAEtAAJGDQcLIAdBAWsgB3EiBw0ACwsgAkEQaiICIApNDQALDAILIAYEQCADIQIDQAJAIAIgDmr9AAAAIBX9IyACIA1q/QAAACAU/SP9Tv1kIgdFDQADQCAMIAIgB2giD2oiAUkNASAFLQAAIAEtAABGDQYgB0EBayAHcSIHDQALCyACQRBqIgIgCk0NAAsMAgsgAyECA0AgAiAOav0AAAAgFf0jIAIgDWr9AAAAIBT9I/1O/WQiBwRAIAwgAiAHaCIPak8NBAsgAkEQaiICIApNDQALDAELIAMhAgNAAkAgAiAOav0AAAAgFf0jIAIgDWr9AAAAIBT9I/1O/WQiB0UNAANAIAwgAiAHaCIPaiIBSQ0BIAUvAAAgAS8AAEYNBCAHQQFrIAdxIgcNAAsLIAJBEGoiAiAKTQ0ACwtBACEBIAYgECACa0sgAiAQT3INAiAKIA5q/QAAACAV/SMgCiANav0AAAAgFP0j/U79ZEF/IAIgCmt0cSILRQ0CIAZBBEkhAgJAA0AgCiALaCIDaiIHIAxLDQQgBiEJIAUhCAJAIAJFBEADQCAIKAAAIAcoAABHDQIgB0EEaiEHIAhBBGohCCAJQQRrIglBA0sNAAsLIAlBAUsEQCAILwAAIAcvAABHDQEgCUECayEJIAhBAmohCCAHQQJqIQcLIAlFDQIgCC0AACAHLQAARg0CCyALQQFrIAtxIgsNAAsMAwsgAyAEIBFragwBCyACIANrIA9qCyEHQQEhAQsgACAHNgIEIAAgATYCAAvqCAETfyMAQRBrIgckAAJAAkAgA0EDbCIMQf////8DSw0AIANBDGwiBEH9////B08NAAJAIARFBEBBBCEKDAELIAwhCyAEEHEiCkUNAgsgB0EANgIMIAcgCjYCCCAHIAs2AgQCQAJAAkACQAJAIAMEQCACIANrIgRBACACIARPGyENIAIgDGsiBEEAIAIgBE8bIQ4gASADaiEPIAEgDGohECABIANBAnQiEWohEiABIANBBWwiE2ohFCABIANBAXQiFWohFkEIIQsDQCACIAZGBEAgBiEEDAcLIAYgDkYNBQJ/IAYgEGotAABBCHQiBSABIAZqLQAAciIEQf//AXEEQCAEQf8HcSEEIAVBgIACcSEIIAVBgPgBcSIFQYD4AUcEQCAIQRB0IQggBUENdEGAgID8AHEgBEENdHJBgICAwANqIAhyIAUNAhogCEGAgIDYA3IgBGdBEGsiBUEXdGsgBCAFQf//A3FBCGp0Qf///wNxcgwCCyAIQRB0IQUgBEENdCAFckGAgID+B3IgBA0BGiAFQYCAgPwHcgwBCyAEQRB0CyEEIAcoAgQgCUYEQCAHQQRqEPYGIAcoAgghCgsgCiALakEIayAENgIAIAcgCUEBaiIJNgIMIAYgDUYNAyAGIBFqIAJPDQICfyAGIBJqLQAAQQh0IgUgBiAPai0AAHIiBEH//wFxBEAgBEH/B3EhBCAFQYCAAnEhCCAFQYD4AXEiBUGA+AFHBEAgCEEQdCEIIAVBDXRBgICA/ABxIARBDXRyQYCAgMADaiAIciAFDQIaIAhBgICA2ANyIARnQRBrIgVBF3RrIAQgBUH//wNxQQhqdEH///8DcXIMAgsgCEEQdCEFIARBDXQgBXJBgICA/gdyIAQNARogBUGAgID8B3IMAQsgBEEQdAshBCAHKAIEIAlGBEAgB0EEahD2BiAHKAIIIQoLIAogC2pBBGsgBDYCACAHIAlBAWoiCTYCDCAGIBVqIgQgAk8NBiAGIBNqIAJPDQQCfyAGIBRqLQAAQQh0IgUgBiAWai0AAHIiBEH//wFxBEAgBEH/B3EhBCAFQYCAAnEhCCAFQYD4AXEiBUGA+AFHBEAgCEEQdCEIIAVBDXRBgICA/ABxIARBDXRyQYCAgMADaiAIciAFDQIaIAhBgICA2ANyIARnQRBrIgVBF3RrIAQgBUH//wNxQQhqdEH///8DcXIMAgsgCEEQdCEFIARBDXQgBXJBgICA/gdyIAQNARogBUGAgID8B3IMAQsgBEEQdAshBCAHKAIEIAlGBEAgB0EEahD2BiAHKAIIIQoLIAogC2ogBDYCACAHIAlBAWoiCTYCDCALQQxqIQsgAyAGQQFqIgZHDQALCyAAIAcpAgQ3AgAgAEEIaiAHQQxqKAIANgIAIAdBEGokAA8LIANBAnQgBmohBAwDCyADIAZqIQQMAgsgA0EFbCAGaiEEDAELIAYgDGohBAsgBCACQbTBxwAQrgcACxDPCQALQQQgBBDhCAAL4QkBCH8jAEGAAWsiAyQAIAAoAgwhBgJ/AkACQAJAAkACQCAAKAIUIgggACgCECIESQRAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAYgCGotAAAiBUHbAGsOIQQLCwsLCwsLCwsLAwsLCwsLCwsBCwsLCwsCCwsLCwsLBQALIAVBImsODAkKCgoKCgoKCgoKCAoLIAAgCEEBaiIFNgIUIAQgBU0NDCAAIAhBAmoiBzYCFAJAIAUgBmotAABB9QBHDQAgBCEFIAQgB0YNDSAAIAhBA2oiCTYCFCAGIAdqLQAAQewARwRAIAkhBwwBCyAEIAlGDQ0gACAIQQRqIgc2AhQgBiAJai0AAEHsAEYNBQsgA0EJNgJwIANBGGogBiAEIAcQ+gEgA0HwAGogAygCGCADKAIcENkHDBALIAAgCEEBaiIFNgIUIAQgBU0NDCAAIAhBAmoiBzYCFAJAIAUgBmotAABB8gBHDQAgBCEFIAQgB0YNDSAAIAhBA2oiCTYCFCAGIAdqLQAAQfUARwRAIAkhBwwBCyAEIAlGDQ0gACAIQQRqIgc2AhQgBiAJai0AAEHlAEYNBQsgA0EJNgJwIANBKGogBiAEIAcQ+gEgA0HwAGogAygCKCADKAIsENkHDA8LIAAgCEEBaiIFNgIUIAQgBU0NDCAAIAhBAmoiBzYCFAJAIAUgBmotAABB4QBHDQAgBCEFIAQgB0YNDSAAIAhBA2oiCTYCFCAGIAdqLQAAQewARwRAIAkhBwwBCyAEIAlGDQ0gACAIQQRqIgo2AhQgBiAJai0AAEHzAEcEQCAKIQcMAQsgBCAKRg0NIAAgCEEFaiIHNgIUIAYgCmotAABB5QBGDQULIANBCTYCcCADQThqIAYgBCAHEPoBIANB8ABqIAMoAjggAygCPBDZBwwOCyADQQo6AHAgA0HwAGogASACEPoGIAAQlwYMDQsgA0ELOgBwIANB8ABqIAEgAhD6BiAAEJcGDAwLIANBBzoAcCADQfAAaiABIAIQ+gYgABCXBgwLCyADQYACOwFwIANB8ABqIAEgAhD6BiAAEJcGDAoLIANBADsBcCADQfAAaiABIAIQ+gYgABCXBgwJCyAAIAhBAWo2AhQgA0FAayIEIABBABDdAyADKQNAQgNRDQcgBCABIAIQ5QYgABCXBgwICyAAQQA2AgggACAIQQFqNgIUIANB5ABqIABBDGogABCBAiADKAJoIgQgAygCZEECRg0HGiADIAMoAmw2AnggAyAENgJ0IANBBToAcCADQfAAaiABIAIQ+gYgABCXBgwHCyAFQTBrQf8BcUEKSQ0BCyADQQo2AnAgA0EIaiAGIAQgCEEBaiIBIAQgASAESRsQ+gEgA0HwAGogAygCCCADKAIMENkHIAAQlwYMBQsgA0HQAGogAEEBEN0DIAMpA1BCA1EEQCADKAJYDAULIANB0ABqIAEgAhDlBiAAEJcGDAQLIANBBTYCcCADQRBqIAYgBCAFEPoBIANB8ABqIAMoAhAgAygCFBDZBwwDCyADQQU2AnAgA0EgaiAGIAQgBRD6ASADQfAAaiADKAIgIAMoAiQQ2QcMAgsgA0EFNgJwIANBMGogBiAEIAUQ+gEgA0HwAGogAygCMCADKAI0ENkHDAELIAMoAkgLIANBgAFqJAALxQcBBH8CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAAKAIADgUBAgMNBAALIAAtAARBA0cNDCAAKAIIIgMoAgAhACADQQRqKAIAIgEoAgAiAgRAIAAgAhEDAAsgASgCBCIBBEAgAEEEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQ8gAkEAIAQgAUEnaksbDQ4gABCfAgsgA0EEaygCACIAQXhxIgFBEEEUIABBA3EiABtJDQ4gAEUgAUE0SXINCwwNCwJAIAAtAARBAWsOAgAACgsgACgCCCIDDQgMCQsCQCAALQAEQQFrDgIAAAcLIAAoAggiAw0FDAYLIAAoAgQiA0EASgRAIAAoAggiAUEEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgA2pJDQwgAkEAIAQgA0EnaksbDQsgARCfAgsgACgCECIDRQ0JIAAoAhQiACgCACIBBEAgAyABEQMACyAAKAIEIgBFDQkgA0EEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgAGpJDQsgAUUNCCACIABBJ2pLDQoMCAsCQCAALQAEQQFrDgIAAAILIAAoAggiAw0ADAELIAAoAgwiAUEEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgA2pJDQkgAkEAIAQgA0EnaksbDQggARCfAgsCQEEDIAAtABQiA0EEayADQQNNG0H/AXEOBAcHBwABCyADQQFrDgIAAAYLIAAoAhgiAUUNBSAAKAIcIgNBBGsoAgAiAEF4cSICQQRBCCAAQQNxIgAbIAFqTwRAIABFIAIgAUEnak1yDQUMBwsMBwsgACgCDCIBQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyADakkNBiACQQAgBCADQSdqSxsNBSABEJ8CCyAAKAIUIgNFDQMgACgCGCIAKAIAIgEEQCADIAERAwALIAAoAgQiAEUNAyADQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyAAakkNBSABRSACIABBJ2pNcg0CDAQLIAAoAgwiAUEEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgA2pJDQQgAkEAIAQgA0EnaksbDQMgARCfAgsgACgCFCIDRQ0BIAAoAhgiACgCACIBBEAgAyABEQMACyAAKAIEIgBFDQEgA0EEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgAGpJDQMgAUUgAiAAQSdqTXINAAwCCyADEJ8CCw8LQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC/sSAQl/IwBBIGsiByQAAkACQAJAA0ACQCABKAIIIQMgARDABQJAAkAgASgCCCIEIAEoAgQiBkcEQCAEIAZPDQEgASgCACIIIARqLQAAIgVB3ABHBEAgBUEiRwRAIAEgBEEBajYCCCAHQRA2AhQgACABIAdBFGoQxgcMCQsgAigCCCIFBEACQCADIARNBEAgBCADayIGIAIoAgAgBWtLBEAgAiAFIAYQswYgAigCCCEFCyACKAIEIQkgBgRAIAUgCWogAyAIaiAG/AoAAAsgASAEQQFqNgIIIAIgBSAGaiICNgIIIAdBCGogCSACEPoCIAcoAghFBEAgBygCECEDIAcoAgwhAQwLCyAHQQ82AhQgByABIAdBFGoQyQcgBygCACIBRQ0BIAcoAgQhAwwKCyADIAQgBkHghcYAENUHAAsgACAHKAIENgIEIABBAjYCAAwJCwJAIAMgBE0EQCABIARBAWo2AgggB0EIaiADIAhqIAQgA2sQ+gIgBygCCEUEQCAHKAIQIQMgBygCDCEBDAkLIAdBDzYCFCAHIAEgB0EUahDJByAHKAIAIgFFDQEgBygCBCEDDAgLIAMgBCAGQfCFxgAQ1QcACyAAIAcoAgQ2AgQgAEECNgIADAgLAkAgAyAETQRAIAQgA2siCSACKAIAIAIoAggiCmtLBEAgAiAKIAkQswYgAigCCCEKCyACKAIEIQUgCQRAIAUgCmogAyAIaiAJ/AoAAAsgASAEQQFqIgs2AgggAiAJIApqIgM2AggCQAJAAkACQAJAAkACQAJAAkACQAJ/IAYgC0sEQCABIARBAmo2AgggCCALai0AAAwBCyAHQQQ2AhQgB0EIaiABIAdBFGoQxwcgBy0ACA0MIActAAkLQf8BcUEiaw5UAgAAAAAAAAAAAAAAAAQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAMAAAAAAAUAAAAGAAAAAAAAAAcAAAAIAAkBAAsgB0EMNgIUIAEgB0EUahDfByEDDA4LIwBBIGsiBCQAAn8CQAJAAkACQCABKAIEIgMgASgCCCIGTwRAAkAgAyAGa0EDTQRAIAEgAzYCCCAEQQQ2AhQgBEEMaiABIARBFGoQyAcgAyEFDAELIAEgBkEEaiIFNgIIIAEoAgAgBmoiBi0AAUEBdC8BwP1FIAYtAABBAXQvAcCBRnLBQQh0IAYtAAJBAXQuAcCBRnIgBi0AA0EBdC4BwP1FciIGQQBOBEAgBEEAOwEMIAQgBjsBDgwBCyAEQQw2AhQgBEEMaiABIARBFGoQyAcLIAQvAQxBAUYEQCAEKAIQDAYLIAQvAQ4iBkGA+ANxQYC4A0YNASAGQYDIAGpB//8DcUGA+ANPBEAgASgCACEJAn8gAyAFSwRAIAUgCWotAAAMAQsgBEEENgIUIARBDGogASAEQRRqEMcHIAQtAAxBAUYEQCAEKAIQDAgLIAQtAA0LIQogASAFQQFqIgg2AggCfwJAIApB3ABGBEAgAyAITQ0BIAggCWotAAAMAgsgBEEXNgIUIAEgBEEUahDfBwwICyAEQQQ2AhQgBEEMaiABIARBFGoQxwcgBC0ADA0GIAQtAA0LIAVBAmohCEH1AEcNBCADIAhJDQMCQCADIAhrQQNNBEAgASADNgIIIARBBDYCFCAEQQxqIAEgBEEUahDIBwwBCyABIAVBBmo2AgggCCAJaiIDLQABQQF0LwHA/UUgAy0AAEEBdC8BwIFGcsFBCHQgAy0AAkEBdC4BwIFGciADLQADQQF0LgHA/UVyIgNBAE4EQCAEQQA7AQwgBCADOwEODAELIARBDDYCFCAEQQxqIAEgBEEUahDIBwsgBC8BDARAIAQoAhAMBwsgBC8BDiIFQYBAa0H//wNxQYD4A08EQCAFQYDIAGpB//8DcSAGQYDQAGpB//8DcUEKdHIiCEGAgARqIQYgAigCACACKAIIIgNrQQNNBEAgAiADQQQQswYgAigCCCEDCyACIANBBGo2AgggAigCBCADaiIDIAZBEnZB8AFyOgAAIANBA2ogBUE/cUGAAXI6AAAgAyAIQQZ2QT9xQYABcjoAAiADIAZBDHZBP3FBgAFyOgABQQAMBwsgBEEUNgIUIAEgBEEUahDfBwwGCyAGQYABTwRAIAIoAgAgAigCCCIDa0EDTQRAIAIgA0EEELMGIAIoAgghAwsgAigCBCADaiEFAn8gBkGAEEkEQCAGQQZ2QUByIQhBAgwBCyAFIAZBBnZBP3FBgAFyOgABIAZBDHZBYHIhCEEDCyEJIAUgCDoAACACIAMgCWo2AgggBSAJakEBayAGQT9xQYABcjoAAEEADAYLIAIoAggiAyACKAIARgRAIAIQ9wYLIAIgA0EBajYCCCACKAIEIANqIAY6AABBAAwFCyAGIAMgA0HMjcYAENUHAAsgBEEUNgIUIAEgBEEUahDfBwwDCyAIIAMgA0HMjcYAENUHAAsgASAINgIIIARBFzYCFCABIARBFGoQ3wcMAQsgBCgCEAshAyAEQSBqJAAgA0UNDgwNCyACKAIAIANGBEAgAhD3BiACKAIEIQULIAIgA0EBajYCCCADIAVqQSI6AAAMCwsgAigCACADRgRAIAIQ9wYgAigCBCEFCyACIANBAWo2AgggAyAFakHcADoAAAwKCyACKAIAIANGBEAgAhD3BiACKAIEIQULIAIgA0EBajYCCCADIAVqQS86AAAMCQsgAigCACADRgRAIAIQ9wYgAigCBCEFCyACIANBAWo2AgggAyAFakEIOgAADAgLIAIoAgAgA0YEQCACEPcGIAIoAgQhBQsgAiADQQFqNgIIIAMgBWpBDDoAAAwHCyACKAIAIANGBEAgAhD3BiACKAIEIQULIAIgA0EBajYCCCADIAVqQQo6AAAMBgsgAigCACADRgRAIAIQ9wYgAigCBCEFCyACIANBAWo2AgggAyAFakENOgAADAULIAIoAgAgA0YEQCACEPcGIAIoAgQhBQsgAiADQQFqNgIIIAMgBWpBCToAAAwECyADIAQgBkGAhsYAENUHAAsgBygCDCEDDAMLIAdBBDYCFCAAIAEgB0EUahDGBwwGCyAEIAZB0IXGABCuBwALDAELCyAAQQI2AgAgACADNgIEDAILIAAgAzYCCCAAIAE2AgQgAEEANgIADAELIAAgAzYCCCAAIAE2AgQgAEEBNgIACyAHQSBqJAALmgkCCH8BeyAAIAEoAgQiAjYCPCABKAIAIgUhAyAAKAIIIgcgBUkEQCAFIAciA2siBiAAKAIAIANrSwRAIAAgAyAGQQRBJBCYBiAAKAIIIQMLIAAoAgQhCSAGQQNxIgQEQCADIARqIAUgB2sgBGshBiAJIANBJGxqIQIDQCAC/QwAAAAAAAAAAAAAAAAAAAAA/QsCACACQSBqQQA7AQAgAkEQaiAK/QsCACACQSRqIQIgBEEBayIEDQALIQMLIAcgBWtBfE0EQCAJIANBJGxqIQIDQCAC/QwAAAAAAAAAAAAAAAAAAAAA/QsCACACQSBqQQA7AQAgAkEQaiAK/QsCACACQSRqIAr9CwIAIAJBNGogCv0LAgAgAkHEAGpBADsBACACQcgAaiAK/QsCACACQdgAaiAK/QsCACACQegAakEAOwEAIAJB7ABqIAr9CwIAIAJB/ABqIAr9CwIAIAJBjAFqQQA7AQAgAkGQAWohAiADQQRqIQMgBkEEayIGDQALCyAAKAI8IQILIABBADYCICAAIAM2AggCQAJ/AkACQCACRQRAIABBADYCLAwBCyAFBEBBACEEIAAoAhggBUkEQCAAQRhqQQAgBUECQRIQmAYgACgCICEEIAAoAjwhAgsgBUESbCIDBEAgACgCHCAEQRJsakEAIAP8CwALIABBADYCLCAAIAQgBWo2AiAgAkEBTQ0BQQAhBCAAKAIkIAVJBEAgAEEkakEAIAVBAkEeEJgGIAAoAiwhBCAAKAI8IQILIAVBHmwiAwRAIAAoAiggBEEebGpBACAD/AsACyAAQQA2AjggACAEIAVqNgIsIAJBAk0NBEEAIQQgACgCMCAFSQRAIABBMGpBACAFQQJBKhCYBiAAKAI4IQQLIAVBKmwiAwRAIAAoAjQgBEEqbGpBACAD/AsACyAEIAVqIQQgAEE4agwDC0EAIQQgAEEANgIsIAJBAUcNAQsgAEEANgI4DAILIABBADYCOCACQQJNDQEgAEE4agsgBDYCAAsgACgCFCEEIABBADYCFCAAKAIQIQcCQAJAAkACQCAEBEAgByECA0AgAkEUaigCACIDQQVPBEAgAkEIaigCACIIQQRrKAIAIgZBeHEiCSADQQJ0IgNBBEEIIAZBA3EiBhtqSQ0DIAZBACAJIANBJ2pLGw0EIAgQnwILIAJBGGohAiAEQQFrIgQNAAsLIAEtAAhFDQMgBUUEQEEAIQMMAwtBACEDIAAoAgwgBUkEQCAAQQxqQQAgBUEEQRgQmAYgACgCECEHIAAoAhQhAwsgBUEBayAFQQNxIgQEQCAFQXxxIQUgAyAEaiAHIANBGGxqIQIDQCACQQA2AgAgAkEUakEANgIAIAJBGGohAiAEQQFrIgQNAAshAwtBA0kNAiAHIANBGGxqIQIDQCACQQA2AgAgAkHcAGpBADYCACACQcQAakIANwIAIAJBLGpCADcCACACQRRqQgA3AgAgAkHgAGohAiADQQRqIQMgBUEEayIFDQALDAILQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyAAIAM2AhQLC/MQAwd/An4BeyMAQSBrIgUkAAJAAkAgACgCACICRQRAIAAoAhAiAEUNASAAQbeexQBBARCYAyECDAILAkACQAJAAkACQAJAAkACQAJAAkAgACgCCCIEIAAoAgQiBk8EQCAAKAIQIgJFDQEgAkGOnsUAQRAQmANFDQEMCgsgACAEQQFqIgE2AgggBUEIaiACIARqLQAAIgMQ0AcgBSgCCCIHBEAgACgCECIARQ0LIAAgByAFKAIMEJgDIQIMDAsgACAAKAIMQQFqIgc2AgwgB0H0A0sNAwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCADQcEAaw4XAgYRBREEEREREREREREBAQAAAgMREQcRCyAAKAIQIgQEQEEBIQIgBEHRnsUAQQEQmAMNGiAAKAIAIgJFDQkgACgCBCEGIAAoAgghAQsgASAGTw0IIAEgAmotAABBzABHDQggACABQQFqNgIIIAVBEGogABDdBCAFLQAQRQ0HIAUtABEhASAAKAIQIgMEQEEBIQIgA0GensUAQY6exQAgAUEBcSIDG0EZQRAgAxsQmAMNGgsgACABOgAEDBYLIAAoAhAiAQRAQQEhAiABQdeexQBBARCYAw0ZCyADQdAARw0IIAAoAhAiAkUNCSACQdiexQBBBhCYAw0WDAkLIAAoAhAiAQRAQQEhAiABQYyexQBBARCYAw0YC0EBIQIgABCDAg0XIANBwQBGDQkMEgsgACgCECIBBEBBASECIAFB4J7FAEEBEJgDDRcLIAUgABCjBkEBIQIgBSgCAEEBcQ0WIAUoAgRBAUYNCQwQC0EAIQIjAEEQayIBJAACQAJAAkACQCAAKAIARQRAIAAoAhAiAw0BDAQLIAEgAEHHABCWBiABLQAAQQFGBEAgAS0AASEDIAAoAhAiBARAQQEhAiAEQZ6exQBBjp7FACADQQFxIgQbQRlBECAEGxCYAw0FCyAAIAM6AARBACECIABBADYCAAwECyAAKAIQIgIEQCABKQMIIglQDQMgAkGhoMUAQQQQmAMNAgNAIAggCVEEQCAAKAIQIgNFDQVBASECIANBpaDFAEECEJgDRQ0FDAYLAkAgCFANACAAKAIQIgJFDQAgAkGX/MUAQQIQmAMNBAtBASECIAAgACgCFEEBajYCFCAIQgF8IQggAEIBEPYFRQ0ACwwECyAAEM0CIQIMAwsgA0G3nsUAQQEQmAMhAgwCC0EBIQIMAQsgABDNAiECIAAgACgCFCAJp2s2AhQLIAFBEGokACACDRMMEQsgACgCECICBEAgAkHjnsUAQQQQmAMNEwtBASECQQAhASMAQRBrIgMkAAJAAkACQAJAIAAoAgBFBEAgACgCECIEDQEMBAsgAyAAQccAEJYGIAMtAABBAUYEQCADLQABIQQgACgCECIGBEBBASEBIAZBnp7FAEGOnsUAIARBAXEiBhtBGUEQIAYbEJgDDQULIAAgBDoABEEAIQEgAEEANgIADAQLIAAoAhAiAQRAIAMpAwgiCVANAyABQaGgxQBBBBCYAw0CA0AgCCAJUQRAIAAoAhAiBEUNBUEBIQEgBEGloMUAQQIQmANFDQUMBgsCQCAIUA0AIAAoAhAiAUUNACABQZf8xQBBAhCYAw0EC0EBIQEgACAAKAIUQQFqNgIUIAhCAXwhCCAAQgEQ9gVFDQALDAQLIAAQ9AMhAQwDCyAEQbeexQBBARCYAyEBDAILQQEhAQwBCyAAEPQDIQEgACAAKAIUIAmnazYCFAsgA0EQaiQAIAENFCAAKAIAIgNFDQggACgCCCIBIAAoAgRPDQggASADai0AAEHMAEcNCCAAIAFBAWo2AgggBUEQaiAAEN0EIAUtABBFDQogBS0AESEBIAAoAhAiAwRAIANBnp7FAEGOnsUAIAFBAXEiAxtBGUEQIAMbEJgDDRULIAAgAToABAwRCyMAQSBrIgIkAAJAAkAgACgCAEUEQCAAKAIQIgFFDQEgAUG3nsUAQQEQmAMhAQwCCyACIAAQmQYgAigCAEUEQCAAKAIQIgMEQEEBIQEgA0GensUAQY6exQAgAi0ABEEBcSIDG0EZQRAgAxsQmAMNAwsgACAC/QACAP0LAgAMAQsgACgCEEUNACAA/QACACEKIAAgAv0AAgD9CwIAIAIgCv0LAxAgABCDAiEBIAAgAv0AAxD9CwIADAELQQAhAQsgAkEgaiQAIAENEQwPC0EBIQIgABCDAg0SIAAoAhAiAQRAIAFB6p7FAEEEEJgDDRMLIAAQpwQNEgwOCyAFKQMYIghQDQAgACAIEPYFDQ8gACgCECIBRQ0AQQEhAiABQdKexQBBARCYAw0RCyADQdIARg0JIAAoAhAiAkUNCSACQdOexQBBBBCYAw0ODAkLIAAoAhAiAkUNACACQdOexQBBBBCYAw0NCyAAEIMCDQwMCgsgACgCECIBBEAgAUHensUAQQIQmAMNDgsgAEEBENQBDQ0MCAsgACgCECIBRQ0IIAFB4Z7FAEEBEJgDDQwMBgsgACgCECIBRQ0AIAFBjp7FAEEQEJgDDQsLQQAhAiAAQQA6AAQgAEEANgIADAoLIAUpAxgiCFANBSAAKAIQIgIEQCACQeeexQBBAxCYAw0ICyAAIAgQ9gUNBwwFCyAAIAQ2AgggAEEAEMwBDQYMBAsgACgCECICBEAgAkGensUAQRkQmAMNBgsgAEEBOgAEDAQLIAAQgwINBAwCCyAAKAIQIgFFDQEgAUHinsUAQQEQmAMNBQwBCyAAKAIQIgFFDQAgAUGNnsUAQQEQmAMNBAtBACECIAAoAgBFDQMgACAAKAIMQQFrNgIMDAMLQQAhAiAAQQA2AgAMAgtBASECDAELQQAhAgsgBUEgaiQAIAILyAYBBH8CQAJAIAAoAgwiAgRAIAAoAhAiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCfAgsgACgCGCICBEAgACgCHCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEJ8CCyAAKAI8IgIEQCAAKAJAIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQnwILIAAoAkgiAgRAIAAoAkwiA0EEaygCACIBQXhxIgQgAkECdCICQQRBCCABQQNxIgEbakkNASABQQAgBCACQSdqSxsNAiADEJ8CCyAAKAJUIgIEQCAAKAJYIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQnwILIAAoAmAiAkGAgICAeHJBgICAgHhHBEAgACgCZCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEJ8CCyAAKAJsIgIEQCAAKAJwIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQnwILIAAoAngiAgRAIAAoAnwiA0EEaygCACIBQXhxIgQgAkECdCICQQRBCCABQQNxIgEbakkNASABQQAgBCACQSdqSxsNAiADEJ8CCwJAIAAoAoQBIgJBgICAgHhGDQAgAgRAIAAoAogBIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0CIAFBACAEIAJBJ2pLGw0DIAMQnwILIAAoApABIgIEQCAAKAKUASIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNAiABQQAgBCACQSdqSxsNAyADEJ8CCyAAKAKcASICRQ0AIAAoAqABIgBBBGsoAgAiA0F4cSIBIAJBAnQiAkEEQQggA0EDcSIDG2pJDQEgA0EAIAEgAkEnaksbDQIgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvrHAMHfg9/AXsgASgCBCIKIAIpAxAiBiACKQMIIgggAikDACIJIAEpAxiFIgNC2KLR78Kp5b8tfiADQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEQtKBqpur+oLXp39+IgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhISFhSIDQtii0e/CqeW/LX4gA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhELSgaqbq/qC16d/fiIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEhYUiA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhELSgaqbq/qC16d/fiIEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEIANC2KLR78Kp5b8tfoUiA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCABKQMQIgRCf4V+IgVCOIYgBUKA/gODQiiGhCAFQoCA/AeDQhiGIAVCgICA+A+DQgiGhIQgBUIIiEKAgID4D4MgBUIYiEKAgPwHg4QgBUIoiEKA/gODIAVCOIiEhIQgAyAEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEfoUgA4kiB6dxIQwgB0IZiEL/AINCgYKEiJCgwIABfiEFIAEoAgAhDQJAA0ACQCAMIA1qKQAAIgQgBYUiA0J/hSADQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIgNQRQRAA0ACQCANIAN6p0EDdiAMaiAKcUEGdGsiC0FAaikDACAJUg0AIAtBOGspAwAgCFINACALQTBrKQMAIAZRDQMLIANCAX0gA4MiA1BFDQALCyAEIARCAYaDQoCBgoSIkKDAgH+DUEUNAiAMIA9BCGoiD2ogCnEhDAwBCwsgACABNgIEIAAgCzYCACAAQQA2AiAPCyABKAIIRQRAAkAjAEEQayIUJAAgFCABQRBqNgIIIAEoAgwhDCAUIBRBCGo2AgwCQAJAAkACQAJ/AkAgDEEBaiILBEAgASgCBCITIBNBAWpBA3ZBB2wgE0EISRsiCkEBdiALSQRAIApBAWoiCiALIAogC0sbIgtBD0kNAiALQf////8BTQRAQX8gC0EDdEEHbkEBa2d2IgtB/v//H0sNCCALQQFqDAQLDAcLIBRBDGohFkEAIQogASINIA0oAgRBAWoiEAR/IA0oAgAhDwJAIBBBA3YgEEEHcUEAR2oiDEECTwRAIAxB/v///wNxIg4hCyAPIQoDQCAKIAr9AAMAIhn9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gGf0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACAKQRBqIQogC0ECayILDQALIAwgDkYNASAOQQN0IQogDEEBcSEMCyAKIA9qIQoDQCAKIAopAwAiA0J/hUIHiEKBgoSIkKDAgAGDIANC//79+/fv37//AIR8NwMAIApBCGohCiAMQQFrIgwNAAsLAkAgEEEITwRAIA8gEGogDykAADcAAAwBCyAQRQ0AIA9BCGogDyAQ/AoAAAtBASELQQAhDANAIAwhDyALIQwCQCAPIA0oAgAiC2otAABBgAFHDQAgCyAPQX9zQQZ0aiERAkADQCAWIA0gDxC4AiEDIA0oAgQiDiADpyIVcSISIQogDSgCACILIBJqKQAAQoCBgoSIkKDAgH+DIgNQBEBBCCETA0AgCiATaiEKIBNBCGohEyALIAogDnEiCmopAABCgIGChIiQoMCAf4MiA1ANAAsLIAsgA3qnQQN2IApqIA5xIgpqLAAAQQBOBEAgCykDAEKAgYKEiJCgwIB/g3qnQQN2IQoLIAogEmsgDyASa3MgDnFBCEkNASAKIAtqIhItAAAgEiAVQRl2IhI6AAAgDSgCACAKQQhrIA5xakEIaiASOgAAIAsgCkF/c0EGdGohC0H/AUcEQCARIAtBwAAQswMMAQsLIA0oAgQhCiANKAIAIA9qQf8BOgAAIA0oAgAgCiAPQQhrcWpBCGpB/wE6AAAgCyARQcAA/AoAAAwBCyALIA9qIBVBGXYiCzoAACANKAIAIA4gD0EIa3FqQQhqIAs6AAALIAwgDCAQSSIKaiELIAoNAAsgDSgCBCIMIAxBAWpBA3ZBB2wgDEEISRsFQQALIA0oAgxrNgIIDAMLDAULQQQgC0EIcUEIaiALQQRJGwsiC0EIaiIKIAtBBnQiD2oiDSAKSSANQfj///8HS3INAyANEHEiEEUEQCANEOgJAAsgDyAQaiEQIAoEQCAQQf8BIAr8CwALIAtBAWsiEiALQQN2QQdsIBJBCEkbIRUgASgCACENAkAgDEUEQEEAIQwMAQsgEEEIaiEWIA0pAwBCf4VCgIGChIiQoMCAf4MhBkEAIQogDCELIA0hDwNAIAZQBEADQCAKQQhqIQogD0EIaiIPKQMAQoCBgoSIkKDAgH+DIgNCgIGChIiQoMCAf1ENAAsgA0KAgYKEiJCgwIB/hSEGCyAQIBIgDSAGeqdBA3YgCmoiF0EGdGsiDkFAaikDACAUKAIIIhEpAwiFIgNC2KLR78Kp5b8tfiAOQThrKQMAhSADQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEQtKBqpur+oLXp39+IgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhISFIgNC2KLR78Kp5b8tfiAOQTBrKQMAhSADQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEQtKBqpur+oLXp39+IgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhISFIgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhCADQtii0e/CqeW/LX6FIgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIQgESkDACIEQn+FfiIFQjiGIAVCgP4Dg0IohoQgBUKAgPwHg0IYhiAFQoCAgPgPg0IIhoSEIAVCCIhCgICA+A+DIAVCGIhCgID8B4OEIAVCKIhCgP4DgyAFQjiIhISEIAMgBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhH6FIAOJpyIYcSIOaikAAEKAgYKEiJCgwIB/gyIDUARAQQghEQNAIA4gEWohDiARQQhqIREgECAOIBJxIg5qKQAAQoCBgoSIkKDAgH+DIgNQDQALCyAGQgF9IAaDIQYgECADeqdBA3YgDmogEnEiDmosAABBAE4EQCAQKQMAQoCBgoSIkKDAgH+DeqdBA3YhDgsgDiAQaiAYQRl2IhE6AAAgFiAOQQhrIBJxaiAROgAAIBAgDkF/c0EGdGoiDkEwaiANIBdBf3NBBnRqIhFBMGr9AAAA/QsAACAOQSBqIBFBIGr9AAAA/QsAACAOQRBqIBFBEGr9AAAA/QsAACAOIBH9AAAA/QsAACALQQFrIgsNAAsLIAEgEjYCBCABIBA2AgAgASAVIAxrNgIIIBNFDQAgEyATQQZ0QccAakFAcSILakEJaiIMRQ0AIA0gC2siC0EEaygCACIKQXhxIg1BBEEIIApBA3EiChsgDGpJDQEgCkEAIA0gDEEnaksbDQIgCxCfAgsgFEEQaiQADAMLQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0GQucQAQTlBrLnEABDbBwALCyAAIAc3AwAgACACKQMANwMIIABBEGogAkEIav0AAwD9CwMAIAAgATYCIAuTCgEGfyMAQTBrIgIkAAJAAkACQAJAAkACQEEDIAAoAgAiBC0AACIAQQRrIABBA00bQf8BcUEBaw4EAQIDBAALQQEhACABKAIAIgNB2prHAEEFIAEoAgQiBigCDCIFEQAADQQgBEEBaiEEAkAgAS0ACkGAAXFFBEAgA0HgnsUAQQEgBREAAA0GIAQgARDGAg0GIAEoAgAhAyABKAIEKAIMIQUMAQsgA0HLi8IAQQIgBREAAA0FIAJBAToALCACIAY2AhQgAiADNgIQIAJB0IvCADYCICACIAEpAgg3AiQgAiACQSxqNgIYIAIgAkEQajYCHCAEIAJBHGoQxgINBSACKAIcQcmLwgBBAiACKAIgKAIMEQAADQULIANB4p7FAEEBIAURAAAhAAwEC0EBIQAgASgCACIDQd+axwBBCyABKAIEIgYoAgwiBREAAA0DIARBAWohBAJAIAEtAApBgAFxRQRAIANB4J7FAEEBIAURAAANBSAEIAEQxgINBSABKAIAIQMgASgCBCgCDCEFDAELIANBy4vCAEECIAURAAANBCACQQE6ACwgAiAGNgIUIAIgAzYCECACQdCLwgA2AiAgAiABKQIINwIkIAIgAkEsajYCGCACIAJBEGo2AhwgBCACQRxqEMYCDQQgAigCHEHJi8IAQQIgAigCICgCDBEAAA0ECyADQeKexQBBASAFEQAAIQAMAwtBASEAIAEoAgAiA0HqmscAQQ4gASgCBCIHKAIMIgURAAANAiAEQQFqIQYCQCABLQAKQYABcUUEQCADQeCexQBBASAFEQAADQQgAiAGNgIcIAEgBEEEakGYjMcAIARBAmpBqIzHACAEQQNqQbiMxwAgAkEcakHIjMcAEOAFDQQgASgCACEDIAEoAgQoAgwhBQwBCyADQcuLwgBBAiAFEQAADQMgAkEBOgAPIAIgBzYCFCACIAM2AhAgAkHQi8IANgIgIAIgASkCCDcCJCACIAJBD2o2AhggAiACQRBqNgIcIAIgBjYCLCACQRxqIARBBGpBmIzHACAEQQJqQaiMxwAgBEEDakG4jMcAIAJBLGpByIzHABDgBQ0DIAIoAhxByYvCAEECIAIoAiAoAgwRAAANAwsgA0HinsUAQQEgBREAACEADAILQQEhACABKAIAIgNB+JrHAEEGIAEoAgQiBigCDCIFEQAADQECQCABLQAKQYABcUUEQCADQeCexQBBASAFEQAADQMgBCABEJUDRQ0BDAMLIANBy4vCAEECIAURAAANAiACQQE6ACwgAiAGNgIUIAIgAzYCECACQdCLwgA2AiAgAiABKQIINwIkIAIgAkEsajYCGCACIAJBEGoiATYCHCAEIAJBHGoQlQMNAiABQcmLwgBBAhCyAw0CCyADQeKexQBBASAFEQAAIQAMAQtBASEAIAEoAgAiA0H+mscAQQ4gASgCBCIGKAIMIgURAAANAAJAIAEtAApBgAFxRQRAIANB4J7FAEEBIAURAAANAiAEQQhqKAIAIARBDGooAgAgARC7AkUNAQwCCyADQcuLwgBBAiAFEQAADQEgAkEBOgAsIAIgBjYCFCACIAM2AhAgAkHQi8IANgIgIAIgASkCCDcCJCACIAJBLGo2AhggBEEIaigCACAEQQxqKAIAIAIgAkEQaiIGNgIcIAJBHGoQuwINASAGQcmLwgBBAhCyAw0BCyADQeKexQBBASAFEQAAIQALIAJBMGokACAAC/YIAwp/An4CeyMAQfAAayIHJAAgByACNgIEIAcgACgCCCIDNgIIAkACQAJAAkACQAJAAkACQCACIANGBEAgB0EMaiABIAIQ4AMgBygCECEBAkAgBygCFCIKRQ0AIAEgCkEDdGohCSAAKAIEIQUgASEDA0AgAygCACIEIAJPDQkgA0EEaigCACIGIAJPDQogBSAEQRhsaiIEQRBqIggpAgAhDSAFIAZBGGxqIgb9AAIAIQ8gCCAGQRBqIggpAgA3AgAgBP0AAgAhECAEIA/9CwIAIAggDTcCACAGIBD9CwIAIANBCGoiAyAJRw0ACyAAKAIUIgIEQCAAKAIQIQUgASEDA0AgAygCACIEIAJPDQogA0EEaigCACIGIAJPDQsgBSAEQRhsaiIEQRBqIggpAgAhDSAFIAZBGGxqIgb9AAIAIQ8gCCAGQRBqIggpAgA3AgAgBP0AAgAhECAEIA/9CwIAIAggDTcCACAGIBD9CwIAIANBCGoiAyAJRw0ACwsgACgCICICBEAgACgCHCEFIAEhAwNAIAMoAgAiBCACTw0KIANBBGooAgAiBiACTw0LIAUgBEEJbGoiBCkAACENIAUgBkEJbGoiBkEIaiIILQAAIQsgBCAGKQAANwAAIARBCGoiBC0AACEMIAQgCzoAACAIIAw6AAAgBiANNwAAIANBCGoiAyAJRw0ACwsgACgCLCIEBEAgACgCKCEGIAEhAgNAIAIoAgAiAyAETw0EIAJBBGooAgAiBSAETw0FIAYgA0EPbGoiA0EHaikAACENIAMpAAAhDiAGIAVBD2xqIgVBCGooAAAhCCAFQQxqLwAAIQsgBUEOai0AACEMIAMgBSkAADcAACADQQ5qIAw6AAAgA0EMaiALOwAAIANBCGogCDYAACAHIA43A1ggByANNwBfIAVBB2ogBykAXzcAACAFIAcpA1g3AAAgAkEIaiICIAlHDQALCyAAKAI4IgNFIApFcg0AIAAoAjQhBCABIQIDQCACKAIAIgAgA08NBSACQQRqKAIAIgUgA08NBiAHQeUAaiIKIAQgAEEVbGoiAEENaikAADcAACAEIAVBFWxqIgX9AAAAIQ8gBUEUai0AACEGIABBEGogBUEQaigAADYAACAAQRRqIAY6AAAgAP0AAAAhECAAIA/9CwAAIAcgEP0LA1ggBSAH/QADWP0LAAAgBUENaiAKKQAANwAAIAJBCGoiAiAJRw0ACwsgBygCDCIABEAgAUEEaygCACICQXhxIgMgAEEDdCIAQQRBCCACQQNxIgIbakkNBiACQQAgAyAAQSdqSxsNByABEJ8CCyAHQfAAaiQADwtBACAHQQRqIAdBCGpBACAHQeyexwAQ5AcACyADIARBuMvHABCuBwALIAUgBEG4y8cAEK4HAAsgACADQbjLxwAQrgcACyAFIANBuMvHABCuBwALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyAEIAJBuMvHABCuBwALIAYgAkG4y8cAEK4HAAu4BwEEfyAAKAKwASIBQYQITwRAIAEQhQcLIAAoArQBIgFBhAhPBEAgARCFBwsCQCAAKAIARQ0AIAAoAgQiAUGECEkNACABEIUHCwJAIAAoAghFDQAgACgCDCIBQYQISQ0AIAEQhQcLAkAgACgCEEUNACAAKAIUIgFBhAhJDQAgARCFBwsCQCAAKAIYRQ0AIAAoAhwiAUGECEkNACABEIUHCwJAIAAoAiBFDQAgACgCJCIBQYQISQ0AIAEQhQcLAkAgACgCKEUNACAAKAIsIgFBhAhJDQAgARCFBwsCQCAAKAIwRQ0AIAAoAjQiAUGECE8EQCABEIUHCyAAKAI4IgFBhAhJDQAgARCFBwsCQAJAIAAoAkQiAQRAIAAoAkgiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKAJQIgEEQCAAKAJUIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsgACgCXCIBBEAgACgCYCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQnwILIAAoAmgiAQRAIAAoAmwiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCwJAIAAoAjxFDQAgACgCQCIBQYQISQ0AIAEQhQcLIAAoAowBIgFBgICAgHhyQYCAgIB4RwRAIAAoApABIgNBBGsoAgAiAkF4cSIEIAFBAXQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsgACgCmAEiAUGAgICAeHJBgICAgHhHBEAgACgCnAEiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKAJ0IgEEQCAAKAJ4IgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsgACgCgAEiAQRAIAAoAoQBIgBBBGsoAgAiA0F4cSICIAFBAnQiAUEEQQggA0EDcSIDG2pJDQEgA0EAIAIgAUEnaksbDQIgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAukCAITfwJ+IwBBkARrIgckACAHQQxqQQBBgAT8CwACQCAAKAIMIhFFBEAgASgCACAAKAIAIAAoAgQgASgCBCgCDBEAACEADAELIAAoAgAhDiAAKAIIIg8tAAAhCgJAAkAgACgCBCIQRQ0AIA4gEGohCyAHQQxqIQIgDiEAA0ACfyAALAAAIgZBAE4EQCAGQf8BcSEEIABBAWoMAQsgAC0AAUE/cSEFIAZBH3EhBCAGQV9NBEAgBEEGdCAFciEEIABBAmoMAQsgAC0AAkE/cSAFQQZ0ciEFIAZBcEkEQCAFIARBDHRyIQQgAEEDagwBCyAEQRJ0QYCA8ABxIAAtAANBP3EgBUEGdHJyIgRBgIDEAEYNAiAAQQRqCyEAIANBgAFGDQIgAiAENgIAIAJBBGohAiADQQFqIQMgACALRw0ACwsgDyARaiESIANBAnQiAEEEaiEMIAAgB2pBCGohC0G8BSETQcgAIRQgDyEEQYABIQ0DQCAEQQFqIQRBACECQSQhAEEBIQlBASEGQQAhBQNAAkAgAkEBcQRAIAQgEkYNBCAELQAAIQIgBEEBaiEEDAELIAohAiAJQQFxRQ0DCyACQeEAayIJQf8BcUEaTwRAIAJBMGtB/wFxQQlLDQMgAkEWayEJCyAGrSIWIAlB/wFxIgatfiIVQiCIpw0CIBWnIgIgBWoiBSACSQ0CIAZBGkEBIAAgFGsiAkEAIAAgAk8bIgIgAkEBTRsiAiACQRpPGyICTwRAIABBJGohACAWQSQgAmutfiIVpyEGQQAhCUEBIQIgFUIgiFANAQwDCwsgBSAIaiIGIAVJDQEgBiADQQFqIgJuIgogDWoiDSAKSSANQYCwA3NBgIDEAGtBgJC8f0lyIANB/wBLcg0BIAshAAJAIAYgAiAKbGsiCCADTwRAIAhBgAFJDQEgCEGAAUG8ncUAEK4HAAsDQCAAQQRqIAAoAgA2AgAgAEEEayEAIANBAWsiAyAISw0ACwsgB0EMaiAIQQJ0aiANNgIAIAQgEkcEQCAELQAAIQpBACEDAkAgBSATbiIAIAJuIABqIgBByANJBEAgACEFDAELA0AgA0EkaiEDIABB1/wASyAAQSNuIgUhAA0ACwsgCEEBaiEIIAMgBUEkbEH8/wNxIAVBJmpB//8DcW5qIRQgC0EEaiELIAxBBGohDEECIRMgAiEDDAELCyAHQQxqIQMDQCAHIAMoAgA2AowEIAdBjARqIAEQnwUiAA0CIANBBGohAyAMQQRrIgwNAAsMAQtBASEAIAEoAgAiAkHYo8UAQQkgASgCBCgCDCIBEQAADQAgEARAIAIgDiAQIAERAAANASACQZKfxQBBASABEQAADQELIAIgDyARIAERAAANACACQcqexQBBASABEQAAIQALIAdBkARqJAAgAAupCQIDfgZ/QciHyQAtAABBAUcEQBBYCwJAAkACQAJAQaiGyQAoAgBFBEBBqIbJAEF/NgIAQbSGyQAoAgAiBUHIhskAKQMAIgEgAK2FIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAUIIiEKAgID4D4MgAUIYiEKAgPwHg4QgAUIoiEKA/gODIAFCOIiEhIRC0oGqm6v6gtenf34iAUI4hiABQoD+A4NCKIaEIAFCgID8B4NCGIYgAUKAgID4D4NCCIaEhCABQgiIQoCAgPgPgyABQhiIQoCA/AeDhCABQiiIQoD+A4MgAUI4iISEhCACQtii0e/CqeW/LX6FIgFCOIYgAUKA/gODQiiGhCABQoCA/AeDQhiGIAFCgICA+A+DQgiGhIQgAUIIiEKAgID4D4MgAUIYiEKAgPwHg4QgAUIoiEKA/gODIAFCOIiEhIRBwIbJACkDACICQn+FfiIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEIAEgAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhH6FIAGJIgGncSEEIAFCGYhC/wCDQoGChIiQoMCAAX4hA0GwhskAKAIAIgZBIGshCQJAA0ACQCAEIAZqKQAAIgIgA4UiAUJ/hSABQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIgFQRQRAA0AgACAJIAF6p0EDdiAEaiAFcSIIQQV0aygCAEYNAiABQgF9IAGDIgFQRQ0ACwsgAiACQgGGg0KAgYKEiJCgwIB/g1BFDQIgBCAHQQhqIgdqIAVxIQQMAQsLQYABIQAgBiAIaiIEKQAAIgEgAUIBhoNCgIGChIiQoMCAf4N6p0EDdiAGIAhBCGsgBXFqIgUpAAAiASABQgGGg0KAgYKEiJCgwIB/g3mnQQN2akEHTQRAQbiGyQBBuIbJACgCAEEBajYCAEH/ASEACyAEIAA6AAAgBUEIaiAAOgAAQbyGyQBBvIbJACgCAEEBazYCACAGQQAgCGtBBXRqIgBBHGsoAgAiBEGAgICAeEYNACAAQQxrKAIAIQYgAEEQaygCACEFIABBGGsoAgAhCCAAQQRrKAIAIgAgACgCAEEBayIHNgIAIAdFBEAgABDHBQsgBARAIAhBBGsoAgAiAEF4cSIHIARBAnQiBEEEQQggAEEDcSIAG2pJDQMgAEEAIAcgBEEnaksbDQQgCBCfAgsgBUUNACAGQQRrKAIAIgBBeHEiBCAFQQJ0IgVBBEEIIABBA3EiABtqSQ0EIABBACAEIAVBJ2pLGw0FIAYQnwILQaiGyQBBqIbJACgCAEEBajYCAA8LQfyqwQAQswoAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALzAYBBH8CQAJAAkAgACgCACIBQYCAgIB4Rg0AIAEEQCAAKAIEIgNBBGsoAgAiAkF4cSIEIAFBA3QiAUEEQQggAkEDcSICG2pJDQIgAkEAIAQgAUEnaksbDQMgAxCfAgsgACgCDCIBRQ0AIAAoAhAiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCwJAIAAoAhwiAUGAgICAeEYNACABBEAgACgCICIDQQRrKAIAIgJBeHEiBCABQQN0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQnwILIAAoAigiAUUNACAAKAIsIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsCQCAAKAI4IgFBgICAgHhGDQAgAQRAIAAoAjwiA0EEaygCACICQXhxIgQgAUEDdCIBQQRBCCACQQNxIgIbakkNAiACQQAgBCABQSdqSxsNAyADEJ8CCyAAKAJEIgFFDQAgACgCSCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQnwILAkAgACgCVCIBQYCAgIB4Rg0AIAEEQCAAKAJYIgNBBGsoAgAiAkF4cSIEIAFBA3QiAUEEQQggAkEDcSICG2pJDQIgAkEAIAQgAUEnaksbDQMgAxCfAgsgACgCYCIBRQ0AIAAoAmQiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCwJAIAAoAnAiAUGAgICAeEYNACABBEAgACgCdCIDQQRrKAIAIgJBeHEiBCABQQN0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQnwILIAAoAnwiAUUNACAAKAKAASIAQQRrKAIAIgNBeHEiAiABQQJ0IgFBBEEIIANBA3EiAxtqSQ0BIANBACACIAFBJ2pLGw0CIAAQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALtwcCCn4GfwJAIAEpAxAiA1ANACABKAIYIg4oAgAiECAOKQMIIgQgDigCBCIMrSIHIAQgB1QbpyIPaiENAkACQCADIAxC/////w8gBCAEQv////8PWhunayIRQQAgDCARTxutIgIgAiADVhtCB1gEQCAMIA9GDQMgAS0AICIPQTdLDQMgDTEAACEIIA4gBEIBfCIGNwMIIANCAX0hAiAPrUL/AYMiCkIIfCEEIAEpAwAgCCAKhoQhCCADQgFRDQIgAiAMIAYgByAGIAdUG6ciDWutIgUgAiAFVBtQIA9BL0tyDQIgDSAQajEAACAOIAYgAkIAUq0iC3wiBTcDCCAKQhB8IQYgAiALfSECIASGIAiEIQggA0IDVARAIAYhBAwDCyACIAwgBSAHIAUgB1QbpyINa60iBCACIARUG1AEQCAGIQQMAwsgD0EnSwRAIAYhBAwDCyANIBBqMQAAIA4gBSACQgBSrSIDfCIFNwMIIApCGHwhBCACIAN9IQMgBoYgCIQhCCACQgJUBEAgAyECDAMLIAMgDCAFIAcgBSAHVBunIg1rrSICIAIgA1YbUARAIAMhAgwDCyAPQR9LBEAgAyECDAMLIA0gEGoxAAAgDiAFIANCAFKtIgJ8IgU3AwggCkIghCEGIAMgAn0hAiAEhiAIhCEIIANCAlQEQCAGIQQMAwsgAiAMIAUgByAFIAdUG6ciDWutIgQgAiAEVBtQBEAgBiEEDAMLIA9BF0sEQCAGIQQMAwsgDSAQajEAACAOIAUgAkIAUq0iA3wiBTcDCCAKQih8IQQgAiADfSEDIAaGIAiEIQggAkICVARAIAMhAgwDCyADIAwgBSAHIAUgB1QbpyINa60iAiACIANWG1AEQCADIQIMAwsgBkIvVgRAIAMhAgwDCyANIBBqMQAAIA4gBSADQgBSrSICfCIFNwMIIApCMHwhBiADIAJ9IQIgBIYgCIQhCCADQgJUBEAgBiEEDAMLIAIgDCAFIAcgBSAHVBunIgxrrSIEIAIgBFQbUARAIAYhBAwDCyAPQQdNDQEgBiEEDAILIAEgAS0AICIMQThyOgAgIAEgASkDACANKQAAIAxBP3GthoQ3AwAgASADIANBPyAMa0H4AXFBA3atIgIgAiADVhsiAn03AxAgDiACIAR8NwMIDAILIAwgEGoxAAAgDiAFIAJCAFKtIgd8NwMIIApCOIQhBCACIAd9IQIgBoYgCIQhCAsgASAEPAAgIAEgCDcDACABIAI3AxALIABBHToAAAvtBwIGfwh+AkAgASgCCCIFQQhqKQMAIghQDQAgBUEQaigCACIGKAIAIAYpAwgiDSAGKAIEIgStIgkgCSANVhunIgNqIQICQAJAIAggBEL/////DyANIA1C/////w9aG6drIgdBACAEIAdPG60iCSAIIAlUG0IHWARAIAMgBEYNAyABLQAMIgRBN0sNAyACMQAAIQkgBUEIaiIHIgIgCEIBfTcDACAGIA1CAXw3AwggBK1C/wGDIg5CCHwhCCABKQMAIAkgDoaEIQsgAikDACIJUA0CIAVBEGooAgAiAigCBCIDIAIpAwgiCiADrSIMIAogDFQbpyIDRiAEQS9Lcg0CIAIoAgAgA2oxAAAgBiANQgJ8NwMIIAciAiAJQgF9NwMAIA5CEHwhCSAIhiALhCELIAIpAwAiCFAEQCAJIQgMAwsgBUEQaigCACICKAIEIgMgAikDCCIKIAOtIgwgCiAMVBunIgNGBEAgCSEIDAMLIARBJ0sEQCAJIQgMAwsgAigCACADajEAACAGIA1CA3w3AwggBUEIaiIHIgIgCEIBfTcDACAOQhh8IQggCYYgC4QhCyACKQMAIglQDQIgBUEQaigCACICKAIEIgMgAikDCCIKIAOtIgwgCiAMVBunIgNGIARBH0tyDQIgAigCACADajEAACAGIA1CBHw3AwggByICIAlCAX03AwAgDkIghCEJIAiGIAuEIQsgAikDACIIUARAIAkhCAwDCyAFQRBqKAIAIgIoAgQiAyACKQMIIgogA60iDCAKIAxUG6ciA0YEQCAJIQgMAwsgBEEXSwRAIAkhCAwDCyACKAIAIANqMQAAIAYgDUIFfDcDCCAFQQhqIgciAiAIQgF9NwMAIA5CKHwhCCAJhiALhCELIAIpAwAiClANAiAFQRBqKAIAIgIoAgQiAyACKQMIIgwgA60iDyAMIA9UG6ciA0YgCUIvVnINAiACKAIAIANqMQAAIAYgDUIGfDcDCCAHIgIgCkIBfTcDACAOQjB8IQkgCIYgC4QhCyACKQMAIghQBEAgCSEIDAMLIAVBEGooAgAiAigCBCIDIAIpAwgiCiADrSIMIAogDFQbpyIDRgRAIAkhCAwDCyAEQQdNDQEgCSEIDAILIAEgAS0ADCIEQThyOgAMIAEgASkDACACKQAAIARBP3GthoQ3AwAgBUEIaiAIIAhBPyAEa0H4AXFBA3atIgkgCCAJVBsiCH03AwAgBiAIIA18NwMIDAILIAIoAgAgA2oxAAAgBiANQgd8NwMIIAVBCGogCEIBfTcDACAOQjiEIQggCYYgC4QhCwsgASAIPAAMIAEgCzcDAAsgAEEdOgAAC7gJAwh/BH0BeyMAQbABayIFJAACfwJAIAEoAggiByACSwRAIAVBgAFqIAEoAgQgAkEkbGoiBxCbAyAF/QAEgAEiEf0fACINIBH9HwEiDpRDj8LNPxC6CiEPIA0gEf0fAiINlEOPws0/ELoKIRAgDiANlEOPws0/ELoKIA8gEJKSQwAAQECVQ+ZAHz8QugpD2w9JQZQhDSAHLwEUIgZB//8BcUUNASAGQf8HcSEHIAZBgIACcSEIIAZBgPgBcSIGQYD4AUcEQCAIQRB0IQggBkENdEGAgID8AHEgB0ENdHJBgICAwANqIAhyIAYNAxogCEGAgIDYA3IgB2dBEGsiBkEXdGsgByAGQf//A3FBCGp0Qf///wNxcgwDCyAIQRB0IQYgBiAHQQ10ckGAgID+B3IgBw0CGiAGQYCAgPwHcgwCCyACIAdBxKLHABCuBwALIAZBEHQLIQggBUEIaiABKAIQIgkgASgCFCIKIAIQ4wIgDSAIvpQhDgJAAkACQAJAAkACQAJAAkACQAJ/IAUoAiwiB0EJTwRAIAUoAgwiBkUNAiAFQQA2AjAgBUEANgJUIAVBNGohCyAFKAIQDAELIAdFDQEgBUEANgIwIAVBADYCVCAFQTRqIQsgByEGIAVBDGoLIQggBkECdCEMIAVBhAFqIQZDAACA/yENA0AgBUGAAWogASAIKAIAIAMgBBCOAiAFQeAAaiAGQQhq/QACAP0LAwAgBUHwAGogBkEYav0AAgD9CwMAIAUgBikCADcDWCAIQQRqIQggBSoCgAEhDyAFQTBqIAVB2ABqEPsBIA0gDxDdCCENIAxBBGsiDA0ACyADKAIIIQEgBCANlCAOXwRAIAEgAk0NAyADKAIEIAJqQQE6AAALIAEgAk0NAyADKAIEIAJqLQAARQRAIAkgCiACQQRBABDWBSAAIA04AgAgAEEkaiAFQdAAaikCADcCACAAQRRqIAVBQGv9AAIA/QsCACAAIAX9AAIw/QsCBAwCCyAJIAogAiAFKAJUIghBCU8EfyAFKAI0IghBgIAETw0FIAUoAjgFIAsLIAgQ1gUgAEIANwIMIAAgAjYCCCAAQQA2AgQgACAOOAIAIABBFGr9DAAAAAAAAAAAAAAAAAAAAAD9CwIAIABBJGpCgICAgBA3AgAgBSgCVCIAQQlJDQEgBSgCOCIBQQRrKAIAIgJBeHEiAyAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0FIAJBACADIABBJ2pLGw0GIAEQnwIMAQsgAEIANwIMIAAgAjYCCCAAQQA2AgQgACAOOAIAIABBFGr9DAAAAAAAAAAAAAAAAAAAAAD9CwIAIABBJGpCgICAgBA3AgALIAdBCU8EQCAFKAIQIgBBBGsoAgAiAUF4cSICIAdBAnQiA0EEQQggAUEDcSIBG2pJDQYgAUEAIAIgA0EnaksbDQcgABCfAgsgBUGwAWokAA8LIAIgAUGc9cEAEK4HAAsgAiABQaz1wQAQrgcAC0G89cEAQS1B7PXBABDnCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAv6BwIFfwN+IAEoAgAiAkH///8DcSEFIAJBgICAgHhxIQYgASgCBCEDAn4CQAJAIAJBgICA/AdxIgRBgICA/AdHBEAgBkEQdiEGIARBgICAuARLDQEgBEENdiAFQQ12akGAgAFqIAZyrSACQQx2IAJB/98AcUEAR3GtfCAEQYCAgMQDTw0DGiAEQYCAgJgDSQ0CIAVBgICABHIiAkH+ACAEQRd2IgVrdiEEIAJBHSAFayIFdkEBcQR/IARBAyAFdEEBayACcUEAR2oFIAQLIAZyrQwDCyAGQRB2IAVBDXZyQYAEQQAgBRtyQYD4AXKtDAILIAZBgPgBcq0MAQsgBq0LIQcgASgCCCEEIANB////A3EhBSADQYCAgIB4cSEGAn4gA0GAgID8B3EiAkGAgID8B0cEQCAGQRB2IQYgAkGAgIC4BE0EQCACQQ12IAVBDXZqQYCAAWogBnKtIANBDHYgA0H/3wBxQQBHca18IAJBgICAxANPDQIaIAJBgICAmANPBEAgBUGAgIAEciIFQf4AIAJBF3YiAmt2IQMgBUEdIAJrIgJ2QQFxBH8gA0EDIAJ0QQFrIAVxQQBHagUgAwsgBnKtDAMLIAatDAILIAZBgPgBcq0MAQsgBkEQdiAFQQ12ckGABEEAIAUbckGA+AFyrQshCCABKAIMIQEgBEH///8DcSECIARBgICAgHhxIQUCfiAEQYCAgPwHcSIDQYCAgPwHRwRAIAVBEHYhBSADQYCAgLgETQRAIANBDXYgAkENdmpBgIABaiAFcq0gBEEMdiAEQf/fAHFBAEdxrXwgA0GAgIDEA08NAhogA0GAgICYA08EQCACQYCAgARyIgRB/gAgA0EXdiICa3YhAyAEQR0gAmsiAnZBAXEEfyADQQMgAnRBAWsgBHFBAEdqBSADCyAFcq0MAwsgBa0MAgsgBUGA+AFyrQwBCyAFQRB2IAJBDXZyQYAEQQAgAhtyQYD4AXKtCyEJIAFB////A3EhBCABQYCAgIB4cSECIAAgB0L//wODIAhCEIZCgID8/w+DIAlCIIZCgICAgPD/P4MCfiABQYCAgPwHcSIDQYCAgPwHRwRAIAJBEHYhAiADQYCAgLgETQRAIANBDXYgBEENdmpBgIABaiACcq0gAUEMdiABQf/fAHFBAEdxrXwgA0GAgIDEA08NAhogA0GAgICYA08EQCAEQYCAgARyIgRB/gAgA0EXdiIDa3YhASAEQR0gA2siA3ZBAXEEfyABQQMgA3RBAWsgBHFBAEdqBSABCyACcq0MAwsgAq0MAgsgAkGA+AFyrQwBCyACQRB2IARBDXZyQYAEQQAgBBtyQYD4AXKtC0IwhoSEhDcCAAviCAIGfgN/IAAoAgxFBEBBAA8LIAAoAgQiCCABKQMQIgUgASkDCCIGIAEpAwAiByAAKQMYhSICQtii0e/CqeW/LX4gAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhELSgaqbq/qC16d/fiICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEhYUiAkLYotHvwqnlvy1+IAJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIRC0oGqm6v6gtenf34iAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhIWFIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCACQtii0e/CqeW/LX6FIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIQgACkDECIDQn+FfiIEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEIAIgA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhH6FIAKJIgKncSEBIAJCGYhC/wCDQoGChIiQoMCAAX4hBCAAKAIAIQkDQAJAIAEgCWopAAAiAyAEhSICQn+FIAJCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiAlBFBEADQAJAIAcgCSACeqdBA3YgAWogCHFBBnRrIgBBQGopAwBSDQAgBiAAQThrKQMAUg0AIAUgAEEwaykDAFENAwsgAkIBfSACgyICUEUNAAsLQQAhACADIANCAYaDQoCBgoSIkKDAgH+DUEUNACABIApBCGoiCmogCHEhAQwBCwsgAEEoa0EAIAAbC8MIAgV/AX0gASgCACIJQf///wNxIQYgCUGAgICAeHEhCgJAAkAgCUGAgID8B3EiB0GAgID8B0cEQCAKQRB2IQogB0GAgIC4BEsNASAHQYCAgMQDTwRAIAlBDHYgCUH/3wBxQQBHcSAHQQ12IAZBDXZqQYCAAWogCnJqIQoMAwsgB0GAgICYA0kNAiAGQYCAgARyIglB/gAgB0EXdiIGa3YhByAJQR0gBmsiBnZBAXEEfyAHQQMgBnRBAWsgCXFBAEdqBSAHCyAKciEKDAILIApBEHYgBkENdnJBgARBACAGG3JBgPgBciEKDAELIApBgPgBciEKCyABKAIEIgZB////A3EhCCAGQYCAgIB4cSEJAkAgBkGAgID8B3EiB0GAgID8B0cEQCAJQRB2IQkgB0GAgIC4BE0EQCAHQYCAgMQDTwRAIAZBDHYgBkH/3wBxQQBHcSAHQQ12IAhBDXZqQYCAAWogCXJqIQkMAwsgB0GAgICYA0kNAiAIQYCAgARyIgZB/gAgB0EXdiIIa3YhByAGQR0gCGsiCHZBAXEEfyAHQQMgCHRBAWsgBnFBAEdqBSAHCyAJciEJDAILIAlBgPgBciEJDAELIAlBEHYgCEENdnJBgARBACAIG3JBgPgBciEJCyABKAIIIgZB////A3EhCCAGQYCAgIB4cSEHAkAgBkGAgID8B3EiAUGAgID8B0cEQCAHQRB2IQcgAUGAgIC4BE0EQCABQYCAgMQDTwRAIAZBDHYgBkH/3wBxQQBHcSABQQ12IAhBDXZqQYCAAWogB3JqIQcMAwsgAUGAgICYA0kNAiAIQYCAgARyIgZB/gAgAUEXdiIIa3YhASAGQR0gCGsiCHZBAXEEfyABQQMgCHRBAWsgBnFBAEdqBSABCyAHciEHDAILIAdBgPgBciEHDAELIAdBEHYgCEENdnJBgARBACAIG3JBgPgBciEHC0MAAABAIQsgAyoCACADKgIEkiADKgIIkkMAAEBAlSACQwAAgD9fBH0gCwUgAkMAAIBAlEMAAEDAkkMAAIC/kkMzMzM/lEMAAIA/kiICIAKSC5S8IgZB////A3EhCCAGQYCAgIB4cSEDAkACQCAGQYCAgPwHcSIBQYCAgPwHRwRAIANBEHYhAyABQYCAgLgESw0BIAFBgICAxANPBEAgBkEMdiAGQf/fAHFBAEdxIAFBDXYgCEENdmpBgIABaiADcmohAwwDCyABQYCAgJgDSQ0CIAhBgICABHIiBkH+ACABQRd2IghrdiEBIAZBHSAIayIIdkEBcQR/IAFBAyAIdEEBayAGcUEAR2oFIAELIANyIQMMAgsgA0EQdiAIQQ12ckGABEEAIAgbckGA+AFyIQMMAQsgA0GA+AFyIQMLIAAgBTYCDCAAIARB//8DcTYCCCAAIAdB//8DcSADQRB0cjYCBCAAIApB//8DcSAJQRB0cjYCAAuxIAMFfhB/AXsgAa1B+IbJACkDACICIACthSIDQtii0e/CqeW/LX6FIANCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIRC0oGqm6v6gtenf34iAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhIUiAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhELSgaqbq/qC16d/fiIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEIAJC2KLR78Kp5b8tfoUiAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhEHwhskAKQMAIgNCf4V+IgRCOIYgBEKA/gODQiiGhCAEQoCA/AeDQhiGIARCgICA+A+DQgiGhIQgBEIIiEKAgID4D4MgBEIYiEKAgPwHg4QgBEIoiEKA/gODIARCOIiEhIQgAiADQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEfoUgAokhBkHohskAKAIARQRAAkACQAJAQeiGyQACfwJAAkACQEHshskAKAIAQQFqIgkEQEHkhskAKAIAIgggCEEBaiINQQN2IgxBB2wgCEEISRsiCEEBdiAJSQRAIAhBAWoiCCAJIAggCUsbIglBD0kNAiAJQf////8BTQRAQX8gCUEDdEEHbkEBa2d2IglB/v///wFLDQggCUEBaiEHDAcLDAcLQQAgDUUNBBpB4IbJACgCACEKIAwgDUEHcUEAR2oiCUEBTQ0CIAohByAJQf7///8DcSIMIQgDQCAHIAf9AAMAIhf9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gF/0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACAHQRBqIQcgCEECayIIDQALIAkgDEYNAyAJQQFxIQkgDEEDdCEHDAILDAULQQQgCUEIcUEIaiAJQQRJGyEHDAMLIAcgCmohBwNAIAcgBykDACICQn+FQgeIQoGChIiQoMCAAYMgAkL//v379+/fv/8AhHw3AwAgB0EIaiEHIAlBAWsiCQ0ACwsCQCANQQhPBEAgCiANaiAKKQAANwAADAELIA1FDQAgCkEIaiAKIA38CgAAC0EBIQhBACEJA0AgCSEKIAghCQJAIApB4IbJACgCACIIai0AAEGAAUcNACAIIAtqIRIgCCAKQX9zQQN0aiETQQAgCmtBA3QhFAJAA0BB5IbJACgCACIMQfiGyQApAwAiAiAIIBRqIgdBCGs1AgCFIgNC2KLR78Kp5b8tfiAHQQRrNQIAhSADQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEQtKBqpur+oLXp39+IgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhISFIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCACQtii0e/CqeW/LX6FIgJCOIYgAkKA/gODQiiGhCACQoCA/AeDQhiGIAJCgICA+A+DQgiGhIQgAkIIiEKAgID4D4MgAkIYiEKAgPwHg4QgAkIoiEKA/gODIAJCOIiEhIRB8IbJACkDACIDQn+FfiIEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIARCCIhCgICA+A+DIARCGIhCgID8B4OEIARCKIhCgP4DgyAEQjiIhISEIAIgA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhH6FIAKJpyIRcSIOIQcgCCAOaikAAEKAgYKEiJCgwIB/gyICUARAQQghDwNAIAcgD2ohByAPQQhqIQ8gCCAHIAxxIgdqKQAAQoCBgoSIkKDAgH+DIgJQDQALCyAIIAJ6p0EDdiAHaiAMcSIHaiwAAEEATgRAIAgpAwBCgIGChIiQoMCAf4N6p0EDdiEHCyAHIA5rIAogDmtzIAxxQQhJDQEgByAIaiIOLQAAIA4gEUEZdiIOOgAAQeCGyQAoAgAgB0EIayAMcWpBCGogDjoAAEH/AUcEQCAIIAdBA3RrIQdBeCEIA0AgCCASaiIMKAAAIQ4gDCAHIAhqIgwoAAA2AAAgDCAONgAAIAhBBGoiCA0AC0HghskAKAIAIQgMAQsLQeSGyQAoAgAhDEHghskAKAIAIApqQf8BOgAAQeCGyQAoAgAgDCAKQQhrcWpBCGpB/wE6AAAgCCAHQX9zQQN0aiATKQAANwAADAELIAggCmogEUEZdiIIOgAAQeCGyQAoAgAgDCAKQQhrcWpBCGogCDoAAAsgC0EIayELIAkgCSANSSIHaiEIIAcNAAtB5IbJACgCACIJIAlBAWpBA3ZBB2wgCUEISRsLQeyGyQAoAgBrNgIADAILIAdBCGoiCSAHQQN0IgpqIgggCUkgCEH4////B0tyDQAgCBBxIgtFBEAgCBDoCQALIAogC2ohCiAJBEAgCkH/ASAJ/AsACyAHQQFrIg0gB0EDdkEHbCANQQhJGyEPQeCGyQAoAgAhCEHshskAKAIAIg4EfyAKQQhqIREgCCkDAEJ/hUKAgYKEiJCgwIB/gyEFQQAhByAIIQkDQCAFUARAA0AgB0EIaiEHIAlBCGoiCSkDAEKAgYKEiJCgwIB/gyICQoCBgoSIkKDAgH9RDQALIAJCgIGChIiQoMCAf4UhBQsgCiANQfiGyQApAwAiAiAIIAV6p0EDdiAHaiISQQN0ayILQQhrNQIAhSIDQtii0e/CqeW/LX4gC0EEazUCAIUgA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCACQgiIQoCAgPgPgyACQhiIQoCA/AeDhCACQiiIQoD+A4MgAkI4iISEhELSgaqbq/qC16d/fiICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEhSICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEQtKBqpur+oLXp39+IgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIQgAkLYotHvwqnlvy1+hSICQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEQfCGyQApAwAiA0J/hX4iBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhCACIANCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIR+hSACiaciE3EiC2opAABCgIGChIiQoMCAf4MiAlAEQEEIIQwDQCALIAxqIQsgDEEIaiEMIAogCyANcSILaikAAEKAgYKEiJCgwIB/gyICUA0ACwsgBUIBfSAFgyEFIAogAnqnQQN2IAtqIA1xIgtqLAAAQQBOBEAgCikDAEKAgYKEiJCgwIB/g3qnQQN2IQsLIAogC2ogE0EZdiIMOgAAIBEgC0EIayANcWogDDoAACAKIAtBf3NBA3RqIAggEkF/c0EDdGopAAA3AwAgDkEBayIODQALQeCGyQAoAgAhCEHshskAKAIABUEACyEHQeCGyQAgCjYCAEHkhskAKAIAIQlB5IbJACANNgIAQeiGyQAgDyAHazYCACAJRQ0BIAkgCUEDdEEPakF4cSIHakEJaiIJRQ0BAkAgCCAHayIIQQRrKAIAIgdBeHEiCkEEQQggB0EDcSIHGyAJak8EQCAHQQAgCiAJQSdqSxsNASAIEJ8CDAMLQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0GQucQAQTlBrLnEABDbBwALC0HkhskAKAIAIgcgBqdxIQkgBkIZiCIEQv8Ag0KBgoSIkKDAgAF+IQVB4IbJACgCACEIA0ACfwJAAkAgCCAJaikAACIDIAWFIgJCf4UgAkKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyICUEUEQANAIAggAnqnQQN2IAlqIAdxQQN0ayILQQhrKAIAIABGBEBBASEKIAEgC0EEaygCAEYNAwsgAkIBfSACgyICUEUNAAsLIANCgIGChIiQoMCAf4MhAiAVRQRAIAJQDQIgAnqnQQN2IAlqIAdxIRALQQEgAiADQgGGg1ANAhpBACEKIAggEGosAAAiCUEATgRAIAggCCkDAEKAgYKEiJCgwIB/g3qnQQN2IhBqLQAAIQkLIAggEGogBKdB/wBxIgs6AAAgCCAQQQhrIAdxakEIaiALOgAAQeiGyQBB6IbJACgCACAJQQFxazYCAEHshskAQeyGyQAoAgBBAWo2AgAgCCAQQQN0ayIJQQhrIAA2AgAgCUEEayABNgIACyAKDwtBAAshFSAWQQhqIhYgCWogB3EhCQwACwALhgkDGX8EfQF7IwBBEGsiDiQAAkACQAJAAkACQCACBEAgACgCCCIRIAFrIgVBACAFIBFNGyEWQwAAgD8gACoCQCAALQBYQQJGIgUbQwAAAAAgACoCPCAFGyIfkyEgIAJBDGwhFyAAQTxqIRggACgCBCABQRhsaiEGIAMoAiAhDyADKAIkIRIgAygCGCEZIAMoAhwhEyADKAIQIRogAygCFCEUIAMoAgghGyADKAIMIRAgAygCACEcIAMoAgQhFQNAAkACQAJAAkACQCANIBZHBEAgB0EDaiIFIBVLDQEgBiAMIBxqIgRBCGogBP1dAgD9VgIAAiIh/VoCCAIgBiAh/VsCAAAgDSAQRg0EIAsgG2ooAgAiCkH///8DcSEIIApBgICAgHhxIQQgCkGAgID8B3EiCUGAgID8B0YNAiAEQRB2IQQgCUGAgIC4BEsNAyAJQYCAgMQDTwRAIApBDHYgCkH/3wBxQQBHcSAJQQ12IAhBDXZqQYCAAWogBHJqIQQMBgsgCUGAgICYA0kNBSAIQYCAgARyIgpB/gAgCUEXdiIIa3YhCSAKQR0gCGsiCHZBAXEEfyAJQQMgCHRBAWsgCnFBAEdqBSAJCyAEciEEDAULIAEgDWogEUGsnscAEK4HAAsgByAFIBVBlKfHABDVBwALIAhBDXYgBEEQdnJBgARBACAIG3JBgPgBciEEDAILIARBgPgBciEEDAELIBAgEEHUpscAEK4HAAsgBkEMaiAEOwEAIAUgFEsNBEMAAH9DQwAAAAAgDCAaaiIEQQRqKgIAIB+TICCVQwAAf0OUIh0gHUMAAAAAXRsiHSAdQwAAf0NeGxCdByEdIAZBDmpB/wFDAAB/Q0MAAAAAIARBCGoqAgAgH5MgIJVDAAB/Q5QiHiAeQwAAAABdGyIeIB5DAAB/Q14bEJ0HIh78AUEAIB5DAAAAAGAbIB5DAAB/Q14bQRB0Qf8BIB38AUEAIB1DAAAAAGAbIB1DAAB/Q14bQQh0ckH/AUMAAH9DQwAAAAAgBCoCACAfkyAglUMAAH9DlCIdIB1DAAAAAF0bIh0gHUMAAH9DXhsQnQciHfwBQQAgHUMAAAAAYBsgHUMAAH9DXhtyIgQ7AQAgBkEQaiAEQRB2OgAAIAUgE0sNBSAGIBggDCAZaiIH/V0CACAHQQhqKgIAIh39IAIgHf0gAxDZBCALQQNqIBJPDQIgDiAP/QACAP0LBAAgBkEWaiAOELEEIgdBEHY6AAAgBkEUaiAHOwEAIA1BAWohDSAPQRBqIQ8gBkEYaiEGIAtBBGohCyAFIQcgFyAMQQxqIgxHDQALCyAAIAEgAiADKAIoIAMoAiwgAygCMCADKAI0IAMoAjggAygCPBDiBCADKAJEIgVFDQQgAygCTCIHDQEMBAsgCyALQQRqIBJBhKfHABDVBwALIAAoAhAiBiAAKAIUIgAgASACIAMoAkggBxCGAyAGIAAgASACIAMoAkAgBRC6AwwCCyAHIAUgFEHkpscAENUHAAsgByAFIBNB9KbHABDVBwALIA5BEGokAAuGCQICfQR/AkACQAJAAkACQAJAAkACQAJAAkAgACgCXEUgAkVyRQRAQwAA/kJDAAD+QiAAKgJMlSAALQBYQQJGGyEGIAAoAhwgAUEJbGohCUEIIAQgBEEITRtBCW5BCWwhCiAAKAIgIQhBACEAA0AgASAITw0KIAAgBE8NCyAAIAlqIgdB/wBDAAD+QkMAAP7CIAYgAyoCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bEJ0HIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBAWogBE8NCSAHQQFqQf8AQwAA/kJDAAD+wiAGIANBBGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxCdByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQJqIARPDQggB0ECakH/AEMAAP5CQwAA/sIgBiADQQhqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQnQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEDaiAETw0HIAdBA2pB/wBDAAD+QkMAAP7CIAYgA0EMaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bEJ0HIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBBGogBE8NBiAHQQRqQf8AQwAA/kJDAAD+wiAGIANBEGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxCdByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAQQVqIARPDQUgB0EFakH/AEMAAP5CQwAA/sIgBiADQRRqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQnQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgAEEGaiAETw0EIAdBBmpB/wBDAAD+QkMAAP7CIAYgA0EYaioCAJQiBSAFQwAA/sJdGyIFIAVDAAD+Ql4bEJ0HIgX8AEGAfyAFQwAAAMNgGyAFQwAA/kJeG0EAIAUgBVsbOgAAIABBB2ogBE8NAyAHQQdqQf8AQwAA/kJDAAD+wiAGIANBHGoqAgCUIgUgBUMAAP7CXRsiBSAFQwAA/kJeGxCdByIF/ABBgH8gBUMAAADDYBsgBUMAAP5CXhtBACAFIAVbGzoAACAAIApGDQIgB0EIakH/AEMAAP5CQwAA/sIgBiADQSBqKgIAlCIFIAVDAAD+wl0bIgUgBUMAAP5CXhsQnQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxs6AAAgA0EkaiEDIAFBAWohASAAQQlqIQAgAkEBayICDQALCw8LIABBCGohAAwICyAAQQdqIQAMBwsgAEEGaiEADAYLIABBBWohAAwFCyAAQQRqIQAMBAsgAEEDaiEADAMLIABBAmohAAwCCyAAQQFqIQAMAQsgACAETw0AIAEgCEH0pccAEK4HAAsgACAEQeSlxwAQrgcAC9cHAgd/A30gASgCCCICQQN0IQYgASgCBCEEIAEoAgAhByAAKAIIIgMhASAAKAIAIANrIAJJBEAgACADIAJBBEEIEJgGIAAoAgghAQsgACgCBCEFIAYEQCAFIAFBA3RqIAQgBvwKAAALIAAgASACaiICNgIIAkACQAJAAkAgBwRAIARBBGsoAgAiAEF4cSIBIAdBA3QiBkEEQQggAEEDcSIAG2pJDQEgAEEAIAEgBkEnaksbDQIgBBCfAgsgAiADRg0DAkACQCACIANrIgAgA00EQCACQQF0IQEgAkGAEEsNASABIABBHyADZ2tsTw0CCyACQQJJDQUMBAsgASAAQQtsSQ0DCyACIANNDQMDQCAFIANBA3RqIgAoAgQhBCAAKgIAIQoCQCADRQRAQQAhAQwBCyADIQAgCiAKXARAA0ACQCAFIABBAWsiB0EBdiIBQQN0aiIGKgIAIgkgCVsgCSAKYEVxDQAgBCAGQQRqKAIASw0AIAAhAQwDCyAFIABBA3RqIAYpAgA3AgAgASEAIAdBAk8NAAwCCwALA0AgBSAAQQFrIgdBAXYiAUEDdGoiBioCACIJIAlbIAkgCmBFcUF/IAkgCl8bIghBAEwgBCAGQQRqKAIATSAIGwRAIAAhAQwCCyAFIABBA3RqIAYpAgA3AgAgASEAIAdBAUsNAAsLIAUgAUEDdGoiACAENgIEIAAgCjgCACADQQFqIgMgAkcNAAsMAwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIAJBAmshBiACQQF2IQMDQCADQQFrIgNBAXQiBEEBciEAIAUgA0EDdGoiASgCBCEHIAEqAgAhCiADIQECQAJAIAQgBk8NAANAAkAgCiAFIAAgBEEDdCAFaiICQRBqKgIAIgkgCVsgCSAFIABBA3RqIgQqAgAiC2BFcSIIIAhBfyAJIAtfGyALIAtcGyIIQQBMIARBBGooAgAgAkEUaigCAE0gCBtqIgJBA3RqIgAqAgAiCWBFIAogCltxRQRAIAkgCmBFIAkgCVtxIAcgAEEEaigCAE9yDQELIAUgAUEDdGogACkCADcCACACQQF0IgRBAXIhACACIQEgBCAGSQ0BDAILCyABIQAMAQsgBCAGRwRAIAEhAAwBCwJAIAogClwgCiAFIABBA3RqIgIqAgAiCWByIgQgCSAJXCAJIApgcnFFBEAgBEUNASABIQAMAgsgByACQQRqKAIASQ0AIAEhAAwBCyAFIAFBA3RqIAIpAgA3AgALIAUgAEEDdGoiACAHNgIEIAAgCjgCACADDQALCwuKCAITfwF+AkACQAJAAkACQAJAIAEoAgBBAUYEQEECIQIgASgCHCIFIAEoAjQiBEYNBiABKAIwIQsgBCEDIAUgASgCPCIIQQFrIhBqIgIgBE8NASABKAI4IQ0gBSALaiERIAUgCGohByABKAIYIgMgBWohDiAIIANrIRIgBSABKAIQIgxrQQFqIRMgASkDCCEVIAEoAiQiD0F/RiEJIA8hBiAFIQMDQCADIAVHDQICQAJAIBUgAiALajEAAIinQQFxRQRAIAEgBzYCHCAHIQMgCQ0CQQAhAgwBCyAMIAYgDCAGIAxLGyAJGyIKIAggCCAKSRshFCAKIQMCQANAIAMiAiAURgRAQQAgBiAJGyEKIAwhAgJAAkACQANAIAIgCk0NASACQQFrIgIgCE8NAiACIAVqIgMgBE8NAyACIA1qLQAAIAMgC2otAABGDQALIAEgDjYCHCASIQIgDiEDIAlFDQYMBwsgASAHNgIcIA9Bf0cEQCABQQA2AiQLIAAgBzYCCCAAIAU2AgRBACECDA4LIAIgCEGEosUAEK4HAAsgAyAEQZSixQAQrgcACyACIAVqIARPDQEgAkEBaiEDIAIgDWotAAAgAiARai0AAEYNAAsgAiATaiEDIAkNAkEAIQIMAQsgBCAFIApqIgAgACAESRsgBEGkosUAEK4HAAsgASACNgIkIAIhBgsgAyAQaiICIARJDQALIABBCGohBiAAQQRqIQcgBCEDDAILQQIhAiABLQAODQUgASABLQAMIgVBAXM6AAwgASgCNCEDIAEoAjAhBgJAAkAgASgCBCIERQ0AIAMgBE0EQCADIARGDQEMAgsgBCAGaiwAAEFASA0BCwJAAkAgAyAERwRAAn8gBCAGaiICLAAAIgNBAE4EQCADQf8BcQwBCyACLQABQT9xIQcgA0EfcSEGIAZBBnQgB3IgA0FfTQ0AGiACLQACQT9xIAdBBnRyIQcgByAGQQx0ciADQXBJDQAaIAZBEnRBgIDwAHEgAi0AA0E/cSAHQQZ0cnILIQJBASEDIAVBAXFFDQEMAgsgBUEBcQ0BIAFBAToADgwICwJAIAJBgAFJDQBBAiEDIAJBgBBJDQBBA0EEIAJBgIAESRshAwsgACAENgIEIAAgAyAEaiIDNgIIIAEgAzYCBAwGCyAAIAQ2AgggACAENgIEQQAhAgwGCyAGIAMgBCADQaCmxQAQrgkACyAAQQhqIQYgAEEEaiEHIANFDQELIAMhAgNAAkAgAiAETwRAIAIgBEYNBAwBCyACIAtqLAAAQb9/TA0AIAIhBAwDCyACQQFqIgINAAsLQQAhBAsgASADIAQgAyAESxs2AhwgBiAENgIAIAcgBTYCAAtBASECCyAAIAI2AgALqAgBCH8jAEHQAGsiAiQAIAACfwJAAkACQAJAAkAgASgCFCIDIAEoAhAiBkkEQCABKAIMIQcDQCADIAdqLQAAIgRBCWsiCEEXS0EBIAh0QZOAgARxRXJFBEAgASADQQFqIgM2AhQgAyAGRw0BDAMLCyAEQe4ARg0DCyABKAIMIQcgAyAGTw0BA0AgAyAHai0AACIEQQlrIghBF0tBASAIdEGTgIAEcUVyDQQgASADQQFqIgM2AhQgAyAGRw0ACwsgBiEDCyACQQU2AkAgAkEIaiAHIAYgA0EBaiIBIAYgASAGSRsQ+gEgACACQUBrIAIoAgggAigCDBDZBzYCBAwCCyABIANBAWoiBTYCFCAAAn8CQCAFIAZPDQAgASADQQJqIgQ2AhQCQAJAIAUgB2otAABB9QBHDQAgBCAFIAYgBSAGSxsiBUYNAiABIANBA2oiCDYCFCAEIAdqLQAAQewARwRAIAghBAwBCyAFIAhGDQIgASADQQRqIgQ2AhQgByAIai0AAEHsAEYNAQsgAkEJNgJAIAJBOGogByAGIAQQ+gEgAkFAayACKAI4IAIoAjwQ2QcMAgsgAEECOgABQQAMBAsgAkEFNgJAIAJBMGogByAGIAUQ+gEgAkFAayACKAIwIAIoAjQQ2QcLNgIEDAELAkACQAJAIAACfyAEQeYAayIEBEAgBEEORwRAIAAgASACQc8AakHUpsEAEP8BIAEQlwY2AgQMBgsgASADQQFqIgU2AhQCQCAFIAZPDQAgASADQQJqIgQ2AhQgBSAHai0AAEHyAEcNBSAEIAUgBiAFIAZLGyIFRg0AIAEgA0EDaiIINgIUIAQgB2otAABB9QBHBEAgCCEEDAYLIAUgCEYNACABIANBBGoiBDYCFCAHIAhqLQAAQeUARw0FQQEMAgsgAkEFNgJAIAJBEGogByAGIAUQ+gEgACACQUBrIAIoAhAgAigCFBDZBzYCBAwFCyABIANBAWoiBTYCFCAFIAZPDQEgASADQQJqIgQ2AhQgBSAHai0AAEHhAEcNAiAEIAUgBiAFIAZLGyIFRg0BIAEgA0EDaiIINgIUIAQgB2otAABB7ABHBEAgCCEEDAMLIAUgCEYNASABIANBBGoiCTYCFCAHIAhqLQAAQfMARwRAIAkhBAwDCyAFIAlGDQEgASADQQVqIgQ2AhQgByAJai0AAEHlAEcNAkEACzoAAUEADAQLIAJBBTYCQCACQSBqIAcgBiAFEPoBIAAgAkFAayACKAIgIAIoAiQQ2Qc2AgQMAgsgAkEJNgJAIAJBKGogByAGIAQQ+gEgACACQUBrIAIoAiggAigCLBDZBzYCBAwBCyACQQk2AkAgAkEYaiAHIAYgBBD6ASAAIAJBQGsgAigCGCACKAIcENkHNgIEC0EBCzoAACACQdAAaiQAC7QKAgN8A38jAEEQayIFJAAgALshAQJAIAC8IgZB/////wdxIgRB25+k+gNPBEAgBEHSp+2DBE8EQCAEQdbjiIcETwRAAkACQAJAAkAgBEH////7B00EQCAFQgA3AwgCQCAEQdqfpO4ETQRAIAEgAUSDyMltMF/kP6JEAAAAAAAAOEOgRAAAAAAAADjDoCICRAAAAFD7Ifm/oqAgAkRjYhphtBBRvqKgIQEgAvwCIQQMAQsgBSAEIARBF3ZBlgFrIgRBF3Rrvrs5AwAgBSAFQQhqIAQQdSEEIAZBAE4EQCAFKwMIIQEMAQtBACAEayEEIAUrAwiaIQELIARBA3FBAWsOAwMEAQILIAAgAJMhAAwHCyABIAGiIgFEgV4M/f//37+iRAAAAAAAAPA/oCABIAGiIgJEQjoF4VNVpT+ioCABIAKiIAFEaVDu4EKT+T6iRCceD+iHwFa/oKKgtowhAAwGCyABIAEgAaIiAqIiAyACIAKioiACRKdGO4yHzcY+okR058ri+QAqv6CiIAEgAyACRLL7bokQEYE/okR3rMtUVVXFv6CioKC2IQAMBQsgASABoiIBRIFeDP3//9+/okQAAAAAAADwP6AgASABoiICREI6BeFTVaU/oqAgASACoiABRGlQ7uBCk/k+okQnHg/oh8BWv6CioLYhAAwECyABIAGiIgIgAZqiIgMgAiACoqIgAkSnRjuMh83GPqJEdOfK4vkAKr+goiADIAJEsvtuiRARgT+iRHesy1RVVcW/oKIgAaGgtiEADAMLIARB4Nu/hQRPBEBEGC1EVPshGcBEGC1EVPshGUAgBkEAThsgAaAiAiACIAKiIgGiIgMgASABoqIgAUSnRjuMh83GPqJEdOfK4vkAKr+goiACIAMgAUSy+26JEBGBP6JEd6zLVFVVxb+goqCgtiEADAMLIAZBAE4EQCABRNIhM3982RLAoCIBIAGiIgFEgV4M/f//37+iRAAAAAAAAPA/oCABIAGiIgJEQjoF4VNVpT+ioCABIAKiIAFEaVDu4EKT+T6iRCceD+iHwFa/oKKgtowhAAwDCyABRNIhM3982RJAoCIBIAGiIgFEgV4M/f//37+iRAAAAAAAAPA/oCABIAGiIgJEQjoF4VNVpT+ioCABIAKiIAFEaVDu4EKT+T6iRCceD+iHwFa/oKKgtiEADAILIARB5JfbgARPBEBEGC1EVPshCcBEGC1EVPshCUAgBkEAThsgAaAiAiACoiIBIAKaoiIDIAEgAaKiIAFEp0Y7jIfNxj6iRHTnyuL5ACq/oKIgAyABRLL7bokQEYE/okR3rMtUVVXFv6CiIAKhoLYhAAwCCyAGQQBOBEAgAUQYLURU+yH5v6AiASABoiIBRIFeDP3//9+/okQAAAAAAADwP6AgASABoiICREI6BeFTVaU/oqAgASACoiABRGlQ7uBCk/k+okQnHg/oh8BWv6CioLYhAAwCCyABRBgtRFT7Ifk/oCIBIAGiIgFEgV4M/f//37+iRAAAAAAAAPA/oCABIAGiIgJEQjoF4VNVpT+ioCABIAKiIAFEaVDu4EKT+T6iRCceD+iHwFa/oKKgtowhAAwBCyAEQYCAgMwDTwRAIAEgAaIiAiABoiIDIAIgAqKiIAJEp0Y7jIfNxj6iRHTnyuL5ACq/oKIgAyACRLL7bokQEYE/okR3rMtUVVXFv6CiIAGgoLYhAAwBCyAFIABDAACAA5QgAEMAAIB7kiAEQYCAgARJGzgCCCAFKgIIGgsgBUEQaiQAIAALxgcBDn4gACAANQIgIgIgADUCACIEfCIFIAA0AhAiAUL7nAF+QhCHIAF8IAA0AjAiA0KMlQJ+QhCHfCIGfT4CMCAAIAFCjJUCfkIQhyADIANC+5wBfkIQh3x9IgEgBCACfSIDfD4CECAAIAUgBnw+AgAgACADIAF9PgIgIAAgADQCFCIBQoyVAn5CEIcgADQCNCIDQvucAX5CEIcgA3x9IgIgADUCBCIEIAA1AiQiBX0iBnw+AhQgACAGIAJ9PgIkIAAgBCAFfCICIAEgAUL7nAF+QhCHfCADQoyVAn5CEId8IgR9PgI0IAAgADUCKCIFIAA1AggiBnwiByAANAIYIgFC+5wBfkIQhyABfCAANAI4IgNCjJUCfkIQh3wiCH0+AjggACAGIAV9IgUgAUKMlQJ+QhCHIAMgA0L7nAF+QhCHfH0iBn0iCj4CKCAAIAA1AiwiCyAANQIMIgx8IgkgADQCHCIBQvucAX5CEIcgAXwgADQCPCIDQoyVAn5CEId8Ig19PgI8IAAgByAIfMQiByAANAIAIgh8QgR8Ig4gAiAEfMQiAkL7nAF+QhCHIAJ8IAkgDXzEIgRCjJUCfkIQh3wiCX1CA4g+AgwgACAJIA58QgOIPgIAIAAgCCAHfUIEfCIHIAJCjJUCfkIQhyAEQvucAX5CEIcgBHx9IgJ9QgOIPgIIIAAgAiAHfEIDiD4CBCAAIAUgBnzEIgQgADQCECIFfEIEfCIGIAA0AhQiAkL7nAF+QhCHIAJ8IAFCjJUCfkIQhyADIANC+5wBfkIQh3x9IgMgDCALfSIHfMQiAUKMlQJ+QhCHfCIIfUIDiD4CHCAAIAYgCHxCA4g+AhAgACAFIAR9QgR8IgQgAkKMlQJ+QhCHIAFC+5wBfkIQhyABfH0iAX1CA4g+AhggACABIAR8QgOIPgIUIAAgCsQiAiAANAIgIgR8QgR8IgUgADQCJCIBQvucAX5CEIcgAXwgByADfcQiA0KMlQJ+QhCHfCIGfUIDiD4CLCAAIAUgBnxCA4g+AiAgACAEIAJ9QgR8IgIgAUKMlQJ+QhCHIANC+5wBfkIQhyADfH0iAX1CA4g+AiggACABIAJ8QgOIPgIkIAAgADQCOCICIAA0AjAiBHxCBHwiBSAANAI0IgFC+5wBfkIQhyABfCAANAI8IgNCjJUCfkIQh3wiBn1CA4g+AjwgACAFIAZ8QgOIPgIwIAAgBCACfUIEfCICIAFCjJUCfkIQhyADIANC+5wBfkIQh3x9IgF9QgOIPgI4IAAgASACfEIDiD4CNAv9BwMFfwN7Bn0gAC8BBiEDAn8gAC8BBCICQf//AXEEQCACQf8HcSEGIAJBgIACcSEEIAJBgPgBcSICQYD4AUcEQCAEQRB0IQQgAkENdEGAgID8AHEgBkENdHJBgICAwANqIARyIAINAhogBiAGZ0EQayIGQf//A3FBCGp0Qf///wNxIARBgICA2ANyIAZBF3RrcgwCCyAEQRB0IQIgAiAGQQ10ckGAgID+B3IgBg0BGiACQYCAgPwHcgwBCyACQRB0CyEGIAAvAQghAgJ/IANB//8BcQRAIANB/wdxIQQgA0GAgAJxIQUgA0GA+AFxIgNBgPgBRwRAIAVBEHQhBSADQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogBXIgAw0CGiAEIARnQRBrIgNB//8DcUEIanRB////A3EgBUGAgIDYA3IgA0EXdGtyDAILIAVBEHQhAyADIARBDXRyQYCAgP4HciAEDQEaIANBgICA/AdyDAELIANBEHQLIQMgAf0ABAAhByABKgJEIQsgASoCQCEOIAEqAjwhDCABKgI4IQ0gAf0ABBAhCSABKgI0QwAAgD8CfyACQf//AXEEQCACQf8HcSEEIAJBgIACcSEFIAJBgPgBcSICQYD4AUcEQCAFQRB0IQUgAkENdEGAgID8AHEgBEENdHJBgICAwANqIAVyIAINAhogBCAEZ0EQayICQf//A3FBCGp0Qf///wNxIAVBgICA2ANyIAJBF3RrcgwCCyAFQRB0IQIgAiAEQQ10ckGAgID+B3IgBA0BGiACQYCAgPwHcgwBCyACQRB0C/0RIAb9HAAgA/0cASAH/eUBIgcgB/3mASIIIAf9DQgJCgsAAQIDAAECAwABAgMgCCAIIAf9DQQFBgcAAQIDAAECAwABAgP95AH95AH94wH9HwBDvTeGNRDdCJUiDwJ/IAAvAQoiAUH//wFxBEAgAUH/B3EhACABQYCAAnEhAyABQYD4AXEiAUGA+AFHBEAgA0EQdCEDIAFBDXRBgICA/ABxIABBDXRyQYCAgMADaiADciABDQIaIAAgAGdBEGsiAEH//wNxQQhqdEH///8DcSADQYCAgNgDciAAQRd0a3IMAgsgA0EQdCEBIAEgAEENdHJBgICA/gdyIAANARogAUGAgID8B3IMAQsgAUEQdAu+lJQCfSANIAkgB/3mASIHIAf9DQgJCgsAAQIDAAECAwABAgMgByAHIAf9DQQFBgcAAQIDAAECAwABAgP95AH95AH9HwAiCkMAAAAAXw0AGkMAAIA/IAogD5QiCiAOYA0AGiANIAwgDZMgCiALlZSSIAogC2BFDQAaIAxDAACAPyAMkyAKIAuTIA4gC5OVlJILlAuMCgIDfAN/IwBBEGsiBSQAIAC7IQECfQJAAkAgALwiBkH/////B3EiBEHbn6T6A08EQCAEQdKn7YMETwRAIARB1uOIhwRPBEACQAJAAkACQCAEQf////sHTQRAIAVCADcDCAJAIARB2p+k7gRNBEAgASABRIPIyW0wX+Q/okQAAAAAAAA4Q6BEAAAAAAAAOMOgIgJEAAAAUPsh+b+ioCACRGNiGmG0EFG+oqAhASAC/AIhBAwBCyAFIAQgBEEXdkGWAWsiBEEXdGu+uzkDACAFIAVBCGogBBB1IQQgBkEATgRAIAUrAwghAQwBC0EAIARrIQQgBSsDCJohAQsgBEEDcUEBaw4DAwQBAgsgACAAkwwJCyABIAEgAaIiAqIiAyACIAKioiACRKdGO4yHzcY+okR058ri+QAqv6CiIAEgAyACRLL7bokQEYE/okR3rMtUVVXFv6CioKC2DAgLIAEgAaIiAUSBXgz9///fv6JEAAAAAAAA8D+gIAEgAaIiAkRCOgXhU1WlP6KgIAEgAqIgAURpUO7gQpP5PqJEJx4P6IfAVr+goqC2DAcLIAEgAaIiAiABmqIiAyACIAKioiACRKdGO4yHzcY+okR058ri+QAqv6CiIAMgAkSy+26JEBGBP6JEd6zLVFVVxb+goiABoaC2DAYLIAEgAaIiAUSBXgz9///fv6JEAAAAAAAA8D+gIAEgAaIiAkRCOgXhU1WlP6KgIAEgAqIgAURpUO7gQpP5PqJEJx4P6IfAVr+goqC2jAwFCyAEQd/bv4UESw0CIAZBAE4EQCABRNIhM3982RLAoCICIAIgAqIiAaIiAyABIAGioiABRKdGO4yHzcY+okR058ri+QAqv6CiIAIgAyABRLL7bokQEYE/okR3rMtUVVXFv6CioKC2DAULRNIhM3982RLAIAGhIgIgAiACoiIBoiIDIAEgAaKiIAFEp0Y7jIfNxj6iRHTnyuL5ACq/oKIgAiADIAFEsvtuiRARgT+iRHesy1RVVcW/oKKgoLYMBAsgBEHjl9uABEsNAiAGQQBOBEBEGC1EVPsh+T8gAaEiAiACIAKiIgGiIgMgASABoqIgAUSnRjuMh83GPqJEdOfK4vkAKr+goiACIAMgAUSy+26JEBGBP6JEd6zLVFVVxb+goqCgtgwECyABRBgtRFT7Ifk/oCICIAIgAqIiAaIiAyABIAGioiABRKdGO4yHzcY+okR058ri+QAqv6CiIAIgAyABRLL7bokQEYE/okR3rMtUVVXFv6CioKC2DAMLIARBgICAzANPBEAgASABoiIBRIFeDP3//9+/okQAAAAAAADwP6AgASABoiICREI6BeFTVaU/oqAgASACoiABRGlQ7uBCk/k+okQnHg/oh8BWv6CioLYMAwsgBSAAQwAAgHuSOAIIIAUqAggaQwAAgD8MAgtEGC1EVPshGcBEGC1EVPshGUAgBkEAThsgAaAiASABoiIBRIFeDP3//9+/okQAAAAAAADwP6AgASABoiICREI6BeFTVaU/oqAgASACoiABRGlQ7uBCk/k+okQnHg/oh8BWv6CioLYMAQtEGC1EVPshCcBEGC1EVPshCUAgBkEAThsgAaAiASABoiIBRIFeDP3//9+/okQAAAAAAADwP6AgASABoiICREI6BeFTVaU/oqAgASACoiABRGlQ7uBCk/k+okQnHg/oh8BWv6CioLaMCyAFQRBqJAAL1QcCCX8CfSAAIAEgAhDpBAJAAkAgAgRAIAAoAoQBQQhqIQEgACgCiAEhDEEBIQoDQAJAAkACQCAMIAtBA2pLBEAgCkEBayIGIgUgBE8EQCAGIQoMCAsgBCAFayIFQQAgBCAFTxsiBUEBRg0HIAVBAkYNBiADKgIAELoFvCIHQf///wNxIQggB0GAgICAeHEhBSABQQRrIgkvAQAhDSADQQRqKgIAIQ4gB0GAgID8B3EiBkGAgID8B0YNASAFQRB2IQUgBkGAgIC4BEsNAiAGQYCAgMQDTwRAIAdBDHYgB0H/3wBxQQBHcSAGQQ12IAhBDXZqQYCAAWogBXJqIQUMBAsgBkGAgICYA0kNAyAIQYCAgARyIgdB/gAgBkEXdiIIa3YhBiAHQR0gCGsiCHZBAXEEfyAGQQMgCHRBAWsgB3FBAEdqBSAGCyAFciEFDAMLIAsgC0EEaiAMQezawQAQ1QcACyAFQRB2IAhBDXZyQYAEQQAgCBtyQYD4AXIhBQwBCyAFQYD4AXIhBQsgA0EIaioCACAJIAVBEHQgDXI2AgAgDhC6BbwiB0H///8DcSEIIAdBgICAgHhxIQUCQAJAIAdBgICA/AdxIgZBgICA/AdHBEAgBUEQdiEFIAZBgICAuARLDQEgBkGAgIDEA08EQCAHQQx2IAdB/98AcUEAR3EgBkENdiAIQQ12akGAgAFqIAVyaiEFDAMLIAZBgICAmANJDQIgCEGAgIAEciIHQf4AIAZBF3YiCGt2IQYgB0EdIAhrIgh2QQFxBH8gBkEDIAh0QQFrIAdxQQBHagUgBgsgBXIhBQwCCyAFQRB2IAhBDXZyQYAEQQAgCBtyQYD4AXIhBQwBCyAFQYD4AXIhBQsQugW8IghB////A3EhCSAIQYCAgIB4cSEHAkACQCAIQYCAgPwHcSIGQYCAgPwHRwRAIAdBEHYhByAGQYCAgLgESw0BIAZBgICAxANPBEAgCEEMdiAIQf/fAHFBAEdxIAZBDXYgCUENdmpBgIABaiAHcmohBwwDCyAGQYCAgJgDSQ0CIAlBgICABHIiCEH+ACAGQRd2IglrdiEGIAhBHSAJayIJdkEBcQR/IAZBAyAJdEEBayAIcUEAR2oFIAYLIAdyIQcMAgsgB0EQdiAJQQ12ckGABEEAIAkbckGA+AFyIQcMAQsgB0GA+AFyIQcLIAEgBUH//wNxIAdBEHRyNgIAIAFBEGohASALQQRqIQsgCkEDaiEKIANBDGohAyACQQFrIgINAAsLIABBAToAwAEPCyAKQQFqIQoLIAogBEH82sEAEK4HAAvAHAMFfhB/AXtByIbJACkDACIDIAGthSIEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEQtKBqpur+oLXp39+IgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIQgBELYotHvwqnlvy1+hSIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEQcCGyQApAwAiBEJ/hX4iBUI4hiAFQoD+A4NCKIaEIAVCgID8B4NCGIYgBUKAgID4D4NCCIaEhCAFQgiIQoCAgPgPgyAFQhiIQoCA/AeDhCAFQiiIQoD+A4MgBUI4iISEhCADIARCOIYgBEKA/gODQiiGhCAEQoCA/AeDQhiGIARCgICA+A+DQgiGhIQgBEIIiEKAgID4D4MgBEIYiEKAgPwHg4QgBEIoiEKA/gODIARCOIiEhIR+hSADiSEHQbiGyQAoAgBFBEACQAJAAkBBuIbJAAJ/AkACQAJAQbyGyQAoAgBBAWoiCARAQbSGyQAoAgAiCiAKQQFqIgxBA3YiDUEHbCAKQQhJGyIKQQF2IAhJBEAgCkEBaiIKIAggCCAKSRsiCEEPSQ0CIAhB/////wFNBEBBfyAIQQN0QQduQQFrZ3YiCEH+//8/Sw0IIAhBAWohCQwHCwwHC0EAIAxFDQQaQbCGyQAoAgAhCyANIAxBB3FBAEdqIghBAU0NAiALIQkgCEH+////A3EiDSEKA0AgCSAJ/QADACIY/U1BB/3NAf0MAQEBAQEBAQEBAQEBAQEBAf1OIBj9DH9/f39/f39/f39/f39/f3/9UP3OAf0LAwAgCUEQaiEJIApBAmsiCg0ACyAIIA1GDQMgCEEBcSEIIA1BA3QhCQwCCwwFC0EEIAhBCHFBCGogCEEESRshCQwDCyAJIAtqIQkDQCAJIAkpAwAiA0J/hUIHiEKBgoSIkKDAgAGDIANC//79+/fv37//AIR8NwMAIAlBCGohCSAIQQFrIggNAAsLAkAgDEEITwRAIAsgDGogCykAADcAAAwBCyAMRQ0AIAtBCGogCyAM/AoAAAtBASEKQQAhCANAIAghCyAKIQgCQCALQbCGyQAoAgAiCmotAABBgAFHDQAgCiALQX9zQQV0aiEOQQAgC2tBBXQhEwJAA0BBtIbJACgCACINQciGyQApAwAiAyAKIBNqQSBrNQIAhSIEQjiGIARCgP4Dg0IohoQgBEKAgPwHg0IYhiAEQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEQtKBqpur+oLXp39+IgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIQgBELYotHvwqnlvy1+hSIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEQcCGyQApAwAiBEJ/hX4iBUI4hiAFQoD+A4NCKIaEIAVCgID8B4NCGIYgBUKAgID4D4NCCIaEhCAFQgiIQoCAgPgPgyAFQhiIQoCA/AeDhCAFQiiIQoD+A4MgBUI4iISEhCADIARCOIYgBEKA/gODQiiGhCAEQoCA/AeDQhiGIARCgICA+A+DQgiGhIQgBEIIiEKAgID4D4MgBEIYiEKAgPwHg4QgBEIoiEKA/gODIARCOIiEhIR+hSADiaciEnEiDyEJIAogD2opAABCgIGChIiQoMCAf4MiA1AEQEEIIRADQCAJIBBqIQkgEEEIaiEQIAogCSANcSIJaikAAEKAgYKEiJCgwIB/gyIDUA0ACwsgCiADeqdBA3YgCWogDXEiCWosAABBAE4EQCAKKQMAQoCBgoSIkKDAgH+DeqdBA3YhCQsgCSAPayALIA9rcyANcUEISQ0BIAkgCmoiDy0AACAPIBJBGXYiDzoAAEGwhskAKAIAIAlBCGsgDXFqQQhqIA86AAAgCiAJQX9zQQV0aiEKQf8BRwRAIA4gCkEgELMDQbCGyQAoAgAhCgwBCwtBtIbJACgCACEJQbCGyQAoAgAgC2pB/wE6AABBsIbJACgCACAJIAtBCGtxakEIakH/AToAACAKQRBqIA5BEGr9AAAA/QsAACAKIA79AAAA/QsAAAwBCyAKIAtqIBJBGXYiCjoAAEGwhskAKAIAIA0gC0EIa3FqQQhqIAo6AAALIAggCCAMSSIJaiEKIAkNAAtBtIbJACgCACIIIAhBAWpBA3ZBB2wgCEEISRsLQbyGyQAoAgBrNgIADAILIAlBCGoiCCAJQQV0IgtqIgogCEkgCkH4////B0tyDQAgChBxIgxFBEAgChDoCQALIAsgDGohCyAIBEAgC0H/ASAI/AsACyAJQQFrIg0gCUEDdkEHbCANQQhJGyEQQbCGyQAoAgAhCkG8hskAKAIAIg8EfyALQQhqIRIgCkEgayETIAopAwBCf4VCgIGChIiQoMCAf4MhBkEAIQkgCiEIA0AgBlAEQANAIAlBCGohCSAIQQhqIggpAwBCgIGChIiQoMCAf4MiA0KAgYKEiJCgwIB/UQ0ACyADQoCBgoSIkKDAgH+FIQYLIAsgDUHIhskAKQMAIgMgEyAGeqdBA3YgCWoiFEEFdGs1AgCFIgRCOIYgBEKA/gODQiiGhCAEQoCA/AeDQhiGIARCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRC0oGqm6v6gtenf34iA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhCAEQtii0e/CqeW/LX6FIgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIRBwIbJACkDACIEQn+FfiIFQjiGIAVCgP4Dg0IohoQgBUKAgPwHg0IYhiAFQoCAgPgPg0IIhoSEIAVCCIhCgICA+A+DIAVCGIhCgID8B4OEIAVCKIhCgP4DgyAFQjiIhISEIAMgBEI4hiAEQoD+A4NCKIaEIARCgID8B4NCGIYgBEKAgID4D4NCCIaEhCAEQgiIQoCAgPgPgyAEQhiIQoCA/AeDhCAEQiiIQoD+A4MgBEI4iISEhH6FIAOJpyIVcSIMaikAAEKAgYKEiJCgwIB/gyIDUARAQQghDgNAIAwgDmohDCAOQQhqIQ4gCyAMIA1xIgxqKQAAQoCBgoSIkKDAgH+DIgNQDQALCyAGQgF9IAaDIQYgCyADeqdBA3YgDGogDXEiDGosAABBAE4EQCALKQMAQoCBgoSIkKDAgH+DeqdBA3YhDAsgCyAMaiAVQRl2Ig46AAAgEiAMQQhrIA1xaiAOOgAAIAsgDEF/c0EFdGoiDEEQaiAKIBRBf3NBBXRqIg5BEGr9AAAA/QsAACAMIA79AAAA/QsAACAPQQFrIg8NAAtBsIbJACgCACEKQbyGyQAoAgAFQQALIQlBsIbJACALNgIAQbSGyQAoAgAhCEG0hskAIA02AgBBuIbJACAQIAlrNgIAIAhFDQEgCCAIQQV0QSdqQWBxIglqQQlqIghFDQECQCAKIAlrIgpBBGsoAgAiCUF4cSILQQRBCCAJQQNxIgkbIAhqTwRAIAlBACALIAhBJ2pLGw0BIAoQnwIMAwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQZC5xABBOUGsucQAENsHAAsLQbSGyQAoAgAiCSAHp3EhCCAHQhmIIgVC/wCDQoGChIiQoMCAAX4hBkGwhskAKAIAIQoDQAJ/AkACQCAIIApqKQAAIgQgBoUiA0J/hSADQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIgNQRQRAA0AgASAKIAN6p0EDdiAIaiAJcUEFdGsiC0EgaygCAEYNAiADQgF9IAODIgNQRQ0ACwsgBEKAgYKEiJCgwIB/gyEDIBZFBEAgA1ANAiADeqdBA3YgCGogCXEhEQtBASADIARCAYaDUA0CGiAKIBFqLAAAIghBAE4EQCAKIAopAwBCgIGChIiQoMCAf4N6p0EDdiIRai0AACEICyAKIBFqIAWnQf8AcSILOgAAIAogEUEIayAJcWpBCGogCzoAAEG4hskAQbiGyQAoAgAgCEEBcWs2AgAgAEGAgICAeDYCAEG8hskAQbyGyQAoAgBBAWo2AgAgCiARQQV0ayIIQRxrIgBBGGogAkEYaigCADYCACAAIAIpAgA3AgAgCEEgayABNgIAIABBCGogAkEIav0AAgD9CwIADwsgACALQRxrIgH9AAIA/QsCACABIAIpAgA3AgAgAEEYaiABQRhqIggoAgA2AgAgAEEQaiABQRBqKQIANwIAIAFBCGogAkEIav0AAgD9CwIAIAggAkEYaigCADYCAA8LQQALIRYgF0EIaiIXIAhqIAlxIQgMAAsAC50HAR9/IwBBEGsiBiQAAkACQCADQQNsIgpB/////wNLDQAgA0EMbCIEQf3///8HTw0AAkAgBEUEQEEEIQcMAQsgCiEIIAQQcSIHRQ0CCyAGQQA2AgwgBiAHNgIIIAYgCDYCBAJAAkACQAJAAkACQAJAAkACQAJAAkAgAwRAIAIgA2siBEEAIAIgBE8bIQ0gAiAKayIEQQAgAiAETxshDiACIANBCWwiC2siBEEAIAIgBE8bIQ8gAiADQQZsIgxrIgRBACACIARPGyEQIAEgA2ohESABIApqIRIgASADQQJ0IhNqIRQgASADQQdsIhVqIRYgASADQQpsIhdqIRggASADQQF0IhlqIRogASADQQVsIhtqIRwgASADQQN0Ih1qIR4gASADQQtsIh9qISAgASAMaiEhIAEgC2ohIkEIIQhBACEEA0AgAiAERgRAIAQhBQwNCyAEIA5GDQkgBCAQRg0KIAQgD0YNCyABIARqLQAAIAQgEmotAABBCHRyIAQgIWotAABBEHRyIAQgImotAABBGHRyIQkgBigCBCAFRgRAIAZBBGoQ9gYgBigCCCEHCyAHIAhqQQhrIAk2AgAgBiAFQQFqIgU2AgwgBCANRg0FIAQgE2ogAk8NAiAEIBVqIAJPDQMgBCAXaiACTw0EIAQgEWotAAAgBCAUai0AAEEIdHIgBCAWai0AAEEQdHIgBCAYai0AAEEYdHIhCSAGKAIEIAVGBEAgBkEEahD2BiAGKAIIIQcLIAcgCGpBBGsgCTYCACAGIAVBAWoiCTYCDCAEIBlqIgUgAk8NDCAEIBtqIAJPDQYgBCAdaiACTw0HIAQgH2ogAk8NCCAEIBpqLQAAIAQgHGotAABBCHRyIAQgHmotAABBEHRyIAQgIGotAABBGHRyIQUgBigCBCAJRgRAIAZBBGoQ9gYgBigCCCEHCyAHIAhqIAU2AgAgBiAJQQFqIgU2AgwgCEEMaiEIIAMgBEEBaiIERw0ACwsgACAGKQIENwIAIABBCGogBkEMaigCADYCACAGQRBqJAAPCyADQQJ0IARqIQUMCQsgA0EHbCAEaiEFDAgLIANBCmwgBGohBQwHCyADIARqIQUMBgsgA0EFbCAEaiEFDAULIANBA3QgBGohBQwECyADQQtsIARqIQUMAwsgBCAKaiEFDAILIAQgDGohBQwBCyAEIAtqIQULIAUgAkHEwccAEK4HAAsQzwkAC0EEIAQQ4QgAC8gIAQV/IABBCGsiASAAQQRrKAIAIgNBeHEiAGohAgJAAkAgA0EBcQ0AIANBAnFFDQEgASgCACIDIABqIQAgASADayIBQdCLyQAoAgBGBEAgAigCBEEDcUEDRw0BQciLyQAgADYCACACIAIoAgRBfnE2AgQgASAAQQFyNgIEIAIgADYCAA8LIAEgAxDQBAsCQAJAAkACQAJAAkACQCACKAIEIgNBAnFFBEAgAkHUi8kAKAIARg0CIAJB0IvJACgCAEYNAyACIANBeHEiAhDQBCABIAAgAmoiAEEBcjYCBCAAIAFqIAA2AgAgAUHQi8kAKAIARw0BQciLyQAgADYCAA8LIAIgA0F+cTYCBCABIABBAXI2AgQgACABaiAANgIACyAAQYACSQ0CQR8hAiABQgA3AhAgAEH///8HTQRAIABBJiAAQQh2ZyICa3ZBAXEgAkEBdGtBPmohAgsgASACNgIcIAJBAnRBqIjJAGohA0EBIAJ0IgRBxIvJACgCAHENAyADIAE2AgAgASADNgIYIAEgATYCDCABIAE2AghBxIvJAEHEi8kAKAIAIARyNgIADAQLQdSLyQAgATYCAEHMi8kAQcyLyQAoAgAgAGoiADYCACABIABBAXI2AgRB0IvJACgCACABRgRAQciLyQBBADYCAEHQi8kAQQA2AgALIABB4IvJACgCACICTQ0FQdSLyQAoAgAiAEUNBUHMi8kAKAIAIgNBKUkNBEGoickAIQEDQCAAIAEoAgAiBU8EQCAAIAUgASgCBGpJDQYLIAEoAgghAQwACwALQdCLyQAgATYCAEHIi8kAQciLyQAoAgAgAGoiADYCACABIABBAXI2AgQgACABaiAANgIADwsCQEHAi8kAKAIAIgJBASAAQQN2dCIDcUUEQEHAi8kAIAIgA3I2AgAgAEH4AXFBuInJAGoiACECDAELIABB+AFxIgBBuInJAGohAiAAQcCJyQBqKAIAIQALIAIgATYCCCAAIAE2AgwgASACNgIMIAEgADYCCA8LAkACQCAAIAMoAgAiAygCBEF4cUYEQCADIQIMAQsgAEEZIAJBAXZrQQAgAkEfRxt0IQQDQCADIARBHXZBBHFqIgUoAhAiAkUNAiAEQQF0IQQgAiEDIAIoAgRBeHEgAEcNAAsLIAIoAggiACABNgIMIAIgATYCCCABQQA2AhggASACNgIMIAEgADYCCAwBCyAFQRBqIAE2AgAgASADNgIYIAEgATYCDCABIAE2AggLQQAhAUHoi8kAQeiLyQAoAgBBAWsiADYCACAADQFBsInJACgCACIABEADQCABQQFqIQEgACgCCCIADQALC0Hoi8kAQf8fIAEgAUH/H00bNgIADwtBsInJACgCACIBBEADQCAEQQFqIQQgASgCCCIBDQALC0Hoi8kAQf8fIAQgBEH/H00bNgIAIAIgA08NAEHgi8kAQX82AgALC7sIAwN/AXwDfSMAQRBrIgIkAAJAAkAgASgCAEGUgICAeEYEQCAAAn0CQAJAAkACQAJ9AkACQAJAAn0CQAJAIAEoAgwiBARAAn0CQAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCCCIBKAIAIgNBgICAgHhzIANBAE4bQQFrDgoKAAECAwQFBgcICQsgAS8BBLMMCgsgASgCBLMMCQsgASkDCLUMCAsgASwABLIMBwsgAS4BBLIMBgsgASgCBLIMBQsgASkDCLQMBAsgASoCBAwDCyABKwMIIgW2QwAAgD9DAACAvyAFvUIAWRuYDAILIAAgASACQQ9qQeCLwQAQjwg2AgQMEAsgAS0ABLMLIQZBASEDIARBAUYNBAJAAkACQAJAAkACQAJAAkACQEEVIAEoAhAiA0GAgICAeHMgA0EAThtBAWsOCgsAAQIDBAUGBwgKCyABLwEUswwLCyABKAIUswwKCyABKQMYtQwJCyABLAAUsgwICyABLgEUsgwHCyABKAIUsgwGCyABKQMYtAwFCyABKgIUDAQLIAErAxgiBbZDAACAP0MAAIC/IAW9QgBZG5gMAwsgAEEAIAJBD2pBkIfBABD9BjYCBAwNCyAAIAFBEGogAkEPakHgi8EAEI8INgIEDAwLIAEtABSzCyEHIARBAkYNBAJAAkACQAJAAkACQAJAAkACQEEVIAEoAiAiA0GAgICAeHMgA0EAThtBAWsOCgsAAQIDBAUGBwgKCyABLwEkswwLCyABKAIkswwKCyABKQMotQwJCyABLAAksgwICyABLgEksgwHCyABKAIksgwGCyABKQMotAwFCyABKgIkDAQLIAErAygiBbZDAACAP0MAAIC/IAW9QgBZG5gMAwsgAEEBIAJBD2pBkIfBABD9BjYCBAwKCyAAIAFBIGogAkEPakHgi8EAEI8INgIEDAgLIAEtACSzCyEIIARBA0YNAgJAAkACQAJAAkACQAJAAkACQEEVIAEoAjAiA0GAgICAeHMgA0EAThtBAWsOCgwAAQIDBAUGBwgKCyABLwE0swwMCyABKAI0swwLCyABKQM4tQwKCyABLAA0sgwJCyABLgE0sgwICyABKAI0sgwHCyABKQM4tAwGCyABKgI0DAULIAErAzgiBbZDAACAP0MAAIC/IAW9QgBZG5gMBAsgAEECIAJBD2pBkIfBABD9BjYCBAwFCyAAIAFBMGogAkEPakHgi8EAEI8INgIEDAQLIABBAyACQQ9qQZCHwQAQ/QY2AgQMAwsgAS0ANLMLOAIQIAAgCDgCDCAAIAc4AgggACAGOAIEQQAhAyAEQQRGDQIgAkEENgIIIAAgBEH8////AGpB/////wBxQQRqIAJBCGpB0LXBABD9BjYCBAwBCyAAIAEgAkEPakGQh8EAEI8INgIEC0EBIQMLIAAgAzYCACACQRBqJAALyggCCXsSfyMAQRBrIhgkAAJAAkACQAJAIAJB//8DcSICQQEgA3RqQQFrIAN2IhJB//8DTQRAIAJFDQMgAkECdCIPIAEgASAPcGsiGUsNAiADQR9xIhZBHUsNBCAPIBZBAmp2QQQgFnQiEEEBayAPcUEAR2ohGiASQQJ0IR4MAQtBgLjIAEErIBhBD2pBpNbEAEHA4MYAEIkHAAsDQAJAAkAgHiAXIBZ2bCIBIAVNBEAgBSABa0ECdiICIBogAiAaSRsiH0UNAiABIARqISBBACEUIAAhEiAPIRUMAQsgASAFIAVBlNbEABDVBwALA0AgECAPIBAgFGwiAmsiASABIBBLGyIBBEAgACACaiECICAgFEECdGoiAywAACEbIAMsAAEhHCADLAACIR0gAUGBgICAfGxBBGsiA0EgTwRAQXwgECAVIBAgFUkbQf////8DbGtBAnYgA0ECdkEBaiIDQQdxIhFBCCARGyITa0EBaiERIAIgAyATa0ECdCIDaiECIAEgA2shASAb/REhCCAc/REhCSAd/REhCiASIQMDQCADQQxqIAogA/0AAAAiCyAG/Q0BBQkNAAAAAAAAAAAAAAAA/YcB/acBIg39tQFBBf2tASALIAb9DQAECAwAAAAAAAAAAAAAAAD9iQH9qQH9rgEiBv0bAzoAACADQQhqIAb9GwI6AAAgA0EEaiAG/RsBOgAAIAMgBv0bADoAACADQRxqIAogA0EQaiIT/QAAACIMIAb9DQEFCQ0AAAAAAAAAAAAAAAD9hwH9pwEiDv21AUEF/a0BIAwgBv0NAAQIDAAAAAAAAAAAAAAAAP2JAf2pAf2uASIH/RsDOgAAIANBGGogB/0bAjoAACADQRRqIAf9GwE6AAAgEyAH/RsAOgAAIANBDmogCSAN/bUBQQX9rQEgCyAG/Q0CAAAABgAAAAoAAAAOAAAA/a4BIAZBGP2rAUEY/awBIAj9tQFBBf2tAf2uASIG/RsDOgAAIANBCmogBv0bAjoAACADQQZqIAb9GwE6AAAgA0ECaiAG/RsAOgAAIANBHmogCSAO/bUBQQX9rQEgDCAG/Q0CAAAABgAAAAoAAAAOAAAA/a4BIAdBGP2rAUEY/awBIAj9tQFBBf2tAf2uASIG/RsDOgAAIANBGmogBv0bAjoAACADQRZqIAb9GwE6AAAgA0ESaiAG/RsAOgAAIANBIGohAyARQQhrIhENAAsLA0AgAiACLQAAIAJBAWosAAAiAyAdbEEFdmoiEToAACACQQJqIhMgEy0AACADIBxsQQV2aiARwCAbbEEFdmo6AAAgAkEEaiECIAFBBGsiAQ0ACwsgECASaiESIBUgEGshFSAUQQFqIhQgH0cNAAsLIBdBAWohFyAAIA9qIQAgDyAZIA9rIhlNDQALCyAYQRBqJAAPC0HohccAQTdB9NXEABDbBwALQeiFxwBBN0GE1sQAENsHAAuwBwEJfyAAIAEgAhDNAwJAAkAgAgRAIAAoAmBBCGohDCAAKAJkIQ1BASEKA0ACQAJAAkAgDSALQQNqSwRAIApBAWsiASAETwRAIAEhCgwICyAEIAFrIgFBACABIARNGyIBQQFGDQcgAUECRg0GIAMoAgAiB0H///8DcSEFIAdBgICAgHhxIQkgA0EEaigCACEBIAdBgICA/AdxIgZBgICA/AdGDQEgCUEQdiEJIAZBgICAuARLDQIgBkGAgIDEA08EQCAHQQx2IAdB/98AcUEAR3EgBkENdiAFQQ12akGAgAFqIAlyaiEJDAQLIAZBgICAmANJDQMgBUGAgIAEciIFQf4AIAZBF3YiBmt2IQcgBUEdIAZrIgZ2QQFxBH8gB0EDIAZ0QQFrIAVxQQBHagUgBwsgCXIhCQwDCyALIAtBBGogDUHMgMEAENUHAAsgCUEQdiAFQQ12ckGABEEAIAUbckGA+AFyIQkMAQsgCUGA+AFyIQkLIANBCGooAgAhByABQf///wNxIQggAUGAgICAeHEhBgJAIAFBgICA/AdxIgVBgICA/AdHBEAgBkEQdiEGIAVBgICAuARNBEAgBUGAgIDEA08EQCABQQx2IAFB/98AcUEAR3EgBUENdiAIQQ12akGAgAFqIAZyaiEGDAMLIAVBgICAmANJDQIgCEGAgIAEciIIQf4AIAVBF3YiBWt2IQEgCEEdIAVrIgV2QQFxBH8gAUEDIAV0QQFrIAhxQQBHagUgAQsgBnIhBgwCCyAGQYD4AXIhBgwBCyAGQRB2IAhBDXZyQYAEQQAgCBtyQYD4AXIhBgsgB0H///8DcSEIIAdBgICAgHhxIQECQCAHQYCAgPwHcSIFQYCAgPwHRwRAIAFBEHYhASAFQYCAgLgETQRAIAVBgICAxANPBEAgB0EMdiAHQf/fAHFBAEdxIAVBDXYgCEENdmpBgIABaiABcmohAQwDCyAFQYCAgJgDSQ0CIAhBgICABHIiCEH+ACAFQRd2IgVrdiEHIAhBHSAFayIFdkEBcQR/IAdBAyAFdEEBayAIcUEAR2oFIAcLIAFyIQEMAgsgAUGA+AFyIQEMAQsgAUEQdiAIQQ12ckGABEEAIAgbckGA+AFyIQELIAwgATsBACAMQQRrIAlB//8DcSAGQRB0cjYCACAMQRBqIQwgC0EEaiELIApBA2ohCiADQQxqIQMgAkEBayICDQALCyAAQQE6ALgBDwsgCkEBaiEKCyAKIARB3IDBABCuBwALswcBCX8gACABIAIQ6QQCQAJAIAIEQCAAKAKEASEMIAAoAogBIQ1BASEJA0ACQAJAAkAgDSALQQNqSwRAIAlBAWsiASAETwRAIAEhCQwICyAEIAFrIgFBACABIARNGyIBQQFGDQcgAUECRg0GIAMoAgAiCEH///8DcSEHIAhBgICAgHhxIQYgA0EEaigCACEBIAhBgICA/AdxIgVBgICA/AdGDQEgBkEQdiEGIAVBgICAuARLDQIgBUGAgIDEA08EQCAIQQx2IAhB/98AcUEAR3EgBUENdiAHQQ12akGAgAFqIAZyaiEGDAQLIAVBgICAmANJDQMgB0GAgIAEciIIQf4AIAVBF3YiB2t2IQUgCEEdIAdrIgd2QQFxBH8gBUEDIAd0QQFrIAhxQQBHagUgBQsgBnIhBgwDCyALIAtBBGogDUG81sEAENUHAAsgBkEQdiAHQQ12ckGABEEAIAcbckGA+AFyIQYMAQsgBkGA+AFyIQYLIANBCGooAgAhCCABQf///wNxIQogAUGAgICAeHEhBQJAAkAgAUGAgID8B3EiB0GAgID8B0cEQCAFQRB2IQUgB0GAgIC4BEsNASAHQYCAgMQDTwRAIAFBDHYgAUH/3wBxQQBHcSAHQQ12IApBDXZqQYCAAWogBXJqIQUMAwsgB0GAgICYA0kNAiAKQYCAgARyIgpB/gAgB0EXdiIHa3YhASAKQR0gB2siB3ZBAXEEfyABQQMgB3RBAWsgCnFBAEdqBSABCyAFciEFDAILIAVBEHYgCkENdnJBgARBACAKG3JBgPgBciEFDAELIAVBgPgBciEFCyAMIAZB//8DcSAFQRB0cjYCACAIQf///wNxIQUgCEGAgICAeHEhAQJAAkAgCEGAgID8B3EiBkGAgID8B0cEQCABQRB2IQEgBkGAgIC4BEsNASAGQYCAgMQDTwRAIAhBDHYgCEH/3wBxQQBHcSAGQQ12IAVBDXZqQYCAAWogAXJqIQEMAwsgBkGAgICYA0kNAiAFQYCAgARyIghB/gAgBkEXdiIGa3YhBSAIQR0gBmsiBnZBAXEEfyAFQQMgBnRBAWsgCHFBAEdqBSAFCyABciEBDAILIAFBEHYgBUENdnJBgARBACAFG3JBgPgBciEBDAELIAFBgPgBciEBCyAMQQRqIAE7AQAgDEEQaiEMIAtBBGohCyAJQQNqIQkgA0EMaiEDIAJBAWsiAg0ACwsgAEEBOgDAAQ8LIAlBAWohCQsgCSAEQczWwQAQrgcAC7AIAQZ/IwBBQGoiAiQAIAEoAgwhBQJAAkACfwJAAkAgASgCFCIDIAEoAhAiBEkEQANAIAMgBWotAAAiB0EJayIGQRlLDQNBASAGdEGTgIAEcUUEQCAGQRlHDQQgAkE0aiABEK8DIAItADRBAUcNAyAAIAIoAjg2AgQgAEEBOgAADAcLIAEgA0EBaiIDNgIUIAMgBEcNAAsgBCEDCyACQQU2AjQgAkEQaiAFIAQgA0EBaiIBIAQgASAESRsQ+gEgAkE0aiACKAIQIAIoAhQQ2QcMAgsCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAItADVBAWsODQECAwQFBgcICQoLDA0ACyAAQQA6AAEgAEEAOgAADBALIABBAToAASAAQQA6AAAMDwsgAEECOgABIABBADoAAAwOCyAAQQM6AAEgAEEAOgAADA0LIABBBDoAASAAQQA6AAAMDAsgAEEFOgABIABBADoAAAwLCyAAQQY6AAEgAEEAOgAADAoLIABBBzoAASAAQQA6AAAMCQsgAEEIOgABIABBADoAAAwICyAAQQk6AAEgAEEAOgAADAcLIABBCjoAASAAQQA6AAAMBgsgAEELOgABIABBADoAAAwFCyAAQQw6AAEgAEEAOgAADAQLIABBDToAASAAQQA6AAAMAwsgB0H7AEYNASACQQo2AjQgAkEIaiAFIAQgA0EBaiIBIAQgASAESRsQ+gEgAkE0aiACKAIIIAIoAgwQ2QcLIQMgAEEBOgAAIAAgAzYCBAwBCyABIAEtABhBAWsiBjoAGAJAIAZB/wFxBEAgASADQQFqNgIUIAJBNGogARCvAwJAIAItADRBAUYEQCACKAI4IQMMAQsgAi0ANSEEIAEQ0AUiAw0AIAEQpgQhAwJAAkAgBEECaw4MAAAAAAAAAAAAAAAAAQsgAw0BDAMLIANFDQILIABBAToAACAAIAM2AgQgASABLQAYQQFqOgAYDAILIAJBGDYCNCACQRhqIAUgBCADQQFqIgEgBCABIARJGxD6ASACQTRqIAIoAhggAigCHBDZByEBIABBAToAACAAIAE2AgQMAQsgAEEAOgAAIAAgBDoAASABIAEtABhBAWo6ABggASgCDCEFAkAgASgCFCIDIAEoAhAiBEkEQANAIAMgBWotAAAiBkEJayIHQRdLQQEgB3RBk4CABHFFcg0CIAEgA0EBaiIDNgIUIAMgBEcNAAsgBCEDCyACQQM2AjQgAkEoaiAFIAQgAxD6ASACQTRqIAIoAiggAigCLBDZByEBIABBAToAACAAIAE2AgQMAQsgBkH9AEYEQCAAQQA6AAAgASADQQFqNgIUDAELIAJBCjYCNCACQSBqIAUgBCADEPoBIAJBNGogAigCICACKAIkENkHIQEgAEEBOgAAIAAgATYCBAsgAkFAayQAC9oHAQd/IwBB0ABrIgIkACAAAn8CQAJAAkACQAJAAkACQAJAIAEoAhQiAyABKAIQIgRJBEAgASgCDCEGA0AgAyAGai0AACIFQQlrIgdBF0tBASAHdEGTgIAEcUVyRQRAIAEgA0EBaiIDNgIUIAMgBEcNAQwDCwsgBUHuAEYNAwsgASgCDCEGIAMgBE8NAQNAIAMgBmotAAAiB0EJayIFQRlLDQRBASAFdEGTgIAEcUUEQCAFQRlHDQUgARDlBCIDDQYMCQsgASADQQFqIgM2AhQgAyAERw0ACwsgBCEDCyACQQU2AkQgAkEQaiAGIAQgA0EBaiIBIAQgASAESRsQ+gEgACACQcQAaiACKAIQIAIoAhQQ2Qc2AgQMBAsgASADQQFqIgg2AhQgAAJ/AkAgBCAITQ0AIAEgA0ECaiIFNgIUAkACQCAGIAhqLQAAQfUARw0AIAUgCCAEIAQgCEkbIghGDQIgASADQQNqIgc2AhQgBSAGai0AAEHsAEcEQCAHIQUMAQsgByAIRg0CIAEgA0EEaiIFNgIUIAYgB2otAABB7ABGDQELIAJBCTYCRCACQThqIAYgBCAFEPoBIAJBxABqIAIoAjggAigCPBDZBwwCCyAAQQA6AAFBAAwHCyACQQU2AkQgAkEwaiAGIAQgCBD6ASACQcQAaiACKAIwIAIoAjQQ2QcLNgIEDAMLIAdB+wBHBEAgAkEKNgJEIAJBCGogBiAEIANBAWoiASAEIAEgBEkbEPoBIAAgAkHEAGogAigCCCACKAIMENkHNgIEDAMLIAEgAS0AGEEBayIFOgAYIAVB/wFxBEAgASADQQFqNgIUAkAgARDlBCIDRQRAIAEQ0AUiA0UNAQsgASABLQAYQQFqOgAYIAAgAzYCBAwECyABEKYEIQMgASABLQAYQQFqOgAYIAMNASABKAIMIQUgASgCFCIDIAEoAhAiBEkEQANAIAMgBWotAAAiB0EJayIGQRdLQQEgBnRBk4CABHFFcg0EIAEgA0EBaiIDNgIUIAMgBEcNAAsgBCEDCyACQQM2AkQgAkEoaiAFIAQgAxD6ASAAIAJBxABqIAIoAiggAigCLBDZBzYCBAwDCyACQRg2AkQgAkEYaiAGIAQgA0EBaiIBIAQgASAESRsQ+gEgAkHEAGogAigCGCACKAIcENkHIQMLIAAgAzYCBAwBCyAHQf0ARgRAIAEgA0EBajYCFAwCCyACQQo2AkQgAkEgaiAFIAQgAxD6ASAAIAJBxABqIAIoAiAgAigCJBDZBzYCBAtBAQwBCyAAQQE6AAFBAAs6AAAgAkHQAGokAAuhCAIMfwJ7IwBB0ABrIgIkACABLQABIgUgAS0AACIIQQF0aiELQQIhDEECIgMEQCABQQJqIQQDQCAMQQF0IQwgBC0AACALQQF0aiELIARBAWohBCADQQFrIgMNAAsLIAFBBGohAyACQQA6ADYgAkEBOgA3An8gBS0AxPNEIAgtAMTzRE8EQEEBIQogBSEGIAghBUEADAELIAJBADoANyACQQE6ADYgCCEGQQELIQhBAiEEIAJBAjYCSCACQoCAgIDwHzcCQCACIAM2AjwgAiABNgI4AkACQAJAAkADQAJAAkAgBEUEQCACKAJEIgNFDQIgAiADQQFrNgJEIAIoAjgiBCACKAI8Rg0CIAIgBEEBajYCOCACIAIoAkAiA0EBajYCQAwBCyACQQA2AkgCQAJAAkAgBCACQThqIgMoAgwiB08EQCAHDQEMAgsgAyAHIARBf3NqNgIMIAMgAygCACIJIARqIgdBAWogAygCBCINIAQgDSAJayIJSRs2AgAgBCAJTw0BIAMgAygCCCAEaiIEQQFqNgIIDAILIAMgAygCACIJIAdBAWsiBGpBAWogAygCBCINIAQgDSAJayIJSRs2AgAgBCAJSQRAIAMgAygCCCAHajYCCAtBACEHIANBADYCDAwBC0EAIQcLIAIgBzYCBCACIAQ2AgAgAigCBCIERQ0BIAIoAgAhAwsgBC0AACIELQDE80QiByAFQf8BcSIJLQDE80RPBEACQCAEIAlGDQAgByAGQf8BcS0AxPNETw0AIANBgAJPDQQgAiADOgA3IAMhCiAEIQYLIAIoAkghBAwCCyACIAg6ADcgA0H/AUsNBSACIAM6ADYgCCEKIAMhCCAFIQYgBCEFIAIoAkghBAwBCwsgCEH/AXEiBiAKQf8BcSIFRwRAIAZBBE8NAiAFQQRPDQMgASAFav0HAAAhDiABIAZq/QcAACEPIAAgCjoAJSAAIAg6ACQgAEEEIAUgBiAFIAZLG0EQaiIFIAVBBE0bNgIgIAAgDv0LBBAgACAP/QsEACAAIAIpAyg3ASYgAEEAOwE0IABBADYCMCAAIAIpAxg3ATYgAP0MAAAAAAAAAAAAAAAAAAAAAP0LBEAgACACKQMINwJUIABB0ABqQQA2AgAgAEEuaiACQTBqLwEAOwEAIABBPmogAkEgai8BADsBACAAQdwAaiACQRBqKAIANgIAIABBBDYCeCAAIAE2AnQgAEEANgJwIABBGTYCaCAAIAw2AmQgACALNgJgIAJB0ABqJAAPC0EBIAJBNmogAkE3akHA6scAEOcHAAtBgLjIAEErIAJBzwBqQezoxwBB0OrHABCJBwALIAZBBEGA7McAEK4HAAsgBUEEQZDsxwAQrgcAC0GAuMgAQSsgAkHPAGpB7OjHAEHg6scAEIkHAAvzBwEIfyAEQXxxIgcgA2ohBQJAAkACQAJAAkACQAJAAkACQAJAIAIgA08iCEUgAiADayADIAJrIgYgAiADSxtBAUZxRQRAIAFBA2siB0EAIAEgB08bIgcgBSAFIAdLGyEHAkACQCAIRSAGQQNLcUUEQCADIAdJDQEgAyEFDA0LIAMgB0kNASADIQUMDAsgACADaiEKIAAgAmohC0EAIQYDQCADIAZqQQNqIAFPDQMgAiAGaiIFQQNqIAFPDQQgASAFTQ0FIAYgCmoiCCAGIAtqIgktAAA6AAAgBUEBaiIMIAFPDQYgCEEBaiAJQQFqLQAAOgAAIAVBAmoiBSABTw0HIAhBAmogCUECai0AADoAACAIQQNqIAlBA2otAAA6AAAgAyAGQQRqIgZqIgUgB0kNAAsgAiAGaiECDAsLIAFBBGshBiADIQUDQCACQQNqIgMgAU8NByACQXxPDQggBSAGSw0JIAAgBWogACACaigAADYAACACQQRqIQIgBUEEaiIFIAdJDQALDAoLIANBAWsiAiABSQ0IIAIgAUHAgsUAEK4HAAtB6IDFAEEvQZiBxQAQ5wgAC0GogcUAQcgAQfCBxQAQ5wgACyAFIAFBgILFABCuBwALIAwgAUGQgsUAEK4HAAsgBSABQaCCxQAQrgcAC0EAIAMgAUGwgsUAENUHAAsgAiACQQRqIAFBsILFABDVBwALQfTtxwBBK0GwgsUAENsHAAsgAyAFTSABIAVPcUUEQCADIAUgAUGAhsUAENUHAAsgBwRAIAAgA2ogACACai0AACAH/AsACyAFQQFrIQILAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIARBA3FBAWsOAwABAg4LIAEgAksNCiACIAFB0ILFABCuBwALIAVBAWoiBiABTw0BIAJBAWoiAyABTw0CIAEgAk0NAyABIAVLDQogBSABQZiExQAQrgcACyAFQQJqIgYgAU8NAyACQQJqIgMgAU8NBCABIAJNDQUgASAFTQ0GIAAgBWogACACai0AADoAACACQQFqIgIgAU8NByAFQQFqIgUgAUkNCSAFIAFB8IXFABCuBwALQfCCxQBBL0Ggg8UAEOcIAAtBsIPFAEHIAEH4g8UAEOcIAAsgAiABQYiExQAQrgcAC0GohMUAQS9B2ITFABDnCAALQeiExQBByABBsIXFABDnCAALIAIgAUHAhcUAEK4HAAsgBSABQdCFxQAQrgcACyACIAFB4IXFABCuBwALIAEgBUsEQCACIQMgBSEGDAILIAUgAUHggsUAEK4HAAsgACAFaiAAIAJqLQAAOgAACyAAIAZqIAAgA2otAAA6AAALC+wHAgZ9B38CQAJAAkAgBARAQwAAfEIgBZUhBSABQX5xIRAgA0EJbkEkbCERIAFBAWpBfnEhEgNAIA8gEUYNA0MAAHxCQwAAfMIgBSACIA9qIgxBEGoqAgCUIgcgB0MAAHzCXRsiByAHQwAAfEJeGxCdByEHQwAAfEJDAAB8wiAFIAxBFGoqAgCUIgggCEMAAHzCXRsiCCAIQwAAfEJeGxCdByEIQwAAfEJDAAB8wiAFIAxBGGoqAgCUIgkgCUMAAHzCXRsiCSAJQwAAfEJeGxCdByEJQwAAfEJDAAB8wiAFIAxBHGoqAgCUIgogCkMAAHzCXRsiCiAKQwAAfEJeGxCdByEKQwAAfEJDAAB8wiAFIAxBIGoqAgCUIgsgC0MAAHzCXRsiCyALQwAAfEJeGxCdByELIA0gEkYNBCAAQf8AQwAAfEJDAAB8wiAFIAwqAgCUIgYgBkMAAHzCXRsiBiAGQwAAfEJeGxCdByIG/ABBgH8gBkMAAADDYBsgBkMAAP5CXhtBACAGIAZbG0H/AHFB/wBDAAB8QkMAAHzCIAUgDEEEaioCAJQiBiAGQwAAfMJdGyIGIAZDAAB8Ql4bEJ0HIgb8AEGAfyAGQwAAAMNgGyAGQwAA/kJeG0EAIAYgBlsbQf8AcUEHdHJB/wBDAAB8QkMAAHzCIAUgDEEIaioCAJQiBiAGQwAAfMJdGyIGIAZDAAB8Ql4bEJ0HIgb8AEGAfyAGQwAAAMNgGyAGQwAA/kJeG0EAIAYgBlsbQf8AcUEOdHJB/wBDAAB8QkMAAHzCIAUgDEEMaioCAJQiBiAGQwAAfMJdGyIGIAZDAAB8Ql4bEJ0HIgb8AEGAfyAGQwAAAMNgGyAGQwAA/kJeG0EAIAYgBlsbQf8AcUEVdHJB/wAgB/wAQYB/IAdDAAAAw2AbIAdDAAD+Ql4bQQAgByAHWxtB/wBxIgxBHHRyNgIAIA0gEEYNAiAAQQRqQf8AIAj8AEGAfyAIQwAAAMNgGyAIQwAA/kJeG0EAIAggCFsbQf8AcUEDdCAMQQR2ckH/ACAJ/ABBgH8gCUMAAADDYBsgCUMAAP5CXhtBACAJIAlbG0H/AHFBCnRyQf8AIAr8AEGAfyAKQwAAAMNgGyAKQwAA/kJeG0EAIAogClsbQf8AcUERdHJB/wAgC/wAQYB/IAtDAAAAw2AbIAtDAAD+Ql4bQQAgCyALWxtB/wBxQRh0cjYCACAAQQhqIQAgDkEJaiEOIA9BJGohDyANQQJqIQ0gBEEBayIEDQALCw8LIA1BAWogAUH8rccAEK4HAAsgDiAOQQlqIANBjK7HABDVBwALIA0gAUHsrccAEK4HAAv0BwIIfwJ7IAFBAnQhDAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCABRQRAQQQhCwwBCyAMEHEiC0UNASABQQRPBEAgAUH8////AXEhCSABQQJ0QXBxIQoDQCAIIAtqIAAgCGr9AAIA/Qy7bpA+u26QPrtukD67bpA+/eYB/QwAAAA/AAAAPwAAAD8AAAA//eQB/QsCACAKIAhBEGoiCEcNAAsgASAJRg0BCyAJQQJ0IQggASAJayEJA0AgCCALaiAAIAhqKgIAQ7tukD6UQwAAAD+SOAIAIAhBBGohCCAJQQFrIgkNAAsLQYAIEHEiAEUNAf0MAAAAAAEAAAACAAAAAwAAACEQQQAhCANAIAAgCGoiCSAQ/fsB/QwAAH9DAAB/QwAAf0MAAH9DIhH95wH9CwIAIAlBEGogEP0MBAAAAAQAAAAEAAAABAAAAP2uAf37ASAR/ecB/QsCACAQ/QwIAAAACAAAAAgAAAAIAAAA/a4BIRAgCEEgaiIIQYAIRw0ACwJAAkAgBwRAIAdBAnQhDUECIAUgBUECTRtBA25BAnQhDkEAIQlBACEIA0AgAyAITQ0GIAEgAiAIaiIHLQAAIgpNDQcgBSAJTQ0IIAQgCyAKQQJ0aioCADgCACAIQQFqIgogA08NCSABIAdBAWotAAAiCk0NCiAJQQFqIg8gBU8NCyAEQQRqIAsgCkECdGoqAgA4AgAgCEECaiIKIANPDQwgASAHQQJqLQAAIgpNDQ0gCCAORg0OIARBCGogCyAKQQJ0aioCADgCACAIQQNqIgogA08NDyAGIAhqIAAgB0EDai0AAEECdGoqAgA4AgAgBEEMaiEEIAlBA2ohCSANIAhBBGoiCEcNAAsgAEEEaygCACIBQXhxQYQIQYgIIAFBA3EiAhtJDQ8gAkEAIAFBqAhPGw0QIAAQnwIMAQsgAEEEaygCACICQXhxQYQIQYgIIAJBA3EiAxtJDQ4gA0EAIAJBqAhPGw0PIAAQnwIgAUUNAQsgC0EEaygCACIAQXhxIgFBBEEIIABBA3EiABsgDGpJDQ0gAEEAIAEgDEEnaksbDQ4gCxCfAgsPC0EEIAwQ4QgAC0EEQYAIEOEIAAsgCCADQfjFxwAQrgcACyAKIAFBiMbHABCuBwALIAkgBUGYxscAEK4HAAsgCiADQajGxwAQrgcACyAKIAFBuMbHABCuBwALIA8gBUHIxscAEK4HAAsgCiADQdjGxwAQrgcACyAKIAFB6MbHABCuBwALIAlBAmogBUH4xscAEK4HAAsgCiADQYjHxwAQrgcAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAuVCAEGfyMAQUBqIgIkACABKAIMIQUCQAJAAn8CQAJAIAEoAhQiAyABKAIQIgRJBEADQCADIAVqLQAAIgdBCWsiBkEZSw0DQQEgBnRBk4CABHFFBEAgBkEZRw0EIAJBNGogARC5AyACLQA0QQFHDQMgACACKAI4NgIEIABBAToAAAwHCyABIANBAWoiAzYCFCADIARHDQALIAQhAwsgAkEFNgI0IAJBEGogBSAEIANBAWoiASAEIAEgBEkbEPoBIAJBNGogAigCECACKAIUENkHDAILAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAi0ANUEBaw4MAQIDBAUGBwgJCgsMAAsgAEEAOgABIABBADoAAAwPCyAAQQE6AAEgAEEAOgAADA4LIABBAjoAASAAQQA6AAAMDQsgAEEDOgABIABBADoAAAwMCyAAQQQ6AAEgAEEAOgAADAsLIABBBToAASAAQQA6AAAMCgsgAEEGOgABIABBADoAAAwJCyAAQQc6AAEgAEEAOgAADAgLIABBCDoAASAAQQA6AAAMBwsgAEEJOgABIABBADoAAAwGCyAAQQo6AAEgAEEAOgAADAULIABBCzoAASAAQQA6AAAMBAsgAEEMOgABIABBADoAAAwDCyAHQfsARg0BIAJBCjYCNCACQQhqIAUgBCADQQFqIgEgBCABIARJGxD6ASACQTRqIAIoAgggAigCDBDZBwshAyAAQQE6AAAgACADNgIEDAELIAEgAS0AGEEBayIGOgAYAkAgBkH/AXEEQCABIANBAWo2AhQgAkE0aiABELkDAkAgAi0ANEEBRgRAIAIoAjghAwwBCyACLQA1IQQgARDQBSIDDQAgARCmBCEDAkACQCAEQQFrDgwAAAAAAAAAAAAAAAABCyADDQEMAwsgA0UNAgsgAEEBOgAAIAAgAzYCBCABIAEtABhBAWo6ABgMAgsgAkEYNgI0IAJBGGogBSAEIANBAWoiASAEIAEgBEkbEPoBIAJBNGogAigCGCACKAIcENkHIQEgAEEBOgAAIAAgATYCBAwBCyAAIAQ6AAEgASABLQAYQQFqOgAYIAEoAgwhBQJAIAEoAhQiAyABKAIQIgRJBEADQCADIAVqLQAAIgZBCWsiB0EXS0EBIAd0QZOAgARxRXINAiABIANBAWoiAzYCFCADIARHDQALIAQhAwsgAkEDNgI0IAJBKGogBSAEIAMQ+gEgAkE0aiACKAIoIAIoAiwQ2QchASAAQQE6AAAgACABNgIEDAELIAZB/QBGBEAgAEEAOgAAIAEgA0EBajYCFAwBCyACQQo2AjQgAkEgaiAFIAQgAxD6ASACQTRqIAIoAiAgAigCJBDZByEBIABBAToAACAAIAE2AgQLIAJBQGskAAvCCQICfwF7IwBB0ABrIgIkACACQQ5qQQA6AAAgAkEAOwEMIAJBzgBqQQA6AAAgAkHGAGpBADoAACACQT5qQQA6AAAgAkE2akEAOgAAIAJBLmpBADoAACACQSZqQQA6AAAgAkEeakEAOgAAIAJBADsBTCACQQA7AUQgAkEAOwE8IAJBADsBNCACQQA7ASwgAkEAOwEkIAJBADsBHCACQRZqQQA6AAAgAkEAOwEUQYAhEHEiAwRAIANBhLzGAEGAIfwKAAAgAEEBNgJwIAD9DAAAAAAAAAAAAAAAAAAAAAD9CwJ0IABC/4GAgIB/NwKEASAAQQA2AqAFIABB8gE6AJMBIABBADYCmAQgAEKAgICAEDcDkAQgAEEAOgCmBSAAQQA7AaQFIABCgICAgBA3AwAgAEIANwMIIABCATcDECAAQoCAgIAQNwMYIABB6ANqIAFBEGopAwA3AwAgACAB/QADAP0LA9gDIAAgAigCCDYCjAEgAEGPAWogAigACzYAACAAQSdqQgA3AAAgAEIANwMgIABCADcDMCAAQTdqQgA3AAAgAEIANwNAIABBxwBqQgA3AAAgAEIANwNQIABB1wBqQgA3AAAgAEIANwNgIABB5wBqQgA3AAAgACAE/QsD8AMgAEGABGogBP0LAwAgAEEBNgKYASAAIAT9CwKcASAAQv+BgICAfzcCrAEgAEG3AWogAigASzYAACAAIAIoAkg2ArQBIAAgBP0LAsQBIABBATYCwAEgAEHyAToAuwEgAEL/gYCAgH83AtQBIABB8gE6AOMBIAAgBP0LAuwBIABBATYC6AEgAEL/gYCAgH83AvwBIABBATYCkAIgACAE/QsClAIgAEHyAToAiwIgAEHfAWogAigAQzYAACAAIAIoAkA2AtwBIABBhwJqIAIoADs2AAAgACACKAI4NgKEAiAAQv+BgICAfzcCpAIgAEGvAmogAigAMzYAACAAIAIoAjA2AqwCIAAgBP0LArwCIABBATYCuAIgAEHyAToAswIgAEL/gYCAgH83AswCIABB1wJqIAIoACs2AAAgACACKAIoNgLUAiAAIAT9CwLkAiAAQQE2AuACIABB8gE6ANsCIABC/4GAgIB/NwL0AiAAQf8CaiACKAAjNgAAIAAgAigCIDYC/AIgACAE/QsCjAMgAEEBNgKIAyAAQfIBOgCDAyAAQv+BgICAfzcCnAMgAEGnA2ogAigAGzYAACAAIAIoAhg2AqQDIAAgBP0LArQDIABBATYCsAMgAEHyAToAqwMgAEL/gYCAgH83AsQDIABBzwNqIAIoABM2AAAgACACKAIQNgLMAyAAQQE6AKcFIABB8gE6ANMDIABB/ARqQYzdxgAoAAA2AAAgAEGE3cYAKQAANwD0BCAAQQA6AKgFIAAgAzYC8AQgAEEAOgCABSAAQgA3AqQEIABCgICAgBA3ApwEIABBmAVqQgA3AQAgAEGSBWpCADcBACAAIAT9CwGCBSAAQQA2AuwEIABCgICAgBA3AuQEIABCATcC3AQgAEIANwLUBCAAQoCAgIAQNwLMBCAAQgE3AsQEIABCADcCvAQgAEKAgICAEDcCtAQgAEIBNwKsBCACQdAAaiQADwtBgCEQ6AkAC4ALAgt7CH8gAwRAIAUgASACayISQQAgASASTxsiFiAFIBZJGyISIANBAWsiEyASIBNJGyITQQNLBEAgAv0RIQ79DAAAAAABAAAAAgAAAAMAAAAhCyAEIRIgE0EBaiIRIBFBA3EiEUEEIBEbayIRIRMDQCAAIAsgDv2uASIM/RsAQRhsaiAS/QACACIG/Qz//38A//9/AP//fwD//38A/U4iB0EN/a0BIAb9DAAAAIAAAACAAAAAgAAAAID9TkEQ/a0BIgj9UCIJIAf9DAAAAAAAAAAAAAAAAAAAAAD9OP0MAAIAAAACAAAAAgAAAAIAAP1O/VAgBv0NAAEEBQgJDA0AAQABAAEAAf0MAHwAfAB8AHwAfAB8AHwAfCIN/VAgCCAG/Q0AAQQFCAkMDQABAAEAAQABIA39UCAJIAb9DAAAgH8AAIB/AACAfwAAgH8iDf1OIglBDf2tAf0MAEAAAABAAAAAQAAAAEAAAP2uAf1QIAb9DQABBAUICQwNAAEAAQABAAEgBv0MABAAAAAQAAAAEAAAABAAAP1OIAr9OCAG/Qz/LwAA/y8AAP8vAAD/LwAA/U4gCv04/U79DAEAAAABAAAAAQAAAAEAAAD9TiAG/Q0AAQQFCAkMDQABAAEAAQAB/Y4BIAj9DAAAgPoAAID6AACA+gAAgPoiCCAH/QwAAIAAAACAAAAAgAAAAIAA/VAiBv0bAP0MfgAAAH4AAAB+AAAAfgAAACAJQRf9rQEiD/2xASIH/RsAdv0RIAb9GwEgB/0bAXb9HAEgBv0bAiAH/RsCdv0cAiAG/RsDIAf9GwN2/RwDIAn9DAAAgMcAAIDHAACAxwAAgMf9rgEiECAI/ToiCEEB/QwdAAAAHQAAAB0AAAAdAAAAIA/9sQH9DB8AAAAfAAAAHwAAAB8AAAD9TiIH/RsAIhV0/RFBASAH/RsBIhR0/RwBQQEgB/0bAiIXdP0cAkEBIAf9GwMiGHT9HAMgBv1OIAr9OP1QQQMgFXT9EUEDIBR0/RwBQQMgF3T9HAJBAyAYdP0cA/0M//////////////////////2uASAG/U4gCv04/U79sQEgCP1S/VAgBv0NAAEEBQgJDA0AAQABAAEAASAQ/QwBAIAOAQCADgEAgA4BAIAO/TogBv0NAAEEBQgJDA0AAQABAAEAAf1SIAn9DAAAAEcAAABHAAAARwAAAEf9PCAG/Q0AAQQFCAkMDQABAAEAAQAB/VIgCSAN/TcgBv0NAAEEBQgJDA0AAQABAAEAAf1SIgb9WQEMACAAIAz9GwFBGGxqIAb9WQEMASAAIAz9GwJBGGxqIAb9WQEMAiAAIAz9GwNBGGxqIAb9WQEMAyASQRBqIRIgC/0MBAAAAAQAAAAEAAAABAAAAP2uASELIBNBBGsiEw0ACwsgBCARQQJ0aiESIAIgEWpBGGwgAGpBDGohEwNAAkACQAJAIBEgFkcEQCAFIBFHBEAgEigCACIVQf///wNxIRQgFUGAgICAeHEhBCAVQYCAgPwHcSIAQYCAgPwHRg0CIARBEHYhBCAAQYCAgLgESw0DIABBgICAxANPBEAgFUEMdiAVQf/fAHFBAEdxIABBDXYgFEENdmpBgIABaiAEcmohBAwFCyAAQYCAgJgDSQ0EIBRBgICABHIiFUH+ACAAQRd2IhRrdiEAIBVBHSAUayIUdkEBcQR/IABBAyAUdEEBayAVcUEAR2oFIAALIARyIQQMBAsgBSAFQfSkxwAQrgcACyACIBFqIAFBrJ7HABCuBwALIBRBDXYgBEEQdnJBgARBACAUG3JBgPgBciEEDAELIARBgPgBciEECyATIAQ7AQAgE0EYaiETIBJBBGohEiADIBFBAWoiEUcNAAsLC4ALAgt7CH8gAwRAIAUgASACayISQQAgASASTxsiFiAFIBZJGyISIANBAWsiEyASIBNJGyITQQNLBEAgAv0RIQ79DAAAAAABAAAAAgAAAAMAAAAhCyAEIRIgE0EBaiIRIBFBA3EiEUEEIBEbayIRIRMDQCAAIAsgDv2uASIM/RsAQSRsaiAS/QACACIG/Qz//38A//9/AP//fwD//38A/U4iB0EN/a0BIAb9DAAAAIAAAACAAAAAgAAAAID9TkEQ/a0BIgj9UCIJIAf9DAAAAAAAAAAAAAAAAAAAAAD9OP0MAAIAAAACAAAAAgAAAAIAAP1O/VAgBv0NAAEEBQgJDA0AAQABAAEAAf0MAHwAfAB8AHwAfAB8AHwAfCIN/VAgCCAG/Q0AAQQFCAkMDQABAAEAAQABIA39UCAJIAb9DAAAgH8AAIB/AACAfwAAgH8iDf1OIglBDf2tAf0MAEAAAABAAAAAQAAAAEAAAP2uAf1QIAb9DQABBAUICQwNAAEAAQABAAEgBv0MABAAAAAQAAAAEAAAABAAAP1OIAr9OCAG/Qz/LwAA/y8AAP8vAAD/LwAA/U4gCv04/U79DAEAAAABAAAAAQAAAAEAAAD9TiAG/Q0AAQQFCAkMDQABAAEAAQAB/Y4BIAj9DAAAgPoAAID6AACA+gAAgPoiCCAH/QwAAIAAAACAAAAAgAAAAIAA/VAiBv0bAP0MfgAAAH4AAAB+AAAAfgAAACAJQRf9rQEiD/2xASIH/RsAdv0RIAb9GwEgB/0bAXb9HAEgBv0bAiAH/RsCdv0cAiAG/RsDIAf9GwN2/RwDIAn9DAAAgMcAAIDHAACAxwAAgMf9rgEiECAI/ToiCEEB/QwdAAAAHQAAAB0AAAAdAAAAIA/9sQH9DB8AAAAfAAAAHwAAAB8AAAD9TiIH/RsAIhV0/RFBASAH/RsBIhR0/RwBQQEgB/0bAiIXdP0cAkEBIAf9GwMiGHT9HAMgBv1OIAr9OP1QQQMgFXT9EUEDIBR0/RwBQQMgF3T9HAJBAyAYdP0cA/0M//////////////////////2uASAG/U4gCv04/U79sQEgCP1S/VAgBv0NAAEEBQgJDA0AAQABAAEAASAQ/QwBAIAOAQCADgEAgA4BAIAO/TogBv0NAAEEBQgJDA0AAQABAAEAAf1SIAn9DAAAAEcAAABHAAAARwAAAEf9PCAG/Q0AAQQFCAkMDQABAAEAAQAB/VIgCSAN/TcgBv0NAAEEBQgJDA0AAQABAAEAAf1SIgb9WQEUACAAIAz9GwFBJGxqIAb9WQEUASAAIAz9GwJBJGxqIAb9WQEUAiAAIAz9GwNBJGxqIAb9WQEUAyASQRBqIRIgC/0MBAAAAAQAAAAEAAAABAAAAP2uASELIBNBBGsiEw0ACwsgBCARQQJ0aiESIAIgEWpBJGwgAGpBFGohEwNAAkACQAJAIBEgFkcEQCAFIBFHBEAgEigCACIVQf///wNxIRQgFUGAgICAeHEhBCAVQYCAgPwHcSIAQYCAgPwHRg0CIARBEHYhBCAAQYCAgLgESw0DIABBgICAxANPBEAgFUEMdiAVQf/fAHFBAEdxIABBDXYgFEENdmpBgIABaiAEcmohBAwFCyAAQYCAgJgDSQ0EIBRBgICABHIiFUH+ACAAQRd2IhRrdiEAIBVBHSAUayIUdkEBcQR/IABBAyAUdEEBayAVcUEAR2oFIAALIARyIQQMBAsgBSAFQcSnxwAQrgcACyACIBFqIAFB1KLHABCuBwALIBRBDXYgBEEQdnJBgARBACAUG3JBgPgBciEEDAELIARBgPgBciEECyATIAQ7AQAgE0EkaiETIBJBBGohEiADIBFBAWoiEUcNAAsLC9kIAQR/IwBBIGsiAiQAAkACQAJAAkACQAJAAkACQCAALQAAQQFrDgMBAgMACyACIAAoAgQ2AgQgASgCAEGgz8cAQQIgASgCBCgCDBEAACEAIAJBADoADSACIAA6AAwgAiABNgIIIAJBCGpBtM/HAEEEIAJBBGpBpM/HABD8BCACQSk6ABNByM/HAEEEIAJBE2pBuM/HABD8BEEUEHEiAEUNBCAAQRBqQajWxwAoAAA2AAAgAEGY1scA/QAAAP0LAAAgAkEUNgIcIAIgADYCGCACQRQ2AhRB3M/HAEEHIAJBFGpBzM/HABD8BCEBIAItAA0iAyACLQAMIgRyIQACQCAEQQFxIANBAUdyDQAgASgCACIALQAKQYABcUUEQCAAKAIAQaefxQBBAiAAKAIEKAIMEQAAIQAMAQsgACgCAEHKnsUAQQEgACgCBCgCDBEAACEACyACKAIUIgFFDQMgAigCGCIDQQRrKAIAIgRBeHEiBUEEQQggBEEDcSIEGyABakkNBSAEQQAgBSABQSdqSxsNBiADEJ8CDAMLIAAtAAEhA0EBIQAgASgCAEHjz8cAQQQgASgCBCgCDBEAAA0CAkAgAS0ACkGAAXFFBEAgASgCAEHgnsUAQQEgASgCBCgCDBEAAA0EIAEoAgAgA0ECdCIDKAKs+UggAygChPhIIAEoAgQoAgwRAABFDQEMBAsgASgCAEHLi8IAQQIgASgCBCgCDBEAAA0DIAJBAToACCACIAEpAgA3AhQgA0ECdCIDKALU+kghBCADKAL8+0ghAyACIAJBCGo2AhwgAkEUaiIFIAMgBBCyAw0DIAVByYvCAEECELIDDQMLIAEoAgBB4p7FAEEBIAEoAgQoAgwRAAAhAAwCCyAAKAIEIQAgASgCAEHnz8cAQQUgASgCBCgCDBEAACEDIAJBADoAGSACIAM6ABggAiABNgIUIAJBFGpByM/HAEEEIABBCGpBuM/HABD8BEHcz8cAQQcgAEHsz8cAEPwEIAItABkiAyACLQAYIgRyIQAgBEEBcSADQQFHcg0BKAIAIgAtAApBgAFxRQRAIAAoAgBBp5/FAEECIAAoAgQoAgwRAAAhAAwCCyAAKAIAQcqexQBBASAAKAIEKAIMEQAAIQAMAQsgAiAAKAIEIgA2AgggASgCAEGM0McAQQYgASgCBCgCDBEAACEDIAJBADoAGSACIAM6ABggAiABNgIUIAJBFGpByM/HAEEEIABBCGpBuM/HABD8BEGy6scAQQUgAkEIakH8z8cAEPwEIAItABkiAyACLQAYIgRyIQAgBEEBcSADQQFHcg0AKAIAIgAtAApBgAFxRQRAIAAoAgBBp5/FAEECIAAoAgQoAgwRAAAhAAwBCyAAKAIAQcqexQBBASAAKAIEKAIMEQAAIQALIAJBIGokACAAQQFxDwtBAUEUEOEIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL3QcCDH8BeyMAQYAIayIGJAACQAJAAkACQAJAAkAgASgC2AFBgYCAgHhHBEAgASgC3AEhAiABKALgASEHIAEoAtABIQsgASgC1AEhDCABKALMASENQQAhAQNAIAEgBmr9DAAAAP8AAAD/AAAA/wAAAP/9CwAAIAFBEGoiAUGACEcNAAsgB0EDbiEKIAdBBE8EQCAHQQRrIgFBC00EQEGAAiEEIAYhASAHIQMMAwtBgAJBgAIgAUEDbiIBIAFBgAJPG0EBaiIBIAFBA3EiAUEEIAEbayIFayEEIAcgBUF9bGohAyACIAVBA2xqIAYgBUECdGohASAGIQgDQCAIIAJBCWogAkEGaiACQQNqIAL9XAAA/VYAAAH9VgAAAv1WAAAD/QsAACACQQxqIQIgCEEQaiEIIAVBBGsiBQ0ACyECDAILIAYhASAHIQMgBw0CDAMLQaiRxQBBFEG8kcUAENwHAAsDQCAERQRAQQBBAEH8kcUAEK4HAAsgASACKAAANgAAIAFBBGohASAEQQFrIQQgAkEDaiECIANBA2siA0EDSw0ACyAERQ0CCyADQQNHDQIgASACLwAAOwAAIAFBAmogAkECai0AADoAAAsCQEEAQQAgDCANQYGAgIB4RiIBGyIDIAMgCksiAxsiCEUNAEEBQQEgCyADGyABGyEDQYACIAggCEGAAk8bIQlBACEFIAhBEE8EQCAJQfADcSEFIAlBAnRBQHEhC0EAIQEgAyEEA0AgASAGaiICQT9qIAT9AAAAIg79WAAADyACQTtqIA79WAAADiACQTdqIA79WAAADSACQTNqIA79WAAADCACQS9qIA79WAAACyACQStqIA79WAAACiACQSdqIA79WAAACSACQSNqIA79WAAACCACQR9qIA79WAAAByACQRtqIA79WAAABiACQRdqIA79WAAABSACQRNqIA79WAAABCACQQ9qIA79WAAAAyACQQtqIA79WAAAAiACQQdqIA79WAAAASACQQNqIA79WAAAACAEQRBqIQQgCyABQUBrIgFHDQALIAUgCUYNAQsgCSAFayEEIAMgBWohAiAFQQJ0IAZqQQNqIQEDQCABIAItAAA6AAAgAkEBaiECIAFBBGohASAEQQFrIgQNAAsLIAdBgwZPDQIgCCAKRwRAIApBAnQgCEECdCIHayEBIAYgB2pBA2ohAgNAIAJB/wE6AAAgAkEEaiECIAFBBGsiAQ0ACwsgACAGQYAI/AoAACAGQYAIaiQADwtBAEEAQcyRxQAQrgcAC0EAQQMgA0HckcUAENUHAAsgCCAKQYACQeyRxQAQ1QcAC6IIAwZ/BHsCfSAFQQNuIQggASoCACERIAAqAgAhEAJAAkACQAJAAkACQAJAAkBBgAgQcSIJBEAgESAQk/0TIQ4gEP0TIQ/9DAAAAAABAAAAAgAAAAMAAAAhDANAIAYgCWogDyAOIAz9+wH9DAAAf0MAAH9DAAB/QwAAf0P95wH95gH95AEiDf0fABDuA/0TIA39HwEQ7gP9IAEgDf0fAhDuA/0gAiAN/R8DEO4D/SAD/QsCACAM/QwEAAAABAAAAAQAAAAEAAAA/a4BIQwgBkEQaiIGQYAIRw0ACyABKgIEIAAqAgQhEEGACBBxIgpFDQYgEJP9EyEOIBD9EyEP/QwAAAAAAQAAAAIAAAADAAAAIQxBACEGA0AgBiAKaiAPIA4gDP37Af0MAAB/QwAAf0MAAH9DAAB/Q/3nAf3mAf3kASIN/R8AEO4D/RMgDf0fARDuA/0gASAN/R8CEO4D/SACIA39HwMQ7gP9IAP9CwIAIAz9DAQAAAAEAAAABAAAAAQAAAD9rgEhDCAGQRBqIgZBgAhHDQALIAEqAgggACoCCCEQQYAIEHEiAEUNBiAQk/0TIQ4gEP0TIQ/9DAAAAAABAAAAAgAAAAMAAAAhDEEAIQYDQCAAIAZqIA8gDiAM/fsB/QwAAH9DAAB/QwAAf0MAAH9D/ecB/eYB/eQBIg39HwAQ7gP9EyAN/R8BEO4D/SABIA39HwIQ7gP9IAIgDf0fAxDuA/0gA/0LAgAgDP0MBAAAAAQAAAAEAAAABAAAAP2uASEMIAZBEGoiBkGACEcNAAsCQCAFQQNPBEAgCEECdCEIQQAhAUEAIQYDQCADIAZNDQQgASAFTw0FIAQgCSACIAZqIgstAABBAnRqKgIAOAIAIAZBAWoiByADTw0GIAFBAWoiByAFTw0HIARBBGogCiALQQFqLQAAQQJ0aioCADgCACAGQQJqIgcgA08NCCAGIAhGDQIgBEEIaiAAIAtBAmotAABBAnRqKgIAOAIAIARBDGohBCABQQNqIQEgCCAGQQRqIgZHDQALCyAAQQRrKAIAIgFBeHFBhAhBiAggAUEDcSICG0kNCCACQQAgAUGoCE8bDQkgABCfAiAKQQRrKAIAIgBBeHFBhAhBiAggAEEDcSIBG0kNCCABQQAgAEGoCE8bDQkgChCfAiAJQQRrKAIAIgBBeHFBhAhBiAggAEEDcSIBG0kNCCABQQAgAEGoCE8bDQkgCRCfAg8LIAFBAmogBUGYyscAEK4HAAsMBQsgBiADQcjJxwAQrgcACyABIAVB2MnHABCuBwALIAcgA0HoyccAEK4HAAsgByAFQfjJxwAQrgcACyAHIANBiMrHABCuBwALQQRBgAgQ4QgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvBBwMGfwd9AXsjAEGAAWsiAiQAIAIgACgCACIG/QACACIPIA/9DQABAgMEBQYHCAkKCwgJCgv9CwQAIAICfyAP/RkGIgNB//8BcQRAIANB/wdxIQQgA0GAgAJxIQUgA0GA+AFxIgNBgPgBRwRAIAVBEHQiBSADQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2pyIAMNAhogBCAEZ0EQayIEQf//A3FBCGp0Qf///wNxIAVBgICA2ANyIARBF3RrcgwCCyAFQRB0IgMgBEENdHJBgICA/gdyIAQNARogA0GAgID8B3IMAQsgA0EQdAs2AhwgAkMAAAAAIAAoAgQiACoCACAALQAcQQJGIgQbIgggBkEQai0AACIDs0MAAH9DlUMAAIA/IAAqAgQgBBsgCJMiCZSS/RMgCCAGQQ5qLwEAIgUgA0EQdHJB/wFxs0MAAH9DlSAJlJL9IAAgCCAFQQh2s0MAAH9DlSAJlJL9IAH9CwQgIAZBEWovAAAgBkETai0AACIDQRB0ciIFQQh2IQdDAAAQQSAAKgIMIAQbIQlDAABAwSAAKgIIIAQbIQggBUH/AXEEQCAIIAkgCJNDAAB+Q5UgBUEBa0H/AXGzlJIQ7gMhCwsgB0H/AXEEQCAIIAkgCJNDAAB+Q5UgB0EBa0H/AXGzlJIQ7gMhCgsgAiADBH0gCCAJIAiTQwAAfkOVIANBAWtB/wFxs5SSEO4DBUMAAAAAC/0TIAv9IAAgCv0gAf0LBDBDAACAPyAGQRRqLwEAIgBBCHaz/RMgACAGQRZqLQAAIgZBEHRyQf8BcbP9IAH9DAAAf0MAAH9DAAB/QwAAf0P95wEiDyAP/eQB/QwAAIC/AACAvwAAgL8AAIC//eQBIg/9HwEiCouTIA/9HwAiDIuTIgiMQwAAAAAQ3QghCSACIAazQwAAf0OVQwAAAD+UQ9sPSUCUIg0QmAIiCyAKIAkgCYwiDiAP/QwAAAAAAAAAAAAAAAAAAAAA/Ub9TSIP/ccB/RsCQQFxG5IiCiAIIAiUIAogCpQgDCAJIA4gD/0bAEEBcRuSIgkgCZSSkpEiCpWU/RMgCyAJIAqVlP0gASALIAggCpWU/SACIA0QmwL9IAP9CwRAIAIgAkFAa61CgICAgJAChDcDeCACIAJBMGqtQoCAgICgAoQ3A3AgAiACQSBqrUKAgICAoAKENwNoIAIgAkEcaq1CgICAgLAChDcDYCACIAKtQoCAgICgAoQ3A1ggASgCACABKAIEQcP1wAAgAkHYAGoQxAMgAkGAAWokAAvdBgIOfwJ+IwBBQGoiAiQAIAAoAgghAyAAKAIEIQUCQAJ/QQEgASgCACIIQSIgASgCBCIKKAIQIgsRAgANABogAiADNgIEIAIgBTYCACACQT9qrUKAgICA0AaEIRADQAJAIAJBCGogAhDiAyAIAn8CQCACKAIIIgUEQCACKAIUIQwgAigCECENQQAgAigCDCIDRQ0CGiADIAVqIQ9BACEAIAUhAUEAIQcDQAJ/IAEsAAAiBEEATgRAIARB/wFxIQQgAUEBagwBCyABLQABQT9xIQYgBEEfcSEJIARBX00EQCAJQQZ0IAZyIQQgAUECagwBCyABLQACQT9xIAZBBnRyIQYgBEFwSQRAIAYgCUEMdHIhBCABQQNqDAELIAlBEnRBgIDwAHEgAS0AA0E/cSAGQQZ0cnIhBCABQQRqCyEJIAJBGGogBEGBgAQQgQMgAi0AJSACLQAka0H/AXFBAUcEQAJAAkAgACAHSw0AAkAgAEUNACAAIANPBEAgACADRg0BDAILIAAgBWosAABBQEgNAQsgB0UNASADIAdNBEAgAyAHRw0BDAILIAUgB2osAABBv39KDQELIAUgAyAAIAdB8I/DABCuCQALIAggACAFaiAHIABrIAooAgwRAAANBSACQTBqIAJBIGopAgA3AwAgAiACKQIYIhE3AyggAi0ANCEAAkAgAi0ANSIGQYEBTwRAIBGnIQ4DQCAAQf8BcSAGTw0CIABBAWohACAIIA4gCxECAEUNAAsMBwsgACAGIAAgBksbIQYDQCAAIAZGDQEgAkEoaiAAaiEOIABBAWohACAIIA4tAAAgCxECAEUNAAsMBgsCf0EBIARBgAFJDQAaQQIgBEGAEEkNABpBA0EEIARBgIAESRsLIAdqIQALIAcgAWsgCWohByAJIgEgD0cNAAsMAQsgCEEiIAsRAgAMBAtBACAARQ0AGiAAIANPBEAgAyAAIANGDQEaDAULIAAgBWosAABBQEgNBCAACyIBIAVqIAMgAWsgCigCDBEAAA0AIAxFDQEDQCACIA0tAAA6AD8gAiAQNwMoIAggCkHkj8MAIAJBKGoQxAMNASANQQFqIQ0gDEEBayIMDQALDAELC0EBCyACQUBrJAAPCyAFIAMgACADQdSPwwAQrgkAC5AHAQl/IwBBMGsiASQAQYGAxAAhAgJAAkAgACgCBCIEIAAoAhAiA0kNACAAIAQgA2siBDYCBCAAIAAoAgAiAiADaiIINgIAAkACQCADQQJGBEAgAi0AACIDQcEAa0FfcUEKaiADQTBrIANBOUsbIgVBD0sNBCACLQABIgNBwQBrQV9xQQpqIANBMGsgA0E5SxsiA0EQTw0EIAVBBHQgA3IiBcBBAE4NAUGAgMQAIQIgBUH/AXEiA0HAAUkNAwJ/QQIgA0HgAUkNABpBAyADQfABSQ0AGiADQfgBTw0EQQQLIQNBACECIAFBADoACyABQQA7AAkgASAFOgAIIAEgAzYCBCADQQF0QQJrIQkgASABQQhqNgIAIAFBCWohBQNAIARBAkkEQEGAgMQAIQIMBQsgACAEQQJrIgQ2AgQgACACIAhqIgZBAmo2AgAgBi0AACIHQcEAa0FfcUEKaiAHQTBrIAdBOUsbIgdBD0sNBSAGQQFqLQAAIgZBwQBrQV9xQQpqIAZBMGsgBkE5SxsiBkEQTw0FIAUgB0EEdCAGcjoAACAFQQFqIQUgCSACQQJqIgJHDQALDAILQZDexgBBKEHgnMUAEOcIAAtBASEDIAFBATYCBCABQQA6AAsgAUEAOwAJIAEgBToACCABIAFBCGo2AgALIAFBGGogAUEIaiADEPoCQYCAxAAhAiABKAIYDQAgASgCHCEAIAEgASgCICICNgIQIAEgADYCDCAAIAJqIQMCQCACRQ0AIAMCfyAALAAAIgJBAE4EQCACQf8BcSECIABBAWoMAQsgAC0AAUE/cSEFIAJBH3EhBCACQV9NBEAgBEEGdCAFciECIABBAmoMAQsgAC0AAkE/cSAFQQZ0ciEFIAJBcEkEQCAFIARBDHRyIQIgAEEDagwBCyAEQRJ0QYCA8ABxIAAtAANBP3EgBUEGdHJyIQIgAEEEagsiBEcEQCAELAAAGgwBCyACQYCAxABHDQELIAECf0EAIQIgAyAAayIEQRBPBEAgACAEEMQCDAELIAAgA0cEQANAIAIgACwAAEG/f0pqIQIgAEEBaiEAIARBAWsiBA0ACwsgAgs2AhQgASABQRRqrUKAgICAEIQ3AyggASABQQxqrUKAgICA8AyENwMgIAEgAa1CgICAgIANhDcDGEHz6MAAIAFBGGpBgJ3FABDbBwALIAFBMGokACACDwtB8JzFABDQCQAL6gcBDX8jAEFAaiIFJABBABCpCSEGIAVBEGpBADoAACAFQTxqIARBGGooAgA2AgAgBUE0aiAEQRBqKQIANwIAIAVBGmogBEEfai0AADoAACAFQgA3AwggBSAE/QACAP0LAiQgBSAELwAdOwEYIAQtABwhDyABELsKIRAgBkGECE8EQCAGEIUHCwJAIANFBEAMAQtBgIzBAEEDEOwIIQQgAygCACIKIAQQ3wghCEGsjMkALQAAIQNBrIzJAEEAOgAAQbCMyQAoAgBBsIzJAEEANgIAIAggAxshCwJAAkACQCADRQRAIAsQvApFBEBBASEJDAQLIAtBgwhLDQEMAgsgC0GECEkNAgsgCxCFBwsLIARBhAhPBEAgBBCFBwsgCkGDjMEAQQMQ7AgiAxDfCCEIQayMyQAtAAAhBEGsjMkAQQA6AABBsIzJACgCAEGwjMkAQQA2AgAgCCAEGyEGAn8CQAJAIARFBEAgBhC8CkUEQEEBIQ1BAgwECyAGQYMISw0BDAILIAkgBkGECEkNAhoLIAYQhQcLIAkLIQggA0GECE8EQCADEIUHCyAKQZSQwQBBAxDsCCIEEN8IIQNBrIzJAC0AACEHQayMyQBBADoAAEGwjMkAKAIAQbCMyQBBADYCACADIAcbIQMCQAJAAkAgB0UEQCADELwKRQRAQQEhDEEDIQgMBAsgA0GDCEsNAQwCCyADQYQISQ0CCyADEIUHCwsgBEGECE8EQCAEEIUHC0EAIQcgCkGOjMEAQQcQ7AgiChDfCCEEQayMyQAtAAAhDkGsjMkAQQA6AABBsIzJACgCAEGwjMkAQQA2AgAgBCAOGyEEAkACQAJAIA5FBEAgBBC8CkUEQEEBIQ9BASEHDAQLIARBgwhLDQEMAgsgBEGECEkNAgsgBBCFBwsLIApBhAhJDQAgChCFBwsgAEGAgICAeDYCdCAAQYCAgIB4NgJoIABCBDcCYCAAQgA3AlggAEKAgICAwAA3AlAgAEIENwJIIABCADcCQCAAQoCAgIDAADcCOCAAIAQ2AjQgACAHNgIwIABBADYCKCAAQQA2AiAgAEEANgIYIAAgAzYCFCAAIAw2AhAgACAGNgIMIAAgDTYCCCAAIAs2AgQgACAJNgIAIAAgDzoAnAEgACABNgKsASAAIAg2AqgBIAAgAjYCpAEgACAQQQJ2NgKgASAAQZgBaiAFQTxqKAIANgIAIABBiAFqIAVBLGr9AAIA/QsCACAAIAX9AAIc/QsCeCAAIAUvARg7AJ0BIABBnwFqIAVBGmotAAA6AAAgACAFKQMINwKwASAAQbgBaiAFQRBqLQAAOgAAIAVBQGskAAvZBgINfwJ9IABBnIfJACgCACIHBH8jAEEQayEIQZyHyQAgB0EBayIGNgIAQZiHyQAoAgAiBSAGQQxsaiIEKAIIIQEgBCgCBCEDIAQoAgAhBAJAIAZFBEAgASEKIAMhCyAEIQwMAQsgBSgAACEMIAUgBDYAACAFKAAEIQsgBSADNgAEIAVBCGoiAygAACEKIAMgATYAACAIQQhqIAMoAgA2AgAgCCAFKQIANwMAQQEhASAHQQRPBEAgBkECayIBQQAgASAGTRshBkEBIQEDQAJ/IAUgAUEMbGoiA0EMaiIEKgIAIg4gDlsgDiADKgIAIg9gRXEiCSAJQX8gDiAPXxsgDyAPXBsiCQRAIAlBAEwMAQsgAygCBCIJIAQoAgQiDUcEQCAJIA1NDAELIAMoAgggBCgCCE0LIQMgBSACQQxsaiIEIAUgASADaiICQQxsaiIBKQIANwIAIARBCGogAUEIaigCADYCACACQQF0IgNBAXIhASADIAZJDQALCwJAIAdBAmsgAUcEQCACIQEMAQsgBSACQQxsaiICIAUgAUEMbGoiAykCADcCACACQQhqIANBCGooAgA2AgALIAUgAUEMbGoiAiAIKQMANwIAIAJBCGogCEEIaigCACIINgIAIAIoAgQhAyACKgIAIQ4CQCABRQRAQQAhAQwBCyAOIA5bBEADQAJAIAUgASICQQFrIgZBAXYiAUEMbGoiBCoCACIPIA9bIA4gD19FcUF/IA4gD2AbIgcEQCAHQQBKDQEgAiEBDAQLIAQoAgQiByADRwRAIAMgB0sNASACIQEMBAsgCCAEKAIISw0AIAIhAQwDCyAFIAJBDGxqIgIgBCkCADcCACACQQhqIARBCGooAgA2AgAgBkEBSw0ADAILAAsDQAJAIAUgASICQQFrIgZBAXYiAUEMbGoiBCoCACIPIA9bIA4gD19FcQ0AIAQoAgQiByADRwRAIAMgB0sNASACIQEMAwsgCCAEKAIISw0AIAIhAQwCCyAFIAJBDGxqIgIgBCkCADcCACACQQhqIARBCGooAgA2AgAgBkECTw0ACwsgBSABQQxsaiIBIAg2AgggASADNgIEIAEgDjgCAAsgACAKNgIMIAAgCzYCCCAAIAw2AgRBAQUgAQs2AgAL2QcCB38CfiMAQUBqIgIkAAJAAn8CQAJAAkACfwJAAkACQAJAIAEoAhQiAyABKAIQIgRJBEAgASgCDCEFA0AgAyAFai0AACIGQQlrIghBF0tBASAIdEGTgIAEcUVyRQRAIAEgA0EBaiIDNgIUIAMgBEcNAQwDCwsgBkHuAEYNBwsgASgCDCEFIAMgBE8NAQNAAkAgAyAFai0AACIGQQlrDiUAAAUFAAUFBQUFBQUFBQUFBQUFBQUFBQAFBQUFBQUFBQUFBQUEBQsgASADQQFqIgM2AhQgAyAERw0ACwsgBCEDCyACQQU2AiggAiAFIAQgA0EBaiIBIAQgASAESRsQ+gEgAkEoaiACKAIAIAIoAgQQ2QcMBgsgASADQQFqNgIUIAJBGGogAUEAEN0DIAIpAxgiCkIDUQ0EIAIpAyAhCQJAAkACQCAKp0EBaw4CAQIACyACQQM6ACggAiAJNwMwIAJBKGogAkE/akGwi8EAEPoGDAMLIAlCgICAgBBUDQMgAkEBOgAoIAIgCTcDMCACQShqIAJBP2pBsIvBABD7BgwCCyAJQoCAgIAQVA0CIAJBAjoAKCACIAk3AzAgAkEoaiACQT9qQbCLwQAQ+wYMAQsgBkEwa0H/AXFBCk8EQCABIAJBP2pBsIvBABD/ASABEJcGDAULIAJBGGogAUEBEN0DIAIpAxgiCkIDUQRAIAIoAiAMBQsgAikDICEJAkACQAJAIAqnQQFrDgIBAgALIAJBAzoAKCACIAk3AzAgAkEoaiACQT9qQbCLwQAQ+gYMAgsgCUKAgICAEFQNAiACQQE6ACggAiAJNwMwIAJBKGogAkE/akGwi8EAEPsGDAELIAlCgICAgBBUDQEgAkECOgAoIAIgCTcDMCACQShqIAJBP2pBsIvBABD7BgsgARCXBgwDCyAAIAk+AgQgAEEBNgIADAMLIAEgA0EBaiIHNgIUAn8CQCAEIAdNDQAgASADQQJqIgY2AhQCQAJAIAUgB2otAABB9QBHDQAgBiAHIAQgBCAHSRsiB0YNAiABIANBA2oiCDYCFCAFIAZqLQAAQewARwRAIAghBgwBCyAHIAhGDQIgASADQQRqIgY2AhQgBSAIai0AAEHsAEYNAQsgAkEJNgIoIAJBEGogBSAEIAYQ+gEgAkEoaiACKAIQIAIoAhQQ2QcMAgsgAEEANgIADAQLIAJBBTYCKCACQQhqIAUgBCAHEPoBIAJBKGogAigCCCACKAIMENkHCyEDIABBAjYCACAAIAM2AgQMAgsgAigCIAshAyAAQQI2AgAgACADNgIECyACQUBrJAALhAcCBX8EfSMAQSBrIgQkAAJAIAIgAkEEQQMgA0EBcRsiBW4iBiAFbEYEQCAEQQA2AhwgBEKAgICAEDcCFCACIAVJBEBBASEGQQAhBQwCCyAEQQhqIARBFGogBkECdBDsBgJAIAQoAggiBkGBgICAeEcEQCAEKAIMIQUgBCgCFCIARQ0BIAQoAhggAEEBEIgHDAELIAQoAhwhBSAEKAIYIQYgBCgCFCIHQYCAgIB4Rw0CCyAEIAU2AhggBCAGNgIUQcDCxABBNiAEQRRqQbDCxABB+MLEABCJBwALQdjBxABBxQBBoMLEABDnCAALIAQgBTYCHCAEIAY2AhggBCAHNgIUAkACQCADQQFxRQRAIAUgAkEDbiIIQQJ0IgJJBEAgAiAFayIDIAcgBWtLBEAgBEEUaiAFIAMQpgYgBCgCGCEGIAQoAhwhBQsgBSAGaiECIANBAk8EfyADQQFrIgMEQCACQQAgA/wLAAsgBiADIAVqIgVqBSACC0EAOgAAIAVBAWohAgsgBCACNgIcIAJBAnYiAiAIIAIgCEkbIgJFDQEgAkECdCEFQQAhAgNAIAFBCGoqAgAhCyABQQRqKgIAIQpDAAB/QyEJIAEqAgAiDEMAAIA/XQR9IAxDAAAAABDdCEMAAH9DlAUgCQsQnQciDEMAAIC/XkUgDEMAAIBDXUVyDQMgCkMAAIA/XQR9IApDAAAAABDdCEMAAH9DlAUgCQsQnQciCkMAAIC/XkUgCkMAAIBDXUVyDQMgC0MAAIA/XQR9IAtDAAAAABDdCEMAAH9DlAUgCQsQnQciCUMAAIC/XkUgCUMAAIBDXUVyDQMgAiAGaiIDIAz8AToAACADQQNqQf8BOgAAIANBAmogCfwBOgAAIANBAWogCvwBOgAAIAFBDGohASAFIAJBBGoiAkcNAAsMAQsCQAJAIAcgBWsgAkkEQCAEQRRqIAUgAhCmBiAEKAIYIQYgBCgCHCEFDAELIAJFDQELA0BDAAB/QyEJIAEqAgAiC0MAAIA/XQR9IAtDAAAAABDdCEMAAH9DlAUgCQsQnQciCUMAAIC/XkUgCUMAAIBDXUVyDQMgBSAGaiAJ/AE6AAAgAUEEaiEBIAVBAWohBSACQQFrIgINAAsLIAQgBTYCHAsgACAEKQIUNwIAIABBCGogBEEcaigCADYCACAEQSBqJAAPC0GIw8QAENAJAAuCBwEDfiABKAIAIAJBBnRrIgFBQGopAwAgACgCACgCACIAKQMIhSIDQtii0e/CqeW/LX4gAUE4aykDAIUgA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhELSgaqbq/qC16d/fiIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEhSIDQtii0e/CqeW/LX4gAUEwaykDAIUgA0I4hiADQoD+A4NCKIaEIANCgID8B4NCGIYgA0KAgID4D4NCCIaEhCADQgiIQoCAgPgPgyADQhiIQoCA/AeDhCADQiiIQoD+A4MgA0I4iISEhELSgaqbq/qC16d/fiIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEhSIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEQtKBqpur+oLXp39+IgRCOIYgBEKA/gODQiiGhCAEQoCA/AeDQhiGIARCgICA+A+DQgiGhIQgBEIIiEKAgID4D4MgBEIYiEKAgPwHg4QgBEIoiEKA/gODIARCOIiEhIQgA0LYotHvwqnlvy1+hSIDQjiGIANCgP4Dg0IohoQgA0KAgPwHg0IYhiADQoCAgPgPg0IIhoSEIANCCIhCgICA+A+DIANCGIhCgID8B4OEIANCKIhCgP4DgyADQjiIhISEIAApAwAiBEJ/hX4iBUI4hiAFQoD+A4NCKIaEIAVCgID8B4NCGIYgBUKAgID4D4NCCIaEhCAFQgiIQoCAgPgPgyAFQhiIQoCA/AeDhCAFQiiIQoD+A4MgBUI4iISEhCADIARCOIYgBEKA/gODQiiGhCAEQoCA/AeDQhiGIARCgICA+A+DQgiGhIQgBEIIiEKAgID4D4MgBEIYiEKAgPwHg4QgBEIoiEKA/gODIARCOIiEhIR+hSADiQvvBgEFfwJAAkACQAJAAkACQAJAIABBBGsiBygCACIIQXhxIgRBBEEIIAhBA3EiBRsgAWpPBEAgBUEAIAFBJ2oiBiAESRsNAQJAIAJBCU8EQCACIAMQuwQiAg0BQQAPC0EAIQIgA0HM/3tLDQhBECADQQtqQXhxIANBC0kbIQEgAEEIayEGAkACQAJAAkAgBQRAIAQgBmohBSABIARNDQMgBUHUi8kAKAIARg0EIAVB0IvJACgCAEYNAiAFKAIEIghBAnENCyAIQXhxIgggBGoiBCABSQ0LIAUgCBDQBCAEIAFrIgVBEEkNASAHIAEgBygCAEEBcXJBAnI2AgAgASAGaiIBIAVBA3I2AgQgBCAGaiIEIAQoAgRBAXI2AgQgASAFEN4CDAoLIAZFIAFBgAJJciAEIAFrQYCACEsgASAET3JyDQogAA8LIAcgBCAHKAIAQQFxckECcjYCACAEIAZqIgEgASgCBEEBcjYCBAwIC0HIi8kAKAIAIARqIgQgAUkNCAJAIAQgAWsiBUEPTQRAIAcgCEEBcSAEckECcjYCACAEIAZqIgEgASgCBEEBcjYCBEEAIQVBACEBDAELIAcgASAIQQFxckECcjYCACABIAZqIgEgBUEBcjYCBCAEIAZqIgQgBTYCACAEIAQoAgRBfnE2AgQLQdCLyQAgATYCAEHIi8kAIAU2AgAMBwsgBCABayIEQQ9NDQYgByABIAhBAXFyQQJyNgIAIAEgBmoiASAEQQNyNgIEIAUgBSgCBEEBcjYCBCABIAQQ3gIMBgtBzIvJACgCACAEaiIEIAFLDQQMBgsgAyABIAEgA0sbIgMEQCACIAAgA/wKAAALIAcoAgAiA0F4cSIHIAFBBEEIIANBA3EiARtqSQ0CIAFFIAYgB09yDQZBgODHAEEuQbDgxwAQ5wgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgACyAHIAEgCEEBcXJBAnI2AgAgASAGaiIFIAQgAWsiAUEBcjYCBEHMi8kAIAE2AgBB1IvJACAFNgIACyAGRQ0AIAAPCyADEHEiAUUNASADQXxBeCAHKAIAIgJBA3EbIAJBeHFqIgIgAiADSxsiAgRAIAEgACAC/AoAAAsgASECCyAAEJ8CCyACC9EGAQh/IwBBMGshCANAIAEoAgAiBEH///8DcSEDIARBgICAgHhxIQYCQAJAIARBgICA/AdxIgJBgICA/AdHBEAgBkEQdiEGIAJBgICAuARLDQEgAkGAgIDEA08EQCAEQQx2IARB/98AcUEAR3EgAkENdiADQQ12akGAgAFqIAZyaiEGDAMLIAJBgICAmANJDQIgA0GAgIAEciIEQf4AIAJBF3YiA2t2IQIgBEEdIANrIgN2QQFxBH8gAkEDIAN0QQFrIARxQQBHagUgAgsgBnIhBgwCCyADQQ12IAZBEHZyQYAEQQAgAxtyQYD4AXIhBgwBCyAGQYD4AXIhBgsgAUEEaigCACIDQf///wNxIQUgA0GAgICAeHEhBAJAIANBgICA/AdxIgJBgICA/AdHBEAgBEEQdiEEIAJBgICAuARNBEAgAkGAgIDEA08EQCADQQx2IANB/98AcUEAR3EgAkENdiAFQQ12akGAgAFqIARyaiEEDAMLIAJBgICAmANJDQIgBUGAgIAEciIDQf4AIAJBF3YiBWt2IQIgA0EdIAVrIgV2QQFxBH8gAkEDIAV0QQFrIANxQQBHagUgAgsgBHIhBAwCCyAEQYD4AXIhBAwBCyAFQQ12IARBEHZyQYAEQQAgBRtyQYD4AXIhBAsgAUEIaigCACIFQf///wNxIQcgBUGAgICAeHEhAwJAIAVBgICA/AdxIgJBgICA/AdHBEAgA0EQdiEDIAJBgICAuARNBEAgAkGAgIDEA08EQCAFQQx2IAVB/98AcUEAR3EgAkENdiAHQQ12akGAgAFqIANyaiEDDAMLIAJBgICAmANJDQIgB0GAgIAEciIFQf4AIAJBF3YiB2t2IQIgBUEdIAdrIgd2QQFxBH8gAkEDIAd0QQFrIAVxQQBHagUgAgsgA3IhAwwCCyADQYD4AXIhAwwBCyAHQQ12IANBEHZyQYAEQQAgBxtyQYD4AXIhAwsgCEEGaiAJaiICIAY7AQAgAkEEaiADOwEAIAJBAmogBDsBACABQQxqIQEgCUEGaiIJQSpHDQALIAAgCP0AAQb9CwEAIABBKGogCEEuai8BADsBACAAQSBqIAhBJmopAQA3AQAgAEEQaiAIQRZq/QABAP0LAQALugYBDH8jAEEQayIJJABBASELAkACQCACKAIAIgpBIiACKAIEIgwoAhAiDRECAA0AAkAgAUUEQEEAIQFBACECDAELIAEhBSAAIQYCQANAIAUgBmohDkEAIQICQANAIAIgBmoiBy0AACIIQf8Aa0H/AXFBoQFJIAhBIkZyIAhB3ABGcg0BIAUgAkEBaiICRw0ACyADIAVqIQMMAgsgAiADaiEDAkACQAJAIAcsAAAiAkEATgRAIAdBAWohBiACQf8BcSECDAELIActAAFBP3EhBiACQR9xIQUgAkFfTQRAIAVBBnQgBnIhAiAHQQJqIQYMAQsgBy0AAkE/cSAGQQZ0ciEIIAJBcEkEQCAIIAVBDHRyIQIgB0EDaiEGDAELIAdBBGohBiAFQRJ0QYCA8ABxIActAANBP3EgCEEGdHJyIgJBgIDEAEYNAQsgCSACQYGABBCBAwJAIAktAA0iBSAJLQAMIgdrIghB/wFxQQFGDQACQAJAIAMgBEkNAAJAIARFDQAgASAETQRAIAEgBEYNAQwCCyAAIARqLAAAQUBIDQELIANFDQEgASADTQRAIAEgA0cNAQwCCyAAIANqLAAAQb9/Sg0BCyAAIAEgBCADQZiLwgAQrgkACyAKIAAgBGogAyAEayAMKAIMIgQRAAANAgJAIAVBgQFPBEAgCiAJKAIAIA0RAgANBAwBCyAKIAcgCWogCCAEEQAADQMLIAJBgAFJBEAgA0EBaiEEDAELIAJBgBBJBEAgA0ECaiEEDAELQQNBBCACQYCABEkbIANqIQQLAn9BASACQYABSQ0AGkECIAJBgBBJDQAaQQNBBCACQYCABEkbCyADaiEDCyAOIAZrIgUNAQwCCwsMAgsgAyAESQ0CQQAhAgJAIARFDQAgASAETQRAIAQgASICRg0BDAQLIAQiAiAAaiwAAEFASA0DCyADRQRAQQAhAQwBCyABIANNBEAgASADRg0BIAIhBAwDCyAAIANqLAAAQb9/TARAIAIhBAwDCyADIQELIAogACACaiABIAJrIAwoAgwRAAANACAKQSIgDRECACELCyAJQRBqJAAgCw8LIAAgASAEIANBqIvCABCuCQALtwcCB38DfiMAQfAIayIEJAAgAbwiB0H///8DcSIIQYCAgARyIAdBAXRB/v//B3EgB0EXdkH/AXEiCRsiCq0iC0IBgyEMQQIhBQJAAkACQAJAAkAgCEVBBEEDQQIgCBsgB0GAgID8B3EiCBsgCEGAgID8B0YbQQFrDgQAAQIDBAtBAyEFDAMLQQQhBQwCCyAJQZYBayEGIAxQIQVCASENDAELQoCAgBAgC0IBhiAKQYCAgARGIgYbIQtCAkIBIAYbIQ0gDFAhBUHofkHpfiAGGyAJaiEGCyADQf//A3EhCCAEIAY7AegIIAQgDTcD4AggBEIBNwPYCCAEIAs3A9AIIAQgBToA6ggCfwJAIAVB/wFxQQFNBEBBdEEFIAbBIgVBAEgbIAVsIgVBwP0ASQ0BQbiOwgBBJUHgjsIAEOcIAAsCQAJAIAVB/wFxIglBAkcEQEEBIQVBkp/FAEG4i8IAIAdBAEgiBhtBkp/FAEEBIAYbIAIbIQZBASAHQR92IAIbIQIgCUEERw0BQQIhBSAEQQI7AZAIIANB//8DcQ0CQQEhBSAEQQE2ApgIIARBzZzFADYClAggBEGQCGoMBAsgBEEDNgKYCCAEQaOHxgA2ApQIIARBAjsBkAhBASEGQQAhAkEBIQUgBEGQCGoMAwsgBEEDNgKYCCAEQZyHxgA2ApQIIARBAjsBkAggBEGQCGoMAgsgBCAINgKgCCAEQQA7AZwIIARBAjYCmAggBEGpjcIANgKUCCAEQZAIagwBC0GSn8UAQQEgB0EASCIJGyEKQZKfxQBBuIvCACAJGyAHQR92IQcgBEGQCGogCyAGIARBEGogBUEEdkEVaiIGQYCAfkEAIANrIAPBQQBIGyIFEOQCIAXBIQUCQCAEKAKQCARAIARByAhqIARBmAhqKAIANgIAIAQgBCkCkAg3A8AIDAELIARBwAhqIARB0AhqIARBEGogBiAFEGcLIAogAhshBkEBIAcgAhshAiAFIAQuAcgIIgdIBEAgBEEIaiAEKALACCAEKALECCAHIAggBEGQCGoQ5AQgBCgCDCEFIAQoAggMAQtBAiEFIARBAjsBkAggA0H//wNxRQRAQQEhBSAEQQE2ApgIIARBzZzFADYClAggBEGQCGoMAQsgBCAINgKgCCAEQQA7AZwIIARBAjYCmAggBEGpjcIANgKUCCAEQZAIagshAyAEIAU2AswIIAQgAzYCyAggBCACNgLECCAEIAY2AsAIIAAgBEHACGoQwAMgBEHwCGokAAuIBQEEfyAAELkEAkACQCAAKAKIBCIBBEAgACgCjAQiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKAKUBCIBBEAgACgCmAQiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKAKgBCIBBEAgACgCpAQiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKAKsBCIBBEAgACgCsAQiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKAK4BCIBBEAgACgCvAQiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKALEBCIBBEAgACgCyAQiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKALQBCIBBEAgACgC1AQiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKALcBCIBBEAgACgC4AQiAEEEaygCACIDQXhxIgIgAUECdCIBQQRBCCADQQNxIgMbakkNASADQQAgAiABQSdqSxsNAiAAEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC5YHAQd/IwBBQGoiASQAAkACQCAAKAIARQRAIAAoAhAiAEUNASAAQbeexQBBARCYAyECDAILIAFBDGogABC4BQJAAn8gASgCDCIERQRAIAEtABAhBCAAKAIQIgMEQEEBIQIgA0GensUAQY6exQAgBEEBcSIDG0EZQRAgAxsQmAMNBQsgACAEOgAEQQAMAQsCQCABKAIQIgJBAXENACABQoCAgIAgNwIYIAEgAkH+////B3EiAjYCECABIAQ2AgwgASACIARqIgU2AhQDQAJAIAFBDGoQswJBgIDEAGsOAgIAAQsLIAAoAhAiA0UNAyADKAIAQSIgAygCBCgCEBECAA0CIAFCgICAgCA3AhggASAFNgIUIAEgAjYCECABIAQ2AgwDQAJAAn8CQAJAAkACQAJAAkAgAUEMahCzAiIAQYGAxABHBEAgAEGAgMQARg0BIABBJ0cEQAJAAkACQAJAAkACQCAAQSFMBEAgAEEJaw4FAQMGBgIFCyAAQSJGDQMgAEHcAEcNBSABQgA3ASIgAUHcuAE7ASAMDQsgAUIANwEiIAFB3OgBOwEgDAwLIAFCADcBIiABQdzkATsBIAwLCyABQgA3ASIgAUHc3AE7ASAMCgsgAUIANwEiIAFB3MQAOwEgDAkLIABFDQcLIABB/wVNDQMgABDeBEUNAwwECyADKAIAQScgAygCBCgCEBECAA0MDAkLIAMoAgBBIiADKAIEKAIQEQIAIQIMDQtBgLjIAEErIAFBMGpBxKLFAEH0ocUAEIkHAAsgABDfAg0BCyABQTBqIAAQyQUgAUEoaiABQThqLwAAOwEAIAEgASkAMDcDICABLQA6IQAgAS0AOyECIAFBOGogAUEoai8BADsBACABIAEpAyA3AzAgAEH/AXEgAkH/AXFPDQUMBAsgASAANgIgQYEBIQJBgAEMAgsgAUIANwEiIAFB3OAAOwEgC0ECIQJBAAshACABQThqIAFBKGovAQA7AQAgASABKQMgNwMwCyACQf8BcSEFIABB/wFxIQIgAygCACEGIAMoAgQoAhAhByABKAIwIQQDQCAEIQAgBiAFQYABTQR/IAFBMGogAmotAAAFIAALIAcRAgANBCACQQFqIgIgBUcNAAsMAAsACyAAKAIQIgQEQCAEQY6exQBBEBCYAw0CCyAAQQA6AARBAAshAiAAIAI2AgAMAgtBASECDAELQQAhAgsgAUFAayQAIAIL+wQBBH8CQAJAIAAoAgQiAQRAIAAoAgAiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKAIsIgEEQCAAKAIoIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsgACgCVCIBBEAgACgCUCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQnwILIAAoAnwiAQRAIAAoAngiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKAKkASIBBEAgACgCoAEiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKALMASIBBEAgACgCyAEiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKAL0ASIBBEAgACgC8AEiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKAKcAiIBBEAgACgCmAIiAEEEaygCACIDQXhxIgIgAUECdCIBQQRBCCADQQNxIgMbakkNASADQQAgAiABQSdqSxsNAiAAEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC9wFAQR/IAAoAqwBIgFBhAhPBEAgARCFBwsCQCAAKAIARQ0AIAAoAgQiAUGECEkNACABEIUHCwJAIAAoAghFDQAgACgCDCIBQYQISQ0AIAEQhQcLAkAgACgCEEUNACAAKAIUIgFBhAhJDQAgARCFBwsCQCAAKAIYRQ0AIAAoAhwiAUGECEkNACABEIUHCwJAIAAoAiBFDQAgACgCJCIBQYQISQ0AIAEQhQcLAkAgACgCKEUNACAAKAIsIgFBhAhJDQAgARCFBwsCQAJAIAAoAjgiAQRAIAAoAjwiA0EEaygCACICQXhxIgQgAUECdCIBQQRBCCACQQNxIgIbakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKAJEIgEEQCAAKAJIIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsgACgCUCIBBEAgACgCVCIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQnwILAkAgACgCMEUNACAAKAI0IgFBhAhJDQAgARCFBwsgACgCaCIBQYCAgIB4ckGAgICAeEcEQCAAKAJsIgNBBGsoAgAiAkF4cSIEIAFBAXQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsgACgCdCIBQYCAgIB4ckGAgICAeEcEQCAAKAJ4IgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsgACgCXCIBBEAgACgCYCIAQQRrKAIAIgNBeHEiAiABQQJ0IgFBBEEIIANBA3EiAxtqSQ0BIANBACACIAFBJ2pLGw0CIAAQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALjQcDCX8DfQF7IwBBEGsiBiQAIAZBBGogARCTBiAGKAIIIQgCfwJAAkAgACgCCCIDBEBDAACAPyAAKgJAIAAtAFhBAkYiAhtDAAAAACAAKgI8IAIbIgyTIQ0gA0ECdCEKIAYoAgwiB0ECdiEJIAAoAgRBDGohAEEAIQMDQCAJRQRAIANBA2ogB0GU7cEAEK4HAAsgByADayICQQAgAiAHTRsiAkEBRg0DIAJBAkYNAiADIAhqIgQtAACz/RMgBEEBai0AALP9IAH9DAAAf0MAAH9DAAB/QwAAf0P95wEhDiAEQQNqLQAAs0MAAH9DlbwiAkH///8DcSEFIARBAmotAACzQwAAf0OVIQsCQAJAIAJBgICA/AdxIgRBgICA/AdHBEAgBEGAgIC4BE0NAUGA+AEhAgwCCyAFQQ12QYAEQQAgBRtyQYD4AXIhAgwBCyACQYCAgMQDTwRAIARBDXYgBUENdmogAkEMdiACQf/fAHFBAEdxakGAgAFqIQIMAQsgAkGAgICYA0kEQEEAIQIMAQsgBUGAgIAEciIFQf4AIAJBF3YiBGt2IQIgBUEdIARrIgR2QQFxRQ0AIAJBAyAEdEEBayAFcUEAR2ohAgsgACACOwEAIABBAmpB/wFDAAB/Q0MAAAAAIAsgDJMgDZVDAAB/Q5QiCyALQwAAAABdGyILIAtDAAB/Q14bEJ0HIgv8AUEAIAtDAAAAAGAbIAtDAAB/Q14bQRB0Qf8BQwAAf0NDAAAAACAO/R8BIAyTIA2VQwAAf0OUIgsgC0MAAAAAXRsiCyALQwAAf0NeGxCdByIL/AFBACALQwAAAABgGyALQwAAf0NeG0EIdHJB/wFDAAB/Q0MAAAAAIA79HwAgDJMgDZVDAAB/Q5QiCyALQwAAAABdGyILIAtDAAB/Q14bEJ0HIgv8AUEAIAtDAAAAAGAbIAtDAAB/Q14bciICOwEAIABBBGogAkEQdjoAACAJQQFrIQkgAEEYaiEAIAogA0EEaiIDRw0ACwsCQAJAIAYoAgQiAARAIAhBBGsoAgAiA0F4cSICQQRBCCADQQNxIgMbIABqSQ0BIANBACACIABBJ2pLGw0CIAgQnwILIAFBhAhPBEAgARCFBwsgBkEQaiQADwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIANBAmoMAQsgA0EBagsgB0Gk7cEAEK4HAAu/BgEIfyMAQSBrIQgDQCABKAIAIgRB////A3EhAyAEQYCAgIB4cSEGAkACQCAEQYCAgPwHcSICQYCAgPwHRwRAIAZBEHYhBiACQYCAgLgESw0BIAJBgICAxANPBEAgBEEMdiAEQf/fAHFBAEdxIAJBDXYgA0ENdmpBgIABaiAGcmohBgwDCyACQYCAgJgDSQ0CIANBgICABHIiBEH+ACACQRd2IgNrdiECIARBHSADayIDdkEBcQR/IAJBAyADdEEBayAEcUEAR2oFIAILIAZyIQYMAgsgA0ENdiAGQRB2ckGABEEAIAMbckGA+AFyIQYMAQsgBkGA+AFyIQYLIAFBBGooAgAiA0H///8DcSEFIANBgICAgHhxIQQCQCADQYCAgPwHcSICQYCAgPwHRwRAIARBEHYhBCACQYCAgLgETQRAIAJBgICAxANPBEAgA0EMdiADQf/fAHFBAEdxIAJBDXYgBUENdmpBgIABaiAEcmohBAwDCyACQYCAgJgDSQ0CIAVBgICABHIiA0H+ACACQRd2IgVrdiECIANBHSAFayIFdkEBcQR/IAJBAyAFdEEBayADcUEAR2oFIAILIARyIQQMAgsgBEGA+AFyIQQMAQsgBUENdiAEQRB2ckGABEEAIAUbckGA+AFyIQQLIAFBCGooAgAiBUH///8DcSEHIAVBgICAgHhxIQMCQCAFQYCAgPwHcSICQYCAgPwHRwRAIANBEHYhAyACQYCAgLgETQRAIAJBgICAxANPBEAgBUEMdiAFQf/fAHFBAEdxIAJBDXYgB0ENdmpBgIABaiADcmohAwwDCyACQYCAgJgDSQ0CIAdBgICABHIiBUH+ACACQRd2IgdrdiECIAVBHSAHayIHdkEBcQR/IAJBAyAHdEEBayAFcUEAR2oFIAILIANyIQMMAgsgA0GA+AFyIQMMAQsgB0ENdiADQRB2ckGABEEAIAcbckGA+AFyIQMLIAhBAmogCWoiAiAGOwEAIAJBBGogAzsBACACQQJqIAQ7AQAgAUEMaiEBIAlBBmoiCUEeRw0ACyAAIAj9AAEC/QsBACAAQRZqIAhBGGopAQA3AQAgAEEQaiAIQRJqKQEANwEAC6sHAgV/AX4jAEFAaiIHJAAgACgCBCEKIAAoAgAhCCAHQQA2AgQCQAJAIAgtABBBAUcNACAIKAIAIQkCQAJAAkAgCkUEQCAHIAhBDGqtQoCAgIAQhDcDCCAJKAIAIAkoAgRBp83HACAHQQhqIgsQxAMNAiAILQAQQQFHDQEgCCgCACEJIAdCgICAgKABNwMQIAcgB0EEaq1CgICAgLAFhDcDCCAJKAIAIAkoAgRBss3HACALEMQDRQ0BDAILIAkoAgBBoc3HAEEGIAkoAgQoAgwRAAANASAILQAQQQFHDQAgCCgCACEJIAdCgICAgNABNwMQIAdCgM3HgKABNwMIIAkoAgAgCSgCBEGIzccAIAdBCGoQxAMNAQsCQAJAIAEoAgBBA0cEQEKAgICAwAUhDCAILQAQRQ0BIAdBKGogAUEgaikCADcDACAHQRhqIAFBEGr9AAIA/QsDACAHIAH9AAIA/QsDCCAIKAIAIQEgByAMIAdBCGqthDcDMCABKAIAIAEoAgRBqJrAACAHQTBqEMQDRQ0CDAMLIAgoAgAiASgCAEG+zccAQQkgASgCBCgCDBEAAA0CDAELIAdBKGogAUEgaikCADcDACAHQRhqIAFBEGr9AAIA/QsDACAHIAH9AAIA/QsDCCAIKAIAIQEgByAMIAdBCGqthDcDMCABKAIAIAEoAgRBx83HACAHQTBqEMQDDQELIAgoAgAiASgCAEGgzccAQQEgASgCBCgCDBEAAA0AIANBAXFFIAIoAgBBAkZyDQIgByAENgI8AkAgCC0AEEEBRgRAIAgoAgAhASAHQoCAgICgATcDECAHQoDNx4CgATcDCCABKAIAIAEoAgRBiM3HACAHQQhqEMQDDQELIAgoAgAiASgCAEGQzccAQRAgASgCBCgCDBEAAA0AIAgoAgQgCCgCCCEDIAdBFGogAkEIaigCADYCACAHIAgoAgAiBDYCCCAHIAIpAgA3AgwgBCAHQQxqIAMoAhARAAANACAIKAIAIQEgB0KAgICAECIMIAdBPGqthDcDCCABKAIAIAEoAgRB7ILAACAHQQhqIgMQxAMNAEEBIQEgBUEBcUUNAiAHIAY2AjAgCCgCACECIAcgDCAHQTBqrYQ3AwggAigCACACKAIEQeyCwAAgAxDEA0UNAgtBASEBDAMLQQEhAQwCCyAIKAIAIgIoAgBBoM3HAEEBIAIoAgQoAgwRAAANAQsgACAKQQFqNgIEQQAhAQsgB0FAayQAIAEL5QgCB3sLfyABIAAgAEEDakF8cSIJayIMaiIKQQNxIQ1BACEBIAAgCUcEQANAIAEgACwAAEG/f0pqIQEgAEEBaiEAIAxBAWoiDA0ACwsCQCANRQ0AIAkgCkH8////B3FqIgAsAABBv39KIQsgDUEBRg0AIAsgACwAAUG/f0pqIQsgDUECRg0AIAsgACwAAkG/f0pqIQsLIApBAnYhDiABIAtqIQ8CQANAIAkhCiAORQ0BQcABIA4gDkHAAU8bIhBBA3EhEQJAIBBBAnQiEkHwB3EiE0UEQEEAIQEMAQsgCkEQaiEMQQAhAQJAIBJBEGsiAEEwSQRADAELIAogAEEEdkEBaiILQfz///8BcSINQQR0IgBqIQkgACAMaiEM/QwAAAAAAAAAAAAAAAAAAAAAIQUgDSEBIAohAANAIAD9AAIAIgYgAP0AAhAiB/0NDA0ODxwdHh8AAQIDAAECAyAA/QACICIIIAD9AAIwIgP9DQABAgMAAQIDDA0ODxwdHh/9DQABAgMEBQYHGBkaGxwdHh8iAv1NQQf9rQEgAkEG/a0B/VD9DAEBAQEBAQEBAQEBAQEBAQEiBP1OIAYgB/0NCAkKCxgZGhsAAQIDAAECAyAIIAP9DQABAgMAAQIDCAkKCxgZGhv9DQABAgMEBQYHGBkaGxwdHh8iAv1NQQf9rQEgAkEG/a0B/VAgBP1OIAYgB/0NBAUGBxQVFhcAAQIDAAECAyAIIAP9DQABAgMAAQIDBAUGBxQVFhf9DQABAgMEBQYHGBkaGxwdHh8iAv1NQQf9rQEgAkEG/a0B/VAgBP1OIAYgB/0NAAECAxAREhMAAQIDAAECAyAIIAP9DQABAgMAAQIDAAECAxAREhP9DQABAgMEBQYHGBkaGxwdHh8iAv1NQQf9rQEgAkEG/a0B/VAgBP1OIAX9rgH9rgH9rgH9rgEhBSAAQUBrIQAgAUEEayIBDQALIAUgBSAC/Q0ICQoLDA0ODwABAgMAAQID/a4BIgIgAiAC/Q0EBQYHAAECAwABAgMAAQID/a4B/RsAIQEgCyANRg0BCyAKIBNqIQADQCAJ/V0CCCIC/U1BB/2tASACQQb9rQH9UP0MAQEBAQEBAQEBAQEBAQEBASID/U4iBP0bASAJ/V0CACIC/U1BB/2tASACQQb9rQH9UCAD/U4iAv0bASAC/RsAIAFqaiAE/RsAamohASAMIglBEGohDCAAIAlHDQALCyAOIBBrIQ4gCiASaiEJIAFBCHZB/4H8B3EgAUH/gfwHcWpBgYAEbEEQdiAPaiEPIBFFDQALAn8gCiAQQfwBcUECdGoiASgCACIAQX9zQQd2IABBBnZyQYGChAhxIgAgEUEBRg0AGiAAIAEoAgQiAEF/c0EHdiAAQQZ2ckGBgoQIcWoiACARQQJGDQAaIAAgASgCCCIAQX9zQQd2IABBBnZyQYGChAhxagsiAEEIdkH/gRxxIABB/4H8B3FqQYGABGxBEHYgD2ohDwsgDwuBCQEEfyMAQTBrIgIkAAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAAKAIAIgMtAABBAWsOHAECAwQFBgcICQoLDA0ODxAREhMUFRYXGBkaGxwACyABKAIAQbWQxwBBAiABKAIEKAIMEQAAIQAMHAsgASgCAEG3kMcAQQIgASgCBCgCDBEAACEADBsLIAEoAgBBuZDHAEEDIAEoAgQoAgwRAAAhAAwaCyABKAIAQbyQxwBBBCABKAIEKAIMEQAAIQAMGQsgASgCAEHAkMcAQQUgASgCBCgCDBEAACEADBgLIAEoAgBBxZDHAEECIAEoAgQoAgwRAAAhAAwXCyABKAIAQceQxwBBAyABKAIEKAIMEQAAIQAMFgsgASgCAEHKkMcAQQQgASgCBCgCDBEAACEADBULIAEoAgBBzpDHAEEFIAEoAgQoAgwRAAAhAAwUCyABKAIAQdOQxwBBAiABKAIEKAIMEQAAIQAMEwsgASgCAEHVkMcAQQMgASgCBCgCDBEAACEADBILIAEoAgBB2JDHAEEEIAEoAgQoAgwRAAAhAAwRCyABKAIAQdyQxwBBBSABKAIEKAIMEQAAIQAMEAsgASgCAEHhkMcAQQYgASgCBCgCDBEAACEADA8LIAEoAgBB55DHAEECIAEoAgQoAgwRAAAhAAwOCyABKAIAQemQxwBBAyABKAIEKAIMEQAAIQAMDQsgASgCAEHskMcAQQQgASgCBCgCDBEAACEADAwLIAEoAgBB8JDHAEEFIAEoAgQoAgwRAAAhAAwLCyABKAIAQfWQxwBBAyABKAIEKAIMEQAAIQAMCgsgASgCAEH4kMcAQQQgASgCBCgCDBEAACEADAkLIAEoAgBB/JDHAEEFIAEoAgQoAgwRAAAhAAwICyABKAIAQYGRxwBBBiABKAIEKAIMEQAAIQAMBwsgASgCAEGHkccAQQQgASgCBCgCDBEAACEADAYLIAEoAgBBi5HHAEEFIAEoAgQoAgwRAAAhAAwFCyABKAIAQZCRxwBBBiABKAIEKAIMEQAAIQAMBAsgASgCAEGWkccAQQcgASgCBCgCDBEAACEADAMLIAEoAgBBnZHHAEEFIAEoAgQoAgwRAAAhAAwCCyABKAIAQaKRxwBBBiABKAIEKAIMEQAAIQAMAQtBASEAIAIgA0EBajYCDCABKAIAIgNBtI7HAEEHIAEoAgQiBSgCDCIEEQAADQACQCABLQAKQYABcUUEQCADQeCexQBBASAEEQAADQIgAkEMaiABEMIEDQIgASgCACEDIAEoAgQoAgwhBAwBCyADQcuLwgBBAiAEEQAADQEgAkEBOgAfIAIgBTYCFCACIAM2AhAgAkHQi8IANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDCBA0BIAIoAiBByYvCAEECIAIoAiQoAgwRAAANAQsgA0HinsUAQQEgBBEAACEACyACQTBqJAAgAAvwCAEFfyMAQSBrIgMkAAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAALQAAQQFrDhwBAgMEBQYHCAkKCwwNDg8QERITFBUWFxgZGhscAAsgASgCAEG1kMcAQQIgASgCBCgCDBEAACECDBwLIAEoAgBBt5DHAEECIAEoAgQoAgwRAAAhAgwbCyABKAIAQbmQxwBBAyABKAIEKAIMEQAAIQIMGgsgASgCAEG8kMcAQQQgASgCBCgCDBEAACECDBkLIAEoAgBBwJDHAEEFIAEoAgQoAgwRAAAhAgwYCyABKAIAQcWQxwBBAiABKAIEKAIMEQAAIQIMFwsgASgCAEHHkMcAQQMgASgCBCgCDBEAACECDBYLIAEoAgBBypDHAEEEIAEoAgQoAgwRAAAhAgwVCyABKAIAQc6QxwBBBSABKAIEKAIMEQAAIQIMFAsgASgCAEHTkMcAQQIgASgCBCgCDBEAACECDBMLIAEoAgBB1ZDHAEEDIAEoAgQoAgwRAAAhAgwSCyABKAIAQdiQxwBBBCABKAIEKAIMEQAAIQIMEQsgASgCAEHckMcAQQUgASgCBCgCDBEAACECDBALIAEoAgBB4ZDHAEEGIAEoAgQoAgwRAAAhAgwPCyABKAIAQeeQxwBBAiABKAIEKAIMEQAAIQIMDgsgASgCAEHpkMcAQQMgASgCBCgCDBEAACECDA0LIAEoAgBB7JDHAEEEIAEoAgQoAgwRAAAhAgwMCyABKAIAQfCQxwBBBSABKAIEKAIMEQAAIQIMCwsgASgCAEH1kMcAQQMgASgCBCgCDBEAACECDAoLIAEoAgBB+JDHAEEEIAEoAgQoAgwRAAAhAgwJCyABKAIAQfyQxwBBBSABKAIEKAIMEQAAIQIMCAsgASgCAEGBkccAQQYgASgCBCgCDBEAACECDAcLIAEoAgBBh5HHAEEEIAEoAgQoAgwRAAAhAgwGCyABKAIAQYuRxwBBBSABKAIEKAIMEQAAIQIMBQsgASgCAEGQkccAQQYgASgCBCgCDBEAACECDAQLIAEoAgBBlpHHAEEHIAEoAgQoAgwRAAAhAgwDCyABKAIAQZ2RxwBBBSABKAIEKAIMEQAAIQIMAgsgASgCAEGikccAQQYgASgCBCgCDBEAACECDAELQQEhAiABKAIAIgRBtI7HAEEHIAEoAgQiBigCDCIFEQAADQAgAEEBaiEAAkAgAS0ACkGAAXFFBEAgBEHgnsUAQQEgBREAAA0CIAAgARDGBA0CIAEoAgAhBCABKAIEKAIMIQUMAQsgBEHLi8IAQQIgBREAAA0BIANBAToADyADIAY2AgQgAyAENgIAIANB0IvCADYCFCADIAEpAgg3AhggAyADQQ9qNgIIIAMgAzYCECAAIANBEGoQxgQNASADKAIQQcmLwgBBAiADKAIUKAIMEQAADQELIARB4p7FAEEBIAURAAAhAgsgA0EgaiQAIAILrwYBCH8jAEEgayEIA0AgASgCACIEQf///wNxIQMgBEGAgICAeHEhBgJAAkAgBEGAgID8B3EiAkGAgID8B0cEQCAGQRB2IQYgAkGAgIC4BEsNASACQYCAgMQDTwRAIARBDHYgBEH/3wBxQQBHcSACQQ12IANBDXZqQYCAAWogBnJqIQYMAwsgAkGAgICYA0kNAiADQYCAgARyIgRB/gAgAkEXdiIDa3YhAiAEQR0gA2siA3ZBAXEEfyACQQMgA3RBAWsgBHFBAEdqBSACCyAGciEGDAILIANBDXYgBkEQdnJBgARBACADG3JBgPgBciEGDAELIAZBgPgBciEGCyABQQRqKAIAIgNB////A3EhBSADQYCAgIB4cSEEAkAgA0GAgID8B3EiAkGAgID8B0cEQCAEQRB2IQQgAkGAgIC4BE0EQCACQYCAgMQDTwRAIANBDHYgA0H/3wBxQQBHcSACQQ12IAVBDXZqQYCAAWogBHJqIQQMAwsgAkGAgICYA0kNAiAFQYCAgARyIgNB/gAgAkEXdiIFa3YhAiADQR0gBWsiBXZBAXEEfyACQQMgBXRBAWsgA3FBAEdqBSACCyAEciEEDAILIARBgPgBciEEDAELIAVBDXYgBEEQdnJBgARBACAFG3JBgPgBciEECyABQQhqKAIAIgVB////A3EhByAFQYCAgIB4cSEDAkAgBUGAgID8B3EiAkGAgID8B0cEQCADQRB2IQMgAkGAgIC4BE0EQCACQYCAgMQDTwRAIAVBDHYgBUH/3wBxQQBHcSACQQ12IAdBDXZqQYCAAWogA3JqIQMMAwsgAkGAgICYA0kNAiAHQYCAgARyIgVB/gAgAkEXdiIHa3YhAiAFQR0gB2siB3ZBAXEEfyACQQMgB3RBAWsgBXFBAEdqBSACCyADciEDDAILIANBgPgBciEDDAELIAdBDXYgA0EQdnJBgARBACAHG3JBgPgBciEDCyAIQQ5qIAlqIgIgBjsBACACQQRqIAM7AQAgAkECaiAEOwEAIAFBDGohASAJQQZqIglBEkcNAAsgACAI/QABDv0LAQAgAEEQaiAIQR5qLwEAOwEAC+sEAQR/AkACQCAAKAIAIgIEQCAAKAIEIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQnwILIAAoAgwiAgRAIAAoAhAiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCfAgsgACgCOCICBEAgACgCPCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEJ8CCyAAKAJcIgIEQCAAKAJgIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQnwILIAAoAmgiAkGAgICAeHJBgICAgHhHBEAgACgCbCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEJ8CCyAAKAJ0IgIEQCAAKAJ4IgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQnwILAkAgACgCoAEiAkGAgICAeEYNACACBEAgACgCpAEiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQIgAUEAIAQgAkEnaksbDQMgAxCfAgsgACgCrAEiAkUNACAAKAKwASIAQQRrKAIAIgNBeHEiAUEEQQggA0EDcSIDGyACakkNASADQQAgASACQSdqSxsNAiAAEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC94HAgJ/AXsjAEGA0gBrIgMkAAJAAkACQAJAAkACQAJAAkACQAJAAkACQCABQf8BcUEBaw4FAAMEBQYBC0GAgAgQcSIERQ0GIARBBGstAABBA3EEQCAEQQBBgIAI/AsACyADQUBrQQBBwNEA/AsAQajTABBxIgENAUGo0wAQ6AkAC0G4BRBxIgFFDQggAUEANgKwBSABQoCAgIAQNwOoBSABQYGAgIB4NgKcBSABIAL9AAIA/QsCACABQTBqIAJBMGr9AAIA/QsCACABQSBqIAJBIGr9AAIA/QsCACABQRBqIAJBEGr9AAIA/QsCAEHk8MEAIQIMBwsgAUGAgICAeDYCZCABQgE3AlwgAUKAgAg3AlQgASAENgJQIAFCgICAgICAgAE3AkggAUKAgICAEDcCQCABIAL9AAIA/QsCACABQTBqIAJBMGr9AAIA/QsCACABQSBqIAJBIGr9AAIA/QsCACABQRBqIAJBEGr9AAIA/QsCACABQegAaiADQQxqQfTRAPwKAAAgAUHc0gBqQQBBwQD8CwAgAUEAOwGkUyABQQA2AqBTQfzwwQAhAgwGC0HMABBxIgFFDQcgAUEANgJIIAFCgICAgBA3AkAgASAC/QACAP0LAgAgAUEwaiACQTBq/QACAP0LAgAgAUEgaiACQSBq/QACAP0LAgAgAUEQaiACQRBq/QACAP0LAgBBlPHBACECDAULQcwAEHEiAUUNBiABQQA2AkggAUKAgICAEDcCQCABIAL9AAIA/QsCACABQTBqIAJBMGr9AAIA/QsCACABQSBqIAJBIGr9AAIA/QsCACABQRBqIAJBEGr9AAIA/QsCAEGs8cEAIQIMBAtBzAAQcSIBRQ0FIAFBADYCSCABQoCAgIAQNwJAIAEgAv0AAgD9CwIAIAFBMGogAkEwav0AAgD9CwIAIAFBIGogAkEgav0AAgD9CwIAIAFBEGogAkEQav0AAgD9CwIAQcTxwQAhAgwDC0GAAxBxIgFFDQEgAUECNgKIASABQQI2AgAgAf0MAAAAAAAAAAAAAAAAAAAAAP0LA7gCIAEgBf0LA+ACIAEgAv0AAgD9CwL4ASABQcgCaiAF/QsDACABQdgCakKAgICAEDcDACABQfUCakIANwAAIAFB8AJqQgA3AwAgAUGIAmogAkEQav0AAgD9CwIAIAFBmAJqIAJBIGr9AAIA/QsCACABQagCaiACQTBq/QACAP0LAgBB3PHBACECDAILQQFBgIAIEOEIAAtBgAMQ6AkACyAAIAI2AgQgACABNgIAIANBgNIAaiQADwtBuAUQ6AkAC0HMABDoCQAL8gUCBX8BfiABQiCIIAFCEIinIQUCfyABpyIDQf//AXEEQCADQf8HcSEGIANBgIACcSECIANBgPgBcSIDQYD4AUcEQCACQRB0IQIgA0ENdEGAgID8AHEgBkENdHJBgICAwANqIAJyIAMNAhogBiAGZ0EQayIGQf//A3FBCGp0Qf///wNxIAJBgICA2ANyIAZBF3RrcgwCCyACQRB0IQMgAyAGQQ10ckGAgID+B3IgBg0BGiADQYCAgPwHcgwBCyADQRB0CyEGIAFCMIghAachAwJ/IAVB//8BcQRAIAVB/wdxIQIgBUGAgAJxIQQgBUGA+AFxIgVBgPgBRwRAIARBEHQhBCAFQQ10QYCAgPwAcSACQQ10ckGAgIDAA2ogBHIgBQ0CGiACIAJnQRBrIgVB//8DcUEIanRB////A3EgBEGAgIDYA3IgBUEXdGtyDAILIARBEHQhBSAFIAJBDXRyQYCAgP4HciACDQEaIAVBgICA/AdyDAELIAVBEHQLIQUgAachAiAAIAb9ESAF/RwBAn8gA0H//wFxBEAgA0H/B3EhBCADQYCAAnEhACADQYD4AXEiA0GA+AFHBEAgAEEQdCEAIANBDXRBgICA/ABxIARBDXRyQYCAgMADaiAAciADDQIaIAQgBGdBEGsiA0H//wNxQQhqdEH///8DcSAAQYCAgNgDciADQRd0a3IMAgsgAEEQdCEDIAMgBEENdHJBgICA/gdyIAQNARogA0GAgID8B3IMAQsgA0EQdAv9HAICfyACQf//AXEEQCACQf8HcSEEIAJBgIACcSEAIAJBgPgBcSICQYD4AUcEQCAAQRB0IQAgAkENdEGAgID8AHEgBEENdHJBgICAwANqIAByIAINAhogBCAEZ0EQayICQf//A3FBCGp0Qf///wNxIABBgICA2ANyIAJBF3RrcgwCCyAAQRB0IQIgAiAEQQ10ckGAgID+B3IgBA0BGiACQYCAgPwHcgwBCyACQRB0C/0cA/0LBAAL1QYDCX8CfAJ+IwBBQGoiBCQAAkACQAJAAkACQAJAAkACQCABKAIUIgUgASgCECIGSQRAIAEoAgwiCSAFai0AACIHQS5GDQEgB0HFAEYgB0HlAEZyDQILIAJFDQJCASEPDAYLIAEgBUEBaiIFNgIUAkAgBSAGSQRAIAUgBmshBwNAIAUgCWotAAAiCkEwayILQf8BcSIMQQpPBEAgCARAIApBIHJB5QBHBEAgCCEHDAgLIARBIGogASACIAMgCBDxAgwICyAEQQ02AjQgBEEYaiAJIAYgBUEBaiIBIAYgASAGSRsQ+gEgBCAEQTRqIAQoAhggBCgCHBDZBzYCJCAEQQE2AiAMBwsgDEEFSyADQpmz5syZs+bMGVJyIANCmLPmzJmz5swZVnENAiABIAVBAWoiBTYCFCAIQQFrIQggA0IKfiALrUL/AYN8IQMgBSAGRw0ACyAGIQUgBw0ECyAEQQU2AjQgBCAJIAYgBUEBaiIBIAYgASAGSRsQ+gEgBCAEQTRqIAQoAgAgBCgCBBDZBzYCJCAEQQE2AiAMBAsgBEEgaiABIAIgAyAIEM8GDAMLIARBIGogASACIANBABDxAiAEKAIgRQ0DIAAgBCgCJDYCCCAAQgM3AwAMBQtCACADfSIQQgBTBEBCAiEPIBAhAwwECyADur1CgICAgICAgICAf4QhAwwDCyADuiENAkACQAJAIAcgB0EfdSIBcyABayIBQbUCTwRAA0AgDUQAAAAAAAAAAGENBCAHQQBODQIgDUSgyOuF88zhf6MhDSAHQbQCaiIHIAdBH3UiAXMgAWsiAUG1Ak8NAAsLIAFBA3QrA5jnRiEOIAdBAE4NASANIA6jIQ0MAgsgBEEONgI0IARBEGogCSAGIAUQ+gEgBCAEQTRqIAQoAhAgBCgCFBDZBzYCJCAEQQE2AiAMAgsgDSAOoiINmUQAAAAAAADwf2INACAEQQ42AjQgBEEIaiAJIAYgBRD6ASAEIARBNGogBCgCCCAEKAIMENkHNgIkIARBATYCIAwBCyAEIA0gDZogAhs5AyggBEEANgIgCyAEKAIgRQ0AIAAgBCgCJDYCCCAAQgM3AwAMAgsgBCkDKCEDCyAAIAM3AwggACAPNwMACyAEQUBrJAALjgYBDX8gACAAKAIEIgggACgCACIDSUECdGoiBSAAQQxBCCAAKAIMIAAoAghJIgQbaiIJIAAgAyAITUECdGoiCCAAQQhBDCAEG2oiAygCACAIKAIASSIEGyAJKAIAIgsgBSgCACIKSSIFGyIGKAIAIQwgAyAIIAkgBRsgBBsiBygCACENIAIgCyAKIAUbIgk2AgAgAiAHIAYgDCANSyIFGygCADYCBCACIAYgByAFGygCADYCCCACQQxqIgsgCCADIAQbKAIAIgg2AgAgAEEQaiIDIAAoAhQiBSAAKAIQIgZJQQJ0aiIHIANBDEEIIAAoAhwgACgCGEkiChtqIgQgAyAFIAZPQQJ0aiIAIANBCEEMIAobaiIFKAIAIAAoAgBJIgYbIAQoAgAiCiAHKAIAIgxJIgMbIgcoAgAhDSAFIAAgBCADGyAGGyIEKAIAIQ4gAkEQaiIPIAogDCADGyIDNgIAIAJBFGogBCAHIA0gDksiChsoAgA2AgAgAkEYaiAHIAQgChsoAgA2AgAgAkEcaiIHIAAgBSAGGygCACIANgIAIAEgA/0RIA8gAyAJSUECdGoiBSgCACIE/RwBIAUgBCACIAMgCU9BAnRqIgYoAgAiAklBAnRqIgUoAgAiA/0cAiAFIAMgBiACIARNQQJ0aiIGKAIAIgRJQQJ0aiIKKAIAIgX9HAMgCf0RIAL9HAEgBP0cAiAGIAMgBE9BAnRqIgwoAgAiAv0cA/23Af0LAgAgASAHQXxBACAAIAhPG2oiAUF8QQAgASgCACIBIAtBfEEAIAAgCEkbaiIEKAIAIglPG2oiA0F8QQAgAygCACIDIARBfEEAIAEgCUkbaiIHKAIAIgRPG2oiCygCACIG/REgA/0cASAB/RwCIAD9HAMgB0F8QQAgAyAESRtqIgEoAgAiAP0RIAT9HAEgCf0cAiAI/RwD/bkB/QsCEAJAIAwgAiAFTUECdGogAUF8QQAgACAGSxtqQQRqRgRAIAogAiAFS0ECdGogC0F8QQAgACAGTRtqQQRqRg0BCxDTCQALC8AGAQZ/IwBB8ABrIgIkAAJ/AkACQAJAIAAoAgAiAUUNAAJAIAAoAggiAyAAKAIEIgVPDQAgASADai0AAEHVAEcNAEEBIQQgACADQQFqIgM2AggLAkACQAJAIAMgBUkEQCABIANqLQAAQcsARg0BCyAERQ0DQQAhAwwBCyAAIANBAWoiBjYCCAJAAkAgBSAGTQ0AIAEgBmotAABBwwBHDQAgACADQQJqNgIIQQEhAUHunsUAIQMMAQsgAkHIAGogABDrAiACKAJIIgNFBEAgAi0ATCEBIAAoAhAiBARAQQEgBEGensUAQY6exQAgAUEBcSIEG0EZQRAgBBsQmAMNCBoLIAAgAToABCAAQQA2AgBBAAwHCyACKAJMIgEEQCACKAJURQ0BCyAAKAIQIgEEQCABQY6exQBBEBCYAw0FCyAAQQA6AAQgAEEANgIAQQAMBgsgBEUNAQsgACgCECIEBEAgBEHvnsUAQQcQmAMNAwsgA0UNAQsgACgCECIEBEAgBEH2nsUAQQgQmAMNAgsgAkEBOwFEIAIgATYCQCACQQA2AjwgAkEBOgA4IAJB3wA2AjQgAiABNgIwIAJBADYCLCACIAE2AiggAiADNgIkIAJB3wA2AiAgAkEYaiACQSBqEJgEIAIoAhgiAQRAIAQEQCAEIAEgAigCHBCYAw0DCyACQcgAaiACQSBqQSj8CgAAIAQhAQNAIAEhAwJAA0AgAyEFIAJBEGogAkHIAGoQmAQgAigCECIGRQ0BQQAhAyAFRQ0ACyACKAIUIQMgBUGSn8UAQQEQmAMNBEEAIQEgBEUNASAEIgEgBiADEJgDDQQMAQsLIAFFDQEgAUGQn8UAQQIQmANFDQEMAgtBgJ/FABDQCQALIAAoAhAiAQRAIAFBk5/FAEEDEJgDDQELIAJBCGogABCjBkEBIAIoAghBAXENAhogACgCECIBBEBBASABQeKexQBBARCYAw0DGgsgACgCACIDRQ0BIAAoAggiASAAKAIETw0BIAEgA2otAABB9QBHDQEgACABQQFqNgIIQQAMAgtBAQwBCyAAKAIQIgEEQEEBIAFBlp/FAEEEEJgDDQEaCyAAEIMCCyACQfAAaiQAC/gFAQp/IwBBQGoiBSQAIAVBADYCKCAFQQA2AjxBBCEHIAVBPGohDAJAAkACQAJAAkACfyAEQQRNBEAgBUEsaiIJIQogDAwBCyAFQQhqIAVBKGpBfyAEQQFrZ3ZBAWoQ7AMgBSgCCCIGQYGAgIB4RwRAIAYNAkHA+sYAQRFBsKzHABDnCAALIAVBLGohCSAFKAI8IgdBBUkEQCAHIQYgCSEKQQQhByAMDAELIAUoAiwhBiAFKAIwIQogCQshCyADIARBAnRqIQ0gBiAHTw0CIAQgByAGQX9zaiIIIAQgCEkbIghBB00NASAGQQJ0IApqIgQgA2tBEEkNASAGIAhBAWoiCCAIQQNxIghBBCAIG2siDmohBiADIA5BAnRqA0AgBCAD/QACAP0LAgAgA0EQaiEDIARBEGohBCAOQQRrIg4NAAshAwwBCyAFKAIMEOgJAAsgCiAGQQJ0aiEEA0AgAyANRg0CIAQgAygCADYCACAEQQRqIQQgA0EEaiEDIAcgBkEBaiIGRw0ACyAHIQYLIAsgBjYCACADIA1GDQEDQAJ/IAUoAjwiB0EFSQRAIAchBCAJIQtBBCEHIAwMAQsgBSgCLCEEIAUoAjAhCyAJCyEGIAMoAgAhCiAEIAdGBH8gBUEoahCwBiAFKAIwIQsgCSEGIAUoAiwFIAQLQQJ0IAtqIAo2AgAgBiAGKAIAQQFqNgIAIANBBGoiAyANRw0ACwwBCyALIAY2AgALIAVBIGogBUE4aikCADcDACAFIAX9AAIo/QsDEAJAAkAgASACSwRAIAAgAkEYbGoiACgCFCIBQQVPBEAgACgCCCICQQRrKAIAIgNBeHEiBCABQQJ0IgFBBEEIIANBA3EiAxtqSQ0CIANBACAEIAFBJ2pLGw0DIAIQnwILIAAgBf0AAxD9CwIAIABBEGogBUEgaikDADcCACAFQUBrJAAPCyACIAFB/J3HABCuBwALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC+AGAgh/A34jAEGgAWsiAyQAIAG8IgVB////A3EiB0GAgIAEciAFQQF0Qf7//wdxIAVBF3ZB/wFxIggbIgmtIgtCAYMhDEECIQQCQAJAAkACQAJAIAdFQQRBA0ECIAcbIAVBgICA/AdxIgcbIAdBgICA/AdGG0EBaw4EAAECAwQLQQMhBAwDC0EEIQQMAgsgCEGWAWshBiAMUCEEQgEhDQwBC0KAgIAQIAtCAYYgCUGAgIAERiIGGyELQgJCASAGGyENIAxQIQRB6H5B6X4gBhsgCGohBgsgAyAGOwGIASADIA03A4ABIANCATcDeCADIAs3A3AgAyAEOgCKAQJAAkACQAJAAkACQAJAAkAgBEH/AXFBAU0EQCADQeAAaiADQfAAaiADQQdqENIBIAMoAmBFDQEgA0GYAWogA0HoAGooAgA2AgAgAyADKQJgNwOQAQwCCyAEQf8BcSIIQQJGDQIgA0ECOwEYQQEhBEGSn8UAQbiLwgAgBUEASCIGG0GSn8UAQQEgBhsgAhshB0EBIAVBH3YgAhshBiAIQQRGDQMgA0EDNgIgIANBnIfGADYCHAwHCyADQZABaiADQfAAaiADQQdqEFkLIAMoApQBIgRFDQIgAygCkAEiBi0AAEEwTQ0DQZKfxQBBASAFQQBIIgcbIQlBkp/FAEG4i8IAIAcbIQcgBUEfdiEKIAMuAZgBIQggAyAGNgIcIANBAjsBGCADQQE2AiAgBEEBRgRAIANBJGohBUEDIQQMBQsgA0E8aiEFIANBAjsBMCADQdylxQA2AiggA0ECOwEkIAMgBEEBazYCOCADQQE2AiwgAyAGQQFqNgI0QQUhBAwECyADQQM2AiAgA0Gjh8YANgIcIANBAjsBGEEBIQdBACEGQQEhBAwECyADQQM2AiAgA0GrjcIANgIcDAMLQeCNwgBBIUGojsIAEOcIAAtBro3CAEEfQZSOwgAQ5wgACyAHIAkgAhshB0EBIAogAhshBiAFQQE7AQwgBUECOwEAIAVBASAIayAIQQFrIAhBAEwiAhs7AQ4gBUECQQEgAhs2AgggBUGljsIAQaSOwgAgAhs2AgQLIAMgBDYCbCADIAY2AmQgAyAHNgJgIAMgA0EYajYCaCAAIANB4ABqEMADIANBoAFqJAAL5wYCBX8BfiMAQTBrIgIkACAAKAIAIQAgASgCACIDQYyexQBBASABKAIEIgQoAgwiBREAACEGIAIgADYCDAJAAkACQAJAAkACQAJAAkACQAJAIAYNAAJAIAEtAApBgAFxBEAgA0GgzccAQQEgBREAAA0CIAJBAToAHyACIAQ2AhQgAiADNgIQIAJB0IvCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQwgQNAiACKAIgQcmLwgBBAiACKAIkKAIMEQAAIAIgAEEBajYCDEUNAQwECyACQQxqIAEQwgQgAiAAQQFqNgIMDQMLIAEtAApBgAFxRQ0BIAEpAgAhByACQQE6AB8gAiAHNwIQIAJB0IvCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQwgQNAiACKAIgQcmLwgBBAiACKAIkKAIMEQAAIAIgAEECajYCDEUNBAwFCyACIABBAWo2AgwMAQsgASgCAEGX/MUAQQIgASgCBCgCDBEAAEUNAQsgAiAAQQJqNgIMDAILIAJBDGogARDCBCACIABBAmo2AgwNAQsgAS0ACkGAAXEEQCABKQIAIQcgAkEBOgAfIAIgBzcCECACQdCLwgA2AiQgAiABKQIINwIoIAIgAkEfajYCGCACIAJBEGo2AiAgAkEMaiACQSBqEMIEDQEgAigCIEHJi8IAQQIgAigCJCgCDBEAACACIABBA2o2AgxFDQMMBAsgASgCAEGX/MUAQQIgASgCBCgCDBEAAEUNAQsgAiAAQQNqNgIMDAILIAJBDGogARDCBCACIABBA2o2AgwNAQsCQCABLQAKQYABcQRAIAEoAgAhAyABKAIEIQRBASEAIAJBAToAHyACIAQ2AhQgAiADNgIQIAJB0IvCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQwgQNAiACKAIgQcmLwgBBAiACKAIkKAIMEQAARQ0BDAMLIAEoAgBBl/zFAEECIAEoAgQoAgwRAAANAUEBIQAgAkEMaiABEMIEDQIgASgCBCEEIAEoAgAhAwsgA0GNnsUAQQEgBCgCDBEAACEADAELQQEhAAsgAkEwaiQAIAALrAYCCH8CfiMAQYACayICJAACQAJAIAACfwJAAkACQAJAAkAgASgC4AIiA0EESQ0AIAIgASgC3AIiBSgAACIENgIAIARB0oKRmgRGBEAgA0EISQ0BIAMgBSgABCIGQQdqQXhxIghBEGoiBEkNASAGQQhqIgcgA0sgBkF3S3INAiACQQA2AvwBIAIgBjYC+AEgAiAFQQhqNgL0ASACQRBqIAJB9AFqEHcgAigCFCEGIAIoAhAiCUECRgRAIAAgBhCCCDYCBAwFCyACQYgBaiACQRhqQegA/AoAACACIAY2AoQBIAIgCTYCgAEgCEEIaiIIIARLDQMgAUEANgLgAiADIARrIQcgBSAIaikAACELAkACQCAERQ0AIAMgBEYNASAHRQ0AIAUgBCAFaiAH/AoAAAsgASAHNgLgAgsgASABKQO4AiAErXwiCjcDuAIgASAKIAt8NwPQAiABIAo3A8gCIAIoAugBQQFGBEAgASACKQOIAT4C9AIgASACKAKQASIDNgL4AiABKAIAQQJHDQYgAUEANgL0AiACIAItAOwBQQFxOgAYIAIgBkEAIAlBAXEbNgIUIAIgAzYCECABQfgBaiACQRBqEIICDAYLIAIgAkHoAWqtQoCAgIAQhDcDECACQfQBaiIBQb2RwAAgAkEQahD1BiABEIAIIQEgAigC3AEiAwRAIAIoAuABIANBKGxBCBCIBwsgACABNgIEDAQLIAIgAq1CgICAgIAEhDcDECACQQRqIgFBoOLBACACQRBqEPUGIAAgARCACDYCBAwDCyAAQQA6AAFBAAwEC0EIIAcgA0GQ4sEAENUHAAsgCCAEIANBgOLBABDVBwALQQEMAQsgAUEANgLwAgJAIAEoAogBQQJGDQAgASgC5AEiA0UNACABKALoASIEQQRrKAIAIgVBeHEiBiADQShsIgNBBEEIIAVBA3EiBRtqSQ0CIAVBACAGIANBJ2pLGw0DIAQQnwILIAFBiAFqIAJBgAFqQfAA/AoAACAAQQE6AAFBAAs6AAAgAkGAAmokAA8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC6wGAgh/An4jAEGAAmsiAiQAAkACQCAAAn8CQAJAAkACQAJAIAEoAoADIgNBBEkNACACIAEoAvwCIgUoAAAiBDYCACAEQdKCkZoERgRAIANBCEkNASADIAUoAAQiBkEHakF4cSIIQRBqIgRJDQEgBkEIaiIHIANLIAZBd0tyDQIgAkEANgL8ASACIAY2AvgBIAIgBUEIajYC9AEgAkEQaiACQfQBahB3IAIoAhQhBiACKAIQIglBAkYEQCAAIAYQggg2AgQMBQsgAkGIAWogAkEYakHoAPwKAAAgAiAGNgKEASACIAk2AoABIAhBCGoiCCAESw0DIAFBADYCgAMgAyAEayEHIAUgCGopAAAhCwJAAkAgBEUNACADIARGDQEgB0UNACAFIAQgBWogB/wKAAALIAEgBzYCgAMLIAEgASkD2AIgBK18Igo3A9gCIAEgCiALfDcD8AIgASAKNwPoAiACKALoAUEBRgRAIAEgAikDiAE+ApQDIAEgAigCkAEiAzYCmAMgASgCAEECRw0GIAFBADYClAMgAiACLQDsAUEBcToAGCACIAZBACAJQQFxGzYCFCACIAM2AhAgAUH4AWogAkEQahDnAQwGCyACIAJB6AFqrUKAgICAEIQ3AxAgAkH0AWoiAUG9kcAAIAJBEGoQ9QYgARCACCEBIAIoAtwBIgMEQCACKALgASADQShsQQgQiAcLIAAgATYCBAwECyACIAKtQoCAgICABIQ3AxAgAkEEaiIBQaDiwQAgAkEQahD1BiAAIAEQgAg2AgQMAwsgAEEAOgABQQAMBAtBCCAHIANBkOLBABDVBwALIAggBCADQYDiwQAQ1QcAC0EBDAELIAFBADYCkAMCQCABKAKIAUECRg0AIAEoAuQBIgNFDQAgASgC6AEiBEEEaygCACIFQXhxIgYgA0EobCIDQQRBCCAFQQNxIgUbakkNAiAFQQAgBiADQSdqSxsNAyAEEJ8CCyABQYgBaiACQYABakHwAPwKAAAgAEEBOgABQQALOgAAIAJBgAJqJAAPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAumBgIIfwJ+IwBBgAJrIgIkACAAAn8CQAJAAkACQCABKAK4AiIDQQRJDQAgAiABKAK0AiIFKAAAIgQ2AgACQCAEQdKCkZoERgRAIANBCEkNAiADIAUoAAQiBkEHakF4cSIIQRBqIgRJDQIgBkEIaiIHIANLIAZBd0tyDQMgAkEANgL8ASACIAY2AvgBIAIgBUEIajYC9AEgAkEQaiACQfQBahB3IAIoAhQhBiACKAIQIglBAkYEQCAAIAYQggg2AgQMAgsgAkGIAWogAkEYakHoAPwKAAAgAiAGNgKEASACIAk2AoABIAhBCGoiCCAESw0EIAFBADYCuAIgAyAEayEHIAUgCGopAAAhCwJAAkAgBEUNACADIARGDQEgB0UNACAFIAQgBWogB/wKAAALIAEgBzYCuAILIAEgASkDcCAErXwiCjcDcCABIAogC3w3A4gBIAEgCjcDgAECQCACKALoAUEBRgRAIAEgAikDiAE+AqgCIAEgAigCkAEiAzYCrAIgASgCkAFBAkYNAQwHCyACIAJB6AFqrUKAgICAEIQ3AxAgAkH0AWoiAUG9kcAAIAJBEGoQ9QYgARCACCEBIAIoAtwBIgMEQCACKALgASADQShsQQgQiAcLIAAgATYCBAwCCyABQQA2AqgCIAIgAi0A7AFBAXE6ABggAiAGQQAgCUEBcRs2AhQgAiADNgIQIAFBvAJqIAJBEGoQ1AMMBQsgAiACrUKAgICAgASENwMQIAJBBGoiAUGg4sEAIAJBEGoQ9QYgACABEIAINgIEC0EBDAQLIABBADoAAUEADAMLQQggByADQZDiwQAQ1QcACyAIIAQgA0GA4sEAENUHAAsgAUEANgKkAgJAIAEoAgBBAkYNACABKAJcIgNFDQACQCABKAJgIgRBBGsoAgAiBUF4cSIGIANBKGwiA0EEQQggBUEDcSIFG2pPBEAgBUEAIAYgA0EnaksbDQEgBBCfAgwCC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsgASACQYABakHwAPwKAAAgAEEBOgABQQALOgAAIAJBgAJqJAALpgYCCH8CfiMAQYACayICJAAgAAJ/AkACQAJAAkAgASgCuAIiA0EESQ0AIAIgASgCtAIiBSgAACIENgIAAkAgBEHSgpGaBEYEQCADQQhJDQIgAyAFKAAEIgZBB2pBeHEiCEEQaiIESQ0CIAZBCGoiByADSyAGQXdLcg0DIAJBADYC/AEgAiAGNgL4ASACIAVBCGo2AvQBIAJBEGogAkH0AWoQdyACKAIUIQYgAigCECIJQQJGBEAgACAGEIIINgIEDAILIAJBiAFqIAJBGGpB6AD8CgAAIAIgBjYChAEgAiAJNgKAASAIQQhqIgggBEsNBCABQQA2ArgCIAMgBGshByAFIAhqKQAAIQsCQAJAIARFDQAgAyAERg0BIAdFDQAgBSAEIAVqIAf8CgAACyABIAc2ArgCCyABIAEpA3AgBK18Igo3A3AgASAKIAt8NwOIASABIAo3A4ABAkAgAigC6AFBAUYEQCABIAIpA4gBPgKoAiABIAIoApABIgM2AqwCIAEoApABQQJGDQEMBwsgAiACQegBaq1CgICAgBCENwMQIAJB9AFqIgFBvZHAACACQRBqEPUGIAEQgAghASACKALcASIDBEAgAigC4AEgA0EobEEIEIgHCyAAIAE2AgQMAgsgAUEANgKoAiACIAItAOwBQQFxOgAYIAIgBkEAIAlBAXEbNgIUIAIgAzYCECABQbwCaiACQRBqEJ0EDAULIAIgAq1CgICAgIAEhDcDECACQQRqIgFBoOLBACACQRBqEPUGIAAgARCACDYCBAtBAQwECyAAQQA6AAFBAAwDC0EIIAcgA0GQ4sEAENUHAAsgCCAEIANBgOLBABDVBwALIAFBADYCpAICQCABKAIAQQJGDQAgASgCXCIDRQ0AAkAgASgCYCIEQQRrKAIAIgVBeHEiBiADQShsIgNBBEEIIAVBA3EiBRtqTwRAIAVBACAGIANBJ2pLGw0BIAQQnwIMAgtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIAEgAkGAAWpB8AD8CgAAIABBAToAAUEACzoAACACQYACaiQAC+AGAgV/AX4jAEEwayICJAAgASgCACIDQYyexQBBASABKAIEIgQoAgwiBREAACEGIAIgADYCDAJAAkACQAJAAkACQAJAAkACQAJAIAYNAAJAIAEtAApBgAFxBEAgA0GgzccAQQEgBREAAA0CIAJBAToAHyACIAQ2AhQgAiADNgIQIAJB0IvCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQwgQNAiACKAIgQcmLwgBBAiACKAIkKAIMEQAAIAIgAEEBajYCDEUNAQwECyACQQxqIAEQwgQgAiAAQQFqNgIMDQMLIAEtAApBgAFxRQ0BIAEpAgAhByACQQE6AB8gAiAHNwIQIAJB0IvCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQwgQNAiACKAIgQcmLwgBBAiACKAIkKAIMEQAAIAIgAEECajYCDEUNBAwFCyACIABBAWo2AgwMAQsgASgCAEGX/MUAQQIgASgCBCgCDBEAAEUNAQsgAiAAQQJqNgIMDAILIAJBDGogARDCBCACIABBAmo2AgwNAQsgAS0ACkGAAXEEQCABKQIAIQcgAkEBOgAfIAIgBzcCECACQdCLwgA2AiQgAiABKQIINwIoIAIgAkEfajYCGCACIAJBEGo2AiAgAkEMaiACQSBqEMIEDQEgAigCIEHJi8IAQQIgAigCJCgCDBEAACACIABBA2o2AgxFDQMMBAsgASgCAEGX/MUAQQIgASgCBCgCDBEAAEUNAQsgAiAAQQNqNgIMDAILIAJBDGogARDCBCACIABBA2o2AgwNAQsCQCABLQAKQYABcQRAIAEoAgAhAyABKAIEIQRBASEAIAJBAToAHyACIAQ2AhQgAiADNgIQIAJB0IvCADYCJCACIAEpAgg3AiggAiACQR9qNgIYIAIgAkEQajYCICACQQxqIAJBIGoQwgQNAiACKAIgQcmLwgBBAiACKAIkKAIMEQAARQ0BDAMLIAEoAgBBl/zFAEECIAEoAgQoAgwRAAANAUEBIQAgAkEMaiABEMIEDQIgASgCBCEEIAEoAgAhAwsgA0GNnsUAQQEgBCgCDBEAACEADAELQQEhAAsgAkEwaiQAIAALlQYCBn8FfkEEIQMgASgCCCIEQQRqKAIAIQUgAQJ+IARBCGooAgAiBiABKQMAIgogBq0iCSAJIApWG6dGBEBBiOPHACkDACINQgiIIQsgDachAyAJIA1C/wGDQgRSDQEaCyAKQgF8CyIMNwMAIANB/wFxQQRHBEAgAEKBgICAkICAgIB/NwIAIAAgA61C/wGDIAtCCIaENwIIDwsgAQJ+AkAgBiAMIAkgCSAMVhunIgNrQQRPBEAgAyAFaigAACEGQQQhA0IAIQsMAQtBACEGQYjjxwApAwAiDUIIiCELIA2nIQMgCSANQv8Bg0IEUg0BGgsgDEIEfAsiCjcDACADQf8BcUEERwRAIAAgAzoACCAAQoGAgICQgICAgH83AgAgACALpyIBOwAJIAAgC0IYiD4CDCAAQQtqIAFBEHY6AAAPCwJAAkACQAJAIAJB//8DcSIHQQVPBEAgB0EFayICBEAgAhBxIgMEQCADQQRrLQAAQQNxRSACRXJFBEAgA0EAIAL8CwALIARBCGooAgAiBa0hCSAFQv////8PIAogCkL/////D1obp2siCEEAIAUgCE8bIAJPBEAgBEEEaigCACAKIAkgCSAKVhunaiEEIAJBAUcNBCADIAQtAAA6AAAMBQtBiOPHACkDACILQgiIIQwgC6chBCALQv8Bg0IEUg0GDAULQQEgAhDhCAALIAUgCiAJIAkgClYbp2ohBEEBIQMMAQsgAP0MAQAAAAAAAIAM8hEAIAAAAP0LAgAPCyACRQ0AIAMgBCAC/AoAAAtCACEMQQQhBAsgCiACrXwhCQsgASAJNwMAAkACQAJAIARB/wFxQQRHBEAgAEKBgICAkICAgIB/NwIAIAAgBK1C/wGDIAxCCIaENwIIIAJFDQEgA0EEaygCACIAQXhxIgFBBEEIIABBA3EiABsgAmpJDQIgAEEAIAEgB0EiaksbDQMgAxCfAg8LIAAgBjYCDCAAIAI2AgggACADNgIEIABBADYCAAsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAuCBgEBfwJAAkAgASADIAVsIARqIgNJDQACQCABIANrIgRBA00NACAAIANqIgRB/wEgAigCACAELQAAaiIGQQAgBkEAShsiBiAGQf8BThs6AAAgBEH/ASACKAIEIAQtAAFqIgZBACAGQQBKGyIGIAZB/wFOGzoAASAEQf8BIAIoAgggBC0AAmoiBkEAIAZBAEobIgYgBkH/AU4bOgACIARB/wEgAigCDCAELQADaiIEQQAgBEEAShsiBCAEQf8BThs6AAMgASADIAVqIgNJDQEgASADayIEQQRJDQAgACADaiIEQf8BIAIoAhAgBC0AAGoiBkEAIAZBAEobIgYgBkH/AU4bOgAAIARB/wEgAigCFCAELQABaiIGQQAgBkEAShsiBiAGQf8BThs6AAEgBEH/ASACKAIYIAQtAAJqIgZBACAGQQBKGyIGIAZB/wFOGzoAAiAEQf8BIAIoAhwgBC0AA2oiBEEAIARBAEobIgQgBEH/AU4bOgADIAEgAyAFaiIDSQ0BIAEgA2siBEEESQ0AIAAgA2oiBEH/ASACKAIgIAQtAABqIgZBACAGQQBKGyIGIAZB/wFOGzoAACAEQf8BIAIoAiQgBC0AAWoiBkEAIAZBAEobIgYgBkH/AU4bOgABIARB/wEgAigCKCAELQACaiIGQQAgBkEAShsiBiAGQf8BThs6AAIgBEH/ASACKAIsIAQtAANqIgRBACAEQQBKGyIEIARB/wFOGzoAAyABIAMgBWoiA0kNASABIANrIgRBBE8NAgtBAEEEIARBhN/EABDVBwALIAMgASABQZTfxAAQ1QcACyAAIANqIgBB/wEgAigCMCAALQAAaiIBQQAgAUEAShsiASABQf8BThs6AAAgAEH/ASACKAI0IAAtAAFqIgFBACABQQBKGyIBIAFB/wFOGzoAASAAQf8BIAIoAjggAC0AAmoiAUEAIAFBAEobIgEgAUH/AU4bOgACIABB/wEgAigCPCAALQADaiIAQQAgAEEAShsiACAAQf8BThs6AAMLzgYDA38BfAJ9IwBBEGsiAiQAAkACQCABKAIAQZSAgIB4RgRAIAACfQJAAkACQAJAAn0CQAJAIAEoAgwiBARAAn0CQAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCCCIBKAIAIgNBgICAgHhzIANBAE4bQQFrDgoKAAECAwQFBgcICQsgAS8BBLMMCgsgASgCBLMMCQsgASkDCLUMCAsgASwABLIMBwsgAS4BBLIMBgsgASgCBLIMBQsgASkDCLQMBAsgASoCBAwDCyABKwMIIgW2QwAAgD9DAACAvyAFvUIAWRuYDAILIAAgASACQQ9qQeCLwQAQjwg2AgQMDAsgAS0ABLMLIQZBASEDIARBAUYNBAJAAkACQAJAAkACQAJAAkACQEEVIAEoAhAiA0GAgICAeHMgA0EAThtBAWsOCgsAAQIDBAUGBwgKCyABLwEUswwLCyABKAIUswwKCyABKQMYtQwJCyABLAAUsgwICyABLgEUsgwHCyABKAIUsgwGCyABKQMYtAwFCyABKgIUDAQLIAErAxgiBbZDAACAP0MAAIC/IAW9QgBZG5gMAwsgAEEAIAJBD2pBsIfBABD9BjYCBAwJCyAAIAFBEGogAkEPakHgi8EAEI8INgIEDAgLIAEtABSzCyEHIARBAkYNAgJAAkACQAJAAkACQAJAAkACQEEVIAEoAiAiA0GAgICAeHMgA0EAThtBAWsOCgwAAQIDBAUGBwgKCyABLwEkswwMCyABKAIkswwLCyABKQMotQwKCyABLAAksgwJCyABLgEksgwICyABKAIksgwHCyABKQMotAwGCyABKgIkDAULIAErAygiBbZDAACAP0MAAIC/IAW9QgBZG5gMBAsgAEEBIAJBD2pBsIfBABD9BjYCBAwGCyAAIAFBIGogAkEPakHgi8EAEI8INgIEDAQLIABBAiACQQ9qQbCHwQAQ/QY2AgQMAwsgAS0AJLMLOAIMIAAgBzgCCCAAIAY4AgRBACEDIARBA0YNAiACQQM2AgggACAEQf3///8AakH/////AHFBA2ogAkEIakHQtcEAEP0GNgIEDAELIAAgASACQQ9qQbCHwQAQjwg2AgQLQQEhAwsgACADNgIAIAJBEGokAAuHBwEGfyMAQTBrIgIkAAJAAkACQAJAAkACQAJAQQMgACgCACIDQYCAgIB4cyADQQBOG0EBaw4FAQIDBAUACyABKAIAQcyRxwBBESABKAIEKAIMEQAAIQMMBQsgASgCAEHdkccAQQ0gASgCBCgCDBEAACEDDAQLQQEhAyABKAIAIgRB/JHHAEEPIAEoAgQiBygCDCIFEQAADQMgAEEEaiEGAkAgAS0ACkGAAXFFBEAgBEHgnsUAQQEgBREAAA0FIAIgBjYCHCABIABBB2pBmIzHACAAQQVqQaiMxwAgAEEGakG4jMcAIAJBHGpByIzHABDgBUUNAQwFCyAEQcuLwgBBAiAFEQAADQQgAkEBOgAPIAIgBzYCFCACIAQ2AhAgAkHQi8IANgIgIAIgASkCCDcCJCACIAJBD2o2AhggAiACQRBqNgIcIAIgBjYCLCACQRxqIABBB2pBmIzHACAAQQVqQaiMxwAgAEEGakG4jMcAIAJBLGpByIzHABDgBQ0EIAIoAhxByYvCAEECIAIoAiAoAgwRAAANBAsgASgCAEHinsUAQQEgASgCBCgCDBEAACEDDAMLQQEhAyABKAIAIgRBi5LHAEEHIAEoAgQiBigCDCIFEQAADQICQCABLQAKQYABcUUEQCAEQeCexQBBASAFEQAADQQgACgCBCAAKAIIIAEQuwJFDQEMBAsgBEHLi8IAQQIgBREAAA0DIAJBAToALCACIAY2AhQgAiAENgIQIAJB0IvCADYCICACIAEpAgg3AiQgAiACQSxqNgIYIAIgAkEQaiIENgIcIAAoAgQgACgCCCACQRxqELsCDQMgBEHJi8IAQQIQsgMNAwsgASgCAEHinsUAQQEgASgCBCgCDBEAACEDDAILIAEoAgBBkpLHAEEKIAEoAgQoAgwRAAAhAwwBCyACIABBCGo2AhAgASgCAEGskscAQQwgASgCBCgCDBEAACEDIAJBADoAISACIAM6ACAgAiABNgIcIAJBHGpBuJLHAEEIIABBBGpBnJLHABD8BEHAkscAQQUgAkEQakHskccAEPwEIAItACEiASACLQAgIgRyIQMgBEEBcSABQQFHcg0AKAIAIgAtAApBgAFxRQRAIAAoAgBBp5/FAEECIAAoAgQoAgwRAAAhAwwBCyAAKAIAQcqexQBBASAAKAIEKAIMEQAAIQMLIAJBMGokACADQQFxC/QFAgV/An0gASoCABC6BbwiAkH///8DcSEDIAJBgICAgHhxIQUgASoCBAJAAkAgAkGAgID8B3EiBEGAgID8B0cEQCAFQRB2IQUgBEGAgIC4BEsNASAEQYCAgMQDTwRAIAJBDHYgAkH/3wBxQQBHcSAEQQ12IANBDXZqQYCAAWogBXJqIQUMAwsgBEGAgICYA0kNAiADQYCAgARyIgJB/gAgBEEXdiIDa3YhBCACQR0gA2siA3ZBAXEEfyAEQQMgA3RBAWsgAnFBAEdqBSAECyAFciEFDAILIANBDXYgBUEQdnJBgARBACADG3JBgPgBciEFDAELIAVBgPgBciEFCyABKgIIIQgQugW8IgJB////A3EhAyACQYCAgIB4cSEEAkAgAkGAgID8B3EiAUGAgID8B0cEQCAEQRB2IQQgAUGAgIC4BE0EQCABQYCAgMQDTwRAIAJBDHYgAkH/3wBxQQBHcSABQQ12IANBDXZqQYCAAWogBHJqIQQMAwsgAUGAgICYA0kNAiADQYCAgARyIgJB/gAgAUEXdiIDa3YhASACQR0gA2siA3ZBAXEEfyABQQMgA3RBAWsgAnFBAEdqBSABCyAEciEEDAILIARBgPgBciEEDAELIANBDXYgBEEQdnJBgARBACADG3JBgPgBciEECyAIELoFvCIDQf///wNxIQYgA0GAgICAeHEhAgJAIANBgICA/AdxIgFBgICA/AdHBEAgAkEQdiECIAFBgICAuARNBEAgAUGAgIDEA08EQCADQQx2IANB/98AcUEAR3EgAUENdiAGQQ12akGAgAFqIAJyaiECDAMLIAFBgICAmANJDQIgBkGAgIAEciIDQf4AIAFBF3YiBmt2IQEgA0EdIAZrIgZ2QQFxBH8gAUEDIAZ0QQFrIANxQQBHagUgAQsgAnIhAgwCCyACQYD4AXIhAgwBCyAGQQ12IAJBEHZyQYAEQQAgBhtyQYD4AXIhAgsgACACOwEgIAAgBDsBHiAAIAU7ARwLuwcCBXsHfyACQf//A3EhAiABQf//A3EhCiAEIARBoCtwIgtrIg1BoCtPBEAgDSEMIAMhAQNA/QwAAAAAAAAAAAAAAAAAAAAAIgUgAv0cACEGIAUgCkGtAWz9HAAhB0EAIQQDQCABIARqIgL9AAAAIgj9iQH9DCAAHwAeAB0AHAAbABoAGQD9ugEgBv2uASAI/YoB/QwYABcAFgAVABQAEwASABEA/boB/a4BIAJBEGr9AAAAIgn9iQH9DBAADwAOAA0ADAALAAoACQD9ugH9rgEgCf2KAf0MCAAHAAYABQAEAAMAAgABAP26Af2uASEGIAcgBf2uASEHIAj9ff1/IAX9rgEgCf19/X/9rgEhBSAEQSBqIgRBoCtHDQALIAYgB0EF/asB/a4BIgb9GwEgBv0bAGogBv0bAmogBv0bA2pB8f8DcCECIAFBoCtqIQEgBf0bACAKaiAF/RsBaiAF/RsCaiAF/RsDakHx/wNwIQogDEGgK2siDEGfK0sNAAsLIAMgDWohAyALQSBPBED9DAAAAAAAAAAAAAAAAAAAAAAiBSAC/RwAIQZBACALQeA/cSIBayECIAUgCiALQQV2bP0cACEHIAMhBANAIAT9AAAAIgj9iQH9DCAAHwAeAB0AHAAbABoAGQD9ugEgBv2uASAI/YoB/QwYABcAFgAVABQAEwASABEA/boB/a4BIARBEGr9AAAAIgn9iQH9DBAADwAOAA0ADAALAAoACQD9ugH9rgEgCf2KAf0MCAAHAAYABQAEAAMAAgABAP26Af2uASEGIARBIGohBCAHIAX9rgEhByAI/X39fyAF/a4BIAn9ff1//a4BIQUgAkEgaiICDQALIAEgA2ohAyALQR9xIQsgBf0bACAKaiAF/RsBaiAF/RsCaiAF/RsDaiEKIAYgB0EF/asB/a4BIgb9GwEgBv0bAGogBv0bAmogBv0bA2ohAgsCQCALRQ0AAkAgC0EHcSIMRQRAIAMhBAwBCyADIQEDQCAKIAEtAABqIgogAmohAiABQQFqIgQhASAMQQFrIgwNAAsLIAtBCEkNACADIAtqIQEDQCAKIAQtAABqIgMgBEEBai0AAGoiDCAEQQJqLQAAaiINIARBA2otAABqIgsgBEEEai0AAGoiDiAEQQVqLQAAaiIPIARBBmotAABqIhAgBEEHai0AAGoiCiAQIA8gDiALIA0gDCACIANqampqampqaiECIARBCGoiBCABRw0ACwsgACACQfH/A3A7AQIgACAKQfH/A3A7AQALswcCBXsIfyAAQf//A3EhCSAAQRB2IQggAiACQaArcCIKayIMQaArTwRAIAwhCyABIQIDQP0MAAAAAAAAAAAAAAAAAAAAACIDIAj9HAAhBCADIAlBrQFs/RwAIQVBACEAA0AgACACaiII/QAAACIG/YkB/QwgAB8AHgAdABwAGwAaABkA/boBIAT9rgEgBv2KAf0MGAAXABYAFQAUABMAEgARAP26Af2uASAIQRBq/QAAACIH/YkB/QwQAA8ADgANAAwACwAKAAkA/boB/a4BIAf9igH9DAgABwAGAAUABAADAAIAAQD9ugH9rgEhBCAFIAP9rgEhBSAG/X39fyAD/a4BIAf9ff1//a4BIQMgAEEgaiIAQaArRw0ACyAEIAVBBf2rAf2uASIE/RsBIAT9GwBqIAT9GwJqIAT9GwNqQfH/A3AhCCACQaAraiECIAP9GwAgCWogA/0bAWogA/0bAmogA/0bA2pB8f8DcCEJIAtBoCtrIgtBnytLDQALCyABIAxqIQEgCkEgTwRA/QwAAAAAAAAAAAAAAAAAAAAAIgMgCP0cACEEQQAgCkHgP3EiAmshCCADIAkgCkEFdmz9HAAhBSABIQADQCAA/QAAACIG/YkB/QwgAB8AHgAdABwAGwAaABkA/boBIAT9rgEgBv2KAf0MGAAXABYAFQAUABMAEgARAP26Af2uASAAQRBq/QAAACIH/YkB/QwQAA8ADgANAAwACwAKAAkA/boB/a4BIAf9igH9DAgABwAGAAUABAADAAIAAQD9ugH9rgEhBCAAQSBqIQAgBSAD/a4BIQUgBv19/X8gA/2uASAH/X39f/2uASEDIAhBIGoiCA0ACyAEIAVBBf2rAf2uASIE/RsBIAT9GwBqIAT9GwJqIAT9GwNqIQggCkEfcSEKIAP9GwAgCWogA/0bAWogA/0bAmogA/0bA2ohCSABIAJqIQELAkAgCkUNAAJAIApBB3EiC0UEQCABIQAMAQsgASECA0AgCSACLQAAaiIJIAhqIQggAkEBaiIAIQIgC0EBayILDQALCyAKQQhJDQAgASAKaiEBA0AgCSAALQAAaiICIABBAWotAABqIgsgAEECai0AAGoiDCAAQQNqLQAAaiIKIABBBGotAABqIg0gAEEFai0AAGoiDiAAQQZqLQAAaiIPIABBB2otAABqIgkgDyAOIA0gCiAMIAsgAiAIampqampqamohCCAAQQhqIgAgAUcNAAsLIAlB8f8DcCAIQfH/A3BBEHRyC+B4Ax9/CH4CeyMAQRBrIhckAAJAIAEpAxhCAlIEQCABQRhqISIgAUHIAGohECABKAIMIQkgASgCCCEIA0AgASgCACEHAkAgCCAJSQ0AIAEoAgQiCiABKAIQIgZrIgUEQCAGIAdqQQAgBfwLAAsgFyAiIAcgChCoAyAXLQAAQQRGBEAgCiAXKAIEIglPBEAgASAKNgIQIAEgCTYCDEEAIQggAUEANgIIDAILQZyAxwBBNkHUgMcAEOcIAAsgFygCBCEGIBcoAgAhBSAXMQAAIAEgCjYCECABQgA3AwhBACEJQQAhCEIEUQ0AIAAgBjYCBCAAIAU2AgAMAwsgASkDUCEpIAEpA0ghKkEEQQAgCCAJRiIhGyEfIwBBIGsiDCQAIBAgAzYCMCAQIAkgCGsiBTYCJCAQIAI2AiwgECAHIAhqIh42AiAgECgCPCIELQAAIgZBDEYEQCAEQQ06AABBDSEGCyAQKQMYIScgECkDECEoIAQgAzYCdCAEIAU2AnAgBEEANgJQIAQgAzYCTCAEIAI2AkggBCAeNgI4IAQgHzoABCAEIAUgHmo2AjwgBEHBAGohFSAEQQhqIQ4gBEGE7ABqISAgBEGE5wBqIRogBEGkAWohHSAEQfQqaiEbIARBxNQAaiEZIARByABqIRQCQAJAAkACQANAIAYhBUESIQZBASEIAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgBUH/AXFBAWsOHhwbGg0MCwoJAgEZGAgXHQcfFhUUBgUTEh4AERAhDw4LIAQoAiQiCSAEKAIgIhEgBCgCHCINaiIKTw0DIAQoAjghBSAELQBAIQYgBCkDMCEjA0BCfyAENQKUAYZCf4UhJSAEKAI8IRMgBC0AmAEhCCAEAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQANAICMgJYOnIRJBgAQhC0HQuMgAIQcCQAJAAkACQCAIQQFrDgMAAQIDC0G0CiELIB0hBwwCC0G0CiELIBshBwwBC0HQBCELIBkhBwsgCyASTQ0BIAcgEkECdGooAQAiC0EYdiIPIAZB/wFxSwRAIAUgE0YNEyAFMQAAISQgBCAGQQhqIgc6AEAgBCAFQQFqIgU2AjggBCAkIAathiAjhCIjNwMwIAchBgwBCwsgC0H//wNxIgdBEE8EQCAGQf8BcSESAkACQAJAAkACQAJAIAdBEGsOAgECAAsCQCASIA9BB2oiC08EQCAFIQcgBiEIDAELA0AgBSATRg0ZIAQgBUEBaiIHNgI4IAQgBkEIaiIIOgBAIAQgBTEAACAGrYYgI4QiIzcDMCAHIQUgCyAIIgZB/wFxSw0ACwsgBCAIIA9rQQdrIgY6AEAgBCAjIA+tiCIkQgeIIiM3AzAgCiAkp0H/AHFBC2oiCyAJaiIISQ0NIAlBwAJLDQ4gC0HAAiAJayIFSw0PIAtBAXQiBQ0EDBILAkAgEiAPQQJqIgtPBEAgBiEHDAELIAUhCANAIAggE0YNGCAEIAhBAWoiBTYCOCAEIAZBCGoiBzoAQCAEIAgxAAAgBq2GICOEIiM3AzAgBSEIIAsgByIGQf8BcUsNAAsLIAQgByAPayIGOgBAIAQgIyAPrYgiJDcDMCAJRQ0GIAlBAWshByAJQcECTw0HIBogB0EBdGovAQAhCyAEIAZBAmsiBjoAQCAEICRCAogiIzcDMCAKICSnQQNxIgpBA2oiCCAJak8NASAEQRo2AogBIARBy5vAADYChAEMMwsCQCASIA9BA2oiCE8EQCAFIRIgBiEHDAELA0AgBSATRg0XIAQgBUEBaiISNgI4IAQgBkEIaiIHOgBAIAQgBTEAACAGrYYgI4QiIzcDMCASIQUgCCAHIgZB/wFxSw0ACwtBfSEIIAQgByAPa0EDayIGOgBAIAQgIyAPrYgiJEIDiCIjNwMwIAogJKdBB3FBA2oiCiAJaiIHSQ0IIAlBwAJLDQkgCkHAAiAJayIFSw0KIApBAXQiBQ0BDA8LIAhBwAIgCWsiB0sNBiAaIAlBAXRqIQcgCkECav0RIiv9DAAAAAABAAAAAgAAAAMAAAD9QCIs/RsAQQFxBEAgByALOwEACyAs/RsBQQFxBEAgB0ECaiALOwEACyAs/RsCQQFxBEAgB0EEaiALOwEACyAs/RsDQQFxBEAgB0EGaiALOwEACyAr/QwEAAAABQAAAAYAAAAHAAAA/UAiK/0bAEEBcQRAIAdBCGogCzsBAAsgK/0bAUEBcQRAIAdBCmogCzsBAAsgK/0bAkEBcQRAIAdBDGogCzsBAAsgK/0bA0EBcQRAIAdBDmogCzsBAAsgBCgCICERIAQoAhwhDSAEKAIkIAhqDBALIBogCUEBdGpBACAF/AsADA0LIBogCUEBdGpBACAF/AsADA0LIAQgBiAPayIGOgBAIAQgIyAPrYgiIzcDMCAJQcACSQ0KIAlBwAJB9M3IABCuBwALIBIgC0H8ysgAEK4HAAsgBEEaNgKIASAEQcubwAA2AoQBDCwLIAdBwAJBlM3IABCuBwALQQAgCCAHQaTNyAAQ1QcACyAEQRo2AogBIARBy5vAADYChAFBHiEFDCoLIAlBwAJBwAJBxM3IABDVBwALQQAgCiAFQbTNyAAQ1QcACyAEQRo2AogBIARBy5vAADYChAEMJgsgCUHAAkHAAkHkzcgAENUHAAtBACALIAVB1M3IABDVBwALIBogCUEBdGogCzsBACAJQQFqDAILIBIhBSAHDAELIAchBSAICyIJNgIkIAkgDSARaiIKSQ0ACwwDC0F8IQgMHwtBfiEIDB4LQQAhCEEaIQUMHQsCQAJAAkACQCAELwGEawRAIA1BwQJPDQEgDEEQaiIGQQEgGiANIBtBtApBCiAgEKwBIAwoAhANAiAMKAIYIQUgBCAMKAIUNgKUASAEQQI6AJgBIAQgBTYCKCAEKAIcIgpBwAJLDQMgBCgCICIHQcACIAprIgVLDQQgBkECIBogCkEBdGogByAZQdAEQQkgIBCsASAMKAIQRQRAIAwoAhghBiAMKAIUIQUgBEEDOgCgASAEIAU2ApwBIAQgBiAEKAIoajYCKEERIQYgBC0ABEEGRw0gQQAhCEERIQUMIgsgBEEWNgKIASAEQfiawAA2AoQBDCALIARBJTYCiAEgBEHt5cAANgKEAQwfC0EAIA1BwAJBhM3IABDVBwALIARBHDYCiAEgBEGqmsAANgKEAQwdCyAKQcACQcACQfTMyAAQ1QcAC0EAIAcgBUHkzMgAENUHAAtBFyEGIAQoAmAiCUUNGSAEKQMwISMCQCAELQBAIgggCU8EQCAIIQsMAQsgBCgCOCEFIAQoAjwhCgNAIAUgCkYEQEEAIQhBFiEFDB4LIAQgBUEBaiIHNgI4IAQgCEEIaiILOgBAIAQgBTEAACAIrYYgI4QiIzcDMCAHIQUgCSALIghB/wFxSw0ACwsgBCALIAlrOgBAIAQgIyAJrYg3AzAgBCAEKAJkIAlqNgJkIAQgBCgCXCAjQn8gCUE/ca2GQn+Fg6dqNgJcDBkLQn8gBDUCnAGGQn+FISUgBCgCOCEFIAQtAEAhBiAEKAI8IRIgBCkDMCEjIAQtAKABIRECQAJAAkADQCAjICWDpyEKQSAhC0HQyMgAIQcCQAJAAkACQCARQQFrDgMAAQIDC0G0CiELIB0hBwwCC0G0CiELIBshBwwBC0HQBCELIBkhBwsCQAJAIAogC0kEQCAHIApBAnRqKAEAIghBGHYiCiAGQf8BcUsEQCAFIBJHDQIMBwsgCEEQdiIJQf8BcUEPSwRAIAohBwwGCyAKQR9xIQ0gCEH//wNxIQtCfyAJIApqQT9xrYZCf4UhJQNAICMgJYOnIA12IAtqIQhBICEHQdDIyAAhCQJAAkACQAJAIBFBAWsOAwABAgMLQbQKIQcgHSEJDAILQbQKIQcgGyEJDAELQdAEIQcgGSEJCyAHIAhNDQMgCSAIQQJ0aigBACIIQRh2IgcgCmpB/wFxIAZB/wFxTQ0FIAUgEkYNByAFMQAAISQgBCAGQQhqIgc6AEAgBCAFQQFqIgU2AjggBCAkIAathiAjhCIjNwMwIAchBgwACwALIAogC0GMy8gAEK4HAAsgBTEAACEkIAQgBkEIaiIHOgBAIAQgBUEBaiIFNgI4IAQgJCAGrYYgI4QiIzcDMCAHIQYMAQsLIAggB0GMy8gAEK4HAAsgBCAEKAJkIApqNgJkIAYgCmshBiAIQRB2IQkgIyAKrYghIwsgBCAGIAdrOgBAIAQgIyAHrYg3AzAgCUHAAHFFBEAgBCAJQQ9xNgJgIAQgCEH//wNxNgJcQRYhBgwaCyAEQRY2AogBIARBgejAADYChAEMGgtBACEIQRUhBQwaC0ELIQYgBC0AAyIKRQ0XAkAgBC0AQCILQR9LDQBBACEIQRAhBSAEKAI4Ig0gBCgCPCIJRg0aIAQgDUEBaiIHNgI4IAQgC60iJkIIfCIjPABAIAQgBCkDMCANMQAAICaGhCIkNwMwIAtBF0sNACAHIAlGDRogBCANQQJqIgc2AjggBCAmQhB8IiU8AEAgBCANMQABICOGICSEIiQ3AzAgC0EPSw0AIAcgCUYNGiAEIA1BA2oiBzYCOCAEICZCGHwiIzwAQCAEIA0xAAIgJYYgJIQiJDcDMCALQQdLDQAgByAJRg0aIAQgDUEEajYCOCAEIAtBIHI6AEAgBCANMQADICOGICSENwMwCyAEIAQoAlAiByAEKAJUajYCVCAEKAJ4IQUCfwJAAkAgCkEEcQRAIAVFBEAgBCAEKAJ8IAQoAkggBxDcAjYCfCAEKQMwISMMAgsgBCAEKAKAASAEKAJIIAcQpwEiBTYCfCAEIAU2AoABIAQoAnghBQsgBCkDMCEjIAUNAQsgI6ciBUEYdCAFQYD+A3FBCHRyIAVBCHZBgP4DcSAFQRh2cnIMAQsgI6cLIQUgBCAEKAJMIAQoAlBrNgJ0AkAgBC0AA0EEcQRAIAUgBCgCfEcNAQsgBEEAOgBAIARCADcDMAwYCyAEQRU2AogBIARBwObAADYChAEMGAsgBC0AASIFQQFxBEAgBCAELQBAIgVB+AFxOgBAIAQgBCkDMCAFQQdxrYg3AzBBECEGDBcLIAQpAzAhIyAELQBAIgZBAk0EQCAEKAI4IgcgBCgCPEYEQEEAIQhBDSEFDBoLIAQgB0EBajYCOCAHMQAAIAathiAjhCEjIAZBCHIhBgsgBCAGQQFrOgBAIAQgI0IBiCIkNwMwIAQgI6dBAXEgBXI6AAECQAJAAkACQCAkp0EDcUEBaw4DAQIDAAsgBCAGQQNrOgBAIAQgI0IDiDcDMEEOIQYMGQtBACEIIARBADoAoAEgBEEFNgKcASAEQQA6AJgBIARBCTYClAEgBCAGQQNrOgBAIAQgI0IDiDcDMEERIQZBESEFIAQtAARBBkcNGAwaCyAEIAZBA2s6AEAgBCAjQgOINwMwQRghBgwXCyAEQRM2AogBIARBuOfAADYChAFBfSEIIAQgBkEDazoAQCAEICNCA4g3AzBBHiEFDBgLAkAgBCgCeCILQYAEcQRAAkAgBC0AQCIKQQ9LDQBBACEIQQghBSAEKAI4IgkgBCgCPCIHRg0aIAQgCUEBaiIGNgI4IAQgCq0iJEIIfCIjPABAIAQgBCkDMCAJMQAAICSGhCIkNwMwIApBB0sNACAGIAdGDRogBCAJQQJqNgI4IAQgCkEQcjoAQCAEIAkxAAEgI4YgJIQ3AzALIAQtAANBBHEEQCAELwF8IAQoAjBHDQILIARBADoAQCAEQgA3AzALIAQoAowBIgUEQCAFIAtBCXZBAXE2AiwgBCgCjAFBATYCMCAEKAJ4IQsLQQwhBiAELQADQQRxRSALRXINFiAEQgA3AnwMFgsgBEEUNgKIASAEQfPmwAA2AoQBDBYLAkAgBCgCeCITQYAgcQRAQQchBSAEKAJwDQFBACEIDBgLQQghBiAEKAKMASIFRQ0VIAVBADYCJAwVCwJAIAQoAjwiCiAEKAI4IglGBEBBACEHDAELIAogCWshB0EAIQYDQCAGIAlqLQAABEAgCSAGQQFqIgZqIApHDQEMAgsLIAZBAWohBwsCQCAEKAKMASIGRQ0AIAYoAiQiCkUNACAGKAIoIgYgBCgCWCIITwRAIAYgCGsiBiAHIAYgB0kbIgYEQCAIIApqIAkgBvwKAAALIAQgBCgCWCAGajYCWCAEKAJ4IRMMAQtBoMzIAEESQbTMyAAQ3AcACwJAIBNBgARxRQ0AIAQtAANBBHFFDQAgBCAEKAJ8IAkgBxCnATYCfAtBASELAkAgB0UNACAHIAlqQQFrIgZFDQAgBi0AAEEARyELCyAEIAQoAjwiCiAEKAI4IAdqIgYgBiAKSxsiBzYCOEEIIQYgC0UgByAKR3INFEEAIQgMFgsCQAJAIAQoAngiE0GAEHEEQEEGIQUgBCgCcA0BQQAhCAwYCyAEKAKMASIFRQ0BIAVBADYCHAwBCwJAIAQoAjwiCiAEKAI4IglGBEBBACEHDAELIAogCWshB0EAIQYDQCAGIAlqLQAABEAgCSAGQQFqIgZqIApHDQEMAgsLIAZBAWohBwsCQCAEKAKMASIGRQ0AIAYoAhwiCkUNACAGKAIgIgYgBCgCWCIITwRAIAYgCGsiBiAHIAYgB0kbIgYEQCAIIApqIAkgBvwKAAALIAQgBCgCWCAGajYCWCAEKAJ4IRMMAQtB/MvIAEESQZDMyAAQ3AcACwJAIBNBgARxRQ0AIAQtAANBBHFFDQAgBCAEKAJ8IAkgBxCnATYCfAtBASELAkAgB0UNACAHIAlqQQFrIgZFDQAgBi0AAEEARyELCyAEIAQoAjwiCiAEKAI4IAdqIgYgBiAKSxsiBjYCOCALRSAGIApHcg0AQQAhCAwWCyAEQQA2AlhBByEGDBMLAkAgBCgCeCIIQYAIcUUNACAEKAI8IAQoAjgiCmsiBSAEKAJYIgYgBSAGSRsiCQRAAkAgBCgCjAEiBUUNACAFKAIQIgdFDQAgCSAFKAIYIgggBSgCFCAGayIGayIFQQAgBSAITRsiBSAFIAlLGyIFBEAgByAIIAYgBiAISxtqIAogBfwKAAALIAQoAnghCAsCQCAIQYAEcUUNACAELQADQQRxRQ0AIAQoAjwgBCgCOCIGayIFIAlPBEAgBCAEKAJ8IAYgCRCnATYCfAwBC0EAIAkgBUHsy8gAENUHAAsgBCAEKAJwIAlrNgJwIAQgBCgCWCAJayIGNgJYIAQgBCgCPCIHIAQoAjggCWoiBSAFIAdLGzYCOAsgBkUNAEEAIQhBBSEFDBULIARBADYCWEEGIQYMEgsCQAJAIAQoAngiCkGACHEEQCAEKQMwISMCQCAELQBAIglBD0sNAEEAIQhBBCEFIAQoAjgiCyAEKAI8IgdGDRcgBCALQQFqIgY2AjggBCAJrSIlQgh8IiQ8AEAgBCALMQAAICWGICOEIiM3AzAgCUEHSw0AIAYgB0YNFyAEIAtBAmo2AjggBCAJQRByOgBAIAQgCzEAASAkhiAjhCIjNwMwCyAEICOnIgY2AlggBCgCjAEiBQR/IAUgBjYCFCAEKAJ4BSAKC0GABHFFDQIgBC0AA0EEcQ0BDAILQQUhBiAEKAKMASIFRQ0TIAVBADYCEAwTCyAMIAQpAzA9ARAgBCAEKAJ8IAxBEGpBAhCnATYCfAsgBEEAOgBAIARCADcDMEEFIQYMEQtBDSEGIAQtAAMiB0UNECAEKQMwISMCQAJAIAQtAEAiCkEPSw0AIAQoAjgiCCAEKAI8IgZGDQEgBCAIQQFqIgU2AjggBCAKrSIlQgh8IiQ8AEAgBCAIMQAAICWGICOEIiM3AzAgCkEHSw0AIAUgBkYNASAEIAhBAmo2AjggBCAKQRByOgBAIAQgCDEAASAkhiAjhCIjNwMwCwJAIAdBAnFBACAjQp+WAlEbRQRAAkAgBCgCjAEiBQR/IAVBfzYCMCAELQADBSAHC0EBcUUNACAEKQMwIiNCCIZCgP4DgyAjQgiIfEIfgkIAUg0AICNCD4NCCFINAiAEICNCBIgiJDcDMCAEIAQtAEBBBGs6AEAgJKdBD3EiBkEIaiEHIAQtAAIiBQR/IAUFIAQgBzoAAiAHCyAHSSAGQQdLckUEQCAEQoCAgIAQNwN4IARBADoAQCAEQgA3AzAgBEEBIAd0NgKQAUEMQRsgI0KAwACDUBshBgwVCyAEQRQ2AogBIARBh+fAADYChAEMFQsgBEEXNgKIASAEQZLmwAA2AoQBDBQLIAQtAAJFBEAgBEEPOgACCyAMQZ+WAjsAECAEQQAgDEEQakECEKcBNgJ8IARBADoAQCAEQgA3AzBBASEGDBILIARBGzYCiAEgBEHY6MAANgKEAQwSC0EAIQVBACEIDBILIARBHTYCiAEgBEGb58AANgKEAQwQC0ECIQggBC0AAUECcUUEQEEcIQUMEQsgBEEBNgJ8QQwhBgwOCyAEKQMwISMCQCAELQBAIgpBH0sNAEEAIQhBGyEFIAQoAjgiCSAEKAI8IgdGDRAgBCAJQQFqIgY2AjggBCAKrSImQgh8IiQ8AEAgBCAJMQAAICaGICOEIiM3AzAgCkEXSw0AIAYgB0YNECAEIAlBAmoiBjYCOCAEICZCEHwiJTwAQCAEIAkxAAEgJIYgI4QiIzcDMCAKQQ9LDQAgBiAHRg0QIAQgCUEDaiIGNgI4IAQgJkIYfCIkPABAIAQgCTEAAiAlhiAjhCIjNwMwIApBB0sNACAGIAdGDRAgBCAJQQRqNgI4IAQgCkEgcjoAQCAEIAkxAAMgJIYgI4QiIzcDMAsgBEEAOgBAIARCADcDMCAEICOnIgVBGHQgBUGA/gNxQQh0ciAFQQh2QYD+A3EgBUEYdnJyNgJ8QRwhBgwNCyAEKQMwISMCQCAELQBAIgZBDUsNAEEAIQhBGCEFIAQoAjgiCSAEKAI8IgpGDQ8gBCAJQQFqIgc2AjggBCAGrSIkQgh8IiU8AEAgBCAJMQAAICSGICOEIiM3AzAgBkEFSwRAICWnIQYMAQsgByAKRg0PIAQgCUECajYCOCAEIAZBEHIiBjoAQCAEIAkxAAEgJYYgI4QiIzcDMAsgBCAGQQ5rOgBAIAQgI0IOiDcDMCAEICOnIgdBH3EiBkGBAmo2AhwgBCAHQQV2QR9xIgVBAWo2AiAgBCAHQQp2QQ9xQQRqNgIYIAZBHUsgBUEdS3JFBEAgBEEANgIkQRkhBgwNCyAEQSQ2AogBIARB1+PAADYChAEMDQsDQCAEKAJMIgUgBCgCUCIHRgRAQQAhCEEXIQUMDwsgBSAHayELAkAgByAEKAJcIgVPBEAgFCAFIAsgBCgCWCIFIAUgC0sbIgUQ+AIMAQsgBSAHayIJIAQoAhBNBEAgBCgCDCIFQUBqIgdBQU8NESAUIA4gB0EAIAUgB08bIAkgBCgCFCIFayIIayAFIAlrIAUgCUkiBRsiCiAKIAsgBCgCWCIHIAggCSAFGyIFIAUgB0sbIgUgBSALSxsiBWoQjgUMAQsgBC0AAUEEcQRAQR4hBSAEQR42AogBIARB1ebAADYChAFBfSEIDBALQcDKyABB1QBBxMzIABDbBwALIAQgBCgCWCIHIAVrNgJYIAUgB0cNAAsMCwsCQCAEKAJgIglFBEAgBCgCWCEGDAELIAQpAzAhIwJAIAQtAEAiBSAJTwRAIAUhCAwBCyAEKAI4IQYgBCgCPCEKA0AgBiAKRgRAQQAhCEEUIQUMEAsgBCAGQQFqIgc2AjggBCAFQQhqIgg6AEAgBCAGMQAAIAWthiAjhCIjNwMwIAchBiAJIAgiBUH/AXFLDQALCyAEIAggCWs6AEAgBCAjIAmtiDcDMCAEIAQoAmQgCWo2AmQgBCAEKAJYICNCfyAJQT9xrYZCf4WDp2oiBjYCWAsgBCAGNgJoQRUhBgwKCyAEKAJQIgcgBCgCTCIFRgRAQQAhCEETIQUMDAsgBSAHSwRAIAQoAlghBSAEIAdBAWo2AlAgBCgCSCAHaiAFOgAADAoLIAcgBUHc0MgAEK4HAAsgBEESOgAAAkAgBCgCPCIIIAQoAjgiCmtBD0kNACAEKAJMIAQoAlBrQYMCTQ0AIAQQqwEgBC0AACIGQRJHDQkgBCgCPCEIIAQoAjghCgsgDEEYaiAUQQhqKAIANgIAIARBADYCUCAUKQIAISQgBEIBNwNIIAwgJDcDECAMIBUoAAA2AgggDCAVQQNqKAAANgALQYAEIRJB0LjIACEJAkACQAJAAkAgBC0AmAFBAWsOAwABAgMLQbQKIRIgHSEJDAILQbQKIRIgGyEJDAELQdAEIRIgGSEJC0EgIQdB0MjIACETAkACQAJAAkAgBC0AoAFBAWsOAwABAgMLQbQKIQcgHSETDAILQbQKIQcgGyETDAELQdAEIQcgGSETCyAELQBAIREgBCkDMCEjAkACQANAQRIhCwNAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgC0H/AXFBE2sOBQQBCAILAAsgCCAKa0EPTwRAIAwoAhQgDCgCGGtBgwJLDQwLIARBADYCZCAKIQUgESEGIBIgI0J/IAQ1ApQBhkJ/hSImg6ciC0sNAgwYCyAEKAJgIgtFBEAgBCgCWCEGDAYLIAohBiALIBEiBUH/AXFLDQMgBiENDAQLQRchCyAEKAJgIg1FDRMgCiEGIA0gESIFQf8BcUsNBiAGIQ8MBwsDQCAJIAtBAnRqIg0tAAMiCyAGQf8BcU0NEiAFIAhHBEAgBq0hJSAFMQAAISQgBUEBaiEFIAZBCGohBiASICQgJYYgI4QiIyAmg6ciC00NFwwBCwtBEiEFIARBEjoAACAUIAwpAxA3AgAgBCAINgI8IAQgCDYCOCAEICM3AzAgFSAMKAIINgAAIBVBA2ogDCgACzYAACAUQQhqIAxBGGooAgA2AgAgBCARIAhBA3RqIApBA3RrOgBAQQAhCAwgCyAMKAIYIgYgDCgCFCIFRwRAIAUgBk0NCSAMKAIQIAZqIAQoAlg6AAAgDCAGQQFqNgIYDBMLQRMhBSAEQRM6AAAgFCAMKQMQNwIAIAQgEToAQCAEIAg2AjwgBCAKNgI4IAQgIzcDMCAVIAwoAgg2AAAgFUEDaiAMKAALNgAAIBRBCGogDEEYaigCADYCAEEAIQgMHwsDQCAGIAhGDQkgBjEAACAFrYYgI4QhIyAGQQFqIg0hBiALIAVBCGoiBUH/AXFLDQALCyAEIAQoAmQgC2o2AmQgBCAEKAJYICNCfyALQT9xrYZCf4WDp2oiBjYCWCAFIAtrIREgIyALrYghIyANIQoLIAQgBjYCaEEVIQsMDgsgCiEFIBEhBiAHICNCfyAENQKcAYZCf4UiJoOnIgtNDQsDQCATIAtBAnRqIg0tAAMiCyAGQf8BcU0NCyAFIAhHBEAgBq0hJSAFMQAAISQgBUEBaiEFIAZBCGohBiAHICQgJYYgI4QiIyAmg6ciC00NDQwBCwtBFSEFIARBFToAACAUIAwpAxA3AgAgBCAINgI8IAQgCDYCOCAEICM3AzAgFSAMKAIINgAAIBVBA2ogDCgACzYAACAUQQhqIAxBGGooAgA2AgAgBCARIAhBA3RqIApBA3RrOgBAQQAhCAwbCwNAIAYgCEYNBiAGMQAAIAWthiAjhCEjIAZBAWoiDyEGIA0gBUEIaiIFQf8BcUsNAAsLIAQgBCgCZCANajYCZCAEIAQoAlwgI0J/IA1BP3GthkJ/hYOnajYCXCAFIA1rIREgIyANrYghIyAPIQoMCwsgDCgCFCIFIAwoAhgiBkYNBCAFIAZrIRYgBiAEKAJcIgVPBEAgDEEQaiAFIBYgBCgCWCIFIAUgFksbIgYQ+AIMBwsgBSAGayIPIAQoAhBNBEAgBCgCDCIFQUBqIgZBQU8NGiAMQRBqIA4gBkEAIAUgBk8bIA8gBCgCFCIFayINayAFIA9rIAUgD0kiBRsiCyALIBYgBCgCWCIGIA0gDyAFGyIFIAUgBksbIgUgBSAWSxsiBmoQjgUMBwsgBC0AAUEEcUUNBSAUIAwpAxA3AgAgBCAROgBAIAQgCDYCPCAEIAo2AjggBCAjNwMwIBUgDCgCCDYAAEEeIQUgBEEeNgKIASAEQdXmwAA2AoQBIARBHjoAACAVQQNqIAwoAAs2AAAgFEEIaiAMQRhqKAIANgIAQX0hCAwYCyAEQRI6AAAgFCAMKQMQNwIAIAQgEToAQCAEIAg2AjwgBCAKNgI4IAQgIzcDMCAVIAwoAgg2AAAgFUEDaiAMKAALNgAAIBRBCGogDEEYaigCADYCACAEEKsBIAQtAAAhBgwVCyAGIAVB3NDIABCuBwALQRQhBSAEQRQ6AAAgFCAMKQMQNwIAIAQgCDYCPCAEIAg2AjggBCAjNwMwIBUgDCgCCDYAACAVQQNqIAwoAAs2AAAgFEEIaiAMQRhqKAIANgIAIAQgESAIQQN0aiAKQQN0azoAQEEAIQgMFQtBFiEFIARBFjoAACAUIAwpAxA3AgAgBCAINgI8IAQgCDYCOCAEICM3AzAgFSAMKAIINgAAIBVBA2ogDCgACzYAACAUQQhqIAxBGGooAgA2AgAgBCARIAhBA3RqIApBA3RrOgBAQQAhCAwUC0EXIQUgBEEXOgAAIBQgDCkDEDcCACAEIBE6AEAgBCAINgI8IAQgCjYCOCAEICM3AzAgFSAMKAIINgAAIBVBA2ogDCgACzYAACAUQQhqIAxBGGooAgA2AgBBACEIDBMLQcDKyABB1QBB3MvIABDbBwALIAQgBCgCWCIFIAZrNgJYQRJBFyAFIAZGGyELDAMLIA0vAQAhDwJAAkAgDS0AAiIcQQ9LBEAgCyENDAELICNCfyALIBxqQT9xrYZCf4UiJoOnIAt2IA9qIg0gB08NASALQR9xIRYCQANAIBMgDUECdGoiGC0AAyINIAtqQf8BcSAGQf8BcU0NASAFIAhHBEAgBq0hJSAFMQAAIAVBAWohBSAGQQhqIQYgJYYgI4QiIyAmg6cgFnYgD2oiDSAHTw0EDAELC0EVIQUgBEEVOgAAIBQgDCkDEDcCACAEIAg2AjwgBCAINgI4IAQgIzcDMCAVIAwoAgg2AAAgFUEDaiAMKAALNgAAIBRBCGogDEEYaigCADYCACAEIBEgCEEDdGogCkEDdGs6AEBBACEIDBMLIBgtAAIhHCAYLwEAIQ8gBCAEKAJkIAtqNgJkIAYgC2shBiAjIAutiCEjCyAGIA1rIREgIyANrYghIyAcQcAAcUUEQCAEIBxBD3E2AmAgBCAPQf//A3E2AlxBFiELIAUhCgwECyAUIAwpAxA3AgAgBCAROgBAIAQgCDYCPCAEIAU2AjggBCAjNwMwIBUgDCgCCDYAACAEQRY2AogBIARBgejAADYChAFBHiEFIARBHjoAACAVQQNqIAwoAAs2AAAgFEEIaiAMQRhqKAIANgIAQX0hCAwRCyANIAdBzMvIABCuBwALIAsgB0G8y8gAEK4HAAsgDS8BACEPAkAgDS0AAiIcRQRAQQAhDSAFIQpBACEcDAELQQAhDSAcQQ9LBEAgBSEKDAELAkAgEiAjQn8gCyAcakE/ca2GQn+FIiaDp0H//wNxIAtBD3EiGHYgD2pB//8DcSINTQ0AAkADQCAJIA1BAnRqIg0tAAMiFiALakH/AXEgBkH/AXFNDQEgBSAIRwRAIAatISUgBTEAACEkIAVBAWohBSAGQQhqIQYgEiAkICWGICOEIiMgJoOnQf//A3EgGHYgD2pB//8DcSINTQ0DDAELC0ESIQUgBEESOgAAIBQgDCkDEDcCACAEIAg2AjwgBCAINgI4IAQgIzcDMCAVIAwoAgg2AAAgFUEDaiAMKAALNgAAIBRBCGogDEEYaigCADYCACAEIBEgCEEDdGogCkEDdGs6AEBBACEIDBELIAYgC2shBiAjIAutiCEjIA0tAAIhHCANLwEAIQ8gCyENIAUhCiAWIQsMAQsgDSASQazLyAAQrgcACyAEIA9B//8DcTYCWCAEIA0gC0H/AXFqNgJkIAYgC2shESAjIAutiCEjQRMhCyAcRQ0AIBxBIHENAiAcQcAAcUUEQCAEIBxBD3E2AmBBFCELDAELCwtBHiEFIARBHjoAACAUIAwpAxA3AgAgBCAROgBAIAQgCDYCPCAEIAo2AjggBCAjNwMwIBUgDCgCCDYAACAEQRw2AogBIARB5efAADYChAEgFUEDaiAMKAALNgAAIBRBCGogDEEYaigCADYCAEF9IQgMDAtBDCEGIARBDDoAACAEQX82AmQgFCAMKQMQNwIAIAQgEToAQCAEIAg2AjwgBCAKNgI4IAQgIzcDMCAVIAwoAgg2AAAgFUEDaiAMKAALNgAAIBRBCGogDEEYaigCADYCAAwJCyALIBJBnMvIABCuBwALIAQgBC0AQCIHQfgBcToAQCAEIAQpAzAgB0EHca2IIiM3AzACQCAHQR9LDQBBACEIQQ4hBSAEKAI4IgkgBCgCPCIKRg0KIAQgCUEBaiIGNgI4IAQgB61CGIMiJkIIfCIkPABAIAQgCTEAACAmhiAjhCIjNwMwIAdBGHEiB0EYRg0AIAYgCkYNCiAEIAlBAmoiBjYCOCAEICZCEHwiJTwAQCAEIAkxAAEgJIYgI4QiIzcDMCAHQQ9LDQAgBiAKRg0KIAQgCUEDaiIGNgI4IAQgJkIYfCIkPABAIAQgCTEAAiAlhiAjhCIjNwMwIAcNACAGIApGDQogBEEgOgBAIAQgCUEEajYCOCAEIAkxAAMgJIYgI4QiIzcDMAsgI0IQiCAjhUL//wODQv//A1EEQEEAIQggBEEAOgBAIARCADcDMCAEICOnQf//A3E2AlhBDyEGIAQtAARBBkcNCEEOIQUMCgsgBEEdNgKIASAEQfvjwAA2AoQBDAgLQQ0hBiAELQAEQQVrQf8BcUECTw0GQQAhCEEMIQUMCAtBHSEFIAQtAAMiB0UNByAEKAJ4RQ0HAkAgBC0AQCIJQR9LDQBBACEIQQshBSAEKAI4IhkgBCgCPCIKRg0IIAQgGUEBaiIGNgI4IAQgCa0iJkIIfCIjPABAIAQgBCkDMCAZMQAAICaGhCIkNwMwIAlBF0sNACAGIApGDQggBCAZQQJqIgY2AjggBCAmQhB8IiU8AEAgBCAZMQABICOGICSEIiQ3AzAgCUEPSw0AIAYgCkYNCCAEIBlBA2oiBjYCOCAEICZCGHwiIzwAQCAEIBkxAAIgJYYgJIQiJDcDMCAJQQdLDQAgBiAKRg0IIAQgGUEEajYCOCAEIAlBIHI6AEAgBCAZMQADICOGICSENwMwCwJAIAdBBHEEQCAEKAJUIAQoAjBHDQELIARBADoAQCAEQgA3AzBBHSEFQQEhCAwICyAEQRc2AogBIARBqebAADYChAEMBgsCQCAELQBAIgpBD0sNAEEAIQhBAyEFIAQoAjgiCSAEKAI8IgdGDQcgBCAJQQFqIgY2AjggBCAKrSIkQgh8IiM8AEAgBCAEKQMwIAkxAAAgJIaEIiQ3AzAgCkEHSw0AIAYgB0YNByAEIAlBAmo2AjggBCAKQRByOgBAIAQgCTEAASAjhiAkhDcDMAsgBCgCjAEiBQRAIAUgBC0AMDYCCCAEKAKMASAEKQMwQgiIPgIMCwJAIAQtAHlBAnFFDQAgBC0AA0EEcUUNACAMIAQpAzA9ARAgBCAEKAJ8IAxBEGpBAhCnATYCfAsgBEEAOgBAIARCADcDMEEEIQYMBAsCQCAELQBAIgpBH0sNAEEAIQhBAiEFIAQoAjgiCSAEKAI8IgdGDQYgBCAJQQFqIgY2AjggBCAKrSImQgh8IiM8AEAgBCAEKQMwIAkxAAAgJoaEIiQ3AzAgCkEXSw0AIAYgB0YNBiAEIAlBAmoiBjYCOCAEICZCEHwiJTwAQCAEIAkxAAEgI4YgJIQiJDcDMCAKQQ9LDQAgBiAHRg0GIAQgCUEDaiIGNgI4IAQgJkIYfCIjPABAIAQgCTEAAiAlhiAkhCIkNwMwIApBB0sNACAGIAdGDQYgBCAJQQRqNgI4IAQgCkEgcjoAQCAEIAkxAAMgI4YgJIQ3AzALIAQoAowBIgUEQCAFIAQpAzA+AgQLAkAgBC0AeUECcUUNACAELQADQQRxRQ0AIAwgBCkDMD4CECAEIAQoAnwgDEEQakEEEKcBNgJ8CyAEQQA6AEAgBEIANwMwQQMhBgwDCyAEKQMwISMCQCAELQBAIgpBD0sNAEEAIQggBCgCOCIJIAQoAjwiB0YEQEEBIQUMBgtBASEFIAQgCUEBaiIGNgI4IAQgCq0iJUIIfCIkPABAIAQgCTEAACAlhiAjhCIjNwMwIApBB0sNACAGIAdGDQUgBCAJQQJqNgI4IAQgCkEQcjoAQCAEIAkxAAEgJIYgI4QiIzcDMAsgBCAjpyIGNgJ4AkACQCAGQf8BcUEIRgRAIAZBgMADcQ0BIAQoAowBIgUEfyAFIAZBCHZBAXE2AgAgBCgCeAUgBgtBgARxRQ0CIAQtAANBBHFFDQIgBCgCfCEFIAwgBCkDMD0AECAEIAUgDEEQakECEKcBNgJ8DAILIARBGzYCiAEgBEHY6MAANgKEAQwFCyAEQRk2AogBIARB35rAADYChAEMBAsgBEEAOgBAIARCADcDMEECIQYMAgtBDCEGIAQoAlgiC0UNASAEKAI4IRMgBCgCPCEHIAQoAlAhCCAEKAJIIQogBCgCTCEJAkADQCAHIBNrIgcgBCgCTCAIayIFIAsgBSALSRsiBSAFIAdLGyINRQRAQQAhCEEPIQUMBgsgCCAJTQRAIA0gCSAIayIFSw0CIA0EQCAIIApqIBMgDfwKAAALIAQgCCANaiIINgJQIAQgBCgCWCANayILNgJYIAQgBCgCPCIHIAQoAjggDWoiBSAFIAdLGyITNgI4IAtFDQQMAQsLIAggCSAJQfzQyAAQ1QcAC0EAIA0gBUHs0MgAENUHAAsCQCAEKAIkIgYgBCgCGCIKTw0AQRMgBiAGQRNNGyENIAQoAjghCyAEKQMwISQgBC0AQCEFIAQoAjwhCQJAA0ACQCAFQf8BcUECSwRAICQhIyAFIQgMAQsgCSALRgRAQQAhCEEZIQUMBwsgBCALQQFqIgc2AjggBCAFQQhyIgg6AEAgBCALMQAAIAWthiAkhCIjNwMwIAchCwsgBiANRg0BIAQgCEEDayIFOgBAIAQgI0IDiCIkNwMwIAQgBkEBaiIHNgIkIBogBkGruMgAai0AAEEBdGogI6dBB3E7AQAgByIGIApHDQALIAohBgwBCyANQRNB1MzIABCuBwALIAZBEk0EQAJAIAZBC00EQCAGQau4yABqIQUgBkETIAZrIgpBGHEiB2ohBiAHIQgDQCAaIAX9XQAAIiv9iQH9qQEiLP0bAEEBdGpBADsBACAaICz9GwFBAXRqQQA7AQAgGiAs/RsCQQF0akEAOwEAIBogLP0bA0EBdGpBADsBACAaICsgLP0NBAUGBwAAAAAAAAAAAAAAAP2JAf2pASIr/RsAQQF0akEAOwEAIBogK/0bAUEBdGpBADsBACAaICv9GwJBAXRqQQA7AQAgGiAr/RsDQQF0akEAOwEAIAVBCGohBSAIQQhrIggNAAsgByAKRg0BCwNAIBogBkGruMgAai0AAEEBdGpBADsBACAGQQFqIgZBE0cNAAsLIARBEzYCJAsgDEEQakEAIBpBEyAdQbQKQQcgIBCsASAMKAIQRQRAIAwoAhQhBiAMKAIYIQUgBEEBOgCYASAEIAU2AiggBCAGNgKUASAEQQA2AiRBGiEGDAELCyAEQRk2AogBIARBxprAADYChAELQX0hCEEeIQULIAQgBToAACAQKAIgIQkgECAQKAI8Ig4oAjgiCzYCICAQIA4oAjwgC2s2AiQgECAOKAJMIgUgDigCUCIGazYCMCAQIAYgDigCSCISaiIKNgIsIBAgECgCKCALIAlrajYCKCAOIA4oAnQgBiAFa2oiDyAOKAJUaiIFNgJUIBAgBTYCNCAQIA4oAnwiGTYCUAJAAkACQAJAAkACQAJAAkACQCAOQQxqKAIAIhNBQGpBQUkEQAJAIBNBwABLDQAgD0UNCiAOLQAAIgVBHksNAEEBIAV0IgVBgIyAgARxDQogBUGAkARxRQ0AIA4tAARBBEYNCgsgBiAPSQ0BIA4tAANBBHEhBiAOKAJ4IQcgE0FAaiIFQQAgBSATTRsiFiAPSwRAIA8gDyAWIA4oAhQiEWsiGyAPIBtJGyIYayENIBIgGGohHSAGRQRAIBEgE0sNBCAYIBMgEWsiBUsNBSAOKAIIIQUgGARAIAUgEWogEiAY/AoAAAsgDyAbTQ0KIA1FDQkgBSAdIA38CgAADAkLIBEgE0sNBSAYIBMgEWsiBUsNBiAOKAIIIgYgEWohBSAHRQRAIBgEQCAFIBIgGPwKAAALIA4gGSASIBgQ3AIiBTYCfCAPIBtNDQogDQRAIAYgHSAN/AoAAAsgDiAFIB0gDRDcAjYCfAwJCyAOIA4oAoABIBIgGBCnATYCgAEgGARAIAUgEiAY/AoAAAsgDyAbTQ0JIA4gDigCgAEgHSANEKcBNgKAASANRQ0IIAYgHSAN/AoAAAwICyASIA8gFmsiBWohGwJAIAYEQCAHDQEgGSASIAUQ3AIhBSAWBEAgDigCCCAbIBb8CgAACyAOIAUgGyAWENwCNgJ8DAgLIBZFDQcgDigCCCAbIBb8CgAADAcLIA4oAoABIBIgBRCnASEGIA4oAgggDiAGIBsgFhCnATYCgAEgFkUNBiAbIBb8CgAADAYLDAkLQQAgDyAGQcTRyAAQ1QcACyARIBMgE0HwzsgAENUHAAtBACAYIAVB4M7IABDVBwALIBEgEyATQZDPyAAQ1QcAC0EAIBggBUGAz8gAENUHAAsgDiAWNgIQIA5BADYCFAwCCyAOIBY2AhAgDiANNgIUDAELIA4gESAYaiIFQQAgBSAWRxs2AhQgFiAOKAIQIgVNDQAgDiAFIBhqNgIQCyAOKAKEASIGBEACQCAOKAKIASIFBEAgBSAGakEBay0AAEUNAQtBjNHIAEElQbTRyAAQ5wgACyAQIAY2AjgLIBAgDi0AAEEMa0H/AXEiBUEGSQR/IAVBAnQoArzVSAVBAAsgDi0AQCAOLQABQQZ0QcAAcXJyNgJMAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAkgC0cEQCAfQf8BcUEERw0CIAhFDQEMAgsgH0H/AXFBBEcgD0EAR3EgCHINAQsgECAQKQMQIAsgHmutfCIjNwMQIBAgECkDGCAKIAJrrXwiJDcDGAwBCyAQIBApAxAgCyAea618IiM3AxAgECAQKQMYIAogAmutfCIkNwMYIAhBBGoOBwMDAwIHAQQAC0EBIQgMBgtBAiEIDAULQaS3yABBkwFB8LfIABDbBwALIBAgECkDACAjICh9fDcDACAQIBApAwggJCAnfXw3AwggCEECaw4CAQQCCyAQIBApAwAgIyAofXw3AwAgECAQKQMIICQgJ318NwMICyAXIBk2AgQgF0EBNgIADAMLIBAoAjgiBgR/IAxBEGogBgJAIAYtAABFBEBBACEHDAELIAZBAWohBkEAIQcDQCAGIAdqIAdBAWohBy0AAA0ACwsgBxD6AiAMKAIYIQZBACAMKAIUIAwoAhAbBUEACyEFIBcgBjYCCCAXIAU2AgQgF0EANgIADAILIBAgECkDACAjICh9fDcDACAQIBApAwggJCAnfXw3AwgLIBdBAjYCACAXIAg6AAQLIAxBIGokAAwBC0GEzsgAQcoAQdDOyAAQ5wgACyAXLQAEIQcgFygCACABIAEoAgwiCSABKAIIIAEpA0ggKn2naiIFIAUgCUsbIgg2AghBAkcEQCAAQRRB8JnHAEEWELsGDAMLIAEpA1AgKX2nIQUCQAJAAkAgB0EBaw4CAQIACyAhIANFcg0BIAVFDQIMAQsgISADRXINACAFRQ0BCwsgAEEEOgAAIAAgBTYCBAwBCwJAAkACQCABKAIoIgggASgCLCIJRiABKAIkIgogA01xRQRAIAEoAiAhByAIIAlJDQIgCiABKAIwIgZrIgUEQCAGIAdqQQAgBfwLAAsgFyABQThqIAcgChCoAyAXLQAAQQRHDQEgCiAXKAIEIglPBEAgASAKNgIwIAEgCTYCLEEAIQgMAwtBnIDHAEE2QdSAxwAQ5wgACyABQgA3AyggACABQThqIAIgAxCoAwwDCyAXKAIEIQYgFygCACEFIBcxAAAgASAKNgIwIAFCADcDKEEAIQlBACEIQgRSDQELIAcgCGohBgJAIAkgCGsiBSADIAMgBUsbIgNBAUcEQCADRQ0BIAIgBiAD/AoAAAwBCyACIAYtAAA6AAALIAAgAzYCBCAAQQQ6AAAgASAJIAMgCGoiACAAIAlLGzYCKAwBCyAAIAY2AgQgACAFNgIACyAXQRBqJAALuQYBBH8gACABaiECAkACQAJAIAAoAgQiA0EBcQ0AIANBAnFFDQEgACgCACIDIAFqIQEgACADayIAQdCLyQAoAgBGBEAgAigCBEEDcUEDRw0BQciLyQAgATYCACACIAIoAgRBfnE2AgQgACABQQFyNgIEIAIgATYCAA8LIAAgAxDQBAsCQAJAAkAgAigCBCIDQQJxRQRAIAJB1IvJACgCAEYNAiACQdCLyQAoAgBGDQMgAiADQXhxIgMQ0AQgACABIANqIgFBAXI2AgQgACABaiABNgIAIABB0IvJACgCAEcNAUHIi8kAIAE2AgAPCyACIANBfnE2AgQgACABQQFyNgIEIAAgAWogATYCAAsgAUGAAk8EQEEfIQIgAEIANwIQIAFB////B00EQCABQSYgAUEIdmciA2t2QQFxIANBAXRrQT5qIQILIAAgAjYCHCACQQJ0QaiIyQBqIQRBASACdCIDQcSLyQAoAgBxRQRAIAQgADYCACAAIAQ2AhggACAANgIMIAAgADYCCEHEi8kAQcSLyQAoAgAgA3I2AgAPCwJAAkAgASAEKAIAIgMoAgRBeHFGBEAgAyECDAELIAFBGSACQQF2a0EAIAJBH0cbdCEFA0AgAyAFQR12QQRxaiIEKAIQIgJFDQIgBUEBdCEFIAIhAyACKAIEQXhxIAFHDQALCyACKAIIIgEgADYCDCACIAA2AgggAEEANgIYDAULIARBEGogADYCACAAIAM2AhggACAANgIMIAAgADYCCAwDCwJAQcCLyQAoAgAiAkEBIAFBA3Z0IgNxRQRAQcCLyQAgAiADcjYCACABQfgBcUG4ickAaiIBIQIMAQsgAUH4AXEiAUG4ickAaiECIAFBwInJAGooAgAhAQsgAiAANgIIIAEgADYCDAwDC0HUi8kAIAA2AgBBzIvJAEHMi8kAKAIAIAFqIgE2AgAgACABQQFyNgIEIABB0IvJACgCAEcNAUHIi8kAQQA2AgBB0IvJAEEANgIADwtB0IvJACAANgIAQciLyQBByIvJACgCACABaiIBNgIAIAAgAUEBcjYCBCAAIAFqIAE2AgALDwsgACACNgIMIAAgATYCCAugBgEHfwJAAkACQCAAQSBJDQAgAEH/AEkEQEEBIQIMAwsCQCAAQYCABE8EQCAAQYCACEkNASAAQeD//wBxQeDNCkcgAEHwgzhJcSAA/RH9DBAU/f8ACP3/AAD9/7Ds/P/9rgH9DPD///9d9v//Hfr///r////9PP1TQQFzcSAAQYCCOGtB+uZUSXEgAEH+//8AcSIAQZ7wCkcgAEGunQtHcXEhAgwEC0GwicMAIQFBsonDACECIABBCHZB/wFxIQYDQAJAIAIhBCADIAEtAAEiAmohBQJAIAYgAS0AACIBRwRAIAEgBksNAgwBCyADIAVLIAVBnAJLckUEQCADQfyJwwBqIQEDQCACRQ0CIAJBAWshAiABLQAAIAFBAWohASAAQf8BcUcNAAsMBQsgAyAFQZwCQcyOwwAQ1QcACyAEQQJBACAEQfyJwwBHG2ohAiAFIQMgBCIBQfyJwwBHDQELC0EBIQJBACEBA0AgAUEBaiEEAkAgASwAmIxDIgNBAE4EQCAEIQEMAQsgBEGkAkcEQCABQZmMwwBqLQAAIANB/wBxQQh0ciEDIAFBAmohAQwBC0G8jsMAENAJAAsgACADayIAQQBIDQQgAkEBcyECIAFBpAJHDQALDAMLQYiDwwAhAUGKg8MAIQIgAEEIdkH/AXEhBwNAIAIhBCADIAEtAAEiAmohBQJAIAcgAS0AACIBRwRAIAEgB00NAQwECyADIAVLIAVB1AFLckUEQCADQeSDwwBqIQEDQCACRQ0CIAJBAWshAiABLQAAIAFBAWohASAAQf8BcUcNAAsMAwsgAyAFQdQBQcyOwwAQ1QcACyAEQQBBAiAEQeSDwwBGIgYbaiECIAUhAyAEIQEgBkUNAAsMAQtBACECDAELIABB//8DcSEDQQEhAkEAIQEDQCABQQFqIQQCQCABLAC4hUMiAEEATgRAIAQhAQwBCyAEQfgDRwRAIAFBuYXDAGotAAAgAEH/AHFBCHRyIQAgAUECaiEBDAELQbyOwwAQ0AkACyADIABrIgNBAEgNASACQQFzIQIgAUH4A0cNAAsLIAJBAXEL5gUBBX8gASgCACICQf///wNxIQMgAkGAgICAeHEhBiABKAIEIQQCQAJAIAJBgICA/AdxIgVBgICA/AdHBEAgBkEQdiEGIAVBgICAuARLDQEgBUGAgIDEA08EQCACQQx2IAJB/98AcUEAR3EgBUENdiADQQ12akGAgAFqIAZyaiEGDAMLIAVBgICAmANJDQIgA0GAgIAEciICQf4AIAVBF3YiA2t2IQUgAkEdIANrIgN2QQFxBH8gBUEDIAN0QQFrIAJxQQBHagUgBQsgBnIhBgwCCyADQQ12IAZBEHZyQYAEQQAgAxtyQYD4AXIhBgwBCyAGQYD4AXIhBgsgASgCCCEBIARB////A3EhAyAEQYCAgIB4cSEFAkAgBEGAgID8B3EiAkGAgID8B0cEQCAFQRB2IQUgAkGAgIC4BE0EQCACQYCAgMQDTwRAIARBDHYgBEH/3wBxQQBHcSACQQ12IANBDXZqQYCAAWogBXJqIQUMAwsgAkGAgICYA0kNAiADQYCAgARyIgNB/gAgAkEXdiICa3YhBCADQR0gAmsiAnZBAXEEfyAEQQMgAnRBAWsgA3FBAEdqBSAECyAFciEFDAILIAVBgPgBciEFDAELIANBDXYgBUEQdnJBgARBACADG3JBgPgBciEFCyABQf///wNxIQMgAUGAgICAeHEhBAJAIAFBgICA/AdxIgJBgICA/AdHBEAgBEEQdiEEIAJBgICAuARNBEAgAkGAgIDEA08EQCABQQx2IAFB/98AcUEAR3EgAkENdiADQQ12akGAgAFqIARyaiEEDAMLIAJBgICAmANJDQIgA0GAgIAEciIDQf4AIAJBF3YiAmt2IQEgA0EdIAJrIgJ2QQFxBH8gAUEDIAJ0QQFrIANxQQBHagUgAQsgBHIhBAwCCyAEQYD4AXIhBAwBCyADQQ12IARBEHZyQYAEQQAgAxtyQYD4AXIhBAsgACAEOwEaIAAgBTsBGCAAIAY7ARYL1wUDBH4IfwF7IAEpAxAgASkDGCACEOgDIQUgASgCCEUEQCABIAFBEGoQywELIAEoAgQiDCAFp3EhCSAFQhmIIghC/wCDQoGChIiQoMCAAX4hByABKAIAIQoCQAJAIAItAAAiEEELRwRAA0AgCSAKaikAACIGIAeFIgVCf4UgBUKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIFUEUEQANAIBAgCiAFeqdBA3YgCWogDHFBaGxqIg9BGGstAABGDQQgBUIBfSAFgyIFUEUNAAsLIAZCgIGChIiQoMCAf4MhBQJ/AkAgDUUEQCAFUA0BIAV6p0EDdiAJaiAMcSELCyAFIAZCAYaDQgBSDQVBAQwBC0EACyENIA5BCGoiDiAJaiAMcSEJDAALAAsgAigAASEQA0AgCSAKaikAACIGIAeFIgVCf4UgBUKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIFUEUEQANAIAogBXqnQQN2IAlqIAxxQWhsaiIPQRhrLQAAQQtGBEAgECAPQRdrKAAARg0ECyAFQgF9IAWDIgVQRQ0ACwsgBkKAgYKEiJCgwIB/gyEFAn8CQCANRQRAIAVQDQEgBXqnQQN2IAlqIAxxIQsLIAUgBkIBhoNCAFINBEEBDAELQQALIQ0gDkEIaiIOIAlqIAxxIQkMAAsACyAPQRBrIgH9AAMAIREgD0EIayAENwMAIAEgAzcDACAAIBH9CwMIIABCATcDAA8LIAogC2osAAAiCUEATgRAIAogCikDAEKAgYKEiJCgwIB/g3qnQQN2IgtqLQAAIQkLIAogC2ogCKdB/wBxIg06AAAgCiALQQhrIAxxakEIaiANOgAAIAEgASgCCCAJQQFxazYCCCABIAEoAgxBAWo2AgwgCiALQWhsaiIBQQhrIAQ3AwAgAUEQayADNwMAIAFBGGsgAjUAACACQQRqMQAAQiCGhDcDACAAQgA3AwAL0wUBCX8jAEEwayIEJAACQAJAAkACQAJAIAIgA0sEQAJ/AkACQCABIANBGGxqIgEoAhQiAkEETQRAIARBADYCCCAEQQA2AiwgAUEEaiIDIAJBAnRqIQggBEEsaiEJDAELIAEoAgghAyABKAIEIQEgBEEANgIIIARBADYCLCADIAFBAnRqIQggBEEsaiEJIAFBCEsNAQtBCCEGQQAhASAEQQxqIgchCiAJDAELIAQgBEEIakF/IAFBAWtndkEBahDrAyAEKAIAIgFBgYCAgHhHBEAgAQ0DQcD6xgBBEUGwrMcAEOcIAAsgBEEMaiEHIAQoAiwiBkEJSQRAIAYhASAHIQpBCCEGIAkMAQsgBCgCDCEBIAQoAhAhCiAHCyELIAEgBk8NAyAIIANrIgJBAnYiBSAGIAFBf3NqIgwgBSAMSRsiBUEHTSACQQNxcg0CIAFBAnQgCmoiAiADa0EQSQ0CIAEgBUEBaiIFIAVBA3EiBUEEIAUbayIFaiEBIAMgBUECdGoDQCACIAP9AAIA/QsCACADQRBqIQMgAkEQaiECIAVBBGsiBQ0ACyEDDAILIAMgAkHsnccAEK4HAAsgBCgCBBDoCQALIAogAUECdGohAgNAIAMgCEYNAiACIAMoAgA2AgAgAkEEaiECIANBBGohAyAGIAFBAWoiAUcNAAsgBiEBCyALIAE2AgAgAyAIRg0BA0ACfyAEKAIsIgZBCUkEQCAGIQIgByEFQQghBiAJDAELIAQoAgwhAiAEKAIQIQUgBwshASADKAIAIQsgAiAGRgRAIARBCGoQrwYgBCgCDCECIAQoAhAhBSAHIQELIAUgAkECdGogCzYCACABIAEoAgBBAWo2AgAgA0EEaiIDIAhHDQALDAELIAsgATYCAAsgACAE/QACCP0LAgAgAEEgaiAEQShqKQIANwIAIABBEGogBEEYav0AAgD9CwIAIARBMGokAAvTBQEJfyMAQTBrIgQkAAJAAkACQAJAAkAgAiADSwRAAn8CQAJAIAEgA0EYbGoiASgCFCICQQRNBEAgBEEANgIIIARBADYCLCABQQRqIgMgAkECdGohCCAEQSxqIQkMAQsgASgCCCEDIAEoAgQhASAEQQA2AgggBEEANgIsIAMgAUECdGohCCAEQSxqIQkgAUEISw0BC0EIIQZBACEBIARBDGoiByEKIAkMAQsgBCAEQQhqQX8gAUEBa2d2QQFqEOsDIAQoAgAiAUGBgICAeEcEQCABDQNBwPrGAEERQbCsxwAQ5wgACyAEQQxqIQcgBCgCLCIGQQlJBEAgBiEBIAchCkEIIQYgCQwBCyAEKAIMIQEgBCgCECEKIAcLIQsgASAGTw0DIAggA2siAkECdiIFIAYgAUF/c2oiDCAFIAxJGyIFQQdNIAJBA3FyDQIgAUECdCAKaiICIANrQRBJDQIgASAFQQFqIgUgBUEDcSIFQQQgBRtrIgVqIQEgAyAFQQJ0agNAIAIgA/0AAgD9CwIAIANBEGohAyACQRBqIQIgBUEEayIFDQALIQMMAgsgAyACQZSixwAQrgcACyAEKAIEEOgJAAsgCiABQQJ0aiECA0AgAyAIRg0CIAIgAygCADYCACACQQRqIQIgA0EEaiEDIAYgAUEBaiIBRw0ACyAGIQELIAsgATYCACADIAhGDQEDQAJ/IAQoAiwiBkEJSQRAIAYhAiAHIQVBCCEGIAkMAQsgBCgCDCECIAQoAhAhBSAHCyEBIAMoAgAhCyACIAZGBEAgBEEIahCvBiAEKAIMIQIgBCgCECEFIAchAQsgBSACQQJ0aiALNgIAIAEgASgCAEEBajYCACADQQRqIgMgCEcNAAsMAQsgCyABNgIACyAAIAT9AAII/QsCACAAQSBqIARBKGopAgA3AgAgAEEQaiAEQRhq/QACAP0LAgAgBEEwaiQAC9wFAgl/BX4jAEEQayILJAACQAJAAkACQAJAIAFQRQRAQaB/IAIgAXkiD6drIgZrwUHQAGxBsKcFakHOEG0iAkHRAE8NASALIAJBBHQiAikD8I5CIAEgD4YQxgZCAUFAIAYgAi8B+I5CamsiB0E/ca0iD4YiEUIBfSISIAspAwggCykDAEI/iHwiAYMiEFANAyACLwH6jkIhCCABIA+IpyIGQZDOAE8EQCAGQcCEPUkNAyAGQYDC1y9PBEBBCEEJIAZBgJTr3ANJIgIbIQlBgMLXL0GAlOvcAyACGyECDAYLQQZBByAGQYCt4gRJIgIbIQlBwIQ9QYCt4gQgAhshAgwFCyAGQeQATwRAQQJBAyAGQegHSSICGyEJQeQAQegHIAIbIQIMBQtBCkEBIAZBCUsiCRshAgwEC0HAmcIAQRxB3JnCABDnCAALIAJB0QBBgJnCABCuBwALQQRBBSAGQaCNBkkiAhshCUGQzgBBoI0GIAIbIQIMAQsgAEEANgIADAELIAkgCGtBAWrBIgggBcEiCkoEQCAHQf//A3EhDSAIIAVrwSAEIAggCmsgBEkbIgpBAWshDkEAIQcCQAJAAkADQCADIAdqIAYgAm4iDEEwajoAACAGIAIgDGxrIQYgByAORg0CIAcgCUYNASAHQQFqIQcgAkEKSSACQQpuIQJFDQALQeyZwgAQ1AkACyAHQQFqIQIgDUEBa0E/ca0hE0IBIQEDQCABIBOIUEUEQCAAQQA2AgAMBQsgAiAERg0CIAIgA2ogEEIKfiIQIA+Ip0EwajoAACABQgp+IQEgECASgyEQIAogAkEBaiICRw0ACyAAIAMgBCAKIAggBSAQIBEgARDLBAwDCyAAIAMgBCAKIAggBSAGrSAPhiAQfCACrSAPhiAREMsEDAILIAQgBEH8mcIAEK4HAAsgACADIARBACAIIAUgAUIKgCACrSAPhiAREMsECyALQRBqJAAL1QUCEX8BfiMAQRBrIgokACAKQQRqrUKAgICAEIQhFCAALQAMIQ8gACgCBCERIAAoAgAhECAAKAIIIgdBBGohCAJ/A0ACQCAMIhINACAEIQtBASEMAkACfyACIAVPBEADQCABIAVqIQYCQAJAAkACQAJAAkACQAJAIAIgBWsiCUEITwRAIAZBA2pBfHEiBCAGRg0BIAQgBmshBEEAIQMDQCADIAZqLQAAQQpGDQkgBCADQQFqIgNHDQALIAQgCUEIayIDSw0DDAILIAIgBUYNA0EAIQMDQCADIAZqLQAAQQpGDQggA0EBaiIDIAlHDQALDAULIAlBCGshA0EAIQQLA0BBgIKECCAEIAZqIg4oAgAiE0GKlKjQAHNrIBNyQYCChAggDkEEaigCACIOQYqUqNAAc2sgDnJxQYCBgoR4cUGAgYKEeEcNASAEQQhqIgQgA00NAAsLIAQgCUcNAQsgAiEFIAsMBgsgBCAGaiEGIAIgBGsgBWshCUEAIQMDQCADIAZqLQAAQQpGDQIgCSADQQFqIgNHDQALCyACIQUgCwwECyADIARqIQMLIAMgBWoiA0EBaiEFAkAgAiADTQ0AIAEgA2otAABBCkcNAEEAIQwgBSEEDAQLIAIgBU8NAAsLIAsLIQQgAiEDCwJAIA9BAXFFBEAgAEEBOgAMIBAEQCAKIBE2AgQgCiAUNwMIIAcoAgAgCCgCAEHu+cEAIApBCGoQxANFDQJBAQwFCyAHKAIAQbqQwwBBBCAIKAIAKAIMEQAADQIMAQsgDUUNACAHKAIAQQogCCgCACgCEBECAA0BIBBFBEAgBygCAEG6kMMAQQQgCCgCACgCDBEAAA0CDAELIAcoAgBB+fnBAEEHIAgoAgAoAgwRAAANAQsgDUEBaiENQQEhDyAHKAIAIAEgC2ogAyALayAIKAIAKAIMEQAARQ0BCwsgEkEBcwsgCkEQaiQAQQFxC/sFAQd/IwBBMGsiAyQAAkACQAJAAn8CQAJAAkACQAJAAkAgASgCFCICIAEoAhAiBUkEQCABKAIMIQQDQCACIARqLQAAIgdBCWsiCEEXS0EBIAh0QZOAgARxRXJFBEAgASACQQFqIgI2AhQgAiAFRw0BDAMLCyAHQe4ARg0ICyABKAIMIQQgAiAFTw0BIAFBDGohCANAIAIgBGotAABBCWsiB0EZSw0GQQEgB3RBk4CABHFFBEAgB0EZRw0HIAFBADYCCCABIAJBAWo2AhQgA0EgaiAIIAEQgQIgAygCJCIGIAMoAiAiBUECRg0IGiADKAIoIQIgBUEBcUUNBCACRQ0FIAIQcSIEDQZBASACEOEIAAsgASACQQFqIgI2AhQgAiAFRw0ACwsgBSECCyADQQU2AiAgA0EIaiAEIAUgAkEBaiIBIAUgASAFSRsQ+gEgA0EgaiADKAIIIAMoAgwQ2QcMBAsgAkUNACACEHEiBA0BQQEgAhDhCAALQQEhBCACRQ0EQQEgBiAC/AoAAAwECyACBEAgBCAGIAL8CgAACyACQYCAgIB4Rw0DIAQgARCXBgwBCyABIANBL2pB0IfBABD/ASABEJcGCyEGIABBgYCAgHg2AgAgACAGNgIEDAILIAEgAkEBaiIGNgIUAn8CQCAFIAZNDQAgASACQQJqIgc2AhQCQAJAIAQgBmotAABB9QBHDQAgByAGIAUgBSAGSRsiBkYNAiABIAJBA2oiCDYCFCAEIAdqLQAAQewARwRAIAghBwwBCyAGIAhGDQIgASACQQRqIgc2AhQgBCAIai0AAEHsAEYNAQsgA0EJNgIgIANBGGogBCAFIAcQ+gEgA0EgaiADKAIYIAMoAhwQ2QcMAgsgAEGAgICAeDYCAAwDCyADQQU2AiAgA0EQaiAEIAUgBhD6ASADQSBqIAMoAhAgAygCFBDZBwshAiAAQYGAgIB4NgIAIAAgAjYCBAwBCyAAIAI2AgggACAENgIEIAAgAjYCAAsgA0EwaiQAC48GAgd/An4jAEEwayICJAACQAJAIAACfQJAAn8CQAJAAkACQAJAIAEoAhQiAyABKAIQIgRJBEAgASgCDCEFA0AgAyAFai0AACIGQQlrIghBF0tBASAIdEGTgIAEcUVyRQRAIAEgA0EBaiIDNgIUIAMgBEcNAQwDCwsgBkHuAEYNCQsgASgCDCEFIAMgBE8NAQNAAkAgAyAFai0AACIGQQlrDiUAAAUFAAUFBQUFBQUFBQUFBQUFBQUFBQAFBQUFBQUFBQUFBQUEBQsgASADQQFqIgM2AhQgAyAERw0ACwsgBCEDCyACQQU2AhggAiAFIAQgA0EBaiIBIAQgASAESRsQ+gEgAkEYaiACKAIAIAIoAgQQ2QcMAwsgASADQQFqNgIUIAJBGGogAUEAEN0DIAIpAxgiCkIDUQ0BIAIpAyAhCQJAAkAgCqdBAWsOAgABBQsgCbUMBQsgCbQMBAsgBkEwa0H/AXFBCk8EQCABIAJBL2pB4IvBABD/ASABEJcGDAILIAJBGGogAUEBEN0DIAIpAxgiCkIDUQ0AIAIpAyAhCQJAAkACQCAKp0EBaw4CAQIACyAJv7ZDAACAP0MAAIC/IAlCAFkbmAwFCyAJtQwECyAJtAwDCyACKAIgCyEDIABBAjYCACAAIAM2AgQMAwsgCb+2QwAAgD9DAACAvyAJQgBZG5gLOAIEIABBATYCAAwBCyABIANBAWoiBzYCFAJ/AkAgBCAHTQ0AIAEgA0ECaiIGNgIUAkACQCAFIAdqLQAAQfUARw0AIAYgByAEIAQgB0kbIgdGDQIgASADQQNqIgg2AhQgBSAGai0AAEHsAEcEQCAIIQYMAQsgByAIRg0CIAEgA0EEaiIGNgIUIAUgCGotAABB7ABGDQELIAJBCTYCGCACQRBqIAUgBCAGEPoBIAJBGGogAigCECACKAIUENkHDAILIABBADYCAAwCCyACQQU2AhggAkEIaiAFIAQgBxD6ASACQRhqIAIoAgggAigCDBDZBwshAyAAQQI2AgAgACADNgIECyACQTBqJAAL+QUCC38CfiMAQRBrIgQkAAJAAkACQCABKAIoIgMEQAJAIAEpAxAiDlBFBEAgASgCICEFDAELIAEoAiAhBSABKAIYIQIDQCAFQUBqIQUgAikDACACQQhqIQJCgIGChIiQoMCAf4MiDUKAgYKEiJCgwIB/UQ0ACyABIAU2AiAgASACNgIYIA1CgIGChIiQoMCAf4UhDgsgASADQQFrIgg2AiggASAOQgF9IA6DIg03AxAgA0H/////AUsNAkEEIAMgA0EETRsiA0EDdCICQf3///8HTw0CIAUgDnqnQfgAcWsiBkEEaygCACEHIAZBCGsoAgAhCSACEHEiBkUNAyAGIAc2AgQgBiAJNgIAIARBATYCDCAEIAY2AgggBCADNgIEIAEoAjAhByABKAIEIQMgASgCACEJIAgEQCABKAIYIQJBASEBA0AgDVAEQANAIAVBQGohBSACKQMAIAJBCGohAkKAgYKEiJCgwIB/gyINQoCBgoSIkKDAgH9RDQALIA1CgIGChIiQoMCAf4UhDQsgBSANeqdB+ABxayIKQQRrKAIAIQsgCkEIaygCACEKIA1CAX0gDYMhDSAEKAIEIAFGBEAgBEEEaiABIAhBBEEIEJgGIAQoAgghBgsgBiABQQN0aiIMIAs2AgQgDCAKNgIAIAQgAUEBaiIBNgIMIAhBAWsiCA0ACwsCQCADRQ0AIANBCWoiAUUNACAJQf8BIAH8CwALIAdBADYCDCAHIAM2AgQgByAJNgIAIAAgBCkCBDcCACAAQQhqIARBDGooAgA2AgAgByADIANBAWpBA3ZBB2wgA0EISRs2AggMAQsgAEEANgIIIABCgICAgMAANwIAAkAgASgCBCIARQ0AIABBCWoiAkUNACABKAIAQf8BIAL8CwALIAFBADYCDCABQQhqIgIgACAAQQFqQQN2QQdsIABBCEkbNgIAIAEoAjAiACABKQIANwIAIABBCGogAikCADcCAAsgBEEQaiQADwsQzwkAC0EEIAIQ4QgAC64DAhp9A3xDAACAPyEMRAAAAAAAAPA/RAAAAODTDtU/IhujIhxEAAAAAAAA8D9EAAAAwJoD1D8iHaEgG6GitiELQwAAgD8hDUMAAIA/IQFDmpkZPiIIQ8P1qD4iA5QiDkMAAIA/Q5qZmT4iCZNDmpkZPyIEkyIClCAJQ4/CdT0iBZQiD0MAAIA/QwrXIz8iCpMgA5MiBpQgCiAElCIQQwAAgD8gCJMgBZMiB5SSkiAIIASUIhEgBpSTIAkgA5QiEiAHlJMgCiAFlCITIAKUkyIUQwAAAABcBEAgECASk0MAAIA/IBSVIgGUIQwgDiATkyABlCEVIA8gEZMgAZQhFiAJIAaUIAogApSTIAGUIRcgAyAClCAEIAaUkyABlCEYIAogB5QgCCAGlJMgAZQhDSAFIAaUIAMgB5STIAGUIRkgCCAClCAJIAeUkyABlCEaIAQgB5QgBSAClJMgAZQhAQsgACAFIBggHCAdorYiApQgF5IgDCALlJKUOAIMIAAgBCAZIAKUIA2SIBUgC5SSlDgCCCAAIAMgASAClCAaIBYgC5SSkpQ4AgQgAEEBNgIAC5UGAgp/BHsCQAJAAkACQAJAIAMgBCAFbCIJaiIKQQFrIgYgAU0EQCAEQQFrIAVsIANqIgRBAWsiByAGTw0BIAQgBksNAiABIAZrIQsgBCAGRgRAIAEgCWsgA2shBEEAIQAgAiEDA0AgACALTw0FIAIgBEsNBiAEIAVrIQQgACAFaiEAIANBAWsiAw0ACwwGCyAAIAZqIQ0gACAHai0AACEOIAAgBGohDCAGIARrIgEgAiABIAJJGyIGQQFxIQ8gBkEQcSEDIAAgCmohCkEAIQcDQCAFIAdsIgAgC08NBCACIAsgAEEBaiIBayIESw0FIAAgDWotAAAgDmshCSABIA1qIQRBACEBAkAgBkEQSSAHQQFqIgcgBWxBEElyRQRAIAQgCf0RIhAgDP0AAAAiEf2JAf2pAf2uAf0MAAAAAAAAAAAAAAAAAAAAAP24Af0M/wAAAP8AAAD/AAAA/wAAACIT/bYBIBAgESAQ/Q0EBQYHAAAAAAAAAAAAAAAA/YkB/akB/a4BIBL9uAEgE/22Af2GASAQIBEgEP0NCAkKCwAAAAAAAAAAAAAAAP2JAf2pAf2uASAS/bgBIBP9tgEgECARIBD9DQwNDg8AAAAAAAAAAAAAAAD9iQH9qQH9rgEgEv24ASAT/bYB/YYB/Wb9CwAAIAYgAyIBRg0BCyABQQFyIQAgDwRAIAEgBGpB/wEgCSABIAxqLQAAaiIBQQAgAUEAShsiASABQf8BThs6AAAgACEBCyAAIAZGDQAgASAKaiEAIAEgDGohBCAGIAFrIQEDQCAAQf8BIAkgBC0AAGoiCEEAIAhBAEobIgggCEH/AU4bOgAAIABBAWpB/wEgCSAEQQFqLQAAaiIIQQAgCEEAShsiCCAIQf8BThs6AAAgAEECaiEAIARBAmohBCABQQJrIgENAAsLIAUgCmohCiACIAdHDQALDAULQYjaxwBBE0HU38QAENsHAAsgByAGQeTfxAAQrgcACyAEIAYgBkGU4MQAENUHAAsgACALQfTfxAAQrgcAC0EAIAIgBEGE4MQAENUHAAsLnAUCBn8BfgJAIAEoAggiAiABKAIEIgRPDQAgASgCACACai0AAEH1AEcNAEEBIQcgASACQQFqIgI2AggLAkACQCACIARJBEAgASgCACIGIAJqLQAAQTBrIgNB/wFxIgVBCkkNAQsMAQsgASACQQFqIgI2AggCQAJAIAVFBEBBACEDDAELIANB/wFxIQMDQCACIARGBEAgBCECDAMLIAIgBmotAABBMGtB/wFxIgVBCUsNASABIAJBAWoiAjYCCCADrUIKfiIIQiCIUARAIAUgCKciBWoiAyAFTw0BCwsMAgsgAiAETw0AIAIgBmotAABB3wBHDQAgASACQQFqIgI2AggLAn8CQAJAAkAgAiACIANqIgVNBEAgASAFNgIIIAQgBUkNBSACRSACIARPckUEQCACIAZqLAAAQUBIDQILIAVFIAQgBU1yRQRAIAUgBmosAABBv39MDQILIAIgBmohBCAHRQRAIABCATcCCCAAIAM2AgQgACAENgIADwsgAiAGakEBayEGIAMhAQNAIAEiAkUEQEEAIQEgBCEFQQEMBgsgAkEBayEBIAIgBmotAABB3wBHDQALIAFFDQICQCABIANPBEAgASADRw0BIAINBEEAIQYMBQsgASAEaiwAAEG/f0oNAwsgBCADQQAgAUHsncUAEK4JAAsMBAsgBiAEIAIgBUHcncUAEK4JAAsCQCACIANPBEAgAyEGIAIgA0cNAQwCCyACIARqLAAAQb9/TA0AIAIhBgwBCyAEIAMgAiADQfydxQAQrgkACyAEIAZqIQUgAyAGayEDIAQLIQIgAwRAIAAgAzYCDCAAIAU2AgggACABNgIEIAAgAjYCAA8LIABBADYCACAAQQA6AAQPCyAAQQA2AgAgAEEAOgAEC6QEAQd/AkACQCAAKAI4IgUEQCAAKAI0IAVBAnRBC2pBeHEiAWsiBEEEaygCACICQXhxIgMgASAFakEJaiIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEJ8CCyAAKAIsIQIgACgCMCIGBEAgAiEBA0AgAUGsAWooAgAiBwRAIAFBqAFqKAIAIgVBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAdqSQ0DIANBACAEIAdBJ2pLGw0EIAUQnwILIAEQ3gMgAUG4AWohASAGQQFrIgYNAAsLIAAoAigiAwRAIAJBBGsoAgAiAUF4cSIEIANBuAFsIgNBBEEIIAFBA3EiARtqSQ0BIAFBACAEIANBJ2pLGw0CIAIQnwILIAAoAkwiBARAIAAoAkgiA0EEaygCACICQXhxIgFBBEEIIAJBA3EiAhsgBGpJDQEgAkEAIAEgBEEnaksbDQIgAxCfAgsCQCAAKAJgIgRFDQAgACgCZCIDRQ0AIARBBGsoAgAiAkF4cSIBQQRBCCACQQNxIgIbIANqSQ0BIAJBACABIANBJ2pLGw0CIAQQnwILAkAgAEF/Rg0AIAAgACgCBCICQQFrNgIEIAJBAUcNACAAQQRrKAIAIgFBeHFB7ABB8AAgAUEDcSICG0kNASACQQAgAUGQAU8bDQIgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvMEgMWfwV+AXsjAEEgayIPJAAgASkDECABKQMYIAIoAgQiEyACKAIIIhYQkQQhHCABKAIIRQRAAkAgAUEQaiEKIAEoAgwiEEEBaiIFBEACQAJAAkAgASgCBCIMIAxBAWoiDUEDdiIEQQdsIhQgDEEISRsiB0EBdiAFSQRAAn8gB0EBaiIEIAUgBCAFSxsiBUEPTwRAIAVB/////wFLDQVBfyAFQQN0QQduQQFrZ3ZBAWoMAQtBBCAFQQhxQQhqIAVBBEkbCyIFrUIYfiIaQiCIpw0DIBqnIgcgBUEIaiIGaiIEIAdJIARB+P///wdLcg0DIAQQcSIIRQRAIAQQ6AkACyAHIAhqIQkgBgRAIAlB/wEgBvwLAAsgBUEBayINIAVBA3ZBB2wgDUEISRshESABKAIAIQYCQCAQRQRAQQAhEAwBCyAJQQhqIRIgBkEYayEUIAYpAwBCf4VCgIGChIiQoMCAf4MhGiAKKQMIIR0gCikDACEeQQAhBSAQIQggBiEHA0AgGlAEQANAIAVBCGohBSAHQQhqIgcpAwBCgIGChIiQoMCAf4MiGkKAgYKEiJCgwIB/UQ0ACyAaQoCBgoSIkKDAgH+FIRoLIAkgDSAeIB0gFCAaeqdBA3YgBWoiCkFobGoiBEEEaigCACAEQQhqKAIAEJEEpyIVcSIEaikAAEKAgYKEiJCgwIB/gyIbUARAQQghCwNAIAQgC2ohBCALQQhqIQsgCSAEIA1xIgRqKQAAQoCBgoSIkKDAgH+DIhtQDQALCyAaQgF9IBqDIRogCSAbeqdBA3YgBGogDXEiBGosAABBAE4EQCAJKQMAQoCBgoSIkKDAgH+DeqdBA3YhBAsgBCAJaiAVQRl2Igs6AAAgEiAEQQhrIA1xaiALOgAAIAkgBEF/c0EYbGoiBEEQaiAGIApBf3NBGGxqIgtBEGopAAA3AAAgBCAL/QAAAP0LAAAgCEEBayIIDQALCyABIA02AgQgASAJNgIAIAEgESAQazYCCCAMRQ0FIAwgDEEYbEEfakF4cSIEakEJaiIFRQ0FIAYgBGsiBEEEaygCACIHQXhxIgZBBEEIIAdBA3EiBxsgBWpJDQIgB0EAIAYgBUEnaksbDQEgBBCfAgwFCyABIA0EfyABKAIAIQYCQAJAIAQgDUEHcUEAR2oiCEECSQRAIAghBwwBCyAIQQFxIQcgCEH+////A3EiCUEDdCELIAkhBCAGIQUDQCAFIAX9AAMAIh/9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gH/0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACAFQRBqIQUgBEECayIEDQALIAggCUYNAQsgBiALaiEFA0AgBSAFKQMAIhpCf4VCB4hCgYKEiJCgwIABgyAaQv/+/fv379+//wCEfDcDACAFQQhqIQUgB0EBayIHDQALCwJAIA1BCE8EQCAGIA1qIAYpAAA3AAAMAQsgDUUNACAGQQhqIAYgDfwKAAALIAZBCGohCyAKKQMIIRsgCikDACEdQQEhBEEAIQUDQCAFIQcgBCEFAkAgBiAHaiIRLQAAQYABRw0AIAYgB0F/c0EYbGohCSAGIAdBaGxqIgRBEGshFSAEQRRrIRgCQANAIAwgHSAbIBgoAgAgFSgCABCRBKciEnEiCiEIIAYgCmopAABCgIGChIiQoMCAf4MiGlAEQEEIIQQDQCAEIAhqIQggBEEIaiEEIAYgCCAMcSIIaikAAEKAgYKEiJCgwIB/gyIaUA0ACwsgBiAaeqdBA3YgCGogDHEiCGosAABBAE4EQCAGKQMAQoCBgoSIkKDAgH+DeqdBA3YhCAsgCCAKayAHIAprcyAMcUEISQ0BIAYgCGoiBC0AACAEIBJBGXYiBDoAACALIAhBCGsgDHFqIAQ6AAAgBiAIQX9zQRhsaiEEQf8BRwRAIAkpAAAhGiAJIAQpAAA3AAAgBCAaNwAAIAQpAAghGiAEIAkpAAg3AAggCSAaNwAIIAkoABAhCCAJIAQoABA2ABAgBCgAFCEKIAQgCSgAFDYAFCAJIAo2ABQgBCAINgAQDAELCyARQf8BOgAAIAsgDCAHQQhrcWpB/wE6AAAgBEEQaiAJQRBqKQAANwAAIAQgCf0AAAD9CwAADAELIBEgEkEZdiIEOgAAIAsgDCAHQQhrcWogBDoAAAsgBSAFIA1JIgdqIQQgBw0ACyAMIBQgDEEISRsFQQALIBBrNgIIDAQLQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgACwtBkLnEAEE5Qay5xAAQ2wcACwsgASgCBCIHIByncSEFIBxCGYgiG0L/AINCgYKEiJCgwIABfiEdIAEoAgAhBANAAkACQAJAAkACQAJAIAQgBWopAAAiHCAdhSIaQn+FIBpCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiGlBFBEADQCAEIBp6p0EDdiAFaiAHcUFobGoiBkEQaygCACAWRgRAIBMgBkEUaygCACAWELsHRQ0DCyAaQgF9IBqDIhpQRQ0ACwsgHEKAgYKEiJCgwIB/gyEaIBdFBEAgGlANAyAaeqdBA3YgBWogB3EhDgsgGiAcQgGGg1AEQEEBIRcMBgsgBCAOaiwAACIFQQBOBEAgBCAEKQMAQoCBgoSIkKDAgH+DeqdBA3YiDmotAAAhBQsgBCAOaiAbp0H/AHEiBjoAACAEIA5BCGsgB3FqQQhqIAY6AAAgD0EQaiIHIAJBCGooAgA2AgAgD0EcaiADQQhqKAIANgIAIAEgASgCCCAFQQFxazYCCCABIAEoAgxBAWo2AgwgBCAOQWhsakEYayIBIAIpAgA3AgAgDyADKQIANwIUIAFBCGogBykDADcCACABQRBqIA9BGGopAwA3AgAgAEGAgICAeDYCAAwBCyAAIAZBDGsiASkCADcCACABIAMpAgA3AgAgAEEIaiABQQhqIgAoAgA2AgAgACADQQhqKAIANgIAIAIoAgAiAEUNACATQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyAAakkNAiABQQAgAiAAQSdqSxsNAyATEJ8CCyAPQSBqJAAPC0EAIRcMAgtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIBlBCGoiGSAFaiAHcSEFDAALAAusBQIFfwR+AkACQAJAAkACQCACRQRAQQEhBQwBCyACEHEiBUUNASAFQQRrLQAAQQNxRSACRXINACAFQQAgAvwLAAsgASgCBCIDrSEIIANC/////w8gASkDCCIJIAlC/////w9aG6drIgRBACADIARPGyACTwRAIAEoAgAgCSAIIAggCVYbp2ohAyACQQFHBEAgAkUNAyAFIAMgAvwKAAAMAwsgBSADLQAAOgAADAILQYjjxwApAwAiC0IIiCEKIAunIQMgC0L/AYNCBFINAwwCC0EBIAIQ4QgAC0EEIQMLIAkgAq18IQgLIAEgCDcDCAJAAkACQAJAAkACQCADQf8BcSIGQQRHBEAgCkIYiKchASAKpyIHIQQCQAJAIAZBAWsOAwEAAwQLIAEtAAghBAsgBEH/AXFBJUcNAiAAQTI2AgggAEGvrMEANgIEIABBgICAgHg2AgAMBAsgACACNgIIIAAgBTYCBCAAQYaAgIB4NgIADwsgAS0ACEElRg0BCyAAIAE2AgggAEGBgICAeDYCACAAIANB/wFxIAdBCHRyNgIEDAELIABBMjYCCCAAQa+swQA2AgQgAEGAgICAeDYCACABKAIAIQAgAUEEaigCACIDKAIAIgQEQCAAIAQRAwALIAMoAgQiAwRAIABBBGsoAgAiBEF4cSIGQQRBCCAEQQNxIgQbIANqSQ0CIARBACAGIANBJ2pLGw0DIAAQnwILIAFBBGsoAgAiAEF4cSIDQRBBFCAAQQNxIgAbSQ0BIABBACADQTRPGw0CIAEQnwILIAIEQCAFQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyACakkNASAAQQAgASACQSdqSxsNAiAFEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC9EFAgd/AXsjAEHQ0QBrIgMkAEEBIQcCQAJAAkACQCACQQF0IgRBAE4EQAJAIAJFDQAgBBBxIgdFDQIgB0EEay0AAEEDcUUgBEVyDQAgB0EAIAT8CwALIAMgBDYCDCADIAc2AgggAyAENgIEQYTSABBxIgVFDQIgBUEANgLkUSAFQejRAGpBADsBACADQZDPAGpBAEHAAvwLACAFQfzRAGpBADYAACAF/QwAAAAAAAAAAAAAAAAAAAAA/QsA7VEgA0EQaiIGQQBBgM8A/AsAIAUgBkHA0QD8CgAAIAVB4NEAakEANgIAIAVB0NEAaiAK/QsCACAFIAr9CwLAUSAFQQA6AIBSIAVBADoA7FEgBUEAOwHqUQNAIANBEGogBSABIAIgByAEIAhBBBBFIAMoAhggCGohCCADLQAUIgZBAkcEQCAGBEAgACADKQIENwIAIAAgBjoADCAAQQhqIANBDGooAgA2AgAMBwsgBCAITwRAIAMgCDYCDAsgACADKQIENwIEIABBgICAgHg2AgAgAEEMaiADQQxqKAIANgIADAYLIAIgAygCECIGSQ0EIAEgBmohASACIAZrIQIgAyAEBH8gBCEGIAMoAgQgBGsgBEkEQCADQQRqIAQgBBCzBiADKAIIIQcgAygCDCEGCyAGIAdqIQkgBEEBRwR/IARBAWsiBARAIAlBACAE/AsACyAHIAQgBmoiBmoFIAkLQQA6AAAgBkEBagUgBEEBdAsiBDYCDAwACwALEM8JAAtBASAEEOEIAAtBhNIAEOgJAAsgACADKQIENwIAIABBAjoADCAAQQhqIANBDGooAgA2AgALAkAgBUEEaygCACIAQXhxIgFBiNIAQYzSACAAQQNxIgAbTwRAIABBACABQazSAE8bDQEgBRCfAiADQdDRAGokAA8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC44FAgx/A34jAEGgAWsiCCQAIAhBAEGgAfwLAAJAAkAgAiAAKAKgASIFTQRAIAVBKU8NAiAFQQFqIQwgBUECdCEJIAEgAkECdGohDQJAA0AgCCAGQQJ0aiEDA0AgBiECIAMhBCABIA1GDQQgA0EEaiEDIAJBAWohBiABKAIAIQcgAUEEaiILIQEgB0UNAAsgB60hEUIAIQ8gCSEHIAIhASAAIQMDQCABQShPDQIgBCAPIAQ1AgB8IAM1AgAgEX58IhA+AgAgEEIgiCEPIARBBGohBCABQQFqIQEgA0EEaiEDIAdBBGsiBw0ACwJAIAogEEKAgICAEFoEfyACIAVqIgFBKE8NASAIIAFBAnRqIA8+AgAgDAUgBQsgAmoiASABIApJGyEKIAshAQwBCwsgAUEoQfyMwgAQrgcACyABQShB/IzCABCuBwALIAJBAWohDSACQQJ0IQwgACAFQQJ0aiEOIAAhAwJAA0AgCCAHQQJ0aiEGA0AgByELIAYhBCADIA5GDQMgBEEEaiEGIAdBAWohByADKAIAIQkgA0EEaiIFIQMgCUUNAAsgCa0hEUIAIQ8gDCEJIAshAyABIQYDQCADQShPDQIgBCAPIAQ1AgB8IAY1AgAgEX58IhA+AgAgEEIgiCEPIARBBGohBCADQQFqIQMgBkEEaiEGIAlBBGsiCQ0ACwJAIAogEEKAgICAEFoEfyACIAtqIgNBKE8NASAIIANBAnRqIA8+AgAgDQUgAgsgC2oiAyADIApJGyEKIAUhAwwBCwsgA0EoQfyMwgAQrgcACyADQShB/IzCABCuBwALIAAgCEGgAfwKAAAgACAKNgKgASAIQaABaiQADwtBACAFQShB/IzCABDVBwAL0wUCB38CfCMAQTBrIgYkAEEBIQkgASABKAIUIgdBAWoiBTYCFAJAIAUgASgCECIITw0AAkACQCABKAIMIAVqLQAAQStrDgMBAgACC0EAIQkLIAEgB0ECaiIFNgIUCwJAAkAgBSAISQRAIAEgBUEBaiIHNgIUIAEoAgwiCiAFai0AAEEwa0H/AXEiBUEKTwRAIAZBDTYCJCAGQRBqIAogCCAHEPoBIAZBJGogBigCECAGKAIUENkHIQEgAEEBNgIAIAAgATYCBAwDCyAHIAhPDQECQANAIAcgCmotAABBMGtB/wFxIgtBCk8NAyABIAdBAWoiBzYCFCAFQcyZs+YARyALQQdLciAFQcuZs+YASnENASAFQQpsIAtqIQUgByAIRw0ACyAIIQcMAgsgACABIAIgA1AgCRCDBgwCCyAGQQU2AiQgBkEYaiABKAIMIAggBRD6ASAGQSRqIAYoAhggBigCHBDZByEBIABBATYCACAAIAE2AgQMAQsgA7ohDCAAAn8CQAJAAkACQAJ/IAlFBEAgBCAFayIBQR91QYCAgIB4cyABIAEgBEggBUEASnMbDAELIAQgBWoiAUEfdUGAgICAeHMgASAFQQBIIAEgBEhzGwsiBUEfdSIBIAVzIAFrIgFBtQJPBEADQCAMRAAAAAAAAAAAYQ0FIAVBAE4NAiAMRKDI64XzzOF/oyEMIAVBtAJqIgUgBUEfdSIBcyABayIBQbUCTw0ACwsgAUEDdCsDmOdGIQ0gBUEATg0BIAwgDaMhDAwDCyAGQQ42AiQgBkEIaiAKIAggBxD6ASAAIAZBJGogBigCCCAGKAIMENkHNgIEDAELIAwgDaIiDJlEAAAAAAAA8H9iDQEgBkEONgIkIAYgCiAIIAcQ+gEgACAGQSRqIAYoAgAgBigCBBDZBzYCBAtBAQwBCyAAIAwgDJogAhs5AwhBAAs2AgALIAZBMGokAAuVBQEQfyMAQRBrIgskAAJAIAEoAhAiBiABKAIMIgNJDQAgBiABKAIIIg9LDQAgASgCBCENIAFBFGoiESABLQAYIglqQQFrLQAAIQoCQCAJQQVPBEADQCADIA1qIQcCfyAGIANrIgRBB00EQEEAIQJBACAERQ0BGgNAQQEgCiACIAdqLQAARg0CGiAEIAJBAWoiAkcNAAsgBCECQQAMAQsgC0EIaiAKIAcgBBDvBCALKAIMIQIgCygCCAtBAXFFDQIgASACIANqQQFqIgM2AgwgAyAPTSADIAlPcUUEQCADIAZNDQEMBAsLQQAgCUEEQfSbxwAQ1QcACyAKQYGChAhsIRADQCADIA1qIQgCQAJAAkACQCAGIANrIgxBCE8EQCAIQQNqQXxxIgQgCEYNASAEIAhrIQVBACECA0AgAiAIai0AACAKRg0FIAUgAkEBaiICRw0ACyAFIAxBCGsiB0sNAwwCCyADIAZGDQVBACECA0AgAiAIai0AACAKRg0EIAJBAWoiAiAMRw0ACwwFCyAMQQhrIQdBACEFCwNAQYCChAggBSAIaiICKAIAIBBzIgRrIARyQYCChAggAkEEaigCACAQcyIEayAEcnFBgIGChHhxQYCBgoR4Rw0BIAVBCGoiBSAHTQ0ACwsgBSAMRg0CIAUgCGohByAGIAVrIANrIQRBACECA0AgCiACIAdqLQAARwRAIAQgAkEBaiICRw0BDAQLCyACIAVqIQILIAEgAiADakEBaiIDNgIMAkAgAyAJSSADIA9LckUEQCANIAMgCWsiBGogESAJELsHRQ0BCyADIAZNDQEMAwsLIAAgAzYCCCAAIAQ2AgRBASEODAELIAEgBjYCDAsgACAONgIAIAtBEGokAAuNBAEHfwJAAkAgACgCACIBBEAgACgCBCIEQQRrKAIAIgJBeHEiAyABQSRsIgFBBEEIIAJBA3EiAhtqSQ0BIAJBACADIAFBJ2pLGw0CIAQQnwILIAAoAhAhAiAAKAIUIgUEQCACIQEDQCABQRRqKAIAIgRBBU8EQCABQQhqKAIAIgZBBGsoAgAiA0F4cSIHIARBAnQiBEEEQQggA0EDcSIDG2pJDQMgA0EAIAcgBEEnaksbDQQgBhCfAgsgAUEYaiEBIAVBAWsiBQ0ACwsgACgCDCIDBEAgAkEEaygCACIBQXhxIgQgA0EYbCIDQQRBCCABQQNxIgEbakkNASABQQAgBCADQSdqSxsNAiACEJ8CCyAAKAIYIgEEQCAAKAIcIgRBBGsoAgAiAkF4cSIDIAFBEmwiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCfAgsgACgCJCIBBEAgACgCKCIEQQRrKAIAIgJBeHEiAyABQR5sIgFBBEEIIAJBA3EiAhtqSQ0BIAJBACADIAFBJ2pLGw0CIAQQnwILIAAoAjAiAgRAIAAoAjQiA0EEaygCACIAQXhxIgEgAkEqbCICQQRBCCAAQQNxIgAbakkNASAAQQAgASACQSdqSxsNAiADEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC40EAQd/AkACQCAAKAIAIgEEQCAAKAIEIgRBBGsoAgAiAkF4cSIDIAFBGGwiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCfAgsgACgCECECIAAoAhQiBQRAIAIhAQNAIAFBFGooAgAiBEEFTwRAIAFBCGooAgAiBkEEaygCACIDQXhxIgcgBEECdCIEQQRBCCADQQNxIgMbakkNAyADQQAgByAEQSdqSxsNBCAGEJ8CCyABQRhqIQEgBUEBayIFDQALCyAAKAIMIgMEQCACQQRrKAIAIgFBeHEiBCADQRhsIgNBBEEIIAFBA3EiARtqSQ0BIAFBACAEIANBJ2pLGw0CIAIQnwILIAAoAhgiAQRAIAAoAhwiBEEEaygCACICQXhxIgMgAUEJbCIBQQRBCCACQQNxIgIbakkNASACQQAgAyABQSdqSxsNAiAEEJ8CCyAAKAIkIgEEQCAAKAIoIgRBBGsoAgAiAkF4cSIDIAFBD2wiAUEEQQggAkEDcSICG2pJDQEgAkEAIAMgAUEnaksbDQIgBBCfAgsgACgCMCICBEAgACgCNCIDQQRrKAIAIgBBeHEiASACQRVsIgJBBEEIIABBA3EiABtqSQ0BIABBACABIAJBJ2pLGw0CIAMQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL4AUCB38DfiMAQYABayIEJAAgAbwiCEH///8DcSIHQYCAgARyIAhBAXRB/v//B3EgCEEXdkH/AXEiCRsiCq0iC0IBgyEMQQIhBQJAAkACQAJAAkAgB0VBBEEDQQIgBxsgCEGAgID8B3EiBxsgB0GAgID8B0YbQQFrDgQAAQIDBAtBAyEFDAMLQQQhBQwCCyAJQZYBayEGIAxQIQVCASENDAELQoCAgBAgC0IBhiAKQYCAgARGIgYbIQtCAkIBIAYbIQ0gDFAhBUHofkHpfiAGGyAJaiEGCyAEIAY7AXggBCANNwNwIARCATcDaCAEIAs3A2AgBCAFOgB6An8CQAJAAkACQAJAIAVB/wFxQQFNBEAgA0H//wNxIQNBkp/FAEEBIAhBAEgiBRshBkGSn8UAQbiLwgAgBRshBSAIQR92IQggBEEgaiAEQeAAaiAEQQ9qENIBIAQoAiBFDQEgBEHYAGogBEEoaigCADYCACAEIAQpAiA3A1AMAgsgBUH/AXEiBkECRg0CQQEhBUGSn8UAQbiLwgAgCEEASCIHG0GSn8UAQQEgBxsgAhshB0EBIAhBH3YgAhshAiAGQQRHDQNBAiEFIARBAjsBICADQf//A3ENBEEBIQUgBEEBNgIoIARBzZzFADYCJCAEQSBqDAULIARB0ABqIARB4ABqIARBD2oQWQsgBSAGIAIbIQdBASAIIAIbIQIgBCAEKAJQIAQoAlQgBC8BWCADIARBIGoQ5AQgBCgCBCEFIAQoAgAMAwsgBEEDNgIoIARBo4fGADYCJCAEQQI7ASBBASEHQQAhAkEBIQUgBEEgagwCCyAEQQM2AiggBEGch8YANgIkIARBAjsBICAEQSBqDAELIARBATYCMCAEQQA7ASwgBEECNgIoIARBqY3CADYCJCAEQSBqCyEGIAQgBTYCXCAEIAY2AlggBCACNgJUIAQgBzYCUCAAIARB0ABqEMADIARBgAFqJAALxQQBC38CQAJAAkAgACgCACIBQQNGIAFBAklyDQACQAJAIAAtABRBAWsOAgIAAQtB5KrHAEH5AEGgq8cAENsHAAsgACgCCCEJIAAoAgwiCwRAA0AgCSAGQQxsaiIEKAIEIQogBCgCCCIIBEAgCkEkaiEBA0AgAUEEaygCACICQYCAgIB4ckGAgICAeEcEQCABKAIAIgVBBGsoAgAiA0F4cSIHQQRBCCADQQNxIgMbIAJqSQ0HIANBACAHIAJBJ2pLGw0GIAUQnwILAkAgAUEUaygCACIFQQJGDQAgAUEQayECAkAgBUUEQCACKAIAIgJFDQIgAUEMaygCACIFQQRrKAIAIgNBeHEiB0EEQQggA0EDcSIDGyACakkNCSADRSAHIAJBJ2pNcg0BDAgLIAIoAgAiAkUNASABQQxrKAIAIgVBBGsoAgAiA0F4cSIHIAJBAXQiAkEEQQggA0EDcSIDG2pJDQggA0UNACAHIAJBJ2pLDQcLIAUQnwILIAFBLGohASAIQQFrIggNAAsLIAQoAgAiAQRAIApBBGsoAgAiBEF4cSIIIAFBLGwiAUEEQQggBEEDcSIEG2pJDQUgBEEAIAggAUEnaksbDQQgChCfAgsgBkEBaiIGIAtHDQALCyAAKAIEIgBFDQAgCUEEaygCACIBQXhxIgYgAEEMbCIAQQRBCCABQQNxIgEbakkNAiABQQAgBiAAQSdqSxsNASAJEJ8CCw8LQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC/cEAQh/AkAgAy0AAyIHIAMtAAQiC2siCCAIQR91IghzIAhrQQF0IAMtAAIiCCADLQAFIgprIgQgBEEfdSIFcyAFa0EBdmogAkH/AXFLDQAgAUH/AXEiASADLQAAIAMtAAEiAmsiBSAFQR91IgVzIAVrSQ0AIAEiBSACIAhrIgYgBkEfdSIGcyAGa0H/AXFJDQAgBSAIIAdrIgYgBkEfdSIGcyAGayIGQf8BcUkNACAFIAMtAAcgAy0ABiIFayIJIAlBH3UiCXMgCWtJDQAgASAFIAprIgkgCUEfdSIJcyAJa0H/AXFJDQAgASAKIAtrIgEgAUEfdSIBcyABayIBQf8BcUkNACAAQf8BcSIAIAZB/wFxTyABQf8BcSAATXFFBEBBASADENUFGg8LIANB/wEgBUH/AEGAfyALIAdrQQNsQf8AQYB/IAQgBEGAf0wbIgAgAEH/AE4baiIAIABBgH9MGyIAIABB/wBOGyIAQQlsQT9qQQd1IgFrIgRBACAEQQBKGyIEIARB/wFOGzoABiADQf8AQYB/IAogAEESbEE/akEHdSIKa0GAAWsiBCAEQYB/TBsiBCAEQf8AThtBgAFzOgAFIANB/wBBgH8gByAAQRtsQT9qQQd1IgBqQYABayIHIAdBgH9MGyIHIAdB/wBOG0GAAXM6AAMgA0H/AEGAfyALIABrQYABayIAIABBgH9MGyIAIABB/wBOG0GAAXM6AAQgA0H/AEGAfyAIIApqQYABayIAIABBgH9MGyIAIABB/wBOG0GAAXM6AAIgA0H/AEGAfyABIAJqQYABayIAIABBgH9MGyIAIABB/wBOG0GAAXM6AAELC6cFAQh/IAAgACgCCCIEIAJqIgM2AgggACgCBCIIIANBEGoiByAHIAhLGyEDIAAoAgAhBQJAAkACQAJAAkACQAJAAkACQAJAAkAgASACTwRAIAEgBEsNASAEIAFrIQAgByAITwRAIAAgAmoiASADSw0DIAAgAUsNBCAEIAMgAmtLDQUgAkUNCiAEIAVqIAAgBWogAvwKAAAPCyACRQ0JIAQgBWoiAyAAIAVqIgD9AAAA/QsAACACQRFJDQkgACACaiECQQAgAWshASADQRBqIQADQCAAIAAgAWr9AAAA/QsAACAAQRBqIgAgAWogAkkNAAsMCQsgAUEBRwRAQQAhACABIAMgBCABayIIIAMgCEsbaiAEayIGIAMgBGsiB0EAIAMgB08bIgcgBiAHSRsiBiACQQFrIgkgBiAJSRsiCUEBaiIGQRFJIAFBD01yDQggBkEPcSIAQRAgABsiACAJQX9zaiEJQQAgAWshCiAEIAVqIQEgBiAAayEAA0AgASABIApq/QAAAP0LAAAgAUEQaiEBIAlBEGoiCQ0ACwwICyAEQQFrIgAgA08NBCADIARJDQUgAiADIARrIgFLDQYgAkUNCCAEIAVqIAAgBWotAAAgAvwLAAwIC0GQ0MgAQQlBnNDIABDcBwALQQAgASADQYDQyAAQ1QcACyAAIAEgA0GA0MgAENUHAAtB9O3HAEErQYDQyAAQ2wcACyAAIANBsM/IABCuBwALIAQgAyADQdDPyAAQ1QcAC0EAIAIgAUHAz8gAENUHAAsgBSAIaiEBIAQgBWohBQNAIAAgCGoiBiADTw0CIAAgB0YNAyAAIAVqIAAgAWotAAA6AAAgAEEBaiIAIAJHDQALCw8LIAYgA0Hgz8gAEK4HAAsgACAEaiADQfDPyAAQrgcAC6MFAQh/AkACQAJAAkACQAJAAkAgASACIAMgBCAFIAYQzAMEQCAFIAZBAXQiCGsiASAETw0CIAUgBmsiAiAETw0DIABB/wFxIgwgASADaiIKLQAAIgEgAiADaiILLQAAIgJrIgcgB0EfdSIHcyAHa0kNBiAFIAZqIgcgBE8NBCAEIAVNDQUgDCADIAdqIg0tAAAiByADIAVqIg4tAAAiCWsiACAAQR91IgBzIABrSQ0GIAZBfWwgBWoiACAETw0HIAUgCGoiBSAETw0BIAAgA2oiBC0AACEGIAMgBWoiAy0AACEFIA5B/wBBgH8gCUH/AEGAfyAJIAJrQQNsQf8AQYB/IAEgB2siACAAQYB/TBsiACAAQf8AThtqIgAgAEGAf0wbIgAgAEH/AE4bIgBBG2xBP2pBB3UiCWtBgAFrIgggCEGAf0wbIgggCEH/AE4bQYABczoAACALQf8AQYB/IAIgCWpBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoAACANQf8AQYB/IAcgAEESbEE/akEHdSICa0GAAWsiByAHQYB/TBsiByAHQf8AThtBgAFzOgAAIApB/wBBgH8gASACakGAAWsiASABQYB/TBsiASABQf8AThtBgAFzOgAAIANB/wBBgH8gBSAAQQlsQT9qQQd1IgBrQYABayIBIAFBgH9MGyIBIAFB/wBOG0GAAXM6AAAgBEH/AEGAfyAAIAZqQYABayIAIABBgH9MGyIAIABB/wBOG0GAAXM6AAALDwsgBSAEQaTVxAAQrgcACyABIARBtNXEABCuBwALIAIgBEHE1cQAEK4HAAsgByAEQdTVxAAQrgcACyAFIARB5NXEABCuBwALQQEgAyAEIAUgBhDhBBoPCyAAIARBlNXEABCuBwALzAUCBn8CfgJAIAJFDQAgAkEHayIDQQAgAiADTxshByABQQNqQXxxIAFrIQhBACEDA0ACQAJAAkAgASADai0AACIFwCIGQQBOBEAgCCADa0EDcQ0BIAMgB08NAgNAIAEgA2oiBEEEaigCACAEKAIAckGAgYKEeHENAyADQQhqIgMgB0kNAAsMAgtCgICAgIAgIQpCgICAgBAhCQJAAkACfgJAAkACQAJAAkACQAJAAkACQCAFLQDcoEJBAmsOAwABAgoLIANBAWoiBCACSQ0CQgAhCkIAIQkMCQtCACEKIANBAWoiBCACSQ0CQgAhCQwIC0IAIQogA0EBaiIEIAJJDQJCACEJDAcLIAEgBGosAABBv39KDQYMBwsgASAEaiwAACEEAkACQCAFQeABayIFBEAgBUENRgRADAIFDAMLAAsgBEFgcUGgf0YNBAwDCyAEQZ9/Sg0CDAMLIAZBH2pB/wFxQQxPBEAgBkF+cUFuRw0CIARBQEgNAwwCCyAEQUBIDQIMAQsgASAEaiwAACEEAkACQAJAAkAgBUHwAWsOBQEAAAACAAsgBkEPakH/AXFBAksgBEFATnINAwwCCyAEQfAAakH/AXFBME8NAgwBCyAEQY9/Sg0BCyACIANBAmoiBE0EQEIAIQkMBQsgASAEaiwAAEG/f0oNAkIAIQkgA0EDaiIEIAJPDQQgASAEaiwAAEFASA0FQoCAgICA4AAMAwtCgICAgIAgDAILQgAhCSADQQJqIgQgAk8NAiABIARqLAAAQb9/TA0DC0KAgICAgMAACyEKQoCAgIAQIQkLIAAgCiADrYQgCYQ3AgQgAEEBNgIADwsgBEEBaiEDDAILIANBAWohAwwBCyACIANNDQADQCABIANqLAAAQQBIDQEgAiADQQFqIgNHDQALDAILIAIgA0sNAAsLIAAgAjYCCCAAIAE2AgQgAEEANgIAC7IFAwJ7BX8BfgJAAkACQEF/IAQtAL8CIgdBD3F0IgRB/wFxQf8BRwRAQf8BIARBf3MiCUH/AXFuIQpBASAHdEGWAnFFIAdBCEtyDQFBCCAHbq0gAa1+IgxCIIhQIAynIANJcQ0CIAAgAWohCwJAIAdBCEcEQCADRQ0BQQggB2shBEF/IQEDQCABQQBIBEAgACALRg0HIAAtAAAhCCAEIQEgAEEBaiEACyACIAhB/wFxIAF2IAlxIApsOgAAIAEgB2shASACQQFqIQIgA0EBayIDDQALDAELIAFFIANFcg0AAkAgA0EBayIEIAFBAWsiASABIARLG0EBaiIJQRBJBEAgACEBIAIhBAwBCyACIAlBcHEiB2ohBCADIAdrIQMgACAHaiEBIAr9DyEFIAchCANAIAIgAP0AAAAiBv0WACAF/RYAbP0PIAb9FgEgBf0WAWz9FwEgBv0WAiAF/RYCbP0XAiAG/RYDIAX9FgNs/RcDIAb9FgQgBf0WBGz9FwQgBv0WBSAF/RYFbP0XBSAG/RYGIAX9FgZs/RcGIAb9FgcgBf0WB2z9FwcgBv0WCCAF/RYIbP0XCCAG/RYJIAX9Fgls/RcJIAb9FgogBf0WCmz9FwogBv0WCyAF/RYLbP0XCyAG/RYMIAX9Fgxs/RcMIAb9Fg0gBf0WDWz9Fw0gBv0WDiAF/RYObP0XDiAG/RYPIAX9Fg9s/RcP/QsAACAAQRBqIQAgAkEQaiECIAhBEGsiCA0ACyAHIAlGDQELIANBAWshAANAIAQgAS0AACAKbDoAACABQQFqIgEgC0YNASAAIgJBAWshACAEQQFqIQQgAg0ACwsPC0H8j8UAENQJAAtBuI/FAEE0QeyPxQAQ5wgAC0GMjsUAQeUAQfSOxQAQ5wgAC0GEj8UAQSJBqI/FABDcBwALvAUCB38BeyABQQJ0IQsgBUEDbiEMAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCABBEAgCxBxIgpFDQICQCABQQRPBEAgACEGIAohByABQfz///8BcSIIIQkDQCAHIAb9AAIAIg39HwAQ7gP9EyAN/R8BEO4D/SABIA39HwIQ7gP9IAIgDf0fAxDuA/0gA/0LAgAgBkEQaiEGIAdBEGohByAJQQRrIgkNAAsgASAIRg0BCyABIAhrIQkgACAIQQJ0IgdqIQYgByAKaiEHA0AgByAGKgIAEO4DOAIAIAZBBGohBiAHQQRqIQcgCUEBayIJDQALCyAFQQNPDQEMCwtBBCEKIAVBA0kNCwsgDEECdCEAQQAhB0EAIQYDQCADIAZNDQIgASACIAZqIgktAAAiCE0NAyAFIAdNDQQgBCAKIAhBAnRqKgIAOAIAIAZBAWoiCCADTw0FIAEgCUEBai0AACIITQ0GIAdBAWoiDCAFTw0HIARBBGogCiAIQQJ0aioCADgCACAGQQJqIgggA08NCCABIAlBAmotAAAiCU0NCSAAIAZHBEAgBEEIaiAKIAlBAnRqKgIAOAIAIARBDGohBCAHQQNqIQcgACAGQQRqIgZGDQsMAQsLIAdBAmogBUGoy8cAEK4HAAtBBCALEOEIAAsgBiADQajKxwAQrgcACyAIIAFBuMrHABCuBwALIAcgBUHIyscAEK4HAAsgCCADQdjKxwAQrgcACyAIIAFB6MrHABCuBwALIAwgBUH4yscAEK4HAAsgCCADQYjLxwAQrgcACyAJIAFBmMvHABCuBwALIApBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIAtqSQ0BIABBACABIAtBJ2pLGw0CIAoQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALngUBB38jAEFAaiICJAAgASgCACIHKAIMIQYCQAJAIAcoAhQiBCAHKAIQIgNJBEADQCAEIAZqLQAAIghBCWsiBUEXS0EBIAV0QZOAgARxRXINAiAHIARBAWoiBDYCFCADIARHDQALIAMhBAsgAkEDNgI0QQEhBSACQShqIAYgAyAEQQFqIgEgAyABIANJGxD6ASAAIAJBNGogAigCKCACKAIsENkHNgIEDAELAkACQAJAIAhB/QBHBEAgAS0ABA0CIAhBLEYNASACQQg2AjRBASEFIAJBIGogBiADIARBAWoiASADIAEgA0kbEPoBIAAgAkE0aiACKAIgIAIoAiQQ2Qc2AgQMBAtBACEFIABBADoAAQwDC0EBIQUgByAEQQFqIgQ2AhQgAyAESwRAA0AgBCAGai0AACIIQQlrIgFBGUsNA0EBIAF0QZOAgARxRQRAIAFBGUcNBCAAQQE6AAFBACEFDAULIAcgBEEBaiIENgIUIAMgBEcNAAsgAyEECyACQQU2AjQgAkEQaiAGIAMgBEEBaiIBIAMgASADSRsQ+gEgACACQTRqIAIoAhAgAigCFBDZBzYCBAwCC0EAIQUgAUEAOgAEIAhBIkcEQCACQRE2AjRBASEFIAIgBiADIARBAWoiASADIAEgA0kbEPoBIAAgAkE0aiACKAIAIAIoAgQQ2Qc2AgQMAgsgAEEBOgABDAELIAhB/QBHBEAgAkERNgI0IAJBCGogBiADIARBAWoiASADIAEgA0kbEPoBIAAgAkE0aiACKAIIIAIoAgwQ2Qc2AgQMAQsgAkEVNgI0IAJBGGogBiADIARBAWoiASADIAEgA0kbEPoBIAAgAkE0aiACKAIYIAIoAhwQ2Qc2AgQLIAAgBToAACACQUBrJAALugQBBH8CQAJAAkACQAJAAkACQAJAAkACQEEVIAAoAgAiBEGAgICAeHMgBEEAThsOFQcHBwcHBwcHBwcHBwEHAgcHAwcEBQALIAAoAgQhAiAAKAIIIgAEQCACIQEDQCABEP4CIAFBEGoQ/gIgAUEgaiEBIABBAWsiAA0ACwsgBEUNBiACQQRrKAIAIgBBeHEiAyAEQQV0IgFBBEEIIABBA3EiABtySQ0IIABFDQUgAyABQSdqSw0HDAULIAAoAgQiA0UNBSAAKAIIIgJBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIANqSQ0HIABFIAEgA0Enak1yDQQMBgsgACgCBCIDRQ0EIAAoAggiAkEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgA2pJDQYgAEUgASADQSdqTXINAwwFCyAAKAIEIgIQ/gIgAkEEaygCACIBQXhxQRRBGCABQQNxIgAbSQ0FIABFIAFBOElyDQIMBAsgACgCBCICEP4CIAJBBGsoAgAiAUF4cUEUQRggAUEDcSIAG0kNBCAARSABQThJcg0BDAMLIAAoAgghAiAAKAIMIgMEQCACIQEDQCABEP4CIAFBEGohASADQQFrIgMNAAsLIAAoAgQiAUUNASACQQRrKAIAIgBBeHEiAyABQQR0IgFBBEEIIABBA3EiABtySQ0DIABFIAMgAUEnak1yDQAMAgsgAhCfAgsPC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAvXBQEEfyMAQaDSAGsiBCQAAkACQAJAAkAgAkEJTQRAIABBgICAgHg2AgAMAQsCQAJAIAEtAABBH0cNACABLQABQYsBRw0AIAEtAAJBCEcNAEEKIQMgAS0AAyIFQQRxRQ0BIAJBDEkEQCAAQYCAgIB4NgIADAMLIAIgAS8ACkEMaiIDTw0BIABBgICAgHg2AgAMAgtB5MLHAEETEPsHIQEgAEGBgICAeDYCACAAIAE2AgQMAQsgBUEIcQRAAkAgAiADSwRAA0AgASADai0AAEUNAiACIANBAWoiA0cNAAsLIABBgICAgHg2AgAMAgsgA0EBaiEDCwJAIAVBEHFFDQAgAiADSwRAA0AgASADai0AAEUEQCADQQFqIQMMAwsgAiADQQFqIgNHDQALCyAAQYCAgIB4NgIADAELAkACQCAFQQJxBEAgAiADQQJqIgNJDQELIAIgA0sNASAAQYCAgIB4NgIADAILIABBgICAgHg2AgAMAQtBBBBxIgVFDQEgBUEEayIGLQAAQQNxBEAgBUEANgAACyAEQQBBgdIA/AsAIARBiNIAaiAEIAEgA2ogAiADayAFQQRBAEEGEEUgBCAELQCMUiIBOgCHUgJAAkACQAJAIAEOAwECAQALIAFB/wFHBEAgBCAEQYfSAGqtQoCAgIDQBIQ3A4hSIARBlNIAaiIBQcuYwAAgBEGI0gBqEPUGIAEQhQghASAAQYGAgIB4NgIAIAAgATYCBAwDCyAAQQA2AgggAEKAgICAEDcCAAwCCyAEKAKQUiEBIAAgBTYCBCAAQQQ2AgAgAEEEIAEgAUEETxs2AggMAgsgAEGAgICAeDYCAAsgBigCACIAQXhxIgFBCEEMIABBA3EiABtJDQIgAEEAIAFBLE8bDQMgBRCfAgsgBEGg0gBqJAAPC0EBQQQQ4QgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAuSBwIEfwN+IwBBMGsiAiQAIAJBBjYCDCACQf/VxwA2AghBoIjJAC0AAEEDRwRAAkACQAJAQaCIyQAtAABBAmsOAgECAAtBoIjJAEECOgAAQYAIEHEiAwRAQaCIyQBBAzoAAEGQiMkAIAM2AgBBiIjJAEKAgICAgIABNwMAQfiHyQBCADcDAEGYiMkAQQA6AABBlIjJAEEANgIAQYSIyQBBADoAAEGAiMkAQQA2AgAMAgtBAUGACBDhCAALQazWxwBB8QBBzNfHABDbBwALCwJAAkACQAJAAkACQAJAAkBB+IvJACkDACIGUARAQfCLyQApAwAhBwNAIAdCf1ENAkHwi8kAIAdCAXwiBkHwi8kAKQMAIgggByAIUSIDGzcDACAIIQcgA0UNAAtB+IvJACAGNwMACwJAQfiHyQApAwAgBlIEQEGEiMkALQAAIQNBASEEQYSIyQBBAToAACACIAM6ACAgAw0DQfiHyQAgBjcDAAwBC0GAiMkAKAIAIgNBf0YNAyADQQFqIQQLQYCIyQAgBDYCACACQfiHyQA2AhggAkEEOgAQIAIgAikDEDcDICACIAJBGGo2AiggAkEgakGgzscAIAAgARDEAyEAIAItACAhAQJAAkAgAARAIAFBBEcNAUG4zscAQa0BQZDPxwAQ2wcACyACKAIkIQAgAUEDRyABQQRNcQ0BIAAoAgAhASAAQQRqKAIAIgMoAgAiBARAIAEgBBEDAAsgAygCBCIDBEAgAUEEaygCACIEQXhxIgVBBEEIIARBA3EiBBsgA2pJDQYgBEEAIAUgA0EnaksbDQcgARCfAgsgAEEEaygCACIBQXhxIgNBEEEUIAFBA3EiARtJDQcgAUEAIANBNE8bDQggABCfAgwBCyACIAIpAyA3AxALIAIoAhgiACAAKAIIQQFrIgE2AgggAUUEQCAAQQA6AAwgAEIANwMACyACLQAQQQRHDQcgAkEwaiQADwtBrNjHAEHvAEHk2McAENsHAAsgAkEgahDoBwALQZTXxwBBJkG818cAENwHAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyACIAIpAxA3AxggAiACQRhqrUKAgICAgAWENwMoIAIgAkEIaq1CgICAgKABhDcDIEGHmcAAIAJBIGpBiNbHABDbBwAL5gUBA38jAEEgayIDJAAgAAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCABDigCAQEBAQEBAQEDBQEBBAEBAQEBAQEBAQEBAQEBAQEBAQEBCAEBAQEHAAsgAUHcAEYNBQsgAkEBcUUgAUH/BU1yDQcgARDeBEUNByADQQ5qQQA6AAAgA0EAOwEMIAMgAUEUdi0AtKJFOgAPIAMgAUEEdkEPcS0AtKJFOgATIAMgAUEIdkEPcS0AtKJFOgASIAMgAUEMdkEPcS0AtKJFOgARIAMgAUEQdkEPcS0AtKJFOgAQIAFBAXJnQQJ2IgIgA0EMaiIFaiIEQfsAOgAAIARBAWtB9QA6AAAgBSACQQJrIgJqQdwAOgAAIANBFGoiBCABQQ9xLQC0okU6AAAgACADKQEMNwAAIANB/QA6ABUMCAsgAEIANwECIABB3OAAOwEADAoLIABCADcBAiAAQdzoATsBAAwJCyAAQgA3AQIgAEHc5AE7AQAMCAsgAEIANwECIABB3NwBOwEADAcLIABCADcBAiAAQdy4ATsBAAwGCyACQYACcUUNASAAQgA3AQIgAEHczgA7AQAMBQsgAkH///8HcUGAgARPDQMLIAEQ3wINASADQRhqQQA6AAAgA0EAOwEWIAMgAUEUdi0AtKJFOgAZIAMgAUEEdkEPcS0AtKJFOgAdIAMgAUEIdkEPcS0AtKJFOgAcIAMgAUEMdkEPcS0AtKJFOgAbIAMgAUEQdkEPcS0AtKJFOgAaIAFBAXJnQQJ2IgIgA0EWaiIFaiIEQfsAOgAAIARBAWtB9QA6AAAgBSACQQJrIgJqQdwAOgAAIANBHmoiBCABQQ9xLQC0okU6AAAgACADKQEWNwAAIANB/QA6AB8LIABBCGogBC8BADsAAEEKDAMLIAAgATYCAEGAASECQYEBDAILIABCADcBAiAAQdzEADsBAAtBACECQQILOgANIAAgAjoADCADQSBqJAAL0wQCBn4EfyAAIAAoAjggAmo2AjgCQCAAKAI8IgtFBEAMAQtBBCEJAn5BCCALayIKIAIgAiAKSxsiDEEESQRAQQAhCUIADAELIAE1AAALIQMgDCAJQQFySwRAIAEgCWozAAAgCUEDdK2GIAOEIQMgCUECciEJCyAAIAApAzAgCSAMSQR+IAEgCWoxAAAgCUEDdK2GIAOEBSADCyALQQN0QThxrYaEIgM3AzAgAiAKTwRAIAAgACkDGCADhSIEIAApAwh8IgYgACkDECIFQg2JIAUgACkDAHwiBYUiB3wiCCAHQhGJhTcDECAAIAhCIIk3AwggACAGIARCEImFIgRCFYkgBCAFQiCJfCIEhTcDGCAAIAMgBIU3AwAMAQsgACACIAtqNgI8DwsgAiAKayICQQdxIQkgAkF4cSICIApLBEAgACkDCCEEIAApAxAhAyAAKQMYIQYgACkDACEFA0AgBCAGIAEgCmopAAAiB4UiBnwiBCADIAV8IgUgA0INiYUiA3wiCCADQhGJhSEDIAQgBkIQiYUiBEIViSAEIAVCIIl8IgWFIQYgCEIgiSEEIAUgB4UhBSAKQQhqIgogAkkNAAsgACADNwMQIAAgBjcDGCAAIAQ3AwggACAFNwMAC0EEIQICfiAJQQRJBEBBACECQgAMAQsgASAKajUAAAshAyAJIAJBAXJLBEAgASAKaiACajMAACACQQN0rYYgA4QhAyACQQJyIQILIAAgAiAJSQR+IAEgAiAKamoxAAAgAkEDdK2GIAOEBSADCzcDMCAAIAk2AjwL5AQCCH8EfSABKAIIIghFBEAgAEEANgIADwsgASAIQQFrIgI2AgggASgCBCIDIAJBA3RqIgEoAgQhBSABKgIAIQoCQCACRQRAIAUhCSAKIQ0MAQsgAygCBCEJIAMgBTYCBCADKgIAIQ0gAyAKOAIAQQAhAUEBIQQgCEEETwRAIAJBAmsiAUEAIAEgAk0bIQdBACECA0AgAyACQQN0aiADIAQgAyAEQQN0aiICQQhqKgIAIgwgDFsgDCACKgIAIgtgRXEiASABQX8gCyAMYBsgCyALXBsiAUEATCACQQRqKAIAIAJBDGooAgBNIAEbaiIBQQN0aikCADcCACABQQF0IgZBAXIhBCABIQIgBiAHSQ0ACwsCQAJAIAhBAmsgBEYEQCADIAFBA3RqIAMgBEEDdGoiASkCADcCACABIAU2AgQgASAKOAIAIAQhAQwBCyADIAFBA3RqIgIgBTYCBCACIAo4AgAgAQ0AQQAhAgwBCyAKIApbBEADQCADIAFBAWsiBkEBdiICQQN0aiIHKgIAIgsgC1sgCiALX0VxQX8gCiALYBsiBEEATCAFIAdBBGooAgBNIAQbBEAgASECDAMLIAMgAUEDdGogBykCADcCACACIQEgBkEBSw0ADAILAAsDQAJAIAMgAUEBayIEQQF2IgJBA3RqIgYqAgAiCyALWyAKIAtfRXENACAFIAZBBGooAgBLDQAgASECDAILIAMgAUEDdGogBikCADcCACACIQEgBEECTw0ACwsgAyACQQN0aiIBIAU2AgQgASAKOAIACyAAIAk2AgggACANOAIEIABBATYCAAuDBgMLfwR9BHsCQAJAAkACQAJAAkACQAJAAkBBgAgQcSIGBEAgA0ECdiEF/QwAAAAAAQAAAAIAAAADAAAAIRMDQCAEIAZqIgcgE/37Af0MAAB/QwAAf0MAAH9DAAB/QyIU/ecB/QwAAAC/AAAAvwAAAL8AAAC/IhX95AH9DPMEtT/zBLU/8wS1P/MEtT8iFv3mAf0LAgAgB0EQaiAT/QwEAAAABAAAAAQAAAAEAAAA/a4B/fsBIBT95wEgFf3kASAW/eYB/QsCACAT/QwIAAAACAAAAAgAAAAIAAAA/a4BIRMgBEEgaiIEQYAIRw0ACwJAIANBBE8EQCAFQQJ0IQcgA0EDakF8cSEMIANBAmpBfHEhDSADQQFqQXxxIQ5BACEEA0AgASAETQ0GIARBAWoiCCABTw0HIARBAmoiCSABTw0IIARBA2oiCiABTw0JQwAAgD8gBiAAIARqIgUtAABBAnRqKgIAIhAgEJQgBiAFQQFqLQAAQQJ0aioCACIRIBGUkiAGIAVBAmotAABBAnRqKgIAIhIgEpSSk0MAAAAAEN0IIQ8gBCAMRg0KIAIgD5EiDyARIAVBA2otAAAiC0H8AWsiBUEBRhsgECAFGzgCACAEIA1GDQsgAkEEaiARIA8gEiAFQQJGGyALQf4BSRs4AgAgBCAORg0MIAJBCGogDyASIAtB/wFGGzgCACAEIAdGDQIgAkEMaiAQIA8gBRs4AgAgAkEQaiECIAcgBEEEaiIERw0ACwsgBkEEaygCACIAQXhxQYQIQYgIIABBA3EiARtJDQIgAUEAIABBqAhPGw0DIAYQnwIPCyAKIANB+MTHABCuBwALQQRBgAgQ4QgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsgBCABQYjExwAQrgcACyAIIAFBmMTHABCuBwALIAkgAUGoxMcAEK4HAAsgCiABQbjExwAQrgcACyAEIANByMTHABCuBwALIAggA0HYxMcAEK4HAAsgCSADQejExwAQrgcAC54FAQZ/QeiFyQAoAgAiAiAASQRAIAAgAiIBayIDQeCFyQAoAgAgAWtLBEBB4IXJACABIANBBEEEEJgGQeiFyQAoAgAhAQtB5IXJACgCACIFIAFBAnRqIQQgA0ECTwRAIAAgAkF/c2pBAnQiBgRAIARBACAG/AsACyAAIAFqQQJ0IAJBAnRrIAVqQQRrIQQgASADakEBayEBCyAEQQA2AgBB6IXJACABQQFqNgIAC0H0hckAKAIAIgIgAEkEQCAAIAIiAWsiA0HshckAKAIAIAFrSwRAQeyFyQAgASADQQRBBBCYBkH0hckAKAIAIQELQfCFyQAoAgAiBSABQQJ0aiEEIANBAk8EQCAAIAJBf3NqQQJ0IgYEQCAEQQAgBvwLAAsgACABakECdCACQQJ0ayAFakEEayEEIAEgA2pBAWshAQsgBEEANgIAQfSFyQAgAUEBajYCAAtBgIbJACgCACICIABJBEAgACACayIAQfiFyQAoAgAgAmtLBEBB+IXJACACIABBCEEIEJgGQYCGyQAoAgAhAgtB/IXJACgCACIEIAJBA3RqIQEgAEECTwR/IABBA3RBCGsiAwRAIAFBACAD/AsACyAAIAJqIgBBAWshAiAEIABBA3RqQQhrBSABC0IANwMAQYCGyQAgAkEBajYCAAtBjIbJACgCACIAQf//B00EQEGAgAggACICayIBQYSGyQAoAgAgAGtLBEBBhIbJACAAIAFBBEEEEJgGQYyGyQAoAgAhAgtBiIbJACgCACIEIAJBAnQiA2ohASAAQf//B0cEf0H8/x8gAEECdCIFayIGBEAgAUEAIAb8CwALIAIgAGtB//8HaiECIAMgBWsgBGpB/P8fagUgAQtBADYCAEGMhskAIAJBAWo2AgALC+8EAQt/IwBBEGsiDSQAIAMEQANAAkACQAJAAkACQCAFIAxHBEAgAiAMaiEGIAQgDEECdGooAgAiDgRAIAEgBk0NAiAAIAZBGGxqIglBFGohCwJ/IAkoAhQiBkEETQRAIAYhByALIQpBASAGIAZBAU0bDAELIAlBBGohCkEBIAkoAgQiByAHQQFNGwshCCAHBEAgCkEANgIAIAsoAgAhBgsCQAJAAkACQCAGQQVPBEAgCSgCBCIHIAhPDQIgBiEKDAELQQQhCiAGIAhPDQggBiEHCyAKIAdrIAggB2siCk8NAkF/IAhBAWtndkEAIAhBAk8bIgZBf0YNASANQQhqIAkgBkEBahDsAyANKAIIIgZBgYCAgHhGDQIgBkUNASANKAIMEOgJAAsgByAITQ0IIAlBBGohCyAHIQYMBwtBwPrGAEERQbCsxwAQ5wgACyAHIAhGDQYgCUEEaiEPA0ACfyALKAIAIgdBBUkEQCAHIQYgDyEQQQQhByALDAELIAkoAgQhBiAJKAIIIRAgDwshCCAGIAdGBH8gCRCwBiAJKAIIIRAgDyEIIAkoAgQFIAYLQQJ0IBBqIA42AgAgCCAIKAIAQQFqNgIAIA5BAWohDiAKQQFrIgoNAAsMBgsgASAGSw0CIAYgAUHEpccAEK4HAAsgBSAFQaSlxwAQrgcACyAGIAFBtKXHABCuBwALAn8gACAGQRhsaiIHKAIUIgZBBUkEQCAHQRRqDAELIAcoAgQhBiAHQQRqCyAGRQ0CQQA2AgAMAgsgBiAITQ0BCyAGIAhNDQAgCyAINgIACyAMQQFqIgwgA0cNAAsLIA1BEGokAAvvBAELfyMAQRBrIg0kACADBEADQAJAAkACQAJAAkAgBSAMRwRAIAIgDGohBiAEIAxBAnRqKAIAIg4EQCABIAZNDQIgACAGQRhsaiIJQRRqIQsCfyAJKAIUIgZBBE0EQCAGIQcgCyEKQQEgBiAGQQFNGwwBCyAJQQRqIQpBASAJKAIEIgcgB0EBTRsLIQggBwRAIApBADYCACALKAIAIQYLAkACQAJAAkAgBkEFTwRAIAkoAgQiByAITw0CIAYhCgwBC0EEIQogBiAITw0IIAYhBwsgCiAHayAIIAdrIgpPDQJBfyAIQQFrZ3ZBACAIQQJPGyIGQX9GDQEgDUEIaiAJIAZBAWoQ7AMgDSgCCCIGQYGAgIB4Rg0CIAZFDQEgDSgCDBDoCQALIAcgCE0NCCAJQQRqIQsgByEGDAcLQcD6xgBBEUGwrMcAEOcIAAsgByAIRg0GIAlBBGohDwNAAn8gCygCACIHQQVJBEAgByEGIA8hEEEEIQcgCwwBCyAJKAIEIQYgCSgCCCEQIA8LIQggBiAHRgR/IAkQsAYgCSgCCCEQIA8hCCAJKAIEBSAGC0ECdCAQaiAONgIAIAggCCgCAEEBajYCACAOQQFqIQ4gCkEBayIKDQALDAYLIAEgBksNAiAGIAFBlKjHABCuBwALIAUgBUH0p8cAEK4HAAsgBiABQYSoxwAQrgcACwJ/IAAgBkEYbGoiBygCFCIGQQVJBEAgB0EUagwBCyAHKAIEIQYgB0EEagsgBkUNAkEANgIADAILIAYgCE0NAQsgBiAITQ0AIAsgCDYCAAsgDEEBaiIMIANHDQALCyANQRBqJAALkgUCC38BeyMAQTBrIgQkACAEQQA2AgggBEEANgIsQQghCCAEQSxqIQoCQAJAAkACQAJAAn8CQAJAIAIgAWsiB0EAIAIgB08bIgdBCE0EQCAEQQxqIQcMAQsCQCAHQQFrZyIDBEAgBCAEQQhqQX8gA3ZBAWoQ6QMgBCgCACIDQYGAgIB4Rg0BIAMNBQtBwPrGAEERQbCsxwAQ5wgACyAEQQxqIQcgBCgCLCIFQQlPDQEgBSEDCyAHIQkgCgwBCyAEKAIMIQMgBCgCECEJIAUhCCAHCyELIAMgCE8NAiAIIANBf3NqIgUgAiABIAEgAkkbIg0gAWsiBiAFIAZJG0EBaiIGQQRNDQEgCSADQQJ0aiEFIAH9Ef0MAAAAAAEAAAACAAAAAwAAAP2uASEOIAYgBkEDcSIGQQQgBhtrIgwhBgNAIAUgDv0LAgAgBUEQaiEFIA79DAQAAAAEAAAABAAAAAQAAAD9rgEhDiAGQQRrIgYNAAsgASAMaiEBIAMgDGohAwwBCyAEKAIEEOgJAAsgCSADQQJ0aiEFA0AgASANRg0CIAUgATYCACAFQQRqIQUgAUEBaiEBIAggA0EBaiIDRw0ACyAIIQMLIAsgAzYCACABIAJPDQEDQAJ/IAQoAiwiBkEJSQRAIAYhBSAHIQhBCCEGIAoMAQsgBCgCDCEFIAQoAhAhCCAHCyEDIAUgBkYEQCAEQQhqEKsGIAQoAgwhBSAEKAIQIQggByEDCyAIIAVBAnRqIAE2AgAgAyADKAIAQQFqNgIAIAFBAWoiASACRw0ACwwBCyALIAM2AgALIAAgBP0AAgj9CwIAIABBIGogBEEoaikCADcCACAAQRBqIARBGGr9AAIA/QsCACAEQTBqJAALiQYBBX8jAEEgayICJABBASEEAkACQAJAAkACQAJAQQEgACgCACIDQf////8HaiADQYCAgIB4TRtBAWsOBAECAwQACyABKAIAIgNBg4jHAEECIAEoAgQiBigCDCIFEQAADQQgAEEEaiEAAkAgAS0ACkGAAXFFBEAgA0HgnsUAQQEgBREAAA0GIAAgARCuAg0GIAEoAgAhAyABKAIEKAIMIQUMAQsgA0HLi8IAQQIgBREAAA0FIAJBAToADyACIAY2AgQgAiADNgIAIAJB0IvCADYCFCACIAEpAgg3AhggAiACQQ9qNgIIIAIgAjYCECAAIAJBEGoQrgINBSACKAIQQcmLwgBBAiACKAIUKAIMEQAADQULIANB4p7FAEEBIAURAAAhBAwECyABKAIAIgNBhYjHAEEOIAEoAgQiBigCDCIFEQAADQMCQCABLQAKQYABcUUEQCADQeCexQBBASAFEQAADQUgACgCBCAAKAIIIAEQuwJFDQEMBQsgA0HLi8IAQQIgBREAAA0EIAJBAToADyACIAY2AgQgAiADNgIAIAJB0IvCADYCFCACIAEpAgg3AhggAiACQQ9qNgIIIAIgAjYCECAAKAIEIAAoAgggAkEQahC7Ag0EIAJByYvCAEECELIDDQQLIANB4p7FAEEBIAURAAAhBAwDCyABKAIAIgNBk4jHAEESIAEoAgQiBigCDCIFEQAADQICQCABLQAKQYABcUUEQCADQeCexQBBASAFEQAADQQgACgCBCAAKAIIIAEQuwJFDQEMBAsgA0HLi8IAQQIgBREAAA0DIAJBAToADyACIAY2AgQgAiADNgIAIAJB0IvCADYCFCACIAEpAgg3AhggAiACQQ9qNgIIIAIgAjYCECAAKAIEIAAoAgggAkEQahC7Ag0DIAJByYvCAEECELIDDQMLIANB4p7FAEEBIAURAAAhBAwCCyABKAIAQaWIxwBBDCABKAIEKAIMEQAAIQQMAQsgASgCAEGxiMcAQQ8gASgCBCgCDBEAACEECyACQSBqJAAgBAvxAwEEfyAAEMACAkACQCAAKAK8ASIBBEAgACgCwAEiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsgACgCyAEiAQRAIAAoAswBIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQnwILIAAoAtQBIgEEQCAAKALYASIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEJ8CCwJAIAAoAuABIgFBgICAgHhGDQAgAQRAIAAoAuQBIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQIgAkEAIAQgAUEnaksbDQMgAxCfAgsgACgC7AEiAQRAIAAoAvABIgNBBGsoAgAiAkF4cSIEIAFBAXQiAUEEQQggAkEDcSICG2pJDQIgAkEAIAQgAUEnaksbDQMgAxCfAgsgACgC+AEiAUUNACAAKAL8ASIAQQRrKAIAIgNBeHEiAiABQQJ0IgFBBEEIIANBA3EiAxtqSQ0BIANBACACIAFBJ2pLGw0CIAAQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL6wMBBH8gABD0AgJAAkAgACgCYCIBBEAgACgCZCIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKAJsIgEEQCAAKAJwIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQnwILIAAoAngiAQRAIAAoAnwiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsCQCAAKAKEASIBQYCAgIB4Rg0AIAEEQCAAKAKIASIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQnwILIAAoApABIgEEQCAAKAKUASIDQQRrKAIAIgJBeHEiBCABQQF0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQnwILIAAoApwBIgFFDQAgACgCoAEiAEEEaygCACIDQXhxIgIgAUECdCIBQQRBCCADQQNxIgMbakkNASADQQAgAiABQSdqSxsNAiAAEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC+YDAQR/IAAQ8wICQAJAIAAoAkAiAQRAIAAoAkQiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsgACgCTCIBBEAgACgCUCIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKAJYIgEEQCAAKAJcIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQnwILAkAgACgCZCIBQYCAgIB4Rg0AIAEEQCAAKAJoIgNBBGsoAgAiAkF4cSIEIAFBAnQiAUEEQQggAkEDcSICG2pJDQIgAkEAIAQgAUEnaksbDQMgAxCfAgsgACgCcCIBBEAgACgCdCIDQQRrKAIAIgJBeHEiBCABQQF0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQnwILIAAoAnwiAUUNACAAKAKAASIAQQRrKAIAIgNBeHEiAiABQQJ0IgFBBEEIIANBA3EiAxtqSQ0BIANBACACIAFBJ2pLGw0CIAAQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL8QMBBH8gABCIAgJAAkAgACgCxAEiAQRAIAAoAsgBIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQnwILIAAoAtABIgEEQCAAKALUASIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAKALcASIBBEAgACgC4AEiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsCQCAAKALoASIBQYCAgIB4Rg0AIAEEQCAAKALsASIDQQRrKAIAIgJBeHEiBCABQQJ0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQnwILIAAoAvQBIgEEQCAAKAL4ASIDQQRrKAIAIgJBeHEiBCABQQF0IgFBBEEIIAJBA3EiAhtqSQ0CIAJBACAEIAFBJ2pLGw0DIAMQnwILIAAoAoACIgFFDQAgACgChAIiAEEEaygCACIDQXhxIgIgAUECdCIBQQRBCCADQQNxIgMbakkNASADQQAgAiABQSdqSxsNAiAAEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC/wEAQh/IwBBEGsiBiQAAkACQCACKAIEIgdFDQAgACACKAIAIAcgASgCDBEAAEUNAEEBIQQMAQsgAigCDCIDRQRADAELIAIoAggiByADQQxsaiEIIAdBDGohAyAGQQxqIQkDQCAHIQIgAyEHAkACQAJAAkAgAi8BAEEBaw4CAgEACwJAIAIoAgQiAkHBAE8EQCABQQxqKAIAIQMDQCAAQfKLwgBBwAAgAxEAAARAQQEhBAwICyACQUBqIgJBwABLDQALDAELIAJFDQMgAUEMaigCACEDCyAAQfKLwgAgAiADEQAARQ0CQQEhBAwECyAAIAIoAgQgAigCCCABQQxqKAIAEQAARQ0BQQEhBAwDCyACLwECIQMgCUEAOgAAIAZBADYCCAJAAkACQAJ/AkACQAJAAkAgAi8BAEEBaw4CAQIACyACKAIEDAMLIAIvAQIiAg0BQQEhBSAGQQhqQQFyIQIMAwsgAigCCAwBCyACQfb/F2ogAkGc/x9qcSACQZj4N2ogAkHwsR9qcXNBEXZBAWoLIgVBBk8EQEEAIAVBBUG0jMIAENUHAAsgBUUEQEEAIQUMAwsgBkEIaiAFaiECIAVBAXENAAwBCyACQQFrIgIgAyADQQpuIgNBCmxrQTByOgAACyAFQQFGDQAgAkECayECA0AgAiADQf//A3EiCkEKbiIEQQpwQTByOgAAIAJBAWogAyAEQQpsa0EwcjoAACAKQeQAbiEDIAIgBkEIakcgAkECayECDQALCyAAIAZBCGogBSABQQxqKAIAEQAARQ0AQQEhBAwCC0EAIQQgB0EAQQwgByAIRiICG2ohAyACRQ0ACwsgBkEQaiQAIAQLwgYCBX8SfSAAQQxqIQgDQCAALQCMAiAEIAUgAiAAKAKIAmoQtwQhESAALQCUAiAEIAUgAiAAKAKQAmoQtwQhEiAALQCcAiAEIAUgAiAAKAKYAmoQtwQhEyAALQCkAiAEIAUgAiAAKAKgAmoQtwQhFCAALQCsAiAEIAUgAiAAKAKoAmoQtwQhFSAALQC0AiAEIAUgAiAAKAKwAmoQtwQhFiAALQC8AiAEIAUgAiAAKAK4AmoQtwQhFyAALQDEAiAEIAUgAiAAKALAAmoQtwQhGCAALQDMAiAEIAUgAiAAKALIAmoQtwQhGSAALQDUAiAEIAUgAiAAKALQAmoQtwQhGiAALQDcAiAEIAUgAiAAKALYAmoQtwQhGyAALQDkAiAEIAUgAiAAKALgAmoQtwQhHEMAAAAAIQtDAAAAACEMIAAtANwBIgZBCEcEQCAGIAQgBSACIAAoAtgBahC3BCEMCyAALQDkASIGQQhHBEAgBiAEIAUgAiAAKALgAWoQtwQhCwtDAAAAACENIAAtAOwBIgZBCEcEQCAGIAQgBSACIAAoAugBahC3BCENC0MAAIA/IQ5DAACAPyEPIAAtAPQBIgZBCEcEQCAGIAQgBSACIAAoAvABahC3BCEPCyAALQD8ASIGQQhHBEAgBiAEIAUgAiAAKAL4AWoQtwQhDgtDAACAPyEQIAAtAIQCIgZBCEcEQCAGIAQgBSACIAAoAoACahC3BCEQCyAAKAIUIgkgACgCDEYEQCMAQRBrIgYkACAGQQRqIAgoAgAiByAIKAIEQQQgB0EBdCIHIAdBBE0bIgdBBEHIABCLBiAGKAIEQQFGBEAgBigCCCAGKAIMEOEIAAsgBigCCCEKIAggBzYCACAIIAo2AgQgBkEQaiQACyAAKAIQIAlByABsaiIGIBA4AkQgBiAOOAJAIAYgDzgCPCAGIA04AjggBiALOAI0IAYgDDgCMCAGIBw4AiwgBiAbOAIoIAYgGjgCJCAGIBk4AiAgBiAYOAIcIAYgFzgCGCAGIBY4AhQgBiAVOAIQIAYgFDgCDCAGIBM4AgggBiASOAIEIAYgETgCACAAIAlBAWo2AhQgAiADaiECIAFBAWsiAQ0ACwubBQQIfwF8AX0BfiMAQRBrIgMkAAJAAkAgASgCAEGUgICAeEYEQCABKAIIIgIgASgCDCIBQQR0IgRqIQYCQCABRQRAIANBADYCCCADQoCAgIDAADcCAAwBC0GAgBAgASABQYCAEE8bIgFBAnQiBRBxIgdFDQMgA0EANgIIIAMgBzYCBCADIAE2AgAgBEEQa0EEdkEBaiEFQQAhAQNAAn0CQAJAAkACQAJAAkACQAJAAkACQAJAQRUgAigCACIJQYCAgIB4cyAJQQBOG0EBaw4KCgABAgMEBQYHCAkLIAJBBGovAQCzDAoLIAJBBGooAgCzDAkLIAJBCGopAwC1DAgLIAJBBGosAACyDAcLIAJBBGouAQCyDAYLIAJBBGooAgCyDAULIAJBCGopAwC0DAQLIAJBBGoqAgAMAwsgAkEIaisDACIKtkMAAIA/QwAAgL8gCr1CAFkbmAwCCyACIANBD2pB4IvBABCPCCEBIABBgICAgHg2AgAgACABNgIEIAMoAgAiAEUNBSADKAIEIABBAnRBBBCIBwwFCyACQQRqLQAAswshCyACQRBqIQIgAygCACAIRgRAIAMQ9gYgAygCBCEHCyABIAdqIAs4AgAgAyAIQQFqIgg2AgggAUEEaiEBIARBEGsiBA0ACyAGIQILIAAgAykCACIMNwIAIABBCGogA0EIaigCADYCACAMpyIBQYCAgIB4RiACIAZGcg0BIAAoAgQgAyAFNgIAIAYgAmtBBHYgBWogA0HQtcEAEP0GIQIgAEGAgICAeDYCACAAIAI2AgQgAUUNASABQQJ0QQQQiAcMAQsgASADQQ9qQYzbwQAQjwghASAAQYCAgIB4NgIAIAAgATYCBAsgA0EQaiQADwtBBCAFEOEIAAvTBAEKfyMAQSBrIgMkACADQQA2AgggA0EANgIcIANBHGohCwJAAkACQAJAAkACfyACIAFrIgVBEE0EQEEEIQYgA0EMaiIIIQkgCwwBCyADIANBCGpBfyAFQQJ2QQFrZ3ZBAWoQ7AMgAygCACIEQYGAgIB4RwRAIAQNAkHA+sYAQRFBsKzHABDnCAALIANBDGohCCADKAIcIgZBBUkEQCAGIQQgCCEJQQQhBiALDAELIAMoAgwhBCADKAIQIQkgCAshCiAEIAZPDQIgBUEDcSAFQQJ2IgUgBiAEQX9zaiIHIAUgB0kbIgdBB01yDQEgBEECdCAJaiIFIAFrQRBJDQEgBCAHQQFqIgcgB0EDcSIHQQQgBxtrIgxqIQQgASAMQQJ0agNAIAUgAf0AAgD9CwIAIAFBEGohASAFQRBqIQUgDEEEayIMDQALIQEMAQsgAygCBBDoCQALIAkgBEECdGohBQNAIAEgAkYNAiAFIAEoAgA2AgAgBUEEaiEFIAFBBGohASAGIARBAWoiBEcNAAsgBiEECyAKIAQ2AgAgASACRg0BA0ACfyADKAIcIgZBBUkEQCAGIQUgCCEKQQQhBiALDAELIAMoAgwhBSADKAIQIQogCAshBCABKAIAIQkgBSAGRgRAIANBCGoQsAYgAygCDCEFIAMoAhAhCiAIIQQLIAogBUECdGogCTYCACAEIAQoAgBBAWo2AgAgAUEEaiIBIAJHDQALDAELIAogBDYCAAsgACAD/QACCP0LAgAgAEEQaiADQRhqKQIANwIAIANBIGokAAvmBAEJfyMAQRBrIggkAAJAAkACQAJAAkAgAC0AuAFBAUcNACAAKAKsASAAKAKwASIGQQJ0IAAoArQBIgUgBmpBAnQQ3gghBiAFQQJ0IgUgACgCZCIHSw0BIAAoAmAhByAIIAYQuwoiCTYCCCAIIAU2AgwgBSAJRw0EIAYgByAFEOQJIAZBhAhJDQAgBhCFBwsgAEIANwKwASAAQbgBakEAOgAAAkACQCAAKAIwQQFHDQAgACgCNCABQQJ0IAEgAmpBAnQQ3gghCQJAIAJBAnQiASAAKAJkIgZNBEAgACABNgJkIAAoAmAhByABIQIMAQsgBiEFIAEgBmsiCiAAKAJcIAZrSwRAIABB3ABqIAYgCkEEQQQQmAYgACgCZCEFCyAAKAJgIgcgBUECdCIMaiELIApBAk8EQCABIAZBf3NqQQJ0Ig0EQCALQQAgDfwLAAsgAkEEdCAGQQJ0ayAHaiAMakEEayELIAUgCmpBAWshBQsgC0EANgIAIAAgBUEBaiICNgJkIAEgAksNBAsgCCAJELsKIgA2AgggCCABNgIMIAAgAUcNBSAHIAEgCRDlCSAHQQhqIQcgBEECdCEGQQAhAANAIABBAmoiBSACTw0FIAAgBkYNAiADIAcoAgA7AQAgB0EQaiEHIANBAmohAyABIABBBGoiAEcNAAsgCUGECEkNACAJEIUHCyAIQRBqJAAPCyAEIARB6PfAABCuBwALQQAgBSAHQYSQwQAQ1QcAC0EAIAEgAkH498AAENUHAAsgBSACQdj3wAAQrgcAC0EAIAhBCGogCEEMakEAIABBtPPEABDkBwAL7QQBEH8jAEHQAGsiEyQAIAEEQCACQQFGISEDQAJAAkACQAJAAkAgBEGAgAQgASAYIhZrIhggGEGAgARPGyIXQQNsIhwgFkEDbCIbaiIUTwRAIBYgF2oiGCAXSSAMIBhJcg0BIAogFEkNAiAGIBRJDQMCQCAIIBdBAnQiIiAWQQJ0Ih1qIhRPBEBBACEeQQQhGSACDQFBBCEVQQAhFEEAIR9BBCEgDAcLIB0gFCAIQYDrwQAQ1QcACwJAIBdBCWwiHyAWQQlsIhRqIhUgH0kgDiAVSXJFBEAgDSAUQQJ0aiEgICFFDQFBBCEVQQAhFAwHCyAUIBUgDkHw6sEAENUHAAsgF0EPbCIUIBZBD2wiFWoiGiAUSSAQIBpJcg0EIA8gFUECdGohFSACQQNHDQUgF0EVbCIeIBZBFWwiGWoiGiAeSSASIBpJckUEQCARIBlBAnRqIRkMBgsgGSAaIBJB0OrBABDVBwALIBsgFCAEQcDrwQAQ1QcACyAWIBggDEGw68EAENUHAAsgGyAUIApBoOvBABDVBwALIBsgFCAGQZDrwQAQ1QcACyAVIBogEEHg6sEAENUHAAsgE0IENwJIIBNCAjcCQCATIB42AjwgEyAZNgI4IBMgFDYCNCATIBU2AjAgEyAfNgIsIBMgIDYCKCATICI2AiQgEyAHIB1BAnRqNgIgIBMgHDYCHCATIAUgG0ECdCIUajYCGCATIBw2AhQgEyAJIBRqNgIQIBMgFzYCDCATIAsgHWo2AgggEyAcNgIEIBMgAyAUajYCACAAIBYgFyATEJkBIAEgGEsNAAsLIAAQowEgE0HQAGokAAvsBAEQfyMAQdAAayITJAAgAQRAIAJBAUYhIQNAAkACQAJAAkACQCAEQYCABCABIBgiFmsiGCAYQYCABE8bIhdBA2wiHCAWQQNsIhtqIhRPBEAgFiAXaiIYIBdJIAwgGElyDQEgCiAUSQ0CIAYgFEkNAwJAIAggF0ECdCIiIBZBAnQiHWoiFE8EQEEAIR5BBCEZIAINAUEEIRVBACEUQQAhH0EEISAMBwsgHSAUIAhBgOvBABDVBwALAkAgF0EJbCIfIBZBCWwiFGoiFSAfSSAOIBVJckUEQCANIBRBAnRqISAgIUUNAUEEIRVBACEUDAcLIBQgFSAOQfDqwQAQ1QcACyAXQQ9sIhQgFkEPbCIVaiIaIBRJIBAgGklyDQQgDyAVQQJ0aiEVIAJBA0cNBSAXQRVsIh4gFkEVbCIZaiIaIB5JIBIgGklyRQRAIBEgGUECdGohGQwGCyAZIBogEkHQ6sEAENUHAAsgGyAUIARBwOvBABDVBwALIBYgGCAMQbDrwQAQ1QcACyAbIBQgCkGg68EAENUHAAsgGyAUIAZBkOvBABDVBwALIBUgGiAQQeDqwQAQ1QcACyATQgQ3AkggE0ICNwJAIBMgHjYCPCATIBk2AjggEyAUNgI0IBMgFTYCMCATIB82AiwgEyAgNgIoIBMgIjYCJCATIAcgHUECdGo2AiAgEyAcNgIcIBMgBSAbQQJ0IhRqNgIYIBMgHDYCFCATIAkgFGo2AhAgEyAXNgIMIBMgCyAdajYCCCATIBw2AgQgEyADIBRqNgIAIAAgFiAXIBMQfiABIBhLDQALCyAAENgBIBNB0ABqJAAL1AUBBX8jAEEgayICJAACQAJAAkACQAJAIAAtAABBAWsOAwECAwALQQEhBCABKAIAIgNBno7HAEEFIAEoAgQiBigCDCIFEQAADQMCQCABLQAKQYABcUUEQCADQeCexQBBASAFEQAADQUgAyAALQABQQJ0IgAoAvDoSCAAKAKw6EggBREAAEUNAQwFCyADQcuLwgBBAiAFEQAADQQgAiAGNgIUIAIgAzYCECACQQE6AAAgAC0AAUECdCIAKAKw50ghASAAKALw50ghACACIAI2AhggAkEQaiIGIAAgARCyAw0EIAZByYvCAEECELIDDQQLIANB4p7FAEEBIAURAAAhBAwDC0EBIQQgASgCACIDQaOOxwBBBCABKAIEIgYoAgwiBREAAA0CAkAgAS0ACkGAAXFFBEAgA0HgnsUAQQEgBREAAA0EIABBCGooAgAgAEEMaigCACABELsCRQ0BDAQLIANBy4vCAEECIAURAAANAyACQQE6AA8gAiAGNgIEIAIgAzYCACACQdCLwgA2AhQgAiABKQIINwIYIABBCGooAgAgAEEMaigCACACIAJBD2o2AgggAiACNgIQIAJBEGoQuwINAyACQcmLwgBBAhCyAw0DCyADQeKexQBBASAFEQAAIQQMAgtBASEEIAEoAgAiA0GnjscAQQ0gASgCBCIGKAIMIgURAAANASAAQQRqIQACQCABLQAKQYABcUUEQCADQeCexQBBASAFEQAADQMgACABELICRQ0BDAMLIANBy4vCAEECIAURAAANAiACQQE6AA8gAiAGNgIEIAIgAzYCACACQdCLwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgACACQRBqELICDQIgAkHJi8IAQQIQsgMNAgsgA0HinsUAQQEgBREAACEEDAELIAEoAgBBtI7HAEEHIAEoAgQoAgwRAAAhBAsgAkEgaiQAIAQLvgQBBX8gASgCCCEDAn8gASgCBCICQRB2IgFB//8BcQRAIAFB/wdxIQIgAUGAgAJxIQQgAUGA+AFxIgVBgPgBRwRAIARBEHQiASAFQQ10QYCAgPwAcSACQQ10ckGAgIDAA2pyIAUNAhogAiACZ0EQayICQf//A3FBCGp0Qf///wNxIAFBgICA2ANyIAJBF3RrcgwCCyABQQ10IARBEHQiAXJBgICA/gdyIAINARogAUGAgID8B3IMAQsgAkGAgHxxCyEGIANBEHYhAQJ/IANB//8BcQRAIANB/wdxIQIgA0GAgAJxIQQgA0GA+AFxIgVBgPgBRwRAIARBEHQiBCAFQQ10QYCAgPwAcSACQQ10ckGAgIDAA2pyIAUNAhogAiACZ0EQayICQf//A3FBCGp0Qf///wNxIARBgICA2ANyIAJBF3RrcgwCCyAEQRB0IgQgAkENdHJBgICA/gdyIAINARogBEGAgID8B3IMAQsgA0EQdAshBSAAAn8gAUH//wFxBEAgAUH/B3EhAyABQYCAAnEhAiABQYD4AXEiBEGA+AFHBEAgAkEQdCIBIARBDXRBgICA/ABxIANBDXRyQYCAgMADanIgBA0CGiADIANnQRBrIgNB//8DcUEIanRB////A3EgAUGAgIDYA3IgA0EXdGtyDAILIAFBDXQgAkEQdCIBckGAgID+B3IgAw0BGiABQYCAgPwHcgwBCyADQYCAfHELvhDuAzgCCCAAIAW+EO4DOAIEIAAgBr4Q7gM4AgAL4gQBCX8jAEEQayIIJAACQAJAAkACQAJAIAAtALgBQQFHDQAgACgCrAEgACgCsAEiBkECdCAAKAK0ASIFIAZqQQJ0EN4IIQYgBUECdCIFIAAoAmQiB0sNASAAKAJgIQcgCCAGELsKIgk2AgggCCAFNgIMIAUgCUcNBCAGIAcgBRDkCSAGQYQISQ0AIAYQhQcLIABCADcCsAEgAEG4AWpBADoAAAJAAkAgACgCMEEBRw0AIAAoAjQgAUECdCABIAJqQQJ0EN4IIQkCQCACQQJ0IgEgACgCZCIGTQRAIAAgATYCZCAAKAJgIQcgASECDAELIAYhBSABIAZrIgogACgCXCAGa0sEQCAAQdwAaiAGIApBBEEEEJgGIAAoAmQhBQsgACgCYCIHIAVBAnQiDGohCyAKQQJPBEAgASAGQX9zakECdCINBEAgC0EAIA38CwALIAJBBHQgBkECdGsgB2ogDGpBBGshCyAFIApqQQFrIQULIAtBADYCACAAIAVBAWoiAjYCZCABIAJLDQQLIAggCRC7CiIANgIIIAggATYCDCAAIAFHDQUgByABIAkQ5QkgB0EMaiEHIARBAnQhBkEAIQADQCAAQQNqIgUgAk8NBSAAIAZGDQIgACADaiAHKAIANgIAIAdBEGohByABIABBBGoiAEcNAAsgCUGECEkNACAJEIUHCyAIQRBqJAAPCyAEIARBmPjAABCuBwALQQAgBSAHQYSQwQAQ1QcAC0EAIAEgAkGo+MAAENUHAAsgBSACQYj4wAAQrgcAC0EAIAhBCGogCEEMakEAIABBtPPEABDkBwAL5wQCB38BewJAAkAgACgCCCIHQYCAgMABcUUNAAJAIAdBgICAgAFxRQRAIAJBEE8EQCABIAIQxAIhAwwCCyACRQRAQQAhAgwCCyACQQNxIQUCQCACQQRJBEAMAQsgAkEMcSEGA0AgAyABIARq/VwAAP0Mv7+/v7+/v7+/v7+/v7+/v/0nIgr9GwBBAXFqIAr9hwH9pwEiCv0bAWsgCv0bAmsgCv0bA2shAyAGIARBBGoiBEcNAAsLIAVFDQEgASAEaiEEA0AgAyAELAAAQb9/SmohAyAEQQFqIQQgBUEBayIFDQALDAELAkACQCAALwEOIgNFBEBBACECDAELIAEgAmohCUEAIQIgASEEIAMhBQNAIAQiBiAJRg0CAn8gBEEBaiAELAAAIghBAE4NABogBkECaiAIQWBJDQAaIAZBA2ogCEFwSQ0AGiAGQQRqCyIEIAZrIAJqIQIgBUEBayIFDQALC0EAIQULIAMgBWshAwsgAyAALwEMIgRPDQAgBCADayEGQQAhA0EAIQUCQAJAAkAgB0EddkEDcUEBaw4CAAECCyAGIQUMAQsgBkH+/wNxQQF2IQULIAdB////AHEhCCAAKAIEIQcgACgCACEAA0AgA0H//wNxIAVB//8DcUkEQEEBIQQgA0EBaiEDIAAgCCAHKAIQEQIARQ0BDAMLC0EBIQQgACABIAIgBygCDBEAAA0BIAYgBWtB//8DcSEBQQAhAwNAIAEgA0H//wNxTQRAQQAPCyADQQFqIQMgACAIIAcoAhARAgBFDQALDAELIAAoAgAgASACIAAoAgQoAgwRAAAhBAsgBAvoBAEQfyMAQdAAayITJAAgAQRAIAJBAUYhIQNAAkACQAJAAkACQCAEQYCABCABIBgiFmsiGCAYQYCABE8bIhdBA2wiHCAWQQNsIhtqIhRPBEAgFiAXaiIYIBdJIAwgGElyDQEgCiAUSQ0CIAYgFEkNAwJAIAggF0ECdCIiIBZBAnQiHWoiFE8EQEEAIR5BBCEZIAINAUEEIRVBACEUQQAhH0EEISAMBwsgHSAUIAhBgOvBABDVBwALAkAgF0EJbCIfIBZBCWwiFGoiFSAfSSAOIBVJckUEQCANIBRBAnRqISAgIUUNAUEEIRVBACEUDAcLIBQgFSAOQfDqwQAQ1QcACyAXQQ9sIhQgFkEPbCIVaiIaIBRJIBAgGklyDQQgDyAVQQJ0aiEVIAJBA0cNBSAXQRVsIh4gFkEVbCIZaiIaIB5JIBIgGklyRQRAIBEgGUECdGohGQwGCyAZIBogEkHQ6sEAENUHAAsgGyAUIARBwOvBABDVBwALIBYgGCAMQbDrwQAQ1QcACyAbIBQgCkGg68EAENUHAAsgGyAUIAZBkOvBABDVBwALIBUgGiAQQeDqwQAQ1QcACyATQgQ3AkggE0ICNwJAIBMgHjYCPCATIBk2AjggEyAUNgI0IBMgFTYCMCATIB82AiwgEyAgNgIoIBMgIjYCJCATIAcgHUECdGo2AiAgEyAcNgIcIBMgBSAbQQJ0IhRqNgIYIBMgHDYCFCATIAkgFGo2AhAgEyAXNgIMIBMgCyAdajYCCCATIBw2AgQgEyADIBRqNgIAIAAgFiAXIBMQkwIgASAYSw0ACwsgE0HQAGokAAvoBAEQfyMAQdAAayITJAAgAQRAIAJBAUYhIQNAAkACQAJAAkACQCAEQYCABCABIBgiFmsiGCAYQYCABE8bIhdBA2wiHCAWQQNsIhtqIhRPBEAgFiAXaiIYIBdJIAwgGElyDQEgCiAUSQ0CIAYgFEkNAwJAIAggF0ECdCIiIBZBAnQiHWoiFE8EQEEAIR5BBCEZIAINAUEEIRVBACEUQQAhH0EEISAMBwsgHSAUIAhBgOvBABDVBwALAkAgF0EJbCIfIBZBCWwiFGoiFSAfSSAOIBVJckUEQCANIBRBAnRqISAgIUUNAUEEIRVBACEUDAcLIBQgFSAOQfDqwQAQ1QcACyAXQQ9sIhQgFkEPbCIVaiIaIBRJIBAgGklyDQQgDyAVQQJ0aiEVIAJBA0cNBSAXQRVsIh4gFkEVbCIZaiIaIB5JIBIgGklyRQRAIBEgGUECdGohGQwGCyAZIBogEkHQ6sEAENUHAAsgGyAUIARBwOvBABDVBwALIBYgGCAMQbDrwQAQ1QcACyAbIBQgCkGg68EAENUHAAsgGyAUIAZBkOvBABDVBwALIBUgGiAQQeDqwQAQ1QcACyATQgQ3AkggE0ICNwJAIBMgHjYCPCATIBk2AjggEyAUNgI0IBMgFTYCMCATIB82AiwgEyAgNgIoIBMgIjYCJCATIAcgHUECdGo2AiAgEyAcNgIcIBMgBSAbQQJ0IhRqNgIYIBMgHDYCFCATIAkgFGo2AhAgEyAXNgIMIBMgCyAdajYCCCATIBw2AgQgEyADIBRqNgIAIAAgFiAXIBMQ7wEgASAYSw0ACwsgE0HQAGokAAu0BAEEfyABLwEeIQICfyABLwEcIgRB//8BcQRAIARB/wdxIQMgBEGAgAJxIQUgBEGA+AFxIgRBgPgBRwRAIAVBEHQiBSAEQQ10QYCAgPwAcSADQQ10ckGAgIDAA2pyIAQNAhogAyADZ0EQayIDQf//A3FBCGp0Qf///wNxIAVBgICA2ANyIANBF3RrcgwCCyAFQRB0IgQgA0ENdHJBgICA/gdyIAMNARogBEGAgID8B3IMAQsgBEEQdAshBSABLwEgIQECfyACQf//AXEEQCACQf8HcSEDIAJBgIACcSEEIAJBgPgBcSICQYD4AUcEQCAEQRB0IgQgAkENdEGAgID8AHEgA0ENdHJBgICAwANqciACDQIaIAMgA2dBEGsiAkH//wNxQQhqdEH///8DcSAEQYCAgNgDciACQRd0a3IMAgsgBEEQdCICIANBDXRyQYCAgP4HciADDQEaIAJBgICA/AdyDAELIAJBEHQLIQMgAAJ/IAFB//8BcQRAIAFB/wdxIQAgAUGAgAJxIQIgAUGA+AFxIgFBgPgBRwRAIAJBEHQiAiABQQ10QYCAgPwAcSAAQQ10ckGAgIDAA2pyIAENAhogACAAZ0EQayIAQf//A3FBCGp0Qf///wNxIAJBgICA2ANyIABBF3RrcgwCCyACQRB0IgEgAEENdHJBgICA/gdyIAANARogAUGAgID8B3IMAQsgAUEQdAu+EO4D/RMgBb4Q7gP9IAAgA74Q7gP9IAH9CwQAC/gDAQd/IABBvAJqEMACAkACQCAAKAKwAiIBBEAgACgCtAIiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsCQCAAKAKQAUECRg0AIAAoAvgBIQMgACgC/AEiAgRAIANBJGohAQNAIAFBBGsoAgAiBEGAgICAeHJBgICAgHhHBEAgASgCACIGQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyAEakkNBCAFQQAgByAEQSdqSxsNBSAGEJ8CCyABQTBqIQEgAkEBayICDQALCyAAKAL0ASIBBEAgA0EEaygCACICQXhxIgQgAUEwbCIBQQRBCCACQQNxIgIbckkNAiACQQAgBCABQSdqSxsNAyADEJ8CCyAAKAKAAiIBQYCAgIB4ckGAgICAeEYNACAAKAKEAiIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEJ8CCwJAIAAoAgBBAkYNACAAKAJcIgFFDQAgACgCYCIAQQRrKAIAIgNBeHEiAiABQShsIgFBBEEIIANBA3EiAxtqSQ0BIANBACACIAFBJ2pLGw0CIAAQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL9QMBB38gAEH4AWoQ9AICQAJAIAAoAvgCIgEEQCAAKAL8AiIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEJ8CCwJAIAAoAgBBAkYNACAAKAJoIQMgACgCbCICBEAgA0EkaiEBA0AgAUEEaygCACIEQYCAgIB4ckGAgICAeEcEQCABKAIAIgZBBGsoAgAiBUF4cSIHQQRBCCAFQQNxIgUbIARqSQ0EIAVBACAHIARBJ2pLGw0FIAYQnwILIAFBMGohASACQQFrIgINAAsLIAAoAmQiAQRAIANBBGsoAgAiAkF4cSIEIAFBMGwiAUEEQQggAkEDcSICG3JJDQIgAkEAIAQgAUEnaksbDQMgAxCfAgsgACgCcCIBQYCAgIB4ckGAgICAeEYNACAAKAJ0IgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQnwILAkAgACgCiAFBAkYNACAAKALkASIBRQ0AIAAoAugBIgBBBGsoAgAiA0F4cSICIAFBKGwiAUEEQQggA0EDcSIDG2pJDQEgA0EAIAIgAUEnaksbDQIgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAv1AwEHfyAAQfgBahDzAgJAAkAgACgC2AIiAQRAIAAoAtwCIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQnwILAkAgACgCAEECRg0AIAAoAmghAyAAKAJsIgIEQCADQSRqIQEDQCABQQRrKAIAIgRBgICAgHhyQYCAgIB4RwRAIAEoAgAiBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgBGpJDQQgBUEAIAcgBEEnaksbDQUgBhCfAgsgAUEwaiEBIAJBAWsiAg0ACwsgACgCZCIBBEAgA0EEaygCACICQXhxIgQgAUEwbCIBQQRBCCACQQNxIgIbckkNAiACQQAgBCABQSdqSxsNAyADEJ8CCyAAKAJwIgFBgICAgHhyQYCAgIB4Rg0AIAAoAnQiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsCQCAAKAKIAUECRg0AIAAoAuQBIgFFDQAgACgC6AEiAEEEaygCACIDQXhxIgIgAUEobCIBQQRBCCADQQNxIgMbakkNASADQQAgAiABQSdqSxsNAiAAEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC/gDAQd/IABBvAJqEIgCAkACQCAAKAKwAiIBBEAgACgCtAIiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsCQCAAKAKQAUECRg0AIAAoAvgBIQMgACgC/AEiAgRAIANBJGohAQNAIAFBBGsoAgAiBEGAgICAeHJBgICAgHhHBEAgASgCACIGQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyAEakkNBCAFQQAgByAEQSdqSxsNBSAGEJ8CCyABQTBqIQEgAkEBayICDQALCyAAKAL0ASIBBEAgA0EEaygCACICQXhxIgQgAUEwbCIBQQRBCCACQQNxIgIbckkNAiACQQAgBCABQSdqSxsNAyADEJ8CCyAAKAKAAiIBQYCAgIB4ckGAgICAeEYNACAAKAKEAiIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEJ8CCwJAIAAoAgBBAkYNACAAKAJcIgFFDQAgACgCYCIAQQRrKAIAIgNBeHEiAiABQShsIgFBBEEIIANBA3EiAxtqSQ0BIANBACACIAFBJ2pLGw0CIAAQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL5QMBB38gACgCsAEhAQJAAkAgACgCtAEiBQRAIAEhAgNAIAJBKGooAgAiBgRAIAJBLGooAgAiB0EEaygCACIEQXhxIgNBBEEIIARBA3EiBBsgBmpJDQMgBEEAIAMgBkEnaksbDQQgBxCfAgsgAhC5BCACQThqIQIgBUEBayIFDQALCyAAKAKsASIEBEAgAUEEaygCACICQXhxIgMgBEE4bCIEQQRBCCACQQNxIgIbakkNASACQQAgAyAEQSdqSxsNAiABEJ8CCyAAKAKYASIDBEAgACgCnAEiBEEEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgA2pJDQEgAUEAIAIgA0EnaksbDQIgBBCfAgsgAEHwAGoQuQQgACgCKCIDQYCAgIB4RwRAIAMEQCAAKAIsIgRBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIANqSQ0CIAFBACACIANBJ2pLGw0DIAQQnwILIAAQuQQLIAAoAmAiA0GAgICAeEcEQCADBEAgACgCZCIEQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyADakkNAiABQQAgAiADQSdqSxsNAyAEEJ8CCyAAQThqELkECw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC6QFAgV/AX4jAEEwayICJAAgACgCACEAIAEoAgAiA0GMnsUAQQEgASgCBCIEKAIMIgURAAAhBiACIAA2AgwCQAJAAkACQAJAAkACQCAGDQACQCABLQAKQYABcQRAIANBoM3HAEEBIAURAAANAiACQQE6AB8gAiAENgIUIAIgAzYCECACQdCLwgA2AiQgAiABKQIINwIoIAIgAkEfajYCGCACIAJBEGo2AiAgAkEMaiACQSBqEMIEDQIgAigCIEHJi8IAQQIgAigCJCgCDBEAACACIABBAWo2AgxFDQEMBAsgAkEMaiABEMIEIAIgAEEBajYCDA0DCyABLQAKQYABcUUNASABKQIAIQcgAkEBOgAfIAIgBzcCECACQdCLwgA2AiQgAiABKQIINwIoIAIgAkEfajYCGCACIAJBEGo2AiAgAkEMaiACQSBqEMIEDQIgAigCIEHJi8IAQQIgAigCJCgCDBEAACACIABBAmo2AgxFDQQMBQsgAiAAQQFqNgIMDAELIAEoAgBBl/zFAEECIAEoAgQoAgwRAABFDQELIAIgAEECajYCDAwCCyACQQxqIAEQwgQgAiAAQQJqNgIMDQELAkAgAS0ACkGAAXEEQCABKAIAIQMgASgCBCEEQQEhACACQQE6AB8gAiAENgIUIAIgAzYCECACQdCLwgA2AiQgAiABKQIINwIoIAIgAkEfajYCGCACIAJBEGo2AiAgAkEMaiACQSBqEMIEDQIgAigCIEHJi8IAQQIgAigCJCgCDBEAAEUNAQwDCyABKAIAQZf8xQBBAiABKAIEKAIMEQAADQFBASEAIAJBDGogARDCBA0CIAEoAgQhBCABKAIAIQMLIANBjZ7FAEEBIAQoAgwRAAAhAAwBC0EBIQALIAJBMGokACAAC7QEAQR/IAEvARghBAJ/IAEvARYiAkH//wFxBEAgAkH/B3EhBSACQYCAAnEhAyACQYD4AXEiAkGA+AFHBEAgA0EQdCEDIAJBDXRBgICA/ABxIAVBDXRyQYCAgMADaiADciACDQIaIAUgBWdBEGsiBUH//wNxQQhqdEH///8DcSADQYCAgNgDciAFQRd0a3IMAgsgA0EQdCECIAIgBUENdHJBgICA/gdyIAUNARogAkGAgID8B3IMAQsgAkEQdAshBSABLwEaIQECfyAEQf//AXEEQCAEQf8HcSECIARBgIACcSEDIARBgPgBcSIEQYD4AUcEQCADQRB0IQMgBEENdEGAgID8AHEgAkENdHJBgICAwANqIANyIAQNAhogAiACZ0EQayIEQf//A3FBCGp0Qf///wNxIANBgICA2ANyIARBF3RrcgwCCyADQRB0IQQgBCACQQ10ckGAgID+B3IgAg0BGiAEQYCAgPwHcgwBCyAEQRB0CyEEIAACfyABQf//AXEEQCABQf8HcSECIAFBgIACcSEDIAFBgPgBcSIBQYD4AUcEQCADQRB0IQMgAUENdEGAgID8AHEgAkENdHJBgICAwANqIANyIAENAhogAiACZ0EQayIBQf//A3FBCGp0Qf///wNxIANBgICA2ANyIAFBF3RrcgwCCyADQRB0IQEgASACQQ10ckGAgID+B3IgAg0BGiABQYCAgPwHcgwBCyABQRB0C/0RIAX9HAAgBP0cAf0LBAALyAUBBX8jAEEgayICJAACQAJAAkACQAJAIAAtAABBAWsOAwECAwALQQEhBCABKAIAIgNBno7HAEEFIAEoAgQiBigCDCIFEQAADQMCQCABLQAKQYABcUUEQCADQeCexQBBASAFEQAADQUgAyAALQABQQJ0IgAoAsDuSCAAKAKA7kggBREAAEUNAQwFCyADQcuLwgBBAiAFEQAADQQgAiAGNgIUIAIgAzYCECACQQE6AAAgAC0AAUECdCIAKAKA7UghASAAKALA7UghACACIAI2AhggAkEQaiIGIAAgARCyAw0EIAZByYvCAEECELIDDQQLIANB4p7FAEEBIAURAAAhBAwDC0EBIQQgASgCACIDQaOOxwBBBCABKAIEIgYoAgwiBREAAA0CAkAgAS0ACkGAAXFFBEAgA0HgnsUAQQEgBREAAA0EIAAoAgggACgCDCABELsCRQ0BDAQLIANBy4vCAEECIAURAAANAyACQQE6AA8gAiAGNgIEIAIgAzYCACACQdCLwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgACgCCCAAKAIMIAJBEGoQuwINAyACQcmLwgBBAhCyAw0DCyADQeKexQBBASAFEQAAIQQMAgtBASEEIAEoAgAiA0GnjscAQQ0gASgCBCIGKAIMIgURAAANASAAQQRqIQACQCABLQAKQYABcUUEQCADQeCexQBBASAFEQAADQMgACABELICRQ0BDAMLIANBy4vCAEECIAURAAANAiACQQE6AA8gAiAGNgIEIAIgAzYCACACQdCLwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgACACQRBqELICDQIgAkHJi8IAQQIQsgMNAgsgA0HinsUAQQEgBREAACEEDAELIAEoAgBBtI7HAEEHIAEoAgQoAgwRAAAhBAsgAkEgaiQAIAQLnQUCBX8BfiMAQTBrIgIkACABKAIAIgNBjJ7FAEEBIAEoAgQiBCgCDCIFEQAAIQYgAiAANgIMAkACQAJAAkACQAJAAkAgBg0AAkAgAS0ACkGAAXEEQCADQaDNxwBBASAFEQAADQIgAkEBOgAfIAIgBDYCFCACIAM2AhAgAkHQi8IANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDCBA0CIAIoAiBByYvCAEECIAIoAiQoAgwRAAAgAiAAQQFqNgIMRQ0BDAQLIAJBDGogARDCBCACIABBAWo2AgwNAwsgAS0ACkGAAXFFDQEgASkCACEHIAJBAToAHyACIAc3AhAgAkHQi8IANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDCBA0CIAIoAiBByYvCAEECIAIoAiQoAgwRAAAgAiAAQQJqNgIMRQ0EDAULIAIgAEEBajYCDAwBCyABKAIAQZf8xQBBAiABKAIEKAIMEQAARQ0BCyACIABBAmo2AgwMAgsgAkEMaiABEMIEIAIgAEECajYCDA0BCwJAIAEtAApBgAFxBEAgASgCACEDIAEoAgQhBEEBIQAgAkEBOgAfIAIgBDYCFCACIAM2AhAgAkHQi8IANgIkIAIgASkCCDcCKCACIAJBH2o2AhggAiACQRBqNgIgIAJBDGogAkEgahDCBA0CIAIoAiBByYvCAEECIAIoAiQoAgwRAABFDQEMAwsgASgCAEGX/MUAQQIgASgCBCgCDBEAAA0BQQEhACACQQxqIAEQwgQNAiABKAIEIQQgASgCACEDCyADQY2exQBBASAEKAIMEQAAIQAMAQtBASEACyACQTBqJAAgAAukBQICfwF7IwBBgNIAayIDJAACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAUH/AXFBAWsOBQADBAUGAQtBgIAIEHEiBEUNBiAEQQRrLQAAQQNxBEAgBEEAQYCACPwLAAsgA0FAa0EAQcDRAPwLAEGs1AAQcSIBDQFBrNQAEOgJAAtBuAYQcSIBRQ0IIAFBADYC8AQgAUKAgICAEDcD6AQgAUGBgICAeDYC3AQgAUH0BGogAkHEAfwKAABBxO7BACECDAcLIAEgAkHEAfwKAAAgAUGAgICAeDYC6AEgAUIBNwLgASABQoCACDcC2AEgASAENgLUASABQoCAgICAgIABNwLMASABQoCAgIAQNwLEASABQewBaiADQQxqQfTRAPwKAAAgAUHg0wBqQQBBwQD8CwAgAUEAOwGoVCABQQA2AqRUQdzuwQAhAgwGC0HQARBxIgFFDQcgASACQcQB/AoAACABQQA2AswBIAFCgICAgBA3AsQBQfTuwQAhAgwFC0HQARBxIgFFDQYgASACQcQB/AoAACABQQA2AswBIAFCgICAgBA3AsQBQYzvwQAhAgwEC0HQARBxIgFFDQUgASACQcQB/AoAACABQQA2AswBIAFCgICAgBA3AsQBQaTvwQAhAgwDC0GIBBBxIgFFDQEgAUECNgIAIAH9DAAAAAAAAAAAAAAAAAAAAAD9CwNwIAFCADcDmAIgAUECNgKQASABQgE3ArQCIAFBgAFqIAX9CwMAIAFBoAJqIAX9CwMAIAFBsAJqQQA2AgAgAUG8AmogAkHEAfwKAAAgAUEAOgCABEG878EAIQIMAgtBAUGAgAgQ4QgAC0GIBBDoCQALIAAgAjYCBCAAIAE2AgAgA0GA0gBqJAAPC0G4BhDoCQALQdABEOgJAAukBQICfwF7IwBBgNIAayIDJAACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAUH/AXFBAWsOBQADBAUGAQtBgIAIEHEiBEUNBiAEQQRrLQAAQQNxBEAgBEEAQYCACPwLAAsgA0FAa0EAQcDRAPwLAEGk1AAQcSIBDQFBpNQAEOgJAAtBsAYQcSIBRQ0IIAFBADYC8AQgAUKAgICAEDcD6AQgAUGBgICAeDYC3AQgAUH0BGogAkG8AfwKAABB1O/BACECDAcLIAEgAkG8AfwKAAAgAUGAgICAeDYC4AEgAUIBNwLYASABQoCACDcC0AEgASAENgLMASABQoCAgICAgIABNwLEASABQoCAgIAQNwK8ASABQeQBaiADQQxqQfTRAPwKAAAgAUHY0wBqQQBBwQD8CwAgAUEAOwGgVCABQQA2ApxUQezvwQAhAgwGC0HIARBxIgFFDQcgASACQbwB/AoAACABQQA2AsQBIAFCgICAgBA3ArwBQYTwwQAhAgwFC0HIARBxIgFFDQYgASACQbwB/AoAACABQQA2AsQBIAFCgICAgBA3ArwBQZzwwQAhAgwEC0HIARBxIgFFDQUgASACQbwB/AoAACABQQA2AsQBIAFCgICAgBA3ArwBQbTwwQAhAgwDC0GABBBxIgFFDQEgAUECNgIAIAH9DAAAAAAAAAAAAAAAAAAAAAD9CwNwIAFCADcDmAIgAUECNgKQASABQgE3ArQCIAFBgAFqIAX9CwMAIAFBoAJqIAX9CwMAIAFBsAJqQQA2AgAgAUG8AmogAkG8AfwKAAAgAUEAOgD4A0HM8MEAIQIMAgtBAUGAgAgQ4QgAC0GABBDoCQALIAAgAjYCBCAAIAE2AgAgA0GA0gBqJAAPC0GwBhDoCQALQcgBEOgJAAuhBQICfwF+IwBBIGsiAiQAAkACQAJAAkACQAJAAkACQAJAAkBBFSABKAIAIgNBgICAgHhzIANBAE4bQQFrDggBAgMEBQYHCAALIAEgAkEfakHwi8EAEI8IIQEgAEEBOgAAIAAgATYCBAwICyAAQQA6AAAgACABLQAEOgABDAcLIAEvAQQiAUH/AU0EQCAAIAE6AAEgAEEAOgAADAcLIAJBAToACCACIAGtNwMQIAAgAkEIaiACQR9qQfCLwQAQ+wY2AgQgAEEBOgAADAYLIAEoAgQiAUH/AU0EQCAAIAE6AAEgAEEAOgAADAYLIAJBAToACCACIAGtNwMQIAAgAkEIaiACQR9qQfCLwQAQ+wY2AgQgAEEBOgAADAULIAEpAwgiBEL/AVgEQCAAIAQ8AAEgAEEAOgAADAULIAJBAToACCACIAQ3AxAgACACQQhqIAJBH2pB8IvBABD7BjYCBCAAQQE6AAAMBAsgASwABCIBQQBIBEAgAkECOgAIIAIgAaw3AxAgACACQQhqIAJBH2pB8IvBABD7BjYCBCAAQQE6AAAMBAsgACABOgABIABBADoAAAwDCyABLwEEIgFBgAJPBEAgAkECOgAIIAIgAa3DNwMQIAAgAkEIaiACQR9qQfCLwQAQ+wY2AgQgAEEBOgAADAMLIAAgAToAASAAQQA6AAAMAgsgASgCBCIBQYACTwRAIAJBAjoACCACIAGsNwMQIAAgAkEIaiACQR9qQfCLwQAQ+wY2AgQgAEEBOgAADAILIAAgAToAASAAQQA6AAAMAQsgAAJ/IAEpAwgiBEKAAloEQCACQQI6AAggAiAENwMQIAAgAkEIaiACQR9qQfCLwQAQ+wY2AgRBAQwBCyAAIAQ8AAFBAAs6AAALIAJBIGokAAvGBAIGfwN+AkAgASgCAEEBRgRAIAEpAxAiClAEQAwCCyABKAIYIgYoAgAgBikDCCILIAYoAgQiBa0iDCALIAxUG6dqIQcCQCAFQv////8PIAsgC0L/////D1obp2siBEEAIAQgBU0bIgUgCiADrSIMIAogDFQbpyIEIAQgBUsbIgRBAUcEQCAERQ0BIAIgByAE/AoAAAwBCyACIActAAA6AAALIAEgCiAErSIKfTcDECAGIAogC3w3AwggBEUEQEEAIQQMAgsgA0EBayEGQQEgBGshCCABKAIkIQkgASgCICEHIAEoAighAwNAAkAgAiACLQAAIANBA3IiBUH+/wNxIAVsQYD+A3FBCHZzIgU6AAAgA0H/AXEgCSAFIAdzQf8BcUECdCgCoI9IIAdBCHZzIgdB/wFxakGFiKLAAGxBAWoiCUEYdnNBAnQoAqCPSCADQQh2cyEDIAhFDQAgCEEBaiEIIAJBAWohAiAGIgVBAWshBiAFDQELCyABIAk2AiQgASAHNgIgIAEgAzYCKAwBCyABKQMQIgpQBEAMAQsgASgCGCIGKAIAIAYpAwgiCyAGKAIEIgWtIgwgCyAMVBunaiEHAkAgBUL/////DyALIAtC/////w9aG6drIgRBACAEIAVNGyIFIAogA60iDCAKIAxUG6ciAyADIAVLGyIEQQFHBEAgBEUNASACIAcgBPwKAAAMAQsgAiAHLQAAOgAACyABIAogBK0iCn03AxAgBiAKIAt8NwMICyAAQQQ6AAAgACAENgIEC+QEAwh/AX0BeyMAQSBrIgUkACAFQQRqIAIQkwYgBSgCCCEJAkACQAJAIAEEQCAFKAIMIghBAnYhCkEBIQQDQCAKRQ0CAkAgCCAEQQFrayIDQQAgAyAITRsiA0EBRwR/IANBAkcNASAEQQFqBSAECyAIQaTtwQAQrgcACyAEIAlqIgNBAWstAACz/RMgAy0AALP9IAH9DAAAf0MAAH9DAAB/QwAAf0P95wEgA0EBai0AALNDAAB/Q5UiC/0gAiAL/SADIQwgA0ECai0AALNDAAB/Q5W8IgNB////A3EhBgJAAkAgA0GAgID8B3EiB0GAgID8B0cEQCAHQYCAgLgETQ0BQYD4ASEDDAILIAZBDXZBgARBACAGG3JBgPgBciEDDAELIANBgICAxANPBEAgB0ENdiAGQQ12aiADQQx2IANB/98AcUEAR3FqQYCAAWohAwwBCyADQYCAgJgDSQRAQQAhAwwBCyAGQYCAgARyIgZB/gAgA0EXdiIHa3YhAyAGQR0gB2siB3ZBAXFFDQAgA0EDIAd0QQFrIAZxQQBHaiEDCyAAQRRqIAM7AQAgBSAM/QsEECAAIAVBEGoQ4AIgBEEEaiEEIApBAWshCiAAQSRqIQAgAUEBayIBDQALCyAFKAIEIgAEQCAJQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyAAakkNAiABQQAgBCAAQSdqSxsNAyAJEJ8CCyACQYQITwRAIAIQhQcLIAVBIGokAA8LIARBAmogCEGU7cEAEK4HAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALpAQBBn8jAEEQayIFJAAgBUEAOgAKIAVBADsBCAJAAkACQAJAAkAgAigCCCIGQQJ0IANGBEAgAigCBCEHIAIoAgAhBAwBCwJAIAYEQCACKAIAIQQgBSACKAIEIgcgBkEBayIGQQJ0IgJqKAAANgIMIAMgAmsiCEEESQ0BQQAgCEEDQfTexAAQ1QcACyAAQRI6AAAgAigCACIARQ0CIAIoAgQiAUEEaygCACICQXhxIgMgAEECdCIAQQRBCCACQQNxIgIbakkNBCACQQAgAyAAQSdqSxsNBSABEJ8CDAILIAhFDQAgBUEIaiAFQQxqIAj8CgAACwJAIAQgBk0NACAEQQJ0IQIgBkUEQCAHQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyACakkNBCADQQAgBCACQSdqSxsNBSAHEJ8CQQEhBwwBCyAHIAJBASAGQQJ0IgIQuQIiB0UNAgsgASgCBCICBEAgASgCACIDQQRrKAIAIgRBeHEiCSACQQJ0IgJBBEEIIARBA3EiBBtqSQ0DIARBACAJIAJBJ2pLGw0EIAMQnwILIAFBeDYCGCABQoCAgIDwHzcDECABQgA3AwggASAGNgIEIAEgBzYCACABIAUvAQg7ASAgASAIOgAjIABBHToAACABQSJqIAUtAAo6AAALIAVBEGokAA8LQQEgAhDhCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC8gFAQF/IwBBEGsiAiQAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAC0AAEEBaw4RAQIDBAUGBwgJCgsMDQ4PEBEACyACIAAtAAE6AAAgAiACrUKAgICAwAGENwMIIAEoAgAgASgCBEHg68AAIAJBCGoQxAMMEQsgAiAAKQMINwMAIAIgAq1CgICAgKAFhDcDCCABKAIAIAEoAgRB0uvAACACQQhqEMQDDBALIAIgACkDCDcDACACIAKtQoCAgICgDYQ3AwggASgCACABKAIEQdLrwAAgAkEIahDEAwwPCyACIAArAwg5AwAgAiACrUKAgICAsA2ENwMIIAEoAgAgASgCBEHO6sAAIAJBCGoQxAMMDgsgAiAAKAIENgIAIAIgAq1CgICAgMANhDcDCCABKAIAIAEoAgRBwuvAACACQQhqEMQDDA0LIAIgACkCBDcCACACIAKtQoCAgIDQDYQ3AwggASgCACABKAIEQaGJwAAgAkEIahDEAwwMCyABKAIAQZn8xQBBCiABKAIEKAIMEQAADAsLIAEoAgBBo/zFAEEKIAEoAgQoAgwRAAAMCgsgASgCAEGt/MUAQQwgASgCBCgCDBEAAAwJCyABKAIAQbn8xQBBDiABKAIEKAIMEQAADAgLIAEoAgBBx/zFAEEIIAEoAgQoAgwRAAAMBwsgASgCAEHP/MUAQQMgASgCBCgCDBEAAAwGCyABKAIAQdL8xQBBBCABKAIEKAIMEQAADAULIAEoAgBB1vzFAEEMIAEoAgQoAgwRAAAMBAsgASgCAEHi/MUAQQ8gASgCBCgCDBEAAAwDCyABKAIAQfH8xQBBDSABKAIEKAIMEQAADAILIAEoAgBB/vzFAEEOIAEoAgQoAgwRAAAMAQsgASgCACAAKAIEIAAoAgggASgCBCgCDBEAAAsgAkEQaiQAC7cEAgp/AX0jAEEQayIGJAACQAJAIANBA2wiB0H/////A0sNACADQQxsIghB/f///wdPDQACQCAIRQRAQQQhCUEAIQcMAQsgCBBxIglFDQILIAZBADYCDCAGIAk2AgggBiAHNgIEAkACQAJAIAMEQCACIANrIgdBACACIAdPGyEMIAEgA2ohDSABIANBAXQiDmohDyAFIASTQwAAfkOVIQVBCCEIQQAhBwNAIAIgB0YNBCABIAdqLQAAIgsEfSAEIAUgC0EBa0H/AXGzlJIQ7gMFQwAAAAALIRAgBigCBCAKRgRAIAZBBGoQ9gYgBigCCCEJCyAIIAlqQQhrIBA4AgAgBiAKQQFqIgo2AgwgByAMRg0DIAcgDWotAAAiCwR9IAQgBSALQQFrQf8BcbOUkhDuAwVDAAAAAAshECAGKAIEIApGBEAgBkEEahD2BiAGKAIIIQkLIAggCWpBBGsgEDgCACAGIApBAWoiCjYCDCAHIA5qIAJPDQIgByAPai0AACILBH0gBCAFIAtBAWtB/wFxs5SSEO4DBUMAAAAACyEQIAYoAgQgCkYEQCAGQQRqEPYGIAYoAgghCQsgCCAJaiAQOAIAIAYgCkEBaiIKNgIMIAhBDGohCCADIAdBAWoiB0cNAAsLIAAgBikCBDcCACAAQQhqIAZBDGooAgA2AgAgBkEQaiQADwsgA0EBdCAHaiEHDAELIAMgB2ohBwsgByACQcTAxwAQrgcACxDPCQALQQQgCBDhCAALlQUCAn8BeyMAQYDSAGsiAyQAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAFB/wFxQQFrDgUAAwQFBgELQYCACBBxIgRFDQYgBEEEay0AAEEDcQRAIARBAEGAgAj8CwALIANBQGtBAEHA0QD8CwBByNMAEHEiAQ0BQcjTABDoCQALQdgFEHEiAUUNCCABIAJB4AD8CgAAIAFBADYC0AUgAUKAgICAEDcDyAUgAUGBgICAeDYCvAVBtO3BACECDAcLIAEgAkHgAPwKAAAgAUGAgICAeDYChAEgAUIBNwJ8IAFCgIAINwJ0IAEgBDYCcCABQoCAgICAgIABNwJoIAFCgICAgBA3AmAgAUGIAWogA0EMakH00QD8CgAAIAFB/NIAakEAQcEA/AsAIAFBADsBxFMgAUEANgLAU0HM7cEAIQIMBgtB7AAQcSIBRQ0HIAEgAkHgAPwKAAAgAUEANgJoIAFCgICAgBA3AmBB5O3BACECDAULQewAEHEiAUUNBiABIAJB4AD8CgAAIAFBADYCaCABQoCAgIAQNwJgQfztwQAhAgwEC0HsABBxIgFFDQUgASACQeAA/AoAACABQQA2AmggAUKAgICAEDcCYEGU7sEAIQIMAwtBoAMQcSIBRQ0BIAFBAjYCiAEgAUECNgIAIAFB+AFqIAJB4AD8CgAAIAFB6AJq/QwAAAAAAAAAAAAAAAAAAAAA/QsDACABIAX9CwPYAiABQgA3A4ADIAFB+AJqQoCAgIAQNwMAIAFBiANqIAX9CwMAIAFBlQNqQgA3AABBrO7BACECDAILQQFBgIAIEOEIAAtBoAMQ6AkACyAAIAI2AgQgACABNgIAIANBgNIAaiQADwtB2AUQ6AkAC0HsABDoCQAL2AQBBn8jAEFAaiICJAAgACgCDCEEAkACQCAAKAIUIgEgACgCECIDSQRAA0AgASAEai0AACIGQQlrIgVBGUsNAkEBIAV0QZOAgARxRQRAIAVBGUcNAyAAEOMEIQEMBAsgACABQQFqIgE2AhQgASADRw0ACyADIQELIAJBBTYCNCACQRBqIAQgAyABQQFqIgAgAyAAIANJGxD6ASACQTRqIAIoAhAgAigCFBDZByEBDAELIAZB+wBHBEAgAkEKNgI0IAJBCGogBCADIAFBAWoiACADIAAgA0kbEPoBIAJBNGogAigCCCACKAIMENkHIQEMAQsgACAALQAYQQFrIgU6ABgCQCAFQf8BcQRAIAAgAUEBajYCFAJAIAAQ4wQiAUUEQCAAENAFIgFFDQELIAAgAC0AGEEBajoAGAwDCyAAEKYEIQEgACAALQAYQQFqOgAYIAENAiAAKAIMIQQgACgCFCIBIAAoAhAiA0kEQANAIAEgBGotAAAiBUEJayIGQRdLQQEgBnRBk4CABHFFcg0DIAAgAUEBaiIBNgIUIAEgA0cNAAsgAyEBCyACQQM2AjQgAkEoaiAEIAMgARD6ASACQTRqIAIoAiggAigCLBDZByEBDAILIAJBGDYCNCACQRhqIAQgAyABQQFqIgAgAyAAIANJGxD6ASACQTRqIAIoAhggAigCHBDZByEBDAELIAVB/QBGBEAgACABQQFqNgIUQQAhAQwBCyACQQo2AjQgAkEgaiAEIAMgARD6ASACQTRqIAIoAiAgAigCJBDZByEBCyACQUBrJAAgAQuTBQEGfyMAQSBrIgMkACABKAIMIQUCQAJAAkAgASgCFCICIAEoAhAiBEkEQCABQQxqIQcDQCACIAVqLQAAQQlrIgZBGUsNAkEBIAZ0QZOAgARxRQRAIAZBGUcNAyABQQA2AgggASACQQFqNgIUIANBFGogByABEIECIAMoAhghAiADKAIUQQJHDQQgAEEBOgAAIAAgAjYCBAwFCyABIAJBAWoiAjYCFCACIARHDQALIAQhAgsgA0EFNgIUIANBCGogBSAEIAJBAWoiASAEIAEgBEkbEPoBIANBFGogAygCCCADKAIMENkHIQEgAEEBOgAAIAAgATYCBAwCCyABIANBFGpBzNvBABD/ASABEJcGIQEgAEEBOgAAIAAgATYCBAwBCyAAAn8CQCAAAn8CQAJAAkACQAJAAkACQAJAIAMoAhwiBEEDaw4JAgkBAAkHCQkECQsgAkHso8EAQQYQuwcNAkEADAcLIAJB8qPBAEEFELsHDQdBAQwGCyACQfejwQBBAxC7Bw0CQQIMBQsgAkGpoMEAQQYQuwcNBUEDDAQLIAJB+qPBAEELELsHDQFBBAwDC0EFIAJBgIzBAEEDELsHRQ0CGkEGIAJBg4zBAEEDELsHRQ0CGiACQZSQwQBBAxC7Bw0DQQcMAgtBCCACQYWkwQBBCxC7B0UNARogAkGQpMEAQQsQuwcNAkEJDAELQQogAikAAELz0MX5teybsuUAUQ0AGkELIAIpAABC89DJ+bXsm7LlAFENABpBDCACKQAAQvPQzfm17Juy5QBRDQAaIAIpAABC89D94pbM2LLsAFINAUENCzoAAUEADAELIAAgAiAEQbykwQBBDhD5BiABEJcGNgIEQQELOgAACyADQSBqJAALlgUCBX8CfiMAQTBrIgIkACABKAIMIQYgAAJ/AkACQAJ/AkACQCABKAIUIgMgASgCECIFSQRAA0ACQCADIAZqLQAAIgRBCWsOJQAABAQABAQEBAQEBAQEBAQEBAQEBAQEAAQEBAQEBAQEBAQEBAMECyABIANBAWoiAzYCFCADIAVHDQALIAUhAwsgAkEFNgIYQQEhBCACIAYgBSADQQFqIgEgBSABIAVJGxD6ASACQRhqIAIoAgAgAigCBBDZBwwFC0EBIQQgASADQQFqNgIUIAJBCGogAUEAEN0DIAIpAwgiCEIDUQ0DIAIpAxAhBwJAAkACQAJAIAinQQFrDgIBAgALIAJBAzoAGCACIAc3AyAgAkEYaiACQS9qQaCLwQAQ+gYMBAsgB0KAgICAEFQNASACQQE6ABggAiAHNwMgIAJBGGogAkEvakGgi8EAEPsGDAMLIAdCgICAgBBUDQAgAkECOgAYIAIgBzcDICACQRhqIAJBL2pBoIvBABD7BgwCC0EAIQQgB6cMBAsgBEEwa0H/AXFBCk8EQEEBIQQgASACQS9qQaCLwQAQ/wEgARCXBgwEC0EBIQQgAkEIaiABQQEQ3QMgAikDCCIIQgNRBEAgAigCEAwECyACKQMQIQcCQAJAAkAgCKdBAWsOAgECAAsgAkEDOgAYIAIgBzcDICACQRhqIAJBL2pBoIvBABD6BgwCCyAHQoCAgIAQVA0CIAJBAToAGCACIAc3AyAgAkEYaiACQS9qQaCLwQAQ+wYMAQsgB0KAgICAEFQNASACQQI6ABggAiAHNwMgIAJBGGogAkEvakGgi8EAEPsGCyABEJcGDAILQQAhBCAHpwwBCyACKAIQCzYCBCAAIAQ2AgAgAkEwaiQAC+gEAgJ+Bn8CfwJAIAApAygiAiAAKQMIIgNSDQAgACkDMCICIAApAxAiA1INAEEAIAApAzgiAiAAKQMYIgNRDQEaCyACIANUCyEFAn8CQCAAKQNoIgIgACkDSCIDUg0AIAApA3AiAiAAKQNQIgNSDQAgACkDeCICIAApA1giA1INAEEDIQRBwAAMAQtBAkEDIAIgA1QiBhshBEHgAEHAACAGGwshByAAIARBBXRqIQYgACAFQQFzQQV0aiEEAn8CQCAAIAdqIggpAwgiAiAAIAVBBXRqIgApAwgiA1INACAIKQMQIgIgACkDECIDUg0AQQAgCCkDGCICIAApAxgiA1ENARoLIAIgA1QLIQcCQAJ/AkAgBikDCCICIAQpAwgiA1INACAGKQMQIgIgBCkDECIDUg0AIAYpAxgiAiAEKQMYIgNSDQAgBCAIIAcbIQUgCCAAIAcbIQkgACAEIAcbDAELIAggACAHGyEJIAIgA1QEQCAAIAggBxshACAGIQUMAgsgBCAIIAcbIQUgACAEIAcbCyEAIAYhBAsCQAJAIAUpAwgiAiAAKQMIIgNSDQAgBSkDECICIAApAxAiA1INACAFKQMYIgIgACkDGCIDUg0AIAUhBgwBCyAAIAUgAiADVCIHGyEGIAUgACAHGyEACyABIAn9AAMA/QsDACABQRBqIAlBEGr9AAMA/QsDACABQTBqIABBEGr9AAMA/QsDACABIAD9AAMA/QsDICABQdAAaiAGQRBq/QADAP0LAwAgASAG/QADAP0LA0AgAUHwAGogBEEQav0AAwD9CwMAIAEgBP0AAwD9CwNgC7IEAQx/IAFBAWshDSAAKAIEIQkgACgCACEKIAAoAgghCwJAA0AgBg0BAn8CQCACIARJDQADQCABIARqIQUCQAJAAkACQAJAIAIgBGsiBkEHTQRAIAIgBEcNASACIQQMBwsgBUEDakF8cSIAIAVGDQEgACAFayEDQQAhAANAIAAgBWotAABBCkYNBSADIABBAWoiAEcNAAsgAyAGQQhrIgBLDQMMAgtBACEAA0AgACAFai0AAEEKRg0EIAYgAEEBaiIARw0ACyACIQQMBQsgBkEIayEAQQAhAwsDQEGAgoQIIAMgBWoiBygCACIOQYqUqNAAc2sgDnJBgIKECCAHQQRqKAIAIgdBipSo0ABzayAHcnFBgIGChHhxQYCBgoR4Rw0BIANBCGoiAyAATQ0ACwsgAyAGRgRAIAIhBAwDCyADIAVqIQYgAiADayAEayEHQQAhAAJAA0AgACAGai0AAEEKRg0BIAcgAEEBaiIARw0ACyACIQQMAwsgACADaiEACyAAIARqIgNBAWohBAJAIAIgA00NACAAIAVqLQAAQQpHDQBBACEGIAQiBQwDCyACIARPDQALCyACIAhGDQJBASEGIAghBSACCyEAAkAgCy0AAARAIApBupDDAEEEIAkoAgwRAAANAQtBACEDIAAgCEcEQCAAIA1qLQAAQQpGIQMLIAAgCGshACABIAhqIQcgCyADOgAAIAUhCCAKIAcgACAJKAIMEQAARQ0BCwtBASEMCyAMC9MEAgh/AXsgAkECdiEGAkACQCACQSBJDQAgASACQfwAcSIDaiAASyABIAAgA2pJcQ0AIAD9AAAAIQsgACAB/QAAAP0LAAAgASAL/QsAAAJAIAZBHHEiBEEERg0AIAD9AAAQIQsgACAB/QAAEP0LABAgASAL/QsAECAEQQhGDQAgAP0AACAhCyAAIAH9AAAg/QsAICABIAv9CwAgIARBDEYNACAA/QAAMCELIAAgAf0AADD9CwAwIAEgC/0LADALIAQgBkYNAQsgBCEHIAZBA3EiAwRAIAMgBGohByAAIARBAnQiCGohCSABIAhqIQgDQCAJKAAAIQUgCSAIKAAANgAAIAggBTYAACAJQQRqIQkgCEEEaiEIIANBAWsiAw0ACwsgBCAGa0F8Sw0AIAdBAnQhCSAGIAdrIQggACEDIAEhBANAIAMgCWoiBygAACEFIAcgBCAJaiIGKAAANgAAIAYgBTYAACAGQQRqIgUoAAAhCiAFIAdBBGoiBSgAADYAACAFIAo2AAAgB0EIaiIFKAAAIQogBSAGQQhqIgUoAAA2AAAgBSAKNgAAIAZBDGoiBigAACEFIAYgB0EMaiIHKAAANgAAIAcgBTYAACADQRBqIQMgBEEQaiEEIAhBBGsiCA0ACwsCQCACQQNxIgNFDQAgASACQfwAcSIEaiEBIAAgBGohACAAIANBAUYEf0EABSAALwAAIQMgACABLwAAOwAAIAEgAzsAACACQQFxRQ0BQQILIgNqIgAtAAAhAiAAIAEgA2oiAC0AADoAACAAIAI6AAALC5EEAAJAAkACQAJAAkACQCADQf8BcUEBaw4DAAECAwsCQAJAIAAEQCABIAJsIABqQQJ0QQFrIgAgBU8NAQwHCyABDQFBAA8LIAAgBUH07cQAEK4HAAsgBSACIAFBAWtsQQJ0QQNyIgBLDQQgACAFQYTuxAAQrgcACwJAIAAEQCABRQ0BDAQLIAENA0EADwsgAEECdEEBayIAIAVJDQMgACAFQaTuxAAQrgcACwJAAkACfyAABEAgAUUEQCAFIABBAnRBAWsiAEsEQCAAIARqLQAADAMLIAAgBUHE7sQAEK4HAAsCQCAFIAEgAmwgAGpBAnRBAWsiA0sEQCABQQFrIAJsIABqQQJ0IgFBA3IiACAFTw0BIAUgAUEBayICSwRAIAMgBGotAAAhASACIARqLQAAIQMgACAEai0AACEADAYLIAIgBUH07sQAEK4HAAsgAyAFQdTuxAAQrgcACyAAIAVB5O7EABCuBwALIAFFBEBBACEDQQAhAEEAIQEMAwsgAiABQQFrbEECdEEDciIAIAVPDQEgACAEai0AAAsiAyIAIQEMAQsgACAFQbTuxAAQrgcAC0H/ASAAQf8BcSADQf8BcWsgAUH/AXFqIgBBACAAQQBKGyIAIABB/wFOGyEDCyADDwsgBSABQQFrIAJsIABqQQJ0QQNyIgBLDQAgACAFQZTuxAAQrgcACyAAIARqLQAAC+wEAwZ/AXsGfSMAQRBrIgQkAAJAAkACQAJAIANBAnQiBUH/////A0sNACADQQR0IgZB/f///wdPDQACQCAGRQRAQQQhCEEAIQUMAQsgBhBxIghFDQILIARBADYCDCAEIAg2AgggBCAFNgIEAkAgAwRAQQIgAiACQQJNG0EDbkEDbCEJQQAhBUEAIQYDQCACIAVNDQUgBUEBaiIHIAJPDQYgBSAJRg0CQwAAgD8gASAFaiIHLQAAs/0TIAdBAWotAACz/SAB/QwAAH9DAAB/QwAAf0MAAH9D/ecBIgogCv3kAf0MAACAvwAAgL8AAIC/AACAv/3kASIK/R8AIguLkyAK/R8BIg6LkyIMjEMAAAAAEN0IIQ0gB0ECai0AALNDAAB/Q5VDAAAAP5RD2w9JQJQiDxCYAiIQIAwgDCAMlCALIA0gDYwiCyAK/QwAAAAAAAAAAAAAAAAAAAAA/Ub9TSIK/RsAQQFxG5IiDCAMlCAOIA0gCyAK/ccB/RsCQQFxG5IiDSANlJKSkSILlZQhDiAEKAIEIA8QmwIhDyAGa0EDTQRAIARBBGogBkEEQQRBBBCYBiAEKAIIIQggBCgCDCEGCyAIIAZBAnRqIgcgDzgCDCAHIA44AgggByAQIA0gC5WUOAIEIAcgECAMIAuVlDgCACAEIAZBBGoiBjYCDCAFQQNqIQUgA0EBayIDDQALCyAAIAQpAgQ3AgAgAEEIaiAEQQxqKAIANgIAIARBEGokAA8LIAVBAmogAkH0wccAEK4HAAsQzwkAC0EEIAYQ4QgACyAFIAJB1MHHABCuBwALIAcgAkHkwccAEK4HAAvJBAIQfwF9IwBBEGsiCCQAAkACQAJAAkACQAJAIAQEQEMAAPhBIAWVIRYgAUECdiEQIANBFW4hDiABQQJqQQJ2IREgAUEDakECdiESQQIgASABQQJNG0EBakECdiETA0AgByAORg0EIAdBAnQhCSAHQQFqIAj9DAAAAAAAAAAAAAAAAAAAAAD9CwMAQQAhC0EGIQogAiEGQQAhDANAIAggCkEGayIPQQN2Qfz///8BcWoiDUH/AEMAAPhBQwAA+MEgFiAGKgIAlCIFIAVDAAD4wV0bIgUgBUMAAPhBXhsQnQciBfwAQYB/IAVDAAAAw2AbIAVDAAD+Ql4bQQAgBSAFWxtBP3EiFSAPQR5xdCANKAIAcjYCACAPQeABcUEgaiAKSQRAIAxBEE8NBSANIA0oAgQgFSALQR5xdnI2AgQLIAZBBGohBiAKQQZqIQogC0EGayELIAxBAWoiDEEVRw0ACyAHIBJGDQUgACAJQQJ0aiAIKAIANgIAIAlBAXIhBiAHIBFGDQYgACAGQQJ0aiAIKAIENgIAIAlBAnIhBiAHIBNGDQcgACAGQQJ0aiAIKAIINgIAIAlBA3IhBiAHIBBGDQIgACAGQQJ0aiAIKAIMNgIAIAJB1ABqIQIiByAERw0ACwsgCEEQaiQADwsgBiABQZyvxwAQrgcAC0EEQQRBvK/HABCuBwALIAdBFWwgDkEVbEEVaiADQayvxwAQ1QcACyAJIAFB7K7HABCuBwALIAYgAUH8rscAEK4HAAsgBiABQYyvxwAQrgcAC7YEAQp/AkACQCABQYAKSQRAIAFBBXYhBwJAAkAgACgCoAEiBARAIARBAWshAiAEQQJ0IABqQQRrIQUgBCAHakECdCAAakEEayEDIARBKUkhBANAIARFDQIgAiAHaiIGQShPDQMgAyAFKAIANgIAIANBBGshAyAFQQRrIQUgAkEBayICQX9HDQALCyABQR9xIQYCQCABQSBJDQAgB0ECdCIBRQ0AIABBACAB/AsACyAAKAKgASIFIAdqIQEgBkUEQCAAIAE2AqABIAAPCyABQQFrIgNBJ0sNAyABIQQgACADQQJ0aigCAEEgIAZrIgh2IgNFDQQgAUEnTQRAIAAgAUECdGogAzYCACABQQFqIQQMBQsgAUEoQfyMwgAQrgcACyACQShB/IzCABCuBwALIAZBKEH8jMIAEK4HAAtBjI3CAEEdQfyMwgAQ5wgACyADQShB/IzCABCuBwALAkAgB0EBaiIKIAFPDQACQCAFQQFrIglBBEkEQCABIQMMAQsgASAJQXxxIgVrIQMgAUECdCAAakEUayECIAUhAQNAIAJBBGoiCyAC/QACACAI/a0BIAv9AAIAIAb9qwH9UP0LAgAgAkEQayECIAFBBGsiAQ0ACyAFIAlGDQELIANBAnQgAGpBCGshAgNAIAJBBGoiASABKAIAIAZ0IAIoAgAgCHZyNgIAIAJBBGshAiAKIANBAWsiA0kNAAsLIAAgB0ECdGoiASABKAIAIAZ0NgIAIAAgBDYCoAEgAAueBAEFfyMAQdAAayIEJAACQAJ/IAEgA08EQEEAIAEgA0cNARogACACIAEQuwdFDAELIARBEGogAiADIAAgARDhAQJAAkAgBCgCEEEBRgRAIARBGGohACAEKAJMIQEgBCgCSCECIAQoAkQhAyAEKAJAIQUgBCgCNEF/Rg0BIARBBGogACAFIAMgAiABQQAQiQQMAgtBACEDAkAgBC0AHg0AIAQtABwhCCAEKAJEIQAgBCgCQCECAkAgBCgCFCIBRQ0AIAAgAU0EQCAAIAFGDQEMBgsgASACaiwAAEFASA0FCwJAIAAgAUcEQAJ/IAEgAmoiBSwAACIDQQBIBEAgBS0AAUE/cSEGIANBH3EhByAHQQZ0IAZyIANBYEkNARogBS0AAkE/cSAGQQZ0ciEGIAYgB0EMdHIgA0FwSQ0BGiAHQRJ0QYCA8ABxIAUtAANBP3EgBkEGdHJyDAELIANB/wFxCyEDQQEhBSAIQQFxDQECQCADQYABSQ0AQQIhBSADQYAQSQ0AQQNBBCADQYCABEkbIQULAkAgASAFaiIBRQ0AIAAgAU0EQCAAIAFHDQgMAQsgASACaiwAAEFASA0HCyAAIAFGDQEgASACaiwAABoMAQsgCEEBcUUNAQtBASEDCyAEIAM2AgQMAQsgBEEEaiAAIAUgAyACIAFBARCJBAsgBCgCBAsgBEHQAGokAA8LIAIgACABIABB5JvHABCuCQAL+gQBBn8jAEEgayIDJAAgASgCDCEFAkACQAJAIAEoAhQiAiABKAIQIgRJBEAgAUEMaiEHA0AgAiAFai0AAEEJayIGQRlLDQJBASAGdEGTgIAEcUUEQCAGQRlHDQMgAUEANgIIIAEgAkEBajYCFCADQRRqIAcgARCBAiADKAIYIQIgAygCFEECRw0EIABBAToAACAAIAI2AgQMBQsgASACQQFqIgI2AhQgAiAERw0ACyAEIQILIANBBTYCFCADQQhqIAUgBCACQQFqIgEgBCABIARJGxD6ASADQRRqIAMoAgggAygCDBDZByEBIABBAToAACAAIAE2AgQMAgsgASADQRRqQbzbwQAQ/wEgARCXBiEBIABBAToAACAAIAE2AgQMAQsgAAJ/AkAgAAJ/AkACQAJAAkACQAJAAkACQAJAIAMoAhwiBEECaw4KAgAKCgYHAwoKAQoLQQAgAkHi+8UAQQMQuwdFDQgaIAJBrKXBAEEDELsHDQdBAQwIC0ECIAJBr6XBAEELELsHRQ0HGiACQbqlwQBBCxC7Bw0IQQMMBwsgAi8AAEHy8ABHDQFBBAwGCyACKQAAQvLw/KLWjJu64QBSDQFBBQwFCyACLwAAQfPwAEcNBUEGDAQLIAIpAABC8/D8otaMm7rhAFINBEEHDAMLQQggAkHZpcEAQQYQuwdFDQIaIAJB36XBAEEGELsHDQNBCQwCCyACQeWlwQBBBxC7Bw0CQQoMAQtBCyACQaudxQBBAxC7B0UNABogAkHl+8UAQQMQuwcNAUEMCzoAAUEADAELIAAgAiAEQeylwQBBDRD5BiABEJcGNgIEQQELOgAACyADQSBqJAALqwQBDH8jAEEQayIPJAAgAwRAIAEgAmsiBkEAIAEgBk8bIREDQCACIAtqIQYCQAJAAkACQAJAIAsgEUcEQCAAIAZBGGxqIgdBFGohDAJ/IAcoAhQiCkEETQRAIAdBBGpBoLfIACAKGyENIAwMAQsgBygCCEGgt8gAIAcoAgQiChshDSAHQQRqCyEGIA0oAgAhDSAKBEAgBkEANgIACyAFIAtHBEAgBCALQQF0ai8BACEIAkAgDCgCACIGQQVPBEAgBygCBCIJIAhPDQYgBiEODAELQQQhDiAGIAhPDQMgBiEJCyAOIAlrIAggCWsiDkkEQCAPQQhqIAdBAUF/IAhBAWtndkEBaiAIQQFNGxDsAyAPKAIIIgZBgYCAgHhHDQQLIAggCUYNBiAHQQRqIQgDQAJ/IAwoAgAiCUEFSQRAIAkhCiAIIRBBBCEJIAwMAQsgBygCBCEKIAcoAgghECAICyEGIAkgCkYEQCAHELAGIAcoAgQhCiAHKAIIIRAgCCEGCyAQIApBAnRqIA02AgAgBiAGKAIAQQFqNgIAIA1BAWohDSAOQQFrIg4NAAsMBgsgBSAFQZSlxwAQrgcACyAGIAFBhKXHABCuBwALIAYgCE0NAwwCCyAGRQRAQcD6xgBBEUGwrMcAEOcIAAsgDygCDBDoCQALIAggCU8NASAHQQRqIQwgCSEGCyAGIAhNDQAgDCAINgIACyALQQFqIgsgA0cNAAsLIA9BEGokAAurBAEMfyMAQRBrIg8kACADBEAgASACayIGQQAgASAGTxshEQNAIAIgC2ohBgJAAkACQAJAAkAgCyARRwRAIAAgBkEYbGoiB0EUaiEMAn8gBygCFCIKQQRNBEAgB0EEakGgt8gAIAobIQ0gDAwBCyAHKAIIQaC3yAAgBygCBCIKGyENIAdBBGoLIQYgDSgCACENIAoEQCAGQQA2AgALIAUgC0cEQCAEIAtBAXRqLwEAIQgCQCAMKAIAIgZBBU8EQCAHKAIEIgkgCE8NBiAGIQ4MAQtBBCEOIAYgCE8NAyAGIQkLIA4gCWsgCCAJayIOSQRAIA9BCGogB0EBQX8gCEEBa2d2QQFqIAhBAU0bEOwDIA8oAggiBkGBgICAeEcNBAsgCCAJRg0GIAdBBGohCANAAn8gDCgCACIJQQVJBEAgCSEKIAghEEEEIQkgDAwBCyAHKAIEIQogBygCCCEQIAgLIQYgCSAKRgRAIAcQsAYgBygCBCEKIAcoAgghECAIIQYLIBAgCkECdGogDTYCACAGIAYoAgBBAWo2AgAgDUEBaiENIA5BAWsiDg0ACwwGCyAFIAVB5KfHABCuBwALIAYgAUHUp8cAEK4HAAsgBiAITQ0DDAILIAZFBEBBwPrGAEERQbCsxwAQ5wgACyAPKAIMEOgJAAsgCCAJTw0BIAdBBGohDCAJIQYLIAYgCE0NACAMIAg2AgALIAtBAWoiCyADRw0ACwsgD0EQaiQAC64EAgV/BH4jAEEgayICJABBBCEDIAEoAgQiBK0hCCABAn4CQCAEQv////8PIAEpAwgiByAHQv////8PWhunayIGQQAgBCAGTxtBBE8EQCABKAIAIAcgCCAHIAhUG6dqKAAAIQUMAQtBiOPHACkDACIJQgiIIQogCachAyAIIAlC/wGDQgRSDQEaCyAHQgR8CyIJNwMIAkAgA0H/AXFBBEcEQCAAQRJqIAJBFmovAQA7AQAgAiADrUL/AYMgCkIIhoQ3AgwgAkEEaiACQQ1qLQAAIgE6AAAgACACKQEONwEKIAIgAigACSIDNgIAIABBCWogAToAACAAIAM2AAUgAEEAOgAEIABBATYCAAwBCyACQQhqQQFyIAUQkwQgAkEcaiACQQ1qLQAAOgAAIAIgAigACSIDNgIAIAIgAzYCGAJAAkAgBCAJIAggCCAJVhunIgNrQQRPBEAgASgCACADaigAACEEQQQhA0IAIQcMAQtBACEEQYjjxwApAwAiCkIIiCEHIAqnIQMgCkL/AYNCBFINAQsgCUIEfCEICyABIAg3AwggA0H/AXFBBEcEQCAAIAM6AAggAEEAOgAEIABBATYCACAAIAenIgE7AAkgACAHQhiIPgIMIABBC2ogAUEQdjoAAAwBCyAAIAIoAhg2ABAgAEEANgIAIAAgBK03AwggAEEUaiACQRxqLQAAOgAAIABBfyAEIARBAXFqIgAgACAESRutNwMYCyACQSBqJAALzQQBA38jAEEwayIDJAACQAJAAkACQAJAAkACQEEVIAEoAgAiAkGAgICAeHMgAkEAThtBDGsOBAECAwQACyABIANBL2pB0IfBABCPCCEBIABBgICAgHg2AgAgACABNgIEDAQLIAEoAgghBAJAIAEoAgwiAkUEQEEBIQEMAQsgAhBxIgFFDQULIAIEQCABIAQgAvwKAAALIAAgAjYCCCAAIAE2AgQgACACNgIADAMLIAEoAgQhBAJAIAEoAggiAkUEQEEBIQEMAQsgAhBxIgFFDQQLIAIEQCABIAQgAvwKAAALIAAgAjYCCCAAIAE2AgQgACACNgIADAILIANBDGogASgCCCICIAEoAgwiBBD6AkEBIQEgAygCDEEBRgRAIAMgBDYCICADIAI2AhwgA0EGOgAYIANBGGogA0EvakHQh8EAEPsGIQEgAEGAgICAeDYCACAAIAE2AgQMAgsgAygCECEEIAMoAhQiAgRAIAIQcSIBRQ0DCyACBEAgASAEIAL8CgAACyAAIAI2AgggACABNgIEIAAgAjYCAAwBCyADQQxqIAEoAgQiAiABKAIIIgQQ+gJBASEBIAMoAgxBAUYEQCADIAQ2AiAgAyACNgIcIANBBjoAGCADQRhqIANBL2pB0IfBABD7BiEBIABBgICAgHg2AgAgACABNgIEDAELIAMoAhAhBCADKAIUIgIEQCACEHEiAUUNAgsgAgRAIAEgBCAC/AoAAAsgACACNgIIIAAgATYCBCAAIAI2AgALIANBMGokAA8LQQEgAhDhCAALogQBB38jAEHQAGsiAiQAIAAgAToAbCAAKAIYIQMgAEGAgICAeDYCGAJAAkAgA0GAgICAeEcEQCACQRxqIABBJGr9AAIA/QsCACACQSxqIABBNGr9AAIA/QsCACACQTxqIABBxABq/QACAP0LAgAgAkHMAGogAEHUAGooAgA2AgAgAiADNgIQIAIgACkCHDcCFCACQQhqIAEgAkEQahDJAgJAIAIoAggiASAAKAIEIAAoAgggAigCDCIDKAIQEQAAIggEQCADKAIAIgAEQCABIAARAwALIAMoAgQiAEUNASABQQRrKAIAIgNBeHEiBUEEQQggA0EDcSIDGyAAakkNAyADQQAgBSAAQSdqSxsNBCABEJ8CDAELIABBADYCCCAAKAJYIgVBgICAgHhyQYCAgIB4RwRAIAAoAlwiBkEEaygCACIEQXhxIgdBBEEIIARBA3EiBBsgBWpJDQMgBEEAIAcgBUEnaksbDQQgBhCfAgsgAEGAgICAeDYCWAJAIAAoAmQiBUUNACAAKAJoIgYoAgAiBARAIAUgBBEDAAsgBigCBCIGRQ0AIAVBBGsoAgAiBEF4cSIHQQRBCCAEQQNxIgQbIAZqSQ0DIARBACAHIAZBJ2pLGw0EIAUQnwILIAAgAzYCaCAAIAE2AmQLIAJB0ABqJAAgCA8LQajywQAQ0AkAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAufBAIFfwR9IAEoAgAiAiABKAIERgR/QQAFIAEgAkEEajYCAAJ/AkAgAigCACICIAEoAggiASgCCCIDSQRAIAEoAgQgAkEYbGoiAkERai8AACACQRNqLQAAIgNBEHRyIgRBCHYhBUMAABBBIAEqAkggAS0AWEECRiIGGyEIQwAAQMEgASoCRCAGGyEHIARB/wFxBEAgByAIIAeTQwAAfkOVIARBAWtB/wFxs5SSEO4DIQkLIAVB/wFxBEAgByAIIAeTQwAAfkOVIAVBAWtB/wFxs5SSEO4DIQoLIAMEfSAHIAggB5NDAAB+Q5UgA0EBa0H/AXGzlJIQ7gMFQwAAAAALIQcgAkEMai8BACICQf//AXFFDQEgAkH/B3EhASACQYCAAnEhAyACQYD4AXEiAkGA+AFHBEAgA0EQdCIDIAJBDXRBgICA/ABxIAFBDXRyQYCAgMADanIgAg0DGiABIAFnQRBrIgFB//8DcUEIanRB////A3EgA0GAgIDYA3IgAUEXdGtyDAMLIANBEHQiAiABQQ10ckGAgID+B3IgAQ0CGiACQYCAgPwHcgwCCyACIANBnJ7HABCuBwALIAJBEHQLIQEgCSAKlEOPws0/ELoKIQggCSAHlEOPws0/ELoKIQkgCiAHlEOPws0/ELoKIAggCZKSQwAAQECVQ+ZAHz8QugpD2w9JQZQgAb6UIQdBAQshASAAIAc4AgQgACABNgIAC9EEAgd/AX4jAEEQayIDJAACQAJAAkAgAC8BDCICBEAgAyAB/QACAP0LAwAgACkCCCIJpyIIQYCAgAhxRQRAIAMoAgQhBwwCCyAAKAIAIAMoAgAgAygCBCIBIAAoAgQoAgwRAAANAiAAIAhBgICA/3lxQbCAgIACciIINgIIIANCATcDACACIAFB//8DcWsiAUEAIAEgAk0bIQIMAQsgACgCACAAKAIEIAEQjgMhAQwCCwJAIAMoAgwiBUUEQAwBCyADKAIIIQEDQAJ/AkACQAJAAkAgAS8BAEEBaw4CAQIACyABQQRqKAIADAMLIAFBAmovAQAiBA0BQQEMAgsgAUEIaigCAAwBCyAEQfb/F2ogBEGc/x9qcSAEQZj4N2ogBEHwsR9qcXNBEXZBAWoLIAFBDGohASAGaiEGIAVBAWsiBQ0ACwsCQAJAIAYgB2oiASACQf//A3FJBEAgAiABayEFQQAhAUEAIQICQAJAAkAgCEEddkEDcUEBaw4DAAEAAgsgBSECDAELIAVB/v8DcUEBdiECCyAIQf///wBxIQcgACgCBCEGIAAoAgAhBANAIAFB//8DcSACQf//A3FPDQIgAUEBaiEBIAQgByAGKAIQEQIARQ0ACwwDCyAAKAIAIAAoAgQgAxCOAyEBDAELIAQgBiADEI4DDQEgBSACa0H//wNxIQVBACECA0AgBSACQf//A3FNBEBBACEBDAILQQEhASACQQFqIQIgBCAHIAYoAhARAgBFDQALCyAAIAk3AggMAQtBASEBCyADQRBqJAAgAQuiBAMEfwF7AX4CQCAFLQC/AiIGQQhLQQEgBnRBlgJxRXJFBEBBCCAGbkECdK0gAq1+IgtCIIhQIAunIARJcQ0BIAEgAmohCSAEQfz///8HcSEHAkACQCAGQQhGBEAgAkUgB0VyDQECQCAEQQRrQQJ2IgQgAkEBayICIAIgBEsbIgJBA0kEQCABIQIgAyEEDAELIAEgAkEBaiIIQfz///8HcSIGaiECIAMgBkECdCIFaiEEIAcgBWshByAGIQUDQCADIAAgAf1cAAD9iQH9qQEiCv0bA0ECdGogACAK/RsCQQJ0aiAAIAr9GwFBAnRqIAAgCv0bAEECdGr9XAAA/VYAAAH9VgAAAv1WAAAD/QsAACABQQRqIQEgA0EQaiEDIAVBBGsiBQ0ACyAGIAhGDQILIAdBBGshAQNAIAQgACACLQAAQQJ0aigAADYAACACQQFqIgIgCUYNAiABIgNBBGshASAEQQRqIQQgAw0ACwwBCyAHRQ0AQX8gBnRBf3MhCEEIIAZrIQVBACEHQQAgBEF8cWshBEF/IQIDQCACQQBIBEAgASAJRg0DIAEtAAAhByAFIQIgAUEBaiEBCyADIAAgB0H/AXEgAnYgCHFBAnRqKAAANgAAIAIgBmshAiADQQRqIQMgBEEEaiIEDQALCw8LQYSPxQBBIkGoj8UAENwHAAtBuI/FAEE0QeyPxQAQ5wgAC0GMjsUAQeUAQfSOxQAQ5wgAC7gDAQR/IAAQnAECQAJAIAAoAvADIgIEQCAAKAL0AyIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEJ8CCyAAKAKIBCICQYKAgIB4SCACRXJFBEAgACgCjAQiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCfAgsgACgC/AMiAgRAIAAoAoAEIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQnwILAkAgACgCqAQiAkUNACAAKAKsBCIDKAIAIgEEQCACIAERAwALIAMoAgQiA0UNACACQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyADakkNASABQQAgBCADQSdqSxsNAiACEJ8CCyAAKAKwBCICBEAgACgCtAQiAEEEaygCACIDQXhxIgFBBEEIIANBA3EiAxsgAmpJDQEgA0EAIAEgAkEnaksbDQIgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvDBAIGfwF+An8gAUUEQCAAKAIIIQZBLSELIAVBAWoMAQtBK0GAgMQAIAAoAggiBkGAgIABcSIBGyELIAFBFXYgBWoLIQcCQCAGQYCAgARxRQRAQQAhAgwBCwJ/QQAgA0UNABogAiwAAEG/f0oiASADQQFGDQAaIAEgAiwAAUG/f0pqCyAHaiEHCwJAIAAvAQwiCSAHSwRAAkACQCAGQYCAgAhxRQRAIAkgB2shCUEAIQFBACEHAkACQAJAIAZBHXZBA3FBAWsOAwABAAILIAkhBwwBCyAJQf7/A3FBAXYhBwsgBkH///8AcSEKIAAoAgQhCCAAKAIAIQADQCABQf//A3EgB0H//wNxTw0CQQEhBiABQQFqIQEgACAKIAgoAhARAgBFDQALDAQLIAAgACkCCCIMp0GAgID/eXFBsICAgAJyNgIIQQEhBiAAKAIAIgggACgCBCIKIAsgAiADEOUHDQNBACEBIAkgB2tB//8DcSECA0AgAUH//wNxIAJPDQIgAUEBaiEBIAhBMCAKKAIQEQIARQ0ACwwDC0EBIQYgACAIIAsgAiADEOUHDQIgACAEIAUgCCgCDBEAAA0CIAkgB2tB//8DcSECQQAhAQNAIAIgAUH//wNxTQRAQQAPCyABQQFqIQEgACAKIAgoAhARAgBFDQALDAILIAggBCAFIAooAgwRAAANASAAIAw3AghBAA8LQQEhBiAAKAIAIgEgACgCBCIAIAsgAiADEOUHDQAgASAEIAUgACgCDBEAACEGCyAGC4EEAQh/IwBBEGsiBiQAAn8CQCADQQFxRQRAIAItAAAiBQ0BQQAMAgsgACACIANBAXYgASgCDBEAAAwBCyABKAIMIQoDQCACQQFqIQQCQAJAAn8CQAJAAkAgBcBBAEgEQCAFQf8BcSIIQYABRg0BIAhBwAFGDQJBoICAgAYhCyAFQQFxBEAgAigAASELIAJBBWohBAtBACEJIAVBAnENAyAEIQJBAAwECyAAIAQgBUH/AXEiAiAKEQAARQRAIAIgBGohAgwGC0EBDAcLIAAgAkEDaiIEIAIvAAEiAiAKEQAARQRAIAIgBGohAgwFC0EBDAYLIAYgATYCBCAGIAA2AgAgBkKggICABjcCCCADIAdBA3RqIgIoAgAgBiACKAIEEQIARQ0CQQEMBQsgBEECaiECIAQvAAALIQQgBUEEcQR/IAIvAAAhCSACQQJqBSACCyEIIAVBCHEEfyAILwAAIQcgCEECagUgCAshAiAFQRBxBEAgAyAEQf//A3FBA3RqLwEEIQQLIAYgBUEgcQR/IAMgCUEDdGovAQQFIAkLOwEOIAYgBDsBDCAGIAs2AgggBiABNgIEIAYgADYCAEEBIAMgB0EDdGoiBCgCACAGIAQoAgQRAgANAxogB0EBaiEHDAELIAdBAWohByAEIQILIAItAAAiBQ0AC0EACyAGQRBqJAALtwQCCn8BfiMAQSBrIgMkAAJAAkADQCACIARGDQEgASAEaiAEQQFqIQQsAABBAE4NAAsgA0EANgIUIANCgICAgBA3AgwgA0EMakEAIAIQpgYgAygCFCEFA0AgBSEHIAEgCWosAAAiBEEASARAIARB/wBxQQJ0KAKk/UghBAtBAUECQQMgBEGAEEkiDBsgBEGAAUkiCBsiCiADKAIMIAVrSwR/IANBDGogBSAKEKYGIAMoAhQFIAcLIAMoAhAiB2ohBgJAIAhFBEAgBEEGdiEIIARBP3FBgH9yIQsgDEUEQCAGIAs6AAIgBiAIQYABcjoAASAGIARBDHZB4AFyOgAADAILIAYgCzoAASAGIAhBwAFyOgAADAELIAYgBDoAAAsgAyAFIApqIgU2AhQgAiAJQQFqIglHDQALAkACQAJAIAUgAygCDCIESQRAIAcgBEEBIAUQuQIiB0UNAQsgAUEEaygCACIEQXhxIgZBBEEIIARBA3EiBBsgAmpJDQEgBEEAIAYgAkEnaksbDQIgARCfAgwEC0EBIAUQ4QgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsgA0EMaiABIAIQ+gIgAygCDEUEQCABIQcgAiEFDAELIAMgAykCECINQiCIPgIcIAMgDT4CGCADIAI2AhQgAyABNgIQIAMgAjYCDEGAuMgAQSsgA0EMakGw7McAQcDsxwAQiQcACyAAIAU2AgQgACAHNgIAIANBIGokAAuLBAEFfyMAQSBrIgQkAEG+zccAIQVBCSEDAkACQAJAAkAgAigCAEEBcQ0AIARBEGogAigCBCACKAIIEPoCQb7NxwAgBCgCFCAEKAIQIgIbIQUgAg0AIAQoAhgiA0UNAQsgBCADNgIMIAQgBTYCCCABKAIEIQUgASgCACEDA0AgBEEQaiAEQQhqEOIDIAQoAhAiBkUNAiAEKAIUIQcgBCgCHARAQQEhAiADIAYgByAFKAIMEQAADQQgA0H9/wMgBSgCEBECAEUNAQwECwsgASAGIAcQmAMhAgwCCyABQQFBABCYAyECDAELQQAhAgsCQAJAAkACQCAAKAIAIgFBgICAgHhHBEAgAUUNAiAAKAIEIgVBBGsoAgAiAEF4cSIDQQRBCCAAQQNxIgAbIAFqSQ0EIABFIAMgAUEnak1yDQEMAwsgAC0ABEEDRw0BIAAoAggiBSgCACEAIAVBBGooAgAiASgCACIDBEAgACADEQMACyABKAIEIgEEQCAAQQRrKAIAIgNBeHEiBkEEQQggA0EDcSIDGyABakkNBCADQQAgBiABQSdqSxsNAyAAEJ8CCyAFQQRrKAIAIgBBeHEiAUEQQRQgAEEDcSIAG0kNAyAARQ0AIAFBNE8NAgsgBRCfAgsgBEEgaiQAIAIPC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAu7BAIGfwV9IAAgASACEM0DAkACQAJAIAIEQCAAKAJgQQxqIQEgACoCjAEgACoCiAEiDpMhDyAAKAJkIQlBASEGA0AgB0EDaiAJTw0CIAZBAWsiBSAETwRAIAUhBgwFCyAEIAVrIgVBACAEIAVPGyIFQQFGDQQgBUECRg0DIANBCGoqAgAhCyADQQRqKgIAIQxBACEFQQAhCCADKgIAIg1DAAAAAF9FBEBB/wFDAACAP0MAAAAAIA0QugUgDpMgD5UiDSANQwAAAABdGyINIA1DAACAP14bQwAAfkOUEJ0HIg38AUEAIA1DAAAAAGAbIA1DAAB/Q14bQQFqQf8BcSEICyAMQwAAAABfRQRAQf8BQwAAgD9DAAAAACAMELoFIA6TIA+VIgwgDEMAAAAAXRsiDCAMQwAAgD9eG0MAAH5DlBCdByIM/AFBACAMQwAAAABgGyAMQwAAf0NeG0EBakH/AXFBCHQhBQsgASALQwAAAABfBH8gCgVB/wFDAACAP0MAAAAAIAsQugUgDpMgD5UiCyALQwAAAABdGyILIAtDAACAP14bQwAAfkOUEJ0HIgv8AUEAIAtDAAAAAGAbIAtDAAB/Q14bQQFqQf8BcUEQdAsgBSAIcnIgAS0AA0EYdHI2AgAgAUEQaiEBIAdBBGohByAGQQNqIQYgA0EMaiEDIAJBAWsiAg0ACwsgAEEBOgC4AQ8LIAcgB0EEaiAJQfCGwQAQ1QcACyAGQQFqIQYLIAYgBEGAh8EAEK4HAAuzBAEGfyMAQTBrIgMkACADIAI2AgggAyABNgIEIANBIGogA0EEahDiAwJAAkACQCADKAIgIgYEQCADKAIkIQEgAygCLEUNAgJAIAJFBEBBASEEDAELIAIQcSIERQ0CCyADQQA2AhQgAyAENgIQIAMgAjYCDCABIAJLBEAgA0EMakEAIAEQswYgAygCECEEIAMoAhQhBSADKAIMIQILIAEEQCAEIAVqIAYgAfwKAAALIAMgASAFaiIBNgIUIAIgAWtBAk0EQCADQQxqIAFBAxCzBiADKAIQIQQgAygCFCEBCyABIARqIgJBzc3HAC8AACIFOwAAIAJBAmpBz83HAC0AACIGOgAAIAMgAUEDaiICNgIUIAMgAykCBDcCGANAAkAgA0EgaiADQRhqEOIDIAMoAiAiB0UNACADKAIsIAMoAiQiASADKAIMIAJrSwRAIANBDGogAiABELMGIAMoAhAhBCADKAIUIQILIAEEQCACIARqIAcgAfwKAAALIAMgASACaiICNgIURQ0BIAMoAgwgAmtBAk0EQCADQQxqIAJBAxCzBiADKAIQIQQgAygCFCECCyACIARqIgEgBTsAACABQQJqIAY6AAAgAyACQQNqIgI2AhQMAQsLIAAgAykCDDcCACAAQQhqIANBFGooAgA2AgAMAwsgAEEANgIIIABCgICAgBg3AgAMAgtBASACEOEIAAsgACABNgIIIAAgBjYCBCAAQYCAgIB4NgIACyADQTBqJAALkQQBB38CQAJAAkACQAJAAkACQCAERSACRXINACAAKAI8RQ0AIAAoAiAiDiABIAEgDksbIQogACgCHCABQRJsaiELIARBCW5BCWwhDyACIQ0gASEMA0AgCiAORg0CIAkgD0YNAyALIAMQxwIgA0EkaiEDIAtBEmohCyAMQQFqIQwgCkEBaiEKIAlBCWohCSANQQFrIg0NAAsLAkAgBkUgAkVyDQAgACgCPEECSQ0AIAAoAiwiBCABIAEgBEsbIQkgACgCKCABQR5saiEKIAZBD25BD2whDUEAIQMgAiEMIAEhCwNAIAQgCUYNBCADIA1GDQUgCiAFEMICIAVBPGohBSAKQR5qIQogC0EBaiELIAlBAWohCSADQQ9qIQMgDEEBayIMDQALCwJAIAhFIAJFcg0AIAAoAjxBA0kNACAAKAI4IgQgASABIARLGyEFIAAoAjQgAUEqbGohCSAIQRVuQRVsIQBBACEDA0AgBCAFRg0GIAAgA0YNByAJIAcQugIgB0HUAGohByAJQSpqIQkgAUEBaiEBIAVBAWohBSADQRVqIQMgAkEBayICDQALCw8LIAwgDkG0qMcAEK4HAAsgCSAJQQlqIARBxKjHABDVBwALIAsgBEHUqMcAEK4HAAsgAyADQQ9qIAZB5KjHABDVBwALIAEgBEH0qMcAEK4HAAsgAyADQRVqIAhBhKnHABDVBwAL0xQDEn8DfgF7QeyHyQAtAABBAUcEQAJAAkACQAJAAkACQEHsh8kALQAAQQFrDgIAAgELQeyHyQBBAjoAAEHgh8kAKAIAIgJFDQBB6IfJACgCACIEBEBB3IfJACgCACIDQQhqIQIgAykDAEJ/hUKAgYKEiJCgwIB/gyEUA0AgFFAEQANAIANB4ABrIQMgAikDACACQQhqIQJCgIGChIiQoMCAf4MiFEKAgYKEiJCgwIB/UQ0ACyAUQoCBgoSIkKDAgH+FIRQLIAMgFHqnQQN2QXRsakEEaygCACIGQYQITwRAIAYQhQcLIBRCAX0gFIMhFCAEQQFrIgQNAAtB4IfJACgCACECCyACIAJBDGxBE2pBeHEiA2pBCWoiAkUNAEHch8kAKAIAIANrIgNBBGsoAgAiBEF4cSIGQQRBCCAEQQNxIgQbIAJqSQ0CIARBACAGIAJBJ2pLGw0DIAMQnwILQeyHyQBBAToAAEHch8kAQdjsxwD9AAMA/QsCAEHYh8kAQQA2AgAMAwtBkOPHAEH9AEHQ48cAENsHAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALC0HYh8kAKAIARQRAQdiHyQBBfzYCAEHgh8kAKAIAIgMgAHEhAiAAQRl2IhKtQoGChIiQoMCAAX4hFkHch8kAKAIAIQQCQAJAA0AgAiAEaikAACIVIBaFIhRCf4UgFEKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIUUEUEQANAIAAgBCAUeqdBA3YgAmogA3FBdGxqIgZBDGsoAgBGBEAgBkEIaygCACABRg0ECyAUQgF9IBSDIhRQRQ0ACwsgFSAVQgGGg0KAgYKEiJCgwIB/g1AEQCACIAVBCGoiBWogA3EhAgwBCwtB5IfJACgCAEUEQAJAQQAhBEHoh8kAKAIAIg1BAWoiAgRAAkACQAJAQeCHyQAoAgAiCiAKQQFqIgtBA3YiBUEHbCAKQQhJGyIOQQF2IAJJBEACfyAOQQFqIgUgAiACIAVJGyICQQ9PBEAgAkH/////AUsNBUF/IAJBA3RBB25BAWtndkEBagwBC0EEIAJBCHFBCGogAkEESRsLIgKtQgx+IhRCIIinDQMgFKciBUF4Sw0DIAVBB2pBeHEiAyACQQhqIgRqIgUgA0kgBUH4////B0tyDQMgBRBxIgZFBEAgBRDoCQALIAMgBmohBiAEBEAgBkH/ASAE/AsACyACQQFrIgkgAkEDdkEHbCAJQQhJGyEOQdyHyQAoAgAhAyANBEAgBkEMayEPIAZBCGohECADQQxrIQwgAykDAEJ/hUKAgYKEiJCgwIB/gyEUIAMhBUEAIQIgDSEEA0AgFFAEQANAIAJBCGohAiAFQQhqIgUpAwBCgIGChIiQoMCAf4MiFEKAgYKEiJCgwIB/UQ0ACyAUQoCBgoSIkKDAgH+FIRQLIAYgAyAUeqdBA3YgAmoiEUF0bGoiCEEMaygCACIHIAhBCGsoAgAgBxsiEyAJcSIIaikAAEKAgYKEiJCgwIB/gyIVUARAQQghBwNAIAcgCGohCCAHQQhqIQcgBiAIIAlxIghqKQAAQoCBgoSIkKDAgH+DIhVQDQALCyAUQgF9IBSDIRQgBiAVeqdBA3YgCGogCXEiCGosAABBAE4EQCAGKQMAQoCBgoSIkKDAgH+DeqdBA3YhCAsgBiAIaiATQRl2Igc6AAAgECAIQQhrIAlxaiAHOgAAIA8gCEF0bGoiCEEIaiAMIBFBdGxqIgdBCGooAAA2AAAgCCAHKQAANwAAIARBAWsiBA0ACwtB4IfJACAJNgIAQdyHyQAgBjYCAEHkh8kAIA4gDWs2AgAgCkUNBSAKIAtBDGxBB2pBeHEiBWpBCWoiAkUNBSADIAVrIgVBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAJqSQ0CIANBACAEIAJBJ2pLGw0BIAUQnwIMBQsgCwRAQdyHyQAoAgAhBgJAAkAgBSALQQdxQQBHaiIIQQJJBEAgCCEFDAELIAhBAXEhBSAIQf7///8DcSIHQQN0IQQgByEDIAYhAgNAIAIgAv0AAwAiF/1NQQf9zQH9DAEBAQEBAQEBAQEBAQEBAQH9TiAX/Qx/f39/f39/f39/f39/f39//VD9zgH9CwMAIAJBEGohAiADQQJrIgMNAAsgByAIRg0BCyAEIAZqIQIDQCACIAIpAwAiFEJ/hUIHiEKBgoSIkKDAgAGDIBRC//79+/fv37//AIR8NwMAIAJBCGohAiAFQQFrIgUNAAsLIAZBCGohCAJAIAtBCE8EQCAGIAtqIAYpAAA3AAAMAQsgC0UNACAIIAYgC/wKAAALQQEhA0EAIQIDQCACIQUgAyECAkAgBSAGaiIPLQAAQYABRw0AIAYgBUF0bGoiA0EEayEQIANBCGshDCADQQxrIQMCQANAIAMoAgAiBCAMKAIAIAQbIhEgCnEiCSEEIAYgCWopAABCgIGChIiQoMCAf4MiFFAEQEEIIQcDQCAEIAdqIQQgB0EIaiEHIAYgBCAKcSIEaikAAEKAgYKEiJCgwIB/gyIUUA0ACwsgBiAUeqdBA3YgBGogCnEiBGosAABBAE4EQCAGKQMAQoCBgoSIkKDAgH+DeqdBA3YhBAsgBCAJayAFIAlrcyAKcUEISQ0BIAQgBmoiBy0AACAHIBFBGXYiBzoAACAIIARBCGsgCnFqIAc6AAAgBiAEQXRsaiIHQQxrIQRB/wFHBEAgAygAACEJIAMgBCgAADYAACAEIAk2AAAgDCgAACEEIAwgB0EIayIJKAAANgAAIAkgBDYAACAQKAAAIQQgECAHQQRrIgcoAAA2AAAgByAENgAADAELCyAPQf8BOgAAIAggBUEIayAKcWpB/wE6AAAgBEEIaiADQQhqKAAANgAAIAQgAykAADcAAAwBCyAPIBFBGXYiAzoAACAIIAVBCGsgCnFqIAM6AAALIAIgAiALSSIFaiEDIAUNAAsLQeSHyQAgDiANazYCAAwEC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAsLQZC5xABBOUGsucQAENsHAAsLIAAgARDsCCECQdyHyQAoAgAiBEHgh8kAKAIAIgYgAHEiA2opAABCgIGChIiQoMCAf4MiFFAEQEEIIQUDQCADIAVqIQMgBUEIaiEFIAQgAyAGcSIDaikAAEKAgYKEiJCgwIB/gyIUUA0ACwsgBCAUeqdBA3YgA2ogBnEiA2osAAAiBUEATgRAIAQgBCkDAEKAgYKEiJCgwIB/g3qnQQN2IgNqLQAAIQULIAMgBGogEjoAACAEIANBCGsgBnFqQQhqIBI6AABB5IfJAEHkh8kAKAIAIAVBAXFrNgIAQeiHyQBB6IfJACgCAEEBajYCACAEIANBdGxqIgVBBGsgAjYCACAFQQhrIAE2AgAgBUEMayAANgIADAELIAZBBGsoAgAhAgsgAhDNCUHYh8kAQdiHyQAoAgBBAWo2AgAPC0HsjcYAELMKAAvLBAMFfwN7B30CQAJAAkACQAJAAkACQAJAAkAgB0EDTwRAIAdBA25BAnQhCSABKgIAIAAqAgAiEZMhEiAB/V0CBCAA/V0CBCIO/eUBIQ9BACEBQQAhAANAIAEgA08NAyABIAVPDQQgAUEBaiIIIANPDQUgBSAITQ0GIAFBAmoiCCADTw0HIAUgCE0NCCABIARqIggtAAAhCyABIAJqIgotAAAhDCAOIA8gCkEBai0AACAIQQFqLQAAQQh0crNDAP9/R5X9EyAKQQJqLQAAIAhBAmotAABBCHRys0MA/39Hlf0gAf3mAf3kASIN/R8AIhOLEO4DIRQgDf0fASIVixDuAyEWIAAgB08NCSAGQwAAwH9DAACAPyARIAtBCHQgDHKzQwD/f0eVIBKUkiIQmCAQIBBcGyAQixDuA0MAAIC/kpQ4AgAgAEEBaiIIIAdPDQogBkEEakMAAMB/QwAAgD8gE5ggDSAN/UIiDf0bAEEBcRsgFEMAAIC/kpQ4AgAgASAJRg0CIAZBCGpDAADAf0MAAIA/IBWYIA39xwH9GwJBAXEbIBZDAACAv5KUOAIAIAZBDGohBiAAQQNqIQAgCSABQQRqIgFHDQALCw8LIABBAmogB0H4w8cAEK4HAAsgASADQfjCxwAQrgcACyABIAVBiMPHABCuBwALIAggA0GYw8cAEK4HAAsgCCAFQajDxwAQrgcACyAIIANBuMPHABCuBwALIAggBUHIw8cAEK4HAAsgACAHQdjDxwAQrgcACyAIIAdB6MPHABCuBwAL7QMBB38CQAJAAkACQAJAAkAgAyAEIAVrIgZLBEAgAyAETQ0BIAQgBUEBdCIKayIIIANPDQIgBCAFaiIHIANPDQMCQCACIAZqLQAAIgsgAiAEai0AACIMayIGIAZBH3UiBnMgBmtBAXRB/gNxIAIgCGotAAAiBiACIAdqLQAAIghrIgcgB0EfdSIHcyAHa0EBdmogAUH/AXFLDQAgBCAFQQJ0ayIBIANPDQUgBCAFQQNsIgdrIgUgA08NBiAAQf8BcSIAIAEgAmotAAAgAiAFai0AACIBayIFIAVBH3UiBXMgBWtJDQAgACABIAZrIgEgAUEfdSIBcyABa0H/AXFJDQAgBiALayIBIAFBH3UiAXMgAWtB/wFxIABLDQAgBCAHaiIBIANPDQcgACIDIAEgAmotAAAgAiAKaiAEai0AACIBayICIAJBH3UiAnMgAmtJDQAgAyABIAhrIgEgAUEfdSIBcyABa0H/AXFJDQAgCCAMayIAIABBH3UiAHMgAGtB/wFxIANNIQkLIAkPCyAGIANB1NTEABCuBwALIAQgA0Hk1MQAEK4HAAsgCCADQfTUxAAQrgcACyAHIANBhNXEABCuBwALIAEgA0Gk1MQAEK4HAAsgBSADQbTUxAAQrgcACyABIANBxNTEABCuBwAL/gMBCX8jAEEQayIFJAACQAJAAkACQCABIAAoArABIgRGIAAoArQBIgMgAkZxDQACQCAALQC4AUUEQCAAKAJkIQQMAQsgACgCrAEgBEECdCADIARqQQJ0EN4IIQggA0ECdCIJIAAoAmQiBEsNAiAAKAJgIQYgBSAIELsKIgM2AgggBSAJNgIMIAMgCUcNBCAIIAYgCRDkCSAAQQA6ALgBIAhBhAhJDQAgCBCFBwsgAkECdCIHIQMgBCAHSQRAIAcgBCIDayIKIAAoAlwgA2tLBEAgAEHcAGogAyAKQQRBBBCYBiAAKAJkIQMLIAAoAmAiCCADQQJ0IglqIQsgCkECTwRAIAcgBEF/c2pBAnQiBgRAIAtBACAG/AsACyACQQR0IARBAnRrIAhqIAlqQQRrIQsgAyAKakEBayEDCyALQQA2AgAgA0EBaiEDCyAAIAM2AmQgACgCrAEgAUECdCABIAJqQQJ0EN4IIQYgAyAHSQ0CIAAoAmAgBSAGELsKIgQ2AgggBSAHNgIMIAQgB0cNAyAHIAYQ5QkgAEEAOgC4ASAAIAI2ArQBIAAgATYCsAEgBkGECEkNACAGEIUHCyAFQRBqJAAPC0EAIAkgBEGEkMEAENUHAAtBACAHIANBmJDBABDVBwALQQAgBUEIaiAFQQxqQQAgAEG088QAEOQHAAuFBAEIfyMAQRBrIggkAAJAAkACQAJAIAAtALgBRQRAIAAoAmQhBQwBCyAAKAKsASAAKAKwASIFQQJ0IAUgACgCtAEiBWpBAnQQ3gghBiAFQQJ0IgcgACgCZCIFSw0BIAAoAmAhCSAIIAYQuwoiCjYCCCAIIAc2AgwgByAKRw0DIAYgCSAHEOQJIAZBhAhJDQAgBhCFBwsgAEIANwKwASAAQbgBakEAOgAAIAUgAkECdCIHSQRAIAUhBiAHIAVrIgkgACgCXCAFa0sEQCAAQdwAaiAFIAlBBEEEEJgGIAAoAmQhBgsgACgCYCILIAZBAnQiDGohCiAJQQJPBEAgByAFQX9zakECdCIHBEAgCkEAIAf8CwALIAJBBHQgBUECdGsgC2ogDGpBBGshCiAGIAlqQQFrIQYLIApBADYCACAGQQFqIQcLIAAgBzYCZAJAIAAoAgBBAUcNACACQQF0IgUgB0sNAiAAKAJgIgYgBSADIAQgAiAAKgKQARCoAiAAKAIEIAFBAXQgASACakEBdBDeCCIAELsKIQEgCCAFNgIMIAggATYCCCABIAVHDQMgACAGIAUQ5AkgAEGECEkNACAAEIUHCyAIQRBqJAAPC0EAIAcgBUGEkMEAENUHAAtBACAFIAdB4IXBABDVBwALQQAgCEEIaiAIQQxqQQAgAEG088QAEOQHAAuTBAEHfyMAQTBrIgIkACABKAIAIgcoAgwhBgJAAkAgBygCFCIDIAcoAhAiBEkEQANAIAMgBmotAAAiBUEJayIIQRdLQQEgCHRBk4CABHFFcg0CIAcgA0EBaiIDNgIUIAMgBEcNAAsgBCEDCyACQQI2AiRBASEFIAJBGGogBiAEIANBAWoiASAEIAEgBEkbEPoBIAAgAkEkaiACKAIYIAIoAhwQ2Qc2AgQMAQsCQAJAIAVB3QBHBEAgAS0ABA0BIAVBLEYNAiACQQc2AiRBASEFIAJBEGogBiAEIANBAWoiASAEIAEgBEkbEPoBIAAgAkEkaiACKAIQIAIoAhQQ2Qc2AgQMAwtBACEFIABBADoAAQwCCyAAQQE6AAFBACEFIAFBADoABAwBC0EBIQUgByADQQFqIgM2AhQCQCADIARJBEADQCADIAZqLQAAIgFBCWsiCEEXS0EBIAh0QZOAgARxRXINAiAHIANBAWoiAzYCFCADIARHDQALIAQhAwsgAkEFNgIkIAIgBiAEIANBAWoiASAEIAEgBEkbEPoBIAAgAkEkaiACKAIAIAIoAgQQ2Qc2AgQMAQsgAUHdAEYEQCACQRU2AiQgAkEIaiAGIAQgA0EBaiIBIAQgASAESRsQ+gEgACACQSRqIAIoAgggAigCDBDZBzYCBAwBCyAAQQE6AAFBACEFCyAAIAU6AAAgAkEwaiQAC+MDAQd/IwBB0AFrIgUkACAAIAE6AOgBIAAoAgAhAiAAQQI2AgACQAJAIAJBAkcEQCAFIAI2AhQgBUEYaiAAQQRqQbgB/AoAACAFQQhqIAEgBUEUahCmAwJAIAUoAggiASAAKALAASAAKALEASAFKAIMIgIoAhARAAAiCARAIAIoAgAiAARAIAEgABEDAAsgAigCBCIARQ0BIAFBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIABqSQ0DIAJBACAEIABBJ2pLGw0EIAEQnwIMAQsgAEEANgLEASAAKALUASIEQYCAgIB4ckGAgICAeEcEQCAAKALYASIGQQRrKAIAIgNBeHEiB0EEQQggA0EDcSIDGyAEakkNAyADQQAgByAEQSdqSxsNBCAGEJ8CCyAAQYCAgIB4NgLUAQJAIAAoAuABIgRFDQAgACgC5AEiBigCACIDBEAgBCADEQMACyAGKAIEIgZFDQAgBEEEaygCACIDQXhxIgdBBEEIIANBA3EiAxsgBmpJDQMgA0EAIAcgBkEnaksbDQQgBBCfAgsgACACNgLkASAAIAE2AuABCyAFQdABaiQAIAgPC0Go8sEAENAJAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL/QMCD38BfiADIAEoAhgiCiAFayIJSwRAQQAgASgCDCIIayEQIAQgCGohESAIIAUgBSAISRsiEiAIayETIAEoAiAhDSABKAIQIQ8gASkDACEWA0ACQAJAIBYgAiAJajEAAIhCAYNQBEAgASAJNgIYIAUhByAJIQogBg0CDAELIAggDSAIIAggDUsbIAYbIgdBAWsgBUkhDAJAAkADQCAHRQRAIBAgBSANIAYbIgcgCCAHIAhLG2ohDiAIIAlqIQcgEyELIBEhDAJAAkACQANAIA5FDQEgC0UNAiADIAdNDQMgDkEBayEOIAtBAWshCyACIAdqIRQgDC0AACAMQQFqIQwgB0EBaiEHIBQtAABGDQALIAogD2shCiAPIQcgBkUNBwwICyABIAk2AhggBkUEQCABIAU2AiALIAAgCjYCCCAAIAk2AgQgAEEBNgIADwsgEiAFQZiIxgAQrgcACyADIAggCWoiACAAIANJGyADQaiIxgAQrgcACyAHQQFrIQcgDEUNAiAHIAlqIgsgA08NASAEIAdqLQAAIAIgC2otAABGDQALIAcgCmogCGshCiAFIQcgBkUNAgwDCyALIANByIjGABCuBwALIAcgBUG4iMYAEK4HAAsgASAHNgIgIAchDQsgCiAFayIJIANJDQALCyABQQA2AhggAEEANgIAC+ADAQd/IwBB0AFrIgUkACAAIAE6APABIAAoAgAhAiAAQQI2AgACQAJAIAJBAkcEQCAFIAI2AgwgBUEQaiAAQQRqQcAB/AoAACAFIAEgBUEMahClAwJAIAUoAgAiASAAKALIASAAKALMASAFKAIEIgIoAhARAAAiCARAIAIoAgAiAARAIAEgABEDAAsgAigCBCIARQ0BIAFBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIABqSQ0DIAJBACAEIABBJ2pLGw0EIAEQnwIMAQsgAEEANgLMASAAKALcASIEQYCAgIB4ckGAgICAeEcEQCAAKALgASIGQQRrKAIAIgNBeHEiB0EEQQggA0EDcSIDGyAEakkNAyADQQAgByAEQSdqSxsNBCAGEJ8CCyAAQYCAgIB4NgLcAQJAIAAoAugBIgRFDQAgACgC7AEiBigCACIDBEAgBCADEQMACyAGKAIEIgZFDQAgBEEEaygCACIDQXhxIgdBBEEIIANBA3EiAxsgBmpJDQMgA0EAIAcgBkEnaksbDQQgBBCfAgsgACACNgLsASAAIAE2AugBCyAFQdABaiQAIAgPC0Go8sEAENAJAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL5QMBB38jAEHwAGsiBSQAIAAgAToAjAEgACgCGCECIABBgICAgHg2AhgCQAJAIAJBgICAgHhHBEAgBSACNgIQIAVBFGogAEEcakHcAPwKAAAgBUEIaiABIAVBEGoQrQMCQCAFKAIIIgEgACgCBCAAKAIIIAUoAgwiAigCEBEAACIIBEAgAigCACIABEAgASAAEQMACyACKAIEIgBFDQEgAUEEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAGpJDQMgAkEAIAQgAEEnaksbDQQgARCfAgwBCyAAQQA2AgggACgCeCIEQYCAgIB4ckGAgICAeEcEQCAAKAJ8IgZBBGsoAgAiA0F4cSIHQQRBCCADQQNxIgMbIARqSQ0DIANBACAHIARBJ2pLGw0EIAYQnwILIABBgICAgHg2AngCQCAAKAKEASIERQ0AIAAoAogBIgYoAgAiAwRAIAQgAxEDAAsgBigCBCIGRQ0AIARBBGsoAgAiA0F4cSIHQQRBCCADQQNxIgMbIAZqSQ0DIANBACAHIAZBJ2pLGw0EIAQQnwILIAAgAjYCiAEgACABNgKEAQsgBUHwAGokACAIDwtBqPLBABDQCQALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC5EEAQZ/IAAgASgCACIENgKoASAAIAEoAgQiBzYCrAEgAEEBIARBFnYgBEH///8BcUEAR2oiAiACQQFNG0GAECAEQQt2IARB/w9xQQBHaiICIAJBgBBPG0EBIAQbbCICQQt0NgKkASACQQ10IgUQqQkhAiAAKAKwASIDQYQITwRAIAMQhQcLIAAgAjYCsAEgBRCpCSECIAAoArQBIgNBhAhPBEAgAxCFBwsgACACNgK0ASAHBH8gBRCpCSEDQQEFQQALIQICQCAAKAIARQ0AIAAoAgQiBkGECEkNACAGEIUHCyAAIAM2AgQgACACNgIAIAdBAkkEf0EABSAFEKkJIQNBAQshAgJAIAAoAghFDQAgACgCDCIGQYQISQ0AIAYQhQcLIAAgAzYCDCAAIAI2AgggB0EDSQR/QQAFIAUQqQkhA0EBCyECAkAgACgCEEUNACAAKAIUIgZBhAhJDQAgBhCFBwsgACADNgIUIAAgAjYCECAHQQNJBH9BAAUgBRCpCSEFQQELIQICQCAAKAIYRQ0AIAAoAhwiA0GECEkNACADEIUHCyAAIAU2AhwgACACNgIYQQEhAgJAIAEtAAhBAUcEQEEAIQIMAQsgBEECdBCpCSEECwJAIAAoAjxFDQAgACgCQCIBQYQISQ0AIAEQhQcLIABCADcCuAEgACAENgJAIAAgAjYCPCAAQcABakEAOgAAC88EAgV/An4jAEEwayICJAAgASgCDCEFAkACQCAAAn8CQCAAAn8CQAJAIAEoAhQiAyABKAIQIgRJBEADQAJAIAMgBWotAAAiBkEJaw4lAAAEBAAEBAQEBAQEBAQEBAQEBAQEBAQABAQEBAQEBAQEBAQEAwQLIAEgA0EBaiIDNgIUIAMgBEcNAAsgBCEDCyACQQU2AhggAiAFIAQgA0EBaiIBIAQgASAESRsQ+gEgAkEYaiACKAIAIAIoAgQQ2QchASAAQQE2AgAgACABNgIEDAYLIAEgA0EBajYCFCACQQhqIAFBABDdAyACKQMIIghCA1ENBCACKQMQIQcCQAJAIAinQQFrDgIEAQALIAJBAzoAGCACIAc3AyAgAkEYaiACQS9qQZCLwQAQ+gYMAgsgB0IAWQ0CIAJBAjoAGCACIAc3AyAgAkEYaiACQS9qQZCLwQAQ+wYMAQsgBkEwa0H/AXFBCk8EQCABIAJBL2pBkIvBABD/ASABEJcGIQEgAEEBNgIAIAAgATYCBAwFCyACQQhqIAFBARDdAyACKQMIIghCA1EEQCAAIAIoAhA2AgQgAEEBNgIADAULIAIpAxAhBwJAAkAgCKdBAWsOAgMBAAsgAkEDOgAYIAIgBzcDICACQRhqIAJBL2pBkIvBABD6BgwBCyAHQgBZDQEgAkECOgAYIAIgBzcDICACQRhqIAJBL2pBkIvBABD7BgsgARCXBjYCBEEBDAELIAAgBzcDCEEACzYCAAwBCyAAIAIoAhA2AgQgAEEBNgIACyACQTBqJAALiwQDAX4NfwF7IAH9AAMQIRACQAJAAn8gASgCBCIJRQRAQdDsxwAhCkEAIQlBAAwBCwJAAkACQCAJQQFqrUIUfiICQiCIpw0AIAKnQQdqQXhxIgQgCUEJaiIFaiIDIARJIANB+P///wdLcg0AIAMNAUEIIQYMAgtBkLnEAEE5Qay5xAAQ2wcACyADEHEiBkUNAwsgBCAGaiEKIAEoAgAhBCAFBEAgCiAEIAX8CgAACyABKAIMIgUEQCAKQRRrIQ8gBEEIaiEDIAQpAwBCf4VCgIGChIiQoMCAf4MhAiAFIQ4gBCEGA0AgAlAEQANAIAZBoAFrIQYgAykDACADQQhqIQNCgIGChIiQoMCAf4MiAkKAgYKEiJCgwIB/UQ0ACyACQoCBgoSIkKDAgH+FIQILIAQgBiACeqdBA3ZBbGxqIgtrQWxtIQcgC0EQaygCACEMAkAgC0EMaygCACIIRQRAQQEhDQwBCyAIEHEiDUUNBAsgCARAIA0gDCAI/AoAAAsgAkIBfSACgyECIAtBCGsoAgAhDCAPIAdBFGxqIgcgC0EEay0AADoAECAHIAw2AgwgByAINgIIIAcgDTYCBCAHIAg2AgAgDkEBayIODQALCyABKAIICyEDIAAgBTYCDCAAIAM2AgggACAJNgIEIAAgCjYCACAAIBD9CwMQDwtBASAIEOEIAAsgAxDoCQAL4QMBC38jAEEQayIGJAACQAJAIAMgBGwiB0H/////A0sNACAHQQJ0IglB/f///wdPDQACQCAJRQRAQQQhC0EAIQcMAQsgCRBxIgtFDQILIAZBADYCDCAGIAs2AgggBiAHNgIEAkAgBARAIARBAXQhDwNAIAxBAnQhDiANQQF0IQcgDUEBaiENIAMhCQNAIAdBAWogAk8NAwJ/IAEgB2ovAAAiBUH//wFxBEAgBUH/B3EhCCAFQYCAAnEhCiAFQYD4AXEiBUGA+AFHBEAgCkEQdCEKIAVBDXRBgICA/ABxIAhBDXRyQYCAgMADaiAKciAFDQIaIApBgICA2ANyIAhnQRBrIgVBF3RrIAggBUH//wNxQQhqdEH///8DcXIMAgsgCkEQdCEFIAUgCEENdHJBgICA/gdyIAgNARogBUGAgID8B3IMAQsgBUEQdAshCCAGKAIEIAxGBEAgBkEEahD2BiAGKAIIIQsLIAsgDmogCDYCACAGIAxBAWoiDDYCDCAOQQRqIQ4gByAPaiEHIAlBAWsiCQ0ACyAEIA1HDQALCyAAIAYpAgQ3AgAgAEEIaiAGQQxqKAIANgIAIAZBEGokAA8LIAcgB0ECaiACQcS/xwAQ1QcACxDPCQALQQQgCRDhCAAL5wMBCH8jAEEQayIIJAACQAJAAkAgAC0AuAFFBEAgACgCZCEFDAELIAAoAqwBIAAoArABIgVBAnQgBSAAKAK0ASIFakECdBDeCCEHIAVBAnQiBiAAKAJkIgVLDQEgACgCYCEJIAggBxC7CiIKNgIIIAggBjYCDCAGIApHDQIgByAJIAYQ5AkgB0GECEkNACAHEIUHCyAAQgA3ArABIABBuAFqQQA6AAAgBSACQQJ0IgZJBEAgBSEHIAYgBWsiCSAAKAJcIAVrSwRAIABB3ABqIAUgCUEEQQQQmAYgACgCZCEHCyAAKAJgIgsgB0ECdCIMaiEKIAlBAk8EQCAGIAVBf3NqQQJ0IgYEQCAKQQAgBvwLAAsgAkEEdCAFQQJ0ayALaiAMakEEayEKIAcgCWpBAWshBwsgCkEANgIAIAdBAWohBgsgACAGNgJkAkAgACgCCEEBRw0AIAAoAmAiBSAGIAMgBCACIAAqApQBENsBIAAoAgwgAUECdCABIAJqQQJ0EN4IIgAQuwohASAIIAY2AgwgCCABNgIIIAEgBkcNAiAAIAUgBhDkCSAAQYQISQ0AIAAQhQcLIAhBEGokAA8LQQAgBiAFQYSQwQAQ1QcAC0EAIAhBCGogCEEMakEAIABBtPPEABDkBwAL5wMBCH8jAEEQayIIJAACQAJAAkAgAC0AuAFFBEAgACgCZCEFDAELIAAoAqwBIAAoArABIgVBAnQgBSAAKAK0ASIFakECdBDeCCEHIAVBAnQiBiAAKAJkIgVLDQEgACgCYCEJIAggBxC7CiIKNgIIIAggBjYCDCAGIApHDQIgByAJIAYQ5AkgB0GECEkNACAHEIUHCyAAQgA3ArABIABBuAFqQQA6AAAgBSACQQJ0IgZJBEAgBSEHIAYgBWsiCSAAKAJcIAVrSwRAIABB3ABqIAUgCUEEQQQQmAYgACgCZCEHCyAAKAJgIgsgB0ECdCIMaiEKIAlBAk8EQCAGIAVBf3NqQQJ0IgYEQCAKQQAgBvwLAAsgAkEEdCAFQQJ0ayALaiAMakEEayEKIAcgCWpBAWshBwsgCkEANgIAIAdBAWohBgsgACAGNgJkAkAgACgCEEEBRw0AIAAoAmAiBSAGIAMgBCACIAAqApgBELYDIAAoAhQgAUECdCABIAJqQQJ0EN4IIgAQuwohASAIIAY2AgwgCCABNgIIIAEgBkcNAiAAIAUgBhDkCSAAQYQISQ0AIAAQhQcLIAhBEGokAA8LQQAgBiAFQYSQwQAQ1QcAC0EAIAhBCGogCEEMakEAIABBtPPEABDkBwALvQUAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgACgCAEEBaw4YAQIDBAUGBwgJCgsMDQ4PEBESExQVFhcYAAsgASgCACAAKAIEIAAoAgggASgCBCgCDBEAAA8LIABBBGogARDIBA8LIAEoAgBBiInGAEEYIAEoAgQoAgwRAAAPCyABKAIAQaCJxgBBGyABKAIEKAIMEQAADwsgASgCAEG7icYAQRogASgCBCgCDBEAAA8LIAEoAgBB1YnGAEEZIAEoAgQoAgwRAAAPCyABKAIAQe6JxgBBDCABKAIEKAIMEQAADwsgASgCAEH6icYAQRMgASgCBCgCDBEAAA8LIAEoAgBBjYrGAEETIAEoAgQoAgwRAAAPCyABKAIAQaCKxgBBDiABKAIEKAIMEQAADwsgASgCAEGuisYAQQ4gASgCBCgCDBEAAA8LIAEoAgBBvIrGAEEMIAEoAgQoAgwRAAAPCyABKAIAQciKxgBBDiABKAIEKAIMEQAADwsgASgCAEHWisYAQQ4gASgCBCgCDBEAAA8LIAEoAgBB5IrGAEETIAEoAgQoAgwRAAAPCyABKAIAQfeKxgBBGiABKAIEKAIMEQAADwsgASgCAEGRi8YAQT4gASgCBCgCDBEAAA8LIAEoAgBBz4vGAEEUIAEoAgQoAgwRAAAPCyABKAIAQeOLxgBBNCABKAIEKAIMEQAADwsgASgCAEGXjMYAQSwgASgCBCgCDBEAAA8LIAEoAgBBw4zGAEEkIAEoAgQoAgwRAAAPCyABKAIAQeeMxgBBDiABKAIEKAIMEQAADwsgASgCAEH1jMYAQRMgASgCBCgCDBEAAA8LIAEoAgBBiI3GAEEcIAEoAgQoAgwRAAAPCyABKAIAQaSNxgBBGCABKAIEKAIMEQAAC7gDAgl/AX4CQAJAAkAgACgCBCIHRQ0AIAAoAgwiCARAIAAoAgAiAUEIaiEDIAEpAwBCf4VCgIGChIiQoMCAf4MhCgNAIApQBEADQCABQcABayEBIAMpAwAgA0EIaiEDQoCBgoSIkKDAgH+DIgpCgIGChIiQoMCAf1ENAAsgCkKAgYKEiJCgwIB/hSEKCyABIAp6p0EDdkFobGoiAkEYaygCACIEBEAgAkEUaygCACIFQQRrKAIAIgZBeHEiCUEEQQggBkEDcSIGGyAEakkNBCAGQQAgCSAEQSdqSxsNBSAFEJ8CCyACQQxrKAIAIgQEQCACQQhrKAIAIgJBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIARqSQ0EIAVBACAGIARBJ2pLGw0FIAIQnwILIApCAX0gCoMhCiAIQQFrIggNAAsLIAdBGGwiASAHakEhaiIDRQ0AIAAoAgAgAWsiAEEcaygCACIBQXhxIgJBBEEIIAFBA3EiARsgA2pJDQEgAUEAIAIgA0EnaksbDQIgAEEYaxCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvMAwEFe0EAIQUCQCAERQ0AIAEtAAAhAgJAIARBD00EQCADIQEDQCABLQAAIAJGDQIgAUEBaiEBIARBAWsiBA0ACwwCCyAC/Q8iByAD/QAAAP0j/WQiAQRAIAMgAWhqIQEMAQsgAyAEaiEGIANBcHFBEGohAQJAAkACQCAEQcAASQ0AIAEgBkFAaiIESw0AIAMgA0EPcWtBQGshAQNAIAcgAUEga/0ABAD9IyIIIAcgAUEwayIC/QAEAP0jIgn9UCAHIAFBEGv9AAQA/SMiCv1QIAcgAf0ABAD9IyIL/VD9ZA0CIAFBEGogAUFAayEBIARNDQALIAFBMGshAQsgASAGQRBrIgRLDQEDQCAHIAH9AAAA/SP9ZCICRQRAIAQgAUEQaiIBTw0BDAMLCyABIAJoaiEBDAILAkAgCf1kIgFFBEAgCP1kIgENASAK/WQiAUUEQCAL/WRoIAJBMGpqIQEMBAsgAWggAkEgamohAQwDCyACIAFoaiEBDAILIAFoIAJBEGpqIQEMAQsgASAGTw0BIAcgBkEQayIB/QAAAP0j/WQiAgRAIAEgAmhqIQEMAQsMAQsgASADayEBQQEhBQsgACABNgIEIAAgBTYCAAufCAIMfwF+IwBBMGsiAyQAAkACQCABKAIUIgUgASgCECIGSQRAIAEgBUEBaiIENgIUIAEoAgwiByAFai0AACIIQTBGBEACQCAEIAZJBEAgBCAHai0AAEEwa0H/AXFBCkkNAQsgACABIAJCABDLAgwECyADQQ02AiAgA0EIaiAHIAYgBUECaiIBIAYgASAGSRsQ+gEgA0EgaiADKAIIIAMoAgwQ2QchASAAQgM3AwAgACABNgIIDAMLIAhBMWtB/wFxQQlPBEAgA0ENNgIgIANBEGogByAGIAQQ+gEgA0EgaiADKAIQIAMoAhQQ2QchASAAQgM3AwAgACABNgIIDAMLIAhBMGutQv8BgyEPAkAgBCAGTw0AA0AgBCAHai0AAEEwayIFQf8BcSIIQQpPDQEgCEEFSyAPQpmz5syZs+bMGVJyIA9CmbPmzJmz5swZWnENAyABIARBAWoiBDYCFCAPQgp+IAWtQv8Bg3whDyAEIAZHDQALCyAAIAEgAiAPEMsCDAILIANBBTYCICADQRhqIAEoAgwgBiAFEPoBIANBIGogAygCGCADKAIcENkHIQEgAEIDNwMAIAAgATYCCAwBCyADQSBqIQcgAiEGQQAhAiMAQSBrIgUkAAJAAkACQCABKAIQIgggASgCFCIJTQ0AIAggCWshBCABKAIMIgwgCWohDQNAIAIgCWohCiACIA1qLQAAIgtBMGtB/wFxQQpPBEAgC0EuRg0DIAtBxQBHIAtB5QBHcQ0CIAcgASAGIA8gAhCOBAwECyABIApBAWo2AhQgBCACQQFqIgJHDQALIAQhAgsgByABIAYgDyACEIsFDAELIAEgCkEBaiIENgIUIAQgCEkEQCAEIAhrIQpBACEJAkADQCAEIAxqLQAAIgtBMGsiDUH/AXEiDkEKTwRAIAkEQCACIAlqIQIgC0EgckHlAEcEQCAHIAEgBiAPIAIQiwUMBgsgByABIAYgDyACEI4EDAULIAVBDTYCFCAFIAwgCCAEQQFqIgEgCCABIAhJGxD6ASAFQRRqIAUoAgAgBSgCBBDZByEBIAdBATYCACAHIAE2AgQMBAsgDkEFSyAPQpmz5syZs+bMGVJyIA9CmLPmzJmz5swZVnENASABIARBAWoiBDYCFCAJQQFrIQkgD0IKfiANrUL/AYN8IQ8gBCAIRw0ACyAHIAEgBiAPIAIgCmoQiwUMAgsgByABIAYgDyACIAlqEM8GDAELIAVBBTYCFCAFQQhqIAwgCCAKQQJqIgEgCCABIAhJGxD6ASAFQRRqIAUoAgggBSgCDBDZByEBIAdBATYCACAHIAE2AgQLIAVBIGokACADKAIgQQFGBEAgACADKAIkNgIIIABCAzcDAAwBCyAAIAMrAyg5AwggAEIANwMACyADQTBqJAALmgMBBH8CQAJAIAAoAiwiAQRAIAAoAigiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsgACgCNCIBBEAgACgCMCIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEJ8CCwJAIAAoAowBIgFFDQAgASABKAIAIgFBAWs2AgAgAUEBRw0AIAAoAowBENEFCwJAIAAoApABIgFFDQAgASABKAIAIgFBAWs2AgAgAUEBRw0AIAAoApABENEFCyAAKAI8IgEEQCAAKAI4IgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQnwILIAAoAngiAQRAIAAoAnwiAEEEaygCACIDQXhxIgIgAUEFdCIBQQRBCCADQQNxIgMbckkNASADQQAgAiABQSdqSxsNAiAAEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC50DAQp/IAAoAgAhAwJAAkACQCAAKAIMIgJFDQAgACgCBCEFIAMgACgCCCIBIANBACABIANPG2siASACaiACIAMgAWsiB0sbIgQgAUcEQCAEIAFrIQQgBSABQQxsaiEBA0AgASgCACIGBEAgAUEEaigCACIJQQRrKAIAIghBeHEiCiAGQQJ0IgZBBEEIIAhBA3EiCBtqSQ0EIAhBACAKIAZBJ2pLGw0FIAkQnwILIAFBDGohASAEQQFrIgQNAAsLIAIgB00NACACIAdrIgFBACABIAJNGyEBA0AgBSgCACICBEAgBUEEaigCACIHQQRrKAIAIgRBeHEiBiACQQJ0IgJBBEEIIARBA3EiBBtqSQ0DIARBACAGIAJBJ2pLGw0EIAcQnwILIAVBDGohBSABQQFrIgENAAsLIAMEQCAAKAIEIgBBBGsoAgAiAUF4cSICIANBDGwiA0EEQQggAUEDcSIBG2pJDQEgAUEAIAIgA0EnaksbDQIgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAv6AwEKfyMAQRBrIgQkAAJAAkACQAJAAkACQCACRQRAIABCgICAgMAANwIAIABBCGpBADYCAAwBCyACQQJ0IgYQcSIHRQ0CIAdBBGsiDC0AAEEDcUUgBkVyRQRAIAdBACAG/AsACyAGIQUDQCABKAIAIgggAk8NBiAHIAhBAnRqIAM2AgAgAUEEaiEBIANBAWohAyAFQQRrIgUNAAtBACEFIARBADYCDCAEQoCAgIDAADcCBEEEIQtBACEDA0AgAyAHIANBAnRqIggoAgAiAUcEQCAFQQN0IQkDQCAEKAIEIAVGBEAgBEEEahDpBiAEKAIIIQsLIAkgC2oiCiADNgIAIApBBGogATYCACAEIAVBAWoiBTYCDCABIAJPDQQgCCgCACEKIAggByABQQJ0aiIBKAIANgIAIAEgCjYCACAJQQhqIQkgCCgCACIBIANHDQALCyADQQFqIgMgAkcNAAsgACAEKQIENwIAIABBCGogBEEMaigCADYCACAMKAIAIgBBeHEiAUEEQQggAEEDcSIAGyAGakkNAyAAQQAgASAGQSdqSxsNBCAHEJ8CCyAEQRBqJAAPCyABIAJB2MvHABCuBwALQQQgBhDhCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyAIIAJByMvHABCuBwAL7gMCB30JfyAAIAEgAhDNAyACQQR0IQ0gBEECdCIBQXBxIQ4gAUEMakFwcSEPIAFBCGpBcHEhEEECIAQgBEECTRtBAnRBBGpBcHEhESAAKAJgIRIgACgCZCEMQQAhAUEAIQACQAJAAkACQAJAA0AgAUEDaiITIAxPDQJDAACAPyAAIBJqIgJBCGooAgAiFEEQdkH/AXGzQwAAf0OVIgYgBpJDAACAv5IiBYuTIBRBGHazQwAAf0OVIgYgBpJDAACAv5IiCouTIgaMQwAAAAAQ3QghByACQQ9qLQAAs0MAAH9DlUMAAAA/lEPbD0lAlCIIEJgCIQkgCBCbAiEIIAAgD0YNAyAAIANqIgIgCSAFIAeMIgsgByAFQwAAAABgG5IiBSAGIAaUIAUgBZQgCiALIAcgCkMAAAAAYBuSIgcgB5SSkpEiBZWUOAIAIAAgEEYNBCACQQRqIAkgByAFlZQ4AgAgACARRg0FIAJBCGogCSAGIAWVlDgCACAAIA5GDQEgAkEMaiAIOAIAIAFBBGohASANIABBEGoiAEcNAAsPCyATIARBqPvAABCuBwALIAEgAUEEaiAMQbj7wAAQ1QcACyABIARB+PrAABCuBwALIAFBAWogBEGI+8AAEK4HAAsgAUECaiAEQZj7wAAQrgcAC/IDAQh/IAEoAgQiBQRAIAEoAgAhBANAAkAgA0EBaiECAn8gAiADIARqLQAAIgjAIglBAE4NABoCQAJAAkACQAJAAkACQAJAAkACQAJAIAgtANygQkECaw4DAAECDAtB9/bAACACIARqIAIgBU8bLAAAQUBODQsgA0ECagwKC0H39sAAIAIgBGogAiAFTxssAAAhByAIQeABayIGRQ0BIAZBDUYNAgwDC0H39sAAIAIgBGogAiAFTxssAAAhBiAIQfABaw4FBAMDAwUDCyAHQWBxQaB/Rw0IDAYLIAdBn39KDQcMBQsgCUEfakH/AXFBDE8EQCAJQX5xQW5HIAdBQE5yDQcMBQsgB0FATg0GDAQLIAlBD2pB/wFxQQJLIAZBQE5yDQUMAgsgBkHwAGpB/wFxQTBPDQQMAQsgBkGPf0oNAwtB9/bAACAEIANBAmoiAmogAiAFTxssAABBv39KDQJB9/bAACAEIANBA2oiAmogAiAFTxssAABBv39KDQIgA0EEagwBC0H39sAAIAQgA0ECaiICaiACIAVPGywAAEFATg0BIANBA2oLIgMiAiAFSQ0BCwsgACADNgIEIAAgBDYCACABIAUgAms2AgQgASACIARqNgIAIAAgAiADazYCDCAAIAMgBGo2AggPCyAAQQA2AgAL9AMBBn8jAEEQayICJAAgAkEANgIEAn8CQCABQYABTwRAIAFBP3FBgH9yIQMgAUEGdiEEIAFBgBBJDQEgAUEMdiEGIARBP3FBgH9yIQQgAUGAgARPBEAgAiADOgAHIAIgBDoABiACIAZBP3FBgH9yOgAFIAIgAUESdkFwcjoABEEEDAMLIAIgAzoABiACIAQ6AAUgAiAGQeABcjoABEEDDAILIAIgAToABEEBDAELIAIgAzoABSACIARBwAFyOgAEQQILIQEgAkEIaiAAKAIIKAIAIAJBBGogARCoBAJAAkACQAJAIAItAAgiBkEERwRAIAAoAgQhASAALQAAIgNBBE0gA0EDR3FFBEAgASgCACEDIAFBBGooAgAiBCgCACIFBEAgAyAFEQMACyAEKAIEIgQEQCADQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyAEakkNAyAFQQAgByAEQSdqSxsNBCADEJ8CCyABQQRrKAIAIgNBeHEiBEEQQRQgA0EDcSIDG0kNBCADQQAgBEE0TxsNBSABEJ8CCyAAIAIpAwg3AgALIAJBEGokACAGQQRHDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC98DAQt/IwBBEGsiCCQAAkACQAJAAkACQCADIARsIgdB/////wNLDQAgB0ECdCIKQf3///8HTw0AAkAgCkUEQEEEIQtBACEHDAELIAoQcSILRQ0CCyAIQQA2AgwgCCALNgIIIAggBzYCBCADEHEiDEUNAiAMQQRrIhAoAgAiCUEDcSIHRSADRXJFBEAgDEEAIAP8CwALAkAgBARAIAYgBZMhBkEAIQcDQCANQQJ0IQ4gB0EBaiADIQ8gDCEJA0AgAiAHTQ0DIAkgASAHai0AACAJLQAAaiIROgAAIAgoAgQgDUYEQCAIQQRqEPYGIAgoAgghCwsgCyAOaiAFIAYgEUH/AXGzQwAAf0OVlJI4AgAgCCANQQFqIg02AgwgCUEBaiEJIA5BBGohDiAEIAdqIQcgD0EBayIPDQALIgcgBEcNAAsgECgCACIJQQNxIQcLIAAgCCkCBDcCACAAQQhqIAhBDGooAgA2AgAgCUF4cSIAQQRBCCAHGyADakkNBCAHQQAgACADQSdqSxsNBSAMEJ8CIAhBEGokAA8LIAcgAkH0wMcAEK4HAAsQzwkAC0EEIAoQ4QgAC0EBIAMQ4QgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAuiBAICfwF+AkACQCAAQucHWARAQRQhAiAAIQQMAQsgASAAIABCkM4AgCIEQpDOAH59pyICQf//A3FB5ABuIgNBAXQvAMCmRTsAECABIAIgA0HkAGxrQf//A3FBAXQvAMCmRTsAEiAAQv+s4gRYBEBBECECDAELIAEgBEKQzgCCpyICQeQAbiIDQQF0LwDApkU7AAwgASACIANB5ABsa0H//wNxQQF0LwDApkU7AA4gAEKAwtcvgCEEIABCgNDbw/QCVARAQQwhAgwBCyABIARCkM4AgqciAkHkAG4iA0EBdC8AwKZFOwAIIAEgAiADQeQAbGtB//8DcUEBdC8AwKZFOwAKIABCgKCUpY0dgCEEIABCgICapuqv4wFUBEBBCCECDAELIAEgBEKQzgCCpyICQeQAbiIDQQF0LwDApkU7AAQgASACIANB5ABsa0H//wNxQQF0LwDApkU7AAYgAEKAgIT+pt7hEYAhBCAAQoCAoM/I4Mjjin9UBEBBBCECDAELIAEgBKciAkHkAG4iA0EBdC8AwKZFOwAAIAEgAiADQeQAbGtB//8DcUEBdC8AwKZFOwACQQAhAkIAIQQMAQsgBEIJWA0AIAEgAkECayICaiAEpyIDIANB//8DcUHkAG4iA0HkAGxrQf//A3FBAXQvAMCmRTsAACADrSEECyAAUEUgBFBxRQRAIAEgAkEBayICaiAEp0EBdC0AwaZFOgAACyACC7cEAQN/IwBBEGsiBSQAAkACQAJAAkAgAC0A8AFBBkcEQCAAKALoASIERQ0BIAQgASACIAAoAuwBKAIQEQAAIQIMBAsgACgCxAEgACgCzAEiA2sgAkkEQCAAQcQBaiADIAJBAUEBEJgGIAAoAswBIQMLIAAoAsgBIQQgAgRAIAMgBGogASAC/AoAAAsgACACIANqIgE2AswBQQAhAiABQQRJDQMCQAJAAkAgBC8AACAELQACQRB0ciIDQZ+WIkcEQCADQfDY5QNGBEAgAEEAENIDIQIMCAsgAyAELQADQRh0ciIBQdCWjSBGDQEgAUHSgpGCA0cgAUHSgpGaBEdxDQYgAEEFENIDIQIMBwsgACgC3AFBgICAgHhGDQEgACgC5AEhAQwCCyAAKALQAUGAgICAeEcNAwwECyAFQQRqIAQgARD/AiAFKAIIIQQgBSgCBCIDQYGAgIB4RgRAIAQhAgwFCyAAIAUoAgwiATYC5AEgACAENgLgASAAIAM2AtwBIANBgICAgHhGDQQLIAFBBEkNAiAAKALgASgAAEHOjs2CBUcNAiAAQQEQ0gMhAgwDC0Ggx8EAENAJAAsgACgC1AEgACgC2AEQe0H/AXFBBEcNACAAQQQQ0gMhAgwBCwJAIAAoAtABQYCAgIB4RwRAIAAoAtQBIAAoAtgBEHtB/wFxIgFBBkYNASAAIAEQ0gMhAgwCC0Gwx8EAQREQ+QchAgwBC0Gwx8EAQREQ+QchAgsgBUEQaiQAIAILtwQBA38jAEEQayIFJAACQAJAAkACQCAALQDoAUEGRwRAIAAoAuABIgRFDQEgBCABIAIgACgC5AEoAhARAAAhAgwECyAAKAK8ASAAKALEASIDayACSQRAIABBvAFqIAMgAkEBQQEQmAYgACgCxAEhAwsgACgCwAEhBCACBEAgAyAEaiABIAL8CgAACyAAIAIgA2oiATYCxAFBACECIAFBBEkNAwJAAkACQCAELwAAIAQtAAJBEHRyIgNBn5YiRwRAIANB8NjlA0YEQCAAQQAQ0AMhAgwICyADIAQtAANBGHRyIgFB0JaNIEYNASABQdKCkYIDRyABQdKCkZoER3ENBiAAQQUQ0AMhAgwHCyAAKALUAUGAgICAeEYNASAAKALcASEBDAILIAAoAsgBQYCAgIB4Rw0DDAQLIAVBBGogBCABEP8CIAUoAgghBCAFKAIEIgNBgYCAgHhGBEAgBCECDAULIAAgBSgCDCIBNgLcASAAIAQ2AtgBIAAgAzYC1AEgA0GAgICAeEYNBAsgAUEESQ0CIAAoAtgBKAAAQc6OzYIFRw0CIABBARDQAyECDAMLQaDHwQAQ0AkACyAAKALMASAAKALQARB7Qf8BcUEERw0AIABBBBDQAyECDAELAkAgACgCyAFBgICAgHhHBEAgACgCzAEgACgC0AEQe0H/AXEiAUEGRg0BIAAgARDQAyECDAILQbDHwQBBERD5ByECDAELQbDHwQBBERD5ByECCyAFQRBqJAAgAgvlAwIEfwR+IwBB0ABrIgMkACAD/QwAAAAAAAAAAAAAAAAAAAAA/QsDOCADIAE3AzAgAyABQvPK0cunjNmy9ACFNwMgIAMgAULt3pHzlszct+QAhTcDGCADIAA3AyggAyAAQuHklfPW7Nm87ACFNwMQIAMgAEL1ys2D16zbt/MAhTcDCCADIAItAAAiBTYCTCADQQhqIgQgA0HMAGoiBkEEEIIDIAVBC0YEQCADQQQ2AkwgBCAGQQQQggMgBCACQQFqQQQQggMLIAMpAwghASADKQMYIQAgAzUCQCEJIAMpAzghByADKQMgIAMpAxAhCiADQdAAaiQAIAcgCUI4hoQiCYUiB0IQiSAHIAp8IgeFIghCFYkgCCAAIAF8IgFCIIl8IgiFIgpCEIkgCiAHIABCDYkgAYUiAHwiAUIgiUL/AYV8IgeFIgpCFYkgCiABIABCEYmFIgAgCCAJhXwiAUIgiXwiCYUiCEIQiSAIIAEgAEINiYUiACAHfCIBQiCJfCIHhSIIQhWJIAggASAAQhGJhSIAIAl8IgFCIIl8IgmFIghCEIkgCCAAQg2JIAGFIgAgB3wiAUIgiXwiB4VCFYkgAEIRiSABhSIAQg2JIAAgCXyFIgBCEYmFIAAgB3wiAEIgiYUgAIULkgQBB38jAEEQayIJJABBCCEEIAEoAiQiAyEGIAFBBGoiBSEHIANBCU8EQCABKAIEIQYgASgCCCEHIAMhBAsCQAJAAkACQCACIAZPBEACQAJAAkACQAJAIAJBCU8EQEGBgICAeCEIIAIgBEYNCkEAIQggAkH/////A0sgAkECdCIFQfz///8HS3INCiADQQlJDQIgBEECdCEDIARB/////wNNDQEgAyEFDAoLQYGAgIB4IQggA0EJSQ0JIAFBADYCACAGQQJ0IgIEQCAFIAcgAvwKAAALIAEgBjYCJCAEQQJ0IgNB/f///wdJIARB/////wNNcQ0EIAkgAzYCDCAJQQA2AghBgLjIAEErIAlBCGpB6MLBAEGgrMcAEIkHAAsgA0H9////B0kNASADIQUMCAsgBRBxIgQNAUEEIQgMBwtBBCEIIAcgA0EEIAUQuQIiBEUNBgwFCyAGQQJ0IgNFDQQgBCAHIAP8CgAADAQLIAdBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIANqSQ0BIAFBACACIANBJ2pLGw0CIAcQnwIMBAtB0KzHAEEgQfCsxwAQ5wgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsgASACNgIkIAEgBDYCCCABIAY2AgQgAUEBNgIAQYGAgIB4IQgLIAAgBTYCBCAAIAg2AgAgCUEQaiQAC5IEAQd/IwBBEGsiCSQAQQQhBCABKAIUIgMhBiABQQRqIgUhByADQQVPBEAgASgCBCEGIAEoAgghByADIQQLAkACQAJAAkAgAiAGTwRAAkACQAJAAkACQCACQQVPBEBBgYCAgHghCCACIARGDQpBACEIIAJB/////wNLIAJBAnQiBUH8////B0tyDQogA0EFSQ0CIARBAnQhAyAEQf////8DTQ0BIAMhBQwKC0GBgICAeCEIIANBBUkNCSABQQA2AgAgBkECdCICBEAgBSAHIAL8CgAACyABIAY2AhQgBEECdCIDQf3///8HSSAEQf////8DTXENBCAJIAM2AgwgCUEANgIIQYC4yABBKyAJQQhqQejCwQBBoKzHABCJBwALIANB/f///wdJDQEgAyEFDAgLIAUQcSIEDQFBBCEIDAcLQQQhCCAHIANBBCAFELkCIgRFDQYMBQsgBkECdCIDRQ0EIAQgByAD/AoAAAwECyAHQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyADakkNASABQQAgAiADQSdqSxsNAiAHEJ8CDAQLQdCsxwBBIEHwrMcAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIAEgAjYCFCABIAQ2AgggASAGNgIEIAFBATYCAEGBgICAeCEICyAAIAU2AgQgACAINgIAIAlBEGokAAuSBAEHfyMAQRBrIgkkAEEIIQQgASgCJCIDIQYgAUEEaiIFIQcgA0EJTwRAIAEoAgQhBiABKAIIIQcgAyEECwJAAkACQAJAIAIgBk8EQAJAAkACQAJAAkAgAkEJTwRAQYGAgIB4IQggAiAERg0KQQAhCCACQf////8DSyACQQJ0IgVB/P///wdLcg0KIANBCUkNAiAEQQJ0IQMgBEH/////A00NASADIQUMCgtBgYCAgHghCCADQQlJDQkgAUEANgIAIAZBAnQiAgRAIAUgByAC/AoAAAsgASAGNgIkIARBAnQiA0H9////B0kgBEH/////A01xDQQgCSADNgIMIAlBADYCCEGAuMgAQSsgCUEIakGQrMcAQaCsxwAQiQcACyADQf3///8HSQ0BIAMhBQwICyAFEHEiBA0BQQQhCAwHC0EEIQggByADQQQgBRC5AiIERQ0GDAULIAZBAnQiA0UNBCAEIAcgA/wKAAAMBAsgB0EEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgA2pJDQEgAUEAIAIgA0EnaksbDQIgBxCfAgwEC0HQrMcAQSBB8KzHABDnCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyABIAI2AiQgASAENgIIIAEgBjYCBCABQQE2AgBBgYCAgHghCAsgACAFNgIEIAAgCDYCACAJQRBqJAALkgQBB38jAEEQayIJJABBBCEEIAEoAhQiAyEGIAFBBGoiBSEHIANBBU8EQCABKAIEIQYgASgCCCEHIAMhBAsCQAJAAkACQCACIAZPBEACQAJAAkACQAJAIAJBBU8EQEGBgICAeCEIIAIgBEYNCkEAIQggAkH/////A0sgAkECdCIFQfz///8HS3INCiADQQVJDQIgBEECdCEDIARB/////wNNDQEgAyEFDAoLQYGAgIB4IQggA0EFSQ0JIAFBADYCACAGQQJ0IgIEQCAFIAcgAvwKAAALIAEgBjYCFCAEQQJ0IgNB/f///wdJIARB/////wNNcQ0EIAkgAzYCDCAJQQA2AghBgLjIAEErIAlBCGpBkKzHAEGgrMcAEIkHAAsgA0H9////B0kNASADIQUMCAsgBRBxIgQNAUEEIQgMBwtBBCEIIAcgA0EEIAUQuQIiBEUNBgwFCyAGQQJ0IgNFDQQgBCAHIAP8CgAADAQLIAdBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIANqSQ0BIAFBACACIANBJ2pLGw0CIAcQnwIMBAtB0KzHAEEgQfCsxwAQ5wgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsgASACNgIUIAEgBDYCCCABIAY2AgQgAUEBNgIAQYGAgIB4IQgLIAAgBTYCBCAAIAg2AgAgCUEQaiQAC5UEAQd/IwBBEGsiCSQAQSAhBCABKAKEASIDIQYgAUEEaiIFIQcgA0EhTwRAIAEoAgQhBiABKAIIIQcgAyEECwJAAkACQAJAIAIgBk8EQAJAAkACQAJAAkAgAkEhTwRAQYGAgIB4IQggAiAERg0KQQAhCCACQf////8DSyACQQJ0IgVB/P///wdLcg0KIANBIUkNAiAEQQJ0IQMgBEH/////A00NASADIQUMCgtBgYCAgHghCCADQSFJDQkgAUEANgIAIAZBAnQiAgRAIAUgByAC/AoAAAsgASAGNgKEASAEQQJ0IgNB/f///wdJIARB/////wNNcQ0EIAkgAzYCDCAJQQA2AghBgLjIAEErIAlBCGpBkKzHAEGgrMcAEIkHAAsgA0H9////B0kNASADIQUMCAsgBRBxIgQNAUEEIQgMBwtBBCEIIAcgA0EEIAUQuQIiBEUNBgwFCyAGQQJ0IgNFDQQgBCAHIAP8CgAADAQLIAdBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIANqSQ0BIAFBACACIANBJ2pLGw0CIAcQnwIMBAtB0KzHAEEgQfCsxwAQ5wgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsgASACNgKEASABIAQ2AgggASAGNgIEIAFBATYCAEGBgICAeCEICyAAIAU2AgQgACAINgIAIAlBEGokAAuHBAIEfwJ9IwBBEGshASAAvCIDQR92IQQCQAJ9IAACfwJAAkACQCADQf////8HcSICQdDYupUETwRAIAJBgICA/AdLBEAgAA8LIAJBl+TFlQRNBEAgA0EATg0CIAFDAACAgCAAlTgCCCABKgIIGgwCCyADQQBIBEAgAUMAAICAIACVOAIIIAEqAggaIAJBtOO/lgRNDQIMBwsgAEMAAAB/lA8LIAJBmOTF9QNNBEAgAkGAgIDIA00NAkEAIQEgAAwFCyACQZKrlPwDTQ0CCyAAQzuquD+UIARBAnQqAuCESZL8AAwCCyABIABDAAAAf5I4AgwgASoCDBogAEMAAIA/kg8LIARFIARrCyIBsiIFQwByMb+UkiIAIAVDjr6/NZQiBpMLIQUgACAFIAUgBSAFlCIAIABDFVI1u5RDj6oqPpKUkyIAlEMAAABAIACTlSAGk5JDAACAP5IhBSABRQ0AAkACQAJAIAFB/wBMBEAgAUGCf04NAyAFQwAAgAyUIQUgAUGbfk0NASABQeYAaiEBDAMLIAVDAAAAf5QhBSABQf4BSw0BIAFB/wBrIQEMAgsgBUMAAIAMlCEFQbZ9IAEgAUG2fU0bQcwBaiEBDAELIAVDAAAAf5QhBUH9AiABIAFB/QJPG0H+AWshAQsgBSABQRd0QYCAgPwDakGAgID8B3G+lCEFCyAFC58EAQN/IwBBEGsiBSQAAkACQAJAAkAgAC0AbEEGRwRAIAAoAmQiBEUNASAEIAEgAiAAKAJoKAIQEQAAIQIMBAsgACgCACAAKAIIIgNrIAJJBEAgACADIAJBAUEBEJgGIAAoAgghAwsgACgCBCEEIAIEQCADIARqIAEgAvwKAAALIAAgAiADaiIBNgIIQQAhAiABQQRJDQMCQAJAAkAgBC8AACAELQACQRB0ciIDQZ+WIkcEQCADQfDY5QNGBEAgAEEAEL4DIQIMCAsgAyAELQADQRh0ciIBQdCWjSBGDQEgAUHSgpGCA0cgAUHSgpGaBEdxDQYgAEEFEL4DIQIMBwsgACgCWEGAgICAeEYNASAAKAJgIQEMAgsgACgCDEGAgICAeEcNAwwECyAFQQRqIAQgARD/AiAFKAIIIQQgBSgCBCIDQYGAgIB4RgRAIAQhAgwFCyAAIAUoAgwiATYCYCAAIAQ2AlwgACADNgJYIANBgICAgHhGDQQLIAFBBEkNAiAAKAJcKAAAQc6OzYIFRw0CIABBARC+AyECDAMLQaDHwQAQ0AkACyAAKAIQIAAoAhQQe0H/AXFBBEcNACAAQQQQvgMhAgwBCwJAIAAoAgxBgICAgHhHBEAgACgCECAAKAIUEHtB/wFxIgFBBkYNASAAIAEQvgMhAgwCC0Gwx8EAQREQ+QchAgwBC0Gwx8EAQREQ+QchAgsgBUEQaiQAIAILpAQBA38jAEEQayIFJAACQAJAAkACQCAALQCMAUEGRwRAIAAoAoQBIgRFDQEgBCABIAIgACgCiAEoAhARAAAhAgwECyAAKAIAIAAoAggiA2sgAkkEQCAAIAMgAkEBQQEQmAYgACgCCCEDCyAAKAIEIQQgAgRAIAMgBGogASAC/AoAAAsgACACIANqIgE2AghBACECIAFBBEkNAwJAAkACQCAELwAAIAQtAAJBEHRyIgNBn5YiRwRAIANB8NjlA0YEQCAAQQAQ0wMhAgwICyADIAQtAANBGHRyIgFB0JaNIEYNASABQdKCkYIDRyABQdKCkZoER3ENBiAAQQUQ0wMhAgwHCyAAKAJ4QYCAgIB4Rg0BIAAoAoABIQEMAgsgACgCDEGAgICAeEcNAwwECyAFQQRqIAQgARD/AiAFKAIIIQQgBSgCBCIDQYGAgIB4RgRAIAQhAgwFCyAAIAUoAgwiATYCgAEgACAENgJ8IAAgAzYCeCADQYCAgIB4Rg0ECyABQQRJDQIgACgCfCgAAEHOjs2CBUcNAiAAQQEQ0wMhAgwDC0Ggx8EAENAJAAsgACgCECAAKAIUEHtB/wFxQQRHDQAgAEEEENMDIQIMAQsCQCAAKAIMQYCAgIB4RwRAIAAoAhAgACgCFBB7Qf8BcSIBQQZGDQEgACABENMDIQIMAgtBsMfBAEEREPkHIQIMAQtBsMfBAEEREPkHIQILIAVBEGokACACC6cEAQR/IwBBMGsiAiQAAkACQAJAAkACQAJAAkACQAJAAkACQEEBIAEtAAAiA0EkayADQSNNG0H/AXFBAWsOAwMBAgALIABBBTYCACAAIAEpAgQ3AgQMCQsgAiAB/QACAP0LAwAgAkEANgIYIAJCgICAgBA3AhAgAkHMucQANgIgIAJCoICAgAY3AiQgAiACQRBqNgIcIAIgAkEcahC1BQ0CIAAgAikCEDcCBCAAQQxqIAJBGGooAgA2AgAgAEECNgIAIABBADYCECACLQAAQSRHDQggAi0ABEEDRw0IIAIoAggiACgCACEBIABBBGooAgAiAygCACIEBEAgASAEEQMACyADKAIEIgMEQCABQQRrKAIAIgRBeHEiBUEEQQggBEEDcSIEGyADakkNBCAEQQAgBSADQSdqSxsNBSABEJ8CCyAAQQRrKAIAIgFBeHEiA0EQQRQgAUEDcSIBG0kNBSABQQAgA0E0TxsNBiAAEJ8CDAgLIABBAzYCACAAQgM3AwgMBwtBEBBxIgNFDQUgAEGQv8QANgIYIAAgAzYCFCAAQQA7AQQgAEEANgIAIAMgAf0AAgD9CwIADAYLQdCHxgBBNyACQS9qQeS5xABBiIjGABCJBwALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBEBDoCQALIAJBMGokAAuPAwEEfwJAAkACQCAALQAAIgFBBEYgAUECRnINACAAKAIEIgFFDQAgACgCCCIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEJ8CCwJAIAAtABAiAUEERiABQQJGcg0AIAAoAhQiAUUNACAAKAIYIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQnwILAkAgAC0AICIBQQRGIAFBAkZyDQAgACgCJCIBRQ0AIAAoAigiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsCQCAALQAwIgFBBEYgAUECRnINACAAKAI0IgFFDQAgACgCOCIAQQRrKAIAIgNBeHEiAkEEQQggA0EDcSIDGyABakkNASADQQAgAiABQSdqSxsNAiAAEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC98DAgR/BH4jAEHQAGsiAyQAIAP9DAAAAAAAAAAAAAAAAAAAAAD9CwM4IAMgATcDMCADIAFC88rRy6eM2bL0AIU3AyAgAyABQu3ekfOWzNy35ACFNwMYIAMgADcDKCADIABC4eSV89bs2bzsAIU3AxAgAyAAQvXKzYPXrNu38wCFNwMIIAMgAi0AACIFNgJMIANBCGoiBCADQcwAaiIGEIoEIAVBC0YEQCADQQQ2AkwgBCAGEIoEIAQgAkEBahCKBAsgAykDCCEBIAMpAxghACADNQJAIQkgAykDOCEHIAMpAyAgAykDECEKIANB0ABqJAAgByAJQjiGhCIJhSIHQhCJIAcgCnwiB4UiCEIViSAIIAAgAXwiAUIgiXwiCIUiCkIQiSAKIAcgAEINiSABhSIAfCIBQiCJQv8BhXwiB4UiCkIViSAKIAEgAEIRiYUiACAIIAmFfCIBQiCJfCIJhSIIQhCJIAggASAAQg2JhSIAIAd8IgFCIIl8IgeFIghCFYkgCCABIABCEYmFIgAgCXwiAUIgiXwiCYUiCEIQiSAIIABCDYkgAYUiACAHfCIBQiCJfCIHhUIViSAAQhGJIAGFIgBCDYkgACAJfIUiAEIRiYUgACAHfCIAQiCJhSAAhQuOBAEFfyMAQSBrIgMkAAJAAkACQCAAKAIAIgFFDQADQAJAIAAoAggiAiAAKAIETw0AIAEgAmotAABBxQBHDQAgACACQQFqNgIIDAILAkAgBEUNACAAKAIQIgFFDQAgAUHnnsUAQQMQmAMNAwsgABCBBUH/AXEiAUECRg0CA0ACQAJAAkACQAJAIAAoAgAiBUUNACAAKAIIIgIgACgCBE8NACACIAVqLQAAQfAARw0AIAAgAkEBajYCCCABQQFxDQEgACgCECIBRQ0CIAFBy57FAEEBEJgDDQgMAgsgAUEBcUUNAiAAKAIQIgJFDQJBASEBIAJB0J7FAEEBEJgDRQ0CDAgLIAAoAhAiAUUNACABQZf8xQBBAhCYAw0GCyAAKAIADQEgACgCECICRQ0AQQEhASACQbeexQBBARCYAw0GCyAEQQFqIQQgACgCACIBDQIMAwsgAyAAEOsCIAMoAgBFBEAgAy0ABCEEIAAoAhAiAgRAQQEhASACQZ6exQBBjp7FACAEQQFxIgIbQRlBECACGxCYAw0GCyAAIAQ6AARBACEBIABBADYCAAwFCyADIAP9AAIA/QsDEAJAIAAoAhAiAUUNACADQRBqIAEQiQINBCAAKAIQIgFFDQAgAUGrn8UAQQMQmAMNBAtBASEBIAAQgwJFDQALCwwBC0EAIQEMAQtBASEBCyADQSBqJAAgAQvTAwEEfwJAAkACQAJAAkAgAkEHTQRAIAINAQwFCyABQQNqQXxxIgQgAUYNASAEIAFrIQUgASAEayEGQQEhAyABIQQDQCAELQAAQS5GDQUgBEEBaiEEIAZBAWoiBg0ACyAFIAJBCGsiA0sNAwwCC0EBIQMgAS0AAEEuRg0DIAJBAUYEQEEAIQMMBAsgAS0AAUEuRg0DIAJBAkYEQEEAIQMMBAsgAS0AAkEuRg0DIAJBA0YEQEEAIQMMBAsgAS0AA0EuRg0DIAJBBEYEQEEAIQMMBAsgAS0ABEEuRg0DIAJBBUYEQEEAIQMMBAsgAS0ABUEuRg0DQQAhAyACQQZGDQMgAS0ABkEuRiEDDAMLIAJBCGshAwsDQEGAgoQIIAEgBWoiBCgCACIGQa7cuPECc2sgBnJBgIKECCAEQQRqKAIAIgRBrty48QJzayAEcnFBgIGChHhxQYCBgoR4Rw0BIAVBCGoiBSADTQ0ACwsgAiAFRgRAQQAhAwwBCyABIAVqIQQgBUF/cyACaiEGA0AgBC0AAEEuRiIDDQEgBEEBaiEEIAYiBUEBayEGIAUNAAsLIAAgAyAALQAEcjoABCAAKAIAIgAoAgAgASACIAAoAgQoAgwRAAALvQQBBX8jAEEgayIBJAACQAJAAkACQAJAA0AgABDABSAAKAIIIgIgACgCBCIDRg0BIAIgA08NAiAAKAIAIgUgAmotAAAiBEHcAEcEQCAEQSJHBEAgAUEQNgIUIAAgAUEUahDfByEADAcLIAAgAkEBajYCCEEAIQAMBgsgACACQQFqIgQ2AggCQAJAAn8gAyAESwRAIAAgAkECaiICNgIIIAQgBWotAAAMAQsgAUEENgIUIAFBDGogACABQRRqEMcHIAEtAAwNBiAEIQIgAS0ADQtBImsOVAIAAAAAAAAAAAAAAAACAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACAAAAAAACAAAAAgAAAAAAAAACAAAAAgACAQALIAFBDDYCFCAAIAFBFGoQ3wchAAwGCyACIANLDQQCQCADIAJrQQNNBEAgACADNgIIIAFBBDYCFCABQQxqIAAgAUEUahDIBwwBCyAAIAJBBGo2AgggAiAFaiICLQABQQF0LwHA/UUgAi0AAEEBdC8BwIFGciACLQACQQF0LwHAgUZyIAItAANBAXQvAcD9RXLBQQBOBEAgAUEAOwEMDAELIAFBDDYCFCABQQxqIAAgAUEUahDIBwsgAS8BDEEBRw0ACyABKAIQIQAMBAsgAUEENgIUIAAgAUEUahDfByEADAMLIAIgA0G8jcYAEK4HAAsgASgCECEADAELIAIgAyADQcyNxgAQ1QcACyABQSBqJAAgAAvhAwMCfwV+AXsgACkDOCEHIAApAygiBCEGAkACQAJAAkACQAJAIAQgACkDCCIFUg0AIAApAzAiBiAAKQMQIgVSDQAgByEGIAcgACkDGCIFUQ0BCyAFIAZYDQAgAEEwaiECQQIhAwNAIAJBKGopAwAhBiACQRhqKQMAIgghBQJAIAQgCFINACACQSBqKQMAIgUgAikDACIEUg0AIAchBCAGIgUgB1ENAwsgBCAFWA0CIAJBIGohAiAGIQcgCCEEIAEgA0EBaiIDRw0ACwwCCyAAQTBqIQJBAiEDA0ACQCACQShqKQMAIQYgAkEYaikDACIIIQUCQAJAIAQgCFINACACQSBqKQMAIgUgAikDACIEUg0AIAchBCAGIgUgB1ENAQsgBCAFVg0BCyACQSBqIQIgBiEHIAghBCABIANBAWoiA0cNAQwFCwsgASADRg0DDAILIAEgA0cNAQsgAUEBdiEDIAFBBXQgAGpBIGshAgNAIAD9AAMAIQkgACAC/QADAP0LAwAgAiAJ/QsDACAAQRBqIgH9AAMAIQkgASACQRBqIgH9AAMA/QsDACABIAn9CwMAIAJBIGshAiAAQSBqIQAgA0EBayIDDQALDAELIAAgAUEAIAFBAXJnQQF0QT5zEKkBCwvSAwELfyMAQRBrIgckAAJAAkACQAJAAkAgAyAEbCIGQf////8DSw0AIAZBAnQiCUH9////B08NAAJAIAlFBEBBBCEKQQAhBgwBCyAJEHEiCkUNAgsgB0EANgIMIAcgCjYCCCAHIAY2AgQgAxBxIgtFDQIgC0EEayIPKAIAIghBA3EiBkUgA0VyRQRAIAtBACAD/AsACwJAIAQEQEEAIQYDQCAMQQJ0IQ0gBkEBaiADIQ4gCyEIA0AgAiAGTQ0DIAggASAGai0AACAILQAAaiIQOgAAIAcoAgQgDEYEQCAHQQRqEPYGIAcoAgghCgsgCiANaiAFIBDAskMAAP5ClZQ4AgAgByAMQQFqIgw2AgwgCEEBaiEIIA1BBGohDSAEIAZqIQYgDkEBayIODQALIgYgBEcNAAsgDygCACIIQQNxIQYLIAAgBykCBDcCACAAQQhqIAdBDGooAgA2AgAgCEF4cSIAQQRBCCAGGyADakkNBCAGQQAgACADQSdqSxsNBSALEJ8CIAdBEGokAA8LIAYgAkGEwccAEK4HAAsQzwkAC0EEIAkQ4QgAC0EBIAMQ4QgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvdAwIHfwF+IwBBQGoiAyQAAkAgABBcIgINACAAKALcBCIBQYGAgIB4RiIERQRAAkACQCABQYCAgIB4RgRAQQAgACAEGyEFIAAoAggiBkEGdCECIAAoAgQiB0E8aiEBAkADQCABIQQgAkUNASACQUBqIQIgAUFAayEBIAQtAABBAUcNAAsgBEE8ayIBKAI4IAEoAiAiBEcNAyAEIAAoAuwCRw0DCyAGQQZ0IQIgB0E8aiEBA0AgASEEIAJFDQIgAkFAaiECIAFBQGshASAELQAAQQJHDQALIARBPGsiASgCOCABKAIgRg0BIANCgICAgBAiCCABQThqrYQ3AzggAyAIIAFBIGqthDcDMCADQSRqIgBBloXAACADQTBqEPUGIAAQgAghAgwECyAAKAKABCAAKAL4A0YNACADQoCAgIAQIgggAEGABGqthDcDOCADIAggAEH4A2qthDcDMCADQQxqIgBB+4TAACADQTBqEPUGIAAQgAghAgwDCyAAQfQEahCjASECDAILIANCgICAgBAiCCABQThqrYQ3AzggAyAIIAVB7AJqrYQ3AzAgA0EYaiIAQfuEwAAgA0EwahD1BiAAEIAIIQIMAQtBnMLBAEEQEPkHIQILIANBQGskACACC90DAgd/AX4jAEFAaiIDJAACQCAAEF0iAg0AIAAoAtwEIgFBgYCAgHhGIgRFBEACQAJAIAFBgICAgHhGBEBBACAAIAQbIQUgACgCCCIGQQZ0IQIgACgCBCIHQTxqIQECQANAIAEhBCACRQ0BIAJBQGohAiABQUBrIQEgBC0AAEEBRw0ACyAEQTxrIgEoAjggASgCICIERw0DIAQgACgC7AJHDQMLIAZBBnQhAiAHQTxqIQEDQCABIQQgAkUNAiACQUBqIQIgAUFAayEBIAQtAABBAkcNAAsgBEE8ayIBKAI4IAEoAiBGDQEgA0KAgICAECIIIAFBOGqthDcDOCADIAggAUEgaq2ENwMwIANBJGoiAEGWhcAAIANBMGoQ9QYgABCACCECDAQLIAAoAoAEIAAoAvgDRg0AIANCgICAgBAiCCAAQYAEaq2ENwM4IAMgCCAAQfgDaq2ENwMwIANBDGoiAEH7hMAAIANBMGoQ9QYgABCACCECDAMLIABB9ARqENgBIQIMAgsgA0KAgICAECIIIAFBOGqthDcDOCADIAggBUHsAmqthDcDMCADQRhqIgBB+4TAACADQTBqEPUGIAAQgAghAgwBC0GcwsEAQRAQ+QchAgsgA0FAayQAIAIL6AMCBX8BfiMAQTBrIgUkAAJAAkACQAJAAkACQAJAIAEgAigCLBETACIIQv////8PWARAIAinIgNBAE4NAQsgAEIDNwMIIABBAzYCACACKAIAIgAEQCABIAARAwALIAIoAgQiAEUNASABQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyAAakkNAiACQQAgAyAAQSdqSxsNAyABEJ8CDAELIANBAXYhBwJ/IANB/v///wdxIgZFBEBBAiEEQQAMAQsgBhBxIgRFDQQgBEEEay0AAEEDcUUgBkVyRQRAIARBACAG/AsACyAHCyEDIAVBCGogASAEIAYgAigCNBEGACAFKAIIQQZHBEAgACAF/QADCP0LAwAgAEEgaiAFQShqKQMANwMAIABBEGogBUEYav0AAwD9CwMAIANFDQEgBEEEaygCACIAQXhxIgEgA0EBdCICQQRBCCAAQQNxIgAbakkNBSAAQQAgASACQSdqSxsNBiAEEJ8CDAELIAAgBzYCDCAAIAQ2AgggACADNgIEIABBBjYCAAsgBUEwaiQADwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQQIgBhDhCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC+gDAgV/AX4jAEEwayIFJAACQAJAAkACQAJAAkACQCABIAIoAiwREwAiCEL/////D1gEQCAIpyIDQQBODQELIABCAzcDCCAAQQM2AgAgAigCACIABEAgASAAEQMACyACKAIEIgBFDQEgAUEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAGpJDQIgAkEAIAMgAEEnaksbDQMgARCfAgwBCyADQQJ2IQcCfyADQfz///8HcSIGRQRAQQQhBEEADAELIAYQcSIERQ0EIARBBGstAABBA3FFIAZFckUEQCAEQQAgBvwLAAsgBwshAyAFQQhqIAEgBCAGIAIoAjQRBgAgBSgCCEEGRwRAIAAgBf0AAwj9CwMAIABBIGogBUEoaikDADcDACAAQRBqIAVBGGr9AAMA/QsDACADRQ0BIARBBGsoAgAiAEF4cSIBIANBAnQiAkEEQQggAEEDcSIAG2pJDQUgAEEAIAEgAkEnaksbDQYgBBCfAgwBCyAAIAc2AgwgACAENgIIIAAgAzYCBCAAQQY2AgALIAVBMGokAA8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0EEIAYQ4QgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAuOAwEEfwJAAkAgACgCDCICQYCAgIB4ckGAgICAeEcEQCAAKAIQIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQnwILIAAoAhhBgICAgHhHBEAgAEEYahD0AgsgACgCACICBEAgACgCBCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEJ8CCyAAKAJ4IgJBgICAgHhyQYCAgIB4RwRAIAAoAnwiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCfAgsCQCAAKAKEASICRQ0AIAAoAogBIgAoAgAiAwRAIAIgAxEDAAsgACgCBCIARQ0AIAJBBGsoAgAiA0F4cSIBQQRBCCADQQNxIgMbIABqSQ0BIANBACABIABBJ2pLGw0CIAIQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALjAMBBH8CQAJAIAAoAgwiAkGAgICAeHJBgICAgHhHBEAgACgCECIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEJ8CCyAAKAIYQYCAgIB4RwRAIABBGGoQ8wILIAAoAgAiAgRAIAAoAgQiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCfAgsgACgCWCICQYCAgIB4ckGAgICAeEcEQCAAKAJcIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQnwILAkAgACgCZCICRQ0AIAAoAmgiACgCACIDBEAgAiADEQMACyAAKAIEIgBFDQAgAkEEaygCACIDQXhxIgFBBEEIIANBA3EiAxsgAGpJDQEgA0EAIAEgAEEnaksbDQIgAhCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvYAwIHfwF+IwBBQGoiAiQAAkAgABBeIgENACAAKAKcBSIDQYGAgIB4RiIBRQRAAkAgA0GAgICAeEYEQEEAIABBQGsgARshBSAAKAJIIgZBBnQhBCAAKAJEIgdBPGohAwJAA0AgAyEBIARFDQEgBEFAaiEEIAFBQGshAyABLQAAQQFHDQALIAFBPGsiAygCOCADKAIgIgFHDQIgASAAKAKsA0cNAgsgBkEGdCEEIAdBPGohAwNAIAMhAEEAIQEgBEUNBCAEQUBqIQQgAEFAayEDIAAtAABBAkcNAAsgAEE8ayIAKAI4IAAoAiBGDQMgAkKAgICAECIIIABBOGqthDcDOCACIAggAEEgaq2ENwMwIAJBJGoiAEGWhcAAIAJBMGoQ9QYgABCACCEBDAMLQQAhASAAKALABCAAKAK4BEYNAiACQoCAgIAQIgggAEHABGqthDcDOCACIAggAEG4BGqthDcDMCACQQxqIgBB+4TAACACQTBqEPUGIAAQgAghAQwCCyACQoCAgIAQIgggA0E4aq2ENwM4IAIgCCAFQewCaq2ENwMwIAJBGGoiAEH7hMAAIAJBMGoQ9QYgABCACCEBDAELQZzCwQBBEBD5ByEBCyACQUBrJAAgAQvZAwIHfwF+IwBBQGoiAiQAAkAgABBfIgENACAAKAK8BSIDQYGAgIB4RiIBRQRAAkAgA0GAgICAeEYEQEEAIABB4ABqIAEbIQUgACgCaCIGQQZ0IQQgACgCZCIHQTxqIQMCQANAIAMhASAERQ0BIARBQGohBCABQUBrIQMgAS0AAEEBRw0ACyABQTxrIgMoAjggAygCICIBRw0CIAEgACgCzANHDQILIAZBBnQhBCAHQTxqIQMDQCADIQBBACEBIARFDQQgBEFAaiEEIABBQGshAyAALQAAQQJHDQALIABBPGsiACgCOCAAKAIgRg0DIAJCgICAgBAiCCAAQThqrYQ3AzggAiAIIABBIGqthDcDMCACQSRqIgBBloXAACACQTBqEPUGIAAQgAghAQwDC0EAIQEgACgC4AQgACgC2ARGDQIgAkKAgICAECIIIABB4ARqrYQ3AzggAiAIIABB2ARqrYQ3AzAgAkEMaiIAQfuEwAAgAkEwahD1BiAAEIAIIQEMAgsgAkKAgICAECIIIANBOGqthDcDOCACIAggBUHsAmqthDcDMCACQRhqIgBB+4TAACACQTBqEPUGIAAQgAghAQwBC0GcwsEAQRAQ+QchAQsgAkFAayQAIAELywMCDX8BfgJ/IAMgBUEBayINIAEoAhQiCGoiB0sEQCAFIAEoAhAiDmshDyABKAIcIQsgASgCCCEKIAEpAwAhFANAAkAgAQJ/AkAgFCACIAdqMQAAiEIBg1AEQCABIAUgCGoiCDYCFCAGDQMMAQsgCiALIAogCiALSRsgBhsiCSAFIAUgCUkbIQwgAiAIaiEQIAkhBwJAA0AgByAMRgRAQQAgCyAGGyEMIAohBwJAAkACQANAIAcgDE0NASAHQQFrIgcgBU8NAiAHIAhqIgkgA08NAyAEIAdqLQAAIAIgCWotAABGDQALIAEgCCAOaiIINgIUIA8gBkUNBxoMCAsgASAFIAhqIgI2AhQgBkUEQCABQQA2AhwLIAAgAjYCCCAAIAg2AgRBAQwKCyAHIAVBhKLFABCuBwALIAkgA0GUosUAEK4HAAsgByAIaiIRIANPDQEgByAQaiESIAQgB2ogB0EBaiEHLQAAIBItAABGDQALIBEgCmtBAWohCCAGRQ0BDAMLIAMgCCAJaiIAIAAgA0kbIANBpKLFABCuBwALQQALIgc2AhwgByELCyAIIA1qIgcgA0kNAAsLIAEgAzYCFEEACyEHIAAgBzYCAAvdAwIEfgZ/IAEpAxAgASkDGCACEOgDIQUgASgCBCIJIAWncSEHIAVCGYhC/wCDQoGChIiQoMCAAX4hBiABKAIAIQoCQAJAIAItAAAiC0ELRwRAA0AgByAKaikAACIEIAaFIgNCf4UgA0KBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIDUEUEQANAIAogA3qnQQN2IAdqIAlxQWhsaiIMQRhrLQAAIAtGDQQgA0IBfSADgyIDUEUNAAsLIAQgBEIBhoNCgIGChIiQoMCAf4NCAFINAyAHIAhBCGoiCGogCXEhBwwACwALIAIoAAEhCwNAIAcgCmopAAAiBCAGhSIDQn+FIANCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiA1BFBEADQCAKIAN6p0EDdiAHaiAJcUFobGoiDEEYay0AAEELRgRAIAxBF2soAAAgC0YNBAsgA0IBfSADgyIDUEUNAAsLIAQgBEIBhoNCgIGChIiQoMCAf4NQRQ0CIAcgCEEIaiIIaiAJcSEHDAALAAsgAEEMOgAMIAAgATYCBCAAIAw2AgAPCyABKAIIRQRAIAEgAUEQahDLAQsgACABNgIIIAAgBTcDACAAIAIoAAA2AAwgAEEQaiACQQRqLQAAOgAAC6ADAQV/IAAvARwhAQJ/QQAgAC8BHiICQf//AXEiA0GA+AFLDQAaQQAgAUH//wFxIgRBgPgBSw0AGiACwUEATgRAIAEgAkkgAcFBAE4NARogAiAEckEARwwBCyABwUEASCABIAJLcQshBCACIAEgBBsgASADQYH4AUkbIQECQCAALwEgIgBB//8BcSICQYD4AUsNACABQf//AXEiA0GA+AFLDQAgAMFBAE4EQCABwUEATgRAIAAgAUH//wNxSyEFDAILIAAgA3JBAEchBQwBCyABwUEASCAAIAFB//8DcUlxIQULAn8gACABIAUbIAEgAkGB+AFJGyIBQf//AXEEQCABQf8HcSEAIAFBgIACcSECIAFBgPgBcSIBQYD4AUcEQCACQRB0IgIgAUENdEGAgID8AHEgAEENdHJBgICAwANqciABDQIaIAJBgICA2ANyIABnQRBrIgFBF3RrIAAgAUH//wNxQQhqdEH///8DcXIMAgsgAkEQdCIBIABBDXRyQYCAgP4HciAADQEaIAFBgICA/AdyDAELIAFBEHQLvhDuAwuHBAMEfwF+AW8jAEEwayIDJABBByEFAkACQCAAKAIAIgQlAUGBCCUBECMNACAEEL0KIgZB////B0cEQEEAIQUgAyAGQQBHOgABDAELIANBIGogBBCyCiADKAIgBEAgAyADKwMoOQMIQQMhBQwBCyADQSBqIAQlARAkAn8gAygCICIGBEBBBSEFIAMoAiQiBAwBCwJAAkAgBCUBECUEQCADQSBqIAQQkwYgAykCJCEHIAMoAiAhBAwBCyAEJQEQJkUNASAEJQEQJyEIEP8EIgUgCCYBIANBIGogBRCTBiADKQIkIQcgAygCICEEIAVBhAhJDQAgBRCFBwsgBEGAgICAeEYNACADQQY6AAAgAyAHNwIEIAMgASACENsFIQUgBEUNAyAHpyAEQQEQiAcMAwsgAyAArUKAgICA8AOENwMgIANBFGpBqJrAACADQSBqEL4EQREhBSADKAIYIQYgAygCHCEEIAMoAhQLIQAgAyAENgIIIAMgBjYCBCADIAU6AAAgAyABIAIQ2wUhBSAARQ0BAkAgBkEEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgAGpPBEAgAUEAIAIgAEEnaksbDQEgBhCfAgwDC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsgAyAFOgAAIAMgASACENsFIQULIANBMGokACAFC6cEAQZ/IwBBEGsiAiQAAkACQAJAAkAgASgCAEGUgICAeEYEQCABKAIMIgNFDQEgAiABKAIIIgQQvQMgAigCACIBQYCAgIB4RgRAIAIoAgQhASAAQYCAgIB4NgIAIAAgATYCBAwFCyACKAIEIQUCQCADQQFHBEAgAigCCCEHIAIgBEEQahC9AyACKAIAIgRBgICAgHhHDQEgAigCBCEDIABBgICAgHg2AgAgACADNgIEIAFFDQYgBUEEaygCACIAQXhxIgNBBEEIIABBA3EiABsgAWpJDQQgAEEAIAMgAUEnaksbDQUgBRCfAgwGC0EBIAJBD2pBwIfBABD9BiEDIABBgICAgHg2AgAgACADNgIEIAFFDQUgBSABQQEQiAcMBQsgAigCBCEGIAAgAigCCDYCFCAAIAY2AhAgACAENgIMIAAgBzYCCCAAIAU2AgQgACABNgIAIANBAkYNBCACQQI2AgAgA0H+////AGpB/////wBxQQJqIAJB0LXBABD9BiEDIABBgICAgHg2AgAgACADNgIEIAEEQCAFIAFBARCIBwsgBEUNBCAGIARBARCIBwwECyABIAJBD2pBwIfBABCPCCEBIABBgICAgHg2AgAgACABNgIEDAMLQQAgAkEPakHAh8EAEP0GIQEgAEGAgICAeDYCACAAIAE2AgQMAgtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIAJBEGokAAvuAwIEfwF7QQJBAyACQQhGGyEJAkACQAJAAn8CQAJAIAUEQCABQQFrIANuIQUgAyEGIAIhCANAIAVFDQUgBUEBayEFIAcgACAGai0AAGohByADIAZqIQYgCEEBayIIDQALIAlBAWohCSAEDQEMAgtBgAEgBEUNAhoLAnsgAP1cAAH9iQH9qQEgAP1cAAX9iQH9qQH9rgEiCiACQRxxIgRBCEYNABogCiAA/VwACf2JAf2pAf2uASIKIARBDEYNABogCiAA/VwADf2JAf2pAf2uAQsiCiAKIAr9DQgJCgsMDQ4PAAECAwABAgP9rgEiCiAKIAr9DQQFBgcAAQIDAAECAwABAgP9rgH9GwAhBiACIARHBEAgAiAEayEIIAAgBGpBAWohBQNAIAYgBS0AAGohBiAFQQFqIQUgCEEBayIIDQALCyAJQQFqIQkgBiAHaiEHC0EBIAlBAWt0IAdqIAl2CyEIIANBAWohByABQQFrIgQgA2shBSAEIANuIQRBACEGA0AgBCAGRg0DIAIgBU0EQCACBEAgACAHaiAIIAL8CwALIAUgA2shBSADIAdqIQcgAiAGQQFqIgZGDQMMAQsLQQAgAiAFQaTfxAAQ1QcACyAGIAFBxN/EABCuBwALDwsgByABIAFBtN/EABDVBwALjQMBBH8CQAJAIAAoAtABIgJBgICAgHhyQYCAgIB4RwRAIAAoAtQBIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQnwILIAAoAgBBAkcEQCAAEIgCCyAAKALEASICBEAgACgCyAEiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCfAgsgACgC3AEiAkGAgICAeHJBgICAgHhHBEAgACgC4AEiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCfAgsCQCAAKALoASICRQ0AIAAoAuwBIgAoAgAiAwRAIAIgAxEDAAsgACgCBCIARQ0AIAJBBGsoAgAiA0F4cSIBQQRBCCADQQNxIgMbIABqSQ0BIANBACABIABBJ2pLGw0CIAIQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALjQMBBH8CQAJAIAAoAsgBIgJBgICAgHhyQYCAgIB4RwRAIAAoAswBIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQnwILIAAoAgBBAkcEQCAAEMACCyAAKAK8ASICBEAgACgCwAEiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCfAgsgACgC1AEiAkGAgICAeHJBgICAgHhHBEAgACgC2AEiA0EEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAQgAkEnaksbDQIgAxCfAgsCQCAAKALgASICRQ0AIAAoAuQBIgAoAgAiAwRAIAIgAxEDAAsgACgCBCIARQ0AIAJBBGsoAgAiA0F4cSIBQQRBCCADQQNxIgMbIABqSQ0BIANBACABIABBJ2pLGw0CIAIQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALyAMCDX8BfiADIAVBAWsiDSABKAIUIghqIgdLBEAgBSABKAIQIg5rIQ8gASgCHCELIAEoAgghCiABKQMAIRQDQAJAIAECfwJAIBQgAiAHajEAAIhCAYNQBEAgASAFIAhqIgg2AhQgBg0DDAELIAogCyAKIAogC0kbIAYbIgkgBSAFIAlJGyEMIAIgCGohECAJIQcCQANAIAcgDEYEQEEAIAsgBhshDCAKIQcCQAJAAkADQCAHIAxNDQEgB0EBayIHIAVPDQIgByAIaiIJIANPDQMgBCAHai0AACACIAlqLQAARg0ACyABIAggDmoiCDYCFCAPIAZFDQcaDAgLIAEgBSAIaiICNgIUIAZFBEAgAUEANgIcCyAAIAI2AgggACAINgIEIABBATYCAA8LIAcgBUGwg8cAEK4HAAsgCSADQcCDxwAQrgcACyAHIAhqIhEgA08NASAHIBBqIRIgBCAHaiAHQQFqIQctAAAgEi0AAEYNAAsgESAKa0EBaiEIIAZFDQEMAwsgAyAIIAlqIgAgACADSRsgA0HQg8cAEK4HAAtBAAsiBzYCHCAHIQsLIAggDWoiByADSQ0ACwsgASADNgIUIABBADYCAAugAwIGfwZ+QQQhAyAAIAAoAjhBBGo2AjhBBCECAn4CQCAAKAI8IgRFDQBBCCAEayIFQQQgBUEESSIHGyEGAn4gBwRAQQAhAkIADAELIAE1AAALIQggBiACQQFySwRAIAEgAmozAAAgAkEDdK2GIAiEIQggAkECciECCyAAIAApAzAgAiAGSQR+IAEgAmoxAAAgAkEDdK2GIAiEBSAICyAEQQN0QThxrYaEIgg3AzAgBUEFTwRAIAAgBEEEajYCPA8LIAAgACkDGCAIhSIJIAApAwh8IgsgACkDECIKQg2JIAogACkDAHwiCoUiDHwiDSAMQhGJhTcDECAAIA1CIIk3AwggACALIAlCEImFIglCFYkgCSAKQiCJfCIJhTcDGCAAIAggCYU3AwAgBEEEayECIARBCEYNAEEAIQNCAAwBC0EAIQUgATUAAAshCCACIANBAXJLBEAgASAFaiADajMAACADQQN0rYYgCIQhCCADQQJyIQMLIAAgAiADSwR+IAEgAyAFamoxAAAgA0EDdK2GIAiEBSAICzcDMCAAIAI2AjwL+wMCBn8BeyMAQTBrIgQkACAEQRhq/QwAAAAAAAAAAAAAAAAAAAAA/QsDACAEIAn9CwMIAkACQAJAAkACQAJAA0ACQCAEQShqIAEgBEEIakEgEN0CAkACQCAELQAoIgNBBEcEQAJAIANBAWsOAwIAAwoLIAQoAiwtAAhBI0YNBAwJCyAEKAIsIgNBIU8NAiACKAIAIAIoAggiAWsgA0kEQCACIAEgA0EBQQEQmAYgAigCCCEBCyADBEAgAigCBCABaiAEQQhqIAP8CgAACyAAIAM2AgQgAiABIANqNgIIIABBBDoAAAwJCyAELQApQSNGDQIMBwsgBCgCLCIDLQAIQSNHDQYgAygCACEFIANBBGooAgAiBigCACIHBEAgBSAHEQMACyAGKAIEIgYEQCAFQQRrKAIAIgdBeHEiCEEEQQggB0EDcSIHGyAGakkNAyAHQQAgCCAGQSdqSxsNBCAFEJ8CCyADQQRrKAIAIgVBeHEiBkEQQRQgBUEDcSIFG0kNBCAFQQAgBkE0TxsNBSADEJ8CDAELC0EAIANBIEHkgMcAENUHAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyAAIAQpAyg3AgALIARBMGokAAv9AwIFfwF+IwBBIGsiAiQAAkACQCAAKAIAIgNBAkcEQEEBIQQCQAJ/AkAgA0EBcQRAIAIgAEEEajYCCCABKAIIIAIgATYCFCACQoCAgICAyNAHNwIMIAJBCGqtQoCAgICQD4QhB0GAgIAEcQ0BIAIgBzcDGCACQQxqQdSixQBBqJrAACACQRhqEMQDDAILIAEoAgAiAyAAKAIQIAAoAhQgASgCBCgCDCIBEQAADQUMBAsgAiAHNwMYIAJBDGpB1KLFAEHHzccAIAJBGGoQxAMLIgNBACACKAIMIgUbRQRAIAMNBCAFRQ0BQZCjxQBBNyACQRhqQYCjxQBByKPFABCJBwALIAEoAgBB7KLFAEEUIAEoAgQoAgwRAAANAwsgASgCACEDIAEoAgQoAgwhAQwBCwJAAkACQCAAKAIkIgRFDQAgACgCICEAA0AgAkEMaiAAIAQQ+gICQCACKAIMQQFGBEAgAi0AFSEDIAItABQhBSACKAIQIQYgAUHNzccAQQMQmANFDQEMBQsgASACKAIQIAIoAhQQmAMNBAwCCyAFQQFxRQ0BIAQgAyAGaiIDSQ0CIAAgA2ohACAEIANrIgQNAAsLQQAhBAwDCyADIAQgBEHQzccAENUHAAtBASEEDAELIAMgACgCGCAAKAIcIAERAAAhBAsgAkEgaiQAIAQLlwMBBX8CQAJAAkACQAJAIAFFBEAgAEUNASAAQQhrIgEoAgBBAUcNAiAAKAIQIQYgACgCDCEFIAAoAgghBCAAKAIEIQIgAUEANgIAAkAgAUF/Rg0AIABBBGsiAyADKAIAQQFrIgM2AgAgAw0AIABBDGsoAgAiAEF4cSIDQSBBJCAAQQNxIgAbSQ0FIABBACADQcQATxsNBiABEJ8CCyAEKAIAIgAEQCACIAARAwALIAQoAgQiAARAIAJBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIABqSQ0FIAFBACAEIABBJ2pLGw0GIAIQnwILIAYoAgAiAARAIAUgABEDAAsgBigCBCIARQ0DIAVBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIABqSQ0EIAFBACACIABBJ2pLGw0FIAUQnwIMAwsgAEUNACAAQQhrIgAgACgCAEEBayIBNgIAIAENAiAAENEEDwsQlAoAC0HQ/8AAQT8QlQoACw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC8oDAQd/IwBBIGsiByQAQQEhCSABIAEoAhQiBkEBaiIFNgIUAkAgBSABKAIQIghPDQACQAJAIAEoAgwgBWotAABBK2sOAwECAAILQQAhCQsgASAGQQJqIgU2AhQLAkACQCAFIAhJBEAgASAFQQFqIgY2AhQgASgCDCIKIAVqLQAAQTBrQf8BcSIFQQpPBEAgB0ENNgIUIAcgCiAIIAYQ+gEgB0EUaiAHKAIAIAcoAgQQ2QchASAAQQE2AgAgACABNgIEDAMLIAYgCE8NAQNAIAYgCmotAABBMGtB/wFxIgtBCk8NAiABIAZBAWoiBjYCFCAFQcyZs+YARyALQQdLciAFQcuZs+YASnFFBEAgBUEKbCALaiEFIAYgCEcNAQwDCwsgACABIAIgA1AgCRCDBgwCCyAHQQU2AhQgB0EIaiABKAIMIAggBRD6ASAHQRRqIAcoAgggBygCDBDZByEBIABBATYCACAAIAE2AgQMAQsgACABIAIgAwJ/IAlFBEAgBCAFayIGQR91QYCAgIB4cyAGIAVBAEogBCAGSnMbDAELIAQgBWoiBkEfdUGAgICAeHMgBiAFQQBIIAQgBkpzGwsQiwULIAdBIGokAAvBAwIHfwJ9QZyHyQAoAgAiAUGUh8kAKAIARgRAQZSHyQAQ6AYLQZiHyQAoAgAiBSABQQxsaiIDIAApAgA3AgAgA0EIaiIEIABBCGooAgA2AgBBnIfJACABQQFqNgIAIAQoAgAhByADKAIEIQQgAyoCACEIAkAgAUUNACAIIAhbBEAgASECA0ACQCAFIAIiAEEBayIDQQF2IgJBDGxqIgEqAgAiCSAJWyAIIAlfRXFBfyAIIAlgGyIGBEAgBkEASg0BIAAhAgwECyABKAIEIgYgBEcEQCAEIAZLDQEgACECDAQLIAcgASgCCEsNACAAIQIMAwsgBSAAQQxsaiIAIAEpAgA3AgAgAEEIaiABQQhqKAIANgIAIANBAUsNAAsMAQsgASECA0ACQCAFIAIiAEEBayIDQQF2IgJBDGxqIgEqAgAiCSAJWyAIIAlfRXENACABKAIEIgYgBEcEQCAEIAZLDQEgACECDAMLIAcgASgCCEsNACAAIQIMAgsgBSAAQQxsaiIAIAEpAgA3AgAgAEEIaiABQQhqKAIANgIAIANBAk8NAAsLIAUgAkEMbGoiACAHNgIIIAAgBDYCBCAAIAg4AgALlQMBBX8CQCADLQADIgYgAy0ABCIIayIFIAVBH3UiBXMgBWtBAXQgAy0AAiIFIAMtAAUiB2siBCAEQR91IgRzIARrQQF2aiACQf8BcUsNACADLQAAIAMtAAEiAmsiBCAEQR91IgRzIARrIAFB/wFxIgRLDQAgAiAFayICIAJBH3UiAnMgAmtB/wFxIARLDQAgBCAFIAZrIgIgAkEfdSICcyACayICQf8BcUkNACAEIgUgAy0AByADLQAGIgZrIgQgBEEfdSIEcyAEa0kNACAFIAYgB2siBiAGQR91IgZzIAZrQf8BcUkNACAHIAhrIgEgAUEfdSIBcyABayIBQf8BcSAFSw0AIABB/wFxIAJB/wFxSQRAQQEgAxDVBRoPCyAAQf8BcSIAIAFB/wFxIgFJIAMQ1QUhAiAAIAFJDQAgA0H/ASADLQAFIAJBAWpBAXUiAGsiAUEAIAFBAEobIgEgAUH/AU4bOgAFIANB/wBBgH8gACADLQACakGAAWsiACAAQYB/TBsiACAAQf8AThtBgAFzOgACCwvHAwICfwR+IwBB0ABrIgQkACAE/QwAAAAAAAAAAAAAAAAAAAAA/QsDOCAEIAE3AzAgBCABQvPK0cunjNmy9ACFNwMgIAQgAULt3pHzlszct+QAhTcDGCAEIAA3AyggBCAAQuHklfPW7Nm87ACFNwMQIAQgAEL1ys2D16zbt/MAhTcDCCAEQQhqIgUgAiADEIIDIARB/wE6AE8gBSAEQc8AakEBEIIDIAQpAwghASAEKQMYIQAgBEFAazUCACEIIAQpAzghBiAEKQMgIAQpAxAhCSAEQdAAaiQAIAYgCEI4hoQiCIUiBkIQiSAGIAl8IgaFIgdCFYkgByAAIAF8IgFCIIl8IgeFIglCEIkgCSAGIABCDYkgAYUiAHwiAUIgiUL/AYV8IgaFIglCFYkgCSABIABCEYmFIgAgByAIhXwiAUIgiXwiCIUiB0IQiSAHIAEgAEINiYUiACAGfCIBQiCJfCIGhSIHQhWJIAcgASAAQhGJhSIAIAh8IgFCIIl8IgiFIgdCEIkgByAAQg2JIAGFIgAgBnwiAUIgiXwiBoVCFYkgAEIRiSABhSIAQg2JIAAgCHyFIgBCEYmFIAAgBnwiAEIgiYUgAIUL3AMCA30EfyAAIAEgAhDNAwJAAkACQCACBEAgACoChAEgACoCgAEiBpMhByAAKAJgIQEgACgCZCELQQEhCANAIApBA2ogC08NAiAIQQFrIgkgBE8EQCAJIQgMBQsgBCAJayIJQQAgBCAJTxsiCUEBRg0EIAlBAkYNA0MAAH9DQwAAAAAgAyoCACAGkyAHlUMAAH9DlCIFIAVDAAAAAF0bIgUgBUMAAH9DXhsQnQchBSABIAEtAANBGHRB/wEgBfwBQQAgBUMAAAAAYBsgBUMAAH9DXhtyQf8BQwAAf0NDAAAAACADQQRqKgIAIAaTIAeVQwAAf0OUIgUgBUMAAAAAXRsiBSAFQwAAf0NeGxCdByIF/AFBACAFQwAAAABgGyAFQwAAf0NeG0EIdHJB/wFDAAB/Q0MAAAAAIANBCGoqAgAgBpMgB5VDAAB/Q5QiBSAFQwAAAABdGyIFIAVDAAB/Q14bEJ0HIgX8AUEAIAVDAAAAAGAbIAVDAAB/Q14bQRB0cjYCACABQRBqIQEgCkEEaiEKIAhBA2ohCCADQQxqIQMgAkEBayICDQALCyAAQQE6ALgBDwsgCiAKQQRqIAtBwIXBABDVBwALIAhBAWohCAsgCCAEQdCFwQAQrgcAC/kDAQR/IAFBGHYhAiABQRB2IQNBCCEFIAFBCHYhBAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAFB/wFxQcEAaw4YAg8PDwQPDw8DDw8PDw8PDw8GDw8PAQAFDwsgAkHQAEcgBEH/AXFBxQBHciADQf8BcUHCAEdyDQ4gAEEBOgAADwsgBEH/AXFB0ABHIANB/wFxQThHcg0NIAJBzABrDg0HDQ0NDQ0NDQ0NDQ0IBgsgBEH/AXFBzABrDgMJDAgMCyACQdAARyAEQf8BcUHDAEdyDQsgA0H/AXFBwwBGDQMMCwsgAkHGAEcgBEH/AXFB2ABHciADQf8BcUHJAEdyDQogAEEJOgAADwsgAkEgRyAEQf8BcUHNAEdyIANB/wFxQdAAR3INCSAAQQo6AAAPCyAEQf8BcUHJAEcgAkHGAEdyIANB/wFxQcYAR3INCEEAIQULIAAgBToAAA8LIAJBIEcNBiAAQQI6AAAPCyAAQQM6AAAPCyAAQQQ6AAAPCyADQf8BcUHJAGsOBQEDAwMCAwsgAkHIAEcgA0H/AXFB0ABHcg0CIABBBzoAAA8LIAJBzQBHDQEgAEEFOgAADwsgAkHGAEcNACAAQQY6AAAPCyAAIAI6AAQgACADOgADIAAgBDoAAiAAIAE6AAEgAEELOgAAC8ADAgF/AX0gASgCBCgCACABKAIAKAIAaiABKAIIKAIQIAJsaiECAkACQAJAAkACQAJAIAEoAgwoAgAOAgABAgsCQCACQXtLDQAgASgCFCACQQRqSQ0AIAAgASgCECACaioAADgCBAwECwwECyACQX1NBEAgASgCFCACQQJqTw0CCwwDCyABKAIUIAJNBEAgAEHEzsEAQRUQ+Qc2AgQgAEEBNgIADwsgACABKAIYKgIAIgQgASgCECACai0AALNDAAB/Q5UgASgCHCoCACAEk5SSOAIEDAELIAACfyABKAIQIAJqIgEtAAFBCHQiAiABLQAAciIBQf//AXEEQCABQf8HcSEBIAJBgIACcSEDIAJBgPgBcSICQYD4AUcEQCADQRB0IQMgAkENdEGAgID8AHEgAUENdHJBgICAwANqIANyIAINAhogA0GAgIDYA3IgAWdBEGsiAkEXdGsgASACQf//A3FBCGp0Qf///wNxcgwCCyADQRB0IQIgAUENdCACckGAgID+B3IgAQ0BGiACQYCAgPwHcgwBCyABQRB0CzYCBAsgAEEANgIADwsgAEGG7cEAQQ4Q+Qc2AgQgAEEBNgIAC8wDAgR/AX4jAEEwayIFJAACQAJAAkACQAJAAkACQCABIAIoAiwREwAiB0L/////D1gEQCAHpyIDQQBODQELIABCAzcDCCAAQQM2AgAgAigCACIABEAgASAAEQMACyACKAIEIgBFDQEgAUEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAGpJDQIgAkEAIAMgAEEnaksbDQMgARCfAgwBCwJAIAdQIgYEQEEBIQQMAQsgAxBxIgRFDQQgBEEEay0AAEEDcUUgA0VyDQAgBEEAIAP8CwALIAVBCGogASAEIAMgAigCNBEGACAFKAIIQQZHBEAgACAF/QADCP0LAwAgAEEgaiAFQShqKQMANwMAIABBEGogBUEYav0AAwD9CwMAIAYNASAEQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyADakkNBSAAQQAgASADQSdqSxsNBiAEEJ8CDAELIAAgAzYCDCAAIAQ2AgggACADNgIEIABBBjYCAAsgBUEwaiQADwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQQEgAxDhCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC68DAQh/AkACQAJAIAAoAggiBCAAKAIUIgJNBEAgACAENgIUIAIgBEYNASACIARrIQUgACgCECAEQRhsaiEBA0AgAUEUaigCACIAQQVPBEAgAUEIaigCACIDQQRrKAIAIgJBeHEiByAAQQJ0IgBBBEEIIAJBA3EiAhtqSQ0EIAJBACAHIABBJ2pLGw0FIAMQnwILIAFBGGohASAFQQFrIgUNAAsMAQsgAiEDIAQgAmsiBiAAKAIMIAJrSwRAIABBDGogAiAGQQRBGBCYBiAAKAIUIQMLIAAoAhAhCCAGQQNxIgUEQCADIAVqIAQgAmsgBWshBiAIIANBGGxqIQEDQCABQQA2AgAgAUEUakEANgIAIAFBGGohASAFQQFrIgUNAAshAwsgAiAEa0F8TQRAIAggA0EYbGohAQNAIAFBADYCACABQdwAakEANgIAIAFBxABqQgA3AgAgAUEsakIANwIAIAFBFGpCADcCACABQeAAaiEBIANBBGohAyAGQQRrIgYNAAsLIAAgAzYCFAsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAu5AwICfgt/IwBBIGsiBCQAIAFBCGohDQJAAkADQCANKAIAQQJHDQECfwJAIAEoApwDIgUgASkDoAMiAyAFrSICIAIgA1YbpyIGRwRAIARBDGogASABKAKYAyAGaiAFIAZrQQAQ4gEgBCkCFCICQiiIpyEIIAJCIIinIQkgAkIYiKchCiACQhCIpyELIAJCCIinIQwgBCgCHCEOIAQoAhAhBiACpyEFIAQoAgxFDQEgBgwCC0EBIQVBJSEMQQAhCEEAIQlBACEKQQAhCyAHQYB+cUEkcgwBCyABIAEpA6ADIAatfDcDoAMgB0GAfnFBKHILIgdB/wFxQShHBEAgACAIOwAJIAAgDjYCDCAAIAk6AAggACAKOgAHIAAgCzoABiAAIAw6AAUgACAFOgAEIAAgBzoAACAAQQtqIAhBEHY6AAAgAEEDaiAHQRh2OgAAIAAgB0EIdjsAAQwDCyAFQf8BcUECRyAMQf8BcUHJAEdyIAtB/wFxQcUARyAKQf8BcUHOAEdyciAJQf8BcUHEAEdyDQALQZDexgBBKEGE/cYAEOcIAAsgAEEoOgAAIAAgDTYCBAsgBEEgaiQAC5kDAQ1/IwBBEGsiBiQAAkAgAS0AJQ0AIAEoAgQhBwJAIAEoAhAiCCABKAIIIgxLDQAgCCABKAIMIgJJDQAgAUEUaiINIAEtABgiBWpBAWstAAAhCiAFQQVJIQ4DQCACIAdqIQsCQAJAAn8gCCACayIEQQdNBEBBACEDQQAgBEUNARoDQEEBIAogAyALai0AAEYNAhogBCADQQFqIgNHDQALIAQhA0EADAELIAZBCGogCiALIAQQ7wQgBigCDCEDIAYoAggLQQFxBEAgASACIANqQQFqIgI2AgwgAiAFSSACIAxLcg0CIA5FDQEgByACIAVrIgNqIA0gBRC7Bw0CIAEoAhwhBCABIAI2AhwgBCAHaiEJIAMgBGshAwwFCyABIAg2AgwMAwtBACAFQQRBsKbFABDVBwALIAIgCE0NAAsLIAFBAToAJQJAIAEtACRBAUYEQCABKAIgIQIgASgCHCEBDAELIAEoAiAiAiABKAIcIgFGDQELIAEgB2ohCSACIAFrIQMLIAAgAzYCBCAAIAk2AgAgBkEQaiQAC9QDAQZ/IwBBMGsiASQAIAAoAgwhBAJ/AkACQAJAAkAgACgCFCICIAAoAhAiA0kEQANAAkAgAiAEai0AACIFQQlrDiQAAAQEAAQEBAQEBAQEBAQEBAQEBAQEBAAEBAQEBAQEBAQEBAYDCyAAIAJBAWoiAjYCFCACIANHDQALIAMhAgsgAUECNgIkIAFBCGogBCADIAJBAWoiACADIAAgA0kbEPoBIAFBJGogASgCCCABKAIMENkHDAQLIAVB3QBGDQELIAFBFjYCJCABIAQgAyACQQFqIgAgAyAAIANJGxD6ASABQSRqIAEoAgAgASgCBBDZBwwCCyAAIAJBAWo2AhRBAAwBCyAAIAJBAWoiAjYCFAJAIAIgA08NAAJAA0AgAiAEai0AACIGQQlrIgVBF0tBASAFdEGTgIAEcUVyDQEgACACQQFqIgI2AhQgAiADRw0ACyADIQIMAQsgBkHdAEcNACABQRU2AiQgAUEYaiAEIAMgAkEBaiIAIAMgACADSRsQ+gEgAUEkaiABKAIYIAEoAhwQ2QcMAQsgAUEWNgIkIAFBEGogBCADIAJBAWoiACADIAAgA0kbEPoBIAFBJGogASgCECABKAIUENkHCyABQTBqJAAL3wMCBX8BfiMAQSBrIgIkACAAKAIIIQQgACgCBCEFQQEhAyABKAIAQYyexQBBASABKAIEKAIMEQAAIQACQCAERQRAIAAhAwwBCwJAIAANACABLQAKQYABcQRAIAEoAgAiAEGgzccAQQEgASgCBCIGKAIMEQAADQEgAkEBOgAPIAIgBjYCBCACIAA2AgAgAkHQi8IANgIUIAIgASkCCDcCGCACIAJBD2o2AgggAiACNgIQIAUgAkEQahCIBQ0BIAIoAhBByYvCAEECIAIoAhQoAgwRAAAhAwwBCyAFIAEQiAUhAwsgBEEBRg0AIAVBBGohACAEQQJ0QQRrIQQDQAJ/QQEgA0EBcQ0AGgJAIAEtAApBgAFxBEAgASkCACEHIAJBAToADyACIAc3AgAgAkHQi8IANgIUIAIgASkCCDcCGCACIAJBD2o2AgggAiACNgIQIAAgAkEQahCIBUUNAUEBDAILQQEgASgCAEGX/MUAQQIgASgCBCgCDBEAAA0BGiAAIAEQiAUMAQsgAigCEEHJi8IAQQIgAigCFCgCDBEAAAshAyAAQQRqIQAgBEEEayIEDQALC0EBIQAgA0UEQCABKAIAQY2exQBBASABKAIEKAIMEQAAIQALIAJBIGokACAAC5AFAQN/IwBB4ClrIgIkACACQRBqQQBB0Cn8CwBBwABBgPICELsEIgMEQCADQT9qQUBxIgFCADcCMCABQcCAAjYADCABQQA6AAQgAUGACDYCACABQgA3ABAgAf0MAAAAAAAAAAAAAAAAAAAAAP0LABggAUEANgAoIAFBATYCSCABQQA6AEAgAUKBgICAEDcCOCAB/QwAAAAAAAAAAAAAAAAAAAAA/QsCTCABQQA6AKABIAFBADYCnAEgAUEgNgJsIAH9DAAAAAAAAAAAAAAAAAAAAAD9CwRwIAEgAUGA8QBqNgAIIAFB3ABq/QwAAAAAAAAAAAAAAAAAAAAA/QsCACABQYABakIANwMAIAFBkQFqQgA3AAAgAUIANwKMASABQaEBaiACQQ1qQdMp/AoAACABQfQqakEAQdjFAPwLACABQYDyAjYCyHAgASADNgLEcCABQdQAakEANgIAIAFBADYCFCABQv////8fNwN4IAFBgIg8NgIAIAFBADoAoAEgAUEANgKcASABQoCAAjcDkAEgAUEAOgBAIAFBATYCOCABQgA3AzAgAUHkAGpBfzYCACAAQdQAakEANgIAIABCADcCTCAAQThqQQA2AgAgAEEwakIANwMAIABBIGr9DAAAAAAAAAAAAAAAAAAAAAD9CwMAIABBEGr9DAAAAAAAAAAAAAAAAAAAAAD9CwMAIAD9DAAAAAAAAAAAAAAAAAAAAAD9CwMAIABBADYCSCAAQRs2AkQgAEEcNgJAIAAgATYCPCACQeApaiQADwsgAkF8NgIIIwBBEGsiACQAIABBoLfIADYCDCAAIAJBCGo2AghBACAAQQhqQZzuxwAgAEEMakGc7scAQQAgAEHAuMgAEK8FAAvVAwIEfQV/AkACQCACBEBDAACAPyAAKgJAIAAtAFhBAkYiCRtDAAAAACAAKgI8IAkbIgeTIQggACgCCCIKIAEgASAKSxshCyAEQQNuQQNsIQwgACgCBCABQRhsakEOaiEAQQAhCQNAIAogC0YNAyAJIAxGDQJDAAB/Q0MAAAAAIANBBGoqAgAgB5MgCJVDAAB/Q5QiBSAFQwAAAABdGyIFIAVDAAB/Q14bEJ0HIQUgAEH/AUMAAH9DQwAAAAAgA0EIaioCACAHkyAIlUMAAH9DlCIGIAZDAAAAAF0bIgYgBkMAAH9DXhsQnQciBvwBQQAgBkMAAAAAYBsgBkMAAH9DXhtBEHRB/wEgBfwBQQAgBUMAAAAAYBsgBUMAAH9DXhtBCHRyQf8BQwAAf0NDAAAAACADKgIAIAeTIAiVQwAAf0OUIgUgBUMAAAAAXRsiBSAFQwAAf0NeGxCdByIF/AFBACAFQwAAAABgGyAFQwAAf0NeG3IiDTsBACAAQQJqIA1BEHY6AAAgA0EMaiEDIABBGGohACABQQFqIQEgC0EBaiELIAlBA2ohCSACQQFrIgINAAsLDwsgCSAJQQNqIARB1KXHABDVBwALIAEgCkGsnscAEK4HAAu5AwEHfyAAIAEoAgAiBDYCpAEgACABKAIEIgU2AqgBIABBASAEQRZ2IARB////AXFBAEdqIgIgAkEBTRtBgBAgBEELdiAEQf8PcUEAR2oiAiACQYAQTxtBASAEG2wiAkELdCIGNgKgASACQQ10IgcQqQkhAiAAKAKsASIIQYQITwRAIAgQhQcLIAAgAjYCrAEgBQRAIAZBAXQQqQkhAkEBIQMLAkAgACgCAEUNACAAKAIEIgZBhAhJDQAgBhCFBwsgACACNgIEIAAgAzYCACAFQQJJBH9BAAUgBxCpCSECQQELIQMCQCAAKAIIRQ0AIAAoAgwiBkGECEkNACAGEIUHCyAAIAI2AgwgACADNgIIIAVBA0kEf0EABSAHEKkJIQNBAQshAgJAIAAoAhBFDQAgACgCFCIFQYQISQ0AIAUQhQcLIAAgAzYCFCAAIAI2AhBBASECAkAgAS0ACCIBQQFHBEBBACECDAELIARBAnQQqQkhBAsCQCAAKAIwRQ0AIAAoAjQiA0GECEkNACADEIUHCyAAQgA3ArABIAAgAToAnAEgACAENgI0IAAgAjYCMCAAQbgBakEAOgAAC+MDAgR/AX4jAEEgayICJAAgACgCCCEEIAAoAgQhBSABKAIAQYyexQBBASABKAIEKAIMEQAAIQMCQCAERQRAIAMhAAwBCwJ/QQEgAw0AGiABLQAKQYABcQRAQQEgASgCACIDQaDNxwBBASABKAIEIgAoAgwRAAANARogAkEBOgAPIAIgADYCBCACIAM2AgAgAkHQi8IANgIUIAIgASkCCDcCGCACIAJBD2o2AgggAiACNgIQQQEgBSACQRBqEMYEDQEaIAIoAhBByYvCAEECIAIoAhQoAgwRAAAMAQsgBSABEMYECyEAIARBAUYNACAFQQFqIQMgBEEBayEEA0AgAEEBcSEFAn9BASAFDQAaAkAgAS0ACkGAAXEEQCABKQIAIQYgAkEBOgAPIAIgBjcCACACQdCLwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgAyACQRBqEMYERQ0BQQEMAgtBASABKAIAQZf8xQBBAiABKAIEKAIMEQAADQEaIAMgARDGBAwBCyACKAIQQcmLwgBBAiACKAIUKAIMEQAACyEAIANBAWohAyAEQQFrIgQNAAsLQQEhAyAARQRAIAEoAgBBjZ7FAEEBIAEoAgQoAgwRAAAhAwsgAkEgaiQAIAMLiwMBBH8jAEEQayIDJAACfwJAIAEoAggiAkGAgIAQcUUEQCACQYCAgCBxDQFBAyECIAAsAAAiBCAEwEEHdSIAcyAAayIAQf8BcSIFQQpPBEBBASECIAMgAEEBdCIAIABBOGogBUHkAEkbQf4BcS8AwKZFOwAMIAVB4wBLIQALQQAgBCAAQf8BcSIAG0UEQCACQQFrIgIgA0ELamogAEEBdC0AwaZFOgAACyABIARBAE5BAUEAIANBC2ogAmpBAyACaxDDAwwCCyAALQAAIQJBAyEAA0AgACADakEHaiACQQ9xQbSixQBqLQAAOgAAIAJB/wFxIgRBBHYhAiAAQQFrIQAgBEEPSw0ACyABQQFBrp/FAEECIAAgA2pBCGpBAyAAaxDDAwwBCyAALQAAIQJBAyEAA0AgACADakEMaiACQQ9xQbmLwgBqLQAAOgAAIAJB/wFxIgRBBHYhAiAAQQFrIQAgBEEPSw0ACyABQQFBrp/FAEECIAAgA2pBDWpBAyAAaxDDAwsgA0EQaiQAC64DAgN+BH8gACgCDEUEQEEADwsgACkDECAAKQMYIAEQ6AMhAiAAKAIEIgYgAqdxIQUgAkIZiEL/AINCgYKEiJCgwIABfiEEIAAoAgAhBwJAAkAgAS0AACIIQQtHBEBBACEBA0AgBSAHaikAACIDIASFIgJCf4UgAkKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyICUEUEQANAIAggByACeqdBA3YgBWogBnFBaGxqIgBBGGstAABGDQUgAkIBfSACgyICUEUNAAsLIAMgA0IBhoNCgIGChIiQoMCAf4NCAFINAiAFIAFBCGoiAWogBnEhBQwACwALIAEoAAEhCEEAIQEDQCAFIAdqKQAAIgMgBIUiAkJ/hSACQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIgJQRQRAA0AgByACeqdBA3YgBWogBnFBaGxqIgBBGGstAABBC0YEQCAIIABBF2soAABGDQULIAJCAX0gAoMiAlBFDQALCyADIANCAYaDQoCBgoSIkKDAgH+DUEUNASAFIAFBCGoiAWogBnEhBQwACwALQQAhAAsgAEEQa0EAIAAbC88DAgN/AX4jAEEgayICJAACQAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCACIEQYCAgIB4cyAEQQBOG0EBaw4IAQIDBAUGBwgAC0EBIQMgASACQR9qQbCLwQAQjwghAQwJCyABLQAEIQEMCAsgAS8BBCEBDAcLIAEoAgQhAQwGCyABKQMIIgVC/////w9YBEAgBachAQwFC0EBIQMgAkEBOgAIIAIgBTcDECACQQhqIAJBH2pBsIvBABD7BiEBDAULIAEsAAQiAUEASARAIAJBAjoACCACIAGsNwMQIAJBCGogAkEfakGwi8EAEPsGIQFBASEDDAULIAFB/wFxIQEMAwsgAS4BBCIBQQBIBEAgAkECOgAIIAIgAaw3AxAgAkEIaiACQR9qQbCLwQAQ+wYhAUEBIQMMBAsgAUH//wNxIQEMAgsgASgCBCIBQQBODQEgAkECOgAIIAIgAaw3AxAgAkEIaiACQR9qQbCLwQAQ+wYhAUEBIQMMAgsgASkDCCIFQoCAgIAQWgRAIAJBAjoACCACIAU3AxAgAkEIaiACQR9qQbCLwQAQ+wYhAUEBIQMMAgsgBachAQsLIAAgATYCBCAAIAM2AgAgAkEgaiQAC88DAgN/AX4jAEEgayICJAACQAJAAkACQAJAAkACQAJAAkACQAJAQRUgASgCACIEQYCAgIB4cyAEQQBOG0EBaw4IAQIDBAUGBwgAC0EBIQMgASACQR9qQaCLwQAQjwghAQwJCyABLQAEIQEMCAsgAS8BBCEBDAcLIAEoAgQhAQwGCyABKQMIIgVC/////w9YBEAgBachAQwFC0EBIQMgAkEBOgAIIAIgBTcDECACQQhqIAJBH2pBoIvBABD7BiEBDAULIAEsAAQiAUEASARAIAJBAjoACCACIAGsNwMQIAJBCGogAkEfakGgi8EAEPsGIQFBASEDDAULIAFB/wFxIQEMAwsgAS4BBCIBQQBIBEAgAkECOgAIIAIgAaw3AxAgAkEIaiACQR9qQaCLwQAQ+wYhAUEBIQMMBAsgAUH//wNxIQEMAgsgASgCBCIBQQBODQEgAkECOgAIIAIgAaw3AxAgAkEIaiACQR9qQaCLwQAQ+wYhAUEBIQMMAgsgASkDCCIFQoCAgIAQWgRAIAJBAjoACCACIAU3AxAgAkEIaiACQR9qQaCLwQAQ+wYhAUEBIQMMAgsgBachAQsLIAAgATYCBCAAIAM2AgAgAkEgaiQAC50DAQl/IwBBEGsiBiQAAkACQCADQf////8DSw0AIANBAnQiBUH9////B08NAAJAIAVFBEBBBCEIDAELIAMhBCAFEHEiCEUNAgsgBkEANgIMIAYgCDYCCCAGIAQ2AgQCQAJAAkACQCADBEAgAkF8cSEJIAJBAmpBAnYhCiACQQNqQQJ2IQtBAiACIAJBAk0bQQFqQQJ2IQxBACEEQQAhBQNAIAUgC0YNAiAFIApGDQMgBSAMRg0EIAQgCUYNBSABIARqIgdBAWotAABBCHQgBy0AAHIgB0ECai0AAEEQdHIgB0EDai0AAEEYdHIhByAGKAIEIAVGBEAgBkEEahDmBiAGKAIIIQgLIAQgCGogBzYCACAGIAVBAWoiBTYCDCAEQQRqIQQgAyAFRw0ACwsgACAGKQIENwIAIABBCGogBkEMaigCADYCACAGQRBqJAAPCyAEIAJBhMDHABCuBwALIARBAWogAkGUwMcAEK4HAAsgBEECaiACQaTAxwAQrgcACyAEQQNqIAJBtMDHABCuBwALEM8JAAtBBCAFEOEIAAudAwEJfyMAQRBrIgYkAAJAAkAgA0H/////A0sNACADQQJ0IgVB/f///wdPDQACQCAFRQRAQQQhCAwBCyADIQQgBRBxIghFDQILIAZBADYCDCAGIAg2AgggBiAENgIEAkACQAJAAkAgAwRAIAJBfHEhCSACQQJqQQJ2IQogAkEDakECdiELQQIgAiACQQJNG0EBakECdiEMQQAhBEEAIQUDQCAFIAtGDQIgBSAKRg0DIAUgDEYNBCAEIAlGDQUgASAEaiIHQQFqLQAAQQh0IActAAByIAdBAmotAABBEHRyIAdBA2otAABBGHRyIQcgBigCBCAFRgRAIAZBBGoQ5gYgBigCCCEICyAEIAhqIAc2AgAgBiAFQQFqIgU2AgwgBEEEaiEEIAMgBUcNAAsLIAAgBikCBDcCACAAQQhqIAZBDGooAgA2AgAgBkEQaiQADwsgBCACQYTCxwAQrgcACyAEQQFqIAJBlMLHABCuBwALIARBAmogAkGkwscAEK4HAAsgBEEDaiACQbTCxwAQrgcACxDPCQALQQQgBRDhCAAL+gIBBH8CQAJAAkACQAJAAkACQCAALQAADhoABAQEBAQEBAQEBAQEBAQEBAQEBAQEBAQBAgQLIAAtAARBA0cNAyAAKAIIIgAoAgAhAiAAQQRqKAIAIgEoAgAiAwRAIAIgAxEDAAsgASgCBCIBBEAgAkEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAWpJDQYgA0EAIAQgAUEnaksbDQUgAhCfAgsgAEEEaygCACICQXhxIgFBEEEUIAJBA3EiAhtJDQUgAkUgAUE0SXINAgwECyAAKAIEIgJFDQIgACgCCCIAQQRrKAIAIgFBeHEiA0EEQQggAUEDcSIBGyACakkNBCABRSADIAJBJ2pNcg0BDAMLIAAoAgQiAkUNASAAKAIIIgBBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0DIAFFIAMgAkEnak1yDQAMAgsgABCfAgsPC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAucAwEHfyMAQTBrIgEkACAAKAIMIQQCfwJAIAAoAhQiAiAAKAIQIgNJBEADQCACIARqLQAAIgVBCWsiB0EXS0EBIAd0QZOAgARxRXINAiAAIAJBAWoiAjYCFCACIANHDQALIAMhAgsgAUEFNgIkIAFBCGogBCADIAJBAWoiACADIAAgA0kbEPoBIAFBJGogASgCCCABKAIMENkHDAELAkAgBUHuAEYEQCAAIAJBAWoiBjYCFCADIAZNDQEgACACQQJqIgU2AhQCQCAEIAZqLQAAQfUARw0AIAUgBiADIAMgBkkbIgZGDQIgACACQQNqIgc2AhQgBCAFai0AAEHsAEcEQCAHIQUMAQsgBiAHRg0CIAAgAkEEaiIFNgIUQQAgBCAHai0AAEHsAEYNAxoLIAFBCTYCJCABQRhqIAQgAyAFEPoBIAFBJGogASgCGCABKAIcENkHDAILIAAgAUEkakHc28EAEP8BIAAQlwYMAQsgAUEFNgIkIAFBEGogBCADIAYQ+gEgAUEkaiABKAIQIAEoAhQQ2QcLIAFBMGokAAvKAwEDfwJAIAAoAgAiA0UEQCAAKAIQIgBFDQEgAEG3nsUAQQEQmAMPCwJAAn8CQAJAIAAoAggiASAAKAIETwRAIAAoAhAiAkUNASACQY6exQBBEBCYA0UNAUEBDwtBASECIAAgAUEBajYCCAJAAkACQAJAIAEgA2otAABBzgBrDgUCAwAAAQALIAAoAhAiAUUNAyABQY6exQBBEBCYA0UNAwwGCyAAQQAQ1AENBSAAKAIQIgEEQCABQaegxQBBAxCYAw0GCyAAQQAQ1AFFDQYMBQsgACgCECIARQ0FIABBraDFAEEFEJgDRQ0FDAQLIAAgACgCDEEBaiIBNgIMIAFB9ANLDQEgABCnBA0DA0AgACgCACIDBEACQCAAKAIIIgEgACgCBE8NACABIANqLQAAQcUARw0AIAAgAUEBajYCCCAAIAAoAgxBAWs2AgwMBwsgACgCECIBBEAgAUGqoMUAQQMQmAMNBgsgABCnBEUNAQwFCwsgACgCECIBRQ0AIAFBjp7FAEEQEJgDDQMLIABBADoABEEADAELIAAoAhAiAQRAIAFBnp7FAEEZEJgDDQILIABBAToABEEACyECIAAgAjYCAAsgAg8LQQALswMBA38jAEEQayIFJAACQCABKAIQRQRAIAFBfzYCECAFQQogAiADENcEAkACQAJAAkACQCAFKAIAQQFxBEAgAyAFKAIEQQFqIgRJDQcgASgCHCIGRQ0EIAQgASgCFCAGa0kNASAFQQhqIAFBFGogAiAEEN4GIAUtAAhBBEYNAiAAIAUpAwg3AgAMBQsCQCABKAIcIgRFBEBBACEEDAELIAEoAhggBGpBAWstAABBCkcNAEEAIQQgAUEANgIcIAFBADoAIAsgASgCFCAEayADTQRAIAAgAUEUaiACIAMQ3gYMBQsgAwRAIAEoAhggBGogAiAD/AoAAAsgAEEEOgAAIAEgAyAEajYCHAwECyAERQ0BIAEoAhggBmogAiAE/AoAAAwBCyABKAIcRQ0BCyABQQA2AhwgAUEAOgAgCyACIARqIQYgAyAEayICIAEoAhRPBEAgACABQRRqIAYgAhDeBgwBCyACBEAgASgCGCAGIAL8CgAACyAAQQQ6AAAgASACNgIcCyABIAEoAhBBAWo2AhAgBUEQaiQADwtBsNrHABCzCgALQYjaxwBBE0HA4McAENsHAAupAwIDfgR/AkAgACgCDEUNACAAKQMQIAApAxggARDoAyECIAAoAgQiBiACp3EhBSACQhmIQv8Ag0KBgoSIkKDAgAF+IQQgACgCACEHIAEtAAAiCEELRwRAIAdBGGshAUEAIQADQAJAIAUgB2opAAAiAyAEhSICQn+FIAJCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiAlANAANAIAEgAnqnQQN2IAVqIAZxQWhsai0AACAIRwRAIAJCAX0gAoMiAlBFDQEMAgsLQQEPCyADIANCAYaDQoCBgoSIkKDAgH+DQgBSDQIgBSAAQQhqIgBqIAZxIQUMAAsACyABKAABIQFBACEAA0AgBSAHaikAACIDIASFIgJCf4UgAkKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyICUEUEQANAAkAgByACeqdBA3YgBWogBnFBaGxqIghBGGstAABBC0cNACABIAhBF2soAABHDQBBAQ8LIAJCAX0gAoMiAlBFDQALCyADIANCAYaDQoCBgoSIkKDAgH+DUEUNASAFIABBCGoiAGogBnEhBQwACwALQQALwQMCBX8BfiMAQSBrIgIkAAJAAkACQAJAAkAgAS0AmAEiA0EIRw0AIAJBCToAECACIAEgAkEQaiABKAKAARDYBAJAIAItAAAiA0EdRgRAIAIoAgQiBEGAgICAeEcNAUEAIQMgAUEAOgCYAQwCCyACKQIEIQcCfyADRQRAIAIgBzcDECAHpyEDIAIpAhQhB0EFDAELIAIoAgwhBEEQEHEiAUUNBCABIAM6AAAgASAENgIMIAEgBzcCBCABIAJBAXIiAy8AADsAASABQQNqIANBAmotAAA6AAAgAkGABjsBECACKAIQIQNBAAshBCAAQcy/xAA2AhggACABNgIUIAAgB0IgiD4CDCAAIAc+AgggACADNgIEIAAgBDYCAAwCCyACKQIIIAEgAigCCCACKAIMEJcBQf8BcSIBQQAgAUEIRxsiAzoAmAEgBEUNAKciAUEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgBGpJDQMgBUEAIAYgBEEnaksbDQQgARCfAgsgAEEGNgIAIAAgAzoABAsgAkEgaiQADwtBEBDoCQALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC5cDAQZ/AkAgACgCaEGAgICAeEcNAAJAAkAgACgCpAEiBUEASA0AIAVBAXQiBkH/////B08NAAJ/IAZFBEBBAiEHQQAMAQsgBhBxIgdFDQIgB0EEay0AAEEDcUUgBkVyRQRAIAdBACAG/AsACyAFCyEGIAAgBTYCcCAAIAc2AmwgACAGNgJoDAILEM8JAAtBAiAGEOEIAAsCQAJAIAIEQEEAIQUgACgCbCEHIAAoAnAiCSABayIAQQAgACAJTRsiCiACQQFrIgAgACAKSxsiACAEIAAgBEkbIghBB0sEQCAHIAFBAXRqIQAgAyEGIAhBAWoiBSAFQQdxIgVBCCAFG2siBSEIA0AgACAG/QABAP0LAQAgBkEQaiEGIABBEGohACAIQQhrIggNAAsLIAMgBUEBdGohACAHIAEgBWpBAXRqIQYDQCAEIAVGDQMgBSAKRg0CIAYgAC8BADsBACAGQQJqIQYgAEECaiEAIAIgBUEBaiIFRw0ACwsPCyABIAVqIAlBjITBABCuBwALIAQgBEH8g8EAEK4HAAubAwEGfwJAIAAoAnRBgICAgHhHDQACQAJAIAAoAqQBIgVB/////wNLDQAgBUECdCIGQf3///8HTw0AAn8gBkUEQEEEIQdBAAwBCyAGEHEiB0UNAiAHQQRrLQAAQQNxRSAGRXJFBEAgB0EAIAb8CwALIAULIQYgACAFNgJ8IAAgBzYCeCAAIAY2AnQMAgsQzwkAC0EEIAYQ4QgACwJAAkAgAgRAQQAhBSAAKAJ4IQcgACgCfCIJIAFrIgBBACAAIAlNGyIKIAJBAWsiACAAIApLGyIAIAQgACAESRsiCEEDSwRAIAcgAUECdGohACADIQYgCEEBaiIFIAVBA3EiBUEEIAUbayIFIQgDQCAAIAb9AAIA/QsCACAGQRBqIQYgAEEQaiEAIAhBBGsiCA0ACwsgAyAFQQJ0aiEAIAcgASAFakECdGohBgNAIAQgBUYNAyAFIApGDQIgBiAAKAIANgIAIAZBBGohBiAAQQRqIQAgAiAFQQFqIgVHDQALCw8LIAEgBWogCUGshMEAEK4HAAsgBCAEQZyEwQAQrgcAC50DAQZ/AkAgACgCjAFBgICAgHhHDQACQAJAIAAoAqgBIgVBAEgNACAFQQF0IgZB/////wdPDQACfyAGRQRAQQIhB0EADAELIAYQcSIHRQ0CIAdBBGstAABBA3FFIAZFckUEQCAHQQAgBvwLAAsgBQshBiAAIAU2ApQBIAAgBzYCkAEgACAGNgKMAQwCCxDPCQALQQIgBhDhCAALAkACQCACBEBBACEFIAAoApABIQcgACgClAEiCSABayIAQQAgACAJTRsiCiACQQFrIgAgACAKSxsiACAEIAAgBEkbIghBB0sEQCAHIAFBAXRqIQAgAyEGIAhBAWoiBSAFQQdxIgVBCCAFG2siBSEIA0AgACAG/QABAP0LAQAgBkEQaiEGIABBEGohACAIQQhrIggNAAsLIAMgBUEBdGohACAHIAEgBWpBAXRqIQYDQCAEIAVGDQMgBSAKRg0CIAYgAC8BADsBACAGQQJqIQYgAEECaiEAIAIgBUEBaiIFRw0ACwsPCyABIAVqIAlBnNXBABCuBwALIAQgBEGM1cEAEK4HAAuhAwEGfwJAIAAoApgBQYCAgIB4Rw0AAkACQCAAKAKoASIFQf////8DSw0AIAVBAnQiBkH9////B08NAAJ/IAZFBEBBBCEHQQAMAQsgBhBxIgdFDQIgB0EEay0AAEEDcUUgBkVyRQRAIAdBACAG/AsACyAFCyEGIAAgBTYCoAEgACAHNgKcASAAIAY2ApgBDAILEM8JAAtBBCAGEOEIAAsCQAJAIAIEQEEAIQUgACgCnAEhByAAKAKgASIJIAFrIgBBACAAIAlNGyIKIAJBAWsiACAAIApLGyIAIAQgACAESRsiCEEDSwRAIAcgAUECdGohACADIQYgCEEBaiIFIAVBA3EiBUEEIAUbayIFIQgDQCAAIAb9AAIA/QsCACAGQRBqIQYgAEEQaiEAIAhBBGsiCA0ACwsgAyAFQQJ0aiEAIAcgASAFakECdGohBgNAIAQgBUYNAyAFIApGDQIgBiAAKAIANgIAIAZBBGohBiAAQQRqIQAgAiAFQQFqIgVHDQALCw8LIAEgBWogCUG81cEAEK4HAAsgBCAEQazVwQAQrgcAC5QDACAAIARqIQACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCABQf8BcUEBaw4HBwABAgMEBQYLIABBfU0gAEECaiIBIANNcQ0HIAAgASADQfS1xwAQ1QcACyAAQX1NIABBAmoiASADTXENByAAIAEgA0GEtscAENUHAAsgAEF7TSAAQQRqIgEgA01xDQcgACABIANBlLbHABDVBwALIABBe00gAEEEaiIBIANNcQ0HIAAgASADQaS2xwAQ1QcACyAAQXtNIABBBGoiASADTXENByAAIAEgA0G0tscAENUHAAsgAEF3TSAAQQhqIgEgA01xDQcgACABIANBxLbHABDVBwALIAAgA0kNCCAAIANB1LXHABCuBwALIAAgA0kNBiAAIANB5LXHABCuBwALIAAgAmouAACyDwsgACACai8AALMPCyAAIAJqKAAAsg8LIAAgAmooAACzDwsgACACaioAAA8LIAAgAmorAAC2DwsgACACai0AALNDAAB/Q5UPCyAAIAJqLAAAskMAAH9DlQvSAgEFfwJAAkACQAJAAkACQCAAKAIAIgAoAgAOAgABAwsgACgCCCIBRQ0CIAAoAgQiA0EEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQQgAkUgBCABQSdqTXINAQwDCyAALQAEQQNHDQEgACgCCCIDKAIAIQEgA0EEaigCACICKAIAIgQEQCABIAQRAwALIAIoAgQiAgRAIAFBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIAJqSQ0EIARBACAFIAJBJ2pLGw0DIAEQnwILIANBBGsoAgAiAUF4cSICQRBBFCABQQNxIgEbSQ0DIAFFDQAgAkE0Tw0CCyADEJ8CCyAAQQRrKAIAIgNBeHEiAUEYQRwgA0EDcSIDG0kNASADQQAgAUE8TxsNACAAEJ8CDwtBgODHAEEuQbDgxwAQ5wgAC0HA38cAQS5B8N/HABDnCAAL0QMCBX0Be0MAAIA/IQNDAACAPyAA/QACACIG/eEBIAYgACoCDEMAAAAAXRsiBv0fAyICIAJDAACAP14bEPAEIgIgApIiBUMAAAA/lBCYAiICi0O9N4Y1XUUEQCAG/R8AIAKVIQMgBv0fASAClSEEIAb9HwIgApUhAQsgBCABiyAEiyADi5KSIgSVIQIgAyAElSEDAkAgAUMAAAAAXUUEQCACIQEMAQtDAACAPyADi5MiASABjCACQwAAAABgGyEBQwAAgD8gAouTIgIgAowgA0MAAAAAYBshAwtB/wFDAAB/Q0MAAAAAIAVD2w9JQJVDAAB/Q5QiAiACQwAAAABdGyICIAJDAAB/Q14bEJ0HIgL8AUEAIAJDAAAAAGAbIAJDAAB/Q14bQRB0Qf8BQwAAf0NDAAAAACABQwAAgD+SQwAAAD+UQwAAf0OUIgEgAUMAAAAAXRsiASABQwAAf0NeGxCdByIB/AFBACABQwAAAABgGyABQwAAf0NeG0EIdHJB/wFDAAB/Q0MAAAAAIANDAACAP5JDAAAAP5RDAAB/Q5QiASABQwAAAABdGyIBIAFDAAB/Q14bEJ0HIgH8AUEAIAFDAAAAAGAbIAFDAAB/Q14bcgv3AgIFfwF+AkAgBS0AvwIiBkEIS0EBIAZ0QZYCcUVyRQRAQQggBm5BA2ytIAKtfiILQiCIUCALpyAESXENASAEIARBA3BrIQUCQAJAIAZBCEYEQCACRSAFQQNJcg0BIAVBA2shBSACQQFrIQQDQCADIAAgAS0AAEECdGoiAi0AADoAACADQQFqIAIvAAE7AAAgBEUNAiADQQNqIQMgBEEBayEEIAFBAWohASAFQQJLIAVBA2shBQ0ACwwBCyAFQQNJDQAgASACaiEIQX8gBnRBf3MhCUEIIAZrIQJBfyEEA0AgBEEASARAIAEgCEYNAyABLQAAIQcgAiEEIAFBAWohAQsgAyAAIAcgBHYgCXFBAnRqIgotAAA6AAAgA0EBaiAKLwABOwAAIANBA2ohAyAEIAZrIQQgBUEDayIFQQNPDQALCw8LQYSPxQBBIkGoj8UAENwHAAtBuI/FAEE0QeyPxQAQ5wgAC0GMjsUAQeUAQfSOxQAQ5wgAC88DAQV/IwBBIGsiAiQAIAAoAgAiA0EIaiEFQQEhAAJAIAMoAgBBAUYEQCABKAIAIgNBosfEAEEDIAEoAgQiBigCDCIEEQAADQECQCABLQAKQYABcUUEQCADQeCexQBBASAEEQAADQMgBSABEOIFRQ0BDAMLIANBy4vCAEECIAQRAAANAiACQQE6AA8gAiAGNgIEIAIgAzYCACACQdCLwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgBSACQRBqEOIFDQIgAkHJi8IAQQIQsgMNAgsgA0HinsUAQQEgBBEAACEADAELIAEoAgAiA0Gs7scAQQIgASgCBCIGKAIMIgQRAAANAAJAIAEtAApBgAFxRQRAIANB4J7FAEEBIAQRAAANAiAFIAEQhwUNAiABKAIAIQMgASgCBCgCDCEEDAELIANBy4vCAEECIAQRAAANASACQQE6AA8gAiAGNgIEIAIgAzYCACACQdCLwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgBSACQRBqEIcFDQEgAigCEEHJi8IAQQIgAigCFCgCDBEAAA0BCyADQeKexQBBASAEEQAAIQALIAJBIGokACAAC6EDAgN+BX8jAEEQayIHJAAgByADNgIEIAcgAjYCAAJAAkACQCABKAIMRQ0AIAEpAxAgASkDGCACIAMQkQQhBCABKAIEIgkgBKdxIQggBEIZiEL/AINCgYKEiJCgwIABfiEGIAEoAgAhCgNAAkAgCCAKaikAACIFIAaFIgRCf4UgBEKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIEUEUEQANAIAogBHqnQQN2IAhqIAlxQWhsaiIBQRBrKAIAIANGBEAgAiABQRRrKAIAIAMQuwdFDQMLIARCAX0gBIMiBFBFDQALCyAFIAVCAYaDQoCBgoSIkKDAgH+DUEUNAiAIIAtBCGoiC2ogCXEhCAwBCwsgAUEIaygCACECAkAgAUEEaygCACIBRQRAQQEhAwwBCyABEHEiA0UNAwsgAQRAIAMgAiAB/AoAAAsgACABNgIIIAAgAzYCBCAAIAE2AgAMAQsgByAHrUKAgICAIIQ3AwhBy+fAACAHQQhqEL0HIQEgAEGAgICAeDYCACAAIAE2AgQLIAdBEGokAA8LQQEgARDhCAALowMBAn8jAEHQAGsiByQAIAdBAEHQAPwLACAAAn8CQAJAAkACQCACRQRAIAdC//79+/fv37//ADcDAAwBCyAEIAFBA3QiCEkNASAEIAhGDQBBCCAEIAhrIgQgBEEITxsiBEUNACAHIAMgCGogBPwKAAALIAFFBEAgB0GBAToARyAHQYEBOgA+IAdBgQE6ADUgB0GBAToALCAHQYEBOgAjIAdBgQE6ABogB0GBAToAESAHQYEBOgAIQYF/Qf8AIAIbDAQLIAZFDQEgBkEBayIBRQ0CIAcgBS0AAToACCABQQFGDQIgByAFLQACOgARIAFBAkYNAiAHIAUtAAM6ABogAUEDRg0CIAcgBS0ABDoAIyABQQRGDQIgByAFLQAFOgAsIAFBBUYNAiAHIAUtAAY6ADUgAUEGRg0CIAcgBS0ABzoAPiABQQdGDQIgByAFLQAIOgBHDAILIAggBCAEQaTlxAAQ1QcAC0EBQQBBAEG05cQAENUHAAtBgX9B/wAgAhsgAkUNABogBS0AAAs6AAAgAEEBaiAHQdAA/AoAACAHQdAAaiQAC4QDAgJ/AXsCQAJAIARBBE8EQCACIARBBGtBA24iBSACIAVJGyIFQQNNDQEgAiAFQQFqIgIgAkEDcSICQQQgAhtrIgZrIQIgASAGaiAEIAZBfWxqIQQgAyAGQQNsaiEHA0AgAyAAIAH9XAAA/YkB/akBIgj9GwBBAnRqKAAANgAAIANBA2ogACAI/RsBQQJ0aigAADYAACADQQZqIAAgCP0bAkECdGooAAA2AAAgA0EJaiAAIAj9GwNBAnRqKAAANgAAIAFBBGohASADQQxqIQMgBkEEayIGDQALIQEgByEDDAELIAQNAQ8LA0AgAkUEQEEAQQBBrJLFABCuBwALIAMgACABLQAAQQJ0aigAADYAACADQQNqIQMgAkEBayECIAFBAWohASAEQQNrIgRBA0sNAAsLAkAgAgRAIARBA0cNASADIAAgAS0AAEECdGoiAC8AADsAACADQQJqIABBAmotAAA6AAAPC0EAQQBBjJLFABCuBwALQQBBAyAEQZySxQAQ1QcAC4EDAAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIABB/wFxQQFrDgcHAAECAwQFBgsgA0F9TSADQQJqIgAgAk1xDQcgAyAAIAJB9LTHABDVBwALIANBfU0gA0ECaiIAIAJNcQ0HIAMgACACQYS1xwAQ1QcACyADQXtNIANBBGoiACACTXENByADIAAgAkGUtccAENUHAAsgA0F7TSADQQRqIgAgAk1xDQcgAyAAIAJBpLXHABDVBwALIANBe00gA0EEaiIAIAJNcQ0HIAMgACACQbS1xwAQ1QcACyADQXdNIANBCGoiACACTXENByADIAAgAkHEtccAENUHAAsgAiADTQ0HIAEgA2osAACyDwsgAiADSw0HIAMgAkHktMcAEK4HAAsgASADai4AALIPCyABIANqLwAAsw8LIAEgA2ooAACyDwsgASADaigAALMPCyABIANqKgAADwsgASADaisAALYPCyADIAJB1LTHABCuBwALIAEgA2otAACzC4YDAwV/AXsBfiMAQYABayICJAAgASgCBCEFIAEoAgAgAiAAKAIAIgT9AAIIIgcgB/0NAAECAwQFBgcICQoLCAkKC/0LBAAgAgJ/IAf9GQYiAUH//wFxBEAgAUH/B3EhACABQYCAAnEhAyABQYD4AXEiAUGA+AFHBEAgA0EQdCEDIAFBDXRBgICA/ABxIABBDXRyQYCAgMADaiADciABDQIaIAAgAGdBEGsiAEH//wNxQQhqdEH///8DcSADQYCAgNgDciAAQRd0a3IMAgsgA0EQdCEBIAEgAEENdHJBgICA/gdyIAANARogAUGAgID8B3IMAQsgAUEQdAs2AhwgAkEgaiIAIAQQogMgAkEwaiIBIAQQmwMgAkFAayIDIAQpAgAQygIgAiADrUKAgICAkAKENwN4IAJCgICAgKACIgggAa2ENwNwIAIgCCAArYQ3A2ggAiACQRxqrUKAgICAsAKENwNgIAIgCCACrYQ3A1ggBUH99MAAIAJB2ABqEMQDIAJBgAFqJAALlwMCCH8BfgJAAkACQAJAAkAgACgCBCIDRQ0AIAAoAgwiBgRAIAAoAgAiAUEIaiECIAEpAwBCf4VCgIGChIiQoMCAf4MhCQNAIAlQBEADQCABQaABayEBIAIpAwAgAkEIaiECQoCBgoSIkKDAgH+DIglCgIGChIiQoMCAf1ENAAsgCUKAgYKEiJCgwIB/hSEJCyABIAl6p0EDdkFsbGoiBEEUaygCACIHBEAgBEEQaygCACIEQQRrKAIAIgVBeHEiCEEEQQggBUEDcSIFGyAHakkNBCAFQQAgCCAHQSdqSxsNBSAEEJ8CCyAJQgF9IAmDIQkgBkEBayIGDQALCyADIANBFGxBG2pBeHEiAWpBCWoiAkUNACAAKAIAIAFrIgBBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0DIAFBACADIAJBJ2pLGw0EIAAQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC5kDAQV/AkAgAEKAgICAEFQEQCABIQIMAQsgAUEIayICIAAgAEKAwtcvgCIAQoC+qNAPfnynIgNBkM4AbiIEQZDOAHAiBUHkAG4iBkEBdC8AwKZFOwAAIAFBBGsgAyAEQZDOAGxrIgNB//8DcUHkAG4iBEEBdC8AwKZFOwAAIAFBBmsgBSAGQeQAbGtB//8DcUEBdC8AwKZFOwAAIAFBAmsgAyAEQeQAbGtB//8DcUEBdC8AwKZFOwAACwJAIACnIgFBkM4ASQRAIAEhAwwBCyACQQRrIQIDQCACIAFBkM4AbiIDQfCxf2wgAWoiBEHkAG4iBUEBdC8AwKZFOwAAIAJBAmogBCAFQeQAbGtBAXQvAMCmRTsAACACQQRrIQIgAUH/wdcvSyADIQENAAsgAkEEaiECCwJAIANB4wBNBEAgAyEBDAELIAJBAmsiAiADIANB//8DcUHkAG4iAUHkAGxrQf//A3FBAXQvAMCmRTsAAAsgAUEJTQRAIAJBAWsgAUEwcjoAAA8LIAJBAmsgAUEBdC8AwKZFOwAAC+kCAQV/AkAgAUHN/3tBECAAIABBEE0bIgBrTw0AIABBECABQQtqQXhxIAFBC0kbIgRqQQxqEHEiAkUNACACQQhrIQECQCAAQQFrIgMgAnFFBEAgASEADAELIAJBBGsiBSgCACIGQXhxIAIgA2pBACAAa3FBCGsiAiAAQQAgAiABa0EQTRtqIgAgAWsiAmshAyAGQQNxBEAgACADIAAoAgRBAXFyQQJyNgIEIAAgA2oiAyADKAIEQQFyNgIEIAUgAiAFKAIAQQFxckECcjYCACABIAJqIgMgAygCBEEBcjYCBCABIAIQ3gIMAQsgASgCACEBIAAgAzYCBCAAIAEgAmo2AgALAkAgACgCBCIBQQNxRQ0AIAFBeHEiAiAEQRBqTQ0AIAAgBCABQQFxckECcjYCBCAAIARqIgEgAiAEayIEQQNyNgIEIAAgAmoiAiACKAIEQQFyNgIEIAEgBBDeAgsgAEEIaiEDCyADC5YDAwN/BH0BeyMAQRBrIgQkACABKAIAIgIgASgCBEYEf0EABSABIAJBBGo2AgACfwJAIAIoAgAiAiABKAIIIgEoAggiA0kEQCAEIAEoAgQgAkEkbGoiARCbAyAE/QAEACEJIAEvARQiAkH//wFxRQ0BIAJB/wdxIQEgAkGAgAJxIQMgAkGA+AFxIgJBgPgBRwRAIANBEHQhAyACQQ10QYCAgPwAcSABQQ10ckGAgIDAA2ogA3IgAg0DGiABIAFnQRBrIgFB//8DcUEIanRB////A3EgA0GAgIDYA3IgAUEXdGtyDAMLIANBEHQhAiACIAFBDXRyQYCAgP4HciABDQIaIAJBgICA/AdyDAILIAIgA0HEoscAEK4HAAsgAkEQdAshASAJ/R8AIgUgCf0fASIGlEOPws0/ELoKIQcgBSAJ/R8CIgWUQ4/CzT8QugohCCAGIAWUQ4/CzT8QugogByAIkpJDAABAQJVD5kAfPxC6CkPbD0lBlCABvpQhBUEBCyEBIAAgBTgCBCAAIAE2AgAgBEEQaiQAC4MDAgV/BX0gACABIAIQzQMgAkEDbCEIIAAoAmBBDGohAkECIAQgBEECTRtBA25BA2whCSAAKgKMASAAKgKIASIKk0MAAH5DlSELIAAoAmQhBkEAIQFBACEAAkACQAJAAkADQCABQQNqIAZPDQIgAigCACIFQQh2IQdDAAAAACEMQwAAAAAhDSAFQf8BcQRAIAogCyAFQQFrQf8BcbOUkhDuAyENCyAHQf8BcQRAIAogCyAHQQFrQf8BcbOUkhDuAyEMCyAFQRB2IgVB/wFxBH0gCiALIAVBAWtB/wFxs5SSEO4DBUMAAAAACyEOIAAgBE8NAyADIA04AgAgAEEBaiIFIARPDQQgA0EEaiAMOAIAIAAgCUYNASADQQhqIA44AgAgAkEQaiECIAFBBGohASADQQxqIQMgCCAAQQNqIgBHDQALDwsgAEECaiAEQej7wAAQrgcACyABIAFBBGogBkH4+8AAENUHAAsgACAEQcj7wAAQrgcACyAFIARB2PvAABCuBwALggMBBn8jAEEQayIFJAACQAJAAkACQAJAAkAgAkEBcUUEQCABLQAAIgNFDQIgASEEA0AgBEEBaiEEAkAgA8BBAEgEQCADQf8BcUGAAUcEQCAEIANBA3FBGHciCEEFdEGAgICABHEgCEGAgICAAnEgCEGAgIAIcUEHdHJyQR12aiADQQF2QQJxaiADQQJ2QQJxaiEEIAZFIAdyIQcMAgsgBiAELwAAIgNqIQYgAyAEakECaiEEDAELIAQgA0H/AXEiA2ohBCADIAZqIQYLIAQtAAAiAw0AC0EAIQMgByAGQRBJcQ0BIAZBAXQiA0EATg0BEM8JAAsgAkEBdiEDCyADDQELQQEhBEEAIQMMAQsgAxBxIgRFDQELIAVBADYCCCAFIAQ2AgQgBSADNgIAIAVBtPjBACABIAIQxANFDQFBuM7HAEHWACAFQQ9qQcz4wQBB3PjBABCJBwALQQEgAxDhCAALIAAgBSkCADcCACAAQQhqIAVBCGooAgA2AgAgBUEQaiQAC9sCAgR/AX4jAEHQAGsiBCQAIAQgASACQc2cxQBBARDhAQNAIARBxABqIAQQlgIgBCgCRCIDRQ0ACwJAIAAgAgJ/IANBAkcEQCAEKAJIDAELIAILIgNrQRBNBH4gAiADRwRAIAEgAmohBiABIANqIQMDQAJ/IAMsAAAiAUEATgRAIAFB/wFxIQIgA0EBagwBCyADLQABQT9xIQUgAUEfcSECIAFBX00EQCACQQZ0IAVyIQIgA0ECagwBCyADLQACQT9xIAVBBnRyIQUgAUFwSQRAIAUgAkEMdHIhAiADQQNqDAELIAJBEnRBgIDwAHEgAy0AA0E/cSAFQQZ0cnIhAiADQQRqCyEDIAJBwQBrQV9xQQpqIAJBMGsgAkE5SxsiAUEQTw0DIAGtIAdCBIaEIQcgAyAGRw0ACwsgACAHNwMIQgEFIAcLNwMAIARB0ABqJAAPC0HQnMUAENAJAAv9AgEGfyMAQTBrIgIkACAAAn8gAAJ/AkACQAJAAkAgASgCFCIDIAEoAhAiBU8NACABKAIMIQYDQCADIAZqLQAAIgRBCWsiB0EXS0EBIAd0QZOAgARxRXJFBEAgASADQQFqIgM2AhQgAyAFRw0BDAILCyAEQe4ARw0AIAEgA0EBaiIANgIUIAAgBU8NAyABIANBAmoiBDYCFCAAIAZqLQAAQfUARw0CIAQgACAFIAAgBUsbIgBGDQMgASADQQNqIgc2AhQgBCAGai0AAEHsAEYNASAHIQQMAgsgAkEIaiABELADIAIoAgggACACKAIMNgIEQQFqDAQLIAAgB0YNASABIANBBGoiBDYCFEEAIAYgB2otAABB7ABGDQMaCyACQQk2AiQgAkEYaiAGIAUgBBD6ASACQSRqIAIoAhggAigCHBDZBwwBCyACQQU2AiQgAkEQaiAGIAUgABD6ASACQSRqIAIoAhAgAigCFBDZBws2AgRBAgs2AgAgAkEwaiQAC7MDAAJ/AkACQAJAAkACQAJAAkACQAJAIAJBA2sOBQIIAAEHCAsgAS0AAEHjAGsODwMHBwcHBwcHBwcEBwcHBQcLIAEtAABB8wBGDQEMBgsgAS0AAEHzAEcNBSABLQABQegARw0FQQVBBkEHIAEtAAIiAUHOAEYbIAFBMEYbDAYLIAEtAAFB4wBHDQQgAS0AAkHhAEcNBCABLQADQewARw0EIAEtAARB5QBHDQQgAS0ABUHzAEcNBEEDDAULIAEtAAFB7wBHDQMgAS0AAkH1AEcNAyABLQADQe4ARw0DIAEtAARB9ABHDQNBAQwECyABLQABQeUARw0CIAEtAAJB4QBHDQIgAS0AA0HuAEcNAiABLQAEQfMARw0CQQIMAwsgAS0AAUH1AEcNASABLQACQeEARw0BIAEtAANB9ABHDQEgAS0ABEHzAEcNAUEEDAILIAEtAABB9gBHDQAgAS0AAUHlAEcNACABLQACQfIARw0AIAEtAANB8wBHDQAgAS0ABEHpAEcNACABLQAFQe8ARw0AIAEtAAZB7gBHDQBBAAwBC0EHCyEBIABBADoAACAAIAE6AAEL8AIBA38jAEEQayIDJAAgACgCACEAAn8CQCABKAIIIgJBgICAEHFFBEAgAkGAgIAgcQ0BQQMhAiAALQAAIgAhBCAAQQpPBEAgAyAAIABB5ABuIgRB5ABsa0H/AXFBAXQvAMCmRTsADEEBIQILQQAgACAEG0UEQCACQQFrIgIgA0ELamogBEEBdC0AwaZFOgAACyABQQFBAUEAIANBC2ogAmpBAyACaxDDAwwCCyAALQAAIQJBAyEAA0AgACADakEHaiACQQ9xQbSixQBqLQAAOgAAIAJB/wFxIgRBBHYhAiAAQQFrIQAgBEEPSw0ACyABQQFBrp/FAEECIAAgA2pBCGpBAyAAaxDDAwwBCyAALQAAIQJBAyEAA0AgACADakEMaiACQQ9xQbmLwgBqLQAAOgAAIAJB/wFxIgRBBHYhAiAAQQFrIQAgBEEPSw0ACyABQQFBrp/FAEECIAAgA2pBDWpBAyAAaxDDAwsgA0EQaiQAC4cDAQZ/QQEhB0EBIQUCQAJ/AkACQAJAAkAgBC0AvgJBAWsOBgABBQIAAwULAAtBAyEFQQEhCEEAIQcMAwtBASEGQQAhB0ECDAELQQAhB0EECyEFCwJAIAMgBUEBaiIJbiIDIAEgBUEBdCIBbiIKIAMgCkkbIgNFDQACQCAEKALMAUGBgICAeEYNACAEKALUASABRw0AIAQoAtABIQQDQCACIAAtAAA6AAACQCAHDQAgAkEBaiAAQQJqLQAAOgAAIAYNACACQQJqIABBBGotAAA6AAAgCA0AIAJBA2ogAEEGai0AADoAAAsgAiAFakF/QQAgACAEIAEQuwcbOgAAIAAgAWohACACIAlqIQIgA0EBayIDDQALDAELA0AgAiAALQAAOgAAAkAgBw0AIAJBAWogAEECai0AADoAACAGDQAgAkECaiAAQQRqLQAAOgAAIAgNACACQQNqIABBBmotAAA6AAALIAIgBWpB/wE6AAAgACABaiEAIAIgCWohAiADQQFrIgMNAAsLC64DAgl/An4gA0EQdiEHIANBCHYhCiAAKAIYIQUgACgCFCEIIAAoAhAhCSAAKQMIIQ0gACgCBCELIAAoAgAhDCADIQYDQCAFQQBIBEBBACEEIAkgC0kEQCAMIAlBAnRqKAAAIQQLIARBGHQgBEGA/gNxQQh0ciAEQQh2QYD+A3EgBEEYdnJyrSANQiCGhCENIAlBAWohCSAFQSBqIQULIAUgCEEBayAHQf8BcWxBCHZBAWoiBCAIIARrIA0gBK0gBUE/ca2GIg5UIgQbIghnIgVBGGsiB0EAIAUgB08bIgdrIQUgCCAHdCEIIA1CACAOIAQbfSENIAYgCiAEGyIGQf8BcSIEIAJJBEAgASAEQQJ0aiIGLQACIQcgBi0AASEKIAYtAAAhBgwBCwsgCSALTQRAIAAgBTYCGCAAIAg2AhQgACAJNgIQIAAgDTcDCCAGQf8AcQ8LAn8gA0EYdiEDAkADQCACIANNDQEgAiABIANBAnRqIgMtAAEgAy0AACAAIAMtAAIQzQQbIgZB/wFxIgNLDQALIAZB/wBxDAELIAMgAkHk3sQAEK4HAAtB/wFxC5IDAgd/AX4jAEEgayICJAACQAJAAkACQAJAAkAgACgCBCIDDgMBAgMAC0EBIQQgASgCACIFQZD8xQBBByABKAIEIgYoAgwiBxEAAA0EIAIgACgCACIANgIcIAIgAkEcaq1CgICAgNAAhCIJNwMIIAUgBkHc7MAAIAJBCGoQxAMNA0EAIQQgA0EDdCIBQQhrIgNFDQQgACABaiEIIANBA3YhAyAAQQhqIgBBCEEAIAFBCEcbaiEBA0AgAiAANgIcIAVBl/zFAEECIAcRAAANBCACIAk3AwggBSAGQdzswAAgAkEIahDEAw0EIAFBCEEAIAEiACAIRxtqIQEgA0EBayIDDQALDAQLQfD7xQBBDkGA/MUAEOcIAAsgAiAANQIAQoCAgIAghDcDCCABKAIAIAEoAgRB3OzAACACQQhqEMQDIQQMAgsgAkKAgICAICIJIAAoAgAiAK2ENwMIIAIgCSAAQQhqrYQ3AxAgASgCACABKAIEQbTrwAAgAkEIahDEAyEEDAELQQEhBAsgAkEgaiQAIAQL6QIBA38jAEEQayIDJAACfwJAIAEoAggiAkGAgIAQcUUEQCACQYCAgCBxDQFBAyECIAAtAAAiACEEIABBCk8EQCADIAAgAEHkAG4iBEHkAGxrQf8BcUEBdC8AwKZFOwAMQQEhAgtBACAAIAQbRQRAIAJBAWsiAiADQQtqaiAEQQF0LQDBpkU6AAALIAFBAUEBQQAgA0ELaiACakEDIAJrEMMDDAILIAAtAAAhAkEDIQADQCAAIANqQQdqIAJBD3FBtKLFAGotAAA6AAAgAkH/AXEiBEEEdiECIABBAWshACAEQQ9LDQALIAFBAUGun8UAQQIgACADakEIakEDIABrEMMDDAELIAAtAAAhAkEDIQADQCAAIANqQQxqIAJBD3FBuYvCAGotAAA6AAAgAkH/AXEiBEEEdiECIABBAWshACAEQQ9LDQALIAFBAUGun8UAQQIgACADakENakEDIABrEMMDCyADQRBqJAALnwMCCn8DfiMAQRBrIgUkAAJAAkACQAJAAkACQCABKAIQIgQoAjAiBw4CAwEACyAEKQMYIAQpAyAgAiADEJEEIQ4gBCgCOCIIIA6ncSEGIA5CGYhC/wCDQoGChIiQoMCAAX4hECAEKAI0IgpBBGshCyAEKAIsIQwDQCAGIApqKQAAIg8gEIUiDkJ/hSAOQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIg5QRQRAA0AgCyAOeqdBA3YgBmogCHFBAnRrKAIAIgQgB08NByAMIARBuAFsaiINQawBaigCACADRgRAIAIgDUGoAWooAgAgAxC7B0UNBQsgDkIBfSAOgyIOUEUNAAsLIA8gD0IBhoNCgIGChIiQoMCAf4NQRQ0DIAYgCUEIaiIJaiAIcSEGDAALAAsgAyAEKAIsIgRBrAFqKAIARw0BIAIgBCgCqAEgAxC7Bw0BQQAhBAsgBUEANgIEIAVBADoADCAAIAEgBCAFQQRqEKUBDAELIABCAzcDACAAQYSAgIB4NgIICyAFQRBqJAAPCyAEIAdB6OzHABCuBwALrQMBBH8jAEEgayICJAACQAJAAkACQAJAAkACQAJAIAAtAABBAWsOAwECAwALIAIgACgCBDYCAEEUEHEiAEUNBCAAQRBqQajWxwAoAAA2AAAgAEGY1scA/QAAAP0LAAAgAkEUNgIMIAIgADYCCCACQRQ2AgQgAiACrUKAgICA8AGENwMYIAIgAkEEaq1CgICAgOAHhDcDECABKAIAIAEoAgRB3/TAACACQRBqEMQDIQAgAigCBCIBRQ0DIAIoAggiBEEEaygCACIDQXhxIgVBBEEIIANBA3EiAxsgAWpJDQUgA0EAIAUgAUEnaksbDQYgBBCfAgwDCyACIAAtAAFBAnQiACgCtPVINgIIIAIgACgC3PZINgIEIAIgAkEEaq1CgICAgKABhDcDECABKAIAIAEoAgRBqJrAACACQRBqEMQDIQAMAgsgASAAKAIEIgAoAgAgACgCBBCYAyEADAELIAAoAgQiACgCACABIAAoAgQoAhARAgAhAAsgAkEgaiQAIAAPC0EBQRQQ4QgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvoAgIHfwF+AkACQAJAIAAoAggiBSAAKAIASSIDRQRAIABBEGohAkECIQQDQCAFIAIoAgAiBUsNAiACQQhqIQIgASAEQQFqIgRHDQALDAILIABBEGohAkECIQQDQCAFIAIoAgAiBU0NASACQQhqIQIgASAEQQFqIgRHDQALDAELIAEgBEcNAQsCQCADRQ0AIAFBAXZB/v//P3EhByAAIAFBA3QiBWohBkEAIQRBACECA0AgACAFakEIayIDKQIAIQkgAyAAIARqIgMpAgA3AgAgAyAJNwIAIANBCGoiAykCACEJIAMgBiACIgNB/v///wFzQQN0aiIIKQIANwIAIAggCTcCACAFQRBrIQUgBEEQaiEEIAcgAkECaiICRw0ACyABQQJxRQ0AIAAgAkEDdGoiACkCACEJIAAgBkF9IANrQQN0aiIAKQIANwIAIAAgCTcCAAsPCyAAIAFBACABQQFyZ0EBdEE+cxBaC8ECAQd/IAAoAmghAwJAAkAgACgCbCICBEAgA0EkaiEBA0AgAUEEaygCACIEQYCAgIB4ckGAgICAeEcEQCABKAIAIgZBBGsoAgAiBUF4cSIHQQRBCCAFQQNxIgUbIARqSQ0DIAVBACAHIARBJ2pLGw0EIAYQnwILIAFBMGohASACQQFrIgINAAsLIAAoAmQiAQRAIANBBGsoAgAiAkF4cSIEIAFBMGwiAUEEQQggAkEDcSICG3JJDQEgAkEAIAQgAUEnaksbDQIgAxCfAgsgACgCcCIBQYCAgIB4ckGAgICAeEcEQCAAKAJ0IgBBBGsoAgAiA0F4cSICQQRBCCADQQNxIgMbIAFqSQ0BIANBACACIAFBJ2pLGw0CIAAQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL7gIBBH8CQAJAAkACQAJAAkAgByAIVgRAIAcgCH0gCFgNAyAGIAcgBn1UIAcgBkIBhn0gCEIBhlpxDQIgBiAIWA0GIAcgBiAIfSIGfSAGVg0GIAIgA08NAUEAIAMgAkGgmcIAENUHAAsgAEEANgIADwsgASADaiEMIAMhCQJAAkADQCAJIgpFDQEgCkEBayIJIAFqIgstAABBOUYNAAsgCyALLQAAQQFqOgAAIAMgCmsiBUUNASABIApqQTAgBfwLAAwBCwJAIANFBEBBMSEJDAELIAFBMToAAEEwIQkgA0EBayIKRQ0AIAFBAWpBMCAK/AsACyAEQQFqwSIEIAXBTCACIANNcg0AIAwgCToAACADQQFqIQMLIAIgA0kNAgwDCyACIANPDQJBACADIAJBsJnCABDVBwALIABBADYCAA8LQQAgAyACQZCZwgAQ1QcACyAAIAQ7AQggACADNgIEIAAgATYCAA8LIABBADYCAAvSAgEIfyABQQJ0IgMhAiAAIAAoAnwiBCADSQR/IAMgBCICayIFIAAoAnQgAmtLBEAgAEH0AGogAiAFQQRBBBCYBiAAKAJ8IQILIAAoAngiByACQQJ0IghqIQYgBUECTwRAIAMgBEF/c2pBAnQiCQRAIAZBACAJ/AsACyABQQR0IAhqIARBAnRrIAdqQQRrIQYgAiAFakEBayECCyAGQQA2AgAgAkEBagUgAgs2AnwgACAAKAKIASIEIANJBH8gAyAEIgJrIgUgACgCgAEgAmtLBEAgAEGAAWogAiAFQQRBBBCYBiAAKAKIASECCyAAKAKEASIHIAJBAnQiCGohBiAFQQJPBEAgAyAEQX9zakECdCIDBEAgBkEAIAP8CwALIAFBBHQgCGogBEECdGsgB2pBBGshBiACIAVqQQFrIQILIAZBADYCACACQQFqBSADCzYCiAEL5wICA38CfgJAIAAoAhgiA0EATgRAIAApAwghBQwBCwJAIAAoAhAiAiAAKAIETwRAIAAsACMiAkEATARAIAINAiAAQf8BOgAjIAAgACkDCEIIhiIFNwMIIANBCGohAwwDCyAAIAJBAWs6ACMgAC0AICECIAAgAC8AITsBICAAIAI6ACIgACACrUL/AYMgACkDCEIIhoQiBTcDCCADQQhqIQMMAgsgACACQQFqNgIQIAAgACgCACACQQJ0aigAACICQRh0IAJBgP4DcUEIdHIgAkEIdkGA/gNxIAJBGHZycq0gACkDCEIghoQiBTcDCCADQSBqIQMMAQsgAEHyAToAI0EADwsgBSAAKAIUIgJBAWsgAUH/AXFsQQh2QQFqIgGtIANBP3GthiIGWiIEBEAgACAFIAZ9NwMIIAIgAWshAQsgACADIAFnIgNBGGsiAkEAIAIgA00bIgNrNgIYIAAgASADdDYCFCAEC+gCAQh/AkAgAyAELQC+AkECdCgCuOBIIgVBAmoiB24iAyABIAVuIgEgASADSxsiAUUNAAJAIAQoAswBQYGAgIB4Rg0AIAQoAtQBIAVHDQAgBCgC0AEhAwNAIAUEQCACIAAgBfwKAAALIAIgBWoiBEEBakF/QQAgACADIAUQuwcbIgY6AAAgBCAGOgAAIAAgBWohACACIAdqIQIgAUEBayIBDQALDAELQQAhAyABQQFHBEAgAUEBcSABQf7///8HcSEJIAVBAXQiBkEEaiEKIAIhASAAIQQDQCAFRSILRQRAIAEgBCAF/AoAAAsgASAFaiIMQf//AzsAACALRQRAIAxBAmogBCAFaiAF/AoAAAsgASAGakECakH//wM7AAAgASAKaiEBIAQgBmohBCAJIANBAmoiA0cNAAtFDQELIAIgAyAHbGohASAFBEAgASAAIAMgBWxqIAX8CgAACyABIAVqQf//AzsAAAsLsAIBB38CQAJAAkAgACgCACIEQYCAgIB4Rg0AIAQEQCAAKAIEIgJBBGsoAgAiA0F4cSIBQQRBCCADQQNxIgMbIARqSQ0CIANBACABIARBJ2pLGw0DIAIQnwILIAAoAhAhAyAAKAIUIgUEQCADIQEDQCABKAIAIgYEQCABQQRqKAIAIgdBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAZqSQ0EIAJBACAEIAZBJ2pLGw0FIAcQnwILIAFBFGohASAFQQFrIgUNAAsLIAAoAgwiAUUNACADQQRrKAIAIgBBeHEiAiABQRRsIgFBBEEIIABBA3EiABtqSQ0BIABBACACIAFBJ2pLGw0CIAMQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALggMBBH8gACgCDCECAkACQAJAIAFBgAJPBEAgACgCGCEDAkACQCAAIAJGBEAgAEEUQRAgACgCFCICG2ooAgAiAQ0BQQAhAgwCCyAAKAIIIgEgAjYCDCACIAE2AggMAQsgAEEUaiAAQRBqIAIbIQQDQCAEIQUgASICQRRqIAJBEGogAigCFCIBGyEEIAJBFEEQIAEbaigCACIBDQALIAVBADYCAAsgA0UNAgJAIAAoAhxBAnRBqIjJAGoiASgCACAARwRAIAMoAhAgAEYNASADIAI2AhQgAg0DDAQLIAEgAjYCACACRQ0EDAILIAMgAjYCECACDQEMAgsgACgCCCIAIAJHBEAgACACNgIMIAIgADYCCA8LQcCLyQBBwIvJACgCAEF+IAFBA3Z3cTYCAA8LIAIgAzYCGCAAKAIQIgEEQCACIAE2AhAgASACNgIYCyAAKAIUIgBFDQAgAiAANgIUIAAgAjYCGA8LDwtBxIvJAEHEi8kAKAIAQX4gACgCHHdxNgIAC7ACAQR/IAAoAgwhASAAKAIQIgIoAgAiAwRAIAEgAxEDAAsCQAJAIAIoAgQiAgRAIAFBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAJqSQ0BIANBACAEIAJBJ2pLGw0CIAEQnwILIAAoAhQhASAAKAIYIgIoAgAiAwRAIAEgAxEDAAsgAigCBCICBEAgAUEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAmpJDQEgA0EAIAQgAkEnaksbDQIgARCfAgsCQCAAQX9GDQAgACAAKAIEQQFrIgE2AgQgAQ0AIABBBGsoAgAiAUF4cSICQSBBJCABQQNxIgEbSQ0BIAFBACACQcQATxsNAiAAEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC6QDAQJ/AkACfwJAIAAoAgBBgICAgHhHBEAgAyABIAIgBCAAKAIEIAAoAggQuQEiBQ0DIAMgASACIAQgACgCECAAKAIUELkBIgUNAyADIAEgAiAEIAAoAjwgACgCQBC5ASIFDQMgAyABIAIgBCAAKAJgIAAoAmQQuQEiBQ0DIAMgASACIAQgACgCeCAAKAJ8ELkBIgUNAyAAKAKgAUGAgICAeEcNAUEADwsgAyABIAIgBCAAKAIUIAAoAhgQuQEiBQ0CIAMgASACIAQgACgCICAAKAIkELkBIgUNAiADIAEgAiAEIAAoAkQgACgCSBC5ASIFDQIgAyABIAIgBCAAKAJcIAAoAmAQuQEiBQ0CIAMgASACIAQgACgCdCAAKAJ4ELkBIgUNAiAAKAKIAUGAgICAeEYEQEEADwsgAyABIAIgBCAAKAKMASAAKAKQARC5ASIFDQJBmAEhBkGcAQwBCyADIAEgAiAEIAAoAqQBIAAoAqgBELkBIgUNAUGwASEGQbQBCyEFIAMgASACIAQgACAGaigCACAAIAVqKAIAELkBIQULIAUL2wIBBH8CQAJAIAEoAggiA0EKSQ0AAkACQCABKAIEIgQtAABBH0cNACAELQABQYsBRw0AIAQtAAJBCEcNAEEKIQIgBC0AAyIFQQRxBEAgA0EMSQ0DIAMgBC8ACkEMaiICSQ0DCyAFQQhxRQ0BIAIgA08NAgNAIAIgBGotAABFBEAgAkEBaiECDAMLIAMgAkEBaiICRw0ACwwCCyAAQeTCxwBBExD7BzYCBCAAQQE6AAAPCyAFQRBxBEAgAiADTw0BA0AgAiAEai0AAARAIAMgAkEBaiICRw0BDAMLCyACQQFqIQILIAVBAnFFDQEgAyACQQJqIgJPDQELIABBADoAASAAQQA6AAAPCyACIANNBEAgAUEANgIIIAIgA0cEQCADIAJrIgMEQCAEIAIgBGogA/wKAAALIAEgAzYCCAsgAEEBOgABIABBADoAAA8LQQAgAiADQcCIxwAQ1QcAC9sCAQl/AkAgAyAELQC+AkECdCgC1OBIIgVBAWoiBm4iAyABIAVuIgEgASADSxsiAUUNAAJAIAQoAswBQYGAgIB4Rg0AIAQoAtQBIAVHDQAgBCgC0AEhAwNAIAUEQCACIAAgBfwKAAALIAIgBWpBf0EAIAAgAyAFELsHGzoAACAAIAVqIQAgAiAGaiECIAFBAWsiAQ0ACwwBC0EAIQMgAUEBRwRAIAFBAXEgAUH+////B3EhCSAFQQF0IgdBAmohCiAHQQFyIQsgAiEBIAAhBANAIAVFIgxFBEAgASAEIAX8CgAACyABIAVqIg1B/wE6AAAgDEUEQCANQQFqIAQgBWogBfwKAAALIAEgC2pB/wE6AAAgASAKaiEBIAQgB2ohBCAJIANBAmoiA0cNAAtFDQELIAIgAyAGbGohASAFBEAgASAAIAMgBWxqIAX8CgAACyABIAVqQf8BOgAACwv/AgIDfQN/IwBBEGshBSAAvCEGAkAgAIsiAbwiBEH////jBE0EQAJ/AkACQCAEQYCAgPcDTwRAIARBgIDg/ANJDQIgBEGAgPCABEkNAUMAAIC/IAGVIQBBAwwDC0F/IARBgICAzANPDQIaIARBgICABE8NBCAFIAAgAJQ4AgwgBSoCDBogAA8LIAFDAADAv5IgAUMAAMA/lEMAAIA/kpUhAEECDAELIARBgIDA+QNPBEAgAUMAAIC/kiABQwAAgD+SlSEAQQEMAQsgASABkkMAAIC/kiABQwAAAECSlSEAQQALIQUgACAAlCICIAKUIgEgAUNHEtq9lEOYyky+kpQhAyACIAEgAUMlrHw9lEMN9RE+kpRDqaqqPpKUIQEgBEGAgID3A08EQCAFQQJ0IgQqAuiESSAAIAMgAZKUIAQqAviESZMgAJOTIgAgAIwgBkEAThsPCyAAIAAgAyABkpSTIQAMAQsgACAAXA0AQ9oPyT9D2g/JvyAGQQBOGw8LIAALjQMBBn8jAEHAA2siAiQAAkAgAS0AWEECRwRAIAJBGGogAUHMAGr9AAIA/QsDACACIAH9AAI8/QsDCAwBCyACQQI6ACQLIAJBKGogAUEBIAJBCGoQcgJAAkACQAJ/IAIoAihBAkYEQCACKAIsIQMgAkEANgKoAyACQoCAgIAQNwKgAyACQcSzwQA2ArADIAJCoICAgAY3ArQDIAIgAkGgA2o2AqwDIAMgAkGsA2oQ5wQNAiACKAKgAyEEIAIoAqQDIgYgAigCqAMQ7AghASAEBEAgBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgBGpJDQQgBUEAIAcgBEEnaksbDQUgBhCfAgsgAyADKAIAKAIAEQMAQQEMAQsgAkHkAWoiASACQShqQbwB/AoAACABENEBIQFBAAshAyAAIAE2AgQgACADNgIAIAJBwANqJAAPC0HQh8YAQTcgAkG/A2pB3LPBAEGIiMYAEIkHAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL3QIBBn8gAyEGIAMhBwJ/AkACQAJAIAJBA2pBfHEgAmsiBCADTQRAIAMgAyAEa0EHcSIHayEGIAMgB0kNASAEIQcLIAMgBmshBCACIANqQQFrIQUgAUH/AXEhCAJAA0AgBEUNASAEQQFrIQQgBS0AACEJIAVBAWshBSAIIAlHDQALIAQgBmohBAwDCyABQf8BcUGBgoQIbCEFA0AgByAGIgRJBEAgBEEIayEGQYCChAggAiAEaiIIQQhrKAIAIAVzIglrIAlyQYCChAggCEEEaygCACAFcyIIayAIcnFBgIGChHhxQYCBgoR4Rg0BCwsgAyAESQ0BIAJBAWshAiABQf8BcSEBA0BBACAERQ0EGiACIARqIQMgBEEBayEEIAEgAy0AAEcNAAsMAgsgBiADIANBoKTCABDVBwALQQAgBCADQZCkwgAQ1QcAC0EBCyEFIAAgBDYCBCAAIAU2AgAL6QICBH4DfwJAAkACQCABQdgAaiACEKAEIgIEQCACKQMIIgUgAikDACIEfSIHIAOtVgRAIABBGjoAAA8LIAenIgJBAEgNAUEBIQMCQCAEIAVRIgkNACACEHEiA0UNAyADQQRrLQAAQQNxRSACRXINACADQQAgAvwLAAsgASgCTCIIrSEGIAIgCEL/////DyAEIARC/////w9aG6drIgpBACAIIApPG00EQCABKAJIIAQgBiAEIAZUG6dqIQgCQCAHQgFSBEAgAkUNASADIAggAvwKAAAMAQsgAyAILQAAOgAACyABIAU3A1AMBAsgASAFIAZBiOPHACkDACIEQv8Bg0IEUSIBGzcDUCABDQMgACAENwIEIABBADoAACAJRQRAIAMgAkEBEIgHCw8LIABBHToAACAAQYCAgIB4NgIEDwsQzwkAC0EBIAIQ4QgACyAAIAI2AgwgACADNgIIIAAgAjYCBCAAQR06AAALhQMCA30Cf0MAABBBIAEqAgwgAS0AHEECRiIGGyEFQwAAQMEgASoCCCAGGyEEQQAhAUEAIQYgAv0fACIDQwAAAABfRQRAQf8BQwAAgD9DAAAAACADELoFIASTIAUgBJOVIgMgA0MAAAAAXRsiAyADQwAAgD9eG0MAAH5DlBCdByID/AFBACADQwAAAABgGyADQwAAf0NeG0EBaiEGCyAC/R8BIgNDAAAAAF9FBEBB/wFDAACAP0MAAAAAIAMQugUgBJMgBSAEk5UiAyADQwAAAABdGyIDIANDAACAP14bQwAAfkOUEJ0HIgP8AUEAIANDAAAAAGAbIANDAAB/Q14bQQFqIQELIABBE2ogAv0fAiIDQwAAAABfBH8gBwVB/wFDAACAP0MAAAAAIAMQugUgBJMgBSAEk5UiBCAEQwAAAABdGyIEIARDAACAP14bQwAAfkOUEJ0HIgT8AUEAIARDAAAAAGAbIARDAAB/Q14bQQFqCzoAACAAIAZB/wFxIAFBCHRyOwARC9gCAQF/AkACQAJAAkAgASACIAMgBCAFIAYQzANFDQAgBSAGQQF0ayIBIARPDQECQCAEIAUgBmsiAksEQCABIANqIgEtAAAgAiADai0AAGsiAiACQR91IgJzIAJrIABB/wFxTQ0BQQEgAyAEIAUgBhDhBBoPCyACIARBxNXEABCuBwALIAUgBmoiAiAETw0CIAQgBU0NAyAAQf8BcSIHIAIgA2oiAC0AACADIAVqLQAAayICIAJBH3UiAnMgAmsiAkkgAyAEIAUgBhDhBCEDIAIgB0sNACAAQf8BIAAtAAAgA0EBakEBdSIAayICQQAgAkEAShsiAiACQf8BThs6AAAgAUH/AEGAfyAAIAEtAABqQYABayIAIABBgH9MGyIAIABB/wBOG0GAAXM6AAALDwsgASAEQbTVxAAQrgcACyACIARB1NXEABCuBwALIAUgBEHk1cQAEK4HAAu8AgEEfwJAAkACQAJAAkACQEEBIAAoAgAiAUH/////B2ogAUGAgICAeE0bDgIAAQMLIAAtAARBA0cNAiAAKAIIIgAoAgAhASAAQQRqKAIAIgIoAgAiAwRAIAEgAxEDAAsgAigCBCICBEAgAUEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAmpJDQUgA0EAIAQgAkEnaksbDQQgARCfAgsgAEEEaygCACIBQXhxIgJBEEEUIAFBA3EiARtJDQQgAUUgAkE0SXINAQwDCyABQYCAgIB4ckGAgICAeEYNASAAKAIEIgBBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0DIAJFIAMgAUEnak1yDQAMAgsgABCfAgsPC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAuKAwIFfQF7QwAAgD8hAkMAAIA/IAD9AAIAIgb94QEgBiAAKgIMQwAAAABdGyIG/R8DIgEgAUMAAIA/XhsQ8AQiASABkiIFQwAAAD+UEJgCIgGLQ703hjVdRQRAIAb9HwEgAZUhBCAG/R8AIAGVIQIgBv0fAiABlSEDCyAEIAOLIASLIAKLkpIiBJUhASACIASVIQICQCADQwAAAABdRQRAIAEhAwwBC0MAAIA/IAKLkyIDIAOMIAFDAAAAAGAbIQNDAACAPyABi5MiASABjCACQwAAAABgGyECC0MA8H9FQwAAAAAgBUPbD0lAlUMA8H9FlCIBIAFDAAAAAF0bIgEgAUMA8H9FXhsQnQchAUMAwH9EQwAAAAAgAkMAAAA/lEMAAAA/kkMAwH9ElCICIAJDAAAAAF0bIgIgAkMAwH9EXhsQnQf8ASAB/AFBFHRyQwDAf0RDAAAAACADQwAAAD+UQwAAAD+SQwDAf0SUIgMgA0MAAAAAXRsiAyADQwDAf0ReGxCdB/wBQQp0cgvDAgIGfwJ+IwBBEGsiBCQAIAEoAgAhBgJAAkAgASgCCCIDIAEoAgQiAkkEQCADIAZqLQAAQd8ARg0BCyADIAIgAiADSRshBwJAA0ACQAJAAkAgAyAHRg0CIAMgBmotAAAiAkHfAEYNBCACQTBrIgVB/wFxQQpJDQEgAkHhAGtB/wFxQRpJDQAgAkHBAGtB/wFxQRpPDQIgAkEdayEFDAELIAJB1wBrIQULIAEgA0EBaiIDNgIIIAQgCEI+EMYGIAQpAwhQRQRADAELIAQpAwAiCSAFrUL/AYN8IgggCVoNAQsLIABBADoAAUEBIQIMAgtBASECIAEgA0EBajYCCCAIQn9SBEAgACAIQgF8NwMIQQAhAgwCCyAAQQA6AAEMAQsgAEIANwMIIAEgA0EBajYCCEEAIQILIAAgAjoAACAEQRBqJAALxQIBBX9BEEEAIABBq50ETxsiAiACQQhyIgEgAEELdCICIAFBAnQoAqyBQ0ELdEkbIgEgAUEEciIBIAFBAnQoAqyBQ0ELdCACSxsiASABQQJyIgEgAUECdCgCrIFDQQt0IAJLGyIBIAFBAWoiASABQQJ0KAKsgUNBC3QgAksbIgEgAUEBaiIBIAFBAnQoAqyBQ0ELdCACSxsiAUECdCgCrIFDQQt0IgQgAkYgAiAES2ogAWoiBEECdCICQayBwwBqIQUgAigCrIFDQRV2IQJB/wUhAQJAIARBH00EQCAFKAIEQRV2IQEgBEUNAQsgBUEEaygCAEH///8AcSEDCwJAIAEgAkF/c2pFDQAgACADayEDIAFBAWshAUEAIQADQCAAIAJB24LCAGotAABqIgAgA0sNASABIAJBAWoiAkcNAAsLIAJBAXELxQIBBX9BEkEAIABB870ETxsiAiACQQlyIgEgAEELdCICIAFBAnQoApyAQ0ELdEkbIgEgAUEEciIBIAFBAnQoApyAQ0ELdCACSxsiASABQQJqIgEgAUECdCgCnIBDQQt0IAJLGyIBIAFBAWoiASABQQJ0KAKcgENBC3QgAksbIgEgAUEBaiIBIAFBAnQoApyAQ0ELdCACSxsiAUECdCgCnIBDQQt0IgQgAkYgAiAES2ogAWoiBEECdCICQZyAwwBqIQUgAigCnIBDQRV2IQJBlwchAQJAIARBIk0EQCAFKAIEQRV2IQEgBEUNAQsgBUEEaygCAEH///8AcSEDCwJAIAEgAkF/c2pFDQAgACADayEDIAFBAWshAUEAIQADQCAAIAJBxPvBAGotAABqIgAgA0sNASABIAJBAWoiAkcNAAsLIAJBAXEL7gICA38CfiMAQSBrIgQkAAJAIAEoAsQDQQJGBEACQCAAAn4CQCABLQDkA0UEQANAIAEoApwDIgIgASkDoAMiBSACrSIGIAUgBlQbpyIDRgRAQQEhA0EkIQJCJQwECyAEQQxqIAEgASgCmAMgA2ogAiADa0EAEOIBIAQpAhQhBSAEKAIQIQICQCAEKAIMRQRAIAEgASkDoAMgAq18NwOgAyAFpyEDDAELIAWnIQMgAkH/AXFBKEcNAwsgA0H/AXFBBkcNAAsgASgCvAQiAkUNBSABQQE6AOQDIAEgAkEBazYCvAQLIABBKDoAAAwCCyAEKAIcIQEgBUIIiAsiBT4ABSAAIAE2AgwgACADOgAEIAAgAjoAACAAQQtqIAVCMIg8AAAgAEEJaiAFQiCIPQAAIAAgAkEQdjsBAiAAIAJBCHY6AAELIARBIGokAA8LQcT9xgBBwABBhP7GABDnCAALQZT+xgBBK0HA/sYAEOcIAAvLAgEEfwJAAkACQCACIAMgBEEBdGsiBksEQCADIARrIgUgAk8NASACIANNDQIgAyAEaiIEIAJPDQMgASAFaiIHLQAAIQIgASADaiIILQAAIQVBACEDIAhB/wBBgH8gBUH7AEGAfyAABH9B/wBBgH8gASAGai0AACABIARqLQAAayIAIABBgH9MGyIAIABB/wBOGwUgAwsgBSACa0EDbGoiACAAQYB/TBsiACAAQfsAThtBBGpBA3UiAWtBgAFrIgMgA0GAf0wbIgMgA0H/AE4bQYABczoAACAHQf8AQYB/IAJB/AAgACAAQfwAThtBA2pBA3VqQYABayIAIABBgH9MGyIAIABB/wBOG0GAAXM6AAAgAQ8LIAYgAkHk08QAEK4HAAsgBSACQfTTxAAQrgcACyADIAJBhNTEABCuBwALIAQgAkGU1MQAEK4HAAvUAgICfQJ/IAQEQCAAIAEgAiADIAQQlAILIAYEQCAAIAEgAiAFIAYQxgELAkACQAJAIAhFIAJFcg0AIAAoAlxBA0kNAEMAAP5CQwAA/kIgACoCVJUgAC0AWEECRhshCiAAKAI0IAFBFWxqIQUgACgCOCEMQQAhBANAIAEgC2oiACAMTw0CIAtBAWohC0EAIQAgByEGA0AgACAEaiIDIAhPDQQgACAFakH/AEMAAP5CQwAA/sIgCiAGKgIAlCIJIAlDAAD+wl0bIgkgCUMAAP5CXhsQnQciCfwAQYB/IAlDAAAAw2AbIAlDAAD+Ql4bQQAgCSAJWxs6AAAgBkEEaiEGIABBAWoiAEEVRw0ACyAHQdQAaiEHIARBFWohBCAFQRVqIQUgAiALRw0ACwsPCyALQRVsIgMgCE8NACAAIAxBtKbHABCuBwALIAMgCEGkpscAEK4HAAvVAgEGfyMAQSBrIgIkACAAKAIMIQUCfwJAAkACQAJAIAAoAhQiASAAKAIQIgNJBEAgAEEMaiEEA0AgASAFai0AAEEJayIGQRlLDQJBASAGdEGTgIAEcUUEQCAGQRlHDQMgAEEANgIIIAAgAUEBajYCFCACQRRqIAQgABCBAiACKAIYIgEgAigCFCIDQQJGDQcaIAIoAhwhBCADQQFxRQ0EIARBBkcNBiABQaSiwQBBBhC7B0UNBQwGCyAAIAFBAWoiATYCFCABIANHDQALIAMhAQsgAkEFNgIUIAJBCGogBSADIAFBAWoiACADIAAgA0kbEPoBIAJBFGogAigCCCACKAIMENkHDAQLIAAgAkEUakGs28EAEP8BIAAQlwYMAwsgBEEGRw0BIAFBpKLBAEEGELsHDQELQQAMAQsgASAEQayiwQBBARD5BiAAEJcGCyACQSBqJAAL8AIBAX8CQCACBEAgAS0AAEEwTQ0BIAVBAjsBAAJAAkACQAJAIAPBIgZBAEoEQCAFIAE2AgQgAiADQf//A3EiA0sNAiAFQQA7AQwgBSACNgIIIAUgAyACazYCECAEDQFBAiEBDAQLIAUgAjYCICAFIAE2AhwgBUECOwEYIAVBADsBDCAFQQI2AgggBUGpjcIANgIEIAVBACAGayIDNgIQQQMhASACIARPDQMgBCACayICIANNDQMgAiAGaiEEDAILIAVBATYCICAFQdylxQA2AhwgBUECOwEYDAELIAVBAjsBGCAFQQE2AhQgBUHcpcUANgIQIAVBAjsBDCAFIAM2AgggBSACIANrIgI2AiAgBSABIANqNgIcIAIgBE8EQEEDIQEMAgsgBCACayEECyAFIAQ2AiggBUEAOwEkQQQhAQsgACABNgIEIAAgBTYCAA8LQeCNwgBBIUGEjsIAEOcIAAtBro3CAEEfQdCNwgAQ5wgAC9ACAQZ/IwBBIGsiAiQAIAAoAgwhBQJ/AkACQAJAAkAgACgCFCIBIAAoAhAiA0kEQCAAQQxqIQQDQCABIAVqLQAAQQlrIgZBGUsNAkEBIAZ0QZOAgARxRQRAIAZBGUcNAyAAQQA2AgggACABQQFqNgIUIAJBFGogBCAAEIECIAIoAhgiASACKAIUIgNBAkYNBxogAigCHCEEIANBAXFFDQQgBEECRw0GIAEvAABB5/QBRg0FDAYLIAAgAUEBaiIBNgIUIAEgA0cNAAsgAyEBCyACQQU2AhQgAkEIaiAFIAMgAUEBaiIAIAMgACADSRsQ+gEgAkEUaiACKAIIIAIoAgwQ2QcMBAsgACACQRRqQZzbwQAQ/wEgABCXBgwDCyAEQQJHDQEgAS8AAEHn9AFHDQELQQAMAQsgASAEQfimwQBBARD5BiAAEJcGCyACQSBqJAALmgIBBH8CQAJAAkACQCAAKAIAIgFBgICAgHhHBEAgAUUNAiAAKAIEIgBBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIAFqSQ0EIAJFIAMgAUEnak1yDQEMAwsgAC0ABEEDRw0BIAAoAggiACgCACEBIABBBGooAgAiAigCACIDBEAgASADEQMACyACKAIEIgIEQCABQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyACakkNBCADQQAgBCACQSdqSxsNAyABEJ8CCyAAQQRrKAIAIgFBeHEiAkEQQRQgAUEDcSIBG0kNAyABRQ0AIAJBNE8NAgsgABCfAgsPC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAvhAgIGfwF+IwBBQGoiAiQAIAJBKGogACAAKAIAKAIEEQEAIAIgAikDKDcCMCACIAJBMGqtIghCgICAgLABhDcDOEEBIQMCQCABKAIAIgYgASgCBCIHQaiawAAgAkE4ahDEAw0AIAEtAApBgAFxRQRAQQAhAwwBCyACQSBqIAAgACgCACgCBBEBACACQRhqIAIoAiAgAigCJCgCGBEBACACKAIYIgRFBEBBACEDDAELIAJBEGogBCACKAIcIgUoAhgRAQAgAigCFCEAIAIoAhAhASACIAU2AjQgAiAENgIwIAIgCEKAgICAsAGEIgg3AzggBiAHQbmZwAAgAkE4ahDEAw0AA0AgAUUEQEEAIQMMAgsgAkEIaiABIAAoAhgRAQAgAigCDCACKAIIIAIgADYCNCACIAE2AjAgAiAINwM4IQEhACAGIAdBuZnAACACQThqEMQDRQ0ACwsgAkFAayQAIAML2AIBBn8jAEEQayIEJAACfwJAAkACQCAAKAIAIgNFDQADQAJAIAAoAggiASAAKAIEIgVPDQAgASADai0AAEHFAEcNACAAIAFBAWo2AggMAgsCQAJAAkACQCACRQ0AIAAoAhAiBkUNACAGQZf8xQBBAhCYAw0HIAAoAgAiA0UNASAAKAIIIQEgACgCBCEFCyABIAVPDQACQCABIANqLQAAQcsAaw4CAgABCyAAIAFBAWo2AgggBCAAEN0EIAQtAAANBSAAIAQpAwgQ9gUNBgwCCyAAEIMCDQUMAQsgACABQQFqNgIIQQEgAEEAENQBDQUaCyACQQFrIQIgACgCACIDDQALC0EADAILIAQtAAEhASAAKAIQIgIEQEEBIAJBnp7FAEGOnsUAIAFBAXEiAhtBGUEQIAIbEJgDDQIaCyAAIAE6AAQgAEEANgIAQQAMAQtBAQsgBEEQaiQAC8QCAQd/IwBBEGsiAyQAAkACQAJAAkAgASAAKAK4AUYEQCAAKAK8ASACRg0BCyAAEKIFIAAgAhDMBCAAKAKwASABQQJ0IgUgASACakECdCIGEN4IIQggAkECdCIEIAAoAnwiB0sNASAAKAJ4IAMgCBC7CiIJNgIIIAMgBDYCDCAEIAlHDQMgBCAIEOUJIAAoArQBIAUgBhDeCCEFIAQgACgCiAEiBksNAiAAKAKEASADIAUQuwoiBzYCCCADIAQ2AgwgBCAHRw0DIAQgBRDlCSAAQQA6AMABIAAgAjYCvAEgACABNgK4ASAFQYQITwRAIAUQhQcLIAhBhAhJDQAgCBCFBwsgA0EQaiQADwtBACAEIAdBqIzBABDVBwALQQAgBCAGQZiMwQAQ1QcAC0EAIANBCGogA0EMakEAIABBtPPEABDkBwALugICB34CfyADQQhPBEAgACAAIANBA3YiC0EHdCIMaiAAIAtB4AFsIgNqIAsQ6gQhACABIAEgDGogASADaiALEOoEIQEgAiACIAxqIAIgA2ogCxDqBCECCyABKQMYIQggACkDGCEKIAApAwgiBiEEIAEpAwgiByEFAn8CQCAGIAdSDQAgACkDECIEIAEpAxAiBVINACAIIQVBACAKIgQgCFENARoLIAQgBVQLIQMgAikDGCEJIAIpAwgiBCEFAkACQAJAIAQgBlINACAAKQMQIgYgAikDECIFUg0AIAkhBSAJIAoiBlINACADRQ0BDAILIAMgBSAGVnMNAQsgAiABAn8CQCAEIAdSDQAgASkDECIHIAIpAxAiBFINACAIIQdBACAJIgQgCFENARoLIAQgB1YLIANzGyEACyAAC8ACAQd/IwBBEGsiBiQAIAAgASACEM0DAkAgAgRAIARBA2pBfHEhCSAAKAJgIQogACgCZCEIQQAhAQNAIAFBA2ogCE8NAgJAAkAgASAJRg0AAkAgBCABayIFQQAgBCAFTxsiBUEBRwRAAkAgBUECaw4CAgAECyABQQNqIQEMAgsgAUEBaiEBDAELIAFBAmohAQsgASAEQYCGwQAQrgcACyAGIAMgB2oiBSoCADgCACAGIAVBDGoqAgA4AgwgBiAFQQRqKQIANwIEIAcgCmoiBUEPaiAGELEEIgtBEHY6AAAgBUEIaiIFIAUvAQAgC0EQdCIFQYCA/AdxciAFQYCAgHhxcjYCACAHQRBqIQcgAUEEaiEBIAJBAWsiAg0ACwsgAEEBOgC4ASAGQRBqJAAPCyABIAFBBGogCEHwhcEAENUHAAuuAgIFfwF9IAAoAggiAyAAKAIARgRAIAAQ6QYLIAAgA0EBajYCCCAAKAIEIgQgA0EDdGoiACACNgIEIAAgATgCAAJAIANFBEBBACEADAELIAEgAVsEQANAIAQgA0EBayIGQQF2IgBBA3RqIgUqAgAiCCAIWyABIAhfRXFBfyABIAhgGyIHQQBMIAIgBUEEaigCAE0gBxsEQCADIQAMAwsgBCADQQN0aiAFKQIANwIAIAAhAyAGQQFLDQAMAgsACwNAAkAgBCADQQFrIgZBAXYiAEEDdGoiBSoCACIIIAhbIAEgCF9FcQ0AIAIgBUEEaigCAEsNACADIQAMAgsgBCADQQN0aiAFKQIANwIAIAAhAyAGQQJPDQALCyAEIABBA3RqIgAgAjYCBCAAIAE4AgALtgICCH8BfSMAQRBrIgUkAAJAAkAgAyAEbCIGQf////8DSw0AIAZBAnQiB0H9////B08NAAJAIAdFBEBBBCEIQQAhBgwBCyAHEHEiCEUNAgsgBUEANgIMIAUgCDYCCCAFIAY2AgQCQCAEBEAgBEECdCEMA0AgCUECdCELIApBAnQhBiAKQQFqIQogAyEHA0AgBkEDaiACTw0DIAEgBmoqAAAhDSAFKAIEIAlGBEAgBUEEahD2BiAFKAIIIQgLIAggC2ogDTgCACAFIAlBAWoiCTYCDCALQQRqIQsgBiAMaiEGIAdBAWsiBw0ACyAEIApHDQALCyAAIAUpAgQ3AgAgAEEIaiAFQQxqKAIANgIAIAVBEGokAA8LIAYgBkEEaiACQdS/xwAQ1QcACxDPCQALQQQgBxDhCAALtgICB38BfSMAQRBrIggkAAJAAkAgAyAEbCIHQf////8DSw0AIAdBAnQiCUH9////B08NAAJAIAlFBEBBBCEKQQAhBwwBCyAJEHEiCkUNAgsgCEEANgIMIAggCjYCCCAIIAc2AgQCQCAEBEAgBiAFkyEOQQAhBwNAIAtBAnQhDCAHQQFqIAMhDQNAIAIgB00NAyAFIA4gASAHai0AALNDAAB/Q5WUkiEGIAgoAgQgC0YEQCAIQQRqEPYGIAgoAgghCgsgCiAMaiAGOAIAIAggC0EBaiILNgIMIAxBBGohDCAEIAdqIQcgDUEBayINDQALIgcgBEcNAAsLIAAgCCkCBDcCACAAQQhqIAhBDGooAgA2AgAgCEEQaiQADwsgByACQcTCxwAQrgcACxDPCQALQQQgCRDhCAALsgIBBX8CQAJAAkAgAiACQQNqQXxxIgRGBEAgA0EIayEGQQAhBAwBCyADIAQgAmsiBCADIARJGyEEIAMEQCABQf8BcSEHQQEhBgNAIAIgBWotAAAgB0YNBCAEIAVBAWoiBUcNAAsLIAQgA0EIayIGSw0BCyABQf8BcUGBgoQIbCEFA0BBgIKECCACIARqIgcoAgAgBXMiCGsgCHJBgIKECCAHQQRqKAIAIAVzIgdrIAdycUGAgYKEeHFBgIGChHhHDQEgBEEIaiIEIAZNDQALCwJAIAMgBEYNACADIARrIQMgAiAEaiECQQAhBSABQf8BcSEBA0AgASACIAVqLQAARwRAIAVBAWoiBSADRw0BDAILCyAEIAVqIQVBASEGDAELQQAhBgsgACAFNgIEIAAgBjYCAAveAgIBfQJ/An0gALwiA0H/////B3EiAkH////7A00EQCACQYCAgPgDTwRAIANBAE4EQEMAAIA/IACTQwAAAD+UIgCRIgEgACAAIABDa9MNvJRDuhMvvZKUQ3WqKj6SlCAAQ67lNL+UQwAAgD+SlZQgACABvEGAYHG+IgAgAJSTIAEgAJKVkiAAkiIAIACSDwtD2g/JPyAAQwAAgD+SQwAAAD+UIgCRIgEgASAAIAAgAENr0w28lEO6Ey+9kpRDdaoqPpKUIABDruU0v5RDAACAP5KVlENoIaKzkpKTIgAgAJIPC0PaD8k/IAJBgYCAlANJDQEaQ2ghojMgACAAIACUIgEgASABQ2vTDbyUQ7oTL72SlEN1qio+kpQgAUOu5TS/lEMAAIA/kpWUkyAAk0PaD8k/kg8LIAJBgICA/ANHBEBDAAAAACAAIACTlQ8LQwAAAABD2g9JQCADQQBOGwsLqwIBBX9BC0EAIABBgI8ETxsiAiACQQVqIgEgAEELdCICIAFBAnQoArCCQ0ELdEkbIgEgAUEDaiIBIAFBAnQoArCCQ0ELdCACSxsiASABQQFqIgEgAUECdCgCsIJDQQt0IAJLGyIBIAFBAWoiASABQQJ0KAKwgkNBC3QgAksbIgFBAnQoArCCQ0ELdCIEIAJGIAIgBEtqIAFqIgRBAnQiAkGwgsMAaiEFIAIoArCCQ0EVdiECQbkCIQECQCAEQRRNBEAgBSgCBEEVdiEBIARFDQELIAVBBGsoAgBB////AHEhAwsCQCABIAJBf3NqRQ0AIAAgA2shAyABQQFrIQFBACEAA0AgACACQdqIwgBqLQAAaiIAIANLDQEgASACQQFqIgJHDQALCyACQQFxC4ECAQV/IABBBGoQ9gICQAJAIAAtABxBA0YEQCAAKAIgIgIoAgAhASACQQRqKAIAIgMoAgAiBARAIAEgBBEDAAsgAygCBCIDBEAgAUEEaygCACIEQXhxIgVBBEEIIARBA3EiBBsgA2pJDQIgBEEAIAUgA0EnaksbDQMgARCfAgsgAkEEaygCACIBQXhxIgNBEEEUIAFBA3EiARtJDQEgAUEAIANBNE8bDQIgAhCfAgsgAEEEaygCACICQXhxIgFBKEEsIAJBA3EiAhtJDQAgAkEAIAFBzABPGw0BIAAQnwIPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvGAgIEfwF+IwBBQGoiAiQAIAAoAgAhACACQQA2AjwgAkKAgICAEDcCNCACQaiHxgA2AhwgAkKggICABjcCICACIAJBNGo2AhgCQAJAIAAgAkEYaiIDENoDRQRAIAJBEGogAkE8aigCADYCACACIAIpAjQ3AwggAkKAgICAECIGIABBEGqthDcDKCACIAYgAEEMaq2ENwMgIAIgAkEIaq1CgICAgOANhDcDGCABKAIAIAEoAgRBifbAACADEMQDIAIoAggiAARAIAIoAgwiBEEEaygCACIDQXhxIgVBBEEIIANBA3EiAxsgAGpJDQIgA0EAIAUgAEEnaksbDQMgBBCfAgsgAkFAayQADwtB0IfGAEE3IAJBCGpBwIfGAEGIiMYAEIkHAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL2QIBA38jAEEQayICJAAgASgCAEGUk8UAQQkgASgCBCgCDBEAACEDIAJBADoABSACIAM6AAQgAiABNgIAIAIgACgAACIANgIIIAJBsJPFAEEEIAJBCGpBoJPFABD8BCACIABBf3NBBXZBAXE6AAxBxJPFAEEIIAJBDGpBtJPFABD8BCACIABBDXZBAXE6AA1BzJPFAEEHIAJBDWpBtJPFABD8BCACIABBFXZBAXE6AA5B05PFAEEIIAJBDmpBtJPFABD8BCACIABBHXZBAXE6AA9B25PFAEEIIAJBD2pBtJPFABD8BCEAIAItAAUiAyACLQAEIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQaefxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEHKnsUAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQv3AQEEfwJAAkAgACgCACICBEAgACgCBCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEJ8CCyAAKAIMIgIEQCAAKAIQIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQnwILIAAoAhgiAgRAIAAoAhwiAEEEaygCACIDQXhxIgFBBEEIIANBA3EiAxsgAmpJDQEgA0EAIAEgAkEnaksbDQIgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAu5AgICfQV/IAAgASACEM0DIAJBA2whCSAAKgKEASAAKgKAASIFkyEGQQIgBCAEQQJNG0EDbkEDbCEKIAAoAmAhASAAKAJkIQdBACECQQAhAAJAAkACQAJAA0AgAkEDaiAHTw0CIAAgBE8NAyADIAUgASgCACIIQf8BcbNDAAB/Q5UgBpSSOAIAIABBAWoiCyAETw0EIANBBGogBSAIQQh2Qf8BcbNDAAB/Q5UgBpSSOAIAIAAgCkYNASADQQhqIAUgCEEQdkH/AXGzQwAAf0OVIAaUkjgCACABQRBqIQEgAkEEaiECIANBDGohAyAJIABBA2oiAEcNAAsPCyAAQQJqIARB2PjAABCuBwALIAIgAkEEaiAHQej4wAAQ1QcACyAAIARBuPjAABCuBwALIAsgBEHI+MAAEK4HAAuWAgEDfyMAQRBrIgMkAAJ/AkAgASgCCCICQYCAgBBxRQRAIAJBgICAIHENASABIAAoAgAiAEF/c0EfdkEBQQAgACAAQR91IgFzIAFrIANBBmoiARCcBSIAIAFqQQogAGsQwwMMAgsgACgCACEAQQkhAgNAIAIgA2pBBGogAEEPcS0AtKJFOgAAIAJBAWshAiAAQQ9LIABBBHYhAA0ACyABQQFBrp/FAEECIAIgA2pBBWpBCSACaxDDAwwBCyAAKAIAIQBBCSECA0AgAiADakEEaiAAQQ9xLQC5i0I6AAAgAkEBayECIABBD0sgAEEEdiEADQALIAFBAUGun8UAQQIgAiADakEFakEJIAJrEMMDCyADQRBqJAALrAICB38BfSMAQRBrIgckAAJAAkAgAyAEbCIGQf////8DSw0AIAZBAnQiCEH9////B08NAAJAIAhFBEBBBCEJQQAhBgwBCyAIEHEiCUUNAgsgB0EANgIMIAcgCTYCCCAHIAY2AgQCQCAEBEBBACEGA0AgCkECdCELIAZBAWogAyEMA0AgAiAGTQ0DIAUgASAGaiwAALJDAAD+QpWUIQ0gBygCBCAKRgRAIAdBBGoQ9gYgBygCCCEJCyAJIAtqIA04AgAgByAKQQFqIgo2AgwgC0EEaiELIAQgBmohBiAMQQFrIgwNAAsiBiAERw0ACwsgACAHKQIENwIAIABBCGogB0EMaigCADYCACAHQRBqJAAPCyAGIAJB1MLHABCuBwALEM8JAAtBBCAIEOEIAAuuAgEIfyMAQRBrIgQkAAJAAkAgA0H/////A0sNACADQQJ0IgVB/f///wdPDQACQCAFRQRAQQQhBwwBCyADIQYgBRBxIgdFDQILIARBADYCDCAEIAc2AgggBCAGNgIEAkACQCADBEAgAkEBdiEJIAJBAWpBAXYhCkEAIQZBACEFA0AgBSAKRg0CIAUgCUYNAyABIAZqLwAAIQsgBCgCBCAFRgRAIARBBGoQ5gYgBCgCCCEHCyAHIAhqIAs2AgAgBCAFQQFqIgU2AgwgCEEEaiEIIAZBAmohBiADIAVHDQALCyAAIAQpAgQ3AgAgAEEIaiAEQQxqKAIANgIAIARBEGokAA8LIAYgAkGUwccAEK4HAAsgBkEBaiACQaTBxwAQrgcACxDPCQALQQQgBRDhCAALugIBBX8jAEEQayIFJAAgBUEIaiAAKAIIKAIAIAEgAhCoBAJAAkACQAJAIAUtAAgiBkEERwRAIAAoAgQhASAALQAAIgJBBE0gAkEDR3FFBEAgASgCACECIAFBBGooAgAiAygCACIEBEAgAiAEEQMACyADKAIEIgMEQCACQQRrKAIAIgRBeHEiB0EEQQggBEEDcSIEGyADakkNAyAEQQAgByADQSdqSxsNBCACEJ8CCyABQQRrKAIAIgJBeHEiA0EQQRQgAkEDcSICG0kNBCACQQAgA0E0TxsNBSABEJ8CCyAAIAUpAwg3AgALIAVBEGokACAGQQRHDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC7oCAQR/QR8hAiAAQgA3AhAgAUH///8HTQRAIAFBJiABQQh2ZyIDa3ZBAXEgA0EBdGtBPmohAgsgACACNgIcIAJBAnRBqIjJAGohBEEBIAJ0IgNBxIvJACgCAHFFBEAgBCAANgIAIAAgBDYCGCAAIAA2AgwgACAANgIIQcSLyQBBxIvJACgCACADcjYCAA8LAkACQCABIAQoAgAiAygCBEF4cUYEQCADIQIMAQsgAUEZIAJBAXZrQQAgAkEfRxt0IQUDQCADIAVBHXZBBHFqIgQoAhAiAkUNAiAFQQF0IQUgAiEDIAIoAgRBeHEgAUcNAAsLIAIoAggiASAANgIMIAIgADYCCCAAQQA2AhggACACNgIMIAAgATYCCA8LIARBEGogADYCACAAIAM2AhggACAANgIMIAAgADYCCAvTAgEEfyMAQSBrIgUkAEEBIQcCQCAALQAEDQAgAC0ABSEIIAAoAgAiBi0ACkGAAXFFBEAgBigCAEGX/MUAQaSfxQAgCEEBcSIIG0ECQQMgCBsgBigCBCgCDBEAAA0BIAYoAgAgASACIAYoAgQoAgwRAAANASAGKAIAQamfxQBBAiAGKAIEKAIMEQAADQEgAyAGIAQoAgwRAgAhBwwBCyAIQQFxRQRAIAYoAgBB6IvCAEEDIAYoAgQoAgwRAAANAQsgBUEBOgAPIAVB0IvCADYCFCAFIAYpAgA3AgAgBSAGKQIINwIYIAUgBUEPajYCCCAFIAU2AhAgBSABIAIQsgMNACAFQamfxQBBAhCyAw0AIAMgBUEQaiAEKAIMEQIABEAMAQsgBSgCEEHJi8IAQQIgBSgCFCgCDBEAACEHCyAAQQE6AAUgACAHOgAEIAVBIGokACAAC9MCAQZ/IwBBsANrIgIkACACQQhqIAFBARCFAQJAAkACQAJ/IAIoAghBAkYEQCACKAIMIQMgAkEANgKYAyACQoCAgIAQNwKQAyACQcSzwQA2AqADIAJCoICAgAY3AqQDIAIgAkGQA2o2ApwDIAMgAkGcA2oQ5wQNAiACKAKQAyEEIAIoApQDIgYgAigCmAMQ7AghASAEBEAgBkEEaygCACIFQXhxIgdBBEEIIAVBA3EiBRsgBGpJDQQgBUEAIAcgBEEnaksbDQUgBhCfAgsgAyADKAIAKAIAEQMAQQEMAQsgAkHMAWoiASACQQhqQcQB/AoAACABENABIQFBAAshAyAAIAE2AgQgACADNgIAIAJBsANqJAAPC0HQh8YAQTcgAkGvA2pB3LPBAEGIiMYAEIkHAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALuwIBA38jAEEgayICJAACfwJAAkACQCAAKAIARQRAIAAoAhAiAA0BDAMLIAJBCGogABC4BSACKAIIIgNFBEAgAi0ADCEDIAAoAhAiBARAQQEgBEGensUAQY6exQAgA0EBcSIEG0EZQRAgBBsQmAMNBRoLIAAgAzoABCAAQQA2AgBBAAwECyACQQhqIAMgAigCDCIEEL8EAkAgAigCCEEBRgRAIAIgAikDEDcDGCAAKAIQIgBFDQQgAkEYaiAAENMHDQEMAwsgACgCECIARQ0DIABBrp/FAEECEJgDDQAgACADIAQQmANFDQILQQEMAwsgAEG3nsUAQQEQmAMMAgsgAC0ACkGAAXENACACIAEQ0AcgAigCACIBBEAgACABIAIoAgQQmAMMAgtBsJ/FABDQCQALQQALIAJBIGokAAvLAwEIfyMAQRBrIgMkAAJAQZiMyQAoAgBFBEBBmIzJAEF/NgIAAn8CQAJAAkACQEGkjMkAKAIAIgBBoIzJACgCACIBRgRAIABBnIzJACgCACIBRw0B0G9BgAEgACAAQYABTRsiBvwPASICQX9GDQdBqIzJACgCACIBRQ0CIAAgAWogAkYNAwwHCyAAIAFPDQZBqIXJACgCACAAQQJ0aigCACECQQAMBAsgACABTw0FQaiFyQAoAgAhAgwCC0GojMkAIAI2AgALIANBBGohBEGohckAKAIAIQJBASEHAn8gACAGaiIGIgFB/////wFLBEBBBAwBCyABQQJ0IQUCQAJ/IAAEQCACIABBAnRBBCAFELkCDAELIAUQcQsiAUUEQCAEQQQ2AgQMAQsgBCABNgIEQQAhBwtBCAsgBGogBTYCACAEIAc2AgAgAygCBEEBRg0DQaiFyQAgAygCCCICNgIAQZyMyQAgBjYCAAsgAiAAQQJ0aiAAQQFqIgI2AgBBoIzJACACNgIAQZiMyQAoAgBBAWoLIQFBpIzJACACNgIAQZiMyQAgATYCAEGojMkAKAIAIQEgA0EQaiQAIAAgAWoPC0HM4ccAELMKAAsAC6gCAQZ/IAAoAgggAU8EQCAAIAE2AggLAkACQAJAAkACQCAAKAIUIgJFIAEgAktyDQAgACABNgIUIAEgAkYNACACIAFrIQUgACgCECABQRhsaiECA0AgAkEUaigCACIDQQVPBEAgAkEIaigCACIGQQRrKAIAIgRBeHEiByADQQJ0IgNBBEEIIARBA3EiBBtqSQ0DIARBACAHIANBJ2pLGw0EIAYQnwILIAJBGGohAiAFQQFrIgUNAAsLIAAoAiAiAkUNAyABIAJNDQIMAwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIAAgATYCIAsgACgCLCICRSABIAJLckUEQCAAIAE2AiwLIAAoAjgiAkUgASACS3JFBEAgACABNgI4CwvFAgIDfwF7IwBBIGsiAiQAAkACQAJAIAAoAgAiA0UNACAAKAIIIgEgACgCBE8NAAJAAkACQCABIANqLQAAIgNByQBHBEAgA0HCAEcNBCAAIAFBAWo2AgggAiAAEJkGIAIoAgANASAAKAIQIgFFDQIgAUGensUAQY6exQAgAi0ABEEBcSIBG0EZQRAgARsQmANFDQJBAiEBDAYLIAAgAUEBajYCCEECIQEgAEEAEMwBRQ0EDAULIAAoAhBFDQEgAP0AAgAhBCAAIAL9AAIA/QsCACACIAT9CwMQIAAQgQUgACAC/QADEP0LAgBB/wFxIQEMBAsgACAC/QACAP0LAgALQQAhAQwCC0ECQQAgAEEAEMwBGyEBDAELIAAoAhAiAwRAIANBy57FAEEBEJgDDQELQQJBASAAEOgEGyEBCyACQSBqJAAgAQvFAgIDfwF+IwBBIGsiAiQAIAJBCToAECACIAEgAkEQaiABKAKAARDYBAJAAkAgAi0AACIDQR1HBEAgAikCBCEFAn8gA0UEQCACIAU3AxAgBachAyACKQIUIQVBBQwBCyACKAIMIQRBEBBxIgFFDQMgASADOgAAIAEgBDYCDCABIAU3AgQgASACQQFyIgMvAAA7AAEgAUEDaiADQQJqLQAAOgAAIAJBgAY7ARAgAigCECEDQQALIQQgAEHMv8QANgIYIAAgATYCFCAAIAU3AwggACADNgIEIAAgBDYCAAwBCyACKQIIIQVBACEDIAIoAgQiBEGAgICAeEcEQCACKAIIIAIoAgwQlwFB/wFxIgNBACADQQhHGyEDCyAAIAU3AwggACAENgIEIAEgAzoAmAEgAEEGNgIACyACQSBqJAAPC0EQEOgJAAuHAwEKfyMAQRBrIgUkAAJAAkAgA0EASA0AIANBAXQiBkH/////B08NAAJAIAZFBEBBAiEEDAELIAMhByAGEHEiBEUNAgsgBUEANgIMIAUgBDYCCCAFIAc2AgQCQAJAIAMEQCACQQF2IQogAkEBakEBdiELQQAhB0EAIQYDQCAGIAtGDQIgBiAKRg0DIAEgB2ovAAAhDCAFKAIEIAZGBEAjAEEQayIEJAAgBEEEaiAFQQRqIgkoAgAiCCAJKAIEQQQgCEEBdCIIIAhBBE0bIghBAkECEIsGIAQoAgRBAUYEQCAEKAIIIAQoAgwQ4QgACyAEKAIIIQ0gCSAINgIAIAkgDTYCBCAEQRBqJAAgBSgCCCEECyAEIAdqIAw7AQAgBSAGQQFqIgY2AgwgB0ECaiEHIAMgBkcNAAsLIAAgBSkCBDcCACAAQQhqIAVBDGooAgA2AgAgBUEQaiQADwsgByACQeS/xwAQrgcACyAHQQFqIAJB9L/HABCuBwALEM8JAAtBAiAGEOEIAAu4AgEGfwJAAkACQAJAAkBBBBBxIgEEQCABQaC1wQA2AgBBCBBxIgBFDQEgACABNgIAIABBwLXBADYCBEHQh8kAQdCHyQAoAgAiASAAIAEbNgIAIAFFBEAgAA8LIAAoAgAhAiAAKAIEIgMoAgAiBARAIAIgBBEDAAsgAygCBCIDBEAgAkEEaygCACIEQXhxIgVBBEEIIARBA3EiBBsgA2pJDQMgBEEAIAUgA0EnaksbDQQgAhCfAgsgAEEEaygCACICQXhxQQxBECACQQNxIgMbSQ0EIANBACACQTBPGw0FIAAQnwIgAQ8LQQQQ6AkAC0EIEOgJAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC8MCAQV/IwBBMGsiASQAIAAoAgwhBAJ/AkACQAJAAkAgACgCFCICIAAoAhAiA0kEQANAAkAgAiAEai0AACIFQQlrDiQAAAQEAAQEBAQEBAQEBAQEBAQEBAQEBAAEBAQEBAQEBAQEBAYDCyAAIAJBAWoiAjYCFCACIANHDQALIAMhAgsgAUEDNgIkIAFBEGogBCADIAJBAWoiACADIAAgA0kbEPoBIAFBJGogASgCECABKAIUENkHDAQLIAVB/QBGDQELIAFBFjYCJCABQQhqIAQgAyACQQFqIgAgAyAAIANJGxD6ASABQSRqIAEoAgggASgCDBDZBwwCCyAAIAJBAWo2AhRBAAwBCyABQRU2AiQgAUEYaiAEIAMgAkEBaiIAIAMgACADSRsQ+gEgAUEkaiABKAIYIAEoAhwQ2QcLIAFBMGokAAuKAgEDfyMAQRBrIgMkACAAKAIAIQACfwJAIAEoAggiAkGAgIAQcUUEQCACQYCAgCBxDQEgAUEBQQFBACAAKAIAIANBBmoiARCcBSIAIAFqQQogAGsQwwMMAgsgACgCACEAQQkhAgNAIAIgA2pBBGogAEEPcS0AtKJFOgAAIAJBAWshAiAAQQ9LIABBBHYhAA0ACyABQQFBrp/FAEECIAIgA2pBBWpBCSACaxDDAwwBCyAAKAIAIQBBCSECA0AgAiADakEEaiAAQQ9xLQC5i0I6AAAgAkEBayECIABBD0sgAEEEdiEADQALIAFBAUGun8UAQQIgAiADakEFakEJIAJrEMMDCyADQRBqJAALhwICAX4CfyMAQSBrIgMkAAJ/AkAgASgCCCIEQYCAgBBxRQRAIARBgICAIHENASABQQFBAUEAIAApAwAgA0EMaiIBEOUDIgAgAWpBFCAAaxDDAwwCCyAAKQMAIQJBESEAA0AgACADakEKaiACp0EPcS0AtKJFOgAAIABBAWshACACQg9WIAJCBIghAg0ACyABQQFBrp/FAEECIAAgA2pBC2pBESAAaxDDAwwBCyAAKQMAIQJBESEAA0AgACADakEKaiACp0EPcS0AuYtCOgAAIABBAWshACACQg9WIAJCBIghAg0ACyABQQFBrp/FAEECIAAgA2pBC2pBESAAaxDDAwsgA0EgaiQAC4MCAQN/IwBBEGsiAyQAAn8CQCABKAIIIgJBgICAEHFFBEAgAkGAgIAgcQ0BIAFBAUEBQQAgACgCACADQQZqIgEQnAUiACABakEKIABrEMMDDAILIAAoAgAhAEEJIQIDQCACIANqQQRqIABBD3EtALSiRToAACACQQFrIQIgAEEPSyAAQQR2IQANAAsgAUEBQa6fxQBBAiACIANqQQVqQQkgAmsQwwMMAQsgACgCACEAQQkhAgNAIAIgA2pBBGogAEEPcS0AuYtCOgAAIAJBAWshAiAAQQ9LIABBBHYhAA0ACyABQQFBrp/FAEECIAIgA2pBBWpBCSACaxDDAwsgA0EQaiQAC7ECAQN/AkACQCABKAIIQQJHBEAgASgCwAQiAwRAAn8gA0EBcUUgAS0AxwIiAkEQR3JFBEAgA0GQgARxIQJBCAwBC0EIIAIgAkEHTRsgAiADQZCABHEiAhsLIQQCQAJAAkACQAJAAkAgAgRAIAEtAMYCIQIgASgC1AFBgYCAgHhHDQEgA0GAgARxIQEgAg4EAgQDBQQLIAEtAMYCIQEMCAtBBCEBIAIOBAcCBAQCCyABRQRAQQAhAQwHC0EEIQEMBgsgAQ0CQQIhAgsgAiEBDAQLIAENAEECIQEMAwtBBiEBDAILIAEtAMcCIQQgAS0AxgIhAQwCC0GU/cYAENAJAAsgBEH/AXEiAkEQTUEAQQEgAnRBloIEcRsNAEHQ/sYAENAJAAsgACAEOgABIAAgAToAAAuAAgIBfgJ/IwBBIGsiAyQAIAAoAgApAwAhAgJ/AkAgASgCCCIAQYCAgBBxRQRAIABBgICAIHENASABQQFBAUEAIAIgA0EMaiIBEOUDIgAgAWpBFCAAaxDDAwwCC0ERIQADQCAAIANqQQpqIAKnQQ9xLQC0okU6AAAgAEEBayEAIAJCD1YgAkIEiCECDQALIAFBAUGun8UAQQIgACADakELakERIABrEMMDDAELQREhAANAIAAgA2pBCmogAqdBD3EtALmLQjoAACAAQQFrIQAgAkIPViACQgSIIQINAAsgAUEBQa6fxQBBAiAAIANqQQtqQREgAGsQwwMLIANBIGokAAuyAgICfwJ8IwBBIGsiBSQAIAO6IQcgAAJ/AkACQAJAAkAgBCAEQR91IgZzIAZrIgZBtQJPBEADQCAHRAAAAAAAAAAAYQ0FIARBAE4NAiAHRKDI64XzzOF/oyEHIARBtAJqIgQgBEEfdSIGcyAGayIGQbUCTw0ACwsgBkEDdCsDmOdGIQggBEEATg0BIAcgCKMhBwwDCyAFQQ42AhQgBUEIaiABKAIMIAEoAhAgASgCFBD6ASAAIAVBFGogBSgCCCAFKAIMENkHNgIEDAELIAcgCKIiB5lEAAAAAAAA8H9iDQEgBUEONgIUIAUgASgCDCABKAIQIAEoAhQQ+gEgACAFQRRqIAUoAgAgBSgCBBDZBzYCBAtBAQwBCyAAIAcgB5ogAhs5AwhBAAs2AgAgBUEgaiQAC5wCAAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAAQf8BcUEBaw4HBQABAgICAwQLIANBfU0gA0ECaiIAIAJNcQ0FIAMgACACQfS2xwAQ1QcACyADQX1NIANBAmoiACACTXENBSADIAAgAkGEt8cAENUHAAsgA0F7TSADQQRqIgAgAk1xDQUgAyAAIAJBlLfHABDVBwALIANBd00gA0EIaiIAIAJNcQ0FIAMgACACQaS3xwAQ1QcACyACIANNDQUgASADaiwAAA8LIAIgA0sNBSADIAJB5LbHABCuBwALIAEgA2ouAAAPCyABIANqLwAADwsgASADaigAAA8LIAEgA2orAAD8Aw8LIAMgAkHUtscAEK4HAAsgASADai0AAAuPAgEGfyAAKAIIIgQhAgJ/QQEgAUGAAUkNABpBAiABQYAQSQ0AGkEDQQQgAUGAgARJGwsiBiAAKAIAIARrSwR/IAAgBCAGQQFBARCYBiAAKAIIBSACCyAAKAIEaiECAkACQCABQYABTwRAIAFBP3FBgH9yIQUgAUEGdiEDIAFBgBBJDQEgAUEMdiEHIANBP3FBgH9yIQMgAUGAgARPBEAgAiAFOgADIAIgAzoAAiACIAdBP3FBgH9yOgABIAIgAUESdkFwcjoAAAwDCyACIAU6AAIgAiADOgABIAIgB0HgAXI6AAAMAgsgAiABOgAADAELIAIgBToAASACIANBwAFyOgAACyAAIAQgBmo2AghBAAuhAgEGfwJAAkACQAJAAkAgACgCBCIEIAAoAggiBWsiCCADIAJrIgZBEGpJBEAgASgCCCIHIAEoAgQiCUsNBSACIANLIAMgB0tyDQEgBCAFSQ0CIAYgCE0NA0EAIAYgCEGs0MgAENUHAAsgAiADRg0DIAAoAgAgBWoiBCABKAIAIgEgAmoiAv0AAAD9CwAAIAJBEGoiAiABIANqIgFPDQMgBEEQaiEDA0AgAyAC/QAAAP0LAAAgA0EQaiEDIAJBEGoiAiABSQ0ACwwDCyACIAMgB0HM0MgAENUHAAsgBSAEIARBvNDIABDVBwALIAZFDQAgACgCACAFaiABKAIAIAJqIAb8CgAACyAAIAUgBmo2AggPC0EAIAcgCUGgz8gAENUHAAuLAgEGfyAAKAIIIgQhAgJ/QQEgAUGAAUkNABpBAiABQYAQSQ0AGkEDQQQgAUGAgARJGwsiBiAAKAIAIARrSwR/IAAgBCAGELMGIAAoAggFIAILIAAoAgRqIQICQAJAIAFBgAFPBEAgAUE/cUGAf3IhBSABQQZ2IQMgAUGAEEkNASABQQx2IQcgA0E/cUGAf3IhAyABQYCABE8EQCACIAU6AAMgAiADOgACIAIgB0E/cUGAf3I6AAEgAiABQRJ2QXByOgAADAMLIAIgBToAAiACIAM6AAEgAiAHQeABcjoAAAwCCyACIAE6AAAMAQsgAiAFOgABIAIgA0HAAXI6AAALIAAgBCAGajYCCEEAC4sCAQZ/IAAoAggiBCECAn9BASABQYABSQ0AGkECIAFBgBBJDQAaQQNBBCABQYCABEkbCyIGIAAoAgAgBGtLBH8gACAEIAYQtAYgACgCCAUgAgsgACgCBGohAgJAAkAgAUGAAU8EQCABQT9xQYB/ciEFIAFBBnYhAyABQYAQSQ0BIAFBDHYhByADQT9xQYB/ciEDIAFBgIAETwRAIAIgBToAAyACIAM6AAIgAiAHQT9xQYB/cjoAASACIAFBEnZBcHI6AAAMAwsgAiAFOgACIAIgAzoAASACIAdB4AFyOgAADAILIAIgAToAAAwBCyACIAU6AAEgAiADQcABcjoAAAsgACAEIAZqNgIIQQALiwIBBn8gACgCCCIEIQICf0EBIAFBgAFJDQAaQQIgAUGAEEkNABpBA0EEIAFBgIAESRsLIgYgACgCACAEa0sEfyAAIAQgBhCmBiAAKAIIBSACCyAAKAIEaiECAkACQCABQYABTwRAIAFBP3FBgH9yIQUgAUEGdiEDIAFBgBBJDQEgAUEMdiEHIANBP3FBgH9yIQMgAUGAgARPBEAgAiAFOgADIAIgAzoAAiACIAdBP3FBgH9yOgABIAIgAUESdkFwcjoAAAwDCyACIAU6AAIgAiADOgABIAIgB0HgAXI6AAAMAgsgAiABOgAADAELIAIgBToAASACIANBwAFyOgAACyAAIAQgBmo2AghBAAv4AQIEfwJ+IAAoAhAhAiAAKQMIIQYgACgCBCEFIAAoAhgiBEEASARAIAIgBUkEQCAAKAIAIAJBAnRqKAAAIQMLIANBGHQgA0GA/gNxQQh0ciADQQh2QYD+A3EgA0EYdnJyrSAGQiCGhCEGIARBIGohBCACQQFqIQILIAIgBU0EQCAAKAIUIQMgACACNgIQIAAgBiADQQFrIAFB/wFxbEEIdkEBaiIBrSAEQT9xrYYiB0IAIAYgB1oiAht9NwMIIAAgBCADIAFrIAEgAhsiAWciBEEYayIDQQAgAyAETRsiBGs2AhggACABIAR0NgIUIAIPCyAAIAEQzQQLlgIBBH8jAEEQayICJAAgAkEANgIMAn8CQCABQYABTwRAIAFBP3FBgH9yIQMgAUEGdiEEIAFBgBBJDQEgAUEMdiEFIARBP3FBgH9yIQQgAUGAgARPBEAgAiADOgAPIAIgBDoADiACIAVBP3FBgH9yOgANIAIgAUESdkFwcjoADEEEDAMLIAIgAzoADiACIAQ6AA0gAiAFQeABcjoADEEDDAILIAIgAToADEEBDAELIAIgAzoADSACIARBwAFyOgAMQQILIQEgACAAKAIEIgMgAWs2AgQgACAAKAIAIAEgA0tyIgQ2AgBBASEDIARFBEAgACgCCCIAKAIAIAJBDGogASAAKAIEKAIMEQAAIQMLIAJBEGokACADC5QCAQV/IwBBEGsiBSQAIAAgASACEOkEAkAgAgRAIARBA2pBfHEhCSAAKAKEAUEMaiEGIAAoAogBIQhBACEBA0AgAUEDaiAITw0CAkACQCABIAlGDQACQCAEIAFrIgdBACAEIAdPGyIHQQFHBEACQCAHQQJrDgICAAQLIAFBA2ohAQwCCyABQQFqIQEMAQsgAUECaiEBCyABIARB7NnBABCuBwALIAUgAyoCADgCACAFIANBDGoqAgA4AgwgBSADQQRqKQIANwIEIAYgBRDcBDYCACADQRBqIQMgBkEQaiEGIAFBBGohASACQQFrIgINAAsLIABBAToAwAEgBUEQaiQADwsgASABQQRqIAhB3NnBABDVBwALsAYBCn8jAEEQayIJJAACQAJAAkACQCACBEAgACABIAIQzQMgAkEDbCEMQQIgBCAEQQJNG0EDbkEDbCENIAAoAmAhASAAKAJkIQtBACEAQQAhAgNAIABBA2ogC08NAyAJQQRqIQoCfyABKAIEIgZB//8BcQRAIAZB/wdxIQUgBkGAgAJxIQcgBkGA+AFxIghBgPgBRwRAIAdBEHQiByAIQQ10QYCAgPwAcSAFQQ10ckGAgIDAA2pyIAgNAhogB0GAgIDYA3IgBWdBEGsiB0EXdGsgBSAHQf//A3FBCGp0Qf///wNxcgwCCyAHQRB0IgcgBUENdHJBgICA/gdyIAUNARogB0GAgID8B3IMAQsgBkEQdAshDgJ/IAZBEHYiBUH//wFxBEAgBUH/B3EhBiAFQYCAAnEhByAFQYD4AXEiCEGA+AFHBEAgB0EQdCIFIAhBDXRBgICA/ABxIAZBDXRyQYCAgMADanIgCA0CGiAFQYCAgNgDciAGZ0EQayIFQRd0ayAGIAVB//8DcUEIanRB////A3FyDAILIAVBDXQgB0EQdCIFckGAgID+B3IgBg0BGiAFQYCAgPwHcgwBCyAGQYCAfHELIQggCgJ/IAEoAggiBUH//wFxBEAgBUH/B3EhBiAFQYCAAnEhByAFQYD4AXEiBUGA+AFHBEAgB0EQdCIHIAVBDXRBgICA/ABxIAZBDXRyQYCAgMADanIgBQ0CGiAHQYCAgNgDciAGZ0EQayIFQRd0ayAGIAVB//8DcUEIanRB////A3FyDAILIAdBEHQiBSAGQQ10ckGAgID+B3IgBg0BGiAFQYCAgPwHcgwBCyAFQRB0CzYCCCAKIAg2AgQgCiAONgIAIAIgBE8NBCADIAkqAgQ4AgAgAkEBaiIGIARPDQUgA0EEaiAJKgIIOAIAIAIgDUYNAiADQQhqIAkqAgw4AgAgAUEQaiEBIABBBGohACADQQxqIQMgDCACQQNqIgJHDQALCyAJQRBqJAAPCyACQQJqIARBmPfAABCuBwALIAAgAEEEaiALQaj3wAAQ1QcACyACIARB+PbAABCuBwALIAYgBEGI98AAEK4HAAu+AgEEfyMAQRBrIgEkACAAKAIsIgL9DAEAAAAAAAAAAAAAAAAAAAD9CwMIIABBADYCLCAAKAI4IQQgACgCNCEDIAIoAsRwIQAgASACKALIcCICNgIEIAEgADYCAAJAAkACQAJAAkAgAEUNACADQRtHBEAgBCAAQQRrKAAAIAMRAQAMAQsgAkUNBCACQcH///8HTw0BIABBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAJqSQ0CIANBACAEIAJBJ2pLGw0DIAAQnwILIAFBEGokAA8LQYC4yABBKyABQQhqQdTUyABB5NTIABCJBwALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyABIAGtQoCAgIDQA4Q3AwhBASABQQRqQaC3yABB6YfAACABQQhqQYTVyAAQ5AcAC/IBAQN/IwBBEGsiAyQAAn8CQCABKAIIIgJBgICAEHFFBEAgAkGAgIAgcQ0BIAFBAUEBQQAgACADQQZqIgEQnAUiACABakEKIABrEMMDDAILQQkhAgNAIAIgA2pBBGogAEEPcS0AtKJFOgAAIAJBAWshAiAAQQ9LIABBBHYhAA0ACyABQQFBrp/FAEECIAIgA2pBBWpBCSACaxDDAwwBC0EJIQIDQCACIANqQQRqIABBD3EtALmLQjoAACACQQFrIQIgAEEPSyAAQQR2IQANAAsgAUEBQa6fxQBBAiACIANqQQVqQQkgAmsQwwMLIANBEGokAAu7AgEFfyMAQSBrIgIkAAJAIAAoAgAiBCgCAARAQQEhACABKAIAIgNBu+rHAEEEIAEoAgQiBigCDCIFEQAADQECQCABLQAKQYABcUUEQCADQeCexQBBASAFEQAADQMgBCgCACABIARBBGooAgAoAgwRAgANAyABKAIAIQMgASgCBCgCDCEFDAELIANBy4vCAEECIAURAAANAiACQQE6AA8gAiAGNgIEIAIgAzYCACACQdCLwgA2AhQgAiABKQIINwIYIAIgAkEPajYCCCACIAI2AhAgBCgCACACQRBqIARBBGooAgAoAgwRAgANAiACKAIQQcmLwgBBAiACKAIUKAIMEQAADQILIANB4p7FAEEBIAURAAAhAAwBCyABKAIAQbfqxwBBBCABKAIEKAIMEQAAIQALIAJBIGokACAAC6MCAgJ/An0CQAJAAkAgALwiAUGAgIAETgRAIAFB////+wdLDQFBgX8hAkMAAAAAIQAgAUGAgID8A0YNAQwDCyAAQwAAAABbDQEgAUEATgRAIABDAAAATJS8IQFB6H4hAgwDCyAAIACTQwAAAACVIQALIAAPC0MAAIC/IAAgAJSVDwsgAUGN9qsCaiIBQf///wNxQfOJ1PkDar5DAACAv5IiACAAIABDAAAAP5SUIgOTvEGAYHG+IgRDALC4P5QgACAEkyADkyAAIABDAAAAQJKVIgAgAyAAIACUIgAgACAAlCIAQ+7pkT6UQ6qqKj+SlCAAIABDJp54PpRDE87MPpKUkpKUkiIAQwCwuD+UIAAgBJJD1Jo4uZSSkiABQRd2IAJqspILngIBBH8jAEEgayICJAACQAJ/AkAgASgCAEGUgICAeEYEQCABKAIMIgRFBEAMAgsgAkEQaiABKAIIIgUQoQRBASEDIAIoAhQiASACKAIQQQFxDQIaIARBAUYNASACQQhqIAVBEGoQoQQgAigCDCEDIAMgAigCCEEBcQ0CGiAAIAM2AgggACABNgIEIARBAkcEQCACQQI2AhwgBEH+////AGpB/////wBxQQJqIAJBHGpB0LXBABD9BiEBIABBATYCACAAIAE2AgQMBAsgAEEANgIADAMLIAEgAkEcakHAh8EAEI8IIQEgAEEBNgIAIAAgATYCBAwCCyADIAJBHGpBwIfBABD9BgshASAAQQE2AgAgACABNgIECyACQSBqJAALwQICA38BfiMAQRBrIgIkAAJAAkACQAJAQQIgACgCACIAKQMAIgWnQQJrIAVCAVgbQQFrDgIBAgALIAEoAgBB/YzHAEEOIAEoAgQoAgwRAAAhAQwCCyABKAIAQYuNxwBBEiABKAIEKAIMEQAAIQEMAQsgAiAAQSBqNgIEIAEoAgBBld7HAEELIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQcCNxwBBBiAAQaCNxwAQ/ARBxo3HAEEJIAJBBGpBsI3HABD8BCACLQANIgMgAi0ADCIEciEBIARBAXEgA0EBR3INACgCACIALQAKQYABcUUEQCAAKAIAQaefxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEHKnsUAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQuKAgEDfwJ/IABB5wdNBEAgACECQQoMAQsgASAAIABBkM4AbiICQZDOAGxrIgNB//8DcUHkAG4iBEEBdC8AwKZFOwAGIAEgAyAEQeQAbGtB//8DcUEBdC8AwKZFOwAIQQYgAEH/rOIETQ0AGiABIAJBkM4AcCICQeQAbiIDQQF0LwDApkU7AAIgASACIANB5ABsa0H//wNxQQF0LwDApkU7AAQgAEGAwtcvbiECQQILIQMgAkEJSwRAIAEgA0ECayIDaiACIAJB//8DcUHkAG4iAkHkAGxrQf//A3FBAXQvAMCmRTsAAAtBACAAIAIbRQRAIAEgA0EBayIDaiACQQF0LQDBpkU6AAALIAMLjAIBB38gACgCBCEDAkACQAJAAkAgACgCCCIEBEAgAyEBA0AgAUEoaigCACIFBEAgAUEsaigCACIGQQRrKAIAIgJBeHEiB0EEQQggAkEDcSICGyAFakkNAyACQQAgByAFQSdqSxsNBCAGEJ8CCyABELkEIAFBOGohASAEQQFrIgQNAAsLIAAoAgAiAQRAIANBBGsoAgAiAEF4cSICIAFBOGwiAUEEQQggAEEDcSIAG2pJDQMgAEEAIAIgAUEnaksbDQQgAxCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALoQIAAn8CQAJAAkACQAJAAkACQCACQQNrDgQCBgABBgsgAS0AAEHtAGsOBQMFBQUEBQsgAS0AAEHzAEYNAQwECyABLQAAQfMARw0DIAEtAAFB6ABHDQNBA0EEQQUgAS0AAiIBQc4ARhsgAUEwRhsMBAsgAS0AAUHjAEcNAiABLQACQeEARw0CIAEtAANB7ABHDQIgAS0ABEHlAEcNAiABLQAFQfMARw0CQQEMAwsgAS0AAUHlAEcNASABLQACQeEARw0BIAEtAANB7gBHDQEgAS0ABEHzAEcNAUEADAILIAEtAAFB9QBHDQAgAS0AAkHhAEcNACABLQADQfQARw0AIAEtAARB8wBHDQBBAgwBC0EFCyEBIABBADoAACAAIAE6AAEL/gEBA38jAEEQayICJAAgACgCACEAAn8gASACQQxqAn8CQAJAIAEtAAtBGHEEQCACQQA2AgwgAEGAAUkNASAAQT9xQYB/ciEDIABBBnYhASAAQYAQSQ0CIABBDHYhBCABQT9xQYB/ciEBIABBgIAETwRAIAIgAzoADyACIAE6AA4gAiAEQT9xQYB/cjoADSACIABBEnZBcHI6AAxBBAwECyACIAM6AA4gAiABOgANIAIgBEHgAXI6AAxBAwwDCyABKAIAIAAgASgCBCgCEBECAAwDCyACIAA6AAxBAQwBCyACIAM6AA0gAiABQcABcjoADEECCxCYAwsgAkEQaiQAC+sBAgR/An4gACgCECECIAApAwghBSAAKAIEIQQgACgCGCIDQQBIBEAgAiAESQRAIAAoAgAgAkECdGooAAAhAQsgAUEYdCABQYD+A3FBCHRyIAFBCHZBgP4DcSABQRh2cnKtIAVCIIaEIQUgA0EgaiEDIAJBAWohAgsgAiAETQRAIAAoAhQhASAAIAI2AhAgACAFIAEgAUEBdiIBayIErSADQT9xrYYiBkIAIAUgBloiAht9NwMIIAAgAyABIAQgAhsiAWciA0EYayIEQQAgAyAETxsiA2s2AhggACABIAN0NgIUIAIPCyAAELgKC4YCAQV/IAAoAgAiBCAAKAIEIgYgAaciB3EiA2opAABCgIGChIiQoMCAf4MiAVAEQEEIIQUDQCADIAVqIQMgBUEIaiEFIAQgAyAGcSIDaikAAEKAgYKEiJCgwIB/gyIBUA0ACwsgBCABeqdBA3YgA2ogBnEiA2osAAAiBUEATgRAIAQgBCkDAEKAgYKEiJCgwIB/g3qnQQN2IgNqLQAAIQULIAMgBGogB0EZdiIHOgAAIAQgA0EIayAGcWpBCGogBzoAACAAIAAoAgggBUEBcWs2AgggACAAKAIMQQFqNgIMIAQgA0FobGpBGGsiACACKQMANwMAIABBCGogAkEIav0AAwD9CwMAC/sBAQd/IwBBEGsiAiQAAkAgAC0AwAEEQCAAKAKwASAAKAK4ASIBQQJ0IgUgACgCvAEgAWpBAnQiBhDeCCEBIAAoAnghByAAKAJ8IQMgARC7CiEEIAIgAzYCDCACIAQ2AgggAyAERw0BIAEgByADEOQJIAFBhAhPBEAgARCFBwsgACgCtAEgBSAGEN4IIQEgACgChAEhBSAAKAKIASEDIAEQuwohBCACIAM2AgwgAiAENgIIIAMgBEcNASABIAUgAxDkCSABQYQITwRAIAEQhQcLIABBADoAwAELIAJBEGokAA8LQQAgAkEIaiACQQxqQQAgAEG088QAEOQHAAupAgEFfyMAQSBrIgIkAEEBIQMCQCAAKAIAIgQtAABBAUYEQCABKAIAIgBBu+rHAEEEIAEoAgQiBigCDCIFEQAADQEgBEEBaiEEAkAgAS0ACkGAAXFFBEAgAEHgnsUAQQEgBREAAA0DIAQgARDGBA0DIAEoAgAhACABKAIEKAIMIQUMAQsgAEHLi8IAQQIgBREAAA0CIAJBAToADyACIAY2AgQgAiAANgIAIAJB0IvCADYCFCACIAEpAgg3AhggAiACQQ9qNgIIIAIgAjYCECAEIAJBEGoQxgQNAiACKAIQQcmLwgBBAiACKAIUKAIMEQAADQILIABB4p7FAEEBIAURAAAhAwwBCyABKAIAQbfqxwBBBCABKAIEKAIMEQAAIQMLIAJBIGokACADC6kCAQV/IwBBIGsiAiQAQQEhAwJAIAAoAgAiBCgCAEEBRgRAIAEoAgAiAEG76scAQQQgASgCBCIGKAIMIgURAAANASAEQQhqIQQCQCABLQAKQYABcUUEQCAAQeCexQBBASAFEQAADQMgBCABEIcFDQMgASgCACEAIAEoAgQoAgwhBQwBCyAAQcuLwgBBAiAFEQAADQIgAkEBOgAPIAIgBjYCBCACIAA2AgAgAkHQi8IANgIUIAIgASkCCDcCGCACIAJBD2o2AgggAiACNgIQIAQgAkEQahCHBQ0CIAIoAhBByYvCAEECIAIoAhQoAgwRAAANAgsgAEHinsUAQQEgBREAACEDDAELIAEoAgBBt+rHAEEEIAEoAgQoAgwRAAAhAwsgAkEgaiQAIAMLiAIBAn8jAEHwAGsiAyQAAkACQAJAAkACQCABRQRAIABFDQEgAEEIayIBKAIAQQFHDQQgA0EIaiAAQQRqQegA/AoAACABQQA2AgACQCABQX9GDQAgAEEEayICIAIoAgBBAWsiAjYCACACDQAgAEEMaygCACIAQXhxIgJB+ABB/AAgAEEDcSIAG0kNAyAAQQAgAkGcAU8bDQQgARCfAgsgA0EIahD0AgwFCyAARQ0AIABBCGsiACAAKAIAQQFrIgE2AgAgAQ0EIAAQyQYMBAsQlAoAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtB0P/AAEE/EJUKAAsgA0HwAGokAAuIAgECfyMAQdAAayIDJAACQAJAAkACQAJAIAFFBEAgAEUNASAAQQhrIgEoAgBBAUcNBCADQQhqIABBBGpByAD8CgAAIAFBADYCAAJAIAFBf0YNACAAQQRrIgIgAigCAEEBayICNgIAIAINACAAQQxrKAIAIgBBeHEiAkHYAEHcACAAQQNxIgAbSQ0DIABBACACQfwATxsNBCABEJ8CCyADQQhqEPMCDAULIABFDQAgAEEIayIAIAAoAgBBAWsiATYCACABDQQgABDKBgwECxCUCgALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0HQ/8AAQT8QlQoACyADQdAAaiQAC4MCAgN+BH8gACgCDEUEQEEADwsgACkDECAAKQMYIAEgAhCRBCEDIAAoAgQiByADp3EhBiADQhmIQv8Ag0KBgoSIkKDAgAF+IQUgACgCACEIA0ACQCAGIAhqKQAAIgQgBYUiA0J/hSADQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIgNQRQRAA0AgCCADeqdBA3YgBmogB3FBbGxqIgBBDGsoAgAgAkYEQCABIABBEGsoAgAgAhC7B0UNAwsgA0IBfSADgyIDUEUNAAsLQQAhACAEIARCAYaDQoCBgoSIkKDAgH+DUEUNACAGIAlBCGoiCWogB3EhBgwBCwsgAEEIa0EAIAAbC5kCAQF/IwBBIGsiAyQAIAMgAjYCCCADIAE2AgQgAAJ/AkACQAJAAkACQAJAAkAgAkEDaw4HAAUBAgUFAwULIAFBibHHAEEDELsHRQRAIABBADoAAUEADAcLIAFB6MvHAEEDELsHDQMgAEEBOgABQQAMBgsgAUHry8cAQQUQuwcNAyAAQQI6AAFBAAwFCyABQfDLxwBBBhC7Bw0CIABBAzoAAUEADAQLIAFB9svHAEEJELsHDQEgAEEEOgABQQAMAwsgAUH/y8cAQQMQuwdFDQELIAMgA0EEaq1CgICAgCCENwMYIANBDGoiAUG4lsAAIANBGGoQvgQgACABEIUINgIEQQEMAQsgAEEFOgABQQALOgAAIANBIGokAAuuAgEDfyMAQRBrIgIkACABKAIIIQMgAUEANgIIAkACQCADBEAgAygCAEGUgICAeEcNAQJAAn8gAygCDCIEBEAgAiADKAIIEL0DIAIoAgAiAUGAgICAeEcNAiACKAIEDAELQQAgAkEPakGgh8EAEP0GCyEBIABBgICAgHg2AgAgACABNgIEDAMLIAIoAgQhAyAAIAIoAgg2AgggACADNgIEIAAgATYCACAEQQFGDQIgAkEBNgIAIARBAWtB/////wBxQQFqIAJB0LXBABD9BiEEIABBgICAgHg2AgAgACAENgIEIAFFDQIgAyABQQEQiAcMAgtBj4DBAEEsQbyAwQAQ3AcACyADIAJBD2pBoIfBABCPCCEBIABBgICAgHg2AgAgACABNgIECyACQRBqJAALtAIBA38jAEEQayICJAACQAJAAkACQCAAKAIAIgAoAgBBAWsOAgECAAsgAiAAQQhqNgIEIAEoAgBBu8bEAEEPIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQbiSxwBBCCAAQQRqQYDExAAQ/ARBysbEAEEGIAJBBGpBxLrEABD8BCACLQANIgMgAi0ADCIEciEBIARBAXEgA0EBR3INAigCACIALQAKQYABcUUEQCAAKAIAQaefxQBBAiAAKAIEKAIMEQAAIQEMAwsgACgCAEHKnsUAQQEgACgCBCgCDBEAACEBDAILIAEoAgBB0MbEAEEVIAEoAgQoAgwRAAAhAQwBCyABKAIAQeXGxABBFSABKAIEKAIMEQAAIQELIAJBEGokACABQQFxC6QCAQV/IwBBIGsiAiQAQQEhAwJAIAAoAgBBAUYEQCABKAIAIgRBu+rHAEEEIAEoAgQiBigCDCIFEQAADQEgAEEEaiEAAkAgAS0ACkGAAXFFBEAgBEHgnsUAQQEgBREAAA0DIAAgARCIBQ0DIAEoAgAhBCABKAIEKAIMIQUMAQsgBEHLi8IAQQIgBREAAA0CIAJBAToADyACIAY2AgQgAiAENgIAIAJB0IvCADYCFCACIAEpAgg3AhggAiACQQ9qNgIIIAIgAjYCECAAIAJBEGoQiAUNAiACKAIQQcmLwgBBAiACKAIUKAIMEQAADQILIARB4p7FAEEBIAURAAAhAwwBCyABKAIAQbfqxwBBBCABKAIEKAIMEQAAIQMLIAJBIGokACADC5kCAQJ/IwBBEGsiAiQAAn8CQAJAAkACQAJAQQEgACgCACIDQf////8HaiADQYCAgIB4TRtBAWsOBAECAwQACyACIABBBGo2AgQgAiACQQRqrUKAgICAoAaENwMIIAEoAgAgASgCBEHokMAAIAJBCGoQxAMMBAsgAiAANgIEIAIgAkEEaq1CgICAgKAPhDcDCCABKAIAIAEoAgRBypXAACACQQhqEMQDDAMLIAIgAEEEajYCBCACIAJBBGqtQoCAgICwD4Q3AwggASgCACABKAIEQeKVwAAgAkEIahDEAwwCCyABKAIAQf7oxwBBIyABKAIEKAIMEQAADAELIAEoAgBBoenHAEEeIAEoAgQoAgwRAAALIAJBEGokAAviAQIEfwR+IAEoAgQiA60hBgJAAkAgA0L/////DyABKQMIIgcgB0L/////D1obp2siBEEAIAMgBE8bQQNPBEAgASgCACAHIAYgBiAHVhunaiICLQABQQh0IQMgAi0AAkEQdCEEIAItAAAhBUEEIQIMAQtBiOPHACkDACIJQgiIIQggCachAkEAIQNBACEEIAlC/wGDQgRSDQELIAdCA3whBgsgASAGNwMIIAJB/wFxQQRHBEAgACACrUL/AYMgCEIIhoQ3AgQgAEEAOgAADwsgACADIAVyIARyNgIEIABBHToAAAvsAQEEfyMAQRBrIgQkAAJAAn8gAC4BACIFIAXBQQ91IgBzIABrIgJB//8DcSIDQecHTQRAQQUhACADQQpJBEAgAiEDDAMLIAJB//8DcUHkAG4hA0EDDAELIAQgAiADQZDOAG4iA0GQzgBsayICQf//A3FB5ABuQQF0LwDApkU7AAxBAQshACAEIAJB//8DcUHkAHBBAXQvAMCmRTsADgtBACAFIANB//8DcSICG0UEQCAAQQFrIgAgBEELamogAkEBdC0AwaZFOgAACyABIAVBAE5BAUEAIARBC2ogAGpBBSAAaxDDAyAEQRBqJAAL8wECAX8BfiMAQUBqIggkACAIIAI2AgQgCCABNgIAIAggBDYCDCAIIAM2AgggCEECNgIUIAhB0o/DAEHQj8MAIABBAXEbNgIQIAUEQCAIIAY2AhwgCCAFNgIYIAhCgICAgJABIgkgCEEIaq2ENwM4IAggCSAIrYQ3AzAgCCAIQRhqrUKAgICA8AWENwMoIAggCEEQaq1CgICAgKABhDcDIEG9jsAAIAhBIGogBxDbBwALIAhCgICAgJABIgkgCEEIaq2ENwMwIAggCSAIrYQ3AyggCCAIQRBqrUKAgICAoAGENwMgQYaOwAAgCEEgaiAHENsHAAv4AQEEfwJAAkAgAkECTwRAIAQgAkEBakEBdiIIIAQgCEkbIgAgAkEBdiIJQQFrIgUgACAFSRsiB0EQTwRAIAEhACADIQUgB0EBaiIGIAZBD3EiBkEQIAYbayIGIQcDQCAFIAD9AAAAIAD9AAAQ/Q0AAgQGCAoMDhASFBYYGhwe/QsAACAAQSBqIQAgBUEQaiEFIAdBEGsiBw0ACwsgBkEBdCEAA0AgBiAIRg0CIAQgBkYNAyADIAZqIAAgAWotAAA6AAAgAEECaiEAIAZBAWoiBSEGIAUgCUcNAAsLDwsgACACQeiQxQAQrgcACyAEIARB+JDFABCuBwALggIBBH8CQAJAAkACQCAAKAIIIgFBgICAgHhyQYCAgIB4RwRAIAAoAgwiAkEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAWpJDQEgA0EAIAQgAUEnaksbDQIgAhCfAgsCQCAAKAJcIgFFDQAgAUEYbCICIAFqQSFqIgFFDQAgACgCWCACayIAQRxrKAIAIgJBeHEiA0EEQQggAkEDcSICGyABakkNAyACQQAgAyABQSdqSxsNBCAAQRhrEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvoAQEEfyAAIAEgAhDpBAJAAkACQCACBEAgACgCeCEBIAAoAnwhCEEBIQUDQCAHQQNqIAhPDQIgBUEBayIGIARPBEAgBiEFDAULIAQgBmsiBkEAIAQgBk8bIgZBAUYNBCAGQQJGDQMgASADKgIAOAIAIAFBCGogA0EIaigCADYCACABQQRqIANBBGoqAgA4AgAgAUEQaiEBIAdBBGohByAFQQNqIQUgA0EMaiEDIAJBAWsiAg0ACwsgAEEBOgDAAQ8LIAcgB0EEaiAIQdzOwQAQ1QcACyAFQQFqIQULIAUgBEHszsEAEK4HAAv7AQEBfyMAQRBrIgYkAAJAAkACQCABBEAgBkEEaiABIAMgBCAFIAIoAhARBwACQCAGKAIEIgIgBigCDCIBTQRAIAYoAgghBQwBCyACQQJ0IQIgBigCCCEDIAFFBEAgA0EEaygCACIEQXhxIgVBBEEIIARBA3EiBBsgAmpJDQMgBEEAIAUgAkEnaksbDQQgAxCfAkEEIQUMAQsgAyACQQQgAUECdCICELkCIgVFDQQLIAAgATYCBCAAIAU2AgAgBkEQaiQADwtBgfPEAEEyEJUKAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQQQgAhDhCAAL+gEBBH8gACgCBCEDAkACQAJAAkAgAC0AACIAQQRNIABBA0dxRQRAIAMoAgAhACADQQRqKAIAIgEoAgAiAgRAIAAgAhEDAAsgASgCBCIBBEAgAEEEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAWpJDQIgAkEAIAQgAUEnaksbDQMgABCfAgsgA0EEaygCACIAQXhxIgFBEEEUIABBA3EiABtJDQMgAEEAIAFBNE8bDQQgAxCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL/wEBAn8jAEEQayICJAACfwJAAkACQAJAQQEgAC0AACIDQSRrIANBI00bQf8BcUEBaw4DAQIDAAsgAiAAQQRqNgIEIAIgAkEEaq1CgICAgKAGhDcDCCABKAIAIAEoAgRBqJrAACACQQhqEMQDDAMLIAIgADYCBCACIAJBBGqtQoCAgICwBoQ3AwggASgCACABKAIEQaiawAAgAkEIahDEAwwCCyACIABBBGo2AgAgAiACNgIEIAIgAkEEaq1CgICAgMAGhDcDCCABKAIAIAEoAgRBqJrAACACQQhqEMQDDAELIAEoAgBBkZrFAEETIAEoAgQoAgwRAAALIAJBEGokAAv5AQECfyMAQRBrIgUkAAJAAkACQCABBEAgBUEEaiABIAMgBCACKAIQEQYAAkAgBSgCBCICIAUoAgwiAU0EQCAFKAIIIQQMAQsgAkECdCECIAUoAgghAyABRQRAIANBBGsoAgAiBEF4cSIGQQRBCCAEQQNxIgQbIAJqSQ0DIARBACAGIAJBJ2pLGw0EIAMQnwJBBCEEDAELIAMgAkEEIAFBAnQiAhC5AiIERQ0ECyAAIAE2AgQgACAENgIAIAVBEGokAA8LQYHzxABBMhCVCgALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0EEIAIQ4QgAC/sBAQR/AkACQAJAAkACQCAALQAAQSRHDQAgAC0ABEEDRw0AIAAoAggiACgCACEBIABBBGooAgAiAigCACIDBEAgASADEQMACyACKAIEIgIEQCABQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyACakkNAiADQQAgBCACQSdqSxsNAyABEJ8CCyAAQQRrKAIAIgFBeHEiAkEQQRQgAUEDcSIBG0kNAyABQQAgAkE0TxsNBCAAEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvkAQEIfyABKAIIIgIgASgCBCIDIAIgA0sbIQggASgCACEFIAIhBgJAAkADQCAIIAYiBEYNASABIARBAWoiBjYCCCAEIAVqLQAAIgdB4QBrIQkgB0Ewa0H/AXFBCkkgCUH/AXFBBklyDQALIAdB3wBHDQACQCACBEAgAiADTwRAIAIgA0cNBCADIARPDQIMBAsgAiAFaiwAAEFASCADIARJcg0DDAELIAMgBEkNAgsgACAEIAJrNgIEIAAgAiAFajYCAA8LIABBADYCACAAQQA6AAQPCyAFIAMgAiAEQcydxQAQrgkAC/gBAgN+BH8CQCAAKAIMRQ0AIAApAxAgACkDGCABIAIQkQQhAyAAKAIEIgcgA6dxIQYgA0IZiEL/AINCgYKEiJCgwIABfiEFIAAoAgAhAANAIAAgBmopAAAiBCAFhSIDQn+FIANCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiA1BFBEADQAJAIAIgACADeqdBA3YgBmogB3FBbGxqIglBDGsoAgBHDQAgASAJQRBrKAIAIAIQuwcNAEEBDwsgA0IBfSADgyIDUEUNAAsLIAQgBEIBhoNCgIGChIiQoMCAf4NQRQ0BIAYgCEEIaiIIaiAHcSEGDAALAAtBAAuJAgICfwJ9AkACQAJAIAC8IgFBgICABE4EQCABQf////sHSw0BQYF/IQJDAAAAACEAIAFBgICA/ANGDQEMAwsgAEMAAAAAWw0BIAFBAE4EQCAAQwAAAEyUvCEBQeh+IQIMAwsgACAAk0MAAAAAlSEACyAADwtDAACAvyAAIACUlQ8LIAFBjfarAmoiAUEXdiACarIiA0OAcTE/lCABQf///wNxQfOJ1PkDar5DAACAv5IiACADQ9H3FzeUIAAgAEMAAABAkpUiAyAAIABDAAAAP5SUIgQgAyADlCIAIAAgAJQiAEPu6ZE+lEOqqio/kpQgACAAQyaeeD6UQxPOzD6SlJKSlJIgBJOSkgv7AQEEfyMAQYAgayIEJAACQAJAAkACQAJAQYCJ+gAgASABQYCJ+gBPGyIDIAEgAUEBdmsiAiACIANJGyIFQYEITwRAIAJB/////wNLDQIgBUECdCICQf3///8HTw0CIAIQcSIDRQ0DIAAgASADIAUgAUHBAEkQ3AEgA0EEaygCACIAQXhxIgFBBEEIIABBA3EiABsgAmpJDQQgAEEAIAEgAkEnaksbDQUgAxCfAgwBCyAAIAEgBEGACCABQcEASRDcAQsgBEGAIGokAA8LEM8JAAtBBCACEOEIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL9wEBBH8gAEEEahD2AgJAAkACQAJAIAAtABxBA0YEQCAAKAIgIgAoAgAhASAAQQRqKAIAIgIoAgAiAwRAIAEgAxEDAAsgAigCBCICBEAgAUEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAmpJDQIgA0EAIAQgAkEnaksbDQMgARCfAgsgAEEEaygCACIBQXhxIgJBEEEUIAFBA3EiARtJDQMgAUEAIAJBNE8bDQQgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALhAIAAn8CQAJAAkACQAJAAkAgAkEFaw4EAAUFAQULIAEtAABB4gBrDgUBBAQEAgQLIAEtAABB4wBHDQMgAS0AAUHvAEcNAyABLQACQeQARw0DIAEtAANB5QBHDQMgAS0ABEHiAEcNAyABLQAFQe8ARw0DIAEtAAZB7wBHDQMgAS0AB0HrAEcNA0EBDAQLIAEtAAFB4QBGDQEMAgsgAS0AAUHpAEcNASABLQACQewARw0BIAEtAANB5QBHDQEgAS0ABEHzAEcNAUEADAILIAEtAAJB7gBHDQAgAS0AA0HkAEcNACABLQAEQfMARw0AQQIMAQtBAwshASAAQQA6AAAgACABOgABC4oCAQN/AkACQAJAAkACQCABKQIAQvzMipCMqLb9uX+FIAEpAghCwIzblMrstOjrAIWEUEUEQCAAQQRqEPYCIAAoAhwiAUUNASAAKAIgIgJBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAFqSQ0CIANBACAEIAFBJ2pLGw0DIAIQnwIMAQsgAEEEahD2AiAAQShqENsECyAAQQRrKAIAIgFBeHEiAkE4QTwgAUEDcSIBG0kNAiABQQAgAkHcAE8bDQMgABCfAg8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvjAQEEfyMAQRBrIgQkAEEBIQMCQAJAAkACfyABQQFxRQRAIARBBGogACABEL4EIAQoAgQhAiAEKAIIIQMgBCgCDAwBCyABQQF2IQIgAUECTwRAIAIQcSIDRQ0CCyACBEAgAyAAIAL8CgAACyACCyEBIAMgARDrCCACBEAgA0EEaygCACIBQXhxIgVBBEEIIAFBA3EiARsgAmpJDQIgAUEAIAUgAkEnaksbDQMgAxCfAgsgBEEQaiQADwtBASACEOEIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL1gICBn8BfgJAAkAgACgCCCIBIAAoAgQiAkYNACABIAJPDQEgACgCACIEIAFqLQAAIgNBIkYgA0HcAEZyIANBH01yDQAgBCABQQFqIgVqIQNBACACIAVrIgZB+P///wdxayECA0AgAyEBIAJFBEAgACAGQXhxIAVqNgIIAkAgACgCCCIBIAAoAgQiAk8NACAAKAIAIQQDQCABIARqLQAAIgNBIkYgA0HcAEZyIANBIElyDQEgACABQQFqIgE2AgggASACRw0ACwsPCyACQQhqIQIgAUEIaiEDIAEpAAAiB0J/hSAHQty48eLFi5eu3ACFQoGChIiQoMCAAX0gB0KixIiRosSIkSKFQoGChIiQoMCAAX0gB0KgwICBgoSIkCB9hISDQoCBgoSIkKDAgH+DIgdQDQALIAAgASAEayAHeqdBA3ZqNgIICw8LIAEgAkHAhcYAEK4HAAuOAgEDfwJAAkACQAJAIAEpAgBC7bqtts2F1PXjAIUgASkCCEL4gpm9le7Gxbl/hYRQRQRAIAAoAiQhAiAAQQRqEPYCIABBBGsoAgAiA0F4cUEsQTAgA0EDcSIEG0kNASAEQQAgA0HQAE8bDQIgABCfAiACIAEgAigCACgCFBEBAA8LIABBBGoQ9gIgACgCJCIBIAEoAgAoAgARAwAgAEEEaygCACIBQXhxQSxBMCABQQNxIgIbSQ0CIAJBACABQdAATxsNAyAAEJ8CDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC+8BAQR/AkACQAJAAkAgAC0AAEEDRgRAIAAoAgQiACgCACEBIABBBGooAgAiAigCACIDBEAgASADEQMACyACKAIEIgIEQCABQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyACakkNAiADQQAgBCACQSdqSxsNAyABEJ8CCyAAQQRrKAIAIgFBeHEiAkEQQRQgAUEDcSIBG0kNAyABQQAgAkE0TxsNBCAAEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvpAQIDfwF+IwBBIGsiAiQAIAJBCDoAGyACQQhqIAEgAkEbaiABKAKAARDYBAJAIAACfyACLQAIIgNBHUcEQCACKQIMIQUgA0UEQCAAIAU3AgRBBQwCCyACKAIUIQRBEBBxIgFFDQIgASADOgAAIAEgBDYCDCABIAU3AgQgAEHMv8QANgIYIAAgATYCFCAAQYAGOwEEIAEgAkEIakEBciIDLwAAOwABIAFBA2ogA0ECai0AADoAAEEADAELIAAgAikCDDcCBCAAQQxqIAJBFGooAgA2AgBBBgs2AgAgAkEgaiQADwtBEBDoCQAL6QECA38BfiMAQSBrIgIkACACQQo6ABsgAkEIaiABIAJBG2ogASgCgAEQ2AQCQCAAAn8gAi0ACCIDQR1HBEAgAikCDCEFIANFBEAgACAFNwIEQQUMAgsgAigCFCEEQRAQcSIBRQ0CIAEgAzoAACABIAQ2AgwgASAFNwIEIABBzL/EADYCGCAAIAE2AhQgAEGABjsBBCABIAJBCGpBAXIiAy8AADsAASABQQNqIANBAmotAAA6AABBAAwBCyAAIAIpAgw3AgQgAEEMaiACQRRqKAIANgIAQQYLNgIAIAJBIGokAA8LQRAQ6AkAC4gCAQN/IwBBEGsiAiQAAkAgACgCACIAKAIABEAgAiAAQQhqNgIEIAEoAgBBzNPEAEEKIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQZiOxwBBBiAAQbzTxAAQ/ARB1tPEAEEOIAJBBGpBhMXEABD8BCACLQANIgMgAi0ADCIEciEBIARBAXEgA0EBR3INASgCACIALQAKQYABcUUEQCAAKAIAQaefxQBBAiAAKAIEKAIMEQAAIQEMAgsgACgCAEHKnsUAQQEgACgCBCgCDBEAACEBDAELIAEoAgBB7o3HAEEQIAEoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXEL+AECA38BfiMAQTBrIgIkACABKAIAQYCAgIB4RgRAIAEoAgwhAyACQSxqIgRBADYCACACQoCAgIAQNwIkIAJBJGpB9NjHACADKAIAIgMoAgAgAygCBBDEAxogAkEgaiAEKAIAIgM2AgAgAiACKQIkIgU3AxggAUEIaiADNgIAIAEgBTcCAAsgASkCACEFIAFCgICAgBA3AgAgAkEQaiIDIAFBCGoiASgCADYCACABQQA2AgAgAiAFNwMIQQwQcSIBRQRAQQwQ6AkACyABIAIpAwg3AgAgAUEIaiADKAIANgIAIABB0ODHADYCBCAAIAE2AgAgAkEwaiQAC+sBAQR/AkACQAJAAkAgAEEMaigCACIBBEAgAEEQaigCACICQQRrKAIAIgNBeHEiBCABQQR0IgFBBEEIIANBA3EiAxtySQ0BIANBACAEIAFBJ2pLGw0CIAIQnwILAkAgAEF/Rg0AIAAgACgCBEEBayIBNgIEIAENACAAQQRrKAIAIgFBeHFBHEEgIAFBA3EiAhtJDQMgAkEAIAFBwABPGw0EIAAQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC+sBAQR/AkACQAJAIAEoAihBAkcEQAJAIAEoAqQCQYGAgIB4Rg0AIAEoAqwCIgIEQCABKAKoAiEEIAIQcSIBRQ0DIAIEQCABIAQgAvwKAAALIAJBgICAgHhGDQEgASACEJcBIAFBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIAJqSQ0EIARBACAFIAJBJ2pLGw0FIAEQnwJB/wFxIgNBCEcNAQtBACEDCyAAQQY2AgAgACADOgAEDwtBlP3GABDQCQALQQEgAhDhCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC+gBAQR/IwBBEGsiAkEIakEAOgAAIAJBADsBBiACIAFBFHYtALSiRToACSACIAFBBHZBD3EtALSiRToADSACIAFBCHZBD3EtALSiRToADCACIAFBDHZBD3EtALSiRToACyACIAFBEHZBD3EtALSiRToACiABQQFyZ0ECdiIDIAJBBmoiBWoiBEH7ADoAACAEQQFrQfUAOgAAIAUgA0ECayIDakHcADoAACACQQ5qIgQgAUEPcS0AtKJFOgAAIABBCjoACyAAIAM6AAogACACKQEGNwAAIAJB/QA6AA8gAEEIaiAELwEAOwAAC+0BAQR/IwBBMGsiAiQAIAJBKGoiAyABQUBrKQMANwMAIAJBGGoiBSABQTBq/QADAP0LAwAgAiAB/QADIP0LAwgCQAJAQSgQcSIEBEAgBCAC/QADCP0LAwAgBEEgaiADKQMANwMAIARBEGogBf0AAwD9CwMAIAFBBGoQ9gIgAUEEaygCACIDQXhxQcwAQdAAIANBA3EiBRtJDQEgBUEAIANB8ABPGw0CIAEQnwIgAEGUk8cANgIEIAAgBDYCACACQTBqJAAPC0EoEOgJAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALhgIAAn8CQAJAAkACQAJAIAJBBGsOAgEABAsgAS0AAEHmAGsiAkUNASACQQ1GDQIMAwsgAS0AAEHtAEcNAgJAAkACQCABLQABQeEAaw4JAAUFBQUFBQUBBQsgAS0AAkH4AEYNAQwECyABLQACQe4ARw0DIAEtAANB8wBHDQNBAQwECyABLQADQfMARw0CQQIMAwsgAS0AAUHpAEcNASABLQACQewARw0BIAEtAANB5QBHDQEgAS0ABEHzAEcNAUEADAILIAEtAAFB6ABHDQAgAS0AAkHhAEcNACABLQADQfAARw0AIAEtAARB5QBHDQBBAwwBC0EECyEBIABBADoAACAAIAE6AAEL0wEBA38jAEEQayICJAAgAkEANgIMIAAgAkEMagJ/AkAgAUGAAU8EQCABQT9xQYB/ciEDIAFBBnYhACABQYAQSQ0BIAFBDHYhBCAAQT9xQYB/ciEAIAFBgIAETwRAIAIgAzoADyACIAA6AA4gAiAEQT9xQYB/cjoADSACIAFBEnZBcHI6AAxBBAwDCyACIAM6AA4gAiAAOgANIAIgBEHgAXI6AAxBAwwCCyACIAE6AAxBAQwBCyACIAM6AA0gAiAAQcABcjoADEECCxDlAiACQRBqJAAL0wEBA38jAEEQayICJAAgAkEANgIMIAAgAkEMagJ/AkAgAUGAAU8EQCABQT9xQYB/ciEDIAFBBnYhACABQYAQSQ0BIAFBDHYhBCAAQT9xQYB/ciEAIAFBgIAETwRAIAIgAzoADyACIAA6AA4gAiAEQT9xQYB/cjoADSACIAFBEnZBcHI6AAxBBAwDCyACIAM6AA4gAiAAOgANIAIgBEHgAXI6AAxBAwwCCyACIAE6AAxBAQwBCyACIAM6AA0gAiAAQcABcjoADEECCxDoASACQRBqJAAL6gEBAX8jAEEQayICJAACfwJAAkACQAJAIAAtAABBAWsOAwECAwALIAIgAEEBajYCBCACIAJBBGqtQoCAgIDAB4Q3AwggASgCACABKAIEQaiawAAgAkEIahDEAwwDCyACIABBBGo2AgQgAiACQQRqrUKAgICAkAeENwMIIAEoAgAgASgCBEHc7MAAIAJBCGoQxAMMAgsgAiAAQQRqNgIEIAIgAkEEaq1CgICAgNAHhDcDCCABKAIAIAEoAgRB4uzAACACQQhqEMQDDAELIAEoAgBBssbEAEEJIAEoAgQoAgwRAAALIAJBEGokAAvyAQEEfyMAQSBrIgAkAEG+zccAIQNBCSEEAkACQAJAAkAgAigCAA0AIABBEGogAigCBCACKAIIEPoCQb7NxwAgACgCFCAAKAIQIgIbIQMgAg0AIAAoAhgiBEUNAQsgACAENgIMIAAgAzYCCCABKAIEIQMgASgCACEEA0AgAEEQaiAAQQhqEOIDIAAoAhAiBUUNAiAAKAIUIQYgACgCHARAQQEhAiAEIAUgBiADKAIMEQAADQQgBEH9/wMgAygCEBECAEUNAQwECwsgASAFIAYQmAMhAgwCCyABQQFBABCYAyECDAELQQAhAgsgAEEgaiQAIAILiAIBBH8jAEEgayIBJAAgACgCDCEEAn8CQAJAIAAoAhQiAiAAKAIQIgNJBEADQAJAIAIgBGotAABBCWsOMgAABAQABAQEBAQEBAQEBAQEBAQEBAQEAAQEBAQEBAQEBAQEBAQEBAQEBAQEBAQEBAQDBAsgACACQQFqIgI2AhQgAiADRw0ACyADIQILIAFBAzYCFCABQQhqIAQgAyACQQFqIgAgAyAAIANJGxD6ASABQRRqIAEoAgggASgCDBDZBwwCCyAAIAJBAWo2AhRBAAwBCyABQQY2AhQgASAEIAMgAkEBaiIAIAMgACADSRsQ+gEgAUEUaiABKAIAIAEoAgQQ2QcLIAFBIGokAAvkAQEEfwJAAkACQAJAIAAoAggiAQRAIAAoAgwiAkEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAWpJDQEgA0EAIAQgAUEnaksbDQIgAhCfAgsCQCAAQX9GDQAgACAAKAIEIgFBAWs2AgQgAUEBRw0AIABBBGsoAgAiAUF4cSICQRhBHCABQQNxIgEbSQ0DIAFBACACQTxPGw0EIAAQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC94BAQR/AkACQAJAAkAgACgCACIBBEAgACgCBCICQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyABakkNASADQQAgBCABQSdqSxsNAiACEJ8CCyAAKAIMIgEEQCAAKAIQIgBBBGsoAgAiAkF4cSIDIAFBAnQiAUEEQQggAkEDcSICG2pJDQMgAkEAIAMgAUEnaksbDQQgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL5wEBBH8CQAJAAkACQCAAKAIAIgEEQCAAKAIEIgJBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAFqSQ0BIANBACAEIAFBJ2pLGw0CIAIQnwILIAAoAgwiAUGAgICAeHJBgICAgHhHBEAgACgCECIAQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyABakkNAyACQQAgAyABQSdqSxsNBCAAEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAvQAQEDfwJAAkACQCACIAMgBGsiBUsEQCACIANNDQEgAyAEQQF0ayIGIAJPDQIgAyAEaiIHIAJPDQMgASAFai0AACABIANqLQAAayIFIAVBH3UiBXMgBWtBAXRB/gNxIAEgBmotAAAgASAHai0AAGsiBSAFQR91IgVzIAVrQQF2aiAAQf8BcU0EQEEBIAEgAiADIAQQ4QQaCw8LIAUgAkHU1MQAEK4HAAsgAyACQeTUxAAQrgcACyAGIAJB9NTEABCuBwALIAcgAkGE1cQAEK4HAAvGAQEDfyABQf8AQYB/QfwAQYB/IAAEf0H/AEGAfyABLQACIAEtAAVrIgAgAEGAf0wbIgAgAEH/AE4bBSADCyABLQAEIgQgAS0AAyICa0EDbGoiACAAQYB/TBsiACAAQfwAThtBA2pBA3UgAmpBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoAAyABQf8AQYB/IARB+wAgACAAQfsAThtBBGpBA3UiAGtBgAFrIgEgAUGAf0wbIgEgAUH/AE4bQYABczoABCAAC9IBAQF/IwBBIGsiBSQAIAVBCGogAyADIARBAnRqEJEDAkACQCABIAJLBEAgACACQRhsaiIAKAIUIgFBBU8EQCAAKAIIIgJBBGsoAgAiA0F4cSIEIAFBAnQiAUEEQQggA0EDcSIDG2pJDQIgA0EAIAQgAUEnaksbDQMgAhCfAgsgACAF/QACCP0LAgAgAEEQaiAFQRhqKQIANwIAIAVBIGokAA8LIAIgAUGkoscAEK4HAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL2QEBBH8CQAJAAkACQCAAKAIMIgEEQCAAKAIQIgJBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAFqSQ0BIANBACAEIAFBJ2pLGw0CIAIQnwILIAAoAhgiAQRAIAAoAhwiAEEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAWpJDQMgAkEAIAMgAUEnaksbDQQgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL2QEBBH8CQAJAAkACQCAAKAIAIgEEQCAAKAIEIgJBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAFqSQ0BIANBACAEIAFBJ2pLGw0CIAIQnwILIAAoAgwiAQRAIAAoAhAiAEEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAWpJDQMgAkEAIAMgAUEnaksbDQQgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL7wEBA38jAEEQayICJAACQCAAKAIABEAgAiAANgIEIAEoAgBBkI7HAEEIIAEoAgQoAgwRAAAhACACQQA6AA0gAiAAOgAMIAIgATYCCCACQQhqQZiOxwBBBiACQQRqQdC2wQAQ/AQgAi0ADSIDIAItAAwiBHIhASAEQQFxIANBAUdyDQEoAgAiAC0ACkGAAXFFBEAgACgCAEGnn8UAQQIgACgCBCgCDBEAACEBDAILIAAoAgBByp7FAEEBIAAoAgQoAgwRAAAhAQwBCyABKAIAQe6NxwBBECABKAIEKAIMEQAAIQELIAJBEGokACABQQFxC+8BAQN/IwBBEGsiAiQAAkAgACgCAARAIAIgADYCBCABKAIAQZCOxwBBCCABKAIEKAIMEQAAIQAgAkEAOgANIAIgADoADCACIAE2AgggAkEIakGYjscAQQYgAkEEakGAjscAEPwEIAItAA0iAyACLQAMIgRyIQEgBEEBcSADQQFHcg0BKAIAIgAtAApBgAFxRQRAIAAoAgBBp5/FAEECIAAoAgQoAgwRAAAhAQwCCyAAKAIAQcqexQBBASAAKAIEKAIMEQAAIQEMAQsgASgCAEHujccAQRAgASgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvRAQEDfyMAQTBrIgMkACADIAI2AgwgAyABNgIIIAMgA0EIaq1CgICAgDCENwMYIAMgAK1CgICAgIAOhDcDECADQSRqQbeLwAAgA0EQahC+BCADKAIkIQAgAygCKCIBIAMoAiwQ6wghAgJAAkAgAARAIAFBBGsoAgAiBEF4cSIFQQRBCCAEQQNxIgQbIABqSQ0BIARBACAFIABBJ2pLGw0CIAEQnwILIANBMGokACACDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL+AEBA38jAEEQayICJAAgAiAANgIEIAEoAgBBqYrHAEEGIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQfSKxwBBDyAAQRBqQdSKxwAQ/ARBg4vHAEEQIABBGGpB1IrHABD8BEGTi8cAQQkgAkEEakHkiscAEPwEIQEgAi0ADSIDIAItAAwiBHIhAAJAIARBAXEgA0EBR3INACABKAIAIgAtAApBgAFxRQRAIAAoAgBBp5/FAEECIAAoAgQoAgwRAAAhAAwBCyAAKAIAQcqexQBBASAAKAIEKAIMEQAAIQALIAJBEGokACAAQQFxC8wBAQF/IwBBQGoiAiQAIAJBBGogARDPAwJAIAItAARBAUYEQCAAIAIoAgg2AgQgAEEENgIADAELIAItAAVFBEAgAEEDNgIADAELIAJBBGogASgCABCDASACKAIEQQNGBEAgACACKAIINgIEIABBBDYCAAwBCyAAIAL9AAIE/QsCACAAQThqIAJBPGooAgA2AgAgAEEwaiACQTRqKQIANwIAIABBIGogAkEkav0AAgD9CwIAIABBEGogAkEUav0AAgD9CwIACyACQUBrJAAL1wEBBH8jAEEgayICJAAgAkEYaiIDIAAoAgAlARApIAIgAigCHCIANgIUIAIgAigCGDYCECACIAA2AgwgAiACQQxqrUKAgICA4AOENwMYIAEoAgAgASgCBEHG88AAIAMQxAMhAQJAAkAgAigCDCIABEAgAigCECIDQQRrKAIAIgRBeHEiBUEEQQggBEEDcSIEGyAAakkNASAEQQAgBSAAQSdqSxsNAiADEJ8CCyACQSBqJAAgAQ8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC9UBAQR/IABBBGoQ9gICQAJAAkACQCAAKAIcIgEEQCAAKAIgIgJBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAFqSQ0BIANBACAEIAFBJ2pLGw0CIAIQnwILIABBKGoQ2wQgAEEEaygCACIBQXhxIgJBOEE8IAFBA3EiARtJDQIgAUEAIAJB3ABPGw0DIAAQnwIPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAAL7QEBAn8jAEEQayIJJAAgACgCAEHYjMcAQQQgACgCBCgCDBEAACEKIAlBADoADSAJIAo6AAwgCSAANgIIIAlBCGpB3IzHAEEJIAEgAhD8BEHljMcAQQggAyAEEPwEQe2MxwBBBiAFIAYQ/ARB84zHAEEKIAcgCBD8BCEBIAktAA0iAiAJLQAMIgNyIQACQCADQQFxIAJBAUdyDQAgASgCACIALQAKQYABcUUEQCAAKAIAQaefxQBBAiAAKAIEKAIMEQAAIQAMAQsgACgCAEHKnsUAQQEgACgCBCgCDBEAACEACyAJQRBqJAAgAEEBcQvpAQEDfyMAQRBrIgIkACACIAAoAgAiADYCBCABKAIAQbyLxwBBBiABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakHCi8cAQQQgAEEEakGctsEAEPwEQcaLxwBBBSACQQRqQay2wQAQ/AQhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEGnn8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBByp7FAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXEL5gEBBH8jAEEgayIAJABBASECAkAgASgCACIDQaDsxwBBDyABKAIEIgUoAgwiBBEAAA0AAkAgAS0ACkGAAXFFBEAgA0HgnsUAQQEgBBEAAA0CIAFB/OjHAEECEJgDRQ0BDAILIANBy4vCAEECIAQRAAANASAAQQE6AA8gACAFNgIEIAAgAzYCACAAQdCLwgA2AhQgACABKQIINwIYIAAgAEEPajYCCCAAIAA2AhAgAEEQakH86McAQQIQmAMNASAAQcmLwgBBAhCyAw0BCyADQeKexQBBASAEEQAAIQILIABBIGokACACC+YBAQR/IwBBIGsiACQAQQEhAgJAIAEoAgAiA0GU78QAQREgASgCBCIFKAIMIgQRAAANAAJAIAEtAApBgAFxRQRAIANB4J7FAEEBIAQRAAANAiABQfzoxwBBAhCYA0UNAQwCCyADQcuLwgBBAiAEEQAADQEgAEEBOgAPIAAgBTYCBCAAIAM2AgAgAEHQi8IANgIUIAAgASkCCDcCGCAAIABBD2o2AgggACAANgIQIABBEGpB/OjHAEECEJgDDQEgAEHJi8IAQQIQsgMNAQsgA0HinsUAQQEgBBEAACECCyAAQSBqJAAgAgvpAQEDfyMAQRBrIgIkACACIAAoAgAiADYCBCABKAIAQbyLxwBBBiABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakHCi8cAQQQgAEEEakGci8cAEPwEQcaLxwBBBSACQQRqQayLxwAQ/AQhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEGnn8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBByp7FAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXEL6QEBA38jAEEQayICJAAgAiAAKAIAIgBBBGo2AgQgASgCAEHg6ccAQQkgASgCBCgCDBEAACEDIAJBADoADSACIAM6AAwgAiABNgIIIAJBCGpB6enHAEELIABBwOnHABD8BEH06ccAQQkgAkEEakHQ6ccAEPwEIQAgAi0ADSIDIAItAAwiBHIhAQJAIARBAXEgA0EBR3INACAAKAIAIgAtAApBgAFxRQRAIAAoAgBBp5/FAEECIAAoAgQoAgwRAAAhAQwBCyAAKAIAQcqexQBBASAAKAIEKAIMEQAAIQELIAJBEGokACABQQFxC+QBAQN/IwBBEGsiAiQAIAIgAEEEajYCBCABKAIAQeDpxwBBCSABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakHp6ccAQQsgAEGctsEAEPwEQfTpxwBBCSACQQRqQby2wQAQ/AQhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEGnn8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBByp7FAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXEL5AEBA38jAEEQayICJAAgASgCAEHnz8cAQQUgASgCBCgCDBEAACEDIAJBADoACSACIAM6AAggAiABNgIEIAIgADYCDCACQQRqQZSZxwBBByACQQxqQYjAwQAQ/ARBrJnHAEEGIABBCGpBmMDBABD8BCEAIAItAAkiAyACLQAIIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQaefxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEHKnsUAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvkAQEDfyMAQRBrIgIkACABKAIAQefPxwBBBSABKAIEKAIMEQAAIQMgAkEAOgAJIAIgAzoACCACIAE2AgQgAiAANgIMIAJBBGpBlJnHAEEHIAJBDGpBiMDBABD8BEGsmccAQQYgAEEIakGowMEAEPwEIQAgAi0ACSIDIAItAAgiBHIhAQJAIARBAXEgA0EBR3INACAAKAIAIgAtAApBgAFxRQRAIAAoAgBBp5/FAEECIAAoAgQoAgwRAAAhAQwBCyAAKAIAQcqexQBBASAAKAIEKAIMEQAAIQELIAJBEGokACABQQFxC+QBAQN/IwBBEGsiAiQAIAIgADYCBCABKAIAQbyLxwBBBiABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakHCi8cAQQQgAEEEakGAxMQAEPwEQcaLxwBBBSACQQRqQZDExAAQ/AQhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEGnn8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBByp7FAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXELrwEBBH8jAEEQayIDJABBAyECIAAoAgAsAAAiBCAEwEEHdSIAcyAAayIAQf8BcSIFQQpPBEBBASECIAMgAEEBdCIAIABBOGogBUHkAEkbQf4BcS8AwKZFOwAOIAVB4wBLIQALQQAgBCAAQf8BcSIAG0UEQCACQQFrIgIgA0ENamogAEEBdC0AwaZFOgAACyABIARBAE5BAUEAIANBDWogAmpBAyACaxDDAyADQRBqJAAL5AEBA38jAEEQayICJAAgAiAAQQRqNgIEIAEoAgBB4OnHAEEJIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQenpxwBBCyAAQaCUxQAQ/ARB9OnHAEEJIAJBBGpBsJTFABD8BCEAIAItAA0iAyACLQAMIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQaefxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEHKnsUAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvkAQEDfyMAQRBrIgIkACACIABBEGo2AgQgASgCAEHsi8cAQQ0gASgCBCgCDBEAACEDIAJBADoADSACIAM6AAwgAiABNgIIIAJBCGpB+YvHAEEGIABBzIvHABD8BEH/i8cAQQogAkEEakHci8cAEPwEIQAgAi0ADSIDIAItAAwiBHIhAQJAIARBAXEgA0EBR3INACAAKAIAIgAtAApBgAFxRQRAIAAoAgBBp5/FAEECIAAoAgQoAgwRAAAhAQwBCyAAKAIAQcqexQBBASAAKAIEKAIMEQAAIQELIAJBEGokACABQQFxC+QBAQN/IwBBEGsiAiQAIAIgAEEQajYCBCABKAIAQYmMxwBBDSABKAIEKAIMEQAAIQMgAkEAOgANIAIgAzoADCACIAE2AgggAkEIakH5i8cAQQYgAEHMi8cAEPwEQf+LxwBBCiACQQRqQdyLxwAQ/AQhACACLQANIgMgAi0ADCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEGnn8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBByp7FAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXEL5AEBA38jAEEQayICJAAgAiAAQQxqNgIEIAEoAgBB4I3HAEEOIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQcjPxwBBBCAAQdCNxwAQ/ARB/4vHAEEKIAJBBGpB3IvHABD8BCEAIAItAA0iAyACLQAMIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQaefxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEHKnsUAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvkAQEDfyMAQRBrIgIkACACIABBEGo2AgQgASgCAEHIj8cAQRAgASgCBCgCDBEAACEDIAJBADoADSACIAM6AAwgAiABNgIIIAJBCGpB+YvHAEEGIABBzIvHABD8BEHIz8cAQQQgAkEEakG4j8cAEPwEIQAgAi0ADSIDIAItAAwiBHIhAQJAIARBAXEgA0EBR3INACAAKAIAIgAtAApBgAFxRQRAIAAoAgBBp5/FAEECIAAoAgQoAgwRAAAhAQwBCyAAKAIAQcqexQBBASAAKAIEKAIMEQAAIQELIAJBEGokACABQQFxC+QBAQN/IwBBEGsiAiQAIAEoAgBB58/HAEEFIAEoAgQoAgwRAAAhAyACQQA6AAkgAiADOgAIIAIgATYCBCACIAA2AgwgAkEEakGUmccAQQcgAkEMakGEmccAEPwEQayZxwBBBiAAQQxqQZyZxwAQ/AQhACACLQAJIgMgAi0ACCIEciEBAkAgBEEBcSADQQFHcg0AIAAoAgAiAC0ACkGAAXFFBEAgACgCAEGnn8UAQQIgACgCBCgCDBEAACEBDAELIAAoAgBByp7FAEEBIAAoAgQoAgwRAAAhAQsgAkEQaiQAIAFBAXELvgECA38BfiMAQRBrIgMkACAAKAIAIQACQCABKQIIIgWnIgJBgICABHFFDQAgAkGAgIDAAHEEQCACQYCAgAhyIQIMAQsgAUEKOwEMIAJBgICAyAByIQILIAEgAkGAgIAEcjYCCEEJIQIDQCACIANqQQZqIABBD3EtALSiRToAACACQQFrIQIgAEEQSSAAQQR2IQBFDQALIAFBAUGun8UAQQIgAiADakEHakEJIAJrEMMDIAEgBTcCCCADQRBqJAAL5AEBA38jAEEQayICJAAgAiAAQQxqNgIEIAEoAgBBoOrHAEENIAEoAgQoAgwRAAAhAyACQQA6AA0gAiADOgAMIAIgATYCCCACQQhqQa3qxwBBBSAAQYDqxwAQ/ARBsurHAEEFIAJBBGpBkOrHABD8BCEAIAItAA0iAyACLQAMIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQaefxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEHKnsUAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvLAQEEfyAAQQRqEPYCAkACQAJAAkAgACgCHCIBBEAgACgCICICQQRrKAIAIgNBeHEiBEEEQQggA0EDcSIDGyABakkNASADQQAgBCABQSdqSxsNAiACEJ8CCyAAQQRrKAIAIgFBeHFBLEEwIAFBA3EiAhtJDQIgAkEAIAFB0ABPGw0DIAAQnwIPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALrAEBBH8jAEEQayIDJABBAyECIAAsAAAiBCAEwEEHdSIAcyAAayIAQf8BcSIFQQpPBEBBASECIAMgAEEBdCIAIABBOGogBUHkAEkbQf4BcS8AwKZFOwAOIAVB4wBLIQALQQAgBCAAQf8BcSIAG0UEQCACQQFrIgIgA0ENamogAEEBdC0AwaZFOgAACyABIARBAE5BAUEAIANBDWogAmpBAyACaxDDAyADQRBqJAAL1AEAAkACQCABBEAgACAELQAIOgAAIAFBAWsiAUEHTQRAQQBBCCABQbTgxAAQ1QcACyAAIAQtABE6AAEgACAELQAaOgACIAAgBC0AIzoAAyAAIAQtACw6AAQgACAELQA1OgAFIAAgBC0APjoABiAAIAQtAEc6AAcgACAELQBQOgAIIAMgBUEDdCIASQ0CIAMgAGsiAUEHSw0BQQBBCCABQcTgxAAQ1QcAC0EAQQBBpODEABCuBwALIAAgAmogBCkASTcAAA8LIAAgAyADQdTgxAAQ1QcAC8oBAgN/AX4jAEEQayIEJAACQCAAKAIQIgNFBEAMAQtBASECIANBoKDFAEEBEJgDDQACQCABUEUEQCABIAA1AhQiBVgEQCAFIAF9IgFCGlQNAiADQbadxQBBARCYAw0DIAQgATcDCCAEQQhqIAMQ0wchAgwDCyADQY6exQBBEBCYAw0CQQAhAiAAQQA6AAQgAEEANgIADAILIANBtp3FAEEBEJgDIQIMAQsgBCABp0HhAGo2AgQgBEEEaiADEJ8FIQILIARBEGokACACC8oBAQR/IwBBIGsiAyQAIANBGGoiAiABQSxqKQIANwMAIAMgAf0AAhz9CwMIAkACQEEYEHEiBARAIAQgA/0AAwj9CwIAIARBEGogAikDADcCACABQQRqEPYCIAFBBGsoAgAiAkF4cSIFQThBPCACQQNxIgIbSQ0BIAJBACAFQdwATxsNAiABEJ8CIABByJTHADYCBCAAIAQ2AgAgA0EgaiQADwtBGBDoCQALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC7cBAgN/BH4gASgCBCICrSEFAkACQCACQv////8PIAEpAwgiBiAGQv////8PWhunayIEQQAgAiAETxtBAk8EQCABKAIAIAYgBSAFIAZWG6dqLwAAIQNBBCECDAELQYjjxwApAwAiCEIIiCEHIAinIQIgCEL/AYNCBFINAQsgBkICfCEFCyABIAU3AwggAkH/AXFBBEcEQCAAIAKtQv8BgyAHQgiGhDcCAA8LIABBBDoAACAAIAM7AQILtwECBH4Ef0EEIQYgASgCBCIIrSECAkACQCAIQv////8PIAEpAwgiAyADQv////8PWhunayIJQQAgCCAJTxtBBE8EQCABKAIAIAMgAiACIANWG6dqKAAAIQcMAQtBiOPHACkDACIFQgiIIQQgBachBiAFQv8Bg0IEUg0BCyADQgR8IQILIAEgAjcDCCAGQf8BcUEERwRAIAAgBq1C/wGDIARCCIaENwIADwsgAEEEOgAAIAAgBzYCBAuKCAMDfwF+AW8jAEEgayIFJABBjIzJAEGMjMkAKAIAIgZBAWo2AgACQCAGQQBIDQBBiIzJAC0AAEUEQEGIjMkAQQE6AABBhIzJAEGEjMkAKAIAQQFqNgIAQZCMyQAoAgAiBkEASA0BQZCMyQAgBkEBajYCAEGQjMkAQZSMyQAoAgAEfyAFQQhqIAAgASgCFBEBACAFIAQ6AB0gBSADOgAcIAUgAjYCGCAFIAUpAwg3AhAgBUEQaiEAIwBBQGoiAiQAIAJBADYCFCACQoCAgIAQNwIMAkACQAJAAkACQCACQQxqIgRBoN/HAEEMEMAHDQAgAiAAKAIIIgEpAgA3AhggAiABQQxqrUKAgICAEIQ3AzAgAiABQQhqrUKAgICAEIQ3AyggAiACQRhqrUKAgICAoAGENwMgIARBnPvBAEHogsAAIAJBIGoiBBDEAw0AIAQgACgCACIBIAAoAgQoAgwiBREBACABIQACQCACKQMgQu26rbbNhdT14wCFIAIpAyhC+IKZvZXuxsW5f4WEUAR/QQQFIAQgACAFEQEAIAIpAyBC/MyKkIyotv25f4UgAikDKELAjNuUyuy06OsAhYRCAFINASAAQQRqIQBBCAsgAWooAgAhASAAKAIAIQAgAkEMaiIEQazfxwBBAhDABw0BIAQgACABEMAHDQELIAJBKGogAkEUaigCACIANgIAIAIgAikCDCIINwMgIAinIgYgAGtBCU0EQCACQSBqIABBChC0BiACKAIgIQYgAigCKCEACyACKAIkIgQgAGoiAUGQ+8EAKQAANwAAIAFBCGpBmPvBAC8AADsAACACIABBCmoiADYCKBAgIQkQ/wQiASAJJgEgAkEMaiABJQEQISACKAIMIQcgAigCECIFIAYgAGtLBEAgAkEgaiAAIAUQtAYgAigCICEGIAIoAiQhBCACKAIoIQALIAUEQCAAIARqIAcgBfwKAAALIAIgACAFaiIANgIoIAYgAGtBAU0EQCACQSBqIABBAhC0BiACKAIkIQQgAigCKCEACyAAIARqQYoUOwAAIAIgAEECaiIANgIoIAAgAigCICIGSQRAIAQgBkEBIAAQuQIiBEUNAgsgBCAAECIgBQRAIAdBBGsoAgAiAEF4cSIEQQRBCCAAQQNxIgAbIAVqSQ0DIABBACAEIAVBJ2pLGw0EIAcQnwILIAFBhAhPBEAgARCFBwsgAkFAayQADAQLQdCHxgBBNyACQSBqQbT7wQBBiIjGABCJBwALQQEgABDhCAALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC0GQjMkAKAIAQQFrBSAGCzYCAEGIjMkAQQA6AAAgA0UNAQALIAUgACABKAIYEQEACwALxAEBBH8jAEEQayICJAAgAkEIaiIDIAFBJGooAgA2AgAgAiABKQIcNwMAAkACQEEMEHEiBARAIAQgAikDADcCACAEQQhqIAMoAgA2AgAgAUEEahD2AiABQQRrKAIAIgNBeHFBLEEwIANBA3EiBRtJDQEgBUEAIANB0ABPGw0CIAEQnwIgAEHEt8EANgIEIAAgBDYCACACQRBqJAAPC0EMEOgJAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALxAEBBH8jAEEQayICJAAgAkEIaiIDIAFBJGooAgA2AgAgAiABKQIcNwMAAkACQEEMEHEiBARAIAQgAikDADcCACAEQQhqIAMoAgA2AgAgAUEEahD2AiABQQRrKAIAIgNBeHFBLEEwIANBA3EiBRtJDQEgBUEAIANB0ABPGw0CIAEQnwIgAEH4uMEANgIEIAAgBDYCACACQRBqJAAPC0EMEOgJAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALxAEBBH8jAEEQayICJAAgAkEIaiIDIAFBJGooAgA2AgAgAiABKQIcNwMAAkACQEEMEHEiBARAIAQgAikDADcCACAEQQhqIAMoAgA2AgAgAUEEahD2AiABQQRrKAIAIgNBeHFBLEEwIANBA3EiBRtJDQEgBUEAIANB0ABPGw0CIAEQnwIgAEHwucEANgIEIAAgBDYCACACQRBqJAAPC0EMEOgJAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALxAEBBH8jAEEQayICJAAgAkEIaiIDIAFBJGooAgA2AgAgAiABKQIcNwMAAkACQEEMEHEiBARAIAQgAikDADcCACAEQQhqIAMoAgA2AgAgAUEEahD2AiABQQRrKAIAIgNBeHFBLEEwIANBA3EiBRtJDQEgBUEAIANB0ABPGw0CIAEQnwIgAEGsusEANgIEIAAgBDYCACACQRBqJAAPC0EMEOgJAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALxAEBBH8jAEEQayICJAAgAkEIaiIDIAFBJGooAgA2AgAgAiABKQIcNwMAAkACQEEMEHEiBARAIAQgAikDADcCACAEQQhqIAMoAgA2AgAgAUEEahD2AiABQQRrKAIAIgNBeHFBLEEwIANBA3EiBRtJDQEgBUEAIANB0ABPGw0CIAEQnwIgAEHQk8cANgIEIAAgBDYCACACQRBqJAAPC0EMEOgJAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALwwEBAn8jAEEgayICJAACQCAAEEEiAQ0AIAAtAKFURQRAQcDCwQBBFRD5ByEBDAELAkAgACgC4AFBgICAgHhHBEAgAC0AlAIiAUEJRg0BIAFBBUYEQCAAKAKMAkUNAgsgAiAAQYwCaq1CgICAgBCENwMYIAIgAEGUAmqtQoCAgICgBIQ3AxAgAkEEaiIAQaGMwAAgAkEQahD1BiAAEIAIIQEMAgtB1cLBAEESEPkHIQEMAQsgABCjASEBCyACQSBqJAAgAQvDAQECfyMAQSBrIgIkAAJAIAAQPyIBDQAgAC0AqVRFBEBBwMLBAEEVEPkHIQEMAQsCQCAAKALoAUGAgICAeEcEQCAALQCcAiIBQQlGDQEgAUEFRgRAIAAoApQCRQ0CCyACIABBlAJqrUKAgICAEIQ3AxggAiAAQZwCaq1CgICAgKAEhDcDECACQQRqIgBBoYzAACACQRBqEPUGIAAQgAghAQwCC0HVwsEAQRIQ+QchAQwBCyAAENgBIQELIAJBIGokACABC8ABAQV/IwBBEGsiBCQAAkACQAJAIAEQuwoiBUH/////A0sNACAFQQJ0IgJB/f///wdPDQACQCACRQRAQQQhBgwBCyAFIQMgAhBxIgZFDQILIAAgBjYCBCAAIAM2AgAgARC7CiEDIAEQuwohAiAEIAM2AgwgBCACNgIIIAIgA0cNAiAGIAMgARDlCSAAIAU2AgggBEEQaiQADwsQzwkAC0EEIAIQ4QgAC0EAIARBCGogBEEMakEAIAFBtPPEABDkBwALwgEBAn8jAEEgayIFJAAgAAJ/AkAgA0EBIAQbBEAgASgCFCIDIAEoAhAiBE8NASABKAIMIQYDQCADIAZqLQAAQTBrQf8BcUEKTw0CIAEgA0EBaiIDNgIUIAMgBEcNAAsMAQsgBUEONgIUIAVBCGogASgCDCABKAIQIAEoAhQQ+gEgACAFQRRqIAUoAgggBSgCDBDZBzYCBEEBDAELIABEAAAAAAAAAABEAAAAAAAAAIAgAhs5AwhBAAs2AgAgBUEgaiQAC7ABAQV/AkACQCAAKAIEIgIgACgCACIBRwRAIAIgAWshAiABQQxsIABqQQxqIQADQCAAQQRrKAIAIgEEQCAAKAIAIgRBBGsoAgAiA0F4cSIFIAFBAnQiAUEEQQggA0EDcSIDG2pJDQMgA0EAIAUgAUEnaksbDQQgBBCfAgsgAEEMaiEAIAJBAWsiAg0ACwsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAuvAQEDfyAAAn8CQAJAIAIgBEsEQEEKIQYDQCABIARBA3RqIggvAQAiBwRAIAdBAmsNAwwECyAGQQFqIQYgA0EBcSEHIANBAXYhAyAIKAIEIAQgB2pqIgQgAkkNAAsLIAQgAkG8ucQAEK4HAAtBDyAFLQAMIgEgBkH/AXFJDQEaIAUgASAGazoADCAAIAgvAQI7AQIgBSAFKQMAIAatiDcDACAAQR06AAAPC0EOCzoAAAuvAQEDfyAAAn8CQAJAIAIgBEsEQEEKIQYDQCABIARBA3RqIggvAQAiBwRAIAdBAmsNAwwECyAGQQFqIQYgA0EBcSEHIANBAXYhAyAIKAIEIAQgB2pqIgQgAkkNAAsLIAQgAkG8ucQAEK4HAAtBDyAFLQAgIgEgBkH/AXFJDQEaIAUgASAGazoAICAAIAgvAQI7AQIgBSAFKQMAIAatiDcDACAAQR06AAAPC0EOCzoAAAvQAQEDfyMAQRBrIgIkACACIAA2AgQgASgCAEHsy8QAQQ8gASgCBCgCDBEAACEAIAJBADoADSACIAA6AAwgAiABNgIIIAJBCGpByM/HAEEEIAJBBGpB3MvEABD8BCEAIAItAA0iAyACLQAMIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQaefxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEHKnsUAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQvQAQEDfyMAQRBrIgIkACACIAA2AgQgASgCAEGokMcAQQ0gASgCBCgCDBEAACEAIAJBADoADSACIAA6AAwgAiABNgIIIAJBCGpByM/HAEEEIAJBBGpBmJDHABD8BCEAIAItAA0iAyACLQAMIgRyIQECQCAEQQFxIANBAUdyDQAgACgCACIALQAKQYABcUUEQCAAKAIAQaefxQBBAiAAKAIEKAIMEQAAIQEMAQsgACgCAEHKnsUAQQEgACgCBCgCDBEAACEBCyACQRBqJAAgAUEBcQu6AQEDfyMAQSBrIgEkAAJAIAAQPCICDQAgAC0ApVNFBEBBwMLBAEEVEPkHIQIMAQsgACgCZEGAgICAeEcEQEEAIQIgAC0AmAEiA0EJRg0BIANBBUYEQCAAKAKQAUUNAgsgASAAQZABaq1CgICAgBCENwMYIAEgAEGYAWqtQoCAgICgBIQ3AxAgAUEEaiIAQaGMwAAgAUEQahD1BiAAEIAIIQIMAQtB1cLBAEESEPkHIQILIAFBIGokACACC7sBAQN/IwBBIGsiASQAAkAgABA+IgINACAALQDFU0UEQEHAwsEAQRUQ+QchAgwBCyAAKAKEAUGAgICAeEcEQEEAIQIgAC0AuAEiA0EJRg0BIANBBUYEQCAAKAKwAUUNAgsgASAAQbABaq1CgICAgBCENwMYIAEgAEG4AWqtQoCAgICgBIQ3AxAgAUEEaiIAQaGMwAAgAUEQahD1BiAAEIAIIQIMAQtB1cLBAEESEPkHIQILIAFBIGokACACC6cBAgJ/AX5BASEHQQQhBgJAIAQgBWpBAWtBACAEa3GtIAOtfiIIQiCIUEUEQEEAIQMMAQsgCKciA0GAgICAeCAEa0sEQEEAIQMMAQsCQAJAAn8gAQRAIAIgASAFbCAEIAMQuQIMAQsgA0UEQCAEIQYMAgsgAxBxCyIGDQAgACAENgIEDAELIAAgBjYCBEEAIQcLQQghBgsgACAGaiADNgIAIAAgBzYCAAunAwEIfyMAQRBrIgMkACAAKAIEIQUgACgCACEAQQEhByABKAIAQYyexQBBASABKAIEKAIMEQAAIQIgA0EAOgAJIAMgAjoACCADIAE2AgQCQAJAIAUEQANAIAMgADYCDCADQQxqIQgjAEEgayIBJABBASEGAkAgA0EEaiIELQAEDQAgBC0ABSEJAkAgBCgCACICLQAKQYABcUUEQCAJQQFxRQ0BIAIoAgBBl/zFAEECIAIoAgQoAgwRAABFDQEMAgsgCUEBcUUEQCACKAIAQaDNxwBBASACKAIEKAIMEQAADQILIAFBAToADyABQdCLwgA2AhQgASACKQIANwIAIAEgAikCCDcCGCABIAFBD2o2AgggASABNgIQIAggAUEQahDeBw0BIAEoAhBByYvCAEECIAEoAhQoAgwRAAAhBgwBCyAIIAIQ3gchBgsgBEEBOgAFIAQgBjoABCABQSBqJAAgAEEBaiEAIAVBAWsiBQ0ACyADLQAIRQ0BDAILIAINAQsgAygCBCIAKAIAQY2exQBBASAAKAIEKAIMEQAAIQcLIANBEGokACAHC8QBAQR/IwBBEGsiBCQAAkACQAJAAkACQAJAAkACQCABKAIAQQFrDgUBAgcHAwALIAEoAhQiAw0DDAYLIAEoAhQiAw0DDAULIAEoAhAiAw0DDAQLIAEtAARBA0cNAyAEQQhqIAEoAggiASgCACABKAIEKAIYEQEAIAQoAgwhBSAEKAIIIQIMAwsgASgCGCEFIAMhAgwCCyABKAIYIQUgAyECDAELIAEoAhQhBSADIQILIAAgBTYCBCAAIAI2AgAgBEEQaiQAC5sBAQV/IAAoAgAhASAAEOgGAkAgACgCCCIFIAEgACgCDCIDa00NACABIAVrIgIgAyACayIDSyAAKAIAIgQgAWsgA09xRQRAIAQgAmshASACQQxsIgIEQCAAKAIEIgQgAUEMbGogBCAFQQxsaiAC/AoAAAsgACABNgIIDwsgA0EMbCICRQ0AIAAoAgQiACABQQxsaiAAIAL8CgAACwuwAQEEfyABKAIEIQICQAJAAkACQCABKAIAIgMgASgCCCIBTQ0AIAFFBEAgAkEEaygCACIEQXhxIgVBBEEIIARBA3EiBBsgA2pJDQIgBEEAIAUgA0EnaksbDQMgAhCfAkEBIQIMAQsgAiADQQEgARC5AiICRQ0DCyAAIAE2AgQgACACNgIADwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQQEgARDhCAALvwEBAX8jAEEQayICJAACfyAAKQMAQv///////////wCDQoCAgICAgID4/wBaBEAgAiAArUKAgICA4AKENwMIIAEoAgAgASgCBEGomsAAIAJBCGoQxAMMAQsgAkEAOgAEIAIgATYCACACIACtQoCAgIDgAoQ3AwgCQCACQYz9xQBBqJrAACACQQhqEMQDDQAgAi0ABEUEQCABKAIAQaT9xQBBAiABKAIEKAIMEQAADQELQQAMAQtBAQsgAkEQaiQAC64BAQN/IwBBEGsiAyQAAkACQAJAAkAgAEUgAUVyDQAgACgCACIARQ0AIABBwf///wdPDQEgAUEEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAGpJDQIgAkEAIAQgAEEnaksbDQMgARCfAgsgA0EQaiQADwtBgLjIAEErIANBD2pB1NTIAEHk1MgAEIkHAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALmQECAn8EfgJAAkAgASgCBCICIAEpAwgiBSACrSIEIAQgBVYbpyICRwRAIAEoAgAgAmotAAAhA0EEIQIMAQtBiOPHACkDACIHQgiIIQYgB6chAiAHQv8Bg0IEUg0BCyAFQgF8IQQLIAEgBDcDCCACQf8BcUEERwRAIAAgAq1C/wGDIAZCCIaENwIADwsgAEEEOgAAIAAgAzoAAQumAQEFfyMAQRBrIgIkAAJAAkAgARC+CiIDQQBOBEACQCADRQRAQQEhBAwBCyADEHEiBEUNAgsgACAENgIEIAAgAzYCACABEL4KIQUgARC+CiEGIAIgBTYCDCACIAY2AgggBSAGRw0CIAQgBSABEOcJIAAgAzYCCCACQRBqJAAPCxDPCQALQQEgAxDhCAALQQAgAkEIaiACQQxqQQAgAUG088QAEOQHAAu2AQIBfwF+IwBBIGsiAiQAAn8CQAJAAkAgACgCACgCACIAKAIAQQFrDgIBAgALIAIgACgCBDYCCCACIAAoAgg2AgwgAkKAgICAECIDIAJBDGqthDcDGCACIAMgAkEIaq2ENwMQIAEoAgAgASgCBEGMhsAAIAJBEGoQxAMMAgsgASgCAEHAlMUAQR0gASgCBCgCDBEAAAwBCyABKAIAQd2UxQBBMSABKAIEKAIMEQAACyACQSBqJAALtAEAAn8CQAJAAkACQAJAAkAgAkEDaw4FBAUBAgAFCyABQYydwQBBBxC7Bw0EQQAMBQtBASABQZOdwQBBBRC7B0UNBBogAUGkoMEAQQUQuwcNAUECDAQLIAFBqaDBAEEGELsHDQJBAwwDCyABQa+gwQBBBRC7Bw0BQQQMAgtBBSABQbSgwQBBAxC7B0UNARogAUG3oMEAQQMQuwcNAEEGDAELQQcLIQEgAEEAOgAAIAAgAToAAQujAQICfwF+IwBBEGsiAyQAAkACQAJAIAEoAggiBCABKAIESQRAIAEoAgAgBGotAAAgAkH/AXFGDQELIABCADcDCAwBC0EBIQIgASAEQQFqNgIIIAMgARDdBCADLQAARQRAIAMpAwgiBUJ/UgRAIAAgBUIBfDcDCAwCCyAAQQA6AAEMAgsgACADLQABOgABDAELQQAhAgsgACACOgAAIANBEGokAAulAQEDfyMAQRBrIgIkAAJAAkACQCAAKAIMBEAgACEBDAELIAJBCGogASgCDCABKAIQIAEoAhQQ+gEgACACKAIIIAIoAgwQ2QchASAAQQRrKAIAIgNBeHEiBEEYQRwgA0EDcSIDG0kNASADQQAgBEE8TxsNAiAAEJ8CCyACQRBqJAAgAQ8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC5QBAQF/IwBBEGsiBSQAIAIgASACaiIBSwRAQQBBABDhCAALIAVBBGogACgCACICIAAoAgQgASACQQF0IgIgASACSxsiAUEIQQQgBEEBRhsiAiABIAJLGyIBIAMgBBCLBiAFKAIEQQFGBEAgBSgCCCAFKAIMEOEIAAsgBSgCCCECIAAgATYCACAAIAI2AgQgBUEQaiQAC6MBAgJ/AX4jAEEQayICJAAgASgCCCEDIAIgARDdBAJAIAItAABBAUYEQCACLQABIQEgAEEANgIAIAAgAToABAwBCyACKQMIIgQgA0EBa61UBEAgASgCDEEBaiIDQfQDTQRAIAAgAzYCDCAAIAQ+AgggACABKQIANwIADAILIABBADYCACAAQQE6AAQMAQsgAEEANgIAIABBADoABAsgAkEQaiQAC6UBAAJAAkACQCABQf8ATARAIAFBgn9ODQMgAEMAAIAMlCEAIAFBm35NDQEgAUHmAGohAQwDCyAAQwAAAH+UIQAgAUH+AUsNASABQf8AayEBDAILIABDAACADJQhAEG2fSABIAFBtn1NG0HMAWohAQwBCyAAQwAAAH+UIQBB/QIgASABQf0CTxtB/gFrIQELIAAgAUEXdEGAgID8A2pBgICA/AdxvpQLjQEBA38jAEEQayIDJABBAyECIAAoAgAtAAAiACEEIABBCk8EQCADIAAgAEHkAG4iBEHkAGxrQf8BcUEBdC8AwKZFOwAOQQEhAgtBACAAIAQbRQRAIAJBAWsiAiADQQ1qaiAEQQF0LQDBpkU6AAALIAFBAUEBQQAgA0ENaiACakEDIAJrEMMDIANBEGokAAuKAQEDfyMAQRBrIgMkAEEDIQIgAC0AACIAIQQgAEEKTwRAIAMgACAAQeQAbiIEQeQAbGtB/wFxQQF0LwDApkU7AA5BASECC0EAIAAgBBtFBEAgAkEBayICIANBDWpqIARBAXQtAMGmRToAAAsgAUEBQQFBACADQQ1qIAJqQQMgAmsQwwMgA0EQaiQAC58BAQN/IAEoAiAhAiABKAIcIQMCQAJAQQgQcSIEBEAgBCACNgIEIAQgAzYCACABQQRqEPYCIAFBBGsoAgAiAkF4cSIDQShBLCACQQNxIgIbSQ0BIAJBACADQcwATxsNAiABEJ8CIABBtLnBADYCBCAAIAQ2AgAPC0EIEOgJAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALnwEBA38gASgCICECIAEoAhwhAwJAAkBBCBBxIgQEQCAEIAI2AgQgBCADNgIAIAFBBGoQ9gIgAUEEaygCACICQXhxIgNBKEEsIAJBA3EiAhtJDQEgAkEAIANBzABPGw0CIAEQnwIgAEHYkscANgIEIAAgBDYCAA8LQQgQ6AkAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAuVAQMDfAF+AX8gALsgAbuiIgMgArsiBKAiBb0iBkL/////AYNCgICAgAFSIAZCgICAgICAgPj/AINCgICAgICAgPj/AFFyIAQgBSADoWEgBSAEoSADYXFyBHwgBQUgBkIBfSAGQgGEIAZCAFMiByADIAQgBaGgIAMgBaEgBKAgByADIARjcxtEAAAAAAAAAABjcxu/C7YLpAEBBH8gABD0AgJAAkAgACgCyAUiAQRAIAAoAswFIgNBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAFqSQ0BIAJBACAEIAFBJ2pLGw0CIAMQnwILIABB4ABqIQECQAJAAkAgACgCvAVBgICAgHhrDgIBAgALIAEQvQIPCyABEL0BCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC6MBAQR/IAAQ8wICQAJAIAAoAqgFIgEEQCAAKAKsBSIDQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyABakkNASACQQAgBCABQSdqSxsNAiADEJ8CCyAAQUBrIQECQAJAAkAgACgCnAVBgICAgHhrDgIBAgALIAEQvQIPCyABEL0BCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC40BAQF/IwBBIGsiAiQAAn8gAC0ABEEBRgRAIAIgAC0ABToADyACIACtQoCAgIAQhDcDGCACIAJBD2qtQoCAgIDgBIQ3AxAgASgCACABKAIEQcSDwAAgAkEQahDEAwwBCyACIACtQoCAgIAQhDcDECABKAIAIAEoAgRB9YPAACACQRBqEMQDCyACQSBqJAALlgEBA38CfwJAAkAgASgCACIDRQRADAELA0ACQCABKAIIIgQgASgCBE8NACADIARqLQAAQcUARw0AIAEgBEEBajYCCAwCCwJAIAJFDQAgASgCECIDRQ0AIANBl/zFAEECEJgDDQMLIAEQgwINAiACQQFqIQIgASgCACIDDQALC0EADAELQQELIQEgACACNgIEIAAgATYCAAvHAQEBeyACIANLBEAgACABIANBFWxqIgEsABSyQwAA/kKVOAJQIAAgAf1cAAD9hwH9pwH9+gH9DAAA/kIAAP5CAAD+QgAA/kIiBP3nAf0LAgAgACAB/VwABP2HAf2nAf36ASAE/ecB/QsCECAAIAH9XAAI/YcB/acB/foBIAT95wH9CwIgIAAgAf1cAAz9hwH9pwH9+gEgBP3nAf0LAjAgACAB/VwAEP2HAf2nAf36ASAE/ecB/QsCQA8LIAMgAkHcnscAEK4HAAt/AQF/IAJBBE8EQANAIAAoAAAgASgAAEcEQEEADwsgAUEEaiEBIABBBGohACACQQRrIgJBA0sNAAsLQQEhAyACQQFLBEAgAC8AACABLwAARwRAQQAPCyACQQJrIQIgAUECaiEBIABBAmohAAsgAgR/IAAtAAAgAS0AAEYFIAMLC4oBAQF/IwBBEGsiAyQAIAIgASACaiIBSwRAQQBBABDhCAALIANBBGogACgCACICIAAoAgRBCCABIAJBAXQiAiABIAJLGyIBIAFBCE0bIgFBAUEBEIsGIAMoAgRBAUYEQCADKAIIIAMoAgwQ4QgACyADKAIIIQIgACABNgIAIAAgAjYCBCADQRBqJAALoAEBBH8gAEH0BGoQwAICQAJAIAAoAugEIgIEQCAAKALsBCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEJ8CCwJAAkACQCAAKALcBEGAgICAeGsOAgECAAsgABC9Ag8LIAAQvQELDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALoAEBBH8gAEH0BGoQiAICQAJAIAAoAugEIgIEQCAAKALsBCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEJ8CCwJAAkACQCAAKALcBEGAgICAeGsOAgECAAsgABC9Ag8LIAAQvQELDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALjgEBBH8jAEEQayICJAACf0EBIAEoAgAiA0EnIAEoAgQiBSgCECIBEQIADQAaIAIgACgCAEGBAhCBAwJAIAItAA0iAEGBAU8EQCADIAIoAgAgARECAEUNAUEBDAILIAMgAiACLQAMIgRqIAAgBGsgBSgCDBEAAEUNAEEBDAELIANBJyABEQIACyACQRBqJAALnQECA38BfiMAQSBrIgIkACABKAIAQYCAgIB4RgRAIAEoAgwhAyACQRxqIgRBADYCACACQoCAgIAQNwIUIAJBFGpB9NjHACADKAIAIgMoAgAgAygCBBDEAxogAkEQaiAEKAIAIgM2AgAgAiACKQIUIgU3AwggAUEIaiADNgIAIAEgBTcCAAsgAEHQ4McANgIEIAAgATYCACACQSBqJAALkwEBAn8jAEEQayICJAACQAJAIAAoAiQiAUEJTwRAIAAoAgQiAUF/Rg0BC0F/IAFndkEAIAEbIgFBf0YNACACQQhqIAAgAUEBahDpAyACKAIIIgBBgYCAgHhHBEAgAA0CQcD6xgBBEUGwrMcAEOcIAAsgAkEQaiQADwtBwPrGAEERQcCsxwAQ3AcACyACKAIMEOgJAAuTAQECfyMAQRBrIgIkAAJAAkAgACgCFCIBQQVPBEAgACgCBCIBQX9GDQELQX8gAWd2QQAgARsiAUF/Rg0AIAJBCGogACABQQFqEOoDIAIoAggiAEGBgICAeEcEQCAADQJBwPrGAEERQbCsxwAQ5wgACyACQRBqJAAPC0HA+sYAQRFBwKzHABDcBwALIAIoAgwQ6AkAC4ABAQJ/IANBCE8EQCAAIAAgA0EDdiIDQQV0IgRqIAAgA0E4bCIFaiADEK0GIQAgASABIARqIAEgBWogAxCtBiEBIAIgAiAEaiACIAVqIAMQrQYhAgsgACACIAEgACgCACIAIAEoAgAiAUkiAyABIAIoAgAiAklzGyADIAAgAklzGwuAAQECfyADQQhPBEAgACAAIANBA3YiA0EEdCIEaiAAIANBHGwiBWogAxCuBiEAIAEgASAEaiABIAVqIAMQrgYhASACIAIgBGogAiAFaiADEK4GIQILIAAgAiABIAAoAgAiACABKAIAIgFJIgMgASACKAIAIgJJcxsgAyAAIAJJcxsLkwEBAn8jAEEQayICJAACQAJAIAAoAiQiAUEJTwRAIAAoAgQiAUF/Rg0BC0F/IAFndkEAIAEbIgFBf0YNACACQQhqIAAgAUEBahDrAyACKAIIIgBBgYCAgHhHBEAgAA0CQcD6xgBBEUGwrMcAEOcIAAsgAkEQaiQADwtBwPrGAEERQcCsxwAQ3AcACyACKAIMEOgJAAuTAQECfyMAQRBrIgIkAAJAAkAgACgCFCIBQQVPBEAgACgCBCIBQX9GDQELQX8gAWd2QQAgARsiAUF/Rg0AIAJBCGogACABQQFqEOwDIAIoAggiAEGBgICAeEcEQCAADQJBwPrGAEERQbCsxwAQ5wgACyACQRBqJAAPC0HA+sYAQRFBwKzHABDcBwALIAIoAgwQ6AkAC5QBAQJ/IwBBEGsiAiQAAkACQCAAKAKEASIBQSFPBEAgACgCBCIBQX9GDQELQX8gAWd2QQAgARsiAUF/Rg0AIAJBCGogACABQQFqEO0DIAIoAggiAEGBgICAeEcEQCAADQJBwPrGAEERQbCsxwAQ5wgACyACQRBqJAAPC0HA+sYAQRFBwKzHABDcBwALIAIoAgwQ6AkAC4IBAQN/IwBBEGsiAiQAQQEhBAJAAkAgAUEBcUUEQCACQQRqIAAgARC+BAwBCyABQQF2IQMgAUECTwRAIAMQcSIERQ0CCyADBEAgBCAAIAP8CgAACyACIAM2AgwgAiAENgIIIAIgAzYCBAsgAkEEahC3ASACQRBqJAAPC0EBIAMQ4QgAC4YBAQF/IwBBEGsiAyQAIAIgASACaiIBSwRAQQBBABDhCAALIANBBGogACgCACICIAAoAgRBCCABIAJBAXQiAiABIAJLGyIBIAFBCE0bIgEQ1QYgAygCBEEBRgRAIAMoAgggAygCDBDhCAALIAMoAgghAiAAIAE2AgAgACACNgIEIANBEGokAAvtAQEEfyMAQRBrIgMkACACIAEgAmoiBEsEQEEAQQAQ4QgACyADQQRqIQEgACgCACICIQUgACgCBCEGAkBBCCAEIAJBAXQiAiACIARJGyICIAJBCE0bIgJBAEgEQCABQQA2AgQgAUEBNgIADAELAn8gBQRAIAYgBUEBIAIQuQIMAQsgAhBxCyIERQRAIAEgAjYCCCABQQE2AgQgAUEBNgIADAELIAEgAjYCCCABIAQ2AgQgAUEANgIACyADKAIEQQFGBEAgAygCCCADKAIMEOEIAAsgAygCCCEBIAAgAjYCACAAIAE2AgQgA0EQaiQAC5sBAgJ/AX4CQAJAAkAgASgCKEECRwRAIAEoApgCQYGAgIB4Rw0BQYCAgIB4IQEMAgtBlP3GABDQCQALIAEoApwCIQMCQCABKAKgAiIBRQRAQQEhAgwBCyABEHEiAkUNAgsgAQRAIAIgAyAB/AoAAAsgAq0gAa1CIIaEIQQLIAAgBDcDCCAAIAE2AgQgAEEGNgIADwtBASABEOEIAAubAQICfwF+AkACQAJAIAEoAihBAkcEQCABKAKkAkGBgICAeEcNAUGAgICAeCEBDAILQZT9xgAQ0AkACyABKAKoAiEDAkAgASgCrAIiAUUEQEEBIQIMAQsgARBxIgJFDQILIAEEQCACIAMgAfwKAAALIAKtIAGtQiCGhCEECyAAIAQ3AwggACABNgIEIABBBjYCAA8LQQEgARDhCAALkwECA38BfiABKQIcIQUCQAJAQQgQcSIDBEAgAyAFNwIAIAFBBGoQ9gIgAUEEaygCACICQXhxIgRBKEEsIAJBA3EiAhtJDQEgAkEAIARBzABPGw0CIAEQnwIgAEGAuMEANgIEIAAgAzYCAA8LQQgQ6AkAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAuTAQIDfwF+IAEpAhwhBQJAAkBBCBBxIgMEQCADIAU3AgAgAUEEahD2AiABQQRrKAIAIgJBeHEiBEEoQSwgAkEDcSICG0kNASACQQAgBEHMAE8bDQIgARCfAiAAQfC1wQA2AgQgACADNgIADwtBCBDoCQALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC5MBAgN/AX4gASkCHCEFAkACQEEIEHEiAwRAIAMgBTcCACABQQRqEPYCIAFBBGsoAgAiAkF4cSIEQShBLCACQQNxIgIbSQ0BIAJBACAEQcwATxsNAiABEJ8CIABB5InHADYCBCAAIAM2AgAPC0EIEOgJAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALjwEBAX8jAEEQayICJAAgAkEIaiABEM8DAkAgAi0ACEEBRgRAIAAgAigCDDYCBCAAQQM2AgAMAQsgAi0ACUUEQCAAQQI2AgAMAQsgAkEIaiABKAIAEOcCIAIoAggiAUECRgRAIAAgAigCDDYCBCAAQQM2AgAMAQsgACACKgIMOAIEIAAgATYCAAsgAkEQaiQAC4QBAQF/AkACQCADEHEiBARAIAMEQCAEIAIgA/wKAAALQQwQcSICRQ0BIAIgAzYCCCACIAQ2AgQgAiADNgIAQQwQcSIDRQ0CIAMgAToACCADQci4xAA2AgQgAyACNgIAIAAgA61CIIZCA4Q3AgAPC0EBIAMQ4QgAC0EMEOgJAAtBDBDoCQALjwEBA38gASgCHCECAkACQEEEEHEiAwRAIAMgAjYCACABQQRqEPYCIAFBBGsoAgAiAkF4cUEkQSggAkEDcSIEG0kNASAEQQAgAkHIAE8bDQIgARCfAiAAQby4wQA2AgQgACADNgIADwtBBBDoCQALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC4UBAQN/An8CQCAAKAIAIgFFDQADQAJAIAAoAggiAyAAKAIETw0AIAEgA2otAABBxQBHDQAgACADQQFqNgIIDAILAkAgAkUNACAAKAIQIgFFDQAgAUGX/MUAQQIQmANFDQBBAQ8LQQEgAEEBENQBDQIaIAJBAWshAiAAKAIAIgENAAsLQQALC48BAQN/IAEtABwhAgJAAkBBARBxIgMEQCADIAI6AAAgAUEEahD2AiABQQRrKAIAIgJBeHFBJEEoIAJBA3EiBBtJDQEgBEEAIAJByABPGw0CIAEQnwIgAEGMlMcANgIEIAAgAzYCAA8LQQEQ6AkAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAuHAQEDfyAAKAIAIQIgACgCBCIAKAIAIgEEQCACIAERAwALAkACQCAAKAIEIgAEQCACQQRrKAIAIgFBeHEiA0EEQQggAUEDcSIBGyAAakkNASABQQAgAyAAQSdqSxsNAiACEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC5QBAgJ+AX8gASkCACABKQIIIQMgAEEEahD2AkLtuq22zYXU9eMAhSADQviCmb2V7sbFuX+FhFAEQCAAQSRqELAECwJAIABBBGsoAgAiAUF4cUEsQTAgAUEDcSIEG08EQCAEQQAgAUHQAE8bDQEgABCfAg8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC4QBAQJ/IAAgASAAKAIIIgNBA3IiAkH+/wNxIAJsQYD+A3FBCHZzIgEgACgCACICc0H/AXFBAnQoAqCPSCACQQh2cyICNgIAIAAgACgCBCACQf8BcWpBhYiiwABsQQFqIgI2AgQgACADQf8BcSACQRh2c0ECdCgCoI9IIANBCHZzNgIIIAELeAIBfwF+IwBBIGsiAiQAAn8gACgCACIAKAIMBEAgAkKAgICAECIDIABBEGqthDcDGCACIAMgAEEMaq2ENwMQIAIgAK1CgICAgPANhDcDCCABKAIAIAEoAgRB/YfAACACQQhqEMQDDAELIAAgARDaAwsgAkEgaiQAC4IBAQJ/AkACQCABQf////8DSw0AIAFBAnQiAkH9////B08NAAJ/IAJFBEBBBCEDQQAMAQsgAhBxIgNFDQIgA0EEay0AAEEDcUUgAkVyRQRAIANBACAC/AsACyABCyECIAAgATYCCCAAIAM2AgQgACACNgIADwsQzwkAC0EEIAIQ4QgAC20BA38jAEEQayICJAAgAC0AACEDQQMhAANAIAAgAmpBDGogA0EPcUG5i8IAai0AADoAACADIgRBBHYhAyAAQQFrIQAgBEEPSw0ACyABQQFBrp/FAEECIAAgAmpBDWpBAyAAaxDDAyACQRBqJAALfwEEfyAAQQRqEPYCAkACQCAAKAIcIgIEQCAAKAIgIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQnwILIABBKGoQ2wQPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtiAQR+IAAgAkL/////D4MiAyABQv////8PgyIEfiIFIAQgAkIgiCICfiIEIAMgAUIgiCIGfnwiAUIghnwiAzcDACAAIAMgBVStIAIgBn4gASAEVK1CIIYgAUIgiIR8fDcDCAtqAQN/IwBBEGsiAyQAIAAoAgAoAgAhAEEJIQIDQCACIANqQQZqIABBD3EtALSiRToAACACQQFrIQIgAEEPSyAAQQR2IQANAAsgAUEBQa6fxQBBAiACIANqQQdqQQkgAmsQwwMgA0EQaiQAC4wBAAJ/AkACQAJAAkACQCACQQNrDgQDBAABBAsgAUGkoMEAQQUQuwcNAUEADAQLIAFBqaDBAEEGELsHDQJBAQwDCyABQa+gwQBBBRC7Bw0BQQIMAgtBAyABQbSgwQBBAxC7B0UNARogAUG3oMEAQQMQuwcNAEEEDAELQQULIQIgAEEAOgAAIAAgAjoAAQuCAQECfyAAQQxqEPQCAkACQAJAIABBf0YNACAAIAAoAgRBAWsiATYCBCABDQAgAEEEaygCACIBQXhxIgJB+ABB/AAgAUEDcSIBG0kNASABQQAgAkGcAU8bDQIgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAuCAQECfyAAQQxqEPMCAkACQAJAIABBf0YNACAAIAAoAgRBAWsiATYCBCABDQAgAEEEaygCACIBQXhxIgJB2ABB3AAgAUEDcSIBG0kNASABQQAgAkH8AE8bDQIgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtnAQN/IwBBEGsiAyQAIAAoAgAhAEEJIQIDQCACIANqQQZqIABBD3EtALSiRToAACACQQFrIQIgAEEPSyAAQQR2IQANAAsgAUEBQa6fxQBBAiACIANqQQdqQQkgAmsQwwMgA0EQaiQAC3YBAn8CQAJAIAAEQCAAQQhrIgMgAygCAEEBaiIENgIAIARFDQIgACgCAEUNARCWCgALEJQKAAsgAEF/NgIAIABBBGogASACQQBHEDYgACAAKAIAQQFqNgIAIAMgAygCAEEBayIANgIAIABFBEAgAxDJBgsPCwALdgECfwJAAkAgAARAIABBCGsiAyADKAIAQQFqIgQ2AgAgBEUNAiAAKAIARQ0BEJYKAAsQlAoACyAAQX82AgAgAEEEaiABIAJBAEcQNCAAIAAoAgBBAWo2AgAgAyADKAIAQQFrIgA2AgAgAEUEQCADEMoGCw8LAAuCAQEDfwJAAkACQAJAIAAtAABBAWsOAgAAAQsgACgCBCICRQ0AIAAoAggiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAt3AQR/AkACQCABKAIUIgUgASgCECIGTw0AIAEoAgwhBwNAIAUgB2otAAAiCEEwa0H/AXFBCU0EQCABIAVBAWoiBTYCFCAFIAZHDQEMAgsLIAhBIHJB5QBGDQELIAAgASACIAMgBBCLBQ8LIAAgASACIAMgBBCOBAuCAQAgAEEGNgIAIAEoAihBAkcEQAJAAkAgAigCEEEBRgRAIAEoAtwCIAIoAhRLDQELIAIoAhhBAUcNASABKALgAiACKAIcTQ0BCyAAQgI3AwggAEEDNgIADwsgASAC/QADAP0LAwAgAUEQaiACQRBq/QADAP0LAwAPC0GU/cYAENAJAAt3AQN/IABBBGoQ9gICQAJAIAAoAhwiAgRAIAAoAiAiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAt3AQR/AkACQCAAKAIAIgIEQCAAKAIEIgNBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIAJqSQ0BIAFBACAEIAJBJ2pLGw0CIAMQnwILIABBDGoQ2wQPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtxAQJ/AkACQCAABEAgAEEIayICIAIoAgBBAWoiAzYCACADRQ0CIAAoAgBFDQEQlgoACxCUCgALIABBfzYCACAAQQRqIAEQMiAAIAAoAgBBAWo2AgAgAiACKAIAQQFrIgA2AgAgAEUEQCACEMkGCw8LAAtxAQJ/AkACQCAABEAgAEEIayICIAIoAgBBAWoiAzYCACADRQ0CIAAoAgBFDQEQlgoACxCUCgALIABBfzYCACAAQQRqIAEQNSAAIAAoAgBBAWo2AgAgAiACKAIAQQFrIgA2AgAgAEUEQCACEMoGCw8LAAtkAQF/An8gA0EASARAQQEhAUEEDAELAn8CfyABBEAgAiABQQEgAxC5AgwBCyADEHELIgRFBEAgAEEBNgIEQQEMAQsgACAENgIEQQALIQEgAyEEQQgLIABqIAQ2AgAgACABNgIAC30BA38CQAJAIAAoAgAiAkGAgICAeHJBgICAgHhHBEAgACgCBCIAQQRrKAIAIgFBeHEiA0EEQQggAUEDcSIBGyACakkNASABQQAgAyACQSdqSxsNAiAAEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC3YBA38gABCIAgJAAkAgACgCxAEiAgRAIAAoAsgBIgBBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0BIAFBACADIAJBJ2pLGw0CIAAQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALdgEDfyAAEMACAkACQCAAKAK8ASICBEAgACgCwAEiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAt0AQN/IAAQ9AICQAJAIAAoAmAiAgRAIAAoAmQiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAt0AQN/IAAQ8wICQAJAIAAoAkAiAgRAIAAoAkQiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtvAQF/IwBBEGsiBSQAIAEEQCAFQQhqIAEgAyAEIAIoAhARBgAgACAFKAIIIgJBAkYiATYCCCAAIAUoAgwiA0EAIAEbNgIEIABBACADQYAIIAJBAXEbIAEbNgIAIAVBEGokAA8LQYHzxABBMhCVCgALdAEEfwJAAkAgACgCKCICBEAgACgCLCIDQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyACakkNASABQQAgBCACQSdqSxsNAiADEJ8CCyAAELkEDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALdAEDfyAAEPIDAkACQCAAKAJoIgIEQCAAKAJsIgBBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0BIAFBACADIAJBJ2pLGw0CIAAQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALbQECfyABKAIIIgRFIAMgASgCACIFIARrTXJFBEAgAUEANgIIIAFBADoADEEAIQQLIAMgBUkEQCADBEAgASgCBCAEaiACIAP8CgAACyAAQQQ6AAAgASADIARqNgIIDwsgAUEAOgAMIABBBDYCAAtzAQN/QeThwQBBHBD5ByEDAkACQCAABEAgAUEEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgAGpJDQEgAkEAIAQgAEEnaksbDQIgARCfAgsgAw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC3IBA38CQAJAIAAoAgAiAkEASgRAIAAoAgQiAEEEaygCACIBQXhxIgNBBEEIIAFBA3EiARsgAmpJDQEgAUEAIAMgAkEnaksbDQIgABCfAgsPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAt3AgJ9An8gASgCCCIFQYCAgAFxIQQgACoCACECIAVBgICAgAFxRQRAIAKLIgNDyhsOWmAgAkMAAAAAXCADQxe30ThdcXJFBEAgASACIARBAEdBARD1Ag8LIAEgAiAEQQBHEM8CDwsgASACIARBAEcgAS8BDhC8AgtvAQN/AkACQCAAKAIAIgIEQCAAKAIEIgBBBGsoAgAiAUF4cSIDQQRBCCABQQNxIgEbIAJqSQ0BIAFBACADIAJBJ2pLGw0CIAAQnwILDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALaAEBfyMAQSBrIgIkACACIAAoAgAoAgAiADYCCCACIABoNgIMIAIgAkEMaq1CgICAgJAOhDcDGCACIAJBCGqtQoCAgICgDoQ3AxAgASgCACABKAIEQfD0wAAgAkEQahDEAyACQSBqJAALawEDfyMAQRBrIgEkACABQQRqIAAoAgAiAiAAKAIEQQQgAkEBdCICIAJBBE0bIgJBCEEgEIsGIAEoAgRBAUYEQCABKAIIIAEoAgwQ4QgACyABKAIIIQMgACACNgIAIAAgAzYCBCABQRBqJAALfQMBfwF+AXwjAEEQayIDJAACQAJAAkACQCAAKAIAQQFrDgIBAgALIAArAwghBSADQQM6AAAgAyAFOQMIDAILIAApAwghBCADQQE6AAAgAyAENwMIDAELIAApAwghBCADQQI6AAAgAyAENwMICyADIAEgAhD6BiADQRBqJAALawEDfyMAQRBrIgEkACABQQRqIAAoAgAiAiAAKAIEQQQgAkEBdCICIAJBBE0bIgJBBEEEEIsGIAEoAgRBAUYEQCABKAIIIAEoAgwQ4QgACyABKAIIIQMgACACNgIAIAAgAzYCBCABQRBqJAALawEDfyMAQRBrIgEkACABQQRqIAAoAgAiAiAAKAIEQQQgAkEBdCICIAJBBE0bIgJBBEEcEIsGIAEoAgRBAUYEQCABKAIIIAEoAgwQ4QgACyABKAIIIQMgACACNgIAIAAgAzYCBCABQRBqJAALawEDfyMAQRBrIgEkACABQQRqIAAoAgAiAiAAKAIEQQQgAkEBdCICIAJBBE0bIgJBBEEMEIsGIAEoAgRBAUYEQCABKAIIIAEoAgwQ4QgACyABKAIIIQMgACACNgIAIAAgAzYCBCABQRBqJAALawEDfyMAQRBrIgEkACABQQRqIAAoAgAiAiAAKAIEQQQgAkEBdCICIAJBBE0bIgJBBEEIEIsGIAEoAgRBAUYEQCABKAIIIAEoAgwQ4QgACyABKAIIIQMgACACNgIAIAAgAzYCBCABQRBqJAALawEDfyMAQRBrIgEkACABQQRqIAAoAgAiAiAAKAIEQQggAkEBdCICIAJBCE0bIgJBAUEBEIsGIAEoAgRBAUYEQCABKAIIIAEoAgwQ4QgACyABKAIIIQMgACACNgIAIAAgAzYCBCABQRBqJAALdQECfyMAQRBrIgIkAEEBIQMCQCABKAIAQSIgASgCBCgCEBECAA0AIAIgATYCBCACIACtQoCAgIDQAIQ3AwggAkEEakGct8EAQaiawAAgAkEIahDEAw0AIAEoAgBBIiABKAIEKAIQEQIAIQMLIAJBEGokACADC3MBAn8jAEEQayIDJAAgA0EEaiABKAIAIAEoAgQgAkEBQQEQiwYCfyADKAIEQQFGBEAgAygCDCEBIAMoAggMAQsgAygCCCEEIAEgAjYCACABIAQ2AgRBgYCAgHgLIQIgACABNgIEIAAgAjYCACADQRBqJAALbAEDfyMAQRBrIgEkACABQQRqIAAoAgAiAiAAKAIEQQQgAkEBdCICIAJBBE0bIgJBBEGMARCLBiABKAIEQQFGBEAgASgCCCABKAIMEOEIAAsgASgCCCEDIAAgAjYCACAAIAM2AgQgAUEQaiQAC2oBAX8jAEEQayIGJAAgAQRAIAZBCGogASADIAQgBSACKAIQEQcAIAYoAgwhASAAIAYoAggiAjYCCCAAIAFBACACQQFxIgIbNgIEIABBACABIAIbNgIAIAZBEGokAA8LQYHzxABBMhCVCgALawEDfyMAQRBrIgEkACABQQRqIAAoAgAiAiAAKAIEQQQgAkEBdCICIAJBBE0bIgJBBEEYEIsGIAEoAgRBAUYEQCABKAIIIAEoAgwQ4QgACyABKAIIIQMgACACNgIAIAAgAzYCBCABQRBqJAALawEDfyMAQRBrIgEkACABQQRqIAAoAgAiAiAAKAIEQQQgAkEBdCICIAJBBE0bIgJBBEEgEIsGIAEoAgRBAUYEQCABKAIIIAEoAgwQ4QgACyABKAIIIQMgACACNgIAIAAgAzYCBCABQRBqJAALdQECfyMAQRBrIgIkAEEBIQMCQCABKAIAQSIgASgCBCgCEBECAA0AIAIgATYCBCACIACtQoCAgICQB4Q3AwggAkEEakG0kccAQaiawAAgAkEIahDEAw0AIAEoAgBBIiABKAIEKAIQEQIAIQMLIAJBEGokACADC3EBAn8gAEEEahD2AiAAKAIkIgEgASgCACgCABEDAAJAIABBBGsoAgAiAUF4cUEsQTAgAUEDcSICG08EQCACQQAgAUHQAE8bDQEgABCfAg8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC2gBAX8jAEEQayIFJAAgAQRAIAVBCGogASADIAQgAigCEBEGACAFKAIMIQEgACAFKAIIIgI2AgggACABQQAgAkEBcSICGzYCBCAAQQAgASACGzYCACAFQRBqJAAPC0GB88QAQTIQlQoAC2YBA38jAEEQayICJAACQCABKAIAIgQoAgBBAUcNACAELQAEQQNHDQAgAkEIaiAEKAIIIgEoAgAgASgCBCgCGBEBACACKAIMIQEgAigCCCEDCyAAIAE2AgQgACADNgIAIAJBEGokAAtjAQJ/QQEhBCACQQFxRQRAIAAgASACEL4EDwsgAkEBdiEDAkAgAkECTwRAIAMQcSIERQ0BCyADBEAgBCABIAP8CgAACyAAIAM2AgggACAENgIEIAAgAzYCAA8LQQEgAxDhCAAL7AEBCH8jAEEQayICJAAgAkEEaiEDIAAoAgAiASEEIAAoAgQhB0EBIQVBBCEGAkBBBCABQQF0IgEgAUEETRsiCCIBQf////8DSwRAQQAhAQwBCyABQQJ0IgFB/P///wdLBEBBACEBDAELAkACfyAEBEAgByAEQQJ0QQQgARC5AgwBCyABEHELIgRFBEAgA0EENgIEDAELIAMgBDYCBEEAIQULQQghBgsgAyAGaiABNgIAIAMgBTYCACACKAIEQQFGBEAgAigCCCACKAIMEOEIAAsgAigCCCEBIAAgCDYCACAAIAE2AgQgAkEQaiQAC2cBA38jAEEQayIBJAAgAUEEaiAAKAIAIgIgACgCBEEIIAJBAXQiAiACQQhNGyICENUGIAEoAgRBAUYEQCABKAIIIAEoAgwQ4QgACyABKAIIIQMgACACNgIAIAAgAzYCBCABQRBqJAALZAEBfwJAIAFBAE4EQAJAIAFFBEBBASECDAELIAEQcSICRQ0CIAJBBGstAABBA3FFIAFFcg0AIAJBACAB/AsACyAAIAE2AgggACACNgIEIAAgATYCAA8LEM8JAAtBASABEOEIAAtfAQF/IwBBIGsiBCQAIAQgATYCBCAEIAA2AgAgBCADNgIMIAQgAjYCCCAEIARBCGqtQoCAgIDAAIQ3AxggBCAErUKAgICAIIQ3AxBB14rAACAEQRBqELIGIARBIGokAAtgAQF/IwBBMGsiAyQAIAMgAjYCDCADIAE2AgggAyAA/QADAP0LAxAgAyADQQhqrUKAgICAMIQ3AyggAyADQRBqrUKAgICA4ACENwMgQbeLwAAgA0EgahCyBiADQTBqJAALYAEBfyMAQTBrIgMkACADIAI2AgwgAyABNgIIIAMgAP0AAwD9CwMQIAMgA0EIaq1CgICAgDCENwMoIAMgA0EQaq1CgICAgOAAhDcDIEGYi8AAIANBIGoQsgYgA0EwaiQAC2UBAX8CQAJAIAEEQCAAQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyABakkNASACQQAgAyABQSdqSxsNAiAAEJ8CCw8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC1oBAX8jAEEgayIDJAAgAyACNgIMIAMgATYCCCADIAA2AgQgAyADQQhqrUKAgICAMIQ3AxggAyADQQRqrUKAgICAEIQ3AxBB+YrAACADQRBqELIGIANBIGokAAtnAQJ/IABBBGoQ9gIgAEEkahCwBAJAIABBBGsoAgAiAUF4cUEsQTAgAUEDcSICG08EQCACQQAgAUHQAE8bDQEgABCfAg8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC2cBAn8gAEEEahD2AiAAQRxqELAEAkAgAEEEaygCACIBQXhxQSRBKCABQQNxIgIbTwRAIAJBACABQcgATxsNASAAEJ8CDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALZwECfyAAQQRqEPYCIABBHGoQ2wQCQCAAQQRrKAIAIgFBeHFBLEEwIAFBA3EiAhtPBEAgAkEAIAFB0ABPGw0BIAAQnwIPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtpAQJ/IABBBGoQ9gIgAEEgahCAAgJAIABBBGsoAgAiAUF4cUHMAEHQACABQQNxIgIbTwRAIAJBACABQfAATxsNASAAEJ8CDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALYAIBfwF+IwBBEGsiASQAIAAoAihBAkcEQCABIAA1AuACIAA1AtwCfiAALQDoBEEDdCkDkO9IEMYGAn4gASkDCFAEQCABKQMADAELQn8LIAFBEGokAA8LQZT9xgAQ0AkAC2IBAX8jAEEQayIFJAAgAQRAIAVBCGogASADIAQgAigCEBEGACAAIAUtAAgiATYCCCAAIAUoAgxBACABGzYCBCAAQQAgBS0ACSABGzYCACAFQRBqJAAPC0GB88QAQTIQlQoAC2EBAX8jAEEQayICJAACfyAAKAIAQQFHBEAgAiAArUKAgICAEIQ3AwggASgCACABKAIEQZfowAAgAkEIahDEAwwBCyABKAIAQcv7xQBBFSABKAIEKAIMEQAACyACQRBqJAALewEBfwJAAkAgAEGECE8EQCAA0G8mAUGYjMkAKAIADQEgAEGojMkAKAIAIgFJDQIgACABayIAQaCMyQAoAgBPDQJBqIXJACgCACAAQQJ0akGkjMkAKAIANgIAQaSMyQAgADYCAEGYjMkAQQA2AgALDwtB3OHHABCzCgsAC1YBAX4CQCADQcAAcUUEQCADRQ0BIAJBACADa0E/ca2GIAEgA0E/ca0iBIiEIQEgAiAEiCECDAELIAIgA0E/ca2IIQFCACECCyAAIAE3AwAgACACNwMIC2ABAX8jAEEQayIEJAAgAQRAIARBCGogASADIAIoAhARBQAgACAELQAIIgE2AgggACAEKAIMQQAgARs2AgQgAEEAIAQtAAkgARs2AgAgBEEQaiQADwtBgfPEAEEyEJUKAAteAQF/AkAgAEEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgAWpPBEAgAkEAIAMgAUEnaksbDQEgABCfAg8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC1wBAX8jAEEgayIFJAAgBSABNgIEIAUgADYCACAFIAM2AgwgBSACNgIIIAUgBUEIaq1CgICAgJABhDcDGCAFIAWtQoCAgICgAYQ3AxBBuJnAACAFQRBqIAQQ2wcAC2EBAn8gAEEEahD2AgJAIABBBGsoAgAiAUF4cSICQShBLCABQQNxIgEbTwRAIAFBACACQcwATxsNASAAEJ8CDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALXAEBfyMAQRBrIgYkACABBEAgBkEIaiABIAMgBCAFIAIoAhARMgAgBigCDCEBIAAgBigCCCICNgIEIAAgAUEAIAJBAXEbNgIAIAZBEGokAA8LQYHzxABBMhCVCgALXAEBfyMAQRBrIgYkACABBEAgBkEIaiABIAMgBCAFIAIoAhARBwAgBigCDCEBIAAgBigCCCICNgIEIAAgAUEAIAJBAXEbNgIAIAZBEGokAA8LQYHzxABBMhCVCgALXAEBfyMAQRBrIgYkACABBEAgBkEIaiABIAMgBCAFIAIoAhARMwAgBigCDCEBIAAgBigCCCICNgIEIAAgAUEAIAJBAXEbNgIAIAZBEGokAA8LQYHzxABBMhCVCgALXAEBfyMAQRBrIgYkACABBEAgBkEIaiABIAMgBCAFIAIoAhARNAAgBigCDCEBIAAgBigCCCICNgIEIAAgAUEAIAJBAXEbNgIAIAZBEGokAA8LQYHzxABBMhCVCgALYQEBfyAAQQRqEPYCAkAgAEEEaygCACIBQXhxIgJBKEEsIAFBA3EiARtPBEAgAUEAIAJBzABPGw0BIAAQnwIPC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtmAgF/AX4CQAJAIAAtAAgiAkEDRwRAIAJBAUsNAiAAQQI6AAggASgCACABQgA3AwBFDQEgASkDCCEDIABBAzoACCAAIAM3AwALDwtBuIHHABDQCQALQazWxwBB8QBBqIHHABDbBwALXwEBfyAAQQRqEPYCAkAgAEEEaygCACIBQXhxQSxBMCABQQNxIgIbTwRAIAJBACABQdAATxsNASAAEJ8CDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALWgEBfyMAQRBrIgUkACABBEAgBUEIaiABIAMgBCACKAIQEQYAIAUoAgwhASAAIAUoAggiAjYCBCAAIAFBACACQQFxGzYCACAFQRBqJAAPC0GB88QAQTIQlQoAC18BAn8gAEEEahD2AgJAIABBBGsoAgAiAUF4cUEkQSggAUEDcSICG08EQCACQQAgAUHIAE8bDQEgABCfAg8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC18BAX8gAEEEahD2AgJAIABBBGsoAgAiAUF4cUEkQSggAUEDcSICG08EQCACQQAgAUHIAE8bDQEgABCfAg8LQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgAC2EBAX8gAEEEahD2AgJAIABBBGsoAgAiAUF4cUHMAEHQACABQQNxIgIbTwRAIAJBACABQfAATxsNASAAEJ8CDwtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALSwEBfyMAQRBrIgIkACABIAAoAgAiAEF/c0EfdkEBQQAgACAAQR91IgFzIAFrIAJBBmoiARCcBSIAIAFqQQogAGsQwwMgAkEQaiQAC1gBAX8jAEEQayIEJAAgAQRAIARBCGogASADIAIoAhARBQAgBCgCDCEBIAAgBCgCCCICNgIEIAAgAUEAIAJBAXEbNgIAIARBEGokAA8LQYHzxABBMhCVCgALWAECfyMAQRBrIgIkACABLQAAQQNHBH9BAAUgAkEIaiABKAIEIgEoAgAgASgCBCgCJBEBACACKAIMIQMgAigCCAshASAAIAM2AgQgACABNgIAIAJBEGokAAtYAQJ/IwBBEGsiAiQAIAEtAABBA0cEf0EABSACQQhqIAEoAgQiASgCACABKAIEKAIYEQEAIAIoAgwhAyACKAIICyEBIAAgAzYCBCAAIAE2AgAgAkEQaiQAC1EBA38CQAJAIAAEQCAAQQhrIgEgASgCACICQQFqIgM2AgAgA0UNAiAAKAIAQf////8HSQ0BEJYKAAsQlAoACyAAKAIYIAEgAjYCAEEARw8LAAtYAQJ/IAEoAgQhAwJAAkAgASgCCCIBRQRAQQEhAgwBCyABEHEiAkUNAQsgAQRAIAIgAyAB/AoAAAsgACABNgIIIAAgAjYCBCAAIAE2AgAPC0EBIAEQ4QgAC0oCAX8CfiMAQSBrIgIkACABIAApAwAiA0IAWUEBQQAgAyADQj+HIgSFIAR9IAJBDGoiARDlAyIAIAFqQRQgAGsQwwMgAkEgaiQAC1QBAn8CQCAAQ////z4gAJiSIgC8IgJBF3ZB/wFxIgFBlQFLDQBBgICAgHhBgICAfCABQf8Aa3UgAUH/AEkbIgFBf3MgAnFFDQAgASACcb4hAAsgAAtXAQF/IAAoAugEIAAoAvAEIgNrIAJJBEAgAEHoBGogAyACQQFBARCYBiAAKALwBCEDCyACBEAgACgC7AQgA2ogASAC/AoAAAsgACACIANqNgLwBCAAEFwLVwEBfyAAKALoBCAAKALwBCIDayACSQRAIABB6ARqIAMgAkEBQQEQmAYgACgC8AQhAwsgAgRAIAAoAuwEIANqIAEgAvwKAAALIAAgAiADajYC8AQgABBdC1cBAX8gACgCqAUgACgCsAUiA2sgAkkEQCAAQagFaiADIAJBAUEBEJgGIAAoArAFIQMLIAIEQCAAKAKsBSADaiABIAL8CgAACyAAIAIgA2o2ArAFIAAQXgtXAQF/IAAoAsgFIAAoAtAFIgNrIAJJBEAgAEHIBWogAyACQQFBARCYBiAAKALQBSEDCyACBEAgACgCzAUgA2ogASAC/AoAAAsgACACIANqNgLQBSAAEF8LWAEBfyAAKAL4AiAAKAKAAyIDayACSQRAIABB+AJqIAMgAkEBQQEQmAYgACgCgAMhAwsgAgRAIAAoAvwCIANqIAEgAvwKAAALIAAgAiADajYCgAMgABCfAQtYAQF/IAAoArACIAAoArgCIgNrIAJJBEAgAEGwAmogAyACQQFBARCYBiAAKAK4AiEDCyACBEAgACgCtAIgA2ogASAC/AoAAAsgACACIANqNgK4AiAAELEBC1gBAX8gACgC2AIgACgC4AIiA2sgAkkEQCAAQdgCaiADIAJBAUEBEJgGIAAoAuACIQMLIAIEQCAAKALcAiADaiABIAL8CgAACyAAIAIgA2o2AuACIAAQtgELWAEBfyAAKAKwAiAAKAK4AiIDayACSQRAIABBsAJqIAMgAkEBQQEQmAYgACgCuAIhAwsgAgRAIAAoArQCIANqIAEgAvwKAAALIAAgAiADajYCuAIgABC/AQtRAQF/IAAoAkAgACgCSCIDayACSQRAIABBQGsgAyACQQFBARCYBiAAKAJIIQMLIAIEQCAAKAJEIANqIAEgAvwKAAALIAAgAiADajYCSCAAEDwLVwEBfyAAKALEASAAKALMASIDayACSQRAIABBxAFqIAMgAkEBQQEQmAYgACgCzAEhAwsgAgRAIAAoAsgBIANqIAEgAvwKAAALIAAgAiADajYCzAEgABA/C1IBAX8gACgCYCAAKAJoIgNrIAJJBEAgAEHgAGogAyACQQFBARCYBiAAKAJoIQMLIAIEQCAAKAJkIANqIAEgAvwKAAALIAAgAiADajYCaCAAED4LVwEBfyAAKAK8ASAAKALEASIDayACSQRAIABBvAFqIAMgAkEBQQEQmAYgACgCxAEhAwsgAgRAIAAoAsABIANqIAEgAvwKAAALIAAgAiADajYCxAEgABBBC1MBAn8jAEEQayIDJAAgABC7CiEEIAMgAjYCDCADIAQ2AgggAiAERwRAQQAgA0EIaiADQQxqQQAgA0G088QAEOQHAAsgACABIAIQ5AkgA0EQaiQAC1AAIwBBEGsiACQAAkAgASACbCIBBH8gAUHB////B08NAUHAACABELsEBUEACyAAQRBqJAAPC0GAuMgAQSsgAEEPakHU1MgAQfTUyAAQiQcAC00BAX8jAEEQayICJAAgAiAAKAIAIgA2AgwgASAAQQNqQaDExAAgAEEBakGwxMQAIABBAmpBwMTEACACQQxqQdDExAAQ4AUgAkEQaiQAC00BAX8jAEEQayICJAAgAiAAKAIAIgA2AgwgASAAQQNqQZiMxwAgAEEBakGojMcAIABBAmpBuIzHACACQQxqQciMxwAQ4AUgAkEQaiQAC08CAX8BfiMAQSBrIgMkACADIAE2AgwgAyAANgIIIANCgICAgBAiBCADQQhqrYQ3AxggAyAEIANBDGqthDcDEEH3hsAAIANBEGogAhDbBwALUAEBfyAAKAJgIAAoAmgiA2sgAkkEQCAAQeAAaiADIAJBAUEBEJgGIAAoAmghAwsgAgRAIAAoAmQgA2ogASAC/AoAAAsgACACIANqNgJoQQALVQEBfyAAKAK8ASAAKALEASIDayACSQRAIABBvAFqIAMgAkEBQQEQmAYgACgCxAEhAwsgAgRAIAAoAsABIANqIAEgAvwKAAALIAAgAiADajYCxAFBAAtVAQF/IAAoAsQBIAAoAswBIgNrIAJJBEAgAEHEAWogAyACQQFBARCYBiAAKALMASEDCyACBEAgACgCyAEgA2ogASAC/AoAAAsgACACIANqNgLMAUEAC08BAX8gACgCQCAAKAJIIgNrIAJJBEAgAEFAayADIAJBAUEBEJgGIAAoAkghAwsgAgRAIAAoAkQgA2ogASAC/AoAAAsgACACIANqNgJIQQALTgEDfwJAAkAgAARAIABBCGsiASABKAIAIgJBAWoiAzYCACADRQ0CIAAoAgBB/////wdJDQEQlgoACxCUCgALIAAoAgwgASACNgIADwsAC1YBAX9BKBBxIgJFBEBBKBDoCQALIAJB7L/BADYCACACIAEpAgA3AgQgAiAAKQIANwIcIAJBDGogAUEIav0AAgD9CwIAIAJBJGogAEEIaigCADYCACACC0gBAX8jAEEQayICJAAgAiAANgIMIAEgAEEDakGYjMcAIABBAWpBqIzHACAAQQJqQbiMxwAgAkEMakHIjMcAEOAFIAJBEGokAAtIAgF/AX4jAEEQayIBJAAgASAANQKIASAANQKEAX5CBEIDIAAtAJMBGxDGBgJ+IAEpAwhQBEAgASkDAAwBC0J/CyABQRBqJAALTAEBfyAAKAIAIAAoAggiA2sgAkkEQCAAIAMgAkEBQQEQmAYgACgCCCEDCyACBEAgACgCBCADaiABIAL8CgAACyAAIAIgA2o2AghBAAthAQJ+An8gASkCACICQveRzaeEycHeSIUgASkCCCIDQsS3mqzIl6v9WoWEUEUEQEEAIAJC7bqtts2F1PXjAIUgA0L4gpm9le7Gxbl/hYRCAFINARogAEEcag8LIABBJGoLC2IBAn4CfyABKQIAIgJCq+Ou3f+lkKtvhSABKQIIIgNCz8Oc2v63u+ubf4WEUEUEQEEAIAJC/MyKkIyotv25f4UgA0LAjNuUyuy06OsAhYRCAFINARogAEEcag8LIABBKGoLC0AAAkAgAWlBAUcgAEGAgICAeCABa0tyDQAgAARAAn8gAUEJTwRAIAEgABC7BAwBCyAAEHELIgFFDQELIAEPCwALQwEDfwJAIAJFDQADQCAALQAAIgQgAS0AACIFRgRAIABBAWohACABQQFqIQEgAkEBayICDQEMAgsLIAQgBWshAwsgAwvUOQQhfwN+AnsHfSMAQRBrIiUkACMAQeAAayIaJAAgGiABOAIIIBogBDYCECAaIAA2AgwCfwJ/AkACQAJAAkAgBEEEdCAIRgRAIAQgCkcNASAEIAxHDQIgBCAORw0DIAQgEEcNBCAEIBJGBEAgGiAGNgJUIBogBTYCUCAaIAQ2AkggGiARNgJEIBogBDYCQCAaIA82AjwgGiAENgI4IBogDTYCNCAaIAQ2AjAgGiALNgIsIBogBDYCKCAaIAk2AiQgGiAINgIgIBogBzYCHCAaIAQ2AhggGiADNgIUIBogGkEQajYCXCAaIBpBCGo2AlggGiAaQQxqNgJMIBpBFGohACMAQTBrIhYkAEHIh8kALQAAQQFHBEAQWAsCQAJAAkACQAJAAkBBqIbJACgCAEUEQCAAKAJIITIgACgCRCEqIAAoAkAhKyAAKAI8IRggACgCOCEzIAAoAjQhLCAAKAIwIR0gACgCLCEtIAAoAighISAAKAIkIS4gACgCICEcIAAoAhwhLyAAKAIYIRsgACgCFCEwIAAoAhAhFyAAKAIMISkgACgCCCEkIAAoAgQhHyAAKAIAIRlBqIbJAEF/NgIAAkACQAJAAkACQAJAAkACQCAfQZqz5gxPDQACQCAfQdAAbCIxRQRAQRAhIwwBCyAfISdBECAxELsEIiNFDQgLIB8EQANAAkACQEG8hskAKAIARQ0AQQAhIkG0hskAKAIAIh5ByIbJACkDACI0IBkgE0ECdCIoaigCACImrYUiNUI4hiA1QoD+A4NCKIaEIDVCgID8B4NCGIYgNUKAgID4D4NCCIaEhCA0QgiIQoCAgPgPgyA0QhiIQoCA/AeDhCA0QiiIQoD+A4MgNEI4iISEhELSgaqbq/qC16d/fiI0QjiGIDRCgP4Dg0IohoQgNEKAgPwHg0IYhiA0QoCAgPgPg0IIhoSEIDRCCIhCgICA+A+DIDRCGIhCgID8B4OEIDRCKIhCgP4DgyA0QjiIhISEIDVC2KLR78Kp5b8tfoUiNkI4hiA2QoD+A4NCKIaEIDZCgID8B4NCGIYgNkKAgID4D4NCCIaEhCA2QgiIQoCAgPgPgyA2QhiIQoCA/AeDhCA2QiiIQoD+A4MgNkI4iISEhEHAhskAKQMAIjRCf4V+IjVCOIYgNUKA/gODQiiGhCA1QoCA/AeDQhiGIDVCgICA+A+DQgiGhIQgNUIIiEKAgID4D4MgNUIYiEKAgPwHg4QgNUIoiEKA/gODIDVCOIiEhIQgNiA0QjiGIDRCgP4Dg0IohoQgNEKAgPwHg0IYhiA0QoCAgPgPg0IIhoSEIDRCCIhCgICA+A+DIDRCGIhCgID8B4OEIDRCKIhCgP4DgyA0QjiIhISEfoUgNokiNadxIRUgNUIZiEL/AINCgYKEiJCgwIABfiE0QbCGyQAoAgAiIEEgayEAA0AgFSAgaikAACI2IDSFIjVCf4UgNUKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyI1UEUEQANAICYgACA1eqdBA3YgFWogHnEiFEEFdGsoAgBGDQQgNUIBfSA1gyI1UEUNAAsLIDYgNkIBhoNCgIGChIiQoMCAf4NQRQ0BIBUgIkEIaiIiaiAecSEVDAALAAtB3JvBABDQCQALIBNBBHQiIkEIciEeAkACQAJAAkACQAJAAkAgKSAiQQtyIgBPBEAgIkEMciEVICJBD3IiACApSw0BIBMgMEYNAiATIC9GDQMgEyAuRg0EIBMgLUYNBSAkIB5BAnRqIgAqAgghPCAA/V0CACE4ICQgFUECdGoiACoCCCE9IAD9XQIAITcgFyAoaioCACE/IBsgKGoqAgAhOiAcIChqKgIAIQFDAACAPyE5ICEgKGoqAgAiO0MAAAAAXg0GDAcLIB4gACApQdycwQAQ1QcACyAVIAAgKUHMnMEAENUHAAsgMCAwQeybwQAQrgcACyAvIC9B/JvBABCuBwALIC4gLkGMnMEAEK4HAAsgLSAtQZycwQAQrgcAC0MAADRDIDsgO0MAADRDXhtDAAAAP5RDNfqOPJQQmwIhOQsCQAJAIBMgLEcEQCAgQQAgFGtBBXRqIRVDAACAPyE+IB0gKGoqAgAiO0MAAAAAXg0BDAILICwgLEGsnMEAEK4HAAtDAAA0QyA7IDtDAAA0Q14bQwAAAD+UQzX6jjyUEJsCIT4LIBVBBGsoAgAiFCgCCCIAQf////8HTw0IIBQgAEEBajYCCCAjIBNB0ABsaiIAID4gORDcCDgCRCAAIDk4AkAgACABOAI8IAAgOjgCOCAAID84AjQgACAmNgIwIAAgFUEQazYCLCAAIBVBHGs2AiggACAUQQhqNgIkIAAgFEEMajYCICAAIDcgPf0gAiA9/SAD/QsEACAAIDggPP0gAiI3/eEBIDf9DQABAgMEBQYHCAkKCwgJCgsgNyA8/SADIjcgN/3mASI3IDf9DQgJCgsAAQIDAAECAwABAgMgNyA3IDf9DQQFBgcAAQIDAAECAwABAgP95AH95AH94wEgN/0NAAECAwABAgMAAQIDAAECA/3nAf0LBBAgE0EBaiITIB9HDQALC0Goh8kAQQA2AgBBnIfJAEEANgIAIDMoAgAiAEGgh8kAKAIASwRAQaCHyQBBACAAQQRBCBCYBgtBtIfJAEEANgIAQeyGyQAoAgAEQEHohskAQeSGyQAoAgAiFAR/IBRBCWoiAARAQeCGyQAoAgBB/wEgAPwLAAsgFCAUQQFqQQN2QQdsIBRBCEkbBUEACzYCAEHshskAQQA2AgALQQAhGUEAIRsgHwRAICMgMWohHCAjQdAAaiEXIB9BAWtB/////wBxQQFqIRtBACETICMhAANAIBMgK0YNDCAYKAIAIhRBEHRBACAUQX9HGyIhIAAoAiAiFSgCCCIUTw0LIBUoAgQgIUEEdGogABCaAiEBIBYgITYCFCAWIAE4AgwgFiATNgIQIBZBDGoQjwQgACgCMEEAEJICRQRAIAAoAjAhFEG0h8kAKAIAIhVBrIfJACgCAEYEQEGsh8kAEOkGC0Gwh8kAKAIAIBVBA3RqIgBBADYCBCAAIBQ2AgBBtIfJACAVQQFqNgIACyAYQQRqIRhB0ABBACAXIgAgHEcbIABqIRcgGyATQQFqIhNHDQALCwJAQZyHyQAoAgAiFUUEQEMAAIB/ITlBACEmDAELQwAAgH8hOUEAISYDQAJAICoqAgAhOiA5QZiHyQAoAgAiACoCACIBENwIITkgASA6Xw0AA0ACQAJAAkACQCAfIAAoAgQiHksEQCAAKAIIIh0gIyAeQdAAbGoiICgCICIUKAIIIgBPDQEgFCgCBCAdQQR0aiIALwEMIhgEQCAYIBtqQQFrIhQgMygCAEsNByAAKAIAIQAgFkEMahC1AiAgKAIwIABBEHYiIRCSAkUEQCAgKAIwIRlBtIfJACgCACIXQayHyQAoAgBGBEBBrIfJABDpBgtBsIfJACgCACAXQQN0aiITICE2AgQgEyAZNgIAQbSHyQAgF0EBajYCAAsgACAYaiIXQQFrQRB2IhwgIUYNAyAgKAIwIBwQkgINAyAgKAIwIRlBtIfJACgCACIVQayHyQAoAgBGBEBBrIfJABDpBgtBsIfJACgCACAVQQN0aiITIBw2AgQgEyAZNgIAQbSHyQAgFUEBajYCAAwDCyAWQQxqELUCQaiHyQAoAgAiFEGgh8kAKAIARgRAQaCHyQAQ6QYLQaSHyQAoAgAgFEEDdGoiACAdNgIEIAAgHjYCAEGoh8kAIBRBAWo2AgAgJkEBaiEmDAMLIB4gH0HsmMEAEK4HAAsgHSAAQfyYwQAQrgcACwJAICAoAiwiEygCCCIZIBxLBEAgGSAhTQRAICEgGUGMmcEAEK4HAAsgEygCBCITICFBAnRqKAIAQX9GDQEgEyAcQQJ0aigCAEF/Rg0BIAAgF08NAwNAAkACQCAAQRB2IhcgICgCLCIZKAIIIhNJBEAgAEH//wNxIBkoAgQgF0ECdGooAgBBEHRyIhcgICgCICIZKAIIIhNPDQEgGSgCBCAXQQR0aiAgEJoCIgEgKioCAF9FBEAgFiAXNgIUIBYgHjYCECAWIAE4AgwgFkEMahCPBAwDC0Goh8kAKAIAIhlBoIfJACgCAEYEQEGgh8kAEOkGC0Gkh8kAKAIAIBlBA3RqIhMgFzYCBCATIB42AgBBqIfJACAZQQFqNgIADAILIBcgE0GcmcEAEK4HAAsgFyATQayZwQAQrgcACyAAQQFqIQAgGEEBayIYDQALDAMLQaiHyQAoAgAiFEGgh8kAKAIARgRAQaCHyQAQ6QYLQaSHyQAoAgAgFEEDdGoiACAdNgIEIAAgHjYCAEGoh8kAIBRBAWo2AgAMAQtBqIfJACgCACIUQaCHyQAoAgBGBEBBoIfJABDpBgtBpIfJACgCACAUQQN0aiIAIB02AgQgACAeNgIAQaiHyQAgFEEBajYCAAtBACEZQZyHyQAoAgAiFUUNBAwDC0EAIRlBnIfJACgCACIVRQ0DICoqAgAhOiA5QZiHyQAoAgAiACoCACIBENwIITkgFCEbIAEgOl9FDQALCwsgFSEZC0EAIRtBnIfJAEEANgIAQaiHyQAoAgAiISETIBkEQCAZQQxsIRhBmIfJACgCAEEIaiEAICFBA3QhFQNAIABBBGsoAgAhHCAAKAIAIRdBoIfJACgCACATRgRAQaCHyQAQ6QYLQaSHyQAoAgAgFWoiFCAcNgIAIBRBBGogFzYCAEGoh8kAIBNBAWoiEzYCACAAQQxqIQAgFUEIaiEVIBhBDGsiGA0ACwsgFkEANgIkIBZCgICAgMAANwIcQQQhGCAyKAIAIhcEQCAWQRxqQQAgF0EEQQQQmAYgFigCICIYIBYoAiQiE0ECdGohFCAXQQFHBH8gF0ECdEEEayIABEAgFEEAIAD8CwALIBMgF2oiAEEBayETIBggAEECdGpBBGsFIBQLQQA2AgAgE0EBaiEbQaiHyQAoAgAhEwsgFiAbNgIkAkAgEwRAIBNBA3QhE0Gkh8kAKAIAIQADQCAAKAIAIhQgG08NAiAYIBRBAnRqIhQgFCgCAEEBajYCACAAQQhqIQAgE0EIayITDQALCyAyKAIAIgBBq9Wq1QBPDQFBACEXAkAgAEEMbCIURQRAQQQhFUEAIQAMAQsgFBBxIhVFDQMLIBZBADYCFCAWIBU2AhAgFiAANgIMIBYoAhwhHCAbBEAgG0ECdCEbQQghHSAYIQADQCAAKAIAIhNB/////wNLDQMgE0ECdCIUQf3///8HTw0DAkAgFEUEQEEEISRBACETDAELIBQQcSIkRQ0GCyAAQQRqIQAgFigCDCAXRgRAIBZBDGoQ6AYgFigCECEVCyAVIB1qIhRBADYCACAUQQRrICQ2AgAgFEEIayATNgIAIBYgF0EBaiIXNgIUIB1BDGohHSAbQQRrIhsNAAsLIBwEQCAYQQRrKAIAIgBBeHEiEyAcQQJ0IhRBBEEIIABBA3EiABtqSQ0OIABBACATIBRBJ2pLGw0PIBgQnwILIBYoAhAhFAJAQaiHyQAoAgAiAARAIABBA3QhGEGkh8kAKAIAIRMDQCATKAIAIhsgF08NAiATQQRqKAIAIQAgFCAbQQxsaiIVKAIIIhsgFSgCAEYEQCAVEOYGCyAVKAIEIBtBAnRqIAA2AgAgFSAbQQFqNgIIIBNBCGohEyAYQQhrIhgNAAsLELQJISAgF0UNDSAUIBdBDGxqIRggI0EwaiEbIBRBDGohAEF/ISQgFCETA0AgEygCCEH//wBqQYCA//8DcRCpCSIeQQAgEygCCBDeCCEiIBMoAgQhFSATKAIIIR0gIhC7CiEcIBYgHTYCLCAWIBw2AiggHCAdRw0GICIgFSAdEOQJICJBhAhPBEAgIhCFBwsQsgkhHQJAICRBAWoiJCAfRwRAIBsoAgAhFSAdQaiVwQBBBRDsCCIcIBW4EKoJIhUQswlBrIzJAC0AAEUNAUGsjMkAQQA6AABBsIzJACgCACEAQbCMyQBBADYCACAWIAA2AixBgLjIAEErIBZBLGpB4IzBAEGMm8EAEIkHAAsgHyAfQdyawQAQrgcAC0GwjMkAQQA2AgBBrIzJAEEAOgAAIBVBhAhPBEAgFRCFBwsgHEGECE8EQCAcEIUHCyAdQcGMwQBBCRDsCCIVIBMoAgi4EKoJIhMQswlBrIzJAC0AAA0HQbCMyQBBADYCAEGsjMkAQQA6AAAgE0GECE8EQCATEIUHCyAVQYQITwRAIBUQhQcLIB1BoJfBAEEHEOwIIhMgHhCzCUGsjMkALQAADQhBsIzJAEEANgIAQayMyQBBADoAACAeQYQITwRAIB4QhQcLIBNBhAhPBEAgExCFBwsgICAdEOYJIB1BhAhPBEAgHRCFBwsgACITIBhGIgANDiAbQdAAaiEbIBNBAEEMIAAbaiEAIBMNAAsMDQsgGyAXQZybwQAQrgcACyAUIBtBrJvBABCuBwALEM8JAAtBBCAUEOEIAAtBBCAUEOEIAAtBACAWQShqIBZBLGpBACAiQbTzxAAQ5AcAC0GsjMkAQQA6AABBsIzJACgCACEAQbCMyQBBADYCACAWIAA2AixBgLjIAEErIBZBLGpB4IzBAEH8msEAEIkHAAtBrIzJAEEAOgAAQbCMyQAoAgAhAEGwjMkAQQA2AgAgFiAANgIsQYC4yABBKyAWQSxqQeCMwQBB7JrBABCJBwALQbycwQAQtAoAC0EQIDEQ4QgAC0H8qsEAELMKAAsgISAUQcybwQAQrgcACyArICtBvJvBABCuBwALELQJIRxBtIfJACgCACIABEAgAEEDdCEYQbCHyQAoAgAhEwNAIBNBBGooAgAhGyATKAIAIQAQtAkiFSAAuBCqCSIAEOYJIABBhAhPBEAgABCFBwsgFSAbuBCqCSIAEOYJIABBhAhPBEAgABCFBwsgHCAVEOYJIBVBhAhPBEAgFRCFBwsgE0EIaiETIBhBCGsiGA0ACwsQsgkiGEG8mcEAQQoQ7AgiEyA5uxCqCSIAELMJAkACQAJAAkACQAJAQayMyQAtAABFBEBBsIzJAEEANgIAQayMyQBBADoAACAAQYQITwRAIAAQhQcLIBNBhAhPBEAgExCFBwsgGEHGmcEAQQ8Q7AgiACAgELMJQayMyQAtAAANAUGwjMkAQQA2AgBBrIzJAEEAOgAAICBBhAhPBEAgIBCFBwsgAEGECE8EQCAAEIUHCyAYQdWZwQBBBhDsCCIAIBwQswlBrIzJAC0AAA0CQbCMyQBBADYCAEGsjMkAQQA6AAAgHEGECE8EQCAcEIUHCyAAQYQITwRAIAAQhQcLIBhB25nBAEEKEOwIIhMgIbgQqgkiABCzCUGsjMkALQAADQNBsIzJAEEANgIAQayMyQBBADoAACAAQYQITwRAIAAQhQcLIBNBhAhPBEAgExCFBwsgGEHlmcEAQQwQ7AgiEyAZuBCqCSIAELMJQayMyQAtAAANBEGwjMkAQQA2AgBBrIzJAEEAOgAAIABBhAhPBEAgABCFBwsgE0GECE8EQCATEIUHCyAYQfGZwQBBCRDsCCITICa3EKoJIgAQswlBrIzJAC0AAA0FQbCMyQBBADYCAEGsjMkAQQA6AAAgAEGECE8EQCAAEIUHCyATQYQITwRAIBMQhQcLIBcEQCAUIQADQCAAKAIAIhkEQCAAQQRqKAIAIhVBBGsoAgAiE0F4cSIbIBlBAnQiGUEEQQggE0EDcSITG2pJDQogE0EAIBsgGUEnaksbDQsgFRCfAgsgAEEMaiEAIBdBAWsiFw0ACwsgFigCDCITBEAgFEEEaygCACIAQXhxIhkgE0EMbCITQQRBCCAAQQNxIgAbakkNCCAAQQAgGSATQSdqSxsNCSAUEJ8CCwJAIB9FDQAgH0EDcSETQQAhFSAfQQRPBEAgI0GUAmohACAfQfz//w9xIRkDQCAAQfABaygCACIUIBQoAgBBAWs2AgAgAEGgAWsoAgAiFCAUKAIAQQFrNgIAIABB0ABrKAIAIhQgFCgCAEEBazYCACAAKAIAIhQgFCgCAEEBazYCACAAQcACaiEAIBkgFUEEaiIVRw0ACwsgE0UNACAVQdAAbCAjakEkaiEAA0AgACgCACIUIBQoAgBBAWs2AgAgAEHQAGohACATQQFrIhMNAAsLICcEQCAjQQRrKAIAIgBBeHEiEyAnQdAAbCIUQQRBCCAAQQNxIgAbckkNCCAAQQAgEyAUQSdqSxsNByAjEJ8CC0GohskAQaiGyQAoAgBBAWo2AgAgGiAYNgIEIBpBADYCACAWQTBqJAAMCQtBrIzJAEEAOgAAQbCMyQAoAgAhAEGwjMkAQQA2AgAgFiAANgIsQYC4yABBKyAWQSxqQeCMwQBBzJrBABCJBwALQayMyQBBADoAAEGwjMkAKAIAIQBBsIzJAEEANgIAIBYgADYCLEGAuMgAQSsgFkEsakHgjMEAQbyawQAQiQcAC0GsjMkAQQA6AABBsIzJACgCACEAQbCMyQBBADYCACAWIAA2AixBgLjIAEErIBZBLGpB4IzBAEGsmsEAEIkHAAtBrIzJAEEAOgAAQbCMyQAoAgAhAEGwjMkAQQA2AgAgFiAANgIsQYC4yABBKyAWQSxqQeCMwQBBnJrBABCJBwALQayMyQBBADoAAEGwjMkAKAIAIQBBsIzJAEEANgIAIBYgADYCLEGAuMgAQSsgFkEsakHgjMEAQYyawQAQiQcAC0GsjMkAQQA6AABBsIzJACgCACEAQbCMyQBBADYCACAWIAA2AixBgLjIAEErIBZBLGpB4IzBAEH8mcEAEIkHAAsMAQtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIBooAgQhACAaKAIADAcLQciXwQBBGBDsCAwFC0HMmMEAQR4Q7AgMBAtBs5jBAEEZEOwIDAMLQZWYwQBBHhDsCAwCC0H5l8EAQRwQ7AgMAQtB4JfBAEEZEOwICyEAQQELIRkCQAJAAkAgEgRAIBFBBGsoAgAiJ0F4cSITIBJBAnQiFEEEQQggJ0EDcSISG2pJDQEgEkEAIBMgFEEnaksbDQIgERCfAgsgEARAIA9BBGsoAgAiFEF4cSISIBBBAnQiEUEEQQggFEEDcSIQG2pJDQEgEEEAIBIgEUEnaksbDQIgDxCfAgsgDgRAIA1BBGsoAgAiEUF4cSIQIA5BAnQiD0EEQQggEUEDcSIOG2pJDQEgDkEAIBAgD0EnaksbDQIgDRCfAgsgDARAIAtBBGsoAgAiD0F4cSIOIAxBAnQiDUEEQQggD0EDcSIMG2pJDQEgDEEAIA4gDUEnaksbDQIgCxCfAgsgCgRAIAlBBGsoAgAiDUF4cSIMIApBAnQiC0EEQQggDUEDcSIKG2pJDQEgCkEAIAwgC0EnaksbDQIgCRCfAgsgCARAIAdBBGsoAgAiC0F4cSIKIAhBAnQiCUEEQQggC0EDcSIIG2pJDQEgCEEAIAogCUEnaksbDQIgBxCfAgsgBgRAIAVBBGsoAgAiCUF4cSIIIAZBAnQiB0EEQQggCUEDcSIGG2pJDQEgBkEAIAggB0EnaksbDQIgBRCfAgsgBARAIANBBGsoAgAiB0F4cSIGIARBAnQiBUEEQQggB0EDcSIEG2pJDQEgBEEAIAYgBUEnaksbDQIgAxCfAgsgJSAZQQFxIgM2AgggJSAAQQAgAxs2AgQgJUEAIAAgAxs2AgAgGkHgAGokAAwCC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsgJSgCACAlKAIEICUoAgggJUEQaiQACz8BAn8jAEEQayICJAACfyABQQFxRQRAIAJBBGoiAyAAIAEQvgQgAxCACAwBCyAAIAFBAXYQ+QcLIAJBEGokAAtQAQF/IwBBEGsiAiQAIAJBCGogASABKAIAKAIEEQEAIAIgAigCCCACKAIMKAIYEQEAIAIoAgQhASAAIAIoAgA2AgAgACABNgIEIAJBEGokAAtIAQF/IAAoAgAgACgCCCIDayACSQRAIAAgAyACELMGIAAoAgghAwsgAgRAIAAoAgQgA2ogASAC/AoAAAsgACACIANqNgIIQQALSAEBfyAAKAIAIAAoAggiA2sgAkkEQCAAIAMgAhC0BiAAKAIIIQMLIAIEQCAAKAIEIANqIAEgAvwKAAALIAAgAiADajYCCEEAC0gBAX8gACgCACAAKAIIIgNrIAJJBEAgACADIAIQpgYgACgCCCEDCyACBEAgACgCBCADaiABIAL8CgAACyAAIAIgA2o2AghBAAtOACAAQQY2AgACQAJAIAIoAhBBAUYEQCABKAKEASACKAIUSw0BCyACKAIYQQFHDQEgASgCiAEgAigCHE0NAQsgAEICNwMIIABBAzYCAAsLTwECfyAAKAIEIQIgACgCACEDAkAgACgCCCIALQAARQ0AIANBupDDAEEEIAIoAgwRAABFDQBBAQ8LIAAgAUEKRjoAACADIAEgAigCEBECAAtKAQJ/IAAgACgCBCIDIAJrNgIEIAAgACgCACACIANLciIENgIAQQEhAyAEBH8gAwUgACgCCCIAKAIAIAEgAiAAKAIEKAIMEQAACwvmAQIFfwF7IwBBEGsiACQAIwBBEGsiASQAIAFBADoADwJAAkACQEEBEHEiAgRAIAAgAUEPaq03AwAgACACrTcDCCACQQRrKAIAIgNBeHEiBEEFQQkgA0EDcSIDG0kNASADQQAgBEEpTxsNAiACEJ8CIAFBEGokAAwDC0EBEOgJAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQdCMyQAtAABBAkcEQCAA/QAEACEFQdCMyQBBAToAAEHAjMkAIAX9CwQAIABBEGokAA8LQZDjxwBB/QBB0OPHABDbBwALSgEBfyMAQRBrIgMkACADQQhqIAEoAgAgASgCBCABKAIIEPoBIAIgAygCCCADKAIMENkHIQEgAEECNgIAIAAgATYCBCADQRBqJAALSgEBfyMAQRBrIgMkACADQQhqIAEoAgAgASgCBCABKAIIEPoBIAIgAygCCCADKAIMENkHIQEgAEEBOgAAIAAgATYCBCADQRBqJAALSgEBfyMAQRBrIgMkACADQQhqIAEoAgAgASgCBCABKAIIEPoBIAIgAygCCCADKAIMENkHIQEgAEEBOwEAIAAgATYCBCADQRBqJAALSgEBfyMAQRBrIgMkACADQQhqIAEoAgAgASgCBCABKAIIEPoBIAIgAygCCCADKAIMENkHIQEgAEEANgIAIAAgATYCBCADQRBqJAALPgEBfyMAQRBrIgIkACACIAE2AgQgAiAANgIAIAIgAq1CgICAgCCENwMIQbLswAAgAkEIahCyBiACQRBqJAALPgEBfyMAQRBrIgIkACACIAE2AgQgAiAANgIAIAIgAq1CgICAgCCENwMIQbLswAAgAkEIahC/BSACQRBqJAALPgEBfyMAQRBrIgIkACACIAE2AgQgAiAANgIAIAIgAq1CgICAgCCENwMIQcbswAAgAkEIahC/BSACQRBqJAALPgEBfyMAQRBrIgIkACACIAE2AgQgAiAANgIAIAIgAq1CgICAgCCENwMIQcbswAAgAkEIahCyBiACQRBqJAALjwEBA38jAEEwayIBJAAgAUEMaiIDEOIIIAEgADYCLCABQSI2AiggAUGs6sEANgIkIAFBJGohAEEoEHEiAkUEQEEoEOgJAAsgAkHQv8EANgIAIAIgAykCADcCBCACIAApAgA3AhwgAkEMaiADQQhq/QACAP0LAgAgAkEkaiAAQQhqKAIANgIAIAFBMGokACACCzsBAX8jAEEQayICJAAgAUEBQQFBACAAKAIAKAIAIAJBBmoiARCcBSIAIAFqQQogAGsQwwMgAkEQaiQAC0gBAX8CQCABQeEAayIBQf8BcUEZSwRAQQAhAQwBCyABQQJ0QfwHcSICKALY4UghASACKALw4EghAgsgACACNgIEIAAgATYCAAs4AQF/IwBBEGsiAiQAIAFBAUEBQQAgACgCACACQQZqIgEQnAUiACABakEKIABrEMMDIAJBEGokAAtJAgJ/AX0gASgCCCIDQYCAgAFxIQIgACoCACEEIANBgICAgAFxRQRAIAEgBCACQQBHQQAQ9QIPCyABIAQgAkEARyABLwEOELwCCzgBAX8jAEEgayICJAAgAUEBQQFBACAAKQMAIAJBDGoiARDlAyIAIAFqQRQgAGsQwwMgAkEgaiQAC0cBAn8gAC0ADSICQYABTQRAIAEoAgAgACAALQAMIgNqIAIgA2sgASgCBCgCDBEAAA8LIAEoAgAgACgCACABKAIEKAIQEQIAC/sBAAJAIAAgAk0EQCAAIAFNIAEgAktyDQEjAEEgayICJAAgAiABNgIMIAIgADYCCCACIAJBDGqtQoCAgIAQhDcDGCACIAJBCGqtQoCAgIAQhDcDEEHPhsAAIAJBEGogAxDbBwALIwBBIGsiASQAIAEgAjYCDCABIAA2AgggASABQQxqrUKAgICAEIQ3AxggASABQQhqrUKAgICAEIQ3AxBBsYjAACABQRBqIAMQ2wcACyMAQSBrIgAkACAAIAI2AgwgACABNgIIIAAgAEEMaq1CgICAgBCENwMYIAAgAEEIaq1CgICAgBCENwMQQeqIwAAgAEEQaiADENsHAAuVDQMIfwV+AXwgASgCCCIFQYCAgAFxIQQgACsDACEPIAVBgICAgAFxRQRAIARBAEchCCMAQYABayIDJAAgD70iCkL/////////B4MiDUKAgICAgICACIQgCkIBhkL+////////D4MgCkI0iKdB/w9xIgQbIgtCAYMhDkECIQACQAJAAkACQAJAIA1QIgVBAkEDIAUbQQQgCkKAgICAgICA+P8AgyINUBsgDUKAgICAgICA+P8AURtBAWsOBAABAgMEC0EDIQAMAwtBBCEADAILIARBswhrIQcgDlAhAEIBIQwMAQtCgICAgICAgCAgC0IBhiALQoCAgICAgIAIUSIFGyELQgJCASAFGyEMIA5QIQBBy3dBzHcgBRsgBGohBwsgAyAHOwF4IAMgDDcDcCADQgE3A2ggAyALNwNgIAMgADoAegJ/AkACQAJAAkAgAEEBTQRAQZKfxQBBASAKQgBTIgAbIQRBkp/FAEG4i8IAIAAbIQUgCkI/iKchACADQSBqIANB4ABqIANBD2oQ0gEgAygCIEUNASADQdgAaiADQShqKAIANgIAIAMgAykCIDcDUAwCCyAAQQJGDQIgA0ECOwEgQQEhB0GSn8UAQbiLwgAgCkIAUyIFG0GSn8UAQQEgBRsgCBshBCAKQj+IpyAIciEFIABBBEYNAyADQQM2AiggA0Gch8YANgIkIANBIGoMBAsgA0HQAGogA0HgAGogA0EPahBZCyAFIAQgCBshBCAAIAhyIQUgAyADKAJQIAMoAlQgAy8BWEEAIANBIGoQ5AQgAygCBCEHIAMoAgAMAgsgA0EDNgIoIANBo4fGADYCJCADQQI7ASBBASEEQQAhBUEBIQcgA0EgagwBCyADQQE2AiggA0HNnMUANgIkIANBIGoLIQAgAyAHNgJcIAMgADYCWCADIAU2AlQgAyAENgJQIAEgA0HQAGoQwAMgA0GAAWokAA8LIARBAEchCSABLwEOIQUjAEHwCGsiAiQAIA+9IgpC/////////weDIg1CgICAgICAgAiEIApCAYZC/v///////w+DIApCNIinQf8PcSIIGyILQgGDIQ5BAiEAAkACQAJAAkACQCANUCIEQQJBAyAEG0EEIApCgICAgICAgPj/AIMiDVAbIA1CgICAgICAgPj/AFEbQQFrDgQAAQIDBAtBAyEADAMLQQQhAAwCCyAIQbMIayEGIA5QIQBCASEMDAELQoCAgICAgIAgIAtCAYYgC0KAgICAgICACFEiBBshC0ICQgEgBBshDCAOUCEAQct3Qcx3IAQbIAhqIQYLIAIgBjsB6AggAiAMNwPgCCACQgE3A9gIIAIgCzcD0AggAiAAOgDqCAJ/AkAgAEEBTQRAQXRBBSAGwSIAQQBIGyAAbCIEQcD9AEkNAUG4jsIAQSVB4I7CABDnCAALAkACQCAAQQJHBEBBASEGQZKfxQBBuIvCACAKQgBTIgQbQZKfxQBBASAEGyAJGyEHIApCP4inIAlyIQQgAEEERw0BQQIhBiACQQI7AZAIIAUNAkEBIQYgAkEBNgKYCCACQc2cxQA2ApQIIAJBkAhqDAQLIAJBAzYCmAggAkGjh8YANgKUCCACQQI7AZAIQQEhB0EAIQRBASEGIAJBkAhqDAMLIAJBAzYCmAggAkGch8YANgKUCCACQQI7AZAIIAJBkAhqDAILIAIgBTYCoAggAkEAOwGcCCACQQI2ApgIIAJBqY3CADYClAggAkGQCGoMAQtBkp/FAEEBIApCAFMiABshA0GSn8UAQbiLwgAgABsgCkI/iKchCCACQZAIaiALIAYgAkEQaiAEQQR2QRVqIgRBgIB+QQAgBWsgBcFBAEgbIgAQ5AIgAMEhBgJAIAIoApAIBEAgAkHICGogAkGYCGooAgA2AgAgAiACKQKQCDcDwAgMAQsgAkHACGogAkHQCGogAkEQaiAEIAYQZwsgAyAJGyEHIAggCXIhBCAGIAIuAcgIIgBIBEAgAkEIaiACKALACCACKALECCAAIAUgAkGQCGoQ5AQgAigCDCEGIAIoAggMAQtBAiEGIAJBAjsBkAggBUUEQEEBIQYgAkEBNgKYCCACQc2cxQA2ApQIIAJBkAhqDAELIAIgBTYCoAggAkEAOwGcCCACQQI2ApgIIAJBqY3CADYClAggAkGQCGoLIQAgAiAGNgLMCCACIAA2AsgIIAIgBDYCxAggAiAHNgLACCABIAJBwAhqEMADIAJB8AhqJAALQwEBfyMAQRBrIgIkACACQQhqIAEoAggiASABKAIAKAIEEQEAIAIoAgwhASAAIAIoAgg2AgAgACABNgIEIAJBEGokAAtLACAAKAIAQYCAgIB4RwRAIAEoAgAgACgCBCAAKAIIIAEoAgQoAgwRAAAPCyABKAIAIAEoAgQgACgCDCgCACIAKAIAIAAoAgQQxAMLPgEBf0EUEHEiA0UEQEEUEOgJAAsgAyACNgIQIAMgATYCDCADIAApAgA3AgAgA0EIaiAAQQhqKAIANgIAIAMLSgEBf0ETEHEiAUUEQEEBQRMQ4QgACyAAIAE2AgQgAEETNgIAIABBEzYCCCABQdiTxgD9AAAA/QsAACABQQ9qQeeTxgAoAAA2AAAL4QECAX8BfiMAQSBrIgMkACADIAE2AhAgAyAANgIMIANBATsBHCADIAI2AhggAyADQQxqNgIUIwBBEGsiASQAIANBFGoiACkCACEEIAEgADYCDCABIAQ3AgQjAEEQayIAJAAgAUEEaiIBKAIAIgIoAgQiA0EBcUUEQCAAQYCAgIB4NgIAIAAgATYCDCAAQYzZxwAgASgCBCABKAIIIgAtAAggAC0ACRD6BQALIAIoAgAhAiAAIANBAXY2AgQgACACNgIAIABBqNnHACABKAIEIAEoAggiAC0ACCAALQAJEPoFAAs7AQF/IwBBEGsiAyQAIAMgATYCBCADIAA2AgAgAyADrUKAgICAoAGENwMIQaiawAAgA0EIaiACENsHAAtBAAJAIAAoAiQiACgCBEEDRwRAIABBBGohAAwBCyAAIAAoAgAoAhgRBAAiAA0AQej6wQBBGEGA+8EAENwHAAsgAAuhAQEDfyAAKAIAIQAgASgCCCIDQYCAgBBxRQRAIANBgICAIHFFBEAgACABEJwGDwsgACABEMQGDwsgAC0AACEAIwBBEGsiBCQAQQMhAgNAIAIgBGpBDGogAEEPcUG0osUAai0AADoAACAAIgNBBHYhACACQQFrIQIgA0EPSw0ACyABQQFBrp/FAEECIAIgBGpBDWpBAyACaxDDAyAEQRBqJAALOgEBfyMAQRBrIgIkACACQQhqIAAoAgAgACgCBCAAKAIIEPoBIAEgAigCCCACKAIMENkHIAJBEGokAAtBAQJ/IAEoAgQhAiABKAIAIQNBCBBxIgFFBEBBCBDoCQALIAEgAjYCBCABIAM2AgAgAEGw38cANgIEIAAgATYCAAs4AQF/IwBBEGsiAiQAIAJBCGogACAAKAIAKAIEEQEAIAIoAgggASACKAIMKAIQEQIAIAJBEGokAAsyAQJ/IAFB/wFxIQNBACEBA0AgABC4CiACQQF0ciECIAFBAWoiAUH/AXEgA0kNAAsgAgvwDwIDfhV/IwBBEGsiEyQAIwFBAWsiFiQBIBYgCCYBIAAhGiACIRtByIfJAC0AAEEBRwRAEFgLAkACQAJAQaiGyQAoAgBFBEBBqIbJAEF/NgIAIBYlARAeIR4CQCAHIAUgAyABIAEgA0sbIgAgACAFSxsiACAAIAdLGyIfRQ0AA0AgFyIAIB5GDQEgFiUBIAAQHyEIEP8EIhggCCYBAkACQEG8hskAKAIARQ0AIABBAWohFyAGIABBAnQiAGooAgAhESAAIARqKAIAIQ8gACAbaigCACEcQQAhDEG0hskAKAIAIgJByIbJACkDACIJIAAgGmooAgAiHa2FIgpCOIYgCkKA/gODQiiGhCAKQoCA/AeDQhiGIApCgICA+A+DQgiGhIQgCUIIiEKAgID4D4MgCUIYiEKAgPwHg4QgCUIoiEKA/gODIAlCOIiEhIRC0oGqm6v6gtenf34iCUI4hiAJQoD+A4NCKIaEIAlCgID8B4NCGIYgCUKAgID4D4NCCIaEhCAJQgiIQoCAgPgPgyAJQhiIQoCA/AeDhCAJQiiIQoD+A4MgCUI4iISEhCAKQtii0e/CqeW/LX6FIglCOIYgCUKA/gODQiiGhCAJQoCA/AeDQhiGIAlCgICA+A+DQgiGhIQgCUIIiEKAgID4D4MgCUIYiEKAgPwHg4QgCUIoiEKA/gODIAlCOIiEhIRBwIbJACkDACIKQn+FfiILQjiGIAtCgP4Dg0IohoQgC0KAgPwHg0IYhiALQoCAgPgPg0IIhoSEIAtCCIhCgICA+A+DIAtCGIhCgID8B4OEIAtCKIhCgP4DgyALQjiIhISEIAkgCkI4hiAKQoD+A4NCKIaEIApCgID8B4NCGIYgCkKAgID4D4NCCIaEhCAKQgiIQoCAgPgPgyAKQhiIQoCA/AeDhCAKQiiIQoD+A4MgCkI4iISEhH6FIAmJIgmncSENIAlCGYhC/wCDQoGChIiQoMCAAX4hC0GwhskAKAIAIgBBIGshDgNAIAAgDWopAAAiCiALhSIJQn+FIAlCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiCVBFBEADQCAdIA4gCXqnQQN2IA1qIAJxIhRBBXRrKAIARg0EIAlCAX0gCYMiCVBFDQALCyAKIApCAYaDQoCBgoSIkKDAgH+DUEUNASANIAxBCGoiDGogAnEhDQwACwALQdCVwQAQ0AkACyAPQRB2IQ0gEUEQdiARQf//A3FBAEdqIhkgHEEQdiIPaiISIABBACAUa0EFdGoiDkEUayIUKAIAIgJLBEAgEiACIgBrIgwgDkEcayIQKAIAIABrSwRAIBAgACAMQQRBBBCYBiAUKAIAIQALIA5BGGsoAgAiFSAAQQJ0aiEQIAxBAk8EfyACQX9zIBJqQQJ0IgIEQCAQQf8BIAL8CwALIAAgDGoiAkEBayEAIBUgAkECdGpBBGsFIBALQX82AgAgFCAAQQFqNgIACyANIBlqIhAgDkEIayISKAIAIgJLBEAgECACIgBrIgwgDkEQayIVKAIAIABrSwRAIBUgACAMQQRBBBCYBiASKAIAIQALIA5BDGsoAgAiICAAQQJ0aiEVIAxBAk8EfyACQX9zIBBqQQJ0IgIEQCAVQf8BIAL8CwALIAAgDGoiAkEBayEAICAgAkECdGpBBGsFIBULQX82AgAgEiAAQQFqNgIACwJAAkACQAJAAkACQAJAIBgiAhC8CkUEQCARDQFBACERDAULIBEEQCAPQQJ0IQwgDUECdCEAIA5BDGshGCAOQRhrIQ4DQCAPIBQoAgAiEU8NAyAOKAIAIAxqQX82AgAgDSASKAIAIhFPDQQgGCgCACAAakF/NgIAIAxBBGohDCAPQQFqIQ8gAEEEaiEAIA1BAWohDSAZQQFrIhkNAAsLIAJBgwhLDQUMBgsgD0ECdCEMIA1BAnQhACAOQQxrIRggDkEYayEOA0AgDyAUKAIAIhBPDQMgDigCACAMaiANNgIAIBIoAgAiECANSwRAIBgoAgAgAGogDzYCACAMQQRqIQwgD0EBaiEPIABBBGohACANQQFqIQ0gGUEBayIZRQ0FDAELCyANIBBB8JXBABCuBwALIA8gEUGAlsEAEK4HAAsgDSARQZCWwQAQrgcACyAPIBBB4JXBABCuBwALIB0gHCARIAIQ0wEgAkGECEkNAQsgAhCFBwsgFyAfRw0ACwsQsgkhAEGohskAQaiGyQAoAgBBAWo2AgAgBwRAIAZBBGsoAgAiAkF4cSIXIAdBAnQiB0EEQQggAkEDcSICG2pJDQIgAkEAIBcgB0EnaksbDQMgBhCfAgsgBQRAIARBBGsoAgAiAkF4cSIGIAVBAnQiBUEEQQggAkEDcSICG2pJDQIgAkEAIAYgBUEnaksbDQMgBBCfAgsgAwRAIBtBBGsoAgAiAkF4cSIEIANBAnQiA0EEQQggAkEDcSICG2pJDQIgAkEAIAQgA0EnaksbDQMgGxCfAgsCQCABBEAgGkEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNAyACQQAgAyABQSdqSxsNASAaEJ8CCyATQgA3AgQgEyAANgIADAQLDAILQfyqwQAQswoAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsgFtBvQQH8EQEgFkEBaiQBIBMoAgAgEygCBCATKAIIIBNBEGokAAs7AQF/IwBBEGsiBiQAIAYgAjYCDCAGIAE2AgggACAGQQhqQcCPwwAgBkEMakHAj8MAIAMgBCAFEK8FAAs4AAJAIAJBgIDEAEYNACAAIAIgASgCEBECAEUNAEEBDwsgA0UEQEEADwsgACADIAQgASgCDBEAAAs7AQF/IwBBEGsiAyQAIAMgATYCDCADIAA2AghBACADQQhqQaS6xAAgA0EMakGkusQAQQAgAyACEK8FAAs7AQF/IwBBEGsiBCQAIAQgAjYCDCAEIAE2AgggACAEQQhqQYzuxwAgBEEMakGM7scAQQAgBCADEK8FAAtFAQF/IwBBEGsiASQAIAFB9/bAADYCDCABIAA2AghBACABQQhqQZTaxwAgAUEMakGU2scAQeTWxwBBwQBBhNfHABCvBQAL0AIBA38jAEEQayIJJAAgASEKEP8EIgEgBCYBIwBBMGsiCCQAIAggAAR/IAggCjYCICAIIAA2AhwgCgVBgICAgHgLNgIYIAggAgR/IAggAzYCLCAIIAI2AiggAwVBgICAgHgLNgIkIAZBAEchAiAFQQBHIQACQCAHBEAgCEEIaiAIQRhqIAhBJGogASAAIAUgAiAGQQEgBxC6AQwBCyAIQQhqIAhBGGogCEEkaiABIAAgBSACIAZBAEEAELoBCwJAAkACfyAIKAIIRQRAQQEhASAIKAIMDAELQRwQcSIARQ0BQQAhASAAQQA2AgggAEKBgICAEDcCACAAIAj9AAII/QsCDCAAQQhqCyEAIAkgATYCCCAJIABBACABGzYCBCAJQQAgACABGzYCACAIQTBqJAAMAQtBHBDoCQALIAkoAgAgCSgCBCAJKAIIIAlBEGokAAtEACABKQIAQu26rbbNhdT14wCFIAEpAghC+IKZvZXuxsW5f4WEUEUEQCAAKAIkIgAgASAAKAIAKAIQEQIADwsgAEEcags9AQF/IAAtAIwBQQZHBEAgACgChAEiAQRAIAEgACgCiAEoAhQRBAAPC0HEx8EAENAJAAtBsMfBAEEREPkHCz0BAX8gAC0A6AFBBkcEQCAAKALgASIBBEAgASAAKALkASgCFBEEAA8LQcTHwQAQ0AkAC0Gwx8EAQREQ+QcLOgEBfyAALQBsQQZHBEAgACgCZCIBBEAgASAAKAJoKAIUEQQADwtBxMfBABDQCQALQbDHwQBBERD5Bws9AQF/IAAtAPABQQZHBEAgACgC6AEiAQRAIAEgACgC7AEoAhQRBAAPC0HEx8EAENAJAAtBsMfBAEEREPkHC+ABAQR/IwBBEGsiAiQAIAIgADYCDCMAQRBrIgAkACABKAIAQaiQxwBBDSABKAIEKAIMEQAAIQMgAEEAOgANIAAgAzoADCAAIAE2AgggAEEIakHIz8cAQQQgAkEMakHko8UAEPwEIQMgAC0ADSIEIAAtAAwiBXIhAQJAIAVBAXEgBEEBR3INACADKAIAIgEtAApBgAFxRQRAIAEoAgBBp5/FAEECIAEoAgQoAgwRAAAhAQwBCyABKAIAQcqexQBBASABKAIEKAIMEQAAIQELIABBEGokACABQQFxIAJBEGokAAuQAwEFfyMAQRBrIggkABD/BCIKIAEmASAAIQsQ/wQiACAGJgEgBSEJIwBB4AFrIgckACACQQBHIQUCQCAJBEAgB0H4AGogCyAKIAUgAiAAEGggBygCfCEFIAcoAngiAEGAgICAeEYEQCAJQYQITwRAIAkQhQcLQQEhAgwCCyAHQRhqIAdBgAFqQeAA/AoAACAHIAU2AhQgByAANgIQIAdBEGoiACAJEMECIAAgAyAEQQBHEDYgB0EIaiAAENYEIAcoAgwhBSAHKAIIIQIgABD0AgwBCyAHQfgAaiALIAogBSACIAAQaCAHKAJ8IQUgBygCeCIAQYCAgIB4RgRAQQEhAgwBCyAHQRhqIAdBgAFqQeAA/AoAACAHIAU2AhQgByAANgIQIAdBEGoiACADIARBAEcQNiAHIAAQ1gQgBygCBCEFIAcoAgAhAiAAEPQCCyAIIAJBAXEiADYCCCAIIAVBACAAGzYCBCAIQQAgBSAAGzYCACAHQeABaiQAIAgoAgAgCCgCBCAIKAIIIAhBEGokAAu/AgECfyMAQRBrIggkACMAQTBrIgckACAHIAAEfyAHIAE2AiAgByAANgIcIAEFQYCAgIB4CzYCGCAHIAIEfyAHIAM2AiwgByACNgIoIAMFQYCAgIB4CzYCJCAFQQBHIQAgBEEARyEBAkAgBgRAIAdBCGogB0EYaiAHQSRqIAEgBCAAIAVBASAGENYBDAELIAdBCGogB0EYaiAHQSRqIAEgBCAAIAVBAEEAENYBCwJAAkACfyAHKAIIRQRAQQEhACAHKAIMDAELQRwQcSIBRQ0BQQAhACABQQA2AgggAUKBgICAEDcCACABIAf9AAII/QsCDCABQQhqCyEBIAggADYCCCAIIAFBACAAGzYCBCAIQQAgASAAGzYCACAHQTBqJAAMAQtBHBDoCQALIAgoAgAgCCgCBCAIKAIIIAhBEGokAAv5AwEFfyMAQRBrIggkABD/BCIHIAEmARD/BCIJIAImASAHIQojAEGgAWsiByQAIANBAEchCwJAIAYEQCAHQdgAaiAAIAogCSALIAMQQCAHKAJcIQAgBygCWCIDQYCAgIB4RgRAIAZBhAhPBEAgBhCFBwtBASEDDAILIAdByABqIAdBkAFq/QACAP0LAgAgB0E4aiAHQYABav0AAgD9CwIAIAdBKGogB0HwAGr9AAIA/QsCACAHIAf9AAJg/QsCGCAHIAA2AhQgByADNgIQIAAgBygCGCAGEKkDIAdBEGoiBiAEIAVBAEcQNCAHQQhqIAYQ/QQgBygCDCEAIAcoAgghAyAGEPMCDAELIAdB2ABqIAAgCiAJIAsgAxBAIAcoAlwhACAHKAJYIgNBgICAgHhGBEBBASEDDAELIAdByABqIAdBkAFq/QACAP0LAgAgB0E4aiAHQYABav0AAgD9CwIAIAdBKGogB0HwAGr9AAIA/QsCACAHIAf9AAJg/QsCGCAHIAA2AhQgByADNgIQIAdBEGoiBiAEIAVBAEcQNCAHIAYQ/QQgBygCBCEAIAcoAgAhAyAGEPMCCyAIIANBAXEiAzYCCCAIIABBACADGzYCBCAIQQAgACADGzYCACAHQaABaiQAIAgoAgAgCCgCBCAIKAIIIAhBEGokAAs+AQF/QQEhAgJAIAAoAgAgARCXBQ0AIAEoAgBBoJDDAEECIAEoAgQoAgwRAAANACAAKAIEIAEQlwUhAgsgAguGAwEFfyMAQRBrIgckABD/BCIJIAEmASAAIQoQ/wQiACAFJgEgBCEIIwBB4AFrIgYkACACQQBHIQQCQCAIBEAgBkH4AGogCiAJIAQgAiAAEGggBigCfCEEIAYoAngiAEGAgICAeEYEQCAIQYQITwRAIAgQhQcLQQEhAgwCCyAGQRhqIAZBgAFqQeAA/AoAACAGIAQ2AhQgBiAANgIQIAZBEGoiACAIEMECIAAgAxAyIAZBCGogABDWBCAGKAIMIQQgBigCCCECIAAQ9AIMAQsgBkH4AGogCiAJIAQgAiAAEGggBigCfCEEIAYoAngiAEGAgICAeEYEQEEBIQIMAQsgBkEYaiAGQYABakHgAPwKAAAgBiAENgIUIAYgADYCECAGQRBqIgAgAxAyIAYgABDWBCAGKAIEIQQgBigCACECIAAQ9AILIAcgAkEBcSIANgIIIAcgBEEAIAAbNgIEIAdBACAEIAAbNgIAIAZB4AFqJAAgBygCACAHKAIEIAcoAgggB0EQaiQAC+8DAQV/IwBBEGsiByQAEP8EIgYgASYBEP8EIgggAiYBIAYhCSMAQaABayIGJAAgA0EARyEKAkAgBQRAIAZB2ABqIAAgCSAIIAogAxBAIAYoAlwhACAGKAJYIgNBgICAgHhGBEAgBUGECE8EQCAFEIUHC0EBIQMMAgsgBkHIAGogBkGQAWr9AAIA/QsCACAGQThqIAZBgAFq/QACAP0LAgAgBkEoaiAGQfAAav0AAgD9CwIAIAYgBv0AAmD9CwIYIAYgADYCFCAGIAM2AhAgACAGKAIYIAUQqQMgBkEQaiIFIAQQNSAGQQhqIAUQ/QQgBigCDCEAIAYoAgghAyAFEPMCDAELIAZB2ABqIAAgCSAIIAogAxBAIAYoAlwhACAGKAJYIgNBgICAgHhGBEBBASEDDAELIAZByABqIAZBkAFq/QACAP0LAgAgBkE4aiAGQYABav0AAgD9CwIAIAZBKGogBkHwAGr9AAIA/QsCACAGIAb9AAJg/QsCGCAGIAA2AhQgBiADNgIQIAZBEGoiBSAEEDUgBiAFEP0EIAYoAgQhACAGKAIAIQMgBRDzAgsgByADQQFxIgM2AgggByAAQQAgAxs2AgQgB0EAIAAgAxs2AgAgBkGgAWokACAHKAIAIAcoAgQgBygCCCAHQRBqJAAL5wEBA38jAEEQayIAJABB1IfJAC0AAEEDRwRAIABBAToADyAAQQ9qIQECQAJAAkACQAJAAkBB1IfJAC0AAEEBaw4DAgEFAAtB1IfJAEECOgAAIAEtAAAgAUEAOgAARQ0CAkBBjIzJACgCAEH/////B3EEQEGEjMkAKAIADQELQZCMyQAoAgANBEHUh8kAQQM6AABBlIzJAEEBNgIADAULQcTZxwBB6QBB+NnHABDbBwALQazWxwBB8QBB2I7BABDbBwALQcCqwQBB1QBB2I7BABDbBwALQeyqwQAQ0AkLAAsLIABBEGokAAsuAAJAIANpQQFHIAFBgICAgHggA2tLckUEQCAAIAEgAyACELkCIgANAQsACyAAC7AKAgp/AX4jAEEQayIKJAAQ/wQiCSAEJgEjAEHgAmsiBSQAIANBgICAgHggAhshDUEGIQgCQAJAAkAgCgJ/AkACQAJAAkACQAJAIABFIAFBgICAgHhGcg0AIAVBFGogACABEKgFIAUtABRBAUYEQCAFKAIYIQcgBUEANgL8ASAFQoCAgIAQNwL0ASAFQcSzwQA2AoQCIAVCoICAgAY3AogCIAUgBUH0AWo2AoACIAcgBUGAAmoQ5wQNAiAFKAL0ASEIIAUoAvgBIgsgBSgC/AEQ7AghBiAIBEAgC0EEaygCACIMQXhxIg5BBEEIIAxBA3EiDBsgCGpJDQkgDEEAIA4gCEEnaksbDQogCxCfAgsgByAHKAIAKAIAEQMAIAEEQCAAQQRrKAIAIgdBeHEiCEEEQQggB0EDcSIHGyABakkNCSAHQQAgCCABQSdqSxsNCiAAEJ8CCyAJQYQISQ0GIAkQhQcMBgsgBS0AFSEIIAFFDQAgAEEEaygCACIGQXhxIgdBBEEIIAZBA3EiBhsgAWpJDQcgBkEAIAcgAUEnaksbDQggABCfAgtBAiEAIAkQvAoiDEUEQCAFQYACaiAJELUBIAUoAoACIQYgBS0AnAIiAEECRg0FIAVBMGogBUGUAmopAgA3AwAgBUEeaiAFQZ8Cai0AADoAACAFIAX9AAKEAv0LAyAgBSAFLwCdAjsBHAsgBUGAAWogBUEoav0AAwD9CwIAIAVBkwFqIAVBHmotAAA6AAAgBSAGNgJ0IAVBADYCcCAFQoCAgIAQNwJoIAVCATcCYCAFQgA3AlggBUKAgICAEDcCUCAFQgQ3AkggBUIANwJAIAVCgICAgMAANwI4IAVBADYClAEgBSAFKQMgNwJ4IAUgADoAkAEgBSAFLwEcOwCRAQJ/IAhBBkcEQCAFQQhqIAggBUE4ahCtAyAFKAIMIQcgBSgCCCELQYCAgIB4DAELIAVBgAJqIAVBPGpB3AD8CgAAQQALIQ5BgICAgHghACANQYCAgIB4RwRAAkAgA0UEQEEBIQYMAQsgAxBxIgZFDQMLIAMEQCAGIAIgA/wKAAALIAatIAOtQiCGhCEPIAMhAAsgBUGYAWoiBiAFQYACakHcAPwKAABBkAEQcSIBRQ0CIAEgDjYCGCABIA83AhAgASAANgIMIAFBADYCCCABQoCAgIAQNwIAIAFBHGogBkHcAPwKAAAgASAIOgCMASABIAc2AogBIAEgCzYChAEgAUGAgICAeDYCeCAMRSAJQYQISXINAyAJEIUHDAMLQdCHxgBBNyAFQd8CakHcs8EAQYiIxgAQiQcAC0EBIAMQ4QgAC0GQARDoCQALIA1BgICAgHhyQYCAgIB4RwRAIAJBBGsoAgAiAEF4cSIJQQRBCCAAQQNxIgAbIANqSQ0DIABBACAJIANBJ2pLGw0EIAIQnwILQRwQcSIABEAgAEGok8EANgIYIABBATYCFCAAQZCTwQA2AhAgACABNgIMIABBADYCCCAAQoGAgIAQNwIAIABBCGohBkEADAILQRwQ6AkACyANQYCAgIB4ckGAgICAeEcEQCACQQRrKAIAIgBBeHEiAUEEQQggAEEDcSIAGyADakkNAiAAQQAgASADQSdqSxsNAyACEJ8CC0EBCyIANgIIIAogBkEAIAAbNgIEIApBACAGIAAbNgIAIAVB4AJqJAAMAgtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIAooAgAgCigCBCAKKAIIIApBEGokAAtkAQN/IwBBIGsiAyQAIANBCGoiBBDiCEEkEHEiAkUEQEEkEOgJAAsgAkGYv8EANgIAIAIgATYCICACIAA2AhwgAiAEKQIANwIEIAJBDGogBEEIav0AAgD9CwIAIANBIGokACACCzcBAX9BASEAIAEoAgAiAkGTi8IAQQMgASgCBCgCDCIBEQAABH8gAAUgAkHri8IAQQcgAREAAAsLZAEDfyMAQSBrIgMkACADQQhqIgQQ4ghBJBBxIgJFBEBBJBDoCQALIAJBzJjHADYCACACIAE2AiAgAiAANgIcIAIgBCkCADcCBCACQQxqIARBCGr9AAIA/QsCACADQSBqJAAgAgv6AQEEfyMAQRBrIgUkABD/BCIEIAEmARD/BCIGIAImASAEIQcjAEHQAGsiBCQAAkAgAwRAIARBCGogACAHIAZBASADEEAMAQsgBEEIaiAAIAcgBkEAQQAQQAsCQAJAAn8gBCgCCEGAgICAeEYEQEEBIQAgBCgCDAwBC0HUABBxIgNFDQFBACEAIANBADYCCCADQoGAgIAQNwIAIANBDGogBEEIakHIAPwKAAAgA0EIagshAyAFIAA2AgggBSADQQAgABs2AgQgBUEAIAMgABs2AgAgBEHQAGokAAwBC0HUABDoCQALIAUoAgAgBSgCBCAFKAIIIAVBEGokAAv8AQEEfyMAQRBrIgUkABD/BCIGIAEmARD/BCIEIAMmASACIQcgBCECIwBB0ABrIgQkAAJAIAcEQCAEQQhqIAAgBkEBIAcgAhBrDAELIARBCGogACAGQQBBACACEGsLAkACQCAFAn8gBCgCCEGAgICAeEYEQCAEKAIMIQBBAQwBC0HUABBxIgBFDQEgAEEANgIIIABCgYCAgBA3AgAgAEEMaiAEQQhqQcgA/AoAACAAQQhqIQBBAAsiAjYCCCAFIABBACACGzYCBCAFQQAgACACGzYCACAEQdAAaiQADAELQdQAEOgJAAsgBSgCACAFKAIEIAUoAgggBUEQaiQAC/wBAQR/IwBBEGsiBSQAEP8EIgYgASYBEP8EIgQgAyYBIAIhByAEIQIjAEHwAGsiBCQAAkAgBwRAIARBCGogACAGQQEgByACEGgMAQsgBEEIaiAAIAZBAEEAIAIQaAsCQAJAIAUCfyAEKAIIQYCAgIB4RgRAIAQoAgwhAEEBDAELQfQAEHEiAEUNASAAQQA2AgggAEKBgICAEDcCACAAQQxqIARBCGpB6AD8CgAAIABBCGohAEEACyICNgIIIAUgAEEAIAIbNgIEIAVBACAAIAIbNgIAIARB8ABqJAAMAQtB9AAQ6AkACyAFKAIAIAUoAgQgBSgCCCAFQRBqJAAL7AoCCX8BfiMAQRBrIggkACMAQeABayIEJABBgICAgHghBSADQYCAgIB4IAIbIQsCQAJAAkACQAJAAkACQAJAAkACQAJAIABFIAFBgICAgHhGckUEQCAEQRBqIAAgARCoBSAELQAQQQFGBEAgBCgCFCEGIARBADYCnAEgBEKAgICAEDcClAEgBEHEs8EANgKkASAEQqCAgIAGNwKoASAEIARBlAFqNgKgASAGIARBoAFqEOcEDQQgBCgClAEhByAEKAKYASIJIAQoApwBEOwIIQUgBwRAIAlBBGsoAgAiCkF4cSIMQQRBCCAKQQNxIgobIAdqSQ0LIApBACAMIAdBJ2pLGw0MIAkQnwILIAYgBigCACgCABEDACABBEAgAEEEaygCACIGQXhxIgdBBEEIIAZBA3EiBhsgAWpJDQsgBkEAIAcgAUEnaksbDQwgABCfAgsgC0GAgICAeHJBgICAgHhGDQcgAkEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgA2pJDQogAEEAIAEgA0EnaksbDQsgAhCfAkEBIQAMCQsgBC0AESEGIAEEQCAAQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyABakkNCiAFQQAgByABQSdqSxsNCyAAEJ8CCyAEQoCAgIAgNwJIIARCAjcCQCAEQgA3AjggBEKAgICAIDcCMCAEQgQ3AiggBEIANwIgIARCgICAgMAANwIYIARCADcCUCAEQQhqIAYgBEEYahDJAkGAgICAeCEBIAQoAgwhCSAEKAIIIQdBgICAgHghBSALQYCAgIB4Rw0BDAILIARBLGoiAEIANwIAIARBPGoiBkKAgICAIDcCACAEQcwAakICNwIAIARCgICAgMAANwIkIARCBDcCHEEAIQEgBEEANgJUIARCAjcCNCAEQgA3AkQgBEHYAWpBADYCACAEQdABakICNwMAIARBwAFqIAb9AAIA/QsDACAEQbABaiAA/QACAP0LAwAgBCAE/QACHP0LA6ABQQYhBiALQYCAgIB4Rg0BCwJAIANFBEBBASEADAELIAMQcSIARQ0DCyADBEAgACACIAP8CgAACyAArSADrUIghoQhDSADIQULIARBkAFqIgogBEHYAWooAgA2AgAgBEGIAWogBEHQAWopAwA3AwAgBEH4AGogBEHAAWr9AAMA/QsDACAEQegAaiAEQbABav0AAwD9CwMAIAQgBP0AA6AB/QsDWEHwABBxIgBFDQIgACABNgIYIAAgDTcCECAAIAU2AgwgAEEANgIIIABCgICAgBA3AgAgACAEKQNYNwIcIAAgBjoAbCAAIAk2AmggACAHNgJkIABBgICAgHg2AlggAEEkaiAEQeAAav0AAwD9CwIAIABBNGogBEHwAGr9AAMA/QsCACAAQcQAaiAEQYABav0AAwD9CwIAIABB1ABqIAooAgA2AgAgC0GAgICAeHJBgICAgHhHBEAgAkEEaygCACIBQXhxIgVBBEEIIAFBA3EiARsgA2pJDQcgAUEAIAUgA0EnaksbDQggAhCfAgtBHBBxIgFFDQQgAUHgk8EANgIYIAFBATYCFCABQciTwQA2AhAgASAANgIMQQAhACABQQA2AgggAUKBgICAEDcCACABQQhqIQUMBQtB0IfGAEE3IARB3wFqQdyzwQBBiIjGABCJBwALQQEgAxDhCAALQfAAEOgJAAtBASEADAELQRwQ6AkACyAIIAA2AgggCCAFQQAgABs2AgQgCEEAIAUgABs2AgAgBEHgAWokAAwCC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsgCCgCACAIKAIEIAgoAgggCEEQaiQAC3ABA38jAEEgayICJAAgAkEIaiIDEOIIQSgQcSIBRQRAQSgQ6AkACyABQbS/wQA2AgAgASADKQIANwIEIAEgACkCADcCHCABQQxqIANBCGr9AAIA/QsCACABQSRqIABBCGooAgA2AgAgAkEgaiQAIAELXQEDfyMAQSBrIgIkACACQQhqIgMQ4ghBJBBxIgFFBEBBJBDoCQALIAFB/L7BADYCACABIAA3AhwgASADKQIANwIEIAFBDGogA0EIav0AAgD9CwIAIAJBIGokACABC10BA38jAEEgayICJAAgAkEIaiIDEOIIQSAQcSIBRQRAQSAQ6AkACyABQcS+wQA2AgAgASAANgIcIAEgAykCADcCBCABQQxqIANBCGr9AAIA/QsCACACQSBqJAAgAQtdAQN/IwBBIGsiAiQAIAJBCGoiAxDiCEEkEHEiAUUEQEEkEOgJAAsgAUHgvsEANgIAIAEgADcCHCABIAMpAgA3AgQgAUEMaiADQQhq/QACAP0LAgAgAkEgaiQAIAELcAEDfyMAQSBrIgIkACACQQhqIgMQ4ghBKBBxIgFFBEBBKBDoCQALIAFBqL7BADYCACABIAMpAgA3AgQgASAAKQIANwIcIAFBDGogA0EIav0AAgD9CwIAIAFBJGogAEEIaigCADYCACACQSBqJAAgAQtwAQN/IwBBIGsiAiQAIAJBCGoiAxDiCEEoEHEiAUUEQEEoEOgJAAsgAUGwmMcANgIAIAEgAykCADcCBCABIAApAgA3AhwgAUEMaiADQQhq/QACAP0LAgAgAUEkaiAAQQhqKAIANgIAIAJBIGokACABC10BA38jAEEgayICJAAgAkEIaiIDEOIIQSQQcSIBRQRAQSQQ6AkACyABQfiXxwA2AgAgASAANwIcIAEgAykCADcCBCABQQxqIANBCGr9AAIA/QsCACACQSBqJAAgAQsvAQF/IAAQsQEiAQR/IAEFIAAtAPgDRQRAQazCwQBBFBD5Bw8LIABBvAJqEKMBCwsvAQF/IAAQvwEiAQR/IAEFIAAtAIAERQRAQazCwQBBFBD5Bw8LIABBvAJqENgBCwsnACACIARGBEAgBARAIAMgASAE/AoAAAsPCyAEIAJBhJPFABDbCQALMwAgASgCACAAKAIAKAIAQQJ0IgBB4IHJAGooAgAgAEG8gckAaigCACABKAIEKAIMEQAAC6UFAQt/IwBBEGsiBCQAEP8EIgYgASYBIwBBsANrIgIkAAJAAkACQAJAAkACQCAABEAgAEEIayIHIAcoAgBBAWoiAzYCACADRQ0CIAAoAgAiA0H/////B0kNARCWCgALEJQKAAsgACADQQFqNgIAQQIhAwJAIAYQvAoiCkUEQCACQeQBaiAGELUBIAIoAuQBIQUgAi0AgAIiA0ECRgRAQQEhAwwCCyACQRxqIAJB+AFqKQIANwIAIAJBJ2ogAkGDAmotAAA6AAAgAiAC/QAC6AH9CwIMIAIgAi8AgQI7ACUgAiAFNgIICyACIAM6ACQgAkEoaiAAQQRqQQAgAkEIahB/AkAgAigCKEECRgRAIAIoAiwhAyACQQA2AqgDIAJCgICAgBA3AqADIAJBxLPBADYC6AEgAkKggICABjcC7AEgAiACQaADajYC5AEgAyACQeQBahDnBA0EIAIoAqADIQggAigCpAMiCyACKAKoAxDsCCEFIAgEQCALQQRrKAIAIglBeHEiDEEEQQggCUEDcSIJGyAIakkNBiAJQQAgDCAIQSdqSxsNByALEJ8CCyADIAMoAgAoAgARAwBBASEDIAZBhAhJDQIgCg0BDAILIAJB5AFqIgUgAkEoakG8AfwKAABBACEDIAUQ0QEhBSAKRSAGQYQISXINAQsgBhCFBwsgACAAKAIAQQFrNgIAIAcgBygCAEEBayIANgIAIABFBEAgBxDKBgsgBCADNgIIIAQgBUEAIAMbNgIEIARBACAFIAMbNgIAIAJBsANqJAAMBAsAC0HQh8YAQTcgAkGvA2pB3LPBAEGIiMYAEIkHAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIAQoAgAgBCgCBCAEKAIIIARBEGokAAulBQELfyMAQRBrIgQkABD/BCIGIAEmASMAQbADayICJAACQAJAAkACQAJAAkAgAARAIABBCGsiByAHKAIAQQFqIgM2AgAgA0UNAiAAKAIAIgNB/////wdJDQEQlgoACxCUCgALIAAgA0EBajYCAEECIQMCQCAGELwKIgpFBEAgAkHkAWogBhC1ASACKALkASEFIAItAIACIgNBAkYEQEEBIQMMAgsgAkEcaiACQfgBaikCADcCACACQSdqIAJBgwJqLQAAOgAAIAIgAv0AAugB/QsCDCACIAIvAIECOwAlIAIgBTYCCAsgAiADOgAkIAJBKGogAEEEakEBIAJBCGoQfwJAIAIoAihBAkYEQCACKAIsIQMgAkEANgKoAyACQoCAgIAQNwKgAyACQcSzwQA2AugBIAJCoICAgAY3AuwBIAIgAkGgA2o2AuQBIAMgAkHkAWoQ5wQNBCACKAKgAyEIIAIoAqQDIgsgAigCqAMQ7AghBSAIBEAgC0EEaygCACIJQXhxIgxBBEEIIAlBA3EiCRsgCGpJDQYgCUEAIAwgCEEnaksbDQcgCxCfAgsgAyADKAIAKAIAEQMAQQEhAyAGQYQISQ0CIAoNAQwCCyACQeQBaiIFIAJBKGpBvAH8CgAAQQAhAyAFENEBIQUgCkUgBkGECElyDQELIAYQhQcLIAAgACgCAEEBazYCACAHIAcoAgBBAWsiADYCACAARQRAIAcQygYLIAQgAzYCCCAEIAVBACADGzYCBCAEQQAgBSADGzYCACACQbADaiQADAQLAAtB0IfGAEE3IAJBrwNqQdyzwQBBiIjGABCJBwALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyAEKAIAIAQoAgQgBCgCCCAEQRBqJAALvQkCDH8BeyMAQRBrIgckABD/BCIMIAEmASAAIQYjAEFAaiIEJABByIfJAC0AAEEBRwRAEFgLAkACQAJAAkACQAJAAkACQEGohskAKAIARQRAQaiGyQBBfzYCACAGQf////8ASw0BIAZBBHQiAkH9////B08NAUGQh8kAKAIAIQ0CQCACRQRAQQQhAAwBCyAGIQUgAhBxIgBFDQMLQRgQcSIIRQ0DIAZBEHYgBkH//wNxQQBHaiEDQQAhAiAIQQA2AhQgCCAANgIQIAggBTYCDCAIQQA2AgggCEKBgICAEDcCACAGRQRAQQQhCkEEIQkMCQsgA0ECdCILEHEiCkUNBAJAAkAgA0EETwRA/QwAAAAAAQAAAAIAAAADAAAAIQ4gCiEAIANB/D9xIgIhBQNAIAAgDv0LAgAgAEEQaiEAIA79DAQAAAAEAAAABAAAAAQAAAD9rgEhDiAFQQRrIgUNAAsgAiADRg0BCyAKIAJBAnRqIQADQCAAIAI2AgAgAEEEaiEAIAMgAkEBaiICRw0ACyALEHEiCUUNAUEAIQIgA0EESQ0IDAcLIAsQcSIJDQYLQQQgCxDhCAALQfyqwQAQswoACxDPCQALQQQgAhDhCAALQRgQ6AkAC0EEIAsQ4QgAC/0MAAAAAAEAAAACAAAAAwAAACEOIAkhACADQfw/cSICIQUDQCAAIA79CwIAIABBEGohACAO/QwEAAAABAAAAAQAAAAEAAAA/a4BIQ4gBUEEayIFDQALIAIgA0YNAQsgCSACQQJ0aiEAA0AgACACNgIAIABBBGohACADIAJBAWoiAkcNAAsLIAMhAgsgBCADNgI4IAQgCTYCNCAEIAM2AjAgBCADNgIsIAQgCjYCKCAEIAI2AiQgBCAINgI8IARBCGogDSAEQSRqEJ0CAkACQAJAAkACQAJAAkAgBCgCCCIAQYCAgIB4Rg0AIAQoAiAiAiACKAIAQQFrIgM2AgAgA0UEQCACEMcFCyAABEAgBCgCDCICQQRrKAIAIgNBeHEiBSAAQQJ0IgBBBEEIIANBA3EiAxtqSQ0CIANBACAFIABBJ2pLGw0DIAIQnwILIAQoAhQiAEUNACAEKAIYIgJBBGsoAgAiA0F4cSIFIABBAnQiAEEEQQggA0EDcSIDG2pJDQMgA0EAIAUgAEEnaksbDQQgAhCfAgtBkIfJAEGQh8kAKAIAQQFqNgIAIA1BACAGIAwQ0wEQsgkiAkGolcEAQQUQ7AgiACANuBCqCSIGELMJQayMyQAtAAANBEGwjMkAQQA2AgBBrIzJAEEAOgAAIAZBhAhPBEAgBhCFBwsgAEGECE8EQCAAEIUHC0GohskAQaiGyQAoAgBBAWo2AgAgDEGECE8EQCAMEIUHCyAHQgA3AgQgByACNgIAIARBQGskAAwFC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQayMyQBBADoAAEGwjMkAKAIAIQBBsIzJAEEANgIAIAQgADYCJEGAuMgAQSsgBEEkakHgjMEAQcCVwQAQiQcACyAHKAIAIAcoAgQgBygCCCAHQRBqJAALthEDDH8DfgJ9IwBBEGsiCyQAIwBBIGsiBCQAQciHyQAtAABBAUcEQBBYCwJAAkACQAJAQaiGyQAoAgBFBEBBqIbJAEF/NgIAAkACQEG8hskAKAIARQ0AQbSGyQAoAgAiA0HIhskAKQMAIg4gAK2FIg9COIYgD0KA/gODQiiGhCAPQoCA/AeDQhiGIA9CgICA+A+DQgiGhIQgDkIIiEKAgID4D4MgDkIYiEKAgPwHg4QgDkIoiEKA/gODIA5COIiEhIRC0oGqm6v6gtenf34iDkI4hiAOQoD+A4NCKIaEIA5CgID8B4NCGIYgDkKAgID4D4NCCIaEhCAOQgiIQoCAgPgPgyAOQhiIQoCA/AeDhCAOQiiIQoD+A4MgDkI4iISEhCAPQtii0e/CqeW/LX6FIg5COIYgDkKA/gODQiiGhCAOQoCA/AeDQhiGIA5CgICA+A+DQgiGhIQgDkIIiEKAgID4D4MgDkIYiEKAgPwHg4QgDkIoiEKA/gODIA5COIiEhIRBwIbJACkDACIPQn+FfiIQQjiGIBBCgP4Dg0IohoQgEEKAgPwHg0IYhiAQQoCAgPgPg0IIhoSEIBBCCIhCgICA+A+DIBBCGIhCgID8B4OEIBBCKIhCgP4DgyAQQjiIhISEIA4gD0I4hiAPQoD+A4NCKIaEIA9CgID8B4NCGIYgD0KAgID4D4NCCIaEhCAPQgiIQoCAgPgPgyAPQhiIQoCA/AeDhCAPQiiIQoD+A4MgD0I4iISEhH6FIA6JIg6ncSECIA5CGYhC/wCDQoGChIiQoMCAAX4hEEGwhskAKAIAIgdBIGshBgNAIAIgB2opAAAiDyAQhSIOQn+FIA5CgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiDlBFBEADQCAAIAYgDnqnQQN2IAJqIANxIglBBXRrKAIARg0EIA5CAX0gDoMiDlBFDQALCyAPIA9CAYaDQoCBgoSIkKDAgH+DUEUNASACIAVBCGoiBWogA3EhAgwACwALQfCWwQAQ0AkACyAHQQAgCWtBBXRqQQRrKAIAIgcoAggiAEH/////B08NASAHIABBAWo2AgggBygCFEUNAyAHKAIQQQpqLwEAIgNB//8BcUUNAiADQf8HcSEAIANBgIACcSECIANBgPgBcSIDQYD4AUcEQCACQRB0IQIgAwRAIANBDXRBgICA/ABxIABBDXRyQYCAgMADaiACciECDAYLIAAgAGdBEGsiAEH//wNxQQhqdEH///8DcSACQYCAgNgDciAAQRd0a3IhAgwFCyACQRB0IQMgAARAIAMgAEENdHJBgICA/gdyIQIMBQsgA0GAgID8B3IhAgwEC0H8qsEAELMKAAtBuJfBABC0CgALIANBEHQhAgwBC0EAQQBBgJfBABCuBwALQwAAoD8hEkMAAKA/QwAAgD8gASABQR91IgBzIABrIgBBAXEbIREgAEECTwRAA0AgESASIBKUIhKUIBEgAEECcRshESAAQQNLIABBAXYhAA0ACwtDAACAPyARlSARIAFBAEgbIRECQAJAAkACQEEEEHEiAQRAIAK+IBGVIREgAUEANgIAIARBADYCECAEQoCAgIDAADcCCEEEIQpBACEFQQEhCUEBIQICQANAIARBADYCHCAEQoCAgIDAADcCFCABIAJBAnRqIQ0gASEDA0AgAygCACIGIAcoAhQiAE8EQCAGIABBkJfBABCuBwALAkAgEQJ/IAcoAhAgBkEEdGoiCEEKai8BACICQf//AXEEQCACQf8HcSEAIAJBgIACcSEMIAJBgPgBcSICQYD4AUcEQCAMQRB0IgwgAkENdEGAgID8AHEgAEENdHJBgICAwANqciACDQIaIAAgAGdBEGsiAEH//wNxQQhqdEH///8DcSAMQYCAgNgDciAAQRd0a3IMAgsgDEEQdCICIABBDXRyQYCAgP4HciAADQEaIAJBgICA/AdyDAELIAJBEHQLvmBFBEAgCCgCACICIAIgCC8BDCIIak8NASAEKAIcIgBBAnQhBgNAIAQoAhQgAEYEQCAEQRRqEOYGCyAEKAIYIAZqIAI2AgAgBCAAQQFqIgA2AhwgAkEBaiECIAZBBGohBiAIQQFrIggNAAsMAQsgBCgCCCAFRgRAIARBCGoQ5gYgBCgCDCEKCyAKIAVBAnRqIAY2AgAgBCAFQQFqIgU2AhALIANBBGoiAyANRw0ACwJAIAkEQCABQQRrKAIAIgBBeHEiAyAJQQJ0IgJBBEEIIABBA3EiABtqSQ0BIABBACADIAJBJ2pLGw0DIAEQnwILIAQoAhghASAEKAIUIQkgBCgCHCICRQ0EDAELCwwDCwwDC0EEEOgJAAsgBRCpCSEKIAQoAgwhAyAEKAIIIQggBQRAIAVBAnQhBkEAIQIgAyEAA0AgCiUBIAIgACgCABAaIAJBAWohAiAAQQRqIQAgBkEEayIGDQALCyAIBEAgA0EEaygCACIAQXhxIgIgCEECdCIFQQRBCCAAQQNxIgAbakkNASAAQQAgAiAFQSdqSxsNAiADEJ8CCxCyCSIDQaCXwQBBBxDsCCIAIAoQswkCQEGsjMkALQAARQRAQbCMyQBBADYCAEGsjMkAQQA6AAAgCkGECE8EQCAKEIUHCyAAQYQITwRAIAAQhQcLIAkEQCABQQRrKAIAIgBBeHEiAiAJQQJ0IgVBBEEIIABBA3EiABtqSQ0DIABBACACIAVBJ2pLGw0CIAEQnwILIAtCADcCBCALIAM2AgAgByAHKAIIQQFrNgIIQaiGyQBBqIbJACgCAEEBajYCACAEQSBqJAAMBAtBrIzJAEEAOgAAQbCMyQAoAgAhAEGwjMkAQQA2AgAgBCAANgIUQYC4yABBKyAEQRRqQeCMwQBBqJfBABCJBwALDAELQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyALKAIAIAsoAgQgCygCCCALQRBqJAALywMBA38jAEEQayIDJABBCCEEAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAQRUgACgCACIFQYCAgIB4cyAFQQBOG0EBaw4VAQIDBAUGBwgJCgsMDQ4PFBQQERITAAsgAyAALQAEOgABIANBADoAAAwWCyADIAAxAAQ3AwgMEwsgAyAAMwEENwMIDBILIAMgADUCBDcDCAwRCyADIAApAwg3AwgMEAsgAyAAMAAENwMIDBALIAMgADIBBDcDCAwPCyADIAA0AgQ3AwgMDgsgAyAAKQMINwMIDA0LIAMgACoCBLs5AwggA0EDOgAADA0LIAMgACsDCDkDCCADQQM6AAAMDAsgAyAAKAIENgIEIANBBDoAAAwLCyADIAApAwg3AgQgA0EFOgAADAoLIAMgACkCBDcCBCADQQU6AAAMCQsgAyAAKQMINwIEIANBBjoAAAwICyADIAApAgQ3AgQgA0EGOgAADAcLIANBBzoAAAwGCyADQQk6AAAMBQsgA0EKOgAADAQLQQshBAsgAyAEOgAADAILIANBAToAAAwBCyADQQI6AAALIAMgASACEPoGIANBEGokAAsvACABKAIAIAAtAABBBGpB/wFxQQJ0IgAoArD3QSAAKAKU90EgASgCBCgCDBEAAAsvACABKAIAIAAtAABBAWtB/wFxQQJ0IgAoAsTcSCAAKAL820ggASgCBCgCDBEAAAsvACABKAIAIAAtAABBAWtB/wFxQQJ0IgAoAuTdSCAAKAKM3UggASgCBCgCDBEAAAsvACABKAIAIAAtAABBAWtB/wFxQQJ0IgAoAojrSCAAKALA6kggASgCBCgCDBEAAAsvACABKAIAIAAtAABBAWtB/wFxQQJ0IgAoAqjsSCAAKALQ60ggASgCBCgCDBEAAAsvACABKAIAIAAtAABBBGpB/wFxQQJ0IgAoAsjySCAAKAKs8kggASgCBCgCDBEAAAvuAwEKfyMAQRBrIgMkACMAQaADayIBJAACQAJAAkACQAJAAkAgAARAIABBCGsiBCAEKAIAQQFqIgI2AgAgAkUNAiAAKAIAIgJB/////wdJDQEQlgoACxCUCgALIAAgAkEBajYCACABQQhqIABBBGpBABB0An8gASgCCCIJQQJGBEAgASgCDCECIAFBADYCmAMgAUKAgICAEDcCkAMgAUHEs8EANgLQASABQqCAgIAGNwLUASABIAFBkANqNgLMASACIAFBzAFqEOcEDQMgASgCkAMhBSABKAKUAyIIIAEoApgDEOwIIQcgBQRAIAhBBGsoAgAiBkF4cSIKQQRBCCAGQQNxIgYbIAVqSQ0FIAZBACAKIAVBJ2pLGw0GIAgQnwILIAIgAigCACgCABEDAEEADAELIAFBzAFqIgIgAUEIakHEAfwKAAAgAhDQAQshAiAAIAAoAgBBAWs2AgAgBCAEKAIAQQFrIgA2AgAgAEUEQCAEEMkGCyADIAc2AgQgAyACNgIAIAMgCUECRjYCCCABQaADaiQADAQLAAtB0IfGAEE3IAFBnwNqQdyzwQBBiIjGABCJBwALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyADKAIAIAMoAgQgAygCCCADQRBqJAALrQQBCn8jAEEQayIDJAAjAEGwA2siASQAAkACQAJAAkACQAJAIAAEQCAAQQhrIgQgBCgCAEEBaiICNgIAIAJFDQIgACgCACICQf////8HSQ0BEJYKAAsQlAoACyAAIAJBAWo2AgAgAEEEaiECAkAgAC0AXEECRwRAIAFBGGogAEHQAGr9AAIA/QsDACABIAD9AAJA/QsDCAwBCyABQQI6ACQLIAFBKGogAkEAIAFBCGoQcgJ/IAEoAigiCUECRgRAIAEoAiwhAiABQQA2AqgDIAFCgICAgBA3AqADIAFBxLPBADYC6AEgAUKggICABjcC7AEgASABQaADajYC5AEgAiABQeQBahDnBA0DIAEoAqADIQUgASgCpAMiCCABKAKoAxDsCCEHIAUEQCAIQQRrKAIAIgZBeHEiCkEEQQggBkEDcSIGGyAFakkNBSAGQQAgCiAFQSdqSxsNBiAIEJ8CCyACIAIoAgAoAgARAwBBAAwBCyABQeQBaiICIAFBKGpBvAH8CgAAIAIQ0QELIQIgACAAKAIAQQFrNgIAIAQgBCgCAEEBayIANgIAIABFBEAgBBDJBgsgAyAHNgIEIAMgAjYCACADIAlBAkY2AgggAUGwA2okAAwECwALQdCHxgBBNyABQa8DakHcs8EAQYiIxgAQiQcAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsgAygCACADKAIEIAMoAgggA0EQaiQAC+4DAQp/IwBBEGsiAyQAIwBBoANrIgEkAAJAAkACQAJAAkACQCAABEAgAEEIayIEIAQoAgBBAWoiAjYCACACRQ0CIAAoAgAiAkH/////B0kNARCWCgALEJQKAAsgACACQQFqNgIAIAFBCGogAEEEakEBEHQCfyABKAIIIglBAkYEQCABKAIMIQIgAUEANgKYAyABQoCAgIAQNwKQAyABQcSzwQA2AtABIAFCoICAgAY3AtQBIAEgAUGQA2o2AswBIAIgAUHMAWoQ5wQNAyABKAKQAyEFIAEoApQDIgggASgCmAMQ7AghByAFBEAgCEEEaygCACIGQXhxIgpBBEEIIAZBA3EiBhsgBWpJDQUgBkEAIAogBUEnaksbDQYgCBCfAgsgAiACKAIAKAIAEQMAQQAMAQsgAUHMAWoiAiABQQhqQcQB/AoAACACENABCyECIAAgACgCAEEBazYCACAEIAQoAgBBAWsiADYCACAARQRAIAQQyQYLIAMgBzYCBCADIAI2AgAgAyAJQQJGNgIIIAFBoANqJAAMBAsAC0HQh8YAQTcgAUGfA2pB3LPBAEGIiMYAEIkHAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALIAMoAgAgAygCBCADKAIIIANBEGokAAvlAQEFfyMAQRBrIgEkACMAQRBrIgMkAAJAAkACQCAABEAgAEEIayIEIAQoAgBBAWoiAjYCACACRQ0CIAAoAgAiAkH/////B0kNARCWCgALEJQKAAsgACACQQFqNgIAIANBCGogAEEEahDWBCADKAIMIQIgAygCCCEFIAAgACgCAEEBazYCACAEIAQoAgBBAWsiADYCACAARQRAIAQQyQYLIAEgBTYCCCABIAJBACAFQQFxIgAbNgIEIAFBACACIAAbNgIAIANBEGokAAwBCwALIAEoAgAgASgCBCABKAIIIAFBEGokAAvvAwEKfyMAQRBrIgMkACMAQaADayIBJAACQAJAAkACQAJAAkAgAARAIABBCGsiBCAEKAIAQQFqIgI2AgAgAkUNAiAAKAIAIgJB/////wdJDQEQlgoACxCUCgALIAAgAkEBajYCACABQQhqIABBBGpBABCFAQJ/IAEoAggiCUECRgRAIAEoAgwhAiABQQA2ApgDIAFCgICAgBA3ApADIAFBxLPBADYC0AEgAUKggICABjcC1AEgASABQZADajYCzAEgAiABQcwBahDnBA0DIAEoApADIQUgASgClAMiCCABKAKYAxDsCCEHIAUEQCAIQQRrKAIAIgZBeHEiCkEEQQggBkEDcSIGGyAFakkNBSAGQQAgCiAFQSdqSxsNBiAIEJ8CCyACIAIoAgAoAgARAwBBAAwBCyABQcwBaiICIAFBCGpBxAH8CgAAIAIQ0AELIQIgACAAKAIAQQFrNgIAIAQgBCgCAEEBayIANgIAIABFBEAgBBDKBgsgAyAHNgIEIAMgAjYCACADIAlBAkY2AgggAUGgA2okAAwECwALQdCHxgBBNyABQZ8DakHcs8EAQYiIxgAQiQcAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsgAygCACADKAIEIAMoAgggA0EQaiQAC+UBAQV/IwBBEGsiASQAIwBBEGsiAyQAAkACQAJAIAAEQCAAQQhrIgQgBCgCAEEBaiICNgIAIAJFDQIgACgCACICQf////8HSQ0BEJYKAAsQlAoACyAAIAJBAWo2AgAgA0EIaiAAQQRqEP0EIAMoAgwhAiADKAIIIQUgACAAKAIAQQFrNgIAIAQgBCgCAEEBayIANgIAIABFBEAgBBDKBgsgASAFNgIIIAEgAkEAIAVBAXEiABs2AgQgAUEAIAIgABs2AgAgA0EQaiQADAELAAsgASgCACABKAIEIAEoAgggAUEQaiQAC/EFAQt/IwBBEGsiByQAIwBBMGsiASQAAkACQAJAAkACQAJAAkAgAARAIABBCGsiBSgCAEEBRw0BIAAoAhAhAyAAKAIMIQggACgCCCEEIAAoAgQhAiAFQQA2AgACQCAFQX9GDQAgAEEEayIGIAYoAgBBAWsiBjYCACAGDQAgAEEMaygCACIAQXhxIgZBIEEkIABBA3EiABtJDQYgAEEAIAZBxABPGw0HIAUQnwILIAIgBCgCFBEEACIARQ0CIAFBADYCGCABQoCAgIAQNwIQIAFBxLPBADYCICABQqCAgIAGNwIkIAEgAUEQajYCHCAAIAFBHGoQ5wQNBCABKAIQIQUgASgCFCIKIAEoAhgQ7AghBiAFBEAgCkEEaygCACIJQXhxIgtBBEEIIAlBA3EiCRsgBWpJDQYgCUEAIAsgBUEnaksbDQcgChCfAgsgACAAKAIAKAIAEQMAIAQoAgAiAARAIAIgABEDAAsgBCgCBCIABEAgAkEEaygCACIEQXhxIgVBBEEIIARBA3EiBBsgAGpJDQYgBEEAIAUgAEEnaksbDQcgAhCfAgsgAygCACIABEAgCCAAEQMACyADKAIEIgAEQCAIQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyAAakkNBiACQQAgAyAAQSdqSxsNByAIEJ8CC0EBIQAMAwsQlAoAC0HQ/8AAQT8QlQoACyABQQhqIAggAiAEIAMoAgwRBgAgASgCDCEGIAEoAgghACADKAIEIgJFDQAgCEEEaygCACIDQXhxIgRBBEEIIANBA3EiAxsgAmpJDQIgA0EAIAQgAkEnaksbDQMgCBCfAgsgByAAQQFxIgA2AgggByAGQQAgABs2AgQgB0EAIAYgABs2AgAgAUEwaiQADAMLQdCHxgBBNyABQS9qQdyzwQBBiIjGABCJBwALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyAHKAIAIAcoAgQgBygCCCAHQRBqJAAL2AYBB38jAEEQayIFJAAjAEFAaiICJABByIfJAC0AAEEBRwRAEFgLAkACQAJAAkACQAJAAkACQAJAAkACQEGohskAKAIARQRAQaiGyQBBfzYCACAAQf////8ASw0BIABBBHQiAUH9////B08NAUGQh8kAKAIAIQcCQCABRQRAQQQhBAwBCyAAIQMgARBxIgRFDQMLQRgQcSIBRQ0DIAFBADYCFCABIAQ2AhAgASADNgIMIAFBADYCCCABQoGAgIAQNwIAAkAgAEUEQEEEIQRBACEAQQQhAwwBCyAAQf//A2pBEHYiAEECdCIGEHEiBEUNBSAGEHEiA0UNBgsgAkEANgI4IAIgAzYCNCACIAA2AjAgAkEANgIsIAIgBDYCKCACIAA2AiQgAiABNgI8IAJBCGogByACQSRqEJ0CAkAgAigCCCIAQYCAgIB4Rg0AIAIoAiAiAyADKAIAQQFrIgE2AgAgAUUEQCADEMcFCyAABEAgAigCDCIDQQRrKAIAIgFBeHEiBCAAQQJ0IgBBBEEIIAFBA3EiARtqSQ0IIAFBACAEIABBJ2pLGw0JIAMQnwILIAIoAhQiAEUNACACKAIYIgNBBGsoAgAiAUF4cSIEIABBAnQiAEEEQQggAUEDcSIBG2pJDQkgAUEAIAQgAEEnaksbDQogAxCfAgtBkIfJAEGQh8kAKAIAQQFqNgIAELIJIgFBqJXBAEEFEOwIIgAgB7gQqgkiAxCzCUGsjMkALQAADQpBsIzJAEEANgIAQayMyQBBADoAACADQYQITwRAIAMQhQcLIABBhAhPBEAgABCFBwsgBUIANwIEIAUgATYCAEGohskAQaiGyQAoAgBBAWo2AgAgAkFAayQADAsLQfyqwQAQswoACxDPCQALQQQgARDhCAALQRgQ6AkAC0EEIAYQ4QgAC0EEIAYQ4QgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQayMyQBBADoAAEGwjMkAKAIAIQBBsIzJAEEANgIAIAIgADYCJEGAuMgAQSsgAkEkakHgjMEAQbCVwQAQiQcACyAFKAIAIAUoAgQgBSgCCCAFQRBqJAALiAwCA34IfyMAQRBrIgkkACMAQUBqIgYkAEHIh8kALQAAQQFHBEAQWAsCQAJAAkACQAJAAkACQAJAAkACQAJAQaiGyQAoAgBFBEBBqIbJAEF/NgIAQbyGyQAoAgBFDQlBtIbJACgCACIHQciGyQApAwAiASAArYUiAkI4hiACQoD+A4NCKIaEIAJCgID8B4NCGIYgAkKAgID4D4NCCIaEhCABQgiIQoCAgPgPgyABQhiIQoCA/AeDhCABQiiIQoD+A4MgAUI4iISEhELSgaqbq/qC16d/fiIBQjiGIAFCgP4Dg0IohoQgAUKAgPwHg0IYhiABQoCAgPgPg0IIhoSEIAFCCIhCgICA+A+DIAFCGIhCgID8B4OEIAFCKIhCgP4DgyABQjiIhISEIAJC2KLR78Kp5b8tfoUiAUI4hiABQoD+A4NCKIaEIAFCgID8B4NCGIYgAUKAgID4D4NCCIaEhCABQgiIQoCAgPgPgyABQhiIQoCA/AeDhCABQiiIQoD+A4MgAUI4iISEhEHAhskAKQMAIgJCf4V+IgNCOIYgA0KA/gODQiiGhCADQoCA/AeDQhiGIANCgICA+A+DQgiGhIQgA0IIiEKAgID4D4MgA0IYiEKAgPwHg4QgA0IoiEKA/gODIANCOIiEhIQgASACQjiGIAJCgP4Dg0IohoQgAkKAgPwHg0IYhiACQoCAgPgPg0IIhoSEIAJCCIhCgICA+A+DIAJCGIhCgID8B4OEIAJCKIhCgP4DgyACQjiIhISEfoUgAYkiAadxIQQgAUIZiEL/AINCgYKEiJCgwIABfiEDQbCGyQAoAgAiCEEgayEKA0ACQCAEIAhqKQAAIgIgA4UiAUJ/hSABQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIgFQRQRAA0AgACAKIAF6p0EDdiAEaiAHcSILQQV0aygCAEYNAiABQgF9IAGDIgFQRQ0ACwsgAiACQgGGg0KAgYKEiJCgwIB/g1BFDQsgBCAFQQhqIgVqIAdxIQQMAQsLIAhBACALa0EFdGoiBUEEayIHKAIAIgAgACgCAEEBaiIANgIAIABFDQEgBUEcaygCACIAQf////8DSw0CIABBAnQiBEH9////B08NAiAHKAIAIQoCQCAERQRAQQQhCEEAIQAMAQsgBBBxIghFDQQLIAVBEGsoAgAiBEH/////A0sNAiAEQQJ0IgdB/f///wdPDQICQCAHRQRAQQQhBUEAIQQMAQsgBxBxIgVFDQULQZCHyQBBkIfJACgCACIHQQFqNgIAIAZBADYCOCAGIAU2AjQgBiAENgIwIAZBADYCLCAGIAg2AiggBiAANgIkIAYgCjYCPCAGQQhqIAcgBkEkahCdAgJAIAYoAggiAEGAgICAeEYNACAGKAIgIgQgBCgCAEEBayIFNgIAIAVFBEAgBBDHBQsgAARAIAYoAgwiBEEEaygCACIFQXhxIgggAEECdCIAQQRBCCAFQQNxIgUbakkNByAFQQAgCCAAQSdqSxsNCCAEEJ8CCyAGKAIUIgBFDQAgBigCGCIEQQRrKAIAIgVBeHEiCCAAQQJ0IgBBBEEIIAVBA3EiBRtqSQ0IIAVBACAIIABBJ2pLGw0JIAQQnwILELIJIgVBqJXBAEEFEOwIIgAgB7gQqgkiBBCzCUGsjMkALQAADQpBsIzJAEEANgIAQayMyQBBADoAACAEQYQITwRAIAQQhQcLIABBhAhPBEAgABCFBwsgCUIANwIEIAkgBTYCAEGohskAQaiGyQAoAgBBAWo2AgAgBkFAayQADAsLQfyqwQAQswoLAAsQzwkAC0EEIAQQ4QgAC0EEIAcQ4QgAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAtBwN/HAEEuQfDfxwAQ5wgAC0GA4McAQS5BsODHABDnCAALQeycwQAQ0AkAC0GsjMkAQQA6AABBsIzJACgCACEAQbCMyQBBADYCACAGIAA2AiRBgLjIAEErIAZBJGpB4IzBAEH8nMEAEIkHAAsgCSgCACAJKAIEIAkoAgggCUEQaiQACyYAAkAgAARAIAAoAgBB/////wdPDQEgACgCaA8LEJQKAAsQlgoACyYAAkAgAARAIAAoAgBB/////wdPDQEgACgCZA8LEJQKAAsQlgoACyYAAkAgAARAIAAoAgBB/////wdPDQEgACgCSA8LEJQKAAsQlgoACyYAAkAgAARAIAAoAgBB/////wdPDQEgACgCRA8LEJQKAAsQlgoACy4AIAEoAgBB26THAEHQpMcAIAAoAgAtAAAiABtBCUELIAAbIAEoAgQoAgwRAAALJQAgAARAIAAgAiADIAQgBSABKAIQERAADwtBgfPEAEEyEJUKAAspACAAIAAtAAQgAUEuRnI6AAQgACgCACIAKAIAIAEgACgCBCgCEBECAAu+CAEOfyMAQRBrIgokABD/BCIGIAEmASMAQSBrIgMkAAJAAkACQAJAAkACQAJAAkAgACIJBEAgAEEIayILIAsoAgBBAWoiADYCACAARQ0CIAkoAgBFDQEQlgoACxCUCgALIAlBfzYCACAJQQhqKAIAIQ0gCSgCBCEOQaSGyQAtAABBAUcEQAJAAkACQAJAAkACQEGkhskALQAAQQFrDgIAAgELQaSGyQBBAjoAAEGYhskAKAIAIgBFDQBBnIbJACgCACIIQQRrKAIAIgRBeHEiBUEEQQggBEEDcSIEGyAAakkNAiAEQQAgBSAAQSdqSxsNAyAIEJ8CC0GkhskAQQE6AABBnIbJAEIBNwIAQZSGyQBCADcCAAwDC0GQ48cAQf0AQdDjxwAQ2wcAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsLQZSGyQAoAgANAUGUhskAQX82AgACQEGAgMAAIAYQvgoiACAAQYCAwABPGyIEQaCGyQAoAgAiAE0EQEGchskAKAIAIQcMAQsgBCAAayICQZiGyQAoAgAgAGtLBEBBmIbJACAAIAJBAUEBEJgGQaCGyQAoAgAhAAtBnIbJACgCACIHIABqIQggAkECTwR/IAJBAWsiAgRAIAhBACAC/AsACyAHIAAgAmoiAGoFIAgLQQA6AAAgAEEBaiEEC0EAIQBBoIbJACAENgIAAkACQAJAA0AgACIIIAYQvgoiD08NASAAIAQgBhC+CiAAayICIAIgBEsbIgVqIQAgBiUBIAggABAYIQEQ/wQiAiABJgEgAhC+CiEMIAMgBTYCDCADIAw2AgAgBSAMRw0GIAcgBSACEOcJIAJBhAhPBEAgAhCFBwsgDiAHIAUgDSgCEBEAACIFRQ0ACyADQQA2AgggA0KAgICAEDcCACADQcSzwQA2AhAgA0KggICABjcCFCADIAM2AgwgBSADQQxqEOcEDQYgAygCACEAIAMoAgQiBCADKAIIEOwIIQIgAARAIARBBGsoAgAiB0F4cSIMQQRBCCAHQQNxIgcbIABqSQ0IIAdBACAMIABBJ2pLGw0JIAQQnwILIAUgBSgCACgCABEDAEEBIQBBlIbJAEGUhskAKAIAQQFqNgIAIAZBgwhLDQEMAgtBACEAQZSGyQBBlIbJACgCAEEBajYCACAGQYQISQ0BCyAIIA9JIQAgBhCFBwsgCSAJKAIAQQFqNgIAIAsgCygCAEEBayIGNgIAIAZFBEAgCxDRBAsgCiAANgIEIAogAkEAIAAbNgIAIANBIGokAAwGCwALQfyqwQAQswoAC0EAIAMgA0EMakEAIAVBtPPEABDkBwALQdCHxgBBNyADQR9qQdyzwQBBiIjGABCJBwALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACyAKKAIAIAooAgQgCkEQaiQACyEAAkAgAARAIAAoAgANASAAIAE2AmgPCxCUCgALEJYKAAshAAJAIAAEQCAAKAIADQEgACABNgJkDwsQlAoACxCWCgALIQACQCAABEAgACgCAA0BIAAgATYCSA8LEJQKAAsQlgoACyEAAkAgAARAIAAoAgANASAAIAE2AkQPCxCUCgALEJYKAAssACABKAIAIAAoAgAtAABoQQJ0IgAoAvjYSCAAKALk2EggASgCBCgCDBEAAAsjACAABEAgACACIAMgBCABKAIQEQsADwtBgfPEAEEyEJUKAAsjACAABEAgACACIAMgBCABKAIQEQYADwtBgfPEAEEyEJUKAAsjACAABEAgACACIAMgBCABKAIQEWcADwtBgfPEAEEyEJUKAAsjACAABEAgACACIAMgBCABKAIQEWgADwtBgfPEAEEyEJUKAAsjACAABEAgACACIAMgBCABKAIQEWkADwtBgfPEAEEyEJUKAAssACABKAIAIAAoAgAtAABoQQJ0IgAoAojfSCAAKAL03kggASgCBCgCDBEAAAsiAQF/IwBBEGsiAyQAIABBoM7HACABIAIQxAMgA0EQaiQACywAIABBHGpBACABKQIAQsXz9IriotGDZIUgASkCCEL/xrKNreTD7HSFhFAbCywAIABBHGpBACABKQIAQveRzaeEycHeSIUgASkCCELEt5qsyJer/VqFhFAbCy0AIABBHGpBACABKQIAQqvjrt3/pZCrb4UgASkCCELPw5za/re765t/hYRQGwsqAQF/AkAgABCfASIBDQBBACEBIAAtAJwDDQBBrMLBAEEUEPkHIQELIAELKgEBfwJAIAAQtgEiAQ0AQQAhASAALQD8Ag0AQazCwQBBFBD5ByEBCyABCysAIAEoAgAgACgCAC0AAEECdCIAKALs10ggACgCrNdIIAEoAgQoAgwRAAALKQAgASgCACAALQAAaEECdCIAKAKg2UggACgCjNlIIAEoAgQoAgwRAAALKwAgASgCACAAKAIALQAAQQJ0IgAoAqzaSCAAKALs2UggASgCBCgCDBEAAAshACAABEAgACACIAMgASgCEBEFAA8LQYHzxABBMhCVCgALIQAgAARAIAAgAiADIAEoAhARAAAPC0GB88QAQTIQlQoACysAIAEoAgAgACgCAC0AAEECdCIAKALY3kggACgCvN5IIAEoAgQoAgwRAAALKwAgASgCACAAKAIALQAAQQJ0IgAoAtzfSCAAKAKc30ggASgCBCgCDBEAAAsrACABKAIAIAAoAgAtAABBAnQiACgC1OJIIAAoAsDiSCABKAIEKAIMEQAACy4AIABBHGpBACABKQIAQu26rbbNhdT14wCFIAEpAghC+IKZvZXuxsW5f4WEUBsLLQAgAEEcakEAIAEpAgBCyZuHprzBmeBZhSABKQIIQt+S9oLh0Ourl3+FhFAbCysAIAEoAgAgACgCAC0AAEECdCIAKAL84kggACgC6OJIIAEoAgQoAgwRAAALLgAgAEEcakEAIAEpAgBC/MyKkIyotv25f4UgASkCCELAjNuUyuy06OsAhYRQGwsuACAAQSBqQQAgASkCAEKOpbOy2+7jobh/hSABKQIIQuzH3b3UsKTh/gCFhFAbCy0AIABBHGpBACABKQIAQq7Rp6ezqtaqIIUgASkCCELuzvrh3ZHSrcoAhYRQGwslACAAQfC1wQA2AgQgACABQQRqQQAgASgCAEGBgICAeEYbNgIACygAIAEoAgAgAC0AAEECdCIAKALs9kEgACgCxPZBIAEoAgQoAgwRAAALKAAgASgCACAALQAAQQJ0IgAoAoD4QSAAKALM90EgASgCBCgCDBEAAAshACAAQZzMxAA2AgQgACABQQRqQQAgAS0AAEEkRhs2AgALKAAgASgCACAALQAAQQJ0IgAoAtDZSCAAKAK02UggASgCBCgCDBEAAAsoACABKAIAIAAtAABBAnQiACgCtNtIIAAoAuzaSCABKAIEKAIMEQAACx8AIAAEQCAAIAIgASgCEBECAA8LQYHzxABBMhCVCgALKAAgASgCACAALQAAQQJ0IgAoAvjpSCAAKAKw6UggASgCBCgCDBEAAAsiACABKAIoQQJHBEAgACABKQLcAjcDAA8LQZT9xgAQ0AkACyUAIABB5InHADYCBCAAIAFBBGpBACABKAIAQYGAgIB4Rhs2AgALKAAgASgCACAALQAAQQJ0IgAoAoz0SCAAKALk8kggASgCBCgCDBEAAAsnACAAKAIALQAARQRAIAFBmp/FAEEFEJgDDwsgAUGfn8UAQQQQmAMLJAAgAC0AAEUEQCABQZqfxQBBBRCYAw8LIAFBn5/FAEEEEJgDCyEAIAEoAgAgAC0AAEECdCgCuPZBQQEgASgCBCgCDBEAAAsiACABIAAtAABBAnQiACgCjNdIIAAoAuzWSCACKAIMEQAACx4AIABBnMzEADYCBCAAQQAgAUEEaiABLQAAGzYCAAscACABIAAoAgAiAEEEaigCACAAQQhqKAIAEJgDC5keAg9/AX4Q/wQiBCABJgECfyAAIQYQ/wQiDyACJgEgBCEQIwBBQGoiDSQAIAQQuwohAEGQhskALQAAQQFHBEACQAJAAkACQAJAAkBBkIbJAC0AAEEBaw4CAAIBC0GQhskAQQI6AABB4IXJACgCACIEBEBB5IXJACgCACIKQQRrKAIAIghBeHEiCyAEQQJ0IgRBBEEIIAhBA3EiCBtqSQ0DIAhBACALIARBJ2pLGw0EIAoQnwILQeyFyQAoAgAiBARAQfCFyQAoAgAiCkEEaygCACIIQXhxIgsgBEECdCIEQQRBCCAIQQNxIggbakkNAyAIQQAgCyAEQSdqSxsNBCAKEJ8CC0H4hckAKAIAIgQEQEH8hckAKAIAIgpBBGsoAgAiCEF4cSILIARBA3QiBEEEQQggCEEDcSIIG2pJDQMgCEEAIAsgBEEnaksbDQQgChCfAgtBhIbJACgCACIERQ0AQYiGyQAoAgAiCkEEaygCACIIQXhxIgsgBEECdCIEQQRBCCAIQQNxIggbakkNAiAIQQAgCyAEQSdqSxsNAyAKEJ8CC0GQhskAQQE6AABBhIbJAEKAgICAwAA3AgBB/IXJAEIINwIAQfSFyQBCADcCAEHshckAQoCAgIDAADcCAEHkhckAQgQ3AgBB3IXJAEIANwIAQYyGyQBBADYCAAwDC0GQ48cAQf0AQdDjxwAQ2wcAC0HA38cAQS5B8N/HABDnCAALQYDgxwBBLkGw4McAEOcIAAsLAkACQAJAAkACQAJAQdyFyQAoAgBFBEBB3IXJAEF/NgIAIAAQhQMgEEEAIAYQ3gghDiAGQeiFyQAoAgAiBEsNAUHkhckAKAIAIA0gDhC7CiIKNgIYIA0gBjYCMCAGIApHDQYgBiAOEOUJIAAQhQMgBkHohckAKAIAIgBLDQJBjIbJACgCACIAQf//A00NAyAAQYCABGsiAEH//wNNDQRB5IXJACgCACEEQYiGyQAoAgAiCEEAQYCAIPwLACAIQYCAEGohCyAGQfj///8BcSIMQQJ0IQogDARAQQAgDGshBSAEIQADQCAIIAAoAgAiCUF/cyIDQf//A3FBAnRqIgcgCUGAgID8B0kiCSAHKAIAajYCACALIANBDnZB/P8PcWoiAyADKAIAIAlqNgIAIAggAEEEaigCACIJQX9zIgNB//8DcUECdGoiByAJQYCAgPwHSSIJIAcoAgBqNgIAIAsgA0EOdkH8/w9xaiIDIAMoAgAgCWo2AgAgCCAAQQhqKAIAIglBf3MiA0H//wNxQQJ0aiIHIAlBgICA/AdJIgkgBygCAGo2AgAgCyADQQ52Qfz/D3FqIgMgAygCACAJajYCACAIIABBDGooAgAiCUF/cyIDQf//A3FBAnRqIgcgCUGAgID8B0kiCSAHKAIAajYCACALIANBDnZB/P8PcWoiAyADKAIAIAlqNgIAIAggAEEQaigCACIJQX9zIgNB//8DcUECdGoiByAJQYCAgPwHSSIJIAcoAgBqNgIAIAsgA0EOdkH8/w9xaiIDIAMoAgAgCWo2AgAgCCAAQRRqKAIAIglBf3MiA0H//wNxQQJ0aiIHIAlBgICA/AdJIgkgBygCAGo2AgAgCyADQQ52Qfz/D3FqIgMgAygCACAJajYCACAIIABBGGooAgAiCUF/cyIDQf//A3FBAnRqIgcgCUGAgID8B0kiCSAHKAIAajYCACALIANBDnZB/P8PcWoiAyADKAIAIAlqNgIAIAggAEEcaigCACIJQX9zIgNB//8DcUECdGoiByAJQYCAgPwHSSIJIAcoAgBqNgIAIAsgA0EOdkH8/w9xaiIDIAMoAgAgCWo2AgAgAEEgaiEAIAVBCGoiBQ0ACwsgBCAKaiEKAkAgBkECdEEccSIJRQ0AIAohACAJQQRrIgZBBHFFBEAgCCAAKAIAIgVBf3MiA0H//wNxQQJ0aiIHIAVBgICA/AdJIgUgBygCAGo2AgAgCyADQQ52Qfz/D3FqIgMgAygCACAFajYCACAAQQRqIQALIAZFDQAgCSAKaiEGA0AgCCAAKAIAIgVBf3MiA0H//wNxQQJ0aiIHIAVBgICA/AdJIgUgBygCAGo2AgAgCyADQQ52Qfz/D3FqIgMgAygCACAFajYCACAIIABBBGooAgAiBUF/cyIDQf//A3FBAnRqIgcgBUGAgID8B0kiBSAHKAIAajYCACALIANBDnZB/P8PcWoiAyADKAIAIAVqNgIAIABBCGoiACAGRw0ACwtBACEFQQAhBgNAIAYgCGoiACgCACEDIAAgBTYCACAAQQRqIgcoAgAhESAHIAMgBWoiBTYCACAAQQhqIgMoAgAhByADIAUgEWoiBTYCACAAQQxqIgAoAgAhAyAAIAUgB2oiADYCACAAIANqIQUgBkEQaiIGQYCAEEcNAAsgDSAFNgIYQQAhBUEAIQYDQCAFIAhqIgBBgIAQaiIDKAIAIQcgAyAGNgIAIABBhIAQaiIDKAIAIREgAyAGIAdqIgY2AgAgAEGIgBBqIgMoAgAhByADIAYgEWoiBjYCACAAQYyAEGoiACgCACEDIAAgBiAHaiIANgIAIAAgA2ohBiAFQRBqIgVBgIAQRw0AC0EAIQAgDEUNBUH8hckAKAIAIQYDQCAGIAggBCgCACIDQX9zIgdB//8DcUECdGoiBSgCAEEDdGogAKwgB61CIIaENwMAIAUgBSgCACADQYCAgPwHSWo2AgAgBiAIIARBBGooAgAiA0F/cyIHQf//A3FBAnRqIgUoAgBBA3RqIABBAWqsIAetQiCGhDcDACAFIAUoAgAgA0GAgID8B0lqNgIAIAYgCCAEQQhqKAIAIgNBf3MiB0H//wNxQQJ0aiIFKAIAQQN0aiAAQQJqrCAHrUIghoQ3AwAgBSAFKAIAIANBgICA/AdJajYCACAGIAggBEEMaigCACIDQX9zIgdB//8DcUECdGoiBSgCAEEDdGogAEEDaqwgB61CIIaENwMAIAUgBSgCACADQYCAgPwHSWo2AgAgBiAIIARBEGooAgAiA0F/cyIHQf//A3FBAnRqIgUoAgBBA3RqIABBBGqsIAetQiCGhDcDACAFIAUoAgAgA0GAgID8B0lqNgIAIAYgCCAEQRRqKAIAIgNBf3MiB0H//wNxQQJ0aiIFKAIAQQN0aiAAQQVqrCAHrUIghoQ3AwAgBSAFKAIAIANBgICA/AdJajYCACAGIAggBEEYaigCACIDQX9zIgdB//8DcUECdGoiBSgCAEEDdGogAEEGaqwgB61CIIaENwMAIAUgBSgCACADQYCAgPwHSWo2AgAgBiAIIARBHGooAgAiA0F/cyIHQf//A3FBAnRqIgUoAgBBA3RqIABBB2qsIAetQiCGhDcDACAFIAUoAgAgA0GAgID8B0lqNgIAIARBIGohBCAMIABBCGoiAEcNAAsMBQtB/KrBABCzCgALQQAgBiAEQZCSwQAQ1QcAC0EAIAYgAEGYlcEAENUHAAtBiNrHAEETQeiUwQAQ2wcAC0EAQYCABCAAQfiUwQAQ1QcACyAJBEBB/IXJACgCACEGA0AgBiAIIAooAgAiBUF/cyIMQf//A3FBAnRqIgQoAgBBA3RqIACsIAytQiCGhDcDACAEIAQoAgAgBUGAgID8B0lqNgIAIABBAWohACAKQQRqIQogCUEEayIJDQALCwJAAkACQCANKAIYIgVBgIbJACgCACIATQRAQfyFyQAoAgAhBCAFQfj///8AcSIJBEBBACAJayEGQfCFyQAoAgAhCiAEIQADQCAKIAsgACkDACISQjCIp0ECdGoiDCgCAEECdGogEj4CACAMIAwoAgBBAWo2AgAgCiALIABBCGopAwAiEkIwiKdBAnRqIgwoAgBBAnRqIBI+AgAgDCAMKAIAQQFqNgIAIAogCyAAQRBqKQMAIhJCMIinQQJ0aiIMKAIAQQJ0aiASPgIAIAwgDCgCAEEBajYCACAKIAsgAEEYaikDACISQjCIp0ECdGoiDCgCAEECdGogEj4CACAMIAwoAgBBAWo2AgAgCiALIABBIGopAwAiEkIwiKdBAnRqIgwoAgBBAnRqIBI+AgAgDCAMKAIAQQFqNgIAIAogCyAAQShqKQMAIhJCMIinQQJ0aiIMKAIAQQJ0aiASPgIAIAwgDCgCAEEBajYCACAKIAsgAEEwaikDACISQjCIp0ECdGoiDCgCAEECdGogEj4CACAMIAwoAgBBAWo2AgAgCiALIABBOGopAwAiEkIwiKdBAnRqIgwoAgBBAnRqIBI+AgAgDCAMKAIAQQFqNgIAIABBQGshACAGQQhqIgYNAAsLAkAgBUEDdEE4cSIKRQ0AQfCFyQAoAgAhBiAEIAlBA3RqIgQhACAKQQhrIgVBCHFFBEAgBiALIAQpAwAiEkIwiKdBAnRqIgAoAgBBAnRqIBI+AgAgACAAKAIAQQFqNgIAIARBCGohAAsgBUUNACAEIApqIQoDQCAGIAsgACkDACISQjCIp0ECdGoiBCgCAEECdGogEj4CACAEIAQoAgBBAWo2AgAgBiALIABBCGopAwAiEkIwiKdBAnRqIgQoAgBBAnRqIBI+AgAgBCAEKAIAQQFqNgIAIABBEGoiACAKRw0ACwsgCCgC/P8fIgQgDSgCGEcEQCANIAhB/P8faq1CgICAgBCENwM4IA0gDUEYaq0iEkKAgICAEIQ3AzAgDUEMakHWhMAAIA1BMGoQvgQgDSgCDEGAgICAeEcNAiANKAIQIQQLIARFDQMgBEH0hckAKAIAIgBLDQJB8IXJACgCACEKIA9BACAEEN4IIgAQuwohBiANIAQ2AjAgDSAGNgIYIAQgBkcNBCAAIAogBBDkCSAAQYQISQ0DIAAQhQcMAwtBACAFIABBiJXBABDVBwALIA1BIGogDUEUaigCADYCACANIA0pAgw3AxggDSASQoCAgIDgA4Q3AyggDUEwakGomsAAIA1BKGoQ9QYgDSgCNCANKAI4EJUKAAtBACAEIABBgJLBABDVBwALIA5BhAhPBEAgDhCFBwtB3IXJAEHchckAKAIAQQFqNgIAIA9BhAhPBEAgDxCFBwsgEEGECE8EQCAQEIUHCyANQUBrJAAgBAwBC0EAIA1BGGogDUEwakEAIABBtPPEABDkBwALC+gQAg1/AX4Q/wQiAyABJgEgACEJEP8EIgwgAiYBIAMhDSMAQUBqIgUkACADEL8KIQdB2IXJAC0AAEEBRwRAAkACQAJAAkACQAJAQdiFyQAtAABBAWsOAgACAQtB2IXJAEECOgAAQbSFyQAoAgAiAARAQbiFyQAoAgAiA0EEaygCACIEQXhxIgggAEEBdCIAQQRBCCAEQQNxIgQbakkNAyAEQQAgCCAAQSdqSxsNBCADEJ8CC0HAhckAKAIAIgAEQEHEhckAKAIAIgNBBGsoAgAiBEF4cSIIIABBAnQiAEEEQQggBEEDcSIEG2pJDQMgBEEAIAggAEEnaksbDQQgAxCfAgtBzIXJACgCACIARQ0AQdCFyQAoAgAiA0EEaygCACIEQXhxIgggAEECdCIAQQRBCCAEQQNxIgQbakkNAiAEQQAgCCAAQSdqSxsNAyADEJ8CC0HYhckAQQE6AABB0IXJAEIENwIAQciFyQBCADcCAEHAhckAQoCAgIDAADcCAEG4hckAQgI3AgBBsIXJAEIANwIADAMLQZDjxwBB/QBB0OPHABDbBwALQcDfxwBBLkHw38cAEOcIAAtBgODHAEEuQbDgxwAQ5wgACwsCQAJAAkACQAJAAkBBsIXJACgCAEUEQEGwhckAQX82AgBBvIXJACgCACIDIAdJBEAgByADayIAQbSFyQAoAgAgA2tLBEBBtIXJACADIABBAkECEJgGQbyFyQAoAgAhAwtBuIXJACgCACIIIANBAXRqIQQgAEECTwR/IABBAXRBAmsiBgRAIARBACAG/AsACyAAIANqIgBBAWshAyAIIABBAXRqQQJrBSAEC0EAOwEAQbyFyQAgA0EBajYCAAtByIXJACgCACIDIAdJBEAgByADIgBrIgRBwIXJACgCACAAa0sEQEHAhckAIAAgBEEEQQQQmAZByIXJACgCACEAC0HEhckAKAIAIgYgAEECdGohCCAEQQJPBH8gByADQX9zakECdCIDBEAgCEEAIAP8CwALIAAgBGoiA0EBayEAIAYgA0ECdGpBBGsFIAgLQQA2AgBByIXJACAAQQFqNgIAC0HUhckAKAIAIgNBgPgBTQRAQYH4ASADIgBrIgdBzIXJACgCACAAa0sEQEHMhckAIAAgB0EEQQQQmAZB1IXJACgCACEAC0HQhckAKAIAIgQgAEECdGohByADQYD4AUcEf0GA4AcgA0ECdGsiCARAIAdBACAI/AsACyAEIAAgA2tBAnRqQYDgB2oFIAcLQQA2AgALIA0lAUEAIAkQHCEBEP8EIgggASYBIAlBvIXJACgCACIASw0BQQAhBEG4hckAKAIAIQcgBSAIEL8KIgA2AhggBSAJNgIwIAAgCUcNBiAHIAkgCCUBEB1B1IXJAEEANgIAQcyFyQAoAgBBgPgBTQRAQcyFyQBBAEGB+AFBBEEEEJgGQdSFyQAoAgAhBAtB0IXJACgCACIKIARBAnRqIgBBAEGA4Af8CwBB1IXJACAEQYH4AWoiDjYCACAAQYDgB2pBADYCACAHIAlBAXQiC2ohDwJAIAlFDQAgB0ECaiEAAn8gC0ECayIDQQJxBEAgACEDIAcMAQsgBy8BACIGQf/3AU0EQCAKIAZBAnRqIgYgBigCAEEBajYCAAsgA0UNASAAQQJBACALQQJHG2ohAyAACyEGA0AgBi8BACIAQYD4AUkEQCAKIABBAnRqIgAgACgCAEEBajYCAAsgA0ECQQAgAyAPRxtqIQYgAy8BACIAQf/3AU0EQCAKIABBAnRqIgAgACgCAEEBajYCAAsgBkEAQQIgBiAPRiIAG2ohAyAARQ0ACwsgCiAOQQJ0akEIayIGKAIAIQMgBkEANgIAIARBA3FBAUcEQCAEQQFrQQNxIQADQCAGQQRrIgYoAgAhBCAGIAM2AgAgBSADIARqIgM2AhggAEEBayIADQALCyAGQRBrIQYDQCAGQQxqIgAoAgAhBCAAIAM2AgAgBSADIARqIgA2AhggBkEIaiIDKAIAIQQgAyAANgIAIAUgACAEaiIANgIYIAZBBGoiAygCACEEIAMgADYCACAFIAAgBGoiADYCGCAGKAIAIQMgBiAANgIAIAUgACADaiIDNgIYIAYgCkcgBkEQayEGDQALIAkEQCAHQQJqIQQgC0ECa0EBdkEBaiELQcSFyQAoAgAhDkHIhckAKAIAIQlBACEAA0AgBy8BACIHQYD4AUkEQCAKIAdBAnRqIgcoAgAiBiAJTw0HIA4gBkECdGogADYCACAHIAcoAgBBAWo2AgALIARBAkEAIAQiByAPRxtqIQQgCyAAQQFqIgBHDQALCyADIAooAgBHBEAgBSAKrUKAgICAEIQ3AzggBSAFQRhqrSIQQoCAgIAQhDcDMCAFQQxqQdaEwAAgBUEwahC+BCAFKAIMQYCAgIB4Rw0DIAUoAhAhAwsgA0UNBSADQciFyQAoAgAiAEsNA0HEhckAKAIAIQcgDEEAIAMQ3ggiABC7CiEJIAUgAzYCMCAFIAk2AhggAyAJRw0GIAAgByADEOQJIABBhAhJDQUgABCFBwwFC0H8qsEAELMKAAtBACAJIABB9I/BABDVBwALIAVBIGogBUEUaigCADYCACAFIAUpAgw3AxggBSAQQoCAgIDgA4Q3AyggBUEwakGomsAAIAVBKGoQ9QYgBSgCNCAFKAI4EJUKAAtBACADIABB5I/BABDVBwALIAYgCUHYlMEAEK4HAAsgCEGECE8EQCAIEIUHC0GwhckAQbCFyQAoAgBBAWo2AgAgDEGECE8EQCAMEIUHCyANQYQITwRAIA0QhQcLIAVBQGskACADDwtBACAFQRhqIAVBMGpBACAAQbTzxAAQ5AcACxwAIABBBGoQ9gIgACgCJCIAIAAoAgAoAgARAwALHAAgACgCACIAKAIAIAEgAEEEaigCACgCEBECAAscACAAKAIAIgAoAgAgASAAQQRqKAIAKAIMEQIACxQAIAAgACABIAAgAV0bIAEgAVwbCxQAIAEgASAAIAAgAV0bIAAgAFwbCxsBAW8gACUBIAEgAhAAIQMQ/wQiACADJgEgAAsbAQFvIAAlASABJQEQCSECEP8EIgAgAiYBIAALHAEBbyAAJQEgASUBIAEQhQcgAiUBIAIQhQcQCwsRACAABEAgARDoCQALEM8JAAsfAEGAjMkALQAARQRAQYCMyQBBAToAAAsgAEEBNgIACx0AIAEgAC0AAEECdCIAKAKo1UggACgClNVIEJgDCxwAIAEoAgAgACgCACAAKAIEIAEoAgQoAgwRAAALGQAgASAAKAIAIgAoAgAgAEEEaigCABCYAwsZAQFvIAAlASABEAwhAhD/BCIAIAImASAACxIAIAAgAUEBdEEBciACENsHAAsXACAAKAIAIAEgACgCBEEMaigCABECAAsVACAAKAIAIgBBhAhPBEAgABCFBwsLGQAgASgCACABKAIEIAAoAgAgACgCBBDEAwsXAQFvIAAgARAPIQIQ/wQiACACJgEgAAsXAQFvIAAgARAsIQIQ/wQiACACJgEgAAsZACABKAIAQdr7xgBBDyABKAIEKAIMEQAACxkAIAEoAgBBy/vGAEEPIAEoAgQoAgwRAAALGQAgASgCAEHy+sYAQQwgASgCBCgCDBEAAAsZACABKAIAQZv8xgBBEiABKAIEKAIMEQAACxkAIAEoAgBBsKPBAEEKIAEoAgQoAgwRAAALGQAgASgCAEHp+8YAQQ8gASgCBCgCDBEAAAsZACABKAIAQdSKwQBBFCABKAIEKAIMEQAACxkAIAEoAgBB4vvFAEEDIAEoAgQoAgwRAAALGQAgASgCAEHs/MYAQRcgASgCBCgCDBEAAAsZACABKAIAQYv8xgBBECABKAIEKAIMEQAACxkAIAEoAgBB0frGAEEOIAEoAgQoAgwRAAALGQAgASgCAEGi+8YAQQwgASgCBCgCDBEAAAsZACABKAIAQa77xgBBDiABKAIEKAIMEQAACxkAIAEoAgBB5fvFAEEDIAEoAgQoAgwRAAALGQAgASgCAEGK+8YAQQwgASgCBCgCDBEAAAsZACABKAIAQf76xgBBDCABKAIEKAIMEQAACxkAIAEoAgBBr/3FAEEEIAEoAgQoAgwRAAALGQAgASgCAEHo+8UAQQMgASgCBCgCDBEAAAsZACABKAIAQZb7xgBBDCABKAIEKAIMEQAACxkAIAEoAgBB6IrBAEEUIAEoAgQoAgwRAAALGQAgASgCAEH4+8YAQRMgASgCBCgCDBEAAAsZACABKAIAQfyKwQBBFCABKAIEKAIMEQAACxkAIAEoAgBB6/vFAEEFIAEoAgQoAgwRAAALGQAgASgCAEGm/cUAQQkgASgCBCgCDBEAAAsZACABKAIAQbP9xQBBCCABKAIEKAIMEQAACxkAIAEoAgBB2PzGAEEUIAEoAgQoAgwRAAALGQAgASgCAEHg+8UAQQIgASgCBCgCDBEAAAsZACABKAIAQbz7xgBBDyABKAIEKAIMEQAACxkAIAEoAgBBwfzGAEEXIAEoAgQoAgwRAAALGQAgASgCAEHAisEAQRQgASgCBCgCDBEAAAsZACABKAIAQa38xgBBFCABKAIEKAIMEQAACxkAIAEoAgBB5vrGAEEMIAEoAgQoAgwRAAALEgAgAEEEahD2AiAAQSRqELAECxIAIABBBGoQ9gIgAEEcahDbBAsSACAAQQRqEPYCIABBHGoQsAQLFgAgAEG8uMEANgIEIAAgAUEIajYCAAsZACABKAIAQefPxwBBBSABKAIEKAIMEQAACxYAIAEgACgCACIAKAIAIAAoAgQQmAMLFgAgAEHwtcEANgIEIAAgAUEcajYCAAsWACAAQcS3wQA2AgQgACABQRxqNgIACxYAIABBgLjBADYCBCAAIAFBHGo2AgALFgAgAEG8uMEANgIEIAAgAUEcajYCAAsWACAAQfi4wQA2AgQgACABQRxqNgIACxYAIABBtLnBADYCBCAAIAFBHGo2AgALFgAgAEHwucEANgIEIAAgAUEcajYCAAsWACAAQay6wQA2AgQgACABQRxqNgIACxMAIAAgACAAKAIAIgBqNgIAIAALFAAgASACIAMgBCAFIAAoAgARBwALGQAgASgCAEH0o8UAQRIgASgCBCgCDBEAAAsWACAAQdiSxwA2AgQgACABQRxqNgIACxYAIABBjJTHADYCBCAAIAFBHGo2AgALFgAgAEHQk8cANgIEIAAgAUEcajYCAAsWACAAQZSTxwA2AgQgACABQSBqNgIACxkAIAEoAgBBqJHHAEEMIAEoAgQoAgwRAAALEgAgAEEEahD2AiAAQSBqEIACCxYAIABB5InHADYCBCAAIAFBHGo2AgALFgAgAEHIlMcANgIEIAAgAUEcajYCAAsWACAAQcSZxwA2AgQgACABQQxqNgIACxYAIAEgACgCACIAKAIEIAAoAggQmAMLGQAgASgCAEH07scAQQsgASgCBCgCDBEAAAsVAQFvIAAQBCEBEP8EIgAgASYBIAALFwIBbwF/IAAQKyEBEP8EIgIgASYBIAILFAAgACgCACIAIAAoAgAoAgARAwALFAAgACgCCCIAIAAoAgAoAgARAwALFAAgACgCACABIAAoAgQoAhARAgAL2AYBA38jAEHQAGsiBSQAIAUgAzYCBCAFIAI2AgACfwJAAkAgAUGBAk8EQEH9ASEGA0ACQCAAIAZqIgdBA2osAABBv39MBEAgB0ECaiwAAEG/f0wNASAGQQJqIQYMBQsgBkEDaiEGDAQLIAdBAWosAABBv39KDQIgBywAAEG/f0oNAyAGQQRrIgZBfUcNAAtBACEGDAILIAUgATYCDCAFIAA2AghBAQwCCyAGQQFqIQYLIAUgADYCCCAFIAY2AgxBBUEAIAEgBksiBhshB0HcosIAQQEgBhsLIQYgBSAHNgIUIAUgBjYCEAJAIAUgASACTwR/IAEgA08NASADBSACCzYCICAFIAVBEGqtQoCAgICgAYQ3AzggBSAFQQhqrUKAgICAoAGENwMwIAUgBUEgaq1CgICAgBCENwMoQa+AwAAgBUEoaiAEENsHAAsCfwJAAkACQCACIANNBEACQCACRSABIAJNckUEQCAAIAJqLAAAQUBIDQELIAMhAgsgBSACNgIYIAEgAk0NAkEAIQcgAkUNAQNAIAAgAmosAABBv39KBEAgAiEHDAMLIAJBAWsiAg0ACwwBCyAFIAVBEGqtQoCAgICgAYQ3A0AgBSAFQQhqrUKAgICAoAGENwM4IAUgBUEEaq1CgICAgBCENwMwIAUgBa1CgICAgBCENwMoQYOAwAAgBUEoaiAEENsHAAsgASAHRg0AAkAgACAHaiICLAAAIgNBAEgEQCACLQABQT9xIQAgA0EfcSEBIANBX0sNASABQQZ0IAByIQYMAwsgBSADQf8BcTYCHEEBDAMLIAItAAJBP3EgAEEGdHIhACADQXBJBEAgACABQQx0ciEGDAILIAFBEnRBgIDwAHEgAi0AA0E/cSAAQQZ0cnIiBkGAgMQARw0BCyAEENAJAAsgBSAGNgIcQQEgBkGAAUkNABpBAiAGQYAQSQ0AGkEDQQQgBkGAgARJGwshACAFIAc2AiAgBSAAIAdqNgIkIAUgBUEQaq1CgICAgKABhDcDSCAFIAVBCGqtQoCAgICgAYQ3A0AgBSAFQSBqrUKAgICA0AWENwM4IAUgBUEcaq1CgICAgOAFhDcDMCAFIAVBGGqtQoCAgIAQhDcDKEHYgMAAIAVBKGogBBDbBwALFAAgACgCACABIAAoAgQoAgwRAgALEQAgACABIAIgAyAEIAUQsgQLEgAgAEERQRAgAS0AkwEbOgAACxUCAW8BfxAFIQAQ/wQiASAAJgEgAQsRACAAJQEgASUBIAIlARAGGgsVAgFvAX8QByEAEP8EIgEgACYBIAELfwEDfxD/BCIDIAEmAQJAAkACQCAABEAgAEEIayICIAIoAgBBAWoiBDYCACAERQ0CIAAoAgBFDQEQlgoACxCUCgALIABBfzYCACAAQQRqIAMQwQIgACAAKAIAQQFqNgIAIAIgAigCAEEBayIANgIAIABFBEAgAhDJBgsMAQsACwuKAQEDfxD/BCIDIAEmAQJAAkACQCAABEAgAEEIayICIAIoAgBBAWoiBDYCACAERQ0CIAAoAgBFDQEQlgoACxCUCgALIABBfzYCACAAQQhqKAIAIABBDGooAgAgAxCpAyAAIAAoAgBBAWo2AgAgAiACKAIAQQFrIgA2AgAgAEUEQCACEMoGCwwBCwALCxEAIAEgACgCACAAKAIEEJgDCxMAIABBKDYCBCAAQeCDxwA2AgALEQAgASAAKAIEIAAoAggQmAMLEwAgAEHousEANgIEIAAgATYCAAsTACAAQZS7wQA2AgQgACABNgIACxMAIABB0LvBADYCBCAAIAE2AgALEwAgAEGMvMEANgIEIAAgATYCAAsTACAAQci8wQA2AgQgACABNgIACxMAIABBhL3BADYCBCAAIAE2AgALEwAgAEHAvcEANgIEIAAgATYCAAsTACAAQfy9wQA2AgQgACABNgIACxEAIAAoAgQgACgCCCABELsCCxwAIABBmLvP7AM2AgggAELQ5+byk+vFmz83AgALEQAgACgCACAAKAIEIAEQuwILEwAgAEGElccANgIEIAAgATYCAAsTACAAQbCXxwA2AgQgACABNgIACxMAIABBwJXHADYCBCAAIAE2AgALEwAgAEH0lscANgIEIAAgATYCAAsTACAAQfyVxwA2AgQgACABNgIACxMAIABBuJbHADYCBCAAIAE2AgALEwAgAEGw38cANgIEIAAgATYCAAsWAEGwjMkAIAA2AgBBrIzJAEEBOgAACxEBAX8Q/wQiASAAJQEmASABCw4AIAAlASABJQFBABAWCxIAQcD6xgBBI0GM+cEAENsHAAsPAEGwpMIAQSsgABDnCAALEAAgAEGct8EAIAEgAhDEAwsQACAAQcSzwQAgASACEMQDCxMAQbSjwgBBmQFBgKTCABDbBwALDwBB3I7DAEEzIAAQ2wcACxAAIABBtPjBACABIAIQxAMLEAAgAEGc+cEAIAEgAhDEAwsQACAAQYz6wQAgASACEMQDCxAAIABBnPvBACABIAIQxAMLEAAgAEHQi8IAIAEgAhDEAwsPACAAKAIAKAIAIAEQlwULTwEBfyMAQSBrIgMkACADIAA2AgwgAyABNgIIIAMgA0EMaq1CgICAgBCENwMYIAMgA0EIaq1CgICAgBCENwMQQYf0wAAgA0EQaiACENsHAAsQAEH1jsMAQfMAIAAQ2wcACxAAIABBzLnEACABIAIQxAMLEAAgAEHUosUAIAEgAhDEAwsQACAAQYz9xQAgASACEMQDCxAAIABBqIfGACABIAIQxAMLEgAgACABLQDoBC0AgO9IOgAACxAAIABBtJHHACABIAIQxAMLEAAgAEH02McAIAEgAhDEAwsMACAAJQEgASACEAILDAAgACABIAIlARADCw0AIAAlASABJQEQCBoLDAAgACABIAIlARAZCw0AQe2LyQBBAToAAAALEQAgAEGAp8EA/QACAP0LAgALEQAgAEGQp8EA/QACAP0LAgALEQAgAEGgp8EA/QACAP0LAgALEQAgAEGwp8EA/QACAP0LAgALEQAgAEHAp8EA/QACAP0LAgALEQAgAEHQp8EA/QACAP0LAgALEQAgAEHgp8EA/QACAP0LAgALEQAgAEHwp8EA/QACAP0LAgALEQAgAEGAqMEA/QACAP0LAgALEQAgAEGQqMEA/QACAP0LAgALEQAgAEGgqMEA/QACAP0LAgALEQAgAEGwqMEA/QACAP0LAgALEQAgAEHAqMEA/QACAP0LAgALEQAgAEHQqMEA/QACAP0LAgALEQAgAEHgqMEA/QACAP0LAgALEQAgAEHwqMEA/QACAP0LAgALEQAgAEGAqcEA/QACAP0LAgALEQAgAEGQqcEA/QACAP0LAgALEQAgAEGgqcEA/QACAP0LAgALEQAgAEGwqcEA/QACAP0LAgALEQAgAEHAqcEA/QACAP0LAgALEQAgAEHQqcEA/QACAP0LAgALEQAgAEHgqcEA/QACAP0LAgALEQAgAEHwqcEA/QACAP0LAgALEQAgAEGAqsEA/QACAP0LAgALEQAgAEGQqsEA/QACAP0LAgALEQAgAEGgqsEA/QACAP0LAgALEQAgAEGwqsEA/QACAP0LAgALCgAgAEEEahD2AgsKACAAQQhqELAECxEAIABB7LPBAP0AAgD9CwIACxEAIABB/LPBAP0AAgD9CwIACxEAIABB+ITHAP0AAgD9CwIACxEAIABBiIXHAP0AAgD9CwIACxEAIABBjLTBAP0AAgD9CwIACxEAIABBuIXHAP0AAgD9CwIACxEAIABB2ITHAP0AAgD9CwIACxEAIABBnLTBAP0AAgD9CwIACxEAIABBrLTBAP0AAgD9CwIACxEAIABBvLTBAP0AAgD9CwIACxEAIABBzLTBAP0AAgD9CwIACxEAIABB3LTBAP0AAgD9CwIACxEAIABB7LTBAP0AAgD9CwIACw0AQeDgxwBBGxCVCgALCQAgACABECgACw4AQfvgxwBBzwAQlQoACwsAIAAoAgAgARBqCw4AIAFBopDDAEEYEJgDCw4AIAFBgJDDAEEgEJgDCwwAIAAoAgAgARCXBQsOACABQfzoxwBBAhCYAwsRACAAQYS6xAD9AAIA/QsCAAsRACAAQZS6xAD9AAIA/QsCAAsMACAAKAIAIAEQsgILDAAgACgCACABEM4FCwwAIAAoAgAgARDIBAsMACAAKAIAIAEQ9AQLEQAgAEGIhMcA/QACAP0LAgALEQAgAEGYhMcA/QACAP0LAgALEQAgAEHIhMcA/QACAP0LAgALEQAgAEHYhccA/QACAP0LAgALEQAgAEGYhccA/QACAP0LAgALEQAgAEHIhccA/QACAP0LAgALEQAgAEGohccA/QACAP0LAgALDQAgACABKQKEATcDAAsLACAALQCTAUECcgsKACAAQSBqEMIDCxEAIABBuITHAP0AAgD9CwIACxEAIABB6ITHAP0AAgD9CwIACxEAIABBqITHAP0AAgD9CwIACxEAIABB4MzHAP0AAgD9CwIACwwAIAAgASkCADcDAAsRACAAQfDMxwD9AAIA/QsCAAsKACAAIAElARAUCy0BAX8jAEEQayIBJAAgASABQQ9qrUKAgICAgAaENwMAQaiawAAgASAAENsHAAstAQF/IwBBEGsiASQAIAEgAUEPaq1CgICAgJAGhDcDAEGomsAAIAEgABDbBwALCQAgAEIBNwMACwkAIABBADYCAAsIACAAIAEQagsKACAAQYABEM0ECxIAIABChoCAgICAgICAfzcDAAu+CwIFfQZ/An1DAACAPyECAkACQAJAIAC8IgpBgICA/ANGDQAgAbwiCUH/////B3EiCEUNAAJ/AkAgAIsiA7wiB0GAgID8B0sgCEGAgID8B0tyRQRAIApBAE4NAUECIAhB////2wRLDQIaIAhBgICA/ANJDQFBACAIQZYBIAhBF3ZrIgt2IgwgC3QgCEcNAhpBAiAMQQFxawwCCyAAIAGSDAULQQALIQsCQAJAAkACQAJAIAhBgICA/ANHBEAgCEGAgID8B0YEQCAHQYCAgPwDSiAHQYCAgPwDSGtB/wFxDgIHBQQLIAlBgICA+ANGDQEgCUGAgICABEcNBSAAIACUDAkLIAlBAEgNASAADAgLIApBAEgNAyAAkQwHC0MAAIA/IACVDAYLQwAAAAAgAYwgCUEAThsMBQsgAUMAAAAAIAlBAE4bDAQLAkAgB0UgB0H/////A3FBgICA/ANGckUEQEMAAIA/IQUCQCAKQQBODQACQAJAIAsOAgABAgsgACAAkyIAIACVDAcLQwAAgL8hBQsgCEGAgIDoBE0EQCADQwAAgEuUvCAHIAdBgICABEkiCBsiB0H///8DcSIKQYCAgPwDciELIAdBF3VB6X5BgX8gCBtqIQhBACEHAkAgCkHyiPMASQ0AIApB1+f2AkkEQEEBIQcMAQsgCkGAgID4A3IhCyAIQQFqIQgLIAdBAnQiCioC9IFJQwAAgD8gCioC7IFJIgAgC74iBJKVIgIgBCAAkyIDIAtBAXZBgOD//wFxIAdBFXRqQYCAgIICar4iBiADIAKUIgO8QYBgcb4iApSTIAAgBpMgBJIgApSTlCIAIAIgApQiBEMAAEBAkiAAIAMgApKUIAMgA5QiACAAlCAAIAAgACAAIABDQvFTPpRDVTJsPpKUQwWjiz6SlEOrqqo+kpRDt23bPpKUQ5qZGT+SlJIiBpK8QYBgcb4iAJQgAyAGIABDAABAwJIgBJOTlJIiAyADIAIgAJQiApK8QYBgcb4iACACk5NDTzh2P5QgAEPGI/a4lJKSIgIgCioC/IFJIgQgAiAAQwBAdj+UIgCSkiAIsiICkrxBgGBxviIDIAKTIASTIACTkyECDAILIAdB+P//+wNPBEAgB0GHgID8A00EQCADQwAAgL+SIgBDcKXsNpQgACAAlEMAAAA/IAAgAEMAAIC+lEOrqqo+kpSTlEM7qri/lJIiAiACIABDAKq4P5QiAJK8QYBgcb4iAyAAk5MhAgwDCyAJQQBMDQQMBQsgCUEATg0DDAQLQwAAgD8gA5UgAyAJQQBIGyECIApBAE4NASACjCACIAtBAUYbIAcgC2pBgICA/ANHDQQaIAIgApMiACAAlQwECyAFAn0CQAJAIAMgCUGAYHG+IgSUIgAgASAEkyADlCABIAKUkiIBkiICvCIJQYCAgJgETARAIAlBgICAmARGDQEgArxB/////wdxIgdBgIDYmARLDQUgASACIACTX0UgCUGAgNiYfEdyDQIMBQsMBQsgAUM8qjgzkiACIACTXg0EIAK8Qf////8HcSEHC0EAIQggB0GAgID4A0sEf0EAQYCAgAQgB0EXdkECanYgCWoiB0H///8DcUGAgIAEckEWIAdBF3YiCmt2IghrIAggCUEASBshCCABIABBgICAfCAKQQFqdSAHcb6TIgCSvAUgCQtBgIB+cb4iAkMAcjE/lCIDIAJDjL6/NZQgASACIACTk0MYcjE/lJIiApIiACAAIAAgACAAlCIBIAEgASABIAFDTLsxM5RDDurdtZKUQ1WzijiSlENhCza7kpRDq6oqPpKUkyIBlCABQwAAAMCSlSACIAAgA5OTIgEgACABlJKTk0MAAIA/kiIAvCAIQRd0aiIJQYCAgAROBEAgCb4MAQsgACAIEJoGC5QhAgsgAgwCCyAFQ2BCog2UQ2BCog2UDAELIAVDyvJJcZRDyvJJcZQLCwgAIAAlARABCwgAIAAlARAKCwgAIAAlARAVCwgAIAAlARAXCwgAIAAlARAbCwgAIAAtAOgECwcAECoQ9gcLBABBAAsEAEEBCwIACwu2/wiAAQBBgIDAAAuNhwHAwAAOYmVnaW4gPD0gZW5kICjABCA8PSDAECkgd2hlbiBzbGljaW5nIGDAAWDAAAtieXRlIGluZGV4IMAWIGlzIG91dCBvZiBib3VuZHMgb2YgYMABYMAAC2J5dGUgaW5kZXggwCYgaXMgbm90IGEgY2hhciBib3VuZGFyeTsgaXQgaXMgaW5zaWRlIMAIIChieXRlcyDABikgb2YgYMABYMAAB2ZfcmVzdF/AABpUcnVuY2F0ZWQgdG8gb3V0cHV0X2NvdW50PcAAJ3RpbnlfbG9kOjpjb21wdXRlX2xvZF90cmVlOiBzcGxhdHMubGVuPcALLCBsb2RfYmFzZT3ADywgbWVyZ2VfZmlsdGVyPcAAGFBydW5pbmcgZnJvbSBsaW1pdF9zaXplPcANLCAjIGZyb250aWVyPcAAKWJoYXR0X2xvZDo6Y29tcHV0ZV9sb2RfdHJlZTogaW5pdGlhbF9sZW49wADAATrAATrAACtJbnZhbGlkIGNvbG9yL2RlcHRoIGNvbWJpbmF0aW9uIGluIGhlYWRlcjogwAEvwAAdVW5zdXBwb3J0ZWQgLmtzcGxhdCB2ZXJzaW9uOiDAAS7AABppbnZhbGlkIHV0Zi04IHNlcXVlbmNlIG9mIMASIGJ5dGVzIGZyb20gaW5kZXggwAAqaW5jb21wbGV0ZSB1dGYtOCBieXRlIHNlcXVlbmNlIGZyb20gaW5kZXggwAAfTm90IGVub3VnaCBjaHVuayByZWNvcmRzOiBoYXZlIMAQLCBuZWVkIGF0IGxlYXN0IMAACUV4cGVjdGVkIMAXIGFjdGl2ZSBzcGxhdHMgYnV0IGdvdCDAAAlFeHBlY3RlZCDADSBzcGxhdHMsIGdvdCDAAAlFeHBlY3RlZCDAESBTSCByZWNvcmRzLCBnb3QgwAAeSW52YWxpZCBjaHVuayBjb3VudDogZXhwZWN0ZWQgwAYsIGdvdCDAACNQcm9wZXJ0eSBvZmZzZXQgbWlzbWF0Y2g6IGV4cGVjdGVkIMAGLCBnb3QgwAAad3JvbmcgZGF0YSBzaXplLCBleHBlY3RlZCDABSBnb3QgwAAcTWlzc2luZyBQTFkgY2h1bmsgZm9yIHNwbGF0IMAAFnNsaWNlIGluZGV4IHN0YXJ0cyBhdCDADSBidXQgZW5kcyBhdCDAACBpbmRleCBvdXQgb2YgYm91bmRzOiB0aGUgbGVuIGlzIMASIGJ1dCB0aGUgaW5kZXggaXMgwAAQVGhlIGRlY29kZXIgZm9yIMAmIGRvZXMgbm90IHN1cHBvcnQgdGhlIGZvcm1hdCBmZWF0dXJlcyDAABFpbnZhbGlkIHNpemUgZm9yIMAAwAkgYXQgbGluZSDACCBjb2x1bW4gwAAaSW52YWxpZCBjb21wcmVzc2lvbiBsZXZlbCDAABJyYW5nZSBzdGFydCBpbmRleCDAIiBvdXQgb2YgcmFuZ2UgZm9yIHNsaWNlIG9mIGxlbmd0aCDAABByYW5nZSBlbmQgaW5kZXggwCIgb3V0IG9mIHJhbmdlIGZvciBzbGljZSBvZiBsZW5ndGggwAAHc3RyaW5nIMAAFkZvcm1hdCBlcnJvciBlbmNvZGluZyDAABZGb3JtYXQgZXJyb3IgZGVjb2RpbmcgwAASVW5leHBlY3RlZCBlbmQgb2YgwAAwVGhlIGRlY29kZXIgZG9lcyBub3Qgc3VwcG9ydCB0aGUgZm9ybWF0IGZlYXR1cmUgwAAQVGhlIGNvbG9yIHNwYWNlIMAdIGRvZXMgbm90IG1hdGNoIHRoZSBleHBlY3RlZCDAABF1bmtub3duIHZhcmlhbnQgYMAMYCwgZXhwZWN0ZWQgwAAPaW52YWxpZCBsZW5ndGggwAssIGV4cGVjdGVkIMAAD2ludmFsaWQgdmFsdWU6IMALLCBleHBlY3RlZCDAAA5pbnZhbGlkIHR5cGU6IMALLCBleHBlY3RlZCDAABxiYXNlICsgY291bnQgb3V0IG9mIGJvdW5kczogwAMgKyDAAyA+IMAAIG91dHB1dCBiYXRjaCBjaHVuaywgY2h1bmtfcmVsID0gwAAfSW5jb21wbGV0ZSBTUFogc3RyZWFtOiBzdGFnZSA9IMAOLCBzaF9kZWdyZWUgPSDAABlvcGFjaXR5IGFycmF5IHRvbyBzbWFsbDogwAMgPCDAABZxdWF0IGFycmF5IHRvbyBzbWFsbDogwAMgPCDAABhjZW50ZXIgYXJyYXkgdG9vIHNtYWxsOiDAAyA8IMAAF3NjYWxlIGFycmF5IHRvbyBzbWFsbDogwAMgPCDAABVyZ2IgYXJyYXkgdG9vIHNtYWxsOiDAAyA8IMAADFJvb3QgaW5kZXg6IMAABlJvb3Q6IMAAEGFzc2VydGlvbiBgbGVmdCDAFyByaWdodGAgZmFpbGVkCiAgbGVmdDogwAkKIHJpZ2h0OiDAABBhc3NlcnRpb24gYGxlZnQgwBAgcmlnaHRgIGZhaWxlZDogwAkKICBsZWZ0OiDACQogcmlnaHQ6IMAAGFVuc3VwcG9ydGVkIFBMWSBmb3JtYXQ6IMAADFJvb3Qgc3BsYXQ6IMAAJUF2ZXJhZ2UgY2hpbGRyZW4gcGVyIGludGVyaW9yIHNwbGF0OiDAABpJbnZhbGlkIGNvbG9yIGNhY2hlIGJpdHM6IMAAB0xldmVsOiDACCwgc3RlcDogwAwsIGZyb250aWVyOiDAAyAvIMAMLCAjIGFjdGl2ZTogwAwsICMgc3BsYXRzOiDAACVJbnZhbGlkIG51bWJlciBvZiBmX3Jlc3QgcHJvcGVydGllczogwAATTG9EIGdyb3d0aCBmYWN0b3I6IMAAC2kvbyBlcnJvcjogwAAKSU8gRXJyb3I6IMAAE0ludmFsaWQgcGFyYW1ldGVyOiDAACFJbnZhbGlkIGxvc3NsZXNzIHZlcnNpb24gbnVtYmVyOiDAAB9VbnN1cHBvcnRlZCBSQUQgY2h1bmsgdmVyc2lvbjogwAAZVW5zdXBwb3J0ZWQgU1BaIHZlcnNpb246IMAAGVVuc3VwcG9ydGVkIFBMWSB2ZXJzaW9uOiDAABlVbnN1cHBvcnRlZCBSQUQgdmVyc2lvbjogwAAQUm9vdCAjY2hpbGRyZW46IMAAD3Vua25vd24gdG9rZW46IMAAHVVucmVjb2duaXplZCBjcml0aWNhbCBjaHVuazogwAAUQ2h1bmsgbGVuZ3RoIHdyb25nOiDAACJVbnN1cHBvcnRlZCBjaGlsZCBzdGFydCBlbmNvZGluZzogwAAiVW5zdXBwb3J0ZWQgY2hpbGQgY291bnQgZW5jb2Rpbmc6IMAAHVVuc3VwcG9ydGVkIHNjYWxlcyBlbmNvZGluZzogwAAdVW5zdXBwb3J0ZWQgY2VudGVyIGVuY29kaW5nOiDAACJVbnN1cHBvcnRlZCBvcmllbnRhdGlvbiBlbmNvZGluZzogwAAfVW5zdXBwb3J0ZWQgc2ggbGFiZWwgZW5jb2Rpbmc6IMAAGVVuc3VwcG9ydGVkIHNoIGVuY29kaW5nOiDAABpVbnN1cHBvcnRlZCByZ2IgZW5jb2Rpbmc6IMAAHFVuc3VwcG9ydGVkIGFscGhhIGVuY29kaW5nOiDAAA9Tb3J0ZWQgYWN0aXZlOiDAABVpbnZhbGlkIFppcCBhcmNoaXZlOiDAABl1bnN1cHBvcnRlZCBaaXAgYXJjaGl2ZTogwAAVVW5zdXBwb3J0ZWQgZmVhdHVyZTogwAAfVW5zdXBwb3J0ZWQgUExZIHByb3BlcnR5IHR5cGU6IMAAE0ludmFsaWQgZmlsZSB0eXBlOiDAABdJbnZhbGlkIHByb3BlcnR5IGxpbmU6IMAAHVVuc3VwcG9ydGVkIFBMWSBoZWFkZXIgbGluZTogwAATSW52YWxpZCBTSCBkZWdyZWU6IMAAI0ludmFsaWQgVlA4IGludHJhIHByZWRpY3Rpb24gbW9kZTogwAAiSW52YWxpZCBWUDggbHVtYSBwcmVkaWN0aW9uIG1vZGU6IMAAJEludmFsaWQgVlA4IGNocm9tYSBwcmVkaWN0aW9uIG1vZGU6IMAAGUludmFsaWQgVlA4IGNvbG9yIHNwYWNlOiDAABxUaGUgcGFyYW1ldGVyIGlzIG1hbGZvcm1lZDogwAAWRGVjb21wcmVzc2lvbiBmYWlsZWQ6IMAAC2xldmVsX21pbjogwBMsIGZlYXR1cmVfc2l6ZVswXTogwAATZmFpbGVkIHByaW50aW5nIHRvIMACOiDAABZGb3JtYXQgZXJyb3IgZGVjb2RpbmcgwAI6IMAADE91dHB1dCBzZXQ6IMADIC8gwAAHTGV2ZWw6IMAILCBzdGVwOiDADCwgZnJvbnRpZXI6IMADIC8gwAAITWVyZ2VkOiDAAyAvIMAAFkZvcm1hdCBlcnJvciBlbmNvZGluZyDAAjoKwAABCsAAaW52YWxpZCBsaXRlcmFsL2xlbmd0aHMgc2V0AGludmFsaWQgY29kZSBsZW5ndGhzIHNldAB1bmtub3duIGhlYWRlciBmbGFncyBzZXQAaW52YWxpZCBkaXN0YW5jZXMgc2V0ABNUaGUgZmlsZSBleHRlbnNpb24gwCYgd2FzIG5vdCByZWNvZ25pemVkIGFzIGFuIGltYWdlIGZvcm1hdABpbnZhbGlkIGJpdCBsZW5ndGggcmVwZWF0AC9Vc2Vycy9hbGkvd29yay9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvc3B6LnJzAGxpYnJhcnkvY29yZS9zcmMvc3RyL2xvc3N5LnJzAC9Vc2Vycy9hbGkvd29yay9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvcGx5LnJzAC9ydXN0L2RlcHMvcnVzdGMtZGVtYW5nbGUtMC4xLjI2L3NyYy9sZWdhY3kucnMAL1VzZXJzL2FsaS8ucnVzdHVwL3Rvb2xjaGFpbnMvMS45My1hYXJjaDY0LWFwcGxlLWRhcndpbi9saWIvcnVzdGxpYi9zcmMvcnVzdC9saWJyYXJ5L2NvcmUvc3JjL2l0ZXIvYWRhcHRlcnMvc3RlcF9ieS5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvbWVtY2hyLTIuNy42L3NyYy9hcmNoL2FsbC90d293YXkucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3psaWItcnMtMC42LjMvc3JjL2luZmxhdGUvd2luZG93LnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy95dXYucnMAbGlicmFyeS9jb3JlL3NyYy9udW0vZmx0MmRlYy9zdHJhdGVneS9ncmlzdS5ycwBsaWJyYXJ5L2NvcmUvc3JjL3NsaWNlL3NvcnQvc2hhcmVkL3NtYWxsc29ydC5ycwAvVXNlcnMvYWxpLy5ydXN0dXAvdG9vbGNoYWlucy8xLjkzLWFhcmNoNjQtYXBwbGUtZGFyd2luL2xpYi9ydXN0bGliL3NyYy9ydXN0L2xpYnJhcnkvY29yZS9zcmMvc2xpY2Uvc29ydC9zdGFibGUvcXVpY2tzb3J0LnJzAHNwYXJrLXdvcmtlci1ycy9zcmMvc29ydC5ycwBsaWJyYXJ5L2FsbG9jL3NyYy9mbXQucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2FueWhvdy0xLjAuOTgvc3JjL2ZtdC5ycwBsaWJyYXJ5L2NvcmUvc3JjL251bS9kaXlfZmxvYXQucnMAL1VzZXJzL2FsaS93b3JrL3NwYXJrL3J1c3Qvc3BhcmstbGliL3NyYy90c3BsYXQucnMAL1VzZXJzL2FsaS93b3JrL3NwYXJrL3J1c3Qvc3BhcmstbGliL3NyYy9rc3BsYXQucnMAL1VzZXJzL2FsaS93b3JrL3NwYXJrL3J1c3Qvc3BhcmstbGliL3NyYy9hbnRpc3BsYXQucnMAL1VzZXJzL2FsaS93b3JrL3NwYXJrL3J1c3Qvc3BhcmstbGliL3NyYy9nc3BsYXQucnMAL1VzZXJzL2FsaS93b3JrL3NwYXJrL3J1c3Qvc3BhcmstbGliL3NyYy9jc3BsYXQucnMAc3Bhcmstd29ya2VyLXJzL3NyYy9leHRfc3BsYXRzLnJzAHNwYXJrLXdvcmtlci1ycy9zcmMvcGFja2VkX3NwbGF0cy5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvZmRlZmxhdGUtMC4zLjcvc3JjL2RlY29tcHJlc3MucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2ltYWdlLXdlYnAtMC4yLjQvc3JjL2xvc3NsZXNzLnJzAC9Vc2Vycy9hbGkvd29yay9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvc29ncy5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvemxpYi1ycy0wLjYuMy9zcmMvaW5mbGF0ZS9pbmZ0cmVlcy5ycwBsaWJyYXJ5L3N0ZC9zcmMvc3lzL3N5bmMvbXV0ZXgvbm9fdGhyZWFkcy5ycwAvVXNlcnMvYWxpLy5ydXN0dXAvdG9vbGNoYWlucy8xLjkzLWFhcmNoNjQtYXBwbGUtZGFyd2luL2xpYi9ydXN0bGliL3NyYy9ydXN0L2xpYnJhcnkvc3RkL3NyYy9zeXMvdGhyZWFkX2xvY2FsL25vX3RocmVhZHMucnMAL1VzZXJzL2FsaS8ucnVzdHVwL3Rvb2xjaGFpbnMvMS45My1hYXJjaDY0LWFwcGxlLWRhcndpbi9saWIvcnVzdGxpYi9zcmMvcnVzdC9saWJyYXJ5L3N0ZC9zcmMvc3lzL3N5bmMvb25jZS9ub190aHJlYWRzLnJzAGxpYnJhcnkvYWxsb2Mvc3JjL3N0ci5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvYW55aG93LTEuMC45OC9zcmMvZXJyb3IucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3NlcmRlX2pzb24tMS4wLjE0NS9zcmMvZXJyb3IucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2ltYWdlLTAuMjUuMTAvc3JjL2NvbG9yLnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9tZW1jaHItMi43LjYvc3JjL2FyY2gvZ2VuZXJpYy9wYWNrZWRwYWlyLnJzAGxpYnJhcnkvY29yZS9zcmMvc2xpY2UvbWVtY2hyLnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy9sb29wX2ZpbHRlci5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvemxpYi1ycy0wLjYuMy9zcmMvaW5mbGF0ZS93cml0ZXIucnMAL1VzZXJzL2FsaS8ucnVzdHVwL3Rvb2xjaGFpbnMvMS45My1hYXJjaDY0LWFwcGxlLWRhcndpbi9saWIvcnVzdGxpYi9zcmMvcnVzdC9saWJyYXJ5L2NvcmUvc3JjL3NsaWNlL2l0ZXIucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2luZGV4bWFwLTIuMTMuMC9zcmMvaW5uZXIucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL21pbml6X294aWRlLTAuOC45L3NyYy9pbmZsYXRlL291dHB1dF9idWZmZXIucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3BuZy0wLjE4LjEvc3JjL2RlY29kZXIvdW5maWx0ZXJpbmdfYnVmZmVyLnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS0wLjI1LjEwL3NyYy9pbWFnZXMvYnVmZmVyLnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9wbmctMC4xOC4xL3NyYy9kZWNvZGVyL3JlYWRfZGVjb2Rlci5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvaW1hZ2Utd2VicC0wLjIuNC9zcmMvdnA4X2FyaXRobWV0aWNfZGVjb2Rlci5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvaW1hZ2UtMC4yNS4xMC9zcmMvY29kZWNzL3dlYnAvZGVjb2Rlci5ycwAvVXNlcnMvYWxpL3dvcmsvc3BhcmsvcnVzdC9zcGFyay1saWIvc3JjL2RlY29kZXIucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2ltYWdlLXdlYnAtMC4yLjQvc3JjL2RlY29kZXIucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3ppcC03LjIuMC9zcmMvcmVhZC9tYWdpY19maW5kZXIucnMAL1VzZXJzL2FsaS8ucnVzdHVwL3Rvb2xjaGFpbnMvMS45My1hYXJjaDY0LWFwcGxlLWRhcndpbi9saWIvcnVzdGxpYi9zcmMvcnVzdC9saWJyYXJ5L2NvcmUvc3JjL2NtcC5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvaW1hZ2UtMC4yNS4xMC9zcmMvbWV0YWRhdGEvY2ljcC5ycwBsaWJyYXJ5L3N0ZC9zcmMvaW8vc3RkaW8ucnMAL1VzZXJzL2FsaS8ucnVzdHVwL3Rvb2xjaGFpbnMvMS45My1hYXJjaDY0LWFwcGxlLWRhcndpbi9saWIvcnVzdGxpYi9zcmMvcnVzdC9saWJyYXJ5L2NvcmUvc3JjL3N0ci9wYXR0ZXJuLnJzAC9ydXN0Yy8wMWY2ZGRmNzU4OGY0MmFlMmQ3ZWIwYTJmMjFkNDRlOGU5NjY3NGNmL2xpYnJhcnkvY29yZS9zcmMvc3RyL3BhdHRlcm4ucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3BuZy0wLjE4LjEvc3JjL2NvbW1vbi5ycwAvcnVzdGMvMDFmNmRkZjc1ODhmNDJhZTJkN2ViMGEyZjIxZDQ0ZThlOTY2NzRjZi9saWJyYXJ5L2NvcmUvc3JjL29wcy9mdW5jdGlvbi5ycwBsaWJyYXJ5L2NvcmUvc3JjL251bS9mbHQyZGVjL3N0cmF0ZWd5L2RyYWdvbi5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvZmRlZmxhdGUtMC4zLjcvc3JjL2h1ZmZtYW4ucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2ltYWdlLXdlYnAtMC4yLjQvc3JjL2h1ZmZtYW4ucnMAbGlicmFyeS9jb3JlL3NyYy9udW0vYmlnbnVtLnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy9sb3NzbGVzc190cmFuc2Zvcm0ucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3BuZy0wLjE4LjEvc3JjL2RlY29kZXIvdHJhbnNmb3JtLnJzAGxpYnJhcnkvc3RkL3NyYy9pby9idWZmZXJlZC9saW5ld3JpdGVyc2hpbS5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvcG5nLTAuMTguMS9zcmMvZGVjb2Rlci9zdHJlYW0ucnMAL1VzZXJzL2FsaS8ucnVzdHVwL3Rvb2xjaGFpbnMvMS45My1hYXJjaDY0LWFwcGxlLWRhcndpbi9saWIvcnVzdGxpYi9zcmMvcnVzdC9saWJyYXJ5L3N0ZC9zcmMvdGhyZWFkL2xvY2FsLnJzAGxpYnJhcnkvc3RkL3NyYy9zeW5jL2xhenlfbG9jay5ycwBsaWJyYXJ5L3N0ZC9zcmMvc3luYy9yZWVudHJhbnRfbG9jay5ycwAvVXNlcnMvYWxpLy5ydXN0dXAvdG9vbGNoYWlucy8xLjkzLWFhcmNoNjQtYXBwbGUtZGFyd2luL2xpYi9ydXN0bGliL3NyYy9ydXN0L2xpYnJhcnkvc3RkL3NyYy9zeW5jL29uY2VfbG9jay5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvaW1hZ2UtMC4yNS4xMC9zcmMvY29kZWNzL3BuZy5ycwAvVXNlcnMvYWxpLy5ydXN0dXAvdG9vbGNoYWlucy8xLjkzLWFhcmNoNjQtYXBwbGUtZGFyd2luL2xpYi9ydXN0bGliL3NyYy9ydXN0L2xpYnJhcnkvYWxsb2Mvc3JjL3N0cmluZy5ycwBsaWJyYXJ5L3N0ZC9zcmMvcGFuaWNraW5nLnJzAC9Vc2Vycy9hbGkvLnJ1c3R1cC90b29sY2hhaW5zLzEuOTMtYWFyY2g2NC1hcHBsZS1kYXJ3aW4vbGliL3J1c3RsaWIvc3JjL3J1c3QvbGlicmFyeS9jb3JlL3NyYy9pby9ib3Jyb3dlZF9idWYucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3dhc20tYmluZGdlbi0wLjIuMTE3L3NyYy9leHRlcm5yZWYucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3BuZy0wLjE4LjEvc3JjL2RlY29kZXIvdHJhbnNmb3JtL3BhbGV0dGUucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3psaWItcnMtMC42LjMvc3JjL2luZmxhdGUucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3psaWItcnMtMC42LjMvc3JjL2FsbG9jYXRlLnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9taW5pel9veGlkZS0wLjguOS9zcmMvaW5mbGF0ZS9jb3JlLnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS0wLjI1LjEwL3NyYy9pby9pbWFnZV9yZWFkZXJfdHlwZS5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvemxpYi1ycy0wLjYuMy9zcmMvc3RhYmxlLnJzAGxpYnJhcnkvY29yZS9zcmMvdW5pY29kZS9wcmludGFibGUucnMAL1VzZXJzL2FsaS93b3JrL3NwYXJrL3J1c3Qvc3BhcmstbGliL3NyYy9jaHVua190cmVlLnJzAHNwYXJrLXdvcmtlci1ycy9zcmMvbG9kX3RyZWUucnMAc3BhcmstbGliL3NyYy9zcGxhdF9lbmNvZGUucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3NlcmRlLTEuMC4yMjgvc3JjL3ByaXZhdGUvZGUucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3NlcmRlX2pzb24tMS4wLjE0NS9zcmMvZGUucnMAL1VzZXJzL2FsaS8ucnVzdHVwL3Rvb2xjaGFpbnMvMS45My1hYXJjaDY0LWFwcGxlLWRhcndpbi9saWIvcnVzdGxpYi9zcmMvcnVzdC9saWJyYXJ5L3N0ZC9zcmMvc3luYy9vbmNlLnJzAGxpYnJhcnkvc3RkL3NyYy9iYWNrdHJhY2UucnMAL3J1c3QvZGVwcy9oYXNoYnJvd24tMC4xNi4xL3NyYy9yYXcvbW9kLnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9oYXNoYnJvd24tMC4xNi4xL3NyYy9yYXcvbW9kLnJzAGxpYnJhcnkvY29yZS9zcmMvZm10L21vZC5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvbWVtY2hyLTIuNy42L3NyYy9hcmNoL2FsbC9wYWNrZWRwYWlyL21vZC5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvcG5nLTAuMTguMS9zcmMvZGVjb2Rlci9tb2QucnMAL1VzZXJzL2FsaS8ucnVzdHVwL3Rvb2xjaGFpbnMvMS45My1hYXJjaDY0LWFwcGxlLWRhcndpbi9saWIvcnVzdGxpYi9zcmMvcnVzdC9saWJyYXJ5L3N0ZC9zcmMvaW8vbW9kLnJzAGxpYnJhcnkvc3RkL3NyYy8uLi8uLi9iYWNrdHJhY2Uvc3JjL3N5bWJvbGl6ZS9tb2QucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3NlcmRlX2NvcmUtMS4wLjIyOC9zcmMvZGUvbW9kLnJzAGxpYnJhcnkvYWxsb2Mvc3JjL3Jhd192ZWMvbW9kLnJzAC9Vc2Vycy9hbGkvLnJ1c3R1cC90b29sY2hhaW5zLzEuOTMtYWFyY2g2NC1hcHBsZS1kYXJ3aW4vbGliL3J1c3RsaWIvc3JjL3J1c3QvbGlicmFyeS9hbGxvYy9zcmMvdmVjL21vZC5ycwBsaWJyYXJ5L2NvcmUvc3JjL251bS9mbHQyZGVjL21vZC5ycwAvVXNlcnMvYWxpL3dvcmsvc3BhcmsvcnVzdC9zcGFyay1saWIvc3JjL3RpbnlfbG9kLnJzAC9Vc2Vycy9hbGkvd29yay9zcGFyay9ydXN0L3NwYXJrLWxpYi9zcmMvYmhhdHRfbG9kLnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi96bGliLXJzLTAuNi4zL3NyYy9jcmMzMi9icmFpZC5ycwBsaWJyYXJ5L3N0ZC9zcmMvdGhyZWFkL2lkLnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9pbWFnZS13ZWJwLTAuMi40L3NyYy9leHRlbmRlZC5ycwAvVXNlcnMvYWxpL3dvcmsvc3BhcmsvcnVzdC9zcGFyay1saWIvc3JjL3JhZC5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2Yvc2VyZGVfanNvbi0xLjAuMTQ1L3NyYy9yZWFkLnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi96aXAtNy4yLjAvc3JjL3JlYWQucnMAL3J1c3QvZGVwcy9kbG1hbGxvYy0wLjIuMTEvc3JjL2RsbWFsbG9jLnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9wbmctMC4xOC4xL3NyYy9kZWNvZGVyL3psaWIucnMAc3Bhcmstd29ya2VyLXJzL3NyYy9saWIucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2NvbnNvbGVfZXJyb3JfcGFuaWNfaG9vay0wLjEuNy9zcmMvbGliLnJzAC9ydXN0L2RlcHMvcnVzdGMtZGVtYW5nbGUtMC4xLjI2L3NyYy9saWIucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3NlcmRlLXdhc20tYmluZGdlbi0wLjYuNS9zcmMvbGliLnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9qcy1zeXMtMC4zLjk0L3NyYy9saWIucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3NtYWxsdmVjLTEuMTUuMS9zcmMvbGliLnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi9wbmctMC4xOC4xL3NyYy90ZXh0X21ldGFkYXRhLnJzAGxpYnJhcnkvY29yZS9zcmMvdW5pY29kZS91bmljb2RlX2RhdGEucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL2ltYWdlLXdlYnAtMC4yLjQvc3JjL3ZwOC5ycwAvVXNlcnMvYWxpLy5jYXJnby9yZWdpc3RyeS9zcmMvaW5kZXguY3JhdGVzLmlvLTE5NDljZjhjNmI1YjU1N2YvcG5nLTAuMTguMS9zcmMvYWRhbTcucnMAL1VzZXJzL2FsaS8uY2FyZ28vcmVnaXN0cnkvc3JjL2luZGV4LmNyYXRlcy5pby0xOTQ5Y2Y4YzZiNWI1NTdmL3ppcC03LjIuMC9zcmMvY3A0MzcucnMAc3BhcmstbGliL3NyYy9zeW1tYXQzLnJzAC9Vc2Vycy9hbGkvLmNhcmdvL3JlZ2lzdHJ5L3NyYy9pbmRleC5jcmF0ZXMuaW8tMTk0OWNmOGM2YjViNTU3Zi96aXAtNy4yLjAvc3JjL2NyYzMyLnJzAC9ydXN0L2RlcHMvcnVzdGMtZGVtYW5nbGUtMC4xLjI2L3NyYy92MC5ycwB0b28gbWFueSBsZW5ndGggb3IgZGlzdGFuY2Ugc3ltYm9scwBpbnZhbGlkIHN0b3JlZCBibG9jayBsZW5ndGhzAAlUaGUgQ0lDUCDAHyBjYW4gbm90IGJlIHVzZWQgZm9yIFJHQiBpbWFnZXMADU1pc3NpbmcgZmlsZSDADCBpbiBTT0dTIHppcAA9aW50ZXJuYWwgZXJyb3I6IGVudGVyZWQgdW5yZWFjaGFibGUgY29kZTogVW5yZWNvZ25pemVkIGNodW5rIMAnIHNob3VsZCBoYXZlIGJlZW4gY2F1Z2h0IGluIHN0YXJ0X2NodW5rAMAhIGNodW5rIGFwcGVhcmVkIGJlZm9yZSBJSERSIGNodW5rAGludmFsaWQgY29kZSAtLSBtaXNzaW5nIGVuZC1vZi1ibG9jawBpbmNvcnJlY3QgaGVhZGVyIGNoZWNrAGluY29ycmVjdCBsZW5ndGggY2hlY2sAaW5jb3JyZWN0IGRhdGEgY2hlY2sAaW52YWxpZCBkaXN0YW5jZSB0b28gZmFyIGJhY2sAaGVhZGVyIGNyYyBtaXNtYXRjaABpbnZhbGlkIHdpbmRvdyBzaXplAHJlcGVhdGVkIGNhbGwgd2l0aCBiYWQgc3RhdGUAaW52YWxpZCBibG9jayB0eXBlAA1NaXNzaW5nIGZpbGUgwAkgaW4gY2FjaGUAaW52YWxpZCBsaXRlcmFsL2xlbmd0aCBjb2RlAGludmFsaWQgZGlzdGFuY2UgY29kZQDAFSBlbGVtZW50cyBpbiBzZXF1ZW5jZQAWVW5leHBlY3RlZCByZXN0YXJ0IG9mIMAPIGNodW5rIHNlcXVlbmNlAHVua25vd24gY29tcHJlc3Npb24gbWV0aG9kADlpbnRlcm5hbCBlcnJvcjogZW50ZXJlZCB1bnJlYWNoYWJsZSBjb2RlOiBzdHI6OmZyb21fdXRmOCjABCkgPSDAIiB3YXMgZXhwZWN0ZWQgdG8gaGF2ZSAxIGNoYXIsIGJ1dCDAESBjaGFycyB3ZXJlIGZvdW5kAChDb252ZXJ0aW5nIHdpdGggdGhlIHRleGVsIG1lbW9yeSBsYXlvdXQgwBEgaXMgbm90IHN1cHBvcnRlZAARVGhlIGltYWdlIGZvcm1hdCDAESBpcyBub3Qgc3VwcG9ydGVkABBmbG9hdGluZyBwb2ludCBgwAFgAExUaGUgY29sb3JpbWV0cmljIGludGVycHJldGF0aW9uIG9mIGEgQ0lDUCBjb2xvciBzcGFjZSBpcyBub3Qgc3VwcG9ydGVkIGZvciBgwAFgAAFgwAZgIG9yIGDAAWAAC2NoYXJhY3RlciBgwAFgAAlpbnRlZ2VyIGDAAWAACWJvb2xlYW4gYMABYAAbVGhlIGVuY29kZXIgb3IgZGVjb2RlciBmb3IgwCIgZG9lcyBub3Qgc3VwcG9ydCB0aGUgY29sb3IgdHlwZSBgwAFgAA9taXNzaW5nIGZpZWxkIGDAAWAAEWR1cGxpY2F0ZSBmaWVsZCBgwAFgAAFgwAFgAAJgLsABYADAAS8ABkNodW5rIMAqIG11c3QgYXBwZWFyIGJldHdlZW4gUExURSBhbmQgSURBVCBjaHVua3MuAAZDaHVuayDAHSBpcyBpbnZhbGlkIGFmdGVyIElEQVQgY2h1bmsuAAZDaHVuayDAHSBpcyBpbnZhbGlkIGFmdGVyIFBMVEUgY2h1bmsuAAZDaHVuayDAHiBpcyBpbnZhbGlkIGJlZm9yZSBQTFRFIGNodW5rLgAWQ1JDIGVycm9yOiBleHBlY3RlZCAweMAIIGhhdmUgMHjAECB3aGlsZSBkZWNvZGluZyDAByBjaHVuay4AJVRoZSBzaXplIG9mIHRoZSBzQklUIGNodW5rIHNob3VsZCBiZSDADiBieXRlKHMpLCBidXQgwB8gYnl0ZShzKSB3ZXJlIHByb3ZpZGVkIGZvciB0aGUgwAwgY29sb3IgdHlwZS4ABkNodW5rIMAaIG11c3QgYXBwZWFyIGF0IG1vc3Qgb25jZS4AJFNlcXVlbmNlIGlzIG5vdCBpbiBvcmRlciwgZXhwZWN0ZWQgI8AGIGdvdCAjwAEuACNOb3QgZW5vdWdoIHBhbGV0dGUgZW50cmllcywgZXhwZWN0IMAFIGdvdCDAAS4AHkludmFsaWQgc1JHQiByZW5kZXJpbmcgaW50ZW50IMABLgAhSW52YWxpZCBwaHlzaWNhbCBwaXhlbCBzaXplIHVuaXQgwAEuABNJbnZhbGlkIGRpc3Bvc2Ugb3AgwAEuABFJbnZhbGlkIGJsZW5kIG9wIMABLgASSW52YWxpZCBiaXQgZGVwdGggwAEuABNJbnZhbGlkIHNCSVQgdmFsdWUgwD4uIEl0IG11c3QgYmUgZ3JlYXRlciB0aGFuIHplcm8gYW5kIGxlc3MgdGhhbiB0aGUgc2FtcGxlIGRlcHRoIMABLgAoVHJhbnNwYXJlbmN5IGNodW5rIGZvdW5kIGZvciBjb2xvciB0eXBlIMABLgATSW52YWxpZCBjb2xvciB0eXBlIMABLgAWVW5rbm93biBmaWx0ZXIgbWV0aG9kIMABLgAbVW5rbm93biBjb21wcmVzc2lvbiBtZXRob2QgwAEuABlVbmtub3duIGludGVybGFjZSBtZXRob2QgwAEuAElJKgAISnNWYWx1ZSjAASkAElNIIGVsZW1lbnQgY291bnQgKMAbKSBtdXN0IG1hdGNoIHZlcnRleCBjb3VudCAowAEpACZjb3B5X2Zyb21fc2xpY2U6IHNvdXJjZSBzbGljZSBsZW5ndGggKMArKSBkb2VzIG5vdCBtYXRjaCBkZXN0aW5hdGlvbiBzbGljZSBsZW5ndGggKMABKQDACyAob3MgZXJyb3IgwAEpAMAHICgxIDw8IMABKQAPR3NwbGF0KGNlbnRlcjogwAssIG9wYWNpdHk6IMAHLCByZ2I6IMAKLCBzY2FsZXM6IMAOLCBxdWF0ZXJuaW9uOiDAASkAD0NzcGxhdChjZW50ZXI6IMALLCBvcGFjaXR5OiDABywgcmdiOiDACiwgc2NhbGVzOiDADiwgcXVhdGVybmlvbjogwAEpAAZFcnJvcijACCwgbGluZTogwAosIGNvbHVtbjogwAEpAAtzcGxpdCBheGlzPcAJLCBleHRlbnQ9wAgsIHNwbGl0PcAILCBhLmxlbj3ACCwgYi5sZW49wAEKABBvY3RhbnQgbGVuZ3RoczogwAEKAN0SEAAkAAAARAMAAA0AAADdEhAAJAAAAEUDAAANAAAA3RIQACQAAABGAwAADQAAAN0SEAAkAAAAQwMAAEEAAADdEhAAJAAAAE8DAAANAAAA3RIQACQAAABPAwAAPgAAAN0SEAAkAAAAuAMAACEAAADdEhAAJAAAALgDAAANAAAA3RIQACQAAAC2AwAAJQAAAN0SEAAkAAAAxgMAACEAAADdEhAAJAAAAMYDAAANAAAA3RIQACQAAADEAwAAJQAAAN0SEAAkAAAAWQMAAA0AAADdEhAAJAAAAFoDAAANAAAA3RIQACQAAABbAwAADQAAAN0SEAAkAAAAWAMAADsAAADdEhAAJAAAAIQDAAAlAAAA3RIQACQAAACEAwAANgAAAN0SEAAkAAAAhgMAAB0AAADdEhAAJAAAAIADAAAlAAAA3RIQACQAAACWAwAAJQAAAN0SEAAkAAAAlgMAADYAAADdEhAAJAAAAJYDAABLAAAA3RIQACQAAACWAwAAYAAAAN0SEAAkAAAAmAMAAB4AAADdEhAAJAAAAJIDAAAlAAAA3RIQACQAAACoAwAAJQAAAN0SEAAkAAAAqAMAADYAAADdEhAAJAAAAKgDAABLAAAA3RIQACQAAACoAwAAYAAAAN0SEAAkAAAAqgMAAB4AAADdEhAAJAAAAKQDAAAlAAAA3RIQACQAAABxAwAADQAAAN0SEAAkAAAAcgMAAA0AAADdEhAAJAAAAHMDAAANAAAA3RIQACQAAAB0AwAADQAAAN0SEAAkAAAAcAMAAD0AAADdEhAAJAAAAGUDAAANAAAA3RIQACQAAABmAwAADQAAAN0SEAAkAAAAZwMAAA0AAADdEhAAJAAAAGQDAAA/AAAAHxIQADUAAAB2AAAAIAAAAB8SEAA1AAAAdQAAACIAAAAfEhAANQAAAHQAAAAeAAAAHxIQADUAAABzAAAAJgAAAB8SEAA1AAAAcgAAACQAAAAfEhAANQAAAFQAAAAXAAAAHxIQADUAAABVAAAAFwAAAB8SEAA1AAAAVgAAABcAAAAfEhAANQAAAFgAAAAWAAAAHxIQADUAAABZAAAAFgAAAB8SEAA1AAAAWgAAABYAAAAfEhAANQAAAFwAAAAqAAAAHxIQADUAAABcAAAAFAAAAB8SEAA1AAAAXQAAACoAAAAfEhAANQAAAF0AAAAUAAAAHxIQADUAAABeAAAAKgAAAB8SEAA1AAAAXgAAABQAAAAfEhAANQAAAGAAAAApAAAAHxIQADUAAABgAAAAGAAAAB8SEAA1AAAAYgAAACYAAAAfEhAANQAAAGMAAAAmAAAAHxIQADUAAABkAAAAJgAAAB8SEAA1AAAAZQAAACYAAAAfEhAANQAAAGgAAAAVAAAAHxIQADUAAABpAAAAFQAAAB8SEAA1AAAAagAAABUAAAAfEhAANQAAAGsAAAAVAAAASW52YWxpZCAuc3BsYXQgZmlsZSBzaXplYXR0ZW1wdGVkIHRvIHRha2Ugb3duZXJzaGlwIG9mIFJ1c3QgdmFsdWUgd2hpbGUgaXQgd2FzIGJvcnJvd2VkTWFwQWNjZXNzOjpuZXh0X3ZhbHVlIGNhbGxlZCBiZWZvcmUgbmV4dF9rZXkAxSYQAF8AAABmCgAAHwAAAN0SEAAkAAAA7gEAADgAAADdEhAAJAAAAO4BAABZAAAA3RIQACQAAAD3AQAARwAAAN0SEAAkAAAA9wEAADkAAADdEhAAJAAAAGQCAAAuAAAA3RIQACQAAABkAgAAHwAAAN0SEAAkAAAAZQIAAB8AAADdEhAAJAAAAFkCAAAqAAAA3RIQACQAAACEAgAANgAAAN0SEAAkAAAAhAIAACMAAADdEhAAJAAAAHgCAAAqAAAA3RIQACQAAACkAgAANgAAAN0SEAAkAAAApAIAACMAAADdEhAAJAAAAJgCAAAqAAAA3RIQACQAAADUAgAAJQAAAN0SEAAkAAAA2AIAADwAAADdEhAAJAAAANgCAAAdAAAA3RIQACQAAADSAgAAMgAAAN0SEAAkAAAAwwIAACEAAADdEhAAJAAAAMcCAAA4AAAA3RIQACQAAADHAgAAGQAAAN0SEAAkAAAAwQIAAC4AAADdEhAAJAAAALQCAAAdAAAA3RIQACQAAAC3AgAALAAAAN0SEAAkAAAAtwIAABEAAADdEhAAJAAAALgCAAAwAAAA3RIQACQAAACyAgAAKgAAAN0SEAAkAAAA5wIAACAAAADdEhAAJAAAAOcCAAATAAAA3RIQACQAAADxAgAAIAAAAN0SEAAkAAAA8QIAABMAAADdEhAAJAAAAH8BAAA2AAAA3RIQACQAAACAAQAANgAAAN0SEAAkAAAAjQEAADMAAADdEhAAJAAAAI4BAAAzAAAA3RIQACQAAACKAQAARAAAAN0SEAAkAAAAhQEAACkAAABNaXNzaW5nIGNoaWxkX2NvdW50cyBvciBjaGlsZF9zdGFydHPdEhAAJAAAAAACAAA1AAAA3RIQACQAAAAAAgAAVgAAAN0SEAAkAAAAMAIAACoAAADdEhAAJAAAABsCAAA2AAAA3RIQACQAAAAbAgAAVwAAAN0SEAAkAAAAxgEAABUAAADdEhAAJAAAAMQBAAAlAAAA3RIQACQAAADFAQAAKAAAAN0SEAAkAAAAyQEAACgAAADdEhAAJAAAAMcBAAAoAAAA3RIQACQAAADIAQAAKAAAAN0SEAAkAAAAEgIAADcAAADdEhAAJAAAABICAABYAEGYh8EACwUBAAAAfABBqIfBAAsFAQAAAH0AQbiHwQALBQEAAAB+AEHIh8EACwUBAAAAfwBB2IfBAAsFAQAAAIAAQeiHwQALBQEAAACBAEH4h8EACwUBAAAAggBBiIjBAAsFAQAAAIMAQZiIwQALBQEAAACEAEGoiMEACwUBAAAAhQBBuIjBAAsFAQAAAIYAQciIwQALBQEAAACHAEHYiMEACwUBAAAAiABB6IjBAAsFAQAAAIkAQfiIwQALBQEAAACKAEGIicEACwUBAAAAiwBBmInBAAsFAQAAAIwAQaiJwQALBQEAAACMAEG4icEACwUBAAAAjABByInBAAsFAQAAAIwAQdiJwQ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self.location.href);\n }\n const imports = __wbg_get_imports();\n if (typeof module_or_path === "string" || typeof Request === "function" && module_or_path instanceof Request || typeof URL === "function" && module_or_path instanceof URL) {\n module_or_path = fetch(module_or_path);\n }\n const { instance } = await __wbg_load(await module_or_path, imports);\n return __wbg_finalize_init(instance);\n }\n const rpcHandlers = {\n sortSplats16,\n sortSplats32,\n loadPackedSplats,\n loadExtSplats,\n tinyLodPackedSplats,\n qualityLodPackedSplats,\n tinyLodExtSplats,\n qualityLodExtSplats,\n newLodTree,\n newSharedLodTree,\n initLodTree,\n disposeLodTree,\n updateLodTrees,\n traverseLodTrees,\n getLodTreeLevel,\n nextChunk\n };\n async function onMessage(event) {\n const {\n id,\n name,\n args\n } = event.data;\n try {\n const handler = rpcHandlers[name];\n if (!handler) {\n throw new Error(`Unknown worker RPC: ${name}`);\n }\n const sendStatus = (data) => {\n self.postMessage(\n { id, status: data },\n { transfer: getTransferable(data) }\n );\n };\n const result = await handler(args, { sendStatus });\n self.postMessage({ id, result }, { transfer: getTransferable(result) });\n } catch (error) {\n console.warn(`Worker error: ${error}`);\n self.postMessage({ id, error }, { transfer: getTransferable(error) });\n }\n }\n function sortSplats16({\n numSplats,\n readback,\n ordering\n }) {\n const activeSplats = sort_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n }\n function sortSplats32({\n numSplats,\n readback,\n ordering\n }) {\n const activeSplats = sort32_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n }\n async function decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n }) {\n if (fileBytes) {\n const CHUNK_SIZE = 1048576;\n for (let i = 0; i < fileBytes.length; i += CHUNK_SIZE) {\n decoder.push(\n fileBytes.subarray(i, Math.min(i + CHUNK_SIZE, fileBytes.length))\n );\n }\n } else if (url) {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : void 0,\n credentials: withCredentials ? "include" : "same-origin"\n });\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch "${url}": ${response.status} ${response.statusText}`\n );\n }\n const readStream = response.body.getReader();\n const contentLength = Number.parseInt(\n response.headers.get("Content-Length") || "0"\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n let loaded = 0;\n while (true) {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n break;\n }\n loaded += value.length;\n sendStatus({ loaded, total });\n decoder.push(value);\n }\n } else if (chunked) {\n let loaded = 0;\n const total = chunkedLength ?? 0;\n while (true) {\n const readNextChunk = new Promise((resolve) => {\n nextChunkWaiter = resolve;\n });\n sendStatus({ nextChunk: true });\n const nextChunk2 = await readNextChunk;\n if (nextChunk2.length === 0) {\n break;\n }\n decoder.push(nextChunk2);\n loaded += nextChunk2.length;\n sendStatus({ progress: { loaded, total } });\n }\n if (total === 0) {\n sendStatus({ progress: { loaded, total: loaded } });\n }\n } else {\n throw new Error("No url or fileBytes provided");\n }\n const decoded = decoder.finish();\n return decoded;\n }\n function toPackedResult(packed) {\n return {\n numSplats: packed.numSplats,\n packedArray: packed.packed,\n extra: {\n sh1: packed.sh1,\n sh2: packed.sh2,\n sh3: packed.sh3,\n sh1Codes: packed.sh1Codes,\n sh2Codes: packed.sh2Codes,\n sh3Codes: packed.sh3Codes,\n lodTree: packed.lodTree\n },\n splatEncoding: packed.splatEncoding\n };\n }\n async function loadPackedSplats({\n url,\n requestHeader,\n withCredentials,\n fileBytes,\n fileType,\n pathName,\n chunked,\n chunkedLength,\n encoding,\n lod,\n lodBase,\n lodAbove,\n nonLod,\n sh1Codes,\n sh2Codes,\n sh3Codes\n }, {\n sendStatus\n }) {\n if (!lod) {\n const decoder2 = decode_to_packedsplats(\n fileType,\n pathName ?? url,\n encoding,\n sh1Codes,\n sh2Codes,\n sh3Codes\n );\n const decoded2 = await decodeBytesUrl({\n decoder: decoder2,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n const result2 = toPackedResult(decoded2);\n if (result2.splatEncoding.lodOpacity) {\n return { lodSplats: result2 };\n }\n return result2;\n }\n const decoder = decode_to_csplatarray(fileType, pathName ?? url, encoding);\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n if (decoded.has_lod()) {\n const result2 = toPackedResult(\n decoded.to_packedsplats_lod()\n );\n return { lodSplats: result2 };\n }\n if (lodAbove !== void 0) {\n if (decoded.len() < lodAbove) {\n return toPackedResult(decoded.to_packedsplats());\n }\n }\n let result = {};\n if (nonLod) {\n result = toPackedResult(decoded.to_packedsplats());\n }\n const initialSplats = decoded.len();\n const lodName = lod === "quality" ? "Bhatt" : "Tiny";\n console.log(\n `Loaded ${initialSplats} splats. Starting ${lodName} LoD build...`\n );\n const lodStart = performance.now();\n if (lod === "quality") {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.25));\n decoded.bhatt_lod(base);\n } else {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n decoded.tiny_lod(base, false);\n }\n const lodDuration = performance.now() - lodStart;\n console.log(\n `${lodName} LoD: ${initialSplats} -> ${decoded.len()} (${lodDuration} ms)`\n );\n const lodPacked = decoded.to_packedsplats_lod();\n result.lodSplats = toPackedResult(lodPacked);\n return result;\n }\n function toExtResult(packed) {\n return {\n numSplats: packed.numSplats,\n extArrays: [packed.ext0, packed.ext1],\n extra: {\n sh1: packed.sh1,\n sh2: packed.sh2,\n sh3a: packed.sh3a,\n sh3b: packed.sh3b,\n sh1Codes: packed.sh1Codes,\n sh2Codes: packed.sh2Codes,\n sh3Codes: packed.sh3Codes,\n lodTree: packed.lodTree\n }\n };\n }\n async function loadExtSplats({\n url,\n requestHeader,\n withCredentials,\n fileBytes,\n fileType,\n pathName,\n chunked,\n chunkedLength,\n lod,\n lodBase,\n lodAbove,\n nonLod,\n sh1Codes,\n sh2Codes,\n sh3Codes\n }, {\n sendStatus\n }) {\n if (!lod) {\n const decoder2 = decode_to_extsplats(\n fileType,\n pathName ?? url,\n sh1Codes,\n sh2Codes,\n sh3Codes\n );\n const decoded2 = await decodeBytesUrl({\n decoder: decoder2,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n const result2 = toExtResult(decoded2);\n if (result2.extra.lodTree) {\n return { lodSplats: result2 };\n }\n return result2;\n }\n const decoder = decode_to_gsplatarray(fileType, pathName ?? url);\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n if (decoded.has_lod()) {\n return {\n lodSplats: toExtResult(decoded.to_extsplats_lod())\n };\n }\n if (lodAbove !== void 0) {\n if (decoded.len() < lodAbove) {\n return toExtResult(decoded.to_extsplats());\n }\n }\n let result = {};\n if (nonLod) {\n result = toExtResult(decoded.to_extsplats());\n }\n const initialSplats = decoded.len();\n const lodName = lod === "quality" ? "Bhatt" : "Tiny";\n console.log(\n `Loaded ${initialSplats} splats. Starting ${lodName} LoD build...`\n );\n const lodStart = performance.now();\n if (lod === "quality") {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.75));\n decoded.bhatt_lod(base);\n } else {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n decoded.tiny_lod(base, false);\n }\n const lodDuration = performance.now() - lodStart;\n console.log(\n `${lodName} LoD: ${initialSplats} -> ${decoded.len()} (${lodDuration} ms)`\n );\n const lodPacked = decoded.to_extsplats_lod();\n result.lodSplats = toExtResult(lodPacked);\n return result;\n }\n async function tinyLodPackedSplats({\n numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n const lodStart = performance.now();\n const filter = false;\n const decoded = tiny_lod_packedsplats(\n numSplats,\n packedArray,\n extra,\n base,\n filter,\n rgba,\n encoding\n );\n const lodDuration = performance.now() - lodStart;\n const result = toPackedResult(decoded);\n console.log(\n `Tiny LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n async function qualityLodPackedSplats({\n numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.75));\n const lodStart = performance.now();\n const decoded = bhatt_lod_packedsplats(\n numSplats,\n packedArray,\n extra,\n base,\n rgba,\n encoding\n );\n const lodDuration = performance.now() - lodStart;\n const result = toPackedResult(decoded);\n console.log(\n `Bhatt LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n async function tinyLodExtSplats({\n numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n const lodStart = performance.now();\n const filter = false;\n const decoded = tiny_lod_extsplats(\n numSplats,\n extArrays[0],\n extArrays[1],\n extra,\n base,\n filter,\n rgba\n );\n const lodDuration = performance.now() - lodStart;\n const result = toExtResult(decoded);\n console.log(\n `Tiny LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n async function qualityLodExtSplats({\n numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.75));\n const lodStart = performance.now();\n const decoded = bhatt_lod_extsplats(\n numSplats,\n extArrays[0],\n extArrays[1],\n extra,\n base,\n rgba\n );\n const lodDuration = performance.now() - lodStart;\n const result = toExtResult(decoded);\n console.log(\n `Bhatt LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n function newLodTree({\n capacity\n }) {\n const { lodId } = new_lod_tree(capacity);\n return { lodId };\n }\n function newSharedLodTree({\n lodId\n }) {\n const { lodId: newLodId } = new_shared_lod_tree(lodId);\n return { lodId: newLodId };\n }\n function initLodTree({\n numSplats,\n lodTree\n }) {\n const { lodId, chunkToPage } = init_lod_tree(numSplats, lodTree);\n return { lodId, chunkToPage };\n }\n function disposeLodTree({ lodId }) {\n dispose_lod_tree(lodId);\n }\n function updateLodTrees({\n ranges\n }) {\n const lodIds = new Uint32Array(ranges.map(({ lodId }) => lodId));\n const pageBases = new Uint32Array(ranges.map(({ pageBase }) => pageBase));\n const chunkBases = new Uint32Array(ranges.map(({ chunkBase }) => chunkBase));\n const counts = new Uint32Array(ranges.map(({ count }) => count));\n const lodTreeData = ranges.map(({ lodTreeData: lodTreeData2 }) => lodTreeData2);\n update_lod_trees(\n lodIds,\n pageBases,\n chunkBases,\n counts,\n lodTreeData\n );\n }\n function traverseLodTrees({\n maxSplats,\n pixelScaleLimit,\n lastPixelLimit,\n instances\n }) {\n const keyInstances = Object.entries(instances);\n const lodIds = new Uint32Array(\n keyInstances.map(([_key, instance]) => instance.lodId)\n );\n const rootPages = new Uint32Array(\n keyInstances.map(([_key, instance]) => instance.rootPage ?? 4294967295)\n );\n const viewToObjects = new Float32Array(\n keyInstances.flatMap(([_key, instance]) => {\n if (instance.viewToObjectCols.length !== 16) {\n throw new Error("Incorrect array size for viewToObjectCols");\n }\n return instance.viewToObjectCols;\n })\n );\n const lodScales = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.lodScale)\n );\n const behindFoveates = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.behindFoveate)\n );\n const coneFov0s = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.coneFov0)\n );\n const coneFovs = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.coneFov)\n );\n const coneFoveates = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.coneFoveate)\n );\n const result = traverse_lod_trees(\n maxSplats,\n pixelScaleLimit,\n lastPixelLimit,\n lodIds,\n rootPages,\n viewToObjects,\n lodScales,\n behindFoveates,\n coneFoveates,\n coneFov0s,\n coneFovs\n );\n const { instanceIndices, chunks, pixelLimit } = result;\n const indices = keyInstances.reduce(\n (indices2, [key, _instance], index) => {\n indices2[key] = instanceIndices[index];\n return indices2;\n },\n {}\n );\n return {\n keyIndices: indices,\n chunks,\n pixelLimit\n };\n }\n function getLodTreeLevel({\n lodId,\n level\n }) {\n return get_lod_tree_level(lodId, level);\n }\n let nextChunkWaiter = (_chunk) => {\n };\n async function nextChunk({ chunk }) {\n nextChunkWaiter(chunk);\n }\n function getTransferable(ctx) {\n const buffers = [];\n const seen = /* @__PURE__ */ new Set();\n function traverse(obj) {\n if (obj && typeof obj === "object" && !seen.has(obj)) {\n seen.add(obj);\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n buffers.push(obj.buffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n traverse(ctx);\n return buffers;\n }\n async function initialize() {\n const pending = [];\n const bufferMessage = (event) => {\n pending.push(event);\n };\n self.addEventListener("message", bufferMessage);\n await __wbg_init();\n self.removeEventListener("message", bufferMessage);\n self.addEventListener("message", onMessage);\n for (const event of pending) {\n onMessage(event);\n }\n pending.length = 0;\n }\n initialize().catch(console.error);\n})();\n//# sourceMappingURL=worker-kPeRSrjE.js.map\n'; const blob = typeof self !== "undefined" && self.Blob && new Blob([jsContent], { type: "text/javascript;charset=utf-8" }); function WorkerWrapper(options) { let objURL; @@ -8011,7 +8011,7 @@ async function __wbg_init(module_or_path) { } } if (module_or_path === void 0) { - module_or_path = new URL("data:application/wasm;base64,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pWIRJplQHa1negBDnrT0LJq6kWw/qBkMyVyEUH5uOSuxZUHLo8UdqfXZ2LxG/OOzWOtBHoi+XQB7WErrULworCsSEW4+4exUniJRqjjnItMx6qG01VMxturVfwJZln/N9SShGhKgCiyZhtbG9/gfuX55wVSTWACvz+iEdL32H6fSEEG04hkIZdn7UMjyt9vO6U4hChKTToNAfjz3J2nGsqOhsVCjRBIgLJ24MPlIMGtQhiGobAaFWhXWmyiTwSJHFFfRCn8MKqCbUDH6zLFm3NlpwU0axzFUyixCaXflzIgLzDGQNMaI1v5Tp4Hs85fdBVGhADX8Jwy55JFuZCiJxE6yAUxPbyTH4G3JufU6rDFSYpGXa0L+AdCNOCh+iUNJtvcx/J0B2sEuXDsVQR3QDBJagT/EQlV1feNN6pVRRBMS+SGDuW7iztFcJVFGtZkf26th7lHRU8tE2Ztezi13reNDITXmUaSyGh/+Kn240ZFsL+F7b+4J1pib/bkVLxn5ty/h0xn6wC4rVXKZvT9kOhB78S/sZXg1qjrfOBiPSUicluF724LSQxDJlwoqox+ut7Sh12k5y2nqdfhqUKX3xzjU4SVLhDZIaR9+dOzXZb0DDiFmmmVP3ndfWhooBUcgS9mhwB6FT+sGk5pWXQdMcituARAiLqPR3Ehw5/BFJ5q+NYFoKqZI0ktSnSnoWmV5Yc7xuR6l7YNhFaQ4MTyPbdcXURNqV2joSVMBRkGHp0Vc7SFYNOFLLlujwZfZ6Y0eqBRxsSsUyPz/TFLw5j/8IysQwRVt0fcwNyt7vRO79zf91PFazU50+ETqUqxgqvUN/Uoxrr5PCxElGn2rtmbZILZaYQJh5tXlclUdFqwAh3Tv7PFLBlCDatbqWFhfDKFOL9AxqOP8VBLGWHc1PW/kytfkIQcY82Unc+aVDoiz6gWB5TFE4zxCYVjoNk4i5OyO7lZxkiQHVwmnGk/Zq6YXpq38EfFUhJhgDHht6gFH2MoivZExqa26fAeCgWyVmcL4t2zxihgNLR8JayWztwg/stVAMfZJAjg1aeTxklJjK9nBRiE3507CPshaNfrq9+7MOZOhidkecsZ2eM95lbnuc0QEkeArsQfKDAtzpA+cIQIcjtEsPpFJvIsGVJkLfzVCk6qRczJNrB+hy/W3SlMKqziJMdoFYouRxyV7loZ15KcDV8EkhscuejTq3nQgH2XMxCGxdaB0/hTKKYoZOBM3R/E+IcmGTRDHBl/0T8MKCoL0wNEr69BRDMPj9WOz3IkjufkBYuLQcUfw7PK4pMencKxzQcPXyEbA9pYVvWb6yKZvygEUybpUdTwznyy4tXLYA7CRYfAo8ZKDTI7r5urThgiosbU2H5D5kgPVU3ZWwjfDY3Eai591O/aIwqhX5HLBsEhRUSqPUo74IvdSZeWfchReYaC4mZedWxPQnY2pc6NevPEE7r/9dKHo0LjtE9iQLmAxUi5v+N3WVwjvFFjSuD30Qa1e+/eKo/Bvm2Szj7sQtrEMrr7xaVz0e3pF4Gep7OhRS95qtcesMZ5U32hxhGQqcZNnDreSwaMK/w+VTPa4kIEENMZpi3IPzabDgqw8arChRU339+5Si7EYjG9HO4Vg0ZKtcf3h7zKRYq+PGQZqxQH3rm00rzN9pNGjuXGsBrkhMZ4Igd8MVQ4eAJPSGwBncYHxjrJGz3pBlZTIwpXMiUHhPvEpejGgewt6/3mTn9HBPYqtd8TOEInKWbdQCIPOQXjpUNnJ8ZCwOPApMAqkvdHXl9iMED8OZhmeFbQEpPqhLXnOqxBKxguv/ZctAc41QXDURl3gXX+Kh/kI8E5BsqHYhK/6pjhpvJT7rZgm5ROhIqHb+V/GcCvOMokCPK5cgWdOQuu/sBA6scM3SsPB97HMlO/VQ94eHq8Z/I64XzzBF7ojyqjFmaZe7HumZnMEAWGsvL1O/vAP/peWlAgTzQG/Be/+T1lWA/MuxByNAlYhGsNj9ec7s4zz5nUvpEr7oVVwTPNVDqBoMOAec4FlspG7ZioSFyUuQRqWCQ4+3Y+RBkuwmqDmddVtN4dFwpTzgVPSqMVNLA9CsIl5Gz82KGGmaa13SD+HgbZf46UNj9kxAAgQ1SpDZXYv69SWRO/bgUQOGQZk0E7fp9LVz9oTznGciMGmCwItS8bpxZPuWFMBD6LyF4XCsJbIoD8I1epzwU+HspljN2CwdtBGwxNtFLGfbas3vAU85IiAXHvYPFnh/aaFBNWPSALXVjnFZyO8MTEIOkYG4x4XhSfEPsTgq0GAEAQb/qwAALtjggmpmZmZmZmZmZmZmZmZmZGRWuR+F6FK5H4XoUrkfhehTeJAaBlUOLbOf7qfHSTWIQltQJaCJseHqlLEMc6+I2GqtDboYb8PlhhPBo44i1+BQiNlg4SfPHtDaN7bWg98YQaiONwA5SpodXSK+8mvLXGohP12alQbif3zmMMOKOeRUHphIfUQEt5rKU1iboCy4RpAlRy4Forta3ur3X2d98G+o6p6I07fHeX5VkeeF//RW7yIXo9vAnfxkR6i2BmZcR+A3WQL60DGXCgXZJaMIlHJNx3jOYkHDqAZsroYabhBZDwX4p4KbzIZsVVueerwMSNzUxD83XhWkrvInYl7LSHPmQWj/X3zchiZbURkb1Dhf6c0jMReZf56CrQ9LRXXISXYYNejw9ZqU0rNK2T8mDHbGe15Rjlx5RXSNCkgyhnBfBS3ndgt9+2n1Pmw4KtOMSaKxbYtGYZCqW5V4XECA5HlPw4oGn4LbuRFGyEkCzLRipJk/OUk2SWGqnjqiZwlcTQaR+sLd7UCeq2H3a9dDyHjRQZcBfyaZSuxPLrsRAwhiQpuqZTNTrDskPPPI2ms4TgAoRw61TebFBGWBQvvawH2cIdAKL3C3BZ0ezpv5eWhlSoCk1b7AkNIafwuv+S0gU2xnukPJZHZCef2iJZdY5EF8psLQdw/tMlzKnqNUj9hmyulldsTWWPaxbH7p36cQUKGLhfSdeq5dWSUz7koedEA2daMnYyavy8A56+LellRo+F7o6eqG8W1pyLi2ThEQVy0X7Lsgayq+ujouKQp0DEUUJkrGm99yySuR4qp37OBsEoUHB65J99W6DLVWxL8cVA7RnZ4l1ZMRYnFd3JyZsEdLspdjbiG1t9MYl8gs94BvbI+tGFge+isM4Hiij/UwWSbZV0hFs/m6cYEtTTzHXEQ6K77ZPE5exYGdFhRiCixylob/4cg+sJxq5ajetAdYWHk6ZYMJyVrnhYFUsJM5EEpUWws0DHlf1Nc67E23jOh2rqwELAxisKivYL3aKT2IXVok0bwLgvLtVE/PEbgy1Eomo7bHQzMeS7x641Ep67h0HuleOQArT2/JLkxBv+/EXBsjfcQDVqHz1bw/aWPwnE9YMZukzu6f6u0yyKY5gph4R14SHKfxSlcmjjlQLGoUYDqzQ0rrJqKoHg9h2b66dE+OsGh5e3NrdpdHAV7KwYh9PikhLS7BIflFBmqyOwBsZ2aHT1dVZbcvazeFWpTMWFHuB3HcRe1c84tfnq+rCERAqz2BZgl7yxjYmpqyqBLYZu6WAR2gY9WvFUetWVZ2RFJaEAAbteSoj0aci3919dBBWBzSj4Y/d0YEM0TGW/FMaRWz26Bpz5Kc0Paf0RP0PFZ5W+FPiKB1TXZdSXWqX2RBiV425A9th6y7yUJUQv/Ua6EWkx89ITrxYW9rdpmWRFSBrg2zZ03FjreLhFx8eQRHNEZ+tKIYcn0gEA/NkY5sbC9sYvlNrsOUGnTWPHekVFqIVR8sPifPqa0qRcuQgqxE3vHF4TNu4REaqG4RtAUUcX2PBxtYVxwMFVUkDvpqdFhnpzWtF3jg2N3cHaf6uFxLBQRZGomPBVlhYcg6XsfIczmer0YEcAd95E/VxEo4oF6XsVUHOFjR/YdyQwQ7YhhJuR1Y1fSQgZQLH52jkjKQdJTl49zAdgOoBbLkgHde2F4T6LPnzsJm7NCNhTRes+BI590coU05cX1Q4aBXyrFoeLizTuXULfX9DYFNEW4pIGFgj3Mf31TCZzxmpNnw7bRMm0vlyjIm0jrKPDvH5KxUfuEEuj6MHKnIopgv0x7zdGPqavqVPObvBhh7WXAaX5BP29zAJGcJenNcw8PrWJNQf+F9aBxRo5Ul5jSYv34N2GWDm4QUQIFFuxwpSv+XPXhQahYHRDIDa8QVvDpmE2UsQ9dRoghQAxE/W5OP0oPUSGit37QGqmWnZEbcc97P32xS8xYoBiBTurXSSsMVc+a8QLAneaKbtfElU6oBvlCizGiTU5FO4V8o6EFWav3YgXBWDdh1DYHk7YnOqrv9egBYRnr3I0Wb1K524ELEyyzNXG39kbUFSxLx9YA30jqJc3xXMtopn22n9yuY9w9hOfX8R34p3csUPL6vXLwWO5C7/G4DVklsEc/KIrIxqPh2/ZRZmREJJ0Cj101Y9VZhK/+oRo6ADQk1BiLlXlbvzEDKrHOnmAmjXzTlheXf8wkBb7xZUUgIgeXFh5y35yWjNFVkShlCdmY61aKV8W3Z0FVZbHdKmSuE+kSBR/RXF9t1EfBcOH6Ia/0BNp8pEN5Kx0MkSSstp92TOrgsRblhQT7QPHjs87sVQ2Is8p/F5cz+QDBjJyfE32nkJyoX0x8IyQD0T20Lpv/bCqKlvugyet2bIHuObuswrz1MhJpVwfixSoBiCSZVwiXKpGrjdJmXwdLMTnXWIGg+EdfeMLz4I54eFHxdeoHtyNpFfCiaYBuyfNxnf5BmWW/hAGdWERgXwfywUTOpHq6/GAOEQNwXRjJkjEEfdP0VMpGfO5yTVtEeP0hkGscyd1ulS2B+33cOfcqgUOCcKS0Xu23kZLH5pGcKGEFnYqRGi418pj0YwD482cRp6E7ungRyzuqVr89jYXicVL6mV7JrjKGJRiY+t4EvsEBd17+D3OA6d6A5Mr5qsExt5Klkaky3YsFNy1iXiVqkVLlVHSA++eY3cwd63gUVUEXy7C9p+lo8VlJyXjM8IuhuXL9YU/xGmd3aw39ZybS4WeYzeQ/+nUfmR87J49b2+EY6t/dL+PxzCHOy3WiJjZBzYimRCMjOwARfwXxW1tbYWRqKDm47CWQGsWebdkMQrEqMDOV8XBPbOrMKj/BrUEh2DnC1MrGlecr2bHMpIQ0IXnOOK1olUGPX94hYIB2mbEsYFq70PVI3uL2vxDNh0xR0FayL+cnbXvowiwXBGKtEXBLxOyyjFEv/WTmeNa7sNE6D5fXh0O1HLJH7YexJffB5NYf75KckNCbcxrfxBf2MYCoHLlCHU16DFJyTKNMyCE3fOeFTPub9nbwxtQyGtNx/5cS3dpZTMH1lwis9NV/kYx/S9fVHd1n9686E/Pqz6EwvuL8noLr7/w7icMv159x/WJPOgIL8xZjb6FsL9x5IZeB1cGhrMJ7he+6sBy2x1FGDkfHuuCVOTGMm8Z6LwXRCZoJTFsELrHvR0lD9q5y8a4eZ2BCcCieVcKt0yiB/zFOfrK52FzqC3sO6wKKB/whDY399hb0oBWbRKTnQzzNAarUzm5yXVzeApoj6Qj9ZzFfHWUYZRd3FN7rTL2XJ4KRHoV+nW6L7oe7BUrI+EjXUbIBMh31MyuvxZ3YkMaqT3FYBC5xhDKMhjrkpucO7pkhFmatgnOA0NBhcRShoXQx4c6yGt7CykPWsSdG57Epx+FlZOV73wHP6I21xY/EHj/hEjSiVitJSWQV9hjWA2Bcsc6dQd6Cmqq2d/5z1N+NAIF4fdFyC7IVa5Mrlk1/lzbRKllYxmK2kjwurBOvLC7HsdHd7WHom6gs67NGJbAleWFxgY30sHYjWl/Pa04gGs3hJZ82R52JyIO5Txhzc2EzEe4fWDx0ZKbfzcWgbGkUInGBorAwafblcwF6+e0aebUhOQ3tE8y30lGiUYMRymkuoeQOWnMDz+HUi3eVrjhKi7GABRhsDJMUvTxceugp1TyRPNtKPNQukRUgmmF9HIhagfpJAcPgIh23QHuN9AOp5TGVANSssBtBX3BWAZZ/vkQhSnCggJmyne+DezelL8gzUQ190MqJFCMI5ZuCq3kznvGRNLCiAOAo0+4fnu+EJhvxQPPAiAPps9ZefHWPqbGpkQ5CwNAGT4yG6lDI6Q+ZCOGuojpJnp+dOLt6NxQGHaPhW7HFDhupSpPPmC9JkaFf8QK2Gzm8S6dceO0SDDXbsxG4kaKRZqlcTSCw7naLFiwRWhe7oRiHfQ228+H4cngmcRm5JdHEC/gCzmY5g+P9DYG0l15EkzzDO9UbZGZf8MRxbUXVBuj9aPyqdeBVHMcNIRU8mz40tXGUTZ/W5OreeDHKk69oIJeUcD4ZclpYrszxa6+8Ro1GBsz4B5hOpu8D8SKvkHDoc0euWa9dMQSxozHSKUOQtskC5R4ipD2ggVXBe1qcfVvKaL2oFVz+HTELAShw/ZIi5x35CcVeUCU4HmHWwMFE+LWkzaFt4dz6ia6xeKo6mlonujrnh+saUg4iITqQWpompf0n0nl7WimjaeHlTRIIKIf9uXH6z3ThWSfhh3p4DOBmZ8eUwjxtjddJgT8QsB5ApwLY+ta6MnllRaH1rWAFCiWSQMvu+1H3gQFRkVRZrZgRQdcP7y97L52RAUd2p7FJtDF8D+W8YoLnsNEPJDku3EBfLMyiwKDn0rrxnCnA6+0DdbCm+9oXHKIowUzuM+y3P5SAiMl7Qn1RtwELCfZHjsWw7arCVUDFX5TBrAf1Bg8K8+e723qdYQYQoVM2ZAgPO/y5WXLO7ecxrVEFJwzWZSZqzvWEewZLmQ7hrbWaS4DoUjJkds87b6posVSa62k9jQgh5sIylflYU8EXWwih/0Gp79rDio/u4IlBv3WdWyKa+xl72ThpglBxAWLHt39boljqyX3J4THmymERPFWCIrCX16vy3+uMl5PRx2aq1O76D9YcxXy2ChlJcWxe69C1ka/ucJEwnnTd0SEjqx/EVbXWOm3IQO2K/76hzIjTBrr0ochbDQPhPzYiIX1NcmvPJu49Am2st1wuiBEoaMpMbqF5+01ylGiZ2nnB1rcFAF798YKkbuBKEXhrAXifPZnSWz4FRri51NeZ7zEnRS9mJv682HeEUvfCiXUh5dqF6CvyIL08Zqv8mGEkIY5LlLaMwbPA+fiP860g5oE20peUB6LGAYmNqYkYPkDB8kIZQzyFazRhPiEw42HdcYtk1DKaB4jzjctNykkUrfE4qva6hmJ39aYCFhoYKqyx+iv++564UyFU20TbSbu28ZTpmMYYnRjqo9kKT24mJZFAzh1hqhp9juytm2K0+CRxBFmyRem3InfhH2it+xAwwaBEkdGEn1hf4N+DsZW2nWFNCgShPUXZ7LpPkvFHyHqxBNARFSU8lj3zpc5rn5C6wacWfadA+hHBkvsB77+m9WFcFSSCrZgLCtJcBLLy/zERE0UQ2qjjTnFQnNErJ+608bxA1x7j5dH6ttCg8oMonZFZ2kjYtlFxm8VwgMICjUehGUOnwSPPL0LFkN4MzZufcbQ5WW2/z0w/DgPbNw4cdfFgMREhaXXTZaGsv1JoE55hEE6BzwJPxWkJDeIgs1j6Mc0OzjjB0w39mmS4KiXT/pFtojgz2xWX/h66LOTrEyVBJcOTgvtcLLaHnRfeROhFMd4y1gv1011lOUp2RQcgN2FxyL5mWxKnipduy2po7PxBL6RNdvtaomD/ETi9d9sgceYmrfvyoiUj8nQ2+sZCgGGE6If5mITttlH5zyiVAgOBNKDcwodErFb2WT6g+0M8AeO6QJh/ahalmEDyJz9sKZGJa2B2z45+6tNtm09ZE1rhNWVwzg8z9+SST1uiKDIn0fRazWTPb/ZNTpkJXoaOgwGdGJeD34/4ND7nNE7VMgJxR0oZOXxsycz/GPA/EPTR8QUgK5JaRHYX8cswXof67LGQ81x7fp0k3MFlzR7P/xohTZkNJfIQ8LPRKw2iMzW4IQwedQmWhLq2FQsyoGhStqGme5QBS6oiJOQFxVa2q8IRVTlADdlOhOC81JRLzuyecQUe0AyIfaFxJIqdPGSnYMG9q9AKBsSEbbbIfca9WRoxWvZM1MvQYFSYqf4+/dp08RsTriesgKCKhD/zjmL6ayG/Qu6Ps5ojlTaf+THvOEKBZd8uwv+7THdYf/D7L1A7oRLupH5pEh2SI//3+2ItNcHPJUBoVBgXq1Zf//keiosBb1Qzg3AQFixLcyM9uG7SYS7p/z8QFoNjpZhOuRpBULHYsZ9iebuV774Gm8dFARPBfWel6G4vp+L+eHY11AdJYSVpH91tD3l+Vx2ThizYa9HavayngNk3mEwXot6D3SyhdWFW8tcUJh0JrIioYxqAgTIiIYr05qaE2R2qo9T0B0Hui0efI+iFOk2q6IZD8AXRiHXWEo/2zc6a5YbVDMmX0TpJVoDWWuYKnkjUgaelwvH4NE7T23vrO6g3GgrmGw8hg2nYoxLDL2LjbB5r7nWfUT8GF3ghMdveSJm9eXP/buH1pOLDWpfcqDoa/f3zL4ixkVpVb3IP6hnOfyskzC+W8Uqh0S+bMxG0q5KI9wm5RZEN2VtsHstV5D9Q3lgMXtKBpK3l4BV17lNcSkHWcEi+0U1bEYAax+t8RpHX5S0Ai+ECK2Wpt5lyWhDy8wt7OnyRqBXhVJYay3TdlY8/jCH24Vm0tEB4Ejxtet4PWTNeYkESus0z6bBT1ZSTRWhiI9bhu8idzLFZ794G3DEQWCyvEVY6HjbxEY/rMkaUE3mzuOEdGb0n+1WWOGB3U1JcXFFhwO4w4zkRTp0dKQ91A3nngWCxw/j9p2unR1DcZALBj6EXjGMeWQJPftu0ijZ+BZwxwtBVu3QB0si8nTtR9NrgIXJAR8X819Vm/UDyvmcItoEgZtxphIyfB+7bIRPU4SdB2fvZ7gBqHAmFfCp/2kDpAX5spLTdKAAEd5m+zKUKXZEqJEeUgdzgDYjsWtRIEIKR6C0C1tF9gzEz/RV52a0yAYzqYkJHlG9qhlp6xKFXZNE32kOqCOPb10b6V6d4hW4h5kUJXmPjFkXYy3+8UGErUYt6aq68uNtkpwLJbRaw7EE1ekqhITFiQRGkfw6BIXoB/f6e4O3ESD2hRs81NC30wZgCG/2HydAuJDIylDaH89FDOBMnr9fWhONhxUz7kyMRC4zlCQlclASr3GuUspUegZxgunpnfUMwgx0sdvh9q5FGsJ7B7GdimgjQ7Tv9KulBDf26xko1dCAEkXuP8dfocaGeMj6rXfAc2gEmCZsTE5Fa61HIiRTM5wTXXmrSeO+hDiVZSmta3jGq+7cEkMfSob6HdDhcRX6XvyYo0HPZe7FYf5NQRqeYfJjrUKBmTfYhFxwrwGEI+ldeSId9ZsZdEbJzXKa6alt/fp05Kr8B1BFh/EobweHsZf7g8PVo2xzRFl0wJhZGOj/xazsYlIT3wcUdybTVAc6TLfKI7UBtnJFg59SXFz4yCPsiDYdgUUOxJ8Lg+ChQWbfurNWfE7Uysdyr6lAZ43r8vu10f0L9xVF6GYhDRL+VgJv6xsw4wWqxIwLjBmMzJ1MzJ1NjR1c2l6ZWV4cGxpY2l0IHBhbmljAGcGEABkAAAAJAkAABIAAAD7VRAAAQAAAPtVEAABAAAAYCBvciBgAAD7VRAAAQAAANBKEAAGAAAA+1UQAAEAAABvbmUgb2YgLCBib29sZWFuIGAAAPlKEAAJAAAA+1UQAAEAAABpbnRlZ2VyIGAAAAAUSxAACQAAAPtVEAABAAAAY2hhcmFjdGVyIGAAMEsQAAsAAAD7VRAAAQAAAHN0cmluZyAATEsQAAcAAABieXRlIGFycmF5T3B0aW9uIHZhbHVlbmV3dHlwZSBzdHJ1Y3RzZXF1ZW5jZW1hcGVudW11bml0IHZhcmlhbnRuZXd0eXBlIHZhcmlhbnR0dXBsZSB2YXJpYW50c3RydWN0IHZhcmlhbnRhIGJvb2xlYW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bjkrsWVBy6PFHan12di8Rvzjs1jrQR6Ivl0Ae1hK61C8KKwrEhFuPuHsVJ4iUao45yLTMeqhtNVTMbbq1X8CWZZ/zfUkoRoSoAosmYbWxvf4H7l+ecFUk1gAr8/ohHS99h+n0hBBtOIZCGXZ+1DI8rfbzulOIQoSk06DQH489ydpxrKjobFQo0QSICyduDD5SDBrUIYhqGwGhVoV1psok8EiRxRX0Qp/DCqgm1Ax+syxZtzZacFNGscxVMosQml35cyIC8wxkDTGiNb+U6eB7POX3QVRoQA1/CcMueSRbmQoicROsgFMT28kx+Btybn1OqwxUmKRl2tC/gHQjTgofolDSbb3MfydAdrBLlw7FUEd0AwSWoE/xEJVdX3jTeqVUUQTEvkhg7lu4s7RXCVRRrWZH9urYe5R0VPLRNmbXs4td63jQyE15lGkshof/ip9uNGRbC/he2/uCdaYm/25FS8Z+bcv4dMZ+sAuK1Vymb0/ZDoQe/Ev7GV4Nao63zgYj0lInJbhe9uC0kMQyZcKKqMfrre0oddpOctp6nX4alCl98c41OElS4Q2SGkffnTs12W9Aw4hZpplT953X1oaKAVHIEvZocAehU/rBpOaVl0HTHIrbgEQIi6j0dxIcOfwRSeavjWBaCqmSNJLUp0p6FpleWHO8bkepe2DYRWkODE8j23XF1ETaldo6ElTAUZBh6dFXO0hWDThSy5bo8GX2emNHqgUcbErFMj8/0xS8OY//CMrEMEVbdH3MDcre70Tu/c3/dTxWs1OdPhE6lKsYKr1Df1KMa6+TwsRJRp9q7Zm2SC2WmECYebV5XJVHRasAId07+zxSwZQg2rW6lhYXwyhTi/QMajj/FQSxlh3NT1v5MrX5CEHGPNlJ3PmlQ6Is+oFgeUxROM8QmFY6DZOIuTsju5WcZIkB1cJpxpP2aumF6at/BHxVISYYAx4beoBR9jKIr2RMamtunwHgoFslZnC+Lds8YoYDS0fCWsls7cIP7LVQDH2SQI4NWnk8ZJSYyvZwUYhN+dOwj7IWjX66vfuzDmToYnZHnLGdnjPeZW57nNEBJHgK7EHygwLc6QPnCECHI7RLD6RSbyLBlSZC381QpOqkXMyTawfocv1t0pTCqs4iTHaBWKLkccle5aGdeSnA1fBJIbHLno06t50IB9lzMQhsXWgdP4UyimKGTgTN0fxPiHJhk0QxwZf9E/DCgqC9MDRK+vQUQzD4/Vjs9yJI7n5AWLi0HFH8OzyuKTHp3Csc0HD18hGwPaWFb1m+simb8oBFMm6VHU8M58suLVy2AOwkWHwKPGSg0yO6+bq04YIqLG1Nh+Q+ZID1VN2VsI3w2NxGoufdTv2iMKoV+RywbBIUVEqj1KO+CL3UmXln3IUXmGguJmXnVsT0J2NqXOjXrzxBO6//XSh6NC47RPYkC5gMVIub/jd1lcI7xRY0rg99EGtXvv3iqPwb5tks4+7ELaxDK6+8Wlc9Ht6ReBnqezoUUvearXHrDGeVN9ocYRkKnGTZw63ksGjCv8PlUz2uJCBBDTGaYtyD82mw4KsPGqwoUVN9/fuUouxGIxvRzuFYNGSrXH94e8ykWKvjxkGasUB965tNK8zfaTRo7lxrAa5ITGeCIHfDFUOHgCT0hsAZ3GB8Y6yRs96QZWUyMKVzIlB4T7xKXoxoHsLev95k5/RwT2KrXfEzhCJylm3UAiDzkF46VDZyfGQsDjwKTAKpL3R15fYjBA/DmYZnhW0BKT6oS15zqsQSsYLr/2XLQHONUFw1EZd4F1/iof5CPBOQbKh2ISv+qY4abyU+62YJuUToSKh2/lfxnArzjKJAjyuXIFnTkLrv7AQOrHDN0rDwfexzJTv1UPeHh6vGfyOuF88wRe6I8qoxZmmXux7pmZzBAFhrLy9Tv7wD/6XlpQIE80BvwXv/k9ZVgPzLsQcjQJWIRrDY/XnO7OM8+Z1L6RK+6FVcEzzVQ6gaDDgHnOBZbKRu2YqEhclLkEalgkOPt2PkQZLsJqg5nXVbTeHRcKU84FT0qjFTSwPQrCJeRs/Nihhpmmtd0g/h4G2X+OlDY/ZMQAIENUqQ2V2L+vUlkTv24FEDhkGZNBO36fS1c/aE85xnIjBpgsCLUvG6cWT7lhTAQ+i8heFwrCWyKA/CNXqc8FPh7KZYzdgsHbQRsMTbRSxn22rN7wFPOSIgFx72DxZ4f2mhQTVj0gC11Y5xWcjvDExCDpGBuMeF4UnxD7E4KtBgBAEHH7MAAC4o2IJqZmZmZmZmZmZmZmZmZmRkVrkfhehSuR+F6FK5H4XoU3iQGgZVDi2zn+6nx0k1iEJbUCWgibHh6pSxDHOviNhqrQ26GG/D5YYTwaOOItfgUIjZYOEnzx7Q2je21oPfGEGojjcAOUqaHV0ivvJry1xqIT9dmpUG4n985jDDijnkVB6YSH1EBLeaylNYm6AsuEaQJUcuBaK7Wt7q919nffBvqOqeiNO3x3l+VZHnhf/0Vu8iF6PbwJ38ZEeotgZmXEfgN1kC+tAxlwoF2SWjCJRyTcd4zmJBw6gGbK6GGm4QWQ8F+KeCm8yGbFVbnnq8DEjc1MQ/N14VpK7yJ2Jey0hz5kFo/1983IYmW1EZG9Q4X+nNIzEXmX+egq0PS0V1yEl2GDXo8PWalNKzStk/Jgx2xnteUY5ceUV0jQpIMoZwXwUt53YLfftp9T5sOCrTjEmisW2LRmGQqluVeFxAgOR5T8OKBp+C27kRRshJAsy0YqSZPzlJNklhqp46omcJXE0GkfrC3e1Anqth92vXQ8h40UGXAX8mmUrsTy67EQMIYkKbqmUzU6w7JDzzyNprOE4AKEcOtU3mxQRlgUL72sB9nCHQCi9wtwWdHs6b+XloZUqApNW+wJDSGn8Lr/ktIFNsZ7pDyWR2Qnn9oiWXWORBfKbC0HcP7TJcyp6jVI/YZsrpZXbE1lj2sWx+6d+nEFChi4X0nXquXVklM+5KHnRANnWjJ2Mmr8vAOevi3pZUaPhe6OnqhvFtaci4tk4REFctF+y7IGsqvro6LikKdAxFFCZKxpvfcskrkeKqd+zgbBKFBweuSffVugy1VsS/HFQO0Z2eJdWTEWJxXdycmbBHS7KXY24htbfTGJfILPeAb2yPrRhYHvorDOB4oo/1MFkm2VdIRbP5unGBLU08x1xEOiu+2TxOXsWBnRYUYgoscpaG/+HIPrCcauWo3rQHWFh5OmWDCcla54WBVLCTORBKVFsLNAx5X9TXOuxNt4zodq6sBCwMYrCor2C92ik9iF1aJNG8C4Ly7VRPzxG4MtRKJqO2x0MzHku8euNRKeu4dB7pXjkAK09vyS5MQb/vxFwbI33EA1ah89W8P2lj8JxPWDGbpM7un+rtMsimOYKYeEdeEhyn8UpXJo45UCxqFGA6s0NK6yaiqB4PYdm+unRPjrBoeXtza3aXRwFeysGIfT4pIS0uwSH5RQZqsjsAbGdmh09XVWW3L2s3hVqUzFhR7gdx3EXtXPOLX56vqwhEQKs9gWYJe8sY2JqasqgS2GbulgEdoGPVrxVHrVlWdkRSWhAAG7XkqI9GnIt/dfXQQVgc0o+GP3dGBDNExlvxTGkVs9ugac+SnND2n9ET9DxWeVvhT4igdU12XUl1ql9kQYleNuQPbYesu8lCVEL/1GuhFpMfPSE68WFva3aZlkRUga4Ns2dNxY63i4RcfHkERzRGfrSiGHJ9IBAPzZGObGwvbGL5Ta7DlBp01jx3pFRaiFUfLD4nz6mtKkXLkIKsRN7xxeEzbuERGqhuEbQFFHF9jwcbWFccDBVVJA76anRYZ6c1rRd44Njd3B2n+rhcSwUEWRqJjwVZYWHIOl7HyHM5nq9GBHAHfeRP1cRKOKBel7FVBzhY0f2HckMEO2IYSbkdWNX0kIGUCx+do5IykHSU5ePcwHYDqAWy5IB3XtheE+iz587CZuzQjYU0XrPgSOfdHKFNOXF9UOGgV8qxaHi4s07l1C31/Q2BTRFuKSBhYI9zH99Uwmc8ZqTZ8O20TJtL5coyJtI6yjw7x+SsVH7hBLo+jBypyKKYL9Me83Rj6mr6lTzm7wYYe1lwGl+QT9vcwCRnCXpzXMPD61iTUH/hfWgcUaOVJeY0mL9+Ddhlg5uEFECBRbscKUr/lz14UGoWB0QyA2vEFbw6ZhNlLEPXUaIIUAMRP1uTj9KD1Ehord+0Bqplp2RG3HPez99sUvMWKAYgU7q10krDFXPmvECwJ3mim7XxJVOqAb5Qosxok1ORTuFfKOhBVmr92IFwVg3YdQ2B5O2Jzqq7/XoAWEZ69yNFm9SuduBCxMsszVxt/ZG1BUsS8fWAN9I6iXN8VzLaKZ9tp/crmPcPYTn1/Ed+Kd3LFDy+r1y8FjuQu/xuA1ZJbBHPyiKyMaj4dv2UWZkRCSdAo9dNWPVWYSv/qEaOgA0JNQYi5V5W78xAyqxzp5gJo1805YXl3/MJAW+8WVFICIHlxYect+clozRVZEoZQnZmOtWilfFt2dBVWWx3SpkrhPpEgUf0VxfbdRHwXDh+iGv9ATafKRDeSsdDJEkrLafdkzq4LEW5YUE+0Dx47PO7FUNiLPKfxeXM/kAwYycnxN9p5CcqF9MfCMkA9E9tC6b/2wqipb7oMnrdmyB7jm7rMK89TISaVcH4sUqAYgkmVcIlyqRq43SZl8HSzE511iBoPhHX3jC8+COeHhR8XXqB7cjaRXwommAbsnzcZ3+QZllv4QBnVhEYF8H8sFEzqR6uvxgDhEDcF0YyZIxBH3T9FTKRnzuck1bRHj9IZBrHMndbpUtgft93Dn3KoFDgnCktF7tt5GSx+aRnChhBZ2KkRouNfKY9GMA+PNnEaehO7p4Ecs7qla/PY2F4nFS+pleya4yhiUYmPreBL7BAXde/g9zgOnegOTK+arBMbeSpZGpMt2LBTctYl4lapFS5VR0gPvnmN3MHet4FFVBF8uwvafpaPFZScl4zPCLobly/WFP8Rpnd2sN/Wcm0uFnmM3kP/p1H5kfOyePW9vhGOrf3S/j8cwhzst1oiY2Qc2IpkQjIzsAEX8F8VtbW2Fkaig5uOwlkBrFnm3ZDEKxKjAzlfFwT2zqzCo/wa1BIdg5wtTKxpXnK9mxzKSENCF5zjitaJVBj1/eIWCAdpmxLGBau9D1SN7i9r8QzYdMUdBWsi/nJ2176MIsFwRirRFwS8TssoxRL/1k5njWu7DROg+X14dDtRyyR+2HsSX3weTWH++SnJDQm3Ma38QX9jGAqBy5Qh1NegxSckyjTMghN3znhUz7m/Z28MbUMhrTcf+XEt3aWUzB9ZcIrPTVf5GMf0vX1R3dZ/evOhPz6s+hML7i/J6C6+/8O4nDL9efcf1iTzoCC/MWY2+hbC/ceSGXgdXBoazCe4XvurActsdRRg5Hx7rglTkxjJvGei8F0QmaCUxbBC6x70dJQ/aucvGuHmdgQnAonlXCrdMogf8xTn6yudhc6gt7DusCigf8IQ2N/fYW9KAVm0Sk50M8zQGq1M5ucl1c3gKaI+kI/WcxXx1lGGUXdxTe60y9lyeCkR6Ffp1ui+6HuwVKyPhI11GyATId9TMrr8Wd2JDGqk9xWAQucYQyjIY65KbnDu6ZIRZmrYJzgNDQYXEUoaF0MeHOshrewspD1rEnRuexKcfhZWTle98Bz+iNtcWPxB4/4RI0olYrSUlkFfYY1gNgXLHOnUHegpqqtnf+c9TfjQCBeH3RcguyFWuTK5ZNf5c20SpZWMZitpI8LqwTrywux7HR3e1h6JuoLOuzRiWwJXlhcYGN9LB2I1pfz2tOIBrN4SWfNkediciDuU8Yc3NhMxHuH1g8dGSm383FoGxpFCJxgaKwMGn25XMBevntGnm1ITkN7RPMt9JRolGDEcppLqHkDlpzA8/h1It3la44SouxgAUYbAyTFL08XHroKdU8kTzbSjzULpEVIJphfRyIWoH6SQHD4CIdt0B7jfQDqeUxlQDUrLAbQV9wVgGWf75EIUpwoICZsp3vg3s3pS/IM1ENfdDKiRQjCOWbgqt5M57xkTSwogDgKNPuH57vhCYb8UDzwIgD6bPWXnx1j6mxqZEOQsDQBk+MhupQyOkPmQjhrqI6SZ6fnTi7ejcUBh2j4VuxxQ4bqUqTz5gvSZGhX/ECths5vEunXHjtEgw127MRuJGikWapXE0gsO52ixYsEVoXu6EYh30NtvPh+HJ4JnEZuSXRxAv4As5mOYPj/Q2BtJdeRJM8wzvVG2RmX/DEcW1F1Qbo/Wj8qnXgVRzHDSEVPJs+NLVxlE2f1uTq3ngxypOvaCCXlHA+GXJaWK7M8WuvvEaNRgbM+AeYTqbvA/Eir5Bw6HNHrlmvXTEEsaMx0ilDkLbJAuUeIqQ9oIFVwXtanH1bymi9qBVc/h0xCwEocP2SIucd+QnFXlAlOB5h1sDBRPi1pM2hbeHc+omusXiqOppaJ7o654frGlIOIiE6kFqaJqX9J9J5e1opo2nh5U0SCCiH/blx+s904Vkn4Yd6eAzgZmfHlMI8bY3XSYE/ELAeQKcC2PrWujJ5ZUWh9a1gBQolkkDL7vtR94EBUZFUWa2YEUHXD+8vey+dkQFHdqexSbQxfA/lvGKC57DRDyQ5LtxAXyzMosCg59K68ZwpwOvtA3WwpvvaFxyiKMFM7jPstz+UgIjJe0J9UbcBCwn2R47FsO2qwlVAxV+UwawH9QYPCvPnu9t6nWEGEKFTNmQIDzv8uVlyzu3nMa1RBScM1mUmas71hHsGS5kO4a21mkuA6FIyZHbPO2+qaLFUmutpPY0IIebCMpX5WFPBF1sIof9Bqe/aw4qP7uCJQb91nVsimvsZe9k4aYJQcQFix7d/W6JY6sl9yeEx5sphETxVgiKwl9er8t/rjJeT0cdmqtTu+g/WHMV8tgoZSXFsXuvQtZGv7nCRMJ503dEhI6sfxFW11jptyEDtiv++ocyI0wa69KHIWw0D4T82IiF9TXJrzybuPQJtrLdcLogRKGjKTG6heftNcpRomdp5wda3BQBe/fGCpG7gShF4awF4nz2Z0ls+BUa4udTXme8xJ0UvZib+vNh3hFL3wol1IeXahegr8iC9PGar/JhhJCGOS5S2jMGzwPn4j/OtIOaBNtKXlAeixgGJjamJGD5AwfJCGUM8hWs0YT4hMONh3XGLZNQymgeI843LTcpJFK3xOKr2uoZid/WmAhYaGCqssfor/vueuFMhVNtE20m7tvGU6ZjGGJ0Y6qPZCk9uJiWRQM4dYaoafY7srZtitPgkcQRZskXptyJ34R9orfsQMMGgRJHRhJ9YX+Dfg7GVtp1hTQoEoT1F2ey6T5LxR8h6sQTQERUlPJY986XOa5+QusGnFn2nQPoRwZL7Ae+/pvVhXBUkgq2YCwrSXASy8v8xERNFENqo405xUJzRKyfutPG8QNce4+XR+rbQoPKDKJ2RWdpI2LZRcZvFcIDCAo1HoRlDp8Ejzy9CxZDeDM2bn3G0OVltv89MPw4D2zcOHHXxYDERIWl102WhrL9SaBOeYRBOgc8CT8VpCQ3iILNY+jHNDs44wdMN/ZpkuCol0/6RbaI4M9sVl/4euizk6xMlQSXDk4L7XCy2h50X3kToRTHeMtYL9dNdZTlKdkUHIDdhcci+ZlsSp4qXbstqaOz8QS+kTXb7WqJg/xE4vXfbIHHmJq378qIlI/J0NvrGQoBhhOiH+ZiE7bZR+c8olQIDgTSg3MKHRKxW9lk+oPtDPAHjukCYf2oWpZhA8ic/bCmRiWtgds+OfurTbZtPWRNa4TVlcM4PM/fkkk9boigyJ9H0Ws1kz2/2TU6ZCV6GjoMBnRiXg9+P+DQ+5zRO1TICcUdKGTl8bMnM/xjwPxD00fEFICuSWkR2F/HLMF6H+uyxkPNce36dJNzBZc0ez/8aIU2ZDSXyEPCz0SsNojM1uCEMHnUJloS6thULMqBoUrahpnuUAUuqIiTkBcVWtqvCEVU5QA3ZToTgvNSUS87snnEFHtAMiH2hcSSKnTxkp2DBvavQCgbEhG22yH3GvVkaMVr2TNTL0GBUmKn+Pv3adPEbE64nrICgioQ/845i+mshv0Luj7OaI5U2n/kx7zhCgWXfLsL/u0x3WH/w+y9QO6ES7qR+aRIdkiP/9/tiLTXBzyVAaFQYF6tWX//5HoqLAW9UM4NwEBYsS3MjPbhu0mEu6f8/EBaDY6WYTrkaQVCx2LGfYnm7le++BpvHRQETwX1npehuL6fi/nh2NdQHSWElaR/dbQ95flcdk4Ys2GvR2r2sp4DZN5hMF6Leg90soXVhVvLXFCYdCayIqGMagIEyIiGK9OamhNkdqqPU9AdB7otHnyPohTpNquiGQ/AF0Yh11hKP9s3OmuWG1QzJl9E6SVaA1lrmCp5I1IGnpcLx+DRO09t76zuoNxoK5hsPIYNp2KMSwy9i42wea+51n1E/Bhd4ITHb3kiZvXlz/27h9aTiw1qX3Kg6Gv398y+IsZFaVW9yD+oZzn8rJMwvlvFKodEvmzMRtKuSiPcJuUWRDdlbbB7LVeQ/UN5YDF7SgaSt5eAVde5TXEpB1nBIvtFNWxGAGsfrfEaR1+UtAIvhAitlqbeZcloQ8vMLezp8kagV4VSWGst03ZWPP4wh9uFZtLRAeBI8bXreD1kzXmJBErrNM+mwU9WUk0VoYiPW4bvIncyxWe/eBtwxEFgsrxFWOh428RGP6zJGlBN5s7jhHRm9J/tVljhgd1NSXFxRYcDuMOM5EU6dHSkPdQN554FgscP4/adrp0dQ3GQCwY+hF4xjHlkCT37btIo2fgWcMcLQVbt0AdLIvJ07UfTa4CFyQEfF/NfVZv1A8r5nCLaBIGbcaYSMnwfu2yET1OEnQdn72e4AahwJhXwqf9pA6QF+bKS03SgABHeZvsylCl2RKiRHlIHc4A2I7FrUSBCCkegtAtbRfYMxM/0VedmtMgGM6mJCR5RvaoZaesShV2TRN9pDqgjj29dG+leneIVuIeZFCV5j4xZF2Mt/vFBhK1GLemquvLjbZKcCyW0WsOxBNXpKoSExYkERpH8OgSF6Af3+nuDtxEg9oUbPNTQt9MGYAhv9h8nQLiQyMpQ2h/PRQzgTJ6/X1oTjYcVM+5MjEQuM5QkJXJQEq9xrlLKVHoGcYLp6Z31DMIMdLHb4fauRRrCewexnYpoI0O07/SrpQQ39usZKNXQgBJF7j/HX6HGhnjI+q13wHNoBJgmbExORWutRyIkUzOcE115q0njvoQ4lWUprWt4xqvu3BJDH0qG+h3Q4XEV+l78mKNBz2XuxWH+TUEanmHyY61CgZk32IRccK8BhCPpXXkiHfWbGXRGyc1ymumpbf36dOSq/AdQRYfxKG8Hh7GX+4PD1aNsc0RZdMCYWRjo/8Ws7GJSE98HFHcm01QHOky3yiO1AbZyRYOfUlxc+Mgj7Ig2HYFFDsSfC4PgoUFm37qzVnxO1MrHcq+pQGeN6/L7tdH9C/cVRehmIQ0S/lYCb+sbMOMFqsSMC4wZjMydTMydTY0dXNpemVleHBsaWNpdCBwYW5pYwBjCRAAYAAAACQJAAASAAAAb25lIG9mICwgYnl0ZSBhcnJheU9wdGlvbiB2YWx1ZW5ld3R5cGUgc3RydWN0c2VxdWVuY2VtYXBlbnVtdW5pdCB2YXJpYW50bmV3dHlwZSB2YXJpYW50dHVwbGUgdmFyaWFudHN0cnVjdCB2YXJpYW50YSBib29sZWFudW5pdGEgc3RyaW5nbnVsbAD///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////8AAAEAAgADAAQABQAGAAcACAAJAP//////////////////CgALAAwADQAOAA8A//////////////////////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typeof document === "undefined" ? require("url").pathToFileURL(__filename).href : _documentCurrentScript && _documentCurrentScript.tagName.toUpperCase() === "SCRIPT" && _documentCurrentScript.src || new URL("spark.cjs.js", document.baseURI).href); } const imports = __wbg_get_imports(); if (typeof module_or_path === "string" || typeof Request === "function" && module_or_path instanceof Request || typeof URL === "function" && module_or_path instanceof URL) { diff --git a/dist/spark.cjs.js.map b/dist/spark.cjs.js.map index 2863bcf8..073f6df1 100644 --- a/dist/spark.cjs.js.map +++ b/dist/spark.cjs.js.map @@ -1 +1 @@ -{"version":3,"file":"spark.cjs.js","sources":["../src/OldSplatGeometry.ts","../node_modules/fflate/esm/browser.js","../src/defines.ts","../src/dyno/types.ts","../src/dyno/value.ts","../src/dyno/base.ts","../src/utils.ts","../src/OldSplatWorker.ts","../node_modules/three/examples/jsm/postprocessing/Pass.js","../src/SplatWorker.ts","../src/dyno/splats.ts","../src/dyno/output.ts","../src/dyno/uniforms.ts","../src/dyno/program.ts","../src/dyno/mathTypes.ts","../src/dyno/math.ts","../src/dyno/logic.ts","../src/dyno/convert.ts","../src/dyno/vecmat.ts","../src/dyno/util.ts","../src/dyno/transform.ts","../src/dyno/control.ts","../src/dyno/texture.ts","../src/dyno/trig.ts","../src/ExtSplats.ts","../rust/spark-rs/pkg/spark_rs.js","../src/shaders/computeUvec4.glsl","../src/shaders/computeUvec4_Vec4.glsl","../src/shaders/computeUvec4x2_Vec4.glsl","../src/shaders/computeVec4.glsl","../src/shaders/oldSplatFragment.glsl","../src/shaders/oldSplatVertex.glsl","../src/shaders/splatDefines.glsl","../src/shaders/splatFragment.glsl","../src/shaders/splatVertex.glsl","../src/shaders.ts","../src/Readback.ts","../src/RgbaArray.ts","../src/SplatEdit.ts","../src/SplatGenerator.ts","../src/SplatAccumulator.ts","../src/SplatGeometry.ts","../src/SparkRenderer.ts","../src/SplatPager.ts","../src/SplatMesh.ts","../src/ply.ts","../src/SplatLoader.ts","../src/PackedSplats.ts","../src/OldSparkViewpoint.ts","../src/OldSplatAccumulator.ts","../src/OldSparkRenderer.ts","../src/antisplat.ts","../src/ksplat.ts","../src/spz.ts","../src/SplatSkinning.ts","../src/splatConstructors.ts","../src/generators/static.ts","../src/generators/snow.ts","../src/modifiers/normalColor.ts","../src/modifiers/depthColor.ts","../src/SparkXr.ts","../src/hands.ts","../src/controls.ts","../src/SparkPortals.ts"],"sourcesContent":["import * as THREE from \"three\";\n\n// SplatGeometry is an internal class used by SparkRenderer to render a collection\n// of Gsplats in a single draw call by extending THREE.InstancedBufferGeometry.\n// Each Gsplat is drawn as two triangles, with the order of the Gsplats determined\n// by the instance attribute \"ordering\".\n\nexport class OldSplatGeometry extends THREE.InstancedBufferGeometry {\n ordering: Uint32Array;\n attribute: THREE.InstancedBufferAttribute;\n\n constructor(ordering: Uint32Array, activeSplats: number) {\n super();\n\n this.ordering = ordering;\n\n this.setAttribute(\"position\", new THREE.BufferAttribute(QUAD_VERTICES, 3));\n this.setIndex(new THREE.BufferAttribute(QUAD_INDICES, 1));\n\n // Hack to work around Three.js\n // @ts-ignore\n this._maxInstanceCount = ordering.length;\n this.instanceCount = activeSplats;\n\n this.attribute = new THREE.InstancedBufferAttribute(ordering, 1, false, 1);\n this.attribute.setUsage(THREE.DynamicDrawUsage);\n this.setAttribute(\"splatIndex\", this.attribute);\n }\n\n update(ordering: Uint32Array, activeSplats: number) {\n this.ordering = ordering;\n this.attribute.array = ordering;\n this.instanceCount = activeSplats;\n this.attribute.addUpdateRange(0, activeSplats);\n this.attribute.needsUpdate = true;\n }\n}\n\n// Each instance draws to triangles covering a quad over coords (-1,-1,0)..(1,1,0)\nconst QUAD_VERTICES = new Float32Array([\n -1, -1, 0, 1, -1, 0, 1, 1, 0, -1, 1, 0,\n]);\n\nconst QUAD_INDICES = new Uint16Array([0, 1, 2, 0, 2, 3]);\n","// DEFLATE is a complex format; to read this code, you should probably check the RFC first:\n// https://tools.ietf.org/html/rfc1951\n// You may also wish to take a look at the guide I made about this program:\n// https://gist.github.com/101arrowz/253f31eb5abc3d9275ab943003ffecad\n// Some of the following code is similar to that of UZIP.js:\n// https://github.com/photopea/UZIP.js\n// However, the vast majority of the codebase has diverged from UZIP.js to increase performance and reduce bundle size.\n// Sometimes 0 will appear where -1 would be more appropriate. This is because using a uint\n// is better for memory in most engines (I *think*).\nvar ch2 = {};\nvar wk = (function (c, id, msg, transfer, cb) {\n var w = new Worker(ch2[id] || (ch2[id] = URL.createObjectURL(new Blob([\n c + ';addEventListener(\"error\",function(e){e=e.error;postMessage({$e$:[e.message,e.code,e.stack]})})'\n ], { type: 'text/javascript' }))));\n w.onmessage = function (e) {\n var d = e.data, ed = d.$e$;\n if (ed) {\n var err = new Error(ed[0]);\n err['code'] = ed[1];\n err.stack = ed[2];\n cb(err, null);\n }\n else\n cb(null, d);\n };\n w.postMessage(msg, transfer);\n return w;\n});\n\n// aliases for shorter compressed code (most minifers don't do this)\nvar u8 = Uint8Array, u16 = Uint16Array, i32 = Int32Array;\n// fixed length extra bits\nvar fleb = new u8([0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0, /* unused */ 0, 0, /* impossible */ 0]);\n// fixed distance extra bits\nvar fdeb = new u8([0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, /* unused */ 0, 0]);\n// code length index map\nvar clim = new u8([16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15]);\n// get base, reverse index map from extra bits\nvar freb = function (eb, start) {\n var b = new u16(31);\n for (var i = 0; i < 31; ++i) {\n b[i] = start += 1 << eb[i - 1];\n }\n // numbers here are at max 18 bits\n var r = new i32(b[30]);\n for (var i = 1; i < 30; ++i) {\n for (var j = b[i]; j < b[i + 1]; ++j) {\n r[j] = ((j - b[i]) << 5) | i;\n }\n }\n return { b: b, r: r };\n};\nvar _a = freb(fleb, 2), fl = _a.b, revfl = _a.r;\n// we can ignore the fact that the other numbers are wrong; they never happen anyway\nfl[28] = 258, revfl[258] = 28;\nvar _b = freb(fdeb, 0), fd = _b.b, revfd = _b.r;\n// map of value to reverse (assuming 16 bits)\nvar rev = new u16(32768);\nfor (var i = 0; i < 32768; ++i) {\n // reverse table algorithm from SO\n var x = ((i & 0xAAAA) >> 1) | ((i & 0x5555) << 1);\n x = ((x & 0xCCCC) >> 2) | ((x & 0x3333) << 2);\n x = ((x & 0xF0F0) >> 4) | ((x & 0x0F0F) << 4);\n rev[i] = (((x & 0xFF00) >> 8) | ((x & 0x00FF) << 8)) >> 1;\n}\n// create huffman tree from u8 \"map\": index -> code length for code index\n// mb (max bits) must be at most 15\n// TODO: optimize/split up?\nvar hMap = (function (cd, mb, r) {\n var s = cd.length;\n // index\n var i = 0;\n // u16 \"map\": index -> # of codes with bit length = index\n var l = new u16(mb);\n // length of cd must be 288 (total # of codes)\n for (; i < s; ++i) {\n if (cd[i])\n ++l[cd[i] - 1];\n }\n // u16 \"map\": index -> minimum code for bit length = index\n var le = new u16(mb);\n for (i = 1; i < mb; ++i) {\n le[i] = (le[i - 1] + l[i - 1]) << 1;\n }\n var co;\n if (r) {\n // u16 \"map\": index -> number of actual bits, symbol for code\n co = new u16(1 << mb);\n // bits to remove for reverser\n var rvb = 15 - mb;\n for (i = 0; i < s; ++i) {\n // ignore 0 lengths\n if (cd[i]) {\n // num encoding both symbol and bits read\n var sv = (i << 4) | cd[i];\n // free bits\n var r_1 = mb - cd[i];\n // start value\n var v = le[cd[i] - 1]++ << r_1;\n // m is end value\n for (var m = v | ((1 << r_1) - 1); v <= m; ++v) {\n // every 16 bit value starting with the code yields the same result\n co[rev[v] >> rvb] = sv;\n }\n }\n }\n }\n else {\n co = new u16(s);\n for (i = 0; i < s; ++i) {\n if (cd[i]) {\n co[i] = rev[le[cd[i] - 1]++] >> (15 - cd[i]);\n }\n }\n }\n return co;\n});\n// fixed length tree\nvar flt = new u8(288);\nfor (var i = 0; i < 144; ++i)\n flt[i] = 8;\nfor (var i = 144; i < 256; ++i)\n flt[i] = 9;\nfor (var i = 256; i < 280; ++i)\n flt[i] = 7;\nfor (var i = 280; i < 288; ++i)\n flt[i] = 8;\n// fixed distance tree\nvar fdt = new u8(32);\nfor (var i = 0; i < 32; ++i)\n fdt[i] = 5;\n// fixed length map\nvar flm = /*#__PURE__*/ hMap(flt, 9, 0), flrm = /*#__PURE__*/ hMap(flt, 9, 1);\n// fixed distance map\nvar fdm = /*#__PURE__*/ hMap(fdt, 5, 0), fdrm = /*#__PURE__*/ hMap(fdt, 5, 1);\n// find max of array\nvar max = function (a) {\n var m = a[0];\n for (var i = 1; i < a.length; ++i) {\n if (a[i] > m)\n m = a[i];\n }\n return m;\n};\n// read d, starting at bit p and mask with m\nvar bits = function (d, p, m) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8)) >> (p & 7)) & m;\n};\n// read d, starting at bit p continuing for at least 16 bits\nvar bits16 = function (d, p) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8) | (d[o + 2] << 16)) >> (p & 7));\n};\n// get end of byte\nvar shft = function (p) { return ((p + 7) / 8) | 0; };\n// typed array slice - allows garbage collector to free original reference,\n// while being more compatible than .slice\nvar slc = function (v, s, e) {\n if (s == null || s < 0)\n s = 0;\n if (e == null || e > v.length)\n e = v.length;\n // can't use .constructor in case user-supplied\n return new u8(v.subarray(s, e));\n};\n/**\n * Codes for errors generated within this library\n */\nexport var FlateErrorCode = {\n UnexpectedEOF: 0,\n InvalidBlockType: 1,\n InvalidLengthLiteral: 2,\n InvalidDistance: 3,\n StreamFinished: 4,\n NoStreamHandler: 5,\n InvalidHeader: 6,\n NoCallback: 7,\n InvalidUTF8: 8,\n ExtraFieldTooLong: 9,\n InvalidDate: 10,\n FilenameTooLong: 11,\n StreamFinishing: 12,\n InvalidZipData: 13,\n UnknownCompressionMethod: 14\n};\n// error codes\nvar ec = [\n 'unexpected EOF',\n 'invalid block type',\n 'invalid length/literal',\n 'invalid distance',\n 'stream finished',\n 'no stream handler',\n ,\n 'no callback',\n 'invalid UTF-8 data',\n 'extra field too long',\n 'date not in range 1980-2099',\n 'filename too long',\n 'stream finishing',\n 'invalid zip data'\n // determined by unknown compression method\n];\n;\nvar err = function (ind, msg, nt) {\n var e = new Error(msg || ec[ind]);\n e.code = ind;\n if (Error.captureStackTrace)\n Error.captureStackTrace(e, err);\n if (!nt)\n throw e;\n return e;\n};\n// expands raw DEFLATE data\nvar inflt = function (dat, st, buf, dict) {\n // source length dict length\n var sl = dat.length, dl = dict ? dict.length : 0;\n if (!sl || st.f && !st.l)\n return buf || new u8(0);\n var noBuf = !buf;\n // have to estimate size\n var resize = noBuf || st.i != 2;\n // no state\n var noSt = st.i;\n // Assumes roughly 33% compression ratio average\n if (noBuf)\n buf = new u8(sl * 3);\n // ensure buffer can fit at least l elements\n var cbuf = function (l) {\n var bl = buf.length;\n // need to increase size to fit\n if (l > bl) {\n // Double or set to necessary, whichever is greater\n var nbuf = new u8(Math.max(bl * 2, l));\n nbuf.set(buf);\n buf = nbuf;\n }\n };\n // last chunk bitpos bytes\n var final = st.f || 0, pos = st.p || 0, bt = st.b || 0, lm = st.l, dm = st.d, lbt = st.m, dbt = st.n;\n // total bits\n var tbts = sl * 8;\n do {\n if (!lm) {\n // BFINAL - this is only 1 when last chunk is next\n final = bits(dat, pos, 1);\n // type: 0 = no compression, 1 = fixed huffman, 2 = dynamic huffman\n var type = bits(dat, pos + 1, 3);\n pos += 3;\n if (!type) {\n // go to end of byte boundary\n var s = shft(pos) + 4, l = dat[s - 4] | (dat[s - 3] << 8), t = s + l;\n if (t > sl) {\n if (noSt)\n err(0);\n break;\n }\n // ensure size\n if (resize)\n cbuf(bt + l);\n // Copy over uncompressed data\n buf.set(dat.subarray(s, t), bt);\n // Get new bitpos, update byte count\n st.b = bt += l, st.p = pos = t * 8, st.f = final;\n continue;\n }\n else if (type == 1)\n lm = flrm, dm = fdrm, lbt = 9, dbt = 5;\n else if (type == 2) {\n // literal lengths\n var hLit = bits(dat, pos, 31) + 257, hcLen = bits(dat, pos + 10, 15) + 4;\n var tl = hLit + bits(dat, pos + 5, 31) + 1;\n pos += 14;\n // length+distance tree\n var ldt = new u8(tl);\n // code length tree\n var clt = new u8(19);\n for (var i = 0; i < hcLen; ++i) {\n // use index map to get real code\n clt[clim[i]] = bits(dat, pos + i * 3, 7);\n }\n pos += hcLen * 3;\n // code lengths bits\n var clb = max(clt), clbmsk = (1 << clb) - 1;\n // code lengths map\n var clm = hMap(clt, clb, 1);\n for (var i = 0; i < tl;) {\n var r = clm[bits(dat, pos, clbmsk)];\n // bits read\n pos += r & 15;\n // symbol\n var s = r >> 4;\n // code length to copy\n if (s < 16) {\n ldt[i++] = s;\n }\n else {\n // copy count\n var c = 0, n = 0;\n if (s == 16)\n n = 3 + bits(dat, pos, 3), pos += 2, c = ldt[i - 1];\n else if (s == 17)\n n = 3 + bits(dat, pos, 7), pos += 3;\n else if (s == 18)\n n = 11 + bits(dat, pos, 127), pos += 7;\n while (n--)\n ldt[i++] = c;\n }\n }\n // length tree distance tree\n var lt = ldt.subarray(0, hLit), dt = ldt.subarray(hLit);\n // max length bits\n lbt = max(lt);\n // max dist bits\n dbt = max(dt);\n lm = hMap(lt, lbt, 1);\n dm = hMap(dt, dbt, 1);\n }\n else\n err(1);\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n }\n // Make sure the buffer can hold this + the largest possible addition\n // Maximum chunk size (practically, theoretically infinite) is 2^17\n if (resize)\n cbuf(bt + 131072);\n var lms = (1 << lbt) - 1, dms = (1 << dbt) - 1;\n var lpos = pos;\n for (;; lpos = pos) {\n // bits read, code\n var c = lm[bits16(dat, pos) & lms], sym = c >> 4;\n pos += c & 15;\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (!c)\n err(2);\n if (sym < 256)\n buf[bt++] = sym;\n else if (sym == 256) {\n lpos = pos, lm = null;\n break;\n }\n else {\n var add = sym - 254;\n // no extra bits needed if less\n if (sym > 264) {\n // index\n var i = sym - 257, b = fleb[i];\n add = bits(dat, pos, (1 << b) - 1) + fl[i];\n pos += b;\n }\n // dist\n var d = dm[bits16(dat, pos) & dms], dsym = d >> 4;\n if (!d)\n err(3);\n pos += d & 15;\n var dt = fd[dsym];\n if (dsym > 3) {\n var b = fdeb[dsym];\n dt += bits16(dat, pos) & (1 << b) - 1, pos += b;\n }\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + 131072);\n var end = bt + add;\n if (bt < dt) {\n var shift = dl - dt, dend = Math.min(dt, end);\n if (shift + bt < 0)\n err(3);\n for (; bt < dend; ++bt)\n buf[bt] = dict[shift + bt];\n }\n for (; bt < end; ++bt)\n buf[bt] = buf[bt - dt];\n }\n }\n st.l = lm, st.p = lpos, st.b = bt, st.f = final;\n if (lm)\n final = 1, st.m = lbt, st.d = dm, st.n = dbt;\n } while (!final);\n // don't reallocate for streams or user buffers\n return bt != buf.length && noBuf ? slc(buf, 0, bt) : buf.subarray(0, bt);\n};\n// starting at p, write the minimum number of bits that can hold v to d\nvar wbits = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n};\n// starting at p, write the minimum number of bits (>8) that can hold v to d\nvar wbits16 = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n d[o + 2] |= v >> 16;\n};\n// creates code lengths from a frequency table\nvar hTree = function (d, mb) {\n // Need extra info to make a tree\n var t = [];\n for (var i = 0; i < d.length; ++i) {\n if (d[i])\n t.push({ s: i, f: d[i] });\n }\n var s = t.length;\n var t2 = t.slice();\n if (!s)\n return { t: et, l: 0 };\n if (s == 1) {\n var v = new u8(t[0].s + 1);\n v[t[0].s] = 1;\n return { t: v, l: 1 };\n }\n t.sort(function (a, b) { return a.f - b.f; });\n // after i2 reaches last ind, will be stopped\n // freq must be greater than largest possible number of symbols\n t.push({ s: -1, f: 25001 });\n var l = t[0], r = t[1], i0 = 0, i1 = 1, i2 = 2;\n t[0] = { s: -1, f: l.f + r.f, l: l, r: r };\n // efficient algorithm from UZIP.js\n // i0 is lookbehind, i2 is lookahead - after processing two low-freq\n // symbols that combined have high freq, will start processing i2 (high-freq,\n // non-composite) symbols instead\n // see https://reddit.com/r/photopea/comments/ikekht/uzipjs_questions/\n while (i1 != s - 1) {\n l = t[t[i0].f < t[i2].f ? i0++ : i2++];\n r = t[i0 != i1 && t[i0].f < t[i2].f ? i0++ : i2++];\n t[i1++] = { s: -1, f: l.f + r.f, l: l, r: r };\n }\n var maxSym = t2[0].s;\n for (var i = 1; i < s; ++i) {\n if (t2[i].s > maxSym)\n maxSym = t2[i].s;\n }\n // code lengths\n var tr = new u16(maxSym + 1);\n // max bits in tree\n var mbt = ln(t[i1 - 1], tr, 0);\n if (mbt > mb) {\n // more algorithms from UZIP.js\n // TODO: find out how this code works (debt)\n // ind debt\n var i = 0, dt = 0;\n // left cost\n var lft = mbt - mb, cst = 1 << lft;\n t2.sort(function (a, b) { return tr[b.s] - tr[a.s] || a.f - b.f; });\n for (; i < s; ++i) {\n var i2_1 = t2[i].s;\n if (tr[i2_1] > mb) {\n dt += cst - (1 << (mbt - tr[i2_1]));\n tr[i2_1] = mb;\n }\n else\n break;\n }\n dt >>= lft;\n while (dt > 0) {\n var i2_2 = t2[i].s;\n if (tr[i2_2] < mb)\n dt -= 1 << (mb - tr[i2_2]++ - 1);\n else\n ++i;\n }\n for (; i >= 0 && dt; --i) {\n var i2_3 = t2[i].s;\n if (tr[i2_3] == mb) {\n --tr[i2_3];\n ++dt;\n }\n }\n mbt = mb;\n }\n return { t: new u8(tr), l: mbt };\n};\n// get the max length and assign length codes\nvar ln = function (n, l, d) {\n return n.s == -1\n ? Math.max(ln(n.l, l, d + 1), ln(n.r, l, d + 1))\n : (l[n.s] = d);\n};\n// length codes generation\nvar lc = function (c) {\n var s = c.length;\n // Note that the semicolon was intentional\n while (s && !c[--s])\n ;\n var cl = new u16(++s);\n // ind num streak\n var cli = 0, cln = c[0], cls = 1;\n var w = function (v) { cl[cli++] = v; };\n for (var i = 1; i <= s; ++i) {\n if (c[i] == cln && i != s)\n ++cls;\n else {\n if (!cln && cls > 2) {\n for (; cls > 138; cls -= 138)\n w(32754);\n if (cls > 2) {\n w(cls > 10 ? ((cls - 11) << 5) | 28690 : ((cls - 3) << 5) | 12305);\n cls = 0;\n }\n }\n else if (cls > 3) {\n w(cln), --cls;\n for (; cls > 6; cls -= 6)\n w(8304);\n if (cls > 2)\n w(((cls - 3) << 5) | 8208), cls = 0;\n }\n while (cls--)\n w(cln);\n cls = 1;\n cln = c[i];\n }\n }\n return { c: cl.subarray(0, cli), n: s };\n};\n// calculate the length of output from tree, code lengths\nvar clen = function (cf, cl) {\n var l = 0;\n for (var i = 0; i < cl.length; ++i)\n l += cf[i] * cl[i];\n return l;\n};\n// writes a fixed block\n// returns the new bit pos\nvar wfblk = function (out, pos, dat) {\n // no need to write 00 as type: TypedArray defaults to 0\n var s = dat.length;\n var o = shft(pos + 2);\n out[o] = s & 255;\n out[o + 1] = s >> 8;\n out[o + 2] = out[o] ^ 255;\n out[o + 3] = out[o + 1] ^ 255;\n for (var i = 0; i < s; ++i)\n out[o + i + 4] = dat[i];\n return (o + 4 + s) * 8;\n};\n// writes a block\nvar wblk = function (dat, out, final, syms, lf, df, eb, li, bs, bl, p) {\n wbits(out, p++, final);\n ++lf[256];\n var _a = hTree(lf, 15), dlt = _a.t, mlb = _a.l;\n var _b = hTree(df, 15), ddt = _b.t, mdb = _b.l;\n var _c = lc(dlt), lclt = _c.c, nlc = _c.n;\n var _d = lc(ddt), lcdt = _d.c, ndc = _d.n;\n var lcfreq = new u16(19);\n for (var i = 0; i < lclt.length; ++i)\n ++lcfreq[lclt[i] & 31];\n for (var i = 0; i < lcdt.length; ++i)\n ++lcfreq[lcdt[i] & 31];\n var _e = hTree(lcfreq, 7), lct = _e.t, mlcb = _e.l;\n var nlcc = 19;\n for (; nlcc > 4 && !lct[clim[nlcc - 1]]; --nlcc)\n ;\n var flen = (bl + 5) << 3;\n var ftlen = clen(lf, flt) + clen(df, fdt) + eb;\n var dtlen = clen(lf, dlt) + clen(df, ddt) + eb + 14 + 3 * nlcc + clen(lcfreq, lct) + 2 * lcfreq[16] + 3 * lcfreq[17] + 7 * lcfreq[18];\n if (bs >= 0 && flen <= ftlen && flen <= dtlen)\n return wfblk(out, p, dat.subarray(bs, bs + bl));\n var lm, ll, dm, dl;\n wbits(out, p, 1 + (dtlen < ftlen)), p += 2;\n if (dtlen < ftlen) {\n lm = hMap(dlt, mlb, 0), ll = dlt, dm = hMap(ddt, mdb, 0), dl = ddt;\n var llm = hMap(lct, mlcb, 0);\n wbits(out, p, nlc - 257);\n wbits(out, p + 5, ndc - 1);\n wbits(out, p + 10, nlcc - 4);\n p += 14;\n for (var i = 0; i < nlcc; ++i)\n wbits(out, p + 3 * i, lct[clim[i]]);\n p += 3 * nlcc;\n var lcts = [lclt, lcdt];\n for (var it = 0; it < 2; ++it) {\n var clct = lcts[it];\n for (var i = 0; i < clct.length; ++i) {\n var len = clct[i] & 31;\n wbits(out, p, llm[len]), p += lct[len];\n if (len > 15)\n wbits(out, p, (clct[i] >> 5) & 127), p += clct[i] >> 12;\n }\n }\n }\n else {\n lm = flm, ll = flt, dm = fdm, dl = fdt;\n }\n for (var i = 0; i < li; ++i) {\n var sym = syms[i];\n if (sym > 255) {\n var len = (sym >> 18) & 31;\n wbits16(out, p, lm[len + 257]), p += ll[len + 257];\n if (len > 7)\n wbits(out, p, (sym >> 23) & 31), p += fleb[len];\n var dst = sym & 31;\n wbits16(out, p, dm[dst]), p += dl[dst];\n if (dst > 3)\n wbits16(out, p, (sym >> 5) & 8191), p += fdeb[dst];\n }\n else {\n wbits16(out, p, lm[sym]), p += ll[sym];\n }\n }\n wbits16(out, p, lm[256]);\n return p + ll[256];\n};\n// deflate options (nice << 13) | chain\nvar deo = /*#__PURE__*/ new i32([65540, 131080, 131088, 131104, 262176, 1048704, 1048832, 2114560, 2117632]);\n// empty\nvar et = /*#__PURE__*/ new u8(0);\n// compresses data into a raw DEFLATE buffer\nvar dflt = function (dat, lvl, plvl, pre, post, st) {\n var s = st.z || dat.length;\n var o = new u8(pre + s + 5 * (1 + Math.ceil(s / 7000)) + post);\n // writing to this writes to the output buffer\n var w = o.subarray(pre, o.length - post);\n var lst = st.l;\n var pos = (st.r || 0) & 7;\n if (lvl) {\n if (pos)\n w[0] = st.r >> 3;\n var opt = deo[lvl - 1];\n var n = opt >> 13, c = opt & 8191;\n var msk_1 = (1 << plvl) - 1;\n // prev 2-byte val map curr 2-byte val map\n var prev = st.p || new u16(32768), head = st.h || new u16(msk_1 + 1);\n var bs1_1 = Math.ceil(plvl / 3), bs2_1 = 2 * bs1_1;\n var hsh = function (i) { return (dat[i] ^ (dat[i + 1] << bs1_1) ^ (dat[i + 2] << bs2_1)) & msk_1; };\n // 24576 is an arbitrary number of maximum symbols per block\n // 424 buffer for last block\n var syms = new i32(25000);\n // length/literal freq distance freq\n var lf = new u16(288), df = new u16(32);\n // l/lcnt exbits index l/lind waitdx blkpos\n var lc_1 = 0, eb = 0, i = st.i || 0, li = 0, wi = st.w || 0, bs = 0;\n for (; i + 2 < s; ++i) {\n // hash value\n var hv = hsh(i);\n // index mod 32768 previous index mod\n var imod = i & 32767, pimod = head[hv];\n prev[imod] = pimod;\n head[hv] = imod;\n // We always should modify head and prev, but only add symbols if\n // this data is not yet processed (\"wait\" for wait index)\n if (wi <= i) {\n // bytes remaining\n var rem = s - i;\n if ((lc_1 > 7000 || li > 24576) && (rem > 423 || !lst)) {\n pos = wblk(dat, w, 0, syms, lf, df, eb, li, bs, i - bs, pos);\n li = lc_1 = eb = 0, bs = i;\n for (var j = 0; j < 286; ++j)\n lf[j] = 0;\n for (var j = 0; j < 30; ++j)\n df[j] = 0;\n }\n // len dist chain\n var l = 2, d = 0, ch_1 = c, dif = imod - pimod & 32767;\n if (rem > 2 && hv == hsh(i - dif)) {\n var maxn = Math.min(n, rem) - 1;\n var maxd = Math.min(32767, i);\n // max possible length\n // not capped at dif because decompressors implement \"rolling\" index population\n var ml = Math.min(258, rem);\n while (dif <= maxd && --ch_1 && imod != pimod) {\n if (dat[i + l] == dat[i + l - dif]) {\n var nl = 0;\n for (; nl < ml && dat[i + nl] == dat[i + nl - dif]; ++nl)\n ;\n if (nl > l) {\n l = nl, d = dif;\n // break out early when we reach \"nice\" (we are satisfied enough)\n if (nl > maxn)\n break;\n // now, find the rarest 2-byte sequence within this\n // length of literals and search for that instead.\n // Much faster than just using the start\n var mmd = Math.min(dif, nl - 2);\n var md = 0;\n for (var j = 0; j < mmd; ++j) {\n var ti = i - dif + j & 32767;\n var pti = prev[ti];\n var cd = ti - pti & 32767;\n if (cd > md)\n md = cd, pimod = ti;\n }\n }\n }\n // check the previous match\n imod = pimod, pimod = prev[imod];\n dif += imod - pimod & 32767;\n }\n }\n // d will be nonzero only when a match was found\n if (d) {\n // store both dist and len data in one int32\n // Make sure this is recognized as a len/dist with 28th bit (2^28)\n syms[li++] = 268435456 | (revfl[l] << 18) | revfd[d];\n var lin = revfl[l] & 31, din = revfd[d] & 31;\n eb += fleb[lin] + fdeb[din];\n ++lf[257 + lin];\n ++df[din];\n wi = i + l;\n ++lc_1;\n }\n else {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n }\n }\n for (i = Math.max(i, wi); i < s; ++i) {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n pos = wblk(dat, w, lst, syms, lf, df, eb, li, bs, i - bs, pos);\n if (!lst) {\n st.r = (pos & 7) | w[(pos / 8) | 0] << 3;\n // shft(pos) now 1 less if pos & 7 != 0\n pos -= 7;\n st.h = head, st.p = prev, st.i = i, st.w = wi;\n }\n }\n else {\n for (var i = st.w || 0; i < s + lst; i += 65535) {\n // end\n var e = i + 65535;\n if (e >= s) {\n // write final block\n w[(pos / 8) | 0] = lst;\n e = s;\n }\n pos = wfblk(w, pos + 1, dat.subarray(i, e));\n }\n st.i = s;\n }\n return slc(o, 0, pre + shft(pos) + post);\n};\n// CRC32 table\nvar crct = /*#__PURE__*/ (function () {\n var t = new Int32Array(256);\n for (var i = 0; i < 256; ++i) {\n var c = i, k = 9;\n while (--k)\n c = ((c & 1) && -306674912) ^ (c >>> 1);\n t[i] = c;\n }\n return t;\n})();\n// CRC32\nvar crc = function () {\n var c = -1;\n return {\n p: function (d) {\n // closures have awful performance\n var cr = c;\n for (var i = 0; i < d.length; ++i)\n cr = crct[(cr & 255) ^ d[i]] ^ (cr >>> 8);\n c = cr;\n },\n d: function () { return ~c; }\n };\n};\n// Adler32\nvar adler = function () {\n var a = 1, b = 0;\n return {\n p: function (d) {\n // closures have awful performance\n var n = a, m = b;\n var l = d.length | 0;\n for (var i = 0; i != l;) {\n var e = Math.min(i + 2655, l);\n for (; i < e; ++i)\n m += n += d[i];\n n = (n & 65535) + 15 * (n >> 16), m = (m & 65535) + 15 * (m >> 16);\n }\n a = n, b = m;\n },\n d: function () {\n a %= 65521, b %= 65521;\n return (a & 255) << 24 | (a & 0xFF00) << 8 | (b & 255) << 8 | (b >> 8);\n }\n };\n};\n;\n// deflate with opts\nvar dopt = function (dat, opt, pre, post, st) {\n if (!st) {\n st = { l: 1 };\n if (opt.dictionary) {\n var dict = opt.dictionary.subarray(-32768);\n var newDat = new u8(dict.length + dat.length);\n newDat.set(dict);\n newDat.set(dat, dict.length);\n dat = newDat;\n st.w = dict.length;\n }\n }\n return dflt(dat, opt.level == null ? 6 : opt.level, opt.mem == null ? (st.l ? Math.ceil(Math.max(8, Math.min(13, Math.log(dat.length))) * 1.5) : 20) : (12 + opt.mem), pre, post, st);\n};\n// Walmart object spread\nvar mrg = function (a, b) {\n var o = {};\n for (var k in a)\n o[k] = a[k];\n for (var k in b)\n o[k] = b[k];\n return o;\n};\n// worker clone\n// This is possibly the craziest part of the entire codebase, despite how simple it may seem.\n// The only parameter to this function is a closure that returns an array of variables outside of the function scope.\n// We're going to try to figure out the variable names used in the closure as strings because that is crucial for workerization.\n// We will return an object mapping of true variable name to value (basically, the current scope as a JS object).\n// The reason we can't just use the original variable names is minifiers mangling the toplevel scope.\n// This took me three weeks to figure out how to do.\nvar wcln = function (fn, fnStr, td) {\n var dt = fn();\n var st = fn.toString();\n var ks = st.slice(st.indexOf('[') + 1, st.lastIndexOf(']')).replace(/\\s+/g, '').split(',');\n for (var i = 0; i < dt.length; ++i) {\n var v = dt[i], k = ks[i];\n if (typeof v == 'function') {\n fnStr += ';' + k + '=';\n var st_1 = v.toString();\n if (v.prototype) {\n // for global objects\n if (st_1.indexOf('[native code]') != -1) {\n var spInd = st_1.indexOf(' ', 8) + 1;\n fnStr += st_1.slice(spInd, st_1.indexOf('(', spInd));\n }\n else {\n fnStr += st_1;\n for (var t in v.prototype)\n fnStr += ';' + k + '.prototype.' + t + '=' + v.prototype[t].toString();\n }\n }\n else\n fnStr += st_1;\n }\n else\n td[k] = v;\n }\n return fnStr;\n};\nvar ch = [];\n// clone bufs\nvar cbfs = function (v) {\n var tl = [];\n for (var k in v) {\n if (v[k].buffer) {\n tl.push((v[k] = new v[k].constructor(v[k])).buffer);\n }\n }\n return tl;\n};\n// use a worker to execute code\nvar wrkr = function (fns, init, id, cb) {\n if (!ch[id]) {\n var fnStr = '', td_1 = {}, m = fns.length - 1;\n for (var i = 0; i < m; ++i)\n fnStr = wcln(fns[i], fnStr, td_1);\n ch[id] = { c: wcln(fns[m], fnStr, td_1), e: td_1 };\n }\n var td = mrg({}, ch[id].e);\n return wk(ch[id].c + ';onmessage=function(e){for(var k in e.data)self[k]=e.data[k];onmessage=' + init.toString() + '}', id, td, cbfs(td), cb);\n};\n// base async inflate fn\nvar bInflt = function () { return [u8, u16, i32, fleb, fdeb, clim, fl, fd, flrm, fdrm, rev, ec, hMap, max, bits, bits16, shft, slc, err, inflt, inflateSync, pbf, gopt]; };\nvar bDflt = function () { return [u8, u16, i32, fleb, fdeb, clim, revfl, revfd, flm, flt, fdm, fdt, rev, deo, et, hMap, wbits, wbits16, hTree, ln, lc, clen, wfblk, wblk, shft, slc, dflt, dopt, deflateSync, pbf]; };\n// gzip extra\nvar gze = function () { return [gzh, gzhl, wbytes, crc, crct]; };\n// gunzip extra\nvar guze = function () { return [gzs, gzl]; };\n// zlib extra\nvar zle = function () { return [zlh, wbytes, adler]; };\n// unzlib extra\nvar zule = function () { return [zls]; };\n// post buf\nvar pbf = function (msg) { return postMessage(msg, [msg.buffer]); };\n// get opts\nvar gopt = function (o) { return o && {\n out: o.size && new u8(o.size),\n dictionary: o.dictionary\n}; };\n// async helper\nvar cbify = function (dat, opts, fns, init, id, cb) {\n var w = wrkr(fns, init, id, function (err, dat) {\n w.terminate();\n cb(err, dat);\n });\n w.postMessage([dat, opts], opts.consume ? [dat.buffer] : []);\n return function () { w.terminate(); };\n};\n// auto stream\nvar astrm = function (strm) {\n strm.ondata = function (dat, final) { return postMessage([dat, final], [dat.buffer]); };\n return function (ev) {\n if (ev.data.length) {\n strm.push(ev.data[0], ev.data[1]);\n postMessage([ev.data[0].length]);\n }\n else\n strm.flush();\n };\n};\n// async stream attach\nvar astrmify = function (fns, strm, opts, init, id, flush, ext) {\n var t;\n var w = wrkr(fns, init, id, function (err, dat) {\n if (err)\n w.terminate(), strm.ondata.call(strm, err);\n else if (!Array.isArray(dat))\n ext(dat);\n else if (dat.length == 1) {\n strm.queuedSize -= dat[0];\n if (strm.ondrain)\n strm.ondrain(dat[0]);\n }\n else {\n if (dat[1])\n w.terminate();\n strm.ondata.call(strm, err, dat[0], dat[1]);\n }\n });\n w.postMessage(opts);\n strm.queuedSize = 0;\n strm.push = function (d, f) {\n if (!strm.ondata)\n err(5);\n if (t)\n strm.ondata(err(4, 0, 1), null, !!f);\n strm.queuedSize += d.length;\n w.postMessage([d, t = f], [d.buffer]);\n };\n strm.terminate = function () { w.terminate(); };\n if (flush) {\n strm.flush = function () { w.postMessage([]); };\n }\n};\n// read 2 bytes\nvar b2 = function (d, b) { return d[b] | (d[b + 1] << 8); };\n// read 4 bytes\nvar b4 = function (d, b) { return (d[b] | (d[b + 1] << 8) | (d[b + 2] << 16) | (d[b + 3] << 24)) >>> 0; };\nvar b8 = function (d, b) { return b4(d, b) + (b4(d, b + 4) * 4294967296); };\n// write bytes\nvar wbytes = function (d, b, v) {\n for (; v; ++b)\n d[b] = v, v >>>= 8;\n};\n// gzip header\nvar gzh = function (c, o) {\n var fn = o.filename;\n c[0] = 31, c[1] = 139, c[2] = 8, c[8] = o.level < 2 ? 4 : o.level == 9 ? 2 : 0, c[9] = 3; // assume Unix\n if (o.mtime != 0)\n wbytes(c, 4, Math.floor(new Date(o.mtime || Date.now()) / 1000));\n if (fn) {\n c[3] = 8;\n for (var i = 0; i <= fn.length; ++i)\n c[i + 10] = fn.charCodeAt(i);\n }\n};\n// gzip footer: -8 to -4 = CRC, -4 to -0 is length\n// gzip start\nvar gzs = function (d) {\n if (d[0] != 31 || d[1] != 139 || d[2] != 8)\n err(6, 'invalid gzip data');\n var flg = d[3];\n var st = 10;\n if (flg & 4)\n st += (d[10] | d[11] << 8) + 2;\n for (var zs = (flg >> 3 & 1) + (flg >> 4 & 1); zs > 0; zs -= !d[st++])\n ;\n return st + (flg & 2);\n};\n// gzip length\nvar gzl = function (d) {\n var l = d.length;\n return (d[l - 4] | d[l - 3] << 8 | d[l - 2] << 16 | d[l - 1] << 24) >>> 0;\n};\n// gzip header length\nvar gzhl = function (o) { return 10 + (o.filename ? o.filename.length + 1 : 0); };\n// zlib header\nvar zlh = function (c, o) {\n var lv = o.level, fl = lv == 0 ? 0 : lv < 6 ? 1 : lv == 9 ? 3 : 2;\n c[0] = 120, c[1] = (fl << 6) | (o.dictionary && 32);\n c[1] |= 31 - ((c[0] << 8) | c[1]) % 31;\n if (o.dictionary) {\n var h = adler();\n h.p(o.dictionary);\n wbytes(c, 2, h.d());\n }\n};\n// zlib start\nvar zls = function (d, dict) {\n if ((d[0] & 15) != 8 || (d[0] >> 4) > 7 || ((d[0] << 8 | d[1]) % 31))\n err(6, 'invalid zlib data');\n if ((d[1] >> 5 & 1) == +!dict)\n err(6, 'invalid zlib data: ' + (d[1] & 32 ? 'need' : 'unexpected') + ' dictionary');\n return (d[1] >> 3 & 4) + 2;\n};\nfunction StrmOpt(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n return opts;\n}\n/**\n * Streaming DEFLATE compression\n */\nvar Deflate = /*#__PURE__*/ (function () {\n function Deflate(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n this.o = opts || {};\n this.s = { l: 0, i: 32768, w: 32768, z: 32768 };\n // Buffer length must always be 0 mod 32768 for index calculations to be correct when modifying head and prev\n // 98304 = 32768 (lookback) + 65536 (common chunk size)\n this.b = new u8(98304);\n if (this.o.dictionary) {\n var dict = this.o.dictionary.subarray(-32768);\n this.b.set(dict, 32768 - dict.length);\n this.s.i = 32768 - dict.length;\n }\n }\n Deflate.prototype.p = function (c, f) {\n this.ondata(dopt(c, this.o, 0, 0, this.s), f);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Deflate.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n var endLen = chunk.length + this.s.z;\n if (endLen > this.b.length) {\n if (endLen > 2 * this.b.length - 32768) {\n var newBuf = new u8(endLen & -32768);\n newBuf.set(this.b.subarray(0, this.s.z));\n this.b = newBuf;\n }\n var split = this.b.length - this.s.z;\n this.b.set(chunk.subarray(0, split), this.s.z);\n this.s.z = this.b.length;\n this.p(this.b, false);\n this.b.set(this.b.subarray(-32768));\n this.b.set(chunk.subarray(split), 32768);\n this.s.z = chunk.length - split + 32768;\n this.s.i = 32766, this.s.w = 32768;\n }\n else {\n this.b.set(chunk, this.s.z);\n this.s.z += chunk.length;\n }\n this.s.l = final & 1;\n if (this.s.z > this.s.w + 8191 || final) {\n this.p(this.b, final || false);\n this.s.w = this.s.i, this.s.i -= 2;\n }\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * deflated output for small inputs.\n */\n Deflate.prototype.flush = function () {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n this.p(this.b, false);\n this.s.w = this.s.i, this.s.i -= 2;\n };\n return Deflate;\n}());\nexport { Deflate };\n/**\n * Asynchronous streaming DEFLATE compression\n */\nvar AsyncDeflate = /*#__PURE__*/ (function () {\n function AsyncDeflate(opts, cb) {\n astrmify([\n bDflt,\n function () { return [astrm, Deflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Deflate(ev.data);\n onmessage = astrm(strm);\n }, 6, 1);\n }\n return AsyncDeflate;\n}());\nexport { AsyncDeflate };\nexport function deflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n ], function (ev) { return pbf(deflateSync(ev.data[0], ev.data[1])); }, 0, cb);\n}\n/**\n * Compresses data with DEFLATE without any wrapper\n * @param data The data to compress\n * @param opts The compression options\n * @returns The deflated version of the data\n */\nexport function deflateSync(data, opts) {\n return dopt(data, opts || {}, 0, 0);\n}\n/**\n * Streaming DEFLATE decompression\n */\nvar Inflate = /*#__PURE__*/ (function () {\n function Inflate(opts, cb) {\n // no StrmOpt here to avoid adding to workerizer\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n var dict = opts && opts.dictionary && opts.dictionary.subarray(-32768);\n this.s = { i: 0, b: dict ? dict.length : 0 };\n this.o = new u8(32768);\n this.p = new u8(0);\n if (dict)\n this.o.set(dict);\n }\n Inflate.prototype.e = function (c) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n if (!this.p.length)\n this.p = c;\n else if (c.length) {\n var n = new u8(this.p.length + c.length);\n n.set(this.p), n.set(c, this.p.length), this.p = n;\n }\n };\n Inflate.prototype.c = function (final) {\n this.s.i = +(this.d = final || false);\n var bts = this.s.b;\n var dt = inflt(this.p, this.s, this.o);\n this.ondata(slc(dt, bts, this.s.b), this.d);\n this.o = slc(dt, this.s.b - 32768), this.s.b = this.o.length;\n this.p = slc(this.p, (this.s.p / 8) | 0), this.s.p &= 7;\n };\n /**\n * Pushes a chunk to be inflated\n * @param chunk The chunk to push\n * @param final Whether this is the final chunk\n */\n Inflate.prototype.push = function (chunk, final) {\n this.e(chunk), this.c(final);\n };\n return Inflate;\n}());\nexport { Inflate };\n/**\n * Asynchronous streaming DEFLATE decompression\n */\nvar AsyncInflate = /*#__PURE__*/ (function () {\n function AsyncInflate(opts, cb) {\n astrmify([\n bInflt,\n function () { return [astrm, Inflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Inflate(ev.data);\n onmessage = astrm(strm);\n }, 7, 0);\n }\n return AsyncInflate;\n}());\nexport { AsyncInflate };\nexport function inflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt\n ], function (ev) { return pbf(inflateSync(ev.data[0], gopt(ev.data[1]))); }, 1, cb);\n}\n/**\n * Expands DEFLATE data with no wrapper\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function inflateSync(data, opts) {\n return inflt(data, { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// before you yell at me for not just using extends, my reason is that TS inheritance is hard to workerize.\n/**\n * Streaming GZIP compression\n */\nvar Gzip = /*#__PURE__*/ (function () {\n function Gzip(opts, cb) {\n this.c = crc();\n this.l = 0;\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gzip.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n this.l += chunk.length;\n Deflate.prototype.push.call(this, chunk, final);\n };\n Gzip.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && gzhl(this.o), f && 8, this.s);\n if (this.v)\n gzh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 8, this.c.d()), wbytes(raw, raw.length - 4, this.l);\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * GZIPped output for small inputs.\n */\n Gzip.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Gzip;\n}());\nexport { Gzip };\n/**\n * Asynchronous streaming GZIP compression\n */\nvar AsyncGzip = /*#__PURE__*/ (function () {\n function AsyncGzip(opts, cb) {\n astrmify([\n bDflt,\n gze,\n function () { return [astrm, Deflate, Gzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gzip(ev.data);\n onmessage = astrm(strm);\n }, 8, 1);\n }\n return AsyncGzip;\n}());\nexport { AsyncGzip };\nexport function gzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n gze,\n function () { return [gzipSync]; }\n ], function (ev) { return pbf(gzipSync(ev.data[0], ev.data[1])); }, 2, cb);\n}\n/**\n * Compresses data with GZIP\n * @param data The data to compress\n * @param opts The compression options\n * @returns The gzipped version of the data\n */\nexport function gzipSync(data, opts) {\n if (!opts)\n opts = {};\n var c = crc(), l = data.length;\n c.p(data);\n var d = dopt(data, opts, gzhl(opts), 8), s = d.length;\n return gzh(d, opts), wbytes(d, s - 8, c.d()), wbytes(d, s - 4, l), d;\n}\n/**\n * Streaming single or multi-member GZIP decompression\n */\nvar Gunzip = /*#__PURE__*/ (function () {\n function Gunzip(opts, cb) {\n this.v = 1;\n this.r = 0;\n Inflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GUNZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gunzip.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n this.r += chunk.length;\n if (this.v) {\n var p = this.p.subarray(this.v - 1);\n var s = p.length > 3 ? gzs(p) : 4;\n if (s > p.length) {\n if (!final)\n return;\n }\n else if (this.v > 1 && this.onmember) {\n this.onmember(this.r - p.length);\n }\n this.p = p.subarray(s), this.v = 0;\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n // process concatenated GZIP\n if (this.s.f && !this.s.l && !final) {\n this.v = shft(this.s.p) + 9;\n this.s = { i: 0 };\n this.o = new u8(0);\n this.push(new u8(0), final);\n }\n };\n return Gunzip;\n}());\nexport { Gunzip };\n/**\n * Asynchronous streaming single or multi-member GZIP decompression\n */\nvar AsyncGunzip = /*#__PURE__*/ (function () {\n function AsyncGunzip(opts, cb) {\n var _this = this;\n astrmify([\n bInflt,\n guze,\n function () { return [astrm, Inflate, Gunzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gunzip(ev.data);\n strm.onmember = function (offset) { return postMessage(offset); };\n onmessage = astrm(strm);\n }, 9, 0, function (offset) { return _this.onmember && _this.onmember(offset); });\n }\n return AsyncGunzip;\n}());\nexport { AsyncGunzip };\nexport function gunzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n guze,\n function () { return [gunzipSync]; }\n ], function (ev) { return pbf(gunzipSync(ev.data[0], ev.data[1])); }, 3, cb);\n}\n/**\n * Expands GZIP data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function gunzipSync(data, opts) {\n var st = gzs(data);\n if (st + 8 > data.length)\n err(6, 'invalid gzip data');\n return inflt(data.subarray(st, -8), { i: 2 }, opts && opts.out || new u8(gzl(data)), opts && opts.dictionary);\n}\n/**\n * Streaming Zlib compression\n */\nvar Zlib = /*#__PURE__*/ (function () {\n function Zlib(opts, cb) {\n this.c = adler();\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be zlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Zlib.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n Deflate.prototype.push.call(this, chunk, final);\n };\n Zlib.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && (this.o.dictionary ? 6 : 2), f && 4, this.s);\n if (this.v)\n zlh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 4, this.c.d());\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * zlibbed output for small inputs.\n */\n Zlib.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Zlib;\n}());\nexport { Zlib };\n/**\n * Asynchronous streaming Zlib compression\n */\nvar AsyncZlib = /*#__PURE__*/ (function () {\n function AsyncZlib(opts, cb) {\n astrmify([\n bDflt,\n zle,\n function () { return [astrm, Deflate, Zlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Zlib(ev.data);\n onmessage = astrm(strm);\n }, 10, 1);\n }\n return AsyncZlib;\n}());\nexport { AsyncZlib };\nexport function zlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n zle,\n function () { return [zlibSync]; }\n ], function (ev) { return pbf(zlibSync(ev.data[0], ev.data[1])); }, 4, cb);\n}\n/**\n * Compress data with Zlib\n * @param data The data to compress\n * @param opts The compression options\n * @returns The zlib-compressed version of the data\n */\nexport function zlibSync(data, opts) {\n if (!opts)\n opts = {};\n var a = adler();\n a.p(data);\n var d = dopt(data, opts, opts.dictionary ? 6 : 2, 4);\n return zlh(d, opts), wbytes(d, d.length - 4, a.d()), d;\n}\n/**\n * Streaming Zlib decompression\n */\nvar Unzlib = /*#__PURE__*/ (function () {\n function Unzlib(opts, cb) {\n Inflate.call(this, opts, cb);\n this.v = opts && opts.dictionary ? 2 : 1;\n }\n /**\n * Pushes a chunk to be unzlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzlib.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n if (this.v) {\n if (this.p.length < 6 && !final)\n return;\n this.p = this.p.subarray(zls(this.p, this.v - 1)), this.v = 0;\n }\n if (final) {\n if (this.p.length < 4)\n err(6, 'invalid zlib data');\n this.p = this.p.subarray(0, -4);\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n };\n return Unzlib;\n}());\nexport { Unzlib };\n/**\n * Asynchronous streaming Zlib decompression\n */\nvar AsyncUnzlib = /*#__PURE__*/ (function () {\n function AsyncUnzlib(opts, cb) {\n astrmify([\n bInflt,\n zule,\n function () { return [astrm, Inflate, Unzlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Unzlib(ev.data);\n onmessage = astrm(strm);\n }, 11, 0);\n }\n return AsyncUnzlib;\n}());\nexport { AsyncUnzlib };\nexport function unzlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n zule,\n function () { return [unzlibSync]; }\n ], function (ev) { return pbf(unzlibSync(ev.data[0], gopt(ev.data[1]))); }, 5, cb);\n}\n/**\n * Expands Zlib data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function unzlibSync(data, opts) {\n return inflt(data.subarray(zls(data, opts && opts.dictionary), -4), { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// Default algorithm for compression (used because having a known output size allows faster decompression)\nexport { gzip as compress, AsyncGzip as AsyncCompress };\nexport { gzipSync as compressSync, Gzip as Compress };\n/**\n * Streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar Decompress = /*#__PURE__*/ (function () {\n function Decompress(opts, cb) {\n this.o = StrmOpt.call(this, opts, cb) || {};\n this.G = Gunzip;\n this.I = Inflate;\n this.Z = Unzlib;\n }\n // init substream\n // overriden by AsyncDecompress\n Decompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (dat, final) {\n _this.ondata(dat, final);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Decompress.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (!this.s) {\n if (this.p && this.p.length) {\n var n = new u8(this.p.length + chunk.length);\n n.set(this.p), n.set(chunk, this.p.length);\n }\n else\n this.p = chunk;\n if (this.p.length > 2) {\n this.s = (this.p[0] == 31 && this.p[1] == 139 && this.p[2] == 8)\n ? new this.G(this.o)\n : ((this.p[0] & 15) != 8 || (this.p[0] >> 4) > 7 || ((this.p[0] << 8 | this.p[1]) % 31))\n ? new this.I(this.o)\n : new this.Z(this.o);\n this.i();\n this.s.push(this.p, final);\n this.p = null;\n }\n }\n else\n this.s.push(chunk, final);\n };\n return Decompress;\n}());\nexport { Decompress };\n/**\n * Asynchronous streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar AsyncDecompress = /*#__PURE__*/ (function () {\n function AsyncDecompress(opts, cb) {\n Decompress.call(this, opts, cb);\n this.queuedSize = 0;\n this.G = AsyncGunzip;\n this.I = AsyncInflate;\n this.Z = AsyncUnzlib;\n }\n AsyncDecompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (err, dat, final) {\n _this.ondata(err, dat, final);\n };\n this.s.ondrain = function (size) {\n _this.queuedSize -= size;\n if (_this.ondrain)\n _this.ondrain(size);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncDecompress.prototype.push = function (chunk, final) {\n this.queuedSize += chunk.length;\n Decompress.prototype.push.call(this, chunk, final);\n };\n return AsyncDecompress;\n}());\nexport { AsyncDecompress };\nexport function decompress(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzip(data, opts, cb)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflate(data, opts, cb)\n : unzlib(data, opts, cb);\n}\n/**\n * Expands compressed GZIP, Zlib, or raw DEFLATE data, automatically detecting the format\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function decompressSync(data, opts) {\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzipSync(data, opts)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflateSync(data, opts)\n : unzlibSync(data, opts);\n}\n// flatten a directory structure\nvar fltn = function (d, p, t, o) {\n for (var k in d) {\n var val = d[k], n = p + k, op = o;\n if (Array.isArray(val))\n op = mrg(o, val[1]), val = val[0];\n if (val instanceof u8)\n t[n] = [val, op];\n else {\n t[n += '/'] = [new u8(0), op];\n fltn(val, n, t, o);\n }\n }\n};\n// text encoder\nvar te = typeof TextEncoder != 'undefined' && /*#__PURE__*/ new TextEncoder();\n// text decoder\nvar td = typeof TextDecoder != 'undefined' && /*#__PURE__*/ new TextDecoder();\n// text decoder stream\nvar tds = 0;\ntry {\n td.decode(et, { stream: true });\n tds = 1;\n}\ncatch (e) { }\n// decode UTF8\nvar dutf8 = function (d) {\n for (var r = '', i = 0;;) {\n var c = d[i++];\n var eb = (c > 127) + (c > 223) + (c > 239);\n if (i + eb > d.length)\n return { s: r, r: slc(d, i - 1) };\n if (!eb)\n r += String.fromCharCode(c);\n else if (eb == 3) {\n c = ((c & 15) << 18 | (d[i++] & 63) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63)) - 65536,\n r += String.fromCharCode(55296 | (c >> 10), 56320 | (c & 1023));\n }\n else if (eb & 1)\n r += String.fromCharCode((c & 31) << 6 | (d[i++] & 63));\n else\n r += String.fromCharCode((c & 15) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63));\n }\n};\n/**\n * Streaming UTF-8 decoding\n */\nvar DecodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is decoded\n */\n function DecodeUTF8(cb) {\n this.ondata = cb;\n if (tds)\n this.t = new TextDecoder();\n else\n this.p = et;\n }\n /**\n * Pushes a chunk to be decoded from UTF-8 binary\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n DecodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n final = !!final;\n if (this.t) {\n this.ondata(this.t.decode(chunk, { stream: true }), final);\n if (final) {\n if (this.t.decode().length)\n err(8);\n this.t = null;\n }\n return;\n }\n if (!this.p)\n err(4);\n var dat = new u8(this.p.length + chunk.length);\n dat.set(this.p);\n dat.set(chunk, this.p.length);\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (final) {\n if (r.length)\n err(8);\n this.p = null;\n }\n else\n this.p = r;\n this.ondata(s, final);\n };\n return DecodeUTF8;\n}());\nexport { DecodeUTF8 };\n/**\n * Streaming UTF-8 encoding\n */\nvar EncodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is encoded\n */\n function EncodeUTF8(cb) {\n this.ondata = cb;\n }\n /**\n * Pushes a chunk to be encoded to UTF-8\n * @param chunk The string data to push\n * @param final Whether this is the last chunk\n */\n EncodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n this.ondata(strToU8(chunk), this.d = final || false);\n };\n return EncodeUTF8;\n}());\nexport { EncodeUTF8 };\n/**\n * Converts a string into a Uint8Array for use with compression/decompression methods\n * @param str The string to encode\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless decoding a binary string.\n * @returns The string encoded in UTF-8/Latin-1 binary\n */\nexport function strToU8(str, latin1) {\n if (latin1) {\n var ar_1 = new u8(str.length);\n for (var i = 0; i < str.length; ++i)\n ar_1[i] = str.charCodeAt(i);\n return ar_1;\n }\n if (te)\n return te.encode(str);\n var l = str.length;\n var ar = new u8(str.length + (str.length >> 1));\n var ai = 0;\n var w = function (v) { ar[ai++] = v; };\n for (var i = 0; i < l; ++i) {\n if (ai + 5 > ar.length) {\n var n = new u8(ai + 8 + ((l - i) << 1));\n n.set(ar);\n ar = n;\n }\n var c = str.charCodeAt(i);\n if (c < 128 || latin1)\n w(c);\n else if (c < 2048)\n w(192 | (c >> 6)), w(128 | (c & 63));\n else if (c > 55295 && c < 57344)\n c = 65536 + (c & 1023 << 10) | (str.charCodeAt(++i) & 1023),\n w(240 | (c >> 18)), w(128 | ((c >> 12) & 63)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n else\n w(224 | (c >> 12)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n }\n return slc(ar, 0, ai);\n}\n/**\n * Converts a Uint8Array to a string\n * @param dat The data to decode to string\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless encoding to binary string.\n * @returns The original UTF-8/Latin-1 string\n */\nexport function strFromU8(dat, latin1) {\n if (latin1) {\n var r = '';\n for (var i = 0; i < dat.length; i += 16384)\n r += String.fromCharCode.apply(null, dat.subarray(i, i + 16384));\n return r;\n }\n else if (td) {\n return td.decode(dat);\n }\n else {\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (r.length)\n err(8);\n return s;\n }\n}\n;\n// deflate bit flag\nvar dbf = function (l) { return l == 1 ? 3 : l < 6 ? 2 : l == 9 ? 1 : 0; };\n// skip local zip header\nvar slzh = function (d, b) { return b + 30 + b2(d, b + 26) + b2(d, b + 28); };\n// read zip header\nvar zh = function (d, b, z) {\n var fnl = b2(d, b + 28), fn = strFromU8(d.subarray(b + 46, b + 46 + fnl), !(b2(d, b + 8) & 2048)), es = b + 46 + fnl, bs = b4(d, b + 20);\n var _a = z && bs == 4294967295 ? z64e(d, es) : [bs, b4(d, b + 24), b4(d, b + 42)], sc = _a[0], su = _a[1], off = _a[2];\n return [b2(d, b + 10), sc, su, fn, es + b2(d, b + 30) + b2(d, b + 32), off];\n};\n// read zip64 extra field\nvar z64e = function (d, b) {\n for (; b2(d, b) != 1; b += 4 + b2(d, b + 2))\n ;\n return [b8(d, b + 12), b8(d, b + 4), b8(d, b + 20)];\n};\n// extra field length\nvar exfl = function (ex) {\n var le = 0;\n if (ex) {\n for (var k in ex) {\n var l = ex[k].length;\n if (l > 65535)\n err(9);\n le += l + 4;\n }\n }\n return le;\n};\n// write zip header\nvar wzh = function (d, b, f, fn, u, c, ce, co) {\n var fl = fn.length, ex = f.extra, col = co && co.length;\n var exl = exfl(ex);\n wbytes(d, b, ce != null ? 0x2014B50 : 0x4034B50), b += 4;\n if (ce != null)\n d[b++] = 20, d[b++] = f.os;\n d[b] = 20, b += 2; // spec compliance? what's that?\n d[b++] = (f.flag << 1) | (c < 0 && 8), d[b++] = u && 8;\n d[b++] = f.compression & 255, d[b++] = f.compression >> 8;\n var dt = new Date(f.mtime == null ? Date.now() : f.mtime), y = dt.getFullYear() - 1980;\n if (y < 0 || y > 119)\n err(10);\n wbytes(d, b, (y << 25) | ((dt.getMonth() + 1) << 21) | (dt.getDate() << 16) | (dt.getHours() << 11) | (dt.getMinutes() << 5) | (dt.getSeconds() >> 1)), b += 4;\n if (c != -1) {\n wbytes(d, b, f.crc);\n wbytes(d, b + 4, c < 0 ? -c - 2 : c);\n wbytes(d, b + 8, f.size);\n }\n wbytes(d, b + 12, fl);\n wbytes(d, b + 14, exl), b += 16;\n if (ce != null) {\n wbytes(d, b, col);\n wbytes(d, b + 6, f.attrs);\n wbytes(d, b + 10, ce), b += 14;\n }\n d.set(fn, b);\n b += fl;\n if (exl) {\n for (var k in ex) {\n var exf = ex[k], l = exf.length;\n wbytes(d, b, +k);\n wbytes(d, b + 2, l);\n d.set(exf, b + 4), b += 4 + l;\n }\n }\n if (col)\n d.set(co, b), b += col;\n return b;\n};\n// write zip footer (end of central directory)\nvar wzf = function (o, b, c, d, e) {\n wbytes(o, b, 0x6054B50); // skip disk\n wbytes(o, b + 8, c);\n wbytes(o, b + 10, c);\n wbytes(o, b + 12, d);\n wbytes(o, b + 16, e);\n};\n/**\n * A pass-through stream to keep data uncompressed in a ZIP archive.\n */\nvar ZipPassThrough = /*#__PURE__*/ (function () {\n /**\n * Creates a pass-through stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n */\n function ZipPassThrough(filename) {\n this.filename = filename;\n this.c = crc();\n this.size = 0;\n this.compression = 0;\n }\n /**\n * Processes a chunk and pushes to the output stream. You can override this\n * method in a subclass for custom behavior, but by default this passes\n * the data through. You must call this.ondata(err, chunk, final) at some\n * point in this method.\n * @param chunk The chunk to process\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.process = function (chunk, final) {\n this.ondata(null, chunk, final);\n };\n /**\n * Pushes a chunk to be added. If you are subclassing this with a custom\n * compression algorithm, note that you must push data from the source\n * file only, pre-compression.\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n this.c.p(chunk);\n this.size += chunk.length;\n if (final)\n this.crc = this.c.d();\n this.process(chunk, final || false);\n };\n return ZipPassThrough;\n}());\nexport { ZipPassThrough };\n// I don't extend because TypeScript extension adds 1kB of runtime bloat\n/**\n * Streaming DEFLATE compression for ZIP archives. Prefer using AsyncZipDeflate\n * for better performance\n */\nvar ZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function ZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new Deflate(opts, function (dat, final) {\n _this.ondata(null, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n }\n ZipDeflate.prototype.process = function (chunk, final) {\n try {\n this.d.push(chunk, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return ZipDeflate;\n}());\nexport { ZipDeflate };\n/**\n * Asynchronous streaming DEFLATE compression for ZIP archives\n */\nvar AsyncZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates an asynchronous DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function AsyncZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new AsyncDeflate(opts, function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n this.terminate = this.d.terminate;\n }\n AsyncZipDeflate.prototype.process = function (chunk, final) {\n this.d.push(chunk, final);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return AsyncZipDeflate;\n}());\nexport { AsyncZipDeflate };\n// TODO: Better tree shaking\n/**\n * A zippable archive to which files can incrementally be added\n */\nvar Zip = /*#__PURE__*/ (function () {\n /**\n * Creates an empty ZIP archive to which files can be added\n * @param cb The callback to call whenever data for the generated ZIP archive\n * is available\n */\n function Zip(cb) {\n this.ondata = cb;\n this.u = [];\n this.d = 1;\n }\n /**\n * Adds a file to the ZIP archive\n * @param file The file stream to add\n */\n Zip.prototype.add = function (file) {\n var _this = this;\n if (!this.ondata)\n err(5);\n // finishing or finished\n if (this.d & 2)\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, false);\n else {\n var f = strToU8(file.filename), fl_1 = f.length;\n var com = file.comment, o = com && strToU8(com);\n var u = fl_1 != file.filename.length || (o && (com.length != o.length));\n var hl_1 = fl_1 + exfl(file.extra) + 30;\n if (fl_1 > 65535)\n this.ondata(err(11, 0, 1), null, false);\n var header = new u8(hl_1);\n wzh(header, 0, file, f, u, -1);\n var chks_1 = [header];\n var pAll_1 = function () {\n for (var _i = 0, chks_2 = chks_1; _i < chks_2.length; _i++) {\n var chk = chks_2[_i];\n _this.ondata(null, chk, false);\n }\n chks_1 = [];\n };\n var tr_1 = this.d;\n this.d = 0;\n var ind_1 = this.u.length;\n var uf_1 = mrg(file, {\n f: f,\n u: u,\n o: o,\n t: function () {\n if (file.terminate)\n file.terminate();\n },\n r: function () {\n pAll_1();\n if (tr_1) {\n var nxt = _this.u[ind_1 + 1];\n if (nxt)\n nxt.r();\n else\n _this.d = 1;\n }\n tr_1 = 1;\n }\n });\n var cl_1 = 0;\n file.ondata = function (err, dat, final) {\n if (err) {\n _this.ondata(err, dat, final);\n _this.terminate();\n }\n else {\n cl_1 += dat.length;\n chks_1.push(dat);\n if (final) {\n var dd = new u8(16);\n wbytes(dd, 0, 0x8074B50);\n wbytes(dd, 4, file.crc);\n wbytes(dd, 8, cl_1);\n wbytes(dd, 12, file.size);\n chks_1.push(dd);\n uf_1.c = cl_1, uf_1.b = hl_1 + cl_1 + 16, uf_1.crc = file.crc, uf_1.size = file.size;\n if (tr_1)\n uf_1.r();\n tr_1 = 1;\n }\n else if (tr_1)\n pAll_1();\n }\n };\n this.u.push(uf_1);\n }\n };\n /**\n * Ends the process of adding files and prepares to emit the final chunks.\n * This *must* be called after adding all desired files for the resulting\n * ZIP file to work properly.\n */\n Zip.prototype.end = function () {\n var _this = this;\n if (this.d & 2) {\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, true);\n return;\n }\n if (this.d)\n this.e();\n else\n this.u.push({\n r: function () {\n if (!(_this.d & 1))\n return;\n _this.u.splice(-1, 1);\n _this.e();\n },\n t: function () { }\n });\n this.d = 3;\n };\n Zip.prototype.e = function () {\n var bt = 0, l = 0, tl = 0;\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n tl += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0);\n }\n var out = new u8(tl + 22);\n for (var _b = 0, _c = this.u; _b < _c.length; _b++) {\n var f = _c[_b];\n wzh(out, bt, f, f.f, f.u, -f.c - 2, l, f.o);\n bt += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0), l += f.b;\n }\n wzf(out, bt, this.u.length, tl, l);\n this.ondata(null, out, true);\n this.d = 2;\n };\n /**\n * A method to terminate any internal workers used by the stream. Subsequent\n * calls to add() will fail.\n */\n Zip.prototype.terminate = function () {\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n f.t();\n }\n this.d = 2;\n };\n return Zip;\n}());\nexport { Zip };\nexport function zip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var r = {};\n fltn(data, '', r, opts);\n var k = Object.keys(r);\n var lft = k.length, o = 0, tot = 0;\n var slft = lft, files = new Array(lft);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var cbf = function () {\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n tot = 0;\n for (var i = 0; i < slft; ++i) {\n var f = files[i];\n try {\n var l = f.c.length;\n wzh(out, tot, f, f.f, f.u, l);\n var badd = 30 + f.f.length + exfl(f.extra);\n var loc = tot + badd;\n out.set(f.c, loc);\n wzh(out, o, f, f.f, f.u, l, tot, f.m), o += 16 + badd + (f.m ? f.m.length : 0), tot = loc + l;\n }\n catch (e) {\n return cbd(e, null);\n }\n }\n wzf(out, o, files.length, cdl, oe);\n cbd(null, out);\n };\n if (!lft)\n cbf();\n var _loop_1 = function (i) {\n var fn = k[i];\n var _a = r[fn], file = _a[0], p = _a[1];\n var c = crc(), size = file.length;\n c.p(file);\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n var compression = p.level == 0 ? 0 : 8;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n var l = d.length;\n files[i] = mrg(p, {\n size: size,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n compression: compression\n });\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n if (!--lft)\n cbf();\n }\n };\n if (s > 65535)\n cbl(err(11, 0, 1), null);\n if (!compression)\n cbl(null, file);\n else if (size < 160000) {\n try {\n cbl(null, deflateSync(file, p));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(deflate(file, p, cbl));\n };\n // Cannot use lft because it can decrease\n for (var i = 0; i < slft; ++i) {\n _loop_1(i);\n }\n return tAll;\n}\n/**\n * Synchronously creates a ZIP file. Prefer using `zip` for better performance\n * with more than one file.\n * @param data The directory structure for the ZIP archive\n * @param opts The main options, merged with per-file options\n * @returns The generated ZIP archive\n */\nexport function zipSync(data, opts) {\n if (!opts)\n opts = {};\n var r = {};\n var files = [];\n fltn(data, '', r, opts);\n var o = 0;\n var tot = 0;\n for (var fn in r) {\n var _a = r[fn], file = _a[0], p = _a[1];\n var compression = p.level == 0 ? 0 : 8;\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n if (s > 65535)\n err(11);\n var d = compression ? deflateSync(file, p) : file, l = d.length;\n var c = crc();\n c.p(file);\n files.push(mrg(p, {\n size: file.length,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n o: o,\n compression: compression\n }));\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n }\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n for (var i = 0; i < files.length; ++i) {\n var f = files[i];\n wzh(out, f.o, f, f.f, f.u, f.c.length);\n var badd = 30 + f.f.length + exfl(f.extra);\n out.set(f.c, f.o + badd);\n wzh(out, o, f, f.f, f.u, f.c.length, f.o, f.m), o += 16 + badd + (f.m ? f.m.length : 0);\n }\n wzf(out, o, files.length, cdl, oe);\n return out;\n}\n/**\n * Streaming pass-through decompression for ZIP archives\n */\nvar UnzipPassThrough = /*#__PURE__*/ (function () {\n function UnzipPassThrough() {\n }\n UnzipPassThrough.prototype.push = function (data, final) {\n this.ondata(null, data, final);\n };\n UnzipPassThrough.compression = 0;\n return UnzipPassThrough;\n}());\nexport { UnzipPassThrough };\n/**\n * Streaming DEFLATE decompression for ZIP archives. Prefer AsyncZipInflate for\n * better performance.\n */\nvar UnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function UnzipInflate() {\n var _this = this;\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n UnzipInflate.prototype.push = function (data, final) {\n try {\n this.i.push(data, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n UnzipInflate.compression = 8;\n return UnzipInflate;\n}());\nexport { UnzipInflate };\n/**\n * Asynchronous streaming DEFLATE decompression for ZIP archives\n */\nvar AsyncUnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function AsyncUnzipInflate(_, sz) {\n var _this = this;\n if (sz < 320000) {\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n else {\n this.i = new AsyncInflate(function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.terminate = this.i.terminate;\n }\n }\n AsyncUnzipInflate.prototype.push = function (data, final) {\n if (this.i.terminate)\n data = slc(data, 0);\n this.i.push(data, final);\n };\n AsyncUnzipInflate.compression = 8;\n return AsyncUnzipInflate;\n}());\nexport { AsyncUnzipInflate };\n/**\n * A ZIP archive decompression stream that emits files as they are discovered\n */\nvar Unzip = /*#__PURE__*/ (function () {\n /**\n * Creates a ZIP decompression stream\n * @param cb The callback to call whenever a file in the ZIP archive is found\n */\n function Unzip(cb) {\n this.onfile = cb;\n this.k = [];\n this.o = {\n 0: UnzipPassThrough\n };\n this.p = et;\n }\n /**\n * Pushes a chunk to be unzipped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzip.prototype.push = function (chunk, final) {\n var _this = this;\n if (!this.onfile)\n err(5);\n if (!this.p)\n err(4);\n if (this.c > 0) {\n var len = Math.min(this.c, chunk.length);\n var toAdd = chunk.subarray(0, len);\n this.c -= len;\n if (this.d)\n this.d.push(toAdd, !this.c);\n else\n this.k[0].push(toAdd);\n chunk = chunk.subarray(len);\n if (chunk.length)\n return this.push(chunk, final);\n }\n else {\n var f = 0, i = 0, is = void 0, buf = void 0;\n if (!this.p.length)\n buf = chunk;\n else if (!chunk.length)\n buf = this.p;\n else {\n buf = new u8(this.p.length + chunk.length);\n buf.set(this.p), buf.set(chunk, this.p.length);\n }\n var l = buf.length, oc = this.c, add = oc && this.d;\n var _loop_2 = function () {\n var _a;\n var sig = b4(buf, i);\n if (sig == 0x4034B50) {\n f = 1, is = i;\n this_1.d = null;\n this_1.c = 0;\n var bf = b2(buf, i + 6), cmp_1 = b2(buf, i + 8), u = bf & 2048, dd = bf & 8, fnl = b2(buf, i + 26), es = b2(buf, i + 28);\n if (l > i + 30 + fnl + es) {\n var chks_3 = [];\n this_1.k.unshift(chks_3);\n f = 2;\n var sc_1 = b4(buf, i + 18), su_1 = b4(buf, i + 22);\n var fn_1 = strFromU8(buf.subarray(i + 30, i += 30 + fnl), !u);\n if (sc_1 == 4294967295) {\n _a = dd ? [-2] : z64e(buf, i), sc_1 = _a[0], su_1 = _a[1];\n }\n else if (dd)\n sc_1 = -1;\n i += es;\n this_1.c = sc_1;\n var d_1;\n var file_1 = {\n name: fn_1,\n compression: cmp_1,\n start: function () {\n if (!file_1.ondata)\n err(5);\n if (!sc_1)\n file_1.ondata(null, et, true);\n else {\n var ctr = _this.o[cmp_1];\n if (!ctr)\n file_1.ondata(err(14, 'unknown compression type ' + cmp_1, 1), null, false);\n d_1 = sc_1 < 0 ? new ctr(fn_1) : new ctr(fn_1, sc_1, su_1);\n d_1.ondata = function (err, dat, final) { file_1.ondata(err, dat, final); };\n for (var _i = 0, chks_4 = chks_3; _i < chks_4.length; _i++) {\n var dat = chks_4[_i];\n d_1.push(dat, false);\n }\n if (_this.k[0] == chks_3 && _this.c)\n _this.d = d_1;\n else\n d_1.push(et, true);\n }\n },\n terminate: function () {\n if (d_1 && d_1.terminate)\n d_1.terminate();\n }\n };\n if (sc_1 >= 0)\n file_1.size = sc_1, file_1.originalSize = su_1;\n this_1.onfile(file_1);\n }\n return \"break\";\n }\n else if (oc) {\n if (sig == 0x8074B50) {\n is = i += 12 + (oc == -2 && 8), f = 3, this_1.c = 0;\n return \"break\";\n }\n else if (sig == 0x2014B50) {\n is = i -= 4, f = 3, this_1.c = 0;\n return \"break\";\n }\n }\n };\n var this_1 = this;\n for (; i < l - 4; ++i) {\n var state_1 = _loop_2();\n if (state_1 === \"break\")\n break;\n }\n this.p = et;\n if (oc < 0) {\n var dat = f ? buf.subarray(0, is - 12 - (oc == -2 && 8) - (b4(buf, is - 16) == 0x8074B50 && 4)) : buf.subarray(0, i);\n if (add)\n add.push(dat, !!f);\n else\n this.k[+(f == 2)].push(dat);\n }\n if (f & 2)\n return this.push(buf.subarray(i), final);\n this.p = buf.subarray(i);\n }\n if (final) {\n if (this.c)\n err(13);\n this.p = null;\n }\n };\n /**\n * Registers a decoder with the stream, allowing for files compressed with\n * the compression type provided to be expanded correctly\n * @param decoder The decoder constructor\n */\n Unzip.prototype.register = function (decoder) {\n this.o[decoder.compression] = decoder;\n };\n return Unzip;\n}());\nexport { Unzip };\nvar mt = typeof queueMicrotask == 'function' ? queueMicrotask : typeof setTimeout == 'function' ? setTimeout : function (fn) { fn(); };\nexport function unzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var files = {};\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558) {\n cbd(err(13, 0, 1), null);\n return tAll;\n }\n }\n ;\n var lft = b2(data, e + 8);\n if (lft) {\n var c = lft;\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = lft = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n var _loop_3 = function (i) {\n var _a = zh(data, o, z), c_1 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n if (d)\n files[fn] = d;\n if (!--lft)\n cbd(null, files);\n }\n };\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_1\n })) {\n if (!c_1)\n cbl(null, slc(data, b, b + sc));\n else if (c_1 == 8) {\n var infl = data.subarray(b, b + sc);\n // Synchronously decompress under 512KB, or barely-compressed data\n if (su < 524288 || sc > 0.8 * su) {\n try {\n cbl(null, inflateSync(infl, { out: new u8(su) }));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(inflate(infl, { size: su }, cbl));\n }\n else\n cbl(err(14, 'unknown compression type ' + c_1, 1), null);\n }\n else\n cbl(null, null);\n };\n for (var i = 0; i < c; ++i) {\n _loop_3(i);\n }\n }\n else\n cbd(null, {});\n return tAll;\n}\n/**\n * Synchronously decompresses a ZIP archive. Prefer using `unzip` for better\n * performance with more than one file.\n * @param data The raw compressed ZIP file\n * @param opts The ZIP extraction options\n * @returns The decompressed files\n */\nexport function unzipSync(data, opts) {\n var files = {};\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558)\n err(13);\n }\n ;\n var c = b2(data, e + 8);\n if (!c)\n return {};\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n for (var i = 0; i < c; ++i) {\n var _a = zh(data, o, z), c_2 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_2\n })) {\n if (!c_2)\n files[fn] = slc(data, b, b + sc);\n else if (c_2 == 8)\n files[fn] = inflateSync(data.subarray(b, b + sc), { out: new u8(su) });\n else\n err(14, 'unknown compression type ' + c_2);\n }\n }\n return files;\n}\n","// LN_SCALE_MIN..LN_SCALE_MAX define the internal scale range of for Gsplats,\n// covering approx 0.0001..8000 in range with discrete steps 7% apart.\n// The value \"0\" is reserved for truly flat scales, indicating a 2DGS.\n// If these values are changed, the corresponding values in splatDefines.glsl\n// must also be updated to match.\n\nexport const LN_SCALE_MIN = -12.0;\nexport const LN_SCALE_MAX = 9.0;\nexport const SCALE_MIN = Math.exp(LN_SCALE_MIN);\nexport const SCALE_MAX = Math.exp(LN_SCALE_MAX);\n\nexport const LN_SCALE_ZERO = -30.0;\nexport const SCALE_ZERO = Math.exp(LN_SCALE_ZERO);\n\n// Gsplats are stored in textures that are 2^11 x 2^11 x up to 2^11\n// Most WebGL2 implementations support 2D textures up to 2^12 x 2^12 (max 16M Gsplats)\n// 2D array textures and 3D textures up to 2^11 x 2^11 x 2^11 (max 8G Gsplats),\n// so we use 2D array textures for our representation for higher limits.\n\nexport const SPLAT_TEX_WIDTH_BITS = 11;\nexport const SPLAT_TEX_HEIGHT_BITS = 11;\nexport const SPLAT_TEX_DEPTH_BITS = 11;\nexport const SPLAT_TEX_LAYER_BITS =\n SPLAT_TEX_WIDTH_BITS + SPLAT_TEX_HEIGHT_BITS;\n\nexport const SPLAT_TEX_WIDTH = 1 << SPLAT_TEX_WIDTH_BITS; // 2048\nexport const SPLAT_TEX_HEIGHT = 1 << SPLAT_TEX_HEIGHT_BITS; // 2048\nexport const SPLAT_TEX_DEPTH = 1 << SPLAT_TEX_DEPTH_BITS; // 2048\nexport const SPLAT_TEX_MIN_HEIGHT = 1;\n\nexport const SPLAT_TEX_WIDTH_MASK = SPLAT_TEX_WIDTH - 1;\nexport const SPLAT_TEX_HEIGHT_MASK = SPLAT_TEX_HEIGHT - 1;\nexport const SPLAT_TEX_DEPTH_MASK = SPLAT_TEX_DEPTH - 1;\n\n// Enable/disable Gsplat sorting via Rust WASM code. In testing the sorting\n// time between pure JS and WASM are minimal and don't make a big difference.\n\nexport const WASM_SPLAT_SORT = true;\n\n// Enable/disable compiling a dedicated parse function per element type\n// in the plyReader.\n\nexport const USE_COMPILED_PARSER_FUNCTION = true;\n\nexport enum SplatFileType {\n PLY = \"ply\",\n SPZ = \"spz\",\n SPLAT = \"splat\",\n KSPLAT = \"ksplat\",\n PCSOGS = \"pcsogs\",\n PCSOGSZIP = \"pcsogszip\",\n RAD = \"rad\",\n}\n\nexport type SplatEncoding = {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n sh1Max?: number;\n sh2Max?: number;\n sh3Max?: number;\n lodOpacity?: boolean;\n};\n\nexport const DEFAULT_SPLAT_ENCODING: SplatEncoding = {\n rgbMin: 0,\n rgbMax: 1,\n lnScaleMin: LN_SCALE_MIN,\n lnScaleMax: LN_SCALE_MAX,\n sh1Max: 1,\n sh2Max: 1,\n sh3Max: 1,\n lodOpacity: false,\n};\n\nexport type RadMeta = {\n version: number;\n type: string;\n count: number;\n maxSh?: number;\n lodTree?: boolean;\n chunkSize?: number;\n chunks: {\n offset: number;\n bytes: number;\n base?: number;\n count?: number;\n filename?: string;\n }[];\n splatEncoding?: SplatEncoding;\n};\n\nexport type PackedExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type PackedResult = {\n numSplats: number;\n packedArray: Uint32Array;\n extra: PackedExtra;\n splatEncoding: SplatEncoding;\n};\n\nexport type ExtExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3a?: Uint32Array;\n sh3b?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: [Uint32Array, Uint32Array];\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type ExtResult = {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: ExtExtra;\n};\n","import type * as THREE from \"three\";\n\nexport type BoolTypes = \"bool\" | \"bvec2\" | \"bvec3\" | \"bvec4\";\nexport type IntTypes = \"int\" | \"ivec2\" | \"ivec3\" | \"ivec4\";\nexport type UintTypes = \"uint\" | \"uvec2\" | \"uvec3\" | \"uvec4\";\nexport type AllIntTypes = IntTypes | UintTypes;\nexport type FloatTypes = \"float\" | \"vec2\" | \"vec3\" | \"vec4\";\nexport type ScalarTypes = \"uint\" | \"int\" | \"float\";\nexport type Vector2Types = \"vec2\" | \"ivec2\" | \"uvec2\";\nexport type Vector3Types = \"vec3\" | \"ivec3\" | \"uvec3\";\nexport type Vector4Types = \"vec4\" | \"ivec4\" | \"uvec4\";\nexport type VectorTypes = Vector2Types | Vector3Types | Vector4Types;\nexport type MatFloatTypes =\n | \"mat2\"\n | \"mat2x2\"\n | \"mat2x3\"\n | \"mat2x4\"\n | \"mat3\"\n | \"mat3x2\"\n | \"mat3x3\"\n | \"mat3x4\"\n | \"mat4\"\n | \"mat4x2\"\n | \"mat4x3\"\n | \"mat4x4\";\nexport type SquareMatTypes =\n | \"mat2\"\n | \"mat3\"\n | \"mat4\"\n | \"mat2x2\"\n | \"mat3x3\"\n | \"mat4x4\";\nexport type AllFloatTypes = FloatTypes | MatFloatTypes;\nexport type SignedTypes = IntTypes | FloatTypes;\nexport type AllSignedTypes = SignedTypes | MatFloatTypes;\nexport type ValueTypes = FloatTypes | IntTypes | UintTypes;\nexport type AllValueTypes = AllFloatTypes | IntTypes | UintTypes;\nexport type SimpleTypes = BoolTypes | AllValueTypes;\n\nexport type VectorElementType = A extends FloatTypes\n ? \"float\"\n : A extends IntTypes\n ? \"int\"\n : A extends UintTypes\n ? \"uint\"\n : never;\n\nexport type SameSizeVec = T extends ScalarTypes\n ? \"float\"\n : T extends \"vec2\" | \"ivec2\" | \"uvec2\"\n ? \"vec2\"\n : T extends \"vec3\" | \"ivec3\" | \"uvec3\"\n ? \"vec3\"\n : T extends \"vec4\" | \"ivec4\" | \"uvec4\"\n ? \"vec4\"\n : never;\n\nexport type SameSizeUvec = T extends ScalarTypes\n ? \"uint\"\n : T extends \"vec2\" | \"ivec2\" | \"uvec2\"\n ? \"uvec2\"\n : T extends \"vec3\" | \"ivec3\" | \"uvec3\"\n ? \"uvec3\"\n : T extends \"vec4\" | \"ivec4\" | \"uvec4\"\n ? \"uvec4\"\n : never;\n\nexport type SameSizeIvec = T extends ScalarTypes\n ? \"int\"\n : T extends \"vec2\" | \"ivec2\" | \"uvec2\"\n ? \"ivec2\"\n : T extends \"vec3\" | \"ivec3\" | \"uvec3\"\n ? \"ivec3\"\n : T extends \"vec4\" | \"ivec4\" | \"uvec4\"\n ? \"ivec4\"\n : never;\n\nexport type SamplerTypes =\n | \"sampler2D\"\n | \"sampler2DArray\"\n | \"sampler3D\"\n | \"samplerCube\";\nexport type UsamplerTypes =\n | \"usampler2D\"\n | \"usampler2DArray\"\n | \"usampler3D\"\n | \"usamplerCube\";\nexport type IsamplerTypes =\n | \"isampler2D\"\n | \"isampler2DArray\"\n | \"isampler3D\"\n | \"isamplerCube\";\nexport type NormalSamplerTypes = SamplerTypes | UsamplerTypes | IsamplerTypes;\nexport type SamplerShadowTypes =\n | \"sampler2DShadow\"\n | \"sampler2DArrayShadow\"\n | \"samplerCubeShadow\";\nexport type AllSamplerTypes = NormalSamplerTypes | SamplerShadowTypes;\nexport type Sampler2DTypes =\n | \"sampler2D\"\n | \"usampler2D\"\n | \"isampler2D\"\n | \"sampler2DShadow\";\nexport type Sampler2DArrayTypes =\n | \"sampler2DArray\"\n | \"usampler2DArray\"\n | \"isampler2DArray\"\n | \"sampler2DArrayShadow\";\nexport type Sampler3DTypes = \"sampler3D\" | \"usampler3D\" | \"isampler3D\";\nexport type SamplerCubeTypes =\n | \"samplerCube\"\n | \"usamplerCube\"\n | \"isamplerCube\"\n | \"samplerCubeShadow\";\n\nexport function isBoolType(type: DynoType): boolean {\n return (\n type === \"bool\" || type === \"bvec2\" || type === \"bvec3\" || type === \"bvec4\"\n );\n}\n\nexport function isScalarType(type: DynoType): boolean {\n return type === \"int\" || type === \"uint\" || type === \"float\";\n}\n\nexport function isIntType(type: DynoType): boolean {\n return (\n type === \"int\" || type === \"ivec2\" || type === \"ivec3\" || type === \"ivec4\"\n );\n}\n\nexport function isUintType(type: DynoType): boolean {\n return (\n type === \"uint\" || type === \"uvec2\" || type === \"uvec3\" || type === \"uvec4\"\n );\n}\n\nexport function isFloatType(type: DynoType): boolean {\n return (\n type === \"float\" || type === \"vec2\" || type === \"vec3\" || type === \"vec4\"\n );\n}\n\nexport function isMatFloatType(type: DynoType): boolean {\n return (\n type === \"mat2\" ||\n type === \"mat2x2\" ||\n type === \"mat2x3\" ||\n type === \"mat2x4\" ||\n type === \"mat3\" ||\n type === \"mat3x2\" ||\n type === \"mat3x3\" ||\n type === \"mat3x4\" ||\n type === \"mat4\" ||\n type === \"mat4x2\" ||\n type === \"mat4x3\" ||\n type === \"mat4x4\"\n );\n}\n\nexport function isAllFloatType(type: DynoType): boolean {\n return isFloatType(type) || isMatFloatType(type);\n}\n\nexport function isVector2Type(type: DynoType): boolean {\n return type === \"vec2\" || type === \"ivec2\" || type === \"uvec2\";\n}\n\nexport function isVector3Type(type: DynoType): boolean {\n return type === \"vec3\" || type === \"ivec3\" || type === \"uvec3\";\n}\n\nexport function isVector4Type(type: DynoType): boolean {\n return type === \"vec4\" || type === \"ivec4\" || type === \"uvec4\";\n}\n\nexport function isVectorType(type: DynoType): boolean {\n return isVector2Type(type) || isVector3Type(type) || isVector4Type(type);\n}\n\nexport function isMat2(type: DynoType): boolean {\n return type === \"mat2\" || type === \"mat2x2\";\n}\nexport function isMat3(type: DynoType): boolean {\n return type === \"mat3\" || type === \"mat3x3\";\n}\nexport function isMat4(type: DynoType): boolean {\n return type === \"mat4\" || type === \"mat4x4\";\n}\n\nexport function vectorElementType(\n type: A,\n): VectorElementType {\n switch (type) {\n case \"vec2\":\n return \"float\" as VectorElementType;\n case \"vec3\":\n return \"float\" as VectorElementType;\n case \"vec4\":\n return \"float\" as VectorElementType;\n case \"ivec2\":\n return \"int\" as VectorElementType;\n case \"ivec3\":\n return \"int\" as VectorElementType;\n case \"ivec4\":\n return \"int\" as VectorElementType;\n case \"uvec2\":\n return \"uint\" as VectorElementType;\n case \"uvec3\":\n return \"uint\" as VectorElementType;\n case \"uvec4\":\n return \"uint\" as VectorElementType;\n default:\n throw new Error(`Invalid vector type: ${type}`);\n }\n}\n\nexport function vectorDim(type: A): number {\n switch (type) {\n case \"vec2\":\n case \"ivec2\":\n case \"uvec2\":\n return 2;\n case \"vec3\":\n case \"ivec3\":\n case \"uvec3\":\n return 3;\n case \"vec4\":\n case \"ivec4\":\n case \"uvec4\":\n return 4;\n default:\n throw new Error(`Invalid vector type: ${type}`);\n }\n}\n\nexport function sameSizeVec(type: T): SameSizeVec {\n if (isScalarType(type)) {\n return \"float\" as SameSizeVec;\n }\n if (isVector2Type(type)) {\n return \"vec2\" as SameSizeVec;\n }\n if (isVector3Type(type)) {\n return \"vec3\" as SameSizeVec;\n }\n if (isVector4Type(type)) {\n return \"vec4\" as SameSizeVec;\n }\n throw new Error(`Invalid vector type: ${type}`);\n}\n\nexport function sameSizeUvec(type: T): SameSizeUvec {\n if (isScalarType(type)) {\n return \"uint\" as SameSizeUvec;\n }\n if (isVector2Type(type)) {\n return \"uvec2\" as SameSizeUvec;\n }\n if (isVector3Type(type)) {\n return \"uvec3\" as SameSizeUvec;\n }\n if (isVector4Type(type)) {\n return \"uvec4\" as SameSizeUvec;\n }\n throw new Error(`Invalid vector type: ${type}`);\n}\n\nexport function sameSizeIvec(type: T): SameSizeIvec {\n if (isScalarType(type)) {\n return \"int\" as SameSizeIvec;\n }\n if (isVector2Type(type)) {\n return \"ivec2\" as SameSizeIvec;\n }\n if (isVector3Type(type)) {\n return \"ivec3\" as SameSizeIvec;\n }\n if (isVector4Type(type)) {\n return \"ivec4\" as SameSizeIvec;\n }\n throw new Error(`Invalid vector type: ${type}`);\n}\n\nexport type BaseType = SimpleTypes | AllSamplerTypes;\nexport type UserType = { type: string };\nexport type DynoType = BaseType | UserType;\n\nexport type DynoJsType = T extends \"bool\"\n ? boolean\n : T extends \"uint\"\n ? number\n : T extends \"int\"\n ? number\n : T extends \"float\"\n ? number\n : T extends \"bvec2\"\n ? [boolean, boolean]\n : T extends \"uvec2\"\n ? THREE.Vector2 | [number, number] | Uint32Array\n : T extends \"ivec2\"\n ? THREE.Vector2 | [number, number] | Int32Array\n : T extends \"vec2\"\n ? THREE.Vector2 | [number, number] | Float32Array\n : T extends \"bvec3\"\n ? [boolean, boolean, boolean]\n : T extends \"uvec3\"\n ? THREE.Vector3 | [number, number, number] | Uint32Array\n : T extends \"ivec3\"\n ? THREE.Vector3 | [number, number, number] | Int32Array\n : T extends \"vec3\"\n ?\n | THREE.Vector3\n | THREE.Color\n | [number, number, number]\n | Float32Array\n : T extends \"bvec4\"\n ? [boolean, boolean, boolean, boolean]\n : T extends \"uvec4\"\n ?\n | THREE.Vector4\n | [number, number, number, number]\n | Uint32Array\n : T extends \"ivec4\"\n ?\n | THREE.Vector4\n | [number, number, number, number]\n | Int32Array\n : T extends \"vec4\"\n ?\n | THREE.Vector4\n | THREE.Quaternion\n | [number, number, number, number]\n | Float32Array\n : T extends \"mat2\"\n ? THREE.Matrix2 | Float32Array\n : T extends \"mat2x2\"\n ? THREE.Matrix2 | Float32Array\n : T extends \"mat2x3\"\n ? Float32Array\n : T extends \"mat2x4\"\n ? Float32Array\n : T extends \"mat3\"\n ? THREE.Matrix3 | Float32Array\n : T extends \"mat3x2\"\n ? Float32Array\n : T extends \"mat3x3\"\n ? THREE.Matrix3 | Float32Array\n : T extends \"mat3x4\"\n ? Float32Array\n : T extends \"mat4\"\n ? THREE.Matrix4 | Float32Array\n : T extends \"mat4x2\"\n ? Float32Array\n : T extends \"mat4x3\"\n ? Float32Array\n : T extends \"mat4x4\"\n ?\n | THREE.Matrix4\n | Float32Array\n : T extends \"usampler2D\"\n ? THREE.Texture\n : T extends \"isampler2D\"\n ? THREE.Texture\n : T extends \"sampler2D\"\n ? THREE.Texture\n : T extends \"sampler2DShadow\"\n ? THREE.Texture\n : T extends \"usampler2DArray\"\n ? THREE.DataArrayTexture\n : T extends \"isampler2DArray\"\n ? THREE.DataArrayTexture\n : T extends \"sampler2DArray\"\n ? THREE.DataArrayTexture\n : T extends \"sampler2DArrayShadow\"\n ? THREE.Texture\n : T extends \"usampler3D\"\n ? THREE.DataArrayTexture\n : T extends \"isampler3D\"\n ? THREE.DataArrayTexture\n : T extends \"sampler3D\"\n ? THREE.DataArrayTexture\n : T extends \"usamplerCube\"\n ? THREE.DataArrayTexture\n : T extends \"isamplerCube\"\n ? THREE.DataArrayTexture\n : T extends \"samplerCube\"\n ? THREE.DataArrayTexture\n : T extends \"samplerCubeShadow\"\n ? THREE.Texture\n : unknown;\n\nexport function typeLiteral(type: DynoType): string {\n if (typeof type === \"string\") {\n return type;\n }\n if (typeof type === \"object\" && type.type) {\n return type.type;\n }\n throw new Error(`Invalid DynoType: ${String(type)}`);\n}\n\nexport function numberAsInt(value: number): string {\n return Math.trunc(value).toString();\n}\n\nexport function numberAsUint(value: number): string {\n const v = Math.max(0, Math.trunc(value));\n return `${v.toString()}u`;\n}\n\nexport function numberAsFloat(value: number): string {\n return value === Number.POSITIVE_INFINITY\n ? \"INFINITY\"\n : value === Number.NEGATIVE_INFINITY\n ? \"-INFINITY\"\n : Number.isInteger(value)\n ? value.toFixed(1)\n : value.toString();\n}\n","import * as THREE from \"three\";\n\nimport type { Dyno, IOTypes } from \"./base\";\nimport {\n type DynoJsType,\n type DynoType,\n type SimpleTypes,\n isAllFloatType,\n isBoolType,\n isIntType,\n isUintType,\n numberAsFloat,\n numberAsInt,\n numberAsUint,\n} from \"./types\";\n\nexport type DynoVal = DynoValue | HasDynoOut;\n\nexport function valType(val: DynoVal): T {\n if (val instanceof DynoValue) {\n return val.type;\n }\n const value = val.dynoOut();\n return value.type;\n}\n\nexport interface HasDynoOut {\n dynoOut(): DynoValue;\n}\n\nexport class DynoValue {\n type: T;\n // This field prevents TypeScript structural matching on objects with a \"type\" field\n private __isDynoValue = true;\n\n constructor(type: T) {\n this.type = type;\n }\n}\n\nexport class DynoOutput<\n T extends DynoType,\n InTypes extends IOTypes,\n OutTypes extends IOTypes,\n> extends DynoValue {\n dyno: Dyno;\n key: string;\n\n constructor(dyno: Dyno, key: string) {\n super(dyno.outTypes[key] as T);\n this.dyno = dyno;\n this.key = key;\n }\n}\n\nexport class DynoLiteral extends DynoValue {\n literal: string;\n\n constructor(type: T, literal: string) {\n super(type);\n this.literal = literal;\n }\n\n getLiteral(): string {\n return this.literal;\n }\n}\n\nexport function dynoLiteral(\n type: T,\n literal: string,\n): DynoLiteral {\n return new DynoLiteral(type, literal);\n}\n\nexport class DynoConst extends DynoLiteral {\n value: DynoJsType;\n\n constructor(type: T, value: DynoJsType) {\n super(type, \"\");\n this.value = value;\n }\n\n getLiteral(): string {\n const { type, value } = this;\n switch (type) {\n case \"bool\":\n return value ? \"true\" : \"false\";\n case \"uint\":\n return numberAsUint(value as number);\n case \"int\":\n return numberAsInt(value as number);\n case \"float\":\n return numberAsFloat(value as number);\n case \"bvec2\": {\n const v = value as [boolean, boolean];\n return `bvec2(${v[0]}, ${v[1]})`;\n }\n case \"uvec2\": {\n if (value instanceof THREE.Vector2) {\n return `uvec2(${numberAsUint(value.x)}, ${numberAsUint(value.y)})`;\n }\n const v = value as [number, number] | Uint32Array;\n return `uvec2(${numberAsUint(v[0])}, ${numberAsUint(v[1])})`;\n }\n case \"ivec2\": {\n if (value instanceof THREE.Vector2) {\n return `ivec2(${numberAsInt(value.x)}, ${numberAsInt(value.y)})`;\n }\n const v = value as [number, number] | Int32Array;\n return `ivec2(${numberAsInt(v[0])}, ${numberAsInt(v[1])})`;\n }\n case \"vec2\": {\n if (value instanceof THREE.Vector2) {\n return `vec2(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)})`;\n }\n const v = value as [number, number] | Float32Array;\n return `vec2(${numberAsFloat(v[0])}, ${numberAsFloat(v[1])})`;\n }\n case \"bvec3\": {\n const v = value as [boolean, boolean, boolean];\n return `bvec3(${v[0]}, ${v[1]}, ${v[2]})`;\n }\n case \"uvec3\": {\n if (value instanceof THREE.Vector3) {\n return `uvec3(${numberAsUint(value.x)}, ${numberAsUint(value.y)}, ${numberAsUint(value.z)})`;\n }\n const v = value as [number, number, number] | Uint32Array;\n return `uvec3(${numberAsUint(v[0])}, ${numberAsUint(v[1])}, ${numberAsUint(v[2])})`;\n }\n case \"ivec3\": {\n if (value instanceof THREE.Vector3) {\n return `ivec3(${numberAsInt(value.x)}, ${numberAsInt(value.y)}, ${numberAsInt(value.z)})`;\n }\n const v = value as [number, number, number] | Int32Array;\n return `ivec3(${numberAsInt(v[0])}, ${numberAsInt(v[1])}, ${numberAsInt(v[2])})`;\n }\n case \"vec3\": {\n if (value instanceof THREE.Vector3) {\n return `vec3(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)}, ${numberAsFloat(value.z)})`;\n }\n const v = value as [number, number, number] | Float32Array;\n return `vec3(${numberAsFloat(v[0])}, ${numberAsFloat(v[1])}, ${numberAsFloat(v[2])})`;\n }\n case \"bvec4\": {\n const v = value as [boolean, boolean, boolean, boolean];\n return `bvec4(${v[0]}, ${v[1]}, ${v[2]}, ${v[3]})`;\n }\n case \"uvec4\": {\n if (value instanceof THREE.Vector4) {\n return `uvec4(${numberAsUint(value.x)}, ${numberAsUint(value.y)}, ${numberAsUint(value.z)}, ${numberAsUint(value.w)})`;\n }\n const v = value as [number, number, number, number] | Uint32Array;\n return `uvec4(${numberAsUint(v[0])}, ${numberAsUint(v[1])}, ${numberAsUint(v[2])}, ${numberAsUint(v[3])})`;\n }\n case \"ivec4\": {\n if (value instanceof THREE.Vector4) {\n return `ivec4(${numberAsInt(value.x)}, ${numberAsInt(value.y)}, ${numberAsInt(value.z)}, ${numberAsInt(value.w)})`;\n }\n const v = value as [number, number, number, number] | Int32Array;\n return `ivec4(${numberAsInt(v[0])}, ${numberAsInt(v[1])}, ${numberAsInt(v[2])}, ${numberAsInt(v[3])})`;\n }\n case \"vec4\": {\n if (value instanceof THREE.Vector4) {\n return `vec4(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)}, ${numberAsFloat(value.z)}, ${numberAsFloat(value.w)})`;\n }\n if (value instanceof THREE.Quaternion) {\n return `vec4(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)}, ${numberAsFloat(value.z)}, ${numberAsFloat(value.w)})`;\n }\n const v = value as [number, number, number, number] | Float32Array;\n return `vec4(${numberAsFloat(v[0])}, ${numberAsFloat(v[1])}, ${numberAsFloat(v[2])}, ${numberAsFloat(v[3])})`;\n }\n case \"mat2\":\n case \"mat2x2\": {\n const m = value as DynoJsType<\"mat2\">;\n const e =\n m instanceof THREE.Matrix2 ? m.elements : (value as Float32Array);\n const arg = new Array(4).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat2x3\": {\n const e = value as DynoJsType<\"mat2x3\">;\n const arg = new Array(6).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat2x4\": {\n const e = value as DynoJsType<\"mat2x4\">;\n const arg = new Array(8).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat3\":\n case \"mat3x3\": {\n const m = value as DynoJsType<\"mat3\">;\n const e =\n m instanceof THREE.Matrix3 ? m.elements : (value as Float32Array);\n const arg = new Array(9).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat3x2\": {\n const e = value as DynoJsType<\"mat3x2\">;\n const arg = new Array(6).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat3x4\": {\n const e = value as DynoJsType<\"mat3x4\">;\n const arg = new Array(12).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat4\":\n case \"mat4x4\": {\n const m = value as DynoJsType<\"mat4\">;\n const e =\n m instanceof THREE.Matrix4 ? m.elements : (value as Float32Array);\n const arg = new Array(16).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat4x2\": {\n const e = value as DynoJsType<\"mat4x2\">;\n const arg = new Array(8).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat4x3\": {\n const e = value as DynoJsType<\"mat4x3\">;\n const arg = new Array(12).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n default:\n throw new Error(`Type not implemented: ${String(type)}`);\n }\n }\n}\n\nexport function dynoConst(\n type: T,\n value: DynoJsType,\n): DynoConst {\n return new DynoConst(type, value);\n}\n\nexport function literalZero(type: SimpleTypes): string {\n const typeString = String(type);\n if (isBoolType(type)) {\n return `${typeString}(false)`;\n }\n if (isAllFloatType(type)) {\n return `${typeString}(0.0)`;\n }\n if (isIntType(type)) {\n return `${typeString}(0)`;\n }\n if (isUintType(type)) {\n return `${typeString}(0u)`;\n }\n throw new Error(`Type not implemented: ${typeString}`);\n}\n\nexport function literalOne(type: SimpleTypes): string {\n const typeString = String(type);\n if (isBoolType(type)) {\n return `${typeString}(true)`;\n }\n if (isAllFloatType(type)) {\n return `${typeString}(1.0)`;\n }\n if (isIntType(type)) {\n return `${typeString}(1)`;\n }\n if (isUintType(type)) {\n return `${typeString}(1u)`;\n }\n throw new Error(`Type not implemented: ${typeString}`);\n}\n\nexport function literalNegOne(type: SimpleTypes): string {\n const typeString = String(type);\n if (isBoolType(type)) {\n return `${typeString}(true)`;\n }\n if (isAllFloatType(type)) {\n return `${typeString}(-1.0)`;\n }\n if (isIntType(type)) {\n return `${typeString}(-1)`;\n }\n if (isUintType(type)) {\n return `${typeString}(0xFFFFFFFFu)`;\n }\n throw new Error(`Type not implemented: ${typeString}`);\n}\n","import type { IUniform } from \"three\";\nimport type { DynoType } from \"./types\";\nimport {\n DynoLiteral,\n DynoOutput,\n type DynoVal,\n DynoValue,\n type HasDynoOut,\n valType,\n} from \"./value\";\n\nconst DEFAULT_INDENT = \" \";\n\nexport class Compilation {\n globals: Set = new Set();\n statements: string[] = [];\n uniforms: Record = {};\n declares: Set = new Set();\n updaters: (() => void)[] = [];\n sequence = 0;\n indent: string = DEFAULT_INDENT;\n\n constructor({ indent }: { indent?: string } = {}) {\n this.indent = indent ?? DEFAULT_INDENT;\n }\n\n nextSequence() {\n return this.sequence++;\n }\n}\n\nexport type IOTypes = Record;\ntype GenerateContext = {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n};\n\nexport class Dyno {\n inTypes: InTypes;\n outTypes: OutTypes;\n\n inputs: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n }) {\n this.inTypes = inTypes ?? ({} as InTypes);\n this.outTypes = outTypes ?? ({} as OutTypes);\n this.inputs = inputs ?? {};\n this.update = update;\n\n this.globals = globals;\n this.statements = statements;\n this.generate =\n generate ??\n (({ inputs, outputs, compile }) => {\n return {\n globals: this.globals?.({ inputs, outputs, compile }),\n statements: this.statements?.({ inputs, outputs, compile }),\n };\n });\n }\n\n get outputs(): { [K in keyof OutTypes]: DynoVal } {\n const outputs = {} as { [K in keyof OutTypes]: DynoVal };\n for (const key in this.outTypes) {\n outputs[key] = new DynoOutput(this, key);\n }\n return outputs;\n }\n\n apply(inputs: { [K in keyof InTypes]?: DynoVal }): {\n [K in keyof OutTypes]: DynoVal;\n } {\n Object.assign(this.inputs, inputs);\n return this.outputs;\n }\n\n compile({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }): string[] {\n const result = [\n `// ${this.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`,\n ];\n\n const declares: (keyof OutTypes)[] = [];\n for (const key in outputs) {\n const name = outputs[key];\n if (name && !compile.declares.has(name)) {\n compile.declares.add(name);\n declares.push(key);\n }\n }\n\n const { globals, statements, uniforms } = this.generate({\n inputs,\n outputs,\n compile,\n });\n for (const global of globals ?? []) {\n compile.globals.add(global);\n }\n for (const key in uniforms) {\n compile.uniforms[key] = uniforms[key];\n }\n if (this.update) {\n compile.updaters.push(this.update);\n }\n\n for (const key of declares) {\n const name = outputs[key];\n if (name) {\n if (!compile.uniforms[name]) {\n result.push(`${dynoDeclare(name, this.outTypes[key])};`);\n }\n }\n }\n\n if (statements?.length) {\n result.push(\"{\");\n result.push(...statements.map((line) => compile.indent + line));\n result.push(\"}\");\n }\n return result;\n }\n}\n\nexport type DynoBlockType = (\n inputs: { [K in keyof InTypes]?: DynoVal },\n outputs: { [K in keyof OutTypes]?: DynoVal },\n { roots }: { roots: Dyno[] },\n) => { [K in keyof OutTypes]?: DynoVal } | undefined;\n\nexport class DynoBlock<\n InTypes extends IOTypes,\n OutTypes extends IOTypes,\n> extends Dyno {\n construct: DynoBlockType;\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n construct,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n construct: DynoBlockType;\n }) {\n super({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n generate: (args) => this.generateBlock(args),\n });\n this.construct = construct;\n }\n\n generateBlock({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }) {\n const blockInputs: { [K in keyof InTypes]?: DynoVal } = {};\n const blockOutputs: { [K in keyof OutTypes]?: DynoVal } = {};\n\n for (const key in inputs) {\n if (inputs[key] != null) {\n blockInputs[key] = new DynoLiteral(this.inTypes[key], inputs[key]);\n }\n }\n for (const key in outputs) {\n if (outputs[key] != null) {\n blockOutputs[key] = new DynoValue(this.outTypes[key]);\n }\n }\n\n const options: { roots: Dyno[] } = { roots: [] };\n const returned = this.construct(blockInputs, blockOutputs, options);\n\n for (const global of this.globals?.({ inputs, outputs, compile }) ?? []) {\n compile.globals.add(global);\n }\n\n const ordering: Dyno[] = [];\n const nodeOuts = new Map<\n Dyno,\n { sequence: number; outNames: Map; newOuts: Set }\n >();\n\n function visit(\n node: Dyno,\n outKey?: string,\n outName?: string,\n ) {\n let outs = nodeOuts.get(node);\n if (!outs) {\n // First time visiting this node\n outs = {\n sequence: compile.nextSequence(),\n outNames: new Map(),\n newOuts: new Set(),\n };\n nodeOuts.set(node, outs);\n\n for (const key in node.inputs) {\n let input = node.inputs[key];\n while (input) {\n if (input instanceof DynoValue) {\n if (input instanceof DynoOutput) {\n visit(input.dyno, input.key);\n }\n break;\n }\n // Must be as HasDynoOut\n if (typeof input.dynoOut !== \"function\") {\n throw new Error(\n `dynoOut is not a function for ${input.constructor.name}`,\n );\n }\n input = input.dynoOut();\n }\n }\n ordering.push(node);\n }\n if (outKey) {\n if (!outName) {\n outs.newOuts.add(outKey);\n }\n outs.outNames.set(outKey, outName ?? `${outKey}_${outs.sequence}`);\n }\n }\n\n for (const root of options.roots) {\n visit(root);\n }\n\n for (const key in blockOutputs) {\n let value = returned?.[key] ?? blockOutputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoOutput) {\n visit(value.dyno, value.key, outputs[key]);\n }\n break;\n }\n // Must be as HasDynoOut\n value = value.dynoOut();\n }\n blockOutputs[key] = value;\n }\n\n const steps = [];\n\n for (const dyno of ordering) {\n // compile.statements.push(`// ${dyno.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`);\n\n const inputs: Record = {};\n const outputs: Record = {};\n\n for (const key in dyno.inputs) {\n let value = dyno.inputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoLiteral) {\n inputs[key] = value.getLiteral();\n } else if (value instanceof DynoOutput) {\n const source = nodeOuts.get(value.dyno)?.outNames.get(value.key);\n if (!source) {\n throw new Error(\n `Source not found for ${value.dyno.constructor.name}.${value.key}`,\n );\n }\n inputs[key] = source;\n }\n break;\n }\n // Must be as HasDynOut\n value = value.dynoOut();\n }\n }\n\n const outs = nodeOuts.get(dyno) ?? { outNames: new Map() };\n for (const [key, name] of outs.outNames.entries()) {\n outputs[key] = name;\n }\n\n const newSteps = dyno.compile({ inputs, outputs, compile });\n steps.push(newSteps);\n }\n\n const literalOutputs = [];\n for (const key in outputs) {\n if (blockOutputs[key] instanceof DynoLiteral) {\n literalOutputs.push(\n `${outputs[key]} = ${blockOutputs[key].getLiteral()};`,\n );\n }\n }\n if (literalOutputs.length > 0) {\n steps.push(literalOutputs);\n }\n\n const statements = steps.flatMap((step, index) => {\n // Add a blank line between steps\n return index === 0 ? step : [\"\", ...step];\n });\n return { statements };\n }\n}\n\nexport function dynoBlock<\n InTypes extends Record,\n OutTypes extends Record,\n>(\n inTypes: InTypes,\n outTypes: OutTypes,\n construct: DynoBlockType,\n { update, globals }: { update?: () => void; globals?: () => string[] } = {},\n) {\n return new DynoBlock({ inTypes, outTypes, construct, update, globals });\n}\n\nexport function dyno<\n InTypes extends Record,\n OutTypes extends Record,\n>({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n}: {\n inTypes: InTypes;\n outTypes: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n}) {\n return new Dyno({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n });\n}\n\nexport function dynoDeclare(name: string, type: DynoType, count?: number) {\n const typeStr = typeof type === \"string\" ? type : type.type;\n if (!typeStr) {\n throw new Error(`Invalid DynoType: ${String(type)}`);\n }\n return `${typeStr} ${name}${count != null ? `[${count}]` : \"\"}`;\n}\n\nexport function unindentLines(s: string): string[] {\n let seenNonEmpty = false;\n const lines = s\n .split(\"\\n\")\n .map((line) => {\n const trimmedLine = line.trimEnd();\n if (seenNonEmpty) {\n return trimmedLine;\n }\n if (trimmedLine.length > 0) {\n seenNonEmpty = true;\n return trimmedLine;\n }\n return null;\n })\n .filter((line) => line != null);\n while (lines.length > 0 && lines[lines.length - 1].length === 0) {\n lines.pop();\n }\n if (lines.length === 0) {\n return [];\n }\n\n const indent = lines[0].match(/^\\s*/)?.[0];\n if (!indent) {\n return lines; // No indent, return as is\n }\n // Remove indent from the beginning of each line\n const regex = new RegExp(`^${indent}`);\n return lines.map((line) => line.replace(regex, \"\"));\n}\n\nexport function unindent(s: string): string {\n return unindentLines(s).join(\"\\n\");\n}\n\nexport class UnaryOp<\n A extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n outKey,\n outTypeFunc,\n }: { a: DynoVal; outKey: OutKey; outTypeFunc: (aType: A) => OutType }) {\n const inTypes = { a: valType(a) };\n const outType = outTypeFunc(valType(a));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class BinaryOp<\n A extends DynoType,\n B extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b) };\n const outType = outTypeFunc(valType(a), valType(b));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class TrinaryOp<\n A extends DynoType,\n B extends DynoType,\n C extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B; c: C }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n c,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n c: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B, cType: C) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b), c: valType(c) };\n const outType = outTypeFunc(valType(a), valType(b), valType(c));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b, c } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n","import { Gunzip } from \"fflate\";\nimport * as THREE from \"three\";\n\n// Miscellaneous utility functions for Spark\n\nimport {\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SCALE_ZERO,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_MIN_HEIGHT,\n SPLAT_TEX_WIDTH,\n} from \"./defines.js\";\nimport { unindent } from \"./dyno/base.js\";\n\nexport const threeRevision = Number.parseInt(THREE.REVISION);\nexport const threeMrtArray = threeRevision >= 179;\n\nconst f32buffer = new Float32Array(1);\nconst u32buffer = new Uint32Array(f32buffer.buffer);\nconst supportsFloat16Array = \"Float16Array\" in globalThis;\nconst f16buffer = supportsFloat16Array\n ? new globalThis[\"Float16Array\" as keyof typeof globalThis](1)\n : null;\nconst u16buffer = new Uint16Array(f16buffer?.buffer);\n\n// Returns a normalized array of numbers\nexport function normalize(vec: number[]) {\n const norm = Math.sqrt(vec.reduce((acc, v) => acc + v * v, 0));\n return vec.map((v) => v / norm);\n}\n\n// Reinterpret the bits of a float32 as a uint32\nexport function floatBitsToUint(f: number): number {\n f32buffer[0] = f;\n return u32buffer[0];\n}\n\n// Reinterpret the bits of a uint32 as a float32\nexport function uintBitsToFloat(u: number): number {\n u32buffer[0] = u;\n return f32buffer[0];\n}\n\nexport const toHalf = supportsFloat16Array ? toHalfNative : toHalfJS;\nexport const fromHalf = supportsFloat16Array ? fromHalfNative : fromHalfJS;\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfNative(f: number): number {\n f16buffer[0] = f;\n return u16buffer[0];\n}\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfJS(f: number): number {\n // Store the value into the shared Float32 array.\n f32buffer[0] = f;\n const bits = u32buffer[0];\n\n // Extract sign (1 bit), exponent (8 bits), and fraction (23 bits)\n const sign = (bits >> 31) & 0x1;\n const exp = (bits >> 23) & 0xff;\n const frac = bits & 0x7fffff;\n const halfSign = sign << 15;\n\n // Handle special cases: NaN and Infinity\n if (exp === 0xff) {\n // NaN: set all exponent bits to 1 and some nonzero fraction bits.\n if (frac !== 0) {\n return halfSign | 0x7fff;\n }\n // Infinity\n return halfSign | 0x7c00;\n }\n\n // Adjust the exponent from float32 bias (127) to float16 bias (15)\n const newExp = exp - 127 + 15;\n\n // Handle overflow: too large to represent in half precision.\n if (newExp >= 0x1f) {\n return halfSign | 0x7c00; // Infinity\n }\n if (newExp <= 0) {\n // Handle subnormals and underflow.\n if (newExp < -10) {\n // Too small: underflows to zero.\n return halfSign;\n }\n // Convert to subnormal: add the implicit leading 1 to the fraction,\n // then shift to align with the half-precision's 10 fraction bits.\n const subFrac = (frac | 0x800000) >> (1 - newExp + 13);\n return halfSign | subFrac;\n }\n\n // Normalized half-precision number: shift fraction to fit into 10 bits.\n const halfFrac = frac >> 13;\n return halfSign | (newExp << 10) | halfFrac;\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfNative(u: number): number {\n u16buffer[0] = u;\n return f16buffer[0];\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfJS(h: number): number {\n // Extract the sign (1 bit), exponent (5 bits), and fraction (10 bits)\n const sign = (h >> 15) & 0x1;\n const exp = (h >> 10) & 0x1f;\n const frac = h & 0x3ff;\n\n let f32bits: number;\n\n if (exp === 0) {\n if (frac === 0) {\n // Zero (positive or negative)\n f32bits = sign << 31;\n } else {\n // Subnormal half-precision number.\n // Normalize the subnormal number:\n let mant = frac;\n let e = -14; // For half, the exponent for subnormals is fixed at -14.\n // Shift left until the implicit leading 1 is in place.\n while ((mant & 0x400) === 0) {\n // 0x400 === 1 << 10\n mant <<= 1;\n e--;\n }\n // Remove the leading 1 (which is now implicit)\n mant &= 0x3ff;\n // Convert the half exponent (e) to the 32-bit float exponent:\n const newExp = e + 127; // 32-bit float bias is 127.\n const newFrac = mant << 13; // Align to 23-bit fraction (23 - 10 = 13)\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n } else if (exp === 0x1f) {\n // Handle special cases for Infinity and NaN.\n if (frac === 0) {\n // Infinity\n f32bits = (sign << 31) | 0x7f800000;\n } else {\n // NaN (we choose a quiet NaN)\n f32bits = (sign << 31) | 0x7fc00000;\n }\n } else {\n // Normalized half-precision number.\n // Adjust exponent from half (bias 15) to float32 (bias 127)\n const newExp = exp - 15 + 127;\n const newFrac = frac << 13;\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n\n // Write the 32-bit bit pattern to the shared buffer,\n // then read it as a float32 to return a JavaScript number.\n u32buffer[0] = f32bits;\n return f32buffer[0];\n}\n\n// Convert a number 0..1 to a 0..255 uint\nexport function floatToUint8(v: number): number {\n // Converts from 0..1 float to 0..255 uint8\n return Math.max(0, Math.min(255, Math.round(v * 255)));\n}\n\n// Convert a number -1..1 to a -127..127 int\nexport function floatToSint8(v: number): number {\n // Converts from -1..1 float to -127..127 int8\n return Math.max(-127, Math.min(127, Math.round(v * 127)));\n}\n\n// Convert a 0..255 uint to a 0..1 float\nexport function Uint8ToFloat(v: number): number {\n // Converts from 0..255 uint8 to 0..1 float\n return v / 255;\n}\n\n// Convert a -127..127 int to a -1..1 float\nexport function Sint8ToFloat(v: number): number {\n // Converts from -127..127 int8 to -1..1 float\n return v / 127;\n}\n\n// A simple utility class for caching a fixed number of items\nexport class DataCache {\n // Maximum number of items to cache\n maxItems: number;\n\n // Function to fetch data for a key\n asyncFetch: (key: string) => Promise;\n\n // Function to dispose of data when it is no longer needed\n dispose?: (data: unknown) => void;\n\n // Array of cached items\n items: { key: string; data: unknown }[];\n\n // In-progress fetch promises\n pending: Map>;\n\n // Create a DataCache with a given function that fetches data not in the cache.\n constructor({\n asyncFetch,\n dispose,\n maxItems = 5,\n }: {\n asyncFetch: (key: string) => Promise;\n dispose?: (data: unknown) => void;\n maxItems?: number;\n }) {\n this.asyncFetch = asyncFetch;\n this.dispose = dispose;\n this.maxItems = maxItems;\n this.items = [];\n this.pending = new Map();\n }\n\n has(key: string): boolean {\n return this.items.some((item) => item.key === key);\n }\n\n getImmediate(key: string): unknown | undefined {\n const index = this.items.findIndex((item) => item.key === key);\n if (index >= 0) {\n // Data exists in our cache, move it to the end of the array\n const item = this.items.splice(index, 1)[0];\n this.items.push(item);\n // Return the cached data\n return item.data;\n }\n return undefined;\n }\n\n // Fetch data for the key, returning cached data if available.\n async getFetch(key: string): Promise {\n const immediate = this.getImmediate(key);\n if (immediate !== undefined) {\n return immediate;\n }\n\n let pending = this.pending.get(key);\n if (pending) {\n return pending;\n }\n\n pending = this.asyncFetch(key).then((data) => {\n this.pending.delete(key);\n\n // Add the data to the cache\n this.items.push({ key, data });\n // If the cache is too large, remove the oldest accessed item\n while (this.items.length > this.maxItems) {\n const removed = this.items.shift();\n if (removed && this.dispose) {\n this.dispose(removed.data);\n }\n }\n // Return the fetched data\n return data;\n });\n this.pending.set(key, pending);\n return pending;\n }\n}\n\n// Like Array.map but for objects\nexport function mapObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n const entries = Object.entries(obj).map(([key, value]) => [\n key,\n fn(value, key),\n ]);\n // Returns a new object with the mapped values\n return Object.fromEntries(entries);\n}\n\n// Like Array.map().filter() but for objects.\n// The callback fn() should return undefined to filter out the key.\nexport function mapFilterObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n // If no return (or return undefined), the key is not included in the result\n const entries = Object.entries(obj)\n .map(([key, value]) => [key, fn(value, key)])\n .filter(([_, value]) => value !== undefined);\n // Returns a new object with the filtered values\n return Object.fromEntries(entries);\n}\n\n// Recursively finds all ArrayBuffers in an object and returns them as an array\n// to use as transferable objects to send between workers.\nexport function getTransferable(ctx: unknown): Transferable[] {\n const buffers: Transferable[] = [];\n const seen = new Set();\n\n function traverse(obj: unknown) {\n if (obj && typeof obj === \"object\" && !seen.has(obj)) {\n seen.add(obj);\n\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n // Handles TypedArrays and DataView\n buffers.push(obj.buffer as ArrayBuffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n\n traverse(ctx);\n return buffers;\n}\n\n// Create an array of the given size and initialize element with initFunction()\nexport function newArray(\n n: number,\n initFunction: (index: number) => T,\n): T[] {\n // Creates a new array and calls a constructor function for each element with index\n return new Array(n).fill(null).map((_, i) => initFunction(i));\n}\n\n// A free list that has a pool of items of type T, with callbacks\n// for constructing, disposing, and checking if an item is valid for the given args.\nexport class FreeList {\n items: T[];\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n\n constructor({\n // Allocate a new item with the given args\n allocate,\n // Dispose of an item (optional, if GC is enough)\n dispose,\n // Check if an existing item in the list is valid for the given args,\n // allowing you to store heterogeneous items in the list.\n valid,\n }: {\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n }) {\n this.items = [];\n this.allocate = allocate;\n this.dispose = dispose;\n this.valid = valid;\n }\n\n // Allocate a new item from the free list, first checking if a existing item\n // on the freelist is valid for the given args.\n alloc(args: Args): T {\n while (true) {\n const item = this.items.pop();\n if (!item) {\n // No items in the free list, allocate a new one\n break;\n }\n if (this.valid(item, args)) {\n // Found a valid item, return it\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): found valid item. Reusing...`);\n return item;\n }\n // Item isn't valid for our args, dispose of it and try again\n if (this.dispose) {\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): disposing invalid item.`);\n this.dispose(item);\n }\n }\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): allocating new item`);\n return this.allocate(args);\n }\n\n free(item: T) {\n // Return item to the free list\n this.items.push(item);\n }\n\n disposeAll() {\n // Disposes of all items in the free list\n let item: T | undefined;\n item = this.items.pop();\n while (item) {\n if (this.dispose) {\n this.dispose(item);\n }\n item = this.items.pop();\n }\n }\n}\n\nexport function encodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) {\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n extA[i4] = floatBitsToUint(x);\n extA[i4 + 1] = floatBitsToUint(y);\n extA[i4 + 2] = floatBitsToUint(z);\n extA[i4 + 3] = toHalf(opacity);\n extB[i4] = toHalf(r) | (toHalf(g) << 16);\n extB[i4 + 1] = toHalf(b) | (toHalf(Math.log(scaleX)) << 16);\n extB[i4 + 2] = toHalf(Math.log(scaleY)) | (toHalf(Math.log(scaleZ)) << 16);\n extB[i4 + 3] = encodeQuatOctXy1010R12(quatX, quatY, quatZ, quatW);\n}\n\nexport function decodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n result.center.x = uintBitsToFloat(extA[i4]);\n result.center.y = uintBitsToFloat(extA[i4 + 1]);\n result.center.z = uintBitsToFloat(extA[i4 + 2]);\n result.opacity = fromHalf(extA[i4 + 3] & 0xffff);\n result.color.r = fromHalf(extB[i4] & 0xffff);\n result.color.g = fromHalf(extB[i4] >>> 16);\n result.color.b = fromHalf(extB[i4 + 1] & 0xffff);\n result.scales.x = Math.exp(fromHalf(extB[i4 + 1] >>> 16));\n result.scales.y = Math.exp(fromHalf(extB[i4 + 2] & 0xffff));\n result.scales.z = Math.exp(fromHalf(extB[i4 + 2] >>> 16));\n decodeQuatOctXy1010R12(extB[i4 + 3], result.quaternion);\n return result;\n}\n\n// Encode a PackedSplat as 4 consecutive Uint32 elements in the packedSplats array.\n// The center coordinates x,y,z are encoded as float16, the scales x,y,z as a\n// logarithmic uint8, rotation as three uint8s representing rotation axis and angle,\n// and RGBA as 4xuint8.\nexport function setPackedSplat(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * opacity : opacity);\n\n // Alternate internal encodings commented out below.\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n // Encode the splat as 4 consecutive Uint32 elements\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] =\n uScaleX | (uScaleY << 8) | (uScaleZ << 16) | (uQuatZ << 24);\n}\n\n// Encode the center coordinates x,y,z in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatCenter(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n) {\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n const i4 = index * 4;\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (packedSplats[i4 + 2] & 0xffff0000);\n}\n\n// Encode the scales x,y,z in the packedSplats Uint32Array, leaving all other fields as is.\nexport function setPackedSplatScales(\n packedSplats: Uint32Array,\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n encoding?: {\n lnScaleMin?: number;\n lnScaleMax?: number;\n },\n) {\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const i4 = index * 4;\n packedSplats[i4 + 3] =\n uScaleX |\n (uScaleY << 8) |\n (uScaleZ << 16) |\n (packedSplats[i4 + 3] & 0xff000000);\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempQuaternion = new THREE.Quaternion();\n\n// Encode the rotation quatX, quatY, quatZ, quatW in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatQuat(\n packedSplats: Uint32Array,\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n) {\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n const i4 = index * 4;\n packedSplats[i4 + 2] =\n (packedSplats[i4 + 2] & 0x0000ffff) | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] = (packedSplats[i4 + 3] & 0x00ffffff) | (uQuatZ << 24);\n}\n\n// Encode the RGBA color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgba(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n a: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * a : a);\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n}\n\n// Encode the RGB color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgb(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n\n const i4 = index * 4;\n packedSplats[i4] =\n uR | (uG << 8) | (uB << 16) | (packedSplats[i4] & 0xff000000);\n}\n\n// Encode the opacity in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatOpacity(\n packedSplats: Uint32Array,\n index: number,\n opacity: number,\n) {\n const uA = floatToUint8(opacity);\n\n const i4 = index * 4;\n packedSplats[i4] = (packedSplats[i4] & 0x00ffffff) | (uA << 24);\n}\n\nconst packedCenter = new THREE.Vector3();\nconst packedScales = new THREE.Vector3();\nconst packedQuaternion = new THREE.Quaternion();\nconst packedColor = new THREE.Color();\nconst packedFields = {\n center: packedCenter,\n scales: packedScales,\n quaternion: packedQuaternion,\n color: packedColor,\n opacity: 0.0,\n};\n\n// Unpack all components of a PackedSplat from the packedSplats Uint32Array into\n// THREE.js vector objects. The returned objects will be reused each call.\nexport function unpackSplat(\n packedSplats: Uint32Array,\n index: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n\n const i4 = index * 4;\n const word0 = packedSplats[i4];\n const word1 = packedSplats[i4 + 1];\n const word2 = packedSplats[i4 + 2];\n const word3 = packedSplats[i4 + 3];\n\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n result.color.set(\n rgbMin + ((word0 & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 8) & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 16) & 0xff) / 255) * rgbRange,\n );\n result.opacity = ((word0 >>> 24) & 0xff) / 255;\n if (encoding?.lodOpacity) {\n result.opacity = 2.0 * result.opacity;\n }\n result.center.set(\n fromHalf(word1 & 0xffff),\n fromHalf((word1 >>> 16) & 0xffff),\n fromHalf(word2 & 0xffff),\n );\n\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = (lnScaleMax - lnScaleMin) / 254.0;\n const uScalesX = word3 & 0xff;\n result.scales.x =\n uScalesX === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesX - 1) * lnScaleScale);\n const uScalesY = (word3 >>> 8) & 0xff;\n result.scales.y =\n uScalesY === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesY - 1) * lnScaleScale);\n const uScalesZ = (word3 >>> 16) & 0xff;\n result.scales.z =\n uScalesZ === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesZ - 1) * lnScaleScale);\n\n const uQuat = ((word2 >>> 16) & 0xffff) | ((word3 >>> 8) & 0xff0000);\n decodeQuatOctXy88R8(uQuat, result.quaternion);\n // decodeQuatXyz888(uQuat, result.quaternion);\n // decodeQuatEulerXyz888(uQuat, result.quaternion);\n\n return result;\n}\n\n// Compute a texture array size that is large enough to fit numSplats. The most\n// common 2D texture size in WebGL2 is 4096x4096 which only allows for 16M splats,\n// so Spark stores Gsplat data in a 2D texture array, which most platforms support\n// up to 2048x2048x2048 = 8G splats. Allocations that fit within a single 2D texture\n// array layer will be rounded up to fill an entire texture row. Once a texture\n// array layer is filled, the allocation will be rounded up to fill an entire layer.\n// This is done so the entire set of splats can be covered by min/max coords across\n// each dimension.\nexport function getTextureSize(numSplats: number): {\n width: number;\n height: number;\n depth: number;\n maxSplats: number;\n} {\n // Compute a texture array size that is large enough to fit numSplats.\n // The width is always 2048, the height sized to fit the splats but no larger than 2048.\n // The depth is the number of layers needed to fit the splats.\n // maxSplats is computed as the new total available splats that can be stored.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n const maxSplats = width * height * depth;\n return { width, height, depth, maxSplats };\n}\n\nexport function computeMaxSplats(numSplats: number): number {\n // Compute the size of a Gsplat array texture (2048x2048xD) that can fit\n // numSplats splats, and return the total number of splats that can be stored\n // in such a texture.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n return width * height * depth;\n}\n\n// Heuristic function to determine if we are running on a mobile device.\nexport function isMobile(): boolean {\n if (navigator.platform.toLowerCase().startsWith(\"win\")) {\n return false;\n }\n if (navigator.maxTouchPoints > 0) {\n // Touch-enabled device, assume it's mobile\n return true;\n }\n return /Mobi|Android|iPhone|iPad|iPod|Opera Mini|IEMobile/.test(\n navigator.userAgent,\n );\n}\n\n// Heuristic function to determine if we are running on an Android device.\n// (does not include Oculus Quest)\nexport function isAndroid(): boolean {\n return (\n /Android/.test(navigator.userAgent) || /Tizen/.test(navigator.userAgent)\n );\n}\n\n// Heuristic function to determine if we are running on an Oculus Quest device.\nexport function isOculus(): boolean {\n return !!navigator.xr && /Oculus/.test(navigator.userAgent);\n}\n\nexport function isQuest2() {\n return isOculus() && /Quest 2/.test(navigator.userAgent);\n}\n\nexport function isIos(): boolean {\n return /iPhone|iPad/.test(navigator.userAgent);\n}\n\nexport function isVisionPro(): boolean {\n return (\n !!navigator.xr &&\n isIos() &&\n /Safari/.test(navigator.userAgent) &&\n isMobile()\n );\n}\n\n// Take an array of RGBA8 encoded pixels and flip them vertically in-place.\n// This is useful for converting between top-left and bottom-left coordinate systems\n// in standard 2D images vs WebGL2.\nexport function flipPixels(\n pixels: Uint8Array,\n width: number,\n height: number,\n): Uint8Array {\n // Flips pixels vertically in-place, returns original array.\n const tempLine = new Uint8Array(width * 4);\n\n // Only need to process half the height since we're swapping\n for (let y = 0; y < height / 2; y++) {\n const topOffset = y * width * 4;\n const bottomOffset = (height - 1 - y) * width * 4;\n\n // Save top line to temp buffer\n tempLine.set(pixels.subarray(topOffset, topOffset + width * 4));\n // Move bottom line to top\n pixels.set(\n pixels.subarray(bottomOffset, bottomOffset + width * 4),\n topOffset,\n );\n // Move saved top line to bottom\n pixels.set(tempLine, bottomOffset);\n }\n return pixels;\n}\n\n// Utility to take an array of RGBA8 encoded pixels and convert them to a\n// PNG-encoded image data URL that can be downloaded to the client.\nexport function pixelsToPngUrl(\n pixels: Uint8Array,\n width: number,\n height: number,\n): string {\n const canvas = document.createElement(\"canvas\");\n canvas.width = width;\n canvas.height = height;\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n throw new Error(\"Can't get 2d context\");\n }\n const imageData = ctx.createImageData(width, height);\n imageData.data.set(pixels);\n ctx.putImageData(imageData, 0, 0);\n return canvas.toDataURL(\"image/png\");\n}\n\n// Manually clone a THREE.Clock object.\nexport function cloneClock(clock: THREE.Clock): THREE.Clock {\n const newClock = new THREE.Clock(clock.autoStart);\n newClock.startTime = clock.startTime;\n newClock.oldTime = clock.oldTime;\n newClock.elapsedTime = clock.elapsedTime;\n newClock.running = clock.running;\n return newClock;\n}\n\n// Utility to filter out an undefined values from an object.\nexport function omitUndefined(obj: T): Partial {\n return Object.fromEntries(\n Object.entries(obj).filter(([_, value]) => value !== undefined),\n ) as Partial;\n}\n\n// \"Identity\" vertex shader that just passes through the position.\nexport const IDENT_VERTEX_SHADER = unindent(`\n precision highp float;\n\n in vec3 position;\n\n void main() {\n gl_Position = vec4(position.xy, 0.0, 1.0);\n }\n`);\n\n// Returns the average position of an array of THREE.Vector3.\nexport function averagePositions(positions: THREE.Vector3[]): THREE.Vector3 {\n const sum = new THREE.Vector3();\n for (const position of positions) {\n sum.add(position);\n }\n return sum.divideScalar(positions.length);\n}\n\n// Returns an \"average\" of an array of THREE.Quaternion objects.\n// Note that this is not a spherical lerp between quaternions but\n// rather an arithmetic mean that is normalized to unit length.\nexport function averageQuaternions(\n quaternions: THREE.Quaternion[],\n): THREE.Quaternion {\n if (quaternions.length === 0) {\n return new THREE.Quaternion();\n }\n const sum = quaternions[0].clone();\n for (let i = 1; i < quaternions.length; i++) {\n if (quaternions[i].dot(quaternions[0]) < 0.0) {\n sum.x -= quaternions[i].x;\n sum.y -= quaternions[i].y;\n sum.z -= quaternions[i].z;\n sum.w -= quaternions[i].w;\n } else {\n sum.x += quaternions[i].x;\n sum.y += quaternions[i].y;\n sum.z += quaternions[i].z;\n sum.w += quaternions[i].w;\n }\n }\n return sum.normalize();\n}\n\n// Compare two coordinates given by matrix1 and matrix2, returning the distance\n// between their origins and the \"coincidence\" of their orientations, defined\n// as the dot product of their \"-z\" axes.\nexport function coinciDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n const direction1 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix1)\n .sub(origin1)\n .normalize();\n const direction2 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix2)\n .sub(origin2)\n .normalize();\n\n const distance = origin1.distanceTo(origin2);\n const coincidence = direction1.dot(direction2);\n return { distance, coincidence };\n}\n\n// Utility function that returns whether two coordinate system origins\n// given by matrix1 and matrix2 are within a certain maxDistance of each other.\nexport function withinDist({\n matrix1,\n matrix2,\n maxDistance,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n}): boolean {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n return origin1.distanceTo(origin2) <= maxDistance;\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined by a maxDistance and a minCoincidence.\nexport function withinCoinciDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoincidence,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoincidence?: number;\n}): boolean {\n const { distance, coincidence } = coinciDist(matrix1, matrix2);\n return (\n distance <= maxDistance &&\n (minCoincidence == null || coincidence >= minCoincidence)\n );\n}\n\n// Compare two coordinate systems given by matrix1 and matrix2, returning the\n// distance between their origins and the \"coorientation\" of their orientations,\n// define as the dot product of their quaternion transforms (flipping their\n// orientation to be on the same hemisphere if necessary).\nexport function coorientDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const [origin1, rotate1] = [new THREE.Vector3(), new THREE.Quaternion()];\n const [origin2, rotate2] = [new THREE.Vector3(), new THREE.Quaternion()];\n matrix1.decompose(origin1, rotate1, new THREE.Vector3());\n matrix2.decompose(origin2, rotate2, new THREE.Vector3());\n\n const distance = origin1.distanceTo(origin2);\n const coorient = Math.abs(rotate1.dot(rotate2));\n return { distance, coorient };\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined a maxDistance and a minCoorient.\nexport function withinCoorientDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoorient,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoorient?: number;\n}): boolean {\n const { distance, coorient } = coorientDist(matrix1, matrix2);\n return (\n distance <= maxDistance && (minCoorient == null || coorient >= minCoorient)\n );\n}\n\n// Like Math.sign but with a custom epsilon value.\nexport function epsilonSign(value: number, epsilon = 0.001): number {\n if (Math.abs(value) < epsilon) {\n return 0;\n }\n return Math.sign(value);\n}\n\n// Encode a THREE.Quaternion into a 24-bit integer, converting the xyz coordinates\n// to signed 8-bit integers (w can be derived from xyz), and flipping the sign\n// of the quaternion if necessary to make this possible (q == -q for quaternions).\nexport function encodeQuatXyz888(q: THREE.Quaternion): number {\n const negQuat = q.w < 0.0;\n const iQuatX = floatToSint8(negQuat ? -q.x : q.x);\n const iQuatY = floatToSint8(negQuat ? -q.y : q.y);\n const iQuatZ = floatToSint8(negQuat ? -q.z : q.z);\n const uQuatX = iQuatX & 0xff;\n const uQuatY = iQuatY & 0xff;\n const uQuatZ = iQuatZ & 0xff;\n return uQuatX | (uQuatY << 8) | (uQuatZ << 16);\n}\n\n// Decode a 24-bit integer of the quaternion's xyz coordinates into a THREE.Quaternion.\nexport function decodeQuatXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n const iQuatX = (encoded << 24) >> 24;\n const iQuatY = (encoded << 16) >> 24;\n const iQuatZ = (encoded << 8) >> 24;\n out.set(iQuatX / 127.0, iQuatY / 127.0, iQuatZ / 127.0, 0.0);\n const dotSelf = out.x * out.x + out.y * out.y + out.z * out.z;\n out.w = Math.sqrt(Math.max(0.0, 1.0 - dotSelf));\n return out;\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempNormalizedQuaternion = new THREE.Quaternion();\nconst tempAxis = new THREE.Vector3();\n\n/**\n * Encodes a THREE.Quaternion into a 24‐bit integer.\n *\n * Bit layout (LSB → MSB):\n * - Bits 0–7: quantized U (8 bits)\n * - Bits 8–15: quantized V (8 bits)\n * - Bits 16–23: quantized angle θ (8 bits) from [0,π]\n *\n * This version uses folded octahedral mapping (all inline).\n */\nexport function encodeQuatOctXy88R8(q: THREE.Quaternion): number {\n // Force the minimal representation (q.w >= 0)\n const qnorm = tempNormalizedQuaternion.copy(q).normalize();\n if (qnorm.w < 0) {\n qnorm.set(-qnorm.x, -qnorm.y, -qnorm.z, -qnorm.w);\n }\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnorm.w);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(\n qnorm.x * qnorm.x + qnorm.y * qnorm.y + qnorm.z * qnorm.z,\n );\n const axis =\n xyz_norm < 1e-6\n ? tempAxis.set(1, 0, 0)\n : tempAxis.set(qnorm.x, qnorm.y, qnorm.z).divideScalar(xyz_norm);\n // const foldAxis = (axis.z < 0);\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axis.x) + Math.abs(axis.y) + Math.abs(axis.z);\n let p_x = axis.x / sum;\n let p_y = axis.y / sum;\n // Fold the lower hemisphere.\n if (axis.z < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 7 bits (0..127)\n const quantU = Math.round(u_f * 255);\n const quantV = Math.round(v_f * 255);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 10 bits (0..1023) ---\n const angleInt = Math.round(theta * (255 / Math.PI));\n\n // Pack into 24 bits: bits [0–7]: quantU, [8–15]: quantV, [16–23]: angleInt.\n return (angleInt << 16) | (quantV << 8) | quantU;\n}\n\n/**\n * Decodes a 24‐bit encoded quaternion (packed in a number) back to a THREE.Quaternion.\n *\n * Assumes the same bit layout as in encodeQuatOctXy88R8.\n */\nexport function decodeQuatOctXy88R8(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 8‐bit quantU and quantV, and 8‐bit angleInt.\n const quantU = encoded & 0xff; // bits 0–7\n const quantV = (encoded >>> 8) & 0xff; // bits 8–15\n const angleInt = (encoded >>> 16) & 0xff; // bits 16–23\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 255;\n const v_f = quantV / 255;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axis = tempAxis.set(f_x, f_y, f_z).normalize();\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 255) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axis.x * s, axis.y * s, axis.z * s, w);\n return out;\n}\n\n/**\n * Encodes a THREE.Quaternion into a 24‑bit unsigned integer\n * by converting it to Euler angles (roll, pitch, yaw).\n * The Euler angles are assumed to be in radians in the range [-π, π].\n * Each angle is normalized to [0,1] and quantized to 8 bits.\n * Bit layout (LSB→MSB):\n * - Bits 0–7: roll (quantized)\n * - Bits 8–15: pitch (quantized)\n * - Bits 16–23: yaw (quantized)\n */\nexport function encodeQuatEulerXyz888(q: THREE.Quaternion): number {\n // Normalize quaternion to ensure a proper rotation.\n const qNorm = q.clone().normalize();\n\n // Tait–Bryan angles (roll, pitch, yaw)\n const sinr_cosp = 2.0 * (qNorm.w * qNorm.x + qNorm.y * qNorm.z);\n const cosr_cosp = 1.0 - 2.0 * (qNorm.x * qNorm.x + qNorm.y * qNorm.y);\n const roll = Math.atan2(sinr_cosp, cosr_cosp);\n\n const sinp = 2.0 * (qNorm.w * qNorm.y - qNorm.z * qNorm.x);\n const pitch =\n Math.abs(sinp) >= 1.0 ? Math.sign(sinp) * (Math.PI / 2) : Math.asin(sinp);\n\n const siny_cosp = 2.0 * (qNorm.w * qNorm.z + qNorm.x * qNorm.y);\n const cosy_cosp = 1.0 - 2.0 * (qNorm.y * qNorm.y + qNorm.z * qNorm.z);\n const yaw = Math.atan2(siny_cosp, cosy_cosp);\n\n // Map each angle from [-π, π] to [0, 1]\n const normRoll = (roll + Math.PI) / (2 * Math.PI);\n const normPitch = (pitch + Math.PI) / (2 * Math.PI);\n const normYaw = (yaw + Math.PI) / (2 * Math.PI);\n\n // Quantize to 8 bits (0 to 255)\n const rollQ = Math.round(normRoll * 255);\n const pitchQ = Math.round(normPitch * 255);\n const yawQ = Math.round(normYaw * 255);\n\n // Pack into a 24-bit unsigned integer:\n // Bits 0–7: rollQ, Bits 8–15: pitchQ, Bits 16–23: yawQ.\n return (yawQ << 16) | (pitchQ << 8) | rollQ;\n}\n\n/**\n * Decodes a 24‑bit unsigned integer into a THREE.Quaternion\n * by unpacking three 8‑bit values (roll, pitch, yaw) in the range [0,255]\n * and then converting them back to Euler angles in [-π, π] and to a quaternion.\n */\nexport function decodeQuatEulerXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Unpack 8‑bit values.\n const rollQ = encoded & 0xff;\n const pitchQ = (encoded >>> 8) & 0xff;\n const yawQ = (encoded >>> 16) & 0xff;\n\n // Convert quantized values back to normalized [0,1] values.\n const normRoll = rollQ / 255;\n const normPitch = pitchQ / 255;\n const normYaw = yawQ / 255;\n\n // Map from [0,1] to [-π, π]\n const roll = normRoll * (2 * Math.PI) - Math.PI;\n const pitch = normPitch * (2 * Math.PI) - Math.PI;\n const yaw = normYaw * (2 * Math.PI) - Math.PI;\n\n // Convert Euler angles to quaternion (Tait–Bryan: roll, pitch, yaw).\n const cr = Math.cos(roll * 0.5);\n const sr = Math.sin(roll * 0.5);\n const cp = Math.cos(pitch * 0.5);\n const sp = Math.sin(pitch * 0.5);\n const cy = Math.cos(yaw * 0.5);\n const sy = Math.sin(yaw * 0.5);\n\n out.w = cr * cp * cy + sr * sp * sy;\n out.x = sr * cp * cy - cr * sp * sy;\n out.y = cr * sp * cy + sr * cp * sy;\n out.z = cr * cp * sy - sr * sp * cy;\n out.normalize();\n return out;\n}\n\nexport function encodeQuatOctXy1010R12(\n qx: number,\n qy: number,\n qz: number,\n qw: number,\n): number {\n const qlen = Math.sqrt(qx * qx + qy * qy + qz * qz + qw * qw);\n // Force the minimal representation (q.w >= 0)\n const qnx = (qw < 0 ? -qx : qx) / qlen;\n const qny = (qw < 0 ? -qy : qy) / qlen;\n const qnz = (qw < 0 ? -qz : qz) / qlen;\n const qnw = (qw < 0 ? -qw : qw) / qlen;\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnw);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(qnx * qnx + qny * qny + qnz * qnz);\n const axisX = xyz_norm < 1e-6 ? 1 : qnx / xyz_norm;\n const axisY = xyz_norm < 1e-6 ? 0 : qny / xyz_norm;\n const axisZ = xyz_norm < 1e-6 ? 0 : qnz / xyz_norm;\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axisX) + Math.abs(axisY) + Math.abs(axisZ);\n let p_x = axisX / sum;\n let p_y = axisY / sum;\n // Fold the lower hemisphere.\n if (axisZ < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 10 bits (0..1023)\n const quantU = Math.round(u_f * 1023);\n const quantV = Math.round(v_f * 1023);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 12 bits (0..4095) ---\n const angleInt = Math.round(theta * (4095 / Math.PI));\n\n // Pack into 32 bits: bits [0–9]: quantU, [10–19]: quantV, [20–31]: angleInt.\n return (angleInt << 20) | (quantV << 10) | quantU;\n}\n\nexport function decodeQuatOctXy1010R12(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 10‐bit quantU and quantV, and 12‐bit angleInt.\n const quantU = encoded & 0x3ff; // bits 0–9\n const quantV = (encoded >>> 10) & 0x3ff; // bits 10–19\n const angleInt = (encoded >>> 20) & 0xfff; // bits 20–31\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 1023;\n const v_f = quantV / 1023;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axisLen = Math.sqrt(f_x * f_x + f_y * f_y + f_z * f_z);\n const axisX = axisLen < 1e-6 ? 0 : f_x / axisLen;\n const axisY = axisLen < 1e-6 ? 0 : f_y / axisLen;\n const axisZ = axisLen < 1e-6 ? 0 : f_z / axisLen;\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 4095) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axisX * s, axisY * s, axisZ * s, w);\n return out;\n}\n\n// Pack four signed 8-bit values into a single uint32.\nfunction packSint8Bytes(\n b0: number,\n b1: number,\n b2: number,\n b3: number,\n): number {\n const clampedB0 = Math.round(Math.max(-127, Math.min(127, b0 * 127)));\n const clampedB1 = Math.round(Math.max(-127, Math.min(127, b1 * 127)));\n const clampedB2 = Math.round(Math.max(-127, Math.min(127, b2 * 127)));\n const clampedB3 = Math.round(Math.max(-127, Math.min(127, b3 * 127)));\n return (\n (clampedB0 & 0xff) |\n ((clampedB1 & 0xff) << 8) |\n ((clampedB2 & 0xff) << 16) |\n ((clampedB3 & 0xff) << 24)\n );\n}\n\n// Encode an array of 9 signed RGB SH1 coefficients (clamped to [-1,1]) into\n// a pair of uint32 values, where each coefficient is stored as a sint7\nexport function encodeSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n encoding?: {\n sh1Max?: number;\n },\n) {\n const sh1Max = encoding?.sh1Max ?? 1;\n const sh1Scale = 63 / sh1Max;\n\n // Pack sint7 values into 2 x uint32\n const base = index * 2;\n for (let i = 0; i < 9; ++i) {\n const s = sh1Rgb[i] * sh1Scale;\n const value = Math.round(Math.max(-63, Math.min(63, s))) & 0x7f;\n const bitStart = i * 7;\n const bitEnd = bitStart + 7;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh1Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh1Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\n// Encode an array of 15 signed RGB SH2 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint8.\nexport function encodeSh2Rgb(\n sh2Array: Uint32Array,\n index: number,\n sh2Rgb: Float32Array,\n encoding?: {\n sh2Max?: number;\n },\n) {\n const sh2Max = encoding?.sh2Max ?? 1;\n const sh2Scale = 1 / sh2Max;\n\n // Pack sint8 values into 4 x uint32\n sh2Array[index * 4 + 0] = packSint8Bytes(\n sh2Rgb[0] * sh2Scale,\n sh2Rgb[1] * sh2Scale,\n sh2Rgb[2] * sh2Scale,\n sh2Rgb[3] * sh2Scale,\n );\n sh2Array[index * 4 + 1] = packSint8Bytes(\n sh2Rgb[4] * sh2Scale,\n sh2Rgb[5] * sh2Scale,\n sh2Rgb[6] * sh2Scale,\n sh2Rgb[7] * sh2Scale,\n );\n sh2Array[index * 4 + 2] = packSint8Bytes(\n sh2Rgb[8] * sh2Scale,\n sh2Rgb[9] * sh2Scale,\n sh2Rgb[10] * sh2Scale,\n sh2Rgb[11] * sh2Scale,\n );\n sh2Array[index * 4 + 3] = packSint8Bytes(\n sh2Rgb[12] * sh2Scale,\n sh2Rgb[13] * sh2Scale,\n sh2Rgb[14] * sh2Scale,\n 0,\n );\n}\n\n// Encode an array of 21 signed RGB SH3 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint6.\nexport function encodeSh3Rgb(\n sh3Array: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n encoding?: {\n sh3Max?: number;\n },\n) {\n const sh3Max = encoding?.sh3Max ?? 1;\n const sh3Scale = 31 / sh3Max;\n\n // Pack sint6 values into 4 x uint32\n const base = index * 4;\n for (let i = 0; i < 21; ++i) {\n const s = sh3Rgb[i] * sh3Scale;\n const value = Math.round(Math.max(-31, Math.min(31, s))) & 0x3f;\n const bitStart = i * 6;\n const bitEnd = bitStart + 6;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh3Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh3Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\nexport function encodeExtRgb(r: number, g: number, b: number): number {\n const ar = Math.abs(r);\n const ag = Math.abs(g);\n const ab = Math.abs(b);\n const maxAbs = Math.max(ar, ag, ab);\n const base = Math.floor(Math.log2(maxAbs));\n const biasedBase = Math.max(0, Math.min(31, base + 15));\n const divisor = 2 ** (biasedBase - 15) / 255;\n const uR = Math.round(Math.max(0, Math.min(255, ar / divisor)));\n const uG = Math.round(Math.max(0, Math.min(255, ag / divisor)));\n const uB = Math.round(Math.max(0, Math.min(255, ab / divisor)));\n const expSigns =\n (biasedBase << 3) |\n ((r < 0 ? 0x1 : 0) | (g < 0 ? 0x2 : 0) | (b < 0 ? 0x4 : 0));\n return uR | (uG << 8) | (uB << 16) | (expSigns << 24);\n}\n\nexport function decodeExtRgb(encoded: number): THREE.Color {\n const color = packedFields.color;\n const biasedBase = (encoded >>> 27) & 0x1f;\n const divisor = 2 ** (biasedBase - 15) / 255;\n const r = (encoded & 0xff) * divisor;\n const g = ((encoded >>> 8) & 0xff) * divisor;\n const b = ((encoded >>> 16) & 0xff) * divisor;\n color.r = encoded & 0x1000000 ? -r : r;\n color.g = encoded & 0x2000000 ? -g : g;\n color.b = encoded & 0x4000000 ? -b : b;\n return color;\n}\n\nexport function encodeExtSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n}\n\nexport function encodeExtSh12Rgb(\n sh1Array: Uint32Array,\n sh2Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n sh2Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n sh1Array[i4 + 3] = encodeExtRgb(sh2Rgb[0], sh2Rgb[1], sh2Rgb[2]);\n for (let k = 1; k < 5; ++k) {\n const k5 = k * 5;\n sh2Array[i4 + (k - 1)] = encodeExtRgb(\n sh2Rgb[k5],\n sh2Rgb[k5 + 1],\n sh2Rgb[k5 + 2],\n );\n }\n}\n\nexport function encodeExt3Rgb(\n sh3ArrayA: Uint32Array,\n sh3ArrayB: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 4; ++k) {\n const k3 = k * 3;\n sh3ArrayA[i4 + k] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n for (let k = 4; k < 7; ++k) {\n const k3 = k * 3;\n sh3ArrayB[i4 + (k - 4)] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n}\n\n// Partially decompress a gzip-encoded Uint8Array, returning a Uint8Array of\n// the specified numBytes from the start of the file.\nexport function decompressPartialGzip(\n fileBytes: Uint8Array,\n numBytes: number,\n): Uint8Array {\n const chunks: Uint8Array[] = [];\n let totalBytes = 0;\n let result: Uint8Array | null = null;\n\n const gunzip = new Gunzip((data, final) => {\n chunks.push(data);\n totalBytes += data.length;\n if (final || totalBytes >= numBytes) {\n const allBytes = new Uint8Array(totalBytes);\n let offset = 0;\n for (const chunk of chunks) {\n allBytes.set(chunk, offset);\n offset += chunk.length;\n }\n result = allBytes.slice(0, numBytes);\n }\n });\n\n const CHUNK_SIZE = 1024;\n let offset = 0;\n while (result == null && offset < fileBytes.length) {\n const chunk = fileBytes.slice(offset, offset + CHUNK_SIZE);\n gunzip.push(chunk, false);\n offset += CHUNK_SIZE;\n }\n\n if (result == null) {\n gunzip.push(new Uint8Array(), true);\n if (result == null) {\n throw new Error(\"Failed to decompress partial gzip\");\n }\n }\n return result;\n}\n\nexport class GunzipReader {\n fileBytes: Uint8Array;\n chunkBytes: number;\n\n chunks: Uint8Array[];\n totalBytes: number;\n reader: ReadableStreamDefaultReader;\n\n constructor({\n fileBytes,\n chunkBytes = 64 * 1024,\n }: { fileBytes: Uint8Array; chunkBytes?: number }) {\n this.fileBytes = fileBytes;\n this.chunkBytes = chunkBytes;\n this.chunks = [];\n this.totalBytes = 0;\n\n const ds = new DecompressionStream(\"gzip\");\n const decompressionStream = new Blob([fileBytes]).stream().pipeThrough(ds);\n this.reader = decompressionStream.getReader();\n }\n\n async read(numBytes: number): Promise {\n while (this.totalBytes < numBytes) {\n const { value: chunk, done: readerDone } = await this.reader.read();\n if (readerDone) {\n break;\n }\n\n this.chunks.push(chunk);\n this.totalBytes += chunk.length;\n }\n\n if (this.totalBytes < numBytes) {\n throw new Error(\n `Unexpected EOF: needed ${numBytes}, got ${this.totalBytes}`,\n );\n }\n\n const allBytes = new Uint8Array(this.totalBytes);\n let outOffset = 0;\n for (const chunk of this.chunks) {\n allBytes.set(chunk, outOffset);\n outOffset += chunk.length;\n }\n\n const result = allBytes.subarray(0, numBytes);\n this.chunks = [allBytes.subarray(numBytes)];\n this.totalBytes -= numBytes;\n return result;\n }\n}\n","import BundledWorker from \"./oldWorker?worker&inline\";\nimport { getTransferable } from \"./utils.js\";\n\n// SplatWorker is an internal class that manages a WebWorker for executing\n// longer running CPU tasks such as Gsplat file decoding and sorting.\n// Although a SplatWorker can be created and used directly, the utility\n// function withWorker() is recommended to allocate from a managed\n// pool of SplatWorkers.\n\nexport class OldSplatWorker {\n worker: Worker;\n messages: Record<\n number,\n { resolve: (value: unknown) => void; reject: (reason?: unknown) => void }\n > = {};\n messageIdNext = 0;\n\n constructor() {\n // this.worker = new Worker(new URL(\"./worker\", import.meta.url), { type: \"module\" });\n this.worker = new BundledWorker();\n this.worker.onmessage = (event) => this.onMessage(event);\n }\n\n makeMessageId(): number {\n return ++this.messageIdNext;\n }\n\n makeMessagePromiseId(): { id: number; promise: Promise } {\n const id = this.makeMessageId();\n const promise = new Promise((resolve, reject) => {\n this.messages[id] = { resolve, reject };\n });\n return { id, promise };\n }\n\n onMessage(event: MessageEvent) {\n // console.log(\"SplatWorker.onMessage:\", event);\n const { id, result, error } = event.data;\n // console.log(`SplatWorker.onMessage(${id}):`, result, error);\n const handler = this.messages[id];\n if (handler) {\n delete this.messages[id];\n if (error) {\n handler.reject(error);\n } else {\n handler.resolve(result);\n }\n }\n }\n\n // Invoke an RPC on the worker with the given name and arguments.\n // The normal usage of a worker is to run one activity at a time,\n // but this function allows for concurrent calls, tagging each request\n // with a unique message Id and awaiting a response to that same Id.\n // The method will automatically transfer any ArrayBuffers in the\n // arguments to the worker. If you'd like to transfer a copy of a\n // buffer then you must clone it before passing to this function.\n async call(name: string, args: unknown): Promise {\n const { id, promise } = this.makeMessagePromiseId();\n // console.log(`SplatWorker.call(${name}):`, args);\n this.worker.postMessage(\n { name, args, id },\n { transfer: getTransferable(args) },\n );\n return promise;\n }\n}\n\nlet maxWorkers = 4;\n\nlet numWorkers = 0;\nconst freeWorkers: OldSplatWorker[] = [];\nconst workerQueue: ((worker: OldSplatWorker) => void)[] = [];\n\n// Set the maximum number of workers to allocate for the pool. (default: 4)\nexport function setWorkerPool(count = 4) {\n maxWorkers = count;\n}\n\n// Allocate a worker from the pool. If none are available and we are below the\n// maximum, create a new one. Otherwise, add the request to a queue and wait\n// for it to be fulfilled.\nexport async function allocWorker(): Promise {\n const worker = freeWorkers.shift();\n if (worker) {\n return worker;\n }\n\n if (numWorkers < maxWorkers) {\n const worker = new OldSplatWorker();\n numWorkers += 1;\n return worker;\n }\n\n return new Promise((resolve) => {\n workerQueue.push(resolve);\n });\n}\n\n// Return a worker to the pool. Pass the worker to any pending waiter.\nexport function freeWorker(worker: OldSplatWorker) {\n if (numWorkers > maxWorkers) {\n // Worker no longer needed\n numWorkers -= 1;\n return;\n }\n\n const waiter = workerQueue.shift();\n if (waiter) {\n waiter(worker);\n return;\n }\n\n freeWorkers.push(worker);\n}\n\n// Allocate a worker from the pool and invoke the callback with the worker.\n// When the callback completes, the worker will be returned to the pool.\nexport async function withWorker(\n callback: (worker: OldSplatWorker) => Promise,\n): Promise {\n const worker = await allocWorker();\n try {\n return await callback(worker);\n } finally {\n freeWorker(worker);\n }\n}\n","import {\n\tBufferGeometry,\n\tFloat32BufferAttribute,\n\tOrthographicCamera,\n\tMesh\n} from 'three';\n\n/**\n * Abstract base class for all post processing passes.\n *\n * This module is only relevant for post processing with {@link WebGLRenderer}.\n *\n * @abstract\n * @three_import import { Pass } from 'three/addons/postprocessing/Pass.js';\n */\nclass Pass {\n\n\t/**\n\t * Constructs a new pass.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPass = true;\n\n\t\t/**\n\t\t * If set to `true`, the pass is processed by the composer.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.enabled = true;\n\n\t\t/**\n\t\t * If set to `true`, the pass indicates to swap read and write buffer after rendering.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.needsSwap = true;\n\n\t\t/**\n\t\t * If set to `true`, the pass clears its buffer before rendering\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clear = false;\n\n\t\t/**\n\t\t * If set to `true`, the result of the pass is rendered to screen. The last pass in the composers\n\t\t * pass chain gets automatically rendered to screen, no matter how this property is configured.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.renderToScreen = false;\n\n\t}\n\n\t/**\n\t * Sets the size of the pass.\n\t *\n\t * @abstract\n\t * @param {number} width - The width to set.\n\t * @param {number} height - The height to set.\n\t */\n\tsetSize( /* width, height */ ) {}\n\n\t/**\n\t * This method holds the render logic of a pass. It must be implemented in all derived classes.\n\t *\n\t * @abstract\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {WebGLRenderTarget} writeBuffer - The write buffer. This buffer is intended as the rendering\n\t * destination for the pass.\n\t * @param {WebGLRenderTarget} readBuffer - The read buffer. The pass can access the result from the\n\t * previous pass from this buffer.\n\t * @param {number} deltaTime - The delta time in seconds.\n\t * @param {boolean} maskActive - Whether masking is active or not.\n\t */\n\trender( /* renderer, writeBuffer, readBuffer, deltaTime, maskActive */ ) {\n\n\t\tconsole.error( 'THREE.Pass: .render() must be implemented in derived pass.' );\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever the pass is no longer used in your app.\n\t *\n\t * @abstract\n\t */\n\tdispose() {}\n\n}\n\n// Helper for passes that need to fill the viewport with a single quad.\n\nconst _camera = new OrthographicCamera( - 1, 1, 1, - 1, 0, 1 );\n\n// https://github.com/mrdoob/three.js/pull/21358\n\nclass FullscreenTriangleGeometry extends BufferGeometry {\n\n\tconstructor() {\n\n\t\tsuper();\n\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( [ - 1, 3, 0, - 1, - 1, 0, 3, - 1, 0 ], 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( [ 0, 2, 0, 0, 2, 0 ], 2 ) );\n\n\t}\n\n}\n\nconst _geometry = new FullscreenTriangleGeometry();\n\n\n/**\n * This module is a helper for passes which need to render a full\n * screen effect which is quite common in context of post processing.\n *\n * The intended usage is to reuse a single full screen quad for rendering\n * subsequent passes by just reassigning the `material` reference.\n *\n * This module can only be used with {@link WebGLRenderer}.\n *\n * @augments Mesh\n * @three_import import { FullScreenQuad } from 'three/addons/postprocessing/Pass.js';\n */\nclass FullScreenQuad {\n\n\t/**\n\t * Constructs a new full screen quad.\n\t *\n\t * @param {?Material} material - The material to render te full screen quad with.\n\t */\n\tconstructor( material ) {\n\n\t\tthis._mesh = new Mesh( _geometry, material );\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever the instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis._mesh.geometry.dispose();\n\n\t}\n\n\t/**\n\t * Renders the full screen quad.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t */\n\trender( renderer ) {\n\n\t\trenderer.render( this._mesh, _camera );\n\n\t}\n\n\t/**\n\t * The quad's material.\n\t *\n\t * @type {?Material}\n\t */\n\tget material() {\n\n\t\treturn this._mesh.material;\n\n\t}\n\n\tset material( value ) {\n\n\t\tthis._mesh.material = value;\n\n\t}\n\n}\n\nexport { Pass, FullScreenQuad };\n","import { getTransferable } from \"./utils\";\nimport BundledWorker from \"./worker?worker&inline\";\n\ntype PromiseRecord = {\n resolve: (value: unknown) => void;\n reject: (reason?: unknown) => void;\n onStatus?: (data: unknown) => void;\n};\n\nexport class SplatWorker {\n worker: Worker;\n queue: (() => void)[] | null = null;\n messages: Record = {};\n static currentId = 0;\n\n constructor() {\n this.worker = new BundledWorker();\n this.worker.onmessage = (event) => this.onMessage(event);\n }\n\n onMessage(event: MessageEvent) {\n const { id, result, error, status } = event.data;\n const promise = this.messages[id];\n if (promise) {\n if (error !== undefined) {\n delete this.messages[id];\n promise.reject(error);\n } else if (status !== undefined) {\n promise.onStatus?.(status);\n } else {\n delete this.messages[id];\n promise.resolve(result);\n }\n }\n }\n\n tryExclusive(callback: (worker: SplatWorker) => Promise) {\n return this.queue == null ? this.exclusive(callback) : null;\n }\n\n async exclusive(\n callback: (worker: SplatWorker) => Promise,\n ): Promise {\n const queue = this.queue;\n if (queue != null) {\n await new Promise((resolve) => {\n queue.push(() => resolve(undefined));\n });\n } else {\n this.queue = [];\n }\n\n try {\n return await callback(this);\n } finally {\n if (this.queue != null) {\n if (this.queue.length === 0) {\n this.queue = null;\n } else {\n const waiter = this.queue.shift() as () => void;\n waiter();\n }\n }\n }\n }\n\n async call(\n name: string,\n args: unknown,\n options: { onStatus?: (data: unknown) => void } = {},\n ): Promise {\n const id = ++SplatWorker.currentId;\n const promise = new Promise((resolve, reject) => {\n this.messages[id] = { resolve, reject, onStatus: options.onStatus };\n });\n this.worker.postMessage(\n { id, name, args },\n { transfer: getTransferable(args) },\n );\n return await promise;\n }\n\n dispose() {\n this.worker.terminate();\n\n const messages = Object.values(this.messages);\n this.messages = {};\n for (const message of messages) {\n message.reject(new Error(\"Worker terminate\"));\n }\n }\n}\n\nexport class NewSplatWorkerPool {\n maxWorkers;\n numWorkers = 0;\n freelist: SplatWorker[] = [];\n queue: ((worker: SplatWorker) => void)[] = [];\n\n constructor(maxWorkers = 4) {\n this.maxWorkers = maxWorkers;\n }\n\n async withWorker(\n callback: (worker: SplatWorker) => Promise,\n ): Promise {\n const worker = await this.allocWorker();\n try {\n return await callback(worker);\n } finally {\n this.freeWorker(worker);\n }\n }\n\n async allocWorker(): Promise {\n const worker = this.freelist.pop();\n if (worker) {\n return worker;\n }\n\n if (this.numWorkers < this.maxWorkers) {\n const worker = new SplatWorker();\n this.numWorkers += 1;\n return worker;\n }\n\n return new Promise((resolve) => {\n this.queue.push(resolve);\n });\n }\n\n freeWorker(worker: SplatWorker) {\n if (this.numWorkers > this.maxWorkers) {\n // Worker no longer needed\n this.numWorkers -= 1;\n return;\n }\n\n const waiter = this.queue.shift();\n if (waiter) {\n waiter(worker);\n return;\n }\n\n this.freelist.push(worker);\n }\n}\n\nexport const workerPool = new NewSplatWorkerPool();\n","import { Dyno, UnaryOp, unindent, unindentLines } from \"./base\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n} from \"./value\";\n\nexport const Gsplat = { type: \"Gsplat\" } as { type: \"Gsplat\" };\nexport const CovSplat = { type: \"CovSplat\" } as { type: \"CovSplat\" };\nexport const TPackedSplats = { type: \"PackedSplats\" } as {\n type: \"PackedSplats\";\n};\nexport const TExtSplats = { type: \"ExtSplats\" } as {\n type: \"ExtSplats\";\n};\nexport const TCovSplats = { type: \"CovSplats\" } as {\n type: \"CovSplats\";\n};\n\nexport const numPackedSplats = (\n packedSplats: DynoVal,\n): DynoVal<\"int\"> => new NumPackedSplats({ packedSplats });\nexport const readPackedSplat = (\n packedSplats: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal => new ReadPackedSplat({ packedSplats, index });\nexport const readPackedSplatRange = (\n packedSplats: DynoVal,\n index: DynoVal<\"int\">,\n base: DynoVal<\"int\">,\n count: DynoVal<\"int\">,\n): DynoVal =>\n new ReadPackedSplatRange({ packedSplats, index, base, count });\n\nexport const numExtSplats = (\n extSplats: DynoVal,\n): DynoVal<\"int\"> => new NumExtSplats({ extSplats });\nexport const readExtSplat = (\n extSplats: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal => new ReadExtSplat({ extSplats, index });\n\nexport const numCovSplats = (\n covsplats: DynoVal,\n): DynoVal<\"int\"> => new NumCovSplats({ covsplats });\nexport const readCovSplat = (\n covSplats: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal => new ReadCovSplat({ covSplats, index });\n\nexport const gsplatToCovSplat = (\n gsplat: DynoVal,\n): DynoVal => new GsplatToCovSplat({ gsplat });\n\nexport const splitGsplat = (gsplat: DynoVal) =>\n new SplitGsplat({ gsplat });\nexport const combineGsplat = ({\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n}: {\n gsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n scales?: DynoVal<\"vec3\">;\n quaternion?: DynoVal<\"vec4\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n}): DynoVal => {\n return new CombineGsplat({\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n });\n};\nexport const gsplatNormal = (gsplat: DynoVal): DynoVal<\"vec3\"> =>\n new GsplatNormal({ gsplat });\n\nexport const transformGsplat = (\n gsplat: DynoVal,\n {\n scale,\n rotate,\n translate,\n recolor,\n }: {\n scale?: DynoVal<\"float\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n recolor?: DynoVal<\"vec4\">;\n },\n): DynoVal => {\n return new TransformGsplat({ gsplat, scale, rotate, translate, recolor });\n};\n\nexport const splatTexCoord = (index: DynoVal<\"int\">): DynoVal<\"ivec3\"> =>\n new SplatTexCoord({ index });\n\nexport const pagedSplatTexCoord = (index: DynoVal<\"int\">): DynoVal<\"ivec3\"> =>\n new PagedSplatTexCoord({ index });\n\nexport const defineGsplat = unindent(`\n struct Gsplat {\n vec3 center;\n uint flags;\n vec3 scales;\n int index;\n vec4 quaternion;\n vec4 rgba;\n };\n const uint GSPLAT_FLAG_ACTIVE = 1u << 0u;\n\n bool isGsplatActive(uint flags) {\n return (flags & GSPLAT_FLAG_ACTIVE) != 0u;\n }\n`);\n\nexport const defineCovSplat = unindent(`\n struct CovSplat {\n vec3 center;\n uint flags;\n vec4 rgba;\n vec3 xxyyzz;\n int index;\n vec3 xyxzyz;\n };\n\n bool isCovSplatActive(uint flags) {\n return (flags & GSPLAT_FLAG_ACTIVE) != 0u;\n }\n`);\n\nexport const definePackedSplats = unindent(`\n struct PackedSplats {\n usampler2DArray textureArray;\n int numSplats;\n vec4 rgbMinMaxLnScaleMinMax;\n bool lodOpacity;\n };\n`);\n\nexport class NumPackedSplats extends UnaryOp<\n typeof TPackedSplats,\n \"int\",\n \"numSplats\"\n> {\n constructor({\n packedSplats,\n }: { packedSplats: DynoVal }) {\n super({ a: packedSplats, outKey: \"numSplats\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.numSplats} = ${inputs.a}.numSplats;`,\n ];\n }\n}\n\nconst defineReadPackedArray = unindent(`\n bool readPackedArray(usampler2DArray texture, int numSplats, vec4 rgbMinMaxLnScaleMinMax, int index, out Gsplat gsplat) {\n if ((index >= 0) && (index < numSplats)) {\n uvec4 packed = texelFetch(texture, splatTexCoord(index), 0);\n unpackSplatEncoding(packed, gsplat.center, gsplat.scales, gsplat.quaternion, gsplat.rgba, rgbMinMaxLnScaleMinMax);\n return true;\n } else {\n return false;\n }\n }\n`);\n\nexport class ReadPackedSplat\n extends Dyno<\n { packedSplats: typeof TPackedSplats; index: \"int\" },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n packedSplats,\n index,\n }: { packedSplats?: DynoVal; index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { packedSplats: TPackedSplats, index: \"int\" },\n outTypes: { gsplat: Gsplat },\n inputs: { packedSplats, index },\n globals: () => [defineGsplat, definePackedSplats, defineReadPackedArray],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = outputs;\n if (!gsplat) {\n return [];\n }\n const { packedSplats, index } = inputs;\n let statements: string[];\n if (packedSplats && index) {\n statements = unindentLines(`\n ${gsplat}.flags = 0u;\n if (readPackedArray(${packedSplats}.textureArray, ${packedSplats}.numSplats, ${packedSplats}.rgbMinMaxLnScaleMinMax, ${index}, ${gsplat})) {\n if (${packedSplats}.lodOpacity) {\n ${gsplat}.rgba.a = 2.0 * ${gsplat}.rgba.a;\n }\n bool zeroSize = all(equal(${gsplat}.scales, vec3(0.0, 0.0, 0.0)));\n ${gsplat}.flags = zeroSize ? 0u : GSPLAT_FLAG_ACTIVE;\n }\n `);\n } else {\n statements = [`${gsplat}.flags = 0u;`];\n }\n statements.push(`${gsplat}.index = ${index ?? \"0\"};`);\n return statements;\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport class ReadPackedSplatRange\n extends Dyno<\n {\n packedSplats: typeof TPackedSplats;\n index: \"int\";\n base: \"int\";\n count: \"int\";\n },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n packedSplats,\n index,\n base,\n count,\n }: {\n packedSplats?: DynoVal;\n index?: DynoVal<\"int\">;\n base?: DynoVal<\"int\">;\n count?: DynoVal<\"int\">;\n }) {\n super({\n inTypes: {\n packedSplats: TPackedSplats,\n index: \"int\",\n base: \"int\",\n count: \"int\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: { packedSplats, index, base, count },\n globals: () => [defineGsplat, definePackedSplats, defineReadPackedArray],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = outputs;\n if (!gsplat) {\n return [];\n }\n const { packedSplats, index, base, count } = inputs;\n let statements: string[];\n if (packedSplats && index && base && count) {\n statements = unindentLines(`\n ${gsplat}.flags = 0u;\n if (readPackedArray(${packedSplats}.textureArray, ${packedSplats}.numSplats, ${packedSplats}.rgbMinMaxLnScaleMinMax, ${index}, ${gsplat})) {\n if (${packedSplats}.lodOpacity) {\n ${gsplat}.rgba.a = 2.0 * ${gsplat}.rgba.a;\n }\n bool zeroSize = all(equal(${gsplat}.scales, vec3(0.0, 0.0, 0.0)));\n ${gsplat}.flags = zeroSize ? 0u : GSPLAT_FLAG_ACTIVE;\n }\n `);\n } else {\n statements = [`${gsplat}.flags = 0u;`];\n }\n statements.push(`${gsplat}.index = ${index ?? \"0\"};`);\n return statements;\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport const defineExtSplats = unindent(`\n struct ExtSplats {\n usampler2DArray textureArray1;\n usampler2DArray textureArray2;\n int numSplats;\n };\n`);\n\nexport class NumExtSplats extends UnaryOp<\n typeof TExtSplats,\n \"int\",\n \"numSplats\"\n> {\n constructor({ extSplats }: { extSplats: DynoVal }) {\n super({ a: extSplats, outKey: \"numSplats\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.numSplats} = ${inputs.a}.numSplats;`,\n ];\n }\n}\n\nconst defineReadExtArrays = unindent(`\n void readExtArrays(usampler2DArray texture1, usampler2DArray texture2, int numSplats, int index, out Gsplat gsplat) {\n gsplat.flags = 0u;\n if ((index >= 0) && (index < numSplats)) {\n ivec3 coord = splatTexCoord(index);\n uvec4 packed1 = texelFetch(texture1, coord, 0);\n uvec4 packed2 = texelFetch(texture2, coord, 0);\n unpackSplatExt(packed1, packed2, gsplat.center, gsplat.scales, gsplat.quaternion, gsplat.rgba);\n gsplat.flags = all(equal(gsplat.scales, vec3(0.0, 0.0, 0.0))) ? 0u : GSPLAT_FLAG_ACTIVE;\n gsplat.index = index;\n }\n }\n`);\n\nexport class ReadExtSplat\n extends Dyno<\n { extSplats: typeof TExtSplats; index: \"int\" },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n extSplats,\n index,\n }: { extSplats?: DynoVal; index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { extSplats: TExtSplats, index: \"int\" },\n outTypes: { gsplat: Gsplat },\n inputs: { extSplats, index },\n globals: () => [defineGsplat, defineExtSplats, defineReadExtArrays],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = outputs;\n if (!gsplat) {\n return [`${gsplat}.flags = 0u;`];\n }\n const { extSplats, index } = inputs;\n let statements: string[];\n if (extSplats && index) {\n return unindentLines(`\n readExtArrays(${extSplats}.textureArray1, ${extSplats}.textureArray2, ${extSplats}.numSplats, ${index}, ${gsplat});\n `);\n }\n return [`${gsplat}.flags = 0u;`];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport class NumCovSplats extends UnaryOp<\n typeof TCovSplats,\n \"int\",\n \"numSplats\"\n> {\n constructor({ covsplats }: { covsplats: DynoVal }) {\n super({ a: covsplats, outKey: \"numSplats\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.numSplats} = ${inputs.a}.numSplats;`,\n ];\n }\n}\n\nconst defineReadCovArrays = unindent(`\n void readCovArrays(usampler2DArray texture1, usampler2DArray texture2, int numSplats, int index, out CovSplat covsplat) {\n covsplat.flags = 0u;\n if ((index >= 0) && (index < numSplats)) {\n ivec3 coord = splatTexCoord(index);\n uvec4 packed1 = texelFetch(texture1, coord, 0);\n uvec4 packed2 = texelFetch(texture2, coord, 0);\n unpackSplatExtCov(packed1, packed2, covsplat.center, covsplat.rgba, covsplat.xxyyzz, covsplat.xyxzyz);\n covsplat.flags = (all(equal(covsplat.xxyyzz, vec3(0.0))) && all(equal(covsplat.xyxzyz, vec3(0.0)))) ? 0u : GSPLAT_FLAG_ACTIVE;\n gsplat.index = index;\n }\n }\n`);\n\nexport class ReadCovSplat\n extends Dyno<\n { covSplats: typeof TCovSplats; index: \"int\" },\n { covsplat: typeof CovSplat }\n >\n implements HasDynoOut\n{\n constructor({\n covSplats,\n index,\n }: { covSplats?: DynoVal; index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { covSplats: TCovSplats, index: \"int\" },\n outTypes: { covsplat: CovSplat },\n inputs: { covSplats, index },\n globals: () => [defineGsplat, defineCovSplat, defineReadCovArrays],\n statements: ({ inputs, outputs }) => {\n const { covsplat } = outputs;\n if (!covsplat) {\n return [`${covsplat}.flags = 0u;`];\n }\n const { covSplats, index } = inputs;\n let statements: string[];\n if (covSplats && index) {\n return unindentLines(`\n readCovArrays(${covSplats}.textureArray, ${covSplats}.numSplats, ${index}, ${covsplat});\n `);\n }\n return [`${covsplat}.flags = 0u;`];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"covsplat\");\n }\n}\n\nexport class GsplatToCovSplat extends Dyno<\n { gsplat: typeof Gsplat },\n { covsplat: typeof CovSplat }\n> {\n constructor({ gsplat }: { gsplat?: DynoVal }) {\n super({\n inTypes: { gsplat: Gsplat },\n outTypes: { covsplat: CovSplat },\n inputs: { gsplat },\n globals: () => [defineGsplat, defineCovSplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = inputs;\n const { covsplat } = outputs;\n if (!gsplat) {\n return [`${covsplat}.flags = 0u;`];\n }\n\n return unindentLines(`\n ${covsplat}.flags = 0u;\n if (isGsplatActive(${gsplat}.flags)) {\n ${covsplat}.flags = ${gsplat}.flags;\n ${covsplat}.index = ${gsplat}.index;\n ${covsplat}.rgba = ${gsplat}.rgba;\n ${covsplat}.center = ${gsplat}.center;\n mat3 m = scaleQuaternionToMatrix(${gsplat}.scales, ${gsplat}.quaternion);\n m = m * transpose(m);\n ${covsplat}.xxyyzz = vec3(m[0][0], m[1][1], m[2][2]);\n ${covsplat}.xyxzyz = vec3(m[0][1], m[0][2], m[1][2]);\n }\n `);\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"covsplat\");\n }\n}\n\nexport class SplitGsplat extends Dyno<\n { gsplat: typeof Gsplat },\n {\n flags: \"uint\";\n active: \"bool\";\n index: \"int\";\n center: \"vec3\";\n scales: \"vec3\";\n quaternion: \"vec4\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n }\n> {\n constructor({ gsplat }: { gsplat?: DynoVal }) {\n super({\n inTypes: { gsplat: Gsplat },\n outTypes: {\n flags: \"uint\",\n active: \"bool\",\n index: \"int\",\n center: \"vec3\",\n scales: \"vec3\",\n quaternion: \"vec4\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n inputs: { gsplat },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = inputs;\n const {\n flags,\n active,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = outputs;\n return [\n !flags ? null : `${flags} = ${gsplat ? `${gsplat}.flags` : \"0u\"};`,\n !active\n ? null\n : `${active} = isGsplatActive(${gsplat ? `${gsplat}.flags` : \"0u\"});`,\n !index ? null : `${index} = ${gsplat ? `${gsplat}.index` : \"0\"};`,\n !center\n ? null\n : `${center} = ${gsplat ? `${gsplat}.center` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !scales\n ? null\n : `${scales} = ${gsplat ? `${gsplat}.scales` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !quaternion\n ? null\n : `${quaternion} = ${gsplat ? `${gsplat}.quaternion` : \"vec4(0.0, 0.0, 0.0, 1.0)\"};`,\n !rgba\n ? null\n : `${rgba} = ${gsplat ? `${gsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\"};`,\n !rgb\n ? null\n : `${rgb} = ${gsplat ? `${gsplat}.rgba.rgb` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !opacity\n ? null\n : `${opacity} = ${gsplat ? `${gsplat}.rgba.a` : \"0.0\"};`,\n !x ? null : `${x} = ${gsplat ? `${gsplat}.center.x` : \"0.0\"};`,\n !y ? null : `${y} = ${gsplat ? `${gsplat}.center.y` : \"0.0\"};`,\n !z ? null : `${z} = ${gsplat ? `${gsplat}.center.z` : \"0.0\"};`,\n !r ? null : `${r} = ${gsplat ? `${gsplat}.rgba.r` : \"0.0\"};`,\n !g ? null : `${g} = ${gsplat ? `${gsplat}.rgba.g` : \"0.0\"};`,\n !b ? null : `${b} = ${gsplat ? `${gsplat}.rgba.b` : \"0.0\"};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class CombineGsplat\n extends Dyno<\n {\n gsplat: typeof Gsplat;\n flags: \"uint\";\n index: \"int\";\n center: \"vec3\";\n scales: \"vec3\";\n quaternion: \"vec4\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n }: {\n gsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n scales?: DynoVal<\"vec3\">;\n quaternion?: DynoVal<\"vec4\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n }) {\n super({\n inTypes: {\n gsplat: Gsplat,\n flags: \"uint\",\n index: \"int\",\n center: \"vec3\",\n scales: \"vec3\",\n quaternion: \"vec4\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: {\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat: outGsplat } = outputs;\n if (!outGsplat) {\n return [];\n }\n const {\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = inputs;\n return [\n `${outGsplat}.flags = ${flags ?? (gsplat ? `${gsplat}.flags` : \"0u\")};`,\n `${outGsplat}.index = ${index ?? (gsplat ? `${gsplat}.index` : \"0\")};`,\n `${outGsplat}.center = ${center ?? (gsplat ? `${gsplat}.center` : \"vec3(0.0, 0.0, 0.0)\")};`,\n `${outGsplat}.scales = ${scales ?? (gsplat ? `${gsplat}.scales` : \"vec3(0.0, 0.0, 0.0)\")};`,\n `${outGsplat}.quaternion = ${quaternion ?? (gsplat ? `${gsplat}.quaternion` : \"vec4(0.0, 0.0, 0.0, 1.0)\")};`,\n `${outGsplat}.rgba = ${rgba ?? (gsplat ? `${gsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\")};`,\n !rgb ? null : `${outGsplat}.rgba.rgb = ${rgb};`,\n !opacity ? null : `${outGsplat}.rgba.a = ${opacity};`,\n !x ? null : `${outGsplat}.center.x = ${x};`,\n !y ? null : `${outGsplat}.center.y = ${y};`,\n !z ? null : `${outGsplat}.center.z = ${z};`,\n !r ? null : `${outGsplat}.rgba.r = ${r};`,\n !g ? null : `${outGsplat}.rgba.g = ${g};`,\n !b ? null : `${outGsplat}.rgba.b = ${b};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport const defineGsplatNormal = unindent(`\n vec3 gsplatNormal(vec3 scales, vec4 quaternion) {\n float minScale = min(scales.x, min(scales.y, scales.z));\n vec3 normal;\n if (scales.z == minScale) {\n normal = vec3(0.0, 0.0, 1.0);\n } else if (scales.y == minScale) {\n normal = vec3(0.0, 1.0, 0.0);\n } else {\n normal = vec3(1.0, 0.0, 0.0);\n }\n return quatVec(quaternion, normal);\n }\n`);\n\nexport class GsplatNormal extends UnaryOp {\n constructor({ gsplat }: { gsplat: DynoVal }) {\n super({ a: gsplat, outKey: \"normal\", outTypeFunc: () => \"vec3\" });\n this.globals = () => [defineGsplat, defineGsplatNormal];\n this.statements = ({ inputs, outputs }) => [\n `${outputs.normal} = gsplatNormal(${inputs.a}.scales, ${inputs.a}.quaternion);`,\n ];\n }\n}\n\nexport class TransformGsplat\n extends Dyno<\n {\n gsplat: typeof Gsplat;\n scale: \"float\";\n rotate: \"vec4\";\n translate: \"vec3\";\n recolor: \"vec4\";\n },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n gsplat,\n scale,\n rotate,\n translate,\n recolor,\n }: {\n gsplat?: DynoVal;\n scale?: DynoVal<\"float\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n recolor?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: {\n gsplat: Gsplat,\n scale: \"float\",\n rotate: \"vec4\",\n translate: \"vec3\",\n recolor: \"vec4\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: { gsplat, scale, rotate, translate, recolor },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs, compile }) => {\n const { gsplat } = outputs;\n if (!gsplat || !inputs.gsplat) {\n return [];\n }\n const { scale, rotate, translate, recolor } = inputs;\n const indent = compile.indent;\n const statements = [\n `${gsplat} = ${inputs.gsplat};`,\n `if (isGsplatActive(${gsplat}.flags)) {`,\n\n scale ? `${indent}${gsplat}.center *= ${scale};` : null,\n rotate\n ? `${indent}${gsplat}.center = quatVec(${rotate}, ${gsplat}.center);`\n : null,\n translate ? `${indent}${gsplat}.center += ${translate};` : null,\n\n scale ? `${indent}${gsplat}.scales *= ${scale};` : null,\n\n rotate\n ? `${indent}${gsplat}.quaternion = quatQuat(${rotate}, ${gsplat}.quaternion);`\n : null,\n recolor ? `${indent}${gsplat}.rgba *= ${recolor};` : null,\n \"}\",\n ].filter(Boolean) as string[];\n return statements;\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport const splitCovSplat = (covsplat: DynoVal) =>\n new SplitCovSplat({ covsplat });\nexport const combineCovSplat = ({\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n}: {\n covsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n}): DynoVal => {\n return new CombineCovSplat({\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n });\n};\n\nexport class SplitCovSplat extends Dyno<\n { covsplat: typeof CovSplat },\n {\n flags: \"uint\";\n active: \"bool\";\n index: \"int\";\n center: \"vec3\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n }\n> {\n constructor({ covsplat }: { covsplat?: DynoVal }) {\n super({\n inTypes: { covsplat: CovSplat },\n outTypes: {\n flags: \"uint\",\n active: \"bool\",\n index: \"int\",\n center: \"vec3\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n inputs: { covsplat },\n globals: () => [defineCovSplat],\n statements: ({ inputs, outputs }) => {\n const { covsplat } = inputs;\n const {\n flags,\n active,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = outputs;\n return [\n !flags\n ? null\n : `${flags} = ${covsplat ? `${covsplat}.flags` : \"0u\"};`,\n !active\n ? null\n : `${active} = isCovSplatActive(${covsplat ? `${covsplat}.flags` : \"0u\"});`,\n !index ? null : `${index} = ${covsplat ? `${covsplat}.index` : \"0\"};`,\n !center\n ? null\n : `${center} = ${covsplat ? `${covsplat}.center` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !rgba\n ? null\n : `${rgba} = ${covsplat ? `${covsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\"};`,\n !rgb\n ? null\n : `${rgb} = ${covsplat ? `${covsplat}.rgba.rgb` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !opacity\n ? null\n : `${opacity} = ${covsplat ? `${covsplat}.rgba.a` : \"0.0\"};`,\n !x ? null : `${x} = ${covsplat ? `${covsplat}.center.x` : \"0.0\"};`,\n !y ? null : `${y} = ${covsplat ? `${covsplat}.center.y` : \"0.0\"};`,\n !z ? null : `${z} = ${covsplat ? `${covsplat}.center.z` : \"0.0\"};`,\n !r ? null : `${r} = ${covsplat ? `${covsplat}.rgba.r` : \"0.0\"};`,\n !g ? null : `${g} = ${covsplat ? `${covsplat}.rgba.g` : \"0.0\"};`,\n !b ? null : `${b} = ${covsplat ? `${covsplat}.rgba.b` : \"0.0\"};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class CombineCovSplat\n extends Dyno<\n {\n covsplat: typeof CovSplat;\n flags: \"uint\";\n index: \"int\";\n center: \"vec3\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n },\n { covsplat: typeof CovSplat }\n >\n implements HasDynoOut\n{\n constructor({\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n }: {\n covsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n }) {\n super({\n inTypes: {\n covsplat: CovSplat,\n flags: \"uint\",\n index: \"int\",\n center: \"vec3\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n outTypes: { covsplat: CovSplat },\n inputs: {\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n },\n globals: () => [defineCovSplat],\n statements: ({ inputs, outputs }) => {\n const { covsplat: outCovSplat } = outputs;\n if (!outCovSplat) {\n return [];\n }\n const {\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = inputs;\n return [\n `${outCovSplat}.flags = ${flags ?? (covsplat ? `${covsplat}.flags` : \"0u\")};`,\n `${outCovSplat}.index = ${index ?? (covsplat ? `${covsplat}.index` : \"0\")};`,\n `${outCovSplat}.center = ${center ?? (covsplat ? `${covsplat}.center` : \"vec3(0.0, 0.0, 0.0)\")};`,\n `${outCovSplat}.rgba = ${rgba ?? (covsplat ? `${covsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\")};`,\n !rgb ? null : `${outCovSplat}.rgba.rgb = ${rgb};`,\n !opacity ? null : `${outCovSplat}.rgba.a = ${opacity};`,\n !x ? null : `${outCovSplat}.center.x = ${x};`,\n !y ? null : `${outCovSplat}.center.y = ${y};`,\n !z ? null : `${outCovSplat}.center.z = ${z};`,\n !r ? null : `${outCovSplat}.rgba.r = ${r};`,\n !g ? null : `${outCovSplat}.rgba.g = ${g};`,\n !b ? null : `${outCovSplat}.rgba.b = ${b};`,\n `${outCovSplat}.xxyyzz = ${covsplat ? `${covsplat}.xxyyzz` : \"vec3(0.0, 0.0, 0.0)\"};`,\n `${outCovSplat}.xyxzyz = ${covsplat ? `${covsplat}.xyxzyz` : \"vec3(0.0, 0.0, 0.0)\"};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"covsplat\");\n }\n}\n\nexport class SplatTexCoord\n extends Dyno<{ index: \"int\" }, { coord: \"ivec3\" }>\n implements HasDynoOut<\"ivec3\">\n{\n constructor({ index }: { index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { index: \"int\" },\n outTypes: { coord: \"ivec3\" },\n inputs: { index },\n statements: ({ inputs, outputs }) => {\n const { index } = inputs;\n const { coord } = outputs;\n if (!index || !coord) {\n return [];\n }\n return [`${coord} = splatTexCoord(${index});`];\n },\n });\n }\n\n dynoOut(): DynoValue<\"ivec3\"> {\n return new DynoOutput(this, \"coord\");\n }\n}\n\nexport class PagedSplatTexCoord\n extends Dyno<{ index: \"int\" }, { coord: \"ivec3\" }>\n implements HasDynoOut<\"ivec3\">\n{\n constructor({ index }: { index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { index: \"int\" },\n outTypes: { coord: \"ivec3\" },\n inputs: { index },\n statements: ({ inputs, outputs }) => {\n const { index } = inputs;\n const { coord } = outputs;\n if (!index || !coord) {\n return [];\n }\n return [`${coord} = pagedSplatTexCoord(${index});`];\n },\n });\n }\n\n dynoOut(): DynoValue<\"ivec3\"> {\n return new DynoOutput(this, \"coord\");\n }\n}\n","import * as THREE from \"three\";\nimport { Dyno, unindentLines } from \"./base\";\nimport { CovSplat, Gsplat, defineCovSplat, defineGsplat } from \"./splats\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n} from \"./value\";\n\nexport const outputPackedSplat = (\n gsplat: DynoVal,\n rgbMinMaxLnScaleMinMax: DynoVal<\"vec4\">,\n) => new OutputPackedSplat({ gsplat, rgbMinMaxLnScaleMinMax });\n\nexport const outputCovSplat = (\n covsplat: DynoVal,\n rgbMinMaxLnScaleMinMax: DynoVal<\"vec4\">,\n) => new OutputCovSplat({ covsplat, rgbMinMaxLnScaleMinMax });\n\nexport const outputExtendedSplat = (gsplat: DynoVal) =>\n new OutputExtendedSplat({ gsplat });\n\nexport const outputExtCovSplat = (covsplat: DynoVal) =>\n new OutputExtCovSplat({ covsplat });\n\nexport const outputSplatDepth = (\n gsplat: DynoVal,\n viewCenter: DynoVal<\"vec3\">,\n viewDir: DynoVal<\"vec3\">,\n sortRadial: DynoVal<\"bool\">,\n) => new OutputSplatDepth({ gsplat, viewCenter, viewDir, sortRadial });\n\nexport const outputCovSplatDepth = (\n covsplat: DynoVal,\n viewCenter: DynoVal<\"vec3\">,\n viewDir: DynoVal<\"vec3\">,\n sortRadial: DynoVal<\"bool\">,\n) => new OutputCovSplatDepth({ covsplat, viewCenter, viewDir, sortRadial });\n\nexport const outputRgba8 = (rgba8: DynoVal<\"vec4\">) =>\n new OutputRgba8({ rgba8 });\n\nexport class OutputPackedSplat extends Dyno<\n { gsplat: typeof Gsplat; rgbMinMaxLnScaleMinMax: \"vec4\" },\n Record\n> {\n constructor({\n gsplat,\n rgbMinMaxLnScaleMinMax,\n }: {\n gsplat?: DynoVal;\n rgbMinMaxLnScaleMinMax?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: { gsplat: Gsplat, rgbMinMaxLnScaleMinMax: \"vec4\" },\n inputs: { gsplat, rgbMinMaxLnScaleMinMax },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat, rgbMinMaxLnScaleMinMax } = inputs;\n if (gsplat && rgbMinMaxLnScaleMinMax) {\n return unindentLines(`\n if (isGsplatActive(${gsplat}.flags)) {\n target = packSplatEncoding(${gsplat}.center, ${gsplat}.scales, ${gsplat}.quaternion, ${gsplat}.rgba, ${rgbMinMaxLnScaleMinMax});\n } else {\n target = uvec4(0u, 0u, 0u, 0u);\n }\n `);\n }\n return [\"target = uvec4(0u, 0u, 0u, 0u);\"];\n },\n });\n }\n}\n\nexport class OutputCovSplat extends Dyno<\n { covsplat: typeof CovSplat; rgbMinMaxLnScaleMinMax: \"vec4\" },\n Record\n> {\n constructor({\n covsplat,\n rgbMinMaxLnScaleMinMax,\n }: {\n covsplat?: DynoVal;\n rgbMinMaxLnScaleMinMax?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: { covsplat: CovSplat, rgbMinMaxLnScaleMinMax: \"vec4\" },\n inputs: { covsplat, rgbMinMaxLnScaleMinMax },\n globals: () => [defineCovSplat],\n statements: ({ inputs }) => {\n const { covsplat, rgbMinMaxLnScaleMinMax } = inputs;\n if (covsplat && rgbMinMaxLnScaleMinMax) {\n return unindentLines(`\n if (isCovSplatActive(${covsplat}.flags)) {\n target = packSplatCovEncoding(${covsplat}.center, ${covsplat}.rgba, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz, ${rgbMinMaxLnScaleMinMax});\n } else {\n target = uvec4(0u);\n }\n `);\n }\n return [\"target = uvec4(0u);\"];\n },\n });\n }\n}\n\nexport class OutputExtendedSplat extends Dyno<\n { gsplat: typeof Gsplat },\n Record\n> {\n constructor({\n gsplat,\n }: {\n gsplat?: DynoVal;\n }) {\n super({\n inTypes: { gsplat: Gsplat },\n inputs: { gsplat },\n globals: () => [defineGsplat],\n statements: ({ inputs }) => {\n const { gsplat } = inputs;\n if (gsplat) {\n return unindentLines(`\n if (isGsplatActive(${gsplat}.flags)) {\n packSplatExt(target, target2, ${gsplat}.center, ${gsplat}.scales, ${gsplat}.quaternion, ${gsplat}.rgba);\n } else {\n target = uvec4(0u);\n target2 = uvec4(0u);\n }\n `);\n }\n return [\"target = uvec4(0u);\", \"target2 = uvec4(0u);\"];\n },\n });\n }\n}\n\nexport class OutputExtCovSplat extends Dyno<\n { covsplat: typeof CovSplat },\n Record\n> {\n constructor({\n covsplat,\n }: {\n covsplat?: DynoVal;\n }) {\n super({\n inTypes: { covsplat: CovSplat },\n inputs: { covsplat },\n globals: () => [defineCovSplat],\n statements: ({ inputs }) => {\n const { covsplat } = inputs;\n if (covsplat) {\n return unindentLines(`\n if (isCovSplatActive(${covsplat}.flags)) {\n packSplatExtCov(target, target2, ${covsplat}.center, ${covsplat}.rgba, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz);\n } else {\n target = uvec4(0u);\n target2 = uvec4(0u);\n }\n `);\n }\n return [\"target = uvec4(0u);\", \"target2 = uvec4(0u);\"];\n },\n });\n }\n}\n\nclass OutputSplatDepth extends Dyno<\n {\n gsplat: typeof Gsplat;\n viewCenter: \"vec3\";\n viewDir: \"vec3\";\n sortRadial: \"bool\";\n },\n Record\n> {\n constructor({\n gsplat,\n viewCenter,\n viewDir,\n sortRadial,\n }: {\n gsplat: DynoVal;\n viewCenter: DynoVal<\"vec3\">;\n viewDir: DynoVal<\"vec3\">;\n sortRadial: DynoVal<\"bool\">;\n }) {\n super({\n inTypes: {\n gsplat: Gsplat,\n viewCenter: \"vec3\",\n viewDir: \"vec3\",\n sortRadial: \"bool\",\n },\n inputs: { gsplat, viewCenter, viewDir, sortRadial },\n globals: () => [defineGsplat],\n statements: ({ inputs }) => {\n const { gsplat, viewCenter, viewDir, sortRadial } = inputs;\n if (gsplat && viewCenter && viewDir && sortRadial) {\n return unindentLines(`\n float metric = 1.0 / 0.0;\n if (isGsplatActive(${gsplat}.flags)) {\n vec3 center = ${gsplat}.center - ${viewCenter};\n if (${sortRadial}) {\n metric = length(center);\n } else {\n float bias = 100.0; // reduce popping\n metric = dot(center, ${viewDir}) + bias;\n }\n }\n target3 = floatToVec4(metric);\n `);\n }\n return [];\n },\n });\n }\n}\n\nclass OutputCovSplatDepth extends Dyno<\n {\n covsplat: typeof CovSplat;\n viewCenter: \"vec3\";\n viewDir: \"vec3\";\n sortRadial: \"bool\";\n },\n Record\n> {\n constructor({\n covsplat,\n viewCenter,\n viewDir,\n sortRadial,\n }: {\n covsplat: DynoVal;\n viewCenter: DynoVal<\"vec3\">;\n viewDir: DynoVal<\"vec3\">;\n sortRadial: DynoVal<\"bool\">;\n }) {\n super({\n inTypes: {\n covsplat: CovSplat,\n viewCenter: \"vec3\",\n viewDir: \"vec3\",\n sortRadial: \"bool\",\n },\n inputs: { covsplat, viewCenter, viewDir, sortRadial },\n globals: () => [defineCovSplat],\n statements: ({ inputs }) => {\n const { covsplat, viewCenter, viewDir, sortRadial } = inputs;\n if (covsplat && viewCenter && viewDir && sortRadial) {\n return unindentLines(`\n float metric = 1.0 / 0.0;\n if (isCovSplatActive(${covsplat}.flags)) {\n vec3 center = ${covsplat}.center - ${viewCenter};\n if (${sortRadial}) {\n metric = length(center);\n } else {\n float bias = 100.0; // reduce popping\n metric = dot(center, ${viewDir}) + bias;\n }\n }\n target3 = floatToVec4(metric);\n `);\n }\n return [];\n },\n });\n }\n}\n\nexport class OutputRgba8\n extends Dyno<{ rgba8: \"vec4\" }, { rgba8: \"vec4\" }>\n implements HasDynoOut<\"vec4\">\n{\n constructor({ rgba8 }: { rgba8?: DynoVal<\"vec4\"> }) {\n super({\n inTypes: { rgba8: \"vec4\" },\n inputs: { rgba8 },\n statements: ({ inputs, outputs }) => [\n `target = ${inputs.rgba8 ?? \"vec4(0.0, 0.0, 0.0, 0.0)\"};`,\n ],\n });\n }\n\n dynoOut(): DynoValue<\"vec4\"> {\n return new DynoOutput(this, \"rgba8\");\n }\n}\n","import type { IUniform } from \"three\";\nimport { Dyno, dynoDeclare } from \"./base\";\nimport type { DynoJsType, DynoType } from \"./types\";\nimport { DynoOutput, type DynoValue, type HasDynoOut } from \"./value\";\n\nexport const uniform = >(\n key: string,\n type: DynoType,\n value: V,\n) => new DynoUniform({ key, type, value });\nexport const dynoBool = (value = false, key?: string) =>\n new DynoBool({ key, value });\nexport const dynoUint = (value = 0, key?: string) =>\n new DynoUint({ key, value });\nexport const dynoInt = (value = 0, key?: string) => new DynoInt({ key, value });\nexport const dynoFloat = (value = 0.0, key?: string) =>\n new DynoFloat({ key, value });\n\nexport const dynoBvec2 = >(\n value: V,\n key?: string,\n) => new DynoBvec2({ key, value });\nexport const dynoUvec2 = >(\n value: V,\n key?: string,\n) => new DynoUvec2({ key, value });\nexport const dynoIvec2 = >(\n value: V,\n key?: string,\n) => new DynoIvec2({ key, value });\nexport const dynoVec2 = >(\n value: V,\n key?: string,\n) => new DynoVec2({ key, value });\n\nexport const dynoBvec3 = >(\n value: V,\n key?: string,\n) => new DynoBvec3({ key, value });\nexport const dynoUvec3 = >(\n value: V,\n key?: string,\n) => new DynoUvec3({ key, value });\nexport const dynoIvec3 = >(\n value: V,\n key?: string,\n) => new DynoIvec3({ key, value });\nexport const dynoVec3 = >(\n value: V,\n key?: string,\n) => new DynoVec3({ key, value });\n\nexport const dynoBvec4 = >(\n value: V,\n key?: string,\n) => new DynoBvec4({ key, value });\nexport const dynoUvec4 = >(\n value: V,\n key?: string,\n) => new DynoUvec4({ key, value });\nexport const dynoIvec4 = >(\n value: V,\n key?: string,\n) => new DynoIvec4({ key, value });\nexport const dynoVec4 = >(\n value: V,\n key?: string,\n) => new DynoVec4({ key, value });\n\nexport const dynoMat2 = >(\n value: V,\n key?: string,\n) => new DynoMat2({ key, value });\nexport const dynoMat2x2 = >(\n value: V,\n key?: string,\n) => new DynoMat2x2({ key, value });\nexport const dynoMat2x3 = >(\n value: V,\n key?: string,\n) => new DynoMat2x3({ key, value });\nexport const dynoMat2x4 = >(\n value: V,\n key?: string,\n) => new DynoMat2x4({ key, value });\n\nexport const dynoMat3 = >(\n value: V,\n key?: string,\n) => new DynoMat3({ key, value });\nexport const dynoMat3x2 = >(\n value: V,\n key?: string,\n) => new DynoMat3x2({ key, value });\nexport const dynoMat3x3 = >(\n value: V,\n key?: string,\n) => new DynoMat3x3({ key, value });\nexport const dynoMat3x4 = >(\n value: V,\n key?: string,\n) => new DynoMat3x4({ key, value });\n\nexport const dynoMat4 = >(\n value: V,\n key?: string,\n) => new DynoMat4({ key, value });\nexport const dynoMat4x2 = >(\n value: V,\n key?: string,\n) => new DynoMat4x2({ key, value });\nexport const dynoMat4x3 = >(\n value: V,\n key?: string,\n) => new DynoMat4x3({ key, value });\nexport const dynoMat4x4 = >(\n value: V,\n key?: string,\n) => new DynoMat4x4({ key, value });\n\nexport const dynoUsampler2D = >(\n value: V,\n key?: string,\n) => new DynoUsampler2D({ key, value });\nexport const dynoIsampler2D = >(\n value: V,\n key?: string,\n) => new DynoIsampler2D({ key, value });\nexport const dynoSampler2D = >(\n value: V,\n key?: string,\n) => new DynoSampler2D({ key, value });\n\nexport const dynoUsampler2DArray = >(\n value: V,\n key?: string,\n) => new DynoUsampler2DArray({ key, value });\nexport const dynoIsampler2DArray = >(\n key: string,\n value: V,\n) => new DynoIsampler2DArray({ key, value });\nexport const dynoSampler2DArray = >(\n value: V,\n key?: string,\n) => new DynoSampler2DArray({ key, value });\n\nexport const dynoUsampler3D = >(\n value: V,\n key?: string,\n) => new DynoUsampler3D({ key, value });\nexport const dynoIsampler3D = >(\n value: V,\n key?: string,\n) => new DynoIsampler3D({ key, value });\nexport const dynoSampler3D = >(\n value: V,\n key?: string,\n) => new DynoSampler3D({ key, value });\n\nexport const dynoUsamplerCube = >(\n value: V,\n key?: string,\n) => new DynoUsamplerCube({ key, value });\nexport const dynoIsamplerCube = >(\n value: V,\n key?: string,\n) => new DynoIsamplerCube({ key, value });\nexport const dynoSamplerCube = >(\n value: V,\n key?: string,\n) => new DynoSamplerCube({ key, value });\n\nexport const dynoSampler2DShadow = >(\n value: V,\n key?: string,\n) => new DynoSampler2DShadow({ key, value });\nexport const dynoSampler2DArrayShadow = <\n V extends DynoJsType<\"sampler2DArrayShadow\">,\n>(\n value: V,\n key?: string,\n) => new DynoSampler2DArrayShadow({ key, value });\nexport const dynoSamplerCubeShadow = <\n V extends DynoJsType<\"samplerCubeShadow\">,\n>(\n value: V,\n key?: string,\n) => new DynoSamplerCubeShadow({ key, value });\n\nexport class DynoUniform<\n T extends DynoType,\n K extends string = \"value\",\n V extends DynoJsType = DynoJsType,\n >\n extends Dyno, { [key in K]: T }>\n implements HasDynoOut\n{\n public type: T;\n public count?: number;\n public outKey: K;\n public value: V;\n public uniform: { value: V; type?: string };\n\n constructor({\n key,\n type,\n count,\n value,\n update,\n globals,\n }: {\n key?: K;\n type: T;\n count?: number;\n value: V;\n update?: (value: V) => V | undefined;\n globals?: ({\n inputs,\n outputs,\n }: { inputs: unknown; outputs: { [key in K]?: string } }) => string[];\n }) {\n key = (key ?? \"value\") as K;\n super({\n outTypes: { [key]: type } as { [key in K]: T },\n update: () => {\n if (update) {\n const value = update(this.value);\n if (value !== undefined) {\n this.value = value;\n }\n }\n this.uniform.value = this.value;\n },\n generate: ({ inputs, outputs }) => {\n const allGlobals = globals?.({ inputs, outputs }) ?? [];\n const uniforms: Record = {};\n const name = outputs[key];\n if (name) {\n allGlobals.push(`uniform ${dynoDeclare(name, type, count)};`);\n uniforms[name] = this.uniform;\n }\n return { globals: allGlobals, uniforms };\n },\n });\n this.type = type;\n this.count = count;\n this.value = value;\n this.uniform = { value };\n this.outKey = key;\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class DynoBool extends DynoUniform<\n \"bool\",\n K,\n boolean\n> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: boolean;\n update?: (value: boolean) => boolean | undefined;\n }) {\n super({ key, type: \"bool\", value, update });\n }\n}\n\nexport class DynoUint extends DynoUniform<\"uint\", K, number> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: number;\n update?: (value: number) => number | undefined;\n }) {\n super({ key, type: \"uint\", value, update });\n }\n}\n\nexport class DynoInt extends DynoUniform<\"int\", K, number> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: number;\n update?: (value: number) => number | undefined;\n }) {\n super({ key, type: \"int\", value, update });\n }\n}\n\nexport class DynoFloat extends DynoUniform<\n \"float\",\n K,\n number\n> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: number;\n update?: (value: number) => number | undefined;\n }) {\n super({ key, type: \"float\", value, update });\n }\n}\n\nexport class DynoBvec2<\n K extends string,\n V extends DynoJsType<\"bvec2\">,\n> extends DynoUniform<\"bvec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"bvec2\", value, update });\n }\n}\n\nexport class DynoUvec2<\n K extends string,\n V extends DynoJsType<\"uvec2\">,\n> extends DynoUniform<\"uvec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"uvec2\", value, update });\n }\n}\n\nexport class DynoIvec2<\n K extends string,\n V extends DynoJsType<\"ivec2\">,\n> extends DynoUniform<\"ivec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"ivec2\", value, update });\n }\n}\n\nexport class DynoVec2<\n K extends string,\n V extends DynoJsType<\"vec2\">,\n> extends DynoUniform<\"vec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"vec2\", value, update });\n }\n}\n\nexport class DynoBvec3<\n K extends string,\n V extends DynoJsType<\"bvec3\">,\n> extends DynoUniform<\"bvec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"bvec3\", value, update });\n }\n}\n\nexport class DynoUvec3<\n V extends DynoJsType<\"uvec3\">,\n K extends string = \"value\",\n> extends DynoUniform<\"uvec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"uvec3\", value, update });\n }\n}\n\nexport class DynoIvec3<\n V extends DynoJsType<\"ivec3\">,\n K extends string = \"value\",\n> extends DynoUniform<\"ivec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"ivec3\", value, update });\n }\n}\n\nexport class DynoVec3<\n V extends DynoJsType<\"vec3\">,\n K extends string = \"value\",\n> extends DynoUniform<\"vec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"vec3\", value, update });\n }\n}\n\nexport class DynoBvec4<\n K extends string,\n V extends DynoJsType<\"bvec4\">,\n> extends DynoUniform<\"bvec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"bvec4\", value, update });\n }\n}\n\nexport class DynoUvec4<\n K extends string,\n V extends DynoJsType<\"uvec4\">,\n> extends DynoUniform<\"uvec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"uvec4\", value, update });\n }\n}\n\nexport class DynoIvec4<\n K extends string,\n V extends DynoJsType<\"ivec4\">,\n> extends DynoUniform<\"ivec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"ivec4\", value, update });\n }\n}\n\nexport class DynoVec4<\n V extends DynoJsType<\"vec4\">,\n K extends string = \"value\",\n> extends DynoUniform<\"vec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"vec4\", value, update });\n }\n}\n\nexport class DynoMat2<\n K extends string,\n V extends DynoJsType<\"mat2\">,\n> extends DynoUniform<\"mat2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2\", value, update });\n }\n}\n\nexport class DynoMat2x2<\n K extends string,\n V extends DynoJsType<\"mat2x2\">,\n> extends DynoUniform<\"mat2x2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2x2\", value, update });\n }\n}\n\nexport class DynoMat2x3<\n K extends string,\n V extends DynoJsType<\"mat2x3\">,\n> extends DynoUniform<\"mat2x3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2x3\", value, update });\n }\n}\n\nexport class DynoMat2x4<\n K extends string,\n V extends DynoJsType<\"mat2x4\">,\n> extends DynoUniform<\"mat2x4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2x4\", value, update });\n }\n}\n\nexport class DynoMat3<\n K extends string,\n V extends DynoJsType<\"mat3\">,\n> extends DynoUniform<\"mat3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3\", value, update });\n }\n}\n\nexport class DynoMat3x2<\n K extends string,\n V extends DynoJsType<\"mat3x2\">,\n> extends DynoUniform<\"mat3x2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3x2\", value, update });\n }\n}\n\nexport class DynoMat3x3<\n K extends string,\n V extends DynoJsType<\"mat3x3\">,\n> extends DynoUniform<\"mat3x3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3x3\", value, update });\n }\n}\n\nexport class DynoMat3x4<\n K extends string,\n V extends DynoJsType<\"mat3x4\">,\n> extends DynoUniform<\"mat3x4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3x4\", value, update });\n }\n}\n\nexport class DynoMat4<\n K extends string,\n V extends DynoJsType<\"mat4\">,\n> extends DynoUniform<\"mat4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4\", value, update });\n }\n}\n\nexport class DynoMat4x2<\n K extends string,\n V extends DynoJsType<\"mat4x2\">,\n> extends DynoUniform<\"mat4x2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4x2\", value, update });\n }\n}\n\nexport class DynoMat4x3<\n K extends string,\n V extends DynoJsType<\"mat4x3\">,\n> extends DynoUniform<\"mat4x3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4x3\", value, update });\n }\n}\n\nexport class DynoMat4x4<\n K extends string,\n V extends DynoJsType<\"mat4x4\">,\n> extends DynoUniform<\"mat4x4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4x4\", value, update });\n }\n}\n\nexport class DynoUsampler2D<\n K extends string,\n V extends DynoJsType<\"usampler2D\">,\n> extends DynoUniform<\"usampler2D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usampler2D\", value, update });\n }\n}\n\nexport class DynoIsampler2D<\n K extends string,\n V extends DynoJsType<\"isampler2D\">,\n> extends DynoUniform<\"isampler2D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isampler2D\", value, update });\n }\n}\n\nexport class DynoSampler2D<\n K extends string,\n V extends DynoJsType<\"sampler2D\">,\n> extends DynoUniform<\"sampler2D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2D\", value, update });\n }\n}\n\nexport class DynoUsampler2DArray<\n K extends string,\n V extends DynoJsType<\"usampler2DArray\">,\n> extends DynoUniform<\"usampler2DArray\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usampler2DArray\", value, update });\n }\n}\n\nexport class DynoIsampler2DArray<\n K extends string,\n V extends DynoJsType<\"isampler2DArray\">,\n> extends DynoUniform<\"isampler2DArray\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isampler2DArray\", value, update });\n }\n}\n\nexport class DynoSampler2DArray<\n K extends string,\n V extends DynoJsType<\"sampler2DArray\">,\n> extends DynoUniform<\"sampler2DArray\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2DArray\", value, update });\n }\n}\n\nexport class DynoUsampler3D<\n K extends string,\n V extends DynoJsType<\"usampler3D\">,\n> extends DynoUniform<\"usampler3D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usampler3D\", value, update });\n }\n}\n\nexport class DynoIsampler3D<\n K extends string,\n V extends DynoJsType<\"isampler3D\">,\n> extends DynoUniform<\"isampler3D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isampler3D\", value, update });\n }\n}\n\nexport class DynoSampler3D<\n K extends string,\n V extends DynoJsType<\"sampler3D\">,\n> extends DynoUniform<\"sampler3D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler3D\", value, update });\n }\n}\n\nexport class DynoUsamplerCube<\n K extends string,\n V extends DynoJsType<\"usamplerCube\">,\n> extends DynoUniform<\"usamplerCube\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usamplerCube\", value, update });\n }\n}\n\nexport class DynoIsamplerCube<\n K extends string,\n V extends DynoJsType<\"isamplerCube\">,\n> extends DynoUniform<\"isamplerCube\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isamplerCube\", value, update });\n }\n}\n\nexport class DynoSamplerCube<\n K extends string,\n V extends DynoJsType<\"samplerCube\">,\n> extends DynoUniform<\"samplerCube\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"samplerCube\", value, update });\n }\n}\n\nexport class DynoSampler2DShadow<\n K extends string,\n V extends DynoJsType<\"sampler2DShadow\">,\n> extends DynoUniform<\"sampler2DShadow\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2DShadow\", value, update });\n }\n}\n\nexport class DynoSampler2DArrayShadow<\n K extends string,\n V extends DynoJsType<\"sampler2DArrayShadow\">,\n> extends DynoUniform<\"sampler2DArrayShadow\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2DArrayShadow\", value, update });\n }\n}\n\nexport class DynoSamplerCubeShadow<\n K extends string,\n V extends DynoJsType<\"samplerCubeShadow\">,\n> extends DynoUniform<\"samplerCubeShadow\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"samplerCubeShadow\", value, update });\n }\n}\n","import * as THREE from \"three\";\n\nimport { IDENT_VERTEX_SHADER } from \"../utils\";\nimport { Compilation, type Dyno, type IOTypes } from \"./base\";\n\nexport class DynoProgram {\n graph: Dyno;\n template: DynoProgramTemplate;\n inputs: Record;\n outputs: Record;\n shader: string;\n uniforms: Record;\n updaters: (() => void)[];\n\n constructor({\n graph,\n inputs,\n outputs,\n template,\n consoleLog,\n }: {\n graph: Dyno;\n inputs?: Record;\n outputs?: Record;\n template: DynoProgramTemplate;\n consoleLog?: boolean;\n }) {\n this.graph = graph;\n this.template = template;\n this.inputs = inputs ?? {};\n this.outputs = outputs ?? {};\n\n const compile = new Compilation({ indent: this.template.indent });\n for (const key in this.outputs) {\n if (this.outputs[key]) {\n compile.declares.add(this.outputs[key]);\n }\n }\n const statements = graph.compile({\n inputs: this.inputs,\n outputs: this.outputs,\n compile,\n });\n\n this.shader = template.generate({ globals: compile.globals, statements });\n this.uniforms = compile.uniforms;\n this.updaters = compile.updaters;\n if (consoleLog) {\n console.log(\"*** COMPILED SHADER\", this.shader);\n console.log(\"*** UNIFORMS\", this.uniforms);\n }\n }\n\n prepareMaterial(): THREE.RawShaderMaterial {\n return getMaterial(this);\n }\n\n update() {\n for (const updater of this.updaters) {\n updater();\n }\n }\n}\n\nexport class DynoProgramTemplate {\n before: string;\n between: string;\n after: string;\n indent: string;\n\n constructor(template: string) {\n const globals = template.match(/^([ \\t]*)\\{\\{\\s*GLOBALS\\s*\\}\\}/m);\n const statements = template.match(/^([ \\t]*)\\{\\{\\s*STATEMENTS\\s*\\}\\}/m);\n if (!globals || !statements) {\n throw new Error(\n \"Template must contain {{ GLOBALS }} and {{ STATEMENTS }}\",\n );\n }\n\n this.before = template.substring(0, globals.index);\n this.between = template.substring(\n (globals.index as number) + globals[0].length,\n statements.index,\n );\n this.after = template.substring(\n (statements.index as number) + statements[0].length,\n );\n this.indent = statements[1];\n }\n\n generate({\n globals,\n statements,\n }: { globals: Set; statements: string[] }): string {\n return (\n this.before +\n Array.from(globals).join(\"\\n\\n\") +\n this.between +\n statements.map((s) => this.indent + s).join(\"\\n\") +\n this.after\n );\n }\n}\n\nconst programMaterial = new WeakMap();\n\nfunction getMaterial(program: DynoProgram): THREE.RawShaderMaterial {\n let material = programMaterial.get(program);\n if (material) {\n return material;\n }\n\n material = new THREE.RawShaderMaterial({\n glslVersion: THREE.GLSL3,\n vertexShader: IDENT_VERTEX_SHADER,\n fragmentShader: program.shader,\n uniforms: program.uniforms,\n });\n programMaterial.set(program, material);\n return material;\n}\n","import {\n type AllFloatTypes,\n type AllIntTypes,\n type AllSignedTypes,\n type AllValueTypes,\n type BaseType,\n type BoolTypes,\n type FloatTypes,\n type IntTypes,\n type SignedTypes,\n type UintTypes,\n type ValueTypes,\n isAllFloatType,\n isFloatType,\n isIntType,\n isMat2,\n isMat3,\n isMat4,\n isUintType,\n} from \"./types\";\n\nexport type AddOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = BaseType &\n (A extends B\n ? A\n : A extends \"int\"\n ? B extends IntTypes\n ? B\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : A extends \"uint\"\n ? B extends UintTypes\n ? B\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : A extends \"float\"\n ? B extends AllFloatTypes\n ? B\n : never\n : B extends \"float\"\n ? A extends AllFloatTypes\n ? A\n : never\n : never);\n\nexport type SubOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = AddOutput;\n\nexport type MulOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = BaseType &\n (A extends \"int\"\n ? B extends IntTypes\n ? B\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : A extends \"uint\"\n ? B extends UintTypes\n ? B\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : A extends \"float\"\n ? B extends AllFloatTypes\n ? B\n : never\n : B extends \"float\"\n ? A extends AllFloatTypes\n ? A\n : never\n : A extends IntTypes\n ? B extends A\n ? A\n : never\n : B extends IntTypes\n ? A extends B\n ? A\n : never\n : A extends UintTypes\n ? B extends A\n ? A\n : never\n : B extends UintTypes\n ? A extends B\n ? A\n : never\n : // Vector * Matrix/Vector\n A extends \"vec2\"\n ? B extends \"vec2\" | \"mat2\" | \"mat2x2\"\n ? \"vec2\"\n : B extends \"mat3x2\"\n ? \"vec3\"\n : B extends \"mat4x2\"\n ? \"vec4\"\n : never\n : A extends \"vec3\"\n ? B extends \"mat2x3\"\n ? \"vec2\"\n : B extends \"vec3\" | \"mat3\" | \"mat3x3\"\n ? \"vec3\"\n : B extends \"mat4x3\"\n ? \"vec4\"\n : never\n : A extends \"vec4\"\n ? B extends \"mat2x4\"\n ? \"vec2\"\n : B extends \"mat3x4\"\n ? \"vec3\"\n : B extends \"vec4\" | \"mat4\" | \"mat4x4\"\n ? \"vec4\"\n : never\n : // Matrix * Vector\n B extends \"vec2\"\n ? A extends \"mat2\" | \"mat2x2\"\n ? \"vec2\"\n : A extends \"mat2x3\"\n ? \"vec3\"\n : A extends \"mat2x4\"\n ? \"vec4\"\n : never\n : B extends \"vec3\"\n ? A extends \"mat3x2\"\n ? \"vec2\"\n : A extends \"mat3\" | \"mat3x3\"\n ? \"vec3\"\n : A extends \"mat3x4\"\n ? \"vec4\"\n : never\n : B extends \"vec4\"\n ? A extends \"mat4x2\"\n ? \"vec2\"\n : A extends \"mat4x3\"\n ? \"vec3\"\n : A extends \"mat4\" | \"mat4x4\"\n ? \"vec4\"\n : never\n : // Matrix * Matrix: mat{Acols}x{Arows} * mat{Bcols}x{Brows} => mat{Bcols}x{Arows}\n A extends \"mat2\" | \"mat2x2\" // Acols = 2 => Brows = 2\n ? B extends \"mat2\" | \"mat2x2\"\n ? \"mat2\"\n : B extends \"mat3x2\"\n ? \"mat3x2\"\n : B extends \"mat4x2\"\n ? \"mat4x2\"\n : never\n : A extends \"mat2x3\" // Acols = 2 => Brows = 2\n ? B extends \"mat2\" | \"mat2x2\"\n ? \"mat2x3\"\n : B extends \"mat3x2\"\n ? \"mat3\"\n : B extends \"mat4x2\"\n ? \"mat4x3\"\n : never\n : A extends \"mat2x4\" // Acols = 2 => Brows = 2\n ? B extends \"mat2\" | \"mat2x2\"\n ? \"mat2x4\"\n : B extends \"mat3x2\"\n ? \"mat3x4\"\n : B extends \"mat4x2\"\n ? \"mat4\"\n : never\n : A extends \"mat3x2\" // Acols = 3 => Brows = 3\n ? B extends \"mat2x3\"\n ? \"mat2\"\n : B extends \"mat3\" | \"mat3x3\"\n ? \"mat3x2\"\n : B extends \"mat4x3\"\n ? \"mat4x2\"\n : never\n : A extends \"mat3\" | \"mat3x3\" // Acols = 3 => Brows = 3\n ? B extends \"mat2x3\"\n ? \"mat2x3\"\n : B extends \"mat3\" | \"mat3x3\"\n ? \"mat3\"\n : B extends \"mat4x3\"\n ? \"mat4x3\"\n : never\n : A extends \"mat3x4\" // Acols = 3 => Brows = 3\n ? B extends \"mat2x3\"\n ? \"mat2x4\"\n : B extends \"mat3\" | \"mat3x3\"\n ? \"mat3x4\"\n : B extends \"mat4x3\"\n ? \"mat4\"\n : never\n : A extends \"mat4x2\" // Acols = 4 => Brows = 4\n ? B extends \"mat2x4\"\n ? \"mat2\"\n : B extends \"mat3x4\"\n ? \"mat3x2\"\n : B extends\n | \"mat4\"\n | \"mat4x4\"\n ? \"mat4x2\"\n : never\n : A extends \"mat4x3\" // Acols = 4 => Brows = 4\n ? B extends \"mat2x4\"\n ? \"mat2x3\"\n : B extends \"mat3x4\"\n ? \"mat3\"\n : B extends\n | \"mat4\"\n | \"mat4x4\"\n ? \"mat4x3\"\n : never\n : A extends \"mat4\" | \"mat4x4\" // Acols = 4 => Brows = 4\n ? B extends \"mat2x4\"\n ? \"mat2x4\"\n : B extends \"mat3x4\"\n ? \"mat3x4\"\n : B extends\n | \"mat4\"\n | \"mat4x4\"\n ? \"mat4\"\n : never\n : never);\n\nexport type DivOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = AddOutput;\n\nexport type IModOutput<\n A extends AllIntTypes,\n B extends AllIntTypes,\n> = BaseType &\n (A extends B\n ? A\n : A extends \"int\"\n ? B extends IntTypes\n ? B\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : A extends \"uint\"\n ? B extends UintTypes\n ? B\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : never);\n\nexport type ModOutput = BaseType &\n (A extends B ? A : B extends \"float\" ? A : never);\n\nexport type PowOutput = BaseType &\n (A extends B ? A : never);\n\nexport type MinOutput = BaseType &\n (A extends B\n ? A\n : B extends \"float\"\n ? A extends FloatTypes\n ? A\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : never);\nexport type MaxOutput = MinOutput<\n A,\n B\n>;\nexport type ClampOutput = BaseType &\n (B extends \"float\"\n ? A extends FloatTypes\n ? A\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : never);\nexport type MixOutput<\n A extends FloatTypes,\n T extends FloatTypes | BoolTypes,\n> = BaseType &\n (T extends A\n ? A\n : T extends \"float\"\n ? A\n : T extends \"bool\"\n ? A extends \"float\"\n ? A\n : never\n : T extends \"bvec2\"\n ? A extends \"vec2\"\n ? A\n : never\n : T extends \"bvec3\"\n ? A extends \"vec3\"\n ? A\n : never\n : T extends \"bvec4\"\n ? A extends \"vec4\"\n ? A\n : never\n : never);\nexport type StepOutput = BaseType &\n (A extends B ? B : A extends \"float\" ? B : never);\nexport type SmoothstepOutput<\n A extends FloatTypes,\n B extends FloatTypes,\n C extends FloatTypes,\n> = BaseType &\n (A extends B ? (A extends C ? C : A extends \"float\" ? C : never) : never);\n\nexport type IsNanOutput = BaseType &\n (A extends \"float\"\n ? \"bool\"\n : A extends \"vec2\"\n ? \"bvec2\"\n : A extends \"vec3\"\n ? \"bvec3\"\n : A extends \"vec4\"\n ? \"bvec4\"\n : never);\nexport type IsInfOutput = IsNanOutput;\n\n// // Run-time type helper functions\n\nexport function addOutputType(\n a: A,\n b: B,\n operation = \"add\",\n): AddOutput {\n const error = () => {\n throw new Error(`Invalid ${operation} types: ${a}, ${b}`);\n };\n // @ts-ignore\n if (a === b) return a as AddOutput;\n if (a === \"int\") {\n if (isIntType(b)) return b as AddOutput;\n error();\n }\n if (b === \"int\") {\n if (isIntType(a)) return a as AddOutput;\n error();\n }\n if (a === \"uint\") {\n if (isUintType(b)) return b as AddOutput;\n error();\n }\n if (b === \"uint\") {\n if (isUintType(a)) return a as AddOutput;\n error();\n }\n if (a === \"float\") {\n if (isAllFloatType(b)) return b as AddOutput;\n error();\n }\n if (b === \"float\") {\n if (isAllFloatType(a)) return a as AddOutput;\n error();\n }\n throw new Error(`Invalid ${operation} types: ${a}, ${b}`);\n}\n\nexport function subOutputType(\n a: A,\n b: B,\n): SubOutput {\n return addOutputType(a, b, \"sub\");\n}\n\nexport function mulOutputType(\n a: A,\n b: B,\n): MulOutput {\n const error = () => {\n throw new Error(`Invalid mul types: ${a}, ${b}`);\n };\n const result = (value: unknown) => value as MulOutput;\n if (a === \"int\") {\n if (isIntType(b)) return result(b);\n error();\n }\n if (b === \"int\") {\n if (isIntType(a)) return result(a);\n error();\n }\n if (a === \"uint\") {\n if (isUintType(b)) return result(b);\n error();\n }\n if (b === \"uint\") {\n if (isUintType(a)) return result(a);\n error();\n }\n if (a === \"float\") {\n if (isAllFloatType(b)) return result(b);\n error();\n }\n if (b === \"float\") {\n if (isAllFloatType(a)) return result(a);\n error();\n }\n if (isIntType(a) || isUintType(a) || isIntType(b) || isUintType(b)) {\n // @ts-ignore\n if (a === b) return result(a);\n error();\n }\n // Vector * Matrix/Vector\n if (a === \"vec2\") {\n if (b === \"vec2\" || isMat2(b)) return result(\"vec2\");\n if (b === \"mat3x2\") return result(\"vec3\");\n if (b === \"mat4x2\") return result(\"vec4\");\n error();\n }\n if (a === \"vec3\") {\n if (b === \"mat2x3\") return result(\"vec2\");\n if (b === \"vec3\" || isMat3(b)) return result(\"vec3\");\n if (b === \"mat4x3\") return result(\"vec4\");\n error();\n }\n if (a === \"vec4\") {\n if (b === \"mat2x4\") return result(\"vec2\");\n if (b === \"mat3x4\") return result(\"vec3\");\n if (b === \"vec4\" || isMat4(b)) return result(\"vec4\");\n error();\n }\n // Matrix * Vector\n if (b === \"vec2\") {\n if (isMat2(a)) return result(\"vec2\");\n if (a === \"mat2x3\") return result(\"vec3\");\n if (a === \"mat2x4\") return result(\"vec4\");\n error();\n }\n if (b === \"vec3\") {\n if (a === \"mat3x2\") return result(\"vec2\");\n if (isMat3(a)) return result(\"vec3\");\n if (a === \"mat3x4\") return result(\"vec4\");\n error();\n }\n if (b === \"vec4\") {\n if (a === \"mat4x2\") return result(\"vec2\");\n if (a === \"mat4x3\") return result(\"vec3\");\n if (isMat4(a)) return result(\"vec4\");\n error();\n }\n // Matrix * Matrix: mat{Acols}x{Arows} * mat{Bcols}x{Brows} => mat{Bcols}x{Arows}\n if (isMat2(a)) {\n if (isMat2(b)) return result(\"mat2\");\n if (b === \"mat3x2\") return result(\"mat3x2\");\n if (b === \"mat4x2\") return result(\"mat4x2\");\n error();\n }\n if (a === \"mat2x3\") {\n if (isMat2(b)) return result(\"mat2x3\");\n if (b === \"mat3x2\") return result(\"mat3\");\n if (b === \"mat4x2\") return result(\"mat4x3\");\n error();\n }\n if (a === \"mat2x4\") {\n if (isMat2(b)) return result(\"mat2x4\");\n if (b === \"mat3x2\") return result(\"mat3x4\");\n if (b === \"mat4x2\") return result(\"mat4\");\n error();\n }\n if (a === \"mat3x2\") {\n if (b === \"mat2x3\") return result(\"mat2\");\n if (isMat3(b)) return result(\"mat3x2\");\n if (b === \"mat4x3\") return result(\"mat4x2\");\n error();\n }\n if (isMat3(a)) {\n if (b === \"mat2x3\") return result(\"mat2x3\");\n if (isMat3(b)) return result(\"mat3\");\n if (b === \"mat4x3\") return result(\"mat4x3\");\n error();\n }\n if (a === \"mat3x4\") {\n if (b === \"mat2x3\") return result(\"mat2x4\");\n if (isMat3(b)) return result(\"mat3x4\");\n if (b === \"mat4x3\") return result(\"mat4\");\n error();\n }\n if (a === \"mat4x2\") {\n if (b === \"mat2x4\") return result(\"mat2\");\n if (b === \"mat3x4\") return result(\"mat3x2\");\n if (isMat4(b)) return result(\"mat4x2\");\n error();\n }\n if (a === \"mat4x3\") {\n if (b === \"mat2x4\") return result(\"mat2x3\");\n if (b === \"mat3x4\") return result(\"mat3\");\n if (isMat4(b)) return result(\"mat4x3\");\n error();\n }\n if (isMat4(a)) {\n if (b === \"mat2x4\") return result(\"mat2x4\");\n if (b === \"mat3x4\") return result(\"mat3x4\");\n if (isMat4(b)) return result(\"mat4\");\n error();\n }\n throw new Error(`Invalid mul types: ${a}, ${b}`);\n}\n\nexport function divOutputType(\n a: A,\n b: B,\n): DivOutput {\n return addOutputType(a, b, \"div\");\n}\n\nexport function imodOutputType(\n a: A,\n b: B,\n): IModOutput {\n // @ts-ignore\n if (a === b) return a as IModOutput;\n if (a === \"int\") {\n if (isIntType(b)) return b as IModOutput;\n } else if (b === \"int\") {\n if (isIntType(a)) return a as IModOutput;\n } else if (a === \"uint\") {\n if (isUintType(b)) return b as IModOutput;\n } else if (b === \"uint\") {\n if (isUintType(a)) return a as IModOutput;\n }\n throw new Error(`Invalid imod types: ${a}, ${b}`);\n}\n\nexport function modOutputType(\n a: A,\n b: B,\n): ModOutput {\n // @ts-ignore\n if (a === b || b === \"float\") return a as ModOutput;\n throw new Error(`Invalid mod types: ${a}, ${b}`);\n}\n\nexport function modfOutputType(a: A): A {\n return a;\n}\n\nexport function negOutputType(a: A): A {\n return a;\n}\n\nexport function absOutputType(a: A): A {\n return a;\n}\n\nexport function signOutputType(a: A): A {\n return a;\n}\n\nexport function floorOutputType(a: A): A {\n return a;\n}\n\nexport function ceilOutputType(a: A): A {\n return a;\n}\n\nexport function truncOutputType(a: A): A {\n return a;\n}\n\nexport function roundOutputType(a: A): A {\n return a;\n}\n\nexport function fractOutputType(a: A): A {\n return a;\n}\n\nexport function powOutputType(a: A): A {\n return a;\n}\n\nexport function expOutputType(a: A): A {\n return a;\n}\n\nexport function exp2OutputType(a: A): A {\n return a;\n}\n\nexport function logOutputType(a: A): A {\n return a;\n}\n\nexport function log2OutputType(a: A): A {\n return a;\n}\n\nexport function sqrOutputType(a: A): A {\n return a;\n}\n\nexport function sqrtOutputType(a: A): A {\n return a;\n}\n\nexport function inversesqrtOutputType(a: A): A {\n return a;\n}\n\nexport function minOutputType(\n a: A,\n b: B,\n operation = \"min\",\n): MinOutput {\n // @ts-ignore\n if (a === b) return a as MinOutput;\n if (b === \"float\") {\n if (isFloatType(a)) return a as MinOutput;\n } else if (b === \"int\") {\n if (isIntType(a)) return a as MinOutput;\n } else if (b === \"uint\") {\n if (isUintType(a)) return a as MinOutput;\n }\n throw new Error(`Invalid ${operation} types: ${a}, ${b}`);\n}\n\nexport function maxOutputType(\n a: A,\n b: B,\n): MaxOutput {\n return minOutputType(a, b, \"max\");\n}\n\nexport function clampOutputType(\n a: A,\n b: B,\n _c: B,\n): ClampOutput {\n if (b === \"float\") {\n if (isFloatType(a)) return a as ClampOutput;\n } else if (b === \"int\") {\n if (isIntType(a)) return a as ClampOutput;\n } else if (b === \"uint\") {\n if (isUintType(a)) return a as ClampOutput;\n }\n throw new Error(`Invalid clamp types: ${a}, ${b}`);\n}\n\nexport function mixOutputType<\n A extends FloatTypes,\n C extends FloatTypes | BoolTypes,\n>(a: A, b: A, c: C): MixOutput {\n // @ts-ignore\n if (c === a) return a as MixOutput;\n if (c === \"float\") return a as MixOutput;\n if (c === \"bool\" && a === \"float\") return a as MixOutput;\n if (c === \"bvec2\" && a === \"vec2\") return a as MixOutput;\n if (c === \"bvec3\" && a === \"vec3\") return a as MixOutput;\n if (c === \"bvec4\" && a === \"vec4\") return a as MixOutput;\n throw new Error(`Invalid mix types: ${a}, ${b}, ${c}`);\n}\n\nexport function stepOutputType(\n a: A,\n b: B,\n): StepOutput {\n // @ts-ignore\n if (a === b || b === \"float\") return b as StepOutput;\n throw new Error(`Invalid step types: ${a}, ${b}`);\n}\n\nexport function smoothstepOutputType<\n A extends FloatTypes,\n B extends FloatTypes,\n C extends FloatTypes,\n>(a: A, b: B, c: C): SmoothstepOutput {\n // @ts-ignore\n if (a === b) {\n if (a === c || a === \"float\") return c as SmoothstepOutput;\n }\n throw new Error(`Invalid smoothstep types: ${a}, ${b}, ${c}`);\n}\n\nexport function isNanOutputType(\n a: A,\n operation = \"isNan\",\n): IsNanOutput {\n if (a === \"float\") return \"bool\" as IsNanOutput;\n if (a === \"vec2\") return \"bvec2\" as IsNanOutput;\n if (a === \"vec3\") return \"bvec3\" as IsNanOutput;\n if (a === \"vec4\") return \"bvec4\" as IsNanOutput;\n throw new Error(`Invalid ${operation} types: ${a}`);\n}\n\nexport function isInfOutputType(a: A): IsInfOutput {\n return isNanOutputType(a, \"isInf\");\n}\n","import { BinaryOp, Dyno, TrinaryOp, UnaryOp } from \"./base\";\nimport {\n type AddOutput,\n type ClampOutput,\n type DivOutput,\n type IModOutput,\n type IsInfOutput,\n type IsNanOutput,\n type MaxOutput,\n type MinOutput,\n type MixOutput,\n type ModOutput,\n type MulOutput,\n type SmoothstepOutput,\n type StepOutput,\n type SubOutput,\n absOutputType,\n addOutputType,\n ceilOutputType,\n clampOutputType,\n divOutputType,\n exp2OutputType,\n expOutputType,\n floorOutputType,\n fractOutputType,\n imodOutputType,\n inversesqrtOutputType,\n isInfOutputType,\n isNanOutputType,\n log2OutputType,\n logOutputType,\n maxOutputType,\n minOutputType,\n mixOutputType,\n modOutputType,\n modfOutputType,\n mulOutputType,\n negOutputType,\n powOutputType,\n roundOutputType,\n signOutputType,\n smoothstepOutputType,\n sqrOutputType,\n sqrtOutputType,\n stepOutputType,\n subOutputType,\n truncOutputType,\n} from \"./mathTypes\";\nimport type {\n AllIntTypes,\n AllSignedTypes,\n AllValueTypes,\n BoolTypes,\n FloatTypes,\n SignedTypes,\n ValueTypes,\n} from \"./types\";\nimport { type DynoVal, valType } from \"./value\";\n\nexport const add = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Add({ a, b });\nexport const sub = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Sub({ a, b });\nexport const mul = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Mul({ a, b });\nexport const div = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Div({ a, b });\nexport const imod = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new IMod({ a, b });\nexport const mod = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Mod({ a, b });\nexport const modf = (a: DynoVal) =>\n new Modf({ a }).outputs;\n\nexport const neg = (a: DynoVal): DynoVal =>\n new Neg({ a });\nexport const abs = (a: DynoVal): DynoVal =>\n new Abs({ a });\nexport const sign = (a: DynoVal): DynoVal =>\n new Sign({ a });\nexport const floor = (a: DynoVal): DynoVal =>\n new Floor({ a });\nexport const ceil = (a: DynoVal): DynoVal =>\n new Ceil({ a });\nexport const trunc = (a: DynoVal): DynoVal =>\n new Trunc({ a });\nexport const round = (a: DynoVal): DynoVal =>\n new Round({ a });\nexport const fract = (a: DynoVal): DynoVal =>\n new Fract({ a });\n\nexport const pow = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Pow({ a, b });\nexport const exp = (a: DynoVal): DynoVal =>\n new Exp({ a });\nexport const exp2 = (a: DynoVal): DynoVal =>\n new Exp2({ a });\nexport const log = (a: DynoVal): DynoVal =>\n new Log({ a });\nexport const log2 = (a: DynoVal): DynoVal =>\n new Log2({ a });\nexport const sqr = (a: DynoVal): DynoVal =>\n new Sqr({ a });\nexport const sqrt = (a: DynoVal): DynoVal =>\n new Sqrt({ a });\nexport const inversesqrt = (a: DynoVal): DynoVal =>\n new InverseSqrt({ a });\n\nexport const min = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Min({ a, b });\nexport const max = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Max({ a, b });\nexport const clamp = (\n a: DynoVal,\n min: DynoVal,\n max: DynoVal,\n): DynoVal> => new Clamp({ a, min, max });\nexport const mix = (\n a: DynoVal,\n b: DynoVal,\n t: DynoVal,\n): DynoVal> => new Mix({ a, b, t });\nexport const step = (\n edge: DynoVal,\n x: DynoVal,\n): DynoVal> => new Step({ edge, x });\nexport const smoothstep = (\n edge0: DynoVal,\n edge1: DynoVal,\n x: DynoVal,\n): DynoVal> =>\n new Smoothstep({ edge0, edge1, x });\n\nexport const isNan = (\n a: DynoVal,\n): DynoVal> => new IsNan({ a });\nexport const isInf = (\n a: DynoVal,\n): DynoVal> => new IsInf({ a });\n\nexport class Add<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"sum\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"sum\", outTypeFunc: addOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sum} = ${inputs.a} + ${inputs.b};`];\n };\n }\n}\n\nexport class Sub<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"difference\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"difference\", outTypeFunc: subOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.difference} = ${inputs.a} - ${inputs.b};`];\n };\n }\n}\n\nexport class Mul<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"product\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"product\", outTypeFunc: mulOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.product} = ${inputs.a} * ${inputs.b};`];\n };\n }\n}\n\nexport class Div<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"quotient\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"quotient\", outTypeFunc: divOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.quotient} = ${inputs.a} / ${inputs.b};`];\n };\n }\n}\n\nexport class IMod<\n A extends AllIntTypes,\n B extends AllIntTypes,\n> extends BinaryOp, \"remainder\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"remainder\", outTypeFunc: imodOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.remainder} = ${inputs.a} % ${inputs.b};`];\n };\n }\n}\n\nexport class Mod extends BinaryOp<\n A,\n B,\n ModOutput,\n \"remainder\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"remainder\", outTypeFunc: modOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.remainder} = mod(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Modf extends Dyno<\n { a: A },\n { fract: A; integer: A }\n> {\n constructor({ a }: { a: DynoVal }) {\n const inTypes = { a: valType(a) };\n const outType = modfOutputType(inTypes.a);\n const outTypes = {\n fract: outType,\n integer: outType,\n };\n super({ inTypes, outTypes, inputs: { a } });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.fract} = modf(${inputs.a}, ${outputs.integer});`];\n };\n }\n}\n\nexport class Neg extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"neg\", outTypeFunc: negOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.neg} = -${inputs.a};`];\n };\n }\n}\n\nexport class Abs extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"abs\", outTypeFunc: absOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.abs} = abs(${inputs.a});`];\n };\n }\n}\n\nexport class Sign extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"sign\", outTypeFunc: signOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sign} = sign(${inputs.a});`];\n };\n }\n}\n\nexport class Floor extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"floor\", outTypeFunc: floorOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.floor} = floor(${inputs.a});`];\n };\n }\n}\n\nexport class Ceil extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"ceil\", outTypeFunc: ceilOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.ceil} = ceil(${inputs.a});`];\n };\n }\n}\n\nexport class Trunc extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"trunc\", outTypeFunc: truncOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.trunc} = trunc(${inputs.a});`];\n };\n }\n}\n\nexport class Round extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"round\", outTypeFunc: roundOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.round} = round(${inputs.a});`];\n };\n }\n}\n\nexport class Fract extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"fract\", outTypeFunc: fractOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.fract} = fract(${inputs.a});`];\n };\n }\n}\n\nexport class Pow extends BinaryOp {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"power\", outTypeFunc: powOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.power} = pow(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Exp extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"exp\", outTypeFunc: expOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.exp} = exp(${inputs.a});`];\n };\n }\n}\n\nexport class Exp2 extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"exp2\", outTypeFunc: exp2OutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.exp2} = exp2(${inputs.a});`];\n };\n }\n}\n\nexport class Log extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"log\", outTypeFunc: logOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.log} = log(${inputs.a});`];\n };\n }\n}\n\nexport class Log2 extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"log2\", outTypeFunc: log2OutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.log2} = log2(${inputs.a});`];\n };\n }\n}\n\nexport class Sqr extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"sqr\", outTypeFunc: sqrOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sqr} = ${inputs.a} * ${inputs.a};`];\n };\n }\n}\n\nexport class Sqrt extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"sqrt\", outTypeFunc: sqrtOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sqrt} = sqrt(${inputs.a});`];\n };\n }\n}\n\nexport class InverseSqrt extends UnaryOp<\n A,\n A,\n \"inversesqrt\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"inversesqrt\", outTypeFunc: inversesqrtOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.inversesqrt} = inversesqrt(${inputs.a});`];\n };\n }\n}\n\nexport class Min extends BinaryOp<\n A,\n B,\n MinOutput,\n \"min\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"min\", outTypeFunc: minOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.min} = min(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Max extends BinaryOp<\n A,\n B,\n MaxOutput,\n \"max\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"max\", outTypeFunc: maxOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.max} = max(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Clamp<\n A extends ValueTypes,\n MinMax extends ValueTypes,\n> extends TrinaryOp, \"clamp\"> {\n constructor({\n a,\n min,\n max,\n }: { a: DynoVal; min: DynoVal; max: DynoVal }) {\n super({\n a,\n b: min,\n c: max,\n outKey: \"clamp\",\n outTypeFunc: clampOutputType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a, b: min, c: max } = inputs;\n return [`${outputs.clamp} = clamp(${a}, ${min}, ${max});`];\n };\n }\n}\n\nexport class Mix<\n A extends FloatTypes,\n T extends FloatTypes | BoolTypes,\n> extends TrinaryOp, \"mix\"> {\n constructor({ a, b, t }: { a: DynoVal; b: DynoVal; t: DynoVal }) {\n super({ a, b, c: t, outKey: \"mix\", outTypeFunc: mixOutputType });\n this.statements = ({ inputs, outputs }) => {\n const { a, b, c: t } = inputs;\n return [`${outputs.mix} = mix(${a}, ${b}, ${t});`];\n };\n }\n}\n\nexport class Step<\n Edge extends FloatTypes,\n X extends FloatTypes,\n> extends BinaryOp, \"step\"> {\n constructor({ edge, x }: { edge: DynoVal; x: DynoVal }) {\n super({\n a: edge,\n b: x,\n outKey: \"step\",\n outTypeFunc: stepOutputType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a: edge, b: x } = inputs;\n return [`${outputs.step} = step(${edge}, ${x});`];\n };\n }\n}\n\nexport class Smoothstep<\n X extends FloatTypes,\n Edge extends X | \"float\",\n> extends TrinaryOp<\n Edge,\n Edge,\n X,\n SmoothstepOutput,\n \"smoothstep\"\n> {\n constructor({\n edge0,\n edge1,\n x,\n }: { edge0: DynoVal; edge1: DynoVal; x: DynoVal }) {\n super({\n a: edge0,\n b: edge1,\n c: x,\n outKey: \"smoothstep\",\n outTypeFunc: smoothstepOutputType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a: edge0, b: edge1, c: x } = inputs;\n return [`${outputs.smoothstep} = smoothstep(${edge0}, ${edge1}, ${x});`];\n };\n }\n}\n\nexport class IsNan extends UnaryOp<\n A,\n IsNanOutput,\n \"isNan\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"isNan\", outTypeFunc: isNanOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.isNan} = isNan(${inputs.a});`];\n };\n }\n}\n\nexport class IsInf extends UnaryOp<\n A,\n IsInfOutput,\n \"isInf\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"isInf\", outTypeFunc: isInfOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.isInf} = isInf(${inputs.a});`];\n };\n }\n}\n","import { BinaryOp, TrinaryOp, UnaryOp } from \"./base\";\nimport {\n type AllIntTypes,\n type BoolTypes,\n type IntTypes,\n type ScalarTypes,\n type SimpleTypes,\n type UintTypes,\n type ValueTypes,\n isBoolType,\n isIntType,\n isScalarType,\n isUintType,\n isVector2Type,\n isVector3Type,\n} from \"./types\";\nimport { type DynoVal, valType } from \"./value\";\n\nexport const and = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new And({ a, b });\nexport const or = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Or({ a, b });\nexport const xor = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Xor({ a, b });\nexport const not = (\n a: DynoVal,\n): DynoVal => new Not({ a });\n\nexport const shr = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Shr({ a, b });\n\nexport const shl = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Shl({ a, b });\n\nexport const lessThan = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new LessThan({ a, b });\nexport const lessThanEqual = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new LessThanEqual({ a, b });\nexport const greaterThan = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new GreaterThan({ a, b });\nexport const greaterThanEqual = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new GreaterThanEqual({ a, b });\nexport const equal = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Equal({ a, b });\nexport const notEqual = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new NotEqual({ a, b });\n\nexport const any = (\n a: DynoVal,\n): DynoVal<\"bool\"> => new Any({ a });\nexport const all = (\n a: DynoVal,\n): DynoVal<\"bool\"> => new All({ a });\nexport const select = (\n cond: DynoVal<\"bool\">,\n t: DynoVal,\n f: DynoVal,\n): DynoVal => new Select({ cond, t, f });\n\nexport const compXor = (\n a: DynoVal,\n): DynoVal> => new CompXor({ a });\n\nexport class And extends BinaryOp<\n T,\n T,\n T,\n \"and\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"and\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.and === \"bool\") {\n return [`${outputs.and} = ${inputs.a} && ${inputs.b};`];\n }\n return [`${outputs.and} = ${inputs.a} & ${inputs.b};`];\n };\n }\n}\n\nexport class Or extends BinaryOp<\n T,\n T,\n T,\n \"or\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"or\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.or === \"bool\") {\n return [`${outputs.or} = ${inputs.a} || ${inputs.b};`];\n }\n return [`${outputs.or} = ${inputs.a} | ${inputs.b};`];\n };\n }\n}\n\nexport class Xor extends BinaryOp<\n T,\n T,\n T,\n \"xor\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"xor\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.xor === \"bool\") {\n return [`${outputs.xor} = ${inputs.a} ^^ ${inputs.b};`];\n }\n return [`${outputs.xor} = ${inputs.a} ^ ${inputs.b};`];\n };\n }\n}\n\nexport class Not extends UnaryOp<\n T,\n T,\n \"not\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType: T) => aType, outKey: \"not\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.not === \"bool\") {\n return [`${outputs.not} = !${inputs.a};`];\n }\n return [`${outputs.not} = not(${inputs.a});`];\n };\n }\n}\n\nexport class LessThan extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"lessThan\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) => compareOutputType(aType, \"lessThan\"),\n outKey: \"lessThan\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.lessThan === \"bool\") {\n return [`${outputs.lessThan} = ${inputs.a} < ${inputs.b};`];\n }\n return [`${outputs.lessThan} = lessThan(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class LessThanEqual extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"lessThanEqual\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) =>\n compareOutputType(aType, \"lessThanEqual\"),\n outKey: \"lessThanEqual\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.lessThanEqual === \"bool\") {\n return [`${outputs.lessThanEqual} = ${inputs.a} <= ${inputs.b};`];\n }\n return [\n `${outputs.lessThanEqual} = lessThanEqual(${inputs.a}, ${inputs.b});`,\n ];\n };\n }\n}\n\nexport class GreaterThan extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"greaterThan\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) =>\n compareOutputType(aType, \"greaterThan\"),\n outKey: \"greaterThan\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.greaterThan === \"bool\") {\n return [`${outputs.greaterThan} = ${inputs.a} > ${inputs.b};`];\n }\n return [\n `${outputs.greaterThan} = greaterThan(${inputs.a}, ${inputs.b});`,\n ];\n };\n }\n}\n\nexport class GreaterThanEqual extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"greaterThanEqual\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) =>\n compareOutputType(aType, \"greaterThanEqual\"),\n outKey: \"greaterThanEqual\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.greaterThanEqual === \"bool\") {\n return [`${outputs.greaterThanEqual} = ${inputs.a} >= ${inputs.b};`];\n }\n return [\n `${outputs.greaterThanEqual} = greaterThanEqual(${inputs.a}, ${inputs.b});`,\n ];\n };\n }\n}\n\nexport class Equal extends BinaryOp<\n T,\n T,\n EqualOutput,\n \"equal\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: equalOutputType, outKey: \"equal\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.equal === \"bool\") {\n return [`${outputs.equal} = ${inputs.a} == ${inputs.b};`];\n }\n return [`${outputs.equal} = equal(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class NotEqual extends BinaryOp<\n T,\n T,\n NotEqualOutput,\n \"notEqual\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: notEqualOutputType, outKey: \"notEqual\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.notEqual === \"bool\") {\n return [`${outputs.notEqual} = ${inputs.a} != ${inputs.b};`];\n }\n return [`${outputs.notEqual} = notEqual(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Any extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType: T) => \"bool\", outKey: \"any\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.any} = any(${inputs.a});`];\n };\n }\n}\n\nexport class All extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType: T) => \"bool\", outKey: \"all\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.all} = all(${inputs.a});`];\n };\n }\n}\n\nexport class Select extends TrinaryOp<\n \"bool\",\n T,\n T,\n T,\n \"select\"\n> {\n constructor({\n cond,\n t,\n f,\n }: { cond: DynoVal<\"bool\">; t: DynoVal; f: DynoVal }) {\n super({\n a: cond,\n b: t,\n c: f,\n outKey: \"select\",\n outTypeFunc: (aType: \"bool\", bType: T, cType: T) => bType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a: cond, b: t, c: f } = inputs;\n return [`${outputs.select} = (${cond}) ? (${t}) : (${f});`];\n };\n }\n}\n\ntype CompareOutput = T extends ScalarTypes\n ? \"bool\"\n : T extends \"ivec2\" | \"uvec2\" | \"vec2\"\n ? \"bvec2\"\n : T extends \"ivec3\" | \"uvec3\" | \"vec3\"\n ? \"bvec3\"\n : T extends \"ivec4\" | \"uvec4\" | \"vec4\"\n ? \"bvec4\"\n : never;\n\nfunction compareOutputType(\n type: T,\n operator: string,\n): CompareOutput {\n if (isScalarType(type)) {\n return \"bool\" as CompareOutput;\n }\n if (type === \"ivec2\" || type === \"uvec2\" || type === \"vec2\") {\n return \"bvec2\" as CompareOutput;\n }\n if (type === \"ivec3\" || type === \"uvec3\" || type === \"vec3\") {\n return \"bvec3\" as CompareOutput;\n }\n if (type === \"ivec4\" || type === \"uvec4\" || type === \"vec4\") {\n return \"bvec4\" as CompareOutput;\n }\n throw new Error(`Invalid ${operator} type: ${type}`);\n}\n\ntype EqualOutput = A extends ScalarTypes\n ? \"bool\"\n : A extends BoolTypes\n ? A\n : A extends \"ivec2\" | \"uvec2\" | \"vec2\"\n ? \"bvec2\"\n : A extends \"ivec3\" | \"uvec3\" | \"vec3\"\n ? \"bvec3\"\n : A extends \"ivec4\" | \"uvec4\" | \"vec4\"\n ? \"bvec4\"\n : never;\n\nfunction equalOutputType(\n type: A,\n operator = \"equal\",\n): EqualOutput {\n if (isScalarType(type)) {\n return \"bool\" as EqualOutput;\n }\n if (isBoolType(type)) {\n return type as EqualOutput;\n }\n if (type === \"ivec2\" || type === \"uvec2\" || type === \"vec2\") {\n return \"bvec2\" as EqualOutput;\n }\n if (type === \"ivec3\" || type === \"uvec3\" || type === \"vec3\") {\n return \"bvec3\" as EqualOutput;\n }\n if (type === \"ivec4\" || type === \"uvec4\" || type === \"vec4\") {\n return \"bvec4\" as EqualOutput;\n }\n throw new Error(`Invalid ${operator} type: ${type}`);\n}\n\ntype NotEqualOutput = EqualOutput;\n\nfunction notEqualOutputType(\n type: A,\n): NotEqualOutput {\n return equalOutputType(type, \"notEqual\");\n}\n\ntype CompXorOutput = A extends BoolTypes\n ? \"bool\"\n : A extends IntTypes\n ? \"int\"\n : A extends UintTypes\n ? \"uint\"\n : never;\n\nfunction compXorOutputType(\n type: A,\n): CompXorOutput {\n if (isBoolType(type)) {\n return \"bool\" as CompXorOutput;\n }\n if (isIntType(type)) {\n return \"int\" as CompXorOutput;\n }\n if (isUintType(type)) {\n return \"uint\" as CompXorOutput;\n }\n throw new Error(`Invalid compXor type: ${type}`);\n}\n\nexport class CompXor extends UnaryOp<\n T,\n CompXorOutput,\n \"compXor\"\n> {\n constructor({ a }: { a: DynoVal }) {\n const outType = compXorOutputType(valType(a));\n super({ a, outTypeFunc: (aType: T) => outType, outKey: \"compXor\" });\n this.statements = ({ inputs, outputs }) => {\n if (isScalarType(this.outTypes.compXor)) {\n return [`${outputs.compXor} = ${inputs.a};`];\n }\n const components = isVector2Type(outType)\n ? [\"x\", \"y\"]\n : isVector3Type(outType)\n ? [\"x\", \"y\", \"z\"]\n : [\"x\", \"y\", \"z\", \"w\"];\n const operands = components.map((c) => `${inputs.a}.${c}`);\n const operator = isBoolType(outType) ? \"^^\" : \"^\";\n return [`${outputs.compXor} = ${operands.join(` ${operator} `)};`];\n };\n }\n}\n\nexport class Shr extends BinaryOp {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"shr\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.shr} = ${inputs.a} >> ${inputs.b};`];\n };\n }\n}\n\nexport class Shl extends BinaryOp {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"shl\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.shl} = ${inputs.a} << ${inputs.b};`];\n };\n }\n}\n","import { UnaryOp } from \"./base\";\nimport { type SimpleTypes, typeLiteral } from \"./types\";\nimport type { DynoVal } from \"./value\";\n\nexport const bool = (\n value: DynoVal,\n): DynoVal<\"bool\"> => new Bool({ value });\nexport const int = (\n value: DynoVal,\n): DynoVal<\"int\"> => new Int({ value });\nexport const uint = (\n value: DynoVal,\n): DynoVal<\"uint\"> => new Uint({ value });\nexport const float = (\n value: DynoVal,\n): DynoVal<\"float\"> => new Float({ value });\n\nexport const bvec2 = (\n value: DynoVal,\n): DynoVal<\"bvec2\"> => new BVec2({ value });\nexport const bvec3 = (\n value: DynoVal,\n): DynoVal<\"bvec3\"> => new BVec3({ value });\nexport const bvec4 = (\n value: DynoVal,\n): DynoVal<\"bvec4\"> => new BVec4({ value });\n\nexport const ivec2 = (\n value: DynoVal,\n): DynoVal<\"ivec2\"> => new IVec2({ value });\nexport const ivec3 = (\n value: DynoVal,\n): DynoVal<\"ivec3\"> => new IVec3({ value });\nexport const ivec4 = (\n value: DynoVal,\n): DynoVal<\"ivec4\"> => new IVec4({ value });\n\nexport const uvec2 = (\n value: DynoVal,\n): DynoVal<\"uvec2\"> => new UVec2({ value });\nexport const uvec3 = (\n value: DynoVal,\n): DynoVal<\"uvec3\"> => new UVec3({ value });\nexport const uvec4 = (\n value: DynoVal,\n): DynoVal<\"uvec4\"> => new UVec4({ value });\n\nexport const vec2 = <\n T extends \"float\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\" | \"vec3\" | \"vec4\",\n>(\n value: DynoVal,\n): DynoVal<\"vec2\"> => new Vec2({ value });\nexport const vec3 = <\n T extends \"float\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\" | \"vec4\",\n>(\n value: DynoVal,\n): DynoVal<\"vec3\"> => new Vec3({ value });\nexport const vec4 = (\n value: DynoVal,\n): DynoVal<\"vec4\"> => new Vec4({ value });\n\nexport const mat2 = (\n value: DynoVal,\n): DynoVal<\"mat2\"> => new Mat2({ value });\nexport const mat3 = (\n value: DynoVal,\n): DynoVal<\"mat3\"> => new Mat3({ value });\nexport const mat4 = (\n value: DynoVal,\n): DynoVal<\"mat4\"> => new Mat4({ value });\n\nexport const floatBitsToInt = (value: DynoVal<\"float\">): DynoVal<\"int\"> =>\n new FloatBitsToInt({ value });\nexport const floatBitsToUint = (value: DynoVal<\"float\">): DynoVal<\"uint\"> =>\n new FloatBitsToUint({ value });\nexport const intBitsToFloat = (value: DynoVal<\"int\">): DynoVal<\"float\"> =>\n new IntBitsToFloat({ value });\nexport const uintBitsToFloat = (value: DynoVal<\"uint\">): DynoVal<\"float\"> =>\n new UintBitsToFloat({ value });\n\nexport const packSnorm2x16 = (value: DynoVal<\"vec2\">): DynoVal<\"uint\"> =>\n new PackSnorm2x16({ value });\nexport const unpackSnorm2x16 = (value: DynoVal<\"uint\">): DynoVal<\"vec2\"> =>\n new UnpackSnorm2x16({ value });\nexport const packUnorm2x16 = (value: DynoVal<\"vec2\">): DynoVal<\"uint\"> =>\n new PackUnorm2x16({ value });\nexport const unpackUnorm2x16 = (value: DynoVal<\"uint\">): DynoVal<\"vec2\"> =>\n new UnpackUnorm2x16({ value });\n\nexport const packHalf2x16 = (value: DynoVal<\"vec2\">): DynoVal<\"uint\"> =>\n new PackHalf2x16({ value });\nexport const unpackHalf2x16 = (value: DynoVal<\"uint\">): DynoVal<\"vec2\"> =>\n new UnpackHalf2x16({ value });\n\nexport const uintToRgba8 = (value: DynoVal<\"uint\">): DynoVal<\"vec4\"> =>\n new UintToRgba8({ value });\n\nexport class SimpleCast<\n Allowed extends SimpleTypes,\n OutType extends SimpleTypes,\n OutKey extends string,\n> extends UnaryOp {\n constructor({\n value,\n outType,\n outKey,\n }: { value: DynoVal; outType: OutType; outKey: OutKey }) {\n super({ a: value, outTypeFunc: () => outType, outKey });\n this.statements = ({ inputs, outputs }) => [\n `${outputs[outKey]} = ${typeLiteral(outType)}(${inputs.a});`,\n ];\n }\n}\n\nexport class Bool extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"bool\",\n \"bool\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"bool\", outKey: \"bool\" });\n }\n}\n\nexport class Int extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"int\",\n \"int\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"int\", outKey: \"int\" });\n }\n}\n\nexport class Uint extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"uint\",\n \"uint\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"uint\", outKey: \"uint\" });\n }\n}\n\nexport class Float extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"float\",\n \"float\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"float\", outKey: \"float\" });\n }\n}\n\nexport class BVec2 extends SimpleCast<\n \"bool\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\",\n \"bvec2\",\n \"bvec2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\"> }) {\n super({ value, outType: \"bvec2\", outKey: \"bvec2\" });\n }\n}\n\nexport class BVec3 extends SimpleCast<\n \"bool\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\",\n \"bvec3\",\n \"bvec3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\"> }) {\n super({ value, outType: \"bvec3\", outKey: \"bvec3\" });\n }\n}\n\nexport class BVec4 extends SimpleCast<\n \"bool\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\",\n \"bvec4\",\n \"bvec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"bvec4\", outKey: \"bvec4\" });\n }\n}\n\nexport class IVec2 extends SimpleCast<\n \"int\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\",\n \"ivec2\",\n \"ivec2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"int\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\"> }) {\n super({ value, outType: \"ivec2\", outKey: \"ivec2\" });\n }\n}\n\nexport class IVec3 extends SimpleCast<\n \"int\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\",\n \"ivec3\",\n \"ivec3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"int\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\"> }) {\n super({ value, outType: \"ivec3\", outKey: \"ivec3\" });\n }\n}\n\nexport class IVec4 extends SimpleCast<\n \"int\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\",\n \"ivec4\",\n \"ivec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"int\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"ivec4\", outKey: \"ivec4\" });\n }\n}\n\nexport class UVec2 extends SimpleCast<\n \"uint\" | \"ivec2\" | \"bvec2\" | \"uvec2\" | \"vec2\",\n \"uvec2\",\n \"uvec2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"uint\" | \"ivec2\" | \"bvec2\" | \"uvec2\" | \"vec2\"> }) {\n super({ value, outType: \"uvec2\", outKey: \"uvec2\" });\n }\n}\n\nexport class UVec3 extends SimpleCast<\n \"uint\" | \"ivec3\" | \"bvec3\" | \"uvec3\" | \"vec3\",\n \"uvec3\",\n \"uvec3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"uint\" | \"ivec3\" | \"bvec3\" | \"uvec3\" | \"vec3\"> }) {\n super({ value, outType: \"uvec3\", outKey: \"uvec3\" });\n }\n}\n\nexport class UVec4 extends SimpleCast<\n \"uint\" | \"ivec4\" | \"bvec4\" | \"uvec4\" | \"vec4\",\n \"uvec4\",\n \"uvec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"uint\" | \"ivec4\" | \"bvec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"uvec4\", outKey: \"uvec4\" });\n }\n}\n\nexport class Vec2 extends SimpleCast<\n \"float\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\" | \"vec3\" | \"vec4\",\n \"vec2\",\n \"vec2\"\n> {\n constructor({\n value,\n }: {\n value: DynoVal<\n \"float\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\" | \"vec3\" | \"vec4\"\n >;\n }) {\n super({ value, outType: \"vec2\", outKey: \"vec2\" });\n }\n}\n\nexport class Vec3 extends SimpleCast<\n \"float\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\" | \"vec2\" | \"vec4\",\n \"vec3\",\n \"vec3\"\n> {\n constructor({\n value,\n }: {\n value: DynoVal<\n \"float\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\" | \"vec2\" | \"vec4\"\n >;\n }) {\n super({ value, outType: \"vec3\", outKey: \"vec3\" });\n }\n}\n\nexport class Vec4 extends SimpleCast<\n \"float\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\",\n \"vec4\",\n \"vec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"vec4\", outKey: \"vec4\" });\n }\n}\n\nexport class Mat2 extends SimpleCast<\n \"float\" | \"mat2\" | \"mat3\" | \"mat4\",\n \"mat2\",\n \"mat2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"mat2\" | \"mat3\" | \"mat4\"> }) {\n super({ value, outType: \"mat2\", outKey: \"mat2\" });\n }\n}\n\nexport class Mat3 extends SimpleCast<\n \"float\" | \"mat2\" | \"mat3\" | \"mat4\",\n \"mat3\",\n \"mat3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"mat2\" | \"mat3\" | \"mat4\"> }) {\n super({ value, outType: \"mat3\", outKey: \"mat3\" });\n }\n}\n\nexport class Mat4 extends SimpleCast<\n \"float\" | \"mat2\" | \"mat3\" | \"mat4\",\n \"mat4\",\n \"mat4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"mat2\" | \"mat3\" | \"mat4\"> }) {\n super({ value, outType: \"mat4\", outKey: \"mat4\" });\n }\n}\n\nexport class FloatBitsToInt extends UnaryOp<\"float\", \"int\", \"int\"> {\n constructor({ value }: { value: DynoVal<\"float\"> }) {\n super({ a: value, outKey: \"int\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.int} = floatBitsToInt(${inputs.a});`];\n };\n }\n}\n\nexport class FloatBitsToUint extends UnaryOp<\"float\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"float\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = floatBitsToUint(${inputs.a});`];\n };\n }\n}\n\nexport class IntBitsToFloat extends UnaryOp<\"int\", \"float\", \"float\"> {\n constructor({ value }: { value: DynoVal<\"int\"> }) {\n super({ a: value, outKey: \"float\", outTypeFunc: () => \"float\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.float} = intBitsToFloat(${inputs.a});`];\n };\n }\n}\n\nexport class UintBitsToFloat extends UnaryOp<\"uint\", \"float\", \"float\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"float\", outTypeFunc: () => \"float\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.float} = uintBitsToFloat(${inputs.a});`];\n };\n }\n}\n\nexport class PackSnorm2x16 extends UnaryOp<\"vec2\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"vec2\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = packSnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UnpackSnorm2x16 extends UnaryOp<\"uint\", \"vec2\", \"vec2\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"vec2\", outTypeFunc: () => \"vec2\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.vec2} = unpackSnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class PackUnorm2x16 extends UnaryOp<\"vec2\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"vec2\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = packUnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UnpackUnorm2x16 extends UnaryOp<\"uint\", \"vec2\", \"vec2\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"vec2\", outTypeFunc: () => \"vec2\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.vec2} = unpackUnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class PackHalf2x16 extends UnaryOp<\"vec2\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"vec2\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = packHalf2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UnpackHalf2x16 extends UnaryOp<\"uint\", \"vec2\", \"vec2\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"vec2\", outTypeFunc: () => \"vec2\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.vec2} = unpackHalf2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UintToRgba8 extends UnaryOp<\"uint\", \"vec4\", \"rgba8\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"rgba8\", outTypeFunc: () => \"vec4\" });\n this.statements = ({ inputs, outputs }) => {\n return [\n `uvec4 uRgba = uvec4(${inputs.a} & 0xffu, (${inputs.a} >> 8u) & 0xffu, (${inputs.a} >> 16u) & 0xffu, (${inputs.a} >> 24u) & 0xffu);`,\n `${outputs.rgba8} = vec4(uRgba) / 255.0;`,\n ];\n };\n }\n}\n","import { BinaryOp, Dyno, TrinaryOp, UnaryOp } from \"./base\";\nimport {\n type FloatTypes,\n type IntTypes,\n type MatFloatTypes,\n type SquareMatTypes,\n type UintTypes,\n type VectorElementType,\n type VectorTypes,\n isFloatType,\n isIntType,\n isUintType,\n vectorDim,\n vectorElementType,\n} from \"./types\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n literalZero,\n valType,\n} from \"./value\";\n\nexport const length = (\n a: DynoVal,\n): DynoVal<\"float\"> => new Length({ a });\nexport const distance = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal<\"float\"> => new Distance({ a, b });\nexport const dot = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal<\"float\"> => new Dot({ a, b });\nexport const cross = (\n a: DynoVal<\"vec3\">,\n b: DynoVal<\"vec3\">,\n): DynoVal<\"vec3\"> => new Cross({ a, b });\nexport const normalize = (\n a: DynoVal,\n): DynoVal => new Normalize({ a });\nexport const faceforward = (\n a: DynoVal,\n b: DynoVal,\n c: DynoVal,\n): DynoVal => new FaceForward({ a, b, c });\nexport const reflectVec = (\n incident: DynoVal,\n normal: DynoVal,\n): DynoVal => new ReflectVec({ incident, normal });\nexport const refractVec = (\n incident: DynoVal,\n normal: DynoVal,\n eta: DynoVal<\"float\">,\n): DynoVal => new RefractVec({ incident, normal, eta });\nexport const split = (vector: DynoVal): Split =>\n new Split({ vector });\nexport const combine = >({\n vector,\n vectorType,\n x,\n y,\n z,\n w,\n r,\n g,\n b,\n a,\n}: {\n vector?: DynoVal;\n vectorType?: V;\n x?: DynoVal;\n y?: DynoVal;\n z?: DynoVal;\n w?: DynoVal;\n r?: DynoVal;\n g?: DynoVal;\n b?: DynoVal;\n a?: DynoVal;\n}): DynoVal => new Combine({ vector, vectorType, x, y, z, w, r, g, b, a });\nexport const projectH = (\n a: DynoVal,\n): DynoVal> => new ProjectH({ a });\nexport const extendVec = (\n a: DynoVal,\n b: DynoVal<\"float\">,\n): DynoVal> => new ExtendVec({ a, b });\nexport const swizzle = (\n a: DynoVal,\n select: S,\n): DynoVal>> =>\n new Swizzle({ vector: a, select });\nexport const compMult = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new CompMult({ a, b });\nexport const outer = <\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n>(\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Outer({ a, b });\nexport const transpose = (\n a: DynoVal,\n): DynoVal> => new Transpose({ a });\nexport const determinant = (\n a: DynoVal,\n): DynoVal<\"float\"> => new Determinant({ a });\nexport const inverse = (a: DynoVal): DynoVal =>\n new Inverse({ a });\n\nexport class Length extends UnaryOp<\n A,\n \"float\",\n \"length\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType) => \"float\", outKey: \"length\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.length} = length(${inputs.a});`,\n ];\n }\n}\n\nexport class Distance extends BinaryOp<\n A,\n A,\n \"float\",\n \"distance\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"distance\", outTypeFunc: (aType, bType) => \"float\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.distance} = distance(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Dot extends BinaryOp<\n A,\n A,\n \"float\",\n \"dot\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"dot\", outTypeFunc: (aType, bType) => \"float\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.dot} = dot(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Cross extends BinaryOp<\"vec3\", \"vec3\", \"vec3\", \"cross\"> {\n constructor({ a, b }: { a: DynoVal<\"vec3\">; b: DynoVal<\"vec3\"> }) {\n super({ a, b, outKey: \"cross\", outTypeFunc: (aType, bType) => \"vec3\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.cross} = cross(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Normalize extends UnaryOp<\n A,\n A,\n \"normalize\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType) => aType, outKey: \"normalize\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.normalize} = normalize(${inputs.a});`,\n ];\n }\n}\n\ntype ProjectHOutput = A extends \"vec3\"\n ? \"vec2\"\n : A extends \"vec4\"\n ? \"vec3\"\n : never;\n\nfunction projectHOutputType(\n type: A,\n): ProjectHOutput {\n if (type === \"vec3\") {\n return \"vec2\" as ProjectHOutput;\n }\n if (type === \"vec4\") {\n return \"vec3\" as ProjectHOutput;\n }\n throw new Error(\"Invalid type\");\n}\n\nexport class ProjectH extends UnaryOp<\n A,\n ProjectHOutput,\n \"projected\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({\n a,\n outTypeFunc: (aType) => projectHOutputType(aType),\n outKey: \"projected\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.inTypes.a === \"vec3\") {\n return [`${outputs.projected} = ${inputs.a}.xy / ${inputs.a}.z;`];\n }\n if (this.inTypes.a === \"vec4\") {\n return [`${outputs.projected} = ${inputs.a}.xyz / ${inputs.a}.w;`];\n }\n throw new Error(\"Invalid type\");\n };\n }\n}\n\ntype ExtendVecOutput = A extends \"float\"\n ? \"vec2\"\n : A extends \"vec2\"\n ? \"vec3\"\n : A extends \"vec3\"\n ? \"vec4\"\n : never;\n\nfunction extendVecOutputType(\n type: A,\n): ExtendVecOutput {\n if (type === \"float\") return \"vec2\" as ExtendVecOutput;\n if (type === \"vec2\") return \"vec3\" as ExtendVecOutput;\n if (type === \"vec3\") return \"vec4\" as ExtendVecOutput;\n throw new Error(\"Invalid type\");\n}\n\nexport class ExtendVec extends BinaryOp<\n A,\n \"float\",\n ExtendVecOutput,\n \"extend\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal<\"float\"> }) {\n const type = valType(a);\n const outType = extendVecOutputType(type);\n super({ a, b, outKey: \"extend\", outTypeFunc: () => outType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.extend} = ${outType}(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class FaceForward extends TrinaryOp<\n A,\n A,\n A,\n A,\n \"forward\"\n> {\n constructor({ a, b, c }: { a: DynoVal; b: DynoVal; c: DynoVal }) {\n super({\n a,\n b,\n c,\n outKey: \"forward\",\n outTypeFunc: (aType, bType, cType) => aType,\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.forward} = faceforward(${inputs.a}, ${inputs.b}, ${inputs.c});`,\n ];\n }\n}\n\nexport class ReflectVec extends BinaryOp<\n A,\n A,\n A,\n \"reflection\"\n> {\n constructor({\n incident,\n normal,\n }: { incident: DynoVal; normal: DynoVal }) {\n super({\n a: incident,\n b: normal,\n outKey: \"reflection\",\n outTypeFunc: (aType, bType) => aType,\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.reflection} = reflect(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class RefractVec extends TrinaryOp<\n A,\n A,\n \"float\",\n A,\n \"refraction\"\n> {\n constructor({\n incident,\n normal,\n eta,\n }: { incident: DynoVal; normal: DynoVal; eta: DynoVal<\"float\"> }) {\n super({\n a: incident,\n b: normal,\n c: eta,\n outKey: \"refraction\",\n outTypeFunc: (aType, bType, cType) => aType,\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.refraction} = refract(${inputs.a}, ${inputs.b}, ${inputs.c});`,\n ];\n }\n}\n\nexport class CompMult extends BinaryOp<\n A,\n A,\n A,\n \"product\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"product\", outTypeFunc: (aType, bType) => aType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.product} = matrixCompMult(${a}, ${b});`,\n ];\n }\n}\n\ntype OuterOutput<\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n> = A extends \"vec2\"\n ? B extends \"vec2\"\n ? \"mat2\"\n : B extends \"vec3\"\n ? \"mat3x2\"\n : B extends \"vec4\"\n ? \"mat4x2\"\n : never\n : A extends \"vec3\"\n ? B extends \"vec2\"\n ? \"mat2x3\"\n : B extends \"vec3\"\n ? \"mat3\"\n : B extends \"vec4\"\n ? \"mat4x3\"\n : never\n : A extends \"vec4\"\n ? B extends \"vec2\"\n ? \"mat2x4\"\n : B extends \"vec3\"\n ? \"mat3x4\"\n : B extends \"vec4\"\n ? \"mat4\"\n : never\n : never;\n\nfunction outerOutputType<\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n>(aType: A, bType: B): OuterOutput {\n if (aType === \"vec2\") {\n if (bType === \"vec2\") return \"mat2\" as OuterOutput;\n if (bType === \"vec3\") return \"mat3x2\" as OuterOutput;\n if (bType === \"vec4\") return \"mat4x2\" as OuterOutput;\n }\n if (aType === \"vec3\") {\n if (bType === \"vec2\") return \"mat2x3\" as OuterOutput;\n if (bType === \"vec3\") return \"mat3\" as OuterOutput;\n if (bType === \"vec4\") return \"mat4x3\" as OuterOutput;\n }\n if (aType === \"vec4\") {\n if (bType === \"vec2\") return \"mat2x4\" as OuterOutput;\n if (bType === \"vec3\") return \"mat3x4\" as OuterOutput;\n if (bType === \"vec4\") return \"mat4\" as OuterOutput;\n }\n throw new Error(`Invalid outer type: ${aType}, ${bType}`);\n}\n\nexport class Outer<\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n> extends BinaryOp, \"outer\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"outer\", outTypeFunc: outerOutputType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.outer} = outerProduct(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\ntype TransposeOutput = A extends SquareMatTypes\n ? A\n : A extends \"mat2x3\"\n ? \"mat3x2\"\n : A extends \"mat2x4\"\n ? \"mat4x2\"\n : A extends \"mat3x2\"\n ? \"mat2x3\"\n : A extends \"mat3x4\"\n ? \"mat4x3\"\n : A extends \"mat4x2\"\n ? \"mat2x4\"\n : A extends \"mat4x3\"\n ? \"mat3x4\"\n : never;\n\nfunction transposeOutputType(\n type: A,\n): TransposeOutput {\n if (type === \"mat2\") return \"mat2\" as TransposeOutput;\n if (type === \"mat3\") return \"mat3\" as TransposeOutput;\n if (type === \"mat4\") return \"mat4\" as TransposeOutput;\n if (type === \"mat2x2\") return \"mat2x2\" as TransposeOutput;\n if (type === \"mat2x3\") return \"mat3x2\" as TransposeOutput;\n if (type === \"mat2x4\") return \"mat4x2\" as TransposeOutput;\n if (type === \"mat3x2\") return \"mat2x3\" as TransposeOutput;\n if (type === \"mat3x3\") return \"mat3x3\" as TransposeOutput;\n if (type === \"mat3x4\") return \"mat4x3\" as TransposeOutput;\n if (type === \"mat4x2\") return \"mat2x4\" as TransposeOutput;\n if (type === \"mat4x3\") return \"mat3x4\" as TransposeOutput;\n if (type === \"mat4x4\") return \"mat4x4\" as TransposeOutput;\n throw new Error(`Invalid transpose type: ${type}`);\n}\n\nexport class Transpose extends UnaryOp<\n A,\n TransposeOutput,\n \"transpose\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"transpose\", outTypeFunc: transposeOutputType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.transpose} = transpose(${inputs.a});`,\n ];\n }\n}\n\nexport class Determinant extends UnaryOp<\n A,\n \"float\",\n \"det\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"det\", outTypeFunc: (aType) => \"float\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.det} = determinant(${inputs.a});`,\n ];\n }\n}\n\nexport class Inverse extends UnaryOp<\n A,\n A,\n \"inverse\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"inverse\", outTypeFunc: (aType) => aType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.inverse} = inverse(${a});`,\n ];\n }\n}\n\ntype SplitOutTypes = A extends \"vec2\"\n ? { x: \"float\"; y: \"float\"; r: \"float\"; g: \"float\" }\n : A extends \"vec3\"\n ? { x: \"float\"; y: \"float\"; z: \"float\"; r: \"float\"; g: \"float\"; b: \"float\" }\n : A extends \"vec4\"\n ? {\n x: \"float\";\n y: \"float\";\n z: \"float\";\n w: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n a: \"float\";\n }\n : A extends \"ivec2\"\n ? { x: \"int\"; y: \"int\"; r: \"int\"; g: \"int\" }\n : A extends \"ivec3\"\n ? { x: \"int\"; y: \"int\"; z: \"int\"; r: \"int\"; g: \"int\"; b: \"int\" }\n : A extends \"ivec4\"\n ? {\n x: \"int\";\n y: \"int\";\n z: \"int\";\n w: \"int\";\n r: \"int\";\n g: \"int\";\n b: \"int\";\n a: \"int\";\n }\n : A extends \"uvec2\"\n ? { x: \"uint\"; y: \"uint\"; r: \"uint\"; g: \"uint\" }\n : A extends \"uvec3\"\n ? {\n x: \"uint\";\n y: \"uint\";\n z: \"uint\";\n r: \"uint\";\n g: \"uint\";\n b: \"uint\";\n }\n : A extends \"uvec4\"\n ? {\n x: \"uint\";\n y: \"uint\";\n z: \"uint\";\n w: \"uint\";\n r: \"uint\";\n g: \"uint\";\n b: \"uint\";\n a: \"uint\";\n }\n : never;\n\nfunction splitOutTypes(type: A): SplitOutTypes {\n const result = (value: unknown) => value as SplitOutTypes;\n switch (type) {\n case \"vec2\":\n return result({ x: \"float\", y: \"float\", r: \"float\", g: \"float\" });\n case \"vec3\":\n return result({\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n });\n case \"vec4\":\n return result({\n x: \"float\",\n y: \"float\",\n z: \"float\",\n w: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n a: \"float\",\n });\n case \"ivec2\":\n return result({ x: \"int\", y: \"int\", r: \"int\", g: \"int\" });\n case \"ivec3\":\n return result({\n x: \"int\",\n y: \"int\",\n z: \"int\",\n r: \"int\",\n g: \"int\",\n b: \"int\",\n });\n case \"ivec4\":\n return result({\n x: \"int\",\n y: \"int\",\n z: \"int\",\n w: \"int\",\n r: \"int\",\n g: \"int\",\n b: \"int\",\n a: \"int\",\n });\n case \"uvec2\":\n return result({ x: \"uint\", y: \"uint\", r: \"uint\", g: \"uint\" });\n case \"uvec3\":\n return result({\n x: \"uint\",\n y: \"uint\",\n z: \"uint\",\n r: \"uint\",\n g: \"uint\",\n b: \"uint\",\n });\n case \"uvec4\":\n return result({\n x: \"uint\",\n y: \"uint\",\n z: \"uint\",\n w: \"uint\",\n r: \"uint\",\n g: \"uint\",\n b: \"uint\",\n a: \"uint\",\n });\n default:\n throw new Error(`Invalid vector type: ${type}`);\n }\n}\n\nexport class Split extends Dyno<\n { vector: V },\n SplitOutTypes\n> {\n constructor({ vector }: { vector: DynoVal }) {\n const type = valType(vector);\n const inTypes = { vector: type };\n const outTypes = splitOutTypes(inTypes.vector);\n super({ inTypes, outTypes, inputs: { vector } });\n this.statements = ({ inputs, outputs }) => {\n const { x, y, z, w, r, g, b, a } = outputs as unknown as Record<\n string,\n string\n >;\n const { vector } = inputs;\n return [\n x ? `${x} = ${vector}.x;` : null,\n y ? `${y} = ${vector}.y;` : null,\n z ? `${z} = ${vector}.z;` : null,\n w ? `${w} = ${vector}.w;` : null,\n r ? `${r} = ${vector}.r;` : null,\n g ? `${g} = ${vector}.g;` : null,\n b ? `${b} = ${vector}.b;` : null,\n a ? `${a} = ${vector}.a;` : null,\n ].filter(Boolean) as string[];\n };\n }\n}\n\nexport class Combine>\n extends Dyno & { vector: V }, { vector: V }>\n implements HasDynoOut\n{\n constructor({\n vector,\n vectorType,\n x,\n y,\n z,\n w,\n r,\n g,\n b,\n a,\n }: {\n vector?: DynoVal;\n vectorType?: V;\n x?: DynoVal;\n y?: DynoVal;\n z?: DynoVal;\n w?: DynoVal;\n r?: DynoVal;\n g?: DynoVal;\n b?: DynoVal;\n a?: DynoVal;\n }) {\n if (!vector && !vectorType) {\n throw new Error(\"Either vector or vectorType must be provided\");\n }\n const vType = vectorType ?? valType(vector as DynoVal);\n const elType = vectorElementType(vType);\n const dim = vectorDim(vType);\n\n const inTypes = {\n vector: vType,\n x: elType,\n y: elType,\n r: elType,\n g: elType,\n } as unknown as SplitOutTypes & { vector: V };\n const inputs = { vector, x, y, r, g };\n if (dim >= 3) {\n Object.assign(inTypes, { z: elType, b: elType });\n Object.assign(inputs, { z, b });\n }\n if (dim >= 4) {\n Object.assign(inTypes, { w: elType, a: elType });\n Object.assign(inputs, { w, a });\n }\n // @ts-ignore\n super({ inTypes, outTypes: { vector: vType }, inputs });\n this.statements = ({ inputs, outputs }) => {\n const { vector } = outputs;\n const {\n vector: input,\n x,\n y,\n z,\n w,\n r,\n g,\n b,\n a,\n } = inputs as Record;\n const statements = [\n `${vector}.x = ${x ?? r ?? (input ? `${input}.x` : literalZero(elType))};`,\n `${vector}.y = ${y ?? g ?? (input ? `${input}.y` : literalZero(elType))};`,\n ];\n if (dim >= 3)\n statements.push(\n `${vector}.z = ${z ?? b ?? (input ? `${input}.z` : literalZero(elType))};`,\n );\n if (dim >= 4)\n statements.push(\n `${vector}.w = ${w ?? a ?? (input ? `${input}.w` : literalZero(elType))};`,\n );\n return statements;\n };\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput & { vector: V }, { vector: V }>(\n this,\n \"vector\",\n );\n }\n}\n\ntype SwizzleOutput<\n A extends VectorTypes,\n Len extends number,\n> = A extends FloatTypes\n ? Len extends 1\n ? \"float\"\n : Len extends 2\n ? \"vec2\"\n : Len extends 3\n ? \"vec3\"\n : Len extends 4\n ? \"vec4\"\n : never\n : A extends IntTypes\n ? Len extends 1\n ? \"int\"\n : Len extends 2\n ? \"ivec2\"\n : Len extends 3\n ? \"ivec3\"\n : Len extends 4\n ? \"ivec4\"\n : never\n : A extends UintTypes\n ? Len extends 1\n ? \"uint\"\n : Len extends 2\n ? \"uvec2\"\n : Len extends 3\n ? \"uvec3\"\n : Len extends 4\n ? \"uvec4\"\n : never\n : never;\n\ntype SwizzleSelectLen = S extends Swizzle1Select\n ? 1\n : S extends Swizzle2Select\n ? 2\n : S extends Swizzle3Select\n ? 3\n : S extends Swizzle4Select\n ? 4\n : never;\n\nfunction swizzleOutputType(\n type: A,\n swizzle: S,\n): SwizzleOutput> {\n let result = null;\n if (isFloatType(type)) {\n result =\n swizzle.length === 1\n ? \"float\"\n : swizzle.length === 2\n ? \"vec2\"\n : swizzle.length === 3\n ? \"vec3\"\n : swizzle.length === 4\n ? \"vec4\"\n : null;\n } else if (isIntType(type)) {\n result =\n swizzle.length === 1\n ? \"int\"\n : swizzle.length === 2\n ? \"ivec2\"\n : swizzle.length === 3\n ? \"ivec3\"\n : swizzle.length === 4\n ? \"ivec4\"\n : null;\n } else if (isUintType(type)) {\n result =\n swizzle.length === 1\n ? \"uint\"\n : swizzle.length === 2\n ? \"uvec2\"\n : swizzle.length === 3\n ? \"uvec3\"\n : swizzle.length === 4\n ? \"uvec4\"\n : null;\n }\n if (result == null) {\n throw new Error(`Invalid swizzle: ${swizzle}`);\n }\n return result as SwizzleOutput>;\n}\n\ntype Swizzle1Select = `${\"x\" | \"y\" | \"z\" | \"w\"}|${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype Swizzle2Select =\n | `${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}`\n | `${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype Swizzle3Select =\n | `${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}`\n | `${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype Swizzle4Select =\n | `${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}`\n | `${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype SwizzleSelect =\n | Swizzle1Select\n | Swizzle2Select\n | Swizzle3Select\n | Swizzle4Select;\n\nexport class Swizzle<\n A extends VectorTypes,\n S extends SwizzleSelect,\n> extends UnaryOp>, \"swizzle\"> {\n constructor({ vector, select }: { vector: DynoVal; select: S }) {\n super({\n a: vector,\n outKey: \"swizzle\",\n outTypeFunc: (aType) => swizzleOutputType(aType, select),\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.swizzle} = ${inputs.a}.${select};`,\n ];\n }\n}\n","import { Dyno, DynoBlock, unindent } from \"./base\";\nimport { float, vec2, vec3, vec4 } from \"./convert\";\nimport { mul } from \"./math\";\nimport { type ValueTypes, isIntType, isUintType, sameSizeUvec } from \"./types\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n dynoConst,\n valType,\n} from \"./value\";\nimport { combine } from \"./vecmat\";\n\nexport const remapIndex = (\n index: DynoVal<\"int\">,\n from: DynoVal<\"int\">,\n to: DynoVal<\"int\">,\n): DynoVal<\"int\"> => {\n return new DynoRemapIndex({ index, from, to });\n};\nexport const pcgMix = (\n value: DynoVal,\n): DynoVal<\"uint\"> => {\n return new PcgMix({ value });\n};\nexport const pcgNext = (state: DynoVal<\"uint\">): DynoVal<\"uint\"> => {\n return new PcgNext({ state });\n};\nexport const pcgHash = (state: DynoVal<\"uint\">): DynoVal<\"uint\"> => {\n return new PcgHash({ state });\n};\nexport const hash = (\n value: DynoVal,\n): DynoVal<\"uint\"> => {\n return new Hash({ value });\n};\nexport const hash2 = (\n value: DynoVal,\n): DynoVal<\"uvec2\"> => {\n return new Hash2({ value });\n};\nexport const hash3 = (\n value: DynoVal,\n): DynoVal<\"uvec3\"> => {\n return new Hash3({ value });\n};\nexport const hash4 = (\n value: DynoVal,\n): DynoVal<\"uvec4\"> => {\n return new Hash4({ value });\n};\nexport const hashFloat = (\n value: DynoVal,\n): DynoVal<\"float\"> => {\n return new HashFloat({ value });\n};\nexport const hashVec2 = (\n value: DynoVal,\n): DynoVal<\"vec2\"> => {\n return new HashVec2({ value });\n};\nexport const hashVec3 = (\n value: DynoVal,\n): DynoVal<\"vec3\"> => {\n return new HashVec3({ value });\n};\nexport const hashVec4 = (\n value: DynoVal,\n): DynoVal<\"vec4\"> => {\n return new HashVec4({ value });\n};\nexport const normalizedDepth = (\n z: DynoVal<\"float\">,\n zNear: DynoVal<\"float\">,\n zFar: DynoVal<\"float\">,\n): DynoVal<\"float\"> => {\n return new NormalizedDepth({ z, zNear, zFar }).outputs.depth;\n};\n\nexport const debugColorHue = (index: DynoVal<\"int\">): DynoVal<\"vec3\"> => {\n return new DebugColorHue({ index });\n};\n\nexport class DynoRemapIndex\n extends Dyno<{ from: \"int\"; to: \"int\"; index: \"int\" }, { index: \"int\" }>\n implements HasDynoOut<\"int\">\n{\n constructor({\n from,\n to,\n index,\n }: { from: DynoVal<\"int\">; to: DynoVal<\"int\">; index: DynoVal<\"int\"> }) {\n super({\n inTypes: { from: \"int\", to: \"int\", index: \"int\" },\n outTypes: { index: \"int\" },\n inputs: { from, to, index },\n statements: ({ inputs, outputs }) => {\n return [\n `${outputs.index} = ${inputs.index} - ${inputs.from} + ${inputs.to};`,\n ];\n },\n });\n }\n\n dynoOut(): DynoValue<\"int\"> {\n return new DynoOutput(this, \"index\");\n }\n}\n\nexport class PcgNext\n extends Dyno<{ state: T }, { state: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ state }: { state: DynoVal }) {\n const type = valType(state);\n super({\n inTypes: { state: type },\n outTypes: { state: \"uint\" },\n inputs: { state },\n globals: () => [\n unindent(`\n uint pcg_next(uint state) {\n return state * 747796405u + 2891336453u;\n }\n `),\n ],\n statements: ({ inputs, outputs }) => {\n const toUint =\n type === \"uint\"\n ? `${inputs.state}`\n : type === \"int\"\n ? `uint(${inputs.state})`\n : `floatBitsToUint(${inputs.state})`;\n return [`${outputs.state} = pcg_next(${toUint});`];\n },\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"state\");\n }\n}\n\nexport class PcgHash\n extends Dyno<{ state: \"uint\" }, { hash: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ state }: { state: DynoVal<\"uint\"> }) {\n super({\n inTypes: { state: \"uint\" },\n outTypes: { hash: \"uint\" },\n inputs: { state },\n globals: () => [\n unindent(`\n uint pcg_hash(uint state) {\n uint hash = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u;\n return (hash >> 22u) ^ hash;\n }\n `),\n ],\n statements: ({ inputs, outputs }) => [\n `${outputs.hash} = pcg_hash(${inputs.state});`,\n ],\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class PcgMix\n extends Dyno<{ value: T }, { state: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ value }: { value: DynoVal }) {\n const type = valType(value);\n const tempType = sameSizeUvec(type);\n super({\n inTypes: { value: type },\n outTypes: { state: \"uint\" },\n inputs: { value },\n globals: () => [\n unindent(`\n uint pcg_mix(uint value) {\n return value;\n }\n uint pcg_mix(uvec2 value) {\n return value.x + 0x9e3779b9u * value.y;\n }\n uint pcg_mix(uvec3 value) {\n return value.x + 0x9e3779b9u * value.y + 0x85ebca6bu * value.z;\n }\n uint pcg_mix(uvec4 value) {\n return value.x + 0x9e3779b9u * value.y + 0x85ebca6bu * value.z + 0xc2b2ae35u * value.w;\n }\n `),\n ],\n statements: ({ inputs, outputs }) => {\n const toUvec = isUintType(type)\n ? `${inputs.value}`\n : isIntType(type)\n ? `${tempType}(${inputs.value})`\n : `floatBitsToUint(${inputs.value})`;\n return [\n `${tempType} bits = ${toUvec};`,\n `${outputs.state} = pcg_mix(bits);`,\n ];\n },\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"state\");\n }\n}\n\nexport class Hash\n extends DynoBlock<{ value: T }, { hash: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uint\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n return new PcgHash({ state }).outputs;\n },\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class Hash2\n extends DynoBlock<{ value: T }, { hash: \"uvec2\" }>\n implements HasDynoOut<\"uvec2\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uvec2\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n const x = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const y = new PcgHash({ state }).outputs.hash;\n return { hash: combine({ vectorType: \"uvec2\", x, y }) };\n },\n });\n }\n dynoOut(): DynoValue<\"uvec2\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class Hash3\n extends DynoBlock<{ value: T }, { hash: \"uvec3\" }>\n implements HasDynoOut<\"uvec3\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uvec3\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n const x = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const y = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const z = new PcgHash({ state }).outputs.hash;\n return { hash: combine({ vectorType: \"uvec3\", x, y, z }) };\n },\n });\n }\n dynoOut(): DynoValue<\"uvec3\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class Hash4\n extends DynoBlock<{ value: T }, { hash: \"uvec4\" }>\n implements HasDynoOut<\"uvec4\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uvec4\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n const x = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const y = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const z = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const w = new PcgHash({ state }).outputs.hash;\n return { hash: combine({ vectorType: \"uvec4\", x, y, z, w }) };\n },\n });\n }\n dynoOut(): DynoValue<\"uvec4\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashFloat\n extends DynoBlock<{ value: T }, { hash: \"float\" }>\n implements HasDynoOut<\"float\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"float\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const word = hash(value);\n return { hash: mul(float(word), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"float\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashVec2\n extends DynoBlock<{ value: T }, { hash: \"vec2\" }>\n implements HasDynoOut<\"vec2\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"vec2\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const words = hash2(value);\n return { hash: mul(vec2(words), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"vec2\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashVec3\n extends DynoBlock<{ value: T }, { hash: \"vec3\" }>\n implements HasDynoOut<\"vec3\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"vec3\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const words = hash3(value);\n return { hash: mul(vec3(words), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"vec3\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashVec4\n extends DynoBlock<{ value: T }, { hash: \"vec4\" }>\n implements HasDynoOut<\"vec4\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"vec4\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const words = hash4(value);\n return { hash: mul(vec4(words), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"vec4\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class NormalizedDepth\n extends Dyno<\n { z: \"float\"; zNear: \"float\"; zFar: \"float\" },\n { depth: \"float\" }\n >\n implements HasDynoOut<\"float\">\n{\n constructor({\n z,\n zNear,\n zFar,\n }: { z: DynoVal<\"float\">; zNear: DynoVal<\"float\">; zFar: DynoVal<\"float\"> }) {\n super({\n inTypes: { z: \"float\", zNear: \"float\", zFar: \"float\" },\n outTypes: { depth: \"float\" },\n inputs: { z, zNear, zFar },\n statements: ({ inputs, outputs }) => [\n `float clamped = clamp(${inputs.z}, ${inputs.zNear}, ${inputs.zFar});`,\n `${outputs.depth} = (log2(clamped + 1.0) - log2(${inputs.zNear} + 1.0)) / (log2(${inputs.zFar} + 1.0) - log2(${inputs.zNear} + 1.0));`,\n ],\n });\n }\n\n dynoOut(): DynoValue<\"float\"> {\n return new DynoOutput(this, \"depth\");\n }\n}\n\nexport class DebugColorHue\n extends Dyno<{ index: \"int\" }, { color: \"vec3\" }>\n implements HasDynoOut<\"vec3\">\n{\n constructor({ index }: { index: DynoVal<\"int\"> }) {\n super({\n inTypes: { index: \"int\" },\n outTypes: { color: \"vec3\" },\n inputs: { index },\n statements: ({ inputs, outputs }) => [\n `${outputs.color} = debugColorHue(uint(${inputs.index}));`,\n ],\n });\n }\n\n dynoOut(): DynoValue<\"vec3\"> {\n return new DynoOutput(this, \"color\");\n }\n}\n","import { Dyno } from \"./base\";\nimport type { DynoVal } from \"./value\";\n\nexport const transformPos = (\n position: DynoVal<\"vec3\">,\n {\n scale,\n scales,\n rotate,\n translate,\n }: {\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n },\n): DynoVal<\"vec3\"> => {\n return new TransformPosition({ position, scale, scales, rotate, translate })\n .outputs.position;\n};\nexport const transformDir = (\n dir: DynoVal<\"vec3\">,\n {\n scale,\n scales,\n rotate,\n }: {\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n },\n): DynoVal<\"vec3\"> => {\n return new TransformDir({ dir, scale, scales, rotate }).outputs.dir;\n};\nexport const transformQuat = (\n quaternion: DynoVal<\"vec4\">,\n { rotate }: { rotate?: DynoVal<\"vec4\"> },\n): DynoVal<\"vec4\"> => {\n return new TransformQuaternion({ quaternion, rotate }).outputs.quaternion;\n};\n\nexport class TransformPosition extends Dyno<\n {\n position: \"vec3\";\n scale: \"float\";\n scales: \"vec3\";\n rotate: \"vec4\";\n translate: \"vec3\";\n },\n { position: \"vec3\" }\n> {\n constructor({\n position,\n scale,\n scales,\n rotate,\n translate,\n }: {\n position?: DynoVal<\"vec3\">;\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n }) {\n super({\n inTypes: {\n position: \"vec3\",\n scale: \"float\",\n scales: \"vec3\",\n rotate: \"vec4\",\n translate: \"vec3\",\n },\n outTypes: { position: \"vec3\" },\n inputs: { position, scale, scales, rotate, translate },\n statements: ({ inputs, outputs }) => {\n const { position } = outputs;\n if (!position) {\n return [];\n }\n const { scale, scales, rotate, translate } = inputs;\n return [\n `${position} = ${inputs.position ?? \"vec3(0.0, 0.0, 0.0)\"};`,\n !scale ? null : `${position} *= ${scale};`,\n !scales ? null : `${position} *= ${scales};`,\n !rotate ? null : `${position} = quatVec(${rotate}, ${position});`,\n !translate ? null : `${position} += ${translate};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class TransformDir extends Dyno<\n { dir: \"vec3\"; scale: \"float\"; scales: \"vec3\"; rotate: \"vec4\" },\n { dir: \"vec3\" }\n> {\n constructor({\n dir,\n scale,\n scales,\n rotate,\n }: {\n dir?: DynoVal<\"vec3\">;\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: { dir: \"vec3\", scale: \"float\", scales: \"vec3\", rotate: \"vec4\" },\n outTypes: { dir: \"vec3\" },\n inputs: { dir, scale, scales, rotate },\n statements: ({ inputs, outputs }) => {\n const { dir } = outputs;\n if (!dir) {\n return [];\n }\n const { scale, scales, rotate } = inputs;\n return [\n `${dir} = ${inputs.dir ?? \"vec3(0.0, 0.0, 0.0)\"};`,\n !scale ? null : `${dir} *= ${scale};`,\n !scales ? null : `${dir} *= ${scales};`,\n !rotate ? null : `${dir} = quatVec(${rotate}, ${dir});`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class TransformQuaternion extends Dyno<\n { quaternion: \"vec4\"; rotate: \"vec4\" },\n { quaternion: \"vec4\" }\n> {\n constructor({\n quaternion,\n rotate,\n }: { quaternion?: DynoVal<\"vec4\">; rotate?: DynoVal<\"vec4\"> }) {\n super({\n inTypes: { quaternion: \"vec4\", rotate: \"vec4\" },\n outTypes: { quaternion: \"vec4\" },\n inputs: { quaternion, rotate },\n statements: ({ inputs, outputs }) => {\n const { quaternion } = outputs;\n if (!quaternion) {\n return [];\n }\n return [\n `${quaternion} = ${inputs.quaternion ?? \"vec4(0.0, 0.0, 0.0, 1.0)\"};`,\n !rotate\n ? null\n : `${quaternion} = quatQuat(${inputs.rotate}, ${quaternion});`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n","// TODO:\n// if, switch, for, comment,\n// arrayIndex, arrayLength,\n\nexport const dynoIf = () => {\n throw new Error(\"Not implemented\");\n};\nexport const dynoSwitch = () => {\n throw new Error(\"Not implemented\");\n};\nexport const dynoFor = () => {\n throw new Error(\"Not implemented\");\n};\nexport const comment = () => {\n throw new Error(\"Not implemented\");\n};\nexport const arrayIndex = () => {\n throw new Error(\"Not implemented\");\n};\nexport const arrayLength = () => {\n throw new Error(\"Not implemented\");\n};\n","import { Dyno } from \"./base\";\nimport type {\n AllSamplerTypes,\n IsamplerTypes,\n NormalSamplerTypes,\n Sampler2DArrayTypes,\n Sampler2DTypes,\n Sampler3DTypes,\n SamplerCubeTypes,\n SamplerShadowTypes,\n SamplerTypes,\n UsamplerTypes,\n} from \"./types\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n valType,\n} from \"./value\";\n\nexport const textureSize = (\n texture: DynoVal,\n lod?: DynoVal<\"int\">,\n): DynoVal> => new TextureSize({ texture, lod });\nexport const texture = (\n texture: DynoVal,\n coord: DynoVal>,\n bias?: DynoVal<\"float\">,\n): DynoVal> => new Texture({ texture, coord, bias });\nexport const texelFetch = (\n texture: DynoVal,\n coord: DynoVal>,\n lod?: DynoVal<\"int\">,\n): DynoVal> => new TexelFetch({ texture, coord, lod });\n\nexport class TextureSize\n extends Dyno<{ texture: T; lod: \"int\" }, { size: TextureSizeType }>\n implements HasDynoOut>\n{\n constructor({ texture, lod }: { texture: DynoVal; lod?: DynoVal<\"int\"> }) {\n const textureType = valType(texture);\n super({\n inTypes: { texture: textureType, lod: \"int\" },\n outTypes: { size: textureSizeType(textureType) },\n inputs: { texture, lod },\n statements: ({ inputs, outputs }) => [\n `${outputs.size} = textureSize(${inputs.texture}, ${inputs.lod ?? \"0\"});`,\n ],\n });\n }\n\n dynoOut(): DynoValue> {\n return new DynoOutput(this, \"size\");\n }\n}\n\nexport class Texture\n extends Dyno<\n { texture: T; coord: TextureCoordType; bias: \"float\" },\n { sample: TextureReturnType }\n >\n implements HasDynoOut>\n{\n constructor({\n texture,\n coord,\n bias,\n }: {\n texture: DynoVal;\n coord: DynoVal>;\n bias?: DynoVal<\"float\">;\n }) {\n const textureType = valType(texture);\n super({\n inTypes: {\n texture: textureType,\n coord: textureCoordType(textureType),\n bias: \"float\",\n },\n outTypes: { sample: textureReturnType(textureType) },\n inputs: { texture, coord, bias },\n statements: ({ inputs, outputs }) => [\n `${outputs.sample} = texture(${inputs.texture}, ${inputs.coord}${inputs.bias ? `, ${inputs.bias}` : \"\"});`,\n ],\n });\n }\n\n dynoOut(): DynoValue> {\n return new DynoOutput(this, \"sample\");\n }\n}\n\nexport class TexelFetch\n extends Dyno<\n { texture: T; coord: TextureSizeType; lod: \"int\" },\n { texel: TextureReturnType }\n >\n implements HasDynoOut>\n{\n constructor({\n texture,\n coord,\n lod,\n }: {\n texture: DynoVal;\n coord: DynoVal>;\n lod?: DynoVal<\"int\">;\n }) {\n const textureType = valType(texture);\n super({\n inTypes: {\n texture: textureType,\n coord: textureSizeType(textureType),\n lod: \"int\",\n },\n outTypes: { texel: textureReturnType(textureType) },\n inputs: { texture, coord, lod },\n statements: ({ inputs, outputs }) => [\n `${outputs.texel} = texelFetch(${inputs.texture}, ${inputs.coord}, ${inputs.lod ?? \"0\"});`,\n ],\n });\n }\n\n dynoOut(): DynoValue> {\n return new DynoOutput(this, \"texel\");\n }\n}\n\ntype TextureSizeType = T extends\n | Sampler2DTypes\n | SamplerCubeTypes\n ? \"ivec2\"\n : T extends Sampler3DTypes | Sampler2DArrayTypes\n ? \"ivec3\"\n : never;\n\nfunction textureSizeType(\n textureType: T,\n): TextureSizeType {\n switch (textureType) {\n case \"sampler2D\":\n case \"usampler2D\":\n case \"isampler2D\":\n case \"samplerCube\":\n case \"usamplerCube\":\n case \"isamplerCube\":\n case \"sampler2DShadow\":\n case \"samplerCubeShadow\":\n return \"ivec2\" as TextureSizeType;\n case \"sampler3D\":\n case \"usampler3D\":\n case \"isampler3D\":\n case \"sampler2DArray\":\n case \"usampler2DArray\":\n case \"isampler2DArray\":\n case \"sampler2DArrayShadow\":\n return \"ivec3\" as TextureSizeType;\n default:\n throw new Error(`Invalid texture type: ${textureType}`);\n }\n}\n\ntype TextureCoordType = T extends Sampler2DTypes\n ? \"vec2\"\n : T extends\n | Sampler3DTypes\n | Sampler2DArrayTypes\n | SamplerCubeTypes\n | Sampler2DArrayTypes\n ? \"vec3\"\n : T extends \"samperCubeShadow\" | \"sampler2DArrayShadow\"\n ? \"vec4\"\n : never;\n\nfunction textureCoordType(\n textureType: T,\n): TextureCoordType {\n switch (textureType) {\n case \"sampler2D\":\n case \"usampler2D\":\n case \"isampler2D\":\n return \"vec2\" as TextureCoordType;\n case \"sampler3D\":\n case \"usampler3D\":\n case \"isampler3D\":\n case \"samplerCube\":\n case \"usamplerCube\":\n case \"isamplerCube\":\n case \"sampler2DArray\":\n case \"usampler2DArray\":\n case \"isampler2DArray\":\n case \"sampler2DShadow\":\n return \"vec3\" as TextureCoordType;\n case \"samplerCubeShadow\":\n case \"sampler2DArrayShadow\":\n return \"vec4\" as TextureCoordType;\n default:\n throw new Error(`Invalid texture type: ${textureType}`);\n }\n}\n\ntype TextureReturnType = T extends SamplerTypes\n ? \"vec4\"\n : T extends UsamplerTypes\n ? \"uvec4\"\n : T extends IsamplerTypes\n ? \"ivec4\"\n : T extends SamplerShadowTypes\n ? \"float\"\n : never;\n\nfunction textureReturnType(\n textureType: T,\n): TextureReturnType {\n switch (textureType) {\n case \"sampler2D\":\n case \"sampler2DArray\":\n case \"sampler3D\":\n case \"samplerCube\":\n case \"sampler2DShadow\":\n return \"vec4\" as TextureReturnType;\n case \"usampler2D\":\n case \"usampler2DArray\":\n case \"usampler3D\":\n case \"usamplerCube\":\n return \"uvec4\" as TextureReturnType;\n case \"isampler2D\":\n case \"isampler2DArray\":\n case \"isampler3D\":\n case \"isamplerCube\":\n return \"ivec4\" as TextureReturnType;\n case \"samplerCubeShadow\":\n case \"sampler2DArrayShadow\":\n return \"float\" as TextureReturnType;\n default:\n throw new Error(`Invalid texture type: ${textureType}`);\n }\n}\n","import { BinaryOp, UnaryOp } from \"./base\";\nimport type { FloatTypes } from \"./types\";\nimport type { DynoVal } from \"./value\";\n\nexport const radians = (\n degrees: DynoVal,\n): DynoVal => new Radians({ degrees });\nexport const degrees = (\n radians: DynoVal,\n): DynoVal => new Degrees({ radians });\n\nexport const sin = (radians: DynoVal): DynoVal =>\n new Sin({ radians });\nexport const cos = (radians: DynoVal): DynoVal =>\n new Cos({ radians });\nexport const tan = (radians: DynoVal): DynoVal =>\n new Tan({ radians });\n\nexport const asin = (sin: DynoVal): DynoVal =>\n new Asin({ sin });\nexport const acos = (cos: DynoVal): DynoVal =>\n new Acos({ cos });\nexport const atan = (tan: DynoVal): DynoVal =>\n new Atan({ tan });\nexport const atan2 = (\n y: DynoVal,\n x: DynoVal,\n): DynoVal => new Atan2({ y, x });\n\nexport const sinh = (x: DynoVal): DynoVal =>\n new Sinh({ x });\nexport const cosh = (x: DynoVal): DynoVal =>\n new Cosh({ x });\nexport const tanh = (x: DynoVal): DynoVal =>\n new Tanh({ x });\n\nexport const asinh = (x: DynoVal): DynoVal =>\n new Asinh({ x });\nexport const acosh = (x: DynoVal): DynoVal =>\n new Acosh({ x });\nexport const atanh = (x: DynoVal): DynoVal =>\n new Atanh({ x });\n\nexport class Radians extends UnaryOp {\n constructor({ degrees }: { degrees: DynoVal }) {\n super({ a: degrees, outTypeFunc: (aType) => aType, outKey: \"radians\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.radians} = radians(${inputs.a});`,\n ];\n }\n}\n\nexport class Degrees extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"degrees\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.degrees} = degrees(${inputs.a});`,\n ];\n }\n}\n\nexport class Sin extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"sin\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.sin} = sin(${inputs.a});`,\n ];\n }\n}\n\nexport class Cos extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"cos\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.cos} = cos(${inputs.a});`,\n ];\n }\n}\n\nexport class Tan extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"tan\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.tan} = tan(${inputs.a});`,\n ];\n }\n}\n\nexport class Asin extends UnaryOp {\n constructor({ sin }: { sin: DynoVal }) {\n super({ a: sin, outTypeFunc: (aType) => aType, outKey: \"asin\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.asin} = asin(${inputs.a});`,\n ];\n }\n}\n\nexport class Acos extends UnaryOp {\n constructor({ cos }: { cos: DynoVal }) {\n super({ a: cos, outTypeFunc: (aType) => aType, outKey: \"acos\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.acos} = acos(${inputs.a});`,\n ];\n }\n}\n\nexport class Atan extends UnaryOp {\n constructor({ tan }: { tan: DynoVal }) {\n super({ a: tan, outTypeFunc: (aType) => aType, outKey: \"atan\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.atan} = atan(${inputs.a});`,\n ];\n }\n}\n\nexport class Atan2 extends BinaryOp {\n constructor({ y, x }: { y: DynoVal; x: DynoVal }) {\n super({\n a: y,\n b: x,\n outTypeFunc: (aType, bType) => aType,\n outKey: \"atan2\",\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.atan2} = atan2(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Sinh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"sinh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.sinh} = sinh(${inputs.a});`,\n ];\n }\n}\n\nexport class Cosh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"cosh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.cosh} = cosh(${inputs.a});`,\n ];\n }\n}\n\nexport class Tanh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"tanh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.tanh} = tanh(${inputs.a});`,\n ];\n }\n}\n\nexport class Asinh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"asinh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.asinh} = asinh(${inputs.a});`,\n ];\n }\n}\n\nexport class Acosh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"acosh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.acosh} = acosh(${inputs.a});`,\n ];\n }\n}\n\nexport class Atanh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"atanh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.atanh} = atanh(${inputs.a});`,\n ];\n }\n}\n","import * as THREE from \"three\";\nimport type { RgbaArray } from \"./RgbaArray\";\nimport { SplatLoader } from \"./SplatLoader\";\nimport type { SplatSource } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport { SPLAT_TEX_WIDTH, type SplatFileType } from \"./defines\";\nimport {\n Dyno,\n DynoInt,\n type DynoType,\n DynoUniform,\n DynoUsampler2DArray,\n type DynoVal,\n type Gsplat,\n TExtSplats,\n add,\n combineGsplat,\n defineExtSplats,\n normalize,\n readExtSplat,\n splatTexCoord,\n splitGsplat,\n sub,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { decodeExtSplat, encodeExtSplat, getTextureSize } from \"./utils\";\n\nexport type ExtSplatsOptions = {\n // URL to fetch a Gaussian splat file from (supports .ply, .splat, .ksplat,\n // .spz formats). (default: undefined)\n url?: string;\n // Raw bytes of a Gaussian splat file to decode directly instead of fetching\n // from URL. (default: undefined)\n fileBytes?: Uint8Array | ArrayBuffer;\n // Override the file type detection for formats that can't be reliably\n // auto-detected (.splat, .ksplat). (default: undefined auto-detects other\n // formats from file contents)\n fileType?: SplatFileType;\n // File name to use for type detection. (default: undefined)\n fileName?: string;\n // Stream to read the Gaussian splat file from. (default: undefined)\n stream?: ReadableStream;\n // Length of the stream in bytes. (default: undefined)\n streamLength?: number;\n // Reserve space for at least this many splats when constructing the collection\n // initially. The array will automatically resize past maxSplats so setting it is\n // an optional optimization. (default: 0)\n maxSplats?: number;\n // Use provided pair of uint32 arrays, where blocks of 4 uint32s in each,\n // encode an \"extended packed\" Gsplat. (default: undefined)\n extArrays?: [Uint32Array, Uint32Array];\n // Override number of splats in packed arrays to use only a subset.\n // (default: length of packed array / 4)\n numSplats?: number;\n // Callback function to programmatically create splats at initialization.\n // (default: undefined)\n construct?: (splats: ExtSplats) => Promise | void;\n // Callback function called while downloading and initializing (default: undefined)\n onProgress?: (event: ProgressEvent) => void;\n // Additional splat data, such as spherical harmonics components (sh1, sh2, sh3). (default: {})\n extra?: Record;\n // Enable LOD. If a number is provided, it will be used as LoD level base,\n // otherwise the default 1.5 is used. When loading a file without pre-computed\n // LoD it will use the \"quick lod\" algorithm to generate one on-the-fly with\n // the selected LoD level base. (default: undefined=false)\n lod?: boolean | \"quality\";\n // Keep the original PackedSplats data before creating LoD version. (default: false)\n nonLod?: boolean;\n // Only create LoD if the input splat acount is above this\n lodAbove?: number;\n // The LoD version of the ExtSplats\n lodSplats?: ExtSplats;\n};\n\nexport class ExtSplats implements SplatSource {\n maxSplats = 0;\n numSplats = 0;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record = {};\n maxSh = 3;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodSplats?: ExtSplats;\n\n initialized: Promise;\n isInitialized = false;\n\n textures: [THREE.DataArrayTexture, THREE.DataArrayTexture];\n\n // A PackedSplats can be used in a dyno graph using the below property dyno:\n // const gsplat = dyno.readPackedSplats(this.dyno, dynoIndex);\n dyno: DynoUniform;\n dynoNumSh: DynoInt<\"numSh\">;\n\n constructor(options: ExtSplatsOptions = {}) {\n this.extArrays = [new Uint32Array(0), new Uint32Array(0)];\n this.textures = [ExtSplats.emptyTexture, ExtSplats.emptyTexture];\n\n this.extra = {};\n this.dyno = new DynoExtSplats({ extSplats: this });\n this.dynoNumSh = new DynoInt({\n key: \"numSh\",\n value: 0,\n update: () => {\n return Math.min(this.getNumSh(), this.maxSh);\n },\n });\n\n // The following line will be overridden by reinitialize()\n this.initialized = Promise.resolve(this);\n this.reinitialize(options);\n }\n\n reinitialize(options: ExtSplatsOptions) {\n this.isInitialized = false;\n\n this.extra = {};\n this.maxSplats = options.maxSplats ?? 0;\n this.lod = options.lod;\n this.nonLod = options.nonLod;\n\n if (\n options.url ||\n options.fileBytes ||\n options.stream ||\n options.construct\n ) {\n // We need to initialize asynchronously given the options\n this.initialized = this.asyncInitialize(options).then(() => {\n this.isInitialized = true;\n return this;\n });\n } else {\n this.initialize(options);\n this.isInitialized = true;\n this.initialized = Promise.resolve(this);\n }\n }\n\n initialize(options: ExtSplatsOptions) {\n this.extra = options.extra ?? {};\n this.lodSplats = options.lodSplats;\n\n if (options.extArrays) {\n this.extArrays = options.extArrays;\n this.maxSplats = Math.floor(\n Math.min(this.extArrays[0].length / 4, this.extArrays[1].length / 4),\n );\n this.numSplats = options.numSplats ?? this.maxSplats;\n\n // Calculate number of horizontal texture rows that could fit in array.\n // A properly initialized packedArray should already take into account the\n // width and height of the texture and be rounded up with padding.\n this.maxSplats =\n Math.floor(this.maxSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n this.numSplats = Math.min(\n this.maxSplats,\n options.numSplats ?? Number.POSITIVE_INFINITY,\n );\n this.updateTextures();\n } else {\n this.maxSplats = options.maxSplats ?? 0;\n this.numSplats = 0;\n this.extArrays = [new Uint32Array(0), new Uint32Array(0)];\n }\n }\n\n async asyncInitialize(options: ExtSplatsOptions) {\n const {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n construct,\n lod,\n nonLod,\n lodAbove,\n } = options;\n this.lod = lod;\n this.nonLod = nonLod;\n\n const loader = new SplatLoader();\n if (fileBytes || url || stream) {\n await loader.loadInternalAsync({\n extSplats: this,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress: options.onProgress,\n lodAbove,\n });\n }\n\n if (construct) {\n const maybePromise = construct(this);\n // If construct returns a promise, wait for it to complete\n if (maybePromise instanceof Promise) {\n await maybePromise;\n }\n }\n }\n\n // Call this when you are finished with the PackedSplats and want to free\n // any buffers it holds.\n dispose() {\n if (this.textures[0] !== ExtSplats.emptyTexture) {\n this.textures[0].dispose();\n this.textures[0].source.data = null;\n this.textures[0] = ExtSplats.emptyTexture;\n }\n if (this.textures[1] !== ExtSplats.emptyTexture) {\n this.textures[1].dispose();\n this.textures[1].source.data = null;\n this.textures[1] = ExtSplats.emptyTexture;\n }\n\n this.extArrays = [new Uint32Array(0), new Uint32Array(0)];\n\n for (const key in this.extra) {\n const dyno = this.extra[key] as DynoUniform<\n DynoType,\n string,\n THREE.Texture\n >;\n if (dyno instanceof DynoUniform) {\n const texture = dyno.value;\n if (texture?.isTexture) {\n texture.dispose();\n texture.source.data = null;\n }\n }\n }\n this.extra = {};\n\n this.disposeLodSplats();\n }\n\n prepareFetchSplat() {\n // console.info(\"ExtSplats.prepareFetchSplat\");\n }\n\n getNumSplats(): number {\n return this.numSplats;\n }\n\n hasRgbDir(): boolean {\n return Math.min(this.getNumSh(), this.maxSh) > 0;\n }\n\n getNumSh(): number {\n return !this.extra.sh1\n ? 0\n : !this.extra.sh2\n ? 1\n : !this.extra.sh3a || !this.extra.sh3b\n ? 2\n : 3;\n }\n\n setMaxSh(maxSh: number) {\n this.maxSh = maxSh;\n }\n\n fetchSplat({\n index,\n viewOrigin,\n }: { index: DynoVal<\"int\">; viewOrigin?: DynoVal<\"vec3\"> }): DynoVal<\n typeof Gsplat\n > {\n let gsplat = readExtSplat(this.dyno, index);\n\n if (this.hasRgbDir() && viewOrigin) {\n const splatCenter = splitGsplat(gsplat).outputs.center;\n const viewDir = normalize(sub(splatCenter, viewOrigin));\n const { sh1Texture, sh2Texture, sh3TextureA, sh3TextureB } =\n this.ensureShTextures();\n let { rgb } = evaluateExtSH({\n coord: splatTexCoord(index),\n viewDir,\n numSh: this.dynoNumSh,\n sh1Texture,\n sh2Texture,\n sh3TextureA,\n sh3TextureB,\n });\n rgb = add(rgb, splitGsplat(gsplat).outputs.rgb);\n gsplat = combineGsplat({ gsplat, rgb });\n }\n return gsplat;\n }\n\n private ensureShTextures(): {\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3TextureA?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n sh3TextureB?: DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>;\n } {\n // Ensure we have textures for SH1..SH3 if we have data\n if (!this.extra.sh1) {\n return {};\n }\n\n let sh1Texture = this.extra.sh1Texture as\n | DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>\n | undefined;\n if (!sh1Texture) {\n let sh1 = this.extra.sh1 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh1.length / 4,\n );\n if (sh1.length < maxSplats * 4) {\n const newSh1 = new Uint32Array(maxSplats * 4);\n newSh1.set(sh1);\n this.extra.sh1 = newSh1;\n sh1 = newSh1;\n }\n const texture = newUint32ArrayTexture(\n sh1,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh1Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh1\",\n });\n this.extra.sh1Texture = sh1Texture;\n }\n\n if (!this.extra.sh2) {\n return { sh1Texture };\n }\n\n let sh2Texture = this.extra.sh2Texture as\n | DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>\n | undefined;\n if (!sh2Texture) {\n let sh2 = this.extra.sh2 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh2.length / 4,\n );\n if (sh2.length < maxSplats * 4) {\n const newSh2 = new Uint32Array(maxSplats * 4);\n newSh2.set(sh2);\n this.extra.sh2 = newSh2;\n sh2 = newSh2;\n }\n\n const texture = newUint32ArrayTexture(\n sh2,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh2Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh2\",\n });\n this.extra.sh2Texture = sh2Texture;\n }\n\n if (!this.extra.sh3a || !this.extra.sh3b) {\n return { sh1Texture, sh2Texture };\n }\n\n let sh3TextureA = this.extra.sh3TextureA as\n | DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>\n | undefined;\n if (!sh3TextureA) {\n let sh3a = this.extra.sh3a as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh3a.length / 4,\n );\n if (sh3a.length < maxSplats * 4) {\n const newSh3 = new Uint32Array(maxSplats * 4);\n newSh3.set(sh3a);\n this.extra.sh3a = newSh3;\n sh3a = newSh3;\n }\n\n const texture = newUint32ArrayTexture(\n sh3a,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh3TextureA = new DynoUsampler2DArray({\n value: texture,\n key: \"sh3\",\n });\n this.extra.sh3TextureA = sh3TextureA;\n }\n\n let sh3TextureB = this.extra.sh3TextureB as\n | DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>\n | undefined;\n if (!sh3TextureB) {\n let sh3b = this.extra.sh3b as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh3b.length / 4,\n );\n if (sh3b.length < maxSplats * 4) {\n const newSh3b = new Uint32Array(maxSplats * 4);\n newSh3b.set(sh3b);\n this.extra.sh3b = newSh3b;\n sh3b = newSh3b;\n }\n\n const texture = newUint32ArrayTexture(\n sh3b,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh3TextureB = new DynoUsampler2DArray({\n value: texture,\n key: \"sh3b\",\n });\n this.extra.sh3TextureB = sh3TextureB;\n }\n\n return { sh1Texture, sh2Texture, sh3TextureA, sh3TextureB };\n }\n\n // Ensures that this.extArrays can fit numSplats Gsplats. If it's too small,\n // resize exponentially and copy over the original data.\n //\n // Typically you don't need to call this, because calling this.setSplat(index, ...)\n // and this.pushSplat(...) will automatically call ensureSplats() so we have\n // enough splats.\n ensureSplats(numSplats: number): [Uint32Array, Uint32Array] {\n const targetSize =\n numSplats <= this.maxSplats\n ? this.maxSplats\n : // Grow exponentially to avoid frequent reallocations\n Math.max(numSplats, 2 * this.maxSplats);\n const currentSize = !this.extArrays[0] ? 0 : this.extArrays[0].length / 4;\n\n if (!this.extArrays[0] || targetSize > currentSize) {\n this.maxSplats = getTextureSize(targetSize).maxSplats;\n const newArray0 = new Uint32Array(this.maxSplats * 4);\n const newArray1 = new Uint32Array(this.maxSplats * 4);\n if (this.extArrays[0]) {\n // Copy over existing data\n newArray0.set(this.extArrays[0]);\n newArray1.set(this.extArrays[1]);\n }\n this.extArrays[0] = newArray0;\n this.extArrays[1] = newArray1;\n }\n return this.extArrays;\n }\n\n // Unpack the 16-byte Gsplat data at index into the Three.js components\n // center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion,\n // opacity: number 0..1, color: THREE.Color 0..1.\n getSplat(index: number): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n opacity: number;\n color: THREE.Color;\n } {\n if (index >= this.numSplats) {\n throw new Error(\"Invalid index\");\n }\n return decodeExtSplat(this.extArrays, index);\n }\n\n // Set all ExtSplat components at index with the provided Gsplat attributes\n // (can be the same objects returned by getSplat). Ensures there is capacity\n // for at least index+1 Gsplats.\n setSplat(\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const extArrays = this.ensureSplats(index + 1);\n encodeExtSplat(\n extArrays,\n index,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n this.numSplats = Math.max(this.numSplats, index + 1);\n }\n\n // Effectively calls this.setSplat(this.numSplats++, center, ...), useful on\n // construction where you just want to iterate and create a collection of Gsplats.\n pushSplat(\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const extArrays = this.ensureSplats(this.numSplats + 1);\n encodeExtSplat(\n extArrays,\n this.numSplats,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n ++this.numSplats;\n }\n\n // Iterate over Gsplats index 0..=(this.numSplats-1), unpack each Gsplat\n // and invoke the callback function with the Gsplat attributes.\n forEachSplat(\n callback: (\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => void,\n ) {\n if (!this.numSplats) {\n return;\n }\n for (let i = 0; i < this.numSplats; ++i) {\n const unpacked = decodeExtSplat(this.extArrays, i);\n callback(\n i,\n unpacked.center,\n unpacked.scales,\n unpacked.quaternion,\n unpacked.opacity,\n unpacked.color,\n );\n }\n }\n\n // Check if source texture needs to be created/updated\n private updateTextures() {\n if (this.textures[0] !== ExtSplats.emptyTexture) {\n const { width, height, depth } = this.textures[0].image;\n if (this.maxSplats !== width * height * depth) {\n // The existing source texture isn't the right size, so dispose it\n this.textures[0].dispose();\n this.textures[0] = ExtSplats.emptyTexture;\n this.textures[1].dispose();\n this.textures[1] = ExtSplats.emptyTexture;\n }\n }\n if (this.textures[0] === ExtSplats.emptyTexture) {\n // Allocate a new source texture of the right size\n const { width, height, depth } = getTextureSize(this.maxSplats);\n this.textures[0] = newUint32ArrayTexture(\n this.extArrays[0],\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n this.textures[1] = newUint32ArrayTexture(\n this.extArrays[1],\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n } else if (\n this.extArrays[0].buffer !== this.textures[0].image.data.buffer\n ) {\n this.textures[0].image.data = new Uint8Array(this.extArrays[0].buffer);\n this.textures[1].image.data = new Uint8Array(this.extArrays[1].buffer);\n // Indicate to Three.js that the source textures needs to be uploaded to the GPU\n this.textures[0].needsUpdate = true;\n this.textures[1].needsUpdate = true;\n }\n }\n\n extractSplats(indices: Uint32Array, pageColoring: boolean) {\n const maxSplats = getTextureSize(indices.length).maxSplats;\n const newSplats = new ExtSplats({ maxSplats });\n for (let i = 0; i < indices.length; i++) {\n const splat = this.getSplat(indices[i]);\n if (pageColoring) {\n let hue = (indices[i] >>> 16) * 0.61803398875;\n hue = hue - Math.floor(hue);\n const r = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 3.0) - 1.0));\n const g = Math.max(0, Math.min(1, Math.abs(hue * 6.0 + 1.0) - 1.0));\n const b = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 1.0) - 1.0));\n splat.color.r *= r;\n splat.color.g *= g;\n splat.color.b *= b;\n }\n newSplats.pushSplat(\n splat.center,\n splat.scales,\n splat.quaternion,\n splat.opacity,\n splat.color,\n );\n }\n return newSplats;\n }\n\n static emptyArray = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyTexture = newUint32ArrayTexture(\n null,\n 1,\n 1,\n 1,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n\n disposeLodSplats() {\n if (this.lodSplats) {\n this.lodSplats.dispose();\n this.lodSplats = undefined;\n }\n }\n\n async createLodSplats({\n rgbaArray,\n quality,\n }: { rgbaArray?: RgbaArray; quality?: boolean } = {}) {\n const lodBase =\n typeof this.lod === \"number\"\n ? Math.max(1.1, Math.min(2.0, this.lod))\n : quality\n ? 1.75\n : 1.5;\n const extArrays = [this.extArrays[0].slice(), this.extArrays[1].slice()];\n const rgba = rgbaArray ? (await rgbaArray.getArray()).slice() : undefined;\n const extra = {\n sh1: this.extra.sh1 ? (this.extra.sh1 as Uint32Array).slice() : undefined,\n sh2: this.extra.sh2 ? (this.extra.sh2 as Uint32Array).slice() : undefined,\n sh3: this.extra.sh3 ? (this.extra.sh3 as Uint32Array).slice() : undefined,\n };\n const decoded = await workerPool.withWorker(async (worker) => {\n return (await worker.call(\n quality ? \"qualityLodExtSplats\" : \"tinyLodExtSplats\",\n {\n numSplats: this.numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n },\n )) as {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record;\n };\n });\n\n const lodSplats = new ExtSplats(decoded);\n if (this.lodSplats) {\n this.lodSplats.dispose();\n }\n\n this.lodSplats = lodSplats;\n this.nonLod = true;\n this.lod = quality ? \"quality\" : true;\n }\n\n static emptyUint32x4 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n}\n\nexport const dynoExtSplats = (extSplats?: ExtSplats) =>\n new DynoExtSplats({ extSplats });\n\nexport class DynoExtSplats extends DynoUniform<\n typeof TExtSplats,\n \"extSplats\",\n {\n textureArray1: THREE.DataArrayTexture;\n textureArray2: THREE.DataArrayTexture;\n numSplats: number;\n }\n> {\n extSplats?: ExtSplats;\n\n constructor({ extSplats }: { extSplats?: ExtSplats } = {}) {\n super({\n key: \"extSplats\",\n type: TExtSplats,\n globals: () => [defineExtSplats],\n value: {\n textureArray1: ExtSplats.emptyTexture,\n textureArray2: ExtSplats.emptyTexture,\n numSplats: 0,\n },\n update: (value) => {\n value.textureArray1 =\n this.extSplats?.textures[0] ?? ExtSplats.emptyTexture;\n value.textureArray2 =\n this.extSplats?.textures[1] ?? ExtSplats.emptyTexture;\n value.numSplats = this.extSplats?.numSplats ?? 0;\n return value;\n },\n });\n this.extSplats = extSplats;\n }\n}\n\nexport const defineEvaluateExtSH1 = unindent(`\n vec3 evaluateExtSH1(uvec4 packed, vec3 viewDir) {\n vec3 sh1_0 = decodeExtRgb(packed.x);\n vec3 sh1_1 = decodeExtRgb(packed.y);\n vec3 sh1_2 = decodeExtRgb(packed.z);\n\n return sh1_0 * (-0.4886025 * viewDir.y)\n + sh1_1 * (0.4886025 * viewDir.z)\n + sh1_2 * (-0.4886025 * viewDir.x);\n }\n`);\n\nexport const defineEvaluateExtSH12 = unindent(`\n vec3 evaluateExtSH12(uvec4 packed1, uvec4 packed2, vec3 viewDir) {\n vec3 sh1_0 = decodeExtRgb(packed1.x);\n vec3 sh1_1 = decodeExtRgb(packed1.y);\n vec3 sh1_2 = decodeExtRgb(packed1.z);\n\n vec3 sh2_0 = decodeExtRgb(packed1.w);\n vec3 sh2_1 = decodeExtRgb(packed2.x);\n vec3 sh2_2 = decodeExtRgb(packed2.y);\n vec3 sh2_3 = decodeExtRgb(packed2.z);\n vec3 sh2_4 = decodeExtRgb(packed2.w);\n\n vec3 sh1Rgb = sh1_0 * (-0.4886025 * viewDir.y)\n + sh1_1 * (0.4886025 * viewDir.z)\n + sh1_2 * (-0.4886025 * viewDir.x);\n\n vec3 sh2Rgb = sh2_0 * (1.0925484 * viewDir.x * viewDir.y)\n + sh2_1 * (-1.0925484 * viewDir.y * viewDir.z)\n + sh2_2 * (0.3153915 * (2.0 * viewDir.z * viewDir.z - viewDir.x * viewDir.x - viewDir.y * viewDir.y))\n + sh2_3 * (-1.0925484 * viewDir.x * viewDir.z)\n + sh2_4 * (0.5462742 * (viewDir.x * viewDir.x - viewDir.y * viewDir.y));\n\n return sh1Rgb + sh2Rgb;\n }\n`);\n\nexport const defineEvaluateExtSH3 = unindent(`\n vec3 evaluateExtSH3(uvec4 packedA, uvec4 packedB, vec3 viewDir) {\n vec3 sh3_0 = decodeExtRgb(packedA.x);\n vec3 sh3_1 = decodeExtRgb(packedA.y);\n vec3 sh3_2 = decodeExtRgb(packedA.z);\n vec3 sh3_3 = decodeExtRgb(packedA.w);\n vec3 sh3_4 = decodeExtRgb(packedB.x);\n vec3 sh3_5 = decodeExtRgb(packedB.y);\n vec3 sh3_6 = decodeExtRgb(packedB.z);\n\n float xx = viewDir.x * viewDir.x;\n float yy = viewDir.y * viewDir.y;\n float zz = viewDir.z * viewDir.z;\n float xy = viewDir.x * viewDir.y;\n float yz = viewDir.y * viewDir.z;\n float zx = viewDir.z * viewDir.x;\n\n return sh3_0 * (-0.5900436 * viewDir.y * (3.0 * xx - yy))\n + sh3_1 * (2.8906114 * xy * viewDir.z) +\n + sh3_2 * (-0.4570458 * viewDir.y * (4.0 * zz - xx - yy))\n + sh3_3 * (0.3731763 * viewDir.z * (2.0 * zz - 3.0 * xx - 3.0 * yy))\n + sh3_4 * (-0.4570458 * viewDir.x * (4.0 * zz - xx - yy))\n + sh3_5 * (1.4453057 * viewDir.z * (xx - yy))\n + sh3_6 * (-0.5900436 * viewDir.x * (xx - 3.0 * yy));\n }\n`);\n\nexport function evaluateExtSH({\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3TextureA,\n sh3TextureB,\n}: {\n coord: DynoVal<\"ivec3\">;\n viewDir: DynoVal<\"vec3\">;\n numSh: DynoVal<\"int\">;\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3TextureA?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n sh3TextureB?: DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>;\n}) {\n return new Dyno({\n inTypes: {\n coord: \"ivec3\",\n viewDir: \"vec3\",\n numSh: \"int\",\n sh1Texture: \"usampler2DArray\",\n sh2Texture: \"usampler2DArray\",\n sh3TextureA: \"usampler2DArray\",\n sh3TextureB: \"usampler2DArray\",\n },\n outTypes: { rgb: \"vec3\" },\n inputs: {\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3TextureA,\n sh3TextureB,\n },\n globals: () => [\n defineEvaluateExtSH1,\n defineEvaluateExtSH12,\n defineEvaluateExtSH3,\n ],\n statements: ({ inputs, outputs }) => {\n const lines = [\"vec3 rgb = vec3(0.0);\"];\n if (inputs.sh1Texture) {\n if (!inputs.sh2Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 1) {\n rgb = evaluateExtSH1(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0), ${inputs.viewDir});\n }\n `),\n );\n } else {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} == 1) {\n rgb = evaluateExtSH1(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0), ${inputs.viewDir});\n } else if (${inputs.numSh} >= 2) {\n rgb = evaluateExtSH12(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0), texelFetch(${inputs.sh2Texture}, ${inputs.coord}, 0), ${inputs.viewDir});\n `),\n );\n\n if (inputs.sh3TextureA && inputs.sh3TextureB) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 3) {\n rgb += evaluateExtSH3(texelFetch(${inputs.sh3TextureA}, ${inputs.coord}, 0), texelFetch(${inputs.sh3TextureB}, ${inputs.coord}, 0), ${inputs.viewDir});\n }\n `),\n );\n }\n\n lines.push(\"}\");\n }\n }\n lines.push(`${outputs.rgb} = rgb;`);\n return lines;\n },\n }).outputs;\n}\n\nfunction newUint32ArrayTexture(\n data: Uint32Array | null,\n width: number,\n height: number,\n depth: number,\n format: THREE.AnyPixelFormat,\n type: THREE.TextureDataType,\n internalFormat: THREE.PixelFormatGPU,\n): THREE.DataArrayTexture {\n const texture = new THREE.DataArrayTexture(\n data as Uint32Array,\n width,\n height,\n depth,\n );\n texture.format = format;\n texture.type = type;\n texture.internalFormat = internalFormat;\n texture.needsUpdate = true;\n return texture;\n}\n","/* @ts-self-types=\"./spark_rs.d.ts\" */\n\n/**\n * @param {Uint8Array} bytes\n * @returns {any}\n */\nexport function decode_rad_header(bytes) {\n const ret = wasm.decode_rad_header(bytes);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @returns {Uint32Array}\n */\nexport function get_raycast_buffer() {\n const ret = wasm.get_raycast_buffer();\n return ret;\n}\n\n/**\n * @returns {Uint32Array}\n */\nexport function get_raycast_buffer2() {\n const ret = wasm.get_raycast_buffer2();\n return ret;\n}\n\n/**\n * @param {number} origin_x\n * @param {number} origin_y\n * @param {number} origin_z\n * @param {number} dir_x\n * @param {number} dir_y\n * @param {number} dir_z\n * @param {number} min_opacity\n * @param {number} near\n * @param {number} far\n * @param {number} count\n * @returns {Float32Array}\n */\nexport function raycast_ext_buffers(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count) {\n const ret = wasm.raycast_ext_buffers(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count);\n return ret;\n}\n\n/**\n * @param {number} origin_x\n * @param {number} origin_y\n * @param {number} origin_z\n * @param {number} dir_x\n * @param {number} dir_y\n * @param {number} dir_z\n * @param {number} min_opacity\n * @param {number} near\n * @param {number} far\n * @param {number} count\n * @param {number} ln_scale_min\n * @param {number} ln_scale_max\n * @param {boolean} lod_opacity\n * @returns {Float32Array}\n */\nexport function raycast_packed_buffer(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count, ln_scale_min, ln_scale_max, lod_opacity) {\n const ret = wasm.raycast_packed_buffer(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count, ln_scale_min, ln_scale_max, lod_opacity);\n return ret;\n}\n\n/**\n * @param {number} origin_x\n * @param {number} origin_y\n * @param {number} origin_z\n * @param {number} dir_x\n * @param {number} dir_y\n * @param {number} dir_z\n * @param {number} min_opacity\n * @param {number} near\n * @param {number} far\n * @param {number} num_splats\n * @param {Uint32Array} packed_splats\n * @param {number} ln_scale_min\n * @param {number} ln_scale_max\n * @param {boolean} lod_opacity\n * @returns {Float32Array}\n */\nexport function raycast_packed_splats(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, num_splats, packed_splats, ln_scale_min, ln_scale_max, lod_opacity) {\n const ret = wasm.raycast_packed_splats(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, num_splats, packed_splats, ln_scale_min, ln_scale_max, lod_opacity);\n return ret;\n}\n\n/**\n * @returns {boolean}\n */\nexport function simd_enabled() {\n const ret = wasm.simd_enabled();\n return ret !== 0;\n}\n\nexport function wasm_start() {\n wasm.wasm_start();\n}\n\nfunction __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_fd4646b401926788: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_26bffbe236bf73f9: function(arg0) {\n const ret = new Float32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_6c60b2e8ad0e9383: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2;\n },\n __wbg_set_8ee2d34facb8466e: function() { return handleError(function (arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments); },\n __wbg_set_a98c8da6557e63de: function(arg0, arg1, arg2) {\n arg0.set(getArrayF32FromWasm0(arg1, arg2));\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n // Cast intrinsic for `F64 -> Externref`.\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n // Cast intrinsic for `Ref(Slice(F32)) -> NamedExternref(\"Float32Array\")`.\n const ret = getArrayF32FromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_cast_0000000000000003: function(arg0, arg1) {\n // Cast intrinsic for `Ref(Slice(U32)) -> NamedExternref(\"Uint32Array\")`.\n const ret = getArrayU32FromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_cast_0000000000000004: function(arg0, arg1) {\n // Cast intrinsic for `Ref(String) -> Externref`.\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_cast_0000000000000005: function(arg0) {\n // Cast intrinsic for `U64 -> Externref`.\n const ret = BigInt.asUintN(64, arg0);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, undefined);\n table.set(offset + 0, undefined);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n },\n };\n return {\n __proto__: null,\n \"./spark_rs_bg.js\": import0,\n };\n}\n\nfunction addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n}\n\nfunction getArrayF32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getFloat32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n}\n\nlet cachedDataViewMemory0 = null;\nfunction getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || (cachedDataViewMemory0.buffer.detached === undefined && cachedDataViewMemory0.buffer !== wasm.memory.buffer)) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n}\n\nlet cachedFloat32ArrayMemory0 = null;\nfunction getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n}\n\nfunction getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n}\n\nlet cachedUint32ArrayMemory0 = null;\nfunction getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n}\n\nlet cachedUint8ArrayMemory0 = null;\nfunction getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n}\n\nfunction handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n}\n\nfunction passStringToWasm0(arg, malloc, realloc) {\n if (realloc === undefined) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr, ptr + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr;\n }\n\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n\n const mem = getUint8ArrayMemory0();\n\n let offset = 0;\n\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 0x7F) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n\n WASM_VECTOR_LEN = offset;\n return ptr;\n}\n\nfunction takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n}\n\nlet cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\ncachedTextDecoder.decode();\nconst MAX_SAFARI_DECODE_BYTES = 2146435072;\nlet numBytesDecoded = 0;\nfunction decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n}\n\nconst cachedTextEncoder = new TextEncoder();\n\nif (!('encodeInto' in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function (arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n}\n\nlet WASM_VECTOR_LEN = 0;\n\nlet wasmModule, wasm;\nfunction __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n wasmModule = module;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n}\n\nasync function __wbg_load(module, imports) {\n if (typeof Response === 'function' && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === 'function') {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n\n if (validResponse && module.headers.get('Content-Type') !== 'application/wasm') {\n console.warn(\"`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n\", e);\n\n } else { throw e; }\n }\n }\n\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n\n function expectedResponseType(type) {\n switch (type) {\n case 'basic': case 'cors': case 'default': return true;\n }\n return false;\n }\n}\n\nfunction initSync(module) {\n if (wasm !== undefined) return wasm;\n\n\n if (module !== undefined) {\n if (Object.getPrototypeOf(module) === Object.prototype) {\n ({module} = module)\n } else {\n console.warn('using deprecated parameters for `initSync()`; pass a single object instead')\n }\n }\n\n const imports = __wbg_get_imports();\n if (!(module instanceof WebAssembly.Module)) {\n module = new WebAssembly.Module(module);\n }\n const instance = new WebAssembly.Instance(module, imports);\n return __wbg_finalize_init(instance, module);\n}\n\nasync function __wbg_init(module_or_path) {\n if (wasm !== undefined) return wasm;\n\n\n if (module_or_path !== undefined) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({module_or_path} = module_or_path)\n } else {\n console.warn('using deprecated parameters for the initialization function; pass a single object instead')\n }\n }\n\n if (module_or_path === undefined) {\n module_or_path = new URL('spark_rs_bg.wasm', import.meta.url);\n }\n const imports = __wbg_get_imports();\n\n if (typeof module_or_path === 'string' || (typeof Request === 'function' && module_or_path instanceof Request) || (typeof URL === 'function' && module_or_path instanceof URL)) {\n module_or_path = fetch(module_or_path);\n }\n\n const { instance, module } = await __wbg_load(await module_or_path, imports);\n\n return __wbg_finalize_init(instance, module);\n}\n\nexport { initSync, __wbg_init as default };\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nout uvec4 target;\n\n{{ GLOBALS }}\n\nvoid produceSplat(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n target = uvec4(0u, 0u, 0u, 0u);\n if ((index >= 0) && (index < targetCount)) {\n produceSplat(index);\n }\n}\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nlayout(location = 0) out uvec4 target;\nlayout(location = 1) out vec4 target3;\n\n{{ GLOBALS }}\n\nvoid produceSplat(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n // Initial target to \"null\" splat\n target = uvec4(0u, 0u, 0u, 0u);\n\n // Initialize depthTarget to +infinity\n target3 = floatToVec4(1.0 / 0.0);\n\n if ((index >= 0) && (index < targetCount)) {\n produceSplat(index);\n }\n}\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nlayout(location = 0) out uvec4 target;\nlayout(location = 1) out uvec4 target2;\nlayout(location = 2) out vec4 target3;\n// layout(location = 0) out vec4 target3;\n// layout(location = 1) out uvec4 target;\n// layout(location = 2) out uvec4 target2;\n\n{{ GLOBALS }}\n\nvoid produceSplat(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n // Initial targets to \"null\" splat\n target = uvec4(0u, 0u, 0u, 0u);\n target2 = uvec4(0u, 0u, 0u, 0u);\n\n // Initialize target3 to +infinity\n target3 = floatToVec4(1.0 / 0.0);\n\n if ((index >= 0) && (index < targetCount)) {\n produceSplat(index);\n }\n}\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nout vec4 target;\n\n{{ GLOBALS }}\n\nvoid computeReadback(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n if ((index >= 0) && (index < targetCount)) {\n computeReadback(index);\n } else {\n target = vec4(0.0, 0.0, 0.0, 0.0);\n }\n}\n","\nprecision highp float;\nprecision highp int;\n\n#include \n\nuniform float near;\nuniform float far;\nuniform bool encodeLinear;\nuniform float time;\nuniform bool debugFlag;\nuniform float maxStdDev;\nuniform float minAlpha;\nuniform bool stochastic;\nuniform bool disableFalloff;\nuniform float falloff;\n\nuniform bool splatTexEnable;\nuniform sampler3D splatTexture;\nuniform mat2 splatTexMul;\nuniform vec2 splatTexAdd;\nuniform float splatTexNear;\nuniform float splatTexFar;\nuniform float splatTexMid;\n\nout vec4 fragColor;\n\nin vec4 vRgba;\nin vec2 vSplatUv;\nin vec3 vNdc;\nflat in uint vSplatIndex;\n\nvoid main() {\n vec4 rgba = vRgba;\n\n float z = dot(vSplatUv, vSplatUv);\n if (!splatTexEnable) {\n if (z > (maxStdDev * maxStdDev)) {\n discard;\n }\n } else {\n vec2 uv = splatTexMul * vSplatUv + splatTexAdd;\n float ndcZ = vNdc.z;\n float depth = (2.0 * near * far) / (far + near - ndcZ * (far - near));\n float clampedFar = max(splatTexFar, splatTexNear);\n float clampedDepth = clamp(depth, splatTexNear, clampedFar);\n float logDepth = log2(clampedDepth + 1.0);\n float logNear = log2(splatTexNear + 1.0);\n float logFar = log2(clampedFar + 1.0);\n\n float texZ;\n if (splatTexMid > 0.0) {\n float clampedMid = clamp(splatTexMid, splatTexNear, clampedFar);\n float logMid = log2(clampedMid + 1.0);\n texZ = (clampedDepth <= clampedMid) ?\n (0.5 * ((logDepth - logNear) / (logMid - logNear))) :\n (0.5 * ((logDepth - logMid) / (logFar - logMid)) + 0.5);\n } else {\n texZ = (logDepth - logNear) / (logFar - logNear);\n }\n\n vec4 modulate = texture(splatTexture, vec3(uv, 1.0 - texZ));\n rgba *= modulate;\n }\n\n rgba.a *= mix(1.0, exp(-0.5 * z), falloff);\n\n if (rgba.a < minAlpha) {\n discard;\n }\n if (encodeLinear) {\n rgba.rgb = srgbToLinear(rgba.rgb);\n }\n\n if (stochastic) {\n const bool STEADY = false;\n uint uTime = STEADY ? 0u : floatBitsToUint(time);\n uvec2 coord = uvec2(gl_FragCoord.xy);\n uint state = uTime + 0x9e3779b9u * coord.x + 0x85ebca6bu * coord.y + 0xc2b2ae35u * uint(vSplatIndex);\n state = state * 747796405u + 2891336453u;\n uint hash = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u;\n hash = (hash >> 22u) ^ hash;\n float rand = float(hash) / 4294967296.0;\n if (rand < rgba.a) {\n fragColor = vec4(rgba.rgb, 1.0);\n } else {\n discard;\n }\n } else {\n #ifdef PREMULTIPLIED_ALPHA\n fragColor = vec4(rgba.rgb * rgba.a, rgba.a);\n #else\n fragColor = rgba;\n #endif\n }\n}\n","\nprecision highp float;\nprecision highp int;\nprecision highp usampler2DArray;\n\n#include \n\nattribute uint splatIndex;\n\nout vec4 vRgba;\nout vec2 vSplatUv;\nout vec3 vNdc;\nflat out uint vSplatIndex;\n\nuniform vec2 renderSize;\nuniform uint numSplats;\nuniform vec4 renderToViewQuat;\nuniform vec3 renderToViewPos;\nuniform float maxStdDev;\nuniform float minPixelRadius;\nuniform float maxPixelRadius;\nuniform float time;\nuniform float deltaTime;\nuniform bool debugFlag;\nuniform float minAlpha;\nuniform bool stochastic;\nuniform bool enable2DGS;\nuniform float blurAmount;\nuniform float preBlurAmount;\nuniform float focalDistance;\nuniform float apertureAngle;\nuniform float clipXY;\nuniform float focalAdjustment;\n\nuniform usampler2DArray packedSplats;\nuniform vec4 rgbMinMaxLnScaleMinMax;\n\nvoid main() {\n // Default to outside the frustum so it's discarded if we return early\n gl_Position = vec4(0.0, 0.0, 2.0, 1.0);\n\n if (uint(gl_InstanceID) >= numSplats) {\n return;\n }\n\n ivec3 texCoord;\n if (stochastic) {\n texCoord = ivec3(\n uint(gl_InstanceID) & SPLAT_TEX_WIDTH_MASK,\n (uint(gl_InstanceID) >> SPLAT_TEX_WIDTH_BITS) & SPLAT_TEX_HEIGHT_MASK,\n (uint(gl_InstanceID) >> SPLAT_TEX_LAYER_BITS)\n );\n } else {\n if (splatIndex == 0xffffffffu) {\n // Special value reserved for \"no splat\"\n return;\n }\n texCoord = ivec3(\n splatIndex & SPLAT_TEX_WIDTH_MASK,\n (splatIndex >> SPLAT_TEX_WIDTH_BITS) & SPLAT_TEX_HEIGHT_MASK,\n splatIndex >> SPLAT_TEX_LAYER_BITS\n );\n }\n uvec4 packed = texelFetch(packedSplats, texCoord, 0);\n\n vec3 center, scales;\n vec4 quaternion, rgba;\n unpackSplatEncoding(packed, center, scales, quaternion, rgba, rgbMinMaxLnScaleMinMax);\n\n if (rgba.a < minAlpha) {\n return;\n }\n bvec3 zeroScales = equal(scales, vec3(0.0));\n if (all(zeroScales)) {\n return;\n }\n\n // Compute the view space center of the splat\n vec3 viewCenter = quatVec(renderToViewQuat, center) + renderToViewPos;\n\n // Discard splats behind the camera\n if (viewCenter.z >= 0.0) {\n return;\n }\n\n // Compute the clip space center of the splat\n vec4 clipCenter = projectionMatrix * vec4(viewCenter, 1.0);\n\n // Discard splats outside near/far planes\n if (abs(clipCenter.z) >= clipCenter.w) {\n return;\n }\n\n // Discard splats more than clipXY times outside the XY frustum\n float clip = clipXY * clipCenter.w;\n if (abs(clipCenter.x) > clip || abs(clipCenter.y) > clip) {\n return;\n }\n\n // Record the splat index for entropy\n vSplatIndex = splatIndex;\n\n // Compute view space quaternion of splat\n vec4 viewQuaternion = quatQuat(renderToViewQuat, quaternion);\n\n if (enable2DGS && any(zeroScales)) {\n vRgba = rgba;\n vSplatUv = position.xy * maxStdDev;\n\n vec3 offset;\n if (zeroScales.z) {\n offset = vec3(vSplatUv.xy * scales.xy, 0.0);\n } else if (zeroScales.y) {\n offset = vec3(vSplatUv.x * scales.x, 0.0, vSplatUv.y * scales.z);\n } else {\n offset = vec3(0.0, vSplatUv.xy * scales.yz);\n }\n\n vec3 viewPos = viewCenter + quatVec(viewQuaternion, offset);\n gl_Position = projectionMatrix * vec4(viewPos, 1.0);\n vNdc = gl_Position.xyz / gl_Position.w;\n return;\n }\n\n // Compute NDC center of the splat\n vec3 ndcCenter = clipCenter.xyz / clipCenter.w;\n\n // Compute the 3D covariance matrix of the splat\n mat3 RS = scaleQuaternionToMatrix(scales, viewQuaternion);\n mat3 cov3D = RS * transpose(RS);\n\n // Compute the Jacobian of the splat's projection at its center\n vec2 scaledRenderSize = renderSize * focalAdjustment;\n vec2 focal = 0.5 * scaledRenderSize * vec2(projectionMatrix[0][0], projectionMatrix[1][1]);\n\n mat3 J;\n if(isOrthographic) {\n J = mat3(\n focal.x, 0.0, 0.0,\n 0.0, focal.y, 0.0,\n 0.0, 0.0, 0.0\n );\n } else {\n float invZ = 1.0 / viewCenter.z;\n vec2 J1 = focal * invZ;\n vec2 J2 = -(J1 * viewCenter.xy) * invZ;\n J = mat3(\n J1.x, 0.0, J2.x,\n 0.0, J1.y, J2.y,\n 0.0, 0.0, 0.0\n );\n }\n\n // Compute the 2D covariance by projecting the 3D covariance\n // and picking out the XY plane components.\n // Keeping below because we may need it in the future\n // for skinning deformations.\n // mat3 W = transpose(mat3(viewMatrix));\n // mat3 T = W * J;\n // mat3 cov2D = transpose(T) * cov3D * T;\n mat3 cov2D = transpose(J) * cov3D * J;\n float a = cov2D[0][0];\n float d = cov2D[1][1];\n float b = cov2D[0][1];\n\n // Optionally pre-blur the splat to match non-antialias optimized splats\n a += preBlurAmount;\n d += preBlurAmount;\n\n float fullBlurAmount = blurAmount;\n if ((focalDistance > 0.0) && (apertureAngle > 0.0)) {\n float focusRadius = maxPixelRadius;\n if (viewCenter.z < 0.0) {\n float focusBlur = abs((-viewCenter.z - focalDistance) / viewCenter.z);\n float apertureRadius = focal.x * tan(0.5 * apertureAngle);\n focusRadius = focusBlur * apertureRadius;\n }\n fullBlurAmount = clamp(sqr(focusRadius), blurAmount, sqr(maxPixelRadius));\n }\n\n // Do convolution with a 0.5-pixel Gaussian for anti-aliasing: sqrt(0.3) ~= 0.5\n float detOrig = a * d - b * b;\n a += fullBlurAmount;\n d += fullBlurAmount;\n float det = a * d - b * b;\n\n // Compute anti-aliasing intensity scaling factor\n float blurAdjust = sqrt(max(0.0, detOrig / det));\n rgba.a *= blurAdjust;\n if (rgba.a < minAlpha) {\n return;\n }\n\n // Compute the eigenvalue and eigenvectors of the 2D covariance matrix\n float eigenAvg = 0.5 * (a + d);\n float eigenDelta = sqrt(max(0.0, eigenAvg * eigenAvg - det));\n float eigen1 = eigenAvg + eigenDelta;\n float eigen2 = eigenAvg - eigenDelta;\n\n vec2 eigenVec1 = normalize(vec2((abs(b) < 0.001) ? 1.0 : b, eigen1 - a));\n vec2 eigenVec2 = vec2(eigenVec1.y, -eigenVec1.x);\n\n float scale1 = min(maxPixelRadius, maxStdDev * sqrt(eigen1));\n float scale2 = min(maxPixelRadius, maxStdDev * sqrt(eigen2));\n if (scale1 < minPixelRadius && scale2 < minPixelRadius) {\n return;\n }\n\n // Compute the NDC coordinates for the ellipsoid's diagonal axes.\n vec2 pixelOffset = position.x * eigenVec1 * scale1 + position.y * eigenVec2 * scale2;\n vec2 ndcOffset = (2.0 / scaledRenderSize) * pixelOffset;\n vec3 ndc = vec3(ndcCenter.xy + ndcOffset, ndcCenter.z);\n\n vRgba = rgba;\n vSplatUv = position.xy * maxStdDev;\n vNdc = ndc;\n gl_Position = vec4(ndc.xy * clipCenter.w, clipCenter.zw);\n}\n","const float LN_SCALE_MIN = -12.0;\nconst float LN_SCALE_MAX = 9.0;\n\nconst uint SPLAT_TEX_WIDTH_BITS = 11u;\nconst uint SPLAT_TEX_HEIGHT_BITS = 11u;\nconst uint SPLAT_TEX_DEPTH_BITS = 11u;\nconst uint SPLAT_TEX_LAYER_BITS = SPLAT_TEX_WIDTH_BITS + SPLAT_TEX_HEIGHT_BITS;\n\nconst uint SPLAT_TEX_WIDTH = 1u << SPLAT_TEX_WIDTH_BITS;\nconst uint SPLAT_TEX_HEIGHT = 1u << SPLAT_TEX_HEIGHT_BITS;\nconst uint SPLAT_TEX_DEPTH = 1u << SPLAT_TEX_DEPTH_BITS;\n\nconst uint SPLAT_TEX_WIDTH_MASK = SPLAT_TEX_WIDTH - 1u;\nconst uint SPLAT_TEX_HEIGHT_MASK = SPLAT_TEX_HEIGHT - 1u;\nconst uint SPLAT_TEX_DEPTH_MASK = SPLAT_TEX_DEPTH - 1u;\n\nconst uint F16_INF = 0x7c00u;\nconst float PI = 3.1415926535897932384626433832795;\n\nconst float INFINITY = 1.0 / 0.0;\nconst float NEG_INFINITY = -INFINITY;\n\nfloat sqr(float x) {\n return x * x;\n}\n\nfloat pow4(float x) {\n float x2 = x * x;\n return x2 * x2;\n}\n\nfloat pow8(float x) {\n float x4 = pow4(x);\n return x4 * x4;\n}\n\nvec3 srgbToLinear(vec3 rgb) {\n return pow(rgb, vec3(2.2));\n}\n\nvec3 linearToSrgb(vec3 rgb) {\n return pow(rgb, vec3(1.0 / 2.2));\n}\n\n// Encode a quaternion (vec4) into a 24‐bit uint with folded octahedral mapping.\nuint encodeQuatOctXy88R8(vec4 q) {\n // Ensure minimal representation: flip if q.w is negative.\n if (q.w < 0.0) {\n q = -q;\n }\n // Compute rotation angle: θ = 2 * acos(q.w) ∈ [0,π]\n float theta = 2.0 * acos(q.w);\n float halfTheta = theta * 0.5;\n float s = sin(halfTheta);\n // Recover the rotation axis; use a default if nearly zero rotation.\n vec3 axis = (abs(s) < 1e-6) ? vec3(1.0, 0.0, 0.0) : q.xyz / s;\n \n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n float sum = abs(axis.x) + abs(axis.y) + abs(axis.z);\n vec2 p = vec2(axis.x, axis.y) / sum;\n // If axis.z < 0, fold the mapping.\n if (axis.z < 0.0) {\n float oldPx = p.x;\n p.x = (1.0 - abs(p.y)) * (p.x >= 0.0 ? 1.0 : -1.0);\n p.y = (1.0 - abs(oldPx)) * (p.y >= 0.0 ? 1.0 : -1.0);\n }\n // Remap from [-1,1] to [0,1]\n float u_f = p.x * 0.5 + 0.5;\n float v_f = p.y * 0.5 + 0.5;\n // Quantize to 8 bits (0 to 255)\n uint quantU = uint(clamp(round(u_f * 255.0), 0.0, 255.0));\n uint quantV = uint(clamp(round(v_f * 255.0), 0.0, 255.0));\n \n // --- Angle Quantization ---\n // Quantize θ ∈ [0,π] to 8 bits (0 to 255)\n uint angleInt = uint(clamp(round((theta / 3.14159265359) * 255.0), 0.0, 255.0));\n \n // Pack bits: bits [0–7]: quantU, [8–15]: quantV, [16–23]: angleInt.\n return (angleInt << 16u) | (quantV << 8u) | quantU;\n}\n\n// Decode a 24‐bit encoded uint into a quaternion (vec4) using the folded octahedral inverse.\nvec4 decodeQuatOctXy88R8(uint encoded) {\n // Extract the fields.\n uint quantU = encoded & uint(0xFFu); // bits 0–7\n uint quantV = (encoded >> 8u) & uint(0xFFu); // bits 8–15\n uint angleInt = encoded >> 16u; // bits 16–23\n\n // Recover u and v in [0,1], then map to [-1,1].\n float u_f = float(quantU) / 255.0;\n float v_f = float(quantV) / 255.0;\n vec2 f = vec2(u_f * 2.0 - 1.0, v_f * 2.0 - 1.0);\n\n vec3 axis = vec3(f.xy, 1.0 - abs(f.x) - abs(f.y));\n float t = max(-axis.z, 0.0);\n axis.x += (axis.x >= 0.0) ? -t : t;\n axis.y += (axis.y >= 0.0) ? -t : t;\n axis = normalize(axis);\n \n // Decode the angle θ ∈ [0,π].\n float theta = (float(angleInt) / 255.0) * 3.14159265359;\n float halfTheta = theta * 0.5;\n float s = sin(halfTheta);\n float w = cos(halfTheta);\n \n return vec4(axis * s, w);\n}\n\nuint encodeQuatOctXy1010R12(vec4 q) {\n // Ensure minimal representation: flip if q.w is negative.\n if (q.w < 0.0) {\n q = -q;\n }\n // Compute rotation angle: θ = 2 * acos(q.w) ∈ [0,π]\n float halfTheta = acos(q.w);\n float theta = 2.0 * halfTheta;\n float s = sin(halfTheta);\n // Recover the rotation axis; use a default if nearly zero rotation.\n vec3 axis = (abs(s) < 1e-6) ? vec3(1.0, 0.0, 0.0) : q.xyz / s;\n \n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n float sum = abs(axis.x) + abs(axis.y) + abs(axis.z);\n vec2 p = vec2(axis.x, axis.y) / sum;\n // If axis.z < 0, fold the mapping.\n if (axis.z < 0.0) {\n float oldPx = p.x;\n p.x = (1.0 - abs(p.y)) * (p.x >= 0.0 ? 1.0 : -1.0);\n p.y = (1.0 - abs(oldPx)) * (p.y >= 0.0 ? 1.0 : -1.0);\n }\n // Remap from [-1,1] to [0,1]\n float u_f = p.x * 0.5 + 0.5;\n float v_f = p.y * 0.5 + 0.5;\n // Quantize to 10 bits (0 to 1023)\n uint quantU = uint(clamp(round(u_f * 1023.0), 0.0, 1023.0));\n uint quantV = uint(clamp(round(v_f * 1023.0), 0.0, 1023.0));\n \n // --- Angle Quantization ---\n // Quantize θ ∈ [0,π] to 12 bits (0 to 4095)\n uint angleInt = uint(clamp(round((theta / PI) * 4095.0), 0.0, 4095.0));\n \n // Pack bits: bits [0–9]: quantU, [10–19]: quantV, [20–31]: angleInt.\n return (angleInt << 20u) | (quantV << 10u) | quantU;\n}\n\nvec4 decodeQuatOctXy1010R12(uint encoded) {\n // Extract the fields.\n uint quantU = encoded & uint(0x3FFu); // bits 0–9\n uint quantV = (encoded >> 10u) & uint(0x3FFu); // bits 10–19\n uint angleInt = encoded >> 20u; // bits 20–31\n\n // Recover u and v in [0,1], then map to [-1,1].\n float u_f = float(quantU) / 1023.0;\n float v_f = float(quantV) / 1023.0;\n vec2 f = vec2(u_f * 2.0 - 1.0, v_f * 2.0 - 1.0);\n\n vec3 axis = vec3(f.xy, 1.0 - abs(f.x) - abs(f.y));\n float t = max(-axis.z, 0.0);\n axis.x += (axis.x >= 0.0) ? -t : t;\n axis.y += (axis.y >= 0.0) ? -t : t;\n axis = normalize(axis);\n \n // Decode the angle θ ∈ [0,π].\n float theta = (float(angleInt) / 4095.0) * PI;\n float halfTheta = theta * 0.5;\n float s = sin(halfTheta);\n float w = cos(halfTheta);\n \n return vec4(axis * s, w);\n}\n\n// Pack a Gsplat into a uvec4\nuvec4 packSplatEncoding(\n vec3 center, vec3 scales, vec4 quaternion, vec4 rgba, vec4 rgbMinMaxLnScaleMinMax\n) {\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n vec3 encRgb = (rgba.rgb - vec3(rgbMin)) / (rgbMax - rgbMin);\n uvec4 uRgba = uvec4(round(clamp(vec4(encRgb, rgba.a) * 255.0, 0.0, 255.0)));\n\n uint uQuat = encodeQuatOctXy88R8(quaternion);\n // uint uQuat = encodeQuatXyz888(quaternion);\n // uint uQuat = encodeQuatEulerXyz888(quaternion);\n uvec3 uQuat3 = uvec3(uQuat & 0xffu, (uQuat >> 8u) & 0xffu, (uQuat >> 16u) & 0xffu);\n\n // Encode scales in three uint8s, where 0=>0.0 and 1..=255 stores log scale\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n uvec3 uScales = uvec3(\n (scales.x == 0.0) ? 0u : uint(round(clamp((log(scales.x) - lnScaleMin) * lnScaleScale, 0.0, 254.0))) + 1u,\n (scales.y == 0.0) ? 0u : uint(round(clamp((log(scales.y) - lnScaleMin) * lnScaleScale, 0.0, 254.0))) + 1u,\n (scales.z == 0.0) ? 0u : uint(round(clamp((log(scales.z) - lnScaleMin) * lnScaleScale, 0.0, 254.0))) + 1u\n );\n\n // Pack it all into 4 x uint32\n uint word0 = uRgba.r | (uRgba.g << 8u) | (uRgba.b << 16u) | (uRgba.a << 24u);\n uint word1 = packHalf2x16(center.xy);\n uint word2 = packHalf2x16(vec2(center.z, 0.0)) | (uQuat3.x << 16u) | (uQuat3.y << 24u);\n uint word3 = uScales.x | (uScales.y << 8u) | (uScales.z << 16u) | (uQuat3.z << 24u);\n return uvec4(word0, word1, word2, word3);\n}\n\n// Pack a Gsplat into a uvec4\nuvec4 packSplat(vec3 center, vec3 scales, vec4 quaternion, vec4 rgba) {\n return packSplatEncoding(center, scales, quaternion, rgba, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n}\n\nvoid unpackSplatEncoding(uvec4 packed, out vec3 center, out vec3 scales, out vec4 quaternion, out vec4 rgba, vec4 rgbMinMaxLnScaleMinMax) {\n uint word0 = packed.x, word1 = packed.y, word2 = packed.z, word3 = packed.w;\n\n uvec4 uRgba = uvec4(word0 & 0xffu, (word0 >> 8u) & 0xffu, (word0 >> 16u) & 0xffu, (word0 >> 24u) & 0xffu);\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n rgba = (vec4(uRgba) / 255.0);\n rgba.rgb = rgba.rgb * (rgbMax - rgbMin) + rgbMin;\n\n center = vec4(\n unpackHalf2x16(word1),\n unpackHalf2x16(word2 & 0xffffu)\n ).xyz;\n\n uvec3 uScales = uvec3(word3 & 0xffu, (word3 >> 8u) & 0xffu, (word3 >> 16u) & 0xffu);\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float lnScaleScale = (lnScaleMax - lnScaleMin) / 254.0;\n scales = vec3(\n (uScales.x == 0u) ? 0.0 : exp(lnScaleMin + float(uScales.x - 1u) * lnScaleScale),\n (uScales.y == 0u) ? 0.0 : exp(lnScaleMin + float(uScales.y - 1u) * lnScaleScale),\n (uScales.z == 0u) ? 0.0 : exp(lnScaleMin + float(uScales.z - 1u) * lnScaleScale)\n );\n\n\n uint uQuat = ((word2 >> 16u) & 0xFFFFu) | ((word3 >> 8u) & 0xFF0000u);\n quaternion = decodeQuatOctXy88R8(uQuat);\n // quaternion = decodeQuatXyz888(uQuat);\n // quaternion = decodeQuatEulerXyz888(uQuat);\n}\n\n// Unpack a Gsplat from a uvec4\nvoid unpackSplat(uvec4 packed, out vec3 center, out vec3 scales, out vec4 quaternion, out vec4 rgba) {\n unpackSplatEncoding(packed, center, scales, quaternion, rgba, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n}\n\nuvec4 packSplatCovEncoding(\n vec3 center, vec4 rgba, vec3 xxyyzz, vec3 xyxzyz, vec4 rgbMinMaxLnScaleMinMax\n) {\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n vec3 encRgb = (rgba.rgb - vec3(rgbMin)) / (rgbMax - rgbMin);\n uvec4 uRgba = uvec4(round(clamp(vec4(encRgb, rgba.a) * 255.0, 0.0, 255.0)));\n\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float diagScale = 255.0 / (2.0 * (lnScaleMax - lnScaleMin));\n uvec3 uXxyyzz = uvec3(round(clamp((log(xxyyzz) - 2.0 * lnScaleMin) * diagScale, 0.0, 255.0)));\n\n vec3 xyxzyzCor = vec3(\n clamp(xyxzyz.x / sqrt(xxyyzz.x * xxyyzz.y), -1.0, 1.0),\n clamp(xyxzyz.y / sqrt(xxyyzz.x * xxyyzz.z), -1.0, 1.0),\n clamp(xyxzyz.z / sqrt(xxyyzz.y * xxyyzz.z), -1.0, 1.0)\n );\n ivec3 iXyxzyzCor = ivec3(round(xyxzyzCor * 127.0));\n\n // Pack it all into 4 x uint32\n uint word0 = uRgba.r | (uRgba.g << 8u) | (uRgba.b << 16u) | (uRgba.a << 24u);\n uint word1 = packHalf2x16(center.xy);\n uint word2 = packHalf2x16(vec2(center.z, 0.0)) |\n ((uint(iXyxzyzCor.y) & 0xffu) << 16u) |\n ((uint(iXyxzyzCor.z) & 0xffu) << 24u);\n uint word3 =\n uXxyyzz.x | (uXxyyzz.y << 8u) | (uXxyyzz.z << 16u) |\n ((uint(iXyxzyzCor.x) & 0xffu) << 24u);\n return uvec4(word0, word1, word2, word3);\n}\n\nvoid unpackSplatCovEncoding(uvec4 packed, out vec3 center, out vec4 rgba, out vec3 xxyyzz, out vec3 xyxzyz, vec4 rgbMinMaxLnScaleMinMax) {\n uint word0 = packed.x, word1 = packed.y, word2 = packed.z, word3 = packed.w;\n\n uvec4 uRgba = uvec4(word0 & 0xffu, (word0 >> 8u) & 0xffu, (word0 >> 16u) & 0xffu, (word0 >> 24u) & 0xffu);\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n rgba = (vec4(uRgba) / 255.0);\n rgba.rgb = rgba.rgb * (rgbMax - rgbMin) + rgbMin;\n\n center = vec3(\n unpackHalf2x16(word1),\n unpackHalf2x16(word2 & 0xffffu).x\n );\n\n uvec3 uXxyyzz = uvec3(word3 & 0xffu, (word3 >> 8u) & 0xffu, (word3 >> 16u) & 0xffu);\n ivec3 iXyxzyzCor = ivec3(int(word3) >> 24, int(word2 << 8u) >> 24, int(word2) >> 24);\n\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float diagScale = 2.0 * (lnScaleMax - lnScaleMin) / 255.0;\n xxyyzz = exp(2.0 * lnScaleMin + vec3(uXxyyzz) * diagScale);\n\n vec3 xyxzyzCor = vec3(iXyxzyzCor) / 127.0;\n xyxzyz = xyxzyzCor * vec3(\n sqrt(xxyyzz.x * xxyyzz.y),\n sqrt(xxyyzz.x * xxyyzz.z),\n sqrt(xxyyzz.y * xxyyzz.z)\n );\n}\n\nvoid packSplatExtCov(\n out uvec4 packed, out uvec4 packed2,\n vec3 center, vec4 rgba, vec3 xxyyzz, vec3 xyxzyz\n) {\n packed.x = floatBitsToUint(center.x);\n packed.y = floatBitsToUint(center.y);\n packed.z = floatBitsToUint(center.z);\n packed.w = packHalf2x16(vec2(rgba.a, rgba.b));\n packed2.x = packHalf2x16(rgba.rg);\n\n vec3 xyxzyzCor = vec3(\n clamp(xyxzyz.x / sqrt(xxyyzz.x * xxyyzz.y), -1.0, 1.0),\n clamp(xyxzyz.y / sqrt(xxyyzz.x * xxyyzz.z), -1.0, 1.0),\n clamp(xyxzyz.z / sqrt(xxyyzz.y * xxyyzz.z), -1.0, 1.0)\n );\n xyxzyzCor = sign(xyxzyzCor) * clamp(log(abs(xyxzyzCor)), -100.0, -0.0000001);\n xxyyzz = log(xxyyzz);\n\n packed2.y = packHalf2x16(vec2(xxyyzz.x, xxyyzz.y));\n packed2.z = packHalf2x16(vec2(xxyyzz.z, xyxzyzCor.x));\n packed2.w = packHalf2x16(vec2(xyxzyzCor.y, xyxzyzCor.z));\n}\n\nvoid unpackSplatExtCov(\n uvec4 packed, uvec4 packed2,\n out vec3 center, out vec4 rgba, out vec3 xxyyzz, out vec3 xyxzyz\n) {\n center.x = uintBitsToFloat(packed.x);\n center.y = uintBitsToFloat(packed.y);\n center.z = uintBitsToFloat(packed.z);\n\n vec2 ab = unpackHalf2x16(packed.w);\n vec2 rg = unpackHalf2x16(packed2.x);\n rgba = vec4(rg, ab.y, ab.x);\n\n vec2 xxyy = unpackHalf2x16(packed2.y);\n vec2 zzxy = unpackHalf2x16(packed2.z);\n vec2 xzyz = unpackHalf2x16(packed2.w);\n xxyyzz = exp(vec3(xxyy.x, xxyy.y, zzxy.x));\n xyxzyz = vec3(zzxy.y, xzyz.x, xzyz.y);\n xyxzyz = -sign(xyxzyz) * exp(-abs(xyxzyz));\n xyxzyz *= vec3(\n sqrt(xxyyzz.x * xxyyzz.y),\n sqrt(xxyyzz.x * xxyyzz.z),\n sqrt(xxyyzz.y * xxyyzz.z)\n );\n}\n\nvoid packSplatExt(\n out uvec4 packed, out uvec4 packed2,\n vec3 center, vec3 scales, vec4 quaternion, vec4 rgba\n) {\n packed.x = floatBitsToUint(center.x);\n packed.y = floatBitsToUint(center.y);\n packed.z = floatBitsToUint(center.z);\n packed.w = packHalf2x16(vec2(rgba.a, 0.0));\n\n packed2.x = packHalf2x16(rgba.rg);\n packed2.y = packHalf2x16(vec2(rgba.b, log(scales.x)));\n packed2.z = packHalf2x16(log(scales.yz));\n packed2.w = encodeQuatOctXy1010R12(quaternion);\n}\n\nvec4 unpackSplatExtCenterAlpha(uvec4 packed) {\n return vec4(\n uintBitsToFloat(packed.x),\n uintBitsToFloat(packed.y),\n uintBitsToFloat(packed.z),\n unpackHalf2x16(packed.w).x\n );\n}\n\nfloat unpackSplatExtAlpha(uvec4 packed) {\n return unpackHalf2x16(packed.w).x;\n}\n\nvoid unpackSplatExt(\n uvec4 packed, uvec4 packed2,\n out vec3 center, out vec3 scales, out vec4 quaternion, out vec4 rgba\n) {\n center.x = uintBitsToFloat(packed.x);\n center.y = uintBitsToFloat(packed.y);\n center.z = uintBitsToFloat(packed.z);\n rgba.a = unpackHalf2x16(packed.w).x;\n\n rgba.rg = unpackHalf2x16(packed2.x);\n vec2 split = unpackHalf2x16(packed2.y);\n rgba.b = split.x;\n scales.x = exp(split.y);\n scales.yz = exp(unpackHalf2x16(packed2.z));\n quaternion = decodeQuatOctXy1010R12(packed2.w);\n}\n\nuint encodeExtRgb(vec3 rgb) {\n vec3 absRgb = abs(rgb);\n float maxAbs = max(absRgb.r, max(absRgb.g, absRgb.b));\n\n int base = clamp(int(floor(log2(maxAbs))) + 15, 0, 31);\n float divisor = exp2(float(base - 15)) / 255.0;\n\n uvec3 uRgb = uvec3(round(clamp(absRgb / divisor, 0.0, 255.0)));\n uint expSigns = (uint(base) << 3u) | ((rgb.r < 0.0 ? 0x1u : 0u) | (rgb.g < 0.0 ? 0x2u : 0u) | (rgb.b < 0.0 ? 0x4u : 0u));\n return uRgb.r | (uRgb.g << 8u) | (uRgb.b << 16u) | (expSigns << 24u);\n}\n\nvec3 decodeExtRgb(uint encoded) {\n uint biasedBase = (encoded >> 27u) & 0x1fu;\n float divisor = exp2(float(int(biasedBase) - 15)) / 255.0;\n\n vec3 rgb = vec3(uvec3(encoded & 0xffu, (encoded >> 8u) & 0xffu, (encoded >> 16u) & 0xffu));\n rgb *= divisor;\n\n return vec3(\n ((encoded & 0x1000000u) != 0u) ? -rgb.r : rgb.r,\n ((encoded & 0x2000000u) != 0u) ? -rgb.g : rgb.g,\n ((encoded & 0x4000000u) != 0u) ? -rgb.b : rgb.b\n );\n}\n\n// Rotate vector v by quaternion q\nvec3 quatVec(vec4 q, vec3 v) {\n // Rotate vector v by quaternion q\n vec3 t = 2.0 * cross(q.xyz, v);\n return v + q.w * t + cross(q.xyz, t);\n}\n\n// Apply quaternion q1 after quaternion q2\nvec4 quatQuat(vec4 q1, vec4 q2) {\n return vec4(\n q1.w * q2.x + q1.x * q2.w + q1.y * q2.z - q1.z * q2.y,\n q1.w * q2.y - q1.x * q2.z + q1.y * q2.w + q1.z * q2.x,\n q1.w * q2.z + q1.x * q2.y - q1.y * q2.x + q1.z * q2.w,\n q1.w * q2.w - q1.x * q2.x - q1.y * q2.y - q1.z * q2.z\n );\n}\n\nmat3 quaternionToMatrix(vec4 q) {\n return mat3(\n (1.0 - 2.0 * (q.y * q.y + q.z * q.z)),\n (2.0 * (q.x * q.y + q.w * q.z)),\n (2.0 * (q.x * q.z - q.w * q.y)),\n (2.0 * (q.x * q.y - q.w * q.z)),\n (1.0 - 2.0 * (q.x * q.x + q.z * q.z)),\n (2.0 * (q.y * q.z + q.w * q.x)),\n (2.0 * (q.x * q.z + q.w * q.y)),\n (2.0 * (q.y * q.z - q.w * q.x)),\n (1.0 - 2.0 * (q.x * q.x + q.y * q.y))\n );\n}\n\nmat3 scaleQuaternionToMatrix(vec3 s, vec4 q) {\n // Compute the matrix of scaling by s then rotating by q\n return mat3(\n s.x * (1.0 - 2.0 * (q.y * q.y + q.z * q.z)),\n s.x * (2.0 * (q.x * q.y + q.w * q.z)),\n s.x * (2.0 * (q.x * q.z - q.w * q.y)),\n s.y * (2.0 * (q.x * q.y - q.w * q.z)),\n s.y * (1.0 - 2.0 * (q.x * q.x + q.z * q.z)),\n s.y * (2.0 * (q.y * q.z + q.w * q.x)),\n s.z * (2.0 * (q.x * q.z + q.w * q.y)),\n s.z * (2.0 * (q.y * q.z - q.w * q.x)),\n s.z * (1.0 - 2.0 * (q.x * q.x + q.y * q.y))\n );\n}\n\n// Spherical lerp between two quaternions\nvec4 slerp(vec4 q1, vec4 q2, float t) {\n // Compute the cosine of the angle between the two vectors\n float cosHalfTheta = dot(q1, q2);\n\n // If q1=q2 or q1=-q2 then theta = 0 and we can return q1\n if (abs(cosHalfTheta) >= 0.999) {\n return q1;\n }\n \n // If q1 and q2 are more than 180 degrees apart, \n // we need to negate one to get the shortest path\n if (cosHalfTheta < 0.0) {\n q2 = -q2;\n cosHalfTheta = -cosHalfTheta;\n }\n\n // Calculate temporary values\n float halfTheta = acos(cosHalfTheta);\n float sinHalfTheta = sqrt(1.0 - cosHalfTheta * cosHalfTheta);\n\n // Calculate the interpolation factors\n float ratioA = sin((1.0 - t) * halfTheta) / sinHalfTheta;\n float ratioB = sin(t * halfTheta) / sinHalfTheta;\n\n // Calculate the interpolated quaternion\n return q1 * ratioA + q2 * ratioB;\n}\n\nivec3 splatTexCoord(int index) {\n uint x = uint(index) & SPLAT_TEX_WIDTH_MASK;\n uint y = (uint(index) >> SPLAT_TEX_WIDTH_BITS) & SPLAT_TEX_HEIGHT_MASK;\n uint z = uint(index) >> SPLAT_TEX_LAYER_BITS;\n return ivec3(x, y, z);\n}\n\nivec3 pagedSplatTexCoord(int index) {\n return ivec3(index & 255, (index >> 8) & 255, index >> 16);\n}\n\nvec4 uintToVec4(uint u32) {\n uvec4 bytes = uvec4(\n u32 & 0xFFu,\n (u32 >> 8u) & 0xFFu,\n (u32 >> 16u) & 0xFFu,\n (u32 >> 24u) & 0xFFu\n );\n return vec4(bytes) / 255.0;\n}\n\nvec4 floatToVec4(float f) {\n uint u32 = floatBitsToUint(f);\n return uintToVec4(u32);\n}\n\nvec3 debugColorHue(uint i) {\n // Golden ratio conjugate; spreads hues evenly\n float hue = fract(float(i) * 0.61803398875);\n // HSV to RGB with fixed S/V\n vec3 rgb = clamp(abs(mod(hue*6.0 + vec3(0.0,4.0,2.0), 6.0) - 3.0) - 1.0, 0.0, 1.0);\n return mix(vec3(1.0), rgb, 0.85); // saturation ~0.85, value ~1.0\n}\n","\nprecision highp float;\nprecision highp int;\n\n#include \n\nuniform float near;\nuniform float far;\nuniform bool encodeLinear;\nuniform float time;\nuniform bool debugFlag;\nuniform float maxStdDev;\nuniform float minAlpha;\nuniform bool disableFalloff;\nuniform float falloff;\n\nout vec4 fragColor;\n\nin vec4 vRgba;\nin vec2 vSplatUv;\nin vec3 vNdc;\nflat in uint vSplatIndex;\nflat in float adjustedStdDev;\n\n#include \n\nvoid main() {\n vec4 rgba = vRgba;\n\n float z2 = dot(vSplatUv, vSplatUv);\n if (z2 > (adjustedStdDev * adjustedStdDev)) {\n discard;\n }\n\n if (false) {\n // if (debugFlag) {\n float a = rgba.a;\n float shifted = sqrt(z2) - max(0.0, a - 1.0);\n float exponent = -0.5 * max(1.0, a) * sqr(max(0.0, shifted));\n float min1a = min(1.0, a);\n rgba.a = mix(min1a, min1a * exp(exponent), falloff);\n } else {\n // New falloff function, more or less equivalent\n if (rgba.a <= 1.0) {\n rgba.a = mix(rgba.a, rgba.a * exp(-0.5 * z2), falloff);\n } else {\n float a = exp((rgba.a*rgba.a - 1.0) / 2.718281828459045);\n float alpha = 1.0 - pow(1.0 - exp(-0.5 * z2), a);\n rgba.a = mix(1.0, alpha, falloff);\n }\n }\n\n if (rgba.a < minAlpha) {\n discard;\n }\n if (encodeLinear) {\n rgba.rgb = srgbToLinear(rgba.rgb);\n }\n\n #ifdef PREMULTIPLIED_ALPHA\n fragColor = vec4(rgba.rgb * rgba.a, rgba.a);\n #else\n fragColor = rgba;\n #endif\n\n #include \n}\n","\nprecision highp float;\nprecision highp int;\nprecision highp usampler2DArray;\n\n#include \n\nout vec4 vRgba;\nout vec2 vSplatUv;\nout vec3 vNdc;\nflat out uint vSplatIndex;\nflat out float adjustedStdDev;\n\n// uniform uint numSplats;\nuniform vec2 renderSize;\nuniform vec4 renderToViewQuat;\nuniform vec3 renderToViewPos;\nuniform mat3 renderToViewBasis;\nuniform float maxStdDev;\nuniform float minPixelRadius;\nuniform float maxPixelRadius;\nuniform bool enableExtSplats;\nuniform bool enableCovSplats;\nuniform float time;\nuniform float deltaTime;\nuniform bool debugFlag;\nuniform float minAlpha;\nuniform bool enable2DGS;\nuniform bool lodInflate;\nuniform float blurAmount;\nuniform float preBlurAmount;\nuniform float focalDistance;\nuniform float apertureAngle;\nuniform float clipXY;\nuniform float focalAdjustment;\n\nuniform usampler2D ordering;\nuniform usampler2DArray extSplats;\nuniform usampler2DArray extSplats2;\n\n// Required by logdepthbuf_pars_vertex (normally defined in three.js #include )\nbool isPerspectiveMatrix( mat4 m ) {\n return m[ 2 ][ 3 ] == -1.0;\n}\n\n#include \n\nvoid main() {\n // Default to outside the frustum so it's discarded if we return early\n gl_Position = vec4(0.0, 0.0, 2.0, 1.0);\n\n ivec2 orderingCoord = ivec2((gl_InstanceID >> 2) & 4095, gl_InstanceID >> 14);\n uint splatIndex = texelFetch(ordering, orderingCoord, 0)[gl_InstanceID & 3];\n if (splatIndex == 0xffffffffu) {\n // Special value reserved for \"no splat\"\n return;\n }\n\n ivec3 texCoord = splatTexCoord(int(splatIndex));\n vec3 center, scales, xxyyzz, xyxzyz;\n vec4 quaternion, rgba;\n mat3 cov3D;\n bvec3 zeroScales = bvec3(false);\n\n if (enableExtSplats) {\n uvec4 ext1 = texelFetch(extSplats, texCoord, 0);\n float alpha = unpackSplatExtAlpha(ext1);\n if ((alpha == 0.0) || (alpha < minAlpha)) {\n return;\n }\n uvec4 ext2 = texelFetch(extSplats2, texCoord, 0);\n\n if (!enableCovSplats) {\n unpackSplatExt(ext1, ext2, center, scales, quaternion, rgba);\n zeroScales = equal(scales, vec3(0.0));\n if (all(zeroScales)) {\n return;\n }\n } else {\n unpackSplatExtCov(ext1, ext2, center, rgba, xxyyzz, xyxzyz);\n if (all(equal(xxyyzz, vec3(0.0))) && all(equal(xyxzyz, vec3(0.0)))) {\n return;\n }\n }\n } else {\n uvec4 packed = texelFetch(extSplats, texCoord, 0);\n if (!enableCovSplats) {\n unpackSplatEncoding(packed, center, scales, quaternion, rgba, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n zeroScales = equal(scales, vec3(0.0));\n if (all(zeroScales)) {\n return;\n }\n } else {\n unpackSplatCovEncoding(packed, center, rgba, xxyyzz, xyxzyz, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n if (all(equal(xxyyzz, vec3(0.0))) && all(equal(xyxzyz, vec3(0.0)))) {\n return;\n }\n }\n\n rgba.a *= 2.0;\n if ((rgba.a == 0.0) || (rgba.a < minAlpha)) {\n return;\n }\n }\n\n adjustedStdDev = maxStdDev;\n if (rgba.a > 1.0) {\n // Stretch 1..2 to 1..5\n rgba.a = min(rgba.a * 4.0 - 3.0, 5.0);\n\n if (lodInflate) {\n // Adjust size to componsate for loss of opacity\n float opacity = exp((rgba.a * rgba.a - 1.0) / 2.718281828459045);\n float rescale = pow(opacity, 1.0 / 3.0);\n scales *= rescale;\n rgba.a = 1.0;\n }\n\n // Expand the maximum std dev to approximately cover the larger range\n adjustedStdDev = maxStdDev + 0.7 * (rgba.a - 1.0);\n }\n\n // Compute the view space center of the splat\n vec3 viewCenter = (!enableCovSplats ? quatVec(renderToViewQuat, center) : (renderToViewBasis * center)) + renderToViewPos;\n\n // Discard splats behind the camera\n if (viewCenter.z >= 0.0) {\n return;\n }\n\n // Compute the clip space center of the splat\n vec4 clipCenter = projectionMatrix * vec4(viewCenter, 1.0);\n\n // Discard splats outside near/far planes\n if (abs(clipCenter.z) >= clipCenter.w) {\n return;\n }\n\n // Discard splats more than clipXY times outside the XY frustum\n float clip = clipXY * clipCenter.w;\n if (abs(clipCenter.x) > clip || abs(clipCenter.y) > clip) {\n return;\n }\n\n vRgba = rgba;\n vSplatUv = position.xy * adjustedStdDev;\n\n // Record the splat index for entropy\n vSplatIndex = splatIndex;\n\n if (!enableCovSplats) {\n // Compute view space quaternion of splat\n vec4 viewQuaternion = quatQuat(renderToViewQuat, quaternion);\n\n if (enable2DGS && any(zeroScales)) {\n vec3 offset;\n if (zeroScales.z) {\n offset = vec3(vSplatUv.xy * scales.xy, 0.0);\n } else if (zeroScales.y) {\n offset = vec3(vSplatUv.x * scales.x, 0.0, vSplatUv.y * scales.z);\n } else {\n offset = vec3(0.0, vSplatUv.xy * scales.yz);\n }\n\n vec3 viewPos = viewCenter + quatVec(viewQuaternion, offset);\n gl_Position = projectionMatrix * vec4(viewPos, 1.0);\n vNdc = gl_Position.xyz / gl_Position.w;\n\n #include \n return;\n }\n\n // Compute the 3D covariance matrix of the splat\n mat3 RS = scaleQuaternionToMatrix(scales, viewQuaternion);\n cov3D = RS * transpose(RS);\n } else {\n cov3D = mat3(\n xxyyzz.x, xyxzyz.x, xyxzyz.y,\n xyxzyz.x, xxyyzz.y, xyxzyz.z,\n xyxzyz.y, xyxzyz.z, xxyyzz.z\n );\n cov3D = renderToViewBasis * cov3D * transpose(renderToViewBasis);\n }\n\n // Compute the Jacobian of the splat's projection at its center\n vec2 scaledRenderSize = renderSize * focalAdjustment;\n vec2 focal = 0.5 * scaledRenderSize * vec2(projectionMatrix[0][0], projectionMatrix[1][1]);\n\n mat3 J;\n if (isOrthographic) {\n J = mat3(\n focal.x, 0.0, 0.0,\n 0.0, focal.y, 0.0,\n 0.0, 0.0, 0.0\n );\n } else {\n float invZ = 1.0 / viewCenter.z;\n vec2 J1 = focal * invZ;\n vec2 J2 = -(J1 * viewCenter.xy) * invZ;\n J = mat3(\n J1.x, 0.0, J2.x,\n 0.0, J1.y, J2.y,\n 0.0, 0.0, 0.0\n );\n }\n\n // Compute the 2D covariance by projecting the 3D covariance\n // and picking out the XY plane components.\n mat3 cov2D = transpose(J) * cov3D * J;\n float a = cov2D[0][0];\n float d = cov2D[1][1];\n float b = cov2D[0][1];\n\n // Optionally pre-blur the splat to match non-antialias optimized splats\n a += preBlurAmount;\n d += preBlurAmount;\n\n float fullBlurAmount = blurAmount;\n if ((focalDistance > 0.0) && (apertureAngle > 0.0)) {\n float focusRadius = maxPixelRadius;\n if (viewCenter.z < 0.0) {\n float focusBlur = abs((-viewCenter.z - focalDistance) / viewCenter.z);\n float apertureRadius = focal.x * tan(0.5 * apertureAngle);\n focusRadius = focusBlur * apertureRadius;\n }\n fullBlurAmount = clamp(sqr(focusRadius), blurAmount, sqr(maxPixelRadius));\n }\n\n // Do convolution with a 0.5-pixel Gaussian for anti-aliasing: sqrt(0.3) ~= 0.5\n float detOrig = a * d - b * b;\n a += fullBlurAmount;\n d += fullBlurAmount;\n float det = a * d - b * b;\n\n // Compute anti-aliasing intensity scaling factor\n float blurAdjust = sqrt(max(0.0, detOrig / det));\n rgba.a *= blurAdjust;\n if (rgba.a < minAlpha) {\n return;\n }\n vRgba.a = rgba.a;\n\n // Compute the eigenvalue and eigenvectors of the 2D covariance matrix\n float eigenAvg = 0.5 * (a + d);\n float eigenDelta = sqrt(max(0.0, eigenAvg * eigenAvg - det));\n float eigen1 = eigenAvg + eigenDelta;\n float eigen2 = eigenAvg - eigenDelta;\n\n vec2 eigenVec1 = (abs(b) > 0.001) ? normalize(vec2(b, eigen1 - a))\n : ((a >= d) ? vec2(1.0, 0.0) : vec2(0.0, 1.0));\n vec2 eigenVec2 = vec2(eigenVec1.y, -eigenVec1.x);\n\n float scale1 = min(maxPixelRadius, adjustedStdDev * sqrt(eigen1));\n float scale2 = min(maxPixelRadius, adjustedStdDev * sqrt(eigen2));\n if (scale1 < minPixelRadius && scale2 < minPixelRadius) {\n return;\n }\n\n // Compute the NDC coordinates for the ellipsoid's diagonal axes.\n vec2 pixelOffset = position.x * eigenVec1 * scale1 + position.y * eigenVec2 * scale2;\n vec2 ndcOffset = (2.0 / scaledRenderSize) * pixelOffset;\n\n // Compute NDC center of the splat\n vec3 ndcCenter = clipCenter.xyz / clipCenter.w;\n vec3 ndc = vec3(ndcCenter.xy + ndcOffset, ndcCenter.z);\n\n vNdc = ndc;\n gl_Position = vec4(ndc.xy * clipCenter.w, clipCenter.zw);\n\n #include \n}\n","import * as THREE from \"three\";\n\nimport computeUvec4Template from \"./shaders/computeUvec4.glsl\";\nimport computeUvec4Vec4Template from \"./shaders/computeUvec4_Vec4.glsl\";\nimport computeUvec4x2Vec4Template from \"./shaders/computeUvec4x2_Vec4.glsl\";\nimport computeVec4Template from \"./shaders/computeVec4.glsl\";\nimport oldSplatFragment from \"./shaders/oldSplatFragment.glsl\";\nimport oldSplatVertex from \"./shaders/oldSplatVertex.glsl\";\nimport splatDefines from \"./shaders/splatDefines.glsl\";\nimport splatFragment from \"./shaders/splatFragment.glsl\";\nimport splatVertex from \"./shaders/splatVertex.glsl\";\n\nlet shaders: Record | null = null;\n\nexport function getShaders(): Record {\n if (!shaders) {\n // @ts-ignore\n THREE.ShaderChunk.splatDefines = splatDefines;\n shaders = {\n oldSplatVertex,\n oldSplatFragment,\n splatVertex,\n splatFragment,\n computeVec4Template,\n computeUvec4Vec4Template,\n computeUvec4x2Vec4Template,\n computeUvec4Template,\n };\n }\n return shaders;\n}\n","import * as THREE from \"three\";\nimport { FullScreenQuad } from \"three/addons/postprocessing/Pass.js\";\n\nimport { SPLAT_TEX_HEIGHT, SPLAT_TEX_WIDTH } from \"./defines\";\nimport { type Dyno, OutputRgba8, dynoBlock } from \"./dyno\";\nimport { DynoProgram, DynoProgramTemplate } from \"./dyno/program\";\nimport { getShaders } from \"./shaders\";\nimport { getTextureSize } from \"./utils\";\n\n// Readback can be used to run a Dyno program that maps an index to a 32-bit\n// RGBA8 value, which is the only allowed, portable readback format for WebGL2.\n// Using data packing and conversion you can read back any 32-bit value, which\n// Spark uses to read back 2 float16 Gsplat distance values per index.\n\nexport type Rgba8Readback = Dyno<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n\n// Readback can be performed with various typed buffers, making it convenient\n// to encode readback data in a variety of formats.\n\nexport type ReadbackBuffer =\n | ArrayBuffer\n | Uint8Array\n | Uint8ClampedArray\n | Int8Array\n | Uint16Array\n | Int16Array\n | Uint32Array\n | Int32Array\n | Float32Array;\n\nexport class Readback {\n renderer?: THREE.WebGLRenderer;\n target?: THREE.WebGLArrayRenderTarget;\n capacity: number;\n count: number;\n\n constructor({ renderer }: { renderer?: THREE.WebGLRenderer } = {}) {\n this.renderer = renderer;\n this.capacity = 0;\n this.count = 0;\n }\n\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target = undefined;\n }\n }\n\n // Ensure we have a buffer large enough for the readback of count indices.\n // Pass in previous bufer of the desired type.\n static ensureBuffer(count: number, buffer: B): B {\n // Readback is performed in a 2D array of pixels, so round up with SPLAT_TEX_WIDTH\n const roundedCount =\n Math.ceil(Math.max(1, count) / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n const bytes = roundedCount * 4;\n if (buffer.byteLength >= bytes) {\n return buffer;\n }\n\n // Need a larger buffer, create a new one of the same type\n const newBuffer = new ArrayBuffer(bytes);\n if (buffer instanceof ArrayBuffer) {\n return newBuffer as B;\n }\n\n const ctor = buffer.constructor as { new (arrayBuffer: ArrayBuffer): B };\n return new ctor(newBuffer) as B;\n }\n\n ensureBuffer(count: number, buffer: B): B {\n return Readback.ensureBuffer(count, buffer);\n }\n\n // Ensure our render target is large enough for the readback of capacity indices.\n ensureCapacity(capacity: number) {\n const { width, height, depth, maxSplats } = getTextureSize(capacity);\n if (!this.target || maxSplats > this.capacity) {\n this.dispose();\n this.capacity = maxSplats;\n\n // The only portable readback format for WebGL2 is RGBA8\n this.target = new THREE.WebGLArrayRenderTarget(width, height, depth, {\n depthBuffer: false,\n stencilBuffer: false,\n generateMipmaps: false,\n magFilter: THREE.NearestFilter,\n minFilter: THREE.NearestFilter,\n });\n this.target.texture.format = THREE.RGBAFormat;\n this.target.texture.type = THREE.UnsignedByteType;\n this.target.texture.internalFormat = \"RGBA8\";\n this.target.scissorTest = true;\n }\n }\n\n // Get a program and THREE.RawShaderMaterial for a given Rgba8Readback,\n // generating it if necessary and caching the result.\n prepareProgramMaterial(reader: Rgba8Readback): {\n program: DynoProgram;\n material: THREE.RawShaderMaterial;\n } {\n let program = Readback.readbackProgram.get(reader);\n if (!program) {\n const graph = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n reader.inputs.index = index;\n const rgba8 = new OutputRgba8({ rgba8: reader.outputs.rgba8 });\n return { rgba8 };\n },\n );\n if (!Readback.programTemplate) {\n Readback.programTemplate = new DynoProgramTemplate(\n getShaders().computeVec4Template,\n );\n }\n // Create a program from the template and graph\n program = new DynoProgram({\n graph,\n inputs: { index: \"_index\" },\n outputs: { rgba8: \"target\" },\n template: Readback.programTemplate,\n });\n Object.assign(program.uniforms, {\n targetLayer: { value: 0 },\n targetBase: { value: 0 },\n targetCount: { value: 0 },\n });\n Readback.readbackProgram.set(reader, program);\n }\n\n const material = program.prepareMaterial();\n Readback.fullScreenQuad.material = material;\n return { program, material };\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n private process({\n count,\n material,\n }: { count: number; material: THREE.RawShaderMaterial }) {\n const renderer = this.renderer;\n if (!renderer) {\n throw new Error(\"No renderer\");\n }\n if (!this.target) {\n throw new Error(\"No target\");\n }\n\n // Run the program in \"layer\" chunks, in horizontal row ranges,\n // that cover the total count of indices.\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n material.uniforms.targetBase.value = 0;\n material.uniforms.targetCount.value = count;\n let baseIndex = 0;\n\n // Keep generating layers until completed count items\n while (baseIndex < count) {\n const layer = Math.floor(baseIndex / layerSize);\n const layerBase = layer * layerSize;\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((count - layerBase) / SPLAT_TEX_WIDTH),\n );\n material.uniforms.targetLayer.value = layer;\n\n // Render the desired portion of the layer\n this.target.scissor.set(0, 0, SPLAT_TEX_WIDTH, layerYEnd);\n renderer.setRenderTarget(this.target, layer);\n renderer.xr.enabled = false;\n renderer.autoClear = false;\n Readback.fullScreenQuad.render(renderer);\n\n baseIndex += SPLAT_TEX_WIDTH * layerYEnd;\n }\n\n this.count = count;\n }\n\n private async read({\n readback,\n }: { readback: B }): Promise {\n const renderer = this.renderer;\n if (!renderer) {\n throw new Error(\"No renderer\");\n }\n if (!this.target) {\n throw new Error(\"No target\");\n }\n\n const roundedCount =\n Math.ceil(this.count / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n if (readback.byteLength < roundedCount * 4) {\n throw new Error(\n `Readback buffer too small: ${readback.byteLength} < ${roundedCount * 4}`,\n );\n }\n const readbackUint8 = new Uint8Array(\n readback instanceof ArrayBuffer ? readback : readback.buffer,\n );\n\n // We can only read back one 2D array layer of pixels at a time,\n // so loop through them, initiate the readback, and collect the\n // completion promises.\n\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n let baseIndex = 0;\n const promises = [];\n\n while (baseIndex < this.count) {\n const layer = Math.floor(baseIndex / layerSize);\n const layerBase = layer * layerSize;\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((this.count - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n renderer.setRenderTarget(this.target, layer);\n\n // Compute the subarray that this layer of readback corresponds to\n const readbackSize = SPLAT_TEX_WIDTH * layerYEnd * 4;\n const subReadback = readbackUint8.subarray(\n layerBase * 4,\n layerBase * 4 + readbackSize,\n );\n const promise = renderer?.readRenderTargetPixelsAsync(\n this.target,\n 0,\n 0,\n SPLAT_TEX_WIDTH,\n layerYEnd,\n subReadback,\n );\n promises.push(promise);\n\n baseIndex += SPLAT_TEX_WIDTH * layerYEnd;\n }\n // const gl = renderer.getContext() as WebGL2RenderingContext;\n // gl.flush();\n return Promise.all(promises).then(() => readback);\n }\n\n // Perform render operation to run the Rgba8Readback program\n // but don't perform the readback yet.\n render({\n reader,\n count,\n renderer,\n }: { reader: Rgba8Readback; count: number; renderer?: THREE.WebGLRenderer }) {\n this.renderer = renderer || this.renderer;\n if (!this.renderer) {\n throw new Error(\"No renderer\");\n }\n\n this.ensureCapacity(count);\n\n const { program, material } = this.prepareProgramMaterial(reader);\n program.update();\n\n const renderState = this.saveRenderState(this.renderer);\n this.process({ count, material });\n this.resetRenderState(this.renderer, renderState);\n }\n\n // Perform a readback of the render target, returning a buffer of the\n // given type.\n async readback({\n readback,\n }: { readback: B }): Promise {\n if (!this.renderer) {\n throw new Error(\"No renderer\");\n }\n const renderState = this.saveRenderState(this.renderer);\n const promise = this.read({ readback });\n this.resetRenderState(this.renderer, renderState);\n return promise;\n }\n\n // Perform a render and readback operation for the given Rgba8Readback,\n // and readback buffer (call ensureBuffer first).\n async renderReadback({\n reader,\n count,\n renderer,\n readback,\n }: {\n reader: Rgba8Readback;\n count: number;\n renderer?: THREE.WebGLRenderer;\n readback: B;\n }): Promise {\n this.renderer = renderer || this.renderer;\n if (!this.renderer) {\n throw new Error(\"No renderer\");\n }\n\n this.ensureCapacity(count);\n\n const { program, material } = this.prepareProgramMaterial(reader);\n program.update();\n\n const renderState = this.saveRenderState(this.renderer);\n\n // Generate output\n this.process({ count, material });\n\n // Initiate readback\n const promise = this.read({ readback });\n\n this.resetRenderState(this.renderer, renderState);\n return promise;\n }\n\n getTexture(): THREE.DataArrayTexture | undefined {\n return this.target?.texture;\n }\n\n static programTemplate: DynoProgramTemplate | null = null;\n\n // Cache for Rgba8Readback programs\n static readbackProgram = new WeakMap();\n\n // Static full-screen quad for pseudo-compute shader rendering\n static fullScreenQuad = new FullScreenQuad(\n new THREE.RawShaderMaterial({ visible: false }),\n );\n}\n","import * as THREE from \"three\";\n\nimport { DynoPackedSplats, type PackedSplats } from \"./PackedSplats\";\nimport { Readback, type Rgba8Readback } from \"./Readback\";\nimport { SPLAT_TEX_WIDTH } from \"./defines\";\nimport {\n Dyno,\n type DynoBlock,\n DynoInt,\n DynoUniform,\n type DynoVal,\n add,\n dynoBlock,\n readPackedSplatRange,\n splitGsplat,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { getTextureSize } from \"./utils\";\n\n// An RgbaArray is a collection of ordered RGBA8 values, which can be used as a dyno\n// data source, for example for recoloring Gsplats via SplatMesh.splatRgba.\n// It can be instantiated from a Uint8Array of RGBA8 values, or it can be\n// generated using a Rgba8Readback dyno program.\n\nexport type RgbaArrayOptions = {\n // Reserve space for at least this many RGBA values.\n capacity?: number;\n // Use the provided array of RGBA8 values as the source.\n array?: Uint8Array;\n // The number of actual RGBA8 values in the array.\n count?: number;\n};\n\nexport class RgbaArray {\n capacity = 0;\n count = 0;\n array: Uint8Array | null = null;\n\n readback: Readback | null = null;\n source: THREE.DataArrayTexture | null = null;\n // Set to true if source array is updated to have it upload to GPU\n needsUpdate = true;\n\n // Use this as a TRgbaArray in a dyno graph\n dyno: DynoUniform;\n\n constructor(options: RgbaArrayOptions = {}) {\n this.dyno = new DynoUniform({\n key: \"rgbaArray\",\n type: TRgbaArray,\n globals: () => [defineRgbaArray],\n value: {\n texture: RgbaArray.getEmpty(),\n count: 0,\n },\n update: (value) => {\n value.texture = this.getTexture();\n value.count = this.count;\n return value;\n },\n });\n\n if (options.array) {\n // Initialize with given array\n this.array = options.array;\n const splatCount = Math.floor(this.array.length / 4);\n this.capacity = Math.ceil(splatCount / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n if (this.capacity > splatCount) {\n this.array = new Uint8Array(this.capacity * 4);\n this.array.set(options.array);\n }\n this.count = Math.min(\n splatCount,\n options.count ?? Number.POSITIVE_INFINITY,\n );\n } else {\n this.capacity = options.capacity ?? 0;\n this.count = 0;\n }\n }\n\n // Free up resources\n dispose() {\n if (this.readback) {\n this.readback.dispose();\n this.readback = null;\n }\n if (this.source) {\n this.source.dispose();\n this.source = null;\n }\n }\n\n // Ensure that our array is large enough to hold capacity RGBA8 values.\n ensureCapacity(capacity: number): Uint8Array {\n if (!this.array || capacity > (this.array?.length ?? 0) / 4) {\n this.capacity = getTextureSize(capacity).maxSplats;\n const newArray = new Uint8Array(this.capacity * 4);\n if (this.array) {\n // Copy over existing data\n newArray.set(this.array);\n }\n this.array = newArray;\n }\n return this.array;\n }\n\n // Get the THREE.DataArrayTexture from either the readback or the source.\n getTexture(): THREE.DataArrayTexture {\n let texture = this.readback?.getTexture();\n if (this.source || this.array) {\n texture = this.maybeUpdateSource();\n }\n return texture ?? RgbaArray.getEmpty();\n }\n\n // Create or get a THREE.DataArrayTexture from the data array.\n private maybeUpdateSource(): THREE.DataArrayTexture {\n if (!this.array) {\n throw new Error(\"No array\");\n }\n\n if (this.needsUpdate || !this.source) {\n this.needsUpdate = false;\n\n if (this.source) {\n const { width, height, depth } = this.source.image;\n if (this.capacity !== width * height * depth) {\n this.source.dispose();\n this.source = null;\n }\n }\n if (!this.source) {\n const { width, height, depth } = getTextureSize(this.capacity);\n this.source = new THREE.DataArrayTexture(\n this.array as Uint8Array,\n width,\n height,\n depth,\n );\n this.source.format = THREE.RGBAFormat;\n this.source.type = THREE.UnsignedByteType;\n this.source.internalFormat = \"RGBA8\";\n this.source.needsUpdate = true;\n } else if (this.array.buffer !== this.source.image.data.buffer) {\n this.source.image.data = new Uint8Array(this.array.buffer);\n }\n this.source.needsUpdate = true;\n }\n return this.source;\n }\n\n // Generate the RGBA8 values from a Rgba8Readback dyno program.\n render({\n reader,\n count,\n renderer,\n }: { reader: Rgba8Readback; count: number; renderer: THREE.WebGLRenderer }) {\n if (!this.readback) {\n this.readback = new Readback({ renderer });\n }\n this.readback.render({ reader, count, renderer });\n this.capacity = this.readback.capacity;\n this.count = this.readback.count;\n }\n\n // Extract the RGBA8 values from a PackedSplats collection.\n fromPackedSplats({\n packedSplats,\n base,\n count,\n renderer,\n }: {\n packedSplats: PackedSplats;\n base: number;\n count: number;\n renderer: THREE.WebGLRenderer;\n }) {\n const { dynoSplats, dynoBase, dynoCount, reader } = RgbaArray.makeDynos();\n dynoSplats.packedSplats = packedSplats;\n dynoBase.value = base;\n dynoCount.value = count;\n this.render({ reader, count, renderer });\n return this;\n }\n\n // Read back the RGBA8 values from the readback buffer.\n async read(): Promise {\n if (!this.readback) {\n throw new Error(\"No readback\");\n }\n if (!this.array || this.array.length < this.count * 4) {\n this.array = new Uint8Array(this.capacity * 4);\n }\n const result = await this.readback.readback({ readback: this.array });\n return result.subarray(0, this.count * 4);\n }\n\n async getArray(): Promise {\n if (this.readback) {\n return await this.read();\n }\n if (this.array) {\n return this.array;\n }\n throw new Error(\"No array\");\n }\n\n private static emptySource: THREE.DataArrayTexture | null = null;\n\n // Can be used where you need an uninitialized THREE.DataArrayTexture like\n // a uniform you will update with the result of this.getTexture() later.\n static getEmpty(): THREE.DataArrayTexture {\n if (!RgbaArray.emptySource) {\n const emptyArray = new Uint8Array(1 * 4);\n RgbaArray.emptySource = new THREE.DataArrayTexture(emptyArray, 1, 1, 1);\n RgbaArray.emptySource.format = THREE.RGBAFormat;\n RgbaArray.emptySource.type = THREE.UnsignedByteType;\n RgbaArray.emptySource.internalFormat = \"RGBA8\";\n RgbaArray.emptySource.needsUpdate = true;\n }\n return RgbaArray.emptySource;\n }\n\n private static dynos: {\n dynoSplats: DynoPackedSplats;\n dynoBase: DynoInt;\n dynoCount: DynoInt;\n reader: DynoBlock<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n } | null = null;\n\n // Create a dyno program that can extract RGBA8 values from a PackedSplats\n private static makeDynos() {\n if (!RgbaArray.dynos) {\n const dynoSplats = new DynoPackedSplats();\n const dynoBase = new DynoInt({ value: 0 });\n const dynoCount = new DynoInt({ value: 0 });\n const reader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n index = add(index, dynoBase);\n const gsplat = readPackedSplatRange(\n dynoSplats,\n index,\n dynoBase,\n dynoCount,\n );\n return { rgba8: splitGsplat(gsplat).outputs.rgba };\n },\n );\n RgbaArray.dynos = { dynoSplats, dynoBase, dynoCount, reader };\n }\n return RgbaArray.dynos;\n }\n}\n\n// Dyno types and definitions\n\nexport const TRgbaArray = { type: \"RgbaArray\" } as { type: \"RgbaArray\" };\n\nexport const defineRgbaArray = unindent(`\n struct RgbaArray {\n sampler2DArray texture;\n int count;\n };\n`);\n\nexport function readRgbaArray(\n rgba: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal<\"vec4\"> {\n const dyno = new Dyno<\n { rgba: typeof TRgbaArray; index: \"int\" },\n { rgba: \"vec4\" }\n >({\n inTypes: { rgba: TRgbaArray, index: \"int\" },\n outTypes: { rgba: \"vec4\" },\n inputs: { rgba, index },\n globals: () => [defineRgbaArray],\n statements: ({ inputs, outputs }) =>\n unindentLines(`\n if ((${inputs.index} >= 0) && (${inputs.index} < ${inputs.rgba}.count)) {\n ${outputs.rgba} = texelFetch(${inputs.rgba}.texture, splatTexCoord(${inputs.index}), 0);\n } else {\n ${outputs.rgba} = vec4(0.0, 0.0, 0.0, 0.0);\n }\n `),\n });\n return dyno.outputs.rgba;\n}\n","import * as THREE from \"three\";\n\nimport {\n CovSplat,\n Dyno,\n DynoInt,\n DynoUniform,\n type DynoVal,\n Gsplat,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { newArray } from \"./utils\";\n\n// Spark provides the ability to apply \"edits\" to Gsplats as part of the standard\n// SplatMesh pipeline. These edits take the form of a sequence of operations,\n// applied one at a time to the set of Gsplats in its packedSplats. Each operation\n// evaluates a 7-dimensional field (RGBA and XYZ displacement) at each point in\n// space that derives from N=1 or more Signed Distance Field shapes (such as spheres,\n// boxes, planes, etc.), blended together and across inside-outisde boundaries.\n\n// The result is a an RGBA,XYZ value for each point in space, which combined with\n// SplatEditRgbaBlendMode.MULTIPLY/SET_RGB/ADD_RGBA can be used to create special\n// effects, for example simulating simple lighting or applying deformations in space,\n// whose parameters can be updated each frame to create animated effects.\n\n// RGBA-XYZ values are computed by blending together values from all SDF shapes using\n// the exponential \"softmax\" function, which is commutative (so blending order within\n// a SplatEdit operation doesn't matter). The parameter SplatEdit.sdfSmooth controls\n// the blending scale between SDF shapes, while SplatEdit.softEdge controls the scale\n// of soft inside-outside shape edit blending. Their default values start at 0.0 and\n// should be increased to soften the effect.\n\n// Note that XYZ displacement values are blended in the same way as RGBA, with a\n// resulting displacement field that can be quite complex but \"softly\" blending\n// between shapes. These RGBA-XYZ edits, along with time-based and overlapping\n// fields can create many interesting animations and special effects, such as\n// rippling leaves in the wind, an angry fire, or a looping water effects. Simply\n// update the SplatEdit and SplatEditSdf objects and the operations will be applied\n// immediately to the Gsplats in the scene.\n\nexport enum SplatEditSdfType {\n // ALL: Affects all points in space\n ALL = \"all\",\n // PLANE: Infinite plane (position, rotation)\n PLANE = \"plane\",\n // SPHERE: Sphere (position, radius)\n SPHERE = \"sphere\",\n // BOX: Rounded box (position, rotation, sizes, radius)\n BOX = \"box\",\n // ELLIPSOID: Ellipsoid (position, rotation, sizes)\n ELLIPSOID = \"ellipsoid\",\n // CYLINDER: Cylinder (position, rotation, radius, size_y)\n CYLINDER = \"cylinder\",\n // CAPSULE: Capsule (position, rotation, radius, size_y)\n CAPSULE = \"capsule\",\n // INFINITE_CONE: Infinite cone (position, rotation, radius=angle)\n INFINITE_CONE = \"infinite_cone\",\n}\n\nfunction sdfTypeToNumber(type: SplatEditSdfType) {\n switch (type) {\n case SplatEditSdfType.ALL:\n return 0;\n case SplatEditSdfType.PLANE:\n return 1;\n case SplatEditSdfType.SPHERE:\n return 2;\n case SplatEditSdfType.BOX:\n return 3;\n case SplatEditSdfType.ELLIPSOID:\n return 4;\n case SplatEditSdfType.CYLINDER:\n return 5;\n case SplatEditSdfType.CAPSULE:\n return 6;\n case SplatEditSdfType.INFINITE_CONE:\n return 7;\n default:\n throw new Error(`Unknown SDF type: ${type}`);\n }\n}\n\nexport enum SplatEditRgbaBlendMode {\n // The RGBA of the splat is multiplied component-wise by the SDF’s\n // RGBA value at that point in space.\n MULTIPLY = \"multiply\",\n // Ignore the Alpha value in the SDF, but set the splat’s RGB to\n // equal the SDF’s RGB value at that point.\n SET_RGB = \"set_rgb\",\n // Add the SDF’s RGBA value at that point to the RGBA value of\n // the Gsplat. This can produce hyper-saturated results, but is useful\n // to easily “light up” areas.\n ADD_RGBA = \"add_rgba\",\n}\n\nfunction rgbaBlendModeToNumber(mode: SplatEditRgbaBlendMode) {\n switch (mode) {\n case SplatEditRgbaBlendMode.MULTIPLY:\n return 0;\n case SplatEditRgbaBlendMode.SET_RGB:\n return 1;\n case SplatEditRgbaBlendMode.ADD_RGBA:\n return 2;\n default:\n throw new Error(`Unknown blend mode: ${mode}`);\n }\n}\n\nexport type SplatEditSdfOptions = {\n // The SDF shape type: ALL, PLANE, SPHERE, BOX, ELLIPSOID, CYLINDER, CAPSULE,\n // or INFINITE_CONE. (default: SplatEditSdfType.SPHERE)\n type?: SplatEditSdfType;\n // Invert the SDF evaluation, swapping inside and outside regions. (default: false)\n invert?: boolean;\n // Opacity / \"alpha\" value used differently by blending modes (default: 1.0)\n opacity?: number;\n // RGB color applied within the shape. (default: new THREE.Color(1.0, 1.0, 1.0))\n color?: THREE.Color;\n // XYZ displacement applied to splat positions inside the shape.\n // (default: new THREE.Vector3(0.0, 0.0, 0.0))\n displace?: THREE.Vector3;\n // Shape-specific size parameter: sphere radius, box corner rounding,\n // cylinder/capsule radius, or for the infinite cone the angle factor\n // (opening half-angle = π/4 × radius).\n radius?: number;\n};\n\nexport class SplatEditSdf extends THREE.Object3D {\n type: SplatEditSdfType;\n invert: boolean;\n opacity: number;\n color: THREE.Color;\n displace: THREE.Vector3;\n radius: number;\n\n constructor(options: SplatEditSdfOptions = {}) {\n super();\n const { type, invert, opacity, color, displace, radius } = options;\n this.type = type ?? SplatEditSdfType.SPHERE;\n this.invert = invert ?? false;\n this.opacity = opacity ?? 1.0;\n this.color = color ?? new THREE.Color(1.0, 1.0, 1.0);\n this.displace = displace ?? new THREE.Vector3(0.0, 0.0, 0.0);\n this.radius = radius ?? 0.0;\n }\n}\n\nexport type SplatEditOptions = {\n // Name of this edit operation. If you omit it, a default \"Edit 1\", \"Edit 2\", ...\n // is assigned.\n name?: string;\n // How the SDF’s RGBA modifies each splat’s RGBA: multiply, overwrite RGB,\n // or add RGBA. (default: MULTIPLY)\n rgbaBlendMode?: SplatEditRgbaBlendMode;\n // Smoothing (in world‐space units) for blending between multiple SDF shapes\n // at their boundaries. (default: 0.0)\n sdfSmooth?: number;\n // Soft‐edge falloff radius (in world‐space units) around each SDF shape’s surface.\n // (default: 0.0)\n softEdge?: number;\n // Invert the SDF evaluation (inside/outside swap). (default: false)\n invert?: boolean;\n // Explicit array of SplatEditSdf objects to include. If null, any child\n // SplatEditSdf instances are used.\n sdfs?: SplatEditSdf[];\n};\n\nexport class SplatEdit extends THREE.Object3D {\n // ordering used to apply SplatEdit operations to Gsplats. This is implicitly\n // increased with each new SplatEdit. Reassigning ordering can be used to\n // reorder the operations.\n ordering: number;\n rgbaBlendMode: SplatEditRgbaBlendMode;\n sdfSmooth: number;\n softEdge: number;\n invert: boolean;\n\n // Optional list of explicit SDFs to including in this edit. If it is null, then\n // any SplatEditSdf children in the scene graph will be added automatically.\n sdfs: SplatEditSdf[] | null;\n\n // The next ordering number to use for a new SplatEdit, auto-incremented\n static nextOrdering = 1;\n\n constructor(options: SplatEditOptions = {}) {\n const {\n name,\n rgbaBlendMode = SplatEditRgbaBlendMode.MULTIPLY,\n sdfSmooth = 0.0,\n softEdge = 0.0,\n invert = false,\n sdfs = null,\n } = options;\n\n super();\n this.rgbaBlendMode = rgbaBlendMode;\n this.sdfSmooth = sdfSmooth;\n this.softEdge = softEdge;\n this.invert = invert;\n this.sdfs = sdfs;\n // Assign and auto-increment unique ordering number for this edit\n this.ordering = SplatEdit.nextOrdering++;\n // Automatically assign a default name if not provided\n this.name = name ?? `Edit ${this.ordering}`;\n }\n\n addSdf(sdf: SplatEditSdf) {\n if (this.sdfs == null) {\n this.sdfs = [];\n }\n if (!this.sdfs.includes(sdf)) {\n this.sdfs.push(sdf);\n }\n }\n\n removeSdf(sdf: SplatEditSdf) {\n if (this.sdfs == null) {\n return;\n }\n this.sdfs = this.sdfs.filter((s) => s !== sdf);\n }\n}\n\n// Dyno implementation of RGBA-XYZ SDF editing.\n// The SDFs are encoded in a texture while the edits are encoded\n// as a uniform uvec4 array.\n\nexport class SplatEdits {\n // Maximum number of SDFs allocated\n maxSdfs: number;\n // Number of SDFs currently in use\n numSdfs: number;\n // Encoded SDF data\n sdfData: Uint32Array;\n // Float interpretation of SDF data\n sdfFloatData: Float32Array;\n // Texture with encoded SDF data\n sdfTexture: THREE.DataTexture;\n // An SdfArray dyno uniform\n dynoSdfArray: DynoUniform;\n\n // Maximum number of edits allocated\n maxEdits: number;\n // Number of edits currently in use\n numEdits: number;\n // Encoded edit data\n editData: Uint32Array;\n // Float interpretation of edit data\n editFloatData: Float32Array;\n // A dyno uniform for the number of edits\n dynoNumEdits: DynoUniform<\"int\", \"numEdits\">;\n // A dyno uniform for the encoded edits, one uvec4 per edit\n dynoEdits: DynoUniform<\"uvec4\", \"edits\">;\n\n constructor({ maxSdfs, maxEdits }: { maxSdfs?: number; maxEdits?: number }) {\n // Allocate at least 16 SDFs for efficiency\n this.maxSdfs = Math.max(16, maxSdfs ?? 0);\n this.numSdfs = 0;\n\n // Allocate space: 8 x (u)vec4 values per SDF, Uint32 and Float32 arrays\n this.sdfData = new Uint32Array(this.maxSdfs * 8 * 4);\n this.sdfFloatData = new Float32Array(this.sdfData.buffer);\n this.sdfTexture = this.newSdfTexture(this.sdfData, this.maxSdfs);\n this.dynoSdfArray = new DynoUniform({\n key: \"sdfArray\",\n type: SdfArray,\n globals: () => [defineSdfArray],\n value: {\n numSdfs: 0,\n sdfTexture: this.sdfTexture,\n },\n update: (uniform) => {\n uniform.numSdfs = this.numSdfs;\n uniform.sdfTexture = this.sdfTexture;\n return uniform;\n },\n });\n\n // Allocate at least 16 edits slots for efficiency\n this.maxEdits = Math.max(16, maxEdits ?? 0);\n this.numEdits = 0;\n // Allocate space: 1 uvec4 per edit\n this.editData = new Uint32Array(this.maxEdits * 4);\n this.editFloatData = new Float32Array(this.editData.buffer);\n this.dynoNumEdits = new DynoInt({ value: 0 });\n this.dynoEdits = this.newEdits(this.editData, this.maxEdits);\n }\n\n private newSdfTexture(data: Uint32Array, maxSdfs: number) {\n const texture = new THREE.DataTexture(\n data,\n 8,\n maxSdfs,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n }\n\n private newEdits(data: Uint32Array, maxEdits: number) {\n return new DynoUniform({\n key: \"edits\",\n type: \"uvec4\",\n count: maxEdits,\n globals: () => [defineEdit],\n value: data,\n });\n }\n\n // Ensure our SDF texture and edits uniform array have enough capacity.\n // Reallocate if not.\n private ensureCapacity({\n maxSdfs,\n maxEdits,\n }: { maxSdfs: number; maxEdits: number }): boolean {\n let dynoUpdated = false;\n if (maxSdfs > this.sdfTexture.image.height) {\n this.sdfTexture.dispose();\n // At least double the size to avoid frequent reallocations\n this.maxSdfs = Math.max(this.maxSdfs * 2, maxSdfs);\n this.sdfData = new Uint32Array(this.maxSdfs * 8 * 4);\n this.sdfFloatData = new Float32Array(this.sdfData.buffer);\n this.sdfTexture = this.newSdfTexture(this.sdfData, this.maxSdfs);\n }\n if (maxEdits > (this.dynoEdits.count ?? 0)) {\n // At least double the size to avoid frequent reallocations\n this.maxEdits = Math.max(this.maxEdits * 2, maxEdits);\n this.editData = new Uint32Array(this.maxEdits * 4);\n this.editFloatData = new Float32Array(this.editData.buffer);\n this.dynoEdits = this.newEdits(this.editData, this.maxEdits);\n dynoUpdated = true;\n }\n return dynoUpdated;\n }\n\n private updateEditData(offset: number, value: number): boolean {\n // Update an edit uint32 value and return true if it changed\n const updated = this.editData[offset] !== value;\n this.editData[offset] = value;\n return updated;\n }\n\n private updateEditFloatData(offset: number, value: number): boolean {\n // Update an edit float32 value and return true if it changed\n tempFloat32[0] = value;\n const updated = this.editFloatData[offset] !== tempFloat32[0];\n if (updated) {\n this.editFloatData[offset] = tempFloat32[0];\n }\n return updated;\n }\n\n private encodeEdit(\n editIndex: number,\n {\n sdfFirst,\n sdfCount,\n invert,\n rgbaBlendMode,\n softEdge,\n sdfSmooth,\n }: {\n sdfFirst: number;\n sdfCount: number;\n invert: boolean;\n rgbaBlendMode: number;\n softEdge: number;\n sdfSmooth: number;\n },\n ): boolean {\n const base = editIndex * 4;\n let updated = false;\n // Encode the edit fields into the editData array and check if any changed\n updated =\n this.updateEditData(base + 0, rgbaBlendMode | (invert ? 1 << 8 : 0)) ||\n updated;\n updated =\n this.updateEditData(base + 1, sdfFirst | (sdfCount << 16)) || updated;\n updated = this.updateEditFloatData(base + 2, softEdge) || updated;\n updated = this.updateEditFloatData(base + 3, sdfSmooth) || updated;\n return updated;\n }\n\n private updateSdfData(offset: number, value: number): boolean {\n // Update an SDF uint32 value and return true if it changed\n const updated = this.sdfData[offset] !== value;\n this.sdfData[offset] = value;\n return updated;\n }\n\n private updateSdfFloatData(offset: number, value: number): boolean {\n // Update an SDF float32 value and return true if it changed\n tempFloat32[0] = value;\n const updated = this.sdfFloatData[offset] !== tempFloat32[0];\n if (updated) {\n this.sdfFloatData[offset] = tempFloat32[0];\n }\n return updated;\n }\n\n private encodeSdf(\n sdfIndex: number,\n {\n sdfType,\n invert,\n center,\n quaternion,\n scale,\n sizes,\n }: {\n sdfType: number;\n invert?: boolean;\n center?: THREE.Vector3;\n quaternion?: THREE.Quaternion;\n scale?: THREE.Vector3;\n sizes?: THREE.Vector4;\n },\n values: THREE.Vector4[],\n ): boolean {\n // Encode the SDF fields into the sdfData array and check if any changed\n const base = sdfIndex * (8 * 4);\n const flags = sdfType | (invert ? 1 << 8 : 0);\n let updated = false;\n\n updated = this.updateSdfFloatData(base + 0, center?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 1, center?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 2, center?.z ?? 0) || updated;\n updated = this.updateSdfData(base + 3, flags) || updated;\n\n updated = this.updateSdfFloatData(base + 4, quaternion?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 5, quaternion?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 6, quaternion?.z ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 7, quaternion?.w ?? 0) || updated;\n\n updated = this.updateSdfFloatData(base + 8, scale?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 9, scale?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 10, scale?.z ?? 0) || updated;\n updated = this.updateSdfData(base + 11, 0) || updated;\n\n updated = this.updateSdfFloatData(base + 12, sizes?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 13, sizes?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 14, sizes?.z ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 15, sizes?.w ?? 0) || updated;\n\n const nValues = Math.min(4, values.length);\n for (let i = 0; i < nValues; ++i) {\n const vBase = base + 16 + i * 4;\n updated = this.updateSdfFloatData(vBase + 0, values[i].x) || updated;\n updated = this.updateSdfFloatData(vBase + 1, values[i].y) || updated;\n updated = this.updateSdfFloatData(vBase + 2, values[i].z) || updated;\n updated = this.updateSdfFloatData(vBase + 3, values[i].w) || updated;\n }\n return updated;\n }\n\n // Update the SDFs and edits from an array of SplatEdits and their\n // associated SplatEditSdfs, updating it for the dyno shader program.\n update(edits: { edit: SplatEdit; sdfs: SplatEditSdf[] }[]): {\n updated: boolean;\n dynoUpdated: boolean;\n } {\n const sdfCount = edits.reduce((total, { sdfs }) => total + sdfs.length, 0);\n const dynoUpdated = this.ensureCapacity({\n maxEdits: edits.length,\n maxSdfs: sdfCount,\n });\n\n const values = [new THREE.Vector4(), new THREE.Vector4()];\n const center = new THREE.Vector3();\n const quaternion = new THREE.Quaternion();\n const scale = new THREE.Vector3();\n const sizes = new THREE.Vector4();\n\n let sdfIndex = 0;\n let updated = dynoUpdated;\n\n if (edits.length !== this.dynoNumEdits.value) {\n this.dynoNumEdits.value = edits.length;\n this.numEdits = edits.length;\n updated = true;\n }\n\n for (const [editIndex, { edit, sdfs }] of edits.entries()) {\n updated =\n this.encodeEdit(editIndex, {\n sdfFirst: sdfIndex,\n sdfCount: sdfs.length,\n invert: edit.invert,\n rgbaBlendMode: rgbaBlendModeToNumber(edit.rgbaBlendMode),\n softEdge: edit.softEdge,\n sdfSmooth: edit.sdfSmooth,\n }) || updated;\n\n let sdfUpdated = false;\n for (const sdf of sdfs) {\n sizes.set(sdf.scale.x, sdf.scale.y, sdf.scale.z, sdf.radius);\n // Temporarily set the SDF scale to 1.0 to get the world-to-SDF\n // transform without scaling. The SDF treats the scale separately.\n sdf.scale.setScalar(1.0);\n sdf.updateMatrixWorld();\n const worldToSdf = sdf.matrixWorld.clone().invert();\n worldToSdf.decompose(center, quaternion, scale);\n\n sdf.scale.set(sizes.x, sizes.y, sizes.z);\n sdf.updateMatrixWorld();\n\n values[0].set(sdf.color.r, sdf.color.g, sdf.color.b, sdf.opacity);\n values[1].set(sdf.displace.x, sdf.displace.y, sdf.displace.z, 1.0);\n\n sdfUpdated =\n this.encodeSdf(\n sdfIndex,\n {\n sdfType: sdfTypeToNumber(sdf.type),\n invert: sdf.invert,\n center,\n quaternion,\n scale,\n sizes,\n },\n values,\n ) || sdfUpdated;\n\n sdfIndex += 1;\n }\n this.numSdfs = sdfIndex;\n if (sdfUpdated) {\n this.sdfTexture.needsUpdate = true;\n }\n updated ||= sdfUpdated;\n }\n return { updated, dynoUpdated };\n }\n\n // Modify a Gsplat in a dyno shader program using the current edits and SDFs.\n modify(gsplat: DynoVal): DynoVal {\n return applyGsplatRgbaDisplaceEdits(\n gsplat,\n this.dynoSdfArray,\n this.dynoNumEdits,\n this.dynoEdits,\n );\n }\n\n modifyCov(covsplat: DynoVal): DynoVal {\n return applyCovSplatRgbaDisplaceEdits(\n covsplat,\n this.dynoSdfArray,\n this.dynoNumEdits,\n this.dynoEdits,\n );\n }\n}\n\n// Dyno types and components:\n\n// An SdfArray contains a collection of SDFs encoded in a texture.\n// Each SDF has a type and geometric parameters, but also encodes\n// 4 x vec4 values, which can all be blended across multiple SDFs.\n// The SplatEdit system uses 7 of these 16 values to encode RGBA-XYZ edits,\n// but more can be added, and these SDFs can be used for entirely different\n// purposes as well.\n\nexport const SdfArray = { type: \"SdfArray\" } as { type: \"SdfArray\" };\n\nexport const defineSdfArray = unindent(`\n struct SdfArray {\n int numSdfs;\n usampler2D sdfTexture;\n };\n\n void unpackSdfArray(\n usampler2D sdfTexture, int sdfIndex, out uint flags,\n out vec3 center, out vec4 quaternion, out vec3 scale, out vec4 sizes,\n int numValues, out vec4 values[4]\n ) {\n uvec4 temp = texelFetch(sdfTexture, ivec2(0, sdfIndex), 0);\n flags = temp.w;\n center = vec3(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z));\n\n temp = texelFetch(sdfTexture, ivec2(1, sdfIndex), 0);\n quaternion = vec4(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z), uintBitsToFloat(temp.w));\n\n temp = texelFetch(sdfTexture, ivec2(2, sdfIndex), 0);\n scale = vec3(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z));\n\n temp = texelFetch(sdfTexture, ivec2(3, sdfIndex), 0);\n sizes = vec4(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z), uintBitsToFloat(temp.w));\n\n for (int i = 0; i < numValues; ++i) {\n temp = texelFetch(sdfTexture, ivec2(4 + i, sdfIndex), 0);\n values[i] = vec4(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z), uintBitsToFloat(temp.w));\n }\n }\n\n const uint SDF_FLAG_TYPE = 0xFFu;\n const uint SDF_FLAG_INVERT = 1u << 8u;\n\n const uint SDF_TYPE_ALL = 0u;\n const uint SDF_TYPE_PLANE = 1u;\n const uint SDF_TYPE_SPHERE = 2u;\n const uint SDF_TYPE_BOX = 3u;\n const uint SDF_TYPE_ELLIPSOID = 4u;\n const uint SDF_TYPE_CYLINDER = 5u;\n const uint SDF_TYPE_CAPSULE = 6u;\n const uint SDF_TYPE_INFINITE_CONE = 7u;\n\n float evaluateSdfArray(\n usampler2D sdfTexture, int numSdfs, int sdfFirst, int sdfCount, vec3 pos,\n float smoothK, int numValues, out vec4 outValues[4]\n ) {\n float distanceAccum = (smoothK == 0.0) ? 1.0 / 0.0 : 0.0;\n float maxExp = -1.0 / 0.0;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] = vec4(0.0);\n }\n\n uint flags;\n vec3 center, scale;\n vec4 quaternion, sizes;\n vec4 values[4];\n\n int sdfLast = min(sdfFirst + sdfCount, numSdfs);\n for (int index = sdfFirst; index < sdfLast; ++index) {\n unpackSdfArray(sdfTexture, index, flags, center, quaternion, scale, sizes, numValues, values);\n uint sdfType = flags & SDF_FLAG_TYPE;\n vec3 sdfPos = quatVec(quaternion, pos * scale) + center;\n\n float distance;\n switch (sdfType) {\n case SDF_TYPE_ALL:\n distance = -1.0 / 0.0;\n break;\n case SDF_TYPE_PLANE: {\n distance = sdfPos.z;\n break;\n }\n case SDF_TYPE_SPHERE: {\n distance = length(sdfPos) - sizes.w;\n break;\n }\n case SDF_TYPE_BOX: {\n vec3 q = abs(sdfPos) - sizes.xyz + sizes.w;\n distance = length(max(q, 0.0)) + min(max(q.x, max(q.y, q.z)), 0.0) - sizes.w;\n break;\n }\n case SDF_TYPE_ELLIPSOID: {\n vec3 sizes = sizes.xyz;\n float k0 = length(sdfPos / sizes);\n float k1 = length(sdfPos / dot(sizes, sizes));\n distance = k0 * (k0 - 1.0) / k1;\n break;\n }\n case SDF_TYPE_CYLINDER: {\n vec2 d = abs(vec2(length(sdfPos.xz), sdfPos.y)) - sizes.wy;\n distance = min(max(d.x, d.y), 0.0) + length(max(d, 0.0));\n break;\n }\n case SDF_TYPE_CAPSULE: {\n sdfPos.y -= clamp(sdfPos.y, -0.5 * sizes.y, 0.5 * sizes.y);\n distance = length(sdfPos) - sizes.w;\n break;\n }\n case SDF_TYPE_INFINITE_CONE: {\n float angle = 0.25 * PI * sizes.w;\n vec2 c = vec2(sin(angle), cos(angle));\n vec2 q = vec2(length(sdfPos.xy), -sdfPos.z);\n float d = length(q - c * max(dot(q, c), 0.0));\n distance = d * (((q.x * c.y - q.y * c.x) < 0.0) ? -1.0 : 1.0);\n break;\n }\n }\n\n if ((flags & SDF_FLAG_INVERT) != 0u) {\n distance = -distance;\n }\n\n if (smoothK == 0.0) {\n if (distance < distanceAccum) {\n distanceAccum = distance;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] = values[i];\n }\n }\n } else {\n float scaledDistance = -distance / smoothK;\n if (scaledDistance > maxExp) {\n float scale = exp(maxExp - scaledDistance);\n distanceAccum *= scale;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] *= scale;\n }\n maxExp = scaledDistance;\n }\n\n float weight = exp(scaledDistance - maxExp);\n distanceAccum += weight;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] += weight * values[i];\n }\n }\n }\n\n if (smoothK == 0.0) {\n return distanceAccum;\n } else {\n // Very distant SDFs may result in 0 accumulation\n if (distanceAccum == 0.0) {\n return 1.0 / 0.0;\n }\n for (int i = 0; i < numValues; ++i) {\n outValues[i] /= distanceAccum;\n }\n return (-log(distanceAccum) - maxExp) * smoothK;\n }\n }\n\n float modulateSdfArray(\n usampler2D sdfTexture, int numSdfs, int sdfFirst, int sdfCount, vec3 pos,\n float smoothK, int numValues, out vec4 values[4],\n float softEdge, bool invert\n ) {\n float distance = evaluateSdfArray(sdfTexture, numSdfs, sdfFirst, sdfCount, pos, smoothK, numValues, values);\n if (invert) {\n distance = -distance;\n }\n\n return (softEdge == 0.0) ? ((distance < 0.0) ? 1.0 : 0.0)\n : clamp(-distance / softEdge + 0.5, 0.0, 1.0);\n }\n`);\n\nexport const defineEdit = unindent(`\n const uint EDIT_FLAG_BLEND = 0xFFu;\n const uint EDIT_BLEND_MULTIPLY = 0u;\n const uint EDIT_BLEND_SET_RGB = 1u;\n const uint EDIT_BLEND_ADD_RGBA = 2u;\n const uint EDIT_FLAG_INVERT = 0x100u;\n\n void decodeEdit(\n uvec4 packedEdit, out int sdfFirst, out int sdfCount,\n out bool invert, out uint rgbaBlendMode, out float softEdge, out float sdfSmooth\n ) {\n rgbaBlendMode = packedEdit.x & EDIT_FLAG_BLEND;\n invert = (packedEdit.x & EDIT_FLAG_INVERT) != 0u;\n\n sdfFirst = int(packedEdit.y & 0xFFFFu);\n sdfCount = int(packedEdit.y >> 16u);\n\n softEdge = uintBitsToFloat(packedEdit.z);\n sdfSmooth = uintBitsToFloat(packedEdit.w);\n }\n\n void applyRgbaDisplaceEdit(\n usampler2D sdfTexture, int numSdfs, int sdfFirst, int sdfCount, inout vec3 pos,\n float smoothK, float softEdge, bool invert, uint rgbaBlendMode, inout vec4 rgba\n ) {\n vec4 values[4];\n float modulate = modulateSdfArray(sdfTexture, numSdfs, sdfFirst, sdfCount, pos, smoothK, 2, values, softEdge, invert);\n // On Android, moving values[0] is necessary to work around a compiler bug.\n vec4 sdfRgba = values[0];\n vec4 sdfDisplaceScale = values[1];\n\n vec4 target;\n switch (rgbaBlendMode) {\n case EDIT_BLEND_MULTIPLY:\n target = rgba * sdfRgba;\n break;\n case EDIT_BLEND_SET_RGB:\n target = vec4(sdfRgba.rgb, rgba.a * sdfRgba.a);\n break;\n case EDIT_BLEND_ADD_RGBA:\n target = rgba + sdfRgba;\n break;\n default:\n // Debug output if blend mode not set\n target = vec4(fract(pos), 1.0);\n }\n rgba = mix(rgba, target, modulate);\n pos += sdfDisplaceScale.xyz * modulate;\n }\n\n void applyPackedRgbaDisplaceEdit(uvec4 packedEdit, usampler2D sdfTexture, int numSdfs, inout vec3 pos, inout vec4 rgba) {\n int sdfFirst, sdfCount;\n bool invert;\n uint rgbaBlendMode;\n float softEdge, sdfSmooth;\n decodeEdit(packedEdit, sdfFirst, sdfCount, invert, rgbaBlendMode, softEdge, sdfSmooth);\n applyRgbaDisplaceEdit(sdfTexture, numSdfs, sdfFirst, sdfCount, pos, sdfSmooth, softEdge, invert, rgbaBlendMode, rgba);\n }\n`);\n\nfunction applyGsplatRgbaDisplaceEdits(\n gsplat: DynoVal,\n sdfArray: DynoVal,\n numEdits: DynoVal<\"int\">,\n rgbaDisplaceEdits: DynoVal<\"uvec4\">,\n): DynoVal {\n const dyno = new Dyno<\n {\n gsplat: typeof Gsplat;\n sdfArray: typeof SdfArray;\n numEdits: \"int\";\n rgbaDisplaceEdits: \"uvec4\";\n },\n { gsplat: typeof Gsplat }\n >({\n inTypes: {\n gsplat: Gsplat,\n sdfArray: SdfArray,\n numEdits: \"int\",\n rgbaDisplaceEdits: \"uvec4\",\n },\n outTypes: { gsplat: Gsplat },\n globals: () => [defineSdfArray, defineEdit],\n inputs: { gsplat, sdfArray, numEdits, rgbaDisplaceEdits },\n statements: ({ inputs, outputs }) => {\n const { sdfArray, numEdits, rgbaDisplaceEdits } = inputs;\n const { gsplat } = outputs;\n return unindentLines(`\n ${gsplat} = ${inputs.gsplat};\n if (isGsplatActive(${gsplat}.flags)) {\n for (int editIndex = 0; editIndex < ${numEdits}; ++editIndex) {\n applyPackedRgbaDisplaceEdit(\n ${rgbaDisplaceEdits}[editIndex], ${sdfArray}.sdfTexture, ${sdfArray}.numSdfs,\n ${gsplat}.center, ${gsplat}.rgba\n );\n }\n }\n `);\n },\n });\n return dyno.outputs.gsplat;\n}\n\nfunction applyCovSplatRgbaDisplaceEdits(\n covsplat: DynoVal,\n sdfArray: DynoVal,\n numEdits: DynoVal<\"int\">,\n rgbaDisplaceEdits: DynoVal<\"uvec4\">,\n): DynoVal {\n const dyno = new Dyno<\n {\n covsplat: typeof CovSplat;\n sdfArray: typeof SdfArray;\n numEdits: \"int\";\n rgbaDisplaceEdits: \"uvec4\";\n },\n { covsplat: typeof CovSplat }\n >({\n inTypes: {\n covsplat: CovSplat,\n sdfArray: SdfArray,\n numEdits: \"int\",\n rgbaDisplaceEdits: \"uvec4\",\n },\n outTypes: { covsplat: CovSplat },\n globals: () => [defineSdfArray, defineEdit],\n inputs: { covsplat, sdfArray, numEdits, rgbaDisplaceEdits },\n statements: ({ inputs, outputs }) => {\n const { sdfArray, numEdits, rgbaDisplaceEdits } = inputs;\n const { covsplat } = outputs;\n return unindentLines(`\n ${covsplat} = ${inputs.covsplat};\n if (isCovSplatActive(${covsplat}.flags)) {\n for (int editIndex = 0; editIndex < ${numEdits}; ++editIndex) {\n applyPackedRgbaDisplaceEdit(\n ${rgbaDisplaceEdits}[editIndex], ${sdfArray}.sdfTexture, ${sdfArray}.numSdfs,\n ${covsplat}.center, ${covsplat}.rgba\n );\n }\n }\n `);\n },\n });\n return dyno.outputs.covsplat;\n}\n\nconst tempFloat32 = new Float32Array(1);\n","import * as THREE from \"three\";\nimport type { SplatEdit } from \"./SplatEdit\";\nimport {\n CovSplat,\n Dyno,\n DynoFloat,\n DynoMat3,\n type DynoVal,\n DynoVec3,\n DynoVec4,\n Gsplat,\n add,\n dynoBlock,\n mul,\n transformDir,\n transformGsplat,\n transformPos,\n unindentLines,\n} from \"./dyno\";\n\n// A GsplatGenerator is a dyno program that maps an index to a Gsplat's properties\n\nexport type GsplatGenerator = Dyno<{ index: \"int\" }, { gsplat: typeof Gsplat }>;\n\nexport type CovSplatGenerator = Dyno<\n { index: \"int\" },\n { covsplat: typeof CovSplat }\n>;\n\n// A GsplatModifier is a dyno program that inputs a Gsplat, modifies, and outputs it\n\nexport type GsplatModifier = Dyno<\n { gsplat: typeof Gsplat },\n { gsplat: typeof Gsplat }\n>;\n\nexport type CovSplatModifier = Dyno<\n { covsplat: typeof CovSplat },\n { covsplat: typeof CovSplat }\n>;\n\n// A SplatModifier is a utility class to apply a GsplatModifier to\n// a GsplatGenerator pipeline, caching the combined result for efficiency.\n\nexport class SplatModifier {\n modifier: GsplatModifier;\n cache: Map;\n\n constructor(modifier: GsplatModifier) {\n this.modifier = modifier;\n this.cache = new Map();\n }\n\n apply(generator: GsplatGenerator): GsplatGenerator {\n let modified = this.cache.get(generator);\n if (!modified) {\n modified = dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n const { gsplat } = generator.apply({ index });\n return this.modifier.apply({ gsplat });\n },\n );\n this.cache.set(generator, modified);\n }\n return modified;\n }\n}\n\n// A SplatTransformer is a utility class to apply a transform to a Gsplat\n// via a scale, rotation, and translation. Scale is a single float because\n// anisotropic scaling of Gsplats is not supported.\n\nexport class SplatTransformer {\n scale: DynoFloat;\n rotate: DynoVec4;\n translate: DynoVec3;\n\n // Create the dyno uniforms that parameterize the transform, setting them\n // to initial values that are different from any valid transform.\n constructor() {\n this.scale = new DynoFloat({ value: Number.NEGATIVE_INFINITY });\n this.rotate = new DynoVec4({\n value: new THREE.Quaternion(\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n ),\n });\n this.translate = new DynoVec3({\n value: new THREE.Vector3(\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n ),\n });\n }\n\n // Apply the transform to a Vec3 position in a dyno program.\n apply(position: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n return transformPos(position, {\n scale: this.scale,\n rotate: this.rotate,\n translate: this.translate,\n });\n }\n\n applyDir(dir: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n return transformDir(dir, {\n rotate: this.rotate,\n });\n }\n\n // Apply the transform to a Gsplat in a dyno program.\n applyGsplat(gsplat: DynoVal): DynoVal {\n return transformGsplat(gsplat, {\n scale: this.scale,\n rotate: this.rotate,\n translate: this.translate,\n });\n }\n\n // Update the uniforms to match the given transform matrix.\n updateFromMatrix(transform: THREE.Matrix4) {\n const scale = new THREE.Vector3();\n const quaternion = new THREE.Quaternion();\n const position = new THREE.Vector3();\n transform.decompose(position, quaternion, scale);\n const newScale = (scale.x + scale.y + scale.z) / 3;\n\n let updated = false;\n if (newScale !== this.scale.value) {\n this.scale.value = newScale;\n updated = true;\n }\n if (!position.equals(this.translate.value)) {\n this.translate.value.copy(position);\n updated = true;\n }\n if (!quaternion.equals(this.rotate.value)) {\n this.rotate.value.copy(quaternion);\n updated = true;\n }\n return updated;\n }\n\n // Update this transform to match the object's to-world transform.\n update(object: THREE.Object3D): boolean {\n object.updateMatrixWorld();\n return this.updateFromMatrix(object.matrixWorld);\n }\n}\n\nexport class CovSplatTransformer {\n basis: DynoMat3<\"basis\", THREE.Matrix3>;\n offset: DynoVec3;\n\n constructor() {\n this.basis = new DynoMat3({ value: new THREE.Matrix3() });\n this.offset = new DynoVec3({ value: new THREE.Vector3() });\n }\n\n // Apply the transform to a Vec3 position in a dyno program.\n apply(position: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n const rebased = mul(this.basis, position);\n return add(rebased, this.offset);\n }\n\n applyDir(dir: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n return mul(this.basis, dir);\n }\n\n // Apply the transform to a Gsplat in a dyno program.\n applyCovSplat(covsplat: DynoVal): DynoVal {\n return new Dyno({\n inTypes: { covsplat: CovSplat, basis: \"mat3\", offset: \"vec3\" },\n outTypes: { covsplat: CovSplat },\n inputs: { covsplat, basis: this.basis, offset: this.offset },\n statements: ({ inputs, outputs }) => {\n const { covsplat, basis, offset } = inputs;\n if (!covsplat || !basis || !offset) {\n return [`${outputs.covsplat}.flags = 0u;`];\n }\n return unindentLines(`\n ${outputs.covsplat}.flags = 0u;\n if (isCovSplatActive(${covsplat}.flags)) {\n ${outputs.covsplat}.flags = ${covsplat}.flags;\n ${outputs.covsplat}.index = ${covsplat}.index;\n ${outputs.covsplat}.rgba = ${covsplat}.rgba;\n\n ${outputs.covsplat}.center = ${basis} * ${covsplat}.center + ${offset};\n \n mat3 cov = mat3(\n ${covsplat}.xxyyzz.x, ${covsplat}.xyxzyz.x, ${covsplat}.xyxzyz.y,\n ${covsplat}.xyxzyz.x, ${covsplat}.xxyyzz.y, ${covsplat}.xyxzyz.z,\n ${covsplat}.xyxzyz.y, ${covsplat}.xyxzyz.z, ${covsplat}.xxyyzz.z\n );\n cov = ${basis} * cov * transpose(${basis});\n ${outputs.covsplat}.xxyyzz = vec3(cov[0][0], cov[1][1], cov[2][2]);\n ${outputs.covsplat}.xyxzyz = vec3(cov[0][1], cov[0][2], cov[1][2]);\n }\n `);\n },\n }).outputs.covsplat;\n }\n\n // Update the uniforms to match the given transform matrix.\n updateFromMatrix(transform: THREE.Matrix4) {\n const basis = new THREE.Matrix3().setFromMatrix4(transform);\n const offset = new THREE.Vector3().setFromMatrixColumn(transform, 3);\n\n const updated =\n !basis.equals(this.basis.value) || !offset.equals(this.offset.value);\n if (updated) {\n this.basis.value.copy(basis);\n this.offset.value.copy(offset);\n }\n return updated;\n }\n\n // Update this transform to match the object's to-world transform.\n update(object: THREE.Object3D): boolean {\n object.updateMatrixWorld();\n return this.updateFromMatrix(object.matrixWorld);\n }\n}\n\n// SplatGenerator is an Object3D that can be placed anywhere in the scene\n// to generate Gsplats into the world for SparkRenderer. All Gsplats from\n// SplatGenerators across the scene will be accumulated into a single\n// SplatAccumulator, which are sorted and rendered together.\n//\n// Each SplatGenerator has two main properties:\n// - numSplats: the number of Gsplats to generate\n// - generator: a GsplatGenerator dyno program that maps a splat index\n// to a Gsplat's properties\n// Each of these properties can be changed at anytime, however changing\n// numSplats means we no longer have a correspondence between Gsplats\n// in successive frames, meaning we can't reuse the previous Gsplat sort\n// order. Similarly, changing the generator requires re-generating the\n// shader program, which will trigger a GPU shader compilation the first\n// time (possibly a perceptible \"hickup\" in the framerate) but is cached\n// subsequence times if the generator is the same as one that was used previously.\n//\n// A SplatGenerator also has a custom frameUpdate function that is called\n// on each execution, allowing you to update uniforms or other parameters that\n// affect the generation. If the Gsplats are changed, you must call\n// updateVersion() (alternatively, set needsUpdate to true) to trigger a\n// re-generation of the Gsplats for this SplatGenerator.\n\nexport interface FrameUpdateContext {\n renderer: THREE.WebGLRenderer;\n object: SplatGenerator;\n time: number;\n deltaTime: number;\n viewToWorld: THREE.Matrix4;\n camera?: THREE.Camera;\n renderSize?: THREE.Vector2;\n globalEdits: SplatEdit[];\n lodIndices?: { numSplats: number; texture: THREE.DataTexture };\n}\n\nexport class SplatGenerator extends THREE.Object3D {\n numSplats: number;\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n generatorError?: unknown;\n covGeneratorError?: unknown;\n frameUpdate?: (context: FrameUpdateContext) => void;\n version: number;\n mappingVersion: number;\n\n constructor({\n numSplats,\n generator,\n covGenerator,\n construct,\n update,\n }: {\n numSplats?: number;\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n construct?: (object: SplatGenerator) => {\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n numSplats?: number;\n frameUpdate?: (context: FrameUpdateContext) => void;\n };\n update?: (context: FrameUpdateContext) => void;\n }) {\n super();\n\n this.numSplats = numSplats ?? 0;\n this.generator = generator;\n this.covGenerator = covGenerator;\n this.frameUpdate = update;\n this.version = 0;\n this.mappingVersion = 0;\n\n if (construct) {\n const constructed = construct(this);\n // If we returned something, update our properties\n Object.assign(this, constructed);\n }\n }\n\n updateVersion() {\n this.version += 1;\n }\n\n updateMappingVersion() {\n this.mappingVersion += 1;\n this.version += 1;\n }\n\n set needsUpdate(value: boolean) {\n if (value) {\n this.updateVersion();\n }\n }\n}\n","import * as THREE from \"three\";\nimport { FullScreenQuad } from \"three/examples/jsm/postprocessing/Pass.js\";\nimport { Readback } from \"./Readback\";\nimport { SplatEdit } from \"./SplatEdit\";\nimport {\n type CovSplatGenerator,\n type GsplatGenerator,\n SplatGenerator,\n} from \"./SplatGenerator\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport {\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_WIDTH,\n} from \"./defines\";\nimport {\n type CovSplat,\n Dyno,\n DynoBool,\n DynoProgram,\n DynoProgramTemplate,\n DynoUsampler2DArray,\n type DynoVal,\n DynoVec3,\n combineCovSplat,\n combineGsplat,\n dynoBlock,\n dynoConst,\n gsplatToCovSplat,\n mul,\n outputCovSplat,\n outputCovSplatDepth,\n outputExtCovSplat,\n outputExtendedSplat,\n outputPackedSplat,\n outputSplatDepth,\n splitCovSplat,\n splitGsplat,\n sub,\n unindentLines,\n} from \"./dyno\";\nimport { getShaders } from \"./shaders\";\nimport { getTextureSize, threeMrtArray } from \"./utils\";\n\n// A GeneratorMapping describes a Gsplat range that was generated, including\n// which generator and its version number.\nexport type GeneratorMapping = {\n node: SplatGenerator;\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n version: number;\n mappingVersion?: number;\n base: number;\n count: number;\n};\n\nexport class SplatAccumulator {\n time = 0;\n deltaTime = 0;\n viewToWorld = new THREE.Matrix4();\n viewOrigin = new THREE.Vector3();\n viewDirection = new THREE.Vector3();\n static viewCenterUniform = new DynoVec3({ value: new THREE.Vector3() });\n static viewDirUniform = new DynoVec3({ value: new THREE.Vector3() });\n static sortRadialUniform = new DynoBool({ value: true });\n maxSplats = 0;\n numSplats = 0;\n target: THREE.WebGLArrayRenderTarget | null = null;\n mapping: GeneratorMapping[] = [];\n version = -1;\n mappingVersion = -1;\n extSplats: boolean;\n covSplats: boolean;\n readback: Readback | null = null;\n readbackSplats: DynoUsampler2DArray<\"extSplats\", THREE.DataArrayTexture>[] =\n [];\n\n constructor({\n extSplats,\n covSplats,\n }: { extSplats?: boolean; covSplats?: boolean } = {}) {\n if (!threeMrtArray) {\n throw new Error(\"Spark requires THREE.js r179 or above\");\n }\n this.extSplats = extSplats ?? true;\n this.covSplats = covSplats ?? false;\n }\n\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target = null;\n }\n }\n\n // Returns a THREE.DataArrayTexture representing the NewSplatAccumulator\n // content as 2 x Uint32x4 data array textures (2048 x 2048 x 2048 in size)\n getTextures(): THREE.DataArrayTexture[] {\n if (this.target) {\n return this.target.textures;\n }\n return SplatAccumulator.emptyTextures;\n }\n\n static emptyTexture = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyTextures = (() => {\n return [SplatAccumulator.emptyTexture, SplatAccumulator.emptyTexture];\n })();\n\n // Given an array of splatCounts (.numSplats for each\n // SplatGenerator/SplatMesh in the scene), compute a\n // \"mapping layout\" in the composite array of generated outputs.\n generateMapping(splatCounts: number[]): {\n maxSplats: number;\n mapping: { base: number; count: number }[];\n } {\n let maxSplats = 0;\n const mapping = splatCounts.map((numSplats) => {\n const base = maxSplats;\n // Generation happens in horizontal row chunks, so round up to full width\n const rounded = Math.ceil(numSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n maxSplats += rounded;\n return { base, count: numSplats };\n });\n return { maxSplats, mapping };\n }\n\n // Ensures our NewSplatAccumulator.target render target has enough space\n // to generate maxSplats total Gsplats, and reallocate if not large enough.\n ensureGenerate({ maxSplats }: { maxSplats: number }) {\n if (this.target && (maxSplats ?? 1) <= this.maxSplats) {\n return false;\n }\n this.dispose();\n\n // The packed Gsplats are stored in a 2D array texture of max size\n // 2048 x 2048 x 2048, one RGBA32UI pixel = 4 uint32 = one Gsplat\n const textureSize = getTextureSize(maxSplats ?? 1);\n const { width, height, depth } = textureSize;\n this.maxSplats = textureSize.maxSplats;\n this.target = new THREE.WebGLArrayRenderTarget(width, height, depth, {\n depthBuffer: false,\n stencilBuffer: false,\n generateMipmaps: false,\n magFilter: THREE.NearestFilter,\n minFilter: THREE.NearestFilter,\n format: THREE.RGBAIntegerFormat,\n type: THREE.UnsignedIntType,\n });\n this.target.scissorTest = true;\n\n if (this.extSplats) {\n const target2 = this.target.texture.clone();\n const target3 = this.target.texture.clone();\n target3.format = THREE.RGBAFormat;\n target3.type = THREE.UnsignedByteType;\n target3.internalFormat = \"RGBA8\";\n this.target.textures = [this.target.texture, target2, target3];\n } else {\n const target3 = this.target.texture.clone();\n target3.format = THREE.RGBAFormat;\n target3.type = THREE.UnsignedByteType;\n target3.internalFormat = \"RGBA8\";\n this.target.textures = [this.target.texture, target3];\n }\n\n return true;\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n // Get a program and THREE.RawShaderMaterial for a given GsplatGenerator,\n // generating it if necessary and caching the result.\n prepareProgramMaterial(\n generator?: GsplatGenerator,\n covGenerator?: CovSplatGenerator,\n ) {\n const theGenerator = generator ?? covGenerator;\n if (!theGenerator) {\n throw new Error(\"Either generator or covGenerator must be provided\");\n }\n\n let program = SplatAccumulator.generatorProgram.get(theGenerator);\n if (!program) {\n const graph = dynoBlock(\n { index: \"int\" },\n {},\n ({ index }, _outputs, { roots }) => {\n if (generator) {\n generator.inputs.index = index;\n }\n if (covGenerator) {\n covGenerator.inputs.index = index;\n }\n\n if (this.extSplats) {\n if (!this.covSplats) {\n if (generator) {\n const output = outputExtendedSplat(generator.outputs.gsplat);\n roots.push(output);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n } else {\n if (covGenerator) {\n const output = outputExtCovSplat(covGenerator.outputs.covsplat);\n roots.push(output);\n } else if (generator) {\n const covsplat = gsplatToCovSplat(generator.outputs.gsplat);\n const output = outputExtCovSplat(covsplat);\n roots.push(output);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n }\n } else {\n if (!this.covSplats) {\n if (generator) {\n const centerSubView = sub(\n splitGsplat(generator.outputs.gsplat).outputs.center,\n SplatAccumulator.viewCenterUniform,\n );\n // Use expanded LoD opacity encoding\n const halfAlpha = mul(\n splitGsplat(generator.outputs.gsplat).outputs.opacity,\n dynoConst(\"float\", 0.5),\n );\n const gsplat = combineGsplat({\n gsplat: generator.outputs.gsplat,\n center: centerSubView,\n opacity: halfAlpha,\n });\n const output = outputPackedSplat(\n gsplat,\n dynoConst(\"vec4\", [0, 1, LN_SCALE_MIN, LN_SCALE_MAX]),\n );\n roots.push(output);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n } else {\n let covsplat: DynoVal;\n if (covGenerator) {\n covsplat = covGenerator.outputs.covsplat;\n } else if (generator) {\n covsplat = gsplatToCovSplat(generator.outputs.gsplat);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n const centerSubView = sub(\n splitCovSplat(covsplat).outputs.center,\n SplatAccumulator.viewCenterUniform,\n );\n const halfAlpha = mul(\n splitCovSplat(covsplat).outputs.opacity,\n dynoConst(\"float\", 0.5),\n );\n covsplat = combineCovSplat({\n covsplat,\n center: centerSubView,\n opacity: halfAlpha,\n });\n const output = outputCovSplat(\n covsplat,\n dynoConst(\"vec4\", [0, 1, LN_SCALE_MIN, LN_SCALE_MAX]),\n );\n roots.push(output);\n }\n if (!generator) {\n throw new Error(\"Generator must be provided\");\n }\n }\n if (generator) {\n const outputDepth = outputSplatDepth(\n generator.outputs.gsplat,\n SplatAccumulator.viewCenterUniform,\n SplatAccumulator.viewDirUniform,\n SplatAccumulator.sortRadialUniform,\n );\n roots.push(outputDepth);\n }\n if (covGenerator) {\n const outputDepth = outputCovSplatDepth(\n covGenerator.outputs.covsplat,\n SplatAccumulator.viewCenterUniform,\n SplatAccumulator.viewDirUniform,\n SplatAccumulator.sortRadialUniform,\n );\n roots.push(outputDepth);\n }\n return undefined;\n },\n );\n program = new DynoProgram({\n graph,\n inputs: { index: \"_index\" },\n outputs: {},\n template: this.extSplats\n ? SplatAccumulator.programExtTemplate\n : SplatAccumulator.programTemplate,\n // consoleLog: true,\n });\n\n SplatAccumulator.generatorProgram.set(theGenerator, program);\n }\n Object.assign(program.uniforms, {\n targetLayer: { value: 0 },\n targetBase: { value: 0 },\n targetCount: { value: 0 },\n });\n\n const material = program.prepareMaterial();\n SplatAccumulator.fullScreenQuad.material = material;\n return { program, material };\n }\n\n static programExtTemplate = new DynoProgramTemplate(\n getShaders().computeUvec4x2Vec4Template,\n );\n static programTemplate = new DynoProgramTemplate(\n getShaders().computeUvec4Vec4Template,\n );\n static generatorProgram = new WeakMap<\n GsplatGenerator | CovSplatGenerator,\n DynoProgram\n >();\n static fullScreenQuad = new FullScreenQuad(\n new THREE.RawShaderMaterial({ visible: false }),\n );\n\n generate({\n generator,\n covGenerator,\n base,\n count,\n renderer,\n }: {\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n base: number;\n count: number;\n renderer: THREE.WebGLRenderer;\n }) {\n if (!this.target) {\n throw new Error(\"Target must be initialized with ensureGenerate\");\n }\n if (base + count > this.maxSplats) {\n throw new Error(\"Base + count exceeds maxSplats\");\n }\n\n const { program, material } = this.prepareProgramMaterial(\n generator,\n covGenerator,\n );\n program.update();\n\n const renderState = this.saveRenderState(renderer);\n\n // Generate the Gsplats in \"layer\" chunks, in horizontal row ranges,\n // that cover the total count of Gsplats.\n const nextBase =\n Math.ceil((base + count) / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n material.uniforms.targetBase.value = base;\n material.uniforms.targetCount.value = count;\n\n // Keep generating layers until we've reached the next generation's base\n while (base < nextBase) {\n const layer = Math.floor(base / layerSize);\n material.uniforms.targetLayer.value = layer;\n\n const layerBase = layer * layerSize;\n const layerYStart = Math.floor((base - layerBase) / SPLAT_TEX_WIDTH);\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((nextBase - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n // Render the desired portion of the layer\n this.target.scissor.set(\n 0,\n layerYStart,\n SPLAT_TEX_WIDTH,\n layerYEnd - layerYStart,\n );\n renderer.setRenderTarget(this.target, layer);\n renderer.xr.enabled = false;\n renderer.autoClear = false;\n SplatAccumulator.fullScreenQuad.render(renderer);\n\n base += SPLAT_TEX_WIDTH * (layerYEnd - layerYStart);\n }\n\n this.resetRenderState(renderer, renderState);\n return { nextBase };\n }\n\n prepareGenerate({\n renderer,\n scene,\n time,\n camera,\n sortRadial,\n renderSize,\n previous,\n lodInstances,\n }: {\n renderer: THREE.WebGLRenderer;\n scene: THREE.Scene;\n time: number;\n camera: THREE.Camera;\n sortRadial: boolean;\n renderSize: THREE.Vector2;\n previous: SplatAccumulator;\n lodInstances?: Map<\n SplatMesh,\n { numSplats: number; texture: THREE.DataTexture }\n >;\n }) {\n this.viewToWorld.copy(camera.matrixWorld);\n camera.getWorldPosition(this.viewOrigin);\n camera.getWorldDirection(this.viewDirection);\n SplatAccumulator.viewCenterUniform.value.copy(this.viewOrigin);\n SplatAccumulator.viewDirUniform.value.copy(this.viewDirection);\n SplatAccumulator.sortRadialUniform.value = sortRadial;\n\n this.time = time;\n this.deltaTime = time - previous.time;\n\n const allGenerators: SplatGenerator[] = [];\n scene.traverse((node) => {\n if (node instanceof SplatGenerator) {\n if (!camera.layers || camera.layers.test(node.layers)) {\n allGenerators.push(node);\n }\n }\n });\n\n const globalEditsSet = new Set();\n scene.traverseVisible((node) => {\n if (node instanceof SplatEdit) {\n let ancestor = node.parent;\n while (ancestor != null && !(ancestor instanceof SplatMesh)) {\n ancestor = ancestor.parent;\n }\n if (ancestor == null) {\n // Not part of a SplatMesh so it's a global edit\n globalEditsSet.add(node);\n }\n }\n });\n const globalEdits = Array.from(globalEditsSet);\n\n for (const object of allGenerators) {\n try {\n object.frameUpdate?.({\n renderer,\n object,\n time: this.time,\n deltaTime: this.deltaTime,\n viewToWorld: this.viewToWorld,\n camera,\n renderSize,\n globalEdits,\n lodIndices:\n lodInstances && object instanceof SplatMesh\n ? lodInstances.get(object)\n : undefined,\n });\n } catch (error) {\n console.error(\"frameUpdate error\", error);\n object.generator = undefined;\n object.covGenerator = undefined;\n object.generatorError = error;\n }\n }\n\n const visibleGenerators: SplatGenerator[] = [];\n scene.traverseVisible((node) => {\n if (node instanceof SplatGenerator) {\n if (!camera.layers || camera.layers.test(node.layers)) {\n visibleGenerators.push(node);\n }\n }\n });\n\n const splatCounts = visibleGenerators.map(\n (generator) => generator.numSplats,\n );\n const { maxSplats, mapping: baseCounts } =\n this.generateMapping(splatCounts);\n\n const previousMappings = previous.mapping.reduce((mappings, mapping) => {\n mappings.set(mapping.node, mapping);\n return mappings;\n }, new Map());\n\n this.mapping = [];\n this.numSplats = 0;\n\n baseCounts.forEach(({ base, count }, index) => {\n const node = visibleGenerators[index];\n const previousNode = previousMappings.get(node);\n if (previousNode && previousNode.count !== node.numSplats) {\n node.updateMappingVersion();\n }\n\n const { generator, covGenerator } = node;\n if ((generator || covGenerator) && count > 0) {\n const { version, mappingVersion } = node;\n this.mapping.push({\n node,\n generator,\n covGenerator,\n version,\n mappingVersion,\n base,\n count,\n });\n this.numSplats = Math.max(this.numSplats, base + count);\n }\n });\n const { splatsUpdated, mappingUpdated } = previous.checkVersions(\n this.mapping,\n );\n this.version = previous.version + (splatsUpdated ? 1 : 0);\n this.mappingVersion = previous.mappingVersion + (mappingUpdated ? 1 : 0);\n\n return {\n sameMapping: !mappingUpdated,\n version: this.version,\n mappingVersion: this.mappingVersion,\n visibleGenerators,\n generate: () => {\n this.ensureGenerate({ maxSplats });\n\n for (const { node, base, count } of this.mapping) {\n const { generator, covGenerator } = node;\n if ((generator || covGenerator) && count > 0) {\n this.generate({ generator, covGenerator, base, count, renderer });\n }\n }\n },\n readback: async () => {\n const textures = this.getTextures();\n if (this.readbackSplats.length === 0) {\n this.readbackSplats = [\n new DynoUsampler2DArray({ value: textures[0], key: \"extSplats\" }),\n new DynoUsampler2DArray({ value: textures[1], key: \"extSplats\" }),\n ];\n }\n this.readbackSplats[0].value = textures[0];\n this.readbackSplats[1].value = textures[1];\n\n if (!this.readback) {\n this.readback = new Readback({ renderer });\n }\n const readback = this.readback;\n const words = this.extSplats ? 8 : 4;\n const array = readback.ensureBuffer(\n this.numSplats * words,\n new Uint32Array(0),\n );\n\n const reader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n const rgba8 = new Dyno({\n inTypes: {\n index: \"int\",\n extSplats1: \"usampler2DArray\",\n extSplats2: \"usampler2DArray\",\n },\n outTypes: { rgba8: \"vec4\" },\n inputs: {\n index,\n extSplats1: this.readbackSplats[0],\n extSplats2: this.readbackSplats[1],\n },\n statements: ({ inputs, outputs }) => {\n if (this.extSplats) {\n return unindentLines(`\n int indexDiv8 = ${inputs.index} >> 3;\n ivec3 coord = splatTexCoord(indexDiv8);\n uvec4 packed;\n if ((${inputs.index} & 4) == 0) {\n packed = texelFetch(${inputs.extSplats1}, coord, 0);\n } else {\n packed = texelFetch(${inputs.extSplats2}, coord, 0);\n }\n\n int indexMod4 = ${inputs.index} & 3;\n uint data = (indexMod4 == 0) ? packed.x\n : (indexMod4 == 1) ? packed.y\n : (indexMod4 == 2) ? packed.z\n : packed.w;\n ${outputs.rgba8} = uintToVec4(data);\n `);\n }\n return unindentLines(`\n int indexDiv4 = ${inputs.index} >> 2;\n ivec3 coord = splatTexCoord(indexDiv4);\n uvec4 packed = texelFetch(${inputs.extSplats1}, coord, 0);\n\n int indexMod4 = ${inputs.index} & 3;\n uint data = (indexMod4 == 0) ? packed.x\n : (indexMod4 == 1) ? packed.y\n : (indexMod4 == 2) ? packed.z\n : packed.w;\n ${outputs.rgba8} = uintToVec4(data);\n `);\n },\n }).outputs.rgba8;\n return { rgba8 };\n },\n );\n\n return await readback.renderReadback({\n reader,\n count: this.numSplats * words,\n renderer,\n readback: array,\n });\n },\n };\n }\n\n // Check if this accumulator has exactly the same generator mapping as\n // the previous one. If so, we can reuse the Gsplat sort order.\n checkVersions(otherMapping: GeneratorMapping[]) {\n if (this.mapping.length !== otherMapping.length) {\n return { splatsUpdated: true, mappingUpdated: true };\n }\n const mappingUpdated = this.mapping.some((item, i) => {\n const other = otherMapping[i];\n return (\n item.node !== other.node ||\n item.base !== other.base ||\n item.count !== other.count ||\n item.mappingVersion !== other.mappingVersion\n );\n });\n if (mappingUpdated) {\n return { splatsUpdated: true, mappingUpdated: true };\n }\n const splatsUpdated = this.mapping.some((item, i) => {\n return item.version !== otherMapping[i].version;\n });\n return { splatsUpdated, mappingUpdated };\n }\n}\n","import * as THREE from \"three\";\n\n// SplatGeometry is an internal class used by SparkRenderer to render a collection\n// of Gsplats in a single draw call by extending THREE.InstancedBufferGeometry.\n// Each Gsplat is drawn as two triangles, with the order of the Gsplats determined\n// by a texture lookup via gl_InstanceID.\n\nexport class SplatGeometry extends THREE.InstancedBufferGeometry {\n constructor() {\n super();\n this.setAttribute(\"position\", new THREE.BufferAttribute(QUAD_VERTICES, 3));\n this.setIndex(new THREE.BufferAttribute(QUAD_INDICES, 1));\n }\n}\n\n// Each instance draws to triangles covering a quad over coords (-1,-1,0)..(1,1,0)\nconst QUAD_VERTICES = new Float32Array([\n -1, -1, 0, 1, -1, 0, 1, 1, 0, -1, 1, 0,\n]);\n\nconst QUAD_INDICES = new Uint16Array([0, 1, 2, 0, 2, 3]);\n","import * as THREE from \"three\";\nimport {\n ExtSplats,\n PackedSplats,\n PagedSplats,\n Readback,\n type SplatGenerator,\n SplatMesh,\n SplatPager,\n} from \".\";\nimport { SplatAccumulator } from \"./SplatAccumulator\";\nimport { SplatGeometry } from \"./SplatGeometry\";\nimport { SplatWorker } from \"./SplatWorker\";\nimport { SPLAT_TEX_HEIGHT, SPLAT_TEX_WIDTH } from \"./defines\";\nimport { getShaders } from \"./shaders\";\nimport {\n cloneClock,\n isAndroid,\n isIos,\n isMobile,\n isOculus,\n isVisionPro,\n} from \"./utils\";\n\nexport interface SparkRendererOptions {\n /**\n * Pass in your THREE.WebGLRenderer instance so Spark can perform work\n * outside the usual render loop. Should be created with antialias: false\n * (default setting) as WebGL anti-aliasing doesn't improve Gaussian Splatting\n * rendering and significantly reduces performance.\n */\n renderer: THREE.WebGLRenderer;\n /**\n * Callback function to be called when SparkRenderer needs to re-render,\n * for example when splat sort order or LoD updates complete.\n */\n onDirty?: () => void;\n /**\n * Whether to use premultiplied alpha when accumulating splat RGB\n * @default true\n */\n premultipliedAlpha?: boolean;\n /**\n * Whether to encode Gsplat with linear RGB (for environment mapping)\n * @default false\n */\n encodeLinear?: boolean;\n /**\n * Pass in a THREE.Clock to synchronize time-based effects across different\n * systems. Alternatively, you can set the property time directly.\n * (default: new THREE.Clock)\n */\n clock?: THREE.Clock;\n /**\n * Controls whether to check and automatically update Gsplat collection\n * each frame render.\n * @default true\n */\n autoUpdate?: boolean;\n /**\n * Controls whether to update the Gsplats before or after rendering. For WebXR\n * this is set to false in order to complete rendering as soon as possible.\n * @default true (if not WebXR)\n */\n preUpdate?: boolean;\n /**\n * Maximum standard deviations from the center to render Gaussians. Values\n * Math.sqrt(4)..Math.sqrt(9) produce acceptable results and can be tweaked for\n * performance.\n * @default Math.sqrt(8)\n */\n maxStdDev?: number;\n /*\n **\n * Minimum pixel radius for splat rendering.\n * @default 0.0\n */\n minPixelRadius?: number;\n /**\n * Maximum pixel radius for splat rendering.\n * @default 512.0\n */\n maxPixelRadius?: number;\n /**\n * Whether to use extended Gsplat encoding for intermediary accumulator splats.\n * @default false\n */\n accumExtSplats?: boolean;\n /**\n * Whether to use covariance Gsplat encoding for intermediary splats.\n * @default false\n */\n covSplats?: boolean;\n /**\n * Minimum alpha value for splat rendering.\n * @default 0.5 * (1.0 / 255.0)\n */\n minAlpha?: number;\n /**\n * Enable 2D Gaussian splatting rendering ability. When this mode is enabled,\n * any scale x/y/z component that is exactly 0 (minimum quantized value) results\n * in the other two non-0 axis being interpreted as an oriented 2D Gaussian Splat,\n * rather instead of the usual projected 3DGS Z-slice. When reading PLY files,\n * scale values less than e^-30 will be interpreted as 0.\n * @default false\n */\n enable2DGS?: boolean;\n /**\n * Enable alternative ray-splat max response evaluation, used by 3DGUT (unscented transform),\n * 3DGRT, and HTGS.\n * @default false\n */\n // enableRayEval?: boolean;\n /**\n * Scalar value to add to 2D splat covariance diagonal, effectively blurring +\n * enlarging splats. In scenes trained without the Gsplat anti-aliasing tweak\n * this value was typically 0.3, but with anti-aliasing it is 0.0\n * @default 0.0\n */\n preBlurAmount?: number;\n /**\n * Scalar value to add to 2D splat covarianve diagonal, with opacity adjustment\n * to correctly account for \"blurring\" when anti-aliasing. Typically 0.3\n * (equivalent to approx 0.5 pixel radius) in scenes trained with anti-aliasing.\n */\n blurAmount?: number;\n /**\n * Depth-of-field distance to focal plane\n */\n focalDistance?: number;\n /**\n * Full-width angle of aperture opening (in radians), 0.0 to disable\n * @default 0.0\n */\n apertureAngle?: number;\n /**\n * Modulate Gaussian kernel falloff. 0 means \"no falloff, flat shading\",\n * while 1 is the normal Gaussian kernel.\n * @default 1.0\n */\n falloff?: number;\n /**\n * X/Y clipping boundary factor for Gsplat centers against view frustum.\n * 1.0 clips any centers that are exactly out of bounds, while 1.4 clips\n * centers that are 40% beyond the bounds.\n * @default 1.4\n */\n clipXY?: number;\n /**\n * Parameter to adjust projected splat scale calculation to match other renderers,\n * similar to the same parameter in the MKellogg 3DGS renderer. Higher values will\n * tend to sharpen the splats. A value 2.0 can be used to match the behavior of\n * the PlayCanvas renderer.\n * @default 1.0\n */\n focalAdjustment?: number;\n /**\n * Whether to sort splats radially (geometric distance) from the viewpoint (true)\n * or by Z-depth (false). Most scenes are trained with the Z-depth `sort `metric\n * and will render more accurately at certain viewpoints. However, radial sorting\n * is more stable under viewpoint rotations.\n * @default true\n */\n sortRadial?: boolean;\n /**\n * Minimum interval between sort calls in milliseconds.\n * @default 0\n */\n minSortIntervalMs?: number;\n /*\n * Flag to control whether LoD is enabled. @default true\n */\n enableLod?: boolean;\n /**\n * Whether to drive LOD updates (compute lodInstances, update pager, etc.).\n * Set to false to use LOD instances from another renderer without driving updates.\n * Only has effect if enableLod is true.\n * @default true (if enableLod is true)\n */\n enableDriveLod?: boolean;\n /**\n * Whether to enable page fetching for LoD.\n * @default true\n */\n enableLodFetching?: boolean;\n /**\n * Set the target # splats for LoD. If this isn't set then default base LoD splat\n * counts will apply: 500K-750K for WebXR, 1-1.5M for mobile, and 2.5M for desktop.\n * @default 500K-2500K depending on platform\n */\n lodSplatCount?: number;\n /**\n * Scale factor for target # splats for LoD. 2.0 means 2x the base LoD splat count.\n * This is the easiest LoD parameter to adjust and will scale detail appropriately\n * for the platform.\n * @default 1.0\n */\n lodSplatScale?: number;\n /**\n * Determines the minimum screen pixel size of LoD splats. The default 1.0 means\n * the splat LoD tree will pick splats that are no smaller than 1 pixel in size.\n * Setting this to a higher value as high as 5.0 will often be indistinguishable\n * but will avoid wasting rendering capacity on tiny splats.\n * @default 1.0\n */\n lodRenderScale?: number;\n /**\n * Inflate LoD splats to ensure opacity stays <= 1.0, producing a softer appearance.\n * @default false\n */\n lodInflate?: boolean;\n /**\n * Whether to use extended Gsplat encoding for paged splats, useful for eliminating\n * quantization artifacts from splat scenes with large internal position coordinates.\n * @default false\n */\n pagedExtSplats?: boolean;\n /**\n * Allocation size of paged splats. This must be a multiple of the page size (65536).\n * @default 16777216 (256 * 65536) for desktop, 6291456 for iOS, 8,388,608 for other mobile\n */\n maxPagedSplats?: number;\n /**\n * Number of parallel chunk fetchers for LoD. These are run within a shared pool\n * of 4 background WebWorker threads, so setting it above 4 will not have any\n * effect. Setting it 3 leaves one spare worker for other loading/decoding tasks.\n * @default 3\n */\n numLodFetchers?: number;\n /* Full-width angle in degrees of fixed foveation cone along the view direction\n * with no foveation applied (full resolution, foveate=1.0). Set to 0 to disable.\n * @default 90.0\n */\n coneFov0?: number;\n /* Full-width angle in degrees of fixed foveation cone along the view direction\n * with reduced resolution specified by `coneFoveate`. Foveation will be applied\n * smoothly from 1.0 down to `coneFoveate` as you move outward from\n * `coneFov0` to `coneFov`. Set to 0 to disable.\n * @default 120.0\n */\n coneFov?: number;\n /* Foveation scale to apply to LoD splats at the edge of coneFov. Foveation will\n * be applied smoothly from `coneFoveate` down to `behindFoveate` as you move\n * outward from `coneFov` to 180 degrees (behind the viewer).\n * @default 0.4\n */\n coneFoveate?: number;\n /* Foveation scale to apply to LoD splats behind the viewer. Setting this to 0.1\n * for example will result in splats 10x larger than inside the viewing frustum.\n * @default 0.2\n */\n behindFoveate?: number;\n /* How many LoD splats to generate for raycasting\n * @default 10000-25000 iff default canvas target is used\n */\n lodRaycast?: number;\n lodRaycastIntervalMs?: number;\n /* Configures an offline render target for the SparkRenderer (as opposed to\n * rendering to the canvas). This is useful for rendering environment maps,\n * additional viewpoints, or video frame rendering.\n * @default undefined\n */\n target?: {\n /**\n * Width of the render target in pixels.\n */\n width: number;\n /**\n * Height of the render target in pixels.\n */\n height: number;\n /**\n * If you want to be able to render a scene that depends on this target's\n * output (for example, a recursive viewport), set this to true to enable\n * double buffering.\n * @default false\n */\n doubleBuffer?: boolean;\n /**\n * Super-sampling factor for the render target. Values 1-4 are supported.\n * Note that re-sampling back down to .width x .height is done on the CPU\n * with simple averaging only when calling readTarget().\n * @default 1\n */\n superXY?: number;\n } & THREE.RenderTargetOptions;\n /* Extra uniform values to pass to the shader.\n * @default undefined = no extra uniforms\n */\n extraUniforms?: Record;\n /* Replace the default `splatVertex.glsl` splat shader with a custom one.\n * @default undefined = use the default `splatVertex.glsl` shader\n */\n vertexShader?: string;\n /* Replace the default `splatFragment.glsl` splat shader with a custom one.\n * @default undefined = use the default `splatFragment.glsl` shader\n */\n fragmentShader?: string;\n /* Set the splat shader material to be transparent which determines if the\n * splats are rendered during the first opaque THREE.js render pass or the\n * second transparent render pass.\n * @default undefined = true\n */\n transparent?: boolean;\n /* Set the splat shader material to enable depth testing which determines if the\n * splats respect the Z depth buffer and blend with other opaque objects in the scene.\n * @default undefined = true\n */\n depthTest?: boolean;\n /* Set the splat shader material to enable depth writing which determines if the\n * splats write to the Z depth buffer. Note that enabling this may produce\n * undesirable results because most of the Gsplat is transparent.\n * @default undefined = false\n */\n depthWrite?: boolean;\n}\n\nexport class SparkRenderer extends THREE.Mesh {\n renderer: THREE.WebGLRenderer;\n premultipliedAlpha: boolean;\n material: THREE.ShaderMaterial;\n uniforms: ReturnType;\n\n autoUpdate: boolean;\n preUpdate: boolean;\n static sparkOverride?: SparkRenderer;\n\n renderSize = new THREE.Vector2();\n maxStdDev: number;\n minPixelRadius: number;\n maxPixelRadius: number;\n accumExtSplats: boolean;\n covSplats: boolean;\n minAlpha: number;\n enable2DGS: boolean;\n // enableRayEval: boolean;\n preBlurAmount: number;\n blurAmount: number;\n focalDistance: number;\n apertureAngle: number;\n falloff: number;\n clipXY: number;\n focalAdjustment: number;\n encodeLinear: boolean;\n\n sortRadial: boolean;\n minSortIntervalMs: number;\n\n clock: THREE.Clock;\n time?: number;\n lastFrame = -1;\n updateTimeoutId = -1;\n onDirty?: () => void;\n dirty: boolean;\n\n orderingTexture: THREE.DataTexture | null = null;\n maxSplats = 0;\n activeSplats = 0;\n\n display: SplatAccumulator;\n current: SplatAccumulator;\n accumulators: SplatAccumulator[] = [];\n\n sorting = false;\n sortDirty = false;\n lastSortTime = 0;\n sortWorker: SplatWorker | null = null;\n sortTimeoutId = -1;\n sortedCenter = new THREE.Vector3().setScalar(Number.NEGATIVE_INFINITY);\n sortedDir = new THREE.Vector3().setScalar(0);\n readback32 = new Uint32Array(0);\n\n enableLod: boolean;\n enableDriveLod: boolean;\n enableLodFetching: boolean;\n lodSplatCount?: number;\n lodSplatScale: number;\n lodRenderScale: number;\n lodInflate: boolean;\n pagedExtSplats: boolean;\n maxPagedSplats: number;\n numLodFetchers: number;\n behindFoveate: number;\n coneFov0: number;\n coneFov: number;\n coneFoveate: number;\n\n lodRaycast?: number;\n lodRaycastIntervalMs: number;\n lastLodRaycastTime = 0;\n\n lodWorker: SplatWorker | null = null;\n lodMeshes: { mesh: SplatMesh; version: number }[] = [];\n lodDirty = false;\n lodIds: Map<\n PackedSplats | ExtSplats | PagedSplats,\n { lodId: number; lastTouched: number; rootPage?: number }\n > = new Map();\n lodIdToSplats: Map =\n new Map();\n lodInitQueue: (PackedSplats | ExtSplats | PagedSplats)[] = [];\n lastLod?: {\n pos: THREE.Vector3;\n quat: THREE.Quaternion;\n pixelScaleLimit: number;\n maxSplats: number;\n timestamp: number;\n };\n currentLod?: {\n pos: THREE.Vector3;\n quat: THREE.Quaternion;\n pixelScaleLimit: number;\n maxSplats: number;\n timestamp: number;\n };\n lodPosOverride?: THREE.Vector3;\n lodQuatOverride?: THREE.Quaternion;\n lodInstances: Map<\n SplatMesh,\n {\n lodId: number;\n numSplats: number;\n indices: Uint32Array;\n texture: THREE.DataTexture;\n }\n > = new Map();\n lodUpdates: {\n lodId: number;\n pageBase: number;\n chunkBase: number;\n count: number;\n lodTreeData?: Uint32Array;\n }[] = [];\n lastTraverseTime = 0;\n lastPixelLimit?: number;\n\n pager?: SplatPager;\n pagerId = 0;\n // prefetchCameras: THREE.Camera[] = [];\n // prefetchLodScale = 1.0;\n // prefetchMeshesCache: SplatMesh[] = [];\n // prefetchMeshesCacheScene?: THREE.Scene;\n\n target?: THREE.WebGLRenderTarget;\n backTarget?: THREE.WebGLRenderTarget;\n superPixels?: Uint8Array;\n targetPixels?: Uint8Array;\n superXY = 1;\n\n flushAfterGenerate = false;\n flushAfterRead = false;\n readPause = 1;\n sortPause = 0;\n sortDelay = 0;\n\n constructor(options: SparkRendererOptions) {\n if (!options) {\n throw new Error(\"SparkRenderer options are required\");\n }\n if (!options.renderer) {\n throw new Error(\"renderer is required in SparkRenderer options\");\n }\n\n const uniforms = SparkRenderer.makeUniforms();\n Object.assign(uniforms, options.extraUniforms ?? {});\n\n const shaders = getShaders();\n const premultipliedAlpha = options.premultipliedAlpha ?? true;\n const geometry = new SplatGeometry();\n const material = new THREE.ShaderMaterial({\n glslVersion: THREE.GLSL3,\n vertexShader: options.vertexShader ?? shaders.splatVertex,\n fragmentShader: options.fragmentShader ?? shaders.splatFragment,\n uniforms,\n premultipliedAlpha,\n transparent: options.transparent ?? true,\n depthTest: options.depthTest ?? true,\n depthWrite: options.depthWrite ?? false,\n side: THREE.DoubleSide,\n allowOverride: false,\n });\n\n super(geometry, material);\n this.material = material;\n this.uniforms = uniforms;\n // Disable frustum culling because we want to always draw them all\n // and cull Gsplats individually in the shader\n this.frustumCulled = false;\n\n // By default SparkRenderer will only render for layer 0\n // this.layers.enableAll();\n\n // sparkRendererInstance = this;\n this.renderer = options.renderer;\n this.onDirty = options.onDirty;\n this.dirty = true;\n this.premultipliedAlpha = premultipliedAlpha;\n this.autoUpdate = options.autoUpdate ?? true;\n this.preUpdate = options.preUpdate ?? true;\n\n this.maxStdDev = options.maxStdDev ?? Math.sqrt(8.0);\n this.minPixelRadius = options.minPixelRadius ?? 0.0; //1.6;\n this.maxPixelRadius = options.maxPixelRadius ?? 512.0;\n this.accumExtSplats = options.accumExtSplats ?? false;\n this.covSplats = options.covSplats ?? false;\n this.minAlpha = options.minAlpha ?? 0.5 * (1.0 / 255.0);\n this.enable2DGS = options.enable2DGS ?? false;\n // this.enableRayEval = options.enableRayEval ?? false;\n this.preBlurAmount = options.preBlurAmount ?? 0.0;\n this.blurAmount = options.blurAmount ?? 0.3;\n this.focalDistance = options.focalDistance ?? 0.0;\n this.apertureAngle = options.apertureAngle ?? 0.0;\n this.falloff = options.falloff ?? 1.0;\n this.clipXY = options.clipXY ?? 1.4;\n this.focalAdjustment = options.focalAdjustment ?? 1.0;\n this.encodeLinear = options.encodeLinear ?? false;\n\n this.sortRadial = options.sortRadial ?? true;\n this.minSortIntervalMs = options.minSortIntervalMs ?? 0;\n\n this.enableLod = options.enableLod ?? true;\n // enableDriveLod defaults to true if enableLod is true, false otherwise\n this.enableDriveLod = options.enableDriveLod ?? this.enableLod;\n this.enableLodFetching = options.enableLodFetching ?? true;\n this.lodSplatCount = options.lodSplatCount;\n this.lodSplatScale = options.lodSplatScale ?? 1.0;\n this.lodRenderScale = options.lodRenderScale ?? 1.0;\n this.lodInflate = options.lodInflate ?? false;\n this.pagedExtSplats = options.pagedExtSplats ?? false;\n const defaultPages = isMobile() ? (isIos() ? 96 : 128) : 256;\n this.maxPagedSplats = options.maxPagedSplats ?? defaultPages * 65536;\n this.numLodFetchers = options.numLodFetchers ?? 3;\n this.behindFoveate = options.behindFoveate ?? 0.2;\n this.coneFov0 = options.coneFov0 ?? 90.0;\n this.coneFov = options.coneFov ?? 120.0;\n this.coneFoveate = options.coneFoveate ?? 0.4;\n\n this.lodRaycast =\n options.lodRaycast === undefined\n ? isMobile()\n ? 10000\n : 25000\n : options.lodRaycast;\n this.lodRaycastIntervalMs = options.lodRaycastIntervalMs ?? 500;\n\n this.clock = options.clock ? cloneClock(options.clock) : new THREE.Clock();\n\n const accumulatorOptions = {\n extSplats: this.accumExtSplats,\n covSplats: this.covSplats,\n };\n this.display = new SplatAccumulator(accumulatorOptions);\n this.current = this.display;\n this.accumulators.push(new SplatAccumulator(accumulatorOptions));\n this.accumulators.push(new SplatAccumulator(accumulatorOptions));\n\n if (options.target) {\n const {\n width,\n height,\n doubleBuffer,\n superXY: origSuperXY,\n ...origTargetOptions\n } = options.target;\n const superXY = Math.max(1, Math.min(4, origSuperXY ?? 1));\n if (width * superXY > 8192 || height * superXY > 8192) {\n throw new Error(\"Target size too large\");\n }\n this.superXY = superXY;\n\n const superWidth = width * superXY;\n const superHeight = height * superXY;\n const targetOptions: THREE.RenderTargetOptions = {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n colorSpace: THREE.SRGBColorSpace,\n ...origTargetOptions,\n };\n\n this.target = new THREE.WebGLRenderTarget(\n superWidth,\n superHeight,\n targetOptions,\n );\n if (doubleBuffer) {\n this.backTarget = new THREE.WebGLRenderTarget(\n superWidth,\n superHeight,\n targetOptions,\n );\n }\n this.encodeLinear = options.encodeLinear ?? true;\n }\n }\n\n static makeUniforms() {\n const uniforms = {\n // // number of active splats to render\n // numSplats: { value: 0 },\n // Size of render viewport in pixels\n renderSize: { value: new THREE.Vector2() },\n // Near and far plane distances\n near: { value: 0.1 },\n far: { value: 1000.0 },\n // SplatAccumulator to view transformation quaternion\n renderToViewQuat: { value: new THREE.Quaternion() },\n // SplatAccumulator to view transformation translation\n renderToViewPos: { value: new THREE.Vector3() },\n renderToViewBasis: { value: new THREE.Matrix3() },\n renderToViewOffset: { value: new THREE.Vector3() },\n // Maximum distance (in stddevs) from Gsplat center to render\n maxStdDev: { value: 1.0 },\n // Minimum pixel radius for splat rendering\n minPixelRadius: { value: 0.0 },\n // Maximum pixel radius for splat rendering\n maxPixelRadius: { value: 512.0 },\n // Minimum alpha value for splat rendering\n minAlpha: { value: 0.5 * (1.0 / 255.0) },\n // Enable interpreting 0-thickness Gsplats as 2DGS\n enable2DGS: { value: false },\n // Enable ray-splat max response evaluation\n // enableRayEval: { value: false },\n // Inflate LoD splats so that opacity <= 1.0\n lodInflate: { value: false },\n // Add to projected 2D splat covariance diagonal (thickens and brightens)\n preBlurAmount: { value: 0.0 },\n // Add to 2D splat covariance diagonal and adjust opacity (anti-aliasing)\n blurAmount: { value: 0.3 },\n // Depth-of-field distance to focal plane\n focalDistance: { value: 0.0 },\n // Full-width angle of aperture opening (in radians)\n apertureAngle: { value: 0.0 },\n // Modulate Gaussian kernal falloff. 0 means \"no falloff, flat shading\",\n // 1 is normal e^-x^2 falloff.\n falloff: { value: 1.0 },\n // Clip Gsplats that are clipXY times beyond the +-1 frustum bounds\n clipXY: { value: 1.4 },\n // Debug renderSize scale factor\n focalAdjustment: { value: 1.0 },\n // Whether to encode Gsplat with linear RGB (for environment mapping)\n encodeLinear: { value: false },\n // Back-to-front sort ordering of splat indices\n ordering: { type: \"t\", value: SparkRenderer.emptyOrdering },\n enableExtSplats: { value: false },\n enableCovSplats: { value: false },\n // Gsplat collection to render\n extSplats: { type: \"t\", value: SplatAccumulator.emptyTexture },\n extSplats2: { type: \"t\", value: SplatAccumulator.emptyTexture },\n // Time in seconds for time-based effects\n time: { value: 0 },\n // Delta time in seconds since last frame\n deltaTime: { value: 0 },\n // Debug flag that alternates each frame\n debugFlag: { value: false },\n };\n return uniforms;\n }\n\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target = undefined;\n }\n if (this.backTarget) {\n this.backTarget.dispose();\n this.backTarget = undefined;\n }\n if (this.orderingTexture) {\n this.orderingTexture.dispose();\n this.orderingTexture = null;\n }\n\n const accumulators = new Set();\n accumulators.add(this.display);\n accumulators.add(this.current);\n for (const accumulator of this.accumulators) {\n accumulators.add(accumulator);\n }\n for (const accumulator of accumulators) {\n accumulator.dispose();\n }\n\n const instances = this.lodInstances.values();\n this.lodInstances.clear();\n for (const instance of instances) {\n instance.texture.dispose();\n }\n\n if (this.sortWorker) {\n this.sortWorker.dispose();\n this.sortWorker = null;\n }\n if (this.lodWorker) {\n this.lodWorker.dispose();\n this.lodWorker = null;\n }\n if (this.pager) {\n this.pager.dispose();\n this.pager = undefined;\n }\n }\n\n setDirty() {\n if (!this.dirty) {\n this.dirty = true;\n this.onDirty?.();\n }\n }\n\n onBeforeRender(\n renderer: THREE.WebGLRenderer,\n scene: THREE.Scene,\n camera: THREE.Camera,\n ) {\n const spark = SparkRenderer.sparkOverride ?? this;\n\n const frame = renderer.info.render.frame;\n const isNewFrame = frame !== spark.lastFrame;\n spark.lastFrame = frame;\n\n if (spark.target) {\n spark.renderSize.set(spark.target.width, spark.target.height);\n } else {\n const renderSize = renderer.getDrawingBufferSize(spark.renderSize);\n if (renderer.xr.isPresenting) {\n if (renderSize.x === 1 && renderSize.y === 1) {\n // WebXR mode on Apple Vision Pro returns 1x1 when presenting.\n // Use a different means to figure out the render size.\n const baseLayer = renderer.xr.getSession()?.renderState.baseLayer;\n if (baseLayer) {\n renderSize.x = baseLayer.framebufferWidth;\n renderSize.y = baseLayer.framebufferHeight;\n }\n }\n }\n }\n this.uniforms.renderSize.value.copy(spark.renderSize);\n\n const typedCamera = camera as\n | THREE.PerspectiveCamera\n | THREE.OrthographicCamera;\n\n this.uniforms.near.value = typedCamera.near;\n this.uniforms.far.value = typedCamera.far;\n\n const geometry = this.geometry as SplatGeometry;\n geometry.instanceCount = spark.activeSplats;\n\n const accumToWorld = new THREE.Matrix4();\n if (!this.display.extSplats) {\n accumToWorld.makeTranslation(spark.display.viewOrigin);\n }\n const cameraToWorld = camera.matrixWorld.clone();\n const worldToCamera = cameraToWorld.invert();\n const accumToCamera = worldToCamera.multiply(accumToWorld);\n accumToCamera.decompose(\n this.uniforms.renderToViewPos.value,\n this.uniforms.renderToViewQuat.value,\n new THREE.Vector3(),\n );\n this.uniforms.renderToViewBasis.value.setFromMatrix4(accumToCamera);\n\n this.uniforms.maxStdDev.value = spark.maxStdDev;\n this.uniforms.minPixelRadius.value = spark.minPixelRadius;\n this.uniforms.maxPixelRadius.value = spark.maxPixelRadius;\n this.uniforms.minAlpha.value = spark.minAlpha;\n this.uniforms.enable2DGS.value = spark.enable2DGS;\n // this.uniforms.enableRayEval.value = spark.enableRayEval;\n this.uniforms.lodInflate.value = spark.lodInflate;\n this.uniforms.preBlurAmount.value = spark.preBlurAmount;\n this.uniforms.blurAmount.value = spark.blurAmount;\n this.uniforms.focalDistance.value = spark.focalDistance;\n this.uniforms.apertureAngle.value = spark.apertureAngle;\n this.uniforms.falloff.value = spark.falloff;\n this.uniforms.clipXY.value = spark.clipXY;\n this.uniforms.focalAdjustment.value = spark.focalAdjustment;\n this.uniforms.encodeLinear.value = spark.encodeLinear;\n\n this.uniforms.ordering.value =\n spark.orderingTexture ?? SparkRenderer.emptyOrdering;\n this.uniforms.enableExtSplats.value = this.display.extSplats;\n this.uniforms.enableCovSplats.value = this.display.covSplats;\n if (this.display.extSplats) {\n const extSplats = spark.display.getTextures();\n this.uniforms.extSplats.value = extSplats[0];\n this.uniforms.extSplats2.value = extSplats[1];\n } else {\n const packedSplats = spark.display.getTextures();\n this.uniforms.extSplats.value = packedSplats[0];\n this.uniforms.extSplats2.value = packedSplats[0];\n }\n\n this.uniforms.time.value = spark.display.time;\n this.uniforms.deltaTime.value = spark.display.deltaTime;\n // Alternating debug flag that can aid in visual debugging\n this.uniforms.debugFlag.value = (performance.now() / 1000.0) % 2.0 < 1.0;\n\n if (spark.autoUpdate && isNewFrame) {\n const preUpdate = spark.preUpdate && !renderer.xr.isPresenting;\n const useCamera = renderer.xr.isPresenting\n ? renderer.xr.getCamera()\n : camera;\n if (preUpdate) {\n spark.updateInternal({\n scene,\n camera: useCamera,\n autoUpdate: true,\n });\n } else {\n if (spark.updateTimeoutId === -1) {\n spark.updateTimeoutId = setTimeout(() => {\n spark.updateTimeoutId = -1;\n spark.updateInternal({\n scene,\n camera: useCamera,\n autoUpdate: true,\n });\n }, 1);\n }\n }\n }\n\n spark.dirty = false;\n }\n\n clearSplats() {\n this.activeSplats = 0;\n this.display.numSplats = 0;\n this.setDirty();\n }\n\n async update({\n scene,\n camera,\n }: {\n scene: THREE.Scene;\n camera: THREE.Camera;\n }) {\n await this.updateInternal({ scene, camera, autoUpdate: false });\n }\n\n // /**\n // * Provide additional cameras to prefetch paged splat chunks without\n // * affecting main LOD selection.\n // */\n // setPrefetchCameras(cameras?: THREE.Camera[], lodScaleMultiplier = 1.0) {\n // const next = cameras?.filter(Boolean) ?? [];\n // const sameCameras =\n // this.prefetchCameras.length === next.length &&\n // this.prefetchCameras.every((camera, index) => camera === next[index]);\n // if (sameCameras && this.prefetchLodScale === lodScaleMultiplier) {\n // return;\n // }\n // this.prefetchCameras = next;\n // this.prefetchLodScale = lodScaleMultiplier;\n // this.invalidatePrefetchCache();\n // }\n\n // /**\n // * Invalidate the prefetch meshes cache. Call this when SplatMeshes are\n // * added or removed from the scene.\n // */\n // invalidatePrefetchCache() {\n // this.prefetchMeshesCacheScene = undefined;\n // }\n\n private async updateInternal({\n scene,\n camera,\n autoUpdate,\n }: {\n scene: THREE.Scene;\n camera: THREE.Camera;\n autoUpdate: boolean;\n }) {\n const renderer = this.renderer;\n const time = this.time ?? this.clock.getElapsedTime();\n\n const center = camera.getWorldPosition(new THREE.Vector3());\n const dir = camera.getWorldDirection(new THREE.Vector3());\n\n const viewChanged =\n center.distanceTo(this.sortedCenter) > 0.001 ||\n dir.dot(this.sortedDir) < 0.999;\n\n const next = this.accumulators.pop();\n if (!next) {\n // Should never happen\n throw new Error(\"No next accumulator\");\n }\n if (next === this.current) {\n // Should never happen\n throw new Error(\n \"Next accumulator is the same as the current accumulator\",\n );\n }\n const { version, mappingVersion, visibleGenerators, generate } =\n next.prepareGenerate({\n renderer,\n scene,\n time,\n camera,\n sortRadial: this.sortRadial ?? true,\n renderSize: this.renderSize,\n previous: this.current,\n lodInstances: this.enableLod ? this.lodInstances : undefined,\n });\n\n let doUpdate = true;\n const needsUpdate = viewChanged || version !== this.current.version;\n const mappingUpdated = mappingVersion !== this.display.mappingVersion;\n\n if (autoUpdate && !needsUpdate) {\n // Triggered by auto-update but no change\n doUpdate = false;\n }\n\n if (mappingUpdated && this.sorting) {\n // We need to be able to sort the splats because the mapping has changed.\n // Try again next time around.\n doUpdate = false;\n }\n\n if (!doUpdate) {\n // Restore unused accumulator to the free list\n this.accumulators.push(next);\n } else {\n generate();\n\n if (this.flushAfterGenerate) {\n const gl = renderer.getContext() as WebGL2RenderingContext;\n gl.flush();\n }\n\n if (this.display.mappingVersion === next.mappingVersion) {\n // Same splat mapping so let's display it immediately and\n // reuse the sort order\n this.accumulators.push(this.display);\n this.display = next;\n } else {\n if (this.display !== this.current) {\n // The previous current is not being displayed, so replace it\n this.accumulators.push(this.current);\n }\n }\n\n this.current = next;\n this.sortDirty = true;\n this.setDirty();\n }\n\n if (this.enableDriveLod) {\n this.driveLod({ visibleGenerators, camera, scene });\n }\n await this.driveSort();\n }\n\n private async driveSort() {\n if (this.sorting || !this.sortDirty) {\n return;\n }\n\n if (this.sortTimeoutId !== -1) {\n clearTimeout(this.sortTimeoutId);\n this.sortTimeoutId = -1;\n }\n\n const now = performance.now();\n const nextSortTime = this.lastSortTime\n ? this.lastSortTime + this.minSortIntervalMs\n : now;\n if (now < nextSortTime) {\n this.sortTimeoutId = setTimeout(() => {\n this.sortTimeoutId = -1;\n this.driveSort();\n }, nextSortTime - now);\n return;\n }\n\n this.sorting = true;\n this.sortDirty = false;\n this.lastSortTime = now;\n\n if (this.readPause > 0) {\n await new Promise((resolve) => setTimeout(resolve, this.readPause));\n }\n\n const current = this.current;\n\n this.sortedCenter.copy(current.viewOrigin);\n this.sortedDir.copy(current.viewDirection);\n\n const { numSplats, maxSplats } = current;\n const rows = Math.max(1, Math.ceil(maxSplats / 16384));\n const orderingMaxSplats = rows * 16384;\n this.maxSplats = Math.max(this.maxSplats, orderingMaxSplats);\n\n const ordering = new Uint32Array(this.maxSplats);\n const readback = Readback.ensureBuffer(maxSplats, this.readback32);\n this.readback32 = readback;\n\n await this.readbackDepth({\n current,\n renderer: this.renderer,\n numSplats,\n readback,\n });\n\n if (this.sortPause > 0) {\n await new Promise((resolve) => setTimeout(resolve, this.sortPause));\n }\n\n if (!this.sortWorker) {\n this.sortWorker = new SplatWorker();\n }\n const result = (await this.sortWorker.call(\"sortSplats32\", {\n numSplats,\n readback,\n ordering,\n })) as {\n readback: Uint32Array;\n ordering: Uint32Array;\n activeSplats: number;\n };\n\n if (this.sortDelay > 0) {\n await new Promise((resolve) => setTimeout(resolve, this.sortDelay));\n }\n\n this.readback32 = result.readback;\n\n this.activeSplats = result.activeSplats;\n\n if (this.orderingTexture) {\n if (rows > this.orderingTexture.image.height) {\n this.orderingTexture.dispose();\n this.orderingTexture = null;\n }\n }\n\n if (!this.orderingTexture) {\n // console.log(`Allocating orderingTexture: ${4096}x${rows}`);\n const orderingTexture = new THREE.DataTexture(\n result.ordering,\n 4096,\n rows,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n orderingTexture.internalFormat = \"RGBA32UI\";\n orderingTexture.needsUpdate = true;\n this.orderingTexture = orderingTexture;\n } else {\n const renderer = this.renderer;\n const gl = renderer.getContext() as WebGL2RenderingContext;\n if (!renderer.properties.has(this.orderingTexture)) {\n this.orderingTexture.needsUpdate = true;\n } else {\n const props = renderer.properties.get(this.orderingTexture) as {\n __webglTexture: WebGLTexture;\n };\n const glTexture = props.__webglTexture;\n if (!glTexture) {\n throw new Error(\"ordering texture not found\");\n }\n renderer.state.activeTexture(gl.TEXTURE0);\n renderer.state.bindTexture(gl.TEXTURE_2D, glTexture);\n gl.bindBuffer(gl.PIXEL_UNPACK_BUFFER, null);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, false);\n gl.texSubImage2D(\n gl.TEXTURE_2D,\n 0,\n 0,\n 0,\n 4096,\n rows,\n gl.RGBA_INTEGER,\n gl.UNSIGNED_INT,\n // data,\n result.ordering,\n );\n renderer.state.bindTexture(gl.TEXTURE_2D, null);\n }\n }\n\n // console.log(`Sorted (${this.minSortIntervalMs}) ${numSplats} splats in ${(performance.now() - now).toFixed(0)} ms`);\n\n if (this.current.mappingVersion === current.mappingVersion) {\n if (this.current.mappingVersion !== this.display.mappingVersion) {\n this.accumulators.push(this.display);\n this.display = this.current;\n }\n }\n this.sorting = false;\n this.setDirty();\n\n this.driveSort();\n }\n\n private ensureLodWorker() {\n if (!this.lodWorker) {\n this.lodWorker = new SplatWorker();\n }\n return this.lodWorker;\n }\n\n defaultSplatTarget() {\n return isOculus()\n ? 500000\n : isVisionPro()\n ? 750000\n : isAndroid()\n ? 1000000\n : isIos()\n ? 1500000\n : 2500000;\n }\n\n private driveLod({\n visibleGenerators,\n camera,\n scene,\n }: {\n visibleGenerators: SplatGenerator[];\n camera: THREE.Camera;\n scene: THREE.Scene;\n }) {\n const defaultSplatCount = this.defaultSplatTarget();\n const splatCount = this.lodSplatCount ?? defaultSplatCount;\n const maxSplats = splatCount * this.lodSplatScale;\n\n let pixelScaleLimit = 0.0;\n if (camera instanceof THREE.PerspectiveCamera) {\n const tanYfov = Math.tan((0.5 * camera.fov * Math.PI) / 180);\n pixelScaleLimit = (2.0 * tanYfov) / this.renderSize.y;\n } else if (camera instanceof THREE.OrthographicCamera) {\n // Effective visible size after zoom\n const viewHeight = (camera.top - camera.bottom) / camera.zoom;\n const viewWidth = (camera.right - camera.left) / camera.zoom;\n // World/view units per pixel (constant with depth for ortho)\n const pxY = viewHeight / Math.max(1, this.renderSize.y);\n const pxX = viewWidth / Math.max(1, this.renderSize.x);\n pixelScaleLimit = Math.min(pxX, pxY);\n }\n\n pixelScaleLimit *= this.lodRenderScale;\n\n const viewPos = new THREE.Vector3();\n const viewQuat = new THREE.Quaternion();\n this.current.viewToWorld.decompose(viewPos, viewQuat, new THREE.Vector3());\n\n if (this.lodPosOverride) {\n viewPos.copy(this.lodPosOverride);\n }\n if (this.lodQuatOverride) {\n viewQuat.copy(this.lodQuatOverride).normalize();\n }\n\n if (this.lastLod) {\n if (\n this.lastLod.pixelScaleLimit !== pixelScaleLimit ||\n this.lastLod.maxSplats !== maxSplats\n ) {\n this.lodDirty = true;\n }\n\n const distance = viewPos.distanceTo(this.lastLod.pos);\n const distanceRamp = Math.max(0.0, 1.0 - distance / 1.0);\n const dot = viewQuat.dot(this.lastLod.quat);\n const quatRamp = Math.max(0.0, 1.0 - (1.0 - dot) / 0.01);\n const similarity = distanceRamp * quatRamp;\n if (similarity < 0.999) {\n this.lodDirty = true;\n }\n }\n\n const lodMeshes = !this.enableLod\n ? []\n : (visibleGenerators.filter((generator) => {\n return (\n generator instanceof SplatMesh &&\n (generator.packedSplats?.lodSplats ||\n generator.extSplats?.lodSplats ||\n generator.paged) &&\n generator.enableLod !== false\n );\n }) as SplatMesh[]);\n const hasPaged = lodMeshes.some((mesh) => mesh.paged);\n\n if (this.lodMeshes.length !== lodMeshes.length) {\n this.lodDirty = true;\n } else {\n if (\n lodMeshes.some(\n (m, i) =>\n m !== this.lodMeshes[i].mesh ||\n m.version > this.lodMeshes[i].version,\n )\n ) {\n this.lodDirty = true;\n }\n }\n\n this.lodMeshes = lodMeshes.map((mesh) => ({\n mesh,\n version: mesh.version + 1,\n }));\n\n // if (!this.lodDirty && lodMeshes.length === 0 && this.lodIds.size === 0) {\n // return;\n // }\n\n this.lodInitQueue = [];\n const now = performance.now();\n\n for (const mesh of lodMeshes) {\n const splats =\n mesh.packedSplats?.lodSplats ?? mesh.extSplats?.lodSplats ?? mesh.paged;\n if (splats) {\n const record = this.lodIds.get(splats);\n if (record) {\n record.lastTouched = now;\n } else {\n this.lodInitQueue.push(splats);\n }\n }\n }\n\n this.ensureLodWorker().tryExclusive(async (worker) => {\n if (hasPaged && !this.pager) {\n this.pager = new SplatPager({\n renderer: this.renderer,\n extSplats: this.pagedExtSplats,\n maxSplats: this.maxPagedSplats,\n numFetchers: this.numLodFetchers,\n });\n\n const { lodId } = (await worker.call(\"newLodTree\", {\n capacity: this.pager.maxSplats,\n })) as { lodId: number };\n this.pagerId = lodId;\n }\n\n // Assign pager to any new meshes that don't have one yet\n // (must run every frame, not just when pager is first created)\n if (this.pager) {\n for (const { mesh } of this.lodMeshes) {\n if (mesh.paged && !mesh.paged.pager) {\n mesh.paged.pager = this.pager;\n }\n }\n }\n\n if (this.lodInitQueue.length > 0) {\n const lodInitQueue = this.lodInitQueue;\n this.lodInitQueue = [];\n while (lodInitQueue.length > 0) {\n const splats = lodInitQueue.shift();\n if (splats) {\n await this.initLodTree(worker, splats);\n this.lodDirty = true;\n }\n }\n }\n\n if (this.pager) {\n const updates = this.pager.consumeLodTreeUpdates();\n\n for (const { splats, page, chunk, numSplats, lodTree } of updates) {\n const record = this.lodIds.get(splats);\n if (record) {\n if (lodTree && chunk === 0) {\n record.rootPage = page;\n }\n this.lodUpdates.push({\n lodId: record.lodId,\n pageBase: page * this.pager.pageSplats,\n chunkBase: chunk * this.pager.pageSplats,\n count: numSplats,\n lodTreeData: lodTree,\n });\n }\n }\n }\n\n if (this.lodUpdates.length > 0) {\n const lodUpdates = this.lodUpdates;\n this.lodUpdates = [];\n await worker.call(\"updateLodTrees\", { ranges: lodUpdates });\n this.lodDirty = true;\n }\n\n if (this.lodDirty) {\n const now = performance.now();\n const deltaPred = new THREE.Vector3();\n if (this.lastLod) {\n const deltaTime = Math.max(1, now - this.lastLod.timestamp);\n deltaPred\n .copy(viewPos)\n .sub(this.lastLod.pos)\n .multiplyScalar(this.lastTraverseTime / deltaTime);\n }\n this.lastLod = {\n pos: viewPos,\n quat: viewQuat,\n pixelScaleLimit,\n maxSplats,\n timestamp: now,\n };\n this.lodDirty = false;\n\n await this.updateLodInstances(\n worker,\n deltaPred,\n lodMeshes,\n maxSplats,\n viewPos,\n viewQuat,\n pixelScaleLimit,\n );\n this.currentLod = this.lastLod;\n this.setDirty();\n }\n\n await this.cleanupLodTrees(worker);\n });\n }\n\n private async initLodTree(\n worker: SplatWorker,\n splats: PackedSplats | ExtSplats | PagedSplats,\n ) {\n if (splats instanceof PackedSplats || splats instanceof ExtSplats) {\n const { lodId } = (await worker.call(\"initLodTree\", {\n numSplats: splats.numSplats ?? 0,\n lodTree: (splats.extra.lodTree as Uint32Array).slice(),\n })) as { lodId: number };\n this.lodIds.set(splats, { lodId, lastTouched: performance.now() });\n this.lodIdToSplats.set(lodId, splats);\n // console.log(\"*** initLodTree\", lodId, splats.extra.lodTree, splats);\n } else {\n const { lodId } = (await worker.call(\"newSharedLodTree\", {\n lodId: this.pagerId,\n })) as { lodId: number };\n this.lodIds.set(splats, { lodId, lastTouched: performance.now() });\n this.lodIdToSplats.set(lodId, splats);\n // console.log(\"*** newSharedLodTree\", lodId, this.pagerId, splats);\n }\n }\n\n private pageSizeWarning = false;\n\n private async updateLodInstances(\n worker: SplatWorker,\n deltaPred: THREE.Vector3,\n lodMeshes: SplatMesh[],\n maxSplats: number,\n viewPos: THREE.Vector3,\n viewQuat: THREE.Quaternion,\n pixelScaleLimit: number,\n ) {\n // Commented out because it makes LoDing less stable\n // viewPos.add(deltaPred);\n\n const uuidToMesh: Map = new Map();\n const cameraToWorld = new THREE.Matrix4().compose(\n viewPos,\n viewQuat,\n new THREE.Vector3().setScalar(1),\n );\n\n const instances = lodMeshes.reduce(\n (instances, mesh) => {\n uuidToMesh.set(mesh.uuid, mesh);\n const viewToObject = mesh.matrixWorld\n .clone()\n .invert()\n .multiply(cameraToWorld);\n\n const splats =\n mesh.packedSplats?.lodSplats ??\n mesh.extSplats?.lodSplats ??\n mesh.paged;\n if (!splats) {\n return instances;\n }\n const record = this.lodIds.get(splats);\n if (!record) {\n return instances;\n }\n\n if (this.pager && mesh.paged && record.rootPage === undefined) {\n return instances;\n }\n\n instances[mesh.uuid] = {\n instanceId: mesh.uuid,\n lodId: record.lodId,\n rootPage: record.rootPage,\n viewToObjectCols: viewToObject.elements,\n lodScale: mesh.lodScale,\n behindFoveate: mesh.behindFoveate ?? this.behindFoveate,\n coneFov0: mesh.coneFov0 ?? this.coneFov0,\n coneFov: mesh.coneFov ?? this.coneFov,\n coneFoveate: mesh.coneFoveate ?? this.coneFoveate,\n };\n return instances;\n },\n {} as Record<\n string,\n {\n instanceId: string;\n lodId: number;\n rootPage?: number;\n viewToObjectCols: number[];\n lodScale: number;\n behindFoveate: number;\n coneFov0: number;\n coneFov: number;\n coneFoveate: number;\n }\n >,\n );\n\n const traverseStart = performance.now();\n const result = (await worker.call(\"traverseLodTrees\", {\n maxSplats,\n pixelScaleLimit,\n lastPixelLimit: this.lastPixelLimit,\n instances,\n })) as {\n keyIndices: Record<\n string,\n { lodId: number; numSplats: number; indices: Uint32Array }\n >;\n chunks: [number, number][];\n pixelLimit?: number;\n };\n this.lastTraverseTime = performance.now() - traverseStart;\n\n const { keyIndices, chunks, pixelLimit } = result;\n this.lastPixelLimit = pixelLimit;\n const totalLodSplats = Object.values(keyIndices).reduce(\n (sum, { numSplats }) => sum + numSplats,\n 0,\n );\n // console.log(\n // `traverseLodTrees in ${this.lastTraverseTime} ms, pixelLimit=${pixelLimit}, totalLodSplats=${totalLodSplats}`,\n // );\n\n this.updateLodIndices(uuidToMesh, keyIndices);\n // console.log(\"chunks.length =\", chunks.length);\n\n if (this.pager) {\n this.pager.processUploads();\n\n const pagedMeshes = lodMeshes\n .map((mesh) => {\n if (!mesh.paged || !this.pager) {\n return null;\n }\n const meshPosition = mesh.getWorldPosition(new THREE.Vector3());\n return {\n splats: mesh.paged,\n distance: meshPosition.distanceTo(viewPos),\n };\n })\n .filter((result) => result !== null);\n\n if (!this.pageSizeWarning && pagedMeshes.length > this.pager.maxPages) {\n this.pageSizeWarning = true;\n console.warn(\n `# paged SplatMeshes exceeds maxPages: ${pagedMeshes.length} > ${this.pager.maxPages}`,\n );\n }\n\n // Fetch root chunk of each paged splats in priority of distance to camera\n pagedMeshes.sort((a, b) => a.distance - b.distance);\n this.pager.fetchPriority = pagedMeshes.map(({ splats }) => ({\n splats,\n chunk: 0,\n }));\n\n for (const [lodId, chunk] of chunks) {\n const splats = this.lodIdToSplats.get(lodId);\n if (splats instanceof PagedSplats) {\n if (chunk !== 0) {\n this.pager.fetchPriority.push({ splats, chunk });\n }\n }\n }\n\n this.pager.autoDrive = this.enableLodFetching;\n if (this.enableLodFetching) {\n this.pager.driveFetchers();\n }\n }\n\n if (\n this.lodRaycast &&\n performance.now() - this.lastLodRaycastTime >= this.lodRaycastIntervalMs\n ) {\n this.lastLodRaycastTime = performance.now();\n const traverseStart = performance.now();\n const result = (await worker.call(\"traverseLodTrees\", {\n maxSplats: Math.min(this.lodRaycast, Math.round(totalLodSplats * 0.1)),\n pixelScaleLimit,\n instances,\n })) as {\n keyIndices: Record<\n string,\n { lodId: number; numSplats: number; indices: Uint32Array }\n >;\n };\n const raycastTraverseTime = performance.now() - traverseStart;\n\n const { keyIndices } = result;\n const totalRaycastSplats = Object.values(keyIndices).reduce(\n (sum, { numSplats }) => sum + numSplats,\n 0,\n );\n for (const [uuid, countIndices] of Object.entries(keyIndices)) {\n const mesh = uuidToMesh.get(uuid) as SplatMesh;\n mesh.raycastIndices = countIndices;\n // console.log(\"Set raycast indices\", uuid, countIndices.numSplats, countIndices.indices.length);\n }\n // console.log(`raycast traverse in ${raycastTraverseTime} ms, totalRaycastSplats=${totalRaycastSplats}`);\n }\n }\n\n private async cleanupLodTrees(worker: SplatWorker) {\n const DISPOSE_TIMEOUT_MS = 3000;\n const now = performance.now();\n\n let oldest = null;\n for (const [splats, record] of this.lodIds.entries()) {\n if (oldest == null || record.lastTouched < oldest.lastTouched) {\n oldest = {\n splats,\n lastTouched: record.lastTouched,\n lodId: record.lodId,\n };\n }\n }\n if (!oldest || oldest.lastTouched > now - DISPOSE_TIMEOUT_MS) {\n return;\n }\n\n this.lodIds.delete(oldest.splats);\n this.lodIdToSplats.delete(oldest.lodId);\n\n for (const [mesh, instance] of this.lodInstances.entries()) {\n if (instance.lodId === oldest.lodId) {\n instance.texture.dispose();\n this.lodInstances.delete(mesh);\n }\n }\n\n await worker.call(\"disposeLodTree\", { lodId: oldest.lodId });\n // console.log(\"disposed lodTree\", oldest.lodId);\n }\n\n private updateLodIndices(\n uuidToMesh: Map,\n keyIndices: Record<\n string,\n { lodId: number; numSplats: number; indices: Uint32Array }\n >,\n ) {\n // console.log(\"updateLodIndices\", keyIndices);\n for (const [uuid, countIndices] of Object.entries(keyIndices)) {\n const { lodId, numSplats, indices } = countIndices;\n const mesh = uuidToMesh.get(uuid) as SplatMesh;\n\n if (mesh.paged) {\n mesh.paged.update(numSplats, indices);\n // console.log(\"*** paged.update\", lodId, numSplats, indices.slice(0, 5).join(\",\"));\n } else {\n let instance = this.lodInstances.get(mesh);\n if (instance) {\n if (indices.length > instance.indices.length) {\n instance.texture.dispose();\n instance = undefined;\n }\n }\n\n const rows = Math.ceil(indices.length / 16384);\n if (!instance) {\n const capacity = rows * 16384;\n if (indices.length !== capacity) {\n throw new Error(\"Indices length != capacity\");\n }\n const texture = new THREE.DataTexture(\n indices,\n 4096,\n rows,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n instance = { lodId, numSplats, indices, texture };\n this.lodInstances.set(mesh, instance);\n } else {\n instance.numSplats = numSplats;\n // instance.indices.set(indices.subarray(0, numSplats));\n\n const renderer = this.renderer;\n const gl = renderer.getContext() as WebGL2RenderingContext;\n if (renderer.properties.has(instance.texture)) {\n const props = renderer.properties.get(instance.texture) as {\n __webglTexture: WebGLTexture;\n };\n const glTexture = props.__webglTexture;\n if (!glTexture) {\n throw new Error(\"lodIndices texture not found\");\n }\n renderer.state.activeTexture(gl.TEXTURE0);\n renderer.state.bindTexture(gl.TEXTURE_2D, glTexture);\n gl.bindBuffer(gl.PIXEL_UNPACK_BUFFER, null);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, false);\n gl.texSubImage2D(\n gl.TEXTURE_2D,\n 0,\n 0,\n 0,\n 4096,\n rows,\n gl.RGBA_INTEGER,\n gl.UNSIGNED_INT,\n indices,\n );\n renderer.state.bindTexture(gl.TEXTURE_2D, null);\n }\n }\n }\n mesh.updateMappingVersion();\n }\n }\n\n private async readbackDepth({\n current,\n renderer,\n numSplats,\n readback,\n }: {\n current: SplatAccumulator;\n renderer: THREE.WebGLRenderer;\n numSplats: number;\n readback: Uint32Array;\n }) {\n if (!renderer) {\n throw new Error(\"No renderer\");\n }\n if (!current.target) {\n throw new Error(\"No target\");\n }\n\n const roundedCount =\n Math.ceil(numSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n if (readback.byteLength < roundedCount * 4) {\n throw new Error(\n `Readback buffer too small: ${readback.byteLength} < ${roundedCount * 4}`,\n );\n }\n const readbackUint8 = new Uint8Array(readback.buffer);\n const renderState = this.saveRenderState(renderer);\n\n // We can only read back one 2D array layer of pixels at a time,\n // so loop through them, initiate the readback, and collect the\n // completion promises.\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n let baseIndex = 0;\n const promises = [];\n\n while (baseIndex < numSplats) {\n const layer = Math.floor(baseIndex / layerSize);\n const layerBase = layer * layerSize;\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((numSplats - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n // Compute the subarray that this layer of readback corresponds to\n const readbackSize = SPLAT_TEX_WIDTH * layerYEnd * 4;\n const subReadback = readbackUint8.subarray(\n layerBase * 4,\n layerBase * 4 + readbackSize,\n );\n renderer.setRenderTarget(current.target, layer);\n\n const promise = renderer.readRenderTargetPixelsAsync(\n current.target,\n 0,\n 0,\n SPLAT_TEX_WIDTH,\n layerYEnd,\n subReadback,\n undefined,\n current.extSplats ? 2 : 1,\n );\n promises.push(promise);\n\n if (this.flushAfterRead) {\n const gl = renderer.getContext() as WebGL2RenderingContext;\n gl.flush();\n }\n\n baseIndex += SPLAT_TEX_WIDTH * layerYEnd;\n }\n\n this.resetRenderState(renderer, renderState);\n return Promise.all(promises).then(() => readback);\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n private static emptyOrdering = (() => {\n const numIndices = 4 * 4096 * 1;\n const emptyArray = new Uint32Array(numIndices);\n const texture = new THREE.DataTexture(emptyArray, 4096, 1);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n render(scene: THREE.Scene, camera: THREE.Camera) {\n try {\n SparkRenderer.sparkOverride = this;\n this.renderer.render(scene, camera);\n } finally {\n SparkRenderer.sparkOverride = undefined;\n }\n }\n\n renderTarget({\n scene,\n camera,\n }: { scene: THREE.Scene; camera: THREE.Camera }): THREE.WebGLRenderTarget {\n const target = this.backTarget ?? this.target;\n if (!target) {\n throw new Error(\"No target\");\n }\n\n const previousTarget = this.renderer.getRenderTarget();\n try {\n this.renderer.setRenderTarget(target);\n SparkRenderer.sparkOverride = this;\n this.renderer.render(scene, camera);\n } finally {\n SparkRenderer.sparkOverride = undefined;\n this.renderer.setRenderTarget(previousTarget);\n }\n\n if (target !== this.target) {\n // Swap back buffer and target\n [this.target, this.backTarget] = [this.backTarget, this.target];\n }\n return target;\n }\n\n // Read back the previously rendered target image as a Uint8Array of packed\n // RGBA values (in that order). Subsequent calls to this.readTarget()\n // will reuse the same buffers to minimize memory allocations.\n async readTarget(): Promise {\n if (!this.target) {\n throw new Error(\"Must initialize with target\");\n }\n const { width, height } = this.target;\n const byteSize = width * height * 4;\n if (!this.superPixels || this.superPixels.length < byteSize) {\n this.superPixels = new Uint8Array(byteSize);\n // console.log(`Allocated superPixels: ${width}x${height} = ${pixelCount} bytes`);\n }\n const superPixels = this.superPixels;\n\n await this.renderer.readRenderTargetPixelsAsync(\n this.target,\n 0,\n 0,\n width,\n height,\n superPixels,\n );\n\n const { superXY } = this;\n if (superXY === 1) {\n return superPixels;\n }\n\n const subWidth = width / superXY;\n const subHeight = height / superXY;\n const subSize = subWidth * subHeight * 4;\n if (!this.targetPixels || this.targetPixels.length < subSize) {\n this.targetPixels = new Uint8Array(subSize);\n // console.log(`Allocated targetPixels: ${subWidth}x${subHeight} = ${subSize} bytes`);\n }\n const targetPixels = this.targetPixels;\n\n const super2 = superXY * superXY;\n for (let y = 0; y < subHeight; y++) {\n const row = y * subWidth;\n for (let x = 0; x < subWidth; x++) {\n const superCol = x * superXY;\n let r = 0;\n let g = 0;\n let b = 0;\n let a = 0;\n for (let sy = 0; sy < superXY; sy++) {\n const superRow = (y * superXY + sy) * width;\n for (let sx = 0; sx < superXY; sx++) {\n const superIndex = (superRow + superCol + sx) * 4;\n r += superPixels[superIndex];\n g += superPixels[superIndex + 1];\n b += superPixels[superIndex + 2];\n a += superPixels[superIndex + 3];\n }\n }\n const pixelIndex = (row + x) * 4;\n targetPixels[pixelIndex] = r / super2;\n targetPixels[pixelIndex + 1] = g / super2;\n targetPixels[pixelIndex + 2] = b / super2;\n targetPixels[pixelIndex + 3] = a / super2;\n }\n }\n return targetPixels;\n }\n\n async renderReadTarget({\n scene,\n camera,\n }: {\n scene: THREE.Scene;\n camera: THREE.Camera;\n }): Promise {\n this.renderTarget({ scene, camera });\n return this.readTarget();\n }\n\n // Data and buffers used for environment map rendering\n private static cubeRender: {\n target: THREE.WebGLCubeRenderTarget;\n cubeCamera: THREE.CubeCamera;\n near: number;\n far: number;\n } | null = null;\n private static pmrem: THREE.PMREMGenerator | null = null;\n\n // Renders out the scene to a cube map that can be used for\n // Image-based lighting or similar applications. First optionally updates Gsplats,\n // sorts them with respect to the provided worldCenter, renders 6 cube faces.\n async renderCubeMap({\n scene,\n worldCenter,\n size = 256,\n near = 0.1,\n far = 1000,\n hideObjects = [],\n update = true,\n filter = false,\n }: {\n scene: THREE.Scene;\n worldCenter: THREE.Vector3;\n size?: number;\n near?: number;\n far?: number;\n hideObjects: THREE.Object3D[];\n update: boolean;\n filter: boolean;\n }): Promise {\n if (\n !SparkRenderer.cubeRender ||\n SparkRenderer.cubeRender.target.width !== size ||\n SparkRenderer.cubeRender.near !== near ||\n SparkRenderer.cubeRender.far !== far\n ) {\n if (SparkRenderer.cubeRender) {\n SparkRenderer.cubeRender.target.dispose();\n }\n const target = new THREE.WebGLCubeRenderTarget(size, {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n generateMipmaps: filter,\n minFilter: filter ? THREE.LinearMipMapLinearFilter : THREE.LinearFilter,\n magFilter: THREE.LinearFilter,\n colorSpace: filter ? THREE.LinearSRGBColorSpace : THREE.SRGBColorSpace,\n });\n const cubeCamera = new THREE.CubeCamera(near, far, target);\n SparkRenderer.cubeRender = { target, cubeCamera, near, far };\n }\n\n const { target, cubeCamera } = SparkRenderer.cubeRender;\n cubeCamera.position.copy(worldCenter);\n\n // Save the visibility state of objects we want to hide before render\n const objectVisibility = new Map();\n for (const object of hideObjects) {\n objectVisibility.set(object, object.visible);\n object.visible = false;\n }\n\n if (update) {\n const tempCamera = new THREE.Camera();\n tempCamera.position.copy(worldCenter);\n await this.update({ scene, camera: tempCamera });\n }\n\n try {\n SparkRenderer.sparkOverride = this;\n // Update the CubeCamera, which performs 6 cube face renders\n cubeCamera.update(this.renderer, scene);\n } finally {\n SparkRenderer.sparkOverride = undefined;\n }\n\n // Restore viewpoint to default and object visibility\n for (const [object, visible] of objectVisibility.entries()) {\n object.visible = visible;\n }\n\n return target.texture;\n }\n\n async readCubeTargets(): Promise {\n if (!SparkRenderer.cubeRender) {\n throw new Error(\"No cube render\");\n }\n\n const textures = SparkRenderer.cubeRender.target.texture;\n const promises = [];\n const buffers = [];\n\n for (let i = 0; i < textures.images.length; ++i) {\n const { width, height } = textures.images[i];\n const byteSize = width * height * 4;\n const readback = new Uint8Array(byteSize);\n buffers.push(readback);\n const promise = this.renderer.readRenderTargetPixelsAsync(\n SparkRenderer.cubeRender.target,\n 0,\n 0,\n width,\n height,\n readback,\n i,\n );\n promises.push(promise);\n }\n\n await Promise.all(promises);\n return buffers;\n }\n\n // Renders out the scene to an environment map that can be used for\n // Image-based lighting or similar applications. First optionally updates Gsplats,\n // sorts them with respect to the provided worldCenter, renders 6 cube faces,\n // then pre-filters them using THREE.PMREMGenerator and returns a THREE.Texture\n // that can assigned directly to a THREE.MeshStandardMaterial.envMap property.\n async renderEnvMap({\n scene,\n worldCenter,\n size = 256,\n near = 0.1,\n far = 1000,\n hideObjects = [],\n update = true,\n }: {\n scene: THREE.Scene;\n worldCenter: THREE.Vector3;\n size?: number;\n near?: number;\n far?: number;\n hideObjects: THREE.Object3D[];\n update: boolean;\n }): Promise {\n const cubeTexture = await this.renderCubeMap({\n scene,\n worldCenter,\n size,\n near,\n far,\n hideObjects,\n update,\n filter: true,\n });\n // Pre-filter the cube map using THREE.PMREMGenerator if requested\n if (!SparkRenderer.pmrem) {\n SparkRenderer.pmrem = new THREE.PMREMGenerator(this.renderer);\n }\n\n return SparkRenderer.pmrem?.fromCubemap(cubeTexture).texture;\n }\n\n // Utility function to recursively set the envMap property for any\n // THREE.MeshStandardMaterial within the subtree of root.\n recurseSetEnvMap(root: THREE.Object3D, envMap: THREE.Texture) {\n root.traverse((node) => {\n if (node instanceof THREE.Mesh) {\n if (Array.isArray(node.material)) {\n for (const material of node.material) {\n if (material instanceof THREE.MeshStandardMaterial) {\n material.envMap = envMap;\n }\n }\n } else {\n if (node.material instanceof THREE.MeshStandardMaterial) {\n node.material.envMap = envMap;\n }\n }\n }\n });\n }\n\n async getLodTreeLevel(\n splats: SplatMesh,\n level: number,\n pageColoring = false,\n ) {\n const instance = this.lodInstances.get(splats);\n if (!instance) {\n return null;\n }\n\n const result = await this.ensureLodWorker().exclusive(async (worker) => {\n return (await worker.call(\"getLodTreeLevel\", {\n lodId: instance.lodId,\n level,\n })) as { indices: Uint32Array };\n });\n\n if (splats.packedSplats?.lodSplats) {\n const newSplats = splats.packedSplats.lodSplats.extractSplats(\n result.indices,\n pageColoring,\n );\n return new SplatMesh({ packedSplats: newSplats });\n }\n if (splats.extSplats?.lodSplats) {\n const newSplats = splats.extSplats.lodSplats.extractSplats(\n result.indices,\n pageColoring,\n );\n return new SplatMesh({ extSplats: newSplats });\n }\n throw new Error(\n \"Only LoD-enabled PackedSplats and ExtSplats are supported\",\n );\n }\n}\n","import * as THREE from \"three\";\n\nimport init_wasm, { decode_rad_header } from \"spark-rs\";\nimport { LN_SCALE_MAX, LN_SCALE_MIN, dyno } from \".\";\nimport { evaluateExtSH } from \"./ExtSplats\";\nimport { evaluatePackedSH } from \"./PackedSplats\";\nimport { getSplatFileType, getSplatFileTypeFromPath } from \"./SplatLoader\";\nimport type { SplatSource } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n type ExtResult,\n type PackedResult,\n type RadMeta,\n type SplatEncoding,\n SplatFileType,\n} from \"./defines\";\nimport { pagedSplatTexCoord } from \"./dyno\";\nimport { getTextureSize } from \"./utils\";\n\nexport interface PagedSplatsOptions {\n pager?: SplatPager;\n rootUrl?: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n fileBytes?: Uint8Array;\n fileType?: SplatFileType;\n maxSh?: number;\n}\n\nexport class PagedSplats implements SplatSource {\n pager?: SplatPager;\n rootUrl: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n fileBytes?: Uint8Array;\n fileType?: SplatFileType;\n\n numSh: number;\n maxSh: number;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array | [Uint32Array, Uint32Array];\n\n numSplats: number;\n splatEncoding?: SplatEncoding;\n radMetaPromise?: Promise<{ meta: RadMeta; chunksStart: number }>;\n\n dynoNumSplats: dyno.DynoInt<\"numSplats\">;\n dynoIndices: dyno.DynoUsampler2D<\"indices\", THREE.DataTexture>;\n rgbMinMaxLnScaleMinMax: dyno.DynoVec4<\n THREE.Vector4,\n \"rgbMinMaxLnScaleMinMax\"\n >;\n lodOpacity: dyno.DynoBool<\"lodOpacity\">;\n dynoNumSh: dyno.DynoInt<\"numSh\">;\n shMax: dyno.DynoVec3;\n\n constructor(options: PagedSplatsOptions) {\n this.pager = options.pager;\n this.rootUrl = options.rootUrl ?? \"\";\n this.requestHeader = options.requestHeader;\n this.withCredentials = options.withCredentials;\n this.numSh = 0;\n this.maxSh = options.pager?.maxSh ?? 3;\n\n this.numSplats = 0;\n\n this.dynoNumSplats = new dyno.DynoInt({ value: 0 });\n this.dynoIndices = new dyno.DynoUsampler2D({\n value: SplatPager.emptyIndicesTexture,\n });\n\n this.rgbMinMaxLnScaleMinMax = new dyno.DynoVec4({\n value: new THREE.Vector4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX),\n });\n this.lodOpacity = new dyno.DynoBool({\n value: false,\n });\n\n this.dynoNumSh = new dyno.DynoInt({ value: 0 });\n this.shMax = new dyno.DynoVec3({ value: new THREE.Vector3() });\n\n this.fileBytes = options.fileBytes;\n this.fileType = options.fileType;\n if (!this.fileType && this.fileBytes) {\n this.fileType = getSplatFileType(this.fileBytes);\n }\n if (!this.fileType && this.rootUrl) {\n this.fileType = getSplatFileTypeFromPath(this.rootUrl);\n }\n if (!this.fileType) {\n throw new Error(\"Unable to determine file type\");\n }\n if (this.fileType === SplatFileType.RAD) {\n this.radMetaPromise = this.getRadMeta();\n }\n }\n\n dispose() {\n if (this.dynoIndices.value !== SplatPager.emptyIndicesTexture) {\n this.dynoIndices.value.dispose();\n this.dynoIndices.value = SplatPager.emptyIndicesTexture;\n }\n }\n\n setMaxSh(maxSh: number) {\n this.maxSh = maxSh;\n }\n\n getRadMeta(): Promise<{ meta: RadMeta; chunksStart: number }> {\n if (this.radMetaPromise) {\n return this.radMetaPromise;\n }\n\n this.radMetaPromise = (async () => {\n await wasmInitialized;\n\n if (this.fileBytes) {\n // Shouldn't be more than 1 MB, so don't send more data than that.\n const metaStart = decode_rad_header(this.fileBytes.slice(0, 1048576));\n if (metaStart) {\n return metaStart;\n }\n throw new Error(\"Failed to decode RAD header\");\n }\n if (!this.rootUrl) {\n throw new Error(\"No url or fileBytes provided\");\n }\n\n // We don't know how big the header will be. Most likely 64KB will be enough,\n // but try larger blocks in backoff if it wasn't enough.\n for (const tryBytes of [65536, 256 * 1024, 1024 * 1024]) {\n const bytes = await fetchRange({\n url: this.rootUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n offset: 0,\n bytes: tryBytes,\n });\n const metaStart = decode_rad_header(bytes);\n if (metaStart) {\n return metaStart;\n }\n }\n throw new Error(\"Failed to decode RAD header\");\n })().then((metaStart) => {\n // console.log(\"RAD meta: \", metaStart.meta);\n return metaStart;\n });\n\n this.radMetaPromise.catch((error) => {\n console.error(error);\n // Allow it to be tried again\n // this.radMetaPromise = undefined;\n });\n\n return this.radMetaPromise;\n }\n\n chunkUrl(chunk: number): string {\n return this.rootUrl.replace(/-lod-0\\./, `-lod-${chunk}.`);\n }\n\n async fetchDecodeChunk(chunk: number) {\n let decodeBytes = undefined;\n\n if (this.fileType === SplatFileType.RAD) {\n const { meta, chunksStart } = await this.getRadMeta();\n if (chunk < 0 || chunk >= meta.chunks.length) {\n throw new Error(\n `Chunk index out of range: ${chunk} (max: ${meta.chunks.length - 1})`,\n );\n }\n let { offset, bytes, filename } = meta.chunks[chunk];\n\n if (filename) {\n if (this.fileBytes) {\n throw new Error(\"Chunked RAD file not supported with fileBytes\");\n }\n const resolvedRoot = new URL(\n this.rootUrl,\n window.location.href,\n ).toString();\n const chunkUrl = new URL(filename, resolvedRoot).toString();\n decodeBytes = await fetchRange({\n url: chunkUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n });\n } else {\n offset += chunksStart;\n // console.log(`Fetching chunk ${chunk} at offset ${offset} with bytes ${bytes}`);\n if (this.fileBytes) {\n if (offset < 0 || offset + bytes > this.fileBytes.length) {\n throw new Error(\n `Invalid chunk offset or bytes: ${offset} + ${bytes} > ${this.fileBytes.length}`,\n );\n }\n decodeBytes = this.fileBytes.slice(offset, offset + bytes);\n } else if (this.rootUrl) {\n decodeBytes = await fetchRange({\n url: this.rootUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n offset,\n bytes,\n });\n } else {\n throw new Error(\"No url or fileBytes provided\");\n }\n }\n } else if (this.fileBytes) {\n // Fall through\n } else if (this.rootUrl) {\n const url = this.chunkUrl(chunk);\n const request = new Request(url, {\n headers: this.requestHeader\n ? new Headers(this.requestHeader)\n : undefined,\n credentials: this.withCredentials ? \"include\" : \"same-origin\",\n });\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n decodeBytes = new Uint8Array(await response.arrayBuffer());\n } else {\n throw new Error(\"No url or fileBytes provided\");\n }\n\n return await workerPool.withWorker(async (worker) => {\n if (!this.pager) {\n throw new Error(\"PagedSplats.pager not set\");\n }\n if (!this.pager.extSplats) {\n const result = (await worker.call(\"loadPackedSplats\", {\n fileBytes: decodeBytes,\n pathName: this.chunkUrl(chunk),\n sh1Codes: this.sh1Codes?.slice(),\n sh2Codes: this.sh2Codes?.slice(),\n sh3Codes: this.sh3Codes?.slice(),\n })) as { lodSplats: PackedResult };\n const lodSplats = result.lodSplats;\n if (!this.splatEncoding) {\n this.splatEncoding = lodSplats.splatEncoding;\n\n this.numSh = lodSplats.extra.sh3\n ? 3\n : lodSplats.extra.sh2\n ? 2\n : lodSplats.extra.sh1\n ? 1\n : 0;\n\n this.rgbMinMaxLnScaleMinMax.value.set(\n this.splatEncoding.rgbMin ?? 0.0,\n this.splatEncoding.rgbMax ?? 1.0,\n this.splatEncoding.lnScaleMin ?? LN_SCALE_MIN,\n this.splatEncoding.lnScaleMax ?? LN_SCALE_MAX,\n );\n\n this.lodOpacity.value = this.splatEncoding.lodOpacity ?? false;\n\n this.shMax.value.set(\n this.splatEncoding.sh1Max ?? 1.0,\n this.splatEncoding.sh2Max ?? 1.0,\n this.splatEncoding.sh3Max ?? 1.0,\n );\n }\n this.sh1Codes = lodSplats.extra.sh1Codes ?? this.sh1Codes;\n this.sh2Codes = lodSplats.extra.sh2Codes ?? this.sh2Codes;\n this.sh3Codes = lodSplats.extra.sh3Codes ?? this.sh3Codes;\n return lodSplats;\n }\n\n const sh3Codes = this.sh3Codes as [Uint32Array, Uint32Array] | undefined;\n const result = (await worker.call(\"loadExtSplats\", {\n fileBytes: decodeBytes,\n pathName: this.chunkUrl(chunk),\n sh1Codes: this.sh1Codes?.slice(),\n sh2Codes: this.sh2Codes?.slice(),\n sh3Codes: sh3Codes\n ? [sh3Codes[0].slice(), sh3Codes[1].slice()]\n : undefined,\n })) as { lodSplats: ExtResult };\n const lodSplats = result.lodSplats;\n if (!this.splatEncoding) {\n this.splatEncoding = DEFAULT_SPLAT_ENCODING;\n this.numSh =\n lodSplats.extra.sh3a && lodSplats.extra.sh3b\n ? 3\n : lodSplats.extra.sh2\n ? 2\n : lodSplats.extra.sh1\n ? 1\n : 0;\n }\n this.sh1Codes = lodSplats.extra.sh1Codes ?? this.sh1Codes;\n this.sh2Codes = lodSplats.extra.sh2Codes ?? this.sh2Codes;\n this.sh3Codes = lodSplats.extra.sh3Codes ?? this.sh3Codes;\n return lodSplats;\n });\n }\n\n update(numSplats: number, indices: Uint32Array) {\n if (!this.pager) {\n throw new Error(\"PagedSplats.pager not set\");\n }\n\n const renderer = this.pager.renderer;\n this.numSplats = numSplats;\n this.dynoNumSplats.value = this.numSplats;\n const rows = Math.ceil(numSplats / 16384);\n\n let indicesTexture =\n this.dynoIndices.value === SplatPager.emptyIndicesTexture\n ? undefined\n : this.dynoIndices.value;\n if (indicesTexture && rows > indicesTexture.image.height) {\n indicesTexture.dispose();\n indicesTexture = undefined;\n }\n\n if (!indicesTexture) {\n indicesTexture = new THREE.DataTexture(\n indices,\n 4096,\n rows,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n indicesTexture.internalFormat = \"RGBA32UI\";\n indicesTexture.needsUpdate = true;\n renderer.initTexture(indicesTexture);\n this.dynoIndices.value = indicesTexture;\n } else {\n const textureIndices = indicesTexture.image.data as Uint32Array;\n textureIndices.set(indices.subarray(0, numSplats));\n\n const gl = renderer.getContext() as WebGL2RenderingContext;\n renderer.state.activeTexture(gl.TEXTURE0);\n renderer.state.bindTexture(\n gl.TEXTURE_2D,\n getGlTexture(renderer, indicesTexture),\n );\n gl.bindBuffer(gl.PIXEL_UNPACK_BUFFER, null);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, false);\n gl.texSubImage2D(\n gl.TEXTURE_2D,\n 0,\n 0,\n 0,\n 4096,\n rows,\n gl.RGBA_INTEGER,\n gl.UNSIGNED_INT,\n indices,\n );\n renderer.state.bindTexture(gl.TEXTURE_2D, null);\n }\n }\n\n prepareFetchSplat() {}\n\n getNumSplats(): number {\n return this.numSplats;\n }\n\n hasRgbDir(): boolean {\n if (!this.pager) {\n return false;\n }\n return Math.min(this.numSh, this.pager.maxSh) > 0;\n }\n\n getNumSh(): number {\n return this.numSh;\n }\n\n fetchSplat({\n index,\n viewOrigin,\n }: {\n index: dyno.DynoVal<\"int\">;\n viewOrigin?: dyno.DynoVal<\"vec3\">;\n }): dyno.DynoVal {\n if (!this.pager) {\n throw new Error(\"PagedSplats.pager not set\");\n }\n\n const splatIndex = this.pager.readIndex.apply({\n index,\n numSplats: this.dynoNumSplats,\n indices: this.dynoIndices,\n }).index;\n\n if (!this.pager.extSplats) {\n if (this.hasRgbDir() && viewOrigin) {\n this.dynoNumSh.value = Math.min(\n this.numSh,\n this.maxSh,\n this.pager.maxSh,\n );\n return this.pager.readSplatDir.apply({\n index: splatIndex,\n rgbMinMaxLnScaleMinMax: this.rgbMinMaxLnScaleMinMax,\n lodOpacity: this.lodOpacity,\n viewOrigin,\n numSh: this.dynoNumSh,\n shMax: this.shMax,\n }).gsplat;\n }\n return this.pager.readSplat.apply({\n index: splatIndex,\n rgbMinMaxLnScaleMinMax: this.rgbMinMaxLnScaleMinMax,\n lodOpacity: this.lodOpacity,\n }).gsplat;\n }\n\n if (this.hasRgbDir() && viewOrigin) {\n this.dynoNumSh.value = Math.min(this.numSh, this.maxSh, this.pager.maxSh);\n return this.pager.readSplatExtDir.apply({\n index: splatIndex,\n viewOrigin,\n numSh: this.dynoNumSh,\n }).gsplat;\n }\n return this.pager.readSplatExt.apply({ index: splatIndex }).gsplat;\n }\n}\n\nexport interface SplatPagerOptions {\n /**\n * THREE.WebGLRenderer instance to upload texture data\n */\n renderer: THREE.WebGLRenderer;\n /**\n * Whether to use extended Gsplat encoding for paged splats.\n * @default false\n */\n extSplats?: boolean;\n /**\n * Maximum size of splat page pool\n * @default 65536 * 256 = 16777216\n */\n maxSplats?: number;\n /**\n * Maximum number of spherical harmonics to keep\n * @default 3\n */\n maxSh?: number;\n /**\n * Automatically drive page fetching, or poll via drive()\n * @default true\n */\n autoDrive?: boolean;\n /**\n * Number of parallel chunk fetchers\n * @default 3\n */\n numFetchers?: number;\n}\n\nexport class SplatPager {\n renderer: THREE.WebGLRenderer;\n\n extSplats: boolean;\n maxPages: number;\n maxSplats: number;\n pageSplats: number;\n\n maxSh: number;\n curSh: number;\n\n autoDrive: boolean;\n numFetchers: number;\n fetchPause = 0;\n\n splatsChunkToPage: Map<\n PagedSplats,\n ({ page: number; lru: number } | undefined)[]\n > = new Map();\n pageToSplatsChunk: (\n | { splats: PagedSplats; chunk: number; time: number }\n | undefined\n )[] = [];\n pageFreelist: number[];\n pageLru: Set<{ page: number; lru: number }>;\n freeablePages: number[];\n newUploads: {\n page: number;\n numSplats: number;\n packedArray: Uint32Array;\n extArray?: Uint32Array;\n extra: Record;\n }[];\n readyUploads: {\n page: number;\n numSplats: number;\n packedArray: Uint32Array;\n extArray?: Uint32Array;\n extra: Record;\n }[];\n lodTreeUpdates: {\n splats: PagedSplats;\n page: number;\n chunk: number;\n numSplats: number;\n lodTree?: Uint32Array;\n }[];\n\n fetchers: { splats: PagedSplats; chunk: number; promise: Promise }[];\n fetched: {\n splats: PagedSplats;\n chunk: number;\n data: PackedResult | ExtResult;\n }[];\n fetchPriority: { splats: PagedSplats; chunk: number }[];\n\n packedTexture: dyno.DynoUsampler2DArray<\n \"packedTexture\",\n THREE.DataArrayTexture\n >;\n extTexture: dyno.DynoUsampler2DArray<\"extTexture\", THREE.DataArrayTexture>;\n\n sh1Texture: dyno.DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture: dyno.DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3Texture: dyno.DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n sh3TextureB: dyno.DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>;\n\n readIndex: dyno.DynoBlock<\n { index: \"int\"; numSplats: \"int\"; indices: \"usampler2D\" },\n { index: \"int\" }\n >;\n readSplat: dyno.DynoBlock<\n { index: \"int\"; rgbMinMaxLnScaleMinMax: \"vec4\"; lodOpacity: \"bool\" },\n { gsplat: typeof dyno.Gsplat }\n >;\n readSplatExt: dyno.DynoBlock<\n { index: \"int\" },\n { gsplat: typeof dyno.Gsplat }\n >;\n readSplatDir: dyno.DynoBlock<\n {\n index: \"int\";\n rgbMinMaxLnScaleMinMax: \"vec4\";\n lodOpacity: \"bool\";\n viewOrigin: \"vec3\";\n numSh: \"int\";\n shMax: \"vec3\";\n },\n { gsplat: typeof dyno.Gsplat }\n >;\n readSplatExtDir: dyno.DynoBlock<\n { index: \"int\"; viewOrigin: \"vec3\"; numSh: \"int\" },\n { gsplat: typeof dyno.Gsplat }\n >;\n\n constructor(options: SplatPagerOptions) {\n this.renderer = options.renderer;\n this.extSplats = options.extSplats ?? false;\n\n this.pageSplats = 65536;\n this.maxSplats = options.maxSplats ?? 16777216;\n this.maxPages = Math.ceil(this.maxSplats / this.pageSplats);\n this.maxSplats = this.maxPages * this.pageSplats;\n\n this.maxSh = options.maxSh ?? 3;\n this.curSh = 0;\n\n this.autoDrive = options.autoDrive ?? true;\n this.numFetchers = options.numFetchers ?? 3;\n\n this.splatsChunkToPage = new Map();\n this.pageToSplatsChunk = new Array(this.maxPages);\n this.pageFreelist = Array.from({ length: this.maxPages }, (_, i) => i);\n this.pageLru = new Set();\n this.freeablePages = [];\n this.newUploads = [];\n this.readyUploads = [];\n this.lodTreeUpdates = [];\n\n this.fetchers = [];\n this.fetched = [];\n this.fetchPriority = [];\n\n this.packedTexture = new dyno.DynoUsampler2DArray({\n value: this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n ),\n });\n this.extTexture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n )\n : SplatPager.emptyExtTexture,\n });\n this.sh1Texture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? SplatPager.emptyExtSh1Texture\n : SplatPager.emptySh1Texture,\n });\n this.sh2Texture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? SplatPager.emptyExtSh2Texture\n : SplatPager.emptySh2Texture,\n });\n this.sh3Texture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? SplatPager.emptyExtSh3Texture\n : SplatPager.emptySh3Texture,\n });\n this.sh3TextureB = new dyno.DynoUsampler2DArray({\n value: SplatPager.emptyExtSh3BTexture,\n });\n\n this.readIndex = dyno.dynoBlock(\n { index: \"int\", numSplats: \"int\", indices: \"usampler2D\" },\n { index: \"int\" },\n ({ index, numSplats, indices }) => {\n return new dyno.Dyno({\n inTypes: {\n index: \"int\",\n numSplats: \"int\",\n indices: \"usampler2D\",\n },\n outTypes: { index: \"int\" },\n inputs: {\n index,\n numSplats,\n indices,\n },\n statements: ({ inputs, outputs }) =>\n dyno.unindentLines(`\n if (${inputs.index} >= ${inputs.numSplats}) {\n return;\n }\n\n ivec2 indexCoord = ivec2((${inputs.index} >> 2) & 4095, ${inputs.index} >> 14);\n uint index = texelFetch(${inputs.indices}, indexCoord, 0)[${inputs.index} & 3];\n ${outputs.index} = int(index);\n `),\n }).outputs;\n },\n );\n\n this.readSplat = dyno.dynoBlock(\n { index: \"int\", rgbMinMaxLnScaleMinMax: \"vec4\", lodOpacity: \"bool\" },\n { gsplat: dyno.Gsplat },\n ({ index, rgbMinMaxLnScaleMinMax, lodOpacity }) => {\n return new dyno.Dyno({\n inTypes: {\n index: \"int\",\n packedTexture: \"usampler2DArray\",\n rgbMinMaxLnScaleMinMax: \"vec4\",\n lodOpacity: \"bool\",\n },\n outTypes: { gsplat: dyno.Gsplat },\n inputs: {\n index,\n packedTexture: this.packedTexture,\n rgbMinMaxLnScaleMinMax,\n lodOpacity,\n },\n globals: () => [dyno.defineGsplat],\n statements: ({ inputs, outputs }) =>\n dyno.unindentLines(`\n int index = ${inputs.index};\n ivec3 splatCoord = pagedSplatTexCoord(index);\n uvec4 packed = texelFetch(${inputs.packedTexture}, splatCoord, 0);\n\n unpackSplatEncoding(packed, ${outputs.gsplat}.center, ${outputs.gsplat}.scales, ${outputs.gsplat}.quaternion, ${outputs.gsplat}.rgba, ${inputs.rgbMinMaxLnScaleMinMax});\n if ((${outputs.gsplat}.rgba.a == 0.0) || all(equal(${outputs.gsplat}.scales, vec3(0.0, 0.0, 0.0)))) {\n return;\n }\n \n ${outputs.gsplat}.index = index;\n ${outputs.gsplat}.flags = GSPLAT_FLAG_ACTIVE;\n if (${inputs.lodOpacity}) {\n ${outputs.gsplat}.rgba.a *= 2.0;\n }\n `),\n }).outputs;\n },\n );\n\n this.readSplatDir = dyno.dynoBlock(\n {\n index: \"int\",\n rgbMinMaxLnScaleMinMax: \"vec4\",\n lodOpacity: \"bool\",\n viewOrigin: \"vec3\",\n numSh: \"int\",\n shMax: \"vec3\",\n },\n { gsplat: dyno.Gsplat },\n ({\n index,\n rgbMinMaxLnScaleMinMax,\n lodOpacity,\n viewOrigin,\n numSh,\n shMax,\n }) => {\n if (\n !index ||\n !rgbMinMaxLnScaleMinMax ||\n !lodOpacity ||\n !viewOrigin ||\n !numSh ||\n !shMax\n ) {\n throw new Error(\"index and viewOrigin are required\");\n }\n let gsplat = this.readSplat.apply({\n index,\n rgbMinMaxLnScaleMinMax,\n lodOpacity,\n }).gsplat;\n\n const splatCenter = dyno.splitGsplat(gsplat).outputs.center;\n const viewDir = dyno.normalize(dyno.sub(splatCenter, viewOrigin));\n let rgb = evaluatePackedSH({\n coord: pagedSplatTexCoord(index),\n viewDir,\n numSh,\n sh1Texture: this.sh1Texture,\n sh2Texture: this.sh2Texture,\n sh3Texture: this.sh3Texture,\n shMax,\n }).rgb;\n rgb = dyno.add(rgb, dyno.splitGsplat(gsplat).outputs.rgb);\n gsplat = dyno.combineGsplat({ gsplat, rgb });\n return { gsplat };\n },\n );\n\n this.readSplatExt = dyno.dynoBlock(\n { index: \"int\" },\n { gsplat: dyno.Gsplat },\n ({ index }) => {\n return new dyno.Dyno({\n inTypes: {\n index: \"int\",\n extTexture1: \"usampler2DArray\",\n extTexture2: \"usampler2DArray\",\n },\n outTypes: { gsplat: dyno.Gsplat },\n inputs: {\n index,\n extTexture1: this.packedTexture,\n extTexture2: this.extTexture,\n },\n globals: () => [dyno.defineGsplat],\n statements: ({ inputs, outputs }) =>\n dyno.unindentLines(`\n int index = ${inputs.index};\n ivec3 splatCoord = ivec3(index & 255, (index >> 8) & 255, index >> 16);\n uvec4 ext1 = texelFetch(${inputs.extTexture1}, splatCoord, 0);\n float alpha = unpackSplatExtAlpha(ext1);\n if (alpha == 0.0) {\n return;\n }\n\n uvec4 ext2 = texelFetch(${inputs.extTexture2}, splatCoord, 0);\n unpackSplatExt(ext1, ext2, ${outputs.gsplat}.center, ${outputs.gsplat}.scales, ${outputs.gsplat}.quaternion, ${outputs.gsplat}.rgba);\n if (all(equal(${outputs.gsplat}.scales, vec3(0.0, 0.0, 0.0)))) {\n return;\n }\n\n ${outputs.gsplat}.index = index;\n ${outputs.gsplat}.flags = GSPLAT_FLAG_ACTIVE;\n `),\n }).outputs;\n },\n );\n\n this.readSplatExtDir = dyno.dynoBlock(\n {\n index: \"int\",\n viewOrigin: \"vec3\",\n numSh: \"int\",\n },\n { gsplat: dyno.Gsplat },\n ({ index, viewOrigin, numSh }) => {\n if (!index || !viewOrigin || !numSh) {\n throw new Error(\"index and viewOrigin are required\");\n }\n let gsplat = this.readSplatExt.apply({ index }).gsplat;\n\n const splatCenter = dyno.splitGsplat(gsplat).outputs.center;\n const viewDir = dyno.normalize(dyno.sub(splatCenter, viewOrigin));\n let rgb = evaluateExtSH({\n coord: pagedSplatTexCoord(index),\n viewDir,\n numSh,\n sh1Texture: this.sh1Texture,\n sh2Texture: this.sh2Texture,\n sh3TextureA: this.sh3Texture,\n sh3TextureB: this.sh3TextureB,\n }).rgb;\n rgb = dyno.add(rgb, dyno.splitGsplat(gsplat).outputs.rgb);\n gsplat = dyno.combineGsplat({ gsplat, rgb });\n return { gsplat };\n },\n );\n }\n\n dispose() {\n this.autoDrive = false;\n this.numFetchers = 0;\n\n this.packedTexture.value.dispose();\n if (this.extTexture.value !== SplatPager.emptyExtTexture) {\n this.extTexture.value.dispose();\n }\n\n if (!this.extSplats) {\n if (this.sh1Texture.value !== SplatPager.emptySh1Texture) {\n this.sh1Texture.value.dispose();\n }\n if (this.sh2Texture.value !== SplatPager.emptySh2Texture) {\n this.sh2Texture.value.dispose();\n }\n if (this.sh3Texture.value !== SplatPager.emptySh3Texture) {\n this.sh3Texture.value.dispose();\n }\n } else {\n if (this.sh1Texture.value !== SplatPager.emptyExtSh1Texture) {\n this.sh1Texture.value.dispose();\n }\n if (this.sh2Texture.value !== SplatPager.emptyExtSh2Texture) {\n this.sh2Texture.value.dispose();\n }\n if (this.sh3Texture.value !== SplatPager.emptyExtSh3Texture) {\n this.sh3Texture.value.dispose();\n }\n if (this.sh3TextureB.value !== SplatPager.emptyExtSh3BTexture) {\n this.sh3TextureB.value.dispose();\n }\n }\n }\n\n private ensureShTextures(numSh: number) {\n this.curSh = Math.max(this.curSh, numSh);\n if (!this.extSplats) {\n if (\n this.curSh >= 1 &&\n this.sh1Texture.value === SplatPager.emptySh1Texture\n ) {\n this.sh1Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 2),\n 256,\n 256,\n this.maxPages,\n THREE.RGIntegerFormat,\n THREE.UnsignedIntType,\n \"RG32UI\",\n );\n }\n } else {\n if (\n this.curSh >= 1 &&\n this.sh1Texture.value === SplatPager.emptyExtSh1Texture\n ) {\n this.sh1Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n }\n if (\n this.curSh >= 2 &&\n this.sh2Texture.value ===\n (!this.extSplats\n ? SplatPager.emptySh2Texture\n : SplatPager.emptyExtSh2Texture)\n ) {\n this.sh2Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n if (!this.extSplats) {\n if (\n this.curSh >= 3 &&\n this.sh3Texture.value === SplatPager.emptySh3Texture\n ) {\n this.sh3Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n } else {\n if (this.curSh >= 3) {\n if (this.sh3Texture.value === SplatPager.emptyExtSh3Texture) {\n this.sh3Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n if (this.sh3TextureB.value === SplatPager.emptyExtSh3BTexture) {\n this.sh3TextureB.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n }\n }\n }\n\n private allocatePage(): number | undefined {\n return this.pageFreelist.shift();\n }\n\n private freePage(page: number) {\n this.pageFreelist.push(page);\n }\n\n getSplatsChunk(splats: PagedSplats, chunk: number) {\n const chunks = this.splatsChunkToPage.get(splats);\n if (!chunks) {\n return undefined;\n }\n return chunks[chunk];\n }\n\n private insertSplatsChunkPage(\n splats: PagedSplats,\n chunk: number,\n page: number,\n now: number,\n ) {\n if (!this.splatsChunkToPage.has(splats)) {\n this.splatsChunkToPage.set(splats, []);\n }\n const chunks = this.splatsChunkToPage.get(splats);\n if (!chunks) {\n throw new Error(\"impossible\");\n }\n if (chunk >= chunks.length) {\n chunks.length = chunk + 1;\n }\n const pageLru = { page, lru: now };\n chunks[chunk] = pageLru;\n this.pageLru.add(pageLru);\n\n this.pageToSplatsChunk[page] = { splats, chunk, time: performance.now() };\n return this.pageToSplatsChunk[page];\n }\n\n private removeSplatsChunkPage(\n splats: PagedSplats,\n chunk: number,\n page: number,\n ) {\n const chunks = this.splatsChunkToPage.get(splats);\n if (!chunks) {\n throw new Error(\"impossible\");\n }\n\n const pageLru = chunks[chunk];\n if (!pageLru) {\n throw new Error(\n `pageLru not found for splats: ${splats}, chunk: ${chunk}, page: ${page}`,\n );\n }\n this.pageLru.delete(pageLru);\n\n chunks[chunk] = undefined;\n\n while (chunks.length > 0 && chunks[chunks.length - 1] === undefined) {\n chunks.pop();\n }\n if (chunks.length === 0) {\n this.splatsChunkToPage.delete(splats);\n }\n\n this.pageToSplatsChunk[page] = undefined;\n while (\n this.pageToSplatsChunk.length > 0 &&\n this.pageToSplatsChunk[this.pageToSplatsChunk.length - 1] === undefined\n ) {\n this.pageToSplatsChunk.pop();\n }\n }\n\n private uploadPage(\n page: number,\n packedArray: Uint32Array,\n extra: Record,\n extArray?: Uint32Array,\n ) {\n const pageBase = page * this.pageSplats;\n\n // const gl = this.renderer.getContext() as WebGL2RenderingContext;\n\n // this.renderer.state.activeTexture(gl.TEXTURE0);\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.packedTexture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RGBA_INTEGER,\n // gl.UNSIGNED_INT,\n // packedArray,\n // );\n\n const array = this.packedTexture.value.image.data;\n array\n .subarray(pageBase * 4, pageBase * 4 + packedArray.length)\n .set(packedArray);\n this.packedTexture.value.addLayerUpdate(page);\n this.packedTexture.value.needsUpdate = true;\n\n if (extArray) {\n const array = this.extTexture.value.image.data;\n array\n .subarray(pageBase * 4, pageBase * 4 + extArray.length)\n .set(extArray);\n this.extTexture.value.addLayerUpdate(page);\n this.extTexture.value.needsUpdate = true;\n }\n\n const numSh = this.extSplats\n ? extra.sh3a && extra.sh3b\n ? 3\n : extra.sh2\n ? 2\n : extra.sh1\n ? 1\n : 0\n : extra.sh3\n ? 3\n : extra.sh2\n ? 2\n : extra.sh1\n ? 1\n : 0;\n this.ensureShTextures(numSh);\n\n if (!this.extSplats) {\n if (this.sh1Texture.value !== SplatPager.emptySh1Texture && extra.sh1) {\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.sh1Texture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RG_INTEGER,\n // gl.UNSIGNED_INT,\n // extra.sh1 as Uint32Array,\n // );\n const sh1 = extra.sh1 as Uint32Array;\n const array = this.sh1Texture.value.image.data;\n array.subarray(pageBase * 2, pageBase * 2 + sh1.length).set(sh1);\n this.sh1Texture.value.addLayerUpdate(page);\n this.sh1Texture.value.needsUpdate = true;\n }\n } else {\n if (\n this.sh1Texture.value !== SplatPager.emptyExtSh1Texture &&\n extra.sh1\n ) {\n const sh1 = extra.sh1 as Uint32Array;\n const array = this.sh1Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh1.length).set(sh1);\n this.sh1Texture.value.addLayerUpdate(page);\n this.sh1Texture.value.needsUpdate = true;\n }\n }\n\n if (this.sh2Texture.value !== SplatPager.emptySh2Texture && extra.sh2) {\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.sh2Texture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RGBA_INTEGER,\n // gl.UNSIGNED_INT,\n // extra.sh2 as Uint32Array,\n // );\n const sh2 = extra.sh2 as Uint32Array;\n const array = this.sh2Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh2.length).set(sh2);\n this.sh2Texture.value.addLayerUpdate(page);\n this.sh2Texture.value.needsUpdate = true;\n }\n\n if (!this.extSplats) {\n if (this.sh3Texture.value !== SplatPager.emptySh3Texture && extra.sh3) {\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.sh3Texture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RGBA_INTEGER,\n // gl.UNSIGNED_INT,\n // extra.sh3 as Uint32Array,\n // );\n const sh3 = extra.sh3 as Uint32Array;\n const array = this.sh3Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh3.length).set(sh3);\n this.sh3Texture.value.addLayerUpdate(page);\n this.sh3Texture.value.needsUpdate = true;\n }\n } else {\n if (\n this.sh3Texture.value !== SplatPager.emptyExtSh3Texture &&\n extra.sh3a\n ) {\n const sh3a = extra.sh3a as Uint32Array;\n const array = this.sh3Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh3a.length).set(sh3a);\n this.sh3Texture.value.addLayerUpdate(page);\n this.sh3Texture.value.needsUpdate = true;\n }\n if (\n this.sh3TextureB.value !== SplatPager.emptyExtSh3BTexture &&\n extra.sh3b\n ) {\n const sh3b = extra.sh3b as Uint32Array;\n const array = this.sh3TextureB.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh3b.length).set(sh3b);\n this.sh3TextureB.value.addLayerUpdate(page);\n this.sh3TextureB.value.needsUpdate = true;\n }\n }\n\n // this.renderer.state.bindTexture(gl.TEXTURE_2D_ARRAY, null);\n }\n\n private getGlTexture(texture: THREE.Texture): WebGLTexture {\n return getGlTexture(this.renderer, texture);\n }\n\n private newUint32ArrayTexture(\n data: Uint32Array | null,\n width: number,\n height: number,\n depth: number,\n format: THREE.AnyPixelFormat,\n type: THREE.TextureDataType,\n internalFormat: THREE.PixelFormatGPU,\n ): THREE.DataArrayTexture {\n const texture = new THREE.DataArrayTexture(data, width, height, depth);\n texture.format = format;\n texture.type = type;\n texture.internalFormat = internalFormat;\n texture.needsUpdate = true;\n this.renderer.initTexture(texture);\n return texture;\n }\n\n driveFetchers() {\n const needed = [];\n const overflow = [];\n let numPages = 0;\n\n for (const { splats, chunk } of this.fetchPriority) {\n const pageLru = this.getSplatsChunk(splats, chunk);\n if (pageLru) {\n if (numPages >= this.maxPages) {\n overflow.push(pageLru);\n } else {\n needed.push(pageLru);\n }\n numPages += 1;\n continue;\n }\n\n if (\n this.fetched.some(\n ({ splats: s, chunk: c }) => splats === s && chunk === c,\n ) ||\n this.fetchers.some(\n ({ splats: s, chunk: c }) => splats === s && chunk === c,\n )\n ) {\n numPages += 1;\n continue;\n }\n\n if (numPages < this.maxPages && this.fetchers.length < this.numFetchers) {\n numPages += 1;\n const promise = splats\n .fetchDecodeChunk(chunk)\n .then(\n async (data) => {\n // Place data in ready queue and remove self from active fetchers list\n this.fetched.push({ splats, chunk, data });\n if (this.fetchPause > 0) {\n await new Promise((resolve) =>\n setTimeout(resolve, this.fetchPause),\n );\n }\n },\n async (error) => {\n console.warn(error);\n const backoff = 250 + 500 * Math.random();\n await new Promise((resolve) => setTimeout(resolve, backoff));\n },\n )\n .finally(() => {\n this.fetchers = this.fetchers.filter(\n ({ splats: s, chunk: c }) => splats !== s || chunk !== c,\n );\n this.processFetched();\n });\n // Add self to active fetchers list\n this.fetchers.push({ splats, chunk, promise });\n\n promise.then((data) => {\n if (this.autoDrive) {\n this.driveFetchers();\n }\n });\n }\n }\n\n // Update LRU ordering in reverse priority order\n const now = performance.now();\n\n for (const pageLru of overflow.reverse()) {\n pageLru.lru = now;\n this.pageLru.delete(pageLru);\n this.pageLru.add(pageLru);\n }\n\n // Create set of pages not needed\n const extraPages = new Set(this.pageLru);\n for (const pageLru of needed.reverse()) {\n extraPages.delete(pageLru);\n\n pageLru.lru = now;\n this.pageLru.delete(pageLru);\n this.pageLru.add(pageLru);\n }\n this.freeablePages = Array.from(extraPages).map(({ page }) => page);\n }\n\n private allocateFreeable(): number | undefined {\n const page = this.freeablePages.shift();\n if (page === undefined) {\n // No freeable pages available\n return undefined;\n }\n\n const splatsChunk = this.pageToSplatsChunk[page];\n if (!splatsChunk) {\n throw new Error(`splatsChunk not found for page: ${page}`);\n }\n\n const { splats, chunk } = splatsChunk;\n this.removeSplatsChunkPage(splats, chunk, page);\n this.lodTreeUpdates.push({\n splats,\n page,\n chunk,\n numSplats: this.pageSplats,\n });\n return page;\n }\n\n private processFetched() {\n const now = performance.now();\n while (true) {\n const fetched = this.fetched.shift();\n if (!fetched) {\n break;\n }\n const { splats, chunk, data } = fetched;\n\n let page = this.allocatePage();\n if (page === undefined) {\n page = this.allocateFreeable();\n if (page === undefined) {\n // No pages available, stop for now\n return;\n }\n }\n\n this.insertSplatsChunkPage(splats, chunk, page, now);\n const { numSplats, extra } = data;\n this.lodTreeUpdates.push({\n splats,\n page,\n chunk,\n numSplats,\n lodTree: extra.lodTree as Uint32Array,\n });\n\n if (!this.extSplats) {\n const packedArray = (data as PackedResult).packedArray;\n this.newUploads.push({ page, numSplats, packedArray, extra });\n } else {\n const extArrays = (data as ExtResult).extArrays;\n const packedArray = extArrays[0];\n const extArray = extArrays[1];\n this.newUploads.push({ page, numSplats, packedArray, extArray, extra });\n }\n }\n }\n\n processUploads() {\n while (true) {\n const upload = this.readyUploads.shift();\n if (!upload) {\n break;\n }\n const { page, numSplats, packedArray, extArray, extra } = upload;\n this.uploadPage(page, packedArray, extra, extArray);\n }\n }\n\n consumeLodTreeUpdates() {\n const updates = this.lodTreeUpdates;\n this.lodTreeUpdates = [];\n\n this.readyUploads.push(...this.newUploads);\n this.newUploads = [];\n return updates;\n }\n\n static emptyUint32x4 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyUint32x2 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 2);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RG32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyIndicesTexture = (() => {\n const emptyArray = new Uint32Array(4096 * 4);\n const texture = new THREE.DataTexture(emptyArray, 4096, 1);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyPackedTexture = this.emptyUint32x4;\n static emptyExtTexture = this.emptyUint32x4;\n static emptySh1Texture = this.emptyUint32x2;\n static emptySh2Texture = this.emptyUint32x4;\n static emptySh3Texture = this.emptyUint32x4;\n static emptyExtSh1Texture = this.emptyUint32x4;\n static emptyExtSh2Texture = this.emptyUint32x4;\n static emptyExtSh3Texture = this.emptyUint32x4;\n static emptyExtSh3BTexture = this.emptyUint32x4;\n}\n\nfunction getGlTexture(\n renderer: THREE.WebGLRenderer,\n texture: THREE.Texture,\n): WebGLTexture {\n if (!renderer.properties.has(texture)) {\n throw new Error(\"texture not found\");\n }\n const props = renderer.properties.get(texture) as {\n __webglTexture: WebGLTexture;\n };\n const glTexture = props.__webglTexture;\n if (!glTexture) {\n throw new Error(\"texture not found\");\n }\n return glTexture;\n}\n\nconst wasmInitialized = init_wasm();\n\nasync function fetchRange({\n url,\n requestHeader,\n withCredentials,\n offset,\n bytes,\n}: {\n url: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n offset?: number;\n bytes?: number;\n}): Promise {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : undefined,\n credentials: withCredentials ? \"include\" : \"same-origin\",\n });\n if (offset !== undefined && bytes !== undefined) {\n request.headers.set(\"Range\", `bytes=${offset}-${offset + bytes - 1}`);\n }\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n return new Uint8Array(await response.arrayBuffer());\n}\n","import * as THREE from \"three\";\n\nimport init_wasm, {\n get_raycast_buffer,\n get_raycast_buffer2,\n raycast_ext_buffers,\n raycast_packed_buffer,\n} from \"spark-rs\";\nimport { ExtSplats } from \"./ExtSplats\";\nimport { OldSparkRenderer } from \"./OldSparkRenderer\";\nimport { PackedSplats } from \"./PackedSplats\";\nimport { type RgbaArray, TRgbaArray } from \"./RgbaArray\";\nimport { SparkRenderer } from \"./SparkRenderer\";\nimport { SplatEdit, SplatEditSdf, SplatEdits } from \"./SplatEdit\";\nimport {\n type CovSplatModifier,\n CovSplatTransformer,\n type FrameUpdateContext,\n type GsplatModifier,\n SplatGenerator,\n SplatTransformer,\n} from \"./SplatGenerator\";\nimport { PagedSplats, SplatPager } from \"./SplatPager\";\nimport type { SplatSkinning } from \"./SplatSkinning\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n type SplatEncoding,\n type SplatFileType,\n} from \"./defines\";\nimport {\n CovSplat,\n Dyno,\n DynoBool,\n DynoFloat,\n DynoInt,\n DynoUsampler2D,\n type DynoVal,\n DynoVec4,\n Gsplat,\n combineCovSplat,\n combineGsplat,\n defineGsplat,\n dyno,\n dynoBlock,\n gsplatToCovSplat,\n mul,\n splitCovSplat,\n splitGsplat,\n unindentLines,\n} from \"./dyno\";\n\nexport type SplatMeshOptions = {\n // URL to fetch a Gaussian splat file from(supports .ply, .splat, .ksplat,\n // .spz formats). (default: undefined)\n url?: string;\n // Raw bytes of a Gaussian splat file to decode directly instead of fetching\n // from URL. (default: undefined)\n fileBytes?: Uint8Array | ArrayBuffer;\n // Override the file type detection for formats that can't be reliably\n // auto-detected (.splat, .ksplat). (default: undefined auto-detects other\n // formats from file contents)\n fileType?: SplatFileType;\n // File name to use for type detection. (default: undefined)\n fileName?: string;\n // Stream to read the Gaussian splat file from. (default: undefined)\n stream?: ReadableStream;\n // Length of the stream in bytes. (default: undefined)\n streamLength?: number;\n // Use an existing PackedSplats object as the source instead of loading from\n // a file. Can be used to share a collection of Gsplats among multiple SplatMeshes\n // (default: undefined creates a new empty PackedSplats or decoded from a\n // data source above)\n packedSplats?: PackedSplats;\n // Use an existing SplatSource object as the source instead of loading from file.\n splats?: SplatSource;\n // Reserve space for at least this many splats when constructing the mesh\n // initially. (default: determined by file)\n maxSplats?: number;\n // Callback function to programmatically create splats at initialization\n // in provided PackedSplats. (default: undefined)\n constructSplats?: (splats: PackedSplats) => Promise | void;\n // Callback function called while downloading and initializing (default: undefined)\n onProgress?: (event: ProgressEvent) => void;\n // Callback function that is called when mesh initialization is complete.\n // (default: undefined)\n onLoad?: (mesh: SplatMesh) => Promise | void;\n // Controls whether SplatEdits have any effect on this mesh. (default: true)\n editable?: boolean;\n // Controls whether SplatMesh participates in Three.js raycasting (default: true)\n raycastable?: boolean;\n // Minimum opacity for raycasting splats. (default: 0.2)\n minRaycastOpacity?: number;\n // Callback function that is called every frame to update the mesh.\n // Call mesh.updateVersion() if splats need to be regenerated due to some change.\n // Calling updateVersion() is not necessary for object transformations, recoloring,\n // or opacity adjustments as these are auto-detected. (default: undefined)\n onFrame?: ({\n mesh,\n time,\n deltaTime,\n }: { mesh: SplatMesh; time: number; deltaTime: number }) => void;\n // Gsplat modifier to apply in object-space before any transformations.\n // A GsplatModifier is a dyno shader-graph block that transforms an input\n // gsplat: DynoVal to an output gsplat: DynoVal with gsplat.center\n // coordinate in object-space. (default: undefined)\n objectModifier?: GsplatModifier;\n objectModifiers?: GsplatModifier[];\n // Gsplat modifier to apply in world-space after transformations.\n // (default: undefined)\n worldModifier?: GsplatModifier;\n worldModifiers?: GsplatModifier[];\n covObjectModifiers?: CovSplatModifier[];\n covWorldModifiers?: CovSplatModifier[];\n // Override the default splat encoding ranges for the PackedSplats.\n // (default: undefined)\n splatEncoding?: SplatEncoding;\n // Set to true to load/use \"extended splat\" encoding with float32 x/y/z\n extSplats?: boolean | ExtSplats;\n // Set to true to output covariance splats for anisotropic scaling\n covSplats?: boolean;\n // Enable LOD. If a number is provided, it will be used as LoD level base,\n // otherwise the default 1.5 is used. When loading a file without pre-computed\n // LoD it will use the \"quick lod\" algorithm to generate one on-the-fly with\n // the selected LoD level base. (default: undefined=false)\n lod?: boolean | \"quality\";\n // Only create LoD if the input splat acount is above this (default: undefined=0)\n lodAbove?: number;\n // Keep the original PackedSplats data before creating LoD version. (default: false)\n nonLod?: boolean;\n // Force enable/disable LoD (default: enabled iff packedSplats.lodSplats is not null)\n enableLod?: boolean;\n // LoD scale to apply @default 1.0\n lodScale?: number;\n // Foveation scale to apply behind viewer\n // (default: 1.0)\n behindFoveate?: number;\n // Full-width angle in degrees of fixed foveation cone along the view direction\n // with perfection foveation=1.0\n // (default: 0.0)\n coneFov0?: number;\n // Full-width angle in degrees of fixed foveation cone along the view direction. 0.0=disable\n // (default: 0.0)\n coneFov?: number;\n // Foveation scale to apply at the edge of the cone\n // (default: 1.0)\n coneFoveate?: number;\n paged?: boolean | PagedSplats | SplatPager;\n};\n\nexport type SplatMeshContext = {\n transform: SplatTransformer;\n viewToWorld: SplatTransformer;\n worldToView: SplatTransformer;\n viewToObject: SplatTransformer;\n covTransform: CovSplatTransformer;\n covViewToWorld: CovSplatTransformer;\n covWorldToView: CovSplatTransformer;\n covViewToObject: CovSplatTransformer;\n recolor: DynoVec4;\n time: DynoFloat;\n deltaTime: DynoFloat;\n numSplats: DynoInt;\n splats: SplatSource;\n enableLod: DynoBool;\n lodIndices: DynoUsampler2D<\"lodIndices\", THREE.DataTexture>;\n};\n\nexport interface SplatSource {\n prepareFetchSplat(): void;\n dispose(): void;\n\n getNumSplats(): number;\n hasRgbDir(): boolean;\n getNumSh(): number;\n setMaxSh(maxSh: number): void;\n\n fetchSplat({\n index,\n viewOrigin,\n }: { index: DynoVal<\"int\">; viewOrigin?: DynoVal<\"vec3\"> }): DynoVal<\n typeof Gsplat\n >;\n}\n\nexport class EmptySplatSource implements SplatSource {\n fetchDyno = new Dyno({\n inTypes: {},\n outTypes: { gsplat: Gsplat },\n globals: () => [defineGsplat],\n statements: ({ outputs }) =>\n unindentLines(`\n ${outputs.gsplat}.flags = 0u;\n return;\n `),\n }).outputs.gsplat;\n\n prepareFetchSplat() {}\n dispose() {}\n\n getNumSplats() {\n return 0;\n }\n hasRgbDir() {\n return false;\n }\n getNumSh() {\n return 0;\n }\n setMaxSh(maxSh: number) {}\n\n fetchSplat({ index }: { index: DynoVal<\"int\"> }): DynoVal {\n return this.fetchDyno;\n }\n}\n\nexport class SplatMesh extends SplatGenerator {\n // A Promise you can await to ensure fetching, parsing,\n // and initialization has completed\n initialized: Promise;\n // A boolean indicating whether initialization is complete\n isInitialized = false;\n\n // If you modify packedSplats you should set\n // splatMesh.packedSplats.needsUpdate = true to signal to Three.js that it\n // should re-upload the data to the underlying texture. Use this sparingly with\n // objects with smaller Gsplat counts as it requires a CPU-GPU data transfer for\n // each frame. Thousands to tens of thousands of Gsplats is fine. (See hands.ts\n // for an example of rendering \"Gsplat hands\" in WebXR using this technique.)\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n covSplats: boolean;\n splats?: SplatSource;\n lastSplats?: SplatSource;\n paged?: PagedSplats;\n\n // A THREE.Color that can be used to tint all splats in the mesh.\n // (default: new THREE.Color(1, 1, 1))\n recolor: THREE.Color = new THREE.Color(1, 1, 1);\n // Global opacity multiplier for all splats in the mesh. (default: 1)\n opacity = 1;\n\n // A SplatMeshContext consisting of useful scene and object dyno uniforms that can\n // be used to in the Gsplat processing pipeline, for example via objectModifier and\n // worldModifier. (created on construction)\n context: SplatMeshContext;\n onFrame?: ({\n mesh,\n time,\n deltaTime,\n }: { mesh: SplatMesh; time: number; deltaTime: number }) => void;\n generatorDirty = true;\n\n objectModifiers?: GsplatModifier[];\n worldModifiers?: GsplatModifier[];\n covObjectModifiers?: CovSplatModifier[];\n covWorldModifiers?: CovSplatModifier[];\n // Set to true to have the viewToObject property in context be updated each frame.\n // If the mesh has extra.sh1 (first order spherical harmonics directional lighting)\n // this property will always be updated. (default: false)\n enableViewToObject = false;\n // Set to true to have context.viewToWorld updated each frame. (default: false)\n enableViewToWorld = false;\n // Set to true to have context.worldToView updated each frame. (default: false)\n enableWorldToView = false;\n\n // Optional SplatSkinning instance for animating splats with dual-quaternion\n // skeletal animation. (default: null)\n skinning: SplatSkinning | null = null;\n\n // Optional list of SplatEdits to apply to the mesh. If null, any SplatEdit\n // children in the scene graph will be added automatically. (default: null)\n edits: SplatEdit[] | null = null;\n editable: boolean;\n raycastable: boolean;\n minRaycastOpacity: number;\n raycastIndices?: { numSplats: number; indices: Uint32Array };\n // Compiled SplatEdits for applying SDF edits to splat RGBA + centers\n rgbaDisplaceEdits: SplatEdits | null = null;\n // Optional RgbaArray to overwrite splat RGBA values with custom values.\n // Useful for \"baking\" RGB and opacity edits into the SplatMesh. (default: null)\n splatRgba: RgbaArray | null = null;\n\n // Maximum Spherical Harmonics level to use. Call updateGenerator()\n // after changing. (default: 3)\n maxSh = 3;\n\n enableLod?: boolean;\n lodScale: number;\n behindFoveate?: number;\n coneFov0?: number;\n coneFov?: number;\n coneFoveate?: number;\n\n showLodPage?: number;\n showLodPageDyno = new DynoInt({ value: 0 });\n\n constructor(options: SplatMeshOptions = {}) {\n super({\n update: (context) => this.update(context),\n });\n\n if (options.splats) {\n this.splats = options.splats;\n this.numSplats = options.splats.getNumSplats();\n } else if (options.paged) {\n if (options.extSplats) {\n console.warn(\n \"To set extSplats with the paged option, set SparkRenderer.pagedExtSplats\",\n );\n }\n const rootUrl = options.url ?? \"\";\n if (options.paged === true) {\n this.paged = new PagedSplats({ rootUrl });\n } else if (options.paged instanceof PagedSplats) {\n this.paged = options.paged;\n } else if (options.paged instanceof SplatPager) {\n this.paged = new PagedSplats({ rootUrl, pager: options.paged });\n } else {\n throw new Error(\"Invalid paged option\");\n }\n this.splats = this.paged;\n } else if (options.extSplats) {\n this.extSplats =\n options.extSplats instanceof ExtSplats\n ? options.extSplats\n : new ExtSplats();\n options.extSplats = this.extSplats;\n this.numSplats = this.extSplats.numSplats;\n this.splats = this.extSplats;\n } else if (options.packedSplats) {\n this.packedSplats = options.packedSplats;\n this.packedSplats.splatEncoding = options.splatEncoding ?? {\n ...DEFAULT_SPLAT_ENCODING,\n };\n this.splats = this.packedSplats;\n } else {\n this.packedSplats = new PackedSplats();\n }\n\n this.editable = options.editable ?? true;\n this.raycastable = options.raycastable ?? true;\n this.minRaycastOpacity = options.minRaycastOpacity ?? 0.2;\n this.onFrame = options.onFrame;\n\n this.context = {\n transform: new SplatTransformer(),\n viewToWorld: new SplatTransformer(),\n worldToView: new SplatTransformer(),\n viewToObject: new SplatTransformer(),\n covTransform: new CovSplatTransformer(),\n covViewToWorld: new CovSplatTransformer(),\n covWorldToView: new CovSplatTransformer(),\n covViewToObject: new CovSplatTransformer(),\n recolor: new DynoVec4({\n value: new THREE.Vector4().setScalar(Number.NEGATIVE_INFINITY),\n }),\n time: new DynoFloat({ value: 0 }),\n deltaTime: new DynoFloat({ value: 0 }),\n numSplats: new DynoInt({ value: 0 }),\n splats: new EmptySplatSource(),\n enableLod: new DynoBool({ value: false }),\n lodIndices: new DynoUsampler2D({\n value: emptyLodIndices,\n key: \"lodIndices\",\n }),\n };\n\n this.covSplats = options.covSplats ?? false;\n if (this.covSplats && !this.extSplats) {\n throw new Error(\"CovSplats requires ExtSplats\");\n }\n\n this.objectModifiers = options.objectModifier\n ? [options.objectModifier]\n : undefined;\n this.worldModifiers = options.worldModifier\n ? [options.worldModifier]\n : undefined;\n\n if (options.objectModifiers) {\n this.objectModifiers = options.objectModifiers;\n }\n if (options.worldModifiers) {\n this.worldModifiers = options.worldModifiers;\n }\n\n this.enableLod = options.enableLod;\n this.lodScale = options.lodScale ?? 1.0;\n this.behindFoveate = options.behindFoveate;\n this.coneFov0 = options.coneFov0;\n this.coneFov = options.coneFov;\n this.coneFoveate = options.coneFoveate;\n\n this.updateGenerator();\n\n if (\n options.url ||\n options.fileBytes ||\n options.stream ||\n options.constructSplats ||\n (options.packedSplats && !options.packedSplats.isInitialized) ||\n (this.extSplats && !this.extSplats.isInitialized)\n ) {\n // We need to initialize asynchronously given the options\n this.initialized = this.asyncInitialize(options).then(async () => {\n this.updateGenerator();\n\n this.isInitialized = true;\n if (options.onLoad) {\n const maybePromise = options.onLoad(this);\n if (maybePromise instanceof Promise) {\n await maybePromise;\n }\n }\n return this;\n });\n } else {\n this.isInitialized = true;\n this.initialized = Promise.resolve(this);\n if (options.onLoad) {\n const maybePromise = options.onLoad(this);\n // If onLoad returns a promise, wait for it to complete\n if (maybePromise instanceof Promise) {\n this.initialized = maybePromise.then(() => this);\n }\n }\n }\n\n // this.add(createRendererDetectionMesh());\n }\n\n async asyncInitialize(options: SplatMeshOptions) {\n const {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n maxSplats,\n constructSplats,\n onProgress,\n splatEncoding,\n lod,\n nonLod,\n lodAbove,\n } = options;\n if (this.packedSplats) {\n if (url || fileBytes || stream || constructSplats) {\n const packedSplatsOptions = {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n maxSplats,\n construct: constructSplats,\n onProgress,\n splatEncoding,\n lod,\n nonLod,\n lodAbove,\n };\n this.packedSplats.reinitialize(packedSplatsOptions);\n }\n await this.packedSplats.initialized;\n this.splats = this.packedSplats;\n } else if (this.extSplats) {\n if (url || fileBytes || stream || constructSplats) {\n const construct = constructSplats as\n | ((splats: ExtSplats) => Promise)\n | undefined;\n this.extSplats.reinitialize({\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n maxSplats,\n construct,\n onProgress,\n lod,\n nonLod,\n lodAbove,\n });\n await this.extSplats.initialized;\n this.splats = this.extSplats;\n }\n }\n\n if (this.splats) {\n this.numSplats = this.splats.getNumSplats();\n this.updateGenerator();\n }\n }\n\n static staticInitialized = SplatMesh.staticInitialize();\n static isStaticInitialized = false;\n\n static dynoTime = new DynoFloat({ value: 0 });\n\n static async staticInitialize() {\n await init_wasm();\n SplatMesh.isStaticInitialized = true;\n }\n\n // Creates a new Gsplat with the provided parameters (all values in \"float\" space,\n // i.e. 0-1 for opacity and color) and adds it to the end of the packedSplats,\n // increasing numSplats by 1. If necessary, reallocates the buffer with an exponential\n // doubling strategy to fit the new data, so it's fairly efficient to just\n // pushSplat(...) each Gsplat you want to create in a loop.\n pushSplat(\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n if (this.packedSplats) {\n this.packedSplats.pushSplat(center, scales, quaternion, opacity, color);\n } else if (this.extSplats) {\n this.extSplats.pushSplat(center, scales, quaternion, opacity, color);\n }\n }\n\n // This method iterates over all Gsplats in this instance's packedSplats,\n // invoking the provided callback with index: number in 0..=(this.numSplats-1) and\n // center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion,\n // opacity: number (0..1), and color: THREE.Color (rgb values in 0..1).\n // Note that the objects passed in as center etc. are the same for every callback\n // invocation: these objects are reused for efficiency. Changing these values has\n // no effect as they are decoded/unpacked copies of the underlying data. To update\n // the packedSplats, call .packedSplats.setSplat(index, center, scales,\n // quaternion, opacity, color).\n forEachSplat(\n callback: (\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => void,\n ) {\n if (this.packedSplats) {\n this.packedSplats.forEachSplat(callback);\n } else if (this.extSplats) {\n this.extSplats.forEachSplat(callback);\n }\n }\n\n // Call this when you are finished with the SplatMesh and want to free\n // any buffers it holds (via packedSplats).\n dispose() {\n if (\n this.splats &&\n this.splats !== this.packedSplats &&\n this.splats !== this.extSplats\n ) {\n this.splats.dispose();\n this.splats = undefined;\n }\n if (this.packedSplats) {\n this.packedSplats.dispose();\n this.packedSplats = undefined;\n }\n if (this.extSplats) {\n this.extSplats.dispose();\n this.extSplats = undefined;\n }\n }\n\n // Returns axis-aligned bounding box of the SplatMesh. If centers_only is true,\n // only the centers of the splats are used to compute the bounding box.\n // IMPORTANT: This should only be called after the SplatMesh is initialized.\n getBoundingBox(centers_only = true) {\n if (!this.initialized) {\n throw new Error(\n \"Cannot get bounding box before SplatMesh is initialized\",\n );\n }\n if (!this.packedSplats && !this.extSplats) {\n throw new Error(\"Bounding box requires PackedSplats or ExtSplats\");\n }\n const minVec = new THREE.Vector3(\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n );\n const maxVec = new THREE.Vector3(\n Number.NEGATIVE_INFINITY,\n Number.NEGATIVE_INFINITY,\n Number.NEGATIVE_INFINITY,\n );\n const corners = new THREE.Vector3();\n const signs = [-1, 1];\n\n function callback(\n _index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n _opacity: number,\n _color: THREE.Color,\n ) {\n if (centers_only) {\n minVec.min(center);\n maxVec.max(center);\n } else {\n // Get the 8 corners of the AABB in local space\n for (const x of signs) {\n for (const y of signs) {\n for (const z of signs) {\n corners.set(x * scales.x, y * scales.y, z * scales.z);\n // Transform corner by rotation and position\n corners.applyQuaternion(quaternion);\n corners.add(center);\n minVec.min(corners);\n maxVec.max(corners);\n }\n }\n }\n }\n }\n\n if (this.packedSplats) {\n this.packedSplats.forEachSplat(callback);\n } else if (this.extSplats) {\n this.extSplats.forEachSplat(callback);\n }\n const box = new THREE.Box3(minVec, maxVec);\n return box;\n }\n\n set objectModifier(modifier: GsplatModifier | undefined) {\n if (modifier) {\n this.objectModifiers = [modifier];\n } else {\n this.objectModifiers = undefined;\n }\n }\n\n set worldModifier(modifier: GsplatModifier | undefined) {\n if (modifier) {\n this.worldModifiers = [modifier];\n } else {\n this.worldModifiers = undefined;\n }\n }\n\n private constructGenerator(context: SplatMeshContext) {\n if (this.covSplats) {\n return this.constructCovGenerator(context);\n }\n\n const { transform, viewToObject, recolor } = context;\n const generator = dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n\n index = maybeLookupIndex(\n context.lodIndices,\n index,\n context.numSplats,\n context.enableLod,\n this.showLodPageDyno,\n );\n\n // Read a Gsplat from the SplatSource\n context.splats.setMaxSh(this.maxSh);\n context.splats.prepareFetchSplat();\n let gsplat = context.splats.fetchSplat({\n index,\n viewOrigin: viewToObject.translate,\n });\n\n if (this.splatRgba) {\n // Overwrite RGBA with baked RGBA values\n gsplat = maybeInjectSplatRgba(\n gsplat,\n this.splatRgba.dyno,\n index,\n context.enableLod,\n );\n }\n\n if (this.skinning) {\n // Transform according to bones + skinning weights\n gsplat = this.skinning.modify(gsplat);\n }\n\n if (this.objectModifiers) {\n // Inject object-space Gsplat modifier dyno\n for (const modifier of this.objectModifiers) {\n gsplat = modifier.apply({ gsplat }).gsplat;\n }\n }\n\n // Transform from object to world-space\n gsplat = transform.applyGsplat(gsplat);\n\n // Apply any global recoloring and opacity\n const recolorRgba = mul(recolor, splitGsplat(gsplat).outputs.rgba);\n gsplat = combineGsplat({ gsplat, rgba: recolorRgba });\n\n if (this.rgbaDisplaceEdits) {\n // Apply RGBA edit layer SDFs\n gsplat = this.rgbaDisplaceEdits.modify(gsplat);\n }\n\n if (this.worldModifiers) {\n // Inject world-space Gsplat modifier dyno\n for (const modifier of this.worldModifiers) {\n gsplat = modifier.apply({ gsplat }).gsplat;\n }\n }\n\n // We're done! Output resulting Gsplat\n return { gsplat };\n },\n );\n this.generator = generator;\n this.covGenerator = undefined;\n }\n\n constructCovGenerator(context: SplatMeshContext) {\n // console.log(\"CovSplatMesh.constructCovGenerator\");\n const { covTransform, covViewToObject, recolor } = context;\n const generator = dynoBlock(\n { index: \"int\" },\n { covsplat: CovSplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n\n index = maybeLookupIndex(\n context.lodIndices,\n index,\n context.numSplats,\n context.enableLod,\n this.showLodPageDyno,\n );\n\n // Read a Gsplat from the SplatSource\n context.splats.prepareFetchSplat();\n let gsplat = context.splats.fetchSplat({\n index,\n viewOrigin: covViewToObject.offset,\n });\n\n if (this.splatRgba) {\n // Overwrite RGBA with baked RGBA values\n gsplat = maybeInjectSplatRgba(\n gsplat,\n this.splatRgba.dyno,\n index,\n context.enableLod,\n );\n }\n\n if (this.objectModifiers) {\n // Inject object-space Gsplat modifier dyno\n for (const modifier of this.objectModifiers) {\n gsplat = modifier.apply({ gsplat }).gsplat;\n }\n }\n\n let covsplat = gsplatToCovSplat(gsplat);\n\n if (this.skinning) {\n // Transform according to bones + skinning weights\n covsplat = this.skinning.modifyCov(covsplat);\n }\n\n if (this.covObjectModifiers) {\n // Inject object-space CovSplat modifier dyno\n for (const modifier of this.covObjectModifiers) {\n covsplat = modifier.apply({ covsplat }).covsplat;\n }\n }\n\n // Transform from object to world-space\n covsplat = covTransform.applyCovSplat(covsplat);\n\n // Apply any global recoloring and opacity\n const recolorRgba = mul(recolor, splitCovSplat(covsplat).outputs.rgba);\n covsplat = combineCovSplat({ covsplat, rgba: recolorRgba });\n\n if (this.rgbaDisplaceEdits) {\n // Apply RGBA edit layer SDFs\n covsplat = this.rgbaDisplaceEdits.modifyCov(covsplat);\n }\n\n if (this.covWorldModifiers) {\n // Inject world-space CovSplat modifier dyno\n for (const modifier of this.covWorldModifiers) {\n covsplat = modifier.apply({ covsplat }).covsplat;\n }\n }\n\n // We're done! Output resulting Gsplat\n return { covsplat };\n },\n );\n this.generator = undefined;\n this.covGenerator = generator;\n }\n\n // Call this whenever something changes in the Gsplat processing pipeline,\n // for example changing maxSh or updating objectModifier or worldModifier.\n // Compiled generators are cached for efficiency and re-use when the same\n // pipeline structure emerges after successive changes.\n updateGenerator() {\n this.generatorDirty = true;\n }\n\n // This is called automatically by SparkRenderer and you should not have to\n // call it. It updates parameters for the generated pipeline and calls\n // updateGenerator() if the pipeline needs to change.\n update({\n renderer,\n time,\n deltaTime,\n viewToWorld,\n camera,\n renderSize,\n globalEdits,\n lodIndices,\n }: FrameUpdateContext) {\n this.context.time.value = time;\n this.context.deltaTime.value = deltaTime;\n SplatMesh.dynoTime.value = time;\n this.showLodPageDyno.value = this.showLodPage ?? -1;\n\n const splats = this.splats ?? this.packedSplats ?? this.extSplats;\n if (splats) {\n this.context.splats = splats;\n }\n this.numSplats = this.context.splats.getNumSplats();\n\n let updated = false;\n\n const lodSplats = this.packedSplats?.lodSplats ?? this.extSplats?.lodSplats;\n this.context.enableLod.value = lodSplats != null && lodIndices != null;\n if (this.enableLod === false) {\n this.context.enableLod.value = false;\n }\n this.context.lodIndices.value = lodIndices?.texture ?? emptyLodIndices;\n\n if (this.context.enableLod.value && lodSplats) {\n this.context.splats = lodSplats;\n this.numSplats = lodIndices?.numSplats ?? 0;\n }\n\n this.context.numSplats.value = this.numSplats;\n\n if (this.context.splats !== this.lastSplats) {\n this.lastSplats = this.context.splats;\n this.generatorDirty = true;\n }\n\n if (!this.covSplats) {\n if (this.context.transform.update(this)) {\n updated = true;\n }\n\n if (\n this.context.viewToWorld.updateFromMatrix(viewToWorld) &&\n this.enableViewToWorld\n ) {\n updated = true;\n }\n const worldToView = viewToWorld.clone().invert();\n if (\n this.context.worldToView.updateFromMatrix(worldToView) &&\n this.enableWorldToView\n ) {\n updated = true;\n }\n\n const objectToWorld = new THREE.Matrix4().compose(\n this.context.transform.translate.value,\n this.context.transform.rotate.value,\n new THREE.Vector3().setScalar(this.context.transform.scale.value),\n );\n const worldToObject = objectToWorld.invert();\n const viewToObjectMatrix = worldToObject.multiply(viewToWorld);\n if (\n this.context.viewToObject.updateFromMatrix(viewToObjectMatrix) &&\n (this.enableViewToObject || this.context.splats.hasRgbDir())\n ) {\n // Only trigger update if we have view-dependent spherical harmonics\n updated = true;\n }\n } else {\n if (this.context.covTransform.update(this)) {\n updated = true;\n }\n\n if (\n this.context.covViewToWorld.updateFromMatrix(viewToWorld) &&\n this.enableViewToWorld\n ) {\n updated = true;\n }\n const worldToView = viewToWorld.clone().invert();\n if (\n this.context.covWorldToView.updateFromMatrix(worldToView) &&\n this.enableWorldToView\n ) {\n updated = true;\n }\n\n const worldToObject = this.matrixWorld.clone().invert();\n const viewToObjectMatrix = worldToObject.multiply(viewToWorld);\n if (\n this.context.covViewToObject.updateFromMatrix(viewToObjectMatrix) &&\n (this.enableViewToObject || this.context.splats.hasRgbDir())\n ) {\n // Only trigger update if we have view-dependent spherical harmonics\n updated = true;\n }\n }\n\n const newRecolor = new THREE.Vector4(\n this.recolor.r,\n this.recolor.g,\n this.recolor.b,\n this.opacity,\n );\n if (!newRecolor.equals(this.context.recolor.value)) {\n this.context.recolor.value.copy(newRecolor);\n updated = true;\n }\n\n const edits = this.editable ? (this.edits ?? []).concat(globalEdits) : [];\n if (this.editable && !this.edits) {\n // If we haven't set any explicit edits, add any child SplatEdits\n this.traverseVisible((node) => {\n if (node instanceof SplatEdit) {\n edits.push(node);\n }\n });\n }\n\n edits.sort((a, b) => a.ordering - b.ordering);\n const editsSdfs = edits.map((edit) => {\n if (edit.sdfs != null) {\n return { edit, sdfs: edit.sdfs };\n }\n const sdfs: SplatEditSdf[] = [];\n edit.traverseVisible((node) => {\n if (node instanceof SplatEditSdf) {\n sdfs.push(node);\n }\n });\n return { edit, sdfs };\n });\n\n if (editsSdfs.length > 0 && !this.rgbaDisplaceEdits) {\n const edits = editsSdfs.length;\n const sdfs = editsSdfs.reduce(\n (total, edit) => total + edit.sdfs.length,\n 0,\n );\n this.rgbaDisplaceEdits = new SplatEdits({\n maxEdits: edits,\n maxSdfs: sdfs,\n });\n this.generatorDirty = true;\n }\n if (this.rgbaDisplaceEdits) {\n const editResult = this.rgbaDisplaceEdits.update(editsSdfs);\n updated ||= editResult.updated;\n if (editResult.dynoUpdated) {\n this.generatorDirty = true;\n }\n }\n\n if (this.generatorDirty) {\n this.constructGenerator(this.context);\n this.generatorDirty = false;\n updated = true;\n }\n\n if (updated) {\n this.updateVersion();\n }\n\n this.onFrame?.({ mesh: this, time, deltaTime });\n }\n\n // This method conforms to the standard THREE.Raycaster API, performing object-ray\n // intersections using this method to populate the provided intersects[] array\n // with each intersection point.\n raycast(\n raycaster: THREE.Raycaster,\n intersects: {\n distance: number;\n point: THREE.Vector3;\n object: THREE.Object3D;\n }[],\n ) {\n if (\n !SplatMesh.isStaticInitialized ||\n !this.raycastable ||\n (!this.packedSplats && !this.extSplats && !this.paged)\n ) {\n return;\n }\n const paged = this.paged != null;\n const ext = paged\n ? (this.paged?.pager?.extSplats ?? false)\n : this.extSplats != null;\n\n const { near, far, ray } = raycaster;\n const worldToMesh = this.matrixWorld.clone().invert();\n const worldToMeshRot = new THREE.Matrix3().setFromMatrix4(worldToMesh);\n const origin = ray.origin.clone().applyMatrix4(worldToMesh);\n const direction = ray.direction.clone().applyMatrix3(worldToMeshRot);\n\n const buffer = get_raycast_buffer();\n const bufferSize = buffer.length / 4;\n let intersections = 0;\n\n const numSplats =\n this.raycastIndices?.numSplats ??\n (paged ? this.paged?.numSplats : this.context.numSplats.value) ??\n 0;\n const indices =\n this.raycastIndices?.indices ??\n (paged\n ? (this.paged?.dynoIndices.value.image.data as Uint32Array)\n : this.context.enableLod.value\n ? (this.context.lodIndices.value.image.data as Uint32Array)\n : null) ??\n null;\n\n if (!ext) {\n const packed = paged\n ? (this.paged?.pager?.packedTexture.value.image.data as Uint32Array)\n : indices\n ? this.packedSplats?.lodSplats?.packedArray\n : this.packedSplats?.packedArray;\n if (!packed) {\n return;\n }\n const splatEncoding = paged\n ? this.paged?.splatEncoding\n : this.packedSplats?.splatEncoding;\n for (let base = 0; base < numSplats; base += bufferSize) {\n const count = Math.min(bufferSize, numSplats - base);\n if (!indices) {\n buffer.set(packed.subarray(base * 4, (base + count) * 4));\n } else {\n for (let i = 0; i < count; ++i) {\n const index = indices[base + i];\n const i4 = i * 4;\n const index4 = index * 4;\n buffer[i4] = packed[index4];\n buffer[i4 + 1] = packed[index4 + 1];\n buffer[i4 + 2] = packed[index4 + 2];\n buffer[i4 + 3] = packed[index4 + 3];\n }\n }\n\n const newIntersections = raycast_packed_buffer(\n origin.x,\n origin.y,\n origin.z,\n direction.x,\n direction.y,\n direction.z,\n this.minRaycastOpacity,\n near,\n far,\n count,\n splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n splatEncoding?.lodOpacity ?? false,\n );\n intersections = this.appendRaycastBuffer(\n intersections,\n newIntersections,\n );\n }\n } else {\n const buffer2 = get_raycast_buffer2();\n const ext1 = paged\n ? (this.paged?.pager?.packedTexture.value.image.data as Uint32Array)\n : indices\n ? this.extSplats?.lodSplats?.extArrays[0]\n : this.extSplats?.extArrays[0];\n const ext2 = paged\n ? (this.paged?.pager?.extTexture.value.image.data as Uint32Array)\n : indices\n ? this.extSplats?.lodSplats?.extArrays[1]\n : this.extSplats?.extArrays[1];\n if (!ext1 || !ext2) {\n return;\n }\n for (let base = 0; base < numSplats; base += bufferSize) {\n const count = Math.min(bufferSize, numSplats - base);\n if (!indices) {\n buffer.set(ext1.subarray(base * 4, (base + count) * 4));\n buffer2.set(ext2.subarray(base * 4, (base + count) * 4));\n } else {\n for (let i = 0; i < count; ++i) {\n const index = indices[base + i];\n const i4 = i * 4;\n const index4 = index * 4;\n buffer[i4] = ext1[index4];\n buffer[i4 + 1] = ext1[index4 + 1];\n buffer[i4 + 2] = ext1[index4 + 2];\n buffer[i4 + 3] = ext1[index4 + 3];\n buffer2[i4] = ext2[index4];\n buffer2[i4 + 1] = ext2[index4 + 1];\n buffer2[i4 + 2] = ext2[index4 + 2];\n buffer2[i4 + 3] = ext2[index4 + 3];\n }\n }\n\n const newIntersections = raycast_ext_buffers(\n origin.x,\n origin.y,\n origin.z,\n direction.x,\n direction.y,\n direction.z,\n this.minRaycastOpacity,\n near,\n far,\n count,\n );\n intersections = this.appendRaycastBuffer(\n intersections,\n newIntersections,\n );\n }\n }\n\n for (const distance of SplatMesh.raycastBuffer.subarray(0, intersections)) {\n const point = ray.direction\n .clone()\n .multiplyScalar(distance)\n .add(ray.origin);\n intersects.push({\n distance,\n point,\n object: this,\n });\n }\n }\n\n static raycastBuffer = new Float32Array(1024);\n\n private appendRaycastBuffer(count: number, additional: Float32Array) {\n const total = count + additional.length;\n let capacity = SplatMesh.raycastBuffer.length;\n\n if (total > capacity) {\n while (capacity < total) {\n capacity *= 2;\n }\n const newBuffer = new Float32Array(capacity);\n newBuffer.set(SplatMesh.raycastBuffer.subarray(0, count));\n SplatMesh.raycastBuffer = newBuffer;\n }\n\n SplatMesh.raycastBuffer.set(additional, count);\n return count + additional.length;\n }\n\n async createLodSplats({\n rgbaArray,\n quality,\n }: { rgbaArray?: RgbaArray; quality?: boolean } = {}) {\n if (this.packedSplats) {\n await this.packedSplats.createLodSplats({ quality, rgbaArray });\n } else if (this.extSplats) {\n await this.extSplats.createLodSplats({ quality, rgbaArray });\n }\n }\n}\n\nexport function maybeLookupIndex(\n lodIndices: DynoUsampler2D<\"lodIndices\", THREE.DataTexture>,\n index: DynoVal<\"int\">,\n numSplats: DynoVal<\"int\">,\n enableLod: DynoVal<\"bool\">,\n showLodPage: DynoVal<\"int\">,\n) {\n return dyno({\n inTypes: {\n lodIndices: \"usampler2D\",\n index: \"int\",\n numSplats: \"int\",\n enableLod: \"bool\",\n showLodPage: \"int\",\n },\n outTypes: {\n index: \"int\",\n },\n inputs: {\n lodIndices,\n index,\n numSplats,\n enableLod,\n showLodPage,\n },\n statements: ({ inputs, outputs }) =>\n unindentLines(`\n int index = ${inputs.index};\n if (${inputs.showLodPage} < 0) {\n if (index >= ${inputs.numSplats}) {\n return;\n }\n if (${inputs.enableLod}) {\n ivec2 lodIndexCoord = ivec2((index >> 2) & 4095, index >> 14);\n uint splatIndex = texelFetch(${inputs.lodIndices}, lodIndexCoord, 0)[index & 3];\n ${outputs.index} = int(splatIndex);\n } else {\n ${outputs.index} = index;\n }\n } else {\n int start = ${inputs.showLodPage} << 16;\n if (index >= 65536) {\n return;\n }\n ${outputs.index} = start + index;\n }\n `),\n }).outputs.index;\n}\n\nexport function maybeInjectSplatRgba(\n gsplat: DynoVal,\n rgba: DynoVal,\n index: DynoVal<\"int\">,\n enableLod: DynoVal<\"bool\">,\n): DynoVal {\n return dyno({\n inTypes: {\n gsplat: Gsplat,\n rgba: TRgbaArray,\n index: \"int\",\n enableLod: \"bool\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: { gsplat, rgba, index, enableLod },\n statements: ({ inputs, outputs }) =>\n unindentLines(`\n ${outputs.gsplat} = ${inputs.gsplat};\n if (!${inputs.enableLod} && (${inputs.index} >= 0) && (${inputs.index} < ${inputs.rgba}.count)) {\n ${outputs.gsplat}.rgba = texelFetch(${inputs.rgba}.texture, splatTexCoord(${inputs.index}), 0);\n }\n `),\n }).outputs.gsplat;\n}\n\nexport const emptyLodIndices = (() => {\n const texture = new THREE.DataTexture(\n new Uint32Array(16384),\n 4096,\n 1,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n})();\n\nconst EMPTY_GEOMETRY = new THREE.BufferGeometry();\nconst EMPTY_MATERIAL = new THREE.ShaderMaterial();\n\n// Creates an empty mesh to hook into Three.js rendering.\n// This is used to detect if a SparkRenderer is present in the scene.\n// If not, one will be injected automatically.\nfunction createRendererDetectionMesh(): THREE.Mesh {\n const mesh = new THREE.Mesh(EMPTY_GEOMETRY, EMPTY_MATERIAL);\n mesh.frustumCulled = false;\n mesh.onBeforeRender = function (renderer, scene) {\n if (!scene.isScene) {\n // The SplatMesh is part of render call that doesn't have a Scene at its root\n // Don't auto-inject a renderer.\n this.removeFromParent();\n return;\n }\n\n // Check if the scene has a SparkRenderer instance\n let hasSparkRenderer = false;\n scene.traverse((c) => {\n if (c instanceof SparkRenderer || c instanceof OldSparkRenderer) {\n hasSparkRenderer = true;\n }\n });\n\n if (!hasSparkRenderer) {\n // No spark renderer present in the scene, inject one.\n scene.add(new SparkRenderer({ renderer }));\n }\n\n // Remove mesh to stop checking\n this.removeFromParent();\n };\n return mesh;\n}\n","// PLY file format reader\n\nimport { USE_COMPILED_PARSER_FUNCTION } from \"./defines\";\n\nconst PLY_PROPERTY_TYPES = [\n \"char\",\n \"uchar\",\n \"short\",\n \"ushort\",\n \"int\",\n \"uint\",\n \"float\",\n \"double\",\n] as const;\nexport type PlyPropertyType = (typeof PLY_PROPERTY_TYPES)[number];\n\nexport type PlyElement = {\n name: string;\n count: number;\n properties: Record;\n};\n\nexport type PlyProperty = {\n isList: boolean;\n type: PlyPropertyType;\n countType?: PlyPropertyType;\n};\n\n// Callback for parseSplats base Gsplat data\nexport type SplatCallback = (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) => void;\n\n// Callback for parseSplats SH coefficients\nexport type SplatShCallback = (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n) => void;\n\n// A PlyReader is used to parse PLY files for Gsplat data.\n// It takes a Uint8Array/ArrayBuffer as input fileBytes, parses the text header,\n// and provides a method parseData to iterate over the entire binary data\n// efficiently, or parseSplats to iterate over Gsplat data.\n\nexport class PlyReader {\n fileBytes: Uint8Array;\n header = \"\";\n littleEndian = true;\n elements: Record = {};\n comments: string[] = [];\n data: DataView | null = null;\n static defaultPointScale = 0.001;\n\n numSplats = 0;\n\n // Create a PlyReader from a Uint8Array/ArrayBuffer, no parsing done yet\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n }\n\n // Identify and parse the PLY text header (assumed to be <64KB in size).\n // this.elements will contain all the elements in the file, typically\n // \"vertex\" contains the Gsplat data.\n async parseHeader() {\n const bufferStream = new ReadableStream({\n start: (\n controller: ReadableStreamController>,\n ) => {\n // Assume the header is less than 64KB\n controller.enqueue(this.fileBytes.slice(0, 65536));\n controller.close();\n },\n });\n const decoder = bufferStream\n .pipeThrough(new TextDecoderStream())\n .getReader();\n\n // Find the end of the text section of the PLY file\n this.header = \"\";\n const headerTerminator = \"end_header\\n\";\n while (true) {\n const { value, done } = await decoder.read();\n if (done) {\n throw new Error(\"Failed to read header\");\n }\n\n this.header += value as string;\n const endHeader = this.header.indexOf(headerTerminator);\n if (endHeader >= 0) {\n this.header = this.header.slice(0, endHeader + headerTerminator.length);\n break;\n }\n }\n // Partition the file into header and binary data\n const headerLen = new TextEncoder().encode(this.header).length;\n this.data = new DataView(this.fileBytes.buffer, headerLen);\n\n this.elements = {};\n let curElement: PlyElement | null = null;\n this.comments = [];\n\n this.header\n .trim()\n .split(\"\\n\")\n .forEach((line: string, lineIndex: number) => {\n const trimmedLine = line.trim();\n if (lineIndex === 0) {\n if (trimmedLine !== \"ply\") {\n throw new Error(\"Invalid PLY header\");\n }\n return;\n }\n if (trimmedLine.length === 0) {\n return; // Skip empty lines\n }\n\n const fields = trimmedLine.split(\" \");\n switch (fields[0]) {\n case \"format\":\n if (fields[1] === \"binary_little_endian\") {\n this.littleEndian = true;\n } else if (fields[1] === \"binary_big_endian\") {\n this.littleEndian = false;\n } else {\n // ascii formats not supported\n throw new Error(`Unsupported PLY format: ${fields[1]}`);\n }\n if (fields[2] !== \"1.0\") {\n throw new Error(`Unsupported PLY version: ${fields[2]}`);\n }\n break;\n case \"end_header\":\n break;\n case \"comment\":\n this.comments.push(trimmedLine.slice(\"comment \".length));\n break;\n case \"element\": {\n const name = fields[1];\n curElement = {\n name,\n count: Number.parseInt(fields[2]),\n properties: {},\n };\n this.elements[name] = curElement;\n break;\n }\n case \"property\":\n if (curElement == null) {\n throw new Error(\"Property must be inside an element\");\n }\n if (fields[1] === \"list\") {\n curElement.properties[fields[4]] = {\n isList: true,\n type: fields[3] as PlyPropertyType,\n countType: fields[2] as PlyPropertyType,\n };\n } else {\n curElement.properties[fields[2]] = {\n isList: false,\n type: fields[1] as PlyPropertyType,\n };\n }\n break;\n default:\n // console.warn(`Skipping unsupported PLY keyword: ${fields[0]}`);\n }\n });\n\n if (this.elements.vertex) {\n this.numSplats = this.elements.vertex.count;\n }\n }\n\n parseData(\n elementCallback: (\n element: PlyElement,\n ) =>\n | null\n | ((index: number, item: Record) => void),\n ) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No data to parse\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const item = createEmptyItem(properties);\n // Construct a parse function\n const parseFn = createParseFn(properties, this.littleEndian);\n\n // Parse all the items in the element\n const callback = elementCallback(element) ?? (() => {});\n for (let index = 0; index < count; index++) {\n offset = parseFn(data, offset, item);\n callback(index, item);\n }\n }\n }\n\n // Parse all the Gsplat data in the PLY file in go, invoking the given\n // callbacks for each Gsplat.\n parseSplats(splatCallback: SplatCallback, shCallback?: SplatShCallback) {\n if (this.elements.vertex == null) {\n throw new Error(\"No vertex element found\");\n }\n\n let isSuperSplat = false;\n const ssChunks: SSChunk[] = [];\n\n let numSh = 0;\n let sh1Props: number[] = [];\n let sh2Props: number[] = [];\n let sh3Props: number[] = [];\n let sh1: Float32Array | undefined = undefined;\n let sh2: Float32Array | undefined = undefined;\n let sh3: Float32Array | undefined = undefined;\n\n function prepareSh() {\n // Prepare SH coefficient names and arrays for numSh total SH levels\n const num_f_rest = NUM_SH_TO_NUM_F_REST[numSh];\n sh1Props = new Array(3)\n .fill(null)\n .flatMap((_, k) => [0, 1, 2].map((_, d) => k + (d * num_f_rest) / 3));\n sh2Props = new Array(5)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 3 + k + (d * num_f_rest) / 3),\n );\n sh3Props = new Array(7)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 8 + k + (d * num_f_rest) / 3),\n );\n sh1 = numSh >= 1 ? new Float32Array(3 * 3) : undefined;\n sh2 = numSh >= 2 ? new Float32Array(5 * 3) : undefined;\n sh3 = numSh >= 3 ? new Float32Array(7 * 3) : undefined;\n }\n\n function ssShCallback(\n index: number,\n item: Record,\n ) {\n // Decode SH for SuperSplat compressed data\n if (!sh1) {\n throw new Error(\"Missing sh1\");\n }\n const sh = item.f_rest as number[];\n\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = (sh[sh1Props[i]] * 8) / 255 - 4;\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = (sh[sh2Props[i]] * 8) / 255 - 4;\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = (sh[sh3Props[i]] * 8) / 255 - 4;\n }\n }\n shCallback?.(index, sh1, sh2, sh3);\n }\n\n function initSuperSplat(element: PlyElement) {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n } = element.properties;\n if (\n !min_x ||\n !min_y ||\n !min_z ||\n !max_x ||\n !max_y ||\n !max_z ||\n !min_scale_x ||\n !min_scale_y ||\n !min_scale_z ||\n !max_scale_x ||\n !max_scale_y ||\n !max_scale_z\n ) {\n throw new Error(\"Missing PLY chunk properties\");\n }\n\n // SuperSplat chunks are used to quantize splat data, so we need to store them\n isSuperSplat = true;\n return (index: number, item: Record) => {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = item as Record;\n ssChunks.push({\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n });\n };\n }\n\n function decodeSuperSplat(element: PlyElement) {\n // Decode SuperSplat compressed data in vertex and sh elements\n if (shCallback && element.name === \"sh\") {\n numSh = getNumSh(element.properties);\n prepareSh();\n return ssShCallback;\n }\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n element.properties;\n if (\n !packed_position ||\n !packed_rotation ||\n !packed_scale ||\n !packed_color\n ) {\n throw new Error(\n \"Missing PLY properties: packed_position, packed_rotation, packed_scale, packed_color\",\n );\n }\n\n const SQRT2 = Math.sqrt(2);\n\n return (index: number, item: Record) => {\n // SuperSplat data are quantized within chunks with 256 Gsplats each\n const chunk = ssChunks[index >>> 8];\n if (chunk == null) {\n throw new Error(\"Missing PLY chunk\");\n }\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = chunk;\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n item as Record;\n\n const x =\n (((packed_position >>> 21) & 2047) / 2047) * (max_x - min_x) + min_x;\n const y =\n (((packed_position >>> 11) & 1023) / 1023) * (max_y - min_y) + min_y;\n const z = ((packed_position & 2047) / 2047) * (max_z - min_z) + min_z;\n\n const r0 = (((packed_rotation >>> 20) & 1023) / 1023 - 0.5) * SQRT2;\n const r1 = (((packed_rotation >>> 10) & 1023) / 1023 - 0.5) * SQRT2;\n const r2 = ((packed_rotation & 1023) / 1023 - 0.5) * SQRT2;\n const rr = Math.sqrt(Math.max(0, 1.0 - r0 * r0 - r1 * r1 - r2 * r2));\n\n const rOrder = packed_rotation >>> 30;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n\n const scaleX = Math.exp(\n (((packed_scale >>> 21) & 2047) / 2047) *\n (max_scale_x - min_scale_x) +\n min_scale_x,\n );\n const scaleY = Math.exp(\n (((packed_scale >>> 11) & 1023) / 1023) *\n (max_scale_y - min_scale_y) +\n min_scale_y,\n );\n const scaleZ = Math.exp(\n ((packed_scale & 2047) / 2047) * (max_scale_z - min_scale_z) +\n min_scale_z,\n );\n\n const r =\n (((packed_color >>> 24) & 255) / 255) *\n ((max_r ?? 1) - (min_r ?? 0)) +\n (min_r ?? 0);\n const g =\n (((packed_color >>> 16) & 255) / 255) *\n ((max_g ?? 1) - (min_g ?? 0)) +\n (min_g ?? 0);\n const b =\n (((packed_color >>> 8) & 255) / 255) * ((max_b ?? 1) - (min_b ?? 0)) +\n (min_b ?? 0);\n const opacity = (packed_color & 255) / 255;\n\n splatCallback(\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n };\n }\n\n const elementCallback = (element: PlyElement) => {\n if (element.name === \"chunk\") {\n // \"chunk\" could conceivably be used for other formats, and we would\n // ideally check for the comment: Generated by SuperSplat 2.*\n // but gsplat also outputs this format without such a comment.\n // In order to support both, let's assume a \"chunk\" element should\n // be interpreted as this format.\n return initSuperSplat(element);\n }\n if (isSuperSplat) {\n return decodeSuperSplat(element);\n }\n\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const {\n x,\n y,\n z,\n scale_0,\n scale_1,\n scale_2,\n rot_0,\n rot_1,\n rot_2,\n rot_3,\n opacity,\n f_dc_0,\n f_dc_1,\n f_dc_2,\n red,\n green,\n blue,\n alpha,\n } = element.properties;\n\n if (!x || !y || !z) {\n throw new Error(\"Missing PLY properties: x, y, z\");\n }\n // Pure point cloud PLY files have no scales or rotations\n const hasScales = scale_0 && scale_1 && scale_2;\n const hasRots = rot_0 && rot_1 && rot_2 && rot_3;\n // Quantization scale factor for argb values\n const alphaDiv = alpha != null ? FIELD_SCALE[alpha.type] : 1;\n const redDiv = red != null ? FIELD_SCALE[red.type] : 1;\n const greenDiv = green != null ? FIELD_SCALE[green.type] : 1;\n const blueDiv = blue != null ? FIELD_SCALE[blue.type] : 1;\n\n numSh = getNumSh(element.properties);\n prepareSh();\n\n return (index: number, item: Record) => {\n const scaleX = hasScales\n ? Math.exp(item.scale_0 as number)\n : PlyReader.defaultPointScale;\n const scaleY = hasScales\n ? Math.exp(item.scale_1 as number)\n : PlyReader.defaultPointScale;\n const scaleZ = hasScales\n ? Math.exp(item.scale_2 as number)\n : PlyReader.defaultPointScale;\n\n const quatX = hasRots ? (item.rot_1 as number) : 0;\n const quatY = hasRots ? (item.rot_2 as number) : 0;\n const quatZ = hasRots ? (item.rot_3 as number) : 0;\n const quatW = hasRots ? (item.rot_0 as number) : 1;\n\n const op =\n opacity != null\n ? 1.0 / (1.0 + Math.exp(-item.opacity as number))\n : alpha != null\n ? (item.alpha as number) / alphaDiv\n : 1.0;\n const r =\n f_dc_0 != null\n ? (item.f_dc_0 as number) * SH_C0 + 0.5\n : red != null\n ? (item.red as number) / redDiv\n : 1.0;\n const g =\n f_dc_1 != null\n ? (item.f_dc_1 as number) * SH_C0 + 0.5\n : green != null\n ? (item.green as number) / greenDiv\n : 1.0;\n const b =\n f_dc_2 != null\n ? (item.f_dc_2 as number) * SH_C0 + 0.5\n : blue != null\n ? (item.blue as number) / blueDiv\n : 1.0;\n\n splatCallback(\n index,\n item.x as number,\n item.y as number,\n item.z as number,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n op,\n r,\n g,\n b,\n );\n\n if (shCallback && sh1) {\n const sh = item.f_rest as number[];\n if (sh1) {\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = sh[sh1Props[i]];\n }\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = sh[sh2Props[i]];\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = sh[sh3Props[i]];\n }\n }\n shCallback(index, sh1, sh2, sh3);\n }\n };\n };\n\n this.parseData(elementCallback);\n }\n\n // Inject RGBA values into original PLY file, which can be used to modify\n // the color/opacity of the Gsplats and write out the modified PLY file.\n injectRgba(rgba: Uint8Array) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No parsed data\");\n }\n if (rgba.length !== this.numSplats * 4) {\n throw new Error(\"Invalid RGBA array length\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const parsers = [];\n\n let rgbaOffset = 0;\n const isVertex = elementName === \"vertex\";\n if (isVertex) {\n for (const name of [\"opacity\", \"f_dc_0\", \"f_dc_1\", \"f_dc_2\"]) {\n if (!properties[name] || properties[name].type !== \"float\") {\n throw new Error(`Can't injectRgba due to property: ${name}`);\n }\n }\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!property.isList) {\n if (isVertex) {\n if (\n propertyName === \"f_dc_0\" ||\n propertyName === \"f_dc_1\" ||\n propertyName === \"f_dc_2\"\n ) {\n const component = Number.parseInt(\n propertyName.slice(\"f_dc_\".length),\n );\n parsers.push(() => {\n // Inject DC coefficients\n const value =\n (rgba[rgbaOffset + component] / 255 - 0.5) / SH_C0;\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n } else if (propertyName === \"opacity\") {\n parsers.push(() => {\n // Inject opacity sigmoid, clamped to [-100, 100]\n const value = Math.max(\n -100,\n Math.min(\n 100,\n -Math.log(1.0 / (rgba[rgbaOffset + 3] / 255) - 1.0),\n ),\n );\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n }\n }\n parsers.push(() => {\n offset += FIELD_BYTES[property.type];\n });\n } else {\n parsers.push(() => {\n const length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n this.littleEndian,\n );\n offset += FIELD_BYTES[property.countType as PlyPropertyType];\n offset += length * FIELD_BYTES[property.type];\n });\n }\n }\n\n for (let index = 0; index < count; index++) {\n // Go through all the data and field parsers to compute offset\n for (const parser of parsers) {\n parser();\n }\n if (isVertex) {\n rgbaOffset += 4;\n }\n }\n }\n }\n}\n\nexport const SH_C0 = 0.28209479177387814;\n\ntype FieldParser = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n) => number;\ntype FieldSetter = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n) => void;\n\nconst PARSE_FIELD: Record = {\n char: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt8(offset);\n },\n uchar: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint8(offset);\n },\n short: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt16(offset, littleEndian);\n },\n ushort: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint16(offset, littleEndian);\n },\n int: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt32(offset, littleEndian);\n },\n uint: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint32(offset, littleEndian);\n },\n float: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat32(offset, littleEndian);\n },\n double: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat64(offset, littleEndian);\n },\n};\n\nconst SET_FIELD: Record = {\n char: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt8(offset, value);\n },\n uchar: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint8(offset, value);\n },\n short: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt16(offset, value, littleEndian);\n },\n ushort: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint16(offset, value, littleEndian);\n },\n int: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt32(offset, value, littleEndian);\n },\n uint: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint32(offset, value, littleEndian);\n },\n float: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat32(offset, value, littleEndian);\n },\n double: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat64(offset, value, littleEndian);\n },\n};\n\nconst FIELD_BYTES: Record = {\n char: 1,\n uchar: 1,\n short: 2,\n ushort: 2,\n int: 4,\n uint: 4,\n float: 4,\n double: 8,\n};\n\nconst FIELD_SCALE: Record = {\n char: 127,\n uchar: 255,\n short: 32767,\n ushort: 65535,\n int: 2147483647,\n uint: 4294967295,\n float: 1,\n double: 1,\n};\n\nconst NUM_F_REST_TO_NUM_SH: Record = {\n 0: 0,\n 9: 1,\n 24: 2,\n 45: 3,\n};\nconst NUM_SH_TO_NUM_F_REST: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nconst F_REST_REGEX = /^f_rest_([0-9]{1,2})$/;\n\nfunction createEmptyItem(\n properties: Record,\n): Record {\n const item: Record = {};\n for (const [propertyName, property] of Object.entries(properties)) {\n // Treat f_rest properties as a single array for performance\n if (F_REST_REGEX.test(propertyName)) {\n item.f_rest = new Array(getNumSh(properties));\n } else {\n item[propertyName] = property.isList ? [] : 0;\n }\n }\n return item;\n}\n\nfunction createParseFn(\n properties: Record,\n littleEndian: boolean,\n) {\n if (USE_COMPILED_PARSER_FUNCTION && safeToCompile(properties)) {\n return createCompiledParserFn(properties, littleEndian);\n }\n return createDynamicParserFn(properties, littleEndian);\n}\n\n// Detect if unsafe eval is allowed in the current execution context\nconst UNSAFE_EVAL_ALLOWED = (() => {\n try {\n new Function(\"return 42;\");\n } catch (e) {\n return false;\n }\n return true;\n})();\nconst PROPERTY_NAME_REGEX = /^[a-zA-Z0-9_]+$/;\n\nfunction safeToCompile(properties: Record) {\n if (!UNSAFE_EVAL_ALLOWED) {\n return false;\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!PROPERTY_NAME_REGEX.test(propertyName)) {\n return false;\n }\n\n if (\n property.isList &&\n !PLY_PROPERTY_TYPES.includes(property.countType as PlyPropertyType)\n ) {\n return false;\n }\n\n if (!PLY_PROPERTY_TYPES.includes(property.type)) {\n return false;\n }\n }\n return true;\n}\n\nfunction createCompiledParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct the parser function source.\n const parserSrc: string[] = [\"let list;\"];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parserSrc.push(/*js*/ `\n item.f_rest[${fRestIndex}] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else if (!property.isList) {\n parserSrc.push(/*js*/ `\n item['${propertyName}'] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else {\n // Property is a list, so parse the count first\n parserSrc.push(/*js*/ `\n list = item['${propertyName}'];\n list.length = PARSE_FIELD['${property.countType}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.countType as PlyPropertyType]};\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n }\n `);\n }\n }\n parserSrc.push(\"return offset;\");\n\n const fn = new Function(\n \"data\",\n \"offset\",\n \"item\",\n \"PARSE_FIELD\",\n parserSrc.join(\"\\n\"),\n );\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => fn(data, offset, item, PARSE_FIELD);\n}\n\nfunction createDynamicParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct an array of parser function to parse each property in an item\n const parsers: Array<\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => number\n > = [];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n (item.f_rest as number[])[fRestIndex] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else if (!property.isList) {\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n item[propertyName] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else {\n // Property is a list, so parse the count first\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n const list = item[propertyName] as number[];\n list.length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n littleEndian,\n );\n let currentOffset =\n offset + FIELD_BYTES[property.countType as PlyPropertyType];\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD[property.type](\n data,\n currentOffset,\n littleEndian,\n );\n currentOffset += FIELD_BYTES[property.type];\n }\n return currentOffset;\n },\n );\n }\n }\n\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n let currentOffset = offset;\n for (let parserIndex = 0; parserIndex < parsers.length; parserIndex++) {\n currentOffset = parsers[parserIndex](data, currentOffset, item);\n }\n return currentOffset;\n };\n}\n\nfunction getNumSh(properties: Record) {\n let num_f_rest = 0;\n while (properties[`f_rest_${num_f_rest}`]) {\n num_f_rest += 1;\n }\n const numSh = NUM_F_REST_TO_NUM_SH[num_f_rest];\n if (numSh == null) {\n throw new Error(`Unsupported number of SH coefficients: ${num_f_rest}`);\n }\n return numSh;\n}\n\ntype SSChunk = {\n min_x: number;\n min_y: number;\n min_z: number;\n max_x: number;\n max_y: number;\n max_z: number;\n min_scale_x: number;\n min_scale_y: number;\n min_scale_z: number;\n max_scale_x: number;\n max_scale_y: number;\n max_scale_z: number;\n min_r?: number;\n min_g?: number;\n min_b?: number;\n max_r?: number;\n max_g?: number;\n max_b?: number;\n};\n","import { unzipSync } from \"fflate\";\nimport { FileLoader, Loader, type LoadingManager } from \"three\";\nimport { ExtSplats, type ExtSplatsOptions } from \"./ExtSplats\";\nimport { withWorker } from \"./OldSplatWorker\";\nimport { PackedSplats, type PackedSplatsOptions } from \"./PackedSplats\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport { type SplatEncoding, SplatFileType } from \"./defines\";\nimport { PlyReader } from \"./ply\";\nimport { decompressPartialGzip, getTextureSize } from \"./utils\";\n\n// SplatLoader implements the THREE.Loader interface and supports loading a variety\n// of different Gsplat file formats. Formats .PLY and .SPZ can be auto-detected\n// from the file contents, while .SPLAT and .KSPLAT require either having the\n// appropriate file extension as part of the path, or it can be explicitly set\n// in the loader using the fileType property.\n\nexport class SplatLoader extends Loader {\n fileLoader: FileLoader;\n\n constructor(manager?: LoadingManager) {\n super(manager);\n this.fileLoader = new FileLoader(manager);\n }\n\n load(\n url: string,\n onLoad?: (decoded: PackedSplats | ExtSplats) => void,\n onProgress?: (event: ProgressEvent) => void,\n onError?: (error: unknown) => void,\n ) {\n return this.loadInternal({\n url,\n onLoad,\n onProgress,\n onError,\n });\n }\n\n async loadAsync(\n url: string,\n onProgress?: (event: ProgressEvent) => void,\n ): Promise {\n return new Promise((resolve, reject) => {\n this.load(\n url,\n (decoded) => {\n resolve(decoded);\n },\n onProgress,\n reject,\n );\n });\n }\n\n parse(packedSplats: PackedSplats): SplatMesh {\n return new SplatMesh({ packedSplats });\n }\n\n loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad,\n onProgress,\n onError,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onLoad?: (decoded: PackedSplats | ExtSplats) => void;\n onProgress?: (event: ProgressEvent) => void;\n onError?: (error: unknown) => void;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n if (fileBytes instanceof ArrayBuffer) {\n fileBytes = new Uint8Array(fileBytes);\n }\n const resolvedURL = fileBytes\n ? undefined\n : this.manager.resolveURL((this.path ?? \"\") + (url ?? \"\"));\n\n let readStream = stream?.getReader();\n\n this.manager.itemStart(resolvedURL ?? \"\");\n // let calledOnLoad = false;\n\n workerPool\n .withWorker(async (worker) => {\n // If LoD is set and not falsey\n const splatsLod = packedSplats?.lod ?? extSplats?.lod;\n if (splatsLod) {\n lod = splatsLod;\n }\n const splatsNonLod = packedSplats?.nonLod ?? extSplats?.nonLod;\n if (splatsNonLod !== undefined) {\n nonLod = splatsNonLod;\n }\n\n // let init: {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // } | null = null;\n // let initExt: {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // } | null = null;\n\n const onStatus = async (data: unknown) => {\n const { loaded, total } = data as { loaded: number; total: number };\n if (loaded !== undefined && onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n\n if ((data as { nextChunk?: boolean }).nextChunk) {\n let chunk: Uint8Array;\n if (!readStream) {\n chunk = new Uint8Array(0);\n } else {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n readStream = undefined;\n chunk = new Uint8Array(0);\n } else {\n chunk = value;\n }\n }\n worker.call(\"nextChunk\", { chunk });\n }\n\n // if ((data as { orig?: unknown }).orig) {\n // if (extSplats) {\n // initExt = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // };\n // extSplats.initialize({\n // numSplats: initExt?.numSplats,\n // extArrays: [initExt?.ext0, initExt?.ext1],\n // extra: initExt?.extra,\n // });\n // calledOnLoad = true;\n // onLoad?.(extSplats);\n // } else if (packedSplats) {\n // init = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // };\n // packedSplats.initialize({\n // numSplats: init?.numSplats,\n // packedArray: init?.packedArray,\n // extra: init?.extra,\n // splatEncoding: init?.splatEncoding,\n // });\n // calledOnLoad = true;\n // onLoad?.(packedSplats);\n // } else {\n // console.warn(\"No splats to initialize\");\n // }\n // }\n };\n\n const basedUrl = resolvedURL\n ? new URL(resolvedURL, window.location.href).toString()\n : undefined;\n const decoded = (await worker.call(\n extSplats ? \"loadExtSplats\" : \"loadPackedSplats\",\n {\n url: basedUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n fileBytes: fileBytes?.slice(),\n fileType,\n pathName: resolvedURL || fileName,\n chunked: stream !== undefined,\n chunkedLength: streamLength,\n encoding: packedSplats?.splatEncoding,\n lod,\n lodBase,\n nonLod,\n lodAbove,\n },\n { onStatus },\n )) as {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n lodSplats?:\n | {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n }\n | PackedSplats\n | ExtSplats;\n };\n\n if (decoded.lodSplats) {\n if (extSplats) {\n decoded.lodSplats = new ExtSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record;\n }),\n });\n } else {\n decoded.lodSplats = new PackedSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n packedArray: Uint32Array;\n extra: Record;\n splatEncoding: SplatEncoding;\n }),\n maxSplats: packedSplats?.maxSplats,\n });\n }\n }\n\n if (extSplats) {\n const initExtSplats = {\n // ...(initExt ?? {}),\n ...decoded,\n };\n extSplats.initialize(initExtSplats as ExtSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(extSplats);\n // }\n } else {\n const initSplats = {\n // ...(init ?? {}),\n ...decoded,\n };\n if (packedSplats) {\n packedSplats.initialize(initSplats as PackedSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(packedSplats);\n // }\n } else {\n // if (!calledOnLoad) {\n onLoad?.(new PackedSplats(initSplats as PackedSplatsOptions));\n // }\n }\n }\n })\n .catch((error) => {\n this.manager.itemError(resolvedURL ?? \"\");\n onError?.(error);\n })\n .finally(() => {\n this.manager.itemEnd(resolvedURL ?? \"\");\n });\n }\n\n async loadInternalAsync({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onProgress?: (event: ProgressEvent) => void;\n lod?: boolean;\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n return new Promise((resolve, reject) => {\n this.loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad: resolve,\n onProgress,\n onError: reject,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n });\n });\n }\n}\n\nasync function fetchWithProgress(\n request: Request,\n onProgress?: (event: ProgressEvent) => void,\n) {\n const response = await fetch(request);\n if (!response.ok) {\n throw new Error(\n `${response.status} \"${response.statusText}\" fetching URL: ${request.url}`,\n );\n }\n if (!response.body) {\n throw new Error(`Response body is null for URL: ${request.url}`);\n }\n\n const reader = response.body.getReader();\n let loaded = 0;\n const chunks: Uint8Array[] = [];\n try {\n const contentLength = Number.parseInt(\n response.headers.get(\"Content-Length\") || \"0\",\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n\n while (true) {\n const { done, value } = await reader.read();\n if (done) {\n break;\n }\n chunks.push(value);\n loaded += value.length;\n\n if (onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n }\n } catch (err) {\n try {\n const reason = err instanceof Error ? err.message : \"Unknown error\";\n await reader.cancel(reason);\n } catch {}\n throw err;\n }\n\n // Combine chunks into a single buffer\n const bytes = new Uint8Array(loaded);\n let offset = 0;\n for (const chunk of chunks) {\n bytes.set(chunk, offset);\n offset += chunk.length;\n }\n return bytes.buffer;\n}\n\nexport function getSplatFileType(\n fileBytes: Uint8Array,\n): SplatFileType | undefined {\n const view = new DataView(fileBytes.buffer);\n const magic = view.getUint32(0, true);\n if ((magic & 0x00ffffff) === 0x00796c70) {\n return SplatFileType.PLY;\n }\n if ((magic & 0x00ffffff) === 0x00088b1f) {\n // Gzipped file, unpack beginning to check magic number\n const header = decompressPartialGzip(fileBytes, 4);\n const gView = new DataView(header.buffer);\n if (gView.getUint32(0, true) === 0x5053474e) {\n return SplatFileType.SPZ;\n }\n // Unknown Gzipped file type\n return undefined;\n }\n if (magic === 0x04034b50) {\n // PKZip file\n if (tryPcSogsZip(fileBytes)) {\n return SplatFileType.PCSOGSZIP;\n }\n // Unknown PKZip file type\n return undefined;\n }\n if (magic === 0x30444152) {\n return SplatFileType.RAD;\n }\n // Unknown file type\n return undefined;\n}\n\n// Returns the lowercased file extension from a path or URL\nexport function getFileExtension(pathOrUrl: string): string {\n const noTrailing = pathOrUrl.split(/[?#]/, 1)[0];\n const lastSlash = Math.max(\n noTrailing.lastIndexOf(\"/\"),\n noTrailing.lastIndexOf(\"\\\\\"),\n );\n const filename = noTrailing.slice(lastSlash + 1);\n const lastDot = filename.lastIndexOf(\".\");\n if (lastDot <= 0 || lastDot === filename.length - 1) {\n return \"\"; // No extension\n }\n return filename.slice(lastDot + 1).toLowerCase();\n}\n\nexport function getSplatFileTypeFromPath(\n pathOrUrl: string,\n): SplatFileType | undefined {\n const extension = getFileExtension(pathOrUrl);\n if (extension === \"ply\") {\n return SplatFileType.PLY;\n }\n if (extension === \"spz\") {\n return SplatFileType.SPZ;\n }\n if (extension === \"splat\") {\n return SplatFileType.SPLAT;\n }\n if (extension === \"ksplat\") {\n return SplatFileType.KSPLAT;\n }\n if (extension === \"sog\") {\n return SplatFileType.PCSOGSZIP;\n }\n if (extension === \"rad\") {\n return SplatFileType.RAD;\n }\n return undefined;\n}\n\nexport type PcSogsJson = {\n means: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n quats: { shape: number[]; dtype: string; encoding?: string; files: string[] };\n sh0: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n shN?: {\n shape: number[];\n dtype: string;\n mins: number;\n maxs: number;\n quantization: number;\n files: string[];\n };\n};\n\nexport type PcSogsV2Json = {\n version: 2;\n count: number;\n antialias?: boolean;\n means: {\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n codebook: number[];\n files: string[];\n };\n quats: { files: string[] };\n sh0: {\n codebook: number[];\n files: string[];\n };\n shN?: {\n count: number;\n bands: number;\n codebook: number[];\n files: string[];\n };\n};\n\nexport function isPcSogs(input: ArrayBuffer | Uint8Array | string): boolean {\n // Returns true if the input seems to be a valid PC SOGS file\n return tryPcSogs(input) !== undefined;\n}\n\nexport function tryPcSogs(\n input: ArrayBuffer | Uint8Array | string,\n): PcSogsJson | PcSogsV2Json | undefined {\n // Try to parse input as SOGS JSON and see if it's valid\n try {\n let text: string;\n if (typeof input === \"string\") {\n text = input;\n } else {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n if (fileBytes.length > 65536) {\n // Should be only a few KB, definitely not a SOGS JSON file\n return undefined;\n }\n text = new TextDecoder().decode(fileBytes);\n }\n\n const json = JSON.parse(text);\n if (!json || typeof json !== \"object\" || Array.isArray(json)) {\n return undefined;\n }\n const isVersion2 = json.version === 2;\n\n for (const key of [\"means\", \"scales\", \"quats\", \"sh0\"]) {\n if (\n !json[key] ||\n typeof json[key] !== \"object\" ||\n Array.isArray(json[key])\n ) {\n return undefined;\n }\n if (isVersion2) {\n // Expect files\n if (!json[key].files) {\n return undefined;\n }\n\n // Scales and sh0 should have codebooks\n if ((key === \"scales\" || key === \"sh0\") && !json[key].codebook) {\n return undefined;\n }\n // Means should have mins and maxs defined\n if (key === \"means\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n } else {\n // Expect shape and files\n if (!json[key].shape || !json[key].files) {\n return undefined;\n }\n // Besides 'quats' all other properties have mins and maxs\n if (key !== \"quats\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n }\n }\n // This is probably a PC SOGS file\n return json as PcSogsJson | PcSogsV2Json;\n } catch {\n return undefined;\n }\n}\n\nexport function tryPcSogsZip(\n input: ArrayBuffer | Uint8Array,\n): { name: string; json: PcSogsJson | PcSogsV2Json } | undefined {\n try {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let metaFilename: string | null = null;\n\n const unzipped = unzipSync(fileBytes, {\n filter: ({ name }) => {\n const filename = name.split(/[\\\\/]/).pop() as string;\n if (filename === \"meta.json\") {\n metaFilename = name;\n return true;\n }\n return false;\n },\n });\n if (!metaFilename) {\n return undefined;\n }\n\n // Check for PC SOGS V1 and V2 (aka SOG)\n const json = tryPcSogs(unzipped[metaFilename]);\n if (!json) {\n return undefined;\n }\n return { name: metaFilename, json };\n } catch {\n return undefined;\n }\n}\n\nexport async function unpackSplats({\n input,\n extraFiles,\n fileType,\n pathOrUrl,\n splatEncoding,\n}: {\n input: Uint8Array | ArrayBuffer;\n extraFiles?: Record;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n splatEncoding?: SplatEncoding;\n}): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra?: Record;\n}> {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let splatFileType = fileType;\n if (!fileType) {\n splatFileType = getSplatFileType(fileBytes);\n if (!splatFileType && pathOrUrl) {\n splatFileType = getSplatFileTypeFromPath(pathOrUrl);\n }\n }\n\n switch (splatFileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n const maxSplats = getTextureSize(numSplats).maxSplats;\n const args = {\n fileBytes,\n packedArray: new Uint32Array(maxSplats * 4),\n splatEncoding,\n };\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"unpackPly\",\n args,\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPZ: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeSpz\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats } = (await worker.call(\n \"decodeAntiSplat\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as { packedArray: Uint32Array; numSplats: number };\n return { packedArray, numSplats };\n });\n }\n case SplatFileType.KSPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeKsplat\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGS: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogs\",\n { fileBytes, extraFiles, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGSZIP: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogsZip\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n default: {\n throw new Error(`Unknown splat file type: ${splatFileType}`);\n }\n }\n}\n\nexport class SplatData {\n numSplats: number;\n maxSplats: number;\n centers: Float32Array;\n scales: Float32Array;\n quaternions: Float32Array;\n opacities: Float32Array;\n colors: Float32Array;\n sh1?: Float32Array;\n sh2?: Float32Array;\n sh3?: Float32Array;\n\n constructor({ maxSplats = 1 }: { maxSplats?: number } = {}) {\n this.numSplats = 0;\n this.maxSplats = getTextureSize(maxSplats).maxSplats;\n this.centers = new Float32Array(this.maxSplats * 3);\n this.scales = new Float32Array(this.maxSplats * 3);\n this.quaternions = new Float32Array(this.maxSplats * 4);\n this.opacities = new Float32Array(this.maxSplats);\n this.colors = new Float32Array(this.maxSplats * 3);\n }\n\n pushSplat(): number {\n const index = this.numSplats;\n this.ensureIndex(index);\n this.numSplats += 1;\n return index;\n }\n\n unpushSplat(index: number) {\n if (index === this.numSplats - 1) {\n this.numSplats -= 1;\n } else {\n throw new Error(\"Cannot unpush splat from non-last position\");\n }\n }\n\n ensureCapacity(numSplats: number) {\n if (numSplats > this.maxSplats) {\n const targetSplats = Math.max(numSplats, this.maxSplats * 2);\n const newCenters = new Float32Array(targetSplats * 3);\n const newScales = new Float32Array(targetSplats * 3);\n const newQuaternions = new Float32Array(targetSplats * 4);\n const newOpacities = new Float32Array(targetSplats);\n const newColors = new Float32Array(targetSplats * 3);\n newCenters.set(this.centers);\n newScales.set(this.scales);\n newQuaternions.set(this.quaternions);\n newOpacities.set(this.opacities);\n newColors.set(this.colors);\n this.centers = newCenters;\n this.scales = newScales;\n this.quaternions = newQuaternions;\n this.opacities = newOpacities;\n this.colors = newColors;\n\n if (this.sh1) {\n const newSh1 = new Float32Array(targetSplats * 9);\n newSh1.set(this.sh1);\n this.sh1 = newSh1;\n }\n if (this.sh2) {\n const newSh2 = new Float32Array(targetSplats * 15);\n newSh2.set(this.sh2);\n this.sh2 = newSh2;\n }\n if (this.sh3) {\n const newSh3 = new Float32Array(targetSplats * 21);\n newSh3.set(this.sh3);\n this.sh3 = newSh3;\n }\n\n this.maxSplats = targetSplats;\n }\n }\n\n ensureIndex(index: number) {\n this.ensureCapacity(index + 1);\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n this.centers[index * 3] = x;\n this.centers[index * 3 + 1] = y;\n this.centers[index * 3 + 2] = z;\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n this.scales[index * 3] = scaleX;\n this.scales[index * 3 + 1] = scaleY;\n this.scales[index * 3 + 2] = scaleZ;\n }\n\n setQuaternion(index: number, x: number, y: number, z: number, w: number) {\n this.quaternions[index * 4] = x;\n this.quaternions[index * 4 + 1] = y;\n this.quaternions[index * 4 + 2] = z;\n this.quaternions[index * 4 + 3] = w;\n }\n\n setOpacity(index: number, opacity: number) {\n this.opacities[index] = opacity;\n }\n\n setColor(index: number, r: number, g: number, b: number) {\n this.colors[index * 3] = r;\n this.colors[index * 3 + 1] = g;\n this.colors[index * 3 + 2] = b;\n }\n\n setSh1(index: number, sh1: Float32Array) {\n if (!this.sh1) {\n this.sh1 = new Float32Array(this.maxSplats * 9);\n }\n for (let j = 0; j < 9; ++j) {\n this.sh1[index * 9 + j] = sh1[j];\n }\n }\n\n setSh2(index: number, sh2: Float32Array) {\n if (!this.sh2) {\n this.sh2 = new Float32Array(this.maxSplats * 15);\n }\n for (let j = 0; j < 15; ++j) {\n this.sh2[index * 15 + j] = sh2[j];\n }\n }\n\n setSh3(index: number, sh3: Float32Array) {\n if (!this.sh3) {\n this.sh3 = new Float32Array(this.maxSplats * 21);\n }\n for (let j = 0; j < 21; ++j) {\n this.sh3[index * 21 + j] = sh3[j];\n }\n }\n}\n\nexport async function transcodeSpz(\n input: TranscodeSpzInput,\n): Promise<{ input: TranscodeSpzInput; fileBytes: Uint8Array }> {\n return await withWorker(async (worker) => {\n const result = (await worker.call(\"transcodeSpz\", input)) as {\n input: TranscodeSpzInput;\n fileBytes: Uint8Array;\n };\n return result;\n });\n}\n\nexport type FileInput = {\n fileBytes: Uint8Array;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n transform?: { translate?: number[]; quaternion?: number[]; scale?: number };\n};\n\nexport type TranscodeSpzInput = {\n inputs: FileInput[];\n maxSh?: number;\n clipXyz?: { min: number[]; max: number[] };\n fractionalBits?: number;\n opacityThreshold?: number;\n};\n","import * as THREE from \"three\";\nimport { FullScreenQuad } from \"three/addons/postprocessing/Pass.js\";\n\nimport type { RgbaArray } from \"./RgbaArray\";\nimport type { GsplatGenerator } from \"./SplatGenerator\";\nimport { SplatLoader } from \"./SplatLoader\";\nimport type { SplatSource } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_WIDTH,\n type SplatEncoding,\n type SplatFileType,\n} from \"./defines\";\nimport {\n Dyno,\n DynoInt,\n DynoProgram,\n DynoProgramTemplate,\n type DynoType,\n DynoUniform,\n DynoUsampler2DArray,\n type DynoVal,\n DynoVec3,\n DynoVec4,\n add,\n dynoBlock,\n normalize,\n outputPackedSplat,\n sub,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport {\n type Gsplat,\n TPackedSplats,\n combineGsplat,\n definePackedSplats,\n readPackedSplat,\n splatTexCoord,\n splitGsplat,\n} from \"./dyno/splats\";\nimport { getShaders } from \"./shaders\";\nimport { getTextureSize, setPackedSplat, unpackSplat } from \"./utils\";\n\n// Initialize a PackedSplats collection from source data via\n// url, fileBytes, or packedArray. Creates an empty array if none are set,\n// and splat data can be constructed using pushSplat()/setSplat(). The maximum\n// splat size allocation will grow automatically, starting from maxSplats.\nexport type PackedSplatsOptions = {\n // URL to fetch a Gaussian splat file from (supports .ply, .splat, .ksplat,\n // .spz formats). (default: undefined)\n url?: string;\n // Raw bytes of a Gaussian splat file to decode directly instead of fetching\n // from URL. (default: undefined)\n fileBytes?: Uint8Array | ArrayBuffer;\n // Override the file type detection for formats that can't be reliably\n // auto-detected (.splat, .ksplat). (default: undefined auto-detects other\n // formats from file contents)\n fileType?: SplatFileType;\n // File name to use for type detection. (default: undefined)\n fileName?: string;\n // Stream to read the Gaussian splat file from. (default: undefined)\n stream?: ReadableStream;\n // Length of the stream in bytes. (default: undefined)\n streamLength?: number;\n // Reserve space for at least this many splats when constructing the collection\n // initially. The array will automatically resize past maxSplats so setting it is\n // an optional optimization. (default: 0)\n maxSplats?: number;\n // Use provided packed data array, where each 4 consecutive uint32 values\n // encode one \"packed\" Gsplat. (default: undefined)\n packedArray?: Uint32Array;\n // Override number of splats in packed array to use only a subset.\n // (default: length of packed array / 4)\n numSplats?: number;\n // Callback function to programmatically create splats at initialization.\n // (default: undefined)\n construct?: (splats: PackedSplats) => Promise | void;\n // Callback function called while downloading and initializing (default: undefined)\n onProgress?: (event: ProgressEvent) => void;\n // Additional splat data, such as spherical harmonics components (sh1, sh2, sh3). (default: {})\n extra?: Record;\n // Override the default splat encoding ranges for the PackedSplats.\n // (default: undefined)\n splatEncoding?: SplatEncoding;\n // Enable LOD. If a number is provided, it will be used as LoD level base,\n // otherwise the default 1.5 is used. When loading a file without pre-computed\n // LoD it will use the \"quick lod\" algorithm to generate one on-the-fly with\n // the selected LoD level base. (default: undefined=false)\n lod?: boolean | \"quality\";\n // Keep the original PackedSplats data before creating LoD version. (default: false)\n nonLod?: boolean;\n // Only create LoD if the input splat acount is above this\n lodAbove?: number;\n // The LoD version of the PackedSplats\n lodSplats?: PackedSplats;\n};\n\n// A PackedSplats is a collection of Gaussian splats, packed into a format that\n// takes exactly 16 bytes per Gsplat to maximize memory and cache efficiency.\n// The center xyz coordinates are encoded as float16 (3 x 2 bytes), scale xyz\n// as 3 x uint8 that encode a log scale from e^-12 to e^9, rgba as 4 x uint8,\n// and quaternion encoded via axis+angle using 2 x uint8 for octahedral encoding\n// of the axis direction and a uint8 to encode rotation amount from 0..Pi.\n\nexport class PackedSplats implements SplatSource {\n maxSplats = 0;\n numSplats = 0;\n packedArray: Uint32Array | null = null;\n extra: Record;\n maxSh = 3;\n splatEncoding?: SplatEncoding;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodSplats?: PackedSplats;\n\n initialized: Promise;\n isInitialized = false;\n\n // Either target or source will be non-null, depending on whether the PackedSplats\n // is being used as a data source or generated to.\n target: THREE.WebGLArrayRenderTarget | null = null;\n source: THREE.DataArrayTexture | null = null;\n // Set to true if source packedArray is updated to have it upload to GPU\n needsUpdate = true;\n\n // A PackedSplats can be used in a dyno graph using the below property dyno:\n // const gsplat = dyno.readPackedSplats(this.dyno, dynoIndex);\n dyno: DynoUniform;\n dynoRgbMinMaxLnScaleMinMax: DynoUniform<\"vec4\", \"rgbMinMaxLnScaleMinMax\">;\n dynoNumSh: DynoInt<\"numSh\">;\n dynoShMax: DynoVec3;\n\n constructor(options: PackedSplatsOptions = {}) {\n this.extra = {};\n this.dyno = new DynoPackedSplats({ packedSplats: this });\n this.dynoRgbMinMaxLnScaleMinMax = new DynoVec4({\n key: \"rgbMinMaxLnScaleMinMax\",\n value: new THREE.Vector4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX),\n update: (value) => {\n value.set(\n this.splatEncoding?.rgbMin ?? 0.0,\n this.splatEncoding?.rgbMax ?? 1.0,\n this.splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n this.splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n );\n return value;\n },\n });\n this.dynoNumSh = new DynoInt({\n key: \"numSh\",\n value: 0,\n update: () => {\n return Math.min(this.getNumSh(), this.maxSh);\n },\n });\n this.dynoShMax = new DynoVec3({\n key: \"shMax\",\n value: new THREE.Vector3(),\n update: (value) => {\n value.set(\n this.splatEncoding?.sh1Max ?? 1.0,\n this.splatEncoding?.sh2Max ?? 1.0,\n this.splatEncoding?.sh3Max ?? 1.0,\n );\n return value;\n },\n });\n\n // The following line will be overridden by reinitialize()\n this.initialized = Promise.resolve(this);\n this.reinitialize(options);\n }\n\n reinitialize(options: PackedSplatsOptions) {\n this.isInitialized = false;\n\n this.extra = {};\n this.maxSplats = options.maxSplats ?? 0;\n this.splatEncoding = options.splatEncoding;\n this.lod = options.lod;\n this.nonLod = options.nonLod;\n\n if (\n options.url ||\n options.fileBytes ||\n options.stream ||\n options.construct\n ) {\n // We need to initialize asynchronously given the options\n this.initialized = this.asyncInitialize(options).then(() => {\n this.isInitialized = true;\n return this;\n });\n } else {\n this.initialize(options);\n this.isInitialized = true;\n this.initialized = Promise.resolve(this);\n }\n }\n\n initialize(options: PackedSplatsOptions) {\n this.extra = options.extra ?? {};\n this.splatEncoding = options.splatEncoding ?? this.splatEncoding;\n this.lodSplats = options.lodSplats;\n\n if (options.packedArray) {\n this.packedArray = options.packedArray;\n this.numSplats = options.numSplats ?? this.packedArray.length / 4;\n\n // Calculate number of horizontal texture rows that could fit in array.\n // A properly initialized packedArray should already take into account the\n // width and height of the texture and be rounded up with padding.\n this.maxSplats = Math.floor(this.packedArray.length / 4);\n this.maxSplats =\n Math.floor(this.maxSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n this.numSplats = Math.min(\n this.maxSplats,\n options.numSplats ?? Number.POSITIVE_INFINITY,\n );\n } else {\n this.maxSplats = options.maxSplats ?? 0;\n this.numSplats = 0;\n }\n }\n\n async asyncInitialize(options: PackedSplatsOptions) {\n const {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n construct,\n lod,\n nonLod,\n lodAbove,\n } = options;\n this.lod = lod;\n this.nonLod = nonLod;\n\n const loader = new SplatLoader();\n if (fileBytes || url || stream) {\n await loader.loadInternalAsync({\n packedSplats: this,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress: options.onProgress,\n lodAbove,\n });\n }\n\n if (construct) {\n const maybePromise = construct(this);\n // If construct returns a promise, wait for it to complete\n if (maybePromise instanceof Promise) {\n await maybePromise;\n }\n }\n }\n\n // Call this when you are finished with the PackedSplats and want to free\n // any buffers it holds.\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target.texture.source.data = null;\n this.target = null;\n }\n if (this.source) {\n this.source.dispose();\n this.source.source.data = null;\n this.source = null;\n }\n\n this.packedArray = null;\n\n for (const key in this.extra) {\n const dyno = this.extra[key] as DynoUniform<\n DynoType,\n string,\n THREE.Texture\n >;\n if (dyno instanceof DynoUniform) {\n const texture = dyno.value;\n if (texture?.isTexture) {\n texture.dispose();\n texture.source.data = null;\n }\n }\n }\n this.extra = {};\n\n this.disposeLodSplats();\n }\n\n prepareFetchSplat() {\n // console.info(\"PackedSplats.prepareFetchSplat\");\n }\n\n getNumSplats(): number {\n return this.numSplats;\n }\n\n hasRgbDir(): boolean {\n return Math.min(this.getNumSh(), this.maxSh) > 0;\n }\n\n getNumSh(): number {\n return !this.extra.sh1 ? 0 : !this.extra.sh2 ? 1 : !this.extra.sh3 ? 2 : 3;\n }\n\n setMaxSh(maxSh: number) {\n this.maxSh = maxSh;\n }\n\n fetchSplat({\n index,\n viewOrigin,\n }: { index: DynoVal<\"int\">; viewOrigin?: DynoVal<\"vec3\"> }): DynoVal<\n typeof Gsplat\n > {\n let gsplat = readPackedSplat(this.dyno, index);\n\n if (this.hasRgbDir() && viewOrigin) {\n const splatCenter = splitGsplat(gsplat).outputs.center;\n const viewDir = normalize(sub(splatCenter, viewOrigin));\n const { sh1Texture, sh2Texture, sh3Texture } = this.ensureShTextures();\n let { rgb } = evaluatePackedSH({\n coord: splatTexCoord(index),\n viewDir,\n numSh: this.dynoNumSh,\n sh1Texture,\n sh2Texture,\n sh3Texture,\n shMax: this.dynoShMax,\n });\n rgb = add(rgb, splitGsplat(gsplat).outputs.rgb);\n gsplat = combineGsplat({ gsplat, rgb });\n }\n return gsplat;\n }\n\n private ensureShTextures(): {\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3Texture?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n } {\n // Ensure we have textures for SH1..SH3 if we have data\n if (!this.extra.sh1) {\n return {};\n }\n\n let sh1Texture = this.extra.sh1Texture as\n | DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>\n | undefined;\n if (!sh1Texture) {\n let sh1 = this.extra.sh1 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh1.length / 2,\n );\n if (sh1.length < maxSplats * 2) {\n const newSh1 = new Uint32Array(maxSplats * 2);\n newSh1.set(sh1);\n this.extra.sh1 = newSh1;\n sh1 = newSh1;\n }\n\n const texture = new THREE.DataArrayTexture(sh1, width, height, depth);\n texture.format = THREE.RGIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RG32UI\";\n texture.needsUpdate = true;\n\n sh1Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh1\",\n });\n this.extra.sh1Texture = sh1Texture;\n }\n\n if (!this.extra.sh2) {\n return { sh1Texture };\n }\n\n let sh2Texture = this.extra.sh2Texture as\n | DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>\n | undefined;\n if (!sh2Texture) {\n let sh2 = this.extra.sh2 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh2.length / 4,\n );\n if (sh2.length < maxSplats * 4) {\n const newSh2 = new Uint32Array(maxSplats * 4);\n newSh2.set(sh2);\n this.extra.sh2 = newSh2;\n sh2 = newSh2;\n }\n\n const texture = new THREE.DataArrayTexture(sh2, width, height, depth);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n\n sh2Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh2\",\n });\n this.extra.sh2Texture = sh2Texture;\n }\n\n if (!this.extra.sh3) {\n return { sh1Texture, sh2Texture };\n }\n\n let sh3Texture = this.extra.sh3Texture as\n | DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>\n | undefined;\n if (!sh3Texture) {\n let sh3 = this.extra.sh3 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh3.length / 4,\n );\n if (sh3.length < maxSplats * 4) {\n const newSh3 = new Uint32Array(maxSplats * 4);\n newSh3.set(sh3);\n this.extra.sh3 = newSh3;\n sh3 = newSh3;\n }\n\n const texture = new THREE.DataArrayTexture(sh3, width, height, depth);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n\n sh3Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh3\",\n });\n this.extra.sh3Texture = sh3Texture;\n }\n\n return { sh1Texture, sh2Texture, sh3Texture };\n }\n\n // Ensures that this.packedArray can fit numSplats Gsplats. If it's too small,\n // resize exponentially and copy over the original data.\n //\n // Typically you don't need to call this, because calling this.setSplat(index, ...)\n // and this.pushSplat(...) will automatically call ensureSplats() so we have\n // enough splats.\n ensureSplats(numSplats: number): Uint32Array {\n const targetSize =\n numSplats <= this.maxSplats\n ? this.maxSplats\n : // Grow exponentially to avoid frequent reallocations\n Math.max(numSplats, 2 * this.maxSplats);\n const currentSize = !this.packedArray ? 0 : this.packedArray.length / 4;\n\n if (!this.packedArray || targetSize > currentSize) {\n this.maxSplats = getTextureSize(targetSize).maxSplats;\n const newArray = new Uint32Array(this.maxSplats * 4);\n if (this.packedArray) {\n // Copy over existing data\n newArray.set(this.packedArray);\n }\n this.packedArray = newArray;\n }\n return this.packedArray;\n }\n\n // Ensure the extra array for the given level is large enough to hold numSplats\n ensureSplatsSh(level: number, numSplats: number): Uint32Array {\n let wordsPerSplat: number;\n let key: string;\n if (level === 0) {\n return this.ensureSplats(numSplats);\n }\n if (level === 1) {\n // 3 x 3 uint7 = 63 bits = 2 uint32\n wordsPerSplat = 2;\n key = \"sh1\";\n } else if (level === 2) {\n // 5 x 3 uint8 = 120 bits = 4 uint32\n wordsPerSplat = 4;\n key = \"sh2\";\n } else if (level === 3) {\n // 7 x 3 uint6 = 126 bits = 4 uint32\n wordsPerSplat = 4;\n key = \"sh3\";\n } else {\n throw new Error(`Invalid level: ${level}`);\n }\n\n // Figure out our current and desired maxSplats\n let maxSplats: number = !this.extra[key]\n ? 0\n : (this.extra[key] as Uint32Array).length / wordsPerSplat;\n const targetSize =\n numSplats <= maxSplats ? maxSplats : Math.max(numSplats, 2 * maxSplats);\n\n if (!this.extra[key] || targetSize > maxSplats) {\n // Reallocate the array\n maxSplats = getTextureSize(targetSize).maxSplats;\n const newArray = new Uint32Array(maxSplats * wordsPerSplat);\n if (this.extra[key]) {\n // Copy over existing data\n newArray.set(this.extra[key] as Uint32Array);\n }\n this.extra[key] = newArray;\n }\n return this.extra[key] as Uint32Array;\n }\n\n // Unpack the 16-byte Gsplat data at index into the Three.js components\n // center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion,\n // opacity: number 0..1, color: THREE.Color 0..1.\n getSplat(index: number): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n opacity: number;\n color: THREE.Color;\n } {\n if (!this.packedArray || index >= this.numSplats) {\n throw new Error(\"Invalid index\");\n }\n return unpackSplat(this.packedArray, index, this.splatEncoding);\n }\n\n // Set all PackedSplat components at index with the provided Gsplat attributes\n // (can be the same objects returned by getSplat). Ensures there is capacity\n // for at least index+1 Gsplats.\n setSplat(\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const packedSplats = this.ensureSplats(index + 1);\n setPackedSplat(\n packedSplats,\n index,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n this.numSplats = Math.max(this.numSplats, index + 1);\n }\n\n // Effectively calls this.setSplat(this.numSplats++, center, ...), useful on\n // construction where you just want to iterate and create a collection of Gsplats.\n pushSplat(\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const packedSplats = this.ensureSplats(this.numSplats + 1);\n setPackedSplat(\n packedSplats,\n this.numSplats,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n ++this.numSplats;\n }\n\n // Iterate over Gsplats index 0..=(this.numSplats-1), unpack each Gsplat\n // and invoke the callback function with the Gsplat attributes.\n forEachSplat(\n callback: (\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => void,\n ) {\n if (!this.packedArray || !this.numSplats) {\n return;\n }\n for (let i = 0; i < this.numSplats; ++i) {\n const unpacked = unpackSplat(this.packedArray, i, this.splatEncoding);\n callback(\n i,\n unpacked.center,\n unpacked.scales,\n unpacked.quaternion,\n unpacked.opacity,\n unpacked.color,\n );\n }\n }\n\n // Ensures our PackedSplats.target render target has enough space to generate\n // maxSplats total Gsplats, and reallocate if not large enough.\n ensureGenerate(maxSplats: number): boolean {\n if (this.target && (maxSplats ?? 1) <= this.maxSplats) {\n return false;\n }\n if (this.target) {\n this.target.dispose();\n }\n\n const textureSize = getTextureSize(maxSplats ?? 1);\n const { width, height, depth } = textureSize;\n this.maxSplats = textureSize.maxSplats;\n\n // The packed Gsplats are stored in a 2D array texture of max size\n // 2048 x 2048 x 2048, one RGBA32UI pixel = 4 uint32 = one Gsplat\n this.target = new THREE.WebGLArrayRenderTarget(width, height, depth, {\n depthBuffer: false,\n stencilBuffer: false,\n generateMipmaps: false,\n magFilter: THREE.NearestFilter,\n minFilter: THREE.NearestFilter,\n });\n this.target.texture.format = THREE.RGBAIntegerFormat;\n this.target.texture.type = THREE.UnsignedIntType;\n this.target.texture.internalFormat = \"RGBA32UI\";\n this.target.scissorTest = true;\n return true;\n }\n\n // Given an array of splatCounts (.numSplats for each\n // SplatGenerator/SplatMesh in the scene), compute a\n // \"mapping layout\" in the composite array of generated outputs.\n generateMapping(splatCounts: number[]): {\n maxSplats: number;\n mapping: { base: number; count: number }[];\n } {\n let maxSplats = 0;\n const mapping = splatCounts.map((numSplats) => {\n const base = maxSplats;\n // Generation happens in horizontal row chunks, so round up to full width\n const rounded = Math.ceil(numSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n maxSplats += rounded;\n return { base, count: numSplats };\n });\n return { maxSplats, mapping };\n }\n\n // Returns a THREE.DataArrayTexture representing the PackedSplats content as\n // a Uint32x4 data array texture (2048 x 2048 x depth in size)\n getTexture(): THREE.DataArrayTexture {\n if (this.target) {\n // Return the render target's texture\n return this.target.texture;\n }\n if (this.source || this.packedArray) {\n // Update source texture if needed and return\n const source = this.maybeUpdateSource();\n return source;\n }\n\n return PackedSplats.getEmptyArray;\n }\n\n // Check if source texture needs to be created/updated\n private maybeUpdateSource(): THREE.DataArrayTexture {\n if (!this.packedArray) {\n throw new Error(\"No packed splats\");\n }\n\n if (this.needsUpdate || !this.source) {\n this.needsUpdate = false;\n\n if (this.source) {\n const { width, height, depth } = this.source.image;\n if (this.maxSplats !== width * height * depth) {\n // The existing source texture isn't the right size, so dispose it\n this.source.dispose();\n this.source = null;\n }\n }\n if (!this.source) {\n // Allocate a new source texture of the right size\n const { width, height, depth } = getTextureSize(this.maxSplats);\n this.source = new THREE.DataArrayTexture(\n this.packedArray as Uint32Array,\n width,\n height,\n depth,\n );\n this.source.format = THREE.RGBAIntegerFormat;\n this.source.type = THREE.UnsignedIntType;\n this.source.internalFormat = \"RGBA32UI\";\n this.source.needsUpdate = true;\n } else if (this.packedArray.buffer !== this.source.image.data.buffer) {\n // The source texture is the right size, update the data\n this.source.image.data = new Uint8Array(this.packedArray.buffer);\n }\n // Indicate to Three.js that the source texture needs to be uploaded to the GPU\n this.source.needsUpdate = true;\n }\n return this.source;\n }\n\n static getEmptyArray = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n // Get a program and THREE.RawShaderMaterial for a given GsplatGenerator,\n // generating it if necessary and caching the result.\n prepareProgramMaterial(generator: GsplatGenerator): {\n program: DynoProgram;\n material: THREE.RawShaderMaterial;\n } {\n let program = PackedSplats.generatorProgram.get(generator);\n if (!program) {\n // A Gsplat needs to be turned into a packed uvec4 for the dyno graph\n const graph = dynoBlock(\n { index: \"int\" },\n {},\n ({ index }, _outputs, { roots }) => {\n generator.inputs.index = index;\n const gsplat = generator.outputs.gsplat;\n const output = outputPackedSplat(\n gsplat,\n this.dynoRgbMinMaxLnScaleMinMax,\n );\n roots.push(output);\n return undefined;\n },\n );\n if (!PackedSplats.programTemplate) {\n PackedSplats.programTemplate = new DynoProgramTemplate(\n getShaders().computeUvec4Template,\n );\n }\n // Create a program from the template and graph\n program = new DynoProgram({\n graph,\n inputs: { index: \"_index\" },\n outputs: { output: \"target\" },\n template: PackedSplats.programTemplate,\n });\n Object.assign(program.uniforms, {\n targetLayer: { value: 0 },\n targetBase: { value: 0 },\n targetCount: { value: 0 },\n });\n PackedSplats.generatorProgram.set(generator, program);\n }\n\n // Prepare and update our material we'll use to render the Gsplats\n const material = program.prepareMaterial();\n PackedSplats.fullScreenQuad.material = material;\n return { program, material };\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n // Executes a dyno program specified by generator which is any DynoBlock that\n // maps { index: \"int\" } to { gsplat: Gsplat }. This is called in\n // SparkRenderer.updateInternal() to re-generate Gsplats in the scene for\n // SplatGenerator instances whose version is newer than what was generated\n // for it last time.\n generate({\n generator,\n base,\n count,\n renderer,\n }: {\n generator: GsplatGenerator;\n base: number;\n count: number;\n renderer: THREE.WebGLRenderer;\n }): { nextBase: number } {\n if (!this.target) {\n throw new Error(\"Target must be initialized with ensureSplats\");\n }\n if (base + count > this.maxSplats) {\n throw new Error(\"Base + count exceeds maxSplats\");\n }\n\n const { program, material } = this.prepareProgramMaterial(generator);\n program.update();\n\n const renderState = this.saveRenderState(renderer);\n\n // Generate the Gsplats in \"layer\" chunks, in horizontal row ranges,\n // that cover the total count of Gsplats.\n const nextBase =\n Math.ceil((base + count) / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n material.uniforms.targetBase.value = base;\n material.uniforms.targetCount.value = count;\n\n // Keep generating layers until we've reached the next generation's base\n while (base < nextBase) {\n const layer = Math.floor(base / layerSize);\n material.uniforms.targetLayer.value = layer;\n\n const layerBase = layer * layerSize;\n const layerYStart = Math.floor((base - layerBase) / SPLAT_TEX_WIDTH);\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((nextBase - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n // Render the desired portion of the layer\n this.target.scissor.set(\n 0,\n layerYStart,\n SPLAT_TEX_WIDTH,\n layerYEnd - layerYStart,\n );\n renderer.setRenderTarget(this.target, layer);\n renderer.xr.enabled = false;\n renderer.autoClear = false;\n PackedSplats.fullScreenQuad.render(renderer);\n\n base += SPLAT_TEX_WIDTH * (layerYEnd - layerYStart);\n }\n\n this.resetRenderState(renderer, renderState);\n return { nextBase };\n }\n\n disposeLodSplats() {\n if (this.lodSplats) {\n this.lodSplats.dispose();\n this.lodSplats = undefined;\n }\n }\n\n async createLodSplats({\n rgbaArray,\n quality,\n }: { rgbaArray?: RgbaArray; quality?: boolean } = {}) {\n const lodBase =\n typeof this.lod === \"number\"\n ? Math.max(1.1, Math.min(2.0, this.lod))\n : quality\n ? 1.75\n : 1.5;\n const packedArray = (this.packedArray as Uint32Array).slice();\n const rgba = rgbaArray ? (await rgbaArray.getArray()).slice() : undefined;\n const extra = {\n sh1: this.extra.sh1 ? (this.extra.sh1 as Uint32Array).slice() : undefined,\n sh2: this.extra.sh2 ? (this.extra.sh2 as Uint32Array).slice() : undefined,\n sh3: this.extra.sh3 ? (this.extra.sh3 as Uint32Array).slice() : undefined,\n };\n const decoded = await workerPool.withWorker(async (worker) => {\n return (await worker.call(\n quality ? \"qualityLodPackedSplats\" : \"tinyLodPackedSplats\",\n {\n numSplats: this.numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding: this.splatEncoding ?? DEFAULT_SPLAT_ENCODING,\n },\n )) as {\n numSplats: number;\n packedArray: Uint32Array;\n extra: Record;\n splatEncoding: SplatEncoding;\n };\n });\n\n const lodSplats = new PackedSplats(decoded);\n if (this.lodSplats) {\n this.lodSplats.dispose();\n }\n\n this.lodSplats = lodSplats;\n this.nonLod = true;\n this.lod = quality ? \"quality\" : true;\n }\n\n extractSplats(indices: Uint32Array, pageColoring: boolean) {\n const maxSplats = getTextureSize(indices.length).maxSplats;\n const newSplats = new PackedSplats({ maxSplats });\n for (let i = 0; i < indices.length; i++) {\n const splat = this.getSplat(indices[i]);\n if (pageColoring) {\n let hue = (indices[i] >>> 16) * 0.61803398875;\n hue = hue - Math.floor(hue);\n const r = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 3.0) - 1.0));\n const g = Math.max(0, Math.min(1, Math.abs(hue * 6.0 + 1.0) - 1.0));\n const b = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 1.0) - 1.0));\n splat.color.r *= r;\n splat.color.g *= g;\n splat.color.b *= b;\n }\n newSplats.pushSplat(\n splat.center,\n splat.scales,\n splat.quaternion,\n splat.opacity,\n splat.color,\n );\n }\n return newSplats;\n }\n\n static programTemplate: DynoProgramTemplate | null = null;\n\n // Cache for GsplatGenerator programs\n static generatorProgram = new WeakMap();\n\n // Static full-screen quad for pseudo-compute shader rendering\n static fullScreenQuad = new FullScreenQuad(\n new THREE.RawShaderMaterial({ visible: false }),\n );\n\n static emptyUint32x4 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyUint32x2 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 2);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RG32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n}\n\n// You can use a PackedSplats as a dyno block using the function\n// dyno.readPackedSplats(packedSplats.dyno, dynoIndex) where\n// dynoIndex is of type DynoVal<\"int\">. If you need to be able to change\n// the input PackedSplats dynamically, however, you should create a\n// DynoPackedSplats, whose property packedSplats you can change to any\n// PackedSplats and that will be used in the dyno shader program.\n\nexport const dynoPackedSplats = (packedSplats?: PackedSplats) =>\n new DynoPackedSplats({ packedSplats });\n\nexport class DynoPackedSplats extends DynoUniform<\n typeof TPackedSplats,\n \"packedSplats\",\n {\n textureArray: THREE.DataArrayTexture;\n numSplats: number;\n rgbMinMaxLnScaleMinMax: THREE.Vector4;\n lodOpacity: boolean;\n }\n> {\n packedSplats?: PackedSplats;\n\n constructor({ packedSplats }: { packedSplats?: PackedSplats } = {}) {\n super({\n key: \"packedSplats\",\n type: TPackedSplats,\n globals: () => [definePackedSplats],\n value: {\n textureArray: PackedSplats.getEmptyArray,\n numSplats: 0,\n rgbMinMaxLnScaleMinMax: new THREE.Vector4(\n 0,\n 1,\n LN_SCALE_MIN,\n LN_SCALE_MAX,\n ),\n lodOpacity: false,\n },\n update: (value) => {\n value.textureArray =\n this.packedSplats?.getTexture() ?? PackedSplats.getEmptyArray;\n value.numSplats = this.packedSplats?.numSplats ?? 0;\n value.rgbMinMaxLnScaleMinMax.set(\n this.packedSplats?.splatEncoding?.rgbMin ?? 0,\n this.packedSplats?.splatEncoding?.rgbMax ?? 1,\n this.packedSplats?.splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n this.packedSplats?.splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n );\n value.lodOpacity =\n this.packedSplats?.splatEncoding?.lodOpacity ?? false;\n return value;\n },\n });\n this.packedSplats = packedSplats;\n }\n}\n\nexport const defineEvalPackedSH1 = unindent(`\n vec3 evaluatePackedSH1(uvec2 packed, vec3 viewDir, float sh1Max) {\n // Extract sint7 values packed into 2 x uint32\n vec3 sh1_0 = vec3(ivec3(\n int(packed.x << 25u) >> 25,\n int(packed.x << 18u) >> 25,\n int(packed.x << 11u) >> 25\n ));\n vec3 sh1_1 = vec3(ivec3(\n int(packed.x << 4u) >> 25,\n int((packed.x >> 3u) | (packed.y << 29u)) >> 25,\n int(packed.y << 22u) >> 25\n ));\n vec3 sh1_2 = vec3(ivec3(\n int(packed.y << 15u) >> 25,\n int(packed.y << 8u) >> 25,\n int(packed.y << 1u) >> 25\n ));\n\n vec3 rgb = sh1_0 * (-0.4886025 * viewDir.y)\n + sh1_1 * (0.4886025 * viewDir.z)\n + sh1_2 * (-0.4886025 * viewDir.x);\n return rgb * (sh1Max / 63.0);\n }\n`);\n\nexport const defineEvalPackedSH2 = unindent(`\n vec3 evaluatePackedSH2(uvec4 packed, vec3 viewDir, float sh2Max) {\n // Extract sint8 values packed into 4 x uint32\n vec3 sh2_0 = vec3(ivec3(\n int(packed.x << 24u) >> 24,\n int(packed.x << 16u) >> 24,\n int(packed.x << 8u) >> 24\n ));\n vec3 sh2_1 = vec3(ivec3(\n int(packed.x) >> 24,\n int(packed.y << 24u) >> 24,\n int(packed.y << 16u) >> 24\n ));\n vec3 sh2_2 = vec3(ivec3(\n int(packed.y << 8u) >> 24,\n int(packed.y) >> 24,\n int(packed.z << 24u) >> 24\n ));\n vec3 sh2_3 = vec3(ivec3(\n int(packed.z << 16u) >> 24,\n int(packed.z << 8u) >> 24,\n int(packed.z) >> 24\n ));\n vec3 sh2_4 = vec3(ivec3(\n int(packed.w << 24u) >> 24,\n int(packed.w << 16u) >> 24,\n int(packed.w << 8u) >> 24\n ));\n\n vec3 rgb = sh2_0 * (1.0925484 * viewDir.x * viewDir.y)\n + sh2_1 * (-1.0925484 * viewDir.y * viewDir.z)\n + sh2_2 * (0.3153915 * (2.0 * viewDir.z * viewDir.z - viewDir.x * viewDir.x - viewDir.y * viewDir.y))\n + sh2_3 * (-1.0925484 * viewDir.x * viewDir.z)\n + sh2_4 * (0.5462742 * (viewDir.x * viewDir.x - viewDir.y * viewDir.y));\n return rgb * (sh2Max / 127.0);\n }\n`);\n\nexport const defineEvalPackedSH3 = unindent(`\n vec3 evaluatePackedSH3(uvec4 packed, vec3 viewDir, float sh3Max) {\n // Extract sint6 values packed into 4 x uint32\n vec3 sh3_0 = vec3(ivec3(\n int(packed.x << 26u) >> 26,\n int(packed.x << 20u) >> 26,\n int(packed.x << 14u) >> 26\n ));\n vec3 sh3_1 = vec3(ivec3(\n int(packed.x << 8u) >> 26,\n int(packed.x << 2u) >> 26,\n int((packed.x >> 4u) | (packed.y << 28u)) >> 26\n ));\n vec3 sh3_2 = vec3(ivec3(\n int(packed.y << 22u) >> 26,\n int(packed.y << 16u) >> 26,\n int(packed.y << 10u) >> 26\n ));\n vec3 sh3_3 = vec3(ivec3(\n int(packed.y << 4u) >> 26,\n int((packed.y >> 2u) | (packed.z << 30u)) >> 26,\n int(packed.z << 24u) >> 26\n ));\n vec3 sh3_4 = vec3(ivec3(\n int(packed.z << 18u) >> 26,\n int(packed.z << 12u) >> 26,\n int(packed.z << 6u) >> 26\n ));\n vec3 sh3_5 = vec3(ivec3(\n int(packed.z) >> 26,\n int(packed.w << 26u) >> 26,\n int(packed.w << 20u) >> 26\n ));\n vec3 sh3_6 = vec3(ivec3(\n int(packed.w << 14u) >> 26,\n int(packed.w << 8u) >> 26,\n int(packed.w << 2u) >> 26\n ));\n\n float xx = viewDir.x * viewDir.x;\n float yy = viewDir.y * viewDir.y;\n float zz = viewDir.z * viewDir.z;\n float xy = viewDir.x * viewDir.y;\n float yz = viewDir.y * viewDir.z;\n float zx = viewDir.z * viewDir.x;\n\n vec3 rgb = sh3_0 * (-0.5900436 * viewDir.y * (3.0 * xx - yy))\n + sh3_1 * (2.8906114 * xy * viewDir.z) +\n + sh3_2 * (-0.4570458 * viewDir.y * (4.0 * zz - xx - yy))\n + sh3_3 * (0.3731763 * viewDir.z * (2.0 * zz - 3.0 * xx - 3.0 * yy))\n + sh3_4 * (-0.4570458 * viewDir.x * (4.0 * zz - xx - yy))\n + sh3_5 * (1.4453057 * viewDir.z * (xx - yy))\n + sh3_6 * (-0.5900436 * viewDir.x * (xx - 3.0 * yy));\n return rgb * (sh3Max / 31.0);\n }\n`);\n\nexport function evaluatePackedSH({\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3Texture,\n shMax,\n}: {\n coord: DynoVal<\"ivec3\">;\n viewDir: DynoVal<\"vec3\">;\n numSh: DynoVal<\"int\">;\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3Texture?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n shMax: DynoVal<\"vec3\">;\n}) {\n return new Dyno({\n inTypes: {\n coord: \"ivec3\",\n viewDir: \"vec3\",\n numSh: \"int\",\n sh1Texture: \"usampler2DArray\",\n sh2Texture: \"usampler2DArray\",\n sh3Texture: \"usampler2DArray\",\n shMax: \"vec3\",\n },\n outTypes: { rgb: \"vec3\" },\n inputs: {\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3Texture,\n shMax,\n },\n globals: () => [\n defineEvalPackedSH1,\n defineEvalPackedSH2,\n defineEvalPackedSH3,\n ],\n statements: ({ inputs, outputs }) => {\n const lines = [\"vec3 rgb = vec3(0.0);\"];\n if (inputs.sh1Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 1) {\n vec3 sh1Rgb = evaluatePackedSH1(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0).rg, ${inputs.viewDir}, ${inputs.shMax}.x);\n rgb += sh1Rgb;\n `),\n );\n if (inputs.sh2Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 2) {\n vec3 sh2Rgb = evaluatePackedSH2(texelFetch(${inputs.sh2Texture}, ${inputs.coord}, 0), ${inputs.viewDir}, ${inputs.shMax}.y);\n rgb += sh2Rgb;\n `),\n );\n if (inputs.sh3Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 3) {\n vec3 sh3Rgb = evaluatePackedSH3(texelFetch(${inputs.sh3Texture}, ${inputs.coord}, 0), ${inputs.viewDir}, ${inputs.shMax}.z);\n rgb += sh3Rgb;\n }\n `),\n );\n }\n lines.push(\"}\");\n }\n lines.push(\"}\");\n }\n lines.push(`${outputs.rgb} = rgb;`);\n return lines;\n },\n }).outputs;\n}\n","import * as THREE from \"three\";\n\nimport type { OldSparkRenderer } from \"./OldSparkRenderer\";\nimport type { OldSplatAccumulator } from \"./OldSplatAccumulator\";\nimport { OldSplatGeometry } from \"./OldSplatGeometry\";\nimport { withWorker } from \"./OldSplatWorker\";\nimport { DynoPackedSplats } from \"./PackedSplats\";\nimport { Readback } from \"./Readback\";\nimport {\n type DynoBlock,\n DynoBool,\n DynoFloat,\n type DynoVal,\n DynoVec3,\n Gsplat,\n add,\n combine,\n defineGsplat,\n dyno,\n dynoBlock,\n dynoConst,\n floatBitsToUint,\n mul,\n packHalf2x16,\n readPackedSplat,\n uintToRgba8,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { FreeList, withinCoorientDist } from \"./utils\";\n\nexport type OldSparkViewpointOptions = {\n /**\n * Controls whether to auto-update its sort order whenever the SparkRenderer\n * updates the Gsplats. If you expect to render/display from this viewpoint\n * most frames, set this to true.\n * @default false\n */\n autoUpdate?: boolean;\n /**\n * Set a THREE.Camera for this viewpoint to follow.\n * @default undefined\n */\n camera?: THREE.Camera;\n /**\n * Set an explicit view-to-world transformation matrix for this viewpoint (equivalent\n * to camera.matrixWorld), overrides any camera setting.\n * @default undefined\n */\n viewToWorld?: THREE.Matrix4;\n /**\n * Configure viewpoint with an off-screen render target.\n * @default undefined\n */\n target?: {\n /**\n * Width of the render target in pixels.\n */\n width: number;\n /**\n * Height of the render target in pixels.\n */\n height: number;\n /**\n * If you want to be able to render a scene that depends on this target's\n * output (for example, a recursive viewport), set this to true to enable\n * double buffering.\n * @default false\n */\n doubleBuffer?: boolean;\n /**\n * Super-sampling factor for the render target. Values 1-4 are supported.\n * Note that re-sampling back down to .width x .height is done on the CPU\n * with simple averaging only when calling readTarget().\n * @default 1\n */\n superXY?: number;\n };\n /**\n * Callback function that is called when the render target texture is updated.\n * Receives the texture as a parameter. Use this to update a viewport with\n * the latest viewpoint render each frame.\n * @default undefined\n */\n onTextureUpdated?: (texture: THREE.Texture) => void;\n /**\n * Whether to sort splats radially (geometric distance) from the viewpoint (true)\n * or by Z-depth (false). Most scenes are trained with the Z-depth sort metric\n * and will render more accurately at certain viewpoints. However, radial sorting\n * is more stable under viewpoint rotations.\n * @default true\n */\n sortRadial?: boolean;\n /**\n * Distance threshold for re-sorting splats. If the viewpoint moves more than\n * this distance, splats will be re-sorted.\n * @default 0.01 units\n */\n sortDistance?: number;\n /**\n * View direction dot product threshold for re-sorting splats. For\n * sortRadial: true we use 0.99 while sortRadial: false uses 0.999 because it is\n * more sensitive to view direction.\n * @default 0.99 if sortRadial else 0.999\n */\n sortCoorient?: boolean;\n /**\n * Constant added to Z-depth to bias values into the positive range for\n * sortRadial: false, but also used for culling Gsplats \"well behind\"\n * the viewpoint origin\n * @default 1.0\n */\n depthBias?: number;\n /**\n * Set this to true if rendering a 360 to disable \"behind the viewpoint\"\n * culling during sorting. This is set automatically when rendering 360 envMaps\n * using the SparkRenderer.renderEnvMap() utility function.\n * @default false\n */\n sort360?: boolean;\n /*\n * Set this to true to sort with float32 precision with two-pass sort.\n * @default true\n */\n sort32?: boolean;\n /*\n * Set this to true to enable sort-free stochastic splat rendering.\n * @default false\n */\n stochastic?: boolean;\n};\n\n// A SparkViewpoint is created from and tied to a SparkRenderer, and represents\n// an independent viewpoint of all the scene Gsplats and their sort order. Making\n// these viewpoints explicit allows us to have multiple, simultaneous viewpoint\n// renders, for example for camera preview panes or overhead map views.\n//\n// When creating a SparkRenderer it automatically creates a default viewpoint\n// .defaultView that is used in the normal render loop when drawing to the canvas,\n// and is automatically updated whenever the camera moves. Additional viewpoints\n// can be created and configured separately.\n\nexport class OldSparkViewpoint {\n spark: OldSparkRenderer;\n autoUpdate: boolean;\n camera?: THREE.Camera;\n viewToWorld: THREE.Matrix4;\n lastTime: number | null = null;\n\n target?: THREE.WebGLRenderTarget;\n private back?: THREE.WebGLRenderTarget;\n onTextureUpdated?: (texture: THREE.Texture) => void;\n encodeLinear = false;\n superXY = 1;\n private superPixels?: Uint8Array;\n private pixels?: Uint8Array;\n\n sortRadial: boolean;\n sortDistance?: number;\n sortCoorient?: boolean;\n depthBias?: number;\n sort360?: boolean;\n sort32?: boolean;\n stochastic: boolean;\n\n display: {\n accumulator: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n geometry: OldSplatGeometry;\n } | null = null;\n\n private sorting: { viewToWorld: THREE.Matrix4 } | null = null;\n private pending: {\n accumulator?: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n displayed: boolean;\n } | null = null;\n private sortingCheck = false;\n\n private readback16: Uint16Array = new Uint16Array(0);\n private readback32: Uint32Array = new Uint32Array(0);\n private orderingFreelist: FreeList;\n\n constructor(options: OldSparkViewpointOptions & { spark: OldSparkRenderer }) {\n this.spark = options.spark;\n this.camera = options.camera;\n this.viewToWorld = options.viewToWorld ?? new THREE.Matrix4();\n\n if (options.target) {\n const { width, height, doubleBuffer } = options.target;\n const superXY = Math.max(1, Math.min(4, options.target.superXY ?? 1));\n this.superXY = superXY;\n if (width * superXY > 8192 || height * superXY > 8192) {\n throw new Error(\"Target size too large\");\n }\n\n this.target = new THREE.WebGLRenderTarget(\n width * superXY,\n height * superXY,\n {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n colorSpace: THREE.SRGBColorSpace,\n },\n );\n if (doubleBuffer) {\n this.back = new THREE.WebGLRenderTarget(\n width * superXY,\n height * superXY,\n {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n colorSpace: THREE.SRGBColorSpace,\n },\n );\n }\n this.encodeLinear = true;\n }\n this.onTextureUpdated = options.onTextureUpdated;\n\n this.sortRadial = options.sortRadial ?? true;\n this.sortDistance = options.sortDistance;\n this.sortCoorient = options.sortCoorient;\n this.depthBias = options.depthBias;\n this.sort360 = options.sort360;\n this.sort32 = options.sort32;\n this.stochastic = options.stochastic ?? false;\n\n this.orderingFreelist = new FreeList({\n allocate: (maxSplats) =>\n new Uint32Array(maxSplats) as Uint32Array,\n valid: (ordering, maxSplats) => ordering.length === maxSplats,\n });\n\n this.autoUpdate = false;\n this.setAutoUpdate(options.autoUpdate ?? false);\n }\n\n // Call this when you are done with the SparkViewpoint and want to\n // free up its resources (GPU targets, pixel buffers, etc.)\n dispose() {\n this.setAutoUpdate(false);\n if (this.target) {\n this.target.dispose();\n this.target = undefined;\n }\n if (this.back) {\n this.back.dispose();\n this.back = undefined;\n }\n if (this.display) {\n this.spark.releaseAccumulator(this.display.accumulator);\n this.display.geometry.dispose();\n this.display = null;\n }\n if (this.pending?.accumulator) {\n this.spark.releaseAccumulator(this.pending.accumulator);\n this.pending = null;\n }\n }\n\n // Use this function to change whether this viewpoint will auto-update\n // its sort order whenever the attached SparkRenderer updates the Gsplats.\n // Turn this on or off depending on whether you expect to do renders from\n // this viewpoint most frames.\n setAutoUpdate(autoUpdate: boolean) {\n if (!this.autoUpdate && autoUpdate) {\n this.spark.autoViewpoints.push(this);\n } else if (this.autoUpdate && !autoUpdate) {\n this.spark.autoViewpoints = this.spark.autoViewpoints.filter(\n (v) => v !== this,\n );\n }\n this.autoUpdate = autoUpdate;\n }\n\n // See below async prepareRenderPixels() for explanation of parameters.\n // Awaiting this method updates the Gsplats in the scene and performs a sort of the\n // Gsplats from this viewpoint, preparing it for a subsequent this.renderTarget()\n // call in the same tick.\n async prepare({\n scene,\n camera,\n viewToWorld,\n update,\n forceOrigin,\n }: {\n scene: THREE.Scene;\n camera?: THREE.Camera;\n viewToWorld?: THREE.Matrix4;\n update?: boolean;\n forceOrigin?: boolean;\n }) {\n if (viewToWorld) {\n this.viewToWorld = viewToWorld;\n } else {\n this.camera = camera ?? this.camera;\n if (this.camera) {\n this.camera.updateMatrixWorld();\n this.viewToWorld = this.camera.matrixWorld.clone();\n }\n }\n while (update ?? true) {\n // Force an update, possibly with origin centered at this camera\n // to yield the best quality output.\n const originToWorld = forceOrigin\n ? this.viewToWorld\n : this.spark.matrixWorld;\n const updated = this.spark.updateInternal({ scene, originToWorld });\n if (updated) {\n break;\n }\n // A bit of a hack, but try again. We shouldn't be starved for long.\n await new Promise((resolve) => setTimeout(resolve, 10));\n }\n\n const accumulator = this.spark.active;\n // Hold reference to accumulator while sorting\n accumulator.refCount += 1;\n await this.sortUpdate({ accumulator, viewToWorld: this.viewToWorld });\n // Release accumulator reference\n this.spark.releaseAccumulator(accumulator);\n }\n\n // Render out the viewpoint to the view target RGBA buffer.\n // Swaps buffers if doubleBuffer: true was set.\n // Calls onTextureUpdated(texture) with the resulting texture.\n renderTarget({\n scene,\n camera,\n }: { scene: THREE.Scene; camera?: THREE.Camera }) {\n const target = this.back ?? this.target;\n if (!target) {\n throw new Error(\"Must initialize SparkViewpoint with target\");\n }\n\n camera = camera ?? this.camera;\n if (!camera) {\n throw new Error(\"Must provide camera\");\n }\n if (camera instanceof THREE.PerspectiveCamera) {\n const newCam = new THREE.PerspectiveCamera().copy(camera, false);\n newCam.aspect = target.width / target.height;\n newCam.updateProjectionMatrix();\n camera = newCam;\n }\n this.viewToWorld = camera.matrixWorld.clone();\n\n const previousTarget = this.spark.renderer.getRenderTarget();\n try {\n this.spark.renderer.setRenderTarget(target);\n this.spark.prepareViewpoint(this);\n\n this.spark.renderer.render(scene, camera);\n } finally {\n this.spark.prepareViewpoint(this.spark.defaultView);\n this.spark.renderer.setRenderTarget(previousTarget);\n }\n\n if (target !== this.target) {\n // Swap back buffer and target\n [this.target, this.back] = [this.back, this.target];\n }\n this.onTextureUpdated?.(target.texture);\n }\n\n // Read back the previously rendered target image as a Uint8Array of packed\n // RGBA values (in that order). If superXY was set greater than 1 then\n // downsampling is performed in the target pixel array with simple averaging\n // to derive the returned pixel values. Subsequent calls to this.readTarget()\n // will reuse the same buffers to minimize memory allocations.\n async readTarget(): Promise {\n if (!this.target) {\n throw new Error(\"Must initialize SparkViewpoint with target\");\n }\n const { width, height } = this.target;\n const byteSize = width * height * 4;\n if (!this.superPixels || this.superPixels.length < byteSize) {\n this.superPixels = new Uint8Array(byteSize);\n }\n await this.spark.renderer.readRenderTargetPixelsAsync(\n this.target,\n 0,\n 0,\n width,\n height,\n this.superPixels,\n );\n\n const { superXY } = this;\n if (superXY === 1) {\n return this.superPixels;\n }\n\n const subWidth = width / superXY;\n const subHeight = height / superXY;\n const subSize = subWidth * subHeight * 4;\n if (!this.pixels || this.pixels.length < subSize) {\n this.pixels = new Uint8Array(subSize);\n }\n\n const { superPixels, pixels } = this;\n const super2 = superXY * superXY;\n for (let y = 0; y < subHeight; y++) {\n const row = y * subWidth;\n for (let x = 0; x < subWidth; x++) {\n const superCol = x * superXY;\n let r = 0;\n let g = 0;\n let b = 0;\n let a = 0;\n for (let sy = 0; sy < superXY; sy++) {\n const superRow = (y * superXY + sy) * this.target.width;\n for (let sx = 0; sx < superXY; sx++) {\n const superIndex = (superRow + superCol + sx) * 4;\n r += superPixels[superIndex];\n g += superPixels[superIndex + 1];\n b += superPixels[superIndex + 2];\n a += superPixels[superIndex + 3];\n }\n }\n const pixelIndex = (row + x) * 4;\n pixels[pixelIndex] = r / super2;\n pixels[pixelIndex + 1] = g / super2;\n pixels[pixelIndex + 2] = b / super2;\n pixels[pixelIndex + 3] = a / super2;\n }\n }\n return pixels;\n }\n\n // Render out a viewpoint as a Uint8Array of RGBA values for the provided scene\n // and any camera/viewToWorld viewpoint overrides. By default update is true,\n // which triggers its SparkRenderer to check and potentially update the Gsplats.\n // Setting update to false disables this and sorts the Gsplats as they are.\n // Setting forceOrigin (default: false) to true forces the view update to\n // recalculate the splats with this view origin, potentially altering any\n // view-dependent effects. If you expect view-dependent effects to play a role\n // in the rendering quality, enable this.\n //\n // Underneath, prepareRenderPixels() simply calls await this.prepare(...),\n // this.renderTarget(...), and finally returns the result this.readTarget(),\n // a Promise to a Uint8Array with RGBA values for all the pixels (potentially\n // downsampled if the superXY parameter was used). These steps can also be called\n // manually, for example if you need to alter the scene before and after\n // this.renderTarget(...) to hide UI elements from being rendered.\n async prepareRenderPixels({\n scene,\n camera,\n viewToWorld,\n update,\n forceOrigin,\n }: {\n scene: THREE.Scene;\n camera?: THREE.Camera;\n viewToWorld?: THREE.Matrix4;\n update?: boolean;\n forceOrigin?: boolean;\n }) {\n await this.prepare({ scene, camera, viewToWorld, update, forceOrigin });\n this.renderTarget({ scene, camera });\n return this.readTarget();\n }\n\n // This is called automatically by SparkRenderer, there is no need to call it!\n // The method cannot be private because then SparkRenderer would\n // not be able to call it.\n autoPoll({ accumulator }: { accumulator?: OldSplatAccumulator }) {\n if (this.camera) {\n this.camera.updateMatrixWorld();\n this.viewToWorld = this.camera.matrixWorld.clone();\n }\n\n let needsSort = false;\n let displayed = false;\n\n if (!this.display) {\n // Need to do first sort\n needsSort = true;\n } else if (accumulator) {\n needsSort = true;\n const { mappingVersion } = this.display.accumulator;\n if (accumulator.mappingVersion === mappingVersion) {\n // Splat mapping has not changed, so reuse the existing sorted\n // geometry to show updates faster. We will still fire off\n // a re-sort if necessary. First release old accumulator.\n accumulator.refCount += 1;\n this.spark.releaseAccumulator(this.display.accumulator);\n this.display.accumulator = accumulator;\n this.display.viewToWorld.copy(this.viewToWorld);\n displayed = true;\n\n if (this.spark.viewpoint === this) {\n this.spark.prepareViewpoint(this);\n }\n }\n }\n\n const latestView = this.sorting?.viewToWorld ?? this.display?.viewToWorld;\n if (\n latestView &&\n !withinCoorientDist({\n matrix1: this.viewToWorld,\n matrix2: latestView,\n // By default update sort each 1 cm\n maxDistance: this.sortDistance ?? 0.01,\n // By default for radial sort, update for intermittent movement so that\n // we bring back splats culled by being behind the camera.\n // For depth sort, small rotations can change sort order a lot, so\n // update sort for even small rotations.\n minCoorient: (this.sortCoorient ?? this.sortRadial) ? 0.99 : 0.999,\n })\n ) {\n needsSort = true;\n }\n\n if (!needsSort) {\n // Stop here, no sort necessary\n return;\n }\n\n if (accumulator) {\n // Hold a reference to the accumulator for sorting\n accumulator.refCount += 1;\n }\n\n if (this.pending?.accumulator) {\n this.spark.releaseAccumulator(this.pending.accumulator);\n }\n this.pending = { accumulator, viewToWorld: this.viewToWorld, displayed };\n\n // Don't await this, just trigger the sort if necessary\n this.driveSort();\n }\n\n private async driveSort() {\n while (true) {\n if (this.sorting || !this.pending) {\n return; // Sort already in process or nothing to sort\n }\n\n const { viewToWorld, displayed } = this.pending;\n let accumulator = this.pending.accumulator;\n if (!accumulator) {\n // Hold a reference to the accumulator while sorting\n accumulator = this.display?.accumulator ?? this.spark.active;\n accumulator.refCount += 1;\n }\n this.pending = null;\n if (!accumulator) {\n throw new Error(\"No accumulator to sort\");\n }\n\n this.sorting = { viewToWorld };\n await this.sortUpdate({ accumulator, viewToWorld, displayed });\n this.sorting = null;\n\n // Release the reference to the accumulator\n this.spark.releaseAccumulator(accumulator);\n\n // Continue in loop with any queued sort\n }\n }\n\n private async sortUpdate({\n accumulator,\n viewToWorld,\n displayed = false,\n }: {\n accumulator?: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n displayed?: boolean;\n }) {\n if (this.sortingCheck) {\n throw new Error(\"Only one sort at a time\");\n }\n this.sortingCheck = true;\n\n accumulator = accumulator ?? this.spark.active;\n const { numSplats, maxSplats } = accumulator.splats;\n let activeSplats = 0;\n let ordering = this.orderingFreelist.alloc(maxSplats);\n\n if (this.stochastic) {\n activeSplats = numSplats;\n // Render all splats in order since the Z-buffer\n // will handle ordering.\n for (let i = 0; i < numSplats; ++i) {\n ordering[i] = i;\n }\n } else if (numSplats > 0) {\n const {\n reader,\n doubleSortReader,\n sort32Reader,\n dynoSortRadial,\n dynoOrigin,\n dynoDirection,\n dynoDepthBias,\n dynoSort360,\n dynoSplats,\n } = OldSparkViewpoint.makeSorter();\n const sort32 = this.sort32 ?? false;\n let readback: Uint16Array | Uint32Array;\n if (sort32) {\n this.readback32 = reader.ensureBuffer(maxSplats, this.readback32);\n readback = this.readback32;\n } else {\n const halfMaxSplats = Math.ceil(maxSplats / 2);\n this.readback16 = reader.ensureBuffer(halfMaxSplats, this.readback16);\n readback = this.readback16;\n }\n\n const worldToOrigin = accumulator.toWorld.clone().invert();\n const viewToOrigin = viewToWorld.clone().premultiply(worldToOrigin);\n\n dynoSortRadial.value = this.sort360 ? true : this.sortRadial;\n dynoOrigin.value.set(0, 0, 0).applyMatrix4(viewToOrigin);\n dynoDirection.value\n .set(0, 0, -1)\n .applyMatrix4(viewToOrigin)\n .sub(dynoOrigin.value)\n .normalize();\n dynoDepthBias.value = this.depthBias ?? 1.0;\n dynoSort360.value = this.sort360 ?? false;\n dynoSplats.packedSplats = accumulator.splats;\n\n const sortReader = sort32 ? sort32Reader : doubleSortReader;\n const count = sort32 ? numSplats : Math.ceil(numSplats / 2);\n await reader.renderReadback({\n renderer: this.spark.renderer,\n reader: sortReader,\n count,\n readback,\n });\n\n const result = (await withWorker(async (worker) => {\n const rpcName = sort32 ? \"sort32Splats\" : \"sortDoubleSplats\";\n return worker.call(rpcName, {\n maxSplats,\n numSplats,\n readback,\n ordering,\n });\n })) as {\n readback: Uint16Array | Uint32Array;\n ordering: Uint32Array;\n activeSplats: number;\n };\n if (sort32) {\n this.readback32 = result.readback as Uint32Array;\n } else {\n this.readback16 = result.readback as Uint16Array;\n }\n ordering = result.ordering;\n activeSplats = result.activeSplats;\n }\n\n this.updateDisplay({\n accumulator,\n viewToWorld,\n ordering,\n activeSplats,\n displayed,\n });\n this.sortingCheck = false;\n }\n\n private updateDisplay({\n accumulator,\n viewToWorld,\n ordering,\n activeSplats,\n displayed = false,\n }: {\n accumulator: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n ordering: Uint32Array;\n activeSplats: number;\n displayed?: boolean;\n }) {\n if (!this.display) {\n // Hold a reference to the accumulator while part of display\n accumulator.refCount += 1;\n this.display = {\n accumulator,\n viewToWorld,\n geometry: new OldSplatGeometry(ordering, activeSplats),\n };\n } else {\n if (!displayed && accumulator !== this.display.accumulator) {\n // Hold a reference to the new accumulator being displayed\n accumulator.refCount += 1;\n // Release the reference to the previously displayed accumulator\n this.spark.releaseAccumulator(this.display.accumulator);\n this.display.accumulator = accumulator;\n }\n\n this.display.viewToWorld = viewToWorld;\n\n const oldOrdering = this.display.geometry.ordering;\n if (oldOrdering.length === ordering.length) {\n this.display.geometry.update(ordering, activeSplats);\n } else {\n this.display.geometry.dispose();\n // console.log(\"*** alloc SplatGeometry\", ordering.length);\n this.display.geometry = new OldSplatGeometry(ordering, activeSplats);\n }\n this.orderingFreelist.free(oldOrdering);\n }\n if (this.spark.viewpoint === this) {\n this.spark.prepareViewpoint(this);\n }\n }\n\n // If you need an empty THREE.Texture to use to initialize a uniform that is\n // updated via onTextureUpdated(texture), this static texture can be handy.\n static EMPTY_TEXTURE = new THREE.Texture();\n\n private static dynos: {\n dynoSortRadial: DynoBool;\n dynoOrigin: DynoVec3;\n dynoDirection: DynoVec3;\n dynoDepthBias: DynoFloat;\n dynoSort360: DynoBool;\n dynoSplats: DynoPackedSplats;\n reader: Readback;\n doubleSortReader: DynoBlock<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n sort32Reader: DynoBlock<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n } | null = null;\n\n private static makeSorter() {\n if (!OldSparkViewpoint.dynos) {\n const dynoSortRadial = new DynoBool({ value: true });\n const dynoOrigin = new DynoVec3({ value: new THREE.Vector3() });\n const dynoDirection = new DynoVec3({ value: new THREE.Vector3() });\n const dynoDepthBias = new DynoFloat({ value: 1.0 });\n const dynoSort360 = new DynoBool({ value: false });\n const dynoSplats = new DynoPackedSplats();\n\n const reader = new Readback();\n const doubleSortReader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n if (!index) {\n throw new Error(\"No index\");\n }\n const sortParams = {\n sortRadial: dynoSortRadial,\n sortOrigin: dynoOrigin,\n sortDirection: dynoDirection,\n sortDepthBias: dynoDepthBias,\n sort360: dynoSort360,\n };\n const index2 = mul(index, dynoConst(\"int\", 2));\n\n const gsplat0 = readPackedSplat(dynoSplats, index2);\n const metric0 = computeSortMetric({ gsplat: gsplat0, ...sortParams });\n\n const gsplat1 = readPackedSplat(\n dynoSplats,\n add(index2, dynoConst(\"int\", 1)),\n );\n const metric1 = computeSortMetric({ gsplat: gsplat1, ...sortParams });\n\n const combined = combine({\n vectorType: \"vec2\",\n x: metric0,\n y: metric1,\n });\n const rgba8 = uintToRgba8(packHalf2x16(combined));\n return { rgba8 };\n },\n );\n\n const sort32Reader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n if (!index) {\n throw new Error(\"No index\");\n }\n const sortParams = {\n sortRadial: dynoSortRadial,\n sortOrigin: dynoOrigin,\n sortDirection: dynoDirection,\n sortDepthBias: dynoDepthBias,\n sort360: dynoSort360,\n };\n\n const gsplat = readPackedSplat(dynoSplats, index);\n const metric = computeSortMetric({ gsplat, ...sortParams });\n const rgba8 = uintToRgba8(floatBitsToUint(metric));\n return { rgba8 };\n },\n );\n\n OldSparkViewpoint.dynos = {\n dynoSortRadial,\n dynoOrigin,\n dynoDirection,\n dynoDepthBias,\n dynoSort360,\n dynoSplats,\n reader,\n doubleSortReader,\n sort32Reader,\n };\n }\n return OldSparkViewpoint.dynos;\n }\n}\n\nconst defineComputeSortMetric = unindent(`\n float computeSort(Gsplat gsplat, bool sortRadial, vec3 sortOrigin, vec3 sortDirection, float sortDepthBias, bool sort360) {\n if (!isGsplatActive(gsplat.flags)) {\n return INFINITY;\n }\n\n vec3 center = gsplat.center - sortOrigin;\n float biasedDepth = dot(center, sortDirection) + sortDepthBias;\n if (!sort360 && (biasedDepth <= 0.0)) {\n return INFINITY;\n }\n\n return sortRadial ? length(center) : biasedDepth;\n }\n`);\n\nfunction computeSortMetric({\n gsplat,\n sortRadial,\n sortOrigin,\n sortDirection,\n sortDepthBias,\n sort360,\n}: {\n gsplat: DynoVal;\n sortRadial: DynoVal<\"bool\">;\n sortOrigin: DynoVal<\"vec3\">;\n sortDirection: DynoVal<\"vec3\">;\n sortDepthBias: DynoVal<\"float\">;\n sort360: DynoVal<\"bool\">;\n}) {\n return dyno({\n inTypes: {\n gsplat: Gsplat,\n sortRadial: \"bool\",\n sortOrigin: \"vec3\",\n sortDirection: \"vec3\",\n sortDepthBias: \"float\",\n sort360: \"bool\",\n },\n outTypes: { metric: \"float\" },\n globals: () => [defineGsplat, defineComputeSortMetric],\n inputs: {\n gsplat,\n sortRadial,\n sortOrigin,\n sortDirection,\n sortDepthBias,\n sort360,\n },\n statements: ({ inputs, outputs }) => {\n const {\n gsplat,\n sortRadial,\n sortOrigin,\n sortDirection,\n sortDepthBias,\n sort360,\n } = inputs;\n return unindentLines(`\n ${outputs.metric} = computeSort(${gsplat}, ${sortRadial}, ${sortOrigin}, ${sortDirection}, ${sortDepthBias}, ${sort360});\n `);\n },\n }).outputs.metric;\n}\n","import * as THREE from \"three\";\n\nimport { PackedSplats } from \"./PackedSplats\";\nimport type { GeneratorMapping } from \"./SplatAccumulator\";\nimport type { SplatGenerator, SplatModifier } from \"./SplatGenerator\";\n\n// SplatAccumulator helps manage the generation of splats from multiple\n// SplatGenerators, keeping track of the splat mapping, coordinate system,\n// and reference count.\n\nexport class OldSplatAccumulator {\n splats = new PackedSplats();\n // The transform from Accumulator coordinate system to world coordinates.\n toWorld = new THREE.Matrix4();\n // An array of all Gsplat mappings that were used for generation\n mapping: GeneratorMapping[] = [];\n // Number of SparkViewpoints (or other) that reference this accumulator, used\n // to figure out when it can be recycled for use\n refCount = 0;\n\n // Incremented every time the splats are updated/generated.\n splatsVersion = -1;\n // Incremented every time the splat mapping/layout is updated.\n // Splat sort order can be reused between equivalent mapping versions.\n mappingVersion = -1;\n\n ensureGenerate(maxSplats: number) {\n if (this.splats.ensureGenerate(maxSplats)) {\n // If we had to resize our PackedSplats then clear all previous mappings\n this.mapping = [];\n }\n }\n\n // Generate all Gsplats from an array of generators\n generateSplats({\n renderer,\n modifier,\n generators,\n forceUpdate,\n originToWorld,\n }: {\n renderer: THREE.WebGLRenderer;\n modifier: SplatModifier;\n generators: GeneratorMapping[];\n forceUpdate?: boolean;\n originToWorld: THREE.Matrix4;\n }) {\n // Create a lookup from last SplatGenerator\n const mapping = this.mapping.reduce((map, record) => {\n map.set(record.node, record);\n return map;\n }, new Map());\n\n // Run generators that are different from existing mapping\n let updated = 0;\n let numSplats = 0;\n for (const { node, generator, version, base, count } of generators) {\n const current = mapping.get(node);\n if (\n forceUpdate ||\n generator !== current?.generator ||\n version !== current?.version ||\n base !== current?.base ||\n count !== current?.count\n ) {\n // Something is different from before so we should generate these Gsplats\n if (generator && count > 0) {\n const modGenerator = modifier.apply(generator);\n try {\n this.splats.generate({\n generator: modGenerator,\n base,\n count,\n renderer,\n });\n } catch (error) {\n node.generator = undefined;\n node.generatorError = error;\n }\n updated += 1;\n }\n }\n numSplats = Math.max(numSplats, base + count);\n }\n\n this.splats.numSplats = numSplats;\n this.toWorld.copy(originToWorld);\n this.mapping = generators;\n return updated !== 0;\n }\n\n // Check if this accumulator has exactly the same generator mapping as\n // the previous one. If so, we can reuse the Gsplat sort order.\n hasCorrespondence(other: OldSplatAccumulator) {\n if (this.mapping.length !== other.mapping.length) {\n return false;\n }\n return this.mapping.every(({ node, base, count }, i) => {\n const {\n node: otherNode,\n base: otherBase,\n count: otherCount,\n } = other.mapping[i];\n return node === otherNode && base === otherBase && count === otherCount;\n });\n }\n}\n","import * as THREE from \"three\";\n\nimport {\n OldSparkViewpoint,\n type OldSparkViewpointOptions,\n} from \"./OldSparkViewpoint\";\nimport { OldSplatAccumulator } from \"./OldSplatAccumulator\";\nimport { OldSplatGeometry } from \"./OldSplatGeometry\";\nimport { PackedSplats } from \"./PackedSplats\";\nimport { RgbaArray } from \"./RgbaArray\";\nimport type { GeneratorMapping } from \"./SplatAccumulator\";\nimport { SplatEdit } from \"./SplatEdit\";\nimport { SplatGenerator, SplatModifier } from \"./SplatGenerator\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n type SplatEncoding,\n} from \"./defines\";\nimport {\n DynoVec3,\n DynoVec4,\n Gsplat,\n TPackedSplats,\n dynoBlock,\n readPackedSplat,\n transformGsplat,\n} from \"./dyno\";\nimport { getShaders } from \"./shaders\";\nimport {\n averagePositions,\n averageQuaternions,\n cloneClock,\n withinCoorientDist,\n} from \"./utils\";\n\n// SparkRenderer aggregates splats from multiple generators into a single\n// accumulated collection per frame. In normal operation we only need a\n// maximum of 3 accumulators: One currently being viewed, one currently\n// being sorted, and one more for generating the next frame. Accumulators\n// must be \"released\" by each viewpoint using it, so in unusual cases\n// such as slow render-outs, we may want to allow more than 3 so the\n// pipeline can continue generating new frames, but we limit to a maximum\n// of 5 to avoid excessive memory usage.\nconst MAX_ACCUMULATORS = 5;\n\nexport type OldSparkRendererOptions = {\n /**\n * Pass in your THREE.WebGLRenderer instance so Spark can perform work\n * outside the usual render loop. Should be created with antialias: false\n * (default setting) as WebGL anti-aliasing doesn't improve Gaussian Splatting\n * rendering and significantly reduces performance.\n */\n renderer: THREE.WebGLRenderer;\n /**\n * Whether to use premultiplied alpha when accumulating splat RGB\n * @default true\n */\n premultipliedAlpha?: boolean;\n /**\n * Pass in a THREE.Clock to synchronize time-based effects across different\n * systems. Alternatively, you can set the SparkRenderer properties time and\n * deltaTime directly. (default: new THREE.Clock)\n */\n clock?: THREE.Clock;\n /**\n * Controls whether to check and automatically update Gsplat collection after\n * each frame render.\n * @default true\n */\n autoUpdate?: boolean;\n /**\n * Controls whether to update the Gsplats before or after rendering. For WebXR\n * this must be false in order to complete rendering as soon as possible.\n * @default false\n */\n preUpdate?: boolean;\n /**\n * Distance threshold for SparkRenderer movement triggering a Gsplat update at\n * the new origin.\n * @default 1.0\n */\n originDistance?: number;\n /**\n * Maximum standard deviations from the center to render Gaussians. Values\n * Math.sqrt(5)..Math.sqrt(8) produce good results and can be tweaked for\n * performance.\n * @default Math.sqrt(8)\n */\n maxStdDev?: number;\n /**\n * Minimum pixel radius for splat rendering.\n * @default 0.0\n */\n minPixelRadius?: number;\n /**\n * Maximum pixel radius for splat rendering.\n * @default 512.0\n */\n maxPixelRadius?: number;\n /**\n * Minimum alpha value for splat rendering.\n * @default 0.5 * (1.0 / 255.0)\n */\n minAlpha?: number;\n /**\n * Enable 2D Gaussian splatting rendering ability. When this mode is enabled,\n * any scale x/y/z component that is exactly 0 (minimum quantized value) results\n * in the other two non-0 axis being interpreted as an oriented 2D Gaussian Splat,\n * rather instead of the usual projected 3DGS Z-slice. When reading PLY files,\n * scale values less than e^-30 will be interpreted as 0.\n * @default false\n */\n enable2DGS?: boolean;\n /**\n * Scalar value to add to 2D splat covariance diagonal, effectively blurring +\n * enlarging splats. In scenes trained without the Gsplat anti-aliasing tweak\n * this value was typically 0.3, but with anti-aliasing it is 0.0\n * @default 0.0\n */\n preBlurAmount?: number;\n /**\n * Scalar value to add to 2D splat covarianve diagonal, with opacity adjustment\n * to correctly account for \"blurring\" when anti-aliasing. Typically 0.3\n * (equivalent to approx 0.5 pixel radius) in scenes trained with anti-aliasing.\n */\n blurAmount?: number;\n /**\n * Depth-of-field distance to focal plane\n */\n focalDistance?: number;\n /**\n * Full-width angle of aperture opening (in radians), 0.0 to disable\n * @default 0.0\n */\n apertureAngle?: number;\n /**\n * Modulate Gaussian kernel falloff. 0 means \"no falloff, flat shading\",\n * while 1 is the normal Gaussian kernel.\n * @default 1.0\n */\n falloff?: number;\n /**\n * X/Y clipping boundary factor for Gsplat centers against view frustum.\n * 1.0 clips any centers that are exactly out of bounds, while 1.4 clips\n * centers that are 40% beyond the bounds.\n * @default 1.4\n */\n clipXY?: number;\n /**\n * Parameter to adjust projected splat scale calculation to match other renderers,\n * similar to the same parameter in the MKellogg 3DGS renderer. Higher values will\n * tend to sharpen the splats. A value 2.0 can be used to match the behavior of\n * the PlayCanvas renderer.\n * @default 1.0\n */\n focalAdjustment?: number;\n /**\n * Configures the SparkViewpointOptions for the default SparkViewpoint\n * associated with this SparkRenderer. Notable option: sortRadial (sort by\n * radial distance or Z-depth)\n */\n view?: OldSparkViewpointOptions;\n /**\n * Override the default splat encoding ranges for the PackedSplats.\n * (default: undefined)\n */\n splatEncoding?: SplatEncoding;\n};\n\nexport class OldSparkRenderer extends THREE.Mesh {\n renderer: THREE.WebGLRenderer;\n premultipliedAlpha: boolean;\n material: THREE.ShaderMaterial;\n uniforms: ReturnType;\n\n autoUpdate: boolean;\n preUpdate: boolean;\n needsUpdate: boolean;\n originDistance: number;\n maxStdDev: number;\n minPixelRadius: number;\n maxPixelRadius: number;\n minAlpha: number;\n enable2DGS: boolean;\n preBlurAmount: number;\n blurAmount: number;\n focalDistance: number;\n apertureAngle: number;\n falloff: number;\n clipXY: number;\n focalAdjustment: number;\n splatEncoding: SplatEncoding;\n\n splatTexture: null | {\n enable?: boolean;\n texture?: THREE.Data3DTexture;\n multiply?: THREE.Matrix2;\n add?: THREE.Vector2;\n near?: number;\n far?: number;\n mid?: number;\n } = null;\n\n time?: number;\n deltaTime?: number;\n clock: THREE.Clock;\n\n // Latest Gsplat collection being displayed\n active: OldSplatAccumulator;\n // Free list of accumulators for reuse\n private freeAccumulators: OldSplatAccumulator[];\n // Total number of accumulators currently allocated\n private accumulatorCount: number;\n // Default SparkViewpoint used for rendering to the canvas\n defaultView: OldSparkViewpoint;\n // List of SparkViewpoints with autoUpdate enabled\n autoViewpoints: OldSparkViewpoint[] = [];\n\n // Dynos used to transform Gsplats to the accumulator coordinate system\n private rotateToAccumulator = new DynoVec4({ value: new THREE.Quaternion() });\n private translateToAccumulator = new DynoVec3({ value: new THREE.Vector3() });\n private modifier: SplatModifier;\n\n // Last rendered frame number so we know when we're rendering a new frame\n private lastFrame = -1;\n // Last update timestamp to compute deltaTime\n private lastUpdateTime: number | null = null;\n // List of cameras used for the current viewpoint (for WebXR)\n private defaultCameras: THREE.Matrix4[] = [];\n private lastStochastic: boolean | null = null;\n\n // Should be set to the defaultView, but can be temporarily changed to another\n // viewpoint using prepareViewpoint() for rendering from a different viewpoint.\n viewpoint: OldSparkViewpoint;\n\n // Holds data needed to perform a scheduled Gsplat update.\n private pendingUpdate = {\n scene: null as THREE.Scene | null,\n originToWorld: new THREE.Matrix4(),\n timeoutId: -1,\n };\n\n // Internal SparkViewpoint used for environment map rendering.\n private envViewpoint: OldSparkViewpoint | null = null;\n\n // Data and buffers used for environment map rendering\n private static cubeRender: {\n target: THREE.WebGLCubeRenderTarget;\n camera: THREE.CubeCamera;\n near: number;\n far: number;\n } | null = null;\n private static pmrem: THREE.PMREMGenerator | null = null;\n\n static EMPTY_SPLAT_TEXTURE = new THREE.Data3DTexture();\n\n constructor(options: OldSparkRendererOptions) {\n const uniforms = OldSparkRenderer.makeUniforms();\n const shaders = getShaders();\n const premultipliedAlpha = options.premultipliedAlpha ?? true;\n const material = new THREE.ShaderMaterial({\n glslVersion: THREE.GLSL3,\n vertexShader: shaders.oldSplatVertex,\n fragmentShader: shaders.oldSplatFragment,\n uniforms,\n premultipliedAlpha,\n transparent: true,\n depthTest: true,\n depthWrite: false,\n side: THREE.DoubleSide,\n });\n\n super(EMPTY_GEOMETRY, material);\n // Disable frustum culling because we want to always draw them all\n // and cull Gsplats individually in the shader\n this.frustumCulled = false;\n\n this.renderer = options.renderer;\n this.material = material;\n this.uniforms = uniforms;\n\n // Create a Gsplat modifier that takes the output of any SplatGenerator\n // and transforms them into the accumulator's coordinate system\n const modifier = dynoBlock(\n { gsplat: Gsplat },\n { gsplat: Gsplat },\n ({ gsplat }) => {\n if (!gsplat) {\n throw new Error(\"gsplat not defined\");\n }\n gsplat = transformGsplat(gsplat, {\n rotate: this.rotateToAccumulator,\n translate: this.translateToAccumulator,\n });\n return { gsplat };\n },\n );\n this.modifier = new SplatModifier(modifier);\n\n this.premultipliedAlpha = premultipliedAlpha;\n this.autoUpdate = options.autoUpdate ?? true;\n this.preUpdate = options.preUpdate ?? false;\n this.needsUpdate = false;\n this.originDistance = options.originDistance ?? 1;\n this.maxStdDev = options.maxStdDev ?? Math.sqrt(8.0);\n this.minPixelRadius = options.minPixelRadius ?? 0.0;\n this.maxPixelRadius = options.maxPixelRadius ?? 512.0;\n this.minAlpha = options.minAlpha ?? 0.5 * (1.0 / 255.0);\n this.enable2DGS = options.enable2DGS ?? false;\n this.preBlurAmount = options.preBlurAmount ?? 0.0;\n this.blurAmount = options.blurAmount ?? 0.3;\n this.focalDistance = options.focalDistance ?? 0.0;\n this.apertureAngle = options.apertureAngle ?? 0.0;\n this.falloff = options.falloff ?? 1.0;\n this.clipXY = options.clipXY ?? 1.4;\n this.focalAdjustment = options.focalAdjustment ?? 1.0;\n this.splatEncoding = options.splatEncoding ?? { ...DEFAULT_SPLAT_ENCODING };\n\n this.active = new OldSplatAccumulator();\n this.active.refCount = 1;\n this.accumulatorCount = 1;\n this.freeAccumulators = [];\n // Start with the minimum of 2 total accumulators\n for (let count = 0; count < 1; ++count) {\n this.freeAccumulators.push(new OldSplatAccumulator());\n this.accumulatorCount += 1;\n }\n\n // Create a default SparkViewpoint that is used when we call render()\n // on the scene and has the sorted Gsplat collection from that viewpoint.\n this.defaultView = new OldSparkViewpoint({\n ...options.view,\n autoUpdate: true,\n spark: this,\n });\n this.viewpoint = this.defaultView;\n this.prepareViewpoint(this.viewpoint);\n\n this.clock = options.clock ? cloneClock(options.clock) : new THREE.Clock();\n }\n\n static makeUniforms() {\n // Create uniforms used for Gsplat vertex and fragment shaders\n const uniforms = {\n // Size of render viewport in pixels\n renderSize: { value: new THREE.Vector2() },\n // Near and far plane distances\n near: { value: 0.1 },\n far: { value: 1000.0 },\n // Total number of Gsplats in packedSplats to render\n numSplats: { value: 0 },\n // SplatAccumulator to view transformation quaternion\n renderToViewQuat: { value: new THREE.Quaternion() },\n // SplatAccumulator to view transformation translation\n renderToViewPos: { value: new THREE.Vector3() },\n // Maximum distance (in stddevs) from Gsplat center to render\n maxStdDev: { value: 1.0 },\n // Minimum pixel radius for splat rendering\n minPixelRadius: { value: 0.0 },\n // Maximum pixel radius for splat rendering\n maxPixelRadius: { value: 512.0 },\n // Minimum alpha value for splat rendering\n minAlpha: { value: 0.5 * (1.0 / 255.0) },\n // Enable stochastic splat rendering\n stochastic: { value: false },\n // Enable interpreting 0-thickness Gsplats as 2DGS\n enable2DGS: { value: false },\n // Add to projected 2D splat covariance diagonal (thickens and brightens)\n preBlurAmount: { value: 0.0 },\n // Add to 2D splat covariance diagonal and adjust opacity (anti-aliasing)\n blurAmount: { value: 0.3 },\n // Depth-of-field distance to focal plane\n focalDistance: { value: 0.0 },\n // Full-width angle of aperture opening (in radians)\n apertureAngle: { value: 0.0 },\n // Modulate Gaussian kernal falloff. 0 means \"no falloff, flat shading\",\n // 1 is normal e^-x^2 falloff.\n falloff: { value: 1.0 },\n // Clip Gsplats that are clipXY times beyond the +-1 frustum bounds\n clipXY: { value: 1.4 },\n // Debug renderSize scale factor\n focalAdjustment: { value: 1.0 },\n // Enable splat texture rendering\n splatTexEnable: { value: false },\n // Splat texture to render\n splatTexture: { type: \"t\", value: OldSparkRenderer.EMPTY_SPLAT_TEXTURE },\n // Splat texture UV transform (multiply)\n splatTexMul: { value: new THREE.Matrix2() },\n // Splat texture UV transform (add)\n splatTexAdd: { value: new THREE.Vector2() },\n // Splat texture near plane distance\n splatTexNear: { value: 0.1 },\n // Splat texture far plane distance\n splatTexFar: { value: 1000.0 },\n // Splat texture mid plane distance, or 0.0 to disable\n splatTexMid: { value: 0.0 },\n // Gsplat collection to render\n packedSplats: { type: \"t\", value: PackedSplats.getEmptyArray },\n // Splat encoding ranges\n rgbMinMaxLnScaleMinMax: { value: new THREE.Vector4() },\n // Time in seconds for time-based effects\n time: { value: 0 },\n // Delta time in seconds since last frame\n deltaTime: { value: 0 },\n // Whether to encode Gsplat with linear RGB (for environment mapping)\n encodeLinear: { value: false },\n // Debug flag that alternates each frame\n debugFlag: { value: false },\n };\n return uniforms;\n }\n\n private canAllocAccumulator(): boolean {\n // Returns true if can allocate an accumulator immediately\n return (\n this.freeAccumulators.length > 0 ||\n this.accumulatorCount < MAX_ACCUMULATORS\n );\n }\n\n private maybeAllocAccumulator(): OldSplatAccumulator | null {\n // Allocate an accumulator immediately if possible, else return null\n let accumulator = this.freeAccumulators.pop();\n if (accumulator === undefined) {\n if (this.accumulatorCount >= MAX_ACCUMULATORS) {\n return null;\n }\n accumulator = new OldSplatAccumulator();\n this.accumulatorCount += 1;\n }\n accumulator.refCount = 1;\n return accumulator;\n }\n\n releaseAccumulator(accumulator: OldSplatAccumulator) {\n // Decrement reference count and recycle if no longer in use\n accumulator.refCount -= 1;\n if (accumulator.refCount === 0) {\n this.freeAccumulators.push(accumulator);\n }\n }\n\n newViewpoint(options: OldSparkViewpointOptions) {\n // Create a new SparkViewpoint for this SparkRenderer.\n // Note that every SparkRenderer has an initial spark.defaultView: SparkViewpoint\n // from construction, which is used for the default canvas render loop.\n // Calling this method allows you to create additional viewpoints, which can be\n // updated automatically each frame (performing Gsplat sorting every time there\n // is an update), or updated on-demand for controlled rendering for video render\n // or similar applications.\n return new OldSparkViewpoint({ ...options, spark: this });\n }\n\n onBeforeRender(\n renderer: THREE.WebGLRenderer,\n scene: THREE.Scene,\n camera: THREE.Camera,\n ) {\n // throw new Error(\"onBeforeRender disabled in SparkRenderer\");\n\n // Called by Three.js before rendering this SparkRenderer.\n // At this point we can't modify the geometry or material, all these must\n // be set in the scene already before this is called. Update the uniforms\n // to render the Gsplats from the current active viewpoint.\n const time = this.time ?? this.clock.getElapsedTime();\n const deltaTime = time - (this.viewpoint.lastTime ?? time);\n this.viewpoint.lastTime = time;\n\n const frame = renderer.info.render.frame;\n const isNewFrame = frame !== this.lastFrame;\n this.lastFrame = frame;\n\n const viewpoint = this.viewpoint;\n if (viewpoint === this.defaultView) {\n // When rendering is triggered on the default viewpoint,\n // perform automatic updates.\n if (isNewFrame) {\n if (!renderer.xr.isPresenting) {\n // Non-WebXR mode, just a single camera\n this.defaultView.viewToWorld = camera.matrixWorld.clone();\n this.defaultCameras = [this.defaultView.viewToWorld];\n } else {\n // In WebXR mode we are called multiple times, once for each eye,\n // so use their average to compute the sort center.\n const cameras = renderer.xr.getCamera().cameras;\n this.defaultCameras = cameras.map((camera) => camera.matrixWorld);\n this.defaultView.viewToWorld =\n averageOriginToWorlds(this.defaultCameras) ?? new THREE.Matrix4();\n }\n }\n\n if (this.autoUpdate) {\n this.update({ scene, viewToWorld: this.defaultView.viewToWorld });\n }\n }\n\n // Update uniforms for rendering\n\n if (isNewFrame) {\n // Keep these uniforms the same for both eyes if in WebXR\n if (this.material.premultipliedAlpha !== this.premultipliedAlpha) {\n this.material.premultipliedAlpha = this.premultipliedAlpha;\n this.material.needsUpdate = true;\n }\n this.uniforms.time.value = time;\n this.uniforms.deltaTime.value = deltaTime;\n // Alternating debug flag that can aid in visual debugging\n this.uniforms.debugFlag.value = (performance.now() / 1000.0) % 2.0 < 1.0;\n\n if (viewpoint.display && viewpoint.stochastic) {\n (this.geometry as OldSplatGeometry).instanceCount =\n this.uniforms.numSplats.value;\n }\n }\n\n if (viewpoint.target) {\n // Rendering to a texture target, so its dimensions\n this.uniforms.renderSize.value.set(\n viewpoint.target.width,\n viewpoint.target.height,\n );\n } else {\n // Rendering to the canvas or WebXR\n const renderSize = renderer.getDrawingBufferSize(\n this.uniforms.renderSize.value,\n );\n if (renderSize.x === 1 && renderSize.y === 1) {\n // WebXR mode on Apple Vision Pro returns 1x1 when presenting.\n // Use a different means to figure out the render size.\n const baseLayer = renderer.xr.getSession()?.renderState.baseLayer;\n if (baseLayer) {\n renderSize.x = baseLayer.framebufferWidth;\n renderSize.y = baseLayer.framebufferHeight;\n }\n }\n }\n\n // Update uniforms from instance properties\n const typedCamera = camera as\n | THREE.PerspectiveCamera\n | THREE.OrthographicCamera;\n this.uniforms.near.value = typedCamera.near;\n this.uniforms.far.value = typedCamera.far;\n this.uniforms.encodeLinear.value = viewpoint.encodeLinear;\n this.uniforms.maxStdDev.value = this.maxStdDev;\n this.uniforms.minPixelRadius.value = this.minPixelRadius;\n this.uniforms.maxPixelRadius.value = this.maxPixelRadius;\n this.uniforms.minAlpha.value = this.minAlpha;\n this.uniforms.stochastic.value = viewpoint.stochastic;\n this.uniforms.enable2DGS.value = this.enable2DGS;\n this.uniforms.preBlurAmount.value = this.preBlurAmount;\n this.uniforms.blurAmount.value = this.blurAmount;\n this.uniforms.focalDistance.value = this.focalDistance;\n this.uniforms.apertureAngle.value = this.apertureAngle;\n this.uniforms.falloff.value = this.falloff;\n this.uniforms.clipXY.value = this.clipXY;\n this.uniforms.focalAdjustment.value = this.focalAdjustment;\n\n if (this.lastStochastic !== !viewpoint.stochastic) {\n this.lastStochastic = !viewpoint.stochastic;\n this.material.transparent = !viewpoint.stochastic;\n this.material.depthWrite = viewpoint.stochastic;\n this.material.needsUpdate = true;\n }\n\n if (this.splatTexture) {\n const { enable, texture, multiply, add, near, far, mid } =\n this.splatTexture;\n if (enable && texture) {\n this.uniforms.splatTexEnable.value = true;\n this.uniforms.splatTexture.value = texture;\n if (multiply) {\n this.uniforms.splatTexMul.value.fromArray(multiply.elements);\n } else {\n this.uniforms.splatTexMul.value.set(\n 0.5 / this.maxStdDev,\n 0,\n 0,\n 0.5 / this.maxStdDev,\n );\n }\n this.uniforms.splatTexAdd.value.set(add?.x ?? 0.5, add?.y ?? 0.5);\n this.uniforms.splatTexNear.value = near ?? this.uniforms.near.value;\n this.uniforms.splatTexFar.value = far ?? this.uniforms.far.value;\n this.uniforms.splatTexMid.value = mid ?? 0.0;\n } else {\n this.uniforms.splatTexEnable.value = false;\n this.uniforms.splatTexture.value = OldSparkRenderer.EMPTY_SPLAT_TEXTURE;\n }\n } else {\n this.uniforms.splatTexEnable.value = false;\n this.uniforms.splatTexture.value = OldSparkRenderer.EMPTY_SPLAT_TEXTURE;\n }\n\n // Calculate the transform from the accumulator to the current camera\n const accumToWorld =\n viewpoint.display?.accumulator.toWorld ?? new THREE.Matrix4();\n const worldToCamera = camera.matrixWorld.clone().invert();\n const originToCamera = accumToWorld.clone().premultiply(worldToCamera);\n originToCamera.decompose(\n this.uniforms.renderToViewPos.value,\n this.uniforms.renderToViewQuat.value,\n new THREE.Vector3(),\n );\n }\n\n // Update the uniforms for the given viewpoint.\n // Note that the client expects to be able to call render() at any point\n // to update the canvas, so we must switch the viewpoint back to\n // defaultView when we're finished.\n prepareViewpoint(viewpoint?: OldSparkViewpoint) {\n this.viewpoint = viewpoint ?? this.viewpoint;\n\n if (this.viewpoint.display) {\n const { accumulator, geometry } = this.viewpoint.display;\n this.uniforms.numSplats.value = accumulator.splats.numSplats;\n this.uniforms.packedSplats.value = accumulator.splats.getTexture();\n this.uniforms.rgbMinMaxLnScaleMinMax.value.set(\n accumulator.splats.splatEncoding?.rgbMin ?? 0.0,\n accumulator.splats.splatEncoding?.rgbMax ?? 1.0,\n accumulator.splats.splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n accumulator.splats.splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n );\n this.geometry = geometry;\n this.material.transparent = !this.viewpoint.stochastic;\n this.material.depthWrite = this.viewpoint.stochastic;\n this.material.needsUpdate = true;\n } else {\n // No Gsplats to display for this viewpoint yet\n this.uniforms.numSplats.value = 0;\n this.uniforms.packedSplats.value = PackedSplats.getEmptyArray;\n this.geometry = EMPTY_GEOMETRY;\n }\n }\n\n // If spark.autoUpdate is false then you must manually call\n // spark.update({ scene }) to have the scene Gsplats be re-generated.\n update({\n scene,\n viewToWorld,\n }: { scene: THREE.Scene; viewToWorld?: THREE.Matrix4 }) {\n // Compute the transform for the SparkRenderer to use as origin\n // for Gsplat generation and accumulation.\n const originToWorld = this.matrixWorld;\n\n // Either do the update now, or in the next \"tick\" depending on preUpdate\n if (this.preUpdate) {\n this.updateInternal({\n scene,\n originToWorld: originToWorld.clone(),\n viewToWorld,\n });\n } else {\n // Pass the update parameters to be performed on the next tick\n this.pendingUpdate.scene = scene;\n this.pendingUpdate.originToWorld.copy(originToWorld);\n\n // Schedule a timeout if there isn't one already\n if (this.pendingUpdate.timeoutId === -1) {\n this.pendingUpdate.timeoutId = setTimeout(() => {\n const { scene, originToWorld } = this.pendingUpdate;\n this.pendingUpdate.scene = null;\n this.pendingUpdate.timeoutId = -1;\n const updated = this.updateInternal({\n scene: scene as THREE.Scene,\n originToWorld,\n viewToWorld,\n });\n\n if (updated) {\n // Flush to encourage eager execution\n const gl = this.renderer.getContext() as WebGL2RenderingContext;\n gl.flush();\n }\n }, 1);\n }\n }\n }\n\n updateInternal({\n scene,\n originToWorld,\n viewToWorld,\n }: {\n scene: THREE.Scene;\n originToWorld?: THREE.Matrix4;\n viewToWorld?: THREE.Matrix4;\n }): boolean {\n if (!this.canAllocAccumulator()) {\n // We don't have any available accumulators because of sorting\n // back pressure, so don't update this time but try again next time.\n // Signal update not attempted.\n return false;\n }\n\n // Figure out the frame of the SparkRenderer and current view\n if (!originToWorld) {\n originToWorld = this.active.toWorld;\n }\n viewToWorld = viewToWorld ?? originToWorld.clone();\n\n const time = this.time ?? this.clock.getElapsedTime();\n const deltaTime = time - (this.lastUpdateTime ?? time);\n this.lastUpdateTime = time;\n\n // Create a lookup from last active SplatGenerator to Gsplat mapping record\n const activeMapping = this.active.mapping.reduce((map, record) => {\n map.set(record.node, record);\n return map;\n }, new Map());\n\n // Traverse visible scene to find all SplatGenerators and global SplatEdits\n const { generators, visibleGenerators, globalEdits } =\n this.compileScene(scene);\n\n // Let all SplatGenerators run their frameUpdate() method\n for (const object of generators) {\n object.frameUpdate?.({\n renderer: this.renderer,\n object,\n time,\n deltaTime,\n viewToWorld,\n globalEdits,\n });\n }\n\n const visibleGenHash = new Set(visibleGenerators.map((g) => g.uuid));\n\n // Make sure we have new version numbers for any objects with either\n // generator or numSplats that have changed since the last frame.\n for (const object of generators) {\n const current = activeMapping.get(object);\n const isVisible = object.generator && visibleGenHash.has(object.uuid);\n const numSplats = isVisible ? object.numSplats : 0;\n if (\n this.needsUpdate ||\n object.generator !== current?.generator ||\n numSplats !== current?.count\n ) {\n object.updateVersion();\n }\n }\n\n // Check if the origin is within the maximum allowed distance before\n // we trigger an update.\n const originUpdate = !withinCoorientDist({\n matrix1: originToWorld,\n matrix2: this.active.toWorld,\n maxDistance: this.originDistance,\n });\n\n // Check if we need any update at all\n const needsUpdate =\n this.needsUpdate ||\n originUpdate ||\n generators.length !== activeMapping.size ||\n generators.some((g) => g.version !== activeMapping.get(g)?.version);\n this.needsUpdate = false;\n\n let accumulator: OldSplatAccumulator | null = null;\n if (needsUpdate) {\n // Need to update, so allocate an accumulator\n accumulator = this.maybeAllocAccumulator();\n if (!accumulator) {\n // This should never happen since we checked canAllocAccumulator() above\n throw new Error(\"Unreachable\");\n }\n\n // Compute whether our view frame has changed enough to warrant\n // doing a Gsplat sort. Check both distance epsilon and\n // minimum co-orientation (dot product of quaternions)\n const originChanged = !withinCoorientDist({\n matrix1: originToWorld,\n matrix2: accumulator.toWorld,\n maxDistance: 0.00001,\n minCoorient: 0.99999,\n });\n\n // Compute an ordering of the generators with the rough goal\n // of keeping unchanging generators near the front to minimize\n // the number of Gsplats that need to be regenerated.\n const sorted = visibleGenerators\n .map((g, gIndex): [number, number, SplatGenerator] => {\n const lastGen = activeMapping.get(g);\n // If no previous generator, sort by absolute version, which will\n // tend to push frequently updated generators toward the end\n return !lastGen\n ? [Number.POSITIVE_INFINITY, g.version, g]\n : // Sort by version deltas then by previous ordering in the mapping,\n // attempting to keep unchanging generators near the front\n // to improve our chances of avoiding a re-generation.\n [g.version - lastGen.version, lastGen.base, g];\n })\n .sort((a, b) => {\n // Sort by first then second element of the tuple\n if (a[0] !== b[0]) {\n return a[0] - b[0];\n }\n return a[1] - b[1];\n });\n const genOrder = sorted.map(([_version, _seq, g]) => g);\n\n // Compute sequential layout of generated splats\n const splatCounts = genOrder.map((g) => g.numSplats);\n const { maxSplats, mapping } =\n accumulator.splats.generateMapping(splatCounts);\n const newGenerators = genOrder.map((node, gIndex) => {\n const { base, count } = mapping[gIndex];\n return {\n node,\n generator: node.generator,\n version: node.version,\n base,\n count,\n };\n });\n\n // Compute worldToAccumulator origin transform (no scale)\n originToWorld\n .clone()\n .invert()\n .decompose(\n this.translateToAccumulator.value,\n this.rotateToAccumulator.value,\n new THREE.Vector3(),\n );\n\n // Generate the Gsplats according to the mapping that need updating\n accumulator.ensureGenerate(maxSplats);\n accumulator.splats.splatEncoding = { ...this.splatEncoding };\n const generated = accumulator.generateSplats({\n renderer: this.renderer,\n modifier: this.modifier,\n generators: newGenerators,\n forceUpdate: originChanged,\n originToWorld,\n });\n\n // Update splat version number\n accumulator.splatsVersion = this.active.splatsVersion + 1;\n // Increment the mapping version if the mapping isn't identical to before\n const hasCorrespondence = accumulator.hasCorrespondence(this.active);\n accumulator.mappingVersion =\n this.active.mappingVersion + (hasCorrespondence ? 0 : 1);\n\n // Release the old accumulator and make the new one active\n this.releaseAccumulator(this.active);\n this.active = accumulator;\n this.prepareViewpoint();\n }\n\n // Let the system breath before potentially triggering sorts\n setTimeout(() => {\n // Notify all auto-updating viewpoints that we updated the Gsplats\n for (const view of this.autoViewpoints) {\n view.autoPoll({ accumulator: accumulator ?? undefined });\n }\n }, 1);\n\n // Signal update was performed\n return true;\n }\n\n private compileScene(scene: THREE.Scene): {\n generators: SplatGenerator[];\n visibleGenerators: SplatGenerator[];\n globalEdits: SplatEdit[];\n } {\n // Take a snapshot of the SplatGenerators and SplatEdits in the scene\n // to be used to run an update.\n const generators: SplatGenerator[] = [];\n // Collect all SplatGenerators, even if not visible, because we want to\n // be able to call their update functions every frame.\n scene.traverse((node) => {\n if (node instanceof SplatGenerator) {\n generators.push(node);\n }\n });\n\n const visibleGenerators: SplatGenerator[] = [];\n scene.traverseVisible((node) => {\n if (node instanceof SplatGenerator) {\n visibleGenerators.push(node);\n }\n });\n\n const globalEdits = new Set();\n scene.traverseVisible((node) => {\n if (node instanceof SplatEdit) {\n let ancestor = node.parent;\n while (ancestor != null && !(ancestor instanceof SplatMesh)) {\n ancestor = ancestor.parent;\n }\n if (ancestor == null) {\n // Not part of a SplatMesh so it's a global edit\n globalEdits.add(node);\n }\n }\n });\n return {\n generators,\n visibleGenerators,\n globalEdits: Array.from(globalEdits),\n };\n }\n\n // Renders out the scene to an environment map that can be used for\n // Image-based lighting or similar applications. First optionally updates Gsplats,\n // sorts them with respect to the provided worldCenter, renders 6 cube faces,\n // then pre-filters them using THREE.PMREMGenerator and returns a THREE.Texture\n // that can assigned directly to a THREE.MeshStandardMaterial.envMap property.\n async renderEnvMap({\n renderer,\n scene,\n worldCenter,\n size = 256,\n near = 0.1,\n far = 1000,\n hideObjects = [],\n update = false,\n }: {\n renderer?: THREE.WebGLRenderer;\n scene: THREE.Scene;\n worldCenter: THREE.Vector3;\n size?: number;\n near?: number;\n far?: number;\n hideObjects?: THREE.Object3D[];\n update?: boolean;\n }): Promise {\n if (!this.envViewpoint) {\n this.envViewpoint = this.newViewpoint({ sort360: true });\n }\n if (\n !OldSparkRenderer.cubeRender ||\n OldSparkRenderer.cubeRender.target.width !== size ||\n OldSparkRenderer.cubeRender.near !== near ||\n OldSparkRenderer.cubeRender.far !== far\n ) {\n if (OldSparkRenderer.cubeRender) {\n OldSparkRenderer.cubeRender.target.dispose();\n }\n const target = new THREE.WebGLCubeRenderTarget(size, {\n format: THREE.RGBAFormat,\n generateMipmaps: true,\n minFilter: THREE.LinearMipMapLinearFilter,\n });\n const camera = new THREE.CubeCamera(near, far, target);\n OldSparkRenderer.cubeRender = { target, camera, near, far };\n }\n\n if (!OldSparkRenderer.pmrem) {\n OldSparkRenderer.pmrem = new THREE.PMREMGenerator(\n renderer ?? this.renderer,\n );\n }\n\n // Prepare the viewpoint, sorting Gsplats for this view origin.\n const viewToWorld = new THREE.Matrix4().setPosition(worldCenter);\n await this.envViewpoint?.prepare({ scene, viewToWorld, update });\n\n const { target, camera } = OldSparkRenderer.cubeRender;\n camera.position.copy(worldCenter);\n\n // Save the visibility state of objects we want to hide before render\n const objectVisibility = new Map();\n for (const object of hideObjects) {\n objectVisibility.set(object, object.visible);\n object.visible = false;\n }\n\n // Update the CubeCamera, which performs 6 cube face renders\n this.prepareViewpoint(this.envViewpoint);\n camera.update(renderer ?? this.renderer, scene);\n\n // Restore viewpoint to default and object visibility\n this.prepareViewpoint(this.defaultView);\n for (const [object, visible] of objectVisibility.entries()) {\n object.visible = visible;\n }\n\n // Pre-filter the cube map using THREE.PMREMGenerator\n return OldSparkRenderer.pmrem?.fromCubemap(target.texture).texture;\n }\n\n // Utility function to recursively set the envMap property for any\n // THREE.MeshStandardMaterial within the subtree of root.\n recurseSetEnvMap(root: THREE.Object3D, envMap: THREE.Texture) {\n root.traverse((node) => {\n if (node instanceof THREE.Mesh) {\n if (Array.isArray(node.material)) {\n for (const material of node.material) {\n if (material instanceof THREE.MeshStandardMaterial) {\n material.envMap = envMap;\n }\n }\n } else {\n if (node.material instanceof THREE.MeshStandardMaterial) {\n node.material.envMap = envMap;\n }\n }\n }\n });\n }\n\n // Utility function that helps extract the Gsplat RGBA values from a\n // SplatGenerator, including the result of any real-time RGBA SDF edits applied\n // to a SplatMesh. This effectively \"bakes\" any computed RGBA values, which can\n // now be used as a pipeline input via SplatMesh.splatRgba to inject these\n // baked values into the Gsplat data.\n getRgba({\n generator,\n rgba,\n }: { generator: SplatGenerator; rgba?: RgbaArray }): RgbaArray {\n const mapping = this.active.mapping.find(({ node }) => node === generator);\n if (!mapping) {\n throw new Error(\"Generator not found\");\n }\n\n rgba = rgba ?? new RgbaArray();\n rgba.fromPackedSplats({\n packedSplats: this.active.splats,\n base: mapping.base,\n count: mapping.count,\n renderer: this.renderer,\n });\n return rgba;\n }\n\n // Utility function that builds on getRgba({ generator }) and additionally\n // reads back the RGBA values to the CPU in a Uint8Array with packed RGBA\n // in that byte order.\n async readRgba({\n generator,\n rgba,\n }: { generator: SplatGenerator; rgba?: RgbaArray }): Promise {\n rgba = this.getRgba({ generator, rgba });\n return rgba.read();\n }\n}\n\nconst EMPTY_GEOMETRY = new OldSplatGeometry(new Uint32Array(1), 0);\n\nconst reorderSplats = dynoBlock(\n { packedSplats: TPackedSplats, index: \"int\" },\n { gsplat: Gsplat },\n ({ packedSplats, index }) => {\n if (!packedSplats || !index) {\n throw new Error(\"Invalid input\");\n }\n const gsplat = readPackedSplat(packedSplats, index);\n return { gsplat };\n },\n);\n\nfunction averageOriginToWorlds(\n originToWorlds: THREE.Matrix4[],\n): THREE.Matrix4 | null {\n if (originToWorlds.length === 0) {\n return null;\n }\n\n const position = new THREE.Vector3();\n const quaternion = new THREE.Quaternion();\n const scale = new THREE.Vector3();\n\n const positions: THREE.Vector3[] = [];\n const quaternions: THREE.Quaternion[] = [];\n for (const matrix of originToWorlds) {\n matrix.decompose(position, quaternion, scale);\n positions.push(position);\n quaternions.push(quaternion);\n }\n\n return new THREE.Matrix4().compose(\n averagePositions(positions),\n averageQuaternions(quaternions),\n new THREE.Vector3(1, 1, 1),\n );\n}\n","import type { SplatEncoding } from \"./defines\";\nimport { computeMaxSplats, setPackedSplat } from \"./utils\";\n\nexport function decodeAntiSplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n) {\n const numSplats = Math.floor(fileBytes.length / 32); // 32 bytes per splat\n if (numSplats * 32 !== fileBytes.length) {\n throw new Error(\"Invalid .splat file size\");\n }\n initNumSplats(numSplats);\n\n const f32 = new Float32Array(fileBytes.buffer);\n for (let i = 0; i < numSplats; ++i) {\n const i32 = i * 32;\n const i8 = i * 8;\n const x = f32[i8 + 0];\n const y = f32[i8 + 1];\n const z = f32[i8 + 2];\n const scaleX = f32[i8 + 3];\n const scaleY = f32[i8 + 4];\n const scaleZ = f32[i8 + 5];\n const r = fileBytes[i32 + 24] / 255;\n const g = fileBytes[i32 + 25] / 255;\n const b = fileBytes[i32 + 26] / 255;\n const opacity = fileBytes[i32 + 27] / 255;\n const quatW = (fileBytes[i32 + 28] - 128) / 128;\n const quatX = (fileBytes[i32 + 29] - 128) / 128;\n const quatY = (fileBytes[i32 + 30] - 128) / 128;\n const quatZ = (fileBytes[i32 + 31] - 128) / 128;\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n }\n}\n\nexport function unpackAntiSplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n} {\n let numSplats = 0;\n let maxSplats = 0;\n let packedArray = new Uint32Array(0);\n decodeAntiSplat(\n fileBytes,\n (cbNumSplats) => {\n numSplats = cbNumSplats;\n maxSplats = computeMaxSplats(numSplats);\n packedArray = new Uint32Array(maxSplats * 4);\n },\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n setPackedSplat(\n packedArray,\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n },\n );\n return { packedArray, numSplats };\n}\n","import type { SplatEncoding } from \"./defines\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n fromHalf,\n setPackedSplat,\n} from \"./utils\";\n\ntype KsplatCompression = {\n bytesPerCenter: number;\n bytesPerScale: number;\n bytesPerRotation: number;\n bytesPerColor: number;\n bytesPerSphericalHarmonicsComponent: number;\n scaleOffsetBytes: number;\n rotationOffsetBytes: number;\n colorOffsetBytes: number;\n sphericalHarmonicsOffsetBytes: number;\n scaleRange: number;\n};\n\nconst KSPLAT_COMPRESSION: Record = {\n 0: {\n bytesPerCenter: 12,\n bytesPerScale: 12,\n bytesPerRotation: 16,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 4,\n scaleOffsetBytes: 12,\n rotationOffsetBytes: 24,\n colorOffsetBytes: 40,\n sphericalHarmonicsOffsetBytes: 44,\n scaleRange: 1,\n },\n 1: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 2,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n 2: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 1,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n};\n\nconst KSPLAT_SH_DEGREE_TO_COMPONENTS: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nexport function decodeKsplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n) {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n initNumSplats(numSplats);\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n\n if (sphericalHarmonicsDegree >= 1 && sh1) {\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n if (sh2) {\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n }\n if (sh3) {\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n sectionBase += storageSizeBytes;\n }\n}\n\nexport function unpackKsplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n} {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n setPackedSplat(\n packedArray,\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n\n if (sphericalHarmonicsDegree >= 1) {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, i, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, i, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, i, sh3, splatEncoding);\n }\n }\n }\n sectionBase += storageSizeBytes;\n }\n return { packedArray, numSplats, extra };\n}\n","import * as THREE from \"three\";\nimport {\n SplatData,\n type TranscodeSpzInput,\n getSplatFileType,\n getSplatFileTypeFromPath,\n} from \"./SplatLoader\";\nimport { GunzipReader, fromHalf, normalize } from \"./utils\";\n\nimport { decodeAntiSplat } from \"./antisplat\";\nimport { SplatFileType } from \"./defines\";\nimport { decodeKsplat } from \"./ksplat\";\nimport { PlyReader } from \"./ply\";\n\n// SPZ file format reader\n\nexport class SpzReader {\n fileBytes: Uint8Array;\n reader: GunzipReader;\n\n version = -1;\n numSplats = 0;\n shDegree = 0;\n fractionalBits = 0;\n flags = 0;\n flagAntiAlias = false;\n flagLod = false;\n reserved = 0;\n headerParsed = false;\n parsed = false;\n\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n this.reader = new GunzipReader({\n fileBytes: this.fileBytes as Uint8Array,\n });\n }\n\n async parseHeader() {\n if (this.headerParsed) {\n throw new Error(\"SPZ file header already parsed\");\n }\n\n const header = new DataView((await this.reader.read(16)).buffer);\n if (header.getUint32(0, true) !== 0x5053474e) {\n throw new Error(\"Invalid SPZ file\");\n }\n this.version = header.getUint32(4, true);\n if (this.version < 1 || this.version > 3) {\n throw new Error(`Unsupported SPZ version: ${this.version}`);\n }\n\n this.numSplats = header.getUint32(8, true);\n this.shDegree = header.getUint8(12);\n this.fractionalBits = header.getUint8(13);\n this.flags = header.getUint8(14);\n this.flagAntiAlias = (this.flags & 0x01) !== 0;\n this.flagLod = (this.flags & 0x80) !== 0;\n this.reserved = header.getUint8(15);\n this.headerParsed = true;\n this.parsed = false;\n }\n\n async parseSplats(\n centerCallback?: (index: number, x: number, y: number, z: number) => void,\n alphaCallback?: (index: number, alpha: number) => void,\n rgbCallback?: (index: number, r: number, g: number, b: number) => void,\n scalesCallback?: (\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n ) => void,\n quatCallback?: (\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n {\n childCounts,\n childStarts,\n }: {\n childCounts?: (index: number, count: number) => void;\n childStarts?: (index: number, start: number) => void;\n } = {},\n ) {\n if (!this.headerParsed) {\n throw new Error(\"SPZ file header must be parsed first\");\n }\n if (this.parsed) {\n throw new Error(\"SPZ file already parsed\");\n }\n this.parsed = true;\n\n if (this.version === 1) {\n // float16 centers\n const centerBytes = await this.reader.read(this.numSplats * 3 * 2);\n const centerUint16 = new Uint16Array(centerBytes.buffer);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const x = fromHalf(centerUint16[i3]);\n const y = fromHalf(centerUint16[i3 + 1]);\n const z = fromHalf(centerUint16[i3 + 2]);\n centerCallback?.(i, x, y, z);\n }\n } else if (this.version === 2 || this.version === 3) {\n // 24-bit fixed-point centers\n const fixed = 1 << this.fractionalBits;\n const centerBytes = await this.reader.read(this.numSplats * 3 * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i9 = i * 9;\n const x =\n (((centerBytes[i9 + 2] << 24) |\n (centerBytes[i9 + 1] << 16) |\n (centerBytes[i9] << 8)) >>\n 8) /\n fixed;\n const y =\n (((centerBytes[i9 + 5] << 24) |\n (centerBytes[i9 + 4] << 16) |\n (centerBytes[i9 + 3] << 8)) >>\n 8) /\n fixed;\n const z =\n (((centerBytes[i9 + 8] << 24) |\n (centerBytes[i9 + 7] << 16) |\n (centerBytes[i9 + 6] << 8)) >>\n 8) /\n fixed;\n centerCallback?.(i, x, y, z);\n }\n } else {\n throw new Error(\"Unreachable\");\n }\n\n {\n const bytes = await this.reader.read(this.numSplats);\n for (let i = 0; i < this.numSplats; i++) {\n alphaCallback?.(i, bytes[i] / 255);\n }\n }\n {\n const rgbBytes = await this.reader.read(this.numSplats * 3);\n const scale = SH_C0 / 0.15;\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const r = (rgbBytes[i3] / 255 - 0.5) * scale + 0.5;\n const g = (rgbBytes[i3 + 1] / 255 - 0.5) * scale + 0.5;\n const b = (rgbBytes[i3 + 2] / 255 - 0.5) * scale + 0.5;\n rgbCallback?.(i, r, g, b);\n }\n }\n {\n const scalesBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const scaleX = Math.exp(scalesBytes[i3] / 16 - 10);\n const scaleY = Math.exp(scalesBytes[i3 + 1] / 16 - 10);\n const scaleZ = Math.exp(scalesBytes[i3 + 2] / 16 - 10);\n scalesCallback?.(i, scaleX, scaleY, scaleZ);\n }\n }\n if (this.version === 3) {\n // Version 3 uses a trick called \"smallest three\" to compress the rotation quaternions\n // achieving better precision. \"Optimizing orientation\" section at https://gafferongames.com/post/snapshot_compression/ A quaternion length must be 1: x^2+y^2+z^2+w^2 = 1\n // We can drop one component and reconstruct it with the identity above.\n // Largest component is dropped for best numerical precision.\n // Quaternion stored in 32 bits\n // 10 bits singed integer for each of the 3 components + 2 bits indicating the index of dropped component.\n // vs 8 bits for each component uncompressed (spz version < 3)\n // Max Value after extracting largest component v is another component v\n // (v,v,0,0)\n // v^2 + v^2 = 1\n // v = 1 / sqrt(2);\n const maxValue = 1 / Math.sqrt(2); // 0.7071\n const quatBytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 4;\n const quaternion = [0, 0, 0, 0];\n const values = [\n quatBytes[i3],\n quatBytes[i3 + 1],\n quatBytes[i3 + 2],\n quatBytes[i3 + 3],\n ];\n // all values are packed in 32 bits (10 per each of 3 components + 2 bits of index of larged value)\n const combinedValues =\n values[0] + (values[1] << 8) + (values[2] << 16) + (values[3] << 24);\n // each component value is 9 bits + sign (1 bit)\n const valueMask = (1 << 9) - 1;\n // extract index of the largest element. 2 top bits.\n const largestIndex = combinedValues >>> 30;\n let remainingValues = combinedValues;\n let sumSquares = 0;\n\n for (let i = 3; i >= 0; --i) {\n if (i !== largestIndex) {\n // extract current value and sign.\n const value = remainingValues & valueMask;\n const sign = (remainingValues >>> 9) & 0x1;\n // each value is represented as 10 bits. Shift to next one.\n remainingValues = remainingValues >>> 10;\n // convert to range [0,1] and then to [0, 0.7071]\n quaternion[i] = maxValue * (value / valueMask);\n // apply sign.\n quaternion[i] = sign === 0 ? quaternion[i] : -quaternion[i];\n // accumulate the sum of squares\n sumSquares += quaternion[i] * quaternion[i];\n }\n }\n\n // quartenion length must be 1 (x^2+y^2+z^2+w^2 = 1)\n // so can reconstruct largest component from the other 3.\n // w = sqrt(1 - x^2 - y^2 - z^2);\n const square = 1 - sumSquares;\n quaternion[largestIndex] = Math.sqrt(Math.max(square, 0));\n\n quatCallback?.(\n i,\n quaternion[0],\n quaternion[1],\n quaternion[2],\n quaternion[3],\n );\n }\n } else {\n const quatBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const quatX = quatBytes[i3] / 127.5 - 1;\n const quatY = quatBytes[i3 + 1] / 127.5 - 1;\n const quatZ = quatBytes[i3 + 2] / 127.5 - 1;\n const quatW = Math.sqrt(\n Math.max(0, 1 - quatX * quatX - quatY * quatY - quatZ * quatZ),\n );\n quatCallback?.(i, quatX, quatY, quatZ, quatW);\n }\n }\n\n if (shCallback && this.shDegree >= 1) {\n const sh1 = new Float32Array(3 * 3);\n const sh2 = this.shDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 = this.shDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n const shBytes = await this.reader.read(\n this.numSplats * SH_DEGREE_TO_VECS[this.shDegree] * 3,\n );\n\n let offset = 0;\n for (let i = 0; i < this.numSplats; i++) {\n for (let j = 0; j < 9; ++j) {\n sh1[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 9;\n if (sh2) {\n for (let j = 0; j < 15; ++j) {\n sh2[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 15;\n }\n if (sh3) {\n for (let j = 0; j < 21; ++j) {\n sh3[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 21;\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n if (this.flagLod) {\n let bytes = await this.reader.read(this.numSplats * 2);\n for (let i = 0; i < this.numSplats; i++) {\n const i2 = i * 2;\n const count = bytes[i2] + (bytes[i2 + 1] << 8);\n childCounts?.(i, count);\n }\n\n bytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i4 = i * 4;\n const start =\n bytes[i4] +\n (bytes[i4 + 1] << 8) +\n (bytes[i4 + 2] << 16) +\n (bytes[i4 + 3] << 24);\n childStarts?.(i, start);\n }\n }\n }\n}\n\nconst SH_DEGREE_TO_VECS: Record = { 1: 3, 2: 8, 3: 15 };\nconst SH_C0 = 0.28209479177387814;\n\nexport const SPZ_MAGIC = 0x5053474e; // NGSP = Niantic gaussian splat\nexport const SPZ_VERSION = 3;\nexport const FLAG_ANTIALIASED = 0x1;\n\nexport class SpzWriter {\n buffer: ArrayBuffer;\n view: DataView;\n numSplats: number;\n shDegree: number;\n fractionalBits: number;\n fraction: number;\n flagAntiAlias: boolean;\n clippedCount = 0;\n\n constructor({\n numSplats,\n shDegree,\n fractionalBits = 12,\n flagAntiAlias = true,\n }: {\n numSplats: number;\n shDegree: number;\n fractionalBits?: number;\n flagAntiAlias?: boolean;\n }) {\n const splatSize =\n 9 + // Position\n 1 + // Opacity\n 3 + // Scale\n 3 + // DC-rgb\n 4 + // Rotation\n (shDegree >= 1 ? 9 : 0) +\n (shDegree >= 2 ? 15 : 0) +\n (shDegree >= 3 ? 21 : 0);\n const bufferSize = 16 + numSplats * splatSize;\n this.buffer = new ArrayBuffer(bufferSize);\n this.view = new DataView(this.buffer);\n\n this.view.setUint32(0, SPZ_MAGIC, true); // NGSP\n this.view.setUint32(4, SPZ_VERSION, true);\n this.view.setUint32(8, numSplats, true);\n this.view.setUint8(12, shDegree);\n this.view.setUint8(13, fractionalBits);\n this.view.setUint8(14, flagAntiAlias ? FLAG_ANTIALIASED : 0);\n this.view.setUint8(15, 0); // Reserved\n\n this.numSplats = numSplats;\n this.shDegree = shDegree;\n this.fractionalBits = fractionalBits;\n this.fraction = 1 << fractionalBits;\n this.flagAntiAlias = flagAntiAlias;\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n // Divide by this.fraction and round to nearest integer,\n // then write as 3-bytes per x then y then z.\n const xRounded = Math.round(x * this.fraction);\n const xInt = Math.max(-0x7fffff, Math.min(0x7fffff, xRounded));\n const yRounded = Math.round(y * this.fraction);\n const yInt = Math.max(-0x7fffff, Math.min(0x7fffff, yRounded));\n const zRounded = Math.round(z * this.fraction);\n const zInt = Math.max(-0x7fffff, Math.min(0x7fffff, zRounded));\n const clipped = xRounded !== xInt || yRounded !== yInt || zRounded !== zInt;\n if (clipped) {\n this.clippedCount += 1;\n // if (this.clippedCount < 10) {\n // // Write x y z also in hex\n // console.log(`Clipped ${index}: ${x}, ${y}, ${z} (0x${x.toString(16)}, 0x${y.toString(16)}, 0x${z.toString(16)}) -> ${xRounded}, ${yRounded}, ${zRounded} (0x${xRounded.toString(16)}, 0x${yRounded.toString(16)}, 0x${zRounded.toString(16)}) -> ${xInt}, ${yInt}, ${zInt} (0x${xInt.toString(16)}, 0x${yInt.toString(16)}, 0x${zInt.toString(16)})`);\n // }\n }\n const i9 = index * 9;\n const base = 16 + i9;\n this.view.setUint8(base, xInt & 0xff);\n this.view.setUint8(base + 1, (xInt >> 8) & 0xff);\n this.view.setUint8(base + 2, (xInt >> 16) & 0xff);\n this.view.setUint8(base + 3, yInt & 0xff);\n this.view.setUint8(base + 4, (yInt >> 8) & 0xff);\n this.view.setUint8(base + 5, (yInt >> 16) & 0xff);\n this.view.setUint8(base + 6, zInt & 0xff);\n this.view.setUint8(base + 7, (zInt >> 8) & 0xff);\n this.view.setUint8(base + 8, (zInt >> 16) & 0xff);\n }\n\n setAlpha(index: number, alpha: number) {\n const base = 16 + this.numSplats * 9 + index;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round(alpha * 255))),\n );\n }\n\n static scaleRgb(r: number) {\n const v = ((r - 0.5) / (SH_C0 / 0.15) + 0.5) * 255;\n return Math.max(0, Math.min(255, Math.round(v)));\n }\n\n setRgb(index: number, r: number, g: number, b: number) {\n const base = 16 + this.numSplats * 10 + index * 3;\n this.view.setUint8(base, SpzWriter.scaleRgb(r));\n this.view.setUint8(base + 1, SpzWriter.scaleRgb(g));\n this.view.setUint8(base + 2, SpzWriter.scaleRgb(b));\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n const base = 16 + this.numSplats * 13 + index * 3;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleX) + 10) * 16))),\n );\n this.view.setUint8(\n base + 1,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleY) + 10) * 16))),\n );\n this.view.setUint8(\n base + 2,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleZ) + 10) * 16))),\n );\n }\n\n setQuat(\n index: number,\n ...q: [number, number, number, number] // x, y, z, w\n ) {\n const base = 16 + this.numSplats * 16 + index * 4;\n\n const quat = normalize(q);\n\n // Find largest component\n let iLargest = 0;\n for (let i = 1; i < 4; ++i) {\n if (Math.abs(quat[i]) > Math.abs(quat[iLargest])) {\n iLargest = i;\n }\n }\n\n // Since -quat represents the same rotation as quat, transform the quaternion so the largest element\n // is positive. This avoids having to send its sign bit.\n const negate = quat[iLargest] < 0 ? 1 : 0;\n\n // Do compression using sign bit and 9-bit precision per element.\n let comp = iLargest;\n for (let i = 0; i < 4; ++i) {\n if (i !== iLargest) {\n const negbit = (quat[i] < 0 ? 1 : 0) ^ negate;\n const mag = Math.floor(\n ((1 << 9) - 1) * (Math.abs(quat[i]) / Math.SQRT1_2) + 0.5,\n );\n comp = (comp << 10) | (negbit << 9) | mag;\n }\n }\n\n this.view.setUint8(base, comp & 0xff);\n this.view.setUint8(base + 1, (comp >> 8) & 0xff);\n this.view.setUint8(base + 2, (comp >> 16) & 0xff);\n this.view.setUint8(base + 3, (comp >>> 24) & 0xff);\n }\n\n static quantizeSh(sh: number, bits: number) {\n const value = Math.round(sh * 128) + 128;\n const bucketSize = 1 << (8 - bits);\n const quantized =\n Math.floor((value + bucketSize / 2) / bucketSize) * bucketSize;\n return Math.max(0, Math.min(255, quantized));\n }\n\n setSh(\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) {\n const shVecs = SH_DEGREE_TO_VECS[this.shDegree] || 0;\n const base1 = 16 + this.numSplats * 20 + index * shVecs * 3;\n for (let j = 0; j < 9; ++j) {\n this.view.setUint8(base1 + j, SpzWriter.quantizeSh(sh1[j], 5));\n }\n if (sh2) {\n const base2 = base1 + 9;\n for (let j = 0; j < 15; ++j) {\n this.view.setUint8(base2 + j, SpzWriter.quantizeSh(sh2[j], 4));\n }\n if (sh3) {\n const base3 = base2 + 15;\n for (let j = 0; j < 21; ++j) {\n this.view.setUint8(base3 + j, SpzWriter.quantizeSh(sh3[j], 4));\n }\n }\n }\n }\n\n async finalize(): Promise {\n const input = new Uint8Array(this.buffer);\n const stream = new ReadableStream({\n async start(controller) {\n controller.enqueue(input);\n controller.close();\n },\n });\n const compressed = stream.pipeThrough(new CompressionStream(\"gzip\"));\n const response = new Response(compressed);\n const buffer = await response.arrayBuffer();\n console.log(\n \"Compressed\",\n input.length,\n \"bytes to\",\n buffer.byteLength,\n \"bytes\",\n );\n return new Uint8Array(buffer);\n }\n}\n\nexport async function transcodeSpz(input: TranscodeSpzInput) {\n const splats = new SplatData();\n const {\n inputs,\n clipXyz,\n maxSh,\n fractionalBits = 12,\n opacityThreshold,\n } = input;\n for (const input of inputs) {\n const scale = input.transform?.scale ?? 1;\n const quaternion = new THREE.Quaternion().fromArray(\n input.transform?.quaternion ?? [0, 0, 0, 1],\n );\n const translate = new THREE.Vector3().fromArray(\n input.transform?.translate ?? [0, 0, 0],\n );\n const clip = clipXyz\n ? new THREE.Box3(\n new THREE.Vector3().fromArray(clipXyz.min),\n new THREE.Vector3().fromArray(clipXyz.max),\n )\n : undefined;\n\n function transformPos(pos: THREE.Vector3) {\n pos.multiplyScalar(scale);\n pos.applyQuaternion(quaternion);\n pos.add(translate);\n return pos;\n }\n\n function transformScales(scales: THREE.Vector3) {\n scales.multiplyScalar(scale);\n return scales;\n }\n\n function transformQuaternion(quat: THREE.Quaternion) {\n quat.premultiply(quaternion);\n return quat;\n }\n\n function withinClip(p: THREE.Vector3) {\n return !clip || clip.containsPoint(p);\n }\n\n function withinOpacity(opacity: number) {\n return opacityThreshold !== undefined\n ? opacity >= opacityThreshold\n : true;\n }\n\n let fileType = input.fileType;\n if (!fileType) {\n fileType = getSplatFileType(input.fileBytes);\n if (!fileType && input.pathOrUrl) {\n fileType = getSplatFileTypeFromPath(input.pathOrUrl);\n }\n }\n switch (fileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes: input.fileBytes });\n await ply.parseHeader();\n let lastIndex: number | null = null;\n ply.parseSplats(\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (sh1 && lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n }\n if (sh2 && lastIndex !== null) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3 && lastIndex !== null) {\n splats.setSh3(lastIndex, sh3);\n }\n },\n );\n break;\n }\n case SplatFileType.SPZ: {\n const spz = new SpzReader({ fileBytes: input.fileBytes });\n await spz.parseHeader();\n const mapping = new Int32Array(spz.numSplats);\n mapping.fill(-1);\n const centers = new Float32Array(spz.numSplats * 3);\n const center = new THREE.Vector3();\n spz.parseSplats(\n (index, x, y, z) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n centers[index * 3] = center.x;\n centers[index * 3 + 1] = center.y;\n centers[index * 3 + 2] = center.z;\n },\n (index, alpha) => {\n center.fromArray(centers, index * 3);\n if (withinClip(center) && withinOpacity(alpha)) {\n mapping[index] = splats.pushSplat();\n splats.setCenter(mapping[index], center.x, center.y, center.z);\n splats.setOpacity(mapping[index], alpha);\n }\n },\n (index, r, g, b) => {\n if (mapping[index] >= 0) {\n splats.setColor(mapping[index], r, g, b);\n }\n },\n (index, scaleX, scaleY, scaleZ) => {\n if (mapping[index] >= 0) {\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(mapping[index], scales.x, scales.y, scales.z);\n }\n },\n (index, quatX, quatY, quatZ, quatW) => {\n if (mapping[index] >= 0) {\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n mapping[index],\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n }\n },\n (index, sh1, sh2, sh3) => {\n if (mapping[index] >= 0) {\n splats.setSh1(mapping[index], sh1);\n if (sh2) {\n splats.setSh2(mapping[index], sh2);\n }\n if (sh3) {\n splats.setSh3(mapping[index], sh3);\n }\n }\n },\n );\n break;\n }\n case SplatFileType.SPLAT:\n decodeAntiSplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n const index = splats.pushSplat();\n splats.setCenter(index, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(index, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n index,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(index, opacity);\n splats.setColor(index, r, g, b);\n }\n },\n );\n break;\n case SplatFileType.KSPLAT: {\n let lastIndex: number | null = null;\n decodeKsplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n if (sh2) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n },\n );\n break;\n }\n default:\n throw new Error(`transcodeSpz not implemented for ${fileType}`);\n }\n }\n\n const shDegree = Math.min(\n maxSh ?? 3,\n splats.sh3 ? 3 : splats.sh2 ? 2 : splats.sh1 ? 1 : 0,\n );\n const spz = new SpzWriter({\n numSplats: splats.numSplats,\n shDegree,\n fractionalBits,\n flagAntiAlias: true,\n });\n\n for (let i = 0; i < splats.numSplats; ++i) {\n const i3 = i * 3;\n const i4 = i * 4;\n spz.setCenter(\n i,\n splats.centers[i3],\n splats.centers[i3 + 1],\n splats.centers[i3 + 2],\n );\n spz.setScale(\n i,\n splats.scales[i3],\n splats.scales[i3 + 1],\n splats.scales[i3 + 2],\n );\n spz.setQuat(\n i,\n splats.quaternions[i4],\n splats.quaternions[i4 + 1],\n splats.quaternions[i4 + 2],\n splats.quaternions[i4 + 3],\n );\n spz.setAlpha(i, splats.opacities[i]);\n spz.setRgb(\n i,\n splats.colors[i3],\n splats.colors[i3 + 1],\n splats.colors[i3 + 2],\n );\n if (splats.sh1 && shDegree >= 1) {\n spz.setSh(\n i,\n splats.sh1.slice(i * 9, (i + 1) * 9),\n shDegree >= 2 && splats.sh2\n ? splats.sh2.slice(i * 15, (i + 1) * 15)\n : undefined,\n shDegree >= 3 && splats.sh3\n ? splats.sh3.slice(i * 21, (i + 1) * 21)\n : undefined,\n );\n }\n }\n\n const spzBytes = await spz.finalize();\n return { fileBytes: spzBytes, clippedCount: spz.clippedCount };\n}\n","import * as THREE from \"three\";\n\n// SplatSkinning is an experimental class that implements dual-quaternion\n// skeletal animation for Gsplats. A skeletal animation system consists\n// of a set of bones, each with a \"rest\" pose that consists of a position\n// and orientation, and a weighting of up to 4 bones for each Gsplat.\n// By moving and rotating the bones you can animate all the Gsplats like\n// your would for a normal 3D animated mesh.\n// Note that the dual-quaternion formulation assumes that mass/volume\n// is conserved through these transformations, which helps avoid common\n// issues with linear blend skinning such as joint collapse or bulging.\n// However, it is not as good a fit for animations that involve explicit\n// deformations, such as cartoon animations.\n\nimport type { SplatMesh } from \"./SplatMesh\";\nimport {\n CovSplat,\n Dyno,\n DynoUniform,\n type DynoVal,\n Gsplat,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { getTextureSize, newArray } from \"./utils\";\n\nexport enum SplatSkinningMode {\n DUAL_QUATERNION = \"dual_quaternion\",\n LINEAR_BLEND = \"linear_blend\",\n}\n\nexport type SplatSkinningOptions = {\n // Specifies the SplatMesh that will be animated.\n mesh: SplatMesh;\n // Overrides the number of Gsplats in the mesh that will be animated.\n // (default: mesh.numSplats)\n numSplats?: number;\n // Set the number of bones used to animate the SplatMesh, with a maximum\n // of 256 (in order to compactly encode the bone index). (default: 256)\n numBones?: number;\n // Set the mode of skinning to use.\n // (default: DUAL_QUATERNION)\n mode?: SplatSkinningMode;\n};\n\nexport class SplatSkinning {\n mesh: SplatMesh;\n numSplats: number;\n mode: SplatSkinningMode;\n\n // Store the skinning weights for each Gsplat, composed of a 4-vector\n // of bone indices and weight\n skinData: Uint16Array;\n skinTexture: THREE.DataArrayTexture;\n\n numBones: number;\n boneData: Float32Array;\n boneTexture: THREE.DataTexture;\n\n boneRestQuatPosScale: {\n quat: THREE.Quaternion;\n pos: THREE.Vector3;\n scale: THREE.Vector3;\n }[];\n boneRestInvMats: THREE.Matrix4[];\n\n uniform: DynoUniform;\n\n constructor(options: SplatSkinningOptions) {\n this.mesh = options.mesh;\n this.numSplats = options.numSplats ?? this.mesh.numSplats;\n this.mode = options.mode ?? SplatSkinningMode.DUAL_QUATERNION;\n\n const { width, height, depth, maxSplats } = getTextureSize(this.numSplats);\n this.skinData = new Uint16Array(maxSplats * 4);\n this.skinTexture = new THREE.DataArrayTexture(\n this.skinData,\n width,\n height,\n depth,\n );\n this.skinTexture.format = THREE.RGBAIntegerFormat;\n this.skinTexture.type = THREE.UnsignedShortType;\n this.skinTexture.internalFormat = \"RGBA16UI\";\n this.skinTexture.needsUpdate = true;\n\n this.numBones = options.numBones ?? 256;\n this.boneData = new Float32Array(this.numBones * 16);\n this.boneTexture = new THREE.DataTexture(\n this.boneData,\n 4,\n this.numBones,\n THREE.RGBAFormat,\n THREE.FloatType,\n );\n this.boneTexture.internalFormat = \"RGBA32F\";\n this.boneTexture.needsUpdate = true;\n\n this.boneRestQuatPosScale = newArray(this.numBones, () => ({\n quat: new THREE.Quaternion(),\n pos: new THREE.Vector3(),\n scale: new THREE.Vector3(),\n }));\n\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n this.boneRestInvMats = newArray(this.numBones, () => new THREE.Matrix4());\n } else {\n this.boneRestInvMats = [];\n }\n\n this.uniform = new DynoUniform({\n key: \"skinning\",\n type: GsplatSkinning,\n globals: () => [defineGsplatSkinning],\n value: {\n numSplats: this.numSplats,\n numBones: this.numBones,\n skinTexture: this.skinTexture,\n boneTexture: this.boneTexture,\n },\n });\n }\n\n // Apply the skeletal animation to a Gsplat in a dyno program.\n modify(gsplat: DynoVal): DynoVal {\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"Linear blend skinning requires covSplats=true\");\n }\n return applyGsplatSkinning(gsplat, this.uniform);\n }\n\n modifyCov(covsplat: DynoVal): DynoVal {\n if (this.mode === SplatSkinningMode.DUAL_QUATERNION) {\n return applyCovSplatDQSkinning(covsplat, this.uniform);\n }\n return applyCovSplatLBSkinning(covsplat, this.uniform);\n }\n\n // Set the \"rest\" pose for a bone with position and quaternion orientation.\n setRestQuatPos(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n ) {\n this.boneRestQuatPosScale[boneIndex].quat.copy(quat);\n this.boneRestQuatPosScale[boneIndex].pos.copy(pos);\n this.boneRestQuatPosScale[boneIndex].scale.copy(SplatSkinning.UNIT_SCALE);\n\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n this.boneRestInvMats[boneIndex]\n .compose(pos, quat, SplatSkinning.UNIT_SCALE)\n .invert();\n }\n\n this.setBoneQuatPos(boneIndex, quat, pos);\n }\n\n getRestQuatPos(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n ) {\n quat.copy(this.boneRestQuatPosScale[boneIndex].quat);\n pos.copy(this.boneRestQuatPosScale[boneIndex].pos);\n }\n\n setRestQuatPosScale(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n scale: THREE.Vector3,\n ) {\n this.boneRestQuatPosScale[boneIndex].quat.copy(quat);\n this.boneRestQuatPosScale[boneIndex].pos.copy(pos);\n this.boneRestQuatPosScale[boneIndex].scale.copy(scale);\n\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n this.boneRestInvMats[boneIndex].compose(pos, quat, scale).invert();\n }\n\n this.setBoneQuatPosScale(boneIndex, quat, pos, scale);\n }\n\n getRestQuatPosScale(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n scale: THREE.Vector3,\n ) {\n quat.copy(this.boneRestQuatPosScale[boneIndex].quat);\n pos.copy(this.boneRestQuatPosScale[boneIndex].pos);\n scale.copy(this.boneRestQuatPosScale[boneIndex].scale);\n }\n\n setRestMatrix(boneIndex: number, matrix: THREE.Matrix4) {\n if (this.mode !== SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"setRestMat only supported for linear blend skinning\");\n }\n this.boneRestInvMats[boneIndex].copy(matrix).invert();\n this.setBoneMatrix(boneIndex, matrix);\n }\n\n getRestMatrix(boneIndex: number, matrix: THREE.Matrix4) {\n if (this.mode !== SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"getRestMat only supported for linear blend skinning\");\n }\n matrix.copy(this.boneRestInvMats[boneIndex]).invert();\n }\n\n // Set the \"current\" position and orientation of a bone.\n setBoneQuatPos(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n ) {\n if (this.mode === SplatSkinningMode.DUAL_QUATERNION) {\n SplatSkinning.relQuat\n .copy(this.boneRestQuatPosScale[boneIndex].quat)\n .invert();\n SplatSkinning.relPos\n .copy(pos)\n .sub(this.boneRestQuatPosScale[boneIndex].pos);\n SplatSkinning.relQuat.multiply(quat);\n SplatSkinning.dual\n .set(\n SplatSkinning.relPos.x,\n SplatSkinning.relPos.y,\n SplatSkinning.relPos.z,\n 0.0,\n )\n .multiply(SplatSkinning.relQuat);\n\n const i16 = boneIndex * 16;\n this.boneData[i16 + 0] = SplatSkinning.relQuat.x;\n this.boneData[i16 + 1] = SplatSkinning.relQuat.y;\n this.boneData[i16 + 2] = SplatSkinning.relQuat.z;\n this.boneData[i16 + 3] = SplatSkinning.relQuat.w;\n this.boneData[i16 + 4] = 0.5 * SplatSkinning.dual.x;\n this.boneData[i16 + 5] = 0.5 * SplatSkinning.dual.y;\n this.boneData[i16 + 6] = 0.5 * SplatSkinning.dual.z;\n this.boneData[i16 + 7] = 0.5 * SplatSkinning.dual.w;\n } else {\n this.setBoneQuatPosScale(boneIndex, quat, pos, SplatSkinning.UNIT_SCALE);\n }\n }\n\n setBoneQuatPosScale(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n scale: THREE.Vector3,\n ) {\n if (this.mode === SplatSkinningMode.DUAL_QUATERNION) {\n throw new Error(\n \"setBoneQuatPosScale only supported for linear blend skinning\",\n );\n }\n\n SplatSkinning.skinMat.compose(pos, quat, scale);\n this.setBoneMatrix(boneIndex, SplatSkinning.skinMat);\n }\n\n setBoneMatrix(boneIndex: number, matrix: THREE.Matrix4) {\n if (this.mode !== SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"setBoneMatrix only supported for linear blend skinning\");\n }\n\n SplatSkinning.skinMat.multiplyMatrices(\n this.boneRestInvMats[boneIndex],\n matrix,\n );\n const i16 = boneIndex * 16;\n this.boneData[i16 + 0] = SplatSkinning.skinMat.elements[0];\n this.boneData[i16 + 1] = SplatSkinning.skinMat.elements[1];\n this.boneData[i16 + 2] = SplatSkinning.skinMat.elements[2];\n this.boneData[i16 + 3] = SplatSkinning.skinMat.elements[4];\n this.boneData[i16 + 4] = SplatSkinning.skinMat.elements[5];\n this.boneData[i16 + 5] = SplatSkinning.skinMat.elements[6];\n this.boneData[i16 + 6] = SplatSkinning.skinMat.elements[8];\n this.boneData[i16 + 7] = SplatSkinning.skinMat.elements[9];\n this.boneData[i16 + 8] = SplatSkinning.skinMat.elements[10];\n this.boneData[i16 + 9] = SplatSkinning.skinMat.elements[12];\n this.boneData[i16 + 10] = SplatSkinning.skinMat.elements[13];\n this.boneData[i16 + 11] = SplatSkinning.skinMat.elements[14];\n }\n\n // Set up to 4 bone indices and weights for a Gsplat. For fewer than 4 bones,\n // you can set the remaining weights to 0 (and index=0).\n setSplatBones(\n splatIndex: number,\n boneIndices: THREE.Vector4,\n weights: THREE.Vector4,\n ) {\n const i4 = splatIndex * 4;\n this.skinData[i4 + 0] =\n Math.min(255, Math.max(0, Math.round(weights.x * 255.0))) +\n (boneIndices.x << 8);\n this.skinData[i4 + 1] =\n Math.min(255, Math.max(0, Math.round(weights.y * 255.0))) +\n (boneIndices.y << 8);\n this.skinData[i4 + 2] =\n Math.min(255, Math.max(0, Math.round(weights.z * 255.0))) +\n (boneIndices.z << 8);\n this.skinData[i4 + 3] =\n Math.min(255, Math.max(0, Math.round(weights.w * 255.0))) +\n (boneIndices.w << 8);\n }\n\n // Call this to indicate that the bones have changed and the Gsplats need to be\n // re-generated with updated skinning.\n updateBones() {\n this.boneTexture.needsUpdate = true;\n this.mesh.needsUpdate = true;\n }\n\n private static UNIT_SCALE = new THREE.Vector3(1, 1, 1);\n private static relQuat = new THREE.Quaternion();\n private static relPos = new THREE.Vector3();\n private static dual = new THREE.Quaternion();\n private static skinMat = new THREE.Matrix4();\n}\n\n// dyno program definitions for SplatSkinning\n\nexport const GsplatSkinning = { type: \"GsplatSkinning\" } as {\n type: \"GsplatSkinning\";\n};\n\nexport const defineGsplatSkinning = unindent(`\n struct GsplatSkinning {\n int numSplats;\n int numBones;\n usampler2DArray skinTexture;\n sampler2D boneTexture;\n };\n`);\n\nexport const defineApplyGsplatSkinning = unindent(`\n void applyGsplatSkinning(\n int numSplats, int numBones,\n usampler2DArray skinTexture, sampler2D boneTexture,\n int splatIndex, inout vec3 center, inout vec4 quaternion\n ) {\n if ((splatIndex < 0) || (splatIndex >= numSplats)) {\n return;\n }\n\n uvec4 skinData = texelFetch(skinTexture, splatTexCoord(splatIndex), 0);\n\n float weights[4];\n weights[0] = float(skinData.x & 0xffu) / 255.0;\n weights[1] = float(skinData.y & 0xffu) / 255.0;\n weights[2] = float(skinData.z & 0xffu) / 255.0;\n weights[3] = float(skinData.w & 0xffu) / 255.0;\n\n uint boneIndices[4];\n boneIndices[0] = (skinData.x >> 8u) & 0xffu;\n boneIndices[1] = (skinData.y >> 8u) & 0xffu;\n boneIndices[2] = (skinData.z >> 8u) & 0xffu;\n boneIndices[3] = (skinData.w >> 8u) & 0xffu;\n\n vec4 quat = vec4(0.0);\n vec4 dual = vec4(0.0);\n for (int i = 0; i < 4; i++) {\n if (weights[i] > 0.0) {\n int boneIndex = int(boneIndices[i]);\n vec4 boneQuat = vec4(0.0, 0.0, 0.0, 1.0);\n vec4 boneDual = vec4(0.0);\n if (boneIndex < numBones) {\n boneQuat = texelFetch(boneTexture, ivec2(0, boneIndex), 0);\n boneDual = texelFetch(boneTexture, ivec2(1, boneIndex), 0);\n }\n\n if ((i > 0) && (dot(quat, boneQuat) < 0.0)) {\n // Flip sign if next blend is pointing in the opposite direction\n boneQuat = -boneQuat;\n boneDual = -boneDual;\n }\n quat += weights[i] * boneQuat;\n dual += weights[i] * boneDual;\n }\n }\n\n // Normalize dual quaternion\n float norm = length(quat);\n quat /= norm;\n dual /= norm;\n vec3 translate = vec3(\n 2.0 * (-dual.w * quat.x + dual.x * quat.w - dual.y * quat.z + dual.z * quat.y),\n 2.0 * (-dual.w * quat.y + dual.x * quat.z + dual.y * quat.w - dual.z * quat.x),\n 2.0 * (-dual.w * quat.z - dual.x * quat.y + dual.y * quat.x + dual.z * quat.w)\n );\n\n center = quatVec(quat, center) + translate;\n quaternion = quatQuat(quat, quaternion);\n }\n`);\n\nfunction applyGsplatSkinning(\n gsplat: DynoVal,\n skinning: DynoVal,\n): DynoVal {\n const dyno = new Dyno<\n { gsplat: typeof Gsplat; skinning: typeof GsplatSkinning },\n { gsplat: typeof Gsplat }\n >({\n inTypes: { gsplat: Gsplat, skinning: GsplatSkinning },\n outTypes: { gsplat: Gsplat },\n globals: () => [defineGsplatSkinning, defineApplyGsplatSkinning],\n inputs: { gsplat, skinning },\n statements: ({ inputs, outputs }) => {\n const { skinning } = inputs;\n const { gsplat } = outputs;\n return unindentLines(`\n ${gsplat} = ${inputs.gsplat};\n if (isGsplatActive(${gsplat}.flags)) {\n applyGsplatSkinning(\n ${skinning}.numSplats, ${skinning}.numBones,\n ${skinning}.skinTexture, ${skinning}.boneTexture,\n ${gsplat}.index, ${gsplat}.center, ${gsplat}.quaternion\n );\n }\n `);\n },\n });\n return dyno.outputs.gsplat;\n}\n\nexport const defineApplyCovSplatDQSkinning = unindent(`\n void applyCovSplatDQSkinning(\n int numSplats, int numBones,\n usampler2DArray skinTexture, sampler2D boneTexture,\n int splatIndex, inout vec3 center, inout vec3 xxyyzz, inout vec3 xyxzyz\n ) {\n if ((splatIndex < 0) || (splatIndex >= numSplats)) {\n return;\n }\n\n uvec4 skinData = texelFetch(skinTexture, splatTexCoord(splatIndex), 0);\n\n float weights[4];\n weights[0] = float(skinData.x & 0xffu) / 255.0;\n weights[1] = float(skinData.y & 0xffu) / 255.0;\n weights[2] = float(skinData.z & 0xffu) / 255.0;\n weights[3] = float(skinData.w & 0xffu) / 255.0;\n\n uint boneIndices[4];\n boneIndices[0] = (skinData.x >> 8u) & 0xffu;\n boneIndices[1] = (skinData.y >> 8u) & 0xffu;\n boneIndices[2] = (skinData.z >> 8u) & 0xffu;\n boneIndices[3] = (skinData.w >> 8u) & 0xffu;\n\n vec4 quat = vec4(0.0);\n vec4 dual = vec4(0.0);\n for (int i = 0; i < 4; i++) {\n if (weights[i] > 0.0) {\n int boneIndex = int(boneIndices[i]);\n vec4 boneQuat = vec4(0.0, 0.0, 0.0, 1.0);\n vec4 boneDual = vec4(0.0);\n if (boneIndex < numBones) {\n boneQuat = texelFetch(boneTexture, ivec2(0, boneIndex), 0);\n boneDual = texelFetch(boneTexture, ivec2(1, boneIndex), 0);\n }\n\n if ((i > 0) && (dot(quat, boneQuat) < 0.0)) {\n // Flip sign if next blend is pointing in the opposite direction\n boneQuat = -boneQuat;\n boneDual = -boneDual;\n }\n quat += weights[i] * boneQuat;\n dual += weights[i] * boneDual;\n }\n }\n\n // Normalize dual quaternion\n float norm = length(quat);\n quat /= norm;\n dual /= norm;\n vec3 translate = vec3(\n 2.0 * (-dual.w * quat.x + dual.x * quat.w - dual.y * quat.z + dual.z * quat.y),\n 2.0 * (-dual.w * quat.y + dual.x * quat.z + dual.y * quat.w - dual.z * quat.x),\n 2.0 * (-dual.w * quat.z - dual.x * quat.y + dual.y * quat.x + dual.z * quat.w)\n );\n mat3 basis = quaternionToMatrix(quat);\n\n center = quatVec(quat, center) + translate;\n\n mat3 cov = mat3(xxyyzz.x, xyxzyz.x, xyxzyz.y, xyxzyz.x, xxyyzz.y, xyxzyz.z, xyxzyz.y, xyxzyz.z, xxyyzz.z);\n cov = basis * cov * transpose(basis);\n xxyyzz = vec3(cov[0][0], cov[1][1], cov[2][2]);\n xyxzyz = vec3(cov[0][1], cov[0][2], cov[1][2]);\n }\n`);\n\nexport const defineApplyCovSplatLBSkinning = unindent(`\n void applyCovSplatLBSkinning(\n int numSplats, int numBones,\n usampler2DArray skinTexture, sampler2D boneTexture,\n int splatIndex, inout vec3 center, inout vec3 xxyyzz, inout vec3 xyxzyz\n ) {\n if ((splatIndex < 0) || (splatIndex >= numSplats)) {\n return;\n }\n\n uvec4 skinData = texelFetch(skinTexture, splatTexCoord(splatIndex), 0);\n\n float weights[4];\n weights[0] = float(skinData.x & 0xffu) / 255.0;\n weights[1] = float(skinData.y & 0xffu) / 255.0;\n weights[2] = float(skinData.z & 0xffu) / 255.0;\n weights[3] = float(skinData.w & 0xffu) / 255.0;\n\n uint boneIndices[4];\n boneIndices[0] = (skinData.x >> 8u) & 0xffu;\n boneIndices[1] = (skinData.y >> 8u) & 0xffu;\n boneIndices[2] = (skinData.z >> 8u) & 0xffu;\n boneIndices[3] = (skinData.w >> 8u) & 0xffu;\n\n mat3 basis = mat3(0.0);\n vec3 offset = vec3(0.0);\n\n for (int i = 0; i < 4; i++) {\n if (weights[i] > 0.0) {\n int boneIndex = int(boneIndices[i]);\n if (boneIndex < numBones) {\n vec4 v0 = texelFetch(boneTexture, ivec2(0, boneIndex), 0);\n vec4 v1 = texelFetch(boneTexture, ivec2(1, boneIndex), 0);\n vec4 v2 = texelFetch(boneTexture, ivec2(2, boneIndex), 0);\n basis += weights[i] * mat3(v0.x, v0.y, v0.z, v0.w, v1.x, v1.y, v1.z, v1.w, v2.x);\n offset += weights[i] * vec3(v2.y, v2.z, v2.w);\n }\n }\n }\n\n center = basis * center + offset;\n\n mat3 cov = mat3(xxyyzz.x, xyxzyz.x, xyxzyz.y, xyxzyz.x, xxyyzz.y, xyxzyz.z, xyxzyz.y, xyxzyz.z, xxyyzz.z);\n cov = basis * cov * transpose(basis);\n xxyyzz = vec3(cov[0][0], cov[1][1], cov[2][2]);\n xyxzyz = vec3(cov[0][1], cov[0][2], cov[1][2]);\n }\n`);\n\nfunction applyCovSplatDQSkinning(\n covsplat: DynoVal,\n skinning: DynoVal,\n): DynoVal {\n const dyno = new Dyno<\n { covsplat: typeof CovSplat; skinning: typeof GsplatSkinning },\n { covsplat: typeof CovSplat }\n >({\n inTypes: { covsplat: CovSplat, skinning: GsplatSkinning },\n outTypes: { covsplat: CovSplat },\n globals: () => [defineGsplatSkinning, defineApplyCovSplatDQSkinning],\n inputs: { covsplat, skinning },\n statements: ({ inputs, outputs }) => {\n const { skinning } = inputs;\n const { covsplat } = outputs;\n return unindentLines(`\n ${covsplat} = ${inputs.covsplat};\n if (isCovSplatActive(${covsplat}.flags)) {\n applyCovSplatDQSkinning(\n ${skinning}.numSplats, ${skinning}.numBones,\n ${skinning}.skinTexture, ${skinning}.boneTexture,\n ${covsplat}.index, ${covsplat}.center, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz\n );\n }\n `);\n },\n });\n return dyno.outputs.covsplat;\n}\n\nfunction applyCovSplatLBSkinning(\n covsplat: DynoVal,\n skinning: DynoVal,\n): DynoVal {\n const dyno = new Dyno<\n { covsplat: typeof CovSplat; skinning: typeof GsplatSkinning },\n { covsplat: typeof CovSplat }\n >({\n inTypes: { covsplat: CovSplat, skinning: GsplatSkinning },\n outTypes: { covsplat: CovSplat },\n globals: () => [defineGsplatSkinning, defineApplyCovSplatLBSkinning],\n inputs: { covsplat, skinning },\n statements: ({ inputs, outputs }) => {\n const { skinning } = inputs;\n const { covsplat } = outputs;\n return unindentLines(`\n ${covsplat} = ${inputs.covsplat};\n if (isCovSplatActive(${covsplat}.flags)) {\n applyCovSplatLBSkinning(\n ${skinning}.numSplats, ${skinning}.numBones,\n ${skinning}.skinTexture, ${skinning}.boneTexture,\n ${covsplat}.index, ${covsplat}.center, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz\n );\n }\n `);\n },\n });\n return dyno.outputs.covsplat;\n}\n","import * as THREE from \"three\";\nimport { PackedSplats } from \"./PackedSplats\";\nimport { SplatMesh } from \"./SplatMesh\";\n\nexport function constructGrid({\n // PackedSplats object to add splats to\n splats,\n // min and max box extents of the grid\n extents,\n // step size along each grid axis\n stepSize = 1,\n // spherical radius of each Gsplat\n pointRadius = 0.01,\n // relative size of the \"shadow copy\" of each Gsplat placed behind it\n pointShadowScale = 2.0,\n // Gsplat opacity\n opacity = 1.0,\n // Gsplat color (THREE.Color) or function to set color for position:\n // ((THREE.Color, THREE.Vector3) => void) (default: RGB-modulated grid)\n color,\n}: {\n splats: PackedSplats;\n extents: THREE.Box3;\n stepSize?: number;\n pointRadius?: number;\n pointShadowScale?: number;\n opacity?: number;\n color?: THREE.Color | ((color: THREE.Color, point: THREE.Vector3) => void);\n}) {\n const EPSILON = 1.0e-6;\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3();\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n if (color == null) {\n color = (color, point) =>\n color.set(\n 0.55 + 0.45 * Math.cos(point.x * 1),\n 0.55 + 0.45 * Math.cos(point.y * 1),\n 0.55 + 0.45 * Math.cos(point.z * 1),\n );\n }\n const pointColor = new THREE.Color();\n for (let z = extents.min.z; z < extents.max.z + EPSILON; z += stepSize) {\n for (let y = extents.min.y; y < extents.max.y + EPSILON; y += stepSize) {\n for (let x = extents.min.x; x < extents.max.x + EPSILON; x += stepSize) {\n center.set(x, y, z);\n for (let layer = 0; layer < 2; ++layer) {\n scales.setScalar(pointRadius * (layer ? 1 : pointShadowScale));\n if (!layer) {\n pointColor.setScalar(0.0);\n } else if (typeof color === \"function\") {\n color(pointColor, center);\n } else {\n pointColor.copy(color);\n }\n splats.pushSplat(center, scales, quaternion, opacity, pointColor);\n }\n }\n }\n }\n}\n\nexport function constructAxes({\n // PackedSplats object to add splats to\n splats,\n // scale (Gsplat scale along axis)\n scale = 0.25,\n // radius of the axes (Gsplat scale orthogonal to axis)\n axisRadius = 0.0075,\n // relative size of the \"shadow copy\" of each Gsplat placed behind it\n axisShadowScale = 2.0,\n // origins of the axes (default single axis at origin)\n origins = [new THREE.Vector3()],\n}: {\n splats: PackedSplats;\n scale?: number;\n axisRadius?: number;\n axisShadowScale?: number;\n origins?: THREE.Vector3[];\n}) {\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3();\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n const color = new THREE.Color();\n const opacity = 1.0;\n for (const origin of origins) {\n for (let axis = 0; axis < 3; ++axis) {\n center.set(\n origin.x + (axis === 0 ? scale : 0),\n origin.y + (axis === 1 ? scale : 0),\n origin.z + (axis === 2 ? scale : 0),\n );\n for (let layer = 0; layer < 2; ++layer) {\n scales.set(\n (axis === 0 ? scale : axisRadius) * (layer ? 1 : axisShadowScale),\n (axis === 1 ? scale : axisRadius) * (layer ? 1 : axisShadowScale),\n (axis === 2 ? scale : axisRadius) * (layer ? 1 : axisShadowScale),\n );\n color.setRGB(\n layer === 0 ? 0.0 : axis === 0 ? 1.0 : 0.0,\n layer === 0 ? 0.0 : axis === 1 ? 1.0 : 0.0,\n layer === 0 ? 0.0 : axis === 2 ? 1.0 : 0.0,\n );\n splats.pushSplat(center, scales, quaternion, opacity, color);\n }\n }\n }\n}\n\nexport function constructSpherePoints({\n // PackedSplats object to add splats to\n splats,\n // center of the sphere (default: origin)\n origin = new THREE.Vector3(),\n // radius of the sphere\n radius = 1.0,\n // maximum depth of recursion for subdividing the sphere\n // Warning: Gsplat count grows exponentially with depth\n maxDepth = 3,\n // filter function to apply to each point, for example to select\n // points in a certain direction or other function ((THREE.Vector3) => boolean)\n // (default: null)\n filter = null,\n // radius of each oriented Gsplat\n pointRadius = 0.02,\n // flatness of each oriented Gsplat\n pointThickness = 0.001,\n // color of each Gsplat (THREE.Color) or function to set color for point:\n // ((THREE.Color, THREE.Vector3) => void) (default: white)\n color = new THREE.Color(1, 1, 1),\n}: {\n splats: PackedSplats;\n origin?: THREE.Vector3;\n radius?: number;\n maxDepth?: number;\n filter?: ((point: THREE.Vector3) => boolean) | null;\n pointRadius?: number;\n pointThickness?: number;\n color?: THREE.Color | ((color: THREE.Color, point: THREE.Vector3) => void);\n}) {\n const pointsHash: { [key: string]: THREE.Vector3 } = {};\n\n function addPoint(p: THREE.Vector3) {\n if (filter && !filter(p)) {\n return;\n }\n const key = `${p.x},${p.y},${p.z}`;\n if (!pointsHash[key]) {\n pointsHash[key] = p;\n }\n }\n\n function recurse(\n depth: number,\n p0: THREE.Vector3,\n p1: THREE.Vector3,\n p2: THREE.Vector3,\n ) {\n addPoint(p0);\n addPoint(p1);\n addPoint(p2);\n if (depth >= maxDepth) {\n return;\n }\n const p01 = new THREE.Vector3().addVectors(p0, p1).normalize();\n const p12 = new THREE.Vector3().addVectors(p1, p2).normalize();\n const p20 = new THREE.Vector3().addVectors(p2, p0).normalize();\n recurse(depth + 1, p0, p01, p20);\n recurse(depth + 1, p01, p1, p12);\n recurse(depth + 1, p20, p12, p2);\n recurse(depth + 1, p01, p12, p20);\n }\n\n for (const x of [-1, 1]) {\n for (const y of [-1, 1]) {\n for (const z of [-1, 1]) {\n const p0 = new THREE.Vector3(x, 0, 0);\n const p1 = new THREE.Vector3(0, y, 0);\n const p2 = new THREE.Vector3(0, 0, z);\n recurse(0, p0, p1, p2);\n }\n }\n }\n\n const points = Object.values(pointsHash);\n const scales = new THREE.Vector3(pointRadius, pointRadius, pointThickness);\n const quaternion = new THREE.Quaternion();\n const pointColor = typeof color === \"function\" ? new THREE.Color() : color;\n for (const point of points) {\n quaternion.setFromUnitVectors(new THREE.Vector3(0, 0, -1), point);\n if (typeof color === \"function\") {\n color(pointColor, point);\n }\n point.multiplyScalar(radius);\n point.add(origin);\n splats.pushSplat(point, scales, quaternion, 1.0, pointColor);\n }\n}\n\nexport function textSplats({\n // text string to display\n text,\n // browser font to render text with (default: \"Arial\")\n font,\n // font size in pixels/Gsplats (default: 32)\n fontSize,\n // SplatMesh.recolor tint assuming white Gsplats (default: white)\n color,\n // Individual Gsplat color (default: white)\n rgb,\n // Gsplat radius (default: 0.8 covers 1-unit spacing well)\n dotRadius,\n // text alignment: \"left\", \"center\", \"right\", \"start\", \"end\" (default: \"start\")\n textAlign,\n // line spacing multiplier, lines delimited by \"\\n\" (default: 1.0)\n lineHeight,\n // Coordinate scale in object-space (default: 1.0)\n objectScale,\n}: {\n text: string;\n font?: string;\n fontSize?: number;\n color?: THREE.Color;\n rgb?: THREE.Color;\n dotRadius?: number;\n textAlign?: \"left\" | \"center\" | \"right\" | \"start\" | \"end\";\n lineHeight?: number;\n objectScale?: number;\n}) {\n font = font ?? \"Arial\";\n fontSize = fontSize ?? 32;\n color = color ?? new THREE.Color(1, 1, 1);\n dotRadius = dotRadius ?? 0.8;\n textAlign = textAlign ?? \"start\";\n lineHeight = lineHeight ?? 1;\n objectScale = objectScale ?? 1;\n const lines = text.split(\"\\n\");\n\n const canvas = document.createElement(\"canvas\");\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n throw new Error(\"Failed to create canvas context\");\n }\n\n ctx.font = `${fontSize}px ${font}`;\n ctx.textAlign = textAlign;\n const metrics = ctx.measureText(\"\");\n const fontHeight =\n metrics.fontBoundingBoxAscent + metrics.fontBoundingBoxDescent;\n\n let minLeft = Number.POSITIVE_INFINITY;\n let maxRight = Number.NEGATIVE_INFINITY;\n let minTop = Number.POSITIVE_INFINITY;\n let maxBottom = Number.NEGATIVE_INFINITY;\n for (let line = 0; line < lines.length; ++line) {\n const metrics = ctx.measureText(lines[line]);\n const y = fontHeight * lineHeight * line;\n minLeft = Math.min(minLeft, -metrics.actualBoundingBoxLeft);\n maxRight = Math.max(maxRight, metrics.actualBoundingBoxRight);\n minTop = Math.min(minTop, y - metrics.actualBoundingBoxAscent);\n maxBottom = Math.max(maxBottom, y + metrics.actualBoundingBoxDescent);\n }\n const originLeft = Math.floor(minLeft);\n const originTop = Math.floor(minTop);\n const width = Math.ceil(maxRight) - originLeft;\n const height = Math.ceil(maxBottom) - originTop;\n canvas.width = width;\n canvas.height = height;\n\n ctx.font = `${fontSize}px ${font}`;\n ctx.textAlign = textAlign;\n ctx.textBaseline = \"alphabetic\";\n ctx.fillStyle = \"#FFFFFF\";\n for (let i = 0; i < lines.length; ++i) {\n const y = fontHeight * lineHeight * i - originTop;\n ctx.fillText(lines[i], -originLeft, y);\n }\n\n const imageData = ctx.getImageData(0, 0, width, height);\n const rgba = new Uint8Array(imageData.data.buffer);\n const splats = new PackedSplats();\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3().setScalar(dotRadius * objectScale);\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n rgb = rgb ?? new THREE.Color(1, 1, 1);\n\n let offset = 0;\n for (let y = 0; y < height; ++y) {\n for (let x = 0; x < width; ++x) {\n const a = rgba[offset + 3];\n if (a > 0) {\n const opacity = a / 255;\n center.set(x - 0.5 * (width - 1), 0.5 * (height - 1) - y, 0);\n center.multiplyScalar(objectScale);\n splats.pushSplat(center, scales, quaternion, opacity, rgb);\n }\n offset += 4;\n }\n }\n\n const mesh = new SplatMesh({ packedSplats: splats });\n mesh.recolor = color;\n return mesh;\n}\n\nexport function imageSplats({\n // URL of the image to convert to splats (example: `url: \"./image.png\"`)\n url,\n // Radius of each Gsplat, default covers 1-unit spacing well (default: 0.8)\n dotRadius,\n // Subsampling factor for the image. Higher values reduce resolution,\n // for example 2 will halve the width and height by averaging (default: 1)\n subXY,\n // Optional callback function to modify each Gsplat before it's added.\n // Return null to skip adding the Gsplat, or a number to set the opacity\n // and add the Gsplat with parameter values in the objects center, rgba etc. were\n // passed into the forEachSplat callback. Ending the callback in `return opacity;`\n // will retain the original opacity.\n // ((width: number, height: number, index: number, center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion, opacity: number, color: THREE.Color) => number | null)\n forEachSplat,\n}: {\n url: string;\n dotRadius?: number;\n subXY?: number;\n forEachSplat?: (\n width: number,\n height: number,\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => number | null;\n}): SplatMesh {\n dotRadius = dotRadius ?? 0.8;\n subXY = Math.max(1, Math.floor(subXY ?? 1));\n\n return new SplatMesh({\n constructSplats: async (splats) => {\n return new Promise((resolve, reject) => {\n const img = new Image();\n img.crossOrigin = \"anonymous\";\n img.onerror = reject;\n img.onload = () => {\n const { width, height } = img;\n const canvas = document.createElement(\"canvas\");\n canvas.width = width;\n canvas.height = height;\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n reject(new Error(\"Failed to create canvas context\"));\n return;\n }\n ctx.imageSmoothingEnabled = true;\n ctx.imageSmoothingQuality = \"high\";\n const destWidth = Math.round(width / subXY);\n const destHeight = Math.round(height / subXY);\n ctx.drawImage(img, 0, 0, destWidth, destHeight);\n try {\n const imageData = ctx.getImageData(0, 0, destWidth, destHeight);\n const rgba = new Uint8Array(imageData.data.buffer);\n\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3().setScalar(dotRadius);\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n const rgb = new THREE.Color();\n\n let index = 0;\n for (let y = 0; y < destHeight; ++y) {\n for (let x = 0; x < destWidth; ++x) {\n const offset = index * 4;\n const a = rgba[offset + 3];\n if (a > 0) {\n let opacity = a / 255;\n rgb.set(\n rgba[offset + 0] / 255,\n rgba[offset + 1] / 255,\n rgba[offset + 2] / 255,\n );\n center.set(\n x - 0.5 * (destWidth - 1),\n 0.5 * (destHeight - 1) - y,\n 0,\n );\n scales.setScalar(dotRadius);\n quaternion.set(0, 0, 0, 1);\n let push = true;\n if (forEachSplat) {\n const maybeOpacity = forEachSplat(\n destWidth,\n destHeight,\n index,\n center,\n scales,\n quaternion,\n opacity,\n rgb,\n );\n opacity = maybeOpacity ?? opacity;\n push = maybeOpacity !== null;\n }\n if (push) {\n splats.pushSplat(center, scales, quaternion, opacity, rgb);\n }\n }\n index += 1;\n }\n }\n resolve();\n } catch (error) {\n reject(error);\n }\n };\n img.src = url;\n });\n },\n });\n}\n","import * as THREE from \"three\";\nimport { SplatGenerator, SplatTransformer } from \"../SplatGenerator\";\nimport {\n type DynoVal,\n Gsplat,\n add,\n combine,\n combineGsplat,\n defineGsplat,\n div,\n dynoBlock,\n dynoConst,\n dynoFloat,\n dynoLiteral,\n floatBitsToInt,\n hashVec3,\n imod,\n mul,\n split,\n sub,\n vec3,\n} from \"../dyno\";\n\nexport function staticBox({\n box,\n cells,\n dotScale,\n color,\n opacity,\n}: {\n box: THREE.Box3;\n cells: THREE.Vector3;\n dotScale: number;\n color?: THREE.Color;\n opacity?: number;\n}) {\n cells.x = Math.max(1, Math.round(cells.x));\n cells.y = Math.max(1, Math.round(cells.y));\n cells.z = Math.max(1, Math.round(cells.z));\n opacity = opacity ?? 1;\n const numSplats = cells.x * cells.y * cells.z;\n const dynoX = dynoConst(\"int\", cells.x);\n const dynoY = dynoConst(\"int\", cells.y);\n const dynoZ = dynoConst(\"int\", cells.z);\n\n const dynoTime = dynoFloat(0);\n const generator = new SplatGenerator({\n numSplats,\n generator: dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n const cellX = imod(index, dynoX);\n const index2 = div(index, dynoX);\n const cellY = imod(index2, dynoY);\n const cellZ = div(index2, dynoY);\n const cell = combine({\n vectorType: \"ivec3\",\n x: cellX,\n y: cellY,\n z: cellZ,\n });\n\n const intTime = floatBitsToInt(dynoTime);\n const inputs = combine({ vectorType: \"ivec2\", x: index, y: intTime });\n const random = hashVec3(inputs);\n const min = dynoConst(\"vec3\", box.min);\n const max = dynoConst(\"vec3\", box.max);\n const size = sub(max, min);\n const coord = div(add(vec3(cell), random), dynoConst(\"vec3\", cells));\n let r: DynoVal<\"float\">;\n let g: DynoVal<\"float\">;\n let b: DynoVal<\"float\">;\n if (color) {\n r = dynoConst(\"float\", color.r);\n g = dynoConst(\"float\", color.g);\n b = dynoConst(\"float\", color.b);\n } else {\n ({ r, g, b } = split(coord).outputs);\n }\n const rgba = combine({\n vectorType: \"vec4\",\n r,\n g,\n b,\n a: dynoConst(\"float\", opacity),\n });\n const center = add(min, mul(size, coord));\n const scales = vec3(dynoConst(\"float\", dotScale));\n const quaternion = dynoConst(\"vec4\", new THREE.Quaternion(0, 0, 0, 1));\n let gsplat = combineGsplat({\n flags: dynoLiteral(\"uint\", \"GSPLAT_FLAG_ACTIVE\"),\n index: index,\n center,\n scales,\n quaternion,\n rgba,\n });\n gsplat = transformer.applyGsplat(gsplat);\n return { gsplat };\n },\n {\n globals: () => [defineGsplat],\n },\n ),\n update: ({ time }) => {\n dynoTime.value = time;\n const _updated = transformer.update(generator);\n generator.updateVersion();\n },\n });\n const transformer: SplatTransformer = new SplatTransformer();\n return generator;\n}\n","import * as THREE from \"three\";\n\nimport { SplatGenerator, SplatTransformer } from \"../SplatGenerator\";\nimport {\n Gsplat,\n add,\n combine,\n combineGsplat,\n defineGsplat,\n dynoBlock,\n dynoConst,\n dynoFloat,\n dynoLiteral,\n fract,\n hashVec4,\n max,\n mix,\n mod,\n mul,\n sin,\n split,\n sub,\n vec3,\n} from \"../dyno\";\nimport { dynoVec3 } from \"../dyno\";\n\n// snowBox produces Gsplat trajectories that move in a deterministic fashion over time,\n// with high similarity between adjacent frames. See examples/atmospheric/main.js\n// for an example that creates a snowBox.\n\n// A snowBox instance has a collection of properties that can be tuned to achieve\n// different particle effects. The below DEFAULT_SNOW and DEFAULT_RAIN are example\n// parameter sets that look a lot like snow and rain, and can be used as a starting\n// point for further tweaking: `const mySnow = { ...DEFAULT_SNOW, density: 500 };`\n\nexport const DEFAULT_SNOW = {\n box: new THREE.Box3(\n new THREE.Vector3(-1, -1, -1),\n new THREE.Vector3(1, 1, 1),\n ),\n density: 100,\n fallDirection: new THREE.Vector3(-1, -3, 1).normalize(),\n fallVelocity: 0.02,\n wanderScale: 0.04,\n wanderVariance: 2,\n color1: new THREE.Color(1, 1, 1),\n color2: new THREE.Color(0.5, 0.5, 1),\n minScale: 0.001,\n maxScale: 0.005,\n anisoScale: new THREE.Vector3(1, 1, 1),\n};\n\nexport const DEFAULT_RAIN = {\n box: new THREE.Box3(\n new THREE.Vector3(-2, -1, -2),\n new THREE.Vector3(2, 5, 2),\n ),\n density: 10,\n fallDirection: new THREE.Vector3(0, -1, 0),\n fallVelocity: 2,\n wanderScale: 0.1,\n wanderVariance: 1,\n color1: new THREE.Color(1, 1, 1),\n color2: new THREE.Color(0.25, 0.25, 0.5),\n minScale: 0.005,\n maxScale: 0.01,\n anisoScale: new THREE.Vector3(0.1, 1, 0.1),\n};\n\n// Calling snowBox creates a new snowBox instance and returns an object with\n// the snowBox itself as well `as` a collection of controls that can be used to\n// adjust the snowBox's properties over time:\n//\n// - snow: the SplatGenerator snowBox instance\n// - min: the vec3 uniform of the snowBox minimum position\n// - max: the vec3 uniform of the snowBox maximum position\n// - minY: the float uniform of the snowBox minimum y-coordinate\n// - color1: the vec3 uniform of the snowBox first color\n// - color2: the vec3 uniform of the snowBox second color\n// - opacity: the float uniform of the snowBox opacity\n// - fallVelocity: the float uniform of the snowBox fall velocity\n// - wanderVariance: the float uniform of the snowBox wander variance\n// - wanderScale: the float uniform of the snowBox wander scale\n// - fallDirection: the vec3 uniform of the snowBox fall direction\n// - minScale: the float uniform of the snowBox minimum scale\n// - maxScale: the float uniform of the snowBox maximum scale\n// - anisoScale: the vec3 uniform of the snowBox anisotropic scale\n\nexport function snowBox({\n // min and max box extents of the snowBox\n box,\n // minimum y-coordinate to clamp particle position, which can be used to\n // fake hitting a ground plane and lingering there for a bit\n minY,\n // number of Gsplats to generate (default: calculated from box and density)\n numSplats,\n // density of Gsplats per unit volume (default: 100)\n density,\n // The xyz anisotropic scale of the Gsplat, which can be used for example\n // to elongate rain particles (default: (1, 1, 1))\n anisoScale,\n // Minimum Gsplat particle scale (default: 0.001)\n minScale,\n // Maximum Gsplat particle scale (default: 0.005)\n maxScale,\n // The average direction of fall (default: (0, -1, 0))\n fallDirection,\n // The average speed of the fall (multiplied with fallDirection) (default: 0.02)\n fallVelocity,\n // The world scale of wandering overlay motion (default: 0.01)\n wanderScale,\n // Controls how uniformly the particles wander in sync, more variance mean\n // more randomness in the motion (default: 2)\n wanderVariance,\n // Color 1 of the two colors interpolated between (default: (1, 1, 1))\n color1,\n // Color 2 of the two colors interpolated between (default: (0.5, 0.5, 1))\n color2,\n // The base opacity of the Gsplats (default: 1)\n opacity,\n // Optional callback function to call each frame.\n onFrame,\n}: {\n box?: THREE.Box3;\n minY?: number;\n numSplats?: number;\n density?: number;\n anisoScale?: THREE.Vector3;\n minScale?: number;\n maxScale?: number;\n fallDirection?: THREE.Vector3;\n fallVelocity?: number;\n wanderScale?: number;\n wanderVariance?: number;\n color1?: THREE.Color;\n color2?: THREE.Color;\n opacity?: number;\n onFrame?: ({\n object,\n time,\n deltaTime,\n }: { object: SplatGenerator; time: number; deltaTime: number }) => void;\n}) {\n box =\n box ??\n new THREE.Box3(new THREE.Vector3(-1, -1, -1), new THREE.Vector3(1, 1, 1));\n const volume =\n (box.max.x - box.min.x) * (box.max.y - box.min.y) * (box.max.z - box.min.z);\n density = density ?? 100;\n numSplats =\n numSplats ?? Math.max(1, Math.min(1000000, Math.round(volume * density)));\n\n const dynoMinScale = dynoFloat(minScale ?? 0.001);\n const dynoMaxScale = dynoFloat(maxScale ?? 0.005);\n const dynoAnisoScale = dynoVec3(\n (anisoScale?.clone() ?? new THREE.Vector3(1, 1, 1)).normalize(),\n );\n const dynoFallDirection = dynoVec3(\n (fallDirection ?? new THREE.Vector3(0, -1, 0)).normalize(),\n );\n const dynoFallVelocity = dynoFloat(fallVelocity ?? 0.02);\n const dynoWanderScale = dynoFloat(wanderScale ?? 0.01);\n const dynoWanderVariance = dynoFloat(wanderVariance ?? 2);\n const dynoColor1 = dynoVec3(color1 ?? new THREE.Color(1, 1, 1));\n const dynoColor2 = dynoVec3(color2 ?? new THREE.Color(0.5, 0.5, 1));\n const dynoOpacity = dynoFloat(opacity ?? 1);\n\n const dynoTime = dynoFloat(0);\n const globalOffset = dynoVec3(new THREE.Vector3(0, 0, 0));\n const dynoMin = dynoVec3(box.min);\n const dynoMax = dynoVec3(box.max);\n const dynoMinY = dynoFloat(minY ?? Number.NEGATIVE_INFINITY);\n const minMax = sub(dynoMax, dynoMin);\n const snow = new SplatGenerator({\n numSplats,\n generator: dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index not defined\");\n }\n const random = hashVec4(index);\n const randomW = split(random).outputs.w;\n let position = vec3(random);\n\n let size = fract(mul(randomW, dynoConst(\"float\", 100)));\n size = sin(mul(dynoLiteral(\"float\", \"PI\"), size));\n size = add(dynoMinScale, mul(size, sub(dynoMaxScale, dynoMinScale)));\n const scales = mul(size, dynoAnisoScale);\n\n const intensity = fract(mul(randomW, dynoConst(\"float\", 10)));\n const hue = fract(randomW);\n const color = mix(dynoColor1, dynoColor2, hue);\n const rgb = mul(color, intensity);\n\n const random2 = hashVec4(\n combine({\n vectorType: \"ivec2\",\n x: index,\n y: dynoConst(\"int\", 0x1ab5),\n }),\n );\n let perturb = vec3(random2);\n let timeOffset = mul(split(random2).outputs.w, dynoWanderVariance);\n timeOffset = add(dynoTime, timeOffset);\n\n position = add(position, globalOffset);\n const modulo = mod(\n position,\n dynoConst(\"vec3\", new THREE.Vector3(1, 1, 1)),\n );\n position = add(dynoMin, mul(minMax, modulo));\n\n const quaternion = dynoConst(\"vec4\", new THREE.Quaternion(0, 0, 0, 1));\n\n perturb = sin(add(vec3(timeOffset), perturb));\n perturb = mul(perturb, dynoWanderScale);\n let center = add(position, perturb);\n\n let centerY = split(center).outputs.y;\n centerY = max(dynoMinY, centerY);\n center = combine({ vector: center, y: centerY });\n\n let gsplat = combineGsplat({\n flags: dynoLiteral(\"uint\", \"GSPLAT_FLAG_ACTIVE\"),\n index: index,\n center,\n scales,\n quaternion,\n rgb,\n opacity: dynoOpacity,\n });\n gsplat = transformer.applyGsplat(gsplat);\n return { gsplat };\n },\n {\n globals: () => [defineGsplat],\n },\n ),\n update: ({ object, time, deltaTime }) => {\n dynoTime.value = time;\n const _updated = transformer.update(snow);\n\n const fallDelta = dynoFallDirection.value\n .clone()\n .multiplyScalar(dynoFallVelocity.value * deltaTime);\n globalOffset.value.add(fallDelta);\n\n // Enable/disable splats based on opacity\n object.visible = dynoOpacity.value > 0;\n\n onFrame?.({ object, time, deltaTime });\n snow.updateVersion();\n },\n });\n const transformer: SplatTransformer = new SplatTransformer();\n return {\n snow,\n min: dynoMin,\n max: dynoMax,\n minY: dynoMinY,\n color1: dynoColor1,\n color2: dynoColor2,\n opacity: dynoOpacity,\n fallVelocity: dynoFallVelocity,\n wanderVariance: dynoWanderVariance,\n wanderScale: dynoWanderScale,\n fallDirection: dynoFallDirection,\n minScale: dynoMinScale,\n maxScale: dynoMaxScale,\n anisoScale: dynoAnisoScale,\n };\n}\n\nexport type SNOW_RESULT_TYPE = ReturnType;\n","import type { SplatTransformer } from \"../SplatGenerator\";\nimport type { SplatMesh } from \"../SplatMesh\";\nimport {\n Gsplat,\n add,\n combineGsplat,\n dot,\n dynoBlock,\n dynoConst,\n greaterThanEqual,\n gsplatNormal,\n mul,\n neg,\n select,\n splitGsplat,\n} from \"../dyno\";\n\nexport function makeNormalColorModifier(splatToView: SplatTransformer) {\n return dynoBlock({ gsplat: Gsplat }, { gsplat: Gsplat }, ({ gsplat }) => {\n if (!gsplat) {\n throw new Error(\"No gsplat input\");\n }\n let normal = gsplatNormal(gsplat);\n\n const viewGsplat = splatToView.applyGsplat(gsplat);\n const viewCenter = splitGsplat(viewGsplat).outputs.center;\n const viewNormal = gsplatNormal(viewGsplat);\n const splatDot = dot(viewCenter, viewNormal);\n\n const sameDir = greaterThanEqual(splatDot, dynoConst(\"float\", 0));\n normal = select(sameDir, neg(normal), normal);\n const rgb = add(\n mul(normal, dynoConst(\"float\", 0.5)),\n dynoConst(\"float\", 0.5),\n );\n\n gsplat = combineGsplat({ gsplat, rgb });\n return { gsplat };\n });\n}\n\nexport function setWorldNormalColor(splats: SplatMesh) {\n splats.enableWorldToView = true;\n splats.worldModifier = makeNormalColorModifier(splats.context.worldToView);\n splats.updateGenerator();\n}\n","import type { SplatTransformer } from \"../SplatGenerator\";\nimport type { SplatMesh } from \"../SplatMesh\";\nimport {\n type DynoVal,\n Gsplat,\n combineGsplat,\n dynoBlock,\n dynoConst,\n neg,\n normalizedDepth,\n select,\n split,\n splitGsplat,\n sub,\n} from \"../dyno\";\n\nexport function makeDepthColorModifier(\n splatToView: SplatTransformer,\n minDepth: DynoVal<\"float\">,\n maxDepth: DynoVal<\"float\">,\n reverse: DynoVal<\"bool\">,\n) {\n return dynoBlock({ gsplat: Gsplat }, { gsplat: Gsplat }, ({ gsplat }) => {\n if (!gsplat) {\n throw new Error(\"No gsplat input\");\n }\n let { center } = splitGsplat(gsplat).outputs;\n center = splatToView.apply(center);\n const { z } = split(center).outputs;\n let depth = normalizedDepth(neg(z), minDepth, maxDepth);\n depth = select(reverse, sub(dynoConst(\"float\", 1), depth), depth);\n\n gsplat = combineGsplat({ gsplat, r: depth, g: depth, b: depth });\n return { gsplat };\n });\n}\n\nexport function setDepthColor(\n splats: SplatMesh,\n minDepth: number,\n maxDepth: number,\n reverse?: boolean,\n) {\n splats.enableWorldToView = true;\n const dynoMinDepth = dynoConst(\"float\", minDepth);\n const dynoMaxDepth = dynoConst(\"float\", maxDepth);\n const dynoReverse = dynoConst(\"bool\", reverse ?? false);\n splats.worldModifier = makeDepthColorModifier(\n splats.context.worldToView,\n dynoMinDepth,\n dynoMaxDepth,\n dynoReverse,\n );\n splats.updateGenerator();\n return {\n minDepth: dynoMinDepth,\n maxDepth: dynoMaxDepth,\n reverse: dynoReverse,\n };\n}\n","import * as THREE from \"three\";\nimport { SplatMesh } from \"./SplatMesh\";\n\nexport interface SparkXrOptions {\n renderer: THREE.WebGLRenderer;\n // Element to attach enter/exit click handler to\n element?: HTMLElement;\n // ID of element to attach enter/exit click handler to\n elementId?: string;\n // Create a button to enter/exit XR\n // Optionally provide button text or HTML\n // Default is true - create a button\n button?: boolean | SparkXrButton;\n // Blur out element when mouse leaves it\n // Default is 0.5 - 50% opacity\n onMouseLeaveOpacity?: number;\n // Default is \"vrar\" - Try VR then AR\n mode?: \"vr\" | \"ar\" | \"arvr\" | \"vrar\";\n // fixedFoveation: XrManager.setFoveation(...)\n fixedFoveation?: number;\n // https://developer.mozilla.org/en-US/docs/Web/API/XRWebGLLayer/XRWebGLLayer#framebufferscalefactor\n // Default is 0.5 - 50% resolution for better frame rate\n frameBufferScaleFactor?: number;\n // https://developer.mozilla.org/en-US/docs/Web/API/XRReferenceSpace#reference_space_types\n // Defaults is \"local\" - origin is the user's position when starting XR session\n referenceSpaceType?: \"local\" | \"local-floor\" | \"unbounded\" | \"viewer\";\n // Enable hand tracking\n // Default is false\n enableHands?: boolean;\n // Allow WebXR entry on mobile phones that expose navigator.xr\n // Defaults to false - blocks phones to avoid unusable split-screen modes\n allowMobileXr?: boolean;\n // Session init options\n // Default is empty - no additional options\n sessionInit?: XRSessionInit;\n // Callback function called when SparkXr is ready\n // Default is undefined - no callback\n onReady?: (supported: boolean) => void | Promise;\n // Callback function called when entering XR\n // Default is undefined - no callback\n onEnterXr?: () => void | Promise;\n // Callback function called when exiting XR\n // Default is undefined - no callback\n onExitXr?: () => void | Promise;\n // ztroller movement and rotation options\n controllers?: SparkXrControllers;\n}\n\nexport interface SparkXrButton {\n enterXrHtml?: string;\n exitXrHtml?: string;\n enterVrHtml?: string;\n exitVrHtml?: string;\n enterArHtml?: string;\n exitArHtml?: string;\n enterXrText?: string;\n exitXrText?: string;\n enterVrText?: string;\n exitVrText?: string;\n enterArText?: string;\n exitArText?: string;\n style?: CSSStyleDeclaration;\n enterStyle?: CSSStyleDeclaration;\n exitStyle?: CSSStyleDeclaration;\n zIndex?: number;\n}\n\nexport type XrGamepads = {\n left?: Gamepad;\n right?: Gamepad;\n leftIsHand?: boolean;\n rightIsHand?: boolean;\n};\n\nexport interface SparkXrControllers {\n moveSpeed?: number;\n rotateSpeed?: number;\n rollSpeed?: number;\n fastMultiplier?: number;\n slowMultiplier?: number;\n moveHeading?: boolean;\n moveDirection?: boolean;\n getMove?: (gamepads: XrGamepads, sparkXr: SparkXr) => THREE.Vector3;\n getRotate?: (gamepads: XrGamepads, sparkXr: SparkXr) => THREE.Vector3;\n getFast?: (gamepads: XrGamepads, sparkXr: SparkXr) => boolean;\n getSlow?: (gamepads: XrGamepads, sparkXr: SparkXr) => boolean;\n}\n\nexport const DEFAULT_CONTROLLER_MOVE_SPEED = 1.0;\nexport const DEFAULT_CONTROLLER_ROTATE_SPEED = 4.0;\nexport const DEFAULT_CONTROLLER_ROLL_SPEED = 2.0;\nexport const DEFAULT_CONTROLLER_FAST_MULTIPLIER = 5;\nexport const DEFAULT_CONTROLLER_SLOW_MULTIPLIER = 1 / 5;\nexport const DEFAULT_CONTROLLER_MOVE_HEADING = false;\n\nexport const DEFAULT_CONTROLLER_GETMOVE = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.leftIsHand\n ? new THREE.Vector3()\n : new THREE.Vector3(\n gamepads.left?.axes[2] ?? 0,\n (gamepads.left?.buttons[0].value ?? 0) -\n (gamepads.left?.buttons[1].value ?? 0),\n gamepads.left?.axes[3] ?? 0,\n );\nexport const DEFAULT_CONTROLLER_GETROTATE = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.rightIsHand\n ? new THREE.Vector3()\n : new THREE.Vector3(gamepads.right?.axes[2] ?? 0, 0, 0);\nexport const DEFAULT_CONTROLLER_GETFAST = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.rightIsHand ? false : (gamepads.right?.buttons[0]?.pressed ?? false);\nexport const DEFAULT_CONTROLLER_GETSLOW = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.rightIsHand ? false : (gamepads.right?.buttons[1]?.pressed ?? false);\n\nexport enum JointEnum {\n w = \"wrist\",\n t0 = \"thumb-metacarpal\",\n t1 = \"thumb-phalanx-proximal\",\n t2 = \"thumb-phalanx-distal\",\n t3 = \"thumb-tip\",\n i0 = \"index-finger-metacarpal\",\n i1 = \"index-finger-phalanx-proximal\",\n i2 = \"index-finger-phalanx-intermediate\",\n i3 = \"index-finger-phalanx-distal\",\n i4 = \"index-finger-tip\",\n m0 = \"middle-finger-metacarpal\",\n m1 = \"middle-finger-phalanx-proximal\",\n m2 = \"middle-finger-phalanx-intermediate\",\n m3 = \"middle-finger-phalanx-distal\",\n m4 = \"middle-finger-tip\",\n r0 = \"ring-finger-metacarpal\",\n r1 = \"ring-finger-phalanx-proximal\",\n r2 = \"ring-finger-phalanx-intermediate\",\n r3 = \"ring-finger-phalanx-distal\",\n r4 = \"ring-finger-tip\",\n p0 = \"pinky-finger-metacarpal\",\n p1 = \"pinky-finger-phalanx-proximal\",\n p2 = \"pinky-finger-phalanx-intermediate\",\n p3 = \"pinky-finger-phalanx-distal\",\n p4 = \"pinky-finger-tip\",\n}\nexport type JointId = keyof typeof JointEnum;\nexport const JOINT_IDS = Object.keys(JointEnum) as JointId[];\nexport const NUM_JOINTS = JOINT_IDS.length;\n\nexport const JOINT_INDEX: { [key in JointId]: number } = {\n w: 0,\n t0: 1,\n t1: 2,\n t2: 3,\n t3: 4,\n i0: 5,\n i1: 6,\n i2: 7,\n i3: 8,\n i4: 9,\n m0: 10,\n m1: 11,\n m2: 12,\n m3: 13,\n m4: 14,\n r0: 15,\n r1: 16,\n r2: 17,\n r3: 18,\n r4: 19,\n p0: 20,\n p1: 21,\n p2: 22,\n p3: 23,\n p4: 24,\n};\n\nexport const JOINT_RADIUS: { [key in JointId]: number } = {\n w: 0.02,\n t0: 0.015,\n t1: 0.012,\n t2: 0.0105,\n t3: 0.0085,\n i0: 0.022,\n i1: 0.012,\n i2: 0.0085,\n i3: 0.0075,\n i4: 0.0065,\n m0: 0.021,\n m1: 0.012,\n m2: 0.008,\n m3: 0.0075,\n m4: 0.0065,\n r0: 0.019,\n r1: 0.011,\n r2: 0.0075,\n r3: 0.007,\n r4: 0.006,\n p0: 0.012,\n p1: 0.01,\n p2: 0.007,\n p3: 0.0065,\n p4: 0.0055,\n};\n\nexport const JOINT_SEGMENTS: JointId[][] = [\n [\"w\", \"t0\", \"t1\", \"t2\", \"t3\"],\n [\"w\", \"i0\", \"i1\", \"i2\", \"i3\", \"i4\"],\n [\"w\", \"m0\", \"m1\", \"m2\", \"m3\", \"m4\"],\n [\"w\", \"r0\", \"r1\", \"r2\", \"r3\", \"r4\"],\n [\"w\", \"p0\", \"p1\", \"p2\", \"p3\", \"p4\"],\n];\n\nexport const JOINT_SEGMENT_STEPS: number[][] = [\n [8, 10, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n];\n\nexport const JOINT_TIPS: JointId[] = [\"t3\", \"i4\", \"m4\", \"r4\", \"p4\"];\nexport const FINGER_TIPS: JointId[] = [\"i4\", \"m4\", \"r4\", \"p4\"];\n\nexport enum Hand {\n left = \"left\",\n right = \"right\",\n}\nexport const HANDS = Object.keys(Hand) as Hand[];\n\nconst XR_HEADSET_HINTS =\n /Quest|OculusBrowser|VisionOS|XRBrowser|Pico|Lynx|MagicLeap/i;\n\nfunction isLikelyMobilePhone() {\n const ua = navigator.userAgent ?? \"\";\n if (XR_HEADSET_HINTS.test(ua)) {\n return false;\n }\n\n const androidMobile = /Android/i.test(ua) || /Mobile/i.test(ua);\n if (androidMobile) {\n return true;\n }\n\n const uaData = (\n navigator as Navigator & {\n userAgentData?: { mobile?: boolean };\n }\n ).userAgentData;\n if (uaData && typeof uaData.mobile === \"boolean\") {\n return uaData.mobile;\n }\n\n return false;\n}\n\nexport type Joint = {\n position: THREE.Vector3;\n quaternion: THREE.Quaternion;\n radius: number;\n};\n\nexport type HandJoints = { [key in JointId]?: Joint };\n\nexport class SparkXr {\n renderer: THREE.WebGLRenderer;\n xr?: XRSystem;\n element?: HTMLElement;\n button?: SparkXrButton;\n mode: XRSessionMode | \"initializing\" | \"not_supported\";\n sessionInit?: XRSessionInit;\n session?: XRSession;\n onEnterXr?: () => void;\n onExitXr?: () => void;\n\n controllers?: SparkXrControllers;\n lastControllersUpdate = 0;\n\n enableHands: boolean;\n hands: XrHand[] = [];\n\n constructor(options: SparkXrOptions) {\n this.renderer = options.renderer;\n this.xr = navigator.xr;\n this.mode = \"initializing\";\n this.onEnterXr = options.onEnterXr;\n this.onExitXr = options.onExitXr;\n this.enableHands = options.enableHands ?? false;\n this.controllers = options.controllers;\n\n Promise.resolve()\n .then(() => {\n if (!this.xr) {\n this.mode = \"not_supported\";\n return;\n }\n\n if (!options.allowMobileXr && isLikelyMobilePhone()) {\n this.mode = \"not_supported\";\n return;\n }\n\n if (this.enableHands) {\n this.hands = [new XrHand(Hand.left), new XrHand(Hand.right)];\n }\n\n let element: HTMLElement | undefined = undefined;\n let button: SparkXrButton | undefined = undefined;\n if (options.element) {\n element = options.element;\n } else if (options.elementId) {\n element = document.getElementById(options.elementId) ?? undefined;\n } else {\n element = SparkXr.createButton();\n button =\n options.button == null || typeof options.button === \"boolean\"\n ? {}\n : options.button;\n }\n\n if (!element) {\n throw new Error(\"No element or button provided\");\n }\n\n element.style.display = \"none\";\n element.classList.add(\"hidden\");\n this.button = button;\n this.element = element;\n\n const opacity = options.onMouseLeaveOpacity?.toString();\n if (opacity !== undefined) {\n element.addEventListener(\"mouseleave\", () => {\n element.style.opacity = opacity;\n });\n element.addEventListener(\"mouseenter\", () => {\n element.style.opacity = \"\";\n });\n }\n\n return this.initializeXr(options);\n })\n .then(() => {\n return options.onReady?.(this.mode !== \"not_supported\");\n })\n .catch((error) => {\n alert(`Error initializing SparkXr: ${error}`);\n });\n }\n\n private async initializeXr(options: SparkXrOptions) {\n if (!this.xr || !this.element) {\n return;\n }\n const element = this.element;\n\n const modes = {\n vr: [\"immersive-vr\"],\n ar: [\"immersive-ar\"],\n arvr: [\"immersive-ar\", \"immersive-vr\"],\n vrar: [\"immersive-vr\", \"immersive-ar\"],\n }[options.mode ?? \"vrar\"] as XRSessionMode[] | undefined;\n if (!modes) {\n throw new Error(`Invalid mode: ${options.mode}`);\n }\n\n let supported = null;\n for (const mode of modes) {\n if (await this.xr.isSessionSupported(mode)) {\n supported = mode;\n break;\n }\n }\n\n if (!supported) {\n this.mode = \"not_supported\";\n return;\n }\n this.mode = supported;\n\n const referenceSpaceType = options.referenceSpaceType ?? \"local\";\n\n this.renderer.xr.enabled = true;\n this.renderer.xr.setReferenceSpaceType(referenceSpaceType);\n\n if (options.fixedFoveation !== undefined) {\n this.renderer.xr.setFoveation(options.fixedFoveation);\n }\n const frameBufferScaleFactor = options.frameBufferScaleFactor ?? 0.5;\n this.renderer.xr.setFramebufferScaleFactor(frameBufferScaleFactor);\n\n const optionalFeatures = options.sessionInit?.optionalFeatures ?? [];\n if (options.enableHands) {\n optionalFeatures.push(\"hand-tracking\");\n }\n\n const requiredFeatures = options.sessionInit?.requiredFeatures ?? [];\n requiredFeatures.push(referenceSpaceType);\n\n this.sessionInit = {\n ...options.sessionInit,\n optionalFeatures,\n requiredFeatures,\n };\n // console.log(\"* this.sessionInit\", this.sessionInit);\n\n element.addEventListener(\"click\", () => {\n this.toggleXr();\n });\n\n this.updateElement();\n }\n\n async toggleXr() {\n if (!this.xr || !this.sessionInit) {\n // console.log(\"* !this.xr || !this.sessionInit\");\n return;\n }\n\n if (!this.session) {\n try {\n const mode = this.mode as XRSessionMode;\n const session = await this.xr.requestSession(mode, this.sessionInit);\n this.session = session;\n // console.log(\"* this.session\", this.session);\n\n const onSessionEnded = () => {\n session?.removeEventListener(\"end\", onSessionEnded);\n session?.removeEventListener(\"visibilitychange\", visibilityChanged);\n this.session = undefined;\n\n this.updateElement();\n this.onExitXr?.();\n };\n\n let lastVisibilityState = session.visibilityState;\n const visibilityChanged = () => {\n if (\n session?.visibilityState === \"visible-blurred\" &&\n lastVisibilityState === \"visible\"\n ) {\n session?.end();\n }\n lastVisibilityState = session?.visibilityState;\n };\n\n this.session?.addEventListener(\"end\", onSessionEnded);\n this.session?.addEventListener(\"visibilitychange\", visibilityChanged);\n\n await this.renderer.xr.setSession(this.session);\n // console.log(\"* setSession\");\n\n return this.onEnterXr?.();\n } catch (error) {\n console.error(\"Error requesting XR session\", error);\n return;\n }\n } else {\n this.session.end();\n // console.log(\"* end session\");\n }\n }\n\n private updateElement() {\n const mode = this.mode as XRSessionMode;\n const element = this.element;\n if (element) {\n element.style.display = \"\";\n element.classList.remove(\"hidden\");\n\n const button = typeof this.button === \"boolean\" ? {} : this.button;\n if (button) {\n if (!this.session) {\n const enterHtml =\n (mode === \"immersive-vr\"\n ? button.enterVrHtml\n : button.enterArHtml) ?? button.enterXrHtml;\n const enterText =\n (mode === \"immersive-vr\"\n ? button.enterVrText\n : button.enterArText) ?? button.enterXrText;\n if (enterHtml) {\n element.innerHTML = enterHtml;\n } else if (enterText) {\n element.textContent = enterText;\n } else {\n element.textContent =\n mode === \"immersive-vr\" ? \"ENTER VR\" : \"ENTER AR\";\n }\n } else {\n const exitHtml =\n (mode === \"immersive-vr\" ? button.exitVrHtml : button.exitArHtml) ??\n button.exitXrHtml;\n const exitText =\n (mode === \"immersive-vr\" ? button.exitVrText : button.exitArText) ??\n button.exitXrText;\n if (exitHtml) {\n element.innerHTML = exitHtml;\n } else if (exitText) {\n element.textContent = exitText;\n } else {\n element.textContent =\n mode === \"immersive-vr\" ? \"EXIT VR\" : \"EXIT AR\";\n }\n }\n\n element.style.display = \"\";\n }\n }\n }\n\n private static createButton() {\n const button = document.createElement(\"button\");\n Object.assign(button.style, {\n position: \"absolute\",\n bottom: \"20px\",\n left: \"50%\",\n transform: \"translateX(-50%)\",\n padding: \"40px 40px\",\n border: \"2px solid #fff\",\n borderRadius: \"16px\",\n background: \"rgba(0,0,0,0.1)\",\n color: \"#fff\",\n font: \"bold 28px sans-serif\",\n textAlign: \"center\",\n userSelect: \"none\",\n zIndex: \"999\",\n });\n document.body.appendChild(button);\n return button;\n }\n\n xrSupported() {\n return !!this.xr;\n }\n\n static JointEnum = JointEnum;\n static JOINT_IDS = JOINT_IDS;\n static NUM_JOINTS = NUM_JOINTS;\n static JOINT_INDEX = JOINT_INDEX;\n static JOINT_RADIUS = JOINT_RADIUS;\n static JOINT_SEGMENTS = JOINT_SEGMENTS;\n static JOINT_SEGMENT_STEPS = JOINT_SEGMENT_STEPS;\n static JOINT_TIPS = JOINT_TIPS;\n static FINGER_TIPS = FINGER_TIPS;\n static Hand = Hand;\n static HANDS = HANDS;\n\n left() {\n return this.hands[0];\n }\n\n right() {\n return this.hands[1];\n }\n\n updateControllers(camera: THREE.Camera) {\n const cameraFrame = camera.parent as THREE.Group;\n\n const now = performance.now();\n const deltaTime = (now - (this.lastControllersUpdate || now)) / 1000;\n this.lastControllersUpdate = now;\n\n const xrGamepads: XrGamepads = {};\n for (const source of this.renderer.xr.getSession()?.inputSources ?? []) {\n const gamepad = source.gamepad;\n if (\n gamepad &&\n (source.handedness === \"left\" || source.handedness === \"right\")\n ) {\n xrGamepads[source.handedness] = gamepad;\n if (source.handedness === \"left\") {\n xrGamepads.leftIsHand = !!source.hand;\n } else if (source.handedness === \"right\") {\n xrGamepads.rightIsHand = !!source.hand;\n }\n }\n }\n\n const rotate = (\n this.controllers?.getRotate ?? DEFAULT_CONTROLLER_GETROTATE\n )(xrGamepads, this);\n rotate.multiply(\n new THREE.Vector3(\n this.controllers?.rotateSpeed ?? DEFAULT_CONTROLLER_ROTATE_SPEED,\n this.controllers?.rotateSpeed ?? DEFAULT_CONTROLLER_ROTATE_SPEED,\n this.controllers?.rollSpeed ?? DEFAULT_CONTROLLER_ROLL_SPEED,\n ),\n );\n\n if (rotate.manhattanLength() > 0.0) {\n rotate.multiplyScalar(deltaTime);\n const eulers = new THREE.Euler(-rotate.y, -rotate.x, rotate.z, \"YXZ\");\n const quat = new THREE.Quaternion().setFromEuler(eulers);\n\n const pivot = camera.getWorldPosition(new THREE.Vector3());\n cameraFrame.parent?.worldToLocal(pivot);\n\n cameraFrame.position.sub(pivot);\n cameraFrame.position.applyQuaternion(quat);\n cameraFrame.position.add(pivot);\n cameraFrame.quaternion.premultiply(quat);\n }\n\n const move = (this.controllers?.getMove ?? DEFAULT_CONTROLLER_GETMOVE)(\n xrGamepads,\n this,\n );\n\n let moveSpeed =\n this.controllers?.moveSpeed ?? DEFAULT_CONTROLLER_MOVE_SPEED;\n if (\n (this.controllers?.getFast ?? DEFAULT_CONTROLLER_GETFAST)(\n xrGamepads,\n this,\n )\n ) {\n moveSpeed *= DEFAULT_CONTROLLER_FAST_MULTIPLIER;\n }\n if (\n (this.controllers?.getSlow ?? DEFAULT_CONTROLLER_GETSLOW)(\n xrGamepads,\n this,\n )\n ) {\n moveSpeed *= DEFAULT_CONTROLLER_SLOW_MULTIPLIER;\n }\n\n if (this.controllers?.moveHeading) {\n move.applyQuaternion(camera.quaternion);\n } else if (this.controllers?.moveDirection) {\n SCRATCH_EULER.setFromQuaternion(camera.quaternion, \"YXZ\");\n SCRATCH_EULER.x = 0;\n SCRATCH_EULER.z = 0;\n SCRATCH_QUAT_A.setFromEuler(SCRATCH_EULER);\n move.applyQuaternion(SCRATCH_QUAT_A);\n }\n move.applyQuaternion(cameraFrame.quaternion);\n\n move.multiplyScalar(deltaTime * moveSpeed);\n cameraFrame.position.add(move);\n }\n\n updateHands({ xrFrame }: { xrFrame: XRFrame }) {\n const xrSession = this.renderer.xr.getSession();\n if (!xrSession) {\n return;\n }\n const referenceSpace = this.renderer.xr.getReferenceSpace();\n if (!referenceSpace) {\n return;\n }\n if (!xrFrame.getJointPose) {\n return;\n }\n\n for (const hand of this.hands) {\n if (hand) {\n hand.lastJoints = hand.joints;\n hand.joints = undefined;\n }\n }\n\n for (const inputSource of xrSession.inputSources) {\n if (!inputSource.hand) {\n continue;\n }\n const hand = inputSource.handedness as Hand;\n const xrHand = this.hands[hand === Hand.left ? 0 : 1];\n if (!xrHand) {\n continue;\n }\n\n for (const jointId of JOINT_IDS) {\n const jointSpace = inputSource.hand.get(JointEnum[jointId]);\n if (jointSpace) {\n const jointPose = xrFrame.getJointPose(jointSpace, referenceSpace);\n if (jointPose) {\n const { position, orientation } = jointPose.transform;\n\n if (!xrHand.joints) {\n xrHand.joints = {};\n }\n xrHand.joints[jointId] = {\n position: new THREE.Vector3(position.x, position.y, position.z),\n quaternion: new THREE.Quaternion(\n orientation.x,\n orientation.y,\n orientation.z,\n orientation.w,\n ),\n radius: JOINT_RADIUS[jointId],\n };\n }\n }\n }\n }\n }\n\n makeJointSplats(hand: Hand): JointSplats {\n const mesh = new JointSplats(hand);\n mesh.onFrame = () => {\n const xrHand = this.hands[hand === Hand.left ? 0 : 1];\n const joints = xrHand?.joints;\n mesh.updateJoints(joints);\n };\n return mesh;\n }\n\n snapshotHands(time: number) {\n const hands = [\n this.hands[0]?.snapshotJoints(),\n this.hands[1]?.snapshotJoints(),\n ];\n return { time, hands };\n }\n}\n\ntype JointSnapshot = { pos: number[]; quat: number[]; radius: number };\ntype HandSnapshot = { [key in JointId]?: JointSnapshot };\ntype HandsSnapshot = {\n time: number;\n hands: (HandSnapshot | undefined)[];\n};\n\nconst round4 = (value: number) => Math.round(value * 10000) / 10000;\nconst SCRATCH_EULER = new THREE.Euler(0, 0, 0, \"YXZ\");\nconst SCRATCH_QUAT_A = new THREE.Quaternion();\nconst SCRATCH_QUAT_B = new THREE.Quaternion();\n\nexport function lerpHandsSnapshots(\n snapshots: HandsSnapshot[],\n time: number,\n): HandsSnapshot | null {\n if (!snapshots.length) {\n return null;\n }\n\n const first = snapshots[0];\n const last = snapshots[snapshots.length - 1];\n\n if (time < first.time || time > last.time) {\n return null;\n }\n\n const floorIndex = findSnapshotFloorIndex(snapshots, time);\n if (floorIndex === -1) {\n return null;\n }\n\n const from = snapshots[floorIndex];\n const to = snapshots[floorIndex + 1];\n if (!to) {\n return cloneSnapshot(from, time);\n }\n\n const span = to.time - from.time;\n const factor = span > 0 ? (time - from.time) / span : 0;\n\n return interpolateSnapshots(from, to, factor, time);\n}\n\nfunction interpolateSnapshots(\n from: HandsSnapshot,\n to: HandsSnapshot,\n factor: number,\n time: number,\n): HandsSnapshot {\n const maxHands = Math.max(from.hands.length, to.hands.length);\n const hands = Array.from({ length: maxHands }, (_, handIndex) =>\n lerpHandSnapshot(from.hands[handIndex], to.hands[handIndex], factor),\n );\n return { time, hands };\n}\n\nfunction cloneSnapshot(snapshot: HandsSnapshot, time: number): HandsSnapshot {\n return {\n time,\n hands: snapshot.hands.map((hand) => cloneHandSnapshot(hand)),\n };\n}\n\nexport class XrHand {\n hand: Hand;\n joints?: HandJoints;\n lastJoints?: HandJoints;\n\n constructor(hand: Hand) {\n this.hand = hand;\n }\n\n static newFromSnapshot(hand: Hand, snapshot: HandSnapshot) {\n const h = new XrHand(hand);\n h.joints = {};\n for (const jointId of JOINT_IDS) {\n const joint = snapshot[jointId];\n if (!joint) {\n continue;\n }\n h.joints[jointId] = {\n position: new THREE.Vector3(joint.pos[0], joint.pos[1], joint.pos[2]),\n quaternion: new THREE.Quaternion(\n joint.quat[0],\n joint.quat[1],\n joint.quat[2],\n joint.quat[3],\n ),\n radius: joint.radius,\n };\n }\n return h;\n }\n\n valid() {\n return !!this.joints;\n }\n\n snapshotJoints() {\n if (!this.joints) {\n return undefined;\n }\n\n const snapshot: HandSnapshot = {};\n for (const jointId of JOINT_IDS) {\n const joint = this.joints[jointId];\n if (!joint) {\n continue;\n }\n snapshot[jointId] = {\n pos: joint.position.toArray().map(round4),\n quat: joint.quaternion.toArray().map(round4),\n radius: round4(joint.radius),\n };\n }\n return snapshot;\n }\n\n toFlatArray() {\n if (!this.joints) {\n return undefined;\n }\n const array = new Float32Array(1 + 25 * 7);\n array[0] = this.hand === Hand.left ? 0 : 1;\n let index = 1;\n for (const jointId of JOINT_IDS) {\n const joint = this.joints[jointId];\n if (joint) {\n array[index] = joint.position.x;\n array[index + 1] = joint.position.y;\n array[index + 2] = joint.position.z;\n array[index + 3] = joint.quaternion.x;\n array[index + 4] = joint.quaternion.y;\n array[index + 5] = joint.quaternion.z;\n array[index + 6] = joint.quaternion.w;\n }\n index += 7;\n }\n return array;\n }\n}\n\nfunction findSnapshotFloorIndex(snapshots: HandsSnapshot[], time: number) {\n let low = 0;\n let high = snapshots.length - 1;\n while (low <= high) {\n const mid = (low + high) >> 1;\n if (snapshots[mid].time <= time) {\n low = mid + 1;\n } else {\n high = mid - 1;\n }\n }\n return high;\n}\n\nfunction lerpHandSnapshot(\n fromHand?: HandSnapshot,\n toHand?: HandSnapshot,\n factor = 0,\n) {\n if (!fromHand || !toHand) {\n return undefined;\n }\n const hand: HandSnapshot = {};\n for (const jointId of JOINT_IDS) {\n const joint = lerpJointSnapshot(fromHand[jointId], toHand[jointId], factor);\n if (joint) {\n hand[jointId] = joint;\n }\n }\n return hand;\n}\n\nfunction lerpJointSnapshot(\n fromJoint?: JointSnapshot,\n toJoint?: JointSnapshot,\n factor = 0,\n) {\n if (!fromJoint || !toJoint) {\n return undefined;\n }\n const pos = fromJoint.pos.map(\n (value, index) => value + (toJoint.pos[index] - value) * factor,\n );\n const quat = SCRATCH_QUAT_A.fromArray(fromJoint.quat)\n .slerp(SCRATCH_QUAT_B.fromArray(toJoint.quat), factor)\n .toArray();\n const radius =\n fromJoint.radius + (toJoint.radius - fromJoint.radius) * factor;\n\n return { pos, quat, radius };\n}\n\nfunction cloneHandSnapshot(hand?: HandSnapshot) {\n if (!hand) {\n return undefined;\n }\n const clone: HandSnapshot = {};\n for (const jointId of JOINT_IDS) {\n const joint = hand[jointId];\n if (joint) {\n clone[jointId] = cloneJointSnapshot(joint);\n }\n }\n return clone;\n}\n\nfunction cloneJointSnapshot(joint: JointSnapshot): JointSnapshot {\n return {\n pos: [...joint.pos],\n quat: [...joint.quat],\n radius: joint.radius,\n };\n}\n\nexport class JointSplats extends SplatMesh {\n hand: Hand;\n\n constructor(hand: Hand) {\n super({});\n this.hand = hand;\n }\n\n private scratchCenter = new THREE.Vector3();\n private scratchQuat = new THREE.Quaternion(0, 0, 0, 1);\n private scratchScales = new THREE.Vector3().setScalar(0.01);\n private scratchColor = new THREE.Color(1, 1, 1);\n\n updateJoints(joints?: HandJoints) {\n this.visible = false;\n\n if (!joints || !this.packedSplats) {\n return;\n }\n\n this.visible = true;\n let splatIndex = 0;\n\n for (const jointId of JOINT_IDS) {\n const joint = joints[jointId];\n if (!joint) {\n continue;\n }\n this.scratchCenter.copy(joint.position);\n this.scratchQuat.copy(joint.quaternion);\n this.scratchScales.set(\n joint.radius,\n 0.75 * joint.radius,\n 1.5 * joint.radius,\n );\n // this.scratchColor.set((joint.radius * 123) % 1, (joint.radius * 345) % 1, (joint.radius * 234) % 1);\n const opacity = 0.75;\n\n this.packedSplats.setSplat(\n splatIndex,\n this.scratchCenter,\n this.scratchScales,\n this.scratchQuat,\n opacity,\n this.scratchColor,\n );\n splatIndex += 1;\n }\n\n this.packedSplats.numSplats = splatIndex;\n this.packedSplats.needsUpdate = true;\n this.numSplats = splatIndex;\n this.updateVersion();\n }\n}\n","import {\n Color,\n Matrix4,\n type Object3D,\n Quaternion,\n Vector3,\n type WebXRManager,\n} from \"three\";\nimport { SplatMesh } from \"./SplatMesh\";\n\n// Experimental WebXR hand tracking and movement\n\nconst DEFAULT_MOVE_INERTIA = 0.5;\nconst DEFAULT_ROTATE_INERTIA = 0.5;\nconst TOUCH_BIAS = 0.0;\n\nexport enum JointEnum {\n w = \"wrist\",\n t0 = \"thumb-metacarpal\",\n t1 = \"thumb-phalanx-proximal\",\n t2 = \"thumb-phalanx-distal\",\n t3 = \"thumb-tip\",\n i0 = \"index-finger-metacarpal\",\n i1 = \"index-finger-phalanx-proximal\",\n i2 = \"index-finger-phalanx-intermediate\",\n i3 = \"index-finger-phalanx-distal\",\n i4 = \"index-finger-tip\",\n m0 = \"middle-finger-metacarpal\",\n m1 = \"middle-finger-phalanx-proximal\",\n m2 = \"middle-finger-phalanx-intermediate\",\n m3 = \"middle-finger-phalanx-distal\",\n m4 = \"middle-finger-tip\",\n r0 = \"ring-finger-metacarpal\",\n r1 = \"ring-finger-phalanx-proximal\",\n r2 = \"ring-finger-phalanx-intermediate\",\n r3 = \"ring-finger-phalanx-distal\",\n r4 = \"ring-finger-tip\",\n p0 = \"pinky-finger-metacarpal\",\n p1 = \"pinky-finger-phalanx-proximal\",\n p2 = \"pinky-finger-phalanx-intermediate\",\n p3 = \"pinky-finger-phalanx-distal\",\n p4 = \"pinky-finger-tip\",\n}\nexport type JointId = keyof typeof JointEnum;\nexport const JOINT_IDS = Object.keys(JointEnum) as JointId[];\nexport const NUM_JOINTS = JOINT_IDS.length;\n\nexport const JOINT_INDEX: { [key in JointId]: number } = {\n w: 0,\n t0: 1,\n t1: 2,\n t2: 3,\n t3: 4,\n i0: 5,\n i1: 6,\n i2: 7,\n i3: 8,\n i4: 9,\n m0: 10,\n m1: 11,\n m2: 12,\n m3: 13,\n m4: 14,\n r0: 15,\n r1: 16,\n r2: 17,\n r3: 18,\n r4: 19,\n p0: 20,\n p1: 21,\n p2: 22,\n p3: 23,\n p4: 24,\n};\n\nexport const JOINT_RADIUS: { [key in JointId]: number } = {\n w: 0.02,\n t0: 0.02,\n t1: 0.014,\n t2: 0.0115,\n t3: 0.0085,\n i0: 0.022,\n i1: 0.012,\n i2: 0.0085,\n i3: 0.0075,\n i4: 0.0065,\n m0: 0.021,\n m1: 0.012,\n m2: 0.008,\n m3: 0.0075,\n m4: 0.0065,\n r0: 0.019,\n r1: 0.011,\n r2: 0.0075,\n r3: 0.007,\n r4: 0.006,\n p0: 0.012,\n p1: 0.01,\n p2: 0.007,\n p3: 0.0065,\n p4: 0.0055,\n};\n\nexport const JOINT_SEGMENTS: JointId[][] = [\n [\"w\", \"t0\", \"t1\", \"t2\", \"t3\"],\n [\"w\", \"i0\", \"i1\", \"i2\", \"i3\", \"i4\"],\n [\"w\", \"m0\", \"m1\", \"m2\", \"m3\", \"m4\"],\n [\"w\", \"r0\", \"r1\", \"r2\", \"r3\", \"r4\"],\n [\"w\", \"p0\", \"p1\", \"p2\", \"p3\", \"p4\"],\n];\n\nexport const JOINT_SEGMENT_STEPS: number[][] = [\n [8, 10, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n];\n\nexport const JOINT_TIPS: JointId[] = [\"t3\", \"i4\", \"m4\", \"r4\", \"p4\"];\nexport const FINGER_TIPS: JointId[] = [\"i4\", \"m4\", \"r4\", \"p4\"];\n\nexport enum Hand {\n left = \"left\",\n right = \"right\",\n}\nexport const HANDS = Object.keys(Hand) as Hand[];\n\nexport type Joint = {\n position: Vector3;\n quaternion: Quaternion;\n radius: number;\n};\n\nexport type HandJoints = { [key in JointId]?: Joint };\nexport type HandsJoints = { [key in Hand]?: HandJoints };\n\nexport class XrHands {\n hands: HandsJoints = {};\n last: HandsJoints = {};\n\n values: Record = {};\n tests: Record = {};\n lastTests: Record = {};\n\n updated = false;\n\n update({ xr, xrFrame }: { xr: WebXRManager; xrFrame: XRFrame }) {\n const xrSession = xr.getSession();\n if (!xrSession) {\n return;\n }\n const referenceSpace = xr.getReferenceSpace();\n if (!referenceSpace) {\n return;\n }\n if (!xrFrame.getJointPose) {\n return;\n }\n\n this.last = this.hands;\n this.lastTests = this.tests;\n\n this.hands = {};\n this.values = {};\n this.tests = {};\n\n for (const inputSource of xrSession.inputSources) {\n if (!inputSource.hand) {\n continue;\n }\n\n const hand = inputSource.handedness as Hand;\n this.hands[hand] = {};\n\n // Iterate over JointId\n for (const jointId of JOINT_IDS) {\n const jointSpace = inputSource.hand.get(JointEnum[jointId]);\n if (jointSpace) {\n const jointPose = xrFrame.getJointPose(jointSpace, referenceSpace);\n if (jointPose) {\n const { position, orientation } = jointPose.transform;\n this.hands[hand][jointId] = {\n position: new Vector3(position.x, position.y, position.z),\n quaternion: new Quaternion(\n orientation.x,\n orientation.y,\n orientation.z,\n orientation.w,\n ),\n radius: jointPose.radius || 0.001,\n };\n }\n }\n }\n }\n\n for (const hand of HANDS) {\n for (const { key, value } of [\n { key: `${hand}AllTips`, value: this.allTipsTouching(hand) },\n {\n key: `${hand}IndexThumb`,\n value: this.touching(hand, \"i4\", hand, \"t3\"),\n },\n {\n key: `${hand}MiddleThumb`,\n value: this.touching(hand, \"m4\", hand, \"t3\"),\n },\n {\n key: `${hand}RingThumb`,\n value: this.touching(hand, \"r4\", hand, \"t3\"),\n },\n {\n key: `${hand}PinkyThumb`,\n value: this.touching(hand, \"p4\", hand, \"t3\"),\n },\n { key: `${hand}TriTips`, value: this.triTipsTouching(hand) },\n ]) {\n this.values[key] = value;\n this.tests[key] =\n value === 1.0\n ? true\n : value === 0.0\n ? false\n : (this.lastTests[key] ?? false);\n }\n }\n }\n\n makeGhostMesh(): SplatMesh {\n const center = new Vector3();\n const scales = new Vector3(0.01, 0.01, 0.01);\n const quaternion = new Quaternion(0, 0, 0, 1);\n const color = new Color(1, 1, 1);\n const CYCLE = Math.PI * 3;\n const WHITE = new Color(1, 1, 1);\n let opacity = 1.0;\n\n const mesh = new SplatMesh({\n onFrame: () => {\n if (!mesh.packedSplats) {\n return;\n }\n let splatIndex = 0;\n for (const handedness of HANDS) {\n const xrHand = this.hands[handedness];\n for (const [index, segment] of JOINT_SEGMENTS.entries()) {\n for (let i = 1; i < segment.length; ++i) {\n const segmentSplats = JOINT_SEGMENT_STEPS[index][i - 1] * 2;\n const lastSegment = i + 1 === segment.length;\n const jointA = xrHand?.[segment[i - 1]];\n const jointB = xrHand?.[segment[i]];\n\n for (let j = 0; j < segmentSplats; ++j) {\n const t = (j + 0.5) / segmentSplats;\n opacity = 0.0;\n if (jointA && jointB) {\n center.copy(jointA.position).lerp(jointB.position, t);\n quaternion\n .copy(jointA.quaternion)\n .slerp(jointB.quaternion, t);\n const radiusA = JOINT_RADIUS[segment[i - 1]];\n const radiusB = JOINT_RADIUS[segment[i]];\n let radius = (1 - t) * radiusA + t * radiusB;\n if (lastSegment && t > 0.8) {\n // Round out finger tips\n radius *= Math.sqrt(1 - ((t - 0.8) / 0.2) ** 2);\n }\n scales.set(0.65 * radius, 0.5 * radius, 0.003);\n color.set(\n 0.55 + 0.45 * Math.sin(center.x * CYCLE),\n 0.55 + 0.45 * Math.sin(center.y * CYCLE),\n 0.55 + 0.45 * Math.sin(center.z * CYCLE),\n );\n if (handedness === \"right\") {\n color.set(1 - color.r, 1 - color.g, 1 - color.b);\n }\n opacity = 0.75;\n }\n mesh.packedSplats.setSplat(\n splatIndex,\n center,\n scales,\n quaternion,\n opacity,\n color,\n );\n splatIndex += 1;\n }\n }\n }\n }\n mesh.packedSplats.numSplats = splatIndex;\n mesh.packedSplats.needsUpdate = true;\n mesh.numSplats = splatIndex;\n mesh.updateVersion();\n },\n });\n return mesh;\n }\n\n distance(\n handA: Hand,\n jointA: JointId,\n handB: Hand,\n jointB: JointId,\n last = false,\n ): number {\n const hA = last ? this.last[handA] : this.hands[handA];\n const hB = last ? this.last[handB] : this.hands[handB];\n const jA = hA?.[jointA];\n const jB = hB?.[jointB];\n if (!jA || !jB) {\n return Number.POSITIVE_INFINITY;\n }\n return jA.position.distanceTo(jB.position);\n }\n\n separation(\n handA: Hand,\n jointA: JointId,\n handB: Hand,\n jointB: JointId,\n last = false,\n ): number {\n const d = this.distance(handA, jointA, handB, jointB, last);\n if (d === Number.POSITIVE_INFINITY) {\n return Number.POSITIVE_INFINITY;\n }\n return d - JOINT_RADIUS[jointA] - JOINT_RADIUS[jointB];\n }\n\n touching(\n handA: Hand,\n jointA: JointId,\n handB: Hand,\n jointB: JointId,\n last = false,\n ): number {\n const d = this.separation(handA, jointA, handB, jointB, last);\n if (d === Number.POSITIVE_INFINITY) {\n return Number.POSITIVE_INFINITY;\n }\n return 1 - Math.max(0, Math.min(1, d / 0.01 - TOUCH_BIAS));\n }\n\n allTipsTouching(hand: Hand, last = false): number {\n return Math.min(\n this.touching(hand, \"t3\", hand, \"i4\", last),\n this.touching(hand, \"i4\", hand, \"m4\", last),\n this.touching(hand, \"m4\", hand, \"r4\", last),\n this.touching(hand, \"r4\", hand, \"p4\", last),\n // this.touching(hand, \"p4\", hand, \"t3\", last),\n );\n }\n\n triTipsTouching(hand: Hand, last = false): number {\n return Math.min(\n this.touching(hand, \"t3\", hand, \"i4\", last),\n this.touching(hand, \"i4\", hand, \"m4\", last),\n this.touching(hand, \"m4\", hand, \"t3\", last),\n );\n }\n}\n\nexport class HandMovement {\n xrHands: XrHands;\n control: Object3D;\n moveInertia: number;\n rotateInertia: number;\n\n lastGrip: { [key in Hand]?: Vector3 } = {};\n lastPivot: Vector3 = new Vector3();\n rotateVelocity = 0;\n velocity: Vector3 = new Vector3();\n\n constructor({\n xrHands,\n control,\n moveInertia,\n rotateInertia,\n }: {\n xrHands: XrHands;\n control: Object3D;\n moveInertia?: number;\n rotateInertia?: number;\n }) {\n this.xrHands = xrHands;\n this.control = control;\n this.moveInertia = moveInertia ?? DEFAULT_MOVE_INERTIA;\n this.rotateInertia = rotateInertia ?? DEFAULT_ROTATE_INERTIA;\n }\n\n update(deltaTime: number) {\n const grip: { [key in Hand]?: Vector3 } = {};\n for (const handedness of HANDS) {\n const hand = this.xrHands.hands[handedness];\n if (hand && this.xrHands.tests[`${handedness}MiddleThumb`]) {\n grip[handedness] = new Vector3()\n .add(hand.t3?.position ?? new Vector3())\n .add(hand.i4?.position ?? new Vector3())\n .add(hand.m4?.position ?? new Vector3())\n .add(hand.r4?.position ?? new Vector3())\n .add(hand.p4?.position ?? new Vector3())\n .multiplyScalar(1 / 5);\n }\n }\n\n if (grip.left && grip.right && this.lastGrip.left && this.lastGrip.right) {\n const mid = grip.left.clone().add(grip.right).multiplyScalar(0.5);\n const lastMid = this.lastGrip.left\n .clone()\n .add(this.lastGrip.right)\n .multiplyScalar(0.5);\n this.lastPivot = mid;\n\n const delta = mid.clone().applyMatrix4(this.control.matrix);\n delta.sub(lastMid.clone().applyMatrix4(this.control.matrix));\n delta.multiplyScalar(1 / deltaTime);\n this.velocity.lerp(delta, 1 - Math.exp(-20 * deltaTime));\n\n const angle = Math.atan2(grip.left.z - mid.z, grip.left.x - mid.x);\n const lastAngle = Math.atan2(\n this.lastGrip.left.z - lastMid.z,\n this.lastGrip.left.x - lastMid.x,\n );\n // Find closest rotation over circle between angle and lastAngle\n let closestAngle = angle - lastAngle;\n if (closestAngle > Math.PI) {\n closestAngle -= Math.PI * 2;\n } else if (closestAngle < -Math.PI) {\n closestAngle += Math.PI * 2;\n }\n const rotateVelocity = closestAngle / deltaTime;\n\n const blend = Math.exp(-20 * deltaTime);\n this.rotateVelocity =\n this.rotateVelocity * blend + rotateVelocity * (1 - blend);\n } else {\n this.rotateVelocity *= Math.exp(-deltaTime / this.rotateInertia);\n\n if (grip.left && this.lastGrip.left) {\n const delta = grip.left.clone().applyMatrix4(this.control.matrix);\n delta.sub(this.lastGrip.left.clone().applyMatrix4(this.control.matrix));\n delta.multiplyScalar(1 / deltaTime);\n this.velocity.lerp(delta, 1 - Math.exp(-20 * deltaTime));\n } else if (grip.right && this.lastGrip.right) {\n const delta = grip.right.clone().applyMatrix4(this.control.matrix);\n delta.sub(\n this.lastGrip.right.clone().applyMatrix4(this.control.matrix),\n );\n delta.multiplyScalar(1 / deltaTime);\n this.velocity.lerp(delta, 1 - Math.exp(-20 * deltaTime));\n } else {\n this.velocity.multiplyScalar(Math.exp(-deltaTime / this.moveInertia));\n }\n }\n\n const negPivot = this.lastPivot.clone().negate();\n const rotate = new Matrix4()\n .makeTranslation(negPivot)\n .premultiply(new Matrix4().makeRotationY(this.rotateVelocity * deltaTime))\n .premultiply(new Matrix4().makeTranslation(this.lastPivot));\n this.control.matrix.multiply(rotate);\n this.control.matrix.decompose(\n this.control.position,\n this.control.quaternion,\n this.control.scale,\n );\n this.control.updateMatrixWorld(true);\n\n this.control.position.sub(this.velocity.clone().multiplyScalar(deltaTime));\n this.lastGrip = grip;\n }\n}\n","import * as THREE from \"three\";\nimport { isAndroid, isIos } from \"./utils\";\n\n// Spark controls for keyboard + mouse, game pad, or mobile multi-touch\n\nconst DEFAULT_MOVEMENT_SPEED = 1.0;\nconst DEFAULT_ROLL_SPEED = 2.0;\nconst DEFAULT_ROTATE_SPEED = 0.002;\nconst DEFAULT_SLIDE_SPEED = 0.006;\nconst DEFAULT_SCROLL_SPEED = 0.0015;\nconst DEFAULT_ROLL_SPRING = 0.0;\nconst DEFAULT_ROTATE_INERTIA = 0.15;\nconst DEFAULT_MOVE_INERTIA = 0.15;\nconst DEFAULT_STICK_THRESHOLD = 0.1;\nconst DEFAULT_FPS_ROTATE_SPEED = 2.0;\n// const DEFAULT_POINTER_ROLL_SCALE = 1.0;\nconst DEFAULT_POINTER_ROLL_SCALE = 0.0;\nconst DEFAULT_PRESS_MOVE_DELAY_MS = 500;\nconst DEFAULT_PRESS_MOVE_ACCEL_MS = 500;\n\n// Time limit for double-finger press (pinch etc)\nconst DUAL_PRESS_MS = 200;\n// Time limit for double-click/double-tap\nconst DOUBLE_PRESS_LIMIT_MS = 400;\n// Distance limit for double-click.\nconst DOUBLE_PRESS_DISTANCE = 25;\n\nconst MOVEMENT_THRESHOLD = 1.0e-4;\n\n// Standard WASD movement keys with R+F for up/down\nconst WASD_KEYCODE_MOVE = {\n KeyW: new THREE.Vector3(0, 0, -1),\n KeyS: new THREE.Vector3(0, 0, 1),\n KeyA: new THREE.Vector3(-1, 0, 0),\n KeyD: new THREE.Vector3(1, 0, 0),\n KeyE: new THREE.Vector3(0, 1, 0),\n KeyQ: new THREE.Vector3(0, -1, 0),\n};\n\n// Arrow key movement with PageUp/PageDown\nconst ARROW_KEYCODE_MOVE = {\n ArrowUp: new THREE.Vector3(0, 0, -1),\n ArrowDown: new THREE.Vector3(0, 0, 1),\n ArrowLeft: new THREE.Vector3(-1, 0, 0),\n ArrowRight: new THREE.Vector3(1, 0, 0),\n PageUp: new THREE.Vector3(0, 1, 0),\n PageDown: new THREE.Vector3(0, -1, 0),\n};\n\n// Rolling with Q/E\nconst QE_KEYCODE_ROTATE = {\n KeyQ: new THREE.Vector3(0, 0, 1),\n KeyE: new THREE.Vector3(0, 0, -1),\n};\n\n// Home/End/Insert/Delete for rotation\nconst ARROW_KEYCODE_ROTATE = {\n Home: new THREE.Vector3(0, -1, 0),\n End: new THREE.Vector3(0, 1, 0),\n Insert: new THREE.Vector3(-1, 0, 0),\n Delete: new THREE.Vector3(1, 0, 0),\n};\n\n// SparkControls provides simple, intuitive controls for navigating 3D space that\n// use the keyboard + mouse, game pad, or mobile multi-touch. Internally it\n// instantiates and updates a `FpsMovement` and `PointerControls` instance.\n\nexport class SparkControls {\n fpsMovement: FpsMovement;\n pointerControls: PointerControls;\n lastTime = 0;\n\n constructor({ canvas }: { canvas: HTMLCanvasElement }) {\n this.fpsMovement = new FpsMovement({});\n this.pointerControls = new PointerControls({ canvas });\n }\n\n update(control: THREE.Object3D, camera?: THREE.Camera) {\n const time = performance.now();\n const deltaTime = (time - (this.lastTime || time)) / 1000;\n this.lastTime = time;\n\n let updated = this.fpsMovement.update(deltaTime, control);\n if (this.pointerControls.update(deltaTime, control, camera)) {\n updated = true;\n }\n return updated;\n }\n}\n\n// FpsMovement implements controls that will be familiar to anyone who plays\n// First Person Shooters using keyboard + mouse or a gamepad. Creating a FpsMovement\n// instance provides many parameters for configuring the controls.\n//\n// When gamepads are connected, FpsMovement will always use gamepad index 0\n// for twin-stick movement and rotation.\n//\n// If xr is passed in, the WebXR controllers can be used as a split gamepad\n// to control movement and rotation. (tested on Quest 3)\n\nexport class FpsMovement {\n moveSpeed: number;\n rollSpeed: number;\n stickThreshold: number;\n rotateSpeed: number;\n keycodeMoveMapping: { [key: string]: THREE.Vector3 };\n keycodeRotateMapping: { [key: string]: THREE.Vector3 };\n gamepadMapping: {\n [button: number]: \"shift\" | \"ctrl\" | \"rollLeft\" | \"rollRight\";\n };\n capsMultiplier: number;\n shiftMultiplier: number;\n ctrlMultiplier: number;\n xr?: THREE.WebXRManager;\n // Enable/disable controls updates\n enable = true;\n extraMove = new THREE.Vector3();\n\n // Currently active event.key values\n keydown: { [key: string]: boolean };\n // Currently active event.code values\n keycode: { [key: string]: boolean };\n\n constructor({\n moveSpeed,\n rollSpeed,\n stickThreshold,\n rotateSpeed,\n keycodeMoveMapping,\n keycodeRotateMapping,\n gamepadMapping,\n capsMultiplier,\n shiftMultiplier,\n ctrlMultiplier,\n xr,\n }: {\n // Base movement speed (default DEFAULT_MOVEMENT_SPEED)\n moveSpeed?: number;\n // Base roll speed (default DEFAULT_ROLL_SPEED)\n rollSpeed?: number;\n // Stick threshold (default DEFAULT_STICK_THRESHOLD)\n stickThreshold?: number;\n // Speed of rotation when using gamepad or keys (default DEFAULT_FPS_ROTATE_SPEED)\n rotateSpeed?: number;\n // Maps keyboard keys to movement directions\n // (default {...WASD_KEYCODE_MOVE, ...ARROW_KEYCODE_MOVE})\n keycodeMoveMapping?: { [key: string]: THREE.Vector3 };\n // Maps keyboard keys to rotation directions\n // (default { ...ARROW_KEYCODE_ROTATE})\n keycodeRotateMapping?: { [key: string]: THREE.Vector3 };\n // Maps gamepad buttons to control actions\n // (default {4: \"rollLeft\", 5: \"rollRight\", 6: \"ctrl\", 7: \"shift\"})\n gamepadMapping?: {\n [button: number]: \"shift\" | \"ctrl\" | \"rollLeft\" | \"rollRight\";\n };\n // Speed multiplier when Caps Lock is active (default: 10)\n capsMultiplier?: number;\n // Speed multiplier when Shift is active (default: 5)\n shiftMultiplier?: number;\n // Speed multiplier when Ctrl is active (default: 1/5)\n ctrlMultiplier?: number;\n // Optional WebXR manager for XR controller stick support\n xr?: THREE.WebXRManager;\n } = {}) {\n this.moveSpeed = moveSpeed ?? DEFAULT_MOVEMENT_SPEED;\n this.rollSpeed = rollSpeed ?? DEFAULT_ROLL_SPEED;\n this.stickThreshold = stickThreshold ?? DEFAULT_STICK_THRESHOLD;\n this.rotateSpeed = rotateSpeed ?? DEFAULT_FPS_ROTATE_SPEED;\n this.keycodeMoveMapping = keycodeMoveMapping ?? {\n ...WASD_KEYCODE_MOVE,\n ...ARROW_KEYCODE_MOVE,\n };\n this.keycodeRotateMapping = keycodeRotateMapping ?? {\n // ...QE_KEYCODE_ROTATE,\n ...ARROW_KEYCODE_ROTATE,\n };\n this.gamepadMapping = gamepadMapping ?? {\n 4: \"rollLeft\",\n 5: \"rollRight\",\n 6: \"ctrl\",\n 7: \"shift\",\n };\n this.capsMultiplier = capsMultiplier ?? 10.0;\n this.shiftMultiplier = shiftMultiplier ?? 5.0;\n this.ctrlMultiplier = ctrlMultiplier ?? 1.0 / 5.0;\n\n this.xr = xr;\n\n this.keydown = {};\n this.keycode = {};\n\n document.addEventListener(\"keydown\", (event) => {\n this.keydown[event.key] = true;\n this.keycode[event.code] = true;\n });\n document.addEventListener(\"keyup\", (event) => {\n this.keydown[event.key] = false;\n this.keycode[event.code] = false;\n });\n window.addEventListener(\"blur\", () => {\n this.keydown = {};\n this.keycode = {};\n });\n }\n\n // Call this method in your render loop with `control` set to the object to control\n // (`THREE.Camera` or a `THREE.Object3D` that contains it), with `deltaTime`\n // in seconds since the last update.\n update(deltaTime: number, control: THREE.Object3D) {\n if (!this.enable) {\n return false;\n }\n\n // Update gamepad / XR controllers\n\n const sticks = [new THREE.Vector2(), new THREE.Vector2()];\n const gamepad = navigator.getGamepads()[0];\n if (gamepad) {\n sticks[0].set(gamepad.axes[0], gamepad.axes[1]);\n sticks[1].set(gamepad.axes[2], gamepad.axes[3]);\n }\n const gamepadButtons =\n gamepad?.buttons.map((button) => button.pressed) || [];\n\n const xrSources = Array.from(this.xr?.getSession()?.inputSources ?? []);\n for (const source of xrSources) {\n const gamepad = source.gamepad;\n if (gamepad) {\n switch (source.handedness) {\n case \"none\": {\n sticks[0].x += gamepad.axes[0];\n sticks[0].y += gamepad.axes[1];\n sticks[1].x += gamepad.axes[2];\n sticks[1].y += gamepad.axes[3];\n break;\n }\n case \"left\": {\n sticks[0].x += gamepad.axes[2];\n sticks[0].y += gamepad.axes[3];\n break;\n }\n case \"right\": {\n sticks[1].x += gamepad.axes[2];\n sticks[1].y += gamepad.axes[3];\n break;\n }\n }\n }\n }\n\n for (const stick of sticks) {\n stick.x = Math.abs(stick.x) >= this.stickThreshold ? stick.x : 0;\n stick.y = Math.abs(stick.y) >= this.stickThreshold ? stick.y : 0;\n }\n\n // Rotation\n\n const rotate = new THREE.Vector3(\n sticks[1].x,\n sticks[1].y,\n 0,\n ).multiplyScalar(this.rotateSpeed);\n\n for (const [keycode, rot] of Object.entries(this.keycodeRotateMapping)) {\n if (this.keycode[keycode]) {\n rotate.add(rot);\n }\n }\n for (const button in this.gamepadMapping) {\n if (gamepadButtons[Number.parseInt(button)]) {\n switch (this.gamepadMapping[button]) {\n case \"rollLeft\":\n rotate.z += 1;\n break;\n case \"rollRight\":\n rotate.z -= 1;\n break;\n }\n }\n }\n\n rotate.multiply(\n new THREE.Vector3(this.rotateSpeed, this.rotateSpeed, this.rollSpeed),\n );\n\n let updated = rotate.length() > MOVEMENT_THRESHOLD;\n\n if (rotate.manhattanLength() > 0.0) {\n rotate.multiplyScalar(deltaTime);\n const eulers = new THREE.Euler().setFromQuaternion(\n control.quaternion,\n \"YXZ\",\n );\n eulers.y -= rotate.x;\n eulers.x = Math.max(\n -Math.PI / 2,\n Math.min(Math.PI / 2, eulers.x - rotate.y),\n );\n eulers.z = Math.max(-Math.PI, Math.min(Math.PI, eulers.z + rotate.z));\n control.quaternion.setFromEuler(eulers);\n }\n\n // Movement\n\n const moveVector = new THREE.Vector3(sticks[0].x, 0, sticks[0].y);\n moveVector.add(this.extraMove);\n\n for (const [keycode, move] of Object.entries(this.keycodeMoveMapping)) {\n if (this.keycode[keycode]) {\n moveVector.add(move);\n }\n }\n\n let speedMultiplier = 1.0;\n if (this.keydown.CapsLock) {\n speedMultiplier *= this.capsMultiplier;\n }\n if (this.keycode.ShiftLeft || this.keycode.ShiftRight) {\n speedMultiplier *= this.shiftMultiplier;\n }\n if (this.keycode.ControlLeft || this.keycode.ControlRight) {\n speedMultiplier *= this.ctrlMultiplier;\n }\n for (const button in this.gamepadMapping) {\n if (gamepadButtons[Number.parseInt(button)]) {\n switch (this.gamepadMapping[button]) {\n case \"shift\":\n speedMultiplier *= this.shiftMultiplier;\n break;\n case \"ctrl\":\n speedMultiplier *= this.ctrlMultiplier;\n break;\n }\n }\n }\n\n if (moveVector.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n\n // Apply movement in view direction\n moveVector.applyQuaternion(control.quaternion);\n control.position.add(\n moveVector.multiplyScalar(this.moveSpeed * speedMultiplier * deltaTime),\n );\n\n return updated;\n }\n}\n\ntype PointerState = {\n initial: THREE.Vector2;\n last: THREE.Vector2;\n position: THREE.Vector2;\n pointerId: number;\n button?: number;\n timeStamp: DOMHighResTimeStamp;\n};\n\n// `PointerControls` implements pointer/mouse/touch controls on the canvas,\n// for both desktop and mobile web applications.\n\nexport class PointerControls {\n canvas: HTMLCanvasElement;\n rotateSpeed: number;\n slideSpeed: number;\n scrollSpeed: number;\n swapRotateSlide: boolean;\n reverseRotate: boolean;\n reverseSlide: boolean;\n reverseSwipe: boolean;\n reverseScroll: boolean;\n moveInertia: number;\n rotateInertia: number;\n pointerRollScale: number;\n // Enable/disable controls updates\n enable = true;\n\n doublePress: ({\n position,\n intervalMs,\n }: { position: THREE.Vector2; intervalMs: number }) => void;\n // Time limit for double press (default DOUBLE_PRESS_LIMIT_MS)\n doublePressLimitMs: number;\n // Distance limit for double press (default DOUBLE_PRESS_DISTANCE)\n doublePressDistance: number;\n\n // Time delay in ms for press move to start\n pressMoveDelayMs: number;\n // Time in ms for press move to accelerate\n pressMoveAccelMs: number;\n // Speed of movement on press (default: 0)\n pressMoveSpeed: number;\n // Speed of movement on double press (default: pressMoveSpeed * 5.0)\n doublePressMoveSpeed: number;\n // Speed of movement on triple press (default: doublePressMoveSpeed * 5.0)\n triplePressMoveSpeed: number;\n // Whether to move toward the screen center or finger when pressing to move\n pressMoveCenter: boolean;\n pressHeld?: boolean;\n doublePressed?: number;\n triplePressed: boolean;\n // Last pointer up event (default: null)\n lastUp: { position: THREE.Vector2; timeStamp: number } | null;\n lastLastUp: { position: THREE.Vector2; timeStamp: number } | null;\n\n // Pointer state for currently active rotating pointer\n rotating: PointerState | null;\n // Pointer state for currently active sliding pointer\n sliding: PointerState | null;\n // Pointer state for last pointer that downed\n lastDown: PointerState | null;\n // Whether we pressed two pointers at the same time\n dualPress: boolean;\n // Cumulative scroll movement\n scroll: THREE.Vector3;\n\n // Current rotation velocity\n rotateVelocity: THREE.Vector3;\n // Current movement velocity\n moveVelocity: THREE.Vector3;\n\n constructor({\n // The HTML canvas element to attach pointer events to\n canvas,\n // Speed of rotation (default DEFAULT_ROTATE_SPEED)\n rotateSpeed,\n // Speed of sliding when dragging with right/middle mouse button or two fingers\n // (default DEFAULT_SLIDE_SPEED)\n slideSpeed,\n // Speed of movement when using mouse scroll wheel (default DEFAULT_SCROLL_SPEED)\n scrollSpeed,\n // Swap the direction of rotation and sliding (default: false)\n swapRotateSlide,\n // Reverse the direction of rotation (default: false)\n reverseRotate,\n // Reverse the direction of sliding (default: false)\n reverseSlide,\n // Reverse the direction of swipe gestures (default: false)\n reverseSwipe,\n // Reverse the direction of scroll wheel movement (default: false)\n reverseScroll,\n // Inertia factor for movement (default: DEFAULT_MOVE_INERTIA)\n moveInertia,\n // Inertia factor for rotation (default: DEFAULT_ROTATE_INERTIA)\n rotateInertia,\n // Pointer rolling scale factor (default: DEFAULT_POINTER_ROLL_SCALE)\n pointerRollScale,\n // Callback for double press events (default: () => {})\n doublePress,\n // Time delay in ms for press move to start (default: DEFAULT_PRESS_MOVE_DELAY_MS)\n pressMoveDelayMs,\n // Time in ms for press move to accelerate (default: DEFAULT_PRESS_MOVE_ACCEL_MS)\n pressMoveAccelMs,\n // Speed of movement on press (default: 0)\n pressMoveSpeed,\n // Speed of movement on double press (default: pressMoveSpeed * 5.0)\n doublePressMoveSpeed,\n // Speed of movement on triple press (default: doublePressMoveSpeed * 5.0)\n triplePressMoveSpeed,\n // Whether to move toward the screen center or finger when pressing to move (default: true)\n pressMoveCenter,\n }: {\n canvas: HTMLCanvasElement;\n rotateSpeed?: number;\n slideSpeed?: number;\n scrollSpeed?: number;\n swapRotateSlide?: boolean;\n reverseRotate?: boolean;\n reverseSlide?: boolean;\n reverseSwipe?: boolean;\n reverseScroll?: boolean;\n moveInertia?: number;\n rotateInertia?: number;\n pointerRollScale?: number;\n doublePress?: ({\n position,\n intervalMs,\n }: { position: THREE.Vector2; intervalMs: number }) => void;\n pressMoveDelayMs?: number;\n pressMoveAccelMs?: number;\n pressMoveSpeed?: number;\n doublePressMoveSpeed?: number;\n triplePressMoveSpeed?: number;\n pressMoveCenter?: boolean;\n }) {\n this.canvas = canvas;\n this.rotateSpeed = rotateSpeed ?? DEFAULT_ROTATE_SPEED;\n this.slideSpeed = slideSpeed ?? DEFAULT_SLIDE_SPEED;\n this.scrollSpeed = scrollSpeed ?? DEFAULT_SCROLL_SPEED;\n this.swapRotateSlide = swapRotateSlide ?? false;\n this.reverseRotate = reverseRotate ?? (isAndroid() || isIos());\n this.reverseSlide = reverseSlide ?? false;\n this.reverseSwipe = reverseSwipe ?? false;\n this.reverseScroll = reverseScroll ?? false;\n this.moveInertia = moveInertia ?? DEFAULT_MOVE_INERTIA;\n this.rotateInertia = rotateInertia ?? DEFAULT_ROTATE_INERTIA;\n this.pointerRollScale = pointerRollScale ?? DEFAULT_POINTER_ROLL_SCALE;\n\n this.doublePress = doublePress ?? (() => {});\n this.doublePressLimitMs = DOUBLE_PRESS_LIMIT_MS;\n this.doublePressDistance = DOUBLE_PRESS_DISTANCE;\n\n this.pressMoveDelayMs = pressMoveDelayMs ?? DEFAULT_PRESS_MOVE_DELAY_MS;\n this.pressMoveAccelMs = pressMoveAccelMs ?? DEFAULT_PRESS_MOVE_ACCEL_MS;\n this.pressMoveSpeed = pressMoveSpeed ?? 0;\n this.doublePressMoveSpeed =\n doublePressMoveSpeed ?? this.pressMoveSpeed * 5.0;\n this.triplePressMoveSpeed =\n triplePressMoveSpeed ?? this.doublePressMoveSpeed * 5.0;\n this.pressMoveCenter = pressMoveCenter ?? true;\n this.doublePressed = undefined;\n this.triplePressed = false;\n this.lastUp = null;\n this.lastLastUp = null;\n\n this.rotating = null;\n this.sliding = null;\n this.lastDown = null;\n this.dualPress = false;\n this.scroll = new THREE.Vector3();\n\n this.rotateVelocity = new THREE.Vector3();\n this.moveVelocity = new THREE.Vector3();\n\n canvas.addEventListener(\"pointerdown\", (event: PointerEvent) => {\n const position = this.getPointerPosition(event);\n const initial = position.clone();\n const last = position.clone();\n\n // Determine if we're starting a rotation pointer action\n const isRotate =\n (!this.swapRotateSlide &&\n !this.rotating &&\n (event.pointerType !== \"mouse\" || event.button === 0)) ||\n (this.swapRotateSlide &&\n this.sliding &&\n !this.rotating &&\n (event.pointerType !== \"mouse\" || event.button === 1));\n // const isRotate =\n // !this.rotating && (event.pointerType !== \"mouse\" || event.button === 0);\n const { pointerId } = event;\n const timeStamp = performance.now();\n\n if (isRotate) {\n this.rotating = { initial, last, position, pointerId, timeStamp };\n this.lastDown = this.rotating;\n // Capture the pointer so events continue to be delivered even if it leaves the canvas.\n canvas.setPointerCapture(event.pointerId);\n\n this.dualPress = false;\n } else if (!this.sliding) {\n // If it's not a rotation action and we're not yet sliding, the next\n // pointer activates a sliding action\n const button = event.pointerType === \"mouse\" ? event.button : undefined;\n this.sliding = {\n initial,\n last,\n position,\n pointerId,\n button,\n timeStamp,\n };\n this.lastDown = this.sliding;\n // Capture the pointer so events continue to be delivered even if it leaves the canvas.\n canvas.setPointerCapture(event.pointerId);\n\n // Check if we pressed both pointers at roughly the same time\n this.dualPress =\n this.rotating != null &&\n timeStamp - this.rotating.timeStamp < DUAL_PRESS_MS;\n }\n\n if (this.lastUp) {\n const distance = this.lastUp.position.distanceTo(position);\n const intervalMs = timeStamp - this.lastUp.timeStamp;\n if (\n distance < this.doublePressDistance &&\n intervalMs < this.doublePressLimitMs\n ) {\n this.doublePressed = performance.now();\n this.triplePressed = false;\n\n if (this.lastLastUp) {\n const lastDistance = this.lastLastUp.position.distanceTo(\n this.lastUp.position,\n );\n const lastIntervalMs =\n this.lastUp.timeStamp - this.lastLastUp.timeStamp;\n if (\n lastDistance < this.doublePressDistance &&\n lastIntervalMs < this.doublePressLimitMs\n ) {\n this.triplePressed = true;\n }\n }\n }\n }\n });\n\n const pointerUp = (event: PointerEvent) => {\n if (this.rotating?.pointerId === event.pointerId) {\n this.rotating = null;\n canvas.releasePointerCapture(event.pointerId);\n if (this.dualPress && this.sliding) {\n canvas.releasePointerCapture(this.sliding.pointerId);\n this.sliding = null;\n }\n } else if (this.sliding?.pointerId === event.pointerId) {\n this.sliding = null;\n canvas.releasePointerCapture(event.pointerId);\n if (this.dualPress && this.rotating) {\n canvas.releasePointerCapture(this.rotating.pointerId);\n this.rotating = null;\n }\n }\n\n this.doublePressed = undefined;\n this.triplePressed = false;\n\n const position = this.getPointerPosition(event);\n const lastUp = this.lastUp;\n this.lastLastUp = this.lastUp;\n const timeStamp = performance.now();\n this.lastUp = { position, timeStamp };\n\n if (lastUp) {\n const distance = lastUp.position.distanceTo(position);\n if (distance < this.doublePressDistance) {\n const intervalMs = timeStamp - lastUp.timeStamp;\n if (intervalMs < this.doublePressLimitMs) {\n // We pressed and release twice within the time and distance limits\n // this.lastUp = null;\n this.doublePress({ position, intervalMs });\n }\n }\n }\n };\n\n document.addEventListener(\"pointerup\", pointerUp);\n document.addEventListener(\"pointercancel\", pointerUp);\n\n document.addEventListener(\"pointermove\", (event: PointerEvent) => {\n if (this.rotating?.pointerId === event.pointerId) {\n this.rotating.position = this.getPointerPosition(event);\n } else if (this.sliding?.pointerId === event.pointerId) {\n this.sliding.position = this.getPointerPosition(event);\n }\n });\n\n canvas.addEventListener(\"contextmenu\", (event: MouseEvent) => {\n // Prevent context menu appearing on right click\n event.preventDefault();\n });\n\n canvas.addEventListener(\"wheel\", (event: WheelEvent) => {\n this.scroll.add(\n new THREE.Vector3(event.deltaX, event.deltaY, event.deltaZ),\n );\n event.preventDefault();\n });\n }\n\n getPointerPosition(event: PointerEvent): THREE.Vector2 {\n const rect = this.canvas.getBoundingClientRect();\n return new THREE.Vector2(\n event.clientX - rect.left,\n event.clientY - rect.top,\n );\n }\n\n update(deltaTime: number, control: THREE.Object3D, camera?: THREE.Camera) {\n if (!this.enable) {\n return false;\n }\n\n const now = performance.now();\n let updated = false;\n\n if (this.dualPress && this.rotating && this.sliding) {\n // We pressed both pointers at the same time, either pinching or sliding\n const motion = [\n this.rotating.position.clone().sub(this.rotating.last),\n this.sliding.position.clone().sub(this.sliding.last),\n ];\n const coincidence = motion[0].dot(motion[1]);\n\n if (coincidence >= 0.2) {\n // Similar directions so slide the camera on the XY plane\n const totalMotion = motion[0].clone().add(motion[1]);\n const slide = new THREE.Vector3(totalMotion.x, -totalMotion.y, 0);\n slide.multiplyScalar(this.slideSpeed * (this.reverseSwipe ? 1 : -1));\n slide.applyQuaternion(control.quaternion);\n control.position.add(slide);\n this.moveVelocity = slide.clone().multiplyScalar(1 / deltaTime);\n\n if (slide.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n } else if (coincidence <= -0.2) {\n // Opposite directions so either pinch or roll motion\n const deltaDir = this.sliding.last.clone().sub(this.rotating.last);\n const deltaDist = deltaDir.length();\n deltaDir.multiplyScalar(1 / deltaDist).normalize();\n\n const orthoDir = new THREE.Vector2(-deltaDir.y, deltaDir.x);\n const motionDir = [motion[0].dot(deltaDir), motion[1].dot(deltaDir)];\n const motionOrtho = [motion[0].dot(orthoDir), motion[1].dot(orthoDir)];\n\n // Pinching motion\n const midpoint = this.rotating.last\n .clone()\n .add(this.sliding.last)\n .multiplyScalar(0.5);\n let midpointDir = new THREE.Vector3();\n const theCamera =\n camera ?? (control instanceof THREE.Camera ? control : undefined);\n if (theCamera) {\n const ndcMidpoint = new THREE.Vector2(\n (midpoint.x / this.canvas.clientWidth) * 2 - 1,\n -(midpoint.y / this.canvas.clientHeight) * 2 + 1,\n );\n const raycaster = new THREE.Raycaster();\n raycaster.setFromCamera(ndcMidpoint, theCamera);\n midpointDir = raycaster.ray.direction;\n }\n const pinchOut = motionDir[1] - motionDir[0];\n const slide = midpointDir.multiplyScalar(pinchOut * this.slideSpeed);\n control.position.add(slide);\n this.moveVelocity = slide.clone().multiplyScalar(1 / deltaTime);\n\n if (slide.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n\n // Rolling motion\n // Calculate angle of orthogonal motion change over distance deltaDist/2\n // motionOrtho[0] and 1 are already in float distance\n const angles = [\n Math.atan(motionOrtho[0] / (-0.5 * deltaDist)),\n Math.atan(motionOrtho[1] / (0.5 * deltaDist)),\n ];\n const rotate = 0.5 * (angles[0] + angles[1]) * this.pointerRollScale;\n const eulers = new THREE.Euler().setFromQuaternion(\n control.quaternion,\n \"YXZ\",\n );\n eulers.z = Math.max(\n -Math.PI,\n Math.min(Math.PI, eulers.z + 0.5 * rotate),\n );\n control.quaternion.setFromEuler(eulers);\n\n if (Math.abs(rotate) > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n }\n\n this.rotating.last.copy(this.rotating.position);\n this.sliding.last.copy(this.sliding.position);\n } else {\n // Didn't press both pointers at the same time, so we're in rotating\n // or FPS mode\n const rotate = new THREE.Vector3();\n if (this.rotating && !this.dualPress) {\n const delta = this.rotating.position.clone().sub(this.rotating.last);\n this.rotating.last.copy(this.rotating.position);\n rotate.set(delta.x, delta.y, 0);\n rotate.multiplyScalar(this.rotateSpeed * (this.reverseRotate ? -1 : 1));\n // Update rotation velocity from last delta\n this.rotateVelocity = rotate.clone().multiplyScalar(1 / deltaTime);\n\n if (rotate.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n } else {\n // Continue to rotate with inertia\n this.rotateVelocity.multiplyScalar(\n Math.exp(-deltaTime / this.rotateInertia),\n );\n rotate.addScaledVector(this.rotateVelocity, deltaTime);\n\n if (this.rotateVelocity.length() * 0.1 > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n }\n\n // Apply rotation in Euler angles space\n const eulers = new THREE.Euler().setFromQuaternion(\n control.quaternion,\n \"YXZ\",\n );\n eulers.y -= rotate.x;\n eulers.x = Math.max(\n -Math.PI / 2,\n Math.min(Math.PI / 2, eulers.x - rotate.y),\n );\n eulers.z *= Math.exp(-DEFAULT_ROLL_SPRING * deltaTime);\n control.quaternion.setFromEuler(eulers);\n\n if (this.sliding && !this.dualPress) {\n const delta = this.sliding.position.clone().sub(this.sliding.last);\n this.sliding.last.copy(this.sliding.position);\n\n // Slide on plane depending on center/right mouse button\n const slide =\n this.sliding.button !== 2\n ? new THREE.Vector3(delta.x, 0, delta.y)\n : new THREE.Vector3(delta.x, -delta.y, 0);\n slide.multiplyScalar(this.slideSpeed * (this.reverseSlide ? -1 : 1));\n\n slide.applyQuaternion(control.quaternion);\n control.position.add(slide);\n // Update movement velocity from last delta\n this.moveVelocity = slide.clone().multiplyScalar(1 / deltaTime);\n\n if (slide.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n } else {\n const target = new THREE.Vector3();\n if (this.sliding || this.rotating) {\n const point = this.lastDown?.last ?? new THREE.Vector2();\n const theCamera =\n camera ?? (control instanceof THREE.Camera ? control : undefined);\n if (theCamera) {\n const ndcPoint = this.pressMoveCenter\n ? new THREE.Vector2(0, 0)\n : new THREE.Vector2(\n (point.x / this.canvas.clientWidth) * 2 - 1,\n -(point.y / this.canvas.clientHeight) * 2 + 1,\n );\n const raycaster = new THREE.Raycaster();\n raycaster.setFromCamera(ndcPoint, theCamera);\n target.copy(raycaster.ray.direction).normalize();\n }\n\n if (!this.doublePressed) {\n let intensity = 0;\n if (this.lastDown) {\n intensity =\n (now -\n (this.lastDown?.timeStamp ?? now) -\n this.pressMoveDelayMs) /\n this.pressMoveAccelMs;\n\n if (\n this.lastDown.position.distanceTo(this.lastDown.initial) <\n this.doublePressDistance\n ) {\n if (this.pressHeld === undefined) {\n if (intensity > 0) {\n this.pressHeld = true;\n }\n }\n } else if (this.pressHeld === undefined) {\n this.pressHeld = false;\n }\n }\n\n if (this.pressHeld) {\n target.multiplyScalar(\n this.pressMoveSpeed * Math.max(0, Math.min(1, intensity)),\n );\n } else {\n target.set(0, 0, 0);\n }\n } else {\n this.pressHeld = false;\n let intensity =\n (performance.now() - this.doublePressed) / this.pressMoveAccelMs;\n intensity = Math.max(0, Math.min(1, intensity));\n target.multiplyScalar(\n (this.triplePressed\n ? this.triplePressMoveSpeed\n : this.doublePressMoveSpeed) * intensity,\n );\n }\n } else {\n this.pressHeld = undefined;\n }\n // Continue to move with inertia\n const s = Math.exp(-deltaTime / this.moveInertia);\n this.moveVelocity.lerpVectors(target, this.moveVelocity, s);\n control.position.addScaledVector(this.moveVelocity, deltaTime);\n\n if (this.moveVelocity.length() * 0.1 > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n }\n }\n\n const scroll = this.scroll.multiplyScalar(this.scrollSpeed);\n scroll.set(scroll.x, scroll.z, scroll.y);\n if (this.reverseScroll) {\n scroll.multiplyScalar(-1);\n }\n scroll.applyQuaternion(control.quaternion);\n control.position.add(scroll);\n\n if (scroll.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n this.scroll.set(0, 0, 0);\n\n return updated;\n }\n}\n","import * as THREE from \"three\";\nimport { SparkRenderer, type SparkRendererOptions } from \"./SparkRenderer\";\n\n/**\n * Fragment shader for portal disk clipping.\n * - diskRadius > 0: render \"behind portal\" only through the disk\n * - diskRadius < 0: render \"in front of portal\" everywhere except behind disk\n */\nexport const DISK_PORTAL_FRAGMENT_SHADER = `\nprecision highp float;\nprecision highp int;\n\n#include \n\nuniform float near;\nuniform float far;\nuniform mat4 projectionMatrix;\nuniform bool encodeLinear;\nuniform float time;\nuniform bool debugFlag;\nuniform float maxStdDev;\nuniform float minAlpha;\nuniform bool disableFalloff;\nuniform float falloff;\n\nuniform vec3 diskCenter;\nuniform vec3 diskNormal;\nuniform float diskRadius;\nuniform bool diskTwoSided;\n\nout vec4 fragColor;\n\nin vec4 vRgba;\nin vec2 vSplatUv;\nin vec3 vNdc;\nflat in uint vSplatIndex;\nflat in float adjustedStdDev;\n\nvoid main() {\n if (diskRadius != 0.0) {\n // Portal rendering:\n // - diskRadius > 0: render \"behind portal\" only through the disk (discard outside or in-front-of plane).\n // - diskRadius < 0: render \"in front of portal\" everywhere, but discard fragments behind the plane when looking through the disk.\n\n // View ray direction from NDC (view space is -Z forward).\n vec3 viewDir = normalize(vec3(\n vNdc.x / projectionMatrix[0][0],\n vNdc.y / projectionMatrix[1][1],\n -1.0\n ));\n\n // Reconstruct view-space *axial* depth (-viewPos.z) from NDC Z.\n float ndcZ = vNdc.z;\n float depth = (2.0 * near * far) / (far + near - ndcZ * (far - near));\n // Convert axial depth to ray-parameter t (viewPos = t * viewDir).\n float rayT = depth / max(1e-6, -viewDir.z);\n\n float radius = abs(diskRadius);\n float radius2 = radius * radius;\n bool renderBehind = (diskRadius > 0.0);\n\n vec3 diskN = normalize(diskNormal);\n\n // Ray-plane intersection for plane (diskCenter, diskN), with ray origin at (0,0,0).\n float denom = dot(viewDir, diskN);\n bool allowPortal = diskTwoSided ? (abs(denom) > 1e-6) : (denom < -1e-6);\n\n bool hitsDisk = false;\n float t = 0.0;\n if (allowPortal) {\n t = dot(diskCenter, diskN) / denom;\n if (t > 0.0) {\n vec3 q = t * viewDir - diskCenter;\n hitsDisk = (dot(q, q) <= radius2);\n }\n }\n\n // Small bias to avoid flicker at the plane.\n float eps = 1e-4 * max(1.0, abs(t));\n\n if (renderBehind) {\n // Behind-pass: only render through the portal disk, and only behind the plane along the ray.\n if (!hitsDisk) discard;\n if (rayT <= t + eps) discard;\n } else {\n // Front-pass: render everything, except when the ray goes through the disk, discard what's behind the plane.\n if (hitsDisk && (rayT >= t - eps)) discard;\n }\n }\n\n vec4 rgba = vRgba;\n\n float z2 = dot(vSplatUv, vSplatUv);\n if (z2 > (adjustedStdDev * adjustedStdDev)) {\n discard;\n }\n\n float a = rgba.a;\n float shifted = sqrt(z2) - max(0.0, a - 1.0);\n float exponent = -0.5 * max(1.0, a) * sqr(max(0.0, shifted));\n rgba.a = min(1.0, a) * exp(exponent);\n\n if (rgba.a < minAlpha) {\n discard;\n }\n if (encodeLinear) {\n rgba.rgb = srgbToLinear(rgba.rgb);\n }\n\n #ifdef PREMULTIPLIED_ALPHA\n fragColor = vec4(rgba.rgb * rgba.a, rgba.a);\n #else\n fragColor = rgba;\n #endif\n}\n`;\n\n/**\n * Callback function called when a portal is crossed.\n * @param pair The portal pair that was crossed\n * @param fromEntry True if crossing from entry to exit, false if crossing from exit to entry\n */\nexport type PortalCrossCallback = (\n pair: PortalPair,\n fromEntry: boolean,\n) => void | Promise;\n\n/**\n * A pair of connected portals. Walking through one teleports you to the other.\n */\nexport interface PortalPair {\n /** First portal endpoint */\n entryPortal: THREE.Object3D;\n /** Second portal endpoint */\n exitPortal: THREE.Object3D;\n /** Radius of this portal pair's disks */\n radius: number;\n /** Optional callback function called when this portal is crossed */\n onCross?: PortalCrossCallback;\n /** Scratch matrix for tracking portal position before frame updates */\n _entryBefore: THREE.Matrix4;\n /** Scratch matrix for tracking portal position before frame updates */\n _exitBefore: THREE.Matrix4;\n}\n\nexport interface SparkPortalsOptions {\n /** The THREE.WebGLRenderer */\n renderer: THREE.WebGLRenderer;\n /** The scene to render */\n scene: THREE.Scene;\n /** The main camera */\n camera: THREE.PerspectiveCamera;\n /** The local frame (parent of camera, used for teleportation) */\n localFrame: THREE.Group;\n /** Options passed to both SparkRenderer instances */\n sparkOptions?: Partial;\n /** Default portal disk radius for new pairs (default: 1.0) */\n defaultPortalRadius?: number;\n /** Epsilon for portal crossing detection (default: 1e-6) */\n portalCrossEps?: number;\n}\n\n/**\n * SparkPortals\n *\n * Portal implementation to connect two non-contiguous areas of a scene.\n * Supports multiple portal pairs - each pair connects two locations.\n *\n * The rough approach is to use two SparkRenderers: one for the \"front\"/portal\n * view (portalRenderer), and one for the \"behind portal\" pass (behindRenderer).\n *\n * Example:\n * ```typescript\n * const portals = new SparkPortals({ renderer, scene, camera, localFrame });\n *\n * // Add a portal pair\n * const pair = portals.addPortalPair();\n * pair.entryPortal.position.set(0, 0, -1);\n * pair.exitPortal.position.set(-3, 0, -4.5);\n *\n * // Add another pair\n * const pair2 = portals.addPortalPair({ radius: 0.5 });\n * pair2.entryPortal.position.set(5, 0, 0);\n * pair2.exitPortal.position.set(10, 0, 0);\n *\n * // In animation loop:\n * portals.animateLoopHook();\n * ```\n */\nexport class SparkPortals {\n /** The THREE.WebGLRenderer */\n renderer: THREE.WebGLRenderer;\n /** The scene to render */\n scene: THREE.Scene;\n /** The main camera */\n camera: THREE.PerspectiveCamera;\n /** The local frame (parent of camera, used for teleportation) */\n localFrame: THREE.Group;\n\n /** Primary renderer with portal shader (added to scene) */\n portalRenderer: SparkRenderer;\n /** Secondary renderer for behind-portal pass (not in scene) */\n behindRenderer: SparkRenderer;\n /** Secondary camera for behind-portal view */\n camera2: THREE.PerspectiveCamera;\n\n /** All portal pairs */\n portalPairs: PortalPair[] = [];\n /** Default radius for new portal pairs */\n defaultPortalRadius: number;\n /** Epsilon for portal crossing detection */\n portalCrossEps: number;\n\n /** Used to detect crossing between frames */\n private lastCameraWorld = new THREE.Vector3().setScalar(Number.NaN);\n /** Whether portal LoD prefetch is currently enabled */\n private prefetchActive = false;\n\n // Preallocated objects for scratch work to avoid per frame allocations\n private scratch = {\n quat: new THREE.Quaternion(),\n scale: new THREE.Vector3(),\n center0: new THREE.Vector3(),\n center1: new THREE.Vector3(),\n normal0: new THREE.Vector3(),\n normal1: new THREE.Vector3(),\n centerT: new THREE.Vector3(),\n normalT: new THREE.Vector3(),\n prevCameraWorld: new THREE.Vector3(),\n currCameraWorld: new THREE.Vector3(),\n hit: new THREE.Vector3(),\n offset: new THREE.Vector3(),\n camWorld: new THREE.Matrix4(),\n newCamWorld: new THREE.Matrix4(),\n invCamLocal: new THREE.Matrix4(),\n newLocalFrame: new THREE.Matrix4(),\n cameraWorldPos: new THREE.Vector3(),\n viewDir: new THREE.Vector3(),\n portalCenter: new THREE.Vector3(),\n toPortal: new THREE.Vector3(),\n };\n\n constructor(options: SparkPortalsOptions) {\n this.renderer = options.renderer;\n this.scene = options.scene;\n this.camera = options.camera;\n this.localFrame = options.localFrame;\n this.defaultPortalRadius = options.defaultPortalRadius ?? 1.0;\n this.portalCrossEps = options.portalCrossEps ?? 1e-6;\n\n const sparkOpts = options.sparkOptions ?? {};\n\n // Primary renderer with portal shader\n this.portalRenderer = new SparkRenderer({\n renderer: this.renderer,\n extraUniforms: {\n diskCenter: { value: new THREE.Vector3() },\n diskNormal: { value: new THREE.Vector3() },\n diskRadius: { value: 0 },\n diskTwoSided: { value: false },\n },\n fragmentShader: DISK_PORTAL_FRAGMENT_SHADER,\n ...sparkOpts,\n });\n this.scene.add(this.portalRenderer);\n\n // Secondary renderer for behind-portal pass\n // enableDriveLod: false prevents this renderer from driving LOD updates,\n // avoiding race conditions with portalRenderer's pager operations\n this.behindRenderer = new SparkRenderer({\n renderer: this.renderer,\n enableDriveLod: false,\n ...sparkOpts,\n });\n\n // Secondary camera for behind-portal view\n this.camera2 = this.camera.clone();\n this.scene.add(this.camera2);\n }\n\n /**\n * Add a new portal pair to the system.\n * @param options Optional configuration for this pair\n * @returns The created PortalPair - position the entryPortal and exitPortal as needed\n */\n addPortalPair(options?: {\n radius?: number;\n onCross?: PortalCrossCallback;\n }): PortalPair {\n const pair: PortalPair = {\n entryPortal: new THREE.Object3D(),\n exitPortal: new THREE.Object3D(),\n radius: options?.radius ?? this.defaultPortalRadius,\n onCross: options?.onCross,\n _entryBefore: new THREE.Matrix4(),\n _exitBefore: new THREE.Matrix4(),\n };\n\n this.scene.add(pair.entryPortal);\n this.scene.add(pair.exitPortal);\n this.portalPairs.push(pair);\n\n return pair;\n }\n\n /**\n * Remove a portal pair from the system.\n */\n removePortalPair(pair: PortalPair): void {\n const index = this.portalPairs.indexOf(pair);\n if (index !== -1) {\n this.scene.remove(pair.entryPortal);\n this.scene.remove(pair.exitPortal);\n this.portalPairs.splice(index, 1);\n }\n }\n\n /**\n * Get transform from entry portal to exit portal.\n */\n getEntryToExitTransform(pair: PortalPair): THREE.Matrix4 {\n return pair.entryPortal.matrixWorld\n .clone()\n .invert()\n .premultiply(pair.exitPortal.matrixWorld);\n }\n\n /**\n * Get transform from exit portal to entry portal.\n */\n getExitToEntryTransform(pair: PortalPair): THREE.Matrix4 {\n return pair.exitPortal.matrixWorld\n .clone()\n .invert()\n .premultiply(pair.entryPortal.matrixWorld);\n }\n\n /** Set portal disk uniforms for shader clipping */\n private setPortalDiskUniforms(\n camera: THREE.Camera,\n portal: THREE.Object3D,\n radius: number,\n twoSided: boolean,\n ): void {\n camera.updateMatrixWorld(true);\n portal.updateMatrixWorld(true);\n\n const inverseCamera = camera.matrixWorld.clone().invert();\n const portalInCamera = portal.matrixWorld\n .clone()\n .premultiply(inverseCamera);\n const portalQuat = new THREE.Quaternion();\n\n // Extend the base uniform type with our portal-specific uniforms so TS is happy.\n const uniforms = this.portalRenderer\n .uniforms as typeof this.portalRenderer.uniforms & {\n diskCenter: { value: THREE.Vector3 };\n diskNormal: { value: THREE.Vector3 };\n diskRadius: { value: number };\n diskTwoSided: { value: boolean };\n };\n\n portalInCamera.decompose(\n uniforms.diskCenter.value,\n portalQuat,\n new THREE.Vector3(),\n );\n\n uniforms.diskNormal.value.set(0, 0, 1).applyQuaternion(portalQuat);\n uniforms.diskRadius.value = radius;\n uniforms.diskTwoSided.value = twoSided;\n }\n\n /** Extract portal plane from matrix */\n private getPortalPlane(\n matrix: THREE.Matrix4,\n outCenter: THREE.Vector3,\n outNormal: THREE.Vector3,\n ): void {\n matrix.decompose(outCenter, this.scratch.quat, this.scratch.scale);\n outNormal.set(0, 0, 1).applyQuaternion(this.scratch.quat).normalize();\n }\n\n /**\n * Detect if the user path crosses over a portal. If so, return the parametric position (0,1)\n * along the segment where the crossing occurs. If not, return null.\n */\n private getSegmentDiskCrossing(\n prevCam: THREE.Vector3,\n currCam: THREE.Vector3,\n beforeMatrix: THREE.Matrix4,\n afterMatrix: THREE.Matrix4,\n radius: number,\n ): number | null {\n this.getPortalPlane(\n beforeMatrix,\n this.scratch.center0,\n this.scratch.normal0,\n );\n this.getPortalPlane(\n afterMatrix,\n this.scratch.center1,\n this.scratch.normal1,\n );\n\n const startPlaneDist = this.scratch.offset\n .copy(prevCam)\n .sub(this.scratch.center0)\n .dot(this.scratch.normal0);\n const endPlaneDist = this.scratch.offset\n .copy(currCam)\n .sub(this.scratch.center1)\n .dot(this.scratch.normal1);\n\n if (\n (startPlaneDist > this.portalCrossEps &&\n endPlaneDist > this.portalCrossEps) ||\n (startPlaneDist < -this.portalCrossEps &&\n endPlaneDist < -this.portalCrossEps)\n ) {\n return null;\n }\n\n const denom = startPlaneDist - endPlaneDist;\n if (Math.abs(denom) < this.portalCrossEps) return null;\n\n const t = startPlaneDist / denom;\n if (t < 0 || t > 1) return null;\n\n this.scratch.hit.lerpVectors(prevCam, currCam, t);\n this.scratch.centerT\n .copy(this.scratch.center0)\n .lerp(this.scratch.center1, t);\n this.scratch.normalT\n .copy(this.scratch.normal0)\n .lerp(this.scratch.normal1, t)\n .normalize();\n\n this.scratch.offset.copy(this.scratch.hit).sub(this.scratch.centerT);\n this.scratch.offset.addScaledVector(\n this.scratch.normalT,\n -this.scratch.offset.dot(this.scratch.normalT),\n );\n\n if (this.scratch.offset.lengthSq() > radius * radius) return null;\n return t;\n }\n\n /** Teleport camera through portal */\n private teleport(transform: THREE.Matrix4): void {\n this.scratch.camWorld.copy(this.camera.matrixWorld);\n this.scratch.newCamWorld.copy(this.scratch.camWorld).premultiply(transform);\n this.scratch.invCamLocal.copy(this.camera.matrix).invert();\n this.scratch.newLocalFrame\n .copy(this.scratch.newCamWorld)\n .multiply(this.scratch.invCamLocal);\n\n this.scratch.newLocalFrame.decompose(\n this.localFrame.position,\n this.localFrame.quaternion,\n this.localFrame.scale,\n );\n this.localFrame.updateMatrixWorld(true);\n this.camera.updateMatrixWorld(true);\n }\n\n /**\n * Check for portal crossing and teleport if needed.\n * Checks all portal pairs and takes the earliest crossing.\n * Call this after updating controls but before render().\n */\n updateTeleportation(): void {\n if (this.portalPairs.length === 0) return;\n\n this.camera.getWorldPosition(this.scratch.currCameraWorld);\n if (!Number.isFinite(this.lastCameraWorld.x)) {\n this.lastCameraWorld.copy(this.scratch.currCameraWorld);\n return;\n }\n\n this.scratch.prevCameraWorld.copy(this.lastCameraWorld);\n\n // Store portal matrices before any updates and find earliest crossing\n let earliestT: number | null = null;\n let crossedPair: PortalPair | null = null;\n let crossedEntry = true; // true = crossed entry portal, false = crossed exit portal\n\n for (const pair of this.portalPairs) {\n pair.entryPortal.updateMatrixWorld(true);\n pair.exitPortal.updateMatrixWorld(true);\n pair._entryBefore.copy(pair.entryPortal.matrixWorld);\n pair._exitBefore.copy(pair.exitPortal.matrixWorld);\n\n // Check entry portal crossing\n const entryT = this.getSegmentDiskCrossing(\n this.scratch.prevCameraWorld,\n this.scratch.currCameraWorld,\n pair._entryBefore,\n pair.entryPortal.matrixWorld,\n pair.radius,\n );\n\n if (entryT !== null && (earliestT === null || entryT < earliestT)) {\n earliestT = entryT;\n crossedPair = pair;\n crossedEntry = true;\n }\n\n // Check exit portal crossing\n const exitT = this.getSegmentDiskCrossing(\n this.scratch.prevCameraWorld,\n this.scratch.currCameraWorld,\n pair._exitBefore,\n pair.exitPortal.matrixWorld,\n pair.radius,\n );\n\n if (exitT !== null && (earliestT === null || exitT < earliestT)) {\n earliestT = exitT;\n crossedPair = pair;\n crossedEntry = false;\n }\n }\n\n // No portal crossed\n if (crossedPair === null) {\n this.lastCameraWorld.copy(this.scratch.currCameraWorld);\n return;\n }\n\n // Teleport through the crossed portal\n if (crossedEntry) {\n this.teleport(this.getEntryToExitTransform(crossedPair));\n } else {\n this.teleport(this.getExitToEntryTransform(crossedPair));\n }\n\n this.camera.getWorldPosition(this.lastCameraWorld);\n\n // Call the portal's onCross callback if provided\n if (crossedPair.onCross) {\n // Call async callback but don't await (updateTeleportation is synchronous)\n // Errors will be logged but won't block teleportation\n Promise.resolve(crossedPair.onCross(crossedPair, crossedEntry)).catch(\n (error) => {\n console.error(\"Error in portal onCross callback:\", error);\n },\n );\n }\n }\n\n /**\n * Find the most relevant portal for rendering (closest to camera view direction).\n * Returns the portal pair and which portal (entry or exit) is primary.\n */\n private findPrimaryPortal(): {\n pair: PortalPair;\n primaryIsEntry: boolean;\n primaryPortal: THREE.Object3D;\n otherPortal: THREE.Object3D;\n } | null {\n if (this.portalPairs.length === 0) return null;\n\n this.camera.getWorldPosition(this.scratch.cameraWorldPos);\n this.camera.getWorldDirection(this.scratch.viewDir);\n\n let bestScore = Number.NEGATIVE_INFINITY;\n let bestPair: PortalPair | null = null;\n let bestIsEntry = true;\n\n for (const pair of this.portalPairs) {\n // Score entry portal\n pair.entryPortal.getWorldPosition(this.scratch.portalCenter);\n this.scratch.toPortal\n .copy(this.scratch.portalCenter)\n .sub(this.scratch.cameraWorldPos);\n const entryDist = this.scratch.toPortal.length();\n const entryScore =\n this.scratch.toPortal.normalize().dot(this.scratch.viewDir) / entryDist;\n\n if (entryScore > bestScore) {\n bestScore = entryScore;\n bestPair = pair;\n bestIsEntry = true;\n }\n\n // Score exit portal\n pair.exitPortal.getWorldPosition(this.scratch.portalCenter);\n this.scratch.toPortal\n .copy(this.scratch.portalCenter)\n .sub(this.scratch.cameraWorldPos);\n const exitDist = this.scratch.toPortal.length();\n const exitScore =\n this.scratch.toPortal.normalize().dot(this.scratch.viewDir) / exitDist;\n\n if (exitScore > bestScore) {\n bestScore = exitScore;\n bestPair = pair;\n bestIsEntry = false;\n }\n }\n\n if (!bestPair) return null;\n\n return {\n pair: bestPair,\n primaryIsEntry: bestIsEntry,\n primaryPortal: bestIsEntry ? bestPair.entryPortal : bestPair.exitPortal,\n otherPortal: bestIsEntry ? bestPair.exitPortal : bestPair.entryPortal,\n };\n }\n\n /**\n * Render the scene with portals using two-pass rendering.\n * Renders the most relevant portal pair (closest to camera view).\n * Call this instead of renderer.render() in your animation loop.\n */\n render(): void {\n const primary = this.findPrimaryPortal();\n\n // No portals - just render normally\n if (!primary) {\n if (this.prefetchActive) {\n // this.portalRenderer.setPrefetchCameras();\n this.prefetchActive = false;\n }\n this.renderer.autoClear = true;\n this.renderer.render(this.scene, this.camera);\n return;\n }\n\n if (!this.prefetchActive) {\n // this.portalRenderer.setPrefetchCameras([this.camera2]);\n this.prefetchActive = true;\n }\n\n const { pair, primaryIsEntry, primaryPortal, otherPortal } = primary;\n\n // Compute camera2 position (transformed through portal)\n const camera2Matrix = primaryIsEntry\n ? this.camera.matrixWorld\n .clone()\n .premultiply(this.getEntryToExitTransform(pair))\n : this.camera.matrixWorld\n .clone()\n .premultiply(this.getExitToEntryTransform(pair));\n camera2Matrix.decompose(\n this.camera2.position,\n this.camera2.quaternion,\n this.camera2.scale,\n );\n this.camera2.updateMatrixWorld(true);\n\n // Share lodInstances from portalRenderer to behindRenderer BEFORE Pass 1.\n // This uses previous frame's lodInstances (computed with main camera),\n // ensuring both passes use consistent splat selections to avoid flickering.\n this.shareLodInstances();\n\n // Pass 1: Behind portal view (uses shared 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+{"version":3,"file":"spark.cjs.js","sources":["../src/OldSplatGeometry.ts","../node_modules/fflate/esm/browser.js","../src/defines.ts","../src/dyno/types.ts","../src/dyno/value.ts","../src/dyno/base.ts","../src/utils.ts","../src/OldSplatWorker.ts","../node_modules/three/examples/jsm/postprocessing/Pass.js","../src/SplatWorker.ts","../src/dyno/splats.ts","../src/dyno/output.ts","../src/dyno/uniforms.ts","../src/dyno/program.ts","../src/dyno/mathTypes.ts","../src/dyno/math.ts","../src/dyno/logic.ts","../src/dyno/convert.ts","../src/dyno/vecmat.ts","../src/dyno/util.ts","../src/dyno/transform.ts","../src/dyno/control.ts","../src/dyno/texture.ts","../src/dyno/trig.ts","../src/ExtSplats.ts","../rust/spark-rs/pkg/spark_rs.js","../src/shaders/computeUvec4.glsl","../src/shaders/computeUvec4_Vec4.glsl","../src/shaders/computeUvec4x2_Vec4.glsl","../src/shaders/computeVec4.glsl","../src/shaders/oldSplatFragment.glsl","../src/shaders/oldSplatVertex.glsl","../src/shaders/splatDefines.glsl","../src/shaders/splatFragment.glsl","../src/shaders/splatVertex.glsl","../src/shaders.ts","../src/Readback.ts","../src/RgbaArray.ts","../src/SplatEdit.ts","../src/SplatGenerator.ts","../src/SplatAccumulator.ts","../src/SplatGeometry.ts","../src/SparkRenderer.ts","../src/SplatPager.ts","../src/SplatMesh.ts","../src/ply.ts","../src/SplatLoader.ts","../src/PackedSplats.ts","../src/OldSparkViewpoint.ts","../src/OldSplatAccumulator.ts","../src/OldSparkRenderer.ts","../src/antisplat.ts","../src/ksplat.ts","../src/spz.ts","../src/SplatSkinning.ts","../src/splatConstructors.ts","../src/generators/static.ts","../src/generators/snow.ts","../src/modifiers/normalColor.ts","../src/modifiers/depthColor.ts","../src/SparkXr.ts","../src/hands.ts","../src/controls.ts","../src/SparkPortals.ts"],"sourcesContent":["import * as THREE from \"three\";\n\n// SplatGeometry is an internal class used by SparkRenderer to render a collection\n// of Gsplats in a single draw call by extending THREE.InstancedBufferGeometry.\n// Each Gsplat is drawn as two triangles, with the order of the Gsplats determined\n// by the instance attribute \"ordering\".\n\nexport class OldSplatGeometry extends THREE.InstancedBufferGeometry {\n ordering: Uint32Array;\n attribute: THREE.InstancedBufferAttribute;\n\n constructor(ordering: Uint32Array, activeSplats: number) {\n super();\n\n this.ordering = ordering;\n\n this.setAttribute(\"position\", new THREE.BufferAttribute(QUAD_VERTICES, 3));\n this.setIndex(new THREE.BufferAttribute(QUAD_INDICES, 1));\n\n // Hack to work around Three.js\n // @ts-ignore\n this._maxInstanceCount = ordering.length;\n this.instanceCount = activeSplats;\n\n this.attribute = new THREE.InstancedBufferAttribute(ordering, 1, false, 1);\n this.attribute.setUsage(THREE.DynamicDrawUsage);\n this.setAttribute(\"splatIndex\", this.attribute);\n }\n\n update(ordering: Uint32Array, activeSplats: number) {\n this.ordering = ordering;\n this.attribute.array = ordering;\n this.instanceCount = activeSplats;\n this.attribute.addUpdateRange(0, activeSplats);\n this.attribute.needsUpdate = true;\n }\n}\n\n// Each instance draws to triangles covering a quad over coords (-1,-1,0)..(1,1,0)\nconst QUAD_VERTICES = new Float32Array([\n -1, -1, 0, 1, -1, 0, 1, 1, 0, -1, 1, 0,\n]);\n\nconst QUAD_INDICES = new Uint16Array([0, 1, 2, 0, 2, 3]);\n","// DEFLATE is a complex format; to read this code, you should probably check the RFC first:\n// https://tools.ietf.org/html/rfc1951\n// You may also wish to take a look at the guide I made about this program:\n// https://gist.github.com/101arrowz/253f31eb5abc3d9275ab943003ffecad\n// Some of the following code is similar to that of UZIP.js:\n// https://github.com/photopea/UZIP.js\n// However, the vast majority of the codebase has diverged from UZIP.js to increase performance and reduce bundle size.\n// Sometimes 0 will appear where -1 would be more appropriate. This is because using a uint\n// is better for memory in most engines (I *think*).\nvar ch2 = {};\nvar wk = (function (c, id, msg, transfer, cb) {\n var w = new Worker(ch2[id] || (ch2[id] = URL.createObjectURL(new Blob([\n c + ';addEventListener(\"error\",function(e){e=e.error;postMessage({$e$:[e.message,e.code,e.stack]})})'\n ], { type: 'text/javascript' }))));\n w.onmessage = function (e) {\n var d = e.data, ed = d.$e$;\n if (ed) {\n var err = new Error(ed[0]);\n err['code'] = ed[1];\n err.stack = ed[2];\n cb(err, null);\n }\n else\n cb(null, d);\n };\n w.postMessage(msg, transfer);\n return w;\n});\n\n// aliases for shorter compressed code (most minifers don't do this)\nvar u8 = Uint8Array, u16 = Uint16Array, i32 = Int32Array;\n// fixed length extra bits\nvar fleb = new u8([0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0, /* unused */ 0, 0, /* impossible */ 0]);\n// fixed distance extra bits\nvar fdeb = new u8([0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, /* unused */ 0, 0]);\n// code length index map\nvar clim = new u8([16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15]);\n// get base, reverse index map from extra bits\nvar freb = function (eb, start) {\n var b = new u16(31);\n for (var i = 0; i < 31; ++i) {\n b[i] = start += 1 << eb[i - 1];\n }\n // numbers here are at max 18 bits\n var r = new i32(b[30]);\n for (var i = 1; i < 30; ++i) {\n for (var j = b[i]; j < b[i + 1]; ++j) {\n r[j] = ((j - b[i]) << 5) | i;\n }\n }\n return { b: b, r: r };\n};\nvar _a = freb(fleb, 2), fl = _a.b, revfl = _a.r;\n// we can ignore the fact that the other numbers are wrong; they never happen anyway\nfl[28] = 258, revfl[258] = 28;\nvar _b = freb(fdeb, 0), fd = _b.b, revfd = _b.r;\n// map of value to reverse (assuming 16 bits)\nvar rev = new u16(32768);\nfor (var i = 0; i < 32768; ++i) {\n // reverse table algorithm from SO\n var x = ((i & 0xAAAA) >> 1) | ((i & 0x5555) << 1);\n x = ((x & 0xCCCC) >> 2) | ((x & 0x3333) << 2);\n x = ((x & 0xF0F0) >> 4) | ((x & 0x0F0F) << 4);\n rev[i] = (((x & 0xFF00) >> 8) | ((x & 0x00FF) << 8)) >> 1;\n}\n// create huffman tree from u8 \"map\": index -> code length for code index\n// mb (max bits) must be at most 15\n// TODO: optimize/split up?\nvar hMap = (function (cd, mb, r) {\n var s = cd.length;\n // index\n var i = 0;\n // u16 \"map\": index -> # of codes with bit length = index\n var l = new u16(mb);\n // length of cd must be 288 (total # of codes)\n for (; i < s; ++i) {\n if (cd[i])\n ++l[cd[i] - 1];\n }\n // u16 \"map\": index -> minimum code for bit length = index\n var le = new u16(mb);\n for (i = 1; i < mb; ++i) {\n le[i] = (le[i - 1] + l[i - 1]) << 1;\n }\n var co;\n if (r) {\n // u16 \"map\": index -> number of actual bits, symbol for code\n co = new u16(1 << mb);\n // bits to remove for reverser\n var rvb = 15 - mb;\n for (i = 0; i < s; ++i) {\n // ignore 0 lengths\n if (cd[i]) {\n // num encoding both symbol and bits read\n var sv = (i << 4) | cd[i];\n // free bits\n var r_1 = mb - cd[i];\n // start value\n var v = le[cd[i] - 1]++ << r_1;\n // m is end value\n for (var m = v | ((1 << r_1) - 1); v <= m; ++v) {\n // every 16 bit value starting with the code yields the same result\n co[rev[v] >> rvb] = sv;\n }\n }\n }\n }\n else {\n co = new u16(s);\n for (i = 0; i < s; ++i) {\n if (cd[i]) {\n co[i] = rev[le[cd[i] - 1]++] >> (15 - cd[i]);\n }\n }\n }\n return co;\n});\n// fixed length tree\nvar flt = new u8(288);\nfor (var i = 0; i < 144; ++i)\n flt[i] = 8;\nfor (var i = 144; i < 256; ++i)\n flt[i] = 9;\nfor (var i = 256; i < 280; ++i)\n flt[i] = 7;\nfor (var i = 280; i < 288; ++i)\n flt[i] = 8;\n// fixed distance tree\nvar fdt = new u8(32);\nfor (var i = 0; i < 32; ++i)\n fdt[i] = 5;\n// fixed length map\nvar flm = /*#__PURE__*/ hMap(flt, 9, 0), flrm = /*#__PURE__*/ hMap(flt, 9, 1);\n// fixed distance map\nvar fdm = /*#__PURE__*/ hMap(fdt, 5, 0), fdrm = /*#__PURE__*/ hMap(fdt, 5, 1);\n// find max of array\nvar max = function (a) {\n var m = a[0];\n for (var i = 1; i < a.length; ++i) {\n if (a[i] > m)\n m = a[i];\n }\n return m;\n};\n// read d, starting at bit p and mask with m\nvar bits = function (d, p, m) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8)) >> (p & 7)) & m;\n};\n// read d, starting at bit p continuing for at least 16 bits\nvar bits16 = function (d, p) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8) | (d[o + 2] << 16)) >> (p & 7));\n};\n// get end of byte\nvar shft = function (p) { return ((p + 7) / 8) | 0; };\n// typed array slice - allows garbage collector to free original reference,\n// while being more compatible than .slice\nvar slc = function (v, s, e) {\n if (s == null || s < 0)\n s = 0;\n if (e == null || e > v.length)\n e = v.length;\n // can't use .constructor in case user-supplied\n return new u8(v.subarray(s, e));\n};\n/**\n * Codes for errors generated within this library\n */\nexport var FlateErrorCode = {\n UnexpectedEOF: 0,\n InvalidBlockType: 1,\n InvalidLengthLiteral: 2,\n InvalidDistance: 3,\n StreamFinished: 4,\n NoStreamHandler: 5,\n InvalidHeader: 6,\n NoCallback: 7,\n InvalidUTF8: 8,\n ExtraFieldTooLong: 9,\n InvalidDate: 10,\n FilenameTooLong: 11,\n StreamFinishing: 12,\n InvalidZipData: 13,\n UnknownCompressionMethod: 14\n};\n// error codes\nvar ec = [\n 'unexpected EOF',\n 'invalid block type',\n 'invalid length/literal',\n 'invalid distance',\n 'stream finished',\n 'no stream handler',\n ,\n 'no callback',\n 'invalid UTF-8 data',\n 'extra field too long',\n 'date not in range 1980-2099',\n 'filename too long',\n 'stream finishing',\n 'invalid zip data'\n // determined by unknown compression method\n];\n;\nvar err = function (ind, msg, nt) {\n var e = new Error(msg || ec[ind]);\n e.code = ind;\n if (Error.captureStackTrace)\n Error.captureStackTrace(e, err);\n if (!nt)\n throw e;\n return e;\n};\n// expands raw DEFLATE data\nvar inflt = function (dat, st, buf, dict) {\n // source length dict length\n var sl = dat.length, dl = dict ? dict.length : 0;\n if (!sl || st.f && !st.l)\n return buf || new u8(0);\n var noBuf = !buf;\n // have to estimate size\n var resize = noBuf || st.i != 2;\n // no state\n var noSt = st.i;\n // Assumes roughly 33% compression ratio average\n if (noBuf)\n buf = new u8(sl * 3);\n // ensure buffer can fit at least l elements\n var cbuf = function (l) {\n var bl = buf.length;\n // need to increase size to fit\n if (l > bl) {\n // Double or set to necessary, whichever is greater\n var nbuf = new u8(Math.max(bl * 2, l));\n nbuf.set(buf);\n buf = nbuf;\n }\n };\n // last chunk bitpos bytes\n var final = st.f || 0, pos = st.p || 0, bt = st.b || 0, lm = st.l, dm = st.d, lbt = st.m, dbt = st.n;\n // total bits\n var tbts = sl * 8;\n do {\n if (!lm) {\n // BFINAL - this is only 1 when last chunk is next\n final = bits(dat, pos, 1);\n // type: 0 = no compression, 1 = fixed huffman, 2 = dynamic huffman\n var type = bits(dat, pos + 1, 3);\n pos += 3;\n if (!type) {\n // go to end of byte boundary\n var s = shft(pos) + 4, l = dat[s - 4] | (dat[s - 3] << 8), t = s + l;\n if (t > sl) {\n if (noSt)\n err(0);\n break;\n }\n // ensure size\n if (resize)\n cbuf(bt + l);\n // Copy over uncompressed data\n buf.set(dat.subarray(s, t), bt);\n // Get new bitpos, update byte count\n st.b = bt += l, st.p = pos = t * 8, st.f = final;\n continue;\n }\n else if (type == 1)\n lm = flrm, dm = fdrm, lbt = 9, dbt = 5;\n else if (type == 2) {\n // literal lengths\n var hLit = bits(dat, pos, 31) + 257, hcLen = bits(dat, pos + 10, 15) + 4;\n var tl = hLit + bits(dat, pos + 5, 31) + 1;\n pos += 14;\n // length+distance tree\n var ldt = new u8(tl);\n // code length tree\n var clt = new u8(19);\n for (var i = 0; i < hcLen; ++i) {\n // use index map to get real code\n clt[clim[i]] = bits(dat, pos + i * 3, 7);\n }\n pos += hcLen * 3;\n // code lengths bits\n var clb = max(clt), clbmsk = (1 << clb) - 1;\n // code lengths map\n var clm = hMap(clt, clb, 1);\n for (var i = 0; i < tl;) {\n var r = clm[bits(dat, pos, clbmsk)];\n // bits read\n pos += r & 15;\n // symbol\n var s = r >> 4;\n // code length to copy\n if (s < 16) {\n ldt[i++] = s;\n }\n else {\n // copy count\n var c = 0, n = 0;\n if (s == 16)\n n = 3 + bits(dat, pos, 3), pos += 2, c = ldt[i - 1];\n else if (s == 17)\n n = 3 + bits(dat, pos, 7), pos += 3;\n else if (s == 18)\n n = 11 + bits(dat, pos, 127), pos += 7;\n while (n--)\n ldt[i++] = c;\n }\n }\n // length tree distance tree\n var lt = ldt.subarray(0, hLit), dt = ldt.subarray(hLit);\n // max length bits\n lbt = max(lt);\n // max dist bits\n dbt = max(dt);\n lm = hMap(lt, lbt, 1);\n dm = hMap(dt, dbt, 1);\n }\n else\n err(1);\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n }\n // Make sure the buffer can hold this + the largest possible addition\n // Maximum chunk size (practically, theoretically infinite) is 2^17\n if (resize)\n cbuf(bt + 131072);\n var lms = (1 << lbt) - 1, dms = (1 << dbt) - 1;\n var lpos = pos;\n for (;; lpos = pos) {\n // bits read, code\n var c = lm[bits16(dat, pos) & lms], sym = c >> 4;\n pos += c & 15;\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (!c)\n err(2);\n if (sym < 256)\n buf[bt++] = sym;\n else if (sym == 256) {\n lpos = pos, lm = null;\n break;\n }\n else {\n var add = sym - 254;\n // no extra bits needed if less\n if (sym > 264) {\n // index\n var i = sym - 257, b = fleb[i];\n add = bits(dat, pos, (1 << b) - 1) + fl[i];\n pos += b;\n }\n // dist\n var d = dm[bits16(dat, pos) & dms], dsym = d >> 4;\n if (!d)\n err(3);\n pos += d & 15;\n var dt = fd[dsym];\n if (dsym > 3) {\n var b = fdeb[dsym];\n dt += bits16(dat, pos) & (1 << b) - 1, pos += b;\n }\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + 131072);\n var end = bt + add;\n if (bt < dt) {\n var shift = dl - dt, dend = Math.min(dt, end);\n if (shift + bt < 0)\n err(3);\n for (; bt < dend; ++bt)\n buf[bt] = dict[shift + bt];\n }\n for (; bt < end; ++bt)\n buf[bt] = buf[bt - dt];\n }\n }\n st.l = lm, st.p = lpos, st.b = bt, st.f = final;\n if (lm)\n final = 1, st.m = lbt, st.d = dm, st.n = dbt;\n } while (!final);\n // don't reallocate for streams or user buffers\n return bt != buf.length && noBuf ? slc(buf, 0, bt) : buf.subarray(0, bt);\n};\n// starting at p, write the minimum number of bits that can hold v to d\nvar wbits = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n};\n// starting at p, write the minimum number of bits (>8) that can hold v to d\nvar wbits16 = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n d[o + 2] |= v >> 16;\n};\n// creates code lengths from a frequency table\nvar hTree = function (d, mb) {\n // Need extra info to make a tree\n var t = [];\n for (var i = 0; i < d.length; ++i) {\n if (d[i])\n t.push({ s: i, f: d[i] });\n }\n var s = t.length;\n var t2 = t.slice();\n if (!s)\n return { t: et, l: 0 };\n if (s == 1) {\n var v = new u8(t[0].s + 1);\n v[t[0].s] = 1;\n return { t: v, l: 1 };\n }\n t.sort(function (a, b) { return a.f - b.f; });\n // after i2 reaches last ind, will be stopped\n // freq must be greater than largest possible number of symbols\n t.push({ s: -1, f: 25001 });\n var l = t[0], r = t[1], i0 = 0, i1 = 1, i2 = 2;\n t[0] = { s: -1, f: l.f + r.f, l: l, r: r };\n // efficient algorithm from UZIP.js\n // i0 is lookbehind, i2 is lookahead - after processing two low-freq\n // symbols that combined have high freq, will start processing i2 (high-freq,\n // non-composite) symbols instead\n // see https://reddit.com/r/photopea/comments/ikekht/uzipjs_questions/\n while (i1 != s - 1) {\n l = t[t[i0].f < t[i2].f ? i0++ : i2++];\n r = t[i0 != i1 && t[i0].f < t[i2].f ? i0++ : i2++];\n t[i1++] = { s: -1, f: l.f + r.f, l: l, r: r };\n }\n var maxSym = t2[0].s;\n for (var i = 1; i < s; ++i) {\n if (t2[i].s > maxSym)\n maxSym = t2[i].s;\n }\n // code lengths\n var tr = new u16(maxSym + 1);\n // max bits in tree\n var mbt = ln(t[i1 - 1], tr, 0);\n if (mbt > mb) {\n // more algorithms from UZIP.js\n // TODO: find out how this code works (debt)\n // ind debt\n var i = 0, dt = 0;\n // left cost\n var lft = mbt - mb, cst = 1 << lft;\n t2.sort(function (a, b) { return tr[b.s] - tr[a.s] || a.f - b.f; });\n for (; i < s; ++i) {\n var i2_1 = t2[i].s;\n if (tr[i2_1] > mb) {\n dt += cst - (1 << (mbt - tr[i2_1]));\n tr[i2_1] = mb;\n }\n else\n break;\n }\n dt >>= lft;\n while (dt > 0) {\n var i2_2 = t2[i].s;\n if (tr[i2_2] < mb)\n dt -= 1 << (mb - tr[i2_2]++ - 1);\n else\n ++i;\n }\n for (; i >= 0 && dt; --i) {\n var i2_3 = t2[i].s;\n if (tr[i2_3] == mb) {\n --tr[i2_3];\n ++dt;\n }\n }\n mbt = mb;\n }\n return { t: new u8(tr), l: mbt };\n};\n// get the max length and assign length codes\nvar ln = function (n, l, d) {\n return n.s == -1\n ? Math.max(ln(n.l, l, d + 1), ln(n.r, l, d + 1))\n : (l[n.s] = d);\n};\n// length codes generation\nvar lc = function (c) {\n var s = c.length;\n // Note that the semicolon was intentional\n while (s && !c[--s])\n ;\n var cl = new u16(++s);\n // ind num streak\n var cli = 0, cln = c[0], cls = 1;\n var w = function (v) { cl[cli++] = v; };\n for (var i = 1; i <= s; ++i) {\n if (c[i] == cln && i != s)\n ++cls;\n else {\n if (!cln && cls > 2) {\n for (; cls > 138; cls -= 138)\n w(32754);\n if (cls > 2) {\n w(cls > 10 ? ((cls - 11) << 5) | 28690 : ((cls - 3) << 5) | 12305);\n cls = 0;\n }\n }\n else if (cls > 3) {\n w(cln), --cls;\n for (; cls > 6; cls -= 6)\n w(8304);\n if (cls > 2)\n w(((cls - 3) << 5) | 8208), cls = 0;\n }\n while (cls--)\n w(cln);\n cls = 1;\n cln = c[i];\n }\n }\n return { c: cl.subarray(0, cli), n: s };\n};\n// calculate the length of output from tree, code lengths\nvar clen = function (cf, cl) {\n var l = 0;\n for (var i = 0; i < cl.length; ++i)\n l += cf[i] * cl[i];\n return l;\n};\n// writes a fixed block\n// returns the new bit pos\nvar wfblk = function (out, pos, dat) {\n // no need to write 00 as type: TypedArray defaults to 0\n var s = dat.length;\n var o = shft(pos + 2);\n out[o] = s & 255;\n out[o + 1] = s >> 8;\n out[o + 2] = out[o] ^ 255;\n out[o + 3] = out[o + 1] ^ 255;\n for (var i = 0; i < s; ++i)\n out[o + i + 4] = dat[i];\n return (o + 4 + s) * 8;\n};\n// writes a block\nvar wblk = function (dat, out, final, syms, lf, df, eb, li, bs, bl, p) {\n wbits(out, p++, final);\n ++lf[256];\n var _a = hTree(lf, 15), dlt = _a.t, mlb = _a.l;\n var _b = hTree(df, 15), ddt = _b.t, mdb = _b.l;\n var _c = lc(dlt), lclt = _c.c, nlc = _c.n;\n var _d = lc(ddt), lcdt = _d.c, ndc = _d.n;\n var lcfreq = new u16(19);\n for (var i = 0; i < lclt.length; ++i)\n ++lcfreq[lclt[i] & 31];\n for (var i = 0; i < lcdt.length; ++i)\n ++lcfreq[lcdt[i] & 31];\n var _e = hTree(lcfreq, 7), lct = _e.t, mlcb = _e.l;\n var nlcc = 19;\n for (; nlcc > 4 && !lct[clim[nlcc - 1]]; --nlcc)\n ;\n var flen = (bl + 5) << 3;\n var ftlen = clen(lf, flt) + clen(df, fdt) + eb;\n var dtlen = clen(lf, dlt) + clen(df, ddt) + eb + 14 + 3 * nlcc + clen(lcfreq, lct) + 2 * lcfreq[16] + 3 * lcfreq[17] + 7 * lcfreq[18];\n if (bs >= 0 && flen <= ftlen && flen <= dtlen)\n return wfblk(out, p, dat.subarray(bs, bs + bl));\n var lm, ll, dm, dl;\n wbits(out, p, 1 + (dtlen < ftlen)), p += 2;\n if (dtlen < ftlen) {\n lm = hMap(dlt, mlb, 0), ll = dlt, dm = hMap(ddt, mdb, 0), dl = ddt;\n var llm = hMap(lct, mlcb, 0);\n wbits(out, p, nlc - 257);\n wbits(out, p + 5, ndc - 1);\n wbits(out, p + 10, nlcc - 4);\n p += 14;\n for (var i = 0; i < nlcc; ++i)\n wbits(out, p + 3 * i, lct[clim[i]]);\n p += 3 * nlcc;\n var lcts = [lclt, lcdt];\n for (var it = 0; it < 2; ++it) {\n var clct = lcts[it];\n for (var i = 0; i < clct.length; ++i) {\n var len = clct[i] & 31;\n wbits(out, p, llm[len]), p += lct[len];\n if (len > 15)\n wbits(out, p, (clct[i] >> 5) & 127), p += clct[i] >> 12;\n }\n }\n }\n else {\n lm = flm, ll = flt, dm = fdm, dl = fdt;\n }\n for (var i = 0; i < li; ++i) {\n var sym = syms[i];\n if (sym > 255) {\n var len = (sym >> 18) & 31;\n wbits16(out, p, lm[len + 257]), p += ll[len + 257];\n if (len > 7)\n wbits(out, p, (sym >> 23) & 31), p += fleb[len];\n var dst = sym & 31;\n wbits16(out, p, dm[dst]), p += dl[dst];\n if (dst > 3)\n wbits16(out, p, (sym >> 5) & 8191), p += fdeb[dst];\n }\n else {\n wbits16(out, p, lm[sym]), p += ll[sym];\n }\n }\n wbits16(out, p, lm[256]);\n return p + ll[256];\n};\n// deflate options (nice << 13) | chain\nvar deo = /*#__PURE__*/ new i32([65540, 131080, 131088, 131104, 262176, 1048704, 1048832, 2114560, 2117632]);\n// empty\nvar et = /*#__PURE__*/ new u8(0);\n// compresses data into a raw DEFLATE buffer\nvar dflt = function (dat, lvl, plvl, pre, post, st) {\n var s = st.z || dat.length;\n var o = new u8(pre + s + 5 * (1 + Math.ceil(s / 7000)) + post);\n // writing to this writes to the output buffer\n var w = o.subarray(pre, o.length - post);\n var lst = st.l;\n var pos = (st.r || 0) & 7;\n if (lvl) {\n if (pos)\n w[0] = st.r >> 3;\n var opt = deo[lvl - 1];\n var n = opt >> 13, c = opt & 8191;\n var msk_1 = (1 << plvl) - 1;\n // prev 2-byte val map curr 2-byte val map\n var prev = st.p || new u16(32768), head = st.h || new u16(msk_1 + 1);\n var bs1_1 = Math.ceil(plvl / 3), bs2_1 = 2 * bs1_1;\n var hsh = function (i) { return (dat[i] ^ (dat[i + 1] << bs1_1) ^ (dat[i + 2] << bs2_1)) & msk_1; };\n // 24576 is an arbitrary number of maximum symbols per block\n // 424 buffer for last block\n var syms = new i32(25000);\n // length/literal freq distance freq\n var lf = new u16(288), df = new u16(32);\n // l/lcnt exbits index l/lind waitdx blkpos\n var lc_1 = 0, eb = 0, i = st.i || 0, li = 0, wi = st.w || 0, bs = 0;\n for (; i + 2 < s; ++i) {\n // hash value\n var hv = hsh(i);\n // index mod 32768 previous index mod\n var imod = i & 32767, pimod = head[hv];\n prev[imod] = pimod;\n head[hv] = imod;\n // We always should modify head and prev, but only add symbols if\n // this data is not yet processed (\"wait\" for wait index)\n if (wi <= i) {\n // bytes remaining\n var rem = s - i;\n if ((lc_1 > 7000 || li > 24576) && (rem > 423 || !lst)) {\n pos = wblk(dat, w, 0, syms, lf, df, eb, li, bs, i - bs, pos);\n li = lc_1 = eb = 0, bs = i;\n for (var j = 0; j < 286; ++j)\n lf[j] = 0;\n for (var j = 0; j < 30; ++j)\n df[j] = 0;\n }\n // len dist chain\n var l = 2, d = 0, ch_1 = c, dif = imod - pimod & 32767;\n if (rem > 2 && hv == hsh(i - dif)) {\n var maxn = Math.min(n, rem) - 1;\n var maxd = Math.min(32767, i);\n // max possible length\n // not capped at dif because decompressors implement \"rolling\" index population\n var ml = Math.min(258, rem);\n while (dif <= maxd && --ch_1 && imod != pimod) {\n if (dat[i + l] == dat[i + l - dif]) {\n var nl = 0;\n for (; nl < ml && dat[i + nl] == dat[i + nl - dif]; ++nl)\n ;\n if (nl > l) {\n l = nl, d = dif;\n // break out early when we reach \"nice\" (we are satisfied enough)\n if (nl > maxn)\n break;\n // now, find the rarest 2-byte sequence within this\n // length of literals and search for that instead.\n // Much faster than just using the start\n var mmd = Math.min(dif, nl - 2);\n var md = 0;\n for (var j = 0; j < mmd; ++j) {\n var ti = i - dif + j & 32767;\n var pti = prev[ti];\n var cd = ti - pti & 32767;\n if (cd > md)\n md = cd, pimod = ti;\n }\n }\n }\n // check the previous match\n imod = pimod, pimod = prev[imod];\n dif += imod - pimod & 32767;\n }\n }\n // d will be nonzero only when a match was found\n if (d) {\n // store both dist and len data in one int32\n // Make sure this is recognized as a len/dist with 28th bit (2^28)\n syms[li++] = 268435456 | (revfl[l] << 18) | revfd[d];\n var lin = revfl[l] & 31, din = revfd[d] & 31;\n eb += fleb[lin] + fdeb[din];\n ++lf[257 + lin];\n ++df[din];\n wi = i + l;\n ++lc_1;\n }\n else {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n }\n }\n for (i = Math.max(i, wi); i < s; ++i) {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n pos = wblk(dat, w, lst, syms, lf, df, eb, li, bs, i - bs, pos);\n if (!lst) {\n st.r = (pos & 7) | w[(pos / 8) | 0] << 3;\n // shft(pos) now 1 less if pos & 7 != 0\n pos -= 7;\n st.h = head, st.p = prev, st.i = i, st.w = wi;\n }\n }\n else {\n for (var i = st.w || 0; i < s + lst; i += 65535) {\n // end\n var e = i + 65535;\n if (e >= s) {\n // write final block\n w[(pos / 8) | 0] = lst;\n e = s;\n }\n pos = wfblk(w, pos + 1, dat.subarray(i, e));\n }\n st.i = s;\n }\n return slc(o, 0, pre + shft(pos) + post);\n};\n// CRC32 table\nvar crct = /*#__PURE__*/ (function () {\n var t = new Int32Array(256);\n for (var i = 0; i < 256; ++i) {\n var c = i, k = 9;\n while (--k)\n c = ((c & 1) && -306674912) ^ (c >>> 1);\n t[i] = c;\n }\n return t;\n})();\n// CRC32\nvar crc = function () {\n var c = -1;\n return {\n p: function (d) {\n // closures have awful performance\n var cr = c;\n for (var i = 0; i < d.length; ++i)\n cr = crct[(cr & 255) ^ d[i]] ^ (cr >>> 8);\n c = cr;\n },\n d: function () { return ~c; }\n };\n};\n// Adler32\nvar adler = function () {\n var a = 1, b = 0;\n return {\n p: function (d) {\n // closures have awful performance\n var n = a, m = b;\n var l = d.length | 0;\n for (var i = 0; i != l;) {\n var e = Math.min(i + 2655, l);\n for (; i < e; ++i)\n m += n += d[i];\n n = (n & 65535) + 15 * (n >> 16), m = (m & 65535) + 15 * (m >> 16);\n }\n a = n, b = m;\n },\n d: function () {\n a %= 65521, b %= 65521;\n return (a & 255) << 24 | (a & 0xFF00) << 8 | (b & 255) << 8 | (b >> 8);\n }\n };\n};\n;\n// deflate with opts\nvar dopt = function (dat, opt, pre, post, st) {\n if (!st) {\n st = { l: 1 };\n if (opt.dictionary) {\n var dict = opt.dictionary.subarray(-32768);\n var newDat = new u8(dict.length + dat.length);\n newDat.set(dict);\n newDat.set(dat, dict.length);\n dat = newDat;\n st.w = dict.length;\n }\n }\n return dflt(dat, opt.level == null ? 6 : opt.level, opt.mem == null ? (st.l ? Math.ceil(Math.max(8, Math.min(13, Math.log(dat.length))) * 1.5) : 20) : (12 + opt.mem), pre, post, st);\n};\n// Walmart object spread\nvar mrg = function (a, b) {\n var o = {};\n for (var k in a)\n o[k] = a[k];\n for (var k in b)\n o[k] = b[k];\n return o;\n};\n// worker clone\n// This is possibly the craziest part of the entire codebase, despite how simple it may seem.\n// The only parameter to this function is a closure that returns an array of variables outside of the function scope.\n// We're going to try to figure out the variable names used in the closure as strings because that is crucial for workerization.\n// We will return an object mapping of true variable name to value (basically, the current scope as a JS object).\n// The reason we can't just use the original variable names is minifiers mangling the toplevel scope.\n// This took me three weeks to figure out how to do.\nvar wcln = function (fn, fnStr, td) {\n var dt = fn();\n var st = fn.toString();\n var ks = st.slice(st.indexOf('[') + 1, st.lastIndexOf(']')).replace(/\\s+/g, '').split(',');\n for (var i = 0; i < dt.length; ++i) {\n var v = dt[i], k = ks[i];\n if (typeof v == 'function') {\n fnStr += ';' + k + '=';\n var st_1 = v.toString();\n if (v.prototype) {\n // for global objects\n if (st_1.indexOf('[native code]') != -1) {\n var spInd = st_1.indexOf(' ', 8) + 1;\n fnStr += st_1.slice(spInd, st_1.indexOf('(', spInd));\n }\n else {\n fnStr += st_1;\n for (var t in v.prototype)\n fnStr += ';' + k + '.prototype.' + t + '=' + v.prototype[t].toString();\n }\n }\n else\n fnStr += st_1;\n }\n else\n td[k] = v;\n }\n return fnStr;\n};\nvar ch = [];\n// clone bufs\nvar cbfs = function (v) {\n var tl = [];\n for (var k in v) {\n if (v[k].buffer) {\n tl.push((v[k] = new v[k].constructor(v[k])).buffer);\n }\n }\n return tl;\n};\n// use a worker to execute code\nvar wrkr = function (fns, init, id, cb) {\n if (!ch[id]) {\n var fnStr = '', td_1 = {}, m = fns.length - 1;\n for (var i = 0; i < m; ++i)\n fnStr = wcln(fns[i], fnStr, td_1);\n ch[id] = { c: wcln(fns[m], fnStr, td_1), e: td_1 };\n }\n var td = mrg({}, ch[id].e);\n return wk(ch[id].c + ';onmessage=function(e){for(var k in e.data)self[k]=e.data[k];onmessage=' + init.toString() + '}', id, td, cbfs(td), cb);\n};\n// base async inflate fn\nvar bInflt = function () { return [u8, u16, i32, fleb, fdeb, clim, fl, fd, flrm, fdrm, rev, ec, hMap, max, bits, bits16, shft, slc, err, inflt, inflateSync, pbf, gopt]; };\nvar bDflt = function () { return [u8, u16, i32, fleb, fdeb, clim, revfl, revfd, flm, flt, fdm, fdt, rev, deo, et, hMap, wbits, wbits16, hTree, ln, lc, clen, wfblk, wblk, shft, slc, dflt, dopt, deflateSync, pbf]; };\n// gzip extra\nvar gze = function () { return [gzh, gzhl, wbytes, crc, crct]; };\n// gunzip extra\nvar guze = function () { return [gzs, gzl]; };\n// zlib extra\nvar zle = function () { return [zlh, wbytes, adler]; };\n// unzlib extra\nvar zule = function () { return [zls]; };\n// post buf\nvar pbf = function (msg) { return postMessage(msg, [msg.buffer]); };\n// get opts\nvar gopt = function (o) { return o && {\n out: o.size && new u8(o.size),\n dictionary: o.dictionary\n}; };\n// async helper\nvar cbify = function (dat, opts, fns, init, id, cb) {\n var w = wrkr(fns, init, id, function (err, dat) {\n w.terminate();\n cb(err, dat);\n });\n w.postMessage([dat, opts], opts.consume ? [dat.buffer] : []);\n return function () { w.terminate(); };\n};\n// auto stream\nvar astrm = function (strm) {\n strm.ondata = function (dat, final) { return postMessage([dat, final], [dat.buffer]); };\n return function (ev) {\n if (ev.data.length) {\n strm.push(ev.data[0], ev.data[1]);\n postMessage([ev.data[0].length]);\n }\n else\n strm.flush();\n };\n};\n// async stream attach\nvar astrmify = function (fns, strm, opts, init, id, flush, ext) {\n var t;\n var w = wrkr(fns, init, id, function (err, dat) {\n if (err)\n w.terminate(), strm.ondata.call(strm, err);\n else if (!Array.isArray(dat))\n ext(dat);\n else if (dat.length == 1) {\n strm.queuedSize -= dat[0];\n if (strm.ondrain)\n strm.ondrain(dat[0]);\n }\n else {\n if (dat[1])\n w.terminate();\n strm.ondata.call(strm, err, dat[0], dat[1]);\n }\n });\n w.postMessage(opts);\n strm.queuedSize = 0;\n strm.push = function (d, f) {\n if (!strm.ondata)\n err(5);\n if (t)\n strm.ondata(err(4, 0, 1), null, !!f);\n strm.queuedSize += d.length;\n w.postMessage([d, t = f], [d.buffer]);\n };\n strm.terminate = function () { w.terminate(); };\n if (flush) {\n strm.flush = function () { w.postMessage([]); };\n }\n};\n// read 2 bytes\nvar b2 = function (d, b) { return d[b] | (d[b + 1] << 8); };\n// read 4 bytes\nvar b4 = function (d, b) { return (d[b] | (d[b + 1] << 8) | (d[b + 2] << 16) | (d[b + 3] << 24)) >>> 0; };\nvar b8 = function (d, b) { return b4(d, b) + (b4(d, b + 4) * 4294967296); };\n// write bytes\nvar wbytes = function (d, b, v) {\n for (; v; ++b)\n d[b] = v, v >>>= 8;\n};\n// gzip header\nvar gzh = function (c, o) {\n var fn = o.filename;\n c[0] = 31, c[1] = 139, c[2] = 8, c[8] = o.level < 2 ? 4 : o.level == 9 ? 2 : 0, c[9] = 3; // assume Unix\n if (o.mtime != 0)\n wbytes(c, 4, Math.floor(new Date(o.mtime || Date.now()) / 1000));\n if (fn) {\n c[3] = 8;\n for (var i = 0; i <= fn.length; ++i)\n c[i + 10] = fn.charCodeAt(i);\n }\n};\n// gzip footer: -8 to -4 = CRC, -4 to -0 is length\n// gzip start\nvar gzs = function (d) {\n if (d[0] != 31 || d[1] != 139 || d[2] != 8)\n err(6, 'invalid gzip data');\n var flg = d[3];\n var st = 10;\n if (flg & 4)\n st += (d[10] | d[11] << 8) + 2;\n for (var zs = (flg >> 3 & 1) + (flg >> 4 & 1); zs > 0; zs -= !d[st++])\n ;\n return st + (flg & 2);\n};\n// gzip length\nvar gzl = function (d) {\n var l = d.length;\n return (d[l - 4] | d[l - 3] << 8 | d[l - 2] << 16 | d[l - 1] << 24) >>> 0;\n};\n// gzip header length\nvar gzhl = function (o) { return 10 + (o.filename ? o.filename.length + 1 : 0); };\n// zlib header\nvar zlh = function (c, o) {\n var lv = o.level, fl = lv == 0 ? 0 : lv < 6 ? 1 : lv == 9 ? 3 : 2;\n c[0] = 120, c[1] = (fl << 6) | (o.dictionary && 32);\n c[1] |= 31 - ((c[0] << 8) | c[1]) % 31;\n if (o.dictionary) {\n var h = adler();\n h.p(o.dictionary);\n wbytes(c, 2, h.d());\n }\n};\n// zlib start\nvar zls = function (d, dict) {\n if ((d[0] & 15) != 8 || (d[0] >> 4) > 7 || ((d[0] << 8 | d[1]) % 31))\n err(6, 'invalid zlib data');\n if ((d[1] >> 5 & 1) == +!dict)\n err(6, 'invalid zlib data: ' + (d[1] & 32 ? 'need' : 'unexpected') + ' dictionary');\n return (d[1] >> 3 & 4) + 2;\n};\nfunction StrmOpt(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n return opts;\n}\n/**\n * Streaming DEFLATE compression\n */\nvar Deflate = /*#__PURE__*/ (function () {\n function Deflate(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n this.o = opts || {};\n this.s = { l: 0, i: 32768, w: 32768, z: 32768 };\n // Buffer length must always be 0 mod 32768 for index calculations to be correct when modifying head and prev\n // 98304 = 32768 (lookback) + 65536 (common chunk size)\n this.b = new u8(98304);\n if (this.o.dictionary) {\n var dict = this.o.dictionary.subarray(-32768);\n this.b.set(dict, 32768 - dict.length);\n this.s.i = 32768 - dict.length;\n }\n }\n Deflate.prototype.p = function (c, f) {\n this.ondata(dopt(c, this.o, 0, 0, this.s), f);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Deflate.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n var endLen = chunk.length + this.s.z;\n if (endLen > this.b.length) {\n if (endLen > 2 * this.b.length - 32768) {\n var newBuf = new u8(endLen & -32768);\n newBuf.set(this.b.subarray(0, this.s.z));\n this.b = newBuf;\n }\n var split = this.b.length - this.s.z;\n this.b.set(chunk.subarray(0, split), this.s.z);\n this.s.z = this.b.length;\n this.p(this.b, false);\n this.b.set(this.b.subarray(-32768));\n this.b.set(chunk.subarray(split), 32768);\n this.s.z = chunk.length - split + 32768;\n this.s.i = 32766, this.s.w = 32768;\n }\n else {\n this.b.set(chunk, this.s.z);\n this.s.z += chunk.length;\n }\n this.s.l = final & 1;\n if (this.s.z > this.s.w + 8191 || final) {\n this.p(this.b, final || false);\n this.s.w = this.s.i, this.s.i -= 2;\n }\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * deflated output for small inputs.\n */\n Deflate.prototype.flush = function () {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n this.p(this.b, false);\n this.s.w = this.s.i, this.s.i -= 2;\n };\n return Deflate;\n}());\nexport { Deflate };\n/**\n * Asynchronous streaming DEFLATE compression\n */\nvar AsyncDeflate = /*#__PURE__*/ (function () {\n function AsyncDeflate(opts, cb) {\n astrmify([\n bDflt,\n function () { return [astrm, Deflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Deflate(ev.data);\n onmessage = astrm(strm);\n }, 6, 1);\n }\n return AsyncDeflate;\n}());\nexport { AsyncDeflate };\nexport function deflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n ], function (ev) { return pbf(deflateSync(ev.data[0], ev.data[1])); }, 0, cb);\n}\n/**\n * Compresses data with DEFLATE without any wrapper\n * @param data The data to compress\n * @param opts The compression options\n * @returns The deflated version of the data\n */\nexport function deflateSync(data, opts) {\n return dopt(data, opts || {}, 0, 0);\n}\n/**\n * Streaming DEFLATE decompression\n */\nvar Inflate = /*#__PURE__*/ (function () {\n function Inflate(opts, cb) {\n // no StrmOpt here to avoid adding to workerizer\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n var dict = opts && opts.dictionary && opts.dictionary.subarray(-32768);\n this.s = { i: 0, b: dict ? dict.length : 0 };\n this.o = new u8(32768);\n this.p = new u8(0);\n if (dict)\n this.o.set(dict);\n }\n Inflate.prototype.e = function (c) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n if (!this.p.length)\n this.p = c;\n else if (c.length) {\n var n = new u8(this.p.length + c.length);\n n.set(this.p), n.set(c, this.p.length), this.p = n;\n }\n };\n Inflate.prototype.c = function (final) {\n this.s.i = +(this.d = final || false);\n var bts = this.s.b;\n var dt = inflt(this.p, this.s, this.o);\n this.ondata(slc(dt, bts, this.s.b), this.d);\n this.o = slc(dt, this.s.b - 32768), this.s.b = this.o.length;\n this.p = slc(this.p, (this.s.p / 8) | 0), this.s.p &= 7;\n };\n /**\n * Pushes a chunk to be inflated\n * @param chunk The chunk to push\n * @param final Whether this is the final chunk\n */\n Inflate.prototype.push = function (chunk, final) {\n this.e(chunk), this.c(final);\n };\n return Inflate;\n}());\nexport { Inflate };\n/**\n * Asynchronous streaming DEFLATE decompression\n */\nvar AsyncInflate = /*#__PURE__*/ (function () {\n function AsyncInflate(opts, cb) {\n astrmify([\n bInflt,\n function () { return [astrm, Inflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Inflate(ev.data);\n onmessage = astrm(strm);\n }, 7, 0);\n }\n return AsyncInflate;\n}());\nexport { AsyncInflate };\nexport function inflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt\n ], function (ev) { return pbf(inflateSync(ev.data[0], gopt(ev.data[1]))); }, 1, cb);\n}\n/**\n * Expands DEFLATE data with no wrapper\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function inflateSync(data, opts) {\n return inflt(data, { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// before you yell at me for not just using extends, my reason is that TS inheritance is hard to workerize.\n/**\n * Streaming GZIP compression\n */\nvar Gzip = /*#__PURE__*/ (function () {\n function Gzip(opts, cb) {\n this.c = crc();\n this.l = 0;\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gzip.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n this.l += chunk.length;\n Deflate.prototype.push.call(this, chunk, final);\n };\n Gzip.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && gzhl(this.o), f && 8, this.s);\n if (this.v)\n gzh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 8, this.c.d()), wbytes(raw, raw.length - 4, this.l);\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * GZIPped output for small inputs.\n */\n Gzip.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Gzip;\n}());\nexport { Gzip };\n/**\n * Asynchronous streaming GZIP compression\n */\nvar AsyncGzip = /*#__PURE__*/ (function () {\n function AsyncGzip(opts, cb) {\n astrmify([\n bDflt,\n gze,\n function () { return [astrm, Deflate, Gzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gzip(ev.data);\n onmessage = astrm(strm);\n }, 8, 1);\n }\n return AsyncGzip;\n}());\nexport { AsyncGzip };\nexport function gzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n gze,\n function () { return [gzipSync]; }\n ], function (ev) { return pbf(gzipSync(ev.data[0], ev.data[1])); }, 2, cb);\n}\n/**\n * Compresses data with GZIP\n * @param data The data to compress\n * @param opts The compression options\n * @returns The gzipped version of the data\n */\nexport function gzipSync(data, opts) {\n if (!opts)\n opts = {};\n var c = crc(), l = data.length;\n c.p(data);\n var d = dopt(data, opts, gzhl(opts), 8), s = d.length;\n return gzh(d, opts), wbytes(d, s - 8, c.d()), wbytes(d, s - 4, l), d;\n}\n/**\n * Streaming single or multi-member GZIP decompression\n */\nvar Gunzip = /*#__PURE__*/ (function () {\n function Gunzip(opts, cb) {\n this.v = 1;\n this.r = 0;\n Inflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GUNZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gunzip.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n this.r += chunk.length;\n if (this.v) {\n var p = this.p.subarray(this.v - 1);\n var s = p.length > 3 ? gzs(p) : 4;\n if (s > p.length) {\n if (!final)\n return;\n }\n else if (this.v > 1 && this.onmember) {\n this.onmember(this.r - p.length);\n }\n this.p = p.subarray(s), this.v = 0;\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n // process concatenated GZIP\n if (this.s.f && !this.s.l && !final) {\n this.v = shft(this.s.p) + 9;\n this.s = { i: 0 };\n this.o = new u8(0);\n this.push(new u8(0), final);\n }\n };\n return Gunzip;\n}());\nexport { Gunzip };\n/**\n * Asynchronous streaming single or multi-member GZIP decompression\n */\nvar AsyncGunzip = /*#__PURE__*/ (function () {\n function AsyncGunzip(opts, cb) {\n var _this = this;\n astrmify([\n bInflt,\n guze,\n function () { return [astrm, Inflate, Gunzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gunzip(ev.data);\n strm.onmember = function (offset) { return postMessage(offset); };\n onmessage = astrm(strm);\n }, 9, 0, function (offset) { return _this.onmember && _this.onmember(offset); });\n }\n return AsyncGunzip;\n}());\nexport { AsyncGunzip };\nexport function gunzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n guze,\n function () { return [gunzipSync]; }\n ], function (ev) { return pbf(gunzipSync(ev.data[0], ev.data[1])); }, 3, cb);\n}\n/**\n * Expands GZIP data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function gunzipSync(data, opts) {\n var st = gzs(data);\n if (st + 8 > data.length)\n err(6, 'invalid gzip data');\n return inflt(data.subarray(st, -8), { i: 2 }, opts && opts.out || new u8(gzl(data)), opts && opts.dictionary);\n}\n/**\n * Streaming Zlib compression\n */\nvar Zlib = /*#__PURE__*/ (function () {\n function Zlib(opts, cb) {\n this.c = adler();\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be zlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Zlib.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n Deflate.prototype.push.call(this, chunk, final);\n };\n Zlib.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && (this.o.dictionary ? 6 : 2), f && 4, this.s);\n if (this.v)\n zlh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 4, this.c.d());\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * zlibbed output for small inputs.\n */\n Zlib.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Zlib;\n}());\nexport { Zlib };\n/**\n * Asynchronous streaming Zlib compression\n */\nvar AsyncZlib = /*#__PURE__*/ (function () {\n function AsyncZlib(opts, cb) {\n astrmify([\n bDflt,\n zle,\n function () { return [astrm, Deflate, Zlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Zlib(ev.data);\n onmessage = astrm(strm);\n }, 10, 1);\n }\n return AsyncZlib;\n}());\nexport { AsyncZlib };\nexport function zlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n zle,\n function () { return [zlibSync]; }\n ], function (ev) { return pbf(zlibSync(ev.data[0], ev.data[1])); }, 4, cb);\n}\n/**\n * Compress data with Zlib\n * @param data The data to compress\n * @param opts The compression options\n * @returns The zlib-compressed version of the data\n */\nexport function zlibSync(data, opts) {\n if (!opts)\n opts = {};\n var a = adler();\n a.p(data);\n var d = dopt(data, opts, opts.dictionary ? 6 : 2, 4);\n return zlh(d, opts), wbytes(d, d.length - 4, a.d()), d;\n}\n/**\n * Streaming Zlib decompression\n */\nvar Unzlib = /*#__PURE__*/ (function () {\n function Unzlib(opts, cb) {\n Inflate.call(this, opts, cb);\n this.v = opts && opts.dictionary ? 2 : 1;\n }\n /**\n * Pushes a chunk to be unzlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzlib.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n if (this.v) {\n if (this.p.length < 6 && !final)\n return;\n this.p = this.p.subarray(zls(this.p, this.v - 1)), this.v = 0;\n }\n if (final) {\n if (this.p.length < 4)\n err(6, 'invalid zlib data');\n this.p = this.p.subarray(0, -4);\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n };\n return Unzlib;\n}());\nexport { Unzlib };\n/**\n * Asynchronous streaming Zlib decompression\n */\nvar AsyncUnzlib = /*#__PURE__*/ (function () {\n function AsyncUnzlib(opts, cb) {\n astrmify([\n bInflt,\n zule,\n function () { return [astrm, Inflate, Unzlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Unzlib(ev.data);\n onmessage = astrm(strm);\n }, 11, 0);\n }\n return AsyncUnzlib;\n}());\nexport { AsyncUnzlib };\nexport function unzlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n zule,\n function () { return [unzlibSync]; }\n ], function (ev) { return pbf(unzlibSync(ev.data[0], gopt(ev.data[1]))); }, 5, cb);\n}\n/**\n * Expands Zlib data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function unzlibSync(data, opts) {\n return inflt(data.subarray(zls(data, opts && opts.dictionary), -4), { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// Default algorithm for compression (used because having a known output size allows faster decompression)\nexport { gzip as compress, AsyncGzip as AsyncCompress };\nexport { gzipSync as compressSync, Gzip as Compress };\n/**\n * Streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar Decompress = /*#__PURE__*/ (function () {\n function Decompress(opts, cb) {\n this.o = StrmOpt.call(this, opts, cb) || {};\n this.G = Gunzip;\n this.I = Inflate;\n this.Z = Unzlib;\n }\n // init substream\n // overriden by AsyncDecompress\n Decompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (dat, final) {\n _this.ondata(dat, final);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Decompress.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (!this.s) {\n if (this.p && this.p.length) {\n var n = new u8(this.p.length + chunk.length);\n n.set(this.p), n.set(chunk, this.p.length);\n }\n else\n this.p = chunk;\n if (this.p.length > 2) {\n this.s = (this.p[0] == 31 && this.p[1] == 139 && this.p[2] == 8)\n ? new this.G(this.o)\n : ((this.p[0] & 15) != 8 || (this.p[0] >> 4) > 7 || ((this.p[0] << 8 | this.p[1]) % 31))\n ? new this.I(this.o)\n : new this.Z(this.o);\n this.i();\n this.s.push(this.p, final);\n this.p = null;\n }\n }\n else\n this.s.push(chunk, final);\n };\n return Decompress;\n}());\nexport { Decompress };\n/**\n * Asynchronous streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar AsyncDecompress = /*#__PURE__*/ (function () {\n function AsyncDecompress(opts, cb) {\n Decompress.call(this, opts, cb);\n this.queuedSize = 0;\n this.G = AsyncGunzip;\n this.I = AsyncInflate;\n this.Z = AsyncUnzlib;\n }\n AsyncDecompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (err, dat, final) {\n _this.ondata(err, dat, final);\n };\n this.s.ondrain = function (size) {\n _this.queuedSize -= size;\n if (_this.ondrain)\n _this.ondrain(size);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncDecompress.prototype.push = function (chunk, final) {\n this.queuedSize += chunk.length;\n Decompress.prototype.push.call(this, chunk, final);\n };\n return AsyncDecompress;\n}());\nexport { AsyncDecompress };\nexport function decompress(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzip(data, opts, cb)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflate(data, opts, cb)\n : unzlib(data, opts, cb);\n}\n/**\n * Expands compressed GZIP, Zlib, or raw DEFLATE data, automatically detecting the format\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function decompressSync(data, opts) {\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzipSync(data, opts)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflateSync(data, opts)\n : unzlibSync(data, opts);\n}\n// flatten a directory structure\nvar fltn = function (d, p, t, o) {\n for (var k in d) {\n var val = d[k], n = p + k, op = o;\n if (Array.isArray(val))\n op = mrg(o, val[1]), val = val[0];\n if (val instanceof u8)\n t[n] = [val, op];\n else {\n t[n += '/'] = [new u8(0), op];\n fltn(val, n, t, o);\n }\n }\n};\n// text encoder\nvar te = typeof TextEncoder != 'undefined' && /*#__PURE__*/ new TextEncoder();\n// text decoder\nvar td = typeof TextDecoder != 'undefined' && /*#__PURE__*/ new TextDecoder();\n// text decoder stream\nvar tds = 0;\ntry {\n td.decode(et, { stream: true });\n tds = 1;\n}\ncatch (e) { }\n// decode UTF8\nvar dutf8 = function (d) {\n for (var r = '', i = 0;;) {\n var c = d[i++];\n var eb = (c > 127) + (c > 223) + (c > 239);\n if (i + eb > d.length)\n return { s: r, r: slc(d, i - 1) };\n if (!eb)\n r += String.fromCharCode(c);\n else if (eb == 3) {\n c = ((c & 15) << 18 | (d[i++] & 63) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63)) - 65536,\n r += String.fromCharCode(55296 | (c >> 10), 56320 | (c & 1023));\n }\n else if (eb & 1)\n r += String.fromCharCode((c & 31) << 6 | (d[i++] & 63));\n else\n r += String.fromCharCode((c & 15) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63));\n }\n};\n/**\n * Streaming UTF-8 decoding\n */\nvar DecodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is decoded\n */\n function DecodeUTF8(cb) {\n this.ondata = cb;\n if (tds)\n this.t = new TextDecoder();\n else\n this.p = et;\n }\n /**\n * Pushes a chunk to be decoded from UTF-8 binary\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n DecodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n final = !!final;\n if (this.t) {\n this.ondata(this.t.decode(chunk, { stream: true }), final);\n if (final) {\n if (this.t.decode().length)\n err(8);\n this.t = null;\n }\n return;\n }\n if (!this.p)\n err(4);\n var dat = new u8(this.p.length + chunk.length);\n dat.set(this.p);\n dat.set(chunk, this.p.length);\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (final) {\n if (r.length)\n err(8);\n this.p = null;\n }\n else\n this.p = r;\n this.ondata(s, final);\n };\n return DecodeUTF8;\n}());\nexport { DecodeUTF8 };\n/**\n * Streaming UTF-8 encoding\n */\nvar EncodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is encoded\n */\n function EncodeUTF8(cb) {\n this.ondata = cb;\n }\n /**\n * Pushes a chunk to be encoded to UTF-8\n * @param chunk The string data to push\n * @param final Whether this is the last chunk\n */\n EncodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n this.ondata(strToU8(chunk), this.d = final || false);\n };\n return EncodeUTF8;\n}());\nexport { EncodeUTF8 };\n/**\n * Converts a string into a Uint8Array for use with compression/decompression methods\n * @param str The string to encode\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless decoding a binary string.\n * @returns The string encoded in UTF-8/Latin-1 binary\n */\nexport function strToU8(str, latin1) {\n if (latin1) {\n var ar_1 = new u8(str.length);\n for (var i = 0; i < str.length; ++i)\n ar_1[i] = str.charCodeAt(i);\n return ar_1;\n }\n if (te)\n return te.encode(str);\n var l = str.length;\n var ar = new u8(str.length + (str.length >> 1));\n var ai = 0;\n var w = function (v) { ar[ai++] = v; };\n for (var i = 0; i < l; ++i) {\n if (ai + 5 > ar.length) {\n var n = new u8(ai + 8 + ((l - i) << 1));\n n.set(ar);\n ar = n;\n }\n var c = str.charCodeAt(i);\n if (c < 128 || latin1)\n w(c);\n else if (c < 2048)\n w(192 | (c >> 6)), w(128 | (c & 63));\n else if (c > 55295 && c < 57344)\n c = 65536 + (c & 1023 << 10) | (str.charCodeAt(++i) & 1023),\n w(240 | (c >> 18)), w(128 | ((c >> 12) & 63)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n else\n w(224 | (c >> 12)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n }\n return slc(ar, 0, ai);\n}\n/**\n * Converts a Uint8Array to a string\n * @param dat The data to decode to string\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless encoding to binary string.\n * @returns The original UTF-8/Latin-1 string\n */\nexport function strFromU8(dat, latin1) {\n if (latin1) {\n var r = '';\n for (var i = 0; i < dat.length; i += 16384)\n r += String.fromCharCode.apply(null, dat.subarray(i, i + 16384));\n return r;\n }\n else if (td) {\n return td.decode(dat);\n }\n else {\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (r.length)\n err(8);\n return s;\n }\n}\n;\n// deflate bit flag\nvar dbf = function (l) { return l == 1 ? 3 : l < 6 ? 2 : l == 9 ? 1 : 0; };\n// skip local zip header\nvar slzh = function (d, b) { return b + 30 + b2(d, b + 26) + b2(d, b + 28); };\n// read zip header\nvar zh = function (d, b, z) {\n var fnl = b2(d, b + 28), fn = strFromU8(d.subarray(b + 46, b + 46 + fnl), !(b2(d, b + 8) & 2048)), es = b + 46 + fnl, bs = b4(d, b + 20);\n var _a = z && bs == 4294967295 ? z64e(d, es) : [bs, b4(d, b + 24), b4(d, b + 42)], sc = _a[0], su = _a[1], off = _a[2];\n return [b2(d, b + 10), sc, su, fn, es + b2(d, b + 30) + b2(d, b + 32), off];\n};\n// read zip64 extra field\nvar z64e = function (d, b) {\n for (; b2(d, b) != 1; b += 4 + b2(d, b + 2))\n ;\n return [b8(d, b + 12), b8(d, b + 4), b8(d, b + 20)];\n};\n// extra field length\nvar exfl = function (ex) {\n var le = 0;\n if (ex) {\n for (var k in ex) {\n var l = ex[k].length;\n if (l > 65535)\n err(9);\n le += l + 4;\n }\n }\n return le;\n};\n// write zip header\nvar wzh = function (d, b, f, fn, u, c, ce, co) {\n var fl = fn.length, ex = f.extra, col = co && co.length;\n var exl = exfl(ex);\n wbytes(d, b, ce != null ? 0x2014B50 : 0x4034B50), b += 4;\n if (ce != null)\n d[b++] = 20, d[b++] = f.os;\n d[b] = 20, b += 2; // spec compliance? what's that?\n d[b++] = (f.flag << 1) | (c < 0 && 8), d[b++] = u && 8;\n d[b++] = f.compression & 255, d[b++] = f.compression >> 8;\n var dt = new Date(f.mtime == null ? Date.now() : f.mtime), y = dt.getFullYear() - 1980;\n if (y < 0 || y > 119)\n err(10);\n wbytes(d, b, (y << 25) | ((dt.getMonth() + 1) << 21) | (dt.getDate() << 16) | (dt.getHours() << 11) | (dt.getMinutes() << 5) | (dt.getSeconds() >> 1)), b += 4;\n if (c != -1) {\n wbytes(d, b, f.crc);\n wbytes(d, b + 4, c < 0 ? -c - 2 : c);\n wbytes(d, b + 8, f.size);\n }\n wbytes(d, b + 12, fl);\n wbytes(d, b + 14, exl), b += 16;\n if (ce != null) {\n wbytes(d, b, col);\n wbytes(d, b + 6, f.attrs);\n wbytes(d, b + 10, ce), b += 14;\n }\n d.set(fn, b);\n b += fl;\n if (exl) {\n for (var k in ex) {\n var exf = ex[k], l = exf.length;\n wbytes(d, b, +k);\n wbytes(d, b + 2, l);\n d.set(exf, b + 4), b += 4 + l;\n }\n }\n if (col)\n d.set(co, b), b += col;\n return b;\n};\n// write zip footer (end of central directory)\nvar wzf = function (o, b, c, d, e) {\n wbytes(o, b, 0x6054B50); // skip disk\n wbytes(o, b + 8, c);\n wbytes(o, b + 10, c);\n wbytes(o, b + 12, d);\n wbytes(o, b + 16, e);\n};\n/**\n * A pass-through stream to keep data uncompressed in a ZIP archive.\n */\nvar ZipPassThrough = /*#__PURE__*/ (function () {\n /**\n * Creates a pass-through stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n */\n function ZipPassThrough(filename) {\n this.filename = filename;\n this.c = crc();\n this.size = 0;\n this.compression = 0;\n }\n /**\n * Processes a chunk and pushes to the output stream. You can override this\n * method in a subclass for custom behavior, but by default this passes\n * the data through. You must call this.ondata(err, chunk, final) at some\n * point in this method.\n * @param chunk The chunk to process\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.process = function (chunk, final) {\n this.ondata(null, chunk, final);\n };\n /**\n * Pushes a chunk to be added. If you are subclassing this with a custom\n * compression algorithm, note that you must push data from the source\n * file only, pre-compression.\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n this.c.p(chunk);\n this.size += chunk.length;\n if (final)\n this.crc = this.c.d();\n this.process(chunk, final || false);\n };\n return ZipPassThrough;\n}());\nexport { ZipPassThrough };\n// I don't extend because TypeScript extension adds 1kB of runtime bloat\n/**\n * Streaming DEFLATE compression for ZIP archives. Prefer using AsyncZipDeflate\n * for better performance\n */\nvar ZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function ZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new Deflate(opts, function (dat, final) {\n _this.ondata(null, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n }\n ZipDeflate.prototype.process = function (chunk, final) {\n try {\n this.d.push(chunk, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return ZipDeflate;\n}());\nexport { ZipDeflate };\n/**\n * Asynchronous streaming DEFLATE compression for ZIP archives\n */\nvar AsyncZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates an asynchronous DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function AsyncZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new AsyncDeflate(opts, function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n this.terminate = this.d.terminate;\n }\n AsyncZipDeflate.prototype.process = function (chunk, final) {\n this.d.push(chunk, final);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return AsyncZipDeflate;\n}());\nexport { AsyncZipDeflate };\n// TODO: Better tree shaking\n/**\n * A zippable archive to which files can incrementally be added\n */\nvar Zip = /*#__PURE__*/ (function () {\n /**\n * Creates an empty ZIP archive to which files can be added\n * @param cb The callback to call whenever data for the generated ZIP archive\n * is available\n */\n function Zip(cb) {\n this.ondata = cb;\n this.u = [];\n this.d = 1;\n }\n /**\n * Adds a file to the ZIP archive\n * @param file The file stream to add\n */\n Zip.prototype.add = function (file) {\n var _this = this;\n if (!this.ondata)\n err(5);\n // finishing or finished\n if (this.d & 2)\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, false);\n else {\n var f = strToU8(file.filename), fl_1 = f.length;\n var com = file.comment, o = com && strToU8(com);\n var u = fl_1 != file.filename.length || (o && (com.length != o.length));\n var hl_1 = fl_1 + exfl(file.extra) + 30;\n if (fl_1 > 65535)\n this.ondata(err(11, 0, 1), null, false);\n var header = new u8(hl_1);\n wzh(header, 0, file, f, u, -1);\n var chks_1 = [header];\n var pAll_1 = function () {\n for (var _i = 0, chks_2 = chks_1; _i < chks_2.length; _i++) {\n var chk = chks_2[_i];\n _this.ondata(null, chk, false);\n }\n chks_1 = [];\n };\n var tr_1 = this.d;\n this.d = 0;\n var ind_1 = this.u.length;\n var uf_1 = mrg(file, {\n f: f,\n u: u,\n o: o,\n t: function () {\n if (file.terminate)\n file.terminate();\n },\n r: function () {\n pAll_1();\n if (tr_1) {\n var nxt = _this.u[ind_1 + 1];\n if (nxt)\n nxt.r();\n else\n _this.d = 1;\n }\n tr_1 = 1;\n }\n });\n var cl_1 = 0;\n file.ondata = function (err, dat, final) {\n if (err) {\n _this.ondata(err, dat, final);\n _this.terminate();\n }\n else {\n cl_1 += dat.length;\n chks_1.push(dat);\n if (final) {\n var dd = new u8(16);\n wbytes(dd, 0, 0x8074B50);\n wbytes(dd, 4, file.crc);\n wbytes(dd, 8, cl_1);\n wbytes(dd, 12, file.size);\n chks_1.push(dd);\n uf_1.c = cl_1, uf_1.b = hl_1 + cl_1 + 16, uf_1.crc = file.crc, uf_1.size = file.size;\n if (tr_1)\n uf_1.r();\n tr_1 = 1;\n }\n else if (tr_1)\n pAll_1();\n }\n };\n this.u.push(uf_1);\n }\n };\n /**\n * Ends the process of adding files and prepares to emit the final chunks.\n * This *must* be called after adding all desired files for the resulting\n * ZIP file to work properly.\n */\n Zip.prototype.end = function () {\n var _this = this;\n if (this.d & 2) {\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, true);\n return;\n }\n if (this.d)\n this.e();\n else\n this.u.push({\n r: function () {\n if (!(_this.d & 1))\n return;\n _this.u.splice(-1, 1);\n _this.e();\n },\n t: function () { }\n });\n this.d = 3;\n };\n Zip.prototype.e = function () {\n var bt = 0, l = 0, tl = 0;\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n tl += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0);\n }\n var out = new u8(tl + 22);\n for (var _b = 0, _c = this.u; _b < _c.length; _b++) {\n var f = _c[_b];\n wzh(out, bt, f, f.f, f.u, -f.c - 2, l, f.o);\n bt += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0), l += f.b;\n }\n wzf(out, bt, this.u.length, tl, l);\n this.ondata(null, out, true);\n this.d = 2;\n };\n /**\n * A method to terminate any internal workers used by the stream. Subsequent\n * calls to add() will fail.\n */\n Zip.prototype.terminate = function () {\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n f.t();\n }\n this.d = 2;\n };\n return Zip;\n}());\nexport { Zip };\nexport function zip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var r = {};\n fltn(data, '', r, opts);\n var k = Object.keys(r);\n var lft = k.length, o = 0, tot = 0;\n var slft = lft, files = new Array(lft);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var cbf = function () {\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n tot = 0;\n for (var i = 0; i < slft; ++i) {\n var f = files[i];\n try {\n var l = f.c.length;\n wzh(out, tot, f, f.f, f.u, l);\n var badd = 30 + f.f.length + exfl(f.extra);\n var loc = tot + badd;\n out.set(f.c, loc);\n wzh(out, o, f, f.f, f.u, l, tot, f.m), o += 16 + badd + (f.m ? f.m.length : 0), tot = loc + l;\n }\n catch (e) {\n return cbd(e, null);\n }\n }\n wzf(out, o, files.length, cdl, oe);\n cbd(null, out);\n };\n if (!lft)\n cbf();\n var _loop_1 = function (i) {\n var fn = k[i];\n var _a = r[fn], file = _a[0], p = _a[1];\n var c = crc(), size = file.length;\n c.p(file);\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n var compression = p.level == 0 ? 0 : 8;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n var l = d.length;\n files[i] = mrg(p, {\n size: size,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n compression: compression\n });\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n if (!--lft)\n cbf();\n }\n };\n if (s > 65535)\n cbl(err(11, 0, 1), null);\n if (!compression)\n cbl(null, file);\n else if (size < 160000) {\n try {\n cbl(null, deflateSync(file, p));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(deflate(file, p, cbl));\n };\n // Cannot use lft because it can decrease\n for (var i = 0; i < slft; ++i) {\n _loop_1(i);\n }\n return tAll;\n}\n/**\n * Synchronously creates a ZIP file. Prefer using `zip` for better performance\n * with more than one file.\n * @param data The directory structure for the ZIP archive\n * @param opts The main options, merged with per-file options\n * @returns The generated ZIP archive\n */\nexport function zipSync(data, opts) {\n if (!opts)\n opts = {};\n var r = {};\n var files = [];\n fltn(data, '', r, opts);\n var o = 0;\n var tot = 0;\n for (var fn in r) {\n var _a = r[fn], file = _a[0], p = _a[1];\n var compression = p.level == 0 ? 0 : 8;\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n if (s > 65535)\n err(11);\n var d = compression ? deflateSync(file, p) : file, l = d.length;\n var c = crc();\n c.p(file);\n files.push(mrg(p, {\n size: file.length,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n o: o,\n compression: compression\n }));\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n }\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n for (var i = 0; i < files.length; ++i) {\n var f = files[i];\n wzh(out, f.o, f, f.f, f.u, f.c.length);\n var badd = 30 + f.f.length + exfl(f.extra);\n out.set(f.c, f.o + badd);\n wzh(out, o, f, f.f, f.u, f.c.length, f.o, f.m), o += 16 + badd + (f.m ? f.m.length : 0);\n }\n wzf(out, o, files.length, cdl, oe);\n return out;\n}\n/**\n * Streaming pass-through decompression for ZIP archives\n */\nvar UnzipPassThrough = /*#__PURE__*/ (function () {\n function UnzipPassThrough() {\n }\n UnzipPassThrough.prototype.push = function (data, final) {\n this.ondata(null, data, final);\n };\n UnzipPassThrough.compression = 0;\n return UnzipPassThrough;\n}());\nexport { UnzipPassThrough };\n/**\n * Streaming DEFLATE decompression for ZIP archives. Prefer AsyncZipInflate for\n * better performance.\n */\nvar UnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function UnzipInflate() {\n var _this = this;\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n UnzipInflate.prototype.push = function (data, final) {\n try {\n this.i.push(data, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n UnzipInflate.compression = 8;\n return UnzipInflate;\n}());\nexport { UnzipInflate };\n/**\n * Asynchronous streaming DEFLATE decompression for ZIP archives\n */\nvar AsyncUnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function AsyncUnzipInflate(_, sz) {\n var _this = this;\n if (sz < 320000) {\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n else {\n this.i = new AsyncInflate(function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.terminate = this.i.terminate;\n }\n }\n AsyncUnzipInflate.prototype.push = function (data, final) {\n if (this.i.terminate)\n data = slc(data, 0);\n this.i.push(data, final);\n };\n AsyncUnzipInflate.compression = 8;\n return AsyncUnzipInflate;\n}());\nexport { AsyncUnzipInflate };\n/**\n * A ZIP archive decompression stream that emits files as they are discovered\n */\nvar Unzip = /*#__PURE__*/ (function () {\n /**\n * Creates a ZIP decompression stream\n * @param cb The callback to call whenever a file in the ZIP archive is found\n */\n function Unzip(cb) {\n this.onfile = cb;\n this.k = [];\n this.o = {\n 0: UnzipPassThrough\n };\n this.p = et;\n }\n /**\n * Pushes a chunk to be unzipped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzip.prototype.push = function (chunk, final) {\n var _this = this;\n if (!this.onfile)\n err(5);\n if (!this.p)\n err(4);\n if (this.c > 0) {\n var len = Math.min(this.c, chunk.length);\n var toAdd = chunk.subarray(0, len);\n this.c -= len;\n if (this.d)\n this.d.push(toAdd, !this.c);\n else\n this.k[0].push(toAdd);\n chunk = chunk.subarray(len);\n if (chunk.length)\n return this.push(chunk, final);\n }\n else {\n var f = 0, i = 0, is = void 0, buf = void 0;\n if (!this.p.length)\n buf = chunk;\n else if (!chunk.length)\n buf = this.p;\n else {\n buf = new u8(this.p.length + chunk.length);\n buf.set(this.p), buf.set(chunk, this.p.length);\n }\n var l = buf.length, oc = this.c, add = oc && this.d;\n var _loop_2 = function () {\n var _a;\n var sig = b4(buf, i);\n if (sig == 0x4034B50) {\n f = 1, is = i;\n this_1.d = null;\n this_1.c = 0;\n var bf = b2(buf, i + 6), cmp_1 = b2(buf, i + 8), u = bf & 2048, dd = bf & 8, fnl = b2(buf, i + 26), es = b2(buf, i + 28);\n if (l > i + 30 + fnl + es) {\n var chks_3 = [];\n this_1.k.unshift(chks_3);\n f = 2;\n var sc_1 = b4(buf, i + 18), su_1 = b4(buf, i + 22);\n var fn_1 = strFromU8(buf.subarray(i + 30, i += 30 + fnl), !u);\n if (sc_1 == 4294967295) {\n _a = dd ? [-2] : z64e(buf, i), sc_1 = _a[0], su_1 = _a[1];\n }\n else if (dd)\n sc_1 = -1;\n i += es;\n this_1.c = sc_1;\n var d_1;\n var file_1 = {\n name: fn_1,\n compression: cmp_1,\n start: function () {\n if (!file_1.ondata)\n err(5);\n if (!sc_1)\n file_1.ondata(null, et, true);\n else {\n var ctr = _this.o[cmp_1];\n if (!ctr)\n file_1.ondata(err(14, 'unknown compression type ' + cmp_1, 1), null, false);\n d_1 = sc_1 < 0 ? new ctr(fn_1) : new ctr(fn_1, sc_1, su_1);\n d_1.ondata = function (err, dat, final) { file_1.ondata(err, dat, final); };\n for (var _i = 0, chks_4 = chks_3; _i < chks_4.length; _i++) {\n var dat = chks_4[_i];\n d_1.push(dat, false);\n }\n if (_this.k[0] == chks_3 && _this.c)\n _this.d = d_1;\n else\n d_1.push(et, true);\n }\n },\n terminate: function () {\n if (d_1 && d_1.terminate)\n d_1.terminate();\n }\n };\n if (sc_1 >= 0)\n file_1.size = sc_1, file_1.originalSize = su_1;\n this_1.onfile(file_1);\n }\n return \"break\";\n }\n else if (oc) {\n if (sig == 0x8074B50) {\n is = i += 12 + (oc == -2 && 8), f = 3, this_1.c = 0;\n return \"break\";\n }\n else if (sig == 0x2014B50) {\n is = i -= 4, f = 3, this_1.c = 0;\n return \"break\";\n }\n }\n };\n var this_1 = this;\n for (; i < l - 4; ++i) {\n var state_1 = _loop_2();\n if (state_1 === \"break\")\n break;\n }\n this.p = et;\n if (oc < 0) {\n var dat = f ? buf.subarray(0, is - 12 - (oc == -2 && 8) - (b4(buf, is - 16) == 0x8074B50 && 4)) : buf.subarray(0, i);\n if (add)\n add.push(dat, !!f);\n else\n this.k[+(f == 2)].push(dat);\n }\n if (f & 2)\n return this.push(buf.subarray(i), final);\n this.p = buf.subarray(i);\n }\n if (final) {\n if (this.c)\n err(13);\n this.p = null;\n }\n };\n /**\n * Registers a decoder with the stream, allowing for files compressed with\n * the compression type provided to be expanded correctly\n * @param decoder The decoder constructor\n */\n Unzip.prototype.register = function (decoder) {\n this.o[decoder.compression] = decoder;\n };\n return Unzip;\n}());\nexport { Unzip };\nvar mt = typeof queueMicrotask == 'function' ? queueMicrotask : typeof setTimeout == 'function' ? setTimeout : function (fn) { fn(); };\nexport function unzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var files = {};\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558) {\n cbd(err(13, 0, 1), null);\n return tAll;\n }\n }\n ;\n var lft = b2(data, e + 8);\n if (lft) {\n var c = lft;\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = lft = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n var _loop_3 = function (i) {\n var _a = zh(data, o, z), c_1 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n if (d)\n files[fn] = d;\n if (!--lft)\n cbd(null, files);\n }\n };\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_1\n })) {\n if (!c_1)\n cbl(null, slc(data, b, b + sc));\n else if (c_1 == 8) {\n var infl = data.subarray(b, b + sc);\n // Synchronously decompress under 512KB, or barely-compressed data\n if (su < 524288 || sc > 0.8 * su) {\n try {\n cbl(null, inflateSync(infl, { out: new u8(su) }));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(inflate(infl, { size: su }, cbl));\n }\n else\n cbl(err(14, 'unknown compression type ' + c_1, 1), null);\n }\n else\n cbl(null, null);\n };\n for (var i = 0; i < c; ++i) {\n _loop_3(i);\n }\n }\n else\n cbd(null, {});\n return tAll;\n}\n/**\n * Synchronously decompresses a ZIP archive. Prefer using `unzip` for better\n * performance with more than one file.\n * @param data The raw compressed ZIP file\n * @param opts The ZIP extraction options\n * @returns The decompressed files\n */\nexport function unzipSync(data, opts) {\n var files = {};\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558)\n err(13);\n }\n ;\n var c = b2(data, e + 8);\n if (!c)\n return {};\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n for (var i = 0; i < c; ++i) {\n var _a = zh(data, o, z), c_2 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_2\n })) {\n if (!c_2)\n files[fn] = slc(data, b, b + sc);\n else if (c_2 == 8)\n files[fn] = inflateSync(data.subarray(b, b + sc), { out: new u8(su) });\n else\n err(14, 'unknown compression type ' + c_2);\n }\n }\n return files;\n}\n","// LN_SCALE_MIN..LN_SCALE_MAX define the internal scale range of for Gsplats,\n// covering approx 0.0001..8000 in range with discrete steps 7% apart.\n// The value \"0\" is reserved for truly flat scales, indicating a 2DGS.\n// If these values are changed, the corresponding values in splatDefines.glsl\n// must also be updated to match.\n\nexport const LN_SCALE_MIN = -12.0;\nexport const LN_SCALE_MAX = 9.0;\nexport const SCALE_MIN = Math.exp(LN_SCALE_MIN);\nexport const SCALE_MAX = Math.exp(LN_SCALE_MAX);\n\nexport const LN_SCALE_ZERO = -30.0;\nexport const SCALE_ZERO = Math.exp(LN_SCALE_ZERO);\n\n// Gsplats are stored in textures that are 2^11 x 2^11 x up to 2^11\n// Most WebGL2 implementations support 2D textures up to 2^12 x 2^12 (max 16M Gsplats)\n// 2D array textures and 3D textures up to 2^11 x 2^11 x 2^11 (max 8G Gsplats),\n// so we use 2D array textures for our representation for higher limits.\n\nexport const SPLAT_TEX_WIDTH_BITS = 11;\nexport const SPLAT_TEX_HEIGHT_BITS = 11;\nexport const SPLAT_TEX_DEPTH_BITS = 11;\nexport const SPLAT_TEX_LAYER_BITS =\n SPLAT_TEX_WIDTH_BITS + SPLAT_TEX_HEIGHT_BITS;\n\nexport const SPLAT_TEX_WIDTH = 1 << SPLAT_TEX_WIDTH_BITS; // 2048\nexport const SPLAT_TEX_HEIGHT = 1 << SPLAT_TEX_HEIGHT_BITS; // 2048\nexport const SPLAT_TEX_DEPTH = 1 << SPLAT_TEX_DEPTH_BITS; // 2048\nexport const SPLAT_TEX_MIN_HEIGHT = 1;\n\nexport const SPLAT_TEX_WIDTH_MASK = SPLAT_TEX_WIDTH - 1;\nexport const SPLAT_TEX_HEIGHT_MASK = SPLAT_TEX_HEIGHT - 1;\nexport const SPLAT_TEX_DEPTH_MASK = SPLAT_TEX_DEPTH - 1;\n\n// Enable/disable Gsplat sorting via Rust WASM code. In testing the sorting\n// time between pure JS and WASM are minimal and don't make a big difference.\n\nexport const WASM_SPLAT_SORT = true;\n\n// Enable/disable compiling a dedicated parse function per element type\n// in the plyReader.\n\nexport const USE_COMPILED_PARSER_FUNCTION = true;\n\nexport enum SplatFileType {\n PLY = \"ply\",\n SPZ = \"spz\",\n SPLAT = \"splat\",\n KSPLAT = \"ksplat\",\n PCSOGS = \"pcsogs\",\n PCSOGSZIP = \"pcsogszip\",\n RAD = \"rad\",\n}\n\nexport type SplatEncoding = {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n sh1Max?: number;\n sh2Max?: number;\n sh3Max?: number;\n lodOpacity?: boolean;\n};\n\nexport const DEFAULT_SPLAT_ENCODING: SplatEncoding = {\n rgbMin: 0,\n rgbMax: 1,\n lnScaleMin: LN_SCALE_MIN,\n lnScaleMax: LN_SCALE_MAX,\n sh1Max: 1,\n sh2Max: 1,\n sh3Max: 1,\n lodOpacity: false,\n};\n\nexport type RadMeta = {\n version: number;\n type: string;\n count: number;\n maxSh?: number;\n lodTree?: boolean;\n chunkSize?: number;\n chunks: {\n offset: number;\n bytes: number;\n base?: number;\n count?: number;\n filename?: string;\n }[];\n splatEncoding?: SplatEncoding;\n};\n\nexport type PackedExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type PackedResult = {\n numSplats: number;\n packedArray: Uint32Array;\n extra: PackedExtra;\n splatEncoding: SplatEncoding;\n};\n\nexport type ExtExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3a?: Uint32Array;\n sh3b?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: [Uint32Array, Uint32Array];\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type ExtResult = {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: ExtExtra;\n};\n","import type * as THREE from \"three\";\n\nexport type BoolTypes = \"bool\" | \"bvec2\" | \"bvec3\" | \"bvec4\";\nexport type IntTypes = \"int\" | \"ivec2\" | \"ivec3\" | \"ivec4\";\nexport type UintTypes = \"uint\" | \"uvec2\" | \"uvec3\" | \"uvec4\";\nexport type AllIntTypes = IntTypes | UintTypes;\nexport type FloatTypes = \"float\" | \"vec2\" | \"vec3\" | \"vec4\";\nexport type ScalarTypes = \"uint\" | \"int\" | \"float\";\nexport type Vector2Types = \"vec2\" | \"ivec2\" | \"uvec2\";\nexport type Vector3Types = \"vec3\" | \"ivec3\" | \"uvec3\";\nexport type Vector4Types = \"vec4\" | \"ivec4\" | \"uvec4\";\nexport type VectorTypes = Vector2Types | Vector3Types | Vector4Types;\nexport type MatFloatTypes =\n | \"mat2\"\n | \"mat2x2\"\n | \"mat2x3\"\n | \"mat2x4\"\n | \"mat3\"\n | \"mat3x2\"\n | \"mat3x3\"\n | \"mat3x4\"\n | \"mat4\"\n | \"mat4x2\"\n | \"mat4x3\"\n | \"mat4x4\";\nexport type SquareMatTypes =\n | \"mat2\"\n | \"mat3\"\n | \"mat4\"\n | \"mat2x2\"\n | \"mat3x3\"\n | \"mat4x4\";\nexport type AllFloatTypes = FloatTypes | MatFloatTypes;\nexport type SignedTypes = IntTypes | FloatTypes;\nexport type AllSignedTypes = SignedTypes | MatFloatTypes;\nexport type ValueTypes = FloatTypes | IntTypes | UintTypes;\nexport type AllValueTypes = AllFloatTypes | IntTypes | UintTypes;\nexport type SimpleTypes = BoolTypes | AllValueTypes;\n\nexport type VectorElementType = A extends FloatTypes\n ? \"float\"\n : A extends IntTypes\n ? \"int\"\n : A extends UintTypes\n ? \"uint\"\n : never;\n\nexport type SameSizeVec = T extends ScalarTypes\n ? \"float\"\n : T extends \"vec2\" | \"ivec2\" | \"uvec2\"\n ? \"vec2\"\n : T extends \"vec3\" | \"ivec3\" | \"uvec3\"\n ? \"vec3\"\n : T extends \"vec4\" | \"ivec4\" | \"uvec4\"\n ? \"vec4\"\n : never;\n\nexport type SameSizeUvec = T extends ScalarTypes\n ? \"uint\"\n : T extends \"vec2\" | \"ivec2\" | \"uvec2\"\n ? \"uvec2\"\n : T extends \"vec3\" | \"ivec3\" | \"uvec3\"\n ? \"uvec3\"\n : T extends \"vec4\" | \"ivec4\" | \"uvec4\"\n ? \"uvec4\"\n : never;\n\nexport type SameSizeIvec = T extends ScalarTypes\n ? \"int\"\n : T extends \"vec2\" | \"ivec2\" | \"uvec2\"\n ? \"ivec2\"\n : T extends \"vec3\" | \"ivec3\" | \"uvec3\"\n ? \"ivec3\"\n : T extends \"vec4\" | \"ivec4\" | \"uvec4\"\n ? \"ivec4\"\n : never;\n\nexport type SamplerTypes =\n | \"sampler2D\"\n | \"sampler2DArray\"\n | \"sampler3D\"\n | \"samplerCube\";\nexport type UsamplerTypes =\n | \"usampler2D\"\n | \"usampler2DArray\"\n | \"usampler3D\"\n | \"usamplerCube\";\nexport type IsamplerTypes =\n | \"isampler2D\"\n | \"isampler2DArray\"\n | \"isampler3D\"\n | \"isamplerCube\";\nexport type NormalSamplerTypes = SamplerTypes | UsamplerTypes | IsamplerTypes;\nexport type SamplerShadowTypes =\n | \"sampler2DShadow\"\n | \"sampler2DArrayShadow\"\n | \"samplerCubeShadow\";\nexport type AllSamplerTypes = NormalSamplerTypes | SamplerShadowTypes;\nexport type Sampler2DTypes =\n | \"sampler2D\"\n | \"usampler2D\"\n | \"isampler2D\"\n | \"sampler2DShadow\";\nexport type Sampler2DArrayTypes =\n | \"sampler2DArray\"\n | \"usampler2DArray\"\n | \"isampler2DArray\"\n | \"sampler2DArrayShadow\";\nexport type Sampler3DTypes = \"sampler3D\" | \"usampler3D\" | \"isampler3D\";\nexport type SamplerCubeTypes =\n | \"samplerCube\"\n | \"usamplerCube\"\n | \"isamplerCube\"\n | \"samplerCubeShadow\";\n\nexport function isBoolType(type: DynoType): boolean {\n return (\n type === \"bool\" || type === \"bvec2\" || type === \"bvec3\" || type === \"bvec4\"\n );\n}\n\nexport function isScalarType(type: DynoType): boolean {\n return type === \"int\" || type === \"uint\" || type === \"float\";\n}\n\nexport function isIntType(type: DynoType): boolean {\n return (\n type === \"int\" || type === \"ivec2\" || type === \"ivec3\" || type === \"ivec4\"\n );\n}\n\nexport function isUintType(type: DynoType): boolean {\n return (\n type === \"uint\" || type === \"uvec2\" || type === \"uvec3\" || type === \"uvec4\"\n );\n}\n\nexport function isFloatType(type: DynoType): boolean {\n return (\n type === \"float\" || type === \"vec2\" || type === \"vec3\" || type === \"vec4\"\n );\n}\n\nexport function isMatFloatType(type: DynoType): boolean {\n return (\n type === \"mat2\" ||\n type === \"mat2x2\" ||\n type === \"mat2x3\" ||\n type === \"mat2x4\" ||\n type === \"mat3\" ||\n type === \"mat3x2\" ||\n type === \"mat3x3\" ||\n type === \"mat3x4\" ||\n type === \"mat4\" ||\n type === \"mat4x2\" ||\n type === \"mat4x3\" ||\n type === \"mat4x4\"\n );\n}\n\nexport function isAllFloatType(type: DynoType): boolean {\n return isFloatType(type) || isMatFloatType(type);\n}\n\nexport function isVector2Type(type: DynoType): boolean {\n return type === \"vec2\" || type === \"ivec2\" || type === \"uvec2\";\n}\n\nexport function isVector3Type(type: DynoType): boolean {\n return type === \"vec3\" || type === \"ivec3\" || type === \"uvec3\";\n}\n\nexport function isVector4Type(type: DynoType): boolean {\n return type === \"vec4\" || type === \"ivec4\" || type === \"uvec4\";\n}\n\nexport function isVectorType(type: DynoType): boolean {\n return isVector2Type(type) || isVector3Type(type) || isVector4Type(type);\n}\n\nexport function isMat2(type: DynoType): boolean {\n return type === \"mat2\" || type === \"mat2x2\";\n}\nexport function isMat3(type: DynoType): boolean {\n return type === \"mat3\" || type === \"mat3x3\";\n}\nexport function isMat4(type: DynoType): boolean {\n return type === \"mat4\" || type === \"mat4x4\";\n}\n\nexport function vectorElementType(\n type: A,\n): VectorElementType {\n switch (type) {\n case \"vec2\":\n return \"float\" as VectorElementType;\n case \"vec3\":\n return \"float\" as VectorElementType;\n case \"vec4\":\n return \"float\" as VectorElementType;\n case \"ivec2\":\n return \"int\" as VectorElementType;\n case \"ivec3\":\n return \"int\" as VectorElementType;\n case \"ivec4\":\n return \"int\" as VectorElementType;\n case \"uvec2\":\n return \"uint\" as VectorElementType;\n case \"uvec3\":\n return \"uint\" as VectorElementType;\n case \"uvec4\":\n return \"uint\" as VectorElementType;\n default:\n throw new Error(`Invalid vector type: ${type}`);\n }\n}\n\nexport function vectorDim(type: A): number {\n switch (type) {\n case \"vec2\":\n case \"ivec2\":\n case \"uvec2\":\n return 2;\n case \"vec3\":\n case \"ivec3\":\n case \"uvec3\":\n return 3;\n case \"vec4\":\n case \"ivec4\":\n case \"uvec4\":\n return 4;\n default:\n throw new Error(`Invalid vector type: ${type}`);\n }\n}\n\nexport function sameSizeVec(type: T): SameSizeVec {\n if (isScalarType(type)) {\n return \"float\" as SameSizeVec;\n }\n if (isVector2Type(type)) {\n return \"vec2\" as SameSizeVec;\n }\n if (isVector3Type(type)) {\n return \"vec3\" as SameSizeVec;\n }\n if (isVector4Type(type)) {\n return \"vec4\" as SameSizeVec;\n }\n throw new Error(`Invalid vector type: ${type}`);\n}\n\nexport function sameSizeUvec(type: T): SameSizeUvec {\n if (isScalarType(type)) {\n return \"uint\" as SameSizeUvec;\n }\n if (isVector2Type(type)) {\n return \"uvec2\" as SameSizeUvec;\n }\n if (isVector3Type(type)) {\n return \"uvec3\" as SameSizeUvec;\n }\n if (isVector4Type(type)) {\n return \"uvec4\" as SameSizeUvec;\n }\n throw new Error(`Invalid vector type: ${type}`);\n}\n\nexport function sameSizeIvec(type: T): SameSizeIvec {\n if (isScalarType(type)) {\n return \"int\" as SameSizeIvec;\n }\n if (isVector2Type(type)) {\n return \"ivec2\" as SameSizeIvec;\n }\n if (isVector3Type(type)) {\n return \"ivec3\" as SameSizeIvec;\n }\n if (isVector4Type(type)) {\n return \"ivec4\" as SameSizeIvec;\n }\n throw new Error(`Invalid vector type: ${type}`);\n}\n\nexport type BaseType = SimpleTypes | AllSamplerTypes;\nexport type UserType = { type: string };\nexport type DynoType = BaseType | UserType;\n\nexport type DynoJsType = T extends \"bool\"\n ? boolean\n : T extends \"uint\"\n ? number\n : T extends \"int\"\n ? number\n : T extends \"float\"\n ? number\n : T extends \"bvec2\"\n ? [boolean, boolean]\n : T extends \"uvec2\"\n ? THREE.Vector2 | [number, number] | Uint32Array\n : T extends \"ivec2\"\n ? THREE.Vector2 | [number, number] | Int32Array\n : T extends \"vec2\"\n ? THREE.Vector2 | [number, number] | Float32Array\n : T extends \"bvec3\"\n ? [boolean, boolean, boolean]\n : T extends \"uvec3\"\n ? THREE.Vector3 | [number, number, number] | Uint32Array\n : T extends \"ivec3\"\n ? THREE.Vector3 | [number, number, number] | Int32Array\n : T extends \"vec3\"\n ?\n | THREE.Vector3\n | THREE.Color\n | [number, number, number]\n | Float32Array\n : T extends \"bvec4\"\n ? [boolean, boolean, boolean, boolean]\n : T extends \"uvec4\"\n ?\n | THREE.Vector4\n | [number, number, number, number]\n | Uint32Array\n : T extends \"ivec4\"\n ?\n | THREE.Vector4\n | [number, number, number, number]\n | Int32Array\n : T extends \"vec4\"\n ?\n | THREE.Vector4\n | THREE.Quaternion\n | [number, number, number, number]\n | Float32Array\n : T extends \"mat2\"\n ? THREE.Matrix2 | Float32Array\n : T extends \"mat2x2\"\n ? THREE.Matrix2 | Float32Array\n : T extends \"mat2x3\"\n ? Float32Array\n : T extends \"mat2x4\"\n ? Float32Array\n : T extends \"mat3\"\n ? THREE.Matrix3 | Float32Array\n : T extends \"mat3x2\"\n ? Float32Array\n : T extends \"mat3x3\"\n ? THREE.Matrix3 | Float32Array\n : T extends \"mat3x4\"\n ? Float32Array\n : T extends \"mat4\"\n ? THREE.Matrix4 | Float32Array\n : T extends \"mat4x2\"\n ? Float32Array\n : T extends \"mat4x3\"\n ? Float32Array\n : T extends \"mat4x4\"\n ?\n | THREE.Matrix4\n | Float32Array\n : T extends \"usampler2D\"\n ? THREE.Texture\n : T extends \"isampler2D\"\n ? THREE.Texture\n : T extends \"sampler2D\"\n ? THREE.Texture\n : T extends \"sampler2DShadow\"\n ? THREE.Texture\n : T extends \"usampler2DArray\"\n ? THREE.DataArrayTexture\n : T extends \"isampler2DArray\"\n ? THREE.DataArrayTexture\n : T extends \"sampler2DArray\"\n ? THREE.DataArrayTexture\n : T extends \"sampler2DArrayShadow\"\n ? THREE.Texture\n : T extends \"usampler3D\"\n ? THREE.DataArrayTexture\n : T extends \"isampler3D\"\n ? THREE.DataArrayTexture\n : T extends \"sampler3D\"\n ? THREE.DataArrayTexture\n : T extends \"usamplerCube\"\n ? THREE.DataArrayTexture\n : T extends \"isamplerCube\"\n ? THREE.DataArrayTexture\n : T extends \"samplerCube\"\n ? THREE.DataArrayTexture\n : T extends \"samplerCubeShadow\"\n ? THREE.Texture\n : unknown;\n\nexport function typeLiteral(type: DynoType): string {\n if (typeof type === \"string\") {\n return type;\n }\n if (typeof type === \"object\" && type.type) {\n return type.type;\n }\n throw new Error(`Invalid DynoType: ${String(type)}`);\n}\n\nexport function numberAsInt(value: number): string {\n return Math.trunc(value).toString();\n}\n\nexport function numberAsUint(value: number): string {\n const v = Math.max(0, Math.trunc(value));\n return `${v.toString()}u`;\n}\n\nexport function numberAsFloat(value: number): string {\n return value === Number.POSITIVE_INFINITY\n ? \"INFINITY\"\n : value === Number.NEGATIVE_INFINITY\n ? \"-INFINITY\"\n : Number.isInteger(value)\n ? value.toFixed(1)\n : value.toString();\n}\n","import * as THREE from \"three\";\n\nimport type { Dyno, IOTypes } from \"./base\";\nimport {\n type DynoJsType,\n type DynoType,\n type SimpleTypes,\n isAllFloatType,\n isBoolType,\n isIntType,\n isUintType,\n numberAsFloat,\n numberAsInt,\n numberAsUint,\n} from \"./types\";\n\nexport type DynoVal = DynoValue | HasDynoOut;\n\nexport function valType(val: DynoVal): T {\n if (val instanceof DynoValue) {\n return val.type;\n }\n const value = val.dynoOut();\n return value.type;\n}\n\nexport interface HasDynoOut {\n dynoOut(): DynoValue;\n}\n\nexport class DynoValue {\n type: T;\n // This field prevents TypeScript structural matching on objects with a \"type\" field\n private __isDynoValue = true;\n\n constructor(type: T) {\n this.type = type;\n }\n}\n\nexport class DynoOutput<\n T extends DynoType,\n InTypes extends IOTypes,\n OutTypes extends IOTypes,\n> extends DynoValue {\n dyno: Dyno;\n key: string;\n\n constructor(dyno: Dyno, key: string) {\n super(dyno.outTypes[key] as T);\n this.dyno = dyno;\n this.key = key;\n }\n}\n\nexport class DynoLiteral extends DynoValue {\n literal: string;\n\n constructor(type: T, literal: string) {\n super(type);\n this.literal = literal;\n }\n\n getLiteral(): string {\n return this.literal;\n }\n}\n\nexport function dynoLiteral(\n type: T,\n literal: string,\n): DynoLiteral {\n return new DynoLiteral(type, literal);\n}\n\nexport class DynoConst extends DynoLiteral {\n value: DynoJsType;\n\n constructor(type: T, value: DynoJsType) {\n super(type, \"\");\n this.value = value;\n }\n\n getLiteral(): string {\n const { type, value } = this;\n switch (type) {\n case \"bool\":\n return value ? \"true\" : \"false\";\n case \"uint\":\n return numberAsUint(value as number);\n case \"int\":\n return numberAsInt(value as number);\n case \"float\":\n return numberAsFloat(value as number);\n case \"bvec2\": {\n const v = value as [boolean, boolean];\n return `bvec2(${v[0]}, ${v[1]})`;\n }\n case \"uvec2\": {\n if (value instanceof THREE.Vector2) {\n return `uvec2(${numberAsUint(value.x)}, ${numberAsUint(value.y)})`;\n }\n const v = value as [number, number] | Uint32Array;\n return `uvec2(${numberAsUint(v[0])}, ${numberAsUint(v[1])})`;\n }\n case \"ivec2\": {\n if (value instanceof THREE.Vector2) {\n return `ivec2(${numberAsInt(value.x)}, ${numberAsInt(value.y)})`;\n }\n const v = value as [number, number] | Int32Array;\n return `ivec2(${numberAsInt(v[0])}, ${numberAsInt(v[1])})`;\n }\n case \"vec2\": {\n if (value instanceof THREE.Vector2) {\n return `vec2(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)})`;\n }\n const v = value as [number, number] | Float32Array;\n return `vec2(${numberAsFloat(v[0])}, ${numberAsFloat(v[1])})`;\n }\n case \"bvec3\": {\n const v = value as [boolean, boolean, boolean];\n return `bvec3(${v[0]}, ${v[1]}, ${v[2]})`;\n }\n case \"uvec3\": {\n if (value instanceof THREE.Vector3) {\n return `uvec3(${numberAsUint(value.x)}, ${numberAsUint(value.y)}, ${numberAsUint(value.z)})`;\n }\n const v = value as [number, number, number] | Uint32Array;\n return `uvec3(${numberAsUint(v[0])}, ${numberAsUint(v[1])}, ${numberAsUint(v[2])})`;\n }\n case \"ivec3\": {\n if (value instanceof THREE.Vector3) {\n return `ivec3(${numberAsInt(value.x)}, ${numberAsInt(value.y)}, ${numberAsInt(value.z)})`;\n }\n const v = value as [number, number, number] | Int32Array;\n return `ivec3(${numberAsInt(v[0])}, ${numberAsInt(v[1])}, ${numberAsInt(v[2])})`;\n }\n case \"vec3\": {\n if (value instanceof THREE.Vector3) {\n return `vec3(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)}, ${numberAsFloat(value.z)})`;\n }\n const v = value as [number, number, number] | Float32Array;\n return `vec3(${numberAsFloat(v[0])}, ${numberAsFloat(v[1])}, ${numberAsFloat(v[2])})`;\n }\n case \"bvec4\": {\n const v = value as [boolean, boolean, boolean, boolean];\n return `bvec4(${v[0]}, ${v[1]}, ${v[2]}, ${v[3]})`;\n }\n case \"uvec4\": {\n if (value instanceof THREE.Vector4) {\n return `uvec4(${numberAsUint(value.x)}, ${numberAsUint(value.y)}, ${numberAsUint(value.z)}, ${numberAsUint(value.w)})`;\n }\n const v = value as [number, number, number, number] | Uint32Array;\n return `uvec4(${numberAsUint(v[0])}, ${numberAsUint(v[1])}, ${numberAsUint(v[2])}, ${numberAsUint(v[3])})`;\n }\n case \"ivec4\": {\n if (value instanceof THREE.Vector4) {\n return `ivec4(${numberAsInt(value.x)}, ${numberAsInt(value.y)}, ${numberAsInt(value.z)}, ${numberAsInt(value.w)})`;\n }\n const v = value as [number, number, number, number] | Int32Array;\n return `ivec4(${numberAsInt(v[0])}, ${numberAsInt(v[1])}, ${numberAsInt(v[2])}, ${numberAsInt(v[3])})`;\n }\n case \"vec4\": {\n if (value instanceof THREE.Vector4) {\n return `vec4(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)}, ${numberAsFloat(value.z)}, ${numberAsFloat(value.w)})`;\n }\n if (value instanceof THREE.Quaternion) {\n return `vec4(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)}, ${numberAsFloat(value.z)}, ${numberAsFloat(value.w)})`;\n }\n const v = value as [number, number, number, number] | Float32Array;\n return `vec4(${numberAsFloat(v[0])}, ${numberAsFloat(v[1])}, ${numberAsFloat(v[2])}, ${numberAsFloat(v[3])})`;\n }\n case \"mat2\":\n case \"mat2x2\": {\n const m = value as DynoJsType<\"mat2\">;\n const e =\n m instanceof THREE.Matrix2 ? m.elements : (value as Float32Array);\n const arg = new Array(4).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat2x3\": {\n const e = value as DynoJsType<\"mat2x3\">;\n const arg = new Array(6).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat2x4\": {\n const e = value as DynoJsType<\"mat2x4\">;\n const arg = new Array(8).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat3\":\n case \"mat3x3\": {\n const m = value as DynoJsType<\"mat3\">;\n const e =\n m instanceof THREE.Matrix3 ? m.elements : (value as Float32Array);\n const arg = new Array(9).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat3x2\": {\n const e = value as DynoJsType<\"mat3x2\">;\n const arg = new Array(6).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat3x4\": {\n const e = value as DynoJsType<\"mat3x4\">;\n const arg = new Array(12).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat4\":\n case \"mat4x4\": {\n const m = value as DynoJsType<\"mat4\">;\n const e =\n m instanceof THREE.Matrix4 ? m.elements : (value as Float32Array);\n const arg = new Array(16).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat4x2\": {\n const e = value as DynoJsType<\"mat4x2\">;\n const arg = new Array(8).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat4x3\": {\n const e = value as DynoJsType<\"mat4x3\">;\n const arg = new Array(12).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n default:\n throw new Error(`Type not implemented: ${String(type)}`);\n }\n }\n}\n\nexport function dynoConst(\n type: T,\n value: DynoJsType,\n): DynoConst {\n return new DynoConst(type, value);\n}\n\nexport function literalZero(type: SimpleTypes): string {\n const typeString = String(type);\n if (isBoolType(type)) {\n return `${typeString}(false)`;\n }\n if (isAllFloatType(type)) {\n return `${typeString}(0.0)`;\n }\n if (isIntType(type)) {\n return `${typeString}(0)`;\n }\n if (isUintType(type)) {\n return `${typeString}(0u)`;\n }\n throw new Error(`Type not implemented: ${typeString}`);\n}\n\nexport function literalOne(type: SimpleTypes): string {\n const typeString = String(type);\n if (isBoolType(type)) {\n return `${typeString}(true)`;\n }\n if (isAllFloatType(type)) {\n return `${typeString}(1.0)`;\n }\n if (isIntType(type)) {\n return `${typeString}(1)`;\n }\n if (isUintType(type)) {\n return `${typeString}(1u)`;\n }\n throw new Error(`Type not implemented: ${typeString}`);\n}\n\nexport function literalNegOne(type: SimpleTypes): string {\n const typeString = String(type);\n if (isBoolType(type)) {\n return `${typeString}(true)`;\n }\n if (isAllFloatType(type)) {\n return `${typeString}(-1.0)`;\n }\n if (isIntType(type)) {\n return `${typeString}(-1)`;\n }\n if (isUintType(type)) {\n return `${typeString}(0xFFFFFFFFu)`;\n }\n throw new Error(`Type not implemented: ${typeString}`);\n}\n","import type { IUniform } from \"three\";\nimport type { DynoType } from \"./types\";\nimport {\n DynoLiteral,\n DynoOutput,\n type DynoVal,\n DynoValue,\n type HasDynoOut,\n valType,\n} from \"./value\";\n\nconst DEFAULT_INDENT = \" \";\n\nexport class Compilation {\n globals: Set = new Set();\n statements: string[] = [];\n uniforms: Record = {};\n declares: Set = new Set();\n updaters: (() => void)[] = [];\n sequence = 0;\n indent: string = DEFAULT_INDENT;\n\n constructor({ indent }: { indent?: string } = {}) {\n this.indent = indent ?? DEFAULT_INDENT;\n }\n\n nextSequence() {\n return this.sequence++;\n }\n}\n\nexport type IOTypes = Record;\ntype GenerateContext = {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n};\n\nexport class Dyno {\n inTypes: InTypes;\n outTypes: OutTypes;\n\n inputs: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n }) {\n this.inTypes = inTypes ?? ({} as InTypes);\n this.outTypes = outTypes ?? ({} as OutTypes);\n this.inputs = inputs ?? {};\n this.update = update;\n\n this.globals = globals;\n this.statements = statements;\n this.generate =\n generate ??\n (({ inputs, outputs, compile }) => {\n return {\n globals: this.globals?.({ inputs, outputs, compile }),\n statements: this.statements?.({ inputs, outputs, compile }),\n };\n });\n }\n\n get outputs(): { [K in keyof OutTypes]: DynoVal } {\n const outputs = {} as { [K in keyof OutTypes]: DynoVal };\n for (const key in this.outTypes) {\n outputs[key] = new DynoOutput(this, key);\n }\n return outputs;\n }\n\n apply(inputs: { [K in keyof InTypes]?: DynoVal }): {\n [K in keyof OutTypes]: DynoVal;\n } {\n Object.assign(this.inputs, inputs);\n return this.outputs;\n }\n\n compile({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }): string[] {\n const result = [\n `// ${this.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`,\n ];\n\n const declares: (keyof OutTypes)[] = [];\n for (const key in outputs) {\n const name = outputs[key];\n if (name && !compile.declares.has(name)) {\n compile.declares.add(name);\n declares.push(key);\n }\n }\n\n const { globals, statements, uniforms } = this.generate({\n inputs,\n outputs,\n compile,\n });\n for (const global of globals ?? []) {\n compile.globals.add(global);\n }\n for (const key in uniforms) {\n compile.uniforms[key] = uniforms[key];\n }\n if (this.update) {\n compile.updaters.push(this.update);\n }\n\n for (const key of declares) {\n const name = outputs[key];\n if (name) {\n if (!compile.uniforms[name]) {\n result.push(`${dynoDeclare(name, this.outTypes[key])};`);\n }\n }\n }\n\n if (statements?.length) {\n result.push(\"{\");\n result.push(...statements.map((line) => compile.indent + line));\n result.push(\"}\");\n }\n return result;\n }\n}\n\nexport type DynoBlockType = (\n inputs: { [K in keyof InTypes]?: DynoVal },\n outputs: { [K in keyof OutTypes]?: DynoVal },\n { roots }: { roots: Dyno[] },\n) => { [K in keyof OutTypes]?: DynoVal } | undefined;\n\nexport class DynoBlock<\n InTypes extends IOTypes,\n OutTypes extends IOTypes,\n> extends Dyno {\n construct: DynoBlockType;\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n construct,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n construct: DynoBlockType;\n }) {\n super({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n generate: (args) => this.generateBlock(args),\n });\n this.construct = construct;\n }\n\n generateBlock({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }) {\n const blockInputs: { [K in keyof InTypes]?: DynoVal } = {};\n const blockOutputs: { [K in keyof OutTypes]?: DynoVal } = {};\n\n for (const key in inputs) {\n if (inputs[key] != null) {\n blockInputs[key] = new DynoLiteral(this.inTypes[key], inputs[key]);\n }\n }\n for (const key in outputs) {\n if (outputs[key] != null) {\n blockOutputs[key] = new DynoValue(this.outTypes[key]);\n }\n }\n\n const options: { roots: Dyno[] } = { roots: [] };\n const returned = this.construct(blockInputs, blockOutputs, options);\n\n for (const global of this.globals?.({ inputs, outputs, compile }) ?? []) {\n compile.globals.add(global);\n }\n\n const ordering: Dyno[] = [];\n const nodeOuts = new Map<\n Dyno,\n { sequence: number; outNames: Map; newOuts: Set }\n >();\n\n function visit(\n node: Dyno,\n outKey?: string,\n outName?: string,\n ) {\n let outs = nodeOuts.get(node);\n if (!outs) {\n // First time visiting this node\n outs = {\n sequence: compile.nextSequence(),\n outNames: new Map(),\n newOuts: new Set(),\n };\n nodeOuts.set(node, outs);\n\n for (const key in node.inputs) {\n let input = node.inputs[key];\n while (input) {\n if (input instanceof DynoValue) {\n if (input instanceof DynoOutput) {\n visit(input.dyno, input.key);\n }\n break;\n }\n // Must be as HasDynoOut\n if (typeof input.dynoOut !== \"function\") {\n throw new Error(\n `dynoOut is not a function for ${input.constructor.name}`,\n );\n }\n input = input.dynoOut();\n }\n }\n ordering.push(node);\n }\n if (outKey) {\n if (!outName) {\n outs.newOuts.add(outKey);\n }\n outs.outNames.set(outKey, outName ?? `${outKey}_${outs.sequence}`);\n }\n }\n\n for (const root of options.roots) {\n visit(root);\n }\n\n for (const key in blockOutputs) {\n let value = returned?.[key] ?? blockOutputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoOutput) {\n visit(value.dyno, value.key, outputs[key]);\n }\n break;\n }\n // Must be as HasDynoOut\n value = value.dynoOut();\n }\n blockOutputs[key] = value;\n }\n\n const steps = [];\n\n for (const dyno of ordering) {\n // compile.statements.push(`// ${dyno.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`);\n\n const inputs: Record = {};\n const outputs: Record = {};\n\n for (const key in dyno.inputs) {\n let value = dyno.inputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoLiteral) {\n inputs[key] = value.getLiteral();\n } else if (value instanceof DynoOutput) {\n const source = nodeOuts.get(value.dyno)?.outNames.get(value.key);\n if (!source) {\n throw new Error(\n `Source not found for ${value.dyno.constructor.name}.${value.key}`,\n );\n }\n inputs[key] = source;\n }\n break;\n }\n // Must be as HasDynOut\n value = value.dynoOut();\n }\n }\n\n const outs = nodeOuts.get(dyno) ?? { outNames: new Map() };\n for (const [key, name] of outs.outNames.entries()) {\n outputs[key] = name;\n }\n\n const newSteps = dyno.compile({ inputs, outputs, compile });\n steps.push(newSteps);\n }\n\n const literalOutputs = [];\n for (const key in outputs) {\n if (blockOutputs[key] instanceof DynoLiteral) {\n literalOutputs.push(\n `${outputs[key]} = ${blockOutputs[key].getLiteral()};`,\n );\n }\n }\n if (literalOutputs.length > 0) {\n steps.push(literalOutputs);\n }\n\n const statements = steps.flatMap((step, index) => {\n // Add a blank line between steps\n return index === 0 ? step : [\"\", ...step];\n });\n return { statements };\n }\n}\n\nexport function dynoBlock<\n InTypes extends Record,\n OutTypes extends Record,\n>(\n inTypes: InTypes,\n outTypes: OutTypes,\n construct: DynoBlockType,\n { update, globals }: { update?: () => void; globals?: () => string[] } = {},\n) {\n return new DynoBlock({ inTypes, outTypes, construct, update, globals });\n}\n\nexport function dyno<\n InTypes extends Record,\n OutTypes extends Record,\n>({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n}: {\n inTypes: InTypes;\n outTypes: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n}) {\n return new Dyno({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n });\n}\n\nexport function dynoDeclare(name: string, type: DynoType, count?: number) {\n const typeStr = typeof type === \"string\" ? type : type.type;\n if (!typeStr) {\n throw new Error(`Invalid DynoType: ${String(type)}`);\n }\n return `${typeStr} ${name}${count != null ? `[${count}]` : \"\"}`;\n}\n\nexport function unindentLines(s: string): string[] {\n let seenNonEmpty = false;\n const lines = s\n .split(\"\\n\")\n .map((line) => {\n const trimmedLine = line.trimEnd();\n if (seenNonEmpty) {\n return trimmedLine;\n }\n if (trimmedLine.length > 0) {\n seenNonEmpty = true;\n return trimmedLine;\n }\n return null;\n })\n .filter((line) => line != null);\n while (lines.length > 0 && lines[lines.length - 1].length === 0) {\n lines.pop();\n }\n if (lines.length === 0) {\n return [];\n }\n\n const indent = lines[0].match(/^\\s*/)?.[0];\n if (!indent) {\n return lines; // No indent, return as is\n }\n // Remove indent from the beginning of each line\n const regex = new RegExp(`^${indent}`);\n return lines.map((line) => line.replace(regex, \"\"));\n}\n\nexport function unindent(s: string): string {\n return unindentLines(s).join(\"\\n\");\n}\n\nexport class UnaryOp<\n A extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n outKey,\n outTypeFunc,\n }: { a: DynoVal; outKey: OutKey; outTypeFunc: (aType: A) => OutType }) {\n const inTypes = { a: valType(a) };\n const outType = outTypeFunc(valType(a));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class BinaryOp<\n A extends DynoType,\n B extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b) };\n const outType = outTypeFunc(valType(a), valType(b));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class TrinaryOp<\n A extends DynoType,\n B extends DynoType,\n C extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B; c: C }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n c,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n c: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B, cType: C) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b), c: valType(c) };\n const outType = outTypeFunc(valType(a), valType(b), valType(c));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b, c } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n","import { Gunzip } from \"fflate\";\nimport * as THREE from \"three\";\n\n// Miscellaneous utility functions for Spark\n\nimport {\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SCALE_ZERO,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_MIN_HEIGHT,\n SPLAT_TEX_WIDTH,\n} from \"./defines.js\";\nimport { unindent } from \"./dyno/base.js\";\n\nexport const threeRevision = Number.parseInt(THREE.REVISION);\nexport const threeMrtArray = threeRevision >= 179;\n\nconst f32buffer = new Float32Array(1);\nconst u32buffer = new Uint32Array(f32buffer.buffer);\nconst supportsFloat16Array = \"Float16Array\" in globalThis;\nconst f16buffer = supportsFloat16Array\n ? new globalThis[\"Float16Array\" as keyof typeof globalThis](1)\n : null;\nconst u16buffer = new Uint16Array(f16buffer?.buffer);\n\n// Returns a normalized array of numbers\nexport function normalize(vec: number[]) {\n const norm = Math.sqrt(vec.reduce((acc, v) => acc + v * v, 0));\n return vec.map((v) => v / norm);\n}\n\n// Reinterpret the bits of a float32 as a uint32\nexport function floatBitsToUint(f: number): number {\n f32buffer[0] = f;\n return u32buffer[0];\n}\n\n// Reinterpret the bits of a uint32 as a float32\nexport function uintBitsToFloat(u: number): number {\n u32buffer[0] = u;\n return f32buffer[0];\n}\n\nexport const toHalf = supportsFloat16Array ? toHalfNative : toHalfJS;\nexport const fromHalf = supportsFloat16Array ? fromHalfNative : fromHalfJS;\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfNative(f: number): number {\n f16buffer[0] = f;\n return u16buffer[0];\n}\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfJS(f: number): number {\n // Store the value into the shared Float32 array.\n f32buffer[0] = f;\n const bits = u32buffer[0];\n\n // Extract sign (1 bit), exponent (8 bits), and fraction (23 bits)\n const sign = (bits >> 31) & 0x1;\n const exp = (bits >> 23) & 0xff;\n const frac = bits & 0x7fffff;\n const halfSign = sign << 15;\n\n // Handle special cases: NaN and Infinity\n if (exp === 0xff) {\n // NaN: set all exponent bits to 1 and some nonzero fraction bits.\n if (frac !== 0) {\n return halfSign | 0x7fff;\n }\n // Infinity\n return halfSign | 0x7c00;\n }\n\n // Adjust the exponent from float32 bias (127) to float16 bias (15)\n const newExp = exp - 127 + 15;\n\n // Handle overflow: too large to represent in half precision.\n if (newExp >= 0x1f) {\n return halfSign | 0x7c00; // Infinity\n }\n if (newExp <= 0) {\n // Handle subnormals and underflow.\n if (newExp < -10) {\n // Too small: underflows to zero.\n return halfSign;\n }\n // Convert to subnormal: add the implicit leading 1 to the fraction,\n // then shift to align with the half-precision's 10 fraction bits.\n const subFrac = (frac | 0x800000) >> (1 - newExp + 13);\n return halfSign | subFrac;\n }\n\n // Normalized half-precision number: shift fraction to fit into 10 bits.\n const halfFrac = frac >> 13;\n return halfSign | (newExp << 10) | halfFrac;\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfNative(u: number): number {\n u16buffer[0] = u;\n return f16buffer[0];\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfJS(h: number): number {\n // Extract the sign (1 bit), exponent (5 bits), and fraction (10 bits)\n const sign = (h >> 15) & 0x1;\n const exp = (h >> 10) & 0x1f;\n const frac = h & 0x3ff;\n\n let f32bits: number;\n\n if (exp === 0) {\n if (frac === 0) {\n // Zero (positive or negative)\n f32bits = sign << 31;\n } else {\n // Subnormal half-precision number.\n // Normalize the subnormal number:\n let mant = frac;\n let e = -14; // For half, the exponent for subnormals is fixed at -14.\n // Shift left until the implicit leading 1 is in place.\n while ((mant & 0x400) === 0) {\n // 0x400 === 1 << 10\n mant <<= 1;\n e--;\n }\n // Remove the leading 1 (which is now implicit)\n mant &= 0x3ff;\n // Convert the half exponent (e) to the 32-bit float exponent:\n const newExp = e + 127; // 32-bit float bias is 127.\n const newFrac = mant << 13; // Align to 23-bit fraction (23 - 10 = 13)\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n } else if (exp === 0x1f) {\n // Handle special cases for Infinity and NaN.\n if (frac === 0) {\n // Infinity\n f32bits = (sign << 31) | 0x7f800000;\n } else {\n // NaN (we choose a quiet NaN)\n f32bits = (sign << 31) | 0x7fc00000;\n }\n } else {\n // Normalized half-precision number.\n // Adjust exponent from half (bias 15) to float32 (bias 127)\n const newExp = exp - 15 + 127;\n const newFrac = frac << 13;\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n\n // Write the 32-bit bit pattern to the shared buffer,\n // then read it as a float32 to return a JavaScript number.\n u32buffer[0] = f32bits;\n return f32buffer[0];\n}\n\n// Convert a number 0..1 to a 0..255 uint\nexport function floatToUint8(v: number): number {\n // Converts from 0..1 float to 0..255 uint8\n return Math.max(0, Math.min(255, Math.round(v * 255)));\n}\n\n// Convert a number -1..1 to a -127..127 int\nexport function floatToSint8(v: number): number {\n // Converts from -1..1 float to -127..127 int8\n return Math.max(-127, Math.min(127, Math.round(v * 127)));\n}\n\n// Convert a 0..255 uint to a 0..1 float\nexport function Uint8ToFloat(v: number): number {\n // Converts from 0..255 uint8 to 0..1 float\n return v / 255;\n}\n\n// Convert a -127..127 int to a -1..1 float\nexport function Sint8ToFloat(v: number): number {\n // Converts from -127..127 int8 to -1..1 float\n return v / 127;\n}\n\n// A simple utility class for caching a fixed number of items\nexport class DataCache {\n // Maximum number of items to cache\n maxItems: number;\n\n // Function to fetch data for a key\n asyncFetch: (key: string) => Promise;\n\n // Function to dispose of data when it is no longer needed\n dispose?: (data: unknown) => void;\n\n // Array of cached items\n items: { key: string; data: unknown }[];\n\n // In-progress fetch promises\n pending: Map>;\n\n // Create a DataCache with a given function that fetches data not in the cache.\n constructor({\n asyncFetch,\n dispose,\n maxItems = 5,\n }: {\n asyncFetch: (key: string) => Promise;\n dispose?: (data: unknown) => void;\n maxItems?: number;\n }) {\n this.asyncFetch = asyncFetch;\n this.dispose = dispose;\n this.maxItems = maxItems;\n this.items = [];\n this.pending = new Map();\n }\n\n has(key: string): boolean {\n return this.items.some((item) => item.key === key);\n }\n\n getImmediate(key: string): unknown | undefined {\n const index = this.items.findIndex((item) => item.key === key);\n if (index >= 0) {\n // Data exists in our cache, move it to the end of the array\n const item = this.items.splice(index, 1)[0];\n this.items.push(item);\n // Return the cached data\n return item.data;\n }\n return undefined;\n }\n\n // Fetch data for the key, returning cached data if available.\n async getFetch(key: string): Promise {\n const immediate = this.getImmediate(key);\n if (immediate !== undefined) {\n return immediate;\n }\n\n let pending = this.pending.get(key);\n if (pending) {\n return pending;\n }\n\n pending = this.asyncFetch(key).then((data) => {\n this.pending.delete(key);\n\n // Add the data to the cache\n this.items.push({ key, data });\n // If the cache is too large, remove the oldest accessed item\n while (this.items.length > this.maxItems) {\n const removed = this.items.shift();\n if (removed && this.dispose) {\n this.dispose(removed.data);\n }\n }\n // Return the fetched data\n return data;\n });\n this.pending.set(key, pending);\n return pending;\n }\n}\n\n// Like Array.map but for objects\nexport function mapObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n const entries = Object.entries(obj).map(([key, value]) => [\n key,\n fn(value, key),\n ]);\n // Returns a new object with the mapped values\n return Object.fromEntries(entries);\n}\n\n// Like Array.map().filter() but for objects.\n// The callback fn() should return undefined to filter out the key.\nexport function mapFilterObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n // If no return (or return undefined), the key is not included in the result\n const entries = Object.entries(obj)\n .map(([key, value]) => [key, fn(value, key)])\n .filter(([_, value]) => value !== undefined);\n // Returns a new object with the filtered values\n return Object.fromEntries(entries);\n}\n\n// Recursively finds all ArrayBuffers in an object and returns them as an array\n// to use as transferable objects to send between workers.\nexport function getTransferable(ctx: unknown): Transferable[] {\n const buffers: Transferable[] = [];\n const seen = new Set();\n\n function traverse(obj: unknown) {\n if (obj && typeof obj === \"object\" && !seen.has(obj)) {\n seen.add(obj);\n\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n // Handles TypedArrays and DataView\n buffers.push(obj.buffer as ArrayBuffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n\n traverse(ctx);\n return buffers;\n}\n\n// Create an array of the given size and initialize element with initFunction()\nexport function newArray(\n n: number,\n initFunction: (index: number) => T,\n): T[] {\n // Creates a new array and calls a constructor function for each element with index\n return new Array(n).fill(null).map((_, i) => initFunction(i));\n}\n\n// A free list that has a pool of items of type T, with callbacks\n// for constructing, disposing, and checking if an item is valid for the given args.\nexport class FreeList {\n items: T[];\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n\n constructor({\n // Allocate a new item with the given args\n allocate,\n // Dispose of an item (optional, if GC is enough)\n dispose,\n // Check if an existing item in the list is valid for the given args,\n // allowing you to store heterogeneous items in the list.\n valid,\n }: {\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n }) {\n this.items = [];\n this.allocate = allocate;\n this.dispose = dispose;\n this.valid = valid;\n }\n\n // Allocate a new item from the free list, first checking if a existing item\n // on the freelist is valid for the given args.\n alloc(args: Args): T {\n while (true) {\n const item = this.items.pop();\n if (!item) {\n // No items in the free list, allocate a new one\n break;\n }\n if (this.valid(item, args)) {\n // Found a valid item, return it\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): found valid item. Reusing...`);\n return item;\n }\n // Item isn't valid for our args, dispose of it and try again\n if (this.dispose) {\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): disposing invalid item.`);\n this.dispose(item);\n }\n }\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): allocating new item`);\n return this.allocate(args);\n }\n\n free(item: T) {\n // Return item to the free list\n this.items.push(item);\n }\n\n disposeAll() {\n // Disposes of all items in the free list\n let item: T | undefined;\n item = this.items.pop();\n while (item) {\n if (this.dispose) {\n this.dispose(item);\n }\n item = this.items.pop();\n }\n }\n}\n\nexport function encodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) {\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n extA[i4] = floatBitsToUint(x);\n extA[i4 + 1] = floatBitsToUint(y);\n extA[i4 + 2] = floatBitsToUint(z);\n extA[i4 + 3] = toHalf(opacity);\n extB[i4] = toHalf(r) | (toHalf(g) << 16);\n extB[i4 + 1] = toHalf(b) | (toHalf(Math.log(scaleX)) << 16);\n extB[i4 + 2] = toHalf(Math.log(scaleY)) | (toHalf(Math.log(scaleZ)) << 16);\n extB[i4 + 3] = encodeQuatOctXy1010R12(quatX, quatY, quatZ, quatW);\n}\n\nexport function decodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n result.center.x = uintBitsToFloat(extA[i4]);\n result.center.y = uintBitsToFloat(extA[i4 + 1]);\n result.center.z = uintBitsToFloat(extA[i4 + 2]);\n result.opacity = fromHalf(extA[i4 + 3] & 0xffff);\n result.color.r = fromHalf(extB[i4] & 0xffff);\n result.color.g = fromHalf(extB[i4] >>> 16);\n result.color.b = fromHalf(extB[i4 + 1] & 0xffff);\n result.scales.x = Math.exp(fromHalf(extB[i4 + 1] >>> 16));\n result.scales.y = Math.exp(fromHalf(extB[i4 + 2] & 0xffff));\n result.scales.z = Math.exp(fromHalf(extB[i4 + 2] >>> 16));\n decodeQuatOctXy1010R12(extB[i4 + 3], result.quaternion);\n return result;\n}\n\n// Encode a PackedSplat as 4 consecutive Uint32 elements in the packedSplats array.\n// The center coordinates x,y,z are encoded as float16, the scales x,y,z as a\n// logarithmic uint8, rotation as three uint8s representing rotation axis and angle,\n// and RGBA as 4xuint8.\nexport function setPackedSplat(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * opacity : opacity);\n\n // Alternate internal encodings commented out below.\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n // Encode the splat as 4 consecutive Uint32 elements\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] =\n uScaleX | (uScaleY << 8) | (uScaleZ << 16) | (uQuatZ << 24);\n}\n\n// Encode the center coordinates x,y,z in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatCenter(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n) {\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n const i4 = index * 4;\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (packedSplats[i4 + 2] & 0xffff0000);\n}\n\n// Encode the scales x,y,z in the packedSplats Uint32Array, leaving all other fields as is.\nexport function setPackedSplatScales(\n packedSplats: Uint32Array,\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n encoding?: {\n lnScaleMin?: number;\n lnScaleMax?: number;\n },\n) {\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const i4 = index * 4;\n packedSplats[i4 + 3] =\n uScaleX |\n (uScaleY << 8) |\n (uScaleZ << 16) |\n (packedSplats[i4 + 3] & 0xff000000);\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempQuaternion = new THREE.Quaternion();\n\n// Encode the rotation quatX, quatY, quatZ, quatW in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatQuat(\n packedSplats: Uint32Array,\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n) {\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n const i4 = index * 4;\n packedSplats[i4 + 2] =\n (packedSplats[i4 + 2] & 0x0000ffff) | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] = (packedSplats[i4 + 3] & 0x00ffffff) | (uQuatZ << 24);\n}\n\n// Encode the RGBA color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgba(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n a: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * a : a);\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n}\n\n// Encode the RGB color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgb(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n\n const i4 = index * 4;\n packedSplats[i4] =\n uR | (uG << 8) | (uB << 16) | (packedSplats[i4] & 0xff000000);\n}\n\n// Encode the opacity in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatOpacity(\n packedSplats: Uint32Array,\n index: number,\n opacity: number,\n) {\n const uA = floatToUint8(opacity);\n\n const i4 = index * 4;\n packedSplats[i4] = (packedSplats[i4] & 0x00ffffff) | (uA << 24);\n}\n\nconst packedCenter = new THREE.Vector3();\nconst packedScales = new THREE.Vector3();\nconst packedQuaternion = new THREE.Quaternion();\nconst packedColor = new THREE.Color();\nconst packedFields = {\n center: packedCenter,\n scales: packedScales,\n quaternion: packedQuaternion,\n color: packedColor,\n opacity: 0.0,\n};\n\n// Unpack all components of a PackedSplat from the packedSplats Uint32Array into\n// THREE.js vector objects. The returned objects will be reused each call.\nexport function unpackSplat(\n packedSplats: Uint32Array,\n index: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n\n const i4 = index * 4;\n const word0 = packedSplats[i4];\n const word1 = packedSplats[i4 + 1];\n const word2 = packedSplats[i4 + 2];\n const word3 = packedSplats[i4 + 3];\n\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n result.color.set(\n rgbMin + ((word0 & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 8) & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 16) & 0xff) / 255) * rgbRange,\n );\n result.opacity = ((word0 >>> 24) & 0xff) / 255;\n if (encoding?.lodOpacity) {\n result.opacity = 2.0 * result.opacity;\n }\n result.center.set(\n fromHalf(word1 & 0xffff),\n fromHalf((word1 >>> 16) & 0xffff),\n fromHalf(word2 & 0xffff),\n );\n\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = (lnScaleMax - lnScaleMin) / 254.0;\n const uScalesX = word3 & 0xff;\n result.scales.x =\n uScalesX === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesX - 1) * lnScaleScale);\n const uScalesY = (word3 >>> 8) & 0xff;\n result.scales.y =\n uScalesY === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesY - 1) * lnScaleScale);\n const uScalesZ = (word3 >>> 16) & 0xff;\n result.scales.z =\n uScalesZ === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesZ - 1) * lnScaleScale);\n\n const uQuat = ((word2 >>> 16) & 0xffff) | ((word3 >>> 8) & 0xff0000);\n decodeQuatOctXy88R8(uQuat, result.quaternion);\n // decodeQuatXyz888(uQuat, result.quaternion);\n // decodeQuatEulerXyz888(uQuat, result.quaternion);\n\n return result;\n}\n\n// Compute a texture array size that is large enough to fit numSplats. The most\n// common 2D texture size in WebGL2 is 4096x4096 which only allows for 16M splats,\n// so Spark stores Gsplat data in a 2D texture array, which most platforms support\n// up to 2048x2048x2048 = 8G splats. Allocations that fit within a single 2D texture\n// array layer will be rounded up to fill an entire texture row. Once a texture\n// array layer is filled, the allocation will be rounded up to fill an entire layer.\n// This is done so the entire set of splats can be covered by min/max coords across\n// each dimension.\nexport function getTextureSize(numSplats: number): {\n width: number;\n height: number;\n depth: number;\n maxSplats: number;\n} {\n // Compute a texture array size that is large enough to fit numSplats.\n // The width is always 2048, the height sized to fit the splats but no larger than 2048.\n // The depth is the number of layers needed to fit the splats.\n // maxSplats is computed as the new total available splats that can be stored.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n const maxSplats = width * height * depth;\n return { width, height, depth, maxSplats };\n}\n\nexport function computeMaxSplats(numSplats: number): number {\n // Compute the size of a Gsplat array texture (2048x2048xD) that can fit\n // numSplats splats, and return the total number of splats that can be stored\n // in such a texture.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n return width * height * depth;\n}\n\n// Heuristic function to determine if we are running on a mobile device.\nexport function isMobile(): boolean {\n if (navigator.platform.toLowerCase().startsWith(\"win\")) {\n return false;\n }\n if (navigator.maxTouchPoints > 0) {\n // Touch-enabled device, assume it's mobile\n return true;\n }\n return /Mobi|Android|iPhone|iPad|iPod|Opera Mini|IEMobile/.test(\n navigator.userAgent,\n );\n}\n\n// Heuristic function to determine if we are running on an Android device.\n// (does not include Oculus Quest)\nexport function isAndroid(): boolean {\n return (\n /Android/.test(navigator.userAgent) || /Tizen/.test(navigator.userAgent)\n );\n}\n\n// Heuristic function to determine if we are running on an Oculus Quest device.\nexport function isOculus(): boolean {\n return !!navigator.xr && /Oculus/.test(navigator.userAgent);\n}\n\nexport function isQuest2() {\n return isOculus() && /Quest 2/.test(navigator.userAgent);\n}\n\nexport function isIos(): boolean {\n return /iPhone|iPad/.test(navigator.userAgent);\n}\n\nexport function isVisionPro(): boolean {\n return (\n !!navigator.xr &&\n isIos() &&\n /Safari/.test(navigator.userAgent) &&\n isMobile()\n );\n}\n\n// Take an array of RGBA8 encoded pixels and flip them vertically in-place.\n// This is useful for converting between top-left and bottom-left coordinate systems\n// in standard 2D images vs WebGL2.\nexport function flipPixels(\n pixels: Uint8Array,\n width: number,\n height: number,\n): Uint8Array {\n // Flips pixels vertically in-place, returns original array.\n const tempLine = new Uint8Array(width * 4);\n\n // Only need to process half the height since we're swapping\n for (let y = 0; y < height / 2; y++) {\n const topOffset = y * width * 4;\n const bottomOffset = (height - 1 - y) * width * 4;\n\n // Save top line to temp buffer\n tempLine.set(pixels.subarray(topOffset, topOffset + width * 4));\n // Move bottom line to top\n pixels.set(\n pixels.subarray(bottomOffset, bottomOffset + width * 4),\n topOffset,\n );\n // Move saved top line to bottom\n pixels.set(tempLine, bottomOffset);\n }\n return pixels;\n}\n\n// Utility to take an array of RGBA8 encoded pixels and convert them to a\n// PNG-encoded image data URL that can be downloaded to the client.\nexport function pixelsToPngUrl(\n pixels: Uint8Array,\n width: number,\n height: number,\n): string {\n const canvas = document.createElement(\"canvas\");\n canvas.width = width;\n canvas.height = height;\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n throw new Error(\"Can't get 2d context\");\n }\n const imageData = ctx.createImageData(width, height);\n imageData.data.set(pixels);\n ctx.putImageData(imageData, 0, 0);\n return canvas.toDataURL(\"image/png\");\n}\n\n// Manually clone a THREE.Clock object.\nexport function cloneClock(clock: THREE.Clock): THREE.Clock {\n const newClock = new THREE.Clock(clock.autoStart);\n newClock.startTime = clock.startTime;\n newClock.oldTime = clock.oldTime;\n newClock.elapsedTime = clock.elapsedTime;\n newClock.running = clock.running;\n return newClock;\n}\n\n// Utility to filter out an undefined values from an object.\nexport function omitUndefined(obj: T): Partial {\n return Object.fromEntries(\n Object.entries(obj).filter(([_, value]) => value !== undefined),\n ) as Partial;\n}\n\n// \"Identity\" vertex shader that just passes through the position.\nexport const IDENT_VERTEX_SHADER = unindent(`\n precision highp float;\n\n in vec3 position;\n\n void main() {\n gl_Position = vec4(position.xy, 0.0, 1.0);\n }\n`);\n\n// Returns the average position of an array of THREE.Vector3.\nexport function averagePositions(positions: THREE.Vector3[]): THREE.Vector3 {\n const sum = new THREE.Vector3();\n for (const position of positions) {\n sum.add(position);\n }\n return sum.divideScalar(positions.length);\n}\n\n// Returns an \"average\" of an array of THREE.Quaternion objects.\n// Note that this is not a spherical lerp between quaternions but\n// rather an arithmetic mean that is normalized to unit length.\nexport function averageQuaternions(\n quaternions: THREE.Quaternion[],\n): THREE.Quaternion {\n if (quaternions.length === 0) {\n return new THREE.Quaternion();\n }\n const sum = quaternions[0].clone();\n for (let i = 1; i < quaternions.length; i++) {\n if (quaternions[i].dot(quaternions[0]) < 0.0) {\n sum.x -= quaternions[i].x;\n sum.y -= quaternions[i].y;\n sum.z -= quaternions[i].z;\n sum.w -= quaternions[i].w;\n } else {\n sum.x += quaternions[i].x;\n sum.y += quaternions[i].y;\n sum.z += quaternions[i].z;\n sum.w += quaternions[i].w;\n }\n }\n return sum.normalize();\n}\n\n// Compare two coordinates given by matrix1 and matrix2, returning the distance\n// between their origins and the \"coincidence\" of their orientations, defined\n// as the dot product of their \"-z\" axes.\nexport function coinciDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n const direction1 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix1)\n .sub(origin1)\n .normalize();\n const direction2 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix2)\n .sub(origin2)\n .normalize();\n\n const distance = origin1.distanceTo(origin2);\n const coincidence = direction1.dot(direction2);\n return { distance, coincidence };\n}\n\n// Utility function that returns whether two coordinate system origins\n// given by matrix1 and matrix2 are within a certain maxDistance of each other.\nexport function withinDist({\n matrix1,\n matrix2,\n maxDistance,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n}): boolean {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n return origin1.distanceTo(origin2) <= maxDistance;\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined by a maxDistance and a minCoincidence.\nexport function withinCoinciDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoincidence,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoincidence?: number;\n}): boolean {\n const { distance, coincidence } = coinciDist(matrix1, matrix2);\n return (\n distance <= maxDistance &&\n (minCoincidence == null || coincidence >= minCoincidence)\n );\n}\n\n// Compare two coordinate systems given by matrix1 and matrix2, returning the\n// distance between their origins and the \"coorientation\" of their orientations,\n// define as the dot product of their quaternion transforms (flipping their\n// orientation to be on the same hemisphere if necessary).\nexport function coorientDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const [origin1, rotate1] = [new THREE.Vector3(), new THREE.Quaternion()];\n const [origin2, rotate2] = [new THREE.Vector3(), new THREE.Quaternion()];\n matrix1.decompose(origin1, rotate1, new THREE.Vector3());\n matrix2.decompose(origin2, rotate2, new THREE.Vector3());\n\n const distance = origin1.distanceTo(origin2);\n const coorient = Math.abs(rotate1.dot(rotate2));\n return { distance, coorient };\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined a maxDistance and a minCoorient.\nexport function withinCoorientDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoorient,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoorient?: number;\n}): boolean {\n const { distance, coorient } = coorientDist(matrix1, matrix2);\n return (\n distance <= maxDistance && (minCoorient == null || coorient >= minCoorient)\n );\n}\n\n// Like Math.sign but with a custom epsilon value.\nexport function epsilonSign(value: number, epsilon = 0.001): number {\n if (Math.abs(value) < epsilon) {\n return 0;\n }\n return Math.sign(value);\n}\n\n// Encode a THREE.Quaternion into a 24-bit integer, converting the xyz coordinates\n// to signed 8-bit integers (w can be derived from xyz), and flipping the sign\n// of the quaternion if necessary to make this possible (q == -q for quaternions).\nexport function encodeQuatXyz888(q: THREE.Quaternion): number {\n const negQuat = q.w < 0.0;\n const iQuatX = floatToSint8(negQuat ? -q.x : q.x);\n const iQuatY = floatToSint8(negQuat ? -q.y : q.y);\n const iQuatZ = floatToSint8(negQuat ? -q.z : q.z);\n const uQuatX = iQuatX & 0xff;\n const uQuatY = iQuatY & 0xff;\n const uQuatZ = iQuatZ & 0xff;\n return uQuatX | (uQuatY << 8) | (uQuatZ << 16);\n}\n\n// Decode a 24-bit integer of the quaternion's xyz coordinates into a THREE.Quaternion.\nexport function decodeQuatXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n const iQuatX = (encoded << 24) >> 24;\n const iQuatY = (encoded << 16) >> 24;\n const iQuatZ = (encoded << 8) >> 24;\n out.set(iQuatX / 127.0, iQuatY / 127.0, iQuatZ / 127.0, 0.0);\n const dotSelf = out.x * out.x + out.y * out.y + out.z * out.z;\n out.w = Math.sqrt(Math.max(0.0, 1.0 - dotSelf));\n return out;\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempNormalizedQuaternion = new THREE.Quaternion();\nconst tempAxis = new THREE.Vector3();\n\n/**\n * Encodes a THREE.Quaternion into a 24‐bit integer.\n *\n * Bit layout (LSB → MSB):\n * - Bits 0–7: quantized U (8 bits)\n * - Bits 8–15: quantized V (8 bits)\n * - Bits 16–23: quantized angle θ (8 bits) from [0,π]\n *\n * This version uses folded octahedral mapping (all inline).\n */\nexport function encodeQuatOctXy88R8(q: THREE.Quaternion): number {\n // Force the minimal representation (q.w >= 0)\n const qnorm = tempNormalizedQuaternion.copy(q).normalize();\n if (qnorm.w < 0) {\n qnorm.set(-qnorm.x, -qnorm.y, -qnorm.z, -qnorm.w);\n }\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnorm.w);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(\n qnorm.x * qnorm.x + qnorm.y * qnorm.y + qnorm.z * qnorm.z,\n );\n const axis =\n xyz_norm < 1e-6\n ? tempAxis.set(1, 0, 0)\n : tempAxis.set(qnorm.x, qnorm.y, qnorm.z).divideScalar(xyz_norm);\n // const foldAxis = (axis.z < 0);\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axis.x) + Math.abs(axis.y) + Math.abs(axis.z);\n let p_x = axis.x / sum;\n let p_y = axis.y / sum;\n // Fold the lower hemisphere.\n if (axis.z < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 7 bits (0..127)\n const quantU = Math.round(u_f * 255);\n const quantV = Math.round(v_f * 255);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 10 bits (0..1023) ---\n const angleInt = Math.round(theta * (255 / Math.PI));\n\n // Pack into 24 bits: bits [0–7]: quantU, [8–15]: quantV, [16–23]: angleInt.\n return (angleInt << 16) | (quantV << 8) | quantU;\n}\n\n/**\n * Decodes a 24‐bit encoded quaternion (packed in a number) back to a THREE.Quaternion.\n *\n * Assumes the same bit layout as in encodeQuatOctXy88R8.\n */\nexport function decodeQuatOctXy88R8(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 8‐bit quantU and quantV, and 8‐bit angleInt.\n const quantU = encoded & 0xff; // bits 0–7\n const quantV = (encoded >>> 8) & 0xff; // bits 8–15\n const angleInt = (encoded >>> 16) & 0xff; // bits 16–23\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 255;\n const v_f = quantV / 255;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axis = tempAxis.set(f_x, f_y, f_z).normalize();\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 255) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axis.x * s, axis.y * s, axis.z * s, w);\n return out;\n}\n\n/**\n * Encodes a THREE.Quaternion into a 24‑bit unsigned integer\n * by converting it to Euler angles (roll, pitch, yaw).\n * The Euler angles are assumed to be in radians in the range [-π, π].\n * Each angle is normalized to [0,1] and quantized to 8 bits.\n * Bit layout (LSB→MSB):\n * - Bits 0–7: roll (quantized)\n * - Bits 8–15: pitch (quantized)\n * - Bits 16–23: yaw (quantized)\n */\nexport function encodeQuatEulerXyz888(q: THREE.Quaternion): number {\n // Normalize quaternion to ensure a proper rotation.\n const qNorm = q.clone().normalize();\n\n // Tait–Bryan angles (roll, pitch, yaw)\n const sinr_cosp = 2.0 * (qNorm.w * qNorm.x + qNorm.y * qNorm.z);\n const cosr_cosp = 1.0 - 2.0 * (qNorm.x * qNorm.x + qNorm.y * qNorm.y);\n const roll = Math.atan2(sinr_cosp, cosr_cosp);\n\n const sinp = 2.0 * (qNorm.w * qNorm.y - qNorm.z * qNorm.x);\n const pitch =\n Math.abs(sinp) >= 1.0 ? Math.sign(sinp) * (Math.PI / 2) : Math.asin(sinp);\n\n const siny_cosp = 2.0 * (qNorm.w * qNorm.z + qNorm.x * qNorm.y);\n const cosy_cosp = 1.0 - 2.0 * (qNorm.y * qNorm.y + qNorm.z * qNorm.z);\n const yaw = Math.atan2(siny_cosp, cosy_cosp);\n\n // Map each angle from [-π, π] to [0, 1]\n const normRoll = (roll + Math.PI) / (2 * Math.PI);\n const normPitch = (pitch + Math.PI) / (2 * Math.PI);\n const normYaw = (yaw + Math.PI) / (2 * Math.PI);\n\n // Quantize to 8 bits (0 to 255)\n const rollQ = Math.round(normRoll * 255);\n const pitchQ = Math.round(normPitch * 255);\n const yawQ = Math.round(normYaw * 255);\n\n // Pack into a 24-bit unsigned integer:\n // Bits 0–7: rollQ, Bits 8–15: pitchQ, Bits 16–23: yawQ.\n return (yawQ << 16) | (pitchQ << 8) | rollQ;\n}\n\n/**\n * Decodes a 24‑bit unsigned integer into a THREE.Quaternion\n * by unpacking three 8‑bit values (roll, pitch, yaw) in the range [0,255]\n * and then converting them back to Euler angles in [-π, π] and to a quaternion.\n */\nexport function decodeQuatEulerXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Unpack 8‑bit values.\n const rollQ = encoded & 0xff;\n const pitchQ = (encoded >>> 8) & 0xff;\n const yawQ = (encoded >>> 16) & 0xff;\n\n // Convert quantized values back to normalized [0,1] values.\n const normRoll = rollQ / 255;\n const normPitch = pitchQ / 255;\n const normYaw = yawQ / 255;\n\n // Map from [0,1] to [-π, π]\n const roll = normRoll * (2 * Math.PI) - Math.PI;\n const pitch = normPitch * (2 * Math.PI) - Math.PI;\n const yaw = normYaw * (2 * Math.PI) - Math.PI;\n\n // Convert Euler angles to quaternion (Tait–Bryan: roll, pitch, yaw).\n const cr = Math.cos(roll * 0.5);\n const sr = Math.sin(roll * 0.5);\n const cp = Math.cos(pitch * 0.5);\n const sp = Math.sin(pitch * 0.5);\n const cy = Math.cos(yaw * 0.5);\n const sy = Math.sin(yaw * 0.5);\n\n out.w = cr * cp * cy + sr * sp * sy;\n out.x = sr * cp * cy - cr * sp * sy;\n out.y = cr * sp * cy + sr * cp * sy;\n out.z = cr * cp * sy - sr * sp * cy;\n out.normalize();\n return out;\n}\n\nexport function encodeQuatOctXy1010R12(\n qx: number,\n qy: number,\n qz: number,\n qw: number,\n): number {\n const qlen = Math.sqrt(qx * qx + qy * qy + qz * qz + qw * qw);\n // Force the minimal representation (q.w >= 0)\n const qnx = (qw < 0 ? -qx : qx) / qlen;\n const qny = (qw < 0 ? -qy : qy) / qlen;\n const qnz = (qw < 0 ? -qz : qz) / qlen;\n const qnw = (qw < 0 ? -qw : qw) / qlen;\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnw);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(qnx * qnx + qny * qny + qnz * qnz);\n const axisX = xyz_norm < 1e-6 ? 1 : qnx / xyz_norm;\n const axisY = xyz_norm < 1e-6 ? 0 : qny / xyz_norm;\n const axisZ = xyz_norm < 1e-6 ? 0 : qnz / xyz_norm;\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axisX) + Math.abs(axisY) + Math.abs(axisZ);\n let p_x = axisX / sum;\n let p_y = axisY / sum;\n // Fold the lower hemisphere.\n if (axisZ < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 10 bits (0..1023)\n const quantU = Math.round(u_f * 1023);\n const quantV = Math.round(v_f * 1023);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 12 bits (0..4095) ---\n const angleInt = Math.round(theta * (4095 / Math.PI));\n\n // Pack into 32 bits: bits [0–9]: quantU, [10–19]: quantV, [20–31]: angleInt.\n return (angleInt << 20) | (quantV << 10) | quantU;\n}\n\nexport function decodeQuatOctXy1010R12(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 10‐bit quantU and quantV, and 12‐bit angleInt.\n const quantU = encoded & 0x3ff; // bits 0–9\n const quantV = (encoded >>> 10) & 0x3ff; // bits 10–19\n const angleInt = (encoded >>> 20) & 0xfff; // bits 20–31\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 1023;\n const v_f = quantV / 1023;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axisLen = Math.sqrt(f_x * f_x + f_y * f_y + f_z * f_z);\n const axisX = axisLen < 1e-6 ? 0 : f_x / axisLen;\n const axisY = axisLen < 1e-6 ? 0 : f_y / axisLen;\n const axisZ = axisLen < 1e-6 ? 0 : f_z / axisLen;\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 4095) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axisX * s, axisY * s, axisZ * s, w);\n return out;\n}\n\n// Pack four signed 8-bit values into a single uint32.\nfunction packSint8Bytes(\n b0: number,\n b1: number,\n b2: number,\n b3: number,\n): number {\n const clampedB0 = Math.round(Math.max(-127, Math.min(127, b0 * 127)));\n const clampedB1 = Math.round(Math.max(-127, Math.min(127, b1 * 127)));\n const clampedB2 = Math.round(Math.max(-127, Math.min(127, b2 * 127)));\n const clampedB3 = Math.round(Math.max(-127, Math.min(127, b3 * 127)));\n return (\n (clampedB0 & 0xff) |\n ((clampedB1 & 0xff) << 8) |\n ((clampedB2 & 0xff) << 16) |\n ((clampedB3 & 0xff) << 24)\n );\n}\n\n// Encode an array of 9 signed RGB SH1 coefficients (clamped to [-1,1]) into\n// a pair of uint32 values, where each coefficient is stored as a sint7\nexport function encodeSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n encoding?: {\n sh1Max?: number;\n },\n) {\n const sh1Max = encoding?.sh1Max ?? 1;\n const sh1Scale = 63 / sh1Max;\n\n // Pack sint7 values into 2 x uint32\n const base = index * 2;\n for (let i = 0; i < 9; ++i) {\n const s = sh1Rgb[i] * sh1Scale;\n const value = Math.round(Math.max(-63, Math.min(63, s))) & 0x7f;\n const bitStart = i * 7;\n const bitEnd = bitStart + 7;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh1Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh1Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\n// Encode an array of 15 signed RGB SH2 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint8.\nexport function encodeSh2Rgb(\n sh2Array: Uint32Array,\n index: number,\n sh2Rgb: Float32Array,\n encoding?: {\n sh2Max?: number;\n },\n) {\n const sh2Max = encoding?.sh2Max ?? 1;\n const sh2Scale = 1 / sh2Max;\n\n // Pack sint8 values into 4 x uint32\n sh2Array[index * 4 + 0] = packSint8Bytes(\n sh2Rgb[0] * sh2Scale,\n sh2Rgb[1] * sh2Scale,\n sh2Rgb[2] * sh2Scale,\n sh2Rgb[3] * sh2Scale,\n );\n sh2Array[index * 4 + 1] = packSint8Bytes(\n sh2Rgb[4] * sh2Scale,\n sh2Rgb[5] * sh2Scale,\n sh2Rgb[6] * sh2Scale,\n sh2Rgb[7] * sh2Scale,\n );\n sh2Array[index * 4 + 2] = packSint8Bytes(\n sh2Rgb[8] * sh2Scale,\n sh2Rgb[9] * sh2Scale,\n sh2Rgb[10] * sh2Scale,\n sh2Rgb[11] * sh2Scale,\n );\n sh2Array[index * 4 + 3] = packSint8Bytes(\n sh2Rgb[12] * sh2Scale,\n sh2Rgb[13] * sh2Scale,\n sh2Rgb[14] * sh2Scale,\n 0,\n );\n}\n\n// Encode an array of 21 signed RGB SH3 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint6.\nexport function encodeSh3Rgb(\n sh3Array: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n encoding?: {\n sh3Max?: number;\n },\n) {\n const sh3Max = encoding?.sh3Max ?? 1;\n const sh3Scale = 31 / sh3Max;\n\n // Pack sint6 values into 4 x uint32\n const base = index * 4;\n for (let i = 0; i < 21; ++i) {\n const s = sh3Rgb[i] * sh3Scale;\n const value = Math.round(Math.max(-31, Math.min(31, s))) & 0x3f;\n const bitStart = i * 6;\n const bitEnd = bitStart + 6;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh3Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh3Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\nexport function encodeExtRgb(r: number, g: number, b: number): number {\n const ar = Math.abs(r);\n const ag = Math.abs(g);\n const ab = Math.abs(b);\n const maxAbs = Math.max(ar, ag, ab);\n const base = Math.floor(Math.log2(maxAbs));\n const biasedBase = Math.max(0, Math.min(31, base + 15));\n const divisor = 2 ** (biasedBase - 15) / 255;\n const uR = Math.round(Math.max(0, Math.min(255, ar / divisor)));\n const uG = Math.round(Math.max(0, Math.min(255, ag / divisor)));\n const uB = Math.round(Math.max(0, Math.min(255, ab / divisor)));\n const expSigns =\n (biasedBase << 3) |\n ((r < 0 ? 0x1 : 0) | (g < 0 ? 0x2 : 0) | (b < 0 ? 0x4 : 0));\n return uR | (uG << 8) | (uB << 16) | (expSigns << 24);\n}\n\nexport function decodeExtRgb(encoded: number): THREE.Color {\n const color = packedFields.color;\n const biasedBase = (encoded >>> 27) & 0x1f;\n const divisor = 2 ** (biasedBase - 15) / 255;\n const r = (encoded & 0xff) * divisor;\n const g = ((encoded >>> 8) & 0xff) * divisor;\n const b = ((encoded >>> 16) & 0xff) * divisor;\n color.r = encoded & 0x1000000 ? -r : r;\n color.g = encoded & 0x2000000 ? -g : g;\n color.b = encoded & 0x4000000 ? -b : b;\n return color;\n}\n\nexport function encodeExtSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n}\n\nexport function encodeExtSh12Rgb(\n sh1Array: Uint32Array,\n sh2Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n sh2Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n sh1Array[i4 + 3] = encodeExtRgb(sh2Rgb[0], sh2Rgb[1], sh2Rgb[2]);\n for (let k = 1; k < 5; ++k) {\n const k5 = k * 5;\n sh2Array[i4 + (k - 1)] = encodeExtRgb(\n sh2Rgb[k5],\n sh2Rgb[k5 + 1],\n sh2Rgb[k5 + 2],\n );\n }\n}\n\nexport function encodeExt3Rgb(\n sh3ArrayA: Uint32Array,\n sh3ArrayB: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 4; ++k) {\n const k3 = k * 3;\n sh3ArrayA[i4 + k] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n for (let k = 4; k < 7; ++k) {\n const k3 = k * 3;\n sh3ArrayB[i4 + (k - 4)] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n}\n\n// Partially decompress a gzip-encoded Uint8Array, returning a Uint8Array of\n// the specified numBytes from the start of the file.\nexport function decompressPartialGzip(\n fileBytes: Uint8Array,\n numBytes: number,\n): Uint8Array {\n const chunks: Uint8Array[] = [];\n let totalBytes = 0;\n let result: Uint8Array | null = null;\n\n const gunzip = new Gunzip((data, final) => {\n chunks.push(data);\n totalBytes += data.length;\n if (final || totalBytes >= numBytes) {\n const allBytes = new Uint8Array(totalBytes);\n let offset = 0;\n for (const chunk of chunks) {\n allBytes.set(chunk, offset);\n offset += chunk.length;\n }\n result = allBytes.slice(0, numBytes);\n }\n });\n\n const CHUNK_SIZE = 1024;\n let offset = 0;\n while (result == null && offset < fileBytes.length) {\n const chunk = fileBytes.slice(offset, offset + CHUNK_SIZE);\n gunzip.push(chunk, false);\n offset += CHUNK_SIZE;\n }\n\n if (result == null) {\n gunzip.push(new Uint8Array(), true);\n if (result == null) {\n throw new Error(\"Failed to decompress partial gzip\");\n }\n }\n return result;\n}\n\nexport class GunzipReader {\n fileBytes: Uint8Array;\n chunkBytes: number;\n\n chunks: Uint8Array[];\n totalBytes: number;\n reader: ReadableStreamDefaultReader;\n\n constructor({\n fileBytes,\n chunkBytes = 64 * 1024,\n }: { fileBytes: Uint8Array; chunkBytes?: number }) {\n this.fileBytes = fileBytes;\n this.chunkBytes = chunkBytes;\n this.chunks = [];\n this.totalBytes = 0;\n\n const ds = new DecompressionStream(\"gzip\");\n const decompressionStream = new Blob([fileBytes]).stream().pipeThrough(ds);\n this.reader = decompressionStream.getReader();\n }\n\n async read(numBytes: number): Promise {\n while (this.totalBytes < numBytes) {\n const { value: chunk, done: readerDone } = await this.reader.read();\n if (readerDone) {\n break;\n }\n\n this.chunks.push(chunk);\n this.totalBytes += chunk.length;\n }\n\n if (this.totalBytes < numBytes) {\n throw new Error(\n `Unexpected EOF: needed ${numBytes}, got ${this.totalBytes}`,\n );\n }\n\n const allBytes = new Uint8Array(this.totalBytes);\n let outOffset = 0;\n for (const chunk of this.chunks) {\n allBytes.set(chunk, outOffset);\n outOffset += chunk.length;\n }\n\n const result = allBytes.subarray(0, numBytes);\n this.chunks = [allBytes.subarray(numBytes)];\n this.totalBytes -= numBytes;\n return result;\n }\n}\n","import BundledWorker from \"./oldWorker?worker&inline\";\nimport { getTransferable } from \"./utils.js\";\n\n// SplatWorker is an internal class that manages a WebWorker for executing\n// longer running CPU tasks such as Gsplat file decoding and sorting.\n// Although a SplatWorker can be created and used directly, the utility\n// function withWorker() is recommended to allocate from a managed\n// pool of SplatWorkers.\n\nexport class OldSplatWorker {\n worker: Worker;\n messages: Record<\n number,\n { resolve: (value: unknown) => void; reject: (reason?: unknown) => void }\n > = {};\n messageIdNext = 0;\n\n constructor() {\n // this.worker = new Worker(new URL(\"./worker\", import.meta.url), { type: \"module\" });\n this.worker = new BundledWorker();\n this.worker.onmessage = (event) => this.onMessage(event);\n }\n\n makeMessageId(): number {\n return ++this.messageIdNext;\n }\n\n makeMessagePromiseId(): { id: number; promise: Promise } {\n const id = this.makeMessageId();\n const promise = new Promise((resolve, reject) => {\n this.messages[id] = { resolve, reject };\n });\n return { id, promise };\n }\n\n onMessage(event: MessageEvent) {\n // console.log(\"SplatWorker.onMessage:\", event);\n const { id, result, error } = event.data;\n // console.log(`SplatWorker.onMessage(${id}):`, result, error);\n const handler = this.messages[id];\n if (handler) {\n delete this.messages[id];\n if (error) {\n handler.reject(error);\n } else {\n handler.resolve(result);\n }\n }\n }\n\n // Invoke an RPC on the worker with the given name and arguments.\n // The normal usage of a worker is to run one activity at a time,\n // but this function allows for concurrent calls, tagging each request\n // with a unique message Id and awaiting a response to that same Id.\n // The method will automatically transfer any ArrayBuffers in the\n // arguments to the worker. If you'd like to transfer a copy of a\n // buffer then you must clone it before passing to this function.\n async call(name: string, args: unknown): Promise {\n const { id, promise } = this.makeMessagePromiseId();\n // console.log(`SplatWorker.call(${name}):`, args);\n this.worker.postMessage(\n { name, args, id },\n { transfer: getTransferable(args) },\n );\n return promise;\n }\n}\n\nlet maxWorkers = 4;\n\nlet numWorkers = 0;\nconst freeWorkers: OldSplatWorker[] = [];\nconst workerQueue: ((worker: OldSplatWorker) => void)[] = [];\n\n// Set the maximum number of workers to allocate for the pool. (default: 4)\nexport function setWorkerPool(count = 4) {\n maxWorkers = count;\n}\n\n// Allocate a worker from the pool. If none are available and we are below the\n// maximum, create a new one. Otherwise, add the request to a queue and wait\n// for it to be fulfilled.\nexport async function allocWorker(): Promise {\n const worker = freeWorkers.shift();\n if (worker) {\n return worker;\n }\n\n if (numWorkers < maxWorkers) {\n const worker = new OldSplatWorker();\n numWorkers += 1;\n return worker;\n }\n\n return new Promise((resolve) => {\n workerQueue.push(resolve);\n });\n}\n\n// Return a worker to the pool. Pass the worker to any pending waiter.\nexport function freeWorker(worker: OldSplatWorker) {\n if (numWorkers > maxWorkers) {\n // Worker no longer needed\n numWorkers -= 1;\n return;\n }\n\n const waiter = workerQueue.shift();\n if (waiter) {\n waiter(worker);\n return;\n }\n\n freeWorkers.push(worker);\n}\n\n// Allocate a worker from the pool and invoke the callback with the worker.\n// When the callback completes, the worker will be returned to the pool.\nexport async function withWorker(\n callback: (worker: OldSplatWorker) => Promise,\n): Promise {\n const worker = await allocWorker();\n try {\n return await callback(worker);\n } finally {\n freeWorker(worker);\n }\n}\n","import {\n\tBufferGeometry,\n\tFloat32BufferAttribute,\n\tOrthographicCamera,\n\tMesh\n} from 'three';\n\n/**\n * Abstract base class for all post processing passes.\n *\n * This module is only relevant for post processing with {@link WebGLRenderer}.\n *\n * @abstract\n * @three_import import { Pass } from 'three/addons/postprocessing/Pass.js';\n */\nclass Pass {\n\n\t/**\n\t * Constructs a new pass.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPass = true;\n\n\t\t/**\n\t\t * If set to `true`, the pass is processed by the composer.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.enabled = true;\n\n\t\t/**\n\t\t * If set to `true`, the pass indicates to swap read and write buffer after rendering.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.needsSwap = true;\n\n\t\t/**\n\t\t * If set to `true`, the pass clears its buffer before rendering\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clear = false;\n\n\t\t/**\n\t\t * If set to `true`, the result of the pass is rendered to screen. The last pass in the composers\n\t\t * pass chain gets automatically rendered to screen, no matter how this property is configured.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.renderToScreen = false;\n\n\t}\n\n\t/**\n\t * Sets the size of the pass.\n\t *\n\t * @abstract\n\t * @param {number} width - The width to set.\n\t * @param {number} height - The height to set.\n\t */\n\tsetSize( /* width, height */ ) {}\n\n\t/**\n\t * This method holds the render logic of a pass. It must be implemented in all derived classes.\n\t *\n\t * @abstract\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {WebGLRenderTarget} writeBuffer - The write buffer. This buffer is intended as the rendering\n\t * destination for the pass.\n\t * @param {WebGLRenderTarget} readBuffer - The read buffer. The pass can access the result from the\n\t * previous pass from this buffer.\n\t * @param {number} deltaTime - The delta time in seconds.\n\t * @param {boolean} maskActive - Whether masking is active or not.\n\t */\n\trender( /* renderer, writeBuffer, readBuffer, deltaTime, maskActive */ ) {\n\n\t\tconsole.error( 'THREE.Pass: .render() must be implemented in derived pass.' );\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever the pass is no longer used in your app.\n\t *\n\t * @abstract\n\t */\n\tdispose() {}\n\n}\n\n// Helper for passes that need to fill the viewport with a single quad.\n\nconst _camera = new OrthographicCamera( - 1, 1, 1, - 1, 0, 1 );\n\n// https://github.com/mrdoob/three.js/pull/21358\n\nclass FullscreenTriangleGeometry extends BufferGeometry {\n\n\tconstructor() {\n\n\t\tsuper();\n\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( [ - 1, 3, 0, - 1, - 1, 0, 3, - 1, 0 ], 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( [ 0, 2, 0, 0, 2, 0 ], 2 ) );\n\n\t}\n\n}\n\nconst _geometry = new FullscreenTriangleGeometry();\n\n\n/**\n * This module is a helper for passes which need to render a full\n * screen effect which is quite common in context of post processing.\n *\n * The intended usage is to reuse a single full screen quad for rendering\n * subsequent passes by just reassigning the `material` reference.\n *\n * This module can only be used with {@link WebGLRenderer}.\n *\n * @augments Mesh\n * @three_import import { FullScreenQuad } from 'three/addons/postprocessing/Pass.js';\n */\nclass FullScreenQuad {\n\n\t/**\n\t * Constructs a new full screen quad.\n\t *\n\t * @param {?Material} material - The material to render te full screen quad with.\n\t */\n\tconstructor( material ) {\n\n\t\tthis._mesh = new Mesh( _geometry, material );\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever the instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis._mesh.geometry.dispose();\n\n\t}\n\n\t/**\n\t * Renders the full screen quad.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t */\n\trender( renderer ) {\n\n\t\trenderer.render( this._mesh, _camera );\n\n\t}\n\n\t/**\n\t * The quad's material.\n\t *\n\t * @type {?Material}\n\t */\n\tget material() {\n\n\t\treturn this._mesh.material;\n\n\t}\n\n\tset material( value ) {\n\n\t\tthis._mesh.material = value;\n\n\t}\n\n}\n\nexport { Pass, FullScreenQuad };\n","import { getTransferable } from \"./utils\";\nimport BundledWorker from \"./worker?worker&inline\";\n\ntype PromiseRecord = {\n resolve: (value: unknown) => void;\n reject: (reason?: unknown) => void;\n onStatus?: (data: unknown) => void;\n};\n\nexport class SplatWorker {\n worker: Worker;\n queue: (() => void)[] | null = null;\n messages: Record = {};\n static currentId = 0;\n\n constructor() {\n this.worker = new BundledWorker();\n this.worker.onmessage = (event) => this.onMessage(event);\n }\n\n onMessage(event: MessageEvent) {\n const { id, result, error, status } = event.data;\n const promise = this.messages[id];\n if (promise) {\n if (error !== undefined) {\n delete this.messages[id];\n promise.reject(error);\n } else if (status !== undefined) {\n promise.onStatus?.(status);\n } else {\n delete this.messages[id];\n promise.resolve(result);\n }\n }\n }\n\n tryExclusive(callback: (worker: SplatWorker) => Promise) {\n return this.queue == null ? this.exclusive(callback) : null;\n }\n\n async exclusive(\n callback: (worker: SplatWorker) => Promise,\n ): Promise {\n const queue = this.queue;\n if (queue != null) {\n await new Promise((resolve) => {\n queue.push(() => resolve(undefined));\n });\n } else {\n this.queue = [];\n }\n\n try {\n return await callback(this);\n } finally {\n if (this.queue != null) {\n if (this.queue.length === 0) {\n this.queue = null;\n } else {\n const waiter = this.queue.shift() as () => void;\n waiter();\n }\n }\n }\n }\n\n async call(\n name: string,\n args: unknown,\n options: { onStatus?: (data: unknown) => void } = {},\n ): Promise {\n const id = ++SplatWorker.currentId;\n const promise = new Promise((resolve, reject) => {\n this.messages[id] = { resolve, reject, onStatus: options.onStatus };\n });\n this.worker.postMessage(\n { id, name, args },\n { transfer: getTransferable(args) },\n );\n return await promise;\n }\n\n dispose() {\n this.worker.terminate();\n\n const messages = Object.values(this.messages);\n this.messages = {};\n for (const message of messages) {\n message.reject(new Error(\"Worker terminate\"));\n }\n }\n}\n\nexport class NewSplatWorkerPool {\n maxWorkers;\n numWorkers = 0;\n freelist: SplatWorker[] = [];\n queue: ((worker: SplatWorker) => void)[] = [];\n\n constructor(maxWorkers = 4) {\n this.maxWorkers = maxWorkers;\n }\n\n async withWorker(\n callback: (worker: SplatWorker) => Promise,\n ): Promise {\n const worker = await this.allocWorker();\n try {\n return await callback(worker);\n } finally {\n this.freeWorker(worker);\n }\n }\n\n async allocWorker(): Promise {\n const worker = this.freelist.pop();\n if (worker) {\n return worker;\n }\n\n if (this.numWorkers < this.maxWorkers) {\n const worker = new SplatWorker();\n this.numWorkers += 1;\n return worker;\n }\n\n return new Promise((resolve) => {\n this.queue.push(resolve);\n });\n }\n\n freeWorker(worker: SplatWorker) {\n if (this.numWorkers > this.maxWorkers) {\n // Worker no longer needed\n this.numWorkers -= 1;\n return;\n }\n\n const waiter = this.queue.shift();\n if (waiter) {\n waiter(worker);\n return;\n }\n\n this.freelist.push(worker);\n }\n}\n\nexport const workerPool = new NewSplatWorkerPool();\n","import { Dyno, UnaryOp, unindent, unindentLines } from \"./base\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n} from \"./value\";\n\nexport const Gsplat = { type: \"Gsplat\" } as { type: \"Gsplat\" };\nexport const CovSplat = { type: \"CovSplat\" } as { type: \"CovSplat\" };\nexport const TPackedSplats = { type: \"PackedSplats\" } as {\n type: \"PackedSplats\";\n};\nexport const TExtSplats = { type: \"ExtSplats\" } as {\n type: \"ExtSplats\";\n};\nexport const TCovSplats = { type: \"CovSplats\" } as {\n type: \"CovSplats\";\n};\n\nexport const numPackedSplats = (\n packedSplats: DynoVal,\n): DynoVal<\"int\"> => new NumPackedSplats({ packedSplats });\nexport const readPackedSplat = (\n packedSplats: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal => new ReadPackedSplat({ packedSplats, index });\nexport const readPackedSplatRange = (\n packedSplats: DynoVal,\n index: DynoVal<\"int\">,\n base: DynoVal<\"int\">,\n count: DynoVal<\"int\">,\n): DynoVal =>\n new ReadPackedSplatRange({ packedSplats, index, base, count });\n\nexport const numExtSplats = (\n extSplats: DynoVal,\n): DynoVal<\"int\"> => new NumExtSplats({ extSplats });\nexport const readExtSplat = (\n extSplats: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal => new ReadExtSplat({ extSplats, index });\n\nexport const numCovSplats = (\n covsplats: DynoVal,\n): DynoVal<\"int\"> => new NumCovSplats({ covsplats });\nexport const readCovSplat = (\n covSplats: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal => new ReadCovSplat({ covSplats, index });\n\nexport const gsplatToCovSplat = (\n gsplat: DynoVal,\n): DynoVal => new GsplatToCovSplat({ gsplat });\n\nexport const splitGsplat = (gsplat: DynoVal) =>\n new SplitGsplat({ gsplat });\nexport const combineGsplat = ({\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n}: {\n gsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n scales?: DynoVal<\"vec3\">;\n quaternion?: DynoVal<\"vec4\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n}): DynoVal => {\n return new CombineGsplat({\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n });\n};\nexport const gsplatNormal = (gsplat: DynoVal): DynoVal<\"vec3\"> =>\n new GsplatNormal({ gsplat });\n\nexport const transformGsplat = (\n gsplat: DynoVal,\n {\n scale,\n rotate,\n translate,\n recolor,\n }: {\n scale?: DynoVal<\"float\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n recolor?: DynoVal<\"vec4\">;\n },\n): DynoVal => {\n return new TransformGsplat({ gsplat, scale, rotate, translate, recolor });\n};\n\nexport const splatTexCoord = (index: DynoVal<\"int\">): DynoVal<\"ivec3\"> =>\n new SplatTexCoord({ index });\n\nexport const pagedSplatTexCoord = (index: DynoVal<\"int\">): DynoVal<\"ivec3\"> =>\n new PagedSplatTexCoord({ index });\n\nexport const defineGsplat = unindent(`\n struct Gsplat {\n vec3 center;\n uint flags;\n vec3 scales;\n int index;\n vec4 quaternion;\n vec4 rgba;\n };\n const uint GSPLAT_FLAG_ACTIVE = 1u << 0u;\n\n bool isGsplatActive(uint flags) {\n return (flags & GSPLAT_FLAG_ACTIVE) != 0u;\n }\n`);\n\nexport const defineCovSplat = unindent(`\n struct CovSplat {\n vec3 center;\n uint flags;\n vec4 rgba;\n vec3 xxyyzz;\n int index;\n vec3 xyxzyz;\n };\n\n bool isCovSplatActive(uint flags) {\n return (flags & GSPLAT_FLAG_ACTIVE) != 0u;\n }\n`);\n\nexport const definePackedSplats = unindent(`\n struct PackedSplats {\n usampler2DArray textureArray;\n int numSplats;\n vec4 rgbMinMaxLnScaleMinMax;\n bool lodOpacity;\n };\n`);\n\nexport class NumPackedSplats extends UnaryOp<\n typeof TPackedSplats,\n \"int\",\n \"numSplats\"\n> {\n constructor({\n packedSplats,\n }: { packedSplats: DynoVal }) {\n super({ a: packedSplats, outKey: \"numSplats\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.numSplats} = ${inputs.a}.numSplats;`,\n ];\n }\n}\n\nconst defineReadPackedArray = unindent(`\n bool readPackedArray(usampler2DArray texture, int numSplats, vec4 rgbMinMaxLnScaleMinMax, int index, out Gsplat gsplat) {\n if ((index >= 0) && (index < numSplats)) {\n uvec4 packed = texelFetch(texture, splatTexCoord(index), 0);\n unpackSplatEncoding(packed, gsplat.center, gsplat.scales, gsplat.quaternion, gsplat.rgba, rgbMinMaxLnScaleMinMax);\n return true;\n } else {\n return false;\n }\n }\n`);\n\nexport class ReadPackedSplat\n extends Dyno<\n { packedSplats: typeof TPackedSplats; index: \"int\" },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n packedSplats,\n index,\n }: { packedSplats?: DynoVal; index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { packedSplats: TPackedSplats, index: \"int\" },\n outTypes: { gsplat: Gsplat },\n inputs: { packedSplats, index },\n globals: () => [defineGsplat, definePackedSplats, defineReadPackedArray],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = outputs;\n if (!gsplat) {\n return [];\n }\n const { packedSplats, index } = inputs;\n let statements: string[];\n if (packedSplats && index) {\n statements = unindentLines(`\n ${gsplat}.flags = 0u;\n if (readPackedArray(${packedSplats}.textureArray, ${packedSplats}.numSplats, ${packedSplats}.rgbMinMaxLnScaleMinMax, ${index}, ${gsplat})) {\n if (${packedSplats}.lodOpacity) {\n ${gsplat}.rgba.a = 2.0 * ${gsplat}.rgba.a;\n }\n bool zeroSize = all(equal(${gsplat}.scales, vec3(0.0, 0.0, 0.0)));\n ${gsplat}.flags = zeroSize ? 0u : GSPLAT_FLAG_ACTIVE;\n }\n `);\n } else {\n statements = [`${gsplat}.flags = 0u;`];\n }\n statements.push(`${gsplat}.index = ${index ?? \"0\"};`);\n return statements;\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport class ReadPackedSplatRange\n extends Dyno<\n {\n packedSplats: typeof TPackedSplats;\n index: \"int\";\n base: \"int\";\n count: \"int\";\n },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n packedSplats,\n index,\n base,\n count,\n }: {\n packedSplats?: DynoVal;\n index?: DynoVal<\"int\">;\n base?: DynoVal<\"int\">;\n count?: DynoVal<\"int\">;\n }) {\n super({\n inTypes: {\n packedSplats: TPackedSplats,\n index: \"int\",\n base: \"int\",\n count: \"int\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: { packedSplats, index, base, count },\n globals: () => [defineGsplat, definePackedSplats, defineReadPackedArray],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = outputs;\n if (!gsplat) {\n return [];\n }\n const { packedSplats, index, base, count } = inputs;\n let statements: string[];\n if (packedSplats && index && base && count) {\n statements = unindentLines(`\n ${gsplat}.flags = 0u;\n if (readPackedArray(${packedSplats}.textureArray, ${packedSplats}.numSplats, ${packedSplats}.rgbMinMaxLnScaleMinMax, ${index}, ${gsplat})) {\n if (${packedSplats}.lodOpacity) {\n ${gsplat}.rgba.a = 2.0 * ${gsplat}.rgba.a;\n }\n bool zeroSize = all(equal(${gsplat}.scales, vec3(0.0, 0.0, 0.0)));\n ${gsplat}.flags = zeroSize ? 0u : GSPLAT_FLAG_ACTIVE;\n }\n `);\n } else {\n statements = [`${gsplat}.flags = 0u;`];\n }\n statements.push(`${gsplat}.index = ${index ?? \"0\"};`);\n return statements;\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport const defineExtSplats = unindent(`\n struct ExtSplats {\n usampler2DArray textureArray1;\n usampler2DArray textureArray2;\n int numSplats;\n };\n`);\n\nexport class NumExtSplats extends UnaryOp<\n typeof TExtSplats,\n \"int\",\n \"numSplats\"\n> {\n constructor({ extSplats }: { extSplats: DynoVal }) {\n super({ a: extSplats, outKey: \"numSplats\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.numSplats} = ${inputs.a}.numSplats;`,\n ];\n }\n}\n\nconst defineReadExtArrays = unindent(`\n void readExtArrays(usampler2DArray texture1, usampler2DArray texture2, int numSplats, int index, out Gsplat gsplat) {\n gsplat.flags = 0u;\n if ((index >= 0) && (index < numSplats)) {\n ivec3 coord = splatTexCoord(index);\n uvec4 packed1 = texelFetch(texture1, coord, 0);\n uvec4 packed2 = texelFetch(texture2, coord, 0);\n unpackSplatExt(packed1, packed2, gsplat.center, gsplat.scales, gsplat.quaternion, gsplat.rgba);\n gsplat.flags = all(equal(gsplat.scales, vec3(0.0, 0.0, 0.0))) ? 0u : GSPLAT_FLAG_ACTIVE;\n gsplat.index = index;\n }\n }\n`);\n\nexport class ReadExtSplat\n extends Dyno<\n { extSplats: typeof TExtSplats; index: \"int\" },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n extSplats,\n index,\n }: { extSplats?: DynoVal; index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { extSplats: TExtSplats, index: \"int\" },\n outTypes: { gsplat: Gsplat },\n inputs: { extSplats, index },\n globals: () => [defineGsplat, defineExtSplats, defineReadExtArrays],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = outputs;\n if (!gsplat) {\n return [`${gsplat}.flags = 0u;`];\n }\n const { extSplats, index } = inputs;\n let statements: string[];\n if (extSplats && index) {\n return unindentLines(`\n readExtArrays(${extSplats}.textureArray1, ${extSplats}.textureArray2, ${extSplats}.numSplats, ${index}, ${gsplat});\n `);\n }\n return [`${gsplat}.flags = 0u;`];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport class NumCovSplats extends UnaryOp<\n typeof TCovSplats,\n \"int\",\n \"numSplats\"\n> {\n constructor({ covsplats }: { covsplats: DynoVal }) {\n super({ a: covsplats, outKey: \"numSplats\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.numSplats} = ${inputs.a}.numSplats;`,\n ];\n }\n}\n\nconst defineReadCovArrays = unindent(`\n void readCovArrays(usampler2DArray texture1, usampler2DArray texture2, int numSplats, int index, out CovSplat covsplat) {\n covsplat.flags = 0u;\n if ((index >= 0) && (index < numSplats)) {\n ivec3 coord = splatTexCoord(index);\n uvec4 packed1 = texelFetch(texture1, coord, 0);\n uvec4 packed2 = texelFetch(texture2, coord, 0);\n unpackSplatExtCov(packed1, packed2, covsplat.center, covsplat.rgba, covsplat.xxyyzz, covsplat.xyxzyz);\n covsplat.flags = (all(equal(covsplat.xxyyzz, vec3(0.0))) && all(equal(covsplat.xyxzyz, vec3(0.0)))) ? 0u : GSPLAT_FLAG_ACTIVE;\n gsplat.index = index;\n }\n }\n`);\n\nexport class ReadCovSplat\n extends Dyno<\n { covSplats: typeof TCovSplats; index: \"int\" },\n { covsplat: typeof CovSplat }\n >\n implements HasDynoOut\n{\n constructor({\n covSplats,\n index,\n }: { covSplats?: DynoVal; index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { covSplats: TCovSplats, index: \"int\" },\n outTypes: { covsplat: CovSplat },\n inputs: { covSplats, index },\n globals: () => [defineGsplat, defineCovSplat, defineReadCovArrays],\n statements: ({ inputs, outputs }) => {\n const { covsplat } = outputs;\n if (!covsplat) {\n return [`${covsplat}.flags = 0u;`];\n }\n const { covSplats, index } = inputs;\n let statements: string[];\n if (covSplats && index) {\n return unindentLines(`\n readCovArrays(${covSplats}.textureArray, ${covSplats}.numSplats, ${index}, ${covsplat});\n `);\n }\n return [`${covsplat}.flags = 0u;`];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"covsplat\");\n }\n}\n\nexport class GsplatToCovSplat extends Dyno<\n { gsplat: typeof Gsplat },\n { covsplat: typeof CovSplat }\n> {\n constructor({ gsplat }: { gsplat?: DynoVal }) {\n super({\n inTypes: { gsplat: Gsplat },\n outTypes: { covsplat: CovSplat },\n inputs: { gsplat },\n globals: () => [defineGsplat, defineCovSplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = inputs;\n const { covsplat } = outputs;\n if (!gsplat) {\n return [`${covsplat}.flags = 0u;`];\n }\n\n return unindentLines(`\n ${covsplat}.flags = 0u;\n if (isGsplatActive(${gsplat}.flags)) {\n ${covsplat}.flags = ${gsplat}.flags;\n ${covsplat}.index = ${gsplat}.index;\n ${covsplat}.rgba = ${gsplat}.rgba;\n ${covsplat}.center = ${gsplat}.center;\n mat3 m = scaleQuaternionToMatrix(${gsplat}.scales, ${gsplat}.quaternion);\n m = m * transpose(m);\n ${covsplat}.xxyyzz = vec3(m[0][0], m[1][1], m[2][2]);\n ${covsplat}.xyxzyz = vec3(m[0][1], m[0][2], m[1][2]);\n }\n `);\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"covsplat\");\n }\n}\n\nexport class SplitGsplat extends Dyno<\n { gsplat: typeof Gsplat },\n {\n flags: \"uint\";\n active: \"bool\";\n index: \"int\";\n center: \"vec3\";\n scales: \"vec3\";\n quaternion: \"vec4\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n }\n> {\n constructor({ gsplat }: { gsplat?: DynoVal }) {\n super({\n inTypes: { gsplat: Gsplat },\n outTypes: {\n flags: \"uint\",\n active: \"bool\",\n index: \"int\",\n center: \"vec3\",\n scales: \"vec3\",\n quaternion: \"vec4\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n inputs: { gsplat },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = inputs;\n const {\n flags,\n active,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = outputs;\n return [\n !flags ? null : `${flags} = ${gsplat ? `${gsplat}.flags` : \"0u\"};`,\n !active\n ? null\n : `${active} = isGsplatActive(${gsplat ? `${gsplat}.flags` : \"0u\"});`,\n !index ? null : `${index} = ${gsplat ? `${gsplat}.index` : \"0\"};`,\n !center\n ? null\n : `${center} = ${gsplat ? `${gsplat}.center` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !scales\n ? null\n : `${scales} = ${gsplat ? `${gsplat}.scales` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !quaternion\n ? null\n : `${quaternion} = ${gsplat ? `${gsplat}.quaternion` : \"vec4(0.0, 0.0, 0.0, 1.0)\"};`,\n !rgba\n ? null\n : `${rgba} = ${gsplat ? `${gsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\"};`,\n !rgb\n ? null\n : `${rgb} = ${gsplat ? `${gsplat}.rgba.rgb` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !opacity\n ? null\n : `${opacity} = ${gsplat ? `${gsplat}.rgba.a` : \"0.0\"};`,\n !x ? null : `${x} = ${gsplat ? `${gsplat}.center.x` : \"0.0\"};`,\n !y ? null : `${y} = ${gsplat ? `${gsplat}.center.y` : \"0.0\"};`,\n !z ? null : `${z} = ${gsplat ? `${gsplat}.center.z` : \"0.0\"};`,\n !r ? null : `${r} = ${gsplat ? `${gsplat}.rgba.r` : \"0.0\"};`,\n !g ? null : `${g} = ${gsplat ? `${gsplat}.rgba.g` : \"0.0\"};`,\n !b ? null : `${b} = ${gsplat ? `${gsplat}.rgba.b` : \"0.0\"};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class CombineGsplat\n extends Dyno<\n {\n gsplat: typeof Gsplat;\n flags: \"uint\";\n index: \"int\";\n center: \"vec3\";\n scales: \"vec3\";\n quaternion: \"vec4\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n }: {\n gsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n scales?: DynoVal<\"vec3\">;\n quaternion?: DynoVal<\"vec4\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n }) {\n super({\n inTypes: {\n gsplat: Gsplat,\n flags: \"uint\",\n index: \"int\",\n center: \"vec3\",\n scales: \"vec3\",\n quaternion: \"vec4\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: {\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat: outGsplat } = outputs;\n if (!outGsplat) {\n return [];\n }\n const {\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = inputs;\n return [\n `${outGsplat}.flags = ${flags ?? (gsplat ? `${gsplat}.flags` : \"0u\")};`,\n `${outGsplat}.index = ${index ?? (gsplat ? `${gsplat}.index` : \"0\")};`,\n `${outGsplat}.center = ${center ?? (gsplat ? `${gsplat}.center` : \"vec3(0.0, 0.0, 0.0)\")};`,\n `${outGsplat}.scales = ${scales ?? (gsplat ? `${gsplat}.scales` : \"vec3(0.0, 0.0, 0.0)\")};`,\n `${outGsplat}.quaternion = ${quaternion ?? (gsplat ? `${gsplat}.quaternion` : \"vec4(0.0, 0.0, 0.0, 1.0)\")};`,\n `${outGsplat}.rgba = ${rgba ?? (gsplat ? `${gsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\")};`,\n !rgb ? null : `${outGsplat}.rgba.rgb = ${rgb};`,\n !opacity ? null : `${outGsplat}.rgba.a = ${opacity};`,\n !x ? null : `${outGsplat}.center.x = ${x};`,\n !y ? null : `${outGsplat}.center.y = ${y};`,\n !z ? null : `${outGsplat}.center.z = ${z};`,\n !r ? null : `${outGsplat}.rgba.r = ${r};`,\n !g ? null : `${outGsplat}.rgba.g = ${g};`,\n !b ? null : `${outGsplat}.rgba.b = ${b};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport const defineGsplatNormal = unindent(`\n vec3 gsplatNormal(vec3 scales, vec4 quaternion) {\n float minScale = min(scales.x, min(scales.y, scales.z));\n vec3 normal;\n if (scales.z == minScale) {\n normal = vec3(0.0, 0.0, 1.0);\n } else if (scales.y == minScale) {\n normal = vec3(0.0, 1.0, 0.0);\n } else {\n normal = vec3(1.0, 0.0, 0.0);\n }\n return quatVec(quaternion, normal);\n }\n`);\n\nexport class GsplatNormal extends UnaryOp {\n constructor({ gsplat }: { gsplat: DynoVal }) {\n super({ a: gsplat, outKey: \"normal\", outTypeFunc: () => \"vec3\" });\n this.globals = () => [defineGsplat, defineGsplatNormal];\n this.statements = ({ inputs, outputs }) => [\n `${outputs.normal} = gsplatNormal(${inputs.a}.scales, ${inputs.a}.quaternion);`,\n ];\n }\n}\n\nexport class TransformGsplat\n extends Dyno<\n {\n gsplat: typeof Gsplat;\n scale: \"float\";\n rotate: \"vec4\";\n translate: \"vec3\";\n recolor: \"vec4\";\n },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n gsplat,\n scale,\n rotate,\n translate,\n recolor,\n }: {\n gsplat?: DynoVal;\n scale?: DynoVal<\"float\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n recolor?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: {\n gsplat: Gsplat,\n scale: \"float\",\n rotate: \"vec4\",\n translate: \"vec3\",\n recolor: \"vec4\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: { gsplat, scale, rotate, translate, recolor },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs, compile }) => {\n const { gsplat } = outputs;\n if (!gsplat || !inputs.gsplat) {\n return [];\n }\n const { scale, rotate, translate, recolor } = inputs;\n const indent = compile.indent;\n const statements = [\n `${gsplat} = ${inputs.gsplat};`,\n `if (isGsplatActive(${gsplat}.flags)) {`,\n\n scale ? `${indent}${gsplat}.center *= ${scale};` : null,\n rotate\n ? `${indent}${gsplat}.center = quatVec(${rotate}, ${gsplat}.center);`\n : null,\n translate ? `${indent}${gsplat}.center += ${translate};` : null,\n\n scale ? `${indent}${gsplat}.scales *= ${scale};` : null,\n\n rotate\n ? `${indent}${gsplat}.quaternion = quatQuat(${rotate}, ${gsplat}.quaternion);`\n : null,\n recolor ? `${indent}${gsplat}.rgba *= ${recolor};` : null,\n \"}\",\n ].filter(Boolean) as string[];\n return statements;\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport const splitCovSplat = (covsplat: DynoVal) =>\n new SplitCovSplat({ covsplat });\nexport const combineCovSplat = ({\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n}: {\n covsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n}): DynoVal => {\n return new CombineCovSplat({\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n });\n};\n\nexport class SplitCovSplat extends Dyno<\n { covsplat: typeof CovSplat },\n {\n flags: \"uint\";\n active: \"bool\";\n index: \"int\";\n center: \"vec3\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n }\n> {\n constructor({ covsplat }: { covsplat?: DynoVal }) {\n super({\n inTypes: { covsplat: CovSplat },\n outTypes: {\n flags: \"uint\",\n active: \"bool\",\n index: \"int\",\n center: \"vec3\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n inputs: { covsplat },\n globals: () => [defineCovSplat],\n statements: ({ inputs, outputs }) => {\n const { covsplat } = inputs;\n const {\n flags,\n active,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = outputs;\n return [\n !flags\n ? null\n : `${flags} = ${covsplat ? `${covsplat}.flags` : \"0u\"};`,\n !active\n ? null\n : `${active} = isCovSplatActive(${covsplat ? `${covsplat}.flags` : \"0u\"});`,\n !index ? null : `${index} = ${covsplat ? `${covsplat}.index` : \"0\"};`,\n !center\n ? null\n : `${center} = ${covsplat ? `${covsplat}.center` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !rgba\n ? null\n : `${rgba} = ${covsplat ? `${covsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\"};`,\n !rgb\n ? null\n : `${rgb} = ${covsplat ? `${covsplat}.rgba.rgb` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !opacity\n ? null\n : `${opacity} = ${covsplat ? `${covsplat}.rgba.a` : \"0.0\"};`,\n !x ? null : `${x} = ${covsplat ? `${covsplat}.center.x` : \"0.0\"};`,\n !y ? null : `${y} = ${covsplat ? `${covsplat}.center.y` : \"0.0\"};`,\n !z ? null : `${z} = ${covsplat ? `${covsplat}.center.z` : \"0.0\"};`,\n !r ? null : `${r} = ${covsplat ? `${covsplat}.rgba.r` : \"0.0\"};`,\n !g ? null : `${g} = ${covsplat ? `${covsplat}.rgba.g` : \"0.0\"};`,\n !b ? null : `${b} = ${covsplat ? `${covsplat}.rgba.b` : \"0.0\"};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class CombineCovSplat\n extends Dyno<\n {\n covsplat: typeof CovSplat;\n flags: \"uint\";\n index: \"int\";\n center: \"vec3\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n },\n { covsplat: typeof CovSplat }\n >\n implements HasDynoOut\n{\n constructor({\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n }: {\n covsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n }) {\n super({\n inTypes: {\n covsplat: CovSplat,\n flags: \"uint\",\n index: \"int\",\n center: \"vec3\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n outTypes: { covsplat: CovSplat },\n inputs: {\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n },\n globals: () => [defineCovSplat],\n statements: ({ inputs, outputs }) => {\n const { covsplat: outCovSplat } = outputs;\n if (!outCovSplat) {\n return [];\n }\n const {\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = inputs;\n return [\n `${outCovSplat}.flags = ${flags ?? (covsplat ? `${covsplat}.flags` : \"0u\")};`,\n `${outCovSplat}.index = ${index ?? (covsplat ? `${covsplat}.index` : \"0\")};`,\n `${outCovSplat}.center = ${center ?? (covsplat ? `${covsplat}.center` : \"vec3(0.0, 0.0, 0.0)\")};`,\n `${outCovSplat}.rgba = ${rgba ?? (covsplat ? `${covsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\")};`,\n !rgb ? null : `${outCovSplat}.rgba.rgb = ${rgb};`,\n !opacity ? null : `${outCovSplat}.rgba.a = ${opacity};`,\n !x ? null : `${outCovSplat}.center.x = ${x};`,\n !y ? null : `${outCovSplat}.center.y = ${y};`,\n !z ? null : `${outCovSplat}.center.z = ${z};`,\n !r ? null : `${outCovSplat}.rgba.r = ${r};`,\n !g ? null : `${outCovSplat}.rgba.g = ${g};`,\n !b ? null : `${outCovSplat}.rgba.b = ${b};`,\n `${outCovSplat}.xxyyzz = ${covsplat ? `${covsplat}.xxyyzz` : \"vec3(0.0, 0.0, 0.0)\"};`,\n `${outCovSplat}.xyxzyz = ${covsplat ? `${covsplat}.xyxzyz` : \"vec3(0.0, 0.0, 0.0)\"};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"covsplat\");\n }\n}\n\nexport class SplatTexCoord\n extends Dyno<{ index: \"int\" }, { coord: \"ivec3\" }>\n implements HasDynoOut<\"ivec3\">\n{\n constructor({ index }: { index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { index: \"int\" },\n outTypes: { coord: \"ivec3\" },\n inputs: { index },\n statements: ({ inputs, outputs }) => {\n const { index } = inputs;\n const { coord } = outputs;\n if (!index || !coord) {\n return [];\n }\n return [`${coord} = splatTexCoord(${index});`];\n },\n });\n }\n\n dynoOut(): DynoValue<\"ivec3\"> {\n return new DynoOutput(this, \"coord\");\n }\n}\n\nexport class PagedSplatTexCoord\n extends Dyno<{ index: \"int\" }, { coord: \"ivec3\" }>\n implements HasDynoOut<\"ivec3\">\n{\n constructor({ index }: { index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { index: \"int\" },\n outTypes: { coord: \"ivec3\" },\n inputs: { index },\n statements: ({ inputs, outputs }) => {\n const { index } = inputs;\n const { coord } = outputs;\n if (!index || !coord) {\n return [];\n }\n return [`${coord} = pagedSplatTexCoord(${index});`];\n },\n });\n }\n\n dynoOut(): DynoValue<\"ivec3\"> {\n return new DynoOutput(this, \"coord\");\n }\n}\n","import * as THREE from \"three\";\nimport { Dyno, unindentLines } from \"./base\";\nimport { CovSplat, Gsplat, defineCovSplat, defineGsplat } from \"./splats\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n} from \"./value\";\n\nexport const outputPackedSplat = (\n gsplat: DynoVal,\n rgbMinMaxLnScaleMinMax: DynoVal<\"vec4\">,\n) => new OutputPackedSplat({ gsplat, rgbMinMaxLnScaleMinMax });\n\nexport const outputCovSplat = (\n covsplat: DynoVal,\n rgbMinMaxLnScaleMinMax: DynoVal<\"vec4\">,\n) => new OutputCovSplat({ covsplat, rgbMinMaxLnScaleMinMax });\n\nexport const outputExtendedSplat = (gsplat: DynoVal) =>\n new OutputExtendedSplat({ gsplat });\n\nexport const outputExtCovSplat = (covsplat: DynoVal) =>\n new OutputExtCovSplat({ covsplat });\n\nexport const outputSplatDepth = (\n gsplat: DynoVal,\n viewCenter: DynoVal<\"vec3\">,\n viewDir: DynoVal<\"vec3\">,\n sortRadial: DynoVal<\"bool\">,\n) => new OutputSplatDepth({ gsplat, viewCenter, viewDir, sortRadial });\n\nexport const outputCovSplatDepth = (\n covsplat: DynoVal,\n viewCenter: DynoVal<\"vec3\">,\n viewDir: DynoVal<\"vec3\">,\n sortRadial: DynoVal<\"bool\">,\n) => new OutputCovSplatDepth({ covsplat, viewCenter, viewDir, sortRadial });\n\nexport const outputRgba8 = (rgba8: DynoVal<\"vec4\">) =>\n new OutputRgba8({ rgba8 });\n\nexport class OutputPackedSplat extends Dyno<\n { gsplat: typeof Gsplat; rgbMinMaxLnScaleMinMax: \"vec4\" },\n Record\n> {\n constructor({\n gsplat,\n rgbMinMaxLnScaleMinMax,\n }: {\n gsplat?: DynoVal;\n rgbMinMaxLnScaleMinMax?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: { gsplat: Gsplat, rgbMinMaxLnScaleMinMax: \"vec4\" },\n inputs: { gsplat, rgbMinMaxLnScaleMinMax },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat, rgbMinMaxLnScaleMinMax } = inputs;\n if (gsplat && rgbMinMaxLnScaleMinMax) {\n return unindentLines(`\n if (isGsplatActive(${gsplat}.flags)) {\n target = packSplatEncoding(${gsplat}.center, ${gsplat}.scales, ${gsplat}.quaternion, ${gsplat}.rgba, ${rgbMinMaxLnScaleMinMax});\n } else {\n target = uvec4(0u, 0u, 0u, 0u);\n }\n `);\n }\n return [\"target = uvec4(0u, 0u, 0u, 0u);\"];\n },\n });\n }\n}\n\nexport class OutputCovSplat extends Dyno<\n { covsplat: typeof CovSplat; rgbMinMaxLnScaleMinMax: \"vec4\" },\n Record\n> {\n constructor({\n covsplat,\n rgbMinMaxLnScaleMinMax,\n }: {\n covsplat?: DynoVal;\n rgbMinMaxLnScaleMinMax?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: { covsplat: CovSplat, rgbMinMaxLnScaleMinMax: \"vec4\" },\n inputs: { covsplat, rgbMinMaxLnScaleMinMax },\n globals: () => [defineCovSplat],\n statements: ({ inputs }) => {\n const { covsplat, rgbMinMaxLnScaleMinMax } = inputs;\n if (covsplat && rgbMinMaxLnScaleMinMax) {\n return unindentLines(`\n if (isCovSplatActive(${covsplat}.flags)) {\n target = packSplatCovEncoding(${covsplat}.center, ${covsplat}.rgba, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz, ${rgbMinMaxLnScaleMinMax});\n } else {\n target = uvec4(0u);\n }\n `);\n }\n return [\"target = uvec4(0u);\"];\n },\n });\n }\n}\n\nexport class OutputExtendedSplat extends Dyno<\n { gsplat: typeof Gsplat },\n Record\n> {\n constructor({\n gsplat,\n }: {\n gsplat?: DynoVal;\n }) {\n super({\n inTypes: { gsplat: Gsplat },\n inputs: { gsplat },\n globals: () => [defineGsplat],\n statements: ({ inputs }) => {\n const { gsplat } = inputs;\n if (gsplat) {\n return unindentLines(`\n if (isGsplatActive(${gsplat}.flags)) {\n packSplatExt(target, target2, ${gsplat}.center, ${gsplat}.scales, ${gsplat}.quaternion, ${gsplat}.rgba);\n } else {\n target = uvec4(0u);\n target2 = uvec4(0u);\n }\n `);\n }\n return [\"target = uvec4(0u);\", \"target2 = uvec4(0u);\"];\n },\n });\n }\n}\n\nexport class OutputExtCovSplat extends Dyno<\n { covsplat: typeof CovSplat },\n Record\n> {\n constructor({\n covsplat,\n }: {\n covsplat?: DynoVal;\n }) {\n super({\n inTypes: { covsplat: CovSplat },\n inputs: { covsplat },\n globals: () => [defineCovSplat],\n statements: ({ inputs }) => {\n const { covsplat } = inputs;\n if (covsplat) {\n return unindentLines(`\n if (isCovSplatActive(${covsplat}.flags)) {\n packSplatExtCov(target, target2, ${covsplat}.center, ${covsplat}.rgba, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz);\n } else {\n target = uvec4(0u);\n target2 = uvec4(0u);\n }\n `);\n }\n return [\"target = uvec4(0u);\", \"target2 = uvec4(0u);\"];\n },\n });\n }\n}\n\nclass OutputSplatDepth extends Dyno<\n {\n gsplat: typeof Gsplat;\n viewCenter: \"vec3\";\n viewDir: \"vec3\";\n sortRadial: \"bool\";\n },\n Record\n> {\n constructor({\n gsplat,\n viewCenter,\n viewDir,\n sortRadial,\n }: {\n gsplat: DynoVal;\n viewCenter: DynoVal<\"vec3\">;\n viewDir: DynoVal<\"vec3\">;\n sortRadial: DynoVal<\"bool\">;\n }) {\n super({\n inTypes: {\n gsplat: Gsplat,\n viewCenter: \"vec3\",\n viewDir: \"vec3\",\n sortRadial: \"bool\",\n },\n inputs: { gsplat, viewCenter, viewDir, sortRadial },\n globals: () => [defineGsplat],\n statements: ({ inputs }) => {\n const { gsplat, viewCenter, viewDir, sortRadial } = inputs;\n if (gsplat && viewCenter && viewDir && sortRadial) {\n return unindentLines(`\n float metric = 1.0 / 0.0;\n if (isGsplatActive(${gsplat}.flags)) {\n vec3 center = ${gsplat}.center - ${viewCenter};\n if (${sortRadial}) {\n metric = length(center);\n } else {\n float bias = 100.0; // reduce popping\n metric = dot(center, ${viewDir}) + bias;\n }\n }\n target3 = floatToVec4(metric);\n `);\n }\n return [];\n },\n });\n }\n}\n\nclass OutputCovSplatDepth extends Dyno<\n {\n covsplat: typeof CovSplat;\n viewCenter: \"vec3\";\n viewDir: \"vec3\";\n sortRadial: \"bool\";\n },\n Record\n> {\n constructor({\n covsplat,\n viewCenter,\n viewDir,\n sortRadial,\n }: {\n covsplat: DynoVal;\n viewCenter: DynoVal<\"vec3\">;\n viewDir: DynoVal<\"vec3\">;\n sortRadial: DynoVal<\"bool\">;\n }) {\n super({\n inTypes: {\n covsplat: CovSplat,\n viewCenter: \"vec3\",\n viewDir: \"vec3\",\n sortRadial: \"bool\",\n },\n inputs: { covsplat, viewCenter, viewDir, sortRadial },\n globals: () => [defineCovSplat],\n statements: ({ inputs }) => {\n const { covsplat, viewCenter, viewDir, sortRadial } = inputs;\n if (covsplat && viewCenter && viewDir && sortRadial) {\n return unindentLines(`\n float metric = 1.0 / 0.0;\n if (isCovSplatActive(${covsplat}.flags)) {\n vec3 center = ${covsplat}.center - ${viewCenter};\n if (${sortRadial}) {\n metric = length(center);\n } else {\n float bias = 100.0; // reduce popping\n metric = dot(center, ${viewDir}) + bias;\n }\n }\n target3 = floatToVec4(metric);\n `);\n }\n return [];\n },\n });\n }\n}\n\nexport class OutputRgba8\n extends Dyno<{ rgba8: \"vec4\" }, { rgba8: \"vec4\" }>\n implements HasDynoOut<\"vec4\">\n{\n constructor({ rgba8 }: { rgba8?: DynoVal<\"vec4\"> }) {\n super({\n inTypes: { rgba8: \"vec4\" },\n inputs: { rgba8 },\n statements: ({ inputs, outputs }) => [\n `target = ${inputs.rgba8 ?? \"vec4(0.0, 0.0, 0.0, 0.0)\"};`,\n ],\n });\n }\n\n dynoOut(): DynoValue<\"vec4\"> {\n return new DynoOutput(this, \"rgba8\");\n }\n}\n","import type { IUniform } from \"three\";\nimport { Dyno, dynoDeclare } from \"./base\";\nimport type { DynoJsType, DynoType } from \"./types\";\nimport { DynoOutput, type DynoValue, type HasDynoOut } from \"./value\";\n\nexport const uniform = >(\n key: string,\n type: DynoType,\n value: V,\n) => new DynoUniform({ key, type, value });\nexport const dynoBool = (value = false, key?: string) =>\n new DynoBool({ key, value });\nexport const dynoUint = (value = 0, key?: string) =>\n new DynoUint({ key, value });\nexport const dynoInt = (value = 0, key?: string) => new DynoInt({ key, value });\nexport const dynoFloat = (value = 0.0, key?: string) =>\n new DynoFloat({ key, value });\n\nexport const dynoBvec2 = >(\n value: V,\n key?: string,\n) => new DynoBvec2({ key, value });\nexport const dynoUvec2 = >(\n value: V,\n key?: string,\n) => new DynoUvec2({ key, value });\nexport const dynoIvec2 = >(\n value: V,\n key?: string,\n) => new DynoIvec2({ key, value });\nexport const dynoVec2 = >(\n value: V,\n key?: string,\n) => new DynoVec2({ key, value });\n\nexport const dynoBvec3 = >(\n value: V,\n key?: string,\n) => new DynoBvec3({ key, value });\nexport const dynoUvec3 = >(\n value: V,\n key?: string,\n) => new DynoUvec3({ key, value });\nexport const dynoIvec3 = >(\n value: V,\n key?: string,\n) => new DynoIvec3({ key, value });\nexport const dynoVec3 = >(\n value: V,\n key?: string,\n) => new DynoVec3({ key, value });\n\nexport const dynoBvec4 = >(\n value: V,\n key?: string,\n) => new DynoBvec4({ key, value });\nexport const dynoUvec4 = >(\n value: V,\n key?: string,\n) => new DynoUvec4({ key, value });\nexport const dynoIvec4 = >(\n value: V,\n key?: string,\n) => new DynoIvec4({ key, value });\nexport const dynoVec4 = >(\n value: V,\n key?: string,\n) => new DynoVec4({ key, value });\n\nexport const dynoMat2 = >(\n value: V,\n key?: string,\n) => new DynoMat2({ key, value });\nexport const dynoMat2x2 = >(\n value: V,\n key?: string,\n) => new DynoMat2x2({ key, value });\nexport const dynoMat2x3 = >(\n value: V,\n key?: string,\n) => new DynoMat2x3({ key, value });\nexport const dynoMat2x4 = >(\n value: V,\n key?: string,\n) => new DynoMat2x4({ key, value });\n\nexport const dynoMat3 = >(\n value: V,\n key?: string,\n) => new DynoMat3({ key, value });\nexport const dynoMat3x2 = >(\n value: V,\n key?: string,\n) => new DynoMat3x2({ key, value });\nexport const dynoMat3x3 = >(\n value: V,\n key?: string,\n) => new DynoMat3x3({ key, value });\nexport const dynoMat3x4 = >(\n value: V,\n key?: string,\n) => new DynoMat3x4({ key, value });\n\nexport const dynoMat4 = >(\n value: V,\n key?: string,\n) => new DynoMat4({ key, value });\nexport const dynoMat4x2 = >(\n value: V,\n key?: string,\n) => new DynoMat4x2({ key, value });\nexport const dynoMat4x3 = >(\n value: V,\n key?: string,\n) => new DynoMat4x3({ key, value });\nexport const dynoMat4x4 = >(\n value: V,\n key?: string,\n) => new DynoMat4x4({ key, value });\n\nexport const dynoUsampler2D = >(\n value: V,\n key?: string,\n) => new DynoUsampler2D({ key, value });\nexport const dynoIsampler2D = >(\n value: V,\n key?: string,\n) => new DynoIsampler2D({ key, value });\nexport const dynoSampler2D = >(\n value: V,\n key?: string,\n) => new DynoSampler2D({ key, value });\n\nexport const dynoUsampler2DArray = >(\n value: V,\n key?: string,\n) => new DynoUsampler2DArray({ key, value });\nexport const dynoIsampler2DArray = >(\n key: string,\n value: V,\n) => new DynoIsampler2DArray({ key, value });\nexport const dynoSampler2DArray = >(\n value: V,\n key?: string,\n) => new DynoSampler2DArray({ key, value });\n\nexport const dynoUsampler3D = >(\n value: V,\n key?: string,\n) => new DynoUsampler3D({ key, value });\nexport const dynoIsampler3D = >(\n value: V,\n key?: string,\n) => new DynoIsampler3D({ key, value });\nexport const dynoSampler3D = >(\n value: V,\n key?: string,\n) => new DynoSampler3D({ key, value });\n\nexport const dynoUsamplerCube = >(\n value: V,\n key?: string,\n) => new DynoUsamplerCube({ key, value });\nexport const dynoIsamplerCube = >(\n value: V,\n key?: string,\n) => new DynoIsamplerCube({ key, value });\nexport const dynoSamplerCube = >(\n value: V,\n key?: string,\n) => new DynoSamplerCube({ key, value });\n\nexport const dynoSampler2DShadow = >(\n value: V,\n key?: string,\n) => new DynoSampler2DShadow({ key, value });\nexport const dynoSampler2DArrayShadow = <\n V extends DynoJsType<\"sampler2DArrayShadow\">,\n>(\n value: V,\n key?: string,\n) => new DynoSampler2DArrayShadow({ key, value });\nexport const dynoSamplerCubeShadow = <\n V extends DynoJsType<\"samplerCubeShadow\">,\n>(\n value: V,\n key?: string,\n) => new DynoSamplerCubeShadow({ key, value });\n\nexport class DynoUniform<\n T extends DynoType,\n K extends string = \"value\",\n V extends DynoJsType = DynoJsType,\n >\n extends Dyno, { [key in K]: T }>\n implements HasDynoOut\n{\n public type: T;\n public count?: number;\n public outKey: K;\n public value: V;\n public uniform: { value: V; type?: string };\n\n constructor({\n key,\n type,\n count,\n value,\n update,\n globals,\n }: {\n key?: K;\n type: T;\n count?: number;\n value: V;\n update?: (value: V) => V | undefined;\n globals?: ({\n inputs,\n outputs,\n }: { inputs: unknown; outputs: { [key in K]?: string } }) => string[];\n }) {\n key = (key ?? \"value\") as K;\n super({\n outTypes: { [key]: type } as { [key in K]: T },\n update: () => {\n if (update) {\n const value = update(this.value);\n if (value !== undefined) {\n this.value = value;\n }\n }\n this.uniform.value = this.value;\n },\n generate: ({ inputs, outputs }) => {\n const allGlobals = globals?.({ inputs, outputs }) ?? [];\n const uniforms: Record = {};\n const name = outputs[key];\n if (name) {\n allGlobals.push(`uniform ${dynoDeclare(name, type, count)};`);\n uniforms[name] = this.uniform;\n }\n return { globals: allGlobals, uniforms };\n },\n });\n this.type = type;\n this.count = count;\n this.value = value;\n this.uniform = { value };\n this.outKey = key;\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class DynoBool extends DynoUniform<\n \"bool\",\n K,\n boolean\n> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: boolean;\n update?: (value: boolean) => boolean | undefined;\n }) {\n super({ key, type: \"bool\", value, update });\n }\n}\n\nexport class DynoUint extends DynoUniform<\"uint\", K, number> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: number;\n update?: (value: number) => number | undefined;\n }) {\n super({ key, type: \"uint\", value, update });\n }\n}\n\nexport class DynoInt extends DynoUniform<\"int\", K, number> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: number;\n update?: (value: number) => number | undefined;\n }) {\n super({ key, type: \"int\", value, update });\n }\n}\n\nexport class DynoFloat extends DynoUniform<\n \"float\",\n K,\n number\n> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: number;\n update?: (value: number) => number | undefined;\n }) {\n super({ key, type: \"float\", value, update });\n }\n}\n\nexport class DynoBvec2<\n K extends string,\n V extends DynoJsType<\"bvec2\">,\n> extends DynoUniform<\"bvec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"bvec2\", value, update });\n }\n}\n\nexport class DynoUvec2<\n K extends string,\n V extends DynoJsType<\"uvec2\">,\n> extends DynoUniform<\"uvec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"uvec2\", value, update });\n }\n}\n\nexport class DynoIvec2<\n K extends string,\n V extends DynoJsType<\"ivec2\">,\n> extends DynoUniform<\"ivec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"ivec2\", value, update });\n }\n}\n\nexport class DynoVec2<\n K extends string,\n V extends DynoJsType<\"vec2\">,\n> extends DynoUniform<\"vec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"vec2\", value, update });\n }\n}\n\nexport class DynoBvec3<\n K extends string,\n V extends DynoJsType<\"bvec3\">,\n> extends DynoUniform<\"bvec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"bvec3\", value, update });\n }\n}\n\nexport class DynoUvec3<\n V extends DynoJsType<\"uvec3\">,\n K extends string = \"value\",\n> extends DynoUniform<\"uvec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"uvec3\", value, update });\n }\n}\n\nexport class DynoIvec3<\n V extends DynoJsType<\"ivec3\">,\n K extends string = \"value\",\n> extends DynoUniform<\"ivec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"ivec3\", value, update });\n }\n}\n\nexport class DynoVec3<\n V extends DynoJsType<\"vec3\">,\n K extends string = \"value\",\n> extends DynoUniform<\"vec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"vec3\", value, update });\n }\n}\n\nexport class DynoBvec4<\n K extends string,\n V extends DynoJsType<\"bvec4\">,\n> extends DynoUniform<\"bvec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"bvec4\", value, update });\n }\n}\n\nexport class DynoUvec4<\n K extends string,\n V extends DynoJsType<\"uvec4\">,\n> extends DynoUniform<\"uvec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"uvec4\", value, update });\n }\n}\n\nexport class DynoIvec4<\n K extends string,\n V extends DynoJsType<\"ivec4\">,\n> extends DynoUniform<\"ivec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"ivec4\", value, update });\n }\n}\n\nexport class DynoVec4<\n V extends DynoJsType<\"vec4\">,\n K extends string = \"value\",\n> extends DynoUniform<\"vec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"vec4\", value, update });\n }\n}\n\nexport class DynoMat2<\n K extends string,\n V extends DynoJsType<\"mat2\">,\n> extends DynoUniform<\"mat2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2\", value, update });\n }\n}\n\nexport class DynoMat2x2<\n K extends string,\n V extends DynoJsType<\"mat2x2\">,\n> extends DynoUniform<\"mat2x2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2x2\", value, update });\n }\n}\n\nexport class DynoMat2x3<\n K extends string,\n V extends DynoJsType<\"mat2x3\">,\n> extends DynoUniform<\"mat2x3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2x3\", value, update });\n }\n}\n\nexport class DynoMat2x4<\n K extends string,\n V extends DynoJsType<\"mat2x4\">,\n> extends DynoUniform<\"mat2x4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2x4\", value, update });\n }\n}\n\nexport class DynoMat3<\n K extends string,\n V extends DynoJsType<\"mat3\">,\n> extends DynoUniform<\"mat3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3\", value, update });\n }\n}\n\nexport class DynoMat3x2<\n K extends string,\n V extends DynoJsType<\"mat3x2\">,\n> extends DynoUniform<\"mat3x2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3x2\", value, update });\n }\n}\n\nexport class DynoMat3x3<\n K extends string,\n V extends DynoJsType<\"mat3x3\">,\n> extends DynoUniform<\"mat3x3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3x3\", value, update });\n }\n}\n\nexport class DynoMat3x4<\n K extends string,\n V extends DynoJsType<\"mat3x4\">,\n> extends DynoUniform<\"mat3x4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3x4\", value, update });\n }\n}\n\nexport class DynoMat4<\n K extends string,\n V extends DynoJsType<\"mat4\">,\n> extends DynoUniform<\"mat4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4\", value, update });\n }\n}\n\nexport class DynoMat4x2<\n K extends string,\n V extends DynoJsType<\"mat4x2\">,\n> extends DynoUniform<\"mat4x2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4x2\", value, update });\n }\n}\n\nexport class DynoMat4x3<\n K extends string,\n V extends DynoJsType<\"mat4x3\">,\n> extends DynoUniform<\"mat4x3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4x3\", value, update });\n }\n}\n\nexport class DynoMat4x4<\n K extends string,\n V extends DynoJsType<\"mat4x4\">,\n> extends DynoUniform<\"mat4x4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4x4\", value, update });\n }\n}\n\nexport class DynoUsampler2D<\n K extends string,\n V extends DynoJsType<\"usampler2D\">,\n> extends DynoUniform<\"usampler2D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usampler2D\", value, update });\n }\n}\n\nexport class DynoIsampler2D<\n K extends string,\n V extends DynoJsType<\"isampler2D\">,\n> extends DynoUniform<\"isampler2D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isampler2D\", value, update });\n }\n}\n\nexport class DynoSampler2D<\n K extends string,\n V extends DynoJsType<\"sampler2D\">,\n> extends DynoUniform<\"sampler2D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2D\", value, update });\n }\n}\n\nexport class DynoUsampler2DArray<\n K extends string,\n V extends DynoJsType<\"usampler2DArray\">,\n> extends DynoUniform<\"usampler2DArray\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usampler2DArray\", value, update });\n }\n}\n\nexport class DynoIsampler2DArray<\n K extends string,\n V extends DynoJsType<\"isampler2DArray\">,\n> extends DynoUniform<\"isampler2DArray\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isampler2DArray\", value, update });\n }\n}\n\nexport class DynoSampler2DArray<\n K extends string,\n V extends DynoJsType<\"sampler2DArray\">,\n> extends DynoUniform<\"sampler2DArray\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2DArray\", value, update });\n }\n}\n\nexport class DynoUsampler3D<\n K extends string,\n V extends DynoJsType<\"usampler3D\">,\n> extends DynoUniform<\"usampler3D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usampler3D\", value, update });\n }\n}\n\nexport class DynoIsampler3D<\n K extends string,\n V extends DynoJsType<\"isampler3D\">,\n> extends DynoUniform<\"isampler3D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isampler3D\", value, update });\n }\n}\n\nexport class DynoSampler3D<\n K extends string,\n V extends DynoJsType<\"sampler3D\">,\n> extends DynoUniform<\"sampler3D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler3D\", value, update });\n }\n}\n\nexport class DynoUsamplerCube<\n K extends string,\n V extends DynoJsType<\"usamplerCube\">,\n> extends DynoUniform<\"usamplerCube\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usamplerCube\", value, update });\n }\n}\n\nexport class DynoIsamplerCube<\n K extends string,\n V extends DynoJsType<\"isamplerCube\">,\n> extends DynoUniform<\"isamplerCube\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isamplerCube\", value, update });\n }\n}\n\nexport class DynoSamplerCube<\n K extends string,\n V extends DynoJsType<\"samplerCube\">,\n> extends DynoUniform<\"samplerCube\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"samplerCube\", value, update });\n }\n}\n\nexport class DynoSampler2DShadow<\n K extends string,\n V extends DynoJsType<\"sampler2DShadow\">,\n> extends DynoUniform<\"sampler2DShadow\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2DShadow\", value, update });\n }\n}\n\nexport class DynoSampler2DArrayShadow<\n K extends string,\n V extends DynoJsType<\"sampler2DArrayShadow\">,\n> extends DynoUniform<\"sampler2DArrayShadow\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2DArrayShadow\", value, update });\n }\n}\n\nexport class DynoSamplerCubeShadow<\n K extends string,\n V extends DynoJsType<\"samplerCubeShadow\">,\n> extends DynoUniform<\"samplerCubeShadow\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"samplerCubeShadow\", value, update });\n }\n}\n","import * as THREE from \"three\";\n\nimport { IDENT_VERTEX_SHADER } from \"../utils\";\nimport { Compilation, type Dyno, type IOTypes } from \"./base\";\n\nexport class DynoProgram {\n graph: Dyno;\n template: DynoProgramTemplate;\n inputs: Record;\n outputs: Record;\n shader: string;\n uniforms: Record;\n updaters: (() => void)[];\n\n constructor({\n graph,\n inputs,\n outputs,\n template,\n consoleLog,\n }: {\n graph: Dyno;\n inputs?: Record;\n outputs?: Record;\n template: DynoProgramTemplate;\n consoleLog?: boolean;\n }) {\n this.graph = graph;\n this.template = template;\n this.inputs = inputs ?? {};\n this.outputs = outputs ?? {};\n\n const compile = new Compilation({ indent: this.template.indent });\n for (const key in this.outputs) {\n if (this.outputs[key]) {\n compile.declares.add(this.outputs[key]);\n }\n }\n const statements = graph.compile({\n inputs: this.inputs,\n outputs: this.outputs,\n compile,\n });\n\n this.shader = template.generate({ globals: compile.globals, statements });\n this.uniforms = compile.uniforms;\n this.updaters = compile.updaters;\n if (consoleLog) {\n console.log(\"*** COMPILED SHADER\", this.shader);\n console.log(\"*** UNIFORMS\", this.uniforms);\n }\n }\n\n prepareMaterial(): THREE.RawShaderMaterial {\n return getMaterial(this);\n }\n\n update() {\n for (const updater of this.updaters) {\n updater();\n }\n }\n}\n\nexport class DynoProgramTemplate {\n before: string;\n between: string;\n after: string;\n indent: string;\n\n constructor(template: string) {\n const globals = template.match(/^([ \\t]*)\\{\\{\\s*GLOBALS\\s*\\}\\}/m);\n const statements = template.match(/^([ \\t]*)\\{\\{\\s*STATEMENTS\\s*\\}\\}/m);\n if (!globals || !statements) {\n throw new Error(\n \"Template must contain {{ GLOBALS }} and {{ STATEMENTS }}\",\n );\n }\n\n this.before = template.substring(0, globals.index);\n this.between = template.substring(\n (globals.index as number) + globals[0].length,\n statements.index,\n );\n this.after = template.substring(\n (statements.index as number) + statements[0].length,\n );\n this.indent = statements[1];\n }\n\n generate({\n globals,\n statements,\n }: { globals: Set; statements: string[] }): string {\n return (\n this.before +\n Array.from(globals).join(\"\\n\\n\") +\n this.between +\n statements.map((s) => this.indent + s).join(\"\\n\") +\n this.after\n );\n }\n}\n\nconst programMaterial = new WeakMap();\n\nfunction getMaterial(program: DynoProgram): THREE.RawShaderMaterial {\n let material = programMaterial.get(program);\n if (material) {\n return material;\n }\n\n material = new THREE.RawShaderMaterial({\n glslVersion: THREE.GLSL3,\n vertexShader: IDENT_VERTEX_SHADER,\n fragmentShader: program.shader,\n uniforms: program.uniforms,\n });\n programMaterial.set(program, material);\n return material;\n}\n","import {\n type AllFloatTypes,\n type AllIntTypes,\n type AllSignedTypes,\n type AllValueTypes,\n type BaseType,\n type BoolTypes,\n type FloatTypes,\n type IntTypes,\n type SignedTypes,\n type UintTypes,\n type ValueTypes,\n isAllFloatType,\n isFloatType,\n isIntType,\n isMat2,\n isMat3,\n isMat4,\n isUintType,\n} from \"./types\";\n\nexport type AddOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = BaseType &\n (A extends B\n ? A\n : A extends \"int\"\n ? B extends IntTypes\n ? B\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : A extends \"uint\"\n ? B extends UintTypes\n ? B\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : A extends \"float\"\n ? B extends AllFloatTypes\n ? B\n : never\n : B extends \"float\"\n ? A extends AllFloatTypes\n ? A\n : never\n : never);\n\nexport type SubOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = AddOutput;\n\nexport type MulOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = BaseType &\n (A extends \"int\"\n ? B extends IntTypes\n ? B\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : A extends \"uint\"\n ? B extends UintTypes\n ? B\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : A extends \"float\"\n ? B extends AllFloatTypes\n ? B\n : never\n : B extends \"float\"\n ? A extends AllFloatTypes\n ? A\n : never\n : A extends IntTypes\n ? B extends A\n ? A\n : never\n : B extends IntTypes\n ? A extends B\n ? A\n : never\n : A extends UintTypes\n ? B extends A\n ? A\n : never\n : B extends UintTypes\n ? A extends B\n ? A\n : never\n : // Vector * Matrix/Vector\n A extends \"vec2\"\n ? B extends \"vec2\" | \"mat2\" | \"mat2x2\"\n ? \"vec2\"\n : B extends \"mat3x2\"\n ? \"vec3\"\n : B extends \"mat4x2\"\n ? \"vec4\"\n : never\n : A extends \"vec3\"\n ? B extends \"mat2x3\"\n ? \"vec2\"\n : B extends \"vec3\" | \"mat3\" | \"mat3x3\"\n ? \"vec3\"\n : B extends \"mat4x3\"\n ? \"vec4\"\n : never\n : A extends \"vec4\"\n ? B extends \"mat2x4\"\n ? \"vec2\"\n : B extends \"mat3x4\"\n ? \"vec3\"\n : B extends \"vec4\" | \"mat4\" | \"mat4x4\"\n ? \"vec4\"\n : never\n : // Matrix * Vector\n B extends \"vec2\"\n ? A extends \"mat2\" | \"mat2x2\"\n ? \"vec2\"\n : A extends \"mat2x3\"\n ? \"vec3\"\n : A extends \"mat2x4\"\n ? \"vec4\"\n : never\n : B extends \"vec3\"\n ? A extends \"mat3x2\"\n ? \"vec2\"\n : A extends \"mat3\" | \"mat3x3\"\n ? \"vec3\"\n : A extends \"mat3x4\"\n ? \"vec4\"\n : never\n : B extends \"vec4\"\n ? A extends \"mat4x2\"\n ? \"vec2\"\n : A extends \"mat4x3\"\n ? \"vec3\"\n : A extends \"mat4\" | \"mat4x4\"\n ? \"vec4\"\n : never\n : // Matrix * Matrix: mat{Acols}x{Arows} * mat{Bcols}x{Brows} => mat{Bcols}x{Arows}\n A extends \"mat2\" | \"mat2x2\" // Acols = 2 => Brows = 2\n ? B extends \"mat2\" | \"mat2x2\"\n ? \"mat2\"\n : B extends \"mat3x2\"\n ? \"mat3x2\"\n : B extends \"mat4x2\"\n ? \"mat4x2\"\n : never\n : A extends \"mat2x3\" // Acols = 2 => Brows = 2\n ? B extends \"mat2\" | \"mat2x2\"\n ? \"mat2x3\"\n : B extends \"mat3x2\"\n ? \"mat3\"\n : B extends \"mat4x2\"\n ? \"mat4x3\"\n : never\n : A extends \"mat2x4\" // Acols = 2 => Brows = 2\n ? B extends \"mat2\" | \"mat2x2\"\n ? \"mat2x4\"\n : B extends \"mat3x2\"\n ? \"mat3x4\"\n : B extends \"mat4x2\"\n ? \"mat4\"\n : never\n : A extends \"mat3x2\" // Acols = 3 => Brows = 3\n ? B extends \"mat2x3\"\n ? \"mat2\"\n : B extends \"mat3\" | \"mat3x3\"\n ? \"mat3x2\"\n : B extends \"mat4x3\"\n ? \"mat4x2\"\n : never\n : A extends \"mat3\" | \"mat3x3\" // Acols = 3 => Brows = 3\n ? B extends \"mat2x3\"\n ? \"mat2x3\"\n : B extends \"mat3\" | \"mat3x3\"\n ? \"mat3\"\n : B extends \"mat4x3\"\n ? \"mat4x3\"\n : never\n : A extends \"mat3x4\" // Acols = 3 => Brows = 3\n ? B extends \"mat2x3\"\n ? \"mat2x4\"\n : B extends \"mat3\" | \"mat3x3\"\n ? \"mat3x4\"\n : B extends \"mat4x3\"\n ? \"mat4\"\n : never\n : A extends \"mat4x2\" // Acols = 4 => Brows = 4\n ? B extends \"mat2x4\"\n ? \"mat2\"\n : B extends \"mat3x4\"\n ? \"mat3x2\"\n : B extends\n | \"mat4\"\n | \"mat4x4\"\n ? \"mat4x2\"\n : never\n : A extends \"mat4x3\" // Acols = 4 => Brows = 4\n ? B extends \"mat2x4\"\n ? \"mat2x3\"\n : B extends \"mat3x4\"\n ? \"mat3\"\n : B extends\n | \"mat4\"\n | \"mat4x4\"\n ? \"mat4x3\"\n : never\n : A extends \"mat4\" | \"mat4x4\" // Acols = 4 => Brows = 4\n ? B extends \"mat2x4\"\n ? \"mat2x4\"\n : B extends \"mat3x4\"\n ? \"mat3x4\"\n : B extends\n | \"mat4\"\n | \"mat4x4\"\n ? \"mat4\"\n : never\n : never);\n\nexport type DivOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = AddOutput;\n\nexport type IModOutput<\n A extends AllIntTypes,\n B extends AllIntTypes,\n> = BaseType &\n (A extends B\n ? A\n : A extends \"int\"\n ? B extends IntTypes\n ? B\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : A extends \"uint\"\n ? B extends UintTypes\n ? B\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : never);\n\nexport type ModOutput = BaseType &\n (A extends B ? A : B extends \"float\" ? A : never);\n\nexport type PowOutput = BaseType &\n (A extends B ? A : never);\n\nexport type MinOutput = BaseType &\n (A extends B\n ? A\n : B extends \"float\"\n ? A extends FloatTypes\n ? A\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : never);\nexport type MaxOutput = MinOutput<\n A,\n B\n>;\nexport type ClampOutput = BaseType &\n (B extends \"float\"\n ? A extends FloatTypes\n ? A\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : never);\nexport type MixOutput<\n A extends FloatTypes,\n T extends FloatTypes | BoolTypes,\n> = BaseType &\n (T extends A\n ? A\n : T extends \"float\"\n ? A\n : T extends \"bool\"\n ? A extends \"float\"\n ? A\n : never\n : T extends \"bvec2\"\n ? A extends \"vec2\"\n ? A\n : never\n : T extends \"bvec3\"\n ? A extends \"vec3\"\n ? A\n : never\n : T extends \"bvec4\"\n ? A extends \"vec4\"\n ? A\n : never\n : never);\nexport type StepOutput = BaseType &\n (A extends B ? B : A extends \"float\" ? B : never);\nexport type SmoothstepOutput<\n A extends FloatTypes,\n B extends FloatTypes,\n C extends FloatTypes,\n> = BaseType &\n (A extends B ? (A extends C ? C : A extends \"float\" ? C : never) : never);\n\nexport type IsNanOutput = BaseType &\n (A extends \"float\"\n ? \"bool\"\n : A extends \"vec2\"\n ? \"bvec2\"\n : A extends \"vec3\"\n ? \"bvec3\"\n : A extends \"vec4\"\n ? \"bvec4\"\n : never);\nexport type IsInfOutput = IsNanOutput;\n\n// // Run-time type helper functions\n\nexport function addOutputType(\n a: A,\n b: B,\n operation = \"add\",\n): AddOutput {\n const error = () => {\n throw new Error(`Invalid ${operation} types: ${a}, ${b}`);\n };\n // @ts-ignore\n if (a === b) return a as AddOutput;\n if (a === \"int\") {\n if (isIntType(b)) return b as AddOutput;\n error();\n }\n if (b === \"int\") {\n if (isIntType(a)) return a as AddOutput;\n error();\n }\n if (a === \"uint\") {\n if (isUintType(b)) return b as AddOutput;\n error();\n }\n if (b === \"uint\") {\n if (isUintType(a)) return a as AddOutput;\n error();\n }\n if (a === \"float\") {\n if (isAllFloatType(b)) return b as AddOutput;\n error();\n }\n if (b === \"float\") {\n if (isAllFloatType(a)) return a as AddOutput;\n error();\n }\n throw new Error(`Invalid ${operation} types: ${a}, ${b}`);\n}\n\nexport function subOutputType(\n a: A,\n b: B,\n): SubOutput {\n return addOutputType(a, b, \"sub\");\n}\n\nexport function mulOutputType(\n a: A,\n b: B,\n): MulOutput {\n const error = () => {\n throw new Error(`Invalid mul types: ${a}, ${b}`);\n };\n const result = (value: unknown) => value as MulOutput;\n if (a === \"int\") {\n if (isIntType(b)) return result(b);\n error();\n }\n if (b === \"int\") {\n if (isIntType(a)) return result(a);\n error();\n }\n if (a === \"uint\") {\n if (isUintType(b)) return result(b);\n error();\n }\n if (b === \"uint\") {\n if (isUintType(a)) return result(a);\n error();\n }\n if (a === \"float\") {\n if (isAllFloatType(b)) return result(b);\n error();\n }\n if (b === \"float\") {\n if (isAllFloatType(a)) return result(a);\n error();\n }\n if (isIntType(a) || isUintType(a) || isIntType(b) || isUintType(b)) {\n // @ts-ignore\n if (a === b) return result(a);\n error();\n }\n // Vector * Matrix/Vector\n if (a === \"vec2\") {\n if (b === \"vec2\" || isMat2(b)) return result(\"vec2\");\n if (b === \"mat3x2\") return result(\"vec3\");\n if (b === \"mat4x2\") return result(\"vec4\");\n error();\n }\n if (a === \"vec3\") {\n if (b === \"mat2x3\") return result(\"vec2\");\n if (b === \"vec3\" || isMat3(b)) return result(\"vec3\");\n if (b === \"mat4x3\") return result(\"vec4\");\n error();\n }\n if (a === \"vec4\") {\n if (b === \"mat2x4\") return result(\"vec2\");\n if (b === \"mat3x4\") return result(\"vec3\");\n if (b === \"vec4\" || isMat4(b)) return result(\"vec4\");\n error();\n }\n // Matrix * Vector\n if (b === \"vec2\") {\n if (isMat2(a)) return result(\"vec2\");\n if (a === \"mat2x3\") return result(\"vec3\");\n if (a === \"mat2x4\") return result(\"vec4\");\n error();\n }\n if (b === \"vec3\") {\n if (a === \"mat3x2\") return result(\"vec2\");\n if (isMat3(a)) return result(\"vec3\");\n if (a === \"mat3x4\") return result(\"vec4\");\n error();\n }\n if (b === \"vec4\") {\n if (a === \"mat4x2\") return result(\"vec2\");\n if (a === \"mat4x3\") return result(\"vec3\");\n if (isMat4(a)) return result(\"vec4\");\n error();\n }\n // Matrix * Matrix: mat{Acols}x{Arows} * mat{Bcols}x{Brows} => mat{Bcols}x{Arows}\n if (isMat2(a)) {\n if (isMat2(b)) return result(\"mat2\");\n if (b === \"mat3x2\") return result(\"mat3x2\");\n if (b === \"mat4x2\") return result(\"mat4x2\");\n error();\n }\n if (a === \"mat2x3\") {\n if (isMat2(b)) return result(\"mat2x3\");\n if (b === \"mat3x2\") return result(\"mat3\");\n if (b === \"mat4x2\") return result(\"mat4x3\");\n error();\n }\n if (a === \"mat2x4\") {\n if (isMat2(b)) return result(\"mat2x4\");\n if (b === \"mat3x2\") return result(\"mat3x4\");\n if (b === \"mat4x2\") return result(\"mat4\");\n error();\n }\n if (a === \"mat3x2\") {\n if (b === \"mat2x3\") return result(\"mat2\");\n if (isMat3(b)) return result(\"mat3x2\");\n if (b === \"mat4x3\") return result(\"mat4x2\");\n error();\n }\n if (isMat3(a)) {\n if (b === \"mat2x3\") return result(\"mat2x3\");\n if (isMat3(b)) return result(\"mat3\");\n if (b === \"mat4x3\") return result(\"mat4x3\");\n error();\n }\n if (a === \"mat3x4\") {\n if (b === \"mat2x3\") return result(\"mat2x4\");\n if (isMat3(b)) return result(\"mat3x4\");\n if (b === \"mat4x3\") return result(\"mat4\");\n error();\n }\n if (a === \"mat4x2\") {\n if (b === \"mat2x4\") return result(\"mat2\");\n if (b === \"mat3x4\") return result(\"mat3x2\");\n if (isMat4(b)) return result(\"mat4x2\");\n error();\n }\n if (a === \"mat4x3\") {\n if (b === \"mat2x4\") return result(\"mat2x3\");\n if (b === \"mat3x4\") return result(\"mat3\");\n if (isMat4(b)) return result(\"mat4x3\");\n error();\n }\n if (isMat4(a)) {\n if (b === \"mat2x4\") return result(\"mat2x4\");\n if (b === \"mat3x4\") return result(\"mat3x4\");\n if (isMat4(b)) return result(\"mat4\");\n error();\n }\n throw new Error(`Invalid mul types: ${a}, ${b}`);\n}\n\nexport function divOutputType(\n a: A,\n b: B,\n): DivOutput {\n return addOutputType(a, b, \"div\");\n}\n\nexport function imodOutputType(\n a: A,\n b: B,\n): IModOutput {\n // @ts-ignore\n if (a === b) return a as IModOutput;\n if (a === \"int\") {\n if (isIntType(b)) return b as IModOutput;\n } else if (b === \"int\") {\n if (isIntType(a)) return a as IModOutput;\n } else if (a === \"uint\") {\n if (isUintType(b)) return b as IModOutput;\n } else if (b === \"uint\") {\n if (isUintType(a)) return a as IModOutput;\n }\n throw new Error(`Invalid imod types: ${a}, ${b}`);\n}\n\nexport function modOutputType(\n a: A,\n b: B,\n): ModOutput {\n // @ts-ignore\n if (a === b || b === \"float\") return a as ModOutput;\n throw new Error(`Invalid mod types: ${a}, ${b}`);\n}\n\nexport function modfOutputType(a: A): A {\n return a;\n}\n\nexport function negOutputType(a: A): A {\n return a;\n}\n\nexport function absOutputType(a: A): A {\n return a;\n}\n\nexport function signOutputType(a: A): A {\n return a;\n}\n\nexport function floorOutputType(a: A): A {\n return a;\n}\n\nexport function ceilOutputType(a: A): A {\n return a;\n}\n\nexport function truncOutputType(a: A): A {\n return a;\n}\n\nexport function roundOutputType(a: A): A {\n return a;\n}\n\nexport function fractOutputType(a: A): A {\n return a;\n}\n\nexport function powOutputType(a: A): A {\n return a;\n}\n\nexport function expOutputType(a: A): A {\n return a;\n}\n\nexport function exp2OutputType(a: A): A {\n return a;\n}\n\nexport function logOutputType(a: A): A {\n return a;\n}\n\nexport function log2OutputType(a: A): A {\n return a;\n}\n\nexport function sqrOutputType(a: A): A {\n return a;\n}\n\nexport function sqrtOutputType(a: A): A {\n return a;\n}\n\nexport function inversesqrtOutputType(a: A): A {\n return a;\n}\n\nexport function minOutputType(\n a: A,\n b: B,\n operation = \"min\",\n): MinOutput {\n // @ts-ignore\n if (a === b) return a as MinOutput;\n if (b === \"float\") {\n if (isFloatType(a)) return a as MinOutput;\n } else if (b === \"int\") {\n if (isIntType(a)) return a as MinOutput;\n } else if (b === \"uint\") {\n if (isUintType(a)) return a as MinOutput;\n }\n throw new Error(`Invalid ${operation} types: ${a}, ${b}`);\n}\n\nexport function maxOutputType(\n a: A,\n b: B,\n): MaxOutput {\n return minOutputType(a, b, \"max\");\n}\n\nexport function clampOutputType(\n a: A,\n b: B,\n _c: B,\n): ClampOutput {\n if (b === \"float\") {\n if (isFloatType(a)) return a as ClampOutput;\n } else if (b === \"int\") {\n if (isIntType(a)) return a as ClampOutput;\n } else if (b === \"uint\") {\n if (isUintType(a)) return a as ClampOutput;\n }\n throw new Error(`Invalid clamp types: ${a}, ${b}`);\n}\n\nexport function mixOutputType<\n A extends FloatTypes,\n C extends FloatTypes | BoolTypes,\n>(a: A, b: A, c: C): MixOutput {\n // @ts-ignore\n if (c === a) return a as MixOutput;\n if (c === \"float\") return a as MixOutput;\n if (c === \"bool\" && a === \"float\") return a as MixOutput;\n if (c === \"bvec2\" && a === \"vec2\") return a as MixOutput;\n if (c === \"bvec3\" && a === \"vec3\") return a as MixOutput;\n if (c === \"bvec4\" && a === \"vec4\") return a as MixOutput;\n throw new Error(`Invalid mix types: ${a}, ${b}, ${c}`);\n}\n\nexport function stepOutputType(\n a: A,\n b: B,\n): StepOutput {\n // @ts-ignore\n if (a === b || b === \"float\") return b as StepOutput;\n throw new Error(`Invalid step types: ${a}, ${b}`);\n}\n\nexport function smoothstepOutputType<\n A extends FloatTypes,\n B extends FloatTypes,\n C extends FloatTypes,\n>(a: A, b: B, c: C): SmoothstepOutput {\n // @ts-ignore\n if (a === b) {\n if (a === c || a === \"float\") return c as SmoothstepOutput;\n }\n throw new Error(`Invalid smoothstep types: ${a}, ${b}, ${c}`);\n}\n\nexport function isNanOutputType(\n a: A,\n operation = \"isNan\",\n): IsNanOutput {\n if (a === \"float\") return \"bool\" as IsNanOutput;\n if (a === \"vec2\") return \"bvec2\" as IsNanOutput;\n if (a === \"vec3\") return \"bvec3\" as IsNanOutput;\n if (a === \"vec4\") return \"bvec4\" as IsNanOutput;\n throw new Error(`Invalid ${operation} types: ${a}`);\n}\n\nexport function isInfOutputType(a: A): IsInfOutput {\n return isNanOutputType(a, \"isInf\");\n}\n","import { BinaryOp, Dyno, TrinaryOp, UnaryOp } from \"./base\";\nimport {\n type AddOutput,\n type ClampOutput,\n type DivOutput,\n type IModOutput,\n type IsInfOutput,\n type IsNanOutput,\n type MaxOutput,\n type MinOutput,\n type MixOutput,\n type ModOutput,\n type MulOutput,\n type SmoothstepOutput,\n type StepOutput,\n type SubOutput,\n absOutputType,\n addOutputType,\n ceilOutputType,\n clampOutputType,\n divOutputType,\n exp2OutputType,\n expOutputType,\n floorOutputType,\n fractOutputType,\n imodOutputType,\n inversesqrtOutputType,\n isInfOutputType,\n isNanOutputType,\n log2OutputType,\n logOutputType,\n maxOutputType,\n minOutputType,\n mixOutputType,\n modOutputType,\n modfOutputType,\n mulOutputType,\n negOutputType,\n powOutputType,\n roundOutputType,\n signOutputType,\n smoothstepOutputType,\n sqrOutputType,\n sqrtOutputType,\n stepOutputType,\n subOutputType,\n truncOutputType,\n} from \"./mathTypes\";\nimport type {\n AllIntTypes,\n AllSignedTypes,\n AllValueTypes,\n BoolTypes,\n FloatTypes,\n SignedTypes,\n ValueTypes,\n} from \"./types\";\nimport { type DynoVal, valType } from \"./value\";\n\nexport const add = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Add({ a, b });\nexport const sub = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Sub({ a, b });\nexport const mul = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Mul({ a, b });\nexport const div = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Div({ a, b });\nexport const imod = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new IMod({ a, b });\nexport const mod = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Mod({ a, b });\nexport const modf = (a: DynoVal) =>\n new Modf({ a }).outputs;\n\nexport const neg = (a: DynoVal): DynoVal =>\n new Neg({ a });\nexport const abs = (a: DynoVal): DynoVal =>\n new Abs({ a });\nexport const sign = (a: DynoVal): DynoVal =>\n new Sign({ a });\nexport const floor = (a: DynoVal): DynoVal =>\n new Floor({ a });\nexport const ceil = (a: DynoVal): DynoVal =>\n new Ceil({ a });\nexport const trunc = (a: DynoVal): DynoVal =>\n new Trunc({ a });\nexport const round = (a: DynoVal): DynoVal =>\n new Round({ a });\nexport const fract = (a: DynoVal): DynoVal =>\n new Fract({ a });\n\nexport const pow = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Pow({ a, b });\nexport const exp = (a: DynoVal): DynoVal =>\n new Exp({ a });\nexport const exp2 = (a: DynoVal): DynoVal =>\n new Exp2({ a });\nexport const log = (a: DynoVal): DynoVal =>\n new Log({ a });\nexport const log2 = (a: DynoVal): DynoVal =>\n new Log2({ a });\nexport const sqr = (a: DynoVal): DynoVal =>\n new Sqr({ a });\nexport const sqrt = (a: DynoVal): DynoVal =>\n new Sqrt({ a });\nexport const inversesqrt = (a: DynoVal): DynoVal =>\n new InverseSqrt({ a });\n\nexport const min = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Min({ a, b });\nexport const max = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Max({ a, b });\nexport const clamp = (\n a: DynoVal,\n min: DynoVal,\n max: DynoVal,\n): DynoVal> => new Clamp({ a, min, max });\nexport const mix = (\n a: DynoVal,\n b: DynoVal,\n t: DynoVal,\n): DynoVal> => new Mix({ a, b, t });\nexport const step = (\n edge: DynoVal,\n x: DynoVal,\n): DynoVal> => new Step({ edge, x });\nexport const smoothstep = (\n edge0: DynoVal,\n edge1: DynoVal,\n x: DynoVal,\n): DynoVal> =>\n new Smoothstep({ edge0, edge1, x });\n\nexport const isNan = (\n a: DynoVal,\n): DynoVal> => new IsNan({ a });\nexport const isInf = (\n a: DynoVal,\n): DynoVal> => new IsInf({ a });\n\nexport class Add<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"sum\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"sum\", outTypeFunc: addOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sum} = ${inputs.a} + ${inputs.b};`];\n };\n }\n}\n\nexport class Sub<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"difference\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"difference\", outTypeFunc: subOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.difference} = ${inputs.a} - ${inputs.b};`];\n };\n }\n}\n\nexport class Mul<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"product\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"product\", outTypeFunc: mulOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.product} = ${inputs.a} * ${inputs.b};`];\n };\n }\n}\n\nexport class Div<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"quotient\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"quotient\", outTypeFunc: divOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.quotient} = ${inputs.a} / ${inputs.b};`];\n };\n }\n}\n\nexport class IMod<\n A extends AllIntTypes,\n B extends AllIntTypes,\n> extends BinaryOp, \"remainder\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"remainder\", outTypeFunc: imodOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.remainder} = ${inputs.a} % ${inputs.b};`];\n };\n }\n}\n\nexport class Mod extends BinaryOp<\n A,\n B,\n ModOutput,\n \"remainder\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"remainder\", outTypeFunc: modOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.remainder} = mod(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Modf extends Dyno<\n { a: A },\n { fract: A; integer: A }\n> {\n constructor({ a }: { a: DynoVal }) {\n const inTypes = { a: valType(a) };\n const outType = modfOutputType(inTypes.a);\n const outTypes = {\n fract: outType,\n integer: outType,\n };\n super({ inTypes, outTypes, inputs: { a } });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.fract} = modf(${inputs.a}, ${outputs.integer});`];\n };\n }\n}\n\nexport class Neg extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"neg\", outTypeFunc: negOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.neg} = -${inputs.a};`];\n };\n }\n}\n\nexport class Abs extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"abs\", outTypeFunc: absOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.abs} = abs(${inputs.a});`];\n };\n }\n}\n\nexport class Sign extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"sign\", outTypeFunc: signOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sign} = sign(${inputs.a});`];\n };\n }\n}\n\nexport class Floor extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"floor\", outTypeFunc: floorOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.floor} = floor(${inputs.a});`];\n };\n }\n}\n\nexport class Ceil extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"ceil\", outTypeFunc: ceilOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.ceil} = ceil(${inputs.a});`];\n };\n }\n}\n\nexport class Trunc extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"trunc\", outTypeFunc: truncOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.trunc} = trunc(${inputs.a});`];\n };\n }\n}\n\nexport class Round extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"round\", outTypeFunc: roundOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.round} = round(${inputs.a});`];\n };\n }\n}\n\nexport class Fract extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"fract\", outTypeFunc: fractOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.fract} = fract(${inputs.a});`];\n };\n }\n}\n\nexport class Pow extends BinaryOp {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"power\", outTypeFunc: powOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.power} = pow(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Exp extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"exp\", outTypeFunc: expOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.exp} = exp(${inputs.a});`];\n };\n }\n}\n\nexport class Exp2 extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"exp2\", outTypeFunc: exp2OutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.exp2} = exp2(${inputs.a});`];\n };\n }\n}\n\nexport class Log extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"log\", outTypeFunc: logOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.log} = log(${inputs.a});`];\n };\n }\n}\n\nexport class Log2 extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"log2\", outTypeFunc: log2OutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.log2} = log2(${inputs.a});`];\n };\n }\n}\n\nexport class Sqr extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"sqr\", outTypeFunc: sqrOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sqr} = ${inputs.a} * ${inputs.a};`];\n };\n }\n}\n\nexport class Sqrt extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"sqrt\", outTypeFunc: sqrtOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sqrt} = sqrt(${inputs.a});`];\n };\n }\n}\n\nexport class InverseSqrt extends UnaryOp<\n A,\n A,\n \"inversesqrt\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"inversesqrt\", outTypeFunc: inversesqrtOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.inversesqrt} = inversesqrt(${inputs.a});`];\n };\n }\n}\n\nexport class Min extends BinaryOp<\n A,\n B,\n MinOutput,\n \"min\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"min\", outTypeFunc: minOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.min} = min(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Max extends BinaryOp<\n A,\n B,\n MaxOutput,\n \"max\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"max\", outTypeFunc: maxOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.max} = max(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Clamp<\n A extends ValueTypes,\n MinMax extends ValueTypes,\n> extends TrinaryOp, \"clamp\"> {\n constructor({\n a,\n min,\n max,\n }: { a: DynoVal; min: DynoVal; max: DynoVal }) {\n super({\n a,\n b: min,\n c: max,\n outKey: \"clamp\",\n outTypeFunc: clampOutputType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a, b: min, c: max } = inputs;\n return [`${outputs.clamp} = clamp(${a}, ${min}, ${max});`];\n };\n }\n}\n\nexport class Mix<\n A extends FloatTypes,\n T extends FloatTypes | BoolTypes,\n> extends TrinaryOp, \"mix\"> {\n constructor({ a, b, t }: { a: DynoVal; b: DynoVal; t: DynoVal }) {\n super({ a, b, c: t, outKey: \"mix\", outTypeFunc: mixOutputType });\n this.statements = ({ inputs, outputs }) => {\n const { a, b, c: t } = inputs;\n return [`${outputs.mix} = mix(${a}, ${b}, ${t});`];\n };\n }\n}\n\nexport class Step<\n Edge extends FloatTypes,\n X extends FloatTypes,\n> extends BinaryOp, \"step\"> {\n constructor({ edge, x }: { edge: DynoVal; x: DynoVal }) {\n super({\n a: edge,\n b: x,\n outKey: \"step\",\n outTypeFunc: stepOutputType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a: edge, b: x } = inputs;\n return [`${outputs.step} = step(${edge}, ${x});`];\n };\n }\n}\n\nexport class Smoothstep<\n X extends FloatTypes,\n Edge extends X | \"float\",\n> extends TrinaryOp<\n Edge,\n Edge,\n X,\n SmoothstepOutput,\n \"smoothstep\"\n> {\n constructor({\n edge0,\n edge1,\n x,\n }: { edge0: DynoVal; edge1: DynoVal; x: DynoVal }) {\n super({\n a: edge0,\n b: edge1,\n c: x,\n outKey: \"smoothstep\",\n outTypeFunc: smoothstepOutputType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a: edge0, b: edge1, c: x } = inputs;\n return [`${outputs.smoothstep} = smoothstep(${edge0}, ${edge1}, ${x});`];\n };\n }\n}\n\nexport class IsNan extends UnaryOp<\n A,\n IsNanOutput,\n \"isNan\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"isNan\", outTypeFunc: isNanOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.isNan} = isNan(${inputs.a});`];\n };\n }\n}\n\nexport class IsInf extends UnaryOp<\n A,\n IsInfOutput,\n \"isInf\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"isInf\", outTypeFunc: isInfOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.isInf} = isInf(${inputs.a});`];\n };\n }\n}\n","import { BinaryOp, TrinaryOp, UnaryOp } from \"./base\";\nimport {\n type AllIntTypes,\n type BoolTypes,\n type IntTypes,\n type ScalarTypes,\n type SimpleTypes,\n type UintTypes,\n type ValueTypes,\n isBoolType,\n isIntType,\n isScalarType,\n isUintType,\n isVector2Type,\n isVector3Type,\n} from \"./types\";\nimport { type DynoVal, valType } from \"./value\";\n\nexport const and = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new And({ a, b });\nexport const or = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Or({ a, b });\nexport const xor = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Xor({ a, b });\nexport const not = (\n a: DynoVal,\n): DynoVal => new Not({ a });\n\nexport const shr = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Shr({ a, b });\n\nexport const shl = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Shl({ a, b });\n\nexport const lessThan = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new LessThan({ a, b });\nexport const lessThanEqual = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new LessThanEqual({ a, b });\nexport const greaterThan = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new GreaterThan({ a, b });\nexport const greaterThanEqual = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new GreaterThanEqual({ a, b });\nexport const equal = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Equal({ a, b });\nexport const notEqual = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new NotEqual({ a, b });\n\nexport const any = (\n a: DynoVal,\n): DynoVal<\"bool\"> => new Any({ a });\nexport const all = (\n a: DynoVal,\n): DynoVal<\"bool\"> => new All({ a });\nexport const select = (\n cond: DynoVal<\"bool\">,\n t: DynoVal,\n f: DynoVal,\n): DynoVal => new Select({ cond, t, f });\n\nexport const compXor = (\n a: DynoVal,\n): DynoVal> => new CompXor({ a });\n\nexport class And extends BinaryOp<\n T,\n T,\n T,\n \"and\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"and\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.and === \"bool\") {\n return [`${outputs.and} = ${inputs.a} && ${inputs.b};`];\n }\n return [`${outputs.and} = ${inputs.a} & ${inputs.b};`];\n };\n }\n}\n\nexport class Or extends BinaryOp<\n T,\n T,\n T,\n \"or\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"or\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.or === \"bool\") {\n return [`${outputs.or} = ${inputs.a} || ${inputs.b};`];\n }\n return [`${outputs.or} = ${inputs.a} | ${inputs.b};`];\n };\n }\n}\n\nexport class Xor extends BinaryOp<\n T,\n T,\n T,\n \"xor\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"xor\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.xor === \"bool\") {\n return [`${outputs.xor} = ${inputs.a} ^^ ${inputs.b};`];\n }\n return [`${outputs.xor} = ${inputs.a} ^ ${inputs.b};`];\n };\n }\n}\n\nexport class Not extends UnaryOp<\n T,\n T,\n \"not\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType: T) => aType, outKey: \"not\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.not === \"bool\") {\n return [`${outputs.not} = !${inputs.a};`];\n }\n return [`${outputs.not} = not(${inputs.a});`];\n };\n }\n}\n\nexport class LessThan extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"lessThan\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) => compareOutputType(aType, \"lessThan\"),\n outKey: \"lessThan\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.lessThan === \"bool\") {\n return [`${outputs.lessThan} = ${inputs.a} < ${inputs.b};`];\n }\n return [`${outputs.lessThan} = lessThan(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class LessThanEqual extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"lessThanEqual\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) =>\n compareOutputType(aType, \"lessThanEqual\"),\n outKey: \"lessThanEqual\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.lessThanEqual === \"bool\") {\n return [`${outputs.lessThanEqual} = ${inputs.a} <= ${inputs.b};`];\n }\n return [\n `${outputs.lessThanEqual} = lessThanEqual(${inputs.a}, ${inputs.b});`,\n ];\n };\n }\n}\n\nexport class GreaterThan extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"greaterThan\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) =>\n compareOutputType(aType, \"greaterThan\"),\n outKey: \"greaterThan\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.greaterThan === \"bool\") {\n return [`${outputs.greaterThan} = ${inputs.a} > ${inputs.b};`];\n }\n return [\n `${outputs.greaterThan} = greaterThan(${inputs.a}, ${inputs.b});`,\n ];\n };\n }\n}\n\nexport class GreaterThanEqual extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"greaterThanEqual\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) =>\n compareOutputType(aType, \"greaterThanEqual\"),\n outKey: \"greaterThanEqual\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.greaterThanEqual === \"bool\") {\n return [`${outputs.greaterThanEqual} = ${inputs.a} >= ${inputs.b};`];\n }\n return [\n `${outputs.greaterThanEqual} = greaterThanEqual(${inputs.a}, ${inputs.b});`,\n ];\n };\n }\n}\n\nexport class Equal extends BinaryOp<\n T,\n T,\n EqualOutput,\n \"equal\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: equalOutputType, outKey: \"equal\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.equal === \"bool\") {\n return [`${outputs.equal} = ${inputs.a} == ${inputs.b};`];\n }\n return [`${outputs.equal} = equal(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class NotEqual extends BinaryOp<\n T,\n T,\n NotEqualOutput,\n \"notEqual\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: notEqualOutputType, outKey: \"notEqual\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.notEqual === \"bool\") {\n return [`${outputs.notEqual} = ${inputs.a} != ${inputs.b};`];\n }\n return [`${outputs.notEqual} = notEqual(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Any extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType: T) => \"bool\", outKey: \"any\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.any} = any(${inputs.a});`];\n };\n }\n}\n\nexport class All extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType: T) => \"bool\", outKey: \"all\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.all} = all(${inputs.a});`];\n };\n }\n}\n\nexport class Select extends TrinaryOp<\n \"bool\",\n T,\n T,\n T,\n \"select\"\n> {\n constructor({\n cond,\n t,\n f,\n }: { cond: DynoVal<\"bool\">; t: DynoVal; f: DynoVal }) {\n super({\n a: cond,\n b: t,\n c: f,\n outKey: \"select\",\n outTypeFunc: (aType: \"bool\", bType: T, cType: T) => bType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a: cond, b: t, c: f } = inputs;\n return [`${outputs.select} = (${cond}) ? (${t}) : (${f});`];\n };\n }\n}\n\ntype CompareOutput = T extends ScalarTypes\n ? \"bool\"\n : T extends \"ivec2\" | \"uvec2\" | \"vec2\"\n ? \"bvec2\"\n : T extends \"ivec3\" | \"uvec3\" | \"vec3\"\n ? \"bvec3\"\n : T extends \"ivec4\" | \"uvec4\" | \"vec4\"\n ? \"bvec4\"\n : never;\n\nfunction compareOutputType(\n type: T,\n operator: string,\n): CompareOutput {\n if (isScalarType(type)) {\n return \"bool\" as CompareOutput;\n }\n if (type === \"ivec2\" || type === \"uvec2\" || type === \"vec2\") {\n return \"bvec2\" as CompareOutput;\n }\n if (type === \"ivec3\" || type === \"uvec3\" || type === \"vec3\") {\n return \"bvec3\" as CompareOutput;\n }\n if (type === \"ivec4\" || type === \"uvec4\" || type === \"vec4\") {\n return \"bvec4\" as CompareOutput;\n }\n throw new Error(`Invalid ${operator} type: ${type}`);\n}\n\ntype EqualOutput = A extends ScalarTypes\n ? \"bool\"\n : A extends BoolTypes\n ? A\n : A extends \"ivec2\" | \"uvec2\" | \"vec2\"\n ? \"bvec2\"\n : A extends \"ivec3\" | \"uvec3\" | \"vec3\"\n ? \"bvec3\"\n : A extends \"ivec4\" | \"uvec4\" | \"vec4\"\n ? \"bvec4\"\n : never;\n\nfunction equalOutputType(\n type: A,\n operator = \"equal\",\n): EqualOutput {\n if (isScalarType(type)) {\n return \"bool\" as EqualOutput;\n }\n if (isBoolType(type)) {\n return type as EqualOutput;\n }\n if (type === \"ivec2\" || type === \"uvec2\" || type === \"vec2\") {\n return \"bvec2\" as EqualOutput;\n }\n if (type === \"ivec3\" || type === \"uvec3\" || type === \"vec3\") {\n return \"bvec3\" as EqualOutput;\n }\n if (type === \"ivec4\" || type === \"uvec4\" || type === \"vec4\") {\n return \"bvec4\" as EqualOutput;\n }\n throw new Error(`Invalid ${operator} type: ${type}`);\n}\n\ntype NotEqualOutput = EqualOutput;\n\nfunction notEqualOutputType(\n type: A,\n): NotEqualOutput {\n return equalOutputType(type, \"notEqual\");\n}\n\ntype CompXorOutput = A extends BoolTypes\n ? \"bool\"\n : A extends IntTypes\n ? \"int\"\n : A extends UintTypes\n ? \"uint\"\n : never;\n\nfunction compXorOutputType(\n type: A,\n): CompXorOutput {\n if (isBoolType(type)) {\n return \"bool\" as CompXorOutput;\n }\n if (isIntType(type)) {\n return \"int\" as CompXorOutput;\n }\n if (isUintType(type)) {\n return \"uint\" as CompXorOutput;\n }\n throw new Error(`Invalid compXor type: ${type}`);\n}\n\nexport class CompXor extends UnaryOp<\n T,\n CompXorOutput,\n \"compXor\"\n> {\n constructor({ a }: { a: DynoVal }) {\n const outType = compXorOutputType(valType(a));\n super({ a, outTypeFunc: (aType: T) => outType, outKey: \"compXor\" });\n this.statements = ({ inputs, outputs }) => {\n if (isScalarType(this.outTypes.compXor)) {\n return [`${outputs.compXor} = ${inputs.a};`];\n }\n const components = isVector2Type(outType)\n ? [\"x\", \"y\"]\n : isVector3Type(outType)\n ? [\"x\", \"y\", \"z\"]\n : [\"x\", \"y\", \"z\", \"w\"];\n const operands = components.map((c) => `${inputs.a}.${c}`);\n const operator = isBoolType(outType) ? \"^^\" : \"^\";\n return [`${outputs.compXor} = ${operands.join(` ${operator} `)};`];\n };\n }\n}\n\nexport class Shr extends BinaryOp {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"shr\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.shr} = ${inputs.a} >> ${inputs.b};`];\n };\n }\n}\n\nexport class Shl extends BinaryOp {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"shl\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.shl} = ${inputs.a} << ${inputs.b};`];\n };\n }\n}\n","import { UnaryOp } from \"./base\";\nimport { type SimpleTypes, typeLiteral } from \"./types\";\nimport type { DynoVal } from \"./value\";\n\nexport const bool = (\n value: DynoVal,\n): DynoVal<\"bool\"> => new Bool({ value });\nexport const int = (\n value: DynoVal,\n): DynoVal<\"int\"> => new Int({ value });\nexport const uint = (\n value: DynoVal,\n): DynoVal<\"uint\"> => new Uint({ value });\nexport const float = (\n value: DynoVal,\n): DynoVal<\"float\"> => new Float({ value });\n\nexport const bvec2 = (\n value: DynoVal,\n): DynoVal<\"bvec2\"> => new BVec2({ value });\nexport const bvec3 = (\n value: DynoVal,\n): DynoVal<\"bvec3\"> => new BVec3({ value });\nexport const bvec4 = (\n value: DynoVal,\n): DynoVal<\"bvec4\"> => new BVec4({ value });\n\nexport const ivec2 = (\n value: DynoVal,\n): DynoVal<\"ivec2\"> => new IVec2({ value });\nexport const ivec3 = (\n value: DynoVal,\n): DynoVal<\"ivec3\"> => new IVec3({ value });\nexport const ivec4 = (\n value: DynoVal,\n): DynoVal<\"ivec4\"> => new IVec4({ value });\n\nexport const uvec2 = (\n value: DynoVal,\n): DynoVal<\"uvec2\"> => new UVec2({ value });\nexport const uvec3 = (\n value: DynoVal,\n): DynoVal<\"uvec3\"> => new UVec3({ value });\nexport const uvec4 = (\n value: DynoVal,\n): DynoVal<\"uvec4\"> => new UVec4({ value });\n\nexport const vec2 = <\n T extends \"float\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\" | \"vec3\" | \"vec4\",\n>(\n value: DynoVal,\n): DynoVal<\"vec2\"> => new Vec2({ value });\nexport const vec3 = <\n T extends \"float\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\" | \"vec4\",\n>(\n value: DynoVal,\n): DynoVal<\"vec3\"> => new Vec3({ value });\nexport const vec4 = (\n value: DynoVal,\n): DynoVal<\"vec4\"> => new Vec4({ value });\n\nexport const mat2 = (\n value: DynoVal,\n): DynoVal<\"mat2\"> => new Mat2({ value });\nexport const mat3 = (\n value: DynoVal,\n): DynoVal<\"mat3\"> => new Mat3({ value });\nexport const mat4 = (\n value: DynoVal,\n): DynoVal<\"mat4\"> => new Mat4({ value });\n\nexport const floatBitsToInt = (value: DynoVal<\"float\">): DynoVal<\"int\"> =>\n new FloatBitsToInt({ value });\nexport const floatBitsToUint = (value: DynoVal<\"float\">): DynoVal<\"uint\"> =>\n new FloatBitsToUint({ value });\nexport const intBitsToFloat = (value: DynoVal<\"int\">): DynoVal<\"float\"> =>\n new IntBitsToFloat({ value });\nexport const uintBitsToFloat = (value: DynoVal<\"uint\">): DynoVal<\"float\"> =>\n new UintBitsToFloat({ value });\n\nexport const packSnorm2x16 = (value: DynoVal<\"vec2\">): DynoVal<\"uint\"> =>\n new PackSnorm2x16({ value });\nexport const unpackSnorm2x16 = (value: DynoVal<\"uint\">): DynoVal<\"vec2\"> =>\n new UnpackSnorm2x16({ value });\nexport const packUnorm2x16 = (value: DynoVal<\"vec2\">): DynoVal<\"uint\"> =>\n new PackUnorm2x16({ value });\nexport const unpackUnorm2x16 = (value: DynoVal<\"uint\">): DynoVal<\"vec2\"> =>\n new UnpackUnorm2x16({ value });\n\nexport const packHalf2x16 = (value: DynoVal<\"vec2\">): DynoVal<\"uint\"> =>\n new PackHalf2x16({ value });\nexport const unpackHalf2x16 = (value: DynoVal<\"uint\">): DynoVal<\"vec2\"> =>\n new UnpackHalf2x16({ value });\n\nexport const uintToRgba8 = (value: DynoVal<\"uint\">): DynoVal<\"vec4\"> =>\n new UintToRgba8({ value });\n\nexport class SimpleCast<\n Allowed extends SimpleTypes,\n OutType extends SimpleTypes,\n OutKey extends string,\n> extends UnaryOp {\n constructor({\n value,\n outType,\n outKey,\n }: { value: DynoVal; outType: OutType; outKey: OutKey }) {\n super({ a: value, outTypeFunc: () => outType, outKey });\n this.statements = ({ inputs, outputs }) => [\n `${outputs[outKey]} = ${typeLiteral(outType)}(${inputs.a});`,\n ];\n }\n}\n\nexport class Bool extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"bool\",\n \"bool\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"bool\", outKey: \"bool\" });\n }\n}\n\nexport class Int extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"int\",\n \"int\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"int\", outKey: \"int\" });\n }\n}\n\nexport class Uint extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"uint\",\n \"uint\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"uint\", outKey: \"uint\" });\n }\n}\n\nexport class Float extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"float\",\n \"float\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"float\", outKey: \"float\" });\n }\n}\n\nexport class BVec2 extends SimpleCast<\n \"bool\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\",\n \"bvec2\",\n \"bvec2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\"> }) {\n super({ value, outType: \"bvec2\", outKey: \"bvec2\" });\n }\n}\n\nexport class BVec3 extends SimpleCast<\n \"bool\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\",\n \"bvec3\",\n \"bvec3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\"> }) {\n super({ value, outType: \"bvec3\", outKey: \"bvec3\" });\n }\n}\n\nexport class BVec4 extends SimpleCast<\n \"bool\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\",\n \"bvec4\",\n \"bvec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"bvec4\", outKey: \"bvec4\" });\n }\n}\n\nexport class IVec2 extends SimpleCast<\n \"int\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\",\n \"ivec2\",\n \"ivec2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"int\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\"> }) {\n super({ value, outType: \"ivec2\", outKey: \"ivec2\" });\n }\n}\n\nexport class IVec3 extends SimpleCast<\n \"int\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\",\n \"ivec3\",\n \"ivec3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"int\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\"> }) {\n super({ value, outType: \"ivec3\", outKey: \"ivec3\" });\n }\n}\n\nexport class IVec4 extends SimpleCast<\n \"int\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\",\n \"ivec4\",\n \"ivec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"int\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"ivec4\", outKey: \"ivec4\" });\n }\n}\n\nexport class UVec2 extends SimpleCast<\n \"uint\" | \"ivec2\" | \"bvec2\" | \"uvec2\" | \"vec2\",\n \"uvec2\",\n \"uvec2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"uint\" | \"ivec2\" | \"bvec2\" | \"uvec2\" | \"vec2\"> }) {\n super({ value, outType: \"uvec2\", outKey: \"uvec2\" });\n }\n}\n\nexport class UVec3 extends SimpleCast<\n \"uint\" | \"ivec3\" | \"bvec3\" | \"uvec3\" | \"vec3\",\n \"uvec3\",\n \"uvec3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"uint\" | \"ivec3\" | \"bvec3\" | \"uvec3\" | \"vec3\"> }) {\n super({ value, outType: \"uvec3\", outKey: \"uvec3\" });\n }\n}\n\nexport class UVec4 extends SimpleCast<\n \"uint\" | \"ivec4\" | \"bvec4\" | \"uvec4\" | \"vec4\",\n \"uvec4\",\n \"uvec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"uint\" | \"ivec4\" | \"bvec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"uvec4\", outKey: \"uvec4\" });\n }\n}\n\nexport class Vec2 extends SimpleCast<\n \"float\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\" | \"vec3\" | \"vec4\",\n \"vec2\",\n \"vec2\"\n> {\n constructor({\n value,\n }: {\n value: DynoVal<\n \"float\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\" | \"vec3\" | \"vec4\"\n >;\n }) {\n super({ value, outType: \"vec2\", outKey: \"vec2\" });\n }\n}\n\nexport class Vec3 extends SimpleCast<\n \"float\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\" | \"vec2\" | \"vec4\",\n \"vec3\",\n \"vec3\"\n> {\n constructor({\n value,\n }: {\n value: DynoVal<\n \"float\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\" | \"vec2\" | \"vec4\"\n >;\n }) {\n super({ value, outType: \"vec3\", outKey: \"vec3\" });\n }\n}\n\nexport class Vec4 extends SimpleCast<\n \"float\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\",\n \"vec4\",\n \"vec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"vec4\", outKey: \"vec4\" });\n }\n}\n\nexport class Mat2 extends SimpleCast<\n \"float\" | \"mat2\" | \"mat3\" | \"mat4\",\n \"mat2\",\n \"mat2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"mat2\" | \"mat3\" | \"mat4\"> }) {\n super({ value, outType: \"mat2\", outKey: \"mat2\" });\n }\n}\n\nexport class Mat3 extends SimpleCast<\n \"float\" | \"mat2\" | \"mat3\" | \"mat4\",\n \"mat3\",\n \"mat3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"mat2\" | \"mat3\" | \"mat4\"> }) {\n super({ value, outType: \"mat3\", outKey: \"mat3\" });\n }\n}\n\nexport class Mat4 extends SimpleCast<\n \"float\" | \"mat2\" | \"mat3\" | \"mat4\",\n \"mat4\",\n \"mat4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"mat2\" | \"mat3\" | \"mat4\"> }) {\n super({ value, outType: \"mat4\", outKey: \"mat4\" });\n }\n}\n\nexport class FloatBitsToInt extends UnaryOp<\"float\", \"int\", \"int\"> {\n constructor({ value }: { value: DynoVal<\"float\"> }) {\n super({ a: value, outKey: \"int\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.int} = floatBitsToInt(${inputs.a});`];\n };\n }\n}\n\nexport class FloatBitsToUint extends UnaryOp<\"float\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"float\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = floatBitsToUint(${inputs.a});`];\n };\n }\n}\n\nexport class IntBitsToFloat extends UnaryOp<\"int\", \"float\", \"float\"> {\n constructor({ value }: { value: DynoVal<\"int\"> }) {\n super({ a: value, outKey: \"float\", outTypeFunc: () => \"float\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.float} = intBitsToFloat(${inputs.a});`];\n };\n }\n}\n\nexport class UintBitsToFloat extends UnaryOp<\"uint\", \"float\", \"float\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"float\", outTypeFunc: () => \"float\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.float} = uintBitsToFloat(${inputs.a});`];\n };\n }\n}\n\nexport class PackSnorm2x16 extends UnaryOp<\"vec2\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"vec2\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = packSnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UnpackSnorm2x16 extends UnaryOp<\"uint\", \"vec2\", \"vec2\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"vec2\", outTypeFunc: () => \"vec2\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.vec2} = unpackSnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class PackUnorm2x16 extends UnaryOp<\"vec2\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"vec2\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = packUnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UnpackUnorm2x16 extends UnaryOp<\"uint\", \"vec2\", \"vec2\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"vec2\", outTypeFunc: () => \"vec2\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.vec2} = unpackUnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class PackHalf2x16 extends UnaryOp<\"vec2\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"vec2\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = packHalf2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UnpackHalf2x16 extends UnaryOp<\"uint\", \"vec2\", \"vec2\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"vec2\", outTypeFunc: () => \"vec2\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.vec2} = unpackHalf2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UintToRgba8 extends UnaryOp<\"uint\", \"vec4\", \"rgba8\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"rgba8\", outTypeFunc: () => \"vec4\" });\n this.statements = ({ inputs, outputs }) => {\n return [\n `uvec4 uRgba = uvec4(${inputs.a} & 0xffu, (${inputs.a} >> 8u) & 0xffu, (${inputs.a} >> 16u) & 0xffu, (${inputs.a} >> 24u) & 0xffu);`,\n `${outputs.rgba8} = vec4(uRgba) / 255.0;`,\n ];\n };\n }\n}\n","import { BinaryOp, Dyno, TrinaryOp, UnaryOp } from \"./base\";\nimport {\n type FloatTypes,\n type IntTypes,\n type MatFloatTypes,\n type SquareMatTypes,\n type UintTypes,\n type VectorElementType,\n type VectorTypes,\n isFloatType,\n isIntType,\n isUintType,\n vectorDim,\n vectorElementType,\n} from \"./types\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n literalZero,\n valType,\n} from \"./value\";\n\nexport const length = (\n a: DynoVal,\n): DynoVal<\"float\"> => new Length({ a });\nexport const distance = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal<\"float\"> => new Distance({ a, b });\nexport const dot = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal<\"float\"> => new Dot({ a, b });\nexport const cross = (\n a: DynoVal<\"vec3\">,\n b: DynoVal<\"vec3\">,\n): DynoVal<\"vec3\"> => new Cross({ a, b });\nexport const normalize = (\n a: DynoVal,\n): DynoVal => new Normalize({ a });\nexport const faceforward = (\n a: DynoVal,\n b: DynoVal,\n c: DynoVal,\n): DynoVal => new FaceForward({ a, b, c });\nexport const reflectVec = (\n incident: DynoVal,\n normal: DynoVal,\n): DynoVal => new ReflectVec({ incident, normal });\nexport const refractVec = (\n incident: DynoVal,\n normal: DynoVal,\n eta: DynoVal<\"float\">,\n): DynoVal => new RefractVec({ incident, normal, eta });\nexport const split = (vector: DynoVal): Split =>\n new Split({ vector });\nexport const combine = >({\n vector,\n vectorType,\n x,\n y,\n z,\n w,\n r,\n g,\n b,\n a,\n}: {\n vector?: DynoVal;\n vectorType?: V;\n x?: DynoVal;\n y?: DynoVal;\n z?: DynoVal;\n w?: DynoVal;\n r?: DynoVal;\n g?: DynoVal;\n b?: DynoVal;\n a?: DynoVal;\n}): DynoVal => new Combine({ vector, vectorType, x, y, z, w, r, g, b, a });\nexport const projectH = (\n a: DynoVal,\n): DynoVal> => new ProjectH({ a });\nexport const extendVec = (\n a: DynoVal,\n b: DynoVal<\"float\">,\n): DynoVal> => new ExtendVec({ a, b });\nexport const swizzle = (\n a: DynoVal,\n select: S,\n): DynoVal>> =>\n new Swizzle({ vector: a, select });\nexport const compMult = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new CompMult({ a, b });\nexport const outer = <\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n>(\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Outer({ a, b });\nexport const transpose = (\n a: DynoVal,\n): DynoVal> => new Transpose({ a });\nexport const determinant = (\n a: DynoVal,\n): DynoVal<\"float\"> => new Determinant({ a });\nexport const inverse = (a: DynoVal): DynoVal =>\n new Inverse({ a });\n\nexport class Length extends UnaryOp<\n A,\n \"float\",\n \"length\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType) => \"float\", outKey: \"length\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.length} = length(${inputs.a});`,\n ];\n }\n}\n\nexport class Distance extends BinaryOp<\n A,\n A,\n \"float\",\n \"distance\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"distance\", outTypeFunc: (aType, bType) => \"float\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.distance} = distance(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Dot extends BinaryOp<\n A,\n A,\n \"float\",\n \"dot\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"dot\", outTypeFunc: (aType, bType) => \"float\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.dot} = dot(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Cross extends BinaryOp<\"vec3\", \"vec3\", \"vec3\", \"cross\"> {\n constructor({ a, b }: { a: DynoVal<\"vec3\">; b: DynoVal<\"vec3\"> }) {\n super({ a, b, outKey: \"cross\", outTypeFunc: (aType, bType) => \"vec3\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.cross} = cross(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Normalize extends UnaryOp<\n A,\n A,\n \"normalize\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType) => aType, outKey: \"normalize\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.normalize} = normalize(${inputs.a});`,\n ];\n }\n}\n\ntype ProjectHOutput = A extends \"vec3\"\n ? \"vec2\"\n : A extends \"vec4\"\n ? \"vec3\"\n : never;\n\nfunction projectHOutputType(\n type: A,\n): ProjectHOutput {\n if (type === \"vec3\") {\n return \"vec2\" as ProjectHOutput;\n }\n if (type === \"vec4\") {\n return \"vec3\" as ProjectHOutput;\n }\n throw new Error(\"Invalid type\");\n}\n\nexport class ProjectH extends UnaryOp<\n A,\n ProjectHOutput,\n \"projected\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({\n a,\n outTypeFunc: (aType) => projectHOutputType(aType),\n outKey: \"projected\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.inTypes.a === \"vec3\") {\n return [`${outputs.projected} = ${inputs.a}.xy / ${inputs.a}.z;`];\n }\n if (this.inTypes.a === \"vec4\") {\n return [`${outputs.projected} = ${inputs.a}.xyz / ${inputs.a}.w;`];\n }\n throw new Error(\"Invalid type\");\n };\n }\n}\n\ntype ExtendVecOutput = A extends \"float\"\n ? \"vec2\"\n : A extends \"vec2\"\n ? \"vec3\"\n : A extends \"vec3\"\n ? \"vec4\"\n : never;\n\nfunction extendVecOutputType(\n type: A,\n): ExtendVecOutput {\n if (type === \"float\") return \"vec2\" as ExtendVecOutput;\n if (type === \"vec2\") return \"vec3\" as ExtendVecOutput;\n if (type === \"vec3\") return \"vec4\" as ExtendVecOutput;\n throw new Error(\"Invalid type\");\n}\n\nexport class ExtendVec extends BinaryOp<\n A,\n \"float\",\n ExtendVecOutput,\n \"extend\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal<\"float\"> }) {\n const type = valType(a);\n const outType = extendVecOutputType(type);\n super({ a, b, outKey: \"extend\", outTypeFunc: () => outType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.extend} = ${outType}(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class FaceForward extends TrinaryOp<\n A,\n A,\n A,\n A,\n \"forward\"\n> {\n constructor({ a, b, c }: { a: DynoVal; b: DynoVal; c: DynoVal }) {\n super({\n a,\n b,\n c,\n outKey: \"forward\",\n outTypeFunc: (aType, bType, cType) => aType,\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.forward} = faceforward(${inputs.a}, ${inputs.b}, ${inputs.c});`,\n ];\n }\n}\n\nexport class ReflectVec extends BinaryOp<\n A,\n A,\n A,\n \"reflection\"\n> {\n constructor({\n incident,\n normal,\n }: { incident: DynoVal; normal: DynoVal }) {\n super({\n a: incident,\n b: normal,\n outKey: \"reflection\",\n outTypeFunc: (aType, bType) => aType,\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.reflection} = reflect(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class RefractVec extends TrinaryOp<\n A,\n A,\n \"float\",\n A,\n \"refraction\"\n> {\n constructor({\n incident,\n normal,\n eta,\n }: { incident: DynoVal; normal: DynoVal; eta: DynoVal<\"float\"> }) {\n super({\n a: incident,\n b: normal,\n c: eta,\n outKey: \"refraction\",\n outTypeFunc: (aType, bType, cType) => aType,\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.refraction} = refract(${inputs.a}, ${inputs.b}, ${inputs.c});`,\n ];\n }\n}\n\nexport class CompMult extends BinaryOp<\n A,\n A,\n A,\n \"product\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"product\", outTypeFunc: (aType, bType) => aType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.product} = matrixCompMult(${a}, ${b});`,\n ];\n }\n}\n\ntype OuterOutput<\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n> = A extends \"vec2\"\n ? B extends \"vec2\"\n ? \"mat2\"\n : B extends \"vec3\"\n ? \"mat3x2\"\n : B extends \"vec4\"\n ? \"mat4x2\"\n : never\n : A extends \"vec3\"\n ? B extends \"vec2\"\n ? \"mat2x3\"\n : B extends \"vec3\"\n ? \"mat3\"\n : B extends \"vec4\"\n ? \"mat4x3\"\n : never\n : A extends \"vec4\"\n ? B extends \"vec2\"\n ? \"mat2x4\"\n : B extends \"vec3\"\n ? \"mat3x4\"\n : B extends \"vec4\"\n ? \"mat4\"\n : never\n : never;\n\nfunction outerOutputType<\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n>(aType: A, bType: B): OuterOutput {\n if (aType === \"vec2\") {\n if (bType === \"vec2\") return \"mat2\" as OuterOutput;\n if (bType === \"vec3\") return \"mat3x2\" as OuterOutput;\n if (bType === \"vec4\") return \"mat4x2\" as OuterOutput;\n }\n if (aType === \"vec3\") {\n if (bType === \"vec2\") return \"mat2x3\" as OuterOutput;\n if (bType === \"vec3\") return \"mat3\" as OuterOutput;\n if (bType === \"vec4\") return \"mat4x3\" as OuterOutput;\n }\n if (aType === \"vec4\") {\n if (bType === \"vec2\") return \"mat2x4\" as OuterOutput;\n if (bType === \"vec3\") return \"mat3x4\" as OuterOutput;\n if (bType === \"vec4\") return \"mat4\" as OuterOutput;\n }\n throw new Error(`Invalid outer type: ${aType}, ${bType}`);\n}\n\nexport class Outer<\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n> extends BinaryOp, \"outer\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"outer\", outTypeFunc: outerOutputType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.outer} = outerProduct(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\ntype TransposeOutput = A extends SquareMatTypes\n ? A\n : A extends \"mat2x3\"\n ? \"mat3x2\"\n : A extends \"mat2x4\"\n ? \"mat4x2\"\n : A extends \"mat3x2\"\n ? \"mat2x3\"\n : A extends \"mat3x4\"\n ? \"mat4x3\"\n : A extends \"mat4x2\"\n ? \"mat2x4\"\n : A extends \"mat4x3\"\n ? \"mat3x4\"\n : never;\n\nfunction transposeOutputType(\n type: A,\n): TransposeOutput {\n if (type === \"mat2\") return \"mat2\" as TransposeOutput;\n if (type === \"mat3\") return \"mat3\" as TransposeOutput;\n if (type === \"mat4\") return \"mat4\" as TransposeOutput;\n if (type === \"mat2x2\") return \"mat2x2\" as TransposeOutput;\n if (type === \"mat2x3\") return \"mat3x2\" as TransposeOutput;\n if (type === \"mat2x4\") return \"mat4x2\" as TransposeOutput;\n if (type === \"mat3x2\") return \"mat2x3\" as TransposeOutput;\n if (type === \"mat3x3\") return \"mat3x3\" as TransposeOutput;\n if (type === \"mat3x4\") return \"mat4x3\" as TransposeOutput;\n if (type === \"mat4x2\") return \"mat2x4\" as TransposeOutput;\n if (type === \"mat4x3\") return \"mat3x4\" as TransposeOutput;\n if (type === \"mat4x4\") return \"mat4x4\" as TransposeOutput;\n throw new Error(`Invalid transpose type: ${type}`);\n}\n\nexport class Transpose extends UnaryOp<\n A,\n TransposeOutput,\n \"transpose\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"transpose\", outTypeFunc: transposeOutputType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.transpose} = transpose(${inputs.a});`,\n ];\n }\n}\n\nexport class Determinant extends UnaryOp<\n A,\n \"float\",\n \"det\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"det\", outTypeFunc: (aType) => \"float\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.det} = determinant(${inputs.a});`,\n ];\n }\n}\n\nexport class Inverse extends UnaryOp<\n A,\n A,\n \"inverse\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"inverse\", outTypeFunc: (aType) => aType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.inverse} = inverse(${a});`,\n ];\n }\n}\n\ntype SplitOutTypes = A extends \"vec2\"\n ? { x: \"float\"; y: \"float\"; r: \"float\"; g: \"float\" }\n : A extends \"vec3\"\n ? { x: \"float\"; y: \"float\"; z: \"float\"; r: \"float\"; g: \"float\"; b: \"float\" }\n : A extends \"vec4\"\n ? {\n x: \"float\";\n y: \"float\";\n z: \"float\";\n w: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n a: \"float\";\n }\n : A extends \"ivec2\"\n ? { x: \"int\"; y: \"int\"; r: \"int\"; g: \"int\" }\n : A extends \"ivec3\"\n ? { x: \"int\"; y: \"int\"; z: \"int\"; r: \"int\"; g: \"int\"; b: \"int\" }\n : A extends \"ivec4\"\n ? {\n x: \"int\";\n y: \"int\";\n z: \"int\";\n w: \"int\";\n r: \"int\";\n g: \"int\";\n b: \"int\";\n a: \"int\";\n }\n : A extends \"uvec2\"\n ? { x: \"uint\"; y: \"uint\"; r: \"uint\"; g: \"uint\" }\n : A extends \"uvec3\"\n ? {\n x: \"uint\";\n y: \"uint\";\n z: \"uint\";\n r: \"uint\";\n g: \"uint\";\n b: \"uint\";\n }\n : A extends \"uvec4\"\n ? {\n x: \"uint\";\n y: \"uint\";\n z: \"uint\";\n w: \"uint\";\n r: \"uint\";\n g: \"uint\";\n b: \"uint\";\n a: \"uint\";\n }\n : never;\n\nfunction splitOutTypes(type: A): SplitOutTypes {\n const result = (value: unknown) => value as SplitOutTypes;\n switch (type) {\n case \"vec2\":\n return result({ x: \"float\", y: \"float\", r: \"float\", g: \"float\" });\n case \"vec3\":\n return result({\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n });\n case \"vec4\":\n return result({\n x: \"float\",\n y: \"float\",\n z: \"float\",\n w: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n a: \"float\",\n });\n case \"ivec2\":\n return result({ x: \"int\", y: \"int\", r: \"int\", g: \"int\" });\n case \"ivec3\":\n return result({\n x: \"int\",\n y: \"int\",\n z: \"int\",\n r: \"int\",\n g: \"int\",\n b: \"int\",\n });\n case \"ivec4\":\n return result({\n x: \"int\",\n y: \"int\",\n z: \"int\",\n w: \"int\",\n r: \"int\",\n g: \"int\",\n b: \"int\",\n a: \"int\",\n });\n case \"uvec2\":\n return result({ x: \"uint\", y: \"uint\", r: \"uint\", g: \"uint\" });\n case \"uvec3\":\n return result({\n x: \"uint\",\n y: \"uint\",\n z: \"uint\",\n r: \"uint\",\n g: \"uint\",\n b: \"uint\",\n });\n case \"uvec4\":\n return result({\n x: \"uint\",\n y: \"uint\",\n z: \"uint\",\n w: \"uint\",\n r: \"uint\",\n g: \"uint\",\n b: \"uint\",\n a: \"uint\",\n });\n default:\n throw new Error(`Invalid vector type: ${type}`);\n }\n}\n\nexport class Split extends Dyno<\n { vector: V },\n SplitOutTypes\n> {\n constructor({ vector }: { vector: DynoVal }) {\n const type = valType(vector);\n const inTypes = { vector: type };\n const outTypes = splitOutTypes(inTypes.vector);\n super({ inTypes, outTypes, inputs: { vector } });\n this.statements = ({ inputs, outputs }) => {\n const { x, y, z, w, r, g, b, a } = outputs as unknown as Record<\n string,\n string\n >;\n const { vector } = inputs;\n return [\n x ? `${x} = ${vector}.x;` : null,\n y ? `${y} = ${vector}.y;` : null,\n z ? `${z} = ${vector}.z;` : null,\n w ? `${w} = ${vector}.w;` : null,\n r ? `${r} = ${vector}.r;` : null,\n g ? `${g} = ${vector}.g;` : null,\n b ? `${b} = ${vector}.b;` : null,\n a ? `${a} = ${vector}.a;` : null,\n ].filter(Boolean) as string[];\n };\n }\n}\n\nexport class Combine>\n extends Dyno & { vector: V }, { vector: V }>\n implements HasDynoOut\n{\n constructor({\n vector,\n vectorType,\n x,\n y,\n z,\n w,\n r,\n g,\n b,\n a,\n }: {\n vector?: DynoVal;\n vectorType?: V;\n x?: DynoVal;\n y?: DynoVal;\n z?: DynoVal;\n w?: DynoVal;\n r?: DynoVal;\n g?: DynoVal;\n b?: DynoVal;\n a?: DynoVal;\n }) {\n if (!vector && !vectorType) {\n throw new Error(\"Either vector or vectorType must be provided\");\n }\n const vType = vectorType ?? valType(vector as DynoVal);\n const elType = vectorElementType(vType);\n const dim = vectorDim(vType);\n\n const inTypes = {\n vector: vType,\n x: elType,\n y: elType,\n r: elType,\n g: elType,\n } as unknown as SplitOutTypes & { vector: V };\n const inputs = { vector, x, y, r, g };\n if (dim >= 3) {\n Object.assign(inTypes, { z: elType, b: elType });\n Object.assign(inputs, { z, b });\n }\n if (dim >= 4) {\n Object.assign(inTypes, { w: elType, a: elType });\n Object.assign(inputs, { w, a });\n }\n // @ts-ignore\n super({ inTypes, outTypes: { vector: vType }, inputs });\n this.statements = ({ inputs, outputs }) => {\n const { vector } = outputs;\n const {\n vector: input,\n x,\n y,\n z,\n w,\n r,\n g,\n b,\n a,\n } = inputs as Record;\n const statements = [\n `${vector}.x = ${x ?? r ?? (input ? `${input}.x` : literalZero(elType))};`,\n `${vector}.y = ${y ?? g ?? (input ? `${input}.y` : literalZero(elType))};`,\n ];\n if (dim >= 3)\n statements.push(\n `${vector}.z = ${z ?? b ?? (input ? `${input}.z` : literalZero(elType))};`,\n );\n if (dim >= 4)\n statements.push(\n `${vector}.w = ${w ?? a ?? (input ? `${input}.w` : literalZero(elType))};`,\n );\n return statements;\n };\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput & { vector: V }, { vector: V }>(\n this,\n \"vector\",\n );\n }\n}\n\ntype SwizzleOutput<\n A extends VectorTypes,\n Len extends number,\n> = A extends FloatTypes\n ? Len extends 1\n ? \"float\"\n : Len extends 2\n ? \"vec2\"\n : Len extends 3\n ? \"vec3\"\n : Len extends 4\n ? \"vec4\"\n : never\n : A extends IntTypes\n ? Len extends 1\n ? \"int\"\n : Len extends 2\n ? \"ivec2\"\n : Len extends 3\n ? \"ivec3\"\n : Len extends 4\n ? \"ivec4\"\n : never\n : A extends UintTypes\n ? Len extends 1\n ? \"uint\"\n : Len extends 2\n ? \"uvec2\"\n : Len extends 3\n ? \"uvec3\"\n : Len extends 4\n ? \"uvec4\"\n : never\n : never;\n\ntype SwizzleSelectLen = S extends Swizzle1Select\n ? 1\n : S extends Swizzle2Select\n ? 2\n : S extends Swizzle3Select\n ? 3\n : S extends Swizzle4Select\n ? 4\n : never;\n\nfunction swizzleOutputType(\n type: A,\n swizzle: S,\n): SwizzleOutput> {\n let result = null;\n if (isFloatType(type)) {\n result =\n swizzle.length === 1\n ? \"float\"\n : swizzle.length === 2\n ? \"vec2\"\n : swizzle.length === 3\n ? \"vec3\"\n : swizzle.length === 4\n ? \"vec4\"\n : null;\n } else if (isIntType(type)) {\n result =\n swizzle.length === 1\n ? \"int\"\n : swizzle.length === 2\n ? \"ivec2\"\n : swizzle.length === 3\n ? \"ivec3\"\n : swizzle.length === 4\n ? \"ivec4\"\n : null;\n } else if (isUintType(type)) {\n result =\n swizzle.length === 1\n ? \"uint\"\n : swizzle.length === 2\n ? \"uvec2\"\n : swizzle.length === 3\n ? \"uvec3\"\n : swizzle.length === 4\n ? \"uvec4\"\n : null;\n }\n if (result == null) {\n throw new Error(`Invalid swizzle: ${swizzle}`);\n }\n return result as SwizzleOutput>;\n}\n\ntype Swizzle1Select = `${\"x\" | \"y\" | \"z\" | \"w\"}|${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype Swizzle2Select =\n | `${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}`\n | `${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype Swizzle3Select =\n | `${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}`\n | `${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype Swizzle4Select =\n | `${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}`\n | `${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype SwizzleSelect =\n | Swizzle1Select\n | Swizzle2Select\n | Swizzle3Select\n | Swizzle4Select;\n\nexport class Swizzle<\n A extends VectorTypes,\n S extends SwizzleSelect,\n> extends UnaryOp>, \"swizzle\"> {\n constructor({ vector, select }: { vector: DynoVal; select: S }) {\n super({\n a: vector,\n outKey: \"swizzle\",\n outTypeFunc: (aType) => swizzleOutputType(aType, select),\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.swizzle} = ${inputs.a}.${select};`,\n ];\n }\n}\n","import { Dyno, DynoBlock, unindent } from \"./base\";\nimport { float, vec2, vec3, vec4 } from \"./convert\";\nimport { mul } from \"./math\";\nimport { type ValueTypes, isIntType, isUintType, sameSizeUvec } from \"./types\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n dynoConst,\n valType,\n} from \"./value\";\nimport { combine } from \"./vecmat\";\n\nexport const remapIndex = (\n index: DynoVal<\"int\">,\n from: DynoVal<\"int\">,\n to: DynoVal<\"int\">,\n): DynoVal<\"int\"> => {\n return new DynoRemapIndex({ index, from, to });\n};\nexport const pcgMix = (\n value: DynoVal,\n): DynoVal<\"uint\"> => {\n return new PcgMix({ value });\n};\nexport const pcgNext = (state: DynoVal<\"uint\">): DynoVal<\"uint\"> => {\n return new PcgNext({ state });\n};\nexport const pcgHash = (state: DynoVal<\"uint\">): DynoVal<\"uint\"> => {\n return new PcgHash({ state });\n};\nexport const hash = (\n value: DynoVal,\n): DynoVal<\"uint\"> => {\n return new Hash({ value });\n};\nexport const hash2 = (\n value: DynoVal,\n): DynoVal<\"uvec2\"> => {\n return new Hash2({ value });\n};\nexport const hash3 = (\n value: DynoVal,\n): DynoVal<\"uvec3\"> => {\n return new Hash3({ value });\n};\nexport const hash4 = (\n value: DynoVal,\n): DynoVal<\"uvec4\"> => {\n return new Hash4({ value });\n};\nexport const hashFloat = (\n value: DynoVal,\n): DynoVal<\"float\"> => {\n return new HashFloat({ value });\n};\nexport const hashVec2 = (\n value: DynoVal,\n): DynoVal<\"vec2\"> => {\n return new HashVec2({ value });\n};\nexport const hashVec3 = (\n value: DynoVal,\n): DynoVal<\"vec3\"> => {\n return new HashVec3({ value });\n};\nexport const hashVec4 = (\n value: DynoVal,\n): DynoVal<\"vec4\"> => {\n return new HashVec4({ value });\n};\nexport const normalizedDepth = (\n z: DynoVal<\"float\">,\n zNear: DynoVal<\"float\">,\n zFar: DynoVal<\"float\">,\n): DynoVal<\"float\"> => {\n return new NormalizedDepth({ z, zNear, zFar }).outputs.depth;\n};\n\nexport const debugColorHue = (index: DynoVal<\"int\">): DynoVal<\"vec3\"> => {\n return new DebugColorHue({ index });\n};\n\nexport class DynoRemapIndex\n extends Dyno<{ from: \"int\"; to: \"int\"; index: \"int\" }, { index: \"int\" }>\n implements HasDynoOut<\"int\">\n{\n constructor({\n from,\n to,\n index,\n }: { from: DynoVal<\"int\">; to: DynoVal<\"int\">; index: DynoVal<\"int\"> }) {\n super({\n inTypes: { from: \"int\", to: \"int\", index: \"int\" },\n outTypes: { index: \"int\" },\n inputs: { from, to, index },\n statements: ({ inputs, outputs }) => {\n return [\n `${outputs.index} = ${inputs.index} - ${inputs.from} + ${inputs.to};`,\n ];\n },\n });\n }\n\n dynoOut(): DynoValue<\"int\"> {\n return new DynoOutput(this, \"index\");\n }\n}\n\nexport class PcgNext\n extends Dyno<{ state: T }, { state: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ state }: { state: DynoVal }) {\n const type = valType(state);\n super({\n inTypes: { state: type },\n outTypes: { state: \"uint\" },\n inputs: { state },\n globals: () => [\n unindent(`\n uint pcg_next(uint state) {\n return state * 747796405u + 2891336453u;\n }\n `),\n ],\n statements: ({ inputs, outputs }) => {\n const toUint =\n type === \"uint\"\n ? `${inputs.state}`\n : type === \"int\"\n ? `uint(${inputs.state})`\n : `floatBitsToUint(${inputs.state})`;\n return [`${outputs.state} = pcg_next(${toUint});`];\n },\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"state\");\n }\n}\n\nexport class PcgHash\n extends Dyno<{ state: \"uint\" }, { hash: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ state }: { state: DynoVal<\"uint\"> }) {\n super({\n inTypes: { state: \"uint\" },\n outTypes: { hash: \"uint\" },\n inputs: { state },\n globals: () => [\n unindent(`\n uint pcg_hash(uint state) {\n uint hash = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u;\n return (hash >> 22u) ^ hash;\n }\n `),\n ],\n statements: ({ inputs, outputs }) => [\n `${outputs.hash} = pcg_hash(${inputs.state});`,\n ],\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class PcgMix\n extends Dyno<{ value: T }, { state: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ value }: { value: DynoVal }) {\n const type = valType(value);\n const tempType = sameSizeUvec(type);\n super({\n inTypes: { value: type },\n outTypes: { state: \"uint\" },\n inputs: { value },\n globals: () => [\n unindent(`\n uint pcg_mix(uint value) {\n return value;\n }\n uint pcg_mix(uvec2 value) {\n return value.x + 0x9e3779b9u * value.y;\n }\n uint pcg_mix(uvec3 value) {\n return value.x + 0x9e3779b9u * value.y + 0x85ebca6bu * value.z;\n }\n uint pcg_mix(uvec4 value) {\n return value.x + 0x9e3779b9u * value.y + 0x85ebca6bu * value.z + 0xc2b2ae35u * value.w;\n }\n `),\n ],\n statements: ({ inputs, outputs }) => {\n const toUvec = isUintType(type)\n ? `${inputs.value}`\n : isIntType(type)\n ? `${tempType}(${inputs.value})`\n : `floatBitsToUint(${inputs.value})`;\n return [\n `${tempType} bits = ${toUvec};`,\n `${outputs.state} = pcg_mix(bits);`,\n ];\n },\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"state\");\n }\n}\n\nexport class Hash\n extends DynoBlock<{ value: T }, { hash: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uint\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n return new PcgHash({ state }).outputs;\n },\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class Hash2\n extends DynoBlock<{ value: T }, { hash: \"uvec2\" }>\n implements HasDynoOut<\"uvec2\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uvec2\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n const x = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const y = new PcgHash({ state }).outputs.hash;\n return { hash: combine({ vectorType: \"uvec2\", x, y }) };\n },\n });\n }\n dynoOut(): DynoValue<\"uvec2\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class Hash3\n extends DynoBlock<{ value: T }, { hash: \"uvec3\" }>\n implements HasDynoOut<\"uvec3\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uvec3\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n const x = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const y = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const z = new PcgHash({ state }).outputs.hash;\n return { hash: combine({ vectorType: \"uvec3\", x, y, z }) };\n },\n });\n }\n dynoOut(): DynoValue<\"uvec3\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class Hash4\n extends DynoBlock<{ value: T }, { hash: \"uvec4\" }>\n implements HasDynoOut<\"uvec4\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uvec4\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n const x = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const y = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const z = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const w = new PcgHash({ state }).outputs.hash;\n return { hash: combine({ vectorType: \"uvec4\", x, y, z, w }) };\n },\n });\n }\n dynoOut(): DynoValue<\"uvec4\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashFloat\n extends DynoBlock<{ value: T }, { hash: \"float\" }>\n implements HasDynoOut<\"float\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"float\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const word = hash(value);\n return { hash: mul(float(word), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"float\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashVec2\n extends DynoBlock<{ value: T }, { hash: \"vec2\" }>\n implements HasDynoOut<\"vec2\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"vec2\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const words = hash2(value);\n return { hash: mul(vec2(words), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"vec2\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashVec3\n extends DynoBlock<{ value: T }, { hash: \"vec3\" }>\n implements HasDynoOut<\"vec3\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"vec3\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const words = hash3(value);\n return { hash: mul(vec3(words), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"vec3\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashVec4\n extends DynoBlock<{ value: T }, { hash: \"vec4\" }>\n implements HasDynoOut<\"vec4\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"vec4\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const words = hash4(value);\n return { hash: mul(vec4(words), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"vec4\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class NormalizedDepth\n extends Dyno<\n { z: \"float\"; zNear: \"float\"; zFar: \"float\" },\n { depth: \"float\" }\n >\n implements HasDynoOut<\"float\">\n{\n constructor({\n z,\n zNear,\n zFar,\n }: { z: DynoVal<\"float\">; zNear: DynoVal<\"float\">; zFar: DynoVal<\"float\"> }) {\n super({\n inTypes: { z: \"float\", zNear: \"float\", zFar: \"float\" },\n outTypes: { depth: \"float\" },\n inputs: { z, zNear, zFar },\n statements: ({ inputs, outputs }) => [\n `float clamped = clamp(${inputs.z}, ${inputs.zNear}, ${inputs.zFar});`,\n `${outputs.depth} = (log2(clamped + 1.0) - log2(${inputs.zNear} + 1.0)) / (log2(${inputs.zFar} + 1.0) - log2(${inputs.zNear} + 1.0));`,\n ],\n });\n }\n\n dynoOut(): DynoValue<\"float\"> {\n return new DynoOutput(this, \"depth\");\n }\n}\n\nexport class DebugColorHue\n extends Dyno<{ index: \"int\" }, { color: \"vec3\" }>\n implements HasDynoOut<\"vec3\">\n{\n constructor({ index }: { index: DynoVal<\"int\"> }) {\n super({\n inTypes: { index: \"int\" },\n outTypes: { color: \"vec3\" },\n inputs: { index },\n statements: ({ inputs, outputs }) => [\n `${outputs.color} = debugColorHue(uint(${inputs.index}));`,\n ],\n });\n }\n\n dynoOut(): DynoValue<\"vec3\"> {\n return new DynoOutput(this, \"color\");\n }\n}\n","import { Dyno } from \"./base\";\nimport type { DynoVal } from \"./value\";\n\nexport const transformPos = (\n position: DynoVal<\"vec3\">,\n {\n scale,\n scales,\n rotate,\n translate,\n }: {\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n },\n): DynoVal<\"vec3\"> => {\n return new TransformPosition({ position, scale, scales, rotate, translate })\n .outputs.position;\n};\nexport const transformDir = (\n dir: DynoVal<\"vec3\">,\n {\n scale,\n scales,\n rotate,\n }: {\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n },\n): DynoVal<\"vec3\"> => {\n return new TransformDir({ dir, scale, scales, rotate }).outputs.dir;\n};\nexport const transformQuat = (\n quaternion: DynoVal<\"vec4\">,\n { rotate }: { rotate?: DynoVal<\"vec4\"> },\n): DynoVal<\"vec4\"> => {\n return new TransformQuaternion({ quaternion, rotate }).outputs.quaternion;\n};\n\nexport class TransformPosition extends Dyno<\n {\n position: \"vec3\";\n scale: \"float\";\n scales: \"vec3\";\n rotate: \"vec4\";\n translate: \"vec3\";\n },\n { position: \"vec3\" }\n> {\n constructor({\n position,\n scale,\n scales,\n rotate,\n translate,\n }: {\n position?: DynoVal<\"vec3\">;\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n }) {\n super({\n inTypes: {\n position: \"vec3\",\n scale: \"float\",\n scales: \"vec3\",\n rotate: \"vec4\",\n translate: \"vec3\",\n },\n outTypes: { position: \"vec3\" },\n inputs: { position, scale, scales, rotate, translate },\n statements: ({ inputs, outputs }) => {\n const { position } = outputs;\n if (!position) {\n return [];\n }\n const { scale, scales, rotate, translate } = inputs;\n return [\n `${position} = ${inputs.position ?? \"vec3(0.0, 0.0, 0.0)\"};`,\n !scale ? null : `${position} *= ${scale};`,\n !scales ? null : `${position} *= ${scales};`,\n !rotate ? null : `${position} = quatVec(${rotate}, ${position});`,\n !translate ? null : `${position} += ${translate};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class TransformDir extends Dyno<\n { dir: \"vec3\"; scale: \"float\"; scales: \"vec3\"; rotate: \"vec4\" },\n { dir: \"vec3\" }\n> {\n constructor({\n dir,\n scale,\n scales,\n rotate,\n }: {\n dir?: DynoVal<\"vec3\">;\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: { dir: \"vec3\", scale: \"float\", scales: \"vec3\", rotate: \"vec4\" },\n outTypes: { dir: \"vec3\" },\n inputs: { dir, scale, scales, rotate },\n statements: ({ inputs, outputs }) => {\n const { dir } = outputs;\n if (!dir) {\n return [];\n }\n const { scale, scales, rotate } = inputs;\n return [\n `${dir} = ${inputs.dir ?? \"vec3(0.0, 0.0, 0.0)\"};`,\n !scale ? null : `${dir} *= ${scale};`,\n !scales ? null : `${dir} *= ${scales};`,\n !rotate ? null : `${dir} = quatVec(${rotate}, ${dir});`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class TransformQuaternion extends Dyno<\n { quaternion: \"vec4\"; rotate: \"vec4\" },\n { quaternion: \"vec4\" }\n> {\n constructor({\n quaternion,\n rotate,\n }: { quaternion?: DynoVal<\"vec4\">; rotate?: DynoVal<\"vec4\"> }) {\n super({\n inTypes: { quaternion: \"vec4\", rotate: \"vec4\" },\n outTypes: { quaternion: \"vec4\" },\n inputs: { quaternion, rotate },\n statements: ({ inputs, outputs }) => {\n const { quaternion } = outputs;\n if (!quaternion) {\n return [];\n }\n return [\n `${quaternion} = ${inputs.quaternion ?? \"vec4(0.0, 0.0, 0.0, 1.0)\"};`,\n !rotate\n ? null\n : `${quaternion} = quatQuat(${inputs.rotate}, ${quaternion});`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n","// TODO:\n// if, switch, for, comment,\n// arrayIndex, arrayLength,\n\nexport const dynoIf = () => {\n throw new Error(\"Not implemented\");\n};\nexport const dynoSwitch = () => {\n throw new Error(\"Not implemented\");\n};\nexport const dynoFor = () => {\n throw new Error(\"Not implemented\");\n};\nexport const comment = () => {\n throw new Error(\"Not implemented\");\n};\nexport const arrayIndex = () => {\n throw new Error(\"Not implemented\");\n};\nexport const arrayLength = () => {\n throw new Error(\"Not implemented\");\n};\n","import { Dyno } from \"./base\";\nimport type {\n AllSamplerTypes,\n IsamplerTypes,\n NormalSamplerTypes,\n Sampler2DArrayTypes,\n Sampler2DTypes,\n Sampler3DTypes,\n SamplerCubeTypes,\n SamplerShadowTypes,\n SamplerTypes,\n UsamplerTypes,\n} from \"./types\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n valType,\n} from \"./value\";\n\nexport const textureSize = (\n texture: DynoVal,\n lod?: DynoVal<\"int\">,\n): DynoVal> => new TextureSize({ texture, lod });\nexport const texture = (\n texture: DynoVal,\n coord: DynoVal>,\n bias?: DynoVal<\"float\">,\n): DynoVal> => new Texture({ texture, coord, bias });\nexport const texelFetch = (\n texture: DynoVal,\n coord: DynoVal>,\n lod?: DynoVal<\"int\">,\n): DynoVal> => new TexelFetch({ texture, coord, lod });\n\nexport class TextureSize\n extends Dyno<{ texture: T; lod: \"int\" }, { size: TextureSizeType }>\n implements HasDynoOut>\n{\n constructor({ texture, lod }: { texture: DynoVal; lod?: DynoVal<\"int\"> }) {\n const textureType = valType(texture);\n super({\n inTypes: { texture: textureType, lod: \"int\" },\n outTypes: { size: textureSizeType(textureType) },\n inputs: { texture, lod },\n statements: ({ inputs, outputs }) => [\n `${outputs.size} = textureSize(${inputs.texture}, ${inputs.lod ?? \"0\"});`,\n ],\n });\n }\n\n dynoOut(): DynoValue> {\n return new DynoOutput(this, \"size\");\n }\n}\n\nexport class Texture\n extends Dyno<\n { texture: T; coord: TextureCoordType; bias: \"float\" },\n { sample: TextureReturnType }\n >\n implements HasDynoOut>\n{\n constructor({\n texture,\n coord,\n bias,\n }: {\n texture: DynoVal;\n coord: DynoVal>;\n bias?: DynoVal<\"float\">;\n }) {\n const textureType = valType(texture);\n super({\n inTypes: {\n texture: textureType,\n coord: textureCoordType(textureType),\n bias: \"float\",\n },\n outTypes: { sample: textureReturnType(textureType) },\n inputs: { texture, coord, bias },\n statements: ({ inputs, outputs }) => [\n `${outputs.sample} = texture(${inputs.texture}, ${inputs.coord}${inputs.bias ? `, ${inputs.bias}` : \"\"});`,\n ],\n });\n }\n\n dynoOut(): DynoValue> {\n return new DynoOutput(this, \"sample\");\n }\n}\n\nexport class TexelFetch\n extends Dyno<\n { texture: T; coord: TextureSizeType; lod: \"int\" },\n { texel: TextureReturnType }\n >\n implements HasDynoOut>\n{\n constructor({\n texture,\n coord,\n lod,\n }: {\n texture: DynoVal;\n coord: DynoVal>;\n lod?: DynoVal<\"int\">;\n }) {\n const textureType = valType(texture);\n super({\n inTypes: {\n texture: textureType,\n coord: textureSizeType(textureType),\n lod: \"int\",\n },\n outTypes: { texel: textureReturnType(textureType) },\n inputs: { texture, coord, lod },\n statements: ({ inputs, outputs }) => [\n `${outputs.texel} = texelFetch(${inputs.texture}, ${inputs.coord}, ${inputs.lod ?? \"0\"});`,\n ],\n });\n }\n\n dynoOut(): DynoValue> {\n return new DynoOutput(this, \"texel\");\n }\n}\n\ntype TextureSizeType = T extends\n | Sampler2DTypes\n | SamplerCubeTypes\n ? \"ivec2\"\n : T extends Sampler3DTypes | Sampler2DArrayTypes\n ? \"ivec3\"\n : never;\n\nfunction textureSizeType(\n textureType: T,\n): TextureSizeType {\n switch (textureType) {\n case \"sampler2D\":\n case \"usampler2D\":\n case \"isampler2D\":\n case \"samplerCube\":\n case \"usamplerCube\":\n case \"isamplerCube\":\n case \"sampler2DShadow\":\n case \"samplerCubeShadow\":\n return \"ivec2\" as TextureSizeType;\n case \"sampler3D\":\n case \"usampler3D\":\n case \"isampler3D\":\n case \"sampler2DArray\":\n case \"usampler2DArray\":\n case \"isampler2DArray\":\n case \"sampler2DArrayShadow\":\n return \"ivec3\" as TextureSizeType;\n default:\n throw new Error(`Invalid texture type: ${textureType}`);\n }\n}\n\ntype TextureCoordType = T extends Sampler2DTypes\n ? \"vec2\"\n : T extends\n | Sampler3DTypes\n | Sampler2DArrayTypes\n | SamplerCubeTypes\n | Sampler2DArrayTypes\n ? \"vec3\"\n : T extends \"samperCubeShadow\" | \"sampler2DArrayShadow\"\n ? \"vec4\"\n : never;\n\nfunction textureCoordType(\n textureType: T,\n): TextureCoordType {\n switch (textureType) {\n case \"sampler2D\":\n case \"usampler2D\":\n case \"isampler2D\":\n return \"vec2\" as TextureCoordType;\n case \"sampler3D\":\n case \"usampler3D\":\n case \"isampler3D\":\n case \"samplerCube\":\n case \"usamplerCube\":\n case \"isamplerCube\":\n case \"sampler2DArray\":\n case \"usampler2DArray\":\n case \"isampler2DArray\":\n case \"sampler2DShadow\":\n return \"vec3\" as TextureCoordType;\n case \"samplerCubeShadow\":\n case \"sampler2DArrayShadow\":\n return \"vec4\" as TextureCoordType;\n default:\n throw new Error(`Invalid texture type: ${textureType}`);\n }\n}\n\ntype TextureReturnType = T extends SamplerTypes\n ? \"vec4\"\n : T extends UsamplerTypes\n ? \"uvec4\"\n : T extends IsamplerTypes\n ? \"ivec4\"\n : T extends SamplerShadowTypes\n ? \"float\"\n : never;\n\nfunction textureReturnType(\n textureType: T,\n): TextureReturnType {\n switch (textureType) {\n case \"sampler2D\":\n case \"sampler2DArray\":\n case \"sampler3D\":\n case \"samplerCube\":\n case \"sampler2DShadow\":\n return \"vec4\" as TextureReturnType;\n case \"usampler2D\":\n case \"usampler2DArray\":\n case \"usampler3D\":\n case \"usamplerCube\":\n return \"uvec4\" as TextureReturnType;\n case \"isampler2D\":\n case \"isampler2DArray\":\n case \"isampler3D\":\n case \"isamplerCube\":\n return \"ivec4\" as TextureReturnType;\n case \"samplerCubeShadow\":\n case \"sampler2DArrayShadow\":\n return \"float\" as TextureReturnType;\n default:\n throw new Error(`Invalid texture type: ${textureType}`);\n }\n}\n","import { BinaryOp, UnaryOp } from \"./base\";\nimport type { FloatTypes } from \"./types\";\nimport type { DynoVal } from \"./value\";\n\nexport const radians = (\n degrees: DynoVal,\n): DynoVal => new Radians({ degrees });\nexport const degrees = (\n radians: DynoVal,\n): DynoVal => new Degrees({ radians });\n\nexport const sin = (radians: DynoVal): DynoVal =>\n new Sin({ radians });\nexport const cos = (radians: DynoVal): DynoVal =>\n new Cos({ radians });\nexport const tan = (radians: DynoVal): DynoVal =>\n new Tan({ radians });\n\nexport const asin = (sin: DynoVal): DynoVal =>\n new Asin({ sin });\nexport const acos = (cos: DynoVal): DynoVal =>\n new Acos({ cos });\nexport const atan = (tan: DynoVal): DynoVal =>\n new Atan({ tan });\nexport const atan2 = (\n y: DynoVal,\n x: DynoVal,\n): DynoVal => new Atan2({ y, x });\n\nexport const sinh = (x: DynoVal): DynoVal =>\n new Sinh({ x });\nexport const cosh = (x: DynoVal): DynoVal =>\n new Cosh({ x });\nexport const tanh = (x: DynoVal): DynoVal =>\n new Tanh({ x });\n\nexport const asinh = (x: DynoVal): DynoVal =>\n new Asinh({ x });\nexport const acosh = (x: DynoVal): DynoVal =>\n new Acosh({ x });\nexport const atanh = (x: DynoVal): DynoVal =>\n new Atanh({ x });\n\nexport class Radians extends UnaryOp {\n constructor({ degrees }: { degrees: DynoVal }) {\n super({ a: degrees, outTypeFunc: (aType) => aType, outKey: \"radians\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.radians} = radians(${inputs.a});`,\n ];\n }\n}\n\nexport class Degrees extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"degrees\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.degrees} = degrees(${inputs.a});`,\n ];\n }\n}\n\nexport class Sin extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"sin\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.sin} = sin(${inputs.a});`,\n ];\n }\n}\n\nexport class Cos extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"cos\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.cos} = cos(${inputs.a});`,\n ];\n }\n}\n\nexport class Tan extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"tan\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.tan} = tan(${inputs.a});`,\n ];\n }\n}\n\nexport class Asin extends UnaryOp {\n constructor({ sin }: { sin: DynoVal }) {\n super({ a: sin, outTypeFunc: (aType) => aType, outKey: \"asin\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.asin} = asin(${inputs.a});`,\n ];\n }\n}\n\nexport class Acos extends UnaryOp {\n constructor({ cos }: { cos: DynoVal }) {\n super({ a: cos, outTypeFunc: (aType) => aType, outKey: \"acos\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.acos} = acos(${inputs.a});`,\n ];\n }\n}\n\nexport class Atan extends UnaryOp {\n constructor({ tan }: { tan: DynoVal }) {\n super({ a: tan, outTypeFunc: (aType) => aType, outKey: \"atan\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.atan} = atan(${inputs.a});`,\n ];\n }\n}\n\nexport class Atan2 extends BinaryOp {\n constructor({ y, x }: { y: DynoVal; x: DynoVal }) {\n super({\n a: y,\n b: x,\n outTypeFunc: (aType, bType) => aType,\n outKey: \"atan2\",\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.atan2} = atan2(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Sinh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"sinh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.sinh} = sinh(${inputs.a});`,\n ];\n }\n}\n\nexport class Cosh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"cosh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.cosh} = cosh(${inputs.a});`,\n ];\n }\n}\n\nexport class Tanh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"tanh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.tanh} = tanh(${inputs.a});`,\n ];\n }\n}\n\nexport class Asinh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"asinh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.asinh} = asinh(${inputs.a});`,\n ];\n }\n}\n\nexport class Acosh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"acosh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.acosh} = acosh(${inputs.a});`,\n ];\n }\n}\n\nexport class Atanh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"atanh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.atanh} = atanh(${inputs.a});`,\n ];\n }\n}\n","import * as THREE from \"three\";\nimport type { RgbaArray } from \"./RgbaArray\";\nimport { SplatLoader } from \"./SplatLoader\";\nimport type { SplatSource } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport { SPLAT_TEX_WIDTH, type SplatFileType } from \"./defines\";\nimport {\n Dyno,\n DynoInt,\n type DynoType,\n DynoUniform,\n DynoUsampler2DArray,\n type DynoVal,\n type Gsplat,\n TExtSplats,\n add,\n combineGsplat,\n defineExtSplats,\n normalize,\n readExtSplat,\n splatTexCoord,\n splitGsplat,\n sub,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { decodeExtSplat, encodeExtSplat, getTextureSize } from \"./utils\";\n\nexport type ExtSplatsOptions = {\n // URL to fetch a Gaussian splat file from (supports .ply, .splat, .ksplat,\n // .spz formats). (default: undefined)\n url?: string;\n // Raw bytes of a Gaussian splat file to decode directly instead of fetching\n // from URL. (default: undefined)\n fileBytes?: Uint8Array | ArrayBuffer;\n // Override the file type detection for formats that can't be reliably\n // auto-detected (.splat, .ksplat). (default: undefined auto-detects other\n // formats from file contents)\n fileType?: SplatFileType;\n // File name to use for type detection. (default: undefined)\n fileName?: string;\n // Stream to read the Gaussian splat file from. (default: undefined)\n stream?: ReadableStream;\n // Length of the stream in bytes. (default: undefined)\n streamLength?: number;\n // Reserve space for at least this many splats when constructing the collection\n // initially. The array will automatically resize past maxSplats so setting it is\n // an optional optimization. (default: 0)\n maxSplats?: number;\n // Use provided pair of uint32 arrays, where blocks of 4 uint32s in each,\n // encode an \"extended packed\" Gsplat. (default: undefined)\n extArrays?: [Uint32Array, Uint32Array];\n // Override number of splats in packed arrays to use only a subset.\n // (default: length of packed array / 4)\n numSplats?: number;\n // Callback function to programmatically create splats at initialization.\n // (default: undefined)\n construct?: (splats: ExtSplats) => Promise | void;\n // Callback function called while downloading and initializing (default: undefined)\n onProgress?: (event: ProgressEvent) => void;\n // Additional splat data, such as spherical harmonics components (sh1, sh2, sh3). (default: {})\n extra?: Record;\n // Enable LOD. If a number is provided, it will be used as LoD level base,\n // otherwise the default 1.5 is used. When loading a file without pre-computed\n // LoD it will use the \"quick lod\" algorithm to generate one on-the-fly with\n // the selected LoD level base. (default: undefined=false)\n lod?: boolean | \"quality\";\n // Keep the original PackedSplats data before creating LoD version. (default: false)\n nonLod?: boolean;\n // Only create LoD if the input splat acount is above this\n lodAbove?: number;\n // The LoD version of the ExtSplats\n lodSplats?: ExtSplats;\n};\n\nexport class ExtSplats implements SplatSource {\n maxSplats = 0;\n numSplats = 0;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record = {};\n maxSh = 3;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodSplats?: ExtSplats;\n\n initialized: Promise;\n isInitialized = false;\n\n textures: [THREE.DataArrayTexture, THREE.DataArrayTexture];\n\n // A PackedSplats can be used in a dyno graph using the below property dyno:\n // const gsplat = dyno.readPackedSplats(this.dyno, dynoIndex);\n dyno: DynoUniform;\n dynoNumSh: DynoInt<\"numSh\">;\n\n constructor(options: ExtSplatsOptions = {}) {\n this.extArrays = [new Uint32Array(0), new Uint32Array(0)];\n this.textures = [ExtSplats.emptyTexture, ExtSplats.emptyTexture];\n\n this.extra = {};\n this.dyno = new DynoExtSplats({ extSplats: this });\n this.dynoNumSh = new DynoInt({\n key: \"numSh\",\n value: 0,\n update: () => {\n return Math.min(this.getNumSh(), this.maxSh);\n },\n });\n\n // The following line will be overridden by reinitialize()\n this.initialized = Promise.resolve(this);\n this.reinitialize(options);\n }\n\n reinitialize(options: ExtSplatsOptions) {\n this.isInitialized = false;\n\n this.extra = {};\n this.maxSplats = options.maxSplats ?? 0;\n this.lod = options.lod;\n this.nonLod = options.nonLod;\n\n if (\n options.url ||\n options.fileBytes ||\n options.stream ||\n options.construct\n ) {\n // We need to initialize asynchronously given the options\n this.initialized = this.asyncInitialize(options).then(() => {\n this.isInitialized = true;\n return this;\n });\n } else {\n this.initialize(options);\n this.isInitialized = true;\n this.initialized = Promise.resolve(this);\n }\n }\n\n initialize(options: ExtSplatsOptions) {\n this.extra = options.extra ?? {};\n this.lodSplats = options.lodSplats;\n\n if (options.extArrays) {\n this.extArrays = options.extArrays;\n this.maxSplats = Math.floor(\n Math.min(this.extArrays[0].length / 4, this.extArrays[1].length / 4),\n );\n this.numSplats = options.numSplats ?? this.maxSplats;\n\n // Calculate number of horizontal texture rows that could fit in array.\n // A properly initialized packedArray should already take into account the\n // width and height of the texture and be rounded up with padding.\n this.maxSplats =\n Math.floor(this.maxSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n this.numSplats = Math.min(\n this.maxSplats,\n options.numSplats ?? Number.POSITIVE_INFINITY,\n );\n this.updateTextures();\n } else {\n this.maxSplats = options.maxSplats ?? 0;\n this.numSplats = 0;\n this.extArrays = [new Uint32Array(0), new Uint32Array(0)];\n }\n }\n\n async asyncInitialize(options: ExtSplatsOptions) {\n const {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n construct,\n lod,\n nonLod,\n lodAbove,\n } = options;\n this.lod = lod;\n this.nonLod = nonLod;\n\n const loader = new SplatLoader();\n if (fileBytes || url || stream) {\n await loader.loadInternalAsync({\n extSplats: this,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress: options.onProgress,\n lodAbove,\n });\n }\n\n if (construct) {\n const maybePromise = construct(this);\n // If construct returns a promise, wait for it to complete\n if (maybePromise instanceof Promise) {\n await maybePromise;\n }\n }\n }\n\n // Call this when you are finished with the PackedSplats and want to free\n // any buffers it holds.\n dispose() {\n if (this.textures[0] !== ExtSplats.emptyTexture) {\n this.textures[0].dispose();\n this.textures[0].source.data = null;\n this.textures[0] = ExtSplats.emptyTexture;\n }\n if (this.textures[1] !== ExtSplats.emptyTexture) {\n this.textures[1].dispose();\n this.textures[1].source.data = null;\n this.textures[1] = ExtSplats.emptyTexture;\n }\n\n this.extArrays = [new Uint32Array(0), new Uint32Array(0)];\n\n for (const key in this.extra) {\n const dyno = this.extra[key] as DynoUniform<\n DynoType,\n string,\n THREE.Texture\n >;\n if (dyno instanceof DynoUniform) {\n const texture = dyno.value;\n if (texture?.isTexture) {\n texture.dispose();\n texture.source.data = null;\n }\n }\n }\n this.extra = {};\n\n this.disposeLodSplats();\n }\n\n prepareFetchSplat() {\n // console.info(\"ExtSplats.prepareFetchSplat\");\n }\n\n getNumSplats(): number {\n return this.numSplats;\n }\n\n hasRgbDir(): boolean {\n return Math.min(this.getNumSh(), this.maxSh) > 0;\n }\n\n getNumSh(): number {\n return !this.extra.sh1\n ? 0\n : !this.extra.sh2\n ? 1\n : !this.extra.sh3a || !this.extra.sh3b\n ? 2\n : 3;\n }\n\n setMaxSh(maxSh: number) {\n this.maxSh = maxSh;\n }\n\n fetchSplat({\n index,\n viewOrigin,\n }: { index: DynoVal<\"int\">; viewOrigin?: DynoVal<\"vec3\"> }): DynoVal<\n typeof Gsplat\n > {\n let gsplat = readExtSplat(this.dyno, index);\n\n if (this.hasRgbDir() && viewOrigin) {\n const splatCenter = splitGsplat(gsplat).outputs.center;\n const viewDir = normalize(sub(splatCenter, viewOrigin));\n const { sh1Texture, sh2Texture, sh3TextureA, sh3TextureB } =\n this.ensureShTextures();\n let { rgb } = evaluateExtSH({\n coord: splatTexCoord(index),\n viewDir,\n numSh: this.dynoNumSh,\n sh1Texture,\n sh2Texture,\n sh3TextureA,\n sh3TextureB,\n });\n rgb = add(rgb, splitGsplat(gsplat).outputs.rgb);\n gsplat = combineGsplat({ gsplat, rgb });\n }\n return gsplat;\n }\n\n private ensureShTextures(): {\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3TextureA?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n sh3TextureB?: DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>;\n } {\n // Ensure we have textures for SH1..SH3 if we have data\n if (!this.extra.sh1) {\n return {};\n }\n\n let sh1Texture = this.extra.sh1Texture as\n | DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>\n | undefined;\n if (!sh1Texture) {\n let sh1 = this.extra.sh1 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh1.length / 4,\n );\n if (sh1.length < maxSplats * 4) {\n const newSh1 = new Uint32Array(maxSplats * 4);\n newSh1.set(sh1);\n this.extra.sh1 = newSh1;\n sh1 = newSh1;\n }\n const texture = newUint32ArrayTexture(\n sh1,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh1Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh1\",\n });\n this.extra.sh1Texture = sh1Texture;\n }\n\n if (!this.extra.sh2) {\n return { sh1Texture };\n }\n\n let sh2Texture = this.extra.sh2Texture as\n | DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>\n | undefined;\n if (!sh2Texture) {\n let sh2 = this.extra.sh2 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh2.length / 4,\n );\n if (sh2.length < maxSplats * 4) {\n const newSh2 = new Uint32Array(maxSplats * 4);\n newSh2.set(sh2);\n this.extra.sh2 = newSh2;\n sh2 = newSh2;\n }\n\n const texture = newUint32ArrayTexture(\n sh2,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh2Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh2\",\n });\n this.extra.sh2Texture = sh2Texture;\n }\n\n if (!this.extra.sh3a || !this.extra.sh3b) {\n return { sh1Texture, sh2Texture };\n }\n\n let sh3TextureA = this.extra.sh3TextureA as\n | DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>\n | undefined;\n if (!sh3TextureA) {\n let sh3a = this.extra.sh3a as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh3a.length / 4,\n );\n if (sh3a.length < maxSplats * 4) {\n const newSh3 = new Uint32Array(maxSplats * 4);\n newSh3.set(sh3a);\n this.extra.sh3a = newSh3;\n sh3a = newSh3;\n }\n\n const texture = newUint32ArrayTexture(\n sh3a,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh3TextureA = new DynoUsampler2DArray({\n value: texture,\n key: \"sh3\",\n });\n this.extra.sh3TextureA = sh3TextureA;\n }\n\n let sh3TextureB = this.extra.sh3TextureB as\n | DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>\n | undefined;\n if (!sh3TextureB) {\n let sh3b = this.extra.sh3b as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh3b.length / 4,\n );\n if (sh3b.length < maxSplats * 4) {\n const newSh3b = new Uint32Array(maxSplats * 4);\n newSh3b.set(sh3b);\n this.extra.sh3b = newSh3b;\n sh3b = newSh3b;\n }\n\n const texture = newUint32ArrayTexture(\n sh3b,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh3TextureB = new DynoUsampler2DArray({\n value: texture,\n key: \"sh3b\",\n });\n this.extra.sh3TextureB = sh3TextureB;\n }\n\n return { sh1Texture, sh2Texture, sh3TextureA, sh3TextureB };\n }\n\n // Ensures that this.extArrays can fit numSplats Gsplats. If it's too small,\n // resize exponentially and copy over the original data.\n //\n // Typically you don't need to call this, because calling this.setSplat(index, ...)\n // and this.pushSplat(...) will automatically call ensureSplats() so we have\n // enough splats.\n ensureSplats(numSplats: number): [Uint32Array, Uint32Array] {\n const targetSize =\n numSplats <= this.maxSplats\n ? this.maxSplats\n : // Grow exponentially to avoid frequent reallocations\n Math.max(numSplats, 2 * this.maxSplats);\n const currentSize = !this.extArrays[0] ? 0 : this.extArrays[0].length / 4;\n\n if (!this.extArrays[0] || targetSize > currentSize) {\n this.maxSplats = getTextureSize(targetSize).maxSplats;\n const newArray0 = new Uint32Array(this.maxSplats * 4);\n const newArray1 = new Uint32Array(this.maxSplats * 4);\n if (this.extArrays[0]) {\n // Copy over existing data\n newArray0.set(this.extArrays[0]);\n newArray1.set(this.extArrays[1]);\n }\n this.extArrays[0] = newArray0;\n this.extArrays[1] = newArray1;\n }\n return this.extArrays;\n }\n\n // Unpack the 16-byte Gsplat data at index into the Three.js components\n // center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion,\n // opacity: number 0..1, color: THREE.Color 0..1.\n getSplat(index: number): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n opacity: number;\n color: THREE.Color;\n } {\n if (index >= this.numSplats) {\n throw new Error(\"Invalid index\");\n }\n return decodeExtSplat(this.extArrays, index);\n }\n\n // Set all ExtSplat components at index with the provided Gsplat attributes\n // (can be the same objects returned by getSplat). Ensures there is capacity\n // for at least index+1 Gsplats.\n setSplat(\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const extArrays = this.ensureSplats(index + 1);\n encodeExtSplat(\n extArrays,\n index,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n this.numSplats = Math.max(this.numSplats, index + 1);\n }\n\n // Effectively calls this.setSplat(this.numSplats++, center, ...), useful on\n // construction where you just want to iterate and create a collection of Gsplats.\n pushSplat(\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const extArrays = this.ensureSplats(this.numSplats + 1);\n encodeExtSplat(\n extArrays,\n this.numSplats,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n ++this.numSplats;\n }\n\n // Iterate over Gsplats index 0..=(this.numSplats-1), unpack each Gsplat\n // and invoke the callback function with the Gsplat attributes.\n forEachSplat(\n callback: (\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => void,\n ) {\n if (!this.numSplats) {\n return;\n }\n for (let i = 0; i < this.numSplats; ++i) {\n const unpacked = decodeExtSplat(this.extArrays, i);\n callback(\n i,\n unpacked.center,\n unpacked.scales,\n unpacked.quaternion,\n unpacked.opacity,\n unpacked.color,\n );\n }\n }\n\n // Check if source texture needs to be created/updated\n private updateTextures() {\n if (this.textures[0] !== ExtSplats.emptyTexture) {\n const { width, height, depth } = this.textures[0].image;\n if (this.maxSplats !== width * height * depth) {\n // The existing source texture isn't the right size, so dispose it\n this.textures[0].dispose();\n this.textures[0] = ExtSplats.emptyTexture;\n this.textures[1].dispose();\n this.textures[1] = ExtSplats.emptyTexture;\n }\n }\n if (this.textures[0] === ExtSplats.emptyTexture) {\n // Allocate a new source texture of the right size\n const { width, height, depth } = getTextureSize(this.maxSplats);\n this.textures[0] = newUint32ArrayTexture(\n this.extArrays[0],\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n this.textures[1] = newUint32ArrayTexture(\n this.extArrays[1],\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n } else if (\n this.extArrays[0].buffer !== this.textures[0].image.data.buffer\n ) {\n this.textures[0].image.data = new Uint8Array(this.extArrays[0].buffer);\n this.textures[1].image.data = new Uint8Array(this.extArrays[1].buffer);\n // Indicate to Three.js that the source textures needs to be uploaded to the GPU\n this.textures[0].needsUpdate = true;\n this.textures[1].needsUpdate = true;\n }\n }\n\n extractSplats(indices: Uint32Array, pageColoring: boolean) {\n const maxSplats = getTextureSize(indices.length).maxSplats;\n const newSplats = new ExtSplats({ maxSplats });\n for (let i = 0; i < indices.length; i++) {\n const splat = this.getSplat(indices[i]);\n if (pageColoring) {\n let hue = (indices[i] >>> 16) * 0.61803398875;\n hue = hue - Math.floor(hue);\n const r = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 3.0) - 1.0));\n const g = Math.max(0, Math.min(1, Math.abs(hue * 6.0 + 1.0) - 1.0));\n const b = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 1.0) - 1.0));\n splat.color.r *= r;\n splat.color.g *= g;\n splat.color.b *= b;\n }\n newSplats.pushSplat(\n splat.center,\n splat.scales,\n splat.quaternion,\n splat.opacity,\n splat.color,\n );\n }\n return newSplats;\n }\n\n static emptyArray = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyTexture = newUint32ArrayTexture(\n null,\n 1,\n 1,\n 1,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n\n disposeLodSplats() {\n if (this.lodSplats) {\n this.lodSplats.dispose();\n this.lodSplats = undefined;\n }\n }\n\n async createLodSplats({\n rgbaArray,\n quality,\n }: { rgbaArray?: RgbaArray; quality?: boolean } = {}) {\n const lodBase =\n typeof this.lod === \"number\"\n ? Math.max(1.1, Math.min(2.0, this.lod))\n : quality\n ? 1.75\n : 1.5;\n const extArrays = [this.extArrays[0].slice(), this.extArrays[1].slice()];\n const rgba = rgbaArray ? (await rgbaArray.getArray()).slice() : undefined;\n const extra = {\n sh1: this.extra.sh1 ? (this.extra.sh1 as Uint32Array).slice() : undefined,\n sh2: this.extra.sh2 ? (this.extra.sh2 as Uint32Array).slice() : undefined,\n sh3: this.extra.sh3 ? (this.extra.sh3 as Uint32Array).slice() : undefined,\n };\n const decoded = await workerPool.withWorker(async (worker) => {\n return (await worker.call(\n quality ? \"qualityLodExtSplats\" : \"tinyLodExtSplats\",\n {\n numSplats: this.numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n },\n )) as {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record;\n };\n });\n\n const lodSplats = new ExtSplats(decoded);\n if (this.lodSplats) {\n this.lodSplats.dispose();\n }\n\n this.lodSplats = lodSplats;\n this.nonLod = true;\n this.lod = quality ? \"quality\" : true;\n }\n\n static emptyUint32x4 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n}\n\nexport const dynoExtSplats = (extSplats?: ExtSplats) =>\n new DynoExtSplats({ extSplats });\n\nexport class DynoExtSplats extends DynoUniform<\n typeof TExtSplats,\n \"extSplats\",\n {\n textureArray1: THREE.DataArrayTexture;\n textureArray2: THREE.DataArrayTexture;\n numSplats: number;\n }\n> {\n extSplats?: ExtSplats;\n\n constructor({ extSplats }: { extSplats?: ExtSplats } = {}) {\n super({\n key: \"extSplats\",\n type: TExtSplats,\n globals: () => [defineExtSplats],\n value: {\n textureArray1: ExtSplats.emptyTexture,\n textureArray2: ExtSplats.emptyTexture,\n numSplats: 0,\n },\n update: (value) => {\n value.textureArray1 =\n this.extSplats?.textures[0] ?? ExtSplats.emptyTexture;\n value.textureArray2 =\n this.extSplats?.textures[1] ?? ExtSplats.emptyTexture;\n value.numSplats = this.extSplats?.numSplats ?? 0;\n return value;\n },\n });\n this.extSplats = extSplats;\n }\n}\n\nexport const defineEvaluateExtSH1 = unindent(`\n vec3 evaluateExtSH1(uvec4 packed, vec3 viewDir) {\n vec3 sh1_0 = decodeExtRgb(packed.x);\n vec3 sh1_1 = decodeExtRgb(packed.y);\n vec3 sh1_2 = decodeExtRgb(packed.z);\n\n return sh1_0 * (-0.4886025 * viewDir.y)\n + sh1_1 * (0.4886025 * viewDir.z)\n + sh1_2 * (-0.4886025 * viewDir.x);\n }\n`);\n\nexport const defineEvaluateExtSH12 = unindent(`\n vec3 evaluateExtSH12(uvec4 packed1, uvec4 packed2, vec3 viewDir) {\n vec3 sh1_0 = decodeExtRgb(packed1.x);\n vec3 sh1_1 = decodeExtRgb(packed1.y);\n vec3 sh1_2 = decodeExtRgb(packed1.z);\n\n vec3 sh2_0 = decodeExtRgb(packed1.w);\n vec3 sh2_1 = decodeExtRgb(packed2.x);\n vec3 sh2_2 = decodeExtRgb(packed2.y);\n vec3 sh2_3 = decodeExtRgb(packed2.z);\n vec3 sh2_4 = decodeExtRgb(packed2.w);\n\n vec3 sh1Rgb = sh1_0 * (-0.4886025 * viewDir.y)\n + sh1_1 * (0.4886025 * viewDir.z)\n + sh1_2 * (-0.4886025 * viewDir.x);\n\n vec3 sh2Rgb = sh2_0 * (1.0925484 * viewDir.x * viewDir.y)\n + sh2_1 * (-1.0925484 * viewDir.y * viewDir.z)\n + sh2_2 * (0.3153915 * (2.0 * viewDir.z * viewDir.z - viewDir.x * viewDir.x - viewDir.y * viewDir.y))\n + sh2_3 * (-1.0925484 * viewDir.x * viewDir.z)\n + sh2_4 * (0.5462742 * (viewDir.x * viewDir.x - viewDir.y * viewDir.y));\n\n return sh1Rgb + sh2Rgb;\n }\n`);\n\nexport const defineEvaluateExtSH3 = unindent(`\n vec3 evaluateExtSH3(uvec4 packedA, uvec4 packedB, vec3 viewDir) {\n vec3 sh3_0 = decodeExtRgb(packedA.x);\n vec3 sh3_1 = decodeExtRgb(packedA.y);\n vec3 sh3_2 = decodeExtRgb(packedA.z);\n vec3 sh3_3 = decodeExtRgb(packedA.w);\n vec3 sh3_4 = decodeExtRgb(packedB.x);\n vec3 sh3_5 = decodeExtRgb(packedB.y);\n vec3 sh3_6 = decodeExtRgb(packedB.z);\n\n float xx = viewDir.x * viewDir.x;\n float yy = viewDir.y * viewDir.y;\n float zz = viewDir.z * viewDir.z;\n float xy = viewDir.x * viewDir.y;\n float yz = viewDir.y * viewDir.z;\n float zx = viewDir.z * viewDir.x;\n\n return sh3_0 * (-0.5900436 * viewDir.y * (3.0 * xx - yy))\n + sh3_1 * (2.8906114 * xy * viewDir.z) +\n + sh3_2 * (-0.4570458 * viewDir.y * (4.0 * zz - xx - yy))\n + sh3_3 * (0.3731763 * viewDir.z * (2.0 * zz - 3.0 * xx - 3.0 * yy))\n + sh3_4 * (-0.4570458 * viewDir.x * (4.0 * zz - xx - yy))\n + sh3_5 * (1.4453057 * viewDir.z * (xx - yy))\n + sh3_6 * (-0.5900436 * viewDir.x * (xx - 3.0 * yy));\n }\n`);\n\nexport function evaluateExtSH({\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3TextureA,\n sh3TextureB,\n}: {\n coord: DynoVal<\"ivec3\">;\n viewDir: DynoVal<\"vec3\">;\n numSh: DynoVal<\"int\">;\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3TextureA?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n sh3TextureB?: DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>;\n}) {\n return new Dyno({\n inTypes: {\n coord: \"ivec3\",\n viewDir: \"vec3\",\n numSh: \"int\",\n sh1Texture: \"usampler2DArray\",\n sh2Texture: \"usampler2DArray\",\n sh3TextureA: \"usampler2DArray\",\n sh3TextureB: \"usampler2DArray\",\n },\n outTypes: { rgb: \"vec3\" },\n inputs: {\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3TextureA,\n sh3TextureB,\n },\n globals: () => [\n defineEvaluateExtSH1,\n defineEvaluateExtSH12,\n defineEvaluateExtSH3,\n ],\n statements: ({ inputs, outputs }) => {\n const lines = [\"vec3 rgb = vec3(0.0);\"];\n if (inputs.sh1Texture) {\n if (!inputs.sh2Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 1) {\n rgb = evaluateExtSH1(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0), ${inputs.viewDir});\n }\n `),\n );\n } else {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} == 1) {\n rgb = evaluateExtSH1(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0), ${inputs.viewDir});\n } else if (${inputs.numSh} >= 2) {\n rgb = evaluateExtSH12(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0), texelFetch(${inputs.sh2Texture}, ${inputs.coord}, 0), ${inputs.viewDir});\n `),\n );\n\n if (inputs.sh3TextureA && inputs.sh3TextureB) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 3) {\n rgb += evaluateExtSH3(texelFetch(${inputs.sh3TextureA}, ${inputs.coord}, 0), texelFetch(${inputs.sh3TextureB}, ${inputs.coord}, 0), ${inputs.viewDir});\n }\n `),\n );\n }\n\n lines.push(\"}\");\n }\n }\n lines.push(`${outputs.rgb} = rgb;`);\n return lines;\n },\n }).outputs;\n}\n\nfunction newUint32ArrayTexture(\n data: Uint32Array | null,\n width: number,\n height: number,\n depth: number,\n format: THREE.AnyPixelFormat,\n type: THREE.TextureDataType,\n internalFormat: THREE.PixelFormatGPU,\n): THREE.DataArrayTexture {\n const texture = new THREE.DataArrayTexture(\n data as Uint32Array,\n width,\n height,\n depth,\n );\n texture.format = format;\n texture.type = type;\n texture.internalFormat = internalFormat;\n texture.needsUpdate = true;\n return texture;\n}\n","/* @ts-self-types=\"./spark_rs.d.ts\" */\n\n/**\n * @param {Uint8Array} bytes\n * @returns {any}\n */\nexport function decode_rad_header(bytes) {\n const ret = wasm.decode_rad_header(bytes);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @returns {Uint32Array}\n */\nexport function get_raycast_buffer() {\n const ret = wasm.get_raycast_buffer();\n return ret;\n}\n\n/**\n * @returns {Uint32Array}\n */\nexport function get_raycast_buffer2() {\n const ret = wasm.get_raycast_buffer2();\n return ret;\n}\n\n/**\n * @param {number} origin_x\n * @param {number} origin_y\n * @param {number} origin_z\n * @param {number} dir_x\n * @param {number} dir_y\n * @param {number} dir_z\n * @param {number} min_opacity\n * @param {number} near\n * @param {number} far\n * @param {number} count\n * @returns {Float32Array}\n */\nexport function raycast_ext_buffers(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count) {\n const ret = wasm.raycast_ext_buffers(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count);\n return ret;\n}\n\n/**\n * @param {number} origin_x\n * @param {number} origin_y\n * @param {number} origin_z\n * @param {number} dir_x\n * @param {number} dir_y\n * @param {number} dir_z\n * @param {number} min_opacity\n * @param {number} near\n * @param {number} far\n * @param {number} count\n * @param {number} ln_scale_min\n * @param {number} ln_scale_max\n * @param {boolean} lod_opacity\n * @returns {Float32Array}\n */\nexport function raycast_packed_buffer(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count, ln_scale_min, ln_scale_max, lod_opacity) {\n const ret = wasm.raycast_packed_buffer(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count, ln_scale_min, ln_scale_max, lod_opacity);\n return ret;\n}\n\n/**\n * @param {number} origin_x\n * @param {number} origin_y\n * @param {number} origin_z\n * @param {number} dir_x\n * @param {number} dir_y\n * @param {number} dir_z\n * @param {number} min_opacity\n * @param {number} near\n * @param {number} far\n * @param {number} num_splats\n * @param {Uint32Array} packed_splats\n * @param {number} ln_scale_min\n * @param {number} ln_scale_max\n * @param {boolean} lod_opacity\n * @returns {Float32Array}\n */\nexport function raycast_packed_splats(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, num_splats, packed_splats, ln_scale_min, ln_scale_max, lod_opacity) {\n const ret = wasm.raycast_packed_splats(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, num_splats, packed_splats, ln_scale_min, ln_scale_max, lod_opacity);\n return ret;\n}\n\n/**\n * @returns {boolean}\n */\nexport function simd_enabled() {\n const ret = wasm.simd_enabled();\n return ret !== 0;\n}\n\nexport function wasm_start() {\n wasm.wasm_start();\n}\n\nfunction __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_fd4646b401926788: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_26bffbe236bf73f9: function(arg0) {\n const ret = new Float32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_6c60b2e8ad0e9383: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2;\n },\n __wbg_set_8ee2d34facb8466e: function() { return handleError(function (arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments); },\n __wbg_set_a98c8da6557e63de: function(arg0, arg1, arg2) {\n arg0.set(getArrayF32FromWasm0(arg1, arg2));\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n // Cast intrinsic for `F64 -> Externref`.\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n // Cast intrinsic for `Ref(Slice(F32)) -> NamedExternref(\"Float32Array\")`.\n const ret = getArrayF32FromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_cast_0000000000000003: function(arg0, arg1) {\n // Cast intrinsic for `Ref(Slice(U32)) -> NamedExternref(\"Uint32Array\")`.\n const ret = getArrayU32FromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_cast_0000000000000004: function(arg0, arg1) {\n // Cast intrinsic for `Ref(String) -> Externref`.\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_cast_0000000000000005: function(arg0) {\n // Cast intrinsic for `U64 -> Externref`.\n const ret = BigInt.asUintN(64, arg0);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, undefined);\n table.set(offset + 0, undefined);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n },\n };\n return {\n __proto__: null,\n \"./spark_rs_bg.js\": import0,\n };\n}\n\nfunction addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n}\n\nfunction getArrayF32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getFloat32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n}\n\nlet cachedDataViewMemory0 = null;\nfunction getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || (cachedDataViewMemory0.buffer.detached === undefined && cachedDataViewMemory0.buffer !== wasm.memory.buffer)) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n}\n\nlet cachedFloat32ArrayMemory0 = null;\nfunction getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n}\n\nfunction getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n}\n\nlet cachedUint32ArrayMemory0 = null;\nfunction getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n}\n\nlet cachedUint8ArrayMemory0 = null;\nfunction getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n}\n\nfunction handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n}\n\nfunction passStringToWasm0(arg, malloc, realloc) {\n if (realloc === undefined) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr, ptr + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr;\n }\n\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n\n const mem = getUint8ArrayMemory0();\n\n let offset = 0;\n\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 0x7F) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n\n WASM_VECTOR_LEN = offset;\n return ptr;\n}\n\nfunction takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n}\n\nlet cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\ncachedTextDecoder.decode();\nconst MAX_SAFARI_DECODE_BYTES = 2146435072;\nlet numBytesDecoded = 0;\nfunction decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n}\n\nconst cachedTextEncoder = new TextEncoder();\n\nif (!('encodeInto' in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function (arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n}\n\nlet WASM_VECTOR_LEN = 0;\n\nlet wasmModule, wasm;\nfunction __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n wasmModule = module;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n}\n\nasync function __wbg_load(module, imports) {\n if (typeof Response === 'function' && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === 'function') {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n\n if (validResponse && module.headers.get('Content-Type') !== 'application/wasm') {\n console.warn(\"`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n\", e);\n\n } else { throw e; }\n }\n }\n\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n\n function expectedResponseType(type) {\n switch (type) {\n case 'basic': case 'cors': case 'default': return true;\n }\n return false;\n }\n}\n\nfunction initSync(module) {\n if (wasm !== undefined) return wasm;\n\n\n if (module !== undefined) {\n if (Object.getPrototypeOf(module) === Object.prototype) {\n ({module} = module)\n } else {\n console.warn('using deprecated parameters for `initSync()`; pass a single object instead')\n }\n }\n\n const imports = __wbg_get_imports();\n if (!(module instanceof WebAssembly.Module)) {\n module = new WebAssembly.Module(module);\n }\n const instance = new WebAssembly.Instance(module, imports);\n return __wbg_finalize_init(instance, module);\n}\n\nasync function __wbg_init(module_or_path) {\n if (wasm !== undefined) return wasm;\n\n\n if (module_or_path !== undefined) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({module_or_path} = module_or_path)\n } else {\n console.warn('using deprecated parameters for the initialization function; pass a single object instead')\n }\n }\n\n if (module_or_path === undefined) {\n module_or_path = new URL('spark_rs_bg.wasm', import.meta.url);\n }\n const imports = __wbg_get_imports();\n\n if (typeof module_or_path === 'string' || (typeof Request === 'function' && module_or_path instanceof Request) || (typeof URL === 'function' && module_or_path instanceof URL)) {\n module_or_path = fetch(module_or_path);\n }\n\n const { instance, module } = await __wbg_load(await module_or_path, imports);\n\n return __wbg_finalize_init(instance, module);\n}\n\nexport { initSync, __wbg_init as default };\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nout uvec4 target;\n\n{{ GLOBALS }}\n\nvoid produceSplat(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n target = uvec4(0u, 0u, 0u, 0u);\n if ((index >= 0) && (index < targetCount)) {\n produceSplat(index);\n }\n}\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nlayout(location = 0) out uvec4 target;\nlayout(location = 1) out vec4 target3;\n\n{{ GLOBALS }}\n\nvoid produceSplat(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n // Initial target to \"null\" splat\n target = uvec4(0u, 0u, 0u, 0u);\n\n // Initialize depthTarget to +infinity\n target3 = floatToVec4(1.0 / 0.0);\n\n if ((index >= 0) && (index < targetCount)) {\n produceSplat(index);\n }\n}\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nlayout(location = 0) out uvec4 target;\nlayout(location = 1) out uvec4 target2;\nlayout(location = 2) out vec4 target3;\n// layout(location = 0) out vec4 target3;\n// layout(location = 1) out uvec4 target;\n// layout(location = 2) out uvec4 target2;\n\n{{ GLOBALS }}\n\nvoid produceSplat(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n // Initial targets to \"null\" splat\n target = uvec4(0u, 0u, 0u, 0u);\n target2 = uvec4(0u, 0u, 0u, 0u);\n\n // Initialize target3 to +infinity\n target3 = floatToVec4(1.0 / 0.0);\n\n if ((index >= 0) && (index < targetCount)) {\n produceSplat(index);\n }\n}\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nout vec4 target;\n\n{{ GLOBALS }}\n\nvoid computeReadback(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n if ((index >= 0) && (index < targetCount)) {\n computeReadback(index);\n } else {\n target = vec4(0.0, 0.0, 0.0, 0.0);\n }\n}\n","\nprecision highp float;\nprecision highp int;\n\n#include \n\nuniform float near;\nuniform float far;\nuniform bool encodeLinear;\nuniform float time;\nuniform bool debugFlag;\nuniform float maxStdDev;\nuniform float minAlpha;\nuniform bool stochastic;\nuniform bool disableFalloff;\nuniform float falloff;\n\nuniform bool splatTexEnable;\nuniform sampler3D splatTexture;\nuniform mat2 splatTexMul;\nuniform vec2 splatTexAdd;\nuniform float splatTexNear;\nuniform float splatTexFar;\nuniform float splatTexMid;\n\nout vec4 fragColor;\n\nin vec4 vRgba;\nin vec2 vSplatUv;\nin vec3 vNdc;\nflat in uint vSplatIndex;\n\nvoid main() {\n vec4 rgba = vRgba;\n\n float z = dot(vSplatUv, vSplatUv);\n if (!splatTexEnable) {\n if (z > (maxStdDev * maxStdDev)) {\n discard;\n }\n } else {\n vec2 uv = splatTexMul * vSplatUv + splatTexAdd;\n float ndcZ = vNdc.z;\n float depth = (2.0 * near * far) / (far + near - ndcZ * (far - near));\n float clampedFar = max(splatTexFar, splatTexNear);\n float clampedDepth = clamp(depth, splatTexNear, clampedFar);\n float logDepth = log2(clampedDepth + 1.0);\n float logNear = log2(splatTexNear + 1.0);\n float logFar = log2(clampedFar + 1.0);\n\n float texZ;\n if (splatTexMid > 0.0) {\n float clampedMid = clamp(splatTexMid, splatTexNear, clampedFar);\n float logMid = log2(clampedMid + 1.0);\n texZ = (clampedDepth <= clampedMid) ?\n (0.5 * ((logDepth - logNear) / (logMid - logNear))) :\n (0.5 * ((logDepth - logMid) / (logFar - logMid)) + 0.5);\n } else {\n texZ = (logDepth - logNear) / (logFar - logNear);\n }\n\n vec4 modulate = texture(splatTexture, vec3(uv, 1.0 - texZ));\n rgba *= modulate;\n }\n\n rgba.a *= mix(1.0, exp(-0.5 * z), falloff);\n\n if (rgba.a < minAlpha) {\n discard;\n }\n if (encodeLinear) {\n rgba.rgb = srgbToLinear(rgba.rgb);\n }\n\n if (stochastic) {\n const bool STEADY = false;\n uint uTime = STEADY ? 0u : floatBitsToUint(time);\n uvec2 coord = uvec2(gl_FragCoord.xy);\n uint state = uTime + 0x9e3779b9u * coord.x + 0x85ebca6bu * coord.y + 0xc2b2ae35u * uint(vSplatIndex);\n state = state * 747796405u + 2891336453u;\n uint hash = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u;\n hash = (hash >> 22u) ^ hash;\n float rand = float(hash) / 4294967296.0;\n if (rand < rgba.a) {\n fragColor = vec4(rgba.rgb, 1.0);\n } else {\n discard;\n }\n } else {\n #ifdef PREMULTIPLIED_ALPHA\n fragColor = vec4(rgba.rgb * rgba.a, rgba.a);\n #else\n fragColor = rgba;\n #endif\n }\n}\n","\nprecision highp float;\nprecision highp int;\nprecision highp usampler2DArray;\n\n#include \n\nattribute uint splatIndex;\n\nout vec4 vRgba;\nout vec2 vSplatUv;\nout vec3 vNdc;\nflat out uint vSplatIndex;\n\nuniform vec2 renderSize;\nuniform uint numSplats;\nuniform vec4 renderToViewQuat;\nuniform vec3 renderToViewPos;\nuniform float maxStdDev;\nuniform float minPixelRadius;\nuniform float maxPixelRadius;\nuniform float time;\nuniform float deltaTime;\nuniform bool debugFlag;\nuniform float minAlpha;\nuniform bool stochastic;\nuniform bool enable2DGS;\nuniform float blurAmount;\nuniform float preBlurAmount;\nuniform float focalDistance;\nuniform float apertureAngle;\nuniform float clipXY;\nuniform float focalAdjustment;\n\nuniform usampler2DArray packedSplats;\nuniform vec4 rgbMinMaxLnScaleMinMax;\n\nvoid main() {\n // Default to outside the frustum so it's discarded if we return early\n gl_Position = vec4(0.0, 0.0, 2.0, 1.0);\n\n if (uint(gl_InstanceID) >= numSplats) {\n return;\n }\n\n ivec3 texCoord;\n if (stochastic) {\n texCoord = ivec3(\n uint(gl_InstanceID) & SPLAT_TEX_WIDTH_MASK,\n (uint(gl_InstanceID) >> SPLAT_TEX_WIDTH_BITS) & SPLAT_TEX_HEIGHT_MASK,\n (uint(gl_InstanceID) >> SPLAT_TEX_LAYER_BITS)\n );\n } else {\n if (splatIndex == 0xffffffffu) {\n // Special value reserved for \"no splat\"\n return;\n }\n texCoord = ivec3(\n splatIndex & SPLAT_TEX_WIDTH_MASK,\n (splatIndex >> SPLAT_TEX_WIDTH_BITS) & SPLAT_TEX_HEIGHT_MASK,\n splatIndex >> SPLAT_TEX_LAYER_BITS\n );\n }\n uvec4 packed = texelFetch(packedSplats, texCoord, 0);\n\n vec3 center, scales;\n vec4 quaternion, rgba;\n unpackSplatEncoding(packed, center, scales, quaternion, rgba, rgbMinMaxLnScaleMinMax);\n\n if (rgba.a < minAlpha) {\n return;\n }\n bvec3 zeroScales = equal(scales, vec3(0.0));\n if (all(zeroScales)) {\n return;\n }\n\n // Compute the view space center of the splat\n vec3 viewCenter = quatVec(renderToViewQuat, center) + renderToViewPos;\n\n // Discard splats behind the camera\n if (viewCenter.z >= 0.0) {\n return;\n }\n\n // Compute the clip space center of the splat\n vec4 clipCenter = projectionMatrix * vec4(viewCenter, 1.0);\n\n // Discard splats outside near/far planes\n if (abs(clipCenter.z) >= clipCenter.w) {\n return;\n }\n\n // Discard splats more than clipXY times outside the XY frustum\n float clip = clipXY * clipCenter.w;\n if (abs(clipCenter.x) > clip || abs(clipCenter.y) > clip) {\n return;\n }\n\n // Record the splat index for entropy\n vSplatIndex = splatIndex;\n\n // Compute view space quaternion of splat\n vec4 viewQuaternion = quatQuat(renderToViewQuat, quaternion);\n\n if (enable2DGS && any(zeroScales)) {\n vRgba = rgba;\n vSplatUv = position.xy * maxStdDev;\n\n vec3 offset;\n if (zeroScales.z) {\n offset = vec3(vSplatUv.xy * scales.xy, 0.0);\n } else if (zeroScales.y) {\n offset = vec3(vSplatUv.x * scales.x, 0.0, vSplatUv.y * scales.z);\n } else {\n offset = vec3(0.0, vSplatUv.xy * scales.yz);\n }\n\n vec3 viewPos = viewCenter + quatVec(viewQuaternion, offset);\n gl_Position = projectionMatrix * vec4(viewPos, 1.0);\n vNdc = gl_Position.xyz / gl_Position.w;\n return;\n }\n\n // Compute NDC center of the splat\n vec3 ndcCenter = clipCenter.xyz / clipCenter.w;\n\n // Compute the 3D covariance matrix of the splat\n mat3 RS = scaleQuaternionToMatrix(scales, viewQuaternion);\n mat3 cov3D = RS * transpose(RS);\n\n // Compute the Jacobian of the splat's projection at its center\n vec2 scaledRenderSize = renderSize * focalAdjustment;\n vec2 focal = 0.5 * scaledRenderSize * vec2(projectionMatrix[0][0], projectionMatrix[1][1]);\n\n mat3 J;\n if(isOrthographic) {\n J = mat3(\n focal.x, 0.0, 0.0,\n 0.0, focal.y, 0.0,\n 0.0, 0.0, 0.0\n );\n } else {\n float invZ = 1.0 / viewCenter.z;\n vec2 J1 = focal * invZ;\n vec2 J2 = -(J1 * viewCenter.xy) * invZ;\n J = mat3(\n J1.x, 0.0, J2.x,\n 0.0, J1.y, J2.y,\n 0.0, 0.0, 0.0\n );\n }\n\n // Compute the 2D covariance by projecting the 3D covariance\n // and picking out the XY plane components.\n // Keeping below because we may need it in the future\n // for skinning deformations.\n // mat3 W = transpose(mat3(viewMatrix));\n // mat3 T = W * J;\n // mat3 cov2D = transpose(T) * cov3D * T;\n mat3 cov2D = transpose(J) * cov3D * J;\n float a = cov2D[0][0];\n float d = cov2D[1][1];\n float b = cov2D[0][1];\n\n // Optionally pre-blur the splat to match non-antialias optimized splats\n a += preBlurAmount;\n d += preBlurAmount;\n\n float fullBlurAmount = blurAmount;\n if ((focalDistance > 0.0) && (apertureAngle > 0.0)) {\n float focusRadius = maxPixelRadius;\n if (viewCenter.z < 0.0) {\n float focusBlur = abs((-viewCenter.z - focalDistance) / viewCenter.z);\n float apertureRadius = focal.x * tan(0.5 * apertureAngle);\n focusRadius = focusBlur * apertureRadius;\n }\n fullBlurAmount = clamp(sqr(focusRadius), blurAmount, sqr(maxPixelRadius));\n }\n\n // Do convolution with a 0.5-pixel Gaussian for anti-aliasing: sqrt(0.3) ~= 0.5\n float detOrig = a * d - b * b;\n a += fullBlurAmount;\n d += fullBlurAmount;\n float det = a * d - b * b;\n\n // Compute anti-aliasing intensity scaling factor\n float blurAdjust = sqrt(max(0.0, detOrig / det));\n rgba.a *= blurAdjust;\n if (rgba.a < minAlpha) {\n return;\n }\n\n // Compute the eigenvalue and eigenvectors of the 2D covariance matrix\n float eigenAvg = 0.5 * (a + d);\n float eigenDelta = sqrt(max(0.0, eigenAvg * eigenAvg - det));\n float eigen1 = eigenAvg + eigenDelta;\n float eigen2 = eigenAvg - eigenDelta;\n\n vec2 eigenVec1 = normalize(vec2((abs(b) < 0.001) ? 1.0 : b, eigen1 - a));\n vec2 eigenVec2 = vec2(eigenVec1.y, -eigenVec1.x);\n\n float scale1 = min(maxPixelRadius, maxStdDev * sqrt(eigen1));\n float scale2 = min(maxPixelRadius, maxStdDev * sqrt(eigen2));\n if (scale1 < minPixelRadius && scale2 < minPixelRadius) {\n return;\n }\n\n // Compute the NDC coordinates for the ellipsoid's diagonal axes.\n vec2 pixelOffset = position.x * eigenVec1 * scale1 + position.y * eigenVec2 * scale2;\n vec2 ndcOffset = (2.0 / scaledRenderSize) * pixelOffset;\n vec3 ndc = vec3(ndcCenter.xy + ndcOffset, ndcCenter.z);\n\n vRgba = rgba;\n vSplatUv = position.xy * maxStdDev;\n vNdc = ndc;\n gl_Position = vec4(ndc.xy * clipCenter.w, clipCenter.zw);\n}\n","const float LN_SCALE_MIN = -12.0;\nconst float LN_SCALE_MAX = 9.0;\n\nconst uint SPLAT_TEX_WIDTH_BITS = 11u;\nconst uint SPLAT_TEX_HEIGHT_BITS = 11u;\nconst uint SPLAT_TEX_DEPTH_BITS = 11u;\nconst uint SPLAT_TEX_LAYER_BITS = SPLAT_TEX_WIDTH_BITS + SPLAT_TEX_HEIGHT_BITS;\n\nconst uint SPLAT_TEX_WIDTH = 1u << SPLAT_TEX_WIDTH_BITS;\nconst uint SPLAT_TEX_HEIGHT = 1u << SPLAT_TEX_HEIGHT_BITS;\nconst uint SPLAT_TEX_DEPTH = 1u << SPLAT_TEX_DEPTH_BITS;\n\nconst uint SPLAT_TEX_WIDTH_MASK = SPLAT_TEX_WIDTH - 1u;\nconst uint SPLAT_TEX_HEIGHT_MASK = SPLAT_TEX_HEIGHT - 1u;\nconst uint SPLAT_TEX_DEPTH_MASK = SPLAT_TEX_DEPTH - 1u;\n\nconst uint F16_INF = 0x7c00u;\nconst float PI = 3.1415926535897932384626433832795;\n\nconst float INFINITY = 1.0 / 0.0;\nconst float NEG_INFINITY = -INFINITY;\n\nfloat sqr(float x) {\n return x * x;\n}\n\nfloat pow4(float x) {\n float x2 = x * x;\n return x2 * x2;\n}\n\nfloat pow8(float x) {\n float x4 = pow4(x);\n return x4 * x4;\n}\n\nvec3 srgbToLinear(vec3 rgb) {\n return pow(rgb, vec3(2.2));\n}\n\nvec3 linearToSrgb(vec3 rgb) {\n return pow(rgb, vec3(1.0 / 2.2));\n}\n\n// Encode a quaternion (vec4) into a 24‐bit uint with folded octahedral mapping.\nuint encodeQuatOctXy88R8(vec4 q) {\n // Ensure minimal representation: flip if q.w is negative.\n if (q.w < 0.0) {\n q = -q;\n }\n // Compute rotation angle: θ = 2 * acos(q.w) ∈ [0,π]\n float theta = 2.0 * acos(q.w);\n float halfTheta = theta * 0.5;\n float s = sin(halfTheta);\n // Recover the rotation axis; use a default if nearly zero rotation.\n vec3 axis = (abs(s) < 1e-6) ? vec3(1.0, 0.0, 0.0) : q.xyz / s;\n \n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n float sum = abs(axis.x) + abs(axis.y) + abs(axis.z);\n vec2 p = vec2(axis.x, axis.y) / sum;\n // If axis.z < 0, fold the mapping.\n if (axis.z < 0.0) {\n float oldPx = p.x;\n p.x = (1.0 - abs(p.y)) * (p.x >= 0.0 ? 1.0 : -1.0);\n p.y = (1.0 - abs(oldPx)) * (p.y >= 0.0 ? 1.0 : -1.0);\n }\n // Remap from [-1,1] to [0,1]\n float u_f = p.x * 0.5 + 0.5;\n float v_f = p.y * 0.5 + 0.5;\n // Quantize to 8 bits (0 to 255)\n uint quantU = uint(clamp(round(u_f * 255.0), 0.0, 255.0));\n uint quantV = uint(clamp(round(v_f * 255.0), 0.0, 255.0));\n \n // --- Angle Quantization ---\n // Quantize θ ∈ [0,π] to 8 bits (0 to 255)\n uint angleInt = uint(clamp(round((theta / 3.14159265359) * 255.0), 0.0, 255.0));\n \n // Pack bits: bits [0–7]: quantU, [8–15]: quantV, [16–23]: angleInt.\n return (angleInt << 16u) | (quantV << 8u) | quantU;\n}\n\n// Decode a 24‐bit encoded uint into a quaternion (vec4) using the folded octahedral inverse.\nvec4 decodeQuatOctXy88R8(uint encoded) {\n // Extract the fields.\n uint quantU = encoded & uint(0xFFu); // bits 0–7\n uint quantV = (encoded >> 8u) & uint(0xFFu); // bits 8–15\n uint angleInt = encoded >> 16u; // bits 16–23\n\n // Recover u and v in [0,1], then map to [-1,1].\n float u_f = float(quantU) / 255.0;\n float v_f = float(quantV) / 255.0;\n vec2 f = vec2(u_f * 2.0 - 1.0, v_f * 2.0 - 1.0);\n\n vec3 axis = vec3(f.xy, 1.0 - abs(f.x) - abs(f.y));\n float t = max(-axis.z, 0.0);\n axis.x += (axis.x >= 0.0) ? -t : t;\n axis.y += (axis.y >= 0.0) ? -t : t;\n axis = normalize(axis);\n \n // Decode the angle θ ∈ [0,π].\n float theta = (float(angleInt) / 255.0) * 3.14159265359;\n float halfTheta = theta * 0.5;\n float s = sin(halfTheta);\n float w = cos(halfTheta);\n \n return vec4(axis * s, w);\n}\n\nuint encodeQuatOctXy1010R12(vec4 q) {\n // Ensure minimal representation: flip if q.w is negative.\n if (q.w < 0.0) {\n q = -q;\n }\n // Compute rotation angle: θ = 2 * acos(q.w) ∈ [0,π]\n float halfTheta = acos(q.w);\n float theta = 2.0 * halfTheta;\n float s = sin(halfTheta);\n // Recover the rotation axis; use a default if nearly zero rotation.\n vec3 axis = (abs(s) < 1e-6) ? vec3(1.0, 0.0, 0.0) : q.xyz / s;\n \n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n float sum = abs(axis.x) + abs(axis.y) + abs(axis.z);\n vec2 p = vec2(axis.x, axis.y) / sum;\n // If axis.z < 0, fold the mapping.\n if (axis.z < 0.0) {\n float oldPx = p.x;\n p.x = (1.0 - abs(p.y)) * (p.x >= 0.0 ? 1.0 : -1.0);\n p.y = (1.0 - abs(oldPx)) * (p.y >= 0.0 ? 1.0 : -1.0);\n }\n // Remap from [-1,1] to [0,1]\n float u_f = p.x * 0.5 + 0.5;\n float v_f = p.y * 0.5 + 0.5;\n // Quantize to 10 bits (0 to 1023)\n uint quantU = uint(clamp(round(u_f * 1023.0), 0.0, 1023.0));\n uint quantV = uint(clamp(round(v_f * 1023.0), 0.0, 1023.0));\n \n // --- Angle Quantization ---\n // Quantize θ ∈ [0,π] to 12 bits (0 to 4095)\n uint angleInt = uint(clamp(round((theta / PI) * 4095.0), 0.0, 4095.0));\n \n // Pack bits: bits [0–9]: quantU, [10–19]: quantV, [20–31]: angleInt.\n return (angleInt << 20u) | (quantV << 10u) | quantU;\n}\n\nvec4 decodeQuatOctXy1010R12(uint encoded) {\n // Extract the fields.\n uint quantU = encoded & uint(0x3FFu); // bits 0–9\n uint quantV = (encoded >> 10u) & uint(0x3FFu); // bits 10–19\n uint angleInt = encoded >> 20u; // bits 20–31\n\n // Recover u and v in [0,1], then map to [-1,1].\n float u_f = float(quantU) / 1023.0;\n float v_f = float(quantV) / 1023.0;\n vec2 f = vec2(u_f * 2.0 - 1.0, v_f * 2.0 - 1.0);\n\n vec3 axis = vec3(f.xy, 1.0 - abs(f.x) - abs(f.y));\n float t = max(-axis.z, 0.0);\n axis.x += (axis.x >= 0.0) ? -t : t;\n axis.y += (axis.y >= 0.0) ? -t : t;\n axis = normalize(axis);\n \n // Decode the angle θ ∈ [0,π].\n float theta = (float(angleInt) / 4095.0) * PI;\n float halfTheta = theta * 0.5;\n float s = sin(halfTheta);\n float w = cos(halfTheta);\n \n return vec4(axis * s, w);\n}\n\n// Pack a Gsplat into a uvec4\nuvec4 packSplatEncoding(\n vec3 center, vec3 scales, vec4 quaternion, vec4 rgba, vec4 rgbMinMaxLnScaleMinMax\n) {\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n vec3 encRgb = (rgba.rgb - vec3(rgbMin)) / (rgbMax - rgbMin);\n uvec4 uRgba = uvec4(round(clamp(vec4(encRgb, rgba.a) * 255.0, 0.0, 255.0)));\n\n uint uQuat = encodeQuatOctXy88R8(quaternion);\n // uint uQuat = encodeQuatXyz888(quaternion);\n // uint uQuat = encodeQuatEulerXyz888(quaternion);\n uvec3 uQuat3 = uvec3(uQuat & 0xffu, (uQuat >> 8u) & 0xffu, (uQuat >> 16u) & 0xffu);\n\n // Encode scales in three uint8s, where 0=>0.0 and 1..=255 stores log scale\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n uvec3 uScales = uvec3(\n (scales.x == 0.0) ? 0u : uint(round(clamp((log(scales.x) - lnScaleMin) * lnScaleScale, 0.0, 254.0))) + 1u,\n (scales.y == 0.0) ? 0u : uint(round(clamp((log(scales.y) - lnScaleMin) * lnScaleScale, 0.0, 254.0))) + 1u,\n (scales.z == 0.0) ? 0u : uint(round(clamp((log(scales.z) - lnScaleMin) * lnScaleScale, 0.0, 254.0))) + 1u\n );\n\n // Pack it all into 4 x uint32\n uint word0 = uRgba.r | (uRgba.g << 8u) | (uRgba.b << 16u) | (uRgba.a << 24u);\n uint word1 = packHalf2x16(center.xy);\n uint word2 = packHalf2x16(vec2(center.z, 0.0)) | (uQuat3.x << 16u) | (uQuat3.y << 24u);\n uint word3 = uScales.x | (uScales.y << 8u) | (uScales.z << 16u) | (uQuat3.z << 24u);\n return uvec4(word0, word1, word2, word3);\n}\n\n// Pack a Gsplat into a uvec4\nuvec4 packSplat(vec3 center, vec3 scales, vec4 quaternion, vec4 rgba) {\n return packSplatEncoding(center, scales, quaternion, rgba, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n}\n\nvoid unpackSplatEncoding(uvec4 packed, out vec3 center, out vec3 scales, out vec4 quaternion, out vec4 rgba, vec4 rgbMinMaxLnScaleMinMax) {\n uint word0 = packed.x, word1 = packed.y, word2 = packed.z, word3 = packed.w;\n\n uvec4 uRgba = uvec4(word0 & 0xffu, (word0 >> 8u) & 0xffu, (word0 >> 16u) & 0xffu, (word0 >> 24u) & 0xffu);\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n rgba = (vec4(uRgba) / 255.0);\n rgba.rgb = rgba.rgb * (rgbMax - rgbMin) + rgbMin;\n\n center = vec4(\n unpackHalf2x16(word1),\n unpackHalf2x16(word2 & 0xffffu)\n ).xyz;\n\n uvec3 uScales = uvec3(word3 & 0xffu, (word3 >> 8u) & 0xffu, (word3 >> 16u) & 0xffu);\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float lnScaleScale = (lnScaleMax - lnScaleMin) / 254.0;\n scales = vec3(\n (uScales.x == 0u) ? 0.0 : exp(lnScaleMin + float(uScales.x - 1u) * lnScaleScale),\n (uScales.y == 0u) ? 0.0 : exp(lnScaleMin + float(uScales.y - 1u) * lnScaleScale),\n (uScales.z == 0u) ? 0.0 : exp(lnScaleMin + float(uScales.z - 1u) * lnScaleScale)\n );\n\n\n uint uQuat = ((word2 >> 16u) & 0xFFFFu) | ((word3 >> 8u) & 0xFF0000u);\n quaternion = decodeQuatOctXy88R8(uQuat);\n // quaternion = decodeQuatXyz888(uQuat);\n // quaternion = decodeQuatEulerXyz888(uQuat);\n}\n\n// Unpack a Gsplat from a uvec4\nvoid unpackSplat(uvec4 packed, out vec3 center, out vec3 scales, out vec4 quaternion, out vec4 rgba) {\n unpackSplatEncoding(packed, center, scales, quaternion, rgba, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n}\n\nuvec4 packSplatCovEncoding(\n vec3 center, vec4 rgba, vec3 xxyyzz, vec3 xyxzyz, vec4 rgbMinMaxLnScaleMinMax\n) {\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n vec3 encRgb = (rgba.rgb - vec3(rgbMin)) / (rgbMax - rgbMin);\n uvec4 uRgba = uvec4(round(clamp(vec4(encRgb, rgba.a) * 255.0, 0.0, 255.0)));\n\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float diagScale = 255.0 / (2.0 * (lnScaleMax - lnScaleMin));\n uvec3 uXxyyzz = uvec3(round(clamp((log(xxyyzz) - 2.0 * lnScaleMin) * diagScale, 0.0, 255.0)));\n\n vec3 xyxzyzCor = vec3(\n clamp(xyxzyz.x / sqrt(xxyyzz.x * xxyyzz.y), -1.0, 1.0),\n clamp(xyxzyz.y / sqrt(xxyyzz.x * xxyyzz.z), -1.0, 1.0),\n clamp(xyxzyz.z / sqrt(xxyyzz.y * xxyyzz.z), -1.0, 1.0)\n );\n ivec3 iXyxzyzCor = ivec3(round(xyxzyzCor * 127.0));\n\n // Pack it all into 4 x uint32\n uint word0 = uRgba.r | (uRgba.g << 8u) | (uRgba.b << 16u) | (uRgba.a << 24u);\n uint word1 = packHalf2x16(center.xy);\n uint word2 = packHalf2x16(vec2(center.z, 0.0)) |\n ((uint(iXyxzyzCor.y) & 0xffu) << 16u) |\n ((uint(iXyxzyzCor.z) & 0xffu) << 24u);\n uint word3 =\n uXxyyzz.x | (uXxyyzz.y << 8u) | (uXxyyzz.z << 16u) |\n ((uint(iXyxzyzCor.x) & 0xffu) << 24u);\n return uvec4(word0, word1, word2, word3);\n}\n\nvoid unpackSplatCovEncoding(uvec4 packed, out vec3 center, out vec4 rgba, out vec3 xxyyzz, out vec3 xyxzyz, vec4 rgbMinMaxLnScaleMinMax) {\n uint word0 = packed.x, word1 = packed.y, word2 = packed.z, word3 = packed.w;\n\n uvec4 uRgba = uvec4(word0 & 0xffu, (word0 >> 8u) & 0xffu, (word0 >> 16u) & 0xffu, (word0 >> 24u) & 0xffu);\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n rgba = (vec4(uRgba) / 255.0);\n rgba.rgb = rgba.rgb * (rgbMax - rgbMin) + rgbMin;\n\n center = vec3(\n unpackHalf2x16(word1),\n unpackHalf2x16(word2 & 0xffffu).x\n );\n\n uvec3 uXxyyzz = uvec3(word3 & 0xffu, (word3 >> 8u) & 0xffu, (word3 >> 16u) & 0xffu);\n ivec3 iXyxzyzCor = ivec3(int(word3) >> 24, int(word2 << 8u) >> 24, int(word2) >> 24);\n\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float diagScale = 2.0 * (lnScaleMax - lnScaleMin) / 255.0;\n xxyyzz = exp(2.0 * lnScaleMin + vec3(uXxyyzz) * diagScale);\n\n vec3 xyxzyzCor = vec3(iXyxzyzCor) / 127.0;\n xyxzyz = xyxzyzCor * vec3(\n sqrt(xxyyzz.x * xxyyzz.y),\n sqrt(xxyyzz.x * xxyyzz.z),\n sqrt(xxyyzz.y * xxyyzz.z)\n );\n}\n\nvoid packSplatExtCov(\n out uvec4 packed, out uvec4 packed2,\n vec3 center, vec4 rgba, vec3 xxyyzz, vec3 xyxzyz\n) {\n packed.x = floatBitsToUint(center.x);\n packed.y = floatBitsToUint(center.y);\n packed.z = floatBitsToUint(center.z);\n packed.w = packHalf2x16(vec2(rgba.a, rgba.b));\n packed2.x = packHalf2x16(rgba.rg);\n\n vec3 xyxzyzCor = vec3(\n clamp(xyxzyz.x / sqrt(xxyyzz.x * xxyyzz.y), -1.0, 1.0),\n clamp(xyxzyz.y / sqrt(xxyyzz.x * xxyyzz.z), -1.0, 1.0),\n clamp(xyxzyz.z / sqrt(xxyyzz.y * xxyyzz.z), -1.0, 1.0)\n );\n xyxzyzCor = sign(xyxzyzCor) * clamp(log(abs(xyxzyzCor)), -100.0, -0.0000001);\n xxyyzz = log(xxyyzz);\n\n packed2.y = packHalf2x16(vec2(xxyyzz.x, xxyyzz.y));\n packed2.z = packHalf2x16(vec2(xxyyzz.z, xyxzyzCor.x));\n packed2.w = packHalf2x16(vec2(xyxzyzCor.y, xyxzyzCor.z));\n}\n\nvoid unpackSplatExtCov(\n uvec4 packed, uvec4 packed2,\n out vec3 center, out vec4 rgba, out vec3 xxyyzz, out vec3 xyxzyz\n) {\n center.x = uintBitsToFloat(packed.x);\n center.y = uintBitsToFloat(packed.y);\n center.z = uintBitsToFloat(packed.z);\n\n vec2 ab = unpackHalf2x16(packed.w);\n vec2 rg = unpackHalf2x16(packed2.x);\n rgba = vec4(rg, ab.y, ab.x);\n\n vec2 xxyy = unpackHalf2x16(packed2.y);\n vec2 zzxy = unpackHalf2x16(packed2.z);\n vec2 xzyz = unpackHalf2x16(packed2.w);\n xxyyzz = exp(vec3(xxyy.x, xxyy.y, zzxy.x));\n xyxzyz = vec3(zzxy.y, xzyz.x, xzyz.y);\n xyxzyz = -sign(xyxzyz) * exp(-abs(xyxzyz));\n xyxzyz *= vec3(\n sqrt(xxyyzz.x * xxyyzz.y),\n sqrt(xxyyzz.x * xxyyzz.z),\n sqrt(xxyyzz.y * xxyyzz.z)\n );\n}\n\nvoid packSplatExt(\n out uvec4 packed, out uvec4 packed2,\n vec3 center, vec3 scales, vec4 quaternion, vec4 rgba\n) {\n packed.x = floatBitsToUint(center.x);\n packed.y = floatBitsToUint(center.y);\n packed.z = floatBitsToUint(center.z);\n packed.w = packHalf2x16(vec2(rgba.a, 0.0));\n\n packed2.x = packHalf2x16(rgba.rg);\n packed2.y = packHalf2x16(vec2(rgba.b, log(scales.x)));\n packed2.z = packHalf2x16(log(scales.yz));\n packed2.w = encodeQuatOctXy1010R12(quaternion);\n}\n\nvec4 unpackSplatExtCenterAlpha(uvec4 packed) {\n return vec4(\n uintBitsToFloat(packed.x),\n uintBitsToFloat(packed.y),\n uintBitsToFloat(packed.z),\n unpackHalf2x16(packed.w).x\n );\n}\n\nfloat unpackSplatExtAlpha(uvec4 packed) {\n return unpackHalf2x16(packed.w).x;\n}\n\nvoid unpackSplatExt(\n uvec4 packed, uvec4 packed2,\n out vec3 center, out vec3 scales, out vec4 quaternion, out vec4 rgba\n) {\n center.x = uintBitsToFloat(packed.x);\n center.y = uintBitsToFloat(packed.y);\n center.z = uintBitsToFloat(packed.z);\n rgba.a = unpackHalf2x16(packed.w).x;\n\n rgba.rg = unpackHalf2x16(packed2.x);\n vec2 split = unpackHalf2x16(packed2.y);\n rgba.b = split.x;\n scales.x = exp(split.y);\n scales.yz = exp(unpackHalf2x16(packed2.z));\n quaternion = decodeQuatOctXy1010R12(packed2.w);\n}\n\nuint encodeExtRgb(vec3 rgb) {\n vec3 absRgb = abs(rgb);\n float maxAbs = max(absRgb.r, max(absRgb.g, absRgb.b));\n\n int base = clamp(int(floor(log2(maxAbs))) + 15, 0, 31);\n float divisor = exp2(float(base - 15)) / 255.0;\n\n uvec3 uRgb = uvec3(round(clamp(absRgb / divisor, 0.0, 255.0)));\n uint expSigns = (uint(base) << 3u) | ((rgb.r < 0.0 ? 0x1u : 0u) | (rgb.g < 0.0 ? 0x2u : 0u) | (rgb.b < 0.0 ? 0x4u : 0u));\n return uRgb.r | (uRgb.g << 8u) | (uRgb.b << 16u) | (expSigns << 24u);\n}\n\nvec3 decodeExtRgb(uint encoded) {\n uint biasedBase = (encoded >> 27u) & 0x1fu;\n float divisor = exp2(float(int(biasedBase) - 15)) / 255.0;\n\n vec3 rgb = vec3(uvec3(encoded & 0xffu, (encoded >> 8u) & 0xffu, (encoded >> 16u) & 0xffu));\n rgb *= divisor;\n\n return vec3(\n ((encoded & 0x1000000u) != 0u) ? -rgb.r : rgb.r,\n ((encoded & 0x2000000u) != 0u) ? -rgb.g : rgb.g,\n ((encoded & 0x4000000u) != 0u) ? -rgb.b : rgb.b\n );\n}\n\n// Rotate vector v by quaternion q\nvec3 quatVec(vec4 q, vec3 v) {\n // Rotate vector v by quaternion q\n vec3 t = 2.0 * cross(q.xyz, v);\n return v + q.w * t + cross(q.xyz, t);\n}\n\n// Apply quaternion q1 after quaternion q2\nvec4 quatQuat(vec4 q1, vec4 q2) {\n return vec4(\n q1.w * q2.x + q1.x * q2.w + q1.y * q2.z - q1.z * q2.y,\n q1.w * q2.y - q1.x * q2.z + q1.y * q2.w + q1.z * q2.x,\n q1.w * q2.z + q1.x * q2.y - q1.y * q2.x + q1.z * q2.w,\n q1.w * q2.w - q1.x * q2.x - q1.y * q2.y - q1.z * q2.z\n );\n}\n\nmat3 quaternionToMatrix(vec4 q) {\n return mat3(\n (1.0 - 2.0 * (q.y * q.y + q.z * q.z)),\n (2.0 * (q.x * q.y + q.w * q.z)),\n (2.0 * (q.x * q.z - q.w * q.y)),\n (2.0 * (q.x * q.y - q.w * q.z)),\n (1.0 - 2.0 * (q.x * q.x + q.z * q.z)),\n (2.0 * (q.y * q.z + q.w * q.x)),\n (2.0 * (q.x * q.z + q.w * q.y)),\n (2.0 * (q.y * q.z - q.w * q.x)),\n (1.0 - 2.0 * (q.x * q.x + q.y * q.y))\n );\n}\n\nmat3 scaleQuaternionToMatrix(vec3 s, vec4 q) {\n // Compute the matrix of scaling by s then rotating by q\n return mat3(\n s.x * (1.0 - 2.0 * (q.y * q.y + q.z * q.z)),\n s.x * (2.0 * (q.x * q.y + q.w * q.z)),\n s.x * (2.0 * (q.x * q.z - q.w * q.y)),\n s.y * (2.0 * (q.x * q.y - q.w * q.z)),\n s.y * (1.0 - 2.0 * (q.x * q.x + q.z * q.z)),\n s.y * (2.0 * (q.y * q.z + q.w * q.x)),\n s.z * (2.0 * (q.x * q.z + q.w * q.y)),\n s.z * (2.0 * (q.y * q.z - q.w * q.x)),\n s.z * (1.0 - 2.0 * (q.x * q.x + q.y * q.y))\n );\n}\n\n// Spherical lerp between two quaternions\nvec4 slerp(vec4 q1, vec4 q2, float t) {\n // Compute the cosine of the angle between the two vectors\n float cosHalfTheta = dot(q1, q2);\n\n // If q1=q2 or q1=-q2 then theta = 0 and we can return q1\n if (abs(cosHalfTheta) >= 0.999) {\n return q1;\n }\n \n // If q1 and q2 are more than 180 degrees apart, \n // we need to negate one to get the shortest path\n if (cosHalfTheta < 0.0) {\n q2 = -q2;\n cosHalfTheta = -cosHalfTheta;\n }\n\n // Calculate temporary values\n float halfTheta = acos(cosHalfTheta);\n float sinHalfTheta = sqrt(1.0 - cosHalfTheta * cosHalfTheta);\n\n // Calculate the interpolation factors\n float ratioA = sin((1.0 - t) * halfTheta) / sinHalfTheta;\n float ratioB = sin(t * halfTheta) / sinHalfTheta;\n\n // Calculate the interpolated quaternion\n return q1 * ratioA + q2 * ratioB;\n}\n\nivec3 splatTexCoord(int index) {\n uint x = uint(index) & SPLAT_TEX_WIDTH_MASK;\n uint y = (uint(index) >> SPLAT_TEX_WIDTH_BITS) & SPLAT_TEX_HEIGHT_MASK;\n uint z = uint(index) >> SPLAT_TEX_LAYER_BITS;\n return ivec3(x, y, z);\n}\n\nivec3 pagedSplatTexCoord(int index) {\n return ivec3(index & 255, (index >> 8) & 255, index >> 16);\n}\n\nvec4 uintToVec4(uint u32) {\n uvec4 bytes = uvec4(\n u32 & 0xFFu,\n (u32 >> 8u) & 0xFFu,\n (u32 >> 16u) & 0xFFu,\n (u32 >> 24u) & 0xFFu\n );\n return vec4(bytes) / 255.0;\n}\n\nvec4 floatToVec4(float f) {\n uint u32 = floatBitsToUint(f);\n return uintToVec4(u32);\n}\n\nvec3 debugColorHue(uint i) {\n // Golden ratio conjugate; spreads hues evenly\n float hue = fract(float(i) * 0.61803398875);\n // HSV to RGB with fixed S/V\n vec3 rgb = clamp(abs(mod(hue*6.0 + vec3(0.0,4.0,2.0), 6.0) - 3.0) - 1.0, 0.0, 1.0);\n return mix(vec3(1.0), rgb, 0.85); // saturation ~0.85, value ~1.0\n}\n","\nprecision highp float;\nprecision highp int;\n\n#include \n\nuniform float near;\nuniform float far;\nuniform bool encodeLinear;\nuniform float time;\nuniform bool debugFlag;\nuniform float maxStdDev;\nuniform float minAlpha;\nuniform bool disableFalloff;\nuniform float falloff;\n\nout vec4 fragColor;\n\nin vec4 vRgba;\nin vec2 vSplatUv;\nin vec3 vNdc;\nflat in uint vSplatIndex;\nflat in float adjustedStdDev;\n\n#include \n\nvoid main() {\n vec4 rgba = vRgba;\n\n float z2 = dot(vSplatUv, vSplatUv);\n if (z2 > (adjustedStdDev * adjustedStdDev)) {\n discard;\n }\n\n if (false) {\n // if (debugFlag) {\n float a = rgba.a;\n float shifted = sqrt(z2) - max(0.0, a - 1.0);\n float exponent = -0.5 * max(1.0, a) * sqr(max(0.0, shifted));\n float min1a = min(1.0, a);\n rgba.a = mix(min1a, min1a * exp(exponent), falloff);\n } else {\n // New falloff function, more or less equivalent\n if (rgba.a <= 1.0) {\n rgba.a = mix(rgba.a, rgba.a * exp(-0.5 * z2), falloff);\n } else {\n float a = exp((rgba.a*rgba.a - 1.0) / 2.718281828459045);\n float alpha = 1.0 - pow(1.0 - exp(-0.5 * z2), a);\n rgba.a = mix(1.0, alpha, falloff);\n }\n }\n\n if (rgba.a < minAlpha) {\n discard;\n }\n if (encodeLinear) {\n rgba.rgb = srgbToLinear(rgba.rgb);\n }\n\n #ifdef PREMULTIPLIED_ALPHA\n fragColor = vec4(rgba.rgb * rgba.a, rgba.a);\n #else\n fragColor = rgba;\n #endif\n\n #include \n}\n","\nprecision highp float;\nprecision highp int;\nprecision highp usampler2DArray;\n\n#include \n\nout vec4 vRgba;\nout vec2 vSplatUv;\nout vec3 vNdc;\nflat out uint vSplatIndex;\nflat out float adjustedStdDev;\n\n// uniform uint numSplats;\nuniform vec2 renderSize;\nuniform vec4 renderToViewQuat;\nuniform vec3 renderToViewPos;\nuniform mat3 renderToViewBasis;\nuniform float maxStdDev;\nuniform float minPixelRadius;\nuniform float maxPixelRadius;\nuniform bool enableExtSplats;\nuniform bool enableCovSplats;\nuniform float time;\nuniform float deltaTime;\nuniform bool debugFlag;\nuniform float minAlpha;\nuniform bool enable2DGS;\nuniform bool lodInflate;\nuniform float blurAmount;\nuniform float preBlurAmount;\nuniform float focalDistance;\nuniform float apertureAngle;\nuniform float clipXY;\nuniform float focalAdjustment;\n\nuniform usampler2D ordering;\nuniform usampler2DArray extSplats;\nuniform usampler2DArray extSplats2;\n\n// Required by logdepthbuf_pars_vertex (normally defined in three.js #include )\nbool isPerspectiveMatrix( mat4 m ) {\n return m[ 2 ][ 3 ] == -1.0;\n}\n\n#include \n\nvoid main() {\n // Default to outside the frustum so it's discarded if we return early\n gl_Position = vec4(0.0, 0.0, 2.0, 1.0);\n\n ivec2 orderingCoord = ivec2((gl_InstanceID >> 2) & 4095, gl_InstanceID >> 14);\n uint splatIndex = texelFetch(ordering, orderingCoord, 0)[gl_InstanceID & 3];\n if (splatIndex == 0xffffffffu) {\n // Special value reserved for \"no splat\"\n return;\n }\n\n ivec3 texCoord = splatTexCoord(int(splatIndex));\n vec3 center, scales, xxyyzz, xyxzyz;\n vec4 quaternion, rgba;\n mat3 cov3D;\n bvec3 zeroScales = bvec3(false);\n\n if (enableExtSplats) {\n uvec4 ext1 = texelFetch(extSplats, texCoord, 0);\n float alpha = unpackSplatExtAlpha(ext1);\n if ((alpha == 0.0) || (alpha < minAlpha)) {\n return;\n }\n uvec4 ext2 = texelFetch(extSplats2, texCoord, 0);\n\n if (!enableCovSplats) {\n unpackSplatExt(ext1, ext2, center, scales, quaternion, rgba);\n zeroScales = equal(scales, vec3(0.0));\n if (all(zeroScales)) {\n return;\n }\n } else {\n unpackSplatExtCov(ext1, ext2, center, rgba, xxyyzz, xyxzyz);\n if (all(equal(xxyyzz, vec3(0.0))) && all(equal(xyxzyz, vec3(0.0)))) {\n return;\n }\n }\n } else {\n uvec4 packed = texelFetch(extSplats, texCoord, 0);\n if (!enableCovSplats) {\n unpackSplatEncoding(packed, center, scales, quaternion, rgba, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n zeroScales = equal(scales, vec3(0.0));\n if (all(zeroScales)) {\n return;\n }\n } else {\n unpackSplatCovEncoding(packed, center, rgba, xxyyzz, xyxzyz, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n if (all(equal(xxyyzz, vec3(0.0))) && all(equal(xyxzyz, vec3(0.0)))) {\n return;\n }\n }\n\n rgba.a *= 2.0;\n if ((rgba.a == 0.0) || (rgba.a < minAlpha)) {\n return;\n }\n }\n\n adjustedStdDev = maxStdDev;\n if (rgba.a > 1.0) {\n // Stretch 1..2 to 1..5\n rgba.a = min(rgba.a * 4.0 - 3.0, 5.0);\n\n if (lodInflate) {\n // Adjust size to componsate for loss of opacity\n float opacity = exp((rgba.a * rgba.a - 1.0) / 2.718281828459045);\n float rescale = pow(opacity, 1.0 / 3.0);\n scales *= rescale;\n rgba.a = 1.0;\n }\n\n // Expand the maximum std dev to approximately cover the larger range\n adjustedStdDev = maxStdDev + 0.7 * (rgba.a - 1.0);\n }\n\n // Compute the view space center of the splat\n vec3 viewCenter = (!enableCovSplats ? quatVec(renderToViewQuat, center) : (renderToViewBasis * center)) + renderToViewPos;\n\n // Discard splats behind the camera\n if (viewCenter.z >= 0.0) {\n return;\n }\n\n // Compute the clip space center of the splat\n vec4 clipCenter = projectionMatrix * vec4(viewCenter, 1.0);\n\n // Discard splats outside near/far planes\n if (abs(clipCenter.z) >= clipCenter.w) {\n return;\n }\n\n // Discard splats more than clipXY times outside the XY frustum\n float clip = clipXY * clipCenter.w;\n if (abs(clipCenter.x) > clip || abs(clipCenter.y) > clip) {\n return;\n }\n\n vRgba = rgba;\n vSplatUv = position.xy * adjustedStdDev;\n\n // Record the splat index for entropy\n vSplatIndex = splatIndex;\n\n if (!enableCovSplats) {\n // Compute view space quaternion of splat\n vec4 viewQuaternion = quatQuat(renderToViewQuat, quaternion);\n\n if (enable2DGS && any(zeroScales)) {\n vec3 offset;\n if (zeroScales.z) {\n offset = vec3(vSplatUv.xy * scales.xy, 0.0);\n } else if (zeroScales.y) {\n offset = vec3(vSplatUv.x * scales.x, 0.0, vSplatUv.y * scales.z);\n } else {\n offset = vec3(0.0, vSplatUv.xy * scales.yz);\n }\n\n vec3 viewPos = viewCenter + quatVec(viewQuaternion, offset);\n gl_Position = projectionMatrix * vec4(viewPos, 1.0);\n vNdc = gl_Position.xyz / gl_Position.w;\n\n #include \n return;\n }\n\n // Compute the 3D covariance matrix of the splat\n mat3 RS = scaleQuaternionToMatrix(scales, viewQuaternion);\n cov3D = RS * transpose(RS);\n } else {\n cov3D = mat3(\n xxyyzz.x, xyxzyz.x, xyxzyz.y,\n xyxzyz.x, xxyyzz.y, xyxzyz.z,\n xyxzyz.y, xyxzyz.z, xxyyzz.z\n );\n cov3D = renderToViewBasis * cov3D * transpose(renderToViewBasis);\n }\n\n // Compute the Jacobian of the splat's projection at its center\n vec2 scaledRenderSize = renderSize * focalAdjustment;\n vec2 focal = 0.5 * scaledRenderSize * vec2(projectionMatrix[0][0], projectionMatrix[1][1]);\n\n mat3 J;\n if (isOrthographic) {\n J = mat3(\n focal.x, 0.0, 0.0,\n 0.0, focal.y, 0.0,\n 0.0, 0.0, 0.0\n );\n } else {\n float invZ = 1.0 / viewCenter.z;\n vec2 J1 = focal * invZ;\n vec2 J2 = -(J1 * viewCenter.xy) * invZ;\n J = mat3(\n J1.x, 0.0, J2.x,\n 0.0, J1.y, J2.y,\n 0.0, 0.0, 0.0\n );\n }\n\n // Compute the 2D covariance by projecting the 3D covariance\n // and picking out the XY plane components.\n mat3 cov2D = transpose(J) * cov3D * J;\n float a = cov2D[0][0];\n float d = cov2D[1][1];\n float b = cov2D[0][1];\n\n // Optionally pre-blur the splat to match non-antialias optimized splats\n a += preBlurAmount;\n d += preBlurAmount;\n\n float fullBlurAmount = blurAmount;\n if ((focalDistance > 0.0) && (apertureAngle > 0.0)) {\n float focusRadius = maxPixelRadius;\n if (viewCenter.z < 0.0) {\n float focusBlur = abs((-viewCenter.z - focalDistance) / viewCenter.z);\n float apertureRadius = focal.x * tan(0.5 * apertureAngle);\n focusRadius = focusBlur * apertureRadius;\n }\n fullBlurAmount = clamp(sqr(focusRadius), blurAmount, sqr(maxPixelRadius));\n }\n\n // Do convolution with a 0.5-pixel Gaussian for anti-aliasing: sqrt(0.3) ~= 0.5\n float detOrig = a * d - b * b;\n a += fullBlurAmount;\n d += fullBlurAmount;\n float det = a * d - b * b;\n\n // Compute anti-aliasing intensity scaling factor\n float blurAdjust = sqrt(max(0.0, detOrig / det));\n rgba.a *= blurAdjust;\n if (rgba.a < minAlpha) {\n return;\n }\n vRgba.a = rgba.a;\n\n // Compute the eigenvalue and eigenvectors of the 2D covariance matrix\n float eigenAvg = 0.5 * (a + d);\n float eigenDelta = sqrt(max(0.0, eigenAvg * eigenAvg - det));\n float eigen1 = eigenAvg + eigenDelta;\n float eigen2 = eigenAvg - eigenDelta;\n\n vec2 eigenVec1 = (abs(b) > 0.001) ? normalize(vec2(b, eigen1 - a))\n : ((a >= d) ? vec2(1.0, 0.0) : vec2(0.0, 1.0));\n vec2 eigenVec2 = vec2(eigenVec1.y, -eigenVec1.x);\n\n float scale1 = min(maxPixelRadius, adjustedStdDev * sqrt(eigen1));\n float scale2 = min(maxPixelRadius, adjustedStdDev * sqrt(eigen2));\n if (scale1 < minPixelRadius && scale2 < minPixelRadius) {\n return;\n }\n\n // Compute the NDC coordinates for the ellipsoid's diagonal axes.\n vec2 pixelOffset = position.x * eigenVec1 * scale1 + position.y * eigenVec2 * scale2;\n vec2 ndcOffset = (2.0 / scaledRenderSize) * pixelOffset;\n\n // Compute NDC center of the splat\n vec3 ndcCenter = clipCenter.xyz / clipCenter.w;\n vec3 ndc = vec3(ndcCenter.xy + ndcOffset, ndcCenter.z);\n\n vNdc = ndc;\n gl_Position = vec4(ndc.xy * clipCenter.w, clipCenter.zw);\n\n #include \n}\n","import * as THREE from \"three\";\n\nimport computeUvec4Template from \"./shaders/computeUvec4.glsl\";\nimport computeUvec4Vec4Template from \"./shaders/computeUvec4_Vec4.glsl\";\nimport computeUvec4x2Vec4Template from \"./shaders/computeUvec4x2_Vec4.glsl\";\nimport computeVec4Template from \"./shaders/computeVec4.glsl\";\nimport oldSplatFragment from \"./shaders/oldSplatFragment.glsl\";\nimport oldSplatVertex from \"./shaders/oldSplatVertex.glsl\";\nimport splatDefines from \"./shaders/splatDefines.glsl\";\nimport splatFragment from \"./shaders/splatFragment.glsl\";\nimport splatVertex from \"./shaders/splatVertex.glsl\";\n\nlet shaders: Record | null = null;\n\nexport function getShaders(): Record {\n if (!shaders) {\n // @ts-ignore\n THREE.ShaderChunk.splatDefines = splatDefines;\n shaders = {\n oldSplatVertex,\n oldSplatFragment,\n splatVertex,\n splatFragment,\n computeVec4Template,\n computeUvec4Vec4Template,\n computeUvec4x2Vec4Template,\n computeUvec4Template,\n };\n }\n return shaders;\n}\n","import * as THREE from \"three\";\nimport { FullScreenQuad } from \"three/addons/postprocessing/Pass.js\";\n\nimport { SPLAT_TEX_HEIGHT, SPLAT_TEX_WIDTH } from \"./defines\";\nimport { type Dyno, OutputRgba8, dynoBlock } from \"./dyno\";\nimport { DynoProgram, DynoProgramTemplate } from \"./dyno/program\";\nimport { getShaders } from \"./shaders\";\nimport { getTextureSize } from \"./utils\";\n\n// Readback can be used to run a Dyno program that maps an index to a 32-bit\n// RGBA8 value, which is the only allowed, portable readback format for WebGL2.\n// Using data packing and conversion you can read back any 32-bit value, which\n// Spark uses to read back 2 float16 Gsplat distance values per index.\n\nexport type Rgba8Readback = Dyno<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n\n// Readback can be performed with various typed buffers, making it convenient\n// to encode readback data in a variety of formats.\n\nexport type ReadbackBuffer =\n | ArrayBuffer\n | Uint8Array\n | Uint8ClampedArray\n | Int8Array\n | Uint16Array\n | Int16Array\n | Uint32Array\n | Int32Array\n | Float32Array;\n\nexport class Readback {\n renderer?: THREE.WebGLRenderer;\n target?: THREE.WebGLArrayRenderTarget;\n capacity: number;\n count: number;\n\n constructor({ renderer }: { renderer?: THREE.WebGLRenderer } = {}) {\n this.renderer = renderer;\n this.capacity = 0;\n this.count = 0;\n }\n\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target = undefined;\n }\n }\n\n // Ensure we have a buffer large enough for the readback of count indices.\n // Pass in previous bufer of the desired type.\n static ensureBuffer(count: number, buffer: B): B {\n // Readback is performed in a 2D array of pixels, so round up with SPLAT_TEX_WIDTH\n const roundedCount =\n Math.ceil(Math.max(1, count) / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n const bytes = roundedCount * 4;\n if (buffer.byteLength >= bytes) {\n return buffer;\n }\n\n // Need a larger buffer, create a new one of the same type\n const newBuffer = new ArrayBuffer(bytes);\n if (buffer instanceof ArrayBuffer) {\n return newBuffer as B;\n }\n\n const ctor = buffer.constructor as { new (arrayBuffer: ArrayBuffer): B };\n return new ctor(newBuffer) as B;\n }\n\n ensureBuffer(count: number, buffer: B): B {\n return Readback.ensureBuffer(count, buffer);\n }\n\n // Ensure our render target is large enough for the readback of capacity indices.\n ensureCapacity(capacity: number) {\n const { width, height, depth, maxSplats } = getTextureSize(capacity);\n if (!this.target || maxSplats > this.capacity) {\n this.dispose();\n this.capacity = maxSplats;\n\n // The only portable readback format for WebGL2 is RGBA8\n this.target = new THREE.WebGLArrayRenderTarget(width, height, depth, {\n depthBuffer: false,\n stencilBuffer: false,\n generateMipmaps: false,\n magFilter: THREE.NearestFilter,\n minFilter: THREE.NearestFilter,\n });\n this.target.texture.format = THREE.RGBAFormat;\n this.target.texture.type = THREE.UnsignedByteType;\n this.target.texture.internalFormat = \"RGBA8\";\n this.target.scissorTest = true;\n }\n }\n\n // Get a program and THREE.RawShaderMaterial for a given Rgba8Readback,\n // generating it if necessary and caching the result.\n prepareProgramMaterial(reader: Rgba8Readback): {\n program: DynoProgram;\n material: THREE.RawShaderMaterial;\n } {\n let program = Readback.readbackProgram.get(reader);\n if (!program) {\n const graph = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n reader.inputs.index = index;\n const rgba8 = new OutputRgba8({ rgba8: reader.outputs.rgba8 });\n return { rgba8 };\n },\n );\n if (!Readback.programTemplate) {\n Readback.programTemplate = new DynoProgramTemplate(\n getShaders().computeVec4Template,\n );\n }\n // Create a program from the template and graph\n program = new DynoProgram({\n graph,\n inputs: { index: \"_index\" },\n outputs: { rgba8: \"target\" },\n template: Readback.programTemplate,\n });\n Object.assign(program.uniforms, {\n targetLayer: { value: 0 },\n targetBase: { value: 0 },\n targetCount: { value: 0 },\n });\n Readback.readbackProgram.set(reader, program);\n }\n\n const material = program.prepareMaterial();\n Readback.fullScreenQuad.material = material;\n return { program, material };\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n private process({\n count,\n material,\n }: { count: number; material: THREE.RawShaderMaterial }) {\n const renderer = this.renderer;\n if (!renderer) {\n throw new Error(\"No renderer\");\n }\n if (!this.target) {\n throw new Error(\"No target\");\n }\n\n // Run the program in \"layer\" chunks, in horizontal row ranges,\n // that cover the total count of indices.\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n material.uniforms.targetBase.value = 0;\n material.uniforms.targetCount.value = count;\n let baseIndex = 0;\n\n // Keep generating layers until completed count items\n while (baseIndex < count) {\n const layer = Math.floor(baseIndex / layerSize);\n const layerBase = layer * layerSize;\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((count - layerBase) / SPLAT_TEX_WIDTH),\n );\n material.uniforms.targetLayer.value = layer;\n\n // Render the desired portion of the layer\n this.target.scissor.set(0, 0, SPLAT_TEX_WIDTH, layerYEnd);\n renderer.setRenderTarget(this.target, layer);\n renderer.xr.enabled = false;\n renderer.autoClear = false;\n Readback.fullScreenQuad.render(renderer);\n\n baseIndex += SPLAT_TEX_WIDTH * layerYEnd;\n }\n\n this.count = count;\n }\n\n private async read({\n readback,\n }: { readback: B }): Promise {\n const renderer = this.renderer;\n if (!renderer) {\n throw new Error(\"No renderer\");\n }\n if (!this.target) {\n throw new Error(\"No target\");\n }\n\n const roundedCount =\n Math.ceil(this.count / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n if (readback.byteLength < roundedCount * 4) {\n throw new Error(\n `Readback buffer too small: ${readback.byteLength} < ${roundedCount * 4}`,\n );\n }\n const readbackUint8 = new Uint8Array(\n readback instanceof ArrayBuffer ? readback : readback.buffer,\n );\n\n // We can only read back one 2D array layer of pixels at a time,\n // so loop through them, initiate the readback, and collect the\n // completion promises.\n\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n let baseIndex = 0;\n const promises = [];\n\n while (baseIndex < this.count) {\n const layer = Math.floor(baseIndex / layerSize);\n const layerBase = layer * layerSize;\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((this.count - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n renderer.setRenderTarget(this.target, layer);\n\n // Compute the subarray that this layer of readback corresponds to\n const readbackSize = SPLAT_TEX_WIDTH * layerYEnd * 4;\n const subReadback = readbackUint8.subarray(\n layerBase * 4,\n layerBase * 4 + readbackSize,\n );\n const promise = renderer?.readRenderTargetPixelsAsync(\n this.target,\n 0,\n 0,\n SPLAT_TEX_WIDTH,\n layerYEnd,\n subReadback,\n );\n promises.push(promise);\n\n baseIndex += SPLAT_TEX_WIDTH * layerYEnd;\n }\n // const gl = renderer.getContext() as WebGL2RenderingContext;\n // gl.flush();\n return Promise.all(promises).then(() => readback);\n }\n\n // Perform render operation to run the Rgba8Readback program\n // but don't perform the readback yet.\n render({\n reader,\n count,\n renderer,\n }: { reader: Rgba8Readback; count: number; renderer?: THREE.WebGLRenderer }) {\n this.renderer = renderer || this.renderer;\n if (!this.renderer) {\n throw new Error(\"No renderer\");\n }\n\n this.ensureCapacity(count);\n\n const { program, material } = this.prepareProgramMaterial(reader);\n program.update();\n\n const renderState = this.saveRenderState(this.renderer);\n this.process({ count, material });\n this.resetRenderState(this.renderer, renderState);\n }\n\n // Perform a readback of the render target, returning a buffer of the\n // given type.\n async readback({\n readback,\n }: { readback: B }): Promise {\n if (!this.renderer) {\n throw new Error(\"No renderer\");\n }\n const renderState = this.saveRenderState(this.renderer);\n const promise = this.read({ readback });\n this.resetRenderState(this.renderer, renderState);\n return promise;\n }\n\n // Perform a render and readback operation for the given Rgba8Readback,\n // and readback buffer (call ensureBuffer first).\n async renderReadback({\n reader,\n count,\n renderer,\n readback,\n }: {\n reader: Rgba8Readback;\n count: number;\n renderer?: THREE.WebGLRenderer;\n readback: B;\n }): Promise {\n this.renderer = renderer || this.renderer;\n if (!this.renderer) {\n throw new Error(\"No renderer\");\n }\n\n this.ensureCapacity(count);\n\n const { program, material } = this.prepareProgramMaterial(reader);\n program.update();\n\n const renderState = this.saveRenderState(this.renderer);\n\n // Generate output\n this.process({ count, material });\n\n // Initiate readback\n const promise = this.read({ readback });\n\n this.resetRenderState(this.renderer, renderState);\n return promise;\n }\n\n getTexture(): THREE.DataArrayTexture | undefined {\n return this.target?.texture;\n }\n\n static programTemplate: DynoProgramTemplate | null = null;\n\n // Cache for Rgba8Readback programs\n static readbackProgram = new WeakMap();\n\n // Static full-screen quad for pseudo-compute shader rendering\n static fullScreenQuad = new FullScreenQuad(\n new THREE.RawShaderMaterial({ visible: false }),\n );\n}\n","import * as THREE from \"three\";\n\nimport { DynoPackedSplats, type PackedSplats } from \"./PackedSplats\";\nimport { Readback, type Rgba8Readback } from \"./Readback\";\nimport { SPLAT_TEX_WIDTH } from \"./defines\";\nimport {\n Dyno,\n type DynoBlock,\n DynoInt,\n DynoUniform,\n type DynoVal,\n add,\n dynoBlock,\n readPackedSplatRange,\n splitGsplat,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { getTextureSize } from \"./utils\";\n\n// An RgbaArray is a collection of ordered RGBA8 values, which can be used as a dyno\n// data source, for example for recoloring Gsplats via SplatMesh.splatRgba.\n// It can be instantiated from a Uint8Array of RGBA8 values, or it can be\n// generated using a Rgba8Readback dyno program.\n\nexport type RgbaArrayOptions = {\n // Reserve space for at least this many RGBA values.\n capacity?: number;\n // Use the provided array of RGBA8 values as the source.\n array?: Uint8Array;\n // The number of actual RGBA8 values in the array.\n count?: number;\n};\n\nexport class RgbaArray {\n capacity = 0;\n count = 0;\n array: Uint8Array | null = null;\n\n readback: Readback | null = null;\n source: THREE.DataArrayTexture | null = null;\n // Set to true if source array is updated to have it upload to GPU\n needsUpdate = true;\n\n // Use this as a TRgbaArray in a dyno graph\n dyno: DynoUniform;\n\n constructor(options: RgbaArrayOptions = {}) {\n this.dyno = new DynoUniform({\n key: \"rgbaArray\",\n type: TRgbaArray,\n globals: () => [defineRgbaArray],\n value: {\n texture: RgbaArray.getEmpty(),\n count: 0,\n },\n update: (value) => {\n value.texture = this.getTexture();\n value.count = this.count;\n return value;\n },\n });\n\n if (options.array) {\n // Initialize with given array\n this.array = options.array;\n const splatCount = Math.floor(this.array.length / 4);\n this.capacity = Math.ceil(splatCount / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n if (this.capacity > splatCount) {\n this.array = new Uint8Array(this.capacity * 4);\n this.array.set(options.array);\n }\n this.count = Math.min(\n splatCount,\n options.count ?? Number.POSITIVE_INFINITY,\n );\n } else {\n this.capacity = options.capacity ?? 0;\n this.count = 0;\n }\n }\n\n // Free up resources\n dispose() {\n if (this.readback) {\n this.readback.dispose();\n this.readback = null;\n }\n if (this.source) {\n this.source.dispose();\n this.source = null;\n }\n }\n\n // Ensure that our array is large enough to hold capacity RGBA8 values.\n ensureCapacity(capacity: number): Uint8Array {\n if (!this.array || capacity > (this.array?.length ?? 0) / 4) {\n this.capacity = getTextureSize(capacity).maxSplats;\n const newArray = new Uint8Array(this.capacity * 4);\n if (this.array) {\n // Copy over existing data\n newArray.set(this.array);\n }\n this.array = newArray;\n }\n return this.array;\n }\n\n // Get the THREE.DataArrayTexture from either the readback or the source.\n getTexture(): THREE.DataArrayTexture {\n let texture = this.readback?.getTexture();\n if (this.source || this.array) {\n texture = this.maybeUpdateSource();\n }\n return texture ?? RgbaArray.getEmpty();\n }\n\n // Create or get a THREE.DataArrayTexture from the data array.\n private maybeUpdateSource(): THREE.DataArrayTexture {\n if (!this.array) {\n throw new Error(\"No array\");\n }\n\n if (this.needsUpdate || !this.source) {\n this.needsUpdate = false;\n\n if (this.source) {\n const { width, height, depth } = this.source.image;\n if (this.capacity !== width * height * depth) {\n this.source.dispose();\n this.source = null;\n }\n }\n if (!this.source) {\n const { width, height, depth } = getTextureSize(this.capacity);\n this.source = new THREE.DataArrayTexture(\n this.array as Uint8Array,\n width,\n height,\n depth,\n );\n this.source.format = THREE.RGBAFormat;\n this.source.type = THREE.UnsignedByteType;\n this.source.internalFormat = \"RGBA8\";\n this.source.needsUpdate = true;\n } else if (this.array.buffer !== this.source.image.data.buffer) {\n this.source.image.data = new Uint8Array(this.array.buffer);\n }\n this.source.needsUpdate = true;\n }\n return this.source;\n }\n\n // Generate the RGBA8 values from a Rgba8Readback dyno program.\n render({\n reader,\n count,\n renderer,\n }: { reader: Rgba8Readback; count: number; renderer: THREE.WebGLRenderer }) {\n if (!this.readback) {\n this.readback = new Readback({ renderer });\n }\n this.readback.render({ reader, count, renderer });\n this.capacity = this.readback.capacity;\n this.count = this.readback.count;\n }\n\n // Extract the RGBA8 values from a PackedSplats collection.\n fromPackedSplats({\n packedSplats,\n base,\n count,\n renderer,\n }: {\n packedSplats: PackedSplats;\n base: number;\n count: number;\n renderer: THREE.WebGLRenderer;\n }) {\n const { dynoSplats, dynoBase, dynoCount, reader } = RgbaArray.makeDynos();\n dynoSplats.packedSplats = packedSplats;\n dynoBase.value = base;\n dynoCount.value = count;\n this.render({ reader, count, renderer });\n return this;\n }\n\n // Read back the RGBA8 values from the readback buffer.\n async read(): Promise {\n if (!this.readback) {\n throw new Error(\"No readback\");\n }\n if (!this.array || this.array.length < this.count * 4) {\n this.array = new Uint8Array(this.capacity * 4);\n }\n const result = await this.readback.readback({ readback: this.array });\n return result.subarray(0, this.count * 4);\n }\n\n async getArray(): Promise {\n if (this.readback) {\n return await this.read();\n }\n if (this.array) {\n return this.array;\n }\n throw new Error(\"No array\");\n }\n\n private static emptySource: THREE.DataArrayTexture | null = null;\n\n // Can be used where you need an uninitialized THREE.DataArrayTexture like\n // a uniform you will update with the result of this.getTexture() later.\n static getEmpty(): THREE.DataArrayTexture {\n if (!RgbaArray.emptySource) {\n const emptyArray = new Uint8Array(1 * 4);\n RgbaArray.emptySource = new THREE.DataArrayTexture(emptyArray, 1, 1, 1);\n RgbaArray.emptySource.format = THREE.RGBAFormat;\n RgbaArray.emptySource.type = THREE.UnsignedByteType;\n RgbaArray.emptySource.internalFormat = \"RGBA8\";\n RgbaArray.emptySource.needsUpdate = true;\n }\n return RgbaArray.emptySource;\n }\n\n private static dynos: {\n dynoSplats: DynoPackedSplats;\n dynoBase: DynoInt;\n dynoCount: DynoInt;\n reader: DynoBlock<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n } | null = null;\n\n // Create a dyno program that can extract RGBA8 values from a PackedSplats\n private static makeDynos() {\n if (!RgbaArray.dynos) {\n const dynoSplats = new DynoPackedSplats();\n const dynoBase = new DynoInt({ value: 0 });\n const dynoCount = new DynoInt({ value: 0 });\n const reader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n index = add(index, dynoBase);\n const gsplat = readPackedSplatRange(\n dynoSplats,\n index,\n dynoBase,\n dynoCount,\n );\n return { rgba8: splitGsplat(gsplat).outputs.rgba };\n },\n );\n RgbaArray.dynos = { dynoSplats, dynoBase, dynoCount, reader };\n }\n return RgbaArray.dynos;\n }\n}\n\n// Dyno types and definitions\n\nexport const TRgbaArray = { type: \"RgbaArray\" } as { type: \"RgbaArray\" };\n\nexport const defineRgbaArray = unindent(`\n struct RgbaArray {\n sampler2DArray texture;\n int count;\n };\n`);\n\nexport function readRgbaArray(\n rgba: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal<\"vec4\"> {\n const dyno = new Dyno<\n { rgba: typeof TRgbaArray; index: \"int\" },\n { rgba: \"vec4\" }\n >({\n inTypes: { rgba: TRgbaArray, index: \"int\" },\n outTypes: { rgba: \"vec4\" },\n inputs: { rgba, index },\n globals: () => [defineRgbaArray],\n statements: ({ inputs, outputs }) =>\n unindentLines(`\n if ((${inputs.index} >= 0) && (${inputs.index} < ${inputs.rgba}.count)) {\n ${outputs.rgba} = texelFetch(${inputs.rgba}.texture, splatTexCoord(${inputs.index}), 0);\n } else {\n ${outputs.rgba} = vec4(0.0, 0.0, 0.0, 0.0);\n }\n `),\n });\n return dyno.outputs.rgba;\n}\n","import * as THREE from \"three\";\n\nimport {\n CovSplat,\n Dyno,\n DynoInt,\n DynoUniform,\n type DynoVal,\n Gsplat,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { newArray } from \"./utils\";\n\n// Spark provides the ability to apply \"edits\" to Gsplats as part of the standard\n// SplatMesh pipeline. These edits take the form of a sequence of operations,\n// applied one at a time to the set of Gsplats in its packedSplats. Each operation\n// evaluates a 7-dimensional field (RGBA and XYZ displacement) at each point in\n// space that derives from N=1 or more Signed Distance Field shapes (such as spheres,\n// boxes, planes, etc.), blended together and across inside-outisde boundaries.\n\n// The result is a an RGBA,XYZ value for each point in space, which combined with\n// SplatEditRgbaBlendMode.MULTIPLY/SET_RGB/ADD_RGBA can be used to create special\n// effects, for example simulating simple lighting or applying deformations in space,\n// whose parameters can be updated each frame to create animated effects.\n\n// RGBA-XYZ values are computed by blending together values from all SDF shapes using\n// the exponential \"softmax\" function, which is commutative (so blending order within\n// a SplatEdit operation doesn't matter). The parameter SplatEdit.sdfSmooth controls\n// the blending scale between SDF shapes, while SplatEdit.softEdge controls the scale\n// of soft inside-outside shape edit blending. Their default values start at 0.0 and\n// should be increased to soften the effect.\n\n// Note that XYZ displacement values are blended in the same way as RGBA, with a\n// resulting displacement field that can be quite complex but \"softly\" blending\n// between shapes. These RGBA-XYZ edits, along with time-based and overlapping\n// fields can create many interesting animations and special effects, such as\n// rippling leaves in the wind, an angry fire, or a looping water effects. Simply\n// update the SplatEdit and SplatEditSdf objects and the operations will be applied\n// immediately to the Gsplats in the scene.\n\nexport enum SplatEditSdfType {\n // ALL: Affects all points in space\n ALL = \"all\",\n // PLANE: Infinite plane (position, rotation)\n PLANE = \"plane\",\n // SPHERE: Sphere (position, radius)\n SPHERE = \"sphere\",\n // BOX: Rounded box (position, rotation, sizes, radius)\n BOX = \"box\",\n // ELLIPSOID: Ellipsoid (position, rotation, sizes)\n ELLIPSOID = \"ellipsoid\",\n // CYLINDER: Cylinder (position, rotation, radius, size_y)\n CYLINDER = \"cylinder\",\n // CAPSULE: Capsule (position, rotation, radius, size_y)\n CAPSULE = \"capsule\",\n // INFINITE_CONE: Infinite cone (position, rotation, radius=angle)\n INFINITE_CONE = \"infinite_cone\",\n}\n\nfunction sdfTypeToNumber(type: SplatEditSdfType) {\n switch (type) {\n case SplatEditSdfType.ALL:\n return 0;\n case SplatEditSdfType.PLANE:\n return 1;\n case SplatEditSdfType.SPHERE:\n return 2;\n case SplatEditSdfType.BOX:\n return 3;\n case SplatEditSdfType.ELLIPSOID:\n return 4;\n case SplatEditSdfType.CYLINDER:\n return 5;\n case SplatEditSdfType.CAPSULE:\n return 6;\n case SplatEditSdfType.INFINITE_CONE:\n return 7;\n default:\n throw new Error(`Unknown SDF type: ${type}`);\n }\n}\n\nexport enum SplatEditRgbaBlendMode {\n // The RGBA of the splat is multiplied component-wise by the SDF’s\n // RGBA value at that point in space.\n MULTIPLY = \"multiply\",\n // Ignore the Alpha value in the SDF, but set the splat’s RGB to\n // equal the SDF’s RGB value at that point.\n SET_RGB = \"set_rgb\",\n // Add the SDF’s RGBA value at that point to the RGBA value of\n // the Gsplat. This can produce hyper-saturated results, but is useful\n // to easily “light up” areas.\n ADD_RGBA = \"add_rgba\",\n}\n\nfunction rgbaBlendModeToNumber(mode: SplatEditRgbaBlendMode) {\n switch (mode) {\n case SplatEditRgbaBlendMode.MULTIPLY:\n return 0;\n case SplatEditRgbaBlendMode.SET_RGB:\n return 1;\n case SplatEditRgbaBlendMode.ADD_RGBA:\n return 2;\n default:\n throw new Error(`Unknown blend mode: ${mode}`);\n }\n}\n\nexport type SplatEditSdfOptions = {\n // The SDF shape type: ALL, PLANE, SPHERE, BOX, ELLIPSOID, CYLINDER, CAPSULE,\n // or INFINITE_CONE. (default: SplatEditSdfType.SPHERE)\n type?: SplatEditSdfType;\n // Invert the SDF evaluation, swapping inside and outside regions. (default: false)\n invert?: boolean;\n // Opacity / \"alpha\" value used differently by blending modes (default: 1.0)\n opacity?: number;\n // RGB color applied within the shape. (default: new THREE.Color(1.0, 1.0, 1.0))\n color?: THREE.Color;\n // XYZ displacement applied to splat positions inside the shape.\n // (default: new THREE.Vector3(0.0, 0.0, 0.0))\n displace?: THREE.Vector3;\n // Shape-specific size parameter: sphere radius, box corner rounding,\n // cylinder/capsule radius, or for the infinite cone the angle factor\n // (opening half-angle = π/4 × radius).\n radius?: number;\n};\n\nexport class SplatEditSdf extends THREE.Object3D {\n type: SplatEditSdfType;\n invert: boolean;\n opacity: number;\n color: THREE.Color;\n displace: THREE.Vector3;\n radius: number;\n\n constructor(options: SplatEditSdfOptions = {}) {\n super();\n const { type, invert, opacity, color, displace, radius } = options;\n this.type = type ?? SplatEditSdfType.SPHERE;\n this.invert = invert ?? false;\n this.opacity = opacity ?? 1.0;\n this.color = color ?? new THREE.Color(1.0, 1.0, 1.0);\n this.displace = displace ?? new THREE.Vector3(0.0, 0.0, 0.0);\n this.radius = radius ?? 0.0;\n }\n}\n\nexport type SplatEditOptions = {\n // Name of this edit operation. If you omit it, a default \"Edit 1\", \"Edit 2\", ...\n // is assigned.\n name?: string;\n // How the SDF’s RGBA modifies each splat’s RGBA: multiply, overwrite RGB,\n // or add RGBA. (default: MULTIPLY)\n rgbaBlendMode?: SplatEditRgbaBlendMode;\n // Smoothing (in world‐space units) for blending between multiple SDF shapes\n // at their boundaries. (default: 0.0)\n sdfSmooth?: number;\n // Soft‐edge falloff radius (in world‐space units) around each SDF shape’s surface.\n // (default: 0.0)\n softEdge?: number;\n // Invert the SDF evaluation (inside/outside swap). (default: false)\n invert?: boolean;\n // Explicit array of SplatEditSdf objects to include. If null, any child\n // SplatEditSdf instances are used.\n sdfs?: SplatEditSdf[];\n};\n\nexport class SplatEdit extends THREE.Object3D {\n // ordering used to apply SplatEdit operations to Gsplats. This is implicitly\n // increased with each new SplatEdit. Reassigning ordering can be used to\n // reorder the operations.\n ordering: number;\n rgbaBlendMode: SplatEditRgbaBlendMode;\n sdfSmooth: number;\n softEdge: number;\n invert: boolean;\n\n // Optional list of explicit SDFs to including in this edit. If it is null, then\n // any SplatEditSdf children in the scene graph will be added automatically.\n sdfs: SplatEditSdf[] | null;\n\n // The next ordering number to use for a new SplatEdit, auto-incremented\n static nextOrdering = 1;\n\n constructor(options: SplatEditOptions = {}) {\n const {\n name,\n rgbaBlendMode = SplatEditRgbaBlendMode.MULTIPLY,\n sdfSmooth = 0.0,\n softEdge = 0.0,\n invert = false,\n sdfs = null,\n } = options;\n\n super();\n this.rgbaBlendMode = rgbaBlendMode;\n this.sdfSmooth = sdfSmooth;\n this.softEdge = softEdge;\n this.invert = invert;\n this.sdfs = sdfs;\n // Assign and auto-increment unique ordering number for this edit\n this.ordering = SplatEdit.nextOrdering++;\n // Automatically assign a default name if not provided\n this.name = name ?? `Edit ${this.ordering}`;\n }\n\n addSdf(sdf: SplatEditSdf) {\n if (this.sdfs == null) {\n this.sdfs = [];\n }\n if (!this.sdfs.includes(sdf)) {\n this.sdfs.push(sdf);\n }\n }\n\n removeSdf(sdf: SplatEditSdf) {\n if (this.sdfs == null) {\n return;\n }\n this.sdfs = this.sdfs.filter((s) => s !== sdf);\n }\n}\n\n// Dyno implementation of RGBA-XYZ SDF editing.\n// The SDFs are encoded in a texture while the edits are encoded\n// as a uniform uvec4 array.\n\nexport class SplatEdits {\n // Maximum number of SDFs allocated\n maxSdfs: number;\n // Number of SDFs currently in use\n numSdfs: number;\n // Encoded SDF data\n sdfData: Uint32Array;\n // Float interpretation of SDF data\n sdfFloatData: Float32Array;\n // Texture with encoded SDF data\n sdfTexture: THREE.DataTexture;\n // An SdfArray dyno uniform\n dynoSdfArray: DynoUniform;\n\n // Maximum number of edits allocated\n maxEdits: number;\n // Number of edits currently in use\n numEdits: number;\n // Encoded edit data\n editData: Uint32Array;\n // Float interpretation of edit data\n editFloatData: Float32Array;\n // A dyno uniform for the number of edits\n dynoNumEdits: DynoUniform<\"int\", \"numEdits\">;\n // A dyno uniform for the encoded edits, one uvec4 per edit\n dynoEdits: DynoUniform<\"uvec4\", \"edits\">;\n\n constructor({ maxSdfs, maxEdits }: { maxSdfs?: number; maxEdits?: number }) {\n // Allocate at least 16 SDFs for efficiency\n this.maxSdfs = Math.max(16, maxSdfs ?? 0);\n this.numSdfs = 0;\n\n // Allocate space: 8 x (u)vec4 values per SDF, Uint32 and Float32 arrays\n this.sdfData = new Uint32Array(this.maxSdfs * 8 * 4);\n this.sdfFloatData = new Float32Array(this.sdfData.buffer);\n this.sdfTexture = this.newSdfTexture(this.sdfData, this.maxSdfs);\n this.dynoSdfArray = new DynoUniform({\n key: \"sdfArray\",\n type: SdfArray,\n globals: () => [defineSdfArray],\n value: {\n numSdfs: 0,\n sdfTexture: this.sdfTexture,\n },\n update: (uniform) => {\n uniform.numSdfs = this.numSdfs;\n uniform.sdfTexture = this.sdfTexture;\n return uniform;\n },\n });\n\n // Allocate at least 16 edits slots for efficiency\n this.maxEdits = Math.max(16, maxEdits ?? 0);\n this.numEdits = 0;\n // Allocate space: 1 uvec4 per edit\n this.editData = new Uint32Array(this.maxEdits * 4);\n this.editFloatData = new Float32Array(this.editData.buffer);\n this.dynoNumEdits = new DynoInt({ value: 0 });\n this.dynoEdits = this.newEdits(this.editData, this.maxEdits);\n }\n\n private newSdfTexture(data: Uint32Array, maxSdfs: number) {\n const texture = new THREE.DataTexture(\n data,\n 8,\n maxSdfs,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n }\n\n private newEdits(data: Uint32Array, maxEdits: number) {\n return new DynoUniform({\n key: \"edits\",\n type: \"uvec4\",\n count: maxEdits,\n globals: () => [defineEdit],\n value: data,\n });\n }\n\n // Ensure our SDF texture and edits uniform array have enough capacity.\n // Reallocate if not.\n private ensureCapacity({\n maxSdfs,\n maxEdits,\n }: { maxSdfs: number; maxEdits: number }): boolean {\n let dynoUpdated = false;\n if (maxSdfs > this.sdfTexture.image.height) {\n this.sdfTexture.dispose();\n // At least double the size to avoid frequent reallocations\n this.maxSdfs = Math.max(this.maxSdfs * 2, maxSdfs);\n this.sdfData = new Uint32Array(this.maxSdfs * 8 * 4);\n this.sdfFloatData = new Float32Array(this.sdfData.buffer);\n this.sdfTexture = this.newSdfTexture(this.sdfData, this.maxSdfs);\n }\n if (maxEdits > (this.dynoEdits.count ?? 0)) {\n // At least double the size to avoid frequent reallocations\n this.maxEdits = Math.max(this.maxEdits * 2, maxEdits);\n this.editData = new Uint32Array(this.maxEdits * 4);\n this.editFloatData = new Float32Array(this.editData.buffer);\n this.dynoEdits = this.newEdits(this.editData, this.maxEdits);\n dynoUpdated = true;\n }\n return dynoUpdated;\n }\n\n private updateEditData(offset: number, value: number): boolean {\n // Update an edit uint32 value and return true if it changed\n const updated = this.editData[offset] !== value;\n this.editData[offset] = value;\n return updated;\n }\n\n private updateEditFloatData(offset: number, value: number): boolean {\n // Update an edit float32 value and return true if it changed\n tempFloat32[0] = value;\n const updated = this.editFloatData[offset] !== tempFloat32[0];\n if (updated) {\n this.editFloatData[offset] = tempFloat32[0];\n }\n return updated;\n }\n\n private encodeEdit(\n editIndex: number,\n {\n sdfFirst,\n sdfCount,\n invert,\n rgbaBlendMode,\n softEdge,\n sdfSmooth,\n }: {\n sdfFirst: number;\n sdfCount: number;\n invert: boolean;\n rgbaBlendMode: number;\n softEdge: number;\n sdfSmooth: number;\n },\n ): boolean {\n const base = editIndex * 4;\n let updated = false;\n // Encode the edit fields into the editData array and check if any changed\n updated =\n this.updateEditData(base + 0, rgbaBlendMode | (invert ? 1 << 8 : 0)) ||\n updated;\n updated =\n this.updateEditData(base + 1, sdfFirst | (sdfCount << 16)) || updated;\n updated = this.updateEditFloatData(base + 2, softEdge) || updated;\n updated = this.updateEditFloatData(base + 3, sdfSmooth) || updated;\n return updated;\n }\n\n private updateSdfData(offset: number, value: number): boolean {\n // Update an SDF uint32 value and return true if it changed\n const updated = this.sdfData[offset] !== value;\n this.sdfData[offset] = value;\n return updated;\n }\n\n private updateSdfFloatData(offset: number, value: number): boolean {\n // Update an SDF float32 value and return true if it changed\n tempFloat32[0] = value;\n const updated = this.sdfFloatData[offset] !== tempFloat32[0];\n if (updated) {\n this.sdfFloatData[offset] = tempFloat32[0];\n }\n return updated;\n }\n\n private encodeSdf(\n sdfIndex: number,\n {\n sdfType,\n invert,\n center,\n quaternion,\n scale,\n sizes,\n }: {\n sdfType: number;\n invert?: boolean;\n center?: THREE.Vector3;\n quaternion?: THREE.Quaternion;\n scale?: THREE.Vector3;\n sizes?: THREE.Vector4;\n },\n values: THREE.Vector4[],\n ): boolean {\n // Encode the SDF fields into the sdfData array and check if any changed\n const base = sdfIndex * (8 * 4);\n const flags = sdfType | (invert ? 1 << 8 : 0);\n let updated = false;\n\n updated = this.updateSdfFloatData(base + 0, center?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 1, center?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 2, center?.z ?? 0) || updated;\n updated = this.updateSdfData(base + 3, flags) || updated;\n\n updated = this.updateSdfFloatData(base + 4, quaternion?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 5, quaternion?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 6, quaternion?.z ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 7, quaternion?.w ?? 0) || updated;\n\n updated = this.updateSdfFloatData(base + 8, scale?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 9, scale?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 10, scale?.z ?? 0) || updated;\n updated = this.updateSdfData(base + 11, 0) || updated;\n\n updated = this.updateSdfFloatData(base + 12, sizes?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 13, sizes?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 14, sizes?.z ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 15, sizes?.w ?? 0) || updated;\n\n const nValues = Math.min(4, values.length);\n for (let i = 0; i < nValues; ++i) {\n const vBase = base + 16 + i * 4;\n updated = this.updateSdfFloatData(vBase + 0, values[i].x) || updated;\n updated = this.updateSdfFloatData(vBase + 1, values[i].y) || updated;\n updated = this.updateSdfFloatData(vBase + 2, values[i].z) || updated;\n updated = this.updateSdfFloatData(vBase + 3, values[i].w) || updated;\n }\n return updated;\n }\n\n // Update the SDFs and edits from an array of SplatEdits and their\n // associated SplatEditSdfs, updating it for the dyno shader program.\n update(edits: { edit: SplatEdit; sdfs: SplatEditSdf[] }[]): {\n updated: boolean;\n dynoUpdated: boolean;\n } {\n const sdfCount = edits.reduce((total, { sdfs }) => total + sdfs.length, 0);\n const dynoUpdated = this.ensureCapacity({\n maxEdits: edits.length,\n maxSdfs: sdfCount,\n });\n\n const values = [new THREE.Vector4(), new THREE.Vector4()];\n const center = new THREE.Vector3();\n const quaternion = new THREE.Quaternion();\n const scale = new THREE.Vector3();\n const sizes = new THREE.Vector4();\n\n let sdfIndex = 0;\n let updated = dynoUpdated;\n\n if (edits.length !== this.dynoNumEdits.value) {\n this.dynoNumEdits.value = edits.length;\n this.numEdits = edits.length;\n updated = true;\n }\n\n for (const [editIndex, { edit, sdfs }] of edits.entries()) {\n updated =\n this.encodeEdit(editIndex, {\n sdfFirst: sdfIndex,\n sdfCount: sdfs.length,\n invert: edit.invert,\n rgbaBlendMode: rgbaBlendModeToNumber(edit.rgbaBlendMode),\n softEdge: edit.softEdge,\n sdfSmooth: edit.sdfSmooth,\n }) || updated;\n\n let sdfUpdated = false;\n for (const sdf of sdfs) {\n sizes.set(sdf.scale.x, sdf.scale.y, sdf.scale.z, sdf.radius);\n // Temporarily set the SDF scale to 1.0 to get the world-to-SDF\n // transform without scaling. The SDF treats the scale separately.\n sdf.scale.setScalar(1.0);\n sdf.updateMatrixWorld();\n const worldToSdf = sdf.matrixWorld.clone().invert();\n worldToSdf.decompose(center, quaternion, scale);\n\n sdf.scale.set(sizes.x, sizes.y, sizes.z);\n sdf.updateMatrixWorld();\n\n values[0].set(sdf.color.r, sdf.color.g, sdf.color.b, sdf.opacity);\n values[1].set(sdf.displace.x, sdf.displace.y, sdf.displace.z, 1.0);\n\n sdfUpdated =\n this.encodeSdf(\n sdfIndex,\n {\n sdfType: sdfTypeToNumber(sdf.type),\n invert: sdf.invert,\n center,\n quaternion,\n scale,\n sizes,\n },\n values,\n ) || sdfUpdated;\n\n sdfIndex += 1;\n }\n this.numSdfs = sdfIndex;\n if (sdfUpdated) {\n this.sdfTexture.needsUpdate = true;\n }\n updated ||= sdfUpdated;\n }\n return { updated, dynoUpdated };\n }\n\n // Modify a Gsplat in a dyno shader program using the current edits and SDFs.\n modify(gsplat: DynoVal): DynoVal {\n return applyGsplatRgbaDisplaceEdits(\n gsplat,\n this.dynoSdfArray,\n this.dynoNumEdits,\n this.dynoEdits,\n );\n }\n\n modifyCov(covsplat: DynoVal): DynoVal {\n return applyCovSplatRgbaDisplaceEdits(\n covsplat,\n this.dynoSdfArray,\n this.dynoNumEdits,\n this.dynoEdits,\n );\n }\n}\n\n// Dyno types and components:\n\n// An SdfArray contains a collection of SDFs encoded in a texture.\n// Each SDF has a type and geometric parameters, but also encodes\n// 4 x vec4 values, which can all be blended across multiple SDFs.\n// The SplatEdit system uses 7 of these 16 values to encode RGBA-XYZ edits,\n// but more can be added, and these SDFs can be used for entirely different\n// purposes as well.\n\nexport const SdfArray = { type: \"SdfArray\" } as { type: \"SdfArray\" };\n\nexport const defineSdfArray = unindent(`\n struct SdfArray {\n int numSdfs;\n usampler2D sdfTexture;\n };\n\n void unpackSdfArray(\n usampler2D sdfTexture, int sdfIndex, out uint flags,\n out vec3 center, out vec4 quaternion, out vec3 scale, out vec4 sizes,\n int numValues, out vec4 values[4]\n ) {\n uvec4 temp = texelFetch(sdfTexture, ivec2(0, sdfIndex), 0);\n flags = temp.w;\n center = vec3(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z));\n\n temp = texelFetch(sdfTexture, ivec2(1, sdfIndex), 0);\n quaternion = vec4(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z), uintBitsToFloat(temp.w));\n\n temp = texelFetch(sdfTexture, ivec2(2, sdfIndex), 0);\n scale = vec3(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z));\n\n temp = texelFetch(sdfTexture, ivec2(3, sdfIndex), 0);\n sizes = vec4(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z), uintBitsToFloat(temp.w));\n\n for (int i = 0; i < numValues; ++i) {\n temp = texelFetch(sdfTexture, ivec2(4 + i, sdfIndex), 0);\n values[i] = vec4(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z), uintBitsToFloat(temp.w));\n }\n }\n\n const uint SDF_FLAG_TYPE = 0xFFu;\n const uint SDF_FLAG_INVERT = 1u << 8u;\n\n const uint SDF_TYPE_ALL = 0u;\n const uint SDF_TYPE_PLANE = 1u;\n const uint SDF_TYPE_SPHERE = 2u;\n const uint SDF_TYPE_BOX = 3u;\n const uint SDF_TYPE_ELLIPSOID = 4u;\n const uint SDF_TYPE_CYLINDER = 5u;\n const uint SDF_TYPE_CAPSULE = 6u;\n const uint SDF_TYPE_INFINITE_CONE = 7u;\n\n float evaluateSdfArray(\n usampler2D sdfTexture, int numSdfs, int sdfFirst, int sdfCount, vec3 pos,\n float smoothK, int numValues, out vec4 outValues[4]\n ) {\n float distanceAccum = (smoothK == 0.0) ? 1.0 / 0.0 : 0.0;\n float maxExp = -1.0 / 0.0;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] = vec4(0.0);\n }\n\n uint flags;\n vec3 center, scale;\n vec4 quaternion, sizes;\n vec4 values[4];\n\n int sdfLast = min(sdfFirst + sdfCount, numSdfs);\n for (int index = sdfFirst; index < sdfLast; ++index) {\n unpackSdfArray(sdfTexture, index, flags, center, quaternion, scale, sizes, numValues, values);\n uint sdfType = flags & SDF_FLAG_TYPE;\n vec3 sdfPos = quatVec(quaternion, pos * scale) + center;\n\n float distance;\n switch (sdfType) {\n case SDF_TYPE_ALL:\n distance = -1.0 / 0.0;\n break;\n case SDF_TYPE_PLANE: {\n distance = sdfPos.z;\n break;\n }\n case SDF_TYPE_SPHERE: {\n distance = length(sdfPos) - sizes.w;\n break;\n }\n case SDF_TYPE_BOX: {\n vec3 q = abs(sdfPos) - sizes.xyz + sizes.w;\n distance = length(max(q, 0.0)) + min(max(q.x, max(q.y, q.z)), 0.0) - sizes.w;\n break;\n }\n case SDF_TYPE_ELLIPSOID: {\n vec3 sizes = sizes.xyz;\n float k0 = length(sdfPos / sizes);\n float k1 = length(sdfPos / dot(sizes, sizes));\n distance = k0 * (k0 - 1.0) / k1;\n break;\n }\n case SDF_TYPE_CYLINDER: {\n vec2 d = abs(vec2(length(sdfPos.xz), sdfPos.y)) - sizes.wy;\n distance = min(max(d.x, d.y), 0.0) + length(max(d, 0.0));\n break;\n }\n case SDF_TYPE_CAPSULE: {\n sdfPos.y -= clamp(sdfPos.y, -0.5 * sizes.y, 0.5 * sizes.y);\n distance = length(sdfPos) - sizes.w;\n break;\n }\n case SDF_TYPE_INFINITE_CONE: {\n float angle = 0.25 * PI * sizes.w;\n vec2 c = vec2(sin(angle), cos(angle));\n vec2 q = vec2(length(sdfPos.xy), -sdfPos.z);\n float d = length(q - c * max(dot(q, c), 0.0));\n distance = d * (((q.x * c.y - q.y * c.x) < 0.0) ? -1.0 : 1.0);\n break;\n }\n }\n\n if ((flags & SDF_FLAG_INVERT) != 0u) {\n distance = -distance;\n }\n\n if (smoothK == 0.0) {\n if (distance < distanceAccum) {\n distanceAccum = distance;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] = values[i];\n }\n }\n } else {\n float scaledDistance = -distance / smoothK;\n if (scaledDistance > maxExp) {\n float scale = exp(maxExp - scaledDistance);\n distanceAccum *= scale;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] *= scale;\n }\n maxExp = scaledDistance;\n }\n\n float weight = exp(scaledDistance - maxExp);\n distanceAccum += weight;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] += weight * values[i];\n }\n }\n }\n\n if (smoothK == 0.0) {\n return distanceAccum;\n } else {\n // Very distant SDFs may result in 0 accumulation\n if (distanceAccum == 0.0) {\n return 1.0 / 0.0;\n }\n for (int i = 0; i < numValues; ++i) {\n outValues[i] /= distanceAccum;\n }\n return (-log(distanceAccum) - maxExp) * smoothK;\n }\n }\n\n float modulateSdfArray(\n usampler2D sdfTexture, int numSdfs, int sdfFirst, int sdfCount, vec3 pos,\n float smoothK, int numValues, out vec4 values[4],\n float softEdge, bool invert\n ) {\n float distance = evaluateSdfArray(sdfTexture, numSdfs, sdfFirst, sdfCount, pos, smoothK, numValues, values);\n if (invert) {\n distance = -distance;\n }\n\n return (softEdge == 0.0) ? ((distance < 0.0) ? 1.0 : 0.0)\n : clamp(-distance / softEdge + 0.5, 0.0, 1.0);\n }\n`);\n\nexport const defineEdit = unindent(`\n const uint EDIT_FLAG_BLEND = 0xFFu;\n const uint EDIT_BLEND_MULTIPLY = 0u;\n const uint EDIT_BLEND_SET_RGB = 1u;\n const uint EDIT_BLEND_ADD_RGBA = 2u;\n const uint EDIT_FLAG_INVERT = 0x100u;\n\n void decodeEdit(\n uvec4 packedEdit, out int sdfFirst, out int sdfCount,\n out bool invert, out uint rgbaBlendMode, out float softEdge, out float sdfSmooth\n ) {\n rgbaBlendMode = packedEdit.x & EDIT_FLAG_BLEND;\n invert = (packedEdit.x & EDIT_FLAG_INVERT) != 0u;\n\n sdfFirst = int(packedEdit.y & 0xFFFFu);\n sdfCount = int(packedEdit.y >> 16u);\n\n softEdge = uintBitsToFloat(packedEdit.z);\n sdfSmooth = uintBitsToFloat(packedEdit.w);\n }\n\n void applyRgbaDisplaceEdit(\n usampler2D sdfTexture, int numSdfs, int sdfFirst, int sdfCount, inout vec3 pos,\n float smoothK, float softEdge, bool invert, uint rgbaBlendMode, inout vec4 rgba\n ) {\n vec4 values[4];\n float modulate = modulateSdfArray(sdfTexture, numSdfs, sdfFirst, sdfCount, pos, smoothK, 2, values, softEdge, invert);\n // On Android, moving values[0] is necessary to work around a compiler bug.\n vec4 sdfRgba = values[0];\n vec4 sdfDisplaceScale = values[1];\n\n vec4 target;\n switch (rgbaBlendMode) {\n case EDIT_BLEND_MULTIPLY:\n target = rgba * sdfRgba;\n break;\n case EDIT_BLEND_SET_RGB:\n target = vec4(sdfRgba.rgb, rgba.a * sdfRgba.a);\n break;\n case EDIT_BLEND_ADD_RGBA:\n target = rgba + sdfRgba;\n break;\n default:\n // Debug output if blend mode not set\n target = vec4(fract(pos), 1.0);\n }\n rgba = mix(rgba, target, modulate);\n pos += sdfDisplaceScale.xyz * modulate;\n }\n\n void applyPackedRgbaDisplaceEdit(uvec4 packedEdit, usampler2D sdfTexture, int numSdfs, inout vec3 pos, inout vec4 rgba) {\n int sdfFirst, sdfCount;\n bool invert;\n uint rgbaBlendMode;\n float softEdge, sdfSmooth;\n decodeEdit(packedEdit, sdfFirst, sdfCount, invert, rgbaBlendMode, softEdge, sdfSmooth);\n applyRgbaDisplaceEdit(sdfTexture, numSdfs, sdfFirst, sdfCount, pos, sdfSmooth, softEdge, invert, rgbaBlendMode, rgba);\n }\n`);\n\nfunction applyGsplatRgbaDisplaceEdits(\n gsplat: DynoVal,\n sdfArray: DynoVal,\n numEdits: DynoVal<\"int\">,\n rgbaDisplaceEdits: DynoVal<\"uvec4\">,\n): DynoVal {\n const dyno = new Dyno<\n {\n gsplat: typeof Gsplat;\n sdfArray: typeof SdfArray;\n numEdits: \"int\";\n rgbaDisplaceEdits: \"uvec4\";\n },\n { gsplat: typeof Gsplat }\n >({\n inTypes: {\n gsplat: Gsplat,\n sdfArray: SdfArray,\n numEdits: \"int\",\n rgbaDisplaceEdits: \"uvec4\",\n },\n outTypes: { gsplat: Gsplat },\n globals: () => [defineSdfArray, defineEdit],\n inputs: { gsplat, sdfArray, numEdits, rgbaDisplaceEdits },\n statements: ({ inputs, outputs }) => {\n const { sdfArray, numEdits, rgbaDisplaceEdits } = inputs;\n const { gsplat } = outputs;\n return unindentLines(`\n ${gsplat} = ${inputs.gsplat};\n if (isGsplatActive(${gsplat}.flags)) {\n for (int editIndex = 0; editIndex < ${numEdits}; ++editIndex) {\n applyPackedRgbaDisplaceEdit(\n ${rgbaDisplaceEdits}[editIndex], ${sdfArray}.sdfTexture, ${sdfArray}.numSdfs,\n ${gsplat}.center, ${gsplat}.rgba\n );\n }\n }\n `);\n },\n });\n return dyno.outputs.gsplat;\n}\n\nfunction applyCovSplatRgbaDisplaceEdits(\n covsplat: DynoVal,\n sdfArray: DynoVal,\n numEdits: DynoVal<\"int\">,\n rgbaDisplaceEdits: DynoVal<\"uvec4\">,\n): DynoVal {\n const dyno = new Dyno<\n {\n covsplat: typeof CovSplat;\n sdfArray: typeof SdfArray;\n numEdits: \"int\";\n rgbaDisplaceEdits: \"uvec4\";\n },\n { covsplat: typeof CovSplat }\n >({\n inTypes: {\n covsplat: CovSplat,\n sdfArray: SdfArray,\n numEdits: \"int\",\n rgbaDisplaceEdits: \"uvec4\",\n },\n outTypes: { covsplat: CovSplat },\n globals: () => [defineSdfArray, defineEdit],\n inputs: { covsplat, sdfArray, numEdits, rgbaDisplaceEdits },\n statements: ({ inputs, outputs }) => {\n const { sdfArray, numEdits, rgbaDisplaceEdits } = inputs;\n const { covsplat } = outputs;\n return unindentLines(`\n ${covsplat} = ${inputs.covsplat};\n if (isCovSplatActive(${covsplat}.flags)) {\n for (int editIndex = 0; editIndex < ${numEdits}; ++editIndex) {\n applyPackedRgbaDisplaceEdit(\n ${rgbaDisplaceEdits}[editIndex], ${sdfArray}.sdfTexture, ${sdfArray}.numSdfs,\n ${covsplat}.center, ${covsplat}.rgba\n );\n }\n }\n `);\n },\n });\n return dyno.outputs.covsplat;\n}\n\nconst tempFloat32 = new Float32Array(1);\n","import * as THREE from \"three\";\nimport type { SplatEdit } from \"./SplatEdit\";\nimport {\n CovSplat,\n Dyno,\n DynoFloat,\n DynoMat3,\n type DynoVal,\n DynoVec3,\n DynoVec4,\n Gsplat,\n add,\n dynoBlock,\n mul,\n transformDir,\n transformGsplat,\n transformPos,\n unindentLines,\n} from \"./dyno\";\n\n// A GsplatGenerator is a dyno program that maps an index to a Gsplat's properties\n\nexport type GsplatGenerator = Dyno<{ index: \"int\" }, { gsplat: typeof Gsplat }>;\n\nexport type CovSplatGenerator = Dyno<\n { index: \"int\" },\n { covsplat: typeof CovSplat }\n>;\n\n// A GsplatModifier is a dyno program that inputs a Gsplat, modifies, and outputs it\n\nexport type GsplatModifier = Dyno<\n { gsplat: typeof Gsplat },\n { gsplat: typeof Gsplat }\n>;\n\nexport type CovSplatModifier = Dyno<\n { covsplat: typeof CovSplat },\n { covsplat: typeof CovSplat }\n>;\n\n// A SplatModifier is a utility class to apply a GsplatModifier to\n// a GsplatGenerator pipeline, caching the combined result for efficiency.\n\nexport class SplatModifier {\n modifier: GsplatModifier;\n cache: Map;\n\n constructor(modifier: GsplatModifier) {\n this.modifier = modifier;\n this.cache = new Map();\n }\n\n apply(generator: GsplatGenerator): GsplatGenerator {\n let modified = this.cache.get(generator);\n if (!modified) {\n modified = dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n const { gsplat } = generator.apply({ index });\n return this.modifier.apply({ gsplat });\n },\n );\n this.cache.set(generator, modified);\n }\n return modified;\n }\n}\n\n// A SplatTransformer is a utility class to apply a transform to a Gsplat\n// via a scale, rotation, and translation. Scale is a single float because\n// anisotropic scaling of Gsplats is not supported.\n\nexport class SplatTransformer {\n scale: DynoFloat;\n rotate: DynoVec4;\n translate: DynoVec3;\n\n // Create the dyno uniforms that parameterize the transform, setting them\n // to initial values that are different from any valid transform.\n constructor() {\n this.scale = new DynoFloat({ value: Number.NEGATIVE_INFINITY });\n this.rotate = new DynoVec4({\n value: new THREE.Quaternion(\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n ),\n });\n this.translate = new DynoVec3({\n value: new THREE.Vector3(\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n ),\n });\n }\n\n // Apply the transform to a Vec3 position in a dyno program.\n apply(position: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n return transformPos(position, {\n scale: this.scale,\n rotate: this.rotate,\n translate: this.translate,\n });\n }\n\n applyDir(dir: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n return transformDir(dir, {\n rotate: this.rotate,\n });\n }\n\n // Apply the transform to a Gsplat in a dyno program.\n applyGsplat(gsplat: DynoVal): DynoVal {\n return transformGsplat(gsplat, {\n scale: this.scale,\n rotate: this.rotate,\n translate: this.translate,\n });\n }\n\n // Update the uniforms to match the given transform matrix.\n updateFromMatrix(transform: THREE.Matrix4) {\n const scale = new THREE.Vector3();\n const quaternion = new THREE.Quaternion();\n const position = new THREE.Vector3();\n transform.decompose(position, quaternion, scale);\n const newScale = (scale.x + scale.y + scale.z) / 3;\n\n let updated = false;\n if (newScale !== this.scale.value) {\n this.scale.value = newScale;\n updated = true;\n }\n if (!position.equals(this.translate.value)) {\n this.translate.value.copy(position);\n updated = true;\n }\n if (!quaternion.equals(this.rotate.value)) {\n this.rotate.value.copy(quaternion);\n updated = true;\n }\n return updated;\n }\n\n // Update this transform to match the object's to-world transform.\n update(object: THREE.Object3D): boolean {\n object.updateMatrixWorld();\n return this.updateFromMatrix(object.matrixWorld);\n }\n}\n\nexport class CovSplatTransformer {\n basis: DynoMat3<\"basis\", THREE.Matrix3>;\n offset: DynoVec3;\n\n constructor() {\n this.basis = new DynoMat3({ value: new THREE.Matrix3() });\n this.offset = new DynoVec3({ value: new THREE.Vector3() });\n }\n\n // Apply the transform to a Vec3 position in a dyno program.\n apply(position: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n const rebased = mul(this.basis, position);\n return add(rebased, this.offset);\n }\n\n applyDir(dir: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n return mul(this.basis, dir);\n }\n\n // Apply the transform to a Gsplat in a dyno program.\n applyCovSplat(covsplat: DynoVal): DynoVal {\n return new Dyno({\n inTypes: { covsplat: CovSplat, basis: \"mat3\", offset: \"vec3\" },\n outTypes: { covsplat: CovSplat },\n inputs: { covsplat, basis: this.basis, offset: this.offset },\n statements: ({ inputs, outputs }) => {\n const { covsplat, basis, offset } = inputs;\n if (!covsplat || !basis || !offset) {\n return [`${outputs.covsplat}.flags = 0u;`];\n }\n return unindentLines(`\n ${outputs.covsplat}.flags = 0u;\n if (isCovSplatActive(${covsplat}.flags)) {\n ${outputs.covsplat}.flags = ${covsplat}.flags;\n ${outputs.covsplat}.index = ${covsplat}.index;\n ${outputs.covsplat}.rgba = ${covsplat}.rgba;\n\n ${outputs.covsplat}.center = ${basis} * ${covsplat}.center + ${offset};\n \n mat3 cov = mat3(\n ${covsplat}.xxyyzz.x, ${covsplat}.xyxzyz.x, ${covsplat}.xyxzyz.y,\n ${covsplat}.xyxzyz.x, ${covsplat}.xxyyzz.y, ${covsplat}.xyxzyz.z,\n ${covsplat}.xyxzyz.y, ${covsplat}.xyxzyz.z, ${covsplat}.xxyyzz.z\n );\n cov = ${basis} * cov * transpose(${basis});\n ${outputs.covsplat}.xxyyzz = vec3(cov[0][0], cov[1][1], cov[2][2]);\n ${outputs.covsplat}.xyxzyz = vec3(cov[0][1], cov[0][2], cov[1][2]);\n }\n `);\n },\n }).outputs.covsplat;\n }\n\n // Update the uniforms to match the given transform matrix.\n updateFromMatrix(transform: THREE.Matrix4) {\n const basis = new THREE.Matrix3().setFromMatrix4(transform);\n const offset = new THREE.Vector3().setFromMatrixColumn(transform, 3);\n\n const updated =\n !basis.equals(this.basis.value) || !offset.equals(this.offset.value);\n if (updated) {\n this.basis.value.copy(basis);\n this.offset.value.copy(offset);\n }\n return updated;\n }\n\n // Update this transform to match the object's to-world transform.\n update(object: THREE.Object3D): boolean {\n object.updateMatrixWorld();\n return this.updateFromMatrix(object.matrixWorld);\n }\n}\n\n// SplatGenerator is an Object3D that can be placed anywhere in the scene\n// to generate Gsplats into the world for SparkRenderer. All Gsplats from\n// SplatGenerators across the scene will be accumulated into a single\n// SplatAccumulator, which are sorted and rendered together.\n//\n// Each SplatGenerator has two main properties:\n// - numSplats: the number of Gsplats to generate\n// - generator: a GsplatGenerator dyno program that maps a splat index\n// to a Gsplat's properties\n// Each of these properties can be changed at anytime, however changing\n// numSplats means we no longer have a correspondence between Gsplats\n// in successive frames, meaning we can't reuse the previous Gsplat sort\n// order. Similarly, changing the generator requires re-generating the\n// shader program, which will trigger a GPU shader compilation the first\n// time (possibly a perceptible \"hickup\" in the framerate) but is cached\n// subsequence times if the generator is the same as one that was used previously.\n//\n// A SplatGenerator also has a custom frameUpdate function that is called\n// on each execution, allowing you to update uniforms or other parameters that\n// affect the generation. If the Gsplats are changed, you must call\n// updateVersion() (alternatively, set needsUpdate to true) to trigger a\n// re-generation of the Gsplats for this SplatGenerator.\n\nexport interface FrameUpdateContext {\n renderer: THREE.WebGLRenderer;\n object: SplatGenerator;\n time: number;\n deltaTime: number;\n viewToWorld: THREE.Matrix4;\n camera?: THREE.Camera;\n renderSize?: THREE.Vector2;\n globalEdits: SplatEdit[];\n lodIndices?: { numSplats: number; texture: THREE.DataTexture };\n}\n\nexport class SplatGenerator extends THREE.Object3D {\n numSplats: number;\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n generatorError?: unknown;\n covGeneratorError?: unknown;\n frameUpdate?: (context: FrameUpdateContext) => void;\n version: number;\n mappingVersion: number;\n\n constructor({\n numSplats,\n generator,\n covGenerator,\n construct,\n update,\n }: {\n numSplats?: number;\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n construct?: (object: SplatGenerator) => {\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n numSplats?: number;\n frameUpdate?: (context: FrameUpdateContext) => void;\n };\n update?: (context: FrameUpdateContext) => void;\n }) {\n super();\n\n this.numSplats = numSplats ?? 0;\n this.generator = generator;\n this.covGenerator = covGenerator;\n this.frameUpdate = update;\n this.version = 0;\n this.mappingVersion = 0;\n\n if (construct) {\n const constructed = construct(this);\n // If we returned something, update our properties\n Object.assign(this, constructed);\n }\n }\n\n updateVersion() {\n this.version += 1;\n }\n\n updateMappingVersion() {\n this.mappingVersion += 1;\n this.version += 1;\n }\n\n set needsUpdate(value: boolean) {\n if (value) {\n this.updateVersion();\n }\n }\n}\n","import * as THREE from \"three\";\nimport { FullScreenQuad } from \"three/examples/jsm/postprocessing/Pass.js\";\nimport { Readback } from \"./Readback\";\nimport { SplatEdit } from \"./SplatEdit\";\nimport {\n type CovSplatGenerator,\n type GsplatGenerator,\n SplatGenerator,\n} from \"./SplatGenerator\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport {\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_WIDTH,\n} from \"./defines\";\nimport {\n type CovSplat,\n Dyno,\n DynoBool,\n DynoProgram,\n DynoProgramTemplate,\n DynoUsampler2DArray,\n type DynoVal,\n DynoVec3,\n combineCovSplat,\n combineGsplat,\n dynoBlock,\n dynoConst,\n gsplatToCovSplat,\n mul,\n outputCovSplat,\n outputCovSplatDepth,\n outputExtCovSplat,\n outputExtendedSplat,\n outputPackedSplat,\n outputSplatDepth,\n splitCovSplat,\n splitGsplat,\n sub,\n unindentLines,\n} from \"./dyno\";\nimport { getShaders } from \"./shaders\";\nimport { getTextureSize, threeMrtArray } from \"./utils\";\n\n// A GeneratorMapping describes a Gsplat range that was generated, including\n// which generator and its version number.\nexport type GeneratorMapping = {\n node: SplatGenerator;\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n version: number;\n mappingVersion?: number;\n base: number;\n count: number;\n};\n\nexport class SplatAccumulator {\n time = 0;\n deltaTime = 0;\n viewToWorld = new THREE.Matrix4();\n viewOrigin = new THREE.Vector3();\n viewDirection = new THREE.Vector3();\n static viewCenterUniform = new DynoVec3({ value: new THREE.Vector3() });\n static viewDirUniform = new DynoVec3({ value: new THREE.Vector3() });\n static sortRadialUniform = new DynoBool({ value: true });\n maxSplats = 0;\n numSplats = 0;\n target: THREE.WebGLArrayRenderTarget | null = null;\n mapping: GeneratorMapping[] = [];\n version = -1;\n mappingVersion = -1;\n extSplats: boolean;\n covSplats: boolean;\n readback: Readback | null = null;\n readbackSplats: DynoUsampler2DArray<\"extSplats\", THREE.DataArrayTexture>[] =\n [];\n\n constructor({\n extSplats,\n covSplats,\n }: { extSplats?: boolean; covSplats?: boolean } = {}) {\n if (!threeMrtArray) {\n throw new Error(\"Spark requires THREE.js r179 or above\");\n }\n this.extSplats = extSplats ?? true;\n this.covSplats = covSplats ?? false;\n }\n\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target = null;\n }\n }\n\n // Returns a THREE.DataArrayTexture representing the NewSplatAccumulator\n // content as 2 x Uint32x4 data array textures (2048 x 2048 x 2048 in size)\n getTextures(): THREE.DataArrayTexture[] {\n if (this.target) {\n return this.target.textures;\n }\n return SplatAccumulator.emptyTextures;\n }\n\n static emptyTexture = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyTextures = (() => {\n return [SplatAccumulator.emptyTexture, SplatAccumulator.emptyTexture];\n })();\n\n // Given an array of splatCounts (.numSplats for each\n // SplatGenerator/SplatMesh in the scene), compute a\n // \"mapping layout\" in the composite array of generated outputs.\n generateMapping(splatCounts: number[]): {\n maxSplats: number;\n mapping: { base: number; count: number }[];\n } {\n let maxSplats = 0;\n const mapping = splatCounts.map((numSplats) => {\n const base = maxSplats;\n // Generation happens in horizontal row chunks, so round up to full width\n const rounded = Math.ceil(numSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n maxSplats += rounded;\n return { base, count: numSplats };\n });\n return { maxSplats, mapping };\n }\n\n // Ensures our NewSplatAccumulator.target render target has enough space\n // to generate maxSplats total Gsplats, and reallocate if not large enough.\n ensureGenerate({ maxSplats }: { maxSplats: number }) {\n if (this.target && (maxSplats ?? 1) <= this.maxSplats) {\n return false;\n }\n this.dispose();\n\n // The packed Gsplats are stored in a 2D array texture of max size\n // 2048 x 2048 x 2048, one RGBA32UI pixel = 4 uint32 = one Gsplat\n const textureSize = getTextureSize(maxSplats ?? 1);\n const { width, height, depth } = textureSize;\n this.maxSplats = textureSize.maxSplats;\n this.target = new THREE.WebGLArrayRenderTarget(width, height, depth, {\n depthBuffer: false,\n stencilBuffer: false,\n generateMipmaps: false,\n magFilter: THREE.NearestFilter,\n minFilter: THREE.NearestFilter,\n format: THREE.RGBAIntegerFormat,\n type: THREE.UnsignedIntType,\n });\n this.target.scissorTest = true;\n\n if (this.extSplats) {\n const target2 = this.target.texture.clone();\n const target3 = this.target.texture.clone();\n target3.format = THREE.RGBAFormat;\n target3.type = THREE.UnsignedByteType;\n target3.internalFormat = \"RGBA8\";\n this.target.textures = [this.target.texture, target2, target3];\n } else {\n const target3 = this.target.texture.clone();\n target3.format = THREE.RGBAFormat;\n target3.type = THREE.UnsignedByteType;\n target3.internalFormat = \"RGBA8\";\n this.target.textures = [this.target.texture, target3];\n }\n\n return true;\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n // Get a program and THREE.RawShaderMaterial for a given GsplatGenerator,\n // generating it if necessary and caching the result.\n prepareProgramMaterial(\n generator?: GsplatGenerator,\n covGenerator?: CovSplatGenerator,\n ) {\n const theGenerator = generator ?? covGenerator;\n if (!theGenerator) {\n throw new Error(\"Either generator or covGenerator must be provided\");\n }\n\n let program = SplatAccumulator.generatorProgram.get(theGenerator);\n if (!program) {\n const graph = dynoBlock(\n { index: \"int\" },\n {},\n ({ index }, _outputs, { roots }) => {\n if (generator) {\n generator.inputs.index = index;\n }\n if (covGenerator) {\n covGenerator.inputs.index = index;\n }\n\n if (this.extSplats) {\n if (!this.covSplats) {\n if (generator) {\n const output = outputExtendedSplat(generator.outputs.gsplat);\n roots.push(output);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n } else {\n if (covGenerator) {\n const output = outputExtCovSplat(covGenerator.outputs.covsplat);\n roots.push(output);\n } else if (generator) {\n const covsplat = gsplatToCovSplat(generator.outputs.gsplat);\n const output = outputExtCovSplat(covsplat);\n roots.push(output);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n }\n } else {\n if (!this.covSplats) {\n if (generator) {\n const centerSubView = sub(\n splitGsplat(generator.outputs.gsplat).outputs.center,\n SplatAccumulator.viewCenterUniform,\n );\n // Use expanded LoD opacity encoding\n const halfAlpha = mul(\n splitGsplat(generator.outputs.gsplat).outputs.opacity,\n dynoConst(\"float\", 0.5),\n );\n const gsplat = combineGsplat({\n gsplat: generator.outputs.gsplat,\n center: centerSubView,\n opacity: halfAlpha,\n });\n const output = outputPackedSplat(\n gsplat,\n dynoConst(\"vec4\", [0, 1, LN_SCALE_MIN, LN_SCALE_MAX]),\n );\n roots.push(output);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n } else {\n let covsplat: DynoVal;\n if (covGenerator) {\n covsplat = covGenerator.outputs.covsplat;\n } else if (generator) {\n covsplat = gsplatToCovSplat(generator.outputs.gsplat);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n const centerSubView = sub(\n splitCovSplat(covsplat).outputs.center,\n SplatAccumulator.viewCenterUniform,\n );\n const halfAlpha = mul(\n splitCovSplat(covsplat).outputs.opacity,\n dynoConst(\"float\", 0.5),\n );\n covsplat = combineCovSplat({\n covsplat,\n center: centerSubView,\n opacity: halfAlpha,\n });\n const output = outputCovSplat(\n covsplat,\n dynoConst(\"vec4\", [0, 1, LN_SCALE_MIN, LN_SCALE_MAX]),\n );\n roots.push(output);\n }\n if (!generator) {\n throw new Error(\"Generator must be provided\");\n }\n }\n if (generator) {\n const outputDepth = outputSplatDepth(\n generator.outputs.gsplat,\n SplatAccumulator.viewCenterUniform,\n SplatAccumulator.viewDirUniform,\n SplatAccumulator.sortRadialUniform,\n );\n roots.push(outputDepth);\n }\n if (covGenerator) {\n const outputDepth = outputCovSplatDepth(\n covGenerator.outputs.covsplat,\n SplatAccumulator.viewCenterUniform,\n SplatAccumulator.viewDirUniform,\n SplatAccumulator.sortRadialUniform,\n );\n roots.push(outputDepth);\n }\n return undefined;\n },\n );\n program = new DynoProgram({\n graph,\n inputs: { index: \"_index\" },\n outputs: {},\n template: this.extSplats\n ? SplatAccumulator.programExtTemplate\n : SplatAccumulator.programTemplate,\n // consoleLog: true,\n });\n\n SplatAccumulator.generatorProgram.set(theGenerator, program);\n }\n Object.assign(program.uniforms, {\n targetLayer: { value: 0 },\n targetBase: { value: 0 },\n targetCount: { value: 0 },\n });\n\n const material = program.prepareMaterial();\n SplatAccumulator.fullScreenQuad.material = material;\n return { program, material };\n }\n\n static programExtTemplate = new DynoProgramTemplate(\n getShaders().computeUvec4x2Vec4Template,\n );\n static programTemplate = new DynoProgramTemplate(\n getShaders().computeUvec4Vec4Template,\n );\n static generatorProgram = new WeakMap<\n GsplatGenerator | CovSplatGenerator,\n DynoProgram\n >();\n static fullScreenQuad = new FullScreenQuad(\n new THREE.RawShaderMaterial({ visible: false }),\n );\n\n generate({\n generator,\n covGenerator,\n base,\n count,\n renderer,\n }: {\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n base: number;\n count: number;\n renderer: THREE.WebGLRenderer;\n }) {\n if (!this.target) {\n throw new Error(\"Target must be initialized with ensureGenerate\");\n }\n if (base + count > this.maxSplats) {\n throw new Error(\"Base + count exceeds maxSplats\");\n }\n\n const { program, material } = this.prepareProgramMaterial(\n generator,\n covGenerator,\n );\n program.update();\n\n const renderState = this.saveRenderState(renderer);\n\n // Generate the Gsplats in \"layer\" chunks, in horizontal row ranges,\n // that cover the total count of Gsplats.\n const nextBase =\n Math.ceil((base + count) / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n material.uniforms.targetBase.value = base;\n material.uniforms.targetCount.value = count;\n\n // Keep generating layers until we've reached the next generation's base\n while (base < nextBase) {\n const layer = Math.floor(base / layerSize);\n material.uniforms.targetLayer.value = layer;\n\n const layerBase = layer * layerSize;\n const layerYStart = Math.floor((base - layerBase) / SPLAT_TEX_WIDTH);\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((nextBase - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n // Render the desired portion of the layer\n this.target.scissor.set(\n 0,\n layerYStart,\n SPLAT_TEX_WIDTH,\n layerYEnd - layerYStart,\n );\n renderer.setRenderTarget(this.target, layer);\n renderer.xr.enabled = false;\n renderer.autoClear = false;\n SplatAccumulator.fullScreenQuad.render(renderer);\n\n base += SPLAT_TEX_WIDTH * (layerYEnd - layerYStart);\n }\n\n this.resetRenderState(renderer, renderState);\n return { nextBase };\n }\n\n prepareGenerate({\n renderer,\n scene,\n time,\n camera,\n sortRadial,\n renderSize,\n previous,\n lodInstances,\n }: {\n renderer: THREE.WebGLRenderer;\n scene: THREE.Scene;\n time: number;\n camera: THREE.Camera;\n sortRadial: boolean;\n renderSize: THREE.Vector2;\n previous: SplatAccumulator;\n lodInstances?: Map<\n SplatMesh,\n { numSplats: number; texture: THREE.DataTexture }\n >;\n }) {\n this.viewToWorld.copy(camera.matrixWorld);\n camera.getWorldPosition(this.viewOrigin);\n camera.getWorldDirection(this.viewDirection);\n SplatAccumulator.viewCenterUniform.value.copy(this.viewOrigin);\n SplatAccumulator.viewDirUniform.value.copy(this.viewDirection);\n SplatAccumulator.sortRadialUniform.value = sortRadial;\n\n this.time = time;\n this.deltaTime = time - previous.time;\n\n const allGenerators: SplatGenerator[] = [];\n scene.traverse((node) => {\n if (node instanceof SplatGenerator) {\n if (!camera.layers || camera.layers.test(node.layers)) {\n allGenerators.push(node);\n }\n }\n });\n\n const globalEditsSet = new Set();\n scene.traverseVisible((node) => {\n if (node instanceof SplatEdit) {\n let ancestor = node.parent;\n while (ancestor != null && !(ancestor instanceof SplatMesh)) {\n ancestor = ancestor.parent;\n }\n if (ancestor == null) {\n // Not part of a SplatMesh so it's a global edit\n globalEditsSet.add(node);\n }\n }\n });\n const globalEdits = Array.from(globalEditsSet);\n\n for (const object of allGenerators) {\n try {\n object.frameUpdate?.({\n renderer,\n object,\n time: this.time,\n deltaTime: this.deltaTime,\n viewToWorld: this.viewToWorld,\n camera,\n renderSize,\n globalEdits,\n lodIndices:\n lodInstances && object instanceof SplatMesh\n ? lodInstances.get(object)\n : undefined,\n });\n } catch (error) {\n console.error(\"frameUpdate error\", error);\n object.generator = undefined;\n object.covGenerator = undefined;\n object.generatorError = error;\n }\n }\n\n const visibleGenerators: SplatGenerator[] = [];\n scene.traverseVisible((node) => {\n if (node instanceof SplatGenerator) {\n if (!camera.layers || camera.layers.test(node.layers)) {\n visibleGenerators.push(node);\n }\n }\n });\n\n const splatCounts = visibleGenerators.map(\n (generator) => generator.numSplats,\n );\n const { maxSplats, mapping: baseCounts } =\n this.generateMapping(splatCounts);\n\n const previousMappings = previous.mapping.reduce((mappings, mapping) => {\n mappings.set(mapping.node, mapping);\n return mappings;\n }, new Map());\n\n this.mapping = [];\n this.numSplats = 0;\n\n baseCounts.forEach(({ base, count }, index) => {\n const node = visibleGenerators[index];\n const previousNode = previousMappings.get(node);\n if (previousNode && previousNode.count !== node.numSplats) {\n node.updateMappingVersion();\n }\n\n const { generator, covGenerator } = node;\n if ((generator || covGenerator) && count > 0) {\n const { version, mappingVersion } = node;\n this.mapping.push({\n node,\n generator,\n covGenerator,\n version,\n mappingVersion,\n base,\n count,\n });\n this.numSplats = Math.max(this.numSplats, base + count);\n }\n });\n const { splatsUpdated, mappingUpdated } = previous.checkVersions(\n this.mapping,\n );\n this.version = previous.version + (splatsUpdated ? 1 : 0);\n this.mappingVersion = previous.mappingVersion + (mappingUpdated ? 1 : 0);\n\n return {\n sameMapping: !mappingUpdated,\n version: this.version,\n mappingVersion: this.mappingVersion,\n visibleGenerators,\n generate: () => {\n this.ensureGenerate({ maxSplats });\n\n for (const { node, base, count } of this.mapping) {\n const { generator, covGenerator } = node;\n if ((generator || covGenerator) && count > 0) {\n this.generate({ generator, covGenerator, base, count, renderer });\n }\n }\n },\n readback: async () => {\n const textures = this.getTextures();\n if (this.readbackSplats.length === 0) {\n this.readbackSplats = [\n new DynoUsampler2DArray({ value: textures[0], key: \"extSplats\" }),\n new DynoUsampler2DArray({ value: textures[1], key: \"extSplats\" }),\n ];\n }\n this.readbackSplats[0].value = textures[0];\n this.readbackSplats[1].value = textures[1];\n\n if (!this.readback) {\n this.readback = new Readback({ renderer });\n }\n const readback = this.readback;\n const words = this.extSplats ? 8 : 4;\n const array = readback.ensureBuffer(\n this.numSplats * words,\n new Uint32Array(0),\n );\n\n const reader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n const rgba8 = new Dyno({\n inTypes: {\n index: \"int\",\n extSplats1: \"usampler2DArray\",\n extSplats2: \"usampler2DArray\",\n },\n outTypes: { rgba8: \"vec4\" },\n inputs: {\n index,\n extSplats1: this.readbackSplats[0],\n extSplats2: this.readbackSplats[1],\n },\n statements: ({ inputs, outputs }) => {\n if (this.extSplats) {\n return unindentLines(`\n int indexDiv8 = ${inputs.index} >> 3;\n ivec3 coord = splatTexCoord(indexDiv8);\n uvec4 packed;\n if ((${inputs.index} & 4) == 0) {\n packed = texelFetch(${inputs.extSplats1}, coord, 0);\n } else {\n packed = texelFetch(${inputs.extSplats2}, coord, 0);\n }\n\n int indexMod4 = ${inputs.index} & 3;\n uint data = (indexMod4 == 0) ? packed.x\n : (indexMod4 == 1) ? packed.y\n : (indexMod4 == 2) ? packed.z\n : packed.w;\n ${outputs.rgba8} = uintToVec4(data);\n `);\n }\n return unindentLines(`\n int indexDiv4 = ${inputs.index} >> 2;\n ivec3 coord = splatTexCoord(indexDiv4);\n uvec4 packed = texelFetch(${inputs.extSplats1}, coord, 0);\n\n int indexMod4 = ${inputs.index} & 3;\n uint data = (indexMod4 == 0) ? packed.x\n : (indexMod4 == 1) ? packed.y\n : (indexMod4 == 2) ? packed.z\n : packed.w;\n ${outputs.rgba8} = uintToVec4(data);\n `);\n },\n }).outputs.rgba8;\n return { rgba8 };\n },\n );\n\n return await readback.renderReadback({\n reader,\n count: this.numSplats * words,\n renderer,\n readback: array,\n });\n },\n };\n }\n\n // Check if this accumulator has exactly the same generator mapping as\n // the previous one. If so, we can reuse the Gsplat sort order.\n checkVersions(otherMapping: GeneratorMapping[]) {\n if (this.mapping.length !== otherMapping.length) {\n return { splatsUpdated: true, mappingUpdated: true };\n }\n const mappingUpdated = this.mapping.some((item, i) => {\n const other = otherMapping[i];\n return (\n item.node !== other.node ||\n item.base !== other.base ||\n item.count !== other.count ||\n item.mappingVersion !== other.mappingVersion\n );\n });\n if (mappingUpdated) {\n return { splatsUpdated: true, mappingUpdated: true };\n }\n const splatsUpdated = this.mapping.some((item, i) => {\n return item.version !== otherMapping[i].version;\n });\n return { splatsUpdated, mappingUpdated };\n }\n}\n","import * as THREE from \"three\";\n\n// SplatGeometry is an internal class used by SparkRenderer to render a collection\n// of Gsplats in a single draw call by extending THREE.InstancedBufferGeometry.\n// Each Gsplat is drawn as two triangles, with the order of the Gsplats determined\n// by a texture lookup via gl_InstanceID.\n\nexport class SplatGeometry extends THREE.InstancedBufferGeometry {\n constructor() {\n super();\n this.setAttribute(\"position\", new THREE.BufferAttribute(QUAD_VERTICES, 3));\n this.setIndex(new THREE.BufferAttribute(QUAD_INDICES, 1));\n }\n}\n\n// Each instance draws to triangles covering a quad over coords (-1,-1,0)..(1,1,0)\nconst QUAD_VERTICES = new Float32Array([\n -1, -1, 0, 1, -1, 0, 1, 1, 0, -1, 1, 0,\n]);\n\nconst QUAD_INDICES = new Uint16Array([0, 1, 2, 0, 2, 3]);\n","import * as THREE from \"three\";\nimport {\n ExtSplats,\n PackedSplats,\n PagedSplats,\n Readback,\n type SplatGenerator,\n SplatMesh,\n SplatPager,\n} from \".\";\nimport { SplatAccumulator } from \"./SplatAccumulator\";\nimport { SplatGeometry } from \"./SplatGeometry\";\nimport { SplatWorker } from \"./SplatWorker\";\nimport { SPLAT_TEX_HEIGHT, SPLAT_TEX_WIDTH } from \"./defines\";\nimport { getShaders } from \"./shaders\";\nimport {\n cloneClock,\n isAndroid,\n isIos,\n isMobile,\n isOculus,\n isVisionPro,\n} from \"./utils\";\n\nexport interface SparkRendererOptions {\n /**\n * Pass in your THREE.WebGLRenderer instance so Spark can perform work\n * outside the usual render loop. Should be created with antialias: false\n * (default setting) as WebGL anti-aliasing doesn't improve Gaussian Splatting\n * rendering and significantly reduces performance.\n */\n renderer: THREE.WebGLRenderer;\n /**\n * Callback function to be called when SparkRenderer needs to re-render,\n * for example when splat sort order or LoD updates complete.\n */\n onDirty?: () => void;\n /**\n * Whether to use premultiplied alpha when accumulating splat RGB\n * @default true\n */\n premultipliedAlpha?: boolean;\n /**\n * Whether to encode Gsplat with linear RGB (for environment mapping)\n * @default false\n */\n encodeLinear?: boolean;\n /**\n * Pass in a THREE.Clock to synchronize time-based effects across different\n * systems. Alternatively, you can set the property time directly.\n * (default: new THREE.Clock)\n */\n clock?: THREE.Clock;\n /**\n * Controls whether to check and automatically update Gsplat collection\n * each frame render.\n * @default true\n */\n autoUpdate?: boolean;\n /**\n * Controls whether to update the Gsplats before or after rendering. For WebXR\n * this is set to false in order to complete rendering as soon as possible.\n * @default true (if not WebXR)\n */\n preUpdate?: boolean;\n /**\n * Maximum standard deviations from the center to render Gaussians. Values\n * Math.sqrt(4)..Math.sqrt(9) produce acceptable results and can be tweaked for\n * performance.\n * @default Math.sqrt(8)\n */\n maxStdDev?: number;\n /*\n **\n * Minimum pixel radius for splat rendering.\n * @default 0.0\n */\n minPixelRadius?: number;\n /**\n * Maximum pixel radius for splat rendering.\n * @default 512.0\n */\n maxPixelRadius?: number;\n /**\n * Whether to use extended Gsplat encoding for intermediary accumulator splats.\n * @default false\n */\n accumExtSplats?: boolean;\n /**\n * Whether to use covariance Gsplat encoding for intermediary splats.\n * @default false\n */\n covSplats?: boolean;\n /**\n * Minimum alpha value for splat rendering.\n * @default 0.5 * (1.0 / 255.0)\n */\n minAlpha?: number;\n /**\n * Enable 2D Gaussian splatting rendering ability. When this mode is enabled,\n * any scale x/y/z component that is exactly 0 (minimum quantized value) results\n * in the other two non-0 axis being interpreted as an oriented 2D Gaussian Splat,\n * rather instead of the usual projected 3DGS Z-slice. When reading PLY files,\n * scale values less than e^-30 will be interpreted as 0.\n * @default false\n */\n enable2DGS?: boolean;\n /**\n * Enable alternative ray-splat max response evaluation, used by 3DGUT (unscented transform),\n * 3DGRT, and HTGS.\n * @default false\n */\n // enableRayEval?: boolean;\n /**\n * Scalar value to add to 2D splat covariance diagonal, effectively blurring +\n * enlarging splats. In scenes trained without the Gsplat anti-aliasing tweak\n * this value was typically 0.3, but with anti-aliasing it is 0.0\n * @default 0.0\n */\n preBlurAmount?: number;\n /**\n * Scalar value to add to 2D splat covarianve diagonal, with opacity adjustment\n * to correctly account for \"blurring\" when anti-aliasing. Typically 0.3\n * (equivalent to approx 0.5 pixel radius) in scenes trained with anti-aliasing.\n */\n blurAmount?: number;\n /**\n * Depth-of-field distance to focal plane\n */\n focalDistance?: number;\n /**\n * Full-width angle of aperture opening (in radians), 0.0 to disable\n * @default 0.0\n */\n apertureAngle?: number;\n /**\n * Modulate Gaussian kernel falloff. 0 means \"no falloff, flat shading\",\n * while 1 is the normal Gaussian kernel.\n * @default 1.0\n */\n falloff?: number;\n /**\n * X/Y clipping boundary factor for Gsplat centers against view frustum.\n * 1.0 clips any centers that are exactly out of bounds, while 1.4 clips\n * centers that are 40% beyond the bounds.\n * @default 1.4\n */\n clipXY?: number;\n /**\n * Parameter to adjust projected splat scale calculation to match other renderers,\n * similar to the same parameter in the MKellogg 3DGS renderer. Higher values will\n * tend to sharpen the splats. A value 2.0 can be used to match the behavior of\n * the PlayCanvas renderer.\n * @default 1.0\n */\n focalAdjustment?: number;\n /**\n * Whether to sort splats radially (geometric distance) from the viewpoint (true)\n * or by Z-depth (false). Most scenes are trained with the Z-depth `sort `metric\n * and will render more accurately at certain viewpoints. However, radial sorting\n * is more stable under viewpoint rotations.\n * @default true\n */\n sortRadial?: boolean;\n /**\n * Minimum interval between sort calls in milliseconds.\n * @default 0\n */\n minSortIntervalMs?: number;\n /*\n * Flag to control whether LoD is enabled. @default true\n */\n enableLod?: boolean;\n /**\n * Whether to drive LOD updates (compute lodInstances, update pager, etc.).\n * Set to false to use LOD instances from another renderer without driving updates.\n * Only has effect if enableLod is true.\n * @default true (if enableLod is true)\n */\n enableDriveLod?: boolean;\n /**\n * Whether to enable page fetching for LoD.\n * @default true\n */\n enableLodFetching?: boolean;\n /**\n * Set the target # splats for LoD. If this isn't set then default base LoD splat\n * counts will apply: 500K-750K for WebXR, 1-1.5M for mobile, and 2.5M for desktop.\n * @default 500K-2500K depending on platform\n */\n lodSplatCount?: number;\n /**\n * Scale factor for target # splats for LoD. 2.0 means 2x the base LoD splat count.\n * This is the easiest LoD parameter to adjust and will scale detail appropriately\n * for the platform.\n * @default 1.0\n */\n lodSplatScale?: number;\n /**\n * Determines the minimum screen pixel size of LoD splats. The default 1.0 means\n * the splat LoD tree will pick splats that are no smaller than 1 pixel in size.\n * Setting this to a higher value as high as 5.0 will often be indistinguishable\n * but will avoid wasting rendering capacity on tiny splats.\n * @default 1.0\n */\n lodRenderScale?: number;\n /**\n * Inflate LoD splats to ensure opacity stays <= 1.0, producing a softer appearance.\n * @default false\n */\n lodInflate?: boolean;\n /**\n * Whether to use extended Gsplat encoding for paged splats, useful for eliminating\n * quantization artifacts from splat scenes with large internal position coordinates.\n * @default false\n */\n pagedExtSplats?: boolean;\n /**\n * Allocation size of paged splats. This must be a multiple of the page size (65536).\n * @default 16777216 (256 * 65536) for desktop, 6291456 for iOS, 8,388,608 for other mobile\n */\n maxPagedSplats?: number;\n /**\n * Number of parallel chunk fetchers for LoD. These are run within a shared pool\n * of 4 background WebWorker threads, so setting it above 4 will not have any\n * effect. Setting it 3 leaves one spare worker for other loading/decoding tasks.\n * @default 3\n */\n numLodFetchers?: number;\n /* Full-width angle in degrees of fixed foveation cone along the view direction\n * with no foveation applied (full resolution, foveate=1.0). Set to 0 to disable.\n * @default 90.0\n */\n coneFov0?: number;\n /* Full-width angle in degrees of fixed foveation cone along the view direction\n * with reduced resolution specified by `coneFoveate`. Foveation will be applied\n * smoothly from 1.0 down to `coneFoveate` as you move outward from\n * `coneFov0` to `coneFov`. Set to 0 to disable.\n * @default 120.0\n */\n coneFov?: number;\n /* Foveation scale to apply to LoD splats at the edge of coneFov. Foveation will\n * be applied smoothly from `coneFoveate` down to `behindFoveate` as you move\n * outward from `coneFov` to 180 degrees (behind the viewer).\n * @default 0.4\n */\n coneFoveate?: number;\n /* Foveation scale to apply to LoD splats behind the viewer. Setting this to 0.1\n * for example will result in splats 10x larger than inside the viewing frustum.\n * @default 0.2\n */\n behindFoveate?: number;\n /* How many LoD splats to generate for raycasting\n * @default 10000-25000 iff default canvas target is used\n */\n lodRaycast?: number;\n lodRaycastIntervalMs?: number;\n /* Configures an offline render target for the SparkRenderer (as opposed to\n * rendering to the canvas). This is useful for rendering environment maps,\n * additional viewpoints, or video frame rendering.\n * @default undefined\n */\n target?: {\n /**\n * Width of the render target in pixels.\n */\n width: number;\n /**\n * Height of the render target in pixels.\n */\n height: number;\n /**\n * If you want to be able to render a scene that depends on this target's\n * output (for example, a recursive viewport), set this to true to enable\n * double buffering.\n * @default false\n */\n doubleBuffer?: boolean;\n /**\n * Super-sampling factor for the render target. Values 1-4 are supported.\n * Note that re-sampling back down to .width x .height is done on the CPU\n * with simple averaging only when calling readTarget().\n * @default 1\n */\n superXY?: number;\n } & THREE.RenderTargetOptions;\n /* Extra uniform values to pass to the shader.\n * @default undefined = no extra uniforms\n */\n extraUniforms?: Record;\n /* Replace the default `splatVertex.glsl` splat shader with a custom one.\n * @default undefined = use the default `splatVertex.glsl` shader\n */\n vertexShader?: string;\n /* Replace the default `splatFragment.glsl` splat shader with a custom one.\n * @default undefined = use the default `splatFragment.glsl` shader\n */\n fragmentShader?: string;\n /* Set the splat shader material to be transparent which determines if the\n * splats are rendered during the first opaque THREE.js render pass or the\n * second transparent render pass.\n * @default undefined = true\n */\n transparent?: boolean;\n /* Set the splat shader material to enable depth testing which determines if the\n * splats respect the Z depth buffer and blend with other opaque objects in the scene.\n * @default undefined = true\n */\n depthTest?: boolean;\n /* Set the splat shader material to enable depth writing which determines if the\n * splats write to the Z depth buffer. Note that enabling this may produce\n * undesirable results because most of the Gsplat is transparent.\n * @default undefined = false\n */\n depthWrite?: boolean;\n}\n\nexport class SparkRenderer extends THREE.Mesh {\n renderer: THREE.WebGLRenderer;\n premultipliedAlpha: boolean;\n material: THREE.ShaderMaterial;\n uniforms: ReturnType;\n\n autoUpdate: boolean;\n preUpdate: boolean;\n static sparkOverride?: SparkRenderer;\n\n renderSize = new THREE.Vector2();\n maxStdDev: number;\n minPixelRadius: number;\n maxPixelRadius: number;\n accumExtSplats: boolean;\n covSplats: boolean;\n minAlpha: number;\n enable2DGS: boolean;\n // enableRayEval: boolean;\n preBlurAmount: number;\n blurAmount: number;\n focalDistance: number;\n apertureAngle: number;\n falloff: number;\n clipXY: number;\n focalAdjustment: number;\n encodeLinear: boolean;\n\n sortRadial: boolean;\n minSortIntervalMs: number;\n\n clock: THREE.Clock;\n time?: number;\n lastFrame = -1;\n updateTimeoutId = -1;\n onDirty?: () => void;\n dirty: boolean;\n\n orderingTexture: THREE.DataTexture | null = null;\n maxSplats = 0;\n activeSplats = 0;\n\n display: SplatAccumulator;\n current: SplatAccumulator;\n accumulators: SplatAccumulator[] = [];\n\n sorting = false;\n sortDirty = false;\n lastSortTime = 0;\n sortWorker: SplatWorker | null = null;\n sortTimeoutId = -1;\n sortedCenter = new THREE.Vector3().setScalar(Number.NEGATIVE_INFINITY);\n sortedDir = new THREE.Vector3().setScalar(0);\n readback32 = new Uint32Array(0);\n\n enableLod: boolean;\n enableDriveLod: boolean;\n enableLodFetching: boolean;\n lodSplatCount?: number;\n lodSplatScale: number;\n lodRenderScale: number;\n lodInflate: boolean;\n pagedExtSplats: boolean;\n maxPagedSplats: number;\n numLodFetchers: number;\n behindFoveate: number;\n coneFov0: number;\n coneFov: number;\n coneFoveate: number;\n\n lodRaycast?: number;\n lodRaycastIntervalMs: number;\n lastLodRaycastTime = 0;\n\n lodWorker: SplatWorker | null = null;\n lodMeshes: { mesh: SplatMesh; version: number }[] = [];\n lodDirty = false;\n lodIds: Map<\n PackedSplats | ExtSplats | PagedSplats,\n { lodId: number; lastTouched: number; rootPage?: number }\n > = new Map();\n lodIdToSplats: Map =\n new Map();\n lodInitQueue: (PackedSplats | ExtSplats | PagedSplats)[] = [];\n lastLod?: {\n pos: THREE.Vector3;\n quat: THREE.Quaternion;\n pixelScaleLimit: number;\n maxSplats: number;\n timestamp: number;\n };\n currentLod?: {\n pos: THREE.Vector3;\n quat: THREE.Quaternion;\n pixelScaleLimit: number;\n maxSplats: number;\n timestamp: number;\n };\n lodPosOverride?: THREE.Vector3;\n lodQuatOverride?: THREE.Quaternion;\n lodInstances: Map<\n SplatMesh,\n {\n lodId: number;\n numSplats: number;\n indices: Uint32Array;\n texture: THREE.DataTexture;\n }\n > = new Map();\n lodUpdates: {\n lodId: number;\n pageBase: number;\n chunkBase: number;\n count: number;\n lodTreeData?: Uint32Array;\n }[] = [];\n lastTraverseTime = 0;\n lastPixelLimit?: number;\n\n pager?: SplatPager;\n pagerId = 0;\n // prefetchCameras: THREE.Camera[] = [];\n // prefetchLodScale = 1.0;\n // prefetchMeshesCache: SplatMesh[] = [];\n // prefetchMeshesCacheScene?: THREE.Scene;\n\n target?: THREE.WebGLRenderTarget;\n backTarget?: THREE.WebGLRenderTarget;\n superPixels?: Uint8Array;\n targetPixels?: Uint8Array;\n superXY = 1;\n\n flushAfterGenerate = false;\n flushAfterRead = false;\n readPause = 1;\n sortPause = 0;\n sortDelay = 0;\n\n constructor(options: SparkRendererOptions) {\n if (!options) {\n throw new Error(\"SparkRenderer options are required\");\n }\n if (!options.renderer) {\n throw new Error(\"renderer is required in SparkRenderer options\");\n }\n\n const uniforms = SparkRenderer.makeUniforms();\n Object.assign(uniforms, options.extraUniforms ?? {});\n\n const shaders = getShaders();\n const premultipliedAlpha = options.premultipliedAlpha ?? true;\n const geometry = new SplatGeometry();\n const material = new THREE.ShaderMaterial({\n glslVersion: THREE.GLSL3,\n vertexShader: options.vertexShader ?? shaders.splatVertex,\n fragmentShader: options.fragmentShader ?? shaders.splatFragment,\n uniforms,\n premultipliedAlpha,\n transparent: options.transparent ?? true,\n depthTest: options.depthTest ?? true,\n depthWrite: options.depthWrite ?? false,\n side: THREE.DoubleSide,\n allowOverride: false,\n });\n\n super(geometry, material);\n this.material = material;\n this.uniforms = uniforms;\n // Disable frustum culling because we want to always draw them all\n // and cull Gsplats individually in the shader\n this.frustumCulled = false;\n\n // By default SparkRenderer will only render for layer 0\n // this.layers.enableAll();\n\n // sparkRendererInstance = this;\n this.renderer = options.renderer;\n this.onDirty = options.onDirty;\n this.dirty = true;\n this.premultipliedAlpha = premultipliedAlpha;\n this.autoUpdate = options.autoUpdate ?? true;\n this.preUpdate = options.preUpdate ?? true;\n\n this.maxStdDev = options.maxStdDev ?? Math.sqrt(8.0);\n this.minPixelRadius = options.minPixelRadius ?? 0.0; //1.6;\n this.maxPixelRadius = options.maxPixelRadius ?? 512.0;\n this.accumExtSplats = options.accumExtSplats ?? false;\n this.covSplats = options.covSplats ?? false;\n this.minAlpha = options.minAlpha ?? 0.5 * (1.0 / 255.0);\n this.enable2DGS = options.enable2DGS ?? false;\n // this.enableRayEval = options.enableRayEval ?? false;\n this.preBlurAmount = options.preBlurAmount ?? 0.0;\n this.blurAmount = options.blurAmount ?? 0.3;\n this.focalDistance = options.focalDistance ?? 0.0;\n this.apertureAngle = options.apertureAngle ?? 0.0;\n this.falloff = options.falloff ?? 1.0;\n this.clipXY = options.clipXY ?? 1.4;\n this.focalAdjustment = options.focalAdjustment ?? 1.0;\n this.encodeLinear = options.encodeLinear ?? false;\n\n this.sortRadial = options.sortRadial ?? true;\n this.minSortIntervalMs = options.minSortIntervalMs ?? 0;\n\n this.enableLod = options.enableLod ?? true;\n // enableDriveLod defaults to true if enableLod is true, false otherwise\n this.enableDriveLod = options.enableDriveLod ?? this.enableLod;\n this.enableLodFetching = options.enableLodFetching ?? true;\n this.lodSplatCount = options.lodSplatCount;\n this.lodSplatScale = options.lodSplatScale ?? 1.0;\n this.lodRenderScale = options.lodRenderScale ?? 1.0;\n this.lodInflate = options.lodInflate ?? false;\n this.pagedExtSplats = options.pagedExtSplats ?? false;\n const defaultPages = isMobile() ? (isIos() ? 96 : 128) : 256;\n this.maxPagedSplats = options.maxPagedSplats ?? defaultPages * 65536;\n this.numLodFetchers = options.numLodFetchers ?? 3;\n this.behindFoveate = options.behindFoveate ?? 0.2;\n this.coneFov0 = options.coneFov0 ?? 90.0;\n this.coneFov = options.coneFov ?? 120.0;\n this.coneFoveate = options.coneFoveate ?? 0.4;\n\n this.lodRaycast =\n options.lodRaycast === undefined\n ? isMobile()\n ? 10000\n : 25000\n : options.lodRaycast;\n this.lodRaycastIntervalMs = options.lodRaycastIntervalMs ?? 500;\n\n this.clock = options.clock ? cloneClock(options.clock) : new THREE.Clock();\n\n const accumulatorOptions = {\n extSplats: this.accumExtSplats,\n covSplats: this.covSplats,\n };\n this.display = new SplatAccumulator(accumulatorOptions);\n this.current = this.display;\n this.accumulators.push(new SplatAccumulator(accumulatorOptions));\n this.accumulators.push(new SplatAccumulator(accumulatorOptions));\n\n if (options.target) {\n const {\n width,\n height,\n doubleBuffer,\n superXY: origSuperXY,\n ...origTargetOptions\n } = options.target;\n const superXY = Math.max(1, Math.min(4, origSuperXY ?? 1));\n if (width * superXY > 8192 || height * superXY > 8192) {\n throw new Error(\"Target size too large\");\n }\n this.superXY = superXY;\n\n const superWidth = width * superXY;\n const superHeight = height * superXY;\n const targetOptions: THREE.RenderTargetOptions = {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n colorSpace: THREE.SRGBColorSpace,\n ...origTargetOptions,\n };\n\n this.target = new THREE.WebGLRenderTarget(\n superWidth,\n superHeight,\n targetOptions,\n );\n if (doubleBuffer) {\n this.backTarget = new THREE.WebGLRenderTarget(\n superWidth,\n superHeight,\n targetOptions,\n );\n }\n this.encodeLinear = options.encodeLinear ?? true;\n }\n }\n\n static makeUniforms() {\n const uniforms = {\n // // number of active splats to render\n // numSplats: { value: 0 },\n // Size of render viewport in pixels\n renderSize: { value: new THREE.Vector2() },\n // Near and far plane distances\n near: { value: 0.1 },\n far: { value: 1000.0 },\n // SplatAccumulator to view transformation quaternion\n renderToViewQuat: { value: new THREE.Quaternion() },\n // SplatAccumulator to view transformation translation\n renderToViewPos: { value: new THREE.Vector3() },\n renderToViewBasis: { value: new THREE.Matrix3() },\n renderToViewOffset: { value: new THREE.Vector3() },\n // Maximum distance (in stddevs) from Gsplat center to render\n maxStdDev: { value: 1.0 },\n // Minimum pixel radius for splat rendering\n minPixelRadius: { value: 0.0 },\n // Maximum pixel radius for splat rendering\n maxPixelRadius: { value: 512.0 },\n // Minimum alpha value for splat rendering\n minAlpha: { value: 0.5 * (1.0 / 255.0) },\n // Enable interpreting 0-thickness Gsplats as 2DGS\n enable2DGS: { value: false },\n // Enable ray-splat max response evaluation\n // enableRayEval: { value: false },\n // Inflate LoD splats so that opacity <= 1.0\n lodInflate: { value: false },\n // Add to projected 2D splat covariance diagonal (thickens and brightens)\n preBlurAmount: { value: 0.0 },\n // Add to 2D splat covariance diagonal and adjust opacity (anti-aliasing)\n blurAmount: { value: 0.3 },\n // Depth-of-field distance to focal plane\n focalDistance: { value: 0.0 },\n // Full-width angle of aperture opening (in radians)\n apertureAngle: { value: 0.0 },\n // Modulate Gaussian kernal falloff. 0 means \"no falloff, flat shading\",\n // 1 is normal e^-x^2 falloff.\n falloff: { value: 1.0 },\n // Clip Gsplats that are clipXY times beyond the +-1 frustum bounds\n clipXY: { value: 1.4 },\n // Debug renderSize scale factor\n focalAdjustment: { value: 1.0 },\n // Whether to encode Gsplat with linear RGB (for environment mapping)\n encodeLinear: { value: false },\n // Back-to-front sort ordering of splat indices\n ordering: { type: \"t\", value: SparkRenderer.emptyOrdering },\n enableExtSplats: { value: false },\n enableCovSplats: { value: false },\n // Gsplat collection to render\n extSplats: { type: \"t\", value: SplatAccumulator.emptyTexture },\n extSplats2: { type: \"t\", value: SplatAccumulator.emptyTexture },\n // Time in seconds for time-based effects\n time: { value: 0 },\n // Delta time in seconds since last frame\n deltaTime: { value: 0 },\n // Debug flag that alternates each frame\n debugFlag: { value: false },\n };\n return uniforms;\n }\n\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target = undefined;\n }\n if (this.backTarget) {\n this.backTarget.dispose();\n this.backTarget = undefined;\n }\n if (this.orderingTexture) {\n this.orderingTexture.dispose();\n this.orderingTexture = null;\n }\n\n const accumulators = new Set();\n accumulators.add(this.display);\n accumulators.add(this.current);\n for (const accumulator of this.accumulators) {\n accumulators.add(accumulator);\n }\n for (const accumulator of accumulators) {\n accumulator.dispose();\n }\n\n const instances = this.lodInstances.values();\n this.lodInstances.clear();\n for (const instance of instances) {\n instance.texture.dispose();\n }\n\n if (this.sortWorker) {\n this.sortWorker.dispose();\n this.sortWorker = null;\n }\n if (this.lodWorker) {\n this.lodWorker.dispose();\n this.lodWorker = null;\n }\n if (this.pager) {\n this.pager.dispose();\n this.pager = undefined;\n }\n }\n\n setDirty() {\n if (!this.dirty) {\n this.dirty = true;\n this.onDirty?.();\n }\n }\n\n onBeforeRender(\n renderer: THREE.WebGLRenderer,\n scene: THREE.Scene,\n camera: THREE.Camera,\n ) {\n const spark = SparkRenderer.sparkOverride ?? this;\n\n const frame = renderer.info.render.frame;\n const isNewFrame = frame !== spark.lastFrame;\n spark.lastFrame = frame;\n\n if (spark.target) {\n spark.renderSize.set(spark.target.width, spark.target.height);\n } else {\n const renderSize = renderer.getDrawingBufferSize(spark.renderSize);\n if (renderer.xr.isPresenting) {\n if (renderSize.x === 1 && renderSize.y === 1) {\n // WebXR mode on Apple Vision Pro returns 1x1 when presenting.\n // Use a different means to figure out the render size.\n const baseLayer = renderer.xr.getSession()?.renderState.baseLayer;\n if (baseLayer) {\n renderSize.x = baseLayer.framebufferWidth;\n renderSize.y = baseLayer.framebufferHeight;\n }\n }\n }\n }\n this.uniforms.renderSize.value.copy(spark.renderSize);\n\n const typedCamera = camera as\n | THREE.PerspectiveCamera\n | THREE.OrthographicCamera;\n\n this.uniforms.near.value = typedCamera.near;\n this.uniforms.far.value = typedCamera.far;\n\n const geometry = this.geometry as SplatGeometry;\n geometry.instanceCount = spark.activeSplats;\n\n const accumToWorld = new THREE.Matrix4();\n if (!this.display.extSplats) {\n accumToWorld.makeTranslation(spark.display.viewOrigin);\n }\n const cameraToWorld = camera.matrixWorld.clone();\n const worldToCamera = cameraToWorld.invert();\n const accumToCamera = worldToCamera.multiply(accumToWorld);\n accumToCamera.decompose(\n this.uniforms.renderToViewPos.value,\n this.uniforms.renderToViewQuat.value,\n new THREE.Vector3(),\n );\n this.uniforms.renderToViewBasis.value.setFromMatrix4(accumToCamera);\n\n this.uniforms.maxStdDev.value = spark.maxStdDev;\n this.uniforms.minPixelRadius.value = spark.minPixelRadius;\n this.uniforms.maxPixelRadius.value = spark.maxPixelRadius;\n this.uniforms.minAlpha.value = spark.minAlpha;\n this.uniforms.enable2DGS.value = spark.enable2DGS;\n // this.uniforms.enableRayEval.value = spark.enableRayEval;\n this.uniforms.lodInflate.value = spark.lodInflate;\n this.uniforms.preBlurAmount.value = spark.preBlurAmount;\n this.uniforms.blurAmount.value = spark.blurAmount;\n this.uniforms.focalDistance.value = spark.focalDistance;\n this.uniforms.apertureAngle.value = spark.apertureAngle;\n this.uniforms.falloff.value = spark.falloff;\n this.uniforms.clipXY.value = spark.clipXY;\n this.uniforms.focalAdjustment.value = spark.focalAdjustment;\n this.uniforms.encodeLinear.value = spark.encodeLinear;\n\n this.uniforms.ordering.value =\n spark.orderingTexture ?? SparkRenderer.emptyOrdering;\n this.uniforms.enableExtSplats.value = this.display.extSplats;\n this.uniforms.enableCovSplats.value = this.display.covSplats;\n if (this.display.extSplats) {\n const extSplats = spark.display.getTextures();\n this.uniforms.extSplats.value = extSplats[0];\n this.uniforms.extSplats2.value = extSplats[1];\n } else {\n const packedSplats = spark.display.getTextures();\n this.uniforms.extSplats.value = packedSplats[0];\n this.uniforms.extSplats2.value = packedSplats[0];\n }\n\n this.uniforms.time.value = spark.display.time;\n this.uniforms.deltaTime.value = spark.display.deltaTime;\n // Alternating debug flag that can aid in visual debugging\n this.uniforms.debugFlag.value = (performance.now() / 1000.0) % 2.0 < 1.0;\n\n if (spark.autoUpdate && isNewFrame) {\n const preUpdate = spark.preUpdate && !renderer.xr.isPresenting;\n const useCamera = renderer.xr.isPresenting\n ? renderer.xr.getCamera()\n : camera;\n if (preUpdate) {\n spark.updateInternal({\n scene,\n camera: useCamera,\n autoUpdate: true,\n });\n } else {\n if (spark.updateTimeoutId === -1) {\n spark.updateTimeoutId = setTimeout(() => {\n spark.updateTimeoutId = -1;\n spark.updateInternal({\n scene,\n camera: useCamera,\n autoUpdate: true,\n });\n }, 1);\n }\n }\n }\n\n spark.dirty = false;\n }\n\n clearSplats() {\n this.activeSplats = 0;\n this.display.numSplats = 0;\n this.setDirty();\n }\n\n async update({\n scene,\n camera,\n }: {\n scene: THREE.Scene;\n camera: THREE.Camera;\n }) {\n await this.updateInternal({ scene, camera, autoUpdate: false });\n }\n\n // /**\n // * Provide additional cameras to prefetch paged splat chunks without\n // * affecting main LOD selection.\n // */\n // setPrefetchCameras(cameras?: THREE.Camera[], lodScaleMultiplier = 1.0) {\n // const next = cameras?.filter(Boolean) ?? [];\n // const sameCameras =\n // this.prefetchCameras.length === next.length &&\n // this.prefetchCameras.every((camera, index) => camera === next[index]);\n // if (sameCameras && this.prefetchLodScale === lodScaleMultiplier) {\n // return;\n // }\n // this.prefetchCameras = next;\n // this.prefetchLodScale = lodScaleMultiplier;\n // this.invalidatePrefetchCache();\n // }\n\n // /**\n // * Invalidate the prefetch meshes cache. Call this when SplatMeshes are\n // * added or removed from the scene.\n // */\n // invalidatePrefetchCache() {\n // this.prefetchMeshesCacheScene = undefined;\n // }\n\n private async updateInternal({\n scene,\n camera,\n autoUpdate,\n }: {\n scene: THREE.Scene;\n camera: THREE.Camera;\n autoUpdate: boolean;\n }) {\n const renderer = this.renderer;\n const time = this.time ?? this.clock.getElapsedTime();\n\n const center = camera.getWorldPosition(new THREE.Vector3());\n const dir = camera.getWorldDirection(new THREE.Vector3());\n\n const viewChanged =\n center.distanceTo(this.sortedCenter) > 0.001 ||\n dir.dot(this.sortedDir) < 0.999;\n\n const next = this.accumulators.pop();\n if (!next) {\n // Should never happen\n throw new Error(\"No next accumulator\");\n }\n if (next === this.current) {\n // Should never happen\n throw new Error(\n \"Next accumulator is the same as the current accumulator\",\n );\n }\n const { version, mappingVersion, visibleGenerators, generate } =\n next.prepareGenerate({\n renderer,\n scene,\n time,\n camera,\n sortRadial: this.sortRadial ?? true,\n renderSize: this.renderSize,\n previous: this.current,\n lodInstances: this.enableLod ? this.lodInstances : undefined,\n });\n\n let doUpdate = true;\n const needsUpdate = viewChanged || version !== this.current.version;\n const mappingUpdated = mappingVersion !== this.display.mappingVersion;\n\n if (autoUpdate && !needsUpdate) {\n // Triggered by auto-update but no change\n doUpdate = false;\n }\n\n if (mappingUpdated && this.sorting) {\n // We need to be able to sort the splats because the mapping has changed.\n // Try again next time around.\n doUpdate = false;\n }\n\n if (!doUpdate) {\n // Restore unused accumulator to the free list\n this.accumulators.push(next);\n } else {\n generate();\n\n if (this.flushAfterGenerate) {\n const gl = renderer.getContext() as WebGL2RenderingContext;\n gl.flush();\n }\n\n if (this.display.mappingVersion === next.mappingVersion) {\n // Same splat mapping so let's display it immediately and\n // reuse the sort order\n this.accumulators.push(this.display);\n this.display = next;\n } else {\n if (this.display !== this.current) {\n // The previous current is not being displayed, so replace it\n this.accumulators.push(this.current);\n }\n }\n\n this.current = next;\n this.sortDirty = true;\n this.setDirty();\n }\n\n if (this.enableDriveLod) {\n this.driveLod({ visibleGenerators, camera, scene });\n }\n await this.driveSort();\n }\n\n private async driveSort() {\n if (this.sorting || !this.sortDirty) {\n return;\n }\n\n if (this.sortTimeoutId !== -1) {\n clearTimeout(this.sortTimeoutId);\n this.sortTimeoutId = -1;\n }\n\n const now = performance.now();\n const nextSortTime = this.lastSortTime\n ? this.lastSortTime + this.minSortIntervalMs\n : now;\n if (now < nextSortTime) {\n this.sortTimeoutId = setTimeout(() => {\n this.sortTimeoutId = -1;\n this.driveSort();\n }, nextSortTime - now);\n return;\n }\n\n this.sorting = true;\n this.sortDirty = false;\n this.lastSortTime = now;\n\n if (this.readPause > 0) {\n await new Promise((resolve) => setTimeout(resolve, this.readPause));\n }\n\n const current = this.current;\n\n this.sortedCenter.copy(current.viewOrigin);\n this.sortedDir.copy(current.viewDirection);\n\n const { numSplats, maxSplats } = current;\n const rows = Math.max(1, Math.ceil(maxSplats / 16384));\n const orderingMaxSplats = rows * 16384;\n this.maxSplats = Math.max(this.maxSplats, orderingMaxSplats);\n\n const ordering = new Uint32Array(this.maxSplats);\n const readback = Readback.ensureBuffer(maxSplats, this.readback32);\n this.readback32 = readback;\n\n await this.readbackDepth({\n current,\n renderer: this.renderer,\n numSplats,\n readback,\n });\n\n if (this.sortPause > 0) {\n await new Promise((resolve) => setTimeout(resolve, this.sortPause));\n }\n\n if (!this.sortWorker) {\n this.sortWorker = new SplatWorker();\n }\n const result = (await this.sortWorker.call(\"sortSplats32\", {\n numSplats,\n readback,\n ordering,\n })) as {\n readback: Uint32Array;\n ordering: Uint32Array;\n activeSplats: number;\n };\n\n if (this.sortDelay > 0) {\n await new Promise((resolve) => setTimeout(resolve, this.sortDelay));\n }\n\n this.readback32 = result.readback;\n\n this.activeSplats = result.activeSplats;\n\n if (this.orderingTexture) {\n if (rows > this.orderingTexture.image.height) {\n this.orderingTexture.dispose();\n this.orderingTexture = null;\n }\n }\n\n if (!this.orderingTexture) {\n // console.log(`Allocating orderingTexture: ${4096}x${rows}`);\n const orderingTexture = new THREE.DataTexture(\n result.ordering,\n 4096,\n rows,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n orderingTexture.internalFormat = \"RGBA32UI\";\n orderingTexture.needsUpdate = true;\n this.orderingTexture = orderingTexture;\n } else {\n const renderer = this.renderer;\n const gl = renderer.getContext() as WebGL2RenderingContext;\n if (!renderer.properties.has(this.orderingTexture)) {\n this.orderingTexture.needsUpdate = true;\n } else {\n const props = renderer.properties.get(this.orderingTexture) as {\n __webglTexture: WebGLTexture;\n };\n const glTexture = props.__webglTexture;\n if (!glTexture) {\n throw new Error(\"ordering texture not found\");\n }\n renderer.state.activeTexture(gl.TEXTURE0);\n renderer.state.bindTexture(gl.TEXTURE_2D, glTexture);\n gl.bindBuffer(gl.PIXEL_UNPACK_BUFFER, null);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, false);\n gl.texSubImage2D(\n gl.TEXTURE_2D,\n 0,\n 0,\n 0,\n 4096,\n rows,\n gl.RGBA_INTEGER,\n gl.UNSIGNED_INT,\n // data,\n result.ordering,\n );\n renderer.state.bindTexture(gl.TEXTURE_2D, null);\n }\n }\n\n // console.log(`Sorted (${this.minSortIntervalMs}) ${numSplats} splats in ${(performance.now() - now).toFixed(0)} ms`);\n\n if (this.current.mappingVersion === current.mappingVersion) {\n if (this.current.mappingVersion !== this.display.mappingVersion) {\n this.accumulators.push(this.display);\n this.display = this.current;\n }\n }\n this.sorting = false;\n this.setDirty();\n\n this.driveSort();\n }\n\n private ensureLodWorker() {\n if (!this.lodWorker) {\n this.lodWorker = new SplatWorker();\n }\n return this.lodWorker;\n }\n\n defaultSplatTarget() {\n return isOculus()\n ? 500000\n : isVisionPro()\n ? 750000\n : isAndroid()\n ? 1000000\n : isIos()\n ? 1500000\n : 2500000;\n }\n\n private driveLod({\n visibleGenerators,\n camera,\n scene,\n }: {\n visibleGenerators: SplatGenerator[];\n camera: THREE.Camera;\n scene: THREE.Scene;\n }) {\n const defaultSplatCount = this.defaultSplatTarget();\n const splatCount = this.lodSplatCount ?? defaultSplatCount;\n const maxSplats = splatCount * this.lodSplatScale;\n\n let pixelScaleLimit = 0.0;\n if (camera instanceof THREE.PerspectiveCamera) {\n const tanYfov = Math.tan((0.5 * camera.fov * Math.PI) / 180);\n pixelScaleLimit = (2.0 * tanYfov) / this.renderSize.y;\n } else if (camera instanceof THREE.OrthographicCamera) {\n // Effective visible size after zoom\n const viewHeight = (camera.top - camera.bottom) / camera.zoom;\n const viewWidth = (camera.right - camera.left) / camera.zoom;\n // World/view units per pixel (constant with depth for ortho)\n const pxY = viewHeight / Math.max(1, this.renderSize.y);\n const pxX = viewWidth / Math.max(1, this.renderSize.x);\n pixelScaleLimit = Math.min(pxX, pxY);\n }\n\n pixelScaleLimit *= this.lodRenderScale;\n\n const viewPos = new THREE.Vector3();\n const viewQuat = new THREE.Quaternion();\n this.current.viewToWorld.decompose(viewPos, viewQuat, new THREE.Vector3());\n\n if (this.lodPosOverride) {\n viewPos.copy(this.lodPosOverride);\n }\n if (this.lodQuatOverride) {\n viewQuat.copy(this.lodQuatOverride).normalize();\n }\n\n if (this.lastLod) {\n if (\n this.lastLod.pixelScaleLimit !== pixelScaleLimit ||\n this.lastLod.maxSplats !== maxSplats\n ) {\n this.lodDirty = true;\n }\n\n const distance = viewPos.distanceTo(this.lastLod.pos);\n const distanceRamp = Math.max(0.0, 1.0 - distance / 1.0);\n const dot = viewQuat.dot(this.lastLod.quat);\n const quatRamp = Math.max(0.0, 1.0 - (1.0 - dot) / 0.01);\n const similarity = distanceRamp * quatRamp;\n if (similarity < 0.999) {\n this.lodDirty = true;\n }\n }\n\n const lodMeshes = !this.enableLod\n ? []\n : (visibleGenerators.filter((generator) => {\n return (\n generator instanceof SplatMesh &&\n (generator.packedSplats?.lodSplats ||\n generator.extSplats?.lodSplats ||\n generator.paged) &&\n generator.enableLod !== false\n );\n }) as SplatMesh[]);\n const hasPaged = lodMeshes.some((mesh) => mesh.paged);\n\n if (this.lodMeshes.length !== lodMeshes.length) {\n this.lodDirty = true;\n } else {\n if (\n lodMeshes.some(\n (m, i) =>\n m !== this.lodMeshes[i].mesh ||\n m.version > this.lodMeshes[i].version,\n )\n ) {\n this.lodDirty = true;\n }\n }\n\n this.lodMeshes = lodMeshes.map((mesh) => ({\n mesh,\n version: mesh.version + 1,\n }));\n\n // if (!this.lodDirty && lodMeshes.length === 0 && this.lodIds.size === 0) {\n // return;\n // }\n\n this.lodInitQueue = [];\n const now = performance.now();\n\n for (const mesh of lodMeshes) {\n const splats =\n mesh.packedSplats?.lodSplats ?? mesh.extSplats?.lodSplats ?? mesh.paged;\n if (splats) {\n const record = this.lodIds.get(splats);\n if (record) {\n record.lastTouched = now;\n } else {\n this.lodInitQueue.push(splats);\n }\n }\n }\n\n this.ensureLodWorker().tryExclusive(async (worker) => {\n if (hasPaged && !this.pager) {\n this.pager = new SplatPager({\n renderer: this.renderer,\n extSplats: this.pagedExtSplats,\n maxSplats: this.maxPagedSplats,\n numFetchers: this.numLodFetchers,\n });\n\n const { lodId } = (await worker.call(\"newLodTree\", {\n capacity: this.pager.maxSplats,\n })) as { lodId: number };\n this.pagerId = lodId;\n }\n\n // Assign pager to any new meshes that don't have one yet\n // (must run every frame, not just when pager is first created)\n if (this.pager) {\n for (const { mesh } of this.lodMeshes) {\n if (mesh.paged && !mesh.paged.pager) {\n mesh.paged.pager = this.pager;\n }\n }\n }\n\n if (this.lodInitQueue.length > 0) {\n const lodInitQueue = this.lodInitQueue;\n this.lodInitQueue = [];\n while (lodInitQueue.length > 0) {\n const splats = lodInitQueue.shift();\n if (splats) {\n await this.initLodTree(worker, splats);\n this.lodDirty = true;\n }\n }\n }\n\n if (this.pager) {\n const updates = this.pager.consumeLodTreeUpdates();\n\n for (const { splats, page, chunk, numSplats, lodTree } of updates) {\n const record = this.lodIds.get(splats);\n if (record) {\n if (lodTree && chunk === 0) {\n record.rootPage = page;\n }\n this.lodUpdates.push({\n lodId: record.lodId,\n pageBase: page * this.pager.pageSplats,\n chunkBase: chunk * this.pager.pageSplats,\n count: numSplats,\n lodTreeData: lodTree,\n });\n }\n }\n }\n\n if (this.lodUpdates.length > 0) {\n const lodUpdates = this.lodUpdates;\n this.lodUpdates = [];\n await worker.call(\"updateLodTrees\", { ranges: lodUpdates });\n this.lodDirty = true;\n }\n\n if (this.lodDirty) {\n const now = performance.now();\n const deltaPred = new THREE.Vector3();\n if (this.lastLod) {\n const deltaTime = Math.max(1, now - this.lastLod.timestamp);\n deltaPred\n .copy(viewPos)\n .sub(this.lastLod.pos)\n .multiplyScalar(this.lastTraverseTime / deltaTime);\n }\n this.lastLod = {\n pos: viewPos,\n quat: viewQuat,\n pixelScaleLimit,\n maxSplats,\n timestamp: now,\n };\n this.lodDirty = false;\n\n await this.updateLodInstances(\n worker,\n deltaPred,\n lodMeshes,\n maxSplats,\n viewPos,\n viewQuat,\n pixelScaleLimit,\n );\n this.currentLod = this.lastLod;\n this.setDirty();\n }\n\n await this.cleanupLodTrees(worker);\n });\n }\n\n private async initLodTree(\n worker: SplatWorker,\n splats: PackedSplats | ExtSplats | PagedSplats,\n ) {\n if (splats instanceof PackedSplats || splats instanceof ExtSplats) {\n const { lodId } = (await worker.call(\"initLodTree\", {\n numSplats: splats.numSplats ?? 0,\n lodTree: (splats.extra.lodTree as Uint32Array).slice(),\n })) as { lodId: number };\n this.lodIds.set(splats, { lodId, lastTouched: performance.now() });\n this.lodIdToSplats.set(lodId, splats);\n // console.log(\"*** initLodTree\", lodId, splats.extra.lodTree, splats);\n } else {\n const { lodId } = (await worker.call(\"newSharedLodTree\", {\n lodId: this.pagerId,\n })) as { lodId: number };\n this.lodIds.set(splats, { lodId, lastTouched: performance.now() });\n this.lodIdToSplats.set(lodId, splats);\n // console.log(\"*** newSharedLodTree\", lodId, this.pagerId, splats);\n }\n }\n\n private pageSizeWarning = false;\n\n private async updateLodInstances(\n worker: SplatWorker,\n deltaPred: THREE.Vector3,\n lodMeshes: SplatMesh[],\n maxSplats: number,\n viewPos: THREE.Vector3,\n viewQuat: THREE.Quaternion,\n pixelScaleLimit: number,\n ) {\n // Commented out because it makes LoDing less stable\n // viewPos.add(deltaPred);\n\n const uuidToMesh: Map = new Map();\n const cameraToWorld = new THREE.Matrix4().compose(\n viewPos,\n viewQuat,\n new THREE.Vector3().setScalar(1),\n );\n\n const instances = lodMeshes.reduce(\n (instances, mesh) => {\n uuidToMesh.set(mesh.uuid, mesh);\n const viewToObject = mesh.matrixWorld\n .clone()\n .invert()\n .multiply(cameraToWorld);\n\n const splats =\n mesh.packedSplats?.lodSplats ??\n mesh.extSplats?.lodSplats ??\n mesh.paged;\n if (!splats) {\n return instances;\n }\n const record = this.lodIds.get(splats);\n if (!record) {\n return instances;\n }\n\n if (this.pager && mesh.paged && record.rootPage === undefined) {\n return instances;\n }\n\n instances[mesh.uuid] = {\n instanceId: mesh.uuid,\n lodId: record.lodId,\n rootPage: record.rootPage,\n viewToObjectCols: viewToObject.elements,\n lodScale: mesh.lodScale,\n behindFoveate: mesh.behindFoveate ?? this.behindFoveate,\n coneFov0: mesh.coneFov0 ?? this.coneFov0,\n coneFov: mesh.coneFov ?? this.coneFov,\n coneFoveate: mesh.coneFoveate ?? this.coneFoveate,\n };\n return instances;\n },\n {} as Record<\n string,\n {\n instanceId: string;\n lodId: number;\n rootPage?: number;\n viewToObjectCols: number[];\n lodScale: number;\n behindFoveate: number;\n coneFov0: number;\n coneFov: number;\n coneFoveate: number;\n }\n >,\n );\n\n const traverseStart = performance.now();\n const result = (await worker.call(\"traverseLodTrees\", {\n maxSplats,\n pixelScaleLimit,\n lastPixelLimit: this.lastPixelLimit,\n instances,\n })) as {\n keyIndices: Record<\n string,\n { lodId: number; numSplats: number; indices: Uint32Array }\n >;\n chunks: [number, number][];\n pixelLimit?: number;\n };\n this.lastTraverseTime = performance.now() - traverseStart;\n\n const { keyIndices, chunks, pixelLimit } = result;\n this.lastPixelLimit = pixelLimit;\n const totalLodSplats = Object.values(keyIndices).reduce(\n (sum, { numSplats }) => sum + numSplats,\n 0,\n );\n // console.log(\n // `traverseLodTrees in ${this.lastTraverseTime} ms, pixelLimit=${pixelLimit}, totalLodSplats=${totalLodSplats}`,\n // );\n\n this.updateLodIndices(uuidToMesh, keyIndices);\n // console.log(\"chunks.length =\", chunks.length);\n\n if (this.pager) {\n this.pager.processUploads();\n\n const pagedMeshes = lodMeshes\n .map((mesh) => {\n if (!mesh.paged || !this.pager) {\n return null;\n }\n const meshPosition = mesh.getWorldPosition(new THREE.Vector3());\n return {\n splats: mesh.paged,\n distance: meshPosition.distanceTo(viewPos),\n };\n })\n .filter((result) => result !== null);\n\n if (!this.pageSizeWarning && pagedMeshes.length > this.pager.maxPages) {\n this.pageSizeWarning = true;\n console.warn(\n `# paged SplatMeshes exceeds maxPages: ${pagedMeshes.length} > ${this.pager.maxPages}`,\n );\n }\n\n // Fetch root chunk of each paged splats in priority of distance to camera\n pagedMeshes.sort((a, b) => a.distance - b.distance);\n this.pager.fetchPriority = pagedMeshes.map(({ splats }) => ({\n splats,\n chunk: 0,\n }));\n\n for (const [lodId, chunk] of chunks) {\n const splats = this.lodIdToSplats.get(lodId);\n if (splats instanceof PagedSplats) {\n if (chunk !== 0) {\n this.pager.fetchPriority.push({ splats, chunk });\n }\n }\n }\n\n this.pager.autoDrive = this.enableLodFetching;\n if (this.enableLodFetching) {\n this.pager.driveFetchers();\n }\n }\n\n if (\n this.lodRaycast &&\n performance.now() - this.lastLodRaycastTime >= this.lodRaycastIntervalMs\n ) {\n this.lastLodRaycastTime = performance.now();\n const traverseStart = performance.now();\n const result = (await worker.call(\"traverseLodTrees\", {\n maxSplats: Math.min(this.lodRaycast, Math.round(totalLodSplats * 0.1)),\n pixelScaleLimit,\n instances,\n })) as {\n keyIndices: Record<\n string,\n { lodId: number; numSplats: number; indices: Uint32Array }\n >;\n };\n const raycastTraverseTime = performance.now() - traverseStart;\n\n const { keyIndices } = result;\n const totalRaycastSplats = Object.values(keyIndices).reduce(\n (sum, { numSplats }) => sum + numSplats,\n 0,\n );\n for (const [uuid, countIndices] of Object.entries(keyIndices)) {\n const mesh = uuidToMesh.get(uuid) as SplatMesh;\n mesh.raycastIndices = countIndices;\n // console.log(\"Set raycast indices\", uuid, countIndices.numSplats, countIndices.indices.length);\n }\n // console.log(`raycast traverse in ${raycastTraverseTime} ms, totalRaycastSplats=${totalRaycastSplats}`);\n }\n }\n\n private async cleanupLodTrees(worker: SplatWorker) {\n const DISPOSE_TIMEOUT_MS = 3000;\n const now = performance.now();\n\n let oldest = null;\n for (const [splats, record] of this.lodIds.entries()) {\n if (oldest == null || record.lastTouched < oldest.lastTouched) {\n oldest = {\n splats,\n lastTouched: record.lastTouched,\n lodId: record.lodId,\n };\n }\n }\n if (!oldest || oldest.lastTouched > now - DISPOSE_TIMEOUT_MS) {\n return;\n }\n\n this.lodIds.delete(oldest.splats);\n this.lodIdToSplats.delete(oldest.lodId);\n\n for (const [mesh, instance] of this.lodInstances.entries()) {\n if (instance.lodId === oldest.lodId) {\n instance.texture.dispose();\n this.lodInstances.delete(mesh);\n }\n }\n\n await worker.call(\"disposeLodTree\", { lodId: oldest.lodId });\n // console.log(\"disposed lodTree\", oldest.lodId);\n }\n\n private updateLodIndices(\n uuidToMesh: Map,\n keyIndices: Record<\n string,\n { lodId: number; numSplats: number; indices: Uint32Array }\n >,\n ) {\n // console.log(\"updateLodIndices\", keyIndices);\n for (const [uuid, countIndices] of Object.entries(keyIndices)) {\n const { lodId, numSplats, indices } = countIndices;\n const mesh = uuidToMesh.get(uuid) as SplatMesh;\n\n if (mesh.paged) {\n mesh.paged.update(numSplats, indices);\n // console.log(\"*** paged.update\", lodId, numSplats, indices.slice(0, 5).join(\",\"));\n } else {\n let instance = this.lodInstances.get(mesh);\n if (instance) {\n if (indices.length > instance.indices.length) {\n instance.texture.dispose();\n instance = undefined;\n }\n }\n\n const rows = Math.ceil(indices.length / 16384);\n if (!instance) {\n const capacity = rows * 16384;\n if (indices.length !== capacity) {\n throw new Error(\"Indices length != capacity\");\n }\n const texture = new THREE.DataTexture(\n indices,\n 4096,\n rows,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n instance = { lodId, numSplats, indices, texture };\n this.lodInstances.set(mesh, instance);\n } else {\n instance.numSplats = numSplats;\n // instance.indices.set(indices.subarray(0, numSplats));\n\n const renderer = this.renderer;\n const gl = renderer.getContext() as WebGL2RenderingContext;\n if (renderer.properties.has(instance.texture)) {\n const props = renderer.properties.get(instance.texture) as {\n __webglTexture: WebGLTexture;\n };\n const glTexture = props.__webglTexture;\n if (!glTexture) {\n throw new Error(\"lodIndices texture not found\");\n }\n renderer.state.activeTexture(gl.TEXTURE0);\n renderer.state.bindTexture(gl.TEXTURE_2D, glTexture);\n gl.bindBuffer(gl.PIXEL_UNPACK_BUFFER, null);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, false);\n gl.texSubImage2D(\n gl.TEXTURE_2D,\n 0,\n 0,\n 0,\n 4096,\n rows,\n gl.RGBA_INTEGER,\n gl.UNSIGNED_INT,\n indices,\n );\n renderer.state.bindTexture(gl.TEXTURE_2D, null);\n }\n }\n }\n mesh.updateMappingVersion();\n }\n }\n\n private async readbackDepth({\n current,\n renderer,\n numSplats,\n readback,\n }: {\n current: SplatAccumulator;\n renderer: THREE.WebGLRenderer;\n numSplats: number;\n readback: Uint32Array;\n }) {\n if (!renderer) {\n throw new Error(\"No renderer\");\n }\n if (!current.target) {\n throw new Error(\"No target\");\n }\n\n const roundedCount =\n Math.ceil(numSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n if (readback.byteLength < roundedCount * 4) {\n throw new Error(\n `Readback buffer too small: ${readback.byteLength} < ${roundedCount * 4}`,\n );\n }\n const readbackUint8 = new Uint8Array(readback.buffer);\n const renderState = this.saveRenderState(renderer);\n\n // We can only read back one 2D array layer of pixels at a time,\n // so loop through them, initiate the readback, and collect the\n // completion promises.\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n let baseIndex = 0;\n const promises = [];\n\n while (baseIndex < numSplats) {\n const layer = Math.floor(baseIndex / layerSize);\n const layerBase = layer * layerSize;\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((numSplats - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n // Compute the subarray that this layer of readback corresponds to\n const readbackSize = SPLAT_TEX_WIDTH * layerYEnd * 4;\n const subReadback = readbackUint8.subarray(\n layerBase * 4,\n layerBase * 4 + readbackSize,\n );\n renderer.setRenderTarget(current.target, layer);\n\n const promise = renderer.readRenderTargetPixelsAsync(\n current.target,\n 0,\n 0,\n SPLAT_TEX_WIDTH,\n layerYEnd,\n subReadback,\n undefined,\n current.extSplats ? 2 : 1,\n );\n promises.push(promise);\n\n if (this.flushAfterRead) {\n const gl = renderer.getContext() as WebGL2RenderingContext;\n gl.flush();\n }\n\n baseIndex += SPLAT_TEX_WIDTH * layerYEnd;\n }\n\n this.resetRenderState(renderer, renderState);\n return Promise.all(promises).then(() => readback);\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n private static emptyOrdering = (() => {\n const numIndices = 4 * 4096 * 1;\n const emptyArray = new Uint32Array(numIndices);\n const texture = new THREE.DataTexture(emptyArray, 4096, 1);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n render(scene: THREE.Scene, camera: THREE.Camera) {\n try {\n SparkRenderer.sparkOverride = this;\n this.renderer.render(scene, camera);\n } finally {\n SparkRenderer.sparkOverride = undefined;\n }\n }\n\n renderTarget({\n scene,\n camera,\n }: { scene: THREE.Scene; camera: THREE.Camera }): THREE.WebGLRenderTarget {\n const target = this.backTarget ?? this.target;\n if (!target) {\n throw new Error(\"No target\");\n }\n\n const previousTarget = this.renderer.getRenderTarget();\n try {\n this.renderer.setRenderTarget(target);\n SparkRenderer.sparkOverride = this;\n this.renderer.render(scene, camera);\n } finally {\n SparkRenderer.sparkOverride = undefined;\n this.renderer.setRenderTarget(previousTarget);\n }\n\n if (target !== this.target) {\n // Swap back buffer and target\n [this.target, this.backTarget] = [this.backTarget, this.target];\n }\n return target;\n }\n\n // Read back the previously rendered target image as a Uint8Array of packed\n // RGBA values (in that order). Subsequent calls to this.readTarget()\n // will reuse the same buffers to minimize memory allocations.\n async readTarget(): Promise {\n if (!this.target) {\n throw new Error(\"Must initialize with target\");\n }\n const { width, height } = this.target;\n const byteSize = width * height * 4;\n if (!this.superPixels || this.superPixels.length < byteSize) {\n this.superPixels = new Uint8Array(byteSize);\n // console.log(`Allocated superPixels: ${width}x${height} = ${pixelCount} bytes`);\n }\n const superPixels = this.superPixels;\n\n await this.renderer.readRenderTargetPixelsAsync(\n this.target,\n 0,\n 0,\n width,\n height,\n superPixels,\n );\n\n const { superXY } = this;\n if (superXY === 1) {\n return superPixels;\n }\n\n const subWidth = width / superXY;\n const subHeight = height / superXY;\n const subSize = subWidth * subHeight * 4;\n if (!this.targetPixels || this.targetPixels.length < subSize) {\n this.targetPixels = new Uint8Array(subSize);\n // console.log(`Allocated targetPixels: ${subWidth}x${subHeight} = ${subSize} bytes`);\n }\n const targetPixels = this.targetPixels;\n\n const super2 = superXY * superXY;\n for (let y = 0; y < subHeight; y++) {\n const row = y * subWidth;\n for (let x = 0; x < subWidth; x++) {\n const superCol = x * superXY;\n let r = 0;\n let g = 0;\n let b = 0;\n let a = 0;\n for (let sy = 0; sy < superXY; sy++) {\n const superRow = (y * superXY + sy) * width;\n for (let sx = 0; sx < superXY; sx++) {\n const superIndex = (superRow + superCol + sx) * 4;\n r += superPixels[superIndex];\n g += superPixels[superIndex + 1];\n b += superPixels[superIndex + 2];\n a += superPixels[superIndex + 3];\n }\n }\n const pixelIndex = (row + x) * 4;\n targetPixels[pixelIndex] = r / super2;\n targetPixels[pixelIndex + 1] = g / super2;\n targetPixels[pixelIndex + 2] = b / super2;\n targetPixels[pixelIndex + 3] = a / super2;\n }\n }\n return targetPixels;\n }\n\n async renderReadTarget({\n scene,\n camera,\n }: {\n scene: THREE.Scene;\n camera: THREE.Camera;\n }): Promise {\n this.renderTarget({ scene, camera });\n return this.readTarget();\n }\n\n // Data and buffers used for environment map rendering\n private static cubeRender: {\n target: THREE.WebGLCubeRenderTarget;\n cubeCamera: THREE.CubeCamera;\n near: number;\n far: number;\n } | null = null;\n private static pmrem: THREE.PMREMGenerator | null = null;\n\n // Renders out the scene to a cube map that can be used for\n // Image-based lighting or similar applications. First optionally updates Gsplats,\n // sorts them with respect to the provided worldCenter, renders 6 cube faces.\n async renderCubeMap({\n scene,\n worldCenter,\n size = 256,\n near = 0.1,\n far = 1000,\n hideObjects = [],\n update = true,\n filter = false,\n }: {\n scene: THREE.Scene;\n worldCenter: THREE.Vector3;\n size?: number;\n near?: number;\n far?: number;\n hideObjects: THREE.Object3D[];\n update: boolean;\n filter: boolean;\n }): Promise {\n if (\n !SparkRenderer.cubeRender ||\n SparkRenderer.cubeRender.target.width !== size ||\n SparkRenderer.cubeRender.near !== near ||\n SparkRenderer.cubeRender.far !== far\n ) {\n if (SparkRenderer.cubeRender) {\n SparkRenderer.cubeRender.target.dispose();\n }\n const target = new THREE.WebGLCubeRenderTarget(size, {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n generateMipmaps: filter,\n minFilter: filter ? THREE.LinearMipMapLinearFilter : THREE.LinearFilter,\n magFilter: THREE.LinearFilter,\n colorSpace: filter ? THREE.LinearSRGBColorSpace : THREE.SRGBColorSpace,\n });\n const cubeCamera = new THREE.CubeCamera(near, far, target);\n SparkRenderer.cubeRender = { target, cubeCamera, near, far };\n }\n\n const { target, cubeCamera } = SparkRenderer.cubeRender;\n cubeCamera.position.copy(worldCenter);\n\n // Save the visibility state of objects we want to hide before render\n const objectVisibility = new Map();\n for (const object of hideObjects) {\n objectVisibility.set(object, object.visible);\n object.visible = false;\n }\n\n if (update) {\n const tempCamera = new THREE.Camera();\n tempCamera.position.copy(worldCenter);\n await this.update({ scene, camera: tempCamera });\n }\n\n try {\n SparkRenderer.sparkOverride = this;\n // Update the CubeCamera, which performs 6 cube face renders\n cubeCamera.update(this.renderer, scene);\n } finally {\n SparkRenderer.sparkOverride = undefined;\n }\n\n // Restore viewpoint to default and object visibility\n for (const [object, visible] of objectVisibility.entries()) {\n object.visible = visible;\n }\n\n return target.texture;\n }\n\n async readCubeTargets(): Promise {\n if (!SparkRenderer.cubeRender) {\n throw new Error(\"No cube render\");\n }\n\n const textures = SparkRenderer.cubeRender.target.texture;\n const promises = [];\n const buffers = [];\n\n for (let i = 0; i < textures.images.length; ++i) {\n const { width, height } = textures.images[i];\n const byteSize = width * height * 4;\n const readback = new Uint8Array(byteSize);\n buffers.push(readback);\n const promise = this.renderer.readRenderTargetPixelsAsync(\n SparkRenderer.cubeRender.target,\n 0,\n 0,\n width,\n height,\n readback,\n i,\n );\n promises.push(promise);\n }\n\n await Promise.all(promises);\n return buffers;\n }\n\n // Renders out the scene to an environment map that can be used for\n // Image-based lighting or similar applications. First optionally updates Gsplats,\n // sorts them with respect to the provided worldCenter, renders 6 cube faces,\n // then pre-filters them using THREE.PMREMGenerator and returns a THREE.Texture\n // that can assigned directly to a THREE.MeshStandardMaterial.envMap property.\n async renderEnvMap({\n scene,\n worldCenter,\n size = 256,\n near = 0.1,\n far = 1000,\n hideObjects = [],\n update = true,\n }: {\n scene: THREE.Scene;\n worldCenter: THREE.Vector3;\n size?: number;\n near?: number;\n far?: number;\n hideObjects: THREE.Object3D[];\n update: boolean;\n }): Promise {\n const cubeTexture = await this.renderCubeMap({\n scene,\n worldCenter,\n size,\n near,\n far,\n hideObjects,\n update,\n filter: true,\n });\n // Pre-filter the cube map using THREE.PMREMGenerator if requested\n if (!SparkRenderer.pmrem) {\n SparkRenderer.pmrem = new THREE.PMREMGenerator(this.renderer);\n }\n\n return SparkRenderer.pmrem?.fromCubemap(cubeTexture).texture;\n }\n\n // Utility function to recursively set the envMap property for any\n // THREE.MeshStandardMaterial within the subtree of root.\n recurseSetEnvMap(root: THREE.Object3D, envMap: THREE.Texture) {\n root.traverse((node) => {\n if (node instanceof THREE.Mesh) {\n if (Array.isArray(node.material)) {\n for (const material of node.material) {\n if (material instanceof THREE.MeshStandardMaterial) {\n material.envMap = envMap;\n }\n }\n } else {\n if (node.material instanceof THREE.MeshStandardMaterial) {\n node.material.envMap = envMap;\n }\n }\n }\n });\n }\n\n async getLodTreeLevel(\n splats: SplatMesh,\n level: number,\n pageColoring = false,\n ) {\n const instance = this.lodInstances.get(splats);\n if (!instance) {\n return null;\n }\n\n const result = await this.ensureLodWorker().exclusive(async (worker) => {\n return (await worker.call(\"getLodTreeLevel\", {\n lodId: instance.lodId,\n level,\n })) as { indices: Uint32Array };\n });\n\n if (splats.packedSplats?.lodSplats) {\n const newSplats = splats.packedSplats.lodSplats.extractSplats(\n result.indices,\n pageColoring,\n );\n return new SplatMesh({ packedSplats: newSplats });\n }\n if (splats.extSplats?.lodSplats) {\n const newSplats = splats.extSplats.lodSplats.extractSplats(\n result.indices,\n pageColoring,\n );\n return new SplatMesh({ extSplats: newSplats });\n }\n throw new Error(\n \"Only LoD-enabled PackedSplats and ExtSplats are supported\",\n );\n }\n}\n","import * as THREE from \"three\";\n\nimport init_wasm, { decode_rad_header } from \"spark-rs\";\nimport { LN_SCALE_MAX, LN_SCALE_MIN, dyno } from \".\";\nimport { evaluateExtSH } from \"./ExtSplats\";\nimport { evaluatePackedSH } from \"./PackedSplats\";\nimport { getSplatFileType, getSplatFileTypeFromPath } from \"./SplatLoader\";\nimport type { SplatSource } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n type ExtResult,\n type PackedResult,\n type RadMeta,\n type SplatEncoding,\n SplatFileType,\n} from \"./defines\";\nimport { pagedSplatTexCoord } from \"./dyno\";\nimport { getTextureSize } from \"./utils\";\n\nexport interface PagedSplatsOptions {\n pager?: SplatPager;\n rootUrl?: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n fileBytes?: Uint8Array;\n fileType?: SplatFileType;\n maxSh?: number;\n}\n\nexport class PagedSplats implements SplatSource {\n pager?: SplatPager;\n rootUrl: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n fileBytes?: Uint8Array;\n fileType?: SplatFileType;\n\n numSh: number;\n maxSh: number;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array | [Uint32Array, Uint32Array];\n\n numSplats: number;\n splatEncoding?: SplatEncoding;\n radMetaPromise?: Promise<{ meta: RadMeta; chunksStart: number }>;\n\n dynoNumSplats: dyno.DynoInt<\"numSplats\">;\n dynoIndices: dyno.DynoUsampler2D<\"indices\", THREE.DataTexture>;\n rgbMinMaxLnScaleMinMax: dyno.DynoVec4<\n THREE.Vector4,\n \"rgbMinMaxLnScaleMinMax\"\n >;\n lodOpacity: dyno.DynoBool<\"lodOpacity\">;\n dynoNumSh: dyno.DynoInt<\"numSh\">;\n shMax: dyno.DynoVec3;\n\n constructor(options: PagedSplatsOptions) {\n this.pager = options.pager;\n this.rootUrl = options.rootUrl ?? \"\";\n this.requestHeader = options.requestHeader;\n this.withCredentials = options.withCredentials;\n this.numSh = 0;\n this.maxSh = options.pager?.maxSh ?? 3;\n\n this.numSplats = 0;\n\n this.dynoNumSplats = new dyno.DynoInt({ value: 0 });\n this.dynoIndices = new dyno.DynoUsampler2D({\n value: SplatPager.emptyIndicesTexture,\n });\n\n this.rgbMinMaxLnScaleMinMax = new dyno.DynoVec4({\n value: new THREE.Vector4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX),\n });\n this.lodOpacity = new dyno.DynoBool({\n value: false,\n });\n\n this.dynoNumSh = new dyno.DynoInt({ value: 0 });\n this.shMax = new dyno.DynoVec3({ value: new THREE.Vector3() });\n\n this.fileBytes = options.fileBytes;\n this.fileType = options.fileType;\n if (!this.fileType && this.fileBytes) {\n this.fileType = getSplatFileType(this.fileBytes);\n }\n if (!this.fileType && this.rootUrl) {\n this.fileType = getSplatFileTypeFromPath(this.rootUrl);\n }\n if (!this.fileType) {\n throw new Error(\"Unable to determine file type\");\n }\n if (this.fileType === SplatFileType.RAD) {\n this.radMetaPromise = this.getRadMeta();\n }\n }\n\n dispose() {\n if (this.dynoIndices.value !== SplatPager.emptyIndicesTexture) {\n this.dynoIndices.value.dispose();\n this.dynoIndices.value = SplatPager.emptyIndicesTexture;\n }\n }\n\n setMaxSh(maxSh: number) {\n this.maxSh = maxSh;\n }\n\n getRadMeta(): Promise<{ meta: RadMeta; chunksStart: number }> {\n if (this.radMetaPromise) {\n return this.radMetaPromise;\n }\n\n this.radMetaPromise = (async () => {\n await wasmInitialized;\n\n if (this.fileBytes) {\n // Shouldn't be more than 1 MB, so don't send more data than that.\n const metaStart = decode_rad_header(this.fileBytes.slice(0, 1048576));\n if (metaStart) {\n return metaStart;\n }\n throw new Error(\"Failed to decode RAD header\");\n }\n if (!this.rootUrl) {\n throw new Error(\"No url or fileBytes provided\");\n }\n\n // We don't know how big the header will be. Most likely 64KB will be enough,\n // but try larger blocks in backoff if it wasn't enough.\n for (const tryBytes of [65536, 256 * 1024, 1024 * 1024]) {\n const bytes = await fetchRange({\n url: this.rootUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n offset: 0,\n bytes: tryBytes,\n });\n const metaStart = decode_rad_header(bytes);\n if (metaStart) {\n return metaStart;\n }\n }\n throw new Error(\"Failed to decode RAD header\");\n })().then((metaStart) => {\n // console.log(\"RAD meta: \", metaStart.meta);\n return metaStart;\n });\n\n this.radMetaPromise.catch((error) => {\n console.error(error);\n // Allow it to be tried again\n // this.radMetaPromise = undefined;\n });\n\n return this.radMetaPromise;\n }\n\n chunkUrl(chunk: number): string {\n return this.rootUrl.replace(/-lod-0\\./, `-lod-${chunk}.`);\n }\n\n async fetchDecodeChunk(chunk: number) {\n let decodeBytes = undefined;\n\n if (this.fileType === SplatFileType.RAD) {\n const { meta, chunksStart } = await this.getRadMeta();\n if (chunk < 0 || chunk >= meta.chunks.length) {\n throw new Error(\n `Chunk index out of range: ${chunk} (max: ${meta.chunks.length - 1})`,\n );\n }\n let { offset, bytes, filename } = meta.chunks[chunk];\n\n if (filename) {\n if (this.fileBytes) {\n throw new Error(\"Chunked RAD file not supported with fileBytes\");\n }\n const resolvedRoot = new URL(\n this.rootUrl,\n window.location.href,\n ).toString();\n const chunkUrl = new URL(filename, resolvedRoot).toString();\n decodeBytes = await fetchRange({\n url: chunkUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n });\n } else {\n offset += chunksStart;\n // console.log(`Fetching chunk ${chunk} at offset ${offset} with bytes ${bytes}`);\n if (this.fileBytes) {\n if (offset < 0 || offset + bytes > this.fileBytes.length) {\n throw new Error(\n `Invalid chunk offset or bytes: ${offset} + ${bytes} > ${this.fileBytes.length}`,\n );\n }\n decodeBytes = this.fileBytes.slice(offset, offset + bytes);\n } else if (this.rootUrl) {\n decodeBytes = await fetchRange({\n url: this.rootUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n offset,\n bytes,\n });\n } else {\n throw new Error(\"No url or fileBytes provided\");\n }\n }\n } else if (this.fileBytes) {\n // Fall through\n } else if (this.rootUrl) {\n const url = this.chunkUrl(chunk);\n const request = new Request(url, {\n headers: this.requestHeader\n ? new Headers(this.requestHeader)\n : undefined,\n credentials: this.withCredentials ? \"include\" : \"same-origin\",\n });\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n decodeBytes = new Uint8Array(await response.arrayBuffer());\n } else {\n throw new Error(\"No url or fileBytes provided\");\n }\n\n return await workerPool.withWorker(async (worker) => {\n if (!this.pager) {\n throw new Error(\"PagedSplats.pager not set\");\n }\n if (!this.pager.extSplats) {\n const result = (await worker.call(\"loadPackedSplats\", {\n fileBytes: decodeBytes,\n pathName: this.chunkUrl(chunk),\n sh1Codes: this.sh1Codes?.slice(),\n sh2Codes: this.sh2Codes?.slice(),\n sh3Codes: this.sh3Codes?.slice(),\n })) as { lodSplats: PackedResult };\n const lodSplats = result.lodSplats;\n if (!this.splatEncoding) {\n this.splatEncoding = lodSplats.splatEncoding;\n\n this.numSh = lodSplats.extra.sh3\n ? 3\n : lodSplats.extra.sh2\n ? 2\n : lodSplats.extra.sh1\n ? 1\n : 0;\n\n this.rgbMinMaxLnScaleMinMax.value.set(\n this.splatEncoding.rgbMin ?? 0.0,\n this.splatEncoding.rgbMax ?? 1.0,\n this.splatEncoding.lnScaleMin ?? LN_SCALE_MIN,\n this.splatEncoding.lnScaleMax ?? LN_SCALE_MAX,\n );\n\n this.lodOpacity.value = this.splatEncoding.lodOpacity ?? false;\n\n this.shMax.value.set(\n this.splatEncoding.sh1Max ?? 1.0,\n this.splatEncoding.sh2Max ?? 1.0,\n this.splatEncoding.sh3Max ?? 1.0,\n );\n }\n this.sh1Codes = lodSplats.extra.sh1Codes ?? this.sh1Codes;\n this.sh2Codes = lodSplats.extra.sh2Codes ?? this.sh2Codes;\n this.sh3Codes = lodSplats.extra.sh3Codes ?? this.sh3Codes;\n return lodSplats;\n }\n\n const sh3Codes = this.sh3Codes as [Uint32Array, Uint32Array] | undefined;\n const result = (await worker.call(\"loadExtSplats\", {\n fileBytes: decodeBytes,\n pathName: this.chunkUrl(chunk),\n sh1Codes: this.sh1Codes?.slice(),\n sh2Codes: this.sh2Codes?.slice(),\n sh3Codes: sh3Codes\n ? [sh3Codes[0].slice(), sh3Codes[1].slice()]\n : undefined,\n })) as { lodSplats: ExtResult };\n const lodSplats = result.lodSplats;\n if (!this.splatEncoding) {\n this.splatEncoding = DEFAULT_SPLAT_ENCODING;\n this.numSh =\n lodSplats.extra.sh3a && lodSplats.extra.sh3b\n ? 3\n : lodSplats.extra.sh2\n ? 2\n : lodSplats.extra.sh1\n ? 1\n : 0;\n }\n this.sh1Codes = lodSplats.extra.sh1Codes ?? this.sh1Codes;\n this.sh2Codes = lodSplats.extra.sh2Codes ?? this.sh2Codes;\n this.sh3Codes = lodSplats.extra.sh3Codes ?? this.sh3Codes;\n return lodSplats;\n });\n }\n\n update(numSplats: number, indices: Uint32Array) {\n if (!this.pager) {\n throw new Error(\"PagedSplats.pager not set\");\n }\n\n const renderer = this.pager.renderer;\n this.numSplats = numSplats;\n this.dynoNumSplats.value = this.numSplats;\n const rows = Math.ceil(numSplats / 16384);\n\n let indicesTexture =\n this.dynoIndices.value === SplatPager.emptyIndicesTexture\n ? undefined\n : this.dynoIndices.value;\n if (indicesTexture && rows > indicesTexture.image.height) {\n indicesTexture.dispose();\n indicesTexture = undefined;\n }\n\n if (!indicesTexture) {\n indicesTexture = new THREE.DataTexture(\n indices,\n 4096,\n rows,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n indicesTexture.internalFormat = \"RGBA32UI\";\n indicesTexture.needsUpdate = true;\n renderer.initTexture(indicesTexture);\n this.dynoIndices.value = indicesTexture;\n } else {\n const textureIndices = indicesTexture.image.data as Uint32Array;\n textureIndices.set(indices.subarray(0, numSplats));\n\n const gl = renderer.getContext() as WebGL2RenderingContext;\n renderer.state.activeTexture(gl.TEXTURE0);\n renderer.state.bindTexture(\n gl.TEXTURE_2D,\n getGlTexture(renderer, indicesTexture),\n );\n gl.bindBuffer(gl.PIXEL_UNPACK_BUFFER, null);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, false);\n gl.texSubImage2D(\n gl.TEXTURE_2D,\n 0,\n 0,\n 0,\n 4096,\n rows,\n gl.RGBA_INTEGER,\n gl.UNSIGNED_INT,\n indices,\n );\n renderer.state.bindTexture(gl.TEXTURE_2D, null);\n }\n }\n\n prepareFetchSplat() {}\n\n getNumSplats(): number {\n return this.numSplats;\n }\n\n hasRgbDir(): boolean {\n if (!this.pager) {\n return false;\n }\n return Math.min(this.numSh, this.pager.maxSh) > 0;\n }\n\n getNumSh(): number {\n return this.numSh;\n }\n\n fetchSplat({\n index,\n viewOrigin,\n }: {\n index: dyno.DynoVal<\"int\">;\n viewOrigin?: dyno.DynoVal<\"vec3\">;\n }): dyno.DynoVal {\n if (!this.pager) {\n throw new Error(\"PagedSplats.pager not set\");\n }\n\n const splatIndex = this.pager.readIndex.apply({\n index,\n numSplats: this.dynoNumSplats,\n indices: this.dynoIndices,\n }).index;\n\n if (!this.pager.extSplats) {\n if (this.hasRgbDir() && viewOrigin) {\n this.dynoNumSh.value = Math.min(\n this.numSh,\n this.maxSh,\n this.pager.maxSh,\n );\n return this.pager.readSplatDir.apply({\n index: splatIndex,\n rgbMinMaxLnScaleMinMax: this.rgbMinMaxLnScaleMinMax,\n lodOpacity: this.lodOpacity,\n viewOrigin,\n numSh: this.dynoNumSh,\n shMax: this.shMax,\n }).gsplat;\n }\n return this.pager.readSplat.apply({\n index: splatIndex,\n rgbMinMaxLnScaleMinMax: this.rgbMinMaxLnScaleMinMax,\n lodOpacity: this.lodOpacity,\n }).gsplat;\n }\n\n if (this.hasRgbDir() && viewOrigin) {\n this.dynoNumSh.value = Math.min(this.numSh, this.maxSh, this.pager.maxSh);\n return this.pager.readSplatExtDir.apply({\n index: splatIndex,\n viewOrigin,\n numSh: this.dynoNumSh,\n }).gsplat;\n }\n return this.pager.readSplatExt.apply({ index: splatIndex }).gsplat;\n }\n}\n\nexport interface SplatPagerOptions {\n /**\n * THREE.WebGLRenderer instance to upload texture data\n */\n renderer: THREE.WebGLRenderer;\n /**\n * Whether to use extended Gsplat encoding for paged splats.\n * @default false\n */\n extSplats?: boolean;\n /**\n * Maximum size of splat page pool\n * @default 65536 * 256 = 16777216\n */\n maxSplats?: number;\n /**\n * Maximum number of spherical harmonics to keep\n * @default 3\n */\n maxSh?: number;\n /**\n * Automatically drive page fetching, or poll via drive()\n * @default true\n */\n autoDrive?: boolean;\n /**\n * Number of parallel chunk fetchers\n * @default 3\n */\n numFetchers?: number;\n}\n\nexport class SplatPager {\n renderer: THREE.WebGLRenderer;\n\n extSplats: boolean;\n maxPages: number;\n maxSplats: number;\n pageSplats: number;\n\n maxSh: number;\n curSh: number;\n\n autoDrive: boolean;\n numFetchers: number;\n fetchPause = 0;\n\n splatsChunkToPage: Map<\n PagedSplats,\n ({ page: number; lru: number } | undefined)[]\n > = new Map();\n pageToSplatsChunk: (\n | { splats: PagedSplats; chunk: number; time: number }\n | undefined\n )[] = [];\n pageFreelist: number[];\n pageLru: Set<{ page: number; lru: number }>;\n freeablePages: number[];\n newUploads: {\n page: number;\n numSplats: number;\n packedArray: Uint32Array;\n extArray?: Uint32Array;\n extra: Record;\n }[];\n readyUploads: {\n page: number;\n numSplats: number;\n packedArray: Uint32Array;\n extArray?: Uint32Array;\n extra: Record;\n }[];\n lodTreeUpdates: {\n splats: PagedSplats;\n page: number;\n chunk: number;\n numSplats: number;\n lodTree?: Uint32Array;\n }[];\n\n fetchers: { splats: PagedSplats; chunk: number; promise: Promise }[];\n fetched: {\n splats: PagedSplats;\n chunk: number;\n data: PackedResult | ExtResult;\n }[];\n fetchPriority: { splats: PagedSplats; chunk: number }[];\n\n packedTexture: dyno.DynoUsampler2DArray<\n \"packedTexture\",\n THREE.DataArrayTexture\n >;\n extTexture: dyno.DynoUsampler2DArray<\"extTexture\", THREE.DataArrayTexture>;\n\n sh1Texture: dyno.DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture: dyno.DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3Texture: dyno.DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n sh3TextureB: dyno.DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>;\n\n readIndex: dyno.DynoBlock<\n { index: \"int\"; numSplats: \"int\"; indices: \"usampler2D\" },\n { index: \"int\" }\n >;\n readSplat: dyno.DynoBlock<\n { index: \"int\"; rgbMinMaxLnScaleMinMax: \"vec4\"; lodOpacity: \"bool\" },\n { gsplat: typeof dyno.Gsplat }\n >;\n readSplatExt: dyno.DynoBlock<\n { index: \"int\" },\n { gsplat: typeof dyno.Gsplat }\n >;\n readSplatDir: dyno.DynoBlock<\n {\n index: \"int\";\n rgbMinMaxLnScaleMinMax: \"vec4\";\n lodOpacity: \"bool\";\n viewOrigin: \"vec3\";\n numSh: \"int\";\n shMax: \"vec3\";\n },\n { gsplat: typeof dyno.Gsplat }\n >;\n readSplatExtDir: dyno.DynoBlock<\n { index: \"int\"; viewOrigin: \"vec3\"; numSh: \"int\" },\n { gsplat: typeof dyno.Gsplat }\n >;\n\n constructor(options: SplatPagerOptions) {\n this.renderer = options.renderer;\n this.extSplats = options.extSplats ?? false;\n\n this.pageSplats = 65536;\n this.maxSplats = options.maxSplats ?? 16777216;\n this.maxPages = Math.ceil(this.maxSplats / this.pageSplats);\n this.maxSplats = this.maxPages * this.pageSplats;\n\n this.maxSh = options.maxSh ?? 3;\n this.curSh = 0;\n\n this.autoDrive = options.autoDrive ?? true;\n this.numFetchers = options.numFetchers ?? 3;\n\n this.splatsChunkToPage = new Map();\n this.pageToSplatsChunk = new Array(this.maxPages);\n this.pageFreelist = Array.from({ length: this.maxPages }, (_, i) => i);\n this.pageLru = new Set();\n this.freeablePages = [];\n this.newUploads = [];\n this.readyUploads = [];\n this.lodTreeUpdates = [];\n\n this.fetchers = [];\n this.fetched = [];\n this.fetchPriority = [];\n\n this.packedTexture = new dyno.DynoUsampler2DArray({\n value: this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n ),\n });\n this.extTexture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n )\n : SplatPager.emptyExtTexture,\n });\n this.sh1Texture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? SplatPager.emptyExtSh1Texture\n : SplatPager.emptySh1Texture,\n });\n this.sh2Texture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? SplatPager.emptyExtSh2Texture\n : SplatPager.emptySh2Texture,\n });\n this.sh3Texture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? SplatPager.emptyExtSh3Texture\n : SplatPager.emptySh3Texture,\n });\n this.sh3TextureB = new dyno.DynoUsampler2DArray({\n value: SplatPager.emptyExtSh3BTexture,\n });\n\n this.readIndex = dyno.dynoBlock(\n { index: \"int\", numSplats: \"int\", indices: \"usampler2D\" },\n { index: \"int\" },\n ({ index, numSplats, indices }) => {\n return new dyno.Dyno({\n inTypes: {\n index: \"int\",\n numSplats: \"int\",\n indices: \"usampler2D\",\n },\n outTypes: { index: \"int\" },\n inputs: {\n index,\n numSplats,\n indices,\n },\n statements: ({ inputs, outputs }) =>\n dyno.unindentLines(`\n if (${inputs.index} >= ${inputs.numSplats}) {\n return;\n }\n\n ivec2 indexCoord = ivec2((${inputs.index} >> 2) & 4095, ${inputs.index} >> 14);\n uint index = texelFetch(${inputs.indices}, indexCoord, 0)[${inputs.index} & 3];\n ${outputs.index} = int(index);\n `),\n }).outputs;\n },\n );\n\n this.readSplat = dyno.dynoBlock(\n { index: \"int\", rgbMinMaxLnScaleMinMax: \"vec4\", lodOpacity: \"bool\" },\n { gsplat: dyno.Gsplat },\n ({ index, rgbMinMaxLnScaleMinMax, lodOpacity }) => {\n return new dyno.Dyno({\n inTypes: {\n index: \"int\",\n packedTexture: \"usampler2DArray\",\n rgbMinMaxLnScaleMinMax: \"vec4\",\n lodOpacity: \"bool\",\n },\n outTypes: { gsplat: dyno.Gsplat },\n inputs: {\n index,\n packedTexture: this.packedTexture,\n rgbMinMaxLnScaleMinMax,\n lodOpacity,\n },\n globals: () => [dyno.defineGsplat],\n statements: ({ inputs, outputs }) =>\n dyno.unindentLines(`\n int index = ${inputs.index};\n ivec3 splatCoord = pagedSplatTexCoord(index);\n uvec4 packed = texelFetch(${inputs.packedTexture}, splatCoord, 0);\n\n unpackSplatEncoding(packed, ${outputs.gsplat}.center, ${outputs.gsplat}.scales, ${outputs.gsplat}.quaternion, ${outputs.gsplat}.rgba, ${inputs.rgbMinMaxLnScaleMinMax});\n if ((${outputs.gsplat}.rgba.a == 0.0) || all(equal(${outputs.gsplat}.scales, vec3(0.0, 0.0, 0.0)))) {\n return;\n }\n \n ${outputs.gsplat}.index = index;\n ${outputs.gsplat}.flags = GSPLAT_FLAG_ACTIVE;\n if (${inputs.lodOpacity}) {\n ${outputs.gsplat}.rgba.a *= 2.0;\n }\n `),\n }).outputs;\n },\n );\n\n this.readSplatDir = dyno.dynoBlock(\n {\n index: \"int\",\n rgbMinMaxLnScaleMinMax: \"vec4\",\n lodOpacity: \"bool\",\n viewOrigin: \"vec3\",\n numSh: \"int\",\n shMax: \"vec3\",\n },\n { gsplat: dyno.Gsplat },\n ({\n index,\n rgbMinMaxLnScaleMinMax,\n lodOpacity,\n viewOrigin,\n numSh,\n shMax,\n }) => {\n if (\n !index ||\n !rgbMinMaxLnScaleMinMax ||\n !lodOpacity ||\n !viewOrigin ||\n !numSh ||\n !shMax\n ) {\n throw new Error(\"index and viewOrigin are required\");\n }\n let gsplat = this.readSplat.apply({\n index,\n rgbMinMaxLnScaleMinMax,\n lodOpacity,\n }).gsplat;\n\n const splatCenter = dyno.splitGsplat(gsplat).outputs.center;\n const viewDir = dyno.normalize(dyno.sub(splatCenter, viewOrigin));\n let rgb = evaluatePackedSH({\n coord: pagedSplatTexCoord(index),\n viewDir,\n numSh,\n sh1Texture: this.sh1Texture,\n sh2Texture: this.sh2Texture,\n sh3Texture: this.sh3Texture,\n shMax,\n }).rgb;\n rgb = dyno.add(rgb, dyno.splitGsplat(gsplat).outputs.rgb);\n gsplat = dyno.combineGsplat({ gsplat, rgb });\n return { gsplat };\n },\n );\n\n this.readSplatExt = dyno.dynoBlock(\n { index: \"int\" },\n { gsplat: dyno.Gsplat },\n ({ index }) => {\n return new dyno.Dyno({\n inTypes: {\n index: \"int\",\n extTexture1: \"usampler2DArray\",\n extTexture2: \"usampler2DArray\",\n },\n outTypes: { gsplat: dyno.Gsplat },\n inputs: {\n index,\n extTexture1: this.packedTexture,\n extTexture2: this.extTexture,\n },\n globals: () => [dyno.defineGsplat],\n statements: ({ inputs, outputs }) =>\n dyno.unindentLines(`\n int index = ${inputs.index};\n ivec3 splatCoord = ivec3(index & 255, (index >> 8) & 255, index >> 16);\n uvec4 ext1 = texelFetch(${inputs.extTexture1}, splatCoord, 0);\n float alpha = unpackSplatExtAlpha(ext1);\n if (alpha == 0.0) {\n return;\n }\n\n uvec4 ext2 = texelFetch(${inputs.extTexture2}, splatCoord, 0);\n unpackSplatExt(ext1, ext2, ${outputs.gsplat}.center, ${outputs.gsplat}.scales, ${outputs.gsplat}.quaternion, ${outputs.gsplat}.rgba);\n if (all(equal(${outputs.gsplat}.scales, vec3(0.0, 0.0, 0.0)))) {\n return;\n }\n\n ${outputs.gsplat}.index = index;\n ${outputs.gsplat}.flags = GSPLAT_FLAG_ACTIVE;\n `),\n }).outputs;\n },\n );\n\n this.readSplatExtDir = dyno.dynoBlock(\n {\n index: \"int\",\n viewOrigin: \"vec3\",\n numSh: \"int\",\n },\n { gsplat: dyno.Gsplat },\n ({ index, viewOrigin, numSh }) => {\n if (!index || !viewOrigin || !numSh) {\n throw new Error(\"index and viewOrigin are required\");\n }\n let gsplat = this.readSplatExt.apply({ index }).gsplat;\n\n const splatCenter = dyno.splitGsplat(gsplat).outputs.center;\n const viewDir = dyno.normalize(dyno.sub(splatCenter, viewOrigin));\n let rgb = evaluateExtSH({\n coord: pagedSplatTexCoord(index),\n viewDir,\n numSh,\n sh1Texture: this.sh1Texture,\n sh2Texture: this.sh2Texture,\n sh3TextureA: this.sh3Texture,\n sh3TextureB: this.sh3TextureB,\n }).rgb;\n rgb = dyno.add(rgb, dyno.splitGsplat(gsplat).outputs.rgb);\n gsplat = dyno.combineGsplat({ gsplat, rgb });\n return { gsplat };\n },\n );\n }\n\n dispose() {\n this.autoDrive = false;\n this.numFetchers = 0;\n\n this.packedTexture.value.dispose();\n if (this.extTexture.value !== SplatPager.emptyExtTexture) {\n this.extTexture.value.dispose();\n }\n\n if (!this.extSplats) {\n if (this.sh1Texture.value !== SplatPager.emptySh1Texture) {\n this.sh1Texture.value.dispose();\n }\n if (this.sh2Texture.value !== SplatPager.emptySh2Texture) {\n this.sh2Texture.value.dispose();\n }\n if (this.sh3Texture.value !== SplatPager.emptySh3Texture) {\n this.sh3Texture.value.dispose();\n }\n } else {\n if (this.sh1Texture.value !== SplatPager.emptyExtSh1Texture) {\n this.sh1Texture.value.dispose();\n }\n if (this.sh2Texture.value !== SplatPager.emptyExtSh2Texture) {\n this.sh2Texture.value.dispose();\n }\n if (this.sh3Texture.value !== SplatPager.emptyExtSh3Texture) {\n this.sh3Texture.value.dispose();\n }\n if (this.sh3TextureB.value !== SplatPager.emptyExtSh3BTexture) {\n this.sh3TextureB.value.dispose();\n }\n }\n }\n\n private ensureShTextures(numSh: number) {\n this.curSh = Math.max(this.curSh, numSh);\n if (!this.extSplats) {\n if (\n this.curSh >= 1 &&\n this.sh1Texture.value === SplatPager.emptySh1Texture\n ) {\n this.sh1Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 2),\n 256,\n 256,\n this.maxPages,\n THREE.RGIntegerFormat,\n THREE.UnsignedIntType,\n \"RG32UI\",\n );\n }\n } else {\n if (\n this.curSh >= 1 &&\n this.sh1Texture.value === SplatPager.emptyExtSh1Texture\n ) {\n this.sh1Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n }\n if (\n this.curSh >= 2 &&\n this.sh2Texture.value ===\n (!this.extSplats\n ? SplatPager.emptySh2Texture\n : SplatPager.emptyExtSh2Texture)\n ) {\n this.sh2Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n if (!this.extSplats) {\n if (\n this.curSh >= 3 &&\n this.sh3Texture.value === SplatPager.emptySh3Texture\n ) {\n this.sh3Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n } else {\n if (this.curSh >= 3) {\n if (this.sh3Texture.value === SplatPager.emptyExtSh3Texture) {\n this.sh3Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n if (this.sh3TextureB.value === SplatPager.emptyExtSh3BTexture) {\n this.sh3TextureB.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n }\n }\n }\n\n private allocatePage(): number | undefined {\n return this.pageFreelist.shift();\n }\n\n private freePage(page: number) {\n this.pageFreelist.push(page);\n }\n\n getSplatsChunk(splats: PagedSplats, chunk: number) {\n const chunks = this.splatsChunkToPage.get(splats);\n if (!chunks) {\n return undefined;\n }\n return chunks[chunk];\n }\n\n private insertSplatsChunkPage(\n splats: PagedSplats,\n chunk: number,\n page: number,\n now: number,\n ) {\n if (!this.splatsChunkToPage.has(splats)) {\n this.splatsChunkToPage.set(splats, []);\n }\n const chunks = this.splatsChunkToPage.get(splats);\n if (!chunks) {\n throw new Error(\"impossible\");\n }\n if (chunk >= chunks.length) {\n chunks.length = chunk + 1;\n }\n const pageLru = { page, lru: now };\n chunks[chunk] = pageLru;\n this.pageLru.add(pageLru);\n\n this.pageToSplatsChunk[page] = { splats, chunk, time: performance.now() };\n return this.pageToSplatsChunk[page];\n }\n\n private removeSplatsChunkPage(\n splats: PagedSplats,\n chunk: number,\n page: number,\n ) {\n const chunks = this.splatsChunkToPage.get(splats);\n if (!chunks) {\n throw new Error(\"impossible\");\n }\n\n const pageLru = chunks[chunk];\n if (!pageLru) {\n throw new Error(\n `pageLru not found for splats: ${splats}, chunk: ${chunk}, page: ${page}`,\n );\n }\n this.pageLru.delete(pageLru);\n\n chunks[chunk] = undefined;\n\n while (chunks.length > 0 && chunks[chunks.length - 1] === undefined) {\n chunks.pop();\n }\n if (chunks.length === 0) {\n this.splatsChunkToPage.delete(splats);\n }\n\n this.pageToSplatsChunk[page] = undefined;\n while (\n this.pageToSplatsChunk.length > 0 &&\n this.pageToSplatsChunk[this.pageToSplatsChunk.length - 1] === undefined\n ) {\n this.pageToSplatsChunk.pop();\n }\n }\n\n private uploadPage(\n page: number,\n packedArray: Uint32Array,\n extra: Record,\n extArray?: Uint32Array,\n ) {\n const pageBase = page * this.pageSplats;\n\n // const gl = this.renderer.getContext() as WebGL2RenderingContext;\n\n // this.renderer.state.activeTexture(gl.TEXTURE0);\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.packedTexture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RGBA_INTEGER,\n // gl.UNSIGNED_INT,\n // packedArray,\n // );\n\n const array = this.packedTexture.value.image.data;\n array\n .subarray(pageBase * 4, pageBase * 4 + packedArray.length)\n .set(packedArray);\n this.packedTexture.value.addLayerUpdate(page);\n this.packedTexture.value.needsUpdate = true;\n\n if (extArray) {\n const array = this.extTexture.value.image.data;\n array\n .subarray(pageBase * 4, pageBase * 4 + extArray.length)\n .set(extArray);\n this.extTexture.value.addLayerUpdate(page);\n this.extTexture.value.needsUpdate = true;\n }\n\n const numSh = this.extSplats\n ? extra.sh3a && extra.sh3b\n ? 3\n : extra.sh2\n ? 2\n : extra.sh1\n ? 1\n : 0\n : extra.sh3\n ? 3\n : extra.sh2\n ? 2\n : extra.sh1\n ? 1\n : 0;\n this.ensureShTextures(numSh);\n\n if (!this.extSplats) {\n if (this.sh1Texture.value !== SplatPager.emptySh1Texture && extra.sh1) {\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.sh1Texture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RG_INTEGER,\n // gl.UNSIGNED_INT,\n // extra.sh1 as Uint32Array,\n // );\n const sh1 = extra.sh1 as Uint32Array;\n const array = this.sh1Texture.value.image.data;\n array.subarray(pageBase * 2, pageBase * 2 + sh1.length).set(sh1);\n this.sh1Texture.value.addLayerUpdate(page);\n this.sh1Texture.value.needsUpdate = true;\n }\n } else {\n if (\n this.sh1Texture.value !== SplatPager.emptyExtSh1Texture &&\n extra.sh1\n ) {\n const sh1 = extra.sh1 as Uint32Array;\n const array = this.sh1Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh1.length).set(sh1);\n this.sh1Texture.value.addLayerUpdate(page);\n this.sh1Texture.value.needsUpdate = true;\n }\n }\n\n if (this.sh2Texture.value !== SplatPager.emptySh2Texture && extra.sh2) {\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.sh2Texture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RGBA_INTEGER,\n // gl.UNSIGNED_INT,\n // extra.sh2 as Uint32Array,\n // );\n const sh2 = extra.sh2 as Uint32Array;\n const array = this.sh2Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh2.length).set(sh2);\n this.sh2Texture.value.addLayerUpdate(page);\n this.sh2Texture.value.needsUpdate = true;\n }\n\n if (!this.extSplats) {\n if (this.sh3Texture.value !== SplatPager.emptySh3Texture && extra.sh3) {\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.sh3Texture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RGBA_INTEGER,\n // gl.UNSIGNED_INT,\n // extra.sh3 as Uint32Array,\n // );\n const sh3 = extra.sh3 as Uint32Array;\n const array = this.sh3Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh3.length).set(sh3);\n this.sh3Texture.value.addLayerUpdate(page);\n this.sh3Texture.value.needsUpdate = true;\n }\n } else {\n if (\n this.sh3Texture.value !== SplatPager.emptyExtSh3Texture &&\n extra.sh3a\n ) {\n const sh3a = extra.sh3a as Uint32Array;\n const array = this.sh3Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh3a.length).set(sh3a);\n this.sh3Texture.value.addLayerUpdate(page);\n this.sh3Texture.value.needsUpdate = true;\n }\n if (\n this.sh3TextureB.value !== SplatPager.emptyExtSh3BTexture &&\n extra.sh3b\n ) {\n const sh3b = extra.sh3b as Uint32Array;\n const array = this.sh3TextureB.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh3b.length).set(sh3b);\n this.sh3TextureB.value.addLayerUpdate(page);\n this.sh3TextureB.value.needsUpdate = true;\n }\n }\n\n // this.renderer.state.bindTexture(gl.TEXTURE_2D_ARRAY, null);\n }\n\n private getGlTexture(texture: THREE.Texture): WebGLTexture {\n return getGlTexture(this.renderer, texture);\n }\n\n private newUint32ArrayTexture(\n data: Uint32Array | null,\n width: number,\n height: number,\n depth: number,\n format: THREE.AnyPixelFormat,\n type: THREE.TextureDataType,\n internalFormat: THREE.PixelFormatGPU,\n ): THREE.DataArrayTexture {\n const texture = new THREE.DataArrayTexture(data, width, height, depth);\n texture.format = format;\n texture.type = type;\n texture.internalFormat = internalFormat;\n texture.needsUpdate = true;\n this.renderer.initTexture(texture);\n return texture;\n }\n\n driveFetchers() {\n const needed = [];\n const overflow = [];\n let numPages = 0;\n\n for (const { splats, chunk } of this.fetchPriority) {\n const pageLru = this.getSplatsChunk(splats, chunk);\n if (pageLru) {\n if (numPages >= this.maxPages) {\n overflow.push(pageLru);\n } else {\n needed.push(pageLru);\n }\n numPages += 1;\n continue;\n }\n\n if (\n this.fetched.some(\n ({ splats: s, chunk: c }) => splats === s && chunk === c,\n ) ||\n this.fetchers.some(\n ({ splats: s, chunk: c }) => splats === s && chunk === c,\n )\n ) {\n numPages += 1;\n continue;\n }\n\n if (numPages < this.maxPages && this.fetchers.length < this.numFetchers) {\n numPages += 1;\n const promise = splats\n .fetchDecodeChunk(chunk)\n .then(\n async (data) => {\n // Place data in ready queue and remove self from active fetchers list\n this.fetched.push({ splats, chunk, data });\n if (this.fetchPause > 0) {\n await new Promise((resolve) =>\n setTimeout(resolve, this.fetchPause),\n );\n }\n },\n async (error) => {\n console.warn(error);\n const backoff = 250 + 500 * Math.random();\n await new Promise((resolve) => setTimeout(resolve, backoff));\n },\n )\n .finally(() => {\n this.fetchers = this.fetchers.filter(\n ({ splats: s, chunk: c }) => splats !== s || chunk !== c,\n );\n this.processFetched();\n });\n // Add self to active fetchers list\n this.fetchers.push({ splats, chunk, promise });\n\n promise.then((data) => {\n if (this.autoDrive) {\n this.driveFetchers();\n }\n });\n }\n }\n\n // Update LRU ordering in reverse priority order\n const now = performance.now();\n\n for (const pageLru of overflow.reverse()) {\n pageLru.lru = now;\n this.pageLru.delete(pageLru);\n this.pageLru.add(pageLru);\n }\n\n // Create set of pages not needed\n const extraPages = new Set(this.pageLru);\n for (const pageLru of needed.reverse()) {\n extraPages.delete(pageLru);\n\n pageLru.lru = now;\n this.pageLru.delete(pageLru);\n this.pageLru.add(pageLru);\n }\n this.freeablePages = Array.from(extraPages).map(({ page }) => page);\n }\n\n private allocateFreeable(): number | undefined {\n const page = this.freeablePages.shift();\n if (page === undefined) {\n // No freeable pages available\n return undefined;\n }\n\n const splatsChunk = this.pageToSplatsChunk[page];\n if (!splatsChunk) {\n throw new Error(`splatsChunk not found for page: ${page}`);\n }\n\n const { splats, chunk } = splatsChunk;\n this.removeSplatsChunkPage(splats, chunk, page);\n this.lodTreeUpdates.push({\n splats,\n page,\n chunk,\n numSplats: this.pageSplats,\n });\n return page;\n }\n\n private processFetched() {\n const now = performance.now();\n while (true) {\n const fetched = this.fetched.shift();\n if (!fetched) {\n break;\n }\n const { splats, chunk, data } = fetched;\n\n let page = this.allocatePage();\n if (page === undefined) {\n page = this.allocateFreeable();\n if (page === undefined) {\n // No pages available, stop for now\n return;\n }\n }\n\n this.insertSplatsChunkPage(splats, chunk, page, now);\n const { numSplats, extra } = data;\n this.lodTreeUpdates.push({\n splats,\n page,\n chunk,\n numSplats,\n lodTree: extra.lodTree as Uint32Array,\n });\n\n if (!this.extSplats) {\n const packedArray = (data as PackedResult).packedArray;\n this.newUploads.push({ page, numSplats, packedArray, extra });\n } else {\n const extArrays = (data as ExtResult).extArrays;\n const packedArray = extArrays[0];\n const extArray = extArrays[1];\n this.newUploads.push({ page, numSplats, packedArray, extArray, extra });\n }\n }\n }\n\n processUploads() {\n while (true) {\n const upload = this.readyUploads.shift();\n if (!upload) {\n break;\n }\n const { page, numSplats, packedArray, extArray, extra } = upload;\n this.uploadPage(page, packedArray, extra, extArray);\n }\n }\n\n consumeLodTreeUpdates() {\n const updates = this.lodTreeUpdates;\n this.lodTreeUpdates = [];\n\n this.readyUploads.push(...this.newUploads);\n this.newUploads = [];\n return updates;\n }\n\n static emptyUint32x4 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyUint32x2 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 2);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RG32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyIndicesTexture = (() => {\n const emptyArray = new Uint32Array(4096 * 4);\n const texture = new THREE.DataTexture(emptyArray, 4096, 1);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyPackedTexture = this.emptyUint32x4;\n static emptyExtTexture = this.emptyUint32x4;\n static emptySh1Texture = this.emptyUint32x2;\n static emptySh2Texture = this.emptyUint32x4;\n static emptySh3Texture = this.emptyUint32x4;\n static emptyExtSh1Texture = this.emptyUint32x4;\n static emptyExtSh2Texture = this.emptyUint32x4;\n static emptyExtSh3Texture = this.emptyUint32x4;\n static emptyExtSh3BTexture = this.emptyUint32x4;\n}\n\nfunction getGlTexture(\n renderer: THREE.WebGLRenderer,\n texture: THREE.Texture,\n): WebGLTexture {\n if (!renderer.properties.has(texture)) {\n throw new Error(\"texture not found\");\n }\n const props = renderer.properties.get(texture) as {\n __webglTexture: WebGLTexture;\n };\n const glTexture = props.__webglTexture;\n if (!glTexture) {\n throw new Error(\"texture not found\");\n }\n return glTexture;\n}\n\nconst wasmInitialized = init_wasm();\n\nasync function fetchRange({\n url,\n requestHeader,\n withCredentials,\n offset,\n bytes,\n}: {\n url: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n offset?: number;\n bytes?: number;\n}): Promise {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : undefined,\n credentials: withCredentials ? \"include\" : \"same-origin\",\n });\n if (offset !== undefined && bytes !== undefined) {\n request.headers.set(\"Range\", `bytes=${offset}-${offset + bytes - 1}`);\n }\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n return new Uint8Array(await response.arrayBuffer());\n}\n","import * as THREE from \"three\";\n\nimport init_wasm, {\n get_raycast_buffer,\n get_raycast_buffer2,\n raycast_ext_buffers,\n raycast_packed_buffer,\n} from \"spark-rs\";\nimport { ExtSplats } from \"./ExtSplats\";\nimport { OldSparkRenderer } from \"./OldSparkRenderer\";\nimport { PackedSplats } from \"./PackedSplats\";\nimport { type RgbaArray, TRgbaArray } from \"./RgbaArray\";\nimport { SparkRenderer } from \"./SparkRenderer\";\nimport { SplatEdit, SplatEditSdf, SplatEdits } from \"./SplatEdit\";\nimport {\n type CovSplatModifier,\n CovSplatTransformer,\n type FrameUpdateContext,\n type GsplatModifier,\n SplatGenerator,\n SplatTransformer,\n} from \"./SplatGenerator\";\nimport { PagedSplats, SplatPager } from \"./SplatPager\";\nimport type { SplatSkinning } from \"./SplatSkinning\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n type SplatEncoding,\n type SplatFileType,\n} from \"./defines\";\nimport {\n CovSplat,\n Dyno,\n DynoBool,\n DynoFloat,\n DynoInt,\n DynoUsampler2D,\n type DynoVal,\n DynoVec4,\n Gsplat,\n combineCovSplat,\n combineGsplat,\n defineGsplat,\n dyno,\n dynoBlock,\n gsplatToCovSplat,\n mul,\n splitCovSplat,\n splitGsplat,\n unindentLines,\n} from \"./dyno\";\n\nexport type SplatMeshOptions = {\n // URL to fetch a Gaussian splat file from(supports .ply, .splat, .ksplat,\n // .spz formats). (default: undefined)\n url?: string;\n // Raw bytes of a Gaussian splat file to decode directly instead of fetching\n // from URL. (default: undefined)\n fileBytes?: Uint8Array | ArrayBuffer;\n // Override the file type detection for formats that can't be reliably\n // auto-detected (.splat, .ksplat). (default: undefined auto-detects other\n // formats from file contents)\n fileType?: SplatFileType;\n // File name to use for type detection. (default: undefined)\n fileName?: string;\n // Stream to read the Gaussian splat file from. (default: undefined)\n stream?: ReadableStream;\n // Length of the stream in bytes. (default: undefined)\n streamLength?: number;\n // Use an existing PackedSplats object as the source instead of loading from\n // a file. Can be used to share a collection of Gsplats among multiple SplatMeshes\n // (default: undefined creates a new empty PackedSplats or decoded from a\n // data source above)\n packedSplats?: PackedSplats;\n // Use an existing SplatSource object as the source instead of loading from file.\n splats?: SplatSource;\n // Reserve space for at least this many splats when constructing the mesh\n // initially. (default: determined by file)\n maxSplats?: number;\n // Callback function to programmatically create splats at initialization\n // in provided PackedSplats. (default: undefined)\n constructSplats?: (splats: PackedSplats) => Promise | void;\n // Callback function called while downloading and initializing (default: undefined)\n onProgress?: (event: ProgressEvent) => void;\n // Callback function that is called when mesh initialization is complete.\n // (default: undefined)\n onLoad?: (mesh: SplatMesh) => Promise | void;\n // Controls whether SplatEdits have any effect on this mesh. (default: true)\n editable?: boolean;\n // Controls whether SplatMesh participates in Three.js raycasting (default: true)\n raycastable?: boolean;\n // Minimum opacity for raycasting splats. (default: 0.2)\n minRaycastOpacity?: number;\n // Callback function that is called every frame to update the mesh.\n // Call mesh.updateVersion() if splats need to be regenerated due to some change.\n // Calling updateVersion() is not necessary for object transformations, recoloring,\n // or opacity adjustments as these are auto-detected. (default: undefined)\n onFrame?: ({\n mesh,\n time,\n deltaTime,\n }: { mesh: SplatMesh; time: number; deltaTime: number }) => void;\n // Gsplat modifier to apply in object-space before any transformations.\n // A GsplatModifier is a dyno shader-graph block that transforms an input\n // gsplat: DynoVal to an output gsplat: DynoVal with gsplat.center\n // coordinate in object-space. (default: undefined)\n objectModifier?: GsplatModifier;\n objectModifiers?: GsplatModifier[];\n // Gsplat modifier to apply in world-space after transformations.\n // (default: undefined)\n worldModifier?: GsplatModifier;\n worldModifiers?: GsplatModifier[];\n covObjectModifiers?: CovSplatModifier[];\n covWorldModifiers?: CovSplatModifier[];\n // Override the default splat encoding ranges for the PackedSplats.\n // (default: undefined)\n splatEncoding?: SplatEncoding;\n // Set to true to load/use \"extended splat\" encoding with float32 x/y/z\n extSplats?: boolean | ExtSplats;\n // Set to true to output covariance splats for anisotropic scaling\n covSplats?: boolean;\n // Enable LOD. If a number is provided, it will be used as LoD level base,\n // otherwise the default 1.5 is used. When loading a file without pre-computed\n // LoD it will use the \"quick lod\" algorithm to generate one on-the-fly with\n // the selected LoD level base. (default: undefined=false)\n lod?: boolean | \"quality\";\n // Only create LoD if the input splat acount is above this (default: undefined=0)\n lodAbove?: number;\n // Keep the original PackedSplats data before creating LoD version. (default: false)\n nonLod?: boolean;\n // Force enable/disable LoD (default: enabled iff packedSplats.lodSplats is not null)\n enableLod?: boolean;\n // LoD scale to apply @default 1.0\n lodScale?: number;\n // Foveation scale to apply behind viewer\n // (default: 1.0)\n behindFoveate?: number;\n // Full-width angle in degrees of fixed foveation cone along the view direction\n // with perfection foveation=1.0\n // (default: 0.0)\n coneFov0?: number;\n // Full-width angle in degrees of fixed foveation cone along the view direction. 0.0=disable\n // (default: 0.0)\n coneFov?: number;\n // Foveation scale to apply at the edge of the cone\n // (default: 1.0)\n coneFoveate?: number;\n paged?: boolean | PagedSplats | SplatPager;\n};\n\nexport type SplatMeshContext = {\n transform: SplatTransformer;\n viewToWorld: SplatTransformer;\n worldToView: SplatTransformer;\n viewToObject: SplatTransformer;\n covTransform: CovSplatTransformer;\n covViewToWorld: CovSplatTransformer;\n covWorldToView: CovSplatTransformer;\n covViewToObject: CovSplatTransformer;\n recolor: DynoVec4;\n time: DynoFloat;\n deltaTime: DynoFloat;\n numSplats: DynoInt;\n splats: SplatSource;\n enableLod: DynoBool;\n lodIndices: DynoUsampler2D<\"lodIndices\", THREE.DataTexture>;\n};\n\nexport interface SplatSource {\n prepareFetchSplat(): void;\n dispose(): void;\n\n getNumSplats(): number;\n hasRgbDir(): boolean;\n getNumSh(): number;\n setMaxSh(maxSh: number): void;\n\n fetchSplat({\n index,\n viewOrigin,\n }: { index: DynoVal<\"int\">; viewOrigin?: DynoVal<\"vec3\"> }): DynoVal<\n typeof Gsplat\n >;\n}\n\nexport class EmptySplatSource implements SplatSource {\n fetchDyno = new Dyno({\n inTypes: {},\n outTypes: { gsplat: Gsplat },\n globals: () => [defineGsplat],\n statements: ({ outputs }) =>\n unindentLines(`\n ${outputs.gsplat}.flags = 0u;\n return;\n `),\n }).outputs.gsplat;\n\n prepareFetchSplat() {}\n dispose() {}\n\n getNumSplats() {\n return 0;\n }\n hasRgbDir() {\n return false;\n }\n getNumSh() {\n return 0;\n }\n setMaxSh(maxSh: number) {}\n\n fetchSplat({ index }: { index: DynoVal<\"int\"> }): DynoVal {\n return this.fetchDyno;\n }\n}\n\nexport class SplatMesh extends SplatGenerator {\n // A Promise you can await to ensure fetching, parsing,\n // and initialization has completed\n initialized: Promise;\n // A boolean indicating whether initialization is complete\n isInitialized = false;\n\n // If you modify packedSplats you should set\n // splatMesh.packedSplats.needsUpdate = true to signal to Three.js that it\n // should re-upload the data to the underlying texture. Use this sparingly with\n // objects with smaller Gsplat counts as it requires a CPU-GPU data transfer for\n // each frame. Thousands to tens of thousands of Gsplats is fine. (See hands.ts\n // for an example of rendering \"Gsplat hands\" in WebXR using this technique.)\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n covSplats: boolean;\n splats?: SplatSource;\n lastSplats?: SplatSource;\n paged?: PagedSplats;\n\n // A THREE.Color that can be used to tint all splats in the mesh.\n // (default: new THREE.Color(1, 1, 1))\n recolor: THREE.Color = new THREE.Color(1, 1, 1);\n // Global opacity multiplier for all splats in the mesh. (default: 1)\n opacity = 1;\n\n // A SplatMeshContext consisting of useful scene and object dyno uniforms that can\n // be used to in the Gsplat processing pipeline, for example via objectModifier and\n // worldModifier. (created on construction)\n context: SplatMeshContext;\n onFrame?: ({\n mesh,\n time,\n deltaTime,\n }: { mesh: SplatMesh; time: number; deltaTime: number }) => void;\n generatorDirty = true;\n\n objectModifiers?: GsplatModifier[];\n worldModifiers?: GsplatModifier[];\n covObjectModifiers?: CovSplatModifier[];\n covWorldModifiers?: CovSplatModifier[];\n // Set to true to have the viewToObject property in context be updated each frame.\n // If the mesh has extra.sh1 (first order spherical harmonics directional lighting)\n // this property will always be updated. (default: false)\n enableViewToObject = false;\n // Set to true to have context.viewToWorld updated each frame. (default: false)\n enableViewToWorld = false;\n // Set to true to have context.worldToView updated each frame. (default: false)\n enableWorldToView = false;\n\n // Optional SplatSkinning instance for animating splats with dual-quaternion\n // skeletal animation. (default: null)\n skinning: SplatSkinning | null = null;\n\n // Optional list of SplatEdits to apply to the mesh. If null, any SplatEdit\n // children in the scene graph will be added automatically. (default: null)\n edits: SplatEdit[] | null = null;\n editable: boolean;\n raycastable: boolean;\n minRaycastOpacity: number;\n raycastIndices?: { numSplats: number; indices: Uint32Array };\n // Compiled SplatEdits for applying SDF edits to splat RGBA + centers\n rgbaDisplaceEdits: SplatEdits | null = null;\n // Optional RgbaArray to overwrite splat RGBA values with custom values.\n // Useful for \"baking\" RGB and opacity edits into the SplatMesh. (default: null)\n splatRgba: RgbaArray | null = null;\n\n // Maximum Spherical Harmonics level to use. Call updateGenerator()\n // after changing. (default: 3)\n maxSh = 3;\n\n enableLod?: boolean;\n lodScale: number;\n behindFoveate?: number;\n coneFov0?: number;\n coneFov?: number;\n coneFoveate?: number;\n\n showLodPage?: number;\n showLodPageDyno = new DynoInt({ value: 0 });\n\n constructor(options: SplatMeshOptions = {}) {\n super({\n update: (context) => this.update(context),\n });\n\n if (options.splats) {\n this.splats = options.splats;\n this.numSplats = options.splats.getNumSplats();\n } else if (options.paged) {\n if (options.extSplats) {\n console.warn(\n \"To set extSplats with the paged option, set SparkRenderer.pagedExtSplats\",\n );\n }\n const rootUrl = options.url ?? \"\";\n if (options.paged === true) {\n this.paged = new PagedSplats({ rootUrl });\n } else if (options.paged instanceof PagedSplats) {\n this.paged = options.paged;\n } else if (options.paged instanceof SplatPager) {\n this.paged = new PagedSplats({ rootUrl, pager: options.paged });\n } else {\n throw new Error(\"Invalid paged option\");\n }\n this.splats = this.paged;\n } else if (options.extSplats) {\n this.extSplats =\n options.extSplats instanceof ExtSplats\n ? options.extSplats\n : new ExtSplats();\n options.extSplats = this.extSplats;\n this.numSplats = this.extSplats.numSplats;\n this.splats = this.extSplats;\n } else if (options.packedSplats) {\n this.packedSplats = options.packedSplats;\n this.packedSplats.splatEncoding = options.splatEncoding ?? {\n ...DEFAULT_SPLAT_ENCODING,\n };\n this.splats = this.packedSplats;\n } else {\n this.packedSplats = new PackedSplats();\n }\n\n this.editable = options.editable ?? true;\n this.raycastable = options.raycastable ?? true;\n this.minRaycastOpacity = options.minRaycastOpacity ?? 0.2;\n this.onFrame = options.onFrame;\n\n this.context = {\n transform: new SplatTransformer(),\n viewToWorld: new SplatTransformer(),\n worldToView: new SplatTransformer(),\n viewToObject: new SplatTransformer(),\n covTransform: new CovSplatTransformer(),\n covViewToWorld: new CovSplatTransformer(),\n covWorldToView: new CovSplatTransformer(),\n covViewToObject: new CovSplatTransformer(),\n recolor: new DynoVec4({\n value: new THREE.Vector4().setScalar(Number.NEGATIVE_INFINITY),\n }),\n time: new DynoFloat({ value: 0 }),\n deltaTime: new DynoFloat({ value: 0 }),\n numSplats: new DynoInt({ value: 0 }),\n splats: new EmptySplatSource(),\n enableLod: new DynoBool({ value: false }),\n lodIndices: new DynoUsampler2D({\n value: emptyLodIndices,\n key: \"lodIndices\",\n }),\n };\n\n this.covSplats = options.covSplats ?? false;\n if (this.covSplats && !this.extSplats) {\n throw new Error(\"CovSplats requires ExtSplats\");\n }\n\n this.objectModifiers = options.objectModifier\n ? [options.objectModifier]\n : undefined;\n this.worldModifiers = options.worldModifier\n ? [options.worldModifier]\n : undefined;\n\n if (options.objectModifiers) {\n this.objectModifiers = options.objectModifiers;\n }\n if (options.worldModifiers) {\n this.worldModifiers = options.worldModifiers;\n }\n\n this.enableLod = options.enableLod;\n this.lodScale = options.lodScale ?? 1.0;\n this.behindFoveate = options.behindFoveate;\n this.coneFov0 = options.coneFov0;\n this.coneFov = options.coneFov;\n this.coneFoveate = options.coneFoveate;\n\n this.updateGenerator();\n\n if (\n options.url ||\n options.fileBytes ||\n options.stream ||\n options.constructSplats ||\n (options.packedSplats && !options.packedSplats.isInitialized) ||\n (this.extSplats && !this.extSplats.isInitialized)\n ) {\n // We need to initialize asynchronously given the options\n this.initialized = this.asyncInitialize(options).then(async () => {\n this.updateGenerator();\n\n this.isInitialized = true;\n if (options.onLoad) {\n const maybePromise = options.onLoad(this);\n if (maybePromise instanceof Promise) {\n await maybePromise;\n }\n }\n return this;\n });\n } else {\n this.isInitialized = true;\n this.initialized = Promise.resolve(this);\n if (options.onLoad) {\n const maybePromise = options.onLoad(this);\n // If onLoad returns a promise, wait for it to complete\n if (maybePromise instanceof Promise) {\n this.initialized = maybePromise.then(() => this);\n }\n }\n }\n\n // this.add(createRendererDetectionMesh());\n }\n\n async asyncInitialize(options: SplatMeshOptions) {\n const {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n maxSplats,\n constructSplats,\n onProgress,\n splatEncoding,\n lod,\n nonLod,\n lodAbove,\n } = options;\n if (this.packedSplats) {\n if (url || fileBytes || stream || constructSplats) {\n const packedSplatsOptions = {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n maxSplats,\n construct: constructSplats,\n onProgress,\n splatEncoding,\n lod,\n nonLod,\n lodAbove,\n };\n this.packedSplats.reinitialize(packedSplatsOptions);\n }\n await this.packedSplats.initialized;\n this.splats = this.packedSplats;\n } else if (this.extSplats) {\n if (url || fileBytes || stream || constructSplats) {\n const construct = constructSplats as\n | ((splats: ExtSplats) => Promise)\n | undefined;\n this.extSplats.reinitialize({\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n maxSplats,\n construct,\n onProgress,\n lod,\n nonLod,\n lodAbove,\n });\n await this.extSplats.initialized;\n this.splats = this.extSplats;\n }\n }\n\n if (this.splats) {\n this.numSplats = this.splats.getNumSplats();\n this.updateGenerator();\n }\n }\n\n static staticInitialized = SplatMesh.staticInitialize();\n static isStaticInitialized = false;\n\n static dynoTime = new DynoFloat({ value: 0 });\n\n static async staticInitialize() {\n await init_wasm();\n SplatMesh.isStaticInitialized = true;\n }\n\n // Creates a new Gsplat with the provided parameters (all values in \"float\" space,\n // i.e. 0-1 for opacity and color) and adds it to the end of the packedSplats,\n // increasing numSplats by 1. If necessary, reallocates the buffer with an exponential\n // doubling strategy to fit the new data, so it's fairly efficient to just\n // pushSplat(...) each Gsplat you want to create in a loop.\n pushSplat(\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n if (this.packedSplats) {\n this.packedSplats.pushSplat(center, scales, quaternion, opacity, color);\n } else if (this.extSplats) {\n this.extSplats.pushSplat(center, scales, quaternion, opacity, color);\n }\n }\n\n // This method iterates over all Gsplats in this instance's packedSplats,\n // invoking the provided callback with index: number in 0..=(this.numSplats-1) and\n // center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion,\n // opacity: number (0..1), and color: THREE.Color (rgb values in 0..1).\n // Note that the objects passed in as center etc. are the same for every callback\n // invocation: these objects are reused for efficiency. Changing these values has\n // no effect as they are decoded/unpacked copies of the underlying data. To update\n // the packedSplats, call .packedSplats.setSplat(index, center, scales,\n // quaternion, opacity, color).\n forEachSplat(\n callback: (\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => void,\n ) {\n if (this.packedSplats) {\n this.packedSplats.forEachSplat(callback);\n } else if (this.extSplats) {\n this.extSplats.forEachSplat(callback);\n }\n }\n\n // Call this when you are finished with the SplatMesh and want to free\n // any buffers it holds (via packedSplats).\n dispose() {\n if (\n this.splats &&\n this.splats !== this.packedSplats &&\n this.splats !== this.extSplats\n ) {\n this.splats.dispose();\n this.splats = undefined;\n }\n if (this.packedSplats) {\n this.packedSplats.dispose();\n this.packedSplats = undefined;\n }\n if (this.extSplats) {\n this.extSplats.dispose();\n this.extSplats = undefined;\n }\n }\n\n // Returns axis-aligned bounding box of the SplatMesh. If centers_only is true,\n // only the centers of the splats are used to compute the bounding box.\n // IMPORTANT: This should only be called after the SplatMesh is initialized.\n getBoundingBox(centers_only = true) {\n if (!this.initialized) {\n throw new Error(\n \"Cannot get bounding box before SplatMesh is initialized\",\n );\n }\n if (!this.packedSplats && !this.extSplats) {\n throw new Error(\"Bounding box requires PackedSplats or ExtSplats\");\n }\n const minVec = new THREE.Vector3(\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n );\n const maxVec = new THREE.Vector3(\n Number.NEGATIVE_INFINITY,\n Number.NEGATIVE_INFINITY,\n Number.NEGATIVE_INFINITY,\n );\n const corners = new THREE.Vector3();\n const signs = [-1, 1];\n\n function callback(\n _index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n _opacity: number,\n _color: THREE.Color,\n ) {\n if (centers_only) {\n minVec.min(center);\n maxVec.max(center);\n } else {\n // Get the 8 corners of the AABB in local space\n for (const x of signs) {\n for (const y of signs) {\n for (const z of signs) {\n corners.set(x * scales.x, y * scales.y, z * scales.z);\n // Transform corner by rotation and position\n corners.applyQuaternion(quaternion);\n corners.add(center);\n minVec.min(corners);\n maxVec.max(corners);\n }\n }\n }\n }\n }\n\n if (this.packedSplats) {\n this.packedSplats.forEachSplat(callback);\n } else if (this.extSplats) {\n this.extSplats.forEachSplat(callback);\n }\n const box = new THREE.Box3(minVec, maxVec);\n return box;\n }\n\n set objectModifier(modifier: GsplatModifier | undefined) {\n if (modifier) {\n this.objectModifiers = [modifier];\n } else {\n this.objectModifiers = undefined;\n }\n }\n\n set worldModifier(modifier: GsplatModifier | undefined) {\n if (modifier) {\n this.worldModifiers = [modifier];\n } else {\n this.worldModifiers = undefined;\n }\n }\n\n private constructGenerator(context: SplatMeshContext) {\n if (this.covSplats) {\n return this.constructCovGenerator(context);\n }\n\n const { transform, viewToObject, recolor } = context;\n const generator = dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n\n index = maybeLookupIndex(\n context.lodIndices,\n index,\n context.numSplats,\n context.enableLod,\n this.showLodPageDyno,\n );\n\n // Read a Gsplat from the SplatSource\n context.splats.setMaxSh(this.maxSh);\n context.splats.prepareFetchSplat();\n let gsplat = context.splats.fetchSplat({\n index,\n viewOrigin: viewToObject.translate,\n });\n\n if (this.splatRgba) {\n // Overwrite RGBA with baked RGBA values\n gsplat = maybeInjectSplatRgba(\n gsplat,\n this.splatRgba.dyno,\n index,\n context.enableLod,\n );\n }\n\n if (this.skinning) {\n // Transform according to bones + skinning weights\n gsplat = this.skinning.modify(gsplat);\n }\n\n if (this.objectModifiers) {\n // Inject object-space Gsplat modifier dyno\n for (const modifier of this.objectModifiers) {\n gsplat = modifier.apply({ gsplat }).gsplat;\n }\n }\n\n // Transform from object to world-space\n gsplat = transform.applyGsplat(gsplat);\n\n // Apply any global recoloring and opacity\n const recolorRgba = mul(recolor, splitGsplat(gsplat).outputs.rgba);\n gsplat = combineGsplat({ gsplat, rgba: recolorRgba });\n\n if (this.rgbaDisplaceEdits) {\n // Apply RGBA edit layer SDFs\n gsplat = this.rgbaDisplaceEdits.modify(gsplat);\n }\n\n if (this.worldModifiers) {\n // Inject world-space Gsplat modifier dyno\n for (const modifier of this.worldModifiers) {\n gsplat = modifier.apply({ gsplat }).gsplat;\n }\n }\n\n // We're done! Output resulting Gsplat\n return { gsplat };\n },\n );\n this.generator = generator;\n this.covGenerator = undefined;\n }\n\n constructCovGenerator(context: SplatMeshContext) {\n // console.log(\"CovSplatMesh.constructCovGenerator\");\n const { covTransform, covViewToObject, recolor } = context;\n const generator = dynoBlock(\n { index: \"int\" },\n { covsplat: CovSplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n\n index = maybeLookupIndex(\n context.lodIndices,\n index,\n context.numSplats,\n context.enableLod,\n this.showLodPageDyno,\n );\n\n // Read a Gsplat from the SplatSource\n context.splats.prepareFetchSplat();\n let gsplat = context.splats.fetchSplat({\n index,\n viewOrigin: covViewToObject.offset,\n });\n\n if (this.splatRgba) {\n // Overwrite RGBA with baked RGBA values\n gsplat = maybeInjectSplatRgba(\n gsplat,\n this.splatRgba.dyno,\n index,\n context.enableLod,\n );\n }\n\n if (this.objectModifiers) {\n // Inject object-space Gsplat modifier dyno\n for (const modifier of this.objectModifiers) {\n gsplat = modifier.apply({ gsplat }).gsplat;\n }\n }\n\n let covsplat = gsplatToCovSplat(gsplat);\n\n if (this.skinning) {\n // Transform according to bones + skinning weights\n covsplat = this.skinning.modifyCov(covsplat);\n }\n\n if (this.covObjectModifiers) {\n // Inject object-space CovSplat modifier dyno\n for (const modifier of this.covObjectModifiers) {\n covsplat = modifier.apply({ covsplat }).covsplat;\n }\n }\n\n // Transform from object to world-space\n covsplat = covTransform.applyCovSplat(covsplat);\n\n // Apply any global recoloring and opacity\n const recolorRgba = mul(recolor, splitCovSplat(covsplat).outputs.rgba);\n covsplat = combineCovSplat({ covsplat, rgba: recolorRgba });\n\n if (this.rgbaDisplaceEdits) {\n // Apply RGBA edit layer SDFs\n covsplat = this.rgbaDisplaceEdits.modifyCov(covsplat);\n }\n\n if (this.covWorldModifiers) {\n // Inject world-space CovSplat modifier dyno\n for (const modifier of this.covWorldModifiers) {\n covsplat = modifier.apply({ covsplat }).covsplat;\n }\n }\n\n // We're done! Output resulting Gsplat\n return { covsplat };\n },\n );\n this.generator = undefined;\n this.covGenerator = generator;\n }\n\n // Call this whenever something changes in the Gsplat processing pipeline,\n // for example changing maxSh or updating objectModifier or worldModifier.\n // Compiled generators are cached for efficiency and re-use when the same\n // pipeline structure emerges after successive changes.\n updateGenerator() {\n this.generatorDirty = true;\n }\n\n // This is called automatically by SparkRenderer and you should not have to\n // call it. It updates parameters for the generated pipeline and calls\n // updateGenerator() if the pipeline needs to change.\n update({\n renderer,\n time,\n deltaTime,\n viewToWorld,\n camera,\n renderSize,\n globalEdits,\n lodIndices,\n }: FrameUpdateContext) {\n this.context.time.value = time;\n this.context.deltaTime.value = deltaTime;\n SplatMesh.dynoTime.value = time;\n this.showLodPageDyno.value = this.showLodPage ?? -1;\n\n const splats = this.splats ?? this.packedSplats ?? this.extSplats;\n if (splats) {\n this.context.splats = splats;\n }\n this.numSplats = this.context.splats.getNumSplats();\n\n let updated = false;\n\n const lodSplats = this.packedSplats?.lodSplats ?? this.extSplats?.lodSplats;\n this.context.enableLod.value = lodSplats != null && lodIndices != null;\n if (this.enableLod === false) {\n this.context.enableLod.value = false;\n }\n this.context.lodIndices.value = lodIndices?.texture ?? emptyLodIndices;\n\n if (this.context.enableLod.value && lodSplats) {\n this.context.splats = lodSplats;\n this.numSplats = lodIndices?.numSplats ?? 0;\n }\n\n this.context.numSplats.value = this.numSplats;\n\n if (this.context.splats !== this.lastSplats) {\n this.lastSplats = this.context.splats;\n this.generatorDirty = true;\n }\n\n if (!this.covSplats) {\n if (this.context.transform.update(this)) {\n updated = true;\n }\n\n if (\n this.context.viewToWorld.updateFromMatrix(viewToWorld) &&\n this.enableViewToWorld\n ) {\n updated = true;\n }\n const worldToView = viewToWorld.clone().invert();\n if (\n this.context.worldToView.updateFromMatrix(worldToView) &&\n this.enableWorldToView\n ) {\n updated = true;\n }\n\n const objectToWorld = new THREE.Matrix4().compose(\n this.context.transform.translate.value,\n this.context.transform.rotate.value,\n new THREE.Vector3().setScalar(this.context.transform.scale.value),\n );\n const worldToObject = objectToWorld.invert();\n const viewToObjectMatrix = worldToObject.multiply(viewToWorld);\n if (\n this.context.viewToObject.updateFromMatrix(viewToObjectMatrix) &&\n (this.enableViewToObject || this.context.splats.hasRgbDir())\n ) {\n // Only trigger update if we have view-dependent spherical harmonics\n updated = true;\n }\n } else {\n if (this.context.covTransform.update(this)) {\n updated = true;\n }\n\n if (\n this.context.covViewToWorld.updateFromMatrix(viewToWorld) &&\n this.enableViewToWorld\n ) {\n updated = true;\n }\n const worldToView = viewToWorld.clone().invert();\n if (\n this.context.covWorldToView.updateFromMatrix(worldToView) &&\n this.enableWorldToView\n ) {\n updated = true;\n }\n\n const worldToObject = this.matrixWorld.clone().invert();\n const viewToObjectMatrix = worldToObject.multiply(viewToWorld);\n if (\n this.context.covViewToObject.updateFromMatrix(viewToObjectMatrix) &&\n (this.enableViewToObject || this.context.splats.hasRgbDir())\n ) {\n // Only trigger update if we have view-dependent spherical harmonics\n updated = true;\n }\n }\n\n const newRecolor = new THREE.Vector4(\n this.recolor.r,\n this.recolor.g,\n this.recolor.b,\n this.opacity,\n );\n if (!newRecolor.equals(this.context.recolor.value)) {\n this.context.recolor.value.copy(newRecolor);\n updated = true;\n }\n\n const edits = this.editable ? (this.edits ?? []).concat(globalEdits) : [];\n if (this.editable && !this.edits) {\n // If we haven't set any explicit edits, add any child SplatEdits\n this.traverseVisible((node) => {\n if (node instanceof SplatEdit) {\n edits.push(node);\n }\n });\n }\n\n edits.sort((a, b) => a.ordering - b.ordering);\n const editsSdfs = edits.map((edit) => {\n if (edit.sdfs != null) {\n return { edit, sdfs: edit.sdfs };\n }\n const sdfs: SplatEditSdf[] = [];\n edit.traverseVisible((node) => {\n if (node instanceof SplatEditSdf) {\n sdfs.push(node);\n }\n });\n return { edit, sdfs };\n });\n\n if (editsSdfs.length > 0 && !this.rgbaDisplaceEdits) {\n const edits = editsSdfs.length;\n const sdfs = editsSdfs.reduce(\n (total, edit) => total + edit.sdfs.length,\n 0,\n );\n this.rgbaDisplaceEdits = new SplatEdits({\n maxEdits: edits,\n maxSdfs: sdfs,\n });\n this.generatorDirty = true;\n }\n if (this.rgbaDisplaceEdits) {\n const editResult = this.rgbaDisplaceEdits.update(editsSdfs);\n updated ||= editResult.updated;\n if (editResult.dynoUpdated) {\n this.generatorDirty = true;\n }\n }\n\n if (this.generatorDirty) {\n this.constructGenerator(this.context);\n this.generatorDirty = false;\n updated = true;\n }\n\n if (updated) {\n this.updateVersion();\n }\n\n this.onFrame?.({ mesh: this, time, deltaTime });\n }\n\n // This method conforms to the standard THREE.Raycaster API, performing object-ray\n // intersections using this method to populate the provided intersects[] array\n // with each intersection point.\n raycast(\n raycaster: THREE.Raycaster,\n intersects: {\n distance: number;\n point: THREE.Vector3;\n object: THREE.Object3D;\n }[],\n ) {\n if (\n !SplatMesh.isStaticInitialized ||\n !this.raycastable ||\n (!this.packedSplats && !this.extSplats && !this.paged)\n ) {\n return;\n }\n const paged = this.paged != null;\n const ext = paged\n ? (this.paged?.pager?.extSplats ?? false)\n : this.extSplats != null;\n\n const { near, far, ray } = raycaster;\n const worldToMesh = this.matrixWorld.clone().invert();\n const worldToMeshRot = new THREE.Matrix3().setFromMatrix4(worldToMesh);\n const origin = ray.origin.clone().applyMatrix4(worldToMesh);\n const direction = ray.direction.clone().applyMatrix3(worldToMeshRot);\n\n const buffer = get_raycast_buffer();\n const bufferSize = buffer.length / 4;\n let intersections = 0;\n\n const numSplats =\n this.raycastIndices?.numSplats ??\n (paged ? this.paged?.numSplats : this.context.numSplats.value) ??\n 0;\n const indices =\n this.raycastIndices?.indices ??\n (paged\n ? (this.paged?.dynoIndices.value.image.data as Uint32Array)\n : this.context.enableLod.value\n ? (this.context.lodIndices.value.image.data as Uint32Array)\n : null) ??\n null;\n\n if (!ext) {\n const packed = paged\n ? (this.paged?.pager?.packedTexture.value.image.data as Uint32Array)\n : indices\n ? this.packedSplats?.lodSplats?.packedArray\n : this.packedSplats?.packedArray;\n if (!packed) {\n return;\n }\n const splatEncoding = paged\n ? this.paged?.splatEncoding\n : this.packedSplats?.splatEncoding;\n for (let base = 0; base < numSplats; base += bufferSize) {\n const count = Math.min(bufferSize, numSplats - base);\n if (!indices) {\n buffer.set(packed.subarray(base * 4, (base + count) * 4));\n } else {\n for (let i = 0; i < count; ++i) {\n const index = indices[base + i];\n const i4 = i * 4;\n const index4 = index * 4;\n buffer[i4] = packed[index4];\n buffer[i4 + 1] = packed[index4 + 1];\n buffer[i4 + 2] = packed[index4 + 2];\n buffer[i4 + 3] = packed[index4 + 3];\n }\n }\n\n const newIntersections = raycast_packed_buffer(\n origin.x,\n origin.y,\n origin.z,\n direction.x,\n direction.y,\n direction.z,\n this.minRaycastOpacity,\n near,\n far,\n count,\n splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n splatEncoding?.lodOpacity ?? false,\n );\n intersections = this.appendRaycastBuffer(\n intersections,\n newIntersections,\n );\n }\n } else {\n const buffer2 = get_raycast_buffer2();\n const ext1 = paged\n ? (this.paged?.pager?.packedTexture.value.image.data as Uint32Array)\n : indices\n ? this.extSplats?.lodSplats?.extArrays[0]\n : this.extSplats?.extArrays[0];\n const ext2 = paged\n ? (this.paged?.pager?.extTexture.value.image.data as Uint32Array)\n : indices\n ? this.extSplats?.lodSplats?.extArrays[1]\n : this.extSplats?.extArrays[1];\n if (!ext1 || !ext2) {\n return;\n }\n for (let base = 0; base < numSplats; base += bufferSize) {\n const count = Math.min(bufferSize, numSplats - base);\n if (!indices) {\n buffer.set(ext1.subarray(base * 4, (base + count) * 4));\n buffer2.set(ext2.subarray(base * 4, (base + count) * 4));\n } else {\n for (let i = 0; i < count; ++i) {\n const index = indices[base + i];\n const i4 = i * 4;\n const index4 = index * 4;\n buffer[i4] = ext1[index4];\n buffer[i4 + 1] = ext1[index4 + 1];\n buffer[i4 + 2] = ext1[index4 + 2];\n buffer[i4 + 3] = ext1[index4 + 3];\n buffer2[i4] = ext2[index4];\n buffer2[i4 + 1] = ext2[index4 + 1];\n buffer2[i4 + 2] = ext2[index4 + 2];\n buffer2[i4 + 3] = ext2[index4 + 3];\n }\n }\n\n const newIntersections = raycast_ext_buffers(\n origin.x,\n origin.y,\n origin.z,\n direction.x,\n direction.y,\n direction.z,\n this.minRaycastOpacity,\n near,\n far,\n count,\n );\n intersections = this.appendRaycastBuffer(\n intersections,\n newIntersections,\n );\n }\n }\n\n for (const distance of SplatMesh.raycastBuffer.subarray(0, intersections)) {\n const point = ray.direction\n .clone()\n .multiplyScalar(distance)\n .add(ray.origin);\n intersects.push({\n distance,\n point,\n object: this,\n });\n }\n }\n\n static raycastBuffer = new Float32Array(1024);\n\n private appendRaycastBuffer(count: number, additional: Float32Array) {\n const total = count + additional.length;\n let capacity = SplatMesh.raycastBuffer.length;\n\n if (total > capacity) {\n while (capacity < total) {\n capacity *= 2;\n }\n const newBuffer = new Float32Array(capacity);\n newBuffer.set(SplatMesh.raycastBuffer.subarray(0, count));\n SplatMesh.raycastBuffer = newBuffer;\n }\n\n SplatMesh.raycastBuffer.set(additional, count);\n return count + additional.length;\n }\n\n async createLodSplats({\n rgbaArray,\n quality,\n }: { rgbaArray?: RgbaArray; quality?: boolean } = {}) {\n if (this.packedSplats) {\n await this.packedSplats.createLodSplats({ quality, rgbaArray });\n } else if (this.extSplats) {\n await this.extSplats.createLodSplats({ quality, rgbaArray });\n }\n }\n}\n\nexport function maybeLookupIndex(\n lodIndices: DynoUsampler2D<\"lodIndices\", THREE.DataTexture>,\n index: DynoVal<\"int\">,\n numSplats: DynoVal<\"int\">,\n enableLod: DynoVal<\"bool\">,\n showLodPage: DynoVal<\"int\">,\n) {\n return dyno({\n inTypes: {\n lodIndices: \"usampler2D\",\n index: \"int\",\n numSplats: \"int\",\n enableLod: \"bool\",\n showLodPage: \"int\",\n },\n outTypes: {\n index: \"int\",\n },\n inputs: {\n lodIndices,\n index,\n numSplats,\n enableLod,\n showLodPage,\n },\n statements: ({ inputs, outputs }) =>\n unindentLines(`\n int index = ${inputs.index};\n if (${inputs.showLodPage} < 0) {\n if (index >= ${inputs.numSplats}) {\n return;\n }\n if (${inputs.enableLod}) {\n ivec2 lodIndexCoord = ivec2((index >> 2) & 4095, index >> 14);\n uint splatIndex = texelFetch(${inputs.lodIndices}, lodIndexCoord, 0)[index & 3];\n ${outputs.index} = int(splatIndex);\n } else {\n ${outputs.index} = index;\n }\n } else {\n int start = ${inputs.showLodPage} << 16;\n if (index >= 65536) {\n return;\n }\n ${outputs.index} = start + index;\n }\n `),\n }).outputs.index;\n}\n\nexport function maybeInjectSplatRgba(\n gsplat: DynoVal,\n rgba: DynoVal,\n index: DynoVal<\"int\">,\n enableLod: DynoVal<\"bool\">,\n): DynoVal {\n return dyno({\n inTypes: {\n gsplat: Gsplat,\n rgba: TRgbaArray,\n index: \"int\",\n enableLod: \"bool\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: { gsplat, rgba, index, enableLod },\n statements: ({ inputs, outputs }) =>\n unindentLines(`\n ${outputs.gsplat} = ${inputs.gsplat};\n if (!${inputs.enableLod} && (${inputs.index} >= 0) && (${inputs.index} < ${inputs.rgba}.count)) {\n ${outputs.gsplat}.rgba = texelFetch(${inputs.rgba}.texture, splatTexCoord(${inputs.index}), 0);\n }\n `),\n }).outputs.gsplat;\n}\n\nexport const emptyLodIndices = (() => {\n const texture = new THREE.DataTexture(\n new Uint32Array(16384),\n 4096,\n 1,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n})();\n\nconst EMPTY_GEOMETRY = new THREE.BufferGeometry();\nconst EMPTY_MATERIAL = new THREE.ShaderMaterial();\n\n// Creates an empty mesh to hook into Three.js rendering.\n// This is used to detect if a SparkRenderer is present in the scene.\n// If not, one will be injected automatically.\nfunction createRendererDetectionMesh(): THREE.Mesh {\n const mesh = new THREE.Mesh(EMPTY_GEOMETRY, EMPTY_MATERIAL);\n mesh.frustumCulled = false;\n mesh.onBeforeRender = function (renderer, scene) {\n if (!scene.isScene) {\n // The SplatMesh is part of render call that doesn't have a Scene at its root\n // Don't auto-inject a renderer.\n this.removeFromParent();\n return;\n }\n\n // Check if the scene has a SparkRenderer instance\n let hasSparkRenderer = false;\n scene.traverse((c) => {\n if (c instanceof SparkRenderer || c instanceof OldSparkRenderer) {\n hasSparkRenderer = true;\n }\n });\n\n if (!hasSparkRenderer) {\n // No spark renderer present in the scene, inject one.\n scene.add(new SparkRenderer({ renderer }));\n }\n\n // Remove mesh to stop checking\n this.removeFromParent();\n };\n return mesh;\n}\n","// PLY file format reader\n\nimport { USE_COMPILED_PARSER_FUNCTION } from \"./defines\";\n\nconst PLY_PROPERTY_TYPES = [\n \"char\",\n \"uchar\",\n \"short\",\n \"ushort\",\n \"int\",\n \"uint\",\n \"float\",\n \"double\",\n] as const;\nexport type PlyPropertyType = (typeof PLY_PROPERTY_TYPES)[number];\n\nexport type PlyElement = {\n name: string;\n count: number;\n properties: Record;\n};\n\nexport type PlyProperty = {\n isList: boolean;\n type: PlyPropertyType;\n countType?: PlyPropertyType;\n};\n\n// Callback for parseSplats base Gsplat data\nexport type SplatCallback = (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) => void;\n\n// Callback for parseSplats SH coefficients\nexport type SplatShCallback = (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n) => void;\n\n// A PlyReader is used to parse PLY files for Gsplat data.\n// It takes a Uint8Array/ArrayBuffer as input fileBytes, parses the text header,\n// and provides a method parseData to iterate over the entire binary data\n// efficiently, or parseSplats to iterate over Gsplat data.\n\nexport class PlyReader {\n fileBytes: Uint8Array;\n header = \"\";\n littleEndian = true;\n elements: Record = {};\n comments: string[] = [];\n data: DataView | null = null;\n static defaultPointScale = 0.001;\n\n numSplats = 0;\n\n // Create a PlyReader from a Uint8Array/ArrayBuffer, no parsing done yet\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n }\n\n // Identify and parse the PLY text header (assumed to be <64KB in size).\n // this.elements will contain all the elements in the file, typically\n // \"vertex\" contains the Gsplat data.\n async parseHeader() {\n const bufferStream = new ReadableStream({\n start: (\n controller: ReadableStreamController>,\n ) => {\n // Assume the header is less than 64KB\n controller.enqueue(this.fileBytes.slice(0, 65536));\n controller.close();\n },\n });\n const decoder = bufferStream\n .pipeThrough(new TextDecoderStream())\n .getReader();\n\n // Find the end of the text section of the PLY file\n this.header = \"\";\n const headerTerminator = \"end_header\\n\";\n while (true) {\n const { value, done } = await decoder.read();\n if (done) {\n throw new Error(\"Failed to read header\");\n }\n\n this.header += value as string;\n const endHeader = this.header.indexOf(headerTerminator);\n if (endHeader >= 0) {\n this.header = this.header.slice(0, endHeader + headerTerminator.length);\n break;\n }\n }\n // Partition the file into header and binary data\n const headerLen = new TextEncoder().encode(this.header).length;\n this.data = new DataView(this.fileBytes.buffer, headerLen);\n\n this.elements = {};\n let curElement: PlyElement | null = null;\n this.comments = [];\n\n this.header\n .trim()\n .split(\"\\n\")\n .forEach((line: string, lineIndex: number) => {\n const trimmedLine = line.trim();\n if (lineIndex === 0) {\n if (trimmedLine !== \"ply\") {\n throw new Error(\"Invalid PLY header\");\n }\n return;\n }\n if (trimmedLine.length === 0) {\n return; // Skip empty lines\n }\n\n const fields = trimmedLine.split(\" \");\n switch (fields[0]) {\n case \"format\":\n if (fields[1] === \"binary_little_endian\") {\n this.littleEndian = true;\n } else if (fields[1] === \"binary_big_endian\") {\n this.littleEndian = false;\n } else {\n // ascii formats not supported\n throw new Error(`Unsupported PLY format: ${fields[1]}`);\n }\n if (fields[2] !== \"1.0\") {\n throw new Error(`Unsupported PLY version: ${fields[2]}`);\n }\n break;\n case \"end_header\":\n break;\n case \"comment\":\n this.comments.push(trimmedLine.slice(\"comment \".length));\n break;\n case \"element\": {\n const name = fields[1];\n curElement = {\n name,\n count: Number.parseInt(fields[2]),\n properties: {},\n };\n this.elements[name] = curElement;\n break;\n }\n case \"property\":\n if (curElement == null) {\n throw new Error(\"Property must be inside an element\");\n }\n if (fields[1] === \"list\") {\n curElement.properties[fields[4]] = {\n isList: true,\n type: fields[3] as PlyPropertyType,\n countType: fields[2] as PlyPropertyType,\n };\n } else {\n curElement.properties[fields[2]] = {\n isList: false,\n type: fields[1] as PlyPropertyType,\n };\n }\n break;\n default:\n // console.warn(`Skipping unsupported PLY keyword: ${fields[0]}`);\n }\n });\n\n if (this.elements.vertex) {\n this.numSplats = this.elements.vertex.count;\n }\n }\n\n parseData(\n elementCallback: (\n element: PlyElement,\n ) =>\n | null\n | ((index: number, item: Record) => void),\n ) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No data to parse\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const item = createEmptyItem(properties);\n // Construct a parse function\n const parseFn = createParseFn(properties, this.littleEndian);\n\n // Parse all the items in the element\n const callback = elementCallback(element) ?? (() => {});\n for (let index = 0; index < count; index++) {\n offset = parseFn(data, offset, item);\n callback(index, item);\n }\n }\n }\n\n // Parse all the Gsplat data in the PLY file in go, invoking the given\n // callbacks for each Gsplat.\n parseSplats(splatCallback: SplatCallback, shCallback?: SplatShCallback) {\n if (this.elements.vertex == null) {\n throw new Error(\"No vertex element found\");\n }\n\n let isSuperSplat = false;\n const ssChunks: SSChunk[] = [];\n\n let numSh = 0;\n let sh1Props: number[] = [];\n let sh2Props: number[] = [];\n let sh3Props: number[] = [];\n let sh1: Float32Array | undefined = undefined;\n let sh2: Float32Array | undefined = undefined;\n let sh3: Float32Array | undefined = undefined;\n\n function prepareSh() {\n // Prepare SH coefficient names and arrays for numSh total SH levels\n const num_f_rest = NUM_SH_TO_NUM_F_REST[numSh];\n sh1Props = new Array(3)\n .fill(null)\n .flatMap((_, k) => [0, 1, 2].map((_, d) => k + (d * num_f_rest) / 3));\n sh2Props = new Array(5)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 3 + k + (d * num_f_rest) / 3),\n );\n sh3Props = new Array(7)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 8 + k + (d * num_f_rest) / 3),\n );\n sh1 = numSh >= 1 ? new Float32Array(3 * 3) : undefined;\n sh2 = numSh >= 2 ? new Float32Array(5 * 3) : undefined;\n sh3 = numSh >= 3 ? new Float32Array(7 * 3) : undefined;\n }\n\n function ssShCallback(\n index: number,\n item: Record,\n ) {\n // Decode SH for SuperSplat compressed data\n if (!sh1) {\n throw new Error(\"Missing sh1\");\n }\n const sh = item.f_rest as number[];\n\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = (sh[sh1Props[i]] * 8) / 255 - 4;\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = (sh[sh2Props[i]] * 8) / 255 - 4;\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = (sh[sh3Props[i]] * 8) / 255 - 4;\n }\n }\n shCallback?.(index, sh1, sh2, sh3);\n }\n\n function initSuperSplat(element: PlyElement) {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n } = element.properties;\n if (\n !min_x ||\n !min_y ||\n !min_z ||\n !max_x ||\n !max_y ||\n !max_z ||\n !min_scale_x ||\n !min_scale_y ||\n !min_scale_z ||\n !max_scale_x ||\n !max_scale_y ||\n !max_scale_z\n ) {\n throw new Error(\"Missing PLY chunk properties\");\n }\n\n // SuperSplat chunks are used to quantize splat data, so we need to store them\n isSuperSplat = true;\n return (index: number, item: Record) => {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = item as Record;\n ssChunks.push({\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n });\n };\n }\n\n function decodeSuperSplat(element: PlyElement) {\n // Decode SuperSplat compressed data in vertex and sh elements\n if (shCallback && element.name === \"sh\") {\n numSh = getNumSh(element.properties);\n prepareSh();\n return ssShCallback;\n }\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n element.properties;\n if (\n !packed_position ||\n !packed_rotation ||\n !packed_scale ||\n !packed_color\n ) {\n throw new Error(\n \"Missing PLY properties: packed_position, packed_rotation, packed_scale, packed_color\",\n );\n }\n\n const SQRT2 = Math.sqrt(2);\n\n return (index: number, item: Record) => {\n // SuperSplat data are quantized within chunks with 256 Gsplats each\n const chunk = ssChunks[index >>> 8];\n if (chunk == null) {\n throw new Error(\"Missing PLY chunk\");\n }\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = chunk;\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n item as Record;\n\n const x =\n (((packed_position >>> 21) & 2047) / 2047) * (max_x - min_x) + min_x;\n const y =\n (((packed_position >>> 11) & 1023) / 1023) * (max_y - min_y) + min_y;\n const z = ((packed_position & 2047) / 2047) * (max_z - min_z) + min_z;\n\n const r0 = (((packed_rotation >>> 20) & 1023) / 1023 - 0.5) * SQRT2;\n const r1 = (((packed_rotation >>> 10) & 1023) / 1023 - 0.5) * SQRT2;\n const r2 = ((packed_rotation & 1023) / 1023 - 0.5) * SQRT2;\n const rr = Math.sqrt(Math.max(0, 1.0 - r0 * r0 - r1 * r1 - r2 * r2));\n\n const rOrder = packed_rotation >>> 30;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n\n const scaleX = Math.exp(\n (((packed_scale >>> 21) & 2047) / 2047) *\n (max_scale_x - min_scale_x) +\n min_scale_x,\n );\n const scaleY = Math.exp(\n (((packed_scale >>> 11) & 1023) / 1023) *\n (max_scale_y - min_scale_y) +\n min_scale_y,\n );\n const scaleZ = Math.exp(\n ((packed_scale & 2047) / 2047) * (max_scale_z - min_scale_z) +\n min_scale_z,\n );\n\n const r =\n (((packed_color >>> 24) & 255) / 255) *\n ((max_r ?? 1) - (min_r ?? 0)) +\n (min_r ?? 0);\n const g =\n (((packed_color >>> 16) & 255) / 255) *\n ((max_g ?? 1) - (min_g ?? 0)) +\n (min_g ?? 0);\n const b =\n (((packed_color >>> 8) & 255) / 255) * ((max_b ?? 1) - (min_b ?? 0)) +\n (min_b ?? 0);\n const opacity = (packed_color & 255) / 255;\n\n splatCallback(\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n };\n }\n\n const elementCallback = (element: PlyElement) => {\n if (element.name === \"chunk\") {\n // \"chunk\" could conceivably be used for other formats, and we would\n // ideally check for the comment: Generated by SuperSplat 2.*\n // but gsplat also outputs this format without such a comment.\n // In order to support both, let's assume a \"chunk\" element should\n // be interpreted as this format.\n return initSuperSplat(element);\n }\n if (isSuperSplat) {\n return decodeSuperSplat(element);\n }\n\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const {\n x,\n y,\n z,\n scale_0,\n scale_1,\n scale_2,\n rot_0,\n rot_1,\n rot_2,\n rot_3,\n opacity,\n f_dc_0,\n f_dc_1,\n f_dc_2,\n red,\n green,\n blue,\n alpha,\n } = element.properties;\n\n if (!x || !y || !z) {\n throw new Error(\"Missing PLY properties: x, y, z\");\n }\n // Pure point cloud PLY files have no scales or rotations\n const hasScales = scale_0 && scale_1 && scale_2;\n const hasRots = rot_0 && rot_1 && rot_2 && rot_3;\n // Quantization scale factor for argb values\n const alphaDiv = alpha != null ? FIELD_SCALE[alpha.type] : 1;\n const redDiv = red != null ? FIELD_SCALE[red.type] : 1;\n const greenDiv = green != null ? FIELD_SCALE[green.type] : 1;\n const blueDiv = blue != null ? FIELD_SCALE[blue.type] : 1;\n\n numSh = getNumSh(element.properties);\n prepareSh();\n\n return (index: number, item: Record) => {\n const scaleX = hasScales\n ? Math.exp(item.scale_0 as number)\n : PlyReader.defaultPointScale;\n const scaleY = hasScales\n ? Math.exp(item.scale_1 as number)\n : PlyReader.defaultPointScale;\n const scaleZ = hasScales\n ? Math.exp(item.scale_2 as number)\n : PlyReader.defaultPointScale;\n\n const quatX = hasRots ? (item.rot_1 as number) : 0;\n const quatY = hasRots ? (item.rot_2 as number) : 0;\n const quatZ = hasRots ? (item.rot_3 as number) : 0;\n const quatW = hasRots ? (item.rot_0 as number) : 1;\n\n const op =\n opacity != null\n ? 1.0 / (1.0 + Math.exp(-item.opacity as number))\n : alpha != null\n ? (item.alpha as number) / alphaDiv\n : 1.0;\n const r =\n f_dc_0 != null\n ? (item.f_dc_0 as number) * SH_C0 + 0.5\n : red != null\n ? (item.red as number) / redDiv\n : 1.0;\n const g =\n f_dc_1 != null\n ? (item.f_dc_1 as number) * SH_C0 + 0.5\n : green != null\n ? (item.green as number) / greenDiv\n : 1.0;\n const b =\n f_dc_2 != null\n ? (item.f_dc_2 as number) * SH_C0 + 0.5\n : blue != null\n ? (item.blue as number) / blueDiv\n : 1.0;\n\n splatCallback(\n index,\n item.x as number,\n item.y as number,\n item.z as number,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n op,\n r,\n g,\n b,\n );\n\n if (shCallback && sh1) {\n const sh = item.f_rest as number[];\n if (sh1) {\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = sh[sh1Props[i]];\n }\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = sh[sh2Props[i]];\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = sh[sh3Props[i]];\n }\n }\n shCallback(index, sh1, sh2, sh3);\n }\n };\n };\n\n this.parseData(elementCallback);\n }\n\n // Inject RGBA values into original PLY file, which can be used to modify\n // the color/opacity of the Gsplats and write out the modified PLY file.\n injectRgba(rgba: Uint8Array) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No parsed data\");\n }\n if (rgba.length !== this.numSplats * 4) {\n throw new Error(\"Invalid RGBA array length\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const parsers = [];\n\n let rgbaOffset = 0;\n const isVertex = elementName === \"vertex\";\n if (isVertex) {\n for (const name of [\"opacity\", \"f_dc_0\", \"f_dc_1\", \"f_dc_2\"]) {\n if (!properties[name] || properties[name].type !== \"float\") {\n throw new Error(`Can't injectRgba due to property: ${name}`);\n }\n }\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!property.isList) {\n if (isVertex) {\n if (\n propertyName === \"f_dc_0\" ||\n propertyName === \"f_dc_1\" ||\n propertyName === \"f_dc_2\"\n ) {\n const component = Number.parseInt(\n propertyName.slice(\"f_dc_\".length),\n );\n parsers.push(() => {\n // Inject DC coefficients\n const value =\n (rgba[rgbaOffset + component] / 255 - 0.5) / SH_C0;\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n } else if (propertyName === \"opacity\") {\n parsers.push(() => {\n // Inject opacity sigmoid, clamped to [-100, 100]\n const value = Math.max(\n -100,\n Math.min(\n 100,\n -Math.log(1.0 / (rgba[rgbaOffset + 3] / 255) - 1.0),\n ),\n );\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n }\n }\n parsers.push(() => {\n offset += FIELD_BYTES[property.type];\n });\n } else {\n parsers.push(() => {\n const length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n this.littleEndian,\n );\n offset += FIELD_BYTES[property.countType as PlyPropertyType];\n offset += length * FIELD_BYTES[property.type];\n });\n }\n }\n\n for (let index = 0; index < count; index++) {\n // Go through all the data and field parsers to compute offset\n for (const parser of parsers) {\n parser();\n }\n if (isVertex) {\n rgbaOffset += 4;\n }\n }\n }\n }\n}\n\nexport const SH_C0 = 0.28209479177387814;\n\ntype FieldParser = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n) => number;\ntype FieldSetter = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n) => void;\n\nconst PARSE_FIELD: Record = {\n char: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt8(offset);\n },\n uchar: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint8(offset);\n },\n short: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt16(offset, littleEndian);\n },\n ushort: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint16(offset, littleEndian);\n },\n int: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt32(offset, littleEndian);\n },\n uint: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint32(offset, littleEndian);\n },\n float: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat32(offset, littleEndian);\n },\n double: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat64(offset, littleEndian);\n },\n};\n\nconst SET_FIELD: Record = {\n char: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt8(offset, value);\n },\n uchar: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint8(offset, value);\n },\n short: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt16(offset, value, littleEndian);\n },\n ushort: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint16(offset, value, littleEndian);\n },\n int: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt32(offset, value, littleEndian);\n },\n uint: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint32(offset, value, littleEndian);\n },\n float: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat32(offset, value, littleEndian);\n },\n double: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat64(offset, value, littleEndian);\n },\n};\n\nconst FIELD_BYTES: Record = {\n char: 1,\n uchar: 1,\n short: 2,\n ushort: 2,\n int: 4,\n uint: 4,\n float: 4,\n double: 8,\n};\n\nconst FIELD_SCALE: Record = {\n char: 127,\n uchar: 255,\n short: 32767,\n ushort: 65535,\n int: 2147483647,\n uint: 4294967295,\n float: 1,\n double: 1,\n};\n\nconst NUM_F_REST_TO_NUM_SH: Record = {\n 0: 0,\n 9: 1,\n 24: 2,\n 45: 3,\n};\nconst NUM_SH_TO_NUM_F_REST: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nconst F_REST_REGEX = /^f_rest_([0-9]{1,2})$/;\n\nfunction createEmptyItem(\n properties: Record,\n): Record {\n const item: Record = {};\n for (const [propertyName, property] of Object.entries(properties)) {\n // Treat f_rest properties as a single array for performance\n if (F_REST_REGEX.test(propertyName)) {\n item.f_rest = new Array(getNumSh(properties));\n } else {\n item[propertyName] = property.isList ? [] : 0;\n }\n }\n return item;\n}\n\nfunction createParseFn(\n properties: Record,\n littleEndian: boolean,\n) {\n if (USE_COMPILED_PARSER_FUNCTION && safeToCompile(properties)) {\n return createCompiledParserFn(properties, littleEndian);\n }\n return createDynamicParserFn(properties, littleEndian);\n}\n\n// Detect if unsafe eval is allowed in the current execution context\nconst UNSAFE_EVAL_ALLOWED = (() => {\n try {\n new Function(\"return 42;\");\n } catch (e) {\n return false;\n }\n return true;\n})();\nconst PROPERTY_NAME_REGEX = /^[a-zA-Z0-9_]+$/;\n\nfunction safeToCompile(properties: Record) {\n if (!UNSAFE_EVAL_ALLOWED) {\n return false;\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!PROPERTY_NAME_REGEX.test(propertyName)) {\n return false;\n }\n\n if (\n property.isList &&\n !PLY_PROPERTY_TYPES.includes(property.countType as PlyPropertyType)\n ) {\n return false;\n }\n\n if (!PLY_PROPERTY_TYPES.includes(property.type)) {\n return false;\n }\n }\n return true;\n}\n\nfunction createCompiledParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct the parser function source.\n const parserSrc: string[] = [\"let list;\"];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parserSrc.push(/*js*/ `\n item.f_rest[${fRestIndex}] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else if (!property.isList) {\n parserSrc.push(/*js*/ `\n item['${propertyName}'] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else {\n // Property is a list, so parse the count first\n parserSrc.push(/*js*/ `\n list = item['${propertyName}'];\n list.length = PARSE_FIELD['${property.countType}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.countType as PlyPropertyType]};\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n }\n `);\n }\n }\n parserSrc.push(\"return offset;\");\n\n const fn = new Function(\n \"data\",\n \"offset\",\n \"item\",\n \"PARSE_FIELD\",\n parserSrc.join(\"\\n\"),\n );\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => fn(data, offset, item, PARSE_FIELD);\n}\n\nfunction createDynamicParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct an array of parser function to parse each property in an item\n const parsers: Array<\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => number\n > = [];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n (item.f_rest as number[])[fRestIndex] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else if (!property.isList) {\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n item[propertyName] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else {\n // Property is a list, so parse the count first\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n const list = item[propertyName] as number[];\n list.length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n littleEndian,\n );\n let currentOffset =\n offset + FIELD_BYTES[property.countType as PlyPropertyType];\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD[property.type](\n data,\n currentOffset,\n littleEndian,\n );\n currentOffset += FIELD_BYTES[property.type];\n }\n return currentOffset;\n },\n );\n }\n }\n\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n let currentOffset = offset;\n for (let parserIndex = 0; parserIndex < parsers.length; parserIndex++) {\n currentOffset = parsers[parserIndex](data, currentOffset, item);\n }\n return currentOffset;\n };\n}\n\nfunction getNumSh(properties: Record) {\n let num_f_rest = 0;\n while (properties[`f_rest_${num_f_rest}`]) {\n num_f_rest += 1;\n }\n const numSh = NUM_F_REST_TO_NUM_SH[num_f_rest];\n if (numSh == null) {\n throw new Error(`Unsupported number of SH coefficients: ${num_f_rest}`);\n }\n return numSh;\n}\n\ntype SSChunk = {\n min_x: number;\n min_y: number;\n min_z: number;\n max_x: number;\n max_y: number;\n max_z: number;\n min_scale_x: number;\n min_scale_y: number;\n min_scale_z: number;\n max_scale_x: number;\n max_scale_y: number;\n max_scale_z: number;\n min_r?: number;\n min_g?: number;\n min_b?: number;\n max_r?: number;\n max_g?: number;\n max_b?: number;\n};\n","import { unzipSync } from \"fflate\";\nimport { FileLoader, Loader, type LoadingManager } from \"three\";\nimport { ExtSplats, type ExtSplatsOptions } from \"./ExtSplats\";\nimport { withWorker } from \"./OldSplatWorker\";\nimport { PackedSplats, type PackedSplatsOptions } from \"./PackedSplats\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport { type SplatEncoding, SplatFileType } from \"./defines\";\nimport { PlyReader } from \"./ply\";\nimport { decompressPartialGzip, getTextureSize } from \"./utils\";\n\n// SplatLoader implements the THREE.Loader interface and supports loading a variety\n// of different Gsplat file formats. Formats .PLY and .SPZ can be auto-detected\n// from the file contents, while .SPLAT and .KSPLAT require either having the\n// appropriate file extension as part of the path, or it can be explicitly set\n// in the loader using the fileType property.\n\nexport class SplatLoader extends Loader {\n fileLoader: FileLoader;\n\n constructor(manager?: LoadingManager) {\n super(manager);\n this.fileLoader = new FileLoader(manager);\n }\n\n load(\n url: string,\n onLoad?: (decoded: PackedSplats | ExtSplats) => void,\n onProgress?: (event: ProgressEvent) => void,\n onError?: (error: unknown) => void,\n ) {\n return this.loadInternal({\n url,\n onLoad,\n onProgress,\n onError,\n });\n }\n\n async loadAsync(\n url: string,\n onProgress?: (event: ProgressEvent) => void,\n ): Promise {\n return new Promise((resolve, reject) => {\n this.load(\n url,\n (decoded) => {\n resolve(decoded);\n },\n onProgress,\n reject,\n );\n });\n }\n\n parse(packedSplats: PackedSplats): SplatMesh {\n return new SplatMesh({ packedSplats });\n }\n\n loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad,\n onProgress,\n onError,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onLoad?: (decoded: PackedSplats | ExtSplats) => void;\n onProgress?: (event: ProgressEvent) => void;\n onError?: (error: unknown) => void;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n if (fileBytes instanceof ArrayBuffer) {\n fileBytes = new Uint8Array(fileBytes);\n }\n const resolvedURL = fileBytes\n ? undefined\n : this.manager.resolveURL((this.path ?? \"\") + (url ?? \"\"));\n\n let readStream = stream?.getReader();\n\n this.manager.itemStart(resolvedURL ?? \"\");\n // let calledOnLoad = false;\n\n workerPool\n .withWorker(async (worker) => {\n // If LoD is set and not falsey\n const splatsLod = packedSplats?.lod ?? extSplats?.lod;\n if (splatsLod) {\n lod = splatsLod;\n }\n const splatsNonLod = packedSplats?.nonLod ?? extSplats?.nonLod;\n if (splatsNonLod !== undefined) {\n nonLod = splatsNonLod;\n }\n\n // let init: {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // } | null = null;\n // let initExt: {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // } | null = null;\n\n const onStatus = async (data: unknown) => {\n const { loaded, total } = data as { loaded: number; total: number };\n if (loaded !== undefined && onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n\n if ((data as { nextChunk?: boolean }).nextChunk) {\n let chunk: Uint8Array;\n if (!readStream) {\n chunk = new Uint8Array(0);\n } else {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n readStream = undefined;\n chunk = new Uint8Array(0);\n } else {\n chunk = value;\n }\n }\n worker.call(\"nextChunk\", { chunk });\n }\n\n // if ((data as { orig?: unknown }).orig) {\n // if (extSplats) {\n // initExt = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // };\n // extSplats.initialize({\n // numSplats: initExt?.numSplats,\n // extArrays: [initExt?.ext0, initExt?.ext1],\n // extra: initExt?.extra,\n // });\n // calledOnLoad = true;\n // onLoad?.(extSplats);\n // } else if (packedSplats) {\n // init = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // };\n // packedSplats.initialize({\n // numSplats: init?.numSplats,\n // packedArray: init?.packedArray,\n // extra: init?.extra,\n // splatEncoding: init?.splatEncoding,\n // });\n // calledOnLoad = true;\n // onLoad?.(packedSplats);\n // } else {\n // console.warn(\"No splats to initialize\");\n // }\n // }\n };\n\n const basedUrl = resolvedURL\n ? new URL(resolvedURL, window.location.href).toString()\n : undefined;\n const decoded = (await worker.call(\n extSplats ? \"loadExtSplats\" : \"loadPackedSplats\",\n {\n url: basedUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n fileBytes: fileBytes?.slice(),\n fileType,\n pathName: resolvedURL || fileName,\n chunked: stream !== undefined,\n chunkedLength: streamLength,\n encoding: packedSplats?.splatEncoding,\n lod,\n lodBase,\n nonLod,\n lodAbove,\n },\n { onStatus },\n )) as {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n lodSplats?:\n | {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n }\n | PackedSplats\n | ExtSplats;\n };\n\n if (decoded.lodSplats) {\n if (extSplats) {\n decoded.lodSplats = new ExtSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record;\n }),\n });\n } else {\n decoded.lodSplats = new PackedSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n packedArray: Uint32Array;\n extra: Record;\n splatEncoding: SplatEncoding;\n }),\n maxSplats: packedSplats?.maxSplats,\n });\n }\n }\n\n if (extSplats) {\n const initExtSplats = {\n // ...(initExt ?? {}),\n ...decoded,\n };\n extSplats.initialize(initExtSplats as ExtSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(extSplats);\n // }\n } else {\n const initSplats = {\n // ...(init ?? {}),\n ...decoded,\n };\n if (packedSplats) {\n packedSplats.initialize(initSplats as PackedSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(packedSplats);\n // }\n } else {\n // if (!calledOnLoad) {\n onLoad?.(new PackedSplats(initSplats as PackedSplatsOptions));\n // }\n }\n }\n })\n .catch((error) => {\n this.manager.itemError(resolvedURL ?? \"\");\n onError?.(error);\n })\n .finally(() => {\n this.manager.itemEnd(resolvedURL ?? \"\");\n });\n }\n\n async loadInternalAsync({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onProgress?: (event: ProgressEvent) => void;\n lod?: boolean;\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n return new Promise((resolve, reject) => {\n this.loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad: resolve,\n onProgress,\n onError: reject,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n });\n });\n }\n}\n\nasync function fetchWithProgress(\n request: Request,\n onProgress?: (event: ProgressEvent) => void,\n) {\n const response = await fetch(request);\n if (!response.ok) {\n throw new Error(\n `${response.status} \"${response.statusText}\" fetching URL: ${request.url}`,\n );\n }\n if (!response.body) {\n throw new Error(`Response body is null for URL: ${request.url}`);\n }\n\n const reader = response.body.getReader();\n let loaded = 0;\n const chunks: Uint8Array[] = [];\n try {\n const contentLength = Number.parseInt(\n response.headers.get(\"Content-Length\") || \"0\",\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n\n while (true) {\n const { done, value } = await reader.read();\n if (done) {\n break;\n }\n chunks.push(value);\n loaded += value.length;\n\n if (onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n }\n } catch (err) {\n try {\n const reason = err instanceof Error ? err.message : \"Unknown error\";\n await reader.cancel(reason);\n } catch {}\n throw err;\n }\n\n // Combine chunks into a single buffer\n const bytes = new Uint8Array(loaded);\n let offset = 0;\n for (const chunk of chunks) {\n bytes.set(chunk, offset);\n offset += chunk.length;\n }\n return bytes.buffer;\n}\n\nexport function getSplatFileType(\n fileBytes: Uint8Array,\n): SplatFileType | undefined {\n const view = new DataView(fileBytes.buffer);\n const magic = view.getUint32(0, true);\n if ((magic & 0x00ffffff) === 0x00796c70) {\n return SplatFileType.PLY;\n }\n if ((magic & 0x00ffffff) === 0x00088b1f) {\n // Gzipped file, unpack beginning to check magic number\n const header = decompressPartialGzip(fileBytes, 4);\n const gView = new DataView(header.buffer);\n if (gView.getUint32(0, true) === 0x5053474e) {\n return SplatFileType.SPZ;\n }\n // Unknown Gzipped file type\n return undefined;\n }\n if (magic === 0x04034b50) {\n // PKZip file\n if (tryPcSogsZip(fileBytes)) {\n return SplatFileType.PCSOGSZIP;\n }\n // Unknown PKZip file type\n return undefined;\n }\n if (magic === 0x30444152) {\n return SplatFileType.RAD;\n }\n // Unknown file type\n return undefined;\n}\n\n// Returns the lowercased file extension from a path or URL\nexport function getFileExtension(pathOrUrl: string): string {\n const noTrailing = pathOrUrl.split(/[?#]/, 1)[0];\n const lastSlash = Math.max(\n noTrailing.lastIndexOf(\"/\"),\n noTrailing.lastIndexOf(\"\\\\\"),\n );\n const filename = noTrailing.slice(lastSlash + 1);\n const lastDot = filename.lastIndexOf(\".\");\n if (lastDot <= 0 || lastDot === filename.length - 1) {\n return \"\"; // No extension\n }\n return filename.slice(lastDot + 1).toLowerCase();\n}\n\nexport function getSplatFileTypeFromPath(\n pathOrUrl: string,\n): SplatFileType | undefined {\n const extension = getFileExtension(pathOrUrl);\n if (extension === \"ply\") {\n return SplatFileType.PLY;\n }\n if (extension === \"spz\") {\n return SplatFileType.SPZ;\n }\n if (extension === \"splat\") {\n return SplatFileType.SPLAT;\n }\n if (extension === \"ksplat\") {\n return SplatFileType.KSPLAT;\n }\n if (extension === \"sog\") {\n return SplatFileType.PCSOGSZIP;\n }\n if (extension === \"rad\") {\n return SplatFileType.RAD;\n }\n return undefined;\n}\n\nexport type PcSogsJson = {\n means: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n quats: { shape: number[]; dtype: string; encoding?: string; files: string[] };\n sh0: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n shN?: {\n shape: number[];\n dtype: string;\n mins: number;\n maxs: number;\n quantization: number;\n files: string[];\n };\n};\n\nexport type PcSogsV2Json = {\n version: 2;\n count: number;\n antialias?: boolean;\n means: {\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n codebook: number[];\n files: string[];\n };\n quats: { files: string[] };\n sh0: {\n codebook: number[];\n files: string[];\n };\n shN?: {\n count: number;\n bands: number;\n codebook: number[];\n files: string[];\n };\n};\n\nexport function isPcSogs(input: ArrayBuffer | Uint8Array | string): boolean {\n // Returns true if the input seems to be a valid PC SOGS file\n return tryPcSogs(input) !== undefined;\n}\n\nexport function tryPcSogs(\n input: ArrayBuffer | Uint8Array | string,\n): PcSogsJson | PcSogsV2Json | undefined {\n // Try to parse input as SOGS JSON and see if it's valid\n try {\n let text: string;\n if (typeof input === \"string\") {\n text = input;\n } else {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n if (fileBytes.length > 65536) {\n // Should be only a few KB, definitely not a SOGS JSON file\n return undefined;\n }\n text = new TextDecoder().decode(fileBytes);\n }\n\n const json = JSON.parse(text);\n if (!json || typeof json !== \"object\" || Array.isArray(json)) {\n return undefined;\n }\n const isVersion2 = json.version === 2;\n\n for (const key of [\"means\", \"scales\", \"quats\", \"sh0\"]) {\n if (\n !json[key] ||\n typeof json[key] !== \"object\" ||\n Array.isArray(json[key])\n ) {\n return undefined;\n }\n if (isVersion2) {\n // Expect files\n if (!json[key].files) {\n return undefined;\n }\n\n // Scales and sh0 should have codebooks\n if ((key === \"scales\" || key === \"sh0\") && !json[key].codebook) {\n return undefined;\n }\n // Means should have mins and maxs defined\n if (key === \"means\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n } else {\n // Expect shape and files\n if (!json[key].shape || !json[key].files) {\n return undefined;\n }\n // Besides 'quats' all other properties have mins and maxs\n if (key !== \"quats\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n }\n }\n // This is probably a PC SOGS file\n return json as PcSogsJson | PcSogsV2Json;\n } catch {\n return undefined;\n }\n}\n\nexport function tryPcSogsZip(\n input: ArrayBuffer | Uint8Array,\n): { name: string; json: PcSogsJson | PcSogsV2Json } | undefined {\n try {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let metaFilename: string | null = null;\n\n const unzipped = unzipSync(fileBytes, {\n filter: ({ name }) => {\n const filename = name.split(/[\\\\/]/).pop() as string;\n if (filename === \"meta.json\") {\n metaFilename = name;\n return true;\n }\n return false;\n },\n });\n if (!metaFilename) {\n return undefined;\n }\n\n // Check for PC SOGS V1 and V2 (aka SOG)\n const json = tryPcSogs(unzipped[metaFilename]);\n if (!json) {\n return undefined;\n }\n return { name: metaFilename, json };\n } catch {\n return undefined;\n }\n}\n\nexport async function unpackSplats({\n input,\n extraFiles,\n fileType,\n pathOrUrl,\n splatEncoding,\n}: {\n input: Uint8Array | ArrayBuffer;\n extraFiles?: Record;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n splatEncoding?: SplatEncoding;\n}): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra?: Record;\n}> {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let splatFileType = fileType;\n if (!fileType) {\n splatFileType = getSplatFileType(fileBytes);\n if (!splatFileType && pathOrUrl) {\n splatFileType = getSplatFileTypeFromPath(pathOrUrl);\n }\n }\n\n switch (splatFileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n const maxSplats = getTextureSize(numSplats).maxSplats;\n const args = {\n fileBytes,\n packedArray: new Uint32Array(maxSplats * 4),\n splatEncoding,\n };\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"unpackPly\",\n args,\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPZ: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeSpz\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats } = (await worker.call(\n \"decodeAntiSplat\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as { packedArray: Uint32Array; numSplats: number };\n return { packedArray, numSplats };\n });\n }\n case SplatFileType.KSPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeKsplat\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGS: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogs\",\n { fileBytes, extraFiles, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGSZIP: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogsZip\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n default: {\n throw new Error(`Unknown splat file type: ${splatFileType}`);\n }\n }\n}\n\nexport class SplatData {\n numSplats: number;\n maxSplats: number;\n centers: Float32Array;\n scales: Float32Array;\n quaternions: Float32Array;\n opacities: Float32Array;\n colors: Float32Array;\n sh1?: Float32Array;\n sh2?: Float32Array;\n sh3?: Float32Array;\n\n constructor({ maxSplats = 1 }: { maxSplats?: number } = {}) {\n this.numSplats = 0;\n this.maxSplats = getTextureSize(maxSplats).maxSplats;\n this.centers = new Float32Array(this.maxSplats * 3);\n this.scales = new Float32Array(this.maxSplats * 3);\n this.quaternions = new Float32Array(this.maxSplats * 4);\n this.opacities = new Float32Array(this.maxSplats);\n this.colors = new Float32Array(this.maxSplats * 3);\n }\n\n pushSplat(): number {\n const index = this.numSplats;\n this.ensureIndex(index);\n this.numSplats += 1;\n return index;\n }\n\n unpushSplat(index: number) {\n if (index === this.numSplats - 1) {\n this.numSplats -= 1;\n } else {\n throw new Error(\"Cannot unpush splat from non-last position\");\n }\n }\n\n ensureCapacity(numSplats: number) {\n if (numSplats > this.maxSplats) {\n const targetSplats = Math.max(numSplats, this.maxSplats * 2);\n const newCenters = new Float32Array(targetSplats * 3);\n const newScales = new Float32Array(targetSplats * 3);\n const newQuaternions = new Float32Array(targetSplats * 4);\n const newOpacities = new Float32Array(targetSplats);\n const newColors = new Float32Array(targetSplats * 3);\n newCenters.set(this.centers);\n newScales.set(this.scales);\n newQuaternions.set(this.quaternions);\n newOpacities.set(this.opacities);\n newColors.set(this.colors);\n this.centers = newCenters;\n this.scales = newScales;\n this.quaternions = newQuaternions;\n this.opacities = newOpacities;\n this.colors = newColors;\n\n if (this.sh1) {\n const newSh1 = new Float32Array(targetSplats * 9);\n newSh1.set(this.sh1);\n this.sh1 = newSh1;\n }\n if (this.sh2) {\n const newSh2 = new Float32Array(targetSplats * 15);\n newSh2.set(this.sh2);\n this.sh2 = newSh2;\n }\n if (this.sh3) {\n const newSh3 = new Float32Array(targetSplats * 21);\n newSh3.set(this.sh3);\n this.sh3 = newSh3;\n }\n\n this.maxSplats = targetSplats;\n }\n }\n\n ensureIndex(index: number) {\n this.ensureCapacity(index + 1);\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n this.centers[index * 3] = x;\n this.centers[index * 3 + 1] = y;\n this.centers[index * 3 + 2] = z;\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n this.scales[index * 3] = scaleX;\n this.scales[index * 3 + 1] = scaleY;\n this.scales[index * 3 + 2] = scaleZ;\n }\n\n setQuaternion(index: number, x: number, y: number, z: number, w: number) {\n this.quaternions[index * 4] = x;\n this.quaternions[index * 4 + 1] = y;\n this.quaternions[index * 4 + 2] = z;\n this.quaternions[index * 4 + 3] = w;\n }\n\n setOpacity(index: number, opacity: number) {\n this.opacities[index] = opacity;\n }\n\n setColor(index: number, r: number, g: number, b: number) {\n this.colors[index * 3] = r;\n this.colors[index * 3 + 1] = g;\n this.colors[index * 3 + 2] = b;\n }\n\n setSh1(index: number, sh1: Float32Array) {\n if (!this.sh1) {\n this.sh1 = new Float32Array(this.maxSplats * 9);\n }\n for (let j = 0; j < 9; ++j) {\n this.sh1[index * 9 + j] = sh1[j];\n }\n }\n\n setSh2(index: number, sh2: Float32Array) {\n if (!this.sh2) {\n this.sh2 = new Float32Array(this.maxSplats * 15);\n }\n for (let j = 0; j < 15; ++j) {\n this.sh2[index * 15 + j] = sh2[j];\n }\n }\n\n setSh3(index: number, sh3: Float32Array) {\n if (!this.sh3) {\n this.sh3 = new Float32Array(this.maxSplats * 21);\n }\n for (let j = 0; j < 21; ++j) {\n this.sh3[index * 21 + j] = sh3[j];\n }\n }\n}\n\nexport async function transcodeSpz(\n input: TranscodeSpzInput,\n): Promise<{ input: TranscodeSpzInput; fileBytes: Uint8Array }> {\n return await withWorker(async (worker) => {\n const result = (await worker.call(\"transcodeSpz\", input)) as {\n input: TranscodeSpzInput;\n fileBytes: Uint8Array;\n };\n return result;\n });\n}\n\nexport type FileInput = {\n fileBytes: Uint8Array;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n transform?: { translate?: number[]; quaternion?: number[]; scale?: number };\n};\n\nexport type TranscodeSpzInput = {\n inputs: FileInput[];\n maxSh?: number;\n clipXyz?: { min: number[]; max: number[] };\n fractionalBits?: number;\n opacityThreshold?: number;\n};\n","import * as THREE from \"three\";\nimport { FullScreenQuad } from \"three/addons/postprocessing/Pass.js\";\n\nimport type { RgbaArray } from \"./RgbaArray\";\nimport type { GsplatGenerator } from \"./SplatGenerator\";\nimport { SplatLoader } from \"./SplatLoader\";\nimport type { SplatSource } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_WIDTH,\n type SplatEncoding,\n type SplatFileType,\n} from \"./defines\";\nimport {\n Dyno,\n DynoInt,\n DynoProgram,\n DynoProgramTemplate,\n type DynoType,\n DynoUniform,\n DynoUsampler2DArray,\n type DynoVal,\n DynoVec3,\n DynoVec4,\n add,\n dynoBlock,\n normalize,\n outputPackedSplat,\n sub,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport {\n type Gsplat,\n TPackedSplats,\n combineGsplat,\n definePackedSplats,\n readPackedSplat,\n splatTexCoord,\n splitGsplat,\n} from \"./dyno/splats\";\nimport { getShaders } from \"./shaders\";\nimport { getTextureSize, setPackedSplat, unpackSplat } from \"./utils\";\n\n// Initialize a PackedSplats collection from source data via\n// url, fileBytes, or packedArray. Creates an empty array if none are set,\n// and splat data can be constructed using pushSplat()/setSplat(). The maximum\n// splat size allocation will grow automatically, starting from maxSplats.\nexport type PackedSplatsOptions = {\n // URL to fetch a Gaussian splat file from (supports .ply, .splat, .ksplat,\n // .spz formats). (default: undefined)\n url?: string;\n // Raw bytes of a Gaussian splat file to decode directly instead of fetching\n // from URL. (default: undefined)\n fileBytes?: Uint8Array | ArrayBuffer;\n // Override the file type detection for formats that can't be reliably\n // auto-detected (.splat, .ksplat). (default: undefined auto-detects other\n // formats from file contents)\n fileType?: SplatFileType;\n // File name to use for type detection. (default: undefined)\n fileName?: string;\n // Stream to read the Gaussian splat file from. (default: undefined)\n stream?: ReadableStream;\n // Length of the stream in bytes. (default: undefined)\n streamLength?: number;\n // Reserve space for at least this many splats when constructing the collection\n // initially. The array will automatically resize past maxSplats so setting it is\n // an optional optimization. (default: 0)\n maxSplats?: number;\n // Use provided packed data array, where each 4 consecutive uint32 values\n // encode one \"packed\" Gsplat. (default: undefined)\n packedArray?: Uint32Array;\n // Override number of splats in packed array to use only a subset.\n // (default: length of packed array / 4)\n numSplats?: number;\n // Callback function to programmatically create splats at initialization.\n // (default: undefined)\n construct?: (splats: PackedSplats) => Promise | void;\n // Callback function called while downloading and initializing (default: undefined)\n onProgress?: (event: ProgressEvent) => void;\n // Additional splat data, such as spherical harmonics components (sh1, sh2, sh3). (default: {})\n extra?: Record;\n // Override the default splat encoding ranges for the PackedSplats.\n // (default: undefined)\n splatEncoding?: SplatEncoding;\n // Enable LOD. If a number is provided, it will be used as LoD level base,\n // otherwise the default 1.5 is used. When loading a file without pre-computed\n // LoD it will use the \"quick lod\" algorithm to generate one on-the-fly with\n // the selected LoD level base. (default: undefined=false)\n lod?: boolean | \"quality\";\n // Keep the original PackedSplats data before creating LoD version. (default: false)\n nonLod?: boolean;\n // Only create LoD if the input splat acount is above this\n lodAbove?: number;\n // The LoD version of the PackedSplats\n lodSplats?: PackedSplats;\n};\n\n// A PackedSplats is a collection of Gaussian splats, packed into a format that\n// takes exactly 16 bytes per Gsplat to maximize memory and cache efficiency.\n// The center xyz coordinates are encoded as float16 (3 x 2 bytes), scale xyz\n// as 3 x uint8 that encode a log scale from e^-12 to e^9, rgba as 4 x uint8,\n// and quaternion encoded via axis+angle using 2 x uint8 for octahedral encoding\n// of the axis direction and a uint8 to encode rotation amount from 0..Pi.\n\nexport class PackedSplats implements SplatSource {\n maxSplats = 0;\n numSplats = 0;\n packedArray: Uint32Array | null = null;\n extra: Record;\n maxSh = 3;\n splatEncoding?: SplatEncoding;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodSplats?: PackedSplats;\n\n initialized: Promise;\n isInitialized = false;\n\n // Either target or source will be non-null, depending on whether the PackedSplats\n // is being used as a data source or generated to.\n target: THREE.WebGLArrayRenderTarget | null = null;\n source: THREE.DataArrayTexture | null = null;\n // Set to true if source packedArray is updated to have it upload to GPU\n needsUpdate = true;\n\n // A PackedSplats can be used in a dyno graph using the below property dyno:\n // const gsplat = dyno.readPackedSplats(this.dyno, dynoIndex);\n dyno: DynoUniform;\n dynoRgbMinMaxLnScaleMinMax: DynoUniform<\"vec4\", \"rgbMinMaxLnScaleMinMax\">;\n dynoNumSh: DynoInt<\"numSh\">;\n dynoShMax: DynoVec3;\n\n constructor(options: PackedSplatsOptions = {}) {\n this.extra = {};\n this.dyno = new DynoPackedSplats({ packedSplats: this });\n this.dynoRgbMinMaxLnScaleMinMax = new DynoVec4({\n key: \"rgbMinMaxLnScaleMinMax\",\n value: new THREE.Vector4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX),\n update: (value) => {\n value.set(\n this.splatEncoding?.rgbMin ?? 0.0,\n this.splatEncoding?.rgbMax ?? 1.0,\n this.splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n this.splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n );\n return value;\n },\n });\n this.dynoNumSh = new DynoInt({\n key: \"numSh\",\n value: 0,\n update: () => {\n return Math.min(this.getNumSh(), this.maxSh);\n },\n });\n this.dynoShMax = new DynoVec3({\n key: \"shMax\",\n value: new THREE.Vector3(),\n update: (value) => {\n value.set(\n this.splatEncoding?.sh1Max ?? 1.0,\n this.splatEncoding?.sh2Max ?? 1.0,\n this.splatEncoding?.sh3Max ?? 1.0,\n );\n return value;\n },\n });\n\n // The following line will be overridden by reinitialize()\n this.initialized = Promise.resolve(this);\n this.reinitialize(options);\n }\n\n reinitialize(options: PackedSplatsOptions) {\n this.isInitialized = false;\n\n this.extra = {};\n this.maxSplats = options.maxSplats ?? 0;\n this.splatEncoding = options.splatEncoding;\n this.lod = options.lod;\n this.nonLod = options.nonLod;\n\n if (\n options.url ||\n options.fileBytes ||\n options.stream ||\n options.construct\n ) {\n // We need to initialize asynchronously given the options\n this.initialized = this.asyncInitialize(options).then(() => {\n this.isInitialized = true;\n return this;\n });\n } else {\n this.initialize(options);\n this.isInitialized = true;\n this.initialized = Promise.resolve(this);\n }\n }\n\n initialize(options: PackedSplatsOptions) {\n this.extra = options.extra ?? {};\n this.splatEncoding = options.splatEncoding ?? this.splatEncoding;\n this.lodSplats = options.lodSplats;\n\n if (options.packedArray) {\n this.packedArray = options.packedArray;\n this.numSplats = options.numSplats ?? this.packedArray.length / 4;\n\n // Calculate number of horizontal texture rows that could fit in array.\n // A properly initialized packedArray should already take into account the\n // width and height of the texture and be rounded up with padding.\n this.maxSplats = Math.floor(this.packedArray.length / 4);\n this.maxSplats =\n Math.floor(this.maxSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n this.numSplats = Math.min(\n this.maxSplats,\n options.numSplats ?? Number.POSITIVE_INFINITY,\n );\n } else {\n this.maxSplats = options.maxSplats ?? 0;\n this.numSplats = 0;\n }\n }\n\n async asyncInitialize(options: PackedSplatsOptions) {\n const {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n construct,\n lod,\n nonLod,\n lodAbove,\n } = options;\n this.lod = lod;\n this.nonLod = nonLod;\n\n const loader = new SplatLoader();\n if (fileBytes || url || stream) {\n await loader.loadInternalAsync({\n packedSplats: this,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress: options.onProgress,\n lodAbove,\n });\n }\n\n if (construct) {\n const maybePromise = construct(this);\n // If construct returns a promise, wait for it to complete\n if (maybePromise instanceof Promise) {\n await maybePromise;\n }\n }\n }\n\n // Call this when you are finished with the PackedSplats and want to free\n // any buffers it holds.\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target.texture.source.data = null;\n this.target = null;\n }\n if (this.source) {\n this.source.dispose();\n this.source.source.data = null;\n this.source = null;\n }\n\n this.packedArray = null;\n\n for (const key in this.extra) {\n const dyno = this.extra[key] as DynoUniform<\n DynoType,\n string,\n THREE.Texture\n >;\n if (dyno instanceof DynoUniform) {\n const texture = dyno.value;\n if (texture?.isTexture) {\n texture.dispose();\n texture.source.data = null;\n }\n }\n }\n this.extra = {};\n\n this.disposeLodSplats();\n }\n\n prepareFetchSplat() {\n // console.info(\"PackedSplats.prepareFetchSplat\");\n }\n\n getNumSplats(): number {\n return this.numSplats;\n }\n\n hasRgbDir(): boolean {\n return Math.min(this.getNumSh(), this.maxSh) > 0;\n }\n\n getNumSh(): number {\n return !this.extra.sh1 ? 0 : !this.extra.sh2 ? 1 : !this.extra.sh3 ? 2 : 3;\n }\n\n setMaxSh(maxSh: number) {\n this.maxSh = maxSh;\n }\n\n fetchSplat({\n index,\n viewOrigin,\n }: { index: DynoVal<\"int\">; viewOrigin?: DynoVal<\"vec3\"> }): DynoVal<\n typeof Gsplat\n > {\n let gsplat = readPackedSplat(this.dyno, index);\n\n if (this.hasRgbDir() && viewOrigin) {\n const splatCenter = splitGsplat(gsplat).outputs.center;\n const viewDir = normalize(sub(splatCenter, viewOrigin));\n const { sh1Texture, sh2Texture, sh3Texture } = this.ensureShTextures();\n let { rgb } = evaluatePackedSH({\n coord: splatTexCoord(index),\n viewDir,\n numSh: this.dynoNumSh,\n sh1Texture,\n sh2Texture,\n sh3Texture,\n shMax: this.dynoShMax,\n });\n rgb = add(rgb, splitGsplat(gsplat).outputs.rgb);\n gsplat = combineGsplat({ gsplat, rgb });\n }\n return gsplat;\n }\n\n private ensureShTextures(): {\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3Texture?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n } {\n // Ensure we have textures for SH1..SH3 if we have data\n if (!this.extra.sh1) {\n return {};\n }\n\n let sh1Texture = this.extra.sh1Texture as\n | DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>\n | undefined;\n if (!sh1Texture) {\n let sh1 = this.extra.sh1 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh1.length / 2,\n );\n if (sh1.length < maxSplats * 2) {\n const newSh1 = new Uint32Array(maxSplats * 2);\n newSh1.set(sh1);\n this.extra.sh1 = newSh1;\n sh1 = newSh1;\n }\n\n const texture = new THREE.DataArrayTexture(sh1, width, height, depth);\n texture.format = THREE.RGIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RG32UI\";\n texture.needsUpdate = true;\n\n sh1Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh1\",\n });\n this.extra.sh1Texture = sh1Texture;\n }\n\n if (!this.extra.sh2) {\n return { sh1Texture };\n }\n\n let sh2Texture = this.extra.sh2Texture as\n | DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>\n | undefined;\n if (!sh2Texture) {\n let sh2 = this.extra.sh2 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh2.length / 4,\n );\n if (sh2.length < maxSplats * 4) {\n const newSh2 = new Uint32Array(maxSplats * 4);\n newSh2.set(sh2);\n this.extra.sh2 = newSh2;\n sh2 = newSh2;\n }\n\n const texture = new THREE.DataArrayTexture(sh2, width, height, depth);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n\n sh2Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh2\",\n });\n this.extra.sh2Texture = sh2Texture;\n }\n\n if (!this.extra.sh3) {\n return { sh1Texture, sh2Texture };\n }\n\n let sh3Texture = this.extra.sh3Texture as\n | DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>\n | undefined;\n if (!sh3Texture) {\n let sh3 = this.extra.sh3 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh3.length / 4,\n );\n if (sh3.length < maxSplats * 4) {\n const newSh3 = new Uint32Array(maxSplats * 4);\n newSh3.set(sh3);\n this.extra.sh3 = newSh3;\n sh3 = newSh3;\n }\n\n const texture = new THREE.DataArrayTexture(sh3, width, height, depth);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n\n sh3Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh3\",\n });\n this.extra.sh3Texture = sh3Texture;\n }\n\n return { sh1Texture, sh2Texture, sh3Texture };\n }\n\n // Ensures that this.packedArray can fit numSplats Gsplats. If it's too small,\n // resize exponentially and copy over the original data.\n //\n // Typically you don't need to call this, because calling this.setSplat(index, ...)\n // and this.pushSplat(...) will automatically call ensureSplats() so we have\n // enough splats.\n ensureSplats(numSplats: number): Uint32Array {\n const targetSize =\n numSplats <= this.maxSplats\n ? this.maxSplats\n : // Grow exponentially to avoid frequent reallocations\n Math.max(numSplats, 2 * this.maxSplats);\n const currentSize = !this.packedArray ? 0 : this.packedArray.length / 4;\n\n if (!this.packedArray || targetSize > currentSize) {\n this.maxSplats = getTextureSize(targetSize).maxSplats;\n const newArray = new Uint32Array(this.maxSplats * 4);\n if (this.packedArray) {\n // Copy over existing data\n newArray.set(this.packedArray);\n }\n this.packedArray = newArray;\n }\n return this.packedArray;\n }\n\n // Ensure the extra array for the given level is large enough to hold numSplats\n ensureSplatsSh(level: number, numSplats: number): Uint32Array {\n let wordsPerSplat: number;\n let key: string;\n if (level === 0) {\n return this.ensureSplats(numSplats);\n }\n if (level === 1) {\n // 3 x 3 uint7 = 63 bits = 2 uint32\n wordsPerSplat = 2;\n key = \"sh1\";\n } else if (level === 2) {\n // 5 x 3 uint8 = 120 bits = 4 uint32\n wordsPerSplat = 4;\n key = \"sh2\";\n } else if (level === 3) {\n // 7 x 3 uint6 = 126 bits = 4 uint32\n wordsPerSplat = 4;\n key = \"sh3\";\n } else {\n throw new Error(`Invalid level: ${level}`);\n }\n\n // Figure out our current and desired maxSplats\n let maxSplats: number = !this.extra[key]\n ? 0\n : (this.extra[key] as Uint32Array).length / wordsPerSplat;\n const targetSize =\n numSplats <= maxSplats ? maxSplats : Math.max(numSplats, 2 * maxSplats);\n\n if (!this.extra[key] || targetSize > maxSplats) {\n // Reallocate the array\n maxSplats = getTextureSize(targetSize).maxSplats;\n const newArray = new Uint32Array(maxSplats * wordsPerSplat);\n if (this.extra[key]) {\n // Copy over existing data\n newArray.set(this.extra[key] as Uint32Array);\n }\n this.extra[key] = newArray;\n }\n return this.extra[key] as Uint32Array;\n }\n\n // Unpack the 16-byte Gsplat data at index into the Three.js components\n // center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion,\n // opacity: number 0..1, color: THREE.Color 0..1.\n getSplat(index: number): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n opacity: number;\n color: THREE.Color;\n } {\n if (!this.packedArray || index >= this.numSplats) {\n throw new Error(\"Invalid index\");\n }\n return unpackSplat(this.packedArray, index, this.splatEncoding);\n }\n\n // Set all PackedSplat components at index with the provided Gsplat attributes\n // (can be the same objects returned by getSplat). Ensures there is capacity\n // for at least index+1 Gsplats.\n setSplat(\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const packedSplats = this.ensureSplats(index + 1);\n setPackedSplat(\n packedSplats,\n index,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n this.numSplats = Math.max(this.numSplats, index + 1);\n }\n\n // Effectively calls this.setSplat(this.numSplats++, center, ...), useful on\n // construction where you just want to iterate and create a collection of Gsplats.\n pushSplat(\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const packedSplats = this.ensureSplats(this.numSplats + 1);\n setPackedSplat(\n packedSplats,\n this.numSplats,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n ++this.numSplats;\n }\n\n // Iterate over Gsplats index 0..=(this.numSplats-1), unpack each Gsplat\n // and invoke the callback function with the Gsplat attributes.\n forEachSplat(\n callback: (\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => void,\n ) {\n if (!this.packedArray || !this.numSplats) {\n return;\n }\n for (let i = 0; i < this.numSplats; ++i) {\n const unpacked = unpackSplat(this.packedArray, i, this.splatEncoding);\n callback(\n i,\n unpacked.center,\n unpacked.scales,\n unpacked.quaternion,\n unpacked.opacity,\n unpacked.color,\n );\n }\n }\n\n // Ensures our PackedSplats.target render target has enough space to generate\n // maxSplats total Gsplats, and reallocate if not large enough.\n ensureGenerate(maxSplats: number): boolean {\n if (this.target && (maxSplats ?? 1) <= this.maxSplats) {\n return false;\n }\n if (this.target) {\n this.target.dispose();\n }\n\n const textureSize = getTextureSize(maxSplats ?? 1);\n const { width, height, depth } = textureSize;\n this.maxSplats = textureSize.maxSplats;\n\n // The packed Gsplats are stored in a 2D array texture of max size\n // 2048 x 2048 x 2048, one RGBA32UI pixel = 4 uint32 = one Gsplat\n this.target = new THREE.WebGLArrayRenderTarget(width, height, depth, {\n depthBuffer: false,\n stencilBuffer: false,\n generateMipmaps: false,\n magFilter: THREE.NearestFilter,\n minFilter: THREE.NearestFilter,\n });\n this.target.texture.format = THREE.RGBAIntegerFormat;\n this.target.texture.type = THREE.UnsignedIntType;\n this.target.texture.internalFormat = \"RGBA32UI\";\n this.target.scissorTest = true;\n return true;\n }\n\n // Given an array of splatCounts (.numSplats for each\n // SplatGenerator/SplatMesh in the scene), compute a\n // \"mapping layout\" in the composite array of generated outputs.\n generateMapping(splatCounts: number[]): {\n maxSplats: number;\n mapping: { base: number; count: number }[];\n } {\n let maxSplats = 0;\n const mapping = splatCounts.map((numSplats) => {\n const base = maxSplats;\n // Generation happens in horizontal row chunks, so round up to full width\n const rounded = Math.ceil(numSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n maxSplats += rounded;\n return { base, count: numSplats };\n });\n return { maxSplats, mapping };\n }\n\n // Returns a THREE.DataArrayTexture representing the PackedSplats content as\n // a Uint32x4 data array texture (2048 x 2048 x depth in size)\n getTexture(): THREE.DataArrayTexture {\n if (this.target) {\n // Return the render target's texture\n return this.target.texture;\n }\n if (this.source || this.packedArray) {\n // Update source texture if needed and return\n const source = this.maybeUpdateSource();\n return source;\n }\n\n return PackedSplats.getEmptyArray;\n }\n\n // Check if source texture needs to be created/updated\n private maybeUpdateSource(): THREE.DataArrayTexture {\n if (!this.packedArray) {\n throw new Error(\"No packed splats\");\n }\n\n if (this.needsUpdate || !this.source) {\n this.needsUpdate = false;\n\n if (this.source) {\n const { width, height, depth } = this.source.image;\n if (this.maxSplats !== width * height * depth) {\n // The existing source texture isn't the right size, so dispose it\n this.source.dispose();\n this.source = null;\n }\n }\n if (!this.source) {\n // Allocate a new source texture of the right size\n const { width, height, depth } = getTextureSize(this.maxSplats);\n this.source = new THREE.DataArrayTexture(\n this.packedArray as Uint32Array,\n width,\n height,\n depth,\n );\n this.source.format = THREE.RGBAIntegerFormat;\n this.source.type = THREE.UnsignedIntType;\n this.source.internalFormat = \"RGBA32UI\";\n this.source.needsUpdate = true;\n } else if (this.packedArray.buffer !== this.source.image.data.buffer) {\n // The source texture is the right size, update the data\n this.source.image.data = new Uint8Array(this.packedArray.buffer);\n }\n // Indicate to Three.js that the source texture needs to be uploaded to the GPU\n this.source.needsUpdate = true;\n }\n return this.source;\n }\n\n static getEmptyArray = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n // Get a program and THREE.RawShaderMaterial for a given GsplatGenerator,\n // generating it if necessary and caching the result.\n prepareProgramMaterial(generator: GsplatGenerator): {\n program: DynoProgram;\n material: THREE.RawShaderMaterial;\n } {\n let program = PackedSplats.generatorProgram.get(generator);\n if (!program) {\n // A Gsplat needs to be turned into a packed uvec4 for the dyno graph\n const graph = dynoBlock(\n { index: \"int\" },\n {},\n ({ index }, _outputs, { roots }) => {\n generator.inputs.index = index;\n const gsplat = generator.outputs.gsplat;\n const output = outputPackedSplat(\n gsplat,\n this.dynoRgbMinMaxLnScaleMinMax,\n );\n roots.push(output);\n return undefined;\n },\n );\n if (!PackedSplats.programTemplate) {\n PackedSplats.programTemplate = new DynoProgramTemplate(\n getShaders().computeUvec4Template,\n );\n }\n // Create a program from the template and graph\n program = new DynoProgram({\n graph,\n inputs: { index: \"_index\" },\n outputs: { output: \"target\" },\n template: PackedSplats.programTemplate,\n });\n Object.assign(program.uniforms, {\n targetLayer: { value: 0 },\n targetBase: { value: 0 },\n targetCount: { value: 0 },\n });\n PackedSplats.generatorProgram.set(generator, program);\n }\n\n // Prepare and update our material we'll use to render the Gsplats\n const material = program.prepareMaterial();\n PackedSplats.fullScreenQuad.material = material;\n return { program, material };\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n // Executes a dyno program specified by generator which is any DynoBlock that\n // maps { index: \"int\" } to { gsplat: Gsplat }. This is called in\n // SparkRenderer.updateInternal() to re-generate Gsplats in the scene for\n // SplatGenerator instances whose version is newer than what was generated\n // for it last time.\n generate({\n generator,\n base,\n count,\n renderer,\n }: {\n generator: GsplatGenerator;\n base: number;\n count: number;\n renderer: THREE.WebGLRenderer;\n }): { nextBase: number } {\n if (!this.target) {\n throw new Error(\"Target must be initialized with ensureSplats\");\n }\n if (base + count > this.maxSplats) {\n throw new Error(\"Base + count exceeds maxSplats\");\n }\n\n const { program, material } = this.prepareProgramMaterial(generator);\n program.update();\n\n const renderState = this.saveRenderState(renderer);\n\n // Generate the Gsplats in \"layer\" chunks, in horizontal row ranges,\n // that cover the total count of Gsplats.\n const nextBase =\n Math.ceil((base + count) / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n material.uniforms.targetBase.value = base;\n material.uniforms.targetCount.value = count;\n\n // Keep generating layers until we've reached the next generation's base\n while (base < nextBase) {\n const layer = Math.floor(base / layerSize);\n material.uniforms.targetLayer.value = layer;\n\n const layerBase = layer * layerSize;\n const layerYStart = Math.floor((base - layerBase) / SPLAT_TEX_WIDTH);\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((nextBase - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n // Render the desired portion of the layer\n this.target.scissor.set(\n 0,\n layerYStart,\n SPLAT_TEX_WIDTH,\n layerYEnd - layerYStart,\n );\n renderer.setRenderTarget(this.target, layer);\n renderer.xr.enabled = false;\n renderer.autoClear = false;\n PackedSplats.fullScreenQuad.render(renderer);\n\n base += SPLAT_TEX_WIDTH * (layerYEnd - layerYStart);\n }\n\n this.resetRenderState(renderer, renderState);\n return { nextBase };\n }\n\n disposeLodSplats() {\n if (this.lodSplats) {\n this.lodSplats.dispose();\n this.lodSplats = undefined;\n }\n }\n\n async createLodSplats({\n rgbaArray,\n quality,\n }: { rgbaArray?: RgbaArray; quality?: boolean } = {}) {\n const lodBase =\n typeof this.lod === \"number\"\n ? Math.max(1.1, Math.min(2.0, this.lod))\n : quality\n ? 1.75\n : 1.5;\n const packedArray = (this.packedArray as Uint32Array).slice();\n const rgba = rgbaArray ? (await rgbaArray.getArray()).slice() : undefined;\n const extra = {\n sh1: this.extra.sh1 ? (this.extra.sh1 as Uint32Array).slice() : undefined,\n sh2: this.extra.sh2 ? (this.extra.sh2 as Uint32Array).slice() : undefined,\n sh3: this.extra.sh3 ? (this.extra.sh3 as Uint32Array).slice() : undefined,\n };\n const decoded = await workerPool.withWorker(async (worker) => {\n return (await worker.call(\n quality ? \"qualityLodPackedSplats\" : \"tinyLodPackedSplats\",\n {\n numSplats: this.numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding: this.splatEncoding ?? DEFAULT_SPLAT_ENCODING,\n },\n )) as {\n numSplats: number;\n packedArray: Uint32Array;\n extra: Record;\n splatEncoding: SplatEncoding;\n };\n });\n\n const lodSplats = new PackedSplats(decoded);\n if (this.lodSplats) {\n this.lodSplats.dispose();\n }\n\n this.lodSplats = lodSplats;\n this.nonLod = true;\n this.lod = quality ? \"quality\" : true;\n }\n\n extractSplats(indices: Uint32Array, pageColoring: boolean) {\n const maxSplats = getTextureSize(indices.length).maxSplats;\n const newSplats = new PackedSplats({ maxSplats });\n for (let i = 0; i < indices.length; i++) {\n const splat = this.getSplat(indices[i]);\n if (pageColoring) {\n let hue = (indices[i] >>> 16) * 0.61803398875;\n hue = hue - Math.floor(hue);\n const r = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 3.0) - 1.0));\n const g = Math.max(0, Math.min(1, Math.abs(hue * 6.0 + 1.0) - 1.0));\n const b = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 1.0) - 1.0));\n splat.color.r *= r;\n splat.color.g *= g;\n splat.color.b *= b;\n }\n newSplats.pushSplat(\n splat.center,\n splat.scales,\n splat.quaternion,\n splat.opacity,\n splat.color,\n );\n }\n return newSplats;\n }\n\n static programTemplate: DynoProgramTemplate | null = null;\n\n // Cache for GsplatGenerator programs\n static generatorProgram = new WeakMap();\n\n // Static full-screen quad for pseudo-compute shader rendering\n static fullScreenQuad = new FullScreenQuad(\n new THREE.RawShaderMaterial({ visible: false }),\n );\n\n static emptyUint32x4 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyUint32x2 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 2);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RG32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n}\n\n// You can use a PackedSplats as a dyno block using the function\n// dyno.readPackedSplats(packedSplats.dyno, dynoIndex) where\n// dynoIndex is of type DynoVal<\"int\">. If you need to be able to change\n// the input PackedSplats dynamically, however, you should create a\n// DynoPackedSplats, whose property packedSplats you can change to any\n// PackedSplats and that will be used in the dyno shader program.\n\nexport const dynoPackedSplats = (packedSplats?: PackedSplats) =>\n new DynoPackedSplats({ packedSplats });\n\nexport class DynoPackedSplats extends DynoUniform<\n typeof TPackedSplats,\n \"packedSplats\",\n {\n textureArray: THREE.DataArrayTexture;\n numSplats: number;\n rgbMinMaxLnScaleMinMax: THREE.Vector4;\n lodOpacity: boolean;\n }\n> {\n packedSplats?: PackedSplats;\n\n constructor({ packedSplats }: { packedSplats?: PackedSplats } = {}) {\n super({\n key: \"packedSplats\",\n type: TPackedSplats,\n globals: () => [definePackedSplats],\n value: {\n textureArray: PackedSplats.getEmptyArray,\n numSplats: 0,\n rgbMinMaxLnScaleMinMax: new THREE.Vector4(\n 0,\n 1,\n LN_SCALE_MIN,\n LN_SCALE_MAX,\n ),\n lodOpacity: false,\n },\n update: (value) => {\n value.textureArray =\n this.packedSplats?.getTexture() ?? PackedSplats.getEmptyArray;\n value.numSplats = this.packedSplats?.numSplats ?? 0;\n value.rgbMinMaxLnScaleMinMax.set(\n this.packedSplats?.splatEncoding?.rgbMin ?? 0,\n this.packedSplats?.splatEncoding?.rgbMax ?? 1,\n this.packedSplats?.splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n this.packedSplats?.splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n );\n value.lodOpacity =\n this.packedSplats?.splatEncoding?.lodOpacity ?? false;\n return value;\n },\n });\n this.packedSplats = packedSplats;\n }\n}\n\nexport const defineEvalPackedSH1 = unindent(`\n vec3 evaluatePackedSH1(uvec2 packed, vec3 viewDir, float sh1Max) {\n // Extract sint7 values packed into 2 x uint32\n vec3 sh1_0 = vec3(ivec3(\n int(packed.x << 25u) >> 25,\n int(packed.x << 18u) >> 25,\n int(packed.x << 11u) >> 25\n ));\n vec3 sh1_1 = vec3(ivec3(\n int(packed.x << 4u) >> 25,\n int((packed.x >> 3u) | (packed.y << 29u)) >> 25,\n int(packed.y << 22u) >> 25\n ));\n vec3 sh1_2 = vec3(ivec3(\n int(packed.y << 15u) >> 25,\n int(packed.y << 8u) >> 25,\n int(packed.y << 1u) >> 25\n ));\n\n vec3 rgb = sh1_0 * (-0.4886025 * viewDir.y)\n + sh1_1 * (0.4886025 * viewDir.z)\n + sh1_2 * (-0.4886025 * viewDir.x);\n return rgb * (sh1Max / 63.0);\n }\n`);\n\nexport const defineEvalPackedSH2 = unindent(`\n vec3 evaluatePackedSH2(uvec4 packed, vec3 viewDir, float sh2Max) {\n // Extract sint8 values packed into 4 x uint32\n vec3 sh2_0 = vec3(ivec3(\n int(packed.x << 24u) >> 24,\n int(packed.x << 16u) >> 24,\n int(packed.x << 8u) >> 24\n ));\n vec3 sh2_1 = vec3(ivec3(\n int(packed.x) >> 24,\n int(packed.y << 24u) >> 24,\n int(packed.y << 16u) >> 24\n ));\n vec3 sh2_2 = vec3(ivec3(\n int(packed.y << 8u) >> 24,\n int(packed.y) >> 24,\n int(packed.z << 24u) >> 24\n ));\n vec3 sh2_3 = vec3(ivec3(\n int(packed.z << 16u) >> 24,\n int(packed.z << 8u) >> 24,\n int(packed.z) >> 24\n ));\n vec3 sh2_4 = vec3(ivec3(\n int(packed.w << 24u) >> 24,\n int(packed.w << 16u) >> 24,\n int(packed.w << 8u) >> 24\n ));\n\n vec3 rgb = sh2_0 * (1.0925484 * viewDir.x * viewDir.y)\n + sh2_1 * (-1.0925484 * viewDir.y * viewDir.z)\n + sh2_2 * (0.3153915 * (2.0 * viewDir.z * viewDir.z - viewDir.x * viewDir.x - viewDir.y * viewDir.y))\n + sh2_3 * (-1.0925484 * viewDir.x * viewDir.z)\n + sh2_4 * (0.5462742 * (viewDir.x * viewDir.x - viewDir.y * viewDir.y));\n return rgb * (sh2Max / 127.0);\n }\n`);\n\nexport const defineEvalPackedSH3 = unindent(`\n vec3 evaluatePackedSH3(uvec4 packed, vec3 viewDir, float sh3Max) {\n // Extract sint6 values packed into 4 x uint32\n vec3 sh3_0 = vec3(ivec3(\n int(packed.x << 26u) >> 26,\n int(packed.x << 20u) >> 26,\n int(packed.x << 14u) >> 26\n ));\n vec3 sh3_1 = vec3(ivec3(\n int(packed.x << 8u) >> 26,\n int(packed.x << 2u) >> 26,\n int((packed.x >> 4u) | (packed.y << 28u)) >> 26\n ));\n vec3 sh3_2 = vec3(ivec3(\n int(packed.y << 22u) >> 26,\n int(packed.y << 16u) >> 26,\n int(packed.y << 10u) >> 26\n ));\n vec3 sh3_3 = vec3(ivec3(\n int(packed.y << 4u) >> 26,\n int((packed.y >> 2u) | (packed.z << 30u)) >> 26,\n int(packed.z << 24u) >> 26\n ));\n vec3 sh3_4 = vec3(ivec3(\n int(packed.z << 18u) >> 26,\n int(packed.z << 12u) >> 26,\n int(packed.z << 6u) >> 26\n ));\n vec3 sh3_5 = vec3(ivec3(\n int(packed.z) >> 26,\n int(packed.w << 26u) >> 26,\n int(packed.w << 20u) >> 26\n ));\n vec3 sh3_6 = vec3(ivec3(\n int(packed.w << 14u) >> 26,\n int(packed.w << 8u) >> 26,\n int(packed.w << 2u) >> 26\n ));\n\n float xx = viewDir.x * viewDir.x;\n float yy = viewDir.y * viewDir.y;\n float zz = viewDir.z * viewDir.z;\n float xy = viewDir.x * viewDir.y;\n float yz = viewDir.y * viewDir.z;\n float zx = viewDir.z * viewDir.x;\n\n vec3 rgb = sh3_0 * (-0.5900436 * viewDir.y * (3.0 * xx - yy))\n + sh3_1 * (2.8906114 * xy * viewDir.z) +\n + sh3_2 * (-0.4570458 * viewDir.y * (4.0 * zz - xx - yy))\n + sh3_3 * (0.3731763 * viewDir.z * (2.0 * zz - 3.0 * xx - 3.0 * yy))\n + sh3_4 * (-0.4570458 * viewDir.x * (4.0 * zz - xx - yy))\n + sh3_5 * (1.4453057 * viewDir.z * (xx - yy))\n + sh3_6 * (-0.5900436 * viewDir.x * (xx - 3.0 * yy));\n return rgb * (sh3Max / 31.0);\n }\n`);\n\nexport function evaluatePackedSH({\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3Texture,\n shMax,\n}: {\n coord: DynoVal<\"ivec3\">;\n viewDir: DynoVal<\"vec3\">;\n numSh: DynoVal<\"int\">;\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3Texture?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n shMax: DynoVal<\"vec3\">;\n}) {\n return new Dyno({\n inTypes: {\n coord: \"ivec3\",\n viewDir: \"vec3\",\n numSh: \"int\",\n sh1Texture: \"usampler2DArray\",\n sh2Texture: \"usampler2DArray\",\n sh3Texture: \"usampler2DArray\",\n shMax: \"vec3\",\n },\n outTypes: { rgb: \"vec3\" },\n inputs: {\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3Texture,\n shMax,\n },\n globals: () => [\n defineEvalPackedSH1,\n defineEvalPackedSH2,\n defineEvalPackedSH3,\n ],\n statements: ({ inputs, outputs }) => {\n const lines = [\"vec3 rgb = vec3(0.0);\"];\n if (inputs.sh1Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 1) {\n vec3 sh1Rgb = evaluatePackedSH1(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0).rg, ${inputs.viewDir}, ${inputs.shMax}.x);\n rgb += sh1Rgb;\n `),\n );\n if (inputs.sh2Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 2) {\n vec3 sh2Rgb = evaluatePackedSH2(texelFetch(${inputs.sh2Texture}, ${inputs.coord}, 0), ${inputs.viewDir}, ${inputs.shMax}.y);\n rgb += sh2Rgb;\n `),\n );\n if (inputs.sh3Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 3) {\n vec3 sh3Rgb = evaluatePackedSH3(texelFetch(${inputs.sh3Texture}, ${inputs.coord}, 0), ${inputs.viewDir}, ${inputs.shMax}.z);\n rgb += sh3Rgb;\n }\n `),\n );\n }\n lines.push(\"}\");\n }\n lines.push(\"}\");\n }\n lines.push(`${outputs.rgb} = rgb;`);\n return lines;\n },\n }).outputs;\n}\n","import * as THREE from \"three\";\n\nimport type { OldSparkRenderer } from \"./OldSparkRenderer\";\nimport type { OldSplatAccumulator } from \"./OldSplatAccumulator\";\nimport { OldSplatGeometry } from \"./OldSplatGeometry\";\nimport { withWorker } from \"./OldSplatWorker\";\nimport { DynoPackedSplats } from \"./PackedSplats\";\nimport { Readback } from \"./Readback\";\nimport {\n type DynoBlock,\n DynoBool,\n DynoFloat,\n type DynoVal,\n DynoVec3,\n Gsplat,\n add,\n combine,\n defineGsplat,\n dyno,\n dynoBlock,\n dynoConst,\n floatBitsToUint,\n mul,\n packHalf2x16,\n readPackedSplat,\n uintToRgba8,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { FreeList, withinCoorientDist } from \"./utils\";\n\nexport type OldSparkViewpointOptions = {\n /**\n * Controls whether to auto-update its sort order whenever the SparkRenderer\n * updates the Gsplats. If you expect to render/display from this viewpoint\n * most frames, set this to true.\n * @default false\n */\n autoUpdate?: boolean;\n /**\n * Set a THREE.Camera for this viewpoint to follow.\n * @default undefined\n */\n camera?: THREE.Camera;\n /**\n * Set an explicit view-to-world transformation matrix for this viewpoint (equivalent\n * to camera.matrixWorld), overrides any camera setting.\n * @default undefined\n */\n viewToWorld?: THREE.Matrix4;\n /**\n * Configure viewpoint with an off-screen render target.\n * @default undefined\n */\n target?: {\n /**\n * Width of the render target in pixels.\n */\n width: number;\n /**\n * Height of the render target in pixels.\n */\n height: number;\n /**\n * If you want to be able to render a scene that depends on this target's\n * output (for example, a recursive viewport), set this to true to enable\n * double buffering.\n * @default false\n */\n doubleBuffer?: boolean;\n /**\n * Super-sampling factor for the render target. Values 1-4 are supported.\n * Note that re-sampling back down to .width x .height is done on the CPU\n * with simple averaging only when calling readTarget().\n * @default 1\n */\n superXY?: number;\n };\n /**\n * Callback function that is called when the render target texture is updated.\n * Receives the texture as a parameter. Use this to update a viewport with\n * the latest viewpoint render each frame.\n * @default undefined\n */\n onTextureUpdated?: (texture: THREE.Texture) => void;\n /**\n * Whether to sort splats radially (geometric distance) from the viewpoint (true)\n * or by Z-depth (false). Most scenes are trained with the Z-depth sort metric\n * and will render more accurately at certain viewpoints. However, radial sorting\n * is more stable under viewpoint rotations.\n * @default true\n */\n sortRadial?: boolean;\n /**\n * Distance threshold for re-sorting splats. If the viewpoint moves more than\n * this distance, splats will be re-sorted.\n * @default 0.01 units\n */\n sortDistance?: number;\n /**\n * View direction dot product threshold for re-sorting splats. For\n * sortRadial: true we use 0.99 while sortRadial: false uses 0.999 because it is\n * more sensitive to view direction.\n * @default 0.99 if sortRadial else 0.999\n */\n sortCoorient?: boolean;\n /**\n * Constant added to Z-depth to bias values into the positive range for\n * sortRadial: false, but also used for culling Gsplats \"well behind\"\n * the viewpoint origin\n * @default 1.0\n */\n depthBias?: number;\n /**\n * Set this to true if rendering a 360 to disable \"behind the viewpoint\"\n * culling during sorting. This is set automatically when rendering 360 envMaps\n * using the SparkRenderer.renderEnvMap() utility function.\n * @default false\n */\n sort360?: boolean;\n /*\n * Set this to true to sort with float32 precision with two-pass sort.\n * @default true\n */\n sort32?: boolean;\n /*\n * Set this to true to enable sort-free stochastic splat rendering.\n * @default false\n */\n stochastic?: boolean;\n};\n\n// A SparkViewpoint is created from and tied to a SparkRenderer, and represents\n// an independent viewpoint of all the scene Gsplats and their sort order. Making\n// these viewpoints explicit allows us to have multiple, simultaneous viewpoint\n// renders, for example for camera preview panes or overhead map views.\n//\n// When creating a SparkRenderer it automatically creates a default viewpoint\n// .defaultView that is used in the normal render loop when drawing to the canvas,\n// and is automatically updated whenever the camera moves. Additional viewpoints\n// can be created and configured separately.\n\nexport class OldSparkViewpoint {\n spark: OldSparkRenderer;\n autoUpdate: boolean;\n camera?: THREE.Camera;\n viewToWorld: THREE.Matrix4;\n lastTime: number | null = null;\n\n target?: THREE.WebGLRenderTarget;\n private back?: THREE.WebGLRenderTarget;\n onTextureUpdated?: (texture: THREE.Texture) => void;\n encodeLinear = false;\n superXY = 1;\n private superPixels?: Uint8Array;\n private pixels?: Uint8Array;\n\n sortRadial: boolean;\n sortDistance?: number;\n sortCoorient?: boolean;\n depthBias?: number;\n sort360?: boolean;\n sort32?: boolean;\n stochastic: boolean;\n\n display: {\n accumulator: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n geometry: OldSplatGeometry;\n } | null = null;\n\n private sorting: { viewToWorld: THREE.Matrix4 } | null = null;\n private pending: {\n accumulator?: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n displayed: boolean;\n } | null = null;\n private sortingCheck = false;\n\n private readback16: Uint16Array = new Uint16Array(0);\n private readback32: Uint32Array = new Uint32Array(0);\n private orderingFreelist: FreeList;\n\n constructor(options: OldSparkViewpointOptions & { spark: OldSparkRenderer }) {\n this.spark = options.spark;\n this.camera = options.camera;\n this.viewToWorld = options.viewToWorld ?? new THREE.Matrix4();\n\n if (options.target) {\n const { width, height, doubleBuffer } = options.target;\n const superXY = Math.max(1, Math.min(4, options.target.superXY ?? 1));\n this.superXY = superXY;\n if (width * superXY > 8192 || height * superXY > 8192) {\n throw new Error(\"Target size too large\");\n }\n\n this.target = new THREE.WebGLRenderTarget(\n width * superXY,\n height * superXY,\n {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n colorSpace: THREE.SRGBColorSpace,\n },\n );\n if (doubleBuffer) {\n this.back = new THREE.WebGLRenderTarget(\n width * superXY,\n height * superXY,\n {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n colorSpace: THREE.SRGBColorSpace,\n },\n );\n }\n this.encodeLinear = true;\n }\n this.onTextureUpdated = options.onTextureUpdated;\n\n this.sortRadial = options.sortRadial ?? true;\n this.sortDistance = options.sortDistance;\n this.sortCoorient = options.sortCoorient;\n this.depthBias = options.depthBias;\n this.sort360 = options.sort360;\n this.sort32 = options.sort32;\n this.stochastic = options.stochastic ?? false;\n\n this.orderingFreelist = new FreeList({\n allocate: (maxSplats) =>\n new Uint32Array(maxSplats) as Uint32Array,\n valid: (ordering, maxSplats) => ordering.length === maxSplats,\n });\n\n this.autoUpdate = false;\n this.setAutoUpdate(options.autoUpdate ?? false);\n }\n\n // Call this when you are done with the SparkViewpoint and want to\n // free up its resources (GPU targets, pixel buffers, etc.)\n dispose() {\n this.setAutoUpdate(false);\n if (this.target) {\n this.target.dispose();\n this.target = undefined;\n }\n if (this.back) {\n this.back.dispose();\n this.back = undefined;\n }\n if (this.display) {\n this.spark.releaseAccumulator(this.display.accumulator);\n this.display.geometry.dispose();\n this.display = null;\n }\n if (this.pending?.accumulator) {\n this.spark.releaseAccumulator(this.pending.accumulator);\n this.pending = null;\n }\n }\n\n // Use this function to change whether this viewpoint will auto-update\n // its sort order whenever the attached SparkRenderer updates the Gsplats.\n // Turn this on or off depending on whether you expect to do renders from\n // this viewpoint most frames.\n setAutoUpdate(autoUpdate: boolean) {\n if (!this.autoUpdate && autoUpdate) {\n this.spark.autoViewpoints.push(this);\n } else if (this.autoUpdate && !autoUpdate) {\n this.spark.autoViewpoints = this.spark.autoViewpoints.filter(\n (v) => v !== this,\n );\n }\n this.autoUpdate = autoUpdate;\n }\n\n // See below async prepareRenderPixels() for explanation of parameters.\n // Awaiting this method updates the Gsplats in the scene and performs a sort of the\n // Gsplats from this viewpoint, preparing it for a subsequent this.renderTarget()\n // call in the same tick.\n async prepare({\n scene,\n camera,\n viewToWorld,\n update,\n forceOrigin,\n }: {\n scene: THREE.Scene;\n camera?: THREE.Camera;\n viewToWorld?: THREE.Matrix4;\n update?: boolean;\n forceOrigin?: boolean;\n }) {\n if (viewToWorld) {\n this.viewToWorld = viewToWorld;\n } else {\n this.camera = camera ?? this.camera;\n if (this.camera) {\n this.camera.updateMatrixWorld();\n this.viewToWorld = this.camera.matrixWorld.clone();\n }\n }\n while (update ?? true) {\n // Force an update, possibly with origin centered at this camera\n // to yield the best quality output.\n const originToWorld = forceOrigin\n ? this.viewToWorld\n : this.spark.matrixWorld;\n const updated = this.spark.updateInternal({ scene, originToWorld });\n if (updated) {\n break;\n }\n // A bit of a hack, but try again. We shouldn't be starved for long.\n await new Promise((resolve) => setTimeout(resolve, 10));\n }\n\n const accumulator = this.spark.active;\n // Hold reference to accumulator while sorting\n accumulator.refCount += 1;\n await this.sortUpdate({ accumulator, viewToWorld: this.viewToWorld });\n // Release accumulator reference\n this.spark.releaseAccumulator(accumulator);\n }\n\n // Render out the viewpoint to the view target RGBA buffer.\n // Swaps buffers if doubleBuffer: true was set.\n // Calls onTextureUpdated(texture) with the resulting texture.\n renderTarget({\n scene,\n camera,\n }: { scene: THREE.Scene; camera?: THREE.Camera }) {\n const target = this.back ?? this.target;\n if (!target) {\n throw new Error(\"Must initialize SparkViewpoint with target\");\n }\n\n camera = camera ?? this.camera;\n if (!camera) {\n throw new Error(\"Must provide camera\");\n }\n if (camera instanceof THREE.PerspectiveCamera) {\n const newCam = new THREE.PerspectiveCamera().copy(camera, false);\n newCam.aspect = target.width / target.height;\n newCam.updateProjectionMatrix();\n camera = newCam;\n }\n this.viewToWorld = camera.matrixWorld.clone();\n\n const previousTarget = this.spark.renderer.getRenderTarget();\n try {\n this.spark.renderer.setRenderTarget(target);\n this.spark.prepareViewpoint(this);\n\n this.spark.renderer.render(scene, camera);\n } finally {\n this.spark.prepareViewpoint(this.spark.defaultView);\n this.spark.renderer.setRenderTarget(previousTarget);\n }\n\n if (target !== this.target) {\n // Swap back buffer and target\n [this.target, this.back] = [this.back, this.target];\n }\n this.onTextureUpdated?.(target.texture);\n }\n\n // Read back the previously rendered target image as a Uint8Array of packed\n // RGBA values (in that order). If superXY was set greater than 1 then\n // downsampling is performed in the target pixel array with simple averaging\n // to derive the returned pixel values. Subsequent calls to this.readTarget()\n // will reuse the same buffers to minimize memory allocations.\n async readTarget(): Promise {\n if (!this.target) {\n throw new Error(\"Must initialize SparkViewpoint with target\");\n }\n const { width, height } = this.target;\n const byteSize = width * height * 4;\n if (!this.superPixels || this.superPixels.length < byteSize) {\n this.superPixels = new Uint8Array(byteSize);\n }\n await this.spark.renderer.readRenderTargetPixelsAsync(\n this.target,\n 0,\n 0,\n width,\n height,\n this.superPixels,\n );\n\n const { superXY } = this;\n if (superXY === 1) {\n return this.superPixels;\n }\n\n const subWidth = width / superXY;\n const subHeight = height / superXY;\n const subSize = subWidth * subHeight * 4;\n if (!this.pixels || this.pixels.length < subSize) {\n this.pixels = new Uint8Array(subSize);\n }\n\n const { superPixels, pixels } = this;\n const super2 = superXY * superXY;\n for (let y = 0; y < subHeight; y++) {\n const row = y * subWidth;\n for (let x = 0; x < subWidth; x++) {\n const superCol = x * superXY;\n let r = 0;\n let g = 0;\n let b = 0;\n let a = 0;\n for (let sy = 0; sy < superXY; sy++) {\n const superRow = (y * superXY + sy) * this.target.width;\n for (let sx = 0; sx < superXY; sx++) {\n const superIndex = (superRow + superCol + sx) * 4;\n r += superPixels[superIndex];\n g += superPixels[superIndex + 1];\n b += superPixels[superIndex + 2];\n a += superPixels[superIndex + 3];\n }\n }\n const pixelIndex = (row + x) * 4;\n pixels[pixelIndex] = r / super2;\n pixels[pixelIndex + 1] = g / super2;\n pixels[pixelIndex + 2] = b / super2;\n pixels[pixelIndex + 3] = a / super2;\n }\n }\n return pixels;\n }\n\n // Render out a viewpoint as a Uint8Array of RGBA values for the provided scene\n // and any camera/viewToWorld viewpoint overrides. By default update is true,\n // which triggers its SparkRenderer to check and potentially update the Gsplats.\n // Setting update to false disables this and sorts the Gsplats as they are.\n // Setting forceOrigin (default: false) to true forces the view update to\n // recalculate the splats with this view origin, potentially altering any\n // view-dependent effects. If you expect view-dependent effects to play a role\n // in the rendering quality, enable this.\n //\n // Underneath, prepareRenderPixels() simply calls await this.prepare(...),\n // this.renderTarget(...), and finally returns the result this.readTarget(),\n // a Promise to a Uint8Array with RGBA values for all the pixels (potentially\n // downsampled if the superXY parameter was used). These steps can also be called\n // manually, for example if you need to alter the scene before and after\n // this.renderTarget(...) to hide UI elements from being rendered.\n async prepareRenderPixels({\n scene,\n camera,\n viewToWorld,\n update,\n forceOrigin,\n }: {\n scene: THREE.Scene;\n camera?: THREE.Camera;\n viewToWorld?: THREE.Matrix4;\n update?: boolean;\n forceOrigin?: boolean;\n }) {\n await this.prepare({ scene, camera, viewToWorld, update, forceOrigin });\n this.renderTarget({ scene, camera });\n return this.readTarget();\n }\n\n // This is called automatically by SparkRenderer, there is no need to call it!\n // The method cannot be private because then SparkRenderer would\n // not be able to call it.\n autoPoll({ accumulator }: { accumulator?: OldSplatAccumulator }) {\n if (this.camera) {\n this.camera.updateMatrixWorld();\n this.viewToWorld = this.camera.matrixWorld.clone();\n }\n\n let needsSort = false;\n let displayed = false;\n\n if (!this.display) {\n // Need to do first sort\n needsSort = true;\n } else if (accumulator) {\n needsSort = true;\n const { mappingVersion } = this.display.accumulator;\n if (accumulator.mappingVersion === mappingVersion) {\n // Splat mapping has not changed, so reuse the existing sorted\n // geometry to show updates faster. We will still fire off\n // a re-sort if necessary. First release old accumulator.\n accumulator.refCount += 1;\n this.spark.releaseAccumulator(this.display.accumulator);\n this.display.accumulator = accumulator;\n this.display.viewToWorld.copy(this.viewToWorld);\n displayed = true;\n\n if (this.spark.viewpoint === this) {\n this.spark.prepareViewpoint(this);\n }\n }\n }\n\n const latestView = this.sorting?.viewToWorld ?? this.display?.viewToWorld;\n if (\n latestView &&\n !withinCoorientDist({\n matrix1: this.viewToWorld,\n matrix2: latestView,\n // By default update sort each 1 cm\n maxDistance: this.sortDistance ?? 0.01,\n // By default for radial sort, update for intermittent movement so that\n // we bring back splats culled by being behind the camera.\n // For depth sort, small rotations can change sort order a lot, so\n // update sort for even small rotations.\n minCoorient: (this.sortCoorient ?? this.sortRadial) ? 0.99 : 0.999,\n })\n ) {\n needsSort = true;\n }\n\n if (!needsSort) {\n // Stop here, no sort necessary\n return;\n }\n\n if (accumulator) {\n // Hold a reference to the accumulator for sorting\n accumulator.refCount += 1;\n }\n\n if (this.pending?.accumulator) {\n this.spark.releaseAccumulator(this.pending.accumulator);\n }\n this.pending = { accumulator, viewToWorld: this.viewToWorld, displayed };\n\n // Don't await this, just trigger the sort if necessary\n this.driveSort();\n }\n\n private async driveSort() {\n while (true) {\n if (this.sorting || !this.pending) {\n return; // Sort already in process or nothing to sort\n }\n\n const { viewToWorld, displayed } = this.pending;\n let accumulator = this.pending.accumulator;\n if (!accumulator) {\n // Hold a reference to the accumulator while sorting\n accumulator = this.display?.accumulator ?? this.spark.active;\n accumulator.refCount += 1;\n }\n this.pending = null;\n if (!accumulator) {\n throw new Error(\"No accumulator to sort\");\n }\n\n this.sorting = { viewToWorld };\n await this.sortUpdate({ accumulator, viewToWorld, displayed });\n this.sorting = null;\n\n // Release the reference to the accumulator\n this.spark.releaseAccumulator(accumulator);\n\n // Continue in loop with any queued sort\n }\n }\n\n private async sortUpdate({\n accumulator,\n viewToWorld,\n displayed = false,\n }: {\n accumulator?: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n displayed?: boolean;\n }) {\n if (this.sortingCheck) {\n throw new Error(\"Only one sort at a time\");\n }\n this.sortingCheck = true;\n\n accumulator = accumulator ?? this.spark.active;\n const { numSplats, maxSplats } = accumulator.splats;\n let activeSplats = 0;\n let ordering = this.orderingFreelist.alloc(maxSplats);\n\n if (this.stochastic) {\n activeSplats = numSplats;\n // Render all splats in order since the Z-buffer\n // will handle ordering.\n for (let i = 0; i < numSplats; ++i) {\n ordering[i] = i;\n }\n } else if (numSplats > 0) {\n const {\n reader,\n doubleSortReader,\n sort32Reader,\n dynoSortRadial,\n dynoOrigin,\n dynoDirection,\n dynoDepthBias,\n dynoSort360,\n dynoSplats,\n } = OldSparkViewpoint.makeSorter();\n const sort32 = this.sort32 ?? false;\n let readback: Uint16Array | Uint32Array;\n if (sort32) {\n this.readback32 = reader.ensureBuffer(maxSplats, this.readback32);\n readback = this.readback32;\n } else {\n const halfMaxSplats = Math.ceil(maxSplats / 2);\n this.readback16 = reader.ensureBuffer(halfMaxSplats, this.readback16);\n readback = this.readback16;\n }\n\n const worldToOrigin = accumulator.toWorld.clone().invert();\n const viewToOrigin = viewToWorld.clone().premultiply(worldToOrigin);\n\n dynoSortRadial.value = this.sort360 ? true : this.sortRadial;\n dynoOrigin.value.set(0, 0, 0).applyMatrix4(viewToOrigin);\n dynoDirection.value\n .set(0, 0, -1)\n .applyMatrix4(viewToOrigin)\n .sub(dynoOrigin.value)\n .normalize();\n dynoDepthBias.value = this.depthBias ?? 1.0;\n dynoSort360.value = this.sort360 ?? false;\n dynoSplats.packedSplats = accumulator.splats;\n\n const sortReader = sort32 ? sort32Reader : doubleSortReader;\n const count = sort32 ? numSplats : Math.ceil(numSplats / 2);\n await reader.renderReadback({\n renderer: this.spark.renderer,\n reader: sortReader,\n count,\n readback,\n });\n\n const result = (await withWorker(async (worker) => {\n const rpcName = sort32 ? \"sort32Splats\" : \"sortDoubleSplats\";\n return worker.call(rpcName, {\n maxSplats,\n numSplats,\n readback,\n ordering,\n });\n })) as {\n readback: Uint16Array | Uint32Array;\n ordering: Uint32Array;\n activeSplats: number;\n };\n if (sort32) {\n this.readback32 = result.readback as Uint32Array;\n } else {\n this.readback16 = result.readback as Uint16Array;\n }\n ordering = result.ordering;\n activeSplats = result.activeSplats;\n }\n\n this.updateDisplay({\n accumulator,\n viewToWorld,\n ordering,\n activeSplats,\n displayed,\n });\n this.sortingCheck = false;\n }\n\n private updateDisplay({\n accumulator,\n viewToWorld,\n ordering,\n activeSplats,\n displayed = false,\n }: {\n accumulator: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n ordering: Uint32Array;\n activeSplats: number;\n displayed?: boolean;\n }) {\n if (!this.display) {\n // Hold a reference to the accumulator while part of display\n accumulator.refCount += 1;\n this.display = {\n accumulator,\n viewToWorld,\n geometry: new OldSplatGeometry(ordering, activeSplats),\n };\n } else {\n if (!displayed && accumulator !== this.display.accumulator) {\n // Hold a reference to the new accumulator being displayed\n accumulator.refCount += 1;\n // Release the reference to the previously displayed accumulator\n this.spark.releaseAccumulator(this.display.accumulator);\n this.display.accumulator = accumulator;\n }\n\n this.display.viewToWorld = viewToWorld;\n\n const oldOrdering = this.display.geometry.ordering;\n if (oldOrdering.length === ordering.length) {\n this.display.geometry.update(ordering, activeSplats);\n } else {\n this.display.geometry.dispose();\n // console.log(\"*** alloc SplatGeometry\", ordering.length);\n this.display.geometry = new OldSplatGeometry(ordering, activeSplats);\n }\n this.orderingFreelist.free(oldOrdering);\n }\n if (this.spark.viewpoint === this) {\n this.spark.prepareViewpoint(this);\n }\n }\n\n // If you need an empty THREE.Texture to use to initialize a uniform that is\n // updated via onTextureUpdated(texture), this static texture can be handy.\n static EMPTY_TEXTURE = new THREE.Texture();\n\n private static dynos: {\n dynoSortRadial: DynoBool;\n dynoOrigin: DynoVec3;\n dynoDirection: DynoVec3;\n dynoDepthBias: DynoFloat;\n dynoSort360: DynoBool;\n dynoSplats: DynoPackedSplats;\n reader: Readback;\n doubleSortReader: DynoBlock<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n sort32Reader: DynoBlock<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n } | null = null;\n\n private static makeSorter() {\n if (!OldSparkViewpoint.dynos) {\n const dynoSortRadial = new DynoBool({ value: true });\n const dynoOrigin = new DynoVec3({ value: new THREE.Vector3() });\n const dynoDirection = new DynoVec3({ value: new THREE.Vector3() });\n const dynoDepthBias = new DynoFloat({ value: 1.0 });\n const dynoSort360 = new DynoBool({ value: false });\n const dynoSplats = new DynoPackedSplats();\n\n const reader = new Readback();\n const doubleSortReader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n if (!index) {\n throw new Error(\"No index\");\n }\n const sortParams = {\n sortRadial: dynoSortRadial,\n sortOrigin: dynoOrigin,\n sortDirection: dynoDirection,\n sortDepthBias: dynoDepthBias,\n sort360: dynoSort360,\n };\n const index2 = mul(index, dynoConst(\"int\", 2));\n\n const gsplat0 = readPackedSplat(dynoSplats, index2);\n const metric0 = computeSortMetric({ gsplat: gsplat0, ...sortParams });\n\n const gsplat1 = readPackedSplat(\n dynoSplats,\n add(index2, dynoConst(\"int\", 1)),\n );\n const metric1 = computeSortMetric({ gsplat: gsplat1, ...sortParams });\n\n const combined = combine({\n vectorType: \"vec2\",\n x: metric0,\n y: metric1,\n });\n const rgba8 = uintToRgba8(packHalf2x16(combined));\n return { rgba8 };\n },\n );\n\n const sort32Reader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n if (!index) {\n throw new Error(\"No index\");\n }\n const sortParams = {\n sortRadial: dynoSortRadial,\n sortOrigin: dynoOrigin,\n sortDirection: dynoDirection,\n sortDepthBias: dynoDepthBias,\n sort360: dynoSort360,\n };\n\n const gsplat = readPackedSplat(dynoSplats, index);\n const metric = computeSortMetric({ gsplat, ...sortParams });\n const rgba8 = uintToRgba8(floatBitsToUint(metric));\n return { rgba8 };\n },\n );\n\n OldSparkViewpoint.dynos = {\n dynoSortRadial,\n dynoOrigin,\n dynoDirection,\n dynoDepthBias,\n dynoSort360,\n dynoSplats,\n reader,\n doubleSortReader,\n sort32Reader,\n };\n }\n return OldSparkViewpoint.dynos;\n }\n}\n\nconst defineComputeSortMetric = unindent(`\n float computeSort(Gsplat gsplat, bool sortRadial, vec3 sortOrigin, vec3 sortDirection, float sortDepthBias, bool sort360) {\n if (!isGsplatActive(gsplat.flags)) {\n return INFINITY;\n }\n\n vec3 center = gsplat.center - sortOrigin;\n float biasedDepth = dot(center, sortDirection) + sortDepthBias;\n if (!sort360 && (biasedDepth <= 0.0)) {\n return INFINITY;\n }\n\n return sortRadial ? length(center) : biasedDepth;\n }\n`);\n\nfunction computeSortMetric({\n gsplat,\n sortRadial,\n sortOrigin,\n sortDirection,\n sortDepthBias,\n sort360,\n}: {\n gsplat: DynoVal;\n sortRadial: DynoVal<\"bool\">;\n sortOrigin: DynoVal<\"vec3\">;\n sortDirection: DynoVal<\"vec3\">;\n sortDepthBias: DynoVal<\"float\">;\n sort360: DynoVal<\"bool\">;\n}) {\n return dyno({\n inTypes: {\n gsplat: Gsplat,\n sortRadial: \"bool\",\n sortOrigin: \"vec3\",\n sortDirection: \"vec3\",\n sortDepthBias: \"float\",\n sort360: \"bool\",\n },\n outTypes: { metric: \"float\" },\n globals: () => [defineGsplat, defineComputeSortMetric],\n inputs: {\n gsplat,\n sortRadial,\n sortOrigin,\n sortDirection,\n sortDepthBias,\n sort360,\n },\n statements: ({ inputs, outputs }) => {\n const {\n gsplat,\n sortRadial,\n sortOrigin,\n sortDirection,\n sortDepthBias,\n sort360,\n } = inputs;\n return unindentLines(`\n ${outputs.metric} = computeSort(${gsplat}, ${sortRadial}, ${sortOrigin}, ${sortDirection}, ${sortDepthBias}, ${sort360});\n `);\n },\n }).outputs.metric;\n}\n","import * as THREE from \"three\";\n\nimport { PackedSplats } from \"./PackedSplats\";\nimport type { GeneratorMapping } from \"./SplatAccumulator\";\nimport type { SplatGenerator, SplatModifier } from \"./SplatGenerator\";\n\n// SplatAccumulator helps manage the generation of splats from multiple\n// SplatGenerators, keeping track of the splat mapping, coordinate system,\n// and reference count.\n\nexport class OldSplatAccumulator {\n splats = new PackedSplats();\n // The transform from Accumulator coordinate system to world coordinates.\n toWorld = new THREE.Matrix4();\n // An array of all Gsplat mappings that were used for generation\n mapping: GeneratorMapping[] = [];\n // Number of SparkViewpoints (or other) that reference this accumulator, used\n // to figure out when it can be recycled for use\n refCount = 0;\n\n // Incremented every time the splats are updated/generated.\n splatsVersion = -1;\n // Incremented every time the splat mapping/layout is updated.\n // Splat sort order can be reused between equivalent mapping versions.\n mappingVersion = -1;\n\n ensureGenerate(maxSplats: number) {\n if (this.splats.ensureGenerate(maxSplats)) {\n // If we had to resize our PackedSplats then clear all previous mappings\n this.mapping = [];\n }\n }\n\n // Generate all Gsplats from an array of generators\n generateSplats({\n renderer,\n modifier,\n generators,\n forceUpdate,\n originToWorld,\n }: {\n renderer: THREE.WebGLRenderer;\n modifier: SplatModifier;\n generators: GeneratorMapping[];\n forceUpdate?: boolean;\n originToWorld: THREE.Matrix4;\n }) {\n // Create a lookup from last SplatGenerator\n const mapping = this.mapping.reduce((map, record) => {\n map.set(record.node, record);\n return map;\n }, new Map());\n\n // Run generators that are different from existing mapping\n let updated = 0;\n let numSplats = 0;\n for (const { node, generator, version, base, count } of generators) {\n const current = mapping.get(node);\n if (\n forceUpdate ||\n generator !== current?.generator ||\n version !== current?.version ||\n base !== current?.base ||\n count !== current?.count\n ) {\n // Something is different from before so we should generate these Gsplats\n if (generator && count > 0) {\n const modGenerator = modifier.apply(generator);\n try {\n this.splats.generate({\n generator: modGenerator,\n base,\n count,\n renderer,\n });\n } catch (error) {\n node.generator = undefined;\n node.generatorError = error;\n }\n updated += 1;\n }\n }\n numSplats = Math.max(numSplats, base + count);\n }\n\n this.splats.numSplats = numSplats;\n this.toWorld.copy(originToWorld);\n this.mapping = generators;\n return updated !== 0;\n }\n\n // Check if this accumulator has exactly the same generator mapping as\n // the previous one. If so, we can reuse the Gsplat sort order.\n hasCorrespondence(other: OldSplatAccumulator) {\n if (this.mapping.length !== other.mapping.length) {\n return false;\n }\n return this.mapping.every(({ node, base, count }, i) => {\n const {\n node: otherNode,\n base: otherBase,\n count: otherCount,\n } = other.mapping[i];\n return node === otherNode && base === otherBase && count === otherCount;\n });\n }\n}\n","import * as THREE from \"three\";\n\nimport {\n OldSparkViewpoint,\n type OldSparkViewpointOptions,\n} from \"./OldSparkViewpoint\";\nimport { OldSplatAccumulator } from \"./OldSplatAccumulator\";\nimport { OldSplatGeometry } from \"./OldSplatGeometry\";\nimport { PackedSplats } from \"./PackedSplats\";\nimport { RgbaArray } from \"./RgbaArray\";\nimport type { GeneratorMapping } from \"./SplatAccumulator\";\nimport { SplatEdit } from \"./SplatEdit\";\nimport { SplatGenerator, SplatModifier } from \"./SplatGenerator\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n type SplatEncoding,\n} from \"./defines\";\nimport {\n DynoVec3,\n DynoVec4,\n Gsplat,\n TPackedSplats,\n dynoBlock,\n readPackedSplat,\n transformGsplat,\n} from \"./dyno\";\nimport { getShaders } from \"./shaders\";\nimport {\n averagePositions,\n averageQuaternions,\n cloneClock,\n withinCoorientDist,\n} from \"./utils\";\n\n// SparkRenderer aggregates splats from multiple generators into a single\n// accumulated collection per frame. In normal operation we only need a\n// maximum of 3 accumulators: One currently being viewed, one currently\n// being sorted, and one more for generating the next frame. Accumulators\n// must be \"released\" by each viewpoint using it, so in unusual cases\n// such as slow render-outs, we may want to allow more than 3 so the\n// pipeline can continue generating new frames, but we limit to a maximum\n// of 5 to avoid excessive memory usage.\nconst MAX_ACCUMULATORS = 5;\n\nexport type OldSparkRendererOptions = {\n /**\n * Pass in your THREE.WebGLRenderer instance so Spark can perform work\n * outside the usual render loop. Should be created with antialias: false\n * (default setting) as WebGL anti-aliasing doesn't improve Gaussian Splatting\n * rendering and significantly reduces performance.\n */\n renderer: THREE.WebGLRenderer;\n /**\n * Whether to use premultiplied alpha when accumulating splat RGB\n * @default true\n */\n premultipliedAlpha?: boolean;\n /**\n * Pass in a THREE.Clock to synchronize time-based effects across different\n * systems. Alternatively, you can set the SparkRenderer properties time and\n * deltaTime directly. (default: new THREE.Clock)\n */\n clock?: THREE.Clock;\n /**\n * Controls whether to check and automatically update Gsplat collection after\n * each frame render.\n * @default true\n */\n autoUpdate?: boolean;\n /**\n * Controls whether to update the Gsplats before or after rendering. For WebXR\n * this must be false in order to complete rendering as soon as possible.\n * @default false\n */\n preUpdate?: boolean;\n /**\n * Distance threshold for SparkRenderer movement triggering a Gsplat update at\n * the new origin.\n * @default 1.0\n */\n originDistance?: number;\n /**\n * Maximum standard deviations from the center to render Gaussians. Values\n * Math.sqrt(5)..Math.sqrt(8) produce good results and can be tweaked for\n * performance.\n * @default Math.sqrt(8)\n */\n maxStdDev?: number;\n /**\n * Minimum pixel radius for splat rendering.\n * @default 0.0\n */\n minPixelRadius?: number;\n /**\n * Maximum pixel radius for splat rendering.\n * @default 512.0\n */\n maxPixelRadius?: number;\n /**\n * Minimum alpha value for splat rendering.\n * @default 0.5 * (1.0 / 255.0)\n */\n minAlpha?: number;\n /**\n * Enable 2D Gaussian splatting rendering ability. When this mode is enabled,\n * any scale x/y/z component that is exactly 0 (minimum quantized value) results\n * in the other two non-0 axis being interpreted as an oriented 2D Gaussian Splat,\n * rather instead of the usual projected 3DGS Z-slice. When reading PLY files,\n * scale values less than e^-30 will be interpreted as 0.\n * @default false\n */\n enable2DGS?: boolean;\n /**\n * Scalar value to add to 2D splat covariance diagonal, effectively blurring +\n * enlarging splats. In scenes trained without the Gsplat anti-aliasing tweak\n * this value was typically 0.3, but with anti-aliasing it is 0.0\n * @default 0.0\n */\n preBlurAmount?: number;\n /**\n * Scalar value to add to 2D splat covarianve diagonal, with opacity adjustment\n * to correctly account for \"blurring\" when anti-aliasing. Typically 0.3\n * (equivalent to approx 0.5 pixel radius) in scenes trained with anti-aliasing.\n */\n blurAmount?: number;\n /**\n * Depth-of-field distance to focal plane\n */\n focalDistance?: number;\n /**\n * Full-width angle of aperture opening (in radians), 0.0 to disable\n * @default 0.0\n */\n apertureAngle?: number;\n /**\n * Modulate Gaussian kernel falloff. 0 means \"no falloff, flat shading\",\n * while 1 is the normal Gaussian kernel.\n * @default 1.0\n */\n falloff?: number;\n /**\n * X/Y clipping boundary factor for Gsplat centers against view frustum.\n * 1.0 clips any centers that are exactly out of bounds, while 1.4 clips\n * centers that are 40% beyond the bounds.\n * @default 1.4\n */\n clipXY?: number;\n /**\n * Parameter to adjust projected splat scale calculation to match other renderers,\n * similar to the same parameter in the MKellogg 3DGS renderer. Higher values will\n * tend to sharpen the splats. A value 2.0 can be used to match the behavior of\n * the PlayCanvas renderer.\n * @default 1.0\n */\n focalAdjustment?: number;\n /**\n * Configures the SparkViewpointOptions for the default SparkViewpoint\n * associated with this SparkRenderer. Notable option: sortRadial (sort by\n * radial distance or Z-depth)\n */\n view?: OldSparkViewpointOptions;\n /**\n * Override the default splat encoding ranges for the PackedSplats.\n * (default: undefined)\n */\n splatEncoding?: SplatEncoding;\n};\n\nexport class OldSparkRenderer extends THREE.Mesh {\n renderer: THREE.WebGLRenderer;\n premultipliedAlpha: boolean;\n material: THREE.ShaderMaterial;\n uniforms: ReturnType;\n\n autoUpdate: boolean;\n preUpdate: boolean;\n needsUpdate: boolean;\n originDistance: number;\n maxStdDev: number;\n minPixelRadius: number;\n maxPixelRadius: number;\n minAlpha: number;\n enable2DGS: boolean;\n preBlurAmount: number;\n blurAmount: number;\n focalDistance: number;\n apertureAngle: number;\n falloff: number;\n clipXY: number;\n focalAdjustment: number;\n splatEncoding: SplatEncoding;\n\n splatTexture: null | {\n enable?: boolean;\n texture?: THREE.Data3DTexture;\n multiply?: THREE.Matrix2;\n add?: THREE.Vector2;\n near?: number;\n far?: number;\n mid?: number;\n } = null;\n\n time?: number;\n deltaTime?: number;\n clock: THREE.Clock;\n\n // Latest Gsplat collection being displayed\n active: OldSplatAccumulator;\n // Free list of accumulators for reuse\n private freeAccumulators: OldSplatAccumulator[];\n // Total number of accumulators currently allocated\n private accumulatorCount: number;\n // Default SparkViewpoint used for rendering to the canvas\n defaultView: OldSparkViewpoint;\n // List of SparkViewpoints with autoUpdate enabled\n autoViewpoints: OldSparkViewpoint[] = [];\n\n // Dynos used to transform Gsplats to the accumulator coordinate system\n private rotateToAccumulator = new DynoVec4({ value: new THREE.Quaternion() });\n private translateToAccumulator = new DynoVec3({ value: new THREE.Vector3() });\n private modifier: SplatModifier;\n\n // Last rendered frame number so we know when we're rendering a new frame\n private lastFrame = -1;\n // Last update timestamp to compute deltaTime\n private lastUpdateTime: number | null = null;\n // List of cameras used for the current viewpoint (for WebXR)\n private defaultCameras: THREE.Matrix4[] = [];\n private lastStochastic: boolean | null = null;\n\n // Should be set to the defaultView, but can be temporarily changed to another\n // viewpoint using prepareViewpoint() for rendering from a different viewpoint.\n viewpoint: OldSparkViewpoint;\n\n // Holds data needed to perform a scheduled Gsplat update.\n private pendingUpdate = {\n scene: null as THREE.Scene | null,\n originToWorld: new THREE.Matrix4(),\n timeoutId: -1,\n };\n\n // Internal SparkViewpoint used for environment map rendering.\n private envViewpoint: OldSparkViewpoint | null = null;\n\n // Data and buffers used for environment map rendering\n private static cubeRender: {\n target: THREE.WebGLCubeRenderTarget;\n camera: THREE.CubeCamera;\n near: number;\n far: number;\n } | null = null;\n private static pmrem: THREE.PMREMGenerator | null = null;\n\n static EMPTY_SPLAT_TEXTURE = new THREE.Data3DTexture();\n\n constructor(options: OldSparkRendererOptions) {\n const uniforms = OldSparkRenderer.makeUniforms();\n const shaders = getShaders();\n const premultipliedAlpha = options.premultipliedAlpha ?? true;\n const material = new THREE.ShaderMaterial({\n glslVersion: THREE.GLSL3,\n vertexShader: shaders.oldSplatVertex,\n fragmentShader: shaders.oldSplatFragment,\n uniforms,\n premultipliedAlpha,\n transparent: true,\n depthTest: true,\n depthWrite: false,\n side: THREE.DoubleSide,\n });\n\n super(EMPTY_GEOMETRY, material);\n // Disable frustum culling because we want to always draw them all\n // and cull Gsplats individually in the shader\n this.frustumCulled = false;\n\n this.renderer = options.renderer;\n this.material = material;\n this.uniforms = uniforms;\n\n // Create a Gsplat modifier that takes the output of any SplatGenerator\n // and transforms them into the accumulator's coordinate system\n const modifier = dynoBlock(\n { gsplat: Gsplat },\n { gsplat: Gsplat },\n ({ gsplat }) => {\n if (!gsplat) {\n throw new Error(\"gsplat not defined\");\n }\n gsplat = transformGsplat(gsplat, {\n rotate: this.rotateToAccumulator,\n translate: this.translateToAccumulator,\n });\n return { gsplat };\n },\n );\n this.modifier = new SplatModifier(modifier);\n\n this.premultipliedAlpha = premultipliedAlpha;\n this.autoUpdate = options.autoUpdate ?? true;\n this.preUpdate = options.preUpdate ?? false;\n this.needsUpdate = false;\n this.originDistance = options.originDistance ?? 1;\n this.maxStdDev = options.maxStdDev ?? Math.sqrt(8.0);\n this.minPixelRadius = options.minPixelRadius ?? 0.0;\n this.maxPixelRadius = options.maxPixelRadius ?? 512.0;\n this.minAlpha = options.minAlpha ?? 0.5 * (1.0 / 255.0);\n this.enable2DGS = options.enable2DGS ?? false;\n this.preBlurAmount = options.preBlurAmount ?? 0.0;\n this.blurAmount = options.blurAmount ?? 0.3;\n this.focalDistance = options.focalDistance ?? 0.0;\n this.apertureAngle = options.apertureAngle ?? 0.0;\n this.falloff = options.falloff ?? 1.0;\n this.clipXY = options.clipXY ?? 1.4;\n this.focalAdjustment = options.focalAdjustment ?? 1.0;\n this.splatEncoding = options.splatEncoding ?? { ...DEFAULT_SPLAT_ENCODING };\n\n this.active = new OldSplatAccumulator();\n this.active.refCount = 1;\n this.accumulatorCount = 1;\n this.freeAccumulators = [];\n // Start with the minimum of 2 total accumulators\n for (let count = 0; count < 1; ++count) {\n this.freeAccumulators.push(new OldSplatAccumulator());\n this.accumulatorCount += 1;\n }\n\n // Create a default SparkViewpoint that is used when we call render()\n // on the scene and has the sorted Gsplat collection from that viewpoint.\n this.defaultView = new OldSparkViewpoint({\n ...options.view,\n autoUpdate: true,\n spark: this,\n });\n this.viewpoint = this.defaultView;\n this.prepareViewpoint(this.viewpoint);\n\n this.clock = options.clock ? cloneClock(options.clock) : new THREE.Clock();\n }\n\n static makeUniforms() {\n // Create uniforms used for Gsplat vertex and fragment shaders\n const uniforms = {\n // Size of render viewport in pixels\n renderSize: { value: new THREE.Vector2() },\n // Near and far plane distances\n near: { value: 0.1 },\n far: { value: 1000.0 },\n // Total number of Gsplats in packedSplats to render\n numSplats: { value: 0 },\n // SplatAccumulator to view transformation quaternion\n renderToViewQuat: { value: new THREE.Quaternion() },\n // SplatAccumulator to view transformation translation\n renderToViewPos: { value: new THREE.Vector3() },\n // Maximum distance (in stddevs) from Gsplat center to render\n maxStdDev: { value: 1.0 },\n // Minimum pixel radius for splat rendering\n minPixelRadius: { value: 0.0 },\n // Maximum pixel radius for splat rendering\n maxPixelRadius: { value: 512.0 },\n // Minimum alpha value for splat rendering\n minAlpha: { value: 0.5 * (1.0 / 255.0) },\n // Enable stochastic splat rendering\n stochastic: { value: false },\n // Enable interpreting 0-thickness Gsplats as 2DGS\n enable2DGS: { value: false },\n // Add to projected 2D splat covariance diagonal (thickens and brightens)\n preBlurAmount: { value: 0.0 },\n // Add to 2D splat covariance diagonal and adjust opacity (anti-aliasing)\n blurAmount: { value: 0.3 },\n // Depth-of-field distance to focal plane\n focalDistance: { value: 0.0 },\n // Full-width angle of aperture opening (in radians)\n apertureAngle: { value: 0.0 },\n // Modulate Gaussian kernal falloff. 0 means \"no falloff, flat shading\",\n // 1 is normal e^-x^2 falloff.\n falloff: { value: 1.0 },\n // Clip Gsplats that are clipXY times beyond the +-1 frustum bounds\n clipXY: { value: 1.4 },\n // Debug renderSize scale factor\n focalAdjustment: { value: 1.0 },\n // Enable splat texture rendering\n splatTexEnable: { value: false },\n // Splat texture to render\n splatTexture: { type: \"t\", value: OldSparkRenderer.EMPTY_SPLAT_TEXTURE },\n // Splat texture UV transform (multiply)\n splatTexMul: { value: new THREE.Matrix2() },\n // Splat texture UV transform (add)\n splatTexAdd: { value: new THREE.Vector2() },\n // Splat texture near plane distance\n splatTexNear: { value: 0.1 },\n // Splat texture far plane distance\n splatTexFar: { value: 1000.0 },\n // Splat texture mid plane distance, or 0.0 to disable\n splatTexMid: { value: 0.0 },\n // Gsplat collection to render\n packedSplats: { type: \"t\", value: PackedSplats.getEmptyArray },\n // Splat encoding ranges\n rgbMinMaxLnScaleMinMax: { value: new THREE.Vector4() },\n // Time in seconds for time-based effects\n time: { value: 0 },\n // Delta time in seconds since last frame\n deltaTime: { value: 0 },\n // Whether to encode Gsplat with linear RGB (for environment mapping)\n encodeLinear: { value: false },\n // Debug flag that alternates each frame\n debugFlag: { value: false },\n };\n return uniforms;\n }\n\n private canAllocAccumulator(): boolean {\n // Returns true if can allocate an accumulator immediately\n return (\n this.freeAccumulators.length > 0 ||\n this.accumulatorCount < MAX_ACCUMULATORS\n );\n }\n\n private maybeAllocAccumulator(): OldSplatAccumulator | null {\n // Allocate an accumulator immediately if possible, else return null\n let accumulator = this.freeAccumulators.pop();\n if (accumulator === undefined) {\n if (this.accumulatorCount >= MAX_ACCUMULATORS) {\n return null;\n }\n accumulator = new OldSplatAccumulator();\n this.accumulatorCount += 1;\n }\n accumulator.refCount = 1;\n return accumulator;\n }\n\n releaseAccumulator(accumulator: OldSplatAccumulator) {\n // Decrement reference count and recycle if no longer in use\n accumulator.refCount -= 1;\n if (accumulator.refCount === 0) {\n this.freeAccumulators.push(accumulator);\n }\n }\n\n newViewpoint(options: OldSparkViewpointOptions) {\n // Create a new SparkViewpoint for this SparkRenderer.\n // Note that every SparkRenderer has an initial spark.defaultView: SparkViewpoint\n // from construction, which is used for the default canvas render loop.\n // Calling this method allows you to create additional viewpoints, which can be\n // updated automatically each frame (performing Gsplat sorting every time there\n // is an update), or updated on-demand for controlled rendering for video render\n // or similar applications.\n return new OldSparkViewpoint({ ...options, spark: this });\n }\n\n onBeforeRender(\n renderer: THREE.WebGLRenderer,\n scene: THREE.Scene,\n camera: THREE.Camera,\n ) {\n // throw new Error(\"onBeforeRender disabled in SparkRenderer\");\n\n // Called by Three.js before rendering this SparkRenderer.\n // At this point we can't modify the geometry or material, all these must\n // be set in the scene already before this is called. Update the uniforms\n // to render the Gsplats from the current active viewpoint.\n const time = this.time ?? this.clock.getElapsedTime();\n const deltaTime = time - (this.viewpoint.lastTime ?? time);\n this.viewpoint.lastTime = time;\n\n const frame = renderer.info.render.frame;\n const isNewFrame = frame !== this.lastFrame;\n this.lastFrame = frame;\n\n const viewpoint = this.viewpoint;\n if (viewpoint === this.defaultView) {\n // When rendering is triggered on the default viewpoint,\n // perform automatic updates.\n if (isNewFrame) {\n if (!renderer.xr.isPresenting) {\n // Non-WebXR mode, just a single camera\n this.defaultView.viewToWorld = camera.matrixWorld.clone();\n this.defaultCameras = [this.defaultView.viewToWorld];\n } else {\n // In WebXR mode we are called multiple times, once for each eye,\n // so use their average to compute the sort center.\n const cameras = renderer.xr.getCamera().cameras;\n this.defaultCameras = cameras.map((camera) => camera.matrixWorld);\n this.defaultView.viewToWorld =\n averageOriginToWorlds(this.defaultCameras) ?? new THREE.Matrix4();\n }\n }\n\n if (this.autoUpdate) {\n this.update({ scene, viewToWorld: this.defaultView.viewToWorld });\n }\n }\n\n // Update uniforms for rendering\n\n if (isNewFrame) {\n // Keep these uniforms the same for both eyes if in WebXR\n if (this.material.premultipliedAlpha !== this.premultipliedAlpha) {\n this.material.premultipliedAlpha = this.premultipliedAlpha;\n this.material.needsUpdate = true;\n }\n this.uniforms.time.value = time;\n this.uniforms.deltaTime.value = deltaTime;\n // Alternating debug flag that can aid in visual debugging\n this.uniforms.debugFlag.value = (performance.now() / 1000.0) % 2.0 < 1.0;\n\n if (viewpoint.display && viewpoint.stochastic) {\n (this.geometry as OldSplatGeometry).instanceCount =\n this.uniforms.numSplats.value;\n }\n }\n\n if (viewpoint.target) {\n // Rendering to a texture target, so its dimensions\n this.uniforms.renderSize.value.set(\n viewpoint.target.width,\n viewpoint.target.height,\n );\n } else {\n // Rendering to the canvas or WebXR\n const renderSize = renderer.getDrawingBufferSize(\n this.uniforms.renderSize.value,\n );\n if (renderSize.x === 1 && renderSize.y === 1) {\n // WebXR mode on Apple Vision Pro returns 1x1 when presenting.\n // Use a different means to figure out the render size.\n const baseLayer = renderer.xr.getSession()?.renderState.baseLayer;\n if (baseLayer) {\n renderSize.x = baseLayer.framebufferWidth;\n renderSize.y = baseLayer.framebufferHeight;\n }\n }\n }\n\n // Update uniforms from instance properties\n const typedCamera = camera as\n | THREE.PerspectiveCamera\n | THREE.OrthographicCamera;\n this.uniforms.near.value = typedCamera.near;\n this.uniforms.far.value = typedCamera.far;\n this.uniforms.encodeLinear.value = viewpoint.encodeLinear;\n this.uniforms.maxStdDev.value = this.maxStdDev;\n this.uniforms.minPixelRadius.value = this.minPixelRadius;\n this.uniforms.maxPixelRadius.value = this.maxPixelRadius;\n this.uniforms.minAlpha.value = this.minAlpha;\n this.uniforms.stochastic.value = viewpoint.stochastic;\n this.uniforms.enable2DGS.value = this.enable2DGS;\n this.uniforms.preBlurAmount.value = this.preBlurAmount;\n this.uniforms.blurAmount.value = this.blurAmount;\n this.uniforms.focalDistance.value = this.focalDistance;\n this.uniforms.apertureAngle.value = this.apertureAngle;\n this.uniforms.falloff.value = this.falloff;\n this.uniforms.clipXY.value = this.clipXY;\n this.uniforms.focalAdjustment.value = this.focalAdjustment;\n\n if (this.lastStochastic !== !viewpoint.stochastic) {\n this.lastStochastic = !viewpoint.stochastic;\n this.material.transparent = !viewpoint.stochastic;\n this.material.depthWrite = viewpoint.stochastic;\n this.material.needsUpdate = true;\n }\n\n if (this.splatTexture) {\n const { enable, texture, multiply, add, near, far, mid } =\n this.splatTexture;\n if (enable && texture) {\n this.uniforms.splatTexEnable.value = true;\n this.uniforms.splatTexture.value = texture;\n if (multiply) {\n this.uniforms.splatTexMul.value.fromArray(multiply.elements);\n } else {\n this.uniforms.splatTexMul.value.set(\n 0.5 / this.maxStdDev,\n 0,\n 0,\n 0.5 / this.maxStdDev,\n );\n }\n this.uniforms.splatTexAdd.value.set(add?.x ?? 0.5, add?.y ?? 0.5);\n this.uniforms.splatTexNear.value = near ?? this.uniforms.near.value;\n this.uniforms.splatTexFar.value = far ?? this.uniforms.far.value;\n this.uniforms.splatTexMid.value = mid ?? 0.0;\n } else {\n this.uniforms.splatTexEnable.value = false;\n this.uniforms.splatTexture.value = OldSparkRenderer.EMPTY_SPLAT_TEXTURE;\n }\n } else {\n this.uniforms.splatTexEnable.value = false;\n this.uniforms.splatTexture.value = OldSparkRenderer.EMPTY_SPLAT_TEXTURE;\n }\n\n // Calculate the transform from the accumulator to the current camera\n const accumToWorld =\n viewpoint.display?.accumulator.toWorld ?? new THREE.Matrix4();\n const worldToCamera = camera.matrixWorld.clone().invert();\n const originToCamera = accumToWorld.clone().premultiply(worldToCamera);\n originToCamera.decompose(\n this.uniforms.renderToViewPos.value,\n this.uniforms.renderToViewQuat.value,\n new THREE.Vector3(),\n );\n }\n\n // Update the uniforms for the given viewpoint.\n // Note that the client expects to be able to call render() at any point\n // to update the canvas, so we must switch the viewpoint back to\n // defaultView when we're finished.\n prepareViewpoint(viewpoint?: OldSparkViewpoint) {\n this.viewpoint = viewpoint ?? this.viewpoint;\n\n if (this.viewpoint.display) {\n const { accumulator, geometry } = this.viewpoint.display;\n this.uniforms.numSplats.value = accumulator.splats.numSplats;\n this.uniforms.packedSplats.value = accumulator.splats.getTexture();\n this.uniforms.rgbMinMaxLnScaleMinMax.value.set(\n accumulator.splats.splatEncoding?.rgbMin ?? 0.0,\n accumulator.splats.splatEncoding?.rgbMax ?? 1.0,\n accumulator.splats.splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n accumulator.splats.splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n );\n this.geometry = geometry;\n this.material.transparent = !this.viewpoint.stochastic;\n this.material.depthWrite = this.viewpoint.stochastic;\n this.material.needsUpdate = true;\n } else {\n // No Gsplats to display for this viewpoint yet\n this.uniforms.numSplats.value = 0;\n this.uniforms.packedSplats.value = PackedSplats.getEmptyArray;\n this.geometry = EMPTY_GEOMETRY;\n }\n }\n\n // If spark.autoUpdate is false then you must manually call\n // spark.update({ scene }) to have the scene Gsplats be re-generated.\n update({\n scene,\n viewToWorld,\n }: { scene: THREE.Scene; viewToWorld?: THREE.Matrix4 }) {\n // Compute the transform for the SparkRenderer to use as origin\n // for Gsplat generation and accumulation.\n const originToWorld = this.matrixWorld;\n\n // Either do the update now, or in the next \"tick\" depending on preUpdate\n if (this.preUpdate) {\n this.updateInternal({\n scene,\n originToWorld: originToWorld.clone(),\n viewToWorld,\n });\n } else {\n // Pass the update parameters to be performed on the next tick\n this.pendingUpdate.scene = scene;\n this.pendingUpdate.originToWorld.copy(originToWorld);\n\n // Schedule a timeout if there isn't one already\n if (this.pendingUpdate.timeoutId === -1) {\n this.pendingUpdate.timeoutId = setTimeout(() => {\n const { scene, originToWorld } = this.pendingUpdate;\n this.pendingUpdate.scene = null;\n this.pendingUpdate.timeoutId = -1;\n const updated = this.updateInternal({\n scene: scene as THREE.Scene,\n originToWorld,\n viewToWorld,\n });\n\n if (updated) {\n // Flush to encourage eager execution\n const gl = this.renderer.getContext() as WebGL2RenderingContext;\n gl.flush();\n }\n }, 1);\n }\n }\n }\n\n updateInternal({\n scene,\n originToWorld,\n viewToWorld,\n }: {\n scene: THREE.Scene;\n originToWorld?: THREE.Matrix4;\n viewToWorld?: THREE.Matrix4;\n }): boolean {\n if (!this.canAllocAccumulator()) {\n // We don't have any available accumulators because of sorting\n // back pressure, so don't update this time but try again next time.\n // Signal update not attempted.\n return false;\n }\n\n // Figure out the frame of the SparkRenderer and current view\n if (!originToWorld) {\n originToWorld = this.active.toWorld;\n }\n viewToWorld = viewToWorld ?? originToWorld.clone();\n\n const time = this.time ?? this.clock.getElapsedTime();\n const deltaTime = time - (this.lastUpdateTime ?? time);\n this.lastUpdateTime = time;\n\n // Create a lookup from last active SplatGenerator to Gsplat mapping record\n const activeMapping = this.active.mapping.reduce((map, record) => {\n map.set(record.node, record);\n return map;\n }, new Map());\n\n // Traverse visible scene to find all SplatGenerators and global SplatEdits\n const { generators, visibleGenerators, globalEdits } =\n this.compileScene(scene);\n\n // Let all SplatGenerators run their frameUpdate() method\n for (const object of generators) {\n object.frameUpdate?.({\n renderer: this.renderer,\n object,\n time,\n deltaTime,\n viewToWorld,\n globalEdits,\n });\n }\n\n const visibleGenHash = new Set(visibleGenerators.map((g) => g.uuid));\n\n // Make sure we have new version numbers for any objects with either\n // generator or numSplats that have changed since the last frame.\n for (const object of generators) {\n const current = activeMapping.get(object);\n const isVisible = object.generator && visibleGenHash.has(object.uuid);\n const numSplats = isVisible ? object.numSplats : 0;\n if (\n this.needsUpdate ||\n object.generator !== current?.generator ||\n numSplats !== current?.count\n ) {\n object.updateVersion();\n }\n }\n\n // Check if the origin is within the maximum allowed distance before\n // we trigger an update.\n const originUpdate = !withinCoorientDist({\n matrix1: originToWorld,\n matrix2: this.active.toWorld,\n maxDistance: this.originDistance,\n });\n\n // Check if we need any update at all\n const needsUpdate =\n this.needsUpdate ||\n originUpdate ||\n generators.length !== activeMapping.size ||\n generators.some((g) => g.version !== activeMapping.get(g)?.version);\n this.needsUpdate = false;\n\n let accumulator: OldSplatAccumulator | null = null;\n if (needsUpdate) {\n // Need to update, so allocate an accumulator\n accumulator = this.maybeAllocAccumulator();\n if (!accumulator) {\n // This should never happen since we checked canAllocAccumulator() above\n throw new Error(\"Unreachable\");\n }\n\n // Compute whether our view frame has changed enough to warrant\n // doing a Gsplat sort. Check both distance epsilon and\n // minimum co-orientation (dot product of quaternions)\n const originChanged = !withinCoorientDist({\n matrix1: originToWorld,\n matrix2: accumulator.toWorld,\n maxDistance: 0.00001,\n minCoorient: 0.99999,\n });\n\n // Compute an ordering of the generators with the rough goal\n // of keeping unchanging generators near the front to minimize\n // the number of Gsplats that need to be regenerated.\n const sorted = visibleGenerators\n .map((g, gIndex): [number, number, SplatGenerator] => {\n const lastGen = activeMapping.get(g);\n // If no previous generator, sort by absolute version, which will\n // tend to push frequently updated generators toward the end\n return !lastGen\n ? [Number.POSITIVE_INFINITY, g.version, g]\n : // Sort by version deltas then by previous ordering in the mapping,\n // attempting to keep unchanging generators near the front\n // to improve our chances of avoiding a re-generation.\n [g.version - lastGen.version, lastGen.base, g];\n })\n .sort((a, b) => {\n // Sort by first then second element of the tuple\n if (a[0] !== b[0]) {\n return a[0] - b[0];\n }\n return a[1] - b[1];\n });\n const genOrder = sorted.map(([_version, _seq, g]) => g);\n\n // Compute sequential layout of generated splats\n const splatCounts = genOrder.map((g) => g.numSplats);\n const { maxSplats, mapping } =\n accumulator.splats.generateMapping(splatCounts);\n const newGenerators = genOrder.map((node, gIndex) => {\n const { base, count } = mapping[gIndex];\n return {\n node,\n generator: node.generator,\n version: node.version,\n base,\n count,\n };\n });\n\n // Compute worldToAccumulator origin transform (no scale)\n originToWorld\n .clone()\n .invert()\n .decompose(\n this.translateToAccumulator.value,\n this.rotateToAccumulator.value,\n new THREE.Vector3(),\n );\n\n // Generate the Gsplats according to the mapping that need updating\n accumulator.ensureGenerate(maxSplats);\n accumulator.splats.splatEncoding = { ...this.splatEncoding };\n const generated = accumulator.generateSplats({\n renderer: this.renderer,\n modifier: this.modifier,\n generators: newGenerators,\n forceUpdate: originChanged,\n originToWorld,\n });\n\n // Update splat version number\n accumulator.splatsVersion = this.active.splatsVersion + 1;\n // Increment the mapping version if the mapping isn't identical to before\n const hasCorrespondence = accumulator.hasCorrespondence(this.active);\n accumulator.mappingVersion =\n this.active.mappingVersion + (hasCorrespondence ? 0 : 1);\n\n // Release the old accumulator and make the new one active\n this.releaseAccumulator(this.active);\n this.active = accumulator;\n this.prepareViewpoint();\n }\n\n // Let the system breath before potentially triggering sorts\n setTimeout(() => {\n // Notify all auto-updating viewpoints that we updated the Gsplats\n for (const view of this.autoViewpoints) {\n view.autoPoll({ accumulator: accumulator ?? undefined });\n }\n }, 1);\n\n // Signal update was performed\n return true;\n }\n\n private compileScene(scene: THREE.Scene): {\n generators: SplatGenerator[];\n visibleGenerators: SplatGenerator[];\n globalEdits: SplatEdit[];\n } {\n // Take a snapshot of the SplatGenerators and SplatEdits in the scene\n // to be used to run an update.\n const generators: SplatGenerator[] = [];\n // Collect all SplatGenerators, even if not visible, because we want to\n // be able to call their update functions every frame.\n scene.traverse((node) => {\n if (node instanceof SplatGenerator) {\n generators.push(node);\n }\n });\n\n const visibleGenerators: SplatGenerator[] = [];\n scene.traverseVisible((node) => {\n if (node instanceof SplatGenerator) {\n visibleGenerators.push(node);\n }\n });\n\n const globalEdits = new Set();\n scene.traverseVisible((node) => {\n if (node instanceof SplatEdit) {\n let ancestor = node.parent;\n while (ancestor != null && !(ancestor instanceof SplatMesh)) {\n ancestor = ancestor.parent;\n }\n if (ancestor == null) {\n // Not part of a SplatMesh so it's a global edit\n globalEdits.add(node);\n }\n }\n });\n return {\n generators,\n visibleGenerators,\n globalEdits: Array.from(globalEdits),\n };\n }\n\n // Renders out the scene to an environment map that can be used for\n // Image-based lighting or similar applications. First optionally updates Gsplats,\n // sorts them with respect to the provided worldCenter, renders 6 cube faces,\n // then pre-filters them using THREE.PMREMGenerator and returns a THREE.Texture\n // that can assigned directly to a THREE.MeshStandardMaterial.envMap property.\n async renderEnvMap({\n renderer,\n scene,\n worldCenter,\n size = 256,\n near = 0.1,\n far = 1000,\n hideObjects = [],\n update = false,\n }: {\n renderer?: THREE.WebGLRenderer;\n scene: THREE.Scene;\n worldCenter: THREE.Vector3;\n size?: number;\n near?: number;\n far?: number;\n hideObjects?: THREE.Object3D[];\n update?: boolean;\n }): Promise {\n if (!this.envViewpoint) {\n this.envViewpoint = this.newViewpoint({ sort360: true });\n }\n if (\n !OldSparkRenderer.cubeRender ||\n OldSparkRenderer.cubeRender.target.width !== size ||\n OldSparkRenderer.cubeRender.near !== near ||\n OldSparkRenderer.cubeRender.far !== far\n ) {\n if (OldSparkRenderer.cubeRender) {\n OldSparkRenderer.cubeRender.target.dispose();\n }\n const target = new THREE.WebGLCubeRenderTarget(size, {\n format: THREE.RGBAFormat,\n generateMipmaps: true,\n minFilter: THREE.LinearMipMapLinearFilter,\n });\n const camera = new THREE.CubeCamera(near, far, target);\n OldSparkRenderer.cubeRender = { target, camera, near, far };\n }\n\n if (!OldSparkRenderer.pmrem) {\n OldSparkRenderer.pmrem = new THREE.PMREMGenerator(\n renderer ?? this.renderer,\n );\n }\n\n // Prepare the viewpoint, sorting Gsplats for this view origin.\n const viewToWorld = new THREE.Matrix4().setPosition(worldCenter);\n await this.envViewpoint?.prepare({ scene, viewToWorld, update });\n\n const { target, camera } = OldSparkRenderer.cubeRender;\n camera.position.copy(worldCenter);\n\n // Save the visibility state of objects we want to hide before render\n const objectVisibility = new Map();\n for (const object of hideObjects) {\n objectVisibility.set(object, object.visible);\n object.visible = false;\n }\n\n // Update the CubeCamera, which performs 6 cube face renders\n this.prepareViewpoint(this.envViewpoint);\n camera.update(renderer ?? this.renderer, scene);\n\n // Restore viewpoint to default and object visibility\n this.prepareViewpoint(this.defaultView);\n for (const [object, visible] of objectVisibility.entries()) {\n object.visible = visible;\n }\n\n // Pre-filter the cube map using THREE.PMREMGenerator\n return OldSparkRenderer.pmrem?.fromCubemap(target.texture).texture;\n }\n\n // Utility function to recursively set the envMap property for any\n // THREE.MeshStandardMaterial within the subtree of root.\n recurseSetEnvMap(root: THREE.Object3D, envMap: THREE.Texture) {\n root.traverse((node) => {\n if (node instanceof THREE.Mesh) {\n if (Array.isArray(node.material)) {\n for (const material of node.material) {\n if (material instanceof THREE.MeshStandardMaterial) {\n material.envMap = envMap;\n }\n }\n } else {\n if (node.material instanceof THREE.MeshStandardMaterial) {\n node.material.envMap = envMap;\n }\n }\n }\n });\n }\n\n // Utility function that helps extract the Gsplat RGBA values from a\n // SplatGenerator, including the result of any real-time RGBA SDF edits applied\n // to a SplatMesh. This effectively \"bakes\" any computed RGBA values, which can\n // now be used as a pipeline input via SplatMesh.splatRgba to inject these\n // baked values into the Gsplat data.\n getRgba({\n generator,\n rgba,\n }: { generator: SplatGenerator; rgba?: RgbaArray }): RgbaArray {\n const mapping = this.active.mapping.find(({ node }) => node === generator);\n if (!mapping) {\n throw new Error(\"Generator not found\");\n }\n\n rgba = rgba ?? new RgbaArray();\n rgba.fromPackedSplats({\n packedSplats: this.active.splats,\n base: mapping.base,\n count: mapping.count,\n renderer: this.renderer,\n });\n return rgba;\n }\n\n // Utility function that builds on getRgba({ generator }) and additionally\n // reads back the RGBA values to the CPU in a Uint8Array with packed RGBA\n // in that byte order.\n async readRgba({\n generator,\n rgba,\n }: { generator: SplatGenerator; rgba?: RgbaArray }): Promise {\n rgba = this.getRgba({ generator, rgba });\n return rgba.read();\n }\n}\n\nconst EMPTY_GEOMETRY = new OldSplatGeometry(new Uint32Array(1), 0);\n\nconst reorderSplats = dynoBlock(\n { packedSplats: TPackedSplats, index: \"int\" },\n { gsplat: Gsplat },\n ({ packedSplats, index }) => {\n if (!packedSplats || !index) {\n throw new Error(\"Invalid input\");\n }\n const gsplat = readPackedSplat(packedSplats, index);\n return { gsplat };\n },\n);\n\nfunction averageOriginToWorlds(\n originToWorlds: THREE.Matrix4[],\n): THREE.Matrix4 | null {\n if (originToWorlds.length === 0) {\n return null;\n }\n\n const position = new THREE.Vector3();\n const quaternion = new THREE.Quaternion();\n const scale = new THREE.Vector3();\n\n const positions: THREE.Vector3[] = [];\n const quaternions: THREE.Quaternion[] = [];\n for (const matrix of originToWorlds) {\n matrix.decompose(position, quaternion, scale);\n positions.push(position);\n quaternions.push(quaternion);\n }\n\n return new THREE.Matrix4().compose(\n averagePositions(positions),\n averageQuaternions(quaternions),\n new THREE.Vector3(1, 1, 1),\n );\n}\n","import type { SplatEncoding } from \"./defines\";\nimport { computeMaxSplats, setPackedSplat } from \"./utils\";\n\nexport function decodeAntiSplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n) {\n const numSplats = Math.floor(fileBytes.length / 32); // 32 bytes per splat\n if (numSplats * 32 !== fileBytes.length) {\n throw new Error(\"Invalid .splat file size\");\n }\n initNumSplats(numSplats);\n\n const f32 = new Float32Array(fileBytes.buffer);\n for (let i = 0; i < numSplats; ++i) {\n const i32 = i * 32;\n const i8 = i * 8;\n const x = f32[i8 + 0];\n const y = f32[i8 + 1];\n const z = f32[i8 + 2];\n const scaleX = f32[i8 + 3];\n const scaleY = f32[i8 + 4];\n const scaleZ = f32[i8 + 5];\n const r = fileBytes[i32 + 24] / 255;\n const g = fileBytes[i32 + 25] / 255;\n const b = fileBytes[i32 + 26] / 255;\n const opacity = fileBytes[i32 + 27] / 255;\n const quatW = (fileBytes[i32 + 28] - 128) / 128;\n const quatX = (fileBytes[i32 + 29] - 128) / 128;\n const quatY = (fileBytes[i32 + 30] - 128) / 128;\n const quatZ = (fileBytes[i32 + 31] - 128) / 128;\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n }\n}\n\nexport function unpackAntiSplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n} {\n let numSplats = 0;\n let maxSplats = 0;\n let packedArray = new Uint32Array(0);\n decodeAntiSplat(\n fileBytes,\n (cbNumSplats) => {\n numSplats = cbNumSplats;\n maxSplats = computeMaxSplats(numSplats);\n packedArray = new Uint32Array(maxSplats * 4);\n },\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n setPackedSplat(\n packedArray,\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n },\n );\n return { packedArray, numSplats };\n}\n","import type { SplatEncoding } from \"./defines\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n fromHalf,\n setPackedSplat,\n} from \"./utils\";\n\ntype KsplatCompression = {\n bytesPerCenter: number;\n bytesPerScale: number;\n bytesPerRotation: number;\n bytesPerColor: number;\n bytesPerSphericalHarmonicsComponent: number;\n scaleOffsetBytes: number;\n rotationOffsetBytes: number;\n colorOffsetBytes: number;\n sphericalHarmonicsOffsetBytes: number;\n scaleRange: number;\n};\n\nconst KSPLAT_COMPRESSION: Record = {\n 0: {\n bytesPerCenter: 12,\n bytesPerScale: 12,\n bytesPerRotation: 16,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 4,\n scaleOffsetBytes: 12,\n rotationOffsetBytes: 24,\n colorOffsetBytes: 40,\n sphericalHarmonicsOffsetBytes: 44,\n scaleRange: 1,\n },\n 1: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 2,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n 2: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 1,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n};\n\nconst KSPLAT_SH_DEGREE_TO_COMPONENTS: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nexport function decodeKsplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n) {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n initNumSplats(numSplats);\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n\n if (sphericalHarmonicsDegree >= 1 && sh1) {\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n if (sh2) {\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n }\n if (sh3) {\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n sectionBase += storageSizeBytes;\n }\n}\n\nexport function unpackKsplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n} {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n setPackedSplat(\n packedArray,\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n\n if (sphericalHarmonicsDegree >= 1) {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, i, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, i, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, i, sh3, splatEncoding);\n }\n }\n }\n sectionBase += storageSizeBytes;\n }\n return { packedArray, numSplats, extra };\n}\n","import * as THREE from \"three\";\nimport {\n SplatData,\n type TranscodeSpzInput,\n getSplatFileType,\n getSplatFileTypeFromPath,\n} from \"./SplatLoader\";\nimport { GunzipReader, fromHalf, normalize } from \"./utils\";\n\nimport { decodeAntiSplat } from \"./antisplat\";\nimport { SplatFileType } from \"./defines\";\nimport { decodeKsplat } from \"./ksplat\";\nimport { PlyReader } from \"./ply\";\n\n// SPZ file format reader\n\nexport class SpzReader {\n fileBytes: Uint8Array;\n reader: GunzipReader;\n\n version = -1;\n numSplats = 0;\n shDegree = 0;\n fractionalBits = 0;\n flags = 0;\n flagAntiAlias = false;\n flagLod = false;\n reserved = 0;\n headerParsed = false;\n parsed = false;\n\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n this.reader = new GunzipReader({\n fileBytes: this.fileBytes as Uint8Array,\n });\n }\n\n async parseHeader() {\n if (this.headerParsed) {\n throw new Error(\"SPZ file header already parsed\");\n }\n\n const header = new DataView((await this.reader.read(16)).buffer);\n if (header.getUint32(0, true) !== 0x5053474e) {\n throw new Error(\"Invalid SPZ file\");\n }\n this.version = header.getUint32(4, true);\n if (this.version < 1 || this.version > 3) {\n throw new Error(`Unsupported SPZ version: ${this.version}`);\n }\n\n this.numSplats = header.getUint32(8, true);\n this.shDegree = header.getUint8(12);\n this.fractionalBits = header.getUint8(13);\n this.flags = header.getUint8(14);\n this.flagAntiAlias = (this.flags & 0x01) !== 0;\n this.flagLod = (this.flags & 0x80) !== 0;\n this.reserved = header.getUint8(15);\n this.headerParsed = true;\n this.parsed = false;\n }\n\n async parseSplats(\n centerCallback?: (index: number, x: number, y: number, z: number) => void,\n alphaCallback?: (index: number, alpha: number) => void,\n rgbCallback?: (index: number, r: number, g: number, b: number) => void,\n scalesCallback?: (\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n ) => void,\n quatCallback?: (\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n {\n childCounts,\n childStarts,\n }: {\n childCounts?: (index: number, count: number) => void;\n childStarts?: (index: number, start: number) => void;\n } = {},\n ) {\n if (!this.headerParsed) {\n throw new Error(\"SPZ file header must be parsed first\");\n }\n if (this.parsed) {\n throw new Error(\"SPZ file already parsed\");\n }\n this.parsed = true;\n\n if (this.version === 1) {\n // float16 centers\n const centerBytes = await this.reader.read(this.numSplats * 3 * 2);\n const centerUint16 = new Uint16Array(centerBytes.buffer);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const x = fromHalf(centerUint16[i3]);\n const y = fromHalf(centerUint16[i3 + 1]);\n const z = fromHalf(centerUint16[i3 + 2]);\n centerCallback?.(i, x, y, z);\n }\n } else if (this.version === 2 || this.version === 3) {\n // 24-bit fixed-point centers\n const fixed = 1 << this.fractionalBits;\n const centerBytes = await this.reader.read(this.numSplats * 3 * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i9 = i * 9;\n const x =\n (((centerBytes[i9 + 2] << 24) |\n (centerBytes[i9 + 1] << 16) |\n (centerBytes[i9] << 8)) >>\n 8) /\n fixed;\n const y =\n (((centerBytes[i9 + 5] << 24) |\n (centerBytes[i9 + 4] << 16) |\n (centerBytes[i9 + 3] << 8)) >>\n 8) /\n fixed;\n const z =\n (((centerBytes[i9 + 8] << 24) |\n (centerBytes[i9 + 7] << 16) |\n (centerBytes[i9 + 6] << 8)) >>\n 8) /\n fixed;\n centerCallback?.(i, x, y, z);\n }\n } else {\n throw new Error(\"Unreachable\");\n }\n\n {\n const bytes = await this.reader.read(this.numSplats);\n for (let i = 0; i < this.numSplats; i++) {\n alphaCallback?.(i, bytes[i] / 255);\n }\n }\n {\n const rgbBytes = await this.reader.read(this.numSplats * 3);\n const scale = SH_C0 / 0.15;\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const r = (rgbBytes[i3] / 255 - 0.5) * scale + 0.5;\n const g = (rgbBytes[i3 + 1] / 255 - 0.5) * scale + 0.5;\n const b = (rgbBytes[i3 + 2] / 255 - 0.5) * scale + 0.5;\n rgbCallback?.(i, r, g, b);\n }\n }\n {\n const scalesBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const scaleX = Math.exp(scalesBytes[i3] / 16 - 10);\n const scaleY = Math.exp(scalesBytes[i3 + 1] / 16 - 10);\n const scaleZ = Math.exp(scalesBytes[i3 + 2] / 16 - 10);\n scalesCallback?.(i, scaleX, scaleY, scaleZ);\n }\n }\n if (this.version === 3) {\n // Version 3 uses a trick called \"smallest three\" to compress the rotation quaternions\n // achieving better precision. \"Optimizing orientation\" section at https://gafferongames.com/post/snapshot_compression/ A quaternion length must be 1: x^2+y^2+z^2+w^2 = 1\n // We can drop one component and reconstruct it with the identity above.\n // Largest component is dropped for best numerical precision.\n // Quaternion stored in 32 bits\n // 10 bits singed integer for each of the 3 components + 2 bits indicating the index of dropped component.\n // vs 8 bits for each component uncompressed (spz version < 3)\n // Max Value after extracting largest component v is another component v\n // (v,v,0,0)\n // v^2 + v^2 = 1\n // v = 1 / sqrt(2);\n const maxValue = 1 / Math.sqrt(2); // 0.7071\n const quatBytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 4;\n const quaternion = [0, 0, 0, 0];\n const values = [\n quatBytes[i3],\n quatBytes[i3 + 1],\n quatBytes[i3 + 2],\n quatBytes[i3 + 3],\n ];\n // all values are packed in 32 bits (10 per each of 3 components + 2 bits of index of larged value)\n const combinedValues =\n values[0] + (values[1] << 8) + (values[2] << 16) + (values[3] << 24);\n // each component value is 9 bits + sign (1 bit)\n const valueMask = (1 << 9) - 1;\n // extract index of the largest element. 2 top bits.\n const largestIndex = combinedValues >>> 30;\n let remainingValues = combinedValues;\n let sumSquares = 0;\n\n for (let i = 3; i >= 0; --i) {\n if (i !== largestIndex) {\n // extract current value and sign.\n const value = remainingValues & valueMask;\n const sign = (remainingValues >>> 9) & 0x1;\n // each value is represented as 10 bits. Shift to next one.\n remainingValues = remainingValues >>> 10;\n // convert to range [0,1] and then to [0, 0.7071]\n quaternion[i] = maxValue * (value / valueMask);\n // apply sign.\n quaternion[i] = sign === 0 ? quaternion[i] : -quaternion[i];\n // accumulate the sum of squares\n sumSquares += quaternion[i] * quaternion[i];\n }\n }\n\n // quartenion length must be 1 (x^2+y^2+z^2+w^2 = 1)\n // so can reconstruct largest component from the other 3.\n // w = sqrt(1 - x^2 - y^2 - z^2);\n const square = 1 - sumSquares;\n quaternion[largestIndex] = Math.sqrt(Math.max(square, 0));\n\n quatCallback?.(\n i,\n quaternion[0],\n quaternion[1],\n quaternion[2],\n quaternion[3],\n );\n }\n } else {\n const quatBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const quatX = quatBytes[i3] / 127.5 - 1;\n const quatY = quatBytes[i3 + 1] / 127.5 - 1;\n const quatZ = quatBytes[i3 + 2] / 127.5 - 1;\n const quatW = Math.sqrt(\n Math.max(0, 1 - quatX * quatX - quatY * quatY - quatZ * quatZ),\n );\n quatCallback?.(i, quatX, quatY, quatZ, quatW);\n }\n }\n\n if (shCallback && this.shDegree >= 1) {\n const sh1 = new Float32Array(3 * 3);\n const sh2 = this.shDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 = this.shDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n const shBytes = await this.reader.read(\n this.numSplats * SH_DEGREE_TO_VECS[this.shDegree] * 3,\n );\n\n let offset = 0;\n for (let i = 0; i < this.numSplats; i++) {\n for (let j = 0; j < 9; ++j) {\n sh1[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 9;\n if (sh2) {\n for (let j = 0; j < 15; ++j) {\n sh2[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 15;\n }\n if (sh3) {\n for (let j = 0; j < 21; ++j) {\n sh3[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 21;\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n if (this.flagLod) {\n let bytes = await this.reader.read(this.numSplats * 2);\n for (let i = 0; i < this.numSplats; i++) {\n const i2 = i * 2;\n const count = bytes[i2] + (bytes[i2 + 1] << 8);\n childCounts?.(i, count);\n }\n\n bytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i4 = i * 4;\n const start =\n bytes[i4] +\n (bytes[i4 + 1] << 8) +\n (bytes[i4 + 2] << 16) +\n (bytes[i4 + 3] << 24);\n childStarts?.(i, start);\n }\n }\n }\n}\n\nconst SH_DEGREE_TO_VECS: Record = { 1: 3, 2: 8, 3: 15 };\nconst SH_C0 = 0.28209479177387814;\n\nexport const SPZ_MAGIC = 0x5053474e; // NGSP = Niantic gaussian splat\nexport const SPZ_VERSION = 3;\nexport const FLAG_ANTIALIASED = 0x1;\n\nexport class SpzWriter {\n buffer: ArrayBuffer;\n view: DataView;\n numSplats: number;\n shDegree: number;\n fractionalBits: number;\n fraction: number;\n flagAntiAlias: boolean;\n clippedCount = 0;\n\n constructor({\n numSplats,\n shDegree,\n fractionalBits = 12,\n flagAntiAlias = true,\n }: {\n numSplats: number;\n shDegree: number;\n fractionalBits?: number;\n flagAntiAlias?: boolean;\n }) {\n const splatSize =\n 9 + // Position\n 1 + // Opacity\n 3 + // Scale\n 3 + // DC-rgb\n 4 + // Rotation\n (shDegree >= 1 ? 9 : 0) +\n (shDegree >= 2 ? 15 : 0) +\n (shDegree >= 3 ? 21 : 0);\n const bufferSize = 16 + numSplats * splatSize;\n this.buffer = new ArrayBuffer(bufferSize);\n this.view = new DataView(this.buffer);\n\n this.view.setUint32(0, SPZ_MAGIC, true); // NGSP\n this.view.setUint32(4, SPZ_VERSION, true);\n this.view.setUint32(8, numSplats, true);\n this.view.setUint8(12, shDegree);\n this.view.setUint8(13, fractionalBits);\n this.view.setUint8(14, flagAntiAlias ? FLAG_ANTIALIASED : 0);\n this.view.setUint8(15, 0); // Reserved\n\n this.numSplats = numSplats;\n this.shDegree = shDegree;\n this.fractionalBits = fractionalBits;\n this.fraction = 1 << fractionalBits;\n this.flagAntiAlias = flagAntiAlias;\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n // Divide by this.fraction and round to nearest integer,\n // then write as 3-bytes per x then y then z.\n const xRounded = Math.round(x * this.fraction);\n const xInt = Math.max(-0x7fffff, Math.min(0x7fffff, xRounded));\n const yRounded = Math.round(y * this.fraction);\n const yInt = Math.max(-0x7fffff, Math.min(0x7fffff, yRounded));\n const zRounded = Math.round(z * this.fraction);\n const zInt = Math.max(-0x7fffff, Math.min(0x7fffff, zRounded));\n const clipped = xRounded !== xInt || yRounded !== yInt || zRounded !== zInt;\n if (clipped) {\n this.clippedCount += 1;\n // if (this.clippedCount < 10) {\n // // Write x y z also in hex\n // console.log(`Clipped ${index}: ${x}, ${y}, ${z} (0x${x.toString(16)}, 0x${y.toString(16)}, 0x${z.toString(16)}) -> ${xRounded}, ${yRounded}, ${zRounded} (0x${xRounded.toString(16)}, 0x${yRounded.toString(16)}, 0x${zRounded.toString(16)}) -> ${xInt}, ${yInt}, ${zInt} (0x${xInt.toString(16)}, 0x${yInt.toString(16)}, 0x${zInt.toString(16)})`);\n // }\n }\n const i9 = index * 9;\n const base = 16 + i9;\n this.view.setUint8(base, xInt & 0xff);\n this.view.setUint8(base + 1, (xInt >> 8) & 0xff);\n this.view.setUint8(base + 2, (xInt >> 16) & 0xff);\n this.view.setUint8(base + 3, yInt & 0xff);\n this.view.setUint8(base + 4, (yInt >> 8) & 0xff);\n this.view.setUint8(base + 5, (yInt >> 16) & 0xff);\n this.view.setUint8(base + 6, zInt & 0xff);\n this.view.setUint8(base + 7, (zInt >> 8) & 0xff);\n this.view.setUint8(base + 8, (zInt >> 16) & 0xff);\n }\n\n setAlpha(index: number, alpha: number) {\n const base = 16 + this.numSplats * 9 + index;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round(alpha * 255))),\n );\n }\n\n static scaleRgb(r: number) {\n const v = ((r - 0.5) / (SH_C0 / 0.15) + 0.5) * 255;\n return Math.max(0, Math.min(255, Math.round(v)));\n }\n\n setRgb(index: number, r: number, g: number, b: number) {\n const base = 16 + this.numSplats * 10 + index * 3;\n this.view.setUint8(base, SpzWriter.scaleRgb(r));\n this.view.setUint8(base + 1, SpzWriter.scaleRgb(g));\n this.view.setUint8(base + 2, SpzWriter.scaleRgb(b));\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n const base = 16 + this.numSplats * 13 + index * 3;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleX) + 10) * 16))),\n );\n this.view.setUint8(\n base + 1,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleY) + 10) * 16))),\n );\n this.view.setUint8(\n base + 2,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleZ) + 10) * 16))),\n );\n }\n\n setQuat(\n index: number,\n ...q: [number, number, number, number] // x, y, z, w\n ) {\n const base = 16 + this.numSplats * 16 + index * 4;\n\n const quat = normalize(q);\n\n // Find largest component\n let iLargest = 0;\n for (let i = 1; i < 4; ++i) {\n if (Math.abs(quat[i]) > Math.abs(quat[iLargest])) {\n iLargest = i;\n }\n }\n\n // Since -quat represents the same rotation as quat, transform the quaternion so the largest element\n // is positive. This avoids having to send its sign bit.\n const negate = quat[iLargest] < 0 ? 1 : 0;\n\n // Do compression using sign bit and 9-bit precision per element.\n let comp = iLargest;\n for (let i = 0; i < 4; ++i) {\n if (i !== iLargest) {\n const negbit = (quat[i] < 0 ? 1 : 0) ^ negate;\n const mag = Math.floor(\n ((1 << 9) - 1) * (Math.abs(quat[i]) / Math.SQRT1_2) + 0.5,\n );\n comp = (comp << 10) | (negbit << 9) | mag;\n }\n }\n\n this.view.setUint8(base, comp & 0xff);\n this.view.setUint8(base + 1, (comp >> 8) & 0xff);\n this.view.setUint8(base + 2, (comp >> 16) & 0xff);\n this.view.setUint8(base + 3, (comp >>> 24) & 0xff);\n }\n\n static quantizeSh(sh: number, bits: number) {\n const value = Math.round(sh * 128) + 128;\n const bucketSize = 1 << (8 - bits);\n const quantized =\n Math.floor((value + bucketSize / 2) / bucketSize) * bucketSize;\n return Math.max(0, Math.min(255, quantized));\n }\n\n setSh(\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) {\n const shVecs = SH_DEGREE_TO_VECS[this.shDegree] || 0;\n const base1 = 16 + this.numSplats * 20 + index * shVecs * 3;\n for (let j = 0; j < 9; ++j) {\n this.view.setUint8(base1 + j, SpzWriter.quantizeSh(sh1[j], 5));\n }\n if (sh2) {\n const base2 = base1 + 9;\n for (let j = 0; j < 15; ++j) {\n this.view.setUint8(base2 + j, SpzWriter.quantizeSh(sh2[j], 4));\n }\n if (sh3) {\n const base3 = base2 + 15;\n for (let j = 0; j < 21; ++j) {\n this.view.setUint8(base3 + j, SpzWriter.quantizeSh(sh3[j], 4));\n }\n }\n }\n }\n\n async finalize(): Promise {\n const input = new Uint8Array(this.buffer);\n const stream = new ReadableStream({\n async start(controller) {\n controller.enqueue(input);\n controller.close();\n },\n });\n const compressed = stream.pipeThrough(new CompressionStream(\"gzip\"));\n const response = new Response(compressed);\n const buffer = await response.arrayBuffer();\n console.log(\n \"Compressed\",\n input.length,\n \"bytes to\",\n buffer.byteLength,\n \"bytes\",\n );\n return new Uint8Array(buffer);\n }\n}\n\nexport async function transcodeSpz(input: TranscodeSpzInput) {\n const splats = new SplatData();\n const {\n inputs,\n clipXyz,\n maxSh,\n fractionalBits = 12,\n opacityThreshold,\n } = input;\n for (const input of inputs) {\n const scale = input.transform?.scale ?? 1;\n const quaternion = new THREE.Quaternion().fromArray(\n input.transform?.quaternion ?? [0, 0, 0, 1],\n );\n const translate = new THREE.Vector3().fromArray(\n input.transform?.translate ?? [0, 0, 0],\n );\n const clip = clipXyz\n ? new THREE.Box3(\n new THREE.Vector3().fromArray(clipXyz.min),\n new THREE.Vector3().fromArray(clipXyz.max),\n )\n : undefined;\n\n function transformPos(pos: THREE.Vector3) {\n pos.multiplyScalar(scale);\n pos.applyQuaternion(quaternion);\n pos.add(translate);\n return pos;\n }\n\n function transformScales(scales: THREE.Vector3) {\n scales.multiplyScalar(scale);\n return scales;\n }\n\n function transformQuaternion(quat: THREE.Quaternion) {\n quat.premultiply(quaternion);\n return quat;\n }\n\n function withinClip(p: THREE.Vector3) {\n return !clip || clip.containsPoint(p);\n }\n\n function withinOpacity(opacity: number) {\n return opacityThreshold !== undefined\n ? opacity >= opacityThreshold\n : true;\n }\n\n let fileType = input.fileType;\n if (!fileType) {\n fileType = getSplatFileType(input.fileBytes);\n if (!fileType && input.pathOrUrl) {\n fileType = getSplatFileTypeFromPath(input.pathOrUrl);\n }\n }\n switch (fileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes: input.fileBytes });\n await ply.parseHeader();\n let lastIndex: number | null = null;\n ply.parseSplats(\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (sh1 && lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n }\n if (sh2 && lastIndex !== null) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3 && lastIndex !== null) {\n splats.setSh3(lastIndex, sh3);\n }\n },\n );\n break;\n }\n case SplatFileType.SPZ: {\n const spz = new SpzReader({ fileBytes: input.fileBytes });\n await spz.parseHeader();\n const mapping = new Int32Array(spz.numSplats);\n mapping.fill(-1);\n const centers = new Float32Array(spz.numSplats * 3);\n const center = new THREE.Vector3();\n spz.parseSplats(\n (index, x, y, z) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n centers[index * 3] = center.x;\n centers[index * 3 + 1] = center.y;\n centers[index * 3 + 2] = center.z;\n },\n (index, alpha) => {\n center.fromArray(centers, index * 3);\n if (withinClip(center) && withinOpacity(alpha)) {\n mapping[index] = splats.pushSplat();\n splats.setCenter(mapping[index], center.x, center.y, center.z);\n splats.setOpacity(mapping[index], alpha);\n }\n },\n (index, r, g, b) => {\n if (mapping[index] >= 0) {\n splats.setColor(mapping[index], r, g, b);\n }\n },\n (index, scaleX, scaleY, scaleZ) => {\n if (mapping[index] >= 0) {\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(mapping[index], scales.x, scales.y, scales.z);\n }\n },\n (index, quatX, quatY, quatZ, quatW) => {\n if (mapping[index] >= 0) {\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n mapping[index],\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n }\n },\n (index, sh1, sh2, sh3) => {\n if (mapping[index] >= 0) {\n splats.setSh1(mapping[index], sh1);\n if (sh2) {\n splats.setSh2(mapping[index], sh2);\n }\n if (sh3) {\n splats.setSh3(mapping[index], sh3);\n }\n }\n },\n );\n break;\n }\n case SplatFileType.SPLAT:\n decodeAntiSplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n const index = splats.pushSplat();\n splats.setCenter(index, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(index, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n index,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(index, opacity);\n splats.setColor(index, r, g, b);\n }\n },\n );\n break;\n case SplatFileType.KSPLAT: {\n let lastIndex: number | null = null;\n decodeKsplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n if (sh2) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n },\n );\n break;\n }\n default:\n throw new Error(`transcodeSpz not implemented for ${fileType}`);\n }\n }\n\n const shDegree = Math.min(\n maxSh ?? 3,\n splats.sh3 ? 3 : splats.sh2 ? 2 : splats.sh1 ? 1 : 0,\n );\n const spz = new SpzWriter({\n numSplats: splats.numSplats,\n shDegree,\n fractionalBits,\n flagAntiAlias: true,\n });\n\n for (let i = 0; i < splats.numSplats; ++i) {\n const i3 = i * 3;\n const i4 = i * 4;\n spz.setCenter(\n i,\n splats.centers[i3],\n splats.centers[i3 + 1],\n splats.centers[i3 + 2],\n );\n spz.setScale(\n i,\n splats.scales[i3],\n splats.scales[i3 + 1],\n splats.scales[i3 + 2],\n );\n spz.setQuat(\n i,\n splats.quaternions[i4],\n splats.quaternions[i4 + 1],\n splats.quaternions[i4 + 2],\n splats.quaternions[i4 + 3],\n );\n spz.setAlpha(i, splats.opacities[i]);\n spz.setRgb(\n i,\n splats.colors[i3],\n splats.colors[i3 + 1],\n splats.colors[i3 + 2],\n );\n if (splats.sh1 && shDegree >= 1) {\n spz.setSh(\n i,\n splats.sh1.slice(i * 9, (i + 1) * 9),\n shDegree >= 2 && splats.sh2\n ? splats.sh2.slice(i * 15, (i + 1) * 15)\n : undefined,\n shDegree >= 3 && splats.sh3\n ? splats.sh3.slice(i * 21, (i + 1) * 21)\n : undefined,\n );\n }\n }\n\n const spzBytes = await spz.finalize();\n return { fileBytes: spzBytes, clippedCount: spz.clippedCount };\n}\n","import * as THREE from \"three\";\n\n// SplatSkinning is an experimental class that implements dual-quaternion\n// skeletal animation for Gsplats. A skeletal animation system consists\n// of a set of bones, each with a \"rest\" pose that consists of a position\n// and orientation, and a weighting of up to 4 bones for each Gsplat.\n// By moving and rotating the bones you can animate all the Gsplats like\n// your would for a normal 3D animated mesh.\n// Note that the dual-quaternion formulation assumes that mass/volume\n// is conserved through these transformations, which helps avoid common\n// issues with linear blend skinning such as joint collapse or bulging.\n// However, it is not as good a fit for animations that involve explicit\n// deformations, such as cartoon animations.\n\nimport type { SplatMesh } from \"./SplatMesh\";\nimport {\n CovSplat,\n Dyno,\n DynoUniform,\n type DynoVal,\n Gsplat,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { getTextureSize, newArray } from \"./utils\";\n\nexport enum SplatSkinningMode {\n DUAL_QUATERNION = \"dual_quaternion\",\n LINEAR_BLEND = \"linear_blend\",\n}\n\nexport type SplatSkinningOptions = {\n // Specifies the SplatMesh that will be animated.\n mesh: SplatMesh;\n // Overrides the number of Gsplats in the mesh that will be animated.\n // (default: mesh.numSplats)\n numSplats?: number;\n // Set the number of bones used to animate the SplatMesh, with a maximum\n // of 256 (in order to compactly encode the bone index). (default: 256)\n numBones?: number;\n // Set the mode of skinning to use.\n // (default: DUAL_QUATERNION)\n mode?: SplatSkinningMode;\n};\n\nexport class SplatSkinning {\n mesh: SplatMesh;\n numSplats: number;\n mode: SplatSkinningMode;\n\n // Store the skinning weights for each Gsplat, composed of a 4-vector\n // of bone indices and weight\n skinData: Uint16Array;\n skinTexture: THREE.DataArrayTexture;\n\n numBones: number;\n boneData: Float32Array;\n boneTexture: THREE.DataTexture;\n\n boneRestQuatPosScale: {\n quat: THREE.Quaternion;\n pos: THREE.Vector3;\n scale: THREE.Vector3;\n }[];\n boneRestInvMats: THREE.Matrix4[];\n\n uniform: DynoUniform;\n\n constructor(options: SplatSkinningOptions) {\n this.mesh = options.mesh;\n this.numSplats = options.numSplats ?? this.mesh.numSplats;\n this.mode = options.mode ?? SplatSkinningMode.DUAL_QUATERNION;\n\n const { width, height, depth, maxSplats } = getTextureSize(this.numSplats);\n this.skinData = new Uint16Array(maxSplats * 4);\n this.skinTexture = new THREE.DataArrayTexture(\n this.skinData,\n width,\n height,\n depth,\n );\n this.skinTexture.format = THREE.RGBAIntegerFormat;\n this.skinTexture.type = THREE.UnsignedShortType;\n this.skinTexture.internalFormat = \"RGBA16UI\";\n this.skinTexture.needsUpdate = true;\n\n this.numBones = options.numBones ?? 256;\n this.boneData = new Float32Array(this.numBones * 16);\n this.boneTexture = new THREE.DataTexture(\n this.boneData,\n 4,\n this.numBones,\n THREE.RGBAFormat,\n THREE.FloatType,\n );\n this.boneTexture.internalFormat = \"RGBA32F\";\n this.boneTexture.needsUpdate = true;\n\n this.boneRestQuatPosScale = newArray(this.numBones, () => ({\n quat: new THREE.Quaternion(),\n pos: new THREE.Vector3(),\n scale: new THREE.Vector3(),\n }));\n\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n this.boneRestInvMats = newArray(this.numBones, () => new THREE.Matrix4());\n } else {\n this.boneRestInvMats = [];\n }\n\n this.uniform = new DynoUniform({\n key: \"skinning\",\n type: GsplatSkinning,\n globals: () => [defineGsplatSkinning],\n value: {\n numSplats: this.numSplats,\n numBones: this.numBones,\n skinTexture: this.skinTexture,\n boneTexture: this.boneTexture,\n },\n });\n }\n\n // Apply the skeletal animation to a Gsplat in a dyno program.\n modify(gsplat: DynoVal): DynoVal {\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"Linear blend skinning requires covSplats=true\");\n }\n return applyGsplatSkinning(gsplat, this.uniform);\n }\n\n modifyCov(covsplat: DynoVal): DynoVal {\n if (this.mode === SplatSkinningMode.DUAL_QUATERNION) {\n return applyCovSplatDQSkinning(covsplat, this.uniform);\n }\n return applyCovSplatLBSkinning(covsplat, this.uniform);\n }\n\n // Set the \"rest\" pose for a bone with position and quaternion orientation.\n setRestQuatPos(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n ) {\n this.boneRestQuatPosScale[boneIndex].quat.copy(quat);\n this.boneRestQuatPosScale[boneIndex].pos.copy(pos);\n this.boneRestQuatPosScale[boneIndex].scale.copy(SplatSkinning.UNIT_SCALE);\n\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n this.boneRestInvMats[boneIndex]\n .compose(pos, quat, SplatSkinning.UNIT_SCALE)\n .invert();\n }\n\n this.setBoneQuatPos(boneIndex, quat, pos);\n }\n\n getRestQuatPos(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n ) {\n quat.copy(this.boneRestQuatPosScale[boneIndex].quat);\n pos.copy(this.boneRestQuatPosScale[boneIndex].pos);\n }\n\n setRestQuatPosScale(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n scale: THREE.Vector3,\n ) {\n this.boneRestQuatPosScale[boneIndex].quat.copy(quat);\n this.boneRestQuatPosScale[boneIndex].pos.copy(pos);\n this.boneRestQuatPosScale[boneIndex].scale.copy(scale);\n\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n this.boneRestInvMats[boneIndex].compose(pos, quat, scale).invert();\n }\n\n this.setBoneQuatPosScale(boneIndex, quat, pos, scale);\n }\n\n getRestQuatPosScale(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n scale: THREE.Vector3,\n ) {\n quat.copy(this.boneRestQuatPosScale[boneIndex].quat);\n pos.copy(this.boneRestQuatPosScale[boneIndex].pos);\n scale.copy(this.boneRestQuatPosScale[boneIndex].scale);\n }\n\n setRestMatrix(boneIndex: number, matrix: THREE.Matrix4) {\n if (this.mode !== SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"setRestMat only supported for linear blend skinning\");\n }\n this.boneRestInvMats[boneIndex].copy(matrix).invert();\n this.setBoneMatrix(boneIndex, matrix);\n }\n\n getRestMatrix(boneIndex: number, matrix: THREE.Matrix4) {\n if (this.mode !== SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"getRestMat only supported for linear blend skinning\");\n }\n matrix.copy(this.boneRestInvMats[boneIndex]).invert();\n }\n\n // Set the \"current\" position and orientation of a bone.\n setBoneQuatPos(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n ) {\n if (this.mode === SplatSkinningMode.DUAL_QUATERNION) {\n SplatSkinning.relQuat\n .copy(this.boneRestQuatPosScale[boneIndex].quat)\n .invert();\n SplatSkinning.relPos\n .copy(pos)\n .sub(this.boneRestQuatPosScale[boneIndex].pos);\n SplatSkinning.relQuat.multiply(quat);\n SplatSkinning.dual\n .set(\n SplatSkinning.relPos.x,\n SplatSkinning.relPos.y,\n SplatSkinning.relPos.z,\n 0.0,\n )\n .multiply(SplatSkinning.relQuat);\n\n const i16 = boneIndex * 16;\n this.boneData[i16 + 0] = SplatSkinning.relQuat.x;\n this.boneData[i16 + 1] = SplatSkinning.relQuat.y;\n this.boneData[i16 + 2] = SplatSkinning.relQuat.z;\n this.boneData[i16 + 3] = SplatSkinning.relQuat.w;\n this.boneData[i16 + 4] = 0.5 * SplatSkinning.dual.x;\n this.boneData[i16 + 5] = 0.5 * SplatSkinning.dual.y;\n this.boneData[i16 + 6] = 0.5 * SplatSkinning.dual.z;\n this.boneData[i16 + 7] = 0.5 * SplatSkinning.dual.w;\n } else {\n this.setBoneQuatPosScale(boneIndex, quat, pos, SplatSkinning.UNIT_SCALE);\n }\n }\n\n setBoneQuatPosScale(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n scale: THREE.Vector3,\n ) {\n if (this.mode === SplatSkinningMode.DUAL_QUATERNION) {\n throw new Error(\n \"setBoneQuatPosScale only supported for linear blend skinning\",\n );\n }\n\n SplatSkinning.skinMat.compose(pos, quat, scale);\n this.setBoneMatrix(boneIndex, SplatSkinning.skinMat);\n }\n\n setBoneMatrix(boneIndex: number, matrix: THREE.Matrix4) {\n if (this.mode !== SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"setBoneMatrix only supported for linear blend skinning\");\n }\n\n SplatSkinning.skinMat.multiplyMatrices(\n this.boneRestInvMats[boneIndex],\n matrix,\n );\n const i16 = boneIndex * 16;\n this.boneData[i16 + 0] = SplatSkinning.skinMat.elements[0];\n this.boneData[i16 + 1] = SplatSkinning.skinMat.elements[1];\n this.boneData[i16 + 2] = SplatSkinning.skinMat.elements[2];\n this.boneData[i16 + 3] = SplatSkinning.skinMat.elements[4];\n this.boneData[i16 + 4] = SplatSkinning.skinMat.elements[5];\n this.boneData[i16 + 5] = SplatSkinning.skinMat.elements[6];\n this.boneData[i16 + 6] = SplatSkinning.skinMat.elements[8];\n this.boneData[i16 + 7] = SplatSkinning.skinMat.elements[9];\n this.boneData[i16 + 8] = SplatSkinning.skinMat.elements[10];\n this.boneData[i16 + 9] = SplatSkinning.skinMat.elements[12];\n this.boneData[i16 + 10] = SplatSkinning.skinMat.elements[13];\n this.boneData[i16 + 11] = SplatSkinning.skinMat.elements[14];\n }\n\n // Set up to 4 bone indices and weights for a Gsplat. For fewer than 4 bones,\n // you can set the remaining weights to 0 (and index=0).\n setSplatBones(\n splatIndex: number,\n boneIndices: THREE.Vector4,\n weights: THREE.Vector4,\n ) {\n const i4 = splatIndex * 4;\n this.skinData[i4 + 0] =\n Math.min(255, Math.max(0, Math.round(weights.x * 255.0))) +\n (boneIndices.x << 8);\n this.skinData[i4 + 1] =\n Math.min(255, Math.max(0, Math.round(weights.y * 255.0))) +\n (boneIndices.y << 8);\n this.skinData[i4 + 2] =\n Math.min(255, Math.max(0, Math.round(weights.z * 255.0))) +\n (boneIndices.z << 8);\n this.skinData[i4 + 3] =\n Math.min(255, Math.max(0, Math.round(weights.w * 255.0))) +\n (boneIndices.w << 8);\n }\n\n // Call this to indicate that the bones have changed and the Gsplats need to be\n // re-generated with updated skinning.\n updateBones() {\n this.boneTexture.needsUpdate = true;\n this.mesh.needsUpdate = true;\n }\n\n private static UNIT_SCALE = new THREE.Vector3(1, 1, 1);\n private static relQuat = new THREE.Quaternion();\n private static relPos = new THREE.Vector3();\n private static dual = new THREE.Quaternion();\n private static skinMat = new THREE.Matrix4();\n}\n\n// dyno program definitions for SplatSkinning\n\nexport const GsplatSkinning = { type: \"GsplatSkinning\" } as {\n type: \"GsplatSkinning\";\n};\n\nexport const defineGsplatSkinning = unindent(`\n struct GsplatSkinning {\n int numSplats;\n int numBones;\n usampler2DArray skinTexture;\n sampler2D boneTexture;\n };\n`);\n\nexport const defineApplyGsplatSkinning = unindent(`\n void applyGsplatSkinning(\n int numSplats, int numBones,\n usampler2DArray skinTexture, sampler2D boneTexture,\n int splatIndex, inout vec3 center, inout vec4 quaternion\n ) {\n if ((splatIndex < 0) || (splatIndex >= numSplats)) {\n return;\n }\n\n uvec4 skinData = texelFetch(skinTexture, splatTexCoord(splatIndex), 0);\n\n float weights[4];\n weights[0] = float(skinData.x & 0xffu) / 255.0;\n weights[1] = float(skinData.y & 0xffu) / 255.0;\n weights[2] = float(skinData.z & 0xffu) / 255.0;\n weights[3] = float(skinData.w & 0xffu) / 255.0;\n\n uint boneIndices[4];\n boneIndices[0] = (skinData.x >> 8u) & 0xffu;\n boneIndices[1] = (skinData.y >> 8u) & 0xffu;\n boneIndices[2] = (skinData.z >> 8u) & 0xffu;\n boneIndices[3] = (skinData.w >> 8u) & 0xffu;\n\n vec4 quat = vec4(0.0);\n vec4 dual = vec4(0.0);\n for (int i = 0; i < 4; i++) {\n if (weights[i] > 0.0) {\n int boneIndex = int(boneIndices[i]);\n vec4 boneQuat = vec4(0.0, 0.0, 0.0, 1.0);\n vec4 boneDual = vec4(0.0);\n if (boneIndex < numBones) {\n boneQuat = texelFetch(boneTexture, ivec2(0, boneIndex), 0);\n boneDual = texelFetch(boneTexture, ivec2(1, boneIndex), 0);\n }\n\n if ((i > 0) && (dot(quat, boneQuat) < 0.0)) {\n // Flip sign if next blend is pointing in the opposite direction\n boneQuat = -boneQuat;\n boneDual = -boneDual;\n }\n quat += weights[i] * boneQuat;\n dual += weights[i] * boneDual;\n }\n }\n\n // Normalize dual quaternion\n float norm = length(quat);\n quat /= norm;\n dual /= norm;\n vec3 translate = vec3(\n 2.0 * (-dual.w * quat.x + dual.x * quat.w - dual.y * quat.z + dual.z * quat.y),\n 2.0 * (-dual.w * quat.y + dual.x * quat.z + dual.y * quat.w - dual.z * quat.x),\n 2.0 * (-dual.w * quat.z - dual.x * quat.y + dual.y * quat.x + dual.z * quat.w)\n );\n\n center = quatVec(quat, center) + translate;\n quaternion = quatQuat(quat, quaternion);\n }\n`);\n\nfunction applyGsplatSkinning(\n gsplat: DynoVal,\n skinning: DynoVal,\n): DynoVal {\n const dyno = new Dyno<\n { gsplat: typeof Gsplat; skinning: typeof GsplatSkinning },\n { gsplat: typeof Gsplat }\n >({\n inTypes: { gsplat: Gsplat, skinning: GsplatSkinning },\n outTypes: { gsplat: Gsplat },\n globals: () => [defineGsplatSkinning, defineApplyGsplatSkinning],\n inputs: { gsplat, skinning },\n statements: ({ inputs, outputs }) => {\n const { skinning } = inputs;\n const { gsplat } = outputs;\n return unindentLines(`\n ${gsplat} = ${inputs.gsplat};\n if (isGsplatActive(${gsplat}.flags)) {\n applyGsplatSkinning(\n ${skinning}.numSplats, ${skinning}.numBones,\n ${skinning}.skinTexture, ${skinning}.boneTexture,\n ${gsplat}.index, ${gsplat}.center, ${gsplat}.quaternion\n );\n }\n `);\n },\n });\n return dyno.outputs.gsplat;\n}\n\nexport const defineApplyCovSplatDQSkinning = unindent(`\n void applyCovSplatDQSkinning(\n int numSplats, int numBones,\n usampler2DArray skinTexture, sampler2D boneTexture,\n int splatIndex, inout vec3 center, inout vec3 xxyyzz, inout vec3 xyxzyz\n ) {\n if ((splatIndex < 0) || (splatIndex >= numSplats)) {\n return;\n }\n\n uvec4 skinData = texelFetch(skinTexture, splatTexCoord(splatIndex), 0);\n\n float weights[4];\n weights[0] = float(skinData.x & 0xffu) / 255.0;\n weights[1] = float(skinData.y & 0xffu) / 255.0;\n weights[2] = float(skinData.z & 0xffu) / 255.0;\n weights[3] = float(skinData.w & 0xffu) / 255.0;\n\n uint boneIndices[4];\n boneIndices[0] = (skinData.x >> 8u) & 0xffu;\n boneIndices[1] = (skinData.y >> 8u) & 0xffu;\n boneIndices[2] = (skinData.z >> 8u) & 0xffu;\n boneIndices[3] = (skinData.w >> 8u) & 0xffu;\n\n vec4 quat = vec4(0.0);\n vec4 dual = vec4(0.0);\n for (int i = 0; i < 4; i++) {\n if (weights[i] > 0.0) {\n int boneIndex = int(boneIndices[i]);\n vec4 boneQuat = vec4(0.0, 0.0, 0.0, 1.0);\n vec4 boneDual = vec4(0.0);\n if (boneIndex < numBones) {\n boneQuat = texelFetch(boneTexture, ivec2(0, boneIndex), 0);\n boneDual = texelFetch(boneTexture, ivec2(1, boneIndex), 0);\n }\n\n if ((i > 0) && (dot(quat, boneQuat) < 0.0)) {\n // Flip sign if next blend is pointing in the opposite direction\n boneQuat = -boneQuat;\n boneDual = -boneDual;\n }\n quat += weights[i] * boneQuat;\n dual += weights[i] * boneDual;\n }\n }\n\n // Normalize dual quaternion\n float norm = length(quat);\n quat /= norm;\n dual /= norm;\n vec3 translate = vec3(\n 2.0 * (-dual.w * quat.x + dual.x * quat.w - dual.y * quat.z + dual.z * quat.y),\n 2.0 * (-dual.w * quat.y + dual.x * quat.z + dual.y * quat.w - dual.z * quat.x),\n 2.0 * (-dual.w * quat.z - dual.x * quat.y + dual.y * quat.x + dual.z * quat.w)\n );\n mat3 basis = quaternionToMatrix(quat);\n\n center = quatVec(quat, center) + translate;\n\n mat3 cov = mat3(xxyyzz.x, xyxzyz.x, xyxzyz.y, xyxzyz.x, xxyyzz.y, xyxzyz.z, xyxzyz.y, xyxzyz.z, xxyyzz.z);\n cov = basis * cov * transpose(basis);\n xxyyzz = vec3(cov[0][0], cov[1][1], cov[2][2]);\n xyxzyz = vec3(cov[0][1], cov[0][2], cov[1][2]);\n }\n`);\n\nexport const defineApplyCovSplatLBSkinning = unindent(`\n void applyCovSplatLBSkinning(\n int numSplats, int numBones,\n usampler2DArray skinTexture, sampler2D boneTexture,\n int splatIndex, inout vec3 center, inout vec3 xxyyzz, inout vec3 xyxzyz\n ) {\n if ((splatIndex < 0) || (splatIndex >= numSplats)) {\n return;\n }\n\n uvec4 skinData = texelFetch(skinTexture, splatTexCoord(splatIndex), 0);\n\n float weights[4];\n weights[0] = float(skinData.x & 0xffu) / 255.0;\n weights[1] = float(skinData.y & 0xffu) / 255.0;\n weights[2] = float(skinData.z & 0xffu) / 255.0;\n weights[3] = float(skinData.w & 0xffu) / 255.0;\n\n uint boneIndices[4];\n boneIndices[0] = (skinData.x >> 8u) & 0xffu;\n boneIndices[1] = (skinData.y >> 8u) & 0xffu;\n boneIndices[2] = (skinData.z >> 8u) & 0xffu;\n boneIndices[3] = (skinData.w >> 8u) & 0xffu;\n\n mat3 basis = mat3(0.0);\n vec3 offset = vec3(0.0);\n\n for (int i = 0; i < 4; i++) {\n if (weights[i] > 0.0) {\n int boneIndex = int(boneIndices[i]);\n if (boneIndex < numBones) {\n vec4 v0 = texelFetch(boneTexture, ivec2(0, boneIndex), 0);\n vec4 v1 = texelFetch(boneTexture, ivec2(1, boneIndex), 0);\n vec4 v2 = texelFetch(boneTexture, ivec2(2, boneIndex), 0);\n basis += weights[i] * mat3(v0.x, v0.y, v0.z, v0.w, v1.x, v1.y, v1.z, v1.w, v2.x);\n offset += weights[i] * vec3(v2.y, v2.z, v2.w);\n }\n }\n }\n\n center = basis * center + offset;\n\n mat3 cov = mat3(xxyyzz.x, xyxzyz.x, xyxzyz.y, xyxzyz.x, xxyyzz.y, xyxzyz.z, xyxzyz.y, xyxzyz.z, xxyyzz.z);\n cov = basis * cov * transpose(basis);\n xxyyzz = vec3(cov[0][0], cov[1][1], cov[2][2]);\n xyxzyz = vec3(cov[0][1], cov[0][2], cov[1][2]);\n }\n`);\n\nfunction applyCovSplatDQSkinning(\n covsplat: DynoVal,\n skinning: DynoVal,\n): DynoVal {\n const dyno = new Dyno<\n { covsplat: typeof CovSplat; skinning: typeof GsplatSkinning },\n { covsplat: typeof CovSplat }\n >({\n inTypes: { covsplat: CovSplat, skinning: GsplatSkinning },\n outTypes: { covsplat: CovSplat },\n globals: () => [defineGsplatSkinning, defineApplyCovSplatDQSkinning],\n inputs: { covsplat, skinning },\n statements: ({ inputs, outputs }) => {\n const { skinning } = inputs;\n const { covsplat } = outputs;\n return unindentLines(`\n ${covsplat} = ${inputs.covsplat};\n if (isCovSplatActive(${covsplat}.flags)) {\n applyCovSplatDQSkinning(\n ${skinning}.numSplats, ${skinning}.numBones,\n ${skinning}.skinTexture, ${skinning}.boneTexture,\n ${covsplat}.index, ${covsplat}.center, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz\n );\n }\n `);\n },\n });\n return dyno.outputs.covsplat;\n}\n\nfunction applyCovSplatLBSkinning(\n covsplat: DynoVal,\n skinning: DynoVal,\n): DynoVal {\n const dyno = new Dyno<\n { covsplat: typeof CovSplat; skinning: typeof GsplatSkinning },\n { covsplat: typeof CovSplat }\n >({\n inTypes: { covsplat: CovSplat, skinning: GsplatSkinning },\n outTypes: { covsplat: CovSplat },\n globals: () => [defineGsplatSkinning, defineApplyCovSplatLBSkinning],\n inputs: { covsplat, skinning },\n statements: ({ inputs, outputs }) => {\n const { skinning } = inputs;\n const { covsplat } = outputs;\n return unindentLines(`\n ${covsplat} = ${inputs.covsplat};\n if (isCovSplatActive(${covsplat}.flags)) {\n applyCovSplatLBSkinning(\n ${skinning}.numSplats, ${skinning}.numBones,\n ${skinning}.skinTexture, ${skinning}.boneTexture,\n ${covsplat}.index, ${covsplat}.center, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz\n );\n }\n `);\n },\n });\n return dyno.outputs.covsplat;\n}\n","import * as THREE from \"three\";\nimport { PackedSplats } from \"./PackedSplats\";\nimport { SplatMesh } from \"./SplatMesh\";\n\nexport function constructGrid({\n // PackedSplats object to add splats to\n splats,\n // min and max box extents of the grid\n extents,\n // step size along each grid axis\n stepSize = 1,\n // spherical radius of each Gsplat\n pointRadius = 0.01,\n // relative size of the \"shadow copy\" of each Gsplat placed behind it\n pointShadowScale = 2.0,\n // Gsplat opacity\n opacity = 1.0,\n // Gsplat color (THREE.Color) or function to set color for position:\n // ((THREE.Color, THREE.Vector3) => void) (default: RGB-modulated grid)\n color,\n}: {\n splats: PackedSplats;\n extents: THREE.Box3;\n stepSize?: number;\n pointRadius?: number;\n pointShadowScale?: number;\n opacity?: number;\n color?: THREE.Color | ((color: THREE.Color, point: THREE.Vector3) => void);\n}) {\n const EPSILON = 1.0e-6;\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3();\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n if (color == null) {\n color = (color, point) =>\n color.set(\n 0.55 + 0.45 * Math.cos(point.x * 1),\n 0.55 + 0.45 * Math.cos(point.y * 1),\n 0.55 + 0.45 * Math.cos(point.z * 1),\n );\n }\n const pointColor = new THREE.Color();\n for (let z = extents.min.z; z < extents.max.z + EPSILON; z += stepSize) {\n for (let y = extents.min.y; y < extents.max.y + EPSILON; y += stepSize) {\n for (let x = extents.min.x; x < extents.max.x + EPSILON; x += stepSize) {\n center.set(x, y, z);\n for (let layer = 0; layer < 2; ++layer) {\n scales.setScalar(pointRadius * (layer ? 1 : pointShadowScale));\n if (!layer) {\n pointColor.setScalar(0.0);\n } else if (typeof color === \"function\") {\n color(pointColor, center);\n } else {\n pointColor.copy(color);\n }\n splats.pushSplat(center, scales, quaternion, opacity, pointColor);\n }\n }\n }\n }\n}\n\nexport function constructAxes({\n // PackedSplats object to add splats to\n splats,\n // scale (Gsplat scale along axis)\n scale = 0.25,\n // radius of the axes (Gsplat scale orthogonal to axis)\n axisRadius = 0.0075,\n // relative size of the \"shadow copy\" of each Gsplat placed behind it\n axisShadowScale = 2.0,\n // origins of the axes (default single axis at origin)\n origins = [new THREE.Vector3()],\n}: {\n splats: PackedSplats;\n scale?: number;\n axisRadius?: number;\n axisShadowScale?: number;\n origins?: THREE.Vector3[];\n}) {\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3();\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n const color = new THREE.Color();\n const opacity = 1.0;\n for (const origin of origins) {\n for (let axis = 0; axis < 3; ++axis) {\n center.set(\n origin.x + (axis === 0 ? scale : 0),\n origin.y + (axis === 1 ? scale : 0),\n origin.z + (axis === 2 ? scale : 0),\n );\n for (let layer = 0; layer < 2; ++layer) {\n scales.set(\n (axis === 0 ? scale : axisRadius) * (layer ? 1 : axisShadowScale),\n (axis === 1 ? scale : axisRadius) * (layer ? 1 : axisShadowScale),\n (axis === 2 ? scale : axisRadius) * (layer ? 1 : axisShadowScale),\n );\n color.setRGB(\n layer === 0 ? 0.0 : axis === 0 ? 1.0 : 0.0,\n layer === 0 ? 0.0 : axis === 1 ? 1.0 : 0.0,\n layer === 0 ? 0.0 : axis === 2 ? 1.0 : 0.0,\n );\n splats.pushSplat(center, scales, quaternion, opacity, color);\n }\n }\n }\n}\n\nexport function constructSpherePoints({\n // PackedSplats object to add splats to\n splats,\n // center of the sphere (default: origin)\n origin = new THREE.Vector3(),\n // radius of the sphere\n radius = 1.0,\n // maximum depth of recursion for subdividing the sphere\n // Warning: Gsplat count grows exponentially with depth\n maxDepth = 3,\n // filter function to apply to each point, for example to select\n // points in a certain direction or other function ((THREE.Vector3) => boolean)\n // (default: null)\n filter = null,\n // radius of each oriented Gsplat\n pointRadius = 0.02,\n // flatness of each oriented Gsplat\n pointThickness = 0.001,\n // color of each Gsplat (THREE.Color) or function to set color for point:\n // ((THREE.Color, THREE.Vector3) => void) (default: white)\n color = new THREE.Color(1, 1, 1),\n}: {\n splats: PackedSplats;\n origin?: THREE.Vector3;\n radius?: number;\n maxDepth?: number;\n filter?: ((point: THREE.Vector3) => boolean) | null;\n pointRadius?: number;\n pointThickness?: number;\n color?: THREE.Color | ((color: THREE.Color, point: THREE.Vector3) => void);\n}) {\n const pointsHash: { [key: string]: THREE.Vector3 } = {};\n\n function addPoint(p: THREE.Vector3) {\n if (filter && !filter(p)) {\n return;\n }\n const key = `${p.x},${p.y},${p.z}`;\n if (!pointsHash[key]) {\n pointsHash[key] = p;\n }\n }\n\n function recurse(\n depth: number,\n p0: THREE.Vector3,\n p1: THREE.Vector3,\n p2: THREE.Vector3,\n ) {\n addPoint(p0);\n addPoint(p1);\n addPoint(p2);\n if (depth >= maxDepth) {\n return;\n }\n const p01 = new THREE.Vector3().addVectors(p0, p1).normalize();\n const p12 = new THREE.Vector3().addVectors(p1, p2).normalize();\n const p20 = new THREE.Vector3().addVectors(p2, p0).normalize();\n recurse(depth + 1, p0, p01, p20);\n recurse(depth + 1, p01, p1, p12);\n recurse(depth + 1, p20, p12, p2);\n recurse(depth + 1, p01, p12, p20);\n }\n\n for (const x of [-1, 1]) {\n for (const y of [-1, 1]) {\n for (const z of [-1, 1]) {\n const p0 = new THREE.Vector3(x, 0, 0);\n const p1 = new THREE.Vector3(0, y, 0);\n const p2 = new THREE.Vector3(0, 0, z);\n recurse(0, p0, p1, p2);\n }\n }\n }\n\n const points = Object.values(pointsHash);\n const scales = new THREE.Vector3(pointRadius, pointRadius, pointThickness);\n const quaternion = new THREE.Quaternion();\n const pointColor = typeof color === \"function\" ? new THREE.Color() : color;\n for (const point of points) {\n quaternion.setFromUnitVectors(new THREE.Vector3(0, 0, -1), point);\n if (typeof color === \"function\") {\n color(pointColor, point);\n }\n point.multiplyScalar(radius);\n point.add(origin);\n splats.pushSplat(point, scales, quaternion, 1.0, pointColor);\n }\n}\n\nexport function textSplats({\n // text string to display\n text,\n // browser font to render text with (default: \"Arial\")\n font,\n // font size in pixels/Gsplats (default: 32)\n fontSize,\n // SplatMesh.recolor tint assuming white Gsplats (default: white)\n color,\n // Individual Gsplat color (default: white)\n rgb,\n // Gsplat radius (default: 0.8 covers 1-unit spacing well)\n dotRadius,\n // text alignment: \"left\", \"center\", \"right\", \"start\", \"end\" (default: \"start\")\n textAlign,\n // line spacing multiplier, lines delimited by \"\\n\" (default: 1.0)\n lineHeight,\n // Coordinate scale in object-space (default: 1.0)\n objectScale,\n}: {\n text: string;\n font?: string;\n fontSize?: number;\n color?: THREE.Color;\n rgb?: THREE.Color;\n dotRadius?: number;\n textAlign?: \"left\" | \"center\" | \"right\" | \"start\" | \"end\";\n lineHeight?: number;\n objectScale?: number;\n}) {\n font = font ?? \"Arial\";\n fontSize = fontSize ?? 32;\n color = color ?? new THREE.Color(1, 1, 1);\n dotRadius = dotRadius ?? 0.8;\n textAlign = textAlign ?? \"start\";\n lineHeight = lineHeight ?? 1;\n objectScale = objectScale ?? 1;\n const lines = text.split(\"\\n\");\n\n const canvas = document.createElement(\"canvas\");\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n throw new Error(\"Failed to create canvas context\");\n }\n\n ctx.font = `${fontSize}px ${font}`;\n ctx.textAlign = textAlign;\n const metrics = ctx.measureText(\"\");\n const fontHeight =\n metrics.fontBoundingBoxAscent + metrics.fontBoundingBoxDescent;\n\n let minLeft = Number.POSITIVE_INFINITY;\n let maxRight = Number.NEGATIVE_INFINITY;\n let minTop = Number.POSITIVE_INFINITY;\n let maxBottom = Number.NEGATIVE_INFINITY;\n for (let line = 0; line < lines.length; ++line) {\n const metrics = ctx.measureText(lines[line]);\n const y = fontHeight * lineHeight * line;\n minLeft = Math.min(minLeft, -metrics.actualBoundingBoxLeft);\n maxRight = Math.max(maxRight, metrics.actualBoundingBoxRight);\n minTop = Math.min(minTop, y - metrics.actualBoundingBoxAscent);\n maxBottom = Math.max(maxBottom, y + metrics.actualBoundingBoxDescent);\n }\n const originLeft = Math.floor(minLeft);\n const originTop = Math.floor(minTop);\n const width = Math.ceil(maxRight) - originLeft;\n const height = Math.ceil(maxBottom) - originTop;\n canvas.width = width;\n canvas.height = height;\n\n ctx.font = `${fontSize}px ${font}`;\n ctx.textAlign = textAlign;\n ctx.textBaseline = \"alphabetic\";\n ctx.fillStyle = \"#FFFFFF\";\n for (let i = 0; i < lines.length; ++i) {\n const y = fontHeight * lineHeight * i - originTop;\n ctx.fillText(lines[i], -originLeft, y);\n }\n\n const imageData = ctx.getImageData(0, 0, width, height);\n const rgba = new Uint8Array(imageData.data.buffer);\n const splats = new PackedSplats();\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3().setScalar(dotRadius * objectScale);\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n rgb = rgb ?? new THREE.Color(1, 1, 1);\n\n let offset = 0;\n for (let y = 0; y < height; ++y) {\n for (let x = 0; x < width; ++x) {\n const a = rgba[offset + 3];\n if (a > 0) {\n const opacity = a / 255;\n center.set(x - 0.5 * (width - 1), 0.5 * (height - 1) - y, 0);\n center.multiplyScalar(objectScale);\n splats.pushSplat(center, scales, quaternion, opacity, rgb);\n }\n offset += 4;\n }\n }\n\n const mesh = new SplatMesh({ packedSplats: splats });\n mesh.recolor = color;\n return mesh;\n}\n\nexport function imageSplats({\n // URL of the image to convert to splats (example: `url: \"./image.png\"`)\n url,\n // Radius of each Gsplat, default covers 1-unit spacing well (default: 0.8)\n dotRadius,\n // Subsampling factor for the image. Higher values reduce resolution,\n // for example 2 will halve the width and height by averaging (default: 1)\n subXY,\n // Optional callback function to modify each Gsplat before it's added.\n // Return null to skip adding the Gsplat, or a number to set the opacity\n // and add the Gsplat with parameter values in the objects center, rgba etc. were\n // passed into the forEachSplat callback. Ending the callback in `return opacity;`\n // will retain the original opacity.\n // ((width: number, height: number, index: number, center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion, opacity: number, color: THREE.Color) => number | null)\n forEachSplat,\n}: {\n url: string;\n dotRadius?: number;\n subXY?: number;\n forEachSplat?: (\n width: number,\n height: number,\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => number | null;\n}): SplatMesh {\n dotRadius = dotRadius ?? 0.8;\n subXY = Math.max(1, Math.floor(subXY ?? 1));\n\n return new SplatMesh({\n constructSplats: async (splats) => {\n return new Promise((resolve, reject) => {\n const img = new Image();\n img.crossOrigin = \"anonymous\";\n img.onerror = reject;\n img.onload = () => {\n const { width, height } = img;\n const canvas = document.createElement(\"canvas\");\n canvas.width = width;\n canvas.height = height;\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n reject(new Error(\"Failed to create canvas context\"));\n return;\n }\n ctx.imageSmoothingEnabled = true;\n ctx.imageSmoothingQuality = \"high\";\n const destWidth = Math.round(width / subXY);\n const destHeight = Math.round(height / subXY);\n ctx.drawImage(img, 0, 0, destWidth, destHeight);\n try {\n const imageData = ctx.getImageData(0, 0, destWidth, destHeight);\n const rgba = new Uint8Array(imageData.data.buffer);\n\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3().setScalar(dotRadius);\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n const rgb = new THREE.Color();\n\n let index = 0;\n for (let y = 0; y < destHeight; ++y) {\n for (let x = 0; x < destWidth; ++x) {\n const offset = index * 4;\n const a = rgba[offset + 3];\n if (a > 0) {\n let opacity = a / 255;\n rgb.set(\n rgba[offset + 0] / 255,\n rgba[offset + 1] / 255,\n rgba[offset + 2] / 255,\n );\n center.set(\n x - 0.5 * (destWidth - 1),\n 0.5 * (destHeight - 1) - y,\n 0,\n );\n scales.setScalar(dotRadius);\n quaternion.set(0, 0, 0, 1);\n let push = true;\n if (forEachSplat) {\n const maybeOpacity = forEachSplat(\n destWidth,\n destHeight,\n index,\n center,\n scales,\n quaternion,\n opacity,\n rgb,\n );\n opacity = maybeOpacity ?? opacity;\n push = maybeOpacity !== null;\n }\n if (push) {\n splats.pushSplat(center, scales, quaternion, opacity, rgb);\n }\n }\n index += 1;\n }\n }\n resolve();\n } catch (error) {\n reject(error);\n }\n };\n img.src = url;\n });\n },\n });\n}\n","import * as THREE from \"three\";\nimport { SplatGenerator, SplatTransformer } from \"../SplatGenerator\";\nimport {\n type DynoVal,\n Gsplat,\n add,\n combine,\n combineGsplat,\n defineGsplat,\n div,\n dynoBlock,\n dynoConst,\n dynoFloat,\n dynoLiteral,\n floatBitsToInt,\n hashVec3,\n imod,\n mul,\n split,\n sub,\n vec3,\n} from \"../dyno\";\n\nexport function staticBox({\n box,\n cells,\n dotScale,\n color,\n opacity,\n}: {\n box: THREE.Box3;\n cells: THREE.Vector3;\n dotScale: number;\n color?: THREE.Color;\n opacity?: number;\n}) {\n cells.x = Math.max(1, Math.round(cells.x));\n cells.y = Math.max(1, Math.round(cells.y));\n cells.z = Math.max(1, Math.round(cells.z));\n opacity = opacity ?? 1;\n const numSplats = cells.x * cells.y * cells.z;\n const dynoX = dynoConst(\"int\", cells.x);\n const dynoY = dynoConst(\"int\", cells.y);\n const dynoZ = dynoConst(\"int\", cells.z);\n\n const dynoTime = dynoFloat(0);\n const generator = new SplatGenerator({\n numSplats,\n generator: dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n const cellX = imod(index, dynoX);\n const index2 = div(index, dynoX);\n const cellY = imod(index2, dynoY);\n const cellZ = div(index2, dynoY);\n const cell = combine({\n vectorType: \"ivec3\",\n x: cellX,\n y: cellY,\n z: cellZ,\n });\n\n const intTime = floatBitsToInt(dynoTime);\n const inputs = combine({ vectorType: \"ivec2\", x: index, y: intTime });\n const random = hashVec3(inputs);\n const min = dynoConst(\"vec3\", box.min);\n const max = dynoConst(\"vec3\", box.max);\n const size = sub(max, min);\n const coord = div(add(vec3(cell), random), dynoConst(\"vec3\", cells));\n let r: DynoVal<\"float\">;\n let g: DynoVal<\"float\">;\n let b: DynoVal<\"float\">;\n if (color) {\n r = dynoConst(\"float\", color.r);\n g = dynoConst(\"float\", color.g);\n b = dynoConst(\"float\", color.b);\n } else {\n ({ r, g, b } = split(coord).outputs);\n }\n const rgba = combine({\n vectorType: \"vec4\",\n r,\n g,\n b,\n a: dynoConst(\"float\", opacity),\n });\n const center = add(min, mul(size, coord));\n const scales = vec3(dynoConst(\"float\", dotScale));\n const quaternion = dynoConst(\"vec4\", new THREE.Quaternion(0, 0, 0, 1));\n let gsplat = combineGsplat({\n flags: dynoLiteral(\"uint\", \"GSPLAT_FLAG_ACTIVE\"),\n index: index,\n center,\n scales,\n quaternion,\n rgba,\n });\n gsplat = transformer.applyGsplat(gsplat);\n return { gsplat };\n },\n {\n globals: () => [defineGsplat],\n },\n ),\n update: ({ time }) => {\n dynoTime.value = time;\n const _updated = transformer.update(generator);\n generator.updateVersion();\n },\n });\n const transformer: SplatTransformer = new SplatTransformer();\n return generator;\n}\n","import * as THREE from \"three\";\n\nimport { SplatGenerator, SplatTransformer } from \"../SplatGenerator\";\nimport {\n Gsplat,\n add,\n combine,\n combineGsplat,\n defineGsplat,\n dynoBlock,\n dynoConst,\n dynoFloat,\n dynoLiteral,\n fract,\n hashVec4,\n max,\n mix,\n mod,\n mul,\n sin,\n split,\n sub,\n vec3,\n} from \"../dyno\";\nimport { dynoVec3 } from \"../dyno\";\n\n// snowBox produces Gsplat trajectories that move in a deterministic fashion over time,\n// with high similarity between adjacent frames. See examples/atmospheric/main.js\n// for an example that creates a snowBox.\n\n// A snowBox instance has a collection of properties that can be tuned to achieve\n// different particle effects. The below DEFAULT_SNOW and DEFAULT_RAIN are example\n// parameter sets that look a lot like snow and rain, and can be used as a starting\n// point for further tweaking: `const mySnow = { ...DEFAULT_SNOW, density: 500 };`\n\nexport const DEFAULT_SNOW = {\n box: new THREE.Box3(\n new THREE.Vector3(-1, -1, -1),\n new THREE.Vector3(1, 1, 1),\n ),\n density: 100,\n fallDirection: new THREE.Vector3(-1, -3, 1).normalize(),\n fallVelocity: 0.02,\n wanderScale: 0.04,\n wanderVariance: 2,\n color1: new THREE.Color(1, 1, 1),\n color2: new THREE.Color(0.5, 0.5, 1),\n minScale: 0.001,\n maxScale: 0.005,\n anisoScale: new THREE.Vector3(1, 1, 1),\n};\n\nexport const DEFAULT_RAIN = {\n box: new THREE.Box3(\n new THREE.Vector3(-2, -1, -2),\n new THREE.Vector3(2, 5, 2),\n ),\n density: 10,\n fallDirection: new THREE.Vector3(0, -1, 0),\n fallVelocity: 2,\n wanderScale: 0.1,\n wanderVariance: 1,\n color1: new THREE.Color(1, 1, 1),\n color2: new THREE.Color(0.25, 0.25, 0.5),\n minScale: 0.005,\n maxScale: 0.01,\n anisoScale: new THREE.Vector3(0.1, 1, 0.1),\n};\n\n// Calling snowBox creates a new snowBox instance and returns an object with\n// the snowBox itself as well `as` a collection of controls that can be used to\n// adjust the snowBox's properties over time:\n//\n// - snow: the SplatGenerator snowBox instance\n// - min: the vec3 uniform of the snowBox minimum position\n// - max: the vec3 uniform of the snowBox maximum position\n// - minY: the float uniform of the snowBox minimum y-coordinate\n// - color1: the vec3 uniform of the snowBox first color\n// - color2: the vec3 uniform of the snowBox second color\n// - opacity: the float uniform of the snowBox opacity\n// - fallVelocity: the float uniform of the snowBox fall velocity\n// - wanderVariance: the float uniform of the snowBox wander variance\n// - wanderScale: the float uniform of the snowBox wander scale\n// - fallDirection: the vec3 uniform of the snowBox fall direction\n// - minScale: the float uniform of the snowBox minimum scale\n// - maxScale: the float uniform of the snowBox maximum scale\n// - anisoScale: the vec3 uniform of the snowBox anisotropic scale\n\nexport function snowBox({\n // min and max box extents of the snowBox\n box,\n // minimum y-coordinate to clamp particle position, which can be used to\n // fake hitting a ground plane and lingering there for a bit\n minY,\n // number of Gsplats to generate (default: calculated from box and density)\n numSplats,\n // density of Gsplats per unit volume (default: 100)\n density,\n // The xyz anisotropic scale of the Gsplat, which can be used for example\n // to elongate rain particles (default: (1, 1, 1))\n anisoScale,\n // Minimum Gsplat particle scale (default: 0.001)\n minScale,\n // Maximum Gsplat particle scale (default: 0.005)\n maxScale,\n // The average direction of fall (default: (0, -1, 0))\n fallDirection,\n // The average speed of the fall (multiplied with fallDirection) (default: 0.02)\n fallVelocity,\n // The world scale of wandering overlay motion (default: 0.01)\n wanderScale,\n // Controls how uniformly the particles wander in sync, more variance mean\n // more randomness in the motion (default: 2)\n wanderVariance,\n // Color 1 of the two colors interpolated between (default: (1, 1, 1))\n color1,\n // Color 2 of the two colors interpolated between (default: (0.5, 0.5, 1))\n color2,\n // The base opacity of the Gsplats (default: 1)\n opacity,\n // Optional callback function to call each frame.\n onFrame,\n}: {\n box?: THREE.Box3;\n minY?: number;\n numSplats?: number;\n density?: number;\n anisoScale?: THREE.Vector3;\n minScale?: number;\n maxScale?: number;\n fallDirection?: THREE.Vector3;\n fallVelocity?: number;\n wanderScale?: number;\n wanderVariance?: number;\n color1?: THREE.Color;\n color2?: THREE.Color;\n opacity?: number;\n onFrame?: ({\n object,\n time,\n deltaTime,\n }: { object: SplatGenerator; time: number; deltaTime: number }) => void;\n}) {\n box =\n box ??\n new THREE.Box3(new THREE.Vector3(-1, -1, -1), new THREE.Vector3(1, 1, 1));\n const volume =\n (box.max.x - box.min.x) * (box.max.y - box.min.y) * (box.max.z - box.min.z);\n density = density ?? 100;\n numSplats =\n numSplats ?? Math.max(1, Math.min(1000000, Math.round(volume * density)));\n\n const dynoMinScale = dynoFloat(minScale ?? 0.001);\n const dynoMaxScale = dynoFloat(maxScale ?? 0.005);\n const dynoAnisoScale = dynoVec3(\n (anisoScale?.clone() ?? new THREE.Vector3(1, 1, 1)).normalize(),\n );\n const dynoFallDirection = dynoVec3(\n (fallDirection ?? new THREE.Vector3(0, -1, 0)).normalize(),\n );\n const dynoFallVelocity = dynoFloat(fallVelocity ?? 0.02);\n const dynoWanderScale = dynoFloat(wanderScale ?? 0.01);\n const dynoWanderVariance = dynoFloat(wanderVariance ?? 2);\n const dynoColor1 = dynoVec3(color1 ?? new THREE.Color(1, 1, 1));\n const dynoColor2 = dynoVec3(color2 ?? new THREE.Color(0.5, 0.5, 1));\n const dynoOpacity = dynoFloat(opacity ?? 1);\n\n const dynoTime = dynoFloat(0);\n const globalOffset = dynoVec3(new THREE.Vector3(0, 0, 0));\n const dynoMin = dynoVec3(box.min);\n const dynoMax = dynoVec3(box.max);\n const dynoMinY = dynoFloat(minY ?? Number.NEGATIVE_INFINITY);\n const minMax = sub(dynoMax, dynoMin);\n const snow = new SplatGenerator({\n numSplats,\n generator: dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index not defined\");\n }\n const random = hashVec4(index);\n const randomW = split(random).outputs.w;\n let position = vec3(random);\n\n let size = fract(mul(randomW, dynoConst(\"float\", 100)));\n size = sin(mul(dynoLiteral(\"float\", \"PI\"), size));\n size = add(dynoMinScale, mul(size, sub(dynoMaxScale, dynoMinScale)));\n const scales = mul(size, dynoAnisoScale);\n\n const intensity = fract(mul(randomW, dynoConst(\"float\", 10)));\n const hue = fract(randomW);\n const color = mix(dynoColor1, dynoColor2, hue);\n const rgb = mul(color, intensity);\n\n const random2 = hashVec4(\n combine({\n vectorType: \"ivec2\",\n x: index,\n y: dynoConst(\"int\", 0x1ab5),\n }),\n );\n let perturb = vec3(random2);\n let timeOffset = mul(split(random2).outputs.w, dynoWanderVariance);\n timeOffset = add(dynoTime, timeOffset);\n\n position = add(position, globalOffset);\n const modulo = mod(\n position,\n dynoConst(\"vec3\", new THREE.Vector3(1, 1, 1)),\n );\n position = add(dynoMin, mul(minMax, modulo));\n\n const quaternion = dynoConst(\"vec4\", new THREE.Quaternion(0, 0, 0, 1));\n\n perturb = sin(add(vec3(timeOffset), perturb));\n perturb = mul(perturb, dynoWanderScale);\n let center = add(position, perturb);\n\n let centerY = split(center).outputs.y;\n centerY = max(dynoMinY, centerY);\n center = combine({ vector: center, y: centerY });\n\n let gsplat = combineGsplat({\n flags: dynoLiteral(\"uint\", \"GSPLAT_FLAG_ACTIVE\"),\n index: index,\n center,\n scales,\n quaternion,\n rgb,\n opacity: dynoOpacity,\n });\n gsplat = transformer.applyGsplat(gsplat);\n return { gsplat };\n },\n {\n globals: () => [defineGsplat],\n },\n ),\n update: ({ object, time, deltaTime }) => {\n dynoTime.value = time;\n const _updated = transformer.update(snow);\n\n const fallDelta = dynoFallDirection.value\n .clone()\n .multiplyScalar(dynoFallVelocity.value * deltaTime);\n globalOffset.value.add(fallDelta);\n\n // Enable/disable splats based on opacity\n object.visible = dynoOpacity.value > 0;\n\n onFrame?.({ object, time, deltaTime });\n snow.updateVersion();\n },\n });\n const transformer: SplatTransformer = new SplatTransformer();\n return {\n snow,\n min: dynoMin,\n max: dynoMax,\n minY: dynoMinY,\n color1: dynoColor1,\n color2: dynoColor2,\n opacity: dynoOpacity,\n fallVelocity: dynoFallVelocity,\n wanderVariance: dynoWanderVariance,\n wanderScale: dynoWanderScale,\n fallDirection: dynoFallDirection,\n minScale: dynoMinScale,\n maxScale: dynoMaxScale,\n anisoScale: dynoAnisoScale,\n };\n}\n\nexport type SNOW_RESULT_TYPE = ReturnType;\n","import type { SplatTransformer } from \"../SplatGenerator\";\nimport type { SplatMesh } from \"../SplatMesh\";\nimport {\n Gsplat,\n add,\n combineGsplat,\n dot,\n dynoBlock,\n dynoConst,\n greaterThanEqual,\n gsplatNormal,\n mul,\n neg,\n select,\n splitGsplat,\n} from \"../dyno\";\n\nexport function makeNormalColorModifier(splatToView: SplatTransformer) {\n return dynoBlock({ gsplat: Gsplat }, { gsplat: Gsplat }, ({ gsplat }) => {\n if (!gsplat) {\n throw new Error(\"No gsplat input\");\n }\n let normal = gsplatNormal(gsplat);\n\n const viewGsplat = splatToView.applyGsplat(gsplat);\n const viewCenter = splitGsplat(viewGsplat).outputs.center;\n const viewNormal = gsplatNormal(viewGsplat);\n const splatDot = dot(viewCenter, viewNormal);\n\n const sameDir = greaterThanEqual(splatDot, dynoConst(\"float\", 0));\n normal = select(sameDir, neg(normal), normal);\n const rgb = add(\n mul(normal, dynoConst(\"float\", 0.5)),\n dynoConst(\"float\", 0.5),\n );\n\n gsplat = combineGsplat({ gsplat, rgb });\n return { gsplat };\n });\n}\n\nexport function setWorldNormalColor(splats: SplatMesh) {\n splats.enableWorldToView = true;\n splats.worldModifier = makeNormalColorModifier(splats.context.worldToView);\n splats.updateGenerator();\n}\n","import type { SplatTransformer } from \"../SplatGenerator\";\nimport type { SplatMesh } from \"../SplatMesh\";\nimport {\n type DynoVal,\n Gsplat,\n combineGsplat,\n dynoBlock,\n dynoConst,\n neg,\n normalizedDepth,\n select,\n split,\n splitGsplat,\n sub,\n} from \"../dyno\";\n\nexport function makeDepthColorModifier(\n splatToView: SplatTransformer,\n minDepth: DynoVal<\"float\">,\n maxDepth: DynoVal<\"float\">,\n reverse: DynoVal<\"bool\">,\n) {\n return dynoBlock({ gsplat: Gsplat }, { gsplat: Gsplat }, ({ gsplat }) => {\n if (!gsplat) {\n throw new Error(\"No gsplat input\");\n }\n let { center } = splitGsplat(gsplat).outputs;\n center = splatToView.apply(center);\n const { z } = split(center).outputs;\n let depth = normalizedDepth(neg(z), minDepth, maxDepth);\n depth = select(reverse, sub(dynoConst(\"float\", 1), depth), depth);\n\n gsplat = combineGsplat({ gsplat, r: depth, g: depth, b: depth });\n return { gsplat };\n });\n}\n\nexport function setDepthColor(\n splats: SplatMesh,\n minDepth: number,\n maxDepth: number,\n reverse?: boolean,\n) {\n splats.enableWorldToView = true;\n const dynoMinDepth = dynoConst(\"float\", minDepth);\n const dynoMaxDepth = dynoConst(\"float\", maxDepth);\n const dynoReverse = dynoConst(\"bool\", reverse ?? false);\n splats.worldModifier = makeDepthColorModifier(\n splats.context.worldToView,\n dynoMinDepth,\n dynoMaxDepth,\n dynoReverse,\n );\n splats.updateGenerator();\n return {\n minDepth: dynoMinDepth,\n maxDepth: dynoMaxDepth,\n reverse: dynoReverse,\n };\n}\n","import * as THREE from \"three\";\nimport { SplatMesh } from \"./SplatMesh\";\n\nexport interface SparkXrOptions {\n renderer: THREE.WebGLRenderer;\n // Element to attach enter/exit click handler to\n element?: HTMLElement;\n // ID of element to attach enter/exit click handler to\n elementId?: string;\n // Create a button to enter/exit XR\n // Optionally provide button text or HTML\n // Default is true - create a button\n button?: boolean | SparkXrButton;\n // Blur out element when mouse leaves it\n // Default is 0.5 - 50% opacity\n onMouseLeaveOpacity?: number;\n // Default is \"vrar\" - Try VR then AR\n mode?: \"vr\" | \"ar\" | \"arvr\" | \"vrar\";\n // fixedFoveation: XrManager.setFoveation(...)\n fixedFoveation?: number;\n // https://developer.mozilla.org/en-US/docs/Web/API/XRWebGLLayer/XRWebGLLayer#framebufferscalefactor\n // Default is 0.5 - 50% resolution for better frame rate\n frameBufferScaleFactor?: number;\n // https://developer.mozilla.org/en-US/docs/Web/API/XRReferenceSpace#reference_space_types\n // Defaults is \"local\" - origin is the user's position when starting XR session\n referenceSpaceType?: \"local\" | \"local-floor\" | \"unbounded\" | \"viewer\";\n // Enable hand tracking\n // Default is false\n enableHands?: boolean;\n // Allow WebXR entry on mobile phones that expose navigator.xr\n // Defaults to false - blocks phones to avoid unusable split-screen modes\n allowMobileXr?: boolean;\n // Session init options\n // Default is empty - no additional options\n sessionInit?: XRSessionInit;\n // Callback function called when SparkXr is ready\n // Default is undefined - no callback\n onReady?: (supported: boolean) => void | Promise;\n // Callback function called when entering XR\n // Default is undefined - no callback\n onEnterXr?: () => void | Promise;\n // Callback function called when exiting XR\n // Default is undefined - no callback\n onExitXr?: () => void | Promise;\n // ztroller movement and rotation options\n controllers?: SparkXrControllers;\n}\n\nexport interface SparkXrButton {\n enterXrHtml?: string;\n exitXrHtml?: string;\n enterVrHtml?: string;\n exitVrHtml?: string;\n enterArHtml?: string;\n exitArHtml?: string;\n enterXrText?: string;\n exitXrText?: string;\n enterVrText?: string;\n exitVrText?: string;\n enterArText?: string;\n exitArText?: string;\n style?: CSSStyleDeclaration;\n enterStyle?: CSSStyleDeclaration;\n exitStyle?: CSSStyleDeclaration;\n zIndex?: number;\n}\n\nexport type XrGamepads = {\n left?: Gamepad;\n right?: Gamepad;\n leftIsHand?: boolean;\n rightIsHand?: boolean;\n};\n\nexport interface SparkXrControllers {\n moveSpeed?: number;\n rotateSpeed?: number;\n rollSpeed?: number;\n fastMultiplier?: number;\n slowMultiplier?: number;\n moveHeading?: boolean;\n moveDirection?: boolean;\n getMove?: (gamepads: XrGamepads, sparkXr: SparkXr) => THREE.Vector3;\n getRotate?: (gamepads: XrGamepads, sparkXr: SparkXr) => THREE.Vector3;\n getFast?: (gamepads: XrGamepads, sparkXr: SparkXr) => boolean;\n getSlow?: (gamepads: XrGamepads, sparkXr: SparkXr) => boolean;\n}\n\nexport const DEFAULT_CONTROLLER_MOVE_SPEED = 1.0;\nexport const DEFAULT_CONTROLLER_ROTATE_SPEED = 4.0;\nexport const DEFAULT_CONTROLLER_ROLL_SPEED = 2.0;\nexport const DEFAULT_CONTROLLER_FAST_MULTIPLIER = 5;\nexport const DEFAULT_CONTROLLER_SLOW_MULTIPLIER = 1 / 5;\nexport const DEFAULT_CONTROLLER_MOVE_HEADING = false;\n\nexport const DEFAULT_CONTROLLER_GETMOVE = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.leftIsHand\n ? new THREE.Vector3()\n : new THREE.Vector3(\n gamepads.left?.axes[2] ?? 0,\n (gamepads.left?.buttons[0].value ?? 0) -\n (gamepads.left?.buttons[1].value ?? 0),\n gamepads.left?.axes[3] ?? 0,\n );\nexport const DEFAULT_CONTROLLER_GETROTATE = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.rightIsHand\n ? new THREE.Vector3()\n : new THREE.Vector3(gamepads.right?.axes[2] ?? 0, 0, 0);\nexport const DEFAULT_CONTROLLER_GETFAST = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.rightIsHand ? false : (gamepads.right?.buttons[0]?.pressed ?? false);\nexport const DEFAULT_CONTROLLER_GETSLOW = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.rightIsHand ? false : (gamepads.right?.buttons[1]?.pressed ?? false);\n\nexport enum JointEnum {\n w = \"wrist\",\n t0 = \"thumb-metacarpal\",\n t1 = \"thumb-phalanx-proximal\",\n t2 = \"thumb-phalanx-distal\",\n t3 = \"thumb-tip\",\n i0 = \"index-finger-metacarpal\",\n i1 = \"index-finger-phalanx-proximal\",\n i2 = \"index-finger-phalanx-intermediate\",\n i3 = \"index-finger-phalanx-distal\",\n i4 = \"index-finger-tip\",\n m0 = \"middle-finger-metacarpal\",\n m1 = \"middle-finger-phalanx-proximal\",\n m2 = \"middle-finger-phalanx-intermediate\",\n m3 = \"middle-finger-phalanx-distal\",\n m4 = \"middle-finger-tip\",\n r0 = \"ring-finger-metacarpal\",\n r1 = \"ring-finger-phalanx-proximal\",\n r2 = \"ring-finger-phalanx-intermediate\",\n r3 = \"ring-finger-phalanx-distal\",\n r4 = \"ring-finger-tip\",\n p0 = \"pinky-finger-metacarpal\",\n p1 = \"pinky-finger-phalanx-proximal\",\n p2 = \"pinky-finger-phalanx-intermediate\",\n p3 = \"pinky-finger-phalanx-distal\",\n p4 = \"pinky-finger-tip\",\n}\nexport type JointId = keyof typeof JointEnum;\nexport const JOINT_IDS = Object.keys(JointEnum) as JointId[];\nexport const NUM_JOINTS = JOINT_IDS.length;\n\nexport const JOINT_INDEX: { [key in JointId]: number } = {\n w: 0,\n t0: 1,\n t1: 2,\n t2: 3,\n t3: 4,\n i0: 5,\n i1: 6,\n i2: 7,\n i3: 8,\n i4: 9,\n m0: 10,\n m1: 11,\n m2: 12,\n m3: 13,\n m4: 14,\n r0: 15,\n r1: 16,\n r2: 17,\n r3: 18,\n r4: 19,\n p0: 20,\n p1: 21,\n p2: 22,\n p3: 23,\n p4: 24,\n};\n\nexport const JOINT_RADIUS: { [key in JointId]: number } = {\n w: 0.02,\n t0: 0.015,\n t1: 0.012,\n t2: 0.0105,\n t3: 0.0085,\n i0: 0.022,\n i1: 0.012,\n i2: 0.0085,\n i3: 0.0075,\n i4: 0.0065,\n m0: 0.021,\n m1: 0.012,\n m2: 0.008,\n m3: 0.0075,\n m4: 0.0065,\n r0: 0.019,\n r1: 0.011,\n r2: 0.0075,\n r3: 0.007,\n r4: 0.006,\n p0: 0.012,\n p1: 0.01,\n p2: 0.007,\n p3: 0.0065,\n p4: 0.0055,\n};\n\nexport const JOINT_SEGMENTS: JointId[][] = [\n [\"w\", \"t0\", \"t1\", \"t2\", \"t3\"],\n [\"w\", \"i0\", \"i1\", \"i2\", \"i3\", \"i4\"],\n [\"w\", \"m0\", \"m1\", \"m2\", \"m3\", \"m4\"],\n [\"w\", \"r0\", \"r1\", \"r2\", \"r3\", \"r4\"],\n [\"w\", \"p0\", \"p1\", \"p2\", \"p3\", \"p4\"],\n];\n\nexport const JOINT_SEGMENT_STEPS: number[][] = [\n [8, 10, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n];\n\nexport const JOINT_TIPS: JointId[] = [\"t3\", \"i4\", \"m4\", \"r4\", \"p4\"];\nexport const FINGER_TIPS: JointId[] = [\"i4\", \"m4\", \"r4\", \"p4\"];\n\nexport enum Hand {\n left = \"left\",\n right = \"right\",\n}\nexport const HANDS = Object.keys(Hand) as Hand[];\n\nconst XR_HEADSET_HINTS =\n /Quest|OculusBrowser|VisionOS|XRBrowser|Pico|Lynx|MagicLeap/i;\n\nfunction isLikelyMobilePhone() {\n const ua = navigator.userAgent ?? \"\";\n if (XR_HEADSET_HINTS.test(ua)) {\n return false;\n }\n\n const androidMobile = /Android/i.test(ua) || /Mobile/i.test(ua);\n if (androidMobile) {\n return true;\n }\n\n const uaData = (\n navigator as Navigator & {\n userAgentData?: { mobile?: boolean };\n }\n ).userAgentData;\n if (uaData && typeof uaData.mobile === \"boolean\") {\n return uaData.mobile;\n }\n\n return false;\n}\n\nexport type Joint = {\n position: THREE.Vector3;\n quaternion: THREE.Quaternion;\n radius: number;\n};\n\nexport type HandJoints = { [key in JointId]?: Joint };\n\nexport class SparkXr {\n renderer: THREE.WebGLRenderer;\n xr?: XRSystem;\n element?: HTMLElement;\n button?: SparkXrButton;\n mode: XRSessionMode | \"initializing\" | \"not_supported\";\n sessionInit?: XRSessionInit;\n session?: XRSession;\n onEnterXr?: () => void;\n onExitXr?: () => void;\n\n controllers?: SparkXrControllers;\n lastControllersUpdate = 0;\n\n enableHands: boolean;\n hands: XrHand[] = [];\n\n constructor(options: SparkXrOptions) {\n this.renderer = options.renderer;\n this.xr = navigator.xr;\n this.mode = \"initializing\";\n this.onEnterXr = options.onEnterXr;\n this.onExitXr = options.onExitXr;\n this.enableHands = options.enableHands ?? false;\n this.controllers = options.controllers;\n\n Promise.resolve()\n .then(() => {\n if (!this.xr) {\n this.mode = \"not_supported\";\n return;\n }\n\n if (!options.allowMobileXr && isLikelyMobilePhone()) {\n this.mode = \"not_supported\";\n return;\n }\n\n if (this.enableHands) {\n this.hands = [new XrHand(Hand.left), new XrHand(Hand.right)];\n }\n\n let element: HTMLElement | undefined = undefined;\n let button: SparkXrButton | undefined = undefined;\n if (options.element) {\n element = options.element;\n } else if (options.elementId) {\n element = document.getElementById(options.elementId) ?? undefined;\n } else {\n element = SparkXr.createButton();\n button =\n options.button == null || typeof options.button === \"boolean\"\n ? {}\n : options.button;\n }\n\n if (!element) {\n throw new Error(\"No element or button provided\");\n }\n\n element.style.display = \"none\";\n element.classList.add(\"hidden\");\n this.button = button;\n this.element = element;\n\n const opacity = options.onMouseLeaveOpacity?.toString();\n if (opacity !== undefined) {\n element.addEventListener(\"mouseleave\", () => {\n element.style.opacity = opacity;\n });\n element.addEventListener(\"mouseenter\", () => {\n element.style.opacity = \"\";\n });\n }\n\n return this.initializeXr(options);\n })\n .then(() => {\n return options.onReady?.(this.mode !== \"not_supported\");\n })\n .catch((error) => {\n alert(`Error initializing SparkXr: ${error}`);\n });\n }\n\n private async initializeXr(options: SparkXrOptions) {\n if (!this.xr || !this.element) {\n return;\n }\n const element = this.element;\n\n const modes = {\n vr: [\"immersive-vr\"],\n ar: [\"immersive-ar\"],\n arvr: [\"immersive-ar\", \"immersive-vr\"],\n vrar: [\"immersive-vr\", \"immersive-ar\"],\n }[options.mode ?? \"vrar\"] as XRSessionMode[] | undefined;\n if (!modes) {\n throw new Error(`Invalid mode: ${options.mode}`);\n }\n\n let supported = null;\n for (const mode of modes) {\n if (await this.xr.isSessionSupported(mode)) {\n supported = mode;\n break;\n }\n }\n\n if (!supported) {\n this.mode = \"not_supported\";\n return;\n }\n this.mode = supported;\n\n const referenceSpaceType = options.referenceSpaceType ?? \"local\";\n\n this.renderer.xr.enabled = true;\n this.renderer.xr.setReferenceSpaceType(referenceSpaceType);\n\n if (options.fixedFoveation !== undefined) {\n this.renderer.xr.setFoveation(options.fixedFoveation);\n }\n const frameBufferScaleFactor = options.frameBufferScaleFactor ?? 0.5;\n this.renderer.xr.setFramebufferScaleFactor(frameBufferScaleFactor);\n\n const optionalFeatures = options.sessionInit?.optionalFeatures ?? [];\n if (options.enableHands) {\n optionalFeatures.push(\"hand-tracking\");\n }\n\n const requiredFeatures = options.sessionInit?.requiredFeatures ?? [];\n requiredFeatures.push(referenceSpaceType);\n\n this.sessionInit = {\n ...options.sessionInit,\n optionalFeatures,\n requiredFeatures,\n };\n // console.log(\"* this.sessionInit\", this.sessionInit);\n\n element.addEventListener(\"click\", () => {\n this.toggleXr();\n });\n\n this.updateElement();\n }\n\n async toggleXr() {\n if (!this.xr || !this.sessionInit) {\n // console.log(\"* !this.xr || !this.sessionInit\");\n return;\n }\n\n if (!this.session) {\n try {\n const mode = this.mode as XRSessionMode;\n const session = await this.xr.requestSession(mode, this.sessionInit);\n this.session = session;\n // console.log(\"* this.session\", this.session);\n\n const onSessionEnded = () => {\n session?.removeEventListener(\"end\", onSessionEnded);\n session?.removeEventListener(\"visibilitychange\", visibilityChanged);\n this.session = undefined;\n\n this.updateElement();\n this.onExitXr?.();\n };\n\n let lastVisibilityState = session.visibilityState;\n const visibilityChanged = () => {\n if (\n session?.visibilityState === \"visible-blurred\" &&\n lastVisibilityState === \"visible\"\n ) {\n session?.end();\n }\n lastVisibilityState = session?.visibilityState;\n };\n\n this.session?.addEventListener(\"end\", onSessionEnded);\n this.session?.addEventListener(\"visibilitychange\", visibilityChanged);\n\n await this.renderer.xr.setSession(this.session);\n // console.log(\"* setSession\");\n\n return this.onEnterXr?.();\n } catch (error) {\n console.error(\"Error requesting XR session\", error);\n return;\n }\n } else {\n this.session.end();\n // console.log(\"* end session\");\n }\n }\n\n private updateElement() {\n const mode = this.mode as XRSessionMode;\n const element = this.element;\n if (element) {\n element.style.display = \"\";\n element.classList.remove(\"hidden\");\n\n const button = typeof this.button === \"boolean\" ? {} : this.button;\n if (button) {\n if (!this.session) {\n const enterHtml =\n (mode === \"immersive-vr\"\n ? button.enterVrHtml\n : button.enterArHtml) ?? button.enterXrHtml;\n const enterText =\n (mode === \"immersive-vr\"\n ? button.enterVrText\n : button.enterArText) ?? button.enterXrText;\n if (enterHtml) {\n element.innerHTML = enterHtml;\n } else if (enterText) {\n element.textContent = enterText;\n } else {\n element.textContent =\n mode === \"immersive-vr\" ? \"ENTER VR\" : \"ENTER AR\";\n }\n } else {\n const exitHtml =\n (mode === \"immersive-vr\" ? button.exitVrHtml : button.exitArHtml) ??\n button.exitXrHtml;\n const exitText =\n (mode === \"immersive-vr\" ? button.exitVrText : button.exitArText) ??\n button.exitXrText;\n if (exitHtml) {\n element.innerHTML = exitHtml;\n } else if (exitText) {\n element.textContent = exitText;\n } else {\n element.textContent =\n mode === \"immersive-vr\" ? \"EXIT VR\" : \"EXIT AR\";\n }\n }\n\n element.style.display = \"\";\n }\n }\n }\n\n private static createButton() {\n const button = document.createElement(\"button\");\n Object.assign(button.style, {\n position: \"absolute\",\n bottom: \"20px\",\n left: \"50%\",\n transform: \"translateX(-50%)\",\n padding: \"40px 40px\",\n border: \"2px solid #fff\",\n borderRadius: \"16px\",\n background: \"rgba(0,0,0,0.1)\",\n color: \"#fff\",\n font: \"bold 28px sans-serif\",\n textAlign: \"center\",\n userSelect: \"none\",\n zIndex: \"999\",\n });\n document.body.appendChild(button);\n return button;\n }\n\n xrSupported() {\n return !!this.xr;\n }\n\n static JointEnum = JointEnum;\n static JOINT_IDS = JOINT_IDS;\n static NUM_JOINTS = NUM_JOINTS;\n static JOINT_INDEX = JOINT_INDEX;\n static JOINT_RADIUS = JOINT_RADIUS;\n static JOINT_SEGMENTS = JOINT_SEGMENTS;\n static JOINT_SEGMENT_STEPS = JOINT_SEGMENT_STEPS;\n static JOINT_TIPS = JOINT_TIPS;\n static FINGER_TIPS = FINGER_TIPS;\n static Hand = Hand;\n static HANDS = HANDS;\n\n left() {\n return this.hands[0];\n }\n\n right() {\n return this.hands[1];\n }\n\n updateControllers(camera: THREE.Camera) {\n const cameraFrame = camera.parent as THREE.Group;\n\n const now = performance.now();\n const deltaTime = (now - (this.lastControllersUpdate || now)) / 1000;\n this.lastControllersUpdate = now;\n\n const xrGamepads: XrGamepads = {};\n for (const source of this.renderer.xr.getSession()?.inputSources ?? []) {\n const gamepad = source.gamepad;\n if (\n gamepad &&\n (source.handedness === \"left\" || source.handedness === \"right\")\n ) {\n xrGamepads[source.handedness] = gamepad;\n if (source.handedness === \"left\") {\n xrGamepads.leftIsHand = !!source.hand;\n } else if (source.handedness === \"right\") {\n xrGamepads.rightIsHand = !!source.hand;\n }\n }\n }\n\n const rotate = (\n this.controllers?.getRotate ?? DEFAULT_CONTROLLER_GETROTATE\n )(xrGamepads, this);\n rotate.multiply(\n new THREE.Vector3(\n this.controllers?.rotateSpeed ?? DEFAULT_CONTROLLER_ROTATE_SPEED,\n this.controllers?.rotateSpeed ?? DEFAULT_CONTROLLER_ROTATE_SPEED,\n this.controllers?.rollSpeed ?? DEFAULT_CONTROLLER_ROLL_SPEED,\n ),\n );\n\n if (rotate.manhattanLength() > 0.0) {\n rotate.multiplyScalar(deltaTime);\n const eulers = new THREE.Euler(-rotate.y, -rotate.x, rotate.z, \"YXZ\");\n const quat = new THREE.Quaternion().setFromEuler(eulers);\n\n const pivot = camera.getWorldPosition(new THREE.Vector3());\n cameraFrame.parent?.worldToLocal(pivot);\n\n cameraFrame.position.sub(pivot);\n cameraFrame.position.applyQuaternion(quat);\n cameraFrame.position.add(pivot);\n cameraFrame.quaternion.premultiply(quat);\n }\n\n const move = (this.controllers?.getMove ?? DEFAULT_CONTROLLER_GETMOVE)(\n xrGamepads,\n this,\n );\n\n let moveSpeed =\n this.controllers?.moveSpeed ?? DEFAULT_CONTROLLER_MOVE_SPEED;\n if (\n (this.controllers?.getFast ?? DEFAULT_CONTROLLER_GETFAST)(\n xrGamepads,\n this,\n )\n ) {\n moveSpeed *= DEFAULT_CONTROLLER_FAST_MULTIPLIER;\n }\n if (\n (this.controllers?.getSlow ?? DEFAULT_CONTROLLER_GETSLOW)(\n xrGamepads,\n this,\n )\n ) {\n moveSpeed *= DEFAULT_CONTROLLER_SLOW_MULTIPLIER;\n }\n\n if (this.controllers?.moveHeading) {\n move.applyQuaternion(camera.quaternion);\n } else if (this.controllers?.moveDirection) {\n SCRATCH_EULER.setFromQuaternion(camera.quaternion, \"YXZ\");\n SCRATCH_EULER.x = 0;\n SCRATCH_EULER.z = 0;\n SCRATCH_QUAT_A.setFromEuler(SCRATCH_EULER);\n move.applyQuaternion(SCRATCH_QUAT_A);\n }\n move.applyQuaternion(cameraFrame.quaternion);\n\n move.multiplyScalar(deltaTime * moveSpeed);\n cameraFrame.position.add(move);\n }\n\n updateHands({ xrFrame }: { xrFrame: XRFrame }) {\n const xrSession = this.renderer.xr.getSession();\n if (!xrSession) {\n return;\n }\n const referenceSpace = this.renderer.xr.getReferenceSpace();\n if (!referenceSpace) {\n return;\n }\n if (!xrFrame.getJointPose) {\n return;\n }\n\n for (const hand of this.hands) {\n if (hand) {\n hand.lastJoints = hand.joints;\n hand.joints = undefined;\n }\n }\n\n for (const inputSource of xrSession.inputSources) {\n if (!inputSource.hand) {\n continue;\n }\n const hand = inputSource.handedness as Hand;\n const xrHand = this.hands[hand === Hand.left ? 0 : 1];\n if (!xrHand) {\n continue;\n }\n\n for (const jointId of JOINT_IDS) {\n const jointSpace = inputSource.hand.get(JointEnum[jointId]);\n if (jointSpace) {\n const jointPose = xrFrame.getJointPose(jointSpace, referenceSpace);\n if (jointPose) {\n const { position, orientation } = jointPose.transform;\n\n if (!xrHand.joints) {\n xrHand.joints = {};\n }\n xrHand.joints[jointId] = {\n position: new THREE.Vector3(position.x, position.y, position.z),\n quaternion: new THREE.Quaternion(\n orientation.x,\n orientation.y,\n orientation.z,\n orientation.w,\n ),\n radius: JOINT_RADIUS[jointId],\n };\n }\n }\n }\n }\n }\n\n makeJointSplats(hand: Hand): JointSplats {\n const mesh = new JointSplats(hand);\n mesh.onFrame = () => {\n const xrHand = this.hands[hand === Hand.left ? 0 : 1];\n const joints = xrHand?.joints;\n mesh.updateJoints(joints);\n };\n return mesh;\n }\n\n snapshotHands(time: number) {\n const hands = [\n this.hands[0]?.snapshotJoints(),\n this.hands[1]?.snapshotJoints(),\n ];\n return { time, hands };\n }\n}\n\ntype JointSnapshot = { pos: number[]; quat: number[]; radius: number };\ntype HandSnapshot = { [key in JointId]?: JointSnapshot };\ntype HandsSnapshot = {\n time: number;\n hands: (HandSnapshot | undefined)[];\n};\n\nconst round4 = (value: number) => Math.round(value * 10000) / 10000;\nconst SCRATCH_EULER = new THREE.Euler(0, 0, 0, \"YXZ\");\nconst SCRATCH_QUAT_A = new THREE.Quaternion();\nconst SCRATCH_QUAT_B = new THREE.Quaternion();\n\nexport function lerpHandsSnapshots(\n snapshots: HandsSnapshot[],\n time: number,\n): HandsSnapshot | null {\n if (!snapshots.length) {\n return null;\n }\n\n const first = snapshots[0];\n const last = snapshots[snapshots.length - 1];\n\n if (time < first.time || time > last.time) {\n return null;\n }\n\n const floorIndex = findSnapshotFloorIndex(snapshots, time);\n if (floorIndex === -1) {\n return null;\n }\n\n const from = snapshots[floorIndex];\n const to = snapshots[floorIndex + 1];\n if (!to) {\n return cloneSnapshot(from, time);\n }\n\n const span = to.time - from.time;\n const factor = span > 0 ? (time - from.time) / span : 0;\n\n return interpolateSnapshots(from, to, factor, time);\n}\n\nfunction interpolateSnapshots(\n from: HandsSnapshot,\n to: HandsSnapshot,\n factor: number,\n time: number,\n): HandsSnapshot {\n const maxHands = Math.max(from.hands.length, to.hands.length);\n const hands = Array.from({ length: maxHands }, (_, handIndex) =>\n lerpHandSnapshot(from.hands[handIndex], to.hands[handIndex], factor),\n );\n return { time, hands };\n}\n\nfunction cloneSnapshot(snapshot: HandsSnapshot, time: number): HandsSnapshot {\n return {\n time,\n hands: snapshot.hands.map((hand) => cloneHandSnapshot(hand)),\n };\n}\n\nexport class XrHand {\n hand: Hand;\n joints?: HandJoints;\n lastJoints?: HandJoints;\n\n constructor(hand: Hand) {\n this.hand = hand;\n }\n\n static newFromSnapshot(hand: Hand, snapshot: HandSnapshot) {\n const h = new XrHand(hand);\n h.joints = {};\n for (const jointId of JOINT_IDS) {\n const joint = snapshot[jointId];\n if (!joint) {\n continue;\n }\n h.joints[jointId] = {\n position: new THREE.Vector3(joint.pos[0], joint.pos[1], joint.pos[2]),\n quaternion: new THREE.Quaternion(\n joint.quat[0],\n joint.quat[1],\n joint.quat[2],\n joint.quat[3],\n ),\n radius: joint.radius,\n };\n }\n return h;\n }\n\n valid() {\n return !!this.joints;\n }\n\n snapshotJoints() {\n if (!this.joints) {\n return undefined;\n }\n\n const snapshot: HandSnapshot = {};\n for (const jointId of JOINT_IDS) {\n const joint = this.joints[jointId];\n if (!joint) {\n continue;\n }\n snapshot[jointId] = {\n pos: joint.position.toArray().map(round4),\n quat: joint.quaternion.toArray().map(round4),\n radius: round4(joint.radius),\n };\n }\n return snapshot;\n }\n\n toFlatArray() {\n if (!this.joints) {\n return undefined;\n }\n const array = new Float32Array(1 + 25 * 7);\n array[0] = this.hand === Hand.left ? 0 : 1;\n let index = 1;\n for (const jointId of JOINT_IDS) {\n const joint = this.joints[jointId];\n if (joint) {\n array[index] = joint.position.x;\n array[index + 1] = joint.position.y;\n array[index + 2] = joint.position.z;\n array[index + 3] = joint.quaternion.x;\n array[index + 4] = joint.quaternion.y;\n array[index + 5] = joint.quaternion.z;\n array[index + 6] = joint.quaternion.w;\n }\n index += 7;\n }\n return array;\n }\n}\n\nfunction findSnapshotFloorIndex(snapshots: HandsSnapshot[], time: number) {\n let low = 0;\n let high = snapshots.length - 1;\n while (low <= high) {\n const mid = (low + high) >> 1;\n if (snapshots[mid].time <= time) {\n low = mid + 1;\n } else {\n high = mid - 1;\n }\n }\n return high;\n}\n\nfunction lerpHandSnapshot(\n fromHand?: HandSnapshot,\n toHand?: HandSnapshot,\n factor = 0,\n) {\n if (!fromHand || !toHand) {\n return undefined;\n }\n const hand: HandSnapshot = {};\n for (const jointId of JOINT_IDS) {\n const joint = lerpJointSnapshot(fromHand[jointId], toHand[jointId], factor);\n if (joint) {\n hand[jointId] = joint;\n }\n }\n return hand;\n}\n\nfunction lerpJointSnapshot(\n fromJoint?: JointSnapshot,\n toJoint?: JointSnapshot,\n factor = 0,\n) {\n if (!fromJoint || !toJoint) {\n return undefined;\n }\n const pos = fromJoint.pos.map(\n (value, index) => value + (toJoint.pos[index] - value) * factor,\n );\n const quat = SCRATCH_QUAT_A.fromArray(fromJoint.quat)\n .slerp(SCRATCH_QUAT_B.fromArray(toJoint.quat), factor)\n .toArray();\n const radius =\n fromJoint.radius + (toJoint.radius - fromJoint.radius) * factor;\n\n return { pos, quat, radius };\n}\n\nfunction cloneHandSnapshot(hand?: HandSnapshot) {\n if (!hand) {\n return undefined;\n }\n const clone: HandSnapshot = {};\n for (const jointId of JOINT_IDS) {\n const joint = hand[jointId];\n if (joint) {\n clone[jointId] = cloneJointSnapshot(joint);\n }\n }\n return clone;\n}\n\nfunction cloneJointSnapshot(joint: JointSnapshot): JointSnapshot {\n return {\n pos: [...joint.pos],\n quat: [...joint.quat],\n radius: joint.radius,\n };\n}\n\nexport class JointSplats extends SplatMesh {\n hand: Hand;\n\n constructor(hand: Hand) {\n super({});\n this.hand = hand;\n }\n\n private scratchCenter = new THREE.Vector3();\n private scratchQuat = new THREE.Quaternion(0, 0, 0, 1);\n private scratchScales = new THREE.Vector3().setScalar(0.01);\n private scratchColor = new THREE.Color(1, 1, 1);\n\n updateJoints(joints?: HandJoints) {\n this.visible = false;\n\n if (!joints || !this.packedSplats) {\n return;\n }\n\n this.visible = true;\n let splatIndex = 0;\n\n for (const jointId of JOINT_IDS) {\n const joint = joints[jointId];\n if (!joint) {\n continue;\n }\n this.scratchCenter.copy(joint.position);\n this.scratchQuat.copy(joint.quaternion);\n this.scratchScales.set(\n joint.radius,\n 0.75 * joint.radius,\n 1.5 * joint.radius,\n );\n // this.scratchColor.set((joint.radius * 123) % 1, (joint.radius * 345) % 1, (joint.radius * 234) % 1);\n const opacity = 0.75;\n\n this.packedSplats.setSplat(\n splatIndex,\n this.scratchCenter,\n this.scratchScales,\n this.scratchQuat,\n opacity,\n this.scratchColor,\n );\n splatIndex += 1;\n }\n\n this.packedSplats.numSplats = splatIndex;\n this.packedSplats.needsUpdate = true;\n this.numSplats = splatIndex;\n this.updateVersion();\n }\n}\n","import {\n Color,\n Matrix4,\n type Object3D,\n Quaternion,\n Vector3,\n type WebXRManager,\n} from \"three\";\nimport { SplatMesh } from \"./SplatMesh\";\n\n// Experimental WebXR hand tracking and movement\n\nconst DEFAULT_MOVE_INERTIA = 0.5;\nconst DEFAULT_ROTATE_INERTIA = 0.5;\nconst TOUCH_BIAS = 0.0;\n\nexport enum JointEnum {\n w = \"wrist\",\n t0 = \"thumb-metacarpal\",\n t1 = \"thumb-phalanx-proximal\",\n t2 = \"thumb-phalanx-distal\",\n t3 = \"thumb-tip\",\n i0 = \"index-finger-metacarpal\",\n i1 = \"index-finger-phalanx-proximal\",\n i2 = \"index-finger-phalanx-intermediate\",\n i3 = \"index-finger-phalanx-distal\",\n i4 = \"index-finger-tip\",\n m0 = \"middle-finger-metacarpal\",\n m1 = \"middle-finger-phalanx-proximal\",\n m2 = \"middle-finger-phalanx-intermediate\",\n m3 = \"middle-finger-phalanx-distal\",\n m4 = \"middle-finger-tip\",\n r0 = \"ring-finger-metacarpal\",\n r1 = \"ring-finger-phalanx-proximal\",\n r2 = \"ring-finger-phalanx-intermediate\",\n r3 = \"ring-finger-phalanx-distal\",\n r4 = \"ring-finger-tip\",\n p0 = \"pinky-finger-metacarpal\",\n p1 = \"pinky-finger-phalanx-proximal\",\n p2 = \"pinky-finger-phalanx-intermediate\",\n p3 = \"pinky-finger-phalanx-distal\",\n p4 = \"pinky-finger-tip\",\n}\nexport type JointId = keyof typeof JointEnum;\nexport const JOINT_IDS = Object.keys(JointEnum) as JointId[];\nexport const NUM_JOINTS = JOINT_IDS.length;\n\nexport const JOINT_INDEX: { [key in JointId]: number } = {\n w: 0,\n t0: 1,\n t1: 2,\n t2: 3,\n t3: 4,\n i0: 5,\n i1: 6,\n i2: 7,\n i3: 8,\n i4: 9,\n m0: 10,\n m1: 11,\n m2: 12,\n m3: 13,\n m4: 14,\n r0: 15,\n r1: 16,\n r2: 17,\n r3: 18,\n r4: 19,\n p0: 20,\n p1: 21,\n p2: 22,\n p3: 23,\n p4: 24,\n};\n\nexport const JOINT_RADIUS: { [key in JointId]: number } = {\n w: 0.02,\n t0: 0.02,\n t1: 0.014,\n t2: 0.0115,\n t3: 0.0085,\n i0: 0.022,\n i1: 0.012,\n i2: 0.0085,\n i3: 0.0075,\n i4: 0.0065,\n m0: 0.021,\n m1: 0.012,\n m2: 0.008,\n m3: 0.0075,\n m4: 0.0065,\n r0: 0.019,\n r1: 0.011,\n r2: 0.0075,\n r3: 0.007,\n r4: 0.006,\n p0: 0.012,\n p1: 0.01,\n p2: 0.007,\n p3: 0.0065,\n p4: 0.0055,\n};\n\nexport const JOINT_SEGMENTS: JointId[][] = [\n [\"w\", \"t0\", \"t1\", \"t2\", \"t3\"],\n [\"w\", \"i0\", \"i1\", \"i2\", \"i3\", \"i4\"],\n [\"w\", \"m0\", \"m1\", \"m2\", \"m3\", \"m4\"],\n [\"w\", \"r0\", \"r1\", \"r2\", \"r3\", \"r4\"],\n [\"w\", \"p0\", \"p1\", \"p2\", \"p3\", \"p4\"],\n];\n\nexport const JOINT_SEGMENT_STEPS: number[][] = [\n [8, 10, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n];\n\nexport const JOINT_TIPS: JointId[] = [\"t3\", \"i4\", \"m4\", \"r4\", \"p4\"];\nexport const FINGER_TIPS: JointId[] = [\"i4\", \"m4\", \"r4\", \"p4\"];\n\nexport enum Hand {\n left = \"left\",\n right = \"right\",\n}\nexport const HANDS = Object.keys(Hand) as Hand[];\n\nexport type Joint = {\n position: Vector3;\n quaternion: Quaternion;\n radius: number;\n};\n\nexport type HandJoints = { [key in JointId]?: Joint };\nexport type HandsJoints = { [key in Hand]?: HandJoints };\n\nexport class XrHands {\n hands: HandsJoints = {};\n last: HandsJoints = {};\n\n values: Record = {};\n tests: Record = {};\n lastTests: Record = {};\n\n updated = false;\n\n update({ xr, xrFrame }: { xr: WebXRManager; xrFrame: XRFrame }) {\n const xrSession = xr.getSession();\n if (!xrSession) {\n return;\n }\n const referenceSpace = xr.getReferenceSpace();\n if (!referenceSpace) {\n return;\n }\n if (!xrFrame.getJointPose) {\n return;\n }\n\n this.last = this.hands;\n this.lastTests = this.tests;\n\n this.hands = {};\n this.values = {};\n this.tests = {};\n\n for (const inputSource of xrSession.inputSources) {\n if (!inputSource.hand) {\n continue;\n }\n\n const hand = inputSource.handedness as Hand;\n this.hands[hand] = {};\n\n // Iterate over JointId\n for (const jointId of JOINT_IDS) {\n const jointSpace = inputSource.hand.get(JointEnum[jointId]);\n if (jointSpace) {\n const jointPose = xrFrame.getJointPose(jointSpace, referenceSpace);\n if (jointPose) {\n const { position, orientation } = jointPose.transform;\n this.hands[hand][jointId] = {\n position: new Vector3(position.x, position.y, position.z),\n quaternion: new Quaternion(\n orientation.x,\n orientation.y,\n orientation.z,\n orientation.w,\n ),\n radius: jointPose.radius || 0.001,\n };\n }\n }\n }\n }\n\n for (const hand of HANDS) {\n for (const { key, value } of [\n { key: `${hand}AllTips`, value: this.allTipsTouching(hand) },\n {\n key: `${hand}IndexThumb`,\n value: this.touching(hand, \"i4\", hand, \"t3\"),\n },\n {\n key: `${hand}MiddleThumb`,\n value: this.touching(hand, \"m4\", hand, \"t3\"),\n },\n {\n key: `${hand}RingThumb`,\n value: this.touching(hand, \"r4\", hand, \"t3\"),\n },\n {\n key: `${hand}PinkyThumb`,\n value: this.touching(hand, \"p4\", hand, \"t3\"),\n },\n { key: `${hand}TriTips`, value: this.triTipsTouching(hand) },\n ]) {\n this.values[key] = value;\n this.tests[key] =\n value === 1.0\n ? true\n : value === 0.0\n ? false\n : (this.lastTests[key] ?? false);\n }\n }\n }\n\n makeGhostMesh(): SplatMesh {\n const center = new Vector3();\n const scales = new Vector3(0.01, 0.01, 0.01);\n const quaternion = new Quaternion(0, 0, 0, 1);\n const color = new Color(1, 1, 1);\n const CYCLE = Math.PI * 3;\n const WHITE = new Color(1, 1, 1);\n let opacity = 1.0;\n\n const mesh = new SplatMesh({\n onFrame: () => {\n if (!mesh.packedSplats) {\n return;\n }\n let splatIndex = 0;\n for (const handedness of HANDS) {\n const xrHand = this.hands[handedness];\n for (const [index, segment] of JOINT_SEGMENTS.entries()) {\n for (let i = 1; i < segment.length; ++i) {\n const segmentSplats = JOINT_SEGMENT_STEPS[index][i - 1] * 2;\n const lastSegment = i + 1 === segment.length;\n const jointA = xrHand?.[segment[i - 1]];\n const jointB = xrHand?.[segment[i]];\n\n for (let j = 0; j < segmentSplats; ++j) {\n const t = (j + 0.5) / segmentSplats;\n opacity = 0.0;\n if (jointA && jointB) {\n center.copy(jointA.position).lerp(jointB.position, t);\n quaternion\n .copy(jointA.quaternion)\n .slerp(jointB.quaternion, t);\n const radiusA = JOINT_RADIUS[segment[i - 1]];\n const radiusB = JOINT_RADIUS[segment[i]];\n let radius = (1 - t) * radiusA + t * radiusB;\n if (lastSegment && t > 0.8) {\n // Round out finger tips\n radius *= Math.sqrt(1 - ((t - 0.8) / 0.2) ** 2);\n }\n scales.set(0.65 * radius, 0.5 * radius, 0.003);\n color.set(\n 0.55 + 0.45 * Math.sin(center.x * CYCLE),\n 0.55 + 0.45 * Math.sin(center.y * CYCLE),\n 0.55 + 0.45 * Math.sin(center.z * CYCLE),\n );\n if (handedness === \"right\") {\n color.set(1 - color.r, 1 - color.g, 1 - color.b);\n }\n opacity = 0.75;\n }\n mesh.packedSplats.setSplat(\n splatIndex,\n center,\n scales,\n quaternion,\n opacity,\n color,\n );\n splatIndex += 1;\n }\n }\n }\n }\n mesh.packedSplats.numSplats = splatIndex;\n mesh.packedSplats.needsUpdate = true;\n mesh.numSplats = splatIndex;\n mesh.updateVersion();\n },\n });\n return mesh;\n }\n\n distance(\n handA: Hand,\n jointA: JointId,\n handB: Hand,\n jointB: JointId,\n last = false,\n ): number {\n const hA = last ? this.last[handA] : this.hands[handA];\n const hB = last ? this.last[handB] : this.hands[handB];\n const jA = hA?.[jointA];\n const jB = hB?.[jointB];\n if (!jA || !jB) {\n return Number.POSITIVE_INFINITY;\n }\n return jA.position.distanceTo(jB.position);\n }\n\n separation(\n handA: Hand,\n jointA: JointId,\n handB: Hand,\n jointB: JointId,\n last = false,\n ): number {\n const d = this.distance(handA, jointA, handB, jointB, last);\n if (d === Number.POSITIVE_INFINITY) {\n return Number.POSITIVE_INFINITY;\n }\n return d - JOINT_RADIUS[jointA] - JOINT_RADIUS[jointB];\n }\n\n touching(\n handA: Hand,\n jointA: JointId,\n handB: Hand,\n jointB: JointId,\n last = false,\n ): number {\n const d = this.separation(handA, jointA, handB, jointB, last);\n if (d === Number.POSITIVE_INFINITY) {\n return Number.POSITIVE_INFINITY;\n }\n return 1 - Math.max(0, Math.min(1, d / 0.01 - TOUCH_BIAS));\n }\n\n allTipsTouching(hand: Hand, last = false): number {\n return Math.min(\n this.touching(hand, \"t3\", hand, \"i4\", last),\n this.touching(hand, \"i4\", hand, \"m4\", last),\n this.touching(hand, \"m4\", hand, \"r4\", last),\n this.touching(hand, \"r4\", hand, \"p4\", last),\n // this.touching(hand, \"p4\", hand, \"t3\", last),\n );\n }\n\n triTipsTouching(hand: Hand, last = false): number {\n return Math.min(\n this.touching(hand, \"t3\", hand, \"i4\", last),\n this.touching(hand, \"i4\", hand, \"m4\", last),\n this.touching(hand, \"m4\", hand, \"t3\", last),\n );\n }\n}\n\nexport class HandMovement {\n xrHands: XrHands;\n control: Object3D;\n moveInertia: number;\n rotateInertia: number;\n\n lastGrip: { [key in Hand]?: Vector3 } = {};\n lastPivot: Vector3 = new Vector3();\n rotateVelocity = 0;\n velocity: Vector3 = new Vector3();\n\n constructor({\n xrHands,\n control,\n moveInertia,\n rotateInertia,\n }: {\n xrHands: XrHands;\n control: Object3D;\n moveInertia?: number;\n rotateInertia?: number;\n }) {\n this.xrHands = xrHands;\n this.control = control;\n this.moveInertia = moveInertia ?? DEFAULT_MOVE_INERTIA;\n this.rotateInertia = rotateInertia ?? DEFAULT_ROTATE_INERTIA;\n }\n\n update(deltaTime: number) {\n const grip: { [key in Hand]?: Vector3 } = {};\n for (const handedness of HANDS) {\n const hand = this.xrHands.hands[handedness];\n if (hand && this.xrHands.tests[`${handedness}MiddleThumb`]) {\n grip[handedness] = new Vector3()\n .add(hand.t3?.position ?? new Vector3())\n .add(hand.i4?.position ?? new Vector3())\n .add(hand.m4?.position ?? new Vector3())\n .add(hand.r4?.position ?? new Vector3())\n .add(hand.p4?.position ?? new Vector3())\n .multiplyScalar(1 / 5);\n }\n }\n\n if (grip.left && grip.right && this.lastGrip.left && this.lastGrip.right) {\n const mid = grip.left.clone().add(grip.right).multiplyScalar(0.5);\n const lastMid = this.lastGrip.left\n .clone()\n .add(this.lastGrip.right)\n .multiplyScalar(0.5);\n this.lastPivot = mid;\n\n const delta = mid.clone().applyMatrix4(this.control.matrix);\n delta.sub(lastMid.clone().applyMatrix4(this.control.matrix));\n delta.multiplyScalar(1 / deltaTime);\n this.velocity.lerp(delta, 1 - Math.exp(-20 * deltaTime));\n\n const angle = Math.atan2(grip.left.z - mid.z, grip.left.x - mid.x);\n const lastAngle = Math.atan2(\n this.lastGrip.left.z - lastMid.z,\n this.lastGrip.left.x - lastMid.x,\n );\n // Find closest rotation over circle between angle and lastAngle\n let closestAngle = angle - lastAngle;\n if (closestAngle > Math.PI) {\n closestAngle -= Math.PI * 2;\n } else if (closestAngle < -Math.PI) {\n closestAngle += Math.PI * 2;\n }\n const rotateVelocity = closestAngle / deltaTime;\n\n const blend = Math.exp(-20 * deltaTime);\n this.rotateVelocity =\n this.rotateVelocity * blend + rotateVelocity * (1 - blend);\n } else {\n this.rotateVelocity *= Math.exp(-deltaTime / this.rotateInertia);\n\n if (grip.left && this.lastGrip.left) {\n const delta = grip.left.clone().applyMatrix4(this.control.matrix);\n delta.sub(this.lastGrip.left.clone().applyMatrix4(this.control.matrix));\n delta.multiplyScalar(1 / deltaTime);\n this.velocity.lerp(delta, 1 - Math.exp(-20 * deltaTime));\n } else if (grip.right && this.lastGrip.right) {\n const delta = grip.right.clone().applyMatrix4(this.control.matrix);\n delta.sub(\n this.lastGrip.right.clone().applyMatrix4(this.control.matrix),\n );\n delta.multiplyScalar(1 / deltaTime);\n this.velocity.lerp(delta, 1 - Math.exp(-20 * deltaTime));\n } else {\n this.velocity.multiplyScalar(Math.exp(-deltaTime / this.moveInertia));\n }\n }\n\n const negPivot = this.lastPivot.clone().negate();\n const rotate = new Matrix4()\n .makeTranslation(negPivot)\n .premultiply(new Matrix4().makeRotationY(this.rotateVelocity * deltaTime))\n .premultiply(new Matrix4().makeTranslation(this.lastPivot));\n this.control.matrix.multiply(rotate);\n this.control.matrix.decompose(\n this.control.position,\n this.control.quaternion,\n this.control.scale,\n );\n this.control.updateMatrixWorld(true);\n\n this.control.position.sub(this.velocity.clone().multiplyScalar(deltaTime));\n this.lastGrip = grip;\n }\n}\n","import * as THREE from \"three\";\nimport { isAndroid, isIos } from \"./utils\";\n\n// Spark controls for keyboard + mouse, game pad, or mobile multi-touch\n\nconst DEFAULT_MOVEMENT_SPEED = 1.0;\nconst DEFAULT_ROLL_SPEED = 2.0;\nconst DEFAULT_ROTATE_SPEED = 0.002;\nconst DEFAULT_SLIDE_SPEED = 0.006;\nconst DEFAULT_SCROLL_SPEED = 0.0015;\nconst DEFAULT_ROLL_SPRING = 0.0;\nconst DEFAULT_ROTATE_INERTIA = 0.15;\nconst DEFAULT_MOVE_INERTIA = 0.15;\nconst DEFAULT_STICK_THRESHOLD = 0.1;\nconst DEFAULT_FPS_ROTATE_SPEED = 2.0;\n// const DEFAULT_POINTER_ROLL_SCALE = 1.0;\nconst DEFAULT_POINTER_ROLL_SCALE = 0.0;\nconst DEFAULT_PRESS_MOVE_DELAY_MS = 500;\nconst DEFAULT_PRESS_MOVE_ACCEL_MS = 500;\n\n// Time limit for double-finger press (pinch etc)\nconst DUAL_PRESS_MS = 200;\n// Time limit for double-click/double-tap\nconst DOUBLE_PRESS_LIMIT_MS = 400;\n// Distance limit for double-click.\nconst DOUBLE_PRESS_DISTANCE = 25;\n\nconst MOVEMENT_THRESHOLD = 1.0e-4;\n\n// Standard WASD movement keys with R+F for up/down\nconst WASD_KEYCODE_MOVE = {\n KeyW: new THREE.Vector3(0, 0, -1),\n KeyS: new THREE.Vector3(0, 0, 1),\n KeyA: new THREE.Vector3(-1, 0, 0),\n KeyD: new THREE.Vector3(1, 0, 0),\n KeyE: new THREE.Vector3(0, 1, 0),\n KeyQ: new THREE.Vector3(0, -1, 0),\n};\n\n// Arrow key movement with PageUp/PageDown\nconst ARROW_KEYCODE_MOVE = {\n ArrowUp: new THREE.Vector3(0, 0, -1),\n ArrowDown: new THREE.Vector3(0, 0, 1),\n ArrowLeft: new THREE.Vector3(-1, 0, 0),\n ArrowRight: new THREE.Vector3(1, 0, 0),\n PageUp: new THREE.Vector3(0, 1, 0),\n PageDown: new THREE.Vector3(0, -1, 0),\n};\n\n// Rolling with Q/E\nconst QE_KEYCODE_ROTATE = {\n KeyQ: new THREE.Vector3(0, 0, 1),\n KeyE: new THREE.Vector3(0, 0, -1),\n};\n\n// Home/End/Insert/Delete for rotation\nconst ARROW_KEYCODE_ROTATE = {\n Home: new THREE.Vector3(0, -1, 0),\n End: new THREE.Vector3(0, 1, 0),\n Insert: new THREE.Vector3(-1, 0, 0),\n Delete: new THREE.Vector3(1, 0, 0),\n};\n\n// SparkControls provides simple, intuitive controls for navigating 3D space that\n// use the keyboard + mouse, game pad, or mobile multi-touch. Internally it\n// instantiates and updates a `FpsMovement` and `PointerControls` instance.\n\nexport class SparkControls {\n fpsMovement: FpsMovement;\n pointerControls: PointerControls;\n lastTime = 0;\n\n constructor({ canvas }: { canvas: HTMLCanvasElement }) {\n this.fpsMovement = new FpsMovement({});\n this.pointerControls = new PointerControls({ canvas });\n }\n\n update(control: THREE.Object3D, camera?: THREE.Camera) {\n const time = performance.now();\n const deltaTime = (time - (this.lastTime || time)) / 1000;\n this.lastTime = time;\n\n let updated = this.fpsMovement.update(deltaTime, control);\n if (this.pointerControls.update(deltaTime, control, camera)) {\n updated = true;\n }\n return updated;\n }\n}\n\n// FpsMovement implements controls that will be familiar to anyone who plays\n// First Person Shooters using keyboard + mouse or a gamepad. Creating a FpsMovement\n// instance provides many parameters for configuring the controls.\n//\n// When gamepads are connected, FpsMovement will always use gamepad index 0\n// for twin-stick movement and rotation.\n//\n// If xr is passed in, the WebXR controllers can be used as a split gamepad\n// to control movement and rotation. (tested on Quest 3)\n\nexport class FpsMovement {\n moveSpeed: number;\n rollSpeed: number;\n stickThreshold: number;\n rotateSpeed: number;\n keycodeMoveMapping: { [key: string]: THREE.Vector3 };\n keycodeRotateMapping: { [key: string]: THREE.Vector3 };\n gamepadMapping: {\n [button: number]: \"shift\" | \"ctrl\" | \"rollLeft\" | \"rollRight\";\n };\n capsMultiplier: number;\n shiftMultiplier: number;\n ctrlMultiplier: number;\n xr?: THREE.WebXRManager;\n // Enable/disable controls updates\n enable = true;\n extraMove = new THREE.Vector3();\n\n // Currently active event.key values\n keydown: { [key: string]: boolean };\n // Currently active event.code values\n keycode: { [key: string]: boolean };\n\n constructor({\n moveSpeed,\n rollSpeed,\n stickThreshold,\n rotateSpeed,\n keycodeMoveMapping,\n keycodeRotateMapping,\n gamepadMapping,\n capsMultiplier,\n shiftMultiplier,\n ctrlMultiplier,\n xr,\n }: {\n // Base movement speed (default DEFAULT_MOVEMENT_SPEED)\n moveSpeed?: number;\n // Base roll speed (default DEFAULT_ROLL_SPEED)\n rollSpeed?: number;\n // Stick threshold (default DEFAULT_STICK_THRESHOLD)\n stickThreshold?: number;\n // Speed of rotation when using gamepad or keys (default DEFAULT_FPS_ROTATE_SPEED)\n rotateSpeed?: number;\n // Maps keyboard keys to movement directions\n // (default {...WASD_KEYCODE_MOVE, ...ARROW_KEYCODE_MOVE})\n keycodeMoveMapping?: { [key: string]: THREE.Vector3 };\n // Maps keyboard keys to rotation directions\n // (default { ...ARROW_KEYCODE_ROTATE})\n keycodeRotateMapping?: { [key: string]: THREE.Vector3 };\n // Maps gamepad buttons to control actions\n // (default {4: \"rollLeft\", 5: \"rollRight\", 6: \"ctrl\", 7: \"shift\"})\n gamepadMapping?: {\n [button: number]: \"shift\" | \"ctrl\" | \"rollLeft\" | \"rollRight\";\n };\n // Speed multiplier when Caps Lock is active (default: 10)\n capsMultiplier?: number;\n // Speed multiplier when Shift is active (default: 5)\n shiftMultiplier?: number;\n // Speed multiplier when Ctrl is active (default: 1/5)\n ctrlMultiplier?: number;\n // Optional WebXR manager for XR controller stick support\n xr?: THREE.WebXRManager;\n } = {}) {\n this.moveSpeed = moveSpeed ?? DEFAULT_MOVEMENT_SPEED;\n this.rollSpeed = rollSpeed ?? DEFAULT_ROLL_SPEED;\n this.stickThreshold = stickThreshold ?? DEFAULT_STICK_THRESHOLD;\n this.rotateSpeed = rotateSpeed ?? DEFAULT_FPS_ROTATE_SPEED;\n this.keycodeMoveMapping = keycodeMoveMapping ?? {\n ...WASD_KEYCODE_MOVE,\n ...ARROW_KEYCODE_MOVE,\n };\n this.keycodeRotateMapping = keycodeRotateMapping ?? {\n // ...QE_KEYCODE_ROTATE,\n ...ARROW_KEYCODE_ROTATE,\n };\n this.gamepadMapping = gamepadMapping ?? {\n 4: \"rollLeft\",\n 5: \"rollRight\",\n 6: \"ctrl\",\n 7: \"shift\",\n };\n this.capsMultiplier = capsMultiplier ?? 10.0;\n this.shiftMultiplier = shiftMultiplier ?? 5.0;\n this.ctrlMultiplier = ctrlMultiplier ?? 1.0 / 5.0;\n\n this.xr = xr;\n\n this.keydown = {};\n this.keycode = {};\n\n document.addEventListener(\"keydown\", (event) => {\n this.keydown[event.key] = true;\n this.keycode[event.code] = true;\n });\n document.addEventListener(\"keyup\", (event) => {\n this.keydown[event.key] = false;\n this.keycode[event.code] = false;\n });\n window.addEventListener(\"blur\", () => {\n this.keydown = {};\n this.keycode = {};\n });\n }\n\n // Call this method in your render loop with `control` set to the object to control\n // (`THREE.Camera` or a `THREE.Object3D` that contains it), with `deltaTime`\n // in seconds since the last update.\n update(deltaTime: number, control: THREE.Object3D) {\n if (!this.enable) {\n return false;\n }\n\n // Update gamepad / XR controllers\n\n const sticks = [new THREE.Vector2(), new THREE.Vector2()];\n const gamepad = navigator.getGamepads()[0];\n if (gamepad) {\n sticks[0].set(gamepad.axes[0], gamepad.axes[1]);\n sticks[1].set(gamepad.axes[2], gamepad.axes[3]);\n }\n const gamepadButtons =\n gamepad?.buttons.map((button) => button.pressed) || [];\n\n const xrSources = Array.from(this.xr?.getSession()?.inputSources ?? []);\n for (const source of xrSources) {\n const gamepad = source.gamepad;\n if (gamepad) {\n switch (source.handedness) {\n case \"none\": {\n sticks[0].x += gamepad.axes[0];\n sticks[0].y += gamepad.axes[1];\n sticks[1].x += gamepad.axes[2];\n sticks[1].y += gamepad.axes[3];\n break;\n }\n case \"left\": {\n sticks[0].x += gamepad.axes[2];\n sticks[0].y += gamepad.axes[3];\n break;\n }\n case \"right\": {\n sticks[1].x += gamepad.axes[2];\n sticks[1].y += gamepad.axes[3];\n break;\n }\n }\n }\n }\n\n for (const stick of sticks) {\n stick.x = Math.abs(stick.x) >= this.stickThreshold ? stick.x : 0;\n stick.y = Math.abs(stick.y) >= this.stickThreshold ? stick.y : 0;\n }\n\n // Rotation\n\n const rotate = new THREE.Vector3(\n sticks[1].x,\n sticks[1].y,\n 0,\n ).multiplyScalar(this.rotateSpeed);\n\n for (const [keycode, rot] of Object.entries(this.keycodeRotateMapping)) {\n if (this.keycode[keycode]) {\n rotate.add(rot);\n }\n }\n for (const button in this.gamepadMapping) {\n if (gamepadButtons[Number.parseInt(button)]) {\n switch (this.gamepadMapping[button]) {\n case \"rollLeft\":\n rotate.z += 1;\n break;\n case \"rollRight\":\n rotate.z -= 1;\n break;\n }\n }\n }\n\n rotate.multiply(\n new THREE.Vector3(this.rotateSpeed, this.rotateSpeed, this.rollSpeed),\n );\n\n let updated = rotate.length() > MOVEMENT_THRESHOLD;\n\n if (rotate.manhattanLength() > 0.0) {\n rotate.multiplyScalar(deltaTime);\n const eulers = new THREE.Euler().setFromQuaternion(\n control.quaternion,\n \"YXZ\",\n );\n eulers.y -= rotate.x;\n eulers.x = Math.max(\n -Math.PI / 2,\n Math.min(Math.PI / 2, eulers.x - rotate.y),\n );\n eulers.z = Math.max(-Math.PI, Math.min(Math.PI, eulers.z + rotate.z));\n control.quaternion.setFromEuler(eulers);\n }\n\n // Movement\n\n const moveVector = new THREE.Vector3(sticks[0].x, 0, sticks[0].y);\n moveVector.add(this.extraMove);\n\n for (const [keycode, move] of Object.entries(this.keycodeMoveMapping)) {\n if (this.keycode[keycode]) {\n moveVector.add(move);\n }\n }\n\n let speedMultiplier = 1.0;\n if (this.keydown.CapsLock) {\n speedMultiplier *= this.capsMultiplier;\n }\n if (this.keycode.ShiftLeft || this.keycode.ShiftRight) {\n speedMultiplier *= this.shiftMultiplier;\n }\n if (this.keycode.ControlLeft || this.keycode.ControlRight) {\n speedMultiplier *= this.ctrlMultiplier;\n }\n for (const button in this.gamepadMapping) {\n if (gamepadButtons[Number.parseInt(button)]) {\n switch (this.gamepadMapping[button]) {\n case \"shift\":\n speedMultiplier *= this.shiftMultiplier;\n break;\n case \"ctrl\":\n speedMultiplier *= this.ctrlMultiplier;\n break;\n }\n }\n }\n\n if (moveVector.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n\n // Apply movement in view direction\n moveVector.applyQuaternion(control.quaternion);\n control.position.add(\n moveVector.multiplyScalar(this.moveSpeed * speedMultiplier * deltaTime),\n );\n\n return updated;\n }\n}\n\ntype PointerState = {\n initial: THREE.Vector2;\n last: THREE.Vector2;\n position: THREE.Vector2;\n pointerId: number;\n button?: number;\n timeStamp: DOMHighResTimeStamp;\n};\n\n// `PointerControls` implements pointer/mouse/touch controls on the canvas,\n// for both desktop and mobile web applications.\n\nexport class PointerControls {\n canvas: HTMLCanvasElement;\n rotateSpeed: number;\n slideSpeed: number;\n scrollSpeed: number;\n swapRotateSlide: boolean;\n reverseRotate: boolean;\n reverseSlide: boolean;\n reverseSwipe: boolean;\n reverseScroll: boolean;\n moveInertia: number;\n rotateInertia: number;\n pointerRollScale: number;\n // Enable/disable controls updates\n enable = true;\n\n doublePress: ({\n position,\n intervalMs,\n }: { position: THREE.Vector2; intervalMs: number }) => void;\n // Time limit for double press (default DOUBLE_PRESS_LIMIT_MS)\n doublePressLimitMs: number;\n // Distance limit for double press (default DOUBLE_PRESS_DISTANCE)\n doublePressDistance: number;\n\n // Time delay in ms for press move to start\n pressMoveDelayMs: number;\n // Time in ms for press move to accelerate\n pressMoveAccelMs: number;\n // Speed of movement on press (default: 0)\n pressMoveSpeed: number;\n // Speed of movement on double press (default: pressMoveSpeed * 5.0)\n doublePressMoveSpeed: number;\n // Speed of movement on triple press (default: doublePressMoveSpeed * 5.0)\n triplePressMoveSpeed: number;\n // Whether to move toward the screen center or finger when pressing to move\n pressMoveCenter: boolean;\n pressHeld?: boolean;\n doublePressed?: number;\n triplePressed: boolean;\n // Last pointer up event (default: null)\n lastUp: { position: THREE.Vector2; timeStamp: number } | null;\n lastLastUp: { position: THREE.Vector2; timeStamp: number } | null;\n\n // Pointer state for currently active rotating pointer\n rotating: PointerState | null;\n // Pointer state for currently active sliding pointer\n sliding: PointerState | null;\n // Pointer state for last pointer that downed\n lastDown: PointerState | null;\n // Whether we pressed two pointers at the same time\n dualPress: boolean;\n // Cumulative scroll movement\n scroll: THREE.Vector3;\n\n // Current rotation velocity\n rotateVelocity: THREE.Vector3;\n // Current movement velocity\n moveVelocity: THREE.Vector3;\n\n constructor({\n // The HTML canvas element to attach pointer events to\n canvas,\n // Speed of rotation (default DEFAULT_ROTATE_SPEED)\n rotateSpeed,\n // Speed of sliding when dragging with right/middle mouse button or two fingers\n // (default DEFAULT_SLIDE_SPEED)\n slideSpeed,\n // Speed of movement when using mouse scroll wheel (default DEFAULT_SCROLL_SPEED)\n scrollSpeed,\n // Swap the direction of rotation and sliding (default: false)\n swapRotateSlide,\n // Reverse the direction of rotation (default: false)\n reverseRotate,\n // Reverse the direction of sliding (default: false)\n reverseSlide,\n // Reverse the direction of swipe gestures (default: false)\n reverseSwipe,\n // Reverse the direction of scroll wheel movement (default: false)\n reverseScroll,\n // Inertia factor for movement (default: DEFAULT_MOVE_INERTIA)\n moveInertia,\n // Inertia factor for rotation (default: DEFAULT_ROTATE_INERTIA)\n rotateInertia,\n // Pointer rolling scale factor (default: DEFAULT_POINTER_ROLL_SCALE)\n pointerRollScale,\n // Callback for double press events (default: () => {})\n doublePress,\n // Time delay in ms for press move to start (default: DEFAULT_PRESS_MOVE_DELAY_MS)\n pressMoveDelayMs,\n // Time in ms for press move to accelerate (default: DEFAULT_PRESS_MOVE_ACCEL_MS)\n pressMoveAccelMs,\n // Speed of movement on press (default: 0)\n pressMoveSpeed,\n // Speed of movement on double press (default: pressMoveSpeed * 5.0)\n doublePressMoveSpeed,\n // Speed of movement on triple press (default: doublePressMoveSpeed * 5.0)\n triplePressMoveSpeed,\n // Whether to move toward the screen center or finger when pressing to move (default: true)\n pressMoveCenter,\n }: {\n canvas: HTMLCanvasElement;\n rotateSpeed?: number;\n slideSpeed?: number;\n scrollSpeed?: number;\n swapRotateSlide?: boolean;\n reverseRotate?: boolean;\n reverseSlide?: boolean;\n reverseSwipe?: boolean;\n reverseScroll?: boolean;\n moveInertia?: number;\n rotateInertia?: number;\n pointerRollScale?: number;\n doublePress?: ({\n position,\n intervalMs,\n }: { position: THREE.Vector2; intervalMs: number }) => void;\n pressMoveDelayMs?: number;\n pressMoveAccelMs?: number;\n pressMoveSpeed?: number;\n doublePressMoveSpeed?: number;\n triplePressMoveSpeed?: number;\n pressMoveCenter?: boolean;\n }) {\n this.canvas = canvas;\n this.rotateSpeed = rotateSpeed ?? DEFAULT_ROTATE_SPEED;\n this.slideSpeed = slideSpeed ?? DEFAULT_SLIDE_SPEED;\n this.scrollSpeed = scrollSpeed ?? DEFAULT_SCROLL_SPEED;\n this.swapRotateSlide = swapRotateSlide ?? false;\n this.reverseRotate = reverseRotate ?? (isAndroid() || isIos());\n this.reverseSlide = reverseSlide ?? false;\n this.reverseSwipe = reverseSwipe ?? false;\n this.reverseScroll = reverseScroll ?? false;\n this.moveInertia = moveInertia ?? DEFAULT_MOVE_INERTIA;\n this.rotateInertia = rotateInertia ?? DEFAULT_ROTATE_INERTIA;\n this.pointerRollScale = pointerRollScale ?? DEFAULT_POINTER_ROLL_SCALE;\n\n this.doublePress = doublePress ?? (() => {});\n this.doublePressLimitMs = DOUBLE_PRESS_LIMIT_MS;\n this.doublePressDistance = DOUBLE_PRESS_DISTANCE;\n\n this.pressMoveDelayMs = pressMoveDelayMs ?? DEFAULT_PRESS_MOVE_DELAY_MS;\n this.pressMoveAccelMs = pressMoveAccelMs ?? DEFAULT_PRESS_MOVE_ACCEL_MS;\n this.pressMoveSpeed = pressMoveSpeed ?? 0;\n this.doublePressMoveSpeed =\n doublePressMoveSpeed ?? this.pressMoveSpeed * 5.0;\n this.triplePressMoveSpeed =\n triplePressMoveSpeed ?? this.doublePressMoveSpeed * 5.0;\n this.pressMoveCenter = pressMoveCenter ?? true;\n this.doublePressed = undefined;\n this.triplePressed = false;\n this.lastUp = null;\n this.lastLastUp = null;\n\n this.rotating = null;\n this.sliding = null;\n this.lastDown = null;\n this.dualPress = false;\n this.scroll = new THREE.Vector3();\n\n this.rotateVelocity = new THREE.Vector3();\n this.moveVelocity = new THREE.Vector3();\n\n canvas.addEventListener(\"pointerdown\", (event: PointerEvent) => {\n const position = this.getPointerPosition(event);\n const initial = position.clone();\n const last = position.clone();\n\n // Determine if we're starting a rotation pointer action\n const isRotate =\n (!this.swapRotateSlide &&\n !this.rotating &&\n (event.pointerType !== \"mouse\" || event.button === 0)) ||\n (this.swapRotateSlide &&\n this.sliding &&\n !this.rotating &&\n (event.pointerType !== \"mouse\" || event.button === 1));\n // const isRotate =\n // !this.rotating && (event.pointerType !== \"mouse\" || event.button === 0);\n const { pointerId } = event;\n const timeStamp = performance.now();\n\n if (isRotate) {\n this.rotating = { initial, last, position, pointerId, timeStamp };\n this.lastDown = this.rotating;\n // Capture the pointer so events continue to be delivered even if it leaves the canvas.\n canvas.setPointerCapture(event.pointerId);\n\n this.dualPress = false;\n } else if (!this.sliding) {\n // If it's not a rotation action and we're not yet sliding, the next\n // pointer activates a sliding action\n const button = event.pointerType === \"mouse\" ? event.button : undefined;\n this.sliding = {\n initial,\n last,\n position,\n pointerId,\n button,\n timeStamp,\n };\n this.lastDown = this.sliding;\n // Capture the pointer so events continue to be delivered even if it leaves the canvas.\n canvas.setPointerCapture(event.pointerId);\n\n // Check if we pressed both pointers at roughly the same time\n this.dualPress =\n this.rotating != null &&\n timeStamp - this.rotating.timeStamp < DUAL_PRESS_MS;\n }\n\n if (this.lastUp) {\n const distance = this.lastUp.position.distanceTo(position);\n const intervalMs = timeStamp - this.lastUp.timeStamp;\n if (\n distance < this.doublePressDistance &&\n intervalMs < this.doublePressLimitMs\n ) {\n this.doublePressed = performance.now();\n this.triplePressed = false;\n\n if (this.lastLastUp) {\n const lastDistance = this.lastLastUp.position.distanceTo(\n this.lastUp.position,\n );\n const lastIntervalMs =\n this.lastUp.timeStamp - this.lastLastUp.timeStamp;\n if (\n lastDistance < this.doublePressDistance &&\n lastIntervalMs < this.doublePressLimitMs\n ) {\n this.triplePressed = true;\n }\n }\n }\n }\n });\n\n const pointerUp = (event: PointerEvent) => {\n if (this.rotating?.pointerId === event.pointerId) {\n this.rotating = null;\n canvas.releasePointerCapture(event.pointerId);\n if (this.dualPress && this.sliding) {\n canvas.releasePointerCapture(this.sliding.pointerId);\n this.sliding = null;\n }\n } else if (this.sliding?.pointerId === event.pointerId) {\n this.sliding = null;\n canvas.releasePointerCapture(event.pointerId);\n if (this.dualPress && this.rotating) {\n canvas.releasePointerCapture(this.rotating.pointerId);\n this.rotating = null;\n }\n }\n\n this.doublePressed = undefined;\n this.triplePressed = false;\n\n const position = this.getPointerPosition(event);\n const lastUp = this.lastUp;\n this.lastLastUp = this.lastUp;\n const timeStamp = performance.now();\n this.lastUp = { position, timeStamp };\n\n if (lastUp) {\n const distance = lastUp.position.distanceTo(position);\n if (distance < this.doublePressDistance) {\n const intervalMs = timeStamp - lastUp.timeStamp;\n if (intervalMs < this.doublePressLimitMs) {\n // We pressed and release twice within the time and distance limits\n // this.lastUp = null;\n this.doublePress({ position, intervalMs });\n }\n }\n }\n };\n\n document.addEventListener(\"pointerup\", pointerUp);\n document.addEventListener(\"pointercancel\", pointerUp);\n\n document.addEventListener(\"pointermove\", (event: PointerEvent) => {\n if (this.rotating?.pointerId === event.pointerId) {\n this.rotating.position = this.getPointerPosition(event);\n } else if (this.sliding?.pointerId === event.pointerId) {\n this.sliding.position = this.getPointerPosition(event);\n }\n });\n\n canvas.addEventListener(\"contextmenu\", (event: MouseEvent) => {\n // Prevent context menu appearing on right click\n event.preventDefault();\n });\n\n canvas.addEventListener(\"wheel\", (event: WheelEvent) => {\n this.scroll.add(\n new THREE.Vector3(event.deltaX, event.deltaY, event.deltaZ),\n );\n event.preventDefault();\n });\n }\n\n getPointerPosition(event: PointerEvent): THREE.Vector2 {\n const rect = this.canvas.getBoundingClientRect();\n return new THREE.Vector2(\n event.clientX - rect.left,\n event.clientY - rect.top,\n );\n }\n\n update(deltaTime: number, control: THREE.Object3D, camera?: THREE.Camera) {\n if (!this.enable) {\n return false;\n }\n\n const now = performance.now();\n let updated = false;\n\n if (this.dualPress && this.rotating && this.sliding) {\n // We pressed both pointers at the same time, either pinching or sliding\n const motion = [\n this.rotating.position.clone().sub(this.rotating.last),\n this.sliding.position.clone().sub(this.sliding.last),\n ];\n const coincidence = motion[0].dot(motion[1]);\n\n if (coincidence >= 0.2) {\n // Similar directions so slide the camera on the XY plane\n const totalMotion = motion[0].clone().add(motion[1]);\n const slide = new THREE.Vector3(totalMotion.x, -totalMotion.y, 0);\n slide.multiplyScalar(this.slideSpeed * (this.reverseSwipe ? 1 : -1));\n slide.applyQuaternion(control.quaternion);\n control.position.add(slide);\n this.moveVelocity = slide.clone().multiplyScalar(1 / deltaTime);\n\n if (slide.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n } else if (coincidence <= -0.2) {\n // Opposite directions so either pinch or roll motion\n const deltaDir = this.sliding.last.clone().sub(this.rotating.last);\n const deltaDist = deltaDir.length();\n deltaDir.multiplyScalar(1 / deltaDist).normalize();\n\n const orthoDir = new THREE.Vector2(-deltaDir.y, deltaDir.x);\n const motionDir = [motion[0].dot(deltaDir), motion[1].dot(deltaDir)];\n const motionOrtho = [motion[0].dot(orthoDir), motion[1].dot(orthoDir)];\n\n // Pinching motion\n const midpoint = this.rotating.last\n .clone()\n .add(this.sliding.last)\n .multiplyScalar(0.5);\n let midpointDir = new THREE.Vector3();\n const theCamera =\n camera ?? (control instanceof THREE.Camera ? control : undefined);\n if (theCamera) {\n const ndcMidpoint = new THREE.Vector2(\n (midpoint.x / this.canvas.clientWidth) * 2 - 1,\n -(midpoint.y / this.canvas.clientHeight) * 2 + 1,\n );\n const raycaster = new THREE.Raycaster();\n raycaster.setFromCamera(ndcMidpoint, theCamera);\n midpointDir = raycaster.ray.direction;\n }\n const pinchOut = motionDir[1] - motionDir[0];\n const slide = midpointDir.multiplyScalar(pinchOut * this.slideSpeed);\n control.position.add(slide);\n this.moveVelocity = slide.clone().multiplyScalar(1 / deltaTime);\n\n if (slide.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n\n // Rolling motion\n // Calculate angle of orthogonal motion change over distance deltaDist/2\n // motionOrtho[0] and 1 are already in float distance\n const angles = [\n Math.atan(motionOrtho[0] / (-0.5 * deltaDist)),\n Math.atan(motionOrtho[1] / (0.5 * deltaDist)),\n ];\n const rotate = 0.5 * (angles[0] + angles[1]) * this.pointerRollScale;\n const eulers = new THREE.Euler().setFromQuaternion(\n control.quaternion,\n \"YXZ\",\n );\n eulers.z = Math.max(\n -Math.PI,\n Math.min(Math.PI, eulers.z + 0.5 * rotate),\n );\n control.quaternion.setFromEuler(eulers);\n\n if (Math.abs(rotate) > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n }\n\n this.rotating.last.copy(this.rotating.position);\n this.sliding.last.copy(this.sliding.position);\n } else {\n // Didn't press both pointers at the same time, so we're in rotating\n // or FPS mode\n const rotate = new THREE.Vector3();\n if (this.rotating && !this.dualPress) {\n const delta = this.rotating.position.clone().sub(this.rotating.last);\n this.rotating.last.copy(this.rotating.position);\n rotate.set(delta.x, delta.y, 0);\n rotate.multiplyScalar(this.rotateSpeed * (this.reverseRotate ? -1 : 1));\n // Update rotation velocity from last delta\n this.rotateVelocity = rotate.clone().multiplyScalar(1 / deltaTime);\n\n if (rotate.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n } else {\n // Continue to rotate with inertia\n this.rotateVelocity.multiplyScalar(\n Math.exp(-deltaTime / this.rotateInertia),\n );\n rotate.addScaledVector(this.rotateVelocity, deltaTime);\n\n if (this.rotateVelocity.length() * 0.1 > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n }\n\n // Apply rotation in Euler angles space\n const eulers = new THREE.Euler().setFromQuaternion(\n control.quaternion,\n \"YXZ\",\n );\n eulers.y -= rotate.x;\n eulers.x = Math.max(\n -Math.PI / 2,\n Math.min(Math.PI / 2, eulers.x - rotate.y),\n );\n eulers.z *= Math.exp(-DEFAULT_ROLL_SPRING * deltaTime);\n control.quaternion.setFromEuler(eulers);\n\n if (this.sliding && !this.dualPress) {\n const delta = this.sliding.position.clone().sub(this.sliding.last);\n this.sliding.last.copy(this.sliding.position);\n\n // Slide on plane depending on center/right mouse button\n const slide =\n this.sliding.button !== 2\n ? new THREE.Vector3(delta.x, 0, delta.y)\n : new THREE.Vector3(delta.x, -delta.y, 0);\n slide.multiplyScalar(this.slideSpeed * (this.reverseSlide ? -1 : 1));\n\n slide.applyQuaternion(control.quaternion);\n control.position.add(slide);\n // Update movement velocity from last delta\n this.moveVelocity = slide.clone().multiplyScalar(1 / deltaTime);\n\n if (slide.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n } else {\n const target = new THREE.Vector3();\n if (this.sliding || this.rotating) {\n const point = this.lastDown?.last ?? new THREE.Vector2();\n const theCamera =\n camera ?? (control instanceof THREE.Camera ? control : undefined);\n if (theCamera) {\n const ndcPoint = this.pressMoveCenter\n ? new THREE.Vector2(0, 0)\n : new THREE.Vector2(\n (point.x / this.canvas.clientWidth) * 2 - 1,\n -(point.y / this.canvas.clientHeight) * 2 + 1,\n );\n const raycaster = new THREE.Raycaster();\n raycaster.setFromCamera(ndcPoint, theCamera);\n target.copy(raycaster.ray.direction).normalize();\n }\n\n if (!this.doublePressed) {\n let intensity = 0;\n if (this.lastDown) {\n intensity =\n (now -\n (this.lastDown?.timeStamp ?? now) -\n this.pressMoveDelayMs) /\n this.pressMoveAccelMs;\n\n if (\n this.lastDown.position.distanceTo(this.lastDown.initial) <\n this.doublePressDistance\n ) {\n if (this.pressHeld === undefined) {\n if (intensity > 0) {\n this.pressHeld = true;\n }\n }\n } else if (this.pressHeld === undefined) {\n this.pressHeld = false;\n }\n }\n\n if (this.pressHeld) {\n target.multiplyScalar(\n this.pressMoveSpeed * Math.max(0, Math.min(1, intensity)),\n );\n } else {\n target.set(0, 0, 0);\n }\n } else {\n this.pressHeld = false;\n let intensity =\n (performance.now() - this.doublePressed) / this.pressMoveAccelMs;\n intensity = Math.max(0, Math.min(1, intensity));\n target.multiplyScalar(\n (this.triplePressed\n ? this.triplePressMoveSpeed\n : this.doublePressMoveSpeed) * intensity,\n );\n }\n } else {\n this.pressHeld = undefined;\n }\n // Continue to move with inertia\n const s = Math.exp(-deltaTime / this.moveInertia);\n this.moveVelocity.lerpVectors(target, this.moveVelocity, s);\n control.position.addScaledVector(this.moveVelocity, deltaTime);\n\n if (this.moveVelocity.length() * 0.1 > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n }\n }\n\n const scroll = this.scroll.multiplyScalar(this.scrollSpeed);\n scroll.set(scroll.x, scroll.z, scroll.y);\n if (this.reverseScroll) {\n scroll.multiplyScalar(-1);\n }\n scroll.applyQuaternion(control.quaternion);\n control.position.add(scroll);\n\n if (scroll.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n this.scroll.set(0, 0, 0);\n\n return updated;\n }\n}\n","import * as THREE from \"three\";\nimport { SparkRenderer, type SparkRendererOptions } from \"./SparkRenderer\";\n\n/**\n * Fragment shader for portal disk clipping.\n * - diskRadius > 0: render \"behind portal\" only through the disk\n * - diskRadius < 0: render \"in front of portal\" everywhere except behind disk\n */\nexport const DISK_PORTAL_FRAGMENT_SHADER = `\nprecision highp float;\nprecision highp int;\n\n#include \n\nuniform float near;\nuniform float far;\nuniform mat4 projectionMatrix;\nuniform bool encodeLinear;\nuniform float time;\nuniform bool debugFlag;\nuniform float maxStdDev;\nuniform float minAlpha;\nuniform bool disableFalloff;\nuniform float falloff;\n\nuniform vec3 diskCenter;\nuniform vec3 diskNormal;\nuniform float diskRadius;\nuniform bool diskTwoSided;\n\nout vec4 fragColor;\n\nin vec4 vRgba;\nin vec2 vSplatUv;\nin vec3 vNdc;\nflat in uint vSplatIndex;\nflat in float adjustedStdDev;\n\nvoid main() {\n if (diskRadius != 0.0) {\n // Portal rendering:\n // - diskRadius > 0: render \"behind portal\" only through the disk (discard outside or in-front-of plane).\n // - diskRadius < 0: render \"in front of portal\" everywhere, but discard fragments behind the plane when looking through the disk.\n\n // View ray direction from NDC (view space is -Z forward).\n vec3 viewDir = normalize(vec3(\n vNdc.x / projectionMatrix[0][0],\n vNdc.y / projectionMatrix[1][1],\n -1.0\n ));\n\n // Reconstruct view-space *axial* depth (-viewPos.z) from NDC Z.\n float ndcZ = vNdc.z;\n float depth = (2.0 * near * far) / (far + near - ndcZ * (far - near));\n // Convert axial depth to ray-parameter t (viewPos = t * viewDir).\n float rayT = depth / max(1e-6, -viewDir.z);\n\n float radius = abs(diskRadius);\n float radius2 = radius * radius;\n bool renderBehind = (diskRadius > 0.0);\n\n vec3 diskN = normalize(diskNormal);\n\n // Ray-plane intersection for plane (diskCenter, diskN), with ray origin at (0,0,0).\n float denom = dot(viewDir, diskN);\n bool allowPortal = diskTwoSided ? (abs(denom) > 1e-6) : (denom < -1e-6);\n\n bool hitsDisk = false;\n float t = 0.0;\n if (allowPortal) {\n t = dot(diskCenter, diskN) / denom;\n if (t > 0.0) {\n vec3 q = t * viewDir - diskCenter;\n hitsDisk = (dot(q, q) <= radius2);\n }\n }\n\n // Small bias to avoid flicker at the plane.\n float eps = 1e-4 * max(1.0, abs(t));\n\n if (renderBehind) {\n // Behind-pass: only render through the portal disk, and only behind the plane along the ray.\n if (!hitsDisk) discard;\n if (rayT <= t + eps) discard;\n } else {\n // Front-pass: render everything, except when the ray goes through the disk, discard what's behind the plane.\n if (hitsDisk && (rayT >= t - eps)) discard;\n }\n }\n\n vec4 rgba = vRgba;\n\n float z2 = dot(vSplatUv, vSplatUv);\n if (z2 > (adjustedStdDev * adjustedStdDev)) {\n discard;\n }\n\n float a = rgba.a;\n float shifted = sqrt(z2) - max(0.0, a - 1.0);\n float exponent = -0.5 * max(1.0, a) * sqr(max(0.0, shifted));\n rgba.a = min(1.0, a) * exp(exponent);\n\n if (rgba.a < minAlpha) {\n discard;\n }\n if (encodeLinear) {\n rgba.rgb = srgbToLinear(rgba.rgb);\n }\n\n #ifdef PREMULTIPLIED_ALPHA\n fragColor = vec4(rgba.rgb * rgba.a, rgba.a);\n #else\n fragColor = rgba;\n #endif\n}\n`;\n\n/**\n * Callback function called when a portal is crossed.\n * @param pair The portal pair that was crossed\n * @param fromEntry True if crossing from entry to exit, false if crossing from exit to entry\n */\nexport type PortalCrossCallback = (\n pair: PortalPair,\n fromEntry: boolean,\n) => void | Promise;\n\n/**\n * A pair of connected portals. Walking through one teleports you to the other.\n */\nexport interface PortalPair {\n /** First portal endpoint */\n entryPortal: THREE.Object3D;\n /** Second portal endpoint */\n exitPortal: THREE.Object3D;\n /** Radius of this portal pair's disks */\n radius: number;\n /** Optional callback function called when this portal is crossed */\n onCross?: PortalCrossCallback;\n /** Scratch matrix for tracking portal position before frame updates */\n _entryBefore: THREE.Matrix4;\n /** Scratch matrix for tracking portal position before frame updates */\n _exitBefore: THREE.Matrix4;\n}\n\nexport interface SparkPortalsOptions {\n /** The THREE.WebGLRenderer */\n renderer: THREE.WebGLRenderer;\n /** The scene to render */\n scene: THREE.Scene;\n /** The main camera */\n camera: THREE.PerspectiveCamera;\n /** The local frame (parent of camera, used for teleportation) */\n localFrame: THREE.Group;\n /** Options passed to both SparkRenderer instances */\n sparkOptions?: Partial;\n /** Default portal disk radius for new pairs (default: 1.0) */\n defaultPortalRadius?: number;\n /** Epsilon for portal crossing detection (default: 1e-6) */\n portalCrossEps?: number;\n}\n\n/**\n * SparkPortals\n *\n * Portal implementation to connect two non-contiguous areas of a scene.\n * Supports multiple portal pairs - each pair connects two locations.\n *\n * The rough approach is to use two SparkRenderers: one for the \"front\"/portal\n * view (portalRenderer), and one for the \"behind portal\" pass (behindRenderer).\n *\n * Example:\n * ```typescript\n * const portals = new SparkPortals({ renderer, scene, camera, localFrame });\n *\n * // Add a portal pair\n * const pair = portals.addPortalPair();\n * pair.entryPortal.position.set(0, 0, -1);\n * pair.exitPortal.position.set(-3, 0, -4.5);\n *\n * // Add another pair\n * const pair2 = portals.addPortalPair({ radius: 0.5 });\n * pair2.entryPortal.position.set(5, 0, 0);\n * pair2.exitPortal.position.set(10, 0, 0);\n *\n * // In animation loop:\n * portals.animateLoopHook();\n * ```\n */\nexport class SparkPortals {\n /** The THREE.WebGLRenderer */\n renderer: THREE.WebGLRenderer;\n /** The scene to render */\n scene: THREE.Scene;\n /** The main camera */\n camera: THREE.PerspectiveCamera;\n /** The local frame (parent of camera, used for teleportation) */\n localFrame: THREE.Group;\n\n /** Primary renderer with portal shader (added to scene) */\n portalRenderer: SparkRenderer;\n /** Secondary renderer for behind-portal pass (not in scene) */\n behindRenderer: SparkRenderer;\n /** Secondary camera for behind-portal view */\n camera2: THREE.PerspectiveCamera;\n\n /** All portal pairs */\n portalPairs: PortalPair[] = [];\n /** Default radius for new portal pairs */\n defaultPortalRadius: number;\n /** Epsilon for portal crossing detection */\n portalCrossEps: number;\n\n /** Used to detect crossing between frames */\n private lastCameraWorld = new THREE.Vector3().setScalar(Number.NaN);\n /** Whether portal LoD prefetch is currently enabled */\n private prefetchActive = false;\n\n // Preallocated objects for scratch work to avoid per frame allocations\n private scratch = {\n quat: new THREE.Quaternion(),\n scale: new THREE.Vector3(),\n center0: new THREE.Vector3(),\n center1: new THREE.Vector3(),\n normal0: new THREE.Vector3(),\n normal1: new THREE.Vector3(),\n centerT: new THREE.Vector3(),\n normalT: new THREE.Vector3(),\n prevCameraWorld: new THREE.Vector3(),\n currCameraWorld: new THREE.Vector3(),\n hit: new THREE.Vector3(),\n offset: new THREE.Vector3(),\n camWorld: new THREE.Matrix4(),\n newCamWorld: new THREE.Matrix4(),\n invCamLocal: new THREE.Matrix4(),\n newLocalFrame: new THREE.Matrix4(),\n cameraWorldPos: new THREE.Vector3(),\n viewDir: new THREE.Vector3(),\n portalCenter: new THREE.Vector3(),\n toPortal: new THREE.Vector3(),\n };\n\n constructor(options: SparkPortalsOptions) {\n this.renderer = options.renderer;\n this.scene = options.scene;\n this.camera = options.camera;\n this.localFrame = options.localFrame;\n this.defaultPortalRadius = options.defaultPortalRadius ?? 1.0;\n this.portalCrossEps = options.portalCrossEps ?? 1e-6;\n\n const sparkOpts = options.sparkOptions ?? {};\n\n // Primary renderer with portal shader\n this.portalRenderer = new SparkRenderer({\n renderer: this.renderer,\n extraUniforms: {\n diskCenter: { value: new THREE.Vector3() },\n diskNormal: { value: new THREE.Vector3() },\n diskRadius: { value: 0 },\n diskTwoSided: { value: false },\n },\n fragmentShader: DISK_PORTAL_FRAGMENT_SHADER,\n ...sparkOpts,\n });\n this.scene.add(this.portalRenderer);\n\n // Secondary renderer for behind-portal pass\n // enableDriveLod: false prevents this renderer from driving LOD updates,\n // avoiding race conditions with portalRenderer's pager operations\n this.behindRenderer = new SparkRenderer({\n renderer: this.renderer,\n enableDriveLod: false,\n ...sparkOpts,\n });\n\n // Secondary camera for behind-portal view\n this.camera2 = this.camera.clone();\n this.scene.add(this.camera2);\n }\n\n /**\n * Add a new portal pair to the system.\n * @param options Optional configuration for this pair\n * @returns The created PortalPair - position the entryPortal and exitPortal as needed\n */\n addPortalPair(options?: {\n radius?: number;\n onCross?: PortalCrossCallback;\n }): PortalPair {\n const pair: PortalPair = {\n entryPortal: new THREE.Object3D(),\n exitPortal: new THREE.Object3D(),\n radius: options?.radius ?? this.defaultPortalRadius,\n onCross: options?.onCross,\n _entryBefore: new THREE.Matrix4(),\n _exitBefore: new THREE.Matrix4(),\n };\n\n this.scene.add(pair.entryPortal);\n this.scene.add(pair.exitPortal);\n this.portalPairs.push(pair);\n\n return pair;\n }\n\n /**\n * Remove a portal pair from the system.\n */\n removePortalPair(pair: PortalPair): void {\n const index = this.portalPairs.indexOf(pair);\n if (index !== -1) {\n this.scene.remove(pair.entryPortal);\n this.scene.remove(pair.exitPortal);\n this.portalPairs.splice(index, 1);\n }\n }\n\n /**\n * Get transform from entry portal to exit portal.\n */\n getEntryToExitTransform(pair: PortalPair): THREE.Matrix4 {\n return pair.entryPortal.matrixWorld\n .clone()\n .invert()\n .premultiply(pair.exitPortal.matrixWorld);\n }\n\n /**\n * Get transform from exit portal to entry portal.\n */\n getExitToEntryTransform(pair: PortalPair): THREE.Matrix4 {\n return pair.exitPortal.matrixWorld\n .clone()\n .invert()\n .premultiply(pair.entryPortal.matrixWorld);\n }\n\n /** Set portal disk uniforms for shader clipping */\n private setPortalDiskUniforms(\n camera: THREE.Camera,\n portal: THREE.Object3D,\n radius: number,\n twoSided: boolean,\n ): void {\n camera.updateMatrixWorld(true);\n portal.updateMatrixWorld(true);\n\n const inverseCamera = camera.matrixWorld.clone().invert();\n const portalInCamera = portal.matrixWorld\n .clone()\n .premultiply(inverseCamera);\n const portalQuat = new THREE.Quaternion();\n\n // Extend the base uniform type with our portal-specific uniforms so TS is happy.\n const uniforms = this.portalRenderer\n .uniforms as typeof this.portalRenderer.uniforms & {\n diskCenter: { value: THREE.Vector3 };\n diskNormal: { value: THREE.Vector3 };\n diskRadius: { value: number };\n diskTwoSided: { value: boolean };\n };\n\n portalInCamera.decompose(\n uniforms.diskCenter.value,\n portalQuat,\n new THREE.Vector3(),\n );\n\n uniforms.diskNormal.value.set(0, 0, 1).applyQuaternion(portalQuat);\n uniforms.diskRadius.value = radius;\n uniforms.diskTwoSided.value = twoSided;\n }\n\n /** Extract portal plane from matrix */\n private getPortalPlane(\n matrix: THREE.Matrix4,\n outCenter: THREE.Vector3,\n outNormal: THREE.Vector3,\n ): void {\n matrix.decompose(outCenter, this.scratch.quat, this.scratch.scale);\n outNormal.set(0, 0, 1).applyQuaternion(this.scratch.quat).normalize();\n }\n\n /**\n * Detect if the user path crosses over a portal. If so, return the parametric position (0,1)\n * along the segment where the crossing occurs. If not, return null.\n */\n private getSegmentDiskCrossing(\n prevCam: THREE.Vector3,\n currCam: THREE.Vector3,\n beforeMatrix: THREE.Matrix4,\n afterMatrix: THREE.Matrix4,\n radius: number,\n ): number | null {\n this.getPortalPlane(\n beforeMatrix,\n this.scratch.center0,\n this.scratch.normal0,\n );\n this.getPortalPlane(\n afterMatrix,\n this.scratch.center1,\n this.scratch.normal1,\n );\n\n const startPlaneDist = this.scratch.offset\n .copy(prevCam)\n .sub(this.scratch.center0)\n .dot(this.scratch.normal0);\n const endPlaneDist = this.scratch.offset\n .copy(currCam)\n .sub(this.scratch.center1)\n .dot(this.scratch.normal1);\n\n if (\n (startPlaneDist > this.portalCrossEps &&\n endPlaneDist > this.portalCrossEps) ||\n (startPlaneDist < -this.portalCrossEps &&\n endPlaneDist < -this.portalCrossEps)\n ) {\n return null;\n }\n\n const denom = startPlaneDist - endPlaneDist;\n if (Math.abs(denom) < this.portalCrossEps) return null;\n\n const t = startPlaneDist / denom;\n if (t < 0 || t > 1) return null;\n\n this.scratch.hit.lerpVectors(prevCam, currCam, t);\n this.scratch.centerT\n .copy(this.scratch.center0)\n .lerp(this.scratch.center1, t);\n this.scratch.normalT\n .copy(this.scratch.normal0)\n .lerp(this.scratch.normal1, t)\n .normalize();\n\n this.scratch.offset.copy(this.scratch.hit).sub(this.scratch.centerT);\n this.scratch.offset.addScaledVector(\n this.scratch.normalT,\n -this.scratch.offset.dot(this.scratch.normalT),\n );\n\n if (this.scratch.offset.lengthSq() > radius * radius) return null;\n return t;\n }\n\n /** Teleport camera through portal */\n private teleport(transform: THREE.Matrix4): void {\n this.scratch.camWorld.copy(this.camera.matrixWorld);\n this.scratch.newCamWorld.copy(this.scratch.camWorld).premultiply(transform);\n this.scratch.invCamLocal.copy(this.camera.matrix).invert();\n this.scratch.newLocalFrame\n .copy(this.scratch.newCamWorld)\n .multiply(this.scratch.invCamLocal);\n\n this.scratch.newLocalFrame.decompose(\n this.localFrame.position,\n this.localFrame.quaternion,\n this.localFrame.scale,\n );\n this.localFrame.updateMatrixWorld(true);\n this.camera.updateMatrixWorld(true);\n }\n\n /**\n * Check for portal crossing and teleport if needed.\n * Checks all portal pairs and takes the earliest crossing.\n * Call this after updating controls but before render().\n */\n updateTeleportation(): void {\n if (this.portalPairs.length === 0) return;\n\n this.camera.getWorldPosition(this.scratch.currCameraWorld);\n if (!Number.isFinite(this.lastCameraWorld.x)) {\n this.lastCameraWorld.copy(this.scratch.currCameraWorld);\n return;\n }\n\n this.scratch.prevCameraWorld.copy(this.lastCameraWorld);\n\n // Store portal matrices before any updates and find earliest crossing\n let earliestT: number | null = null;\n let crossedPair: PortalPair | null = null;\n let crossedEntry = true; // true = crossed entry portal, false = crossed exit portal\n\n for (const pair of this.portalPairs) {\n pair.entryPortal.updateMatrixWorld(true);\n pair.exitPortal.updateMatrixWorld(true);\n pair._entryBefore.copy(pair.entryPortal.matrixWorld);\n pair._exitBefore.copy(pair.exitPortal.matrixWorld);\n\n // Check entry portal crossing\n const entryT = this.getSegmentDiskCrossing(\n this.scratch.prevCameraWorld,\n this.scratch.currCameraWorld,\n pair._entryBefore,\n pair.entryPortal.matrixWorld,\n pair.radius,\n );\n\n if (entryT !== null && (earliestT === null || entryT < earliestT)) {\n earliestT = entryT;\n crossedPair = pair;\n crossedEntry = true;\n }\n\n // Check exit portal crossing\n const exitT = this.getSegmentDiskCrossing(\n this.scratch.prevCameraWorld,\n this.scratch.currCameraWorld,\n pair._exitBefore,\n pair.exitPortal.matrixWorld,\n pair.radius,\n );\n\n if (exitT !== null && (earliestT === null || exitT < earliestT)) {\n earliestT = exitT;\n crossedPair = pair;\n crossedEntry = false;\n }\n }\n\n // No portal crossed\n if (crossedPair === null) {\n this.lastCameraWorld.copy(this.scratch.currCameraWorld);\n return;\n }\n\n // Teleport through the crossed portal\n if (crossedEntry) {\n this.teleport(this.getEntryToExitTransform(crossedPair));\n } else {\n this.teleport(this.getExitToEntryTransform(crossedPair));\n }\n\n this.camera.getWorldPosition(this.lastCameraWorld);\n\n // Call the portal's onCross callback if provided\n if (crossedPair.onCross) {\n // Call async callback but don't await (updateTeleportation is synchronous)\n // Errors will be logged but won't block teleportation\n Promise.resolve(crossedPair.onCross(crossedPair, crossedEntry)).catch(\n (error) => {\n console.error(\"Error in portal onCross callback:\", error);\n },\n );\n }\n }\n\n /**\n * Find the most relevant portal for rendering (closest to camera view direction).\n * Returns the portal pair and which portal (entry or exit) is primary.\n */\n private findPrimaryPortal(): {\n pair: PortalPair;\n primaryIsEntry: boolean;\n primaryPortal: THREE.Object3D;\n otherPortal: THREE.Object3D;\n } | null {\n if (this.portalPairs.length === 0) return null;\n\n this.camera.getWorldPosition(this.scratch.cameraWorldPos);\n this.camera.getWorldDirection(this.scratch.viewDir);\n\n let bestScore = Number.NEGATIVE_INFINITY;\n let bestPair: PortalPair | null = null;\n let bestIsEntry = true;\n\n for (const pair of this.portalPairs) {\n // Score entry portal\n pair.entryPortal.getWorldPosition(this.scratch.portalCenter);\n this.scratch.toPortal\n .copy(this.scratch.portalCenter)\n .sub(this.scratch.cameraWorldPos);\n const entryDist = this.scratch.toPortal.length();\n const entryScore =\n this.scratch.toPortal.normalize().dot(this.scratch.viewDir) / entryDist;\n\n if (entryScore > bestScore) {\n bestScore = entryScore;\n bestPair = pair;\n bestIsEntry = true;\n }\n\n // Score exit portal\n pair.exitPortal.getWorldPosition(this.scratch.portalCenter);\n this.scratch.toPortal\n .copy(this.scratch.portalCenter)\n .sub(this.scratch.cameraWorldPos);\n const exitDist = this.scratch.toPortal.length();\n const exitScore =\n this.scratch.toPortal.normalize().dot(this.scratch.viewDir) / exitDist;\n\n if (exitScore > bestScore) {\n bestScore = exitScore;\n bestPair = pair;\n bestIsEntry = false;\n }\n }\n\n if (!bestPair) return null;\n\n return {\n pair: bestPair,\n primaryIsEntry: bestIsEntry,\n primaryPortal: bestIsEntry ? bestPair.entryPortal : bestPair.exitPortal,\n otherPortal: bestIsEntry ? bestPair.exitPortal : bestPair.entryPortal,\n };\n }\n\n /**\n * Render the scene with portals using two-pass rendering.\n * Renders the most relevant portal pair (closest to camera view).\n * Call this instead of renderer.render() in your animation loop.\n */\n render(): void {\n const primary = this.findPrimaryPortal();\n\n // No portals - just render normally\n if (!primary) {\n if (this.prefetchActive) {\n // this.portalRenderer.setPrefetchCameras();\n this.prefetchActive = false;\n }\n this.renderer.autoClear = true;\n this.renderer.render(this.scene, this.camera);\n return;\n }\n\n if (!this.prefetchActive) {\n // this.portalRenderer.setPrefetchCameras([this.camera2]);\n this.prefetchActive = true;\n }\n\n const { pair, primaryIsEntry, primaryPortal, otherPortal } = primary;\n\n // Compute camera2 position (transformed through portal)\n const camera2Matrix = primaryIsEntry\n ? this.camera.matrixWorld\n .clone()\n .premultiply(this.getEntryToExitTransform(pair))\n : this.camera.matrixWorld\n .clone()\n .premultiply(this.getExitToEntryTransform(pair));\n camera2Matrix.decompose(\n this.camera2.position,\n this.camera2.quaternion,\n this.camera2.scale,\n );\n this.camera2.updateMatrixWorld(true);\n\n // Share lodInstances from portalRenderer to behindRenderer BEFORE Pass 1.\n // This uses previous frame's lodInstances (computed with main camera),\n // ensuring both passes use consistent splat selections to avoid flickering.\n this.shareLodInstances();\n\n // Pass 1: Behind portal view (uses shared 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wasm.csplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.csplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.csplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.csplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.csplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.csplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats() {\n const ret = wasm.csplatarray_to_packedsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats_lod() {\n const ret = wasm.csplatarray_to_packedsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_csplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_csplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_csplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_csplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n }\n if (Symbol.dispose) CsplatArray.prototype[Symbol.dispose] = CsplatArray.prototype.free;\n class GsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(GsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n GsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n GsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_gsplatarray_free(ptr, 0);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_gsplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_gsplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.gsplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.gsplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.gsplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.gsplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.gsplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.gsplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.gsplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats_lod(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats_lod(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_gsplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_gsplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n }\n if (Symbol.dispose) GsplatArray.prototype[Symbol.dispose] = GsplatArray.prototype.free;\n function sort32_splats(num_splats, readback, ordering) {\n const ret = wasm.sort32_splats(num_splats, readback, ordering);\n return ret >>> 0;\n }\n function sort_splats(num_splats, readback, ordering) {\n const ret = wasm.sort_splats(num_splats, readback, ordering);\n return ret >>> 0;\n }\n function __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_boolean_get_a86c216575a75c30: function(arg0) {\n const v = arg0;\n const ret = typeof v === "boolean" ? v : void 0;\n return isLikeNone(ret) ? 16777215 : ret ? 1 : 0;\n },\n __wbg___wbindgen_debug_string_dd5d2d07ce9e6c57: function(arg0, arg1) {\n const ret = debugString(arg1);\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_in_4bd7a57e54337366: function(arg0, arg1) {\n const ret = arg0 in arg1;\n return ret;\n },\n __wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof val === "object" && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === void 0;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "number" ? obj : void 0;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "string" ? obj : void 0;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() {\n return handleError(function(arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments);\n },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() {\n return handleError(function(arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments);\n },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, void 0);\n table.set(offset + 0, void 0);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n }\n };\n return {\n __proto__: null,\n "./spark_worker_rs_bg.js": import0\n };\n }\n typeof FinalizationRegistry === "undefined" ? {} : new FinalizationRegistry((ptr) => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\n const CsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\n const GsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n function addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n }\n function debugString(val) {\n const type = typeof val;\n if (type == "number" || type == "boolean" || val == null) {\n return `${val}`;\n }\n if (type == "string") {\n return `"${val}"`;\n }\n if (type == "symbol") {\n const description = val.description;\n if (description == null) {\n return "Symbol";\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == "function") {\n const name = val.name;\n if (typeof name == "string" && name.length > 0) {\n return `Function(${name})`;\n } else {\n return "Function";\n }\n }\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = "[";\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for (let i2 = 1; i2 < length; i2++) {\n debug += ", " + debugString(val[i2]);\n }\n debug += "]";\n return debug;\n }\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n return toString.call(val);\n }\n if (className == "Object") {\n try {\n return "Object(" + JSON.stringify(val) + ")";\n } catch (_) {\n return "Object";\n }\n }\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\n${val.stack}`;\n }\n return className;\n }\n function getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n }\n function getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n }\n function getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n }\n let cachedDataViewMemory0 = null;\n function getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || cachedDataViewMemory0.buffer.detached === void 0 && cachedDataViewMemory0.buffer !== wasm.memory.buffer) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n }\n function getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n }\n let cachedUint16ArrayMemory0 = null;\n function getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n }\n let cachedUint32ArrayMemory0 = null;\n function getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n }\n let cachedUint8ArrayMemory0 = null;\n function getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n }\n function handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n }\n function isLikeNone(x2) {\n return x2 === void 0 || x2 === null;\n }\n function passStringToWasm0(arg, malloc, realloc) {\n if (realloc === void 0) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr2 = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr2, ptr2 + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr2;\n }\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n const mem = getUint8ArrayMemory0();\n let offset = 0;\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 127) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n WASM_VECTOR_LEN = offset;\n return ptr;\n }\n function takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n }\n let cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n const MAX_SAFARI_DECODE_BYTES = 2146435072;\n let numBytesDecoded = 0;\n function decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n }\n const cachedTextEncoder = new TextEncoder();\n if (!("encodeInto" in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function(arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n }\n let WASM_VECTOR_LEN = 0;\n let wasm;\n function __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n cachedDataViewMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n }\n async function __wbg_load(module, imports) {\n if (typeof Response === "function" && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === "function") {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n if (validResponse && module.headers.get("Content-Type") !== "application/wasm") {\n console.warn("`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n", e);\n } else {\n throw e;\n }\n }\n }\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n function expectedResponseType(type) {\n switch (type) {\n case "basic":\n case "cors":\n case "default":\n return true;\n }\n return false;\n }\n }\n async function __wbg_init(module_or_path) {\n if (wasm !== void 0) return wasm;\n if (module_or_path !== void 0) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({ module_or_path } = module_or_path);\n } else {\n console.warn("using deprecated parameters for the initialization function; pass a single object instead");\n }\n }\n if (module_or_path === void 0) {\n module_or_path = new 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MEBA8DBAEHAQcGAAYDBA0BAgEEAQEVAQYBBAIEBQYDBUABDwcDAgEBBwICBSoCCQEFBwQEBgQCBwUfAioGAQcFBgEHBhYGAQcrCQENAAEBAAIFAQIFAQUKLCsGBQcDBgYBDQEFAwEDBAUCBQMCAwMBAQFBAgYBLAcJARADEEIHBwUGAQMHBwECAgQWCQkBAQJDBw0DCUQAAQEBAQELBC0DAwMEAQIBAgECAwMCRQUGBEYBAQEBBwACCRkCBQIBAQcABQQJAQYBRwYGSAMDBQUDAQUDBgUFAwMtBgUKBQYBAwkABQUHAQIDAwMDLi4FCQkvLwkHBwIBAQAGBQEDAwMDAQMAAQIBAQYCAQZJAgsFAQAFAQYJCQQEBAQCBAEVAQICFQABAQUGAwUVBw0ABQUHAgEAAAIFBQAACQUWHwICCgICAQcHAgMHCgUFAwMBARkCBwUwAgUFBQMwBAABAQQBMQMDCgkFAwMEChBKAQUFBQUWBgEDBksHBQEDAwIBBAIBAQUCBgcBAgICAQEDAgQBAkwDTQEHBwcHAQIKBwlOAwNPAgUBAgcHBQsGAgQEBAEDAQIJBgYHAQMPARcHEAIEUAoCBAMGBAQBDwUfAgkDBAsZFAoCAgIQAwcxBAcCAzIAAQcWAQMCAgYBBAECDwEGCwEFAhcGAQICAgICAgYCEAEHAgcDBwUEBAICBAEBAQEBAQIBAgQEAQECAAICAgIBAgMBBwMCAxAEAQMFAgEBAwMAAgMCAQkBAQEFAgIHAwEDAwcCAAcDAwICAgECBwMpBQICAgICAQIFBQEBAQICAgICAlEBAgICAgICAgEDAgkCAQEHAwEDAwEBAQEBCQkCAwIBAQIBAQMBAQEFAQUCAgFSAQICUwMDAQEBBgADAwEDAgELCwUCAgEBBAMBCwMDAgEBAgMDAwEBAQICAAMyAAAHAgUDAwUCAxkFAxQUBwcJAwYFBQUFAwMDAwMDAwYYGAMFAgMABgMEBAQEAgUBBAQECQQDBwQFAwMDAwMCAgICBVQFBAEDEwEDAQEFBARVCVZXAQECBQcCBhAAAAAAAAAAAAAAAAAEAgIAAAAAIAQgAAQgBAQEAgACAgIAWAUTBQEAAAABAgABAgIGBQIBBAICAlkPWgcCBgIHAQFbXF0DEQMDXl8RC2ACNmFiNgEJAgIhIWMhAAICAgICAg4ODg4ODg4ODgQEBAQCAmQBAQEBAgICAgICAgICFQICAgICAgICAQICAQICDwczNTQCAQECAgIGCwIAAQIANzcDAgIiIgACBQMCAgICAgMCAgICAgICAgICAgICAgICAgICAgICAgICAgICAgICAgICAgMDAwECBQEBAQEBAQEBBAIAAgICAgIJAgICAgEBAQECAwEBAQICAgIEaAMDAgcCCQEXBRcSEgIBAgEBAQEBAQEBAgIBAgEBAQEBAQEDBAEDBQEFBQEFAQEBAQEBAQEBAQEBAQEBAQEBAQEBAQEBAQEBAQICAwMBAQEBAQEBAQEBEQERAgICAQIBAgECAgICAQEBAQEBAQEEAwEBAQEBAQEBAQMDCgEEAgEiBAQEBAQEEQQXBQQLAnAB4QThBG8AgAgFAwEAEwYPAn8BQYCAwAALfwFBgAgLB7AMPgZtZW1vcnkCABdfX3diZ19jaHVua2RlY29kZXJfZnJlZQCSBBZfX3diZ19jc3BsYXRhcnJheV9mcmVlALYFIV9fd2JnX2dldF9jc3BsYXRhcnJheV9tYXhTaERlZ3JlZQClCB9fX3diZ19nZXRfY3NwbGF0YXJyYXlfbnVtU3BsYXRzAKYIIV9fd2JnX2dldF9nc3BsYXRhcnJheV9tYXhTaERlZ3JlZQCnCB9fX3diZ19nZXRfZ3NwbGF0YXJyYXlfbnVtU3BsYXRzAKgIFl9fd2JnX2dzcGxhdGFycmF5X2ZyZWUAtwUhX193Ymdfc2V0X2NzcGxhdGFycmF5X21heFNoRGVncmVlAKwIH19fd2JnX3NldF9jc3BsYXRhcnJheV9udW1TcGxhdHMArQghX193Ymdfc2V0X2dzcGxhdGFycmF5X21heFNoRGVncmVlAK4IH19fd2JnX3NldF9nc3BsYXRhcnJheV9udW1TcGxhdHMArwgTYmhhdHRfbG9kX2V4dHNwbGF0cwCDCBZiaGF0dF9sb2RfcGFja2Vkc3BsYXRzAIQIE2NodW5rZGVjb2Rlcl9maW5pc2gAoggRY2h1bmtkZWNvZGVyX3B1c2gAqwgVY3NwbGF0YXJyYXlfYmhhdHRfbG9kAP4GE2NzcGxhdGFycmF5X2hhc19sb2QAxgcYY3NwbGF0YXJyYXlfaW5qZWN0X3JnYmE4AMIJD2NzcGxhdGFycmF5X2xlbgDVBxRjc3BsYXRhcnJheV90aW55X2xvZADrBhhjc3BsYXRhcnJheV90b19leHRzcGxhdHMAnAgcY3NwbGF0YXJyYXlfdG9fZXh0c3BsYXRzX2xvZACeCBtjc3BsYXRhcnJheV90b19wYWNrZWRzcGxhdHMAnQgfY3NwbGF0YXJyYXlfdG9fcGFja2Vkc3BsYXRzX2xvZACfCBVkZWNvZGVfdG9fY3NwbGF0YXJyYXkAhwgTZGVjb2RlX3RvX2V4dHNwbGF0cwD+BxVkZWNvZGVfdG9fZ3NwbGF0YXJyYXkAiwgWZGVjb2RlX3RvX3BhY2tlZHNwbGF0cwD0BxBkaXNwb3NlX2xvZF90cmVlAIwCGGV4dHNwbGF0c190b19nc3BsYXRhcnJheQCKCBJnZXRfbG9kX3RyZWVfbGV2ZWwAkwgVZ3NwbGF0YXJyYXlfYmhhdHRfbG9kAP8GGGdzcGxhdGFycmF5X2luamVjdF9yZ2JhOADDCQ9nc3BsYXRhcnJheV9sZW4A1QcUZ3NwbGF0YXJyYXlfdGlueV9sb2QA7AYYZ3NwbGF0YXJyYXlfdG9fZXh0c3BsYXRzAKAIHGdzcGxhdGFycmF5X3RvX2V4dHNwbGF0c19sb2QAoQgbZ3NwbGF0YXJyYXlfdG9fcGFja2Vkc3BsYXRzAJEIH2dzcGxhdGFycmF5X3RvX3BhY2tlZHNwbGF0c19sb2QAkggNaW5pdF9sb2RfdHJlZQCUCAxuZXdfbG9kX3RyZWUApAgTbmV3X3NoYXJlZF9sb2RfdHJlZQCjCBtwYWNrZWRzcGxhdHNfdG9fY3NwbGF0YXJyYXkAjAgbcGFja2Vkc3BsYXRzX3RvX2dzcGxhdGFycmF5AIkIDHNpbWRfZW5hYmxlZADACg1zb3J0MzJfc3BsYXRzANoIC3NvcnRfc3BsYXRzANsIEnRpbnlfbG9kX2V4dHNwbGF0cwD9BxV0aW55X2xvZF9wYWNrZWRzcGxhdHMA/AcSdHJhdmVyc2VfbG9kX3RyZWVzANwHEHVwZGF0ZV9sb2RfdHJlZXMA8gcKd2FzbV9zdGFydACFCBNnc3BsYXRhcnJheV9oYXNfbG9kAMYHEV9fd2JpbmRnZW5fbWFsbG9jANoHEl9fd2JpbmRnZW5fcmVhbGxvYwCGCA9fX3diaW5kZ2VuX2ZyZWUAlgcUX193YmluZGdlbl9leG5fc3RvcmUA2gkXX19leHRlcm5yZWZfdGFibGVfYWxsb2MA2gQVX193YmluZGdlbl9leHRlcm5yZWZzAQEZX19leHRlcm5yZWZfdGFibGVfZGVhbGxvYwCbBxBfX3diaW5kZ2VuX3N0YXJ0AL4KCbgJAQBBAQvgBIsFxAnpCPMD7QiNASwrvAnECboJ0gjoB5sF9QSnAqIE8gHVCMQBggeeBOwHrASyCvwC5wP2AagG0AeJBssF5gaWCMMI3gLRCZsIswa0AsQIhQXGCYkG3APTA8AG0AmSCpMKugW4BZsKkwGPBtkG3Qj0BMcH2AjDApoKuAiZCsYJ1gLEBLIGpwOABu0GyAjcBdUFyQjJCMkIrgevB7YHygiwB9MIuAevB8sIsQfMCK8HlAfICLkIkQfZCPEG1AjuBukHlwrhBpwKugixCLsI/ATSCaMG7wfzBNMFqAXSCc8J5APKAo0GwgGDA9sExQTVBH20CecI/QjyCIMJiAnwCIwJhgn0CP8I9wiLCYUJhAmCCfoIjQnxCIcJgAn1CIEJ/gjqCIUE/QnRA4oHkQHKBogIgATmCdYDiQeQAYEE+gnXA4cHhQGGBOwJ0gOIB5IB5gj2CIkJgwfGCc8JswqUCsUJwQqDB9cHkgWBCpIJnAnaBs4FrgKzB6cKsge6BdIGsQXwBfEF/AWGCsQJoArjBN0EhQPCCKoKwgjGCc8Jnwq5CcQJ/QXtB4kK7QexBK4G6wSNB4UKjQeDCv4FkQmMCo8J8Qe1CuAHjQrFCeAHwQqQCYcK6gaECoIKoQrJBagKigqOCYsK3AiICqUHlAnMCdAGswikB78K9wSZCcsJ0QbBCJgHmgnICdcGsgipB5kHlgnHCZkGtQinB4wGlwnJCZgGvwiVCcoJvga0CJcHmwnNCZsG2AfLBoYHmAnOCZoG9gfNBe4HxQa4CZEK6wHaBYAK5wX7CPgI8wjvCIoJ+QjuCPwItQb/Cb0HuAOHA+oJxAe1BfkG8wnMB4kB8AlI8QlSnAPoCcEH0we8BvUJuge2A4YD9gnCB6YF+AbnCcsHhwHuCUzrCVCbA+8JvgetB7YG9wm7B7cDiAPkCcUHtAX6BvQJyQeKAfIJSekJU50D7QnAB9QHvQb5CbwHtQOJA+UJwwenBfcG+wnKB4gB+AlL/AlRngP+Cb8HrAeSCYMH4QeWBZ0J4geXBaAJ1QLbBZ8JoQmvA+UHogmpBb8FgwfjB5gFowm5BKkFxQXhBO8BlgrFCKsEyQF/1wiYCtcIngaYCJcIxwiqCLsFlQpk0QXGCLcIsAi2CP8F8gXzBYEG7wbvBu8GpAmkCY4IjgiOCLwEvAS9CdIE2APYA5sE0giSCZUKpgm8CPgH5geaBaUJ+gOpCKcJqAmmCs4IvQrfCbgGuQbcAaQB1AWmB+kGYsAFpAqlCr4J1wWNBdgFtgqzBN4H3wdPoQW8BbMF5wajA50FmgiZCM0I6QWtCYAH2wL0BYgCvgjIB9YHgwLIAdkBpQaiCsUJpQbBCuUIoAazCp0KxQnBCsYJ8AbGCYgGsQmpCuoGrgnxB7UK4AejCsUJ4AfBCtwGqwqCCp4KqAepCdMJ2Aa9CJoHrAnWCd4FwAiqB68J1wnWBqsJ1QnBBowGqgnUCaEG7QWwCdgJlAbZB8wFxgbjBM8IzwiyCegFwwX/BO8Djwi9BdAIzwnSCd4I4geXBbMJ5gj6B9kJrQr2Bq0GlQX1BbMK0QjtBMsD4wWsCq4KgwemBPYFgweKBpAItQkMAogBCsDmVJUK1NUBBBd/HX4FeyF9IwBB8ANrIgIkACAAEKIBIAIgACgCCDYCLCACIAJBLGqtQoCAgIAQhCIsNwOwAiACQgE3AuwCIAJBATYC5AIgAkHM5sEANgLgAiACIAJBsAJqNgLoAiACQdAAaiACQeACahDsAwJAAkACQAJAAkACQAJ/IAIoAlAiAwRAIAIoAlQiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQYgBUEAIAYgA0EnaksbDQcgBBCiAgsgAigCLEUNAQJAIAAoAggiBEUEQCAAQQRBABCJAgwBCyAEQQJ0IgkQcSIHRQ0DQQAhAwJAAkACQCAEQQRPBED9DAAAAAABAAAAAgAAAAMAAAAhNiAHIQUgBEH8//8/cSIDIQYDQCAFIDb9CwIAIAVBEGohBSA2/QwEAAAABAAAAAQAAAAEAAAA/a4BITYgBkEEayIGDQALIAMgBEYNAQsgByADQQJ0aiEFA0AgBSADNgIAIAVBBGohBSAEIANBAWoiA0cNAAsgAiAANgLkAiACIAJBsAJqNgLgAiACIAJB4AJqNgJQIARBAUYNAgwBCyACIAA2AuQCIAIgAkGwAmo2AuACIAIgAkHgAmo2AlALIARBFU8EQCACQdAAaiEGIwBBgCBrIgokAAJAAkACQAJAAkBBgIn6ACAEIARBgIn6AE8bIgUgBCAEQQF2ayIDIAMgBUkbIgVBgQhPBEAgA0H/////A0sNAkEwIAUgBUEwTRsiC0ECdCIDQf3///8HTw0CIAMQcSIFRQ0DIAcgBCAFIAsgBEHBAEkgBhBgIAVBBGsoAgAiBkF4cSILQQRBCCAGQQNxIgYbIANqSQ0EIAZBACALIANBJ2pLGw0FIAUQogIMAQsgByAEIApBgAggBEHBAEkgBhBgCyAKQYAgaiQADAULQdiVwQAQ/wcLAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQQQhAwNAIAcgAyAHaiACQeACahDKASAJIANBBGoiA0cNAAsLIAAgByAEEIkCIAdBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAlqSQ0GIANBACAEIAlBJ2pLGw0HIAcQogILIAAQmgQCQCAAKAIIIgMEQCADQQF0QQFrIgYQcSIFRQ0EQQAhAyACQQA2AjggAiAFNgI0IAIgBjYCMAJ9AkACQCAAKAIIIgQEQCAEIAZLBEAgAkEwakEAIARBAUEBEKQFIAIoAjQhBSACKAI4IQMLIAMgBWohBiAEQQFHBH8gBEEBayIEBEAgBkEBIAT8CwALIAUgAyAEaiIDagUgBgtBAToAACACIANBAWo2AjggACgCCEUNASAAKAIEIgQtABMiAyAELQASIgUgBC0AESIGIAUgBksbIgUgAyAFSxsiBg0CQwAAAAAMAwsgAkEANgI4C0EAQQBB3LvHABCMBwALQwAAQMEgACoCRCAALQBYQQJGIgMbIjxDAAAQQSAAKgJIIAMbIDyTQwAAfkOVIAZBAWtB/wFxs5SSEIkEIjwgPJILITwgBEEMai8BACIFQf//AXFFBEAgBUEQdAwDCyAFQf8HcSEDIAVBgIACcSEHIAVBgPgBcSIFQYD4AUYEQCAHQRB0IgVBgICA/AdyIANFDQMaIAUgA0ENdHJBgICA/gdyDAMLIAdBEHQhByAFRQ0BIAVBDXRBgICA/ABxIANBDXRyQYCAgMADaiAHcgwCC0HU5sEAEP8HAAsgAyADZ0EQayIDQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIANBF3RrcgshAyACQf//ASA8IAO+IjxDAACAP14EfSA8EMYFQ1T4LUCUQwAAgD+SkQVDAACAPwuUQ703hjUQ4AgQxgVDGHIxP5WNIjz8AEGAgH4gPEMAAADHYBsgPEMA/v9GXhtBACA8IDxbGzsBPCACIAYEfUMAAEDBIAAqAkQgAC0AWEECRiIDGyI8QwAAEEEgACoCSCADGyA8k0MAAH5DlSAGQQFrQf8BcbOUkhCJBCI8IDySBUMAAAAACwJ/IARBDGovAQAiBEH//wFxRQRAIARBEHQMAQsgBEH/B3EhAyAEQYCAAnEhBSAEQYD4AXEiBEGA+AFGBEAgBUEQdCIEQYCAgPwHciADRQ0BGiAEIANBDXRyQYCAgP4HcgwBCyAFQRB0IgUgBEENdEGAgID8AHEgA0ENdHJBgICAwANqciAEDQAaIAMgA2dBEGsiA0H//wNxQQhqdEH///8DcSAFQYCAgNgDciADQRd0a3ILviI8QwAAgD9eBH0gPBDGBUNU+C1AlEMAAIA/kpEFQwAAgD8LlDgCwAEgAiACQcABaq1CgICAgNABhDcDWCACIAJBPGqtQoCAgIDgAYQ3A1AgAkICNwLsAiACQQI2AuQCIAJBuOPBADYC4AIgAiACQdAAajYC6AIgAkGwAmogAkHgAmoQ7AMCQCACKAKwAiIDBEAgAigCtAIiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgA2pJDQEgBUEAIAYgA0EnaksbDQcgBBCiAgsgAiACLwE8OwE+IAJBADYCQCACQQA2AkwgAkKAgICAwAA3AkRB2LbJACgCACIDRQRAEJMFIQMLIAMoAgAgAygCBCgCDBEEACEDIAJB8JrIAP0AAwD9CwNQIAIgA61Cxs7rhrfq7a0ShSIaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEQpK23Z0FhELSgaqbq/qC16d/fiIZQoDoAoNCKIYgGUKAgJQDg0IYhiAZQoCAgKgKg0IIhoSEIBlCCIhCgICA+A+DIBlCGIhCgID8B4OEIBlCKIhCgP4DgyAZQjiIhISEQoCAgICAgICARIQgGkLYotHvwqnlvy1+hSIcQu3cspuNpYnMywCFIhlC2KLR78Kp5b8tfiAZQjiGIBlCgP4Dg0IohoQgGUKAgPwHg0IYhiAZQoCAgPgPg0IIhoSEIBlCCIhCgICA+A+DIBlCGIhCgID8B4OEIBlCKIhCgP4DgyAZQjiIhISEQtKBqpur+oLXp39+IhlCOIYgGUKA/gODQiiGhCAZQoCA/AeDQhiGIBlCgICA+A+DQgiGhIQgGUIIiEKAgID4D4MgGUIYiEKAgPwHg4QgGUIoiEKA/gODIBlCOIiEhISFQov9+pfHxteXhn+FIhlCOIYgGUKA/gODQiiGhCAZQoCA/AeDQhiGIBlCgICA+A+DQgiGhIQgGUIIiEKAgID4D4MgGUIYiEKAgPwHg4QgGUIoiEKA/gODIBlCOIiEhIRC0oGqm6v6gtenf34iGkI4hiAaQoD+A4NCKIaEIBpCgID8B4NCGIYgGkKAgID4D4NCCIaEhCAaQgiIQoCAgPgPgyAaQhiIQoCA/AeDhCAaQiiIQoD+A4MgGkI4iISEhCAZQtii0e/CqeW/LX6FIhlCOIYgGUKA/gODQiiGhCAZQoCA/AeDQhiGIBlCgICA+A+DQgiGhIQgGUIIiEKAgID4D4MgGUIYiEKAgPwHg4QgGUIoiEKA/gODIBlCOIiEhIRCiKyRp/aIgJywf34iGkI4hiAaQoD+A4NCKIaEIBpCgID8B4NCGIYgGkKAgID4D4NCCIaEhCAaQgiIQoCAgPgPgyAaQhiIQoCA/AeDhCAaQiiIQoD+A4MgGkI4iISEhCAZQs+O/8e788bUd36FIBmJNwN4IAIgHELWgs2hkP2UjkuFIhlC2KLR78Kp5b8tfiAZQjiGIBlCgP4Dg0IohoQgGUKAgPwHg0IYhiAZQoCAgPgPg0IIhoSEIBlCCIhCgICA+A+DIBlCGIhCgID8B4OEIBlCKIhCgP4DgyAZQjiIhISEQtKBqpur+oLXp39+IhlCOIYgGUKA/gODQiiGhCAZQoCA/AeDQhiGIBlCgICA+A+DQgiGhIQgGUIIiEKAgID4D4MgGUIYiEKAgPwHg4QgGUIoiEKA/gODIBlCOIiEhISFQvzDvKfJldXk6ACFIhlCOIYgGUKA/gODQiiGhCAZQoCA/AeDQhiGIBlCgICA+A+DQgiGhIQgGUIIiEKAgID4D4MgGUIYiEKAgPwHg4QgGUIoiEKA/gODIBlCOIiEhIRC0oGqm6v6gtenf34iGkI4hiAaQoD+A4NCKIaEIBpCgID8B4NCGIYgGkKAgID4D4NCCIaEhCAaQgiIQoCAgPgPgyAaQhiIQoCA/AeDhCAaQiiIQoD+A4MgGkI4iISEhCAZQtii0e/CqeW/LX6FIhlCOIYgGUKA/gODQiiGhCAZQoCA/AeDQhiGIBlCgICA+A+DQgiGhIQgGUIIiEKAgID4D4MgGUIYiEKAgPwHg4QgGUIoiEKA/gODIBlCOIiEhIRCiKyRp/aIgJywf34iGkI4hiAaQoD+A4NCKIaEIBpCgID8B4NCGIYgGkKAgID4D4NCCIaEhCAaQgiIQoCAgPgPgyAaQhiIQoCA/AeDhCAaQiiIQoD+A4MgGkI4iISEhCAZQs+O/8e788bUd36FIBmJNwNwIAIgHEL8w7ynyZXV5OgAhSIZQtii0e/CqeW/LX4gGUI4hiAZQoD+A4NCKIaEIBlCgID8B4NCGIYgGUKAgID4D4NCCIaEhCAZQgiIQoCAgPgPgyAZQhiIQoCA/AeDhCAZQiiIQoD+A4MgGUI4iISEhELSgaqbq/qC16d/fiIZQjiGIBlCgP4Dg0IohoQgGUKAgPwHg0IYhiAZQoCAgPgPg0IIhoSEIBlCCIhCgICA+A+DIBlCGIhCgID8B4OEIBlCKIhCgP4DgyAZQjiIhISEhULt3LKbjaWJzMsAhSIZQjiGIBlCgP4Dg0IohoQgGUKAgPwHg0IYhiAZQoCAgPgPg0IIhoSEIBlCCIhCgICA+A+DIBlCGIhCgID8B4OEIBlCKIhCgP4DgyAZQjiIhISEQtKBqpur+oLXp39+IhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIQgGULYotHvwqnlvy1+hSIZQjiGIBlCgP4Dg0IohoQgGUKAgPwHg0IYhiAZQoCAgPgPg0IIhoSEIBlCCIhCgICA+A+DIBlCGIhCgID8B4OEIBlCKIhCgP4DgyAZQjiIhISEQoiskaf2iICcsH9+IhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIQgGULPjv/Hu/PG1Hd+hSAZiTcDaCACIBxCi/36l8fG15eGf4UiGULYotHvwqnlvy1+IBlCOIYgGUKA/gODQiiGhCAZQoCA/AeDQhiGIBlCgICA+A+DQgiGhIQgGUIIiEKAgID4D4MgGUIYiEKAgPwHg4QgGUIoiEKA/gODIBlCOIiEhIRC0oGqm6v6gtenf34iGUI4hiAZQoD+A4NCKIaEIBlCgID8B4NCGIYgGUKAgID4D4NCCIaEhCAZQgiIQoCAgPgPgyAZQhiIQoCA/AeDhCAZQiiIQoD+A4MgGUI4iISEhIVC1oLNoZD9lI5LhSIZQjiGIBlCgP4Dg0IohoQgGUKAgPwHg0IYhiAZQoCAgPgPg0IIhoSEIBlCCIhCgICA+A+DIBlCGIhCgID8B4OEIBlCKIhCgP4DgyAZQjiIhISEQtKBqpur+oLXp39+IhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIQgGULYotHvwqnlvy1+hSIZQjiGIBlCgP4Dg0IohoQgGUKAgPwHg0IYhiAZQoCAgPgPg0IIhoSEIBlCCIhCgICA+A+DIBlCGIhCgID8B4OEIBlCKIhCgP4DgyAZQjiIhISEQoiskaf2iICcsH9+IhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIQgGULPjv/Hu/PG1Hd+hSAZiTcDYCAAQTxqIQ8gAkHwAWqtIi1CgICAgBCEISkgAkHgAWqtQoCAgIAQhCEuIAJBQGutQoCAgIAQhCEvIAJBgAFqrUKAgICA0AGEITAgAkE+aq1CgICAgOABhCExIAJB6AJqIRUgAigCLCEJIAIoAkAhBANAIAJDAACAPyACLgE+ELAGIjw4AoABIAAoAgghCwJAIAQgCU8NAEMAABBBIAAqAkggAC0AWEECRiIDG0MAAEDBIAAqAkQgAxsiO5NDAAB+Q5UhRSAEIAlrIQ0gBEEYbCIMIAAoAgRqQQxqIQMgBCAEIAsgBCALSxtrIQ5BACEFAkADQCAEIAVqIQcCfwJAIAUgDmoEQCADQQdqLQAAIgYgA0EGai0AACIKIANBBWotAAAiCCAIIApJGyIKIAYgCksbIgYEfSA7IEUgBkEBa0H/AXGzlJIQiQQiQiBCkgVDAAAAAAshQiADLwEAIgpB//8BcUUEQCAKQRB0DAMLIApB/wdxIQYgCkGAgAJxIQggCkGA+AFxIgpBgPgBRgRAIAhBEHQiCkGAgID8B3IgBkUNAxogCiAGQQ10ckGAgID+B3IMAwsgCEEQdCEIIApFDQEgCkENdEGAgID8AHEgBkENdHJBgICAwANqIAhyDAILIAcgC0Hcu8cAEIwHAAsgBiAGZ0EQayIGQf//A3FBCGp0Qf///wNxIAhBgICA2ANyIAZBF3RrcgshBiBCIAa+IkJDAACAP14EfSBCEMYFQ1T4LUCUQwAAgD+SkQVDAACAPwuUIDxeDQEgAiAHQQFqNgJAIANBGGohAyANIAVBAWoiBWoNAAsgCSEHCyAEIAdPDQACQCAHIARrIgtB/////wFNBEAgC0EDdCIDQf3///8HSQ0BC0Hg/8YAEP8HAAtBACEGAkAgA0UEQEEEIQlBACELDAELIAMQcSIJRQ0FCyAEIAdrIQ0gCSEDA0BDAACAPyE8An8CQCAEIAZqIgogACgCCCIFSQRAIAAoAgQgDGoiBUETai0AACIHIAVBEmotAAAiCCAFQRFqLQAAIg4gCCAOSxsiCCAHIAhLGyIHBH1DAABAwSAAKgJEIAAtAFhBAkYiCBsiO0MAABBBIAAqAkggCBsgO5NDAAB+Q5UgB0EBa0H/AXGzlJIQiQQiOyA7kgVDAAAAAAshOyAFQQxqLwEAIgdB//8BcUUEQCAHQRB0DAMLIAdB/wdxIQUgB0GAgAJxIQggB0GA+AFxIgdBgPgBRgRAIAhBEHQiB0GAgID8B3IgBUUNAxogByAFQQ10ckGAgID+B3IMAwsgCEEQdCEIIAdFDQEgB0ENdEGAgID8AHEgBUENdHJBgICAwANqIAhyDAILIAogBUHcu8cAEIwHAAsgBSAFZ0EQayIFQf//A3FBCGp0Qf///wNxIAhBgICA2ANyIAVBF3Rrcgu+IkVDAACAP14EQCBFEMYFQ1T4LUCUQwAAgD+SkSE8CyADQQRqIAo2AgAgAyA7IDyMlDgCACAMQRhqIQwgA0EIaiEDIA0gBkEBaiIGag0ACyACIAY2AowBIAIgCTYCiAEgAiALNgKEASACQcQAaiACQYQBahCUAiAAKAIIIQsLIAIgAigCTCIHNgLgASACIAs2AvABIAIgKTcDiAMgAiAuNwOAAyACICw3A/gCIAIgLzcD8AIgAiAwNwPoAiACIDE3A+ACIAJCBjcCvAIgAkEGNgK0AiACQfzmwQA2ArACIAIgAkHgAmo2ArgCIAJBoAJqIAJBsAJqEOwDIAIoAqACIgMEQCACKAKkAiIEQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyADakkNByAFQQAgBiADQSdqSxsNCCAEEKICCyACKAJcIgQEQCACKAJQIgZBCGohAyAGKQMAQn+FQoCBgoSIkKDAgH+DIRkgBiEFA0AgGVAEQANAIAVBgARrIQUgAykDACADQQhqIQNCgIGChIiQoMCAf4MiGUKAgYKEiJCgwIB/UQ0ACyAZQoCBgoSIkKDAgH+FIRkLIAUgGXqnQQN0QcAHcWsiCUEEaygCACIKQQlPBEAgCUEgaygCACIJQQRrKAIAIgtBeHEiCCAKQQJ0IgpBBEEIIAtBA3EiCxtqSQ0JIAtBACAIIApBJ2pLGw0KIAkQogILIBlCAX0gGYMhGSAEQQFrIgQNAAsgAiACKAJUIgMEfyADQQlqIgQEQCAGQf8BIAT8CwALIAMgA0EBakEDdkEHbCADQQhJGwVBAAs2AlggAkEANgJcCwJAIAdFDQAgAigCSCIDIAdBA3RqIQsgA0EIaiEFAkADQCADKAIEIgkgACgCCCIDTw0BIAUhByACIAAoAgQgCUEYbGr9AAIAIDb9DQABAgMEBQYHCAkKCwgJCgsgAv0JAoAB/ecB/WgiNv0fAvwENwOgASACIDb9HwH8BDcDmAEgAiA2/R8A/AQ3A5ABIAJB4AJqIAJB0ABqIAJBkAFqEIcCAkAgAigCgAMiBgRAIAJBuAJqIBVBCGr9AAMA/QsDACACIBUpAwA3A7ACIAYoAgAiBSAGKAIEIgogAigC4AIiCHEiBGopAABCgIGChIiQoMCAf4MiGVAEQEEIIQMDQCADIARqIQQgA0EIaiEDIAUgBCAKcSIEaikAAEKAgYKEiJCgwIB/gyIZUA0ACwsgBSAZeqdBA3YgBGogCnEiBGosAAAiA0EATgRAIAUgBSkDAEKAgYKEiJCgwIB/g3qnQQN2IgRqLQAAIQMLIAQgBWogCEEZdiIIOgAAIAYgBigCCCADQQFxazYCCCAFIARBCGsgCnFqQQhqIAg6AAAgBSAEQQZ0ayIDQUBqIgRBEGogAkHAAmopAwA3AwAgBCAC/QADsAL9CwMAIANBBGtBADYCACADQShrQQA2AgAgBiAGKAIMQQFqNgIMDAELIAIoAuACIQMLIANBJGshBgJ/IANBBGsiBSgCACIIQQlJBEAgCCEEQQghCCAGDAELIAYoAgAhBCAGIQUgA0EgaygCAAshDCAEIAhGBH8gA0EoaxDNBiADQSBrKAIAIQwgBiIFKAIABSAEC0ECdCAMaiAJNgIAIAUgBSgCAEEBajYCACAHQQBBCCAHIAtGIgQbaiEFIAchAyAERQ0ACwwBCyAJIANB3LvHABCMBwALIAJBADYCsAEgAkKAgICAwAA3AqgBA0AgAigCNCERIAIoAjghDAJAAkACQAJAAkADQCACQbQBaiACQcQAahCEAyACKAK0AUEBRw0CIAIoArwBIg0gDE8NASANIBFqIhItAABFDQALIAAoAggiCSANSwRAAkAgACgCBCIUIA1BGGxqIgT9AAIAIDb9DQABAgMEBQYHCAkKCwgJCgsgAv0JAoAB/ecB/WgiNv0fAvwEIiJCAX0iHyAiQgF8IipXBEAgAikDYCIZQjiGIBlCgP4Dg0IohoQgGUKAgPwHg0IYhiAZQoCAgPgPg0IIhoSEIBlCCIhCgICA+A+DIBlCGIhCgID8B4OEIBlCKIhCgP4DgyAZQjiIhISEITJDAACAPyAAKgJAIAAtAFhBAkYiAxtDAAAAACAAKgI8IAMbIkWTIUJDAAAQQSAAKgJIIAMbQwAAQMEgACoCRCADGyJIk0MAAH5DlSFJIBlCf4UhMyA2/R8A/AQiI0IBfCEgICNCAX0hJCA2/R8B/AQiKEIBfCEeIChCAX0hHEL///////////8AISVDAACA/yE8QX8hCyACKAJQIQggAigCVCEKIAIpA2ghNCACKAJcIRYgBEEWaiEXIARBFGohGEL///////////8AISZC////////////ACEnA0ACQCAcIB5VDQAgICAkUwRAIBwhGQNAIBkgHlkNAiAeIBkgGSAeU618IhlZDQALDAELAkAgFgRAIBwhGQwBCyAcIRoDQCAkIRkDQCAZICBTIgMEQCAZIAOtfCIZICBXDQELCyAaIB5ZDQIgHiAaIBogHlOtfCIaWQ0ACwwBCwNAIBkiISAZIB5TrXwhGSAkIRoCQAJAA0AgCiAaIDSFIhtC2KLR78Kp5b8tfiAbQjiGIBtCgP4Dg0IohoQgG0KAgPwHg0IYhiAbQoCAgPgPg0IIhoSEIBtCCIhCgICA+A+DIBtCGIhCgID8B4OEIBtCKIhCgP4DgyAbQjiIhISEQtKBqpur+oLXp39+IhtCOIYgG0KA/gODQiiGhCAbQoCA/AeDQhiGIBtCgICA+A+DQgiGhIQgG0IIiEKAgID4D4MgG0IYiEKAgPwHg4QgG0IoiEKA/gODIBtCOIiEhISFICGFIhtC2KLR78Kp5b8tfiAbQjiGIBtCgP4Dg0IohoQgG0KAgPwHg0IYhiAbQoCAgPgPg0IIhoSEIBtCCIhCgICA+A+DIBtCGIhCgID8B4OEIBtCKIhCgP4DgyAbQjiIhISEQtKBqpur+oLXp39+IhtCOIYgG0KA/gODQiiGhCAbQoCA/AeDQhiGIBtCgICA+A+DQgiGhIQgG0IIiEKAgID4D4MgG0IYiEKAgPwHg4QgG0IoiEKA/gODIBtCOIiEhISFIB+FIhtCOIYgG0KA/gODQiiGhCAbQoCA/AeDQhiGIBtCgICA+A+DQgiGhIQgG0IIiEKAgID4D4MgG0IYiEKAgPwHg4QgG0IoiEKA/gODIBtCOIiEhIRC0oGqm6v6gtenf34iHUI4hiAdQoD+A4NCKIaEIB1CgID8B4NCGIYgHUKAgID4D4NCCIaEhCAdQgiIQoCAgPgPgyAdQhiIQoCA/AeDhCAdQiiIQoD+A4MgHUI4iISEhCAbQtii0e/CqeW/LX6FIhtCOIYgG0KA/gODQiiGhCAbQoCA/AeDQhiGIBtCgICA+A+DQgiGhIQgG0IIiEKAgID4D4MgG0IYiEKAgPwHg4QgG0IoiEKA/gODIBtCOIiEhIQgM34iHUI4hiAdQoD+A4NCKIaEIB1CgID8B4NCGIYgHUKAgID4D4NCCIaEhCAdQgiIQoCAgPgPgyAdQhiIQoCA/AeDhCAdQiiIQoD+A4MgHUI4iISEhCAbIDJ+hSAbiSIbp3EhBSAbQhmIQv8Ag0KBgoSIkKDAgAF+ITUgGiAaICBTrXwhG0EAIQYCQAJAA0ACQCAFIAhqKQAAIisgNYUiHUJ/hSAdQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIh1QRQRAA0ACQCAaIAggHXqnQQN2IAVqIApxQQZ0ayIDQUBqKQMAUg0AICEgA0E4aykDAFINACAfIANBMGspAwBRDQMLIB1CAX0gHYMiHVBFDQALCyArICtCAYaDQoCBgoSIkKDAgH+DUEUNAiAFIAZBCGoiBmogCnEhBQwBCwsCfyADQQRrKAIAIgVBCU8EQCADQSRrKAIAIQUgA0EgaygCAAwBCyADQSRrCyEGIAVFDQAgBUECdCEHA0AgBigCACIDIAxPDQICQCADIA1GDQAgAyARai0AAEEBcUUNACADIAlPDQUgBEERai8AACAEQRNqLQAAIgVBEHRyIg5BCHYhEEMAAAAAIUBDAAAAACE/IA5B/wFxBEAgSCBJIA5BAWtB/wFxs5SSEIkEIT8LIBBB/wFxBEAgSCBJIBBBAWtB/wFxs5SSEIkEIUALQwAAAAAhTEMAAAAAITsgBQRAIEggSSAFQQFrQf8BcbOUkhCJBCE7C0MAAIA/IBgvAQAiBUEIdrP9EyAFIBctAAAiDkEQdHJB/wFxs/0gAf0MAAB/QwAAf0MAAH9DAAB/Q/3nASI2IDb95AH9DAAAgL8AAIC/AACAvwAAgL/95AEiNv0fASJDi5MgNv0fACJEi5MiPYxDAAAAABDgCCE+IDv9EyAOs0MAAH9DlUMAAAA/lEPbD0lAlCJKEJkCIkEgQyA+ID6MIkMgNv0MAAAAAAAAAAAAAAAAAAAAAP1G/U0iNv3HAf0bAkEBcRuSIjsgPSA9lCA7IDuUIEQgPiBDIDb9GwBBAXEbkiJDIEOUkpKRIkSVlCI7IEEgPSBElZQiRyBHkiI+lCJNIEoQmwIiSiBBIEMgRJWUIj0gPZIiQZQiRJL9EyA9ID6UIkMgSiA7IDuSIkuUIkaT/SABQwAAgD8gOyBLlCJLID0gQZQiUpKT/SAC/eYBIjb9HwIhPSBA/RMgOyBBlCI7IEogPpQiQJP9E0MAAIA/IEsgRyA+lCJBkpP9IAEgQyBGkv0gAv3mASI3/R8BIkMgN/0fAiI+lCFLID/9E0MAAIA/IFIgQZKT/RMgOyBAkv0gASBNIEST/SAC/eYBIjj9HwEiRCA4/R8CIkCUIUEgN/0fACJHID6UIUYgOP0fACJKIECUIVMgA0EYbCAUaiIFQRFqLwAAIAVBE2otAAAiDkEQdHIiEEEIdiETIBBB/wFxBEAgSCBJIBBBAWtB/wFxs5SSEIkEIUwLQwAAAAAhO0MAAAAAIT8gE0H/AXEEQCBIIEkgE0EBa0H/AXGzlJIQiQQhPwsgDgRAIEggSSAOQQFrQf8BcbOUkhCJBCE7CyA2/R8BIk0gPZQgSyBBkpIhUiA2/R8AIksgPZQgRiBTkpIhU0MAAAAAIVRDAACAPyAFQRRqLwEAIg5BCHaz/RMgDiAFQRZqLQAAIhBBEHRyQf8BcbP9IAH9DAAAf0MAAH9DAAB/QwAAf0P95wEiNiA2/eQB/QwAAIC/AACAvwAAgL8AAIC//eQBIjb9HwEiTouTIDb9HwAiT4uTIkGMQwAAAAAQ4AghRiA9ID2UID4gPpQgQCBAlJKSIlZDAAAAPyA7/RMgELNDAAB/Q5VDAAAAP5RD2w9JQJQiUBCZAiI+IE4gRiBGjCI9IDb9DAAAAAAAAAAAAAAAAAAAAAD9Rv1NIjb9xwH9GwJBAXEbkiI7IEEgQZQgOyA7lCBPIEYgPSA2/RsAQQFxG5IiQCBAlJKSkSJGlZQiOyA+IEEgRpWUIkEgQZIiPZQiTyBQEJsCIk4gPiBAIEaVlCI+ID6SIkCUIkaS/RMgPiA9lCJQIE4gOyA7kiJRlCJVk/0gAUMAAIA/IDsgUZQiUSA+IECUIj6Sk/0gAv3mASI2IDb95gEgP/0TIDsgQJQiOyBOID2UIj+T/RNDAACAPyBRIEEgPZQiPZKT/SABIFAgVZL9IAL95gEiNyA3/eYBIEz9E0MAAIA/ID4gPZKT/RMgOyA/kv0gASBPIEaT/SAC/eYBIjggOP3mAf3kAf3kASI5IDb9HwIiPSA9lCA3/R8CIkYgRpQgOP0fAiJMIEyUkpIiTv0gAiA2/R8AIj8gNv0fASJPlCA3/R8AIlAgN/0fASJRlCA4/R8AIlUgOP0fASJXlJKSIlj9IAP9DAAAAD8AAAA/AAAAPwAAAD/95gEiNv0fAhC0BiE+IE0gTZQgQyBDlCBEIESUkpIiWUMAAAA/IDb9HwEQtAYhQCBLIEuUIEcgR5QgSiBKlJKSIlpDAAAAPyA2/R8AELQGIkGLIECLEOAIID6LEOAIIjsgOyA7lJRDYEKiDRDgCCFbIEsgTZQgRyBDlCBKIESUkpIiQ0MAAAA/IDb9HwMQtAYhOyBTQwAAAD8gPyA9lCBQIEaUIFUgTJSSkiJHQwAAAD+UELQGIj8gOyBSQwAAAD8gTyA9lCBRIEaUIFcgTJSSkiJKQwAAAD+UELQGIj2UID8gQJSTIk2UIEEgQCA+lCA9ID2UkyJLlCA7ID4gO5QiRiA/ID2UIkyTlJOSIkSLIFtDX3CJMJRdRQRAIEQgU/0TIEf9IAEiNyBD/RMgWP0gASI4IFL9EyBK/SABIjb95gEgNyA5IFn9IAAiOv3mAf3lAf3mASBa/RMgOf0NAAECAxAREhMAAQIDAAECAyA6IFb9EyBO/SABIjn95gEgNiA2/eYB/eUB/eYBIDggOSA4/eYBIDcgNv3mAf3lAf3mAf3lAf3kASI2/R8AIDb9HwGUkZUQxgVDAAAAP5QgBf0AAgAgBP0AAgD95QEiNv0fAiJDID8gO5QgPSBBlJNDAACAPyBElSI9lCJEIESSIDb9HwEiRJSUIEMgTSA9lCJHIEeSIDb9HwAiR5SUIEQgTCBGkyA9lCJKIEqSIEeUlCBDIEMgQSBAlCA7IDuUkyA9lJSUIEcgRyBLID2UlJQgRCBEIEEgPpQgPyA/lJMgPZSUlJKSkpKSQwAAAD6UkiFUCyBFIARBEGotAAAiDrNDAAB/Q5UgQpSS/RMgRSAEQQ5qLwEAIhAgDkEQdHJB/wFxs0MAAH9DlSBClJL9IAAgRSAQQQh2s0MAAH9DlSBClJL9IAEgRSBCIAVBEGotAAAiDrNDAAB/Q5WUkv0TIEUgQiAFQQ5qLwEAIgUgDkEQdHJB/wFxs0MAAH9DlZSS/SAAIEUgQiAFQQh2s0MAAH9DlZSS/SAB/eUBIjYgNv3mASI2IDb9DQgJCgsAAQIDAAECAwABAgMgNiA2IDb9DQQFBgcAAQIDAAECAwABAgP95AH95AH9HwCMEIkEIFSMEIkElCI7QwAAAAAgOyA7WxsiOyA8XkUNACAaIScgISEmIB8hJSA7ITwgAyELCyAGQQRqIQYgB0EEayIHDQALCyAaICBZDQMgGyIaICBVDQMMAQsLIAMgDEGc6MEAEIwHAAsgAyAJQdy7xwAQjAcACyAeICFXDQEgGSAeVw0ACwsgHyAqUyIDBEAgHyADrXwiHyAqVw0BCwsgC0F/Rw0BCyACKgK4ASE8IAIoArABIgMgAigCqAFGBEAgAkGoAWpBvOfBABD5BQsgAigCrAEgA0EDdGoiBCANNgIEIAQgPDgCACACIANBAWo2ArABDAcLIAIgCzYC5AIgAiANNgLgAiAAIAJB4AJqQQJDAAAAABBDIRAgEkEAOgAAIAIoAlxFDQMgAigCVCIFIAIpA2ggI4UiGULYotHvwqnlvy1+IBlCOIYgGUKA/gODQiiGhCAZQoCA/AeDQhiGIBlCgICA+A+DQgiGhIQgGUIIiEKAgID4D4MgGUIYiEKAgPwHg4QgGUIoiEKA/gODIBlCOIiEhIRC0oGqm6v6gtenf34iGUI4hiAZQoD+A4NCKIaEIBlCgID8B4NCGIYgGUKAgID4D4NCCIaEhCAZQgiIQoCAgPgPgyAZQhiIQoCA/AeDhCAZQiiIQoD+A4MgGUI4iISEhIUgKIUiGULYotHvwqnlvy1+IBlCOIYgGUKA/gODQiiGhCAZQoCA/AeDQhiGIBlCgICA+A+DQgiGhIQgGUIIiEKAgID4D4MgGUIYiEKAgPwHg4QgGUIoiEKA/gODIBlCOIiEhIRC0oGqm6v6gtenf34iGUI4hiAZQoD+A4NCKIaEIBlCgID8B4NCGIYgGUKAgID4D4NCCIaEhCAZQgiIQoCAgPgPgyAZQhiIQoCA/AeDhCAZQiiIQoD+A4MgGUI4iISEhIUgIoUiGUI4hiAZQoD+A4NCKIaEIBlCgID8B4NCGIYgGUKAgID4D4NCCIaEhCAZQgiIQoCAgPgPgyAZQhiIQoCA/AeDhCAZQiiIQoD+A4MgGUI4iISEhELSgaqbq/qC16d/fiIaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEIBlC2KLR78Kp5b8tfoUiGUI4hiAZQoD+A4NCKIaEIBlCgID8B4NCGIYgGUKAgID4D4NCCIaEhCAZQgiIQoCAgPgPgyAZQhiIQoCA/AeDhCAZQiiIQoD+A4MgGUI4iISEhCACKQNgIhpCf4V+IhxCOIYgHEKA/gODQiiGhCAcQoCA/AeDQhiGIBxCgICA+A+DQgiGhIQgHEIIiEKAgID4D4MgHEIYiEKAgPwHg4QgHEIoiEKA/gODIBxCOIiEhIQgGSAaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEfoUgGYkiGadxIQMgGUIZiEL/AINCgYKEiJCgwIABfiEcQQAhBCACKAJQIQYDQAJAIAMgBmopAAAiGiAchSIZQn+FIBlCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiGVBFBEADQAJAICMgBiAZeqdBA3YgA2ogBXFBBnRrIg5BQGopAwBSDQAgKCAOQThrKQMAUg0AICIgDkEwaykDAFENAwsgGUIBfSAZgyIZUEUNAAsLIBogGkIBhoNCgIGChIiQoMCAf4NQRQ0FIAMgBEEIaiIEaiAFcSEDDAELCyAOQQRrIhMoAgAiAyEJIANBCU8EQCAOQSRrKAIAIQkLIAlFBEBBACEIDAYLIA5BIGshEiAOQSRrIQpBACEFQQAhCEEAIQMDQCATKAIAIgYhBCAKIQcgBkEJSSIURQRAIAcoAgAhBCASKAIAIQcLAkACQCADIARJBEAgDSAFIAdqKAIARgRAIAhBAWohCAwDCyAIRQRAQQAhCAwDCyAKIQQgFEUEQCAEKAIAIQYgEigCACEECyADIAhrIgcgBk8NASADIAZJBEAgBCAFIAhBAnRraiIGKAIAIQcgBiAEIAVqIgQoAgA2AgAgBCAHNgIADAMLIAMgBkHopMEAEIwHAAsgAyAEQdikwQAQjAcACyAHIAZB6KTBABCMBwALIAVBBGohBSADQQFqIgMgCUcNAAsMBAsgDSAJQdy7xwAQjAcACyANIAxBrOfBABCMBwALIAIgAi8BPkEBajsBPiACQcQAaiACQagBahCUAiACKAJAIgQgAigCLCIJSQ0EIAIoAkxBAUsNBCACIAAoAghBAWs2AtwBIAJBATYC5AIgAkH45MEANgLgAiACQgE3AuwCIAIgAkHcAWqtQoCAgIAQhDcDoAIgAiACQaACajYC6AIgAkGwAmogAkHgAmoQsQYgAigCsAIiAwRAIAIoArQCIANBARCiBwsCQAJAAkAgAigC3AEiAyAAKAIIIgRJBEAgAiAPNgKkAiACQQE2AuQCIAJBuOjBADYC4AIgAkIBNwLsAiACIAAoAgQgA0EYbGo2AqACIAIgAkGgAmqtQoCAgICAAoQ3A/ABIAIgAkHwAWo2AugCIAJBsAJqIAJB4AJqELEGIAIoArACIgMEQCACKAK0AiADQQEQogcLIAJBIGogACgCCEEBdEEBaxDkB0EAIQUgAkEANgLoASACIAIpAyA3AuABIAJB4AFqIgMgAigCLEEBEMQGIAMgACgCCEEAEMQGIAIoAtwBIgQgAigC6AEiCk8NAiACKALkASIJIARqQQE6AAAgAkHgAmogACACKALcASADIAEQ9wFBACEGAkAgCkEETwRA/QwAAAAAAAAAAAAAAAAAAAAAITYgCSEDIApBfHEiBiEFA0AgNiAD/VwAAP2JAf2pAf2uASE2IANBBGohAyAFQQRrIgUNAAsgNiA2IDb9DQgJCgsMDQ4PAAECAwABAgP9rgEiNiA2IDb9DQQFBgcAAQIDAAECAwABAgP9rgH9GwAhBSAGIApGDQELIAYgCWohAyAKIAZrIQYDQCAFIAMtAABqIQUgA0EBaiEDIAZBAWsiBg0ACwsgAigCiAMhCyACKALsAiEMIAIgBTYC7AEgAiAAKAIINgLwASACQQI2AuQCIAJB7OjBADYC4AIgAkICNwLsAiACICk3A7gCIAIgAkHsAWqtQoCAgIAQhCIZNwOwAiACIAJBsAJqNgLoAiACQaACaiACQeACahCxBiACKAKgAiIDBEAgAigCpAIgA0EBEKIHCyACQQE2AuQCIAJBkOnBADYC4AIgAkIBNwLsAiACIC1CgICAgNABhDcDoAIgAiACKALsAbMgAigCLLOVOALwASACIAJBoAJqNgLoAiACQbACaiACQeACahCxBiACKAKwAiIDBEAgAigCtAIgA0EBEKIHCyACQQA2AvgBIAJCgICAgMAANwLwASACKALcASEDIAJB8AFqQZjpwQAQiwYgAigC9AEgAzYCACACQQE2AvgBIAIoAtwBIgMgACgCCCIETw0BIAIgACgCBCADQRhsaiIDLQATIgQgAy0AEiIFIAMtABEiBiAFIAZLGyIFIAQgBUsbIgQEfUMAAEDBIA8qAgggDy0AHEECRiIFGyIBQwAAEEEgDyoCDCAFGyABk0MAAH5DlSAEQQFrQf8BcbOUkhCJBCIBIAGSBUMAAAAACwJ/IANBDGovAQAiBEH//wFxRQRAIARBEHQMAQsgBEH/B3EhAyAEQYCAAnEhBSAEQYD4AXEiBEGA+AFGBEAgBUEQdCIEQYCAgPwHciADRQ0BGiAEIANBDXRyQYCAgP4HcgwBCyAFQRB0IgUgBEENdEGAgID8AHEgA0ENdHJBgICAwANqciAEDQAaIAMgA2dBEGsiA0H//wNxQQhqdEH///8DcSAFQYCAgNgDciADQRd0a3ILviIBQwAAgD9eBH0gARDGBUNU+C1AlEMAAIA/kpEFQwAAgD8LlDgCgAJBBBBxIgVFDQsgBSACKALcATYCACACQZACaq1CgICAgBCEIRogAkGAAmqtQoCAgIDQAYQhHEEBIQZBASEEA0AgAiAGNgKQAiACIBo3A7gCIAIgHDcDsAIgAkICNwLsAiACQQI2AuQCIAJB0OnBADYC4AIgAiACQbACajYC6AIgAkGgAmogAkHgAmoQ7AMgAigCoAIiAwRAIAIoAqQCIgdBBGsoAgAiCEF4cSINQQRBCCAIQQNxIggbIANqSQ0QIAhBACANIANBJ2pLGw0RIAcQogILQQAhAyACQQA2AugCIAJCgICAgMAANwLgAiAGQQJ0IQYDQCAAIAMgBWooAgAgAkHwAWogAioCgAIgAkHgAmoQywEgBiADQQRqIgNHDQALAkAgAigC6AIiBkUEQCACKALgAiIDBEAgAigC5AIgA0ECdEEEEKIHCyACIAIoAvgBIgc2AoQCIAcgAigC7AFGDQEgAkEANgLgAkEAIAJBhAJqIAJB7AFqIAJB4AJqQeDpwQAQ9QcACyACIAIqAoACQwAAgD6UOAKAAiACKALkAiACKALgAiEHIAQEQCAFQQRrKAIAIghBeHEiDSAEQQJ0IgRBBEEIIAhBA3EiCBtqSQ0RIAhBACANIARBJ2pLGw0SIAUQogILIQUgByEEDAELCyAJQQFqIQggCSAKaiENQQAhBiAJIQMDQCADLQAARQRAIAIoAvABIAdGBEAgAkHwAWpB3OrBABCLBgsgAigC9AEgB0ECdGogBjYCACACIAdBAWoiBzYC+AELIAgiAyANRyADaiEIIAogBkEBaiIGRw0ACyAAIAIoAvQBIAcQiQIgACACKALsARCIBSACQQE2AuQCIAJBjOrBADYC4AIgAkIBNwLsAiACIBk3A6ACIAIgAkGgAmo2AugCIAJBsAJqIAJB4AJqELEGIAIoArACIgMEQCACKAK0AiADQQEQogcLIAIgACgCCCIKBHxCACEZQQAhBkEAIQcDQCACQeACaiAAKAIQIAAoAhQgBhDnAiACKAKEAyIDQQhLBEAgAigC6AIiCEEEaygCACINQXhxIg4gA0ECdCIQQQRBCCANQQNxIg0bakkNESACKALkAiEDIA1BACAOIBBBJ2pLGw0GIAgQogILIAcgA0EAR2ohByAZIAOtfCEZIAogBkEBaiIGRw0ACyAZuiAHt6MFRAAAAAAAAPh/CzkDiAIgAkEBNgLkAiACQbzqwQA2AuACIAJCATcC7AIgAiACQYgCaq1CgICAgPAChDcDoAIgAiACQaACajYC6AIgAkGwAmogAkHgAmoQsQYgAigCsAIiAwRAIAIoArQCIANBARCiBwsgAkHgAmogACgCECAAKAIUQQAQ5wIgAiACKAKEAyIDQQlJIgYEfyADBSACKALkAgs2ApwCIAJBATYCtAIgAkHU6sEANgKwAiACQgE3ArwCIAIgAkGcAmqtQoCAgIAQhDcDkAIgAiACQZACajYCuAIgAkGgAmogAkGwAmoQsQYgBkUEQCACKALoAiADQQJ0QQQQogcLIAIoAqACIgMEQCACKAKkAiADQQEQogcLIAQEQCAFIARBAnRBBBCiBwsgAigC8AEiAwRAIAIoAvQBIANBAnRBBBCiBwsgC0EJTwRAIAwgC0ECdEEEEKIHCyACKALgASIDBEAgCSADQQEQogcLIAJB0ABqEL4EIAIoAkQiAwRAIAIoAkggA0EDdEEEEKIHCyACKAIwIgNFDQogESADQQEQogcMCgsgAyAEQdy7xwAQjAcACyADIARB3LvHABCMBwALIAQgCkHQ6MEAEIwHAAsMCwtBzOfBABDdCQALIBMoAgAhAwsgCSAIayIEIA5BJGsgEyADQQhLGyIDKAIASQRAIAMgBDYCAAsCQAJAAkACQCALIAxJBEAgCyARakEAOgAAIAIoAlxFDQIgAigCVCIFIAIpA2ggJ4UiGULYotHvwqnlvy1+IBlCOIYgGUKA/gODQiiGhCAZQoCA/AeDQhiGIBlCgICA+A+DQgiGhIQgGUIIiEKAgID4D4MgGUIYiEKAgPwHg4QgGUIoiEKA/gODIBlCOIiEhIRC0oGqm6v6gtenf34iGUI4hiAZQoD+A4NCKIaEIBlCgID8B4NCGIYgGUKAgID4D4NCCIaEhCAZQgiIQoCAgPgPgyAZQhiIQoCA/AeDhCAZQiiIQoD+A4MgGUI4iISEhIUgJoUiGULYotHvwqnlvy1+IBlCOIYgGUKA/gODQiiGhCAZQoCA/AeDQhiGIBlCgICA+A+DQgiGhIQgGUIIiEKAgID4D4MgGUIYiEKAgPwHg4QgGUIoiEKA/gODIBlCOIiEhIRC0oGqm6v6gtenf34iGUI4hiAZQoD+A4NCKIaEIBlCgID8B4NCGIYgGUKAgID4D4NCCIaEhCAZQgiIQoCAgPgPgyAZQhiIQoCA/AeDhCAZQiiIQoD+A4MgGUI4iISEhIUgJYUiGUI4hiAZQoD+A4NCKIaEIBlCgID8B4NCGIYgGUKAgID4D4NCCIaEhCAZQgiIQoCAgPgPgyAZQhiIQoCA/AeDhCAZQiiIQoD+A4MgGUI4iISEhELSgaqbq/qC16d/fiIaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEIBlC2KLR78Kp5b8tfoUiGUI4hiAZQoD+A4NCKIaEIBlCgID8B4NCGIYgGUKAgID4D4NCCIaEhCAZQgiIQoCAgPgPgyAZQhiIQoCA/AeDhCAZQiiIQoD+A4MgGUI4iISEhCACKQNgIhpCf4V+IhxCOIYgHEKA/gODQiiGhCAcQoCA/AeDQhiGIBxCgICA+A+DQgiGhIQgHEIIiEKAgID4D4MgHEIYiEKAgPwHg4QgHEIoiEKA/gODIBxCOIiEhIQgGSAaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEfoUgGYkiGadxIQMgGUIZiEL/AINCgYKEiJCgwIABfiEcQQAhBCACKAJQIQYDQCADIAZqKQAAIhogHIUiGUJ/hSAZQoGChIiQoMCAAX2DQoCBgoSIkKDAgH+DIhlQRQRAA0ACQCAnIAYgGXqnQQN2IANqIAVxQQZ0ayINQUBqKQMAUg0AICYgDUE4aykDAFINACAlIA1BMGspAwBRDQULIBlCAX0gGYMiGVBFDQALCyAaIBpCAYaDQoCBgoSIkKDAgH+DUEUNAyADIARBCGoiBGogBXEhAwwACwALIAsgDEHc58EAEIwHAAsgDUEEayIOKAIAIgMhCSADQQlPBEAgDUEkaygCACEJCyAJRQRAQQAhCAwDCyANQSBrIRMgDUEkayEKQQAhBUEAIQhBACEDA0AgDigCACIGIQQgCiEHIAZBCUkiEkUEQCAHKAIAIQQgEygCACEHCwJAAkAgAyAESQRAIAsgBSAHaigCAEYEQCAIQQFqIQgMAwsgCEUEQEEAIQgMAwsgCiEEIBJFBEAgBCgCACEGIBMoAgAhBAsgAyAIayIHIAZPDQEgAyAGSQRAIAQgBSAIQQJ0a2oiBigCACEHIAYgBCAFaiIEKAIANgIAIAQgBzYCAAwDCyADIAZB6KTBABCMBwALIAMgBEHYpMEAEIwHAAsgByAGQeikwQAQjAcACyAFQQRqIQUgA0EBaiIDIAlHDQALDAELQeznwQAQ3QkACyAOKAIAIQMLIAkgCGsiBCANQSRrIA4gA0EISxsiAygCAEkEQCADIAQ2AgALIAIoAjAgDEYEfyACQTBqEKYGIAIoAjQFIBELIAxqQQE6AAAgAiAMQQFqNgI4An8CQCAAKAIIIgMgEEsEQCAAKAIEIBBBGGxqIgQtABMiAyAELQASIgUgBC0AESIGIAUgBksbIgUgAyAFSxsiAwR9QwAAQMEgACoCRCAALQBYQQJGIgUbIjxDAAAQQSAAKgJIIAUbIDyTQwAAfkOVIANBAWtB/wFxs5SSEIkEIjwgPJIFQwAAAAALITwgBEEMai8BACIFQf//AXFFBEAgBUEQdAwDCyAFQf8HcSEDIAVBgIACcSEGIAVBgPgBcSIFQYD4AUYEQCAGQRB0IgVBgICA/AdyIANFDQMaIAUgA0ENdHJBgICA/gdyDAMLIAZBEHQhBiAFRQ0BIAVBDXRBgICA/ABxIANBDXRyQYCAgMADaiAGcgwCCyAQIANB3LvHABCMBwALIAMgA2dBEGsiA0H//wNxQQhqdEH///8DcSAGQYCAgNgDciADQRd0a3ILIQMgPCADviI8QwAAgD9eBH0gPBDGBUNU+C1AlEMAAIA/kpEFQwAAgD8LlCI8IAIqAoABIjteRQRAIAIgBP0AAgAgNv0NAAECAwQFBgcICQoLCAkKCyA7/RP95wH9aCI2/R8C/AQ3A9ABIAIgNv0fAfwENwPIASACIDb9HwD8BDcDwAEgAkHgAmogAkHQAGogAkHAAWoQhwICQCACKAKAAyIEBEAgAkG4AmogFUEIav0AAwD9CwMAIAIgFSkDADcDsAIgBCgCACIDIAQoAgQiBSACKALgAiIJcSIGaikAAEKAgYKEiJCgwIB/gyIZUARAQQghBwNAIAYgB2ohBiAHQQhqIQcgAyAFIAZxIgZqKQAAQoCBgoSIkKDAgH+DIhlQDQALCyADIBl6p0EDdiAGaiAFcSIGaiwAACIHQQBOBEAgAyADKQMAQoCBgoSIkKDAgH+DeqdBA3YiBmotAAAhBwsgAyAGaiAJQRl2Igk6AAAgBCAEKAIIIAdBAXFrNgIIIAMgBkEIayAFcWpBCGogCToAACADIAZBBnRrIgNBQGoiBUEQaiACQcACaikDADcDACAFIAL9AAOwAv0LAwAgA0EEa0EANgIAIANBKGtBADYCACAEIAQoAgxBAWo2AgwMAQsgAigC4AIhAwsgA0EkayEHAn8gA0EEayIFKAIAIgRBCUkEQCAEIQZBCCEEIAcMAQsgBygCACEGIAchBSADQSBrKAIACyEIIAQgBkYEQCADQShrEM0GIANBIGsoAgAhCCAHKAIAIQYgByEFCyAIIAZBAnRqIBA2AgAgBSAFKAIAQQFqNgIAIAJBxABqIDyMIBAQ8QQMAQsgAigCsAEiAyACKAKoAUYEQCACQagBakGM6MEAEPkFCyACKAKsASADQQN0aiIEIBA2AgQgBCA8jDgCACACIANBAWo2ArABDAALAAsACwwECyAAKAIIIgsEQEEMIQZBACEFA0ACQAJ/AkACQAJ/AkACQCAAKAIIIgMgBUsEQCAAKAIEIAZqIggvAQAiBEH//wFxIgxFDQEgBEH/B3EhAyAEQYCAAnEhByAEQYD4AXEiCUGA+AFHIg1FBEAgB0EQdCIKQYCAgPwHciADRQ0EGiAKIANBDXRyQYCAgP4HcgwECyAHQRB0IQogCUUNAiAJQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogCnIMAwsgBSADQey7xwAQjAcACyAEQRB0vkMAAIA/Xg0CDAULIAMgA2dBEGsiDkH//wNxQQhqdEH///8DcSAKQYCAgNgDciAOQRd0a3ILvkMAAIA/XkUNAyAMDQELIARBEHQMAQsgDUUEQCAHQRB0IgRBgICA/AdyIANFDQEaIAQgA0ENdHJBgICA/gdyDAELIAdBEHQiBCAJQQ10QYCAgPwAcSADQQ10ckGAgIDAA2pyIAkNABogAyADZ0EQayIDQf//A3FBCGp0Qf///wNxIARBgICA2ANyIANBF3RrcgtDAACAPyE8viIBQwAAgD9eBEAgARDGBUNU+C1AlEMAAIA/kpFDAACAv5JDAACAPpRDAACAP5IhPAtDAAAAQEMAAIA/IDwgPEMAAIA/XRsiASABQwAAAEBeG7wiB0H///8DcSEJIAdBgICAgHhxIQQCQCAHQYCAgPwHcSIDQYCAgPwHRgRAIAlBDXYgBEEQdnJBgARBACAJG3JBgPgBciEEDAELIARBEHYhBCADQYCAgLgETQRAIANBgICAxANPBEAgB0EMdiAHQf/fAHFBAEdxIANBDXYgCUENdmpBgIABaiAEcmohBAwCCyADQYCAgJgDSQ0BIAlBgICABHIiB0H+ACADQRd2IglrdiEDIAdBHSAJayIJdkEBcQR/IANBAyAJdEEBayAHcUEAR2oFIAMLIARyIQQMAQsgBEGA+AFyIQQLIAggBDsBAAsgBkEYaiEGIAsgBUEBaiIFRw0ACwsgAkEANgKoAiACQoCAgIDAADcCoAIgAkGgAmpBqMHBABCLBiACKAKkAkEANgIAQQEhBSACQQE2AqgCIAJCgICAgMAANwLAASACQgA3AsgBQQQQcSIDRQ0AIANBADYCACACQcABakG4wcEAEKQGIAIoAsQBIAIoAswBIgYgAigCyAFqIgQgAigCwAEiB0EAIAQgB08ba0EMbGoiBEEBNgIIIAQgAzYCBCAEQQE2AgAgAiAGQQFqNgLMASACKALMASIDRQ0CIAJB8AFqrUKAgICAEIQhISACQeABaq0iGUKAgICAEIQhJCACQdAAaq1CgICAgJAChCEfIAJBtAFqrUKAgICA0AGEISUgAkGwAmqtQoCAgICgAoQhJiACQagBaq1CgICAgLAChCEnIBlCgICAgNABhCEbIAJBnANqIRUgAkHoAmohDSACQeQCaiEKIAJBuAJqIQ4gAkHUAGohEyACQYQDaiEQAkADQCACIANBAWs2AswBIAIgAigCyAEiA0EBaiIEIAIoAsABIgVBACAEIAVPG2s2AsgBIAIoAsQBIANBDGxqIgMoAgAiC0GAgICAeEYNAyADKQIEIRkgAkEANgKYASACQoCAgIDAADcCkAEgGachBSAZQh6Ip0H8////B3EiAwRAIAMgBWohEUEAIQlBBCEGIAUhDANAIAkhA0MAAIA/ITwCfwJAIAwoAgAiByAAKAIIIgRJBEAgACgCBCAHQRhsaiIELQATIgkgBC0AEiIIIAQtABEiDyAIIA9LGyIIIAggCUkbIgkEfUMAAEDBIAAqAkQgAC0AWEECRiIIGyIBQwAAEEEgACoCSCAIGyABk0MAAH5DlSAJQQFrQf8BcbOUkhCJBCIBIAGSBUMAAAAACyEBIARBDGovAQAiCUH//wFxRQRAIAlBEHQMAwsgCUH/B3EhBCAJQYCAAnEhCCAJQYD4AXEiCUGA+AFGBEAgCEEQdCIJQYCAgPwHciAERQ0DGiAJIARBDXRyQYCAgP4HcgwDCyAIQRB0IQggCUUNASAJQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogCHIMAgsgByAEQdy7xwAQjAcACyAEIARnQRBrIgRB//8DcUEIanRB////A3EgCEGAgIDYA3IgBEEXdGtyC74iO0MAAIA/XgRAIDsQxgVDVPgtQJRDAACAP5KRITwLIAIoApABIANGBEAgAkGQAWpByJXBABD5BSACKAKUASEGCyAGIANBA3RqIgQgBzYCBCAEIAEgPJQiATgCACACIANBAWoiCTYCmAECQCADRQRAQQAhBAwBCyABIAFcBEADQAJAIAYgA0EBayIPQQF2IgRBA3RqIggqAgAiPCA8WyABIDxfRXENACAHIAhBBGooAgBLDQAgAyEEDAMLIAYgA0EDdGogCCkCADcCACAEIQMgD0ECTw0ADAILAAsDQCAGIANBAWsiD0EBdiIEQQN0aiIIKgIAIjwgPFsgASA8X0VxQX8gASA8YBsiEkEATCAHIAhBBGooAgBNIBIbBEAgAyEEDAILIAYgA0EDdGogCCkCADcCACAEIQMgD0EBSw0ACwsgBiAEQQN0aiIDIAc2AgQgAyABOAIAIAxBBGoiDCARRw0ACwsgCwRAIAVBBGsoAgAiA0F4cSIEIAtBAnQiBkEEQQggA0EDcSIDG2pJDQYgA0EAIAQgBkEnaksbDQcgBRCiAgsCQAJAAkAgAigCmAEiDEUNACACKAKoAkH/vwRqQYCA/P8DcSERA0AgAiAMQQFrIgQ2ApgBIAIoApQBIgcgBEEDdGoiAygCBCEFIAMqAgAhAQJAIARFBEAgASE8IAUhCQwBCyAHKAIEIQkgByAFNgIEIAcqAgAhPCAHIAE4AgBBACEDQQEhBiAMQQRPBEAgBEECayIDQQAgAyAETRshC0EAIQQDQCAHIARBA3RqIAcgBiAHIAZBA3RqIgNBCGoqAgAiOyA7WyA7IAMqAgAiRWBFcSIEIARBfyA7IEVfGyBFIEVcGyIEQQBMIANBBGooAgAgA0EMaigCAE0gBBtqIgNBA3RqKQIANwIAIANBAXQiCEEBciEGIAMhBCAIIAtJDQALCwJAAkAgDEECayAGRgRAIAcgA0EDdGogByAGQQN0aiIDKQIANwIAIAMgBTYCBCADIAE4AgAgBiEDDAELIAcgA0EDdGoiBCAFNgIEIAQgATgCACADDQBBACEEDAELIAEgAVwEQANAAkAgByADQQFrIgtBAXYiBEEDdGoiBioCACI7IDtbIAEgO19FcQ0AIAUgBkEEaigCAEsNACADIQQMAwsgByADQQN0aiAGKQIANwIAIAQhAyALQQJPDQAMAgsACwNAIAcgA0EBayILQQF2IgRBA3RqIgYqAgAiOyA7WyABIDtfRXFBfyABIDtgGyIIQQBMIAUgBkEEaigCAE0gCBsEQCADIQQMAgsgByADQQN0aiAGKQIANwIAIAQhAyALQQFLDQALCyAHIARBA3RqIgMgBTYCBCADIAE4AgALIAJBsAJqIAAoAhAgACgCFCAJEOcCIAIoAqgCIQMCQAJAIAIoAtQCIgRBCUkiBUUEQCACKAK0AiADaiIIIBFLDQEMAgsgAyAEaiIIIBFNDQELIAJBkAFqIDwgCRDxBCACIBs3A/ABIAIgA7NDAACAN5Q4AuABIAJCATcC7AIgAkEBNgLkAiACQfjBwQA2AuACIAIgAkHwAWo2AugCIAJB0ABqIAJB4AJqEOwDIAIoAlAiAwRAIAIoAlQiBkEEaygCACIHQXhxIglBBEEIIAdBA3EiBxsgA2pJDQsgB0EAIAkgA0EnaksbDQwgBhCiAgsgBUUEQCACKAK4AiIDQQRrKAIAIgVBeHEiBiAEQQJ0IgRBBEEIIAVBA3EiBRtqSQ0LIAVBACAGIARBJ2pLGw0MIAMQogILIAIoApgBIgNFDQJDAAAQQSAAKgJIIAAtAFhBAkYiBBtDAABAwSAAKgJEIAQbIjyTQwAAfkOVIUUgAigClAEiBCADQQN0IgZqIQwgACgCBCERIAAoAgghB/0MAACA/wAAgP8AAID/AACA/yE3/QwAAIB/AACAfwAAgH8AAIB/IThBACEFAkACQAJAAkACQANAIAQgBWpBBGooAgAiAyAHTw0BIBEgA0EYbGoiA0ERai8AACADQRNqLQAAIglBEHRyIgtBCHYhCEMAAAAAITtDAAAAACE/IAtB/wFxBEAgPCBFIAtBAWtB/wFxs5SSEIkEIT8LIAhB/wFxBEAgPCBFIAhBAWtB/wFxs5SSEIkEITsLIAkEfSA8IEUgCUEBa0H/AXGzlJIQiQQFQwAAAAALIT1DAACAPyADQRRqLwEAIglBCHaz/RMgCSADQRZqLQAAIgtBEHRyQf8BcbP9IAH9DAAAf0MAAH9DAAB/QwAAf0P95wEiNiA2/eQB/QwAAIC/AACAvwAAgL8AAIC//eQBIjb9HwEiPouTIDb9HwAiQIuTIkKMQwAAAAAQ4AghASALs0MAAH9DlUMAAAA/lEPbD0lAlCJJEJkCIUggSRCbAiFJIDcgA/0AAgAgNv0NAAECAwQFBgcICQoLCAkKCyI5ID39EyA//SAAIDv9IAH9DG8SgzpvEoM6bxKDOm8Sgzr96wH9DAAAwD8AAMA/AADAPwAAwD/95gEiNyA2/Q0ICQoLCAkKCwgJCgsAAQIDQwAAgD8gSCA+IAEgAYwiPyA2/QwAAAAAAAAAAAAAAAAAAAAA/Ub9TSI2/ccB/RsCQQFxG5IiOyBCIEKUIDsgO5QgQCABID8gNv0bAEEBcRuSIjsgO5SSkpEiP5WUIgEgASABkiI+lCJAIEggOyA/lZQiOyA7IDuSIj2UIkGSk/0TIAEgSCBCID+VlCJIIEiSIkKUIj8gSSA9lCJDkv0gACA7IEKUIjsgSSA+lCI+k/0gAf3gAf3mASA3IDb9DQQFBgcEBQYHBAUGBwABAgMgOyA+kv0TIAEgPZQiASBJIEKUIjuT/SAAQwAAgD8gQCBIIEKUIkKSk/0gAf3gAf3mASA3IDb9DQABAgMAAQIDAAECAwABAgMgPyBDk/0TQwAAgD8gQSBCkpP9IAAgASA7kv0gAf3gAf3mAf3kAf3kASI2/eQB/esBITcgOCA5IDb95QH96gEhOCAGIAVBCGoiBUcNAAsgNyA4/eUBIjYgNiA2/Q0ICQoLCAkKCwABAgMAAQID/esBIjkgOSA2/Q0EBQYHAAECAwABAgMAAQID/esB/R8AIDYgNiA2/Q0ICQoLCAkKCwQFBgcEBQYH/eoBIjkgOSA2/Q0EBQYHAAECAwABAgMAAQID/eoB/R8AQwAAQECUYEUEQCACQgQ3AugDIAJCADcC4AMgAkKAgICAwAA3AtgDIAJCBDcC0AMgAkIANwLIAyACQoCAgIDAADcCwAMgAkIENwK4AyACQgA3ArADIAJCgICAgMAANwKoAyACQgQ3AqADIAJCADcCmAMgAkKAgICAwAA3ApADIDggN/3kAf0MAAAAPwAAAD8AAAA/AAAAP/3mASI2/R8AIQEgNv0fAiE8IDb9HwEhO0EAIQMgAigCkAEhBwNAIAMgBGpBBGooAgAiBSAAKAIIIglPDQMgAkGQA2ogFSAAKAIEIAVBGGxqIgkqAgAgAV0bQQBBGCAJKgIEIDtdG2oiC0EIQTggCSoCCCA8XSIJG2oiDCgCACIIIAtBAEEwIAkbaiIRKAIARgRAIBFBsMLBABCLBgsgC0EEQTQgCRtqKAIAIAwgCEEBajYCACAIQQJ0aiAFNgIAIAYgA0EIaiIDRw0ACyAHBEAgBEEEaygCACIDQXhxIgUgB0EDdCIGQQRBCCADQQNxIgMbakkNESADQQAgBSAGQSdqSxsNEiAEEKICC0EgEHEiA0UNDSADIAIoApgDNgIAIAMgAigCpAM2AgQgAyACKAKwAzYCCCADIAIoArwDNgIMIAMgAigCyAM2AhAgAyACKALUAzYCFCADIAIoAuADNgIYIAMgAigC7AM2AhwgAkEINgJYIAIgAzYCVCACQQg2AlAgAiAfNwOwAiACQgE3AuwCIAJBAjYC5AIgAkGQwsEANgLgAiACIAJBsAJqNgLoAiACQeACahDrAiACKAJQIgMEQCACKAJUIgRBBGsoAgAiBUF4cSIGIANBAnQiA0EEQQggBUEDcSIFG2pJDREgBUEAIAYgA0EnaksbDQQgBBCiAgtB4AAQcSIDRQ0NIAMgAkGQA2pB4AD8CgAAIAMoAgAhBCADQYCAgIB4NgIAIARBgICAgHhGDQQgA0EEaiISKQIAIRkgAygCDCEHIANBgICAgHg2AgwgB0GAgICAeEYNBCADKQIQIRogAygCJCEJIANBgICAgHg2AiQgCUGAgICAeEYNBCADKQIoIRwgAygCGCELIANBgICAgHg2AhggC0GAgICAeEYNBCADKQIcIR4gAygCSCEIIANBgICAgHg2AkggCEGAgICAeEYNBCADKQJMIR0gAygCVCEMIANBgICAgHg2AlQgDEGAgICAeEYNBCADKQJYISAgAygCPCERIANBgICAgHg2AjwgEUGAgICAeEYNBCADKQJAISIgAygCMCEPIANBgICAgHg2AjAgD0GAgICAeEYNBCADKQI0ISMgAigCzAEiBSACKALAASIGRgRAIAJBwAFqQaDCwQAQpAYgAigCwAEhBiACKALMASEFCyACKALEASACKALIASAFaiIUIAZBACAGIBRNG2tBDGxqIgYgGTcCBCAGIAQ2AgAgAiAFQQFqIgU2AswBIAIoAsABIgYgBUYEQCACQcABakGgwsEAEKQGIAIoAsABIQYgAigCzAEhBQsgAigCxAEgAigCyAEgBWoiBCAGQQAgBCAGTxtrQQxsaiIEIBo3AgQgBCAHNgIAIAIgBUEBaiIFNgLMASACKALAASIGIAVGBEAgAkHAAWpBoMLBABCkBiACKALAASEGIAIoAswBIQULIAIoAsQBIAIoAsgBIAVqIgQgBkEAIAQgBk8ba0EMbGoiBCAcNwIEIAQgCTYCACACIAVBAWoiBTYCzAEgAigCwAEiBiAFRgRAIAJBwAFqQaDCwQAQpAYgAigCwAEhBiACKALMASEFCyACKALEASACKALIASAFaiIEIAZBACAEIAZPG2tBDGxqIgQgHjcCBCAEIAs2AgAgAiAFQQFqIgU2AswBIAIoAsABIgYgBUYEQCACQcABakGgwsEAEKQGIAIoAsABIQYgAigCzAEhBQsgAigCxAEgAigCyAEgBWoiBCAGQQAgBCAGTxtrQQxsaiIEIB03AgQgBCAINgIAIAIgBUEBaiIFNgLMASACKALAASIGIAVGBEAgAkHAAWpBoMLBABCkBiACKALAASEGIAIoAswBIQULIAIoAsQBIAIoAsgBIAVqIgQgBkEAIAQgBk8ba0EMbGoiBCAgNwIEIAQgDDYCACACIAVBAWoiBTYCzAEgAigCwAEiBiAFRgRAIAJBwAFqQaDCwQAQpAYgAigCwAEhBiACKALMASEFCyACKALEASACKALIASAFaiIEIAZBACAEIAZPG2tBDGxqIgQgIjcCBCAEIBE2AgAgAiAFQQFqIgU2AswBIAIoAsABIgYgBUYEQCACQcABakGgwsEAEKQGIAIoAsABIQYgAigCzAEhBQsgAigCxAEgAigCyAEgBWoiBCAGQQAgBCAGTxtrQQxsaiIEICM3AgQgBCAPNgIAIAIgBUEBajYCzAEgAygCACIEQYCAgIB4ckGAgICAeEcEQCASKAIAIgVBBGsoAgAiBkF4cSIHIARBAnQiBEEEQQggBkEDcSIGG2pJDREgBkEAIAcgBEEnaksbDRIgBRCiAgsgAygCDCIEQYCAgIB4ckGAgICAeEcEQCADKAIQIgVBBGsoAgAiBkF4cSIHIARBAnQiBEEEQQggBkEDcSIGG2pJDREgBkEAIAcgBEEnaksbDRIgBRCiAgsgAygCGCIEQYCAgIB4ckGAgICAeEcEQCADKAIcIgVBBGsoAgAiBkF4cSIHIARBAnQiBEEEQQggBkEDcSIGG2pJDREgBkEAIAcgBEEnaksbDRIgBRCiAgsgAygCJCIEQYCAgIB4ckGAgICAeEcEQCADKAIoIgVBBGsoAgAiBkF4cSIHIARBAnQiBEEEQQggBkEDcSIGG2pJDREgBkEAIAcgBEEnaksbDRIgBRCiAgsgAygCMCIEQYCAgIB4ckGAgICAeEcEQCADKAI0IgVBBGsoAgAiBkF4cSIHIARBAnQiBEEEQQggBkEDcSIGG2pJDREgBkEAIAcgBEEnaksbDRIgBRCiAgsgAygCPCIEQYCAgIB4ckGAgICAeEcEQCADKAJAIgVBBGsoAgAiBkF4cSIHIARBAnQiBEEEQQggBkEDcSIGG2pJDREgBkEAIAcgBEEnaksbDRIgBRCiAgsgAygCSCIEQYCAgIB4ckGAgICAeEcEQCADKAJMIgVBBGsoAgAiBkF4cSIHIARBAnQiBEEEQQggBkEDcSIGG2pJDREgBkEAIAcgBEEnaksbDRIgBRCiAgsgAygCVCIEQYCAgIB4ckGAgICAeEcEQCADKAJYIgVBBGsoAgAiBkF4cSIHIARBAnQiBEEEQQggBkEDcSIGG2pJDREgBkEAIAcgBEEnaksbDRIgBRCiAgsgA0EEaygCACIEQXhxQeQAQegAIARBA3EiBRtJDRAgBUEAIARBiAFPGw0FIAMQogIMCQsgAiA4IDf95AH9DAAAAD8AAAA/AAAAPwAAAD/95gH9CwQAIAJBAEEBQQIgNv0fASIBIDb9HwIiPGAbIgMgPCA2/R8AIjtfGyADIAEgO18bIgM6AKgBIAIgAiADQQJ0cioCADgCtAEgAiAMNgJcIAIgAigCkAE2AlggAiAENgJUIAIgBDYCUCACIAA2ArQCIAIgAkG0AWo2ArgCIAIgAkGoAWo2ArACIAJB4AJqIgUgAkHQAGoiBiACQbACahCXBCACKQPgAiEcIAIpAuwCIRkgAigC9AIhAyACKALoAiEEIAIgNv0LBLACIAIgBDYC4AEgAiADNgLwASACQQY2AlQgAkHswsEANgJQIAJCBTcCXCACICE3A4ADIAIgJDcD+AIgAiAlNwPwAiACICY3A+gCIAIgJzcD4AIgAiAFNgJYIAYQ6wICQCADIARNBEAgGSEaIAMhBiAcIRkgBCEDDAELIBwhGiAEIQYLIAIgAzYC8AIgAkECNgLkAiACIAY2AvwCIAIgGTcC6AIgAiAaNwL0AkEBIQMCQCAZpyIEQYCAgIB4Rg0AIAIpAuwCIRkgAigCzAEiAyACKALAASIFRgRAIAJBwAFqQZzDwQAQpAYgAigCwAEhBSACKALMASEDCyACKALEASACKALIASADaiIGIAVBACAFIAZNG2tBDGxqIgUgGTcCBCAFIAQ2AgAgAiADQQFqNgLMAUECIQMgGqciBEGAgICAeEYNACACKQL4AiEZIAIoAswBIgUgAigCwAEiBkYEQCACQcABakGcw8EAEKQGIAIoAsABIQYgAigCzAEhBQsgAigCxAEgAigCyAEgBWoiByAGQQAgBiAHTRtrQQxsaiIGIBk3AgQgBiAENgIAIAIgBUEBajYCzAELIAIgAzYC4AIgAkHgAmoQlgYMCAsgAyAHQdy7xwAQjAcACyAFIAlB3LvHABCMBwALQYyNyABBLkG8jcgAEOsHDAkLQbzDwQAQ3QkACwwLC0EAIQYgAkEANgLgAiACQQA2AoQDQQghBwJAAkACfyAIIANrIgRBACAEIAhNGyIEQQlJBEAgCiELIBAMAQsgAkEYaiACQeACakF/IARBAWtndkEBahDoAyACKAIYIgRBgYCAgHhHBEAgBA0KQdiVxwBBEUHUzMcAEOsHAAsgAigChAMiB0EJSQRAIAchBiAKIQtBCCEHIBAMAQsgAigC5AIhBiACKALoAiELIAoLIg8gBiAHSQR/IAcgBkF/c2oiBCAIIAMgAyAISRsiEiADayIFIAQgBUkbQQFqIgRBBEsEQCALIAZBAnRqIQUgA/0R/QwAAAAAAQAAAAIAAAADAAAA/a4BITYgBCAEQQNxIgRBBCAEG2siDCEEA0AgBSA2/QsCACAFQRBqIQUgNv0MBAAAAAQAAAAEAAAABAAAAP2uASE2IARBBGsiBA0ACyAGIAxqIQYgAyAMaiEDCyALIAZBAnRqIQUDQCADIBJGDQIgBSADNgIAIAVBBGohBSADQQFqIQMgByAGQQFqIgZHDQALIAcFIAYLNgIAIAMgCE8NAQNAAn8gAigChAMiBEEJTwRAIAIoAuQCIQUgAigC6AIhByAKDAELIAQhBSAKIQdBCCEEIBALIQYgBCAFRgR/IAJB4AJqEM0GIAIoAugCIQcgCiEGIAIoAuQCBSAFC0ECdCAHaiADNgIAIAYgBigCAEEBajYCACADQQFqIgMgCEcNAAsMAQsgDyAGNgIACyACQfAAaiACQYADaikCADcDACACQeAAaiACQfACav0AAgD9CwMAIAIgAv0AAuAC/QsDUCACKAJ0IgshBSAAKAIQIAAoAhQgCSALQQlJIhIEfyATBSACKAJUIQUgAigCWAsgBRDUAiACKAK0AiEEIAIoArACIQMgDUEYaiAOQRhqKAIANgIAIA1BEGogDkEQaikCADcCACANIA79AAIA/QsCACACIAM2AuACIAIgBCACKALUAiIHIAdBCEsiAxsiCDYCjAMgAiAHQQAgAxs2AoQDIAJBACAEIAMbNgLkAiAIBEAgAigC6AIgCiADGyEUQQAhCSACKAKoAiEMA0AgAiAJIgNBAWoiCTYCiAMgFCADQQJ0aigCACEFIAIoAqACIAxGBEAgAkGgAmpByMHBABCLBgsgAigCpAIgDEECdGogBTYCACACIAxBAWoiDDYCqAJDAACAPyE8An8CQCAAKAIIIgMgBUsEQCAAKAIEIAVBGGxqIgMtABMiBCADLQASIgYgAy0AESIPIAYgD0sbIgYgBCAGSxsiBAR9QwAAQMEgACoCRCAALQBYQQJGIgYbIgFDAAAQQSAAKgJIIAYbIAGTQwAAfkOVIARBAWtB/wFxs5SSEIkEIgEgAZIFQwAAAAALIQEgA0EMai8BACIEQf//AXFFBEAgBEEQdAwDCyAEQf8HcSEDIARBgIACcSEGIARBgPgBcSIEQYD4AUYEQCAGQRB0IgRBgICA/AdyIANFDQMaIAQgA0ENdHJBgICA/gdyDAMLIAZBEHQhBiAERQ0BIARBDXRBgICA/ABxIANBDXRyQYCAgMADaiAGcgwCCyAFIANB3LvHABCMBwALIAMgA2dBEGsiA0H//wNxQQhqdEH///8DcSAGQYCAgNgDciADQRd0a3ILviI7QwAAgD9eBEAgOxDGBUNU+C1AlEMAAIA/kpEhPAsgAigCmAEiAyACKAKQAUYEQCACQZABakHIlcEAEPkFCyACKAKUASIGIANBA3RqIgQgBTYCBCAEIAEgPJQiATgCACACIANBAWo2ApgBAkAgA0UEQEEAIQQMAQsgASABXARAA0ACQCAGIANBAWsiFkEBdiIEQQN0aiIPKgIAIjwgPFsgASA8X0VxDQAgBSAPQQRqKAIASw0AIAMhBAwDCyAGIANBA3RqIA8pAgA3AgAgBCEDIBZBAk8NAAwCCwALA0AgBiADQQFrIhZBAXYiBEEDdGoiDyoCACI8IDxbIAEgPF9FcUF/IAEgPGAbIhdBAEwgBSAPQQRqKAIATSAXGwRAIAMhBAwCCyAGIANBA3RqIA8pAgA3AgAgBCEDIBZBAUsNAAsLIAYgBEEDdGoiAyAFNgIEIAMgATgCACAIIAlHDQALCyAHQQlPBEAgAigC6AIiA0EEaygCACIEQXhxIgUgB0ECdCIGQQRBCCAEQQNxIgQbakkNBCAEQQAgBSAGQSdqSxsNCyADEKICCyASRQRAIAIoAlgiA0EEaygCACIEQXhxIgUgC0ECdCIGQQRBCCAEQQNxIgQbakkNCiAEQQAgBSAGQSdqSxsNCyADEKICCyACKAKYASIMDQALCyACKAKQASIDRQ0AIAIoApQBIgRBBGsoAgAiBUF4cSIGIANBA3QiA0EEQQggBUEDcSIFG2pJDQcgBUEAIAYgA0EnaksbDQMgBBCiAgsgAigCzAEiAw0BDAQLCwwECwwECwALIAIoAqgCIQULIAIgACgCCCIDNgJQIAIgBTYCsAIgAyAFRwRAIAJBADYC4AJBACACQbACaiACQdAAaiACQeACakGsw8EAEPUHAAsgACACKAKkAiIAIAUQiQIgAkHAAWoQ6wMCQCACKAKgAiIDBEAgAEEEaygCACIEQXhxIgUgA0ECdCIDQQRBCCAEQQNxIgQbakkNAiAEQQAgBSADQSdqSxsNASAAEKICCyACQfADaiQADwsMAQtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALyM0BBBR/HX4Nexd9IwBB8ANrIgIkACAAEJ4BIAIgACgCCCIENgIsIAIgAkEsaq1CgICAgBCEIio3A7ACIAJCATcC7AIgAkEBNgLkAiACQczmwQA2AuACIAIgAkGwAmo2AugCIAJB0ABqIAJB4AJqEOwDAkACQAJAAkACQAJAAn8gAigCUCIDBEAgAigCVCIEQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyADakkNBiAFQQAgBiADQSdqSxsNByAEEKICIAAoAgghBAsgAigCLEUNAQJAIARFBEAgAEEEQQAQ8AEMAQsgBEECdCIIEHEiB0UNA0EAIQMCQAJAAkAgBEEETwRA/QwAAAAAAQAAAAIAAAADAAAAITMgByEFIARB/P//H3EiAyEGA0AgBSAz/QsCACAFQRBqIQUgM/0MBAAAAAQAAAAEAAAABAAAAP2uASEzIAZBBGsiBg0ACyADIARGDQELIAcgA0ECdGohBQNAIAUgAzYCACAFQQRqIQUgBCADQQFqIgNHDQALIAIgADYC5AIgAiACQbACajYC4AIgAiACQeACajYCUCAEQQFGDQIMAQsgAiAANgLkAiACIAJBsAJqNgLgAiACIAJB4AJqNgJQCyAEQRVPBEAgAkHQAGohBiMAQYAgayILJAACQAJAAkACQAJAQYCJ+gAgBCAEQYCJ+gBPGyIFIAQgBEEBdmsiAyADIAVJGyIFQYEITwRAIANB/////wNLDQJBMCAFIAVBME0bIglBAnQiA0H9////B08NAiADEHEiBUUNAyAHIAQgBSAJIARBwQBJIAYQVCAFQQRrKAIAIgZBeHEiCUEEQQggBkEDcSIGGyADakkNBCAGQQAgCSADQSdqSxsNBSAFEKICDAELIAcgBCALQYAIIARBwQBJIAYQVAsgC0GAIGokAAwFC0HYlcEAEP8HCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0EEIQMDQCAHIAMgB2ogAkHgAmoQ+gEgCCADQQRqIgNHDQALCyAAIAcgBBDwASAHQQRrKAIAIgRBeHEiA0EEQQggBEEDcSIEGyAIakkNBiAEQQAgAyAIQSdqSxsNByAHEKICCyAAEJoEAkAgACgCCCIEBEAgBEEBdEEBayIGEHEiBUUNBEEAIQMgAkEANgI4IAIgBTYCNCACIAY2AjACQAJAIAAoAggiBARAIAQgBksEQCACQTBqQQAgBEEBQQEQpAUgAigCNCEFIAIoAjghAwsgAyAFaiEGIARBAUcEfyAEQQFrIgQEQCAGQQEgBPwLAAsgBSADIARqIgNqBSAGC0EBOgAAIAIgA0EBajYCOCAAKAIIRQ0BIAAoAgQiBRCKBCFAIAUvARQiBEH//wFxIggNAiAEQRB0DAULIAJBADYCOAtBAEEAQdTAxwAQjAcACyAEQf8HcSEDIARBgIACcSEGIARBgPgBcSIHQYD4AUYEQCAGQRB0IgZBgICA/AdyIANFDQMaIAYgA0ENdHJBgICA/gdyDAMLIAZBEHQhBiAHRQ0BIAdBDXRBgICA/ABxIANBDXRyQYCAgMADaiAGcgwCC0HU5sEAEP8HAAsgBkGAgIDYA3IgA2dBEGsiBkEXdGsgAyAGQf//A3FBCGp0Qf///wNxcgshAyACQf//ASBAIECSIAO+IkBDAACAP14EfSBAEMYFQ1T4LUCUQwAAgD+SkQVDAACAPwuUQ703hjUQ4AgQxgVDGHIxP5WNIkD8AEGAgH4gQEMAAADHYBsgQEMA/v9GXhtBACBAIEBbGzsBPCACIAUQigQiQCBAkgJ/IARBEHQgCEUNABogBEH/B3EhAyAEQYCAAnEhBSAEQYD4AXEiBEGA+AFGBEAgBUEQdCIEQYCAgPwHciADRQ0BGiAEIANBDXRyQYCAgP4HcgwBCyAFQRB0IgUgBEENdEGAgID8AHEgA0ENdHJBgICAwANqciAEDQAaIAVBgICA2ANyIANnQRBrIgRBF3RrIAMgBEH//wNxQQhqdEH///8DcXILviJAQwAAgD9eBH0gQBDGBUNU+C1AlEMAAIA/kpEFQwAAgD8LlDgCwAEgAiACQcABaq1CgICAgNABhDcDWCACIAJBPGqtQoCAgIDgAYQ3A1AgAkICNwLsAiACQQI2AuQCIAJBuOPBADYC4AIgAiACQdAAajYC6AIgAkGwAmogAkHgAmoQ7AMCQCACKAKwAiIEBEAgAigCtAIiA0EEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgBGpJDQEgBUEAIAYgBEEnaksbDQcgAxCiAgsgAiACLwE8OwE+IAJBADYCQCACQQA2AkwgAkKAgICAwAA3AkRB2LbJACgCACIDRQRAEJMFIQMLIAMoAgAgAygCBCgCDBEEACEEIAJB8JrIAP0AAwD9CwNQIAIgBK1Cxs7rhrfq7a0ShSIXQjiGIBdCgP4Dg0IohoQgF0KAgPwHg0IYhiAXQoCAgPgPg0IIhoSEQpK23Z0FhELSgaqbq/qC16d/fiIWQoDoAoNCKIYgFkKAgJQDg0IYhiAWQoCAgKgKg0IIhoSEIBZCCIhCgICA+A+DIBZCGIhCgID8B4OEIBZCKIhCgP4DgyAWQjiIhISEQoCAgICAgICARIQgF0LYotHvwqnlvy1+hSIZQu3cspuNpYnMywCFIhZC2KLR78Kp5b8tfiAWQjiGIBZCgP4Dg0IohoQgFkKAgPwHg0IYhiAWQoCAgPgPg0IIhoSEIBZCCIhCgICA+A+DIBZCGIhCgID8B4OEIBZCKIhCgP4DgyAWQjiIhISEQtKBqpur+oLXp39+IhZCOIYgFkKA/gODQiiGhCAWQoCA/AeDQhiGIBZCgICA+A+DQgiGhIQgFkIIiEKAgID4D4MgFkIYiEKAgPwHg4QgFkIoiEKA/gODIBZCOIiEhISFQov9+pfHxteXhn+FIhZCOIYgFkKA/gODQiiGhCAWQoCA/AeDQhiGIBZCgICA+A+DQgiGhIQgFkIIiEKAgID4D4MgFkIYiEKAgPwHg4QgFkIoiEKA/gODIBZCOIiEhIRC0oGqm6v6gtenf34iF0I4hiAXQoD+A4NCKIaEIBdCgID8B4NCGIYgF0KAgID4D4NCCIaEhCAXQgiIQoCAgPgPgyAXQhiIQoCA/AeDhCAXQiiIQoD+A4MgF0I4iISEhCAWQtii0e/CqeW/LX6FIhZCOIYgFkKA/gODQiiGhCAWQoCA/AeDQhiGIBZCgICA+A+DQgiGhIQgFkIIiEKAgID4D4MgFkIYiEKAgPwHg4QgFkIoiEKA/gODIBZCOIiEhIRCiKyRp/aIgJywf34iF0I4hiAXQoD+A4NCKIaEIBdCgID8B4NCGIYgF0KAgID4D4NCCIaEhCAXQgiIQoCAgPgPgyAXQhiIQoCA/AeDhCAXQiiIQoD+A4MgF0I4iISEhCAWQs+O/8e788bUd36FIBaJNwN4IAIgGULWgs2hkP2UjkuFIhZC2KLR78Kp5b8tfiAWQjiGIBZCgP4Dg0IohoQgFkKAgPwHg0IYhiAWQoCAgPgPg0IIhoSEIBZCCIhCgICA+A+DIBZCGIhCgID8B4OEIBZCKIhCgP4DgyAWQjiIhISEQtKBqpur+oLXp39+IhZCOIYgFkKA/gODQiiGhCAWQoCA/AeDQhiGIBZCgICA+A+DQgiGhIQgFkIIiEKAgID4D4MgFkIYiEKAgPwHg4QgFkIoiEKA/gODIBZCOIiEhISFQvzDvKfJldXk6ACFIhZCOIYgFkKA/gODQiiGhCAWQoCA/AeDQhiGIBZCgICA+A+DQgiGhIQgFkIIiEKAgID4D4MgFkIYiEKAgPwHg4QgFkIoiEKA/gODIBZCOIiEhIRC0oGqm6v6gtenf34iF0I4hiAXQoD+A4NCKIaEIBdCgID8B4NCGIYgF0KAgID4D4NCCIaEhCAXQgiIQoCAgPgPgyAXQhiIQoCA/AeDhCAXQiiIQoD+A4MgF0I4iISEhCAWQtii0e/CqeW/LX6FIhZCOIYgFkKA/gODQiiGhCAWQoCA/AeDQhiGIBZCgICA+A+DQgiGhIQgFkIIiEKAgID4D4MgFkIYiEKAgPwHg4QgFkIoiEKA/gODIBZCOIiEhIRCiKyRp/aIgJywf34iF0I4hiAXQoD+A4NCKIaEIBdCgID8B4NCGIYgF0KAgID4D4NCCIaEhCAXQgiIQoCAgPgPgyAXQhiIQoCA/AeDhCAXQiiIQoD+A4MgF0I4iISEhCAWQs+O/8e788bUd36FIBaJNwNwIAIgGUL8w7ynyZXV5OgAhSIWQtii0e/CqeW/LX4gFkI4hiAWQoD+A4NCKIaEIBZCgID8B4NCGIYgFkKAgID4D4NCCIaEhCAWQgiIQoCAgPgPgyAWQhiIQoCA/AeDhCAWQiiIQoD+A4MgFkI4iISEhELSgaqbq/qC16d/fiIWQjiGIBZCgP4Dg0IohoQgFkKAgPwHg0IYhiAWQoCAgPgPg0IIhoSEIBZCCIhCgICA+A+DIBZCGIhCgID8B4OEIBZCKIhCgP4DgyAWQjiIhISEhULt3LKbjaWJzMsAhSIWQjiGIBZCgP4Dg0IohoQgFkKAgPwHg0IYhiAWQoCAgPgPg0IIhoSEIBZCCIhCgICA+A+DIBZCGIhCgID8B4OEIBZCKIhCgP4DgyAWQjiIhISEQtKBqpur+oLXp39+IhdCOIYgF0KA/gODQiiGhCAXQoCA/AeDQhiGIBdCgICA+A+DQgiGhIQgF0IIiEKAgID4D4MgF0IYiEKAgPwHg4QgF0IoiEKA/gODIBdCOIiEhIQgFkLYotHvwqnlvy1+hSIWQjiGIBZCgP4Dg0IohoQgFkKAgPwHg0IYhiAWQoCAgPgPg0IIhoSEIBZCCIhCgICA+A+DIBZCGIhCgID8B4OEIBZCKIhCgP4DgyAWQjiIhISEQoiskaf2iICcsH9+IhdCOIYgF0KA/gODQiiGhCAXQoCA/AeDQhiGIBdCgICA+A+DQgiGhIQgF0IIiEKAgID4D4MgF0IYiEKAgPwHg4QgF0IoiEKA/gODIBdCOIiEhIQgFkLPjv/Hu/PG1Hd+hSAWiTcDaCACIBlCi/36l8fG15eGf4UiFkLYotHvwqnlvy1+IBZCOIYgFkKA/gODQiiGhCAWQoCA/AeDQhiGIBZCgICA+A+DQgiGhIQgFkIIiEKAgID4D4MgFkIYiEKAgPwHg4QgFkIoiEKA/gODIBZCOIiEhIRC0oGqm6v6gtenf34iFkI4hiAWQoD+A4NCKIaEIBZCgID8B4NCGIYgFkKAgID4D4NCCIaEhCAWQgiIQoCAgPgPgyAWQhiIQoCA/AeDhCAWQiiIQoD+A4MgFkI4iISEhIVC1oLNoZD9lI5LhSIWQjiGIBZCgP4Dg0IohoQgFkKAgPwHg0IYhiAWQoCAgPgPg0IIhoSEIBZCCIhCgICA+A+DIBZCGIhCgID8B4OEIBZCKIhCgP4DgyAWQjiIhISEQtKBqpur+oLXp39+IhdCOIYgF0KA/gODQiiGhCAXQoCA/AeDQhiGIBdCgICA+A+DQgiGhIQgF0IIiEKAgID4D4MgF0IYiEKAgPwHg4QgF0IoiEKA/gODIBdCOIiEhIQgFkLYotHvwqnlvy1+hSIWQjiGIBZCgP4Dg0IohoQgFkKAgPwHg0IYhiAWQoCAgPgPg0IIhoSEIBZCCIhCgICA+A+DIBZCGIhCgID8B4OEIBZCKIhCgP4DgyAWQjiIhISEQoiskaf2iICcsH9+IhdCOIYgF0KA/gODQiiGhCAXQoCA/AeDQhiGIBdCgICA+A+DQgiGhIQgF0IIiEKAgID4D4MgF0IYiEKAgPwHg4QgF0IoiEKA/gODIBdCOIiEhIQgFkLPjv/Hu/PG1Hd+hSAWiTcDYCACQfABaq0iJkKAgICAEIQhJyACQeABaq1CgICAgBCEISsgAkFAa61CgICAgBCEISwgAkGAAWqtQoCAgIDQAYQhLSACQT5qrUKAgICA4AGEIS4gAkHoAmohEyACKAIsIQogAigCQCEEA0AgAkMAAIA/IAIuAT4QsAYiQjgCgAEgACgCCCELAkAgBCAKTw0AIAQgCmshDCAEQSRsIgggACgCBGohBSAEIAQgCyAEIAtLG2shEEEAIQMCQANAIAMgBGohB0MAAIA/IUACfwJAIAMgEGoEQCAFEIoEIUEgBUEUai8BACIJQf//AXFFBEAgCUEQdAwDCyAJQf8HcSEGIAlBgIACcSENIAlBgPgBcSIJQYD4AUYEQCANQRB0IglBgICA/AdyIAZFDQMaIAkgBkENdHJBgICA/gdyDAMLIA1BEHQhDSAJRQ0BIAlBDXRBgICA/ABxIAZBDXRyQYCAgMADaiANcgwCCyAHIAtB1MDHABCMBwALIA1BgICA2ANyIAZnQRBrIglBF3RrIAYgCUH//wNxQQhqdEH///8DcXILviJDQwAAgD9eBEAgQxDGBUNU+C1AlEMAAIA/kpEhQAsgQSBBkiBAlCBCXg0BIAIgB0EBajYCQCAFQSRqIQUgDCADQQFqIgNqDQALIAohBwsgBCAHTw0AAkAgByAEayIKQf////8BTQRAIApBA3QiA0H9////B0kNAQtB4P/GABD/BwALQQAhBgJAIANFBEBBBCELQQAhCgwBCyADEHEiC0UNBQsgBCAHayEMIAshAwNAQwAAgD8hQAJ/AkAgBCAGaiIJIAAoAggiBUkEQCAAKAIEIAhqIgUQigQhQSAFQRRqLwEAIgdB//8BcUUEQCAHQRB0DAMLIAdB/wdxIQUgB0GAgAJxIQ0gB0GA+AFxIgdBgPgBRgRAIA1BEHQiB0GAgID8B3IgBUUNAxogByAFQQ10ckGAgID+B3IMAwsgDUEQdCENIAdFDQEgB0ENdEGAgID8AHEgBUENdHJBgICAwANqIA1yDAILIAkgBUHUwMcAEIwHAAsgDUGAgIDYA3IgBWdBEGsiB0EXdGsgBSAHQf//A3FBCGp0Qf///wNxcgu+IkJDAACAP14EQCBCEMYFQ1T4LUCUQwAAgD+SkSFACyADQQRqIAk2AgAgAyBBIEGSIECMlDgCACAIQSRqIQggA0EIaiEDIAwgBkEBaiIGag0ACyACIAY2AowBIAIgCzYCiAEgAiAKNgKEASACQcQAaiACQYQBahCUAiAAKAIIIQsLIAIgAigCTCIHNgLgASACIAs2AvABIAIgJzcDiAMgAiArNwOAAyACICo3A/gCIAIgLDcD8AIgAiAtNwPoAiACIC43A+ACIAJCBjcCvAIgAkEGNgK0AiACQfzmwQA2ArACIAIgAkHgAmo2ArgCIAJBoAJqIAJBsAJqEOwDIAIoAqACIgQEQCACKAKkAiIDQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyAEakkNByAFQQAgBiAEQSdqSxsNCCADEKICCyACKAJcIgQEQCACKAJQIgZBCGohAyAGKQMAQn+FQoCBgoSIkKDAgH+DIRcgBiEFA0AgF1AEQANAIAVBgARrIQUgAykDACADQQhqIQNCgIGChIiQoMCAf4MiFkKAgYKEiJCgwIB/UQ0ACyAWQoCBgoSIkKDAgH+FIRcLIAUgF3qnQQN0QcAHcWsiCEEEaygCACILQQlPBEAgCEEgaygCACIIQQRrKAIAIglBeHEiCiALQQJ0IgtBBEEIIAlBA3EiCRtqSQ0JIAlBACAKIAtBJ2pLGw0KIAgQogILIBdCAX0gF4MhFyAEQQFrIgQNAAsgAiACKAJUIgQEfyAEQQlqIgMEQCAGQf8BIAP8CwALIAQgBEEBakEDdkEHbCAEQQhJGwVBAAs2AlggAkEANgJcCwJAIAdFDQAgAigCSCIDIAdBA3RqIQ0gA0EIaiEFAkADQCADKAIEIgsgACgCCCIETw0BIAUhByACIAAoAgQgC0EkbGoiBP1dAgggBCoCECJA/SACIED9IAMgAv0JAoAB/ecB/WgiM/0fAvwENwOgASACIDP9HwH8BDcDmAEgAiAz/R8A/AQ3A5ABIAJB4AJqIAJB0ABqIAJBkAFqEIcCAkAgAigCgAMiBQRAIAJBuAJqIBNBCGr9AAMA/QsDACACIBMpAwA3A7ACIAUoAgAiAyAFKAIEIgYgAigC4AIiCXEiBGopAABCgIGChIiQoMCAf4MiF1AEQEEIIQgDQCAEIAhqIQQgCEEIaiEIIAMgBCAGcSIEaikAAEKAgYKEiJCgwIB/gyIXUA0ACwsgAyAXeqdBA3YgBGogBnEiBGosAAAiCEEATgRAIAMgAykDAEKAgYKEiJCgwIB/g3qnQQN2IgRqLQAAIQgLIAMgBGogCUEZdiIJOgAAIAUgBSgCCCAIQQFxazYCCCADIARBCGsgBnFqQQhqIAk6AAAgAyAEQQZ0ayIDQUBqIgRBEGogAkHAAmopAwA3AwAgBCAC/QADsAL9CwMAIANBBGtBADYCACADQShrQQA2AgAgBSAFKAIMQQFqNgIMDAELIAIoAuACIQMLIANBJGshBgJ/IANBBGsiBSgCACIJQQlJBEAgCSEEQQghCSAGDAELIAYoAgAhBCAGIQUgA0EgaygCAAshCiAEIAlGBH8gA0EoaxDNBiADQSBrKAIAIQogBiIFKAIABSAEC0ECdCAKaiALNgIAIAUgBSgCAEEBajYCACAHQQBBCCAHIA1GIgQbaiEFIAchAyAERQ0ACwwBCyALIARB1MDHABCMBwALIAJBADYCsAEgAkKAgICAwAA3AqgBA0AgAigCNCEUIAIoAjghDQJAAkACQAJAAkADQCACQbQBaiACQcQAahCEAyACKAK0AUEBRw0CIAIoArwBIgogDU8NASAKIBRqIg4tAABFDQALIAAoAggiCCAKSwRAAkAgACgCBCIRIApBJGxqIgP9XQIIIAMqAhAiQP0gAiBA/SADIAL9CQKAAf3nAf1oIjP9HwL8BCIeQgF9IhwgHkIBfCIoVwRAIAIpA2AiFkI4hiAWQoD+A4NCKIaEIBZCgID8B4NCGIYgFkKAgID4D4NCCIaEhCAWQgiIQoCAgPgPgyAWQhiIQoCA/AeDhCAWQiiIQoD+A4MgFkI4iISEhCEvIBZCf4UhMCAz/R8A/AQiH0IBfCEdIB9CAX0hICAz/R8B/AQiJUIBfCEbICVCAX0hGUL///////////8AISFDAACA/yFAQX8hCyACKAJQIRAgAigCVCEJIAIpA2ghMSACKAJcIRVC////////////ACEiQv///////////wAhIwNAAkAgGSAbVQ0AIB0gIFMEQCAZIRcDQCAXIBtZDQIgGyAXIBcgG1OtfCIXWQ0ACwwBCwJAIBUEQCAZISQMAQsgGSEWA0AgICEXA0AgFyAdUyIFBEAgFyAFrXwiFyAdVw0BCwsgFiAbWQ0CIBsgFiAWIBtTrXwiFlkNAAsMAQsDQCAkIhcgFyAbU618ISQgICEWAkACQANAIAkgFiAxhSIYQtii0e/CqeW/LX4gGEI4hiAYQoD+A4NCKIaEIBhCgID8B4NCGIYgGEKAgID4D4NCCIaEhCAYQgiIQoCAgPgPgyAYQhiIQoCA/AeDhCAYQiiIQoD+A4MgGEI4iISEhELSgaqbq/qC16d/fiIYQjiGIBhCgP4Dg0IohoQgGEKAgPwHg0IYhiAYQoCAgPgPg0IIhoSEIBhCCIhCgICA+A+DIBhCGIhCgID8B4OEIBhCKIhCgP4DgyAYQjiIhISEhSAXhSIYQtii0e/CqeW/LX4gGEI4hiAYQoD+A4NCKIaEIBhCgID8B4NCGIYgGEKAgID4D4NCCIaEhCAYQgiIQoCAgPgPgyAYQhiIQoCA/AeDhCAYQiiIQoD+A4MgGEI4iISEhELSgaqbq/qC16d/fiIYQjiGIBhCgP4Dg0IohoQgGEKAgPwHg0IYhiAYQoCAgPgPg0IIhoSEIBhCCIhCgICA+A+DIBhCGIhCgID8B4OEIBhCKIhCgP4DgyAYQjiIhISEhSAchSIYQjiGIBhCgP4Dg0IohoQgGEKAgPwHg0IYhiAYQoCAgPgPg0IIhoSEIBhCCIhCgICA+A+DIBhCGIhCgID8B4OEIBhCKIhCgP4DgyAYQjiIhISEQtKBqpur+oLXp39+IhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIQgGELYotHvwqnlvy1+hSIYQjiGIBhCgP4Dg0IohoQgGEKAgPwHg0IYhiAYQoCAgPgPg0IIhoSEIBhCCIhCgICA+A+DIBhCGIhCgID8B4OEIBhCKIhCgP4DgyAYQjiIhISEIDB+IhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIQgGCAvfoUgGIkiGKdxIQUgGEIZiEL/AINCgYKEiJCgwIABfiEyIBYgFiAdU618IRhBACEGAkACQANAAkAgBSAQaikAACIpIDKFIhpCf4UgGkKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIaUEUEQANAAkAgFiAQIBp6p0EDdiAFaiAJcUEGdGsiBEFAaikDAFINACAXIARBOGspAwBSDQAgHCAEQTBrKQMAUQ0DCyAaQgF9IBqDIhpQRQ0ACwsgKSApQgGGg0KAgYKEiJCgwIB/g1BFDQIgBSAGQQhqIgZqIAlxIQUMAQsLAn8gBEEEaygCACIGQQlPBEAgBEEkaygCACEGIARBIGsoAgAMAQsgBEEkawshBSAGRQ0AIAZBAnQhBgNAIAUoAgAiBCANTw0CAkAgBCAKRg0AIAQgFGotAABBAXFFDQAgBCAITw0FIAJB4AJqIgwgAxCaAyAC/QAE4AIhNCAMIAMpAgAQywIgAv0ABOACITMgDCARIARBJGxqIgcQmgMgAv0ABOACITUgDCAHKQIAEMsCIDQgM/0NCAkKCwgJCgsICQoLAAECAyAz/R8AIkEgM/0fAiJJIEmSIkOUIkwgM/0fAyJFIDP9HwEiQiBCkiJHlCJNkv0TIEIgQ5QiTyBFIEEgQZIiRJQiUJP9IAFDAACAPyBBIESUIlEgQiBHlCJSkpP9IAL95gEiNiA1IDP9DQgJCgsICQoLCAkKCwABAgMgAv0ABOACIjP9HwAiQiAz/R8CIkggSJIiRJQiUyAz/R8DIkogM/0fASJGIEaSIkuUIlSS/RMgRiBElCJVIEogQiBCkiJOlCJWk/0gAUMAAIA/IEIgTpQiTiBGIEuUIkaSk/0gAv3mASI3/Q0AAQIDEBESEwABAgMAAQIDIjMgNiAz/Q0ICQoLAAECAwABAgMAAQIDIDcgM/0NCAkKCwABAgMAAQIDAAECA/0NAAECAxAREhMAAQIDAAECAyI4/eYBIDQgM/0NBAUGBwQFBgcEBQYHAAECAyBBIEeUIkEgRSBDlCJFk/0TQwAAgD8gUSBJIEOUIkOSk/0gASBPIFCS/SAC/eYBIjkgNSAz/Q0EBQYHBAUGBwQFBgcAAQIDIEIgS5QiQiBKIESUIkmT/RNDAACAPyBOIEggRJQiRJKT/SABIFUgVpL9IAL95gEiOv0NAAECAxAREhMAAQIDAAECAyI7IDkgM/0NCAkKCwABAgMAAQIDAAECAyA6IDP9DQgJCgsAAQIDAAECAwABAgP9DQABAgMQERITAAECAwABAgMiPP3mASA0IDP9DQABAgMAAQIDAAECAwABAgNDAACAPyBSIEOSk/0TIEEgRZL9IAEgTCBNk/0gAv3mASI0IDUgM/0NAAECAwABAgMAAQIDAAECA0MAAIA/IEYgRJKT/RMgQiBJkv0gASBTIFST/SAC/eYBIj/9DQABAgMQERITAAECAwABAgMiPSA0IDP9DQgJCgsAAQIDAAECAwABAgMgPyAz/Q0ICQoLAAECAwABAgMAAQID/Q0AAQIDEBESEwABAgMAAQIDIj795gH95AH95AEiNf0fAEMAAAA/IDX9HwFDAAAAP5QQtAYhQSA2IDf9DQQFBgcUFRYXAAECAwABAgMiNyA4/eYBIDkgOv0NBAUGBxQVFhcAAQIDAAECAyI5IDz95gEgNCA//Q0EBQYHFBUWFwABAgMAAQIDIjogPv3mAf3kAf3kASI0/R8AQwAAAD8gNP0fAUMAAAA/lBC0BiFDIDMgN/3mASA7IDn95gEgPSA6/eYB/eQB/eQBIjb9HwBDAAAAPyA3IDf95gEgOSA5/eYBIDogOv3mAf3kAf3kASI3IDb9DQABAgMEBQYHAAECAxQVFhcgMyAz/eYBIDsgO/3mASA9ID395gH95AH95AEiO/0NFBUWFwQFBgcAAQIDDA0ODyA4IDj95gEgPCA8/eYBID4gPv3mAf3kAf3kASIz/Q0AAQIDBAUGBxQVFhcMDQ4P/QwAAAA/AAAAPwAAAD8AAAA//eYBIjj9HwMQtAYhQiAz/R8AQwAAAD8gOP0fAhC0BiFEQwAAAAAhRSBBIEMgQpQgQSA3/R8AQwAAAD8gOP0fARC0BiJJlJMiSpQgO/0fAEMAAAA/IDj9HwAQtAYiRiBJIESUIEMgQ5STIkuUIEIgRCBClCJMIEEgQ5QiTZOUk5IiR4sgRosgSYsQ4AggRIsQ4AgiSCBIIEiUlENgQqINEOAIQ19wiTCUXUUEQCBHIDUgNiA0/eYBIDcgNf3mAf3lAf3mASA7IDcgM/3mASA0IDT95gH95QH95gEgNiAzIDb95gEgNSA0/eYB/eUB/eYB/eUB/eQBIjP9HwAgM/0fAZSRlRDGBUMAAAA/lCAHQRBqIAf9XQII/VYCAAIgA0EQaiAD/V0CCP1WAgAC/eUBIjP9HwIiRSBBIEKUIEMgRpSTQwAAgD8gR5UiQ5QiRyBHkiAz/R8BIkeUlCBFIEogQ5QiSCBIkiAz/R8AIkiUlCBHIE0gTJMgQ5QiSiBKkiBIlJQgRSBFIEYgSZQgQiBClJMgQ5SUlCBIIEggSyBDlJSUIEcgRyBGIESUIEEgQZSTIEOUlJSSkpKSkkMAAAA+lJIhRQsgAkHgAmoiDCADEKQDIAL9AATgAiAMIAcQpAMgAv0ABOAC/eUBIjMgM/3mASIzIDP9DQgJCgsAAQIDAAECAwABAgMgMyAzIDP9DQQFBgcAAQIDAAECAwABAgP95AH95AH9HwCMEIkEIEWMEIkElCJBQwAAAAAgQSBBWxsiQSBAXkUNACAWISMgFyEiIBwhISBBIUAgBCELCyAFQQRqIQUgBkEEayIGDQALCyAWIB1ZDQMgGCIWIB1VDQMMAQsLIAQgDUGc6MEAEIwHAAsgBCAIQdTAxwAQjAcACyAXIBtZDQEgGyAkWQ0ACwsgHCAoUyIEBEAgHCAErXwiHCAoVw0BCwsgC0F/Rw0BCyACKgK4ASFAIAIoArABIgQgAigCqAFGBEAgAkGoAWpBvOfBABD5BQsgAigCrAEgBEEDdGoiAyAKNgIEIAMgQDgCACACIARBAWo2ArABDAcLIAIgCzYC5AIgAiAKNgLgAiAAIAJB4AJqQQJDAAAAABA/IRAgDkEAOgAAIAIoAlxFDQMgAigCVCIFIAIpA2ggH4UiFkLYotHvwqnlvy1+IBZCOIYgFkKA/gODQiiGhCAWQoCA/AeDQhiGIBZCgICA+A+DQgiGhIQgFkIIiEKAgID4D4MgFkIYiEKAgPwHg4QgFkIoiEKA/gODIBZCOIiEhIRC0oGqm6v6gtenf34iFkI4hiAWQoD+A4NCKIaEIBZCgID8B4NCGIYgFkKAgID4D4NCCIaEhCAWQgiIQoCAgPgPgyAWQhiIQoCA/AeDhCAWQiiIQoD+A4MgFkI4iISEhIUgJYUiFkLYotHvwqnlvy1+IBZCOIYgFkKA/gODQiiGhCAWQoCA/AeDQhiGIBZCgICA+A+DQgiGhIQgFkIIiEKAgID4D4MgFkIYiEKAgPwHg4QgFkIoiEKA/gODIBZCOIiEhIRC0oGqm6v6gtenf34iFkI4hiAWQoD+A4NCKIaEIBZCgID8B4NCGIYgFkKAgID4D4NCCIaEhCAWQgiIQoCAgPgPgyAWQhiIQoCA/AeDhCAWQiiIQoD+A4MgFkI4iISEhIUgHoUiFkI4hiAWQoD+A4NCKIaEIBZCgID8B4NCGIYgFkKAgID4D4NCCIaEhCAWQgiIQoCAgPgPgyAWQhiIQoCA/AeDhCAWQiiIQoD+A4MgFkI4iISEhELSgaqbq/qC16d/fiIXQjiGIBdCgP4Dg0IohoQgF0KAgPwHg0IYhiAXQoCAgPgPg0IIhoSEIBdCCIhCgICA+A+DIBdCGIhCgID8B4OEIBdCKIhCgP4DgyAXQjiIhISEIBZC2KLR78Kp5b8tfoUiFkI4hiAWQoD+A4NCKIaEIBZCgID8B4NCGIYgFkKAgID4D4NCCIaEhCAWQgiIQoCAgPgPgyAWQhiIQoCA/AeDhCAWQiiIQoD+A4MgFkI4iISEhCACKQNgIhdCf4V+IhlCOIYgGUKA/gODQiiGhCAZQoCA/AeDQhiGIBlCgICA+A+DQgiGhIQgGUIIiEKAgID4D4MgGUIYiEKAgPwHg4QgGUIoiEKA/gODIBlCOIiEhIQgFiAXQjiGIBdCgP4Dg0IohoQgF0KAgPwHg0IYhiAXQoCAgPgPg0IIhoSEIBdCCIhCgICA+A+DIBdCGIhCgID8B4OEIBdCKIhCgP4DgyAXQjiIhISEfoUgFokiFqdxIQMgFkIZiEL/AINCgYKEiJCgwIABfiEZQQAhBCACKAJQIQYDQAJAIAMgBmopAAAiFiAZhSIXQn+FIBdCgYKEiJCgwIABfYNCgIGChIiQoMCAf4MiF1BFBEADQAJAIB8gBiAXeqdBA3YgA2ogBXFBBnRrIgxBQGopAwBSDQAgJSAMQThrKQMAUg0AIB4gDEEwaykDAFENAwsgF0IBfSAXgyIXUEUNAAsLIBYgFkIBhoNCgIGChIiQoMCAf4NQRQ0FIAMgBEEIaiIEaiAFcSEDDAELCyAMQQRrIhEoAgAiAyEOIANBCU8EQCAMQSRrKAIAIQ4LIA5FBEBBACEIDAYLIAxBIGshFSAMQSRrIQlBACEFQQAhCEEAIQMDQCARKAIAIgYhBCAJIQcgBkEJSSIPRQRAIAcoAgAhBCAVKAIAIQcLAkACQCADIARJBEAgCiAFIAdqKAIARgRAIAhBAWohCAwDCyAIRQRAQQAhCAwDCyAJIQQgD0UEQCAEKAIAIQYgFSgCACEECyADIAhrIgcgBk8NASADIAZJBEAgBCAFIAhBAnRraiIGKAIAIQcgBiAEIAVqIgQoAgA2AgAgBCAHNgIADAMLIAMgBkHopMEAEIwHAAsgAyAEQdikwQAQjAcACyAHIAZB6KTBABCMBwALIAVBBGohBSADQQFqIgMgDkcNAAsMBAsgCiAIQdTAxwAQjAcACyAKIA1BrOfBABCMBwALIAIgAi8BPkEBajsBPiACQcQAaiACQagBahCUAiACKAJAIgQgAigCLCIKSQ0EIAIoAkxBAUsNBCACIAAoAghBAWs2AtwBIAJBATYC5AIgAkH45MEANgLgAiACQgE3AuwCIAIgAkHcAWqtQoCAgIAQhDcDoAIgAiACQaACajYC6AIgAkGwAmogAkHgAmoQsQYgAigCsAIiBARAIAIoArQCIARBARCiBwsCQAJAAkAgAigC3AEiBCAAKAIIIgNJBEAgAkEBNgLkAiACQbjowQA2AuACIAJCATcC7AIgAiAAKAIEIARBJGxqNgLwASACICZCgICAgIADhDcDoAIgAiACQaACajYC6AIgAkGwAmogAkHgAmoQsQYgAigCsAIiBARAIAIoArQCIARBARCiBwsgAkEgaiAAKAIIQQF0QQFrEOQHQQAhBSACQQA2AugBIAIgAikDIDcC4AEgAkHgAWoiBCACKAIsQQEQxAYgBCAAKAIIQQAQxAYgAigC3AEiAyACKALoASIKTw0CIAIoAuQBIgsgA2pBAToAACACQeACaiAAIAIoAtwBIAQgARCVAkEAIQYCQCAKQQRPBED9DAAAAAAAAAAAAAAAAAAAAAAhMyALIQMgCkF8cSIGIQUDQCAzIAP9XAAA/YkB/akB/a4BITMgA0EEaiEDIAVBBGsiBQ0ACyAzIDMgM/0NCAkKCwwNDg8AAQIDAAECA/2uASIzIDMgM/0NBAUGBwABAgMAAQIDAAECA/2uAf0bACEFIAYgCkYNAQsgBiALaiEDIAogBmshBgNAIAUgAy0AAGohBSADQQFqIQMgBkEBayIGDQALCyACKAKIAyENIAIoAuwCIQwgAiAFNgLsASACIAAoAgg2AvABIAJBAjYC5AIgAkHs6MEANgLgAiACQgI3AuwCIAIgJzcDuAIgAiACQewBaq1CgICAgBCEIhY3A7ACIAIgAkGwAmo2AugCIAJBoAJqIAJB4AJqELEGIAIoAqACIgQEQCACKAKkAiAEQQEQogcLIAJBATYC5AIgAkGQ6cEANgLgAiACQgE3AuwCIAIgJkKAgICA0AGENwOgAiACIAIoAuwBsyACKAIss5U4AvABIAIgAkGgAmo2AugCIAJBsAJqIAJB4AJqELEGIAIoArACIgQEQCACKAK0AiAEQQEQogcLIAJBADYC+AEgAkKAgICAwAA3AvABIAIoAtwBIQQgAkHwAWpBmOnBABCLBiACKAL0ASAENgIAIAJBATYC+AEgAigC3AEiBCAAKAIIIgNPDQEgAiAAKAIEIARBJGxqIgQQigQiASABkgJ/IAQvARQiA0H//wFxRQRAIANBEHQMAQsgA0H/B3EhBCADQYCAAnEhBSADQYD4AXEiA0GA+AFGBEAgBUEQdCIDQYCAgPwHciAERQ0BGiADIARBDXRyQYCAgP4HcgwBCyAFQRB0IgUgA0ENdEGAgID8AHEgBEENdHJBgICAwANqciADDQAaIAVBgICA2ANyIARnQRBrIgNBF3RrIAQgA0H//wNxQQhqdEH///8DcXILviIBQwAAgD9eBH0gARDGBUNU+C1AlEMAAIA/kpEFQwAAgD8LlDgCgAJBBBBxIgVFDQsgBSACKALcATYCACACQZACaq1CgICAgBCEIRcgAkGAAmqtQoCAgIDQAYQhGUEBIQZBASEEA0AgAiAGNgKQAiACIBc3A7gCIAIgGTcDsAIgAkICNwLsAiACQQI2AuQCIAJB0OnBADYC4AIgAiACQbACajYC6AIgAkGgAmogAkHgAmoQ7AMgAigCoAIiAwRAIAIoAqQCIgdBBGsoAgAiCEF4cSIJQQRBCCAIQQNxIggbIANqSQ0QIAhBACAJIANBJ2pLGw0RIAcQogILQQAhAyACQQA2AugCIAJCgICAgMAANwLgAiAGQQJ0IQYDQCAAIAMgBWooAgAgAkHwAWogAioCgAIgAkHgAmoQ2gEgBiADQQRqIgNHDQALAkAgAigC6AIiBkUEQCACKALgAiIDBEAgAigC5AIgA0ECdEEEEKIHCyACIAIoAvgBIgc2AoQCIAcgAigC7AFGDQEgAkEANgLgAkEAIAJBhAJqIAJB7AFqIAJB4AJqQeDpwQAQ9QcACyACIAIqAoACQwAAgD6UOAKAAiACKALkAiACKALgAiEHIAQEQCAFQQRrKAIAIghBeHEiCSAEQQJ0IgRBBEEIIAhBA3EiCBtqSQ0RIAhBACAJIARBJ2pLGw0SIAUQogILIQUgByEEDAELCyALQQFqIQkgCiALaiEDQQAhBiALIQgDQCAILQAARQRAIAIoAvABIAdGBEAgAkHwAWpB3OrBABCLBgsgAigC9AEgB0ECdGogBjYCACACIAdBAWoiBzYC+AELIAkgCSIIIANHaiEJIAogBkEBaiIGRw0ACyAAIAIoAvQBIAcQ8AEgACACKALsARCIBSACQQE2AuQCIAJBjOrBADYC4AIgAkIBNwLsAiACIBY3A6ACIAIgAkGgAmo2AugCIAJBsAJqIAJB4AJqELEGIAIoArACIgMEQCACKAK0AiADQQEQogcLIAIgACgCCCIIBHxCACEXQQAhBkEAIQcDQCACQeACaiAAKAIQIAAoAhQgBhDoAiACKAKEAyIDQQhLBEAgAigC6AIiCUEEaygCACIKQXhxIhAgA0ECdCITQQRBCCAKQQNxIgobakkNESACKALkAiEDIApBACAQIBNBJ2pLGw0GIAkQogILIAcgA0EAR2ohByAXIAOtfCEXIAggBkEBaiIGRw0ACyAXuiAHt6MFRAAAAAAAAPh/CzkDiAIgAkEBNgLkAiACQbzqwQA2AuACIAJCATcC7AIgAiACQYgCaq1CgICAgPAChDcDoAIgAiACQaACajYC6AIgAkGwAmogAkHgAmoQsQYgAigCsAIiAwRAIAIoArQCIANBARCiBwsgAkHgAmogACgCECAAKAIUQQAQ6AIgAiACKAKEAyIDQQlJIgYEfyADBSACKALkAgs2ApwCIAJBATYCtAIgAkHU6sEANgKwAiACQgE3ArwCIAIgAkGcAmqtQoCAgIAQhDcDkAIgAiACQZACajYCuAIgAkGgAmogAkGwAmoQsQYgBkUEQCACKALoAiADQQJ0QQQQogcLIAIoAqACIgMEQCACKAKkAiADQQEQogcLIAQEQCAFIARBAnRBBBCiBwsgAigC8AEiBARAIAIoAvQBIARBAnRBBBCiBwsgDUEJTwRAIAwgDUECdEEEEKIHCyACKALgASIEBEAgCyAEQQEQogcLIAJB0ABqEL4EIAIoAkQiBARAIAIoAkggBEEDdEEEEKIHCyACKAIwIgQEQCAUIARBARCiBwsgACgCCCEEDAoLIAQgA0HUwMcAEIwHAAsgBCADQdTAxwAQjAcACyADIApB0OjBABCMBwALDAsLQcznwQAQ3QkACyARKAIAIQMLIA4gCGsiBCAMQSRrIBEgA0EISxsiAygCAEkEQCADIAQ2AgALAkACQAJAAkAgCyANSQRAIAsgFGpBADoAACACKAJcRQ0CIAIoAlQiBSACKQNoICOFIhZC2KLR78Kp5b8tfiAWQjiGIBZCgP4Dg0IohoQgFkKAgPwHg0IYhiAWQoCAgPgPg0IIhoSEIBZCCIhCgICA+A+DIBZCGIhCgID8B4OEIBZCKIhCgP4DgyAWQjiIhISEQtKBqpur+oLXp39+IhZCOIYgFkKA/gODQiiGhCAWQoCA/AeDQhiGIBZCgICA+A+DQgiGhIQgFkIIiEKAgID4D4MgFkIYiEKAgPwHg4QgFkIoiEKA/gODIBZCOIiEhISFICKFIhZC2KLR78Kp5b8tfiAWQjiGIBZCgP4Dg0IohoQgFkKAgPwHg0IYhiAWQoCAgPgPg0IIhoSEIBZCCIhCgICA+A+DIBZCGIhCgID8B4OEIBZCKIhCgP4DgyAWQjiIhISEQtKBqpur+oLXp39+IhZCOIYgFkKA/gODQiiGhCAWQoCA/AeDQhiGIBZCgICA+A+DQgiGhIQgFkIIiEKAgID4D4MgFkIYiEKAgPwHg4QgFkIoiEKA/gODIBZCOIiEhISFICGFIhZCOIYgFkKA/gODQiiGhCAWQoCA/AeDQhiGIBZCgICA+A+DQgiGhIQgFkIIiEKAgID4D4MgFkIYiEKAgPwHg4QgFkIoiEKA/gODIBZCOIiEhIRC0oGqm6v6gtenf34iF0I4hiAXQoD+A4NCKIaEIBdCgID8B4NCGIYgF0KAgID4D4NCCIaEhCAXQgiIQoCAgPgPgyAXQhiIQoCA/AeDhCAXQiiIQoD+A4MgF0I4iISEhCAWQtii0e/CqeW/LX6FIhZCOIYgFkKA/gODQiiGhCAWQoCA/AeDQhiGIBZCgICA+A+DQgiGhIQgFkIIiEKAgID4D4MgFkIYiEKAgPwHg4QgFkIoiEKA/gODIBZCOIiEhIQgAikDYCIXQn+FfiIZQjiGIBlCgP4Dg0IohoQgGUKAgPwHg0IYhiAZQoCAgPgPg0IIhoSEIBlCCIhCgICA+A+DIBlCGIhCgID8B4OEIBlCKIhCgP4DgyAZQjiIhISEIBYgF0I4hiAXQoD+A4NCKIaEIBdCgID8B4NCGIYgF0KAgID4D4NCCIaEhCAXQgiIQoCAgPgPgyAXQhiIQoCA/AeDhCAXQiiIQoD+A4MgF0I4iISEhH6FIBaJIhancSEDIBZCGYhC/wCDQoGChIiQoMCAAX4hGUEAIQQgAigCUCEGA0AgAyAGaikAACIWIBmFIhdCf4UgF0KBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIXUEUEQANAAkAgIyAGIBd6p0EDdiADaiAFcUEGdGsiDEFAaikDAFINACAiIAxBOGspAwBSDQAgISAMQTBrKQMAUQ0FCyAXQgF9IBeDIhdQRQ0ACwsgFiAWQgGGg0KAgYKEiJCgwIB/g1BFDQMgAyAEQQhqIgRqIAVxIQMMAAsACyALIA1B3OfBABCMBwALIAxBBGsiDigCACIDIQogA0EJTwRAIAxBJGsoAgAhCgsgCkUEQEEAIQkMAwsgDEEgayERIAxBJGshCEEAIQVBACEJQQAhAwNAIA4oAgAiBiEEIAghByAGQQlJIhVFBEAgBygCACEEIBEoAgAhBwsCQAJAIAMgBEkEQCALIAUgB2ooAgBGBEAgCUEBaiEJDAMLIAlFBEBBACEJDAMLIAghBCAVRQRAIAQoAgAhBiARKAIAIQQLIAMgCWsiByAGTw0BIAMgBkkEQCAEIAUgCUECdGtqIgYoAgAhByAGIAQgBWoiBCgCADYCACAEIAc2AgAMAwsgAyAGQeikwQAQjAcACyADIARB2KTBABCMBwALIAcgBkHopMEAEIwHAAsgBUEEaiEFIANBAWoiAyAKRw0ACwwBC0Hs58EAEN0JAAsgDigCACEDCyAKIAlrIgQgDEEkayAOIANBCEsbIgMoAgBJBEAgAyAENgIACyACKAIwIA1GBH8gAkEwahCmBiACKAI0BSAUCyANakEBOgAAIAIgDUEBajYCOEMAAIA/IUACfwJAIAAoAggiBCAQSwRAIAAoAgQgEEEkbGoiBRCKBCFBIAUvARQiA0H//wFxRQRAIANBEHQMAwsgA0H/B3EhBCADQYCAAnEhBiADQYD4AXEiA0GA+AFGBEAgBkEQdCIDQYCAgPwHciAERQ0DGiADIARBDXRyQYCAgP4HcgwDCyAGQRB0IQYgA0UNASADQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogBnIMAgsgECAEQdTAxwAQjAcACyAGQYCAgNgDciAEZ0EQayIDQRd0ayAEIANB//8DcUEIanRB////A3FyC74iQkMAAIA/XgRAIEIQxgVDVPgtQJRDAACAP5KRIUALIEEgQZIgQJQiQCACKgKAASJBXkUEQCACIAX9XQIIIAUqAhAiQv0gAiBC/SADIEH9E/3nAf1oIjP9HwL8BDcD0AEgAiAz/R8B/AQ3A8gBIAIgM/0fAPwENwPAASACQeACaiACQdAAaiACQcABahCHAgJAIAIoAoADIgUEQCACQbgCaiATQQhq/QADAP0LAwAgAiATKQMANwOwAiAFKAIAIgQgBSgCBCIDIAIoAuACIghxIgZqKQAAQoCBgoSIkKDAgH+DIhdQBEBBCCEHA0AgBiAHaiEGIAdBCGohByAEIAMgBnEiBmopAABCgIGChIiQoMCAf4MiF1ANAAsLIAQgF3qnQQN2IAZqIANxIgZqLAAAIgdBAE4EQCAEIAQpAwBCgIGChIiQoMCAf4N6p0EDdiIGai0AACEHCyAEIAZqIAhBGXYiCDoAACAFIAUoAgggB0EBcWs2AgggBCAGQQhrIANxakEIaiAIOgAAIAQgBkEGdGsiA0FAaiIEQRBqIAJBwAJqKQMANwMAIAQgAv0AA7AC/QsDACADQQRrQQA2AgAgA0Eoa0EANgIAIAUgBSgCDEEBajYCDAwBCyACKALgAiEDCyADQSRrIQcCfyADQQRrIgUoAgAiBEEJSQRAIAQhBkEIIQQgBwwBCyAHKAIAIQYgByEFIANBIGsoAgALIQkgBCAGRgRAIANBKGsQzQYgA0EgaygCACEJIAcoAgAhBiAHIQULIAkgBkECdGogEDYCACAFIAUoAgBBAWo2AgAgAkHEAGogQIwgEBDxBAwBCyACKAKwASIEIAIoAqgBRgRAIAJBqAFqQYzowQAQ+QULIAIoAqwBIARBA3RqIgMgEDYCBCADIECMOAIAIAIgBEEBajYCsAEMAAsACwALDAQLIAQEQEEUIQZBACEFA0ACQAJ/AkACQAJ/AkACQCAAKAIIIgMgBUsEQCAAKAIEIAZqIgovAQAiB0H//wFxIg1FDQEgB0H/B3EhAyAHQYCAAnEhCCAHQYD4AXEiC0GA+AFHIgxFBEAgCEEQdCIJQYCAgPwHciADRQ0EGiAJIANBDXRyQYCAgP4HcgwECyAIQRB0IQkgC0UNAiALQQ10QYCAgPwAcSADQQ10ckGAgIDAA2ogCXIMAwsgBSADQeTAxwAQjAcACyAHQRB0vkMAAIA/Xg0CDAULIAlBgICA2ANyIANnQRBrIglBF3RrIAMgCUH//wNxQQhqdEH///8DcXILvkMAAIA/XkUNAyANDQELIAdBEHQMAQsgDEUEQCAIQRB0IgdBgICA/AdyIANFDQEaIAcgA0ENdHJBgICA/gdyDAELIAhBEHQiByALQQ10QYCAgPwAcSADQQ10ckGAgIDAA2pyIAsNABogB0GAgIDYA3IgA2dBEGsiB0EXdGsgAyAHQf//A3FBCGp0Qf///wNxcgtDAACAPyEBviJAQwAAgD9eBEAgQBDGBUNU+C1AlEMAAIA/kpFDAACAv5JDAACAPpRDAACAP5IhAQtDAAAAQEMAAIA/IAEgAUMAAIA/XRsiASABQwAAAEBeG7wiCEH///8DcSELIAhBgICAgHhxIQcCQCAIQYCAgPwHcSIDQYCAgPwHRgRAIAtBDXYgB0EQdnJBgARBACALG3JBgPgBciEHDAELIAdBEHYhByADQYCAgLgETQRAIANBgICAxANPBEAgCEEMdiAIQf/fAHFBAEdxIANBDXYgC0ENdmpBgIABaiAHcmohBwwCCyADQYCAgJgDSQ0BIAtBgICABHIiCEH+ACADQRd2IgtrdiEDIAhBHSALayILdkEBcQR/IANBAyALdEEBayAIcUEAR2oFIAMLIAdyIQcMAQsgB0GA+AFyIQcLIAogBzsBAAsgBkEkaiEGIAQgBUEBaiIFRw0ACwsgAkEANgKoAiACQoCAgIDAADcCoAIgAkGgAmpBqMHBABCLBiACKAKkAkEANgIAQQEhBSACQQE2AqgCIAJCgICAgMAANwLAASACQgA3AsgBQQQQcSIERQ0AIARBADYCACACQcABakG4wcEAEKQGIAIoAsQBIAIoAswBIgYgAigCyAFqIgMgAigCwAEiB0EAIAMgB08ba0EMbGoiA0EBNgIIIAMgBDYCBCADQQE2AgAgAiAGQQFqNgLMASACKALMASIDRQ0CIAJB8AFqrUKAgICAEIQhICACQeABaq0iFkKAgICAEIQhJCACQdAAaq1CgICAgJAChCEcIAJBtAFqrUKAgICA0AGEISEgAkGwAmqtQoCAgICgAoQhIiACQagBaq1CgICAgLAChCEjIBZCgICAgNABhCEYIAJBnANqIRUgAkHoAmohECACQeQCaiELIAJBuAJqIRQgAkHUAGohDSACQYQDaiETAkADQCACIANBAWs2AswBIAIgAigCyAEiBEEBaiIDIAIoAsABIgVBACADIAVPG2s2AsgBIAIoAsQBIARBDGxqIgQoAgAiDkGAgICAeEYNAyAEKQIEIRYgAkEANgKYASACQoCAgIDAADcCkAEgFqchBSAWQh6Ip0H8////B3EiBARAIAQgBWohEUEAIQhBBCEGIAUhCgNAIAghAwJ/AkAgCigCACIHIAAoAggiBEkEQCAAKAIEIAdBJGxqIgwvARwhBEEAIQhBACAMLwEeIglB//8BcSIPQYD4AUsNAhpBACAEQf//AXEiEkGA+AFLDQIaIAnBQQBIDQEgBCAJSSAEwUEATg0CGiAJIBJyQQBHDAILIAcgBEHUwMcAEIwHAAsgBMFBAEggBCAJS3ELIRIgCSAEIBIbIAQgD0GB+AFJGyEEAkAgDC8BICIJQf//AXEiD0GA+AFLDQAgBEH//wFxIhJBgPgBSw0AIAnBQQBOBEAgBMFBAE4EQCAJIARB//8DcUshCAwCCyAJIBJyQQBHIQgMAQsgBMFBAEggCSAEQf//A3FJcSEICyAMLwEUIQwCfyAJIAQgCBsgBCAPQYH4AUkbIghB//8BcUUEQCAIQRB0DAELIAhB/wdxIQQgCEGAgAJxIQkgCEGA+AFxIghBgPgBRgRAIAlBEHQiCEGAgID8B3IgBEUNARogCCAEQQ10ckGAgID+B3IMAQsgCUEQdCIJIAhBDXRBgICA/ABxIARBDXRyQYCAgMADanIgCA0AGiAJQYCAgNgDciAEZ0EQayIIQRd0ayAEIAhB//8DcUEIanRB////A3FyC74QiQQhAUMAAIA/IUACfyAMQRB0IAxB//8BcUUNABogDEH/B3EhBCAMQYCAAnEhCCAMQYD4AXEiCUGA+AFGBEAgCEEQdCIIQYCAgPwHciAERQ0BGiAIIARBDXRyQYCAgP4HcgwBCyAIQRB0IgggCUENdEGAgID8AHEgBEENdHJBgICAwANqciAJDQAaIAhBgICA2ANyIARnQRBrIghBF3RrIAQgCEH//wNxQQhqdEH///8DcXILviJBQwAAgD9eBEAgQRDGBUNU+C1AlEMAAIA/kpEhQAsgAigCkAEgA0YEQCACQZABakHIlcEAEPkFIAIoApQBIQYLIAYgA0EDdGoiBCAHNgIEIAQgASABkiBAlCIBOAIAIAIgA0EBaiIINgKYAQJAIANFBEBBACEEDAELIAEgAVwEQANAAkAgBiADQQFrIgxBAXYiBEEDdGoiCSoCACJAIEBbIAEgQF9FcQ0AIAcgCUEEaigCAEsNACADIQQMAwsgBiADQQN0aiAJKQIANwIAIAQhAyAMQQJPDQAMAgsACwNAIAYgA0EBayIMQQF2IgRBA3RqIgkqAgAiQCBAWyABIEBfRXFBfyABIEBgGyIPQQBMIAcgCUEEaigCAE0gDxsEQCADIQQMAgsgBiADQQN0aiAJKQIANwIAIAQhAyAMQQFLDQALCyAGIARBA3RqIgQgBzYCBCAEIAE4AgAgCkEEaiIKIBFHDQALCyAOBEAgBUEEaygCACIEQXhxIgMgDkECdCIGQQRBCCAEQQNxIgQbakkNBiAEQQAgAyAGQSdqSxsNByAFEKICCwJAAkACQCACKAKYASIKRQ0AIAIoAqgCQf+/BGpBgID8/wNxIQwDQCACIApBAWsiBDYCmAEgAigClAEiByAEQQN0aiIDKAIEIQUgAyoCACEBAkAgBEUEQCABIUAgBSEIDAELIAcoAgQhCCAHIAU2AgQgByoCACFAIAcgATgCAEEAIQNBASEGIApBBE8EQCAEQQJrIgNBACADIARNGyEJQQAhBANAIAcgBEEDdGogByAGIAcgBkEDdGoiBEEIaioCACJBIEFbIEEgBCoCACJCYEVxIgMgA0F/IEEgQl8bIEIgQlwbIgNBAEwgBEEEaigCACAEQQxqKAIATSADG2oiA0EDdGopAgA3AgAgA0EBdCIOQQFyIQYgAyEEIAkgDksNAAsLAkACQCAKQQJrIAZGBEAgByADQQN0aiAHIAZBA3RqIgQpAgA3AgAgBCAFNgIEIAQgATgCACAGIQMMAQsgByADQQN0aiIEIAU2AgQgBCABOAIAIAMNAEEAIQQMAQsgASABXARAA0ACQCAHIANBAWsiCUEBdiIEQQN0aiIGKgIAIkEgQVsgASBBX0VxDQAgBSAGQQRqKAIASw0AIAMhBAwDCyAHIANBA3RqIAYpAgA3AgAgBCEDIAlBAk8NAAwCCwALA0AgByADQQFrIglBAXYiBEEDdGoiBioCACJBIEFbIAEgQV9FcUF/IAEgQWAbIgpBAEwgBSAGQQRqKAIATSAKGwRAIAMhBAwCCyAHIANBA3RqIAYpAgA3AgAgBCEDIAlBAUsNAAsLIAcgBEEDdGoiBCAFNgIEIAQgATgCAAsgAkGwAmogACgCECAAKAIUIAgQ6AIgAigCqAIhAwJAAkAgAigC1AIiBEEJSSIFRQRAIAIoArQCIANqIgkgDEsNAQwCCyADIARqIgkgDE0NAQsgAkGQAWogQCAIEPEEIAIgGDcD8AEgAiADs0MAAIA3lDgC4AEgAkIBNwLsAiACQQE2AuQCIAJB+MHBADYC4AIgAiACQfABajYC6AIgAkHQAGogAkHgAmoQ7AMgAigCUCIDBEAgAigCVCIGQQRrKAIAIgdBeHEiCEEEQQggB0EDcSIHGyADakkNCyAHQQAgCCADQSdqSxsNDCAGEKICCyAFRQRAIAIoArgCIgNBBGsoAgAiBUF4cSIGIARBAnQiBEEEQQggBUEDcSIFG2pJDQsgBUEAIAYgBEEnaksbDQwgAxCiAgsgAigCmAEiA0UNAiACKAKUASIEIANBA3QiBmohCCAAKAIEIQkgACgCCCEH/QwAAID/AACA/wAAgP8AAID/ITT9DAAAgH8AAIB/AACAfwAAgH8hNUEAIQUCQAJAAkACQAJAA0AgBCAFakEEaigCACIDIAdPDQEgAkHgAmoiCiAJIANBJGxqIgMQmgMgAv0ABOACITMgCiADKQIAEMsCIDQgA/1dAgggAyoCECIB/SACIAH9IAMiNiAz/QxvEoM6bxKDOm8SgzpvEoM6/esB/QwAAMA/AADAPwAAwD8AAMA//eYBIjQgM/0NCAkKCwgJCgsICQoLAAECA0MAAIA/IAL9AATgAiIz/R8AIgEgASABkiJGlCJJIDP9HwEiQCBAIECSIkKUIkWSk/0TIAEgM/0fAiJDIEOSIkGUIkcgM/0fAyJEIEKUIkiS/SAAIEAgQZQiQCBEIEaUIkaT/SAB/eAB/eYBIDQgM/0NBAUGBwQFBgcEBQYHAAECAyBAIEaS/RMgASBClCIBIEQgQZQiQJP9IABDAACAPyBJIEMgQZQiQZKT/SAB/eAB/eYBIDQgM/0NAAECAwABAgMAAQIDAAECAyBHIEiT/RNDAACAPyBFIEGSk/0gACABIECS/SAB/eAB/eYB/eQB/eQBIjP95AH96wEhNCA1IDYgM/3lAf3qASE1IAYgBUEIaiIFRw0ACyA0IDX95QEiMyAzIDP9DQgJCgsICQoLAAECAwABAgP96wEiNiA2IDP9DQQFBgcAAQIDAAECAwABAgP96wH9HwAgMyAzIDP9DQgJCgsICQoLBAUGBwQFBgf96gEiNiA2IDP9DQQFBgcAAQIDAAECAwABAgP96gH9HwBDAABAQJRgRQRAIAJCBDcC6AMgAkIANwLgAyACQoCAgIDAADcC2AMgAkIENwLQAyACQgA3AsgDIAJCgICAgMAANwLAAyACQgQ3ArgDIAJCADcCsAMgAkKAgICAwAA3AqgDIAJCBDcCoAMgAkIANwKYAyACQoCAgIDAADcCkAMgNSA0/eQB/QwAAAA/AAAAPwAAAD8AAAA//eYBIjP9HwAhASAz/R8CIUAgM/0fASFBQQAhAyACKAKQASEHA0AgAyAEakEEaigCACIFIAAoAggiCE8NAyACQZADaiAVIAAoAgQgBUEkbGoiCCoCCCABXRtBAEEYIAgqAgwgQV0baiIJQQhBOCAIKgIQIEBdIggbaiIMKAIAIgogCUEAQTAgCBtqIg4oAgBGBEAgDkGwwsEAEIsGCyAJQQRBNCAIG2ooAgAgDCAKQQFqNgIAIApBAnRqIAU2AgAgBiADQQhqIgNHDQALIAcEQCAEQQRrKAIAIgNBeHEiBSAHQQN0IgZBBEEIIANBA3EiAxtqSQ0RIANBACAFIAZBJ2pLGw0SIAQQogILQSAQcSIERQ0NIAQgAigCmAM2AgAgBCACKAKkAzYCBCAEIAIoArADNgIIIAQgAigCvAM2AgwgBCACKALIAzYCECAEIAIoAtQDNgIUIAQgAigC4AM2AhggBCACKALsAzYCHCACQQg2AlggAiAENgJUIAJBCDYCUCACIBw3A7ACIAJCATcC7AIgAkECNgLkAiACQZDCwQA2AuACIAIgAkGwAmo2AugCIAJB4AJqEOsCIAIoAlAiBARAIAIoAlQiA0EEaygCACIFQXhxIgYgBEECdCIEQQRBCCAFQQNxIgUbakkNESAFQQAgBiAEQSdqSxsNBCADEKICC0HgABBxIgRFDQ0gBCACQZADakHgAPwKAAAgBCgCACEDIARBgICAgHg2AgAgA0GAgICAeEYNBCAEQQRqIg8pAgAhFiAEKAIMIQcgBEGAgICAeDYCDCAHQYCAgIB4Rg0EIAQpAhAhFyAEKAIkIQggBEGAgICAeDYCJCAIQYCAgIB4Rg0EIAQpAighGSAEKAIYIQkgBEGAgICAeDYCGCAJQYCAgIB4Rg0EIAQpAhwhGyAEKAJIIQogBEGAgICAeDYCSCAKQYCAgIB4Rg0EIAQpAkwhHSAEKAJUIQwgBEGAgICAeDYCVCAMQYCAgIB4Rg0EIAQpAlghGiAEKAI8IQ4gBEGAgICAeDYCPCAOQYCAgIB4Rg0EIAQpAkAhHiAEKAIwIREgBEGAgICAeDYCMCARQYCAgIB4Rg0EIAQpAjQhHyACKALMASIFIAIoAsABIgZGBEAgAkHAAWpBoMLBABCkBiACKALAASEGIAIoAswBIQULIAIoAsQBIAIoAsgBIAVqIhIgBkEAIAYgEk0ba0EMbGoiBiAWNwIEIAYgAzYCACACIAVBAWoiBTYCzAEgAigCwAEiBiAFRgRAIAJBwAFqQaDCwQAQpAYgAigCwAEhBiACKALMASEFCyACKALEASACKALIASAFaiIDIAZBACADIAZPG2tBDGxqIgMgFzcCBCADIAc2AgAgAiAFQQFqIgU2AswBIAIoAsABIgYgBUYEQCACQcABakGgwsEAEKQGIAIoAsABIQYgAigCzAEhBQsgAigCxAEgAigCyAEgBWoiAyAGQQAgAyAGTxtrQQxsaiIDIBk3AgQgAyAINgIAIAIgBUEBaiIFNgLMASACKALAASIGIAVGBEAgAkHAAWpBoMLBABCkBiACKALAASEGIAIoAswBIQULIAIoAsQBIAIoAsgBIAVqIgMgBkEAIAMgBk8ba0EMbGoiAyAbNwIEIAMgCTYCACACIAVBAWoiBTYCzAEgAigCwAEiBiAFRgRAIAJBwAFqQaDCwQAQpAYgAigCwAEhBiACKALMASEFCyACKALEASACKALIASAFaiIDIAZBACADIAZPG2tBDGxqIgMgHTcCBCADIAo2AgAgAiAFQQFqIgU2AswBIAIoAsABIgYgBUYEQCACQcABakGgwsEAEKQGIAIoAsABIQYgAigCzAEhBQsgAigCxAEgAigCyAEgBWoiAyAGQQAgAyAGTxtrQQxsaiIDIBo3AgQgAyAMNgIAIAIgBUEBaiIFNgLMASACKALAASIGIAVGBEAgAkHAAWpBoMLBABCkBiACKALAASEGIAIoAswBIQULIAIoAsQBIAIoAsgBIAVqIgMgBkEAIAMgBk8ba0EMbGoiAyAeNwIEIAMgDjYCACACIAVBAWoiBTYCzAEgAigCwAEiBiAFRgRAIAJBwAFqQaDCwQAQpAYgAigCwAEhBiACKALMASEFCyACKALEASACKALIASAFaiIDIAZBACADIAZPG2tBDGxqIgMgHzcCBCADIBE2AgAgAiAFQQFqNgLMASAEKAIAIgNBgICAgHhyQYCAgIB4RwRAIA8oAgAiBUEEaygCACIGQXhxIgcgA0ECdCIDQQRBCCAGQQNxIgYbakkNESAGQQAgByADQSdqSxsNEiAFEKICCyAEKAIMIgNBgICAgHhyQYCAgIB4RwRAIAQoAhAiBUEEaygCACIGQXhxIgcgA0ECdCIDQQRBCCAGQQNxIgYbakkNESAGQQAgByADQSdqSxsNEiAFEKICCyAEKAIYIgNBgICAgHhyQYCAgIB4RwRAIAQoAhwiBUEEaygCACIGQXhxIgcgA0ECdCIDQQRBCCAGQQNxIgYbakkNESAGQQAgByADQSdqSxsNEiAFEKICCyAEKAIkIgNBgICAgHhyQYCAgIB4RwRAIAQoAigiBUEEaygCACIGQXhxIgcgA0ECdCIDQQRBCCAGQQNxIgYbakkNESAGQQAgByADQSdqSxsNEiAFEKICCyAEKAIwIgNBgICAgHhyQYCAgIB4RwRAIAQoAjQiBUEEaygCACIGQXhxIgcgA0ECdCIDQQRBCCAGQQNxIgYbakkNESAGQQAgByADQSdqSxsNEiAFEKICCyAEKAI8IgNBgICAgHhyQYCAgIB4RwRAIAQoAkAiBUEEaygCACIGQXhxIgcgA0ECdCIDQQRBCCAGQQNxIgYbakkNESAGQQAgByADQSdqSxsNEiAFEKICCyAEKAJIIgNBgICAgHhyQYCAgIB4RwRAIAQoAkwiBUEEaygCACIGQXhxIgcgA0ECdCIDQQRBCCAGQQNxIgYbakkNESAGQQAgByADQSdqSxsNEiAFEKICCyAEKAJUIgNBgICAgHhyQYCAgIB4RwRAIAQoAlgiBUEEaygCACIGQXhxIgcgA0ECdCIDQQRBCCAGQQNxIgYbakkNESAGQQAgByADQSdqSxsNEiAFEKICCyAEQQRrKAIAIgNBeHFB5ABB6AAgA0EDcSIFG0kNECAFQQAgA0GIAU8bDQUgBBCiAgwJCyACIDUgNP3kAf0MAAAAPwAAAD8AAAA/AAAAP/3mAf0LBAAgAkEAQQFBAiAz/R8BIgEgM/0fAiJAYBsiAyBAIDP9HwAiQV8bIAMgASBBXxsiAzoAqAEgAiACIANBAnRyKgIAOAK0ASACIAg2AlwgAiACKAKQATYCWCACIAQ2AlQgAiAENgJQIAIgADYCtAIgAiACQbQBajYCuAIgAiACQagBajYCsAIgAkHgAmoiBSACQdAAaiIGIAJBsAJqEI4EIAIpA+ACIRkgAikC7AIhFyACKAL0AiEDIAIoAugCIQQgAiAz/QsEsAIgAiAENgLgASACIAM2AvABIAJBBjYCVCACQezCwQA2AlAgAkIFNwJcIAIgIDcDgAMgAiAkNwP4AiACICE3A/ACIAIgIjcD6AIgAiAjNwPgAiACIAU2AlggBhDrAgJAIAMgBE0EQCAXIRYgAyEGIBkhFyAEIQMMAQsgGSEWIAQhBgsgAiADNgLwAiACQQI2AuQCIAIgBjYC/AIgAiAXNwLoAiACIBY3AvQCQQEhAwJAIBenIgRBgICAgHhGDQAgAikC7AIhFyACKALMASIDIAIoAsABIgVGBEAgAkHAAWpBnMPBABCkBiACKALAASEFIAIoAswBIQMLIAIoAsQBIAIoAsgBIANqIgYgBUEAIAUgBk0ba0EMbGoiBSAXNwIEIAUgBDYCACACIANBAWo2AswBQQIhAyAWpyIEQYCAgIB4Rg0AIAIpAvgCIRYgAigCzAEiBSACKALAASIGRgRAIAJBwAFqQZzDwQAQpAYgAigCwAEhBiACKALMASEFCyACKALEASACKALIASAFaiIHIAZBACAGIAdNG2tBDGxqIgYgFjcCBCAGIAQ2AgAgAiAFQQFqNgLMAQsgAiADNgLgAiACQeACahCWBgwICyADIAdB1MDHABCMBwALIAUgCEHUwMcAEIwHAAtBjI3IAEEuQbyNyAAQ6wcMCQtBvMPBABDdCQALDAsLQQAhBiACQQA2AuACIAJBADYChANBCCEHAkACQAJ/IAkgA2siBEEAIAQgCU0bIgRBCUkEQCALIQogEwwBCyACQRhqIAJB4AJqQX8gBEEBa2d2QQFqEOgDIAIoAhgiBEGBgICAeEcEQCAEDQpB2JXHAEERQdTMxwAQ6wcACyACKAKEAyIHQQlJBEAgByEGIAshCkEIIQcgEwwBCyACKALkAiEGIAIoAugCIQogCwsiESAGIAdJBH8gByAGQX9zaiIEIAkgAyADIAlJGyIPIANrIgUgBCAFSRtBAWoiBEEESwRAIAogBkECdGohBSAD/RH9DAAAAAABAAAAAgAAAAMAAAD9rgEhMyAEIARBA3EiBEEEIAQbayIOIQQDQCAFIDP9CwIAIAVBEGohBSAz/QwEAAAABAAAAAQAAAAEAAAA/a4BITMgBEEEayIEDQALIAYgDmohBiADIA5qIQMLIAogBkECdGohBQNAIAMgD0YNAiAFIAM2AgAgBUEEaiEFIANBAWohAyAHIAZBAWoiBkcNAAsgBwUgBgs2AgAgAyAJTw0BA0ACfyACKAKEAyIEQQlPBEAgAigC5AIhBSACKALoAiEHIAsMAQsgBCEFIAshB0EIIQQgEwshBiAEIAVGBH8gAkHgAmoQzQYgAigC6AIhByALIQYgAigC5AIFIAULQQJ0IAdqIAM2AgAgBiAGKAIAQQFqNgIAIANBAWoiAyAJRw0ACwwBCyARIAY2AgALIAJB8ABqIAJBgANqKQIANwMAIAJB4ABqIAJB8AJq/QACAP0LAwAgAiAC/QAC4AL9CwNQIAAoAhAgACgCFCAIIAIoAnQiBUEJTwR/IAIoAlQhBSACKAJYBSANCyAFEOQFIAIoArQCIQMgAigCsAIhBCAQQRhqIBRBGGooAgA2AgAgEEEQaiAUQRBqKQIANwIAIBAgFP0AAgD9CwIAIAIgBDYC4AIgAiADIAIoAtQCIgkgCUEISyIEGyIONgKMAyACIAlBACAEGzYChAMgAkEAIAMgBBs2AuQCIA4EQCACKALoAiALIAQbIRFBACEIIAIoAqgCIQoDQCACIAgiBEEBaiIINgKIAyARIARBAnRqKAIAIQUgAigCoAIgCkYEQCACQaACakHIwcEAEIsGCyACKAKkAiAKQQJ0aiAFNgIAIAIgCkEBaiIKNgKoAgJ/AkAgACgCCCIEIAVLBEAgACgCBCAFQSRsaiIGLwEcIQRBACEHQQAgBi8BHiIDQf//AXEiD0GA+AFLDQIaQQAgBEH//wFxIhJBgPgBSw0CGiADwUEASA0BIAMgBEsgBMFBAE4NAhogAyASckEARwwCCyAFIARB1MDHABCMBwALIATBQQBIIAMgBElxCyESIAMgBCASGyAEIA9BgfgBSRshBAJAIAYvASAiA0H//wFxIg9BgPgBSw0AIARB//8BcSISQYD4AUsNACADwUEATgRAIATBQQBOBEAgAyAEQf//A3FLIQcMAgsgAyASckEARyEHDAELIATBQQBIIAMgBEH//wNxSXEhBwsgBi8BFCEGAn8gAyAEIAcbIAQgD0GB+AFJGyIDQf//AXFFBEAgA0EQdAwBCyADQf8HcSEEIANBgIACcSEHIANBgPgBcSIDQYD4AUYEQCAHQRB0IgNBgICA/AdyIARFDQEaIAMgBEENdHJBgICA/gdyDAELIAdBEHQiByADQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2pyIAMNABogB0GAgIDYA3IgBGdBEGsiA0EXdGsgBCADQf//A3FBCGp0Qf///wNxcgu+EIkEIQFDAACAPyFAAn8gBkEQdCAGQf//AXFFDQAaIAZB/wdxIQQgBkGAgAJxIQMgBkGA+AFxIgZBgPgBRgRAIANBEHQiA0GAgID8B3IgBEUNARogAyAEQQ10ckGAgID+B3IMAQsgA0EQdCIDIAZBDXRBgICA/ABxIARBDXRyQYCAgMADanIgBg0AGiADQYCAgNgDciAEZ0EQayIDQRd0ayAEIANB//8DcUEIanRB////A3FyC74iQUMAAIA/XgRAIEEQxgVDVPgtQJRDAACAP5KRIUALIAIoApgBIgMgAigCkAFGBEAgAkGQAWpByJXBABD5BQsgAigClAEiBiADQQN0aiIEIAU2AgQgBCABIAGSIECUIgE4AgAgAiADQQFqNgKYAQJAIANFBEBBACEEDAELIAEgAVwEQANAAkAgBiADQQFrIg9BAXYiBEEDdGoiByoCACJAIEBbIAEgQF9FcQ0AIAUgB0EEaigCAEsNACADIQQMAwsgBiADQQN0aiAHKQIANwIAIAQhAyAPQQJPDQAMAgsACwNAIAYgA0EBayIPQQF2IgRBA3RqIgcqAgAiQCBAWyABIEBfRXFBfyABIEBgGyISQQBMIAUgB0EEaigCAE0gEhsEQCADIQQMAgsgBiADQQN0aiAHKQIANwIAIAQhAyAPQQFLDQALCyAGIARBA3RqIgQgBTYCBCAEIAE4AgAgCCAORw0ACwsgCUEJTwRAIAIoAugCIgRBBGsoAgAiA0F4cSIFIAlBAnQiBkEEQQggA0EDcSIDG2pJDQQgA0EAIAUgBkEnaksbDQsgBBCiAgsgAigCdCIEQQlPBEAgAigCWCIDQQRrKAIAIgVBeHEiBiAEQQJ0IgRBBEEIIAVBA3EiBRtqSQ0KIAVBACAGIARBJ2pLGw0LIAMQogILIAIoApgBIgoNAAsLIAIoApABIgRFDQAgAigClAEiA0EEaygCACIFQXhxIgYgBEEDdCIEQQRBCCAFQQNxIgUbakkNByAFQQAgBiAEQSdqSxsNAyADEKICCyACKALMASIDDQEMBAsLDAQLDAQLAAsgAigCqAIhBQsgAiAAKAIIIgQ2AlAgAiAFNgKwAiAEIAVHBEAgAkEANgLgAkEAIAJBsAJqIAJB0ABqIAJB4AJqQazDwQAQ9QcACyAAIAIoAqQCIgAgBRDwASACQcABahDrAwJAIAIoAqACIgQEQCAAQQRrKAIAIgNBeHEiBSAEQQJ0IgRBBEEIIANBA3EiAxtqSQ0CIANBACAFIARBJ2pLGw0BIAAQogILIAJB8ANqJAAPCwwBC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAu6vgEEF38TfgR7Cn0jAEGAA2siAyQAIAAQngEgAyACOgAnIAMgATgCICADIAAoAggiBjYC8AIgAyADQSdqrUKAgICAwAGENwPIASADIANBIGqtQoCAgIDQAYQ3A8ABIAMgA0HwAmqtIhpCgICAgBCENwO4ASADQgM3AuwBIANBAzYC5AEgA0GA48EANgLgASADIANBuAFqNgLoASADQZABaiADQeABahDsAwJAAkACQCADKAKQASICBEAgAygClAEiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgAmpJDQEgBUEAIAYgAkEnaksbDQIgBBCiAiAAKAIIIQYLAkACQAJAAkAgBkUNACAGQQJ0IggQcSIHRQ0BQQAhAgJAAkACQCAGQQRPBED9DAAAAAABAAAAAgAAAAMAAAAhLSAHIQUgBkH8//8fcSICIQQDQCAFIC39CwIAIAVBEGohBSAt/QwEAAAABAAAAAQAAAAEAAAA/a4BIS0gBEEEayIEDQALIAIgBkYNAQsgByACQQJ0aiEFA0AgBSACNgIAIAVBBGohBSAGIAJBAWoiAkcNAAsgAyAANgLkASADIANB/wJqNgLgASADIANB4AFqNgK4ASAGQQFGDQIMAQsgAyAANgLkASADIANB/wJqNgLgASADIANB4AFqNgK4AQsgBkEVTwRAIANBuAFqIQUjAEGAIGsiCiQAAkACQAJAAkACQEGAifoAIAYgBkGAifoATxsiBCAGIAZBAXZrIgIgAiAESRsiBEGBCE8EQCACQf////8DSw0CQTAgBCAEQTBNGyIJQQJ0IgJB/f///wdPDQIgAhBxIgRFDQMgByAGIAQgCSAGQcEASSAFEFUgBEEEaygCACIFQXhxIglBBEEIIAVBA3EiBRsgAmpJDQQgBUEAIAkgAkEnaksbDQUgBBCiAgwBCyAHIAYgCkGACCAGQcEASSAFEFULIApBgCBqJAAMBQtB2JXBABD/BwsAC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAtBBCECA0AgByACIAdqIANB4AFqEPoBIAggAkEEaiICRw0ACwsgACAHIAYQ8AFDAACAPyEBAn8CQAJAIAdBBGsoAgAiAkF4cSIEQQRBCCACQQNxIgIbIAhqTwRAIAJBACAEIAhBJ2pLGw0JIAcQogIgABCaBCAAKAIIRQ0BIAAoAgQiBRCKBCExIAUvARQiAkH//wFxIghFBEAgAkEQdAwECyACQf8HcSEEIAJBgIACcSEGIAJBgPgBcSIHQYD4AUYEQCAGQRB0IgZBgICA/AdyIARFDQQaIAYgBEENdHJBgICA/gdyDAQLIAZBEHQhBiAHRQ0CIAdBDXRBgICA/ABxIARBDXRyQYCAgMADaiAGcgwDCwwHC0EAQQBB1MDHABCMBwALIAZBgICA2ANyIARnQRBrIgZBF3RrIAQgBkH//wNxQQhqdEH///8DcXILviIyQwAAgD9eBEAgMhDGBUNU+C1AlEMAAIA/kpEhAQsgAyoCICEyIANB//8BIDEgMZIgAZRDvTeGNRDgCBDGBSAyEMYFlY0iAfwAQYCAfiABQwAAAMdgGyABQwD+/0ZeG0EAIAEgAVsbOwEoIAMgBRCKBCIBIAGSAn8gAkEQdCAIRQ0AGiACQf8HcSEEIAJBgIACcSEFIAJBgPgBcSICQYD4AUYEQCAFQRB0IgJBgICA/AdyIARFDQEaIAIgBEENdHJBgICA/gdyDAELIAVBEHQiBSACQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2pyIAINABogBUGAgIDYA3IgBGdBEGsiAkEXdGsgBCACQf//A3FBCGp0Qf///wNxcgu+IgFDAACAP14EfSABEMYFQ1T4LUCUQwAAgD+SkQVDAACAPwuUOALwAiADIBpCgICAgNABhDcDwAEgAyADQShqrUKAgICA4AGENwO4ASADQgI3AuwBIANBAjYC5AEgA0G448EANgLgASADIANBuAFqNgLoASADQZABaiADQeABahDsAyADKAKQASICBEAgAygClAEiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgAmpJDQUgBUEAIAYgAkEnaksbDQYgBBCiAgsgAyADLwEoOwEqIAMgACgCCDYCLCADQQA2AjAgA0EANgI8IANCgICAgIABNwI0IANBADYCSCADQoCAgIDAADcCQEHYtskAKAIAIgJFBEAQkwUhAgsgAigCACACKAIEKAIMEQQAIQIgA0HwmsgA/QADAP0LA+ABIAMgAq1Cxs7rhrfq7a0ShSIbQjiGIBtCgP4Dg0IohoQgG0KAgPwHg0IYhiAbQoCAgPgPg0IIhoSEQpK23Z0FhELSgaqbq/qC16d/fiIaQoDoAoNCKIYgGkKAgJQDg0IYhiAaQoCAgKgKg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEQoCAgICAgICARIQgG0LYotHvwqnlvy1+hSIcQu3cspuNpYnMywCFIhpC2KLR78Kp5b8tfiAaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEQtKBqpur+oLXp39+IhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhISFQov9+pfHxteXhn+FIhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIRC0oGqm6v6gtenf34iG0I4hiAbQoD+A4NCKIaEIBtCgID8B4NCGIYgG0KAgID4D4NCCIaEhCAbQgiIQoCAgPgPgyAbQhiIQoCA/AeDhCAbQiiIQoD+A4MgG0I4iISEhCAaQtii0e/CqeW/LX6FIhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIRCiKyRp/aIgJywf34iG0I4hiAbQoD+A4NCKIaEIBtCgID8B4NCGIYgG0KAgID4D4NCCIaEhCAbQgiIQoCAgPgPgyAbQhiIQoCA/AeDhCAbQiiIQoD+A4MgG0I4iISEhCAaQs+O/8e788bUd36FIBqJNwOIAiADIBxC1oLNoZD9lI5LhSIaQtii0e/CqeW/LX4gGkI4hiAaQoD+A4NCKIaEIBpCgID8B4NCGIYgGkKAgID4D4NCCIaEhCAaQgiIQoCAgPgPgyAaQhiIQoCA/AeDhCAaQiiIQoD+A4MgGkI4iISEhELSgaqbq/qC16d/fiIaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEhUL8w7ynyZXV5OgAhSIaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEQtKBqpur+oLXp39+IhtCOIYgG0KA/gODQiiGhCAbQoCA/AeDQhiGIBtCgICA+A+DQgiGhIQgG0IIiEKAgID4D4MgG0IYiEKAgPwHg4QgG0IoiEKA/gODIBtCOIiEhIQgGkLYotHvwqnlvy1+hSIaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEQoiskaf2iICcsH9+IhtCOIYgG0KA/gODQiiGhCAbQoCA/AeDQhiGIBtCgICA+A+DQgiGhIQgG0IIiEKAgID4D4MgG0IYiEKAgPwHg4QgG0IoiEKA/gODIBtCOIiEhIQgGkLPjv/Hu/PG1Hd+hSAaiTcDgAIgAyAcQvzDvKfJldXk6ACFIhpC2KLR78Kp5b8tfiAaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEQtKBqpur+oLXp39+IhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhISFQu3cspuNpYnMywCFIhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIRC0oGqm6v6gtenf34iG0I4hiAbQoD+A4NCKIaEIBtCgID8B4NCGIYgG0KAgID4D4NCCIaEhCAbQgiIQoCAgPgPgyAbQhiIQoCA/AeDhCAbQiiIQoD+A4MgG0I4iISEhCAaQtii0e/CqeW/LX6FIhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIRCiKyRp/aIgJywf34iG0I4hiAbQoD+A4NCKIaEIBtCgID8B4NCGIYgG0KAgID4D4NCCIaEhCAbQgiIQoCAgPgPgyAbQhiIQoCA/AeDhCAbQiiIQoD+A4MgG0I4iISEhCAaQs+O/8e788bUd36FIBqJNwP4ASADIBxCi/36l8fG15eGf4UiGkLYotHvwqnlvy1+IBpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIRC0oGqm6v6gtenf34iGkI4hiAaQoD+A4NCKIaEIBpCgID8B4NCGIYgGkKAgID4D4NCCIaEhCAaQgiIQoCAgPgPgyAaQhiIQoCA/AeDhCAaQiiIQoD+A4MgGkI4iISEhIVC1oLNoZD9lI5LhSIaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEQtKBqpur+oLXp39+IhtCOIYgG0KA/gODQiiGhCAbQoCA/AeDQhiGIBtCgICA+A+DQgiGhIQgG0IIiEKAgID4D4MgG0IYiEKAgPwHg4QgG0IoiEKA/gODIBtCOIiEhIQgGkLYotHvwqnlvy1+hSIaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEQoiskaf2iICcsH9+IhtCOIYgG0KA/gODQiiGhCAbQoCA/AeDQhiGIBtCgICA+A+DQgiGhIQgG0IIiEKAgID4D4MgG0IYiEKAgPwHg4QgG0IoiEKA/gODIBtCOIiEhIQgGkLPjv/Hu/PG1Hd+hSAaiTcD8AEgA0HQAGqtIiNCgICAgBCEISQgA0Esaq1CgICAgBCEISUgA0Ewaq1CgICAgBCEISYgA0HMAGqtQoCAgIDQAYQhJyADQSpqrUKAgICA4AGEISggA0GAAWqtIilCgICAgPABhCEqIANB3ABqrUKAgICA8AGEISsgA0G8AWohECADQeQAaiETIANBzAFqIRQgA0HQAWohEgJAAkACQAJAA0AgAyADKgIgIAMuASqyELcKOAJMAkAgAygCMCICIAMoAixPDQADQAJ/AkAgACgCCCIEIAJLBEAgACgCBCACQSRsaiIGLwEcIQRBACEIQQAgBi8BHiIFQf//AXEiB0GA+AFLDQIaQQAgBEH//wFxIgpBgPgBSw0CGiAFwUEASA0BIAQgBUkgBMFBAE4NAhogBSAKckEARwwCCyACIARB1MDHABCMBwALIATBQQBIIAQgBUtxCyEKIAUgBCAKGyAEIAdBgfgBSRshBAJAIAYvASAiBUH//wFxIgdBgPgBSw0AIARB//8BcSIKQYD4AUsNACAFwUEATgRAIATBQQBOBEAgBSAEQf//A3FLIQgMAgsgBSAKckEARyEIDAELIATBQQBIIAUgBEH//wNxSXEhCAsgBi8BFCEGAn8gBSAEIAgbIAQgB0GB+AFJGyIFQf//AXFFBEAgBUEQdAwBCyAFQf8HcSEEIAVBgIACcSEHIAVBgPgBcSIFQYD4AUYEQCAHQRB0IgVBgICA/AdyIARFDQEaIAUgBEENdHJBgICA/gdyDAELIAdBEHQiByAFQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2pyIAUNABogB0GAgIDYA3IgBGdBEGsiBUEXdGsgBCAFQf//A3FBCGp0Qf///wNxcgu+EIkEITFDAACAPyEBAn8gBkEQdCAGQf//AXFFDQAaIAZB/wdxIQQgBkGAgAJxIQUgBkGA+AFxIgZBgPgBRgRAIAVBEHQiBUGAgID8B3IgBEUNARogBSAEQQ10ckGAgID+B3IMAQsgBUEQdCIFIAZBDXRBgICA/ABxIARBDXRyQYCAgMADanIgBg0AGiAFQYCAgNgDciAEZ0EQayIFQRd0ayAEIAVB//8DcUEIanRB////A3FyC74iMkMAAIA/XgRAIDIQxgVDVPgtQJRDAACAP5KRIQELIAMqAkwgMSAxkiABlF0NASADKAI8IgQgAygCNEYEQCADQTRqEJMGCyADKAI4IARBBXRqIgUgAjYCACAFQgA3AgggBUEQav0MAAAAAAAAAAAAAAAAAAAAAP0LAgAgAyAEQQFqNgI8IAMgAygCMEEBaiICNgIwIAIgAygCLEkNAAsLIAMgJTcD0AEgAyAmNwPIASADICc3A8ABIAMgKDcDuAFBPBBxIgJFDQYgA0EANgL4AiADIAI2AvQCIANBPDYC8AIgA0IENwKcASADQQQ2ApQBIANB+OPBADYCkAEgAyADQbgBajYCmAECQCADQfACakGM78EAIANBkAFqEMEDRQRAIAMoAvACIgIEQCADKAL0AiIEQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyACakkNDCAFQQAgBiACQSdqSxsNDSAEEKICCwJAAkAgAygCPCIHRQ0AIAMoAjgiBiAHQQV0aiEIIAP9CQJMIS4gBiECA0AgAigCACIEIAAoAggiBU8NAiACQQhqIAAoAgQgBEEkbGoiBP1dAgggBCoCECIB/SACIAH9IAMgLv3nAf1oIi39HwD8BCIbQv///wCDIhpCEIYgG0IghoQgGoRC/4GA+I+AwA+DQoECfkKP4IP4gJ7AhxCDQhF+QsPhsJiMhsPhEINCBX5CyaSSyaSSyaQSgyAbQhWIIh9CP4aEIC39HwH8BCIcQv///wCDIhpCEIYgHEIghoQgGoRC/4GA+I+AwA+DQoECfkKP4IP4gJ7AhxCDQhF+QsPhsJiMhsPhEINCCn5Cksmkksmkkskkg4QgLf0fAvwEIhpC////AIMiHUIQhiAaQiCGhCAdhEL/gYD4j4DAD4NCgQJ+Qo/gg/iAnsCHEINCEX5Cw+GwmIyGw+EQg0IUfkKkksmkksmkkskAg4Q3AwAgAkEYaiAcQiqIIh1CEIYgHUIghoQgHYRC/4GA+I+AwA+DQoECfkKP4IP4gJ7AhxCDQhF+QsPhsJiMhsPhEINCBX5CyKSSyaSSyaQSgyAcQoCAgICAgICAgH+DhEIBiCAbQiqIIh5CEIYgHkIghoQgHoRC/4GA+I+AwA+DQoECfkKP4IP4gJ7AhxCDQhF+QsPhsJiMhsPhEINCBX5CyaSSyaSSyaQSgyIeIBtCgICAgICAgICAf4OEQgKIhCAaQiqIIhtCEIYgG0IghoQgG4RC/4GA+I+AwA+DQoECfkKP4IP4gJ7AhxCDQhF+QsPhsJiMhsPhEINCBX4iG0LIpJLJpJLJpBKDIBpCgICAgICAgICAf4OEIBtCAYOEhDcDACACQRBqIBxCFYgiG0L///8AgyIcQhCGIBtCIIaEIByEQv+BgPiPgMAPg0KBAn5Cj+CD+ICewIcQg0IRfkLD4bCYjIbD4RCDQgV+QsikksmkksmkEoMgHUI/hoQgG0IBg4QgH0L///8AgyIbQhCGIB9CIIaEIBuEQv+BgPiPgMAPg0KBAn5Cj+CD+ICewIcQg0IRfkLD4bCYjIbD4RCDQgV+QgGIQqSSyaSSyaSSCYMgHkI+hoSEIBpCFYgiG0L///8AgyIcQhCGIBtCIIaEIByEQv+BgPiPgMAPg0KBAn5Cj+CD+ICewIcQg0IRfkLD4bCYjIbD4RCDQgp+QpDJpJLJpJLJJIMgGkIUiEICg4SENwMAIAJBIGoiAiAIRw0ACyAHQQFGDQAgB0EVTwRAIAYgBxD+AwwBCyAGQSBqIQVBACEJIAYhCwNAIAshAiAFIQsgAikDOCEcIAIpAygiHSEaAkACQCAdIAIpAwgiG1INACACKQMwIhogAikDECIbUg0AIAIpAxgiGyAcIhpRDQELIBogG1oNACACKQMwIR8gAikDICEeIAkhBQNAAkAgBSAGaiICQSBqIgQgAv0AAwD9CwMAIAJBMGogAkEQav0AAwD9CwMAIAVFBEAgAkEgaiEEIAYhAgwBCwJAIAJBGGspAwAiGyAdIhpSDQAgBSAGakEQaykDACIbIB8iGlINACACQQhrKQMAIhsgHCIaUQ0BCyAFQSBrIQUgGiAbVA0BCwsgAiAeNwMAIARBCGsgHDcDACAEQRBrIB83AwAgBEEYayAdNwMACyAJQSBqIQkgC0EgaiIFIAhHDQALCyADICQ3A/ACIAMgBzYCUEEeEHEiAkUNCSADQQA2ApgBIAMgAjYClAEgA0EeNgKQASADQgE3AsQBIANBATYCvAEgA0Go5MEANgK4ASADIANB8AJqNgLAASADQZABakGM78EAIANBuAFqEMEDRQRAIAMoApABIgIEQCADKAKUASIEQQRrKAIAIgVBeHEiBkEEQQggBUEDcSIFGyACakkNDiAFQQAgBiACQSdqSxsNDyAEEKICCyADQQA2AlggA0KAgICAwAA3AlAgA0EANgKMASADQoCAgIDAADcChAEgA0EANgJcIANBADYCgAEgB0UEQEL///////////8AIR1CgICAgICAgICAfyEfQoCAgICAgICAgH8hHkKAgICAgICAgIB/ISBC////////////ACEhQv///////////wAhIgwEC0KAgICAgICAgIB/ISBC////////////ACEiQQAhAkL///////////8AISFC////////////ACEdQoCAgICAgICAgH8hHkKAgICAgICAgIB/IR8DQAJAAkAgAygCOCINIAJBBXQiCWoiBSgCACIGIAAoAggiBEkEQCAAKAIEIgsgBkEkbGoiBv1dAgggBioCECIB/SACIAH9IAMgA/0JAkwiLv3nAf1oIi39HwL8BCEaIC39HwH8BCEbIC39HwD8BCEcIAcgAkEBaiIITQRAIAIhCgwDCyAHQQFrIQogFUEBcQRAIAchCAwDCyAJIA1qQSBqIQYDQCAGKAIAIgkgBE8NAiALIAlBJGxqIgn9XQIIIAkqAhAiAf0gAiAB/SADIC795wH9aCIt/R8A/AQgHFIgLf0fAfwEIBtSckUgLf0fAvwEIBpRcUUEQCAIQQFrIQoMBAsgBkEgaiEGIAcgCEEBaiIIRw0ACyAHIQgMAgsgBiAEQdTAxwAQjAcACyAJIARB1MDHABCMBwALIB8gGiAaIB9TGyEfIB4gGyAbIB5TGyEeICAgHCAcICBTGyEgIB0gGiAaIB1VGyEdICEgGyAbICFVGyEhICIgHCAcICJVGyEiIAMgAygCgAFBAWo2AoABIAMpA/gBIhogCCACayILrYUiG0I4hiAbQoD+A4NCKIaEIBtCgID8B4NCGIYgG0KAgID4D4NCCIaEhCAaQgiIQoCAgPgPgyAaQhiIQoCA/AeDhCAaQiiIQoD+A4MgGkI4iISEhELSgaqbq/qC16d/fiIaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEIBtC2KLR78Kp5b8tfoUiGkI4hiAaQoD+A4NCKIaEIBpCgID8B4NCGIYgGkKAgID4D4NCCIaEhCAaQgiIQoCAgPgPgyAaQhiIQoCA/AeDhCAaQiiIQoD+A4MgGkI4iISEhCADKQPwASIbQn+FfiIcQjiGIBxCgP4Dg0IohoQgHEKAgPwHg0IYhiAcQoCAgPgPg0IIhoSEIBxCCIhCgICA+A+DIBxCGIhCgID8B4OEIBxCKIhCgP4DgyAcQjiIhISEIBogG0I4hiAbQoD+A4NCKIaEIBtCgID8B4NCGIYgG0KAgID4D4NCCIaEhCAbQgiIQoCAgPgPgyAbQhiIQoCA/AeDhCAbQiiIQoD+A4MgG0I4iISEhH6FIBqJIhpCGYgiHEL/AINCgYKEiJCgwIABfiEsIAMoAuABIgZBCGshDEEAIREgAygC5AEiByAapyIOcSIJIQQCfwJAA0AgBCAGaikAACIbICyFIhpCf4UgGkKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIaUEUEQANAIAwgGnqnQQN2IARqIAdxIg9BA3RrKAIAIAtGDQMgGkIBfSAagyIaUEUNAAsLIBsgG0IBhoNCgIGChIiQoMCAf4NQBEAgBCARQQhqIhFqIAdxIQQMAQsLIAMoAugBRQRAIANB4AFqIANB8AFqEJwBIAMoAuQBIgcgDnEhCSADKALgASEGCyAGIAlqKQAAQoCBgoSIkKDAgH+DIhpQBEBBCCEEA0AgBCAJaiEJIARBCGohBCAGIAcgCXEiCWopAABCgIGChIiQoMCAf4MiGlANAAsLIAYgGnqnQQN2IAlqIAdxIgRqLAAAIglBAE4EQCAGIAYpAwBCgIGChIiQoMCAf4N6p0EDdiIEai0AACEJCyAEIAZqIBynQf8AcSIMOgAAIAYgBEEIayAHcWpBCGogDDoAACAGIARBA3RrIgZBBGtBADYCACAGQQhrIAs2AgAgAyADKALsAUEBajYC7AEgAyADKALoASAJQQFxazYC6AFBAQwBCyAGQQAgD2tBA3RqIgZBBGsoAgBBAWoLIQQgBkEEayAENgIAAkACQAJAAkACQAJAIAtBAU0EQCACIAMoAjwiB08NASAFKAIAIQQgAygCWCICIAMoAlBGBEAgA0HQAGpBsOXBABCLBgsgAygCVCACQQJ0aiAENgIAIAMgAkEBajYCWAwGCyADKgJMIQEgAy0AJyEWQQAhBCADQQA2ArgBIANBADYCzAFBBCEHAn8gC0EAIAggC08bIgZBBUkEQCAQIQwgFAwBCwJAIAZBAWtnIgQEQCADQRhqIANBuAFqQX8gBHZBAWoQ6QMgAygCGCIEQYGAgIB4Rg0BIAQNFAtB2JXHAEERQdTMxwAQ6wcACyADKALMASIHQQVJBEAgByEEIBAhDEEEIQcgFAwBCyADKAK8ASEEIAMoAsABIQwgEAshCyAEIAdPDQIgByAEQX9zaiIGIAIgAygCPCIRIAIgEUsbIg4gAmsiCSAGIAlJGyIGIAIgCCACIAhLGyIXIAJrIgkgBiAJSRsiCUEBaiIPQQxNDQEgDCAEQQJ0aiIGIA0gAiAJakEFdGpBBGpJIAUgDCAEIAlqQQJ0akEEaklxDQEgDyAPQQNxIglBBCAJG2siDyEJA0AgBiAFQeAAaiAFQUBrIAVBIGogBf1cAgD9VgIAAf1WAgAC/VYCAAP9CwIAIAVBgAFqIQUgBkEQaiEGIAlBBGsiCQ0ACyACIA9qIQIgBCAPaiEEDAELIAIgB0Gg5cEAEIwHAAsgDSACQQV0aiEFIAwgBEECdGohBgJAA0AgAiAXRg0BIAIgDkYEQCAOIBFB4OXBABCMBwALIAYgBSgCADYCACAFQSBqIQUgBkEEaiEGIAJBAWohAiAHIARBAWoiBEcNAAsgByEEDAELIAsgBDYCAAwBCyALIAQ2AgAgAiAKSw0AIApBAWohCiACQQV0IQUDQCACIAMoAjwiBE8NAiADKAI4IAVqAn8gAygCzAEiB0EFSQRAIAchBiAQIQtBBCEHIBQMAQsgAygCvAEhBiADKALAASELIBALIQQoAgAhCSAGIAdGBEAgA0G4AWoQzgYgAygCvAEhBiADKALAASELIBAhBAsgCyAGQQJ0aiAJNgIAIAQgBCgCAEEBajYCACAFQSBqIQUgCiACQQFqIgJHDQALCyADQfAAaiIGIANByAFqIgcpAgA3AwAgAyAD/QACuAH9CwNgIAAgAygCdCIFQQVPBH8gAygCZCEFIAMoAmgFIBMLIAUgAUMAAAAAIBYbED8hAiADKAJYIgQgAygCUEYEQCADQdAAakHA5cEAEIsGCyADKAJUIARBAnRqIAI2AgAgAyAEQQFqNgJYIAcgBikDADcDACADIAP9AANg/QsDuAEgAygCjAEiBCADKAKEAUYEQCADQYQBahCVBgsgAygCiAEgBEEcbGoiBSACNgIAIAUgAykDuAE3AgQgBUEMaiADQcABav0AAwD9CwIAIAMgBEEBajYCjAEgAyADKAJcQQFqNgJcIAMoAjwhBwwBCyACIARB4OXBABCMBwALIAcgCCICSw0ACwwDCwwOCyAEIAVB1MDHABCMBwALDAwLIAMgKjcDmAEgAyArNwOQAUEWEHEiAkUNBiADQQA2AvgCIAMgAjYC9AIgA0EWNgLwAiADQgI3AsQBIANBAjYCvAEgA0G45MEANgK4ASADIANBkAFqNgLAAQJAAkAgA0HwAmpBjO/BACADQbgBahDBA0UEQCADKALwAiICBEAgAygC9AIiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgAmpJDQ0gBUEAIAYgAkEnaksbDQ4gBBCiAgsgAygC7AEhCiADQegBakH4msgAKQMANwMAIAMoAuQBIQsgAygC4AEhCCADQfCayAApAwA3A+ABAkACQAJAIAoEQCAIQQhqIQYCQCAIKQMAQoCBgoSIkKDAgH+DIhpCgIGChIiQoMCAf1IEQCAGIQIgCCEFDAELIAghBQNAIAVBQGohBSAGKQMAIAZBCGoiAiEGQoCBgoSIkKDAgH+DIhpCgIGChIiQoMCAf1ENAAsLIApB/////wFLDQNBBCAKIApBBE0bIgRBA3QiBkH9////B08NAyAFIBpCgIGChIiQoMCAf4UiGnqnQfgAcWsiB0EEaygCACEMIAdBCGsoAgAhByAGEHEiCUUNDSAJIAw2AgQgCSAHNgIAQQEhBiADQQE2AsABIAMgCTYCvAEgAyAENgK4ASAKQQFrIgcEQCAaQgF9IBqDIRpBASEEA0AgGlAEQANAIAVBQGohBSACKQMAIAJBCGohAkKAgYKEiJCgwIB/gyIaQoCBgoSIkKDAgH9RDQALIBpCgIGChIiQoMCAf4UhGgsgBSAaeqdB+ABxayIGQQRrKAIAIQwgBkEIaygCACEGIBpCAX0gGoMhGiADKAK4ASAERgRAIANBuAFqIAQgB0EEQQgQpAUgAygCvAEhCQsgCSAEQQN0aiINIAw2AgQgDSAGNgIAIAMgBEEBaiIENgLAASAHQQFrIgcNAAsgCiEGCwJAIAtFDQAgC0EJaiICRQ0AIAhB/wEgAvwLAAsgA0EANgLsASADIAg2AuABIAMgCzYC5AEgAyALIAtBAWpBA3ZBB2wgC0EISRs2AugBIAMoArgBIQ0gAygCvAEhCCAGQQJJDQIgBkEVSQ0BIAggBhDOBAwCCwJAIAtFDQAgC0EJaiICRQ0AIAhB/wEgAvwLAAtBACENIANBADYC7AEgAyAINgLgASADIAs2AuQBIAMgCyALQQFqQQN2QQdsIAtBCEkbNgLoAUEEIQgMAQsgCEEIaiEEIAggBkEDdGohBkEAIQcDQCAEKAIAIgUgBEEIaygCAEkEQCAENQIEIRogByECAn8DQCACIAhqIgpBCGogCikCADcCACAIIAJFDQEaIAUgAkEIayICIAhqIgooAgBJDQALIApBCGoLIAWtIBpCIIaENwIACyAHQQhqIQcgBEEIaiIEIAZHDQALCyADKAJIIgcgAygCQEYEQCADQUBrQcjkwQAQogYLIAMoAkQiDCAHQQxsaiICIAMpAoQBNwIAIAJBCGogA0GMAWooAgA2AgAgA0EANgI8IAMgB0EBaiIKNgJIIAMoAlQhBCADKAJQIQkCQAJAIAMoAlgiAiADKAI0SwRAIANBNGpBACACQQhBIBCkBSADKAI4IREgAygCPCEGDAELQQAhBiADKAI4IREgAkUNAQsgAkECdCILQQRrIg5BBHEEfyAEBSAEKAIAIQUgEEEQakIANwIAIBD9DAAAAAAAAAAAAAAAAAAAAAD9CwIAIBEgBkEFdGoiAiAFNgIAIAIgAykCuAE3AgQgAkEMaiADQcABav0AAgD9CwIAIAJBHGogEigCADYCACAGQQFqIQYgBEEEagshBSAORQ0AIAQgC2ohCyARIAZBBXRqIQIDQCACIAUoAgA2AgAgEEEQaiIOQgA3AgAgEP0MAAAAAAAAAAAAAAAAAAAAAP0LAgAgAkEEaiADKQK4ATcCACACQQxqIANBwAFqIg/9AAIA/QsCACACQRxqIBIoAgA2AgAgBUEEaigCACEWIA5CADcCACAQ/QwAAAAAAAAAAAAAAAAAAAAA/QsCACACQSBqIBY2AgAgAkEkaiADKQK4ATcCACACQSxqIA/9AAIA/QsCACACQTxqIBIoAgA2AgAgAkFAayECIAZBAmohBiAFQQhqIgUgC0cNAAsLIAMgBjYCPAJAIAkEQCAEQQRrKAIAIgJBeHEiBSAJQQJ0IglBBEEIIAJBA3EiAhtqSQ0BIAJBACAFIAlBJ2pLGw0QIAQQogILIAMgAy8BKkEBajsBKiADKAIwIAMoAixJDQQgAygCgAFBAUcNAwJAIA0EQCAIQQRrKAIAIgJBeHEiBCANQQN0IgVBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAVBJ2pLGw0RIAgQogILIAMgBjYCfCAGQQFGBEAgAyARKAIANgKAAUEcEHEiAkUNDSACQv////8PNwIAIAJBATYCGCACIAMoAoABNgIIIAMoAkAgCkYEQCADQUBrQdzkwQAQogYgAygCRCEMCyAMIApBDGxqIgRBATYCCCAEIAI2AgQgBEEBNgIAIAMgB0ECaiIKNgJIIAMgKUKAgICAEIQ3A/ACIANCATcCxAEgA0EBNgK8ASADQfjkwQA2ArgBIAMgA0HwAmo2AsABIANBkAFqIANBuAFqEOwDAkAgAygCkAEiAgRAIAMoApQBIgRBBGsoAgAiBUF4cSIGQQRBCCAFQQNxIgUbIAJqSQ0BIAVBACAGIAJBJ2pLGw0TIAQQogILIAMoAoABIgIgACgCCCIESQRAIAMgACgCBCACQSRsajYCUCADICNCgICAgIADhDcD8AIgA0IBNwLEASADQQE2ArwBIANBiOXBADYCuAEgAyADQfACajYCwAEgA0GQAWogA0G4AWoQ7AMCQCADKAKQASICBEAgAygClAEiBEEEaygCACIFQXhxIgZBBEEIIAVBA3EiBRsgAmpJDQEgBUEAIAYgAkEnaksbDRUgBBCiAgtBACECIANBADYCmAEgA0KAgICAwAA3ApABQQAhCSAKRQ0OIANBvAFqIhRBEGohGEEEIQtBACEIAkADQCADIApBAWsiEzYCSCAMIBNBDGxqIhIoAgAiD0GAgICAeEYEQCATIQoMDgsCQAJAIBIpAgQiGqciECAaQiCIpyINQRxsaiIOAn8gGkKAgICAEFoEQCAOIBBrIgVBHG4iBkEBcUEAIQRBACEHIAVBHGtBHE8EQCAGQf7///8AcSEWIBAhBQNAIAVBGGooAgAiBkEFTwR/IAVBCGooAgAFIAYLIARqIAVBNGooAgAiBkEFTwRAIAVBJGooAgAhBgsgBUE4aiEFIAZqIQQgFiAHQQJqIgdHDQALCwR/IBAgB0EcbGoiBSgCGCIGQQVPBH8gBSgCCAUgBgsgBGoFIAQLIAlqQYCABEsNAiAQIQUCQANAIAVBHGoiEiAFKAIEIgRBAkYNAxogBSgCACEWIBggBUEYaigCADYCACAUIAX9AAII/QsCACADIAQ2ArgBIBQhBSADKALMASIXIQogF0EFSSIZRQRAIAMoArwBIQogAygCwAEhBQsCQCAWQX9GDQACQAJAIApBACAKIAggCmoiCU0bIhVB/////wNLDQAgFUECdCIEQf3///8HTw0AQQAhBwJAIARFBEBBBCEEQQAhFQwBCyAEEHEiBEUNHAsCQCAIIAlPDQBBACENIAghBiAKQQRPBEAgBv0R/QwAAAAAAQAAAAIAAAADAAAA/a4BIS0gBCEGIApBfHEiDSEHA0AgBiAt/QsCACAGQRBqIQYgLf0MBAAAAAQAAAAEAAAABAAAAP2uASEtIAdBBGsiBw0ACyANIAoiB0YNASAIIA1qIQYLIAQgDUECdGohBwNAIAcgBjYCACAHQQRqIQcgCSAGQQFqIgZHDQALIAohBwsgACgCECAAKAIUIBYgBCAHEOQFIAghCSAVRQ0CIARBBGsoAgAiBkF4cSIHIBVBAnQiCUEEQQggBkEDcSIGG2pJDR4gBkEAIAcgCUEnaksbDQEgBBCiAiAIIQkMAgtB4P/GABD/BwALDB0LIAoEQCAKQQJ0IQcgCEECdCEGIAghAgNAIAUoAgAhBCAFQQRqIQUgAygCkAEgAkYEQCADQZABakGs4sEAEIsGIAMoApQBIQsLIAYgC2ogBDYCACADIAJBAWoiAjYCmAEgBkEEaiEGIAIhCCACIQkgB0EEayIHDQALCwJAIBlFBEAgAygCwAEiBEEEaygCACIFQXhxIgYgF0ECdCIHQQRBCCAFQQNxIgUbakkNASAFQQAgBiAHQSdqSxsNAyAEEKICCyAOIBIiBUcNAQwGCwsMGgsMGgsgAkGAgARLDQEgAiEIIAIhCSAQCyIEa0EcbiEFIAQgDkYNAQNAIARBGGooAgAiBkEFTwRAIARBDGooAgAiB0EEaygCACIKQXhxIhIgBkECdCIGQQRBCCAKQQNxIgobakkNGSAKQQAgEiAGQSdqSxsNGiAHEKICCyAEQRxqIQQgBUEBayIFDQALDAELIBIgDTYCCCASIBA2AgQMDgsCQCAPBEAgEEEEaygCACIEQXhxIgUgD0EcbCIGQQRBCCAEQQNxIgQbakkNASAEQQAgBSAGQSdqSxsNAyAQEKICCyATIgoNAQwPCwsMFAsMFAsMEgsgAiAEQdTAxwAQjAcACwwQCyADQQA2ArgBQQAgA0H8AGpB2OTBACADQbgBakGQ5cEAEPUHAAsMDgsMDQtB4P/GABD/BwALDA0LAkAgDQRAIAhBBGsoAgAiAkF4cSIEIA1BA3QiBUEEQQggAkEDcSICG2pJDQwgAkEAIAQgBUEnaksbDQEgCBCiAgsgICAifSIaIB4gIX0iGyAfIB19IhwgGyAcVRsiGyAaIBtVG0ICUyAVciEVDAILDAsLIA1FDQAgCEEEaygCACICQXhxIgQgDUEDdCIFQQRBCCACQQNxIgIbak8EQCACQQAgBCAFQSdqSxsNCyAIEKICDAELCwwICyAKDQELQQAhCQwBCyADQbwBaiIQQRBqIRYCQANAIAMgCkEBayIKNgJIIAwgCkEMbGoiBCgCACISQYCAgIB4RgRAIAohCQwDCyAEKQIEIhqnIgkgGkIgiKdBHGxqIRQCQAJAAkAgGkKAgICAEFQEQCAJIQQMAQsgCSEFA0AgBUEcaiEEIAUoAgQiBkECRg0BIAUoAgAhFSAWIAVBGGooAgA2AgAgECAF/QACCP0LAgAgAyAGNgK4ASAQIQUgAygCzAEiDiEIIA5BBUkiF0UEQCADKAK8ASEIIAMoAsABIQULAkAgFUF/Rg0AAkAgCEEAIAggAiAIaiIPTRsiDUH/////A0sNACANQQJ0IgZB/f///wdPDQBBACEHAkAgBkUEQEEEIQtBACENDAELIAYQcSILRQ0LCwJAIAIgD08NAEEAIRMgAiEGIAhBBE8EQCAC/RH9DAAAAAABAAAAAgAAAAMAAAD9rgEhLSALIQYgCEF8cSITIQcDQCAGIC39CwIAIAZBEGohBiAt/QwEAAAABAAAAAQAAAAEAAAA/a4BIS0gB0EEayIHDQALIBMgCCIHRg0BIAIgE2ohBgsgCyATQQJ0aiEHA0AgByAGNgIAIAdBBGohByAPIAZBAWoiBkcNAAsgCCEHCyAAKAIQIAAoAhQgFSALIAcQ5AUgDUUNASALIA1BAnRBBBCiBwwBC0Hg/8YAEP8HAAsgCARAIAhBAnQhByACQQJ0IQYDQCAFKAIAIQggAygCkAEgAkYEQCADQZABakGs4sEAEIsGCyAFQQRqIQUgAygClAEgBmogCDYCACADIAJBAWoiAjYCmAEgBkEEaiEGIAdBBGsiBw0ACwsgF0UEQCADKALAASAOQQJ0QQQQogcLIBQgBCIFRw0ACwwBCyAUIARrQRxuIQUgBCAURg0AA0AgBEEYaigCACIGQQVPBEAgBEEMaigCACIHQQRrKAIAIghBeHEiCyAGQQJ0IgZBBEEIIAhBA3EiCBtqSQ0DIAhBACALIAZBJ2pLGw0FIAcQogILIARBHGohBCAFQQFrIgUNAAsLIBIEQCAJIBJBHGxBBBCiBwtBACEJIApFDQMMAQsLDAYLDAYLIAAgAygClAEiBCACEPABIAMoApABIgIEQCAEQQRrKAIAIgVBeHEiBiACQQJ0IgJBBEEIIAVBA3EiBRtqSQ0FIAVBACAGIAJBJ2pLGw0GIAQQogILAkAgAygC5AEiAkUNACACIAJBA3QiAmpBEWoiBEUNACADKALgASACa0EIayAEQQgQogcLIAkEQEEAIQsDQCAMIAtBDGxqIgYoAgQhBCAGKAIIIgUEQCAEIQIDQCACQRhqKAIAIgdBBU8EQCACQQxqKAIAIghBBGsoAgAiCkF4cSIQIAdBAnQiB0EEQQggCkEDcSIKG2pJDQkgCkEAIBAgB0EnaksbDQogCBCiAgsgAkEcaiECIAVBAWsiBQ0ACwsgBigCACICBEAgBEEEaygCACIFQXhxIgYgAkEcbCICQQRBCCAFQQNxIgUbakkNByAFQQAgBiACQSdqSxsNCCAEEKICCyALQQFqIgsgCUcNAAsLIAMoAkAiAgRAIAxBBGsoAgAiBEF4cSIFIAJBDGwiAkEEQQggBEEDcSIEG2pJDQUgBEEAIAUgAkEnaksbDQYgDBCiAgsgAygCNCICBEAgEUEEaygCACIEQXhxIgUgAkEFdCICQQRBCCAEQQNxIgQbckkNBSAEQQAgBSACQSdqSxsNBiAREKICCyAAKAIIIglFDQBBFCEGQQAhBQNAAkACfwJAAkACfwJAAkAgACgCCCICIAVLBEAgACgCBCAGaiILLwEAIgRB//8BcSIQRQ0BIARB/wdxIQIgBEGAgAJxIQcgBEGA+AFxIghBgPgBRyIMRQRAIAdBEHQiCkGAgID8B3IgAkUNBBogCiACQQ10ckGAgID+B3IMBAsgB0EQdCEKIAhFDQIgCEENdEGAgID8AHEgAkENdHJBgICAwANqIApyDAMLIAUgAkHkwMcAEIwHAAsgBEEQdL5DAACAP14NAgwFCyAKQYCAgNgDciACZ0EQayIKQRd0ayACIApB//8DcUEIanRB////A3FyC75DAACAP15FDQMgEA0BCyAEQRB0DAELIAxFBEAgB0EQdCIEQYCAgPwHciACRQ0BGiAEIAJBDXRyQYCAgP4HcgwBCyAHQRB0IgQgCEENdEGAgID8AHEgAkENdHJBgICAwANqciAIDQAaIARBgICA2ANyIAJnQRBrIgRBF3RrIAIgBEH//wNxQQhqdEH///8DcXILQwAAgD8hAb4iMUMAAIA/XgRAIDEQxgVDVPgtQJRDAACAP5KRQwAAgL+SQwAAgD6UQwAAgD+SIQELQwAAAEBDAACAPyABIAFDAACAP10bIgEgAUMAAABAXhu8IgdB////A3EhCCAHQYCAgIB4cSEEAkAgB0GAgID8B3EiAkGAgID8B0YEQCAIQQ12IARBEHZyQYAEQQAgCBtyQYD4AXIhBAwBCyAEQRB2IQQgAkGAgIC4BE0EQCACQYCAgMQDTwRAIAdBDHYgB0H/3wBxQQBHcSACQQ12IAhBDXZqQYCAAWogBHJqIQQMAgsgAkGAgICYA0kNASAIQYCAgARyIgdB/gAgAkEXdiIIa3YhAiAHQR0gCGsiCHZBAXEEfyACQQMgCHRBAWsgB3FBAEdqBSACCyAEciEEDAELIARBgPgBciEECyALIAQ7AQALIAZBJGohBiAJIAVBAWoiBUcNAAsLIANBADYCjAEgA0KAgICAwAA3AoQBIANBhAFqQajBwQAQiwYgAygCiAFBADYCAEEBIQUgA0EBNgKMASADQoCAgIDAADcCYCADQgA3AmhBBBBxIgJFDQAgAkEANgIAIANB4ABqQbjBwQAQpAYgAygCZCADKAJsIgYgAygCaGoiBCADKAJgIgdBACAEIAdPG2tBDGxqIgRBATYCCCAEIAI2AgQgBEEBNgIAIAMgBkEBajYCbCADKAJsIgJFDQIgA0HQAGqtQoCAgIAQhCEdIANBQGutIhpCgICAgBCEIR8gA0E0aq1CgICAgNABhCEeIBpCgICAgNABhCEgIANBuAFqrUKAgICAkAKEISEgA0GQAWqtQoCAgICgAoQhIiADQYABaq1CgICAgLAChCEjIANBnAJqIRUgA0HoAWohEyADQeQBaiELIANBmAFqIRQgA0G8AWohECADQYQCaiESAkADQCADIAJBAWs2AmwgAyADKAJoIgJBAWoiBCADKAJgIgVBACAEIAVPG2s2AmggAygCZCACQQxsaiICKAIAIg1BgICAgHhGDQMgAikCBCEaIANBADYC+AIgA0KAgICAwAA3AvACIBqnIQUgGkIeiKdB/P///wdxIgIEQCACIAVqIRFBACEKQQQhBiAFIQkDQCAKIQICfwJAIAkoAgAiByAAKAIIIgRJBEAgACgCBCAHQSRsaiIMLwEcIQRBACEKQQAgDC8BHiIIQf//AXEiDkGA+AFLDQIaQQAgBEH//wFxIg9BgPgBSw0CGiAIwUEASA0BIAQgCEkgBMFBAE4NAhogCCAPckEARwwCCyAHIARB1MDHABCMBwALIATBQQBIIAQgCEtxCyEPIAggBCAPGyAEIA5BgfgBSRshBAJAIAwvASAiCEH//wFxIg5BgPgBSw0AIARB//8BcSIPQYD4AUsNACAIwUEATgRAIATBQQBOBEAgCCAEQf//A3FLIQoMAgsgCCAPckEARyEKDAELIATBQQBIIAggBEH//wNxSXEhCgsgDC8BFCEMAn8gCCAEIAobIAQgDkGB+AFJGyIIQf//AXFFBEAgCEEQdAwBCyAIQf8HcSEEIAhBgIACcSEKIAhBgPgBcSIIQYD4AUYEQCAKQRB0IghBgICA/AdyIARFDQEaIAggBEENdHJBgICA/gdyDAELIApBEHQiCiAIQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2pyIAgNABogCkGAgIDYA3IgBGdBEGsiCEEXdGsgBCAIQf//A3FBCGp0Qf///wNxcgu+EIkEITFDAACAPyEBAn8gDEEQdCAMQf//AXFFDQAaIAxB/wdxIQQgDEGAgAJxIQggDEGA+AFxIgpBgPgBRgRAIAhBEHQiCEGAgID8B3IgBEUNARogCCAEQQ10ckGAgID+B3IMAQsgCEEQdCIIIApBDXRBgICA/ABxIARBDXRyQYCAgMADanIgCg0AGiAIQYCAgNgDciAEZ0EQayIIQRd0ayAEIAhB//8DcUEIanRB////A3FyC74iMkMAAIA/XgRAIDIQxgVDVPgtQJRDAACAP5KRIQELIAMoAvACIAJGBEAgA0HwAmpByJXBABD5BSADKAL0AiEGCyAGIAJBA3RqIgQgBzYCBCAEIDEgMZIgAZQiATgCACADIAJBAWoiCjYC+AICQCACRQRAQQAhBAwBCyABIAFcBEADQAJAIAYgAkEBayIMQQF2IgRBA3RqIggqAgAiMSAxWyABIDFfRXENACAHIAhBBGooAgBLDQAgAiEEDAMLIAYgAkEDdGogCCkCADcCACAEIQIgDEECTw0ADAILAAsDQCAGIAJBAWsiDEEBdiIEQQN0aiIIKgIAIjEgMVsgASAxX0VxQX8gASAxYBsiDkEATCAHIAhBBGooAgBNIA4bBEAgAiEEDAILIAYgAkEDdGogCCkCADcCACAEIQIgDEEBSw0ACwsgBiAEQQN0aiICIAc2AgQgAiABOAIAIAlBBGoiCSARRw0ACwsgDQRAIAVBBGsoAgAiAkF4cSIEIA1BAnQiBkEEQQggAkEDcSICG2pJDQYgAkEAIAQgBkEnaksbDQcgBRCiAgsCQAJAAkAgAygC+AIiCUUNACADKAKMAUH/vwRqQYCA/P8DcSEMA0AgAyAJQQFrIgQ2AvgCIAMoAvQCIgcgBEEDdGoiAigCBCEFIAIqAgAhMQJAIARFBEAgMSEBIAUhCgwBCyAHKAIEIQogByAFNgIEIAcqAgAhASAHIDE4AgBBACECQQEhBiAJQQRPBEAgBEECayICQQAgAiAETRshCEEAIQQDQCAHIARBA3RqIAcgBiAHIAZBA3RqIgJBCGoqAgAiMiAyWyAyIAIqAgAiM2BFcSIEIARBfyAyIDNfGyAzIDNcGyIEQQBMIAJBBGooAgAgAkEMaigCAE0gBBtqIgJBA3RqKQIANwIAIAJBAXQiDUEBciEGIAIhBCAIIA1LDQALCwJAAkAgCUECayAGRgRAIAcgAkEDdGogByAGQQN0aiICKQIANwIAIAIgBTYCBCACIDE4AgAgBiECDAELIAcgAkEDdGoiBCAFNgIEIAQgMTgCACACDQBBACEEDAELIDEgMVwEQANAAkAgByACQQFrIghBAXYiBEEDdGoiBioCACIyIDJbIDEgMl9FcQ0AIAUgBkEEaigCAEsNACACIQQMAwsgByACQQN0aiAGKQIANwIAIAQhAiAIQQJPDQAMAgsACwNAIAcgAkEBayIIQQF2IgRBA3RqIgYqAgAiMiAyWyAxIDJfRXFBfyAxIDJgGyIJQQBMIAUgBkEEaigCAE0gCRsEQCACIQQMAgsgByACQQN0aiAGKQIANwIAIAQhAiAIQQFLDQALCyAHIARBA3RqIgIgBTYCBCACIDE4AgALIANBkAFqIAAoAhAgACgCFCAKEOgCIAMoAowBIQICQAJAIAMoArQBIgRBCUkiBUUEQCADKAKUASACaiIIIAxLDQEMAgsgAiAEaiIIIAxNDQELIANB8AJqIAEgChDxBCADICA3A1AgAyACs0MAAIA3lDgCQCADQgE3AuwBIANBATYC5AEgA0H4wcEANgLgASADIANB0ABqNgLoASADQbgBaiADQeABahDsAyADKAK4ASICBEAgAygCvAEiBkEEaygCACIHQXhxIghBBEEIIAdBA3EiBxsgAmpJDQsgB0EAIAggAkEnaksbDQwgBhCiAgsgBUUEQCADKAKYASICQQRrKAIAIgVBeHEiBiAEQQJ0IgRBBEEIIAVBA3EiBRtqSQ0LIAVBACAGIARBJ2pLGw0MIAIQogILIAMoAvgCIgJFDQIgAygC9AIiBCACQQN0IgZqIQggACgCBCEKIAAoAgghB/0MAACA/wAAgP8AAID/AACA/yEu/QwAAIB/AACAfwAAgH8AAIB/IS9BACEFAkACQAJAAkACQANAIAQgBWpBBGooAgAiAiAHTw0BIANB4AFqIgkgCiACQSRsaiICEJoDIAP9AATgASEtIAkgAikCABDLAiAuIAL9XQIIIAIqAhAiAf0gAiAB/SADIjAgLf0MbxKDOm8SgzpvEoM6bxKDOv3rAf0MAADAPwAAwD8AAMA/AADAP/3mASIuIC39DQgJCgsICQoLCAkKCwABAgNDAACAPyAD/QAE4AEiLf0fACIBIAEgAZIiNJQiNyAt/R8BIjEgMSAxkiIzlCI4kpP9EyABIC39HwIiNSA1kiIylCI5IC39HwMiNiAzlCI6kv0gACAxIDKUIjEgNiA0lCI0k/0gAf3gAf3mASAuIC39DQQFBgcEBQYHBAUGBwABAgMgMSA0kv0TIAEgM5QiASA2IDKUIjGT/SAAQwAAgD8gNyA1IDKUIjKSk/0gAf3gAf3mASAuIC39DQABAgMAAQIDAAECAwABAgMgOSA6k/0TQwAAgD8gOCAykpP9IAAgASAxkv0gAf3gAf3mAf3kAf3kASIt/eQB/esBIS4gLyAwIC395QH96gEhLyAGIAVBCGoiBUcNAAsgLiAv/eUBIi0gLSAt/Q0ICQoLCAkKCwABAgMAAQID/esBIjAgMCAt/Q0EBQYHAAECAwABAgMAAQID/esB/R8AIC0gLSAt/Q0ICQoLCAkKCwQFBgcEBQYH/eoBIjAgMCAt/Q0EBQYHAAECAwABAgMAAQID/eoB/R8AQwAAQECUYEUEQCADQgQ3AugCIANCADcC4AIgA0KAgICAwAA3AtgCIANCBDcC0AIgA0IANwLIAiADQoCAgIDAADcCwAIgA0IENwK4AiADQgA3ArACIANCgICAgMAANwKoAiADQgQ3AqACIANCADcCmAIgA0KAgICAwAA3ApACIC8gLv3kAf0MAAAAPwAAAD8AAAA/AAAAP/3mASIt/R8AIQEgLf0fAiExIC39HwEhMkEAIQIgAygC8AIhBwNAIAIgBGpBBGooAgAiBSAAKAIIIghPDQMgA0GQAmogFSAAKAIEIAVBJGxqIggqAgggAV0bQQBBGCAIKgIMIDJdG2oiCkEIQTggCCoCECAxXSIIG2oiDCgCACIJIApBAEEwIAgbaiINKAIARgRAIA1BsMLBABCLBgsgCkEEQTQgCBtqKAIAIAwgCUEBajYCACAJQQJ0aiAFNgIAIAYgAkEIaiICRw0ACyAHBEAgBEEEaygCACICQXhxIgUgB0EDdCIGQQRBCCACQQNxIgIbakkNESACQQAgBSAGQSdqSxsNEiAEEKICC0EgEHEiAkUNDSACIAMoApgCNgIAIAIgAygCpAI2AgQgAiADKAKwAjYCCCACIAMoArwCNgIMIAIgAygCyAI2AhAgAiADKALUAjYCFCACIAMoAuACNgIYIAIgAygC7AI2AhwgA0EINgLAASADIAI2ArwBIANBCDYCuAEgAyAhNwOQASADQgE3AuwBIANBAjYC5AEgA0GQwsEANgLgASADIANBkAFqNgLoASADQeABahDrAiADKAK4ASICBEAgAygCvAEiBEEEaygCACIFQXhxIgYgAkECdCICQQRBCCAFQQNxIgUbakkNESAFQQAgBiACQSdqSxsNBCAEEKICC0HgABBxIgJFDQ0gAiADQZACakHgAPwKAAAgAigCACEEIAJBgICAgHg2AgAgBEGAgICAeEYNBCACQQRqIg4pAgAhGiACKAIMIQcgAkGAgICAeDYCDCAHQYCAgIB4Rg0EIAIpAhAhGyACKAIkIQggAkGAgICAeDYCJCAIQYCAgIB4Rg0EIAIpAighHCACKAIYIQogAkGAgICAeDYCGCAKQYCAgIB4Rg0EIAIpAhwhJCACKAJIIQkgAkGAgICAeDYCSCAJQYCAgIB4Rg0EIAIpAkwhJSACKAJUIQwgAkGAgICAeDYCVCAMQYCAgIB4Rg0EIAIpAlghJiACKAI8IQ0gAkGAgICAeDYCPCANQYCAgIB4Rg0EIAIpAkAhJyACKAIwIREgAkGAgICAeDYCMCARQYCAgIB4Rg0EIAIpAjQhKCADKAJsIgUgAygCYCIGRgRAIANB4ABqQaDCwQAQpAYgAygCYCEGIAMoAmwhBQsgAygCZCADKAJoIAVqIg8gBkEAIAYgD00ba0EMbGoiBiAaNwIEIAYgBDYCACADIAVBAWoiBTYCbCADKAJgIgYgBUYEQCADQeAAakGgwsEAEKQGIAMoAmAhBiADKAJsIQULIAMoAmQgAygCaCAFaiIEIAZBACAEIAZPG2tBDGxqIgQgGzcCBCAEIAc2AgAgAyAFQQFqIgU2AmwgAygCYCIGIAVGBEAgA0HgAGpBoMLBABCkBiADKAJgIQYgAygCbCEFCyADKAJkIAMoAmggBWoiBCAGQQAgBCAGTxtrQQxsaiIEIBw3AgQgBCAINgIAIAMgBUEBaiIFNgJsIAMoAmAiBiAFRgRAIANB4ABqQaDCwQAQpAYgAygCYCEGIAMoAmwhBQsgAygCZCADKAJoIAVqIgQgBkEAIAQgBk8ba0EMbGoiBCAkNwIEIAQgCjYCACADIAVBAWoiBTYCbCADKAJgIgYgBUYEQCADQeAAakGgwsEAEKQGIAMoAmAhBiADKAJsIQULIAMoAmQgAygCaCAFaiIEIAZBACAEIAZPG2tBDGxqIgQgJTcCBCAEIAk2AgAgAyAFQQFqIgU2AmwgAygCYCIGIAVGBEAgA0HgAGpBoMLBABCkBiADKAJgIQYgAygCbCEFCyADKAJkIAMoAmggBWoiBCAGQQAgBCAGTxtrQQxsaiIEICY3AgQgBCAMNgIAIAMgBUEBaiIFNgJsIAMoAmAiBiAFRgRAIANB4ABqQaDCwQAQpAYgAygCYCEGIAMoAmwhBQsgAygCZCADKAJoIAVqIgQgBkEAIAQgBk8ba0EMbGoiBCAnNwIEIAQgDTYCACADIAVBAWoiBTYCbCADKAJgIgYgBUYEQCADQeAAakGgwsEAEKQGIAMoAmAhBiADKAJsIQULIAMoAmQgAygCaCAFaiIEIAZBACAEIAZPG2tBDGxqIgQgKDcCBCAEIBE2AgAgAyAFQQFqNgJsIAIoAgAiBEGAgICAeHJBgICAgHhHBEAgDigCACIFQQRrKAIAIgZBeHEiByAEQQJ0IgRBBEEIIAZBA3EiBhtqSQ0RIAZBACAHIARBJ2pLGw0SIAUQogILIAIoAgwiBEGAgICAeHJBgICAgHhHBEAgAigCECIFQQRrKAIAIgZBeHEiByAEQQJ0IgRBBEEIIAZBA3EiBhtqSQ0RIAZBACAHIARBJ2pLGw0SIAUQogILIAIoAhgiBEGAgICAeHJBgICAgHhHBEAgAigCHCIFQQRrKAIAIgZBeHEiByAEQQJ0IgRBBEEIIAZBA3EiBhtqSQ0RIAZBACAHIARBJ2pLGw0SIAUQogILIAIoAiQiBEGAgICAeHJBgICAgHhHBEAgAigCKCIFQQRrKAIAIgZBeHEiByAEQQJ0IgRBBEEIIAZBA3EiBhtqSQ0RIAZBACAHIARBJ2pLGw0SIAUQogILIAIoAjAiBEGAgICAeHJBgICAgHhHBEAgAigCNCIFQQRrKAIAIgZBeHEiByAEQQJ0IgRBBEEIIAZBA3EiBhtqSQ0RIAZBACAHIARBJ2pLGw0SIAUQogILIAIoAjwiBEGAgICAeHJBgICAgHhHBEAgAigCQCIFQQRrKAIAIgZBeHEiByAEQQJ0IgRBBEEIIAZBA3EiBhtqSQ0RIAZBACAHIARBJ2pLGw0SIAUQogILIAIoAkgiBEGAgICAeHJBgICAgHhHBEAgAigCTCIFQQRrKAIAIgZBeHEiByAEQQJ0IgRBBEEIIAZBA3EiBhtqSQ0RIAZBACAHIARBJ2pLGw0SIAUQogILIAIoAlQiBEGAgICAeHJBgICAgHhHBEAgAigCWCIFQQRrKAIAIgZBeHEiByAEQQJ0IgRBBEEIIAZBA3EiBhtqSQ0RIAZBACAHIARBJ2pLGw0SIAUQogILIAJBBGsoAgAiBEF4cUHkAEHoACAEQQNxIgUbSQ0QIAVBACAEQYgBTxsNBSACEKICDAkLIAMgLyAu/eQB/QwAAAA/AAAAPwAAAD8AAAA//eYB/QsEACADQQBBAUECIC39HwEiASAt/R8CIjFgGyICIDEgLf0fACIyXxsgAiABIDJfGyICOgCAASADIAMgAkECdHIqAgA4AjQgAyAINgLEASADIAMoAvACNgLAASADIAQ2ArwBIAMgBDYCuAEgAyAANgKUASADIANBNGo2ApgBIAMgA0GAAWo2ApABIANB4AFqIgUgA0G4AWoiBiADQZABahCOBCADKQPgASEcIAMpAuwBIRogAygC9AEhAiADKALoASEEIAMgLf0LBJABIAMgBDYCQCADIAI2AlAgA0EGNgK8ASADQezCwQA2ArgBIANCBTcCxAEgAyAdNwOAAiADIB83A/gBIAMgHjcD8AEgAyAiNwPoASADICM3A+ABIAMgBTYCwAEgBhDrAgJAIAIgBE0EQCAaIRsgAiEGIBwhGiAEIQIMAQsgHCEbIAQhBgsgAyACNgLwASADQQI2AuQBIAMgBjYC/AEgAyAaNwLoASADIBs3AvQBQQEhAgJAIBqnIgRBgICAgHhGDQAgAykC7AEhGiADKAJsIgIgAygCYCIFRgRAIANB4ABqQZzDwQAQpAYgAygCYCEFIAMoAmwhAgsgAygCZCADKAJoIAJqIgYgBUEAIAUgBk0ba0EMbGoiBSAaNwIEIAUgBDYCACADIAJBAWo2AmxBAiECIBunIgRBgICAgHhGDQAgAykC+AEhGiADKAJsIgUgAygCYCIGRgRAIANB4ABqQZzDwQAQpAYgAygCYCEGIAMoAmwhBQsgAygCZCADKAJoIAVqIgcgBkEAIAYgB00ba0EMbGoiBiAaNwIEIAYgBDYCACADIAVBAWo2AmwLIAMgAjYC4AEgA0HgAWoQlgYMCAsgAiAHQdTAxwAQjAcACyAFIAhB1MDHABCMBwALQYyNyABBLkG8jcgAEOsHDAkLQbzDwQAQ3QkACwwLC0EAIQYgA0EANgLgASADQQA2AoQCQQghBwJAAkACfyAIIAJrIgRBACAEIAhNGyIEQQlJBEAgCyEJIBIMAQsgA0EQaiADQeABakF/IARBAWtndkEBahDoAyADKAIQIgRBgYCAgHhHBEAgBA0KQdiVxwBBEUHUzMcAEOsHAAsgAygChAIiB0EJSQRAIAchBiALIQlBCCEHIBIMAQsgAygC5AEhBiADKALoASEJIAsLIhEgBiAHSQR/IAcgBkF/c2oiBCAIIAIgAiAISRsiDiACayIFIAQgBUkbQQFqIgRBBEsEQCAJIAZBAnRqIQUgAv0R/QwAAAAAAQAAAAIAAAADAAAA/a4BIS0gBCAEQQNxIgRBBCAEG2siDSEEA0AgBSAt/QsCACAFQRBqIQUgLf0MBAAAAAQAAAAEAAAABAAAAP2uASEtIARBBGsiBA0ACyAGIA1qIQYgAiANaiECCyAJIAZBAnRqIQUDQCACIA5GDQIgBSACNgIAIAVBBGohBSACQQFqIQIgByAGQQFqIgZHDQALIAcFIAYLNgIAIAIgCE8NAQNAAn8gAygChAIiBEEJTwRAIAMoAuQBIQUgAygC6AEhByALDAELIAQhBSALIQdBCCEEIBILIQYgBCAFRgR/IANB4AFqEM0GIAMoAugBIQcgCyEGIAMoAuQBBSAFC0ECdCAHaiACNgIAIAYgBigCAEEBajYCACACQQFqIgIgCEcNAAsMAQsgESAGNgIACyADQdgBaiADQYACaikCADcDACADQcgBaiADQfABav0AAgD9CwMAIAMgA/0AAuAB/QsDuAEgACgCECAAKAIUIAogAygC3AEiBUEJTwR/IAMoArwBIQUgAygCwAEFIBALIAUQ5AUgAygClAEhBCADKAKQASECIBNBGGogFEEYaigCADYCACATQRBqIBRBEGopAgA3AgAgEyAU/QACAP0LAgAgAyACNgLgASADIAQgAygCtAEiCCAIQQhLIgIbIg02AowCIAMgCEEAIAIbNgKEAiADQQAgBCACGzYC5AEgDQRAIAMoAugBIAsgAhshEUEAIQogAygCjAEhCQNAIAMgCiICQQFqIgo2AogCIBEgAkECdGooAgAhBSADKAKEASAJRgRAIANBhAFqQcjBwQAQiwYLIAMoAogBIAlBAnRqIAU2AgAgAyAJQQFqIgk2AowBAn8CQCAAKAIIIgIgBUsEQCAAKAIEIAVBJGxqIgYvARwhAkEAIQdBACAGLwEeIgRB//8BcSIOQYD4AUsNAhpBACACQf//AXEiD0GA+AFLDQIaIATBQQBIDQEgAiAESSACwUEATg0CGiAEIA9yQQBHDAILIAUgAkHUwMcAEIwHAAsgAsFBAEggAiAES3ELIQ8gBCACIA8bIAIgDkGB+AFJGyECAkAgBi8BICIEQf//AXEiDkGA+AFLDQAgAkH//wFxIg9BgPgBSw0AIATBQQBOBEAgAsFBAE4EQCAEIAJB//8DcUshBwwCCyAEIA9yQQBHIQcMAQsgAsFBAEggBCACQf//A3FJcSEHCyAGLwEUIQYCfyAEIAIgBxsgAiAOQYH4AUkbIgRB//8BcUUEQCAEQRB0DAELIARB/wdxIQIgBEGAgAJxIQcgBEGA+AFxIgRBgPgBRgRAIAdBEHQiBEGAgID8B3IgAkUNARogBCACQQ10ckGAgID+B3IMAQsgB0EQdCIHIARBDXRBgICA/ABxIAJBDXRyQYCAgMADanIgBA0AGiAHQYCAgNgDciACZ0EQayIEQRd0ayACIARB//8DcUEIanRB////A3FyC74QiQQhMUMAAIA/IQECfyAGQRB0IAZB//8BcUUNABogBkH/B3EhAiAGQYCAAnEhBCAGQYD4AXEiBkGA+AFGBEAgBEEQdCIEQYCAgPwHciACRQ0BGiAEIAJBDXRyQYCAgP4HcgwBCyAEQRB0IgQgBkENdEGAgID8AHEgAkENdHJBgICAwANqciAGDQAaIARBgICA2ANyIAJnQRBrIgRBF3RrIAIgBEH//wNxQQhqdEH///8DcXILviIyQwAAgD9eBEAgMhDGBUNU+C1AlEMAAIA/kpEhAQsgAygC+AIiAiADKALwAkYEQCADQfACakHIlcEAEPkFCyADKAL0AiIGIAJBA3RqIgQgBTYCBCAEIDEgMZIgAZQiATgCACADIAJBAWo2AvgCAkAgAkUEQEEAIQQMAQsgASABXARAA0ACQCAGIAJBAWsiDkEBdiIEQQN0aiIHKgIAIjEgMVsgASAxX0VxDQAgBSAHQQRqKAIASw0AIAIhBAwDCyAGIAJBA3RqIAcpAgA3AgAgBCECIA5BAk8NAAwCCwALA0AgBiACQQFrIg5BAXYiBEEDdGoiByoCACIxIDFbIAEgMV9FcUF/IAEgMWAbIg9BAEwgBSAHQQRqKAIATSAPGwRAIAIhBAwCCyAGIAJBA3RqIAcpAgA3AgAgBCECIA5BAUsNAAsLIAYgBEEDdGoiAiAFNgIEIAIgATgCACAKIA1HDQALCyAIQQlPBEAgAygC6AEiAkEEaygCACIEQXhxIgUgCEECdCIGQQRBCCAEQQNxIgQbakkNBCAEQQAgBSAGQSdqSxsNCyACEKICCyADKALcASICQQlPBEAgAygCwAEiBEEEaygCACIFQXhxIgYgAkECdCICQQRBCCAFQQNxIgUbakkNCiAFQQAgBiACQSdqSxsNCyAEEKICCyADKAL4AiIJDQALCyADKALwAiICRQ0AIAMoAvQCIgRBBGsoAgAiBUF4cSIGIAJBA3QiAkEEQQggBUEDcSIFG2pJDQcgBUEAIAYgAkEnaksbDQMgBBCiAgsgAygCbCICDQEMBAsLDAQLDAQLAAsgAygCjAEhBQsgAyAAKAIIIgI2ArgBIAMgBTYCkAEgAiAFRwRAIANBADYC4AFBACADQZABaiADQbgBaiADQeABakGsw8EAEPUHAAsgACADKAKIASIAIAUQ8AEgA0HgAGoQ6wMCQCADKAKEASICBEAgAEEEaygCACIEQXhxIgUgAkECdCICQQRBCCAEQQNxIgQbakkNAiAEQQAgBSACQSdqSxsNASAAEKICCyADQYADaiQADwsMAQtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQZj6xwBB1gAgA0H/AmpBpO7BAEG07sEAEOAGAAuSvAEEF38SfgR7DH0jAEGAA2siAyQAIAAQogEgAyACOgAnIAMgATgCICADIAAoAggiBTYCYCADIANBJ2qtQoCAgIDAAYQ3A8gBIAMgA0Egaq1CgICAgNABhDcDwAEgAyADQeAAaq0iGkKAgICAEIQ3A7gBIANCAzcC7AEgA0EDNgLkASADQYDjwQA2AuABIAMgA0G4AWo2AugBIANBkAFqIANB4AFqEOwDAkACQAJAIAMoApABIgIEQCADKAKUASIEQQRrKAIAIgZBeHEiBUEEQQggBkEDcSIGGyACakkNASAGQQAgBSACQSdqSxsNAiAEEKICIAAoAgghBQsCQAJAAkACQCAFRQ0AIAVBAnQiCBBxIgdFDQFBACECAkACQAJAIAVBBE8EQP0MAAAAAAEAAAACAAAAAwAAACEsIAchBiAFQfz//z9xIgIhBANAIAYgLP0LAgAgBkEQaiEGICz9DAQAAAAEAAAABAAAAAQAAAD9rgEhLCAEQQRrIgQNAAsgAiAFRg0BCyAHIAJBAnRqIQYDQCAGIAI2AgAgBkEEaiEGIAUgAkEBaiICRw0ACyADIAA2AuQBIAMgA0H8AGo2AuABIAMgA0HgAWo2ArgBIAVBAUYNAgwBCyADIAA2AuQBIAMgA0H8AGo2AuABIAMgA0HgAWo2ArgBCyAFQRVPBEAgA0G4AWohBiMAQYAgayIJJAACQAJAAkACQAJAQYCJ+gAgBSAFQYCJ+gBPGyIEIAUgBUEBdmsiAiACIARJGyIEQYEITwRAIAJB/////wNLDQJBMCAEIARBME0bIgpBAnQiAkH9////B08NAiACEHEiBEUNAyAHIAUgBCAKIAVBwQBJIAYQYSAEQQRrKAIAIgZBeHEiCkEEQQggBkEDcSIGGyACakkNBCAGQQAgCiACQSdqSxsNBSAEEKICDAELIAcgBSAJQYAIIAVBwQBJIAYQYQsgCUGAIGokAAwFC0HYlcEAEP8HCwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0EEIQIDQCAHIAIgB2ogA0HgAWoQygEgCCACQQRqIgJHDQALCyAAIAcgBRCJAgJ/AkACQCAHQQRrKAIAIgJBeHEiBEEEQQggAkEDcSICGyAIak8EQCACQQAgBCAIQSdqSxsNCSAHEKICIAAQmgQgACgCCEUNASAAKAIEIgQtABMiAiAELQASIgYgBC0AESIFIAUgBkkbIgYgAiAGSxsiBQR9QwAAQMEgACoCRCAALQBYQQJGIgIbIgFDAAAQQSAAKgJIIAIbIAGTQwAAfkOVIAVBAWtB/wFxs5SSEIkEIgEgAZIFQwAAAAALITAgBEEMai8BACIGQf//AXFFBEAgBkEQdAwECyAGQf8HcSECIAZBgIACcSEHIAZBgPgBcSIGQYD4AUYEQCAHQRB0IgZBgICA/AdyIAJFDQQaIAYgAkENdHJBgICA/gdyDAQLIAdBEHQhByAGRQ0CIAZBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAHcgwDCwwHC0EAQQBB3LvHABCMBwALIAIgAmdBEGsiAkH//wNxQQhqdEH///8DcSAHQYCAgNgDciACQRd0a3ILQwAAgD8hAb4iMUMAAIA/XgRAIDEQxgVDVPgtQJRDAACAP5KRIQELIAMqAiAhMSADQf//ASAwIAGUQ703hjUQ4AgQxgUgMRDGBZWNIgH8AEGAgH4gAUMAAADHYBsgAUMA/v9GXhtBACABIAFbGzsBKCADIAUEfUMAAEDBIAAqAkQgAC0AWEECRiICGyIBQwAAEEEgACoCSCACGyABk0MAAH5DlSAFQQFrQf8BcbOUkhCJBCIBIAGSBUMAAAAACwJ/IARBDGovAQAiBEH//wFxRQRAIARBEHQMAQsgBEH/B3EhAiAEQYCAAnEhBiAEQYD4AXEiBEGA+AFGBEAgBkEQdCIEQYCAgPwHciACRQ0BGiAEIAJBDXRyQYCAgP4HcgwBCyAGQRB0IgYgBEENdEGAgID8AHEgAkENdHJBgICAwANqciAEDQAaIAIgAmdBEGsiAkH//wNxQQhqdEH///8DcSAGQYCAgNgDciACQRd0a3ILviIBQwAAgD9eBH0gARDGBUNU+C1AlEMAAIA/kpEFQwAAgD8LlDgCYCADIBpCgICAgNABhDcDwAEgAyADQShqrUKAgICA4AGENwO4ASADQgI3AuwBIANBAjYC5AEgA0G448EANgLgASADIANBuAFqNgLoASADQZABaiADQeABahDsAyADKAKQASICBEAgAygClAEiBEEEaygCACIGQXhxIgVBBEEIIAZBA3EiBhsgAmpJDQUgBkEAIAUgAkEnaksbDQYgBBCiAgsgAyADLwEoOwEqIAMgACgCCDYCLCADQQA2AjAgA0EANgI8IANCgICAgIABNwI0IANBADYCSCADQoCAgIDAADcCQEHYtskAKAIAIgJFBEAQkwUhAgsgAigCACACKAIEKAIMEQQAIQIgA0HwmsgA/QADAP0LA+ABIAMgAq1Cxs7rhrfq7a0ShSIbQjiGIBtCgP4Dg0IohoQgG0KAgPwHg0IYhiAbQoCAgPgPg0IIhoSEQpK23Z0FhELSgaqbq/qC16d/fiIaQoDoAoNCKIYgGkKAgJQDg0IYhiAaQoCAgKgKg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEQoCAgICAgICARIQgG0LYotHvwqnlvy1+hSIcQu3cspuNpYnMywCFIhpC2KLR78Kp5b8tfiAaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEQtKBqpur+oLXp39+IhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhISFQov9+pfHxteXhn+FIhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIRC0oGqm6v6gtenf34iG0I4hiAbQoD+A4NCKIaEIBtCgID8B4NCGIYgG0KAgID4D4NCCIaEhCAbQgiIQoCAgPgPgyAbQhiIQoCA/AeDhCAbQiiIQoD+A4MgG0I4iISEhCAaQtii0e/CqeW/LX6FIhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIRCiKyRp/aIgJywf34iG0I4hiAbQoD+A4NCKIaEIBtCgID8B4NCGIYgG0KAgID4D4NCCIaEhCAbQgiIQoCAgPgPgyAbQhiIQoCA/AeDhCAbQiiIQoD+A4MgG0I4iISEhCAaQs+O/8e788bUd36FIBqJNwOIAiADIBxC1oLNoZD9lI5LhSIaQtii0e/CqeW/LX4gGkI4hiAaQoD+A4NCKIaEIBpCgID8B4NCGIYgGkKAgID4D4NCCIaEhCAaQgiIQoCAgPgPgyAaQhiIQoCA/AeDhCAaQiiIQoD+A4MgGkI4iISEhELSgaqbq/qC16d/fiIaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEhUL8w7ynyZXV5OgAhSIaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEQtKBqpur+oLXp39+IhtCOIYgG0KA/gODQiiGhCAbQoCA/AeDQhiGIBtCgICA+A+DQgiGhIQgG0IIiEKAgID4D4MgG0IYiEKAgPwHg4QgG0IoiEKA/gODIBtCOIiEhIQgGkLYotHvwqnlvy1+hSIaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEQoiskaf2iICcsH9+IhtCOIYgG0KA/gODQiiGhCAbQoCA/AeDQhiGIBtCgICA+A+DQgiGhIQgG0IIiEKAgID4D4MgG0IYiEKAgPwHg4QgG0IoiEKA/gODIBtCOIiEhIQgGkLPjv/Hu/PG1Hd+hSAaiTcDgAIgAyAcQvzDvKfJldXk6ACFIhpC2KLR78Kp5b8tfiAaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEQtKBqpur+oLXp39+IhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhISFQu3cspuNpYnMywCFIhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIRC0oGqm6v6gtenf34iG0I4hiAbQoD+A4NCKIaEIBtCgID8B4NCGIYgG0KAgID4D4NCCIaEhCAbQgiIQoCAgPgPgyAbQhiIQoCA/AeDhCAbQiiIQoD+A4MgG0I4iISEhCAaQtii0e/CqeW/LX6FIhpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIRCiKyRp/aIgJywf34iG0I4hiAbQoD+A4NCKIaEIBtCgID8B4NCGIYgG0KAgID4D4NCCIaEhCAbQgiIQoCAgPgPgyAbQhiIQoCA/AeDhCAbQiiIQoD+A4MgG0I4iISEhCAaQs+O/8e788bUd36FIBqJNwP4ASADIBxCi/36l8fG15eGf4UiGkLYotHvwqnlvy1+IBpCOIYgGkKA/gODQiiGhCAaQoCA/AeDQhiGIBpCgICA+A+DQgiGhIQgGkIIiEKAgID4D4MgGkIYiEKAgPwHg4QgGkIoiEKA/gODIBpCOIiEhIRC0oGqm6v6gtenf34iGkI4hiAaQoD+A4NCKIaEIBpCgID8B4NCGIYgGkKAgID4D4NCCIaEhCAaQgiIQoCAgPgPgyAaQhiIQoCA/AeDhCAaQiiIQoD+A4MgGkI4iISEhIVC1oLNoZD9lI5LhSIaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEQtKBqpur+oLXp39+IhtCOIYgG0KA/gODQiiGhCAbQoCA/AeDQhiGIBtCgICA+A+DQgiGhIQgG0IIiEKAgID4D4MgG0IYiEKAgPwHg4QgG0IoiEKA/gODIBtCOIiEhIQgGkLYotHvwqnlvy1+hSIaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEQoiskaf2iICcsH9+IhtCOIYgG0KA/gODQiiGhCAbQoCA/AeDQhiGIBtCgICA+A+DQgiGhIQgG0IIiEKAgID4D4MgG0IYiEKAgPwHg4QgG0IoiEKA/gODIBtCOIiEhIQgGkLPjv/Hu/PG1Hd+hSAaiTcD8AEgA0HQAGqtQoCAgIAQhCEjIANBLGqtQoCAgIAQhCEkIANBMGqtQoCAgIAQhCElIANBzABqrUKAgICA0AGEISYgA0Eqaq1CgICAgOABhCEnIANBgAFqrSIoQoCAgIDwAYQhKSADQdwAaq1CgICAgPABhCEqIANBvAFqIQ0gA0HkAGohEiADQcwBaiEPAkACQAJAAkADQCADIAMqAiAgAy4BKrIQtwo4AkwCQCADKAIwIgIgAygCLE8NAANAQwAAgD8hAQJ/AkAgACgCCCIEIAJLBEAgACgCBCACQRhsaiIELQATIgYgBC0AEiIFIAQtABEiByAFIAdLGyIFIAUgBkkbIgYEfUMAAEDBIAAqAkQgAC0AWEECRiIFGyIwQwAAEEEgACoCSCAFGyAwk0MAAH5DlSAGQQFrQf8BcbOUkhCJBCIwIDCSBUMAAAAACyEwIARBDGovAQAiBkH//wFxRQRAIAZBEHQMAwsgBkH/B3EhBCAGQYCAAnEhBSAGQYD4AXEiBkGA+AFGBEAgBUEQdCIGQYCAgPwHciAERQ0DGiAGIARBDXRyQYCAgP4HcgwDCyAFQRB0IQUgBkUNASAGQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogBXIMAgsgAiAEQdy7xwAQjAcACyAEIARnQRBrIgRB//8DcUEIanRB////A3EgBUGAgIDYA3IgBEEXdGtyC74iMUMAAIA/XgRAIDEQxgVDVPgtQJRDAACAP5KRIQELIAMqAkwgMCABlF0NASADKAI8IgQgAygCNEYEQCADQTRqEJMGCyADKAI4IARBBXRqIgYgAjYCACAGQgA3AgggBkEQav0MAAAAAAAAAAAAAAAAAAAAAP0LAgAgAyAEQQFqNgI8IAMgAygCMEEBaiICNgIwIAIgAygCLEkNAAsLIAMgJDcD0AEgAyAlNwPIASADICY3A8ABIAMgJzcDuAFBPBBxIgJFDQYgA0EANgL4AiADIAI2AvQCIANBPDYC8AIgA0IENwKcASADQQQ2ApQBIANB+OPBADYCkAEgAyADQbgBajYCmAECQCADQfACakGM78EAIANBkAFqEMEDRQRAIAMoAvACIgIEQCADKAL0AiIEQQRrKAIAIgZBeHEiBUEEQQggBkEDcSIGGyACakkNDCAGQQAgBSACQSdqSxsNDSAEEKICCwJAAkAgAygCPCIHRQ0AIAMoAjgiBSAHQQV0aiEIIAP9CQJMIS0gBSECA0AgAigCACIEIAAoAggiBk8NAiACQQhqIAAoAgQgBEEYbGr9AAIAICz9DQABAgMEBQYHCAkKCwgJCgsgLf3nAf1oIiz9HwD8BCIbQv///wCDIhpCEIYgG0IghoQgGoRC/4GA+I+AwA+DQoECfkKP4IP4gJ7AhxCDQhF+QsPhsJiMhsPhEINCBX5CyaSSyaSSyaQSgyAbQhWIIh9CP4aEICz9HwH8BCIcQv///wCDIhpCEIYgHEIghoQgGoRC/4GA+I+AwA+DQoECfkKP4IP4gJ7AhxCDQhF+QsPhsJiMhsPhEINCCn5Cksmkksmkkskkg4QgLP0fAvwEIhpC////AIMiHUIQhiAaQiCGhCAdhEL/gYD4j4DAD4NCgQJ+Qo/gg/iAnsCHEINCEX5Cw+GwmIyGw+EQg0IUfkKkksmkksmkkskAg4Q3AwAgAkEYaiAcQiqIIh1CEIYgHUIghoQgHYRC/4GA+I+AwA+DQoECfkKP4IP4gJ7AhxCDQhF+QsPhsJiMhsPhEINCBX5CyKSSyaSSyaQSgyAcQoCAgICAgICAgH+DhEIBiCAbQiqIIh5CEIYgHkIghoQgHoRC/4GA+I+AwA+DQoECfkKP4IP4gJ7AhxCDQhF+QsPhsJiMhsPhEINCBX5CyaSSyaSSyaQSgyIeIBtCgICAgICAgICAf4OEQgKIhCAaQiqIIhtCEIYgG0IghoQgG4RC/4GA+I+AwA+DQoECfkKP4IP4gJ7AhxCDQhF+QsPhsJiMhsPhEINCBX4iG0LIpJLJpJLJpBKDIBpCgICAgICAgICAf4OEIBtCAYOEhDcDACACQRBqIBxCFYgiG0L///8AgyIcQhCGIBtCIIaEIByEQv+BgPiPgMAPg0KBAn5Cj+CD+ICewIcQg0IRfkLD4bCYjIbD4RCDQgV+QsikksmkksmkEoMgHUI/hoQgG0IBg4QgH0L///8AgyIbQhCGIB9CIIaEIBuEQv+BgPiPgMAPg0KBAn5Cj+CD+ICewIcQg0IRfkLD4bCYjIbD4RCDQgV+QgGIQqSSyaSSyaSSCYMgHkI+hoSEIBpCFYgiG0L///8AgyIcQhCGIBtCIIaEIByEQv+BgPiPgMAPg0KBAn5Cj+CD+ICewIcQg0IRfkLD4bCYjIbD4RCDQgp+QpDJpJLJpJLJJIMgGkIUiEICg4SENwMAIAJBIGoiAiAIRw0ACyAHQQFGDQAgB0EVTwRAIAUgBxD+AwwBCyAFQSBqIQZBACEJIAUhDANAIAwhAiAGIQwgAikDOCEcIAIpAygiHSEaAkACQCAdIAIpAwgiG1INACACKQMwIhogAikDECIbUg0AIAIpAxgiGyAcIhpRDQELIBogG1oNACACKQMwIR8gAikDICEeIAkhBgNAAkAgBSAGaiICQSBqIgQgAv0AAwD9CwMAIAJBMGogAkEQav0AAwD9CwMAIAZFBEAgAkEgaiEEIAUhAgwBCwJAIAJBGGspAwAiGyAdIhpSDQAgBSAGakEQaykDACIbIB8iGlINACACQQhrKQMAIhsgHCIaUQ0BCyAGQSBrIQYgGiAbVA0BCwsgAiAeNwMAIARBCGsgHDcDACAEQRBrIB83AwAgBEEYayAdNwMACyAJQSBqIQkgDEEgaiIGIAhHDQALCyADICM3A/ACIAMgBzYCUEEeEHEiAkUNCSADQQA2ApgBIAMgAjYClAEgA0EeNgKQASADQgE3AsQBIANBATYCvAEgA0Go5MEANgK4ASADIANB8AJqNgLAASADQZABakGM78EAIANBuAFqEMEDRQRAIAMoApABIgIEQCADKAKUASIEQQRrKAIAIgZBeHEiBUEEQQggBkEDcSIGGyACakkNDiAGQQAgBSACQSdqSxsNDyAEEKICCyADQQA2AlggA0KAgICAwAA3AlAgA0EANgKMASADQoCAgIDAADcChAEgA0EANgJcIANBADYCgAEgB0UEQEL///////////8AIR1CgICAgICAgICAfyEfQoCAgICAgICAgH8hHkKAgICAgICAgIB/ISBC////////////ACEhQv///////////wAhIgwEC0KAgICAgICAgIB/ISBC////////////ACEiQQAhAkL///////////8AISFC////////////ACEdQoCAgICAgICAgH8hHkKAgICAgICAgIB/IR8DQAJAAkAgAygCOCIWIAJBBXQiCWoiBigCACIFIAAoAggiBEkEQCAAKAIEIgogBUEYbGr9AAIAICz9DQABAgMEBQYHCAkKCwgJCgsgA/0JAkwiLf3nAf1oIiz9HwL8BCEaICz9HwH8BCEbICz9HwD8BCEcIAcgAkEBaiIITQRAIAIhCwwDCyAHQQFrIQsgDkEBcQRAIAchCAwDCyAJIBZqQSBqIQUDQCAFKAIAIgkgBE8NAiAKIAlBGGxq/QACACAs/Q0AAQIDBAUGBwgJCgsICQoLIC395wH9aCIs/R8A/AQgHFIgLP0fAfwEIBtSckUgLP0fAvwEIBpRcUUEQCAIQQFrIQsMBAsgBUEgaiEFIAcgCEEBaiIIRw0ACyAHIQgMAgsgBSAEQdy7xwAQjAcACyAJIARB3LvHABCMBwALIB8gGiAaIB9TGyEfIB4gGyAbIB5TGyEeICAgHCAcICBTGyEgIB0gGiAaIB1VGyEdICEgGyAbICFVGyEhICIgHCAcICJVGyEiIAMgAygCgAFBAWo2AoABIAMpA/gBIhogCCACayIMrYUiG0I4hiAbQoD+A4NCKIaEIBtCgID8B4NCGIYgG0KAgID4D4NCCIaEhCAaQgiIQoCAgPgPgyAaQhiIQoCA/AeDhCAaQiiIQoD+A4MgGkI4iISEhELSgaqbq/qC16d/fiIaQjiGIBpCgP4Dg0IohoQgGkKAgPwHg0IYhiAaQoCAgPgPg0IIhoSEIBpCCIhCgICA+A+DIBpCGIhCgID8B4OEIBpCKIhCgP4DgyAaQjiIhISEIBtC2KLR78Kp5b8tfoUiGkI4hiAaQoD+A4NCKIaEIBpCgID8B4NCGIYgGkKAgID4D4NCCIaEhCAaQgiIQoCAgPgPgyAaQhiIQoCA/AeDhCAaQiiIQoD+A4MgGkI4iISEhCADKQPwASIbQn+FfiIcQjiGIBxCgP4Dg0IohoQgHEKAgPwHg0IYhiAcQoCAgPgPg0IIhoSEIBxCCIhCgICA+A+DIBxCGIhCgID8B4OEIBxCKIhCgP4DgyAcQjiIhISEIBogG0I4hiAbQoD+A4NCKIaEIBtCgID8B4NCGIYgG0KAgID4D4NCCIaEhCAbQgiIQoCAgPgPgyAbQhiIQoCA/AeDhCAbQiiIQoD+A4MgG0I4iISEhH6FIBqJIhpCGYgiHEL/AINCgYKEiJCgwIABfiErIAMoAuABIgVBCGshEUEAIQogAygC5AEiByAapyITcSIJIQQCfwJAA0AgBCAFaikAACIbICuFIhpCf4UgGkKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyIaUEUEQANAIBEgGnqnQQN2IARqIAdxIhBBA3RrKAIAIAxGDQMgGkIBfSAagyIaUEUNAAsLIBsgG0IBhoNCgIGChIiQoMCAf4NQBEAgBCAKQQhqIgpqIAdxIQQMAQsLIAMoAugBRQRAIANB4AFqIANB8AFqEJwBIAMoAuQBIgcgE3EhCSADKALgASEFCyAFIAlqKQAAQoCBgoSIkKDAgH+DIhpQBEBBCCEEA0AgBCAJaiEJIARBCGohBCAFIAcgCXEiCWopAABCgIGChIiQoMCAf4MiGlANAAsLIAUgGnqnQQN2IAlqIAdxIgRqLAAAIglBAE4EQCAFIAUpAwBCgIGChIiQoMCAf4N6p0EDdiIEai0AACEJCyAEIAVqIBynQf8AcSIKOgAAIAUgBEEIayAHcWpBCGogCjoAACAFIARBA3RrIgVBBGtBADYCACAFQQhrIAw2AgAgAyADKALsAUEBajYC7AEgAyADKALoASAJQQFxazYC6AFBAQwBCyAFQQAgEGtBA3RqIgVBBGsoAgBBAWoLIQQgBUEEayAENgIAAkACQAJAAkACQAJAIAxBAU0EQCACIAMoAjwiB08NASAGKAIAIQQgAygCWCICIAMoAlBGBEAgA0HQAGpBsOXBABCLBgsgAygCVCACQQJ0aiAENgIAIAMgAkEBajYCWAwGCyADKgJMIQEgAy0AJyEUQQAhBCADQQA2ArgBIANBADYCzAFBBCEHAn8gDEEAIAggDE8bIgVBBUkEQCANIREgDwwBCwJAIAVBAWtnIgQEQCADQRhqIANBuAFqQX8gBHZBAWoQ6QMgAygCGCIEQYGAgIB4Rg0BIAQNFAtB2JXHAEERQdTMxwAQ6wcACyADKALMASIHQQVJBEAgByEEIA0hEUEEIQcgDwwBCyADKAK8ASEEIAMoAsABIREgDQshCiAEIAdPDQIgByAEQX9zaiIFIAIgAygCPCIMIAIgDEsbIhMgAmsiCSAFIAlJGyIFIAIgCCACIAhLGyIVIAJrIgkgBSAJSRsiCUEBaiIQQQxNDQEgESAEQQJ0aiIFIBYgAiAJakEFdGpBBGpJIAYgESAEIAlqQQJ0akEEaklxDQEgECAQQQNxIglBBCAJG2siECEJA0AgBSAGQeAAaiAGQUBrIAZBIGogBv1cAgD9VgIAAf1WAgAC/VYCAAP9CwIAIAZBgAFqIQYgBUEQaiEFIAlBBGsiCQ0ACyACIBBqIQIgBCAQaiEEDAELIAIgB0Gg5cEAEIwHAAsgFiACQQV0aiEGIBEgBEECdGohBQJAA0AgAiAVRg0BIAIgE0YEQCATIAxB4OXBABCMBwALIAUgBigCADYCACAGQSBqIQYgBUEEaiEFIAJBAWohAiAHIARBAWoiBEcNAAsgByEEDAELIAogBDYCAAwBCyAKIAQ2AgAgAiALSw0AIAtBAWohCSACQQV0IQYDQCACIAMoAjwiBE8NAiADKAI4IAZqAn8gAygCzAEiB0EFSQRAIAchBSANIQxBBCEHIA8MAQsgAygCvAEhBSADKALAASEMIA0LIQQoAgAhCiAFIAdGBEAgA0G4AWoQzgYgAygCvAEhBSADKALAASEMIA0hBAsgDCAFQQJ0aiAKNgIAIAQgBCgCAEEBajYCACAGQSBqIQYgCSACQQFqIgJHDQALCyADQfAAaiIFIANByAFqIgcpAgA3AwAgAyAD/QACuAH9CwNgIAAgAygCdCIGQQVPBH8gAygCZCEGIAMoAmgFIBILIAYgAUMAAAAAIBQbEEMhAiADKAJYIgQgAygCUEYEQCADQdAAakHA5cEAEIsGCyADKAJUIARBAnRqIAI2AgAgAyAEQQFqNgJYIAcgBSkDADcDACADIAP9AANg/QsDuAEgAygCjAEiBCADKAKEAUYEQCADQYQBahCVBgsgAygCiAEgBEEcbGoiBiACNgIAIAYgAykDuAE3AgQgBkEMaiADQcABav0AAwD9CwIAIAMgBEEBajYCjAEgAyADKAJcQQFqNgJcIAMoAjwhBwwBCyACIARB4OXBABCMBwALIAcgCCICSw0ACwwDCwwOCyAEIAZB3LvHABCMBwALDAwLIAMgKTcDmAEgAyAqNwOQAUEWEHEiAkUNBiADQQA2AvgCIAMgAjYC9AIgA0EWNgLwAiADQgI3AsQBIANBAjYCvAEgA0G45MEANgK4ASADIANBkAFqNgLAAQJAAkAgA0HwAmpBjO/BACADQbgBahDBA0UEQCADKALwAiICBEAgAygC9AIiBEEEaygCACIGQXhxIgVBBEEIIAZBA3EiBhsgAmpJDQ0gBkEAIAUgAkEnaksbDQ4gBBCiAgsgAygC7AEhCiADQegBakH4msgAKQMANwMAIAMoAuQBIQsgAygC4AEhCCADQfCayAApAwA3A+ABAkACQAJAIAoEQCAIQQhqIQUCQCAIKQMAQoCBgoSIkKDAgH+DIhpCgIGChIiQoMCAf1IEQCAFIQIgCCEGDAELIAghBgNAIAZBQGohBiAFKQMAIAVBCGoiAiEFQoCBgoSIkKDAgH+DIhpCgIGChIiQoMCAf1ENAAsLIApB/////wFLDQNBBCAKIApBBE0bIgRBA3QiBUH9////B08NAyAGIBpCgIGChIiQoMCAf4UiGnqnQfgAcWsiB0EEaygCACEMIAdBCGsoAgAhByAFEHEiCUUNDSAJIAw2AgQgCSAHNgIAQQEhBSADQQE2AsABIAMgCTYCvAEgAyAENgK4ASAKQQFrIgcEQCAaQgF9IBqDIRpBASEEA0AgGlAEQANAIAZBQGohBiACKQMAIAJBCGohAkKAgYKEiJCgwIB/gyIaQoCBgoSIkKDAgH9RDQALIBpCgIGChIiQoMCAf4UhGgsgBiAaeqdB+ABxayIFQQRrKAIAIQwgBUEIaygCACEFIBpCAX0gGoMhGiADKAK4ASAERgRAIANBuAFqIAQgB0EEQQgQpAUgAygCvAEhCQsgCSAEQQN0aiIRIAw2AgQgESAFNgIAIAMgBEEBaiIENgLAASAHQQFrIgcNAAsgCiEFCwJAIAtFDQAgC0EJaiICRQ0AIAhB/wEgAvwLAAsgA0EANgLsASADIAg2AuABIAMgCzYC5AEgAyALIAtBAWpBA3ZBB2wgC0EISRs2AugBIAMoArgBIQwgAygCvAEhCiAFQQJJDQIgBUEVSQ0BIAogBRDOBAwCCwJAIAtFDQAgC0EJaiICRQ0AIAhB/wEgAvwLAAtBACEMIANBADYC7AEgAyAINgLgASADIAs2AuQBIAMgCyALQQFqQQN2QQdsIAtBCEkbNgLoAUEEIQoMAQsgCkEIaiEEIAogBUEDdGohBUEAIQcDQCAEKAIAIgYgBEEIaygCAEkEQCAENQIEIRogByECAn8DQCACIApqIghBCGogCCkCADcCACAKIAJFDQEaIAYgAkEIayICIApqIggoAgBJDQALIAhBCGoLIAatIBpCIIaENwIACyAHQQhqIQcgBEEIaiIEIAVHDQALCyADKAJIIgcgAygCQEYEQCADQUBrQcjkwQAQogYLIAMoAkQiFiAHQQxsaiICIAMpAoQBNwIAIAJBCGogA0GMAWooAgA2AgAgA0EANgI8IAMgB0EBaiIINgJIIAMoAlQhBCADKAJQIQkCQAJAIAMoAlgiAiADKAI0SwRAIANBNGpBACACQQhBIBCkBSADKAI4IREgAygCPCEFDAELQQAhBSADKAI4IREgAkUNAQsgAkECdCILQQRrIhNBBHEEfyAEBSAEKAIAIQYgDUEQakIANwIAIA39DAAAAAAAAAAAAAAAAAAAAAD9CwIAIBEgBUEFdGoiAiAGNgIAIAIgAykCuAE3AgQgAkEMaiADQcABav0AAgD9CwIAIAJBHGogA0HQAWooAgA2AgAgBUEBaiEFIARBBGoLIQYgE0UNACAEIAtqIQsgESAFQQV0aiECA0AgAiAGKAIANgIAIA1BEGoiE0IANwIAIA39DAAAAAAAAAAAAAAAAAAAAAAiLP0LAgAgAkEEaiADKQK4ATcCACACQQxqIANBwAFqIhD9AAIA/QsCACACQRxqIANB0AFqIhQoAgA2AgAgBkEEaigCACEVIBNCADcCACAN/QwAAAAAAAAAAAAAAAAAAAAA/QsCACACQSBqIBU2AgAgAkEkaiADKQK4ATcCACACQSxqIBD9AAIA/QsCACACQTxqIBQoAgA2AgAgAkFAayECIAVBAmohBSAGQQhqIgYgC0cNAAsLIAMgBTYCPAJAIAkEQCAEQQRrKAIAIgJBeHEiBiAJQQJ0IglBBEEIIAJBA3EiAhtqSQ0BIAJBACAGIAlBJ2pLGw0QIAQQogILIAMgAy8BKkEBajsBKiADKAIwIAMoAixJDQQgAygCgAFBAUcNAwJAIAwEQCAKQQRrKAIAIgJBeHEiBCAMQQN0IgZBBEEIIAJBA3EiAhtqSQ0BIAJBACAEIAZBJ2pLGw0RIAoQogILIAMgBTYCfCAFQQFGBEAgAyARKAIANgKAAUEcEHEiAkUNDSACQv////8PNwIAIAJBATYCGCACIAMoAoABNgIIIAMoAkAgCEYEQCADQUBrQdzkwQAQogYgAygCRCEWCyAWIAhBDGxqIgRBATYCCCAEIAI2AgQgBEEBNgIAIAMgB0ECaiILNgJIIAMgKEKAgICAEIQ3A/ACIANCATcCxAEgA0EBNgK8ASADQfjkwQA2ArgBIAMgA0HwAmo2AsABIANBkAFqIANBuAFqEOwDAkAgAygCkAEiAgRAIAMoApQBIgRBBGsoAgAiBkF4cSIFQQRBCCAGQQNxIgYbIAJqSQ0BIAZBACAFIAJBJ2pLGw0TIAQQogILIAMoAoABIgIgACgCCCIESQRAIAMgAEE8ajYC9AIgAyAAKAIEIAJBGGxqNgLwAiADIANB8AJqrUKAgICAgAKENwNQIANCATcCxAEgA0EBNgK8ASADQYjlwQA2ArgBIAMgA0HQAGo2AsABIANBkAFqIANBuAFqEOwDAkAgAygCkAEiAgRAIAMoApQBIgRBBGsoAgAiBkF4cSIFQQRBCCAGQQNxIgYbIAJqSQ0BIAZBACAFIAJBJ2pLGw0VIAQQogILQQAhAiADQQA2ApgBIANCgICAgMAANwKQAUEAIQkgC0UNDiADQbwBaiIPQRBqIRhBBCEMQQAhCAJAA0AgAyALQQFrIhI2AkggFiASQQxsaiIKKAIAIhBBgICAgHhGBEAgEiELDA4LAkACQCAKKQIEIhqnIg0gGkIgiKciDkEcbGoiEwJ/IBpCgICAgBBaBEAgEyANayIGQRxuIgVBAXFBACEEQQAhByAGQRxrQRxPBEAgBUH+////AHEhFSANIQYDQCAGQRhqKAIAIgVBBU8EfyAGQQhqKAIABSAFCyAEaiAGQTRqKAIAIgVBBU8EQCAGQSRqKAIAIQULIAZBOGohBiAFaiEEIBUgB0ECaiIHRw0ACwsEfyANIAdBHGxqIgYoAhgiBUEFTwR/IAYoAggFIAULIARqBSAECyAJakGAgARLDQIgDSEGAkADQCAGQRxqIgQgBigCBCIFQQJGDQMaIAYoAgAhFCAYIAZBGGooAgA2AgAgDyAG/QACCP0LAgAgAyAFNgK4ASAPIQYgAygCzAEiFSEKIBVBBUkiGUUEQCADKAK8ASEKIAMoAsABIQYLAkAgFEF/Rg0AAkACQCAKQQAgCiAIIApqIhdNGyIOQf////8DSw0AIA5BAnQiBUH9////B08NAEEAIQcCQCAFRQRAQQQhC0EAIQ4MAQsgBRBxIgtFDRwLAkAgCCAXTw0AQQAhCSAIIQUgCkEETwRAIAX9Ef0MAAAAAAEAAAACAAAAAwAAAP2uASEsIAshBSAKQXxxIgkhBwNAIAUgLP0LAgAgBUEQaiEFICz9DAQAAAAEAAAABAAAAAQAAAD9rgEhLCAHQQRrIgcNAAsgCSAKIgdGDQEgCCAJaiEFCyALIAlBAnRqIQcDQCAHIAU2AgAgB0EEaiEHIBcgBUEBaiIFRw0ACyAKIQcLIAAoAhAgACgCFCAUIAsgBxDUAiAIIQkgDkUNAiALQQRrKAIAIgVBeHEiByAOQQJ0IglBBEEIIAVBA3EiBRtqSQ0eIAVBACAHIAlBJ2pLGw0BIAsQogIgCCEJDAILQeD/xgAQ/wcACwwdCyAKBEAgCkECdCEHIAhBAnQhBSAIIQIDQCAGKAIAIQggBkEEaiEGIAMoApABIAJGBEAgA0GQAWpBrOLBABCLBiADKAKUASEMCyAFIAxqIAg2AgAgAyACQQFqIgI2ApgBIAVBBGohBSACIQggAiEJIAdBBGsiBw0ACwsCQCAZRQRAIAMoAsABIgZBBGsoAgAiBUF4cSIHIBVBAnQiCkEEQQggBUEDcSIFG2pJDQEgBUEAIAcgCkEnaksbDQMgBhCiAgsgEyAEIgZHDQEMBgsLDBoLDBoLIAJBgIAESw0BIAIhCCACIQkgDQsiBGtBHG4hBiAEIBNGDQEDQCAEQRhqKAIAIgVBBU8EQCAEQQxqKAIAIgdBBGsoAgAiCkF4cSILIAVBAnQiBUEEQQggCkEDcSIKG2pJDRkgCkEAIAsgBUEnaksbDRogBxCiAgsgBEEcaiEEIAZBAWsiBg0ACwwBCyAKIA42AgggCiANNgIEDA4LAkAgEARAIA1BBGsoAgAiBEF4cSIGIBBBHGwiBUEEQQggBEEDcSIEG2pJDQEgBEEAIAYgBUEnaksbDQMgDRCiAgsgEiILDQEMDwsLDBQLDBQLDBILIAIgBEHcu8cAEIwHAAsMEAsgA0EANgK4AUEAIANB/ABqQdjkwQAgA0G4AWpBkOXBABD1BwALDA4LDA0LQeD/xgAQ/wcACwwNCwJAIAwEQCAKQQRrKAIAIgJBeHEiBCAMQQN0IgZBBEEIIAJBA3EiAhtqSQ0MIAJBACAEIAZBJ2pLGw0BIAoQogILICAgIn0iGiAeICF9IhsgHyAdfSIcIBsgHFUbIhsgGiAbVRtCAlMgDnIhDgwCCwwLCyAMRQ0AIApBBGsoAgAiAkF4cSIEIAxBA3QiBkEEQQggAkEDcSICG2pPBEAgAkEAIAQgBkEnaksbDQsgChCiAgwBCwsMCAsgCw0BC0EAIQkMAQsgA0G8AWoiEkEQaiEVAkADQCADIAtBAWsiCzYCSCAWIAtBDGxqIgQoAgAiDkGAgICAeEYEQCALIQkMAwsgBCkCBCIapyIKIBpCIIinQRxsaiEPAkACQAJAIBpCgICAgBBUBEAgCiEEDAELIAohBgNAIAZBHGohBCAGKAIEIgVBAkYNASAGKAIAIRMgFSAGQRhqKAIANgIAIBIgBv0AAgj9CwIAIAMgBTYCuAEgEiEGIAMoAswBIhAhCCAQQQVJIhdFBEAgAygCvAEhCCADKALAASEGCwJAIBNBf0YNAAJAIAhBACAIIAIgCGoiFE0bIgxB/////wNLDQAgDEECdCIFQf3///8HTw0AQQAhBwJAIAVFBEBBBCENQQAhDAwBCyAFEHEiDUUNCwsCQCACIBRPDQBBACEJIAIhBSAIQQRPBEAgAv0R/QwAAAAAAQAAAAIAAAADAAAA/a4BISwgDSEFIAhBfHEiCSEHA0AgBSAs/QsCACAFQRBqIQUgLP0MBAAAAAQAAAAEAAAABAAAAP2uASEsIAdBBGsiBw0ACyAJIAgiB0YNASACIAlqIQULIA0gCUECdGohBwNAIAcgBTYCACAHQQRqIQcgFCAFQQFqIgVHDQALIAghBwsgACgCECAAKAIUIBMgDSAHENQCIAxFDQEgDSAMQQJ0QQQQogcMAQtB4P/GABD/BwALIAgEQCAIQQJ0IQcgAkECdCEFA0AgBigCACEIIAMoApABIAJGBEAgA0GQAWpBrOLBABCLBgsgBkEEaiEGIAMoApQBIAVqIAg2AgAgAyACQQFqIgI2ApgBIAVBBGohBSAHQQRrIgcNAAsLIBdFBEAgAygCwAEgEEECdEEEEKIHCyAPIAQiBkcNAAsMAQsgDyAEa0EcbiEGIAQgD0YNAANAIARBGGooAgAiBUEFTwRAIARBDGooAgAiB0EEaygCACIIQXhxIgkgBUECdCIFQQRBCCAIQQNxIggbakkNAyAIQQAgCSAFQSdqSxsNBSAHEKICCyAEQRxqIQQgBkEBayIGDQALCyAOBEAgCiAOQRxsQQQQogcLQQAhCSALRQ0DDAELCwwGCwwGCyAAIAMoApQBIgQgAhCJAiADKAKQASICBEAgBEEEaygCACIGQXhxIgUgAkECdCICQQRBCCAGQQNxIgYbakkNBSAGQQAgBSACQSdqSxsNBiAEEKICCwJAIAMoAuQBIgJFDQAgAiACQQN0IgRqQRFqIgJFDQAgAygC4AEgBGtBCGsgAkEIEKIHCyAJBEBBACEMA0AgFiAMQQxsaiIFKAIEIQQgBSgCCCIGBEAgBCECA0AgAkEYaigCACIHQQVPBEAgAkEMaigCACIIQQRrKAIAIgpBeHEiCyAHQQJ0IgdBBEEIIApBA3EiChtqSQ0JIApBACALIAdBJ2pLGw0KIAgQogILIAJBHGohAiAGQQFrIgYNAAsLIAUoAgAiAgRAIARBBGsoAgAiBkF4cSIFIAJBHGwiAkEEQQggBkEDcSIGG2pJDQcgBkEAIAUgAkEnaksbDQggBBCiAgsgDEEBaiIMIAlHDQALCyADKAJAIgIEQCAWQQRrKAIAIgRBeHEiBiACQQxsIgJBBEEIIARBA3EiBBtqSQ0FIARBACAGIAJBJ2pLGw0GIBYQogILIAMoAjQiAkUNACARQQRrKAIAIgRBeHEiBiACQQV0IgJBBEEIIARBA3EiBBtySQ0EIARBACAGIAJBJ2pLGw0FIBEQogILIAAoAggiCgRAQQwhBUEAIQYDQAJAAn8CQAJAAn8CQAJAIAAoAggiAiAGSwRAIAAoAgQgBWoiCy8BACIEQf//AXEiDEUNASAEQf8HcSECIARBgIACcSEHIARBgPgBcSIIQYD4AUciDUUEQCAHQRB0IglBgICA/AdyIAJFDQQaIAkgAkENdHJBgICA/gdyDAQLIAdBEHQhCSAIRQ0CIAhBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAJcgwDCyAGIAJB7LvHABCMBwALIARBEHS+QwAAgD9eDQIMBQsgAiACZ0EQayIRQf//A3FBCGp0Qf///wNxIAlBgICA2ANyIBFBF3Rrcgu+QwAAgD9eRQ0DIAwNAQsgBEEQdAwBCyANRQRAIAdBEHQiBEGAgID8B3IgAkUNARogBCACQQ10ckGAgID+B3IMAQsgB0EQdCIEIAhBDXRBgICA/ABxIAJBDXRyQYCAgMADanIgCA0AGiACIAJnQRBrIgJB//8DcUEIanRB////A3EgBEGAgIDYA3IgAkEXdGtyC0MAAIA/IQG+IjBDAACAP14EQCAwEMYFQ1T4LUCUQwAAgD+SkUMAAIC/kkMAAIA+lEMAAIA/kiEBC0MAAABAQwAAgD8gASABQwAAgD9dGyIBIAFDAAAAQF4bvCIHQf///wNxIQggB0GAgICAeHEhBAJAIAdBgICA/AdxIgJBgICA/AdGBEAgCEENdiAEQRB2ckGABEEAIAgbckGA+AFyIQQMAQsgBEEQdiEEIAJBgICAuARNBEAgAkGAgIDEA08EQCAHQQx2IAdB/98AcUEAR3EgAkENdiAIQQ12akGAgAFqIARyaiEEDAILIAJBgICAmANJDQEgCEGAgIAEciIHQf4AIAJBF3YiCGt2IQIgB0EdIAhrIgh2QQFxBH8gAkEDIAh0QQFrIAdxQQBHagUgAgsgBHIhBAwBCyAEQYD4AXIhBAsgCyAEOwEACyAFQRhqIQUgCiAGQQFqIgZHDQALCyADQQA2AowBIANCgICAgMAANwKEASADQYQBakGowcEAEIsGIAMoAogBQQA2AgBBASEGIANBATYCjAEgA0KAgICAwAA3AmAgA0IANwJoQQQQcSICRQ0AIAJBADYCACADQeAAakG4wcEAEKQGIAMoAmQgAygCbCIFIAMoAmhqIgQgAygCYCIHQQAgBCAHTxtrQQxsaiIEQQE2AgggBCACNgIEIARBATYCACADIAVBAWo2AmwgAygCbCICRQ0CIANB0ABqrUKAgICAEIQhHSADQUBrrSIaQoCAgIAQhCEfIANBNGqtQoCAgIDQAYQhHiAaQoCAgIDQAYQhICADQbgBaq1CgICAgJAChCEhIANBkAFqrUKAgICAoAKEISIgA0GAAWqtQoCAgICwAoQhIyADQZwCaiEWIANB6AFqIQwgA0HkAWohCyADQZgBaiENIANBvAFqIRMgA0GEAmohEQJAA0AgAyACQQFrNgJsIAMgAygCaCICQQFqIgQgAygCYCIGQQAgBCAGTxtrNgJoIAMoAmQgAkEMbGoiAigCACISQYCAgIB4Rg0DIAIpAgQhGiADQQA2AvgCIANCgICAgMAANwLwAiAapyEGIBpCHoinQfz///8HcSICBEAgAiAGaiEPQQAhCkEEIQUgBiEJA0AgCiECQwAAgD8hAQJ/AkAgCSgCACIHIAAoAggiBEkEQCAAKAIEIAdBGGxqIgQtABMiCCAELQASIgogBC0AESIOIAogDksbIgogCCAKSxsiCAR9QwAAQMEgACoCRCAALQBYQQJGIgobIjBDAAAQQSAAKgJIIAobIDCTQwAAfkOVIAhBAWtB/wFxs5SSEIkEIjAgMJIFQwAAAAALITAgBEEMai8BACIIQf//AXFFBEAgCEEQdAwDCyAIQf8HcSEEIAhBgIACcSEKIAhBgPgBcSIIQYD4AUYEQCAKQRB0IghBgICA/AdyIARFDQMaIAggBEENdHJBgICA/gdyDAMLIApBEHQhCiAIRQ0BIAhBDXRBgICA/ABxIARBDXRyQYCAgMADaiAKcgwCCyAHIARB3LvHABCMBwALIAQgBGdBEGsiBEH//wNxQQhqdEH///8DcSAKQYCAgNgDciAEQRd0a3ILviIxQwAAgD9eBEAgMRDGBUNU+C1AlEMAAIA/kpEhAQsgAygC8AIgAkYEQCADQfACakHIlcEAEPkFIAMoAvQCIQULIAUgAkEDdGoiBCAHNgIEIAQgMCABlCIBOAIAIAMgAkEBaiIKNgL4AgJAIAJFBEBBACEEDAELIAEgAVwEQANAAkAgBSACQQFrIg5BAXYiBEEDdGoiCCoCACIwIDBbIAEgMF9FcQ0AIAcgCEEEaigCAEsNACACIQQMAwsgBSACQQN0aiAIKQIANwIAIAQhAiAOQQJPDQAMAgsACwNAIAUgAkEBayIOQQF2IgRBA3RqIggqAgAiMCAwWyABIDBfRXFBfyABIDBgGyIQQQBMIAcgCEEEaigCAE0gEBsEQCACIQQMAgsgBSACQQN0aiAIKQIANwIAIAQhAiAOQQFLDQALCyAFIARBA3RqIgIgBzYCBCACIAE4AgAgCUEEaiIJIA9HDQALCyASBEAgBkEEaygCACICQXhxIgQgEkECdCIFQQRBCCACQQNxIgIbakkNBiACQQAgBCAFQSdqSxsNByAGEKICCwJAAkACQCADKAL4AiIJRQ0AIAMoAowBQf+/BGpBgID8/wNxIRIDQCADIAlBAWsiBDYC+AIgAygC9AIiByAEQQN0aiICKAIEIQYgAioCACEBAkAgBEUEQCABITAgBiEKDAELIAcoAgQhCiAHIAY2AgQgByoCACEwIAcgATgCAEEAIQJBASEFIAlBBE8EQCAEQQJrIgJBACACIARNGyEIQQAhBANAIAcgBEEDdGogByAFIAcgBUEDdGoiAkEIaioCACIxIDFbIDEgAioCACIzYEVxIgQgBEF/IDEgM18bIDMgM1wbIgRBAEwgAkEEaigCACACQQxqKAIATSAEG2oiAkEDdGopAgA3AgAgAkEBdCIPQQFyIQUgAiEEIAggD0sNAAsLAkACQCAJQQJrIAVGBEAgByACQQN0aiAHIAVBA3RqIgIpAgA3AgAgAiAGNgIEIAIgATgCACAFIQIMAQsgByACQQN0aiIEIAY2AgQgBCABOAIAIAINAEEAIQQMAQsgASABXARAA0ACQCAHIAJBAWsiCEEBdiIEQQN0aiIFKgIAIjEgMVsgASAxX0VxDQAgBiAFQQRqKAIASw0AIAIhBAwDCyAHIAJBA3RqIAUpAgA3AgAgBCECIAhBAk8NAAwCCwALA0AgByACQQFrIghBAXYiBEEDdGoiBSoCACIxIDFbIAEgMV9FcUF/IAEgMWAbIglBAEwgBiAFQQRqKAIATSAJGwRAIAIhBAwCCyAHIAJBA3RqIAUpAgA3AgAgBCECIAhBAUsNAAsLIAcgBEEDdGoiAiAGNgIEIAIgATgCAAsgA0GQAWogACgCECAAKAIUIAoQ5wIgAygCjAEhAgJAAkAgAygCtAEiBEEJSSIGRQRAIAMoApQBIAJqIgggEksNAQwCCyACIARqIgggEk0NAQsgA0HwAmogMCAKEPEEIAMgIDcDUCADIAKzQwAAgDeUOAJAIANCATcC7AEgA0EBNgLkASADQfjBwQA2AuABIAMgA0HQAGo2AugBIANBuAFqIANB4AFqEOwDIAMoArgBIgIEQCADKAK8ASIFQQRrKAIAIgdBeHEiCEEEQQggB0EDcSIHGyACakkNCyAHQQAgCCACQSdqSxsNDCAFEKICCyAGRQRAIAMoApgBIgJBBGsoAgAiBkF4cSIFIARBAnQiBEEEQQggBkEDcSIGG2pJDQsgBkEAIAUgBEEnaksbDQwgAhCiAgsgAygC+AIiAkUNAkMAABBBIAAqAkggAC0AWEECRiIEG0MAAEDBIAAqAkQgBBsiMJNDAAB+Q5UhMSADKAL0AiIEIAJBA3QiBWohEiAAKAIEIQ8gACgCCCEH/QwAAID/AACA/wAAgP8AAID/IS39DAAAgH8AAIB/AACAfwAAgH8hLkEAIQYCQAJAAkACQAJAA0AgBCAGakEEaigCACICIAdPDQEgDyACQRhsaiICQRFqLwAAIAJBE2otAAAiCEEQdHIiCUEIdiEKQwAAAAAhMkMAAAAAITQgCUH/AXEEQCAwIDEgCUEBa0H/AXGzlJIQiQQhNAsgCkH/AXEEQCAwIDEgCkEBa0H/AXGzlJIQiQQhMgsgCAR9IDAgMSAIQQFrQf8BcbOUkhCJBAVDAAAAAAshOEMAAIA/IAJBFGovAQAiCEEIdrP9EyAIIAJBFmotAAAiCUEQdHJB/wFxs/0gAf0MAAB/QwAAf0MAAH9DAAB/Q/3nASIsICz95AH9DAAAgL8AAIC/AACAvwAAgL/95AEiLP0fASI3i5MgLP0fACI5i5MiM4xDAAAAABDgCCEBIAmzQwAAf0OVQwAAAD+UQ9sPSUCUIjUQmQIhNiA1EJsCITUgLSAC/QACACAs/Q0AAQIDBAUGBwgJCgsICQoLIi8gOP0TIDT9IAAgMv0gAf0MbxKDOm8SgzpvEoM6bxKDOv3rAf0MAADAPwAAwD8AAMA/AADAP/3mASItICz9DQgJCgsICQoLCAkKCwABAgNDAACAPyA2IDcgASABjCI0ICz9DAAAAAAAAAAAAAAAAAAAAAD9Rv1NIiz9xwH9GwJBAXEbkiIyIDMgM5QgMiAylCA5IAEgNCAs/RsAQQFxG5IiMiAylJKSkSI0lZQiASABIAGSIjeUIjkgNiAyIDSVlCIyIDIgMpIiOJQiOpKT/RMgASA2IDMgNJWUIjYgNpIiM5QiNCA1IDiUIjuS/SAAIDIgM5QiMiA1IDeUIjeT/SAB/eAB/eYBIC0gLP0NBAUGBwQFBgcEBQYHAAECAyAyIDeS/RMgASA4lCIBIDUgM5QiNZP9IABDAACAPyA5IDYgM5QiM5KT/SAB/eAB/eYBIC0gLP0NAAECAwABAgMAAQIDAAECAyA0IDuT/RNDAACAPyA6IDOSk/0gACABIDWS/SAB/eAB/eYB/eQB/eQBIiz95AH96wEhLSAuIC8gLP3lAf3qASEuIAUgBkEIaiIGRw0ACyAtIC795QEiLCAsICz9DQgJCgsICQoLAAECAwABAgP96wEiLyAvICz9DQQFBgcAAQIDAAECAwABAgP96wH9HwAgLCAsICz9DQgJCgsICQoLBAUGBwQFBgf96gEiLyAvICz9DQQFBgcAAQIDAAECAwABAgP96gH9HwBDAABAQJRgRQRAIANCBDcC6AIgA0IANwLgAiADQoCAgIDAADcC2AIgA0IENwLQAiADQgA3AsgCIANCgICAgMAANwLAAiADQgQ3ArgCIANCADcCsAIgA0KAgICAwAA3AqgCIANCBDcCoAIgA0IANwKYAiADQoCAgIDAADcCkAIgLiAt/eQB/QwAAAA/AAAAPwAAAD8AAAA//eYBIiz9HwAhASAs/R8CITAgLP0fASExQQAhAiADKALwAiEHA0AgAiAEakEEaigCACIGIAAoAggiCE8NAyADQZACaiAWIAAoAgQgBkEYbGoiCCoCACABXRtBAEEYIAgqAgQgMV0baiIJQQhBOCAIKgIIIDBdIggbaiISKAIAIgogCUEAQTAgCBtqIg8oAgBGBEAgD0GwwsEAEIsGCyAJQQRBNCAIG2ooAgAgEiAKQQFqNgIAIApBAnRqIAY2AgAgBSACQQhqIgJHDQALIAcEQCAEQQRrKAIAIgJBeHEiBiAHQQN0IgVBBEEIIAJBA3EiAhtqSQ0RIAJBACAGIAVBJ2pLGw0SIAQQogILQSAQcSICRQ0NIAIgAygCmAI2AgAgAiADKAKkAjYCBCACIAMoArACNgIIIAIgAygCvAI2AgwgAiADKALIAjYCECACIAMoAtQCNgIUIAIgAygC4AI2AhggAiADKALsAjYCHCADQQg2AsABIAMgAjYCvAEgA0EINgK4ASADICE3A5ABIANCATcC7AEgA0ECNgLkASADQZDCwQA2AuABIAMgA0GQAWo2AugBIANB4AFqEOsCIAMoArgBIgIEQCADKAK8ASIEQQRrKAIAIgZBeHEiBSACQQJ0IgJBBEEIIAZBA3EiBhtqSQ0RIAZBACAFIAJBJ2pLGw0EIAQQogILQeAAEHEiAkUNDSACIANBkAJqQeAA/AoAACACKAIAIQQgAkGAgICAeDYCACAEQYCAgIB4Rg0EIAJBBGoiECkCACEaIAIoAgwhByACQYCAgIB4NgIMIAdBgICAgHhGDQQgAikCECEbIAIoAiQhCCACQYCAgIB4NgIkIAhBgICAgHhGDQQgAikCKCEcIAIoAhghCSACQYCAgIB4NgIYIAlBgICAgHhGDQQgAikCHCEkIAIoAkghCiACQYCAgIB4NgJIIApBgICAgHhGDQQgAikCTCElIAIoAlQhEiACQYCAgIB4NgJUIBJBgICAgHhGDQQgAikCWCEmIAIoAjwhDyACQYCAgIB4NgI8IA9BgICAgHhGDQQgAikCQCEnIAIoAjAhDiACQYCAgIB4NgIwIA5BgICAgHhGDQQgAikCNCEoIAMoAmwiBiADKAJgIgVGBEAgA0HgAGpBoMLBABCkBiADKAJgIQUgAygCbCEGCyADKAJkIAMoAmggBmoiFCAFQQAgBSAUTRtrQQxsaiIFIBo3AgQgBSAENgIAIAMgBkEBaiIGNgJsIAMoAmAiBSAGRgRAIANB4ABqQaDCwQAQpAYgAygCYCEFIAMoAmwhBgsgAygCZCADKAJoIAZqIgQgBUEAIAQgBU8ba0EMbGoiBCAbNwIEIAQgBzYCACADIAZBAWoiBjYCbCADKAJgIgUgBkYEQCADQeAAakGgwsEAEKQGIAMoAmAhBSADKAJsIQYLIAMoAmQgAygCaCAGaiIEIAVBACAEIAVPG2tBDGxqIgQgHDcCBCAEIAg2AgAgAyAGQQFqIgY2AmwgAygCYCIFIAZGBEAgA0HgAGpBoMLBABCkBiADKAJgIQUgAygCbCEGCyADKAJkIAMoAmggBmoiBCAFQQAgBCAFTxtrQQxsaiIEICQ3AgQgBCAJNgIAIAMgBkEBaiIGNgJsIAMoAmAiBSAGRgRAIANB4ABqQaDCwQAQpAYgAygCYCEFIAMoAmwhBgsgAygCZCADKAJoIAZqIgQgBUEAIAQgBU8ba0EMbGoiBCAlNwIEIAQgCjYCACADIAZBAWoiBjYCbCADKAJgIgUgBkYEQCADQeAAakGgwsEAEKQGIAMoAmAhBSADKAJsIQYLIAMoAmQgAygCaCAGaiIEIAVBACAEIAVPG2tBDGxqIgQgJjcCBCAEIBI2AgAgAyAGQQFqIgY2AmwgAygCYCIFIAZGBEAgA0HgAGpBoMLBABCkBiADKAJgIQUgAygCbCEGCyADKAJkIAMoAmggBmoiBCAFQQAgBCAFTxtrQQxsaiIEICc3AgQgBCAPNgIAIAMgBkEBaiIGNgJsIAMoAmAiBSAGRgRAIANB4ABqQaDCwQAQpAYgAygCYCEFIAMoAmwhBgsgAygCZCADKAJoIAZqIgQgBUEAIAQgBU8ba0EMbGoiBCAoNwIEIAQgDjYCACADIAZBAWo2AmwgAigCACIEQYCAgIB4ckGAgICAeEcEQCAQKAIAIgZBBGsoAgAiBUF4cSIHIARBAnQiBEEEQQggBUEDcSIFG2pJDREgBUEAIAcgBEEnaksbDRIgBhCiAgsgAigCDCIEQYCAgIB4ckGAgICAeEcEQCACKAIQIgZBBGsoAgAiBUF4cSIHIARBAnQiBEEEQQggBUEDcSIFG2pJDREgBUEAIAcgBEEnaksbDRIgBhCiAgsgAigCGCIEQYCAgIB4ckGAgICAeEcEQCACKAIcIgZBBGsoAgAiBUF4cSIHIARBAnQiBEEEQQggBUEDcSIFG2pJDREgBUEAIAcgBEEnaksbDRIgBhCiAgsgAigCJCIEQYCAgIB4ckGAgICAeEcEQCACKAIoIgZBBGsoAgAiBUF4cSIHIARBAnQiBEEEQQggBUEDcSIFG2pJDREgBUEAIAcgBEEnaksbDRIgBhCiAgsgAigCMCIEQYCAgIB4ckGAgICAeEcEQCACKAI0IgZBBGsoAgAiBUF4cSIHIARBAnQiBEEEQQggBUEDcSIFG2pJDREgBUEAIAcgBEEnaksbDRIgBhCiAgsgAigCPCIEQYCAgIB4ckGAgICAeEcEQCACKAJAIgZBBGsoAgAiBUF4cSIHIARBAnQiBEEEQQggBUEDcSIFG2pJDREgBUEAIAcgBEEnaksbDRIgBhCiAgsgAigCSCIEQYCAgIB4ckGAgICAeEcEQCACKAJMIgZBBGsoAgAiBUF4cSIHIARBAnQiBEEEQQggBUEDcSIFG2pJDREgBUEAIAcgBEEnaksbDRIgBhCiAgsgAigCVCIEQYCAgIB4ckGAgICAeEcEQCACKAJYIgZBBGsoAgAiBUF4cSIHIARBAnQiBEEEQQggBUEDcSIFG2pJDREgBUEAIAcgBEEnaksbDRIgBhCiAgsgAkEEaygCACIEQXhxQeQAQegAIARBA3EiBhtJDRAgBkEAIARBiAFPGw0FIAIQogIMCQsgAyAuIC395AH9DAAAAD8AAAA/AAAAPwAAAD/95gH9CwQAIANBAEEBQQIgLP0fASIBICz9HwIiMGAbIgIgMCAs/R8AIjFfGyACIAEgMV8bIgI6AIABIAMgAyACQQJ0cioCADgCNCADIBI2AsQBIAMgAygC8AI2AsABIAMgBDYCvAEgAyAENgK4ASADIAA2ApQBIAMgA0E0ajYCmAEgAyADQYABajYCkAEgA0HgAWoiBiADQbgBaiIFIANBkAFqEJcEIAMpA+ABIRwgAykC7AEhGiADKAL0ASECIAMoAugBIQQgAyAs/QsEkAEgAyAENgJAIAMgAjYCUCADQQY2ArwBIANB7MLBADYCuAEgA0IFNwLEASADIB03A4ACIAMgHzcD+AEgAyAeNwPwASADICI3A+gBIAMgIzcD4AEgAyAGNgLAASAFEOsCAkAgAiAETQRAIBohGyACIQUgHCEaIAQhAgwBCyAcIRsgBCEFCyADIAI2AvABIANBAjYC5AEgAyAFNgL8ASADIBo3AugBIAMgGzcC9AFBASECAkAgGqciBEGAgICAeEYNACADKQLsASEaIAMoAmwiAiADKAJgIgZGBEAgA0HgAGpBnMPBABCkBiADKAJgIQYgAygCbCECCyADKAJkIAMoAmggAmoiBSAGQQAgBSAGTxtrQQxsaiIGIBo3AgQgBiAENgIAIAMgAkEBajYCbEECIQIgG6ciBEGAgICAeEYNACADKQL4ASEaIAMoAmwiBiADKAJgIgVGBEAgA0HgAGpBnMPBABCkBiADKAJgIQUgAygCbCEGCyADKAJkIAMoAmggBmoiByAFQQAgBSAHTRtrQQxsaiIFIBo3AgQgBSAENgIAIAMgBkEBajYCbAsgAyACNgLgASADQeABahCWBgwICyACIAdB3LvHABCMBwALIAYgCEHcu8cAEIwHAAtBjI3IAEEuQbyNyAAQ6wcMCQtBvMPBABDdCQALDAsLQQAhBSADQQA2AuABIANBADYChAJBCCEHAkACQAJ/IAggAmsiBEEAIAQgCE0bIgRBCUkEQCALIQkgEQwBCyADQRBqIANB4AFqQX8gBEEBa2d2QQFqEOgDIAMoAhAiBEGBgICAeEcEQCAEDQpB2JXHAEERQdTMxwAQ6wcACyADKAKEAiIHQQlJBEAgByEFIAshCUEIIQcgEQwBCyADKALkASEFIAMoAugBIQkgCwsiDiAFIAdJBH8gByAFQX9zaiIEIAggAiACIAhJGyIQIAJrIgYgBCAGSRtBAWoiBEEESwRAIAkgBUECdGohBiAC/RH9DAAAAAABAAAAAgAAAAMAAAD9rgEhLCAEIARBA3EiBEEEIAQbayIPIQQDQCAGICz9CwIAIAZBEGohBiAs/QwEAAAABAAAAAQAAAAEAAAA/a4BISwgBEEEayIEDQALIAUgD2ohBSACIA9qIQILIAkgBUECdGohBgNAIAIgEEYNAiAGIAI2AgAgBkEEaiEGIAJBAWohAiAHIAVBAWoiBUcNAAsgBwUgBQs2AgAgAiAITw0BA0ACfyADKAKEAiIEQQlPBEAgAygC5AEhBiADKALoASEHIAsMAQsgBCEGIAshB0EIIQQgEQshBSAEIAZGBH8gA0HgAWoQzQYgAygC6AEhByALIQUgAygC5AEFIAYLQQJ0IAdqIAI2AgAgBSAFKAIAQQFqNgIAIAJBAWoiAiAIRw0ACwwBCyAOIAU2AgALIANB2AFqIANBgAJqKQIANwMAIANByAFqIANB8AFq/QACAP0LAwAgAyAD/QAC4AH9CwO4ASADKALcASIIIQYgACgCECAAKAIUIAogCEEJSSIQBH8gEwUgAygCvAEhBiADKALAAQsgBhDUAiADKAKUASEEIAMoApABIQIgDEEYaiANQRhqKAIANgIAIAxBEGogDUEQaikCADcCACAMIA39AAIA/QsCACADIAI2AuABIAMgBCADKAK0ASIHIAdBCEsiAhsiDzYCjAIgAyAHQQAgAhs2AoQCIANBACAEIAIbNgLkASAPBEAgAygC6AEgCyACGyEUQQAhCiADKAKMASEJA0AgAyAKIgJBAWoiCjYCiAIgFCACQQJ0aigCACEGIAMoAoQBIAlGBEAgA0GEAWpByMHBABCLBgsgAygCiAEgCUECdGogBjYCACADIAlBAWoiCTYCjAFDAACAPyEBAn8CQCAAKAIIIgIgBksEQCAAKAIEIAZBGGxqIgItABMiBCACLQASIgUgAi0AESIOIAUgDksbIgUgBCAFSxsiBAR9QwAAQMEgACoCRCAALQBYQQJGIgUbIjBDAAAQQSAAKgJIIAUbIDCTQwAAfkOVIARBAWtB/wFxs5SSEIkEIjAgMJIFQwAAAAALITAgAkEMai8BACIEQf//AXFFBEAgBEEQdAwDCyAEQf8HcSECIARBgIACcSEFIARBgPgBcSIEQYD4AUYEQCAFQRB0IgRBgICA/AdyIAJFDQMaIAQgAkENdHJBgICA/gdyDAMLIAVBEHQhBSAERQ0BIARBDXRBgICA/ABxIAJBDXRyQYCAgMADaiAFcgwCCyAGIAJB3LvHABCMBwALIAIgAmdBEGsiAkH//wNxQQhqdEH///8DcSAFQYCAgNgDciACQRd0a3ILviIxQwAAgD9eBEAgMRDGBUNU+C1AlEMAAIA/kpEhAQsgAygC+AIiAiADKALwAkYEQCADQfACakHIlcEAEPkFCyADKAL0AiIFIAJBA3RqIgQgBjYCBCAEIDAgAZQiATgCACADIAJBAWo2AvgCAkAgAkUEQEEAIQQMAQsgASABXARAA0ACQCAFIAJBAWsiFUEBdiIEQQN0aiIOKgIAIjAgMFsgASAwX0VxDQAgBiAOQQRqKAIASw0AIAIhBAwDCyAFIAJBA3RqIA4pAgA3AgAgBCECIBVBAk8NAAwCCwALA0AgBSACQQFrIhVBAXYiBEEDdGoiDioCACIwIDBbIAEgMF9FcUF/IAEgMGAbIhdBAEwgBiAOQQRqKAIATSAXGwRAIAIhBAwCCyAFIAJBA3RqIA4pAgA3AgAgBCECIBVBAUsNAAsLIAUgBEEDdGoiAiAGNgIEIAIgATgCACAKIA9HDQALCyAHQQlPBEAgAygC6AEiAkEEaygCACIEQXhxIgYgB0ECdCIFQQRBCCAEQQNxIgQbakkNBCAEQQAgBiAFQSdqSxsNCyACEKICCyAQRQRAIAMoAsABIgJBBGsoAgAiBEF4cSIGIAhBAnQiBUEEQQggBEEDcSIEG2pJDQogBEEAIAYgBUEnaksbDQsgAhCiAgsgAygC+AIiCQ0ACwsgAygC8AIiAkUNACADKAL0AiIEQQRrKAIAIgZBeHEiBSACQQN0IgJBBEEIIAZBA3EiBhtqSQ0HIAZBACAFIAJBJ2pLGw0DIAQQogILIAMoAmwiAg0BDAQLCwwECwwECwALIAMoAowBIQYLIAMgACgCCCICNgK4ASADIAY2ApABIAIgBkcEQCADQQA2AuABQQAgA0GQAWogA0G4AWogA0HgAWpBrMPBABD1BwALIAAgAygCiAEiACAGEIkCIANB4ABqEOsDAkAgAygChAEiAgRAIABBBGsoAgAiBEF4cSIGIAJBAnQiAkEEQQggBEEDcSIEG2pJDQIgBEEAIAYgAkEnaksbDQEgABCiAgsgA0GAA2okAA8LDAELQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0GY+scAQdYAIANB/ABqQaTuwQBBtO7BABDgBgAL3MwBA0R/E34EeyMAQcAGayIEJAAgASABNQIEIlc3AwhBqJDIACkDACJGQgiIIkmnIhxBCHQgRqciCkH/AXEiJHIhLCBGQv8BgyFMQuSRwYCwAiFVIApBCHYhNCAEQbAGaq1CgICAgCCEIVYgBEGQBmqtQoCAgIAghCFYIEZCIIinIhNBBGshQyBGQhCIpyElIARB1wRqITwgBEH4BWohRCAEQfQBaiFFIARB2AJqIT0gBEG4A2pBAXIhNyAEQYACaiE+IARB4AFqQQlyIT8gBEHDA2ohQEGGgICAeCEtIFchTgJAAkACQAJAAkADQAJAIAQCfgJAAkACQAJAAkBBgBAQcSIiRQ0AICJBBGsiOS0AAEEDcQRAICJBAEGAEPwLAAtBACEFQQMhDEEBIRZBBCEGAkACQAJAAkACQANAIAYgBUF/cyIDaiIQQQNLDQIgAyAMIgJqIgxBBE8NAQJAIAwtAKCOQSIIIBAtAKCOQSIDTwRAIAMgCE8EQEEAIAVBAWoiAyADIBZGIgMbIQUgAiAWQQAgAxtrIQwMAgsgBiAMayEWQQAhBQwBCyACQQFrIQxBASEWQQAhBSACIQYLIAUgDEkNAAtBACEFQQMhDEEBIQdBBCECAkACQAJAAkACQAJAAkACQANAIAwhAyACIAVBf3MiCGoiD0EDSw0BIAMgCGoiDEEDSw0CAkAgDC0AoI5BIhAgDy0AoI5BIghNBEAgCCAQTQRAQQAgBUEBaiIMIAcgDEYiDBshBSADIAdBACAMG2shDAwCCyACIAxrIQdBACEFDAELIANBAWshDEEBIQdBACEFIAMhAgsgBSAMSQ0AC0EEIAYgAiACIAZLIgIbIhJrIgZB/v///wdxDQQgEkEFTw0HIBIgFiAHIAIbIhprIQIgEiAaSQ0GIAYgGksNBEEAIR8gBkEDSw0FIBJBoI7BAGohAyACQaCOwQBqIQUgBkECSQ0CIAUvAAAgAy8AAEcNBCADQQJqIQMgBUECaiEFDAMLIA9BBEGQ/MQAEIwHAAsgDEEEQaD8xAAQjAcACyASQQRGDQILIAUtAAAgAy0AAEYNAQsgBiASIAYgEksbIRpBASEfCyBOQoAQfSJGQgAgRiBOWBshS0EEIBIgEkEETRshLyAiQQVrISkgEkEDaiELQQEhBSASQQFqITogEkEEayEbIBJBA2shHSASQQJrIRggEkEBayEgIBJBf3MhQSAEQQI2ApADIBJBAmohFEGGgICAeCEPA0AgAyEHIAghDiANIRAgASgCACEJIAEoAgQiFa0hTQNAIEsgTloNBkJ/IEtCgBB8IkYgRiBLVBsiRiBLWA0GAkACQAJAIE4gRiBGIE5WGyBLfSJGpyICQYAQTQRAAkACQCAFQQFxBEAgAQJ+AkAgAiAVIEsgTSBLIE1UG6ciA2tNBEAgAyAJaiEDIAJBAUcEQCACBEAgIiADIAL8CgAAC0EEIQUMAgsgIiADLQAAOgAAQQQhBQwBCyAKIQUgTSBMQgRSDQEaCyBGQv8fgyBLfAs3AwggBUH/AXEiA0EERgRAIAIhAwwCCyBJQhiIpyEIIEmnIQwCQAJAAkAgA0EBaw4DAQACEQsgCC0ACCEMCyAMQf8BcUElRg0ODA8LIAgtAAhBJUcNDiAIKAIAIQogCEEEaigCACICKAIAIgEEQCAKIAERAwALIAIoAgQiAwRAIApBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIANqSQ0dIAFBACACIANBJ2pLGw0cIAoQogILIAhBBGsoAgAiAUF4cSICQRBBFCABQQNxIgEbSQ0cIAFBACACQTRPGw0bIAgQogIMDQsgAiAQIgNJDQELIANBBEkNAyADQRBJDQICQAJAIB8EQCADIQwDQAJ/AkAgAyAMQQRrIg1LBEBCASANICJqLQAAIgJBP3GthkLgkASDQgBSDQEgDQwCCyANIANB+JjIABCMBwALAkACQCAgQQNNBEACQCAMQQVrIgUgEmoiBiADTw0AIBIhCCAgQaCOwQBqLQAAIAYgImotAABHDQMgIEUNAiAFICBqIgYgA08NACAgIQggGEGgjsEAai0AACAGICJqLQAARw0DIBhFDQIgBSAYaiIGIANPDQAgGCEIIB1BoI7BAGotAAAgBiAiai0AAEcNAyAdRQ0CIAUgHWoiBiADTw0AIB0hCCAbQaCOwQBqLQAAIAYgImotAABHDQMgG0UNAiAFIBsiCGoiBiADSQ0DCyAGIANBmJnIABCMBwALIBINBQtBACEIIAJB0ABHDQAgEkEETw0KIA0gEmoiAiADTw0FAkAgEkGgjsEAai0AACACICJqLQAARw0AIDpBBEYNCyANIDpqIgIgA08NBiA6QaCOwQBqLQAAIAIgImotAABHDQAgFEEERg0LIA0gFGoiAiADTw0GIBQiBUGgjsEAai0AACACICJqLQAARgRAIAtBBEYNDCALIA1qIgIgA08NByALIgVBoI7BAGotAAAgAiAiai0AAEYNDAsgBUEERg0LCyAMIBprDAELIAwgQWogCGoLIgxBBE8NAAsMBgtBBCEWIAMhAgNAAn8CQCADIAJBBGsiDUsEQEIBIA0gImotAAAiI0E/ca2GQuCQBINCAFINAUEEIRYgDQwCCyANIANBuJnIABCMBwALIAIgImohJiAWIBIgEiAWSxtBAWohDAJAAkACQAJAAkADQCAMQQFGDQEgDEEBayIFQQRLDQIgAyACIAxqQQZrIghLBEAgDEGejsEAaiAMICZqIQggBSEMLQAAIAhBBmstAABGDQEMBgsLIAggA0HYmcgAEIwHAAtBACEFICNB0ABHDQMgEiAWTw0MIAIgOWohCCASIQwDQCAMIC9GDQIgDCANaiADTw0DIAxBoI7BAGotAAAgCCAMai0AAEYEQCAWIAxBAWoiDEYNDgwBCwsgAiAaIhZrDAQLIAxBAmtBBEHImcgAEIwHAAsgL0EEQeiZyAAQjAcACyADIAIgEmpBBGsiACAAIANJGyADQfiZyAAQjAcAC0EEIRYgAiBBaiAFagsiAkEETw0ACwwFCyAgQQRBiJnIABCMBwALIAMgDCASakEEayIAIAAgA0kbIANBqJnIABCMBwALQQAgECACQfCbyAAQ6gcAC0EAIAJBgBBBvIrBABDqBwALIAMgImohAkEAIQxBASEFA0AgAiAFakECay0AACAMQQF0aiEMIAVBAWsiBUF9Sg0ACyADIClqIQUDQCAFQQFqIQICQCAMQaoCRw0AIAJBoI7BAEEEELsGRQ0AIAIgImshDQwDCyACICJNDQEgBS0AACAMQQF0IAVBBGotAABBBHRraiEMIAVBAWshBQwACwALIEtQDQdCfyBLQgN8IkYgRiBLVBsiR0KAEH0iRkIAIEYgR1gbIkYgTiBGIE5UGyFLQQEhBQwBCwsCQCABAn4CQAJAAn8CQAJAAkAgFSBLIA2tfCJGIE0gRiBNVBunIgJrQRVNBEACQAJAAkACQCBMQgRRBEAgASBGQhZ8NwMIIBwhDCAkQQFrDgQCAQEGAwsgASBNNwMIIBwhDCAkQQFrDgQBAAAFAgsgEy0ACCEMCyAMQf8BcUElRg0BCyAEIBM2AsADIAQgLDYCvAMgBEGBgICAeDYCuAMMAwsgBCBWNwOQBiAEQRg2ArQGIARBiI7BADYCsAYgBEIBNwLcBCAEQQE2AtQEIARBuJ7HADYC0AQgBCAEQZAGajYC2AQgBEG4A2ogBEHQBGoQ7AMgJEEDRw0CIBMoAgAhBiATQQRqKAIAIgMoAgAiAgRAIAYgAhEDAAsgAygCBCIIBEAgBkEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgCGpJDR4gAkEAIAMgCEEnaksbDR0gBhCiAgsgQygCACICQXhxIgNBEEEUIAJBA3EiAhtJDR0gAkEAIANBNE8bDRwgExCiAgwCCyABIEZCFnwiSDcDCCACIAlqIgIoAABB0JaVMEYNAgsgBEHAA2pBzI7BACgCADYCACAEQcSOwQApAgA3A7gDCyAELwC5A0EIdCEDIAQtALsDQRh0IQggBC8AwQMgQC0AAEEQdHIhAiAELQDAAyEFIAQtAL8DISogBC8AvQMhFiAELQC8AyEGIAQtALgDISMMBQsgNyACKQAENwAAIDdBCGoiQiACQQxqKAAANgAAIAIoABAhCCAELwC5AyEjIAQvALsDISYgBC8AvQMhFiAELwC/AyERIAQoAMEDIQUgAi8AFCIMrSFKIAwEQCAMEHEiGUUNDiAZQQRrLQAAQQNxRSAMRXJFBEAgGUEAIAz8CwALIAwgFSBIIE0gSCBNVBunIgJrTQRAIAIgCWoiAiAMQQFHDQIaIBkgAi0AADoAAAwDCyAKIQYgSSFHIE0gTEIEUg0EGgwDC0EBIRkgCSBIIE0gSCBNVBunagshAiAMRQ0AIBkgAiAM/AoAAAtCACFHQQQhBgsgSCBKfAs3AwgCfwJAIAZB/wFxIgJBBEcEQCBHQhiIpyEFIEenIQgCQAJAAkACQCACQQFrDgMBAAIDCyAFLQAIIQgLIAhB/wFxQSVHDQEMAwsgBS0ACEElRw0AIAUoAgAhCCAFQQRqKAIAIgMoAgAiAgRAIAggAhEDAAsgAygCBCICBEAgCCACIAMoAggQogcLIAVBBGsoAgAiAkF4cSIDQRBBFCACQQNxIgIbSQ0ZIAJBACADQTRPGw0YIAUQogIMAgsgR0IQiKchKiBHpyEWQQEhIyAFQQh2DAILAkACQAJAAkACQAJAAkACQAJAAkACQAJAIFcgSCBKfFoEQCARQf//A0cgCEF/R3EgRkITWHINBiAVIEZCFH0iUiBNIE0gUlYbpyICa0ETSw0DIExCBFINASABIEY3AwggJEEERw0CDAQLQRshCCAPQYaAgIB4RgRAQcmRwQAhAwwLC0HJkcEAIQMCQAJAQQEgD0H/////B2ogD0GAgICAeE0bDgIAAQwLIAdB/wFxQQNHDQsgDigCACEGIA5BBGooAgAiAygCACICBEAgBiACEQMACyADKAIEIgIEQCAGIAIgAygCCBCiBwsgDkEMQQQQogdByZHBACEDDAsLIA9BgICAgHhyQYCAgIB4Rg0KIAdB/wFxIChBCHRyIA9BARCiBwwKCyABIE03AwggJEEERg0CCyAcIQYCQAJAAkACQCAkQQFrDgMBAAACCyATLQAIIQYLIAZB/wFxQSVGDQELIAQgEzYCwAMgBCAsNgK8AyAEQYGAgIB4NgK4AwwDCyAEIFg3A/AFIARBHzYClAYgBEHQjsEANgKQBiAEQgE3AtwEIARBATYC1AQgBEG4nscANgLQBCAEIARB8AVqNgLYBCAEQbgDaiAEQdAEahDsAyAkQQNHDQIgEygCACEGIBNBBGooAgAiAygCACICBEAgBiACEQMACyADKAIEIgIEQCAGIAIgAygCCBCiBwsgE0EMQQQQogcMAgsgASBGNwMIIAIgCWoiAigAAEHQlpk4Rg0DCyAEQcADakGoj8EAKAIANgIAIARBoI/BACkCADcDuAMLIAQgBDUAvQMiRz4CtAYgBCAEKAC5AyICNgKwBiAEKACzBiEDIAQtALgDIAJBCHRyIgJBgYCAgHhPBEAgAkGBgICAeEcgA0H/AXFBA0dyDQEgRyBAMQAAQjCGIARBwQNqMwAAQiCGhIRCGIinIhAoAgAhBiAQQQRqKAIAIgMoAgAiAgRAIAYgAhEDAAsgAygCBCICBEAgBiACIAMoAggQogcLIBBBDEEEEKIHDAELIAJBgICAgHhyQYCAgIB4Rg0AIAMgAkEBEKIHCyAIrSFHIBENASBGIEd9IkdCACBGIEdaGyFRDAULIDcgAikABDcAACBCIAJBDGooAAA2AAAgUiAEKQC9AyJPWARAQSAhCAJAIA9BhoCAgHhGDQBBgZHBACEDAkACQEEBIA9B/////wdqIA9BgICAgHhNGw4CAAEHCyAHQf8BcUEDRw0GIA4oAgAhBiAOQQRqKAIAIgMoAgAiAgRAIAYgAhEDAAsgAygCBCICBEAgBiACIAMoAggQogcLIA5BDEEEEKIHDAELIA9BgICAgHhyQYCAgIB4Rg0FIAdB/wFxIChBCHRyIA9BARCiBwtBgZHBACEDDAQLIAIoABBBAUsNAiAEKAC5AyEGAkAgBCgCkANBAkcEQCAEKALwAiAEQdAEakHEj8EAENACRQ0BIAQoAvgCIgJFDQEgBCgC9AIgAkEBEKIHDAELQYAQEHEiA0UNESADQQRrLQAAQQNxBEAgA0EAQYAQ/AsACyA8/QwAAAAAAAAAAAAAAAAAAAAA/QsAACAEQQI6AOgBID8gBEHQBGoiAkHHAPwKAAAgBEKAEDcCjAMgBCADNgKIAyAEQgA3A4ADIARBADYC+AIgBEKAgICAEDcD8AIgBEEZNgLoAiAEQoCAgIAQNwPgAiAEQRo2ArACIAJBxI/BABDQAgsgPiAEQdAEakGAAfwKAAAgBCBPNwOAAyAEQQA2ApADIAQgUjcD+AEgBCBPNwPwASAEQQA6AOgBIAQgTzcD4AFBhoCAgHghAiAhIQMgHiEQA0AgECEeIAMhISACIQkgBEHQBGogBEHgAWogARD1ASAEKQPYBCFKIAQoAtAEQQFGBEAgBCgC1AQhAyACQYaAgIB4Rg0DAkACQEEBIAJB/////wdqIAJBgICAgHhNGw4CAAEFCyAeQf8BcUEDRw0EICEoAgAhBiAhQQRqKAIAIggoAgAiAgRAIAYgAhEDAAsgCCgCBCICBEAgBiACIAgoAggQogcLICFBDEEEEKIHDAQLIAlBgICAgHhyQYCAgIB4Rg0DIB4gCUEBEKIHDAMLAkACQAJAAkACQAJ/AkACQCBKp0EBcQRAIAEoAgQiA60hRwJAAkACQCADQv////8PIAEpAwgiSiBKQv////8PWhunayICQQAgAiADTRtBN00EQAJAAkACQAJAIExCBFEEQCABIEpCOHw3AwggHCEDICRBAWsOBAIBAQYDCyABIEc3AwggHCEDICRBAWsOBAEAAAUCCyATLQAIIQMLIANB/wFxQSVGDQELIAQgEzYCwAMgBCAsNgK8AyAEQYGAgIB4NgK4AwwDCyAEIFY3A5AGIARBGDYCtAYgBEGsj8EANgKwBiAEQgE3AtwEIARBATYC1AQgBEG4nscANgLQBCAEIARBkAZqNgLYBCAEQbgDaiAEQdAEahDsAyAkQQNHDQIgEygCACEQIBNBBGooAgAiAygCACICBEAgECACEQMACyADKAIEIgIEQCAQIAIgAygCCBCiBwsgE0EMQQQQogcMAgsgBCkD4AQhUCABIEpCOHwiUzcDCCABKAIAIiogSiBHIEcgSlYbp2oiECgAAEHQlpkwRg0CCyAEQcADakHMjsEAKAIANgIAIARBxI7BACkCADcDuAMLIAQtALsDQRh0IAQvALkDQQh0ciErIAQoAsADIQMgBCgCvAMhECAELQC4AyECDAgLIDcgECkABDcAACBCIBBBDGooAAA2AABBACECQYCAgIB4ISsgBCkAuQMiSEIsVARAQRYhA0GDk8EAIRAMCAsgUiBQfSJKQgAgSiBSWBsiVEJ/IEhCDHwiSiBIIEpWG1QEQEEkIQNB35LBACEQDAgLIEinQSxrIhVBAEgNASAQ/QAAKCFaIBD9AAAYIVsgECgAECECIBAoABQhECAENQC5AyFNIAQ1AL0DIUggFUUNAiAVEHEiEUUNGiARQQRrLQAAQQNxRSAVRXJFBEAgEUEAIBX8CwALIAMgUyBHIEcgU1YbpyIDayAVTwRAIAMgKmoiAyAVQQFHDQQaIBEgAy0AADoAAAwFCyAKIQMgSSFKIExCBFINBgwFC0HGkMEAIB4gCUGGgICAeEYiBRshAwJAIA9BhoCAgHhGDQACQAJAQQEgD0H/////B2ogD0GAgICAeE0bDgIAAQILIAdB/wFxQQNHDQEgDigCACEGIA5BBGooAgAiCCgCACICBEAgBiACEQMACyAIKAIEIgIEQCAGIAIgCCgCCBCiBwsgDkEMQQQQogcMAQsgD0GAgICAeHJBgICAgHhGDQAgB0H/AXEgKEEIdHIgD0EBEKIHC0EVICEgBRshCEGAgICAeCAJIAUbIQ8gA0EIdiEoQQAhBSAMRQ0RIBkgDEEBEKIHDBELQZySwQAQ/wcAC0EBIREgKiBTIEcgRyBTVhunagshAyAVRQ0AIBEgAyAV/AoAAAtCACFKQQQhAwsgUyAVrXwhRwsgASBHNwMIAn8CQCADQf8BcSIqQQRHBEAgSkIYiKchAyBKpyICIRACQAJAAkACQCAqQQFrDgMBAAIDCyADLQAIIRALIBBB/wFxQSVHDQEMAwsgAy0ACEElRw0AIAMoAgAhKiADQQRqKAIAIhAoAgAiAgRAICogAhEDAAsgECgCBCICBEAgKiACIBAoAggQogcLIANBDEEEEKIHDAILIAJBCHQgKnIhEEEBDAILAkACfyAGIBBHBEBB64/BACEQQS8MAQsgSEIghiBNhEIMfCBUUQ0BQciPwQAhEEEjCyEDQYCAgIB4IQIgFUUNBCARIBVBARCiBwwECyAEQSBqIFv9HQFCLhDdBgJAQn9CfyAEKQMgIkogWv0dAXwiRyBHIEpUGyAEKQMoQgBSGyBQWARAIFAgT30hUSAJQYaAgIB4Rg0BIA0hECAGIRcgAiE4IBUhNSARITMgRiFOIBYhMiAmIS4gIyEwIFshXCBaIVkCQAJAQQEgCUH/////B2ogCUGAgICAeE0bDgIAARgLIB5B/wFxQQNHDQIgISgCACEXICFBBGooAgAiECgCACIDBEAgFyADEQMACyAQKAIEIgMEQCAXIAMgECgCCBCiBwsgIUEMQQQQogcMAgsgCUGAgICAeHJBgICAgHhGDQEgHiAJQQEQogcMAQsCQCAJQYaAgIB4Rg0AAkACQEEBIAlB/////wdqIAlBgICAgHhNGw4CAAECCyAeQf8BcUEDRw0BICEoAgAhECAhQQRqKAIAIgMoAgAiAgRAIBAgAhEDAAsgAygCBCICBEAgECACIAMoAggQogcLICFBDEEEEKIHDAELIAlBgICAgHhyQYCAgIB4Rg0AIB4gCUEBEKIHC0GakMEAIRBBLCEDQYCAgIB4IQIgFUUNBSARIBVBARCiBwwFCyANIRAgBiEXIAIhOCAVITUgESEzIEYhTiAWITIgJiEuICMhMCBbIVwgWiFZDBQLQaySwQAhEEEzIQNBAAshAiAVRQ0AIBEgFUEBEKIHCyArIAJB/wFxciECCyAJQYaAgIB4Rg0AAkACQEEBIAlB/////wdqIAlBgICAgHhNGw4CAAECCyAeQf8BcUEDRw0BICEoAgAhFSAhQQRqKAIAIh4oAgAiEQRAIBUgEREDAAsgHigCBCIRBEAgFSARIB4oAggQogcLICFBDEEEEKIHDAELIAlBgICAgHhyQYCAgIB4Rg0AIB4gCUEBEKIHDAALAAsCQCBGIEdWBEACQCAEKAKQA0ECRwRAIAQoAvACIARB0ARqQeSNwQAQ0AJFDQEgBCgC+AIiAkUNASAEKAL0AiACQQEQogcMAQtBgBAQcSIDRQ0SIANBBGstAABBA3EEQCADQQBBgBD8CwALIDz9DAAAAAAAAAAAAAAAAAAAAAD9CwAAIARBAjoA6AEgPyAEQdAEaiICQccA/AoAACAEQoAQNwKMAyAEIAM2AogDIARCADcDgAMgBEEANgL4AiAEQoCAgIAQNwPwAiAEQRk2AugCIARCgICAgBA3A+ACIARBGjYCsAIgAkHkjcEAENACCyA+IARB0ARqIgJBgAH8CgAAIAQgRzcDgAMgBEEANgKQAyAEIEY3A/gBIAQgRzcD8AEgBEEAOgDoASAEIEc3A+ABIAIgBEHgAWogARD1ASAEKQPYBCFKIAQoAtAERQ0BIAQoAtQEIQMMAgtBGyEIIA9BhoCAgHhGBEBBrpHBACEDDAQLQa6RwQAhAwJAAkBBASAPQf////8HaiAPQYCAgIB4TRsOAgABBQsgB0H/AXFBA0cNBCAOKAIAIQYgDkEEaigCACIDKAIAIgIEQCAGIAIRAwALIAMoAgQiAgRAIAYgAiADKAIIEKIHCyAOQQxBBBCiB0GukcEAIQMMBAsgD0GAgICAeHJBgICAgHhGDQMgB0H/AXEgKEEIdHIgD0EBEKIHDAMLIEqnQQFxBEAgBCkD4AQgR30hUQwEC0ENIQggD0GGgICAeEYEQEGhkcEAIQMMAwtBoZHBACEDAkACQEEBIA9B/////wdqIA9BgICAgHhNGw4CAAEECyAHQf8BcUEDRw0DIA4oAgAhBiAOQQRqKAIAIgMoAgAiAgRAIAYgAhEDAAsgAygCBCICBEAgBiACIAMoAggQogcLIA5BDEEEEKIHQaGRwQAhAwwDCyAPQYCAgIB4ckGAgICAeEYNAiAHQf8BcSAoQQh0ciAPQQEQogcMAgsgSkIgiKchCCBKpyEFIAwEQCAZIAxBARCiBwtBACEZIA0hECADIQwMDQtBJiEIIA9BhoCAgHhGBEBB25DBACEDDAELQduQwQAhAwJAAkBBASAPQf////8HaiAPQYCAgIB4TRsOAgABAgsgB0H/AXFBA0cNASAOKAIAIQYgDkEEaigCACIDKAIAIgIEQCAGIAIRAwALIAMoAgQiAgRAIAYgAiADKAIIEKIHCyAOQQxBBBCiB0HbkMEAIQMMAQsgD0GAgICAeHJBgICAgHhGDQAgB0H/AXEgKEEIdHIgD0EBEKIHCyADQQh2IShBgICAgHghD0EAIQUgDEUNBAJAIBlBBGsoAgAiAkF4cSIGQQRBCCACQQNxIgIbIAxqTwRAIAJBACAGIAxBJ2pLGw0BIBkQogIMBgsMGQsMFwtBACEzIA0hECBGIU4gFiEyICYhLiAjITAMCgtBIiEFQQAhI0H3kcEAIQZBACEqQcggIRZBAAshAkGAgICAeCEIQQAhAyAMRQ0AIBlBBGsoAgAiEEF4cSImQQRBCCAQQQNxIhAbIAxqSQ0VIBBBACAmIAxBJ2pLGw0UIBkQogILIAVB/wFxIAJBCHRyIQwgFkH//wNxICpB/wFxQRB0ciECIAMgI0H/AXFyIAhyIRACQCAPQYaAgIB4RwRAQQAhBSAOIQggByEDAkACQEEBIBBB/////wdqIBBBgICAgHhNGw4CAAEECyAGQf8BcUEDRw0DIAwoAgAhBiAMQQRqKAIAIgMoAgAiAgRAIAYgAhEDAAsgAygCBCIIBEAgBkEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgCGpJDRggAkEAIAMgCEEnaksbDRcgBhCiAgsgDEEEaygCACICQXhxIgNBEEEUIAJBA3EiAhtJDRcgAkEAIANBNE8bDRYgDBCiAgwCCyAQQYCAgIB4ckGAgICAeEYNAiAGQf8BcSACQQh0ciIIQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyAQakkNFiACQQAgAyAQQSdqSxsNFSAIEKICDAELQQAhBSAQIQ8gDCEIIAYhAyACISgMAQsgDiEIIAchAwwACwALIAIgEiASQYD8xAAQ6gcACyAEQQA2AvABIARBATYC5AEgBEGIgsgANgLgASAEQgQ3AugBIARB4AFqQfD7xAAQjQgACyAMQQRBoPzEABCMBwALIBBBBEGQ/MQAEIwHAAtBgICAgHghDCAPQYaAgIB4RwRAIAetQv8BgyAorUL///8Hg0IIhoQgDq1CIIaEIVUgDyEMCwJAIAQoApADQQJGDQAgBCgCjAMiCgRAIAQoAogDIgNBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIApqSQ0QIAFBACACIApBJ2pLGw0PIAMQogILIAQoAvACRQ0AIAQoAvgCIgpFDQAgBCgC9AIiA0EEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgCmpJDQ8gAUEAIAIgCkEnaksbDQ4gAxCiAgsgOSgCACICQXhxQYQQQYgQIAJBA3EiARtJDQ4gAUEAIAJBqBBPG0UEQCBVQiCIpyEIIFWnIQUgIhCiAgwLCwwNCyAFrUL/AYMgSUL//////////wCDQgiGhKchBUEAIRlBgYCAgHghDAsCQCAPQYaAgIB4Rg0AAkACQEEBIA9B/////wdqIA9BgICAgHhNGw4CAAECCyAHQf8BcUEDRw0BIA4oAgAhBiAOQQRqKAIAIgMoAgAiAgRAIAYgAhEDAAsgAygCBCICBEAgBiACIAMoAggQogcLIA5BBGsoAgAiAkF4cSIDQRBBFCACQQNxIgIbSQ0OIAJBACADQTRPGw0NIA4QogIMAQsgD0GAgICAeHJBgICAgHhGDQAgB0H/AXEgKEEIdHIgD0EBEKIHCwJAIAQoApADQQJGDQAgBCgCjAMiDQRAIAQoAogDIgZBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIA1qSQ0OIAJBACADIA1BJ2pLGw0NIAYQogILIAQoAvACRQ0AIAQoAvgCIg1FDQAgBCgC9AIiBkEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgDWpJDQ0gAkEAIAMgDUEnaksbDQwgBhCiAgsCQCA5KAIAIgNBeHFBhBBBiBAgA0EDcSICG08EQCACQQAgA0GoEE8bRQRAICIQogIgGUUNCwJ/AkAgMwRAIFz9HQEiRiBc/R0AWg0BQYCAgIB4IQVBkI/IACEDQcgAIQgMDAsgLkH//wNxIQUgMkH//wNxIQYgCK0hSyAwQf//A3EMAQsgRqchBiBZ/R0BIUsgFyEFIDgLIFEgSyBRfCJPVgRAQYCAgIB4IQVB2I/IACEDQSghCAwKCyAFRgRAQYOAgIB4IQVB+IzBACEDQRshCCAGQQAgBiBPp00bIgetQqgBfiJGQiCIpw0KIEanIgJBAEgNCiACQfn///8HSQRAAkAgAkUEQEEIISpBACEHDAELIAIQcSIqRQ0GCyABIE83AwggBEEANgK0AyAEICo2ArADIAQgBzYCrAMCQCAGBEBBACEIA0AgASgCBCIDrSFGIANC/////w8gASkDCCJIIEhC/////w9aG6drIgJBACACIANNG0EtTQRAAkAgTEIEUQRAIAEgSEIufDcDCCAkQQRHDQEMDgsgASBGNwMIICRBBEYNDQtBgYCAgHghBSAcIQIgEyEDICwhBgJAAkAgJEEBaw4DAQAADwsgEy0ACCECCyACQf8BcUElRw0NIAQgVjcDkAYgBEEgNgK0BiAEQcKNwQA2ArAGIARCATcC7AEgBEEBNgLkASAEQbiexwA2AuABIAQgBEGQBmo2AugBIARB0ARqIARB4AFqEOwDIAQoAtgEIQMgBCgC1AQhBiAEKALQBCEFICRBA0cNDSATKAIAIQcgE0EEaigCACINKAIAIgIEQCAHIAIRAwALIA0oAgQiAgRAIAcgAiANKAIIEKIHCyATQQxBBBCiBwwNCyABIEhCLnw3AwggASgCACBIIEYgRiBIVhunaiICKAAAQdCWhRBHDQsgAjUAKiFKIAIoACYhDiACLwAgIQcgAi8AHiENIAI1ABghRyACNQAUIUYgAigAECEPIAIvAAQhFCACLwAcIQMgAigAByERIAIoAAshFSAEIAItAA86AOgBIAQgFTYC5AEgBCARNgLgASAELwDnASEaIAQvAOMBIR0gBEHgAWoiAiABIAMQ9AIgBCgC6AEhAyAEKALkASEWIAQoAuABIgVBhoCAgHhHDQogAiABIA0Q9AIgBCgC6AEhGyAEKALkASESIAQoAuABIgVBhoCAgHhHBEAgEiEmIBshIwwKCyAEQeABaiABIAcQ9AIgBCgC6AEhIyAEKALkASEmIAQoAuABIgVBhoCAgHhHBEAgG0UNCiASIBtBARCiBwwKCwJAAkACQAJAIBFBCHYiGEGAEHEiIEUEQCADQQBIDQECfyADRQRAIARBEGpBAUEAEPACIAQoAhAhESAEKAIUDAELIAMQcSICRQ0OIAMEQCACIBYgA/wKAAALIARBGGogAiADEPACIAQoAhghESAEKAIcCyECIARBCGogJiAjEPACIAQoAgwhKyAEKAIIIR8MBAsgBEHgAWogFiADEMQDIAQoAugBIQIgBCgC5AEhBQJAIAQoAuABIhFBgICAgHhHBEAgAiARTwRAIAUhEQwCCyACRQRAIAVBBGsoAgAiB0F4cSINQQRBCCAHQQNxIi8bIBFqSQ0bIC9BACANIBFBJ2pLGw0aIAUQogJBASERDAILIAUgEUEBIAIQuwIiEQ0BDA4LIAJBAEgNAgJAIAJFBEBBASERDAELIAIQcSIRRQ0OCyACRQ0AIBEgBSAC/AoAAAsgBEHgAWogJiAjEMQDIAQoAugBISsgBCgC5AEhByAEKALgASILQYCAgIB4RwRAIAsgK00EQCAHIR8MBQsgK0UEQCAHQQRrKAIAIg1BeHEiBUEEQQggDUEDcSIvGyALakkNGiAvQQAgBSALQSdqSxsNGSAHEKICQQEhHwwFCyAHIAtBASArELsCIh8NBAwNCyArQQBIDQICQCArRQRAQQEhHwwBCyArEHEiH0UNDQsgK0UNAyAfIAcgK/wKAAAMAwtB2JrIABD/BwALQazWwAAQ/wcAC0Gs1sAAEP8HAAsCf0EBIBpBH3EiCUUNABpBASAaQQV2QQ9xIgVBDWtBdEkNABpBASAVQQh2IgtBgA9xQYAPRg0AGkEBIAtBgPADcUELdkEXSw0AGkEBIAtBAXRBPnEiDUE8Sw0AGiAaQYD8A3FBCXZBvA9qIRVBHiEoQQEgBXQiB0GqK3FFBEACQCAHQdAUcQ0AQRwhKCAaQYAMcQ0AQR1BHEEdIBVBDHEbIBVBGXAbISgLQQEgCSAoSw0BGgsgGkH/A3EgFUEJdHJBgPABayEvIAtB4P//B3FBOiANIA1BOk8bQQF2ciEHQQALIRUCQAJ/AkACfwJAAkAgG0EATgRAAkAgG0UEQEEBIQ0MAQsgGxBxIg1FDRALIBsEQCANIBIgG/wKAAALQRQQcSILRQ0PIAsgGzYCECALIA02AgwgCyAbNgIIIAtCgYCAgBA3AgAgBCAUOgCFAyAEQQNBBCAUQQh2IgVBA0YbQQAgBRs6AIQDIAQgIEELdjoAgQMgBCAdOwHmAiAEQQFBAiAdQQhGG0EAIB0bOwHkAiAEIAc7AfwCIAQgLzsB+gIgBCAVQQFzOwH4AiAEQgA3A+ABIAQgDzYC6AIgBCBHNwOoAiAEIEY3A6ACIARBADYC8AIgBCALNgLsAiAEIAM2ApQCIAQgFjYCkAIgBCACNgKMAiAEIBE2AogCIAQgGDsB/gIgBCAYQQFxOgCAAyAEIBhBA3ZBAXE6AIIDIAQgSjcDsAIgBCArNgKcAiAEIB82ApgCIARCADcD8AEgBCBINwO4AiAEIA42AvQCIARBADoAgwMgBEEAOgDIAiAEQgA3A9ACIARBADYC4AIgBEKAgICAgAE3A9gCIARBADsBgAIgCyALKAIAIgJBAWo2AgAgAkEASA0PIAhBAWohFSAEIAs2AugFQQAhBSAEQQA2AuwFIARBAjYC9AUgBCAEQewFajYC/AUgBCAEQegFajYC+AUDQCAFQQFqIQICQCBEIAVBAnRqKAIAIi8oAgAiBQRAIAIhFgwBC0ECIRYgAkECRg0IIARB7AVqIS8gBCgC7AUiBUUNCAsgBEEANgKMBiAEQoCAgIAQNwKEBiAEIBY2AvAFIAU1AhAhVCAEIAVBCGo2ApgGAkAgVFANAEEAIQ1CACFHQQEhK0EAIR1CACFKA0AgBCgCmAYiKUEIaiIUKAIAIgOtIUggBAJ+AkAgA0L/////DyBHIEdC/////w9aG6drIgJBACACIANNG0ECTwRAQQQhAiApQQRqKAIAIEcgSCBHIEhUG6dqLwAAIQdCACFGDAELQQAhByBJIUYgCiECIEggTEIEUg0BGgsgR0ICfAsiRzcDkAYCQAJ/AkACQAJAAkACfgJAAkACQAJAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAkH/AXEiBUEERwRAIEZCGIinIQMgRqciByELAkACQAJAIAVBAWsOAwEAAiQLIAMtAAghCwsgC0H/AXFBJUYNFQwiCyADLQAIQSVGDQFBAyECDCELIAQCfgJAIAMgRyBIIEcgSFQbpyIFa0ECTwRAQQQhAiApQQRqKAIAIAVqLwAAIRpCACFGDAELQQAhGiBJIUYgCiECIEggTEIEUg0BGgsgR0ICfAsiSzcDkAYCQAJAIAJB/wFxIgVBBEcEQCBGQhiIpyEDIEanIgchBgJAAkAgBUEBaw4DAQADBAsgAy0ACCEGCyAGQf8BcUElRw0CDCILAkACQAJAAkACQAJAAkACQAJAAkAgB0H//wNxIgJB9MYBTQRAIAJBAWsOCgUfHx8fHx8fHwEDCyACQfXGAUYNCCACQfXgAUYNAyACQYGyAkYNAQweC0GDgICAeCEFIBpB//8DcUEgRwRAQSohA0HIksgAIQJBEiEGQYkkIQcMLgtBgYCAgHghBSADIEsgSCBIIEtWG6drQQNLIgIgJEEERnJFBEAgJSEGIBwhByAKIQIgEyEDDC4LIAMgS0IEfCJGIEYgSCBMQgRRGyACGyJHIEggRyBIVBunIgJrQQFNBEAgTEIEUg0FIAQgR0ICfDcDkAYgJSEGIBwhByAKIQIgEyEDICRBBEcNLgwdCyApQQRqKAIAIgcgAmovAABBAUcNHAJAAkACQCADIEdCAnwiRiBIIEYgSFQbpyICa0EBTQRAIExCBFINASAEIEdCBHw3A5AGICUhBiAcIQcgCiECIBMhAyAkQQRHDTEMAgsgAiAHai8AAEEYRw0BAn4CQCADIEdCBHwiRiBIIEYgSFQbpyICa0EITwRAIAIgB2opAAAhRkEEIQJCACFNDAELQgAhRiBJIU0gCiECIEggTEIEUg0BGgsgR0IMfAshRyACQf8BcUEERg0CIE1CCIinIQYgTUIYiKchAyBNpyEHDDALIAQgSDcDkAYgJSEGIBwhByAKIQIgEyEDICRBBEcNLwtBMiEDQeWRyAAhAkESIQZBiCQhB0GDgICAeCEFDC4LAn4CQCADIEcgSCBHIEhUG6ciAmtBCE8EQCACIAdqKQAAIU1BBCECQgAhSwwBC0IAIU0gSSFLIAohAiBIIExCBFINARoLIEdCCHwLIVAgAkH/AXFBBEcEQCBLQgiIpyEGIEtCGIinIQMgS6chBwwuCwJAAkAgAyBQIEggSCBQVhunIgJrQQhPBEAgAiAHaikAACFHQQQhAkIAIUsMAQtCACFHIEkhSyAKIQIgTEIEUg0BCyBQQgh8IUgLIAQgSDcDkAYgAkH/AXFBBEYNBSBLQgiIpyEGIEtCGIinIQMgS6chBwwtCyAaQf//A3FBB0YNBUGDgICAeCEFQfyUyAAhAkEuIQNBiiQhB0ESIQYMLAsgAkHVqAFHDRsgGkH//wNxIgdFBEBBgICAgHghBUEhIQNB/JDIACECQYgkIgdBCHYhBgwsCyApQQRqKAIAIRQgBAJ+AkAgSyBIIEggS1YbpyICIANHBEAgAiAUai0AACELQQQhAkIAIUYMAQtBACELIEkhRiAKIQIgSCBMQgRSDQEaCyBLQgF8CyJHNwOQBiACQf8BcUEERw0ZIAdBBUcNFgwXCyAEQbAGaiAEQZAGaiAaENoCIAQoArwGIQMgBCgCuAYhCyAEKAK0BiEUIAQoArAGRQ0FDBQLIARBAToAgwMgBAJ+AkACQAJAAkACQAJAIBpB//8DcSILQRdNBEBBACEFIAQpA6gCQv////8PUQ0BIEshSgwECwJ+AkAgAyBLIEggSCBLVhunIgVrQQhPBEBBBCECIClBBGooAgAgBWopAAAhSkIAIUYMAQtCACFKIEkhRiAKIQIgSCBMQgRSDQEaCyBLQgh8CyFLIAJB/wFxQQRHDQEgBCBKNwOoAiADIEsgSCBIIEtWG6ciBWtBCEkNBEEEIQIgKUEEaigCACAFaikAACFHQgAhRgwFCyAEAn4CQCADIEsgSCBIIEtWG6ciBWtBCE8EQEEEIQIgKUEEaigCACAFaikAACFHQgAhRgwBC0IAIUcgSSFGIAohAiBIIExCBFINARoLIEtCCHwLIko3A5AGIAJB/wFxQQRGDQELIAKtQv8BgyBGQgiGhKchDSBGQhiIpyEDQYGAgIB4IQUCQAJ/AkACQCACQf8BcUEBaw4DAAEBAwsgRqcMAQsgAy0ACAtB/wFxQSVHDQAgDUH/AXFBgICAgHghBUHAk8gAIQ1BA0YEQCADKAIAIQcgA0EEaigCACIGKAIAIgIEQCAHIAIRAwALIAYoAgQiAgRAIAcgAiAGKAIIEKIHCyADQQxBBBCiBwtBwJPIACECQRshAwsgDUEQdiEGIA1BCHYhBwwuCyAEIEc3A6gCQQghBQsgBCkDoAJC/////w9RBEACfgJAIAMgSiBIIEggSlYbpyIHa0EITwRAQQQhAiApQQRqKAIAIAdqKQAAIUdCACFGDAELQgAhRyBJIUYgCiECIEggTEIEUg0BGgsgSkIIfAshSiACQf8BcUEERw0WIAQgRzcDoAIgBUEIaiEFIAQpA7ACQv////8PUg0VDBQLIAQpA7ACQv////8PUQ0TDBQLQgAhRyBJIUYgCiECIEggTEIEUg0BGgsgS0IIfAsiSjcDkAYgAkH/AXFBBEcNEiAEIEc3A6ACQRAhBQwQCyAEIEg3A5AGICUhBiAcIQcgCiECIBMhAyAkQQRHDSgMFwsgBCgC4AIiAiAEKALYAkYEQCA9QYiUyAAQ+wULIAQoAtwCIAJBBXRqIgMgRzcCGCADIE03AhAgAyBGQiCIPgIMIAMgRj4CCCADQQA2AgAgBCACQQFqNgLgAgwYCwJ+AkAgAyBLIEggSCBLVhunIgVrQQJPBEBBBCECIClBBGooAgAgBWovAAAhB0IAIUYMAQtBACEHIEkhRiAKIQIgSCBMQgRSDQEaCyBLQgJ8CyFHIAJB/wFxQQRHBEAgRkIYiKchAyBGpyEHIEZCCIinDCYLAn4CQCADIEcgSCBHIEhUG6ciBWtBAk8EQEEEIQIgKUEEaigCACAFai8AAEHBigFGIRpCACFGDAELQQAhGiBJIUYgCiECIEggTEIEUg0BGgsgR0ICfAshRyACQf8BcUEERwRAIEZCGIinIQMgRqchByBGQgiIpwwmCwJ+AkAgRyBIIEcgSFQbpyIFIANHBEBBBCECIClBBGooAgAgBWotAABBAWshFEIAIUYMAQtB/wEhFCBJIUYgCiECIEggTEIEUg0BGgsgR0IBfAshSwJAAkACQCACQf8BcSIFQQRHBEAgRkIYiKchAwJ/AkACQCAFQQFrDgMAAQQFCyBGpwwBCyADLQAIC0H/AXFBJUcNAgwQCwJAAkAgAyBLIEggSCBLVhunIgNrQQJPBEBBBCECIClBBGooAgAgA2ovAAAhA0IAIUcMAQtBACEDIEkhRyAKIQIgTEIEUg0BCyBLQgJ8IUgLIAQgSDcDkAYgAkH/AXFBBEYNAiBHQhiIpyEDIEenIQcgR0IIiKcMKAsgAy0ACEElRg0NCyBGpyEHIEZCCIinDCYLQYCAgIB4IQUgGkUEQEHqlMgAIQJBEiEDQYokIQdBEiEGDCcLIAdBAWtB//8DcUEBSwRAQdCUyAAhAkEaIQNBiiQhB0ESIQYMJwsgFEH/AXFBAk0NBUGxlMgAIQJBHyEDQYokIQdBEiEGDCYLIARBsAZqIgIgBEGQBmogGhDaAiAEKAK8BiEDIAQoArgGIQsgBCgCtAYhFCAEKAKwBg0PIAQoApwCIRggBCgCmAIhByAEQQA2ArgGIARCADcDsAYgAiAHIBgQ3gEgBCgCuAYgA0cEQCALBEAgFCALQQEQogcLQYCAgIB4IQVBsJDIACECQSwhAwwICyAEIAs2AqgGIAQgFDYCpAYgBCALNgKgBiAEQbAGaiAUIAsQ+wIgBCgCsAZFBEAgBCkDoAYhSAwKC0GAgICAeCEFIAQpAqQGIUggC0GAgICAeEYEQCAEKAK0BiELDAoLQYCcyAAhAkENIQMgC0UNCCBIpyALQQEQogcMCAsgBCgClAIhBSAEKAKQAiECIARBADYCuAYgBEIANwOwBiAEQbAGaiACIAUQ3gEgBCgCuAYgA0cEQEGAgICAeCEFQbCQyAAhAkEsIQMgC0UNByAUIAtBARCiBwwHCyAFBEAgAiAFQQEQogcLIAQgFDYCkAIgBCALNgKUAiALQQBIDQQCQCALRQRAQQEhBQwBCyALEHEiBUUNMAsgCwRAIAUgFCAL/AoAAAsgBCALNgKoBiAEIAU2AqQGIAQgCzYCoAYgBEGwBmogBSALEPsCAkACQCAEKAKwBkUEQCAEKQOgBiJGQiCIpyECIAsgRqciBUkNASACIQMMAgtBgICAgHghBUGAnMgAIQJBDSEDIAtFDQkgBCkCpAanIAtBARCiBwwJCyALRQRAQQEhAyACIAVBARCiBwwBCyACIAVBASALELsCIgNFDTALIAQoAowCIgIEQCAEKAKIAiACQQEQogcLIARBAToAgQMgBCALNgKMAiAEIAM2AogCDBULIAMtAAhBJUYNBAsgRkIIiKcMIQsgAygCACEUIANBBGooAgAiBSgCACICBEAgFCACEQMACyAFKAIEIgcEQCAUQQRrKAIAIgJBeHEiBUEEQQggAkEDcSICGyAHakkNOSACQQAgBSAHQSdqSxsNOCAUEKICCyADQQRrKAIAIgJBeHEiBUEQQRQgAkEDcSICG0kNOCACQQAgBUE0TxsNNyADEKICDBILIAQgSjcD0AIgBCADOwHmAiAEQQFBAiADQf//A3EiAkEIRhtBACACGyICOwHkAiAEIAetQv//A4MgAq1CIIYgA61CMIaEhCAUrUL/AYNCEIaEQoCABHw3A4ACDBELQdiayAAQ/wcACyADKAIAIQUgA0EEaigCACIGKAIAIgIEQCAFIAIRAwALIAYoAgQiAgRAIAUgAiAGKAIIEKIHCyADQQxBBBCiBwwbC0GIJCEHQRIhBgwdC0GOJCEHQRIhBgwcCyBIQiCIpyEFAkACQCALIEinIhRPDQAgC0UEQCAFQQRrKAIAIgJBeHEiA0EEQQggAkEDcSICGyAUakkNNSACQQAgAyAUQSdqSxsNAiAFEKICQQEhBQwBCyAFIBRBASALELsCIgVFDSgLIBgEQCAHIBhBARCiBwsgBCALNgKcAiAEIAU2ApgCDA0LDDELIAMoAgAhBSADQQRqKAIAIgYoAgAiAgRAIAUgAhEDAAsgBigCBCICBEAgBSACIAYoAggQogcLIANBDEEEEKIHC0GAgICAeCEFQZiUyAAhAkEZIQNBiiQhB0ESIQYMGQsCfgJAIAMgSiBIIEggSlYbpyIHa0EITwRAQQQhAiApQQRqKAIAIAdqKQAAIUdCACFGDAELQgAhRyBJIUYgCiECIEggTEIEUg0BGgsgSkIIfAshSiACQf8BcSIHQQRHBEAgAq1C/wGDIEZCCIaEpyENIEZCGIinIQNBgYCAgHghBQJAAn8CQAJAIAdBAWsOAwABAQMLIEanDAELIAMtAAgLQf8BcUElRw0AIA1B/wFxQYCAgIB4IQVBwJPIACENQQNGBEAgAygCACEHIANBBGooAgAiBigCACICBEAgByACEQMACyAGKAIEIgIEQCAHIAIgBigCCBCiBwsgA0EMQQQQogcLQcCTyAAhAkEbIQMLIA1BEHYhBiANQQh2IQcMGQsgBCBHNwOwAiAFQQhqIQULIAUgC0sEQEGAgICAeCEFQduTyAAhAkEqIQNBiSQhB0ESIQYMGAsgCyAFayEYQQEhESAFIAtGIgdFBEAgGBBxIhFFDSMgEUEEay0AAEEDcUUgGEVyRQRAIBFBACAY/AsACyAUKAIAIgOtIUgLAkACQCADIEogSCBIIEpWG6ciAmsgGE8EQCApQQRqKAIAIAJqIQIgGEEBRwRAIBgEQCARIAIgGPwKAAALQQQhAgwCCyARIAItAAA6AABBBCECDAELIBMhDyAKIQIgNCEOIExCBFINAQsgSiAYrXwhSAsgBCBINwOQBgJAAn8CQCACQf8BcSIDQQRHBEACfwJAAkAgA0EBaw4DAAEBBAsgDgwBCyAPLQAIC0H/AXFBJUcNASACQf8BcUEDRgRAIA8oAgAhBSAPQQRqKAIAIgMoAgAiAgRAIAUgAhEDAAsgAygCBCIGBEAgBUEEaygCACICQXhxIgNBBEEIIAJBA3EiAhsgBmpJDTQgAkEAIAMgBkEnaksbDTMgBRCiAgsgD0EEaygCACICQXhxIgNBEEEUIAJBA3EiAhtJDTMgAkEAIANBNE8bDTIgDxCiAgtBgICAgHghBUEbIQ9BwJPIACECQYkkIQ5BEgwCC0EBIR0gBw0CIBFBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIBhqSQ0xIAJBACADIBhBJ2pLGw0wIBEQogIMAgtBgYCAgHghBSAOQf///wdxQQh2CyEGIAdFBEAgESAYQQEQogcLIA8hAyAOIQcMGAsgSCFKIEghRwwPCyACrUL/AYMgRkIIhoSnIQ0gRkIYiKchA0GBgICAeCEFAkACfwJAAkAgAkH/AXFBAWsOAwABAQMLIEanDAELIAMtAAgLQf8BcUElRw0AIA1B/wFxQYCAgIB4IQVBwJPIACENQQNGBEAgAygCACEHIANBBGooAgAiBigCACICBEAgByACEQMACyAGKAIEIgIEQCAHIAIgBigCCBCiBwsgA0EMQQQQogcLQcCTyAAhAkEbIQMLIA1BEHYhBiANQQh2IQcMFgsgFEGGgICAeEcEQCALQRB2IQYgC0EIdiEHIAshAiAUIQUMFgsgBCkDkAYiRyALQQFxRQ0HGiBHIUpBASEdDA0LIAtB/wFxaUECdEEBciAHRwRAQYOAgIB4IQVBNSEDQbCRyAAhAkGIJCIHQQh2IQYMFQsgC0EBcQ0AQQAhHyAHQQFrDAELIAQCfgJAIAMgRyBIIEcgSFQbpyICa0EETwRAIAIgFGooAAAhEUEEIQJCACFGDAELQQAhESBJIUYgCiECIEggTEIEUg0BGgsgR0IEfAsiRzcDkAYgAkH/AXFBBEcNAUEBIR8gB0EFawshBUEAIRogB0EGSSIHIAtBAnFFckUEQCAEAn4CQCADIEcgSCBHIEhUG6ciAmtBBE8EQCACIBRqKAAAIQlBBCECQgAhRgwBC0EAIQkgSSFGIAohAiBIIExCBFINARoLIEdCBHwLIkc3A5AGIAJB/wFxQQRHDQFBASEaIAVBBGshBQtCACFGAkAgByALQQRxRXJFBEAgBAJ+AkAgAyBHIEggRyBIVBunIgJrQQRPBEAgAiAUajUAAEIghiFNQQQhAgwBC0IAIU0gSSFGIAohAiBIIExCBFINARoLIEdCBHwLIkc3A5AGIAJB/wFxQQRHDQIgBUEEayEFQgEhRgwBC0IAIU0LAkAgBUUNACAFQQBOBEAgBCBHIAWtfCJLIEsgSCBMQgRRGyAFIAMgRyBIIEcgSFQbp2tNIgIbNwOQBiACICRBBEZyDQFBgYCAgHghBSAKIQIgEyEDIBwiB0EIdiEGDBQLQaCRyAAQ/wcACyAEKALgAiICIAQoAtgCRgRAID1BrJXIABD7BQsgBCgC3AIgAkEFdGoiAyBGIE2ENwIUIAMgCTYCECADIBo2AgwgAyARNgIIIAMgHzYCBCADQQE2AgAgBCACQQFqNgLgAgwDCyBGQhiIpyEDQYGAgIB4IQUgRqciB0EIdiEGDBELQTEhA0GXksgAIQJBEiEGQYkkIQdBg4CAgHghBQwQCwJAIBpB//8DcSIRRQRAQQEhHwwBCyAREHEiH0UNGyAfQQRrLQAAQQNxRSARRXJFBEAgH0EAIBH8CwALIBQoAgAiA60hSAsCQAJAAkAgESADIEsgSCBIIEtWG6ciAmtNBEAgKUEEaigCACACaiECIBFBAUcEQCARRQ0CIB8gAiAR/AoAAAwCCyAfIAItAAA6AAAMAQsgSSFHIAohAiBMQgRSDQIMAQtBBCECQgAhRwsgSyAarUL//wODfCFICyAEIEg3A5AGAkACQCACQf8BcSIFQQRHBEAgR0IYiKchAwJ/AkACQCAFQQFrDgMAAQQFCyBHpwwBCyADLQAIC0H/AXFBJUcNAgwICyARRQ0CIB9BBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIBFqSQ0oIAJBACADIBFBJ2pLGw0nIB8QogIMAgsgAy0ACEElRg0FCyBHpyEHQYGAgIB4IQUgR0IIiKcMBgsgBCkDkAYLIkYgSn0iR6ciC0EATgRAAkAgC0UEQEEBIQMMAQsgCxBxIgNFDRogA0EEay0AAEEDcUUgC0VyDQAgA0EAIAv8CwALIAQoAoQGIA0iAmsgC0kEQCAEQYQGaiACIAsQ7wUgBCgCiAYhKyAEKAKMBiECCyALRSIURQRAIAIgK2ogAyAL/AoAAAsgBCACIAtqIgI2AowGIAsEQCADQQRrKAIAIgVBeHEiB0EEQQggBUEDcSIFGyALakkNJiAFQQAgByALQSdqSxsNJSADEKICCyALIA1qIgMgAksNASAEKAKYBiIFQQhqKAIAIgetIUgCQAJAIAsgB0L/////DyBKIEpC/////w9aG6drIgNBACADIAdNG00EQCAFQQRqKAIAIEogSCBIIEpWG6dqIQUgDSAraiEDIAtBAUcEQCAURQRAIAMgBSAL/AoAAAtBBCEFDAILIAMgBS0AADoAAEEEIQUMAQsgCiEFIExCBFINAQsgR0L/////B4MgSnwhSAsgBCBINwOQBiAFQf8BcSINQQRGBEAgRiFKIAIhDSBIIUcMBwsgSUIYiKchAyBJpyICIQYCQAJAAkACQCANQQFrDgMBAAIDCyADLQAIIQYLIAZB/wFxQSVHDQEMBAsgAy0ACEElRw0AIAMoAgAhBSADQQRqKAIAIgYoAgAiAgRAIAUgAhEDAAsgBigCBCICBEAgBSACIAYoAggQogcLIANBDEEEEKIHDAMLQYGAgIB4IQUgAkEIdCANcgwPC0H0ksgAEP8HAAsgDSADIAJBsJPIABDqBwALQSshA0GAgICAeCEFQYSTyAAMDAsgAygCACEFIANBBGooAgAiBigCACICBEAgBSACEQMACyAGKAIEIgIEQCAFIAIgBigCCBCiBwsgA0EMQQQQogcLQYCAgIB4IQVBHSEDQbyVyAAhAkGKJCEHQRILIQYgEUUNCCAfIBFBARCiBwwICyBKIFRUDQALAkAgHUUEQCAEKAKEBiINRQ0CIAQoAogGIgVBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIA1qSQ0fIAJBACADIA1BJ2pLGw0BIAUQogIMAgtBFBBxIgNFDRIgAyAEKQKEBjcCCCADQoGAgIAQNwIAIANBEGogBEGMBmooAgA2AgACQCAvKAIAIgJFDQAgAiACKAIAIgJBAWs2AgAgAkEBRw0AIC8oAgAQ3QULIC8gAzYCAAwBCwwcC0EBIQUgFkECRw0ACwwGC0HYmsgAEP8HAAtBgICAgHghBUHZlcgAIQJBHCEDQYokIQdBEiEGDAILIEZCCIinCyEGQYGAgIB4IQULIAJB/wFxIAdB/wFxQQh0ciAGQRB0cgshFgJAIAQoAoQGIgcEQCAEKAKIBiINQQRrKAIAIgJBeHEiBkEEQQggAkEDcSICGyAHakkNFyACQQAgBiAHQSdqSxsNASANEKICCwJAIAQoAuwFIgJFDQAgAiACKAIAIgJBAWs2AgAgAkEBRw0AIAQoAuwFEN0FCyAEKALoBSICRQ0JIAIgAigCACICQQFrNgIAIAJBAUcNCSAEKALoBRDdBQwJCwwUCyAEKALoBSEDAkAgBCgC7AIiAkUNACACIAIoAgAiAkEBazYCACACQQFHDQAgBCgC7AIQ3QULIAQgAzYC7AIgBCgC7AUhAwJAIAQoAvACIgJFDQAgAiACKAIAIgJBAWs2AgAgAkEBRw0AIAQoAvACEN0FCyAEIAM2AvACQYCAgIB4IQUCQCAELwHkAkECRw0AIAQvAeYCQeMARw0AIAQvAYACDQBBKyEDQZGMwQAhFgwICyAEKQOwAiJHIFF8IkYgR1QEQEEbIQNBvIzBACEWDAgLIAQgRjcDsAIgBCkD4AEhRiAEKALoASEFIAQoAuwBIRYgBCgC8AEhAyAEQdAEaiBFQZQB/AoAAAJAICBFICNFcg0AAkAgJkEEaygCACICQXhxIg1BBEEIIAJBA3EiAhsgI2pPBEAgAkEAIA0gI0EnaksbDQEgJhCiAgwCCwwWCwwUCyAbBEAgEkEEaygCACICQXhxIg1BBEEIIAJBA3EiAhsgG2pJDRUgAkEAIA0gG0EnaksbDQMgEhCiAgsgRkICUQ0KIARBuANqIARB0ARqQZQB/AoAACAEKAKsAyAIRgRAIwBBIGsiDiQAAkAgBEGsA2oiDygCACIHQZiMhgNLBH9BAAVBBCAHQQF0IgIgAkEETRsiDUGoAWwhAiAOIAcEfyAOIAdBqAFsNgIcIA4gDygCBDYCFEEIBUEACzYCGCAOQQhqQQggAiAOQRRqEIUHIA4oAghBAUcNASAOKAIQIQ8gDigCDAsgD0HojMEAEJMJAAsgDigCDCECIA8gDTYCACAPIAI2AgQgDkEgaiQAIAQoArADISoLICogCEGoAWxqIgIgFq0gA61CIIaENwIMIAIgBTYCCCACIEY3AwAgAkEUaiAEQbgDakGUAfwKAAAgBCAVNgK0AyAVIgggBkcNAAsLIARB2AFqIARBtANqKAIANgIAIAQgUTcCpAEgBEHEAWogBEGoAWooAgA2AgAgBCAEKQKsAzcD0AEgBCAnNgK4ASAEQgA3A7ABIAQgTzcDyAEgBCAEKQOgATcCvAEgBEFAayEYIBkhEEEAIR0jAEHQA2siCSQAIARBsAFqIhQoAighBkHIu8kAAn5BwLvJAC0AAARAQdC7yQApAwAhRkHIu8kAKQMADAELIAlBOGoQvwZBwLvJAEEBOgAAQdC7yQAgCSkDQCJGNwMAIAkpAzgLIklCAXw3AwACQCAGRQRAIAlCgICAgIABNwMYIAkgRjcDECAJIEk3AwggCUEANgIgIAlB8JrIAP0AAwD9CwIkIBQoAiQhDyAUKAIgISYMAQsCQCAGQQ9PBH9BfyAGQQN0QQduQQFrZ3ZBAWoFQQQgBkEIcUEIaiAGQQRJGwsiHEECdEEHakH4////B3EiAyAcQQhqIghqEHEiAkUNACACIANqIQogCARAIApB/wEgCPwLAAsgBkHDrMgFSQRAIAZBuAFsEHEiAkUNASAJQQA2AjAgCSAcQQFrIgMgHEEDdkEHbCADQQhJGzYCLCAJIAM2AiggCSAKNgIkIAlBADYCICAJIAI2AhwgCSBGNwMQIAkgSTcDCCAJIAY2AhggFCgCJCIPIAZBqAFsaiE4IAlBsANqIREgFCgCICEmIAlBGGohBSAJQSRqIRwgDyEDA0AgCUE4aiADQagB/AoAACAJQeACaiIjIANBCGr9AAMA/QsDACAJQfACaiIWIANBGGr9AAMA/QsDACAJIAMpAwA3A9gCIAMoAighFSADKAIsIRkgCUHgAWogA0EwakH4APwKAAAgGUEATgRAAkAgGUUEQEEBISEMAQsgGRBxIiFFDQQLIBkEQCAhIBUgGfwKAAALIAkpAwghRiAJKQMQIUkgEf0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgCSBJNwOoAyAJIEY3A6ADIAkgSULzytHLp4zZsvQAhTcDmAMgCSBJQu3ekfOWzNy35ACFNwOQAyAJIEZC4eSV89bs2bzsAIU3A4gDIAkgRkL1ys2D16zbt/MAhTcDgAMgCUGAA2oiAiAhIBkQggMgCUH/AToAxAMgAiAJQcQDakEBEIIDIAkpA7ADIAk1ArgDQjiGhCJIIAkpA5gDhSJJQhCJIEkgCSkDiAN8Ik6FIkZCFYkgRiAJKQOQAyJHIAkpA4ADfCJJQiCJfCJKhSJGQhCJIEYgTiBHQg2JIEmFIkd8IklCIIlC/wGFfCJOhSJGQhWJIEYgSSBHQhGJhSJHIEggSoV8IklCIIl8IkqFIkZCEIkgRiBJIEdCDYmFIkcgTnwiSUIgiXwiToUiRkIViSBGIEkgR0IRiYUiRyBKfCJJQiCJfCJKhSJGQhCJIEYgR0INiSBJhSJHIE58IklCIIl8IkaFQhWJIEdCEYkgSYUiSUINiSBJIEp8hSJJQhGJhSBGIEl8IklCIIiFIEmFpyEoIAkoAiAhDSAJKAIcIRMgCSgCLEUEQAJAQQAhFyMAQSBrIiAkAAJAAkACQAJAAkACQAJAAn8CQCAcKAIMIiVBAWoiCgRAIBwoAgQiLCAsQQFqIgtBA3YiAkEHbCAsQQhJGyIeQQF2IApJBEAgHkEBaiICIAogAiAKSxsiAkEPSQ0CIAJB/////wFNBEBBfyACQQN0QQduQQFrZ3YiAkH9////A0sNBSACQQFqDAQLDAoLIAsEQCAcKAIAIQ4CQAJAIAIgC0EHcUEAR2oiB0ECSQRAIAchCgwBCyAHQQFxIQogB0H+////A3EiBkEDdCEXIAYhCCAOIQIDQCACIAL9AAMAIln9TUEH/c0B/QwBAQEBAQEBAQEBAQEBAQEB/U4gWf0Mf39/f39/f39/f39/f39/f/1Q/c4B/QsDACACQRBqIQIgCEECayIIDQALIAYgB0YNAQsgDiAXaiECA0AgAiACKQMAIklCf4VCB4hCgYKEiJCgwIABgyBJQv/+/fv379+//wCEfDcDACACQQhqIQIgCkEBayIKDQALCyAOQQhqITQCQCALQQhPBEAgCyAOaiAOKQAANwAADAELIAtFDQAgNCAOIAv8CgAACyAOQQRrITBBASEIQQAhAgNAIAIhCiAIIQICQCAKIA5qIi4tAABBgAFHDQACQAJAIA0gMCAKQQJ0IgZrIgcoAgAiCEsEQCAOIAZrQQRrIRIDQCATIAhBuAFsaigCsAEiMiAscSIGIRcgBiAOaikAAEKAgYKEiJCgwIB/gyJGUARAQQghGwNAIBcgG2ohCCAbQQhqIRsgDiAIICxxIhdqKQAAQoCBgoSIkKDAgH+DIkZQDQALCyAOIEZ6p0EDdiAXaiAscSIXaiwAAEEATgRAIA4pAwBCgIGChIiQoMCAf4N6p0EDdiEXCyAXIAZrIAogBmtzICxxQQhJDQIgDiAXaiIILQAAIAggMkEZdiIIOgAAIDQgF0EIayAscWogCDoAACAOIBdBAnRrQQRrIRdB/wFGDQMgEigAACEIIBIgFygAADYAACAXIAg2AAAgBygCACIIIA1JDQALCyAIIA1B0JvIABCMBwALIC4gMkEZdiIIOgAAIDQgCkEIayAscWogCDoAAAwBCyAuQf8BOgAAIDQgCkEIayAscWpB/wE6AAAgFyASKAAANgAACyACIAIgC0kiCmohCCAKDQALCyAcIB4gJWs2AggMBQsMCAtBBCACQQhxQQhqIAJBBEkbCyIuQQJ0QQdqQXhxIgggLkEIaiIKaiICIAhJIAJB+P///wdLcg0AIAIQcSICRQ0BIAIgCGohEiAKBEAgEkH/ASAK/AsACyAuQQFrIR4gHCgCACEGICUEQCASQQhqITIgBkEEayEwIAYpAwBCf4VCgIGChIiQoMCAf4MhRiAGIQpBACECICUhFwNAIEZQBEADQCACQQhqIQIgCkEIaiIKKQMAQoCBgoSIkKDAgH+DIklCgIGChIiQoMCAf1ENAAsgSUKAgYKEiJCgwIB/hSFGCyAwIEZ6p0EDdiACakECdCIOaygCACIIIA1PDQUgEiATIAhBuAFsaigCsAEiByAecSIIaikAAEKAgYKEiJCgwIB/gyJJUARAQQghGwNAIAggG2ohCCAbQQhqIRsgEiAIIB5xIghqKQAAQoCBgoSIkKDAgH+DIklQDQALCyBGQgF9IEaDIUYgEiBJeqdBA3YgCGogHnEiCGosAABBAE4EQCASKQMAQoCBgoSIkKDAgH+DeqdBA3YhCAsgCCASaiAHQRl2Igc6AAAgMiAIQQhrIB5xaiAHOgAAIBIgCEECdGtBBGsgBiAOa0EEaygAADYAACAXQQFrIhcNAAsLIBwgHjYCBCAcIBI2AgAgHCAeIC5BA3ZBB2wgHkEISRsgJWs2AgggLEUNAiAGIAtBAnRBB2pBeHEiCmsiBkEEaygCACICQXhxIgggCiAsakEJaiIKQQRBCCACQQNxIgIbakkNBCACQQAgCCAKQSdqSxsNBSAGEKICDAILICBBADYCGCAgQQE2AgwgIEHEtcQANgIIICBCBDcCECAgQQhqQcy1xAAQjQgLAAsgIEEgaiQADAQLIAggDUHQm8gAEIwHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALICBBADYCGCAgQQE2AgwgIEHEtcQANgIIICBCBDcCECAgQQhqQcy1xAAQjQgACwsgA0GoAWohAyAJKAIkIhdBBGshCCAJKAIoIg4gKHEhJyAoQRl2IgetQoGChIiQoMCAAX4hRkEAIS5BACEGA0ACQAJAAkACQAJAAkACQAJAAkAgFyAnaikAACJHIEaFIklCf4UgSUKBgoSIkKDAgAF9g0KAgYKEiJCgwIB/gyJJUEUEQANAIAggSXqnQQN2ICdqIA5xQQJ0aygCACIlIA1PDQMgEyAlQbgBbCIKaiICQawBaigCACAZRgRAICEgAkGoAWooAgAgGRDbB0UNAwsgSUIBfSBJgyJJUEUNAAsLIEdCgIGChIiQoMCAf4MhSSAuRQRAIElQDQMgSXqnQQN2ICdqIA5xIR0LIEkgR0IBhoNQBEBBASEuDAkLIBcgHWosAAAiJ0EATgRAIBcgFykDAEKAgYKEiJCgwIB/g3qnQQN2Ih1qLQAAIScLIBcgHWogBzoAACAXIB1BCGsgDnFqQQhqIAc6AAAgFyAdQQJ0a0EEayAJKAIgIhM2AgAgCSAJKAIwQQFqIgo2AjAgCSAJKAIsICdBAXFrIgI2AiwgEyAJKAIYIgZHDQZBwqzIBSACIApqIicgJ0HCrMgFTxsiBiATa0EBTSATICdLcg0EQQAhJyATBEAgCSAJKAIcNgKAAyAJIBNBuAFsNgKIA0EIIScLIAkgJzYChAMgCUHEA2pBCCAGQbgBbCAJQYADahCFByAJKALEA0EBRg0EDAULICUgCSgCICICTw0CIAkoAhwgCmoiAikDACACIAkpA9gCNwMAIAJBCGogI/0AAwD9CwMAIAJBGGogFv0AAwD9CwMAIAIoApABITAgAigCjAEhFyACKAJ8IQcgAigCeCENIAIoAjwhHSACKAI4IRMgAigCNCEOIAIoAjAhBiACKAIsISUgAigCKCEIIAIgGTYCLCACIBU2AiggAkEwaiAJQeABakH4APwKAAAgGQRAICFBBGsoAgAiAkF4cSIKQQRBCCACQQNxIgIbIBlqSQ0hIAJBACAKIBlBJ2pLGw0gICEQogILQgJRDQYgJQRAIAhBBGsoAgAiAkF4cSIKQQRBCCACQQNxIgIbICVqSQ0hIAJBACAKICVBJ2pLGw0gIAgQogILIA4EQCAGQQRrKAIAIgJBeHEiCkEEQQggAkEDcSICGyAOakkNISACQQAgCiAOQSdqSxsNICAGEKICCwJAIBdFDQAgFyAXKAIAIgJBAWs2AgAgAkEBRw0AIBcQ3QULAkAgMEUNACAwIDAoAgAiAkEBazYCACACQQFHDQAgMBDdBQsgHQRAIBNBBGsoAgAiAkF4cSIKQQRBCCACQQNxIgIbIB1qSQ0hIAJBACAKIB1BJ2pLGw0gIBMQogILIA1FDQYgB0EEaygCACICQXhxIgggDUEFdCIKQQRBCCACQQNxIgIbckkNICACQQAgCCAKQSdqSxsNHyAHEKICDAYLICUgDUGQm8gAEIwHAAtBACEuDAULICUgAkGwm8gAEIwHAAsgE0HBrMgFTQR/IBNBAWoiBkG4AWwhAiAJIBMEfyAJIAkoAhw2AoADIAkgE0G4AWw2AogDQQgFQQALNgKEAyAJQcQDakEIIAIgCUGAA2oQhQcgCSgCxANBAUcNASAJKALMAyEnIAkoAsgDBUEACyAnQcCbyAAQkwkACyAJKALIAyECIAkgBjYCGCAJIAI2AhwLIAYgE0YEQCMAQSBrIgYkAAJAIAUoAgAiCEGhluQCSwR/QQAFQQQgCEEBdCICIAJBBE0bIgpBuAFsIQIgBiAIBH8gBiAIQbgBbDYCHCAGIAUoAgQ2AhRBCAVBAAs2AhggBkEIakEIIAIgBkEUahCFByAGKAIIQQFHDQEgBigCECEFIAYoAgwLIAVBoJvIABCTCQALIAYoAgwhAiAFIAo2AgAgBSACNgIEIAZBIGokAAsgCSgCHCATQbgBbGoiAiAJQThqQagB/AoAACACICg2ArABIAIgGTYCrAEgAiAhNgKoASAJIBNBAWo2AiALIAMgOEcNAwwGCyAGQQhqIgYgJ2ogDnEhJwwACwALC0GE7sEAEP8HAAtBgJvIABD/BwALAAsCQCAmBEAgD0EEaygCACICQXhxIgogJkGoAWwiA0EEQQggAkEDcSICG2pJDRQgAkEAIAogA0EnaksbDRMgDxCiAgsgGCAJ/QADCP0LAxAgGCA1NgJcIBggMzYCWCAYIAw2AkQgGCAQNgJAIBggFP0AAxD9CwNIIBggFP0AAwD9CwMAIBhBMGogCUEoav0AAwD9CwMAIBhBIGogCUEYav0AAwD9CwMAIAlB0ANqJAAMAAsCQCAtQYaAgIB4Rg0AAkACQEEBIC1B/////wdqIC1BgICAgHhNGw4CAAECCyA2Qf8BcUEDRw0BIDEoAgAhCiAxQQRqKAIAIgMoAgAiAgRAIAogAhEDAAsgAygCBCICBEAgCiACIAMoAggQogcLIDFBDEEEEKIHDAELIC1BgICAgHhyQYCAgIB4Rg0AIDZB/wFxIDtBCHRyIC1BARCiBwsgBCkDQCJJQgNRDQ8gBEE4aiIKIARB0ABqKAIANgIAIAQgBCkDSDcDMCAEQeABaiIDIARB1ABqQcwA/AoAACAEQdgEaiICIAooAgA2AgAgBCAEKQMwNwPQBEHoABBxIgpFDQYgCiBJNwMIIApCgYCAgBA3AwAgCiAEKQPQBDcDECAKQRhqIAIoAgA2AgAgCkEcaiADQcwA/AoAACAAIAo2AhAgACAB/QADAP0LAwAMEAsMEAtB2IzBABD/BwALQZONwQAhAyAEQZONwQA2AqABQYOAgIB4IQVBLyEIDAkLDA0LDA0LIARB4AFqEOoDICBFICNFckUEQCAmICNBARCiBwsgG0UNAiASIBtBARCiBwwCCwALIAMEQCAWIANBARCiBwsgIyEDICYhFgsgFq0gA61CIIaEDAILQeiNwQAhBkEgIQNBgICAgHghBQsgBCADNgLUBCAEIAY2AtAEIAZB////B3GtIAQzANMEQhiGhCADQQh2Qf//A3GtQiiGhCADQRh2rUI4hoQLIkY3A6ABIAQoArADIQIgCARAIAIhAwNAIAMQ6gMgA0GoAWohAyAIQQFrIggNAAsLAkAgBCgCrAMiCARAIAJBBGsoAgAiA0F4cSIGIAhBqAFsIghBBEEIIANBA3EiAxtqSQ0IIANBACAGIAhBJ2pLGw0BIAIQogILIEZCIIinIQggRqchAwwBCwwFCwJAAkAgLUGGgICAeEYNAAJAAkACQEEBIC1B/////wdqIC1BgICAgHhNGw4CAAEDCyA2Qf8BcUEDRw0CIDEoAgAhByAxQQRqKAIAIgYoAgAiAgRAIAcgAhEDAAsgBigCBCINBEAgB0EEaygCACICQXhxIgZBBEEIIAJBA3EiAhsgDWpJDQQgAkEAIAYgDUEnaksbDQkgBxCiAgsgMUEEaygCACICQXhxIgZBEEEUIAJBA3EiAhtJDQkgAkUgBkE0SXINAQwICyAtQYCAgIB4ckGAgICAeEYNASA2Qf8BcSA7QQh0ciIxQQRrKAIAIgJBeHEiBkEEQQggAkEDcSICGyAtakkNCCACRQ0AIAYgLUEnaksNBwsgMRCiAgsgDARAIBlBBGsoAgAiAkF4cSIGQQRBCCACQQNxIgIbIAxqSQ0HIAJBACAGIAxBJ2pLGw0GIBkQogILIANBCHYhOyAQIQ0gBSEnIAMhNiAIITEgBSEtIDNFIDVFcg0BIDNBBGsoAgAiAkF4cSIDQQRBCCACQQNxIgIbIDVqSQ0GIAJBACADIDVBJ2pLGw0FIDMQogIMAQsLDAQLAkAgLUGGgICAeEYEQCAMIS0gBSEDIAghMQwBCyA2Qf8BcSA7QQh0ciEDAkACQEEBIAxB/////wdqIAxBgICAgHhNGw4CAAECCyAFQf8BcUEDRw0BIAgoAgAhCiAIQQRqKAIAIgIoAgAiAQRAIAogAREDAAsgAigCBCIBBEAgCiABIAIoAggQogcLIAhBBGsoAgAiAUF4cSICQRBBFCABQQNxIgEbSQ0FIAFBACACQTRPGw0EIAgQogIMAQsgDEGAgICAeHJBgICAgHhGDQAgBSAMQQEQogcLIAQgMTYCUCAEIAM2AkwgBCAtNgJICyAEQThqIARB0ABqKAIAIgE2AgAgBCAEKQNIIkk3AzAgAEEMaiABNgIAIAAgSTcCBCAAQQA2AgALIARBwAZqJAAPC0GMjcgAQS5BvI3IABDrBwALQcyMyABBLkH8jMgAEOsHAAvpigECHH8HfSMAQSBrIh0kAAJAAkAgAUEhSQRAIAAhCCABIQcMAQsgAkEEayEhIAJBEGshIgNAIARFBEAgACABIAIgA0EBIAYQVAwDCyAAIAFBA3YiCEEcbGohDiAAIAhBBHRqIQ8CQCABQcAATwRAIAAgDyAOIAggBhDBASERIAYoAgAhHgwBC0MAAIA/ISQCfwJAIAAoAgAiCCAGKAIAIh5BBGooAgAiB0EIaigCACISSQRAIA8oAgAhCyAHQQRqKAIAIgkgCEEkbGoiChCKBCEjIAovARQiCEH//wFxIhBFBEAgCEEQdAwDCyAIQf8HcSEHIAhBgIACcSERIAhBgPgBcSINQYD4AUYEQCARQRB0IhFBgICA/AdyIAdFDQMaIBEgB0ENdHJBgICA/gdyDAMLIBFBEHQhESANRQ0BIA1BDXRBgICA/ABxIAdBDXRyQYCAgMADaiARcgwCCyAIIBJB1MDHABCMBwALIBFBgICA2ANyIAdnQRBrIhFBF3RrIAcgEUH//wNxQQhqdEH///8DcXILviIlQwAAgD9eBEAgJRDGBUNU+C1AlEMAAIA/kpEhJAtDAACAPyElAn8CQCALIBJJBEAgCSALQSRsaiINEIoEISYgDS8BFCIHQf//AXEiFEUEQCAHQRB0DAMLIAdB/wdxIQsgB0GAgAJxIREgB0GA+AFxIgxBgPgBRgRAIBFBEHQiEUGAgID8B3IgC0UNAxogESALQQ10ckGAgID+B3IMAwsgEUEQdCERIAxFDQEgDEENdEGAgID8AHEgC0ENdHJBgICAwANqIBFyDAILIAsgEkHUwMcAEIwHAAsgEUGAgIDYA3IgC2dBEGsiEUEXdGsgCyARQf//A3FBCGp0Qf///wNxcgu+IidDAACAP14EQCAnEMYFQ1T4LUCUQwAAgD+SkSElCyAOKAIAIREgChCKBCEnQwAAgD8hKAJ/IAhBEHQgEEUNABogCEH/B3EhCyAIQYCAAnEhCiAIQYD4AXEiCEGA+AFGBEAgCkEQdCIIQYCAgPwHciALRQ0BGiAIIAtBDXRyQYCAgP4HcgwBCyAKQRB0IgogCEENdEGAgID8AHEgC0ENdHJBgICAwANqciAIDQAaIApBgICA2ANyIAtnQRBrIghBF3RrIAsgCEH//wNxQQhqdEH///8DcXILviIpQwAAgD9eBEAgKRDGBUNU+C1AlEMAAIA/kpEhKAsCfwJAIBEgEkkEQCAjICOSICSUIiMgJiAmkiAllGBFIQogIyAjWyEMIAkgEUEkbGoiCxCKBCEjIAsvARQiCEH//wFxIhBFBEAgCEEQdAwDCyAIQf8HcSESIAhBgIACcSERIAhBgPgBcSIJQYD4AUYEQCARQRB0IhFBgICA/AdyIBJFDQMaIBEgEkENdHJBgICA/gdyDAMLIBFBEHQhESAJRQ0BIAlBDXRBgICA/ABxIBJBDXRyQYCAgMADaiARcgwCCyARIBJB1MDHABCMBwALIBFBgICA2ANyIBJnQRBrIhFBF3RrIBIgEUH//wNxQQhqdEH///8DcXILQwAAgD8hJL4iJUMAAIA/XgRAICUQxgVDVPgtQJRDAACAP5KRISQLIAogDHEiCSAnICeSICiUIiUgJVsgJSAjICOSICSUYEVxRwRAIAAhEQwBC0MAAIA/ISMgDiAPIAkgDRCKBCIkICSSAn8gB0EQdCAURQ0AGiAHQf8HcSESIAdBgIACcSERIAdBgPgBcSIHQYD4AUYEQCARQRB0IgdBgICA/AdyIBJFDQEaIAcgEkENdHJBgICA/gdyDAELIBFBEHQiESAHQQ10QYCAgPwAcSASQQ10ckGAgIDAA2pyIAcNABogEUGAgIDYA3IgEmdBEGsiB0EXdGsgEiAHQf//A3FBCGp0Qf///wNxcgu+IiVDAACAP14EfSAlEMYFQ1T4LUCUQwAAgD+SkQUgIwuUIiMgI1sgIyALEIoEIiQgJJICfyAIQRB0IBBFDQAaIAhB/wdxIQcgCEGAgAJxIRIgCEGA+AFxIghBgPgBRgRAIBJBEHQiCEGAgID8B3IgB0UNARogCCAHQQ10ckGAgID+B3IMAQsgEkEQdCISIAhBDXRBgICA/ABxIAdBDXRyQYCAgMADanIgCA0AGiASQYCAgNgDciAHZ0EQayIIQRd0ayAHIAhB//8DcUEIanRB////A3FyC74iJEMAAIA/XgR9ICQQxgVDVPgtQJRDAACAP5KRBUMAAIA/C5RgRXFzGyERCyAEQQFrIQQgHSARKAIAIgs2AgQgESAAa0ECdiESAkACQAJAIAUEQEMAAIA/ISMCfwJAIAUoAgAiCCAeQQRqKAIAIgdBCGooAgAiDkkEQCAHQQRqKAIAIgkgCEEkbGoiCBCKBCElIAgvARQiB0H//wFxRQRAIAdBEHQMAwsgB0H/B3EhCCAHQYCAAnEhDyAHQYD4AXEiB0GA+AFGBEAgD0EQdCIHQYCAgPwHciAIRQ0DGiAHIAhBDXRyQYCAgP4HcgwDCyAPQRB0IQ8gB0UNASAHQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2ogD3IMAgsgCCAOQdTAxwAQjAcACyAPQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74iJEMAAIA/XgRAICQQxgVDVPgtQJRDAACAP5KRISMLQwAAgD8hJAJ/AkAgCyAOSQRAIAkgC0EkbGoiCBCKBCEmIAgvARQiB0H//wFxRQRAIAdBEHQMAwsgB0H/B3EhCCAHQYCAAnEhCyAHQYD4AXEiB0GA+AFGBEAgC0EQdCIHQYCAgPwHciAIRQ0DGiAHIAhBDXRyQYCAgP4HcgwDCyALQRB0IQsgB0UNASAHQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2ogC3IMAgsgCyAOQdTAxwAQjAcACyALQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74iJ0MAAIA/XgRAICcQxgVDVPgtQJRDAACAP5KRISQLICUgJZIgI5QiIyAjXCAjICYgJpIgJJRgcg0BCyABIANLDQEgAiABQQJ0IhhqIQ9BACEHIAAhDiASIQsDQCAAIAtBA2siCEEAIAggC00bQQJ0aiIcIA5LBEAgESgCACENIB5BBGoiHygCACIbIQgDQAJ/AkAgDigCACIUIBtBCGooAgAiCUkEQCAbQQRqKAIAIBRBJGxqIhAvARwhCkEAIQlBACAQLwEeIgxB//8BcSITQYD4AUsNAhpBACAKQf//AXEiFUGA+AFLDQIaIAzBQQBIDQEgCiAMSSAKwUEATg0CGiAMIBVyQQBHDAILIBQgCUHUwMcAEIwHAAsgCsFBAEggCiAMS3ELIRUgDCAKIBUbIAogE0GB+AFJGyEKAkAgEC8BICIMQf//AXEiE0GA+AFLDQAgCkH//wFxIhVBgPgBSw0AIAzBQQBOBEAgCsFBAE4EQCAMIApB//8DcUshCQwCCyAMIBVyQQBHIQkMAQsgCsFBAEggDCAKQf//A3FJcSEJCyAQLwEUIRACfyAMIAogCRsgCiATQYH4AUkbIgpB//8BcUUEQCAKQRB0DAELIApB/wdxIQkgCkGAgAJxIQwgCkGA+AFxIgpBgPgBRgRAIAxBEHQiCkGAgID8B3IgCUUNARogCiAJQQ10ckGAgID+B3IMAQsgDEEQdCIMIApBDXRBgICA/ABxIAlBDXRyQYCAgMADanIgCg0AGiAMQYCAgNgDciAJZ0EQayIKQRd0ayAJIApB//8DcUEIanRB////A3FyC74QiQQhJEMAAIA/ISMCfyAQQRB0IBBB//8BcUUNABogEEH/B3EhCSAQQYCAAnEhCiAQQYD4AXEiDEGA+AFGBEAgCkEQdCIKQYCAgPwHciAJRQ0BGiAKIAlBDXRyQYCAgP4HcgwBCyAKQRB0IgogDEENdEGAgID8AHEgCUENdHJBgICAwANqciAMDQAaIApBgICA2ANyIAlnQRBrIgpBF3RrIAkgCkH//wNxQQhqdEH///8DcXILviIlQwAAgD9eBEAgJRDGBUNU+C1AlEMAAIA/kpEhIwsCfwJAIAhBCGoiFSgCACIJIA1LBEAgDUEkbCIQIAhBBGoiGigCAGoiDC8BHCEJQQAhCEEAIAwvAR4iCkH//wFxIhNBgPgBSw0CGkEAIAlB//8BcSIWQYD4AUsNAhogCsFBAEgNASAJIApJIAnBQQBODQIaIAogFnJBAEcMAgsgDSAJQdTAxwAQjAcACyAJwUEASCAJIApLcQshFiAKIAkgFhsgCSATQYH4AUkbIQkCQCAMLwEgIgpB//8BcSITQYD4AUsNACAJQf//AXEiFkGA+AFLDQAgCsFBAE4EQCAJwUEATgRAIAogCUH//wNxSyEIDAILIAogFnJBAEchCAwBCyAJwUEASCAKIAlB//8DcUlxIQgLIAwvARQhDCAHQQJ0IAIgD0EEayAkICSSICOUIiMgI1sgIwJ/IAogCSAIGyAJIBNBgfgBSRsiCUH//wFxRQRAIAlBEHQMAQsgCUH/B3EhCCAJQYCAAnEhCiAJQYD4AXEiCUGA+AFGBEAgCkEQdCIJQYCAgPwHciAIRQ0BGiAJIAhBDXRyQYCAgP4HcgwBCyAKQRB0IgogCUENdEGAgID8AHEgCEENdHJBgICAwANqciAJDQAaIApBgICA2ANyIAhnQRBrIglBF3RrIAggCUH//wNxQQhqdEH///8DcXILvhCJBCIkICSSAn8gDEEQdCAMQf//AXFFDQAaIAxB/wdxIQggDEGAgAJxIQkgDEGA+AFxIgpBgPgBRgRAIAlBEHQiCUGAgID8B3IgCEUNARogCSAIQQ10ckGAgID+B3IMAQsgCUEQdCIJIApBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCg0AGiAJQYCAgNgDciAIZ0EQayIJQRd0ayAIIAlB//8DcUEIanRB////A3FyC74iJEMAAIA/XgR9ICQQxgVDVPgtQJRDAACAP5KRBUMAAIA/C5RgRXEiFhtqIBQ2AgACfwJAIA5BBGooAgAiFCAVKAIAIhNJBEAgGigCACIXIBRBJGxqIgwvARwhCUEAIQhBACAMLwEeIgpB//8BcSIZQYD4AUsNAhpBACAJQf//AXEiIEGA+AFLDQIaIArBQQBIDQEgCSAKSSAJwUEATg0CGiAKICByQQBHDAILIBQgE0HUwMcAEIwHAAsgCcFBAEggCSAKS3ELISAgCiAJICAbIAkgGUGB+AFJGyEJAkAgDC8BICIKQf//AXEiGUGA+AFLDQAgCUH//wFxIiBBgPgBSw0AIArBQQBOBEAgCcFBAE4EQCAKIAlB//8DcUshCAwCCyAKICByQQBHIQgMAQsgCcFBAEggCiAJQf//A3FJcSEICyAMLwEUIQwCfyAKIAkgCBsgCSAZQYH4AUkbIglB//8BcUUEQCAJQRB0DAELIAlB/wdxIQggCUGAgAJxIQogCUGA+AFxIglBgPgBRgRAIApBEHQiCUGAgID8B3IgCEUNARogCSAIQQ10ckGAgID+B3IMAQsgCkEQdCIKIAlBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCQ0AGiAKQYCAgNgDciAIZ0EQayIJQRd0ayAIIAlB//8DcUEIanRB////A3FyC74QiQQhJEMAAIA/ISMCfyAMQRB0IAxB//8BcUUNABogDEH/B3EhCCAMQYCAAnEhCSAMQYD4AXEiCkGA+AFGBEAgCUEQdCIJQYCAgPwHciAIRQ0BGiAJIAhBDXRyQYCAgP4HcgwBCyAJQRB0IgkgCkENdEGAgID8AHEgCEENdHJBgICAwANqciAKDQAaIAlBgICA2ANyIAhnQRBrIglBF3RrIAggCUH//wNxQQhqdEH///8DcXILviIlQwAAgD9eBEAgJRDGBUNU+C1AlEMAAIA/kpEhIwsCfwJAIA0gE0kEQCAQIBdqIgwvARwhCUEAIQhBACAMLwEeIgpB//8BcSITQYD4AUsNAhpBACAJQf//AXEiF0GA+AFLDQIaIArBQQBIDQEgCSAKSSAJwUEATg0CGiAKIBdyQQBHDAILIA0gE0HUwMcAEIwHAAsgCcFBAEggCSAKS3ELIRcgCiAJIBcbIAkgE0GB+AFJGyEJAkAgDC8BICIKQf//AXEiE0GA+AFLDQAgCUH//wFxIhdBgPgBSw0AIArBQQBOBEAgCcFBAE4EQCAKIAlB//8DcUshCAwCCyAKIBdyQQBHIQgMAQsgCcFBAEggCiAJQf//A3FJcSEICyAMLwEUIQwgByAWaiIWQQJ0IAIgD0EIayAkICSSICOUIiMgI1sgIwJ/IAogCSAIGyAJIBNBgfgBSRsiB0H//wFxRQRAIAdBEHQMAQsgB0H/B3EhCCAHQYCAAnEhCSAHQYD4AXEiB0GA+AFGBEAgCUEQdCIHQYCAgPwHciAIRQ0BGiAHIAhBDXRyQYCAgP4HcgwBCyAJQRB0IgkgB0ENdEGAgID8AHEgCEENdHJBgICAwANqciAHDQAaIAlBgICA2ANyIAhnQRBrIgdBF3RrIAggB0H//wNxQQhqdEH///8DcXILvhCJBCIkICSSAn8gDEEQdCAMQf//AXFFDQAaIAxB/wdxIQggDEGAgAJxIQcgDEGA+AFxIglBgPgBRgRAIAdBEHQiB0GAgID8B3IgCEUNARogByAIQQ10ckGAgID+B3IMAQsgB0EQdCIHIAlBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCQ0AGiAHQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74iJEMAAIA/XgR9ICQQxgVDVPgtQJRDAACAP5KRBUMAAIA/C5RgRXEiExtqIBQ2AgACfwJAIA5BCGooAgAiFCAVKAIAIghJBEAgGigCACAUQSRsaiIKLwEcIQhBACEJQQAgCi8BHiIHQf//AXEiDEGA+AFLDQIaQQAgCEH//wFxIhVBgPgBSw0CGiAHwUEASA0BIAcgCEsgCMFBAE4NAhogByAVckEARwwCCyAUIAhB1MDHABCMBwALIAjBQQBIIAcgCElxCyEVIAcgCCAVGyAIIAxBgfgBSRshCAJAIAovASAiB0H//wFxIgxBgPgBSw0AIAhB//8BcSIVQYD4AUsNACAHwUEATgRAIAjBQQBOBEAgByAIQf//A3FLIQkMAgsgByAVckEARyEJDAELIAjBQQBIIAcgCEH//wNxSXEhCQsgCi8BFCEKAn8gByAIIAkbIAggDEGB+AFJGyIHQf//AXFFBEAgB0EQdAwBCyAHQf8HcSEIIAdBgIACcSEJIAdBgPgBcSIHQYD4AUYEQCAJQRB0IgdBgICA/AdyIAhFDQEaIAcgCEENdHJBgICA/gdyDAELIAlBEHQiCSAHQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAcNABogCUGAgIDYA3IgCGdBEGsiB0EXdGsgCCAHQf//A3FBCGp0Qf///wNxcgu+EIkEISRDAACAPyEjAn8gCkEQdCAKQf//AXFFDQAaIApB/wdxIQggCkGAgAJxIQcgCkGA+AFxIglBgPgBRgRAIAdBEHQiB0GAgID8B3IgCEUNARogByAIQQ10ckGAgID+B3IMAQsgB0EQdCIHIAlBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCQ0AGiAHQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74iJUMAAIA/XgRAICUQxgVDVPgtQJRDAACAP5KRISMLAn8CQCAfKAIAIghBCGoiFSgCACIHIA1LBEAgCEEEaiIaKAIAIBBqIgwvARwhB0EAIQpBACAMLwEeIglB//8BcSIXQYD4AUsNAhpBACAHQf//AXEiGUGA+AFLDQIaIAnBQQBIDQEgByAJSSAHwUEATg0CGiAJIBlyQQBHDAILIA0gB0HUwMcAEIwHAAsgB8FBAEggByAJS3ELIRkgCSAHIBkbIAcgF0GB+AFJGyEHAkAgDC8BICIJQf//AXEiF0GA+AFLDQAgB0H//wFxIhlBgPgBSw0AIAnBQQBOBEAgB8FBAE4EQCAJIAdB//8DcUshCgwCCyAJIBlyQQBHIQoMAQsgB8FBAEggCSAHQf//A3FJcSEKCyAMLwEUIQwgEyAWaiIWQQJ0IAIgD0EMayAkICSSICOUIiMgI1sgIwJ/IAkgByAKGyAHIBdBgfgBSRsiCUH//wFxRQRAIAlBEHQMAQsgCUH/B3EhByAJQYCAAnEhCiAJQYD4AXEiCUGA+AFGBEAgCkEQdCIJQYCAgPwHciAHRQ0BGiAJIAdBDXRyQYCAgP4HcgwBCyAKQRB0IgogCUENdEGAgID8AHEgB0ENdHJBgICAwANqciAJDQAaIApBgICA2ANyIAdnQRBrIglBF3RrIAcgCUH//wNxQQhqdEH///8DcXILvhCJBCIkICSSAn8gDEEQdCAMQf//AXFFDQAaIAxB/wdxIQcgDEGAgAJxIQkgDEGA+AFxIgpBgPgBRgRAIAlBEHQiCUGAgID8B3IgB0UNARogCSAHQQ10ckGAgID+B3IMAQsgCUEQdCIJIApBDXRBgICA/ABxIAdBDXRyQYCAgMADanIgCg0AGiAJQYCAgNgDciAHZ0EQayIJQRd0ayAHIAlB//8DcUEIanRB////A3FyC74iJEMAAIA/XgR9ICQQxgVDVPgtQJRDAACAP5KRBUMAAIA/C5RgRXEiFxtqIBQ2AgACfwJAIA5BDGooAgAiFCAVKAIAIhNJBEAgGigCACIVIBRBJGxqIgwvARwhB0EAIQpBACAMLwEeIglB//8BcSIaQYD4AUsNAhpBACAHQf//AXEiGUGA+AFLDQIaIAnBQQBIDQEgByAJSSAHwUEATg0CGiAJIBlyQQBHDAILIBQgE0HUwMcAEIwHAAsgB8FBAEggByAJS3ELIRkgCSAHIBkbIAcgGkGB+AFJGyEHAkAgDC8BICIJQf//AXEiGkGA+AFLDQAgB0H//wFxIhlBgPgBSw0AIAnBQQBOBEAgB8FBAE4EQCAJIAdB//8DcUshCgwCCyAJIBlyQQBHIQoMAQsgB8FBAEggCSAHQf//A3FJcSEKCyAMLwEUIQwCfyAJIAcgChsgByAaQYH4AUkbIglB//8BcUUEQCAJQRB0DAELIAlB/wdxIQcgCUGAgAJxIQogCUGA+AFxIglBgPgBRgRAIApBEHQiCUGAgID8B3IgB0UNARogCSAHQQ10ckGAgID+B3IMAQsgCkEQdCIKIAlBDXRBgICA/ABxIAdBDXRyQYCAgMADanIgCQ0AGiAKQYCAgNgDciAHZ0EQayIJQRd0ayAHIAlB//8DcUEIanRB////A3FyC74QiQQhJUMAAIA/ISMCfyAMQRB0IAxB//8BcUUNABogDEH/B3EhByAMQYCAAnEhCSAMQYD4AXEiCkGA+AFGBEAgCUEQdCIJQYCAgPwHciAHRQ0BGiAJIAdBDXRyQYCAgP4HcgwBCyAJQRB0IgkgCkENdEGAgID8AHEgB0ENdHJBgICAwANqciAKDQAaIAlBgICA2ANyIAdnQRBrIglBF3RrIAcgCUH//wNxQQhqdEH///8DcXILviIkQwAAgD9eBEAgJBDGBUNU+C1AlEMAAIA/kpEhIwsCfwJAIA0gE0kEQCAQIBVqIgwvARwhB0EAIQlBACAMLwEeIgpB//8BcSIQQYD4AUsNAhpBACAHQf//AXEiE0GA+AFLDQIaIArBQQBIDQEgByAKSSAHwUEATg0CGiAKIBNyQQBHDAILIA0gE0HUwMcAEIwHAAsgB8FBAEggByAKS3ELIRMgCiAHIBMbIAcgEEGB+AFJGyEHAkAgDC8BICIKQf//AXEiEEGA+AFLDQAgB0H//wFxIhNBgPgBSw0AIArBQQBOBEAgB8FBAE4EQCAKIAdB//8DcUshCQwCCyAKIBNyQQBHIQkMAQsgB8FBAEggCiAHQf//A3FJcSEJCyAMLwEUIQwCfyAKIAcgCRsgByAQQYH4AUkbIglB//8BcUUEQCAJQRB0DAELIAlB/wdxIQcgCUGAgAJxIQogCUGA+AFxIglBgPgBRgRAIApBEHQiCUGAgID8B3IgB0UNARogCSAHQQ10ckGAgID+B3IMAQsgCkEQdCIKIAlBDXRBgICA/ABxIAdBDXRyQYCAgMADanIgCQ0AGiAKQYCAgNgDciAHZ0EQayIJQRd0ayAHIAlB//8DcUEIanRB////A3FyC74QiQQhJkMAAIA/ISQCfyAMQRB0IAxB//8BcUUNABogDEH/B3EhByAMQYCAAnEhCSAMQYD4AXEiCkGA+AFGBEAgCUEQdCIJQYCAgPwHciAHRQ0BGiAJIAdBDXRyQYCAgP4HcgwBCyAJQRB0IgkgCkENdEGAgID8AHEgB0ENdHJBgICAwANqciAKDQAaIAlBgICA2ANyIAdnQRBrIglBF3RrIAcgCUH//wNxQQhqdEH///8DcXILviInQwAAgD9eBEAgJxDGBUNU+C1AlEMAAIA/kpEhJAsgFiAXaiIHQQJ0IAIgD0EQayIPICUgJZIgI5QiIyAjWyAjICYgJpIgJJRgRXEiCRtqIBQ2AgAgByAJaiEHIA5BEGoiDiAcSQ0ACwsgACALQQJ0aiIbIA5LBEAgHkEEaigCACETIBEoAgAhDANAAn8CQCAOKAIAIhAgE0EIaigCACIUSQRAIBNBBGooAgAiFSAQQSRsaiINLwEcIQhBACEJQQAgDS8BHiIKQf//AXEiGkGA+AFLDQIaQQAgCEH//wFxIhxBgPgBSw0CGiAKwUEASA0BIAggCkkgCMFBAE4NAhogCiAcckEARwwCCyAQIBRB1MDHABCMBwALIAjBQQBIIAggCktxCyEcIAogCCAcGyAIIBpBgfgBSRshCAJAIA0vASAiCkH//wFxIhpBgPgBSw0AIAhB//8BcSIcQYD4AUsNACAKwUEATgRAIAjBQQBOBEAgCiAIQf//A3FLIQkMAgsgCiAcckEARyEJDAELIAjBQQBIIAogCEH//wNxSXEhCQsgDS8BFCENAn8gCiAIIAkbIAggGkGB+AFJGyIJQf//AXFFBEAgCUEQdAwBCyAJQf8HcSEIIAlBgIACcSEKIAlBgPgBcSIJQYD4AUYEQCAKQRB0IglBgICA/AdyIAhFDQEaIAkgCEENdHJBgICA/gdyDAELIApBEHQiCiAJQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAkNABogCkGAgIDYA3IgCGdBEGsiCUEXdGsgCCAJQf//A3FBCGp0Qf///wNxcgu+EIkEISRDAACAPyEjAn8gDUEQdCANQf//AXFFDQAaIA1B/wdxIQggDUGAgAJxIQkgDUGA+AFxIgpBgPgBRgRAIAlBEHQiCUGAgID8B3IgCEUNARogCSAIQQ10ckGAgID+B3IMAQsgCUEQdCIJIApBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCg0AGiAJQYCAgNgDciAIZ0EQayIJQRd0ayAIIAlB//8DcUEIanRB////A3FyC74iJUMAAIA/XgRAICUQxgVDVPgtQJRDAACAP5KRISMLAn8CQCAMIBRJBEAgFSAMQSRsaiINLwEcIQhBACEJQQAgDS8BHiIKQf//AXEiFEGA+AFLDQIaQQAgCEH//wFxIhVBgPgBSw0CGiAKwUEASA0BIAggCkkgCMFBAE4NAhogCiAVckEARwwCCyAMIBRB1MDHABCMBwALIAjBQQBIIAggCktxCyEVIAogCCAVGyAIIBRBgfgBSRshCAJAIA0vASAiCkH//wFxIhRBgPgBSw0AIAhB//8BcSIVQYD4AUsNACAKwUEATgRAIAjBQQBOBEAgCiAIQf//A3FLIQkMAgsgCiAVckEARyEJDAELIAjBQQBIIAogCEH//wNxSXEhCQsgDS8BFCENIAdBAnQgAiAPQQRrIg8gJCAkkiAjlCIjICNbICMCfyAKIAggCRsgCCAUQYH4AUkbIglB//8BcUUEQCAJQRB0DAELIAlB/wdxIQggCUGAgAJxIQogCUGA+AFxIglBgPgBRgRAIApBEHQiCUGAgID8B3IgCEUNARogCSAIQQ10ckGAgID+B3IMAQsgCkEQdCIKIAlBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCQ0AGiAKQYCAgNgDciAIZ0EQayIJQRd0ayAIIAlB//8DcUEIanRB////A3FyC74QiQQiJCAkkgJ/IA1BEHQgDUH//wFxRQ0AGiANQf8HcSEIIA1BgIACcSEJIA1BgPgBcSIKQYD4AUYEQCAJQRB0IglBgICA/AdyIAhFDQEaIAkgCEENdHJBgICA/gdyDAELIAlBEHQiCSAKQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAoNABogCUGAgIDYA3IgCGdBEGsiCUEXdGsgCCAJQf//A3FBCGp0Qf///wNxcgu+IiRDAACAP14EfSAkEMYFQ1T4LUCUQwAAgD+SkQVDAACAPwuUYEVxIggbaiAQNgIAIAcgCGohByAOQQRqIg4gG0kNAAsLIAEgC0cEQCAPQQRrIg8gB0ECdGogDigCADYCACAOQQRqIQ4gASELDAELCyAHQQJ0IggEQCAAIAIgCPwKAAALIAEgB2shCQJAIAEgB0YNAEEAIQogCUEETwRAIAAgCGohDiAYICJqIQ8gCUF8cSIKIQsDQCAOIA/9AAIA/QwAAAAAAAAAAAAAAAAAAAAA/Q0MDQ4PCAkKCwQFBgcAAQID/QsCACAPQRBrIQ8gDkEQaiEOIAtBBGsiCw0ACyAJIApGDQELICEgGCAKQQJ0IgtraiEOIAAgC2ogCGohDyAKIAFrIAdqIQsDQCAPIA4oAgA2AgAgDkEEayEOIA9BBGohDyALQQFqIgsNAAsLIAdFDQAgASAHTw0CIB1BADYCGCAdQQE2AgwgHUGIgsgANgIIIB1CBDcCECAdQQhqQfSUwQAQjQgACyABIANLDQAgAiABQQJ0Ih5qIQ8gBigCACEUQQAhCyAAIQ4DQCAAIBJBA2siBUEAIAUgEk0bQQJ0aiIVIA5LBEAgFEEEaiIaKAIAIRMgESgCACEFIAYoAgBBBGohHANAAn8CQCATQQhqKAIAIgggBUsEQCAFQSRsIgwgE0EEaigCAGoiCi8BHCEIQQAhCUEAIAovAR4iB0H//wFxIg1BgPgBSw0CGkEAIAhB//8BcSIQQYD4AUsNAhogB8FBAEgNASAHIAhLIAjBQQBODQIaIAcgEHJBAEcMAgsgBSAIQdTAxwAQjAcACyAIwUEASCAHIAhJcQshECAHIAggEBsgCCANQYH4AUkbIQgCQCAKLwEgIgdB//8BcSIQQYD4AUsNACAIQf//AXEiDUGA+AFLDQAgB8FBAE4EQCAIwUEATgRAIAcgCEH//wNxSyEJDAILIAcgDXJBAEchCQwBCyAIwUEASCAHIAhB//8DcUlxIQkLIA4oAgAhDSAKLwEUIQoCfyAHIAggCRsgCCAQQYH4AUkbIgdB//8BcUUEQCAHQRB0DAELIAdB/wdxIQggB0GAgAJxIQkgB0GA+AFxIgdBgPgBRgRAIAlBEHQiB0GAgID8B3IgCEUNARogByAIQQ10ckGAgID+B3IMAQsgCUEQdCIJIAdBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgBw0AGiAJQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74QiQQhJEMAAIA/ISMCfyAKQRB0IApB//8BcUUNABogCkH/B3EhCCAKQYCAAnEhByAKQYD4AXEiCUGA+AFGBEAgB0EQdCIHQYCAgPwHciAIRQ0BGiAHIAhBDXRyQYCAgP4HcgwBCyAHQRB0IgcgCUENdEGAgID8AHEgCEENdHJBgICAwANqciAJDQAaIAdBgICA2ANyIAhnQRBrIgdBF3RrIAggB0H//wNxQQhqdEH///8DcXILviIlQwAAgD9eBEAgJRDGBUNU+C1AlEMAAIA/kpEhIwsCfwJAIBooAgAiCEEIaigCACIHIA1LBEAgCEEEaigCACANQSRsaiIKLwEcIQhBACEJQQAgCi8BHiIHQf//AXEiEEGA+AFLDQIaQQAgCEH//wFxIhhBgPgBSw0CGiAHwUEASA0BIAcgCEsgCMFBAE4NAhogByAYckEARwwCCyANIAdB1MDHABCMBwALIAjBQQBIIAcgCElxCyEYIAcgCCAYGyAIIBBBgfgBSRshCAJAIAovASAiB0H//wFxIhBBgPgBSw0AIAhB//8BcSIYQYD4AUsNACAHwUEATgRAIAjBQQBOBEAgByAIQf//A3FLIQkMAgsgByAYckEARyEJDAELIAjBQQBIIAcgCEH//wNxSXEhCQsgCi8BFCEKIAtBAnQgAiAPQQRrICQgJJIgI5QiIyAjXCAjAn8gByAIIAkbIAggEEGB+AFJGyIHQf//AXFFBEAgB0EQdAwBCyAHQf8HcSEIIAdBgIACcSEJIAdBgPgBcSIHQYD4AUYEQCAJQRB0IgdBgICA/AdyIAhFDQEaIAcgCEENdHJBgICA/gdyDAELIAlBEHQiCSAHQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAcNABogCUGAgIDYA3IgCGdBEGsiB0EXdGsgCCAHQf//A3FBCGp0Qf///wNxcgu+EIkEIiQgJJICfyAKQRB0IApB//8BcUUNABogCkH/B3EhCCAKQYCAAnEhByAKQYD4AXEiCUGA+AFGBEAgB0EQdCIHQYCAgPwHciAIRQ0BGiAHIAhBDXRyQYCAgP4HcgwBCyAHQRB0IgcgCUENdEGAgID8AHEgCEENdHJBgICAwANqciAJDQAaIAdBgICA2ANyIAhnQRBrIgdBF3RrIAggB0H//wNxQQhqdEH///8DcXILviIkQwAAgD9eBH0gJBDGBUNU+C1AlEMAAIA/kpEFQwAAgD8LlGByIh8baiANNgIAAn8CQCAcKAIAIghBCGoiGCgCACIQIAVLBEAgCEEEaiIbKAIAIhYgDGoiCS8BHCEIQQAhCkEAIAkvAR4iB0H//wFxIg1BgPgBSw0CGkEAIAhB//8BcSIXQYD4AUsNAhogB8FBAEgNASAHIAhLIAjBQQBODQIaIAcgF3JBAEcMAgsgBSAQQdTAxwAQjAcACyAIwUEASCAHIAhJcQshFyAHIAggFxsgCCANQYH4AUkbIQgCQCAJLwEgIgdB//8BcSIXQYD4AUsNACAIQf//AXEiDUGA+AFLDQAgB8FBAE4EQCAIwUEATgRAIAcgCEH//wNxSyEKDAILIAcgDXJBAEchCgwBCyAIwUEASCAHIAhB//8DcUlxIQoLIA5BBGooAgAhDSAJLwEUIQkCfyAHIAggChsgCCAXQYH4AUkbIgdB//8BcUUEQCAHQRB0DAELIAdB/wdxIQggB0GAgAJxIQogB0GA+AFxIgdBgPgBRgRAIApBEHQiB0GAgID8B3IgCEUNARogByAIQQ10ckGAgID+B3IMAQsgCkEQdCIKIAdBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgBw0AGiAKQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74QiQQhJEMAAIA/ISMCfyAJQRB0IAlB//8BcUUNABogCUH/B3EhCCAJQYCAAnEhByAJQYD4AXEiCUGA+AFGBEAgB0EQdCIHQYCAgPwHciAIRQ0BGiAHIAhBDXRyQYCAgP4HcgwBCyAHQRB0IgcgCUENdEGAgID8AHEgCEENdHJBgICAwANqciAJDQAaIAdBgICA2ANyIAhnQRBrIgdBF3RrIAggB0H//wNxQQhqdEH///8DcXILviIlQwAAgD9eBEAgJRDGBUNU+C1AlEMAAIA/kpEhIwsCfwJAIA0gEEkEQCAWIA1BJGxqIgovARwhB0EAIQhBACAKLwEeIglB//8BcSIQQYD4AUsNAhpBACAHQf//AXEiFkGA+AFLDQIaIAnBQQBIDQEgByAJSSAHwUEATg0CGiAJIBZyQQBHDAILIA0gEEHUwMcAEIwHAAsgB8FBAEggByAJS3ELIRYgCSAHIBYbIAcgEEGB+AFJGyEHAkAgCi8BICIJQf//AXEiEEGA+AFLDQAgB0H//wFxIhZBgPgBSw0AIAnBQQBOBEAgB8FBAE4EQCAJIAdB//8DcUshCAwCCyAJIBZyQQBHIQgMAQsgB8FBAEggCSAHQf//A3FJcSEICyAKLwEUIQogCyAfaiIfQQJ0IAIgD0EIayAkICSSICOUIiMgI1wgIwJ/IAkgByAIGyAHIBBBgfgBSRsiB0H//wFxRQRAIAdBEHQMAQsgB0H/B3EhCCAHQYCAAnEhCyAHQYD4AXEiB0GA+AFGBEAgC0EQdCIHQYCAgPwHciAIRQ0BGiAHIAhBDXRyQYCAgP4HcgwBCyALQRB0IgsgB0ENdEGAgID8AHEgCEENdHJBgICAwANqciAHDQAaIAtBgICA2ANyIAhnQRBrIgdBF3RrIAggB0H//wNxQQhqdEH///8DcXILvhCJBCIkICSSAn8gCkEQdCAKQf//AXFFDQAaIApB/wdxIQggCkGAgAJxIQcgCkGA+AFxIgtBgPgBRgRAIAdBEHQiB0GAgID8B3IgCEUNARogByAIQQ10ckGAgID+B3IMAQsgB0EQdCIHIAtBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCw0AGiAHQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74iJEMAAIA/XgR9ICQQxgVDVPgtQJRDAACAP5KRBUMAAIA/C5RgciIQG2ogDTYCAAJ/AkAgGCgCACIJIAVLBEAgGygCACIWIAxqIgsvARwhCEEAIQpBACALLwEeIgdB//8BcSINQYD4AUsNAhpBACAIQf//AXEiF0GA+AFLDQIaIAfBQQBIDQEgByAISyAIwUEATg0CGiAHIBdyQQBHDAILIAUgCUHUwMcAEIwHAAsgCMFBAEggByAISXELIRcgByAIIBcbIAggDUGB+AFJGyEIAkAgCy8BICIHQf//AXEiF0GA+AFLDQAgCEH//wFxIg1BgPgBSw0AIAfBQQBOBEAgCMFBAE4EQCAHIAhB//8DcUshCgwCCyAHIA1yQQBHIQoMAQsgCMFBAEggByAIQf//A3FJcSEKCyAOQQhqKAIAIQ0gCy8BFCELAn8gByAIIAobIAggF0GB+AFJGyIHQf//AXFFBEAgB0EQdAwBCyAHQf8HcSEIIAdBgIACcSEKIAdBgPgBcSIHQYD4AUYEQCAKQRB0IgdBgICA/AdyIAhFDQEaIAcgCEENdHJBgICA/gdyDAELIApBEHQiCiAHQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAcNABogCkGAgIDYA3IgCGdBEGsiB0EXdGsgCCAHQf//A3FBCGp0Qf///wNxcgu+EIkEISRDAACAPyEjAn8gC0EQdCALQf//AXFFDQAaIAtB/wdxIQggC0GAgAJxIQcgC0GA+AFxIgtBgPgBRgRAIAdBEHQiB0GAgID8B3IgCEUNARogByAIQQ10ckGAgID+B3IMAQsgB0EQdCIHIAtBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCw0AGiAHQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74iJUMAAIA/XgRAICUQxgVDVPgtQJRDAACAP5KRISMLAn8CQCAJIA1LBEAgFiANQSRsaiIJLwEcIQdBACEIQQAgCS8BHiILQf//AXEiCkGA+AFLDQIaQQAgB0H//wFxIhZBgPgBSw0CGiALwUEASA0BIAcgC0kgB8FBAE4NAhogCyAWckEARwwCCyANIAlB1MDHABCMBwALIAfBQQBIIAcgC0txCyEWIAsgByAWGyAHIApBgfgBSRshBwJAIAkvASAiC0H//wFxIgpBgPgBSw0AIAdB//8BcSIWQYD4AUsNACALwUEATgRAIAfBQQBOBEAgCyAHQf//A3FLIQgMAgsgCyAWckEARyEIDAELIAfBQQBIIAsgB0H//wNxSXEhCAsgCS8BFCEJIBAgH2oiEEECdCACIA9BDGsgJCAkkiAjlCIjICNcICMCfyALIAcgCBsgByAKQYH4AUkbIgdB//8BcUUEQCAHQRB0DAELIAdB/wdxIQggB0GAgAJxIQsgB0GA+AFxIgdBgPgBRgRAIAtBEHQiB0GAgID8B3IgCEUNARogByAIQQ10ckGAgID+B3IMAQsgC0EQdCILIAdBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgBw0AGiALQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74QiQQiJCAkkgJ/IAlBEHQgCUH//wFxRQ0AGiAJQf8HcSEIIAlBgIACcSEHIAlBgPgBcSILQYD4AUYEQCAHQRB0IgdBgICA/AdyIAhFDQEaIAcgCEENdHJBgICA/gdyDAELIAdBEHQiByALQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAsNABogB0GAgIDYA3IgCGdBEGsiB0EXdGsgCCAHQf//A3FBCGp0Qf///wNxcgu+IiRDAACAP14EfSAkEMYFQ1T4LUCUQwAAgD+SkQVDAACAPwuUYHIiHxtqIA02AgACfwJAIBgoAgAiDSAFSwRAIAwgGygCACIYaiILLwEcIQhBACEJQQAgCy8BHiIHQf//AXEiCkGA+AFLDQIaQQAgCEH//wFxIgxBgPgBSw0CGiAHwUEASA0BIAcgCEsgCMFBAE4NAhogByAMckEARwwCCyAFIA1B1MDHABCMBwALIAjBQQBIIAcgCElxCyEMIAcgCCAMGyAIIApBgfgBSRshCAJAIAsvASAiB0H//wFxIgxBgPgBSw0AIAhB//8BcSIKQYD4AUsNACAHwUEATgRAIAjBQQBOBEAgByAIQf//A3FLIQkMAgsgByAKckEARyEJDAELIAjBQQBIIAcgCEH//wNxSXEhCQsgDkEMaigCACEKIAsvARQhCwJ/IAcgCCAJGyAIIAxBgfgBSRsiB0H//wFxRQRAIAdBEHQMAQsgB0H/B3EhCCAHQYCAAnEhCSAHQYD4AXEiB0GA+AFGBEAgCUEQdCIHQYCAgPwHciAIRQ0BGiAHIAhBDXRyQYCAgP4HcgwBCyAJQRB0IgkgB0ENdEGAgID8AHEgCEENdHJBgICAwANqciAHDQAaIAlBgICA2ANyIAhnQRBrIgdBF3RrIAggB0H//wNxQQhqdEH///8DcXILvhCJBCElQwAAgD8hIwJ/IAtBEHQgC0H//wFxRQ0AGiALQf8HcSEIIAtBgIACcSEHIAtBgPgBcSILQYD4AUYEQCAHQRB0IgdBgICA/AdyIAhFDQEaIAcgCEENdHJBgICA/gdyDAELIAdBEHQiByALQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAsNABogB0GAgIDYA3IgCGdBEGsiB0EXdGsgCCAHQf//A3FBCGp0Qf///wNxcgu+IiRDAACAP14EQCAkEMYFQ1T4LUCUQwAAgD+SkSEjCwJ/AkAgCiANSQRAIBggCkEkbGoiCy8BHCEIQQAhCUEAIAsvAR4iB0H//wFxIg1BgPgBSw0CGkEAIAhB//8BcSIMQYD4AUsNAhogB8FBAEgNASAHIAhLIAjBQQBODQIaIAcgDHJBAEcMAgsgCiANQdTAxwAQjAcACyAIwUEASCAHIAhJcQshDCAHIAggDBsgCCANQYH4AUkbIQgCQCALLwEgIgdB//8BcSINQYD4AUsNACAIQf//AXEiDEGA+AFLDQAgB8FBAE4EQCAIwUEATgRAIAcgCEH//wNxSyEJDAILIAcgDHJBAEchCQwBCyAIwUEASCAHIAhB//8DcUlxIQkLIAsvARQhCwJ/IAcgCCAJGyAIIA1BgfgBSRsiB0H//wFxRQRAIAdBEHQMAQsgB0H/B3EhCCAHQYCAAnEhCSAHQYD4AXEiB0GA+AFGBEAgCUEQdCIHQYCAgPwHciAIRQ0BGiAHIAhBDXRyQYCAgP4HcgwBCyAJQRB0IgkgB0ENdEGAgID8AHEgCEENdHJBgICAwANqciAHDQAaIAlBgICA2ANyIAhnQRBrIgdBF3RrIAggB0H//wNxQQhqdEH///8DcXILvhCJBCEmQwAAgD8hJAJ/IAtBEHQgC0H//wFxRQ0AGiALQf8HcSEIIAtBgIACcSEHIAtBgPgBcSILQYD4AUYEQCAHQRB0IgdBgICA/AdyIAhFDQEaIAcgCEENdHJBgICA/gdyDAELIAdBEHQiByALQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAsNABogB0GAgIDYA3IgCGdBEGsiB0EXdGsgCCAHQf//A3FBCGp0Qf///wNxcgu+IidDAACAP14EQCAnEMYFQ1T4LUCUQwAAgD+SkSEkCyAQIB9qIghBAnQgAiAPQRBrIg8gJSAlkiAjlCIjICNcICMgJiAmkiAklGByIgcbaiAKNgIAIAcgCGohCyAOQRBqIg4gFUkNAAsLIAAgEkECdGoiEyAOSwRAIBRBBGooAgAhECARKAIAIQ0DQAJ/AkAgEEEIaigCACIMIA1LBEAgEEEEaigCACIYIA1BJGxqIgkvARwhBUEAIQdBACAJLwEeIghB//8BcSIKQYD4AUsNAhpBACAFQf//AXEiG0GA+AFLDQIaIAjBQQBIDQEgBSAISSAFwUEATg0CGiAIIBtyQQBHDAILIA0gDEHUwMcAEIwHAAsgBcFBAEggBSAIS3ELIRsgCCAFIBsbIAUgCkGB+AFJGyEFAkAgCS8BICIIQf//AXEiG0GA+AFLDQAgBUH//wFxIgpBgPgBSw0AIAjBQQBOBEAgBcFBAE4EQCAIIAVB//8DcUshBwwCCyAIIApyQQBHIQcMAQsgBcFBAEggCCAFQf//A3FJcSEHCyAOKAIAIQogCS8BFCEJAn8gCCAFIAcbIAUgG0GB+AFJGyIIQf//AXFFBEAgCEEQdAwBCyAIQf8HcSEFIAhBgIACcSEHIAhBgPgBcSIIQYD4AUYEQCAHQRB0IghBgICA/AdyIAVFDQEaIAggBUENdHJBgICA/gdyDAELIAdBEHQiByAIQQ10QYCAgPwAcSAFQQ10ckGAgIDAA2pyIAgNABogB0GAgIDYA3IgBWdBEGsiCEEXdGsgBSAIQf//A3FBCGp0Qf///wNxcgu+EIkEISRDAACAPyEjAn8gCUEQdCAJQf//AXFFDQAaIAlB/wdxIQUgCUGAgAJxIQggCUGA+AFxIgdBgPgBRgRAIAhBEHQiCEGAgID8B3IgBUUNARogCCAFQQ10ckGAgID+B3IMAQsgCEEQdCIIIAdBDXRBgICA/ABxIAVBDXRyQYCAgMADanIgBw0AGiAIQYCAgNgDciAFZ0EQayIIQRd0ayAFIAhB//8DcUEIanRB////A3FyC74iJUMAAIA/XgRAICUQxgVDVPgtQJRDAACAP5KRISMLAn8CQCAKIAxJBEAgGCAKQSRsaiIHLwEcIQVBACEJQQAgBy8BHiIIQf//AXEiDEGA+AFLDQIaQQAgBUH//wFxIhhBgPgBSw0CGiAIwUEASA0BIAUgCEkgBcFBAE4NAhogCCAYckEARwwCCyAKIAxB1MDHABCMBwALIAXBQQBIIAUgCEtxCyEYIAggBSAYGyAFIAxBgfgBSRshBQJAIAcvASAiCEH//wFxIgxBgPgBSw0AIAVB//8BcSIYQYD4AUsNACAIwUEATgRAIAXBQQBOBEAgCCAFQf//A3FLIQkMAgsgCCAYckEARyEJDAELIAXBQQBIIAggBUH//wNxSXEhCQsgBy8BFCEHIAtBAnQgAiAPQQRrIg8gJCAkkiAjlCIjICNcICMCfyAIIAUgCRsgBSAMQYH4AUkbIghB//8BcUUEQCAIQRB0DAELIAhB/wdxIQUgCEGAgAJxIQkgCEGA+AFxIghBgPgBRgRAIAlBEHQiCEGAgID8B3IgBUUNARogCCAFQQ10ckGAgID+B3IMAQsgCUEQdCIJIAhBDXRBgICA/ABxIAVBDXRyQYCAgMADanIgCA0AGiAJQYCAgNgDciAFZ0EQayIIQRd0ayAFIAhB//8DcUEIanRB////A3FyC74QiQQiJCAkkgJ/IAdBEHQgB0H//wFxRQ0AGiAHQf8HcSEFIAdBgIACcSEIIAdBgPgBcSIHQYD4AUYEQCAIQRB0IghBgICA/AdyIAVFDQEaIAggBUENdHJBgICA/gdyDAELIAhBEHQiCCAHQQ10QYCAgPwAcSAFQQ10ckGAgIDAA2pyIAcNABogCEGAgIDYA3IgBWdBEGsiCEEXdGsgBSAIQf//A3FBCGp0Qf///wNxcgu+IiRDAACAP14EfSAkEMYFQ1T4LUCUQwAAgD+SkQVDAACAPwuUYHIiBRtqIAo2AgAgBSALaiELIA5BBGoiDiATSQ0ACwsgASASRwRAIAIgC0ECdGogDigCADYCACAOQQRqIQ4gC0EBaiELIA9BBGshDyABIRIMAQsLIAtBAnQiBQRAIAAgAiAF/AoAAAsgASALRg0EIAAgBWohCEEAIQoCQCABIAtrIgdBBE8EQCAeICJqIQ4gCCEPIAdBfHEiCiEJA0AgDyAO/QACAP0MAAAAAAAAAAAAAAAAAAAAAP0NDA0ODwgJCgsEBQYHAAECA/0LAgAgDkEQayEOIA9BEGohDyAJQQRrIgkNAAsgByAKRg0BCyAhIApBAnQiEmsgHmohDiAAIBJqIAVqIQ8gCiABayALaiEJA0AgDyAOKAIANgIAIA5BBGshDiAPQQRqIQ8gCUEBaiIJDQALCyABIAtPBEBBACEFIAghACAHIQEgB0EhSQ0EDAMLIAsgASABQYSVwQAQ6gcACwALIAAgCGogCSACIAMgBCAdQQRqIAYQMiAHIQEgB0EhTw0ACyAAIQgLIAdBAkkNACAGKAIAIQEgB0EBdiEAIAACfyAHQQ9NBEAgB0EHSwRAIAggAiABQQRqIgMoAgAQhgEgCCAAQQJ0IgRqIAIgBGogAygCABCGAUEEDAILIAIgCCgCADYCACACIABBAnQiA2ogAyAIaigCADYCAEEBDAELIAggAiAHQQJ0aiIDIAFBBGoiBCgCABCGASAIQRBqIANBEGogBCgCABCGASADQQggAiABEOQBIAggAEECdCIFaiIGIANBIGoiEiAEKAIAEIYBIAZBEGogA0EwaiAEKAIAEIYBIBJBCCACIAVqIAEQ5AFBCAsiA0sEQCAAIANrIQ8gA0ECdCEOA0AgAiAOaiIEIAggDmooAgA2AgAgAiAEIAEQ+gEgDkEEaiEOIA9BAWsiDw0ACwsgByAAayADSwRAIAIgAEECdCIEaiEFIAggA0ECdCAEaiIEaiEPIAIgBGohDiAAIANqIAdrIQkDQCAOIA8oAgA2AgAgBSAOIAEQ+gEgD0EEaiEPIA5BBGohDiAJQQFqIgkNAAsLIAIgByAIIAEQ5AELIB1BIGokAAvpigECHH8HfSMAQSBrIh0kAAJAAkAgAUEhSQRAIAAhCCABIQcMAQsgAkEEayEhIAJBEGshIgNAIARFBEAgACABIAIgA0EBIAYQVQwDCyAAIAFBA3YiCEEcbGohDiAAIAhBBHRqIQ8CQCABQcAATwRAIAAgDyAOIAggBhDBASERIAYoAgAhHgwBC0MAAIA/ISQCfwJAIAAoAgAiCCAGKAIAIh5BBGooAgAiB0EIaigCACISSQRAIA8oAgAhCyAHQQRqKAIAIgkgCEEkbGoiChCKBCEjIAovARQiCEH//wFxIhBFBEAgCEEQdAwDCyAIQf8HcSEHIAhBgIACcSERIAhBgPgBcSINQYD4AUYEQCARQRB0IhFBgICA/AdyIAdFDQMaIBEgB0ENdHJBgICA/gdyDAMLIBFBEHQhESANRQ0BIA1BDXRBgICA/ABxIAdBDXRyQYCAgMADaiARcgwCCyAIIBJB1MDHABCMBwALIBFBgICA2ANyIAdnQRBrIhFBF3RrIAcgEUH//wNxQQhqdEH///8DcXILviIlQwAAgD9eBEAgJRDGBUNU+C1AlEMAAIA/kpEhJAtDAACAPyElAn8CQCALIBJJBEAgCSALQSRsaiINEIoEISYgDS8BFCIHQf//AXEiFEUEQCAHQRB0DAMLIAdB/wdxIQsgB0GAgAJxIREgB0GA+AFxIgxBgPgBRgRAIBFBEHQiEUGAgID8B3IgC0UNAxogESALQQ10ckGAgID+B3IMAwsgEUEQdCERIAxFDQEgDEENdEGAgID8AHEgC0ENdHJBgICAwANqIBFyDAILIAsgEkHUwMcAEIwHAAsgEUGAgIDYA3IgC2dBEGsiEUEXdGsgCyARQf//A3FBCGp0Qf///wNxcgu+IidDAACAP14EQCAnEMYFQ1T4LUCUQwAAgD+SkSElCyAOKAIAIREgChCKBCEnQwAAgD8hKAJ/IAhBEHQgEEUNABogCEH/B3EhCyAIQYCAAnEhCiAIQYD4AXEiCEGA+AFGBEAgCkEQdCIIQYCAgPwHciALRQ0BGiAIIAtBDXRyQYCAgP4HcgwBCyAKQRB0IgogCEENdEGAgID8AHEgC0ENdHJBgICAwANqciAIDQAaIApBgICA2ANyIAtnQRBrIghBF3RrIAsgCEH//wNxQQhqdEH///8DcXILviIpQwAAgD9eBEAgKRDGBUNU+C1AlEMAAIA/kpEhKAsCfwJAIBEgEkkEQCAjICOSICSUIiMgJiAmkiAllGBFIQogIyAjWyEMIAkgEUEkbGoiCxCKBCEjIAsvARQiCEH//wFxIhBFBEAgCEEQdAwDCyAIQf8HcSESIAhBgIACcSERIAhBgPgBcSIJQYD4AUYEQCARQRB0IhFBgICA/AdyIBJFDQMaIBEgEkENdHJBgICA/gdyDAMLIBFBEHQhESAJRQ0BIAlBDXRBgICA/ABxIBJBDXRyQYCAgMADaiARcgwCCyARIBJB1MDHABCMBwALIBFBgICA2ANyIBJnQRBrIhFBF3RrIBIgEUH//wNxQQhqdEH///8DcXILQwAAgD8hJL4iJUMAAIA/XgRAICUQxgVDVPgtQJRDAACAP5KRISQLIAogDHEiCSAnICeSICiUIiUgJVsgJSAjICOSICSUYEVxRwRAIAAhEQwBC0MAAIA/ISMgDiAPIAkgDRCKBCIkICSSAn8gB0EQdCAURQ0AGiAHQf8HcSESIAdBgIACcSERIAdBgPgBcSIHQYD4AUYEQCARQRB0IgdBgICA/AdyIBJFDQEaIAcgEkENdHJBgICA/gdyDAELIBFBEHQiESAHQQ10QYCAgPwAcSASQQ10ckGAgIDAA2pyIAcNABogEUGAgIDYA3IgEmdBEGsiB0EXdGsgEiAHQf//A3FBCGp0Qf///wNxcgu+IiVDAACAP14EfSAlEMYFQ1T4LUCUQwAAgD+SkQUgIwuUIiMgI1sgIyALEIoEIiQgJJICfyAIQRB0IBBFDQAaIAhB/wdxIQcgCEGAgAJxIRIgCEGA+AFxIghBgPgBRgRAIBJBEHQiCEGAgID8B3IgB0UNARogCCAHQQ10ckGAgID+B3IMAQsgEkEQdCISIAhBDXRBgICA/ABxIAdBDXRyQYCAgMADanIgCA0AGiASQYCAgNgDciAHZ0EQayIIQRd0ayAHIAhB//8DcUEIanRB////A3FyC74iJEMAAIA/XgR9ICQQxgVDVPgtQJRDAACAP5KRBUMAAIA/C5RgRXFzGyERCyAEQQFrIQQgHSARKAIAIgs2AgQgESAAa0ECdiESAkACQAJAIAUEQEMAAIA/ISMCfwJAIAUoAgAiCCAeQQRqKAIAIgdBCGooAgAiDkkEQCAHQQRqKAIAIgkgCEEkbGoiCBCKBCElIAgvARQiB0H//wFxRQRAIAdBEHQMAwsgB0H/B3EhCCAHQYCAAnEhDyAHQYD4AXEiB0GA+AFGBEAgD0EQdCIHQYCAgPwHciAIRQ0DGiAHIAhBDXRyQYCAgP4HcgwDCyAPQRB0IQ8gB0UNASAHQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2ogD3IMAgsgCCAOQdTAxwAQjAcACyAPQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74iJEMAAIA/XgRAICQQxgVDVPgtQJRDAACAP5KRISMLQwAAgD8hJAJ/AkAgCyAOSQRAIAkgC0EkbGoiCBCKBCEmIAgvARQiB0H//wFxRQRAIAdBEHQMAwsgB0H/B3EhCCAHQYCAAnEhCyAHQYD4AXEiB0GA+AFGBEAgC0EQdCIHQYCAgPwHciAIRQ0DGiAHIAhBDXRyQYCAgP4HcgwDCyALQRB0IQsgB0UNASAHQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2ogC3IMAgsgCyAOQdTAxwAQjAcACyALQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74iJ0MAAIA/XgRAICcQxgVDVPgtQJRDAACAP5KRISQLICUgJZIgI5QiIyAjXCAjICYgJpIgJJRgcg0BCyABIANLDQEgAiABQQJ0IhhqIQ9BACEHIAAhDiASIQsDQCAAIAtBA2siCEEAIAggC00bQQJ0aiIcIA5LBEAgESgCACENIB5BBGoiHygCACIbIQgDQAJ/AkAgDigCACIUIBtBCGooAgAiCUkEQCAbQQRqKAIAIBRBJGxqIhAvARwhCkEAIQlBACAQLwEeIgxB//8BcSITQYD4AUsNAhpBACAKQf//AXEiFUGA+AFLDQIaIAzBQQBIDQEgCiAMSSAKwUEATg0CGiAMIBVyQQBHDAILIBQgCUHUwMcAEIwHAAsgCsFBAEggCiAMS3ELIRUgDCAKIBUbIAogE0GB+AFJGyEKAkAgEC8BICIMQf//AXEiE0GA+AFLDQAgCkH//wFxIhVBgPgBSw0AIAzBQQBOBEAgCsFBAE4EQCAMIApB//8DcUshCQwCCyAMIBVyQQBHIQkMAQsgCsFBAEggDCAKQf//A3FJcSEJCyAQLwEUIRACfyAMIAogCRsgCiATQYH4AUkbIgpB//8BcUUEQCAKQRB0DAELIApB/wdxIQkgCkGAgAJxIQwgCkGA+AFxIgpBgPgBRgRAIAxBEHQiCkGAgID8B3IgCUUNARogCiAJQQ10ckGAgID+B3IMAQsgDEEQdCIMIApBDXRBgICA/ABxIAlBDXRyQYCAgMADanIgCg0AGiAMQYCAgNgDciAJZ0EQayIKQRd0ayAJIApB//8DcUEIanRB////A3FyC74QiQQhJEMAAIA/ISMCfyAQQRB0IBBB//8BcUUNABogEEH/B3EhCSAQQYCAAnEhCiAQQYD4AXEiDEGA+AFGBEAgCkEQdCIKQYCAgPwHciAJRQ0BGiAKIAlBDXRyQYCAgP4HcgwBCyAKQRB0IgogDEENdEGAgID8AHEgCUENdHJBgICAwANqciAMDQAaIApBgICA2ANyIAlnQRBrIgpBF3RrIAkgCkH//wNxQQhqdEH///8DcXILviIlQwAAgD9eBEAgJRDGBUNU+C1AlEMAAIA/kpEhIwsCfwJAIAhBCGoiFSgCACIJIA1LBEAgDUEkbCIQIAhBBGoiGigCAGoiDC8BHCEJQQAhCEEAIAwvAR4iCkH//wFxIhNBgPgBSw0CGkEAIAlB//8BcSIWQYD4AUsNAhogCsFBAEgNASAJIApJIAnBQQBODQIaIAogFnJBAEcMAgsgDSAJQdTAxwAQjAcACyAJwUEASCAJIApLcQshFiAKIAkgFhsgCSATQYH4AUkbIQkCQCAMLwEgIgpB//8BcSITQYD4AUsNACAJQf//AXEiFkGA+AFLDQAgCsFBAE4EQCAJwUEATgRAIAogCUH//wNxSyEIDAILIAogFnJBAEchCAwBCyAJwUEASCAKIAlB//8DcUlxIQgLIAwvARQhDCAHQQJ0IAIgD0EEayAkICSSICOUIiMgI1sgIwJ/IAogCSAIGyAJIBNBgfgBSRsiCUH//wFxRQRAIAlBEHQMAQsgCUH/B3EhCCAJQYCAAnEhCiAJQYD4AXEiCUGA+AFGBEAgCkEQdCIJQYCAgPwHciAIRQ0BGiAJIAhBDXRyQYCAgP4HcgwBCyAKQRB0IgogCUENdEGAgID8AHEgCEENdHJBgICAwANqciAJDQAaIApBgICA2ANyIAhnQRBrIglBF3RrIAggCUH//wNxQQhqdEH///8DcXILvhCJBCIkICSSAn8gDEEQdCAMQf//AXFFDQAaIAxB/wdxIQggDEGAgAJxIQkgDEGA+AFxIgpBgPgBRgRAIAlBEHQiCUGAgID8B3IgCEUNARogCSAIQQ10ckGAgID+B3IMAQsgCUEQdCIJIApBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCg0AGiAJQYCAgNgDciAIZ0EQayIJQRd0ayAIIAlB//8DcUEIanRB////A3FyC74iJEMAAIA/XgR9ICQQxgVDVPgtQJRDAACAP5KRBUMAAIA/C5RgRXEiFhtqIBQ2AgACfwJAIA5BBGooAgAiFCAVKAIAIhNJBEAgGigCACIXIBRBJGxqIgwvARwhCUEAIQhBACAMLwEeIgpB//8BcSIZQYD4AUsNAhpBACAJQf//AXEiIEGA+AFLDQIaIArBQQBIDQEgCSAKSSAJwUEATg0CGiAKICByQQBHDAILIBQgE0HUwMcAEIwHAAsgCcFBAEggCSAKS3ELISAgCiAJICAbIAkgGUGB+AFJGyEJAkAgDC8BICIKQf//AXEiGUGA+AFLDQAgCUH//wFxIiBBgPgBSw0AIArBQQBOBEAgCcFBAE4EQCAKIAlB//8DcUshCAwCCyAKICByQQBHIQgMAQsgCcFBAEggCiAJQf//A3FJcSEICyAMLwEUIQwCfyAKIAkgCBsgCSAZQYH4AUkbIglB//8BcUUEQCAJQRB0DAELIAlB/wdxIQggCUGAgAJxIQogCUGA+AFxIglBgPgBRgRAIApBEHQiCUGAgID8B3IgCEUNARogCSAIQQ10ckGAgID+B3IMAQsgCkEQdCIKIAlBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCQ0AGiAKQYCAgNgDciAIZ0EQayIJQRd0ayAIIAlB//8DcUEIanRB////A3FyC74QiQQhJEMAAIA/ISMCfyAMQRB0IAxB//8BcUUNABogDEH/B3EhCCAMQYCAAnEhCSAMQYD4AXEiCkGA+AFGBEAgCUEQdCIJQYCAgPwHciAIRQ0BGiAJIAhBDXRyQYCAgP4HcgwBCyAJQRB0IgkgCkENdEGAgID8AHEgCEENdHJBgICAwANqciAKDQAaIAlBgICA2ANyIAhnQRBrIglBF3RrIAggCUH//wNxQQhqdEH///8DcXILviIlQwAAgD9eBEAgJRDGBUNU+C1AlEMAAIA/kpEhIwsCfwJAIA0gE0kEQCAQIBdqIgwvARwhCUEAIQhBACAMLwEeIgpB//8BcSITQYD4AUsNAhpBACAJQf//AXEiF0GA+AFLDQIaIArBQQBIDQEgCSAKSSAJwUEATg0CGiAKIBdyQQBHDAILIA0gE0HUwMcAEIwHAAsgCcFBAEggCSAKS3ELIRcgCiAJIBcbIAkgE0GB+AFJGyEJAkAgDC8BICIKQf//AXEiE0GA+AFLDQAgCUH//wFxIhdBgPgBSw0AIArBQQBOBEAgCcFBAE4EQCAKIAlB//8DcUshCAwCCyAKIBdyQQBHIQgMAQsgCcFBAEggCiAJQf//A3FJcSEICyAMLwEUIQwgByAWaiIWQQJ0IAIgD0EIayAkICSSICOUIiMgI1sgIwJ/IAogCSAIGyAJIBNBgfgBSRsiB0H//wFxRQRAIAdBEHQMAQsgB0H/B3EhCCAHQYCAAnEhCSAHQYD4AXEiB0GA+AFGBEAgCUEQdCIHQYCAgPwHciAIRQ0BGiAHIAhBDXRyQYCAgP4HcgwBCyAJQRB0IgkgB0ENdEGAgID8AHEgCEENdHJBgICAwANqciAHDQAaIAlBgICA2ANyIAhnQRBrIgdBF3RrIAggB0H//wNxQQhqdEH///8DcXILvhCJBCIkICSSAn8gDEEQdCAMQf//AXFFDQAaIAxB/wdxIQggDEGAgAJxIQcgDEGA+AFxIglBgPgBRgRAIAdBEHQiB0GAgID8B3IgCEUNARogByAIQQ10ckGAgID+B3IMAQsgB0EQdCIHIAlBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCQ0AGiAHQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74iJEMAAIA/XgR9ICQQxgVDVPgtQJRDAACAP5KRBUMAAIA/C5RgRXEiExtqIBQ2AgACfwJAIA5BCGooAgAiFCAVKAIAIghJBEAgGigCACAUQSRsaiIKLwEcIQhBACEJQQAgCi8BHiIHQf//AXEiDEGA+AFLDQIaQQAgCEH//wFxIhVBgPgBSw0CGiAHwUEASA0BIAcgCEsgCMFBAE4NAhogByAVckEARwwCCyAUIAhB1MDHABCMBwALIAjBQQBIIAcgCElxCyEVIAcgCCAVGyAIIAxBgfgBSRshCAJAIAovASAiB0H//wFxIgxBgPgBSw0AIAhB//8BcSIVQYD4AUsNACAHwUEATgRAIAjBQQBOBEAgByAIQf//A3FLIQkMAgsgByAVckEARyEJDAELIAjBQQBIIAcgCEH//wNxSXEhCQsgCi8BFCEKAn8gByAIIAkbIAggDEGB+AFJGyIHQf//AXFFBEAgB0EQdAwBCyAHQf8HcSEIIAdBgIACcSEJIAdBgPgBcSIHQYD4AUYEQCAJQRB0IgdBgICA/AdyIAhFDQEaIAcgCEENdHJBgICA/gdyDAELIAlBEHQiCSAHQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAcNABogCUGAgIDYA3IgCGdBEGsiB0EXdGsgCCAHQf//A3FBCGp0Qf///wNxcgu+EIkEISRDAACAPyEjAn8gCkEQdCAKQf//AXFFDQAaIApB/wdxIQggCkGAgAJxIQcgCkGA+AFxIglBgPgBRgRAIAdBEHQiB0GAgID8B3IgCEUNARogByAIQQ10ckGAgID+B3IMAQsgB0EQdCIHIAlBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCQ0AGiAHQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74iJUMAAIA/XgRAICUQxgVDVPgtQJRDAACAP5KRISMLAn8CQCAfKAIAIghBCGoiFSgCACIHIA1LBEAgCEEEaiIaKAIAIBBqIgwvARwhB0EAIQpBACAMLwEeIglB//8BcSIXQYD4AUsNAhpBACAHQf//AXEiGUGA+AFLDQIaIAnBQQBIDQEgByAJSSAHwUEATg0CGiAJIBlyQQBHDAILIA0gB0HUwMcAEIwHAAsgB8FBAEggByAJS3ELIRkgCSAHIBkbIAcgF0GB+AFJGyEHAkAgDC8BICIJQf//AXEiF0GA+AFLDQAgB0H//wFxIhlBgPgBSw0AIAnBQQBOBEAgB8FBAE4EQCAJIAdB//8DcUshCgwCCyAJIBlyQQBHIQoMAQsgB8FBAEggCSAHQf//A3FJcSEKCyAMLwEUIQwgEyAWaiIWQQJ0IAIgD0EMayAkICSSICOUIiMgI1sgIwJ/IAkgByAKGyAHIBdBgfgBSRsiCUH//wFxRQRAIAlBEHQMAQsgCUH/B3EhByAJQYCAAnEhCiAJQYD4AXEiCUGA+AFGBEAgCkEQdCIJQYCAgPwHciAHRQ0BGiAJIAdBDXRyQYCAgP4HcgwBCyAKQRB0IgogCUENdEGAgID8AHEgB0ENdHJBgICAwANqciAJDQAaIApBgICA2ANyIAdnQRBrIglBF3RrIAcgCUH//wNxQQhqdEH///8DcXILvhCJBCIkICSSAn8gDEEQdCAMQf//AXFFDQAaIAxB/wdxIQcgDEGAgAJxIQkgDEGA+AFxIgpBgPgBRgRAIAlBEHQiCUGAgID8B3IgB0UNARogCSAHQQ10ckGAgID+B3IMAQsgCUEQdCIJIApBDXRBgICA/ABxIAdBDXRyQYCAgMADanIgCg0AGiAJQYCAgNgDciAHZ0EQayIJQRd0ayAHIAlB//8DcUEIanRB////A3FyC74iJEMAAIA/XgR9ICQQxgVDVPgtQJRDAACAP5KRBUMAAIA/C5RgRXEiFxtqIBQ2AgACfwJAIA5BDGooAgAiFCAVKAIAIhNJBEAgGigCACIVIBRBJGxqIgwvARwhB0EAIQpBACAMLwEeIglB//8BcSIaQYD4AUsNAhpBACAHQf//AXEiGUGA+AFLDQIaIAnBQQBIDQEgByAJSSAHwUEATg0CGiAJIBlyQQBHDAILIBQgE0HUwMcAEIwHAAsgB8FBAEggByAJS3ELIRkgCSAHIBkbIAcgGkGB+AFJGyEHAkAgDC8BICIJQf//AXEiGkGA+AFLDQAgB0H//wFxIhlBgPgBSw0AIAnBQQBOBEAgB8FBAE4EQCAJIAdB//8DcUshCgwCCyAJIBlyQQBHIQoMAQsgB8FBAEggCSAHQf//A3FJcSEKCyAMLwEUIQwCfyAJIAcgChsgByAaQYH4AUkbIglB//8BcUUEQCAJQRB0DAELIAlB/wdxIQcgCUGAgAJxIQogCUGA+AFxIglBgPgBRgRAIApBEHQiCUGAgID8B3IgB0UNARogCSAHQQ10ckGAgID+B3IMAQsgCkEQdCIKIAlBDXRBgICA/ABxIAdBDXRyQYCAgMADanIgCQ0AGiAKQYCAgNgDciAHZ0EQayIJQRd0ayAHIAlB//8DcUEIanRB////A3FyC74QiQQhJUMAAIA/ISMCfyAMQRB0IAxB//8BcUUNABogDEH/B3EhByAMQYCAAnEhCSAMQYD4AXEiCkGA+AFGBEAgCUEQdCIJQYCAgPwHciAHRQ0BGiAJIAdBDXRyQYCAgP4HcgwBCyAJQRB0IgkgCkENdEGAgID8AHEgB0ENdHJBgICAwANqciAKDQAaIAlBgICA2ANyIAdnQRBrIglBF3RrIAcgCUH//wNxQQhqdEH///8DcXILviIkQwAAgD9eBEAgJBDGBUNU+C1AlEMAAIA/kpEhIwsCfwJAIA0gE0kEQCAQIBVqIgwvARwhB0EAIQlBACAMLwEeIgpB//8BcSIQQYD4AUsNAhpBACAHQf//AXEiE0GA+AFLDQIaIArBQQBIDQEgByAKSSAHwUEATg0CGiAKIBNyQQBHDAILIA0gE0HUwMcAEIwHAAsgB8FBAEggByAKS3ELIRMgCiAHIBMbIAcgEEGB+AFJGyEHAkAgDC8BICIKQf//AXEiEEGA+AFLDQAgB0H//wFxIhNBgPgBSw0AIArBQQBOBEAgB8FBAE4EQCAKIAdB//8DcUshCQwCCyAKIBNyQQBHIQkMAQsgB8FBAEggCiAHQf//A3FJcSEJCyAMLwEUIQwCfyAKIAcgCRsgByAQQYH4AUkbIglB//8BcUUEQCAJQRB0DAELIAlB/wdxIQcgCUGAgAJxIQogCUGA+AFxIglBgPgBRgRAIApBEHQiCUGAgID8B3IgB0UNARogCSAHQQ10ckGAgID+B3IMAQsgCkEQdCIKIAlBDXRBgICA/ABxIAdBDXRyQYCAgMADanIgCQ0AGiAKQYCAgNgDciAHZ0EQayIJQRd0ayAHIAlB//8DcUEIanRB////A3FyC74QiQQhJkMAAIA/ISQCfyAMQRB0IAxB//8BcUUNABogDEH/B3EhByAMQYCAAnEhCSAMQYD4AXEiCkGA+AFGBEAgCUEQdCIJQYCAgPwHciAHRQ0BGiAJIAdBDXRyQYCAgP4HcgwBCyAJQRB0IgkgCkENdEGAgID8AHEgB0ENdHJBgICAwANqciAKDQAaIAlBgICA2ANyIAdnQRBrIglBF3RrIAcgCUH//wNxQQhqdEH///8DcXILviInQwAAgD9eBEAgJxDGBUNU+C1AlEMAAIA/kpEhJAsgFiAXaiIHQQJ0IAIgD0EQayIPICUgJZIgI5QiIyAjWyAjICYgJpIgJJRgRXEiCRtqIBQ2AgAgByAJaiEHIA5BEGoiDiAcSQ0ACwsgACALQQJ0aiIbIA5LBEAgHkEEaigCACETIBEoAgAhDANAAn8CQCAOKAIAIhAgE0EIaigCACIUSQRAIBNBBGooAgAiFSAQQSRsaiINLwEcIQhBACEJQQAgDS8BHiIKQf//AXEiGkGA+AFLDQIaQQAgCEH//wFxIhxBgPgBSw0CGiAKwUEASA0BIAggCkkgCMFBAE4NAhogCiAcckEARwwCCyAQIBRB1MDHABCMBwALIAjBQQBIIAggCktxCyEcIAogCCAcGyAIIBpBgfgBSRshCAJAIA0vASAiCkH//wFxIhpBgPgBSw0AIAhB//8BcSIcQYD4AUsNACAKwUEATgRAIAjBQQBOBEAgCiAIQf//A3FLIQkMAgsgCiAcckEARyEJDAELIAjBQQBIIAogCEH//wNxSXEhCQsgDS8BFCENAn8gCiAIIAkbIAggGkGB+AFJGyIJQf//AXFFBEAgCUEQdAwBCyAJQf8HcSEIIAlBgIACcSEKIAlBgPgBcSIJQYD4AUYEQCAKQRB0IglBgICA/AdyIAhFDQEaIAkgCEENdHJBgICA/gdyDAELIApBEHQiCiAJQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAkNABogCkGAgIDYA3IgCGdBEGsiCUEXdGsgCCAJQf//A3FBCGp0Qf///wNxcgu+EIkEISRDAACAPyEjAn8gDUEQdCANQf//AXFFDQAaIA1B/wdxIQggDUGAgAJxIQkgDUGA+AFxIgpBgPgBRgRAIAlBEHQiCUGAgID8B3IgCEUNARogCSAIQQ10ckGAgID+B3IMAQsgCUEQdCIJIApBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCg0AGiAJQYCAgNgDciAIZ0EQayIJQRd0ayAIIAlB//8DcUEIanRB////A3FyC74iJUMAAIA/XgRAICUQxgVDVPgtQJRDAACAP5KRISMLAn8CQCAMIBRJBEAgFSAMQSRsaiINLwEcIQhBACEJQQAgDS8BHiIKQf//AXEiFEGA+AFLDQIaQQAgCEH//wFxIhVBgPgBSw0CGiAKwUEASA0BIAggCkkgCMFBAE4NAhogCiAVckEARwwCCyAMIBRB1MDHABCMBwALIAjBQQBIIAggCktxCyEVIAogCCAVGyAIIBRBgfgBSRshCAJAIA0vASAiCkH//wFxIhRBgPgBSw0AIAhB//8BcSIVQYD4AUsNACAKwUEATgRAIAjBQQBOBEAgCiAIQf//A3FLIQkMAgsgCiAVckEARyEJDAELIAjBQQBIIAogCEH//wNxSXEhCQsgDS8BFCENIAdBAnQgAiAPQQRrIg8gJCAkkiAjlCIjICNbICMCfyAKIAggCRsgCCAUQYH4AUkbIglB//8BcUUEQCAJQRB0DAELIAlB/wdxIQggCUGAgAJxIQogCUGA+AFxIglBgPgBRgRAIApBEHQiCUGAgID8B3IgCEUNARogCSAIQQ10ckGAgID+B3IMAQsgCkEQdCIKIAlBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCQ0AGiAKQYCAgNgDciAIZ0EQayIJQRd0ayAIIAlB//8DcUEIanRB////A3FyC74QiQQiJCAkkgJ/IA1BEHQgDUH//wFxRQ0AGiANQf8HcSEIIA1BgIACcSEJIA1BgPgBcSIKQYD4AUYEQCAJQRB0IglBgICA/AdyIAhFDQEaIAkgCEENdHJBgICA/gdyDAELIAlBEHQiCSAKQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAoNABogCUGAgIDYA3IgCGdBEGsiCUEXdGsgCCAJQf//A3FBCGp0Qf///wNxcgu+IiRDAACAP14EfSAkEMYFQ1T4LUCUQwAAgD+SkQVDAACAPwuUYEVxIggbaiAQNgIAIAcgCGohByAOQQRqIg4gG0kNAAsLIAEgC0cEQCAPQQRrIg8gB0ECdGogDigCADYCACAOQQRqIQ4gASELDAELCyAHQQJ0IggEQCAAIAIgCPwKAAALIAEgB2shCQJAIAEgB0YNAEEAIQogCUEETwRAIAAgCGohDiAYICJqIQ8gCUF8cSIKIQsDQCAOIA/9AAIA/QwAAAAAAAAAAAAAAAAAAAAA/Q0MDQ4PCAkKCwQFBgcAAQID/QsCACAPQRBrIQ8gDkEQaiEOIAtBBGsiCw0ACyAJIApGDQELICEgGCAKQQJ0IgtraiEOIAAgC2ogCGohDyAKIAFrIAdqIQsDQCAPIA4oAgA2AgAgDkEEayEOIA9BBGohDyALQQFqIgsNAAsLIAdFDQAgASAHTw0CIB1BADYCGCAdQQE2AgwgHUGIgsgANgIIIB1CBDcCECAdQQhqQfSUwQAQjQgACyABIANLDQAgAiABQQJ0Ih5qIQ8gBigCACEUQQAhCyAAIQ4DQCAAIBJBA2siBUEAIAUgEk0bQQJ0aiIVIA5LBEAgFEEEaiIaKAIAIRMgESgCACEFIAYoAgBBBGohHANAAn8CQCATQQhqKAIAIgggBUsEQCAFQSRsIgwgE0EEaigCAGoiCi8BHCEIQQAhCUEAIAovAR4iB0H//wFxIg1BgPgBSw0CGkEAIAhB//8BcSIQQYD4AUsNAhogB8FBAEgNASAHIAhLIAjBQQBODQIaIAcgEHJBAEcMAgsgBSAIQdTAxwAQjAcACyAIwUEASCAHIAhJcQshECAHIAggEBsgCCANQYH4AUkbIQgCQCAKLwEgIgdB//8BcSIQQYD4AUsNACAIQf//AXEiDUGA+AFLDQAgB8FBAE4EQCAIwUEATgRAIAcgCEH//wNxSyEJDAILIAcgDXJBAEchCQwBCyAIwUEASCAHIAhB//8DcUlxIQkLIA4oAgAhDSAKLwEUIQoCfyAHIAggCRsgCCAQQYH4AUkbIgdB//8BcUUEQCAHQRB0DAELIAdB/wdxIQggB0GAgAJxIQkgB0GA+AFxIgdBgPgBRgRAIAlBEHQiB0GAgID8B3IgCEUNARogByAIQQ10ckGAgID+B3IMAQsgCUEQdCIJIAdBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgBw0AGiAJQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74QiQQhJEMAAIA/ISMCfyAKQRB0IApB//8BcUUNABogCkH/B3EhCCAKQYCAAnEhByAKQYD4AXEiCUGA+AFGBEAgB0EQdCIHQYCAgPwHciAIRQ0BGiAHIAhBDXRyQYCAgP4HcgwBCyAHQRB0IgcgCUENdEGAgID8AHEgCEENdHJBgICAwANqciAJDQAaIAdBgICA2ANyIAhnQRBrIgdBF3RrIAggB0H//wNxQQhqdEH///8DcXILviIlQwAAgD9eBEAgJRDGBUNU+C1AlEMAAIA/kpEhIwsCfwJAIBooAgAiCEEIaigCACIHIA1LBEAgCEEEaigCACANQSRsaiIKLwEcIQhBACEJQQAgCi8BHiIHQf//AXEiEEGA+AFLDQIaQQAgCEH//wFxIhhBgPgBSw0CGiAHwUEASA0BIAcgCEsgCMFBAE4NAhogByAYckEARwwCCyANIAdB1MDHABCMBwALIAjBQQBIIAcgCElxCyEYIAcgCCAYGyAIIBBBgfgBSRshCAJAIAovASAiB0H//wFxIhBBgPgBSw0AIAhB//8BcSIYQYD4AUsNACAHwUEATgRAIAjBQQBOBEAgByAIQf//A3FLIQkMAgsgByAYckEARyEJDAELIAjBQQBIIAcgCEH//wNxSXEhCQsgCi8BFCEKIAtBAnQgAiAPQQRrICQgJJIgI5QiIyAjXCAjAn8gByAIIAkbIAggEEGB+AFJGyIHQf//AXFFBEAgB0EQdAwBCyAHQf8HcSEIIAdBgIACcSEJIAdBgPgBcSIHQYD4AUYEQCAJQRB0IgdBgICA/AdyIAhFDQEaIAcgCEENdHJBgICA/gdyDAELIAlBEHQiCSAHQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAcNABogCUGAgIDYA3IgCGdBEGsiB0EXdGsgCCAHQf//A3FBCGp0Qf///wNxcgu+EIkEIiQgJJICfyAKQRB0IApB//8BcUUNABogCkH/B3EhCCAKQYCAAnEhByAKQYD4AXEiCUGA+AFGBEAgB0EQdCIHQYCAgPwHciAIRQ0BGiAHIAhBDXRyQYCAgP4HcgwBCyAHQRB0IgcgCUENdEGAgID8AHEgCEENdHJBgICAwANqciAJDQAaIAdBgICA2ANyIAhnQRBrIgdBF3RrIAggB0H//wNxQQhqdEH///8DcXILviIkQwAAgD9eBH0gJBDGBUNU+C1AlEMAAIA/kpEFQwAAgD8LlGByIh8baiANNgIAAn8CQCAcKAIAIghBCGoiGCgCACIQIAVLBEAgCEEEaiIbKAIAIhYgDGoiCS8BHCEIQQAhCkEAIAkvAR4iB0H//wFxIg1BgPgBSw0CGkEAIAhB//8BcSIXQYD4AUsNAhogB8FBAEgNASAHIAhLIAjBQQBODQIaIAcgF3JBAEcMAgsgBSAQQdTAxwAQjAcACyAIwUEASCAHIAhJcQshFyAHIAggFxsgCCANQYH4AUkbIQgCQCAJLwEgIgdB//8BcSIXQYD4AUsNACAIQf//AXEiDUGA+AFLDQAgB8FBAE4EQCAIwUEATgRAIAcgCEH//wNxSyEKDAILIAcgDXJBAEchCgwBCyAIwUEASCAHIAhB//8DcUlxIQoLIA5BBGooAgAhDSAJLwEUIQkCfyAHIAggChsgCCAXQYH4AUkbIgdB//8BcUUEQCAHQRB0DAELIAdB/wdxIQggB0GAgAJxIQogB0GA+AFxIgdBgPgBRgRAIApBEHQiB0GAgID8B3IgCEUNARogByAIQQ10ckGAgID+B3IMAQsgCkEQdCIKIAdBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgBw0AGiAKQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74QiQQhJEMAAIA/ISMCfyAJQRB0IAlB//8BcUUNABogCUH/B3EhCCAJQYCAAnEhByAJQYD4AXEiCUGA+AFGBEAgB0EQdCIHQYCAgPwHciAIRQ0BGiAHIAhBDXRyQYCAgP4HcgwBCyAHQRB0IgcgCUENdEGAgID8AHEgCEENdHJBgICAwANqciAJDQAaIAdBgICA2ANyIAhnQRBrIgdBF3RrIAggB0H//wNxQQhqdEH///8DcXILviIlQwAAgD9eBEAgJRDGBUNU+C1AlEMAAIA/kpEhIwsCfwJAIA0gEEkEQCAWIA1BJGxqIgovARwhB0EAIQhBACAKLwEeIglB//8BcSIQQYD4AUsNAhpBACAHQf//AXEiFkGA+AFLDQIaIAnBQQBIDQEgByAJSSAHwUEATg0CGiAJIBZyQQBHDAILIA0gEEHUwMcAEIwHAAsgB8FBAEggByAJS3ELIRYgCSAHIBYbIAcgEEGB+AFJGyEHAkAgCi8BICIJQf//AXEiEEGA+AFLDQAgB0H//wFxIhZBgPgBSw0AIAnBQQBOBEAgB8FBAE4EQCAJIAdB//8DcUshCAwCCyAJIBZyQQBHIQgMAQsgB8FBAEggCSAHQf//A3FJcSEICyAKLwEUIQogCyAfaiIfQQJ0IAIgD0EIayAkICSSICOUIiMgI1wgIwJ/IAkgByAIGyAHIBBBgfgBSRsiB0H//wFxRQRAIAdBEHQMAQsgB0H/B3EhCCAHQYCAAnEhCyAHQYD4AXEiB0GA+AFGBEAgC0EQdCIHQYCAgPwHciAIRQ0BGiAHIAhBDXRyQYCAgP4HcgwBCyALQRB0IgsgB0ENdEGAgID8AHEgCEENdHJBgICAwANqciAHDQAaIAtBgICA2ANyIAhnQRBrIgdBF3RrIAggB0H//wNxQQhqdEH///8DcXILvhCJBCIkICSSAn8gCkEQdCAKQf//AXFFDQAaIApB/wdxIQggCkGAgAJxIQcgCkGA+AFxIgtBgPgBRgRAIAdBEHQiB0GAgID8B3IgCEUNARogByAIQQ10ckGAgID+B3IMAQsgB0EQdCIHIAtBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCw0AGiAHQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74iJEMAAIA/XgR9ICQQxgVDVPgtQJRDAACAP5KRBUMAAIA/C5RgciIQG2ogDTYCAAJ/AkAgGCgCACIJIAVLBEAgGygCACIWIAxqIgsvARwhCEEAIQpBACALLwEeIgdB//8BcSINQYD4AUsNAhpBACAIQf//AXEiF0GA+AFLDQIaIAfBQQBIDQEgByAISyAIwUEATg0CGiAHIBdyQQBHDAILIAUgCUHUwMcAEIwHAAsgCMFBAEggByAISXELIRcgByAIIBcbIAggDUGB+AFJGyEIAkAgCy8BICIHQf//AXEiF0GA+AFLDQAgCEH//wFxIg1BgPgBSw0AIAfBQQBOBEAgCMFBAE4EQCAHIAhB//8DcUshCgwCCyAHIA1yQQBHIQoMAQsgCMFBAEggByAIQf//A3FJcSEKCyAOQQhqKAIAIQ0gCy8BFCELAn8gByAIIAobIAggF0GB+AFJGyIHQf//AXFFBEAgB0EQdAwBCyAHQf8HcSEIIAdBgIACcSEKIAdBgPgBcSIHQYD4AUYEQCAKQRB0IgdBgICA/AdyIAhFDQEaIAcgCEENdHJBgICA/gdyDAELIApBEHQiCiAHQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAcNABogCkGAgIDYA3IgCGdBEGsiB0EXdGsgCCAHQf//A3FBCGp0Qf///wNxcgu+EIkEISRDAACAPyEjAn8gC0EQdCALQf//AXFFDQAaIAtB/wdxIQggC0GAgAJxIQcgC0GA+AFxIgtBgPgBRgRAIAdBEHQiB0GAgID8B3IgCEUNARogByAIQQ10ckGAgID+B3IMAQsgB0EQdCIHIAtBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgCw0AGiAHQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74iJUMAAIA/XgRAICUQxgVDVPgtQJRDAACAP5KRISMLAn8CQCAJIA1LBEAgFiANQSRsaiIJLwEcIQdBACEIQQAgCS8BHiILQf//AXEiCkGA+AFLDQIaQQAgB0H//wFxIhZBgPgBSw0CGiALwUEASA0BIAcgC0kgB8FBAE4NAhogCyAWckEARwwCCyANIAlB1MDHABCMBwALIAfBQQBIIAcgC0txCyEWIAsgByAWGyAHIApBgfgBSRshBwJAIAkvASAiC0H//wFxIgpBgPgBSw0AIAdB//8BcSIWQYD4AUsNACALwUEATgRAIAfBQQBOBEAgCyAHQf//A3FLIQgMAgsgCyAWckEARyEIDAELIAfBQQBIIAsgB0H//wNxSXEhCAsgCS8BFCEJIBAgH2oiEEECdCACIA9BDGsgJCAkkiAjlCIjICNcICMCfyALIAcgCBsgByAKQYH4AUkbIgdB//8BcUUEQCAHQRB0DAELIAdB/wdxIQggB0GAgAJxIQsgB0GA+AFxIgdBgPgBRgRAIAtBEHQiB0GAgID8B3IgCEUNARogByAIQQ10ckGAgID+B3IMAQsgC0EQdCILIAdBDXRBgICA/ABxIAhBDXRyQYCAgMADanIgBw0AGiALQYCAgNgDciAIZ0EQayIHQRd0ayAIIAdB//8DcUEIanRB////A3FyC74QiQQiJCAkkgJ/IAlBEHQgCUH//wFxRQ0AGiAJQf8HcSEIIAlBgIACcSEHIAlBgPgBcSILQYD4AUYEQCAHQRB0IgdBgICA/AdyIAhFDQEaIAcgCEENdHJBgICA/gdyDAELIAdBEHQiByALQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAsNABogB0GAgIDYA3IgCGdBEGsiB0EXdGsgCCAHQf//A3FBCGp0Qf///wNxcgu+IiRDAACAP14EfSAkEMYFQ1T4LUCUQwAAgD+SkQVDAACAPwuUYHIiHxtqIA02AgACfwJAIBgoAgAiDSAFSwRAIAwgGygCACIYaiILLwEcIQhBACEJQQAgCy8BHiIHQf//AXEiCkGA+AFLDQIaQQAgCEH//wFxIgxBgPgBSw0CGiAHwUEASA0BIAcgCEsgCMFBAE4NAhogByAMckEARwwCCyAFIA1B1MDHABCMBwALIAjBQQBIIAcgCElxCyEMIAcgCCAMGyAIIApBgfgBSRshCAJAIAsvASAiB0H//wFxIgxBgPgBSw0AIAhB//8BcSIKQYD4AUsNACAHwUEATgRAIAjBQQBOBEAgByAIQf//A3FLIQkMAgsgByAKckEARyEJDAELIAjBQQBIIAcgCEH//wNxSXEhCQsgDkEMaigCACEKIAsvARQhCwJ/IAcgCCAJGyAIIAxBgfgBSRsiB0H//wFxRQRAIAdBEHQMAQsgB0H/B3EhCCAHQYCAAnEhCSAHQYD4AXEiB0GA+AFGBEAgCUEQdCIHQYCAgPwHciAIRQ0BGiAHIAhBDXRyQYCAgP4HcgwBCyAJQRB0IgkgB0ENdEGAgID8AHEgCEENdHJBgICAwANqciAHDQAaIAlBgICA2ANyIAhnQRBrIgdBF3RrIAggB0H//wNxQQhqdEH///8DcXILvhCJBCElQwAAgD8hIwJ/IAtBEHQgC0H//wFxRQ0AGiALQf8HcSEIIAtBgIACcSEHIAtBgPgBcSILQYD4AUYEQCAHQRB0IgdBgICA/AdyIAhFDQEaIAcgCEENdHJBgICA/gdyDAELIAdBEHQiByALQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAsNABogB0GAgIDYA3IgCGdBEGsiB0EXdGsgCCAHQf//A3FBCGp0Qf///wNxcgu+IiRDAACAP14EQCAkEMYFQ1T4LUCUQwAAgD+SkSEjCwJ/AkAgCiANSQRAIBggCkEkbGoiCy8BHCEIQQAhCUEAIAsvAR4iB0H//wFxIg1BgPgBSw0CGkEAIAhB//8BcSIMQYD4AUsNAhogB8FBAEgNASAHIAhLIAjBQQBODQIaIAcgDHJBAEcMAgsgCiANQdTAxwAQjAcACyAIwUEASCAHIAhJcQshDCAHIAggDBsgCCANQYH4AUkbIQgCQCALLwEgIgdB//8BcSINQYD4AUsNACAIQf//AXEiDEGA+AFLDQAgB8FBAE4EQCAIwUEATgRAIAcgCEH//wNxSyEJDAILIAcgDHJBAEchCQwBCyAIwUEASCAHIAhB//8DcUlxIQkLIAsvARQhCwJ/IAcgCCAJGyAIIA1BgfgBSRsiB0H//wFxRQRAIAdBEHQMAQsgB0H/B3EhCCAHQYCAAnEhCSAHQYD4AXEiB0GA+AFGBEAgCUEQdCIHQYCAgPwHciAIRQ0BGiAHIAhBDXRyQYCAgP4HcgwBCyAJQRB0IgkgB0ENdEGAgID8AHEgCEENdHJBgICAwANqciAHDQAaIAlBgICA2ANyIAhnQRBrIgdBF3RrIAggB0H//wNxQQhqdEH///8DcXILvhCJBCEmQwAAgD8hJAJ/IAtBEHQgC0H//wFxRQ0AGiALQf8HcSEIIAtBgIACcSEHIAtBgPgBcSILQYD4AUYEQCAHQRB0IgdBgICA/AdyIAhFDQEaIAcgCEENdHJBgICA/gdyDAELIAdBEHQiByALQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2pyIAsNABogB0GAgIDYA3IgCGdBEGsiB0EXdGsgCCAHQf//A3FBCGp0Qf///wNxcgu+IidDAACAP14EQCAnEMYFQ1T4LUCUQwAAgD+SkSEkCyAQIB9qIghBAnQgAiAPQRBrIg8gJSAlkiAjlCIjICNcICMgJiAmkiAklGByIgcbaiAKNgIAIAcgCGohCyAOQRBqIg4gFUkNAAsLIAAgEkECdGoiEyAOSwRAIBRBBGooAgAhECARKAIAIQ0DQAJ/AkAgEEEIaigCACIMIA1LBEAgEEEEaigCACIYIA1BJGxqIgkvARwhBUEAIQdBACAJLwEeIghB//8BcSIKQYD4AUsNAhpBACAFQf//AXEiG0GA+AFLDQIaIAjBQQBIDQEgBSAISSAFwUEATg0CGiAIIBtyQQBHDAILIA0gDEHUwMcAEIwHAAsgBcFBAEggBSAIS3ELIRsgCCAFIBsbIAUgCkGB+AFJGyEFAkAgCS8BICIIQf//AXEiG0GA+AFLDQAgBUH//wFxIgpBgPgBSw0AIAjBQQBOBEAgBcFBAE4EQCAIIAVB//8DcUshBwwCCyAIIApyQQBHIQcMAQsgBcFBAEggCCAFQf//A3FJcSEHCyAOKAIAIQogCS8BFCEJAn8gCCAFIAcbIAUgG0GB+AFJGyIIQf//AXFFBEAgCEEQdAwBCyAIQf8HcSEFIAhBgIACcSEHIAhBgPgBcSIIQYD4AUYEQCAHQRB0IghBgICA/AdyIAVFDQEaIAggBUENdHJBgICA/gdyDAELIAdBEHQiByAIQQ10QYCAgPwAcSAFQQ10ckGAgIDAA2pyIAgNABogB0GAgIDYA3IgBWdBEGsiCEEXdGsgBSAIQf//A3FBCGp0Qf///wNxcgu+EIkEISRDAACAPyEjAn8gCUEQdCAJQf//AXFFDQAaIAlB/wdxIQUgCUGAgAJxIQggCUGA+AFxIgdBgPgBRgRAIAhBEHQiCEGAgID8B3IgBUUNARogCCAFQQ10ckGAgID+B3IMAQsgCEEQdCIIIAdBDXRBgICA/ABxIAVBDXRyQYCAgMADanIgBw0AGiAIQYCAgNgDciAFZ0EQayIIQRd0ayAFIAhB//8DcUEIanRB////A3FyC74iJUMAAIA/XgRAICUQxgVDVPgtQJRDAACAP5KRISMLAn8CQCAKIAxJBEAgGCAKQSRsaiIHLwEcIQVBACEJQQAgBy8BHiIIQf//AXEiDEGA+AFLDQIaQQAgBUH//wFxIhhBgPgBSw0CGiAIwUEASA0BIAUgCEkgBcFBAE4NAhogCCAYckEARwwCCyAKIAxB1MDHABCMBwALIAXBQQBIIAUgCEtxCyEYIAggBSAYGyAFIAxBgfgBSRshBQJAIAcvASAiCEH//wFxIgxBgPgBSw0AIAVB//8BcSIYQYD4AUsNACAIwUEATgRAIAXBQQBOBEAgCCAFQf//A3FLIQkMAgsgCCAYckEARyEJDAELIAXBQQBIIAggBUH//wNxSXEhCQsgBy8BFCEHIAtBAnQgAiAPQQRrIg8gJCAkkiAjlCIjICNcICMCfyAIIAUgCRsgBSAMQYH4AUkbIghB//8BcUUEQCAIQRB0DAELIAhB/wdxIQUgCEGAgAJxIQkgCEGA+AFxIghBgPgBRgRAIAlBEHQiCEGAgID8B3IgBUUNARogCCAFQQ10ckGAgID+B3IMAQsgCUEQdCIJIAhBDXRBgICA/ABxIAVBDXRyQYCAgMADanIgCA0AGiAJQYCAgNgDciAFZ0EQayIIQRd0ayAFIAhB//8DcUEIanRB////A3FyC74QiQQiJCAkkgJ/IAdBEHQgB0H//wFxRQ0AGiAHQf8HcSEFIAdBgIACcSEIIAdBgPgBcSIHQYD4AUYEQCAIQRB0IghBgICA/AdyIAVFDQEaIAggBUENdHJBgICA/gdyDAELIAhBEHQiCCAHQQ10QYCAgPwAcSAFQQ10ckGAgIDAA2pyIAcNABogCEGAgIDYA3IgBWdBEGsiCEEXdGsgBSAIQf//A3FBCGp0Qf///wNxcgu+IiRDAACAP14EfSAkEMYFQ1T4LUCUQwAAgD+SkQVDAACAPwuUYHIiBRtqIAo2AgAgBSALaiELIA5BBGoiDiATSQ0ACwsgASASRwRAIAIgC0ECdGogDigCADYCACAOQQRqIQ4gC0EBaiELIA9BBGshDyABIRIMAQsLIAtBAnQiBQRAIAAgAiAF/AoAAAsgASALRg0EIAAgBWohCEEAIQoCQCABIAtrIgdBBE8EQCAeICJqIQ4gCCEPIAdBfHEiCiEJA0AgDyAO/QACAP0MAAAAAAAAAAAAAAAAAAAAAP0NDA0ODwgJCgsEBQYHAAECA/0LAgAgDkEQayEOIA9BEGohDyAJQQRrIgkNAAsgByAKRg0BCyAhIApBAnQiEmsgHmohDiAAIBJqIAVqIQ8gCiABayALaiEJA0AgDyAOKAIANgIAIA5BBGshDiAPQQRqIQ8gCUEBaiIJDQALCyABIAtPBEBBACEFIAghACAHIQEgB0EhSQ0EDAMLIAsgASABQYSVwQAQ6gcACwALIAAgCGogCSACIAMgBCAdQQRqIAYQMyAHIQEgB0EhTw0ACyAAIQgLIAdBAkkNACAGKAIAIQEgB0EBdiEAIAACfyAHQQ9NBEAgB0EHSwRAIAggAiABQQRqIgMoAgAQhgEgCCAAQQJ0IgRqIAIgBGogAygCABCGAUEEDAILIAIgCCgCADYCACACIABBAnQiA2ogAyAIaigCADYCAEEBDAELIAggAiAHQQJ0aiIDIAFBBGoiBCgCABCGASAIQRBqIANBEGogBCgCABCGASADQQggAiABEOQBIAggAEECdCIFaiIGIANBIGoiEiAEKAIAEIYBIAZBEGogA0EwaiAEKAIAEIYBIBJBCCACIAVqIAEQ5AFBCAsiA0sEQCAAIANrIQ8gA0ECdCEOA0AgAiAOaiIEIAggDmooAgA2AgAgAiAEIAEQ+gEgDkEEaiEOIA9BAWsiDw0ACwsgByAAayADSwRAIAIgAEECdCIEaiEFIAggA0ECdCAEaiIEaiEPIAIgBGohDiAAIANqIAdrIQkDQCAOIA8oAgA2AgAgBSAOIAEQ+gEgD0EEaiEPIA5BBGohDiAJQQFqIgkNAAsLIAIgByAIIAEQ5AELIB1BIGokAAv5vAICd38EfiMAQbAZayIEJAAgBEEAOgDKDCAEQQA7AcgMIAEpA+ADIXkgASgC6AMhC0EDIRUgBEHIDGohCAJAAkACQAJAAkACfwJAA0ACQCB5UARAQgAheQwBCyALKQMIInogCygCBCIHrSJ7IHoge1QbpyICIAsoAgBqIQkCQCAHQv////8PIHogekL/////D1obp2siA0EAIAMgB00bIgMgeSAVrSJ7IHkge1QbpyIOIAMgDkkbIgNBAUYEQCAIIAktAAA6AAAMAQsgA0UNACAIIAkgA/wKAAALIAEgeSADrSJ7fSJ5NwPgAyALIHoge3w3AwggAiAHRg0AIAMgCGohCCAVIANrIhUNAQwCCwtBqJDIACkDACJ6Qv8Bg0IEUQ0AIHpCIIinIhIgeqciA0H/AXFBBEYNARogekIQiKchFSB6QgiIpyEIQQAhCwwCCyAELwHIDCAELQDKDEEQdHILIRJBASEJIAEgEkEBdkEHcToAKyABIBJBAXEiA0U6ACggASASQQR2QQFxOgApAkACQAJAAkACQAJAAkAgAw0AIARBADoA2hggBEEAOwHYGCABKALoAyELQQMhFSAEQdgYaiEIAkADQAJAIHlQBEBCACF5DAELIAspAwgieiALKAIEIgetInsgeiB7VBunIgIgCygCAGohEAJAIAdC/////w8geiB6Qv////8PWhunayIDQQAgAyAHTRsiAyB5IBWtInsgeSB7VBunIg4gAyAOSRsiA0EBRgRAIAggEC0AADoAAAwBCyADRQ0AIAggECAD/AoAAAsgASB5IAOtInt9Ink3A+ADIAsgeiB7fDcDCCACIAdGDQAgAyAIaiEIIBUgA2siFQ0BDAILC0EAIQtBqJDIACkDACJ6pyIDQf8BcUEERg0AIHpCIIinIRIgekIQiKchFSB6QgiIpyEIDAgLIAECfwJAAkACQAJ/AkACQCAELwHYGCAELQDaGEEQdHIiB0Gdg6gBRgRAIARBADsByAwgASgC6AMhC0ECIRUgBEHIDGohCANAIHlQBEBCACF5DAMLIAspAwgieiALKAIEIgetInsgeiB7VBunIgIgCygCAGohEAJAIAdC/////w8geiB6Qv////8PWhunayIDQQAgAyAHTRsiAyB5IBWtInsgeSB7VBunIg4gAyAOSRsiA0EBRgRAIAggEC0AADoAAAwBCyADRQ0AIAggECAD/AoAAAsgASB5IAOtInt9Ink3A+ADIAsgeiB7fDcDCCACIAdGDQIgAyAIaiEIIBUgA2siFQ0ACwwCCyAHQQh2IQJBESELDA4LQaiQyAApAwAiekL/AYNCBFENACB6QhCIpyEVIHqnIgNB/wFxQQRHDQIgFQwBCyAELwHIDAshESAEQQA7AcgMIAEoAugDIQtBAiEVIARByAxqIQgDQCB5UA0CIAspAwgieiALKAIEIgetInsgeiB7VBunIgIgCygCAGohEAJAIAdC/////w8geiB6Qv////8PWhunayIDQQAgAyAHTRsiAyB5IBWtInsgeSB7VBunIg4gAyAOSRsiA0EBRgRAIAggEC0AADoAAAwBCyADRQ0AIAggECAD/AoAAAsgASB5IAOtInt9Ink3A+ADIAsgeiB7fDcDCCACIAdGDQIgAyAIaiEIIBUgA2siFQ0ACwwCCyB6QgiIpyEIIHpCIIinIRJBACELDAoLQaiQyAApAwAieUL/AYNCBFENACB5QhCIpyIVIHmnIgNB/wFxQQRGDQEaIHlCCIinIQggeUIgiKchEkEAIQsMCQsgBC8ByAwLQf//AHE7ASYgASARQf//AHEiCDsBJCAIQQ9qQQR2IQICfyAIRQRAQQEhFUEADAELIAJBHmwQcSIVRQ0CIBUhAwJAIAhBEUkNACACQQFrIhBBB3EhCyACQQJrQQdPBEAgEEF4cSEHA0AgA/0MAAAAAAAAAAAAAAAAAAAAAP0LAAAgA0EQakIANwAAIANBFmr9DAAAAAAAAAAAAAAAAAAAAAD9CwAAIANBJmr9DAAAAAAAAAAAAAAAAAAAAAD9CwAAIANBNGr9DAAAAAAAAAAAAAAAAAAAAAD9CwAAIANBxABq/QwAAAAAAAAAAAAAAAAAAAAA/QsAACADQdIAav0MAAAAAAAAAAAAAAAAAAAAAP0LAAAgA0HiAGr9DAAAAAAAAAAAAAAAAAAAAAD9CwAAIANB8ABqQgA3AAAgA0GIAWpCADcAACADQY4BakIANwAAIANB+ABq/QwAAAAAAAAAAAAAAAAAAAAA/QsAACADQaYBakIANwAAIANBrAFqQgA3AAAgA0GWAWr9DAAAAAAAAAAAAAAAAAAAAAD9CwAAIANBxAFqQgA3AAAgA0HKAWpCADcAACADQbQBav0MAAAAAAAAAAAAAAAAAAAAAP0LAAAgA0HoAWpCADcAACADQeIBakIANwAAIANB0gFq/QwAAAAAAAAAAAAAAAAAAAAA/QsAACADQfABaiEDIAdBCGsiBw0ACwsgC0UNAANAIAP9DAAAAAAAAAAAAAAAAAAAAAD9CwAAIANBFmpCADcAACADQRBqQgA3AAAgA0EeaiEDIAtBAWsiCw0ACwsgA/0MAAAAAAAAAAAAAAAAAAAAAP0LAAAgA0EWakIANwAAIANBEGpCADcAACACCyEDIAEoApwEIgsEQCABKAKgBCIOQQRrKAIAIhBBeHEiESALQR5sIgtBBEEIIBBBA3EiEBtqSQ0LIBBBACARIAtBJ2pLGw0MIA4QogILIAEgAjYCpAQgASAVNgKgBCABIAM2ApwEAn8CQCAIRQ0AIBUtAAAiA0ECRg0AIARBMGogFUEcai0AADoAACAEIBX9AAAE/QsDyAwgBCAVKQAUNwMoIBUtAAEhCyAVLQACIQcgFS0AAyEIIBUtAB0MAQsgBEEwakEAOgAAIAT9DAAAAAAAAAAAAAAAAAAAAAD9CwPIDCAEQgA3AyhBACEIQQAhB0EAIQtBACEDQQALIRUgASAIOgCFBSABIAc6AIQFIAEgCzoAgwUgASADOgCCBSABIAT9AAPIDP0LAIYFIAEgBCkDKDcAlgUgASAVOgCfBSABQZ4FaiAEQTBqLQAAOgAAIAEgAS8BJCIDQQR2IANBD3FBAEdqIgM7AaAFIAEgAS8BJiILQQR2IAtBD3FBAEdqIgs7AaIFAkACQCADIAtsQQh0IgNBAE4EQAJAIANFBEBBASELDAELIAMQcSILRQ0FIAtBBGstAABBA3FFIANFcg0AIAtBACAD/AsACyABKAIAIhUEQCABKAIEIghBBGsoAgAiEEF4cSICQQRBCCAQQQNxIhAbIBVqSQ0OIBBBACACIBVBJ2pLGw0PIAgQogILIAEgAzYCCCABIAs2AgQgASADNgIAIAEvAaAFIAEvAaIFbEEGdCIDQQBIDQECQCADRQRAQQEhCwwBCyADEHEiC0UNBSALQQRrLQAAQQNxRSADRXINACALQQAgA/wLAAsgASgCDCIVBEAgASgCECAVQQEQogcLIAEgAzYCFCABIAs2AhAgASADNgIMIAEvAaAFIAEvAaIFbEEGdCIDQQBIDQICQCADRQRAQQEhCwwBCyADEHEiC0UNBSALQQRrLQAAQQNxRSADRXINACALQQAgA/wLAAsgASgCGCIVBEAgASgCHCAVQQEQogcLIAEgAzYCICABIAs2AhwgASADNgIYIAEvASRBFGoiAxBxIgtFDQQgAwRAIAtB/wAgA/wLAAsgASgCqAQiFQRAIAEoAqwEIBVBARCiBwsgASADNgKwBCABIAs2AqwEIAEgAzYCqARBERBxIgNFDQQgA0KBg4aMmLDgwIF/NwAAIANBEGpBgQE6AAAgA0EIakKBg4aMmLDgwIF/NwAAIAEoArQEIgsEQCABKAK4BCALQQEQogcLIAFBETYCvAQgASADNgK4BCABQRE2ArQEIAEvAaAFIgtBA3QhAwJAIAtFBEBBASELDAELIAMQcSILRQ0FCyADBEAgC0H/ACAD/AsACyABKALABCIVBEAgASgCxAQgFUEBEKIHCyABIAM2AsgEIAEgCzYCxAQgASADNgLABEEJEHEiA0UNBCADQoGDhoyYsODAgX83AAAgA0EIakGBAToAACABKALMBCILBEAgASgC0AQgC0EBEKIHCyABQQk2AtQEIAEgAzYC0AQgAUEJNgLMBCABLwGgBSILQQN0IQMCQCALRQRAQQEhCwwBCyADEHEiC0UNBQsgAwRAIAtB/wAgA/wLAAsgASgC2AQiBwRAIAEoAtwEIAdBARCiBwsgASADNgLgBCABIAs2AtwEIAEgAzYC2ARBCRBxIgNFDQQgA0KBg4aMmLDgwIF/NwAAIANBCGpBgQE6AAAgASgC5AQiCwRAIAEoAugEIAtBARCiBwsgAUEJNgLsBCABIAM2AugEIAFBCTYC5AQMAwtB7KzGABD/BwALQfysxgAQ/wcAC0GMrcYAEP8HAAsgEkEHdiASQeAAcUEAR2oiCkECdCERAkAgCkUNACAREHEiCUUNASAJQQRrLQAAQQNxRSARRXINACAJQQAgEfwLAAsCQAJAAkACQCARIBJBBXYiEE8EQCASQSBJDQIgASkD4AMheSABKALoAyELIAkhCCAQIRUDQCB5UA0CIAspAwgieiALKAIEIgetInsgeiB7VBunIgIgCygCAGohEgJAIAdC/////w8geiB6Qv////8PWhunayIDQQAgAyAHTRsiAyB5IBWtInsgeSB7VBunIg4gAyAOSRsiA0EBRgRAIAggEi0AADoAAAwBCyADRQ0AIAggEiAD/AoAAAsgASB5IAOtInt9Ink3A+ADIAsgeiB7fDcDCCACIAdGDQIgAyAIaiEIIBUgA2siFQ0ACwwCC0EAIBAgEUGwrcYAEOoHAAtBACELQaiQyAApAwAieaciA0H/AXFBBEYNACB5QiCIpyESIHlCEIinIRUgeUIIiKchCCAKDQEMCQsgBCAKNgIwIAQgCTYCLCAEIAo2AiggBEHIDGogAUHwAGoiFSAEQShqIBAQsgMgBC0AyAwiC0EdRg0BIAQ1AM0MInkgBEHTDGoxAABCMIYgBEHRDGozAABCIIaEhCJ6QhiIpyESIHpCCIinIRUgBCgC1AwhDiAELQDMDCEDIAQvAcoMIQIgBC0AyQwhByB5pyEIDAgLIAlBBGsoAgAiBkF4cSICQQRBCCAGQQNxIgcbIBFqSQ0KIAdBACACIBFBJ2pLGw0LIAkQogIMBwsCQCABLQAoRQ0AIBVBARC5ASEHIAEgFUEBELkBOgAsIAdB/wFxRQ0AQRMhCwwHCyABIBUQqgUiAzoApAUCQCADRQ0AIAEgFRCqBToApQUgFRCqBQRAIAEgFRCqBUEBcyIDOgBuIAEgAzoAXiABIAM6AE4gASADOgA+IAEgFUEHEK8BOgA8IAEgFUEHEK8BOgBMIAEgFUEHEK8BOgBcIAEgFUEHEK8BOgBsIAEgFUEGEK8BOgA9IAEgFUEGEK8BOgBNIAEgFUEGEK8BOgBdIAEgFUEGEK8BOgBtCyABLQClBUEBRgRAQf8BIQMgASAVEKoFBH8gFUEIELkBBUH/AQs6APYEIAEgFRCqBQR/IBVBCBC5AQVB/wELOgD6BCAVEKoFBEAgFUEIELkBIQMLIAEgAzoA/gQLIAEtAJMBQfIBRw0AQQ8hCwwGCyABIBUQqgU6ACogASAVQQYQuQE6AC0gASAVQQMQuQE6AC4gASAVEKoFIgM6AKYFAkACQAJAIANFDQAgFRCqBQRAIAEgFUEGEK8BNgLwAyABIBVBBhCvATYC9AMgASAVQQYQrwE2AvgDIAEgFUEGEK8BNgL8AyABIBVBBhCvATYCgAQgASAVQQYQrwE2AoQEIAEgFUEGEK8BNgKIBCABIBVBBhCvATYCjAQLIAEtAJMBQfIBRw0AQQ8hCwwBCyAVQQIQuQEhA0EPIQsgAS0AkwFB8gFGDQcgAUEBIAN0Ihg6AKcFAkAgA0EfcSIPRQ0AAkACQEEDIA90QQNrIgNBAE4EQCADEHEiEUUNBiARQQRrLQAAQQNxRSADRXJFBEAgEUEAIAP8CwALIAEpA+ADIXkgASgC6AMhByARIQ4gAyECAkADQCB5UA0BIAcpAwgieiAHKAIEIgitInsgeiB7VBunIgogBygCAGohEAJAIAhC/////w8geiB6Qv////8PWhunayIJQQAgCCAJTxsiCSB5IAKtInsgeSB7VBunIg0gCSANSRsiCUEBRgRAIA4gEC0AADoAAAwBCyAJRQ0AIA4gECAJ/AoAAAsgASB5IAmtInt9Ink3A+ADIAcgeiB7fDcDCCAIIApGDQEgCSAOaiEOIAIgCWsiAg0AC0GokMgAKQMAInpC/wGDQgRRIQwMAgtBASEMQaiQyAApAwAiekL/AYNCBFENAUEAIQsMAgtBuKnGABD/BwALIAFBmAFqISYgESEZIAMhDQJAA0ACQCANQQJNBEAgDARAQQEhCUEAIQpBACEIQQAhEAwCCyAEIHo3A8gMQaiqxgBBNyAEQcgMakGYqsYAQeCqxgAQ4AYACyAZLwAAIBlBAmotAABBEHRyIghBA2oiCUECdiEKAn8gCUH8//8PcSIURQRAQQEhCUEADAELIBQQcSIJRQ0IIAlBBGstAABBA3FFIBRFckUEQCAJQQAgFPwLAAsgCgshECAIIBRNBEAgCEUEQEEAIQpBACEIDAILIAEpA+ADIXkgASgC6AMhByAJIQ4gCCECA0ACQCB5UA0AIAcpAwgieyAHKAIEIhKtInwgeyB8VBunIiIgBygCAGohFgJAIBJC/////w8geyB7Qv////8PWhunayIUQQAgEiAUTxsiFCB5IAKtInwgeSB8VBunIhsgFCAbSRsiFEEBRgRAIA4gFi0AADoAAAwBCyAURQ0AIA4gFiAU/AoAAAsgASB5IBStInx9Ink3A+ADIAcgeyB8fDcDCCASICJGDQAgDiAUaiEOIAIgFGsiAg0BDAMLCyAMDQFBACELIBBFDQQgCSAQQQJ0QQEQogcMBAtBACAIIBRBiKrGABDqBwALIAVBCEYNASAEIAo2AuAYIAQgCTYC3BggBCAQNgLYGCAEQcgMaiAmIAVBKGxqIARB2BhqIAgQsgMgBC0AyAwiCUEdRwRAIAQoAtQMIQ4gBCkCzAwheiAELwHKDCECIAQtAMkMIQcgCSELDAMLIAVBAWohBSAZQQMgDSANQQNPGyIJaiEZIA0gCWsiDQ0ACyARIANBARCiBwwCC0EIQQhB+KnGABCMBwALIBEgA0EBEKIHIHqnIQMMBwsgBEEANgLgGCAEQoCAgIAQNwLYGCAEQcgMaiABQdgDaiAEQdgYahDzAQJAAkACQAJAAkACfwJAIAQtAMgMQQRGDQAgBCkDyAwieqciA0H/AXFBBEYNAEEADAELIAQoAuAYIgNBA2oiCUEASA0CIAlBAnYhAgJ/IAlBfHEiCUUEQEEBIQdBAAwBCyAJEHEiB0UNCSAHQQRrLQAAQQNxRSAJRXJFBEAgB0EAIAn8CwALIAILIQggBCACNgIwIAQgBzYCLCAEIAg2AiggAyAJSw0DIAQoAtwYIQkgAwRAIAcgCSAD/AoAAAsgGEEBayECIA9BBE8NBCAEQcgMaiABQZgBaiJdIAJBKGxqIARBKGogAxCyAyAELQDIDCIIQR1GDQEgBCgC1AwhDiAELwHKDCECIAQtAMkMIQcgBCkCzAwieqchAyAICyELIAQoAtgYIgZFDQsgBCgC3BggBkEBEKIHDAsLIAQoAtgYIgMEQCAJIANBARCiBwsgFUEHELkBIQMgFUEEEK8BIQggFUEEEK8BIQIgFUEEEK8BIQ4gFUEEEK8BIRIgFUEEEK8BIQkgAUH/ACABLAA8IANB/wFxIgdBACABLQA+G2ogByABLQCkBSIQGyIDQQAgA0EAShsiESARQf8AThtBAXQvAbjkRDsBMiABQf8AIAMgCWoiEUEAIBFBAEobIhEgEUH/AE4bQQF0LwG45EQ7ATogAUH/ACADIBJqIhFBACARQQBKGyIRIBFB/wBOG0EBdC4BuOZEIhE7ATggAUH/ACADIAhqIgpBACAKQQBKGyIKIApB/wBOG0EBdC8BuOZEOwEwIAFB/wAgAiADaiIKQQAgCkEAShsiCiAKQf8AThtBAXQvAbjmREEBdDsBNCABQf8AIAMgDmoiA0EAIANBAEobIgMgA0H/AE4bQQF0LgG45ERBmwFsQeQAbSIDOwE2IAPBQQdMBEAgAUEIOwE2CyARQYQBTA0DIAFBhAE7ATgMAwtByKnGABD/BwALQQAgAyAJQeipxgAQ6gcACyACQQhB2KnGABCMBwALAkAgEEUNACABQf8AIAEsAEwgB0EAIAEtAE4baiAHIAEtAKQFGyIDQQAgA0EAShsiECAQQf8AThtBAXQvAbjkRDsBQiABQf8AIAMgCWoiEEEAIBBBAEobIhAgEEH/AE4bQQF0LwG45EQ7AUogAUH/ACADIBJqIhBBACAQQQBKGyIQIBBB/wBOG0EBdC4BuOZEIhA7AUggAUH/ACADIAhqIhFBACARQQBKGyIRIBFB/wBOG0EBdC8BuOZEOwFAIAFB/wAgAiADaiIRQQAgEUEAShsiESARQf8AThtBAXQvAbjmREEBdDsBRCABQf8AIAMgDmoiA0EAIANBAEobIgMgA0H/AE4bQQF0LgG45ERBmwFsQeQAbSIDOwFGIAPBQQdMBEAgAUEIOwFGCyAQQYUBTgRAIAFBhAE7AUgLIAFB/wAgASwAXCAHQQAgAS0AXhtqIAcgAS0ApAUbIgNBACADQQBKGyIQIBBB/wBOG0EBdC8BuOREOwFSIAFB/wAgAyAJaiIQQQAgEEEAShsiECAQQf8AThtBAXQvAbjkRDsBWiABQf8AIAMgEmoiEEEAIBBBAEobIhAgEEH/AE4bQQF0LgG45kQiEDsBWCABQf8AIAMgCGoiEUEAIBFBAEobIhEgEUH/AE4bQQF0LwG45kQ7AVAgAUH/ACACIANqIhFBACARQQBKGyIRIBFB/wBOG0EBdC8BuOZEQQF0OwFUIAFB/wAgAyAOaiIDQQAgA0EAShsiAyADQf8AThtBAXQuAbjkREGbAWxB5ABtIgM7AVYgA8FBB0wEQCABQQg7AVYLIBBBhQFOBEAgAUGEATsBWAsgAUH/ACABLABsIAdBACABLQBuG2ogByABLQCkBRsiA0EAIANBAEobIhAgEEH/AE4bQQF0LwG45EQ7AWIgAUH/ACADIAlqIglBACAJQQBKGyIJIAlB/wBOG0EBdC8BuOREOwFqIAFB/wAgAyASaiIJQQAgCUEAShsiCSAJQf8AThtBAXQuAbjmRCIHOwFoIAFB/wAgAyAIaiIJQQAgCUEAShsiCSAJQf8AThtBAXQvAbjmRDsBYCABQf8AIAIgA2oiCUEAIAlBAEobIgggCEH/AE4bQQF0LwG45kRBAXQ7AWQgAUH/ACADIA5qIgNBACADQQBKGyIDIANB/wBOG0EBdC4BuOREQZsBbEHkAG0iAzsBZiADwUEHTARAIAFBCDsBZgsgB0GFAUgNACABQYQBOwFoCyABLQCTAUHyAUcNAQtBACEVQQAhEgwHCwJAAn8gAS0AKEUEQEETIQ5BExBxIgZFDQMgBkEPakGrrcYAKAAANgAAIAZBnK3GAP0AAAD9CwAAIAQgBjYCzAwgBEETNgLIDCAENQDJDCJ5IAQxAM8MQjCGIAQzAM0MQiCGhIQiekIYiKchEiB5pyEIIHpCCIinDAELIBVBARC5ARogBEHIDGpBACEKIAFB8ABqIQ1BoM/GACEJQZjNxgAhEANAIAkhESAKIQcgECEJQSEhFANAQfx+IRkDQCANIAktAAAQmQUEQCANQQgQuQEhBSABKALwBCAHaiAZakGGAWogBToAAAsgDSAJQQFqLQAAEJkFBEAgDUEIELkBIQUgASgC8AQgB2ogGWpBigFqIAU6AAALIA0gCUECai0AABCZBQRAIA1BCBC5ASEFIAEoAvAEIAdqIBlqQY4BaiAFOgAACyANIAlBA2otAAAQmQUEQCANQQgQuQEhBSABKALwBCAHaiAZakGSAWogBToAAAsgDSAJQQRqLQAAEJkFBEAgDUEIELkBIQUgASgC8AQgB2ogGWpBlgFqIAU6AAALIA0gCUEFai0AABCZBQRAIA1BCBC5ASEFIAEoAvAEIAdqIBlqQZoBaiAFOgAACyANIAlBBmotAAAQmQUEQCANQQgQuQEhBSABKALwBCAHaiAZakGeAWogBToAAAsgDSAJQQdqLQAAEJkFBEAgDUEIELkBIQUgASgC8AQgB2ogGWpBogFqIAU6AAALIA0gCUEIai0AABCZBQRAIA1BCBC5ASEFIAEoAvAEIAdqIBlqQaYBaiAFOgAACyANIAlBCWotAAAQmQUEQCANQQgQuQEhBSABKALwBCAHaiAZakGqAWogBToAAAsgDSAJQQpqLQAAEJkFBEAgDUEIELkBIQUgASgC8AQgB2ogGWpBrgFqIAU6AAALIAlBC2ohCSAZQSxqIhkNAAsgB0GEAWohByAQIBRqIQkgFEEhakGIAiAUQYgCRyIZGyEUIBkNAAsgCkGgCGohCiARQYgCaiEJIBEiEEG41cYARw0AC0EPQR0gAS0AkwFB8gFGGzoAACAELQDIDCIJQR1HBEAgBDUAzQwieSAEQdMMajEAAEIwhiAEQdEMajMAAEIghoSEInpCGIinIRIgekIIiKchFSAEKALUDCEOIAQtAMwMIQMgBC8BygwhAiAELQDJDCEHIHmnIQggCSELDAkLIBVBARC5AUH/AXEiB0EBRgRAIBVBCBC5ASEDCyABIAM6AIEFIAEgB0EBRjoAgAUgAS0AkwFB8gFGDQcgAS0AKA0BIAFBADoAqAVBEyEOQRMQcSIGRQ0CIAZBD2pBq63GACgAADYAACAGQZytxgD9AAAA/QsAACAEIAY2AswMIARBEzYCyAwgBDUAyQwieSAEMQDPDEIwhiAEMwDNDEIghoSEInpCGIinIRIgeachCCB6QgiIpwshFUEYIQtBEyEDDAcLIAEvAaIFIkpFDQMgAUEwaiE6IAFBkARqIRkgAUH0BGohFyABQZYFaiEcIAFBhgVqIUcgAUGCBWohJyAEQZENaiFLIARBiA1qIRggBEH/DGohTCAEQfYMaiFNIARB7QxqIU4gBEHkDGohTyAEQdsMaiEoIARBoRlqIVAgBEGYGWohUSAEQY8ZaiFSIARBhhlqIVMgBEH9GGohVCAEQfQYaiFVIARB6xhqIVYgBEGZD2ohKSAEQYQPaiEqIARB7w5qISsgBEHaDmohLCAEQcUOaiEtIARBsA5qIRMgBEGbDmohLiAEQYYOaiEvIARB8Q1qITAgBEHcDWohMSAEQccNaiEyIARBsg1qITMgBEGdDWohNCAEQfMMaiE1IARB0gxqIVcgBEHiGGohWCAEQegLaiFZIARB6AlqIVogBEGoC2ohICAEQagJaiEhIARB6ApqIV4gBEHoCGohXyAEQagKaiFgIARBqAhqIWEgBEHeDGohNiAEQegHaiFiIARBqAdqIWMgBEHoBmohZCAEQagGaiFlIARB6AVqIWYgBEGoBWohZyAEQegEaiFoIARBqARqIWkgBEHoA2ohaiAEQagDaiFrIARB6AJqIWwgBEGoAmohbSAEQegBaiFuIARBqAFqIW8gBEHoAGohcCAEQThqIXEgBEEoakECciFIIARB2AxqITwgBEHIDGpBAnIhPSAEQR1qIT4gBEEOaiEUIARBzwxqIQwgBEHMDGohciAEQckMaiI/QRVqIXMgBEGIGWohdEEBIQNBACEQA0AgAS0ApwUiC0UNAiADIREgJ/0MAAAAAAAAAAAAAAAAAAAAAP0LAQAgJ0EWakIANwEAICdBEGpCADcBACAQIAtwIQ8CQCABLwGgBSJ1RQ0AQQEhN0EAISZBACEKAkACQAJAAkACQAJAAkACQANAIHNCADcAACA/QRBqQgA3AAAgP/0MAAAAAAAAAAAAAAAAAAAAAP0LAAACQCABLQCkBUEBRw0AIAEtAKUFQQFxRQ0AIAQgFSAXQQMgFygCABDIBDoA5QwLIAQgAS0AgAUEfyAVIAEtAIEFEJkFBUEACzoAyAwCQAJAAkACQAJ/AkACQCABLQAoDQAgFSABLQCoBRCZBUUEQEEAIQlBACELIAEtACgNAQwCC0EUIThBFBBxIhpFDRIgGkEQakGYsMYAKAAANgAAIBpBiLDGAP0AAAD9CwAAQRQhOUEYDAILIBVBnLDGAEEEQYSDxAQQyAQhAyAEQRQ6ACggBCADQf8BcSIJOgApIAlBBU8EQCAJIQZBFAwCCyAEQShqEKsEIAQgCToAywxBAiEDAkACQAJAAkACQAJAAkACQCAJQQFrDgQDAAEEAgtBAyEDDAILQQEhAwwBC0EAIQMLIEcgA0GBgoQIbCIDNgEAIDwgAzYAAAwBC0EAIQ4gCkEebCEIIAwhCwNAIAogASgCpAQiAk8NAiAVIAEoAqAEIAhqLQAQQegCbCAOIEdqIgctAABBJGxqIgNBvLDGAGpBCSADKAC8sEYQyAQhAyAEQRU6ACggBCADQf8BcSIDOgApIANBCUsEQCADIQZBFQwGCyAEQShqEKsEIAtBA2tBCiADIANBCk8bIgM6AAAgCiABKAKkBCICTw0DIAEoAqAEIAhqIAM6ABAgByADOgAAIAogASgCpAQiAk8NAiAVIAEoAqAEIAhqLQARQegCbCADQSRsaiIDQbywxgBqQQkgAygAvLBGEMgEIQMgBEEVOgAoIAQgA0H/AXEiAzoAKSADQQlLBEAgAyEGQRUMBgsgBEEoahCrBCALQQJrQQogAyADQQpPGyIDOgAAIAogASgCpAQiAk8NAyABKAKgBCAIaiADOgARIAcgAzoAACAKIAEoAqQEIgJPDQIgFSABKAKgBCAIai0AEkHoAmwgA0EkbGoiA0G8sMYAakEJIAMoALywRhDIBCEDIARBFToAKCAEIANB/wFxIgM6ACkgA0EJSwRAIAMhBkEVDAYLIARBKGoQqwQgC0EBa0EKIAMgA0EKTxsiAzoAACAKIAEoAqQEIgJPDQMgASgCoAQgCGogAzoAEiAHIAM6AAAgCiABKAKkBCICTw0CIBUgASgCoAQgCGotABNB6AJsIANBJGxqIgNBvLDGAGpBCSADKAC8sEYQyAQhAyAEQRU6ACggBCADQf8BcSIDOgApIANBCUsEQCADIQZBFQwGCyAEQShqEKsEIAtBCiADIANBCk8bIgM6AAAgCiABKAKkBCICTw0DIAEoAqAEIAhqIAM6ABMgByADOgAAIAtBBGohCyAOQQFqIg5BBEkNAAsLIBVB3MzGAEEDQYCDuAQQyAQhAyAEQRY6ACggBCADQf8BcSILOgApIAtBA0sEQCALIQZBFgwECyAEQShqEKsEIAQgCzoAygwMAgsgCiACQaywxgAQjAcACyAKIAJBzMzGABCMBwwRCyAKIAEoAqQEIgNPDQEgCkEebCIFIAEoAqAEaiALOgACIAogASgCpAQiA08NAiABKAKgBCAFaiAJOgADIAogASgCpAQiA08NAyABKAKgBCAFaiBy/QAAAP0LAAQgAS0AkwFB8gFHDQRBDwshAyAAIDg2AhAgACAaNgIMIAAgOTYCCCAAIEA7AQYgACAGOgAFIAAgAzoABCAAQYCAgIB4NgIADBYLIAogA0HozMYAEIwHAAsgCiADQfjMxgAQjAcACyAKIANBiM3GABCMBwALIARBDGogBEHKDGotAAA6AAAgBCAELwDIDDsBCiAEICgpAAA3A9gYIAQgKEEHaigAADYA3xggBEHPDGooAAAhOSAELQDMDCEGIAQvAM0MIUAgBCgA0wwhGiAEKADXDCE4ID5BB2ogBCgA3xg2AAAgPiAEKQPYGDcAACAEIDg2ABkgBCAaNgAVIAQgOTYAESAEIEA7AA8gBCAGOgAOIAQgCToADQJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgBC0ACkEBcUUEQCAELQAnIQsgBEHIDGpBAEGADPwLAAJAAkACQAJAIAlBBEcEQCAKIAEoAqQEIgNPDQEgASgCoAQgBWotABQhAyABLQCWBSECIHT9DAAAAAAAAAAAAAAAAAAAAAD9CwMAIARB+Bhq/QwAAAAAAAAAAAAAAAAAAAAA/QsDACAEQegYav0MAAAAAAAAAAAAAAAAAAAAAP0LAwAgBP0MAAAAAAAAAAAAAAAAAAAAAP0LA9gYIAtBBE8NAiAEQcgYaiABIARB2BhqIA9BASACIANqQf8BcSA6IAtBBHRqIgMvAQQgAy8BBhDqASAELQDJGCEHIAQtAMgYIgJBHUYNAyAEIAQpAcoYNwO4DCAEIARB0BhqKQEANwG+DAwcC0EDIQ4gC0EDSw0DDAULIAogA0GgrsYAEIwHAAsgC0EEQbCuxgAQjAcACyABIAc6AJYFIAEoAqQEIgMgCksEQCABKAKgBCAFaiAHOgAUIARB2BhqIgMgAygCACICIAMoAjAiCGsiDiADKAIQIgcgAygCICINayISazYCMCADIAIgCGoiAiAHIA1qIghrNgIgIAMgDiASajYCECADIAIgCGo2AgAgAyADKAIkIgIgAygCFCIIaiIOIAMoAjQiByADKAIEIg1qIhJqNgIEIAMgDSAHayIHIAggAmsiAms2AjQgAyACIAdqNgIUIAMgEiAOazYCJCADIAMoAigiCCADKAIYIg5qIgcgAygCOCINIAMoAggiEmoiFmoiAjYCCCADIBIgDWsiDSAOIAhrIghrNgI4IAMgFiAHazYCKCADIAggDWo2AhggAyADKAIsIg4gAygCHCIHaiINIAMoAjwiEiADKAIMIhZqIiJqIgg2AgwgAyAHIA5rIgcgFiASayISaiIONgIcIAMgEiAHazYCPCADICIgDWsiBzYCLCADIAggAygCACINakEDaiISIAIgAygCBCIWaiIia0EDdTYCCCADIA0gCGtBA2oiCCAWIAJrIgJrQQN1NgIMIAMgAiAIakEDdTYCBCADIBIgImpBA3U2AgAgAyADKAIQIgIgDmtBA2oiCCADKAIUIg0gAygCGCISayIWa0EDdTYCHCADIAIgDmpBA2oiAiANIBJqIg5rQQN1NgIYIAMgCCAWakEDdTYCFCADIAIgDmpBA3U2AhAgAyADKAIgIgIgB2tBA2oiCCADKAIkIg4gAygCKCINayISa0EDdTYCLCADIAIgB2pBA2oiAiANIA5qIg5rQQN1NgIoIAMgCCASakEDdTYCJCADIAIgDmpBA3U2AiAgAyADKAIwIgIgAygCPCIIa0EDaiIOIAMoAjQiByADKAI4Ig1rIhJrQQN1NgI8IAMgAiAIakEDaiICIAcgDWoiCGtBA3U2AjggAyAOIBJqQQN1NgI0IAMgAiAIakEDdTYCMCAEIAQoAtgYNgLIDCAEIAQoAtwYNgKIDSAEIAQoAuAYNgLIDSAEIAQoAuQYNgKIDiAEIAQoAugYNgLIDiAEIAQoAuwYNgKIDyAEIAQoAvAYNgLIDyAEIAQoAvQYNgKIECAEIAQoAvgYNgLIECAEIAQoAvwYNgKIESAEIAQoAoAZNgLIESAEIAQoAoQZNgKIEiAEIAQoAogZNgLIEiAEIAQoAowZNgKIEyAEIAQoApAZNgLIEyAEIAQoApQZNgKIFEEAIQ4MAwsgCiADQcCuxgAQjAcACyAKIAEoAqQEIgJPDQ0gC0EEQaivxgAQjAcACwJAIAlBBEYNACABQQA6AJYFIAEoAqQEIgMgCksEQCABKAKgBCAFakEAOgAUDAELIAogA0GIqcYAEIwHAAsgAUEAOgCXBQJAIAogASgCpAQiC08NACABKAKgBCAFakEAOgAVIAFBADoAmAUgCiABKAKkBCILTw0AIAEoAqAEIAVqQQA6ABYgAUEAOgCZBSAKIAEoAqQEIgtPDQAgASgCoAQgBWpBADoAFyABQQA6AJoFIAogASgCpAQiC08NACABKAKgBCAFakEAOgAYIAFBADoAmwUgCiABKAKkBCILTw0AIAEoAqAEIAVqQQA6ABkgAUEAOgCcBSAKIAEoAqQEIgtPDQAgASgCoAQgBWpBADoAGiABQQA6AJ0FIAogASgCpAQiC08NACABKAKgBCAFakEAOgAbIAFBADoAngUgCiABKAKkBCILTw0AIAEoAqAEIAVqQQA6ABwgBEEoakEAQYAM/AsADAILIAogC0GoqcYAEIwHAAsgOiALQQR0aiEDQQAhDUGXBSESIAQtAAshCANAIAogASgCpAQiAk8NDCAEQdgYaiABIARByAxqIA1qIgsgDyAOIAEoAqAEIAVqLQAVIAEgEmoiIi0AAGpB/wFxIAMvAQAgAy8BAhDqASAELQDYGCICQR1HDRUgBC0A2RghAgJ/AkAgCygCAARAIAsQmgJBASEIIAJBAXENAUEADAILQQAgAkEBcUUNARogCxCaAgtBASEIQQELIRYgCiABKAKkBCICTw0FIAEoAqAEIAVqIBY6ABUgCiABKAKkBCICTw0MIARB2BhqIAEgC0FAayIHIA8gDiABKAKgBCAFai0AFiAWakH/AXEgAy8BACADLwECEOoBIAQtANgYIgJBHUcNFSAELQDZGCECAn8CQCAHKAIABEAgBxCaAkEBIQggAkEBcQ0BQQAMAgtBACACQQFxRQ0BGiAHEJoCC0EBIQhBAQshFiAKIAEoAqQEIgJPDQUgASgCoAQgBWogFjoAFiAKIAEoAqQEIgJPDQwgBEHYGGogASALQYABaiIHIA8gDiABKAKgBCAFai0AFyAWakH/AXEgAy8BACADLwECEOoBIAQtANgYIgJBHUcNFSAELQDZGCECAn8CQCAHKAIABEAgBxCaAkEBIQggAkEBcQ0BQQAMAgtBACACQQFxRQ0BGiAHEJoCC0EBIQhBAQshByAKIAEoAqQEIgJPDQUgASgCoAQgBWogBzoAFyAKIAEoAqQEIgJPDQwgBEHYGGogASALQcABaiILIA8gDiABKAKgBCAFai0AGCAHakH/AXEgAy8BACADLwECEOoBIAQtANgYIgJBHUcNFSAELQDZGCECAn8CQCALKAIABEAgCxCaAkEBIQggAkEBcQ0BQQAMAgtBACACQQFxRQ0BGiALEJoCC0EBIQhBAQshCyAKIAEoAqQEIgJPDQUgASgCoAQgBWogCzoAGCAiIAs6AAAgDUGAAmohDSASQZYFayASQQFqIRJBBEkNAAtBeCENA0ACQCANQdiuxgBqKAIAIgtBCE0EfyAKIAEoAqQEIgJPDQQgBEHYGGogASAEQcgMakGACEGACiALQQVGIgcbaiIOIA9BAiABKAKgBCAFaiALai0AFCALIBxqIiItAABqQf8BcSADLwEIIAMvAQoQ6gEgBC0A2BgiAkEdRw0XIAQtANkYIQICfwJAIA4oAgAEQCAOEJoCQQEhCCACQQFxDQFBAAwCC0EAIAJBAXFFDQEaIA4QmgILQQEhCEEBCyEWIAogASgCpAQiAk8NBiABKAKgBCAFaiALaiAWOgAUIAogASgCpAQiAk8NBCALQQFqIQ5BCSALayICQQAgAkEJTRtBAUYNBSAEQdgYaiABIARByAxqQcAIQcAKIAcbaiISIA9BAiABKAKgBCAFaiAOai0AFCAWakH/AXEgAy8BCCADLwEKEOoBIAQtANgYIgJBHUcNFyAELQDZGCECAn8CQCASKAIABEAgEhCaAkEBIQggAkEBcQ0BQQAMAgtBACACQQFxRQ0BGiASEJoCC0EBIQhBAQshEiAKIAEoAqQEIgJPDQYgASgCoAQgBWogDmogEjoAFCAiIBI6AAAgC0EIRw0BQQkFIAsLQQlB2K7GABCMBwALIAogASgCpAQiAk8NAiAEQdgYaiABIARByAxqQYAJQYALIAcbaiISIA9BAiABKAKgBCAFaiALai0AFCAOIBxqIhYtAABqQf8BcSADLwEIIAMvAQoQ6gEgBC0A2BgiAkEdRw0VIAQtANkYIQICfwJAIBIoAgAEQCASEJoCQQEhCCACQQFxDQFBAAwCC0EAIAJBAXFFDQEaIBIQmgILQQEhCEEBCyESIAogASgCpAQiAk8NBCABKAKgBCAFaiALaiASOgAUIAogASgCpAQiAk8NAiAEQdgYaiABIARByAxqQcAJQcALIAcbaiILIA9BAiABKAKgBCAFaiAOai0AFCASakH/AXEgAy8BCCADLwEKEOoBIAQtANgYIgJBHUcNFSAELQDZGCECAn8CQCALKAIABEAgCxCaAkEBIQggAkEBcQ0BQQAMAgtBACACQQFxRQ0BGiALEJoCC0EBIQhBAQshCyAKIAEoAqQEIgJPDQQgASgCoAQgBWogDmogCzoAFCAWIAs6AAAgDUEEaiINDQALIAQgCDoACyAEID0pAQA3A7gMIAQgPUEGaikBADcBvgwgBC8ByAwhAyBxIDxB8Av8CgAAIAQgBCkDuAw3A6gMIAQgBCkBvgw3Aa4MIEhBBmogBCkBrgw3AQAgSCAEKQOoDDcBACAEIAM7ASgLIARByAxqIQcgAS8BoAUiJCEFIAEoAqwEInYhDiABKAKwBCIiIQIgASgCuAQiDSELIAEoArwEIkEhEiMAQfACayIDJAAgA0EIakEAQeQC/AsAAkAgEEUEQCADQRhqQf/+/fsHNgIAIANBEGpC//79+/fv37//ADcDACADQv/+/fv379+//wA3AwgMAQsgCkEEdCIIIAJNBEACQCACIAhGDQBBECACIAhrIhYgFkEQTxsiFkUNACADQQhqIAggDmogFvwKAAALAkAgBUEBayAKRgRAIAhBD3IiCCACTw0BIAMgCCAOai0AAEGBgoQIbDYAGAwDCyAIQRBqIgggAk0EQCACIAhGDQNBBCACIAhrIgIgAkEETxsiAkUNAyADQRhqIAggDmogAvwKAAAMAwsgCCACIAJB+OPEABDqBwALIAggAkGY5MQAEIwHAAsgCCACIAJBqOTEABDqBwALIAMgAy0AGCICOgCUAiADIAI6AMABIAMgAjoAbCADIAMtABkiAjoAlQIgAyACOgDBASADIAI6AG0gAyADLQAaIgI6AJYCIAMgAjoAwgEgAyACOgBuIAMgAy0AGyICOgCXAiADIAI6AMMBIAMgAjoAbyAHAn8gCkUEQCADQYEBOgDXAiADQYEBOgDCAiADQYEBOgCtAiADQYEBOgCYAiADQYEBOgCDAiADQYEBOgDuASADQYEBOgDZASADQYEBOgDEASADQYEBOgCvASADQYEBOgCaASADQYEBOgCFASADQYEBOgBwIANBgQE6AFsgA0GBAToARiADQYEBOgAxIANBgQE6ABxBgX9B/wAgEBsMAQsCQCASBEAgEkEBayICRQ0BIAMgCy0AAToAHCACQQFGDQEgAyALLQACOgAxIAJBAkYNASADIAstAAM6AEYgAkEDRg0BIAMgCy0ABDoAWyACQQRGDQEgAyALLQAFOgBwIAJBBUYNASADIAstAAY6AIUBIAJBBkYNASADIAstAAc6AJoBIAJBB0YNASADIAstAAg6AK8BIAJBCEYNASADIAstAAk6AMQBIAJBCUYNASADIAstAAo6ANkBIAJBCkYNASADIAstAAs6AO4BIAJBC0YNASADIAstAAw6AIMCIAJBDEYNASADIAstAA06AJgCIAJBDUYNASADIAstAA46AK0CIAJBDkYNASADIAstAA86AMICIAJBD0YNASADIAstABA6ANcCDAELQQFBAEEAQYjkxAAQ6gcAC0GBf0H/ACAQGyAQRQ0AGiALLQAACzoAACAHQQFqIANBCGpB5AL8CgAAIANB8AJqJAAgCUEBaw4EBAUGBwgLIAogAkHorsYAEIwHAAsgDkEJQfiuxgAQjAcACyAKIAJBiK/GABCMBwALIAogAkG4r8YAEIwHAAtBsH0hCwNAIARByAxqIAtqIgNB5gJqIAQtAMkMOgAAIANB5wJqIAQtAMoMOgAAIANB6AJqIAQtAMsMOgAAIANB6QJqIAQtAMwMOgAAIANB6gJqIAQtAM0MOgAAIANB6wJqIAQtAM4MOgAAIANB7AJqIAQtAM8MOgAAIANB7QJqIAQtANAMOgAAIANB7gJqIAQtANEMOgAAIANB7wJqIAQtANIMOgAAIANB8AJqIAQtANMMOgAAIANB8QJqIAQtANQMOgAAIANB8gJqIAQtANUMOgAAIANB8wJqIAQtANYMOgAAIANB9AJqIAQtANcMOgAAIANB9QJqIAQtANgMOgAAIANB9gJqIAQtANkMOgAAIANB9wJqIAQtANoMOgAAIANB+AJqIAQtANsMOgAAIANB+QJqIAQtANwMOgAAIAtBFWoiCw0ACwwECyA2QRBqIAQtAN0MIgNBgYKECGw2AAAgNUEQaiAELQDyDCILQYGChAhsNgAAIBhBEGogBC0Ahw0iCUGBgoQIbDYAACA0QRBqIAQtAJwNIgJBgYKECGw2AAAgM0EQaiAELQCxDSIIQYGChAhsNgAAIDYgA61CgYKEiJCgwIABfiJ5NwAAIDZBCGogeTcAACA1IAutQoGChIiQoMCAAX4ieTcAACA1QQhqIHk3AAAgGCAJrUKBgoSIkKDAgAF+Ink3AAAgGEEIaiB5NwAAIDQgAq1CgYKEiJCgwIABfiJ5NwAAIDRBCGogeTcAACAzQQhqIAitQoGChIiQoMCAAX4ieTcAACAzIHk3AAAgMkEQaiAELQDGDSIDQYGChAhsNgAAIDFBEGogBC0A2w0iC0GBgoQIbDYAACAwQRBqIAQtAPANIglBgYKECGw2AAAgL0EQaiAELQCFDiICQYGChAhsNgAAIC5BEGogBC0Amg4iCEGBgoQIbDYAACAyIAOtQoGChIiQoMCAAX4ieTcAACAyQQhqIHk3AAAgMSALrUKBgoSIkKDAgAF+Ink3AAAgMUEIaiB5NwAAIDAgCa1CgYKEiJCgwIABfiJ5NwAAIDBBCGogeTcAACAvIAKtQoGChIiQoMCAAX4ieTcAACAvQQhqIHk3AAAgLiAIrUKBgoSIkKDAgAF+Ink3AAAgLkEIaiB5NwAAIBNBEGogBC0Arw4iA0GBgoQIbDYAACAtQRBqIAQtAMQOIgtBgYKECGw2AAAgLEEQaiAELQDZDiIJQYGChAhsNgAAICtBEGogBC0A7g4iAkGBgoQIbDYAACAqQRBqIAQtAIMPIghBgYKECGw2AAAgE0EIaiADrUKBgoSIkKDAgAF+Ink3AAAgEyB5NwAAIC1BCGogC61CgYKEiJCgwIABfiJ5NwAAIC0geTcAACAsQQhqIAmtQoGChIiQoMCAAX4ieTcAACAsIHk3AAAgK0EIaiACrUKBgoSIkKDAgAF+Ink3AAAgKyB5NwAAICpBCGogCK1CgYKEiJCgwIABfiJ5NwAAICogeTcAACApQRBqIAQtAJgPIgNBgYKECGw2AAAgKUEIaiADrUKBgoSIkKDAgAF+Ink3AAAgKSB5NwAADAMLIARByAxqQeUCQRBBAUEBQRUQ4gIMAgsgFCEDIARBKGohC0EAIQkjAEEQayIOJAAgBEHIDGoiQiEFA0AgCSICQQFqIQkgAkECdEEBciFDQXAhEiADIQIgCyEIA0AgEkERaiFEAkACQAJAAkACQAJAAkACQAJAAkACQCACLQAAQQFrDgkBAgMEBQYHCAkACyAFIBJqIgdB5QBqIAdB5ABqLQAAIAdBzwBqLQAAIAdBOmotAAAgB0Elai0AACAHQRRqLQAAIAdBE2otAAAgB0ERai0AACAHQRJqLQAAampqampqakEEakH4/wNxQQN2QYGChAhsIhY2AAAgB0HQAGogFjYAACAHQTtqIBY2AAAgB0EmaiAWNgAADAkLIEJB5QJBBCBEIENBFRDiAgwICyAFIBJqIgdB5QBqIAdBFWotAAAgB0ETai0AACIWQQJqIhsgB0EUai0AACIdQQF0ampBFnRBgICAeHEgHSAHQRJqLQAAIh5BAmoiIyAWQQF0ampBDnRBgID8D3FqIBsgB0ERai0AACIWakEGdCAeQQd0akGA/gNxciAHQRBqLQAAIBZBAXRqICNqQQJ2aiIWNgAAIAdB0ABqIBY2AAAgB0E7aiAWNgAAIAdBJmogFjYAAAwHCyAFIBJqIgdB5QBqIAdBzwBqLQAAIhtBAmoiHSAHQeQAai0AACIWIBZBAXRqakECdkGBgoQIbDYAACAHQdAAaiAWIAdBOmotAAAiHkECaiIjaiAbQQF0akECdkGBgoQIbDYAACAHQTtqIB0gB0Elai0AACIWaiAeQQF0akECdkGBgoQIbDYAACAHQSZqICMgB0EQai0AAGogFkEBdGpBAnZBgYKECGw2AAAMBgsgBSASaiIHQRhqLQAAIRYgB0EXai0AACEbIAdBEWotAAAhOyAHQRJqLQAAIR0gB0ETai0AACEeIA4gB0EWai0AACIjIAdBFGotAAAiRkECaiJbIAdBFWotAAAiJUEBdGpqQQJ2OgADIA4gJSAeQQJqIlwgRkEBdGpqQQJ2OgACIA4gHSAeQQF0aiBbakECdjoAASAOIDsgHUEBdGogXGpBAnY6AAAgB0EmaiAOKAIANgAAIA4gJSAbQQJqIh1qICNBAXRqQQJ2OgAEIAdBO2ogDigAATYAACAOIBYgI2ogG0EBdGpBAmpBAnY6AAUgB0HQAGogDigBAjYAACAOIBYgHWogFkEBdGpBAnY6AAYgB0HlAGogDigAAzYAAAwFCyAFIBJqIgdBFGotAAAhOyAHQRNqLQAAIRYgB0HkAGotAAAhRiAHQc8Aai0AACEbIAdBOmotAAAhHSAHQSVqLQAAIR4gDiAHQRJqLQAAIltBAmoiXCAHQRBqLQAAIiNqIAdBEWotAAAiJUEBdGpBAnY6AAwgDiAlIB5BAmoidyAjQQF0ampBAnY6AAsgDiAjIB1BAmoieCAeQQF0ampBAnY6AAogDiAbIB1BAXRqIHdqQQJ2OgAJIAdB0ABqIA4oAAk2AAAgDiBGIBtBAXRqIHhqQQJ2OgAIIAdB5QBqIA4oAgg2AAAgDiA7IFwgFkEBdGpqQQJ2OgAOIA4gFiAlIFtBAXRqakECakECdjoADSAHQSZqIA4oAAs2AAAgB0E7aiAOKAEKNgAADAQLIAUgEmoiB0HRAGogB0EQai0AACIdIAdBEWotAAAiFmpBAWpBAXYiGzoAACAHQSZqIBs6AAAgB0HSAGogFiAHQRJqLQAAIhtqQQFqQQF2Ih46AAAgB0EnaiAeOgAAIAdB5QBqIAdBJWotAAAiHiAHQc8Aai0AACAHQTpqLQAAIiNBAXRqakECakECdjoAACAHQeYAaiAWIB4gHUEBdGpqQQJqQQJ2IiU6AAAgB0HQAGogHSAjIB5BAXRqakECakECdjoAACAHQTtqICU6AAAgB0HnAGogGyAdIBZBAXRqakECakECdiIdOgAAIAdBPGogHToAACAHQegAaiAHQRNqLQAAIh0gFiAbQQF0ampBAmpBAnYiHjoAACAHQRRqLQAAIRYgB0HTAGogGyAdakEBakEBdiIjOgAAIAdBPWogHjoAACAHQShqICM6AAAgB0E+aiAWIBsgHUEBdGpqQQJqQQJ2OgAAIAdBKWogFiAdakEBakEBdjoAAAwDCyAFIBJqIgdB0ABqIAdBEmotAAAiHSAHQRNqLQAAIhZqQQFqQQF2Ihs6AAAgB0EmaiAdIAdBEWotAAAiI2pBAWpBAXY6AAAgB0EnaiAbOgAAIAdB0QBqIBYgB0EUai0AACIbakEBakEBdiIeOgAAIAdBKGogHjoAACAHQdIAaiAbIAdBFWotAAAiHmpBAWpBAXYiJToAACAHQeUAaiAbIB1qIBZBAXRqQQJqQQJ2Ijs6AAAgB0E8aiA7OgAAIAdB5gBqIBYgHkECaiI7IBtBAXRqakECdiJGOgAAIAdBPWogRjoAACAHQTtqICMgFiAdQQF0ampBAmpBAnY6AAAgB0EYai0AACEjIAdBF2otAAAhFiAHQecAaiAHQRZqLQAAIh0gGyAeQQF0ampBAmpBAnYiGzoAACAHQSlqICU6AAAgB0HoAGogIyAdIBZBAXRqakECakECdjoAACAHQdMAaiAWIB1BAXQgO2pqQQJ2OgAAIAdBPmogGzoAAAwCCyAFIBJqIgdB5QBqIAdB5ABqLQAAIiMgB0HPAGotAAAiHWpBAWpBAXY6AAAgB0HnAGogHSAHQTpqLQAAIhZqQQFqQQF2Ihs6AAAgB0HQAGogGzoAACAHQdIAaiAWIAdBJWotAAAiG2pBAWpBAXYiHjoAACAHQTtqIB46AAAgB0E9aiAbIAdBEGotAAAiHmpBAWpBAXYiJToAACAHQeYAaiAWICMgHUEBdGpqQQJqQQJ2OgAAIAdB6ABqIBsgHSAWQQF0ampBAmpBAnYiHToAACAHQdEAaiAdOgAAIAdB0wBqIB4gFiAbQQF0ampBAmpBAnYiFjoAACAHQTxqIBY6AAAgB0ETai0AACEjIAdBEmotAAAhFiAHQT5qIAdBEWotAAAiHSAbIB5BAXRqakECakECdiIbOgAAIAdBJmogJToAACAHQSlqICMgHSAWQQF0ampBAmpBAnY6AAAgB0EoaiAWIB4gHUEBdGpqQQJqQQJ2OgAAIAdBJ2ogGzoAAAwBCyAFIBJqIgdB6ABqIAdB5ABqLQAAIhY6AAAgB0HnAGogFjoAACAHQeYAaiAWOgAAIAdB5QBqIBY6AAAgB0HTAGogFjoAACAHQdIAaiAWOgAAIAdBO2ogB0E6ai0AACIbIAdBzwBqLQAAIh1qQQFqQQF2Ih46AAAgB0EoaiAeOgAAIAdBJmogGyAHQSVqLQAAIh5qQQFqQQF2OgAAIAdB0ABqIBYgHWoiI0EBakEBdiIlOgAAIAdBPWogJToAACAHQTxqIBYgG2ogHUEBdGpBAmpBAnYiJToAACAHQSlqICU6AAAgB0HRAGogIyAWQQF0akECakECdiIWOgAAIAdBPmogFjoAACAHQSdqIB0gHiAbQQF0ampBAmpBAnY6AAALIEJB5QIgCCBDIERBFRDXAiACQQFqIQIgCEFAayEIIBJBBGoiEg0ACyADQQRqIQMgC0GAAmohCyAFQdQAaiEFIAlBBEcNAAsgDkEQaiQADAMLIARByAxqQeUCQRBBFSAQQQBHIApBAEcQgwQLIARByAxqIgNB5QIgBEEoakEBQQFBFRDXAiADQeUCIHBBAUEFQRUQ1wIgA0HlAiBvQQFBCUEVENcCIANB5QIgbkEBQQ1BFRDXAiADQeUCIG1BBUEBQRUQ1wIgA0HlAiBsQQVBBUEVENcCIANB5QIga0EFQQlBFRDXAiADQeUCIGpBBUENQRUQ1wIgA0HlAiBpQQlBAUEVENcCIANB5QIgaEEJQQVBFRDXAiADQeUCIGdBCUEJQRUQ1wIgA0HlAiBmQQlBDUEVENcCIANB5QIgZUENQQFBFRDXAiADQeUCIGRBDUEFQRUQ1wIgA0HlAiBjQQ1BCUEVENcCIANB5QIgYkENQQ1BFRDXAgwBCyAKIAJBmK/GABCMBwALAkAgQQRAIA0gBC0A2Aw6AAAgQUEBayIDQQ9NBEBBAEEQIANB0K3GABDqBwALIA0gBC0A7Qw6AAEgDSAELQCCDToAAiANIAQtAJcNOgADIA0gBC0ArA06AAQgDSAELQDBDToABSANIAQtANYNOgAGIA0gBC0A6w06AAcgDSAELQCADjoACCANIAQtAJUOOgAJIA0gBC0Aqg46AAogDSAELQC/DjoACyANIAQtANQOOgAMIA0gBC0A6Q46AA0gDSAELQD+DjoADiANIAQtAJMPOgAPIA0gBC0AqA86ABAgIiAKQQR0IgNJDQggIiADayILQQ9LDQFBAEEQIAtB4K3GABDqBwALQQBBAEHArcYAEIwHAAsgAyB2aiIDIAQtAJkPOgAAIAMgBC0Amg86AAEgAyAELQCbDzoAAiADIAQtAJwPOgADIAMgBC0AnQ86AAQgAyAELQCeDzoABSADIAQtAJ8POgAGIAMgBC0AoA86AAcgAyAELQChDzoACCADIAQtAKIPOgAJIAMgBC0Aow86AAogAyAELQCkDzoACyADIAQtAKUPOgAMIAMgBC0Apg86AA0gAyAELQCnDzoADiADIAQtAKgPOgAPICRBBHQhDiABKAIIIgkgCiAkIEVsakEEdCIHayEIIAEoAgQhDUEAIRJBACECAkADQCAHIAlLDQEgCEEPTQ0DIAcgDWoiAyAEQcgMaiIFIAJqIgtBFmotAAA6AAAgA0EBaiALQRdqLQAAOgAAIANBAmogC0EYai0AADoAACADQQNqIAtBGWotAAA6AAAgA0EEaiALQRpqLQAAOgAAIANBBWogC0Ebai0AADoAACADQQZqIAtBHGotAAA6AAAgA0EHaiALQR1qLQAAOgAAIANBCGogC0Eeai0AADoAACADQQlqIAtBH2otAAA6AAAgA0EKaiALQSBqLQAAOgAAIANBC2ogC0Ehai0AADoAACADQQxqIAtBImotAAA6AAAgA0ENaiALQSNqLQAAOgAAIANBDmogC0Ekai0AADoAACADQQ9qIAtBJWotAAA6AAAgCCAOayEIIAcgDmohByACQRVqIQIgEkEBaiISQRBJDQALIAEvAaAFIQkgBC0ADCEDIARB2BhqIAogECABKALEBCICIAEoAsgEIgggASgC0AQiDiABKALUBCIHELoEIAUgCiAQIAEoAtwEIg0gASgC4AQiEiABKALoBCIFIAEoAuwEIhYQugQCQAJAAkACQAJAIANBAWsOAwECAwALIARB2BhqQdEAQQhBCSAQQQBHIgMgCkEARyILEIMEIARByAxqQdEAQQhBCSADIAsQgwQMAwsgBCAELQDZGCIDOgDiGCAEIAQtANoYIgs6AOMYIAQgBC8A2xg7AOQYIAQgBCgA3Rg2AOYYIAQgAzoA6xggBCAEKADaGDYA7BggBCAELwDeGDsA8BggBCAELQDgGDoA8hggBCADOgD0GCAEIAs6APUYIAQgBC0A2xg6APYYIAQgBC0A3Bg6APcYIAQgBC8A3RgiAzsA+BggBCAELQDfGCILOgD6GCAEIAQtAOAYIiI6APsYIAQgBCkA2Rg3AP0YIAQgBCgA2Rg2AIYZIAQgAzsAihkgBCALOgCMGSAEICI6AI0ZIAQgBC0A2Rg6AI8ZIAQgBC0A2hg6AJAZIAQgBC0A2xgiAzoAkRkgBCAELQDcGDoAkhkgBCAEKADdGDYAkxkgBCAELQDZGCILOgCYGSAEIAQoANoYNgCZGSAEIAQvAN4YOwCdGSAEIAQtAOAYOgCfGSAEIAs6AKEZIAQgBC0A2hg6AKIZIAQgAzoAoxkgBCAELQDcGDoApBkgBCAELQDdGDoApRkgBCAELQDeGDoAphkgBCAELQDfGDoApxkgBCAELQDgGDoAqBkgBCAELQDJDDoA0gwgBCAELQDKDDoA0wwgBCAELQDLDDoA1AwgBCAELQDMDDoA1QwgBCAELQDNDDoA1gwgBCAELQDODDoA1wwgBCAELQDPDDoA2AwgBCAELQDQDDoA2QwgBCAELQDJDDoA2wwgBCAELQDKDDoA3AwgBCAELQDLDDoA3QwgBCAELQDMDDoA3gwgBCAELQDNDDoA3wwgBCAELQDODDoA4AwgBCAELQDPDDoA4QwgBCAELQDQDDoA4gwgBCAELQDJDDoA5AwgBCAELQDKDDoA5QwgBCAELQDLDDoA5gwgBCAELQDMDDoA5wwgBCAELQDNDDoA6AwgBCAELQDODDoA6QwgBCAELQDPDDoA6gwgBCAELQDQDDoA6wwgBCAELQDJDDoA7QwgBCAELQDKDDoA7gwgBCAELQDLDDoA7wwgBCAELQDMDDoA8AwgBCAELQDNDDoA8QwgBCAELQDODDoA8gwgBCAELQDPDDoA8wwgBCAELQDQDDoA9AwgBCAELQDJDDoA9gwgBCAELQDKDDoA9wwgBCAELQDLDDoA+AwgBCAELQDMDDoA+QwgBCAELQDNDDoA+gwgBCAELQDODDoA+wwgBCAELQDPDDoA/AwgBCAELQDQDDoA/QwgBCAELQDJDDoA/wwgBCAELQDKDDoAgA0gBCAELQDLDDoAgQ0gBCAELQDMDDoAgg0gBCAELQDNDDoAgw0gBCAELQDODDoAhA0gBCAELQDPDDoAhQ0gBCAELQDQDDoAhg0gBCAELQDJDDoAiA0gBCAELQDKDDoAiQ0gBCAELQDLDDoAig0gBCAELQDMDDoAiw0gBCAELQDNDDoAjA0gBCAELQDODDoAjQ0gBCAELQDPDDoAjg0gBCAELQDQDDoAjw0gBCAELQDJDDoAkQ0gBCAELQDKDDoAkg0gBCAELQDLDDoAkw0gBCAELQDMDDoAlA0gBCAELQDNDDoAlQ0gBCAELQDODDoAlg0gBCAELQDPDDoAlw0gBCAELQDQDDoAmA0MAgsgWCAEMQDhGEKBgoSIkKDAgAF+NwAAIFYgBDEA6hhCgYKEiJCgwIABfjcAACBVIAQxAPMYQoGChIiQoMCAAX43AAAgVCAEMQD8GEKBgoSIkKDAgAF+NwAAIFMgBDEAhRlCgYKEiJCgwIABfjcAACBSIAQxAI4ZQoGChIiQoMCAAX43AAAgUSAEMQCXGUKBgoSIkKDAgAF+NwAAIFAgBDEAoBlCgYKEiJCgwIABfjcAACBXIAQxANEMQoGChIiQoMCAAX43AAAgKCAEMQDaDEKBgoSIkKDAgAF+NwAAIE8gBDEA4wxCgYKEiJCgwIABfjcAACBOIAQxAOwMQoGChIiQoMCAAX43AAAgTSAEMQD1DEKBgoSIkKDAgAF+NwAAIEwgBDEA/gxCgYKEiJCgwIABfjcAACAYIAQxAIcNQoGChIiQoMCAAX43AAAgSyAEMQCQDUKBgoSIkKDAgAF+NwAADAELIARB2BhqQdEAQQhBAUEBQQkQ4gIgBEHIDGpB0QBBCEEBQQFBCRDiAgsgBEHYGGoiA0HRACBhQQFBAUEJENcCIARByAxqIgtB0QAgYEEBQQFBCRDXAiADQdEAIF9BAUEFQQkQ1wIgC0HRACBeQQFBBUEJENcCIANB0QAgIUEFQQFBCRDXAiALQdEAICBBBUEBQQkQ1wIgA0HRACBaQQVBBUEJENcCIAtB0QAgWUEFQQVBCRDXAiAOIAcgAiAIIAMgChCOBiAFIBYgDSASIAsgChCOBiAJIB9sIQ4gCUEDdCEWIAogCSBJbGpBA3QhAiABKAIUIgcgJmohIiABKAIgIg0gJmohGyABKAIcIR0gASgCECEeQQAhBUEAIRIDQCACIAdLDQQgDiAiaiIDQQdNDQUgAiANSw0GIA4gG2oiA0EHTQ0HIARByAxqIBJqIgNBCmotAAAhJCACIB5qIgsgBEHYGGogEmoiCUEKai0AADoAACACIB1qIgggJDoAACADQQtqLQAAISQgC0EBaiAJQQtqLQAAOgAAIAhBAWogJDoAACADQQxqLQAAISQgC0ECaiAJQQxqLQAAOgAAIAhBAmogJDoAACADQQ1qLQAAISQgC0EDaiAJQQ1qLQAAOgAAIAhBA2ogJDoAACADQQ5qLQAAISQgC0EEaiAJQQ5qLQAAOgAAIAhBBGogJDoAACADQQ9qLQAAISQgC0EFaiAJQQ9qLQAAOgAAIAhBBWogJDoAACADQRBqLQAAISQgC0EGaiAJQRBqLQAAOgAAIAhBBmogJDoAACADQRFqLQAAIQMgC0EHaiAJQRFqLQAAOgAAIAhBB2ogAzoAACAOIBZrIQ4gAiAWaiECIBJBCWohEiAFQQFqIgVBCEkNAAsgASgCmAQiAiABKAKQBEYEQEEAIQgjAEEgayILJAACQAJAQQQgGSIDKAIAIg5BAXQiCSAJQQRNGyIHrUIefiJ5QiCIUEUNACB5pyINQQBIDQAgCyAOBH8gCyAOQR5sNgIcIAsgAygCBDYCFEEBBUEACzYCGCALQQhqQQEgDSALQRRqEIUHIAsoAghBAUcNASALKAIQIQkgCygCDCEICyAIIAlBmKnGABCTCQALIAsoAgwhCSADIAc2AgAgAyAJNgIEIAtBIGokAAsgASgClAQgAkEebGoiAyAE/QABCv0LAAAgA0EWaiAEQSBqKQEANwAAIANBEGogBEEaaikBADcAACABIAJBAWo2ApgEICZBCGshJiAKQQFqIQogNyA3IHVJIgNqITcgAw0BDAoLCyAHIAkgCUGArsYAEOoHAAtBAEEQIAhB8K3GABDqBwALIAIgByAHQfivxgAQ6gcAC0EAQQggA0HIr8YAEOoHAAsgAiANIA1B6K/GABDqBwALQQBBCCADQdivxgAQ6gcACyADICIgIkGQrsYAEOoHAAsgBCAEKQHaGDcDuAwgBCAEQeAYaikBADcBvgwgBC0A2RghBwsgBCAEKQO4DDcDqAwgBCAEKQG+DDcBrgwgAEEMaiAEKQGuDDcBACAAIAQpA6gMNwEGIAAgBzoABSAAIAI6AAQgAEGAgICAeDYCAAwJC0EREHEiA0UNASADQoGDhoyYsODAgX83AAAgA0EQakGBAToAACADQQhqQoGDhoyYsODAgX83AAAgASgCtAQiCwRAIAEoArgEIAtBARCiBwsgAUERNgK8BCABIAM2ArgEIAFBETYCtARBCRBxIgNFDQEgA0KBg4aMmLDgwIF/NwAAIANBCGpBgQE6AAAgASgCzAQiCwRAIAEoAtAEIAtBARCiBwsgAUEJNgLUBCABIAM2AtAEIAFBCTYCzARBCRBxIgNFDQEgA0KBg4aMmLDgwIF/NwAAIANBCGpBgQE6AAAgASgC5AQiCwRAIAEoAugEIAtBARCiBwsgAUEJNgLsBCABIAM2AugEIAFBCTYC5AQgH0FAaiEfIElBCGohSSBFQRBqIUUgESARIEpJIgtqIQMgESEQIAsNAAsMAgsAC0H4qMYAEIIIAAsgAS8BogUiR0UNAEEAIQdBASEDA0AgAyELAkAgAS8BoAUiSEUNAEEAIQMDQCADIAcgAS8BoAVsaiIGIAEoApgEIglJBEAgBEHQDGogASgClAQgBkEebGoiBkEIav0AAAD9CwMAIARB3gxqIAZBFmopAAA3AQAgBCAGKQAANwPIDAJAAkAgBEHIDGoiCi0AHSIGQQNNBEAgAS0ALSIJRQ0CIAotAAMhDUE/IAlBACABIAZBBHRqIgYtAD4bIAYsAD1qIgZBACAGQQBKGyAJIAEtAKQFGyIGIAZBP08bIQIgAS0ApgVFDQEgASgC8AMgAmohAiANQQRHDQEgASgCgAQgAmohAgwBCyAGQQRBuNXGABCMBwALQT8gAkEAIAJBAEobIgYgBkE/ThshBiABLQAuIgkEfyAGQf8BcUECQQEgCUEESxt2IghBCSAJa0H/AXEiCSAIIAlJGwUgBgshCSABLwGgBSESAn8CQAJAIAEtAChFBEAgAkEnTA0BQQMMAwsgAkEnTA0BQQIMAgsgAkETTA0AQQIMAQsgAkEATA0BIAJBDkoLIQggEkEDdCEZIBJBBHQhDkEBIRZBASAJQf8BcSIJIAlBAU0bIgkgBkEBdGoiEEEEaiERAkACQAJAAkACQAJAAkAgDUEERgRAIANFDQMMAQsgCi0AAEUEQCAKLQABIRYgAw0BDAILQQAhFiADRQ0DCyADQQR0QQRrIg0gB0EEdCIUIA5saiECIAEoAgQhCiABKAIIIQYCQAJAAkACQAJAAkACQAJAAkAgAS0AKkUEQCACIAZLDQMgBiACayIMQQdLDQEMDwsgAiAGSw0DIAYgAmsiDEEHSw0BDA0LIAggCSARIAIgCmoQ+AIgBiANIBRBAXIgDmxqIgJJDQEgBiACayIMQQhJDQ0gCCAJIBEgAiAKahD4AiAGIA0gFEECciAObGoiAkkNASAGIAJrIgxBCEkNDSAIIAkgESACIApqEPgCIAYgDSAUQQNyIA5saiICSQ0BIAYgAmsiDEEISQ0NIAggCSARIAIgCmoQ+AIgBiANIBRBBHIgDmxqIgJJDQEgBiACayIMQQhJDQ0gCCAJIBEgAiAKahD4AiAGIA0gFEEFciAObGoiAkkNASAGIAJrIgxBCEkNDSAIIAkgESACIApqEPgCIAYgDSAUQQZyIA5saiICSQ0BIAYgAmsiDEEISQ0NIAggCSARIAIgCmoQ+AIgBiANIBRBB3IgDmxqIgJJDQEgBiACayIMQQhJDQ0gCCAJIBEgAiAKahD4AiAGIA0gFEEIciAObGoiAkkNASAGIAJrIgxBCEkNDSAIIAkgESACIApqEPgCIAYgDSAUQQlyIA5saiICSQ0BIAYgAmsiDEEISQ0NIAggCSARIAIgCmoQ+AIgBiANIBRBCnIgDmxqIgJJDQEgBiACayIMQQhJDQ0gCCAJIBEgAiAKahD4AiAGIA0gFEELciAObGoiAkkNASAGIAJrIgxBCEkNDSAIIAkgESACIApqEPgCIAYgDSAUQQxyIA5saiICSQ0BIAYgAmsiDEEISQ0NIAggCSARIAIgCmoQ+AIgBiANIBRBDXIgDmxqIgJJDQEgBiACayIMQQhJDQ0gCCAJIBEgAiAKahD4AiAGIA0gFEEOciAObGoiAkkNASAGIAJrIgxBCEkNDSAIIAkgESACIApqEPgCIAYgDSAUQQ9yIA5saiICSQ0BIAYgAmsiDEEISQ0NIAggCSARIAIgCmoQ+AIgASgCFCIKIANBA3RBBGsiDCAHQQN0IgUgGWxqIgJPDQMMBAsgEUH/AXEiBSACIApqIgItAAIgAi0ABWsiDCAMQR91Ig9zIA9rQQF2IAItAAMiDyACLQAEIhprIhggGEEfdSIYcyAYa0EBdGpPBEAgAkH/AEGAfyAPQfwAQYB/IBogD2tBA2xB/wBBgH8gDCAMQYB/TBsiDCAMQf8AThtqIgwgDEGAf0wbIgwgDEH8AE4bQQNqQQN1akGAAWsiDyAPQYB/TBsiDyAPQf8AThtBgAFzOgADIAJB/wBBgH8gGkH7ACAMIAxB+wBOG0EEakEDdWtBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoABAsgBiANIBRBAXIgDmxqIgJJDQEgBiACayIMQQhJDQsgBSACIApqIgItAAIgAi0ABWsiDCAMQR91Ig9zIA9rQQF2IAItAAMiDyACLQAEIhprIhggGEEfdSIYcyAYa0EBdGpPBEAgAkH/AEGAfyAPQfwAQYB/IBogD2tBA2xB/wBBgH8gDCAMQYB/TBsiDCAMQf8AThtqIgwgDEGAf0wbIgwgDEH8AE4bQQNqQQN1akGAAWsiDyAPQYB/TBsiDyAPQf8AThtBgAFzOgADIAJB/wBBgH8gGkH7ACAMIAxB+wBOG0EEakEDdWtBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoABAsgBiANIBRBAnIgDmxqIgJJDQEgBiACayIMQQhJDQsgBSACIApqIgItAAIgAi0ABWsiDCAMQR91Ig9zIA9rQQF2IAItAAMiDyACLQAEIhprIhggGEEfdSIYcyAYa0EBdGpPBEAgAkH/AEGAfyAPQfwAQYB/IBogD2tBA2xB/wBBgH8gDCAMQYB/TBsiDCAMQf8AThtqIgwgDEGAf0wbIgwgDEH8AE4bQQNqQQN1akGAAWsiDyAPQYB/TBsiDyAPQf8AThtBgAFzOgADIAJB/wBBgH8gGkH7ACAMIAxB+wBOG0EEakEDdWtBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoABAsgBiANIBRBA3IgDmxqIgJJDQEgBiACayIMQQhJDQsgBSACIApqIgItAAIgAi0ABWsiDCAMQR91Ig9zIA9rQQF2IAItAAMiDyACLQAEIhprIhggGEEfdSIYcyAYa0EBdGpPBEAgAkH/AEGAfyAPQfwAQYB/IBogD2tBA2xB/wBBgH8gDCAMQYB/TBsiDCAMQf8AThtqIgwgDEGAf0wbIgwgDEH8AE4bQQNqQQN1akGAAWsiDyAPQYB/TBsiDyAPQf8AThtBgAFzOgADIAJB/wBBgH8gGkH7ACAMIAxB+wBOG0EEakEDdWtBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoABAsgBiANIBRBBHIgDmxqIgJJDQEgBiACayIMQQhJDQsgBSACIApqIgItAAIgAi0ABWsiDCAMQR91Ig9zIA9rQQF2IAItAAMiDyACLQAEIhprIhggGEEfdSIYcyAYa0EBdGpPBEAgAkH/AEGAfyAPQfwAQYB/IBogD2tBA2xB/wBBgH8gDCAMQYB/TBsiDCAMQf8AThtqIgwgDEGAf0wbIgwgDEH8AE4bQQNqQQN1akGAAWsiDyAPQYB/TBsiDyAPQf8AThtBgAFzOgADIAJB/wBBgH8gGkH7ACAMIAxB+wBOG0EEakEDdWtBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoABAsgBiANIBRBBXIgDmxqIgJJDQEgBiACayIMQQhJDQsgBSACIApqIgItAAIgAi0ABWsiDCAMQR91Ig9zIA9rQQF2IAItAAMiDyACLQAEIhprIhggGEEfdSIYcyAYa0EBdGpPBEAgAkH/AEGAfyAPQfwAQYB/IBogD2tBA2xB/wBBgH8gDCAMQYB/TBsiDCAMQf8AThtqIgwgDEGAf0wbIgwgDEH8AE4bQQNqQQN1akGAAWsiDyAPQYB/TBsiDyAPQf8AThtBgAFzOgADIAJB/wBBgH8gGkH7ACAMIAxB+wBOG0EEakEDdWtBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoABAsgBiANIBRBBnIgDmxqIgJJDQEgBiACayIMQQhJDQsgBSACIApqIgItAAIgAi0ABWsiDCAMQR91Ig9zIA9rQQF2IAItAAMiDyACLQAEIhprIhggGEEfdSIYcyAYa0EBdGpPBEAgAkH/AEGAfyAPQfwAQYB/IBogD2tBA2xB/wBBgH8gDCAMQYB/TBsiDCAMQf8AThtqIgwgDEGAf0wbIgwgDEH8AE4bQQNqQQN1akGAAWsiDyAPQYB/TBsiDyAPQf8AThtBgAFzOgADIAJB/wBBgH8gGkH7ACAMIAxB+wBOG0EEakEDdWtBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoABAsgBiANIBRBB3IgDmxqIgJJDQEgBiACayIMQQhJDQsgBSACIApqIgItAAIgAi0ABWsiDCAMQR91Ig9zIA9rQQF2IAItAAMiDyACLQAEIhprIhggGEEfdSIYcyAYa0EBdGpPBEAgAkH/AEGAfyAPQfwAQYB/IBogD2tBA2xB/wBBgH8gDCAMQYB/TBsiDCAMQf8AThtqIgwgDEGAf0wbIgwgDEH8AE4bQQNqQQN1akGAAWsiDyAPQYB/TBsiDyAPQf8AThtBgAFzOgADIAJB/wBBgH8gGkH7ACAMIAxB+wBOG0EEakEDdWtBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoABAsgBiANIBRBCHIgDmxqIgJJDQEgBiACayIMQQhJDQsgBSACIApqIgItAAIgAi0ABWsiDCAMQR91Ig9zIA9rQQF2IAItAAMiDyACLQAEIhprIhggGEEfdSIYcyAYa0EBdGpPBEAgAkH/AEGAfyAPQfwAQYB/IBogD2tBA2xB/wBBgH8gDCAMQYB/TBsiDCAMQf8AThtqIgwgDEGAf0wbIgwgDEH8AE4bQQNqQQN1akGAAWsiDyAPQYB/TBsiDyAPQf8AThtBgAFzOgADIAJB/wBBgH8gGkH7ACAMIAxB+wBOG0EEakEDdWtBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoABAsgBiANIBRBCXIgDmxqIgJJDQEgBiACayIMQQhJDQsgBSACIApqIgItAAIgAi0ABWsiDCAMQR91Ig9zIA9rQQF2IAItAAMiDyACLQAEIhprIhggGEEfdSIYcyAYa0EBdGpPBEAgAkH/AEGAfyAPQfwAQYB/IBogD2tBA2xB/wBBgH8gDCAMQYB/TBsiDCAMQf8AThtqIgwgDEGAf0wbIgwgDEH8AE4bQQNqQQN1akGAAWsiDyAPQYB/TBsiDyAPQf8AThtBgAFzOgADIAJB/wBBgH8gGkH7ACAMIAxB+wBOG0EEakEDdWtBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoABAsgBiANIBRBCnIgDmxqIgJJDQEgBiACayIMQQhJDQsgBSACIApqIgItAAIgAi0ABWsiDCAMQR91Ig9zIA9rQQF2IAItAAMiDyACLQAEIhprIhggGEEfdSIYcyAYa0EBdGpPBEAgAkH/AEGAfyAPQfwAQYB/IBogD2tBA2xB/wBBgH8gDCAMQYB/TBsiDCAMQf8AThtqIgwgDEGAf0wbIgwgDEH8AE4bQQNqQQN1akGAAWsiDyAPQYB/TBsiDyAPQf8AThtBgAFzOgADIAJB/wBBgH8gGkH7ACAMIAxB+wBOG0EEakEDdWtBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoABAsgBiANIBRBC3IgDmxqIgJJDQEgBiACayIMQQhJDQsgBSACIApqIgItAAIgAi0ABWsiDCAMQR91Ig9zIA9rQQF2IAItAAMiDyACLQAEIhprIhggGEEfdSIYcyAYa0EBdGpPBEAgAkH/AEGAfyAPQfwAQYB/IBogD2tBA2xB/wBBgH8gDCAMQYB/TBsiDCAMQf8AThtqIgwgDEGAf0wbIgwgDEH8AE4bQQNqQQN1akGAAWsiDyAPQYB/TBsiDyAPQf8AThtBgAFzOgADIAJB/wBBgH8gGkH7ACAMIAxB+wBOG0EEakEDdWtBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoABAsgBiANIBRBDHIgDmxqIgJJDQEgBiACayIMQQhJDQsgBSACIApqIgItAAIgAi0ABWsiDCAMQR91Ig9zIA9rQQF2IAItAAMiDyACLQAEIhprIhggGEEfdSIYcyAYa0EBdGpPBEAgAkH/AEGAfyAPQfwAQYB/IBogD2tBA2xB/wBBgH8gDCAMQYB/TBsiDCAMQf8AThtqIgwgDEGAf0wbIgwgDEH8AE4bQQNqQQN1akGAAWsiDyAPQYB/TBsiDyAPQf8AThtBgAFzOgADIAJB/wBBgH8gGkH7ACAMIAxB+wBOG0EEakEDdWtBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoABAsgBiANIBRBDXIgDmxqIgJJDQEgBiACayIMQQhJDQsgBSACIApqIgItAAIgAi0ABWsiDCAMQR91Ig9zIA9rQQF2IAItAAMiDyACLQAEIhprIhggGEEfdSIYcyAYa0EBdGpPBEAgAkH/AEGAfyAPQfwAQYB/IBogD2tBA2xB/wBBgH8gDCAMQYB/TBsiDCAMQf8AThtqIgwgDEGAf0wbIgwgDEH8AE4bQQNqQQN1akGAAWsiDyAPQYB/TBsiDyAPQf8AThtBgAFzOgADIAJB/wBBgH8gGkH7ACAMIAxB+wBOG0EEakEDdWtBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoABAsgBiANIBRBDnIgDmxqIgJJDQEgBiACayIMQQhJDQsgBSACIApqIgItAAIgAi0ABWsiDCAMQR91Ig9zIA9rQQF2IAItAAMiDyACLQAEIhprIhggGEEfdSIYcyAYa0EBdGpPBEAgAkH/AEGAfyAPQfwAQYB/IBogD2tBA2xB/wBBgH8gDCAMQYB/TBsiDCAMQf8AThtqIgwgDEGAf0wbIgwgDEH8AE4bQQNqQQN1akGAAWsiDyAPQYB/TBsiDyAPQf8AThtBgAFzOgADIAJB/wBBgH8gGkH7ACAMIAxB+wBOG0EEakEDdWtBgAFrIgIgAkGAf0wbIgIgAkH/AE4bQYABczoABAsgBiANIBRBD3IgDmxqIgJJDQEgBiACayIMQQhJDQsgBSACIApqIgYtAAIgBi0ABWsiAiACQR91IgpzIAprQQF2IAYtAAMiCiAGLQAEIg1rIhQgFEEfdSIUcyAUa0EBdGpPBEAgBkH/AEGAfyAKQfwAQYB/IA0gCmtBA2xB/wBBgH8gAiACQYB/TBsiAiACQf8AThtqIgIgAkGAf0wbIgIgAkH8AE4bQQNqQQN1akGAAWsiCiAKQYB/TBsiCiAKQf8AThtBgAFzOgADIAZB/wBBgH8gDUH7ACACIAJB+wBOG0EEakEDdWtBgAFrIgYgBkGAf0wbIgYgBkH/AE4bQYABczoABAsMBwsgAiAGIAZBuKfGABDqBwALIAIgBiAGQdioxgAQ6gcACyAKIAJrIhRBB00NASABKAIcIQ0gASgCICEGIAggCSARIAEoAhAiDyACahD4AiACIAZLDQMgBiACayIUQQdNDQIgCCAJIBEgAiANahD4AiAKIAwgBUEBciAZbGoiAkkNACAKIAJrIhRBCEkNASAIIAkgESACIA9qEPgCIAIgBksNAyAGIAJrIhRBCEkNAiAIIAkgESACIA1qEPgCIAogDCAFQQJyIBlsaiICSQ0AIAogAmsiFEEISQ0BIAggCSARIAIgD2oQ+AIgAiAGSw0DIAYgAmsiFEEISQ0CIAggCSARIAIgDWoQ+AIgCiAMIAVBA3IgGWxqIgJJDQAgCiACayIUQQhJDQEgCCAJIBEgAiAPahD4AiACIAZLDQMgBiACayIUQQhJDQIgCCAJIBEgAiANahD4AiAKIAwgBUEEciAZbGoiAkkNACAKIAJrIhRBCEkNASAIIAkgESACIA9qEPgCIAIgBksNAyAGIAJrIhRBCEkNAiAIIAkgESACIA1qEPgCIAogDCAFQQVyIBlsaiICSQ0AIAogAmsiFEEISQ0BIAggCSARIAIgD2oQ+AIgAiAGSw0DIAYgAmsiFEEISQ0CIAggCSARIAIgDWoQ+AIgCiAMIAVBBnIgGWxqIgJJDQAgCiACayIUQQhJDQEgCCAJIBEgAiAPahD4AiACIAZLDQMgBiACayIUQQhJDQIgCCAJIBEgAiANahD4AiAKIAwgBUEHciAZbGoiAkkNACAKIAJrIhRBCEkNASAIIAkgESACIA9qEPgCIAIgBksNAyAGIAJrIhRBCEkNAiAIIAkgESACIA1qEPgCDAQLIAIgCiAKQZinxgAQ6gcAC0EAQQggFEHopsYAEOoHAAtBAEEIIBRB+KbGABDqBwALIAIgBiAGQYinxgAQ6gcACyAWQQFxDQBBACEWDAELIANBBHQhCiAHQQR0Ig0gDmwhFCABKAIEIQYgASgCCCECAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCABLQAqRQRAIAYgCiAUaiIPaiETQQAhBkEAIAcgEmxBCHQgCmprIQVBACANQQFqIBJsIi5BBHQgCmoiL2shGkEAIA1BAmogEmwiMEEEdCAKaiIxayEMQQAgDUEDaiASbCIyQQR0IApqIjNrIRRBACANQQRqIBJsIjRBBHQgCmoiNWshFkEAIA1BBWogEmwiNkEEdCAKaiI3ayEYQQAgDUEGaiASbCI4QQR0IApqIjlrISZBACANQQdqIBJsIh1BBHQgCmoiHmshIkEAIA1BCGogEmwiOkEEdCAKaiIXayEbQQAgDUEJaiASbCIcQQR0IApqIjxrISdBACANQQpqIBJsIj1BBHQgCmoiPmshKEEAIA1BC2ogEmwiP0EEdCAKaiJAayEpQQAgDUEMaiASbCIkQQR0IApqIkFrISpBACANQQ1qIBJsIkJBBHQgCmoiQ2shK0EAIA1BDmogEmwiREEEdCAKaiIjayEsQQAgDUEPaiASbCIlQQR0IApqIkVrIS0DQCAGIA9qIg0gAksNESACIAVqIg1BB00NFCAIIAkgECAGIBNqIh8QlAQgBiAvaiACSw0QIAIgGmoiDUEISQ0UIAggCSAQIA4gH2oiHxCUBCAGIDFqIAJLDQ8gAiAMaiINQQhJDRQgCCAJIBAgDiAfaiIfEJQEIAYgM2ogAksNDiACIBRqIg1BCEkNFCAIIAkgECAOIB9qIh8QlAQgBiA1aiACSw0NIAIgFmoiDUEISQ0UIAggCSAQIA4gH2oiHxCUBCAGIDdqIAJLDQwgAiAYaiINQQhJDRQgCCAJIBAgDiAfaiIfEJQEIAYgOWogAksNCyACICZqIg1BCEkNFCAIIAkgECAOIB9qIh8QlAQgBiAeaiACSw0KIAIgImoiDUEISQ0UIAggCSAQIA4gH2oiHxCUBCAGIBdqIAJLDQkgAiAbaiINQQhJDRQgCCAJIBAgDiAfaiIfEJQEIAYgPGogAksNCCACICdqIg1BCEkNFCAIIAkgECAOIB9qIh8QlAQgBiA+aiACSw0HIAIgKGoiDUEISQ0UIAggCSAQIA4gH2oiHxCUBCAGIEBqIAJLDQYgAiApaiINQQhJDRQgCCAJIBAgDiAfaiIfEJQEIAYgQWogAksNBSACICpqIg1BCEkNFCAIIAkgECAOIB9qIh8QlAQgBiBDaiACSw0EIAIgK2oiDUEISQ0UIAggCSAQIA4gH2oiHxCUBCAGICNqIAJLDQMgAiAsaiINQQhJDRQgCCAJIBAgDiAfaiIfEJQEIAYgRWogAksNAiACIC1qIg1BCEkNFCAIIAkgECAOIB9qEJQEIAVBBGshBSAaQQRrIRogDEEEayEMIBRBBGshFCAWQQRrIRYgGEEEayEYICZBBGshJiAiQQRrISIgG0EEayEbICdBBGshJyAoQQRrISggKUEEayEpICpBBGshKiArQQRrISsgLEEEayEsIC1BBGshLSAGQQRqIgZBDEcNAAsMEQsgEEH/AXEhDyAGIAogFGoiPGohPUEAIAcgEmxBCHQgCmprIRogBiANQQFqIBJsIj5BBHQgCmoiLmohP0EAIC5rIQwgBiANQQJqIBJsIkBBBHQgCmoiL2ohJEEAIC9rIRQgBiANQQNqIBJsIkFBBHQgCmoiMGohQkEAIDBrIRYgBiANQQRqIBJsIkNBBHQgCmoiMWohREEAIDFrIRggBiANQQVqIBJsIiNBBHQgCmoiMmohJUEAIDJrISYgBiANQQZqIBJsIkVBBHQgCmoiM2ohH0EAIDNrISIgBiANQQdqIBJsIklBBHQgCmoiNGohSkEAIDRrIRsgBiANQQhqIBJsIktBBHQgCmoiNWohTEEAIDVrIScgBiANQQlqIBJsIk1BBHQgCmoiNmohTkEAIDZrISggBiANQQpqIBJsIk9BBHQgCmoiN2ohUEEAIDdrISkgBiANQQtqIBJsIlFBBHQgCmoiOGohUkEAIDhrISogBiANQQxqIBJsIlNBBHQgCmoiOWohVEEAIDlrISsgBiANQQ1qIBJsIlVBBHQgCmoiHWohVkEAIB1rISwgBiANQQ5qIBJsIldBBHQgCmoiHmohWEEAIB5rIS0gBiANQQ9qIBJsIllBBHQgCmoiOmohWkEAIDprIQ1BdCEGAkACfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQANAAkAgAiAGIDxqIgVBDGpPBEAgAiAaaiIFQQdLDQEMEwsgBUEMagwRCyAPIAYgPWoiBUEOai0AACAFQRFqLQAAayITIBNBH3UiF3MgF2tBAXYgBUEPaiIgLQAAIhcgBUEQaiIhLQAAIhxrIgUgBUEfdSIFcyAFa0EBdGpPBEAgIEH/AEGAfyAXQfwAQYB/IBwgF2tBA2xB/wBBgH8gEyATQYB/TBsiBSAFQf8AThtqIgUgBUGAf0wbIgUgBUH8AE4bQQNqQQN1akGAAWsiEyATQYB/TBsiEyATQf8AThtBgAFzOgAAICFB/wBBgH8gHEH7ACAFIAVB+wBOG0EEakEDdWtBgAFrIgUgBUGAf0wbIgUgBUH/AE4bQYABczoAAAsgBiAuakEMaiACSw0PIAIgDGoiBUEISQ0RIA8gBiA/aiIFQQ5qLQAAIAVBEWotAABrIhMgE0EfdSIXcyAXa0EBdiAFQQ9qIiAtAAAiFyAFQRBqIiEtAAAiHGsiBSAFQR91IgVzIAVrQQF0ak8EQCAgQf8AQYB/IBdB/ABBgH8gHCAXa0EDbEH/AEGAfyATIBNBgH9MGyIFIAVB/wBOG2oiBSAFQYB/TBsiBSAFQfwAThtBA2pBA3VqQYABayITIBNBgH9MGyITIBNB/wBOG0GAAXM6AAAgIUH/AEGAfyAcQfsAIAUgBUH7AE4bQQRqQQN1a0GAAWsiBSAFQYB/TBsiBSAFQf8AThtBgAFzOgAACyAGIC9qQQxqIAJLDQ4gAiAUaiIFQQhJDREgDyAGICRqIgVBDmotAAAgBUERai0AAGsiEyATQR91IhdzIBdrQQF2IAVBD2oiIC0AACIXIAVBEGoiIS0AACIcayIFIAVBH3UiBXMgBWtBAXRqTwRAICBB/wBBgH8gF0H8AEGAfyAcIBdrQQNsQf8AQYB/IBMgE0GAf0wbIgUgBUH/AE4baiIFIAVBgH9MGyIFIAVB/ABOG0EDakEDdWpBgAFrIhMgE0GAf0wbIhMgE0H/AE4bQYABczoAACAhQf8AQYB/IBxB+wAgBSAFQfsAThtBBGpBA3VrQYABayIFIAVBgH9MGyIFIAVB/wBOG0GAAXM6AAALIAYgMGpBDGogAksNDSACIBZqIgVBCEkNESAPIAYgQmoiBUEOai0AACAFQRFqLQAAayITIBNBH3UiF3MgF2tBAXYgBUEPaiIgLQAAIhcgBUEQaiIhLQAAIhxrIgUgBUEfdSIFcyAFa0EBdGpPBEAgIEH/AEGAfyAXQfwAQYB/IBwgF2tBA2xB/wBBgH8gEyATQYB/TBsiBSAFQf8AThtqIgUgBUGAf0wbIgUgBUH8AE4bQQNqQQN1akGAAWsiEyATQYB/TBsiEyATQf8AThtBgAFzOgAAICFB/wBBgH8gHEH7ACAFIAVB+wBOG0EEakEDdWtBgAFrIgUgBUGAf0wbIgUgBUH/AE4bQYABczoAAAsgBiAxakEMaiACSw0MIAIgGGoiBUEISQ0RIA8gBiBEaiIFQQ5qLQAAIAVBEWotAABrIhMgE0EfdSIXcyAXa0EBdiAFQQ9qIiAtAAAiFyAFQRBqIiEtAAAiHGsiBSAFQR91IgVzIAVrQQF0ak8EQCAgQf8AQYB/IBdB/ABBgH8gHCAXa0EDbEH/AEGAfyATIBNBgH9MGyIFIAVB/wBOG2oiBSAFQYB/TBsiBSAFQfwAThtBA2pBA3VqQYABayITIBNBgH9MGyITIBNB/wBOG0GAAXM6AAAgIUH/AEGAfyAcQfsAIAUgBUH7AE4bQQRqQQN1a0GAAWsiBSAFQYB/TBsiBSAFQf8AThtBgAFzOgAACyAGIDJqQQxqIAJLDQsgAiAmaiIFQQhJDREgDyAGICVqIgVBDmotAAAgBUERai0AAGsiEyATQR91IhdzIBdrQQF2IAVBD2oiIC0AACIXIAVBEGoiIS0AACIcayIFIAVBH3UiBXMgBWtBAXRqTwRAICBB/wBBgH8gF0H8AEGAfyAcIBdrQQNsQf8AQYB/IBMgE0GAf0wbIgUgBUH/AE4baiIFIAVBgH9MGyIFIAVB/ABOG0EDakEDdWpBgAFrIhMgE0GAf0wbIhMgE0H/AE4bQYABczoAACAhQf8AQYB/IBxB+wAgBSAFQfsAThtBBGpBA3VrQYABayIFIAVBgH9MGyIFIAVB/wBOG0GAAXM6AAALIAYgM2pBDGogAksNCiACICJqIgVBCEkNESAPIAYgH2oiBUEOai0AACAFQRFqLQAAayITIBNBH3UiF3MgF2tBAXYgBUEPaiIgLQAAIhcgBUEQaiIhLQAAIhxrIgUgBUEfdSIFcyAFa0EBdGpPBEAgIEH/AEGAfyAXQfwAQYB/IBwgF2tBA2xB/wBBgH8gEyATQYB/TBsiBSAFQf8AThtqIgUgBUGAf0wbIgUgBUH8AE4bQQNqQQN1akGAAWsiEyATQYB/TBsiEyATQf8AThtBgAFzOgAAICFB/wBBgH8gHEH7ACAFIAVB+wBOG0EEakEDdWtBgAFrIgUgBUGAf0wbIgUgBUH/AE4bQYABczoAAAsgBiA0akEMaiACSw0JIAIgG2oiBUEISQ0RIA8gBiBKaiIFQQ5qLQAAIAVBEWotAABrIhMgE0EfdSIXcyAXa0EBdiAFQQ9qIiAtAAAiFyAFQRBqIiEtAAAiHGsiBSAFQR91IgVzIAVrQQF0ak8EQCAgQf8AQYB/IBdB/ABBgH8gHCAXa0EDbEH/AEGAfyATIBNBgH9MGyIFIAVB/wBOG2oiBSAFQYB/TBsiBSAFQfwAThtBA2pBA3VqQYABayITIBNBgH9MGyITIBNB/wBOG0GAAXM6AAAgIUH/AEGAfyAcQfsAIAUgBUH7AE4bQQRqQQN1a0GAAWsiBSAFQYB/TBsiBSAFQf8AThtBgAFzOgAACyAGIDVqQQxqIAJLDQggAiAnaiIFQQhJDREgDyAGIExqIgVBDmotAAAgBUERai0AAGsiEyATQR91IhdzIBdrQQF2IAVBD2oiIC0AACIXIAVBEGoiIS0AACIcayIFIAVBH3UiBXMgBWtBAXRqTwRAICBB/wBBgH8gF0H8AEGAfyAcIBdrQQNsQf8AQYB/IBMgE0GAf0wbIgUgBUH/AE4baiIFIAVBgH9MGyIFIAVB/ABOG0EDakEDdWpBgAFrIhMgE0GAf0wbIhMgE0H/AE4bQYABczoAACAhQf8AQYB/IBxB+wAgBSAFQfsAThtBBGpBA3VrQYABayIFIAVBgH9MGyIFIAVB/wBOG0GAAXM6AAALIAYgNmpBDGogAksNByACIChqIgVBCEkNESAPIAYgTmoiBUEOai0AACAFQRFqLQAAayITIBNBH3UiF3MgF2tBAXYgBUEPaiIgLQAAIhcgBUEQaiIhLQAAIhxrIgUgBUEfdSIFcyAFa0EBdGpPBEAgIEH/AEGAfyAXQfwAQYB/IBwgF2tBA2xB/wBBgH8gEyATQYB/TBsiBSAFQf8AThtqIgUgBUGAf0wbIgUgBUH8AE4bQQNqQQN1akGAAWsiEyATQYB/TBsiEyATQf8AThtBgAFzOgAAICFB/wBBgH8gHEH7ACAFIAVB+wBOG0EEakEDdWtBgAFrIgUgBUGAf0wbIgUgBUH/AE4bQYABczoAAAsgBiA3akEMaiACSw0GIAIgKWoiBUEISQ0RIA8gBiBQaiIFQQ5qLQAAIAVBEWotAABrIhMgE0EfdSIXcyAXa0EBdiAFQQ9qIiAtAAAiFyAFQRBqIiEtAAAiHGsiBSAFQR91IgVzIAVrQQF0ak8EQCAgQf8AQYB/IBdB/ABBgH8gHCAXa0EDbEH/AEGAfyATIBNBgH9MGyIFIAVB/wBOG2oiBSAFQYB/TBsiBSAFQfwAThtBA2pBA3VqQYABayITIBNBgH9MGyITIBNB/wBOG0GAAXM6AAAgIUH/AEGAfyAcQfsAIAUgBUH7AE4bQQRqQQN1a0GAAWsiBSAFQYB/TBsiBSAFQf8AThtBgAFzOgAACyAGIDhqQQxqIAJLDQUgAiAqaiIFQQhJDREgDyAGIFJqIgVBDmotAAAgBUERai0AAGsiEyATQR91IhdzIBdrQQF2IAVBD2oiIC0AACIXIAVBEGoiIS0AACIcayIFIAVBH3UiBXMgBWtBAXRqTwRAICBB/wBBgH8gF0H8AEGAfyAcIBdrQQNsQf8AQYB/IBMgE0GAf0wbIgUgBUH/AE4baiIFIAVBgH9MGyIFIAVB/ABOG0EDakEDdWpBgAFrIhMgE0GAf0wbIhMgE0H/AE4bQYABczoAACAhQf8AQYB/IBxB+wAgBSAFQfsAThtBBGpBA3VrQYABayIFIAVBgH9MGyIFIAVB/wBOG0GAAXM6AAALIAYgOWpBDGogAksNBCACICtqIgVBCEkNESAPIAYgVGoiBUEOai0AACAFQRFqLQAAayITIBNBH3UiF3MgF2tBAXYgBUEPaiIgLQAAIhcgBUEQaiIhLQAAIhxrIgUgBUEfdSIFcyAFa0EBdGpPBEAgIEH/AEGAfyAXQfwAQYB/IBwgF2tBA2xB/wBBgH8gEyATQYB/TBsiBSAFQf8AThtqIgUgBUGAf0wbIgUgBUH8AE4bQQNqQQN1akGAAWsiEyATQYB/TBsiEyATQf8AThtBgAFzOgAAICFB/wBBgH8gHEH7ACAFIAVB+wBOG0EEakEDdWtBgAFrIgUgBUGAf0wbIgUgBUH/AE4bQYABczoAAAsgBiAdakEMaiACSw0DIAIgLGoiBUEISQ0RIA8gBiBWaiIFQQ5qLQAAIAVBEWotAABrIhMgE0EfdSIXcyAXa0EBdiAFQQ9qIiAtAAAiFyAFQRBqIiEtAAAiHGsiBSAFQR91IgVzIAVrQQF0ak8EQCAgQf8AQYB/IBdB/ABBgH8gHCAXa0EDbEH/AEGAfyATIBNBgH9MGyIFIAVB/wBOG2oiBSAFQYB/TBsiBSAFQfwAThtBA2pBA3VqQYABayITIBNBgH9MGyITIBNB/wBOG0GAAXM6AAAgIUH/AEGAfyAcQfsAIAUgBUH7AE4bQQRqQQN1a0GAAWsiBSAFQYB/TBsiBSAFQf8AThtBgAFzOgAACyAGIB5qQQxqIAJLDQIgAiAtaiIFQQhJDREgDyAGIFhqIgVBDmotAAAgBUERai0AAGsiEyATQR91IhdzIBdrQQF2IAVBD2oiIC0AACIXIAVBEGoiIS0AACIcayIFIAVBH3UiBXMgBWtBAXRqTwRAICBB/wBBgH8gF0H8AEGAfyAcIBdrQQNsQf8AQYB/IBMgE0GAf0wbIgUgBUH/AE4baiIFIAVBgH9MGyIFIAVB/ABOG0EDakEDdWpBgAFrIhMgE0GAf0wbIhMgE0H/AE4bQYABczoAACAhQf8AQYB/IBxB+wAgBSAFQfsAThtBBGpBA3VrQYABayIFIAVBgH9MGyIFIAVB/wBOG0GAAXM6AAALIAYgOmpBDGogAksNASACIA1qIgVBCEkNESAPIAYgWmoiBUEOai0AACAFQRFqLQAAayITIBNBH3UiF3MgF2tBAXYgBUEPaiIgLQAAIhcgBUEQaiIhLQAAIhxrIgUgBUEfdSIFcyAFa0EBdGpPBEAgIEH/AEGAfyAXQfwAQYB/IBwgF2tBA2xB/wBBgH8gEyATQYB/TBsiBSAFQf8AThtqIgUgBUGAf0wbIgUgBUH8AE4bQQNqQQN1akGAAWsiEyATQYB/TBsiEyATQf8AThtBgAFzOgAAICFB/wBBgH8gHEH7ACAFIAVB+wBOG0EEakEDdWtBgAFrIgUgBUGAf0wbIgUgBUH/AE4bQYABczoAAAsgGkEEayEaIAxBBGshDCAUQQRrIRQgFkEEayEWIBhBBGshGCAmQQRrISYgIkEEayEiIBtBBGshGyAnQQRrIScgKEEEayEoIClBBGshKSAqQQRrISogK0EEayErICxBBGshLCAtQQRrIS0gDUEEayENIAZBBGoiBg0AC0EBIRYMIgsgWUEEdCAKaiAGakEMagwOCyBXQQR0IApqIAZqQQxqDA0LIFVBBHQgCmogBmpBDGoMDAsgU0EEdCAKaiAGakEMagwLCyBRQQR0IApqIAZqQQxqDAoLIE9BBHQgCmogBmpBDGoMCQsgTUEEdCAKaiAGakEMagwICyBLQQR0IApqIAZqQQxqDAcLIElBBHQgCmogBmpBDGoMBgsgRUEEdCAKaiAGakEMagwFCyAjQQR0IApqIAZqQQxqDAQLIENBBHQgCmogBmpBDGoMAwsgQUEEdCAKaiAGakEMagwCCyBAQQR0IApqIAZqQQxqDAELID5BBHQgCmogBmpBDGoLIAIgAkG4qMYAEOoHAAtBAEEIIAVBqKjGABDqBwALICVBBHQgCmogBmohDQwOCyBEQQR0IApqIAZqIQ0MDQsgQkEEdCAKaiAGaiENDAwLICRBBHQgCmogBmohDQwLCyA/QQR0IApqIAZqIQ0MCgsgPUEEdCAKaiAGaiENDAkLIBxBBHQgCmogBmohDQwICyA6QQR0IApqIAZqIQ0MBwsgHUEEdCAKaiAGaiENDAYLIDhBBHQgCmogBmohDQwFCyA2QQR0IApqIAZqIQ0MBAsgNEEEdCAKaiAGaiENDAMLIDJBBHQgCmogBmohDQwCCyAwQQR0IApqIAZqIQ0MAQsgLkEEdCAKaiAGaiENCyANIAIgAkGYqMYAEOoHAAsCQAJAIAEoAhQiCiADQQN0IgwgB0EDdCIFIBlsaiICSQ0AAkACQCAKIAJrIhRBB00NACABKAIcIQ0gASgCICEGIAggCSAQIAEoAhAiDyACahCUBCACIAZLDQMgBiACayIUQQdNDQEgCCAJIBAgAiANahCUBCAKIAVBAXIgGWwgDGoiAkkNAiAKIAJrIhRBCEkNACAIIAkgECACIA9qEJQEIAIgBksNAyAGIAJrIhRBCEkNASAIIAkgECACIA1qEJQEIAogBUECciAZbCAMaiICSQ0CIAogAmsiFEEISQ0AIAggCSAQIAIgD2oQlAQgAiAGSw0DIAYgAmsiFEEISQ0BIAggCSAQIAIgDWoQlAQgCiAFQQNyIBlsIAxqIgJJDQIgCiACayIUQQhJDQAgCCAJIBAgAiAPahCUBCACIAZLDQMgBiACayIUQQhJDQEgCCAJIBAgAiANahCUBCAKIAVBBHIgGWwgDGoiAkkNAiAKIAJrIhRBCEkNACAIIAkgECACIA9qEJQEIAIgBksNAyAGIAJrIhRBCEkNASAIIAkgECACIA1qEJQEIAogBUEFciAZbCAMaiICSQ0CIAogAmsiFEEISQ0AIAggCSAQIAIgD2oQlAQgAiAGSw0DIAYgAmsiFEEISQ0BIAggCSAQIAIgDWoQlAQgCiAFQQZyIBlsIAxqIgJJDQIgCiACayIUQQhJDQAgCCAJIBAgAiAPahCUBCACIAZLDQMgBiACayIUQQhJDQEgCCAJIBAgAiANahCUBCAKIAVBB3IgGWwgDGoiAkkNAiAKIAJrIhRBCEkNACAIIAkgECACIA9qEJQEIAIgBksNAyAGIAJrIhRBCEkNASAIIAkgECACIA1qEJQEQQEhFgwEC0EAQQggFEHIp8YAEOoHAAtBAEEIIBRB2KfGABDqBwALIAIgCiAKQfinxgAQ6gcACyACIAYgBkHop8YAEOoHAAsCQCAHRQ0AIAcgDmxBBHQgA0EEdGoiCkEPciENIApBDnIhFCAKQQ1yIQwgCkEMciEFIApBC3IhDyAKQQpyIRogCkEJciEYIApBCHIhJiAKQQdyISIgCkEGciEbIApBBXIhJyAKQQRyISggCkEDciEpIApBAnIhKiAKQQFyISsgASgCCCEGIAEoAgQhAiABLQAqRQRAIAggCSARIAIgBiAKIA4Q+gIgCCAJIBEgAiAGICsgDhD6AiAIIAkgESACIAYgKiAOEPoCIAggCSARIAIgBiApIA4Q+gIgCCAJIBEgAiAGICggDhD6AiAIIAkgESACIAYgJyAOEPoCIAggCSARIAIgBiAbIA4Q+gIgCCAJIBEgAiAGICIgDhD6AiAIIAkgESACIAYgJiAOEPoCIAggCSARIAIgBiAYIA4Q+gIgCCAJIBEgAiAGIBogDhD6AiAIIAkgESACIAYgDyAOEPoCIAggCSARIAIgBiAFIA4Q+gIgCCAJIBEgAiAGIAwgDhD6AiAIIAkgESACIAYgFCAOEPoCIAggCSARIAIgBiANIA4Q+gIgASgCICEGIAEoAhwhAiAIIAkgESABKAIQIg0gASgCFCIUIAcgGWxBA3QgA0EDdGoiCiAZEPoCIAggCSARIAIgBiAKIBkQ+gIgCCAJIBEgDSAUIApBAXIiDCAZEPoCIAggCSARIAIgBiAMIBkQ+gIgCCAJIBEgDSAUIApBAnIiDCAZEPoCIAggCSARIAIgBiAMIBkQ+gIgCCAJIBEgDSAUIApBA3IiDCAZEPoCIAggCSARIAIgBiAMIBkQ+gIgCCAJIBEgDSAUIApBBHIiDCAZEPoCIAggCSARIAIgBiAMIBkQ+gIgCCAJIBEgDSAUIApBBXIiDCAZEPoCIAggCSARIAIgBiAMIBkQ+gIgCCAJIBEgDSAUIApBBnIiDCAZEPoCIAggCSARIAIgBiAMIBkQ+gIgCCAJIBEgDSAUIApBB3IiCiAZEPoCIAggCSARIAIgBiAKIBkQ+gIMAQsgESACIAYgCiAOEOEFIBEgAiAGICsgDhDhBSARIAIgBiAqIA4Q4QUgESACIAYgKSAOEOEFIBEgAiAGICggDhDhBSARIAIgBiAnIA4Q4QUgESACIAYgGyAOEOEFIBEgAiAGICIgDhDhBSARIAIgBiAmIA4Q4QUgESACIAYgGCAOEOEFIBEgAiAGIBogDhDhBSARIAIgBiAPIA4Q4QUgESACIAYgBSAOEOEFIBEgAiAGIAwgDhDhBSARIAIgBiAUIA4Q4QUgESACIAYgDSAOEOEFCyAWRQ0DIANBBHQhESAHQQR0IQogASgCCCEGIAEoAgQhAiABLQAqRQRAIBJBBnQhFCAKQQRqIBJsQQR0IBFqQQ9qIQ1BfSEFA0AgCCAJIBAgAiAGIA1BD2sgDhDgBCAIIAkgECACIAYgDUEOayAOEOAEIAggCSAQIAIgBiANQQ1rIA4Q4AQgCCAJIBAgAiAGIA1BDGsgDhDgBCAIIAkgECACIAYgDUELayAOEOAEIAggCSAQIAIgBiANQQprIA4Q4AQgCCAJIBAgAiAGIA1BCWsgDhDgBCAIIAkgECACIAYgDUEIayAOEOAEIAggCSAQIAIgBiANQQdrIA4Q4AQgCCAJIBAgAiAGIA1BBmsgDhDgBCAIIAkgECACIAYgDUEFayAOEOAEIAggCSAQIAIgBiANQQRrIA4Q4AQgCCAJIBAgAiAGIA1BA2sgDhDgBCAIIAkgECACIAYgDUECayAOEOAEIAggCSAQIAIgBiANQQFrIA4Q4AQgCCAJIBAgAiAGIA0gDhDgBCANIBRqIQ0gBUEBaiIFDQALIAEoAiAhBiABKAIcIQIgCCAJIBAgASgCECIRIAEoAhQiCiAZIAdBA3RBBHJsIANBA3RqIg4gGRDgBCAIIAkgECACIAYgDiAZEOAEIAggCSAQIBEgCiAOQQFyIg0gGRDgBCAIIAkgECACIAYgDSAZEOAEIAggCSAQIBEgCiAOQQJyIg0gGRDgBCAIIAkgECACIAYgDSAZEOAEIAggCSAQIBEgCiAOQQNyIg0gGRDgBCAIIAkgECACIAYgDSAZEOAEIAggCSAQIBEgCiAOQQRyIg0gGRDgBCAIIAkgECACIAYgDSAZEOAEIAggCSAQIBEgCiAOQQVyIg0gGRDgBCAIIAkgECACIAYgDSAZEOAEIAggCSAQIBEgCiAOQQZyIg0gGRDgBCAIIAkgECACIAYgDSAZEOAEIAggCSAQIBEgCiAOQQdyIg4gGRDgBCAIIAkgECACIAYgDiAZEOAEDAQLIBJBBnQhDSAKQQRqIBJsQQR0IBFqQQ9qIQlBfSEIA0AgECACIAYgCUEPayAOEOEFIBAgAiAGIAlBDmsgDhDhBSAQIAIgBiAJQQ1rIA4Q4QUgECACIAYgCUEMayAOEOEFIBAgAiAGIAlBC2sgDhDhBSAQIAIgBiAJQQprIA4Q4QUgECACIAYgCUEJayAOEOEFIBAgAiAGIAlBCGsgDhDhBSAQIAIgBiAJQQdrIA4Q4QUgECACIAYgCUEGayAOEOEFIBAgAiAGIAlBBWsgDhDhBSAQIAIgBiAJQQRrIA4Q4QUgECACIAYgCUEDayAOEOEFIBAgAiAGIAlBAmsgDhDhBSAQIAIgBiAJQQFrIA4Q4QUgECACIAYgCSAOEOEFIAkgDWohCSAIQQFqIggNAAsMAwtBAEEIIA1BiKjGABDqBwALQQBBCCAMQcioxgAQ6gcAC0EAQQggDEGop8YAEOoHAAsgA0EBaiIDIEhHDQEMAgsLIAYgCUHoqMYAEIwHAAsgB0EBaiEHIAsgCyBHSSIGaiEDIAYNAAsLIAAgAf0AAgD9CwIAIABBIGogAUEgav0AAgD9CwIAIABBEGogAUEQav0AAgD9CwIAIAEoAnQiAARAIBUoAgAgAEECdEEBEKIHCyABKAKQBCIABEAgASgClAQgAEEebEEBEKIHCyBdEL8CIAEoAvAEQYAhQQEQogcgASgCnAQiAARAIAEoAqAEIABBHmxBARCiBwsgASgCqAQiAARAIAEoAqwEIABBARCiBwsgASgCtAQiAARAIAEoArgEIABBARCiBwsgASgCwAQiAARAIAEoAsQEIABBARCiBwsgASgCzAQiAARAIAEoAtAEIABBARCiBwsgASgC2AQiAEUNBCABKALcBCAAQQEQogcMBAsgekIgiKchEiB6QhCIpyEVIHpCCIinIQgLCyAAIA42AhAgACADOgAIIAAgAjsBBiAAIAc6AAUgACALOgAEIABBgICAgHg2AgAgAEEPaiASQRh2rTwAACAAQQ1qIBJBCHatPQAAIAAgEkEYdK0gCEH/AXEgFUEIdHKtQv///weDhD4ACQsgASgCdCIABEAgASgCcCIGQQRrKAIAIgNBeHEiCyAAQQJ0IgBBBEEIIANBA3EiAxtqSQ0CIANBACALIABBJ2pLGw0DIAYQogILIAEoApAEIgAEQCABKAKUBCIGQQRrKAIAIgNBeHEiCyAAQR5sIgBBBEEIIANBA3EiAxtqSQ0CIANBACALIABBJ2pLGw0DIAYQogILIAEoAgAiAARAIAEoAgQiBkEEaygCACIDQXhxIgtBBEEIIANBA3EiAxsgAGpJDQIgA0EAIAsgAEEnaksbDQMgBhCiAgsgASgCDCIABEAgASgCECIGQQRrKAIAIgNBeHEiC0EEQQggA0EDcSIDGyAAakkNAiADQQAgCyAAQSdqSxsNAyAGEKICCyABKAIYIgAEQCABKAIcIgZBBGsoAgAiA0F4cSILQQRBCCADQQNxIgMbIABqSQ0CIANBACALIABBJ2pLGw0DIAYQogILIAFBmAFqEL8CIAEoAvAEIgZBBGsoAgAiAEF4cUGEIUGIISAAQQNxIgMbSQ0BIANBACAAQaghTxsNAiAGEKICIAEoApwEIgAEQCABKAKgBCIGQQRrKAIAIgNBeHEiCyAAQR5sIgBBBEEIIANBA3EiAxtqSQ0CIANBACALIABBJ2pLGw0DIAYQogILIAEoAqgEIgAEQCABKAKsBCIGQQRrKAIAIgNBeHEiC0EEQQggA0EDcSIDGyAAakkNAiADQQAgCyAAQSdqSxsNAyAGEKICCyABKAK0BCIABEAgASgCuAQiBkEEaygCACIDQXhxIgtBBEEIIANBA3EiAxsgAGpJDQIgA0EAIAsgAEEnaksbDQMgBhCiAgsgASgCwAQiAARAIAEoAsQEIgZBBGsoAgAiA0F4cSILQQRBCCADQQNxIgMbIABqSQ0CIANBACALIABBJ2pLGw0DIAYQogILIAEoAswEIgAEQCABKALQBCIGQQRrKAIAIgNBeHEiC0EEQQggA0EDcSIDGyAAakkNAiADQQAgCyAAQSdqSxsNAyAGEKICCyABKALYBCIARQ0AIAEoAtwEIgZBBGsoAgAiA0F4cSILQQRBCCADQQNxIgMbIABqSQ0BIANBACALIABBJ2pLGw0CIAYQogILAkAgASgC5AQiAARAIAEoAugEIgFBBGsoAgAiBkF4cSIDQQRBCCAGQQNxIgYbIABqSQ0CIAZBACADIABBJ2pLGw0BIAEQogILIARBsBlqJAAPCwwBC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAu6pAECEX8BfiMAQbABayIGJAAgAy0AACIPQRh0IAMtAAMiB0EYdCINIA9yIAMtAAEiCkEIdCIRIAMtAAIiCUEQdCIMcnIiCEGA/gNxQQh0ciAMQQh2IAdyciEDAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAYCfwJAAkACQAJAAkACQAJAAkACQCAGAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAi0AAEEBaw4FBAABAgwDCyABQgA3A4ADIAEgAzYC/AIgAUEDOgD4AiAAQQA6AAggACAFNgIEIABBADYCAAxLCyACKAIEIQsgASgCCEECRiAPIBFyIAwgDXJyIgNByZCRkgVHcQ0DIAMgASgC2AIiCEcNBAxJCyACKAABIREgAS0AkQMNBCABKALQAiICIANGDQQgAS0AlANBAUZBACARQSBxGw0FIAAgETYCECAAIAI2AgwgACADNgIIIABBADoABCAAQQE2AgAMSQsgCEGJobm6BEcEQCAAQQE2AgAgAEEBOgAEDEkLIAFCADcDgAMgAUEBOgD4AiAAQQA6AAggACAFNgIEIABBADYCAAxICyAIQY2U6NAARwRAIABBATYCACAAQQE6AAQMSAsgAUIANwOAAyABQQI6APgCIABBADoACCAAIAU2AgQgAEEANgIADEcLIAAgAzYABSAAQQQ6AAQgAEEBNgIADEYLIAhB5siFogVHIAhByYiFogVHcQ1EAkAgBARAIAZBQGshCCABKALwAiENIAEtAPQCIQwjAEEQayILJAACQAJAIAxBAXFFDQAgDS0AowdBB0YNAAJAIAQoAgwiECgCACISIAQoAgQiDEcEQCAMIAQoAggiESgCACIOSQ0BIAtBBGogDUEBQQAgBCgCACAOaiAMIA5rIBIgDmtBABBCIAstAAQEQCAIIAstAAU6AAEgCEEcOgAADAQLIBAgECgCACALKAIMaiIENgIAIA0tAKMHQQdGBEAgESAENgIAIAhBqAI7AQAMBAsgBCAMRwRAIAhBnAI7AQAMBAsgCEEoOwEAIBEgDEGAgAJrIgRBACAEIAxNGyIEIBEoAgAiCCAEIAhLGzYCAAwDCyAIQagCOwEADAILIA4gDCAMQeCQxQAQ6gcACyAIQagCOwEACyALQRBqJAAgBi0AQSEEIAYtAEAiCEEoRg0BIAAgBikBQjcBBiAAQQxqIAZByABqKQEANwEAIAAgBDoABSAAIAg6AAQgAEEBNgIADEcLIAEgBzoAgwMgASAJOgCCAyABIAo6AIEDIAEgDzoAgAMgAUEEIAVrNgKEAyABIAIpAgA3A/gCDEQLIAEgBzoAgwMgASAJOgCCAyABIAo6AIEDIAEgDzoAgAMgAUEEIAVrNgKEAyABIAIpAgA3A/gCIARBAXENQyAAQQU6AAggAEIANwIADEULIAEtAOwCQQFrDgICAwELIAFCADcDgAMgAUECOgD4AiAAIBE2AAkgAEEDOgAIIAAgBTYCBCAAQQA2AgAMQwsgBiARNgIkIBFBGHYhByARQRB2IQIgEUEIdiEEAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIBFB/wFxQckAaw4yAG9vb29vbwFvb29vb29vb29vb29vb29vBwoIbwsCBm8Mb29vCW9vBW9vAwRvb29vbw1vCyAEQf8BcUHEAGsOBQ8Obm4NbgsgBEH/AXFBzABHIAJB/wFxQdQAR3IgB0HFAEdyDW0gASgCCEECRg0zIAEoAuABQYGAgIB4Rg0QIAZB0JjRqgQ2AClBCSECIAZBCToAKAxkCyAEQf8BcUHjAGsOAhEQbAsgBEH/AXFBwgBrIgRFDREgBEEQRg0SDGsLIARB/wFxQcUAayIERQ0VIARBDUYNFAxqCyAHQfMARyAEQf8BcUHIAEdyIAJB/wFxQdkAR3INaSABKAIIQQJGDTogAS0AjAMNOyABLQCcAkECRg0XIAZB8JDlmgc2AClBCSECIAZBCToAKAxgCyAHQcEARyAEQf8BcUHBAEdyIAJB/wFxQc0AR3INaCABKAIIIgJBAkYNOyABLQCMAw08IAJBAUcNFyAGQeeCtYoENgApQQkhAiAGQQk6ACgMXwsgB0HMAEcgBEH/AXFB4wBHciACQf8BcUHUAEdyDWcgASgCCEECRg08IAEtAIwDDT0gASgCNEUNFyAGQeHG0eIENgApQQkhAiAGQQk6ACgMXgsgBEH/AXFByABrDgUXGGZmGWYLIAdB1gBHIARB/wFxQcQAR3IgAkH/AXFBwwBHcg1lIAEoAghBAkYNQCABKAJsRQ0cIAZB7YiNsgU2AClBCSECIAZBCToAKAxcCyAHQcQARyAEQf8BcUHLAEdyIAJB/wFxQccAR3INZCABKAIIQQJGDUEgASgC7AFBgYCAgHhGDRwgBkHilp2iBDYAKUEJIQIgBkEJOgAoDFsLIAdB5gBHIARB/wFxQdgAR3IgAkH/AXFByQBHcg1jIAEoAghBAkYNQSABKAKEAkGBgICAeEYNHCAGQeWwpbIGNgApQQkhAiAGQQk6ACgMWgsgBEH/AXFBwwBrIgRFDRwgBEERRg1HDGILIAdB9ABHIARB/wFxQdQAR3INYSACQf8BcUHYAEYNHAxhCyACQf8BcUHEAEcgB0HSAEdyDWAgASgCCEECRg0CIAZByZCRkgU2AClBCQxaCyACQf8BcUHOAEcgB0HEAEdyDV8MXQsgAkH/AXFBwQBHIAdB1ABHcg1eDFwLAkACQCABKALoAiIEQQNNBEBBqJDIACkDACIXpyICQf8BcUEERg0BIAZBL2ogAkEYdjoAACAGIAI6ACwgBkEkOgAoIAYgAkEIdjsALSAGIBdCIIinIgg2AjAMSgsgBEF8cUEERgRAQaiQyAApAwAiF6ciAkH/AXFBBEYNASAGQS9qIAJBGHY6AAAgBiACOgAsIAZBJDoAKCAGIAJBCHY7AC0gBiAXQiCIpyIINgIwDEoLIAEoAuQCIgIoAAAiD0UNACACKAAEIggNAQtBEQxYCwJAIARBCEYEQEEAIQNBqJDIACkDACIXpyICQf8BcUEERg0BIAZBMmogF0IwiD0BACAGIAI6ACwgBkEkOgAoIAYgF0IQiD4BLiAGIBdCCIg8AC0gF0IgiKchCAxJCyACLQAIIgNBAWsiCUH/AXEiB0EPS0GLgQIgB3ZBAXFFcg0AAkACQAJAAkACfyAEQQlGBEBBACEHQaiQyAApAwAiF6ciBEH/AXFBBEcNJCACQQlqIQpBACEMQQAMAQsgAkEJai0AACIMQQZLDQEgBEEKayEHIAJBCmohCkEAQQEgDHRB1QBxDQAaIAxBA0cNAUEBCyECIANBAWsOEAEBAwEDAwMDAwMDAwMDAwIDCyAGIAw6AClBEwxbCyAMQQZNQQBBASAMdEHUAHEbDVkgAkGAgAIgCXZxQQFHDQEMWQsgAg1YCwJAIAdFBEBBACEHQaiQyAApAwAiF6ciAkH/AXFBBEYNASAGQTJqIBdCMIg9AQAgBiACOgAsIAZBJDoAKCAGIBdCEIg+AS4gBiAXQgiIPAAtIBdCIIinIQgMSgsgCi0AACICDSMgB0EBRgRAQQAhB0GokMgAKQMAIhenIgJB/wFxQQRGDQEgBkEyaiAXQjCIPQEAIAYgAjoALCAGQSQ6ACggBiAXQhCIPgEuIAYgF0IIiDwALSAXQiCIpyEIDEoLIAotAAEiAg0kIAdBAkYEQEEAIQdBqJDIACkDACIXpyICQf8BcUEERg0BIAZBMmogF0IwiD0BACAGIAI6ACwgBkEkOgAoIAYgF0IQiD4BLiAGIBdCCIg8AC0gF0IgiKchCAxKC0EAIQcCQAJAIAotAAIiAg4CAgEACyAGIAI6AClBGgxaC0EBIQcLAkAgAUEIaiIJKAIAQQJGDQACQCAJKALAASICQYKAgIB4SCACRXJFBEAgCSgCxAEiBEEEaygCACIKQXhxIgtBBEEIIApBA3EiChsgAmpJDWUgCkEAIAsgAkEnaksbDQEgBBCiAgsgCSgCzAEiAkGCgICAeEggAkVyRQRAIAkoAtABIgRBBGsoAgAiCkF4cSILQQRBCCAKQQNxIgobIAJqSQ1lIApBACALIAJBJ2pLGw0BIAQQogILIAkoAtgBIgJBgoCAgHhIIAJFckUEQCAJKALcASIEQQRrKAIAIgpBeHEiC0EEQQggCkEDcSIKGyACakkNZSAKQQAgCyACQSdqSxsNASAEEKICCyAJKALkASICQYKAgIB4SCACRXJFBEAgCSgC6AEiBEEEaygCACIKQXhxIgtBBEEIIApBA3EiChsgAmpJDWUgCkEAIAsgAkEnaksbDQEgBBCiAgsgCSgC8AEiAkGCgICAeEggAkVyRQRAIAkoAvQBIgRBBGsoAgAiCkF4cSILQQRBCCAKQQNxIgobIAJqSQ1lIApBACALIAJBJ2pLGw0BIAQQogILIAkoAvwBIgJBgoCAgHhIIAJFckUEQCAJKAKAAiIEQQRrKAIAIgpBeHEiC0EEQQggCkEDcSIKGyACakkNZSAKQQAgCyACQSdqSxsNASAEEKICCyAJKAKgASEEIAkoAqQBIgoEQCAEIQIDQCACKAIAIgsEQCACQQRqKAIAIg5BBGsoAgAiDUF4cSIQQQRBCCANQQNxIg0bIAtqSQ1nIA1BACAQIAtBJ2pLGw0DIA4QogILIAJBDGooAgAiCwRAIAJBEGooAgAiDkEEaygCACINQXhxIhBBBEEIIA1BA3EiDRsgC2pJDWcgDUEAIBAgC0EnaksbDQMgDhCiAgsgAkEYaiECIApBAWsiCg0ACwsgCSgCnAEiAgRAIARBBGsoAgAiCkF4cSILIAJBGGwiAkEEQQggCkEDcSIKG2pJDWUgCkEAIAsgAkEnaksbDQEgBBCiAgsgCSgCrAEhBCAJKAKwASIKBEAgBEEUaiECA0AgAkEEaygCACILBEAgAigCACIOQQRrKAIAIg1BeHEiEEEEQQggDUEDcSINGyALakkNZyANQQAgECALQSdqSxsNAyAOEKICCyACQRBrKAIAIgsEQCACQQxrKAIAIg5BBGsoAgAiDUF4cSIQQQRBCCANQQNxIg0bIAtqSQ1nIA1BACAQIAtBJ2pLGw0DIA4QogILIAJBHGohAiAKQQFrIgoNAAsLIAkoAqgBIgIEQCAEQQRrKAIAIgpBeHEiCyACQRxsIgJBBEEIIApBA3EiChtqSQ1lIApBACALIAJBJ2pLGw0BIAQQogILIAkoArgBIQQgCSgCvAEiCgRAIAQhAgNAIAJBEGooAgAiCwRAIAJBFGooAgAiDkEEaygCACINQXhxIhBBBEEIIA1BA3EiDRsgC2pJDWcgDUEAIBAgC0EnaksbDQMgDhCiAgsgAkEcaigCACILBEAgAkEgaigCACIOQQRrKAIAIg1BeHEiEEEEQQggDUEDcSINGyALakkNZyANQQAgECALQSdqSxsNAyAOEKICCyACQShqKAIAIgsEQCACQSxqKAIAIg5BBGsoAgAiDUF4cSIQQQRBCCANQQNxIg0bIAtqSQ1nIA1BACAQIAtBJ2pLGw0DIA4QogILIAJBBGooAgAiCwRAIAJBCGooAgAiDkEEaygCACINQXhxIhBBBEEIIA1BA3EiDRsgC2pJDWcgDUEAIBAgC0EnaksbDQMgDhCiAgsgAkE4aiECIApBAWsiCg0ACwsgCSgCtAEiAkUNASAEQQRrKAIAIglBeHEiCiACQThsIgJBBEEIIAlBA3EiCRtqSQ1kIAlBACAKIAJBJ2pLGw0AIAQQogIMAQsMZAsgASADOgDHAiABIAw6AMYCIAFBBDoAxQIgASAHOgDEAiABIAhBGHQgCEGA/gNxQQh0ciAIQQh2QYD+A3EgCEEYdnJyNgLAAiABIA9BGHQgD0GA/gNxQQh0ciAPQQh2QYD+A3EgD0EYdnJyNgK8AiABQQI6ALkCIAFBAjoAnAIgAUECNgKQAiABQYGAgIB4NgKEAiABQYGAgIB4NgL4ASABQYGAgIB4NgLsASABQYGAgIB4NgLgASABQYGAgIB4NgLUASABQoCAgICQgICAgH83AsQBIAFCgICAgMAANwK8ASABQgQ3ArQBIAFCADcCrAEgAUKAgICAwAA3AqQBIAFBADYCmAEgAUEANgJsIAFBADYCSCABQQA2AkAgAUEANgI0IAFBADYCECABQQA2AggMXAsgBiADOgApQRIMVwsgASgC6AIiB0EASA1iIAEoAuQCIQQCQCAHRQRAQQEhAgwBCyAHEHEiAkUNGQsgBwRAIAIgBCAH/AoAAAsgASAHNgLoASABIAI2AuQBIAEgBzYC4AEMTwsgB0HUAEcgAkH/AXFBwQBHcg1bDFkLIAdBzABHIAJB/wFxQdQAR3INWiABKALkAiEEAkACQAJAAkACQAJAAkACQAJAAkACQCABAn8CQAJAAkAgASgC6AIiA0EDTQRAQQAhCUGokMgAKQMAIhenIgJB/wFxQQRGDQEgBkEvaiACQRh2OgAAIAYgAjoALCAGQSQ6ACggBiACQQh2OwAtIAYgF0IgiKciCDYCMAxUCyAEKAAAIgJBGHQgAkGA/gNxQQh0ciACQQh2QYD+A3EgAkEYdnJyIQkgA0EEayEDIARBBGohByABKAIARQ0CIAMhDAwBCyADIARqIQdBACEMQQAhA0EAIAEoAgBBAUcNAhoLIAkgASgCBEEBaiIIRw0DIAwhAyAJDAELIAINAUEACzYCBCABQQE2AgAjAEEQayIEJAAgAUHwAmoiAkEAOgAEAkACQEGAgAEQcSIIRQ0AIAhBAEGAgAH8CwBBgBAQcSIMRQ0AIAxBAEGAEPwLACAEQQxqQQA7AQAgBEEANgIIIAIoAgAiAigC+AYiD0EEaygCACIKQXhxQYSAAUGIgAEgCkEDcSILG0kNayALQQAgCkGogAFPGw1sIA8QogIgAigC4AYiCgRAIAIoAuQGIg9BBGsoAgAiC0F4cSINIApBAXQiCkEEQQggC0EDcSILG2pJDWwgC0EAIA0gCkEnaksbDW0gDxCiAgsgAigC/AYiD0EEaygCACIKQXhxQYQQQYgQIApBA3EiCxtJDWsgC0EAIApBqBBPGw1sIA8QogIgAigC7AYiCgRAIAIoAvAGIg9BBGsoAgAiC0F4cSINIApBAXQiCkEEQQggC0EDcSILG2pJDWwgC0EAIA0gCkEnaksbDW0gDxCiAgsgAkEAQdgG/AsAIAJBADYClAcgAkEANgKIByACQQA6AIQHIAJBADYCgAcgAiAMNgL8BiACIAg2AvgGIAJCAjcD8AYgAkIANwPoBiACQoCAgIAgNwPgBiACQQE2AtwGIAJBJDYC2AYgAkEAOgCmByACIAQpAwA3A5gHIAJBngdqIAQpAQY3AQAgBEEQaiQADAELAAsgASABLQCMAyIQOgCOAyADQQNLDQNBACEPQaiQyAApAwAiF6ciAkH/AXFBBEcNAkEAIQhBACEMQQAhBEEAIQsMBAtBACEICyAGIAg2AjAgBiAJNgIsQQohAiAGQQo6ACgMWgsgBkEvaiACQRh2OgAAIAYgAjoALCAGQSQ6ACggBiACQQh2OwAtIAYgF0IgiKciCDYCMAxMCyAHKAAAIgJBGHQgAkGA/gNxQQh0ciACQQh2QYD+A3EgAkEYdnJyIQggA0F8cSIKQQRGBEBBACEPQaiQyAApAwAiF6ciAkH/AXFBBEYEQEEAIQxBACEEQQAhCwwCCyAGQS9qIAJBGHY6AAAgBiACOgAsIAZBJDoAKCAGIAJBCHY7AC0gBiAXQiCIpyIINgIwDEwLIAcoAAQiAkEYdCACQYD+A3FBCHRyIAJBCHZBgP4DcSACQRh2cnIhDCAKQQhGBEBBACEPQaiQyAApAwAiF6ciAkH/AXFBBEYEQEEAIQRBACELDAILIAZBL2ogAkEYdjoAACAGIAI6ACwgBkEkOgAoIAYgAkEIdjsALSAGIBdCIIinIgg2AjAMTAsgBygACCICQRh0IAJBgP4DcUEIdHIgAkEIdkGA/gNxIAJBGHZyciEEIApBDEYEQEEAIQ9BqJDIACkDACIXpyICQf8BcUEERgRAQQAhCwwCCyAGQS9qIAJBGHY6AAAgBiACOgAsIAZBJDoAKCAGIAJBCHY7AC0gBiAXQiCIpyIINgIwDEwLIAcoAAwiAkEYdCACQYD+A3FBCHRyIAJBCHZBgP4DcSACQRh2cnIhCyADQX5xIgJBEEYEQEEAIQ9BqJDIACkDACIXpyICQf8BcUEERg0BIAYgAjoALCAGQSQ6ACggBiAXQhCIPQEuIAYgF0IIiDwALSAGIBdCIIinIgg2AjAMTAsgBy8AECIKQQh0IApBCHZyIQ4gAkESRw0CQQAhD0GokMgAKQMAIhenIgJB/wFxQQRHDQELQQAhCkEAIQMMAgsgBiACOgAsIAZBJDoAKCAGIBdCEIg9AS4gBiAXQgiIPAAtIAYgF0IgiKciCDYCMAxJCyAHLwASIgJBCHQgAkEIdnIhCiADQRRGBEBBACEPQQAhA0GokMgAKQMAIhenIgJB/wFxQQRGDQEgBkEyaiAXQjCIPQEAIAYgAjoALCAGQSQ6ACggBiAXQhCIPgEuIAYgF0IIiDwALSAXQiCIpyEIDEkLIActABQiD0ECSw0BIANBFUYEQEEAIQNBqJDIACkDACIXpyICQf8BcUEERg0BIAZBMmogF0IwiD0BACAGIAI6ACwgBkEkOgAoIAYgF0IQiD4BLiAGIBdCCIg8AC0gF0IgiKchCAxJC0EAIQMCQCAHLQAVIgIOAgEAJgtBASEDCyABKAIIQQJHBEBBESECIAhFIAxFcg0CQRshAiABKALAAiIHIAtJIAwgByALa0tyDQIgASgCvAIiDSAESSAIIA0gBGtLcg0CIBBBAXEgBCALciAHIAxHckUgCCANRnFyDQMgBkEbOgAoDFULQaCSxQAQ3QkACyAGIA86AClBFCECCyAGIAI6ACgMUgsgASADOgC5AiABIA86ALgCIAEgCjsBtgIgASAOOwG0AiABIAs2ArACIAEgBDYCrAIgASAMNgKoAiABIAg2AqQCIAEgCTYCoAIMTQsgB0HUAEcgAkH/AXFByQBHcg1ZIAEoAghBAkYNISABKALgAUGBgICAeEYNASAGQfOEpaIFNgApDE8LIAdBwgBHIAJB/wFxQccAR3INWCABKAIIQQJGDSIgAS0AjAMNIyABLQDFAkEERg0BIAZB86SdkgQ2AClBCSECIAZBCToAKAxPCwJAIAEtAIwDRQRAIAEoAsgBQYGAgIB4Rg0BIAZB84SlogU2AClBCSECIAZBCToAKAxQCyAGQfOEpaIFNgApDE0LIAEoAugCIghBAEgNXSABLQDGAiECIAEtAMcCIQMgASgC5AIhBAJAIAhFBEBBASEJDAELIAgQcSIJRQ0UCyAIBEAgCSAEIAj8CgAACyAGAn8CQCAIIAJBAnQoApiPSSIERgRAQQggAyACQQNGGyECQQAhBwwBCyAGIAg2AjAgBiAENgIsIAYgAjoAKUEMDAELA0AgByAJai0AACIDQQFrQf8BcSACQf8BcUkEQCAHQQFqIgcgCEcNAQwjCwsgBiACOgAqIAYgAzoAKUENCyICOgAoIAgNFkEAIQgMTgsCQCABKALoAkUEQEEAIQdBqJDIACkDACIXpyICQf8BcUEERg0BIAZBMmogF0IwiD0BACAGIAI6ACwgBkEkOgAoIAYgF0IQiD4BLiAGIBdCCIg8AC0gF0IgiKchCAxCCyABKALkAi0AACIHQQRJDQAgBiAHOgApQRchAiAGQRc6ACgMTgsgASAHOgDFAgxJCyAHQdMARyACQf8BcUHOAEdyDVUgASgCCEECRg0hIAEoAtQBQYGAgIB4Rg0BIAZB0JjRqgQ2AClBCSECIAZBCToAKAxMCyAHQfQARyACQf8BcUHYAEdyDVQgASgCiAMiBCABKALoAiICTw0BDEgLIAEoAugCIghBAEgNWSABKALkAiEEIAEtAMcCIQMgAS0AxgIhAgJAIAhFBEBBASEHDAELIAgQcSIHRQ0QCyAIBEAgByAEIAj8CgAACwJAAkACQAJAIAIOBAEAAgMACyAGIAI6AClBECECIAZBEDoAKCAIRQ1NIAcgCEEBEKIHDE0LIAhBAk8EQCAIIQIgA0H/AXFBEEkNIwxHCyAGIAg2AjAgBkECNgIsDEQLIAhBBkkNIiADQf8BcUEQTwRAIAEgCDYC3AEMRwsgByAHLQABOgAAIAcgBy0AAzoAASAHIActAAU6AAIgAUEDNgLcAQxGCyABKALgAUGBgICAeEYNIiABLQCMA0UEQCABIAg2AtwBDEYLIAZB9KS5mgU2AClBCAxDCyABIAQgAms2AogDQZ4EIQgCQAJAIAJFDQAgASgC5AIhCUEAIQcDQCAHIAlqIgMtAAAEQCACIAdBAWoiB0cNAQwCCwtBngIhCCAHQdAAa0Gwf0sNAQsgBiAINgIoQR4hBwxLCyABKAIIQQJGDSIgB0F/cyACaiEPIANBAWohCiACIAdBAWoiDmshDUEAIQwgBkEANgKAASAGQoCAgIAQNwJ4IAZB+ABqQQAgBxDvBSAGKAKAASEDA0BBAUECIAkgDGosAAAiCEEATiIQGyILIAYoAnggA2tLBH8gBkH4AGogAyALEO8FIAYoAoABBSADCyAGKAJ8IgRqIhIgEEUEQCASIAhBvwFxOgABIAhBwAFxQQZ2QUByIQgLIAg6AAAgBiADIAtqIgM2AoABIAcgDEEBaiIMRw0AC0EAIQkgBkEANgJIIAZCgICAgBA3A0AgAiAORwRAIAZBQGtBACANEO8FIAYoAkghCQNAQQFBAiAKLAAAIgJBAE4iCBsiAyAGKAJAIAlrSwR/IAZBQGsgCSADEO8FIAYoAkgFIAkLIAYoAkRqIgcgCAR/IAIFIAcgAkG/AXE6AAEgAkHAAXFBBnZBQHILOgAAIAYgAyAJaiIJNgJIIApBAWohCiAPQQFrIg8NAAsLIAZBPGoiAiAGQYIBai8BADsBACAGIAYoAX42AjggBigCeCIPQYCAgIB4Rg1AIARBCHYhAyAGKQNAIRcgBkGkAWogAi8BADsBACAGIAYoAjg2AqABIAEoAqwBIgogASgCpAFGBEAjAEEgayICJAACQCABQaQBaiIHKAIAIgxBqtWqFUsEf0EABUEEIAxBAXQiCyALQQRNGyILQRhsIQ4gAiAMBH8gAiAMQRhsNgIcIAIgBygCBDYCFEEEBUEACzYCGCACQQhqQQQgDiACQRRqEIUHIAIoAghBAUcNASACKAIQIQcgAigCDAsgB0GAlMUAEJMJAAsgAigCDCEMIAcgCzYCACAHIAw2AgQgAkEgaiQACyABIApBAWo2AqwBIAEoAqgBIApBGGxqIgIgAzoABSACIAQ6AAQgAiAPNgIAIAIgBigCoAE2AQYgAiAJNgIUIAIgFzcBDCACQQpqIAZBpAFqLwEAOwEADD8LAkAgASgC6AIiBEEDTQRAQQAhCUEAIQNBACEHQaiQyAApAwAiF6ciAkH/AXFBBEYNASAGQS9qIAJBGHY6AAAgBiACOgAsIAZBJDoAKCAGIAJBCHY7AC0gBiAXQiCIpyIINgIwDD0LIAEoAuQCIggoAAAiAkEYdCACQYD+A3FBCHRyIAJBCHZBgP4DcSACQRh2cnIhAyAEQXxxQQRGBEBBACEJQQAhB0GokMgAKQMAIhenIgJB/wFxQQRGDQEgBkEvaiACQRh2OgAAIAYgAjoALCAGQSQ6ACggBiACQQh2OwAtIAYgF0IgiKciCDYCMAw9CyAIKAAEIgJBGHQgAkGA/gNxQQh0ciACQQh2QYD+A3EgAkEYdnJyIQkgBEEIRgRAQQAhB0GokMgAKQMAIhenIgJB/wFxQQRGDQEgBkEyaiAXQjCIPQEAIAYgAjoALCAGQSQ6ACggBiAXQhCIPgEuIAYgF0IIiDwALSAXQiCIpyEIDD0LQQAhBwJAAkAgCC0ACCICDgICAQALIAYgAjoAKUEWIQIgBkEWOgAoDEoLQQEhBwsgASAHOgCcAiABIAk2ApgCIAEgAzYClAIMRAsCQAJAIAEoAugCQQNNBEBBqJDIACkDACIXpyICQf8BcUEERg0BIAZBL2ogAkEYdjoAACAGIAI6ACwgBkEkOgAoIAYgAkEIdjsALSAGIBdCIIinIgg2AjAMPQsgASgC5AIoAAAiBw0BC0EjIQIgBkEjOgAoDEgLIAFBATYCCCABIAdBGHQgB0GA/gNxQQh0ciAHQQh2QYD+A3EgB0EYdnJyNgIMDEMLIAEoAugCIgJBA00EQEGokMgAKQMAIhenIgdB/wFxQQRGDUMgBkEvaiAHQRh2OgAAIAYgBzoALCAGQSQ6ACggBiAHQQh2OwAtIAYgF0IgiKciCDYCMAw6CyABKALkAiIEKAAAIQcgAkF8cUEERwRAIAQoAAQhAgw8C0EAIQJBqJDIACkDACIXpyIEQf8BcUEERg07IAZBL2ogBEEYdjoAACAGIAQ6ACwgBkEkOgAoIAYgBEEIdjsALSAGIBdCIIinIgg2AjAMOQsgB0HNAEcgAkH/AXFB0gBHcg1OIAEoAghBAkYNJSABLQCMAw0mIAEoAhBFDQIgBkHjkMnqBDYAKUEJIQIgBkEJOgAoDEULIAdB0ABHIAJB/wFxQcMAR3INTSABKAIIQQJGDSYgAS0AkAJBAkYNAiAGQeOSjYIFNgApQQkhAiAGQQk6ACgMRAsgB0HJAEcgAkH/AXFBzABHcg1MIAEoAghBAkYNJiABKAKYAUUNAiAGQeOYscoENgApQQkhAiAGQQk6ACgMQwsgASgC6AIiA0EDTQRAQQAhB0EAIQJBACEJQQAhA0EAIQhBACEMQQAhCkGokMgAKQMAIhenIgRB/wFxQQRGDTcgBkEvaiAEQRh2OgAAIAYgBDoALCAGQSQ6ACggBiAEQQh2OwAtIAYgF0IgiKciCDYCMAw2CyABKALkAiIEKAAAIgJBGHQgAkGA/gNxQQh0ciACQQh2QYD+A3EgAkEYdnJyIQIgA0F8cSIHQQRGBEBBACEHQQAhCUEAIQNBACEIQQAhDEEAIQpBqJDIACkDACIXpyIEQf8BcUEERg03IAZBL2ogBEEYdjoAACAGIAQ6ACwgBkEkOgAoIAYgBEEIdjsALSAGIBdCIIinIgg2AjAMNgsgBCgABCIDQRh0IANBgP4DcUEIdHIgA0EIdkGA/gNxIANBGHZyciEJIAdBCEYEQEEAIQdBACEDQQAhCEEAIQxBACEKQaiQyAApAwAiF6ciBEH/AXFBBEYNNyAGQS9qIARBGHY6AAAgBiAEOgAsIAZBJDoAKCAGIARBCHY7AC0gBiAXQiCIpyIINgIwDDYLIAQoAAgiA0EYdCADQYD+A3FBCHRyIANBCHZBgP4DcSADQRh2cnIhAyAHQQxGBEBBACEHQQAhCEEAIQxBACEKQaiQyAApAwAiF6ciBEH/AXFBBEYNNyAGQS9qIARBGHY6AAAgBiAEOgAsIAZBJDoAKCAGIARBCHY7AC0gBiAXQiCIpyIINgIwDDYLIAQoAAwiCEEYdCAIQYD+A3FBCHRyIAhBCHZBgP4DcSAIQRh2cnIhCCAHQRBGBEBBACEHQQAhDEEAIQpBqJDIACkDACIXpyIEQf8BcUEERg03IAZBL2ogBEEYdjoAACAGIAQ6ACwgBkEkOgAoIAYgBEEIdjsALSAGIBdCIIinIgg2AjAMNgsgBCgAECIMQRh0IAxBgP4DcUEIdHIgDEEIdkGA/gNxIAxBGHZyciEMIAdBFEYEQEEAIQdBACEKQaiQyAApAwAiF6ciBEH/AXFBBEYNNyAGQS9qIARBGHY6AAAgBiAEOgAsIAZBJDoAKCAGIARBCHY7AC0gBiAXQiCIpyIINgIwDDYLIAQoABQiCkEYdCAKQYD+A3FBCHRyIApBCHZBgP4DcSAKQRh2cnIhCyAHQRhGBEBBACEHQQAhCkGokMgAKQMAIhenIgRB/wFxQQRGDTcgBkEvaiAEQRh2OgAAIAYgBDoALCAGQSQ6ACggBiAEQQh2OwAtIAYgF0IgiKciCDYCMAw2CyAEKAAYIgpBGHQgCkGA/gNxQQh0ciAKQQh2QYD+A3EgCkEYdnJyIQogB0EcRwRAIAQoABwhBww3C0EAIQdBqJDIACkDACIXpyIEQf8BcUEERg02IAZBL2ogBEEYdjoAACAGIAQ6ACwgBkEkOgAoIAYgBEEIdjsALSAGIBdCIIinIgg2AjAMNQsgASgC4AFBgYCAgHhHBEAgBkHjko2CBTYAKQxBCwJAAkACQAJAAkACQCABLQCMA0UEQCABKALoAiIHDQJBACEDQaiQyAApAwAiF6ciAkH/AXFBBEcNAUEBIQJBACEIDAMLIAZB45KNggU2ACkMRQsgBkEyaiAXQjCIPQEAIAYgAjoALCAGQSQ6ACggBiAXQhCIPgEuIAYgF0IIiDwALSAXQiCIpyEIDDkLQQEhAiABKALkAiIELQAAIQggB0EBRgRAQQAhA0GokMgAKQMAIhenIgRB/wFxQQRGDQEgBkEyaiAXQjCIPQEAIAYgBDoALCAGQSQ6ACggBiAXQhCIPgEuIAYgF0IIiDwALSAXQiCIpyEIDDkLIAQtAAEhAyAHQQJGBEBBqJDIACkDACIXpyICQf8BcUEERgRAQQEhAgwCCyAGQTJqIBdCMIg9AQAgBiACOgAsIAZBJDoAKCAGIBdCEIg+AS4gBiAXQgiIPAAtIBdCIIinIQgMOQsgBC0AAiECIAdBA0cNASACRSECQaiQyAApAwAhFwsgF6ciB0H/AXFBBEYNASAGQTJqIBdCMIg9AQAgBiAHOgAsIAZBJDoAKCAGIBdCEIg+AS4gBiAXQgiIPAAtIBdCIIinIQgMNwsCQAJAAkAgBC0AAyIJDgICAQALIAZCgSo3AiwgBkEkOgAoQQAhCAw4C0EBIQkLIAINNSAHQQRGDQEgBkKBKjcCLCAGQSQ6AChBACEIDDYLQQAhCSACRQ00CyABIAkgA0H/AXFBEHRyIAhB/wFxQQh0cjYCkAIMPQsCQAJ/IAEoAugCIgRBA00EQEEAIQlBAEGokMgAKQMAIhenIgJB/wFxQQRGDQEaIAZBL2ogAkEYdjoAACAGIAI6ACwgBkEkOgAoIAYgAkEIdjsALSAGIBdCIIinIgg2AjAMNgsgASgC5AIiAygAACICQRh0IAJBgP4DcUEIdHIgAkEIdkGA/gNxIAJBGHZyciEJIARBfHFBBEYEQEEAQaiQyAApAwAiF6ciAkH/AXFBBEYNARogBkEvaiACQRh2OgAAIAYgAjoALCAGQSQ6ACggBiACQQh2OwAtIAYgF0IgiKciCDYCMAw2CyAEQQhHDQEgAygABAshByABIAk2ApwBIAFBATYCmAEgASAHQRh0IAdBgP4DcUEIdHIgB0EIdkGA/gNxIAdBGHZycjYCoAEMPQsgBkKBKjcCLCAGQSQ6AChBACEIDDMLIAEoAuABQYGAgIB4RwRAIAZB7YiNsgU2ACkMPwsCfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAS0AjANFBEAgASgC5AIhAiABKALoAiIHQQFLDQJBACEJQaiQyAApAwAiF6ciA0H/AXFBBEcNAUEAIQMMAwsgBkHtiI2yBTYAKQxMCyAGIAM6ACwgBkEkOgAoIAYgF0IQiD0BLiAGIBdCCIg8AC0gBiAXQiCIpyIINgIwDEALIAIvAAAiA0EIdCADQQh2ciEJIAdBAmsiA0EBSw0BQaiQyAApAwAhF0ECIQcLIBenIgRB/wFxQQRGBEAgAiAHaiADaiEHQQAhCEEAIQMMAgsgBiAEOgAsIAZBJDoAKCAGIBdCEIg9AS4gBiAXQgiIPAAtIAYgF0IgiKciCDYCMAw+CyACLwACIgNBCHQgA0EIdnIhCCAHQQRrIgNBAUsNASACQQRqIQdBqJDIACkDACEXCyAXpyICQf8BcUEERgRAIAMgB2ohB0EAIQxBACEDDAILIAYgAjoALCAGQSQ6ACggBiAXQhCIPQEuIAYgF0IIiDwALSAGIBdCIIinIgg2AjAMPAsgAi8ABCIDQQh0IANBCHZyIQwgB0EGayIDQQFLDQEgAkEGaiEHQaiQyAApAwAhFwsgF6ciAkH/AXFBBEYEQCADIAdqIQdBACEDDAILIAYgAjoALCAGQSQ6ACggBiAXQhCIPQEuIAYgF0IIiDwALSAGIBdCIIinIgg2AjAMOgsgAi8ABiIDQQh0IANBCHZyIQsgB0EIayIDQQFLDQEgAkEIaiEHQaiQyAApAwAhFwsgF6ciAkH/AXFBBEYEQCADIAdqIQdBACEKQQAhAwwCCyAGIAI6ACwgBkEkOgAoIAYgF0IQiD0BLiAGIBdCCIg8AC0gBiAXQiCIpyIINgIwDDgLIAIvAAgiA0EIdCADQQh2ciEKIAdBCmsiA0EBSw0BIAJBCmohB0GokMgAKQMAIRcLIBenIgJB/wFxQQRGBEAgAyAHaiEDQQAhBEEAIQ8MAgsgBiACOgAsIAZBJDoAKCAGIBdCEIg9AS4gBiAXQgiIPAAtIAYgF0IgiKciCDYCMAw2CyACLwAKIgNBCHQgA0EIdnIhBCACQQxqIQMgB0EMayIPQQFLDQFBqJDIACkDACEXCyAXpyICQf8BcUEERgRAIAMgD2ohD0EAIQNBAAwCCyAGIAI6ACwgBkEkOgAoIAYgF0IQiD0BLiAGIBdCCIg8AC0gBiAXQiCIpyIINgIwDDQLIAMvAAAiA0EIdCADQQh2ciEOIAdBfnFBDkcEQCAHQRBrIQMgAkEQaiEPIAIvAA4MAQtBACEDQaiQyAApAwAiF6ciD0H/AXFBBEcNJSACIAdqIQ9BAAshBwJAIAECfyADQQNNBEBBACECQQBBqJDIACkDACIXpyIDQf8BcUEERg0BGiAGQS9qIANBGHY6AAAgBiADOgAsIAZBJDoAKCAGIANBCHY7AC0gBiAXQiCIpyIINgIwDDULIA8oAAAiAkEYdCACQYD+A3FBCHRyIAJBCHZBgP4DcSACQRh2cnIhAiADQXxxQQRGBEBBAEGokMgAKQMAIhenIgNB/wFxQQRGDQEaIAZBL2ogA0EYdjoAACAGIAM6ACwgBkEkOgAoIAYgA0EIdjsALSAGIBdCIIinIgg2AjAMNQsgA0EIRw0BIA8oAAQiA0EYdCADQYD+A3FBCHRyIANBCHZBgP4DcSADQRh2cnILIgM2ApQBIAEgAjYCkAEgASAEQf//A3FBAXQ2AowBIAEgCkH//wNxQQF0NgKIASABIAtB//8DcUEBdDYChAEgASAMQf//A3FBAXQ2AoABIAEgDv0QIAdBCHQgB0GA/gNxQQh2cv0aASAJ/RoCIAj9GgP9qQFBAf2rAf0LA3AgAUEBNgJsDDwLIAZCgSo3AiwgBkEkOgAoQQAhCAwyCwJAAkACQCABLQCMA0UEQEECIQIgAS0AxgJBAWsOBgcCAQMHAgMLIAZB4padogQ2ACkMPwsgASgC4AFBgYCAgHhHBEBBASECDAILIAZCgSo3AiwgBkEkOgAoQQAhCAwzC0EGIQILIAEoAugCIgdBAEgNTQJAIAcEQCABKALkAiEDIAcQcSIERQ0FIAcEQCAEIAMgB/wKAAALIAIgB0cNASABIAI2AvQBIAEgBDYC8AEgASACNgLsAQw8CyAGQeKWnaIENgApQSEhAiAGQSE6ACgMPwsgBkHilp2iBDYAKUEhIQIgBkEhOgAoIAQgB0EBEKIHDD4LIAEoAugCIgdBAEgNTCABKALkAiEEAkAgB0UEQEEBIQIMAQsgBxBxIgJFDQMLIAcEQCACIAQgB/wKAAALIAEgBzYCjAIgASACNgKIAiABIAc2AoQCDDkLIAdB0ABHIAJB/wFxQcMAR3INRSABLQCMAw0kIAEtAI8DRQRAIAFBAToAjwMgASgCCEECRg0mIAEoAugCIgxBAWshDyAMQQJrIQsgASgC5AIiCiAMaiEEQQAhByAMIQMDQCAHIAxGDS0gByAKaiIJQQFqIQggCS0AAEUEQCAHRQ07IANBAWshByAIIQQgAwwsCyAHIA9GDS0gByAKaiECIAgtAABFDSogByALRg0tIAJBAmotAABFDSkgA0EDayEDIAdBA2oiB0HRAEcNAAsMOQsgBkHpho2CBTYAKUEJIQIgBkEJOgAoDDwLIAEoAogDIgMgASgC6AIiAkkEQEEnIQIgBkEnOgAoDDwLIAEgAyACazYCiANBngQhAwJAAkAgAkUNACABKALkAiEEQQAhBwNAIAQgB2otAAAEQCACIAdBAWoiB0cNAQwCCwtBngIhAyAHQdAAa0Gwf0sNAQsgBiADNgIoQR4hAgw8CyAHQQFqIgMgAkYEQCAGQQA2AiwgBkGeCjsBKEEeIQIMPAsgASgCCEECRiIMDQEgAiAHa0ECayEIIAMgBGoiAi0AAA0CQQAgAUEIaiAMGyEJIAJBAWohD0EAIQwgBkEANgJIIAZCgICAgBA3AkAgBkFAa0EAIAcQ7wUgBigCSCECA0BBAUECIAQgDGosAAAiA0EATiILGyIKIAYoAkAgAmtLBH8gBkFAayACIAoQ7wUgBigCSAUgAgsgBigCRGoiDiALBH8gAwUgDiADQb8BcToAASADQcABcUEGdkFAcgs6AAAgBiACIApqIgI2AkggByAMQQFqIgxHDQALIAhBAEgNSiAIRQRAQQEhAgwmCyAIEHEiAg0lCwALQaCUxQAQ3QkACyAGIAg2AjAgBkGeCjsBKEEeIQIMOAsgCSAIQQEQogcMNwsgBkEyaiAXQjCIPQEAIAYgBDoALCAGQSQ6ACggBiAXQhCIPgEuIAYgF0IIiDwALSAXQiCIpyEIDCkLIAFCADcDgAMgAUECOgD4AiAAQQQ6AAggACAFNgIEIABBADYCACAAIAEoAtgCNgAJDEELIAFCADcDgAMgAUECOgD4AiAAIBE2AAkgAEEDOgAIIAAgBTYCBCAAQQA2AgAMQAsgASABKALcAkEEazYC3AIgASgCAEUEQCAAQQE2AgAgAEECOgAEDEALIAEoAgRBAWoiAiADRwRAIAAgAjYCDCAAIAM2AgggAEEKOgAEIABBATYCAAxACyABIAM2AgQgAUEBNgIAIAEtAJEDRQRAIAEgASkDyAJCBHw3A8gCIAEgByAJIAogDyABKALQAkF/cyICc0H/AXFBAnQoApiNQyACQQh2cyICc0H/AXFBAnQoApiNQyACQQh2cyICc0H/AXFBAnQoApiNQyACQQh2cyICc0H/AXFBAnQoApiNQyACQQh2c0F/czYC0AILIAFB5siFogU2APkCIAFBBzoA+AIgAEEAOgAIIAAgBTYCBCAAQQA2AgAMPwsgBiACOgApQRgMNQsgBiACOgApQRkMNAtBwJPFABDdCQALIAYgAjoAKUEVIQIgBkEVOgAoDC8LQdCTxQAQ3QkACyABIAg2AtABIAEgCTYCzAEgASAINgLIAQwpC0Hgk8UAEN0JAAsgBkHzpJ2SBDYAKQwpC0GQlMUAEN0JAAsgByAHLQABOgAAQQEhAgwjCyAGIAg2AjAgBkEGNgIsDCALIAZB9KS5mgU2AClBBgwgC0Hwk8UAEN0JAAtBsJPFABDdCQALIAZB8JDlmgc2ACkMIgtBsJLFABDdCQALIAZB54K1igQ2ACkMIAtBwJHFABDdCQALIAZB4cbR4gQ2ACkMHgtB4JHFABDdCQALIAZB45DJ6gQ2ACkMHAtB8JHFABDdCQALQYCSxQAQ3QkAC0Ggk8UAEN0JAAsgBiAPOgAsIAZBJDoAKCAGIBdCEIg9AS4gBiAXQgiIPAAtIAYgF0IgiKciCDYCMAwNC0HQkcUAEN0JAAtBkJLFABDdCQALIAZB6YaNggU2ACkMFQtB1JXFABDdCQALIAgEQCACIA8gCPwKAAALIAhBCHYhAyAGKQJEIRcgBigCQCEPIAkoArABIgogCSgCqAFGBEAjAEEgayIEJAACQCAJQagBaiIHKAIAIgxBksmkEksEf0EABUEEIAxBAXQiCyALQQRNGyILQRxsIQ4gBCAMBH8gBCAMQRxsNgIcIAQgBygCBDYCFEEEBUEACzYCGCAEQQhqQQQgDiAEQRRqEIUHIAQoAghBAUcNASAEKAIQIQcgBCgCDAsgB0GwlMUAEJMJAAsgBCgCDCEMIAcgCzYCACAHIAw2AgQgBEEgaiQACyABKAK0ASAJIApBAWo2ArABIApBHGxqIgcgFzcCFCAHIA82ARAgByAINgEMIAcgAjYBCCAHIAhBEHY7AQYgByADOgAFIAcgCDoABCAHQQA2AgAMEQsgA0EDayEHIAJBAmohCSACQQNqIQQgA0ECawwBCyADQQJrIQcgAkEBaiEJIAJBAmohBCADQQFrCyAHRQRAQQAhB0GokMgAKQMAIhenIgJB/wFxQQRGDQQMAwsgBC0AAA0OQQJrIQcgCUECaiEEDAMLIAdB9ABHIAJB/wFxQdgAR3INGiABKAKIAyIEIAEoAugCIghJDQ4gASgC5AIhAiABIAQgCGs2AogDQZ4EIQwCQAJAIAhFDQAgAiAIaiEJQQAhB0EAIAhrIQMDQCACIAdqIg8tAAAEQCADIAdBAWoiB2oNAQwCCwtBngIhDCAHQdAAa0Gwf0sNAQsgBiAMNgIoQR4hBwwTCyAHQQFqIgMgCEYEQCAGQQA2AiwgBkGeDjsBKEEeIQcMEwsgCCADayIOQQFNBEAgBkEANgIsIAZBngo7AShBHiEHDBMLAkAgCSACIANqIhBBAmoiBEcEQCAQLQAAIQwgEC0AASEKIAcgCGshC0EAIQMDQCADIA9qQQNqLQAARQ0CIAMgC2ogA0EBaiEDQXxHDQALCyAGQZ4EOwEoQR4hBwwTCwJAAkACQAJAIANBAmoiDyAOSyADQX1LckUEQCADQQNqIgsgDksNAQJAIAkgCyAQaiIPRwRAIAMgB2ohCSAIQQRrIQ1BACEIA0AgAiAJakEEai0AAEUNAiAIQQFqIQggDSAJQQFqIglHDQALCyAGQZ4EOwEoQR4hBwwYCyAIIAtqIgkgCEkgCSAOS3INAiAJQQFqIRIgCSAOTw0DIAEoAghBAkYNBCAGQUBrIQ0gAiEJIAwhCyAQIBJqIRMgDiASayECIwBBIGsiDiQAAkAgB0HQAGtBsH9NBEAgDUECNgIAIA1BAToABAwBCyAOQQA2AhwgDkKAgICAEDcCFCAOQRRqQQAgBxDvBSAOKAIcIQwDQEEBQQIgCSwAACIQQQBOIhQbIhIgDigCFCAMa0sEfyAOQRRqIAwgEhDvBSAOKAIcBSAMCyAOKAIYIhVqIhYgFAR/IBAFIBYgEEG/AXE6AAEgEEHAAXFBBnZBQHILOgAAIA4gDCASaiIMNgIcIAlBAWohCSAHQQFrIgcNAAsgDigCFCEQQQAhBwJAAkACQAJAAkACQAJAAkACQAJAAkAgC0H/AXEOAgEABAsgCkH/AXENAUEBIQcLAkAgA0EETwRAIAQoAABBgIGChHhxDQlBBCAEQQNqQXxxIgkgBGsgBCAJRhsiCSADQQRrIgpJBEADQCAEIAlqKAIAQYCBgoR4cQ0LIAlBBGoiCSAKSQ0ACwsgBCAKaigAAEGAgYKEeHFFDQEMCQsgA0UNACAEIANBAWsiCWosAABBAEgNCCAJRQ0AIAQgA0ECayIJaiwAAEEASA0IIAlFDQAgBCADQQNrIglqLAAAQQBIIAlyDQgLIA5BFGogBCADEPsCIA4oAhRBAUcNASAOIA4pAhg3AwhB3IzFAEELIA5BCGpBzIzFAEHojMUAEOAGAAsgDUECNgIAIA1BBToABAwHCyAOKAIcIgpBAEgNASAOKAIYIQQCQCAKRQRAQQEhCwwBCyAKEHEiC0UNAwsgCgRAIAsgBCAK/AoAAAsgDkEUaiAPIAgQ+wIgDigCFEEBRgRAIA1BAjYCACANQQA6AAQMBQsgDigCHCIPQQBIDS0gDigCGCEEAkAgD0UEQEEBIRIMAQsgDxBxIhJFDQMLIA8EQCASIAQgD/wKAAALAn8CQCAHRQRAIAJBAEgNMAJAIAJFBEBBASEJDAELIAIQcSIJRQ0GCyACBEAgCSATIAL8CgAACyAOIAI2AhAgDiAJNgIMIA4gAjYCCCAOQRRqIAkgAhD7AiAOKAIURQ0BQQAhCSACRQ0GIA4pAgynIAJBARCiBwwGCyACQQBIDS8CQCACRQRAQQEhCQwBCyACEHEiCUUNBQsgAgRAIAkgEyAC/AoAAAsgCUEIdiETIAIhBEEADAELIA4pAwgiF0IgiKchCSAXpyIEQYCAgIB4Rg0EIBdCKIinIRNBAQshFCANIBM7AAkgDSAHOgA0IA0gDzYCMCANIBI2AiwgDSAPNgIoIA0gCjYCJCANIAs2AiAgDSAKNgIcIA0gDDYCGCANIBU2AhQgDSAQNgIQIA0gAjYCDCANIAk6AAggDSAENgIEIA0gFDYCACANQQtqIBNBEHY6AAAMBwsgDUECNgIAIA1BBjoABAwFC0HYmsgAEP8HCwALIA1BAjYCACANIAk6AAQgD0UNACASIA9BARCiBwsgCkUNASALIApBARCiBwwBCyANQQI2AgAgDUEAOgAECyAQRQ0AAkAgFUEEaygCACICQXhxIgRBBEEIIAJBA3EiAhsgEGpPBEAgAkEAIAQgEEEnaksbDQEgFRCiAgwCCwwlCwwlCyAOQSBqJAAgBi0ARCEEIAYoAkAiCUECRg0NIAZBiAFqIgggBkHkAGr9AAIA/QsDACAGQZgBaiIKIAZB9ABqKAIANgIAIAYgBikBRjcDoAEgBiAG/QACVP0LA3ggBiAGQcwAaikBADcBpgEgBi0ARSEPIAEoAsQBIgMgASgCvAFGBEAjAEEgayICJAACQCABQbwBaiIHKAIAIgxByaSSCUsEf0EABUEEIAxBAXQiCyALQQRNGyILQThsIQ4gAiAMBH8gAiAMQThsNgIcIAIgBygCBDYCFEEEBUEACzYCGCACQQhqQQQgDiACQRRqEIUHIAIoAghBAUcNASACKAIQIQcgAigCDAsgB0HQksUAEJMJAAsgAigCDCEMIAcgCzYCACAHIAw2AgQgAkEgaiQACyABKALAASADQThsaiICQSRqIAj9AAMA/QsCACACIA86AAUgAiAEOgAEIAIgCTYCACACIAYpA6ABNwEGIAIgBv0AA3j9CwIUIAJBDGogBikBpgE3AQAgAkE0aiAKKAIANgIAIAEgA0EBajYCxAEMDAtBAiAPIA5BkJPFABDqBwALIAsgDiAOQYCTxQAQ6gcACyALIAkgDkHwksUAEOoHAAsgEiAOIA5B4JLFABDqBwALQcCSxQAQ3QkAC0EAIQdBqJDIACkDACIXpyICQf8BcUEERw0AIAwNAQwMCyACQf8BcUEDRw0LIBdCIIinIgcoAgAhAiAHQQRqKAIAIgQoAgAiAwRAIAIgAxEDAAsgBCgCBCIDBEAgAiADIAQoAggQogcLIAdBDEEEEKIHDAsLIAZBQGsgBCAHIAEoAogDIgIQ3wEgBigCRCEHAkACQCAGKAJAQQFGBEAgB0GAgICAeHJBgICAgHhGDQ0gBigCSCEJDAELIAYoAkghCSACIAYoAkwiA08NASAHRQ0MCyAJIAdBARCiBwwLCyABIAIgA2s2AogDIAEoAvgBIgJBgoCAgHhIIAJFckUEQCABKAL8ASACQQEQogcLIAEgAzYCgAIgASAJNgL8ASABIAc2AvgBDAoLIAZCgSo3AiwgBkEkOgAoQQAhCAsgBiAGKAApNgJAIAYgBkEsaigAADYAQyAGQShqQQFyIQlBJCECIAYoAiQhBwJ/AkACQAJAIAYtAENBAWsOAwABAhULIAZBxABqDAILIAhBCGoMAQsgCEEIagstAABBJUcNEUEhIQIgBi0AQ0EDTwRAIAgoAgAhAyAIQQRqKAIAIgQoAgAiDARAIAMgDBEDAAsgBCgCBCIMBEAgAyAMIAQoAggQogcLIAhBDEEEEKIHCwwSCyABIAo2AiwgASALNgIoIAEgDDYCJCABIAg2AiAgASADNgIcIAEgCTYCGCABIAI2AhQgAUEBNgIQIAEgB0EYdCAHQYD+A3FBCHRyIAdBCHZBgP4DcSAHQRh2cnI2AjAMBwsgB0UNBiACQRh0IAJBgP4DcUEIdHIgAkEIdkGA/gNxIAJBGHZyciICIAdBGHQgB0GA/gNxQQh0ciAHQQh2QYD+A3EgB0EYdnJyIgdyQQBIDQYgASACNgI8IAEgBzYCOCABQQE2AjQMBgtBKCEHIAZBKDoAKAwKCyAGIAQ6AClBHiEHIAZBHjoAKAwJC0ELCyICOgAoIAhFBEBBACEIDAcLIAcgCEEBEKIHDAYLIAEgAjYC3AELIAEgBzYC2AEgASAINgLUAQsgBkEoakEBciEJQSghAgwLC0EnIQcgBkEnOgAoDAMLQQUhAiAGQQU6ACgMAQtBByECIAZBBzoAKAsgBiAGKAApNgJAIAYgBkEsaigAADYAQyAGQShqQQFyIQkMBAsgBiAGKAApNgJ4IAYgBkEsaigAADYAe0EoIQIgBkEoakEBciEJIAdBKEYNBiAGKAIwIQggByECDAILIAYgDDoAKiAGIAM6AClBDwsiAjoAKCAGIAYoACk2AnggBiAGQSxqKAAANgB7IAZBKGpBAXIhCQsgBiAGKAB7NgBDIAYgBigCeDYCQAsgBkE2aiAGQcYAai0AADoAACAGIAYvAUQ7ATQgBigCQCEHCyAHQRh2IQMMAQsgBkEoakEBciEJQSghAgsgBiADOgAsIAkgBi8BNDsABEECIQMgCUEGaiAGQTZqLQAAOgAAIAYgBzsAKSAGIAdBEHY6ACsgBiAINgIwIAYgAjoAKAJAIAJBKEcEQAJAIAJBI0sNACAGKAIkIgdB5sbR4gRGDQBBAyEDIAdBIHENAgsgBkEaaiICIAYtACs6AAAgBkESaiAGQTNqLQAAOgAAIAYgBi8AKTsBGCAGIAYvADE7ARAgBi0ALCEDIAYoAC0hByAGLQAoIgRBKEYNASAAIAYvARg7AAUgAEEHaiACLQAAOgAAIAYgBigBEDYCCCAGIAZBE2ooAAA2AAsgAEEQaiAGKAALNgAAIAAgBigCCDYADSAAIAc2AAkgACADOgAIIAAgBDoABCAAQQE2AgAMBQsgBigCJCEHCyAGIAYoARA2AgggBiAGQRNqKAAANgALIAYgBigCCDYCHCAGIAYoAAs2AB8gEUHJirmiBEcEQCABQgA3A4ADIAFBAjoA+AILIAAgBzYACSAAIAM6AAggACAFNgIEIAAgBigCHDYADSAAQQA2AgAgAEEQaiAGKAAfNgAADAMLIAZBAjYCRCAGQaSVxQA2AkAgBkIBNwJMIAYgBkEkaq1CgICAgJANhDcDeCAGIAZB+ABqNgJIIAZBQGtBtJXFABCNCAALIAFBADsAjQMgASADNgLYAiAAQQY6AAggAEIANwIADAELIAEgAzYC2AIgAS0AkQNFBEAgAUIENwPIAiABIAcgCSAKIA9B/wFzQQJ0KAKYjUNB////B3MiAnNB/wFxQQJ0KAKYjUMgAkEIdnMiAnNB/wFxQQJ0KAKYjUMgAkEIdnMiAnNB/wFxQQJ0KAKYjUMgAkEIdnNBf3M2AtACCyABQQA2AugCIAEgCzYC3AICQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgD0HJAEcEQCAPQeYARwRAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgD0HQAGsOKwEAAAAAAAAAAAAAAAAAAAAABgkHAAoABQALAAAACAAABAAAAgMAAAAAAAwACyAPQSBxDRhBIiECDCgLQSIhAiAHQcUARyAKQcwAR3IgCUHUAEdyDSdBAyEMQYAGIQIMIgtBBiEIQQEhAiAKQcIAayIERQ0KIARBEEYNCwwkC0EGIQhBASECIApBxQBrIgRFDQwgBEENRg0LDCMLQQYhCEEBIQIgB0HzAEcgCkHIAEdyIAlB2QBHcg0iQQkhAkEJIQwMHwtBBiEIQQEhAiAHQcEARyAKQcEAR3IgCUHNAEdyDSEMHQtBBiEIQQEhAiAHQcwARyAKQeMAR3IgCUHUAEdyDSAMGwtBBiEIQQEhAiAKQcgAaw4FCQofHwsfC0EGIQhBASECIAdB1gBHIApBxABHciAJQcMAR3INHkEYIQJBGCEMDBsLQQYhCEEBIQwgB0HEAEcgCkHLAEdyIAlBxwBHcg0QQQYhAgwaC0EGIQhBASECIAdB5gBHIApB2ABHciAJQckAR3INHEH/////ByECDBoLQQYhCEEBIQIgCkHDAGsiBEUNCCAEQRFGDQkMGwtBBiEIQQEhAiAHQfQARyAKQdQAR3IgCUHYAEdyDRogAS0AkgNBAXENGkH/////ByECDBgLQQEhDCAHQdQARyAJQckAR3INDEEEIQIMFgsgB0HCAEcNGEEBIQwgCUHHAEYNFQwYC0EBIQwgB0HTAEcgCUHOAEdyDQpBgAIhAgwUCyAHQfQARyAJQdgAR3INFiABLQCSA0EBcQ0WQf////8HIQIMFAsgB0HNAEcgCUHSAEdyDRVBICECQSAhDAwSCyAHQdAARw0UIAlBwwBGDRAMFAsgB0HJAEcNEyAJQcwARg0ODBMLIAdB0ABHIAlBwwBHcg0SIAEtAJMDQQFxDRJB/////wchAgwQCyAHQfQARyAJQdgAR3INESABLQCSA0EBcQ0RQf////8HIQIMDwsgCkHkAEcgCUHBAEdyRSAHQdQARnENAUEBIQJBBiEIIApB4wBrDgIGBRALIApBxABHIAlBwQBHckUgB0HUAEZxDQNBIiECIApBxABrDgUGCBERCRELIAEtAI4DRQRAIABB5siFogU2AAUgAEEgOgAEIABBATYCAAwSCyALQQNLBEBBBSEIQQAhAgwPCyAAQQE2AgAgAEEfOgAEDBELQQYhCAtBASECDAwLIAEtAI0DRQRAIABByYiFogU2AAUgAEEgOgAEIABBATYCAAwPCyABQQE6AIwDQQchCEEAIQIMCwsgB0HUAEcNCiAJQcEARg0CDAoLIAdBzABHIAlB1ABHcg0JQRohAkEaIQwMBgsgB0HUAEcgCUHBAEdyDQoLQaT4xgBBKEHElcUAEOsHAAsgB0HEAEcgCUHOAEdyDQhBACECDAQLIAdB0gBHIAlBxABHcg0HQQ0hAkENIQwMAgtBCCECQQghDAwBC0EEIQJBBCEMCyALIAxJDQELIAIgC0kNAEEGIQhBACECDAELQQYhCEECIQICQAJAAkACQAJAIA9ByQBrDh4ABQUFBQUFAQUFBQUFBQUFBQUFBQUFBQUFBQUFBQIFCyAKQcUAaw4EAwQEAgQLIAdBxQBHIApBzABHciAJQdQAR3INAwwECyAHQcwARyAKQeMAR3INAiAJQdQARg0DDAILIAdB0gBHDQEgCUHEAEYNAgwBCyAHQcQARw0AIAlBzgBGDQELIAFCADcDgAMgASADNgD5AiABIAg6APgCIAEgAjoA7AIgACADNgIQIAAgCzYCDCAAQQE6AAggACAFNgIEIABBADYCAAwCC0EhIQILIAAgAzYABSAAIAI6AAQgAEEBNgIACyAGQbABaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALQdiayAAQ/wcAC4J7AyJ/B30BfiMAQcABayIEJAACQAJAAkACQAJAIAEoAgBBAkcEQCABKAKkAiICIAEoAmRJBEAgAUH0A2ohFiABQbwCaiETIAFB8ABqIRwgAUGwA2ohHSABQYADaiEeIAFBjANqIR8gAUGYA2ohICABQaQDaiEhA0ACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgASgCYCACQShsaiINKQMQIAEpA4ABfCIrIAEpA3BRBEAgASgCuAIiAyANKAIYIgJBB2pBeHFJDQEgAiADSw0CIAEoArQCIQMgDS0AICIbQQFGBEAgBEEYaiADIAIQ+QIgBCgCGCIDQYCAgIB4RwRAIAQoAhwgBEEANgK4ASAEQQE2AqwBIARBuMnBADYCqAEgBEIENwKwASAEQagBahCSByEZIANFDR4gA0EBEKIHDB4LIAQoAiAhGSAEKAIcIhpBgICAgHhGDR0gBCgCJCECIBkhAwtBCSEFAkACQAJAAkACQAJAAkACQAJAAkACfwJAAkACQAJAAn8CQAJAAkACQAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIA0tACJBAWsODQECAxofHR4bHB8dHgQACyANLQAhDgQEBQYHCQsgDS0AIQ4FCwoJCQwJCyANLQAhIgUOBg4NEBAPDxALIA0tACEOChIRERERERERFBMRCyANLQAhQQtrDgIcHRsLIARBGGogAyACQQMgASgCrAIQ+AQMAwsgBEEYaiADIAJBAyABKAKsAhDmAwwCCyAEQRhqIAMgAiABKAKsAhCgAgwBCyAEQRhqIAMgAiABKAKsAhD+AQsgEyABKAKoAiABKAKsAiAEKAIcIgMgBCgCIBDCBSAEKAIYIgJFDTIgA0EEaygCACIIQXhxIgUgAkECdCICQQRBCCAIQQNxIggbakkNOCAIQQAgBSACQSdqSxsNOSADEKICDDILIARBATYCrAEgBEHgycEANgKoASAEQgE3ArQBIAQgDUEhaq1CgICAgJAFhDcDWCAEIARB2ABqNgKwASAEQShqIgEgBEGoAWoQsQYgARCOByEBDDALIARBATYCrAEgBEG8ysEANgKoASAEQgE3ArQBIAQgDUEhaq1CgICAgJAFhDcDWCAEIARB2ABqNgKwASAEQTRqIgEgBEGoAWoQsQYgARCOBwwDCyAEQRhqIAMgAkEBIAEoAqwCEOYDDC0LIARBGGogAyACQQEgASgCrAIQ+AQMLAsgDSgCAEUEQCAEQQA2ArgBIARBATYCrAEgBEGYysEANgKoASAEQgQ3ArABIARBqAFqEJIHDAELIA0oAggNKiAEQQA2ArgBIARBATYCrAEgBEH8ycEANgKoASAEQgQ3ArABIARBqAFqEJIHCyEBDCsLIARBGGogAyACQQMgASgCrAIQ5gMMJwsgBEEYaiADIAJBAyABKAKsAhD4BAwmCyANKAIARQRAIARBADYCuAEgBEEBNgKsASAEQZjKwQA2AqgBIARCBDcCsAEgBEGoAWoQkgcMAgsgDSgCCEUEQCAEQQA2ArgBIARBATYCrAEgBEH8ycEANgKoASAEQgQ3ArABIARBqAFqEJIHDAILIA0qAgQhJCABKAKsAiEIIA0qAgwhJyAFQQRGDSQgBEEYaiADIAJBAyAIICQgJxD/AwwlCyAEQQE2AqwBIARB4MrBADYCqAEgBEIBNwK0ASAEIA1BIWqtQoCAgICQBYQ3A1ggBCAEQdgAajYCsAEgBEFAayIBIARBqAFqELEGIAEQjgcLIQEMJgsgBEEBNgKsASAEQYjLwQA2AqgBIARCATcCtAEgBCANQSFqrUKAgICAkAWENwNYIAQgBEHYAGo2ArABIARBzABqIgEgBEGoAWoQsQYgARCOBwwDCyAEQRhqIAMgAkEDIAEoAqwCEPgEDB8LIARBGGogAyACIAEoAqwCEP0BDB4LIA0oAgBFBEAgBEEANgK4ASAEQQE2AqwBIARBmMrBADYCqAEgBEIENwKwASAEQagBahCSBwwBCyANKAIIDRwgBEEANgK4ASAEQQE2AqwBIARB/MnBADYCqAEgBEIENwKwASAEQagBahCSBwshAQwhCwJAAkACQAJAIA0tACEiCEEKRwRAIAgOAgIDAQsgBEHYAGogAyACIAEoAqwCEMUDDB0LIARBATYCrAEgBEHEy8EANgKoASAEQgE3ArQBIAQgDUEhaq1CgICAgJAFhDcDcCAEIARB8ABqNgKwASAEQeQAaiIBIARBqAFqELEGIAEQjgchAQwjCyAEQRhqIAMgAkEDIAEoAqwCEPgEDAELIARBGGogAyACQQMgASgCrAIQ5gMLIAEoAqwCIgdBAnQiAkH/////A0sNDCAHQQR0IgNB/f///wdPDQwCQCADRQRAQQQhC0EAIQIMAQsgAxBxIgtFDQ4gASgCrAIhBwsgBEEANgKwASAEIAs2AqwBIAQgAjYCqAEgBwRAQQAhA0EBIQYgBCgCICEIIAQoAhwhAgNAIAZBAWsiDCIFIAhPBEAgDCEGDBsLIAggBWsiBUEAIAUgCE0bIgVBAUYNGiAFQQJGDRlDAACAPyACKgIAIiQgJJSTIAJBBGoqAgAiJyAnlJMgAkEIaioCACIoICiUk0MAAAAAEOAIkSElIAQoAqgBIANrQQNNBEAgBEGoAWogA0EEQQRBBBCkBSAEKAKsASELIAQoArABIQMLIAsgA0ECdGoiBSAlOAIMIAUgKDgCCCAFICc4AgQgBSAkOAIAIAQgA0EEaiIDNgKwASAGQQNqIQYgAkEMaiECIAdBAWsiBw0ACwsgBEHgAGogBEGwAWooAgA2AgAgBCAEKQKoATcDWCAEKAIYIgNFDRkgBCgCHCICQQRrKAIAIghBeHEiBSADQQJ0IgNBBEEIIAhBA3EiCBtqSQ0nIAhBACAFIANBJ2pLGw0oIAIQogIMGQsgDS0AIUELRg0VIARBATYCrAEgBEHwy8EANgKoASAEQgE3ArQBIAQgDUEhaq1CgICAgJAFhDcDGCAEIARBGGo2ArABIARBkAFqIgEgBEGoAWoQsQYgARCOByEBDB8LIA0tACFBDEYNEyAEQQE2AqwBIARBnMzBADYCqAEgBEIBNwK0ASAEIA1BIWqtQoCAgICQBYQ3AxggBCAEQRhqNgKwASAEQZwBaiIBIARBqAFqELEGIAEQjgchAQweC0EPIQUMAQtBFSEFCwJAAkACQAJAAkAgDS0AISIIDggBAAMDAgIEBAMLIARBGGogAyACIAUgASgCrAIQ5gMMEwsgBEEYaiADIAIgBSABKAKsAhD4BAwSCyANKAIARQRAIARBADYCuAEgBEEBNgKsASAEQZjKwQA2AqgBIARCBDcCsAEgBEGoAWoQkgchAQweCyANKAIIRQRAIARBADYCuAEgBEEBNgKsASAEQfzJwQA2AqgBIARCBDcCsAEgBEGoAWoQkgchAQweCyANKgIEISQgASgCrAIhByANKgIMIScgCEEERg0QIARBGGogAyACIAUgByAkICcQ/wMMEQsgBEEBNgKsASAEQdDMwQA2AqgBIARCATcCtAEgBCANQSFqrUKAgICAkAWENwNYIAQgBEHYAGo2ArABIARB+ABqIgEgBEGoAWoQsQYgARCOByEBDBwLIA0oAghFBEAgBEEANgK4ASAEQQE2AqwBIARB/MnBADYCqAEgBEIENwKwASAEQagBahCSByEBDBwLIAEoAqwCIQcgDSoCDCEkIAhBBkYNDSAEQRhqIAMgAiAFIAcgJBCQBAwPCyAEQQE2AqwBIARB+MzBADYCqAEgBEIBNwK0ASAEIA1BIWqtQoCAgICQBYQ3A1ggBCAEQdgAajYCsAEgBEGEAWoiASAEQagBahCxBiABEI4HIQEMGgsgBEEYaiADIAIgASgCrAIQjgUMAQsgBEEYaiADIAIgASgCrAIQ0wQLIAQoAhwhECABKALoA0UNByABKAKsAiEOIAEoAqgCIRQgBCgCICEPIBMQowUgFkEIakEAOgAAIBZCADcCACATIA4Q0AQgEygCAEEBRw0HIA5BAnQiCSABKAK4AyIDSw0FIAEoArQDIQogDkUNBkEAIQcgCiEFQQAhAgJAAkACQANAAkAgByAPSQRAIAIgEGooAgBBAnQiAyABKAKIAyIGTw0OIAIgCU8NBSAFIAEoAoQDIANBAnRqKAIANgIAIANBAXIiCCABKAKIAyIGSQ0BIAghAwwOCyAPIA9BiLnBABCMBwALIAJBAWogCU8NAiAFQQRqIAEoAoQDIAhBAnRqKAIANgIAIANBAnIiCCABKAKIAyIGTwRAIAghAwwNCyACQQJqIAlPDQEgBUEIaiABKAKEAyAIQQJ0aigCADYCACADQQNyIgMgASgCiAMiBk8NDCAJIAJBA2pLBEAgBUEMaiABKAKEAyADQQJ0aigCADYCACAFQRBqIQUgAkEEaiECIAdBAWoiByAOSQ0BDAsLCyACQQNqIQIMAgsgAkECaiECDAELIAJBAWohAgsgAiAJQai5wQAQjAcACyAEICs3A1ggBEECNgKsASAEQbTNwQA2AqgBIARCAjcCtAEgBEKAgICAoAUiKyAEQdgAaq2ENwMgIAQgKyAcrYQ3AxggBCAEQRhqNgKwASAEQQxqIgEgBEGoAWoQsQYgARCOByEBIABBAToAACAAIAE2AgQMHAsgAEEAOwEADBsLQQAgAiADQYDNwQAQ6gcAC0GQy8EAEP8HCwALQQAgCSADQbi5wQAQ6gcACwJAAkACQAJAAkAgASgC6ANBAUYEQCAEIAEoAsACIBRBAnQgDiAUakECdBDhCCICELgKIgM2AnAgBCAJNgJYIAMgCUcNHyACIAogCRDgCSACQYMISw0DDAYLIAEoAsQCQQFHDQUgCSABKALEAyIDSw0AIAEoAsADIQwgDkUNASAKQQxqIQtBACEHIAwhA0EAIQUDQAJAAkACQCAHIA9JBEAgBSAQaigCAEECdCICIAEoApQDIghPDQEgBUEDaiIIIAlPDQIgCyACQQJ0IgggASgCkANqKAIANgIAIAIgASgClAMiBk8NCSADIAEoApADIAhqKAIANgIAIAJBAXIiCCABKAKUAyIGSQ0DIAghAgwJCyAPIA9BuLjBABCMBwALIAIgCEHIuMEAEIwHAAsgCCAJQdi4wQAQjAcACyADQQRqIAEoApADIAhBAnRqKAIANgIAIAJBAnIiCCABKAKUAyIGTwRAIAghAgwGCyADQQhqIAEoApADIAhBAnRqKAIANgIAIAJBA3IiAiABKAKUAyIGTw0FIANBDGogASgCkAMgAkECdGooAgA2AgAgC0EQaiELIANBEGohAyAFQQRqIQUgB0EBaiIHIA5JDQALDAELQQAgCSADQfi4wQAQ6gcACyAEIAEoAsACIBRBAnQiFSAOIBRqQQJ0IhQQ4QgiAxC4CiICNgJwIAQgCTYCWAJAIAIgCUYEQCADIAogCRDgCSADQYQITwRAIAMQmwcLIAQgASgCyAIgFSAUEOEIIgMQuAoiAjYCcCAEIAk2AlggAiAJRgRAIAMgDCAJEOAJIANBhAhPBEAgAxCbBwsgASgC6ANBAkYNBiABKALMAkUNBiABKALUAkUNBiAORQ0CQQAhEkEAIAlrIRdBAyEDQQAhBQJAAn8CQANAAkACQAJAAkACQAJAAkAgDyASSwRAIANBA2siCCAQaigCAEECdCICIAEoAqADIgZPDRAgCCAJTw0CIAUgCmoiESACQQJ0IiIgASgCnANqKAIANgIAIAJBAXIiCCABKAKgAyIGSQ0BIAghAgwQCyAPIA9B6LfBABCMBwALIANBAmsgCU8NAiARQQRqIAhBAnQiIyABKAKcA2ooAgA2AgAgAkECciIHIAEoAqADIgZPBEAgByECDA8LIANBAWsgCU8NASARQQhqIAdBAnQiGCABKAKcA2ooAgA2AgAgAkEDciILIAEoAqADIgZPBEAgCyECDA8LIAMgCU8NAyARQQxqIAEoApwDIAtBAnRqKAIANgIAIAIgASgCrAMiBk8NCSADIBdqIgtBA0YNBCAFIAxqIhEgASgCqAMgImooAgA2AgAgASgCrAMiBiAIIgJLDQUMCQsgA0EDayEDDAILIANBAWshAwwBCyADQQJrIQMLIAMgCUGouMEAEIwHAAsgA0EDawwDCyALQQJGDQEgEUEEaiABKAKoAyAjaigCADYCACABKAKsAyIGIAciAk0NAyALQQFHBEAgEUEIaiABKAKoAyAYaigCADYCACAFQRBqIQUgA0EEaiEDIBJBAWoiEiAOSQ0BDAcLCyADQQFrDAELIANBAmsLIAlBiLjBABCMBwALIAIgBkH4t8EAEIwHAAsMHgsMHQsgASgC0AIgFSAUEOEIIgMgCiAJELUHIANBhAhPBEAgAxCbBwsgASgC2AIgFSAUEOEIIgIgDCAJELUHIAJBgwhNDQMLIAIQmwcMAgsgAiAGQZi4wQAQjAcACyACIAZB6LjBABCMBwALIAQoAhgiA0UNEAJAIBBBBGsoAgAiAkF4cSIIIANBAnQiA0EEQQggAkEDcSICG2pPBEAgAkEAIAggA0EnaksbDQEgEBCiAgwSCwwXCwwXCyADIAZBmLnBABCMBwALIARBGGogAyACIAUgByAkEIIFDAELIARBGGogAyACIAUgByAkICcQ+QQLAkACQAJAAkACQAJ/AkACQAJAAn8CQAJAAkACfwJAAkACQAJAAkACQAJAAkACQAJAIA0tACJBBWsOCAYBAgAAAwQFAAtBpPjGAEEoQaTMwQAQ6wcACyATIAEoAqgCIAEoAqwCIAQoAhwiCCAEKAIgEKcBDBQLIBMgASgCqAIgASgCrAIgBCgCHCIIIAQoAiAQlAEMEwsgASgCrAIiDiABKAKoAiIPaiIUQQJ0IQkgBCgCICEFIAQoAhwhCAJAIAEoAtwCQQFGBEAgASgC4AIQuAogCU8NEyAJELYJIgIgASgC4AIQ3AkgASgC4AIiA0GECEkNASADEJsHDAELIAlFDRIgCRC2CSECCyABIAI2AuACIAFBATYC3AIMEQsgASgCrAIiECABKAKoAiIUaiISQQJ0IQkgBCgCICEFIAQoAhwhCAJAIAEoAuQCQQFGBEAgASgC6AIQuAogCU8NESAJELYJIgIgASgC6AIQ3AkgASgC6AIiA0GECEkNASADEJsHDAELIAlFDRAgCRC2CSECCyABIAI2AugCIAFBATYC5AIMDwsgASgCrAIiDyABKAKoAiIJaiIVQQJ0IQwgBCgCICEFIAQoAhwhCCABKALsAiIHQQFHBH9BAAUgASgC8AIQuAoLIAxJBEAgDBC2CSEDIAwQtgkhAgJAIAdFBEAgA60gAq1CIIaEISsMAQsgAyABKALwAhDcCSACIAEoAvQCENwJIAEoAvACIgdBhAhPBEAgBxCbBwsgA60gAq1CIIaEISsgASgC9AIiA0GECEkNACADEJsHCyABICs3A/ACIAFBATYC7AILIBMQowUgFkEIakEAOgAAIBZCADcCACATIA8Q0AQgASgC7AJFDRAgD0ECdCIKIAEoArgDIgNNBEAgASgCxAMiAyAKTwRAIAEoArQDIRAgASgCwAMhFCAPRQ0PQQAhB0EAIAprIRFBAyEGQQohAkEBIQ4gCCEDAn8CQANAAkACfwJAAkACQAJAAkACQAJ/AkACQAJAAkACQAJAAkAgBSACQQprSwRAIAJBCWsgBU8NASACQQhrIAVPDQIgBkEDayIYIApJDQMgGCEGDAQLIAJBCmsMDgsgAkEJayECDAkLIAJBCGsMBQtDAAB/QyADQQRqKgIAIieLIiRDAACAP0MAAPhBQwAAAAAgAyoCACIoiyIlICQgA0EIaioCACIpiyIqEOAIEOAIEJ4FjkMAAHBBkiIkICRDAAAAAF0bIiQgJEMAAPhBXhsQuQf8ACISQQ9rELAGQwAAf0OVIiSVIiYgJkMAAH9DXhsQuQchJiAHIBBqIgtDAAB/QyAlICSVIiUgJUMAAH9DXhsQuQf8ASASQRt0QYCAgAhBACAoQwAAAABdG3JBgICAEEEAICdDAAAAAF0bckGAgIAgQQAgKUMAAAAAXRtyciAm/AFBCHRyQwAAf0MgKiAklSIkICRDAAB/Q14bELkH/AFBEHRyNgIAIAJBB2sgBU8NCCACQQZrIAVPDQUgAkEFayAFTw0BIAogBkECa0sEQEMAAH9DIANBEGoqAgAiJ4siJEMAAIA/QwAA+EFDAAAAACADQQxqKgIAIiiLIiUgJCADQRRqKgIAIimLIioQ4AgQ4AgQngWOQwAAcEGSIiQgJEMAAAAAXRsiJCAkQwAA+EFeGxC5B/wAIhJBD2sQsAZDAAB/Q5UiJJUiJiAmQwAAf0NeGxC5ByEmIAtBBGpDAAB/QyAlICSVIiUgJUMAAH9DXhsQuQf8ASASQRt0QYCAgAhBACAoQwAAAABdG3JBgICAEEEAICdDAAAAAF0bckGAgIAgQQAgKUMAAAAAXRtyciAm/AFBCHRyQwAAf0MgKiAklSIkICRDAAB/Q14bELkH/AFBEHRyNgIAIAJBBGsgBU8NCiACQQNrIAVPDQcgAkECayAFTw0DIAogBkEBa0sEQEMAAH9DIANBHGoqAgAiJ4siJEMAAIA/QwAA+EFDAAAAACADQRhqKgIAIiiLIiUgJCADQSBqKgIAIimLIioQ4AgQ4AgQngWOQwAAcEGSIiQgJEMAAAAAXRsiJCAkQwAA+EFeGxC5B/wAIhJBD2sQsAZDAAB/Q5UiJJUiJiAmQwAAf0NeGxC5ByEmIAtBCGpDAAB/QyAlICSVIiUgJUMAAH9DXhsQuQf8ASASQRt0QYCAgAhBACAoQwAAAABdG3JBgICAEEEAICdDAAAAAF0bckGAgIAgQQAgKUMAAAAAXRtyciAm/AFBCHRyQwAAf0MgKiAklSIkICRDAAB/Q14bELkH/AFBEHRyNgIAIAJBAWsgBU8NDCACIAVPDQkgAkEBaiAFTw0FIAYgCk8NAkMAAH9DIANBKGoqAgAiJ4siJEMAAIA/QwAA+EFDAAAAACADQSRqKgIAIiiLIiUgJCADQSxqKgIAIimLIioQ4AgQ4AgQngWOQwAAcEGSIiQgJEMAAAAAXRsiJCAkQwAA+EFeGxC5B/wAIhJBD2sQsAZDAAB/Q5UiJJUiJiAmQwAAf0NeGxC5ByEmIAtBDGpDAAB/QyAlICSVIiUgJUMAAH9DXhsQuQf8ASASQRt0QYCAgAhBACAoQwAAAABdG3JBgICAEEEAICdDAAAAAF0bckGAgIAgQQAgKUMAAAAAXRtyciAm/AFBCHRyQwAAf0MgKiAklSIkICRDAAB/Q14bELkH/AFBEHRyNgIAIAJBAmogBU8NHSACQQNqIAVPDRkgAkEEaiAFTw0VIAYgEWoiC0EDRw0OIAZBA2sMEQsgBkEBayEGDAELIAZBAmshBgsgBiAKQbi3wQAQjAcACyACQQVrDAILIAJBAmsMAQsgAkEBagsgBUGot8EAEIwHAAsgAkEGayECDAELIAJBA2shAgsgAiAFQZi3wQAQjAcACyACQQdrDAILIAJBBGsMAQsgAkEBawsgBUGIt8EAEIwHAAtDAAB/QyADQTRqKgIAIieLIiRDAACAP0MAAPhBQwAAAAAgA0EwaioCACIoiyIlICQgA0E4aioCACIpiyIqEOAIEOAIEJ4FjkMAAHBBkiIkICRDAAAAAF0bIiQgJEMAAPhBXhsQuQf8ACIXQQ9rELAGQwAAf0OVIiSVIiYgJkMAAH9DXhsQuQchJiAHIBRqIhJDAAB/QyAlICSVIiUgJUMAAH9DXhsQuQf8ASAXQRt0QYCAgAhBACAoQwAAAABdG3JBgICAEEEAICdDAAAAAF0bckGAgIAgQQAgKUMAAAAAXRtyciAm/AFBCHRyQwAAf0MgKiAklSIkICRDAAB/Q14bELkH/AFBEHRyNgIAIAJBBWogBU8NDyACQQZqIAVPDQsgAkEHaiAFTw0HIAtBAkYNAUMAAH9DIANBQGsqAgAiJ4siJEMAAIA/QwAA+EFDAAAAACADQTxqKgIAIiiLIiUgJCADQcQAaioCACIpiyIqEOAIEOAIEJ4FjkMAAHBBkiIkICRDAAAAAF0bIiQgJEMAAPhBXhsQuQf8ACIXQQ9rELAGQwAAf0OVIiSVIiYgJkMAAH9DXhsQuQchJiASQQRqQwAAf0MgJSAklSIlICVDAAB/Q14bELkH/AEgF0EbdEGAgIAIQQAgKEMAAAAAXRtyQYCAgBBBACAnQwAAAABdG3JBgICAIEEAIClDAAAAAF0bcnIgJvwBQQh0ckMAAH9DICogJJUiJCAkQwAAf0NeGxC5B/wBQRB0cjYCACACQQhqIAVPDRAgAkEJaiAFTw0MIAJBCmogBU8NCCALQQFHBEBDAAB/QyADQcwAaioCACIniyIkQwAAgD9DAAD4QUMAAAAAIANByABqKgIAIiiLIiUgJCADQdAAaioCACIpiyIqEOAIEOAIEJ4FjkMAAHBBkiIkICRDAAAAAF0bIiQgJEMAAPhBXhsQuQf8ACILQQ9rELAGQwAAf0OVIiSVIiYgJkMAAH9DXhsQuQchJiASQQhqQwAAf0MgJSAklSIlICVDAAB/Q14bELkH/AEgC0EbdEGAgIAIQQAgKEMAAAAAXRtyQYCAgBBBACAnQwAAAABdG3JBgICAIEEAIClDAAAAAF0bcnIgJvwBQQh0ckMAAH9DICogJJUiJCAkQwAAf0NeGxC5B/wBQRB0cjYCACAHQRBqIQcgAkEVaiECIANB1ABqIQMgBkEEaiEGIA4gD0kgDkEBaiEODQEMEwsLIAZBAWsMAQsgBkECawsgCkH4tsEAEIwHAAtBACAKIANByLfBABDqBwALQQAgCiADQdi3wQAQ6gcACyATIAEoAqgCIAEoAqwCIAQoAhwiCCAEKAIgEOYBDA8LIAJBBGoMAgsgAkEHagwBCyACQQpqCyAFQei2wQAQjAcACyACQQNqDAILIAJBBmoMAQsgAkEJagsgBUHYtsEAEIwHAAsgAkECagwCCyACQQVqDAELIAJBCGoLIAVByLbBABCMBwALIAQgASgC8AIgCUECdCIOIAwQ4QgiAxC4CiICNgJwIAQgCjYCWAJ/AkACQAJAIAIgCkYEQCADIBAgChDgCSADQYQITwRAIAMQmwcLIAQgASgC9AIgDiAMEOEIIgMQuAoiAjYCcCAEIAo2AlggAiAKRgRAIAMgFCAKEOAJIANBhAhPBEAgAxCbBwsgASgCoAMiAiAMSQRAIAwgAiIDayIHIAEoApgDIAJrSwRAICAgAiAHQQRBBBCkBSABKAKgAyEDCyABKAKcAyILIANBAnQiBmohBSAHQQJPBEAgDCACQX9zakECdCISBEAgBUEAIBL8CwALIBVBBHQgAkECdGsgC2ogBmpBBGshBSADIAdqQQFrIQMLIAVBADYCACABIANBAWo2AqADIAEgASgCrAMiAiAMSQR/IAwgAiIDayIHIAEoAqQDIAJrSwRAICEgAiAHQQRBBBCkBSABKAKsAyEDCyABKAKoAyILIANBAnQiBmohBSAHQQJPBEAgDCACQX9zakECdCIMBEAgBUEAIAz8CwALIBVBBHQgAkECdGsgC2ogBmpBBGshBSADIAdqQQFrIQMLIAVBADYCACADQQFqBSAMCzYCrAMLIA9FDQggCUEEdCEFQQAhAkEAIAprIRVBAyEDQQEhCwJ/AkADQAJAAkACQAJAAn8CQCAKIANBA2siB0sEQCAHIA5qIhIgASgCoAMiBkkNASAJQQJ0IANqQQNrDAILIANBA2shAwwECyABKAKcAyAFaiACaiACIBBqIgcoAgA2AgAgA0ECayAKTw0BIAMgDmoiDEECayIRIAEoAqADIgZJBEAgASgCnAMgBWogAmpBBGogB0EEaigCADYCACADQQFrIApPDQMgDEEBayIXIAEoAqADIgZJBEAgASgCnAMgBWogAmpBCGogB0EIaigCADYCACADIApPDQUgASgCoAMiBiAMSwRAIAEoApwDIAVqIAJqQQxqIAdBDGooAgA2AgAgAyAVaiIMQQNGDQ8gEiABKAKsAyIHSQ0HIAlBAnQgA2pBA2sMCgsgCUECdCADagwCCyAJQQJ0IANqQQFrDAELIAlBAnQgA2pBAmsLIAZBuLbBABCMBwALIANBAmshAwwBCyADQQFrIQMLIAMgCkGotsEAEIwHAAsgASgCqAMgBWogAmogAiAUaiIGKAIANgIAIAxBAkYNBSARIAEoAqwDIgdPDQEgASgCqAMgBWogAmpBBGogBkEEaigCADYCACAMQQFGDQYgASgCrAMiByAXSwRAIAEoAqgDIAVqIAJqQQhqIAZBCGooAgA2AgAgAkEQaiECIANBBGohAyALIA9JIAtBAWohCw0BDAwLCyAJQQJ0IANqQQFrDAELIAlBAnQgA2pBAmsLIAdBmLbBABCMBwALDB0LDBwLIANBAmsMAgsgA0EBawwBCyADQQNrCyAKQYi2wQAQjAcACyATEKMFIBZBCGpBADoAACAWQgA3AgAgEyAQENAEIAEoAtwCQQFHDQEgASgC5AJFDQECQAJ/AkACQAJAAn8CQAJAAkACfwJAAkACQAJAIBBBAnQiBiABKAK4AyIDTQRAIAYgASgCxAMiA0sNASABKAK0AyEVIAEoAsADIQwgBCABKALgAiAUQQJ0Ig8gCRDhCCIDELgKIgI2AnAgBCAGNgJYIAIgBkcNJiAVIAYgAxDhCSADQYQITwRAIAMQmwcLIBBFDQ4gFUEMaiELQQAhAkEDIQdBASEOIAwhCiAIIQMDQAJAAkACQAJAAkACQCACIAVJBEAgAkEBaiIRIAVPDQEgAkECaiIRIAVPDQIgBiAHTQ0DQwAAf0MgA0EEaioCACIniyIkQwAAgD9DAAD4QUMAAAAAIAMqAgAiKIsiJSAkIANBCGoqAgAiKYsiKhDgCBDgCBCeBY5DAABwQZIiJCAkQwAAAABdGyIkICRDAAD4QV4bELkH/AAiEUEPaxCwBkMAAH9DlSIklSImICZDAAB/Q14bELkHISYgC0MAAH9DICUgJJUiJSAlQwAAf0NeGxC5B/wBIBFBG3RBgICACEEAIChDAAAAAF0bckGAgIAQQQAgJ0MAAAAAXRtyQYCAgCBBACApQwAAAABdG3JyICb8AUEIdHJDAAB/QyAqICSVIiQgJEMAAH9DXhsQuQf8AUEQdHI2AgAgAkEDaiAFTw0EIAJBBGogBU8NBSACQQVqIhggBUkNBiAYDA0LIAIgBUH4tMEAEIwHAAsgESAFQYi1wQAQjAcACyARIAVBmLXBABCMBwALIAcgBkGotcEAEIwHAAsgAkEDagwQCyACQQRqDAsLQwAAf0MgA0EQaioCACIniyIkQwAAgD9DAAD4QUMAAAAAIANBDGoqAgAiKIsiJSAkIANBFGoqAgAiKYsiKhDgCBDgCBCeBY5DAABwQZIiJCAkQwAAAABdGyIkICRDAAD4QV4bELkH/AAiEUEPaxCwBkMAAH9DlSIklSImICZDAAB/Q14bELkHISYgCkMAAH9DICUgJJUiJSAlQwAAf0NeGxC5B/wBIBFBG3RBgICACEEAIChDAAAAAF0bckGAgIAQQQAgJ0MAAAAAXRtyQYCAgCBBACApQwAAAABdG3JyICb8AUEIdHJDAAB/QyAqICSVIiQgJEMAAH9DXhsQuQf8AUEQdHI2AgAgAkEGaiAFTw0LIAJBB2ogBU8NByACQQhqIAVPDQNDAAB/QyADQRxqKgIAIieLIiRDAACAP0MAAPhBQwAAAAAgA0EYaioCACIoiyIlICQgA0EgaioCACIpiyIqEOAIEOAIEJ4FjkMAAHBBkiIkICRDAAAAAF0bIiQgJEMAAPhBXhsQuQf8ACIRQQ9rELAGQwAAf0OVIiSVIiYgJkMAAH9DXhsQuQchJiAKQQRqQwAAf0MgJSAklSIlICVDAAB/Q14bELkH/AEgEUEbdEGAgIAIQQAgKEMAAAAAXRtyQYCAgBBBACAnQwAAAABdG3JBgICAIEEAIClDAAAAAF0bcnIgJvwBQQh0ckMAAH9DICogJJUiJCAkQwAAf0NeGxC5B/wBQRB0cjYCACACQQlqIAVPDQwgAkEKaiAFTw0IIAJBC2ogBU8NBEMAAH9DIANBKGoqAgAiJ4siJEMAAIA/QwAA+EFDAAAAACADQSRqKgIAIiiLIiUgJCADQSxqKgIAIimLIioQ4AgQ4AgQngWOQwAAcEGSIiQgJEMAAAAAXRsiJCAkQwAA+EFeGxC5B/wAIhFBD2sQsAZDAAB/Q5UiJJUiJiAmQwAAf0NeGxC5ByEmIApBCGpDAAB/QyAlICSVIiUgJUMAAH9DXhsQuQf8ASARQRt0QYCAgAhBACAoQwAAAABdG3JBgICAEEEAICdDAAAAAF0bckGAgIAgQQAgKUMAAAAAXRtyciAm/AFBCHRyQwAAf0MgKiAklSIkICRDAAB/Q14bELkH/AFBEHRyNgIAIAJBDGogBU8NDSACQQ1qIAVPDQkgAkEOaiAFTw0FQwAAf0MgA0E0aioCACIniyIkQwAAgD9DAAD4QUMAAAAAIANBMGoqAgAiKIsiJSAkIANBOGoqAgAiKYsiKhDgCBDgCBCeBY5DAABwQZIiJCAkQwAAAABdGyIkICRDAAD4QV4bELkH/AAiEUEPaxCwBkMAAH9DlSIklSImICZDAAB/Q14bELkHISYgCkEMakMAAH9DICUgJJUiJSAlQwAAf0NeGxC5B/wBIBFBG3RBgICACEEAIChDAAAAAF0bckGAgIAQQQAgJ0MAAAAAXRtyQYCAgCBBACApQwAAAABdG3JyICb8AUEIdHJDAAB/QyAqICSVIiQgJEMAAH9DXhsQuQf8AUEQdHI2AgAgC0EQaiELIAdBBGohByAKQRBqIQogA0E8aiEDIAJBD2ohAiAOIBBJIA5BAWohDg0ACwwOC0EAIAYgA0H4tcEAEOoHAAtBACAGIANB6LXBABDqBwALIAJBCGoMAgsgAkELagwBCyACQQ5qCyAFQdi1wQAQjAcACyACQQdqDAILIAJBCmoMAQsgAkENagsgBUHItcEAEIwHAAsgAkEGagwCCyACQQlqDAELIAJBDGoLIAVBuLXBABCMBwALIAQgASgC4AIgDyAJEOEIIgMQuAoiAjYCcCAEIAY2AlgCQAJAIAIgBkYEQCADIBUgBhDgCSADQYQITwRAIAMQmwcLIAQgASgC6AIgDyAJEOEIIgMQuAoiAjYCcCAEIAY2AlggAiAGRw0aIAMgDCAGEOAJIANBhAhPBEAgAxCbBwsgASgClAMiAiAJSQRAIAkgAiIDayIHIAEoAowDIAJrSwRAIB8gAiAHQQRBBBCkBSABKAKUAyEDCyABKAKQAyIKIANBAnQiC2ohBSAHQQJPBEAgCSACQX9zakECdCIJBEAgBUEAIAn8CwALIBJBBHQgAkECdGsgCmogC2pBBGshBSADIAdqQQFrIQMLIAVBADYCACABIANBAWo2ApQDCyAQRQ0EIBVBDGohCSAUQQR0QQxyIQ5BACEDQQEhB0EAIQICQAJAAkADQCADQQNqIgUgBk8NBSADIA9qQQNqIgUgASgCiAMiCk8NBiABKAKEAyAOaiACaiACIAlqKAIANgIAIAMgFGoiCiABKAKUAyIFTw0DIAEoApADIA9qIAJqIAIgDGoiCygCADYCACABKAKUAyIFIApBAWpLBEAgASgCkAMgD2ogAmpBBGogC0EEaigCADYCACABKAKUAyIFIApBAmpNDQIgASgCkAMgD2ogAmpBCGogC0EIaigCADYCACABKAKUAyIFIApBA2pNDQMgASgCkAMgD2ogAmpBDGogC0EMaigCADYCACADQQRqIQMgAkEQaiECIAcgEEkgB0EBaiEHDQEMCQsLIApBAWohCgwCCyAKQQJqIQoMAQsgCkEDaiEKCyAKIAVB6LTBABCMBwALDBkLIAUgBkHItMEAEIwHAAsgBSAKQdi0wQAQjAcACyATEKMFIBZBCGpBADoAACAWQgA3AgAgDkECdCIMIQIgASgCuAMiAyAMSQRAIAwgAyICayIHIAEoArADIAJrSwRAIB0gAiAHQQRBBBCkBSABKAK4AyECCyABKAK0AyIKIAJBAnQiC2ohBiAHQQJPBEAgDCADQX9zakECdCIQBEAgBkEAIBD8CwALIA5BBHQgA0ECdGsgCmogC2pBBGshBiACIAdqQQFrIQILIAZBADYCACACQQFqIQILIAEgAjYCuAMgASgC3AJFDQACQAJ/AkACQAJAAkACfwJAAkAgAiAMTwRAIAEoArQDIQogDkUNCUEEIQJBASELQQEhBiAKIQcgCCEDAkADQAJAAkACQCAFIAJBBGtLBEAgAkEDayAFTw0BIAJBAmsgBU8NAiAGQQFrIhggDEkNAyAYIQYMBQsgAkEEawwNCyACQQNrIQIMCQsgAkECawwGC0MAAH9DIANBBGoqAgAiJ4siJEMAAIA/QwAA+EFDAAAAACADKgIAIiiLIiUgJCADQQhqKgIAIimLIioQ4AgQ4AgQngWOQwAAcEGSIiQgJEMAAAAAXRsiJCAkQwAA+EFeGxC5B/wAIhBBD2sQsAZDAAB/Q5UiJJUiJiAmQwAAf0NeGxC5ByEmIAdDAAB/QyAlICSVIiUgJUMAAH9DXhsQuQf8ASAQQRt0QYCAgAhBACAoQwAAAABdG3JBgICAEEEAICdDAAAAAF0bckGAgIAgQQAgKUMAAAAAXRtyciAm/AFBCHRyQwAAf0MgKiAklSIkICRDAAB/Q14bELkH/AFBEHRyNgIAIAJBAWsgBU8NCCACIAVPDQcgAkEBaiAFTw0DIAYgDE8NAUMAAH9DIANBEGoqAgAiJ4siJEMAAIA/QwAA+EFDAAAAACADQQxqKgIAIiiLIiUgJCADQRRqKgIAIimLIioQ4AgQ4AgQngWOQwAAcEGSIiQgJEMAAAAAXRsiJCAkQwAA+EFeGxC5B/wAIhBBD2sQsAZDAAB/Q5UiJJUiJiAmQwAAf0NeGxC5ByEmIAdBBGpDAAB/QyAlICSVIiUgJUMAAH9DXhsQuQf8ASAQQRt0QYCAgAhBACAoQwAAAABdG3JBgICAEEEAICdDAAAAAF0bckGAgIAgQQAgKUMAAAAAXRtyciAm/AFBCHRyQwAAf0MgKiAklSIkICRDAAB/Q14bELkH/AFBEHRyNgIAIAJBAmogBU8NCSACQQNqIAVPDQYgAkEEaiAFTw0EIAwgBkEBaksEQEMAAH9DIANBHGoqAgAiJ4siJEMAAIA/QwAA+EFDAAAAACADQRhqKgIAIiiLIiUgJCADQSBqKgIAIimLIioQ4AgQ4AgQngWOQwAAcEGSIiQgJEMAAAAAXRsiJCAkQwAA+EFeGxC5B/wAIhBBD2sQsAZDAAB/Q5UiJJUiJiAmQwAAf0NeGxC5ByEmIAdBCGpDAAB/QyAlICSVIiUgJUMAAH9DXhsQuQf8ASAQQRt0QYCAgAhBACAoQwAAAABdG3JBgICAEEEAICdDAAAAAF0bckGAgIAgQQAgKUMAAAAAXRtyciAm/AFBCHRyQwAAf0MgKiAklSIkICRDAAB/Q14bELkH/AFBEHRyNgIAIAZBBGohBiAHQRBqIQcgAkEJaiECIANBJGohAyALIA5JIAtBAWohCw0BDAwLCyAGQQFqIQYLIAYgDEGotMEAEIwHAAtBACAMIAJBuLTBABDqBwALIAJBAWoMAQsgAkEEagsgBUGYtMEAEIwHAAsgAkEDaiECCyACIAVBiLTBABCMBwALIAJBAWsMAQsgAkECagsgBUH4s8EAEIwHAAsgBCABKALgAiAPQQJ0IhAgCRDhCCIDELgKIgI2AnAgBCAMNgJYIAIgDEcNFiADIAogDBDgCSADQYQITwRAIAMQmwcLIAEoAogDIgIgCUkEQCAJIAIiA2siByABKAKAAyACa0sEQCAeIAIgB0EEQQQQpAUgASgCiAMhAwsgASgChAMiCyADQQJ0IgZqIQUgB0ECTwRAIAkgAkF/c2pBAnQiCQRAIAVBACAJ/AsACyAUQQR0IAJBAnRrIAtqIAZqQQRrIQUgAyAHakEBayEDCyAFQQA2AgAgASADQQFqNgKIAwsgDkUNACAPQQR0IQVBACEDQQEhC0EBIQICfwJAAkACQAJAAkACQAJAA0AgDCACQQFrIgdLBEAgASgCiAMiBiAHIBBqTQ0FIAEoAoQDIAVqIANqIAMgCmoiBygCADYCACACIAxPDQQgAiAQaiIJIAEoAogDIgZPDQggASgChAMgBWogA2pBBGogB0EEaigCADYCACACQQFqIAxPDQMgASgCiAMiBiAJQQFqTQ0HIAEoAoQDIAVqIANqQQhqIAdBCGooAgA2AgAgAkECaiAMTw0CIAEoAogDIgYgCUECak0NBiABKAKEAyAFaiADakEMaiAHQQxqKAIANgIAIAJBBGohAiADQRBqIQMgCyAOSSALQQFqIQsNAQwKCwsgAkEBayECDAILIAJBAmohAgwBCyACQQFqIQILIAIgDEHYs8EAEIwHAAsgD0ECdCACakEBawwDCyAPQQJ0IAJqQQJqDAILIA9BAnQgAmpBAWoMAQsgD0ECdCACagsgBkHos8EAEIwHAAsgBCgCGCIDRQ0NIAhBBGsoAgAiAkF4cSIFIANBAnQiA0EEQQggAkEDcSICG2pJDRMgAkEAIAUgA0EnaksbDQAgCBCiAgwNCwwTCyAEQagBaiADIAIgASgCrAIQ1AQgEyABKAKoAiABKAKsAiAEKAKsASIDIAQoArABELcEIAQoAqgBIgJFDQsCQCADQQRrKAIAIghBeHEiBSACQQJ0IgJBBEEIIAhBA3EiCBtqTwRAIAhBACAFIAJBJ2pLGw0BIAMQogIMDQsMEgsMEgsgBEGoAWogAyACIAEoAqwCEJwFIBMgASgCqAIgASgCrAIgBCgCrAEiAyAEKAKwARC2BCAEKAKoASICRQ0KAkAgA0EEaygCACIIQXhxIgUgAkEBdCICQQRBCCAIQQNxIggbak8EQCAIQQAgBSACQSdqSxsNASADEKICDAwLDBELDBELIAZBAWohBgsgBiAIQcTNwQAQjAcACyATIAEoAqgCIAEoAqwCIAQoAlwiAyAEKAJgEKAFIAQoAlgiAkUNBwJAIANBBGsoAgAiCEF4cSIFIAJBAnQiAkEEQQggCEEDcSIIG2pPBEAgCEEAIAUgAkEnaksbDQEgAxCiAgwJCwwOCwwOCyAEQRhqIAMgAiABKAKsAiANKgIEIA0qAgwQqgMLIBMgASgCqAIgASgCrAIgBCgCHCIDIAQoAiAQngIgBCgCGCICRQ0FAkAgA0EEaygCACIIQXhxIgUgAkECdCICQQRBCCAIQQNxIggbak8EQCAIQQAgBSACQSdqSxsNASADEKICDAcLDAwLDAwLIARBGGogAyACQQMgCCAkICcQ+QQLIBMgASgCqAIgASgCrAIgBCgCHCIDIAQoAiAQpAIgBCgCGCICRQ0DAkAgA0EEaygCACIIQXhxIgUgAkECdCICQQRBCCAIQQNxIggbak8EQCAIQQAgBSACQSdqSxsNASADEKICDAULDAoLDAoLIARBGGogAyACQQEgASgCrAIgDSoCBCANKgIMEPkECyAEKAIgIQggBCgCHCEJIBMgASgCqAIgASgCrAIiCxDpBCALBEBBACECQQwhCiAIIQUDQAJAAkACQCABKAK4AyIDIAJBA2pLBEAgBUUNAiACIAlqKAIAIgdB////A3EhDCAHQYCAgIB4cSEGIAdBgICA/AdxIgNBgICA/AdGBEAgBkEQdiAMQQ12ckGABEEAIAwbckGA+AFyIQYMBAsgBkEQdiEGIANBgICAuARLDQEgA0GAgIDEA08EQCAHQQx2IAdB/98AcUEAR3EgA0ENdiAMQQ12akGAgAFqIAZyaiEGDAQLIANBgICAmANJDQMgDEGAgIAEciIHQf4AIANBF3YiDGt2IQMgB0EdIAxrIgx2QQFxBH8gA0EDIAx0QQFrIAdxQQBHagUgAwsgBnIhBgwDCyACIAJBBGogA0HIs8EAEOoHAAsgBkGA+AFyIQYMAQsgCCAIQbizwQAQjAcACyABKAK0AyAKaiAGQf//A3E2AgAgCkEQaiEKIAVBAWshBSACQQRqIQIgC0EBayILDQALCyABQQE6APwDIAQoAhgiA0UNAQJAIAlBBGsoAgAiAkF4cSIIIANBAnQiA0EEQQggAkEDcSICG2pPBEAgAkEAIAggA0EnaksbDQEgCRCiAgwDCwwICwwICyAAQQE6AAAgACABNgIEIBtFIBpFcg0FIBkgGkEBEKIHDAULAkACQAJAIAEoArgCIgIgDSgCGEEHakF4cSIDTwRAIAFBADYCuAIgAiADayEIIANFDQEgAiADRg0DIAhFDQIgASgCtAIiAiACIANqIAj8CgAADAILQQAgAyACQYSkxwAQ6gcACyACIANGDQELIAEgCDYCuAILIA0pAxghKyABIAEoAqQCQQFqIgI2AqQCIAEgASkDcCArQgd8Qvj///8Pg3w3A3ACQCAbRSAaRXINAAJAIBlBBGsoAgAiA0F4cSICQQRBCCADQQNxIgMbIBpqTwRAIANBACACIBpBJ2pLGw0BIBkQogIgASgCpAIhAgwCCwwHCwwHCyACIAEoAmRJDQALCyAAQYACOwEADAILQYzJwQAQ3QkACyAAQQE6AAAgACAZNgIECyAEQcABaiQADwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALIARBADYCqAFBACAEQfAAaiAEQdgAaiAEQagBakHg+cQAEPUHAAvlXgIZfwd9IwBBIGsiHSQAAkACQAJAIAFBIUkEQCAAIQcgASEIDAELIAJBBGshHiACQRBrIR8DQCAERQRAIAAgASACIANBASAGEGEMAwsgACABQQN2IgdBHGxqIRMgACAHQQR0aiENAkAgAUHAAE8EQCAAIA0gEyAHIAYQoQEhFiAGKAIAIRwMAQtDAACAPyEhAn8CQCAAKAIAIgcgBigCACIcQQRqKAIAIhEoAggiGkkEQCANKAIAIRYgESgCBCIJIAdBGGxqIgstABMiDyALLQASIgggCy0AESIHIAcgCEkbIgcgByAPSRsiCgR9QwAAQMEgESoCRCARLQBYQQJGIgcbIiBDAAAQQSARKgJIIAcbICCTQwAAfkOVIApBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISUgC0EMai8BACIQQf//AXEiC0UEQCAQQRB0DAMLIBBB/wdxIQ8gEEGAgAJxIQggEEGA+AFxIgdBgPgBRgRAIAhBEHQiB0GAgID8B3IgD0UNAxogByAPQQ10ckGAgID+B3IMAwsgCEEQdCEIIAdFDQEgB0ENdEGAgID8AHEgD0ENdHJBgICAwANqIAhyDAILIAcgGkHcu8cAEIwHAAsgDyAPZ0EQayIHQf//A3FBCGp0Qf///wNxIAhBgICA2ANyIAdBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEhC0MAAIA/ISICfwJAIBYgGkkEQCAJIBZBGGxqIhYtABMiDyAWLQASIgggFi0AESIHIAcgCEkbIgcgByAPSRsiDAR9QwAAQMEgESoCRCARLQBYQQJGIgcbIiBDAAAQQSARKgJIIAcbICCTQwAAfkOVIAxBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISMgFkEMai8BACIOQf//AXEiFkUEQCAOQRB0DAMLIA5B/wdxIQ8gDkGAgAJxIQggDkGA+AFxIgdBgPgBRgRAIAhBEHQiB0GAgID8B3IgD0UNAxogByAPQQ10ckGAgID+B3IMAwsgCEEQdCEIIAdFDQEgB0ENdEGAgID8AHEgD0ENdHJBgICAwANqIAhyDAILIBYgGkHcu8cAEIwHAAsgDyAPZ0EQayIHQf//A3FBCGp0Qf///wNxIAhBgICA2ANyIAdBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEiCyATKAIAIQ8gCgR9QwAAQMEgESoCRCARLQBYQQJGIgcbIiBDAAAQQSARKgJIIAcbICCTQwAAfkOVIApBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISRDAACAPyEmAn8gEEEQdCALRQ0AGiAQQf8HcSELIBBBgIACcSEIIBBBgPgBcSIHQYD4AUYEQCAIQRB0IgdBgICA/AdyIAtFDQEaIAcgC0ENdHJBgICA/gdyDAELIAhBEHQiCCAHQQ10QYCAgPwAcSALQQ10ckGAgIDAA2pyIAcNABogCyALZ0EQayIHQf//A3FBCGp0Qf///wNxIAhBgICA2ANyIAdBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEmCwJ/AkAgDyAaSQRAICUgIZQiJSAjICKUYCAJIA9BGGxqIgktABMiDyAJLQASIgggCS0AESIHIAcgCEkbIgcgByAPSRsiCgR9QwAAQMEgESoCRCARLQBYQQJGIgcbIiBDAAAQQSARKgJIIAcbICCTQwAAfkOVIApBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISNFIQ8gJSAlWyEIIAlBDGovAQAiEEH//wFxIgtFBEAgEEEQdAwDCyAQQf8HcSEaIBBBgIACcSEJIBBBgPgBcSIHQYD4AUYEQCAJQRB0IgdBgICA/AdyIBpFDQMaIAcgGkENdHJBgICA/gdyDAMLIAlBEHQhCSAHRQ0BIAdBDXRBgICA/ABxIBpBDXRyQYCAgMADaiAJcgwCCyAPIBpB3LvHABCMBwALIBogGmdBEGsiB0H//wNxQQhqdEH///8DcSAJQYCAgNgDciAHQRd0a3ILQwAAgD8hIr4iIEMAAIA/XgRAICAQxgVDVPgtQJRDAACAP5KRISILIAggD3EiDyAkICaUIiAgIFsgICAjICKUYEVxRwRAIAAhFgwBCyATIA0gDyAMBH1DAABAwSARKgJEIBEtAFhBAkYiBxsiIEMAABBBIBEqAkggBxsgIJNDAAB+Q5UgDEEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAsCfyAOQRB0IBZFDQAaIA5B/wdxIRYgDkGAgAJxIQggDkGA+AFxIgdBgPgBRgRAIAhBEHQiB0GAgID8B3IgFkUNARogByAWQQ10ckGAgID+B3IMAQsgCEEQdCIIIAdBDXRBgICA/ABxIBZBDXRyQYCAgMADanIgBw0AGiAWIBZnQRBrIgdB//8DcUEIanRB////A3EgCEGAgIDYA3IgB0EXdGtyC74iIEMAAIA/XgR9ICAQxgVDVPgtQJRDAACAP5KRBUMAAIA/C5QiIyAjWyAjIAoEfUMAAEDBIBEqAkQgES0AWEECRiIHGyIgQwAAEEEgESoCSCAHGyAgk0MAAH5DlSAKQQFrQf8BcbOUkhCJBCIgICCSBUMAAAAACwJ/IBBBEHQgC0UNABogEEH/B3EhCyAQQYCAAnEhCCAQQYD4AXEiB0GA+AFGBEAgCEEQdCIHQYCAgPwHciALRQ0BGiAHIAtBDXRyQYCAgP4HcgwBCyAIQRB0IgggB0ENdEGAgID8AHEgC0ENdHJBgICAwANqciAHDQAaIAsgC2dBEGsiB0H//wNxQQhqdEH///8DcSAIQYCAgNgDciAHQRd0a3ILviIgQwAAgD9eBH0gIBDGBUNU+C1AlEMAAIA/kpEFQwAAgD8LlGBFcXMbIRYLIARBAWshBCAdIBYoAgAiDTYCBCAWIABrQQJ2IQ8CQAJAAkAgBQRAQwAAgD8hIQJ/AkAgBSgCACIHIBxBBGooAgAiEygCCCIMSQRAIBMoAgQiCSAHQRhsaiIKLQATIgsgCi0AEiIIIAotABEiByAHIAhJGyIHIAcgC0kbIggEfUMAAEDBIBMqAkQgEy0AWEECRiIHGyIgQwAAEEEgEyoCSCAHGyAgk0MAAH5DlSAIQQFrQf8BcbOUkhCJBCIgICCSBUMAAAAACyEkIApBDGovAQAiB0H//wFxRQRAIAdBEHQMAwsgB0H/B3EhCyAHQYCAAnEhCCAHQYD4AXEiB0GA+AFGBEAgCEEQdCIHQYCAgPwHciALRQ0DGiAHIAtBDXRyQYCAgP4HcgwDCyAIQRB0IQggB0UNASAHQQ10QYCAgPwAcSALQQ10ckGAgIDAA2ogCHIMAgsgByAMQdy7xwAQjAcACyALIAtnQRBrIgdB//8DcUEIanRB////A3EgCEGAgIDYA3IgB0EXdGtyC74iIEMAAIA/XgRAICAQxgVDVPgtQJRDAACAP5KRISELQwAAgD8hIgJ/AkAgDCANSwRAIAkgDUEYbGoiCS0AEyILIAktABIiCCAJLQARIgcgByAISRsiByAHIAtJGyIIBH1DAABAwSATKgJEIBMtAFhBAkYiBxsiIEMAABBBIBMqAkggBxsgIJNDAAB+Q5UgCEEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshIyAJQQxqLwEAIgdB//8BcUUEQCAHQRB0DAMLIAdB/wdxIQsgB0GAgAJxIQggB0GA+AFxIgdBgPgBRgRAIAhBEHQiB0GAgID8B3IgC0UNAxogByALQQ10ckGAgID+B3IMAwsgCEEQdCEIIAdFDQEgB0ENdEGAgID8AHEgC0ENdHJBgICAwANqIAhyDAILIA0gDEHcu8cAEIwHAAsgCyALZ0EQayIHQf//A3FBCGp0Qf///wNxIAhBgICA2ANyIAdBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEiCyAkICGUIiAgIFwgICAjICKUYHINAQsgASADSw0BIAIgAUECdCIaaiEVQQAhCCAAIQsgDyEHA0AgACAHQQNrIglBACAHIAlPG0ECdGoiEyALSwRAIBxBBGooAgAiEigCCCEZIBYoAgAhFANAQwAAgD8hIQJ/AkAgGSALKAIAIhBLBEAgEigCBCIbIBBBGGxqIg0tABMiDCANLQASIgogDS0AESIJIAkgCkkbIgkgCSAMSRsiCgR9QwAAQMEgEioCRCASLQBYQQJGIgkbIiBDAAAQQSASKgJIIAkbICCTQwAAfkOVIApBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISQgDUEMai8BACIJQf//AXFFBEAgCUEQdAwDCyAJQf8HcSEMIAlBgIACcSEKIAlBgPgBcSIJQYD4AUYEQCAKQRB0IglBgICA/AdyIAxFDQMaIAkgDEENdHJBgICA/gdyDAMLIApBEHQhCiAJRQ0BIAlBDXRBgICA/ABxIAxBDXRyQYCAgMADaiAKcgwCCyAQIBlB3LvHABCMBwALIAwgDGdBEGsiCUH//wNxQQhqdEH///8DcSAKQYCAgNgDciAJQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIQtDAACAPyEiAn8CQCAUIBlJBEAgGyAUQRhsaiIXLQATIgwgFy0AEiIKIBctABEiCSAJIApJGyIJIAkgDEkbIgoEfUMAAEDBIBIqAkQgEi0AWEECRiIJGyIgQwAAEEEgEioCSCAJGyAgk0MAAH5DlSAKQQFrQf8BcbOUkhCJBCIgICCSBUMAAAAACyEjIBdBDGoiES8BACIJQf//AXFFBEAgCUEQdAwDCyAJQf8HcSEMIAlBgIACcSEKIAlBgPgBcSIJQYD4AUYEQCAKQRB0IglBgICA/AdyIAxFDQMaIAkgDEENdHJBgICA/gdyDAMLIApBEHQhCiAJRQ0BIAlBDXRBgICA/ABxIAxBDXRyQYCAgMADaiAKcgwCCyAUIBlB3LvHABCMBwALIAwgDGdBEGsiCUH//wNxQQhqdEH///8DcSAKQYCAgNgDciAJQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIgsgCEECdCACIBVBBGsgJCAhlCIgICBbICAgIyAilGBFcSING2ogEDYCAEMAAIA/ISECfwJAIBkgC0EEaigCACIOSwRAIBsgDkEYbGoiEC0AEyIMIBAtABIiCiAQLQARIgkgCSAKSRsiCSAJIAxJGyIKBH1DAABAwSASKgJEIBItAFhBAkYiCRsiIEMAABBBIBIqAkggCRsgIJNDAAB+Q5UgCkEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshJCAQQQxqLwEAIglB//8BcUUEQCAJQRB0DAMLIAlB/wdxIQwgCUGAgAJxIQogCUGA+AFxIglBgPgBRgRAIApBEHQiCUGAgID8B3IgDEUNAxogCSAMQQ10ckGAgID+B3IMAwsgCkEQdCEKIAlFDQEgCUENdEGAgID8AHEgDEENdHJBgICAwANqIApyDAILDAsLIAwgDGdBEGsiCUH//wNxQQhqdEH///8DcSAKQYCAgNgDciAJQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIQsgFy0AEyIMIBctABIiCiAXLQARIgkgCSAKSRsiCSAJIAxJGyIKBH1DAABAwSASKgJEIBItAFhBAkYiCRsiIEMAABBBIBIqAkggCRsgIJNDAAB+Q5UgCkEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshI0MAAIA/ISICfyARLwEAIglB//8BcUUEQCAJQRB0DAELIAlB/wdxIQwgCUGAgAJxIQogCUGA+AFxIglBgPgBRgRAIApBEHQiCUGAgID8B3IgDEUNARogCSAMQQ10ckGAgID+B3IMAQsgCkEQdCIKIAlBDXRBgICA/ABxIAxBDXRyQYCAgMADanIgCQ0AGiAMIAxnQRBrIglB//8DcUEIanRB////A3EgCkGAgIDYA3IgCUEXdGtyC74iIEMAAIA/XgRAICAQxgVDVPgtQJRDAACAP5KRISILIAggDWoiDUECdCACIBVBCGsgJCAhlCIgICBbICAgIyAilGBFcSIMG2ogDjYCAEMAAIA/ISECfwJAIBkgC0EIaigCACIOSwRAIBsgDkEYbGoiEC0AEyIKIBAtABIiCSAQLQARIgggCCAJSRsiCCAIIApJGyIJBH1DAABAwSASKgJEIBItAFhBAkYiCBsiIEMAABBBIBIqAkggCBsgIJNDAAB+Q5UgCUEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshJCAQQQxqLwEAIghB//8BcUUEQCAIQRB0DAMLIAhB/wdxIQogCEGAgAJxIQkgCEGA+AFxIghBgPgBRgRAIAlBEHQiCEGAgID8B3IgCkUNAxogCCAKQQ10ckGAgID+B3IMAwsgCUEQdCEJIAhFDQEgCEENdEGAgID8AHEgCkENdHJBgICAwANqIAlyDAILDAsLIAogCmdBEGsiCEH//wNxQQhqdEH///8DcSAJQYCAgNgDciAIQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIQsgFy0AEyIKIBctABIiCSAXLQARIgggCCAJSRsiCCAIIApJGyIJBH1DAABAwSASKgJEIBItAFhBAkYiCBsiIEMAABBBIBIqAkggCBsgIJNDAAB+Q5UgCUEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshI0MAAIA/ISICfyARLwEAIghB//8BcUUEQCAIQRB0DAELIAhB/wdxIQogCEGAgAJxIQkgCEGA+AFxIghBgPgBRgRAIAlBEHQiCEGAgID8B3IgCkUNARogCCAKQQ10ckGAgID+B3IMAQsgCUEQdCIJIAhBDXRBgICA/ABxIApBDXRyQYCAgMADanIgCA0AGiAKIApnQRBrIghB//8DcUEIanRB////A3EgCUGAgIDYA3IgCEEXdGtyC74iIEMAAIA/XgRAICAQxgVDVPgtQJRDAACAP5KRISILIAwgDWoiDUECdCACIBVBDGsgJCAhlCIgICBbICAgIyAilGBFcSIMG2ogDjYCAEMAAIA/ISECfwJAIBkgC0EMaigCACIOSwRAIBsgDkEYbGoiEC0AEyIKIBAtABIiCSAQLQARIgggCCAJSRsiCCAIIApJGyIJBH1DAABAwSASKgJEIBItAFhBAkYiCBsiIEMAABBBIBIqAkggCBsgIJNDAAB+Q5UgCUEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshJCAQQQxqLwEAIghB//8BcUUEQCAIQRB0DAMLIAhB/wdxIQogCEGAgAJxIQkgCEGA+AFxIghBgPgBRgRAIAlBEHQiCEGAgID8B3IgCkUNAxogCCAKQQ10ckGAgID+B3IMAwsgCUEQdCEJIAhFDQEgCEENdEGAgID8AHEgCkENdHJBgICAwANqIAlyDAILDAsLIAogCmdBEGsiCEH//wNxQQhqdEH///8DcSAJQYCAgNgDciAIQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIQsgFy0AEyIKIBctABIiCSAXLQARIgggCCAJSRsiCCAIIApJGyIJBH1DAABAwSASKgJEIBItAFhBAkYiCBsiIEMAABBBIBIqAkggCBsgIJNDAAB+Q5UgCUEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshI0MAAIA/ISICfyARLwEAIghB//8BcUUEQCAIQRB0DAELIAhB/wdxIQogCEGAgAJxIQkgCEGA+AFxIghBgPgBRgRAIAlBEHQiCEGAgID8B3IgCkUNARogCCAKQQ10ckGAgID+B3IMAQsgCUEQdCIJIAhBDXRBgICA/ABxIApBDXRyQYCAgMADanIgCA0AGiAKIApnQRBrIghB//8DcUEIanRB////A3EgCUGAgIDYA3IgCEEXdGtyC74iIEMAAIA/XgRAICAQxgVDVPgtQJRDAACAP5KRISILIAwgDWoiCUECdCACIBVBEGsiFSAkICGUIiAgIFsgICAjICKUYEVxIggbaiAONgIAIAggCWohCCALQRBqIgsgE0kNAAsLIAAgB0ECdGoiEyALSwRAIBxBBGooAgAiGygCCCEUIBYoAgAhEQNAQwAAgD8hIQJ/AkAgFCALKAIAIg5LBEAgGygCBCINIA5BGGxqIhAtABMiDCAQLQASIgogEC0AESIJIAkgCkkbIgkgCSAMSRsiCgR9QwAAQMEgGyoCRCAbLQBYQQJGIgkbIiBDAAAQQSAbKgJIIAkbICCTQwAAfkOVIApBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISMgEEEMai8BACIJQf//AXFFBEAgCUEQdAwDCyAJQf8HcSEMIAlBgIACcSEKIAlBgPgBcSIJQYD4AUYEQCAKQRB0IglBgICA/AdyIAxFDQMaIAkgDEENdHJBgICA/gdyDAMLIApBEHQhCiAJRQ0BIAlBDXRBgICA/ABxIAxBDXRyQYCAgMADaiAKcgwCCyAOIBRB3LvHABCMBwALIAwgDGdBEGsiCUH//wNxQQhqdEH///8DcSAKQYCAgNgDciAJQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIQsCfwJAIBEgFEkEQCANIBFBGGxqIg0tABMiDCANLQASIgogDS0AESIJIAkgCkkbIgkgCSAMSRsiCgR9QwAAQMEgGyoCRCAbLQBYQQJGIgkbIiBDAAAQQSAbKgJIIAkbICCTQwAAfkOVIApBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISAgDUEMai8BACIJQf//AXFFBEAgCUEQdAwDCyAJQf8HcSEMIAlBgIACcSEKIAlBgPgBcSIJQYD4AUYEQCAKQRB0IglBgICA/AdyIAxFDQMaIAkgDEENdHJBgICA/gdyDAMLIApBEHQhCiAJRQ0BIAlBDXRBgICA/ABxIAxBDXRyQYCAgMADaiAKcgwCCyARIBRB3LvHABCMBwwGCyAMIAxnQRBrIglB//8DcUEIanRB////A3EgCkGAgIDYA3IgCUEXdGtyCyEJIAhBAnQgAiAVQQRrIhUgIyAhlCIjICNbICMgICAJviIgQwAAgD9eBH0gIBDGBUNU+C1AlEMAAIA/kpEFQwAAgD8LlGBFcSIJG2ogDjYCACAIIAlqIQggC0EEaiILIBNJDQALCyABIAdHBEAgFUEEayIVIAhBAnRqIAsoAgA2AgAgC0EEaiELIAEhBwwBCwsgCEECdCIMBEAgACACIAz8CgAACyABIAhrIQoCQCABIAhGDQBBACEHIApBBE8EQCAAIAxqIQ0gGiAfaiEJIApBfHEiByELA0AgDSAJ/QACAP0MAAAAAAAAAAAAAAAAAAAAAP0NDA0ODwgJCgsEBQYHAAECA/0LAgAgCUEQayEJIA1BEGohDSALQQRrIgsNAAsgByAKRg0BCyAeIBogB0ECdCILa2ohDSAAIAtqIAxqIQkgByABayAIaiELA0AgCSANKAIANgIAIA1BBGshDSAJQQRqIQkgC0EBaiILDQALCyAIRQ0AIAEgCE8NAiAdQQA2AhggHUEBNgIMIB1BiILIADYCCCAdQgQ3AhAgHUEIakH0lMEAEI0IAAsgASADSw0AIAIgAUECdCIQaiEVIAYoAgAhGkEAIRQgACELA0AgACAPQQNrIgVBACAFIA9NG0ECdGoiDSALSwRAIBpBBGooAgAiFygCCCEbIBYoAgAhHCAGKAIAQQRqIQwDQEMAAIA/ISECfwJAIBsgHEsEQCALKAIAIQ4gFygCBCIJIBxBGGwiCmoiEy0AEyIIIBMtABIiByATLQARIgUgBSAHSRsiBSAFIAhJGyIHBH1DAABAwSAXKgJEIBctAFhBAkYiBRsiIEMAABBBIBcqAkggBRsgIJNDAAB+Q5UgB0EBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshJCATQQxqLwEAIgVB//8BcUUEQCAFQRB0DAMLIAVB/wdxIQggBUGAgAJxIQcgBUGA+AFxIgVBgPgBRgRAIAdBEHQiBUGAgID8B3IgCEUNAxogBSAIQQ10ckGAgID+B3IMAwsgB0EQdCEHIAVFDQEgBUENdEGAgID8AHEgCEENdHJBgICAwANqIAdyDAILIBwgG0Hcu8cAEIwHAAsgCCAIZ0EQayIFQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIAVBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEhC0MAAIA/ISICfwJAIA4gG0kEQCAJIA5BGGxqIgktABMiCCAJLQASIgcgCS0AESIFIAUgB0kbIgUgBSAISRsiBwR9QwAAQMEgFyoCRCAXLQBYQQJGIgUbIiBDAAAQQSAXKgJIIAUbICCTQwAAfkOVIAdBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISMgCUEMai8BACIFQf//AXFFBEAgBUEQdAwDCyAFQf8HcSEIIAVBgIACcSEHIAVBgPgBcSIFQYD4AUYEQCAHQRB0IgVBgICA/AdyIAhFDQMaIAUgCEENdHJBgICA/gdyDAMLIAdBEHQhByAFRQ0BIAVBDXRBgICA/ABxIAhBDXRyQYCAgMADaiAHcgwCCyAOIBtB3LvHABCMBwALIAggCGdBEGsiBUH//wNxQQhqdEH///8DcSAHQYCAgNgDciAFQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIgsgFEECdCACIBVBBGsgJCAhlCIgICBcICAgIyAilGByIgkbaiAONgIAQwAAgD8hIQJ/AkAgDCgCACIYKAIIIhkgHEsEQCALQQRqKAIAIQ4gCiAYKAIEIhFqIhItABMiCCASLQASIgcgEi0AESIFIAUgB0kbIgUgBSAISRsiBwR9QwAAQMEgGCoCRCAYLQBYQQJGIgUbIiBDAAAQQSAYKgJIIAUbICCTQwAAfkOVIAdBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISQgEkEMaiITLwEAIgVB//8BcUUEQCAFQRB0DAMLIAVB/wdxIQggBUGAgAJxIQcgBUGA+AFxIgVBgPgBRgRAIAdBEHQiBUGAgID8B3IgCEUNAxogBSAIQQ10ckGAgID+B3IMAwsgB0EQdCEHIAVFDQEgBUENdEGAgID8AHEgCEENdHJBgICAwANqIAdyDAILIBwgGUHcu8cAEIwHAAsgCCAIZ0EQayIFQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIAVBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEhC0MAAIA/ISICfwJAIA4gGUkEQCARIA5BGGxqIgotABMiCCAKLQASIgcgCi0AESIFIAUgB0kbIgUgBSAISRsiBwR9QwAAQMEgGCoCRCAYLQBYQQJGIgUbIiBDAAAQQSAYKgJIIAUbICCTQwAAfkOVIAdBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISMgCkEMai8BACIFQf//AXFFBEAgBUEQdAwDCyAFQf8HcSEIIAVBgIACcSEHIAVBgPgBcSIFQYD4AUYEQCAHQRB0IgVBgICA/AdyIAhFDQMaIAUgCEENdHJBgICA/gdyDAMLIAdBEHQhByAFRQ0BIAVBDXRBgICA/ABxIAhBDXRyQYCAgMADaiAHcgwCCwwKCyAIIAhnQRBrIgVB//8DcUEIanRB////A3EgB0GAgIDYA3IgBUEXdGtyC74iIEMAAIA/XgRAICAQxgVDVPgtQJRDAACAP5KRISILIAkgFGoiCkECdCACIBVBCGsgJCAhlCIgICBcICAgIyAilGByIgkbaiAONgIAIAtBCGooAgAhFCASLQATIgggEi0AEiIHIBItABEiBSAFIAdJGyIFIAUgCEkbIgcEfUMAAEDBIBgqAkQgGC0AWEECRiIFGyIgQwAAEEEgGCoCSCAFGyAgk0MAAH5DlSAHQQFrQf8BcbOUkhCJBCIgICCSBUMAAAAACyEkQwAAgD8hIQJ/IBMvAQAiBUH//wFxRQRAIAVBEHQMAQsgBUH/B3EhCCAFQYCAAnEhByAFQYD4AXEiBUGA+AFGBEAgB0EQdCIFQYCAgPwHciAIRQ0BGiAFIAhBDXRyQYCAgP4HcgwBCyAHQRB0IgcgBUENdEGAgID8AHEgCEENdHJBgICAwANqciAFDQAaIAggCGdBEGsiBUH//wNxQQhqdEH///8DcSAHQYCAgNgDciAFQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIQtDAACAPyEiAn8CQCAUIBlJBEAgESAUQRhsaiIOLQATIgggDi0AEiIHIA4tABEiBSAFIAdJGyIFIAUgCEkbIgcEfUMAAEDBIBgqAkQgGC0AWEECRiIFGyIgQwAAEEEgGCoCSCAFGyAgk0MAAH5DlSAHQQFrQf8BcbOUkhCJBCIgICCSBUMAAAAACyEjIA5BDGovAQAiBUH//wFxRQRAIAVBEHQMAwsgBUH/B3EhCCAFQYCAAnEhByAFQYD4AXEiBUGA+AFGBEAgB0EQdCIFQYCAgPwHciAIRQ0DGiAFIAhBDXRyQYCAgP4HcgwDCyAHQRB0IQcgBUUNASAFQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2ogB3IMAgsgFCAZQdy7xwAQjAcACyAIIAhnQRBrIgVB//8DcUEIanRB////A3EgB0GAgIDYA3IgBUEXdGtyC74iIEMAAIA/XgRAICAQxgVDVPgtQJRDAACAP5KRISILIAkgCmoiCkECdCACIBVBDGsgJCAhlCIgICBcICAgIyAilGByIgkbaiAUNgIAIAtBDGooAgAhDiASLQATIgggEi0AEiIHIBItABEiBSAFIAdJGyIFIAUgCEkbIgcEfUMAAEDBIBgqAkQgGC0AWEECRiIFGyIgQwAAEEEgGCoCSCAFGyAgk0MAAH5DlSAHQQFrQf8BcbOUkhCJBCIgICCSBUMAAAAACyEkQwAAgD8hIQJ/IBMvAQAiBUH//wFxRQRAIAVBEHQMAQsgBUH/B3EhCCAFQYCAAnEhByAFQYD4AXEiBUGA+AFGBEAgB0EQdCIFQYCAgPwHciAIRQ0BGiAFIAhBDXRyQYCAgP4HcgwBCyAHQRB0IgcgBUENdEGAgID8AHEgCEENdHJBgICAwANqciAFDQAaIAggCGdBEGsiBUH//wNxQQhqdEH///8DcSAHQYCAgNgDciAFQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIQtDAACAPyEiAn8CQCAOIBlJBEAgESAOQRhsaiITLQATIgggEy0AEiIHIBMtABEiBSAFIAdJGyIFIAUgCEkbIgcEfUMAAEDBIBgqAkQgGC0AWEECRiIFGyIgQwAAEEEgGCoCSCAFGyAgk0MAAH5DlSAHQQFrQf8BcbOUkhCJBCIgICCSBUMAAAAACyEjIBNBDGovAQAiBUH//wFxRQRAIAVBEHQMAwsgBUH/B3EhCCAFQYCAAnEhByAFQYD4AXEiBUGA+AFGBEAgB0EQdCIFQYCAgPwHciAIRQ0DGiAFIAhBDXRyQYCAgP4HcgwDCyAHQRB0IQcgBUUNASAFQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2ogB3IMAgsMCgsgCCAIZ0EQayIFQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIAVBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEiCyAJIApqIgdBAnQgAiAVQRBrIhUgJCAhlCIgICBcICAgIyAilGByIgUbaiAONgIAIAUgB2ohFCALQRBqIgsgDUkNAAsLIAAgD0ECdGoiCiALSwRAIBpBBGooAgAiESgCCCEOIBYoAgAhDQNAQwAAgD8hIQJ/AkAgDSAOSQRAIAsoAgAhEyARKAIEIgkgDUEYbGoiDC0AEyIIIAwtABIiByAMLQARIgUgBSAHSRsiBSAFIAhJGyIHBH1DAABAwSARKgJEIBEtAFhBAkYiBRsiIEMAABBBIBEqAkggBRsgIJNDAAB+Q5UgB0EBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshJCAMQQxqLwEAIgVB//8BcUUEQCAFQRB0DAMLIAVB/wdxIQggBUGAgAJxIQcgBUGA+AFxIgVBgPgBRgRAIAdBEHQiBUGAgID8B3IgCEUNAxogBSAIQQ10ckGAgID+B3IMAwsgB0EQdCEHIAVFDQEgBUENdEGAgID8AHEgCEENdHJBgICAwANqIAdyDAILIA0gDkHcu8cAEIwHAAsgCCAIZ0EQayIFQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIAVBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEhC0MAAIA/ISICfwJAIA4gE0sEQCAJIBNBGGxqIgktABMiCCAJLQASIgcgCS0AESIFIAUgB0kbIgUgBSAISRsiBwR9QwAAQMEgESoCRCARLQBYQQJGIgUbIiBDAAAQQSARKgJIIAUbICCTQwAAfkOVIAdBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISMgCUEMai8BACIFQf//AXFFBEAgBUEQdAwDCyAFQf8HcSEIIAVBgIACcSEHIAVBgPgBcSIFQYD4AUYEQCAHQRB0IgVBgICA/AdyIAhFDQMaIAUgCEENdHJBgICA/gdyDAMLIAdBEHQhByAFRQ0BIAVBDXRBgICA/ABxIAhBDXRyQYCAgMADaiAHcgwCCyATIA5B3LvHABCMBwALIAggCGdBEGsiBUH//wNxQQhqdEH///8DcSAHQYCAgNgDciAFQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIgsgFEECdCACIBVBBGsiFSAkICGUIiAgIFwgICAjICKUYHIiBRtqIBM2AgAgBSAUaiEUIAtBBGoiCyAKSQ0ACwsgASAPRwRAIAIgFEECdGogCygCADYCACALQQRqIQsgFEEBaiEUIBVBBGshFSABIQ8MAQsLIBRBAnQiDwRAIAAgAiAP/AoAAAsgASAURg0EIAAgD2ohB0EAIRUCQCABIBRrIghBBE8EQCAQIB9qIQ0gByEJIAhBfHEiFSELA0AgCSAN/QACAP0MAAAAAAAAAAAAAAAAAAAAAP0NDA0ODwgJCgsEBQYHAAECA/0LAgAgDUEQayENIAlBEGohCSALQQRrIgsNAAsgCCAVRg0BCyAeIBVBAnQiBWsgEGohDSAAIAVqIA9qIQkgFSABayAUaiELA0AgCSANKAIANgIAIA1BBGshDSAJQQRqIQkgC0EBaiILDQALCyABIBRPBEBBACEFIAchACAIIQEgCEEhSQ0EDAMLIBQgASABQYSVwQAQ6gcACwALIAAgDGogCiACIAMgBCAdQQRqIAYQNyAIIQEgCEEhTw0ACyAAIQcLIAhBAkkNACAGKAIAIQYgCEEBdiEPIA8CfyAIQQ9NBEAgCEEHSwRAIAcgAiAGQQRqIgEoAgAQbSAHIA9BAnQiAGogACACaiABKAIAEG1BBAwCCyACIAcoAgA2AgAgAiAPQQJ0IgBqIAAgB2ooAgA2AgBBAQwBCyAHIAIgCEECdGoiBSAGQQRqIgQoAgAQbSAHQRBqIAVBEGogBCgCABBtIAVBCCACIAYQtgEgByAPQQJ0IgNqIgEgBUEgaiIAIAQoAgAQbSABQRBqIAVBMGogBCgCABBtIABBCCACIANqIAYQtgFBCAsiA0sEQCAPIANrIQkgA0ECdCENA0AgAiANaiIAIAcgDWooAgA2AgAgAiAAIAYQygEgDUEEaiENIAlBAWsiCQ0ACwsgCCAPayADSwRAIAIgD0ECdCIAaiEBIAcgA0ECdCAAaiIAaiEJIAAgAmohDSADIA9qIAhrIRUDQCANIAkoAgA2AgAgASANIAYQygEgCUEEaiEJIA1BBGohDSAVQQFqIhUNAAsLIAIgCCAHIAYQtgELIB1BIGokAA8LIA4gGUHcu8cAEIwHAAvlXgIZfwd9IwBBIGsiHSQAAkACQAJAIAFBIUkEQCAAIQcgASEIDAELIAJBBGshHiACQRBrIR8DQCAERQRAIAAgASACIANBASAGEGAMAwsgACABQQN2IgdBHGxqIRMgACAHQQR0aiENAkAgAUHAAE8EQCAAIA0gEyAHIAYQoQEhFiAGKAIAIRwMAQtDAACAPyEhAn8CQCAAKAIAIgcgBigCACIcQQRqKAIAIhEoAggiGkkEQCANKAIAIRYgESgCBCIJIAdBGGxqIgstABMiDyALLQASIgggCy0AESIHIAcgCEkbIgcgByAPSRsiCgR9QwAAQMEgESoCRCARLQBYQQJGIgcbIiBDAAAQQSARKgJIIAcbICCTQwAAfkOVIApBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISUgC0EMai8BACIQQf//AXEiC0UEQCAQQRB0DAMLIBBB/wdxIQ8gEEGAgAJxIQggEEGA+AFxIgdBgPgBRgRAIAhBEHQiB0GAgID8B3IgD0UNAxogByAPQQ10ckGAgID+B3IMAwsgCEEQdCEIIAdFDQEgB0ENdEGAgID8AHEgD0ENdHJBgICAwANqIAhyDAILIAcgGkHcu8cAEIwHAAsgDyAPZ0EQayIHQf//A3FBCGp0Qf///wNxIAhBgICA2ANyIAdBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEhC0MAAIA/ISICfwJAIBYgGkkEQCAJIBZBGGxqIhYtABMiDyAWLQASIgggFi0AESIHIAcgCEkbIgcgByAPSRsiDAR9QwAAQMEgESoCRCARLQBYQQJGIgcbIiBDAAAQQSARKgJIIAcbICCTQwAAfkOVIAxBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISMgFkEMai8BACIOQf//AXEiFkUEQCAOQRB0DAMLIA5B/wdxIQ8gDkGAgAJxIQggDkGA+AFxIgdBgPgBRgRAIAhBEHQiB0GAgID8B3IgD0UNAxogByAPQQ10ckGAgID+B3IMAwsgCEEQdCEIIAdFDQEgB0ENdEGAgID8AHEgD0ENdHJBgICAwANqIAhyDAILIBYgGkHcu8cAEIwHAAsgDyAPZ0EQayIHQf//A3FBCGp0Qf///wNxIAhBgICA2ANyIAdBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEiCyATKAIAIQ8gCgR9QwAAQMEgESoCRCARLQBYQQJGIgcbIiBDAAAQQSARKgJIIAcbICCTQwAAfkOVIApBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISRDAACAPyEmAn8gEEEQdCALRQ0AGiAQQf8HcSELIBBBgIACcSEIIBBBgPgBcSIHQYD4AUYEQCAIQRB0IgdBgICA/AdyIAtFDQEaIAcgC0ENdHJBgICA/gdyDAELIAhBEHQiCCAHQQ10QYCAgPwAcSALQQ10ckGAgIDAA2pyIAcNABogCyALZ0EQayIHQf//A3FBCGp0Qf///wNxIAhBgICA2ANyIAdBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEmCwJ/AkAgDyAaSQRAICUgIZQiJSAjICKUYCAJIA9BGGxqIgktABMiDyAJLQASIgggCS0AESIHIAcgCEkbIgcgByAPSRsiCgR9QwAAQMEgESoCRCARLQBYQQJGIgcbIiBDAAAQQSARKgJIIAcbICCTQwAAfkOVIApBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISNFIQ8gJSAlWyEIIAlBDGovAQAiEEH//wFxIgtFBEAgEEEQdAwDCyAQQf8HcSEaIBBBgIACcSEJIBBBgPgBcSIHQYD4AUYEQCAJQRB0IgdBgICA/AdyIBpFDQMaIAcgGkENdHJBgICA/gdyDAMLIAlBEHQhCSAHRQ0BIAdBDXRBgICA/ABxIBpBDXRyQYCAgMADaiAJcgwCCyAPIBpB3LvHABCMBwALIBogGmdBEGsiB0H//wNxQQhqdEH///8DcSAJQYCAgNgDciAHQRd0a3ILQwAAgD8hIr4iIEMAAIA/XgRAICAQxgVDVPgtQJRDAACAP5KRISILIAggD3EiDyAkICaUIiAgIFsgICAjICKUYEVxRwRAIAAhFgwBCyATIA0gDyAMBH1DAABAwSARKgJEIBEtAFhBAkYiBxsiIEMAABBBIBEqAkggBxsgIJNDAAB+Q5UgDEEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAsCfyAOQRB0IBZFDQAaIA5B/wdxIRYgDkGAgAJxIQggDkGA+AFxIgdBgPgBRgRAIAhBEHQiB0GAgID8B3IgFkUNARogByAWQQ10ckGAgID+B3IMAQsgCEEQdCIIIAdBDXRBgICA/ABxIBZBDXRyQYCAgMADanIgBw0AGiAWIBZnQRBrIgdB//8DcUEIanRB////A3EgCEGAgIDYA3IgB0EXdGtyC74iIEMAAIA/XgR9ICAQxgVDVPgtQJRDAACAP5KRBUMAAIA/C5QiIyAjWyAjIAoEfUMAAEDBIBEqAkQgES0AWEECRiIHGyIgQwAAEEEgESoCSCAHGyAgk0MAAH5DlSAKQQFrQf8BcbOUkhCJBCIgICCSBUMAAAAACwJ/IBBBEHQgC0UNABogEEH/B3EhCyAQQYCAAnEhCCAQQYD4AXEiB0GA+AFGBEAgCEEQdCIHQYCAgPwHciALRQ0BGiAHIAtBDXRyQYCAgP4HcgwBCyAIQRB0IgggB0ENdEGAgID8AHEgC0ENdHJBgICAwANqciAHDQAaIAsgC2dBEGsiB0H//wNxQQhqdEH///8DcSAIQYCAgNgDciAHQRd0a3ILviIgQwAAgD9eBH0gIBDGBUNU+C1AlEMAAIA/kpEFQwAAgD8LlGBFcXMbIRYLIARBAWshBCAdIBYoAgAiDTYCBCAWIABrQQJ2IQ8CQAJAAkAgBQRAQwAAgD8hIQJ/AkAgBSgCACIHIBxBBGooAgAiEygCCCIMSQRAIBMoAgQiCSAHQRhsaiIKLQATIgsgCi0AEiIIIAotABEiByAHIAhJGyIHIAcgC0kbIggEfUMAAEDBIBMqAkQgEy0AWEECRiIHGyIgQwAAEEEgEyoCSCAHGyAgk0MAAH5DlSAIQQFrQf8BcbOUkhCJBCIgICCSBUMAAAAACyEkIApBDGovAQAiB0H//wFxRQRAIAdBEHQMAwsgB0H/B3EhCyAHQYCAAnEhCCAHQYD4AXEiB0GA+AFGBEAgCEEQdCIHQYCAgPwHciALRQ0DGiAHIAtBDXRyQYCAgP4HcgwDCyAIQRB0IQggB0UNASAHQQ10QYCAgPwAcSALQQ10ckGAgIDAA2ogCHIMAgsgByAMQdy7xwAQjAcACyALIAtnQRBrIgdB//8DcUEIanRB////A3EgCEGAgIDYA3IgB0EXdGtyC74iIEMAAIA/XgRAICAQxgVDVPgtQJRDAACAP5KRISELQwAAgD8hIgJ/AkAgDCANSwRAIAkgDUEYbGoiCS0AEyILIAktABIiCCAJLQARIgcgByAISRsiByAHIAtJGyIIBH1DAABAwSATKgJEIBMtAFhBAkYiBxsiIEMAABBBIBMqAkggBxsgIJNDAAB+Q5UgCEEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshIyAJQQxqLwEAIgdB//8BcUUEQCAHQRB0DAMLIAdB/wdxIQsgB0GAgAJxIQggB0GA+AFxIgdBgPgBRgRAIAhBEHQiB0GAgID8B3IgC0UNAxogByALQQ10ckGAgID+B3IMAwsgCEEQdCEIIAdFDQEgB0ENdEGAgID8AHEgC0ENdHJBgICAwANqIAhyDAILIA0gDEHcu8cAEIwHAAsgCyALZ0EQayIHQf//A3FBCGp0Qf///wNxIAhBgICA2ANyIAdBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEiCyAkICGUIiAgIFwgICAjICKUYHINAQsgASADSw0BIAIgAUECdCIaaiEVQQAhCCAAIQsgDyEHA0AgACAHQQNrIglBACAHIAlPG0ECdGoiEyALSwRAIBxBBGooAgAiEigCCCEZIBYoAgAhFANAQwAAgD8hIQJ/AkAgGSALKAIAIhBLBEAgEigCBCIbIBBBGGxqIg0tABMiDCANLQASIgogDS0AESIJIAkgCkkbIgkgCSAMSRsiCgR9QwAAQMEgEioCRCASLQBYQQJGIgkbIiBDAAAQQSASKgJIIAkbICCTQwAAfkOVIApBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISQgDUEMai8BACIJQf//AXFFBEAgCUEQdAwDCyAJQf8HcSEMIAlBgIACcSEKIAlBgPgBcSIJQYD4AUYEQCAKQRB0IglBgICA/AdyIAxFDQMaIAkgDEENdHJBgICA/gdyDAMLIApBEHQhCiAJRQ0BIAlBDXRBgICA/ABxIAxBDXRyQYCAgMADaiAKcgwCCyAQIBlB3LvHABCMBwALIAwgDGdBEGsiCUH//wNxQQhqdEH///8DcSAKQYCAgNgDciAJQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIQtDAACAPyEiAn8CQCAUIBlJBEAgGyAUQRhsaiIXLQATIgwgFy0AEiIKIBctABEiCSAJIApJGyIJIAkgDEkbIgoEfUMAAEDBIBIqAkQgEi0AWEECRiIJGyIgQwAAEEEgEioCSCAJGyAgk0MAAH5DlSAKQQFrQf8BcbOUkhCJBCIgICCSBUMAAAAACyEjIBdBDGoiES8BACIJQf//AXFFBEAgCUEQdAwDCyAJQf8HcSEMIAlBgIACcSEKIAlBgPgBcSIJQYD4AUYEQCAKQRB0IglBgICA/AdyIAxFDQMaIAkgDEENdHJBgICA/gdyDAMLIApBEHQhCiAJRQ0BIAlBDXRBgICA/ABxIAxBDXRyQYCAgMADaiAKcgwCCyAUIBlB3LvHABCMBwALIAwgDGdBEGsiCUH//wNxQQhqdEH///8DcSAKQYCAgNgDciAJQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIgsgCEECdCACIBVBBGsgJCAhlCIgICBbICAgIyAilGBFcSING2ogEDYCAEMAAIA/ISECfwJAIBkgC0EEaigCACIOSwRAIBsgDkEYbGoiEC0AEyIMIBAtABIiCiAQLQARIgkgCSAKSRsiCSAJIAxJGyIKBH1DAABAwSASKgJEIBItAFhBAkYiCRsiIEMAABBBIBIqAkggCRsgIJNDAAB+Q5UgCkEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshJCAQQQxqLwEAIglB//8BcUUEQCAJQRB0DAMLIAlB/wdxIQwgCUGAgAJxIQogCUGA+AFxIglBgPgBRgRAIApBEHQiCUGAgID8B3IgDEUNAxogCSAMQQ10ckGAgID+B3IMAwsgCkEQdCEKIAlFDQEgCUENdEGAgID8AHEgDEENdHJBgICAwANqIApyDAILDAsLIAwgDGdBEGsiCUH//wNxQQhqdEH///8DcSAKQYCAgNgDciAJQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIQsgFy0AEyIMIBctABIiCiAXLQARIgkgCSAKSRsiCSAJIAxJGyIKBH1DAABAwSASKgJEIBItAFhBAkYiCRsiIEMAABBBIBIqAkggCRsgIJNDAAB+Q5UgCkEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshI0MAAIA/ISICfyARLwEAIglB//8BcUUEQCAJQRB0DAELIAlB/wdxIQwgCUGAgAJxIQogCUGA+AFxIglBgPgBRgRAIApBEHQiCUGAgID8B3IgDEUNARogCSAMQQ10ckGAgID+B3IMAQsgCkEQdCIKIAlBDXRBgICA/ABxIAxBDXRyQYCAgMADanIgCQ0AGiAMIAxnQRBrIglB//8DcUEIanRB////A3EgCkGAgIDYA3IgCUEXdGtyC74iIEMAAIA/XgRAICAQxgVDVPgtQJRDAACAP5KRISILIAggDWoiDUECdCACIBVBCGsgJCAhlCIgICBbICAgIyAilGBFcSIMG2ogDjYCAEMAAIA/ISECfwJAIBkgC0EIaigCACIOSwRAIBsgDkEYbGoiEC0AEyIKIBAtABIiCSAQLQARIgggCCAJSRsiCCAIIApJGyIJBH1DAABAwSASKgJEIBItAFhBAkYiCBsiIEMAABBBIBIqAkggCBsgIJNDAAB+Q5UgCUEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshJCAQQQxqLwEAIghB//8BcUUEQCAIQRB0DAMLIAhB/wdxIQogCEGAgAJxIQkgCEGA+AFxIghBgPgBRgRAIAlBEHQiCEGAgID8B3IgCkUNAxogCCAKQQ10ckGAgID+B3IMAwsgCUEQdCEJIAhFDQEgCEENdEGAgID8AHEgCkENdHJBgICAwANqIAlyDAILDAsLIAogCmdBEGsiCEH//wNxQQhqdEH///8DcSAJQYCAgNgDciAIQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIQsgFy0AEyIKIBctABIiCSAXLQARIgggCCAJSRsiCCAIIApJGyIJBH1DAABAwSASKgJEIBItAFhBAkYiCBsiIEMAABBBIBIqAkggCBsgIJNDAAB+Q5UgCUEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshI0MAAIA/ISICfyARLwEAIghB//8BcUUEQCAIQRB0DAELIAhB/wdxIQogCEGAgAJxIQkgCEGA+AFxIghBgPgBRgRAIAlBEHQiCEGAgID8B3IgCkUNARogCCAKQQ10ckGAgID+B3IMAQsgCUEQdCIJIAhBDXRBgICA/ABxIApBDXRyQYCAgMADanIgCA0AGiAKIApnQRBrIghB//8DcUEIanRB////A3EgCUGAgIDYA3IgCEEXdGtyC74iIEMAAIA/XgRAICAQxgVDVPgtQJRDAACAP5KRISILIAwgDWoiDUECdCACIBVBDGsgJCAhlCIgICBbICAgIyAilGBFcSIMG2ogDjYCAEMAAIA/ISECfwJAIBkgC0EMaigCACIOSwRAIBsgDkEYbGoiEC0AEyIKIBAtABIiCSAQLQARIgggCCAJSRsiCCAIIApJGyIJBH1DAABAwSASKgJEIBItAFhBAkYiCBsiIEMAABBBIBIqAkggCBsgIJNDAAB+Q5UgCUEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshJCAQQQxqLwEAIghB//8BcUUEQCAIQRB0DAMLIAhB/wdxIQogCEGAgAJxIQkgCEGA+AFxIghBgPgBRgRAIAlBEHQiCEGAgID8B3IgCkUNAxogCCAKQQ10ckGAgID+B3IMAwsgCUEQdCEJIAhFDQEgCEENdEGAgID8AHEgCkENdHJBgICAwANqIAlyDAILDAsLIAogCmdBEGsiCEH//wNxQQhqdEH///8DcSAJQYCAgNgDciAIQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIQsgFy0AEyIKIBctABIiCSAXLQARIgggCCAJSRsiCCAIIApJGyIJBH1DAABAwSASKgJEIBItAFhBAkYiCBsiIEMAABBBIBIqAkggCBsgIJNDAAB+Q5UgCUEBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshI0MAAIA/ISICfyARLwEAIghB//8BcUUEQCAIQRB0DAELIAhB/wdxIQogCEGAgAJxIQkgCEGA+AFxIghBgPgBRgRAIAlBEHQiCEGAgID8B3IgCkUNARogCCAKQQ10ckGAgID+B3IMAQsgCUEQdCIJIAhBDXRBgICA/ABxIApBDXRyQYCAgMADanIgCA0AGiAKIApnQRBrIghB//8DcUEIanRB////A3EgCUGAgIDYA3IgCEEXdGtyC74iIEMAAIA/XgRAICAQxgVDVPgtQJRDAACAP5KRISILIAwgDWoiCUECdCACIBVBEGsiFSAkICGUIiAgIFsgICAjICKUYEVxIggbaiAONgIAIAggCWohCCALQRBqIgsgE0kNAAsLIAAgB0ECdGoiEyALSwRAIBxBBGooAgAiGygCCCEUIBYoAgAhEQNAQwAAgD8hIQJ/AkAgFCALKAIAIg5LBEAgGygCBCINIA5BGGxqIhAtABMiDCAQLQASIgogEC0AESIJIAkgCkkbIgkgCSAMSRsiCgR9QwAAQMEgGyoCRCAbLQBYQQJGIgkbIiBDAAAQQSAbKgJIIAkbICCTQwAAfkOVIApBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISMgEEEMai8BACIJQf//AXFFBEAgCUEQdAwDCyAJQf8HcSEMIAlBgIACcSEKIAlBgPgBcSIJQYD4AUYEQCAKQRB0IglBgICA/AdyIAxFDQMaIAkgDEENdHJBgICA/gdyDAMLIApBEHQhCiAJRQ0BIAlBDXRBgICA/ABxIAxBDXRyQYCAgMADaiAKcgwCCyAOIBRB3LvHABCMBwALIAwgDGdBEGsiCUH//wNxQQhqdEH///8DcSAKQYCAgNgDciAJQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIQsCfwJAIBEgFEkEQCANIBFBGGxqIg0tABMiDCANLQASIgogDS0AESIJIAkgCkkbIgkgCSAMSRsiCgR9QwAAQMEgGyoCRCAbLQBYQQJGIgkbIiBDAAAQQSAbKgJIIAkbICCTQwAAfkOVIApBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISAgDUEMai8BACIJQf//AXFFBEAgCUEQdAwDCyAJQf8HcSEMIAlBgIACcSEKIAlBgPgBcSIJQYD4AUYEQCAKQRB0IglBgICA/AdyIAxFDQMaIAkgDEENdHJBgICA/gdyDAMLIApBEHQhCiAJRQ0BIAlBDXRBgICA/ABxIAxBDXRyQYCAgMADaiAKcgwCCyARIBRB3LvHABCMBwwGCyAMIAxnQRBrIglB//8DcUEIanRB////A3EgCkGAgIDYA3IgCUEXdGtyCyEJIAhBAnQgAiAVQQRrIhUgIyAhlCIjICNbICMgICAJviIgQwAAgD9eBH0gIBDGBUNU+C1AlEMAAIA/kpEFQwAAgD8LlGBFcSIJG2ogDjYCACAIIAlqIQggC0EEaiILIBNJDQALCyABIAdHBEAgFUEEayIVIAhBAnRqIAsoAgA2AgAgC0EEaiELIAEhBwwBCwsgCEECdCIMBEAgACACIAz8CgAACyABIAhrIQoCQCABIAhGDQBBACEHIApBBE8EQCAAIAxqIQ0gGiAfaiEJIApBfHEiByELA0AgDSAJ/QACAP0MAAAAAAAAAAAAAAAAAAAAAP0NDA0ODwgJCgsEBQYHAAECA/0LAgAgCUEQayEJIA1BEGohDSALQQRrIgsNAAsgByAKRg0BCyAeIBogB0ECdCILa2ohDSAAIAtqIAxqIQkgByABayAIaiELA0AgCSANKAIANgIAIA1BBGshDSAJQQRqIQkgC0EBaiILDQALCyAIRQ0AIAEgCE8NAiAdQQA2AhggHUEBNgIMIB1BiILIADYCCCAdQgQ3AhAgHUEIakH0lMEAEI0IAAsgASADSw0AIAIgAUECdCIQaiEVIAYoAgAhGkEAIRQgACELA0AgACAPQQNrIgVBACAFIA9NG0ECdGoiDSALSwRAIBpBBGooAgAiFygCCCEbIBYoAgAhHCAGKAIAQQRqIQwDQEMAAIA/ISECfwJAIBsgHEsEQCALKAIAIQ4gFygCBCIJIBxBGGwiCmoiEy0AEyIIIBMtABIiByATLQARIgUgBSAHSRsiBSAFIAhJGyIHBH1DAABAwSAXKgJEIBctAFhBAkYiBRsiIEMAABBBIBcqAkggBRsgIJNDAAB+Q5UgB0EBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshJCATQQxqLwEAIgVB//8BcUUEQCAFQRB0DAMLIAVB/wdxIQggBUGAgAJxIQcgBUGA+AFxIgVBgPgBRgRAIAdBEHQiBUGAgID8B3IgCEUNAxogBSAIQQ10ckGAgID+B3IMAwsgB0EQdCEHIAVFDQEgBUENdEGAgID8AHEgCEENdHJBgICAwANqIAdyDAILIBwgG0Hcu8cAEIwHAAsgCCAIZ0EQayIFQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIAVBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEhC0MAAIA/ISICfwJAIA4gG0kEQCAJIA5BGGxqIgktABMiCCAJLQASIgcgCS0AESIFIAUgB0kbIgUgBSAISRsiBwR9QwAAQMEgFyoCRCAXLQBYQQJGIgUbIiBDAAAQQSAXKgJIIAUbICCTQwAAfkOVIAdBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISMgCUEMai8BACIFQf//AXFFBEAgBUEQdAwDCyAFQf8HcSEIIAVBgIACcSEHIAVBgPgBcSIFQYD4AUYEQCAHQRB0IgVBgICA/AdyIAhFDQMaIAUgCEENdHJBgICA/gdyDAMLIAdBEHQhByAFRQ0BIAVBDXRBgICA/ABxIAhBDXRyQYCAgMADaiAHcgwCCyAOIBtB3LvHABCMBwALIAggCGdBEGsiBUH//wNxQQhqdEH///8DcSAHQYCAgNgDciAFQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIgsgFEECdCACIBVBBGsgJCAhlCIgICBcICAgIyAilGByIgkbaiAONgIAQwAAgD8hIQJ/AkAgDCgCACIYKAIIIhkgHEsEQCALQQRqKAIAIQ4gCiAYKAIEIhFqIhItABMiCCASLQASIgcgEi0AESIFIAUgB0kbIgUgBSAISRsiBwR9QwAAQMEgGCoCRCAYLQBYQQJGIgUbIiBDAAAQQSAYKgJIIAUbICCTQwAAfkOVIAdBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISQgEkEMaiITLwEAIgVB//8BcUUEQCAFQRB0DAMLIAVB/wdxIQggBUGAgAJxIQcgBUGA+AFxIgVBgPgBRgRAIAdBEHQiBUGAgID8B3IgCEUNAxogBSAIQQ10ckGAgID+B3IMAwsgB0EQdCEHIAVFDQEgBUENdEGAgID8AHEgCEENdHJBgICAwANqIAdyDAILIBwgGUHcu8cAEIwHAAsgCCAIZ0EQayIFQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIAVBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEhC0MAAIA/ISICfwJAIA4gGUkEQCARIA5BGGxqIgotABMiCCAKLQASIgcgCi0AESIFIAUgB0kbIgUgBSAISRsiBwR9QwAAQMEgGCoCRCAYLQBYQQJGIgUbIiBDAAAQQSAYKgJIIAUbICCTQwAAfkOVIAdBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISMgCkEMai8BACIFQf//AXFFBEAgBUEQdAwDCyAFQf8HcSEIIAVBgIACcSEHIAVBgPgBcSIFQYD4AUYEQCAHQRB0IgVBgICA/AdyIAhFDQMaIAUgCEENdHJBgICA/gdyDAMLIAdBEHQhByAFRQ0BIAVBDXRBgICA/ABxIAhBDXRyQYCAgMADaiAHcgwCCwwKCyAIIAhnQRBrIgVB//8DcUEIanRB////A3EgB0GAgIDYA3IgBUEXdGtyC74iIEMAAIA/XgRAICAQxgVDVPgtQJRDAACAP5KRISILIAkgFGoiCkECdCACIBVBCGsgJCAhlCIgICBcICAgIyAilGByIgkbaiAONgIAIAtBCGooAgAhFCASLQATIgggEi0AEiIHIBItABEiBSAFIAdJGyIFIAUgCEkbIgcEfUMAAEDBIBgqAkQgGC0AWEECRiIFGyIgQwAAEEEgGCoCSCAFGyAgk0MAAH5DlSAHQQFrQf8BcbOUkhCJBCIgICCSBUMAAAAACyEkQwAAgD8hIQJ/IBMvAQAiBUH//wFxRQRAIAVBEHQMAQsgBUH/B3EhCCAFQYCAAnEhByAFQYD4AXEiBUGA+AFGBEAgB0EQdCIFQYCAgPwHciAIRQ0BGiAFIAhBDXRyQYCAgP4HcgwBCyAHQRB0IgcgBUENdEGAgID8AHEgCEENdHJBgICAwANqciAFDQAaIAggCGdBEGsiBUH//wNxQQhqdEH///8DcSAHQYCAgNgDciAFQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIQtDAACAPyEiAn8CQCAUIBlJBEAgESAUQRhsaiIOLQATIgggDi0AEiIHIA4tABEiBSAFIAdJGyIFIAUgCEkbIgcEfUMAAEDBIBgqAkQgGC0AWEECRiIFGyIgQwAAEEEgGCoCSCAFGyAgk0MAAH5DlSAHQQFrQf8BcbOUkhCJBCIgICCSBUMAAAAACyEjIA5BDGovAQAiBUH//wFxRQRAIAVBEHQMAwsgBUH/B3EhCCAFQYCAAnEhByAFQYD4AXEiBUGA+AFGBEAgB0EQdCIFQYCAgPwHciAIRQ0DGiAFIAhBDXRyQYCAgP4HcgwDCyAHQRB0IQcgBUUNASAFQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2ogB3IMAgsgFCAZQdy7xwAQjAcACyAIIAhnQRBrIgVB//8DcUEIanRB////A3EgB0GAgIDYA3IgBUEXdGtyC74iIEMAAIA/XgRAICAQxgVDVPgtQJRDAACAP5KRISILIAkgCmoiCkECdCACIBVBDGsgJCAhlCIgICBcICAgIyAilGByIgkbaiAUNgIAIAtBDGooAgAhDiASLQATIgggEi0AEiIHIBItABEiBSAFIAdJGyIFIAUgCEkbIgcEfUMAAEDBIBgqAkQgGC0AWEECRiIFGyIgQwAAEEEgGCoCSCAFGyAgk0MAAH5DlSAHQQFrQf8BcbOUkhCJBCIgICCSBUMAAAAACyEkQwAAgD8hIQJ/IBMvAQAiBUH//wFxRQRAIAVBEHQMAQsgBUH/B3EhCCAFQYCAAnEhByAFQYD4AXEiBUGA+AFGBEAgB0EQdCIFQYCAgPwHciAIRQ0BGiAFIAhBDXRyQYCAgP4HcgwBCyAHQRB0IgcgBUENdEGAgID8AHEgCEENdHJBgICAwANqciAFDQAaIAggCGdBEGsiBUH//wNxQQhqdEH///8DcSAHQYCAgNgDciAFQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIQtDAACAPyEiAn8CQCAOIBlJBEAgESAOQRhsaiITLQATIgggEy0AEiIHIBMtABEiBSAFIAdJGyIFIAUgCEkbIgcEfUMAAEDBIBgqAkQgGC0AWEECRiIFGyIgQwAAEEEgGCoCSCAFGyAgk0MAAH5DlSAHQQFrQf8BcbOUkhCJBCIgICCSBUMAAAAACyEjIBNBDGovAQAiBUH//wFxRQRAIAVBEHQMAwsgBUH/B3EhCCAFQYCAAnEhByAFQYD4AXEiBUGA+AFGBEAgB0EQdCIFQYCAgPwHciAIRQ0DGiAFIAhBDXRyQYCAgP4HcgwDCyAHQRB0IQcgBUUNASAFQQ10QYCAgPwAcSAIQQ10ckGAgIDAA2ogB3IMAgsMCgsgCCAIZ0EQayIFQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIAVBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEiCyAJIApqIgdBAnQgAiAVQRBrIhUgJCAhlCIgICBcICAgIyAilGByIgUbaiAONgIAIAUgB2ohFCALQRBqIgsgDUkNAAsLIAAgD0ECdGoiCiALSwRAIBpBBGooAgAiESgCCCEOIBYoAgAhDQNAQwAAgD8hIQJ/AkAgDSAOSQRAIAsoAgAhEyARKAIEIgkgDUEYbGoiDC0AEyIIIAwtABIiByAMLQARIgUgBSAHSRsiBSAFIAhJGyIHBH1DAABAwSARKgJEIBEtAFhBAkYiBRsiIEMAABBBIBEqAkggBRsgIJNDAAB+Q5UgB0EBa0H/AXGzlJIQiQQiICAgkgVDAAAAAAshJCAMQQxqLwEAIgVB//8BcUUEQCAFQRB0DAMLIAVB/wdxIQggBUGAgAJxIQcgBUGA+AFxIgVBgPgBRgRAIAdBEHQiBUGAgID8B3IgCEUNAxogBSAIQQ10ckGAgID+B3IMAwsgB0EQdCEHIAVFDQEgBUENdEGAgID8AHEgCEENdHJBgICAwANqIAdyDAILIA0gDkHcu8cAEIwHAAsgCCAIZ0EQayIFQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIAVBF3Rrcgu+IiBDAACAP14EQCAgEMYFQ1T4LUCUQwAAgD+SkSEhC0MAAIA/ISICfwJAIA4gE0sEQCAJIBNBGGxqIgktABMiCCAJLQASIgcgCS0AESIFIAUgB0kbIgUgBSAISRsiBwR9QwAAQMEgESoCRCARLQBYQQJGIgUbIiBDAAAQQSARKgJIIAUbICCTQwAAfkOVIAdBAWtB/wFxs5SSEIkEIiAgIJIFQwAAAAALISMgCUEMai8BACIFQf//AXFFBEAgBUEQdAwDCyAFQf8HcSEIIAVBgIACcSEHIAVBgPgBcSIFQYD4AUYEQCAHQRB0IgVBgICA/AdyIAhFDQMaIAUgCEENdHJBgICA/gdyDAMLIAdBEHQhByAFRQ0BIAVBDXRBgICA/ABxIAhBDXRyQYCAgMADaiAHcgwCCyATIA5B3LvHABCMBwALIAggCGdBEGsiBUH//wNxQQhqdEH///8DcSAHQYCAgNgDciAFQRd0a3ILviIgQwAAgD9eBEAgIBDGBUNU+C1AlEMAAIA/kpEhIgsgFEECdCACIBVBBGsiFSAkICGUIiAgIFwgICAjICKUYHIiBRtqIBM2AgAgBSAUaiEUIAtBBGoiCyAKSQ0ACwsgASAPRwRAIAIgFEECdGogCygCADYCACALQQRqIQsgFEEBaiEUIBVBBGshFSABIQ8MAQsLIBRBAnQiDwRAIAAgAiAP/AoAAAsgASAURg0EIAAgD2ohB0EAIRUCQCABIBRrIghBBE8EQCAQIB9qIQ0gByEJIAhBfHEiFSELA0AgCSAN/QACAP0MAAAAAAAAAAAAAAAAAAAAAP0NDA0ODwgJCgsEBQYHAAECA/0LAgAgDUEQayENIAlBEGohCSALQQRrIgsNAAsgCCAVRg0BCyAeIBVBAnQiBWsgEGohDSAAIAVqIA9qIQkgFSABayAUaiELA0AgCSANKAIANgIAIA1BBGshDSAJQQRqIQkgC0EBaiILDQALCyABIBRPBEBBACEFIAchACAIIQEgCEEhSQ0EDAMLIBQgASABQYSVwQAQ6gcACwALIAAgDGogCiACIAMgBCAdQQRqIAYQOCAIIQEgCEEhTw0ACyAAIQcLIAhBAkkNACAGKAIAIQYgCEEBdiEPIA8CfyAIQQ9NBEAgCEEHSwRAIAcgAiAGQQRqIgEoAgAQbSAHIA9BAnQiAGogACACaiABKAIAEG1BBAwCCyACIAcoAgA2AgAgAiAPQQJ0IgBqIAAgB2ooAgA2AgBBAQwBCyAHIAIgCEECdGoiBSAGQQRqIgQoAgAQbSAHQRBqIAVBEGogBCgCABBtIAVBCCACIAYQtgEgByAPQQJ0IgNqIgEgBUEgaiIAIAQoAgAQbSABQRBqIAVBMGogBCgCABBtIABBCCACIANqIAYQtgFBCAsiA0sEQCAPIANrIQkgA0ECdCENA0AgAiANaiIAIAcgDWooAgA2AgAgAiAAIAYQygEgDUEEaiENIAlBAWsiCQ0ACwsgCCAPayADSwRAIAIgD0ECdCIAaiEBIAcgA0ECdCAAaiIAaiEJIAAgAmohDSADIA9qIAhrIRUDQCANIAkoAgA2AgAgASANIAYQygEgCUEEaiEJIA1BBGohDSAVQQFqIhUNAAsLIAIgCCAHIAYQtgELIB1BIGokAA8LIA4gGUHcu8cAEIwHAAvgawMRfwd+AXsjAEGw1QBrIgMkACAD/QwAAAAAAAAAAAAAAAAAAAAA/QsD8EggAq0hFAJAAkACQAJAAkACQAJAAn8CQAJ+AkACQAJAAkACQAJAAkACQEG4nMcAKQMAIhhC/wGDQgRSBEBCECEXA0AgAiAVIBQgFCAVVhunIgZrIgRCgMAAIBcgF0KAwABaG6ciBSAEIAVJGyIEBEAgA0EYaiABIAZqIAT8CgAACyACIAZGDQJBEEIQIBYgFkIQWhunIgVrIgYgBCAEIAZLIgcbIgYEQCADQfDIAGogBWogA0EYaiAG/AoAAAsgBw0DIBUgBK0iGnwhFSAEIApqIQogFiAGrXwhFiAXIBp9IhdCAFINAAsMAQtCECEXA0AgAiAVIBQgFCAVVhunIgZrIgRCgMAAIBcgF0KAwABaG6ciBSAEIAVJGyIEBEAgA0EYaiABIAZqIAT8CgAACyACIAZGDQFBEEIQIBYgFkIQWhunIgVrIgYgBCAEIAZLGyIGBEAgA0HwyABqIAVqIANBGGogBvwKAAALIBYgBq18IRYgBCAKaiEKIBUgBK0iGHwhFSAXIBh9IhdQRQ0ACwtB+LbJACgCACINQQBIDQJB+LbJACANQQFqNgIAIApBEUkEQANAIAwoAuy3RCEFIAwoAui3RCEEAkAgDCgC9LdEIgdFBEAgBSAKSw0BIAQgA0HwyABqIAUQ2wcNAQwFCyAFIApLDQAgDCgC8LdEIgYgB2ohDiADQfDIAGohBwNAIAVFDQUgBUEBayEFQaSkxwAgBiAGRSAGIA5GciIIGyEPIActAAAhCSAELQAAIQsgB0EBaiEHIARBAWohBEEAIAZBAWogCBshBiALIAkgDy0AAHFGDQALCyAMQRRqIgxBuANHDQALQfi2yQAgDTYCAEEDIQRBBCEBQQMhCQwLC0EAIApBEEGUpMcAEOoHAAsgGBDSByEBIABBgICAgHg2AgAgACABNgIEDAoLQfi2yQAgDTYCAAJAAn4CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAxB+LfEAGotAAAiBA4EAAMDAQMLQYCAARBxIgZFDRUgBkEAQYCAAfwLAEGAEBBxIgVFDRUgBUEAQYAQ/AsAIANBJGpBADsBACADQQA2AiBBqAcQcSIERQ0VIARBAEHYBvwLACAEQQA2ApQHIARBADYCiAcgBEEAOgCEByAEQQA2AoAHIAQgBTYC/AYgBCAGNgL4BiAEQgI3A/AGIARCADcD6AYgBEKAgICAIDcD4AYgBEEBNgLcBiAEQSQ2AtgGIARBADoApgcgBCADKQMYNwOYByAEQZ4HaiADKQEeNwEAQYABEHEiBkUNFSADQeQCakIANwIAIAP9DAAAAAAAAAAAAAAAAAAAAAD9CwLUAiADQQI2ArhFIANBADYCsEUgA0G8xQBqIANBGGoiBUHUAvwKAAAgA0GAAjsAw0ggA0EBOwHASCADQoCAgICCIDcDuEggA0IANwOwSCADQQA6AKhIIANBgAI7AaRIIAMgBDYCoEggA0EAOgCcSCADQQA2AphIIAMgBjYClEggA0GAATYCkEggAyABNgLISCADIAI2AsxIIANCADcD0EggA0EANgLYSCADQQA6AMJIIANB4MgAaiIBIANBsMUAahCcBCADLQDgSEEoRwRAIAUgARD8AyADKAIYIgFBBkcNBAsgA0EQNgLYSCADQdDRAGoiASADQbDFAGpBsAP8CgAAIANBGGogARCcBCADLQAYIgZBKEcEQCADQarVAGogAy0AGzoAACADIAMvABk7AahVIAMoAhwhBSADKQIgIRQgARCdAQwZCwJAAkAgAygCHCIBLQC+AiICQQN0KQOwkkkgATUCtAIgATEAvwJ+IhR+IhVC8P////8AVg0AIBVCB3xCA4inQQFqrUGAASABKAK4AiIBIAFBgAFPG61+IhVCIIinDQAgFaciAUH/AXEiBEEARyABQYB+cUGAAmoiBiABSXENACAGIAEgBBsiBkGBgAhJDQELQYCACCEGC0EBIQVB/////wchBAJAIAJBA3QpA+iSSSAUfiIUQvD/////AFYNACAUQgd8QgOIp0EBaiIBQf////8DSw0AIAFBAnQiAkFAcUFAayEIIAFBD3EiAUEAIAIgCEsbDQBBgIAIIAggAiABGyIBIAFBgIAITRshBAsgBgRAIAYQcSIFRQ0WCyADQRhqIANB0NEAakGoA/wKAAAgA0H1A2pCADcAACADQbQEakEANgIAIANBAToA3QQgA0EANgLUBCADQQA2AsgDIANCADcDwAMgA0IANwPwAyADQYCAgIB4NgKgBCADQgE3A5gEIANCADcDkAQgAyAFNgKMBCADIAY2AogEIANCfzcDgAQgA/0MAAAAAAAAAAAAAAAAAAAAAP0LAqQEIAMgBDYCuAQgAyADKAL4VDYC2AQgA0ECNgLcAyADQQA6ANwEIANBADYC0AQgA0KAgICAEDcDyAQgA0EANgLABAJAIAMoAiBBAkcEQEEnIQYgAy0A3gJBA3QpA6CTSSADNQLUAiIUIAMxAN8Cfn5C8f////8AVA0BDBkLQayYxwAQ3QkACyADKALYAiEFIANBEGogA0EYaiIBEIoFIAMtABBBA3QpA9iTSSADMQARIBR+fiIUQvD/////AFYNFyAFrSAUQgd8QgOIfiIVQiCIpyAVp0EASHINFyADQZDVAGogARCMASADLQCQVSIGQShHBEAgA0Gq1QBqIAMtAJNVOgAAIAMgAy8AkVU7AahVIAMoApRVIQUgAykCmFUhFAwYCyADKAIgIgVBAkYNAUEBIQYgAygCTARAIAMoAlAgAy0A0QJBAkZqIQYLIANBqtUAaiIBIAMtAB86AAAgAyAGNgLUBCADIAMvAB07AahVIAMtABwhBiADKQIkIRQgAygCLCECIAMoAjAhCCADLQA0IQcgAy0ANSEJIAMtADYhCyADLQA3IQogA/0AAzghGyADKAIYIQQgA0G4zQBqIgwgA0HIAGpBmAT8CgAAIARBAkYNGCADIAMvAahVOwD1SCADIAEtAAA6APdIIANBoMkAaiAMQZgE/AoAACADIBv9CwSQSSADIAo6AI9JIAMgCzoAjkkgAyAJOgCNSSADIAc6AIxJIAMgCDYCiEkgAyACNgKESSADIBQ3AvxIIAMgBTYC+EggAyAGOgD0SCADIAQ2AvBIIANBCGogA0HwyABqEIoFQRwhByADLQAJIQYCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAy0ACEEBaw4GJAElAiQDAAtBACEFQQEhByAGaCIEQQFrDgQEAxMSJAtBAiEFQQMhByAGaCIEQQFrDgQEBRIGIwtBASEFQQIhByAGaCIEQQFrDgQGBxEIIgtBBCEHIAZoIgVBAWsOBAgJEAohC0EJIQcMIAtBBSEHDB8LQQchBwweC0ELIQcMHQtBBiEFDAsLQQYhBwwbC0EKIQcMGgtBBSEFDAgLQQghBwwYC0EMIQcMFwtBByEFDAULAn5BwLvJAC0AAARAQdC7yQApAwAhF0HIu8kAKQMADAELIANBuM0AahC/BkHAu8kAQQE6AABB0LvJACADKQPATSIXNwMAIAMpA7hNCyEVQQAhBiADQTxqQQA2AgAgAyAVNwOAAUHIu8kAIBVCAXw3AwAgA0IANwNoIAMgATYCYCADQQI6AF0gA0GAgICAeDYCICADQgA3AxggA/0MAAAAAAAAAAAAAAAAAAAAAP0LAiwgA0EBOgBAIANBATYCqAEgA/0M/////wAAAAAAAAAAAAAAAP0LA5gBIANCADcDkAEgA0EAOgCsASADIBc3A4gBIANB8JrIAP0AAwD9CwNwIAMgAjYCZAJAAkACQCACQQRPBEAgASgAACEGQgQhFwwBCyADQgQgFEGokMgAKQMAIhVC/wGDQgRRIgQbIhc3A2ggBEUNAQsgA0G4zQBqQQFyIAYQmAQgAyADLQC7TToA0lEgAyADLwC5TTsB0FEgAyADLwG8TTsA01FBBCEGIAMCfgJAIAIgFyAUIBQgF1YbpyIEa0EETwRAIAEgBGo1AAAhGUIAIRYMAQtBqJDIACkDACIVQgiIIRYgFachBiAUIBVC/wGDQgRSDQEaCyAXQgR8CyIVNwNoIAZB/wFxQQRGDQEgBq1C/wGDIBZCCIaEIRULIAMgFT0Ak1UgA0GZ1QBqIBVCMIg9AAAgAyAVQhCIPgCVVUEAIQVBEyEEDBELIAMtANBRRQRAQQQhBgJAAkAgAiAVIBQgFCAVVhunIgJrQQRPBEAgASACaigAACEFQgAhFgwBC0EAIQVBqJDIACkDACIXQgiIIRYgF6chBiAXQv8Bg0IEUg0BCyAVQgR8IRQLIAMgFDcDaCAGQf8BcUEERwRAIANBkNUAakEBciEEIAMgBq1C/wGDIBZCCIaENwK8TSADQZnVAGogA0HCzQBqLwEAOwAAIAMgAygBvk02AJVVIAMoAbpNIQZBACEFDAkLIANBuM0AakEBciAFEJgEQdKSmbIEIQYgA0GQ1QBqIQRBAiEFAkACQAJAAkACQAJAAkACQAJAAkAgAy0AuU1BAWsOCwkRAAECAwQFBgcIEgtB1qDh4QQhBgwRC0HWoOHBBSEGDBALQcGcpeoEIQYMDwtBwZy1sgQhBgwOC0HBmMHCBCEGDA0LQcmGjYIFIQYMDAtBxbClsgQhBgwLC0HYmsGCAiEGDAoLIAMoAbpNIQYMCQsgA0G4zQBqIANB4ABqIgEQvQMgAygCuE0NDyADQfAAaiEIIAMgAy0AzE06AKxVIAMgAygCyE0iAjYCqFUgAykDwE0hFkHSkpmyBCEEIAMpA2ghFwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAJB/wFxQQFrDgsACQoLAQIDBAUGBwgLQdeKiYIFIQQMBwtBwZyl6gQhBAwGC0HBnLWyBCEEDAULQcGYwcIEIQQMBAtByYaNggUhBAwDC0HFsKWyBCEEDAILQdiawYICIQQMAQsgAygAqVUhBAsgAyAENgKQVUEEIQVBEyEEDBULIANBuM0AaiECQQAhBkIAIRkgASgCBCIErSEUAkACQCAEQv////8PIAEpAwgiFSAVQv////8PWhunayIFQQAgBCAFTxtBA08EQCABKAIAIBUgFCAUIBVWG6dqIgQvAAAgBEECai0AAEEQdHIhBkEEIQQMAQtBqJDIACkDACIYQgiIIRkgGKchBCAYQv8Bg0IEUg0BCyAVQgN8IRQLIAEgFDcDCAJAIARB/wFxQQRHBEAgAiAErUL/AYMgGUIIhoQ3AgAMAQsgAkEEOgAAIAIgBjYCBAsCQCADLQC4TUEERwRAIAMpA7hNIhRCIIinIQUgFKciAkH/AXFBBEYNASADIAU2AJdVIAMgAjoAk1UgAyACQRh2OgCWVSADIAJBCHY7AZRVQQAhBUETIQQMFgsgAygCvE0hBQsCQCAFQQFxRQRAIAMoAmQiAq0hFSACQv////8PIAMpA2giFCAUQv////8PWhunayIEQQAgAiAETxtBAksNAUGokMgAKQMAIhenIQECQCAXQv8Bg0IEUQRAIAMgFEIDfDcDaCABQf8BcUEERg0BDBULIAMgFTcDaCABQf8BcUEERw0UC0EAIQUMEgtBExBxIgFFDRkgAUGcrcYA/QAAAP0LAAAgAUEPakGrrcYAKAAANgAAIANBmdUAaiABQRB2rT0AACADQRM7AJNVIAMgAUEQdDYAlVVBGCEFQRMhBAwVCyADIBRCA3w3A2ggAygCYCAUIBUgFCAVVBunaiICLwAAIAJBAmotAABBEHRyIgVBnYOoAUcNECADQbjNAGogARCQBiADLQC4TUEERgRAIAMvAbpNIQUMDwsgAykDuE0iFEIQiKchBSAUpyICQf8BcUEERg0OIAMgBTsAlVUgAyACOgCTVSADIBRCIIg+AJdVIAMgFEIIiDwAlFVBACEFQRMhBAwUCyADQbjNAGogARCpBgJAIAMtALhNQQRHBEAgAykDuE0iFEIIiKchBSAUpyICQf8BcUEERg0BIANBmdUAaiAUQjCIPQAAIAMgBToAlFUgAyACOgCTVSADIBRCEIg+AJVVQQAhBUETIQQMFQsgAy0AuU0hBQsgBUH/AXFBL0cNASADQbjNAGogARCRBiADLQC4TUEERgRAIAMoArxNIQYMDQsgAykDuE0iFEIgiKchBiAUpyIBQf8BcUEERg0MIAMgBjYAl1UgAyABOgCTVSADIAFBGHY6AJZVIAMgAUEIdjsBlFVBACEFQRMhBAwTCyADKQPQTSEaIANBuM0AaiEFQgAhFUEAIQlBACEMQQAhBkEAIQRBACENIwBBEGshCyABAn4CQCABKAIEIgogASkDCCIWIAqtIhQgFCAWVhunIgJHBEAgASgCACACai0AACEJQQQhBwwBC0GokMgAKQMAIhhCCIghFSAYpyEHIBQgGEL/AYNCBFINARoLIBZCAXwLIhY3AwhBBCECAkACQCAHQf8BcUEERwRAIAUgFTwABSAFIAc6AAQgBUEAOgAAIAVBCmogFUIoiD0BACAFIBVCCIg+AQYMAQtCACEVIAECfiAKIBYgFCAUIBZWG6drQQJNBEBBqJDIACkDACIYQgiIIRUgGKchAiAUIBhC/wGDQgRSDQEaCyAWQgN8CyIWNwMIIAJB/wFxQQRHBEAgCyACrUL/AYMgFUIIhoQiFDcDACAFIAspAgQ3AgggBSAUPgIEIAVBADoAAAwBCyABAn4CQCAKIBYgFCAUIBZWG6ciAmtBA08EQCABKAIAIAJqIgYtAAFBCHQhAiAGLQACQRB0IQQgBi0AACEMQQQhB0IAIRUMAQtBqJDIACkDACIYQgiIIRUgGKchB0EAIQIgFCAYQv8Bg0IEUg0BGgsgAiEGIBZCA3wLIhY3AwggB0H/AXFBBEcEQCALIAetQv8BgyAVQgiGhCIUNwMAIAUgCykCBDcCCCAFIBQ+AgQgBUEAOgAADAELAn8CQCAKIBYgFCAUIBZWG6ciAmtBA08EQCABKAIAIAJqIgotAAFBCHQhByAKLQACQRB0IQIgCi0AACENQQQhCkIAIRUMAQtBqJDIACkDACIYQgiIIRUgGKchCkEAIQdBACECQQAgGEL/AYNCBFINARoLIBZCA3whFCAHCyEHIAEgFDcDCCAKQf8BcUEERwRAIAsgCq1C/wGDIBVCCIaEIhQ3AwAgBSALKQIENwIIIAUgFD4CBCAFQQA6AAAMAQsgBiAMciAEckEBaiIErSAHIA1yIAJyQQFqIgKtfkIgiFAEQCAFQQA6AAwgBUEANgIIIAUgAjYCBCAFIAQ2AgAgBSAJQQJ2QQFxOgAUIAUgCUEDdkEBcToAEyAFIAlBBXZBAXE6ABIgBSAJQQR2QQFxOgARIAUgCUEBdkEBcToAFQwCCyAFQQk6AAALIAVBAjoAFQsgAygCxE0hBCADKALATSELIAMoArxNIQYgAygCuE0hAiADLQDNTSIJQQJGDQcgAyAGNgKgASADIAI2ApwBIAMgFyAafCIUNwNoIAMvAc5NIRAgAy0AzE0hDCADLQDLTSENIAMtAMpNIREgAy0AyU0hDiADLQDITSESAkACQAJAIBQgFCAZQgx9IhVCACAVIBlYG3wiF1oNAANAIANB0NEAaiABEL0DAkACQAJAAn8CQAJAAkAgAygC0FEEQCADLQDUUSIFDQUgAy0A2FFBAWsOAwECAwULIAMpA+hRIhUgFEIIfCIWfCEUAkACQCADLQDgUSIFQQtHBEAgAykD2FEiGSAWfCEYIAMgAygA4VE2ALFFIAMgBToAsEUgA0G4zQBqIAggA0GwxQBqEIQEAkAgAy0AxE1BDEcEQCADQcDFAGogA0HIzQBqKQMANwMAIAMgA/0AA7hN/QsDsEUMAQsgA0EMOgC8RSADIAMpA7hNNwOwRQsgA0GwxQBqIBYgGBD+BCAFQQZGDQELIBVCAFMgFSADKQNoIhV8IhYgFVRzRQ0BIANCgICAgA4+ApRVIANBmtUAakIAPAAAIANBmNUAakLVIz0BACADQQI6AJNVQQAhBQweCyADIAMoAqQBQQFqNgKkASAZQhhUBEBBGyEFDB4LIAMpA2giFkJ0WgRAIANCgICAgA4+ApRVIANBmtUAakIAPAAAIANBmNUAakLVIz0BACADQQI6AJNVQQAhBQweCyADIBZCDHw3A2ggA0G4zQBqIAEQkQYgAy0AuE1BBEYEQCADKAK8TSEFDAgLIAMpA7hNIhZCIIinIQUgFqciB0H/AXFBBEYNByADQZbVAGogB0EYdjoAACADIAU2AJdVIAMgBzoAk1UgAyAHQQh2OwGUVUEAIQUMHQsgAyAWNwNoIBQgF1QNBwwICyADLQDZUQwCCyADKALcUS0ACAwBCyADKALcUS0ACAtBJUYNAQsgAyADKQDVUTcDkFUgAyADQdzRAGooAAA2AJdVIAMoAuBRIQQMFwsgAyADKQPYUTcDuE0gA0G4zQBqEM4FDAILIAMgAykDkAEgBUH///8Hca18NwOQAQJAIAMtAKoBRQRAIANBuM0AaiABEL0DIAMoArhNDRYCQAJAIAMtAMhNQQJrDgYAAQEBAQABCyADQQE6AKoBCyAVQhh9IhVCAFMgAykDaCIWIBV8IhUgFlRzRQ0BIANCgICAgA4+ApRVIANBmtUAakIAPAAAIANBmNUAakLVIz0BACADQQI6AJNVQQAhBQwXCyAVQhB9IhVCAFMgAykDaCIWIBV8IhUgFlRzDQMLIAMgFTcDaCAUIBdUDQALCyADIAMtAKoBBH9BAQUgCEHk+MYAEKgEQQBHCzoAqgEgCUEBcQ0BDAwLIANCgICAgA4+ApRVIANBmtUAakIAPAAAIANBmNUAakLVIz0BACADQQI6AJNVQQAhBQwSC0EDIQUgCEGo+cYAEKgERQ0NIAhBkPnGABCoBA0KDA0LIAMgBToAkFVBCyEFQRMhBAwRCyADQdKSmbIENgKQVUEEIQVBEyEEDBALQayYxwAQ3QkAC0EEIQFCACEUIARBCHQiCSEEQgAMFwsgAykDOCEUIAMpAzAhFyADLQAvIQkgAy0ALiEGIAMtAC0hByADLQAsIQogAygCKCELIAMoAhwhBCADKQMgIhVCIIinIQUgFachCCADQbDFAGoQnQEMFQtBBCEFCyAD/QAE8EghGyADQZjAAGoiASADQYDJAGpBuAT8CgAAQfAEEHEiBkUNDyAGQQA6AB8gBkEAOwAdIAZBgICAgAI2AgggBkIBNwMAIAb9DAAAAAAAAAAAAAAAAAAAAAD9CwIMIAYgG/0LAyAgBkEwaiABQbgE/AoAACAGIAU6AOgEQaikxwAMFgsgAyALNgCXVSADIAJBGHY6AJJVIAMgAkEIdjsBkFUgAyAGOwCTVSADIAZBEHY7AJVVIAIhBQwJC0HWoOGBAiEGCyAEIAY2AAAMAwsCQCANQQFxRQ0AIAhBrfnGABCoBA0AQQMhBUETIQQMCAsCQCAMQQFxRQ0AIAhBsvnGABCoBA0AQQMhBUETIQQMCAsCQAJAAkAgCUEBcUUEQCAIQeT4xgAQqARBAEcgCEHM+MYAEKgERXNFDQFBAyEFQRMhBAwLCyADQQU6ALhNIANB0NEAaiADQRhqIANBuM0AakEGEOQEAkACQAJAAkACQAJAAkACQCADLQDQUSIFQRprDgQBBgYABgsgAygC1FFBgICAgHhGBEBBAyEFDBELIANByM0AaiADQdTRAGoiB0EIaigCACIFNgIAIAMgBykCADcDwE0gBUEESQ0BIANCBDcDuE0gAygCxE0oAAAhCwwCCyADQdDRAGoQqwRBGyEFDA8LIANCBCAFrUGokMgAKQMAIhRC/wGDQgRRGzcDuE0gFKciBUH/AXFBBEcNAQsgA0GwxQBqIQVBACEPQgAhFyADQbjNAGoiBygCECIKrSEUAkACQCAKQv////8PIAcpAwAiFSAVQv////8PWhunayITQQAgCiATTxtBAk8EQCAHKAIMIBUgFCAUIBVWG6dqLwAAIQ9BBCEKDAELQaiQyAApAwAiFkIIiCEXIBanIQogFkL/AYNCBFINAQsgFUICfCEUCyAHIBQ3AwACQCAKQf8BcUEERwRAIAUgCq1C/wGDIBdCCIaENwIADAELIAVBBDoAACAFIA87AQILIAMtALBFQQRGBEAgAy8BskUhBQwECyADKQOwRSIUQhCIpyEFIBSnIgdB/wFxQQRGDQMgAyAFOwCVVSADIAc6AJNVIAMgFEIgiD4Al1UgAyAUQgiIPACUVQwBCyADQZrVAGogFEI4iDwAACADQZjVAGogFEIoiD0BACADIAU6AJNVIAMgFEIIiD4ClFULIAMoAsBNIgEEQCADKALETSABQQEQogcLQQAhBQwLCyADIAMpANFRNwOQVSADIANB2NEAaigAADYAl1UgAygC3FEhBAwKCyADIAU7AagBIAhBkPnGABCoBCIFRQ0BIAMgBSkDCEIIfTcDGCADKALATSIFRQ0AIAMoAsRNIAVBARCiBwsCQCAIQZD5xgAQqAQiBUUNACAFKQMQIRUgAyAFKQMIIhRCEHw3A2ggA0G4zQBqIgUgARC9AyADKAK4TQ0CIAMgAy0AzE06AIRVIAMgAygCyE02AoBVIAMpA9BNIRcgAykDwE0gBSAIIANBgNUAahCEBCAUQhh8Ihl8IRYCQCADLQDETUEMRwRAIANB4NEAaiADQcjNAGopAwA3AwAgAyAD/QADuE39CwPQUQwBCyADQQw6ANxRIAMgAykDuE03A9BRCyADQdDRAGogGSAWEP4EIBQgF3xCIHwiFCAVVg0AIANBuM0AaiIFIAEQvQMgAygCuE0NAiADIAMtAMxNOgCEVSADIAMoAshNNgKAVSADKQPATSEVIAUgCCADQYDVAGoQhAQgFCAVfCEVAkAgAy0AxE1BDEcEQCADQeDRAGogA0HIzQBqKQMANwMAIAMgA/0AA7hN/QsD0FEMAQsgA0EMOgDcUSADIAMpA7hNNwPQUQsgA0HQ0QBqIBQgFRD+BAsgAyAQOwFeIAMgCToAXSADIAw6AFwgAyANOgBbIAMgEToAWiADIA46AFkgAyASOgBYIAMgBDYCVCADIAs2AlAgAyAGNgJMIAMgAjYCSCADIA46AKsBDAoLQbj5xgAQ3QkACwwFCyAGQf////8BTQRAIAMgBkEBakH//wBxNgKcASADIAZBDnZBAWpB//8AcTYCoAEgA0EDOgDQUSADQbjNAGogCCADQdDRAGogFyAWIBd8EOYCIAMgBkH/////AEs6AKsBIANBAzoAXQwICyADIAZBHXY6AJBVQQwhBUETIQQMBgsgA0G4zQBqIAEQkAYCQCADLQC4TUEERgRAIAMvAbpNIQYMAQsgAykDuE0iFEIQiKchBiAUpyIBQf8BcUEERg0AIAMgBjsAlVUgAyABOgCTVSADIBRCIIg+AJdVIAMgFEIIiDwAlFVBACEFQRMhBAwGCyADIAZB//8AcSIBNgKgASADIAVB//8AcSICNgKcAUEXIQUgAkUgAUVyDQAgA0ECOgDQUSADQbjNAGogCCADQdDRAGogFyAWIBd8EOYCIANBAToAqgEgA0ECOgBdDAYLQRMhBAwECyADIAU7AZBVIAMgBUEQdjoAklVBESEFQRMhBAwDCyADIBdCCIgiFD4ClFUgA0Ga1QBqIBRCMIg8AAAgA0GY1QBqIBRCIIg9AQAgAyABOgCTVUEAIQVBEyEEDAILIANBmdUAaiADQcbNAGozAQA9AAAgAyADNQHCTT4AlVUgAyADLQC/TToAklUgAyADLwC9TTsBkFUgAyADLwHATTsAk1UgAygCyE0hBCADLQC8TSEFCyAFQf8BcUEdRg0BCyADQabVAGogAy0AklU6AAAgAyADLwGQVTsBpFUgA0GZ1QBqMwAAIRQgAzUAlVUhFSADLwCTVSEGIAMoAiAiAUGAgICAeHJBgICAgHhHBEAgAygCJCICQQRrKAIAIghBeHEiCUEEQQggCEEDcSIIGyABakkNDiAIQQAgCSABQSdqSxsNDyACEKICCwJAAkAgAygCdCIBRQ0AIAEgAUEYbCICakEhaiIBRQ0AIAMoAnAgAmsiAkEcaygCACIIQXhxIglBBEEIIAhBA3EiCBsgAWpJDQ8gCEEAIAkgAUEnaksbDQEgAkEYaxCiAgsgFSAUQiCGhAwCCwwOCyADQabVAGogA0Enai0AADoAACADIAMvACU7AaRVIAMpAxghFCADLQAkIQUgAygCMCEEIAMoAjQhCCADKAI4IQIgAygCPCEJIAP9AANAIRsgAygCICEBIAMpAyghFSADQfDIAGogA0HQAGpB4AD8CgAAIAFBgYCAgHhHDQEgFachBiAVQhCICyEUIAatQv//A4MgFEIQhoQhFCAFQf8BcQR/QRAQcSIJRQ0CIAkgBToAACAJIAMvAaRVOwABIAkgBDYCDCAJIBQ3AgQgCUEDaiADQabVAGotAAA6AABCgAYhFEEABUEFCyEBIBRCIIinIQggFKchBEHsu8QAIQdCAAwGCyADQdDEAGoiByADQfDIAGpB4AD8CgAAQaABEHEiBkUNACAGIAU6AAwgBiABNgIIIAYgFDcDACAGIAMvAaRVOwANIAYgG/0LAiggBiAJNgIkIAYgAjYCICAGIAg2AhwgBiAENgIYIAYgFTcCECAGQQ9qIANBptUAai0AADoAACAGQThqIAdB4AD8CgAAIAZBCDoAmAFB4KTHAAwHCwALIANB8MgAahDGA0EEIQpBACEEQQQhAQwCCyADQRhqEMYDCyADIAY6AIBVIAMgAy8BqFU7AIFVIAMgFDcCiFUgAyAFNgKEVSADIANBqtUAai0AADoAg1UgA0EYaiADQYDVAGoQ/AMgAykDOCEUIAMpAzAhFyADLQAvIQkgAy0ALiEGIAMtAC0hByADLQAsIQogAygCKCELIAMoAiQhBSADKAIgIQggAygCHCEEIAMoAhghAQsgAUEGRg0BIApB/wFxIAdB/wFxQQh0ciAGQf8BcUEQdHIgCUEYdHIhCSAXpyEHIBdCgICAgHCDCyAHrYQhFQwCCyAEIQYgCAshAgJAAn8gBiACKAIsERMAIhRCgICAgAJWBEBBACEFQQMhAUEDDAELIANBADYCiEkgA0EANgKASSADQoCAgIACIBR9NwP4SCADQgE3A/BIIANBGGogBiADQfDIAGogAigCMBEFACADKAIYIgFBBkYNASADKQM4IRQgAykDMCEVIAMoAiwhCSADKAIoIQsgAygCJCEFIAMoAhwhBCADKAIgCyEIIAIoAgAiBwRAIAYgBxEDAAsgAigCBCICRQ0BIAZBBGsoAgAiB0F4cSIKQQRBCCAHQQNxIgcbIAJqSQ0DIAdBACAKIAJBJ2pLGw0EIAYQogIMAQsgAyAGIAIoAgwRAQAgAygCBCEKIAMoAgAhCQJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAGIAIoAhARBABB/wFxQQFrDgkBAgMEBQYHCAkACyADQRhqIAYgAhChBCADKAIkIQUgAygCICEIIAMoAhwhBCADKAIYIgFBBkcNHwJAIAqtIhUgCa1+IhRCIIhQBEAgFKciASAFTQ0BC0EAIQtBAiEBIARFDR8gCCAEQQEQogdBgICAgHghBAwhCyAEQYCAgIB4Rw0JDBwLIANBGGogBiACEKEEIAMoAiQhBSADKAIgIQggAygCHCEEIAMoAhgiAUEGRw0eQQAhCwJAIAlBAEgNACAKrSIUIAlBAXStfiIVQiCIpw0AIBWnIAVNDQoLQQIhASAERQ0dIAggBEEBEKIHQYCAgIB4IQQMHwsgA0EYaiAGIAIQoQQgAygCJCEFIAMoAiAhCCADKAIcIQQgAygCGCIBQQZHDR0CQAJAIAmtIhdCA34iFEIgiKcNACAUp60gCq0iFH4iFUIgiKcNACAVpyAFTQ0BC0EAIQtBAiEBIARFDR0gCCAEQQEQogdBgICAgHghBAwfCyAEQYCAgIB4Rg0aIBdCA34iFUIgiKcNJCAVp60gFH4iFUIgiKcNJCAVpyIBIAVNDQkMIgsgA0EYaiAGIAIQoQQgAygCJCEFIAMoAiAhByADKAIcIQYgAygCGCIBQQZHBEAgAykDOCEUIAMpAzAhFSADKAIsIQkgAygCKCELIAYhBCAHIQgMHgsCQAJAIAlB/////wNLDQAgCUECdK0gCq1+IhRCIIinDQAgFKcgBU0NAQtBACELQYCAgIB4IQRBAiEBIAZFDR4gByAGQQEQogcMHgtBgICAgHghBCAGQYCAgIB4Rw0YQQAhC0ECIQEMHQsgA0EYaiAGIAIQjAQgAygCJCEFIAMoAiAhCCADKAIcIQQgAygCGCIBQQZHDRsgCq0iFSAJrX4iFEIgiFAEQCAUpyIBIAVNDQkLQQAhCyAERQ0ZQQIhASAIIARBAXRBAhCiB0GAgICAeCEEDBwLIANBGGogBiACEIwEIAMoAiQhBSADKAIgIQggAygCHCEEIAMoAhgiAUEGRw0aQQAhCwJAIAlBAEgNACAKrSIUIAlBAXStfiIVQiCIpw0AIBWnIAVNDQkLIARFDRhBAiEBIAggBEEBdEECEKIHQYCAgIB4IQQMGwsgA0EYaiAGIAIQjAQgAygCJCEFIAMoAiAhCCADKAIcIQQgAygCGCIBQQZHDRkCQAJAIAmtIhdCA34iFEIgiKcNACAUp60gCq0iFH4iFUIgiKcNACAVpyAFTQ0BC0EAIQsgBEUNGEECIQEgCCAEQQF0QQIQogdBgICAgHghBAwbCyAEQYCAgIB4Rg0WIBdCA34iFUIgiKcNICAVp60gFH4iFUIgiKcNICAVpyIBIAVNDQgMHgsgA0EYaiAGIAIQjAQgAygCJCEFIAMoAiAhCCADKAIcIQQgAygCGCIBQQZHDRgCQCAJQf////8DSw0AIAqtIhUgCUECdK1+IhRCIIinDQAgFKcgBU0NCQtBACELIARFDRZBAiEBIAggBEEBdEECEKIHQYCAgIB4IQQMGQsgA0EYaiAGIAIQjQQgAygCJCEFIAMoAiAhCCADKAIcIQQgAygCGCIBQQZHDRcCQAJAIAmtIhdCA34iFEIgiKcNACAUp60gCq0iFH4iFUIgiKcNACAVpyAFTQ0BC0EAIQsgBEUNFkECIQEgCCAEQQJ0QQQQogdBgICAgHghBAwZCyAEQYCAgIB4Rg0UIBdCA34iFUIgiKcNHiAVp60gFH4iFUIgiKcNHiAVpyIBIAVNDQgMHAsgA0EYaiAGIAIQjQQgAygCJCEFIAMoAiAhCCADKAIcIQQgAygCGCIBQQZHDRYCQCAJQf////8DSw0AIAqtIhUgCUECdK1+IhRCIIinDQAgFKcgBU0NCQtBACELIARFDRRBAiEBIAggBEECdEEEEKIHQYCAgIB4IQQMFwsgFEIgiKcNHCABIAVLDRogA0EYaiAIIAFBAhCBASADKAIcIQcCQAJAAkAgCUH/////A0sNACAJQQJ0rSAVfiIUQiCIpw0AIAMoAiAiBSAUp08NAQsgAygCGCIARQ0BIAcgAEEBEKIHDAELIAMoAhgiBkGAgICAeEcNCQsMGwsgBEGAgICAeEYNESAJQQF0rSAUfiIVQiCIpw0bIBWnIgEgBUsNGSADQRhqIAggAUEDEIEBIAMoAhwhBwJAAkACQCAJQf////8DSw0AIAlBAnStIBR+IhRCIIinDQAgAygCICIFIBSnTw0BCyADKAIYIgBFDQEgByAAQQEQogcMAQsgAygCGCIGQYCAgIB4Rw0JCwwaCyADQRhqIAggAUEAEIEBIAMoAhwhBwJAAkACQCAJQf////8DSw0AIAlBAnStIBR+IhRCIIinDQAgAygCICIFIBSnTw0BCyADKAIYIgBFDQEgByAAQQEQogcMAQsgAygCGCIGQYCAgIB4Rw0JCwwZCyAEQYCAgIB4Rg0PIBRCIIinDRkgASAFSw0XIANBGGogCCABQQIQeyADKAIcIQcCQAJAAkAgCUH/////A0sNACAJQQJ0rSAVfiIUQiCIpw0AIAMoAiAiBSAUp08NAQsgAygCGCIARQ0BIAcgAEEBEKIHDAELIAMoAhgiBkGAgICAeEcNCQsMGAsgBEGAgICAeEYNDiAJQQF0rSAUfiIVQiCIpw0YIBWnIgEgBUsNFiADQRhqIAggAUEDEHsgAygCHCEHAkACQAJAIAlB/////wNLDQAgCUECdK0gFH4iFEIgiKcNACADKAIgIgUgFKdPDQELIAMoAhgiAEUNASAHIABBARCiBwwBCyADKAIYIgZBgICAgHhHDQkLDBcLIANBGGogCCABQQAQeyADKAIcIQcCQAJAAkAgCUH/////A0sNACAJQQJ0rSAUfiIUQiCIpw0AIAMoAiAiBSAUp08NAQsgAygCGCIARQ0BIAcgAEEBEKIHDAELIAMoAhgiBkGAgICAeEcNCQsMFgsgBEGAgICAeEYNDCAJQQJ0rSAVfiIUQiCIpw0WIBSnIgEgBUsNFCADQRhqIAggAUEBEHsgAygCHCEHAkAgAygCICIFIAFJBEAgAygCGCIARQ0BIAcgAEEBEKIHDAELIAMoAhgiBkGAgICAeEcNCQsMFQsgA0EYaiAIIAFBABDNAiADKAIcIQcCQAJAAkAgCUH/////A0sNACAJQQJ0rSAUfiIUQiCIpw0AIAMoAiAiBSAUp08NAQsgAygCGCIARQ0BIAcgAEEBEKIHDAELIAMoAhgiBkGAgICAeEcNCQsMFAsgBEGAgICAeEYNCiAJQQJ0rSAVfiIUQiCIpw0UIBSnIgEgBUsNEiADQRhqIAggAUEBEM0CIAMoAhwhByADKAIgIgUgAUkEQCADKAIYIgBFDRQgByAAQQEQogcMFAsgAygCGCIGQYCAgIB4Rg0TIARFDQkgCEEEaygCACIBQXhxIgIgBEECdCIEQQRBCCABQQNxIgEbakkNECABRSACIARBJ2pNcg0IDBELIARFDQggCEEEaygCACIBQXhxIgJBBEEIIAFBA3EiARsgBGpJDQ8gAUUgAiAEQSdqTXINBwwQCyAERQ0HIAhBBGsoAgAiAUF4cSICQQRBCCABQQNxIgEbIARqSQ0OIAFFIAIgBEEnak1yDQYMDwsgBEUNBiAIQQRrKAIAIgFBeHEiAkEEQQggAUEDcSIBGyAEakkNDSABRSACIARBJ2pNcg0FDA4LIARFDQUgCEEEaygCACIBQXhxIgIgBEEBdCIEQQRBCCABQQNxIgEbakkNDCABRSACIARBJ2pNcg0EDA0LIARFDQQgCEEEaygCACIBQXhxIgIgBEEBdCIEQQRBCCABQQNxIgEbakkNCyABRSACIARBJ2pNcg0DDAwLIARFDQMgCEEEaygCACIBQXhxIgIgBEEBdCIEQQRBCCABQQNxIgEbakkNCiABRSACIARBJ2pNcg0CDAsLIARFDQIgCEEEaygCACIBQXhxIgIgBEEBdCIEQQRBCCABQQNxIgEbakkNCSABRSACIARBJ2pNcg0BDAoLIARFDQEgCEEEaygCACIBQXhxIgIgBEECdCIEQQRBCCABQQNxIgEbakkNCCABRQ0AIAIgBEEnaksNCQsgCBCiAgsgACAKNgIQIAAgCTYCDCAAIAU2AgggACAHNgIEIAAgBjYCAAwFC0EAIQsLQQIhAUGAgICAeCEEDAILQYCAgIB4IQQMAQsgAykDOCEUIAMpAzAhFSADKAIsIQkgAygCKCELCyADIBQ3AzggAyAVNwMwIAMgCTYCLCADIAs2AiggAyAFNgIkIAMgCDYCICADIAQ2AhwgAyABNgIYIwBB0ABrIgEkACABQQxqEOQIIAFByABqIANBGGoiAkEgaikCADcCACABQThqIAJBEGr9AAIA/QsCACABIAL9AAIA/QsCKEHIABBxIgJFBEAACyACQdC0xwA2AgAgAiABKQIMNwIEIAIgASkCJDcCHCACQQxqIAFBFGr9AAIA/QsCACACQSRqIAFBLGr9AAIA/QsCACACQTRqIAFBPGr9AAIA/QsCACACQcQAaiABQcwAaigCADYCACABQdAAaiQAIABBgICAgHg2AgAgACACNgIECyADQbDVAGokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC0EAIAEgBUGovMQAEOoHAAtBuLzEAEEvQei8xAAQqwcAC0GYvMQAEN0JAAvvXQMvfwV+BnsjAEHQAmsiByQAIAFBQGshDwJAAkACQAJAAkACQAJAAkAgAS0AYCIIDQAgB0G0AmogDxCOAiAHLQC0AiIIQR1GBEAgAS0AYCIIDQEMAwsMAQsgASAIQQFrIgs6AGAgASABKQNAIjdCAYgiNjcDQAJAAkACQAJAAkACQAJAAkACQCA3QgGDUARAQYCAgIB4IR4MAQsgCEEETQRAIAdBtAJqIA8QjgIgBy0AtAIiCEEdRw0KIAEtAGAiC0EESQ0LIA8pAwAhNgsgASALQQRrOgBgIAEgNkIEiDcDQCA2p0EPcSIfQQFrQQtPBEBBDSEIDAwLQQQgH3QiDRBxIghFDQMgCEEEay0AAEEDcUUgDUVyRQRAIAhBACAN/AsACyAIrUEBIB90Ih6tQiCGhCE3CyA3pyEnQQEhHEECIRpBASEvIARFDQECQAJAAkAgAS0AYCIIRQRAIAdBtAJqIA8QjgIgBy0AtAIiCEEdRw0BIAEtAGAiCEUNBAsgASAIQQFrIgQ6AGAgASABKQNAIjZCAYgiODcDQCA2QgGDUA0EIAhBA00EQCAHQbQCaiAPEI4CIActALQCIghBHUcNASABLQBgIgRBA0kNBCAPKQMAITgLIAEgBEEDazoAYCABIDhCA4g3A0BBfyA4p0EHcUECaiIddEF/cyIEIAJB//8DcWogHXYiLyAEIANB//8DcWogHXYiBGwiIEECdCESICAEQCASEHEiDUUNBiANQQRrLQAAQQNxRSASRXJFBEAgDUEAIBL8CwALIAdBtAJqIAEgLyAEQQAgDSASEDogBy0AtAIiCEEdRg0DIAcpArwCITcgBygCuAIhCiAHLwG2AiEOIActALUCIQkgDSASQQEQogcMCwsgB0G0AmogASAvIARBAEEBIBIQOiAHLQC0AiIIQR1GDQELIAcpArwCITcgBygCuAIhCiAHLwG2AiEOIActALUCIQkMCQtBACEgDAILICBBAXQQcSIaRQ0CAn8gEkEEayIEQSBJBEAgEiELIA0hCEEBDAELIA0gEmpBAmsgGksEQCASIQtBASANIgggGiAEQQF2akECakkNARoLIA0gBEECdkEBaiIEIARBA3EiBEEEIAQbayIZQQJ0aiEIICAgGWtBAnQhCyAaIQQgGSEKIA0hCf0MAQAAAAEAAAABAAAAAQAAACI+ITsDQCAEIAn9AAAAIj0gO/0NAAAEAAgADAAAAAAAAAAAAEEI/YsBID0gO/0NAQUJDQAAAAAAAAAAAAAAAP2JAf1QIj39WwEAACA7ID39qQEgPv2uAf25ASE7IARBCGohBCAJQRBqIQkgCkEEayIKDQALIDsgOyA7/Q0ICQoLDA0ODwABAgMAAQID/bkBIjsgOyA7/Q0EBQYHAAECAwABAgMAAQID/bkB/RsACyEcIBogGUEBdGohBANAIAQgCC8AACIKQQh0IApBCHZyIgo7AQAgHCAKQf//A3FBAWoiCSAJIBxJGyEcIAhBBGohCCAEQQJqIQQgGUEBaiEZIAtBBGsiCw0ACyANIBJBARCiBwwBC0EPIQgMBgsgN0IgiKchISAHQQA2AhggB0KAgICAwAA3AxBBASAfQQ9xdCExIAdBuAJqISIgB0G0AmoiBEEBciEsIAdBsgFqISMgB0GxAWohLSAHQbQBaiEkIARBAnIhJUEBIQhBBCESQQAhCwNAIAghNEEAIQ0gB0EAOwGUASAHQYCAgIB4NgKQASAHQQA7AXggB0GAgICAeDYCdCAHQQA7AVwgB0GAgICAeDYCWCAHQQA7AUAgB0GAgICAeDYCPCAHQQA7ASQgB0GAgICAeDYCIEEBIQgCQAJ/AkACQAJAA0AgDSEbIAghDSAbQQF0LwGAgEcCQCABLQBgIggNACAHQbQCaiAPEI4CAkAgBy0AtAIiCEEdRgRAIAEtAGAiCA0CQQ8hCAwBCyAHICUpAQA3A8gBIAcgJUEGaikBADcBzgEgBy0AtQIhAQsgIyAHKQPIATcBACAjQQZqIAcpAc4BNwEAIAcgAToAsQEgByAIOgCwAQwEC0EAIDFBACAeQYCAgIB4RxsgGxtqIRYgASAIQQFrIgg6AGAgASABKQNAIjZCAYgiNzcDQAJAAkACfwJAAkACQAJAAkACQAJAAkAgNkIBg1BFBEAgCEH/AXENBCAHQbQCaiAPEI4CIActALQCIghBHUcNASABLQBgIggNA0EPIQgMAgtBJhBxIgpFDRIgCkEEayIMLQAAQQNxBEAgCv0MAAAAAAAAAAAAAAAAAAAAACI7/QsAACAKQR5qQgA3AAAgCkEQaiA7/QsAAAsgAS0AYCIIQQNLDQYgB0G0AmogDxCOAiAHLQC0AiIIQR1HDQQgAS0AYCIIQQRPDQZBDyEIDAULIAcgJSkBADcD2AEgByAlQQZqKQEANwHeASAHLQC1AiEBCyAjIAcpA9gBNwEAICNBBmogBykB3gE3AQAgByABOgCxASAHIAg6ALABIAdBgYCAgHg2AqwBDAwLIA8pAwAhNwsgASAIQQFrIgg6AGAgASA3QgGIIjY3A0AgCEH/AXFFBEAgB0G0AmogDxCOAgJAAkAgBy0AtAIiCEEdRgRAIAEtAGAiCA0CQQ8hCAwBCyAHICUpAQA3A+gBIAcgJUEGaikBADcB7gEgBy0AtQIhAQsgIyAHKQPoATcBACAjQQZqIAcpAe4BNwEAIAcgAToAsQEgByAIOgCwASAHQYGAgIB4NgKsAQwMCyAPKQMAITYLIAEgCEEBayIIOgBgIAEgNkIBiDcDQAJAAkBBCEEBIDanQQFxGyIEIAhB/wFxSwRAIAdBtAJqIA8QjgIgBy0AtAIiCEEdRwRAIAdBgAJqICJBCGooAgA2AgAgByAiKQIANwP4ASAHLwG2AiEBIActALUCIQQMAgsgAS0AYCEICyAIQf8BcSAETw0BQQ8hCAsgJCAHKQP4ATcCACAkQQhqIAdBgAJqKAIANgIAIAcgATsBsgEgByAEOgCxASAHIAg6ALABIAdBgYCAgHg2AqwBDAsLIAEgCCAEayIJOgBgIAEgASkDQCI4IAStIjmIIjY3A0AgFkH//wNxIgogOEJ/IDmGQn+Fg6ciCE0EQAwKCyA3QgGDUA0DIAlB/wFxQQdNBEAgB0G0AmogDxCOAgJAAn8gBy0AtAIiBEEdRgRAIAEtAGAiCUEITw0CQQ8MAQsgB0GgAmogIkEIaigCADYCACAHICIpAgA3A5gCIAcvAbYCISggBy0AtQIhASAECyEIICQgBykDmAI3AgAgJEEIaiAHQaACaigCADYCACAHICg7AbIBIAcgAToAsQEgByAIOgCwASAHQYGAgIB4NgKsAQwMCyAPKQMAITYLIAEgCUEIazoAYCABIDZCCIg3A0AgCiA2p0H/AXEiKEsEQEEYEHEiBEUNDyAEQQI7ARAgBCAoOwEKIARBATsBCCAEIAg7AQIgBEEBOwEAQQgQcSIKRQ0PIAogKEGAgARyNgIEIAogCEGAgARyNgIAIAdBATsBxAEgB0ECNgLAASAHIAo2ArwBIAdCg4CAgCA3ArQBIAcgBDYCsAEgB0EDNgKsASAEIQhBAwwFCwwJCyAHQYYCaiAsQQJqLQAAOgAAIAcgLC8AADsBhAIgBygCuAIhASAHKQK8AiE3CyAtIAcvAYQCOwAAIC1BAmogB0GGAmotAAA6AAAgByAIOgCwASAHIDc3ArgBIAcgATYCtAEMBgsgASAIQQRrIgg6AGAgASABKQNAIjZCBIgiNzcDQCA2p0EPcUECdCEOQXAhBANAIAhB/wFxQQJNBEAgB0G0AmogDxCOAgJAAkAgBy0AtAIiCEEdRgRAIAEtAGAiCEEDTw0CQQ8hCAwBCyAHQZACaiAiQQhqKAIANgIAIAcgIikCADcDiAIgBy8BtgIhCSAHLQC1AiEBCyAkIAcpA4gCNwIAICRBCGogB0GQAmooAgA2AgAgByAJOwGyASAHIAE6ALEBIAcgCDoAsAEMCAsgDykDACE3CyABIAhBA2siCDoAYCABIDdCA4giNjcDQCAEQZT/xgBqKAIAIglBEk0EQCAKIAlBAXRqIDenQQdxIgk7AQAgNiE3IA4gBEEEaiIERg0EDAELCyAJQRNB0P/GABCMBwALIAcgCDsBsAEgB0GAgICAeDYCrAFBgICAgHgLIQwgBykCuAEhNyAHKAK0ASEKIAcvAbIBIQ4gBy0AsQEhCQwBCyAHQRM2AqACIAcgCjYCnAIgB0ETNgKYAiAHQbQCaiAHQZgCahCYASAHKALEAiETIAcoAsACIRggBygCvAIhDiAHKAK4AiEKAkAgBygCtAIiFEGBgICAeEYEQCAKIQggEyEVIBghBAwBCyAHKQLIAiE3AkACQCAIQf8BcUUEQCAHQbQCaiAPEI4CAkAgBy0AtAIiCEEdRgRAIAEtAGAiCA0BQQ8hCAwECwwCCyAPKQMAITYLIAEgCEEBayIJOgBgIAEgNkIBiCI4NwNAIBYhDCA2QgGDUEUEQAJAAkAgCEH/AXFBA00EQCAHQbQCaiAPEI4CIActALQCIghBHUcNBEEPIQggAS0AYCIJQQNJDQUgDykDACE4CyABIAlBA2siCToAYCABIDhCA4g3A0AgOKdBAXRBDnFBAmoiDCAJQf8BcU0NASAHQbQCaiAPEI4CIActALQCIghBHUYNAAwDCyABLQBgIQkLQQ8hCCAJQf8BcSAMSQ0CIAEgCSAMazoAYCABIAEpA0AiNiAMrSI4iDcDQCAWQQJrQf//A3EgNkJ/IDiGQn+Fg6ciCUH//wNxSQ0CIAlBAmohDAsgFkH//wNxIhUEfyAVQQF0IikQcSIQRQ0MIBBBBGsiMi0AAEEDcUUgKUVyRQRAIBBBACAp/AsACwJAIAxB//8DcUUNACA3QiCIITYgN6chLkEAIQhBCCEqAkADQAJAIAdBtAJqIA8QjgICQAJAAkACQAJAAn8gBy0AtAIiBEEdRwRAIActALcCQRh0IAcvALUCQQh0ciAEcgwBCyAKIQQgFEGAgICAeEYNAiAPKQMAIjcgNoOnQf//A3EiBCAuTw0DAkAgEyAEQQJ0aigCACIEQYCABE8EQCABLQBgIhEgBEEQdiIJQf8BcU8NA0EPIQkgBy8BtgIhBAwBCyAHQbQCaiAKIA4gN6dBCnZBP3EgBEEBayAPEJwGIAcvAbYCIQQgBy0AtAIiCUEdRg0DCyAHLQC1AkEIdCAJciAEQRB0cgshCCAHKALAAiEVIAcoArwCIQQgBygCuAIhDgwHCyABIBEgCWs6AGAgASA3IAmtiDcDQAsCQCAEQf//A3EiEUEQTwRAIARBEGsiJkH//wNxQQNJDQEMBQsgECAIQf//A3FBAXRqIAQ7AQAgBCAqIBEbISogCEEBaiEIDAMLIAEtAGAiCUGChhwgJkEDdEH4/wNxdiIEQQdxSQRAIAdBtAJqIA8QjgIgBy0AtAIiCUEdRwRAIActALUCQQh0IAlyIQggBygCwAIhFSAHKAK8AiEEIAcoArgCIQ4gBy8BtgIhKwwDCyABLQBgIQkLIAlB/wFxIARB/wFxSQRAQQ8hCAwCCyABIAkgBGs6AGAgASABKQNAIjcgBK1CB4MiOIg3A0AgFkH//wNxIgRCg4CMgLABICZBBHStQvD/A4OIpyI1IDdCfyA4hkJ/hYOnIitqIgkgCGpB//8DcUkNAyAqQQAgEUEQRhshJiAIQf//A3EiCCAEIAQgCEkbIjAgCGsiBCArIDVqQQFrQf//A3EiESAEIBFJGyIEQQhPBEAgBEEBaiIRQQdxIhdBCCAXGyIXIARBf3NqIQQgCSARIBdrIhFrIQkgCCARaiAQIAhBAXRqIQggJv0QITsDQCAIIDv9CwEAIAhBEGohCCAEQQhqIgQNAAshCAsgECAIQQF0aiEEA0AgCCAwRwRAIAQgJjsBACAEQQJqIQQgCEEBaiEIIAlBAWsiCUH//wNxDQEMBAsLIDAgFUGMgscAEIwHAAsgBCAuQdj5xgAQjAcACyArQRB0IAhyIQgMAwsgCEH//wNxIBZB//8DcU8NAyAMQQFrIgxB//8DcQ0BDAMLC0EPIQgLAkAgMigCACIJQXhxIgxBBEEIIAlBA3EiCRsgKWpPBEAgCUEAIAwgKUEnaksbDQEgEBCiAgwFCwwYCwwYCyAQBUECCyEEQR0hCAJAAkAgFEGAgICAeEYNACAUBEAgCkEEaygCACIJQXhxIgwgFEEDdCIOQQRBCCAJQQNxIgkbakkNGCAJQQAgDCAOQSdqSxsNGSAKEKICCyAYRQ0AIBNBBGsoAgAiCkF4cSIJIBhBAnQiDEEEQQggCkEDcSIKG2pJDRcgCkEAIAkgDEEnaksbDQEgExCiAgsgFSEODAMLDBYLIActALUCQQh0IAhyIAcvAbYCQRB0ciEIIAcoAsACIRUgBygCvAIhBCAHKAK4AiEOCyAUQYCAgIB4Rg0AAkAgFARAIApBBGsoAgAiCUF4cSIMIBRBA3QiEEEEQQggCUEDcSIJG2pJDRUgCUEAIAwgEEEnaksbDRYgChCiAgsgGEUNASATQQRrKAIAIgpBeHEiCSAYQQJ0IgxBBEEIIApBA3EiChtqSQ0UIApBACAJIAxBJ2pLGw0AIBMQogIMAQsMFAsgCEH/AXFBHUcEQCAHQbMBaiAIQRh2OgAAIAcgFTYCvAEgByAENgK4ASAHIA42ArQBIAcgCDoAsAEgB0GBgICAeDYCrAEgByAIQQh2OwCxAQwFCyAHIBU2ArACIAcgBDYCrAIgByAONgKoAiAHQawBaiAHQagCahCYASAHLQCwASEIIAcpArgBITcgBy8BsgEhDiAHLQCxASEJIAcoArQBIgogBygCrAEiDEGBgICAeEYNBRoLIAcpAsABITYCQAJAIAdBIGogG0EcbGoiBCgCACIQQYCAgIB4Rg0AIBAEQCAEKAIEIhZBBGsoAgAiE0F4cSIYIBBBA3QiEEEEQQggE0EDcSITG2pJDQIgE0EAIBggEEEnaksbDRUgFhCiAgsgBCgCDCIQRQ0AIAQoAhAiFkEEaygCACITQXhxIhggEEECdCIQQQRBCCATQQNxIhMbakkNEyATQQAgGCAQQSdqSxsNFCAWEKICCyAEIDY3AhQgBCA3NwIMIAQgCjYCCCAEIA47AQYgBCAJOgAFIAQgCDoABCAEIAw2AgAgDSANQQVJIgRqIQggBEUNBgwBCwsMEAsCQCAMKAIAIgFBeHEiAkEqQS4gAUEDcSIBG08EQCABQQAgAkHOAE8bDQEgChCiAgwDCwwQC0GMjcgAQS5BvI3IABDrBwwFCyAHQYGAgIB4NgKsAUEPIQggB0EPOgCwAQsgBykCuAEhNyAHLwGyASEOIActALEBIQkgBygCtAELIQogB0EgahCNAiALBEAgEiEBA0AgARCNAiABQYwBaiEBIAtBAWsiCw0ACwsCQCAHKAIQIgEEQCASQQRrKAIAIgJBeHEiAyABQYwBbCIBQQRBCCACQQNxIgIbakkNDiACQQAgAyABQSdqSxsNDyASEKICCyAgRQ0IIBpBBGsoAgAiAUF4cSICICBBAXQiA0EEQQggAUEDcSIBG2pJDQ0gAUEAIAIgA0EnaksbDQAgGhCiAgwICwwNCyAHKAIQIAtGBEAgB0EQahCfBiAHKAIUIRILIBIgC0GMAWxqIAdBIGpBjAH8CgAAIAcgC0EBaiILNgIYIDRBAWohCCALIBxHDQALIAcpAxAhNyAHKAIQITACQAJ/IB1FBEBBACEIIDdCIIinDAELIBlFDQEgGi8BACIIIBxPDQYgN0IgiKcLIQQCQAJAAkACQCACQf//A3EiFiADQf//A3FsIhVFDQBBfyAddEF/c0H//wMgHRshNSAGQRBrIRMgBq1CAXwhN0EAIB9rQR9xIRggAkEBa0H//wNxITEgBCAIQYwBbGohDEEAIQ1BACEQA0ACQCACQf//A3FFBEAgB0G0AmogDxCOAiAHLQC0AiIIQR1HDQkgDSAQSQ0BQdj7xgAQgggACwJAA0AgB0G0AmogDxCOAiAHLQC0AiIIQR1HDQogDSAQSQ0CIA0gDSAWbiIEIBZsIghrIQMCQCAdRQRAQQAhCwwBCyAZIC8gBEH//wNxIB12bCADQf//A3EgHXZqIgRLBEAgGiAEQQF0ai8BACILIBxJDQEgCyAcQej7xgAQjAcACyAEIBlByPLEABCMBwALIAggAyA1ciIDIDEgAyAxSRtqQQFqIRAgEiALQYwBbGoiDCgCAEGAgICAeEcNAiAMKAIcQYCAgIB4Rw0CIAwoAjhBgICAgHhHDQIgDCgCVEGAgICAeEcNAiAMLwEEIgNBgAJPDQIgDC0AWCEEIAwtADwhCCAMLQAgIQsCQCAQIA1rIBUgHRsiGwRAQQAhCkEBIQ4CQCA3IA1BAnQiCa19IjZCACA2IDdYG0IDfEICiCI2IAZBACAJIAZrQQNqIhEgEUEDSyIUG2ogCWtBAnatIjggNiA4VBsiOSAbQQFrrSI4IDggOVYbIjlCIFQNACANIDYgBkEAIBEgFBtqIAlrQQJ2rSI6IDYgOlQbIjYgOCA2IDhUG6dqQQJ0IAlJDQAgOaciCkF/cyAKQQFqIgpBD3EiCUEQIAkbIglqITIgCiAJayIKQQFqIQ4gDf0RITv9DAwAAAANAAAADgAAAA8AAAAhPv0MCAAAAAkAAAAKAAAACwAAACE9/QwEAAAABQAAAAYAAAAHAAAAIT/9DAAAAAABAAAAAgAAAAMAAAAhQANAIAUgQCA7/a4BQQL9qwEiPP0bAGoiCSALOgAAIAUgPP0bAWoiESALOgAAIAUgPP0bAmoiFCALOgAAIAUgPP0bA2oiHyALOgAAIAUgPyA7/a4BQQL9qwEiPP0bAGoiIiALOgAAIAUgPP0bAWoiIyALOgAAIAUgPP0bAmoiJCALOgAAIAUgPP0bA2oiJSALOgAAIAUgPSA7/a4BQQL9qwEiPP0bAGoiKCALOgAAIAUgPP0bAWoiKSALOgAAIAUgPP0bAmoiKiALOgAAIAUgPP0bA2oiKyALOgAAIAUgPiA7/a4BQQL9qwEiPP0bAGoiLCALOgAAIAUgPP0bAWoiLSALOgAAIAUgPP0bAmoiLiALOgAAIAUgPP0bA2oiJiALOgAAIAkgAzoAASARIAM6AAEgFCADOgABIB8gAzoAASAiIAM6AAEgIyADOgABICQgAzoAASAlIAM6AAEgKCADOgABICkgAzoAASAqIAM6AAEgKyADOgABICwgAzoAASAtIAM6AAEgLiADOgABICYgAzoAASAJIAg6AAIgESAIOgACIBQgCDoAAiAfIAg6AAIgIiAIOgACICMgCDoAAiAkIAg6AAIgJSAIOgACICggCDoAAiApIAg6AAIgKiAIOgACICsgCDoAAiAsIAg6AAIgLSAIOgACIC4gCDoAAiAmIAg6AAIgCSAEOgADIBEgBDoAAyAUIAQ6AAMgHyAEOgADICIgBDoAAyAjIAQ6AAMgJCAEOgADICUgBDoAAyAoIAQ6AAMgKSAEOgADICogBDoAAyArIAQ6AAMgLCAEOgADIC0gBDoAAyAuIAQ6AAMgJiAEOgADIED9DBAAAAAQAAAAEAAAABAAAAAiPP2uASFAID8gPP2uASE/ID0gPP2uASE9ID4gPP2uASE+IDJBEGoiMg0ACwsgG0EBaiEJA0AgBiAKIA1qQQJ0IgpJDQIgBiAKayIRQQNNBEBBAEEEIBFB1P7GABDqBwALIAUgCmoiCiAEOgADIAogCDoAAiAKIAM6AAEgCiALOgAAIAkgDiIKQQFqIg5HDQALCyAeQYCAgIB4RwRAIANBCHRBgP4DcSALQRB0ciAEQRh0ciAIckG9z9bxAWwgGHYiCiAhTw0DICcgCkECdGoiCiAEOgADIAogCDoAAiAKIAM6AAEgCiALOgAACyANIBtqIg0gFUkNAQwFCwsgCiAGIAZB5P7GABDqBwALIAogIUGY+sYAEIwHAAsCQCAVAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgDCgCAEGAgICAeEcEQCAMKAIUIgQgDykDACI2pyILIAwvARhxIgNNDSQCQCAMKAIQIANBAnRqKAIAIghBgIAETwRAIAEtAGAiBCAIQRB2IgNB/wFxSQRAQQ8hBCAHLwG2AiEIDAILIAEgBCADazoAYCABIDYgA62INwNADAMLIAdBtAJqIAwoAgQgDCgCCCALQYD4A3FBCnYgCEEBayAPEJwGIAcvAbYCIQggBy0AtAIiBEEdRg0CCyAAIAcpArgCNwIEIABBDGogB0HAAmooAgA2AgAgBy0AtQIhASAAIAg7AQIgACABOgABIAAgBDoAAAwaCyAMLwEEIQgLAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAhB//8DcSIDQYACTwRAIANBmAJJDQEgB0EPOgC0AiAeQYCAgIB4Rw0CIABBADYCBCAAQQ86AAAMJgsgDCgCHEGAgICAeEYNCiAMKAIwIgQgDykDACI2pyIKIAwvATRxIgNNDS4gDCgCLCADQQJ0aigCACILQYCABEkNCCABLQBgIgQgC0EQdiIDQf8BcUkEQEEPIQQgBy8BtgIhCwwKCyABIAQgA2s6AGAgASA2IAOtiDcDQAwLCyAIQfwDcUGAAkYEfyAIQf8Ba0H//wNxBSABLQBgIgQgCEH+AWpB/v8DcUEBdiIDQf8BcSILSQ0CIAEgBCADazoAYCABIAEpA0AiNiADrUL/AYMiOIg3A0AgNkJ/IDiGQn+Fg6cgCEEBcUECciALdGpBAWoLIRcgDCgCcEGAgICAeEYNBSAMKAKEASIEIA8pAwAiNqciCyAMLwGIAXEiA00NLSAMKAKAASADQQJ0aigCACIIQYCABEkNAyABLQBgIgQgCEEQdiIDQf8BcU8NAkEPIQQgBy8BtgIhCAwECyAHQbQCahCrBCAhIAhBmAJrQf//A3EiBE0NCiAGIA1BAnQiA0kNCyAGIANrIghBA00NDCADIAVqICcgBEECdGooAAA2AAAgECANQQFqIgNNBEAgAwwZCyAPKQMAITYgDCgCAEGAgICAeEYNDQJAIAwoAhQiCCAMLwEYIDancSIESwRAIAwoAhAgBEECdGooAgAiBEGAgARPDQEgAwwaCyAEIAhByPnGABCMBwALIARBEHYhCwwXCyAAIBc2AgQgAEEPOgAADCELIAEgBCADazoAYCABIDYgA62INwNADAMLIAdBtAJqIAwoAnQgDCgCeCALQYD4A3FBCnYgCEEBayAPEJwGIAcvAbYCIQggBy0AtAIiBEEdRg0CCyAAIAcpArgCNwIEIABBDGogB0HAAmooAgA2AgAgBy0AtQIhASAAIAg7AQIgACABOgABIAAgBDoAAAweCyAMLwF0IQgLIAhB//8DcUEESQ0IIAhBAmsiA0H//wNxQf8DSw0JIAEtAGAiBCADQQF2IgNB/wFxSQRAIAAgMzYCBCAAQQ86AAAMHQsgASAEIANB//8BcSIDazoAYCABIAEpA0AiNiADrSI4iDcDQCA2Qn8gOIZCf4WDpyAIQQFxQQJyIAN0akEBaiIzQfgATQ0PIDNB+ABrIQsMEAsgB0G0AmogDCgCICAMKAIkIApBgPgDcUEKdiALQQFrIA8QnAYgBy8BtgIhCyAHLQC0AiIEQR1GDQILIAAgBykCuAI3AgQgAEEMaiAHQcACaigCADYCACAHLQC1AiEBIAAgCzsBAiAAIAE6AAEgACAEOgAADBoLIAwtACAhCwsCQAJ/IAwoAjhBgICAgHhHBEAgDCgCTCIEIA8pAwAiNqciCiAMLwFQcSIDTQ0lAkAgDCgCSCADQQJ0aigCACIJQYCABE8EQCABLQBgIgQgCUEQdiIDQf8BcUkEQEEPIQQgBy8BtgIhCQwCCyABIAQgA2siBDoAYCABIDYgA62INwNADAQLIAdBtAJqIAwoAjwgDCgCQCAKQYD4A3FBCnYgCUEBayAPEJwGIAcvAbYCIgkgBy0AtAIiBEEdRg0CGgsgACAHKQK4AjcCBCAAQQxqIAdBwAJqKAIANgIAIActALUCIQEgACAJOwECIAAgAToAASAAIAQ6AAAMGwsgDC0APAshCSABLQBgIQQLAkAgBEH/AXFBDksNACAHQbQCaiAPEI4CIActALQCIgNBHUYNACAAIAcpALUCNwABIABBCGogB0G8AmopAAA3AAAgACADOgAADBkLAkAgDCgCVEGAgICAeEcEQCAMKAJoIgQgDykDACI2pyIOIAwvAWxxIgNNDSQCQCAMKAJkIANBAnRqKAIAIgpBgIAETwRAIAEtAGAiBCAKQRB2IgNB/wFxSQRAQQ8hBCAHLwG2AiEKDAILIAEgBCADazoAYCABIDYgA62INwNADAMLIAdBtAJqIAwoAlggDCgCXCAOQYD4A3FBCnYgCkEBayAPEJwGIAcvAbYCIQogBy0AtAIiBEEdRg0CCyAAIAcpArgCNwIEIABBDGogB0HAAmooAgA2AgAgBy0AtQIhASAAIAo7AQIgACABOgABIAAgBDoAAAwaCyAMLQBYIQoLIA1BAnQiAyAGTw0GIAMgBWogCzoAACADQQFyIgQgBk8NByAEIAVqIAg6AAAgA0ECciIEIAZPDQggBCAFaiAJOgAAIANBA3IiAyAGTw0JIAMgBWogCjoAACAeQYCAgIB4RwRAIAlB/wFxIAhBCHRBgP4DcSALQRB0ckGA/v8HcSAKQRh0cnJBvc/W8QFsIBh2IgMgIU8NCyAnIANBAnRqIgMgCjoAAyADIAk6AAIgAyAIOgABIAMgCzoAAAsgDUEBagwOCyAEICFB+PvGABCMBwALIAMgBiAGQbj8xgAQ6gcAC0EAQQQgCEGI/MYAEOoHAAsgDC8BBCEEQQAhCwwJCyAIQQFqQf//A3EhMwwGC0HY5sgAQSsgB0G0AmpBmPvGAEH0/sYAEOAGAAsgAyAGQZT+xgAQjAcACyAEIAZBpP7GABCMBwALIAQgBkG0/sYAEIwHAAsgAyAGQcT+xgAQjAcACyADICFBmPrGABCMBwALIDNBAWsiA0H4AEkEQEEBIANBAXQiAywAi4BHIBZsIAMsAIqAR2oiAyADQQFMGyELDAELQX9B+ABB/IHHABCMBwALAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgFSANayAXSSALIA1LckUEQCALQQFGBEAgBiANQQJ0IgNBBGsiBEkNAiAGIARrIghBA00NAyAEIAVqKAAAIQtBACEEAkAgF0EBa60iNiA3IAOtfSI4QgAgNyA4WhtCA3xCAogiOCAGIANrQQJ2Ig6tIjkgOCA5VBsiOCA2IDhUGyI2QhRUBEBBASEIDAELQQEhCCANIDanIgpqQQJ0IANJDQAgCkEBaiIEQQNxIghBBCAIGyIIIApBf3NqIQogAyAFaiEJIAQgCGsiBEEBaiEIIAv9ESE7A0AgCSA7/QsAACAJQRBqIQkgCkEEaiIKDQALCyAOQQFqIQogF0EBaiEJA0AgBiAEIA1qQQJ0IgNJDQUgCCAKRg0GIAMgBWogCzYAACAJIAgiBEEBaiIIRw0ACwwRCyANIBdqQQNqIBVLDQsgDSALa0ECdCIEQRBqIgMgBksNBSAEQW9LDQYgDUECdCIIIBNLDQcgBSAIaiAEIAVq/QAAAP0LAAAgF0EETSALQQRPcQ0MIAtBAnQiCkUNCCAXQQJ0IgMgA0H8/wNxQRAgCiAKQRBPGyIDQf//A3FuIgsgA2xrQf//A3FBAEcgC2oiC0ECSQ0MIAMgBGoiCUEQaiIOIAZLDQkgCUFvSw0KIBMgAyAIak8EQCALQQJrIQsgA0EBdCAKayEOIAMgBWohCSAFIAMgCmtqIQogAyEEA0AgCCAJaiAIIApq/QAAAP0LAAAgC0UNDgJAIAYgCCAOaiIbQRBqTwRAIBtBb00NASANQQJ0IA5qIglBEGohDgwOCyANQQJ0IA5qQRBqIQ4MDAsgC0EBayELIAMgDmohDiADIAlqIQkgAyAKaiEKIAggAyAEaiIEaiATTQ0ACwsgB0EANgLEAiAHQQE2ArgCIAdB1JzIADYCtAIgB0IENwK8AiAHQbQCakGE/sYAEI0IAAsgAEEPOgAADBsLIAQgBiAGQfj8xgAQ6gcAC0EAQQQgCEHI/MYAEOoHAAsgAyAGIAZB6PzGABDqBwALQQBBBCAGIANrQdj8xgAQ6gcAC0EAIAMgBkGo/cYAEOoHAAsgBCADIAZBqP3GABDqBwALIAdBADYCxAIgB0EBNgK4AiAHQdScyAA2ArQCIAdCBDcCvAIgB0G0AmpBqP3GABCNCAALQbj9xgBBG0HU/cYAEOsHAAtBACAOIAZBhP7GABDqBwALIAkgDiAGQYT+xgAQ6gcAC0EAIQQCQCAXQQJ0IhFBAWsiCCAGIA1BAnQiAyALQQJ0IgprIgsgBiALSxsgCmogA2siCyAGIANrIglBACAGIAlPGyIJIAkgC0sbIgsgCCALSRsiC0EBaiIbQRFJBEBBASEIDAELQQEhCCAKQQ9NDQAgG0EPcSIEQRAgBBsiBCALQX9zaiEOIAMgBWohC0EAIAprIRQgGyAEayIEQQFqIQgDQCALIAsgFGr9AAAA/QsAACALQRBqIQsgDkEQaiIODQALCyAJQQFqIQkgEUEBaiEOA0AgAyAEaiIEIAprIgsgBk8NAiAIIAlGDQMgBCAFaiAFIAtqLQAAOgAAIA4gCCIEQQFqIghHDQALCyAeQYCAgIB4Rw0CDAMLIAsgBkGI/cYAEIwHAAsgBCAGQZj9xgAQjAcACwJAAkAgDUECdCIDIAZNBEAgF0ECdCIEIAYgA2siCEsNASAERQ0DIAMgBWohC0EAIARrIQkDQCALKAAAIgNBgP6DeHEgA0EQdEGAgPwHcXIgA0EQdiIIQf8BcXJBvc/W8QFsIBh2IgQgIU8NAyAnIARBAnRqIgQgA0EYdjoAAyAEIAg6AAIgBCADQQh2OgABIAQgAzoAACALQQRqIQsgCUEEaiIJDQALDAMLIAMgBiAGQfT9xgAQ6gcAC0EAIAQgCEHk/cYAEOoHAAsgBCAhQZj6xgAQjAcACyANIBdqDAELIAMgBEH//wNxQZgCSQ0AGiABLQBgIgggC0H/AXFJDQQgASAIIAtrOgBgIAEgNiALrYg3A0AgBiADQQJ0IgNJDQUgBiADayIIQQNNDQYgISAEQZgCa0H//wNxIgRNDQEgAyAFaiAnIARBAnRqKAAANgAAIA1BAmoLIg1LDQEMAgsLIAQgIUH4+8YAEIwHAAsgAEEdOgAADAYLIABBDzoAAAwFCyADIAYgBkGo/MYAEOoHAAtBAEEEIAhBmPzGABDqBwALQQBBAEHI8sQAEIwHAAsACyAAIAcpALUCNwABIABBCGogB0G8AmopAAA3AAAgACAIOgAACyAeQYCAgIB4ckGAgICAeEYNACAnIB5BAnRBARCiBwsgIARAIBogIEEBdEECEKIHCyASIQEDQCABEI0CIAFBjAFqIQEgNEEBayI0DQALIDBFDQUgEiAwQYwBbEEEEKIHDAULIAggHEHI+8YAEIwHAAsCQCAeQYCAgIB4ckGAgICAeEcEQCAnQQRrKAIAIgFBeHEiAiAeQQJ0IgNBBEEIIAFBA3EiARtqSQ0GIAFBACACIANBJ2pLGw0BICcQogILIAAgNzcCCCAAIAo2AgQgACAOOwECIAAgCToAASAAIAg6AAAMBAsMBQsgByAHKQC3AjcDACAHIAdBvAJqKQAANwAFIActALYCIQEgBy0AtQIhHwwBC0EPIQgLIAAgAToAAiAAIB86AAEgACAIOgAAIAAgBykDADcAAyAAQQhqIAcpAAU3AAALIAdB0AJqJAAPC0HMjMgAQS5B/IzIABDrBwALQYyNyABBLkG8jcgAEOsHAAsgAyAEQdj5xgAQjAcAC4xaBC5/B30BewF+IwBBkARrIgYkAEEAELYJIQdBABC2CSEJIAZBwANqQQA6AAAgBkIANwO4AyACELgKIQwgAxC4CiEWIAdBhAhPBEAgBxCbBwsgCUGECE8EQCAJEJsHCyACrSADrUIghoQhPAJAIARBAXFFDQAgBUH458AAQQMQ7AgiAhDiCCEHQbS7yQAtAAAhA0G0u8kAQQA6AABBuLvJACgCAEG4u8kAQQA2AgAgByADGyEIAkACQCADRQRAIAgQuQpFBEBBASEQDAMLIAhBgwhLDQEMAgsgCEGECEkNAQsgCBCbBwsgAkGECE8EQCACEJsHCyAFQfvnwABBAxDsCCICEOIIIQdBtLvJAC0AACEDQbS7yQBBADoAAEG4u8kAKAIAQbi7yQBBADYCACAHIAMbIQkCfwJAAkAgA0UEQCAJELkKRQRAQQEhDkECDAQLIAlBgwhLDQEMAgsgECAJQYQISQ0CGgsgCRCbBwsgEAshHyACQYQITwRAIAIQmwcLIAVB/ufAAEEEEOwIIgMQ4gghAkG0u8kALQAAIQdBtLvJAEEAOgAAQbi7yQAoAgBBuLvJAEEANgIAIAIgBxshAgJAAkAgB0UEQCACELkKRQRAQQMhH0EBIQsMAwsgAkGDCEsNAQwCCyACQYQISQ0BCyACEJsHCyADQYQITwRAIAMQmwcLIAVBgujAAEEEEOwIIgcQ4gghA0G0u8kALQAAIQ9BtLvJAEEAOgAAQbi7yQAoAgBBuLvJAEEANgIAIAMgDxshAwJAAkAgD0UEQCADELkKRQRAQQMhH0EBISAMAwsgA0GDCEsNAQwCCyADQYQISQ0BCyADEJsHCyAHQYQITwRAIAcQmwcLIAVBhujAAEEHEOwIIg8Q4gghB0G0u8kALQAAIQ1BtLvJAEEAOgAAQbi7yQAoAgBBuLvJAEEANgIAIAcgDRshBwJAAkAgDUUEQCAHELkKRQRAQQEhLAwDCyAHQYMISw0BDAILIAdBhAhJDQELIAcQmwcLIA9BhAhJDQAgDxCbBwsgBkHMAWogBkHAA2otAAA6AAAgBiAGKQO4AzcCxAEgBiA8NwK8ASAGIB82ArgBIAYgATYCtAEgBkGAgICAeDYCpAEgBkGAgICAeDYCmAEgBkIENwKQASAGQgA3AogBIAZCgICAgMAANwKAASAGQgQ3AnggBkIANwJwIAZCgICAgMAANwJoIAZCBDcCYCAGQgA3AlggBkKAgICAwAA3AlAgBiAHNgJMIAYgLDYCSCAGQQA2AjwgBkEANgI0IAZBADYCLCAGIAM2AiggBiAgNgIkIAYgAjYCICAGIAs2AhwgBiAJNgIYIAYgDjYCFCAGIAg2AhAgBiAQNgIMIAYgFiAMIAwgFksbQQJ2NgKwASAGQoCAgIAgNwKwAiAGQgI3AqgCIAZCADcCoAIgBkKAgICAIDcCmAIgBkIENwKQAiAGQgA3AogCIAZCgICAgMAANwKAAiAGQgA3ArgCIAYgLDoAwAMgBiAfNgK8AyAGIAE2ArgDIAZBgAJqIAZBuANqEIQCIAZBADYCyAIgBkKAgICAwAA3AsACIAZBADYC1AIgBkKAgICAwAA3AswCIAZBADYC4AIgBkKAgICAwAA3AtgCIAZBADYC7AIgBkKAgICAwAA3AuQCIAZBADYC+AIgBkKAgICAwAA3AvACIAZBADYChAMgBkKAgICAwAA3AvwCIAZBADYCkAMgBkKAgICAwAA3AogDIAZBADYCnAMgBkKAgICAwAA3ApQDIAZBADYCqAMgBkKAgICAIDcCoAMgBkEANgK0AyAGQoCAgIDAADcCrAMCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCABRQRAQQQhFkEEISBBBCEOQQQhKEEEISkMAQsgBkHEAWohISAGQYABaiEtQQQhFgNAIBdBgIAEIAEgFWsiAiACQYCABE8bIgxBA2wiEkkEQCASIBdrIgIgBigCwAIgF2tLBEAgBkHAAmogFyACQQRBBBCkBSAGKALIAiEXIAYoAsQCIRYLIBYgF0ECdGohAyACQQJPBH8gAkECdEEEayIHBEAgA0EAIAf8CwALIAIgF2oiAkEBayEXIBYgAkECdGpBBGsFIAMLQQA2AgAgBiAXQQFqIhc2AsgCIAYoAtQCIRgLIAwgGEsEQCAMIBhrIgIgBigCzAIgGGtLBEAgBkHMAmogGCACQQRBBBCkBSAGKALUAiEYCyAGKALQAiIHIBhBAnRqIQMgAkECTwR/IAJBAnRBBGsiCQRAIANBACAJ/AsACyACIBhqIgJBAWshGCAHIAJBAnRqQQRrBSADC0EANgIAIAYgGEEBaiIYNgLUAgsgBigC4AIiDiASSQRAIBIgDmsiAiAGKALYAiAOa0sEQCAGQdgCaiAOIAJBBEEEEKQFIAYoAuACIQ4LIAYoAtwCIgcgDkECdGohAyACQQJPBH8gAkECdEEEayIJBEAgA0EAIAn8CwALIAIgDmoiAkEBayEOIAcgAkECdGpBBGsFIAMLQQA2AgAgBiAOQQFqIg42AuACCyAGKALsAiIRIBJJBEAgEiARayICIAYoAuQCIBFrSwRAIAZB5AJqIBEgAkEEQQQQpAUgBigC7AIhEQsgBigC6AIiByARQQJ0aiEDIAJBAk8EfyACQQJ0QQRrIgkEQCADQQAgCfwLAAsgAiARaiICQQFrIREgByACQQJ0akEEawUgAwtBADYCACAGIBFBAWoiETYC7AILIAxBAnQiCSAGKAL4AiITSwRAIAkgE2siAiAGKALwAiATa0sEQCAGQfACaiATIAJBBEEEEKQFIAYoAvgCIRMLIAYoAvQCIgcgE0ECdGohAyACQQJPBH8gAkECdEEEayIIBEAgA0EAIAj8CwALIAIgE2oiAkEBayETIAcgAkECdGpBBGsFIAMLQQA2AgAgBiATQQFqIhM2AvgCCwJAAkAgEiAXTQRAIAYoAsQCIRYgBkEMaiAVIAwQ6QQgDEEEdCEiQQIgEiASQQJNG0EDbkEEdCEPQQAhCCAGKAKEASENIAYoAogBIRAgFiECQQAhB0EAIQMCQAJAAkADQCAHQQRqIgsgEEsNAyADICJGDQIgAyANaiIHQQhqKgIAITQgByoCACE1IAJBBGogB0EEaioCADgCACACIDU4AgAgAyAPRg0BIAJBCGogNDgCACACQQxqIQIgCEEDaiEIIAshByAiIANBEGoiA0cNAAsgDCAYTQRAIAYoAtACISkgBkEMaiAVIAwQ6QQgDEECdCEmIAYoAoQBQQxqIQdBACEDIAYoAogBIRACQANAAn8CQCAQIANBBGoiAk8EQCAHKAIAIgtB//8BcUUEQCALQRB0DAMLIAtB/wdxIQggC0GAgAJxIQ8gC0GA+AFxIgtBgPgBRgRAIA9BEHQiC0GAgID8B3IgCEUNAxogCyAIQQ10ckGAgID+B3IMAwsgD0EQdCEPIAtFDQEgC0ENdEGAgID8AHEgCEENdHJBgICAwANqIA9yDAILIAMgAiAQQfClwQAQ6gcACyAPQYCAgNgDciAIZ0EQayILQRd0ayAIIAtB//8DcUEIanRB////A3FyCyEIIAMgJkYNASADIClqIAg2AgAgB0EQaiEHIAIiAyAmRw0ACyAOIBJPBEAgBigC3AIhKCAGQQxqIBUgDBDpBCAMQQxsIQ9BACELIAYoApABIQggBigClAEhDUEAIQNBACEQAkACQAJAAkACQAJAAkACQAJAAkADQAJ/AkAgDSADQQRqIgJPBEAgCCgCACIDQRB2IQcgA0EQdCADQf//AXFFDQIaIANB/wdxIQ4gA0GAgAJxIQogA0GA+AFxIhRBgPgBRgRAIApBEHQiCkGAgID8B3IgDkUNAxogCiAOQQ10ckGAgID+B3IMAwsgCkEQdCEKIBRFDQEgFEENdEGAgID8AHEgDkENdHJBgICAwANqIApyDAILIAMgAiANQfCmwQAQ6gcACyAOIA5nQRBrIg5B//8DcUEIanRB////A3EgCkGAgIDYA3IgDkEXdGtyCyEZIAhBBGooAgAhDgJ/IAdB//8BcQRAIAdB/wdxIQMgB0GAgAJxIQogB0GA+AFxIhRBgPgBRwRAIApBEHQiByAUQQ10QYCAgPwAcSADQQ10ckGAgIDAA2pyIBQNAhogAyADZ0EQayIDQf//A3FBCGp0Qf///wNxIAdBgICA2ANyIANBF3RrcgwCCyAHQQ10IApBEHQiB3JBgICA/gdyIAMNARogB0GAgID8B3IMAQsgA0GAgHxxCyEKAn8gDkH//wFxBEAgDkH/B3EhAyAOQYCAAnEhByAOQYD4AXEiDkGA+AFHBEAgB0EQdCIHIA5BDXRBgICA/ABxIANBDXRyQYCAgMADanIgDg0CGiADIANnQRBrIgNB//8DcUEIanRB////A3EgB0GAgIDYA3IgA0EXdGtyDAILIAdBEHQiByADQQ10ckGAgID+B3IgAw0BGiAHQYCAgPwHcgwBCyAOQRB0CyEHIA8gEEYNASAQIChqIgMgGTYCACADQQhqIAc2AgAgA0EEaiAKNgIAIAtBA2ohCyAIQRBqIQggAiEDIA8gEEEMaiIQRw0ACyARIBJJDQEgBigC6AIhDiAGQQxqIBUgDBDpBEEAIQggBigCkAEhByAGKAKUASEQIA4hA0EAIQIDQCAIQQRqIgsgEEsNAyAGQbgDaiAHEJYDIAIgEkYNBCADIAYqArgDOAIAIANBBGogBikCvAM3AgAgA0EMaiEDIAdBEGohByALIQggEiACQQNqIgJHDQALIAkgE0sNBCAGKAL0AiEgIAZBDGogFSAMEOkEIAYoApABQQxqIQtBACECIAYoApQBIQhBACEDA0AgAkEEaiIHIAhLDQYgAyAiRg0HQwAAgD8gAyALaigCACICQQp2/REgAv0cAf0M/wMAAP8DAAD/AwAA/wMAAP1O/fsB/QwAwH9EAMB/RADAf0QAwH9E/ecBIjsgO/3kAf0MAACAvwAAgL8AAIC/AACAv/3kASI7/R8BIjaLkyA7/R8AIjiLkyI0jEMAAAAAEOAIITUgAyAgaiACQRR2s0MA8H9FlUMAAAA/lEPbD0lAlCI5EJkCIjcgNiA1IDWMIjogO/0MAAAAAAAAAAAAAAAAAAAAAP1G/U0iO/3HAf0bAkEBcRuSIjYgNCA0lCA2IDaUIDggNSA6IDv9GwBBAXEbkiI1IDWUkpKRIjaVlP0TIDcgNSA2lZT9IAEgNyA0IDaVlP0gAiA5EJsC/SAD/QsCACAHIQIgIiADQRBqIgNHDQALQQQhLkEAIQ9BACENQQQhFEEAIRlBBCEQQQAhJ0EEIS8gH0UNEiAMQQlsIicgBigChAMiA0sEQCAnIANrIgIgBigC/AIgA2tLBEAgBkH8AmogAyACQQRBBBCkBSAGKAKEAyEDCyAGKAKAAyIIIANBAnRqIQcgAkECTwR/IAJBAnRBBGsiCwRAIAdBACAL/AsACyACIANqIgJBAWshAyAIIAJBAnRqQQRrBSAHC0EANgIAIAYgA0EBaiIDNgKEAwsgAyAnSQ0HIAYoAoADIS8gBkEMahCjBSAhQQhqIh1BADoAACAhQgA3AgAgBigCDEUNESAGKAIQIBVBAnQgDCAVakECdBDhCCENAkAgBigCiAEiAyAJTwRAIAYgCTYCiAEgCSELDAELIAkgAyICayIIIAYoAoABIANrSwRAIC0gAyAIQQRBBBCkBSAGKAKIASECCyAGKAKEASILIAJBAnQiEGohByAIQQJPBEAgCSADQX9zakECdCIKBEAgB0EAIAr8CwALICIgA0ECdGsgC2ogEGpBBGshByACIAhqQQFrIQILIAdBADYCACAGIAJBAWoiCzYCiAEgCSALSw0JCyAGKAKEASEHIAYgDRC4CiICNgKIBCAGIAk2AowEIAIgCUcNCSAHIAkgDRDhCSAMQSRsIQpBACEUQQEhCEEAIRACQAJAAkACQANAIAhBAWsgC08NASAKIBBGDQQgECAvaiICQQhqQwAAgD8gBygCACIDQRt2QQ9rELAGQwAAf0OVIjQgA0EQdkH/AXGzlCI1jCA1IANBgICAIHEbOAIAIAJBBGogNCADQQh2Qf8BcbOUIjWMIDUgA0GAgIAQcRs4AgAgAiA0IANB/wFxs5QiNIwgNCADQYCAgAhxGzgCACAIIAtPDQMgAkEUakMAAIA/IAdBBGooAgAiA0EbdkEPaxCwBkMAAH9DlSI0IANBEHZB/wFxs5QiNYwgNSADQYCAgCBxGzgCACACQRBqIDQgA0EIdkH/AXGzlCI1jCA1IANBgICAEHEbOAIAIAJBDGogNCADQf8BcbOUIjSMIDQgA0GAgIAIcRs4AgAgCEEBaiALTw0CIAJBIGpDAACAPyAHQQhqKAIAIgNBG3ZBD2sQsAZDAAB/Q5UiNCADQRB2Qf8BcbOUIjWMIDUgA0GAgIAgcRs4AgAgAkEcaiA0IANBCHZB/wFxs5QiNYwgNSADQYCAgBBxGzgCACACQRhqIDQgA0H/AXGzlCI0jCA0IANBgICACHEbOAIAIAhBBGohCCAHQRBqIQcgFEEJaiEUIAogEEEkaiIQRw0ACyANQYQISQ0VIA0QmwcMFQsgCEEBayEIDAELIAhBAWohCAsgCCALQYCnwQAQjAcACyAUICdBkKfBABCMBwALIAsgEkHgpsEAEIwHAAtBACASIBFB7OHBABDqBwALIAggCyAQQeCpwQAQ6gcACyACIBJB0KnBABCMBwALQQAgCSATQdzhwQAQ6gcACyACIAcgCEHAqcEAEOoHAAsgAiAJQbCpwQAQjAcAC0EAICcgA0HM4cEAEOoHAAtBACAJIAtBoKfBABDqBwALDBQLQQAgEiAOQfzhwQAQ6gcACyAMIAxB4KXBABCMBwALQQAgDCAYQYziwQAQ6gcACyAIQQJqIBJBwKXBABCMBwALIAggEkGwpcEAEIwHAAsgByALIBBB0KXBABDqBwALQQAgEiAXQZziwQAQ6gcACyAfQQFGBEBBACENQQQhFEEEIRAMAQsgDEEPbCIZIAYoApADIgNLBEAgGSADayICIAYoAogDIANrSwRAIAZBiANqIAMgAkEEQQQQpAUgBigCkAMhAwsgBigCjAMiCCADQQJ0aiEHIAJBAk8EfyACQQJ0QQRrIgsEQCAHQQAgC/wLAAsgAiADaiICQQFrIQMgCCACQQJ0akEEawUgBwtBADYCACAGIANBAWoiAzYCkAMLAkACQAJAAkAgAyAZTwRAIAYoAowDIRAgBkEMahCjBSAdQQA6AAAgIUIANwIAIAYoAgxFDQQgBigCECAVQQJ0IgIgDCAVakECdCIDEOEIIREgBigCFEEBRwRAIBFBgwhNDQUMBAsgBigCGCACIAMQ4QghEyAGQQxqIAwQ0AQgCSAGKAKIASIaSw0BIAYoAoQBIQMgBiARELgKIgI2AogEIAYgCTYCjAQgAiAJRw0RIAMgCSAREOEJIAkgBigClAEiAksNAiAGKAKQASEjIAYgExC4CiIHNgKIBCAGIAk2AowEIAcgCUcNESAjIAkgExDhCSADQQxqISogGUEDayEHQQAhC0EBIQggECEDQQAhDUEAIRQCfwJAAkACQAJAAn8CQAJAAkACQAJ/AkACQAJAAkACQAJAAkACQAJAAkADQCAHQQFqIiRBA24gB0ECaiIeQQNuIAhBAmoiGyAaTw0BIAwgFE0NAiADQQhqQwAAgD8gCyAqaigCACIKQRt2QQ9rELAGQwAAf0OVIjQgCkEQdkH/AXGzlCI1jCA1IApBgICAIHEbOAIAIANBBGogNCAKQQh2Qf8BcbOUIjWMIDUgCkGAgIAQcRs4AgAgAyA0IApB/wFxs5QiNIwgNCAKQYCAgAhxGzgCACAIQQFrIAJPDQRDAACAPyALICNqIhwoAgAiCkEbdkEPaxCwBiE0IB5BA0kNByADQQxqIDRDAAB/Q5UiNCAKQf8BcbOUIjWMIDUgCkGAgIAIcRs4AgAgJEEDSQ0MIANBEGogNCAKQQh2Qf8BcbOUIjWMIDUgCkGAgIAQcRs4AgAgB0EDSQ0RIANBFGogNCAKQRB2Qf8BcbOUIjSMIDQgCkGAgIAgcRs4AgAgAiAITQ0GQwAAgD8gHEEEaigCACIKQRt2QQ9rELAGITRBAmoiJEEDRg0IIANBGGogNEMAAH9DlSI0IApB/wFxs5QiNYwgNSAKQYCAgAhxGzgCAEECaiIlQQNGDQ0gA0EcaiA0IApBCHZB/wFxs5QiNYwgNSAKQYCAgBBxGzgCACAHQQNuQQJqIh5BA0YNEiADQSBqIDQgCkEQdkH/AXGzlCI0jCA0IApBgICAIHEbOAIAIAhBAWogAk8NBUMAAIA/IBxBCGooAgAiCkEbdkEPaxCwBiE0ICRBBEYNCSADQSRqIDRDAAB/Q5UiNCAKQf8BcbOUIjWMIDUgCkGAgIAIcRs4AgAgJUEERg0OIANBKGogNCAKQQh2Qf8BcbOUIjWMIDUgCkGAgIAQcRs4AgAgHkEERg0TIANBLGogNCAKQRB2Qf8BcbOUIjSMIDQgCkGAgIAgcRs4AgAgAiAbTQ0DQwAAgD8gHEEMaigCACIKQRt2QQ9rELAGITQgJEEFRg0KIANBMGogNEMAAH9DlSI0IApB/wFxs5QiNYwgNSAKQYCAgAhxGzgCACAlQQVGDQ8gA0E0aiA0IApBCHZB/wFxs5QiNYwgNSAKQYCAgBBxGzgCACAeQQVGDRQgA0E4aiA0IApBEHZB/wFxs5QiNIwgNCAKQYCAgCBxGzgCACAIQQRqIQggC0EQaiELIANBPGohAyANQQ9qIQ0gB0EPayEHIBRBAWoiFCAMSQ0ACyATQYQITwRAIBMQmwcLIBFBgwhLDRgMGQsgGyAaQcCnwQAQjAcACyANIBlB0KfBABCMBwALIAhBAmohCAwCCyAIQQFrIQgMAQsgCEEBaiEICyAIIAJB4KfBABCMBwALIA1BA2oMAwsgDUEGagwCCyANQQlqDAELIA1BDGoLIBlB8KfBABCMBwALIA1BBGoMAwsgDUEHagwCCyANQQpqDAELIA1BDWoLIBlBgKjBABCMBwALIA1BBWoMAwsgDUEIagwCCyANQQtqDAELIA1BDmoLIBlBkKjBABCMBwALQQAgGSADQbzhwQAQ6gcAC0EAIAkgGkGgqMEAEOoHAAtBACAJIAJBsKfBABDqBwALIBEQmwcLIB9BAk0EQEEAIQ1BBCEUDAELIAxBFWwiDSAGKAKcAyIDSwRAIA0gA2siAiAGKAKUAyADa0sEQCAGQZQDaiADIAJBBEEEEKQFIAYoApwDIQMLIAYoApgDIgggA0ECdGohByACQQJPBH8gAkECdEEEayILBEAgB0EAIAv8CwALIAIgA2oiAkEBayEDIAggAkECdGpBBGsFIAcLQQA2AgAgBiADQQFqIgM2ApwDCwJAAkACQAJAAkACQAJ/AkACQAJ/AkACQCADIA1PBEAgBigCmAMhFCAGQQxqIgIQowUgHUEAOgAAICFCADcCACAGKAIcQQFHDQ0gBigCICAVQQJ0IgMgDCAVakECdCIHEOEIIRwgBigCJEEBRw0LIAYoAiggAyAHEOEIISMgAiAMENAEAkACQCAGKAKIASIaIAlPBEAgBigChAEhJCAGIBwQuAoiAjYCiAQgBiAJNgKMBCACIAlHDQIgJCAJIBwQ4QkgCSAGKAKUASIdSw0BIAYoApABISUgBiAjELgKIgI2AogEIAYgCTYCjAQgAiAJRw0cICUgCSAjEOEJIA1BDGshCEEAIQJBACELQQAhE0EAIQdBACERAn8CQANAIAhBA24gCEEBaiIqQQNuIAhBAmoiMEEDbgJAAkAgAiAaTw0AAkAgDCARSwRAIBMgFGoiCkEIakMAAIA/IAsgJGoiGygCACIDQRt2QQ9rELAGQwAAf0OVIjQgA0EQdkH/AXGzlCI1jCA1IANBgICAIHEbOAIAIApBBGogNCADQQh2Qf8BcbOUIjWMIDUgA0GAgIAQcRs4AgAgCiA0IANB/wFxs5QiNIwgNCADQYCAgAhxGzgCACACQQFqIgMiMiAaSQ0BIAMhAgwCCyAHIA1BkKnBABCMBwALIApBFGpDAACAPyAbQQRqKAIAIgNBG3ZBD2sQsAZDAAB/Q5UiNCADQRB2Qf8BcbOUIjWMIDUgA0GAgIAgcRs4AgAgCkEQaiA0IANBCHZB/wFxs5QiNYwgNSADQYCAgBBxGzgCACAKQQxqIDQgA0H/AXGzlCI0jCA0IANBgICACHEbOAIAAkAgGiACQQJqIjNLBEAgCkEgakMAAIA/IBtBCGooAgAiA0EbdkEPaxCwBkMAAH9DlSI0IANBEHZB/wFxs5QiNYwgNSADQYCAgCBxGzgCACAKQRxqIDQgA0EIdkH/AXGzlCI1jCA1IANBgICAEHEbOAIAIApBGGogNCADQf8BcbOUIjSMIDQgA0GAgIAIcRs4AgAgAkEDaiAaTw0BIApBLGpDAACAPyAbQQxqKAIAIgNBG3ZBD2sQsAZDAAB/Q5UiNCADQRB2Qf8BcbOUIjWMIDUgA0GAgIAgcRs4AgAgCkEoaiA0IANBCHZB/wFxs5QiNYwgNSADQYCAgBBxGzgCACAKQSRqIDQgA0H/AXGzlCI0jCA0IANBgICACHEbOAIAIAIgHUkNAwwTCyACQQJqIQIMAQsgAkEDaiECCyACIBpBgKnBABCMBwALQwAAgD8gCyAlaiIbKAIAIgNBG3ZBD2sQsAYhNAJAAkAgMEEDTwRAIApBMGogNEMAAH9DlSI0IANB/wFxs5QiNYwgNSADQYCAgAhxGzgCACAqQQNJDQEgCkE0aiA0IANBCHZB/wFxs5QiNYwgNSADQYCAgBBxGzgCACAIQQNPDQIgB0EOagwFCyAHQQxqDA4LIAdBDWoMCgsgCkE4aiA0IANBEHZB/wFxs5QiNIwgNCADQYCAgCBxGzgCACAdIDJNDQ1DAACAPyAbQQRqKAIAIgNBG3ZBD2sQsAYhNEEFaiIqQQZGDQsgCkE8aiA0QwAAf0OVIjQgA0H/AXGzlCI1jCA1IANBgICACHEbOAIAQQVqIitBBkYNCCAKQUBrIDQgA0EIdkH/AXGzlCI1jCA1IANBgICAEHEbOAIAQQVqIh5BBkcEQCAKQcQAaiA0IANBEHZB/wFxs5QiNIwgNCADQYCAgCBxGzgCACAdIDNNDQ9DAACAPyAbQQhqKAIAIgNBG3ZBD2sQsAYhNCAqQQdGDQsgCkHIAGogNEMAAH9DlSI0IANB/wFxs5QiNYwgNSADQYCAgAhxGzgCACArQQdGDQggCkHMAGogNCADQQh2Qf8BcbOUIjWMIDUgA0GAgIAQcRs4AgAgHkEHRg0CIApB0ABqIDQgA0EQdkH/AXGzlCI0jCA0IANBgICAIHEbOAIAIAJBBGohAiALQRBqIQsgE0HUAGohEyAHQRVqIQcgCEEVayEIIBFBAWoiESAMTw0RDAELCyAHQRFqDAELIAdBFGoLIA1B8KjBABCMBwALQQAgCSAaQaCpwQAQ6gcAC0EAIAkgHUGwqMEAEOoHAAsMGQtBACANIANBrOHBABDqBwALIAdBE2oMAQsgB0EQagsgDUHgqMEAEIwHAAsgB0ESagwBCyAHQQ9qCyANQdCowQAQjAcACyACQQFqIQIMAQsgAkECaiECCyACIB1BwKjBABCMBwALICNBhAhPBEAgIxCbBwsgHEGDCEsNAQwCCyAcQYMITQ0BCyAcEJsHCwJAICxFBEBBAiELDAELIAYoAqgDIgMgDEkEQCAMIANrIgIgBigCoAMgA2tLBEAgBkGgA2ogAyACQQJBAhCkBSAGKAKoAyEDCyAGKAKkAyIIIANBAXRqIQcgAkECTwR/IAJBAXRBAmsiCwRAIAdBACAL/AsACyACIANqIgJBAWshAyAIIAJBAXRqQQJrBSAHC0EAOwEAIAYgA0EBaiIDNgKoAwsCQAJAAkAgAyAMTwRAIAYoAqQDIQsgBkEMahCjBSAhQQhqIgpBADoAACAhQgA3AgAgBigCSEUNAyAGKAJMIBVBAnQgDCAVakECdBDhCCEPAkAgBigCiAEiAyAJTwRAIAYgCTYCiAEgCSEIDAELIAkgAyICayIIIAYoAoABIANrSwRAIC0gAyAIQQRBBBCkBSAGKAKIASECCyAGKAKEASIRIAJBAnQiE2ohByAIQQJPBEAgCSADQX9zakECdCIaBEAgB0EAIBr8CwALICIgA0ECdGsgEWogE2pBBGshByACIAhqQQFrIQILIAdBADYCACAGIAJBAWoiCDYCiAEgCCAJSQ0CCyAGKAKEASECIAYgDxC4CiIDNgKIBCAGIAk2AowEIAMgCUcNECACIAkgDxDhCSACQQhqIQJBACEDIAshBwJAA0AgA0ECaiIRIAhPDQQgAyAmRg0BIAcgAigCADsBACACQRBqIQIgB0ECaiEHICYgA0EEaiIDRw0ACyAPQYQISQ0EIA8QmwcMBAsgDCAMQZCmwQAQjAcAC0EAIAwgA0Gc4cEAEOoHAAtBACAJIAhBoKbBABDqBwALIBEgCEGApsEAEIwHAAsgBigCtAMiAyAMSQRAIAwgA2siAiAGKAKsAyADa0sEQCAGQawDaiADIAJBBEEEEKQFIAYoArQDIQMLIAYoArADIgggA0ECdGohByACQQJPBH8gAkECdEEEayIPBEAgB0EAIA/8CwALIAIgA2oiAkEBayEDIAggAkECdGpBBGsFIAcLQQA2AgAgBiADQQFqIgM2ArQDCyADIAxJDQggBigCsAMhLiAGQQxqEKMFIApBADoAACAhQgA3AgACQCAGKAJIQQFHDQAgBigCTCAVQQJ0IAwgFWpBAnQQ4QghCAJAIAYoAogBIgMgCU8EQCAGIAk2AogBIAkhBwwBCyAJIAMiAmsiDyAGKAKAASADa0sEQCAtIAMgD0EEQQQQpAUgBigCiAEhAgsgBigChAEiCiACQQJ0IhFqIQcgD0ECTwRAIAkgA0F/c2pBAnQiEwRAIAdBACAT/AsACyAiIANBAnRrIApqIBFqQQRrIQcgAiAPakEBayECCyAHQQA2AgAgBiACQQFqIgc2AogBIAcgCUkNCwsgBigChAEhAiAGIAgQuAoiAzYCiAQgBiAJNgKMBCADIAlHDQ0gAiAJIAgQ4QkgAkEMaiECQQAhAwNAIANBA2oiDyAHTw0MIAMgJkYNBiADIC5qIAIoAgA2AgAgAkEQaiECICYgA0EEaiIDRw0ACyAIQYQISQ0AIAgQmwcLIAwhDwsgEiAXSw0CIAYgDzYChAQgBiAuNgKABCAGIA82AvwDIAYgCzYC+AMgBiANNgL0AyAGIBQ2AvADIAYgGTYC7AMgBiAQNgLoAyAGICc2AuQDIAYgLzYC4AMgBiAJNgLcAyAGICA2AtgDIAYgEjYC1AMgBiAONgLQAyAGIBI2AswDIAYgKDYCyAMgBiAMNgLEAyAGICk2AsADIAYgEjYCvAMgBiAWNgK4AyAGQYACaiAVIAwgBkG4A2oQ4gEgDCAVaiIVIAFJDQALIAYoAqwDIgFFDQAgBigCsAMiAkEEaygCACIDQXhxIgcgAUECdCIBQQRBCCADQQNxIgMbakkNCyADQQAgByABQSdqSxsNDCACEKICCyAGKAKgAyIBBEAgBigCpAMiAkEEaygCACIDQXhxIgcgAUEBdCIBQQRBCCADQQNxIgMbakkNCyADQQAgByABQSdqSxsNDCACEKICCyAGKAKUAyIBBEAgBigCmAMiAkEEaygCACIDQXhxIgcgAUECdCIBQQRBCCADQQNxIgMbakkNCyADQQAgByABQSdqSxsNDCACEKICCyAGKAKIAyIBBEAgBigCjAMiAkEEaygCACIDQXhxIgcgAUECdCIBQQRBCCADQQNxIgMbakkNCyADQQAgByABQSdqSxsNDCACEKICCyAGKAL8AiIBBEAgBigCgAMiAkEEaygCACIDQXhxIgcgAUECdCIBQQRBCCADQQNxIgMbakkNCyADQQAgByABQSdqSxsNDCACEKICCyAGKALwAiIBBEAgIEEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNCyACQQAgAyABQSdqSxsNDCAgEKICCyAGKALkAiIBBEAgDkEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNCyACQQAgAyABQSdqSxsNDCAOEKICCyAGKALYAiIBBEAgKEEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNCyACQQAgAyABQSdqSxsNDCAoEKICCyAGKALMAiIBBEAgKUEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNCyACQQAgAyABQSdqSxsNDCApEKICCyAGKALAAiIBBEAgFkEEaygCACICQXhxIgMgAUECdCIBQQRBCCACQQNxIgIbakkNCyACQQAgAyABQSdqSxsNDCAWEKICCyAGQeABaiIHIAZBjAJqIgFBEGr9AAIA/QsDACAGQfABaiIJIAFBIGr9AAIA/QsDACAGIAH9AAIA/QsD0AEgBigChAIhASAGKAKAAiIIQYCAgIB4Rw0CIAZBADYCiAIgBkKAgICAEDcCgAIgBkGck8EANgK8AyAGQqCAgIAONwLAAyAGIAZBgAJqNgK4AyABIAZBuANqEK8EDQggBigCgAIhAiAGKAKEAiIDIAYoAogCEOwIIQcgAgRAIANBBGsoAgAiCUF4cSIIQQRBCCAJQQNxIgkbIAJqSQ0LIAlBACAIIAJBJ2pLGw0MIAMQogILIABBgICAgHg2AgAgACAHNgIEIAEgASgCACgCABEDACAGQQxqEIoCIARFDQQgBUGDCEsNAwwEC0EAIBIgF0H84MEAEOoHAAsgDCAMQcCmwQAQjAcACyAGKAKIAiECIAYoArwCIQMgACAG/QAD0AH9CwIMIABBLGogCf0AAwD9CwIAIABBHGogB/0AAwD9CwIAIAAgAzYCRCAAIAI2AkAgACADNgI8IAAgAjYCCCAAIAE2AgQgACAINgIAIAZBDGoQigIgBEUgBUGECElyDQELIAUQmwcLIAZBkARqJAAPC0EAIAwgA0GM4cEAEOoHAAtBACAJIAdB0KbBABDqBwALIA8gB0GwpsEAEIwHAAtBoJ7GAEE3IAZBrANqQbSTwQBB2J7GABDgBgALIAZBADYCuANBACAGQYgEaiAGQYwEaiAGQbgDakHg+cQAEPUHAAtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALt10DMH8EfgZ7IwBB0AJrIgckACABQUBrIRACQAJAAkACQAJAAkACQAJAIAEtAEwiCA0AIAdBtAJqIBAQjwIgBy0AtAIiCEEdRgRAIAEtAEwiCA0BDAMLDAELIAEgCEEBayIKOgBMIAEgASkDQCI3QgGIIjg3A0ACQAJAAkACQAJAAkACQAJAAkAgN0IBg1AEQEGAgICAeCEdDAELIAhBBE0EQCAHQbQCaiAQEI8CIActALQCIghBHUcNCiABLQBMIgpBBEkNCyAQKQMAITgLIAEgCkEEazoATCABIDhCBIg3A0AgOKdBD3EiHkEBa0ELTwRAQQ0hCAwMC0EEIB50IgsQcSIIRQ0DIAhBBGstAABBA3FFIAtFckUEQCAIQQAgC/wLAAsgCK1BASAedCIdrUIghoQhNwsgN6chJkEBIRtBAiEZQQEhMSAERQ0BAkACQAJAIAEtAEwiCEUEQCAHQbQCaiAQEI8CIActALQCIghBHUcNASABLQBMIghFDQQLIAEgCEEBayIEOgBMIAEgASkDQCI4QgGIIjk3A0AgOEIBg1ANBCAIQQNNBEAgB0G0AmogEBCPAiAHLQC0AiIIQR1HDQEgAS0ATCIEQQNJDQQgECkDACE5CyABIARBA2s6AEwgASA5QgOINwNAQX8gOadBB3FBAmoiHHRBf3MiBCACQf//A3FqIBx2IjEgBCADQf//A3FqIBx2IgRsIh9BAnQhEyAfBEAgExBxIgtFDQYgC0EEay0AAEEDcUUgE0VyRQRAIAtBACAT/AsACyAHQbQCaiABIDEgBEEAIAsgExA8IActALQCIghBHUYNAyAHKQK8AiE3IAcoArgCIQwgBy8BtgIhDiAHLQC1AiEJIAsgE0EBEKIHDAsLIAdBtAJqIAEgMSAEQQBBASATEDwgBy0AtAIiCEEdRg0BCyAHKQK8AiE3IAcoArgCIQwgBy8BtgIhDiAHLQC1AiEJDAkLQQAhHwwCCyAfQQF0EHEiGUUNAgJ/IBNBBGsiBEEgSQRAIBMhCiALIQhBAQwBCyALIBNqQQJrIBlLBEAgEyEKQQEgCyIIIBkgBEEBdmpBAmpJDQEaCyALIARBAnZBAWoiBCAEQQNxIgRBBCAEG2siGEECdGohCCAfIBhrQQJ0IQogGSEEIBghDCALIQn9DAEAAAABAAAAAQAAAAEAAAAiPiE7A0AgBCAJ/QAAACI9IDv9DQAABAAIAAwAAAAAAAAAAABBCP2LASA9IDv9DQEFCQ0AAAAAAAAAAAAAAAD9iQH9UCI9/VsBAAAgOyA9/akBID79rgH9uQEhOyAEQQhqIQQgCUEQaiEJIAxBBGsiDA0ACyA7IDsgO/0NCAkKCwwNDg8AAQIDAAECA/25ASI7IDsgO/0NBAUGBwABAgMAAQIDAAECA/25Af0bAAshGyAZIBhBAXRqIQQDQCAEIAgvAAAiDEEIdCAMQQh2ciIMOwEAIBsgDEH//wNxQQFqIgkgCSAbSRshGyAIQQRqIQggBEECaiEEIBhBAWohGCAKQQRrIgoNAAsgCyATQQEQogcMAQtBDyEIDAYLIDdCIIinISAgB0EANgIYIAdCgICAgMAANwMQQQEgHkEPcXQhMiAHQbgCaiEhIAdBtAJqIgRBAXIhLSAHQbIBaiEiIAdBsQFqIS4gB0G0AWohIyAEQQJyISRBASEIQQQhE0EAIQoDQCAIITRBACELIAdBADsBlAEgB0GAgICAeDYCkAEgB0EAOwF4IAdBgICAgHg2AnQgB0EAOwFcIAdBgICAgHg2AlggB0EAOwFAIAdBgICAgHg2AjwgB0EAOwEkIAdBgICAgHg2AiBBASEIAkACfwJAAkACQANAIAshKiAIIQsgKkEBdC8BgIBHAkAgAS0ATCIIDQAgB0G0AmogEBCPAgJAIActALQCIghBHUYEQCABLQBMIggNAkEPIQgMAQsgByAkKQEANwPIASAHICRBBmopAQA3Ac4BIActALUCIQELICIgBykDyAE3AQAgIkEGaiAHKQHOATcBACAHIAE6ALEBIAcgCDoAsAEMBAtBACAyQQAgHUGAgICAeEcbICobaiEVIAEgCEEBayIIOgBMIAEgASkDQCI4QgGIIjc3A0ACQAJAAn8CQAJAAkACQAJAAkACQAJAIDhCAYNQRQRAIAhB/wFxDQQgB0G0AmogEBCPAiAHLQC0AiIIQR1HDQEgAS0ATCIIDQNBDyEIDAILQSYQcSIMRQ0SIAxBBGsiDi0AAEEDcQRAIAz9DAAAAAAAAAAAAAAAAAAAAAAiO/0LAAAgDEEeakIANwAAIAxBEGogO/0LAAALIAEtAEwiCEEDSw0GIAdBtAJqIBAQjwIgBy0AtAIiCEEdRw0EIAEtAEwiCEEETw0GQQ8hCAwFCyAHICQpAQA3A9gBIAcgJEEGaikBADcB3gEgBy0AtQIhAQsgIiAHKQPYATcBACAiQQZqIAcpAd4BNwEAIAcgAToAsQEgByAIOgCwASAHQYGAgIB4NgKsAQwMCyAQKQMAITcLIAEgCEEBayIIOgBMIAEgN0IBiCI4NwNAIAhB/wFxRQRAIAdBtAJqIBAQjwICQAJAIActALQCIghBHUYEQCABLQBMIggNAkEPIQgMAQsgByAkKQEANwPoASAHICRBBmopAQA3Ae4BIActALUCIQELICIgBykD6AE3AQAgIkEGaiAHKQHuATcBACAHIAE6ALEBIAcgCDoAsAEgB0GBgICAeDYCrAEMDAsgECkDACE4CyABIAhBAWsiCDoATCABIDhCAYg3A0ACQAJAQQhBASA4p0EBcRsiBCAIQf8BcUsEQCAHQbQCaiAQEI8CIActALQCIghBHUcEQCAHQYACaiAhQQhqKAIANgIAIAcgISkCADcD+AEgBy8BtgIhASAHLQC1AiEEDAILIAEtAEwhCAsgCEH/AXEgBE8NAUEPIQgLICMgBykD+AE3AgAgI0EIaiAHQYACaigCADYCACAHIAE7AbIBIAcgBDoAsQEgByAIOgCwASAHQYGAgIB4NgKsAQwLCyABIAggBGsiCToATCABIAEpA0AiOSAErSI6iCI4NwNAIBVB//8DcSIMIDlCfyA6hkJ/hYOnIghNBEAMCgsgN0IBg1ANAyAJQf8BcUEHTQRAIAdBtAJqIBAQjwICQAJ/IActALQCIgRBHUYEQCABLQBMIglBCE8NAkEPDAELIAdBoAJqICFBCGooAgA2AgAgByAhKQIANwOYAiAHLwG2AiEnIActALUCIQEgBAshCCAjIAcpA5gCNwIAICNBCGogB0GgAmooAgA2AgAgByAnOwGyASAHIAE6ALEBIAcgCDoAsAEgB0GBgICAeDYCrAEMDAsgECkDACE4CyABIAlBCGs6AEwgASA4QgiINwNAIAwgOKdB/wFxIidLBEBBGBBxIgRFDQ8gBEECOwEQIAQgJzsBCiAEQQE7AQggBCAIOwECIARBATsBAEEIEHEiDEUNDyAMICdBgIAEcjYCBCAMIAhBgIAEcjYCACAHQQE7AcQBIAdBAjYCwAEgByAMNgK8ASAHQoOAgIAgNwK0ASAHIAQ2ArABIAdBAzYCrAEgBCEIQQMMBQsMCQsgB0GGAmogLUECai0AADoAACAHIC0vAAA7AYQCIAcoArgCIQEgBykCvAIhNwsgLiAHLwGEAjsAACAuQQJqIAdBhgJqLQAAOgAAIAcgCDoAsAEgByA3NwK4ASAHIAE2ArQBDAYLIAEgCEEEayIIOgBMIAEgASkDQCI4QgSIIjc3A0AgOKdBD3FBAnQhD0FwIQQDQCAIQf8BcUECTQRAIAdBtAJqIBAQjwICQAJAIActALQCIghBHUYEQCABLQBMIghBA08NAkEPIQgMAQsgB0GQAmogIUEIaigCADYCACAHICEpAgA3A4gCIAcvAbYCIQkgBy0AtQIhAQsgIyAHKQOIAjcCACAjQQhqIAdBkAJqKAIANgIAIAcgCTsBsgEgByABOgCxASAHIAg6ALABDAgLIBApAwAhNwsgASAIQQNrIgg6AEwgASA3QgOIIjg3A0AgBEGU/8YAaigCACIJQRJNBEAgDCAJQQF0aiA3p0EHcSIJOwEAIDghNyAPIARBBGoiBEYNBAwBCwsgCUETQdD/xgAQjAcACyAHIAg7AbABIAdBgICAgHg2AqwBQYCAgIB4CyEPIAcpArgBITcgBygCtAEhDCAHLwGyASEOIActALEBIQkMAQsgB0ETNgKgAiAHIAw2ApwCIAdBEzYCmAIgB0G0AmogB0GYAmoQmAEgBygCxAIhFCAHKALAAiEXIAcoArwCIQ4gBygCuAIhDAJAIAcoArQCIhJBgYCAgHhGBEAgDCEIIBQhDSAXIQQMAQsgBykCyAIhNwJAAkAgCEH/AXFFBEAgB0G0AmogEBCPAgJAIActALQCIghBHUYEQCABLQBMIggNAUEPIQgMBAsMAgsgECkDACE4CyABIAhBAWsiCToATCABIDhCAYgiOTcDQCAVIQ8gOEIBg1BFBEACQAJAIAhB/wFxQQNNBEAgB0G0AmogEBCPAiAHLQC0AiIIQR1HDQRBDyEIIAEtAEwiCUEDSQ0FIBApAwAhOQsgASAJQQNrIgk6AEwgASA5QgOINwNAIDmnQQF0QQ5xQQJqIg8gCUH/AXFNDQEgB0G0AmogEBCPAiAHLQC0AiIIQR1GDQAMAwsgAS0ATCEJC0EPIQggCUH/AXEgD0kNAiABIAkgD2s6AEwgASABKQNAIjggD60iOYg3A0AgFUECa0H//wNxIDhCfyA5hkJ/hYOnIglB//8DcUkNAiAJQQJqIQ8LIBVB//8DcSINBH8gDUEBdCIoEHEiEUUNDCARQQRrIhotAABBA3FFIChFckUEQCARQQAgKPwLAAsCQCAPQf//A3FFDQAgN0IgiCE4IDenIS9BACEIQQghKwJAA0ACQCAHQbQCaiAQEI8CAkACQAJAAkACQAJ/IActALQCIgRBHUcEQCAHLQC3AkEYdCAHLwC1AkEIdHIgBHIMAQsgDCEEIBJBgICAgHhGDQIgECkDACI3IDiDp0H//wNxIgQgL08NAwJAIBQgBEECdGooAgAiBEGAgARPBEAgAS0ATCIWIARBEHYiCUH/AXFPDQNBDyEJIAcvAbYCIQQMAQsgB0G0AmogDCAOIDenQQp2QT9xIARBAWsgEBCdBiAHLwG2AiEEIActALQCIglBHUYNAwsgBy0AtQJBCHQgCXIgBEEQdHILIQggBygCwAIhDSAHKAK8AiEEIAcoArgCIQ4MBwsgASAWIAlrOgBMIAEgNyAJrYg3A0ALAkAgBEH//wNxIhZBEE8EQCAEQRBrIiVB//8DcUEDSQ0BDAULIBEgCEH//wNxQQF0aiAEOwEAIAQgKyAWGyErIAhBAWohCAwDCyABLQBMIglBgoYcICVBA3RB+P8DcXYiBEEHcUkEQCAHQbQCaiAQEI8CIActALQCIglBHUcEQCAHLQC1AkEIdCAJciEIIAcoAsACIQ0gBygCvAIhBCAHKAK4AiEOIAcvAbYCISwMAwsgAS0ATCEJCyAJQf8BcSAEQf8BcUkEQEEPIQgMAgsgASAJIARrOgBMIAEgASkDQCI3IAStQgeDIjmINwNAIBVB//8DcSIEQoOAjICwASAlQQR0rULw/wODiKciKSA3Qn8gOYZCf4WDpyIsaiIJIAhqQf//A3FJDQMgK0EAIBZBEEYbISUgCEH//wNxIgggBCAEIAhJGyIwIAhrIgQgKSAsakEBa0H//wNxIhYgBCAWSRsiBEEITwRAIARBAWoiFkEHcSIpQQggKRsiKSAEQX9zaiEEIAkgFiApayIWayEJIAggFmogESAIQQF0aiEIICX9ECE7A0AgCCA7/QsBACAIQRBqIQggBEEIaiIEDQALIQgLIBEgCEEBdGohBANAIAggMEcEQCAEICU7AQAgBEECaiEEIAhBAWohCCAJQQFrIglB//8DcQ0BDAQLCyAwIA1BjILHABCMBwALIAQgL0HY+cYAEIwHAAsgLEEQdCAIciEIDAMLIAhB//8DcSAVQf//A3FPDQMgD0EBayIPQf//A3ENAQwDCwtBDyEICwJAIBooAgAiCUF4cSIPQQRBCCAJQQNxIgkbIChqTwRAIAlBACAPIChBJ2pLGw0BIBEQogIMBQsMGAsMGAsgEQVBAgshBEEdIQgCQAJAIBJBgICAgHhGDQAgEgRAIAxBBGsoAgAiCUF4cSIOIBJBA3QiD0EEQQggCUEDcSIJG2pJDRggCUEAIA4gD0EnaksbDRkgDBCiAgsgF0UNACAUQQRrKAIAIgxBeHEiCSAXQQJ0Ig5BBEEIIAxBA3EiDBtqSQ0XIAxBACAJIA5BJ2pLGw0BIBQQogILIA0hDgwDCwwWCyAHLQC1AkEIdCAIciAHLwG2AkEQdHIhCCAHKALAAiENIAcoArwCIQQgBygCuAIhDgsgEkGAgICAeEYNAAJAIBIEQCAMQQRrKAIAIglBeHEiDyASQQN0IhFBBEEIIAlBA3EiCRtqSQ0VIAlBACAPIBFBJ2pLGw0WIAwQogILIBdFDQEgFEEEaygCACIMQXhxIgkgF0ECdCIPQQRBCCAMQQNxIgwbakkNFCAMQQAgCSAPQSdqSxsNACAUEKICDAELDBQLIAhB/wFxQR1HBEAgB0GzAWogCEEYdjoAACAHIA02ArwBIAcgBDYCuAEgByAONgK0ASAHIAg6ALABIAdBgYCAgHg2AqwBIAcgCEEIdjsAsQEMBQsgByANNgKwAiAHIAQ2AqwCIAcgDjYCqAIgB0GsAWogB0GoAmoQmAEgBy0AsAEhCCAHKQK4ASE3IAcvAbIBIQ4gBy0AsQEhCSAHKAK0ASIMIAcoAqwBIg9BgYCAgHhGDQUaCyAHKQLAASE4AkACQCAHQSBqICpBHGxqIgQoAgAiEUGAgICAeEYNACARBEAgBCgCBCIVQQRrKAIAIhRBeHEiFyARQQN0IhFBBEEIIBRBA3EiFBtqSQ0CIBRBACAXIBFBJ2pLGw0VIBUQogILIAQoAgwiEUUNACAEKAIQIhVBBGsoAgAiFEF4cSIXIBFBAnQiEUEEQQggFEEDcSIUG2pJDRMgFEEAIBcgEUEnaksbDRQgFRCiAgsgBCA4NwIUIAQgNzcCDCAEIAw2AgggBCAOOwEGIAQgCToABSAEIAg6AAQgBCAPNgIAIAsgC0EFSSIEaiEIIARFDQYMAQsLDBALAkAgDigCACIBQXhxIgJBKkEuIAFBA3EiARtPBEAgAUEAIAJBzgBPGw0BIAwQogIMAwsMEAtBjI3IAEEuQbyNyAAQ6wcMBQsgB0GBgICAeDYCrAFBDyEIIAdBDzoAsAELIAcpArgBITcgBy8BsgEhDiAHLQCxASEJIAcoArQBCyEMIAdBIGoQjQIgCgRAIBMhAQNAIAEQjQIgAUGMAWohASAKQQFrIgoNAAsLAkAgBygCECIBBEAgE0EEaygCACICQXhxIgMgAUGMAWwiAUEEQQggAkEDcSICG2pJDQ4gAkEAIAMgAUEnaksbDQ8gExCiAgsgH0UNCCAZQQRrKAIAIgFBeHEiAiAfQQF0IgNBBEEIIAFBA3EiARtqSQ0NIAFBACACIANBJ2pLGw0AIBkQogIMCAsMDQsgBygCECAKRgRAIAdBEGoQnwYgBygCFCETCyATIApBjAFsaiAHQSBqQYwB/AoAACAHIApBAWoiCjYCGCA0QQFqIQggCiAbRw0ACyAHKQMQITcgBygCECEpAkACfyAcRQRAQQAhCCA3QiCIpwwBCyAYRQ0BIBkvAQAiCCAbTw0GIDdCIIinCyEEAkACQAJAAkAgAkH//wNxIhcgA0H//wNxbCIRRQ0AQX8gHHRBf3NB//8DIBwbITYgBkEBaiEUIAZBEGshKkEAIB5rQR9xIRYgAkEBa0H//wNxITUgBCAIQYwBbGohDUEAIQNBACEVA0ACQCACQf//A3FFBEAgB0G0AmogEBCPAiAHLQC0AiIIQR1HDQkgAyAVSQ0BQdj7xgAQgggACwJAA0AgB0G0AmogEBCPAiAHLQC0AiIIQR1HDQogAyAVSQ0CIAMgAyAXbiIIIBdsIgtrIQQCQCAcRQRAQQAhCgwBCyAYIDEgCEH//wNxIBx2bCAEQf//A3EgHHZqIghLBEAgGSAIQQF0ai8BACIKIBtJDQEgCiAbQej7xgAQjAcACyAIIBhByPLEABCMBwALIAsgBCA2ciIEIDUgBCA1SRtqQQFqIRUgEyAKQYwBbGoiDSgCAEGAgICAeEcNAiANKAIcQYCAgIB4Rw0CIA0oAjhBgICAgHhHDQIgDSgCVEGAgICAeEcNAiANLwEEIgtBgAJPDQIgDS0AWCEKIA0tADwhDCANLQAgIQkCQCAVIANrIBEgHBsiDgRAQQAhCEEBIQQgBiADQQJ0Ig8gBmtBA2oiEkEAIBJBA00baiAPa0ECdiISIBQgD2siD0EAIA8gFE0bQQNqQQJ2Ig8gDyASSxsiDyAOQQFrIhIgDyASSRsiD0EQTwRAIA9BAWoiBEEPcSIIQRAgCBsiCCAPQX9zaiEPIAQgCGsiCEEBaiEEIAP9ESE7/QwMAAAADQAAAA4AAAAPAAAAIT79DAgAAAAJAAAACgAAAAsAAAAhPf0MBAAAAAUAAAAGAAAABwAAACE//QwAAAAAAQAAAAIAAAADAAAAIUADQCAFIEAgO/2uAUEC/asBIjz9GwBqIhIgCToAACAFIDz9GwFqIh4gCToAACAFIDz9GwJqIiEgCToAACAFIDz9GwNqIiIgCToAACAFID8gO/2uAUEC/asBIjz9GwBqIiMgCToAACAFIDz9GwFqIiQgCToAACAFIDz9GwJqIicgCToAACAFIDz9GwNqIiggCToAACAFID0gO/2uAUEC/asBIjz9GwBqIisgCToAACAFIDz9GwFqIiwgCToAACAFIDz9GwJqIi0gCToAACAFIDz9GwNqIi4gCToAACAFID4gO/2uAUEC/asBIjz9GwBqIi8gCToAACAFIDz9GwFqIiUgCToAACAFIDz9GwJqIjAgCToAACAFIDz9GwNqIjIgCToAACASIAs6AAEgHiALOgABICEgCzoAASAiIAs6AAEgIyALOgABICQgCzoAASAnIAs6AAEgKCALOgABICsgCzoAASAsIAs6AAEgLSALOgABIC4gCzoAASAvIAs6AAEgJSALOgABIDAgCzoAASAyIAs6AAEgEiAMOgACIB4gDDoAAiAhIAw6AAIgIiAMOgACICMgDDoAAiAkIAw6AAIgJyAMOgACICggDDoAAiArIAw6AAIgLCAMOgACIC0gDDoAAiAuIAw6AAIgLyAMOgACICUgDDoAAiAwIAw6AAIgMiAMOgACIBIgCjoAAyAeIAo6AAMgISAKOgADICIgCjoAAyAjIAo6AAMgJCAKOgADICcgCjoAAyAoIAo6AAMgKyAKOgADICwgCjoAAyAtIAo6AAMgLiAKOgADIC8gCjoAAyAlIAo6AAMgMCAKOgADIDIgCjoAAyBA/QwQAAAAEAAAABAAAAAQAAAAIjz9rgEhQCA/IDz9rgEhPyA9IDz9rgEhPSA+IDz9rgEhPiAPQRBqIg8NAAsLIA5BAWohDwNAIAYgAyAIakECdCIISQ0CIAYgCGsiEkEDTQRAQQBBBCASQdT+xgAQ6gcACyAFIAhqIgggCjoAAyAIIAw6AAIgCCALOgABIAggCToAACAEIQggDyAEQQFqIgRHDQALCyAdQYCAgIB4RwRAIAtBCHRBgP4DcSAJQRB0ciAKQRh0ciAMckG9z9bxAWwgFnYiBCAgTw0DICYgBEECdGoiBCAKOgADIAQgDDoAAiAEIAs6AAEgBCAJOgAACyADIA5qIgMgEUkNAQwFCwsgCCAGIAZB5P7GABDqBwALIAQgIEGY+sYAEIwHAAsCQCARAn8CQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIA0oAgBBgICAgHhHBEAgDSgCFCIIIBApAwAiN6ciCyANLwEYcSIETQ0CAkAgDSgCECAEQQJ0aigCACIIQYCABE8EQCABLQBMIgsgCEEQdiIEQf8BcUkEQEEPIQQgBy8BtgIhCAwCCyABIAsgBGs6AEwgASA3IAStiDcDQAwDCyAHQbQCaiANKAIEIA0oAgggC0GA+ANxQQp2IAhBAWsgEBCdBiAHLwG2AiEIIActALQCIgRBHUYNAgsgACAHKQK4AjcCBCAAQQxqIAdBwAJqKAIANgIAIActALUCIQEgACAIOwECIAAgAToAASAAIAQ6AAAMHAsgDS8BBCEICwJAAkACQAJAAkACQAJAAkACQAJAAkACQCAIQf//A3EiBEGAAk8EQCAEQZgCSQ0BIAdBDzoAtAIgHUGAgICAeEcNAiAAQQA2AgQgAEEPOgAADCgLIA0oAhxBgICAgHhGDQogDSgCMCILIBApAwAiN6ciDCANLwE0cSIETQ0wIA0oAiwgBEECdGooAgAiCkGAgARJDQggAS0ATCILIApBEHYiBEH/AXFJBEBBDyEEIAcvAbYCIQoMCgsgASALIARrOgBMIAEgNyAErYg3A0AMCwsgCEH8A3FBgAJGBH8gCEH/AWtB//8DcQUgAS0ATCILIAhB/gFqQf7/A3FBAXYiBEH/AXEiCkkNAiABIAsgBGs6AEwgASABKQNAIjcgBK1C/wGDIjiINwNAIDdCfyA4hkJ/hYOnIAhBAXFBAnIgCnRqQQFqCyEaIA0oAnBBgICAgHhGDQUgDSgChAEiCCAQKQMAIjenIgsgDS8BiAFxIgRNDRAgDSgCgAEgBEECdGooAgAiCEGAgARJDQMgAS0ATCILIAhBEHYiBEH/AXFPDQJBDyEEIAcvAbYCIQgMBAsgB0G0AmoQqwQgICAIQZgCa0H//wNxIghNDQsgBiADQQJ0IgRJDQwgBiAEayILQQNNDQ0gBCAFaiAmIAhBAnRqKAAANgAAIBUgA0EBaiIITQRAIAgMGwsgECkDACE3IA0oAgBBgICAgHhGDQ4CQCANKAIUIgsgDS8BGCA3p3EiBEsEQCANKAIQIARBAnRqKAIAIgRBgIAETw0BIAgMHAsgBCALQcj5xgAQjAcACyAEQRB2IQoMGQsgACAaNgIEIABBDzoAAAwjCyABIAsgBGs6AEwgASA3IAStiDcDQAwDCyAHQbQCaiANKAJ0IA0oAnggC0GA+ANxQQp2IAhBAWsgEBCdBiAHLwG2AiEIIActALQCIgRBHUYNAgsgACAHKQK4AjcCBCAAQQxqIAdBwAJqKAIANgIAIActALUCIQEgACAIOwECIAAgAToAASAAIAQ6AAAMIAsgDS8BdCEICyAIQf//A3FBBEkNCiAIQQJrIgRB//8DcUH/A0sNCyABLQBMIgsgBEEBdiIEQf8BcUkEQCAAIDM2AgQgAEEPOgAADB8LIAEgCyAEQf//AXEiBGs6AEwgASABKQNAIjcgBK0iOIg3A0AgN0J/IDiGQn+Fg6cgCEEBcUECciAEdGpBAWoiM0H4AE0NESAzQfgAayEKDBILIAdBtAJqIA0oAiAgDSgCJCAMQYD4A3FBCnYgCkEBayAQEJ0GIAcvAbYCIQogBy0AtAIiBEEdRg0CCyAAIAcpArgCNwIEIABBDGogB0HAAmooAgA2AgAgBy0AtQIhASAAIAo7AQIgACABOgABIAAgBDoAAAwcCyANLQAgIQoLAkACfyANKAI4QYCAgIB4RwRAIA0oAkwiCyAQKQMAIjenIgwgDS8BUHEiBE0NJwJAIA0oAkggBEECdGooAgAiCUGAgARPBEAgAS0ATCIEIAlBEHYiC0H/AXFJBEBBDyEEIAcvAbYCIQkMAgsgASAEIAtrIgQ6AEwgASA3IAutiDcDQAwECyAHQbQCaiANKAI8IA0oAkAgDEGA+ANxQQp2IAlBAWsgEBCdBiAHLwG2AiIJIActALQCIgRBHUYNAhoLIAAgBykCuAI3AgQgAEEMaiAHQcACaigCADYCACAHLQC1AiEBIAAgCTsBAiAAIAE6AAEgACAEOgAADB0LIA0tADwLIQkgAS0ATCEECwJAIARB/wFxQQ5LDQAgB0G0AmogEBCPAiAHLQC0AiIEQR1GDQAgACAHKQC1AjcAASAAQQhqIAdBvAJqKQAANwAAIAAgBDoAAAwbCwJAIA0oAlRBgICAgHhHBEAgDSgCaCILIBApAwAiN6ciDiANLwFscSIETQ0mAkAgDSgCZCAEQQJ0aigCACIMQYCABE8EQCABLQBMIgsgDEEQdiIEQf8BcUkEQEEPIQQgBy8BtgIhDAwCCyABIAsgBGs6AEwgASA3IAStiDcDQAwDCyAHQbQCaiANKAJYIA0oAlwgDkGA+ANxQQp2IAxBAWsgEBCdBiAHLwG2AiEMIActALQCIgRBHUYNAgsgACAHKQK4AjcCBCAAQQxqIAdBwAJqKAIANgIAIActALUCIQEgACAMOwECIAAgAToAASAAIAQ6AAAMHAsgDS0AWCEMCyADQQJ0IgQgBk8NCCAEIAVqIAo6AAAgBEEBciILIAZPDQkgBSALaiAIOgAAIARBAnIiCyAGTw0KIAUgC2ogCToAACAEQQNyIgQgBk8NCyAEIAVqIAw6AAAgHUGAgICAeEcEQCAJQf8BcSAIQQh0QYD+A3EgCkEQdHJBgP7/B3EgDEEYdHJyQb3P1vEBbCAWdiIEICBPDQ0gJiAEQQJ0aiIEIAw6AAMgBCAJOgACIAQgCDoAASAEIAo6AAALIANBAWoMEAsgBCAIQdj5xgAQjAcACyAIICBB+PvGABCMBwALIAQgBiAGQbj8xgAQ6gcAC0EAQQQgC0GI/MYAEOoHAAsgDS8BBCEEQQAhCgwKCyAEIAhB2PnGABCMBwALIAhBAWpB//8DcSEzDAYLQdjmyABBKyAHQbQCakGY+8YAQfT+xgAQ4AYACyAEIAZBlP7GABCMBwALIAsgBkGk/sYAEIwHAAsgCyAGQbT+xgAQjAcACyAEIAZBxP7GABCMBwALIAQgIEGY+sYAEIwHAAsgM0EBayIEQfgASQRAQQEgBEEBdCIELACLgEcgF2wgBCwAioBHaiIEIARBAUwbIQoMAQtBf0H4AEH8gccAEIwHAAsCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCADIApJIBEgA2sgGklyRQRAIApBAUYEQCAGIANBAnQiC0EEayIISQ0CIAYgCGsiBEEDTQ0DQQAhBCAFIAhqKAAAIQlBASEIIBpBAWsiCiAUIAtrIgxBACAMIBRNG0EDakECdiIMIAYgC2tBAnYiDiAMIA5JGyIMIAogDEkbIgpBBE8EQCAKQQFqIgRBA3EiCEEEIAgbIgggCkF/c2ohDCAEIAhrIgRBAWohCCAFIAtqIQogCf0RITsDQCAKIDv9CwAAIApBEGohCiAMQQRqIgwNAAsLIA5BAWohCyAaQQFqIQoDQCAGIAMgBGpBAnQiBEkNBSAIIAtGDQYgBCAFaiAJNgAAIAogCCIEQQFqIghHDQALDBELIAMgGmpBA2ogEUsNCyADIAprQQJ0IgtBEGoiBCAGSw0FIAtBb0sNBiADQQJ0IgggKksNByAFIAhqIAUgC2r9AAAA/QsAACAaQQRNIApBBE9xDQwgCkECdCIMRQ0IIBpBAnQiBCAEQfz/A3FBECAMIAxBEE8bIgRB//8DcW4iCiAEbGtB//8DcUEARyAKaiIKQQJJDQwgBCALaiIJQRBqIg4gBksNCSAJQW9LDQogKiAEIAhqTwRAIApBAmshCiAEQQF0IAxrIQ4gBCAFaiEJIAUgBCAMa2ohDCAEIQsDQCAIIAlqIAggDGr9AAAA/QsAACAKRQ0OAkAgBiAIIA5qIg9BEGpPBEAgD0FvTQ0BIANBAnQgDmoiCUEQaiEODA4LIANBAnQgDmpBEGohDgwMCyAKQQFrIQogBCAOaiEOIAQgCWohCSAEIAxqIQwgCCAEIAtqIgtqICpNDQALCyAHQQA2AsQCIAdBATYCuAIgB0HUnMgANgK0AiAHQgQ3ArwCIAdBtAJqQYT+xgAQjQgACyAAQQ86AAAMGwsgCCAGIAZB+PzGABDqBwALQQBBBCAEQcj8xgAQ6gcACyAEIAYgBkHo/MYAEOoHAAtBAEEEIAYgBGtB2PzGABDqBwALQQAgBCAGQaj9xgAQ6gcACyALIAQgBkGo/cYAEOoHAAsgB0EANgLEAiAHQQE2ArgCIAdB1JzIADYCtAIgB0IENwK8AiAHQbQCakGo/cYAEI0IAAtBuP3GAEEbQdT9xgAQ6wcAC0EAIA4gBkGE/sYAEOoHAAsgCSAOIAZBhP7GABDqBwALQQAhBAJAIBpBAnQiD0EBayIIIAYgA0ECdCILIApBAnQiDGsiCiAGIApLGyAMaiALayIKIAYgC2siCUEAIAYgCU8bIgkgCSAKSxsiCiAIIApJGyIKQRBJBEBBASEIDAELQQEhCCAMQQ9NDQAgCkEBaiIEQQ9xIghBECAIGyIIIApBf3NqIQ4gBCAIayIEQQFqIQggBSALaiEKQQAgDGshEgNAIAogCiASav0AAAD9CwAAIApBEGohCiAOQRBqIg4NAAsLIAlBAWohCSAPQQFqIQ4DQCAEIAtqIgQgDGsiCiAGTw0CIAggCUYNAyAEIAVqIAUgCmotAAA6AAAgDiAIIgRBAWoiCEcNAAsLIB1BgICAgHhHDQIMAwsgCiAGQYj9xgAQjAcACyAEIAZBmP3GABCMBwALAkACQCADQQJ0IgQgBk0EQCAaQQJ0IgggBiAEayILSw0BIAhFDQMgBCAFaiEKQQAgCGshCQNAIAooAAAiBEGA/oN4cSAEQRB0QYCA/AdxciAEQRB2IgtB/wFxckG9z9bxAWwgFnYiCCAgTw0DICYgCEECdGoiCCAEQRh2OgADIAggCzoAAiAIIARBCHY6AAEgCCAEOgAAIApBBGohCiAJQQRqIgkNAAsMAwsgBCAGIAZB9P3GABDqBwALQQAgCCALQeT9xgAQ6gcACyAIICBBmPrGABCMBwALIAMgGmoMAQsgCCAEQf//A3FBmAJJDQAaIAEtAEwiCyAKQf8BcUkNBCABIAsgCms6AEwgASA3IAqtiDcDQCAGIAhBAnQiCEkNBSAGIAhrIgtBA00NBiAgIARBmAJrQf//A3EiBE0NASAFIAhqICYgBEECdGooAAA2AAAgA0ECagsiA0sNAQwCCwsgBCAgQfj7xgAQjAcACyAAQR06AAAMBgsgAEEPOgAADAULIAggBiAGQaj8xgAQ6gcAC0EAQQQgC0GY/MYAEOoHAAtBAEEAQcjyxAAQjAcACwALIAAgBykAtQI3AAEgAEEIaiAHQbwCaikAADcAACAAIAg6AAALIB1BgICAgHhyQYCAgIB4Rg0AICYgHUECdEEBEKIHCyAfBEAgGSAfQQF0QQIQogcLIBMhAQNAIAEQjQIgAUGMAWohASA0QQFrIjQNAAsgKUUNBSATIClBjAFsQQQQogcMBQsgCCAbQcj7xgAQjAcACwJAIB1BgICAgHhyQYCAgIB4RwRAICZBBGsoAgAiAUF4cSICIB1BAnQiA0EEQQggAUEDcSIBG2pJDQYgAUEAIAIgA0EnaksbDQEgJhCiAgsgACA3NwIIIAAgDDYCBCAAIA47AQIgACAJOgABIAAgCDoAAAwECwwFCyAHIAcpALcCNwMAIAcgB0G8AmopAAA3AAUgBy0AtgIhASAHLQC1AiEeDAELQQ8hCAsgACABOgACIAAgHjoAASAAIAg6AAAgACAHKQMANwADIABBCGogBykABTcAAAsgB0HQAmokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyAEIAtB2PnGABCMBwALi10EGX8EfQF+AXsjAEHwAGsiCCQAAkACQAJAAkACQAJAIAAtAKRTRQRAIAhB0ABqIABBQGsQuAQgCC0AUARAIAgoAlQhAQwDCyAILQBRQQFHDQEgAEEBOgCkUwsgACgCSCIDRQ0AIABBnAFqIRYgCEE8aq1CgICAgBCEIR4gAEHYAGohFyAAQeQAaiEUIABB8ABqIRggAEH8AGohGQNAAkAgACgCVCIFIAAoAqBTIgFrIgJBACACIAVNG0GAgARPBEAgASECDAELIAEgAUGAgAJrIgJBACABIAJPGyIEayECIAEgBEYEQCAAIAI2AqBTDAELIAEgBU0EQCACBEAgACgCUCIBIAEgBGogAvwKAAALIAAoAkghAyAAIAI2AqBTDAELQQAgASAFQczVwQAQ6gcACwJAAkAgAyAOTwRAIAhB0ABqIBYgACgCRCAOaiADIA5rIAAoAlAgACgCVCACQQYQRCAIIAgtAFQiAToADyAIKAJQIRUgCCgCWCITRQ0CIAAoAqBTIgQgE2oiAyAETyADIAAoAlQiAk1xDQEgBCADIAJB3NXBABDqBwALIA4gAyADQezVwQAQ6gcACyAAKAJQIQMgACgCWCAAKAJgIgJrIBNJBEAgFyACIBNBAUEBEKQFIAAoAmAhAgsgEwRAIAAoAlwgAmogAyAEaiAT/AoAAAsgACACIBNqIgc2AmAgACAAKAKgUyATajYCoFMCQAJAIAAoAmRBgICAgHhGBEAgB0EQTwRAIAggACgCXCINKAAAIgI2AhwgAkHOjs2CBUcEQCAIQQE2AmQgCEHMyMEANgJgIAhBATYCVCAIQdTOwQA2AlAgCEEBNgJcIAggCEEcaq1CgICAgJAEhDcDQCAIIAhBQGs2AlggCEEgaiIAIAhB0ABqELEGIAAQjgchAQwICyAIIA0oAAQiBjYCLCAGQQRrQX1JDQIgAEEANgJgIA0tAA4hBSANLQANIQMgDS0ADCEJIA0oAAghBCAHQRBrIgIEQCACBEAgDSANQRBqIAL8CgAACyAAIAI2AmALIAggCTYCPAJAIAlBA00EQEGAgMAAEHEiAg0BAAsgCEEBNgJUIAhBoO3HADYCUCAIQgE3AlwgCCAeNwNoIAggCEHoAGo2AlggCEFAayIAIAhB0ABqELEGIAAQkAchAQwICyAAIAU6AJoBIAAgAzoAmQEgAEEAOgCYASAAQQA2ApQBIAAgCTYCkAEgACAENgKMASAAIAY2AogBIABBADYChAEgAEKAgICAwAA3AnwgAEICNwJ0IABCADcCbCAAIAI2AmggAEGAgBA2AmQgCCAFQYABcUEHdjoAWCAIIAk2AlQgCCAENgJQIAAgCEHQAGoQhAILIAAoAmRBgICAgHhGDQMLA0ACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAC0AmAFBAWsOCQ0MCwoAAQYEFwILQQkhBUEGIQEgACgCkAEOBAQIBwYCCyAAQQlBByAALACaAUEAThs6AJgBDBMLIAAoAmBBBkEJIAAoAogBIgNBAUYbIg1uIgIgACgCjAEgACgClAFrIgRJBEAgAiIEQYCABEkNFQtBgIAEIAQgBEGAgARPGyIPQQNsIgIgACgCbCIBSwR/IAIgAWsiBiAAKAJkIAFrSwRAIBQgASAGQQRBBBCkBSAAKAJsIQELIAAoAmgiAyABQQJ0aiEFIAZBAk8EfyAGQQJ0QQRrIgIEQCAFQQAgAvwLAAsgASAGaiICQQFrIQEgAyACQQJ0akEEawUgBQtBADYCACAAIAFBAWo2AmwgACgCiAEFIAMLQQFHDQsgBEUNDUEAIQdBACEBQQAhAkEAIQMDQCABQQJqIQwgACgCYCIFIAFBAWpNBEAgASAMIAVBrM/BABDqBwALAn8gACgCXCABaiIFQQFqLQAAQQh0IgkgBS0AAHIiBUH//wFxRQRAIAVBEHQMAQsgBUH/B3EhCyAJQYCAAnEhBiAJQYD4AXEiBUGA+AFGBEAgBkEQdCIFQYCAgPwHciALRQ0BGiALQQ10IAVyQYCAgP4HcgwBCyAGQRB0IgYgBUENdEGAgID8AHEgC0ENdHJBgICAwANqciAFDQAaIAsgC2dBEGsiBUH//wNxQQhqdEH///8DcSAGQYCAgNgDciAFQRd0a3ILIQYCfwJAAkAgACgCbCIFIANLBEAgACgCaCACaiAGNgIAIAFBBGoiCyAAKAJgIgVLDQEgACgCXCABaiIFQQNqLQAAQQh0IgkgBUECai0AAHIiBUH//wFxRQRAIAVBEHQMBAsgBUH/B3EhDCAJQYCAAnEhBiAJQYD4AXEiBUGA+AFGBEAgBkEQdCIFQYCAgPwHciAMRQ0EGiAMQQ10IAVyQYCAgP4HcgwECyAGQRB0IQYgBUUNAiAFQQ10QYCAgPwAcSAMQQ10ckGAgIDAA2ogBnIMAwsgAyAFQdzOwQAQjAcACyAMIAsgBUGcz8EAEOoHAAsgDCAMZ0EQayIFQf//A3FBCGp0Qf///wNxIAZBgICA2ANyIAVBF3RrcgshCQJ/AkACQCADQQFqIgYgACgCbCIFSQRAIAAoAmggAmpBBGogCTYCACABQQZqIgUgACgCYCIGSw0BIAAoAlwgAWoiAUEFai0AAEEIdCIJIAFBBGotAAByIgFB//8BcUUEQCABQRB0DAQLIAFB/wdxIQsgCUGAgAJxIQYgCUGA+AFxIgFBgPgBRgRAIAZBEHQiAUGAgID8B3IgC0UNBBogC0ENdCABckGAgID+B3IMBAsgBkEQdCEGIAFFDQIgAUENdEGAgID8AHEgC0ENdHJBgICAwANqIAZyDAMLIAYgBUHszsEAEIwHAAsgCyAFIAZBjM/BABDqBwALIAsgC2dBEGsiAUH//wNxQQhqdEH///8DcSAGQYCAgNgDciABQRd0a3ILIQkgA0ECaiIGIAAoAmwiAUkEQCAAKAJoIAJqQQhqIAk2AgAgAkEMaiECIANBA2ohAyAFIQEgB0EBaiIHIA9JDQEMDgsLIAYgAUH8zsEAEIwHAAtB7NPBABCBCAALIAAoAmAiAUECdiICIAAoAowBIAAoApQBayIESQRAIAIhBCABQYCAEEkNEwtBgIAEIAQgBEGAgARPGyIHIAAoAoQBIgFLBEAgByABayIGIAAoAnwgAWtLBEAgGSABIAZBBEEEEKQFIAAoAoQBIQELIAAoAoABIgMgAUECdGohBSAGQQJPBH8gBkECdEEEayICBEAgBUEAIAL8CwALIAEgBmoiAkEBayEBIAMgAkECdGpBBGsFIAULQQA2AgAgACABQQFqIgE2AoQBCyAEBEBBACEBQQAhAwJAA0AgACgCYCICIAFBA2pNBEAgASABQQRqIAJBvNXBABDqBwALIAAoAoQBIgIgA0sEQCAAKAKAASABaiAAKAJcIAFqKAAANgIAIAFBBGohASAHIANBAWoiA0YNAgwBCwsgAyACQazVwQAQjAcACyAAKAKEASEBCyAAKAIQIAAoAhQgACgClAEgByAAKAKAASABEI4DAkACQAJAIAAoAmAiAyAHQQJ0IgFPBEAgAEEANgJgIAMgAWshBSAERQ0BIAEgA0YNAyAFRQ0CIAAoAlwiAiABIAJqIAX8CgAADAILDBoLIAEgA0YNAQsgACAFNgJgCyAAIAAoApQBIAdqIgI2ApQBIAIgACgCjAFHDRAgAEEANgKUAUEJIQELIAAgAToAmAEMDwsgACgCYCIBQQF2IgIgACgCjAEgACgClAFrIgRJBEAgAiEEIAFBgIAISQ0RC0GAgAQgBCAEQYCABE8bIgcgACgCeCIBSwRAIAcgAWsiBiAAKAJwIAFrSwRAIBggASAGQQJBAhCkBSAAKAJ4IQELIAAoAnQiAyABQQF0aiEFIAZBAk8EfyAGQQF0QQJrIgIEQCAFQQAgAvwLAAsgASAGaiICQQFrIQEgAyACQQF0akECawUgBQtBADsBACAAIAFBAWoiATYCeAsgBARAQQAhA0ECIQECQANAIAAoAmAiAiABSQRAIAFBAmsgASACQZzVwQAQ6gcACyAAKAJ4IgIgA0sEQCAAKAJ0IAFqQQJrIAAoAlwgAWpBAmsvAAA7AQAgAUECaiEBIAcgA0EBaiIDRg0CDAELCyADIAJBjNXBABCMBwALIAAoAnghAQsgACgCECAAKAIUIAAoApQBIAcgACgCdCABELQDAkACQAJAIAAoAmAiAyAHQQF0IgFPBEAgAEEANgJgIAMgAWshBSAERQ0BIAEgA0YNAyAFRQ0CIAAoAlwiAiABIAJqIAX8CgAADAILDBgLIAEgA0YNAQsgACAFNgJgCyAAIAAoApQBIAdqIgI2ApQBIAIgACgCjAFHDQ4gAEEANgKUASAAQQg6AJgBDA4LQS0hBQwBC0EYIQULIAAoAmAgBW4iAiAAKAKMASAAKAKUAWsiC0kEQCACIgtBgIAESQ0OC0GAgAQgCyALQYCABE8bIhAgBWwiESAAKAJsIgFLBEAgESABayIGIAAoAmQgAWtLBEAgFCABIAZBBEEEEKQFIAAoAmwhAQsgACgCaCIDIAFBAnRqIQQgBkECTwR/IAZBAnRBBGsiAgRAIARBACAC/AsACyABIAZqIgJBAWshASADIAJBAnRqQQRrBSAEC0EANgIAIAAgAUEBaiIBNgJsCyAQQQlsIQ8CQCALBEAgEEHgAGwhDCAQQRhsIQdBASEBQQAhEkEAIQYCQANAIAYhDSABIQYgBSANbCIBIAAoAmAiAk8NAwJAAkACQAJAIA1BCWwiAyAAKAJsIgJPDQAgACgCaCADQQJ0aiAAKAJcIAFqLQAAs0MAAADDkkMAAAA8lDgCACABQQNqIgkgACgCYCICTwRAIAkhAQwICyADQQNqIgQgACgCbCICTwRAIAQhAwwBCyAAKAJoIARBAnRqIAAoAlwgCWotAACzQwAAAMOSQwAAADyUOAIAIAFBBmoiCSAAKAJgIgJPBEAgCSEBDAgLIANBBmoiBCAAKAJsIgJPBEAgBCEDDAELIAAoAmggBEECdGogACgCXCAJai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEBaiIJIAAoAmAiAk8EQCAJIQEMCAsgA0EBaiIEIAAoAmwiAk8EQCAEIQMMAQsgACgCaCAEQQJ0aiAAKAJcIAlqLQAAs0MAAADDkkMAAAA8lDgCACABQQRqIgkgACgCYCICTwRAIAkhAQwICyADQQRqIgQgACgCbCICTwRAIAQhAwwBCyAAKAJoIARBAnRqIAAoAlwgCWotAACzQwAAAMOSQwAAADyUOAIAIAFBB2oiCSAAKAJgIgJPBEAgCSEBDAgLIANBB2oiBCAAKAJsIgJPBEAgBCEDDAELIAAoAmggBEECdGogACgCXCAJai0AALNDAAAAw5JDAAAAPJQ4AgAgAUECaiIJIAAoAmAiAk8EQCAJIQEMCAsgA0ECaiIEIAAoAmwiAk8EQCAEIQMMAQsgACgCaCAEQQJ0aiAAKAJcIAlqLQAAs0MAAADDkkMAAAA8lDgCACABQQVqIgkgACgCYCICTwRAIAkhAQwICyADQQVqIgQgACgCbCICTwRAIAQhAwwBCyAAKAJoIARBAnRqIAAoAlwgCWotAACzQwAAAMOSQwAAADyUOAIAIAFBCGoiBCAAKAJgIgJPBEAgBCEBDAgLIANBCGoiAyAAKAJsIgJPDQAgACgCaCADQQJ0aiAAKAJcIARqLQAAs0MAAADDkkMAAAA8lDgCACAAKAKQAUEBSw0BDAILIAMgAkH81MEAEIwHAAsCQAJAIAFBCWoiAyAAKAJgIgpPDQAgDUEPbCAPaiICIAAoAmwiCk8NAyAAKAJoIAJBAnRqIAAoAlwgA2otAACzQwAAAMOSQwAAADyUOAIAIAFBDGoiAyAAKAJgIgpPDQAgAkEDaiIEIAAoAmwiCk8EQCAEIQIMBAsgACgCaCAEQQJ0aiAAKAJcIANqLQAAs0MAAADDkkMAAAA8lDgCACABQQ9qIgMgACgCYCIKTw0AIAJBBmoiBCAAKAJsIgpPBEAgBCECDAQLIAAoAmggBEECdGogACgCXCADai0AALNDAAAAw5JDAAAAPJQ4AgAgAUESaiIDIAAoAmAiCk8NACACQQlqIgQgACgCbCIKTwRAIAQhAgwECyAAKAJoIARBAnRqIAAoAlwgA2otAACzQwAAAMOSQwAAADyUOAIAIAFBFWoiAyAAKAJgIgpPDQAgAkEMaiIEIAAoAmwiCk8EQCAEIQIMBAsgACgCaCAEQQJ0aiAAKAJcIANqLQAAs0MAAADDkkMAAAA8lDgCACABQQpqIgMgACgCYCIKTw0AIAJBAWoiBCAAKAJsIgpPBEAgBCECDAQLIAAoAmggBEECdGogACgCXCADai0AALNDAAAAw5JDAAAAPJQ4AgAgAUENaiIDIAAoAmAiCk8NACACQQRqIgQgACgCbCIKTwRAIAQhAgwECyAAKAJoIARBAnRqIAAoAlwgA2otAACzQwAAAMOSQwAAADyUOAIAIAFBEGoiAyAAKAJgIgpPDQAgAkEHaiIEIAAoAmwiCk8EQCAEIQIMBAsgACgCaCAEQQJ0aiAAKAJcIANqLQAAs0MAAADDkkMAAAA8lDgCACABQRNqIgMgACgCYCIKTw0AIAJBCmoiBCAAKAJsIgpPBEAgBCECDAQLIAAoAmggBEECdGogACgCXCADai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEWaiIDIAAoAmAiCk8NACACQQ1qIgQgACgCbCIKTwRAIAQhAgwECyAAKAJoIARBAnRqIAAoAlwgA2otAACzQwAAAMOSQwAAADyUOAIAIAFBC2oiAyAAKAJgIgpPDQAgAkECaiIEIAAoAmwiCk8EQCAEIQIMBAsgACgCaCAEQQJ0aiAAKAJcIANqLQAAs0MAAADDkkMAAAA8lDgCACABQQ5qIgMgACgCYCIKTw0AIAJBBWoiBCAAKAJsIgpPBEAgBCECDAQLIAAoAmggBEECdGogACgCXCADai0AALNDAAAAw5JDAAAAPJQ4AgAgAUERaiIDIAAoAmAiCk8NACACQQhqIgQgACgCbCIKTwRAIAQhAgwECyAAKAJoIARBAnRqIAAoAlwgA2otAACzQwAAAMOSQwAAADyUOAIAIAFBFGoiAyAAKAJgIgpPDQAgAkELaiIEIAAoAmwiCk8EQCAEIQIMBAsgACgCaCAEQQJ0aiAAKAJcIANqLQAAs0MAAADDkkMAAAA8lDgCACABQRdqIgMgACgCYCIKTw0AIAJBDmoiAiAAKAJsIgpPDQMgACgCaCACQQJ0aiAAKAJcIANqLQAAs0MAAADDkkMAAAA8lDgCACAAKAKQAUECTQ0CQQAhCiAMIQMMAQsgAyAKQczUwQAQjAcACwJAAkACQAJAAkACQAJAAn8CQAJAAkACQAJAAkADQCAAKAJgIgIgCiASaiIBQRhqSwRAIAcgCmoiBCAAKAJsIgJPDQ8gACgCaCADaiABIAAoAlxqQRhqLQAAs0MAAADDkkMAAAA8lDgCACAAKAJgIgIgAUEbak0NByAAKAJsIgIgBEEDak0NDiAAKAJoIANqQQxqIAEgACgCXGpBG2otAACzQwAAAMOSQwAAADyUOAIAIAAoAmAiAiABQR5qTQ0GIAAoAmwiAiAEQQZqTQ0NIAAoAmggA2pBGGogASAAKAJcakEeai0AALNDAAAAw5JDAAAAPJQ4AgAgACgCYCICIAFBIWpNDQUgACgCbCICIARBCWpNDQwgACgCaCADakEkaiABIAAoAlxqQSFqLQAAs0MAAADDkkMAAAA8lDgCACAAKAJgIgIgAUEkak0NBCAAKAJsIgIgBEEMak0NCyAAKAJoIANqQTBqIAEgACgCXGpBJGotAACzQwAAAMOSQwAAADyUOAIAIAAoAmAiAiABQSdqTQ0DIAAoAmwiAiAEQQ9qTQ0KIAAoAmggA2pBPGogASAAKAJcakEnai0AALNDAAAAw5JDAAAAPJQ4AgAgACgCYCICIAFBKmpNDQIgACgCbCICIARBEmpNDQkgACgCaCADakHIAGogACgCXCASaiAKakEqai0AALNDAAAAw5JDAAAAPJQ4AgAgA0EEaiEDIApBAWoiCkEDSQ0BDBALCyABQRhqDAYLIAFBKmoMBQsgAUEnagwECyABQSRqDAMLIAFBIWoMAgsgAUEeagwBCyABQRtqCyACQazUwQAQjAcACyAEQRJqIQQMBQsgBEEPaiEEDAQLIARBDGohBAwDCyAEQQlqIQQMAgsgBEEGaiEEDAELIARBA2ohBAsgBCACQbzUwQAQjAcACyAFIBJqIRIgB0EVaiEHIAxB1ABqIQwgBiAGIBBJIgJqIQEgAkUNAgwBCwsgAiAKQdzUwQAQjAcACyAAKAJsIQELAkACQAJAAkACQAJAIAEgD08EQCAAKAJoIQUgACgClAEhBEEAIQJBBCEKAkAgACgCkAEiA0ECSQRAQQQhB0EAIRIMAQsgEEEYbCIGIAFLDQIgEEEPbCESIAUgD0ECdGohByADQQJGDQAgASARSSAGIBFLcg0FIBEgBmshAiAFIAZBAnRqIQoLIAAgBCAQIAUgDyAHIBIgCiACENsDIAAoAmAiAiARSQ0CIABBADYCYCACIBFrIQEgC0UNAyACIBFGDQYgAUUNBSAAKAJcIgIgAiARaiAB/AoAAAwFC0EAIA8gAUGc1MEAEOoHAAsgDyAGIAFBjNTBABDqBwALQQAgESACQYSkxwAQ6gcACyACIBFHDQEMAgsgBiARIAFB/NPBABDqBwALIAAgATYCYAsgACAAKAKUASAQaiICNgKUASACIAAoAowBRw0MIABBADYClAEgAEEGOgCYAQwMCyABIAJB7NTBABCMBwALIAAoAmBBBEEDIAAoAogBIgNBA0YbIg1uIgIgACgCjAEgACgClAFrIgVJBEAgAiIFQYCABEkNDQsCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAQYCABCAFIAVBgIAETxsiBkECdCICIAAoAmwiAUsEfyACIAFrIgcgACgCZCABa0sEQCAUIAEgB0EEQQQQpAUgACgCbCEBCyAAKAJoIgMgAUECdGohBCAHQQJPBH8gB0ECdEEEayICBEAgBEEAIAL8CwALIAEgB2oiAkEBayEBIAMgAkECdGpBBGsFIAQLQQA2AgAgACABQQFqNgJsIAAoAogBBSADC0EDRwRAIAVFDQxBACEEQQAhAUEAIQJBACEDA0AgASAAKAJgIglPDQIgAUEBaiIHIAlPDQMgAUECaiIHIAlPDQRDAACAPyAAKAJcIAFqIgctAACzQwAA/0KVQwAAgL+SIhwgHJQgB0EBai0AALNDAAD/QpVDAACAv5IiHSAdlJIgB0ECai0AALNDAAD/QpVDAACAv5IiGyAblJKTQwAAAAAQ4AghGiADIAAoAmwiB08NBSAAKAJoIAJqIBw4AgAgA0EBaiIJIAAoAmwiB08NBiAAKAJoIAJqQQRqIB04AgAgA0ECaiIJIAAoAmwiB08NByAAKAJoIAJqQQhqIBs4AgAgA0EDaiIJIAAoAmwiB08NCCAAKAJoIAJqQQxqIBqROAIAIAFBA2ohASACQRBqIQIgA0EEaiEDIARBAWoiBCAGSQ0ACwwLCyAFRQ0LQQAhAkEBIQdBACEDA0ACQAJAAkACQCAAKAJgIgEgA0sEQCADQQFqIhAgAU8NASADQQJqIhIgAU8NAiADQQNqIg8gAU8NAyAAKAJcIANqIgRBAmotAAAhCSAEQQNqLQAAIQwgBC0AACAEQQFqLQAAIQsgCP0MAAAAAAAAAAAAAAAAAAAAAP0LA1AgC0EIdHIiBCAJQRB0IAxBGHRyciEBQwAAAAAhGwJ/AkAgDEEGdiIJQQNHBEAgCCAEQf8DcbNDAID/Q5VD8wQ1P5QiGowgGiALQQJxGyIaOAJcIBogGpQhGyABQQp2IQEgCUECRg0BCyAIIAFB/wNxs0MAgP9DlUPzBDU/lCIajCAaIAFBgARxGyIaOAJYIBsgGiAalJIhGyABQQp2IgEgCUEBRg0BGgsgCCABQf8DcbNDAID/Q5VD8wQ1P5QiGowgGiABQYAEcRsiGjgCVCAbIBogGpSSIRsgAUEKdgshASAIQdAAaiAJQQJ0akMAAIA/IAxBwABPBH0gCCABQf8DcbNDAID/Q5VD8wQ1P5QiGowgGiABQYAEcRsiGjgCUCAbIBogGpSSBSAbC5MiGpFDAAAAACAaQwAAAABeGzgCACADIAAoAmwiAUkNBCADIAFBvNLBABCMBwALIAMgAUH80cEAEIwHAAsgECABQYzSwQAQjAcACyASIAFBnNLBABCMBwALIA8gAUGs0sEAEIwHAAsgACgCaCACaiAIKgJQOAIAIBAgACgCbCIBTw0KIAAoAmggAmpBBGogCCoCVDgCACASIAAoAmwiAU8NCSAAKAJoIAJqQQhqIAgqAlg4AgAgDyAAKAJsIgFPDQggACgCaCACakEMaiAIKgJcOAIAIAJBEGohAiADQQRqIQMgBiAHSyAHQQFqIQcNAAsMCgsgASAJQfzSwQAQjAcACyAHIAlBjNPBABCMBwALIAcgCUGc08EAEIwHAAsgAyAHQazTwQAQjAcACyAJIAdBvNPBABCMBwALIAkgB0HM08EAEIwHAAsgCSAHQdzTwQAQjAcACyAPIAFB7NLBABCMBwALIBIgAUHc0sEAEIwHAAsgECABQczSwQAQjAcACyAFRQ0AIAAoAmwhCyAAKAJoIQJBACEBIAAoAggiCSAAKAKUASIEayIDQQAgAyAJTRshAyAAKAIEIARBJGxqIQogBiEHA0AgA0UNAiABQQNqIAtPDQMgCCAC/QACAP0LBFAgAkEQaiECIAFBBGohASAEQQFqIQQgA0EBayEDIAogCEHQAGoQkAIgCkEkaiEKIAdBAWsiBw0ACwsgACgCYCIBIAYgDWwiAkkNFyAAQQA2AmAgASACayEDIAVFDQIgASACRg0EIANFDQMgACgCXCIBIAEgAmogA/wKAAAMAwsgBCAJQeTAxwAQjAcACyABIAFBBGogC0Gkx8cAEOoHAAsgASACRg0BCyAAIAM2AmALIAAgACgClAEgBmoiAjYClAEgAiAAKAKMAUcNCiAAQQA2ApQBIABBBToAmAEMCgsgACgCYCIBQQNuIgIgACgCjAEgACgClAFrIgVJBEAgAiEFIAFBgIAMSQ0MC0GAgAQgBSAFQYCABE8bIgtBA2wiBiAAKAJsIgFLBEAgBiABayIHIAAoAmQgAWtLBEAgFCABIAdBBEEEEKQFIAAoAmwhAQsgACgCaCIDIAFBAnRqIQQgB0ECTwR/IAdBAnRBBGsiAgRAIARBACAC/AsACyABIAdqIgJBAWshASADIAJBAnRqQQRrBSAEC0EANgIAIAAgAUEBajYCbAsCQAJAAkACQAJAAkACQAJAAkACQCAFBEBBACEDQQAhAQNAIAEgACgCYCICTw0CIAEgACgCbCICTw0DIAAoAmggA2ogACgCXCABai0AALNDAACAPZRDAAAgwZIQiQQ4AgAgAUEBaiIEIAAoAmAiAk8NBCAEIAAoAmwiAk8NBSAAKAJoIANqQQRqIAAoAlwgAWpBAWotAACzQwAAgD2UQwAAIMGSEIkEOAIAIAFBAmoiBCAAKAJgIgJPDQYgBCAAKAJsIgJPDQcgACgCaCADakEIaiAAKAJcIAFqQQJqLQAAs0MAAIA9lEMAACDBkhCJBDgCACADQQxqIQMgBiABQQNqIgFHDQALQQAhBCAAKAIIIgwgACgClAEiCmsiAkEAIAIgDE0bIQkgACgCBCAKQSRsaiECIAAoAmghAyAAKAJsIQ1BACEBA0AgASAJRg0eIARBA2oiByANSyABQdSq1aoFS3INCCAIIAP9XQIAIANBCGoqAgAiGv0gAiAa/SAD/QsEUCADQQxqIQMgAiAIQdAAahDdAiACQSRqIQIgByEEIAsgAUEBaiIBRw0ACwsgACgCYCICIAZJDR0gAEEANgJgIAIgBmshASAFRQ0HIAIgBkYNCSABRQ0IIAAoAlwiAiACIAZqIAH8CgAADAgLIAEgAkGc0cEAEIwHAAsgASACQazRwQAQjAcACyAEIAJBvNHBABCMBwALIAQgAkHM0cEAEIwHAAsgBCACQdzRwQAQjAcACyAEIAJB7NHBABCMBwALIAQgByANQfDKxwAQ6gcACyACIAZGDQELIAAgATYCYAsgACAAKAKUASALaiICNgKUASACIAAoAowBRw0JIABBADYClAEgAEEEOgCYAQwJCyAAKAJgIgFBA24iAiAAKAKMASAAKAKUAWsiBUkEQCACIQUgAUGAgAxJDQsLQYCABCAFIAVBgIAETxsiC0EDbCIGIAAoAmwiAUsEQCAGIAFrIgcgACgCZCABa0sEQCAUIAEgB0EEQQQQpAUgACgCbCEBCyAAKAJoIgMgAUECdGohBCAHQQJPBH8gB0ECdEEEayICBEAgBEEAIAL8CwALIAEgB2oiAkEBayEBIAMgAkECdGpBBGsFIAQLQQA2AgAgACABQQFqNgJsCwJAAkACQAJAAkACQAJAAkACQAJAIAUEQEEAIQNBACEBA0AgASAAKAJgIgJPDQIgASAAKAJsIgJPDQMgACgCaCADaiAAKAJcIAFqLQAAs0MAAH9DlUMAAAC/kkOMuPA/lEMAAAA/kjgCACABQQFqIgQgACgCYCICTw0EIAQgACgCbCICTw0FIAAoAmggA2pBBGogACgCXCABakEBai0AALNDAAB/Q5VDAAAAv5JDjLjwP5RDAAAAP5I4AgAgAUECaiIEIAAoAmAiAk8NBiAEIAAoAmwiAk8NByAAKAJoIANqQQhqIAAoAlwgAWpBAmotAACzQwAAf0OVQwAAAL+SQ4y48D+UQwAAAD+SOAIAIANBDGohAyAGIAFBA2oiAUcNAAtBACEEIAAoAggiDCAAKAKUASIKayICQQAgAiAMTRshCSAAKAIEIApBJGxqIQIgACgCaCEDIAAoAmwhDUEAIQEDQCABIAlGDR0gBEEDaiIHIA1LIAFB1KrVqgVLcg0IIAggA/1dAgAgA0EIaioCACIa/SACIBr9IAP9CwRQIANBDGohAyACIAhB0ABqEOUCIAJBJGohAiAHIQQgCyABQQFqIgFHDQALCyAAKAJgIgIgBkkNHCAAQQA2AmAgAiAGayEBIAVFDQcgAiAGRg0JIAFFDQggACgCXCICIAIgBmogAfwKAAAMCAsgASACQbzQwQAQjAcACyABIAJBzNDBABCMBwALIAQgAkHc0MEAEIwHAAsgBCACQezQwQAQjAcACyAEIAJB/NDBABCMBwALIAQgAkGM0cEAEIwHAAsgBCAHIA1BtMbHABDqBwALIAIgBkYNAQsgACABNgJgCyAAIAAoApQBIAtqIgI2ApQBIAIgACgCjAFHDQggAEEANgKUASAAQQM6AJgBDAgLIAAoAmAiAiAAKAKMASAAKAKUAWsiBEkEQCACIgRBgIAESQ0KC0GAgAQgBCAEQYCABE8bIgIgACgCbCIBSwRAIAIgAWsiByAAKAJkIAFrSwRAIBQgASAHQQRBBBCkBSAAKAJsIQELIAAoAmgiBSABQQJ0aiEGIAdBAk8EfyAHQQJ0QQRrIgMEQCAGQQAgA/wLAAsgASAHaiIDQQFrIQEgBSADQQJ0akEEawUgBgtBADYCACAAIAFBAWoiATYCbAsCQAJAAkACQAJAIAQEQEMAAIA/QwAAAEAgACwAmgFBAE4bIRpBACEDQQAhAQNAIAEgACgCYCIFTw0CIAEgACgCbCIFTw0DIAAoAmggA2ogGiAAKAJcIAFqLQAAs0MAAH9DlZQ4AgAgA0EEaiEDIAIgAUEBaiIBRw0ACyAAKAJsIQELIAAoAgQgACgCCCAAKAKUASACIAAoAmggARCrAiAAKAJgIgEgAkkNFCAAQQA2AmAgASACayEDIARFDQIgASACRg0EIANFDQMgACgCXCIBIAEgAmogA/wKAAAMAwsgASAFQZzQwQAQjAcACyABIAVBrNDBABCMBwALIAEgAkYNAQsgACADNgJgCyAAIAAoApQBIAJqIgI2ApQBIAIgACgCjAFHDQcgAEEANgKUASAAQQI6AJgBDAcLIARFDQFBASAALQCZAXSzIRpBACEHQQAhAUEAIQJBACEDAkACQAJAAkADQCABQQNqIgsgACgCYCIFSwRAIAEgCyAFQYzQwQAQ6gcACyADIAAoAmwiBU8NASAAKAJoIAJqIAAoAlwgAWoiBUECai0AACIGQRB0IAUtAAByIAVBAWotAABBCHRyIgVBgICAeHIgBSAGwEEASBuyIBqVOAIAIAFBBmoiCSAAKAJgIgVLDQIgA0EBaiIGIAAoAmwiBU8NAyAAKAJoIAJqQQRqIAAoAlwgAWoiBUEFai0AACIGQRB0IAVBA2otAAByIAVBBGotAABBCHRyIgVBgICAeHIgBSAGwEEASBuyIBqVOAIAIAFBCWoiBSAAKAJgIgZLDQQgA0ECaiIJIAAoAmwiBkkEQCAAKAJoIAJqQQhqIAAoAlwgAWoiAUEIai0AACIGQRB0IAFBBmotAAByIAFBB2otAABBCHRyIgFBgICAeHIgASAGwEEASBuyIBqVOAIAIAJBDGohAiADQQNqIQMgBSEBIAdBAWoiByAPSQ0BDAYLCyAJIAZB3M/BABCMBwALIAMgBUG8z8EAEIwHAAsgCyAJIAVB/M/BABDqBwALIAYgBUHMz8EAEIwHAAsgCSAFIAZB7M/BABDqBwALIARFDQAgACgCbCEJIAAoAmghA0EAIQcgACgCCCIMIAAoApQBIgprIgJBACACIAxNGyEGIAAoAgQgCkEkbGpBCGohAkEAIQEDQCABIAZGDQ8gB0EDaiIFIAlLIAFB1KrVqgVLcg0CIAIgA0EIaiAD/V0CAP1WAgACIh/9WgIIAiACIB/9WwIAACADQQxqIQMgAkEkaiECIAUhByAPIAFBAWoiAUcNAAsLIAAoAmAiASANIA9sIgJJDQwgAEEANgJgIAEgAmshAyAERQ0BIAEgAkYNAyADRQ0CIAAoAlwiASABIAJqIAP8CgAADAILIAcgBSAJQcTFxwAQ6gcACyABIAJGDQELIAAgAzYCYAsgACAAKAKUASAPaiICNgKUASACIAAoAowBRw0AIABBADYClAEgAEEBOgCYAQwACwALIAhBATYCVCAIQbTOwQA2AlAgCEIBNwJcIAggCEEsaq1CgICAgBCENwNAIAggCEFAazYCWCAIQTBqIgAgCEHQAGoQsQYgABCOByEBDAQLIAgtAA8hAQsgDiAVaiEOAkACQAJAAkACQCABQf8BcQ4DAQIDAAsgCEEBNgJUIAhBmPfHADYCUCAIQgE3AlwgCCAIQQ9qrUKAgICAoASENwNAIAggCEFAazYCWCAIQRBqIgAgCEHQAGoQsQYgABCOByEBDAYLIABBAToApVMgDkEIaiAOIAAoAkgiASAOayICQQAgASACTxtBB0sbIQ4MAgsgEyAVckUNAQsgDiAAKAJIIgNJDQELCyAORQ0AIA4gACgCSCICTQRAQQAhASAAQQA2AkggAiAORg0CIAIgDmsiAwRAIAAoAkQiAiACIA5qIAP8CgAACyAAIAM2AkgMAgtBACAOIAJBhKTHABDqBwALQQAhAQsgCEHwAGokACABDwtBACABIANBhKTHABDqBwALQQAgAiABQYSkxwAQ6gcACyABIApqIAxB5MDHABCMBwALQQAgBiACQYSkxwAQ6gcAC8pfBBt/BH0BewF+IwBB8ABrIgckAAJAAkACQAJAIAAtAMRTRQRAIAdB0ABqIABB4ABqELgEIActAFAEQCAHKAJUIQEMAwsgBy0AUUEBRw0BIABBAToAxFMLIAAoAmgiBEUNACAAQdkAaiEVIABBPGohFyAAQbwBaiEYIAdBPGqtQoCAgIAQhCEhIABB+ABqIRkgAEGEAWohFCAAQZABaiEaIABBnAFqIRsDQAJAIAAoAnQiAyAAKALAUyIBayICQQAgAiADTRtBgIAETwRAIAEhAgwBCyABIAFBgIACayICQQAgASACTxsiCGshAiABIAhGBEAgACACNgLAUwwBCyABIANNBEAgAgRAIAAoAnAiASABIAhqIAL8CgAACyAAKAJoIQQgACACNgLAUwwBC0EAIAEgA0HM1cEAEOoHAAsCQAJAIAQgDk8EQCAHQdAAaiAYIAAoAmQgDmogBCAOayAAKAJwIAAoAnQgAkEGEEQgByAHLQBUIgE6AA8gBygCUCEWIAcoAlgiE0UNAiAAKALAUyIIIBNqIgQgCE8gBCAAKAJ0IgJNcQ0BIAggBCACQdzVwQAQ6gcACyAOIAQgBEHs1cEAEOoHAAsgACgCcCEEIAAoAnggACgCgAEiAmsgE0kEQCAZIAIgE0EBQQEQpAUgACgCgAEhAgsgEwRAIAAoAnwgAmogBCAIaiAT/AoAAAsgACACIBNqIgY2AoABIAAgACgCwFMgE2o2AsBTIAAoAoQBQYCAgIB4RgRAAkAgBkEQSQ0AIAcgACgCfCINKAAAIgI2AhwgAkHOjs2CBUcEQCAHQQE2AmQgB0HMyMEANgJgIAdBATYCVCAHQdTOwQA2AlAgB0EBNgJcIAcgB0Ecaq1CgICAgJAEhDcDQCAHIAdBQGs2AlggB0EgaiIAIAdB0ABqELEGIAAQjgchAQwGCyAHIA0oAAQiAzYCLCADQQRrQX1PBEAgAEEANgKAASANLAAOIQUgDS0ADSEEIA0tAAwhCSANKAAIIQggBkEQayICBEAgAgRAIA0gDUEQaiAC/AoAAAsgACACNgKAAQsgByAJNgI8AkAgCUEDTQRAQYCAwAAQcSICDQEACyAHQQE2AlQgB0Gg7ccANgJQIAdCATcCXCAHICE3A2ggByAHQegAajYCWCAHQUBrIgAgB0HQAGoQsQYgABCQByEBDAcLIAAgBToAugEgACAEOgC5ASAAQQA6ALgBIABBADYCtAEgACAJNgKwASAAIAg2AqwBIAAgAzYCqAEgAEEANgKkASAAQoCAgIDAADcCnAEgAEICNwKUASAAQgA3AowBIAAgAjYCiAEgAEGAgBA2AoQBIAcgBUGAAXFBB3Y6AFggByAJNgJUIAcgCDYCUCAAIAdB0ABqEOkBIAVBAE4NAQJ9IAAtAFhBAkYEQP0MAAAAAAAAgD8AAEDBAAAQQSEgQwAAgD8hHkMAAIA/IR1DAACAPwwBCyAHQdIAaiAVQQJqLQAAOgAAIAcgFS8AADsBUCAAKgJQIR4gACoCTCEdIAD9AAI8ISAgACoCVAshHCAAQQE6AFggACAcOAJUIAAgHjgCUCAAIB04AkwgACAg/QsCPCAVIAcvAVA7AAAgFUECaiAHQdIAai0AADoAAAwBCyAHQQE2AlQgB0G0zsEANgJQIAdCATcCXCAHIAdBLGqtQoCAgIAQhDcDQCAHIAdBQGs2AlggB0EwaiIAIAdB0ABqELEGIAAQjgchAQwFCyAAKAKEAUGAgICAeEYNAQsDQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAC0AuAFBAWsOCQ0MCwoAAQYEFgILQQkhD0EGIQEgACgCsAEOBAQIBwYCCyAAQQlBByAALAC6AUEAThs6ALgBDBULIAAoAoABQQZBCSAAKAKoASIEQQFGGyINbiICIAAoAqwBIAAoArQBayIISQRAIAIiCEGAgARJDRQLQYCABCAIIAhBgIAETxsiD0EDbCICIAAoAowBIgFLBH8gAiABayIGIAAoAoQBIAFrSwRAIBQgASAGQQRBBBCkBSAAKAKMASEBCyAAKAKIASIEIAFBAnRqIQMgBkECTwR/IAZBAnRBBGsiAgRAIANBACAC/AsACyABIAZqIgJBAWshASAEIAJBAnRqQQRrBSADC0EANgIAIAAgAUEBajYCjAEgACgCqAEFIAQLQQFHDQsgCEUNDUEAIQZBACEBQQAhAkEAIQQDQCABQQJqIQwgACgCgAEiAyABQQFqTQRAIAEgDCADQazPwQAQ6gcACwJ/IAAoAnwgAWoiA0EBai0AAEEIdCIJIAMtAAByIgNB//8BcUUEQCADQRB0DAELIANB/wdxIQsgCUGAgAJxIQUgCUGA+AFxIgNBgPgBRgRAIAVBEHQiA0GAgID8B3IgC0UNARogC0ENdCADckGAgID+B3IMAQsgBUEQdCIFIANBDXRBgICA/ABxIAtBDXRyQYCAgMADanIgAw0AGiALIAtnQRBrIgNB//8DcUEIanRB////A3EgBUGAgIDYA3IgA0EXdGtyCyEFAn8CQAJAIAAoAowBIgMgBEsEQCAAKAKIASACaiAFNgIAIAFBBGoiCyAAKAKAASIDSw0BIAAoAnwgAWoiA0EDai0AAEEIdCIJIANBAmotAAByIgNB//8BcUUEQCADQRB0DAQLIANB/wdxIQwgCUGAgAJxIQUgCUGA+AFxIgNBgPgBRgRAIAVBEHQiA0GAgID8B3IgDEUNBBogDEENdCADckGAgID+B3IMBAsgBUEQdCEFIANFDQIgA0ENdEGAgID8AHEgDEENdHJBgICAwANqIAVyDAMLIAQgA0HczsEAEIwHAAsgDCALIANBnM/BABDqBwALIAwgDGdBEGsiA0H//wNxQQhqdEH///8DcSAFQYCAgNgDciADQRd0a3ILIQkCfwJAAkAgBEEBaiIFIAAoAowBIgNJBEAgACgCiAEgAmpBBGogCTYCACABQQZqIgMgACgCgAEiBUsNASAAKAJ8IAFqIgFBBWotAABBCHQiCSABQQRqLQAAciIBQf//AXFFBEAgAUEQdAwECyABQf8HcSELIAlBgIACcSEFIAlBgPgBcSIBQYD4AUYEQCAFQRB0IgFBgICA/AdyIAtFDQQaIAtBDXQgAXJBgICA/gdyDAQLIAVBEHQhBSABRQ0CIAFBDXRBgICA/ABxIAtBDXRyQYCAgMADaiAFcgwDCyAFIANB7M7BABCMBwALIAsgAyAFQYzPwQAQ6gcACyALIAtnQRBrIgFB//8DcUEIanRB////A3EgBUGAgIDYA3IgAUEXdGtyCyEJIARBAmoiBSAAKAKMASIBSQRAIAAoAogBIAJqQQhqIAk2AgAgAkEMaiECIARBA2ohBCADIQEgBkEBaiIGIA9JDQEMDgsLIAUgAUH8zsEAEIwHAAtB7NPBABCBCAALIAAoAoABIgFBAnYiAiAAKAKsASAAKAK0AWsiA0kEQCACIQMgAUGAgBBJDRILQYCABCADIANBgIAETxsiBSAAKAKkASIBSwRAIAUgAWsiBiAAKAKcASABa0sEQCAbIAEgBkEEQQQQpAUgACgCpAEhAQsgACgCoAEiBCABQQJ0aiEIIAZBAk8EfyAGQQJ0QQRrIgIEQCAIQQAgAvwLAAsgASAGaiICQQFrIQEgBCACQQJ0akEEawUgCAtBADYCACAAIAFBAWoiATYCpAELIAMEQEEAIQFBACEEAkADQCAAKAKAASICIAFBA2pNBEAgASABQQRqIAJBvNXBABDqBwALIAAoAqQBIgIgBEsEQCAAKAKgASABaiAAKAJ8IAFqKAAANgIAIAFBBGohASAFIARBAWoiBEYNAgwBCwsgBCACQazVwQAQjAcACyAAKAKkASEBCyAAKAIQIAAoAhQgACgCtAEgBSAAKAKgASABEI0DAkACQAJAIAAoAoABIgQgBUECdCIBTwRAIABBADYCgAEgBCABayEIIANFDQEgASAERg0DIAhFDQIgACgCfCICIAEgAmogCPwKAAAMAgsMGgsgASAERg0BCyAAIAg2AoABCyAAIAAoArQBIAVqIgI2ArQBIAIgACgCrAFHDRIgAEEANgK0AUEJIQELIAAgAToAuAEMEQsgACgCgAEiAUEBdiICIAAoAqwBIAAoArQBayIDSQRAIAIhAyABQYCACEkNEAtBgIAEIAMgA0GAgARPGyIFIAAoApgBIgFLBEAgBSABayIGIAAoApABIAFrSwRAIBogASAGQQJBAhCkBSAAKAKYASEBCyAAKAKUASIEIAFBAXRqIQggBkECTwR/IAZBAXRBAmsiAgRAIAhBACAC/AsACyABIAZqIgJBAWshASAEIAJBAXRqQQJrBSAIC0EAOwEAIAAgAUEBaiIBNgKYAQsgAwRAQQAhBEECIQECQANAIAAoAoABIgIgAUkEQCABQQJrIAEgAkGc1cEAEOoHAAsgACgCmAEiAiAESwRAIAAoApQBIAFqQQJrIAAoAnwgAWpBAmsvAAA7AQAgAUECaiEBIAUgBEEBaiIERg0CDAELCyAEIAJBjNXBABCMBwALIAAoApgBIQELIAAoAhAgACgCFCAAKAK0ASAFIAAoApQBIAEQswMCQAJAAkAgACgCgAEiBCAFQQF0IgFPBEAgAEEANgKAASAEIAFrIQggA0UNASABIARGDQMgCEUNAiAAKAJ8IgIgASACaiAI/AoAAAwCCwwYCyABIARGDQELIAAgCDYCgAELIAAgACgCtAEgBWoiAjYCtAEgAiAAKAKsAUcNECAAQQA2ArQBIABBCDoAuAEMEAtBLSEPDAELQRghDwsgACgCgAEgD24iAiAAKAKsASAAKAK0AWsiC0kEQCACIgtBgIAESQ0NC0GAgAQgCyALQYCABE8bIhAgD2wiESAAKAKMASIBSwRAIBEgAWsiAyAAKAKEASABa0sEQCAUIAEgA0EEQQQQpAUgACgCjAEhAQsgACgCiAEiBCABQQJ0aiEIIANBAk8EfyADQQJ0QQRrIgIEQCAIQQAgAvwLAAsgASADaiICQQFrIQEgBCACQQJ0akEEawUgCAtBADYCACAAIAFBAWoiATYCjAELIBBBCWwhDAJAIAsEQCAQQeAAbCENIBBBGGwhBkEBIQFBACESQQAhCAJAA0AgCCEJIAEhCCAJIA9sIgEgACgCgAEiAk8NAwJAAkACQAJAIAlBCWwiBCAAKAKMASICTw0AIAAoAogBIARBAnRqIAAoAnwgAWotAACzQwAAAMOSQwAAADyUOAIAIAFBA2oiBSAAKAKAASICTwRAIAUhAQwICyAEQQNqIgMgACgCjAEiAk8EQCADIQQMAQsgACgCiAEgA0ECdGogACgCfCAFai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEGaiIFIAAoAoABIgJPBEAgBSEBDAgLIARBBmoiAyAAKAKMASICTwRAIAMhBAwBCyAAKAKIASADQQJ0aiAAKAJ8IAVqLQAAs0MAAADDkkMAAAA8lDgCACABQQFqIgUgACgCgAEiAk8EQCAFIQEMCAsgBEEBaiIDIAAoAowBIgJPBEAgAyEEDAELIAAoAogBIANBAnRqIAAoAnwgBWotAACzQwAAAMOSQwAAADyUOAIAIAFBBGoiBSAAKAKAASICTwRAIAUhAQwICyAEQQRqIgMgACgCjAEiAk8EQCADIQQMAQsgACgCiAEgA0ECdGogACgCfCAFai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEHaiIFIAAoAoABIgJPBEAgBSEBDAgLIARBB2oiAyAAKAKMASICTwRAIAMhBAwBCyAAKAKIASADQQJ0aiAAKAJ8IAVqLQAAs0MAAADDkkMAAAA8lDgCACABQQJqIgUgACgCgAEiAk8EQCAFIQEMCAsgBEECaiIDIAAoAowBIgJPBEAgAyEEDAELIAAoAogBIANBAnRqIAAoAnwgBWotAACzQwAAAMOSQwAAADyUOAIAIAFBBWoiBSAAKAKAASICTwRAIAUhAQwICyAEQQVqIgMgACgCjAEiAk8EQCADIQQMAQsgACgCiAEgA0ECdGogACgCfCAFai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEIaiIDIAAoAoABIgJPBEAgAyEBDAgLIARBCGoiBCAAKAKMASICTw0AIAAoAogBIARBAnRqIAAoAnwgA2otAACzQwAAAMOSQwAAADyUOAIAIAAoArABQQFLDQEMAgsgBCACQfzUwQAQjAcACwJAAkAgAUEJaiIEIAAoAoABIgpPDQAgCUEPbCAMaiICIAAoAowBIgpPDQMgACgCiAEgAkECdGogACgCfCAEai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEMaiIEIAAoAoABIgpPDQAgAkEDaiIDIAAoAowBIgpPBEAgAyECDAQLIAAoAogBIANBAnRqIAAoAnwgBGotAACzQwAAAMOSQwAAADyUOAIAIAFBD2oiBCAAKAKAASIKTw0AIAJBBmoiAyAAKAKMASIKTwRAIAMhAgwECyAAKAKIASADQQJ0aiAAKAJ8IARqLQAAs0MAAADDkkMAAAA8lDgCACABQRJqIgQgACgCgAEiCk8NACACQQlqIgMgACgCjAEiCk8EQCADIQIMBAsgACgCiAEgA0ECdGogACgCfCAEai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEVaiIEIAAoAoABIgpPDQAgAkEMaiIDIAAoAowBIgpPBEAgAyECDAQLIAAoAogBIANBAnRqIAAoAnwgBGotAACzQwAAAMOSQwAAADyUOAIAIAFBCmoiBCAAKAKAASIKTw0AIAJBAWoiAyAAKAKMASIKTwRAIAMhAgwECyAAKAKIASADQQJ0aiAAKAJ8IARqLQAAs0MAAADDkkMAAAA8lDgCACABQQ1qIgQgACgCgAEiCk8NACACQQRqIgMgACgCjAEiCk8EQCADIQIMBAsgACgCiAEgA0ECdGogACgCfCAEai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEQaiIEIAAoAoABIgpPDQAgAkEHaiIDIAAoAowBIgpPBEAgAyECDAQLIAAoAogBIANBAnRqIAAoAnwgBGotAACzQwAAAMOSQwAAADyUOAIAIAFBE2oiBCAAKAKAASIKTw0AIAJBCmoiAyAAKAKMASIKTwRAIAMhAgwECyAAKAKIASADQQJ0aiAAKAJ8IARqLQAAs0MAAADDkkMAAAA8lDgCACABQRZqIgQgACgCgAEiCk8NACACQQ1qIgMgACgCjAEiCk8EQCADIQIMBAsgACgCiAEgA0ECdGogACgCfCAEai0AALNDAAAAw5JDAAAAPJQ4AgAgAUELaiIEIAAoAoABIgpPDQAgAkECaiIDIAAoAowBIgpPBEAgAyECDAQLIAAoAogBIANBAnRqIAAoAnwgBGotAACzQwAAAMOSQwAAADyUOAIAIAFBDmoiBCAAKAKAASIKTw0AIAJBBWoiAyAAKAKMASIKTwRAIAMhAgwECyAAKAKIASADQQJ0aiAAKAJ8IARqLQAAs0MAAADDkkMAAAA8lDgCACABQRFqIgQgACgCgAEiCk8NACACQQhqIgMgACgCjAEiCk8EQCADIQIMBAsgACgCiAEgA0ECdGogACgCfCAEai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEUaiIEIAAoAoABIgpPDQAgAkELaiIDIAAoAowBIgpPBEAgAyECDAQLIAAoAogBIANBAnRqIAAoAnwgBGotAACzQwAAAMOSQwAAADyUOAIAIAFBF2oiBCAAKAKAASIKTw0AIAJBDmoiAiAAKAKMASIKTw0DIAAoAogBIAJBAnRqIAAoAnwgBGotAACzQwAAAMOSQwAAADyUOAIAIAAoArABQQJNDQJBACEKIA0hBAwBCyAEIApBzNTBABCMBwALAkACQAJAAkACQAJAAkACfwJAAkACQAJAAkACQANAIAAoAoABIgIgCiASaiIBQRhqSwRAIAYgCmoiAyAAKAKMASICTw0PIAAoAogBIARqIAEgACgCfGpBGGotAACzQwAAAMOSQwAAADyUOAIAIAAoAoABIgIgAUEbak0NByAAKAKMASICIANBA2pNDQ4gACgCiAEgBGpBDGogASAAKAJ8akEbai0AALNDAAAAw5JDAAAAPJQ4AgAgACgCgAEiAiABQR5qTQ0GIAAoAowBIgIgA0EGak0NDSAAKAKIASAEakEYaiABIAAoAnxqQR5qLQAAs0MAAADDkkMAAAA8lDgCACAAKAKAASICIAFBIWpNDQUgACgCjAEiAiADQQlqTQ0MIAAoAogBIARqQSRqIAEgACgCfGpBIWotAACzQwAAAMOSQwAAADyUOAIAIAAoAoABIgIgAUEkak0NBCAAKAKMASICIANBDGpNDQsgACgCiAEgBGpBMGogASAAKAJ8akEkai0AALNDAAAAw5JDAAAAPJQ4AgAgACgCgAEiAiABQSdqTQ0DIAAoAowBIgIgA0EPak0NCiAAKAKIASAEakE8aiABIAAoAnxqQSdqLQAAs0MAAADDkkMAAAA8lDgCACAAKAKAASICIAFBKmpNDQIgACgCjAEiAiADQRJqTQ0JIAAoAogBIARqQcgAaiAAKAJ8IBJqIApqQSpqLQAAs0MAAADDkkMAAAA8lDgCACAEQQRqIQQgCkEBaiIKQQNJDQEMEAsLIAFBGGoMBgsgAUEqagwFCyABQSdqDAQLIAFBJGoMAwsgAUEhagwCCyABQR5qDAELIAFBG2oLIAJBrNTBABCMBwALIANBEmohAwwFCyADQQ9qIQMMBAsgA0EMaiEDDAMLIANBCWohAwwCCyADQQZqIQMMAQsgA0EDaiEDCyADIAJBvNTBABCMBwALIA8gEmohEiAGQRVqIQYgDUHUAGohDSAIIAggEEkiAmohASACRQ0CDAELCyACIApB3NTBABCMBwALIAAoAowBIQELAkACQAJAAkACQAJAIAEgDE8EQCAAKAKIASEDIAAoArQBIQhBACECQQQhCgJAIAAoArABIgRBAkkEQEEEIQZBACESDAELIBBBGGwiBSABSw0CIBBBD2whEiADIAxBAnRqIQYgBEECRg0AIAEgEUkgBSARS3INByARIAVrIQIgAyAFQQJ0aiEKCyAAIAggECADIAwgBiASIAogAhDqBCAAKAKAASICIBFJDQIgAEEANgKAASACIBFrIQEgC0UNAyACIBFGDQUgAUUNBCAAKAJ8IgIgAiARaiAB/AoAAAwEC0EAIAwgAUGc1MEAEOoHAAsgDCAFIAFBjNTBABDqBwALQQAgESACQYSkxwAQ6gcACyACIBFGDQELIAAgATYCgAELIAAgACgCtAEgEGoiAjYCtAEgAiAAKAKsAUcNDyAAQQA2ArQBIABBBjoAuAEMDwsgBSARIAFB/NPBABDqBwALIAEgAkHs1MEAEIwHAAsgACgCgAFBBEEDIAAoAqgBIgRBA0YbIg1uIgIgACgCrAEgACgCtAFrIghJBEAgAiIIQYCABEkNDAsCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAQYCABCAIIAhBgIAETxsiBUECdCICIAAoAowBIgFLBH8gAiABayIGIAAoAoQBIAFrSwRAIBQgASAGQQRBBBCkBSAAKAKMASEBCyAAKAKIASIEIAFBAnRqIQMgBkECTwR/IAZBAnRBBGsiAgRAIANBACAC/AsACyABIAZqIgJBAWshASAEIAJBAnRqQQRrBSADC0EANgIAIAAgAUEBajYCjAEgACgCqAEFIAQLQQNHBEAgCEUNDEEAIQNBACEBQQAhAkEAIQQDQCABIAAoAoABIglPDQIgAUEBaiIGIAlPDQMgAUECaiIGIAlPDQRDAACAPyAAKAJ8IAFqIgYtAACzQwAA/0KVQwAAgL+SIh8gH5QgBkEBai0AALNDAAD/QpVDAACAv5IiHiAelJIgBkECai0AALNDAAD/QpVDAACAv5IiHSAdlJKTQwAAAAAQ4AghHCAEIAAoAowBIgZPDQUgACgCiAEgAmogHzgCACAEQQFqIgkgACgCjAEiBk8NBiAAKAKIASACakEEaiAeOAIAIARBAmoiCSAAKAKMASIGTw0HIAAoAogBIAJqQQhqIB04AgAgBEEDaiIJIAAoAowBIgZPDQggACgCiAEgAmpBDGogHJE4AgAgAUEDaiEBIAJBEGohAiAEQQRqIQQgA0EBaiIDIAVJDQALDAsLIAhFDQtBACECQQEhBkEAIQQDQAJAAkACQAJAIAAoAoABIgEgBEsEQCAEQQFqIhAgAU8NASAEQQJqIhIgAU8NAiAEQQNqIg8gAU8NAyAAKAJ8IARqIgNBAmotAAAhCSADQQNqLQAAIQwgAy0AACADQQFqLQAAIQsgB/0MAAAAAAAAAAAAAAAAAAAAAP0LA1AgC0EIdHIiAyAJQRB0IAxBGHRyciEBQwAAAAAhHQJ/AkAgDEEGdiIJQQNHBEAgByADQf8DcbNDAID/Q5VD8wQ1P5QiHIwgHCALQQJxGyIcOAJcIBwgHJQhHSABQQp2IQEgCUECRg0BCyAHIAFB/wNxs0MAgP9DlUPzBDU/lCIcjCAcIAFBgARxGyIcOAJYIB0gHCAclJIhHSABQQp2IgEgCUEBRg0BGgsgByABQf8DcbNDAID/Q5VD8wQ1P5QiHIwgHCABQYAEcRsiHDgCVCAdIBwgHJSSIR0gAUEKdgshASAHQdAAaiAJQQJ0akMAAIA/IAxBwABPBH0gByABQf8DcbNDAID/Q5VD8wQ1P5QiHIwgHCABQYAEcRsiHDgCUCAdIBwgHJSSBSAdC5MiHJFDAAAAACAcQwAAAABeGzgCACAEIAAoAowBIgFJDQQgBCABQbzSwQAQjAcACyAEIAFB/NHBABCMBwALIBAgAUGM0sEAEIwHAAsgEiABQZzSwQAQjAcACyAPIAFBrNLBABCMBwALIAAoAogBIAJqIAcqAlA4AgAgECAAKAKMASIBTw0KIAAoAogBIAJqQQRqIAcqAlQ4AgAgEiAAKAKMASIBTw0JIAAoAogBIAJqQQhqIAcqAlg4AgAgDyAAKAKMASIBTw0IIAAoAogBIAJqQQxqIAcqAlw4AgAgAkEQaiECIARBBGohBCAFIAZLIAZBAWohBg0ACwwKCyABIAlB/NLBABCMBwALIAYgCUGM08EAEIwHAAsgBiAJQZzTwQAQjAcACyAEIAZBrNPBABCMBwALIAkgBkG808EAEIwHAAsgCSAGQczTwQAQjAcACyAJIAZB3NPBABCMBwALIA8gAUHs0sEAEIwHAAsgEiABQdzSwQAQjAcACyAQIAFBzNLBABCMBwALIAhFDQAgACgCjAEhDCAAKAKIASEKQQAhBCAAKAIIIgsgACgCtAEiA2siAkEAIAIgC00bIQIgACgCBCADQRhsakEUaiEBIAUhBgNAIAJFDQIgBEEDaiAMTw0DIAcgCv0AAgD9CwRQIAFBAmogB0HQAGoQnQQiCUEQdjoAACABIAk7AQAgCkEQaiEKIARBBGohBCABQRhqIQEgA0EBaiEDIAJBAWshAiAGQQFrIgYNAAsLIAAoAoABIgEgBSANbCICSQ0XIABBADYCgAEgASACayEEIAhFDQIgASACRg0EIARFDQMgACgCfCIBIAEgAmogBPwKAAAMAwsgAyALQey7xwAQjAcACyAEIARBBGogDEHUxMcAEOoHAAsgASACRg0BCyAAIAQ2AoABCyAAIAAoArQBIAVqIgI2ArQBIAIgACgCrAFHDQwgAEEANgK0ASAAQQU6ALgBDAwLIAAoAoABIgFBA24iAiAAKAKsASAAKAK0AWsiCEkEQCACIQggAUGAgAxJDQsLQYCABCAIIAhBgIAETxsiC0EDbCIMIAAoAowBIgFLBEAgDCABayIGIAAoAoQBIAFrSwRAIBQgASAGQQRBBBCkBSAAKAKMASEBCyAAKAKIASIEIAFBAnRqIQMgBkECTwR/IAZBAnRBBGsiAgRAIANBACAC/AsACyABIAZqIgJBAWshASAEIAJBAnRqQQRrBSADC0EANgIAIAAgAUEBajYCjAELAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAgEQEEAIQRBACEBA0AgASAAKAKAASICTw0CIAEgACgCjAEiAk8NAyAAKAKIASAEaiAAKAJ8IAFqLQAAs0MAAIA9lEMAACDBkhCJBDgCACABQQFqIgMgACgCgAEiAk8NBCADIAAoAowBIgJPDQUgACgCiAEgBGpBBGogACgCfCABakEBai0AALNDAACAPZRDAAAgwZIQiQQ4AgAgAUECaiIDIAAoAoABIgJPDQYgAyAAKAKMASICTw0HIAAoAogBIARqQQhqIAAoAnwgAWpBAmotAACzQwAAgD2UQwAAIMGSEIkEOAIAIARBDGohBCAMIAFBA2oiAUcNAAsgACgCtAEiCUEYbCECIAAoAogBIQQgACgCjAEhDUEAIQNBACEBA0AgASAJaiIFIAAoAggiBk8NCCADQQNqIgYgDUsgAUHUqtWqBUtyDQkgACgCBCACaiAXIAT9XQIAIARBCGoqAgAiHP0gAiAc/SADEN8EIARBDGohBCACQRhqIQIgBiEDIAsgAUEBaiIBRw0ACwsgACgCgAEiAiAMSQ0IIABBADYCgAEgAiAMayEBIAhFDQkgAiAMRg0LIAFFDQogACgCfCICIAIgDGogAfwKAAAMCgsgASACQZzRwQAQjAcACyABIAJBrNHBABCMBwALIAMgAkG80cEAEIwHAAsgAyACQczRwQAQjAcACyADIAJB3NHBABCMBwALIAMgAkHs0cEAEIwHAAsgBSAGQey7xwAQjAcACyADIAYgDUG0xccAEOoHAAtBACAMIAJBhKTHABDqBwALIAIgDEYNAQsgACABNgKAAQsgACAAKAK0ASALaiICNgK0ASACIAAoAqwBRw0LIABBADYCtAEgAEEEOgC4AQwLCyAAKAKAASIBQQNuIgIgACgCrAEgACgCtAFrIgZJBEAgAiEGIAFBgIAMSQ0KC0GAgAQgBiAGQYCABE8bIgNBA2wiCSAAKAKMASIBSwRAIAkgAWsiBSAAKAKEASABa0sEQCAUIAEgBUEEQQQQpAUgACgCjAEhAQsgACgCiAEiBCABQQJ0aiEIIAVBAk8EfyAFQQJ0QQRrIgIEQCAIQQAgAvwLAAsgASAFaiICQQFrIQEgBCACQQJ0akEEawUgCAtBADYCACAAIAFBAWoiATYCjAELAkACQAJAAkACQAJAAkACQAJAAkAgBgRAQQAhBEEAIQEDQCABIAAoAoABIgJPDQIgASAAKAKMASICTw0DIAAoAogBIARqIAAoAnwgAWotAACzQwAAf0OVQwAAAL+SQ4y48D+UQwAAAD+SOAIAIAFBAWoiCCAAKAKAASICTw0EIAggACgCjAEiAk8NBSAAKAKIASAEakEEaiAAKAJ8IAFqQQFqLQAAs0MAAH9DlUMAAAC/kkOMuPA/lEMAAAA/kjgCACABQQJqIgggACgCgAEiAk8NBiAIIAAoAowBIgJPDQcgACgCiAEgBGpBCGogACgCfCABakECai0AALNDAAB/Q5VDAAAAv5JDjLjwP5RDAAAAP5I4AgAgBEEMaiEEIAkgAUEDaiIBRw0ACyAAKAKMASEBCyAAIAAoArQBIAMgACgCiAEgARCkBCAAKAKAASICIAlJDQYgAEEANgKAASACIAlrIQEgBkUNByACIAlGDQkgAUUNCCAAKAJ8IgIgAiAJaiAB/AoAAAwICyABIAJBvNDBABCMBwALIAEgAkHM0MEAEIwHAAsgCCACQdzQwQAQjAcACyAIIAJB7NDBABCMBwALIAggAkH80MEAEIwHAAsgCCACQYzRwQAQjAcAC0EAIAkgAkGEpMcAEOoHAAsgAiAJRg0BCyAAIAE2AoABCyAAIAAoArQBIANqIgI2ArQBIAIgACgCrAFHDQogAEEANgK0ASAAQQM6ALgBDAoLIAAoAoABIgIgACgCrAEgACgCtAFrIgNJBEAgAiIDQYCABEkNCQtBgIAEIAMgA0GAgARPGyICIAAoAowBIgFLBEAgAiABayIFIAAoAoQBIAFrSwRAIBQgASAFQQRBBBCkBSAAKAKMASEBCyAAKAKIASIIIAFBAnRqIQYgBUECTwR/IAVBAnRBBGsiBARAIAZBACAE/AsACyABIAVqIgRBAWshASAIIARBAnRqQQRrBSAGC0EANgIAIAAgAUEBaiIBNgKMAQsCQAJAAkACQAJAIAMEQEMAAIA/QwAAAEAgACwAugFBAE4bIRxBACEEQQAhAQNAIAEgACgCgAEiCE8NAiABIAAoAowBIghPDQMgACgCiAEgBGogHCAAKAJ8IAFqLQAAs0MAAH9DlZQ4AgAgBEEEaiEEIAIgAUEBaiIBRw0ACyAAKAKMASEBCyAAKAIEIAAoAgggACgCtAEgAiAAKAKIASABEKoCIAAoAoABIgEgAkkNFCAAQQA2AoABIAEgAmshBCADRQ0CIAEgAkYNBCAERQ0DIAAoAnwiASABIAJqIAT8CgAADAMLIAEgCEGc0MEAEIwHAAsgASAIQazQwQAQjAcACyABIAJGDQELIAAgBDYCgAELIAAgACgCtAEgAmoiAjYCtAEgAiAAKAKsAUcNCSAAQQA2ArQBIABBAjoAuAEMCQsgCEUNAUEBIAAtALkBdLMhHEEAIQZBACEBQQAhAkEAIQQCQAJAAkACQANAIAFBA2oiCyAAKAKAASIDSwRAIAEgCyADQYzQwQAQ6gcACyAEIAAoAowBIgNPDQEgACgCiAEgAmogACgCfCABaiIDQQJqLQAAIgVBEHQgAy0AAHIgA0EBai0AAEEIdHIiA0GAgIB4ciADIAXAQQBIG7IgHJU4AgAgAUEGaiIJIAAoAoABIgNLDQIgBEEBaiIFIAAoAowBIgNPDQMgACgCiAEgAmpBBGogACgCfCABaiIDQQVqLQAAIgVBEHQgA0EDai0AAHIgA0EEai0AAEEIdHIiA0GAgIB4ciADIAXAQQBIG7IgHJU4AgAgAUEJaiIDIAAoAoABIgVLDQQgBEECaiIJIAAoAowBIgVJBEAgACgCiAEgAmpBCGogACgCfCABaiIBQQhqLQAAIgVBEHQgAUEGai0AAHIgAUEHai0AAEEIdHIiAUGAgIB4ciABIAXAQQBIG7IgHJU4AgAgAkEMaiECIARBA2ohBCADIQEgBkEBaiIGIA9JDQEMBgsLIAkgBUHcz8EAEIwHAAsgBCADQbzPwQAQjAcACyALIAkgA0H8z8EAEOoHAAsgBSADQczPwQAQjAcACyAJIAMgBUHsz8EAEOoHAAsgCEUNACAAKAKMASEMIAAoAogBIQRBACEGIAAoAggiCyAAKAK0ASIJayICQQAgAiALTRshBSAAKAIEIAlBGGxqIQJBACEBA0AgASAFRg0CIAZBA2oiAyAMSyABQdSq1aoFS3INAyACIARBCGogBP1dAgD9VgIAAiIg/VoCCAIgAiAg/VsCAAAgBEEMaiEEIAJBGGohAiADIQYgDyABQQFqIgFHDQALCyAAKAKAASIBIA0gD2wiAkkNDCAAQQA2AoABIAEgAmshBCAIRQ0CIAEgAkYNBCAERQ0DIAAoAnwiASABIAJqIAT8CgAADAMLIAEgCWogC0Hsu8cAEIwHAAsgBiADIAxB9MLHABDqBwALIAEgAkYNAQsgACAENgKAAQsgACAAKAK0ASAPaiICNgK0ASACIAAoAqwBRw0BIABBADYCtAEgAEEBOgC4AQwBCwsgBy0ADyEBCyAOIBZqIQ4CQAJAAkACQAJAIAFB/wFxDgMBAgMACyAHQQE2AlQgB0GY98cANgJQIAdCATcCXCAHIAdBD2qtQoCAgICgBIQ3A0AgByAHQUBrNgJYIAdBEGoiACAHQdAAahCxBiAAEI4HIQEMBgsgAEEBOgDFUyAOQQhqIA4gACgCaCIBIA5rIgJBACABIAJPG0EHSxshDgwCCyATIBZyRQ0BCyAOIAAoAmgiBEkNAQsLIA5FDQAgDiAAKAJoIgJNBEBBACEBIABBADYCaCACIA5GDQIgAiAOayIEBEAgACgCZCICIAIgDmogBPwKAAALIAAgBDYCaAwCC0EAIA4gAkGEpMcAEOoHAAtBACEBCyAHQfAAaiQAIAEPC0EAIAEgBEGEpMcAEOoHAAtBACACIAFBhKTHABDqBwALzF8EE38SfQh7BH4jAEGQBWsiCiQAIAAoAgghFiAKQQA2AtADIApBADYC1AQgCiAANgKoASAKIAEgAkECdCIMaiIUNgKkASAKIAE2AqABIApB1ANqIQkgCkHUBGohBkEgIQcCQAJAAkACQAJAAn8gAkEhSQRAIAYhCCAJDAELIApBEGogCkHQA2pBfyACQQFrZ3ZBAWoQ9AMgCigCECIIQYGAgIB4RwRAIAgNAkHYlccAQRFB1MzHABDrBwALIAooAtQEIgdBIUkEQCAHIQQgBiEIQSAhByAJDAELIAooAtQDIQQgCSEIIAooAtgDCyEFAkACQCAIIAQgB0kEfyAFIARBAnRqIQUDQCAKQQhqIApBoAFqEMMEIAooAghBAXFFDQIgBSAKKgIMOAIAIAVBBGohBSAHIARBAWoiBEcNAAsgBwUgBAs2AgAgCkEgaiAKQagBaigCADYCACAKIAopAqABNwMYA0AgCiAKQRhqEMMEIAooAgBBAXFFDQICfyAKKALUBCIHQSFJBEAgByEFIAkhCEEgIQcgBgwBCyAKKALUAyEFIAooAtgDIQggCQshBCAKKgIEIRcgBSAHRgR/IApB0ANqENMGIAooAtgDIQggCSEEIAooAtQDBSAFC0ECdCAIaiAXOAIAIAQgBCgCAEEBajYCAAwACwALIAggBDYCAAsgCkEYaiAKQdADakGIAfwKAAACQAJ/IAooApwBIglBIU8EQCAKKAIgIQYgCigCHAwBCyAKQRxqIQYgCQsiCEUEQEMAAACAIRsMAQsgCEEDcSEEAkAgCEEESQRAQQAhB0MAAACAIRsMAQsgCEF8cSEIQQAhB0MAAACAIRsgBiEFA0AgGyAFKgIAkiAFQQRqKgIAkiAFQQhqKgIAkiAFQQxqKgIAkiEbIAVBEGohBSAIIAdBBGoiB0cNAAsLIARFDQAgBiAHQQJ0aiEFA0AgGyAFKgIAkiEbIAVBBGohBSAEQQFrIgQNAAsLIBtDYEKiDRDgCCEnIApBHGoiFSEIIAlBIU8EQCAKKAIcIQkgCigCICEICwJAIAlFDQAgCCEFIAlBAnQiC0EEayIEQQxPBEAgBSAEQQJ2QQFqIgZB/P///wdxIglBAnRqIQUgJ/0TISkgCSEHIAghBANAIAQgBP0AAgAgKf3nAf0LAgAgBEEQaiEEIAdBBGsiBw0ACyAGIAlGDQELIAggC2ohCANAIAUgBSoCACAnlTgCACAFQQRqIgUgCEcNAAsLIAJFBEAgCkIANwOwAUMAAAAAIRsMBQsgCigCHCAKKAKcASIIIAhBIEsiCBshDyAMQQRrQQJ2QQFqIQwgACgCBCELIAAoAgghDSAKKAIgIBUgCBsiCSEIQQAhByABQQRqIgUhBCABIQYDQCAGKAIAIgYgDU8NAiAHIA9PDQMgCyAGQSRsaiIGKgIMIRogBioCCCEYIAYqAhAgCCoCACEZIApB0ANqIAYQpAMgCv0ABNADIin9HwIgGSAt/R8CELQG/RMgKf0fACAZIC39HwAQtAb9IAAgKf0fASAZIC39HwEQtAb9IAEhLSAZIC79HwIQtAb9EyAYIBkgLv0fABC0Bv0gACAaIBkgLv0fARC0Bv0gASEuIAhBBGohCCAEQQRBACAEIgYgFEcbaiEEIAwgB0EBaiIHRw0ACyAKQgA3A7ABIANDAAAAP5QiAyADlCEoQQAhByABIQRDAAAAACEbA0AgDSAEKAIAIghNBEAgCCANQfS/xwAQjAcACyAHIA9PDQQgCyAIQSRsaiIEQRBqIAT9XQII/VYCAAIhKSAJKgIAISQgCkHQA2oiCCAEEJoDIAr9AATQAyEvIAggBCkCABDLAiAoICkgLv3lASIw/R8AIh8gH5QgLyAq/Q0ICQoLCAkKCwgJCgsAAQIDIAr9AATQAyIp/R8AIiYgKf0fAiIdIB2SIiCUIiEgKf0fAyIeICn9HwEiGCAYkiIXlCIikv0TIBggIJQiHCAeICYgJpIiA5QiGZP9IAFDAACAPyAmIAOUIgMgGCAXlCIakpP9IAL95gEiK/0fACIjICOUIC8gKv0NBAUGBwQFBgcEBQYHAAECAyAmIBeUIhggHiAglCIXk/0TQwAAgD8gAyAdICCUIgOSk/0gASAcIBmS/SAC/eYBIiz9HwAiHSAdlCAvICr9DQABAgMAAQIDAAECAwABAgNDAACAPyAaIAOSk/0TIBggF5L9IAEgISAik/0gAv3mASIp/R8AIh4gHpSSkpKSICQgKv0fABC0Bv0TICggMP0fASIhICGUICv9HwEiIiAilCAs/R8BIhwgHJQgKf0fASIZIBmUkpKSkiAkICr9HwEQtAb9IAEgKCAw/R8CIhogGpQgK/0fAiIYIBiUICz9HwIiFyAXlCAp/R8CIgMgA5SSkpKSICQgKv0fAhC0Bv0gAiAfICGUICMgIpQgHSAclCAeIBmUkpKSICQgKv0fAxC0Bv0gAyEqIAlBBGohCUEEQQAgBSIEIBRHGyAEaiEFICEgGpQgIiAYlCAcIBeUIBkgA5SSkpIgJCAbELQGIRsgHyAalCAjIBiUIB0gF5QgHiADlJKSkiAkICUQtAYhJSAHQQFqIgcgDEcNAAsMBAsACyAGIA1B1MDHABCMBwALIAcgD0GUwMcAEIwHAAsgByAPQYTAxwAQjAcACyAKIBs4ArQBIAogJTgCsAEgCiAq/QsEoAEgKv3gASIp/QwAAIB/AACAfwAAgH8AAIB//UQgKf0MAACAfwAAgH8AAIB/AACAf/1D/VD9TSIp/RsAQQFxICn9xwH9GwJBAXFyRSAq/R8CvEH/////B3FB////+wdNcUUEQEG8vMcAQewAQai9xwAQ6wcACwJ9AkACQCAq/R8DvEH/////B3FB////+wdLICW8Qf////8HcUH////7B0tyIBu8Qf////8HcUH////7B0tyRQRAIApB0ANqIApBoAFqEK4BIAr9AASABCErIAoqAvgDIR8gCioC8AMhICAKKgLkAyEjIAoqAvQDIRwgCioC4AMhGiAKKgLoAyEdIAoqAtADQwAAAAAQ4AggCioC1ANDAAAAABDgCCEXIAoqAtgDQwAAAAAQ4AghA/0TIBf9IAH94wEiLP0M////f////3////9/////f/1O/QwAAIB/AACAfwAAgH8AAIB//T8iKf0bAEEBcSAp/ccB/RsCQQFxcg0BIAORIgO8Qf////8HcUH////7B0sNASAsIAP9IAIgA/0gA/0MYEKiDWBCog1gQqINYEKiDf3rASEsICv94QEgK/0fAiIYjCID/SACIAP9IAMgKyAdICAgK/0fASIXlCAcICv9HwAiA5STlCAaIBwgGJQgHyAXlJOUICMgICAYlCAfIAOUk5STkkMAAAAAXRsiKf0fASEZICn9HwAhGCAp/R8CIgNDAAAAAF9FBEAgA0MAAIA/kiEXIBogHJIiA0MAAAAAX0UEQCADIBeSIgNDAAAAPyADkZUiA5QhHiAjICCTIAOUISEgGCAdkyADlCEiIB8gGZMgA5QMBQsgIyAgk0MAAAA/IBcgA5MiA5GVIheUIR4gAyAXlCEhIB8gGZIgF5QhIiAdIBiSIBeUDAQLQwAAgD8gA5MhFyAcIBqTIgNDAAAAAF9FDQIgHyAZk0MAAAA/IBcgA5MiA5GVIheUIR4gHSAYkiAXlCEhICMgIJIgF5QhIiADIBeUDAMLQbi9xwBB7ABBpL7HABDrBwALQfS4xwBB1gBBtL7HABDrBwALIBggHZNDAAAAPyADIBeSIgORlSIXlCEeIB8gGZIgF5QhISADIBeUISIgIyAgkiAXlAsgLP0fACIcICz9HwEiGZRDj8LNPxC3CiEXIBwgLP0fAiIalEOPws0/ELcKIQNDAAB6REO9N4Y1ICcgGSAalEOPws0/ELcKIBcgA5KSQwAAQECVQ+ZAHz8QtwpD2w9JQZSVIgMgA0O9N4Y1XRsiAyADQwAAekReG7wiBEH///8DcSEFIARBgICAgHhxIQgCQCAEQYCAgPwHcSIHQYCAgPwHRgRAIAVBDXYgCEEQdnJBgARBACAFG3JBgPgBciEODAELIAhBEHYhDiAHQYCAgLgETQRAIAdBgICAxANPBEAgBEEMdiAEQf/fAHFBAEdxIAdBDXYgBUENdmpBgIABaiAOcmohDgwCCyAHQYCAgJgDSQ0BIAVBgICABHIiBEH+ACAHQRd2IghrdiEFIARBHSAIayIIdkEBcQR/IAVBAyAIdEEBayAEcUEAR2oFIAULIA5yIQ4MAQsgDkGA+AFyIQ4LIC39GwAiBEH///8DcSEFIARBgICAgHhxIQggLf0bASELAkAgBEGAgID8B3EiB0GAgID8B0YEQCAFQQ12IAhBEHZyQYAEQQAgBRtyQYD4AXIhEQwBCyAIQRB2IREgB0GAgIC4BE0EQCAHQYCAgMQDTwRAIARBDHYgBEH/3wBxQQBHcSAHQQ12IAVBDXZqQYCAAWogEXJqIREMAgsgB0GAgICYA0kNASAFQYCAgARyIgRB/gAgB0EXdiIIa3YhBSAEQR0gCGsiCHZBAXEEfyAFQQMgCHRBAWsgBHFBAEdqBSAFCyARciERDAELIBFBgPgBciERCyAt/RsCIQYgC0H///8DcSEFIAtBgICAgHhxIQgCQCALQYCAgPwHcSIJQYCAgPwHRwRAIAhBEHYhByAJQYCAgLgETQRAIAlBgICAxANPBEAgC0EMdiALQf/fAHFBAEdxIAlBDXYgBUENdmpBgIABaiAHcmohBwwDCyAJQYCAgJgDSQ0CIAVBgICABHIiBEH+ACAJQRd2IghrdiEFIARBHSAIayIIdkEBcQR/IAVBAyAIdEEBayAEcUEAR2oFIAULIAdyIQcMAgsgB0GA+AFyIQcMAQsgBUENdiAIQRB2ckGABEEAIAUbckGA+AFyIQcLIAZB////A3EhBSAGQYCAgIB4cSEIAkAgBkGAgID8B3EiBEGAgID8B0cEQCAIQRB2IQggBEGAgIC4BE0EQCAEQYCAgMQDTwRAIAZBDHYgBkH/3wBxQQBHcSAEQQ12IAVBDXZqQYCAAWogCHJqIQgMAwsgBEGAgICYA0kNAiAFQYCAgARyIglB/gAgBEEXdiIFa3YhBCAJQR0gBWsiBXZBAXEEfyAEQQMgBXRBAWsgCXFBAEdqBSAECyAIciEIDAILIAhBgPgBciEIDAELIAVBDXYgCEEQdnJBgARBACAFG3JBgPgBciEICyAcEMYFvCIJQf///wNxIQQgCUGAgICAeHEhBQJAIAlBgICA/AdxIgZBgICA/AdGBEAgBEENdiAFQRB2ckGABEEAIAQbckGA+AFyIRAMAQsgBUEQdiEQIAZBgICAuARNBEAgBkGAgIDEA08EQCAJQQx2IAlB/98AcUEAR3EgBkENdiAEQQ12akGAgAFqIBByaiEQDAILIAZBgICAmANJDQEgBEGAgIAEciIJQf4AIAZBF3YiBWt2IQQgCUEdIAVrIgV2QQFxBH8gBEEDIAV0QQFrIAlxQQBHagUgBAsgEHIhEAwBCyAQQYD4AXIhEAsgGRDGBbwiBkH///8DcSEEIAZBgICAgHhxIQUCQCAGQYCAgPwHcSILQYCAgPwHRwRAIAVBEHYhCSALQYCAgLgETQRAIAtBgICAxANPBEAgBkEMdiAGQf/fAHFBAEdxIAtBDXYgBEENdmpBgIABaiAJcmohCQwDCyALQYCAgJgDSQ0CIARBgICABHIiBkH+ACALQRd2IgVrdiEEIAZBHSAFayIFdkEBcQR/IARBAyAFdEEBayAGcUEAR2oFIAQLIAlyIQkMAgsgCUGA+AFyIQkMAQsgBEENdiAFQRB2ckGABEEAIAQbckGA+AFyIQkLIBoQxgW8IgtB////A3EhBCALQYCAgIB4cSEFAkAgC0GAgID8B3EiDEGAgID8B0cEQCAFQRB2IQYgDEGAgIC4BE0EQCAMQYCAgMQDTwRAIAtBDHYgC0H/3wBxQQBHcSAMQQ12IARBDXZqQYCAAWogBnJqIQYMAwsgDEGAgICYA0kNAiAEQYCAgARyIgtB/gAgDEEXdiIFa3YhBCALQR0gBWsiBXZBAXEEfyAEQQMgBXRBAWsgC3FBAEdqBSAECyAGciEGDAILIAZBgPgBciEGDAELIARBDXYgBUEQdnJBgARBACAEG3JBgPgBciEGC7wiC0H///8DcSEEICK8IQ8CfiAEQQ12IhIgC0GAgICAeHEiBUEQdnJBgARBACAEG3JBgPgBcq0gC0GAgID8B3EiDUGAgID8B0YNABogBUEQdiEMAkAgDUGAgIC4BE0EQCASIA1BDXZqQYCAAWogDHKtIAtBDHYgC0H/3wBxQQBHca18IA1BgICAxANPDQIaIA1BgICAmANJDQEgBEGAgIAEciILQf4AIA1BF3YiBWt2IQQgC0EdIAVrIgV2QQFxBH8gBEEDIAV0QQFrIAtxQQBHagUgBAsgDHKtDAILIAxBgPgBcq0MAQsgDK0LITEgIbwhEiAPQf///wNxIQQgD0GAgICAeHEhBQJ+IA9BgICA/AdxIg1BgICA/AdHBEAgBUEQdiEMIA1BgICAuARNBEAgDUENdiAEQQ12akGAgAFqIAxyrSAPQQx2IA9B/98AcUEAR3GtfCANQYCAgMQDTw0CGiANQYCAgJgDTwRAIARBgICABHIiC0H+ACANQRd2IgVrdiEEIAtBHSAFayIFdkEBcQR/IARBAyAFdEEBayALcUEAR2oFIAQLIAxyrQwDCyAMrQwCCyAMQYD4AXKtDAELIAVBEHYgBEENdnJBgARBACAEG3JBgPgBcq0LITIgHrwhDyASQf///wNxIQQgEkGAgICAeHEhBQJ+IBJBgICA/AdxIg1BgICA/AdHBEAgBUEQdiEMIA1BgICAuARNBEAgDUENdiAEQQ12akGAgAFqIAxyrSASQQx2IBJB/98AcUEAR3GtfCANQYCAgMQDTw0CGiANQYCAgJgDTwRAIARBgICABHIiC0H+ACANQRd2IgVrdiEEIAtBHSAFayIFdkEBcQR/IARBAyAFdEEBayALcUEAR2oFIAQLIAxyrQwDCyAMrQwCCyAMQYD4AXKtDAELIAVBEHYgBEENdnJBgARBACAEG3JBgPgBcq0LITMgD0H///8DcSEEIA9BgICAgHhxIQUCfiAPQYCAgPwHcSINQYCAgPwHRwRAIAVBEHYhDCANQYCAgLgETQRAIA1BDXYgBEENdmpBgIABaiAMcq0gD0EMdiAPQf/fAHFBAEdxrXwgDUGAgIDEA08NAhogDUGAgICYA08EQCAEQYCAgARyIgtB/gAgDUEXdiIFa3YhBCALQR0gBWsiBXZBAXEEfyAEQQMgBXRBAWsgC3FBAEdqBSAECyAMcq0MAwsgDK0MAgsgDEGA+AFyrQwBCyAFQRB2IARBDXZyQYAEQQAgBBtyQYD4AXKtCyE0IAAoAggiCyAAKAIARgRAIwBBIGsiDSQAAkAgACgCACIMQfG4nA5LBH9BAAVBBCAMQQF0IgUgBUEETRsiBEEkbCEFIA0gDAR/IA0gDEEkbDYCHCANIAAoAgQ2AhRBBAVBAAs2AhggDUEIakEEIAUgDUEUahCFByANKAIIQQFHDQEgDSgCECEAIA0oAgwLIABBxL7HABCTCQALIA0oAgwhBSAAIAQ2AgAgACAFNgIEIA1BIGokAAsgACgCBCALQSRsaiIFIC79WgIQAiAFIC79WwIIACAFIAY7ASAgBSAJOwEeIAUgEDsBHCAFIAg7ARogBSAHOwEYIAUgETsBFiAFIA47ARQgBSAxQv//A4MgMkIQhkKAgPz/D4MgM0IghkKAgICA8P8/gyA0QjCGhISENwIAIAAgC0EBajYCCCAKQdADaiABIBQQmQMgACgCFCIEIAAoAgxGBEAjAEEgayIGJAACQCAAQQxqIgkoAgAiB0Gq1aoVSwR/QQAFQQQgB0EBdCIIIAhBBE0bIgVBGGwhCCAGIAcEfyAGIAdBGGw2AhwgBiAJKAIENgIUQQQFQQALNgIYIAZBCGpBBCAIIAZBFGoQhQcgBigCCEEBRw0BIAYoAhAhCSAGKAIMCyAJQdS+xwAQkwkACyAGKAIMIQggCSAFNgIAIAkgCDYCBCAGQSBqJAALIAAoAhAgBEEYbGoiCCAK/QAC0AP9CwIAIAhBEGogCkHgA2opAgA3AgAgACAEQQFqNgIUAkAgACgCPEUNACAKQeABaiIS/QwAAAAAAAAAAAAAAAAAAAAA/QsEACAKQdABav0MAAAAAAAAAAAAAAAAAAAAAP0LBAAgCv0MAAAAAAAAAAAAAAAAAAAAAP0LBMABAkAgAkUEQCAAKAIgIRAMAQsgCigCICAVIAooApwBIgVBIEsiCBshDyAKKAIcIAUgCBshESABQQRqIQcgACgCHCENIAAoAiAhEEEBIQggASEJQQAhBQJAA0AgBSARSQRAIAkoAgAiBiAQTw0CIAchCSAIIQQgDyAFQQJ0aioCACEDIA0gBkESbGohBUEAIQgDQCAFQQJqLwEAIQ4CfyAFLwEAIgdB//8BcUUEQCAHQRB0DAELIAdB/wdxIQsgB0GAgAJxIQYgB0GA+AFxIgdBgPgBRgRAIAZBEHQiB0GAgID8B3IgC0UNARogByALQQ10ckGAgID+B3IMAQsgBkEQdCIGIAdBDXRBgICA/ABxIAtBDXRyQYCAgMADanIgBw0AGiALIAtnQRBrIgdB//8DcUEIanRB////A3EgBkGAgIDYA3IgB0EXdGtyCyEMIAVBBGovAQAhEwJ/IA5B//8BcQRAIA5B/wdxIQsgDkGAgAJxIQYgDkGA+AFxIgdBgPgBRwRAIAZBEHQiBiAHQQ10QYCAgPwAcSALQQ10ckGAgIDAA2pyIAcNAhogCyALZ0EQayIHQf//A3FBCGp0Qf///wNxIAZBgICA2ANyIAdBF3RrcgwCCyAGQRB0IgcgC0ENdHJBgICA/gdyIAsNARogB0GAgID8B3IMAQsgDkEQdAshCyAKQdADaiAIagJ/IBNB//8BcQRAIBNB/wdxIQ4gE0GAgAJxIQYgE0GA+AFxIgdBgPgBRwRAIAZBEHQiBiAHQQ10QYCAgPwAcSAOQQ10ckGAgIDAA2pyIAcNAhogDiAOZ0EQayIHQf//A3FBCGp0Qf///wNxIAZBgICA2ANyIAdBF3RrcgwCCyAGQRB0IgcgDkENdHJBgICA/gdyIA4NARogB0GAgID8B3IMAQsgE0EQdAu+IAMgCkHAAWogCGoiB0EIaioCABC0Bv0TIAy+IAMgByoCABC0Bv0gACALviADIAdBBGoqAgAQtAb9IAH9CwQAIAVBBmohBSAIQRBqIghBMEcNAAsgEiAKQfADav0ABAD9CwQAIApB0AFqIApB4ANq/QAEAP0LBAAgCiAK/QAE0AP9CwTAASAEIAkgFEciBmohCCAJQQRBACAGG2ohByAEIQUgBg0BDAMLCyAFIBFB1L/HABCMBwALIAYgEEHkv8cAEIwHAAsgCkHAAWohBUEAIQgDQCAFKAIAIgZB////A3EhByAGQYCAgIB4cSEEIAVBBGooAgAhDwJAIAZBgICA/AdxIgtBgICA/AdGBEAgB0ENdiAEQRB2ckGABEEAIAcbckGA+AFyIQkMAQsgBEEQdiEJIAtBgICAuARNBEAgC0GAgIDEA08EQCAGQQx2IAZB/98AcUEAR3EgC0ENdiAHQQ12akGAgAFqIAlyaiEJDAILIAtBgICAmANJDQEgB0GAgIAEciIGQf4AIAtBF3YiBGt2IQcgBkEdIARrIgR2QQFxBH8gB0EDIAR0QQFrIAZxQQBHagUgBwsgCXIhCQwBCyAJQYD4AXIhCQsgBUEIaigCACENIA9B////A3EhByAPQYCAgIB4cSEEAkAgD0GAgID8B3EiDEGAgID8B0cEQCAEQRB2IQYgDEGAgIC4BE0EQCAMQYCAgMQDTwRAIA9BDHYgD0H/3wBxQQBHcSAMQQ12IAdBDXZqQYCAAWogBnJqIQYMAwsgDEGAgICYA0kNAiAHQYCAgARyIgtB/gAgDEEXdiIEa3YhByALQR0gBGsiBHZBAXEEfyAHQQMgBHRBAWsgC3FBAEdqBSAHCyAGciEGDAILIAZBgPgBciEGDAELIAdBDXYgBEEQdnJBgARBACAHG3JBgPgBciEGCyANQf///wNxIQcgDUGAgICAeHEhBAJAIA1BgICA/AdxIgxBgICA/AdHBEAgBEEQdiEOIAxBgICAuARNBEAgDEGAgIDEA08EQCANQQx2IA1B/98AcUEAR3EgDEENdiAHQQ12akGAgAFqIA5yaiEODAMLIAxBgICAmANJDQIgB0GAgIAEciILQf4AIAxBF3YiBGt2IQcgC0EdIARrIgR2QQFxBH8gB0EDIAR0QQFrIAtxQQBHagUgBwsgDnIhDgwCCyAOQYD4AXIhDgwBCyAHQQ12IARBEHZyQYAEQQAgBxtyQYD4AXIhDgsgCkHQA2ogCGoiBCAJOwEAIARBBGogDjsBACAEQQJqIAY7AQAgBUEQaiEFIAhBBmoiCEESRw0ACyAKQdACaiIEIApB4ANqLwEAOwEAIAogCv0AAdAD/QsDwAIgACgCGCAQRgRAIwBBIGsiBiQAAkAgAEEYaiIJKAIAIgdB4/G4HEsEf0EABUEEIAdBAXQiCCAIQQRNGyIFQRJsIQggBiAHBH8gBiAHQRJsNgIcIAYgCSgCBDYCFEECBUEACzYCGCAGQQhqQQIgCCAGQRRqEIUHIAYoAghBAUcNASAGKAIQIQkgBigCDAsgCUHkvscAEJMJAAsgBigCDCEIIAkgBTYCACAJIAg2AgQgBkEgaiQACyAAKAIcIBBBEmxqIgggCv0AA8AC/QsBACAIQRBqIAQvAQA7AQAgACAQQQFqNgIgIAAoAjxBAU0NACAKQfABakEAQdAA/AsAAkAgAkUEQCAAKAIsIRAMAQsgCigCICAVIAooApwBIgVBIEsiCBshEiAKKAIcIAUgCBshESABQQRqIQcgACgCKCEPIAAoAiwhEEEBIQggASEJQQAhBQJAA0AgBSARSQRAIAkoAgAiCSAQTw0CIAghBCASIAVBAnRqKgIAIQMgDyAJQR5saiEFQQAhCANAIAVBAmovAQAhDAJ/IAUvAQAiCUH//wFxRQRAIAlBEHQMAQsgCUH/B3EhCyAJQYCAAnEhBiAJQYD4AXEiCUGA+AFGBEAgBkEQdCIJQYCAgPwHciALRQ0BGiAJIAtBDXRyQYCAgP4HcgwBCyAGQRB0IgYgCUENdEGAgID8AHEgC0ENdHJBgICAwANqciAJDQAaIAsgC2dBEGsiCUH//wNxQQhqdEH///8DcSAGQYCAgNgDciAJQRd0a3ILIQ0gBUEEai8BACETAn8gDEH//wFxBEAgDEH/B3EhCyAMQYCAAnEhBiAMQYD4AXEiCUGA+AFHBEAgBkEQdCIGIAlBDXRBgICA/ABxIAtBDXRyQYCAgMADanIgCQ0CGiALIAtnQRBrIglB//8DcUEIanRB////A3EgBkGAgIDYA3IgCUEXdGtyDAILIAZBEHQiCSALQQ10ckGAgID+B3IgCw0BGiAJQYCAgPwHcgwBCyAMQRB0CyEMIApB0ANqIgsgCGoCfyATQf//AXEEQCATQf8HcSEOIBNBgIACcSEGIBNBgPgBcSIJQYD4AUcEQCAGQRB0IgYgCUENdEGAgID8AHEgDkENdHJBgICAwANqciAJDQIaIA4gDmdBEGsiCUH//wNxQQhqdEH///8DcSAGQYCAgNgDciAJQRd0a3IMAgsgBkEQdCIJIA5BDXRyQYCAgP4HciAODQEaIAlBgICA/AdyDAELIBNBEHQLviADIApB8AFqIgkgCGoiBkEIaioCABC0Bv0TIA2+IAMgBioCABC0Bv0gACAMviADIAZBBGoqAgAQtAb9IAH9CwQAIAVBBmohBSAIQRBqIghB0ABHDQALIAkgC0HQAPwKAAAgBCAHIgkgFEciBmohCCAHQQRBACAGG2ohByAEIQUgBg0BDAMLCyAFIBFBtL/HABCMBwALIAkgEEHEv8cAEIwHAAsgCkHwAWohBUEAIQgDQCAFKAIAIgZB////A3EhByAGQYCAgIB4cSEEIAVBBGooAgAhDwJAIAZBgICA/AdxIgtBgICA/AdGBEAgB0ENdiAEQRB2ckGABEEAIAcbckGA+AFyIQkMAQsgBEEQdiEJIAtBgICAuARNBEAgC0GAgIDEA08EQCAGQQx2IAZB/98AcUEAR3EgC0ENdiAHQQ12akGAgAFqIAlyaiEJDAILIAtBgICAmANJDQEgB0GAgIAEciIGQf4AIAtBF3YiBGt2IQcgBkEdIARrIgR2QQFxBH8gB0EDIAR0QQFrIAZxQQBHagUgBwsgCXIhCQwBCyAJQYD4AXIhCQsgBUEIaigCACENIA9B////A3EhByAPQYCAgIB4cSEEAkAgD0GAgID8B3EiDEGAgID8B0cEQCAEQRB2IQYgDEGAgIC4BE0EQCAMQYCAgMQDTwRAIA9BDHYgD0H/3wBxQQBHcSAMQQ12IAdBDXZqQYCAAWogBnJqIQYMAwsgDEGAgICYA0kNAiAHQYCAgARyIgtB/gAgDEEXdiIEa3YhByALQR0gBGsiBHZBAXEEfyAHQQMgBHRBAWsgC3FBAEdqBSAHCyAGciEGDAILIAZBgPgBciEGDAELIAdBDXYgBEEQdnJBgARBACAHG3JBgPgBciEGCyANQf///wNxIQcgDUGAgICAeHEhBAJAIA1BgICA/AdxIgxBgICA/AdHBEAgBEEQdiEOIAxBgICAuARNBEAgDEGAgIDEA08EQCANQQx2IA1B/98AcUEAR3EgDEENdiAHQQ12akGAgAFqIA5yaiEODAMLIAxBgICAmANJDQIgB0GAgIAEciILQf4AIAxBF3YiBGt2IQcgC0EdIARrIgR2QQFxBH8gB0EDIAR0QQFrIAtxQQBHagUgBwsgDnIhDgwCCyAOQYD4AXIhDgwBCyAHQQ12IARBEHZyQYAEQQAgBxtyQYD4AXIhDgsgCkHQA2ogCGoiBCAJOwEAIARBBGogDjsBACAEQQJqIAY7AQAgBUEQaiEFIAhBBmoiCEEeRw0ACyAKQdYCaiIHIApB5gNqKQEANwEAIApB0AJqIgQgCkHgA2opAQA3AwAgCiAK/QAB0AP9CwPAAiAAKAIkIBBGBEAjAEEgayILJAACQCAAQSRqIgYoAgAiCUGixIgRSwR/QQAFQQQgCUEBdCIIIAhBBE0bIgVBHmwhCCALIAkEfyALIAlBHmw2AhwgCyAGKAIENgIUQQIFQQALNgIYIAtBCGpBAiAIIAtBFGoQhQcgCygCCEEBRw0BIAsoAhAhBiALKAIMCyAGQfS+xwAQkwkACyALKAIMIQggBiAFNgIAIAYgCDYCBCALQSBqJAALIAAoAiggEEEebGoiCCAK/QADwAL9CwEAIAhBFmogBykBADcBACAIQRBqIAQpAwA3AQAgACAQQQFqNgIsIAAoAjxBAk0NACAKQeACakEAQfAA/AsAAkAgAkUEQCAAKAI4IRAMAQsgCigCICAVIAooApwBIghBIEsiAhshDSAKKAIcIAggAhshDyABQQRqIQcgACgCNCEMIAAoAjghEEEBIQhBACEFAkADQCAFIA9JBEAgASgCACIBIBBPDQIgCCECIA0gBUECdGoqAgAhAyAMIAFBKmxqIQVBACEIA0AgBUECai8BACEGAn8gBS8BACIBQf//AXFFBEAgAUEQdAwBCyABQf8HcSEJIAFBgIACcSEEIAFBgPgBcSIBQYD4AUYEQCAEQRB0IgFBgICA/AdyIAlFDQEaIAEgCUENdHJBgICA/gdyDAELIARBEHQiBCABQQ10QYCAgPwAcSAJQQ10ckGAgIDAA2pyIAENABogCSAJZ0EQayIBQf//A3FBCGp0Qf///wNxIARBgICA2ANyIAFBF3RrcgshCyAFQQRqLwEAIRECfyAGQf//AXEEQCAGQf8HcSEJIAZBgIACcSEEIAZBgPgBcSIBQYD4AUcEQCAEQRB0IgQgAUENdEGAgID8AHEgCUENdHJBgICAwANqciABDQIaIAkgCWdBEGsiAUH//wNxQQhqdEH///8DcSAEQYCAgNgDciABQRd0a3IMAgsgBEEQdCIBIAlBDXRyQYCAgP4HciAJDQEaIAFBgICA/AdyDAELIAZBEHQLIQYgCkHQA2oiCSAIagJ/IBFB//8BcQRAIBFB/wdxIRIgEUGAgAJxIQQgEUGA+AFxIgFBgPgBRwRAIARBEHQiBCABQQ10QYCAgPwAcSASQQ10ckGAgIDAA2pyIAENAhogEiASZ0EQayIBQf//A3FBCGp0Qf///wNxIARBgICA2ANyIAFBF3RrcgwCCyAEQRB0IgEgEkENdHJBgICA/gdyIBINARogAUGAgID8B3IMAQsgEUEQdAu+IAMgCkHgAmoiASAIaiIEQQhqKgIAELQG/RMgC74gAyAEKgIAELQG/SAAIAa+IAMgBEEEaioCABC0Bv0gAf0LBAAgBUEGaiEFIAhBEGoiCEHwAEcNAAsgASAJQfAA/AoAACACIAciASAURyIEaiEIIAdBBEEAIAQbaiEHIAIhBSAEDQEMAwsLIAUgD0GUv8cAEIwHAAsgASAQQaS/xwAQjAcACyAKQeACaiEFQQAhCANAIAUoAgAiBEH///8DcSECIARBgICAgHhxIQEgBUEEaigCACEMAkAgBEGAgID8B3EiB0GAgID8B0YEQCACQQ12IAFBEHZyQYAEQQAgAhtyQYD4AXIhCQwBCyABQRB2IQkgB0GAgIC4BE0EQCAHQYCAgMQDTwRAIARBDHYgBEH/3wBxQQBHcSAHQQ12IAJBDXZqQYCAAWogCXJqIQkMAgsgB0GAgICYA0kNASACQYCAgARyIgRB/gAgB0EXdiIBa3YhAiAEQR0gAWsiAXZBAXEEfyACQQMgAXRBAWsgBHFBAEdqBSACCyAJciEJDAELIAlBgPgBciEJCyAFQQhqKAIAIQsgDEH///8DcSECIAxBgICAgHhxIQECQCAMQYCAgPwHcSIHQYCAgPwHRwRAIAFBEHYhBiAHQYCAgLgETQRAIAdBgICAxANPBEAgDEEMdiAMQf/fAHFBAEdxIAdBDXYgAkENdmpBgIABaiAGcmohBgwDCyAHQYCAgJgDSQ0CIAJBgICABHIiBEH+ACAHQRd2IgFrdiECIARBHSABayIBdkEBcQR/IAJBAyABdEEBayAEcUEAR2oFIAILIAZyIQYMAgsgBkGA+AFyIQYMAQsgAkENdiABQRB2ckGABEEAIAIbckGA+AFyIQYLIAtB////A3EhAiALQYCAgIB4cSEBAkAgC0GAgID8B3EiB0GAgID8B0cEQCABQRB2IQ4gB0GAgIC4BE0EQCAHQYCAgMQDTwRAIAtBDHYgC0H/3wBxQQBHcSAHQQ12IAJBDXZqQYCAAWogDnJqIQ4MAwsgB0GAgICYA0kNAiACQYCAgARyIgRB/gAgB0EXdiIBa3YhAiAEQR0gAWsiAXZBAXEEfyACQQMgAXRBAWsgBHFBAEdqBSACCyAOciEODAILIA5BgPgBciEODAELIAJBDXYgAUEQdnJBgARBACACG3JBgPgBciEOCyAKQeYEaiAIaiIBIAk7AQAgAUEEaiAOOwEAIAFBAmogBjsBACAFQRBqIQUgCEEGaiIIQSpHDQALIAAoAjAgEEYEQCMAQSBrIgQkAAJAIABBMGoiBSgCACIIQeGwmAxLBH9BAAVBBCAIQQF0IgEgAUEETRsiAkEqbCEBIAQgCAR/IAQgCEEqbDYCHCAEIAUoAgQ2AhRBAgVBAAs2AhggBEEIakECIAEgBEEUahCFByAEKAIIQQFHDQEgBCgCECEFIAQoAgwLIAVBhL/HABCTCQALIAQoAgwhASAFIAI2AgAgBSABNgIEIARBIGokAAsgACgCNCAQQSpsaiIBIAr9AAHmBP0LAQAgAUEoaiAKQY4Fai8BADsBACABQSBqIApBhgVqKQEANwEAIAFBEGogCkH2BGr9AAEA/QsBACAAIBBBAWo2AjgLAkACQCAKKAKcASIBQSFPBEAgCigCICIIQQRrKAIAIgBBeHEiAiABQQJ0IgFBBEEIIABBA3EiABtqSQ0BIABBACACIAFBJ2pLGw0CIAgQogILIApBkAVqJAAgFg8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC9BdAxh/BH0BfiMAQfAAayIJJAACQAJAAkACQAJAIAAtAKhURQRAIAlB0ABqIABBxAFqELgEIAktAFAEQCAJKAJUIQEMAwsgCS0AUUEBRw0BIABBAToAqFQLIAAoAswBIgNFDQAgAEGgAmohFSAJQTxqrUKAgICAEIQhHSAAQdwBaiEWIABB6AFqIRIgAEH0AWohFyAAQYACaiEYA0ACQCAAKALYASIFIAAoAqRUIgFrIgJBACACIAVNG0GAgARPBEAgASECDAELIAEgAUGAgAJrIgJBACABIAJPGyILayECIAEgC0YEQCAAIAI2AqRUDAELIAEgBU0EQCACBEAgACgC1AEiASABIAtqIAL8CgAACyAAKALMASEDIAAgAjYCpFQMAQtBACABIAVBzNXBABDqBwALAkACQCADIA1PBEAgCUHQAGogFSAAKALIASANaiADIA1rIAAoAtQBIAAoAtgBIAJBBhBEIAkgCS0AVCIBOgAPIAkoAlAhFCAJKAJYIhFFDQIgACgCpFQiAyARaiICIANPIAIgACgC2AEiBU1xDQEgAyACIAVB3NXBABDqBwALIA0gAyADQezVwQAQ6gcACyAAKALUASEFIAAoAtwBIAAoAuQBIgJrIBFJBEAgFiACIBFBAUEBEKQFIAAoAuQBIQILIBEEQCAAKALgASACaiADIAVqIBH8CgAACyAAIAIgEWoiBTYC5AEgACAAKAKkVCARajYCpFQCQAJAIAAoAugBQYCAgIB4RgRAIAVBEE8EQCAJIAAoAuABIgIoAAAiAzYCHCADQc6OzYIFRwRAIAlBATYCZCAJQczIwQA2AmAgCUEBNgJUIAlB1M7BADYCUCAJQQE2AlwgCSAJQRxqrUKAgICAkASENwNAIAkgCUFAazYCWCAJQSBqIgAgCUHQAGoQsQYgABCOByEBDAgLIAkgAigABCILNgIsIAtBBGtBfUkNAiAAQQA2AuQBIAItAA4hBCACLQANIQcgAi0ADCEDIAIoAAghCCAFQRBrIgUEQCAFBEAgAiACQRBqIAX8CgAACyAAIAU2AuQBCyAJIAM2AjwCQCADQQNNBEBBgIDAABBxIgINAQALIAlBATYCVCAJQaDtxwA2AlAgCUIBNwJcIAkgHTcDaCAJIAlB6ABqNgJYIAlBQGsiACAJQdAAahCxBiAAEJAHIQEMCAsgACAEOgCeAiAAIAc6AJ0CIABBADoAnAIgAEEANgKYAiAAIAM2ApQCIAAgCDYCkAIgACALNgKMAiAAQQA2AogCIABCgICAgMAANwKAAiAAQgI3AvgBIABCADcC8AEgACACNgLsASAAQYCAEDYC6AEgCSAEQYABcUEHdjoAWCAJIAM2AlQgCSAINgJQIAAgCUHQAGoQ4QMLIAAoAugBQYCAgIB4Rg0DCwNAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAC0AnAJBAWsOCQ0MCwoAAQYEEgILQQkhD0EGIQEgACgClAIOBAQIBwYCCyAAQQlBByAALACeAkEAThs6AJwCDA4LIAAoAuQBQQZBCSAAKAKMAiIDQQFGGyIMbiICIAAoApACIAAoApgCayILSQRAIAIiC0GAgARJDRALQYCABCALIAtBgIAETxsiBEEDbCICIAAoAvABIgFLBH8gAiABayICIAAoAugBIAFrSwRAIBIgASACQQRBBBCkBSAAKALwASEBCyAAKALsASIFIAFBAnRqIQMgAkECTwR/IAJBAnRBBGsiCARAIANBACAI/AsACyABIAJqIgJBAWshASAFIAJBAnRqQQRrBSADC0EANgIAIAAgAUEBajYC8AEgACgCjAIFIAMLQQFHDQsgC0UNDEEAIQhBACEBQQAhAkEAIQMDQCABQQJqIQcgACgC5AEiBSABQQFqTQRAIAEgByAFQazPwQAQ6gcACwJ/IAAoAuABIAFqIgVBAWotAABBCHQiBiAFLQAAciIFQf//AXFFBEAgBUEQdAwBCyAFQf8HcSEFIAZBgIACcSEKIAZBgPgBcSIGQYD4AUYEQCAKQRB0IgZBgICA/AdyIAVFDQEaIAVBDXQgBnJBgICA/gdyDAELIApBEHQiCiAGQQ10QYCAgPwAcSAFQQ10ckGAgIDAA2pyIAYNABogBSAFZ0EQayIFQf//A3FBCGp0Qf///wNxIApBgICA2ANyIAVBF3RrcgshBQJ/AkACQCAAKALwASIGIANLBEAgACgC7AEgAmogBTYCACABQQRqIgYgACgC5AEiBUsNASAAKALgASABaiIFQQNqLQAAQQh0IgcgBUECai0AAHIiBUH//wFxRQRAIAVBEHQMBAsgBUH/B3EhBSAHQYCAAnEhCiAHQYD4AXEiB0GA+AFGBEAgCkEQdCIHQYCAgPwHciAFRQ0EGiAFQQ10IAdyQYCAgP4HcgwECyAKQRB0IQogB0UNAiAHQQ10QYCAgPwAcSAFQQ10ckGAgIDAA2ogCnIMAwsgAyAGQdzOwQAQjAcACyAHIAYgBUGcz8EAEOoHAAsgBSAFZ0EQayIFQf//A3FBCGp0Qf///wNxIApBgICA2ANyIAVBF3RrcgshBQJ/AkACQCADQQFqIgcgACgC8AEiCkkEQCAAKALsASACakEEaiAFNgIAIAFBBmoiBSAAKALkASIHSw0BIAAoAuABIAFqIgFBBWotAABBCHQiByABQQRqLQAAciIBQf//AXFFBEAgAUEQdAwECyABQf8HcSEBIAdBgIACcSEGIAdBgPgBcSIHQYD4AUYEQCAGQRB0IgdBgICA/AdyIAFFDQQaIAFBDXQgB3JBgICA/gdyDAQLIAZBEHQhBiAHRQ0CIAdBDXRBgICA/ABxIAFBDXRyQYCAgMADaiAGcgwDCyAHIApB7M7BABCMBwALIAYgBSAHQYzPwQAQ6gcACyABIAFnQRBrIgFB//8DcUEIanRB////A3EgBkGAgIDYA3IgAUEXdGtyCyEBIANBAmoiByAAKALwASIGSQRAIAAoAuwBIAJqQQhqIAE2AgAgAkEMaiECIANBA2ohAyAFIQEgCEEBaiIIIARJDQEMDgsLIAcgBkH8zsEAEIwHAAtB7NPBABCBCAALIAAoAuQBIgFBAnYiAiAAKAKQAiAAKAKYAmsiBEkEQCACIQQgAUGAgBBJDQ4LQYCABCAEIARBgIAETxsiAiAAKAKIAiIBSwRAIAIgAWsiAyAAKAKAAiABa0sEQCAYIAEgA0EEQQQQpAUgACgCiAIhAQsgACgChAIiCyABQQJ0aiEFIANBAk8EfyADQQJ0QQRrIggEQCAFQQAgCPwLAAsgASADaiIDQQFrIQEgCyADQQJ0akEEawUgBQtBADYCACAAIAFBAWoiATYCiAILIAQEQEEAIQFBACEDAkADQCAAKALkASIFIAFBA2pNBEAgASABQQRqIAVBvNXBABDqBwALIAAoAogCIgUgA0sEQCAAKAKEAiABaiAAKALgASABaigAADYCACABQQRqIQEgAiADQQFqIgNGDQIMAQsLIAMgBUGs1cEAEIwHAAsgACgCiAIhAQsgACAAKAKYAiACIAAoAoQCIAEQtwQCQAJAAkAgACgC5AEiAyACQQJ0IgFPBEAgAEEANgLkASADIAFrIQUgBEUNASABIANGDQMgBUUNAiAAKALgASIDIAEgA2ogBfwKAAAMAgsMFQsgASADRg0BCyAAIAU2AuQBCyAAIAAoApgCIAJqIgI2ApgCIAIgACgCkAJHDQsgAEEANgKYAkEJIQELIAAgAToAnAIMCgsgACgC5AEiAUEBdiICIAAoApACIAAoApgCayIESQRAIAIhBCABQYCACEkNDAtBgIAEIAQgBEGAgARPGyICIAAoAvwBIgFLBEAgAiABayIDIAAoAvQBIAFrSwRAIBcgASADQQJBAhCkBSAAKAL8ASEBCyAAKAL4ASILIAFBAXRqIQUgA0ECTwR/IANBAXRBAmsiCARAIAVBACAI/AsACyABIANqIgNBAWshASALIANBAXRqQQJrBSAFC0EAOwEAIAAgAUEBaiIBNgL8AQsgBARAQQAhA0ECIQECQANAIAAoAuQBIgUgAUkEQCABQQJrIAEgBUGc1cEAEOoHAAsgACgC/AEiBSADSwRAIAAoAvgBIAFqQQJrIAAoAuABIAFqQQJrLwAAOwEAIAFBAmohASACIANBAWoiA0YNAgwBCwsgAyAFQYzVwQAQjAcACyAAKAL8ASEBCyAAIAAoApgCIAIgACgC+AEgARC2BAJAAkACQCAAKALkASIDIAJBAXQiAU8EQCAAQQA2AuQBIAMgAWshBSAERQ0BIAEgA0YNAyAFRQ0CIAAoAuABIgMgASADaiAF/AoAAAwCCwwTCyABIANGDQELIAAgBTYC5AELIAAgACgCmAIgAmoiAjYCmAIgAiAAKAKQAkcNCSAAQQA2ApgCIABBCDoAnAIMCQtBLSEPDAELQRghDwsgACgC5AEgD24iAiAAKAKQAiAAKAKYAmsiC0kEQCACIgtBgIAESQ0JC0GAgAQgCyALQYCABE8bIg4gD2wiDCAAKALwASIBSwRAIAwgAWsiAiAAKALoASABa0sEQCASIAEgAkEEQQQQpAUgACgC8AEhAQsgACgC7AEiBSABQQJ0aiEDIAJBAk8EfyACQQJ0QQRrIgQEQCADQQAgBPwLAAsgASACaiICQQFrIQEgBSACQQJ0akEEawUgAwtBADYCACAAIAFBAWoiATYC8AELIA5BCWwhEwJAIAsEQCAOQeAAbCEHIA5BGGwhCEEBIQFBACEQQQAhBQJAA0AgBSEEIAEhBSAEIA9sIgEgACgC5AEiAk8NAwJAAkACQAJAIARBCWwiAyAAKALwASICTw0AIAAoAuwBIANBAnRqIAAoAuABIAFqLQAAs0MAAADDkkMAAAA8lDgCACABQQNqIgYgACgC5AEiAk8EQCAGIQEMCAsgA0EDaiIKIAAoAvABIgJPBEAgCiEDDAELIAAoAuwBIApBAnRqIAAoAuABIAZqLQAAs0MAAADDkkMAAAA8lDgCACABQQZqIgYgACgC5AEiAk8EQCAGIQEMCAsgA0EGaiIKIAAoAvABIgJPBEAgCiEDDAELIAAoAuwBIApBAnRqIAAoAuABIAZqLQAAs0MAAADDkkMAAAA8lDgCACABQQFqIgYgACgC5AEiAk8EQCAGIQEMCAsgA0EBaiIKIAAoAvABIgJPBEAgCiEDDAELIAAoAuwBIApBAnRqIAAoAuABIAZqLQAAs0MAAADDkkMAAAA8lDgCACABQQRqIgYgACgC5AEiAk8EQCAGIQEMCAsgA0EEaiIKIAAoAvABIgJPBEAgCiEDDAELIAAoAuwBIApBAnRqIAAoAuABIAZqLQAAs0MAAADDkkMAAAA8lDgCACABQQdqIgYgACgC5AEiAk8EQCAGIQEMCAsgA0EHaiIKIAAoAvABIgJPBEAgCiEDDAELIAAoAuwBIApBAnRqIAAoAuABIAZqLQAAs0MAAADDkkMAAAA8lDgCACABQQJqIgYgACgC5AEiAk8EQCAGIQEMCAsgA0ECaiIKIAAoAvABIgJPBEAgCiEDDAELIAAoAuwBIApBAnRqIAAoAuABIAZqLQAAs0MAAADDkkMAAAA8lDgCACABQQVqIgYgACgC5AEiAk8EQCAGIQEMCAsgA0EFaiIKIAAoAvABIgJPBEAgCiEDDAELIAAoAuwBIApBAnRqIAAoAuABIAZqLQAAs0MAAADDkkMAAAA8lDgCACABQQhqIgYgACgC5AEiAk8EQCAGIQEMCAsgA0EIaiIDIAAoAvABIgJPDQAgACgC7AEgA0ECdGogACgC4AEgBmotAACzQwAAAMOSQwAAADyUOAIAIAAoApQCQQFLDQEMAgsgAyACQfzUwQAQjAcACwJAAkAgAUEJaiIDIAAoAuQBIgZPDQAgBEEPbCATaiICIAAoAvABIgZPDQMgACgC7AEgAkECdGogACgC4AEgA2otAACzQwAAAMOSQwAAADyUOAIAIAFBDGoiAyAAKALkASIGTw0AIAJBA2oiBCAAKALwASIGTwRAIAQhAgwECyAAKALsASAEQQJ0aiAAKALgASADai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEPaiIDIAAoAuQBIgZPDQAgAkEGaiIEIAAoAvABIgZPBEAgBCECDAQLIAAoAuwBIARBAnRqIAAoAuABIANqLQAAs0MAAADDkkMAAAA8lDgCACABQRJqIgMgACgC5AEiBk8NACACQQlqIgQgACgC8AEiBk8EQCAEIQIMBAsgACgC7AEgBEECdGogACgC4AEgA2otAACzQwAAAMOSQwAAADyUOAIAIAFBFWoiAyAAKALkASIGTw0AIAJBDGoiBCAAKALwASIGTwRAIAQhAgwECyAAKALsASAEQQJ0aiAAKALgASADai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEKaiIDIAAoAuQBIgZPDQAgAkEBaiIEIAAoAvABIgZPBEAgBCECDAQLIAAoAuwBIARBAnRqIAAoAuABIANqLQAAs0MAAADDkkMAAAA8lDgCACABQQ1qIgMgACgC5AEiBk8NACACQQRqIgQgACgC8AEiBk8EQCAEIQIMBAsgACgC7AEgBEECdGogACgC4AEgA2otAACzQwAAAMOSQwAAADyUOAIAIAFBEGoiAyAAKALkASIGTw0AIAJBB2oiBCAAKALwASIGTwRAIAQhAgwECyAAKALsASAEQQJ0aiAAKALgASADai0AALNDAAAAw5JDAAAAPJQ4AgAgAUETaiIDIAAoAuQBIgZPDQAgAkEKaiIEIAAoAvABIgZPBEAgBCECDAQLIAAoAuwBIARBAnRqIAAoAuABIANqLQAAs0MAAADDkkMAAAA8lDgCACABQRZqIgMgACgC5AEiBk8NACACQQ1qIgQgACgC8AEiBk8EQCAEIQIMBAsgACgC7AEgBEECdGogACgC4AEgA2otAACzQwAAAMOSQwAAADyUOAIAIAFBC2oiAyAAKALkASIGTw0AIAJBAmoiBCAAKALwASIGTwRAIAQhAgwECyAAKALsASAEQQJ0aiAAKALgASADai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEOaiIDIAAoAuQBIgZPDQAgAkEFaiIEIAAoAvABIgZPBEAgBCECDAQLIAAoAuwBIARBAnRqIAAoAuABIANqLQAAs0MAAADDkkMAAAA8lDgCACABQRFqIgMgACgC5AEiBk8NACACQQhqIgQgACgC8AEiBk8EQCAEIQIMBAsgACgC7AEgBEECdGogACgC4AEgA2otAACzQwAAAMOSQwAAADyUOAIAIAFBFGoiAyAAKALkASIGTw0AIAJBC2oiBCAAKALwASIGTwRAIAQhAgwECyAAKALsASAEQQJ0aiAAKALgASADai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEXaiIDIAAoAuQBIgZPDQAgAkEOaiICIAAoAvABIgZPDQMgACgC7AEgAkECdGogACgC4AEgA2otAACzQwAAAMOSQwAAADyUOAIAIAAoApQCQQJNDQJBACEGIAchAwwBCyADIAZBzNTBABCMBwALAkACQAJAAkACQAJAAkACfwJAAkACQAJAAkACQANAIAAoAuQBIgIgBiAQaiIBQRhqSwRAIAYgCGoiBCAAKALwASICTw0PIAAoAuwBIANqIAEgACgC4AFqQRhqLQAAs0MAAADDkkMAAAA8lDgCACAAKALkASICIAFBG2pNDQcgACgC8AEiAiAEQQNqTQ0OIAAoAuwBIANqQQxqIAEgACgC4AFqQRtqLQAAs0MAAADDkkMAAAA8lDgCACAAKALkASICIAFBHmpNDQYgACgC8AEiAiAEQQZqTQ0NIAAoAuwBIANqQRhqIAEgACgC4AFqQR5qLQAAs0MAAADDkkMAAAA8lDgCACAAKALkASICIAFBIWpNDQUgACgC8AEiAiAEQQlqTQ0MIAAoAuwBIANqQSRqIAEgACgC4AFqQSFqLQAAs0MAAADDkkMAAAA8lDgCACAAKALkASICIAFBJGpNDQQgACgC8AEiAiAEQQxqTQ0LIAAoAuwBIANqQTBqIAEgACgC4AFqQSRqLQAAs0MAAADDkkMAAAA8lDgCACAAKALkASICIAFBJ2pNDQMgACgC8AEiAiAEQQ9qTQ0KIAAoAuwBIANqQTxqIAEgACgC4AFqQSdqLQAAs0MAAADDkkMAAAA8lDgCACAAKALkASICIAFBKmpNDQIgACgC8AEiAiAEQRJqTQ0JIAAoAuwBIANqQcgAaiAAKALgASAQaiAGakEqai0AALNDAAAAw5JDAAAAPJQ4AgAgA0EEaiEDIAZBAWoiBkEDSQ0BDBALCyABQRhqDAYLIAFBKmoMBQsgAUEnagwECyABQSRqDAMLIAFBIWoMAgsgAUEeagwBCyABQRtqCyACQazUwQAQjAcACyAEQRJqIQQMBQsgBEEPaiEEDAQLIARBDGohBAwDCyAEQQlqIQQMAgsgBEEGaiEEDAELIARBA2ohBAsgBCACQbzUwQAQjAcACyAPIBBqIRAgCEEVaiEIIAdB1ABqIQcgBSAFIA5JIgJqIQEgAkUNAgwBCwsgAiAGQdzUwQAQjAcACyAAKALwASEBCwJAAkACQCABIBNPBEAgACgC7AEhBSAAKAKYAiEEQQAhAkEEIQggACgClAIiB0ECSQRAQQQhEEEAIQYMBAsgDkEYbCIDIAFLDQEgDkEPbCEGIAUgE0ECdGohECAHQQJGDQMgAyAMTSABIAxPcQ0CIAMgDCABQfzTwQAQ6gcAC0EAIBMgAUGc1MEAEOoHAAsgEyADIAFBjNTBABDqBwALIAwgA2shAiAFIANBAnRqIQgLIAsEQCAAIAQgDiAFIBMQ5gELIAYEQCAAIAQgDiAQIAYQpwELIAIEQCAAIAQgDiAIIAIQlAELAkACQAJAIAwgACgC5AEiAk0EQCAAQQA2AuQBIAIgDGshASALRQ0BIAIgDEYNAyABRQ0CIAAoAuABIgIgAiAMaiAB/AoAAAwCC0EAIAwgAkGEpMcAEOoHAAsgAiAMRg0BCyAAIAE2AuQBCyAAIAAoApgCIA5qIgI2ApgCIAIgACgCkAJHDQcgAEEANgKYAiAAQQY6AJwCDAcLIAEgAkHs1MEAEIwHAAsgACgC5AFBBEEDIAAoAowCIgNBA0YbIhBuIgIgACgCkAIgACgCmAJrIgVJBEAgAiIFQYCABEkNCAsCQAJAAkACQAJAAkACQAJAAkACQAJAQYCABCAFIAVBgIAETxsiC0ECdCICIAAoAvABIgFLBH8gAiABayICIAAoAugBIAFrSwRAIBIgASACQQRBBBCkBSAAKALwASEBCyAAKALsASIEIAFBAnRqIQMgAkECTwR/IAJBAnRBBGsiCARAIANBACAI/AsACyABIAJqIgJBAWshASAEIAJBAnRqQQRrBSADC0EANgIAIAAgAUEBajYC8AEgACgCjAIFIAMLQQNHBEAgBUUNC0EAIQRBACEBQQAhAkEAIQMDQCABIAAoAuQBIghPDQIgAUEBaiIHIAhPDQMgAUECaiIHIAhPDQRDAACAPyAAKALgASABaiIILQAAs0MAAP9ClUMAAIC/kiIZIBmUIAhBAWotAACzQwAA/0KVQwAAgL+SIhogGpSSIAhBAmotAACzQwAA/0KVQwAAgL+SIhsgG5SSk0MAAAAAEOAIIRwgAyAAKALwASIITw0FIAAoAuwBIAJqIBk4AgAgA0EBaiIIIAAoAvABIgdPDQYgACgC7AEgAmpBBGogGjgCACADQQJqIgggACgC8AEiB08NByAAKALsASACakEIaiAbOAIAIANBA2oiCCAAKALwASIHTw0IIAAoAuwBIAJqQQxqIByROAIAIAFBA2ohASACQRBqIQIgA0EEaiEDIARBAWoiBCALSQ0ACwwLCyAFRQ0KQQAhAkEBIQhBACEDA0ACQAJAAkACQCAAKALkASIBIANLBEAgA0EBaiIEIAFPDQEgA0ECaiIHIAFPDQIgA0EDaiIGIAFPDQMgACgC4AEgA2oiAUECai0AACEMIAFBA2otAAAhCiABLQAAIAFBAWotAAAhDiAJ/QwAAAAAAAAAAAAAAAAAAAAA/QsDUCAOQQh0ciIPIAxBEHQgCkEYdHJyIQFDAAAAACEZAn8CQCAKQQZ2IgxBA0cEQCAJIA9B/wNxs0MAgP9DlUPzBDU/lCIZjCAZIA5BAnEbIhk4AlwgGSAZlCEZIAFBCnYhASAMQQJGDQELIAkgAUH/A3GzQwCA/0OVQ/MENT+UIhqMIBogAUGABHEbIho4AlggGSAaIBqUkiEZIAFBCnYiASAMQQFGDQEaCyAJIAFB/wNxs0MAgP9DlUPzBDU/lCIajCAaIAFBgARxGyIaOAJUIBkgGiAalJIhGSABQQp2CyEBIAlB0ABqIAxBAnRqQwAAgD8gCkHAAE8EfSAJIAFB/wNxs0MAgP9DlUPzBDU/lCIajCAaIAFBgARxGyIaOAJQIBkgGiAalJIFIBkLkyIZkUMAAAAAIBlDAAAAAF4bOAIAIAMgACgC8AEiAUkNBCADIAFBvNLBABCMBwALIAMgAUH80cEAEIwHAAsgBCABQYzSwQAQjAcACyAHIAFBnNLBABCMBwALIAYgAUGs0sEAEIwHAAsgACgC7AEgAmogCSoCUDgCACAEIAAoAvABIgFPDQogACgC7AEgAmpBBGogCSoCVDgCACAHIAAoAvABIgFPDQkgACgC7AEgAmpBCGogCSoCWDgCACAGIAAoAvABIgFPDQggACgC7AEgAmpBDGogCSoCXDgCACACQRBqIQIgA0EEaiEDIAggC0kgCEEBaiEIDQALDAoLIAEgCEH80sEAEIwHAAsgByAIQYzTwQAQjAcACyAHIAhBnNPBABCMBwALIAMgCEGs08EAEIwHAAsgCCAHQbzTwQAQjAcACyAIIAdBzNPBABCMBwALIAggB0Hc08EAEIwHAAsgBiABQezSwQAQjAcACyAHIAFB3NLBABCMBwALIAQgAUHM0sEAEIwHAAsgACAAKAKYAiALIAAoAuwBIAAoAvABEKAFAkACQAJAIAAoAuQBIgEgCyAQbCICTwRAIABBADYC5AEgASACayEDIAVFDQEgASACRg0DIANFDQIgACgC4AEiASABIAJqIAP8CgAADAILDBALIAEgAkYNAQsgACADNgLkAQsgACAAKAKYAiALaiICNgKYAiACIAAoApACRw0FIABBADYCmAIgAEEFOgCcAgwFCyAAKALkASIBQQNuIgIgACgCkAIgACgCmAJrIghJBEAgAiEIIAFBgIAMSQ0HC0GAgAQgCCAIQYCABE8bIgtBA2wiBSAAKALwASIBSwRAIAUgAWsiAiAAKALoASABa0sEQCASIAEgAkEEQQQQpAUgACgC8AEhAQsgACgC7AEiBCABQQJ0aiEDIAJBAk8EfyACQQJ0QQRrIgcEQCADQQAgB/wLAAsgASACaiICQQFrIQEgBCACQQJ0akEEawUgAwtBADYCACAAIAFBAWoiATYC8AELAkACQAJAAkACQAJAAkACQAJAIAgEQEEAIQNBACEBA0AgASAAKALkASICTw0CIAEgACgC8AEiAk8NAyAAKALsASADaiAAKALgASABai0AALNDAACAPZRDAAAgwZIQiQQ4AgAgAUEBaiICIAAoAuQBIgRPDQQgAiAAKALwASIETw0FIAAoAuwBIANqQQRqIAAoAuABIAFqQQFqLQAAs0MAAIA9lEMAACDBkhCJBDgCACABQQJqIgIgACgC5AEiBE8NBiACIAAoAvABIgRPDQcgACgC7AEgA2pBCGogACgC4AEgAWpBAmotAACzQwAAgD2UQwAAIMGSEIkEOAIAIANBDGohAyAFIAFBA2oiAUcNAAsgACgC8AEhAQsgACAAKAKYAiALIAAoAuwBIAEQngIgACgC5AEiAiAFSQ0WIABBADYC5AEgAiAFayEBIAhFDQYgAiAFRg0IIAFFDQcgACgC4AEiAiACIAVqIAH8CgAADAcLIAEgAkGc0cEAEIwHAAsgASACQazRwQAQjAcACyACIARBvNHBABCMBwALIAIgBEHM0cEAEIwHAAsgAiAEQdzRwQAQjAcACyACIARB7NHBABCMBwALIAIgBUYNAQsgACABNgLkAQsgACAAKAKYAiALaiICNgKYAiACIAAoApACRw0EIABBADYCmAIgAEEEOgCcAgwECyAAKALkASIBQQNuIgIgACgCkAIgACgCmAJrIghJBEAgAiEIIAFBgIAMSQ0GC0GAgAQgCCAIQYCABE8bIgtBA2wiBSAAKALwASIBSwRAIAUgAWsiAiAAKALoASABa0sEQCASIAEgAkEEQQQQpAUgACgC8AEhAQsgACgC7AEiBCABQQJ0aiEDIAJBAk8EfyACQQJ0QQRrIgcEQCADQQAgB/wLAAsgASACaiICQQFrIQEgBCACQQJ0akEEawUgAwtBADYCACAAIAFBAWoiATYC8AELAkACQAJAAkACQAJAAkACQAJAIAgEQEEAIQNBACEBA0AgASAAKALkASICTw0CIAEgACgC8AEiAk8NAyAAKALsASADaiAAKALgASABai0AALNDAAB/Q5VDAAAAv5JDjLjwP5RDAAAAP5I4AgAgAUEBaiICIAAoAuQBIgRPDQQgAiAAKALwASIETw0FIAAoAuwBIANqQQRqIAAoAuABIAFqQQFqLQAAs0MAAH9DlUMAAAC/kkOMuPA/lEMAAAA/kjgCACABQQJqIgIgACgC5AEiBE8NBiACIAAoAvABIgRPDQcgACgC7AEgA2pBCGogACgC4AEgAWpBAmotAACzQwAAf0OVQwAAAL+SQ4y48D+UQwAAAD+SOAIAIANBDGohAyAFIAFBA2oiAUcNAAsgACgC8AEhAQsgACAAKAKYAiALIAAoAuwBIAEQpAIgACgC5AEiAiAFSQ0VIABBADYC5AEgAiAFayEBIAhFDQYgAiAFRg0IIAFFDQcgACgC4AEiAiACIAVqIAH8CgAADAcLIAEgAkG80MEAEIwHAAsgASACQczQwQAQjAcACyACIARB3NDBABCMBwALIAIgBEHs0MEAEIwHAAsgAiAEQfzQwQAQjAcACyACIARBjNHBABCMBwALIAIgBUYNAQsgACABNgLkAQsgACAAKAKYAiALaiICNgKYAiACIAAoApACRw0DIABBADYCmAIgAEEDOgCcAgwDCyAAKALkASICIAAoApACIAAoApgCayILSQRAIAIiC0GAgARJDQULQYCABCALIAtBgIAETxsiCCAAKALwASIBSwRAIAggAWsiAiAAKALoASABa0sEQCASIAEgAkEEQQQQpAUgACgC8AEhAQsgACgC7AEiBSABQQJ0aiEDIAJBAk8EfyACQQJ0QQRrIgQEQCADQQAgBPwLAAsgASACaiICQQFrIQEgBSACQQJ0akEEawUgAwtBADYCACAAIAFBAWo2AvABCwJAIAsEQEMAAIA/QwAAAEAgACwAngJBAE4bIRlBACEDQQAhAQJAAkADQCABIAAoAuQBIgJPDQIgASAAKALwASICTw0BIAAoAuwBIANqIBkgACgC4AEgAWotAACzQwAAf0OVlDgCACADQQRqIQMgCCABQQFqIgFHDQALIAAoAuwBIQ4gACgC8AEhAyAAIAAoApgCIAgQ6QRBACEBQQwhBiAIIQUgAyECA0ACQAJAIAAoAnwiBCABQQNqSwRAIAIEQCABIA5qKAIAIgpB////A3EhDCAKQYCAgIB4cSEEIApBgICA/AdxIgdBgICA/AdGBEAgBEEQdiAMQQ12ckGABEEAIAwbckGA+AFyIQQMBAsgBEEQdiEEIAdBgICAuARLDQIgB0GAgIDEA08EQCAKQQx2IApB/98AcUEAR3EgB0ENdiAMQQ12akGAgAFqIARyaiEEDAQLIAdBgICAmANJDQMgDEGAgIAEciIKQf4AIAdBF3YiDGt2IQcgCkEdIAxrIgx2QQFxBH8gB0EDIAx0QQFrIApxQQBHagUgBwsgBHIhBAwDCyADIANBuLPBABCMBwALIAEgAUEEaiAEQcizwQAQ6gcACyAEQYD4AXIhBAsgACgCeCAGaiAEQf//A3E2AgAgBkEQaiEGIAJBAWshAiABQQRqIQEgBUEBayIFDQALDAMLIAEgAkGs0MEAEIwHAAsgASACQZzQwQAQjAcACyAAIAAoApgCIAgQ6QQLIABBAToAwAECQAJAAkAgCCAAKALkASICTQRAIABBADYC5AEgAiAIayEBIAtFDQEgAiAIRg0DIAFFDQIgACgC4AEiAiACIAhqIAH8CgAADAILQQAgCCACQYSkxwAQ6gcACyACIAhGDQELIAAgATYC5AELIAAgACgCmAIgCGoiAjYCmAIgAiAAKAKQAkcNAiAAQQA2ApgCIABBAjoAnAIMAgsgC0UNAEEBIAAtAJ0CdLMhGUEAIQhBACEBQQAhAkEAIQMCQAJAAkACQANAIAFBA2oiBSAAKALkASIHSwRAIAEgBSAHQYzQwQAQ6gcACyADIAAoAvABIgdPDQEgACgC7AEgAmogACgC4AEgAWoiB0ECai0AACIGQRB0IActAAByIAdBAWotAABBCHRyIgdBgICAeHIgByAGwEEASBuyIBmVOAIAIAFBBmoiByAAKALkASIGSw0CIANBAWoiBSAAKALwASIGTw0DIAAoAuwBIAJqQQRqIAAoAuABIAFqIgVBBWotAAAiBkEQdCAFQQNqLQAAciAFQQRqLQAAQQh0ciIFQYCAgHhyIAUgBsBBAEgbsiAZlTgCACABQQlqIgUgACgC5AEiBksNBCADQQJqIgcgACgC8AEiBkkEQCAAKALsASACakEIaiAAKALgASABaiIBQQhqLQAAIgdBEHQgAUEGai0AAHIgAUEHai0AAEEIdHIiAUGAgIB4ciABIAfAQQBIG7IgGZU4AgAgAkEMaiECIANBA2ohAyAFIQEgCEEBaiIIIARJDQEMBgsLIAcgBkHcz8EAEIwHAAsgAyAHQbzPwQAQjAcACyAFIAcgBkH8z8EAEOoHAAsgBSAGQczPwQAQjAcACyAHIAUgBkHsz8EAEOoHAAsgACAAKAKYAiAEIAAoAuwBIAAoAvABEMIFAkACQAJAIAAoAuQBIgEgBCAMbCICTwRAIABBADYC5AEgASACayEDIAtFDQEgASACRg0DIANFDQIgACgC4AEiASABIAJqIAP8CgAADAILDAsLIAEgAkYNAQsgACADNgLkAQsgACAAKAKYAiAEaiICNgKYAiACIAAoApACRw0AIABBADYCmAIgAEEBOgCcAgwACwALIAlBATYCVCAJQbTOwQA2AlAgCUIBNwJcIAkgCUEsaq1CgICAgBCENwNAIAkgCUFAazYCWCAJQTBqIgAgCUHQAGoQsQYgABCOByEBDAQLIAktAA8hAQsgDSAUaiENAkACQAJAAkACQCABQf8BcQ4DAQIDAAsgCUEBNgJUIAlBmPfHADYCUCAJQgE3AlwgCSAJQQ9qrUKAgICAoASENwNAIAkgCUFAazYCWCAJQRBqIgAgCUHQAGoQsQYgABCOByEBDAYLIABBAToAqVQgDUEIaiANIAAoAswBIgIgDWsiAUEAIAEgAk0bQQdLGyENDAILIBEgFHJFDQELIA0gACgCzAEiA0kNAQsLIA1FDQAgDSAAKALMASICTQRAQQAhASAAQQA2AswBIAIgDUYNAiACIA1rIgIEQCAAKALIASIDIAMgDWogAvwKAAALIAAgAjYCzAEMAgtBACANIAJBhKTHABDqBwALQQAhAQsgCUHwAGokACABDwtBACABIANBhKTHABDqBwALQQAgAiABQYSkxwAQ6gcAC0EAIAUgAkGEpMcAEOoHAAvRXAMYfwR9AX4jAEHwAGsiCCQAAkACQAJAAkACQCAALQCgVEUEQCAIQdAAaiAAQbwBahC4BCAILQBQBEAgCCgCVCEBDAMLIAgtAFFBAUcNASAAQQE6AKBUCyAAKALEASIDRQ0AIABBmAJqIRUgCEE8aq1CgICAgBCEIR0gAEHUAWohFiAAQeABaiESIABB7AFqIRcgAEH4AWohGANAAkAgACgC0AEiBiAAKAKcVCIBayICQQAgAiAGTRtBgIAETwRAIAEhAgwBCyABIAFBgIACayICQQAgASACTxsiBGshAiABIARGBEAgACACNgKcVAwBCyABIAZNBEAgAgRAIAAoAswBIgEgASAEaiAC/AoAAAsgACgCxAEhAyAAIAI2ApxUDAELQQAgASAGQczVwQAQ6gcACwJAAkAgAyANTwRAIAhB0ABqIBUgACgCwAEgDWogAyANayAAKALMASAAKALQASACQQYQRCAIIAgtAFQiAToADyAIKAJQIRQgCCgCWCIRRQ0CIAAoApxUIgMgEWoiAiADTyACIAAoAtABIgZNcQ0BIAMgAiAGQdzVwQAQ6gcACyANIAMgA0Hs1cEAEOoHAAsgACgCzAEhBiAAKALUASAAKALcASICayARSQRAIBYgAiARQQFBARCkBSAAKALcASECCyARBEAgACgC2AEgAmogAyAGaiAR/AoAAAsgACACIBFqIgQ2AtwBIAAgACgCnFQgEWo2ApxUIAAoAuABQYCAgIB4RgRAAkAgBEEQSQ0AIAggACgC2AEiAigAACIDNgIcIANBzo7NggVHBEAgCEEBNgJkIAhBzMjBADYCYCAIQQE2AlQgCEHUzsEANgJQIAhBATYCXCAIIAhBHGqtQoCAgICQBIQ3A0AgCCAIQUBrNgJYIAhBIGoiACAIQdAAahCxBiAAEI4HIQEMBgsgCCACKAAEIgk2AiwgCUEEa0F9TwRAIABBADYC3AEgAiwADiEGIAItAA0hByACLQAMIQMgAigACCEFIARBEGsiBARAIAQEQCACIAJBEGogBPwKAAALIAAgBDYC3AELIAggAzYCPAJAIANBA00EQEGAgMAAEHEiAg0BAAsgCEEBNgJUIAhBoO3HADYCUCAIQgE3AlwgCCAdNwNoIAggCEHoAGo2AlggCEFAayIAIAhB0ABqELEGIAAQkAchAQwHCyAAIAY6AJYCIAAgBzoAlQIgAEEAOgCUAiAAQQA2ApACIAAgAzYCjAIgACAFNgKIAiAAIAk2AoQCIABBADYCgAIgAEKAgICAwAA3AvgBIABCAjcC8AEgAEIANwLoASAAIAI2AuQBIABBgIAQNgLgASAIIAZBgAFxQQd2OgBYIAggAzYCVCAIIAU2AlAgACAIQdAAahClBCAGQQBODQEgAEEBOgCcAQwBCyAIQQE2AlQgCEG0zsEANgJQIAhCATcCXCAIIAhBLGqtQoCAgIAQhDcDQCAIIAhBQGs2AlggCEEwaiIAIAhB0ABqELEGIAAQjgchAQwFCyAAKALgAUGAgICAeEYNAQsDQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgAC0AlAJBAWsOCQ0MCwoAAQYEEAILQQkhD0EGIQEgACgCjAIOBAQIBwYCCyAAQQlBByAALACWAkEAThs6AJQCDA8LIAAoAtwBQQZBCSAAKAKEAiIDQQFGGyIMbiICIAAoAogCIAAoApACayIGSQRAIAIiBkGAgARJDQ4LQYCABCAGIAZBgIAETxsiBUEDbCICIAAoAugBIgFLBH8gAiABayICIAAoAuABIAFrSwRAIBIgASACQQRBBBCkBSAAKALoASEBCyAAKALkASIEIAFBAnRqIQMgAkECTwR/IAJBAnRBBGsiCQRAIANBACAJ/AsACyABIAJqIgJBAWshASAEIAJBAnRqQQRrBSADC0EANgIAIAAgAUEBajYC6AEgACgChAIFIAMLQQFHDQsgBkUNDEEAIQlBACEBQQAhAkEAIQMDQCABQQJqIQcgACgC3AEiBCABQQFqTQRAIAEgByAEQazPwQAQ6gcACwJ/IAAoAtgBIAFqIgRBAWotAABBCHQiCiAELQAAciIEQf//AXFFBEAgBEEQdAwBCyAEQf8HcSEEIApBgIACcSELIApBgPgBcSIKQYD4AUYEQCALQRB0IgpBgICA/AdyIARFDQEaIARBDXQgCnJBgICA/gdyDAELIAtBEHQiCyAKQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2pyIAoNABogBCAEZ0EQayIEQf//A3FBCGp0Qf///wNxIAtBgICA2ANyIARBF3RrcgshBAJ/AkACQCAAKALoASIKIANLBEAgACgC5AEgAmogBDYCACABQQRqIgogACgC3AEiBEsNASAAKALYASABaiIEQQNqLQAAQQh0IgcgBEECai0AAHIiBEH//wFxRQRAIARBEHQMBAsgBEH/B3EhBCAHQYCAAnEhCyAHQYD4AXEiB0GA+AFGBEAgC0EQdCIHQYCAgPwHciAERQ0EGiAEQQ10IAdyQYCAgP4HcgwECyALQRB0IQsgB0UNAiAHQQ10QYCAgPwAcSAEQQ10ckGAgIDAA2ogC3IMAwsgAyAKQdzOwQAQjAcACyAHIAogBEGcz8EAEOoHAAsgBCAEZ0EQayIEQf//A3FBCGp0Qf///wNxIAtBgICA2ANyIARBF3RrcgshBAJ/AkACQCADQQFqIgcgACgC6AEiC0kEQCAAKALkASACakEEaiAENgIAIAFBBmoiBCAAKALcASIHSw0BIAAoAtgBIAFqIgFBBWotAABBCHQiByABQQRqLQAAciIBQf//AXFFBEAgAUEQdAwECyABQf8HcSEBIAdBgIACcSEKIAdBgPgBcSIHQYD4AUYEQCAKQRB0IgdBgICA/AdyIAFFDQQaIAFBDXQgB3JBgICA/gdyDAQLIApBEHQhCiAHRQ0CIAdBDXRBgICA/ABxIAFBDXRyQYCAgMADaiAKcgwDCyAHIAtB7M7BABCMBwALIAogBCAHQYzPwQAQ6gcACyABIAFnQRBrIgFB//8DcUEIanRB////A3EgCkGAgIDYA3IgAUEXdGtyCyEBIANBAmoiByAAKALoASIKSQRAIAAoAuQBIAJqQQhqIAE2AgAgAkEMaiECIANBA2ohAyAEIQEgCUEBaiIJIAVJDQEMDgsLIAcgCkH8zsEAEIwHAAtB7NPBABCBCAALIAAoAtwBIgFBAnYiAiAAKAKIAiAAKAKQAmsiBEkEQCACIQQgAUGAgBBJDQwLQYCABCAEIARBgIAETxsiAiAAKAKAAiIBSwRAIAIgAWsiAyAAKAL4ASABa0sEQCAYIAEgA0EEQQQQpAUgACgCgAIhAQsgACgC/AEiCSABQQJ0aiEGIANBAk8EfyADQQJ0QQRrIgUEQCAGQQAgBfwLAAsgASADaiIDQQFrIQEgCSADQQJ0akEEawUgBgtBADYCACAAIAFBAWoiATYCgAILIAQEQEEAIQFBACEDAkADQCAAKALcASIGIAFBA2pNBEAgASABQQRqIAZBvNXBABDqBwALIAAoAoACIgYgA0sEQCAAKAL8ASABaiAAKALYASABaigAADYCACABQQRqIQEgAiADQQFqIgNGDQIMAQsLIAMgBkGs1cEAEIwHAAsgACgCgAIhAQsgACAAKAKQAiACIAAoAvwBIAEQtQQCQAJAAkAgACgC3AEiAyACQQJ0IgFPBEAgAEEANgLcASADIAFrIQYgBEUNASABIANGDQMgBkUNAiAAKALYASIDIAEgA2ogBvwKAAAMAgsMFAsgASADRg0BCyAAIAY2AtwBCyAAIAAoApACIAJqIgI2ApACIAIgACgCiAJHDQwgAEEANgKQAkEJIQELIAAgAToAlAIMCwsgACgC3AEiAUEBdiICIAAoAogCIAAoApACayIESQRAIAIhBCABQYCACEkNCgtBgIAEIAQgBEGAgARPGyICIAAoAvQBIgFLBEAgAiABayIDIAAoAuwBIAFrSwRAIBcgASADQQJBAhCkBSAAKAL0ASEBCyAAKALwASIJIAFBAXRqIQYgA0ECTwR/IANBAXRBAmsiBQRAIAZBACAF/AsACyABIANqIgNBAWshASAJIANBAXRqQQJrBSAGC0EAOwEAIAAgAUEBaiIBNgL0AQsgBARAQQAhA0ECIQECQANAIAAoAtwBIgYgAUkEQCABQQJrIAEgBkGc1cEAEOoHAAsgACgC9AEiBiADSwRAIAAoAvABIAFqQQJrIAAoAtgBIAFqQQJrLwAAOwEAIAFBAmohASACIANBAWoiA0YNAgwBCwsgAyAGQYzVwQAQjAcACyAAKAL0ASEBCyAAIAAoApACIAIgACgC8AEgARC0BAJAAkACQCAAKALcASIDIAJBAXQiAU8EQCAAQQA2AtwBIAMgAWshBiAERQ0BIAEgA0YNAyAGRQ0CIAAoAtgBIgMgASADaiAG/AoAAAwCCwwSCyABIANGDQELIAAgBjYC3AELIAAgACgCkAIgAmoiAjYCkAIgAiAAKAKIAkcNCiAAQQA2ApACIABBCDoAlAIMCgtBLSEPDAELQRghDwsgACgC3AEgD24iAiAAKAKIAiAAKAKQAmsiB0kEQCACIgdBgIAESQ0HC0GAgAQgByAHQYCABE8bIg4gD2wiDCAAKALoASIBSwRAIAwgAWsiAiAAKALgASABa0sEQCASIAEgAkEEQQQQpAUgACgC6AEhAQsgACgC5AEiBiABQQJ0aiEDIAJBAk8EfyACQQJ0QQRrIgQEQCADQQAgBPwLAAsgASACaiICQQFrIQEgBiACQQJ0akEEawUgAwtBADYCACAAIAFBAWoiATYC6AELIA5BCWwhEwJAIAcEQCAOQeAAbCEKIA5BGGwhCUEBIQFBACEQQQAhBgJAA0AgBiEEIAEhBiAEIA9sIgEgACgC3AEiAk8NAwJAAkACQAJAIARBCWwiAyAAKALoASICTw0AIAAoAuQBIANBAnRqIAAoAtgBIAFqLQAAs0MAAADDkkMAAAA8lDgCACABQQNqIgUgACgC3AEiAk8EQCAFIQEMCAsgA0EDaiILIAAoAugBIgJPBEAgCyEDDAELIAAoAuQBIAtBAnRqIAAoAtgBIAVqLQAAs0MAAADDkkMAAAA8lDgCACABQQZqIgUgACgC3AEiAk8EQCAFIQEMCAsgA0EGaiILIAAoAugBIgJPBEAgCyEDDAELIAAoAuQBIAtBAnRqIAAoAtgBIAVqLQAAs0MAAADDkkMAAAA8lDgCACABQQFqIgUgACgC3AEiAk8EQCAFIQEMCAsgA0EBaiILIAAoAugBIgJPBEAgCyEDDAELIAAoAuQBIAtBAnRqIAAoAtgBIAVqLQAAs0MAAADDkkMAAAA8lDgCACABQQRqIgUgACgC3AEiAk8EQCAFIQEMCAsgA0EEaiILIAAoAugBIgJPBEAgCyEDDAELIAAoAuQBIAtBAnRqIAAoAtgBIAVqLQAAs0MAAADDkkMAAAA8lDgCACABQQdqIgUgACgC3AEiAk8EQCAFIQEMCAsgA0EHaiILIAAoAugBIgJPBEAgCyEDDAELIAAoAuQBIAtBAnRqIAAoAtgBIAVqLQAAs0MAAADDkkMAAAA8lDgCACABQQJqIgUgACgC3AEiAk8EQCAFIQEMCAsgA0ECaiILIAAoAugBIgJPBEAgCyEDDAELIAAoAuQBIAtBAnRqIAAoAtgBIAVqLQAAs0MAAADDkkMAAAA8lDgCACABQQVqIgUgACgC3AEiAk8EQCAFIQEMCAsgA0EFaiILIAAoAugBIgJPBEAgCyEDDAELIAAoAuQBIAtBAnRqIAAoAtgBIAVqLQAAs0MAAADDkkMAAAA8lDgCACABQQhqIgUgACgC3AEiAk8EQCAFIQEMCAsgA0EIaiIDIAAoAugBIgJPDQAgACgC5AEgA0ECdGogACgC2AEgBWotAACzQwAAAMOSQwAAADyUOAIAIAAoAowCQQFLDQEMAgsgAyACQfzUwQAQjAcACwJAAkAgAUEJaiIDIAAoAtwBIgVPDQAgBEEPbCATaiICIAAoAugBIgVPDQMgACgC5AEgAkECdGogACgC2AEgA2otAACzQwAAAMOSQwAAADyUOAIAIAFBDGoiAyAAKALcASIFTw0AIAJBA2oiBCAAKALoASIFTwRAIAQhAgwECyAAKALkASAEQQJ0aiAAKALYASADai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEPaiIDIAAoAtwBIgVPDQAgAkEGaiIEIAAoAugBIgVPBEAgBCECDAQLIAAoAuQBIARBAnRqIAAoAtgBIANqLQAAs0MAAADDkkMAAAA8lDgCACABQRJqIgMgACgC3AEiBU8NACACQQlqIgQgACgC6AEiBU8EQCAEIQIMBAsgACgC5AEgBEECdGogACgC2AEgA2otAACzQwAAAMOSQwAAADyUOAIAIAFBFWoiAyAAKALcASIFTw0AIAJBDGoiBCAAKALoASIFTwRAIAQhAgwECyAAKALkASAEQQJ0aiAAKALYASADai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEKaiIDIAAoAtwBIgVPDQAgAkEBaiIEIAAoAugBIgVPBEAgBCECDAQLIAAoAuQBIARBAnRqIAAoAtgBIANqLQAAs0MAAADDkkMAAAA8lDgCACABQQ1qIgMgACgC3AEiBU8NACACQQRqIgQgACgC6AEiBU8EQCAEIQIMBAsgACgC5AEgBEECdGogACgC2AEgA2otAACzQwAAAMOSQwAAADyUOAIAIAFBEGoiAyAAKALcASIFTw0AIAJBB2oiBCAAKALoASIFTwRAIAQhAgwECyAAKALkASAEQQJ0aiAAKALYASADai0AALNDAAAAw5JDAAAAPJQ4AgAgAUETaiIDIAAoAtwBIgVPDQAgAkEKaiIEIAAoAugBIgVPBEAgBCECDAQLIAAoAuQBIARBAnRqIAAoAtgBIANqLQAAs0MAAADDkkMAAAA8lDgCACABQRZqIgMgACgC3AEiBU8NACACQQ1qIgQgACgC6AEiBU8EQCAEIQIMBAsgACgC5AEgBEECdGogACgC2AEgA2otAACzQwAAAMOSQwAAADyUOAIAIAFBC2oiAyAAKALcASIFTw0AIAJBAmoiBCAAKALoASIFTwRAIAQhAgwECyAAKALkASAEQQJ0aiAAKALYASADai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEOaiIDIAAoAtwBIgVPDQAgAkEFaiIEIAAoAugBIgVPBEAgBCECDAQLIAAoAuQBIARBAnRqIAAoAtgBIANqLQAAs0MAAADDkkMAAAA8lDgCACABQRFqIgMgACgC3AEiBU8NACACQQhqIgQgACgC6AEiBU8EQCAEIQIMBAsgACgC5AEgBEECdGogACgC2AEgA2otAACzQwAAAMOSQwAAADyUOAIAIAFBFGoiAyAAKALcASIFTw0AIAJBC2oiBCAAKALoASIFTwRAIAQhAgwECyAAKALkASAEQQJ0aiAAKALYASADai0AALNDAAAAw5JDAAAAPJQ4AgAgAUEXaiIDIAAoAtwBIgVPDQAgAkEOaiICIAAoAugBIgVPDQMgACgC5AEgAkECdGogACgC2AEgA2otAACzQwAAAMOSQwAAADyUOAIAIAAoAowCQQJNDQJBACEFIAohAwwBCyADIAVBzNTBABCMBwALAkACQAJAAkACQAJAAkACfwJAAkACQAJAAkACQANAIAAoAtwBIgIgBSAQaiIBQRhqSwRAIAUgCWoiBCAAKALoASICTw0PIAAoAuQBIANqIAEgACgC2AFqQRhqLQAAs0MAAADDkkMAAAA8lDgCACAAKALcASICIAFBG2pNDQcgACgC6AEiAiAEQQNqTQ0OIAAoAuQBIANqQQxqIAEgACgC2AFqQRtqLQAAs0MAAADDkkMAAAA8lDgCACAAKALcASICIAFBHmpNDQYgACgC6AEiAiAEQQZqTQ0NIAAoAuQBIANqQRhqIAEgACgC2AFqQR5qLQAAs0MAAADDkkMAAAA8lDgCACAAKALcASICIAFBIWpNDQUgACgC6AEiAiAEQQlqTQ0MIAAoAuQBIANqQSRqIAEgACgC2AFqQSFqLQAAs0MAAADDkkMAAAA8lDgCACAAKALcASICIAFBJGpNDQQgACgC6AEiAiAEQQxqTQ0LIAAoAuQBIANqQTBqIAEgACgC2AFqQSRqLQAAs0MAAADDkkMAAAA8lDgCACAAKALcASICIAFBJ2pNDQMgACgC6AEiAiAEQQ9qTQ0KIAAoAuQBIANqQTxqIAEgACgC2AFqQSdqLQAAs0MAAADDkkMAAAA8lDgCACAAKALcASICIAFBKmpNDQIgACgC6AEiAiAEQRJqTQ0JIAAoAuQBIANqQcgAaiAAKALYASAQaiAFakEqai0AALNDAAAAw5JDAAAAPJQ4AgAgA0EEaiEDIAVBAWoiBUEDSQ0BDBALCyABQRhqDAYLIAFBKmoMBQsgAUEnagwECyABQSRqDAMLIAFBIWoMAgsgAUEeagwBCyABQRtqCyACQazUwQAQjAcACyAEQRJqIQQMBQsgBEEPaiEEDAQLIARBDGohBAwDCyAEQQlqIQQMAgsgBEEGaiEEDAELIARBA2ohBAsgBCACQbzUwQAQjAcACyAPIBBqIRAgCUEVaiEJIApB1ABqIQogBiAGIA5JIgJqIQEgAkUNAgwBCwsgAiAFQdzUwQAQjAcACyAAKALoASEBCwJAAkACQAJAAkACQCABIBNPBEAgACgC5AEhBiAAKAKQAiEEQQAhAkEEIQkCQCAAKAKMAiIKQQJJBEBBBCEQQQAhBQwBCyAOQRhsIgMgAUsNAiAOQQ9sIQUgBiATQQJ0aiEQIApBAkYNACABIAxJIAMgDEtyDQcgDCADayECIAYgA0ECdGohCQsgBwRAIAAgBCAOIAYgExDOAwsgBQRAIAAgBCAOIBAgBRDiAwsgAgRAIAAgBCAOIAkgAhDjAwsgACgC3AEiAiAMSQ0CIABBADYC3AEgAiAMayEBIAdFDQMgAiAMRg0FIAFFDQQgACgC2AEiAiACIAxqIAH8CgAADAQLQQAgEyABQZzUwQAQ6gcACyATIAMgAUGM1MEAEOoHAAtBACAMIAJBhKTHABDqBwALIAIgDEYNAQsgACABNgLcAQsgACAAKAKQAiAOaiICNgKQAiACIAAoAogCRw0JIABBADYCkAIgAEEGOgCUAgwJCyADIAwgAUH808EAEOoHAAsgASACQezUwQAQjAcACyAAKALcAUEEQQMgACgChAIiA0EDRhsiEG4iAiAAKAKIAiAAKAKQAmsiBkkEQCACIgZBgIAESQ0GCwJAAkACQAJAAkACQAJAAkACQAJAAkBBgIAEIAYgBkGAgARPGyIFQQJ0IgIgACgC6AEiAUsEfyACIAFrIgIgACgC4AEgAWtLBEAgEiABIAJBBEEEEKQFIAAoAugBIQELIAAoAuQBIgQgAUECdGohAyACQQJPBH8gAkECdEEEayIJBEAgA0EAIAn8CwALIAEgAmoiAkEBayEBIAQgAkECdGpBBGsFIAMLQQA2AgAgACABQQFqNgLoASAAKAKEAgUgAwtBA0cEQCAGRQ0LQQAhBEEAIQFBACECQQAhAwNAIAEgACgC3AEiCU8NAiABQQFqIgcgCU8NAyABQQJqIgcgCU8NBEMAAIA/IAAoAtgBIAFqIgktAACzQwAA/0KVQwAAgL+SIhkgGZQgCUEBai0AALNDAAD/QpVDAACAv5IiGiAalJIgCUECai0AALNDAAD/QpVDAACAv5IiGyAblJKTQwAAAAAQ4AghHCADIAAoAugBIglPDQUgACgC5AEgAmogGTgCACADQQFqIgkgACgC6AEiB08NBiAAKALkASACakEEaiAaOAIAIANBAmoiCSAAKALoASIHTw0HIAAoAuQBIAJqQQhqIBs4AgAgA0EDaiIJIAAoAugBIgdPDQggACgC5AEgAmpBDGogHJE4AgAgAUEDaiEBIAJBEGohAiADQQRqIQMgBEEBaiIEIAVJDQALDAsLIAZFDQpBACECQQEhCUEAIQMDQAJAAkACQAJAIAAoAtwBIgEgA0sEQCADQQFqIgQgAU8NASADQQJqIgcgAU8NAiADQQNqIgogAU8NAyAAKALYASADaiIBQQJqLQAAIQwgAUEDai0AACELIAEtAAAgAUEBai0AACEOIAj9DAAAAAAAAAAAAAAAAAAAAAD9CwNQIA5BCHRyIg8gDEEQdCALQRh0cnIhAUMAAAAAIRkCfwJAIAtBBnYiDEEDRwRAIAggD0H/A3GzQwCA/0OVQ/MENT+UIhmMIBkgDkECcRsiGTgCXCAZIBmUIRkgAUEKdiEBIAxBAkYNAQsgCCABQf8DcbNDAID/Q5VD8wQ1P5QiGowgGiABQYAEcRsiGjgCWCAZIBogGpSSIRkgAUEKdiIBIAxBAUYNARoLIAggAUH/A3GzQwCA/0OVQ/MENT+UIhqMIBogAUGABHEbIho4AlQgGSAaIBqUkiEZIAFBCnYLIQEgCEHQAGogDEECdGpDAACAPyALQcAATwR9IAggAUH/A3GzQwCA/0OVQ/MENT+UIhqMIBogAUGABHEbIho4AlAgGSAaIBqUkgUgGQuTIhmRQwAAAAAgGUMAAAAAXhs4AgAgAyAAKALoASIBSQ0EIAMgAUG80sEAEIwHAAsgAyABQfzRwQAQjAcACyAEIAFBjNLBABCMBwALIAcgAUGc0sEAEIwHAAsgCiABQazSwQAQjAcACyAAKALkASACaiAIKgJQOAIAIAQgACgC6AEiAU8NCiAAKALkASACakEEaiAIKgJUOAIAIAcgACgC6AEiAU8NCSAAKALkASACakEIaiAIKgJYOAIAIAogACgC6AEiAU8NCCAAKALkASACakEMaiAIKgJcOAIAIAJBEGohAiADQQRqIQMgBSAJSyAJQQFqIQkNAAsMCgsgASAJQfzSwQAQjAcACyAHIAlBjNPBABCMBwALIAcgCUGc08EAEIwHAAsgAyAJQazTwQAQjAcACyAJIAdBvNPBABCMBwALIAkgB0HM08EAEIwHAAsgCSAHQdzTwQAQjAcACyAKIAFB7NLBABCMBwALIAcgAUHc0sEAEIwHAAsgBCABQczSwQAQjAcACyAAIAAoApACIAUgACgC5AEgACgC6AEQ+wQCQAJAAkAgACgC3AEiASAFIBBsIgJPBEAgAEEANgLcASABIAJrIQMgBkUNASABIAJGDQMgA0UNAiAAKALYASIBIAEgAmogA/wKAAAMAgsMDwsgASACRg0BCyAAIAM2AtwBCyAAIAAoApACIAVqIgI2ApACIAIgACgCiAJHDQYgAEEANgKQAiAAQQU6AJQCDAYLIAAoAtwBIgFBA24iAiAAKAKIAiAAKAKQAmsiCUkEQCACIQkgAUGAgAxJDQULQYCABCAJIAlBgIAETxsiBEEDbCIGIAAoAugBIgFLBEAgBiABayICIAAoAuABIAFrSwRAIBIgASACQQRBBBCkBSAAKALoASEBCyAAKALkASIFIAFBAnRqIQMgAkECTwR/IAJBAnRBBGsiBwRAIANBACAH/AsACyABIAJqIgJBAWshASAFIAJBAnRqQQRrBSADC0EANgIAIAAgAUEBaiIBNgLoAQsCQAJAAkACQAJAAkACQAJAAkAgCQRAQQAhA0EAIQEDQCABIAAoAtwBIgJPDQIgASAAKALoASICTw0DIAAoAuQBIANqIAAoAtgBIAFqLQAAs0MAAIA9lEMAACDBkhCJBDgCACABQQFqIgIgACgC3AEiBU8NBCACIAAoAugBIgVPDQUgACgC5AEgA2pBBGogACgC2AEgAWpBAWotAACzQwAAgD2UQwAAIMGSEIkEOAIAIAFBAmoiAiAAKALcASIFTw0GIAIgACgC6AEiBU8NByAAKALkASADakEIaiAAKALYASABakECai0AALNDAACAPZRDAAAgwZIQiQQ4AgAgA0EMaiEDIAYgAUEDaiIBRw0ACyAAKALoASEBCyAAIAAoApACIAQgACgC5AEgARDJAyAAKALcASICIAZJDRUgAEEANgLcASACIAZrIQEgCUUNBiACIAZGDQggAUUNByAAKALYASICIAIgBmogAfwKAAAMBwsgASACQZzRwQAQjAcACyABIAJBrNHBABCMBwALIAIgBUG80cEAEIwHAAsgAiAFQczRwQAQjAcACyACIAVB3NHBABCMBwALIAIgBUHs0cEAEIwHAAsgAiAGRg0BCyAAIAE2AtwBCyAAIAAoApACIARqIgI2ApACIAIgACgCiAJHDQUgAEEANgKQAiAAQQQ6AJQCDAULIAAoAtwBIgFBA24iAiAAKAKIAiAAKAKQAmsiCUkEQCACIQkgAUGAgAxJDQQLQYCABCAJIAlBgIAETxsiBEEDbCIGIAAoAugBIgFLBEAgBiABayICIAAoAuABIAFrSwRAIBIgASACQQRBBBCkBSAAKALoASEBCyAAKALkASIFIAFBAnRqIQMgAkECTwR/IAJBAnRBBGsiBwRAIANBACAH/AsACyABIAJqIgJBAWshASAFIAJBAnRqQQRrBSADC0EANgIAIAAgAUEBaiIBNgLoAQsCQAJAAkACQAJAAkACQAJAAkAgCQRAQQAhA0EAIQEDQCABIAAoAtwBIgJPDQIgASAAKALoASICTw0DIAAoAuQBIANqIAAoAtgBIAFqLQAAs0MAAH9DlUMAAAC/kkOMuPA/lEMAAAA/kjgCACABQQFqIgIgACgC3AEiBU8NBCACIAAoAugBIgVPDQUgACgC5AEgA2pBBGogACgC2AEgAWpBAWotAACzQwAAf0OVQwAAAL+SQ4y48D+UQwAAAD+SOAIAIAFBAmoiAiAAKALcASIFTw0GIAIgACgC6AEiBU8NByAAKALkASADakEIaiAAKALYASABakECai0AALNDAAB/Q5VDAAAAv5JDjLjwP5RDAAAAP5I4AgAgA0EMaiEDIAYgAUEDaiIBRw0ACyAAKALoASEBCyAAIAAoApACIAQgACgC5AEgARCWBCAAKALcASICIAZJDRQgAEEANgLcASACIAZrIQEgCUUNBiACIAZGDQggAUUNByAAKALYASICIAIgBmogAfwKAAAMBwsgASACQbzQwQAQjAcACyABIAJBzNDBABCMBwALIAIgBUHc0MEAEIwHAAsgAiAFQezQwQAQjAcACyACIAVB/NDBABCMBwALIAIgBUGM0cEAEIwHAAsgAiAGRg0BCyAAIAE2AtwBCyAAIAAoApACIARqIgI2ApACIAIgACgCiAJHDQQgAEEANgKQAiAAQQM6AJQCDAQLIAAoAtwBIgIgACgCiAIgACgCkAJrIgZJBEAgAiIGQYCABEkNAwtBgIAEIAYgBkGAgARPGyIEIAAoAugBIgFLBEAgBCABayICIAAoAuABIAFrSwRAIBIgASACQQRBBBCkBSAAKALoASEBCyAAKALkASIJIAFBAnRqIQMgAkECTwR/IAJBAnRBBGsiBQRAIANBACAF/AsACyABIAJqIgJBAWshASAJIAJBAnRqQQRrBSADC0EANgIAIAAgAUEBajYC6AELAkACQAJAAkACQAJAAkACQCAGBEBDAACAP0MAAABAIAAsAJYCQQBOGyEZQQAhA0EAIQEDQCABIAAoAtwBIgJPDQMgASAAKALoASICTw0EIAAoAuQBIANqIBkgACgC2AEgAWotAACzQwAAf0OVlDgCACADQQRqIQMgBCABQQFqIgFHDQALIAAoAuQBIQcgACgC6AEhCSAAIAAoApACIAQQzANBACECIAQhBSAJIQNBACEBA0AgACgCZCIKIAFBA2pNDQUgAwRAIAAoAmAgAmpBA2pB/wFDAAB/Q0MAAAAAIAEgB2oqAgBDAAAAQEMAAIA/IAAtAJwBQQFxG5VDAAB/Q5QiGSAZQwAAAABdGyIZIBlDAAB/Q14bELkHIhn8AUEAIBlDAAAAAGAbIBlDAAB/Q14bOgAAIAJBEGohAiADQQFrIQMgAUEEaiEBIAVBAWsiBQ0BDAMLCyAJIAlBqNvAABCMBwALIAAgACgCkAIgBBDMAwsgAEEBOgC4ASAAKALcASICIARJDQMgAEEANgLcASACIARrIQEgBkUNBCACIARGDQYgAUUNBSAAKALYASICIAIgBGogAfwKAAAMBQsgASACQZzQwQAQjAcACyABIAJBrNDBABCMBwALIAEgAUEEaiAKQbjbwAAQ6gcAC0EAIAQgAkGEpMcAEOoHAAsgAiAERg0BCyAAIAE2AtwBCyAAIAAoApACIARqIgI2ApACIAIgACgCiAJHDQMgAEEANgKQAiAAQQI6AJQCDAMLIAZFDQBBASAALQCVAnSzIRlBACEJQQAhAUEAIQJBACEDAkACQAJAAkADQCABQQNqIgQgACgC3AEiB0sEQCABIAQgB0GM0MEAEOoHAAsgAyAAKALoASIHTw0BIAAoAuQBIAJqIAAoAtgBIAFqIgdBAmotAAAiCkEQdCAHLQAAciAHQQFqLQAAQQh0ciIHQYCAgHhyIAcgCsBBAEgbsiAZlTgCACABQQZqIgcgACgC3AEiCksNAiADQQFqIgQgACgC6AEiCk8NAyAAKALkASACakEEaiAAKALYASABaiIEQQVqLQAAIgpBEHQgBEEDai0AAHIgBEEEai0AAEEIdHIiBEGAgIB4ciAEIArAQQBIG7IgGZU4AgAgAUEJaiIEIAAoAtwBIgpLDQQgA0ECaiIHIAAoAugBIgpJBEAgACgC5AEgAmpBCGogACgC2AEgAWoiAUEIai0AACIHQRB0IAFBBmotAAByIAFBB2otAABBCHRyIgFBgICAeHIgASAHwEEASBuyIBmVOAIAIAJBDGohAiADQQNqIQMgBCEBIAlBAWoiCSAFSQ0BDAYLCyAHIApB3M/BABCMBwALIAMgB0G8z8EAEIwHAAsgBCAHIApB/M/BABDqBwALIAQgCkHMz8EAEIwHAAsgByAEIApB7M/BABDqBwALIAAgACgCkAIgBSAAKALkASAAKALoARCjAgJAAkACQCAAKALcASIBIAUgDGwiAk8EQCAAQQA2AtwBIAEgAmshAyAGRQ0BIAEgAkYNAyADRQ0CIAAoAtgBIgEgASACaiAD/AoAAAwCCwwKCyABIAJGDQELIAAgAzYC3AELIAAgACgCkAIgBWoiAjYCkAIgAiAAKAKIAkcNASAAQQA2ApACIABBAToAlAIMAQsLIAgtAA8hAQsgDSAUaiENAkACQAJAAkACQCABQf8BcQ4DAQIDAAsgCEEBNgJUIAhBmPfHADYCUCAIQgE3AlwgCCAIQQ9qrUKAgICAoASENwNAIAggCEFAazYCWCAIQRBqIgAgCEHQAGoQsQYgABCOByEBDAYLIABBAToAoVQgDUEIaiANIAAoAsQBIgIgDWsiAUEAIAEgAk0bQQdLGyENDAILIBEgFHJFDQELIA0gACgCxAEiA0kNAQsLIA1FDQAgDSAAKALEASICTQRAQQAhASAAQQA2AsQBIAIgDUYNAiACIA1rIgIEQCAAKALAASIDIAMgDWogAvwKAAALIAAgAjYCxAEMAgtBACANIAJBhKTHABDqBwALQQAhAQsgCEHwAGokACABDwtBACABIANBhKTHABDqBwALQQAgAiABQYSkxwAQ6gcAC0EAIAYgAkGEpMcAEOoHAAvVVgMffwR+AXsjAEGgBWsiDiQAAkACQCAAAn8CQCABLQCjByIKQQdGBEAgAEIANwIEDAELIAUgBk8EQCABKAKIByEIIAFBADYCiAcgBiELAkAgCEEBcUUNACAFIAtrIhUgASgCkAciDCAMIBVLGyIIRSAIRXJFBEAgBCALaiABLQCMByAI/AsACyAMIBVNBEAgBiAMaiELDAELIAFBATYCiAcgACAVNgIIIABBADYCBCABIAwgFWs2ApAHQQAMAwsgASgClAchCCABQQA2ApQHAkACQAJAIAhBAXEEQCAFIAtrIhkgASgCnAciGyAZIBtJGyIRBEBBACEMAkAgEUEBayIJIAEoApgHIhggBSALIBhrIgggBSAISxtqIAtrIgggGUEAIAUgGU8bIhAgCCAQSRsiCCAIIAlLGyIVQQFqIg9BEUkEQEEBIQkMAQtBASEJIBhBD00NACAPQQ9xIghBECAIGyIJIBVBf3NqIQggBCALaiENQQAgGGshFSAPIAlrIgxBAWohCQNAIA0gDSAVav0AAAD9CwAAIA1BEGohDSAIQRBqIggNAAsLIBBBAWohFSARQQFqIQgDQCALIAxqIg8gGGsiDCAFTw0EIAkgFUYNAyAEIA9qIAQgDGotAAA6AAAgCSEMIAggCUEBaiIJRw0ACwsgGSAbSQ0DIAsgG2ohCwsgAUHsBmohIiABQeAGaiEjIAVBEGshHSABQaAGaiEgIAFBgARqIR4gDkE+aiEkIA5BkAVqISUgAyENAkACQANAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgCiIVQf8BcSImQQFrDgcCCAcGAAUEAQsgAS0AogciDEUgAS8BoAciCUVyIAUgC01yRQRAIAEpA9AGIScDQAJAIAQgC2ogJzwAACALQQFqIQsgJ0IIiCEnIAxBCGsiDEH/AXFFIAlBAWsiCUH//wNxRXINACAFIAtLDQELCyABIAw6AKIHIAEgJzcD0AYgASAJOwGgBwsgDEH/AXFFBEAgAUIANwPQBgsgBSALSQ0CIAUgC2siCiANIAlB//8DcSIMIAwgDUsbIgggCCAKSxsiCARAIAQgC2ogAiAI/AoAAAsgASAJIAhrOwGgByAIIAtqIQsgAiAIaiECIA0gCGshDSAIIAxHDQogAUEGQQEgAS0ApAcbOgCjBwwKCyANQQhPBEAgASABKQPQBiACKQAAIAEtAKIHIghBP3GthoQiJzcD0AZBPyAIa0EDdiIJIA1NBEAgASAIQThyIgo6AKIHIA0gCWshDQwKCwwVCyABLQCiByEMIA5CADcDIEE/IAxrQQN2IgggDSAIIA1JGyIJBEAgDkEgaiACIAn8CgAACyABIAlBA3QgDGoiCjoAogcgASABKQPQBiAOKQMgIAythkIAIAxBwABJG4QiJzcD0AYgDSAJayENIApB/wFxQRBPDQhBACEVDAoLIAEpA9AGIScgAS0AogchCQNAAkAgDUEITwRAIAEgAikAACAJrYYgJ4QiJzcD0AZBPyAJQf8BcWtBA3YiCCANTQRAIAEgCUE4ciIMOgCiByACIAhqIQIgDSAIayENDAILIAggDSANQZiNxAAQ6gcACyAOQgA3AyBBPyAJQf8BcSIKa0EDdiIIIA0gCCANSRsiCARAIA5BIGogAiAI/AoAAAsgASAIQQN0IAlqIgw6AKIHIAEgDikDICAJrYZCACAKQcAASRsgJ4QiJzcD0AYgAiAIaiECIA0gCGshDSAMQf8BcUEKSQ0KCyABICenIg9BAXEiCDoApAcCQCAAAn8CQAJAAkACQAJAIA9BAXZBA3FBAWsOAwIBBAALIAxBBWpBB3EiCUEjaiIIIAxB/wFxSw0PQQMgJ0J/IAlBE2qtIiqGQn+FgyAJQQNqrYgiKSAnQn8gCK0iKIZCf4WDICqIhUL//wODQv//A1INBBogASApPQGgByABQQU6AKMHIAEgDCAIazoAogcgASAnICiINwPQBgwPCyAMQf8BcUERSQ0OIAEgD0ENdkEPcUEEajYCyAYgASAPQQh2QR9xIglBAWo2AsQGIAEgD0EDdkEfcSIIQYECajYCwAZBBCAIQR1LDQMaIAlBHU0NAUEFDAMLIAEgDEEDazoAogcgASAnQgOINwPQBiAnQvgHg1ANAyABLQClB0UEQCABQQE6AKUHIAEoAvgGIQpBACIIRQRAIApB7J3EAEGAEPwKAAALIAhFBEAgCkGAEGpB7J3EAEGAEPwKAAALIAhFBEAgCkGAIGpB7J3EAEGAEPwKAAALIAhFBEAgCkGAMGpB7J3EAEGAEPwKAAALIAhFBEAgCkGAQGtB7J3EAEGAEPwKAAALIAhFBEAgCkGA0ABqQeydxABBgBD8CgAACyAIRQRAIApBgOAAakHsncQAQYAQ/AoAAAsgCEUEQCAKQYDwAGpB7J3EAEGAEPwKAAALIAEoAvwGIQpBAEUEQCAKQeycxABBgAH8CgAACyAIRQRAIApBgAFqQeycxABBgAH8CgAACyAIRQRAIApBgAJqQeycxABBgAH8CgAACyAIRQRAIApBgANqQeycxABBgAH8CgAACyAIRQRAIApBgARqQeycxABBgAH8CgAACyAIRQRAIApBgAVqQeycxABBgAH8CgAACyAIRQRAIApBgAZqQeycxABBgAH8CgAACyAIRQRAIApBgAdqQeycxABBgAH8CgAACyAIRQRAIApBgAhqQeycxABBgAH8CgAACyAIRQRAIApBgAlqQeycxABBgAH8CgAACyAIRQRAIApBgApqQeycxABBgAH8CgAACyAIRQRAIApBgAtqQeycxABBgAH8CgAACyAIRQRAIApBgAxqQeycxABBgAH8CgAACyAIRQRAIApBgA1qQeycxABBgAH8CgAACyAIRQRAIApBgA5qQeycxABBgAH8CgAACyAIRQRAIApBgA9qQeycxABBgAH8CgAACyABQYCA/AM2AoAHIAFBBzoAhAcLIAFBBDoAowcMDQsgAUEAOgClByABQQI6AKMHIAEgDEERazoAogcgASAnQhGINwPQBgwMC0ECCzoAAUEBDBQLIAEgDEEKayIJOgCiByABICdCCogiJzcD0AYgCA0HIAlB/wFxQQpJDQADQCAnQv8Hg0ICUg0BIAEgCUEKayIPOgCiByABICdCCogiJzcD0AYCQAJAIA1BB00EQCAOQgA3AyBBPyAPQf8BcSIMa0EDdiIIIA0gCCANSRsiCgRAIA5BIGogAiAK/AoAAAsgASAKQQN0IA9qIgk6AKIHIAEgDikDICAPrYZCACAMQcAASRsgJ4QiJzcD0AYMAQsgASACKQAAIA+thiAnhCInNwPQBkE/IA9B/wFxa0EDdiIKIA1LDQEgASAPQThyIgk6AKIHCyACIApqIQIgDSAKayENIAlB/wFxQQlNDQIMAQsLCwwUCyALIAUgBUGMsMQAEOoHAAtBpPjGAEEoQbywxAAQ6wcACwJAAkACQAJAIA1BB00EQCABLQCiByEKIA5CADcDIEE/IAprQQN2IgggDSAIIA1JGyIJBEAgDkEgaiACIAn8CgAACyABIAlBA3QgCmoiDDoAogcgASABKQPQBiAOKQMgIAqthkIAIApBwABJG4Q3A9AGDAELIAEgASkD0AYgAikAACABLQCiByIIQT9xrYaENwPQBkE/IAhrQQN2IgkgDUsNFCABIAhBOHIiDDoAogcLIA0gCWshDSAMQf8BcSAMQQdxIghBIHJJBEAgAiAJaiECDAkLIAUgC0kgBiALS3INACAOQRBqIAEvAdwGIAEvAd4GIAQgBmogCyAGayIJIAEoAtgGEQcAIAEgDigCEDYC3AYgASkD0AYhJyAIDQEMAgsgBiALIAVBrLDEABDqBwALIAEgJyAIrYgiJzcD0AYgASABLQCiByAIazoAogcLAkAgAS0ApgdFBEAgASgC3AYgJ6ciAkEYdCACQYD+A3FBCHRyIAJBCHZBgP4DcSACQRh2cnJHDQELIAFBBzoAowcgASAnQiCINwPQBiABIAEtAKIHQSBrOgCiBwwJCyAAQQ46AAFBAQwPCwJAAn8CQAJAAkACQAJAAkACQAJAAkAgDUEHTQRAIAEtAKIHIQogDkIANwMgQT8gCmtBA3YiCCANIAggDUkbIggEQCAOQSBqIAIgCPwKAAALIAEgCEEDdCAKaiIMOgCiByABIAEpA9AGIA4pAyAgCq2GQgAgCkHAAEkbhCInNwPQBiACIAhqIQIgDSAIayENIAEoAvgGIRwMAQsgASABKQPQBiACKQAAIAEtAKIHIghBP3GthoQiJzcD0AYgDUE/IAhrQQN2IgpJDRsgASAIQThyIgw6AKIHIAIgCmohAiABKAL4BiEcIA0gCmsiDUEISSALQQhqIAVLcg0AIBwgJ6dB/x9xQQJ0aigCACEKIAEoAvAGISEgASgC9AYhGiABKAL8BiEZIAEoAuQGIRsgASgC6AYhHwNAAn8CQCAKQYCAAnFFBEAgCiEJICchKAwBCwJAAkACQCAFIAtLBEAgHCAnIBwgJyAKrYgiKKdB/x9xQQJ0aigCACIJIApqIhggHCAnIBhBP3GtiCIpp0H/H3FBAnRqKAIAIg9qIhBBP3GtiCInp0H/H3FBAnRqKAIAIQggBCALaiAKQRB2OgAAIAUgC0EBaiIRTQRAIBEgBUH4l8QAEIwHAAsgBCARaiAKQRh2OgAAIApBCHZBD3EgC2ohCyAJQYCAAnFFDQICQCAFIAtLBEAgBCALaiAJQRB2OgAAIAtBAWoiCiAFTw0BIAQgCmogCUEYdjoAACAJQQh2QQ9xIAtqIQsgD0GAgAJxRQRAIAEgKTcD0AYgASAMIBhrIgw6AKIHIAEgAikAACAMQT9xrYYgKYQiJzcD0AYgDUE/IAxB/wFxa0EDdiIKTwRAIA8hCSAnISgMBwsMJQsgBSALTQRAIAsgBUH8msQAEIwHAAsgBCALaiAPQRB2OgAAIAtBAWoiCiAFSQ0DIAogBUGMm8QAEIwHAAsgCyAFQYiYxAAQjAcACyAKIAVBmJjEABCMBwALIAsgBUHol8QAEIwHAAsgASAnNwPQBiABIAwgEGsiCToAogcgBCAKaiAPQRh2OgAAIAEgAikAACAJQT9xrYYgJ4QiJzcD0AZBPyAJQf8BcWtBA3YiCiANTQRAIAEgCUE4ciIMOgCiByACIApqIQIgDSAKayENIAghCiALIA9BCHZBD3FqDAQLDCALIAEgKDcD0AYgASAMIAprIgw6AKIHIAxB/wFxQTBPBEAgKCEnDAILIAEgAikAACAMrYYgKIQiJzcD0AZBPyAMa0H4AXFBA3YhCgsgASAMQThyIgw6AKIHIAIgCmohAiANIAprIQ0LAkACQAJAAkACQAJ/IAlBgIABcUUEQCAJQRB2IRQgCUEIdgwBCyAJQYDAAHFFDQ0CQAJAIB8gCSAop0EMdnFB/wFxIAlBEHZqIghLBEAgGyAIQQF0ai8BACIIQQ9xIQkgCEEEdiEQIAhBgCBJDQEgEEGAAkcNAiAJDBQLIAggH0GomMQAEIwHAAsgASAMIAlrIhE6AKIHIAEgJyAJrYgiJzcD0AYgHCAnp0H/H3FBAnRqKAIAIQoCQCANQQdNBEAgDkIANwMgQT8gEUH/AXEiD2tBA3YiCCANIAggDUkbIgkEQCAOQSBqIAIgCfwKAAALIAEgCUEDdCARaiIMOgCiByABIA4pAyAgEa2GQgAgD0HAAEkbICeEIic3A9AGDAELIAEgAikAACARrYYgJ4QiJzcD0AZBPyARQf8BcWtBA3YiCSANSw0kIAEgEUE4ciIMOgCiBwsgBSALTQ0CIAQgC2ogEDoAACACIAlqIQIgDSAJayENIAtBAWoMBwsgEEGBAmsiCEEcSw0CIAhBAnQoAriYRCEUIAgtALyZRAshCCAZICggCa2IIiogCK0iKYgiKKciD0H/A3FBAnRqKAIAIgpBgIACcQ0CQQshECAKQYACSQ0OIAogD0EJdnFB/wFxIApBEHZqIgogGk8NAyAhIApBAXRqLwEAIg9B3wNLDQ4gD0EPcSEKIA9BBHYiDy0A7JlEIREgD0EBdC8Bxv5EIRIMBAsgCyAFQeyaxAAQjAcACyAIQR1BrJnEABCMBwALIApBEHYhEiAKQQh2QQ9xIREMAQsgCiAaQdyZxAAQjAcAC0J/IBGthkJ/hSAoIAqtiIOnIhggEkH//wNxIhBqIhYgC0sEQEENIRAMCgsgASAMIAggCWogEWogCmoiCGsiDzoAogcgASAnIAhBP3GtiCInNwPQBgJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIA1BB00EQCAOQgA3AyBBPyAPQf8BcSIJa0EDdiIIIA0gCCANSRsiCgRAIA5BIGogAiAK/AoAAAsgASAKQQN0IA9qIgw6AKIHIAEgDikDICAPrYZCACAJQcAASRsgJ4QiJzcD0AYMAQsgASACKQAAIA+thiAnhCInNwPQBkE/IA9B/wFxa0EDdiIKIA1LDSogASAPQThyIgw6AKIHCyAFIAtrIhIgFCAqQn8gKYZCf4WDp2oiEyASIBNJGyEXIAIgCmohAiANIAprIQ0gHCAnp0H/H3FBAnRqKAIAIQogFkEBRgRAIAtBAWsiCCAFTw0BIAQgCGotAAAhCCAXBEAgBCALaiAIIBf8CwALIBIgE08NDCABIAg6AIwHIAFBATYCiAcgASATIBJrNgKQBwwJCyALIBNqQQ9qIAVLDQcgCyAWayIQQRBqIgggBUsNASAQQW9LDQIgCyAdSw0DIAQgC2ogBCAQav0AAAD9CwAAIBZBEE8iCCATQRBNcQ0LIBZFDQQgE0EQIBYgCBsiD24iCCATIAggD2xHaiIJQQJJDQsgDyAQaiIQQRBqIgggBUsNBSAQQW9LDQYgHSALIA9qTwRAIAlBAmshCCAPQQF0IBZrIRQgBCAPaiERIAQgDyAWa2ohEiAPIQkDQCALIBFqIAsgEmr9AAAA/QsAACAIRQ0NAkAgBSALIBRqIhBBEGpPBEAgEEFvTQ0BIBBBEGohCAwKCyALIBRqQRBqIQgMCAsgCEEBayEIIA8gFGohFCAPIBFqIREgDyASaiESIAsgCSAPaiIJaiAdTQ0ACwsgDkEANgIwIA5BATYCJCAOQdScyAA2AiAgDkIENwIoIA5BIGpB3JrEABCNCAALIAggBUGMmsQAEIwHAAtBACAIIAVBzJrEABDqBwALIBAgCCAFQcyaxAAQ6gcACyAOQQA2AjAgDkEBNgIkIA5B1JzIADYCICAOQgQ3AiggDkEgakHMmsQAEI0IAAtBuP3GAEEbQdT9xgAQ6wcAC0EAIAggBUHcmsQAEOoHAAsgECAIIAVB3JrEABDqBwALAkACQCAWIBdJBEBBACEIIBdBAWsiDyAFIAsgFmsiCSAFIAlLGyAQaiAYaiALayIJIBJBACAFIBJPGyIYIAkgGEkbIgkgCSAPSxsiD0EBaiIQQRFJBEBBASEJDAILQQEhCSAWQQ9NDQEgEEEPcSIIQRAgCBsiCCAPQX9zaiEUIAQgC2ohEUEAIBZrIQ8gECAIayIIQQFqIQkDQCARIA8gEWr9AAAA/QsAACARQRBqIREgFEEQaiIUDQALDAELAkACQCAFIAsgF2ogFmsiCE8EQCAIIAsgFmsiCUkNASALIAUgCCAJayIIa0sNAiAIRQ0EIAQgC2ogBCAJaiAI/AoAAAwEC0EAIAggBUGcmsQAEOoHAAsgCSAIIAVBnJrEABDqBwALIA5BADYCMCAOQQE2AiQgDkHUnMgANgIgIA5CBDcCKCAOQSBqQZyaxAAQjQgACyAYQQFqIRAgF0EBaiEPA0AgCCALaiIRIBZrIgggBU8NAyAJIBBGDQQgBCARaiAEIAhqLQAAOgAAIA8gCSIIQQFqIglHDQALCyASIBNPDQMgASAWNgKYByABQQE2ApQHIAEgEyASazYCnAcLIAUhCwwFCyAIIAVBrJrEABCMBwALIBEgBUG8msQAEIwHAAsgCyAXagsiC0EIaiAFSw0BIA1BB0sNAAsLIAEoAvAGIRkgASgC9AYhHyABKAL8BiEbIAEoAuQGIRggASgC6AYhIQNAAkACQAJAAkACQAJAAkACQCANQQdNBEAgDkIANwMgQT8gDEH/AXEiD2tBA3YiCCANIAggDUkbIgkEQCAOQSBqIAIgCfwKAAALIAEgCUEDdCAMaiIKOgCiByABIA4pAyAgDK2GQgAgD0HAAEkbICeEIic3A9AGDAELIAEgAikAACAMrYYgJ4QiJzcD0AZBPyAMQf8BcWtBA3YiCSANSw0iIAEgDEE4ciIKOgCiBwsgAiAJaiECIA0gCWshDSAFIAtGBEAgCiEMDAsLAkACQAJ/AkAgHCAnpyIIQf8fcUECdGooAgAiCUGAgAJxRQRAIAlBgIABcQ0BIAlBEHYhEiAJQQh2DAILIApB/wFxIAlB/wFxTw0DDA0LIAlBgMAAcUUNCyAIQQx2IAlxQf8BcSAJQRB2aiIIICFPDQYgGCAIQQF0ai8BACIIQQ9xIgkgCkH/AXFLDQwgCEEEdiEPIAhBgCBJDQEgD0GAAkYEQCABICcgCa2INwPQBiAKIAlrIQkMFQsgD0GBAmsiCEEcSw0DIAhBAnQoAriYRCESIAgtALyZRAshCCAbICcgCa2IIiogCK0iKYgiKKciD0H/A3FBAnRqKAIAIgxBgIACcQ0DIApB/wFxIAggCWoiCEEJakH/AXFNDQtBCyEQIAxBgAJJDRAgDCAPQQl2cUH/AXEgDEEQdmoiCSAfTw0EIBkgCUEBdGovAQAiCUHfA0sNECAJQQ9xIQwgCUEEdiIPLQDsmUQhCSAPQQF0LwHG/kQhEQwICyABIAogCWsiDDoAogcgASAnIAmtiCInNwPQBiAFIAtLBEAgBCALaiAPOgAAIAtBAWohCwwJCyALIAVBrJzEABCMBwALIAlBCHZBD3EhDyAFIAtBAWoiCE0EQCAFIAsgD2pHBEAgBSALSwRAIAFBATYCkAcgAUEBNgKIByABIAlBGHY6AIwHIAQgC2ogCUEQdjoAACABIAogCWsiDDoAogcgASAnIAmtiCInNwPQBgwOCyALIAVBvJzEABCMBwALIAUgC0sNBiALIAVBzJzEABCMBwALIAUgC0sNBCALIAVB3JzEABCMBwALIAhBHUGsm8QAEIwHAAsgCCAJaiEIIAxBEHYhESAMQQh2QQ9xIQkMBAsgCSAfQbybxAAQjAcACyAIICFBnJvEABCMBwALIAQgCGogCUEYdjoAACAEIAtqIAlBEHY6AAAgASAKIAlrIgw6AKIHIAEgJyAJrYgiJzcD0AYgCyAPaiELDAILIAEgCiAJayIMOgCiByAEIAtqIAlBEHY6AAAgASAnIAmtiCInNwPQBgwFCyAKQf8BcSAIIAlqIAxqIhBB/wFxSQ0CQn8gCa2GQn+FICggDK2Ig6ciDyARQf//A3EiCGoiEyALSwRAQQ0hEAwICyABIAogEGsiDDoAogcgASAnIBCtiCInNwPQBiAFIAtrIhcgEiAqQn8gKYZCf4WDp2oiEiASIBdLGyEaAkACQAJAAkACQAJAAkACQAJAIBNBAUYEQCALQQFrIgggBU8NASAEIAhqLQAAIQggEkUgGkVyRQRAIAQgC2ogCCAa/AsACyASIBdNDQkgASAIOgCMByABQQE2AogHIAEgEiAXazYCkAcMDQsgCyASakEPaiAFSw0HIAsgE2siCkEQaiIIIAVLDQEgCkFvSw0CIAsgHUsNAyAEIAtqIAQgCmr9AAAA/QsAACATQRBPIgggEkEQTXENCCATRQ0EIBJBECATIAgbIgluIgggEiAIIAlsR2oiCEECSQ0IIAkgCmoiFEEQaiIKIAVLDQUgFEFvSw0GIB0gCSALak8EQCAIQQJrIQogCUEBdCATayESIAQgCWohCCAEIAkgE2tqIREgCSEQA0AgCCALaiALIBFq/QAAAP0LAAAgCkUNCgJAIAUgCyASaiIUQRBqTwRAIBRBb00NASAUQRBqIQoMCgsgCyASakEQaiEKDAgLIApBAWshCiAJIBJqIRIgCCAJaiEIIAkgEWohESALIAkgEGoiEGogHU0NAAsLIA5BADYCMCAOQQE2AiQgDkHUnMgANgIgIA5CBDcCKCAOQSBqQZycxAAQjQgACyAIIAVBzJvEABCMBwALQQAgCCAFQYycxAAQ6gcACyAKIAggBUGMnMQAEOoHAAsgDkEANgIwIA5BATYCJCAOQdScyAA2AiAgDkIENwIoIA5BIGpBjJzEABCNCAALQbj9xgBBG0HU/cYAEOsHAAtBACAKIAVBnJzEABDqBwALIBQgCiAFQZycxAAQ6gcACwJAAkACQAJAIBMgGkkEQEEAIQogGkEBayIJIAggBSALIBNrIgggBSAISxtqIA9qIAtrIgggF0EAIAUgF08bIhEgCCARSRsiCCAIIAlLGyIPQQFqIhBBEUkEQEEBIQkMAgtBASEJIBNBD00NASAQQQ9xIghBECAIGyIKIA9Bf3NqIRQgBCALaiEIQQAgE2shDyAQIAprIgpBAWohCQNAIAggCCAPav0AAAD9CwAAIAhBEGohCCAUQRBqIhQNAAsMAQsCQAJAIAUgCyAaaiATayIITwRAIAggCyATayIKSQ0BIAsgBSAIIAprIghrSw0CIAhFDQQgBCALaiAEIApqIAj8CgAADAQLQQAgCCAFQdybxAAQ6gcACyAKIAggBUHcm8QAEOoHAAsgDkEANgIwIA5BATYCJCAOQdScyAA2AiAgDkIENwIoIA5BIGpB3JvEABCNCAALIBFBAWohDyAaQQFqIQgDQCAKIAtqIhAgE2siCiAFTw0CIAkgD0YNAyAEIBBqIAQgCmotAAA6AAAgCSEKIAggCUEBaiIJRw0ACwsgEiAXTQ0CIAEgEzYCmAcgAUEBNgKUByABIBIgF2s2ApwHIAUhCwwSCyAKIAVB7JvEABCMBwALIBAgBUH8m8QAEIwHAAsgCyAaaiELDAALAAsgCUH/AXEiCEUNBCAKQf8BcSAISQ0AIAEgJyAJrYg3A9AGIAogCWshCQwICyAKIQwgCyEIDAELIAUhCAsgASgClAcEQCAIIQsMCwsgASgCiAcEQCAIIQsMCwsgDEH/AXFBD0kEQCAIIQsMCwsgAS8BgAcgAS8BggcgJ6dxQf//AXFHBEAgCCELDAsLIAEgJyABLQCEByILQT9xrYg3A9AGIAwgC2shCSAIIQsMBQsgCUH/AXENAgtBCiEQCyAAIBA6AAFBAQwRCyAJQT9xCyEKIAEgJyAKrYg3A9AGIAwgCWshCQsgASAJOgCiByABQQZBASABLQCkBxs6AKMHDAQLAkAgASgCzAYiCSABKALABiIMIAEoAsQGaiIQSQRAA0ACQCANQQhPBEAgASABKQPQBiACKQAAIAEtAKIHIghBP3GthoQiJzcD0AZBPyAIa0EDdiIKIA1NBEAgASAIQThyIgg6AKIHIAIgCmohAiANIAprIQ0MAgsMFAsgAS0AogchDCAOQgA3AyBBPyAMa0EDdiIIIA0gCCANSRsiCgRAIA5BIGogAiAK/AoAAAsgASAKQQN0IAxqIgg6AKIHIAEgASkD0AYgDikDICAMrYZCACAMQcAASRuEIic3A9AGIAIgCmohAiANIAprIQ0gCEH/AXFBB0kNBwsgASAnp0H/AHFBAnRqKAIAIgpBB3EhDAJ+AkACQAJAIApBEHYiCkH/AXEiD0EQTwRAIA9BE08NAQJ/AkACQAJAAkAgD0ERaw4CAQIACyAMQQJqIhEgCEH/AXFLDQ8gCQ0CQQYhAQwLC0EDIQogDEEDaiIRIAhB/wFxSw0OQQAMAgsgDEEHaiIRIAhB/wFxSw0NQQshCkEADAELIAlBAWshCCAJQcACSw0DQQMhCiAIIB5qLQAACyEIIBAgCiAnQn8gEa0iKIZCf4WDIAytiKdqIgwgCWpJBEBBBiEBDAgLQQAhCQJAA0AgCSABKALMBmoiCkHAAk8NASAKIB5qIAg6AAAgDCAJQQFqIglHDQALIAEgASgCzAYgDGoiCTYCzAYgASkD0AYgKIgMBQsgCkHAAkGcrsQAEIwHAAsgCUHAAkkNAiAJQcACQayuxAAQjAcAC0Gk+MYAQShB/K3EABDrBwALIAhBwAJBjK7EABCMBwALIAkgHmogCjoAACABIAEoAswGQQFqIgk2AswGIAwhESABKQPQBiAMrYgLIScgASAnNwPQBiABIAEtAKIHIBFrOgCiByAJIBBJDQALIAEoAsAGIQwLAkACQAJAAkAgEEHAAk0EQCAMIBBLDQEgECAMayIIQSFPDQIgCARAICAgDCAeaiAI/AoAAAsCQCABKALABiIKQZ8CSw0AQaACIAprIghFDQAgCiAeakEAIAj8CwALAkAgASgCxAYiCkGgAmpBvwJLDQBBICAKayIIRQ0AIAogIGpBACAI/AsACyABLQCABiIIRQRAQQghAQwGCyABKALABiEKIA5BIGoiCUEAQcAE/AsAIAFBADYC6AYgCkHBAk8NAyAKQaECTw0EIB4gCkGojcQAQaACIAkgCiABKAL4BkGAICAjQQBBARB4RQRAQQchAQwGCyABIAg6AIQHIAEgDi8BoAQ7AYAHIAFBfyAIQQ9xdEF/czsBggcCQCAgQbiWxABBIBDbBwRAICX9DAAAAAAAAAAAAAAAAAAAAAD9CwMAIA5BgAVqICv9CwMAIA5B8ARqICv9CwMAIA4gK/0LA+AEICBBIEHYlsQAQSAgDkHgBGpBICABKAL8BkGABCAiQQFBABB4DQFBCSEBDAcLIAEoAvwGQQBBgBD8CwALIAFBBDoAowcMCQtBACAQQcACQeytxAAQ6gcACyAMIBBBwAJB7K3EABDqBwALIA5BADYCMCAOQQE2AiQgDkHUnMgANgIgIA5CBDcCKCAOQSBqQeytxAAQjQgAC0EAIApBwAJB2JfEABDqBwALQQAgCkGgAkGolsQAEOoHAAsgACABOgABQQEMDQsCQAJAAkAgDUEHTQRAIAEtAKIHIQwgDkIANwMgQT8gDGtBA3YiCCANIAggDUkbIgkEQCAOQSBqIAIgCfwKAAALIAEgCUEDdCAMaiIKOgCiByABIAEpA9AGIA4pAyAgDK2GQgAgDEHAAEkbhCInNwPQBgwBCyABIAEpA9AGIAIpAAAgAS0AogciCEE/ca2GhCInNwPQBkE/IAhrQQN2IgkgDUsNECABIAhBOHIiCjoAogcLIAIgCWohAiAKQf8BcSANIAlrIg1BA3RqIAEoAsgGIghBA2xJDQQgDkHvBGpBADYAACAO/QwAAAAAAAAAAAAAAAAAAAAA/QsD4AQgCARAQbR/IQkDQAJAAkACQCAJBEAgCUGIr8QAaigCACIPQRNPDQEgASAKQQNrIgw6AKIHIAEgJ0IDiCIoNwPQBiAOQeAEaiAPaiAnp0EHcToAACAJQXhGDQIgKCEnIAwhCgwDC0ETQRNBiK/EABCMBwALIA9BE0GYr8QAEIwHAAsgDUEHTQRAIA5CADcDIEE/IAxB/wFxIg9rQQN2IgogDSAKIA1JGyIQBEAgDkEgaiACIBD8CgAACyABIBBBA3QgDGoiCjoAogcgASAOKQMgIAythkIAIA9BwABJGyAohCInNwPQBiACIBBqIQIgDSAQayENDAELIAEgAikAACAMrYYgKIQiJzcD0AYgDUE/IAxB/wFxa0EDdiIPSQ0DIAEgDEE4ciIKOgCiByACIA9qIQIgDSAPayENCyAJQQRqIQkgCEEBayIIDQALCyAkQgA3AQAgDkEwaiAr/QsDACAOICv9CwMgIA5BADYCHCAOQoCAgIAgNwIUIA5B4ARqQRNBBEEAIA5BIGpBEyABQYABIA5BFGpBAEEAEHgNASAOKAIUIgEEQCAOKAIYIAFBAXRBAhCiBwsgAEEHOgABQQEMDgsgDyANIA1BmI3EABDqBwALAkACQCAOKAIUIgoEQCAOKAIYIgxBBGsoAgAiCEF4cSIJIApBAXQiCkEEQQggCEEDcSIIG2pJDQEgCEEAIAkgCkEnaksbDQIgDBCiAgsgAUEANgLMBiABQQM6AKMHDAQLQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyABQQY6AKMHDAELAkAgJ0KPwACDQghSICdC8AGDQvAAVnINACAnpyIIQQh0IAhBgP4DcUEIdnJB//8DcUEfcA0AIAIgCWohAiABQQE6AKMHIAEgCkEQazoAogcgASAnQhCINwPQBgwBCyAAQQA6AAFBAQwKCyAmIAEtAKMHIgpHDQELCwJAIBVB/wFxQQdGDQAgAS0ApgdBAXENACAFIAtJIAYgC0tyRQRAIA5BCGogAS8B3AYgAS8B3gYgBCAGaiALIAZrIAEoAtgGEQcAIAEgDigCCDYC3AYgAS0AowchFQwBCyAGIAsgBUGcsMQAEOoHAAsgB0UgFUH/AXFBB0ZyRSAFIAtHcQ0BIAsgBmshCQsgACAJNgIIIAAgAyANazYCBAwFCyAAQQE6AAFBAQwFCyAPIAVB/K/EABCMBwALIAwgBUHsr8QAEIwHAAsgAUEBNgKUByAAIBk2AgggAEEANgIEIAEgGyAZazYCnAdBAAwCC0Gor8QAQTFB3K/EABDrBwALQQALOgAAIA5BoAVqJAAPCyAJIA0gDUGYjcQAEOoHAAsgCiANIA1BmI3EABDqBwAL718EHX8efQd7AX4jAEGAA2siBSQAIAAoAgghHyAFQQA2AvABIAVBADYC9AIgBSAANgK4ASAFIAEgAkECdCISaiIQNgK0ASAFIAE2ArABIAVB9AFqIQogBUH0AmohCUEgIQgCQAJAAkACQAJAAn8gAkEhSQRAIAkhByAKDAELIAVBIGogBUHwAWpBfyACQQFrZ3ZBAWoQ9AMgBSgCICIEQYGAgIB4RwRAIAQNAkHYlccAQRFB1MzHABDrBwALIAUoAvQCIghBIUkEQCAIIQYgCSEHQSAhCCAKDAELIAUoAvQBIQYgCiEHIAUoAvgBCyEEAkACQCAHIAYgCEkEfyAEIAZBAnRqIQQDQCAFQRhqIAVBsAFqEMIDIAUoAhhBAXFFDQIgBCAFKgIcOAIAIARBBGohBCAIIAZBAWoiBkcNAAsgCAUgBgs2AgAgBUEwaiAFQbgBaigCADYCACAFIAUpArABNwMoA0AgBUEQaiAFQShqEMIDIAUoAhBBAXFFDQICfyAFKAL0AiIIQSFJBEAgCCEEIAkhBkEgIQggCgwBCyAFKAL0ASEEIAohBiAFKAL4AQshByAFKgIUISEgBCAIRgR/IAVB8AFqENMGIAUoAvgBIQcgCiEGIAUoAvQBBSAEC0ECdCAHaiAhOAIAIAYgBigCAEEBajYCAAwACwALIAcgBjYCAAsgBUEoaiAFQfABakGIAfwKAAACQAJ/IAUoAqwBIgpBIU8EQCAFKAIwIQkgBSgCLAwBCyAFQSxqIQkgCgsiBEUEQEMAAACAISEMAQsgBEEDcSEGAkAgBEEESQRAQQAhCEMAAACAISEMAQsgBEF8cSEHQQAhCEMAAACAISEgCSEEA0AgISAEKgIAkiAEQQRqKgIAkiAEQQhqKgIAkiAEQQxqKgIAkiEhIARBEGohBCAHIAhBBGoiCEcNAAsLIAZFDQAgCSAIQQJ0aiEEA0AgISAEKgIAkiEhIARBBGohBCAGQQFrIgYNAAsLICFDYEKiDRDgCCEsIAVBLGoiEyEHIApBIU8EQCAFKAIsIQogBSgCMCEHCwJAIApFDQAgByEEIApBAnQiCUEEayIGQQxPBEAgBCAGQQJ2QQFqIgtB/P///wdxIgpBAnRqIQQgLP0TIUIgCiEIIAchBgNAIAYgBv0AAgAgQv3nAf0LAgAgBkEQaiEGIAhBBGsiCA0ACyAKIAtGDQELIAcgCWohBwNAIAQgBCoCACAslTgCACAEQQRqIgQgB0cNAAsLAn0CQAJAAkACQAJAAkACQCACRQRAIAVCADcDwAEMAQtDAACAPyAAKgJAIAAtAFgiEUECRiIEG0MAAAAAIAAqAjwgBBsiIpMhJSAFKAIsIAUoAqwBIgQgBEEgSyIEGyELIBJBBGtBAnZBAWohDSAAKAIEIQ4gACgCCCEMIAUoAjAgEyAEGyIKIQdBACEIIAFBBGoiBiEEIAEhCQNAIAkoAgAiCSAMTw0CIAggC08NAyAOIAlBGGxqIgkqAgggByoCACIhID/9HwIQtAb9EyAJKgIAICEgP/0fABC0Bv0gACAJKgIEICEgP/0fARC0Bv0gASE/IAlBDmovAQAhDyAiIAlBEGotAAAiCbNDAAB/Q5UgJZSSICEgQf0fAhC0Bv0TICIgDyAJQRB0ckH/AXGzQwAAf0OVICWUkiAhIEH9HwAQtAb9IAAgIiAPQQh2s0MAAH9DlSAllJIgISBB/R8BELQG/SABIUEgB0EEaiEHIARBBEEAIAQiCSAQRxtqIQQgDSAIQQFqIghHDQALIAVCADcDwAFDAAAQQSAAKgJIIBFBAkYiBBtDAABAwSAAKgJEIAQbIiWTQwAAfkOVISMgA0MAAAA/lCIDIAOUISZBACEIIAEhBANAIAQoAgAiBCAMTw0EIAggC08NBSAOIARBGGxqIgdBEWovAAAgB0ETai0AACIJQRB0ciIEQQh2IQ8gB/0AAgAgCioCACEDQwAAAAAhIkMAAAAAIScgBEH/AXEEQCAlICMgBEEBa0H/AXGzlJIQiQQhJwsgD0H/AXEEQCAlICMgD0EBa0H/AXGzlJIQiQQhIgsgBiEEID/95QEhQiAJBH0gJSAjIAlBAWtB/wFxs5SSEIkEBUMAAAAACyEqQwAAgD8gB0EUai8BACIGQQh2s/0TIAYgB0EWai0AACIHQRB0ckH/AXGz/SAB/QwAAH9DAAB/QwAAf0MAAH9D/ecBIkMgQ/3kAf0MAACAvwAAgL8AAIC/AACAv/3kASJD/R8BIiuLkyBD/R8AIi2LkyIkjEMAAAAAEOAIISEgJiBC/R8AIiggKJQgKv0TIAezQwAAf0OVQwAAAD+UQ9sPSUCUIjIQmQIiKiArICEgIYwiMyBD/QwAAAAAAAAAAAAAAAAAAAAA/Ub9TSJD/ccB/RsCQQFxG5IiKyAkICSUICsgK5QgLSAhIDMgQ/0bAEEBcRuSIisgK5SSkpEiLZWUIiEgKiAkIC2VlCIzIDOSIiSUIjQgMhCbAiIyICogKyAtlZQiKiAqkiIrlCItkv0TICogJJQiNSAyICEgIZIiNpQiN5P9IAFDAACAPyAhIDaUIjYgKiArlCI4kpP9IAL95gEiQ/0fACIqICqUICL9EyAhICuUIiIgMiAklCIrk/0TQwAAgD8gNiAzICSUIiSSk/0gASA1IDeS/SAC/eYBIkT9HwAiISAhlCAn/RNDAACAPyA4ICSSk/0TICIgK5L9IAEgNCAtk/0gAv3mASJF/R8AIiIgIpSSkpKSIAMgQP0fABC0Bv0TICYgQv0fASInICeUIEP9HwEiJCAklCBE/R8BIisgK5QgRf0fASItIC2UkpKSkiADIED9HwEQtAb9IAEgJiBC/R8CIjMgM5QgQ/0fAiIyIDKUIET9HwIiNCA0lCBF/R8CIjUgNZSSkpKSIAMgQP0fAhC0Bv0gAiAoICeUICogJJQgISArlCAiIC2UkpKSIAMgQP0fAxC0Bv0gAyFAIApBBGohCiAEQQRBACAEIBBHG2ohBiAnIDOUICQgMpQgKyA0lCAtIDWUkpKSIAMgKRC0BiEpICggM5QgKiAylCAhIDSUICIgNZSSkpIgAyAuELQGIS4gDSAIQQFqIghHDQALCyAFICk4AsQBIAUgLjgCwAEgBSBA/QsEsAEgBUHwAWogBUGwAWoQrgEgBf0ABKACIUAgBSoCmAIhAyAFKgKQAiEhIAUqAoQCIScgBSoClAIhIiAFKgKAAiElIAUqAogCISYgBSoC8AFDAAAAABDgCCAFKgL0AUMAAAAAEOAIISQgBSoC+AFDAAAAABDgCCEo/RMgJP0gAf3jASJC/Qz///9/////f////3////9//U79DAAAgH8AAIB/AACAfwAAgH/9PyJD/RsAQQFxIEP9xwH9GwJBAXFyDQQgKJEiI7xB/////wdxQf////sHSw0EIEIgI/0gAiAj/SAD/QxgQqINYEKiDWBCog1gQqIN/esBIUIgQP3hASBA/R8CIiOMIiT9IAIgJP0gAyBAICYgISBA/R8BIiSUICIgQP0fACIolJOUICUgIiAjlCADICSUk5QgJyAhICOUIAMgKJSTlJOSQwAAAABdGyJA/R8BISQgQP0fACEoIED9HwIiI0MAAAAAX0UEQCAjQwAAgD+SISMgJSAikiIiQwAAAABfRQRAICIgI5IiIkMAAAA/ICKRlSIplCElICcgIZMgKZQhIyAoICaTICmUISIgAyAkkyAplAwICyAnICGTQwAAAD8gIyAikyIikZUiIZQhJSAiICGUISMgAyAkkiAhlCEiICYgKJIgIZQMBwtDAACAPyAjkyEjICIgJZMiIkMAAAAAX0UNBSADICSTQwAAAD8gIyAikyIkkZUiA5QhJSAmICiSIAOUISMgJyAhkiADlCEiICQgA5QMBgsgCSAMQdy7xwAQjAcACyAIIAtBnLvHABCMBwALIAQgDEHcu8cAEIwHAAsgCCALQYy7xwAQjAcAC0H0uMcAQdYAQcy5xwAQ6wcACyAoICaTQwAAAD8gIiAjkiIikZUiJpQhJSADICSSICaUISMgIiAmlCEiICcgIZIgJpQLISggQv0fACInIEL9HwEiJpRDj8LNPxC3CiEDICcgQv0fAiIklEOPws0/ELcKISFDAAB6REO9N4Y1ICwgJiAklEOPws0/ELcKIAMgIZKSQwAAQECVQ+ZAHz8QtwpD2w9JQZSVIgMgA0O9N4Y1XRsiAyADQwAAekReGwJ/IAAtAFhBAkYEQCAFQfABaiEIIAVB/AJqIQogBUHYAWohCSAFQfgCagwBCyAAQUBrIQkgAEHEAGohCiAAQTxqIQggAEHIAGoLIQQgBUGAgICKfDYC/AIgBUGAgID8AzYC2AEgBUEANgLwASAFQYCAwIgENgL4ArwiB0H///8DcSELIAdBgICAgHhxIQYgCioCACEDIAkqAgAhKSAIKgIAISEgBCoCACEsAkAgB0GAgID8B3EiBEGAgID8B0YEQCALQQ12IAZBEHZyQYAEQQAgCxtyQYD4AXIhBgwBCyAGQRB2IQYgBEGAgIC4BE0EQCAEQYCAgMQDTwRAIAdBDHYgB0H/3wBxQQBHcSAEQQ12IAtBDXZqQYCAAWogBnJqIQYMAgsgBEGAgICYA0kNASALQYCAgARyIgdB/gAgBEEXdiIIa3YhBCAHQR0gCGsiCHZBAXEEfyAEQQMgCHRBAWsgB3FBAEdqBSAECyAGciEGDAELIAZBgPgBciEGCyAFICU4AvwBIAUgIzgC+AEgBSAiOAL0ASAFICg4AvABQwAAf0NDAAAAACBB/R8BICGTICkgIZMiJZVDAAB/Q5QiIiAiQwAAAABdGyIiICJDAAB/Q14bELkHISJBACEIQf8BQwAAf0NDAAAAACBB/R8CICGTICWVQwAAf0OUIiMgI0MAAAAAXRsiIyAjQwAAf0NeGxC5ByIj/AFBACAjQwAAAABgGyAjQwAAf0NeG0EQdEH/ASAi/AFBACAiQwAAAABgGyAiQwAAf0NeG0EIdHJB/wFDAAB/Q0MAAAAAIEH9HwAgIZMgJZVDAAB/Q5QiISAhQwAAAABdGyIhICFDAAB/Q14bELkHIiH8AUEAICFDAAAAAGAbICFDAAB/Q14bciEKQf8BQwAAgD9DAAAAACAkEMYFIAOTICwgA5MiIZUiIiAiQwAAAABdGyIiICJDAACAP14bQwAAfkOUELkHIiL8AUEAICJDAAAAAGAbICJDAAB/Q14bQRB0Qf8BQwAAgD9DAAAAACAmEMYFIAOTICGVIiIgIkMAAAAAXRsiIiAiQwAAgD9eG0MAAH5DlBC5ByIi/AFBACAiQwAAAABgGyAiQwAAf0NeG0EBakH/AXFBCHRyQf8BQwAAgD9DAAAAACAnEMYFIAOTICGVIgMgA0MAAAAAXRsiAyADQwAAgD9eG0MAAH5DlBC5ByID/AFBACADQwAAAABgGyADQwAAf0NeG0EBakH/AXFyQYCABGohCSAFQfABahCdBCELIAAoAggiDCAAKAIARgRAIwBBIGsiBCQAAkAgACgCACIHQarVqhVLBH9BAAVBBCAHQQF0Ig0gDUEETRsiDUEYbCEOIAQgBwR/IAQgB0EYbDYCHCAEIAAoAgQ2AhRBBAVBAAs2AhggBEEIakEEIA4gBEEUahCFByAEKAIIQQFHDQEgBCgCECEAIAQoAgwLIABB3LnHABCTCQALIAQoAgwhByAAIA02AgAgACAHNgIEIARBIGokAAsgACgCBCAMQRhsaiIEID/9WgIIAiAEID/9WwIAACAEIAs7ARQgBCAJOwARIAQgCjsBDiAEIAY7AQwgBEEWaiALQRB2OgAAIARBE2ogCUEQdjoAACAEQRBqIApBEHY6AAAgACAMQQFqNgIIIAVBADYC8AEgBUEANgKEAkEEIQogBUH0AWohCyAFQYQCaiENAn8gAkEFSQRAIAshDCANDAELIAVBCGogBUHwAWpBfyACQQFrZ3ZBAWoQ9QMgBSgCCCIEQYGAgIB4RwRAIAQNAkHYlccAQRFB1MzHABDrBwALIAUoAoQCIgpBBUkEQCAKIQggCyEMQQQhCiANDAELIAUoAvQBIQggBSgC+AEhDCALCyEOAkACQCAIIApPBEAgASEEDAELAkACQCACQf////8DcSIEIAogCEF/c2oiByAEIAdJGyIEQQdNDQAgCEECdCAMaiIGIAFrQRBJDQAgCCAEQQFqIgQgBEEDcSIEQQQgBBtrIglqIQggASAJQQJ0aiEEIAEhBwNAIAYgB/0AAgD9CwIAIAdBEGohByAGQRBqIQYgCUEEayIJDQALDAELIAEhBAsgDCAIQQJ0aiEGAkADQCAEIBBGDQEgBiAEKAIANgIAIAZBBGohBiAEQQRqIQQgCiAIQQFqIghHDQALIAohCAwBCyAOIAg2AgAMAQsgDiAINgIAIAQgEEYNAANAAn8gBSgChAIiB0EFSQRAIAchBiALIQlBBCEHIA0MAQsgBSgC9AEhBiAFKAL4ASEJIAsLIQggBCgCACEKIAYgB0YEfyAFQfABahDUBiAFKAL4ASEJIAshCCAFKAL0AQUgBgtBAnQgCWogCjYCACAIIAgoAgBBAWo2AgAgBEEEaiIEIBBHDQALCyAFQegBaiIKIAVBgAJqKQIANwMAIAUgBf0AAvAB/QsD2AEgACgCFCIIIAAoAgxGBEAjAEEgayIEJAACQCAAQQxqIgcoAgAiBkGq1aoVSwR/QQAFQQQgBkEBdCIJIAlBBE0bIglBGGwhCyAEIAYEfyAEIAZBGGw2AhwgBCAHKAIENgIUQQQFQQALNgIYIARBCGpBBCALIARBFGoQhQcgBCgCCEEBRw0BIAQoAhAhByAEKAIMCyAHQey5xwAQkwkACyAEKAIMIQYgByAJNgIAIAcgBjYCBCAEQSBqJAALIAAoAhAgCEEYbGoiBCAF/QAD2AH9CwIAIARBEGogCikDADcCACAAIAhBAWo2AhQgACgCXEUNBAJAAnsgAkUEQCAAKAIgIQlDAAAAACEh/QwAAAAAAAAAAAAAAAAAAAAAIj8MAQsgBSgCLCAFKAKsASIEIARBIEsiBxshBCAFKAIwIBMgBxshCCABQQRqIQcgEkEEa0ECdkEBaiELIAAoAhwhDCAAKAIgIQlDAAAAACEhQQAhBiABIQr9DAAAAAAAAAAAAAAAAAAAAAAiQCFBA0AgBCAGTQ0EIAooAgAiCiAJTw0CIEEgCCoCACID/RMiQiAMIApBCWxqIg39XQABIj/9FQSy/RMgP/0VBbL9IAEgP/0VBrL9IAIgP/0VB7L9IAP95gH9DAAA/kIAAP5CAAD+QgAA/kL95wH95AEhQSBAIEIgP/0VALL9EyA//RUBsv0gASA//RUCsv0gAiA//RUDsv0gA/3mAf0MAAD+QgAA/kIAAP5CAAD+Qv3nAf3kASFAIAhBBGohCCAHQQRBACAHIgogEEcbaiEHICEgAyANLAAAspRDAAD+QpWSISEgCyAGQQFqIgZHDQALIED9DAAA/kIAAP5CAAD+QgAA/kL95gEhPyAhQwAA/kKUISEgQf0MAAD+QgAA/kIAAP5CAAD+Qv3mAQshQUH/AEMAAP5CQwAA/sIgISAhQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIQtB/wBDAAD+QkMAAP7CID/9HwMiAyADQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIQxB/wBDAAD+QkMAAP7CID/9HwIiAyADQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIQ1B/wBDAAD+QkMAAP7CID/9HwEiAyADQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIQ5B/wBDAAD+QkMAAP7CID/9HwAiAyADQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIQ9B/wBDAAD+QkMAAP7CIEH9HwMiAyADQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIRFB/wBDAAD+QkMAAP7CIEH9HwIiAyADQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIRRB/wBDAAD+QkMAAP7CIEH9HwEiAyADQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIRVB/wBDAAD+QkMAAP7CIEH9HwAiAyADQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIRYgACgCGCAJRgRAQQAhCCMAQSBrIgQkAAJAAkBBBCAAQRhqIgcoAgAiCkEBdCIGIAZBBE0bIhetQgl+IkZCIIhQRQ0AIEanIhhBAEgNACAEIAoEfyAEIApBCWw2AhwgBCAHKAIENgIUQQEFQQALNgIYIARBCGpBASAYIARBFGoQhQcgBCgCCEEBRw0BIAQoAhAhBiAEKAIMIQgLIAggBkH8uccAEJMJAAsgBCgCDCEGIAcgFzYCACAHIAY2AgQgBEEgaiQACyAAKAIcIAlBCWxqIgQgEToACCAEIBQ6AAcgBCAVOgAGIAQgFjoABSAEIAw6AAQgBCANOgADIAQgDjoAAiAEIA86AAEgBCALOgAAIAAgCUEBajYCICAAKAJcQQFNDQUCQAJ9IAJFBEBDAAAAACEhQwAAAAAhJUMAAAAAIQNDAAAAACEmQwAAAAAhJEMAAAAAISNDAAAAACEiQwAAAAAhJ0MAAAAAIShDAAAAACEsQwAAAAAhKUMAAAAADAELIAUoAiwgBSgCrAEiBCAEQSBLIgQbIQkgBSgCMCATIAQbIQcgAUEEaiEKIBJBBGtBAnZBAWohDCAAKAIoIQ0gACgCLCELQQAhCEMAAAAAISUgASEEQwAAAAAhA0MAAAAAISZDAAAAACEkQwAAAAAhI0MAAAAAISJDAAAAACEnQwAAAAAhKEMAAAAAISxDAAAAACEqQwAAAAAhKUMAAAAAIS4DQCAIIAlPDQYgBCgCACIEIAtPDQIgI/0TICL9IAEgJ/0gAiAo/SADIAcqAgAiIf0TIkAgDSAEQQ9saiIG/V0AASI//RUEsv0TID/9FQWy/SABID/9FQay/SACID/9FQey/SAD/eYB/QwAAP5CAAD+QgAA/kIAAP5C/ecB/eQBIkH9HwMhKCBB/R8CIScgQf0fASEiIEH9HwAhIyAm/RMgL/0gASAk/SACIDD9IAMgQCA//RUAsv0TID/9FQGy/SABID/9FQKy/SACID/9FQOy/SAD/eYB/QwAAP5CAAD+QgAA/kIAAP5C/ecB/eQBIj/9HwMhMCA//R8CISQgP/0fASEvID/9HwAhJiAs/RMgKv0gASAp/SACIC79IAMgQCAG/VwACSI//RUAsv0TID/9FQGy/SABID/9FQKy/SACID8gP/0NAAECAwABAgMAAQIDAAECA/0VC7L9IAP95gH9DAAA/kIAAP5CAAD+QgAA/kL95wH95AEiP/0fAyEuID/9HwIhKSA//R8BISogP/0fACEsIAdBBGohB0EEQQAgCiIEIBBHGyAEaiEKIDEgISAGLAAOspRDAAD+QpWSITEgJSAhIAYsAA2ylEMAAP5ClZIhJSADICEgBiwAALKUQwAA/kKVkiEDIAwgCEEBaiIIRw0ACyAxQwAA/kKUISEgJUMAAP5ClCExIANDAAD+QpQhJSAm/RMgL/0gASAk/SACIDD9IAP9DAAA/kIAAP5CAAD+QgAA/kL95gEiP/0fAyEkID/9HwIhLyA//R8BISYgP/0fACEDICP9EyAi/SABICf9IAIgKP0gA/0MAAD+QgAA/kIAAP5CAAD+Qv3mASI//R8DIScgP/0fAiEiID/9HwEhIyA//R8AITAgLP0TICr9IAEgKf0gAiAu/SAD/QwAAP5CAAD+QgAA/kIAAP5C/eYBIj/9HwMhKSA//R8BISwgP/0fACEoID/9HwILIS5B/wBDAAD+QkMAAP7CICEgIUMAAP7CXRsiISAhQwAA/kJeGxC5ByIh/ABBgH8gIUMAAADDYBsgIUMAAP5CXhtBACAhICFbGyELQf8AQwAA/kJDAAD+wiAxIDFDAAD+wl0bIiEgIUMAAP5CXhsQuQciIfwAQYB/ICFDAAAAw2AbICFDAAD+Ql4bQQAgISAhWxshDEH/AEMAAP5CQwAA/sIgAyADQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIQ1B/wBDAAD+QkMAAP7CICUgJUMAAP7CXRsiAyADQwAA/kJeGxC5ByID/ABBgH8gA0MAAADDYBsgA0MAAP5CXhtBACADIANbGyEOQf8AQwAA/kJDAAD+wiAmICZDAAD+wl0bIgMgA0MAAP5CXhsQuQciA/wAQYB/IANDAAAAw2AbIANDAAD+Ql4bQQAgAyADWxshD0H/AEMAAP5CQwAA/sIgLyAvQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIRFB/wBDAAD+QkMAAP7CICQgJEMAAP7CXRsiAyADQwAA/kJeGxC5ByID/ABBgH8gA0MAAADDYBsgA0MAAP5CXhtBACADIANbGyEUQf8AQwAA/kJDAAD+wiAwIDBDAAD+wl0bIgMgA0MAAP5CXhsQuQciA/wAQYB/IANDAAAAw2AbIANDAAD+Ql4bQQAgAyADWxshFUH/AEMAAP5CQwAA/sIgIyAjQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIRZB/wBDAAD+QkMAAP7CICIgIkMAAP7CXRsiAyADQwAA/kJeGxC5ByID/ABBgH8gA0MAAADDYBsgA0MAAP5CXhtBACADIANbGyEXQf8AQwAA/kJDAAD+wiAnICdDAAD+wl0bIgMgA0MAAP5CXhsQuQciA/wAQYB/IANDAAAAw2AbIANDAAD+Ql4bQQAgAyADWxshGEH/AEMAAP5CQwAA/sIgKCAoQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIRlB/wBDAAD+QkMAAP7CICwgLEMAAP7CXRsiAyADQwAA/kJeGxC5ByID/ABBgH8gA0MAAADDYBsgA0MAAP5CXhtBACADIANbGyEaQf8AQwAA/kJDAAD+wiAuIC5DAAD+wl0bIgMgA0MAAP5CXhsQuQciA/wAQYB/IANDAAAAw2AbIANDAAD+Ql4bQQAgAyADWxshG0H/AEMAAP5CQwAA/sIgKSApQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIRwgACgCLCIIIAAoAiRGBEBBACEKIwBBIGsiBCQAAkACQEEEIABBJGoiBygCACIJQQF0IgYgBkEETRsiHa1CD34iRkIgiFBFDQAgRqciHkEASA0AIAQgCQR/IAQgCUEPbDYCHCAEIAcoAgQ2AhRBAQVBAAs2AhggBEEIakEBIB4gBEEUahCFByAEKAIIQQFHDQEgBCgCECEGIAQoAgwhCgsgCiAGQYy6xwAQkwkACyAEKAIMIQYgByAdNgIAIAcgBjYCBCAEQSBqJAALIAAoAiggCEEPbGoiBCALOgAOIAQgDDoADSAEIBw6AAwgBCAbOgALIAQgGjoACiAEIBk6AAkgBCAYOgAIIAQgFzoAByAEIBY6AAYgBCAVOgAFIAQgFDoABCAEIBE6AAMgBCAPOgACIAQgDToAASAEIA46AAAgACAIQQFqNgIsIAAoAlxBAk0NBgJAAn0gAkUEQEMAAAAAITFDAAAAACElQwAAAAAhJkMAAAAAIS9DAAAAACEkQwAAAAAhMEMAAAAAISNDAAAAACEiQwAAAAAhJ0MAAAAAIShDAAAAACErQwAAAAAhLUMAAAAAITNDAAAAACEyQwAAAAAhNEMAAAAAITVDAAAAACE2QwAAAAAhN0MAAAAAIThDAAAAACEhQwAAAAAMAQsgBSgCLCAFKAKsASICIAJBIEsiAhshBCAFKAIwIBMgAhshByABQQRqIQogEkEEa0ECdkEBaiEJIAAoAjQhCyAAKAI4IQZDAAAAACExQQAhCEMAAAAAISVDAAAAACEDQwAAAAAhJkMAAAAAIS9DAAAAACEkQwAAAAAhMEMAAAAAISNDAAAAACEiQwAAAAAhJ0MAAAAAIShDAAAAACEsQwAAAAAhKkMAAAAAISlDAAAAACEuA0AgBCAITQ0IIAEoAgAiAiAGTw0CQQRBACAKIgEgEEcbIAFqIQogMSAHKgIAIiEgCyACQRVsaiICLAAUspRDAAD+QpWSITEgJSAhIAIsABOylEMAAP5ClZIhJSADICEgAiwAErKUQwAA/kKVkiEDICYgISACLAARspRDAAD+QpWSISYgLyAhIAIsABCylEMAAP5ClZIhLyAkICEgAiwAD7KUQwAA/kKVkiEkIDAgISACLAAOspRDAAD+QpWSITAgIyAhIAIsAA2ylEMAAP5ClZIhIyAiICEgAiwADLKUQwAA/kKVkiEiICcgISACLAALspRDAAD+QpWSIScgKCAhIAIsAAqylEMAAP5ClZIhKCAsICEgAiwACbKUQwAA/kKVkiEsICogISACLAAIspRDAAD+QpWSISogKSAhIAIsAAeylEMAAP5ClZIhKSAuICEgAiwABrKUQwAA/kKVkiEuIDkgISACLAAFspRDAAD+QpWSITkgOiAhIAIsAASylEMAAP5ClZIhOiA7ICEgAiwAA7KUQwAA/kKVkiE7IDwgISACLAACspRDAAD+QpWSITwgPSAhIAIsAAGylEMAAP5ClZIhPSA+ICEgAiwAALKUQwAA/kKVkiE+IAdBBGohByAJIAhBAWoiCEcNAAsgMUMAAP5ClCEhICVDAAD+QpQhOCADQwAA/kKUITcgJkMAAP5ClCE2IC9DAAD+QpQhNSAkQwAA/kKUITQgMEMAAP5ClCEyICNDAAD+QpQhMyAiQwAA/kKUIS0gJ0MAAP5ClCErIChDAAD+QpQhKCAsQwAA/kKUIScgKkMAAP5ClCEiIClDAAD+QpQhIyAuQwAA/kKUITAgOUMAAP5ClCEkIDpDAAD+QpQhLyA7QwAA/kKUISYgPUMAAP5ClCElID5DAAD+QpQhMSA8QwAA/kKUCyEpQf8AQwAA/kJDAAD+wiAhICFDAAD+wl0bIgMgA0MAAP5CXhsQuQciA/wAQYB/IANDAAAAw2AbIANDAAD+Ql4bQQAgAyADWxshCkH/AEMAAP5CQwAA/sIgOCA4QwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIQlB/wBDAAD+QkMAAP7CIDcgN0MAAP7CXRsiAyADQwAA/kJeGxC5ByID/ABBgH8gA0MAAADDYBsgA0MAAP5CXhtBACADIANbGyELQf8AQwAA/kJDAAD+wiA2IDZDAAD+wl0bIgMgA0MAAP5CXhsQuQciA/wAQYB/IANDAAAAw2AbIANDAAD+Ql4bQQAgAyADWxshDEH/AEMAAP5CQwAA/sIgNSA1QwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIRBB/wBDAAD+QkMAAP7CIDQgNEMAAP7CXRsiAyADQwAA/kJeGxC5ByID/ABBgH8gA0MAAADDYBsgA0MAAP5CXhtBACADIANbGyESQf8AQwAA/kJDAAD+wiAyIDJDAAD+wl0bIgMgA0MAAP5CXhsQuQciA/wAQYB/IANDAAAAw2AbIANDAAD+Ql4bQQAgAyADWxshE0H/AEMAAP5CQwAA/sIgMyAzQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIQ1B/wBDAAD+QkMAAP7CIC0gLUMAAP7CXRsiAyADQwAA/kJeGxC5ByID/ABBgH8gA0MAAADDYBsgA0MAAP5CXhtBACADIANbGyEOQf8AQwAA/kJDAAD+wiArICtDAAD+wl0bIgMgA0MAAP5CXhsQuQciA/wAQYB/IANDAAAAw2AbIANDAAD+Ql4bQQAgAyADWxshD0H/AEMAAP5CQwAA/sIgKCAoQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIRFB/wBDAAD+QkMAAP7CICcgJ0MAAP7CXRsiAyADQwAA/kJeGxC5ByID/ABBgH8gA0MAAADDYBsgA0MAAP5CXhtBACADIANbGyEUQf8AQwAA/kJDAAD+wiAiICJDAAD+wl0bIgMgA0MAAP5CXhsQuQciA/wAQYB/IANDAAAAw2AbIANDAAD+Ql4bQQAgAyADWxshFUH/AEMAAP5CQwAA/sIgIyAjQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIRZB/wBDAAD+QkMAAP7CIDAgMEMAAP7CXRsiAyADQwAA/kJeGxC5ByID/ABBgH8gA0MAAADDYBsgA0MAAP5CXhtBACADIANbGyEXQf8AQwAA/kJDAAD+wiAkICRDAAD+wl0bIgMgA0MAAP5CXhsQuQciA/wAQYB/IANDAAAAw2AbIANDAAD+Ql4bQQAgAyADWxshGEH/AEMAAP5CQwAA/sIgLyAvQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIRlB/wBDAAD+QkMAAP7CICYgJkMAAP7CXRsiAyADQwAA/kJeGxC5ByID/ABBgH8gA0MAAADDYBsgA0MAAP5CXhtBACADIANbGyEaQf8AQwAA/kJDAAD+wiApIClDAAD+wl0bIgMgA0MAAP5CXhsQuQciA/wAQYB/IANDAAAAw2AbIANDAAD+Ql4bQQAgAyADWxshG0H/AEMAAP5CQwAA/sIgJSAlQwAA/sJdGyIDIANDAAD+Ql4bELkHIgP8AEGAfyADQwAAAMNgGyADQwAA/kJeG0EAIAMgA1sbIRxB/wBDAAD+QkMAAP7CIDEgMUMAAP7CXRsiAyADQwAA/kJeGxC5ByID/ABBgH8gA0MAAADDYBsgA0MAAP5CXhtBACADIANbGyEdIAAoAjgiByAAKAIwRgRAQQAhBiMAQSBrIgEkAAJAAkBBBCAAQTBqIgIoAgAiCEEBdCIEIARBBE0bIh6tQhV+IkZCIIhQRQ0AIEanIiBBAEgNACABIAgEfyABIAhBFWw2AhwgASACKAIENgIUQQEFQQALNgIYIAFBCGpBASAgIAFBFGoQhQcgASgCCEEBRw0BIAEoAhAhBCABKAIMIQYLIAYgBEGcuscAEJMJAAsgASgCDCEEIAIgHjYCACACIAQ2AgQgAUEgaiQACyAAKAI0IAdBFWxqIgEgCjoAFCABIAk6ABMgASALOgASIAEgDDoAESABIBA6ABAgASASOgAPIAEgEzoADiABIA06AA0gASAOOgAMIAEgDzoACyABIBE6AAogASAUOgAJIAEgFToACCABIBY6AAcgASAXOgAGIAEgGDoABSABIBk6AAQgASAaOgADIAEgGzoAAiABIBw6AAEgASAdOgAAIAAgB0EBajYCOAwHCyACIAZBvLrHABCMBwALIAQgC0HcuscAEIwHAAsgCiAJQfy6xwAQjAcLAAsgBiAEQey6xwAQjAcACyAIIAlBzLrHABCMBwALIAggBEGsuscAEIwHAAsCQAJAIAUoAqwBIgBBIU8EQCAFKAIwIgFBBGsoAgAiAkF4cSIEIABBAnQiAEEEQQggAkEDcSICG2pJDQEgAkEAIAQgAEEnaksbDQIgARCiAgsgBUGAA2okACAfDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwAL6U0CH38EeyMAQUBqIgskAAJAAkACQCAFIAZPBEAgAS0AgFIhDSALIAEtAOxROgAwIAsgASgC2FE2AiwgCyABKALUUTYCKCALIAEoAsBRNgIkIAsgASgC3FE2AiBBAUEDIAdBAXEiIBshI0EBQXwgB0ECcSIUGyEkIAFBgNEAaiEcIAFBkNAAaiElIAFB4NEAaiEhIAFB7dEAaiEdIAFBgMYAaiEeIAFBgDZqIR8gAUGg0QBqIRkgAUGAzwBqISIgAUHk0QBqISYgAUGAFGohFiABQYAEaiEXIAFBgC1qIRogAUGAHWohGyAGIRAgAyEOIAIhBwNAQQAhCkEAIQkCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJ/AkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkAgDSIIQf8BcQ4ZAAsKAQIDHAkbCBoYFgcVFBMSDg0GBQwEIBcLIAH9DAAAAAAAAAAAAQAAAAEAAAD9CwLEUSALQTBqQQA6AAAgC/0MAAAAAAAAAAAAAAAAAAAAAP0LAyAgIyENDCYLIAsoAiQiDUEDTwRAIAsoAiAhCQwdCyAORQ0bIA5BAWshDiALKAIgIActAAAgDXRyIQkgB0EBaiEHIA1BCHIhDQwcCyALQQA2AiwgCyALKAIkIgpBeHE2AiQgCyALKAIgIApBB3F2NgIgQQUhDQwkC0EEIAsoAiwiCSAJQQRNGyEMIAsoAiAhDSALKAIkIQgDQCAJIAxGBEAgCyABQeDRAGovAQAiCjYCLEEfIQ0gAS8B4lEgCnNB//8DRw0lQRQhDSAKRQ0lQRFBBiAIGyENDCULAkACQCAIBEAgCEEHSwRAIAghCgwCCyAORQRAQQUhCAweCyAIQQhyIQogDkEBayEOIActAAAgCHQgDXIhDSAHQQFqIQcMAQsgDgRAIAkgIWogBy0AADoAACAHQQFqIQcgDkEBayEOQQAhCAwCC0EFIQhBACEMIBRFDRhBACEODCILIAkgIWogDToAACALIApBCGsiCDYCJCALIA1BCHYiDTYCIAsgCyAJQQFqIgk2AiwMAAsAC0EYIQ0gCygCLCIRQQNLDSIgASgCzFEhCQJAAkACQAJAAkACfwJAAkAgCygCJCIMRQRAIA5FDQggASAHLQAAIAlBCHRyIgg2AsxRIAdBAWohByAOQQFrIQ4gCyARQQFqIgo2AiwgCkEERg0rDAELIAsoAiAhCiAMQQdNBEAgDkUNByAOQQFrIQ4gBy0AACAMdCAKciEKIAdBAWohByAMQQhyIQwLIAEgCkH/AXEgCUEIdHIiCDYCzFEgCyAMQQhrIgk2AiQgCyAKQQh2Igw2AiAgCyARQQFqIgo2AiwgCkEERg0qIAlFDQAgCUEHTQ0BIAkMAgsgDkUNBiABIActAAAgCEEIdHIiCDYCzFEgB0EBaiEHIA5BAWshDiALIBFBAmoiCjYCLCAKQQRGDSkMAgsgDkUNBCAOQQFrIQ4gBy0AACAJdCAMciEMIAdBAWohByAJQQhyCyEKIAEgDEH/AXEgCEEIdHIiCDYCzFEgCyAKQQhrIgk2AiQgCyAMQQh2Igw2AiAgCyARQQJqIgo2AiwgCkEERg0nIAlFDQAgCUEHTQRAIA5FDQQgDkEBayEOIActAAAgCXQgDHIhDCAHQQFqIQcgCUEIciEJCyABIAxB/wFxIAhBCHRyIgo2AsxRIAsgCUEIayIINgIkIAsgDEEIdiIMNgIgIAsgEUEDaiIJNgIsIAlBBEYNJyAIRQ0BIAsgCEEHSwR/IAgFIA5FDQQgDkEBayEOIActAAAgCHQgDHIhDCAHQQFqIQcgCEEIcgtBCGs2AiQgCyAMQQh2NgIgIAxB/wFxIApBCHRyIQgMAgsgDkUNAyABIActAAAgCEEIdHIiCjYCzFEgB0EBaiEHIA5BAWshDiALIBFBA2oiDDYCLCAMQQRGDSYLIA5FDQIgDkEBayEOIActAAAgCkEIdHIhCCAHQQFqIQcLIAEgCDYCzFEgCyARQQRyNgIsDCQLQRchCAwZC0EXIQhBACEMIBRFDRRBACEODB4LIAsgCygCLCIKQf8DcSIMNgIsQRQhDSAMQYACRg0hQSEhDSAMQZ0CSw0hIAsgCkEBa0EfcSIKQQF0QcD9xABqLwEANgIsIAsgCi0AoP1EIgo6ADBBDkEPIAobIQ0MIQtBAyENIAEtAOpRRQ0gIAsgCygCJCIJQXhxIAMgDmsiDCAJQQN2IgcgByAMSxsiCkEDdGsiBzYCJCAMIAprIgogA00EQEEYIQ0gC0F/IAdBGHF0QX9zIAsoAiAgCUEHcXZxNgIgIAMgCmshDiACIApqIQcgIEUNISALQQA2AixBFyENDCELIAogAyADQZD9xAAQ6gcAC0EVIQ0gCygCLCIKQf8BSw0fIAUgEEYNByAFIBBLBEAgBCAQaiAKOgAAIBBBAWohEAwfCwwiCwJAAkADQAJAAkAgCygCLCIMIAEvAehRTwRAIAFBEzsB6FEgC0EQaiABIAtBIGoQvgEgCy0AECIJQQNHDQFB/wEhCUEJIQhBACEKDB0LAkAgCygCJCIIQQNPBEAgCygCICENDAELIA5FBEBBCSEIDBsLIA5BAWshDiALKAIgIActAAAgCHRyIQ0gB0EBaiEHIAhBCHIhCAsgCyAIQQNrNgIkIAsgDUEDdjYCICAMQRJLDQMgDC0Ag+dIIgpBE08NBCAKIB1qIA1BB3E6AAAgCyAMQQFqNgIsQQAhCQwBCyALLQARIQ0LIAlFDQALQQkhCCAJQQJrDSAMGAsgDEETQZD+xAAQjAcACyAKQRNBoP7EABCMBwALIA4EQCALKAIsIgwgDiAFIBBrIgogCiAOSxsiCiAKIAxLGyIJIBBqIgogCUkgBSAKSXJFBEAgCQRAIAQgEGogByAJ/AoAAAsgCyAMIAlrNgIsIAcgCWohByAOIAlrIQ5BBiENIAohEAwfCyAQIAogBUGw/MQAEOoHAAtBByEIQQAhDCAURQ0PQQAhDgwZCyAOBEAgASAHLQAAIgw2AshRQR1BHUEDIAEoAsRRIgpBBHZBCGpBEHEgDCAKQQh0ckEfcCAMQSBxcnIbIApBD3FBCEcbIQ0gDkEBayEOIAdBAWohBwwdC0ECIQhBACEMIBRFDQ5BACEODBgLIA4EQCABIActAAA2AsRRIAdBAWohByAOQQFrIQ5BAiENDBwLQQEhCEEAIQwgFEUNDUEAIQ4MFwtBHiENIAsoAigiCSAFSyAJIBBLcg0aIAUgCygCLCIMIBBqIgpPIBAgCWsgEEkgDEEAIAlrTXJxRQRAQRNBDCAMGyENDBsLIBAgCWshDQJAIAxBA0YEQCAQQQNqIAVLIBBBfEtyDQEgBSANTSANQQJqIgkgBU9yDQEgDUEBaiIMIAVPDQEgBCAQaiIIIAQgDWotAAA6AAAgCCAEIAxqLQAAOgABIAggBCAJai0AADoAAgwBCyAEIAUgDSAQIAwQnQILQQwhDSAKIRAMGgsgCygCKCEIIAsoAiwhCQNAIAUgEEcEQCAEIAUgECAIayAQIAkgBSAQayIMIAkgDEkbIgoQnQIgCiAQaiEQIAkgDEsgCSAKayIKIQkNAQwZCwsgCyAJNgIsQRMhCEECDAILIAUgEEcNAgtBAgshCUEAIQogBSEQDA8LIAUgEEsEQCAEIBBqIAsoAig6AAAgCygCJCEMIAsgCygCLEEBayIKNgIsQRFBBiAMG0EGIAobIQ0gEEEBaiEQDBYLDBgLAkAgCygCJCIJQQhPBEAgCygCICEIDAELIA4EQCAOQQFrIQ4gCygCICAHLQAAIAl0ciEIIAdBAWohByAJQQhyIQkMAQtBESEIQQAhDCAURQ0HQQAhDgwRCyALIAhB/wFxNgIoIAsgCUEIazYCJCALIAhBCHY2AiBBEiENDBQLIAsoAiAhDQJAIAsoAiQiDCALLQAwIg9JBEAgDkUEQCAMIQkMAgsCQCAOQQFrIgkgDEF/cyAMQQhqIgogDyAKIA9LG2pBA3YiCiAJIApJGyIRQQRJBEAgByEIIAwhCQwBCyARQQFqIghBA3EiCkEEIAobIgkgEUF/c2ohCiAOIAggCWsiCWshDiAHIAlqIQggDCAJQQN0aiEJ/QwAAAAAAAAAAAAAAAAAAAAAIA39HAAhKCAM/RH9DAAAAAAIAAAAEAAAABgAAAD9rgEhKgNAIAf9XAAA/YkB/akBIin9GwAgKv0MHwAAAB8AAAAfAAAAHwAAAP1OIif9GwB0/REgKf0bASAn/RsBdP0cASAp/RsCICf9GwJ0/RwCICn9GwMgJ/0bA3T9HAMgKP1QISggB0EEaiEHICr9DCAAAAAgAAAAIAAAACAAAAD9rgEhKiAKQQRqIgoNAAsgKCAoICn9DQgJCgsMDQ4PAAECAwABAgP9UCInICcgJ/0NBAUGBwABAgMAAQIDAAECA/1Q/RsAIQ0LQQEgDmshBwNAAkAgCC0AACAJdCANciENIAlBCGoiCSIMIA9PDQAgCEEBaiEIIAdBAWoiB0EBRw0BDAMLC0EAIAdrIQ4gCEEBaiEHCyALIAwgD2s2AiQgCyANIA92NgIgIAsgCygCKCANQX8gD3RBf3NxajYCKEEWIQ0MFAsgCyAJNgIkIAsgDTYCIEEQIQhBACEMIBRFDQVBACEODA8LAkACQAJAAkAgCygCJCIMQQ9PBEAgCygCICENIAwhCgwBCwJAAkAgDkEBTQRAIBsgCygCICINQf8HcUEBdGouAQAiCEEATg0BQQshCiAMQQtJDQIDQCANIApBAWt2QQFxIAhBf3NqIghBvwRLDQUgGiAIQQF0ai4BACIIQQBOBEAgDCEKDAULIAwgCkEBaiIKTw0ACwwCCyAMQRByIQogDkECayEOIAsoAiAgBy8AACAMdHIhDSAHQQJqIQcMAgsgCEGABEkgDCAIQQl2SXINACAMIQoMAQsCQCAORQRAIAwhCgwBCyAMQQhqIQogB0EBaiEJIActAAAgDHQgDXIhDUEAIQ4gDEEGSwRAIAkhBwwCCyAbIA1B/wdxQQF0ai4BACIIQQBIBEAgDEEDSQ0BQQshBwNAIA0gB0EBa3ZBAXEgCEF/c2oiCEG/BEsNBCAaIAhBAXRqLgEAIghBAE4EQCAJIQcMBAsgCiAHQQFqIgdPDQALDAELIAhBgARJDQAgCSEHIAogCEEJdk8NAQsgCyAKNgIkIAsgDTYCIEEPIQhBACEMIBRFDQhBACEODBILIBsgDUH/B3FBAXRqLgEAIghBAE4NAUEKIQkDQAJAIA0gCXZBAXEgCEF/c2oiDEHABE8EQCAJQQFqIQlB//8BIQgMAQsgCUEBaiEJIBogDEEBdGouAQAiCEEASA0BCwsgCUH/AXEhCQwCCyAIQcAEQZSHxQAQjAcACyAIQQl2IQkgCEH/A3EhCAsgCyAKIAlrNgIkIAsgDSAJdjYCIEEiIQ0gCEEdSw0SIAsgCEEBdC8Bxv5ENgIoIAsgCEH+AXFBAXYiDEEBayIKQQAgCiAMTRs6ADBBFkEQIAhBBEkbIQ0MEgsgCygCICENAkAgCygCJCIMIAstADAiD0kEQCAORQRAIAwhCQwCCwJAIA5BAWsiCSAMQX9zIAxBCGoiCiAPIAogD0sbakEDdiIKIAkgCkkbIhFBBEkEQCAHIQggDCEJDAELIBFBAWoiCEEDcSIKQQQgChsiCSARQX9zaiEKIA4gCCAJayIJayEOIAcgCWohCCAMIAlBA3RqIQn9DAAAAAAAAAAAAAAAAAAAAAAgDf0cACEoIAz9Ef0MAAAAAAgAAAAQAAAAGAAAAP2uASEqA0AgB/1cAAD9iQH9qQEiKf0bACAq/QwfAAAAHwAAAB8AAAAfAAAA/U4iJ/0bAHT9ESAp/RsBICf9GwF0/RwBICn9GwIgJ/0bAnT9HAIgKf0bAyAn/RsDdP0cAyAo/VAhKCAHQQRqIQcgKv0MIAAAACAAAAAgAAAAIAAAAP2uASEqIApBBGoiCg0ACyAoICggKf0NCAkKCwwNDg8AAQIDAAECA/1QIicgJyAn/Q0EBQYHAAECAwABAgMAAQID/VD9GwAhDQtBASAOayEHA0ACQCAILQAAIAl0IA1yIQ0gCUEIaiIJIgwgD08NACAIQQFqIQggB0EBaiIHQQFHDQEMAwsLQQAgB2shDiAIQQFqIQcLIAsgDCAPazYCJCALIA0gD3Y2AiAgCyALKAIsIA1BfyAPdEF/c3FqNgIsQQ8hDQwSCyALIAk2AiQgCyANNgIgQQ4hCEEAIQwgFEUNA0EAIQ4MDQsgCy0AMCETIAsoAighFSALKAIgIQkgCygCJCEPIA4hDCAHIRECQAJAAkADQAJ/AkACQCAMQQRJDQAgBSAQayIHQQJJDQAgDEENSyAHQYMCT3FFBEAgD0EPSQ0CIA8hCiARDAMLIAwhDiARIQcDQCAPQQ5LBH8gDwUgES8AACAPdCAJciEJIBFBAmoiByERIAxBAmsiDiEMIA9BEHILAn8gFyAJQf8HcUEBdGouAQAiCkEASARAQQohCANAAkAgCSAIdkEBcSAKQX9zaiIKQcAETwRAIAhBAWohCEH//wEhCgwBCyAIQQFqIQggFiAKQQF0ai4BACIKQQBIDQELCyAIQf8BcQwBCyAKQQl2CyIIayEPIAkgCHYhCUGAAiESAkACQAJAIApBgAJxRQRAIA9BDk0EQCARLwAAIA90IAlyIQkgEUECaiIHIREgDEECayIOIQwgD0EQciEPCwJ/IBcgCUH/B3FBAXRqLgEAIg1BAEgEQEEKIQgDQAJAIAkgCHZBAXEgDUF/c2oiDUHABE8EQCAIQQFqIQhB//8BIQ0MAQsgCEEBaiEIIBYgDUEBdGouAQAiDUEASA0BCwsgCEH/AXEMAQsgDUEJdgshCCAFIBBNDR8gDyAIayEPIAkgCHYhCSAEIBBqIAo6AAAgEEEBaiEIIA1BgAJxRQ0BIAghECANIQoLIApB/wNxIg1BgAJHDQFBFCENDAILIAUgCEsEQCAEIAhqIA06AABBDCENIAUgEEECaiIQa0GDAkkEQCAKIRIMAwsgDEEOTw0DIAohEgwCCyAIIAVBgP3EABCMBwALIA1BnQJLBEBBISEIDAkLIApBAWtBH3EiCi0AoP1EIRMgCkEBdEHA/cQAai8BACESAn8gD0EOSwR/IA8FIAxBAU0NHyARLwAAIA90IAlyIQkgEUECaiIHIREgDEECayIOIQwgD0EQcgshCgJAIBNFDQAgCSATdiEIIAlBfyATdEF/c3EgEmohEiAKIBNrIglBDksEQCAJIQogCCEJDAELIAxBAU0NHyAJQRByIQogES8AACAJdCAIciEJIBFBAmoiByERIAxBAmsiDiEMCyAKAn8gGyAJQf8HcUEBdGouAQAiDUEASARAQQohCANAAkAgCSAIdkEBcSANQX9zaiIKQcAETwRAIAhBAWohCEH//wEhDQwBCyAIQQFqIQggGiAKQQF0ai4BACINQQBIDQELCyAIQf8BcQwBCyANQQl2CyIKayEPIAkgCnYhCSANQf8DcSIYQR1LBEBBIiEIIBIhDQwKCyANQf8BcSINQQF2IghBAWsiCkEAIAggCk8bIRMgGEEBdC8Bxv5EIhUgDUEESQ0AGgJ/IA9BD08EQCAJIQggDwwBCyAMQQFNDR8gES8AACAPdCAJciEIIBFBAmoiByERIAxBAmsiDiEMIA9BEHILIBNrIQ8gCCATdiEJIAhBfyATdEF/c3EgFWoLIRVBHiEIIAUgFUkEQCASIQ0MCQsgECAVSQRAIBIhDQwJCyAQIBVrIRgCQCASQQNGBEAgEEEDaiAFSyAQQXxLcg0BIAUgGE0gGEECaiIIIAVPcg0BIBhBAWoiCiAFTw0BIAQgEGoiDSAEIBhqLQAAOgAAIA0gBCAKai0AADoAASANIAQgCGotAAA6AAIMAQsgBCAFIBggECASEJ0CC0EMIQ0gBSAQIBJqIhBrQYMCSQ0AIAxBDUsNAQsLIAsgEzoAMCALIBI2AiwgCyAVNgIoIAsgDzYCJCALIAk2AiAMFwsCQAJAIA9BDksNACAMQQJPBEAgD0EQciEKIBFBAmohByAMQQJrIQ4gES8AACAPdCAJciEJDAILAkACQCAXIAlB/wdxQQF0ai4BACIOQQBIBEBBCyEHIA9BC0kNAQNAIAkgB0EBa3ZBAXEgDkF/c2oiCEG/BEsNAyAWIAhBAXRqLgEAIg5BAE4NBCAPIAdBAWoiB08NAAsMAQsgDkGABEkNACAPIA5BCXZPDQILAkAgDEUNACAPQQhqIQogEUEBaiEHIBEtAAAgD3QgCXIhCUEAIQ4gD0EGSw0DIBcgCUH/B3FBAXRqLgEAIghBAEgEQCAPQQNJDQFBCyENA0AgCSANQQFrdkEBcSAIQX9zaiIIQb8ESw0DIBYgCEEBdGouAQAiCEEATg0FIAogDUEBaiINTw0ACwwBCyAIQYAESQ0AIAogCEEJdk8NAwsgCyAJNgIgIAsgDyAMQQN0ajYCJEEMIQgMDwsgCEHABEGUh8UAEIwHAAsgDCEOIBEhByAPIQoLAkAgFyAJQf8HcUEBdGouAQAiDUEASARAQQohCANAAkAgCSAIdkEBcSANQX9zaiIMQcAETwRAIAhBAWohCEH//wEhDQwBCyAIQQFqIQggFiAMQQF0ai4BACINQQBIDQELCyAIQf8BcSEIDAELIA1BCXYhCCANQf8DcSENCyALIA02AiwgCyAKIAhrNgIkIAsgCSAIdjYCIEENIQ0MFgsgD0EQciEKIAxBAmshDCARLwAAIA90IAlyIQkgEUECagshByALIAoCfyAXIAlB/wdxQQF0ai4BACIIQQBIBEBBCiEOA0ACQCAJIA52QQFxIAhBf3NqIgpBwARPBEAgDkEBaiEOQf//ASEIDAELIA5BAWohDiAWIApBAXRqLgEAIghBAEgNAQsLIA5B/wFxDAELIAhBCXYLIgprIg42AiQgCyAJIAp2Igo2AiAgCyAINgIsQRUhDSAIQYACcQRAIAwhDgwVCyALAn8gDkEOSwRAIAchESAODAELIAdBAmohESAMQQJrIQwgBy8AACAOdCAKciEKIA5BEHILAn8gFyAKQf8HcUEBdGouAQAiDkEASARAQQohBwNAAkAgCiAHdkEBcSAOQX9zaiIJQcAETwRAIAdBAWohB0H//wEhDgwBCyAHQQFqIQcgFiAJQQF0ai4BACIOQQBIDQELCyAHQf8BcQwBCyAOQQl2CyIHayIPNgIkIAsgCiAHdiIJNgIgIAUgEEsEQCAEIBBqIAg6AAAgEEEBaiEHIA5BgAJxDQIgBSAHTQ0DIAQgB2ogDjoAACAQQQJqIRAMAQsLDBYLIAsgDjYCLCAHIRAgDCEOIBEhBwwSCyAHIAVBgP3EABCMBwALIAsgEzoAMCALIA02AiwgCyAVNgIoIAsgDzYCJCALIAk2AiALQf8BIQlBACEKDAgLIAsoAiAhDQJAIAsoAiQiDCALLQAwIg9JBEAgDkUEQCAMIQkMAgsCQCAOQQFrIgkgDEF/cyAMQQhqIgogDyAKIA9LG2pBA3YiCiAJIApJGyIRQQRJBEAgByEIIAwhCQwBCyARQQFqIghBA3EiCkEEIAobIgkgEUF/c2ohCiAOIAggCWsiCWshDiAHIAlqIQggDCAJQQN0aiEJ/QwAAAAAAAAAAAAAAAAAAAAAIA39HAAhKCAM/RH9DAAAAAAIAAAAEAAAABgAAAD9rgEhKgNAIAf9XAAA/YkB/akBIin9GwAgKv0MHwAAAB8AAAAfAAAAHwAAAP1OIif9GwB0/REgKf0bASAn/RsBdP0cASAp/RsCICf9GwJ0/RwCICn9GwMgJ/0bA3T9HAMgKP1QISggB0EEaiEHICr9DCAAAAAgAAAAIAAAACAAAAD9rgEhKiAKQQRqIgoNAAsgKCAoICn9DQgJCgsMDQ4PAAECAwABAgP9UCInICcgJ/0NBAUGBwABAgMAAQIDAAECA/1Q/RsAIQ0LQQEgDmshBwNAAkAgCC0AACAJdCANciENIAlBCGoiCSIMIA9PDQAgCEEBaiEIIAdBAWoiB0EBRw0BDAMLC0EAIAdrIQ4gCEEBaiEHCyALIAwgD2s2AiQgCyANIA92NgIgIAtBCzYCPCALQoOAgIAwNwI0IAtBNGogCygCKCIJQQJxQQJ0aigCACANQX8gD3RBf3NxaiEMQQAhCiALKAIsIQggCUEQRgRAIAEgCEEBa0H/A3FqLQAAIQoLIAggDGoiCUH/A3EiDCAIQf8DcSIITwRAAkAgCCAMRg0AIAwgCGsiDEUNACABIAhqIAogDPwLAAsgCyAJNgIsQQohDQwQCyAIIAxBgARBsP7EABDqBwALIAsgCTYCJCALIA02AiBBCyEIQQAhDCAURQ0AQQAhDgwKC0H8ASEJQQAhDgwKCyAHIQgDQAJAAkACQAJAAkACQAJAIAsoAiwiESABLwHkUSIKIAEvAeZRaiIHTwRAQRohDSAHIBFGDQEgCCEHDBULAkACQCALKAIkIgpBD08EQCALKAIgIQ0MAQsgDkEBSw0BIB8gCygCICINQf8HcUEBdGouAQAiD0EASARAQQshByAKQQtJDQQDQCANIAdBAWt2QQFxIA9Bf3NqIgxBvwRLDQcgHiAMQQF0ai4BACIPQQBODQIgCiAHQQFqIgdPDQALDAQLIA9BgARJIAogD0EJdklyDQMLIAghByAKIQ8MAwsgCkEQciEPIAhBAmohByAOQQJrIQ4gCygCICAILwAAIAp0ciENDAILAkACQCAKQaECSQRAIAoEQCAiIAEgCvwKAAALIAEvAeZRIgogAS8B5FEiB2pB/wNxIgwgB0H/A3EiCUkNASAMIAlrIgcgCkEfcSIKRw0CIAoEQCAZIAEgCWogCvwKAAALIAEgAS0A61FBAWs6AOtRIAtBGGogASALQSBqEL4BIAstABgiCUEDRgRAQf8BIQlBCiEIQQAhCgwQCyALLQAZIQ0MCAtBACAKQaACQfD8xAAQ6gcACyAJIAxBgARB4PzEABDqBwALIAogB0HQ/MQAEN4JAAsCQCAORQRAIAohDwwBCyAKQQhqIQ8gCEEBaiEHIAgtAAAgCnQgDXIhDUEAIQ4gCkEGSw0BIB8gDUH/B3FBAXRqLgEAIghBAEgEQCAKQQNJDQFBCyEJA0AgDSAJQQFrdkEBcSAIQX9zaiIMQb8ESw0EIB4gDEEBdGouAQAiCEEATg0DIA8gCUEBaiIJTw0ACwwBCyAIQYAESQ0AIA8gCEEJdk8NAQsgCyAPNgIkIAsgDTYCIEEKIQgMCAsgHyANQf8HcUEBdGouAQAiCEEATg0BQQohCQNAAkAgDSAJdkEBcSAIQX9zaiIKQcAETwRAIAlBAWohCUH//wEhCAwBCyAJQQFqIQkgHiAKQQF0ai4BACIIQQBIDQELCyAJQf8BcSEJDAILIAxBwARBlIfFABCMBwALIAhBCXYhCSAIQf8DcSEICyALIA8gCWs2AiQgCyANIAl2NgIgIAsgCDYCKCAIQRBPBEAgEUUEQEEgIQ0gCEEQRg0QCyALQYKGHDYANCALIAtBNGogCEEDcWotAAA6ADBBCyENDA8LIAEgEUH/A3FqIAg6AAAgCyARQQFqNgIsQQAhCSAHIQgLIAlFDQALIAghByAJQQJrDQxBCiEIDAQLQQMgCygCLCIMIAxBA00bIQ8gCygCICEIIAsoAiQhEQNAAkACQCAMIA9HBEAgC0EENgI8IAtChYCAgNAANwI0IBEgC0E0aiAMQQJ0aigCACISTw0CAkAgDgRAQQEgDmshDSARIQkDQCAHLQAAIAl0IAhyIQggCUEIaiIKIBJPDQQgB0EBaiEHIAohCSANQQFqIg1BAUcNAAsgCyAMNgIsIBEgDkEDdGohEQwBCyALIAw2AiwLIAsgETYCJCALIAg2AiBBCCEIDAULIB39DAAAAAAAAAAAAAAAAAAAAAD9CwAAIB1BD2pBADYAACALIBE2AiQgCyAINgIgIAtBADYCLEEbQQlBGyABLwHmUUEfSRsgAS8B5FFBnwJPGyENDA4LQQAgDWshDiAHQQFqIQcgCUEIaiERCyAmIAxBAXQiCmogCi8BwP5EIAhBfyASdEF/c3FqOwEAIAxBAWohDCARIBJrIREgCCASdiEIDAALAAtBAkEHIAUgEEYiDBtBFCALKAIsIgobIQ0gCkUgDEVyDQogBSEQDAILQQAhDiAkIQ0MAQsgASAJQQFxOgDqUSABIAlBAXZBA3EiCjoA61EgCyANQQNrNgIkIAsgCUEDdjYCIEEZIQ0CQAJAAkAgCkEBaw4DAAELBQsgAUGggoABNgLkUSAiQQhBkAH8CwAgJUEJQfAA/AsAIBxBEGpCh46cuPDgwYMHNwIAIBxBCGpCh46cuPDgwYMHNwIAIBxCh46cuPDgwYMHNwIAIAFCiJCgwICBgoQINwKYUSAZQoWKlKjQoMGCBTcCACAZQQhqQoWKlKjQoMGCBTcCACAZQRBqQoWKlKjQoMGCBTcCACAZQRhqQoWKlKjQoMGCBTcCACALQQhqIAEgC0EgahC+ASALLQAJIQ0gCy0ACCIMQQFGDQpB/wEhCUEAIQogDEEDaw0BDAMLIAtBADYCLEEIIQ0MCQtBAyEICyANQf8BcSICQQFGIgogAkH8AUZyDQIgDSEJCyALIAsoAiQiAiADIA5rIgcgAkEDdiICIAIgB0sbIgxBA3RrNgIkIAoNAgwDC0EEIQ0MBQtBACEMIA0hCSACQQFHDQELQQFBAUECIAhB/wFxQRdGGyAFIBBHGyEJCyABIAg6AIBSIAEgCygCJCICNgLAUSABIAspAyg3AtRRIAEgCy0AMDoA7FEgASALKAIgQX8gAnRBf3NxNgLcUQJAIAnAQQBOICBxRQRAIBAgBmshBwwBCyAFIBBJIAYgEEtyRQRAIAsgASgC0FEiAiACQRB2IAQgBmogECAGayIHEN4CIAEgCygCACICNgLQUSAJQf8BcQ0BQX5BACACIAEoAsxRRxshCQwBCyAGIBAgBUGA/sQAEOoHAAsgACAHNgIIIAAgCToABCAAIAMgDCAOams2AgAMBAsgCyAKNgIsC0EMIQ0MAAsACyAAQQA2AgggAEEANgIAIABB/QE6AAQLIAtBQGskAA8LIBAgBUGA/cQAEIwHAAtBAEECIAxBhP/EABDqBwAL00wDHX8EfQF+IwBBwAFrIgIkAAJAAkACQAJAAkACQCABKAIAQQJHBEAgASgCpAIiAyABKAJkSQRAIAFBvAJqIRQgAUHsA2ohFiABQfAAaiEbIAFBmANqIRkgAUH0AmohHCABQYADaiEdIAFBjANqIR4DQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAIAEoAmAgA0EobGoiCikDECABKQOAAXwiIyABKQNwUQRAIAEoArgCIgMgCigCGCIEQQdqQXhxSQ0BIAMgBEkNAiABKAK0AiEDIAotACAiGkEBRgRAIAJBGGogAyAEEPkCIAIoAhgiA0GAgICAeEcEQCACKAIcIAJBADYCuAEgAkEBNgKsASACQbjJwQA2AqgBIAJCBDcCsAEgAkGoAWoQkgchFyADRQ0iIANBARCiBwwiCyACKAIgIRcgAigCHCIYQYCAgIB4Rg0hIAIoAiQhBCAXIQMLQQkhBgJAAkACQAJAAkACQAJAAkACQAJAAn8CQAJAAkACQAJ/AkACQAJAAkACfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAKLQAiQQFrDg0BAgMaHx0eGxwfHR4EAAsgCi0AIQ4EBAUGBwkLIAotACEOBQsKCQkMCQsgCi0AISIFDgYODRAQDw8QCyAKLQAhDgoSERERERERERQTEQsgCi0AIUELaw4CHB0bCyACQRhqIAMgBEEDIAEoAqwCEPgEDAMLIAJBGGogAyAEQQMgASgCrAIQ5gMMAgsgAkEYaiADIAQgASgCrAIQoAIMAQsgAkEYaiADIAQgASgCrAIQ/gELIBQgASgCqAIgASgCrAIgAigCHCIGIAIoAiAQowIgAigCGCIFRQ02IAZBBGsoAgAiA0F4cSIEIAVBAnQiBUEEQQggA0EDcSIDG2pJDT0gA0EAIAQgBUEnaksbDT4gBhCiAgw2CyACQQE2AqwBIAJB4MnBADYCqAEgAkIBNwK0ASACIApBIWqtQoCAgICQBYQ3A1ggAiACQdgAajYCsAEgAkEoaiIBIAJBqAFqELEGIAEQjgchAQw0CyACQQE2AqwBIAJBvMrBADYCqAEgAkIBNwK0ASACIApBIWqtQoCAgICQBYQ3A1ggAiACQdgAajYCsAEgAkE0aiIBIAJBqAFqELEGIAEQjgcMAwsgAkEYaiADIARBASABKAKsAhDmAwwxCyACQRhqIAMgBEEBIAEoAqwCEPgEDDALIAooAgBFBEAgAkEANgK4ASACQQE2AqwBIAJBmMrBADYCqAEgAkIENwKwASACQagBahCSBwwBCyAKKAIIDS4gAkEANgK4ASACQQE2AqwBIAJB/MnBADYCqAEgAkIENwKwASACQagBahCSBwshAQwvCyACQRhqIAMgBEEDIAEoAqwCEOYDDCsLIAJBGGogAyAEQQMgASgCrAIQ+AQMKgsgCigCAEUEQCACQQA2ArgBIAJBATYCrAEgAkGYysEANgKoASACQgQ3ArABIAJBqAFqEJIHDAILIAooAghFBEAgAkEANgK4ASACQQE2AqwBIAJB/MnBADYCqAEgAkIENwKwASACQagBahCSBwwCCyAKKgIEISAgASgCrAIhBiAKKgIMIR8gBUEERg0oIAJBGGogAyAEQQMgBiAgIB8Q/wMMKQsgAkEBNgKsASACQeDKwQA2AqgBIAJCATcCtAEgAiAKQSFqrUKAgICAkAWENwNYIAIgAkHYAGo2ArABIAJBQGsiASACQagBahCxBiABEI4HCyEBDCoLIAJBATYCrAEgAkGIy8EANgKoASACQgE3ArQBIAIgCkEhaq1CgICAgJAFhDcDWCACIAJB2ABqNgKwASACQcwAaiIBIAJBqAFqELEGIAEQjgcMAwsgAkEYaiADIARBAyABKAKsAhD4BAwjCyACQRhqIAMgBCABKAKsAhD9AQwiCyAKKAIARQRAIAJBADYCuAEgAkEBNgKsASACQZjKwQA2AqgBIAJCBDcCsAEgAkGoAWoQkgcMAQsgCigCCA0gIAJBADYCuAEgAkEBNgKsASACQfzJwQA2AqgBIAJCBDcCsAEgAkGoAWoQkgcLIQEMJQsCQAJAAkACQCAKLQAhIgVBCkcEQCAFDgICAwELIAJB2ABqIAMgBCABKAKsAhDFAwwhCyACQQE2AqwBIAJBxMvBADYCqAEgAkIBNwK0ASACIApBIWqtQoCAgICQBYQ3A3AgAiACQfAAajYCsAEgAkHkAGoiASACQagBahCxBiABEI4HIQEMJwsgAkEYaiADIARBAyABKAKsAhD4BAwBCyACQRhqIAMgBEEDIAEoAqwCEOYDCyABKAKsAiILQQJ0IgRB/////wNLDQwgC0EEdCIDQf3///8HTw0MAkAgA0UEQEEEIQ1BACEEDAELIAMQcSINRQ0OIAEoAqwCIQsLIAJBADYCsAEgAiANNgKsASACIAQ2AqgBIAsEQEEAIQNBASEPIAIoAiAhBiACKAIcIQQDQCAPQQFrIgUgBk8EQCAFIQ8MHwsgBiAFayIFQQAgBSAGTRsiBUEBRg0eIAVBAkYNHUMAAIA/IAQqAgAiISAhlJMgBEEEaioCACIiICKUkyAEQQhqKgIAIiAgIJSTQwAAAAAQ4AiRIR8gAigCqAEgA2tBA00EQCACQagBaiADQQRBBEEEEKQFIAIoAqwBIQ0gAigCsAEhAwsgDSADQQJ0aiIFIB84AgwgBSAgOAIIIAUgIjgCBCAFICE4AgAgAiADQQRqIgM2ArABIA9BA2ohDyAEQQxqIQQgC0EBayILDQALCyACQeAAaiACQbABaigCADYCACACIAIpAqgBNwNYIAIoAhgiBUUNHSACKAIcIgZBBGsoAgAiA0F4cSIEIAVBAnQiBUEEQQggA0EDcSIDG2pJDSwgA0EAIAQgBUEnaksbDS0gBhCiAgwdCyAKLQAhQQtGDRkgAkEBNgKsASACQfDLwQA2AqgBIAJCATcCtAEgAiAKQSFqrUKAgICAkAWENwMYIAIgAkEYajYCsAEgAkGQAWoiASACQagBahCxBiABEI4HIQEMIwsgCi0AIUEMRg0XIAJBATYCrAEgAkGczMEANgKoASACQgE3ArQBIAIgCkEhaq1CgICAgJAFhDcDGCACIAJBGGo2ArABIAJBnAFqIgEgAkGoAWoQsQYgARCOByEBDCILQQ8hBgwBC0EVIQYLAkACQAJAAkACQCAKLQAhIgcOCAEAAwMCAgQEAwsgAkEYaiADIAQgBiABKAKsAhDmAwwXCyACQRhqIAMgBCAGIAEoAqwCEPgEDBYLIAooAgBFBEAgAkEANgK4ASACQQE2AqwBIAJBmMrBADYCqAEgAkIENwKwASACQagBahCSByEBDCILIAooAghFBEAgAkEANgK4ASACQQE2AqwBIAJB/MnBADYCqAEgAkIENwKwASACQagBahCSByEBDCILIAoqAgQhICABKAKsAiEFIAoqAgwhHyAHQQRGDRQgAkEYaiADIAQgBiAFICAgHxD/AwwVCyACQQE2AqwBIAJB0MzBADYCqAEgAkIBNwK0ASACIApBIWqtQoCAgICQBYQ3A1ggAiACQdgAajYCsAEgAkH4AGoiASACQagBahCxBiABEI4HIQEMIAsgCigCCEUEQCACQQA2ArgBIAJBATYCrAEgAkH8ycEANgKoASACQgQ3ArABIAJBqAFqEJIHIQEMIAsgASgCrAIhBSAKKgIMIR8gB0EGRg0RIAJBGGogAyAEIAYgBSAfEJAEDBMLIAJBATYCrAEgAkH4zMEANgKoASACQgE3ArQBIAIgCkEhaq1CgICAgJAFhDcDWCACIAJB2ABqNgKwASACQYQBaiIBIAJBqAFqELEGIAEQjgchAQweCyACQRhqIAMgBCABKAKsAhCOBQwBCyACQRhqIAMgBCABKAKsAhDTBAsgAigCHCEIIAEoAuQDRQ0KIAEoAqwCIREgASgCqAIhEiACKAIgIQwCQCABLQD0A0UEQCABKAKgAyEEDAELIAEoAugDIAEoAuwDIgNBAnQgAyABKALwAyIDakECdBDhCCEHIANBAnQiBiABKAKgAyIESw0GIAEoApwDIQUgAiAHELgKIgM2AnAgAiAGNgJYIAMgBkcNJiAHIAUgBhDgCSABQQA6APQDIAdBhAhJDQAgBxCbBwsgFkIANwIAIBZBCGpBADoAACARQQJ0IgkhAyAEIAlJBEAgCSAEIgNrIg4gASgCmAMgA2tLBEAgGSADIA5BBEEEEKQFIAEoAqADIQMLIAEoApwDIhMgA0ECdCIHaiEFIA5BAk8EQCAJIARBf3NqQQJ0IgYEQCAFQQAgBvwLAAsgEUEEdCAEQQJ0ayATaiAHakEEayEFIAMgDmpBAWshAwsgBUEANgIAIANBAWohAwsgASADNgKgAyABKAK8AkEBRw0KIBFBAXQiECADSw0GIAEoApwDIQYCQAJAAkAgEQRAIBFB/////wdxIQ9BACENIAwhAyARIQcgCCEFIAYhBANAIANFDQIgBSgCAEEBdCIOIAEoAvwCIhNPDQMgD0UNBCAEIAEoAvgCIA5BAnRqKAIANgIAIA5BAXIiDiABKAL8AiITTw0NIARBBGogASgC+AIgDkECdGooAgA2AgAgA0EBayEDIA9BAWshDyAFQQRqIQUgBEEIaiEEIA1BAmohDSAHQQFrIgcNAAsLIAIgASgCwAIgEkEBdCARIBJqIhNBAXQQ4QgiBRC4CiIDNgJwIAIgEDYCWCADIBBHDSggBSAGIBAQ4AkgBUGECE8EQCAFEJsHCyABKALkA0EBRg0NIAEoAsQCRQ0NIAkgASgCoAMiA0sNCiABKAKcAyEHIBFFDQxBACELIAchBUEAIQQCQAJAAkADQAJAIAsgDEkEQCAEIAhqKAIAQQJ0IgMgASgCiAMiD08NFSAEIAlPDQUgBSABKAKEAyADQQJ0aigCADYCACADQQFyIgYgASgCiAMiD0kNASAGIQMMFQsgDCAMQajdwAAQjAcACyAEQQFqIAlPDQIgBUEEaiABKAKEAyAGQQJ0aigCADYCACADQQJyIgYgASgCiAMiD08EQCAGIQMMFAsgBEECaiAJTw0BIAVBCGogASgChAMgBkECdGooAgA2AgAgA0EDciIDIAEoAogDIg9PDRMgCSAEQQNqSwRAIAVBDGogASgChAMgA0ECdGooAgA2AgAgBUEQaiEFIARBBGohBCALQQFqIgsgEUkNAQwRCwsgBEEDaiEEDAILIARBAmohBAwBCyAEQQFqIQQLIAQgCUHI3cAAEIwHAAsgDCAMQejdwAAQjAcACyAOIBNB+N3AABCMBwALIA0gEEGI3sAAEIwHAAsgAiAjNwNYIAJBAjYCrAEgAkG0zcEANgKoASACQgI3ArQBIAJCgICAgKAFIiMgAkHYAGqthDcDICACICMgG62ENwMYIAIgAkEYajYCsAEgAkEMaiIBIAJBqAFqELEGIAEQjgchASAAQQE6AAAgACABNgIEDCALIABBADsBAAwfC0EAIAQgA0GAzcEAEOoHAAtBkMvBABD/BwsAC0EAIAYgBEH868AAEOoHAAtBACAQIANBqN7AABDqBwALQQAgCSADQdjdwAAQ6gcACyAOIBNBmN7AABCMBwALIAIgASgCyAIgEkECdCIOIBNBAnQiExDhCCIFELgKIgM2AnAgAiAJNgJYAkACQCADIAlGBEAgBSAHIAkQ4AkgBUGECE8EQCAFEJsHCyABKALkA0ECRg0DIAEoAswCRQ0DIAkgASgCoAMiA0sNASABKAKcAyEHIBFFDQJBACELIAchBUEAIQQCQAJAAkADQAJAIAsgDEkEQCAEIAhqKAIAQQJ0IgMgASgClAMiD08NCiAEIAlPDQUgBSABKAKQAyADQQJ0aigCADYCACADQQFyIgYgASgClAMiD0kNASAGIQMMCgsgDCAMQejcwAAQjAcACyAEQQFqIAlPDQIgBUEEaiABKAKQAyAGQQJ0aigCADYCACADQQJyIgYgASgClAMiD08EQCAGIQMMCQsgBEECaiAJTw0BIAVBCGogASgCkAMgBkECdGooAgA2AgAgA0EDciIDIAEoApQDIg9PDQggCSAEQQNqSwRAIAVBDGogASgCkAMgA0ECdGooAgA2AgAgBUEQaiEFIARBBGohBCALQQFqIgsgEUkNAQwHCwsgBEEDaiEEDAILIARBAmohBAwBCyAEQQFqIQQLIAQgCUGI3cAAEIwHAAsMHQtBACAJIANBmN3AABDqBwALIAIgASgC0AIgDiATEOEIIgUQuAoiAzYCcCACIAk2AlggAyAJRw0bIAUgByAJEOAJIAVBhAhJDQAgBRCbBwsgAigCGCIFRQ0RIAhBBGsoAgAiA0F4cSIEIAVBAnQiBUEEQQggA0EDcSIDG2pJDRggA0EAIAQgBUEnaksbDRkgCBCiAgwRCyADIA9B+NzAABCMBwALIAMgD0G43cAAEIwHAAsgAkEYaiADIAQgBiAFIB8QggUMAQsgAkEYaiADIAQgBiAFICAgHxD5BAsCQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQCAKLQAiQQVrDggGAQIAAAMEBQALQaT4xgBBKEGkzMEAEOsHAAsgFCABKAKoAiABKAKsAiACKAIcIhUgAigCIBDiAwwICyAUIAEoAqgCIAEoAqwCIAIoAhwiFSACKAIgEOMDDAcLIAEoAqwCIg8gASgCqAIiE2oiEUEBdCEQIAIoAiAhDCACKAIcIRUCQAJAIAEoAtQCQQFGBEAgASgC2AIQuAogEEkNAUEBIQUMCAsgEEUEQEEAIQUMCAsgEBC2CSEEDAELIBAQtgkiBCABKALYAhDcCSABKALYAiIDQYQISQ0AIAMQmwcLIAEgBDYC2AJBASEFIAFBATYC1AIMBQsgASgCrAIiByABKAKoAiIQaiITQQJ0IQ0gAigCICERIAIoAhwhFQJAAkAgASgC3AJBAUYEQCABKALgAhC4CiANSQ0BQQEhBQwGCyANRQRAQQAhBQwGCyANELYJIQQMAQsgDRC2CSIEIAEoAuACENwJIAEoAuACIgNBhAhJDQAgAxCbBwsgASAENgLgAkEBIQUgAUEBNgLcAgwDCyABKAKsAiIHIAEoAqgCIhBqIhNBAnQhDSACKAIgIREgAigCHCEVAkACQCABKALkAkEBRgRAIAEoAugCELgKIA1JDQFBASEFDAQLIA1FBEBBACEFDAQLIA0QtgkhBAwBCyANELYJIgQgASgC6AIQ3AkgASgC6AIiA0GECEkNACADEJsHCyABIAQ2AugCQQEhBSABQQE2AuQCDAELIBQgASgCqAIgASgCrAIgAigCHCIVIAIoAiAQzgMMAwsCQAJAAkAgAS0A9ANFBEAgASgCoAMhBAwBCyABKALoAyABKALsAyIDQQJ0IAMgASgC8AMiA2pBAnQQ4QghDCADQQJ0IgggASgCoAMiBEsNHSABKAKcAyEGIAIgDBC4CiIDNgJwIAIgCDYCWCADIAhHDSAgDCAGIAgQ4AkgAUEAOgD0AyAMQYQISQ0AIAwQmwcLIBZCADcCACAWQQhqQQA6AAAgB0ECdCIJIQYgBCAJSQRAIAQhBiAJIARrIg4gASgCmAMgBGtLBEAgGSAEIA5BBEEEEKQFIAEoAqADIQYLIAEoApwDIgwgBkECdCIIaiEFIA5BAk8EfyAJIARBf3NqQQJ0IgMEQCAFQQAgA/wLAAsgBiAOakEBayEGIAdBBHQgBEECdGsgDGogCGpBBGsFIAULQQA2AgAgBkEBaiEGIAEoAuQCIQULIAEgBjYCoAMgBUUNBCAGIAlJDQAgASgCnAMiDiAJIBUgESAHIAEqAtQDENoDIAEoAugCIBBBAnQiESANEOEIIgUQuAohAyACIAk2AlggAiADNgJwIAMgCUcNHyAFIA4gCRDgCSAFQYQITwRAIAUQmwcLIAEoApQDIgMgDUkEQCANIAMiBmsiEiABKAKMAyADa0sEQCAeIAMgEkEEQQQQpAUgASgClAMhBgsgASgCkAMiDCAGQQJ0IghqIQUgEkECTwR/IA0gA0F/c2pBAnQiBARAIAVBACAE/AsACyAGIBJqQQFrIQYgE0EEdCADQQJ0ayAMaiAIakEEawUgBQtBADYCACABIAZBAWo2ApQDCyAHRQ0EIBBBBHQhCCAHQf////8DcSENQQAhBEEAIQsCfwJAAkACQANAIA1FDQYgCyARaiIFIAEoApQDIgZJBEAgASgCkAMgCGogBGogBCAOaiIDKAIANgIAIAEoApQDIgYgBUEBak0NBCABKAKQAyAIaiAEakEEaiADQQRqKAIANgIAIAEoApQDIgYgBUECak0NAyABKAKQAyAIaiAEakEIaiADQQhqKAIANgIAIAEoApQDIgYgBUEDak0NAiABKAKQAyAIaiAEakEMaiADQQxqKAIANgIAIARBEGohBCALQQRqIQsgDUEBayENIAdBAWsiBw0BDAoLCyAQQQJ0IAtqDAMLIBBBAnQgC2pBA2oMAgsgEEECdCALakECagwBCyAQQQJ0IAtqQQFqCyAGQcjcwAAQjAcAC0EAIAkgBkHY3MAAEOoHAAsgCyAJQbjcwAAQjAcACwJAAkACQCABLQD0A0UEQCABKAKgAyEEDAELIAEoAugDIAEoAuwDIgNBAnQgAyABKALwAyIDakECdBDhCCEMIANBAnQiCCABKAKgAyIESw0cIAEoApwDIQYgAiAMELgKIgM2AnAgAiAINgJYIAMgCEcNHyAMIAYgCBDgCSABQQA6APQDIAxBhAhJDQAgDBCbBwsgFkIANwIAIBZBCGpBADoAACAHQQJ0IgkhBiAEIAlJBEAgBCEGIAkgBGsiDiABKAKYAyAEa0sEQCAZIAQgDkEEQQQQpAUgASgCoAMhBgsgASgCnAMiDCAGQQJ0IghqIQUgDkECTwR/IAkgBEF/c2pBAnQiAwRAIAVBACAD/AsACyAGIA5qQQFrIQYgB0EEdCAEQQJ0ayAMaiAIakEEawUgBQtBADYCACAGQQFqIQYgASgC3AIhBQsgASAGNgKgAyAFRQ0DIAYgCUkNACABKAKcAyIOIAkgFSARIAcgASoC0AMQ4wEgASgC4AIgEEECdCIRIA0Q4QgiBRC4CiEDIAIgCTYCWCACIAM2AnAgAyAJRw0eIAUgDiAJEOAJIAVBhAhPBEAgBRCbBwsgASgCiAMiAyANSQRAIA0gAyIGayISIAEoAoADIANrSwRAIB0gAyASQQRBBBCkBSABKAKIAyEGCyABKAKEAyIMIAZBAnQiCGohBSASQQJPBH8gDSADQX9zakECdCIEBEAgBUEAIAT8CwALIAYgEmpBAWshBiATQQR0IANBAnRrIAxqIAhqQQRrBSAFC0EANgIAIAEgBkEBajYCiAMLIAdFDQMgEEEEdCEIIAdB/////wNxIQ1BACEEQQAhCwJ/AkACQAJAA0AgDUUNBiALIBFqIgUgASgCiAMiBkkEQCABKAKEAyAIaiAEaiAEIA5qIgMoAgA2AgAgASgCiAMiBiAFQQFqTQ0EIAEoAoQDIAhqIARqQQRqIANBBGooAgA2AgAgASgCiAMiBiAFQQJqTQ0DIAEoAoQDIAhqIARqQQhqIANBCGooAgA2AgAgASgCiAMiBiAFQQNqTQ0CIAEoAoQDIAhqIARqQQxqIANBDGooAgA2AgAgBEEQaiEEIAtBBGohCyANQQFrIQ0gB0EBayIHDQEMCQsLIBBBAnQgC2oMAwsgEEECdCALakEDagwCCyAQQQJ0IAtqQQJqDAELIBBBAnQgC2pBAWoLIAZBmNzAABCMBwALQQAgCSAGQajcwAAQ6gcACyALIAlBiNzAABCMBwALAkAgAS0A9ANFBEAgASgCoAMhBAwBCyABKALoAyABKALsAyIDQQJ0IAMgASgC8AMiA2pBAnQQ4QghCCADQQJ0IgcgASgCoAMiBEsNAiABKAKcAyEGIAIgCBC4CiIDNgJwIAIgBzYCWCADIAdHDRwgCCAGIAcQ4AkgAUEAOgD0AyAIQYQISQ0AIAgQmwcLIBZCADcCACAWQQhqQQA6AAAgBCAPQQJ0IgZJBEAgBCEFIAYgBGsiDiABKAKYAyAEa0sEQCAZIAQgDkEEQQQQpAUgASgCoAMhBQsgASgCnAMiCCAFQQJ0IgdqIQsgDkECTwRAIAYgBEF/c2pBAnQiAwRAIAtBACAD/AsACyAPQQR0IARBAnRrIAhqIAdqQQRrIQsgBSAOakEBayEFCyALQQA2AgAgBUEBaiEGIAEoAtQCIQULIAEgBjYCoAMgBUUNACAPQQF0IhIgBksNAiABKAKcAyIEIBIgFSAMIA8gASoCzAMQqQIgASgC2AIgE0EBdCIMIBAQ4QgiBRC4CiEDIAIgEjYCWCACIAM2AnAgAyASRw0bIAUgBCASEOAJIAVBhAhPBEAgBRCbBwsgASgC/AIiAyAQSQRAIBAgAyIFayIOIAEoAvQCIANrSwRAIBwgAyAOQQRBBBCkBSABKAL8AiEFCyABKAL4AiIIIAVBAnQiB2ohCyAOQQJPBEAgECADQX9zakECdCIGBEAgC0EAIAb8CwALIBFBA3QgA0ECdGsgCGogB2pBBGshCyAFIA5qQQFrIQULIAtBADYCACABIAVBAWo2AvwCCyAPRQ0AIBNBA3QhAyAPQf////8HcSEGQQAhBQNAIAZFDQQgBSAMaiIIIAEoAvwCIgdPDQUgASgC+AIgA2ogBCgCADYCACAIQQFqIgggASgC/AIiB0kEQCABKAL4AiADakEEaiAEQQRqKAIANgIAIANBCGohAyAEQQhqIQQgBUECaiEFIAZBAWshBiAPQQFrIg8NAQwCCwsgCCAHQejbwAAQjAcACyACKAIYIgVFDREgFUEEaygCACIDQXhxIgQgBUECdCIFQQRBCCADQQNxIgMbakkNGCADQQAgBCAFQSdqSxsNBCAVEKICDBELQQAgByAEQfzrwAAQ6gcAC0EAIBIgBkH428AAEOoHAAsgBSASQcjbwAAQjAcACyAIIAdB2NvAABCMBwALDBQLIAJBqAFqIAMgBCABKAKsAhDUBCAUIAEoAqgCIAEoAqwCIAIoAqwBIgYgAigCsAEQtQQgAigCqAEiBUUNCwJAIAZBBGsoAgAiA0F4cSIEIAVBAnQiBUEEQQggA0EDcSIDG2pPBEAgA0EAIAQgBUEnaksbDQEgBhCiAgwNCwwTCwwTCyACQagBaiADIAQgASgCrAIQnAUgFCABKAKoAiABKAKsAiACKAKsASIGIAIoArABELQEIAIoAqgBIgVFDQoCQCAGQQRrKAIAIgNBeHEiBCAFQQF0IgVBBEEIIANBA3EiAxtqTwRAIANBACAEIAVBJ2pLGw0BIAYQogIMDAsMEgsMEgsgD0EBaiEPCyAPIAZBxM3BABCMBwALIBQgASgCqAIgASgCrAIgAigCXCIGIAIoAmAQ+wQgAigCWCIFRQ0HAkAgBkEEaygCACIDQXhxIgQgBUECdCIFQQRBCCADQQNxIgMbak8EQCADQQAgBCAFQSdqSxsNASAGEKICDAkLDA8LDA8LIAJBGGogAyAEIAEoAqwCIAoqAgQgCioCDBCqAwsgFCABKAKoAiABKAKsAiACKAIcIgYgAigCIBDJAyACKAIYIgVFDQUCQCAGQQRrKAIAIgNBeHEiBCAFQQJ0IgVBBEEIIANBA3EiAxtqTwRAIANBACAEIAVBJ2pLGw0BIAYQogIMBwsMDQsMDQsgAkEYaiADIARBAyAGICAgHxD5BAsgFCABKAKoAiABKAKsAiACKAIcIgYgAigCIBCWBCACKAIYIgVFDQMCQCAGQQRrKAIAIgNBeHEiBCAFQQJ0IgVBBEEIIANBA3EiAxtqTwRAIANBACAEIAVBJ2pLGw0BIAYQogIMBQsMCwsMCwsgAkEYaiADIARBASABKAKsAiAKKgIEIAoqAgwQ+QQLIAIoAiAhByACKAIcIQwgFCABKAKoAiABKAKsAiIFEMwDAkACQAJAIAUEQEEAIQYgByEDQQAhBANAIAEoAqADIgggBEEDak0NAiADRQ0DIAEoApwDIAZqQQNqQf8BQwAAf0NDAAAAACAEIAxqKgIAQwAAAEBDAACAPyABLQDYA0EBcRuVQwAAf0OUIh8gH0MAAAAAXRsiHyAfQwAAf0NeGxC5ByIf/AFBACAfQwAAAABgGyAfQwAAf0NeGzoAACAGQRBqIQYgA0EBayEDIARBBGohBCAFQQFrIgUNAAsLIAFBAToA9AMgAigCGCIFRQ0EIAxBBGsoAgAiA0F4cSIEIAVBAnQiBUEEQQggA0EDcSIDG2pJDQsgA0EAIAQgBUEnaksbDQIgDBCiAgwECyAEIARBBGogCEG428AAEOoHAAsgByAHQajbwAAQjAcACwwJCyAAQQE6AAAgACABNgIEIBpFIBhFcg0FIBcgGEEBEKIHDAULAkACQAJAIAEoArgCIgMgCigCGEEHakF4cSIETwRAIAFBADYCuAIgAyAEayEFIARFDQEgAyAERg0DIAVFDQIgASgCtAIiAyADIARqIAX8CgAADAILQQAgBCADQYSkxwAQ6gcACyADIARGDQELIAEgBTYCuAILIAopAxghIyABIAEoAqQCQQFqIgM2AqQCIAEgASkDcCAjQgd8Qvj///8Pg3w3A3ACQCAaRSAYRXINAAJAIBdBBGsoAgAiA0F4cSIFQQRBCCADQQNxIgMbIBhqTwRAIANBACAFIBhBJ2pLGw0BIBcQogIgASgCpAIhAwwCCwwICwwICyADIAEoAmRJDQALCyAAQYACOwEADAILQYzJwQAQ3QkACyAAQQE6AAAgACAXNgIECyACQcABaiQADwtBACAIIARB/OvAABDqBwALQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcACyACQQA2AqgBQQAgAkHwAGogAkHYAGogAkGoAWpB4PnEABD1BwALwE0CLX8CfiMAQbALayICJAAgAkHIAGogAUEIaigCADYCACACQYABOgBMIAJBADYCPCACQoCAgIAQNwI0IAIgASkCADcCQCACQdgGaiACQTRqEIIBIAIoAtwGIRICQAJAAkACQAJAAkAgAigC2AYiAUGVgICAeEcEQCACIAIpA+AGIi83A+ADIAIgEjYC3AMgAiABNgLYA0GAgICAeCEJIC+nIQUCQAJAAn8CfwJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQAJAAkACQEEVIAFBgICAgHhzIAFBAE4bIihBFGsOAgABAgsCQCAvQoCAgIAQWgRAIAJBGGogBRCqBCACKAIcIg4gAigCGEEBcQ0UGiAvQiCIIjBCAVENBCACQRBqIAVBEGoQqQQgAigCFCETIAIoAhBBAXFFDQEgEwwUC0EAQZyAwQBBgP3AABDbBgwTCyAwQgJRDQMgAkGYBmoiCCAFQSBqEKYBIAIoApwGIgMgAigCmAYiAUECRg0SGiACQbAJaiACQcAGav0AAgD9CwMAIAJBwAlqIAJB0AZqKAIANgIAIAIgAikCuAY3A6gJIAIoArQGIQcgAigCsAYhCSACKAKoBiEPIAIoAqQGIQogMEIDUQ0EIAIoAqwGIRAgAigCoAYhFyAIIAVBMGoQxQEgAigCnAYiHSACKAKYBiIUQYCAgIB4Rg0RGiACKAKoBiEeIAIoAqQGIRkgMEIEUQ0FIAIoAqwGISIgAigCoAYhIyAIIAVBQGsQtwEgAigCnAYhBiACKAKYBiILQYCAgIB4Rg0QIAIoAqgGISEgAigCpAYhGwJAAkACfwJAIDBCBVIEQCACKAKsBiEkIAIoAqAGISUgCCAFQdAAahDGASACKAKcBiENIAIoApgGIhFBgICAgHhGDQMgAiAC/QACoAb9CwLACCACIA02ArwIIAIgETYCuAggMEIGUQ0BQYCAgIB4IQQCQAJAQRUgBUHgAGoiGCgCACIMQYCAgIB4cyAMQQBOG0EQaw4DBgAGAQsgBSgCZCEYCyACQZgGaiAYELIBIAIoApwGIhUgAigCmAYiBEGBgICAeEYNAhogFSAEQYKAgIB4Rg0CGiACKQK4BiEvIAIoArQGIRYgAigCsAYhGCACKAKsBiEcIAIoAqgGIRogAigCpAYhDCACKAKgBiEfDAQLQQVBnIDBAEGA/cAAENsGIQ0MAgtBBkGcgMEAQYD9wAAQ2wYLIQ0gAkG4CGoQ3wULIAsEQCAGIAtBARCiBwsgG0GAgICAeHJBgICAgHhHBEAgISAbQQEQogcLIA0hBgwRCyACQZgJaiIFIAJBwAlqKAIANgIAIAJBkAlqIgggAkG4CWopAwA3AwAgAiAC/QADqAn9CwOACSACIAc2AuwEIAIgCTYC6AQgAiAQNgLkBCACIA82AuAEIAIgCjYC3AQgAiAXNgLYBCACIAM2AtQEIAIgATYC0AQgAigCwAghJyACKALECCEQIAIoAsgIIRcgAigCzAghICACQYgFaiAFKAIANgIAIAJBgAVqIAgpAwA3AgAgAiAC/QADgAn9CwLwBCACIBM2AoAGIAIgDjYC/AUgAiAvNwL0BSACIBY2AvAFIAIgGDYC7AUgAiAcNgLoBSACIBo2AuQFIAIgDDYC4AUgAiAfNgLcBSACIBU2AtgFIAIgBDYC1AUgAiAgNgLQBSACIBc2AswFIAIgEDYCyAUgAiAnNgLEBSACIA02AsAFIAIgETYCvAUgAiAkNgK4BSACICE2ArQFIAIgGzYCsAUgAiAlNgKsBSACIAY2AqgFIAIgCzYCpAUgAiAiNgKgBSACIB42ApwFIAIgGTYCmAUgAiAjNgKUBSACIB02ApAFIAIgFDYCjAUgMEIHUgRAIAJBBzYCmAYgMKdB+f///wBqQf////8AcUEHaiACQZgGakHolcEAENsGIQMgAkHQBGoQhQJBAiEBDBQLIAJB6ANqIAJB2ARqQeQA/AoAAAwTCyAFRQRAQYGAgIB4IQpBAiEGQYCAgIB4IQVBgICAgHghEQwKCyAFQQV0ISYgAkHwBGohGUECIQZBgICAgHghBUGAgICAeCERQYGAgIB4IQoDQAJAAkACQAJAAkACQAJAAkBBFSALIBJqIgEoAgAiBEGAgICAeHMgBEEAThtBAWsODwEAAAIAAAAAAAAAAwQFBgALIAEgAkGACWpB9OTAABCVCCEEIAJBAToA0AQgAiAENgLUBAwGCyACQQA6ANAEIAJBByABQQRqLQAAIgQgBEEHTxs6ANEEDAULIAJBADoA0AQgAkIHIAFBCGopAwAiMCAwQgdaGzwA0QQMBAsgAkHQBGogAUEIaigCACABQQxqKAIAEKoGDAMLIAJB0ARqIAFBBGooAgAgAUEIaigCABCqBgwCCyACQdAEaiABQQhqKAIAIAFBDGooAgAQxwQMAQsgAkHQBGogAUEEaigCACABQQhqKAIAEMcECyACLQDQBEEBRgRAIAIoAtQEIQNBASEHDAwLIAFBEGohBAJAAkACQAJAAkACQAJAAkAgAi0A0QRBAWsOBwECAwQFBgcACyAHQQFGDRAgAkEgaiAEEKoEQQEhByACKAIkIQ4gAigCIEEBcUUNBiAOIQMMEgsgD0EBRg0OIAJBKGogBBCpBEEBIQ8gAigCLCETIAIoAihBAXFFDQUgEyEDQQEhB0EBIQsMEgsgBkECRwRAQQEhB0G8/8AAQQUQnwchAwwRCyACQdAEaiAEEKYBIAIoAtQEIQMgAigC0AQiBkECRgRAQQEhB0ECIQYMEQsgAkGwCWogGUEIav0AAgD9CwMAIAJBwAlqIBlBGGooAgA2AgAgAiAZKQIANwOoCSACKALsBCEhIAIoAugEIRsgAigC5AQhKSACKALgBCEiIAIoAtwEIR0gAigC2AQhKgwECyAJQYCAgIB4RwRAQQEhB0HB/8AAQQYQnwchAwwQCyACQdAEaiAEEMUBIAIoAtQEIQEgAigC0AQiCUGAgICAeEYEQEEBIQdBgICAgHghCSABIQMMEAsgAigC5AQhKyACKALgBCEjIAIoAtwEISQgAigC2AQhLCABIRQMAwsgBUGAgICAeEcEQEEBIQdBx//AAEEFEJ8HIQMMDwsgAkHQBGogBBC3ASACKALUBCEBIAIoAtAEIgVBgICAgHhGBEBBASEHQYCAgIB4IQUgASEDDA8LIAIoAuQEIS0gAigC4AQhJSACKALcBCEeIAIoAtgEIS4gASEIDAILIBFBgICAgHhHBEBBASEHQcz/wABBAxCfByEDDA4LIAJB0ARqIAQQxgEgAigC1AQhASACKALQBCIRQYCAgIB4RgRAQQEhB0GAgICAeCERIAEhAwwOCyACKALkBCEgIAIoAuAEIRcgAigC3AQhECACKALYBCEnIAEhDQwBCyAKQYGAgIB4RwRAQQEhC0HP/8AAQQMQnwchA0EBIQ9BASEHDA8LQYCAgIB4IQoCQAJAAkBBFSAEKAIAIgxBgICAgHhzIAxBAE4bQRBrDgMCAAIBCyABQRRqKAIAIQQLIAJB0ARqIAQQsgEgAigC0AQiCkGBgICAeEcNACACKALUBCEDQQEhC0EBIQ9BASEHDBALIAIpAvAEIS8gAigC7AQhFiACKALoBCEYIAIoAuQEIRwgAigC4AQhGiACKALcBCEMIAIoAtgEIR8gAigC1AQhFQsgJiALQSBqIgtHDQALIAdBAXFFDQkgD0EBcUUEQEEBIQdBq/zAAEEFEJwHIQMMCwsCQAJAIAZBAkYiC0UEQCACQdAGaiACQcAJaigCADYCACACQcgGaiACQbgJaikDADcCACACIAL9AAOoCf0LArgGIAIgITYCtAYgAiAbNgKwBiACICk2AqwGIAIgIjYCqAYgAiAdNgKkBiACICo2AqAGIAIgAzYCnAYgAiAGNgKYBgJAAkAgCUGAgICAeEYiD0UEQCACICs2AswIIAIgIzYCyAggAiAkNgLECCACICw2AsAIIAIgFDYCvAggAiAJNgK4CCAFQYCAgIB4RiIHDQEgAiAtNgKUCSACICU2ApAJIAIgHjYCjAkgAiAuNgKICSACIAg2AoQJIAIgBTYCgAlBgICAgHghBCARQYCAgIB4Rg0CIAJBoAZqIQEgCkGBgICAeEcNBAwFC0EBIQdBwf/AAEEGEJwHIQMMCwtBx//AAEEFEJwHIQMMCQtBzP/AAEEDEJwHIQMgAkGACWoQ4AUMCAtBASEHQbz/wABBBRCcByEDQQEhDwwNCyAKIQQLIAJBgAVqIAFBMGooAgA2AgAgAkHwBGogAUEgav0AAgD9CwMAIAJB4ARqIAFBEGr9AAIA/QsDACACQYwFaiACQcAIav0AAgD9CwIAIAJBrAVqIAJBkAlqKQIANwIAIAIgAikCuAg3AoQFIAIgAv0AAoAJ/QsCnAUgAiAB/QACAP0LA9AEIAYhAQwOCyACQdgDaiACQYAJakG048AAEJUIIQMMEgtBAUGcgMEAQYD9wAAQ2wYMDwtBAkGcgMEAQYD9wAAQ2wYMDgtBA0GcgMEAQYD9wAAQ2wYMDAtBBEGcgMEAQYD9wAAQ2wYhBgwKCyACQbgIahDfBQsgAkGYBmoQ5QUMBAtBASEHQav8wABBBRCfByEDDAILQQEhB0Gk/MAAQQcQnwchAwwBC0EBIQdBpPzAAEEHEJwHIQMLQQEhD0EBIQsLIApBgYCAgHhGDQELIApBgICAgHhGDQAgCgRAIBVBBGsoAgAiAUF4cSIEQQRBCCABQQNxIgEbIApqSQ0NIAFBACAEIApBJ2pLGw0OIBUQogILIAwEQCAaQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyAMakkNDSABQQAgBCAMQSdqSxsNDiAaEKICCyAYRQ0AIBZBBGsoAgAiAUF4cSIEIBhBAnQiJkEEQQggAUEDcSIBG2pJDQwgAUEAIAQgJkEnaksbDQ0gFhCiAgsCQCARQYCAgIB4Rg0AIBEEQCANQQRrKAIAIgFBeHEiBEEEQQggAUEDcSIBGyARakkNDSABQQAgBCARQSdqSxsNDiANEKICCyAQRQ0AIBdBBGsoAgAiAUF4cSIEIBBBAnQiJkEEQQggAUEDcSIBG2pJDQwgAUEAIAQgJkEnaksbDQ0gFxCiAgsCQCAFQYCAgIB4RyAHcUUNACAFBEAgCEEEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgBWpJDQ0gAUEAIAQgBUEnaksbDQ4gCBCiAgsgHkGAgICAeHJBgICAgHhGDQAgJUEEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgHmpJDQwgAUEAIAQgHkEnaksbDQ0gJRCiAgsCQCAJQYCAgIB4RyAPcUUNACAJBEAgFEEEaygCACIBQXhxIgRBBEEIIAFBA3EiARsgCWpJDQ0gAUEAIAQgCUEnaksbDQ4gFBCiAgsgJEUNACAjQQRrKAIAIgFBeHEiBCAkQQJ0IgVBBEEIIAFBA3EiARtqSQ0MIAFBACAEIAVBJ2pLG0UEQCAjEKICDAELDA0LQQIhAQJAIAZBAkcgC3FFDQAgHQRAICJBBGsoAgAiBUF4cSIEQQRBCCAFQQNxIgUbIB1qSQ0NIAVBACAEIB1BJ2pLGw0OICIQogILIBtFDQAgIUEEaygCACIFQXhxIgRBBEEIIAVBA3EiBRsgG2pJDQwgBUEAIAQgG0EnaksbRQRAICEQogIMAgsMDQsLIAJB6ANqIAJB0ARqQeQA/AoAAAwDCyAUBEAgHSAUQQEQogcLIBkEQCAeIBlBAnRBBBCiBwsgBgsgCgRAIA8gCkEBEKIHCyAJBEAgByAJQQEQogcLCyEDIAJBiARqIAJBiAlq/QADAP0LAgAgAkGYBGogAkGYCWooAgA2AgAgAiACKQOACTcCgARBAiEBCyABQQJGDQAgAkHkBmogAkHoA2pB5AD8CgAAIAIgEzYCjAggAiAONgKICCACIC83AoAIIAIgFjYC/AcgAiAYNgL4ByACIBw2AvQHIAIgGjYC8AcgAiAMNgLsByACIB82AugHIAIgFTYC5AcgAiAENgLgByACICA2AtwHIAIgFzYC2AcgAiAQNgLUByACICc2AtAHIAIgDTYCzAcgAiARNgLIByACIAM2AuAGIAJBmAJqIAJB4AZqQcAB/AoAAEGAgICAeCEIDAMLIAJBgYCAgHg2AtgGIAIgAzYC3AYgAkHcBmoQsQQCQAJAAkACfwJAAkACQAJ/An8CQAJAAkACQAJAAkACQAJAIChBFGsOAgECAAsgAkHYA2ogAkGACWpB1OLAABCVCCEBDA8LIAIoAuQDIgZFDQMgAkHoA2ogAigC4AMiDRCwASACKALsAyEDIAIoAugDIghBgICAgHhGBEAgAyEBDA0LIAJBuAlqIAJBjARq/QACAP0LAwAgAkHICWogAkGcBGooAgA2AgAgAiAC/QAC/AP9CwOoCSACKAL4AyEWIAIoAvQDIQQgBkEBRg0CIAIoAvADIQcgAkHoA2oiCyANQRBqEM4BIAIoAuwDIgEgAigC6AMiCUGAgICAeEYNCxogAkHoCWogAkGIBGooAgA2AgAgAkHgCWogAkGABGoiEikCADcDACACIAL9AALwA/0LA9AJIAZBAkYNASALIA1BIGoQtwEgAigC7AMhBSACKALoAyIUQYCAgIB4Rg0KIAIoAvgDIREgAigC9AMhDAJAAn8CQAJAIAZBA0cEQCACKAL8AyEZIAIoAvADIRogCyANQTBqELMBIAIoAuwDIg8gAigC6AMiCkGAgICAeEYNAxogAkG4BmogAkGQBGooAgA2AgAgAkGoBmogEv0AAgD9CwMAIAIgAv0AAvAD/QsDmAYgBkEERg0BQYCAgIB4IQ4CQAJAQRUgDUFAayIQKAIAIhNBgICAgHhzIBNBAE4bQRBrDgMGAAYBCyANKAJEIRALIAJB6ANqIBAQmwEgAigC7AMhECACKALoAyIOQYGAgIB4Rg0CIAJBgApqIAJBjARqKAIANgIAIAIgAv0AAvwD/QsD8AkgDkGCgICAeEYNAiACKAL4AyEXIAIoAvQDIRMgAigC8AMhGAwEC0EDQfT/wABBgP3AABDbBgwCC0EEQfT/wABBgP3AABDbBiEQCyAKBEAgDyAKQQEQogcLIBALIQ8gFARAIAUgFEEBEKIHCyAMQYCAgIB4ckGAgICAeEcEQCARIAxBARCiBwsgDyEFDAsLIAJBsAhqIg0gAkGACmooAgA2AgAgAkGQCWoiHCACQbgJav0AAwD9CwMAIAJBoAlqIh8gAkHICWooAgA2AgAgAkH4CGoiCyACQegJaigCADYCACACQfAIaiIgIAJB4AlqKQMANwMAIAIgAv0AA/AJ/QsDoAggAiAC/QADqAn9CwOACSACIAL9AAPQCf0LA+AIIAJB2AhqIhIgAkG4BmooAgA2AgAgAkHICGoiFSACQagGav0AAwD9CwMAIAIgAv0AA5gG/QsDuAggAiAWNgLoBiACIAQ2AuQGIAIgBzYC4AYgAiADNgLcBiACIAg2AtgGIAJBjAdqIB8oAgA2AgAgAkH8BmogHP0AAwD9CwIAIAIgAv0AA4AJ/QsC7AYgAiABNgKUByACIAk2ApAHIAJBsAdqIAsoAgA2AgAgAkGoB2ogICkDADcCACACIAL9AAPgCP0LApgHIAIgDzYC0AcgAiAKNgLMByACIBk2AsgHIAIgETYCxAcgAiAMNgLAByACIBo2ArwHIAIgBTYCuAcgAiAUNgK0ByACQfQHaiASKAIANgIAIAJB5AdqIBX9AAMA/QsCACACIAL9AAO4CP0LAtQHIAIgFzYCiAggAiATNgKECCACIBg2AoAIIAIgEDYC/AcgAiAONgL4ByACQZwIaiANKAIANgIAIAIgAv0AA6AI/QsCjAggBkEFRwRAIAJBBTYC6AMgBkH7////AGpB/////wBxQQVqIAJB6ANqQeiVwQAQ2wYhASACQdgGahDIAkGAgICAeCEIDA4LIAJBiAtqIAJB4AZqIgZBIGr9AAIA/QsDACACQfgKaiAGQRBq/QACAP0LAwAgAkHQCmogAkHoCGr9AAMA/QsDACACQeAKaiALKAIANgIAIAJBwApqIAJBtAdqIgdBEGopAgA3AwAgAkGYCmogFf0AAwD9CwMAIAJBqApqIBIoAgA2AgAgAiACKQPgCDcDyAogAiAC/QADuAj9CwOICiACIAb9AAIA/QsD6AogAiAH/QACAP0LA7AKIAJBqAtqIA0oAgA2AgAgAiAC/QADoAj9CwOYCyABIQcgAyEBDA0LIAIoAuADIgFFBEBBgYCAgHghDkGAgICAeCEJQYCAgIB4IQxBgICAgHghCgwFCyABQQV0IRQgAkHsBmohCCACQeAGaiEDQQAhC0GAgICAeCEFQYCAgIB4IQlBgICAgHghDEGAgICAeCEKQYGAgIB4IQ4DQAJAAkACQAJAAkACQAJAAkBBFSALIBJqIgEoAgAiBEGAgICAeHMgBEEAThtBAWsODwEAAAIAAAAAAAAAAwQFBgALIAEgAkGACWpBpOTAABCVCCEEIAJBAToA2AYgAiAENgLcBgwGCyACQQA6ANgGIAJBBSABQQRqLQAAIgQgBEEFTxs6ANkGDAULIAJBADoA2AYgAkIFIAFBCGopAwAiLyAvQgVaGzwA2QYMBAsgAkHYBmogAUEIaigCACABQQxqKAIAEOIGDAMLIAJB2AZqIAFBBGooAgAgAUEIaigCABDiBgwCCyACQdgGaiABQQhqKAIAIAFBDGooAgAQpQUMAQsgAkHYBmogAUEEaigCACABQQhqKAIAEKUFCyACLQDYBkEBRgRAIAIoAtwGIQFBAQwHCyABQRBqIQQCQAJAAkACQAJAAkAgAi0A2QYOBQABAgMEBQsgBUGAgICAeEcEQEG8/8AAQQUQnwchAUEBDAwLIAJB2AZqIAQQsAEgAigC3AYhASACKALYBiIFQYCAgIB4RgRAQYCAgIB4IQVBAQwMCyACQagGaiAIQRBq/QACAP0LAwAgAkG4BmogCEEgaigCADYCACACIAj9AAIA/QsDmAYgAigC6AYhFSACKALkBiENIAIoAuAGIR8gASEGDAQLIAlBgICAgHhHBEBBwf/AAEEGEJ8HIQFBAQwLCyACQdgGaiAEEM4BIAIoAtwGIQEgAigC2AYiCUGAgICAeEYEQEGAgICAeCEJQQEMCwsgAkHACWogA0EYaigCADYCACACQbgJaiADQRBqKQIANwMAIAIgA/0AAgD9CwOoCSABIQcMAwsgDEGAgICAeEcEQEHH/8AAQQUQnwchAUEBDAoLIAJB2AZqIAQQtwEgAigC3AYhASACKALYBiIMQYCAgIB4RgRAQYCAgIB4IQxBAQwKCyACKALsBiEgIAIoAugGIRwgAigC5AYhGiACKALgBiEZIAEhFgwCCyAKQYCAgIB4RwRAQcz/wABBAxCfByEBQQEMCQsgAkHYBmogBBCzASACKALcBiEBIAIoAtgGIgpBgICAgHhGBEBBgICAgHghCkEBDAkLIAJBiARqIANBIGooAgA2AgAgAkH4A2ogA0EQav0AAgD9CwMAIAIgA/0AAgD9CwPoAyABIQ8MAQsgDkGBgICAeEcEQEEBIQRBz//AAEEDEJ8HIQFBASESQQEhCwwKCwJ/AkACQAJAQRUgBCgCACIOQYCAgIB4cyAOQQBOG0EQaw4DAgACAQsgAUEUaigCACEECyACQdgGaiAEEJsBIAIoAtwGIhAgAigC2AYiDkGBgICAeEcNARpBASEEIBAhAUEBIRJBASELDAwLQYCAgIB4IQ4gAigC3AYLIRAgAkHICGogCEEQaigCADYCACACIAj9AAIA/QsDuAggAigC6AYhFyACKALkBiETIAIoAuAGIRgLIAtBIGoiCyAURw0ACwwDC0ECQfT/wABBgP3AABDbBiEFDAgLQQFB9P/AAEGA/cAAENsGDAgLQQBB9P/AAEGA/cAAENsGIQEMCAsgBUGAgICAeEYNACACQYwHaiACQbgGaigCADYCACACQfwGaiACQagGav0AAwD9CwIAIAIgAv0AA5gG/QsC7AYgAiAVNgLoBiACIA02AuQGIAIgHzYC4AYgAiAGNgLcBiACIAU2AtgGAkACQAJAAkACQAJAIAlBgICAgHhGIhJFBEAgDEGAgICAeEYiCw0BIAIgIDYClAkgAiAcNgKQCSACIBo2AowJIAIgGTYCiAkgAiAWNgKECSACIAw2AoAJIApBgICAgHhGDQIgAkHgBmohASAOQYGAgIB4Rw0DQYCAgIB4IQ4MBAtBASELQcH/wABBBhCcByEBDAULQcf/wABBBRCcByEBDAMLQcz/wABBAxCcByEBIAJBgAlqEOAFDAILIAJBqAtqIAJByAhqKAIANgIAIAIgAv0AA7gI/QsDmAsLIAJBiAtqIAFBIGr9AAIA/QsDACACQfgKaiABQRBq/QACAP0LAwAgAkHQCmogAkGwCWr9AAMA/QsDACACQeAKaiACQcAJaigCADYCACACQcAKaiACQZAJaikCADcDACACQZgKaiACQfgDav0AAwD9CwMAIAJBqApqIAJBiARqKAIANgIAIAIgAikDqAk3A8gKIAIgAv0AAoAJ/QsDsAogAiAC/QAD6AP9CwOICiACIAH9AAIA/QsD6AogBiEBIAUhCAwKCyAJRQ0AIAcgCUEBEKIHCyACQdgGahDmBUEADAILQYCAgIB4IQVBvP/AAEEFEJwHIQFBAQshC0EBIRJBAQshBCAOQYGAgIB4Rg0BCyAOQYCAgIB4Rg0AIA4EQCAQIA5BARCiBwsgE0UNACAXIBNBARCiBwsCQCAKQYCAgIB4ckGAgICAeEYNAAJAIA9BBGsoAgAiA0F4cSIIQQRBCCADQQNxIgMbIApqTwRAIANBACAIIApBJ2pLGw0BIA8QogIMAgsMDAsMDAsCQCAMQYCAgIB4RyALcUUNAAJAIAwEQCAWQQRrKAIAIgNBeHEiCEEEQQggA0EDcSIDGyAMakkNDSADQQAgCCAMQSdqSxsNASAWEKICCyAaQYCAgIB4ckGAgICAeEYNASAcIBpBARCiBwwBCwwMCwJAIAlB/////wdxQQBHIBJxRQ0AAkAgB0EEaygCACIDQXhxIghBBEEIIANBA3EiAxsgCWpPBEAgA0EAIAggCUEnaksbDQEgBxCiAgwCCwwMCwwMC0GAgICAeCEIAkAgBUGAgICAeEcgBHFFDQAgBQRAIAZBBGsoAgAiA0F4cSIEQQRBCCADQQNxIgMbIAVqSQ0MIANBACAEIAVBJ2pLGw0NIAYQogILIA1FDQAgFUEEaygCACIDQXhxIgZBBEEIIANBA3EiAxsgDWpJDQsgA0EAIAYgDUEnaksbRQRAIBUQogIMBQtBjI3IAEEuQbyNyAAQ6wcMCQsMAwsgCQRAIAEgCUEBEKIHCyAFCyEBIAgEQCADQQRrKAIAIgZBeHEiBUEEQQggBkEDcSIGGyAIakkNCSAGQQAgBSAIQSdqSxsNCiADEKICCyAERQ0AIBZBBGsoAgAiA0F4cSIGQQRBCCADQQNxIgMbIARqSQ0IIANBACAGIARBJ2pLGw0JIBYQogILIAJBhAtqIAJBkAlq/QADAP0LAgAgAkGUC2ogAkGgCWooAgA2AgAgAkHQCmogAkHoCGr9AAMA/QsDACACQeAKaiACQfgIaigCADYCACACQagKaiACQdgIaigCADYCACACQZgKaiACQcgIav0AAwD9CwMAIAIgAv0AA4AJ/QsC9AogAiACKQPgCDcDyAogAiAC/QADuAj9CwOICiACQagLaiACQbAIaigCADYCACACIAL9AAOgCP0LA5gLQYCAgIB4IQgLIAhBgICAgHhHDQILIAJBgYCAgHg2AtAEIAIgATYC1AQCQAJAAkACQCACQdAEaiIBKAIAQYCAgIB4aw4CAAIBCyABQQRqEIUCDAILIAEQyAIMAQsgAUEEahCxBAsjAEEQayIDJABBOhBxIgFFBEAACyABQThqQbDYwQAvAAA7AAAgAUEwakGo2MEAKQAANwAAIAFBIGpBmNjBAP0AAAD9CwAAIAFBEGpBiNjBAP0AAAD9CwAAIAFB+NfBAP0AAAD9CwAAIANBOjYCDCADIAE2AgggA0E6NgIEIANBBGoQugEgA0EQaiQAIRIgAkHYA2oQ/gILIAAgEjYCBCAAQYGAgIB4NgIAIABBCGogAkGYAmpBwAH8CgAADAMLIAJB+ARqIAJBiAtq/QADAP0LAgAgAkHoBGogAkH4Cmr9AAMA/QsCACACQZgFaiACQdAKav0AAwD9CwIAIAJBqAVqIAJB4ApqKAIANgIAIAJBvAVqIAJBwApqKQMANwIAIAJB3AVqIAJBmApq/QADAP0LAgAgAkHsBWogAkGoCmooAgA2AgAgAiAC/QAD6Ar9CwLYBCACIAIpA8gKNwKQBSACIAL9AAOwCv0LAqwFIAIgAv0AA4gK/QsCzAUgAkGUBmogAkGoC2ooAgA2AgAgAiAJNgKIBSACIAc2AowFIAIgCjYCxAUgAiAPNgLIBSACIA42AvAFIAIgEDYC9AUgAiAYNgL4BSACIBM2AvwFIAIgFzYCgAYgAiAC/QADmAv9CwKEBiACQZgCaiACQdgEakHAAfwKAAALIAJB2ANqEP4CIAIgATYCVCACIAg2AlAgAkHYAGogAkGYAmpBwAH8CgAAAkAgAigCSCIBIAIoAkQiA0kEQCACQdQAaiEHIAIoAkAhBgNAIAEgBmotAABBCWsiBUEXS0EBIAV0QZOAgARxRXINAiADIAFBAWoiAUcNAAsgAiADNgJICyAAIAJB0ABqQcgB/AoAAAwCCyACIAE2AkggAkEIaiAGIAMgAUEBaiIBIAMgASADSRsQ+QEgAigCDCEDIAIoAgghBkEUEHEiAUUNACABIAY2AgwgAUEWNgIAIAAgATYCBCAAQYGAgIB4NgIAIAEgAzYCECAIQYCAgIB4RgRAIAcQhQIMAgsgAkHQAGoQyAIMAQsACwJAIAIoAjQiAARAIAIoAjgiAUEEaygCACIDQXhxIgZBBEEIIANBA3EiAxsgAGpJDQIgA0EAIAYgAEEnaksbDQEgARCiAgsgAkGwC2okAA8LDAELQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC4s9Agh+F38jAEGAAWsiDSQAAkACQAJAAkAgASkDCCIFUEUEQCABKAIQIhUoAgQiDyAVKQMIIgYgD60iBCAEIAZWG6ciDEcEQCAVKAIAIAxqLQAAIR4LIAEgBSAMIA9HIgytIgR9NwMIIBUgBCAGfDcDCCAMDQELQaiQyAApAwAiBEL/AYNCBFENACAAIAQ8AAggAEEAOgAEIABBATYCACAAQQ5qIARCMIg9AQAgACAEQhCIPgEKIAAgBEIIiDwACQwBCwJAAkACQAJAAkACQCAeQQR2QQNxDgIBAAILQQEhIQsCQAJAAkACQAJAAkAgHkEDcQ4CAQIACyAAQQE2AgAgAEEHOgAEDAkLIANB//8DcSACQf//A3FsIhVBAEgNAyAVRQRAQQAhFUEBIQIMCAsgFRBxIgJFDQEgAkEEay0AAEEDcUUgFUVyRQRAIAJBACAV/AsACyABKQMIIQcgASgCECESIAIhECAVIQMDQAJAIAdQDQAgEikDCCIFIBIoAgQiD60iBCAEIAVWG6ciGiASKAIAaiEcAkAgD0L/////DyAFIAVC/////w9aG6drIgxBACAMIA9NGyIbIAcgA60iBCAEIAdWG6ciDCAMIBtLGyIMQQFGBEAgECAcLQAAOgAADAELIAxFDQAgECAcIAz8CgAACyABIAcgDK0iBH0iBzcDCCASIAQgBXw3AwggDyAaRg0AIAwgEGohECADIAxrIgMNAQwJCwtBqJDIACkDACIEQv8Bg0IEUQ0HIAAgBDcCCCAAQQA6AAQgAEEBNgIAIAIgFUEBEKIHDAgLIA1BADoATCANIAE2AkggDUIANwNAIA1CADcDWCANQoCAgIAQNwNQIA1BBDoAMCANQQQ6ACAgDUEEOgAQIA1BBDoAACADQf//A3EgAkH//wNxbCIVQQJ0IhhBAEgNAUEBIRYCQCAYRQ0AIBgQcSIWRQ0BIBZBBGstAABBA3FFIBhFcg0AIBZBACAY/AsACyANQdAAaiEiIA0gAzsBXiANIAI7AVxBACEBAkADQAJAIAFB/wFxBEAgDSkDQCEJDAELQQ8hGUEBIQMgDSgCSCIRQQhqIhQpAwAiBVANCCARQRBqIg4oAgAiEygCACATKQMIIgggEygCBCIQrSIEIAQgCFYbpyIMaiEPAn4gBSAQQv////8PIAggCEL/////D1obp2siAUEAIAEgEE0brSIEIAQgBVYbQgdYBEAgDCAQRg0KQQghASAPMQAAIBFBCGoiDCAFQgF9NwMAIBMgCEIBfDcDCCANKQNAhCEJIAwpAwAiBlANAiAOKAIAIgwoAgQiAyAMKQMIIgUgA60iBCAEIAVWG6ciA0YNAiAMKAIAIANqMQAAIBMgCEICfDcDCCAUIAZCAX03AwBCCIYgCYQhCUEQIQEgFCkDACIGUA0CIA4oAgAiDygCBCIMIA8pAwgiBSAMrSIEIAQgBVYbpyIMRg0CIA8oAgAgDGoxAAAgEyAIQgN8NwMIIBQgBkIBfTcDAEIQhiAJhCEJQRghASAUKQMAIgZQDQIgDigCACIPKAIEIgwgDykDCCIFIAytIgQgBCAFVhunIgxGDQIgDygCACAMajEAACATIAhCBHw3AwggFCAGQgF9NwMAQhiGIAmEIQlBICEBIBQpAwAiBlANAiAOKAIAIg8oAgQiDCAPKQMIIgUgDK0iBCAEIAVWG6ciDEYNAiAPKAIAIAxqMQAAIBMgCEIFfDcDCCAUIAZCAX03AwBCIIYgCYQhCUEoIQEgFCkDACIGUA0CIA4oAgAiDygCBCIMIA8pAwgiBSAMrSIEIAQgBVYbpyIMRg0CIA8oAgAgDGoxAAAgEyAIQgZ8NwMIIBQgBkIBfTcDAEIohiAJhCEJQTAhASAUKQMAIgZQDQIgDigCACIPKAIEIgwgDykDCCIFIAytIgQgBCAFVhunIgxGDQIgDygCACAMajEAACATIAhCB3w3AwggFCAGQgF9NwMAQjCGIAmEDAELIA8pAAAgEyAIQgd8NwMIIBQgBUIHfTcDACANKQNAhAshCUE4IQELIA0gAUEBayIMOgBMIA0gCUIBiCIHNwNAAkACQAJAIAlCAYNQRQRAAkAgAUH/AXFBAksEQCAMIQEMAQtBDyEZIA0oAkgiA0EIaiIUKQMAIgZQDQsgA0EQaiIOKAIAIhMoAgAgEykDCCILIBMoAgQiA60iBCAEIAtWG6ciEGohEQJAAkAgBiADQv////8PIAsgC0L/////D1obp2siD0EAIAMgD08brSIEIAQgBlYbQgdYBEAgAyAQRg0OIBExAAAgEyALQgF8NwMIIBQgBkIBfTcDACAMrUL/AYMiCkIIfCEEIAqGIAeEIQcgFCkDACIIUA0CIA4oAgAiAygCBCIBIAMpAwgiBiABrSIFIAUgBlYbpyIBRg0CIAMoAgAgAWoxAAAgEyALQgJ8NwMIIBQgCEIBfTcDACAKQhB8IQUgBIYgB4QhByAUKQMAIghQBEAgBSEEDAMLIA4oAgAiAygCBCIBIAMpAwgiBiABrSIEIAQgBlYbpyIBRgRAIAUhBAwDCyADKAIAIAFqMQAAIBMgC0IDfDcDCCAUIAhCAX03AwAgCkIYfCEEIAWGIAeEIQcgFCkDACIIUA0CIA4oAgAiAygCBCIBIAMpAwgiBiABrSIFIAUgBlYbpyIBRg0CIAMoAgAgAWoxAAAgEyALQgR8NwMIIBQgCEIBfTcDACAKQiCEIQUgBIYgB4QhByAUKQMAIghQBEAgBSEEDAMLIA4oAgAiAygCBCIBIAMpAwgiBiABrSIEIAQgBlYbpyIBRgRAIAUhBAwDCyADKAIAIAFqMQAAIBMgC0IFfDcDCCAUIAhCAX03AwAgCkIofCEEIAWGIAeEIQcgFCkDACIJUA0CIA4oAgAiAygCBCIBIAMpAwgiCCABrSIGIAYgCFYbpyIBRiAFQi9Wcg0CIAMoAgAgAWoxAAAgEyALQgZ8NwMIIBQgCUIBfTcDACAKQjB8IQUgBIYgB4QhByAUKQMAIghQBEAgBSEEDAMLIA4oAgAiAygCBCIBIAMpAwgiBiABrSIEIAQgBlYbpyIBRw0BIAUhBAwCCyARKQAAIBMgBkHAACABa0H4AXFBA3atIgQgBCAGVhsiBCALfDcDCCAUIAYgBH03AwAgDEE4ciEBIAythiAHhCEHDAILIAMoAgAgAWoxAAAgEyALQgd8NwMIIBQgCEIBfTcDACAKQjiEIQQgBYYgB4QhBwsgDSAHNwNAIA0gBKciAToATCAcIQMgAUH/AXFBAkkNDAsgDSABQQJrOgBMIA0gB0ICiDcDQCANIAenQQNxIhxBBHRqIhMtAABBBEcEQEEQIRkMDAsgDSgCWCIBIA0oAlBGBEAgIkGI+8YAEKcGCyANKAJUIAFqIBw6AAAgDSABQQFqNgJYAkACQAJAAkACQAJAAkACQAJAIBxBAWsOAwEMAgALIA0tAEwiAUEDTwRAIA0pA0AhBwwEC0EPIRkgDSgCSCIDQQhqIg4pAwAiBVAEQCAaIQMMFAsgAa0hCSADQRBqIhAoAgAiESgCACARKQMIIgogESgCBCISrSIEIAQgClYbpyIMaiEPIAUgEkL/////DyAKIApC/////w9aG6drIgNBACADIBJNG60iBCAEIAVWG0IHVg0CIBohAyAMIBJGDRMgDzEAACEEIA4gBUIBfTcDACARIApCAXw3AwggCUIIhCELIA0pA0AgBCAJhoQhBwJAIA4pAwAiBlANACAQKAIAIgwoAgQiASAMKQMIIgUgAa0iBCAEIAVWG6ciAUYNACAMKAIAIAFqMQAAIBEgCkICfDcDCCAOIAZCAX03AwAgCUIQhCEIIAuGIAeEIQcgDikDACIGUARAIAinIQEMBQsgECgCACIMKAIEIgEgDCkDCCIFIAGtIgQgBCAFVhunIgFGBEAgCKchAQwFCyAMKAIAIAFqMQAAIBEgCkIDfDcDCCAOIAZCAX03AwAgCUIYhCELIAiGIAeEIQcgDikDACIGUA0AIBAoAgAiDCgCBCIBIAwpAwgiBSABrSIEIAQgBVYbpyIBRiAIQi9Wcg0AIAwoAgAgAWoxAAAgESAKQgR8NwMIIA4gBkIBfTcDACAJQiCEIQggC4YgB4QhByAOKQMAIgZQBEAgCKchAQwFCyAQKAIAIgwoAgQiASAMKQMIIgUgAa0iBCAEIAVWG6ciAUYEQCAIpyEBDAULIAtCL1YEQCAIpyEBDAULIAwoAgAgAWoxAAAgESAKQgV8NwMIIA4gBkIBfTcDACAJQiiEIQsgCIYgB4QhByAOKQMAIgZQDQAgECgCACIMKAIEIgEgDCkDCCIFIAGtIgQgBCAFVhunIgFGIAhCL1ZyDQAgDCgCACABajEAACARIApCBnw3AwggDiAGQgF9NwMAIAlCMIQhCCALhiAHhCEHIA4pAwAiBlAEQCAIpyEBDAULIBAoAgAiDCgCBCIBIAwpAwgiBSABrSIEIAQgBVYbpyIBRgRAIAinIQEMBQsgC0IvVgRAIAinIQEMBQsgDCgCACABajEAACARIApCB3w3AwggDiAGQgF9NwMAIAlCOIQhCyAIhiAHhCEHCyALpyEBDAMLIA0tAEwiAUEDTwRAIA0pA0AhBwwFC0EPIRkgDSgCSCIDQQhqIg4pAwAiBVAEQCAbIQMMEwsgAa0hCSADQRBqIhAoAgAiESgCACARKQMIIgogESgCBCISrSIEIAQgClYbpyIMaiEPIAUgEkL/////DyAKIApC/////w9aG6drIgNBACADIBJNG60iBCAEIAVWG0IHVg0DIBshAyAMIBJGDRIgDzEAACEEIA4gBUIBfTcDACARIApCAXw3AwggCUIIhCELIA0pA0AgBCAJhoQhBwJAIA4pAwAiBlANACAQKAIAIgwoAgQiASAMKQMIIgUgAa0iBCAEIAVWG6ciAUYNACAMKAIAIAFqMQAAIBEgCkICfDcDCCAOIAZCAX03AwAgCUIQhCEIIAuGIAeEIQcgDikDACIGUARAIAinIQEMBgsgECgCACIMKAIEIgEgDCkDCCIFIAGtIgQgBCAFVhunIgFGBEAgCKchAQwGCyAMKAIAIAFqMQAAIBEgCkIDfDcDCCAOIAZCAX03AwAgCUIYhCELIAiGIAeEIQcgDikDACIGUA0AIBAoAgAiDCgCBCIBIAwpAwgiBSABrSIEIAQgBVYbpyIBRiAIQi9Wcg0AIAwoAgAgAWoxAAAgESAKQgR8NwMIIA4gBkIBfTcDACAJQiCEIQggC4YgB4QhByAOKQMAIgZQBEAgCKchAQwGCyAQKAIAIgwoAgQiASAMKQMIIgUgAa0iBCAEIAVWG6ciAUYEQCAIpyEBDAYLIAtCL1YEQCAIpyEBDAYLIAwoAgAgAWoxAAAgESAKQgV8NwMIIA4gBkIBfTcDACAJQiiEIQsgCIYgB4QhByAOKQMAIgZQDQAgECgCACIMKAIEIgEgDCkDCCIFIAGtIgQgBCAFVhunIgFGIAhCL1ZyDQAgDCgCACABajEAACARIApCBnw3AwggDiAGQgF9NwMAIAlCMIQhCCALhiAHhCEHIA4pAwAiBlAEQCAIpyEBDAYLIBAoAgAiDCgCBCIBIAwpAwgiBSABrSIEIAQgBVYbpyIBRgRAIAinIQEMBgsgC0IvVgRAIAinIQEMBgsgDCgCACABajEAACARIApCB3w3AwggDiAGQgF9NwMAIAlCOIQhCyAIhiAHhCEHCyALpyEBDAQLIA0tAEwiAUEITwRAIA0pA0AhBwwGC0EPIRkgDSgCSCIMQQhqIg4pAwAiBVANESABrSEJIAxBEGoiECgCACIRKAIAIBEpAwgiCiARKAIEIhKtIgQgBCAKVhunIgxqIQ8gBSASQv////8PIAogCkL/////D1obp2siA0EAIAMgEk0brSIEIAQgBVYbQgdWDQQgDCASRg0RIA8xAAAhBCAOIAVCAX03AwAgESAKQgF8NwMIIAlCCIQhCyANKQNAIAQgCYaEIQcCQCAOKQMAIgZQDQAgECgCACIDKAIEIgEgAykDCCIFIAGtIgQgBCAFVhunIgFGDQAgAygCACABajEAACARIApCAnw3AwggDiAGQgF9NwMAIAlCEIQhCCALhiAHhCEHIA4pAwAiBlAEQCAIpyEBDAcLIBAoAgAiAygCBCIBIAMpAwgiBSABrSIEIAQgBVYbpyIBRgRAIAinIQEMBwsgAygCACABajEAACARIApCA3w3AwggDiAGQgF9NwMAIAlCGIQhCyAIhiAHhCEHIA4pAwAiBlANACAQKAIAIgMoAgQiASADKQMIIgUgAa0iBCAEIAVWG6ciAUYgCEIvVnINACADKAIAIAFqMQAAIBEgCkIEfDcDCCAOIAZCAX03AwAgCUIghCEIIAuGIAeEIQcgDikDACIGUARAIAinIQEMBwsgECgCACIDKAIEIgEgAykDCCIFIAGtIgQgBCAFVhunIgFGBEAgCKchAQwHCyALQi9WBEAgCKchAQwHCyADKAIAIAFqMQAAIBEgCkIFfDcDCCAOIAZCAX03AwAgCUIohCELIAiGIAeEIQcgDikDACIGUA0AIBAoAgAiAygCBCIBIAMpAwgiBSABrSIEIAQgBVYbpyIBRiAIQi9Wcg0AIAMoAgAgAWoxAAAgESAKQgZ8NwMIIA4gBkIBfTcDACAJQjCEIQggC4YgB4QhByAOKQMAIgZQBEAgCKchAQwHCyAQKAIAIgMoAgQiASADKQMIIgUgAa0iBCAEIAVWG6ciAUYEQCAIpyEBDAcLIAtCL1YEQCAIpyEBDAcLIAMoAgAgAWoxAAAgESAKQgd8NwMIIA4gBkIBfTcDACAJQjiEIQsgCIYgB4QhBwsgC6chAQwFCyAPKQAAIQQgESAKQgd8NwMIIA4gBUIHfTcDACABQThyIQEgDSkDQCAEIAmGhCEHCyANIAFBA2s6AEwgDSAHQgOINwNAQX8gB6dBB3EiGkECaiIfdEF/cyIBIAJB//8DcWogH3YiDCABIA0vAV5qIB92IgFsIg9BAnQhFwJAIA9FBEBBASESDAELIBcQcSISRQ0LIBJBBGstAABBA3FFIBdFcg0AIBJBACAX/AsACyANQewAaiANIAwgAUEAIBIgFxA8IA0tAGwiGUEdRg0HIA1B6ABqIA1B+ABqKAIANgIAIA0gDSkCcDcDYCANLwFuIR0gDS0AbSEDIA9FDQ8gEiAXQQEQogcMDwsgDykAACEEIBEgCkIHfDcDCCAOIAVCB303AwAgAUE4ciEBIA0pA0AgBCAJhoQhBwsgDSABQQNrOgBMIA0gB0IDiDcDQEF/IAenQQdxIhtBAmoiH3RBf3MiASACQf//A3FqIB92IgwgASANLwFeaiAfdiIBbCIPQQJ0IRcCQCAPRQRAQQEhEgwBCyAXEHEiEkUNCSASQQRrLQAAQQNxRSAXRXINACASQQAgF/wLAAsgDUHsAGogDSAMIAFBACASIBcQPCANLQBsIhlBHUYNBSANQegAaiANQfgAaigCADYCACANIA0pAnA3A2AgDS8BbiEdIA0tAG0hAyAPRQ0NIBIgF0EBEKIHDA0LIA8pAAAhBCARIApCB3w3AwggDiAFQgd9NwMAIAFBOHIhASANKQNAIAQgCYaEIQcLIA0gAUEIazoATCANIAdCCIg3A0AgB6ciDEH/AXEiHUEBaiIgQQJ0IhcQcSISRQ0GIBJBBGsiAy0AAEEDcUUgF0VyRQRAIBJBACAX/AsACyANQewAaiANICBBAUEAIBIgFxA8IA0tAGwiGUEdRwRAIA1B6ABqIA1B+ABqKAIANgIAIA0gDSkCcDcDYCANLwFuIR0gDS0AbSEDIBIgF0EBEKIHDAwLIAJB//8DcUEBAn9BAyAdQQJJDQAaQQIgHUEESQ0AGiAdQRBJCyIBdGpBAWsgAXYiAkH//wNNBEAgHUUEQEEBISBBACEdDAULQQQhASAMQQJ0QfwHcSIOQQFrIgwgFyAMIBdJGyIPQQRPBEAgD0EBaiIMQQNxIgFBBCABGyIBIA9Bf3NqIRAgDCABa0EEaiEBIBIhDANAIAxBBGoiDyAM/VwAACAP/VwAAP1u/VoAAAAgDyEMIBBBBGoiEA0ACwsgDkEIaiERIA5BBGohEANAIAEgEUYNAyABIANqIg9BBGoiDCAPLQAAIAwtAABqOgAAIAFBAWoiASAQRw0ACwwEC0HY5sgAQSsgDUH/AGpBmPvGAEGo+8YAEOAGAAsgGCANLwFeIgEgAkH//wNxbEECdCIQTwRAIA1B7ABqIA0gAiABQQEgFiAQEDwgDS0AbCIZQR1HBEAMAwsgDSgCWCIBBEAgFkEEaiEbIA0oAlQiDyABaiEDA0ACQAJAAkACQAJAAkACQAJAIANBAWsiAy0AACIBQQNNBEAgDSABQQR0aiIMLQAAQQFrDgQEBQIBAwsgAUEEQaj6xgAQjAcAC0G4+sYAEN0JAAsgFiAYIA0vAVwiAiANLwFeIgEgDC8BAiAMKAIIIAwoAgwQSiABIAJsQQJ0IRAMBQsgECAYSw0DIA1B7ABqIBYgECACIA0vAV4gDC0AASAMKAIIIAwoAgwQTiANLQBsIhlBHUYNBAwJCyAQIBhLDQEgFiAQIAIgDC0AASAMKAIIIAwoAgwQlwIMAwsgECAYTQRAIBBBfHEiDEUNAyAQQQRrIhpBBHEEfyAWBSAWIBYtAAEiASAWLQAAajoAACAWIAEgFi0AAmo6AAIgGkEESQ0EIAxBBGshDCAbCyEBA0AgASABQQFqLQAAIhwgAS0AAGo6AAAgAUECaiIaIBwgGi0AAGo6AAAgAUEEaiIaIAFBBWotAAAiHCAaLQAAajoAACABQQZqIhogHCAaLQAAajoAACABQQhqIQEgDEEIayIMDQALDAMLQQAgECAYQej6xgAQ6gcAC0EAIBAgGEHY+sYAEOoHAAtBACAQIBhByPrGABDqBwALIAMgD0cNAAsLIBVBAE4EQEEBIQICQCAVRQ0AIBUQcSICRQ0IIAJBBGstAABBA3FFIBVFcg0AIAJBACAV/AsACwJAIBUgFUH/////A3EiASABIBVLGyIDRQ0AQQAhGwJAIANBEUkNACACIBYgA0ECdGpBAmtJIBZBAWoiASACIANqSXENACACIQwgAyADQQ9xIhtBECAbG2siGyEZA0AgDCAB/QAAACAB/QAAEP0NAAQIDBAUGBwAAAAAAAAAACAB/QAAICAB/QAAMP0NAAAAAAAAAAAABAgMEBQYHP0NAAECAwQFBgcYGRobHB0eH/0LAAAgAUFAayEBIAxBEGohDCAZQRBrIhkNAAsLIAMgGyIMa0EDcSIBBEAgAUECdCEZIAxBAnQgFmpBAWohAQNAIAIgDGogAS0AADoAACABQQRqIQEgDEEBaiEMIBlBBGsiGQ0ACwsgGyADa0F8Sw0AIBYgDEECdGohASACIRsDQCAMIBtqIhogAUEBai0AADoAACAaQQFqIAFBBWotAAA6AAAgGkECaiABQQlqLQAAOgAAIBpBA2ogAUENai0AADoAACABQRBqIQEgG0EEaiEbIAwgA0EEayIDRw0ACwsgGARAIBYgGEEBEKIHCyANEPcDIA0oAlAiAUUNDSANKAJUIAFBARCiBwwNC0GI+sYAEP8HDAYLQQAgECAYQfj6xgAQ6gcACyABQQRrIBdBuPvGABCMBwALIA1B6ABqIA1B+ABqKAIANgIAIA0gDSkCcDcDYCANLwFuIR0gDS0AbSEDDAgLAkACQCATLQAAIgFBBEYgAUECRnINACATKAIEIg9FDQAgEygCCCIMQQRrKAIAIgFBeHEiA0EEQQggAUEDcSIBGyAPakkNASABQQAgAyAPQSdqSxsNAyAMEKICCyATIBc2AgwgEyASNgIIIBMgFzYCBCATICA7AQIgEyAfOgABIBMgHDoAACANLQBMIQEMAQsLDAkLDAkLAAtB+PnGABD/BwALQej5xgAQ/wcACyAAQQE2AgAgAEEGOgAEDAMLIBwhAwsgACAdOwEGIAAgAzoABSAAIBk6AAQgACANKQNgNwIIIABBATYCACAAQRBqIA1B6ABqKAIANgIAAkAgGARAIBZBBGsoAgAiAEF4cSIBQQRBCCAAQQNxIgAbIBhqSQ0EIABBACABIBhBJ2pLGw0FIBYQogILIA0Q9wMgDSgCUCIDRQ0CIA0oAlQiAkEEaygCACIAQXhxIgFBBEEIIABBA3EiABsgA2pJDQMgAEEAIAEgA0EnaksbDQAgAhCiAgwCCwwDCyAAIB5BAnZBA3E6ABEgACAhOgAQIAAgFTYCDCAAIAI2AgggACAVNgIEIABBADYCAAsgDUGAAWokAA8LQcyMyABBLkH8jMgAEOsHAAtBjI3IAEEuQbyNyAAQ6wcAC545Azd/A30BfiMAQYABayIBJAACQAJAAkAgACgCaCICQf8fTQRAIAFBADYCQCABQQE2AjQgAUHwssEANgIwIAFCBDcCOCABQTBqEJIHIQMMAQsgASAAKAJkIgMtAAAiBDoABiABIAMtAAEiBjoAByAEQQEgBhsEQCABQQI2AjQgAUHAssEANgIwIAFCAjcCPCABQoCAgIDwBCI7IAFBB2qthDcDECABIDsgAUEGaq2ENwMIIAEgAUEIajYCOCABQTBqEJIHIQMMAQsgA0EEaigAACEqIAMoABAhDSABIAMvABQiBDYCHCAEQQNPBEAgAUEBNgI0IAFBmLLBADYCMCABQgE3AjwgASABQRxqrUKAgICAEIQ3AwggASABQQhqNgI4IAFBMGoQkgchAwwBCyABIANBJGooAAAiBkGAgID+eyAGQf////8HcRs2AiAgASADKAAoIgZBgICA/gMgBkH/////B3EbNgIkIARBKGxBrKrBAGohECACQYAga0EKdkEBaiEUQQAhBEEAIQIgKkEKdEGAIGoiKyEhAkADQAJAIAQgKkcEQCAUIARBAWoiBEcNASABQQA2AkAgAUEBNgI0IAFB1LHBADYCMCABQgQ3AjggAUEwahCSByEDDAQLIAFBADoAOCABIAI2AjQgASANNgIwIAAgAUEwahDpASAqRQ0CQYAgISFBASEuAkADQCAhIgRBgAhqIiEgACgCaCIDSwRAIAFBADYCQCABQQE2AjQgAUHUscEANgIwIAFCBDcCOCABQTBqEJIHIQMMBgsgACgCZCIGIARqIgIoABgiEUUEQCAQKAIkIRELIAMgBEEkckkEQCABQQA2AkAgAUEBNgI0IAFByNvBADYCMCABQgQ3AjggAUEwahCSByEDDAYLIAMgBEEockkEQCABQQA2AkAgAUEBNgI0IAFByNvBADYCMCABQgQ3AjggAUEwahCSByEDDAYLIAMgBEEqckkEQCABQQA2AkAgAUEBNgI0IAFByNvBADYCMCABQgQ3AjggAUEwahCSByEDDAYLIAIoAAQhB0EAIQQgECgCCCAQKAIAIBAoAgRqaiACLwAoIiJBA00EfyAiQQJ0KAKkq0EFIAQLIBAoAhBsakEEaiI1rSAHrX4iO0IgiFBFBEAgAUEANgJAIAFBATYCNCABQdCrwQA2AjAgAUIENwI4IAFBMGoQkgchAwwGCwJAAkACQAJ/AkAgAyArIgQgAigAJCIwQQJ0IgkgAigADCINIAIvABRsamoiFCA7pyIIaiIrTwRAIAIqABAhOCACKAAIIS8gAigAACEHIAIoACAhHCANDQFBAAwCCyABQQA2AkAgAUEBNgI0IAFBmLHBADYCMCABQgQ3AjggAUEwahCSByEDDAoLIAQgCWoiAiANQQxsaiADSw0BIA1BA2whHiACIAZqCyEjIBQgK00EQAJAIAdBA2wiDUH/////A0sNACAHQQxsIgJB/f///wdPDQACQAJAAkACQAJAAn8gAkUEQEEEIRZBBCEXQQAMAQsgAhBxIhZFDQEgFkEEay0AAEEDcUUgAkVyRQRAIBZBACAC/AsACyACEHEiF0UNASAXQQRrLQAAQQNxRSACRXJFBEAgF0EAIAL8CwALIA0LISQgB0ECdCIOQf////8DSw0EIAdBBHQiA0H9////B08NBEEEIRhBACElQQAhJkEEIRUgAwRAIAMQcSIVRQ0BIBVBBGstAABBA3FFIANFckUEQCAVQQAgA/wLAAsgDiEmCyACBEAgAhBxIhhFDQEgGEEEay0AAEEDcUUgAkVyRQRAIBhBACAC/AsACyANISULIAdB/////wNLIA5B/f///wdPcg0DQQQhD0EAIR1BACEnQQQhGiAOBEAgDhBxIhpFDQEgGkEEay0AAEEDcUUgDkVyRQRAIBpBACAO/AsACyAHIScLAkACfwJAAkAgIkUEQEEAIRJBACEfQQQhCgwBCyAHQQlsIhJB/////wNLDQYgB0EkbCICQf3///8HTw0GQQQhCkEAIR8gAgRAIAIQcSIPRQ0FIA9BBGstAABBA3FFIAJFckUEQCAPQQAgAvwLAAsgEiEfCyAiQQFHDQELQQAhCUEAIShBBCEZQQAhG0EAIS1BAAwBCyAHQQ9sIglB/////wNLDQMgB0E8bCICQf3///8HTw0DQQQhGUEAISggAgRAIAIQcSIKRQ0DIApBBGstAABBA3FFIAJFckUEQCAKQQAgAvwLAAsgCSEdCyAiQQNJBEBBASEtQQAhG0EADAELIAdBFWwiG0H/////A0sNASAHQdQAbCICQf3///8HTw0BAn8gAkUEQEEADAELIAIQcSIZRQ0DIBlBBGstAABBA3FFIAJFckUEQCAZQQAgAvwLAAsgGwshKEEBIS1BAQshMSABKAIcBH0gOEMAAAA/lCARs5UFQwAAAAALITogB0UNCiAEIAZqITYgBiAUaiEMQQEhA0EAISAgGSERQQAhBCAcIgYgL2wiNyETA0AgAyEUIAEgBCA1bCIDNgIoAkAgBCA3TwRAIDBFBEAgBiECDAILIDAgBiAcayICQQAgAiAGTRsiAk0EQCAGIQIMAgsgNiACQQJ0aigCACATaiICIARLBEAgBiECDAILIAIhEyAGQQFqIgIhBgwBCyAvBEAgBCAvbiECDAELQfitwQAQgQgACwJAAkACQAJAAn0CQAJAIAEoAhxFBEAgA0F7TSADQQRqIAhNcQ0BIAFBADYCQCABQQE2AjQgAUHI28EANgIwIAFCBDcCOCABQTBqEJIHIQMMBAsgA0F9TSADQQJqIAhNcQ0BIAFBADYCQCABQQE2AjQgAUHI28EANgIwIAFCBDcCOCABQTBqEJIHIQMMAwsgAyAMaioAAAwBCyA6IAMgDGovAACzIBAoAiSzk5RDAAAAACE4AkAgI0UNACACQQNsIgMgHk8NACAjIANBAnRqKgIAITgLIDiSCyE4An0CQAJAAkAgDSAEQQNsIgNLBEAgFiADQQJ0IjJqIDg4AgAgASgCKCEFIAEoAhwNASAFQQRqIgtBe00gBUEIaiAITXENAiABQQA2AkAgAUEBNgI0IAFByNvBADYCMCABQgQ3AjggAUEwahCSByEDDAULIAMgDUGIrsEAEIwHAAsgBUECaiILQX1NIAVBBGogCE1xDQEgAUEANgJAIAFBATYCNCABQcjbwQA2AjAgAUIENwI4IAFBMGoQkgchAwwDCyALIAxqKgAADAELIDogCyAMai8AALMgECgCJLOTlEMAAAAAITgCQCAjRQ0AIAJBA2xBAWoiBSAeTw0AICMgBUECdGoqAgAhOAsgOJILITgCfQJAAkACQCANIANBAWoiBUsEQCAWIAVBAnQiM2ogODgCACABKAIoIQUgASgCHA0BIAVBCGoiAkF7TSAFQQxqIAhNcQ0CIAFBADYCQCABQQE2AjQgAUHI28EANgIwIAFCBDcCOCABQTBqEJIHIQMMBQsgBSANQZiuwQAQjAcACyAFQQRqIgtBfU0gBUEGaiAITXENASABQQA2AkAgAUEBNgI0IAFByNvBADYCMCABQgQ3AjggAUEwahCSByEDDAMLIAIgDGoqAAAMAQsgOiALIAxqLwAAsyAQKAIks5OUQwAAAAAhOAJAICNFDQAgAkEDbEECaiICIB5PDQAgIyACQQJ0aioCACE4CyA4kgshOAJAIA0gA0ECaiICSwRAIBYgAkECdCI0aiA4OAIAIAFBMGoiBSAMIAggASgCKCAQKAIUaiICIAEoAhwQuwQgASgCNCEDIAEoAjANAiAXIDJqIAM2AgAgBSAMIAhBAkEEIAEoAhwiAxsgAmogAxC7BCABKAI0IQMgASgCMA0CIBcgM2ogAzYCACAFIAwgCCACQQRBCCABKAIcIgIbaiACELsEIAEoAjQhAyABKAIwDQIgFyA0aiADNgIAIAUgDCAIIAEoAiggECgCGGoiCyABKAIcELsEIAEoAjQhAyABKAIwDQIgBSAMIAhBAkEEIAEoAhwiAhsgC2ogAhC7BCABKAI0IQIgASgCMEUNASACIQMMAgsgAiANQaiuwQAQjAcACyABQTBqIAwgCEEEQQggASgCHCIFGyALaiAFELsEIAEoAjQhBSABKAIwBEAgBSEDDAELIAFBMGogDCAIIAtBBkEMIAEoAhwiCxtqIAsQuwQgASgCNCELIAEoAjAEQCALIQMMAQsCQAJAAkACQAJAAkACQAJAAkACQCAOIARBAnQiKUsEQCAVIClBAnRqIAI2AgAgKUEBciICIA5PDQEgFSACQQJ0aiAFNgIAIClBAnIiAiAOTw0CIBUgAkECdGogCzYCACApQQNyIgIgDk8NAyAVIAJBAnRqIAM2AgAgASgCKCAQKAIcaiICIAhPDQQgGCAyaiACIAxqLQAAs0MAAH9DlTgCACACQQFqIgMgCE8NBSAYIDNqIAMgDGotAACzQwAAf0OVOAIAIAJBAmoiAyAITw0GIBggNGogAyAMai0AALNDAAB/Q5U4AgAgAkEDaiICIAhPDQcgBCAHTw0IIBogKWogAiAMai0AALNDAAB/Q5U4AgAgIkUNDiABIBAoAiA2AiwgASAINgJEIAEgDDYCQCABIBA2AjggASABQSRqNgJMIAEgAUEgajYCSCABIAFBHGo2AjwgASABQSxqNgI0IAEgAUEoajYCMCABQQhqIgUgAUEwaiILQQAQzQMgASgCDCEDIAEoAggNCyAEQQlsIgIgEk8NDSAPIAJBAnRqIAM2AgAgBSALQQMQzQMgASgCDCEDIAEoAggNCyASIAJBAWoiBU0EQCAFIQIMDgsgDyAFQQJ0aiADNgIAIAFBCGogAUEwakEGEM0DIAEoAgwhAyABKAIIDQsgEiACQQJqIgVNBEAgBSECDA4LIA8gBUECdGogAzYCACABQQhqIAFBMGpBARDNAyABKAIMIQMgASgCCA0LIBIgAkEDaiIFTQRAIAUhAgwOCyAPIAVBAnRqIAM2AgAgAUEIaiABQTBqQQQQzQMgASgCDCEDIAEoAggNCyASIAJBBGoiBU0EQCAFIQIMDgsgDyAFQQJ0aiADNgIAIAFBCGogAUEwakEHEM0DIAEoAgwhAyABKAIIDQsgEiACQQVqIgVNBEAgBSECDA4LIA8gBUECdGogAzYCACABQQhqIAFBMGpBAhDNAyABKAIMIQMgASgCCA0LIBIgAkEGaiIFTQRAIAUhAgwOCyAPIAVBAnRqIAM2AgAgAUEIaiABQTBqQQUQzQMgASgCDCEDIAEoAggNCyASIAJBB2oiBU0EQCAFIQIMDgsgDyAFQQJ0aiADNgIAIAFBCGogAUEwakEIEM0DIAEoAgwhAyABKAIIDQsgAkEIaiICIBJPDQ0gDyACQQJ0aiADNgIAIC0NCQwKCyApIA5BuK7BABCMBwALIAIgDkHIrsEAEIwHAAsgAiAOQdiuwQAQjAcACyACIA5B6K7BABCMBwALIAIgCEH4rsEAEIwHAAsgAyAIQYivwQAQjAcACyADIAhBmK/BABCMBwALIAIgCEGor8EAEIwHAAsgBCAHQbivwQAQjAcACyABQQhqIgIgAUEwaiIFQQkQzQMgASgCDCEDIAEoAggNASAEQQ9sIgQgCU8NAiAKIARBAnRqIAM2AgAgAiAFQQ4QzQMgASgCDCEDIAEoAggNASAJIARBAWoiAk0EQCACIQQMAwsgCiACQQJ0aiADNgIAIAFBCGogAUEwakETEM0DIAEoAgwhAyABKAIIDQEgCSAEQQJqIgJNBEAgAiEEDAMLIAogAkECdGogAzYCACABQQhqIAFBMGpBChDNAyABKAIMIQMgASgCCA0BIAkgBEEDaiICTQRAIAIhBAwDCyAKIAJBAnRqIAM2AgAgAUEIaiABQTBqQQ8QzQMgASgCDCEDIAEoAggNASAJIARBBGoiAk0EQCACIQQMAwsgCiACQQJ0aiADNgIAIAFBCGogAUEwakEUEM0DIAEoAgwhAyABKAIIDQEgCSAEQQVqIgJNBEAgAiEEDAMLIAogAkECdGogAzYCACABQQhqIAFBMGpBCxDNAyABKAIMIQMgASgCCA0BIAkgBEEGaiICTQRAIAIhBAwDCyAKIAJBAnRqIAM2AgAgAUEIaiABQTBqQRAQzQMgASgCDCEDIAEoAggNASAJIARBB2oiAk0EQCACIQQMAwsgCiACQQJ0aiADNgIAIAFBCGogAUEwakEVEM0DIAEoAgwhAyABKAIIDQEgCSAEQQhqIgJNBEAgAiEEDAMLIAogAkECdGogAzYCACABQQhqIAFBMGpBDBDNAyABKAIMIQMgASgCCA0BIAkgBEEJaiICTQRAIAIhBAwDCyAKIAJBAnRqIAM2AgAgAUEIaiABQTBqQREQzQMgASgCDCEDIAEoAggNASAJIARBCmoiAk0EQCACIQQMAwsgCiACQQJ0aiADNgIAIAFBCGogAUEwakEWEM0DIAEoAgwhAyABKAIIDQEgCSAEQQtqIgJNBEAgAiEEDAMLIAogAkECdGogAzYCACABQQhqIAFBMGpBDRDNAyABKAIMIQMgASgCCA0BIAkgBEEMaiICTQRAIAIhBAwDCyAKIAJBAnRqIAM2AgAgAUEIaiABQTBqQRIQzQMgASgCDCEDIAEoAggNASAJIARBDWoiAk0EQCACIQQMAwsgCiACQQJ0aiADNgIAIAFBCGogAUEwakEXEM0DIAEoAgwhAyABKAIIDQEgBEEOaiIEIAlPDQIgCiAEQQJ0aiADNgIACyAxRQ0DQQAhBCAgIQIDQCABQQhqIAFBMGogBEHIr8EAaigCABDNAyABKAIMIQMgASgCCA0BIAIgG0kEQCAEIBFqIAM2AgAgAkEBaiECIARBBGoiBEHUAEYNBQwBCwsgAiAbQZywwQAQjAcACwJAICgEQCAZQQRrKAIAIgBBeHEiBCAoQQJ0IgJBBEEIIABBA3EiABtqSQ0XIABBACAEIAJBJ2pLGw0YIBkQogILIB0EQCAKQQRrKAIAIgBBeHEiBCAdQQJ0IgJBBEEIIABBA3EiABtqSQ0XIABBACAEIAJBJ2pLGw0YIAoQogILIB8EQCAPQQRrKAIAIgBBeHEiBCAfQQJ0IgJBBEEIIABBA3EiABtqSQ0XIABBACAEIAJBJ2pLGw0YIA8QogILICcEQCAaQQRrKAIAIgBBeHEiBCAnQQJ0IgJBBEEIIABBA3EiABtqSQ0XIABBACAEIAJBJ2pLGw0YIBoQogILICUEQCAYQQRrKAIAIgBBeHEiBCAlQQJ0IgJBBEEIIABBA3EiABtqSQ0XIABBACAEIAJBJ2pLGw0YIBgQogILICYEQCAVQQRrKAIAIgBBeHEiBCAmQQJ0IgJBBEEIIABBA3EiABtySQ0XIABBACAEIAJBJ2pLGw0YIBUQogILICRFDRUgF0EEaygCACIAQXhxIgQgJEECdCICQQRBCCAAQQNxIgAbakkNFiAAQQAgBCACQSdqSxsNFyAXEKICICRFDRUgFkEEaygCACIAQXhxIgRBBEEIIABBA3EiABsgAmpJDRYgAEEAIAQgAkEnaksbDQAgFhCiAgwVCwwWCyAEIAlBrLDBABCMBwALIAIgEkG8sMEAEIwHAAsgEUHUAGohESAgQRVqISAgFCAHIBRLIgJqIQMgFCEEIAINAAsgByECICwhBAwJC0GorMEAEP8HCwALQZiswQAQ/wcAC0GIrMEAEP8HAAtB+KvBABD/BwALQeirwQAQ/wcAC0HYq8EAEP8HAAsgFCArIANBzLDBABDqBwALIAFBADYCQCABQQE2AjQgAUH4sMEANgIwIAFCBDcCOCABQTBqEJIHIQMMBwsCQAJAAkACQAJAAkACQAJAAkACQANAIAQgLGsiBkEDbCIgIA1NBEBBgIAEIAIgAkGAgARPGyIDQQNsIhQgDSAgayIRSw0CIAYgB0sNAyADIAcgBmsiEUsNBCAOIAZBAnQiEUkNBSADQQJ0IgUgDiARayIcSw0GQQAhHkEEIQtBBCEIQQAhHCAiBEAgEiAGQQlsIhNJDQggA0EJbCIcIBIgE2siCEsNCSAPIBNBAnRqIQgLAn8CQAJAIC0EQCAJIAZBD2wiE0kNASADQQ9sIh4gCSATayILSw0PIAogE0ECdGohCwsgMQ0BQQAhBkEEDAILIBMgCSAJQeiswQAQ6gcACyAbIAZBFWwiE0kNCiADQRVsIgYgGyATayIMSw0LIBkgE0ECdGoLIRMgAUIENwJ4IAFCAjcCcCABIAY2AmwgASATNgJoIAEgHjYCZCABIAs2AmAgASAcNgJcIAEgCDYCWCABIAU2AlQgASAVIBFBAnRqNgJQIAEgFDYCTCABIBcgIEECdCIGajYCSCABIBQ2AkQgASAGIBhqNgJAIAEgAzYCPCABIBEgGmo2AjggASAUNgI0IAEgBiAWajYCMCAAIAQgAyABQTBqEJMCIAMgBGohBCACIANrIgINAQwMCwsgICANIA1B6K3BABDqBwALQQAgFCARQditwQAQ6gcACyAGIAcgB0HIrcEAEOoHAAtBACADIBFBuK3BABDqBwALIBEgDiAOQaitwQAQ6gcAC0EAIAUgHEGYrcEAEOoHAAsgEyASIBJBiK3BABDqBwALQQAgHCAIQfiswQAQ6gcACyATIBsgG0HIrMEAEOoHAAtBACAGIAxBuKzBABDqBwALQQAgHiALQdiswQAQ6gcACwJAICgEQCAZQQRrKAIAIgRBeHEiAiAoQQJ0IgNBBEEIIARBA3EiBBtqSQ0BIARBACACIANBJ2pLGw0JIBkQogILIB0EQCAKQQRrKAIAIgRBeHEiAiAdQQJ0IgNBBEEIIARBA3EiBBtqSQ0IIARBACACIANBJ2pLGw0JIAoQogILIB8EQCAPQQRrKAIAIgRBeHEiAiAfQQJ0IgNBBEEIIARBA3EiBBtqSQ0IIARBACACIANBJ2pLGw0JIA8QogILICcEQCAaQQRrKAIAIgRBeHEiAiAnQQJ0IgNBBEEIIARBA3EiBBtqSQ0IIARBACACIANBJ2pLGw0JIBoQogILICUEQCAYQQRrKAIAIgRBeHEiAiAlQQJ0IgNBBEEIIARBA3EiBBtqSQ0IIARBACACIANBJ2pLGw0JIBgQogILICYEQCAVQQRrKAIAIgRBeHEiAiAmQQJ0IgNBBEEIIARBA3EiBBtySQ0IIARBACACIANBJ2pLGw0JIBUQogILAkAgJEUNACAXQQRrKAIAIgJBeHEiAyAkQQJ0IgRBBEEIIAJBA3EiBhtqSQ0IIAZBACAEQSdqIgIgA0kbDQkgFxCiAiAkRQ0AIBZBBGsoAgAiA0F4cSIGIARBBEEIIANBA3EiBBtqSQ0IIARBACACIAZJGw0DIBYQogILIAcgLGohLCAuICogLksiBGohLiAEDQEMBQsLDAULDAULIAIgA0GoIGovAAAiB0shCUEAIQYgAiAHIAkbIQIgISADQYQgaigAACAQKAIIIBAoAgAgECgCBGpqIAdBA00EfyAHQQJ0KAKkq0EFIAYLIBAoAhBsakEEamwgIWogA0GMIGooAAAgA0GUIGovAABsaiADQaQgaigAAEECdGoiIU0gA0GACGohAw0ACyABQQA2AkAgAUEBNgI0IAFB9LHBADYCMCABQgQ3AjggAUEwahCSByEDDAELQQAhAwsgAUGAAWokACADDwtBzIzIAEEuQfyMyAAQ6wcAC0GMjcgAQS5BvI3IABDrBwALnjkDN38DfQF+IwBBgAFrIgEkAAJAAkACQCAAKAJIIgJB/x9NBEAgAUEANgJAIAFBATYCNCABQfCywQA2AjAgAUIENwI4IAFBMGoQkgchAwwBCyABIAAoAkQiAy0AACIEOgAGIAEgAy0AASIGOgAHIARBASAGGwRAIAFBAjYCNCABQcCywQA2AjAgAUICNwI8IAFCgICAgPAEIjsgAUEHaq2ENwMQIAEgOyABQQZqrYQ3AwggASABQQhqNgI4IAFBMGoQkgchAwwBCyADQQRqKAAAISogAygAECENIAEgAy8AFCIENgIcIARBA08EQCABQQE2AjQgAUGYssEANgIwIAFCATcCPCABIAFBHGqtQoCAgIAQhDcDCCABIAFBCGo2AjggAUEwahCSByEDDAELIAEgA0EkaigAACIGQYCAgP57IAZB/////wdxGzYCICABIAMoACgiBkGAgID+AyAGQf////8HcRs2AiQgBEEobEGsqsEAaiEQIAJBgCBrQQp2QQFqIRRBACEEQQAhAiAqQQp0QYAgaiIrISECQANAAkAgBCAqRwRAIBQgBEEBaiIERw0BIAFBADYCQCABQQE2AjQgAUHUscEANgIwIAFCBDcCOCABQTBqEJIHIQMMBAsgAUEAOgA4IAEgAjYCNCABIA02AjAgACABQTBqEIQCICpFDQJBgCAhIUEBIS4CQANAICEiBEGACGoiISAAKAJIIgNLBEAgAUEANgJAIAFBATYCNCABQdSxwQA2AjAgAUIENwI4IAFBMGoQkgchAwwGCyAAKAJEIgYgBGoiAigAGCIRRQRAIBAoAiQhEQsgAyAEQSRySQRAIAFBADYCQCABQQE2AjQgAUHI28EANgIwIAFCBDcCOCABQTBqEJIHIQMMBgsgAyAEQShySQRAIAFBADYCQCABQQE2AjQgAUHI28EANgIwIAFCBDcCOCABQTBqEJIHIQMMBgsgAyAEQSpySQRAIAFBADYCQCABQQE2AjQgAUHI28EANgIwIAFCBDcCOCABQTBqEJIHIQMMBgsgAigABCEHQQAhBCAQKAIIIBAoAgAgECgCBGpqIAIvACgiIkEDTQR/ICJBAnQoAqSrQQUgBAsgECgCEGxqQQRqIjWtIAetfiI7QiCIUEUEQCABQQA2AkAgAUEBNgI0IAFB0KvBADYCMCABQgQ3AjggAUEwahCSByEDDAYLAkACQAJAAn8CQCADICsiBCACKAAkIjBBAnQiCSACKAAMIg0gAi8AFGxqaiIUIDunIghqIitPBEAgAioAECE4IAIoAAghLyACKAAAIQcgAigAICEcIA0NAUEADAILIAFBADYCQCABQQE2AjQgAUGYscEANgIwIAFCBDcCOCABQTBqEJIHIQMMCgsgBCAJaiICIA1BDGxqIANLDQEgDUEDbCEeIAIgBmoLISMgFCArTQRAAkAgB0EDbCINQf////8DSw0AIAdBDGwiAkH9////B08NAAJAAkACQAJAAkACfyACRQRAQQQhFkEEIRdBAAwBCyACEHEiFkUNASAWQQRrLQAAQQNxRSACRXJFBEAgFkEAIAL8CwALIAIQcSIXRQ0BIBdBBGstAABBA3FFIAJFckUEQCAXQQAgAvwLAAsgDQshJCAHQQJ0Ig5B/////wNLDQQgB0EEdCIDQf3///8HTw0EQQQhGEEAISVBACEmQQQhFSADBEAgAxBxIhVFDQEgFUEEay0AAEEDcUUgA0VyRQRAIBVBACAD/AsACyAOISYLIAIEQCACEHEiGEUNASAYQQRrLQAAQQNxRSACRXJFBEAgGEEAIAL8CwALIA0hJQsgB0H/////A0sgDkH9////B09yDQNBBCEPQQAhHUEAISdBBCEaIA4EQCAOEHEiGkUNASAaQQRrLQAAQQNxRSAORXJFBEAgGkEAIA78CwALIAchJwsCQAJ/AkACQCAiRQRAQQAhEkEAIR9BBCEKDAELIAdBCWwiEkH/////A0sNBiAHQSRsIgJB/f///wdPDQZBBCEKQQAhHyACBEAgAhBxIg9FDQUgD0EEay0AAEEDcUUgAkVyRQRAIA9BACAC/AsACyASIR8LICJBAUcNAQtBACEJQQAhKEEEIRlBACEbQQAhLUEADAELIAdBD2wiCUH/////A0sNAyAHQTxsIgJB/f///wdPDQNBBCEZQQAhKCACBEAgAhBxIgpFDQMgCkEEay0AAEEDcUUgAkVyRQRAIApBACAC/AsACyAJIR0LICJBA0kEQEEBIS1BACEbQQAMAQsgB0EVbCIbQf////8DSw0BIAdB1ABsIgJB/f///wdPDQECfyACRQRAQQAMAQsgAhBxIhlFDQMgGUEEay0AAEEDcUUgAkVyRQRAIBlBACAC/AsACyAbCyEoQQEhLUEBCyExIAEoAhwEfSA4QwAAAD+UIBGzlQVDAAAAAAshOiAHRQ0KIAQgBmohNiAGIBRqIQxBASEDQQAhICAZIRFBACEEIBwiBiAvbCI3IRMDQCADIRQgASAEIDVsIgM2AigCQCAEIDdPBEAgMEUEQCAGIQIMAgsgMCAGIBxrIgJBACACIAZNGyICTQRAIAYhAgwCCyA2IAJBAnRqKAIAIBNqIgIgBEsEQCAGIQIMAgsgAiETIAZBAWoiAiEGDAELIC8EQCAEIC9uIQIMAQtB+K3BABCBCAALAkACQAJAAkACfQJAAkAgASgCHEUEQCADQXtNIANBBGogCE1xDQEgAUEANgJAIAFBATYCNCABQcjbwQA2AjAgAUIENwI4IAFBMGoQkgchAwwECyADQX1NIANBAmogCE1xDQEgAUEANgJAIAFBATYCNCABQcjbwQA2AjAgAUIENwI4IAFBMGoQkgchAwwDCyADIAxqKgAADAELIDogAyAMai8AALMgECgCJLOTlEMAAAAAITgCQCAjRQ0AIAJBA2wiAyAeTw0AICMgA0ECdGoqAgAhOAsgOJILITgCfQJAAkACQCANIARBA2wiA0sEQCAWIANBAnQiMmogODgCACABKAIoIQUgASgCHA0BIAVBBGoiC0F7TSAFQQhqIAhNcQ0CIAFBADYCQCABQQE2AjQgAUHI28EANgIwIAFCBDcCOCABQTBqEJIHIQMMBQsgAyANQYiuwQAQjAcACyAFQQJqIgtBfU0gBUEEaiAITXENASABQQA2AkAgAUEBNgI0IAFByNvBADYCMCABQgQ3AjggAUEwahCSByEDDAMLIAsgDGoqAAAMAQsgOiALIAxqLwAAsyAQKAIks5OUQwAAAAAhOAJAICNFDQAgAkEDbEEBaiIFIB5PDQAgIyAFQQJ0aioCACE4CyA4kgshOAJ9AkACQAJAIA0gA0EBaiIFSwRAIBYgBUECdCIzaiA4OAIAIAEoAighBSABKAIcDQEgBUEIaiICQXtNIAVBDGogCE1xDQIgAUEANgJAIAFBATYCNCABQcjbwQA2AjAgAUIENwI4IAFBMGoQkgchAwwFCyAFIA1BmK7BABCMBwALIAVBBGoiC0F9TSAFQQZqIAhNcQ0BIAFBADYCQCABQQE2AjQgAUHI28EANgIwIAFCBDcCOCABQTBqEJIHIQMMAwsgAiAMaioAAAwBCyA6IAsgDGovAACzIBAoAiSzk5RDAAAAACE4AkAgI0UNACACQQNsQQJqIgIgHk8NACAjIAJBAnRqKgIAITgLIDiSCyE4AkAgDSADQQJqIgJLBEAgFiACQQJ0IjRqIDg4AgAgAUEwaiIFIAwgCCABKAIoIBAoAhRqIgIgASgCHBC7BCABKAI0IQMgASgCMA0CIBcgMmogAzYCACAFIAwgCEECQQQgASgCHCIDGyACaiADELsEIAEoAjQhAyABKAIwDQIgFyAzaiADNgIAIAUgDCAIIAJBBEEIIAEoAhwiAhtqIAIQuwQgASgCNCEDIAEoAjANAiAXIDRqIAM2AgAgBSAMIAggASgCKCAQKAIYaiILIAEoAhwQuwQgASgCNCEDIAEoAjANAiAFIAwgCEECQQQgASgCHCICGyALaiACELsEIAEoAjQhAiABKAIwRQ0BIAIhAwwCCyACIA1BqK7BABCMBwALIAFBMGogDCAIQQRBCCABKAIcIgUbIAtqIAUQuwQgASgCNCEFIAEoAjAEQCAFIQMMAQsgAUEwaiAMIAggC0EGQQwgASgCHCILG2ogCxC7BCABKAI0IQsgASgCMARAIAshAwwBCwJAAkACQAJAAkACQAJAAkACQAJAIA4gBEECdCIpSwRAIBUgKUECdGogAjYCACApQQFyIgIgDk8NASAVIAJBAnRqIAU2AgAgKUECciICIA5PDQIgFSACQQJ0aiALNgIAIClBA3IiAiAOTw0DIBUgAkECdGogAzYCACABKAIoIBAoAhxqIgIgCE8NBCAYIDJqIAIgDGotAACzQwAAf0OVOAIAIAJBAWoiAyAITw0FIBggM2ogAyAMai0AALNDAAB/Q5U4AgAgAkECaiIDIAhPDQYgGCA0aiADIAxqLQAAs0MAAH9DlTgCACACQQNqIgIgCE8NByAEIAdPDQggGiApaiACIAxqLQAAs0MAAH9DlTgCACAiRQ0OIAEgECgCIDYCLCABIAg2AkQgASAMNgJAIAEgEDYCOCABIAFBJGo2AkwgASABQSBqNgJIIAEgAUEcajYCPCABIAFBLGo2AjQgASABQShqNgIwIAFBCGoiBSABQTBqIgtBABDNAyABKAIMIQMgASgCCA0LIARBCWwiAiASTw0NIA8gAkECdGogAzYCACAFIAtBAxDNAyABKAIMIQMgASgCCA0LIBIgAkEBaiIFTQRAIAUhAgwOCyAPIAVBAnRqIAM2AgAgAUEIaiABQTBqQQYQzQMgASgCDCEDIAEoAggNCyASIAJBAmoiBU0EQCAFIQIMDgsgDyAFQQJ0aiADNgIAIAFBCGogAUEwakEBEM0DIAEoAgwhAyABKAIIDQsgEiACQQNqIgVNBEAgBSECDA4LIA8gBUECdGogAzYCACABQQhqIAFBMGpBBBDNAyABKAIMIQMgASgCCA0LIBIgAkEEaiIFTQRAIAUhAgwOCyAPIAVBAnRqIAM2AgAgAUEIaiABQTBqQQcQzQMgASgCDCEDIAEoAggNCyASIAJBBWoiBU0EQCAFIQIMDgsgDyAFQQJ0aiADNgIAIAFBCGogAUEwakECEM0DIAEoAgwhAyABKAIIDQsgEiACQQZqIgVNBEAgBSECDA4LIA8gBUECdGogAzYCACABQQhqIAFBMGpBBRDNAyABKAIMIQMgASgCCA0LIBIgAkEHaiIFTQRAIAUhAgwOCyAPIAVBAnRqIAM2AgAgAUEIaiABQTBqQQgQzQMgASgCDCEDIAEoAggNCyACQQhqIgIgEk8NDSAPIAJBAnRqIAM2AgAgLQ0JDAoLICkgDkG4rsEAEIwHAAsgAiAOQciuwQAQjAcACyACIA5B2K7BABCMBwALIAIgDkHorsEAEIwHAAsgAiAIQfiuwQAQjAcACyADIAhBiK/BABCMBwALIAMgCEGYr8EAEIwHAAsgAiAIQaivwQAQjAcACyAEIAdBuK/BABCMBwALIAFBCGoiAiABQTBqIgVBCRDNAyABKAIMIQMgASgCCA0BIARBD2wiBCAJTw0CIAogBEECdGogAzYCACACIAVBDhDNAyABKAIMIQMgASgCCA0BIAkgBEEBaiICTQRAIAIhBAwDCyAKIAJBAnRqIAM2AgAgAUEIaiABQTBqQRMQzQMgASgCDCEDIAEoAggNASAJIARBAmoiAk0EQCACIQQMAwsgCiACQQJ0aiADNgIAIAFBCGogAUEwakEKEM0DIAEoAgwhAyABKAIIDQEgCSAEQQNqIgJNBEAgAiEEDAMLIAogAkECdGogAzYCACABQQhqIAFBMGpBDxDNAyABKAIMIQMgASgCCA0BIAkgBEEEaiICTQRAIAIhBAwDCyAKIAJBAnRqIAM2AgAgAUEIaiABQTBqQRQQzQMgASgCDCEDIAEoAggNASAJIARBBWoiAk0EQCACIQQMAwsgCiACQQJ0aiADNgIAIAFBCGogAUEwakELEM0DIAEoAgwhAyABKAIIDQEgCSAEQQZqIgJNBEAgAiEEDAMLIAogAkECdGogAzYCACABQQhqIAFBMGpBEBDNAyABKAIMIQMgASgCCA0BIAkgBEEHaiICTQRAIAIhBAwDCyAKIAJBAnRqIAM2AgAgAUEIaiABQTBqQRUQzQMgASgCDCEDIAEoAggNASAJIARBCGoiAk0EQCACIQQMAwsgCiACQQJ0aiADNgIAIAFBCGogAUEwakEMEM0DIAEoAgwhAyABKAIIDQEgCSAEQQlqIgJNBEAgAiEEDAMLIAogAkECdGogAzYCACABQQhqIAFBMGpBERDNAyABKAIMIQMgASgCCA0BIAkgBEEKaiICTQRAIAIhBAwDCyAKIAJBAnRqIAM2AgAgAUEIaiABQTBqQRYQzQMgASgCDCEDIAEoAggNASAJIARBC2oiAk0EQCACIQQMAwsgCiACQQJ0aiADNgIAIAFBCGogAUEwakENEM0DIAEoAgwhAyABKAIIDQEgCSAEQQxqIgJNBEAgAiEEDAMLIAogAkECdGogAzYCACABQQhqIAFBMGpBEhDNAyABKAIMIQMgASgCCA0BIAkgBEENaiICTQRAIAIhBAwDCyAKIAJBAnRqIAM2AgAgAUEIaiABQTBqQRcQzQMgASgCDCEDIAEoAggNASAEQQ5qIgQgCU8NAiAKIARBAnRqIAM2AgALIDFFDQNBACEEICAhAgNAIAFBCGogAUEwaiAEQcivwQBqKAIAEM0DIAEoAgwhAyABKAIIDQEgAiAbSQRAIAQgEWogAzYCACACQQFqIQIgBEEEaiIEQdQARg0FDAELCyACIBtBnLDBABCMBwALAkAgKARAIBlBBGsoAgAiAEF4cSIEIChBAnQiAkEEQQggAEEDcSIAG2pJDRcgAEEAIAQgAkEnaksbDRggGRCiAgsgHQRAIApBBGsoAgAiAEF4cSIEIB1BAnQiAkEEQQggAEEDcSIAG2pJDRcgAEEAIAQgAkEnaksbDRggChCiAgsgHwRAIA9BBGsoAgAiAEF4cSIEIB9BAnQiAkEEQQggAEEDcSIAG2pJDRcgAEEAIAQgAkEnaksbDRggDxCiAgsgJwRAIBpBBGsoAgAiAEF4cSIEICdBAnQiAkEEQQggAEEDcSIAG2pJDRcgAEEAIAQgAkEnaksbDRggGhCiAgsgJQRAIBhBBGsoAgAiAEF4cSIEICVBAnQiAkEEQQggAEEDcSIAG2pJDRcgAEEAIAQgAkEnaksbDRggGBCiAgsgJgRAIBVBBGsoAgAiAEF4cSIEICZBAnQiAkEEQQggAEEDcSIAG3JJDRcgAEEAIAQgAkEnaksbDRggFRCiAgsgJEUNFSAXQQRrKAIAIgBBeHEiBCAkQQJ0IgJBBEEIIABBA3EiABtqSQ0WIABBACAEIAJBJ2pLGw0XIBcQogIgJEUNFSAWQQRrKAIAIgBBeHEiBEEEQQggAEEDcSIAGyACakkNFiAAQQAgBCACQSdqSxsNACAWEKICDBULDBYLIAQgCUGssMEAEIwHAAsgAiASQbywwQAQjAcACyARQdQAaiERICBBFWohICAUIAcgFEsiAmohAyAUIQQgAg0ACyAHIQIgLCEEDAkLQaiswQAQ/wcLAAtBmKzBABD/BwALQYiswQAQ/wcAC0H4q8EAEP8HAAtB6KvBABD/BwALQdirwQAQ/wcACyAUICsgA0HMsMEAEOoHAAsgAUEANgJAIAFBATYCNCABQfiwwQA2AjAgAUIENwI4IAFBMGoQkgchAwwHCwJAAkACQAJAAkACQAJAAkACQAJAA0AgBCAsayIGQQNsIiAgDU0EQEGAgAQgAiACQYCABE8bIgNBA2wiFCANICBrIhFLDQIgBiAHSw0DIAMgByAGayIRSw0EIA4gBkECdCIRSQ0FIANBAnQiBSAOIBFrIhxLDQZBACEeQQQhC0EEIQhBACEcICIEQCASIAZBCWwiE0kNCCADQQlsIhwgEiATayIISw0JIA8gE0ECdGohCAsCfwJAAkAgLQRAIAkgBkEPbCITSQ0BIANBD2wiHiAJIBNrIgtLDQ8gCiATQQJ0aiELCyAxDQFBACEGQQQMAgsgEyAJIAlB6KzBABDqBwALIBsgBkEVbCITSQ0KIANBFWwiBiAbIBNrIgxLDQsgGSATQQJ0agshEyABQgQ3AnggAUICNwJwIAEgBjYCbCABIBM2AmggASAeNgJkIAEgCzYCYCABIBw2AlwgASAINgJYIAEgBTYCVCABIBUgEUECdGo2AlAgASAUNgJMIAEgFyAgQQJ0IgZqNgJIIAEgFDYCRCABIAYgGGo2AkAgASADNgI8IAEgESAaajYCOCABIBQ2AjQgASAGIBZqNgIwIAAgBCADIAFBMGoQ4gEgAyAEaiEEIAIgA2siAg0BDAwLCyAgIA0gDUHorcEAEOoHAAtBACAUIBFB2K3BABDqBwALIAYgByAHQcitwQAQ6gcAC0EAIAMgEU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self.location.href);\n }\n const imports = __wbg_get_imports();\n if (typeof module_or_path === "string" || typeof Request === "function" && module_or_path instanceof Request || typeof URL === "function" && module_or_path instanceof URL) {\n module_or_path = fetch(module_or_path);\n }\n const { instance } = await __wbg_load(await module_or_path, imports);\n return __wbg_finalize_init(instance);\n }\n var ch2 = {};\n var wk = function(c, id, msg, transfer, cb) {\n var w = new Worker(ch2[id] || (ch2[id] = URL.createObjectURL(new Blob([\n c + \';addEventListener("error",function(e){e=e.error;postMessage({$e$:[e.message,e.code,e.stack]})})\'\n ], { type: "text/javascript" }))));\n w.onmessage = function(e) {\n var d = e.data, ed = d.$e$;\n if (ed) {\n var err2 = new Error(ed[0]);\n err2["code"] = ed[1];\n err2.stack = ed[2];\n cb(err2, null);\n } else\n cb(null, d);\n };\n w.postMessage(msg, transfer);\n return w;\n };\n var u8 = Uint8Array, u16 = Uint16Array, i32 = Int32Array;\n var fleb = new u8([\n 0,\n 0,\n 0,\n 0,\n 0,\n 0,\n 0,\n 0,\n 1,\n 1,\n 1,\n 1,\n 2,\n 2,\n 2,\n 2,\n 3,\n 3,\n 3,\n 3,\n 4,\n 4,\n 4,\n 4,\n 5,\n 5,\n 5,\n 5,\n 0,\n /* unused */\n 0,\n 0,\n /* impossible */\n 0\n ]);\n var fdeb = new u8([\n 0,\n 0,\n 0,\n 0,\n 1,\n 1,\n 2,\n 2,\n 3,\n 3,\n 4,\n 4,\n 5,\n 5,\n 6,\n 6,\n 7,\n 7,\n 8,\n 8,\n 9,\n 9,\n 10,\n 10,\n 11,\n 11,\n 12,\n 12,\n 13,\n 13,\n /* unused */\n 0,\n 0\n ]);\n var clim = new u8([16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15]);\n var freb = function(eb, start) {\n var b = new u16(31);\n for (var i2 = 0; i2 < 31; ++i2) {\n b[i2] = start += 1 << eb[i2 - 1];\n }\n var r = new i32(b[30]);\n for (var i2 = 1; i2 < 30; ++i2) {\n for (var j = b[i2]; j < b[i2 + 1]; ++j) {\n r[j] = j - b[i2] << 5 | i2;\n }\n }\n return { b, r };\n };\n var _a = freb(fleb, 2), fl = _a.b, revfl = _a.r;\n fl[28] = 258, revfl[258] = 28;\n var _b = freb(fdeb, 0), fd = _b.b;\n var rev = new u16(32768);\n for (var i = 0; i < 32768; ++i) {\n var x = (i & 43690) >> 1 | (i & 21845) << 1;\n x = (x & 52428) >> 2 | (x & 13107) << 2;\n x = (x & 61680) >> 4 | (x & 3855) << 4;\n rev[i] = ((x & 65280) >> 8 | (x & 255) << 8) >> 1;\n }\n var hMap = function(cd, mb, r) {\n var s = cd.length;\n var i2 = 0;\n var l = new u16(mb);\n for (; i2 < s; ++i2) {\n if (cd[i2])\n ++l[cd[i2] - 1];\n }\n var le = new u16(mb);\n for (i2 = 1; i2 < mb; ++i2) {\n le[i2] = le[i2 - 1] + l[i2 - 1] << 1;\n }\n var co;\n if (r) {\n co = new u16(1 << mb);\n var rvb = 15 - mb;\n for (i2 = 0; i2 < s; ++i2) {\n if (cd[i2]) {\n var sv = i2 << 4 | cd[i2];\n var r_1 = mb - cd[i2];\n var v = le[cd[i2] - 1]++ << r_1;\n for (var m = v | (1 << r_1) - 1; v <= m; ++v) {\n co[rev[v] >> rvb] = sv;\n }\n }\n }\n } else {\n co = new u16(s);\n for (i2 = 0; i2 < s; ++i2) {\n if (cd[i2]) {\n co[i2] = rev[le[cd[i2] - 1]++] >> 15 - cd[i2];\n }\n }\n }\n return co;\n };\n var flt = new u8(288);\n for (var i = 0; i < 144; ++i)\n flt[i] = 8;\n for (var i = 144; i < 256; ++i)\n flt[i] = 9;\n for (var i = 256; i < 280; ++i)\n flt[i] = 7;\n for (var i = 280; i < 288; ++i)\n flt[i] = 8;\n var fdt = new u8(32);\n for (var i = 0; i < 32; ++i)\n fdt[i] = 5;\n var flrm = /* @__PURE__ */ hMap(flt, 9, 1);\n var fdrm = /* @__PURE__ */ hMap(fdt, 5, 1);\n var max = function(a) {\n var m = a[0];\n for (var i2 = 1; i2 < a.length; ++i2) {\n if (a[i2] > m)\n m = a[i2];\n }\n return m;\n };\n var bits = function(d, p, m) {\n var o = p / 8 | 0;\n return (d[o] | d[o + 1] << 8) >> (p & 7) & m;\n };\n var bits16 = function(d, p) {\n var o = p / 8 | 0;\n return (d[o] | d[o + 1] << 8 | d[o + 2] << 16) >> (p & 7);\n };\n var shft = function(p) {\n return (p + 7) / 8 | 0;\n };\n var slc = function(v, s, e) {\n if (s == null || s < 0)\n s = 0;\n if (e == null || e > v.length)\n e = v.length;\n return new u8(v.subarray(s, e));\n };\n var ec = [\n "unexpected EOF",\n "invalid block type",\n "invalid length/literal",\n "invalid distance",\n "stream finished",\n "no stream handler",\n ,\n "no callback",\n "invalid UTF-8 data",\n "extra field too long",\n "date not in range 1980-2099",\n "filename too long",\n "stream finishing",\n "invalid zip data"\n // determined by unknown compression method\n ];\n var err = function(ind, msg, nt) {\n var e = new Error(msg || ec[ind]);\n e.code = ind;\n if (Error.captureStackTrace)\n Error.captureStackTrace(e, err);\n if (!nt)\n throw e;\n return e;\n };\n var inflt = function(dat, st, buf, dict) {\n var sl = dat.length, dl = dict ? dict.length : 0;\n if (!sl || st.f && !st.l)\n return buf || new u8(0);\n var noBuf = !buf;\n var resize = noBuf || st.i != 2;\n var noSt = st.i;\n if (noBuf)\n buf = new u8(sl * 3);\n var cbuf = function(l2) {\n var bl = buf.length;\n if (l2 > bl) {\n var nbuf = new u8(Math.max(bl * 2, l2));\n nbuf.set(buf);\n buf = nbuf;\n }\n };\n var final = st.f || 0, pos = st.p || 0, bt = st.b || 0, lm = st.l, dm = st.d, lbt = st.m, dbt = st.n;\n var tbts = sl * 8;\n do {\n if (!lm) {\n final = bits(dat, pos, 1);\n var type = bits(dat, pos + 1, 3);\n pos += 3;\n if (!type) {\n var s = shft(pos) + 4, l = dat[s - 4] | dat[s - 3] << 8, t = s + l;\n if (t > sl) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + l);\n buf.set(dat.subarray(s, t), bt);\n st.b = bt += l, st.p = pos = t * 8, st.f = final;\n continue;\n } else if (type == 1)\n lm = flrm, dm = fdrm, lbt = 9, dbt = 5;\n else if (type == 2) {\n var hLit = bits(dat, pos, 31) + 257, hcLen = bits(dat, pos + 10, 15) + 4;\n var tl = hLit + bits(dat, pos + 5, 31) + 1;\n pos += 14;\n var ldt = new u8(tl);\n var clt = new u8(19);\n for (var i2 = 0; i2 < hcLen; ++i2) {\n clt[clim[i2]] = bits(dat, pos + i2 * 3, 7);\n }\n pos += hcLen * 3;\n var clb = max(clt), clbmsk = (1 << clb) - 1;\n var clm = hMap(clt, clb, 1);\n for (var i2 = 0; i2 < tl; ) {\n var r = clm[bits(dat, pos, clbmsk)];\n pos += r & 15;\n var s = r >> 4;\n if (s < 16) {\n ldt[i2++] = s;\n } else {\n var c = 0, n = 0;\n if (s == 16)\n n = 3 + bits(dat, pos, 3), pos += 2, c = ldt[i2 - 1];\n else if (s == 17)\n n = 3 + bits(dat, pos, 7), pos += 3;\n else if (s == 18)\n n = 11 + bits(dat, pos, 127), pos += 7;\n while (n--)\n ldt[i2++] = c;\n }\n }\n var lt = ldt.subarray(0, hLit), dt = ldt.subarray(hLit);\n lbt = max(lt);\n dbt = max(dt);\n lm = hMap(lt, lbt, 1);\n dm = hMap(dt, dbt, 1);\n } else\n err(1);\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n }\n if (resize)\n cbuf(bt + 131072);\n var lms = (1 << lbt) - 1, dms = (1 << dbt) - 1;\n var lpos = pos;\n for (; ; lpos = pos) {\n var c = lm[bits16(dat, pos) & lms], sym = c >> 4;\n pos += c & 15;\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (!c)\n err(2);\n if (sym < 256)\n buf[bt++] = sym;\n else if (sym == 256) {\n lpos = pos, lm = null;\n break;\n } else {\n var add = sym - 254;\n if (sym > 264) {\n var i2 = sym - 257, b = fleb[i2];\n add = bits(dat, pos, (1 << b) - 1) + fl[i2];\n pos += b;\n }\n var d = dm[bits16(dat, pos) & dms], dsym = d >> 4;\n if (!d)\n err(3);\n pos += d & 15;\n var dt = fd[dsym];\n if (dsym > 3) {\n var b = fdeb[dsym];\n dt += bits16(dat, pos) & (1 << b) - 1, pos += b;\n }\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + 131072);\n var end = bt + add;\n if (bt < dt) {\n var shift = dl - dt, dend = Math.min(dt, end);\n if (shift + bt < 0)\n err(3);\n for (; bt < dend; ++bt)\n buf[bt] = dict[shift + bt];\n }\n for (; bt < end; ++bt)\n buf[bt] = buf[bt - dt];\n }\n }\n st.l = lm, st.p = lpos, st.b = bt, st.f = final;\n if (lm)\n final = 1, st.m = lbt, st.d = dm, st.n = dbt;\n } while (!final);\n return bt != buf.length && noBuf ? slc(buf, 0, bt) : buf.subarray(0, bt);\n };\n var et = /* @__PURE__ */ new u8(0);\n var mrg = function(a, b) {\n var o = {};\n for (var k in a)\n o[k] = a[k];\n for (var k in b)\n o[k] = b[k];\n return o;\n };\n var wcln = function(fn, fnStr, td2) {\n var dt = fn();\n var st = fn.toString();\n var ks = st.slice(st.indexOf("[") + 1, st.lastIndexOf("]")).replace(/\\s+/g, "").split(",");\n for (var i2 = 0; i2 < dt.length; ++i2) {\n var v = dt[i2], k = ks[i2];\n if (typeof v == "function") {\n fnStr += ";" + k + "=";\n var st_1 = v.toString();\n if (v.prototype) {\n if (st_1.indexOf("[native code]") != -1) {\n var spInd = st_1.indexOf(" ", 8) + 1;\n fnStr += st_1.slice(spInd, st_1.indexOf("(", spInd));\n } else {\n fnStr += st_1;\n for (var t in v.prototype)\n fnStr += ";" + k + ".prototype." + t + "=" + v.prototype[t].toString();\n }\n } else\n fnStr += st_1;\n } else\n td2[k] = v;\n }\n return fnStr;\n };\n var ch = [];\n var cbfs = function(v) {\n var tl = [];\n for (var k in v) {\n if (v[k].buffer) {\n tl.push((v[k] = new v[k].constructor(v[k])).buffer);\n }\n }\n return tl;\n };\n var wrkr = function(fns, init, id, cb) {\n if (!ch[id]) {\n var fnStr = "", td_1 = {}, m = fns.length - 1;\n for (var i2 = 0; i2 < m; ++i2)\n fnStr = wcln(fns[i2], fnStr, td_1);\n ch[id] = { c: wcln(fns[m], fnStr, td_1), e: td_1 };\n }\n var td2 = mrg({}, ch[id].e);\n return wk(ch[id].c + ";onmessage=function(e){for(var k in e.data)self[k]=e.data[k];onmessage=" + init.toString() + "}", id, td2, cbfs(td2), cb);\n };\n var bInflt = function() {\n return [u8, u16, i32, fleb, fdeb, clim, fl, fd, flrm, fdrm, rev, ec, hMap, max, bits, bits16, shft, slc, err, inflt, inflateSync, pbf, gopt];\n };\n var pbf = function(msg) {\n return postMessage(msg, [msg.buffer]);\n };\n var gopt = function(o) {\n return o && {\n out: o.size && new u8(o.size),\n dictionary: o.dictionary\n };\n };\n var cbify = function(dat, opts, fns, init, id, cb) {\n var w = wrkr(fns, init, id, function(err2, dat2) {\n w.terminate();\n cb(err2, dat2);\n });\n w.postMessage([dat, opts], opts.consume ? [dat.buffer] : []);\n return function() {\n w.terminate();\n };\n };\n var b2 = function(d, b) {\n return d[b] | d[b + 1] << 8;\n };\n var b4 = function(d, b) {\n return (d[b] | d[b + 1] << 8 | d[b + 2] << 16 | d[b + 3] << 24) >>> 0;\n };\n var b8 = function(d, b) {\n return b4(d, b) + b4(d, b + 4) * 4294967296;\n };\n var gzs = function(d) {\n if (d[0] != 31 || d[1] != 139 || d[2] != 8)\n err(6, "invalid gzip data");\n var flg = d[3];\n var st = 10;\n if (flg & 4)\n st += (d[10] | d[11] << 8) + 2;\n for (var zs = (flg >> 3 & 1) + (flg >> 4 & 1); zs > 0; zs -= !d[st++])\n ;\n return st + (flg & 2);\n };\n var Inflate = /* @__PURE__ */ function() {\n function Inflate2(opts, cb) {\n if (typeof opts == "function")\n cb = opts, opts = {};\n this.ondata = cb;\n var dict = opts && opts.dictionary && opts.dictionary.subarray(-32768);\n this.s = { i: 0, b: dict ? dict.length : 0 };\n this.o = new u8(32768);\n this.p = new u8(0);\n if (dict)\n this.o.set(dict);\n }\n Inflate2.prototype.e = function(c) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n if (!this.p.length)\n this.p = c;\n else if (c.length) {\n var n = new u8(this.p.length + c.length);\n n.set(this.p), n.set(c, this.p.length), this.p = n;\n }\n };\n Inflate2.prototype.c = function(final) {\n this.s.i = +(this.d = final || false);\n var bts = this.s.b;\n var dt = inflt(this.p, this.s, this.o);\n this.ondata(slc(dt, bts, this.s.b), this.d);\n this.o = slc(dt, this.s.b - 32768), this.s.b = this.o.length;\n this.p = slc(this.p, this.s.p / 8 | 0), this.s.p &= 7;\n };\n Inflate2.prototype.push = function(chunk, final) {\n this.e(chunk), this.c(final);\n };\n return Inflate2;\n }();\n function inflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != "function")\n err(7);\n return cbify(data, opts, [\n bInflt\n ], function(ev) {\n return pbf(inflateSync(ev.data[0], gopt(ev.data[1])));\n }, 1, cb);\n }\n function inflateSync(data, opts) {\n return inflt(data, { i: 2 }, opts && opts.out, opts && opts.dictionary);\n }\n var Gunzip = /* @__PURE__ */ function() {\n function Gunzip2(opts, cb) {\n this.v = 1;\n this.r = 0;\n Inflate.call(this, opts, cb);\n }\n Gunzip2.prototype.push = function(chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n this.r += chunk.length;\n if (this.v) {\n var p = this.p.subarray(this.v - 1);\n var s = p.length > 3 ? gzs(p) : 4;\n if (s > p.length) {\n if (!final)\n return;\n } else if (this.v > 1 && this.onmember) {\n this.onmember(this.r - p.length);\n }\n this.p = p.subarray(s), this.v = 0;\n }\n Inflate.prototype.c.call(this, final);\n if (this.s.f && !this.s.l && !final) {\n this.v = shft(this.s.p) + 9;\n this.s = { i: 0 };\n this.o = new u8(0);\n this.push(new u8(0), final);\n }\n };\n return Gunzip2;\n }();\n var td = typeof TextDecoder != "undefined" && /* @__PURE__ */ new TextDecoder();\n try {\n td.decode(et, { stream: true });\n } catch (e) {\n }\n var dutf8 = function(d) {\n for (var r = "", i2 = 0; ; ) {\n var c = d[i2++];\n var eb = (c > 127) + (c > 223) + (c > 239);\n if (i2 + eb > d.length)\n return { s: r, r: slc(d, i2 - 1) };\n if (!eb)\n r += String.fromCharCode(c);\n else if (eb == 3) {\n c = ((c & 15) << 18 | (d[i2++] & 63) << 12 | (d[i2++] & 63) << 6 | d[i2++] & 63) - 65536, r += String.fromCharCode(55296 | c >> 10, 56320 | c & 1023);\n } else if (eb & 1)\n r += String.fromCharCode((c & 31) << 6 | d[i2++] & 63);\n else\n r += String.fromCharCode((c & 15) << 12 | (d[i2++] & 63) << 6 | d[i2++] & 63);\n }\n };\n function strFromU8(dat, latin1) {\n if (latin1) {\n var r = "";\n for (var i2 = 0; i2 < dat.length; i2 += 16384)\n r += String.fromCharCode.apply(null, dat.subarray(i2, i2 + 16384));\n return r;\n } else if (td) {\n return td.decode(dat);\n } else {\n var _a2 = dutf8(dat), s = _a2.s, r = _a2.r;\n if (r.length)\n err(8);\n return s;\n }\n }\n var slzh = function(d, b) {\n return b + 30 + b2(d, b + 26) + b2(d, b + 28);\n };\n var zh = function(d, b, z) {\n var fnl = b2(d, b + 28), fn = strFromU8(d.subarray(b + 46, b + 46 + fnl), !(b2(d, b + 8) & 2048)), es = b + 46 + fnl, bs = b4(d, b + 20);\n var _a2 = z && bs == 4294967295 ? z64e(d, es) : [bs, b4(d, b + 24), b4(d, b + 42)], sc = _a2[0], su = _a2[1], off = _a2[2];\n return [b2(d, b + 10), sc, su, fn, es + b2(d, b + 30) + b2(d, b + 32), off];\n };\n var z64e = function(d, b) {\n for (; b2(d, b) != 1; b += 4 + b2(d, b + 2))\n ;\n return [b8(d, b + 12), b8(d, b + 4), b8(d, b + 20)];\n };\n var mt = typeof queueMicrotask == "function" ? queueMicrotask : typeof setTimeout == "function" ? setTimeout : function(fn) {\n fn();\n };\n function unzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != "function")\n err(7);\n var term = [];\n var tAll = function() {\n for (var i3 = 0; i3 < term.length; ++i3)\n term[i3]();\n };\n var files = {};\n var cbd = function(a, b) {\n mt(function() {\n cb(a, b);\n });\n };\n mt(function() {\n cbd = cb;\n });\n var e = data.length - 22;\n for (; b4(data, e) != 101010256; --e) {\n if (!e || data.length - e > 65558) {\n cbd(err(13, 0, 1), null);\n return tAll;\n }\n }\n var lft = b2(data, e + 8);\n if (lft) {\n var c = lft;\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 101075792;\n if (z) {\n c = lft = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n var _loop_3 = function(i3) {\n var _a2 = zh(data, o, z), c_1 = _a2[0], sc = _a2[1], su = _a2[2], fn = _a2[3], no = _a2[4], off = _a2[5], b = slzh(data, off);\n o = no;\n var cbl = function(e2, d) {\n if (e2) {\n tAll();\n cbd(e2, null);\n } else {\n if (d)\n files[fn] = d;\n if (!--lft)\n cbd(null, files);\n }\n };\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_1\n })) {\n if (!c_1)\n cbl(null, slc(data, b, b + sc));\n else if (c_1 == 8) {\n var infl = data.subarray(b, b + sc);\n if (su < 524288 || sc > 0.8 * su) {\n try {\n cbl(null, inflateSync(infl, { out: new u8(su) }));\n } catch (e2) {\n cbl(e2, null);\n }\n } else\n term.push(inflate(infl, { size: su }, cbl));\n } else\n cbl(err(14, "unknown compression type " + c_1, 1), null);\n } else\n cbl(null, null);\n };\n for (var i2 = 0; i2 < c; ++i2) {\n _loop_3(i2);\n }\n } else\n cbd(null, {});\n return tAll;\n }\n function unzipSync(data, opts) {\n var files = {};\n var e = data.length - 22;\n for (; b4(data, e) != 101010256; --e) {\n if (!e || data.length - e > 65558)\n err(13);\n }\n var c = b2(data, e + 8);\n if (!c)\n return {};\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 101075792;\n if (z) {\n c = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n for (var i2 = 0; i2 < c; ++i2) {\n var _a2 = zh(data, o, z), c_2 = _a2[0], sc = _a2[1], su = _a2[2], fn = _a2[3], no = _a2[4], off = _a2[5], b = slzh(data, off);\n o = no;\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_2\n })) {\n if (!c_2)\n files[fn] = slc(data, b, b + sc);\n else if (c_2 == 8)\n files[fn] = inflateSync(data.subarray(b, b + sc), { out: new u8(su) });\n else\n err(14, "unknown compression type " + c_2);\n }\n }\n return files;\n }\n /**\n * @license\n * Copyright 2010-2025 Three.js Authors\n * SPDX-License-Identifier: MIT\n */\n const REVISION = "180";\n const NoColorSpace = "";\n const SRGBColorSpace = "srgb";\n const LinearSRGBColorSpace = "srgb-linear";\n const LinearTransfer = "linear";\n const SRGBTransfer = "srgb";\n function clamp(value, min, max2) {\n return Math.max(min, Math.min(max2, value));\n }\n function euclideanModulo(n, m) {\n return (n % m + m) % m;\n }\n function lerp(x2, y, t) {\n return (1 - t) * x2 + t * y;\n }\n class Quaternion {\n /**\n * Constructs a new quaternion.\n *\n * @param {number} [x=0] - The x value of this quaternion.\n * @param {number} [y=0] - The y value of this quaternion.\n * @param {number} [z=0] - The z value of this quaternion.\n * @param {number} [w=1] - The w value of this quaternion.\n */\n constructor(x2 = 0, y = 0, z = 0, w = 1) {\n this.isQuaternion = true;\n this._x = x2;\n this._y = y;\n this._z = z;\n this._w = w;\n }\n /**\n * Interpolates between two quaternions via SLERP. This implementation assumes the\n * quaternion data are managed in flat arrays.\n *\n * @param {Array} dst - The destination array.\n * @param {number} dstOffset - An offset into the destination array.\n * @param {Array} src0 - The source array of the first quaternion.\n * @param {number} srcOffset0 - An offset into the first source array.\n * @param {Array} src1 - The source array of the second quaternion.\n * @param {number} srcOffset1 - An offset into the second source array.\n * @param {number} t - The interpolation factor in the range `[0,1]`.\n * @see {@link Quaternion#slerp}\n */\n static slerpFlat(dst, dstOffset, src0, srcOffset0, src1, srcOffset1, t) {\n let x0 = src0[srcOffset0 + 0], y0 = src0[srcOffset0 + 1], z0 = src0[srcOffset0 + 2], w0 = src0[srcOffset0 + 3];\n const x1 = src1[srcOffset1 + 0], y1 = src1[srcOffset1 + 1], z1 = src1[srcOffset1 + 2], w1 = src1[srcOffset1 + 3];\n if (t === 0) {\n dst[dstOffset + 0] = x0;\n dst[dstOffset + 1] = y0;\n dst[dstOffset + 2] = z0;\n dst[dstOffset + 3] = w0;\n return;\n }\n if (t === 1) {\n dst[dstOffset + 0] = x1;\n dst[dstOffset + 1] = y1;\n dst[dstOffset + 2] = z1;\n dst[dstOffset + 3] = w1;\n return;\n }\n if (w0 !== w1 || x0 !== x1 || y0 !== y1 || z0 !== z1) {\n let s = 1 - t;\n const cos = x0 * x1 + y0 * y1 + z0 * z1 + w0 * w1, dir = cos >= 0 ? 1 : -1, sqrSin = 1 - cos * cos;\n if (sqrSin > Number.EPSILON) {\n const sin = Math.sqrt(sqrSin), len = Math.atan2(sin, cos * dir);\n s = Math.sin(s * len) / sin;\n t = Math.sin(t * len) / sin;\n }\n const tDir = t * dir;\n x0 = x0 * s + x1 * tDir;\n y0 = y0 * s + y1 * tDir;\n z0 = z0 * s + z1 * tDir;\n w0 = w0 * s + w1 * tDir;\n if (s === 1 - t) {\n const f = 1 / Math.sqrt(x0 * x0 + y0 * y0 + z0 * z0 + w0 * w0);\n x0 *= f;\n y0 *= f;\n z0 *= f;\n w0 *= f;\n }\n }\n dst[dstOffset] = x0;\n dst[dstOffset + 1] = y0;\n dst[dstOffset + 2] = z0;\n dst[dstOffset + 3] = w0;\n }\n /**\n * Multiplies two quaternions. This implementation assumes the quaternion data are managed\n * in flat arrays.\n *\n * @param {Array} dst - The destination array.\n * @param {number} dstOffset - An offset into the destination array.\n * @param {Array} src0 - The source array of the first quaternion.\n * @param {number} srcOffset0 - An offset into the first source array.\n * @param {Array} src1 - The source array of the second quaternion.\n * @param {number} srcOffset1 - An offset into the second source array.\n * @return {Array} The destination array.\n * @see {@link Quaternion#multiplyQuaternions}.\n */\n static multiplyQuaternionsFlat(dst, dstOffset, src0, srcOffset0, src1, srcOffset1) {\n const x0 = src0[srcOffset0];\n const y0 = src0[srcOffset0 + 1];\n const z0 = src0[srcOffset0 + 2];\n const w0 = src0[srcOffset0 + 3];\n const x1 = src1[srcOffset1];\n const y1 = src1[srcOffset1 + 1];\n const z1 = src1[srcOffset1 + 2];\n const w1 = src1[srcOffset1 + 3];\n dst[dstOffset] = x0 * w1 + w0 * x1 + y0 * z1 - z0 * y1;\n dst[dstOffset + 1] = y0 * w1 + w0 * y1 + z0 * x1 - x0 * z1;\n dst[dstOffset + 2] = z0 * w1 + w0 * z1 + x0 * y1 - y0 * x1;\n dst[dstOffset + 3] = w0 * w1 - x0 * x1 - y0 * y1 - z0 * z1;\n return dst;\n }\n /**\n * The x value of this quaternion.\n *\n * @type {number}\n * @default 0\n */\n get x() {\n return this._x;\n }\n set x(value) {\n this._x = value;\n this._onChangeCallback();\n }\n /**\n * The y value of this quaternion.\n *\n * @type {number}\n * @default 0\n */\n get y() {\n return this._y;\n }\n set y(value) {\n this._y = value;\n this._onChangeCallback();\n }\n /**\n * The z value of this quaternion.\n *\n * @type {number}\n * @default 0\n */\n get z() {\n return this._z;\n }\n set z(value) {\n this._z = value;\n this._onChangeCallback();\n }\n /**\n * The w value of this quaternion.\n *\n * @type {number}\n * @default 1\n */\n get w() {\n return this._w;\n }\n set w(value) {\n this._w = value;\n this._onChangeCallback();\n }\n /**\n * Sets the quaternion components.\n *\n * @param {number} x - The x value of this quaternion.\n * @param {number} y - The y value of this quaternion.\n * @param {number} z - The z value of this quaternion.\n * @param {number} w - The w value of this quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n set(x2, y, z, w) {\n this._x = x2;\n this._y = y;\n this._z = z;\n this._w = w;\n this._onChangeCallback();\n return this;\n }\n /**\n * Returns a new quaternion with copied values from this instance.\n *\n * @return {Quaternion} A clone of this instance.\n */\n clone() {\n return new this.constructor(this._x, this._y, this._z, this._w);\n }\n /**\n * Copies the values of the given quaternion to this instance.\n *\n * @param {Quaternion} quaternion - The quaternion to copy.\n * @return {Quaternion} A reference to this quaternion.\n */\n copy(quaternion) {\n this._x = quaternion.x;\n this._y = quaternion.y;\n this._z = quaternion.z;\n this._w = quaternion.w;\n this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion from the rotation specified by the given\n * Euler angles.\n *\n * @param {Euler} euler - The Euler angles.\n * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromEuler(euler, update = true) {\n const x2 = euler._x, y = euler._y, z = euler._z, order = euler._order;\n const cos = Math.cos;\n const sin = Math.sin;\n const c1 = cos(x2 / 2);\n const c2 = cos(y / 2);\n const c3 = cos(z / 2);\n const s1 = sin(x2 / 2);\n const s2 = sin(y / 2);\n const s3 = sin(z / 2);\n switch (order) {\n case "XYZ":\n this._x = s1 * c2 * c3 + c1 * s2 * s3;\n this._y = c1 * s2 * c3 - s1 * c2 * s3;\n this._z = c1 * c2 * s3 + s1 * s2 * c3;\n this._w = c1 * c2 * c3 - s1 * s2 * s3;\n break;\n case "YXZ":\n this._x = s1 * c2 * c3 + c1 * s2 * s3;\n this._y = c1 * s2 * c3 - s1 * c2 * s3;\n this._z = c1 * c2 * s3 - s1 * s2 * c3;\n this._w = c1 * c2 * c3 + s1 * s2 * s3;\n break;\n case "ZXY":\n this._x = s1 * c2 * c3 - c1 * s2 * s3;\n this._y = c1 * s2 * c3 + s1 * c2 * s3;\n this._z = c1 * c2 * s3 + s1 * s2 * c3;\n this._w = c1 * c2 * c3 - s1 * s2 * s3;\n break;\n case "ZYX":\n this._x = s1 * c2 * c3 - c1 * s2 * s3;\n this._y = c1 * s2 * c3 + s1 * c2 * s3;\n this._z = c1 * c2 * s3 - s1 * s2 * c3;\n this._w = c1 * c2 * c3 + s1 * s2 * s3;\n break;\n case "YZX":\n this._x = s1 * c2 * c3 + c1 * s2 * s3;\n this._y = c1 * s2 * c3 + s1 * c2 * s3;\n this._z = c1 * c2 * s3 - s1 * s2 * c3;\n this._w = c1 * c2 * c3 - s1 * s2 * s3;\n break;\n case "XZY":\n this._x = s1 * c2 * c3 - c1 * s2 * s3;\n this._y = c1 * s2 * c3 - s1 * c2 * s3;\n this._z = c1 * c2 * s3 + s1 * s2 * c3;\n this._w = c1 * c2 * c3 + s1 * s2 * s3;\n break;\n default:\n console.warn("THREE.Quaternion: .setFromEuler() encountered an unknown order: " + order);\n }\n if (update === true) this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion from the given axis and angle.\n *\n * @param {Vector3} axis - The normalized axis.\n * @param {number} angle - The angle in radians.\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromAxisAngle(axis, angle) {\n const halfAngle = angle / 2, s = Math.sin(halfAngle);\n this._x = axis.x * s;\n this._y = axis.y * s;\n this._z = axis.z * s;\n this._w = Math.cos(halfAngle);\n this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion from the given rotation matrix.\n *\n * @param {Matrix4} m - A 4x4 matrix of which the upper 3x3 of matrix is a pure rotation matrix (i.e. unscaled).\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromRotationMatrix(m) {\n const te = m.elements, m11 = te[0], m12 = te[4], m13 = te[8], m21 = te[1], m22 = te[5], m23 = te[9], m31 = te[2], m32 = te[6], m33 = te[10], trace = m11 + m22 + m33;\n if (trace > 0) {\n const s = 0.5 / Math.sqrt(trace + 1);\n this._w = 0.25 / s;\n this._x = (m32 - m23) * s;\n this._y = (m13 - m31) * s;\n this._z = (m21 - m12) * s;\n } else if (m11 > m22 && m11 > m33) {\n const s = 2 * Math.sqrt(1 + m11 - m22 - m33);\n this._w = (m32 - m23) / s;\n this._x = 0.25 * s;\n this._y = (m12 + m21) / s;\n this._z = (m13 + m31) / s;\n } else if (m22 > m33) {\n const s = 2 * Math.sqrt(1 + m22 - m11 - m33);\n this._w = (m13 - m31) / s;\n this._x = (m12 + m21) / s;\n this._y = 0.25 * s;\n this._z = (m23 + m32) / s;\n } else {\n const s = 2 * Math.sqrt(1 + m33 - m11 - m22);\n this._w = (m21 - m12) / s;\n this._x = (m13 + m31) / s;\n this._y = (m23 + m32) / s;\n this._z = 0.25 * s;\n }\n this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion to the rotation required to rotate the direction vector\n * `vFrom` to the direction vector `vTo`.\n *\n * @param {Vector3} vFrom - The first (normalized) direction vector.\n * @param {Vector3} vTo - The second (normalized) direction vector.\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromUnitVectors(vFrom, vTo) {\n let r = vFrom.dot(vTo) + 1;\n if (r < 1e-8) {\n r = 0;\n if (Math.abs(vFrom.x) > Math.abs(vFrom.z)) {\n this._x = -vFrom.y;\n this._y = vFrom.x;\n this._z = 0;\n this._w = r;\n } else {\n this._x = 0;\n this._y = -vFrom.z;\n this._z = vFrom.y;\n this._w = r;\n }\n } else {\n this._x = vFrom.y * vTo.z - vFrom.z * vTo.y;\n this._y = vFrom.z * vTo.x - vFrom.x * vTo.z;\n this._z = vFrom.x * vTo.y - vFrom.y * vTo.x;\n this._w = r;\n }\n return this.normalize();\n }\n /**\n * Returns the angle between this quaternion and the given one in radians.\n *\n * @param {Quaternion} q - The quaternion to compute the angle with.\n * @return {number} The angle in radians.\n */\n angleTo(q) {\n return 2 * Math.acos(Math.abs(clamp(this.dot(q), -1, 1)));\n }\n /**\n * Rotates this quaternion by a given angular step to the given quaternion.\n * The method ensures that the final quaternion will not overshoot `q`.\n *\n * @param {Quaternion} q - The target quaternion.\n * @param {number} step - The angular step in radians.\n * @return {Quaternion} A reference to this quaternion.\n */\n rotateTowards(q, step) {\n const angle = this.angleTo(q);\n if (angle === 0) return this;\n const t = Math.min(1, step / angle);\n this.slerp(q, t);\n return this;\n }\n /**\n * Sets this quaternion to the identity quaternion; that is, to the\n * quaternion that represents "no rotation".\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n identity() {\n return this.set(0, 0, 0, 1);\n }\n /**\n * Inverts this quaternion via {@link Quaternion#conjugate}. The\n * quaternion is assumed to have unit length.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n invert() {\n return this.conjugate();\n }\n /**\n * Returns the rotational conjugate of this quaternion. The conjugate of a\n * quaternion represents the same rotation in the opposite direction about\n * the rotational axis.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n conjugate() {\n this._x *= -1;\n this._y *= -1;\n this._z *= -1;\n this._onChangeCallback();\n return this;\n }\n /**\n * Calculates the dot product of this quaternion and the given one.\n *\n * @param {Quaternion} v - The quaternion to compute the dot product with.\n * @return {number} The result of the dot product.\n */\n dot(v) {\n return this._x * v._x + this._y * v._y + this._z * v._z + this._w * v._w;\n }\n /**\n * Computes the squared Euclidean length (straight-line length) of this quaternion,\n * considered as a 4 dimensional vector. This can be useful if you are comparing the\n * lengths of two quaternions, as this is a slightly more efficient calculation than\n * {@link Quaternion#length}.\n *\n * @return {number} The squared Euclidean length.\n */\n lengthSq() {\n return this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w;\n }\n /**\n * Computes the Euclidean length (straight-line length) of this quaternion,\n * considered as a 4 dimensional vector.\n *\n * @return {number} The Euclidean length.\n */\n length() {\n return Math.sqrt(this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w);\n }\n /**\n * Normalizes this quaternion - that is, calculated the quaternion that performs\n * the same rotation as this one, but has a length equal to `1`.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n normalize() {\n let l = this.length();\n if (l === 0) {\n this._x = 0;\n this._y = 0;\n this._z = 0;\n this._w = 1;\n } else {\n l = 1 / l;\n this._x = this._x * l;\n this._y = this._y * l;\n this._z = this._z * l;\n this._w = this._w * l;\n }\n this._onChangeCallback();\n return this;\n }\n /**\n * Multiplies this quaternion by the given one.\n *\n * @param {Quaternion} q - The quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n multiply(q) {\n return this.multiplyQuaternions(this, q);\n }\n /**\n * Pre-multiplies this quaternion by the given one.\n *\n * @param {Quaternion} q - The quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n premultiply(q) {\n return this.multiplyQuaternions(q, this);\n }\n /**\n * Multiplies the given quaternions and stores the result in this instance.\n *\n * @param {Quaternion} a - The first quaternion.\n * @param {Quaternion} b - The second quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n multiplyQuaternions(a, b) {\n const qax = a._x, qay = a._y, qaz = a._z, qaw = a._w;\n const qbx = b._x, qby = b._y, qbz = b._z, qbw = b._w;\n this._x = qax * qbw + qaw * qbx + qay * qbz - qaz * qby;\n this._y = qay * qbw + qaw * qby + qaz * qbx - qax * qbz;\n this._z = qaz * qbw + qaw * qbz + qax * qby - qay * qbx;\n this._w = qaw * qbw - qax * qbx - qay * qby - qaz * qbz;\n this._onChangeCallback();\n return this;\n }\n /**\n * Performs a spherical linear interpolation between quaternions.\n *\n * @param {Quaternion} qb - The target quaternion.\n * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n * @return {Quaternion} A reference to this quaternion.\n */\n slerp(qb, t) {\n if (t === 0) return this;\n if (t === 1) return this.copy(qb);\n const x2 = this._x, y = this._y, z = this._z, w = this._w;\n let cosHalfTheta = w * qb._w + x2 * qb._x + y * qb._y + z * qb._z;\n if (cosHalfTheta < 0) {\n this._w = -qb._w;\n this._x = -qb._x;\n this._y = -qb._y;\n this._z = -qb._z;\n cosHalfTheta = -cosHalfTheta;\n } else {\n this.copy(qb);\n }\n if (cosHalfTheta >= 1) {\n this._w = w;\n this._x = x2;\n this._y = y;\n this._z = z;\n return this;\n }\n const sqrSinHalfTheta = 1 - cosHalfTheta * cosHalfTheta;\n if (sqrSinHalfTheta <= Number.EPSILON) {\n const s = 1 - t;\n this._w = s * w + t * this._w;\n this._x = s * x2 + t * this._x;\n this._y = s * y + t * this._y;\n this._z = s * z + t * this._z;\n this.normalize();\n return this;\n }\n const sinHalfTheta = Math.sqrt(sqrSinHalfTheta);\n const halfTheta = Math.atan2(sinHalfTheta, cosHalfTheta);\n const ratioA = Math.sin((1 - t) * halfTheta) / sinHalfTheta, ratioB = Math.sin(t * halfTheta) / sinHalfTheta;\n this._w = w * ratioA + this._w * ratioB;\n this._x = x2 * ratioA + this._x * ratioB;\n this._y = y * ratioA + this._y * ratioB;\n this._z = z * ratioA + this._z * ratioB;\n this._onChangeCallback();\n return this;\n }\n /**\n * Performs a spherical linear interpolation between the given quaternions\n * and stores the result in this quaternion.\n *\n * @param {Quaternion} qa - The source quaternion.\n * @param {Quaternion} qb - The target quaternion.\n * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n * @return {Quaternion} A reference to this quaternion.\n */\n slerpQuaternions(qa, qb, t) {\n return this.copy(qa).slerp(qb, t);\n }\n /**\n * Sets this quaternion to a uniformly random, normalized quaternion.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n random() {\n const theta1 = 2 * Math.PI * Math.random();\n const theta2 = 2 * Math.PI * Math.random();\n const x0 = Math.random();\n const r1 = Math.sqrt(1 - x0);\n const r2 = Math.sqrt(x0);\n return this.set(\n r1 * Math.sin(theta1),\n r1 * Math.cos(theta1),\n r2 * Math.sin(theta2),\n r2 * Math.cos(theta2)\n );\n }\n /**\n * Returns `true` if this quaternion is equal with the given one.\n *\n * @param {Quaternion} quaternion - The quaternion to test for equality.\n * @return {boolean} Whether this quaternion is equal with the given one.\n */\n equals(quaternion) {\n return quaternion._x === this._x && quaternion._y === this._y && quaternion._z === this._z && quaternion._w === this._w;\n }\n /**\n * Sets this quaternion\'s components from the given array.\n *\n * @param {Array} array - An array holding the quaternion component values.\n * @param {number} [offset=0] - The offset into the array.\n * @return {Quaternion} A reference to this quaternion.\n */\n fromArray(array, offset = 0) {\n this._x = array[offset];\n this._y = array[offset + 1];\n this._z = array[offset + 2];\n this._w = array[offset + 3];\n this._onChangeCallback();\n return this;\n }\n /**\n * Writes the components of this quaternion to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the quaternion components.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The quaternion components.\n */\n toArray(array = [], offset = 0) {\n array[offset] = this._x;\n array[offset + 1] = this._y;\n array[offset + 2] = this._z;\n array[offset + 3] = this._w;\n return array;\n }\n /**\n * Sets the components of this quaternion from the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - The buffer attribute holding quaternion data.\n * @param {number} index - The index into the attribute.\n * @return {Quaternion} A reference to this quaternion.\n */\n fromBufferAttribute(attribute, index) {\n this._x = attribute.getX(index);\n this._y = attribute.getY(index);\n this._z = attribute.getZ(index);\n this._w = attribute.getW(index);\n this._onChangeCallback();\n return this;\n }\n /**\n * This methods defines the serialization result of this class. Returns the\n * numerical elements of this quaternion in an array of format `[x, y, z, w]`.\n *\n * @return {Array} The serialized quaternion.\n */\n toJSON() {\n return this.toArray();\n }\n _onChange(callback) {\n this._onChangeCallback = callback;\n return this;\n }\n _onChangeCallback() {\n }\n *[Symbol.iterator]() {\n yield this._x;\n yield this._y;\n yield this._z;\n yield this._w;\n }\n }\n class Vector3 {\n /**\n * Constructs a new 3D vector.\n *\n * @param {number} [x=0] - The x value of this vector.\n * @param {number} [y=0] - The y value of this vector.\n * @param {number} [z=0] - The z value of this vector.\n */\n constructor(x2 = 0, y = 0, z = 0) {\n Vector3.prototype.isVector3 = true;\n this.x = x2;\n this.y = y;\n this.z = z;\n }\n /**\n * Sets the vector components.\n *\n * @param {number} x - The value of the x component.\n * @param {number} y - The value of the y component.\n * @param {number} z - The value of the z component.\n * @return {Vector3} A reference to this vector.\n */\n set(x2, y, z) {\n if (z === void 0) z = this.z;\n this.x = x2;\n this.y = y;\n this.z = z;\n return this;\n }\n /**\n * Sets the vector components to the same value.\n *\n * @param {number} scalar - The value to set for all vector components.\n * @return {Vector3} A reference to this vector.\n */\n setScalar(scalar) {\n this.x = scalar;\n this.y = scalar;\n this.z = scalar;\n return this;\n }\n /**\n * Sets the vector\'s x component to the given value\n *\n * @param {number} x - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setX(x2) {\n this.x = x2;\n return this;\n }\n /**\n * Sets the vector\'s y component to the given value\n *\n * @param {number} y - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setY(y) {\n this.y = y;\n return this;\n }\n /**\n * Sets the vector\'s z component to the given value\n *\n * @param {number} z - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setZ(z) {\n this.z = z;\n return this;\n }\n /**\n * Allows to set a vector component with an index.\n *\n * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n * @param {number} value - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setComponent(index, value) {\n switch (index) {\n case 0:\n this.x = value;\n break;\n case 1:\n this.y = value;\n break;\n case 2:\n this.z = value;\n break;\n default:\n throw new Error("index is out of range: " + index);\n }\n return this;\n }\n /**\n * Returns the value of the vector component which matches the given index.\n *\n * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n * @return {number} A vector component value.\n */\n getComponent(index) {\n switch (index) {\n case 0:\n return this.x;\n case 1:\n return this.y;\n case 2:\n return this.z;\n default:\n throw new Error("index is out of range: " + index);\n }\n }\n /**\n * Returns a new vector with copied values from this instance.\n *\n * @return {Vector3} A clone of this instance.\n */\n clone() {\n return new this.constructor(this.x, this.y, this.z);\n }\n /**\n * Copies the values of the given vector to this instance.\n *\n * @param {Vector3} v - The vector to copy.\n * @return {Vector3} A reference to this vector.\n */\n copy(v) {\n this.x = v.x;\n this.y = v.y;\n this.z = v.z;\n return this;\n }\n /**\n * Adds the given vector to this instance.\n *\n * @param {Vector3} v - The vector to add.\n * @return {Vector3} A reference to this vector.\n */\n add(v) {\n this.x += v.x;\n this.y += v.y;\n this.z += v.z;\n return this;\n }\n /**\n * Adds the given scalar value to all components of this instance.\n *\n * @param {number} s - The scalar to add.\n * @return {Vector3} A reference to this vector.\n */\n addScalar(s) {\n this.x += s;\n this.y += s;\n this.z += s;\n return this;\n }\n /**\n * Adds the given vectors and stores the result in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n addVectors(a, b) {\n this.x = a.x + b.x;\n this.y = a.y + b.y;\n this.z = a.z + b.z;\n return this;\n }\n /**\n * Adds the given vector scaled by the given factor to this instance.\n *\n * @param {Vector3|Vector4} v - The vector.\n * @param {number} s - The factor that scales `v`.\n * @return {Vector3} A reference to this vector.\n */\n addScaledVector(v, s) {\n this.x += v.x * s;\n this.y += v.y * s;\n this.z += v.z * s;\n return this;\n }\n /**\n * Subtracts the given vector from this instance.\n *\n * @param {Vector3} v - The vector to subtract.\n * @return {Vector3} A reference to this vector.\n */\n sub(v) {\n this.x -= v.x;\n this.y -= v.y;\n this.z -= v.z;\n return this;\n }\n /**\n * Subtracts the given scalar value from all components of this instance.\n *\n * @param {number} s - The scalar to subtract.\n * @return {Vector3} A reference to this vector.\n */\n subScalar(s) {\n this.x -= s;\n this.y -= s;\n this.z -= s;\n return this;\n }\n /**\n * Subtracts the given vectors and stores the result in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n subVectors(a, b) {\n this.x = a.x - b.x;\n this.y = a.y - b.y;\n this.z = a.z - b.z;\n return this;\n }\n /**\n * Multiplies the given vector with this instance.\n *\n * @param {Vector3} v - The vector to multiply.\n * @return {Vector3} A reference to this vector.\n */\n multiply(v) {\n this.x *= v.x;\n this.y *= v.y;\n this.z *= v.z;\n return this;\n }\n /**\n * Multiplies the given scalar value with all components of this instance.\n *\n * @param {number} scalar - The scalar to multiply.\n * @return {Vector3} A reference to this vector.\n */\n multiplyScalar(scalar) {\n this.x *= scalar;\n this.y *= scalar;\n this.z *= scalar;\n return this;\n }\n /**\n * Multiplies the given vectors and stores the result in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n multiplyVectors(a, b) {\n this.x = a.x * b.x;\n this.y = a.y * b.y;\n this.z = a.z * b.z;\n return this;\n }\n /**\n * Applies the given Euler rotation to this vector.\n *\n * @param {Euler} euler - The Euler angles.\n * @return {Vector3} A reference to this vector.\n */\n applyEuler(euler) {\n return this.applyQuaternion(_quaternion$4.setFromEuler(euler));\n }\n /**\n * Applies a rotation specified by an axis and an angle to this vector.\n *\n * @param {Vector3} axis - A normalized vector representing the rotation axis.\n * @param {number} angle - The angle in radians.\n * @return {Vector3} A reference to this vector.\n */\n applyAxisAngle(axis, angle) {\n return this.applyQuaternion(_quaternion$4.setFromAxisAngle(axis, angle));\n }\n /**\n * Multiplies this vector with the given 3x3 matrix.\n *\n * @param {Matrix3} m - The 3x3 matrix.\n * @return {Vector3} A reference to this vector.\n */\n applyMatrix3(m) {\n const x2 = this.x, y = this.y, z = this.z;\n const e = m.elements;\n this.x = e[0] * x2 + e[3] * y + e[6] * z;\n this.y = e[1] * x2 + e[4] * y + e[7] * z;\n this.z = e[2] * x2 + e[5] * y + e[8] * z;\n return this;\n }\n /**\n * Multiplies this vector by the given normal matrix and normalizes\n * the result.\n *\n * @param {Matrix3} m - The normal matrix.\n * @return {Vector3} A reference to this vector.\n */\n applyNormalMatrix(m) {\n return this.applyMatrix3(m).normalize();\n }\n /**\n * Multiplies this vector (with an implicit 1 in the 4th dimension) by m, and\n * divides by perspective.\n *\n * @param {Matrix4} m - The matrix to apply.\n * @return {Vector3} A reference to this vector.\n */\n applyMatrix4(m) {\n const x2 = this.x, y = this.y, z = this.z;\n const e = m.elements;\n const w = 1 / (e[3] * x2 + e[7] * y + e[11] * z + e[15]);\n this.x = (e[0] * x2 + e[4] * y + e[8] * z + e[12]) * w;\n this.y = (e[1] * x2 + e[5] * y + e[9] * z + e[13]) * w;\n this.z = (e[2] * x2 + e[6] * y + e[10] * z + e[14]) * w;\n return this;\n }\n /**\n * Applies the given Quaternion to this vector.\n *\n * @param {Quaternion} q - The Quaternion.\n * @return {Vector3} A reference to this vector.\n */\n applyQuaternion(q) {\n const vx = this.x, vy = this.y, vz = this.z;\n const qx = q.x, qy = q.y, qz = q.z, qw = q.w;\n const tx = 2 * (qy * vz - qz * vy);\n const ty = 2 * (qz * vx - qx * vz);\n const tz = 2 * (qx * vy - qy * vx);\n this.x = vx + qw * tx + qy * tz - qz * ty;\n this.y = vy + qw * ty + qz * tx - qx * tz;\n this.z = vz + qw * tz + qx * ty - qy * tx;\n return this;\n }\n /**\n * Projects this vector from world space into the camera\'s normalized\n * device coordinate (NDC) space.\n *\n * @param {Camera} camera - The camera.\n * @return {Vector3} A reference to this vector.\n */\n project(camera) {\n return this.applyMatrix4(camera.matrixWorldInverse).applyMatrix4(camera.projectionMatrix);\n }\n /**\n * Unprojects this vector from the camera\'s normalized device coordinate (NDC)\n * space into world space.\n *\n * @param {Camera} camera - The camera.\n * @return {Vector3} A reference to this vector.\n */\n unproject(camera) {\n return this.applyMatrix4(camera.projectionMatrixInverse).applyMatrix4(camera.matrixWorld);\n }\n /**\n * Transforms the direction of this vector by a matrix (the upper left 3 x 3\n * subset of the given 4x4 matrix and then normalizes the result.\n *\n * @param {Matrix4} m - The matrix.\n * @return {Vector3} A reference to this vector.\n */\n transformDirection(m) {\n const x2 = this.x, y = this.y, z = this.z;\n const e = m.elements;\n this.x = e[0] * x2 + e[4] * y + e[8] * z;\n this.y = e[1] * x2 + e[5] * y + e[9] * z;\n this.z = e[2] * x2 + e[6] * y + e[10] * z;\n return this.normalize();\n }\n /**\n * Divides this instance by the given vector.\n *\n * @param {Vector3} v - The vector to divide.\n * @return {Vector3} A reference to this vector.\n */\n divide(v) {\n this.x /= v.x;\n this.y /= v.y;\n this.z /= v.z;\n return this;\n }\n /**\n * Divides this vector by the given scalar.\n *\n * @param {number} scalar - The scalar to divide.\n * @return {Vector3} A reference to this vector.\n */\n divideScalar(scalar) {\n return this.multiplyScalar(1 / scalar);\n }\n /**\n * If this vector\'s x, y or z value is greater than the given vector\'s x, y or z\n * value, replace that value with the corresponding min value.\n *\n * @param {Vector3} v - The vector.\n * @return {Vector3} A reference to this vector.\n */\n min(v) {\n this.x = Math.min(this.x, v.x);\n this.y = Math.min(this.y, v.y);\n this.z = Math.min(this.z, v.z);\n return this;\n }\n /**\n * If this vector\'s x, y or z value is less than the given vector\'s x, y or z\n * value, replace that value with the corresponding max value.\n *\n * @param {Vector3} v - The vector.\n * @return {Vector3} A reference to this vector.\n */\n max(v) {\n this.x = Math.max(this.x, v.x);\n this.y = Math.max(this.y, v.y);\n this.z = Math.max(this.z, v.z);\n return this;\n }\n /**\n * If this vector\'s x, y or z value is greater than the max vector\'s x, y or z\n * value, it is replaced by the corresponding value.\n * If this vector\'s x, y or z value is less than the min vector\'s x, y or z value,\n * it is replaced by the corresponding value.\n *\n * @param {Vector3} min - The minimum x, y and z values.\n * @param {Vector3} max - The maximum x, y and z values in the desired range.\n * @return {Vector3} A reference to this vector.\n */\n clamp(min, max2) {\n this.x = clamp(this.x, min.x, max2.x);\n this.y = clamp(this.y, min.y, max2.y);\n this.z = clamp(this.z, min.z, max2.z);\n return this;\n }\n /**\n * If this vector\'s x, y or z values are greater than the max value, they are\n * replaced by the max value.\n * If this vector\'s x, y or z values are less than the min value, they are\n * replaced by the min value.\n *\n * @param {number} minVal - The minimum value the components will be clamped to.\n * @param {number} maxVal - The maximum value the components will be clamped to.\n * @return {Vector3} A reference to this vector.\n */\n clampScalar(minVal, maxVal) {\n this.x = clamp(this.x, minVal, maxVal);\n this.y = clamp(this.y, minVal, maxVal);\n this.z = clamp(this.z, minVal, maxVal);\n return this;\n }\n /**\n * If this vector\'s length is greater than the max value, it is replaced by\n * the max value.\n * If this vector\'s length is less than the min value, it is replaced by the\n * min value.\n *\n * @param {number} min - The minimum value the vector length will be clamped to.\n * @param {number} max - The maximum value the vector length will be clamped to.\n * @return {Vector3} A reference to this vector.\n */\n clampLength(min, max2) {\n const length = this.length();\n return this.divideScalar(length || 1).multiplyScalar(clamp(length, min, max2));\n }\n /**\n * The components of this vector are rounded down to the nearest integer value.\n *\n * @return {Vector3} A reference to this vector.\n */\n floor() {\n this.x = Math.floor(this.x);\n this.y = Math.floor(this.y);\n this.z = Math.floor(this.z);\n return this;\n }\n /**\n * The components of this vector are rounded up to the nearest integer value.\n *\n * @return {Vector3} A reference to this vector.\n */\n ceil() {\n this.x = Math.ceil(this.x);\n this.y = Math.ceil(this.y);\n this.z = Math.ceil(this.z);\n return this;\n }\n /**\n * The components of this vector are rounded to the nearest integer value\n *\n * @return {Vector3} A reference to this vector.\n */\n round() {\n this.x = Math.round(this.x);\n this.y = Math.round(this.y);\n this.z = Math.round(this.z);\n return this;\n }\n /**\n * The components of this vector are rounded towards zero (up if negative,\n * down if positive) to an integer value.\n *\n * @return {Vector3} A reference to this vector.\n */\n roundToZero() {\n this.x = Math.trunc(this.x);\n this.y = Math.trunc(this.y);\n this.z = Math.trunc(this.z);\n return this;\n }\n /**\n * Inverts this vector - i.e. sets x = -x, y = -y and z = -z.\n *\n * @return {Vector3} A reference to this vector.\n */\n negate() {\n this.x = -this.x;\n this.y = -this.y;\n this.z = -this.z;\n return this;\n }\n /**\n * Calculates the dot product of the given vector with this instance.\n *\n * @param {Vector3} v - The vector to compute the dot product with.\n * @return {number} The result of the dot product.\n */\n dot(v) {\n return this.x * v.x + this.y * v.y + this.z * v.z;\n }\n // TODO lengthSquared?\n /**\n * Computes the square of the Euclidean length (straight-line length) from\n * (0, 0, 0) to (x, y, z). If you are comparing the lengths of vectors, you should\n * compare the length squared instead as it is slightly more efficient to calculate.\n *\n * @return {number} The square length of this vector.\n */\n lengthSq() {\n return this.x * this.x + this.y * this.y + this.z * this.z;\n }\n /**\n * Computes the Euclidean length (straight-line length) from (0, 0, 0) to (x, y, z).\n *\n * @return {number} The length of this vector.\n */\n length() {\n return Math.sqrt(this.x * this.x + this.y * this.y + this.z * this.z);\n }\n /**\n * Computes the Manhattan length of this vector.\n *\n * @return {number} The length of this vector.\n */\n manhattanLength() {\n return Math.abs(this.x) + Math.abs(this.y) + Math.abs(this.z);\n }\n /**\n * Converts this vector to a unit vector - that is, sets it equal to a vector\n * with the same direction as this one, but with a vector length of `1`.\n *\n * @return {Vector3} A reference to this vector.\n */\n normalize() {\n return this.divideScalar(this.length() || 1);\n }\n /**\n * Sets this vector to a vector with the same direction as this one, but\n * with the specified length.\n *\n * @param {number} length - The new length of this vector.\n * @return {Vector3} A reference to this vector.\n */\n setLength(length) {\n return this.normalize().multiplyScalar(length);\n }\n /**\n * Linearly interpolates between the given vector and this instance, where\n * alpha is the percent distance along the line - alpha = 0 will be this\n * vector, and alpha = 1 will be the given one.\n *\n * @param {Vector3} v - The vector to interpolate towards.\n * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n * @return {Vector3} A reference to this vector.\n */\n lerp(v, alpha) {\n this.x += (v.x - this.x) * alpha;\n this.y += (v.y - this.y) * alpha;\n this.z += (v.z - this.z) * alpha;\n return this;\n }\n /**\n * Linearly interpolates between the given vectors, where alpha is the percent\n * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n * be the second one. The result is stored in this instance.\n *\n * @param {Vector3} v1 - The first vector.\n * @param {Vector3} v2 - The second vector.\n * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n * @return {Vector3} A reference to this vector.\n */\n lerpVectors(v1, v2, alpha) {\n this.x = v1.x + (v2.x - v1.x) * alpha;\n this.y = v1.y + (v2.y - v1.y) * alpha;\n this.z = v1.z + (v2.z - v1.z) * alpha;\n return this;\n }\n /**\n * Calculates the cross product of the given vector with this instance.\n *\n * @param {Vector3} v - The vector to compute the cross product with.\n * @return {Vector3} The result of the cross product.\n */\n cross(v) {\n return this.crossVectors(this, v);\n }\n /**\n * Calculates the cross product of the given vectors and stores the result\n * in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n crossVectors(a, b) {\n const ax = a.x, ay = a.y, az = a.z;\n const bx = b.x, by = b.y, bz = b.z;\n this.x = ay * bz - az * by;\n this.y = az * bx - ax * bz;\n this.z = ax * by - ay * bx;\n return this;\n }\n /**\n * Projects this vector onto the given one.\n *\n * @param {Vector3} v - The vector to project to.\n * @return {Vector3} A reference to this vector.\n */\n projectOnVector(v) {\n const denominator = v.lengthSq();\n if (denominator === 0) return this.set(0, 0, 0);\n const scalar = v.dot(this) / denominator;\n return this.copy(v).multiplyScalar(scalar);\n }\n /**\n * Projects this vector onto a plane by subtracting this\n * vector projected onto the plane\'s normal from this vector.\n *\n * @param {Vector3} planeNormal - The plane normal.\n * @return {Vector3} A reference to this vector.\n */\n projectOnPlane(planeNormal) {\n _vector$c.copy(this).projectOnVector(planeNormal);\n return this.sub(_vector$c);\n }\n /**\n * Reflects this vector off a plane orthogonal to the given normal vector.\n *\n * @param {Vector3} normal - The (normalized) normal vector.\n * @return {Vector3} A reference to this vector.\n */\n reflect(normal) {\n return this.sub(_vector$c.copy(normal).multiplyScalar(2 * this.dot(normal)));\n }\n /**\n * Returns the angle between the given vector and this instance in radians.\n *\n * @param {Vector3} v - The vector to compute the angle with.\n * @return {number} The angle in radians.\n */\n angleTo(v) {\n const denominator = Math.sqrt(this.lengthSq() * v.lengthSq());\n if (denominator === 0) return Math.PI / 2;\n const theta = this.dot(v) / denominator;\n return Math.acos(clamp(theta, -1, 1));\n }\n /**\n * Computes the distance from the given vector to this instance.\n *\n * @param {Vector3} v - The vector to compute the distance to.\n * @return {number} The distance.\n */\n distanceTo(v) {\n return Math.sqrt(this.distanceToSquared(v));\n }\n /**\n * Computes the squared distance from the given vector to this instance.\n * If you are just comparing the distance with another distance, you should compare\n * the distance squared instead as it is slightly more efficient to calculate.\n *\n * @param {Vector3} v - The vector to compute the squared distance to.\n * @return {number} The squared distance.\n */\n distanceToSquared(v) {\n const dx = this.x - v.x, dy = this.y - v.y, dz = this.z - v.z;\n return dx * dx + dy * dy + dz * dz;\n }\n /**\n * Computes the Manhattan distance from the given vector to this instance.\n *\n * @param {Vector3} v - The vector to compute the Manhattan distance to.\n * @return {number} The Manhattan distance.\n */\n manhattanDistanceTo(v) {\n return Math.abs(this.x - v.x) + Math.abs(this.y - v.y) + Math.abs(this.z - v.z);\n }\n /**\n * Sets the vector components from the given spherical coordinates.\n *\n * @param {Spherical} s - The spherical coordinates.\n * @return {Vector3} A reference to this vector.\n */\n setFromSpherical(s) {\n return this.setFromSphericalCoords(s.radius, s.phi, s.theta);\n }\n /**\n * Sets the vector components from the given spherical coordinates.\n *\n * @param {number} radius - The radius.\n * @param {number} phi - The phi angle in radians.\n * @param {number} theta - The theta angle in radians.\n * @return {Vector3} A reference to this vector.\n */\n setFromSphericalCoords(radius, phi, theta) {\n const sinPhiRadius = Math.sin(phi) * radius;\n this.x = sinPhiRadius * Math.sin(theta);\n this.y = Math.cos(phi) * radius;\n this.z = sinPhiRadius * Math.cos(theta);\n return this;\n }\n /**\n * Sets the vector components from the given cylindrical coordinates.\n *\n * @param {Cylindrical} c - The cylindrical coordinates.\n * @return {Vector3} A reference to this vector.\n */\n setFromCylindrical(c) {\n return this.setFromCylindricalCoords(c.radius, c.theta, c.y);\n }\n /**\n * Sets the vector components from the given cylindrical coordinates.\n *\n * @param {number} radius - The radius.\n * @param {number} theta - The theta angle in radians.\n * @param {number} y - The y value.\n * @return {Vector3} A reference to this vector.\n */\n setFromCylindricalCoords(radius, theta, y) {\n this.x = radius * Math.sin(theta);\n this.y = y;\n this.z = radius * Math.cos(theta);\n return this;\n }\n /**\n * Sets the vector components to the position elements of the\n * given transformation matrix.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrixPosition(m) {\n const e = m.elements;\n this.x = e[12];\n this.y = e[13];\n this.z = e[14];\n return this;\n }\n /**\n * Sets the vector components to the scale elements of the\n * given transformation matrix.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrixScale(m) {\n const sx = this.setFromMatrixColumn(m, 0).length();\n const sy = this.setFromMatrixColumn(m, 1).length();\n const sz = this.setFromMatrixColumn(m, 2).length();\n this.x = sx;\n this.y = sy;\n this.z = sz;\n return this;\n }\n /**\n * Sets the vector components from the specified matrix column.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @param {number} index - The column index.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrixColumn(m, index) {\n return this.fromArray(m.elements, index * 4);\n }\n /**\n * Sets the vector components from the specified matrix column.\n *\n * @param {Matrix3} m - The 3x3 matrix.\n * @param {number} index - The column index.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrix3Column(m, index) {\n return this.fromArray(m.elements, index * 3);\n }\n /**\n * Sets the vector components from the given Euler angles.\n *\n * @param {Euler} e - The Euler angles to set.\n * @return {Vector3} A reference to this vector.\n */\n setFromEuler(e) {\n this.x = e._x;\n this.y = e._y;\n this.z = e._z;\n return this;\n }\n /**\n * Sets the vector components from the RGB components of the\n * given color.\n *\n * @param {Color} c - The color to set.\n * @return {Vector3} A reference to this vector.\n */\n setFromColor(c) {\n this.x = c.r;\n this.y = c.g;\n this.z = c.b;\n return this;\n }\n /**\n * Returns `true` if this vector is equal with the given one.\n *\n * @param {Vector3} v - The vector to test for equality.\n * @return {boolean} Whether this vector is equal with the given one.\n */\n equals(v) {\n return v.x === this.x && v.y === this.y && v.z === this.z;\n }\n /**\n * Sets this vector\'s x value to be `array[ offset ]`, y value to be `array[ offset + 1 ]`\n * and z value to be `array[ offset + 2 ]`.\n *\n * @param {Array} array - An array holding the vector component values.\n * @param {number} [offset=0] - The offset into the array.\n * @return {Vector3} A reference to this vector.\n */\n fromArray(array, offset = 0) {\n this.x = array[offset];\n this.y = array[offset + 1];\n this.z = array[offset + 2];\n return this;\n }\n /**\n * Writes the components of this vector to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the vector components.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The vector components.\n */\n toArray(array = [], offset = 0) {\n array[offset] = this.x;\n array[offset + 1] = this.y;\n array[offset + 2] = this.z;\n return array;\n }\n /**\n * Sets the components of this vector from the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n * @param {number} index - The index into the attribute.\n * @return {Vector3} A reference to this vector.\n */\n fromBufferAttribute(attribute, index) {\n this.x = attribute.getX(index);\n this.y = attribute.getY(index);\n this.z = attribute.getZ(index);\n return this;\n }\n /**\n * Sets each component of this vector to a pseudo-random value between `0` and\n * `1`, excluding `1`.\n *\n * @return {Vector3} A reference to this vector.\n */\n random() {\n this.x = Math.random();\n this.y = Math.random();\n this.z = Math.random();\n return this;\n }\n /**\n * Sets this vector to a uniformly random point on a unit sphere.\n *\n * @return {Vector3} A reference to this vector.\n */\n randomDirection() {\n const theta = Math.random() * Math.PI * 2;\n const u = Math.random() * 2 - 1;\n const c = Math.sqrt(1 - u * u);\n this.x = c * Math.cos(theta);\n this.y = u;\n this.z = c * Math.sin(theta);\n return this;\n }\n *[Symbol.iterator]() {\n yield this.x;\n yield this.y;\n yield this.z;\n }\n }\n const _vector$c = /* @__PURE__ */ new Vector3();\n const _quaternion$4 = /* @__PURE__ */ new Quaternion();\n class Matrix3 {\n /**\n * Constructs a new 3x3 matrix. The arguments are supposed to be\n * in row-major order. If no arguments are provided, the constructor\n * initializes the matrix as an identity matrix.\n *\n * @param {number} [n11] - 1-1 matrix element.\n * @param {number} [n12] - 1-2 matrix element.\n * @param {number} [n13] - 1-3 matrix element.\n * @param {number} [n21] - 2-1 matrix element.\n * @param {number} [n22] - 2-2 matrix element.\n * @param {number} [n23] - 2-3 matrix element.\n * @param {number} [n31] - 3-1 matrix element.\n * @param {number} [n32] - 3-2 matrix element.\n * @param {number} [n33] - 3-3 matrix element.\n */\n constructor(n11, n12, n13, n21, n22, n23, n31, n32, n33) {\n Matrix3.prototype.isMatrix3 = true;\n this.elements = [\n 1,\n 0,\n 0,\n 0,\n 1,\n 0,\n 0,\n 0,\n 1\n ];\n if (n11 !== void 0) {\n this.set(n11, n12, n13, n21, n22, n23, n31, n32, n33);\n }\n }\n /**\n * Sets the elements of the matrix.The arguments are supposed to be\n * in row-major order.\n *\n * @param {number} [n11] - 1-1 matrix element.\n * @param {number} [n12] - 1-2 matrix element.\n * @param {number} [n13] - 1-3 matrix element.\n * @param {number} [n21] - 2-1 matrix element.\n * @param {number} [n22] - 2-2 matrix element.\n * @param {number} [n23] - 2-3 matrix element.\n * @param {number} [n31] - 3-1 matrix element.\n * @param {number} [n32] - 3-2 matrix element.\n * @param {number} [n33] - 3-3 matrix element.\n * @return {Matrix3} A reference to this matrix.\n */\n set(n11, n12, n13, n21, n22, n23, n31, n32, n33) {\n const te = this.elements;\n te[0] = n11;\n te[1] = n21;\n te[2] = n31;\n te[3] = n12;\n te[4] = n22;\n te[5] = n32;\n te[6] = n13;\n te[7] = n23;\n te[8] = n33;\n return this;\n }\n /**\n * Sets this matrix to the 3x3 identity matrix.\n *\n * @return {Matrix3} A reference to this matrix.\n */\n identity() {\n this.set(\n 1,\n 0,\n 0,\n 0,\n 1,\n 0,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Copies the values of the given matrix to this instance.\n *\n * @param {Matrix3} m - The matrix to copy.\n * @return {Matrix3} A reference to this matrix.\n */\n copy(m) {\n const te = this.elements;\n const me = m.elements;\n te[0] = me[0];\n te[1] = me[1];\n te[2] = me[2];\n te[3] = me[3];\n te[4] = me[4];\n te[5] = me[5];\n te[6] = me[6];\n te[7] = me[7];\n te[8] = me[8];\n return this;\n }\n /**\n * Extracts the basis of this matrix into the three axis vectors provided.\n *\n * @param {Vector3} xAxis - The basis\'s x axis.\n * @param {Vector3} yAxis - The basis\'s y axis.\n * @param {Vector3} zAxis - The basis\'s z axis.\n * @return {Matrix3} A reference to this matrix.\n */\n extractBasis(xAxis, yAxis, zAxis) {\n xAxis.setFromMatrix3Column(this, 0);\n yAxis.setFromMatrix3Column(this, 1);\n zAxis.setFromMatrix3Column(this, 2);\n return this;\n }\n /**\n * Set this matrix to the upper 3x3 matrix of the given 4x4 matrix.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @return {Matrix3} A reference to this matrix.\n */\n setFromMatrix4(m) {\n const me = m.elements;\n this.set(\n me[0],\n me[4],\n me[8],\n me[1],\n me[5],\n me[9],\n me[2],\n me[6],\n me[10]\n );\n return this;\n }\n /**\n * Post-multiplies this matrix by the given 3x3 matrix.\n *\n * @param {Matrix3} m - The matrix to multiply with.\n * @return {Matrix3} A reference to this matrix.\n */\n multiply(m) {\n return this.multiplyMatrices(this, m);\n }\n /**\n * Pre-multiplies this matrix by the given 3x3 matrix.\n *\n * @param {Matrix3} m - The matrix to multiply with.\n * @return {Matrix3} A reference to this matrix.\n */\n premultiply(m) {\n return this.multiplyMatrices(m, this);\n }\n /**\n * Multiples the given 3x3 matrices and stores the result\n * in this matrix.\n *\n * @param {Matrix3} a - The first matrix.\n * @param {Matrix3} b - The second matrix.\n * @return {Matrix3} A reference to this matrix.\n */\n multiplyMatrices(a, b) {\n const ae = a.elements;\n const be = b.elements;\n const te = this.elements;\n const a11 = ae[0], a12 = ae[3], a13 = ae[6];\n const a21 = ae[1], a22 = ae[4], a23 = ae[7];\n const a31 = ae[2], a32 = ae[5], a33 = ae[8];\n const b11 = be[0], b12 = be[3], b13 = be[6];\n const b21 = be[1], b22 = be[4], b23 = be[7];\n const b31 = be[2], b32 = be[5], b33 = be[8];\n te[0] = a11 * b11 + a12 * b21 + a13 * b31;\n te[3] = a11 * b12 + a12 * b22 + a13 * b32;\n te[6] = a11 * b13 + a12 * b23 + a13 * b33;\n te[1] = a21 * b11 + a22 * b21 + a23 * b31;\n te[4] = a21 * b12 + a22 * b22 + a23 * b32;\n te[7] = a21 * b13 + a22 * b23 + a23 * b33;\n te[2] = a31 * b11 + a32 * b21 + a33 * b31;\n te[5] = a31 * b12 + a32 * b22 + a33 * b32;\n te[8] = a31 * b13 + a32 * b23 + a33 * b33;\n return this;\n }\n /**\n * Multiplies every component of the matrix by the given scalar.\n *\n * @param {number} s - The scalar.\n * @return {Matrix3} A reference to this matrix.\n */\n multiplyScalar(s) {\n const te = this.elements;\n te[0] *= s;\n te[3] *= s;\n te[6] *= s;\n te[1] *= s;\n te[4] *= s;\n te[7] *= s;\n te[2] *= s;\n te[5] *= s;\n te[8] *= s;\n return this;\n }\n /**\n * Computes and returns the determinant of this matrix.\n *\n * @return {number} The determinant.\n */\n determinant() {\n const te = this.elements;\n const a = te[0], b = te[1], c = te[2], d = te[3], e = te[4], f = te[5], g = te[6], h = te[7], i2 = te[8];\n return a * e * i2 - a * f * h - b * d * i2 + b * f * g + c * d * h - c * e * g;\n }\n /**\n * Inverts this matrix, using the [analytic method]{@link https://en.wikipedia.org/wiki/Invertible_matrix#Analytic_solution}.\n * You can not invert with a determinant of zero. If you attempt this, the method produces\n * a zero matrix instead.\n *\n * @return {Matrix3} A reference to this matrix.\n */\n invert() {\n const te = this.elements, n11 = te[0], n21 = te[1], n31 = te[2], n12 = te[3], n22 = te[4], n32 = te[5], n13 = te[6], n23 = te[7], n33 = te[8], t11 = n33 * n22 - n32 * n23, t12 = n32 * n13 - n33 * n12, t13 = n23 * n12 - n22 * n13, det = n11 * t11 + n21 * t12 + n31 * t13;\n if (det === 0) return this.set(0, 0, 0, 0, 0, 0, 0, 0, 0);\n const detInv = 1 / det;\n te[0] = t11 * detInv;\n te[1] = (n31 * n23 - n33 * n21) * detInv;\n te[2] = (n32 * n21 - n31 * n22) * detInv;\n te[3] = t12 * detInv;\n te[4] = (n33 * n11 - n31 * n13) * detInv;\n te[5] = (n31 * n12 - n32 * n11) * detInv;\n te[6] = t13 * detInv;\n te[7] = (n21 * n13 - n23 * n11) * detInv;\n te[8] = (n22 * n11 - n21 * n12) * detInv;\n return this;\n }\n /**\n * Transposes this matrix in place.\n *\n * @return {Matrix3} A reference to this matrix.\n */\n transpose() {\n let tmp;\n const m = this.elements;\n tmp = m[1];\n m[1] = m[3];\n m[3] = tmp;\n tmp = m[2];\n m[2] = m[6];\n m[6] = tmp;\n tmp = m[5];\n m[5] = m[7];\n m[7] = tmp;\n return this;\n }\n /**\n * Computes the normal matrix which is the inverse transpose of the upper\n * left 3x3 portion of the given 4x4 matrix.\n *\n * @param {Matrix4} matrix4 - The 4x4 matrix.\n * @return {Matrix3} A reference to this matrix.\n */\n getNormalMatrix(matrix4) {\n return this.setFromMatrix4(matrix4).invert().transpose();\n }\n /**\n * Transposes this matrix into the supplied array, and returns itself unchanged.\n *\n * @param {Array} r - An array to store the transposed matrix elements.\n * @return {Matrix3} A reference to this matrix.\n */\n transposeIntoArray(r) {\n const m = this.elements;\n r[0] = m[0];\n r[1] = m[3];\n r[2] = m[6];\n r[3] = m[1];\n r[4] = m[4];\n r[5] = m[7];\n r[6] = m[2];\n r[7] = m[5];\n r[8] = m[8];\n return this;\n }\n /**\n * Sets the UV transform matrix from offset, repeat, rotation, and center.\n *\n * @param {number} tx - Offset x.\n * @param {number} ty - Offset y.\n * @param {number} sx - Repeat x.\n * @param {number} sy - Repeat y.\n * @param {number} rotation - Rotation, in radians. Positive values rotate counterclockwise.\n * @param {number} cx - Center x of rotation.\n * @param {number} cy - Center y of rotation\n * @return {Matrix3} A reference to this matrix.\n */\n setUvTransform(tx, ty, sx, sy, rotation, cx, cy) {\n const c = Math.cos(rotation);\n const s = Math.sin(rotation);\n this.set(\n sx * c,\n sx * s,\n -sx * (c * cx + s * cy) + cx + tx,\n -sy * s,\n sy * c,\n -sy * (-s * cx + c * cy) + cy + ty,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Scales this matrix with the given scalar values.\n *\n * @param {number} sx - The amount to scale in the X axis.\n * @param {number} sy - The amount to scale in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n scale(sx, sy) {\n this.premultiply(_m3.makeScale(sx, sy));\n return this;\n }\n /**\n * Rotates this matrix by the given angle.\n *\n * @param {number} theta - The rotation in radians.\n * @return {Matrix3} A reference to this matrix.\n */\n rotate(theta) {\n this.premultiply(_m3.makeRotation(-theta));\n return this;\n }\n /**\n * Translates this matrix by the given scalar values.\n *\n * @param {number} tx - The amount to translate in the X axis.\n * @param {number} ty - The amount to translate in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n translate(tx, ty) {\n this.premultiply(_m3.makeTranslation(tx, ty));\n return this;\n }\n // for 2D Transforms\n /**\n * Sets this matrix as a 2D translation transform.\n *\n * @param {number|Vector2} x - The amount to translate in the X axis or alternatively a translation vector.\n * @param {number} y - The amount to translate in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n makeTranslation(x2, y) {\n if (x2.isVector2) {\n this.set(\n 1,\n 0,\n x2.x,\n 0,\n 1,\n x2.y,\n 0,\n 0,\n 1\n );\n } else {\n this.set(\n 1,\n 0,\n x2,\n 0,\n 1,\n y,\n 0,\n 0,\n 1\n );\n }\n return this;\n }\n /**\n * Sets this matrix as a 2D rotational transformation.\n *\n * @param {number} theta - The rotation in radians.\n * @return {Matrix3} A reference to this matrix.\n */\n makeRotation(theta) {\n const c = Math.cos(theta);\n const s = Math.sin(theta);\n this.set(\n c,\n -s,\n 0,\n s,\n c,\n 0,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Sets this matrix as a 2D scale transform.\n *\n * @param {number} x - The amount to scale in the X axis.\n * @param {number} y - The amount to scale in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n makeScale(x2, y) {\n this.set(\n x2,\n 0,\n 0,\n 0,\n y,\n 0,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Returns `true` if this matrix is equal with the given one.\n *\n * @param {Matrix3} matrix - The matrix to test for equality.\n * @return {boolean} Whether this matrix is equal with the given one.\n */\n equals(matrix) {\n const te = this.elements;\n const me = matrix.elements;\n for (let i2 = 0; i2 < 9; i2++) {\n if (te[i2] !== me[i2]) return false;\n }\n return true;\n }\n /**\n * Sets the elements of the matrix from the given array.\n *\n * @param {Array} array - The matrix elements in column-major order.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Matrix3} A reference to this matrix.\n */\n fromArray(array, offset = 0) {\n for (let i2 = 0; i2 < 9; i2++) {\n this.elements[i2] = array[i2 + offset];\n }\n return this;\n }\n /**\n * Writes the elements of this matrix to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the matrix elements in column-major order.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The matrix elements in column-major order.\n */\n toArray(array = [], offset = 0) {\n const te = this.elements;\n array[offset] = te[0];\n array[offset + 1] = te[1];\n array[offset + 2] = te[2];\n array[offset + 3] = te[3];\n array[offset + 4] = te[4];\n array[offset + 5] = te[5];\n array[offset + 6] = te[6];\n array[offset + 7] = te[7];\n array[offset + 8] = te[8];\n return array;\n }\n /**\n * Returns a matrix with copied values from this instance.\n *\n * @return {Matrix3} A clone of this instance.\n */\n clone() {\n return new this.constructor().fromArray(this.elements);\n }\n }\n const _m3 = /* @__PURE__ */ new Matrix3();\n const _cache = {};\n function warnOnce(message) {\n if (message in _cache) return;\n _cache[message] = true;\n console.warn(message);\n }\n const LINEAR_REC709_TO_XYZ = /* @__PURE__ */ new Matrix3().set(\n 0.4123908,\n 0.3575843,\n 0.1804808,\n 0.212639,\n 0.7151687,\n 0.0721923,\n 0.0193308,\n 0.1191948,\n 0.9505322\n );\n const XYZ_TO_LINEAR_REC709 = /* @__PURE__ */ new Matrix3().set(\n 3.2409699,\n -1.5373832,\n -0.4986108,\n -0.9692436,\n 1.8759675,\n 0.0415551,\n 0.0556301,\n -0.203977,\n 1.0569715\n );\n function createColorManagement() {\n const ColorManagement2 = {\n enabled: true,\n workingColorSpace: LinearSRGBColorSpace,\n /**\n * Implementations of supported color spaces.\n *\n * Required:\n * - primaries: chromaticity coordinates [ rx ry gx gy bx by ]\n * - whitePoint: reference white [ x y ]\n * - transfer: transfer function (pre-defined)\n * - toXYZ: Matrix3 RGB to XYZ transform\n * - fromXYZ: Matrix3 XYZ to RGB transform\n * - luminanceCoefficients: RGB luminance coefficients\n *\n * Optional:\n * - outputColorSpaceConfig: { drawingBufferColorSpace: ColorSpace, toneMappingMode: \'extended\' | \'standard\' }\n * - workingColorSpaceConfig: { unpackColorSpace: ColorSpace }\n *\n * Reference:\n * - https://www.russellcottrell.com/photo/matrixCalculator.htm\n */\n spaces: {},\n convert: function(color, sourceColorSpace, targetColorSpace) {\n if (this.enabled === false || sourceColorSpace === targetColorSpace || !sourceColorSpace || !targetColorSpace) {\n return color;\n }\n if (this.spaces[sourceColorSpace].transfer === SRGBTransfer) {\n color.r = SRGBToLinear(color.r);\n color.g = SRGBToLinear(color.g);\n color.b = SRGBToLinear(color.b);\n }\n if (this.spaces[sourceColorSpace].primaries !== this.spaces[targetColorSpace].primaries) {\n color.applyMatrix3(this.spaces[sourceColorSpace].toXYZ);\n color.applyMatrix3(this.spaces[targetColorSpace].fromXYZ);\n }\n if (this.spaces[targetColorSpace].transfer === SRGBTransfer) {\n color.r = LinearToSRGB(color.r);\n color.g = LinearToSRGB(color.g);\n color.b = LinearToSRGB(color.b);\n }\n return color;\n },\n workingToColorSpace: function(color, targetColorSpace) {\n return this.convert(color, this.workingColorSpace, targetColorSpace);\n },\n colorSpaceToWorking: function(color, sourceColorSpace) {\n return this.convert(color, sourceColorSpace, this.workingColorSpace);\n },\n getPrimaries: function(colorSpace) {\n return this.spaces[colorSpace].primaries;\n },\n getTransfer: function(colorSpace) {\n if (colorSpace === NoColorSpace) return LinearTransfer;\n return this.spaces[colorSpace].transfer;\n },\n getToneMappingMode: function(colorSpace) {\n return this.spaces[colorSpace].outputColorSpaceConfig.toneMappingMode || "standard";\n },\n getLuminanceCoefficients: function(target, colorSpace = this.workingColorSpace) {\n return target.fromArray(this.spaces[colorSpace].luminanceCoefficients);\n },\n define: function(colorSpaces) {\n Object.assign(this.spaces, colorSpaces);\n },\n // Internal APIs\n _getMatrix: function(targetMatrix, sourceColorSpace, targetColorSpace) {\n return targetMatrix.copy(this.spaces[sourceColorSpace].toXYZ).multiply(this.spaces[targetColorSpace].fromXYZ);\n },\n _getDrawingBufferColorSpace: function(colorSpace) {\n return this.spaces[colorSpace].outputColorSpaceConfig.drawingBufferColorSpace;\n },\n _getUnpackColorSpace: function(colorSpace = this.workingColorSpace) {\n return this.spaces[colorSpace].workingColorSpaceConfig.unpackColorSpace;\n },\n // Deprecated\n fromWorkingColorSpace: function(color, targetColorSpace) {\n warnOnce("THREE.ColorManagement: .fromWorkingColorSpace() has been renamed to .workingToColorSpace().");\n return ColorManagement2.workingToColorSpace(color, targetColorSpace);\n },\n toWorkingColorSpace: function(color, sourceColorSpace) {\n warnOnce("THREE.ColorManagement: .toWorkingColorSpace() has been renamed to .colorSpaceToWorking().");\n return ColorManagement2.colorSpaceToWorking(color, sourceColorSpace);\n }\n };\n const REC709_PRIMARIES = [0.64, 0.33, 0.3, 0.6, 0.15, 0.06];\n const REC709_LUMINANCE_COEFFICIENTS = [0.2126, 0.7152, 0.0722];\n const D65 = [0.3127, 0.329];\n ColorManagement2.define({\n [LinearSRGBColorSpace]: {\n primaries: REC709_PRIMARIES,\n whitePoint: D65,\n transfer: LinearTransfer,\n toXYZ: LINEAR_REC709_TO_XYZ,\n fromXYZ: XYZ_TO_LINEAR_REC709,\n luminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n workingColorSpaceConfig: { unpackColorSpace: SRGBColorSpace },\n outputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n },\n [SRGBColorSpace]: {\n primaries: REC709_PRIMARIES,\n whitePoint: D65,\n transfer: SRGBTransfer,\n toXYZ: LINEAR_REC709_TO_XYZ,\n fromXYZ: XYZ_TO_LINEAR_REC709,\n luminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n outputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n }\n });\n return ColorManagement2;\n }\n const ColorManagement = /* @__PURE__ */ createColorManagement();\n function SRGBToLinear(c) {\n return c < 0.04045 ? c * 0.0773993808 : Math.pow(c * 0.9478672986 + 0.0521327014, 2.4);\n }\n function LinearToSRGB(c) {\n return c < 31308e-7 ? c * 12.92 : 1.055 * Math.pow(c, 0.41666) - 0.055;\n }\n class Box3 {\n /**\n * Constructs a new bounding box.\n *\n * @param {Vector3} [min=(Infinity,Infinity,Infinity)] - A vector representing the lower boundary of the box.\n * @param {Vector3} [max=(-Infinity,-Infinity,-Infinity)] - A vector representing the upper boundary of the box.\n */\n constructor(min = new Vector3(Infinity, Infinity, Infinity), max2 = new Vector3(-Infinity, -Infinity, -Infinity)) {\n this.isBox3 = true;\n this.min = min;\n this.max = max2;\n }\n /**\n * Sets the lower and upper boundaries of this box.\n * Please note that this method only copies the values from the given objects.\n *\n * @param {Vector3} min - The lower boundary of the box.\n * @param {Vector3} max - The upper boundary of the box.\n * @return {Box3} A reference to this bounding box.\n */\n set(min, max2) {\n this.min.copy(min);\n this.max.copy(max2);\n return this;\n }\n /**\n * Sets the upper and lower bounds of this box so it encloses the position data\n * in the given array.\n *\n * @param {Array} array - An array holding 3D position data.\n * @return {Box3} A reference to this bounding box.\n */\n setFromArray(array) {\n this.makeEmpty();\n for (let i2 = 0, il = array.length; i2 < il; i2 += 3) {\n this.expandByPoint(_vector$b.fromArray(array, i2));\n }\n return this;\n }\n /**\n * Sets the upper and lower bounds of this box so it encloses the position data\n * in the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - A buffer attribute holding 3D position data.\n * @return {Box3} A reference to this bounding box.\n */\n setFromBufferAttribute(attribute) {\n this.makeEmpty();\n for (let i2 = 0, il = attribute.count; i2 < il; i2++) {\n this.expandByPoint(_vector$b.fromBufferAttribute(attribute, i2));\n }\n return this;\n }\n /**\n * Sets the upper and lower bounds of this box so it encloses the position data\n * in the given array.\n *\n * @param {Array} points - An array holding 3D position data as instances of {@link Vector3}.\n * @return {Box3} A reference to this bounding box.\n */\n setFromPoints(points) {\n this.makeEmpty();\n for (let i2 = 0, il = points.length; i2 < il; i2++) {\n this.expandByPoint(points[i2]);\n }\n return this;\n }\n /**\n * Centers this box on the given center vector and sets this box\'s width, height and\n * depth to the given size values.\n *\n * @param {Vector3} center - The center of the box.\n * @param {Vector3} size - The x, y and z dimensions of the box.\n * @return {Box3} A reference to this bounding box.\n */\n setFromCenterAndSize(center, size) {\n const halfSize = _vector$b.copy(size).multiplyScalar(0.5);\n this.min.copy(center).sub(halfSize);\n this.max.copy(center).add(halfSize);\n return this;\n }\n /**\n * Computes the world-axis-aligned bounding box for the given 3D object\n * (including its children), accounting for the object\'s, and children\'s,\n * world transforms. The function may result in a larger box than strictly necessary.\n *\n * @param {Object3D} object - The 3D object to compute the bounding box for.\n * @param {boolean} [precise=false] - If set to `true`, the method computes the smallest\n * world-axis-aligned bounding box at the expense of more computation.\n * @return {Box3} A reference to this bounding box.\n */\n setFromObject(object, precise = false) {\n this.makeEmpty();\n return this.expandByObject(object, precise);\n }\n /**\n * Returns a new box with copied values from this instance.\n *\n * @return {Box3} A clone of this instance.\n */\n clone() {\n return new this.constructor().copy(this);\n }\n /**\n * Copies the values of the given box to this instance.\n *\n * @param {Box3} box - The box to copy.\n * @return {Box3} A reference to this bounding box.\n */\n copy(box) {\n this.min.copy(box.min);\n this.max.copy(box.max);\n return this;\n }\n /**\n * Makes this box empty which means in encloses a zero space in 3D.\n *\n * @return {Box3} A reference to this bounding box.\n */\n makeEmpty() {\n this.min.x = this.min.y = this.min.z = Infinity;\n this.max.x = this.max.y = this.max.z = -Infinity;\n return this;\n }\n /**\n * Returns true if this box includes zero points within its bounds.\n * Note that a box with equal lower and upper bounds still includes one\n * point, the one both bounds share.\n *\n * @return {boolean} Whether this box is empty or not.\n */\n isEmpty() {\n return this.max.x < this.min.x || this.max.y < this.min.y || this.max.z < this.min.z;\n }\n /**\n * Returns the center point of this box.\n *\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} The center point.\n */\n getCenter(target) {\n return this.isEmpty() ? target.set(0, 0, 0) : target.addVectors(this.min, this.max).multiplyScalar(0.5);\n }\n /**\n * Returns the dimensions of this box.\n *\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} The size.\n */\n getSize(target) {\n return this.isEmpty() ? target.set(0, 0, 0) : target.subVectors(this.max, this.min);\n }\n /**\n * Expands the boundaries of this box to include the given point.\n *\n * @param {Vector3} point - The point that should be included by the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n expandByPoint(point) {\n this.min.min(point);\n this.max.max(point);\n return this;\n }\n /**\n * Expands this box equilaterally by the given vector. The width of this\n * box will be expanded by the x component of the vector in both\n * directions. The height of this box will be expanded by the y component of\n * the vector in both directions. The depth of this box will be\n * expanded by the z component of the vector in both directions.\n *\n * @param {Vector3} vector - The vector that should expand the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n expandByVector(vector) {\n this.min.sub(vector);\n this.max.add(vector);\n return this;\n }\n /**\n * Expands each dimension of the box by the given scalar. If negative, the\n * dimensions of the box will be contracted.\n *\n * @param {number} scalar - The scalar value that should expand the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n expandByScalar(scalar) {\n this.min.addScalar(-scalar);\n this.max.addScalar(scalar);\n return this;\n }\n /**\n * Expands the boundaries of this box to include the given 3D object and\n * its children, accounting for the object\'s, and children\'s, world\n * transforms. The function may result in a larger box than strictly\n * necessary (unless the precise parameter is set to true).\n *\n * @param {Object3D} object - The 3D object that should expand the bounding box.\n * @param {boolean} precise - If set to `true`, the method expands the bounding box\n * as little as necessary at the expense of more computation.\n * @return {Box3} A reference to this bounding box.\n */\n expandByObject(object, precise = false) {\n object.updateWorldMatrix(false, false);\n const geometry = object.geometry;\n if (geometry !== void 0) {\n const positionAttribute = geometry.getAttribute("position");\n if (precise === true && positionAttribute !== void 0 && object.isInstancedMesh !== true) {\n for (let i2 = 0, l = positionAttribute.count; i2 < l; i2++) {\n if (object.isMesh === true) {\n object.getVertexPosition(i2, _vector$b);\n } else {\n _vector$b.fromBufferAttribute(positionAttribute, i2);\n }\n _vector$b.applyMatrix4(object.matrixWorld);\n this.expandByPoint(_vector$b);\n }\n } else {\n if (object.boundingBox !== void 0) {\n if (object.boundingBox === null) {\n object.computeBoundingBox();\n }\n _box$4.copy(object.boundingBox);\n } else {\n if (geometry.boundingBox === null) {\n geometry.computeBoundingBox();\n }\n _box$4.copy(geometry.boundingBox);\n }\n _box$4.applyMatrix4(object.matrixWorld);\n this.union(_box$4);\n }\n }\n const children = object.children;\n for (let i2 = 0, l = children.length; i2 < l; i2++) {\n this.expandByObject(children[i2], precise);\n }\n return this;\n }\n /**\n * Returns `true` if the given point lies within or on the boundaries of this box.\n *\n * @param {Vector3} point - The point to test.\n * @return {boolean} Whether the bounding box contains the given point or not.\n */\n containsPoint(point) {\n return point.x >= this.min.x && point.x <= this.max.x && point.y >= this.min.y && point.y <= this.max.y && point.z >= this.min.z && point.z <= this.max.z;\n }\n /**\n * Returns `true` if this bounding box includes the entirety of the given bounding box.\n * If this box and the given one are identical, this function also returns `true`.\n *\n * @param {Box3} box - The bounding box to test.\n * @return {boolean} Whether the bounding box contains the given bounding box or not.\n */\n containsBox(box) {\n return this.min.x <= box.min.x && box.max.x <= this.max.x && this.min.y <= box.min.y && box.max.y <= this.max.y && this.min.z <= box.min.z && box.max.z <= this.max.z;\n }\n /**\n * Returns a point as a proportion of this box\'s width, height and depth.\n *\n * @param {Vector3} point - A point in 3D space.\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} A point as a proportion of this box\'s width, height and depth.\n */\n getParameter(point, target) {\n return target.set(\n (point.x - this.min.x) / (this.max.x - this.min.x),\n (point.y - this.min.y) / (this.max.y - this.min.y),\n (point.z - this.min.z) / (this.max.z - this.min.z)\n );\n }\n /**\n * Returns `true` if the given bounding box intersects with this bounding box.\n *\n * @param {Box3} box - The bounding box to test.\n * @return {boolean} Whether the given bounding box intersects with this bounding box.\n */\n intersectsBox(box) {\n return box.max.x >= this.min.x && box.min.x <= this.max.x && box.max.y >= this.min.y && box.min.y <= this.max.y && box.max.z >= this.min.z && box.min.z <= this.max.z;\n }\n /**\n * Returns `true` if the given bounding sphere intersects with this bounding box.\n *\n * @param {Sphere} sphere - The bounding sphere to test.\n * @return {boolean} Whether the given bounding sphere intersects with this bounding box.\n */\n intersectsSphere(sphere) {\n this.clampPoint(sphere.center, _vector$b);\n return _vector$b.distanceToSquared(sphere.center) <= sphere.radius * sphere.radius;\n }\n /**\n * Returns `true` if the given plane intersects with this bounding box.\n *\n * @param {Plane} plane - The plane to test.\n * @return {boolean} Whether the given plane intersects with this bounding box.\n */\n intersectsPlane(plane) {\n let min, max2;\n if (plane.normal.x > 0) {\n min = plane.normal.x * this.min.x;\n max2 = plane.normal.x * this.max.x;\n } else {\n min = plane.normal.x * this.max.x;\n max2 = plane.normal.x * this.min.x;\n }\n if (plane.normal.y > 0) {\n min += plane.normal.y * this.min.y;\n max2 += plane.normal.y * this.max.y;\n } else {\n min += plane.normal.y * this.max.y;\n max2 += plane.normal.y * this.min.y;\n }\n if (plane.normal.z > 0) {\n min += plane.normal.z * this.min.z;\n max2 += plane.normal.z * this.max.z;\n } else {\n min += plane.normal.z * this.max.z;\n max2 += plane.normal.z * this.min.z;\n }\n return min <= -plane.constant && max2 >= -plane.constant;\n }\n /**\n * Returns `true` if the given triangle intersects with this bounding box.\n *\n * @param {Triangle} triangle - The triangle to test.\n * @return {boolean} Whether the given triangle intersects with this bounding box.\n */\n intersectsTriangle(triangle) {\n if (this.isEmpty()) {\n return false;\n }\n this.getCenter(_center);\n _extents.subVectors(this.max, _center);\n _v0$2.subVectors(triangle.a, _center);\n _v1$7.subVectors(triangle.b, _center);\n _v2$4.subVectors(triangle.c, _center);\n _f0.subVectors(_v1$7, _v0$2);\n _f1.subVectors(_v2$4, _v1$7);\n _f2.subVectors(_v0$2, _v2$4);\n let axes = [\n 0,\n -_f0.z,\n _f0.y,\n 0,\n -_f1.z,\n _f1.y,\n 0,\n -_f2.z,\n _f2.y,\n _f0.z,\n 0,\n -_f0.x,\n _f1.z,\n 0,\n -_f1.x,\n _f2.z,\n 0,\n -_f2.x,\n -_f0.y,\n _f0.x,\n 0,\n -_f1.y,\n _f1.x,\n 0,\n -_f2.y,\n _f2.x,\n 0\n ];\n if (!satForAxes(axes, _v0$2, _v1$7, _v2$4, _extents)) {\n return false;\n }\n axes = [1, 0, 0, 0, 1, 0, 0, 0, 1];\n if (!satForAxes(axes, _v0$2, _v1$7, _v2$4, _extents)) {\n return false;\n }\n _triangleNormal.crossVectors(_f0, _f1);\n axes = [_triangleNormal.x, _triangleNormal.y, _triangleNormal.z];\n return satForAxes(axes, _v0$2, _v1$7, _v2$4, _extents);\n }\n /**\n * Clamps the given point within the bounds of this box.\n *\n * @param {Vector3} point - The point to clamp.\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} The clamped point.\n */\n clampPoint(point, target) {\n return target.copy(point).clamp(this.min, this.max);\n }\n /**\n * Returns the euclidean distance from any edge of this box to the specified point. If\n * the given point lies inside of this box, the distance will be `0`.\n *\n * @param {Vector3} point - The point to compute the distance to.\n * @return {number} The euclidean distance.\n */\n distanceToPoint(point) {\n return this.clampPoint(point, _vector$b).distanceTo(point);\n }\n /**\n * Returns a bounding sphere that encloses this bounding box.\n *\n * @param {Sphere} target - The target sphere that is used to store the method\'s result.\n * @return {Sphere} The bounding sphere that encloses this bounding box.\n */\n getBoundingSphere(target) {\n if (this.isEmpty()) {\n target.makeEmpty();\n } else {\n this.getCenter(target.center);\n target.radius = this.getSize(_vector$b).length() * 0.5;\n }\n return target;\n }\n /**\n * Computes the intersection of this bounding box and the given one, setting the upper\n * bound of this box to the lesser of the two boxes\' upper bounds and the\n * lower bound of this box to the greater of the two boxes\' lower bounds. If\n * there\'s no overlap, makes this box empty.\n *\n * @param {Box3} box - The bounding box to intersect with.\n * @return {Box3} A reference to this bounding box.\n */\n intersect(box) {\n this.min.max(box.min);\n this.max.min(box.max);\n if (this.isEmpty()) this.makeEmpty();\n return this;\n }\n /**\n * Computes the union of this box and another and the given one, setting the upper\n * bound of this box to the greater of the two boxes\' upper bounds and the\n * lower bound of this box to the lesser of the two boxes\' lower bounds.\n *\n * @param {Box3} box - The bounding box that will be unioned with this instance.\n * @return {Box3} A reference to this bounding box.\n */\n union(box) {\n this.min.min(box.min);\n this.max.max(box.max);\n return this;\n }\n /**\n * Transforms this bounding box by the given 4x4 transformation matrix.\n *\n * @param {Matrix4} matrix - The transformation matrix.\n * @return {Box3} A reference to this bounding box.\n */\n applyMatrix4(matrix) {\n if (this.isEmpty()) return this;\n _points[0].set(this.min.x, this.min.y, this.min.z).applyMatrix4(matrix);\n _points[1].set(this.min.x, this.min.y, this.max.z).applyMatrix4(matrix);\n _points[2].set(this.min.x, this.max.y, this.min.z).applyMatrix4(matrix);\n _points[3].set(this.min.x, this.max.y, this.max.z).applyMatrix4(matrix);\n _points[4].set(this.max.x, this.min.y, this.min.z).applyMatrix4(matrix);\n _points[5].set(this.max.x, this.min.y, this.max.z).applyMatrix4(matrix);\n _points[6].set(this.max.x, this.max.y, this.min.z).applyMatrix4(matrix);\n _points[7].set(this.max.x, this.max.y, this.max.z).applyMatrix4(matrix);\n this.setFromPoints(_points);\n return this;\n }\n /**\n * Adds the given offset to both the upper and lower bounds of this bounding box,\n * effectively moving it in 3D space.\n *\n * @param {Vector3} offset - The offset that should be used to translate the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n translate(offset) {\n this.min.add(offset);\n this.max.add(offset);\n return this;\n }\n /**\n * Returns `true` if this bounding box is equal with the given one.\n *\n * @param {Box3} box - The box to test for equality.\n * @return {boolean} Whether this bounding box is equal with the given one.\n */\n equals(box) {\n return box.min.equals(this.min) && box.max.equals(this.max);\n }\n /**\n * Returns a serialized structure of the bounding box.\n *\n * @return {Object} Serialized structure with fields representing the object state.\n */\n toJSON() {\n return {\n min: this.min.toArray(),\n max: this.max.toArray()\n };\n }\n /**\n * Returns a serialized structure of the bounding box.\n *\n * @param {Object} json - The serialized json to set the box from.\n * @return {Box3} A reference to this bounding box.\n */\n fromJSON(json) {\n this.min.fromArray(json.min);\n this.max.fromArray(json.max);\n return this;\n }\n }\n const _points = [\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3()\n ];\n const _vector$b = /* @__PURE__ */ new Vector3();\n const _box$4 = /* @__PURE__ */ new Box3();\n const _v0$2 = /* @__PURE__ */ new Vector3();\n const _v1$7 = /* @__PURE__ */ new Vector3();\n const _v2$4 = /* @__PURE__ */ new Vector3();\n const _f0 = /* @__PURE__ */ new Vector3();\n const _f1 = /* @__PURE__ */ new Vector3();\n const _f2 = /* @__PURE__ */ new Vector3();\n const _center = /* @__PURE__ */ new Vector3();\n const _extents = /* @__PURE__ */ new Vector3();\n const _triangleNormal = /* @__PURE__ */ new Vector3();\n const _testAxis = /* @__PURE__ */ new Vector3();\n function satForAxes(axes, v0, v1, v2, extents) {\n for (let i2 = 0, j = axes.length - 3; i2 <= j; i2 += 3) {\n _testAxis.fromArray(axes, i2);\n const r = extents.x * Math.abs(_testAxis.x) + extents.y * Math.abs(_testAxis.y) + extents.z * Math.abs(_testAxis.z);\n const p0 = v0.dot(_testAxis);\n const p1 = v1.dot(_testAxis);\n const p2 = v2.dot(_testAxis);\n if (Math.max(-Math.max(p0, p1, p2), Math.min(p0, p1, p2)) > r) {\n return false;\n }\n }\n return true;\n }\n const _colorKeywords = {\n "aliceblue": 15792383,\n "antiquewhite": 16444375,\n "aqua": 65535,\n "aquamarine": 8388564,\n "azure": 15794175,\n "beige": 16119260,\n "bisque": 16770244,\n "black": 0,\n "blanchedalmond": 16772045,\n "blue": 255,\n "blueviolet": 9055202,\n "brown": 10824234,\n "burlywood": 14596231,\n "cadetblue": 6266528,\n "chartreuse": 8388352,\n "chocolate": 13789470,\n "coral": 16744272,\n "cornflowerblue": 6591981,\n "cornsilk": 16775388,\n "crimson": 14423100,\n "cyan": 65535,\n "darkblue": 139,\n "darkcyan": 35723,\n "darkgoldenrod": 12092939,\n "darkgray": 11119017,\n "darkgreen": 25600,\n "darkgrey": 11119017,\n "darkkhaki": 12433259,\n "darkmagenta": 9109643,\n "darkolivegreen": 5597999,\n "darkorange": 16747520,\n "darkorchid": 10040012,\n "darkred": 9109504,\n "darksalmon": 15308410,\n "darkseagreen": 9419919,\n "darkslateblue": 4734347,\n "darkslategray": 3100495,\n "darkslategrey": 3100495,\n "darkturquoise": 52945,\n "darkviolet": 9699539,\n "deeppink": 16716947,\n "deepskyblue": 49151,\n "dimgray": 6908265,\n "dimgrey": 6908265,\n "dodgerblue": 2003199,\n "firebrick": 11674146,\n "floralwhite": 16775920,\n "forestgreen": 2263842,\n "fuchsia": 16711935,\n "gainsboro": 14474460,\n "ghostwhite": 16316671,\n "gold": 16766720,\n "goldenrod": 14329120,\n "gray": 8421504,\n "green": 32768,\n "greenyellow": 11403055,\n "grey": 8421504,\n "honeydew": 15794160,\n "hotpink": 16738740,\n "indianred": 13458524,\n "indigo": 4915330,\n "ivory": 16777200,\n "khaki": 15787660,\n "lavender": 15132410,\n "lavenderblush": 16773365,\n "lawngreen": 8190976,\n "lemonchiffon": 16775885,\n "lightblue": 11393254,\n "lightcoral": 15761536,\n "lightcyan": 14745599,\n "lightgoldenrodyellow": 16448210,\n "lightgray": 13882323,\n "lightgreen": 9498256,\n "lightgrey": 13882323,\n "lightpink": 16758465,\n "lightsalmon": 16752762,\n "lightseagreen": 2142890,\n "lightskyblue": 8900346,\n "lightslategray": 7833753,\n "lightslategrey": 7833753,\n "lightsteelblue": 11584734,\n "lightyellow": 16777184,\n "lime": 65280,\n "limegreen": 3329330,\n "linen": 16445670,\n "magenta": 16711935,\n "maroon": 8388608,\n "mediumaquamarine": 6737322,\n "mediumblue": 205,\n "mediumorchid": 12211667,\n "mediumpurple": 9662683,\n "mediumseagreen": 3978097,\n "mediumslateblue": 8087790,\n "mediumspringgreen": 64154,\n "mediumturquoise": 4772300,\n "mediumvioletred": 13047173,\n "midnightblue": 1644912,\n "mintcream": 16121850,\n "mistyrose": 16770273,\n "moccasin": 16770229,\n "navajowhite": 16768685,\n "navy": 128,\n "oldlace": 16643558,\n "olive": 8421376,\n "olivedrab": 7048739,\n "orange": 16753920,\n "orangered": 16729344,\n "orchid": 14315734,\n "palegoldenrod": 15657130,\n "palegreen": 10025880,\n "paleturquoise": 11529966,\n "palevioletred": 14381203,\n "papayawhip": 16773077,\n "peachpuff": 16767673,\n "peru": 13468991,\n "pink": 16761035,\n "plum": 14524637,\n "powderblue": 11591910,\n "purple": 8388736,\n "rebeccapurple": 6697881,\n "red": 16711680,\n "rosybrown": 12357519,\n "royalblue": 4286945,\n "saddlebrown": 9127187,\n "salmon": 16416882,\n "sandybrown": 16032864,\n "seagreen": 3050327,\n "seashell": 16774638,\n "sienna": 10506797,\n "silver": 12632256,\n "skyblue": 8900331,\n "slateblue": 6970061,\n "slategray": 7372944,\n "slategrey": 7372944,\n "snow": 16775930,\n "springgreen": 65407,\n "steelblue": 4620980,\n "tan": 13808780,\n "teal": 32896,\n "thistle": 14204888,\n "tomato": 16737095,\n "turquoise": 4251856,\n "violet": 15631086,\n "wheat": 16113331,\n "white": 16777215,\n "whitesmoke": 16119285,\n "yellow": 16776960,\n "yellowgreen": 10145074\n };\n const _hslA = { h: 0, s: 0, l: 0 };\n const _hslB = { h: 0, s: 0, l: 0 };\n function hue2rgb(p, q, t) {\n if (t < 0) t += 1;\n if (t > 1) t -= 1;\n if (t < 1 / 6) return p + (q - p) * 6 * t;\n if (t < 1 / 2) return q;\n if (t < 2 / 3) return p + (q - p) * 6 * (2 / 3 - t);\n return p;\n }\n class Color {\n /**\n * Constructs a new color.\n *\n * Note that standard method of specifying color in three.js is with a hexadecimal triplet,\n * and that method is used throughout the rest of the documentation.\n *\n * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n * @param {number} [g] - The green component.\n * @param {number} [b] - The blue component.\n */\n constructor(r, g, b) {\n this.isColor = true;\n this.r = 1;\n this.g = 1;\n this.b = 1;\n return this.set(r, g, b);\n }\n /**\n * Sets the colors\'s components from the given values.\n *\n * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n * @param {number} [g] - The green component.\n * @param {number} [b] - The blue component.\n * @return {Color} A reference to this color.\n */\n set(r, g, b) {\n if (g === void 0 && b === void 0) {\n const value = r;\n if (value && value.isColor) {\n this.copy(value);\n } else if (typeof value === "number") {\n this.setHex(value);\n } else if (typeof value === "string") {\n this.setStyle(value);\n }\n } else {\n this.setRGB(r, g, b);\n }\n return this;\n }\n /**\n * Sets the colors\'s components to the given scalar value.\n *\n * @param {number} scalar - The scalar value.\n * @return {Color} A reference to this color.\n */\n setScalar(scalar) {\n this.r = scalar;\n this.g = scalar;\n this.b = scalar;\n return this;\n }\n /**\n * Sets this color from a hexadecimal value.\n *\n * @param {number} hex - The hexadecimal value.\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setHex(hex, colorSpace = SRGBColorSpace) {\n hex = Math.floor(hex);\n this.r = (hex >> 16 & 255) / 255;\n this.g = (hex >> 8 & 255) / 255;\n this.b = (hex & 255) / 255;\n ColorManagement.colorSpaceToWorking(this, colorSpace);\n return this;\n }\n /**\n * Sets this color from RGB values.\n *\n * @param {number} r - Red channel value between `0.0` and `1.0`.\n * @param {number} g - Green channel value between `0.0` and `1.0`.\n * @param {number} b - Blue channel value between `0.0` and `1.0`.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setRGB(r, g, b, colorSpace = ColorManagement.workingColorSpace) {\n this.r = r;\n this.g = g;\n this.b = b;\n ColorManagement.colorSpaceToWorking(this, colorSpace);\n return this;\n }\n /**\n * Sets this color from RGB values.\n *\n * @param {number} h - Hue value between `0.0` and `1.0`.\n * @param {number} s - Saturation value between `0.0` and `1.0`.\n * @param {number} l - Lightness value between `0.0` and `1.0`.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setHSL(h, s, l, colorSpace = ColorManagement.workingColorSpace) {\n h = euclideanModulo(h, 1);\n s = clamp(s, 0, 1);\n l = clamp(l, 0, 1);\n if (s === 0) {\n this.r = this.g = this.b = l;\n } else {\n const p = l <= 0.5 ? l * (1 + s) : l + s - l * s;\n const q = 2 * l - p;\n this.r = hue2rgb(q, p, h + 1 / 3);\n this.g = hue2rgb(q, p, h);\n this.b = hue2rgb(q, p, h - 1 / 3);\n }\n ColorManagement.colorSpaceToWorking(this, colorSpace);\n return this;\n }\n /**\n * Sets this color from a CSS-style string. For example, `rgb(250, 0,0)`,\n * `rgb(100%, 0%, 0%)`, `hsl(0, 100%, 50%)`, `#ff0000`, `#f00`, or `red` ( or\n * any [X11 color name]{@link https://en.wikipedia.org/wiki/X11_color_names#Color_name_chart} -\n * all 140 color names are supported).\n *\n * @param {string} style - Color as a CSS-style string.\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setStyle(style, colorSpace = SRGBColorSpace) {\n function handleAlpha(string) {\n if (string === void 0) return;\n if (parseFloat(string) < 1) {\n console.warn("THREE.Color: Alpha component of " + style + " will be ignored.");\n }\n }\n let m;\n if (m = /^(\\w+)\\(([^\\)]*)\\)/.exec(style)) {\n let color;\n const name = m[1];\n const components = m[2];\n switch (name) {\n case "rgb":\n case "rgba":\n if (color = /^\\s*(\\d+)\\s*,\\s*(\\d+)\\s*,\\s*(\\d+)\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec(components)) {\n handleAlpha(color[4]);\n return this.setRGB(\n Math.min(255, parseInt(color[1], 10)) / 255,\n Math.min(255, parseInt(color[2], 10)) / 255,\n Math.min(255, parseInt(color[3], 10)) / 255,\n colorSpace\n );\n }\n if (color = /^\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec(components)) {\n handleAlpha(color[4]);\n return this.setRGB(\n Math.min(100, parseInt(color[1], 10)) / 100,\n Math.min(100, parseInt(color[2], 10)) / 100,\n Math.min(100, parseInt(color[3], 10)) / 100,\n colorSpace\n );\n }\n break;\n case "hsl":\n case "hsla":\n if (color = /^\\s*(\\d*\\.?\\d+)\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec(components)) {\n handleAlpha(color[4]);\n return this.setHSL(\n parseFloat(color[1]) / 360,\n parseFloat(color[2]) / 100,\n parseFloat(color[3]) / 100,\n colorSpace\n );\n }\n break;\n default:\n console.warn("THREE.Color: Unknown color model " + style);\n }\n } else if (m = /^\\#([A-Fa-f\\d]+)$/.exec(style)) {\n const hex = m[1];\n const size = hex.length;\n if (size === 3) {\n return this.setRGB(\n parseInt(hex.charAt(0), 16) / 15,\n parseInt(hex.charAt(1), 16) / 15,\n parseInt(hex.charAt(2), 16) / 15,\n colorSpace\n );\n } else if (size === 6) {\n return this.setHex(parseInt(hex, 16), colorSpace);\n } else {\n console.warn("THREE.Color: Invalid hex color " + style);\n }\n } else if (style && style.length > 0) {\n return this.setColorName(style, colorSpace);\n }\n return this;\n }\n /**\n * Sets this color from a color name. Faster than {@link Color#setStyle} if\n * you don\'t need the other CSS-style formats.\n *\n * For convenience, the list of names is exposed in `Color.NAMES` as a hash.\n * ```js\n * Color.NAMES.aliceblue // returns 0xF0F8FF\n * ```\n *\n * @param {string} style - The color name.\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setColorName(style, colorSpace = SRGBColorSpace) {\n const hex = _colorKeywords[style.toLowerCase()];\n if (hex !== void 0) {\n this.setHex(hex, colorSpace);\n } else {\n console.warn("THREE.Color: Unknown color " + style);\n }\n return this;\n }\n /**\n * Returns a new color with copied values from this instance.\n *\n * @return {Color} A clone of this instance.\n */\n clone() {\n return new this.constructor(this.r, this.g, this.b);\n }\n /**\n * Copies the values of the given color to this instance.\n *\n * @param {Color} color - The color to copy.\n * @return {Color} A reference to this color.\n */\n copy(color) {\n this.r = color.r;\n this.g = color.g;\n this.b = color.b;\n return this;\n }\n /**\n * Copies the given color into this color, and then converts this color from\n * `SRGBColorSpace` to `LinearSRGBColorSpace`.\n *\n * @param {Color} color - The color to copy/convert.\n * @return {Color} A reference to this color.\n */\n copySRGBToLinear(color) {\n this.r = SRGBToLinear(color.r);\n this.g = SRGBToLinear(color.g);\n this.b = SRGBToLinear(color.b);\n return this;\n }\n /**\n * Copies the given color into this color, and then converts this color from\n * `LinearSRGBColorSpace` to `SRGBColorSpace`.\n *\n * @param {Color} color - The color to copy/convert.\n * @return {Color} A reference to this color.\n */\n copyLinearToSRGB(color) {\n this.r = LinearToSRGB(color.r);\n this.g = LinearToSRGB(color.g);\n this.b = LinearToSRGB(color.b);\n return this;\n }\n /**\n * Converts this color from `SRGBColorSpace` to `LinearSRGBColorSpace`.\n *\n * @return {Color} A reference to this color.\n */\n convertSRGBToLinear() {\n this.copySRGBToLinear(this);\n return this;\n }\n /**\n * Converts this color from `LinearSRGBColorSpace` to `SRGBColorSpace`.\n *\n * @return {Color} A reference to this color.\n */\n convertLinearToSRGB() {\n this.copyLinearToSRGB(this);\n return this;\n }\n /**\n * Returns the hexadecimal value of this color.\n *\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {number} The hexadecimal value.\n */\n getHex(colorSpace = SRGBColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n return Math.round(clamp(_color.r * 255, 0, 255)) * 65536 + Math.round(clamp(_color.g * 255, 0, 255)) * 256 + Math.round(clamp(_color.b * 255, 0, 255));\n }\n /**\n * Returns the hexadecimal value of this color as a string (for example, \'FFFFFF\').\n *\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {string} The hexadecimal value as a string.\n */\n getHexString(colorSpace = SRGBColorSpace) {\n return ("000000" + this.getHex(colorSpace).toString(16)).slice(-6);\n }\n /**\n * Converts the colors RGB values into the HSL format and stores them into the\n * given target object.\n *\n * @param {{h:number,s:number,l:number}} target - The target object that is used to store the method\'s result.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {{h:number,s:number,l:number}} The HSL representation of this color.\n */\n getHSL(target, colorSpace = ColorManagement.workingColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n const r = _color.r, g = _color.g, b = _color.b;\n const max2 = Math.max(r, g, b);\n const min = Math.min(r, g, b);\n let hue, saturation;\n const lightness = (min + max2) / 2;\n if (min === max2) {\n hue = 0;\n saturation = 0;\n } else {\n const delta = max2 - min;\n saturation = lightness <= 0.5 ? delta / (max2 + min) : delta / (2 - max2 - min);\n switch (max2) {\n case r:\n hue = (g - b) / delta + (g < b ? 6 : 0);\n break;\n case g:\n hue = (b - r) / delta + 2;\n break;\n case b:\n hue = (r - g) / delta + 4;\n break;\n }\n hue /= 6;\n }\n target.h = hue;\n target.s = saturation;\n target.l = lightness;\n return target;\n }\n /**\n * Returns the RGB values of this color and stores them into the given target object.\n *\n * @param {Color} target - The target color that is used to store the method\'s result.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {Color} The RGB representation of this color.\n */\n getRGB(target, colorSpace = ColorManagement.workingColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n target.r = _color.r;\n target.g = _color.g;\n target.b = _color.b;\n return target;\n }\n /**\n * Returns the value of this color as a CSS style string. Example: `rgb(255,0,0)`.\n *\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {string} The CSS representation of this color.\n */\n getStyle(colorSpace = SRGBColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n const r = _color.r, g = _color.g, b = _color.b;\n if (colorSpace !== SRGBColorSpace) {\n return `color(${colorSpace} ${r.toFixed(3)} ${g.toFixed(3)} ${b.toFixed(3)})`;\n }\n return `rgb(${Math.round(r * 255)},${Math.round(g * 255)},${Math.round(b * 255)})`;\n }\n /**\n * Adds the given HSL values to this color\'s values.\n * Internally, this converts the color\'s RGB values to HSL, adds HSL\n * and then converts the color back to RGB.\n *\n * @param {number} h - Hue value between `0.0` and `1.0`.\n * @param {number} s - Saturation value between `0.0` and `1.0`.\n * @param {number} l - Lightness value between `0.0` and `1.0`.\n * @return {Color} A reference to this color.\n */\n offsetHSL(h, s, l) {\n this.getHSL(_hslA);\n return this.setHSL(_hslA.h + h, _hslA.s + s, _hslA.l + l);\n }\n /**\n * Adds the RGB values of the given color to the RGB values of this color.\n *\n * @param {Color} color - The color to add.\n * @return {Color} A reference to this color.\n */\n add(color) {\n this.r += color.r;\n this.g += color.g;\n this.b += color.b;\n return this;\n }\n /**\n * Adds the RGB values of the given colors and stores the result in this instance.\n *\n * @param {Color} color1 - The first color.\n * @param {Color} color2 - The second color.\n * @return {Color} A reference to this color.\n */\n addColors(color1, color2) {\n this.r = color1.r + color2.r;\n this.g = color1.g + color2.g;\n this.b = color1.b + color2.b;\n return this;\n }\n /**\n * Adds the given scalar value to the RGB values of this color.\n *\n * @param {number} s - The scalar to add.\n * @return {Color} A reference to this color.\n */\n addScalar(s) {\n this.r += s;\n this.g += s;\n this.b += s;\n return this;\n }\n /**\n * Subtracts the RGB values of the given color from the RGB values of this color.\n *\n * @param {Color} color - The color to subtract.\n * @return {Color} A reference to this color.\n */\n sub(color) {\n this.r = Math.max(0, this.r - color.r);\n this.g = Math.max(0, this.g - color.g);\n this.b = Math.max(0, this.b - color.b);\n return this;\n }\n /**\n * Multiplies the RGB values of the given color with the RGB values of this color.\n *\n * @param {Color} color - The color to multiply.\n * @return {Color} A reference to this color.\n */\n multiply(color) {\n this.r *= color.r;\n this.g *= color.g;\n this.b *= color.b;\n return this;\n }\n /**\n * Multiplies the given scalar value with the RGB values of this color.\n *\n * @param {number} s - The scalar to multiply.\n * @return {Color} A reference to this color.\n */\n multiplyScalar(s) {\n this.r *= s;\n this.g *= s;\n this.b *= s;\n return this;\n }\n /**\n * Linearly interpolates this color\'s RGB values toward the RGB values of the\n * given color. The alpha argument can be thought of as the ratio between\n * the two colors, where `0.0` is this color and `1.0` is the first argument.\n *\n * @param {Color} color - The color to converge on.\n * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n * @return {Color} A reference to this color.\n */\n lerp(color, alpha) {\n this.r += (color.r - this.r) * alpha;\n this.g += (color.g - this.g) * alpha;\n this.b += (color.b - this.b) * alpha;\n return this;\n }\n /**\n * Linearly interpolates between the given colors and stores the result in this instance.\n * The alpha argument can be thought of as the ratio between the two colors, where `0.0`\n * is the first and `1.0` is the second color.\n *\n * @param {Color} color1 - The first color.\n * @param {Color} color2 - The second color.\n * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n * @return {Color} A reference to this color.\n */\n lerpColors(color1, color2, alpha) {\n this.r = color1.r + (color2.r - color1.r) * alpha;\n this.g = color1.g + (color2.g - color1.g) * alpha;\n this.b = color1.b + (color2.b - color1.b) * alpha;\n return this;\n }\n /**\n * Linearly interpolates this color\'s HSL values toward the HSL values of the\n * given color. It differs from {@link Color#lerp} by not interpolating straight\n * from one color to the other, but instead going through all the hues in between\n * those two colors. The alpha argument can be thought of as the ratio between\n * the two colors, where 0.0 is this color and 1.0 is the first argument.\n *\n * @param {Color} color - The color to converge on.\n * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n * @return {Color} A reference to this color.\n */\n lerpHSL(color, alpha) {\n this.getHSL(_hslA);\n color.getHSL(_hslB);\n const h = lerp(_hslA.h, _hslB.h, alpha);\n const s = lerp(_hslA.s, _hslB.s, alpha);\n const l = lerp(_hslA.l, _hslB.l, alpha);\n this.setHSL(h, s, l);\n return this;\n }\n /**\n * Sets the color\'s RGB components from the given 3D vector.\n *\n * @param {Vector3} v - The vector to set.\n * @return {Color} A reference to this color.\n */\n setFromVector3(v) {\n this.r = v.x;\n this.g = v.y;\n this.b = v.z;\n return this;\n }\n /**\n * Transforms this color with the given 3x3 matrix.\n *\n * @param {Matrix3} m - The matrix.\n * @return {Color} A reference to this color.\n */\n applyMatrix3(m) {\n const r = this.r, g = this.g, b = this.b;\n const e = m.elements;\n this.r = e[0] * r + e[3] * g + e[6] * b;\n this.g = e[1] * r + e[4] * g + e[7] * b;\n this.b = e[2] * r + e[5] * g + e[8] * b;\n return this;\n }\n /**\n * Returns `true` if this color is equal with the given one.\n *\n * @param {Color} c - The color to test for equality.\n * @return {boolean} Whether this bounding color is equal with the given one.\n */\n equals(c) {\n return c.r === this.r && c.g === this.g && c.b === this.b;\n }\n /**\n * Sets this color\'s RGB components from the given array.\n *\n * @param {Array} array - An array holding the RGB values.\n * @param {number} [offset=0] - The offset into the array.\n * @return {Color} A reference to this color.\n */\n fromArray(array, offset = 0) {\n this.r = array[offset];\n this.g = array[offset + 1];\n this.b = array[offset + 2];\n return this;\n }\n /**\n * Writes the RGB components of this color to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the color components.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The color components.\n */\n toArray(array = [], offset = 0) {\n array[offset] = this.r;\n array[offset + 1] = this.g;\n array[offset + 2] = this.b;\n return array;\n }\n /**\n * Sets the components of this color from the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - The buffer attribute holding color data.\n * @param {number} index - The index into the attribute.\n * @return {Color} A reference to this color.\n */\n fromBufferAttribute(attribute, index) {\n this.r = attribute.getX(index);\n this.g = attribute.getY(index);\n this.b = attribute.getZ(index);\n return this;\n }\n /**\n * This methods defines the serialization result of this class. Returns the color\n * as a hexadecimal value.\n *\n * @return {number} The hexadecimal value.\n */\n toJSON() {\n return this.getHex();\n }\n *[Symbol.iterator]() {\n yield this.r;\n yield this.g;\n yield this.b;\n }\n }\n const _color = /* @__PURE__ */ new Color();\n Color.NAMES = _colorKeywords;\n if (typeof __THREE_DEVTOOLS__ !== "undefined") {\n __THREE_DEVTOOLS__.dispatchEvent(new CustomEvent("register", { detail: {\n revision: REVISION\n } }));\n }\n if (typeof window !== "undefined") {\n if (window.__THREE__) {\n console.warn("WARNING: Multiple instances of Three.js being imported.");\n } else {\n window.__THREE__ = REVISION;\n }\n }\n const LN_SCALE_MIN = -12;\n const LN_SCALE_MAX = 9;\n const LN_SCALE_ZERO = -30;\n const SCALE_ZERO = Math.exp(LN_SCALE_ZERO);\n const SPLAT_TEX_WIDTH_BITS = 11;\n const SPLAT_TEX_HEIGHT_BITS = 11;\n const SPLAT_TEX_WIDTH = 1 << SPLAT_TEX_WIDTH_BITS;\n const SPLAT_TEX_HEIGHT = 1 << SPLAT_TEX_HEIGHT_BITS;\n const SPLAT_TEX_MIN_HEIGHT = 1;\n var SplatFileType = /* @__PURE__ */ ((SplatFileType2) => {\n SplatFileType2["PLY"] = "ply";\n SplatFileType2["SPZ"] = "spz";\n SplatFileType2["SPLAT"] = "splat";\n SplatFileType2["KSPLAT"] = "ksplat";\n SplatFileType2["PCSOGS"] = "pcsogs";\n SplatFileType2["PCSOGSZIP"] = "pcsogszip";\n SplatFileType2["RAD"] = "rad";\n return SplatFileType2;\n })(SplatFileType || {});\n function unindentLines(s) {\n var _a2;\n let seenNonEmpty = false;\n const lines = s.split("\\n").map((line) => {\n const trimmedLine = line.trimEnd();\n if (seenNonEmpty) {\n return trimmedLine;\n }\n if (trimmedLine.length > 0) {\n seenNonEmpty = true;\n return trimmedLine;\n }\n return null;\n }).filter((line) => line != null);\n while (lines.length > 0 && lines[lines.length - 1].length === 0) {\n lines.pop();\n }\n if (lines.length === 0) {\n return [];\n }\n const indent = (_a2 = lines[0].match(/^\\s*/)) == null ? void 0 : _a2[0];\n if (!indent) {\n return lines;\n }\n const regex = new RegExp(`^${indent}`);\n return lines.map((line) => line.replace(regex, ""));\n }\n function unindent(s) {\n return unindentLines(s).join("\\n");\n }\n const f32buffer = new Float32Array(1);\n const u32buffer = new Uint32Array(f32buffer.buffer);\n const supportsFloat16Array = "Float16Array" in globalThis;\n const f16buffer = supportsFloat16Array ? new globalThis["Float16Array"](1) : null;\n const u16buffer = new Uint16Array(f16buffer == null ? void 0 : f16buffer.buffer);\n function normalize(vec) {\n const norm = Math.sqrt(vec.reduce((acc, v) => acc + v * v, 0));\n return vec.map((v) => v / norm);\n }\n const toHalf = supportsFloat16Array ? toHalfNative : toHalfJS;\n const fromHalf = supportsFloat16Array ? fromHalfNative : fromHalfJS;\n function toHalfNative(f) {\n f16buffer[0] = f;\n return u16buffer[0];\n }\n function toHalfJS(f) {\n f32buffer[0] = f;\n const bits2 = u32buffer[0];\n const sign = bits2 >> 31 & 1;\n const exp = bits2 >> 23 & 255;\n const frac = bits2 & 8388607;\n const halfSign = sign << 15;\n if (exp === 255) {\n if (frac !== 0) {\n return halfSign | 32767;\n }\n return halfSign | 31744;\n }\n const newExp = exp - 127 + 15;\n if (newExp >= 31) {\n return halfSign | 31744;\n }\n if (newExp <= 0) {\n if (newExp < -10) {\n return halfSign;\n }\n const subFrac = (frac | 8388608) >> 1 - newExp + 13;\n return halfSign | subFrac;\n }\n const halfFrac = frac >> 13;\n return halfSign | newExp << 10 | halfFrac;\n }\n function fromHalfNative(u) {\n u16buffer[0] = u;\n return f16buffer[0];\n }\n function fromHalfJS(h) {\n const sign = h >> 15 & 1;\n const exp = h >> 10 & 31;\n const frac = h & 1023;\n let f32bits;\n if (exp === 0) {\n if (frac === 0) {\n f32bits = sign << 31;\n } else {\n let mant = frac;\n let e = -14;\n while ((mant & 1024) === 0) {\n mant <<= 1;\n e--;\n }\n mant &= 1023;\n const newExp = e + 127;\n const newFrac = mant << 13;\n f32bits = sign << 31 | newExp << 23 | newFrac;\n }\n } else if (exp === 31) {\n if (frac === 0) {\n f32bits = sign << 31 | 2139095040;\n } else {\n f32bits = sign << 31 | 2143289344;\n }\n } else {\n const newExp = exp - 15 + 127;\n const newFrac = frac << 13;\n f32bits = sign << 31 | newExp << 23 | newFrac;\n }\n u32buffer[0] = f32bits;\n return f32buffer[0];\n }\n function floatToUint8(v) {\n return Math.max(0, Math.min(255, Math.round(v * 255)));\n }\n function getTransferable(ctx) {\n const buffers = [];\n const seen = /* @__PURE__ */ new Set();\n function traverse(obj) {\n if (obj && typeof obj === "object" && !seen.has(obj)) {\n seen.add(obj);\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n buffers.push(obj.buffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n traverse(ctx);\n return buffers;\n }\n function setPackedSplat(packedSplats, index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b, encoding) {\n const rgbMin = (encoding == null ? void 0 : encoding.rgbMin) ?? 0;\n const rgbMax = (encoding == null ? void 0 : encoding.rgbMax) ?? 1;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8((encoding == null ? void 0 : encoding.lodOpacity) ? 0.5 * opacity : opacity);\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW)\n );\n const uQuatX = uQuat & 255;\n const uQuatY = uQuat >>> 8 & 255;\n const uQuatZ = uQuat >>> 16 & 255;\n const lnScaleMin = (encoding == null ? void 0 : encoding.lnScaleMin) ?? LN_SCALE_MIN;\n const lnScaleMax = (encoding == null ? void 0 : encoding.lnScaleMax) ?? LN_SCALE_MAX;\n const lnScaleScale = 254 / (lnScaleMax - lnScaleMin);\n const uScaleX = scaleX < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleY = scaleY < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleZ = scaleZ < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uCenterX = toHalf(x2);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n const i4 = index * 4;\n packedSplats[i4] = uR | uG << 8 | uB << 16 | uA << 24;\n packedSplats[i4 + 1] = uCenterX | uCenterY << 16;\n packedSplats[i4 + 2] = uCenterZ | uQuatX << 16 | uQuatY << 24;\n packedSplats[i4 + 3] = uScaleX | uScaleY << 8 | uScaleZ << 16 | uQuatZ << 24;\n }\n function setPackedSplatCenter(packedSplats, index, x2, y, z) {\n const uCenterX = toHalf(x2);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n const i4 = index * 4;\n packedSplats[i4 + 1] = uCenterX | uCenterY << 16;\n packedSplats[i4 + 2] = uCenterZ | packedSplats[i4 + 2] & 4294901760;\n }\n function setPackedSplatScales(packedSplats, index, scaleX, scaleY, scaleZ, encoding) {\n const lnScaleMin = (encoding == null ? void 0 : encoding.lnScaleMin) ?? LN_SCALE_MIN;\n const lnScaleMax = (encoding == null ? void 0 : encoding.lnScaleMax) ?? LN_SCALE_MAX;\n const lnScaleScale = 254 / (lnScaleMax - lnScaleMin);\n const uScaleX = scaleX < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleY = scaleY < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleZ = scaleZ < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const i4 = index * 4;\n packedSplats[i4 + 3] = uScaleX | uScaleY << 8 | uScaleZ << 16 | packedSplats[i4 + 3] & 4278190080;\n }\n const tempQuaternion = new Quaternion();\n function setPackedSplatQuat(packedSplats, index, quatX, quatY, quatZ, quatW) {\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW)\n );\n const uQuatX = uQuat & 255;\n const uQuatY = uQuat >>> 8 & 255;\n const uQuatZ = uQuat >>> 16 & 255;\n const i4 = index * 4;\n packedSplats[i4 + 2] = packedSplats[i4 + 2] & 65535 | uQuatX << 16 | uQuatY << 24;\n packedSplats[i4 + 3] = packedSplats[i4 + 3] & 16777215 | uQuatZ << 24;\n }\n function setPackedSplatRgba(packedSplats, index, r, g, b, a, encoding) {\n const rgbMin = (encoding == null ? void 0 : encoding.rgbMin) ?? 0;\n const rgbMax = (encoding == null ? void 0 : encoding.rgbMax) ?? 1;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8((encoding == null ? void 0 : encoding.lodOpacity) ? 0.5 * a : a);\n const i4 = index * 4;\n packedSplats[i4] = uR | uG << 8 | uB << 16 | uA << 24;\n }\n function setPackedSplatRgb(packedSplats, index, r, g, b, encoding) {\n const rgbMin = (encoding == null ? void 0 : encoding.rgbMin) ?? 0;\n const rgbMax = (encoding == null ? void 0 : encoding.rgbMax) ?? 1;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const i4 = index * 4;\n packedSplats[i4] = uR | uG << 8 | uB << 16 | packedSplats[i4] & 4278190080;\n }\n function setPackedSplatOpacity(packedSplats, index, opacity) {\n const uA = floatToUint8(opacity);\n const i4 = index * 4;\n packedSplats[i4] = packedSplats[i4] & 16777215 | uA << 24;\n }\n new Vector3();\n new Vector3();\n new Color();\n function getTextureSize(numSplats) {\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width))\n );\n const depth = Math.ceil(numSplats / (width * height));\n const maxSplats = width * height * depth;\n return { width, height, depth, maxSplats };\n }\n function computeMaxSplats(numSplats) {\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width))\n );\n const depth = Math.ceil(numSplats / (width * height));\n return width * height * depth;\n }\n unindent(`\n precision highp float;\n\n in vec3 position;\n\n void main() {\n gl_Position = vec4(position.xy, 0.0, 1.0);\n }\n`);\n const tempNormalizedQuaternion = new Quaternion();\n const tempAxis = new Vector3();\n function encodeQuatOctXy88R8(q) {\n const qnorm = tempNormalizedQuaternion.copy(q).normalize();\n if (qnorm.w < 0) {\n qnorm.set(-qnorm.x, -qnorm.y, -qnorm.z, -qnorm.w);\n }\n const theta = 2 * Math.acos(qnorm.w);\n const xyz_norm = Math.sqrt(\n qnorm.x * qnorm.x + qnorm.y * qnorm.y + qnorm.z * qnorm.z\n );\n const axis = xyz_norm < 1e-6 ? tempAxis.set(1, 0, 0) : tempAxis.set(qnorm.x, qnorm.y, qnorm.z).divideScalar(xyz_norm);\n const sum = Math.abs(axis.x) + Math.abs(axis.y) + Math.abs(axis.z);\n let p_x = axis.x / sum;\n let p_y = axis.y / sum;\n if (axis.z < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n const quantU = Math.round(u_f * 255);\n const quantV = Math.round(v_f * 255);\n const angleInt = Math.round(theta * (255 / Math.PI));\n return angleInt << 16 | quantV << 8 | quantU;\n }\n function packSint8Bytes(b0, b1, b22, b3) {\n const clampedB0 = Math.round(Math.max(-127, Math.min(127, b0 * 127)));\n const clampedB1 = Math.round(Math.max(-127, Math.min(127, b1 * 127)));\n const clampedB2 = Math.round(Math.max(-127, Math.min(127, b22 * 127)));\n const clampedB3 = Math.round(Math.max(-127, Math.min(127, b3 * 127)));\n return clampedB0 & 255 | (clampedB1 & 255) << 8 | (clampedB2 & 255) << 16 | (clampedB3 & 255) << 24;\n }\n function encodeSh1Rgb(sh1Array, index, sh1Rgb, encoding) {\n const sh1Max = (encoding == null ? void 0 : encoding.sh1Max) ?? 1;\n const sh1Scale = 63 / sh1Max;\n const base = index * 2;\n for (let i2 = 0; i2 < 9; ++i2) {\n const s = sh1Rgb[i2] * sh1Scale;\n const value = Math.round(Math.max(-63, Math.min(63, s))) & 127;\n const bitStart = i2 * 7;\n const bitEnd = bitStart + 7;\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = value << bitOffset & 4294967295;\n sh1Array[base + wordStart] |= firstWord;\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = value >>> 32 - bitOffset & 4294967295;\n sh1Array[base + wordStart + 1] |= secondWord;\n }\n }\n }\n function encodeSh2Rgb(sh2Array, index, sh2Rgb, encoding) {\n const sh2Max = (encoding == null ? void 0 : encoding.sh2Max) ?? 1;\n const sh2Scale = 1 / sh2Max;\n sh2Array[index * 4 + 0] = packSint8Bytes(\n sh2Rgb[0] * sh2Scale,\n sh2Rgb[1] * sh2Scale,\n sh2Rgb[2] * sh2Scale,\n sh2Rgb[3] * sh2Scale\n );\n sh2Array[index * 4 + 1] = packSint8Bytes(\n sh2Rgb[4] * sh2Scale,\n sh2Rgb[5] * sh2Scale,\n sh2Rgb[6] * sh2Scale,\n sh2Rgb[7] * sh2Scale\n );\n sh2Array[index * 4 + 2] = packSint8Bytes(\n sh2Rgb[8] * sh2Scale,\n sh2Rgb[9] * sh2Scale,\n sh2Rgb[10] * sh2Scale,\n sh2Rgb[11] * sh2Scale\n );\n sh2Array[index * 4 + 3] = packSint8Bytes(\n sh2Rgb[12] * sh2Scale,\n sh2Rgb[13] * sh2Scale,\n sh2Rgb[14] * sh2Scale,\n 0\n );\n }\n function encodeSh3Rgb(sh3Array, index, sh3Rgb, encoding) {\n const sh3Max = (encoding == null ? void 0 : encoding.sh3Max) ?? 1;\n const sh3Scale = 31 / sh3Max;\n const base = index * 4;\n for (let i2 = 0; i2 < 21; ++i2) {\n const s = sh3Rgb[i2] * sh3Scale;\n const value = Math.round(Math.max(-31, Math.min(31, s))) & 63;\n const bitStart = i2 * 6;\n const bitEnd = bitStart + 6;\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = value << bitOffset & 4294967295;\n sh3Array[base + wordStart] |= firstWord;\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = value >>> 32 - bitOffset & 4294967295;\n sh3Array[base + wordStart + 1] |= secondWord;\n }\n }\n }\n function decompressPartialGzip(fileBytes, numBytes) {\n const chunks = [];\n let totalBytes = 0;\n let result = null;\n const gunzip = new Gunzip((data, final) => {\n chunks.push(data);\n totalBytes += data.length;\n if (final || totalBytes >= numBytes) {\n const allBytes = new Uint8Array(totalBytes);\n let offset2 = 0;\n for (const chunk of chunks) {\n allBytes.set(chunk, offset2);\n offset2 += chunk.length;\n }\n result = allBytes.slice(0, numBytes);\n }\n });\n const CHUNK_SIZE = 1024;\n let offset = 0;\n while (result == null && offset < fileBytes.length) {\n const chunk = fileBytes.slice(offset, offset + CHUNK_SIZE);\n gunzip.push(chunk, false);\n offset += CHUNK_SIZE;\n }\n if (result == null) {\n gunzip.push(new Uint8Array(), true);\n if (result == null) {\n throw new Error("Failed to decompress partial gzip");\n }\n }\n return result;\n }\n class GunzipReader {\n constructor({\n fileBytes,\n chunkBytes = 64 * 1024\n }) {\n this.fileBytes = fileBytes;\n this.chunkBytes = chunkBytes;\n this.chunks = [];\n this.totalBytes = 0;\n const ds = new DecompressionStream("gzip");\n const decompressionStream = new Blob([fileBytes]).stream().pipeThrough(ds);\n this.reader = decompressionStream.getReader();\n }\n async read(numBytes) {\n while (this.totalBytes < numBytes) {\n const { value: chunk, done: readerDone } = await this.reader.read();\n if (readerDone) {\n break;\n }\n this.chunks.push(chunk);\n this.totalBytes += chunk.length;\n }\n if (this.totalBytes < numBytes) {\n throw new Error(\n `Unexpected EOF: needed ${numBytes}, got ${this.totalBytes}`\n );\n }\n const allBytes = new Uint8Array(this.totalBytes);\n let outOffset = 0;\n for (const chunk of this.chunks) {\n allBytes.set(chunk, outOffset);\n outOffset += chunk.length;\n }\n const result = allBytes.subarray(0, numBytes);\n this.chunks = [allBytes.subarray(numBytes)];\n this.totalBytes -= numBytes;\n return result;\n }\n }\n function decodeAntiSplat(fileBytes, initNumSplats, splatCallback) {\n const numSplats = Math.floor(fileBytes.length / 32);\n if (numSplats * 32 !== fileBytes.length) {\n throw new Error("Invalid .splat file size");\n }\n initNumSplats(numSplats);\n const f32 = new Float32Array(fileBytes.buffer);\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i322 = i2 * 32;\n const i8 = i2 * 8;\n const x2 = f32[i8 + 0];\n const y = f32[i8 + 1];\n const z = f32[i8 + 2];\n const scaleX = f32[i8 + 3];\n const scaleY = f32[i8 + 4];\n const scaleZ = f32[i8 + 5];\n const r = fileBytes[i322 + 24] / 255;\n const g = fileBytes[i322 + 25] / 255;\n const b = fileBytes[i322 + 26] / 255;\n const opacity = fileBytes[i322 + 27] / 255;\n const quatW = (fileBytes[i322 + 28] - 128) / 128;\n const quatX = (fileBytes[i322 + 29] - 128) / 128;\n const quatY = (fileBytes[i322 + 30] - 128) / 128;\n const quatZ = (fileBytes[i322 + 31] - 128) / 128;\n splatCallback(\n i2,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b\n );\n }\n }\n function unpackAntiSplat(fileBytes, splatEncoding) {\n let numSplats = 0;\n let maxSplats = 0;\n let packedArray = new Uint32Array(0);\n decodeAntiSplat(\n fileBytes,\n (cbNumSplats) => {\n numSplats = cbNumSplats;\n maxSplats = computeMaxSplats(numSplats);\n packedArray = new Uint32Array(maxSplats * 4);\n },\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n setPackedSplat(\n packedArray,\n index,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding\n );\n }\n );\n return { packedArray, numSplats };\n }\n const KSPLAT_COMPRESSION = {\n 0: {\n bytesPerCenter: 12,\n bytesPerScale: 12,\n bytesPerRotation: 16,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 4,\n scaleOffsetBytes: 12,\n rotationOffsetBytes: 24,\n colorOffsetBytes: 40,\n sphericalHarmonicsOffsetBytes: 44,\n scaleRange: 1\n },\n 1: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 2,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767\n },\n 2: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 1,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767\n }\n };\n const KSPLAT_SH_DEGREE_TO_COMPONENTS = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45\n };\n function decodeKsplat(fileBytes, initNumSplats, splatCallback, shCallback) {\n var _a2;\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n for (let section = 0; section < maxSectionCount; ++section) {\n let getSh = function(splatOffset, component) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true\n )\n );\n }\n const t = data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) / 255;\n return minSphericalHarmonicsCoeff + t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff);\n };\n const section2 = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n const sectionSplatCount = section2.getUint32(0, true);\n const sectionMaxSplatCount = section2.getUint32(4, true);\n const bucketSize = section2.getUint32(8, true);\n const bucketCount = section2.getUint32(12, true);\n const bucketBlockSize = section2.getFloat32(16, true);\n const bucketStorageSizeBytes = section2.getUint16(20, true);\n const compressionScaleRange = (section2.getUint32(24, true) || ((_a2 = KSPLAT_COMPRESSION[compressionLevel]) == null ? void 0 : _a2.scaleRange)) ?? 1;\n const fullBucketCount = section2.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section2.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes = bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section2.getUint16(40, true);\n const shComponents = KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat = bytesPerCenter + bytesPerScale + bytesPerRotation + bytesPerColor + shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes = splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9,\n 14,\n 19,\n 10,\n 15,\n 20,\n 11,\n 16,\n 21,\n 12,\n 17,\n 22,\n 13,\n 18,\n 23\n ];\n const sh3Index = [\n 24,\n 31,\n 38,\n 25,\n 32,\n 39,\n 26,\n 33,\n 40,\n 27,\n 34,\n 41,\n 28,\n 35,\n 42,\n 29,\n 36,\n 43,\n 30,\n 37,\n 44\n ];\n const sh1 = sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : void 0;\n const sh2 = sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : void 0;\n const sh3 = sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : void 0;\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount\n );\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n for (let i2 = 0; i2 < sectionSplatCount; ++i2) {\n const splatOffset = i2 * bytesPerSplat;\n let bucketIndex;\n if (i2 < fullBucketSplats) {\n bucketIndex = Math.floor(i2 / bucketSize);\n } else {\n const bucketLength = partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i2 >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n const x2 = compressionLevel === 0 ? data.getFloat32(splatOffset + 0, true) : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 0];\n const y = compressionLevel === 0 ? data.getFloat32(splatOffset + 4, true) : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 1];\n const z = compressionLevel === 0 ? data.getFloat32(splatOffset + 8, true) : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 2];\n const scaleX = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n const quatW = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true)\n );\n const quatX = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true)\n );\n const quatY = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true)\n );\n const quatZ = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true)\n );\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n splatCallback(\n i2,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b\n );\n if (sphericalHarmonicsDegree >= 1 && sh1) {\n for (const [i22, key] of sh1Index.entries()) {\n sh1[i22] = getSh(splatOffset, key);\n }\n if (sh2) {\n for (const [i22, key] of sh2Index.entries()) {\n sh2[i22] = getSh(splatOffset, key);\n }\n }\n if (sh3) {\n for (const [i22, key] of sh3Index.entries()) {\n sh3[i22] = getSh(splatOffset, key);\n }\n }\n shCallback == null ? void 0 : shCallback(i2, sh1, sh2, sh3);\n }\n }\n sectionBase += storageSizeBytes;\n }\n }\n function unpackKsplat(fileBytes, splatEncoding) {\n var _a2;\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n const numSplats = splatCount;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra = {};\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n for (let section = 0; section < maxSectionCount; ++section) {\n let getSh = function(splatOffset, component) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true\n )\n );\n }\n const t = data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) / 255;\n return minSphericalHarmonicsCoeff + t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff);\n };\n const section2 = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n const sectionSplatCount = section2.getUint32(0, true);\n const sectionMaxSplatCount = section2.getUint32(4, true);\n const bucketSize = section2.getUint32(8, true);\n const bucketCount = section2.getUint32(12, true);\n const bucketBlockSize = section2.getFloat32(16, true);\n const bucketStorageSizeBytes = section2.getUint16(20, true);\n const compressionScaleRange = (section2.getUint32(24, true) || ((_a2 = KSPLAT_COMPRESSION[compressionLevel]) == null ? void 0 : _a2.scaleRange)) ?? 1;\n const fullBucketCount = section2.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section2.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes = bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section2.getUint16(40, true);\n const shComponents = KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat = bytesPerCenter + bytesPerScale + bytesPerRotation + bytesPerColor + shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes = splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9,\n 14,\n 19,\n 10,\n 15,\n 20,\n 11,\n 16,\n 21,\n 12,\n 17,\n 22,\n 13,\n 18,\n 23\n ];\n const sh3Index = [\n 24,\n 31,\n 38,\n 25,\n 32,\n 39,\n 26,\n 33,\n 40,\n 27,\n 34,\n 41,\n 28,\n 35,\n 42,\n 29,\n 36,\n 43,\n 30,\n 37,\n 44\n ];\n const sh1 = sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : void 0;\n const sh2 = sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : void 0;\n const sh3 = sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : void 0;\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount\n );\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n for (let i2 = 0; i2 < sectionSplatCount; ++i2) {\n const splatOffset = i2 * bytesPerSplat;\n let bucketIndex;\n if (i2 < fullBucketSplats) {\n bucketIndex = Math.floor(i2 / bucketSize);\n } else {\n const bucketLength = partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i2 >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n const x2 = compressionLevel === 0 ? data.getFloat32(splatOffset + 0, true) : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 0];\n const y = compressionLevel === 0 ? data.getFloat32(splatOffset + 4, true) : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 1];\n const z = compressionLevel === 0 ? data.getFloat32(splatOffset + 8, true) : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 2];\n const scaleX = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n const quatW = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true)\n );\n const quatX = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true)\n );\n const quatY = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true)\n );\n const quatZ = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true)\n );\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n setPackedSplat(\n packedArray,\n i2,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding\n );\n if (sphericalHarmonicsDegree >= 1) {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n for (const [i22, key] of sh1Index.entries()) {\n sh1[i22] = getSh(splatOffset, key);\n }\n encodeSh1Rgb(extra.sh1, i2, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n for (const [i22, key] of sh2Index.entries()) {\n sh2[i22] = getSh(splatOffset, key);\n }\n encodeSh2Rgb(extra.sh2, i2, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n for (const [i22, key] of sh3Index.entries()) {\n sh3[i22] = getSh(splatOffset, key);\n }\n encodeSh3Rgb(extra.sh3, i2, sh3, splatEncoding);\n }\n }\n }\n sectionBase += storageSizeBytes;\n }\n return { packedArray, numSplats, extra };\n }\n const PLY_PROPERTY_TYPES = [\n "char",\n "uchar",\n "short",\n "ushort",\n "int",\n "uint",\n "float",\n "double"\n ];\n const _PlyReader = class _PlyReader {\n // Create a PlyReader from a Uint8Array/ArrayBuffer, no parsing done yet\n constructor({ fileBytes }) {\n this.header = "";\n this.littleEndian = true;\n this.elements = {};\n this.comments = [];\n this.data = null;\n this.numSplats = 0;\n this.fileBytes = fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n }\n // Identify and parse the PLY text header (assumed to be <64KB in size).\n // this.elements will contain all the elements in the file, typically\n // "vertex" contains the Gsplat data.\n async parseHeader() {\n const bufferStream = new ReadableStream({\n start: (controller) => {\n controller.enqueue(this.fileBytes.slice(0, 65536));\n controller.close();\n }\n });\n const decoder = bufferStream.pipeThrough(new TextDecoderStream()).getReader();\n this.header = "";\n const headerTerminator = "end_header\\n";\n while (true) {\n const { value, done } = await decoder.read();\n if (done) {\n throw new Error("Failed to read header");\n }\n this.header += value;\n const endHeader = this.header.indexOf(headerTerminator);\n if (endHeader >= 0) {\n this.header = this.header.slice(0, endHeader + headerTerminator.length);\n break;\n }\n }\n const headerLen = new TextEncoder().encode(this.header).length;\n this.data = new DataView(this.fileBytes.buffer, headerLen);\n this.elements = {};\n let curElement = null;\n this.comments = [];\n this.header.trim().split("\\n").forEach((line, lineIndex) => {\n const trimmedLine = line.trim();\n if (lineIndex === 0) {\n if (trimmedLine !== "ply") {\n throw new Error("Invalid PLY header");\n }\n return;\n }\n if (trimmedLine.length === 0) {\n return;\n }\n const fields = trimmedLine.split(" ");\n switch (fields[0]) {\n case "format":\n if (fields[1] === "binary_little_endian") {\n this.littleEndian = true;\n } else if (fields[1] === "binary_big_endian") {\n this.littleEndian = false;\n } else {\n throw new Error(`Unsupported PLY format: ${fields[1]}`);\n }\n if (fields[2] !== "1.0") {\n throw new Error(`Unsupported PLY version: ${fields[2]}`);\n }\n break;\n case "end_header":\n break;\n case "comment":\n this.comments.push(trimmedLine.slice("comment ".length));\n break;\n case "element": {\n const name = fields[1];\n curElement = {\n name,\n count: Number.parseInt(fields[2]),\n properties: {}\n };\n this.elements[name] = curElement;\n break;\n }\n case "property":\n if (curElement == null) {\n throw new Error("Property must be inside an element");\n }\n if (fields[1] === "list") {\n curElement.properties[fields[4]] = {\n isList: true,\n type: fields[3],\n countType: fields[2]\n };\n } else {\n curElement.properties[fields[2]] = {\n isList: false,\n type: fields[1]\n };\n }\n break;\n }\n });\n if (this.elements.vertex) {\n this.numSplats = this.elements.vertex.count;\n }\n }\n parseData(elementCallback) {\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error("No data to parse");\n }\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const item = createEmptyItem(properties);\n const parseFn = createParseFn(properties, this.littleEndian);\n const callback = elementCallback(element) ?? (() => {\n });\n for (let index = 0; index < count; index++) {\n offset = parseFn(data, offset, item);\n callback(index, item);\n }\n }\n }\n // Parse all the Gsplat data in the PLY file in go, invoking the given\n // callbacks for each Gsplat.\n parseSplats(splatCallback, shCallback) {\n if (this.elements.vertex == null) {\n throw new Error("No vertex element found");\n }\n let isSuperSplat = false;\n const ssChunks = [];\n let numSh = 0;\n let sh1Props = [];\n let sh2Props = [];\n let sh3Props = [];\n let sh1 = void 0;\n let sh2 = void 0;\n let sh3 = void 0;\n function prepareSh() {\n const num_f_rest = NUM_SH_TO_NUM_F_REST[numSh];\n sh1Props = new Array(3).fill(null).flatMap((_, k) => [0, 1, 2].map((_2, d) => k + d * num_f_rest / 3));\n sh2Props = new Array(5).fill(null).flatMap(\n (_, k) => [0, 1, 2].map((_2, d) => 3 + k + d * num_f_rest / 3)\n );\n sh3Props = new Array(7).fill(null).flatMap(\n (_, k) => [0, 1, 2].map((_2, d) => 8 + k + d * num_f_rest / 3)\n );\n sh1 = numSh >= 1 ? new Float32Array(3 * 3) : void 0;\n sh2 = numSh >= 2 ? new Float32Array(5 * 3) : void 0;\n sh3 = numSh >= 3 ? new Float32Array(7 * 3) : void 0;\n }\n function ssShCallback(index, item) {\n if (!sh1) {\n throw new Error("Missing sh1");\n }\n const sh = item.f_rest;\n for (let i2 = 0; i2 < sh1Props.length; i2++) {\n sh1[i2] = sh[sh1Props[i2]] * 8 / 255 - 4;\n }\n if (sh2) {\n for (let i2 = 0; i2 < sh2Props.length; i2++) {\n sh2[i2] = sh[sh2Props[i2]] * 8 / 255 - 4;\n }\n }\n if (sh3) {\n for (let i2 = 0; i2 < sh3Props.length; i2++) {\n sh3[i2] = sh[sh3Props[i2]] * 8 / 255 - 4;\n }\n }\n shCallback == null ? void 0 : shCallback(index, sh1, sh2, sh3);\n }\n function initSuperSplat(element) {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z\n } = element.properties;\n if (!min_x || !min_y || !min_z || !max_x || !max_y || !max_z || !min_scale_x || !min_scale_y || !min_scale_z || !max_scale_x || !max_scale_y || !max_scale_z) {\n throw new Error("Missing PLY chunk properties");\n }\n isSuperSplat = true;\n return (index, item) => {\n const {\n min_x: min_x2,\n min_y: min_y2,\n min_z: min_z2,\n max_x: max_x2,\n max_y: max_y2,\n max_z: max_z2,\n min_scale_x: min_scale_x2,\n min_scale_y: min_scale_y2,\n min_scale_z: min_scale_z2,\n max_scale_x: max_scale_x2,\n max_scale_y: max_scale_y2,\n max_scale_z: max_scale_z2,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b\n } = item;\n ssChunks.push({\n min_x: min_x2,\n min_y: min_y2,\n min_z: min_z2,\n max_x: max_x2,\n max_y: max_y2,\n max_z: max_z2,\n min_scale_x: min_scale_x2,\n min_scale_y: min_scale_y2,\n min_scale_z: min_scale_z2,\n max_scale_x: max_scale_x2,\n max_scale_y: max_scale_y2,\n max_scale_z: max_scale_z2,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b\n });\n };\n }\n function decodeSuperSplat(element) {\n if (shCallback && element.name === "sh") {\n numSh = getNumSh(element.properties);\n prepareSh();\n return ssShCallback;\n }\n if (element.name !== "vertex") {\n return null;\n }\n const { packed_position, packed_rotation, packed_scale, packed_color } = element.properties;\n if (!packed_position || !packed_rotation || !packed_scale || !packed_color) {\n throw new Error(\n "Missing PLY properties: packed_position, packed_rotation, packed_scale, packed_color"\n );\n }\n const SQRT2 = Math.sqrt(2);\n return (index, item) => {\n const chunk = ssChunks[index >>> 8];\n if (chunk == null) {\n throw new Error("Missing PLY chunk");\n }\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b\n } = chunk;\n const { packed_position: packed_position2, packed_rotation: packed_rotation2, packed_scale: packed_scale2, packed_color: packed_color2 } = item;\n const x2 = (packed_position2 >>> 21 & 2047) / 2047 * (max_x - min_x) + min_x;\n const y = (packed_position2 >>> 11 & 1023) / 1023 * (max_y - min_y) + min_y;\n const z = (packed_position2 & 2047) / 2047 * (max_z - min_z) + min_z;\n const r0 = ((packed_rotation2 >>> 20 & 1023) / 1023 - 0.5) * SQRT2;\n const r1 = ((packed_rotation2 >>> 10 & 1023) / 1023 - 0.5) * SQRT2;\n const r2 = ((packed_rotation2 & 1023) / 1023 - 0.5) * SQRT2;\n const rr = Math.sqrt(Math.max(0, 1 - r0 * r0 - r1 * r1 - r2 * r2));\n const rOrder = packed_rotation2 >>> 30;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n const scaleX = Math.exp(\n (packed_scale2 >>> 21 & 2047) / 2047 * (max_scale_x - min_scale_x) + min_scale_x\n );\n const scaleY = Math.exp(\n (packed_scale2 >>> 11 & 1023) / 1023 * (max_scale_y - min_scale_y) + min_scale_y\n );\n const scaleZ = Math.exp(\n (packed_scale2 & 2047) / 2047 * (max_scale_z - min_scale_z) + min_scale_z\n );\n const r = (packed_color2 >>> 24 & 255) / 255 * ((max_r ?? 1) - (min_r ?? 0)) + (min_r ?? 0);\n const g = (packed_color2 >>> 16 & 255) / 255 * ((max_g ?? 1) - (min_g ?? 0)) + (min_g ?? 0);\n const b = (packed_color2 >>> 8 & 255) / 255 * ((max_b ?? 1) - (min_b ?? 0)) + (min_b ?? 0);\n const opacity = (packed_color2 & 255) / 255;\n splatCallback(\n index,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b\n );\n };\n }\n const elementCallback = (element) => {\n if (element.name === "chunk") {\n return initSuperSplat(element);\n }\n if (isSuperSplat) {\n return decodeSuperSplat(element);\n }\n if (element.name !== "vertex") {\n return null;\n }\n const {\n x: x2,\n y,\n z,\n scale_0,\n scale_1,\n scale_2,\n rot_0,\n rot_1,\n rot_2,\n rot_3,\n opacity,\n f_dc_0,\n f_dc_1,\n f_dc_2,\n red,\n green,\n blue,\n alpha\n } = element.properties;\n if (!x2 || !y || !z) {\n throw new Error("Missing PLY properties: x, y, z");\n }\n const hasScales = scale_0 && scale_1 && scale_2;\n const hasRots = rot_0 && rot_1 && rot_2 && rot_3;\n const alphaDiv = alpha != null ? FIELD_SCALE[alpha.type] : 1;\n const redDiv = red != null ? FIELD_SCALE[red.type] : 1;\n const greenDiv = green != null ? FIELD_SCALE[green.type] : 1;\n const blueDiv = blue != null ? FIELD_SCALE[blue.type] : 1;\n numSh = getNumSh(element.properties);\n prepareSh();\n return (index, item) => {\n const scaleX = hasScales ? Math.exp(item.scale_0) : _PlyReader.defaultPointScale;\n const scaleY = hasScales ? Math.exp(item.scale_1) : _PlyReader.defaultPointScale;\n const scaleZ = hasScales ? Math.exp(item.scale_2) : _PlyReader.defaultPointScale;\n const quatX = hasRots ? item.rot_1 : 0;\n const quatY = hasRots ? item.rot_2 : 0;\n const quatZ = hasRots ? item.rot_3 : 0;\n const quatW = hasRots ? item.rot_0 : 1;\n const op = opacity != null ? 1 / (1 + Math.exp(-item.opacity)) : alpha != null ? item.alpha / alphaDiv : 1;\n const r = f_dc_0 != null ? item.f_dc_0 * SH_C0$1 + 0.5 : red != null ? item.red / redDiv : 1;\n const g = f_dc_1 != null ? item.f_dc_1 * SH_C0$1 + 0.5 : green != null ? item.green / greenDiv : 1;\n const b = f_dc_2 != null ? item.f_dc_2 * SH_C0$1 + 0.5 : blue != null ? item.blue / blueDiv : 1;\n splatCallback(\n index,\n item.x,\n item.y,\n item.z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n op,\n r,\n g,\n b\n );\n if (shCallback && sh1) {\n const sh = item.f_rest;\n if (sh1) {\n for (let i2 = 0; i2 < sh1Props.length; i2++) {\n sh1[i2] = sh[sh1Props[i2]];\n }\n }\n if (sh2) {\n for (let i2 = 0; i2 < sh2Props.length; i2++) {\n sh2[i2] = sh[sh2Props[i2]];\n }\n }\n if (sh3) {\n for (let i2 = 0; i2 < sh3Props.length; i2++) {\n sh3[i2] = sh[sh3Props[i2]];\n }\n }\n shCallback(index, sh1, sh2, sh3);\n }\n };\n };\n this.parseData(elementCallback);\n }\n // Inject RGBA values into original PLY file, which can be used to modify\n // the color/opacity of the Gsplats and write out the modified PLY file.\n injectRgba(rgba) {\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error("No parsed data");\n }\n if (rgba.length !== this.numSplats * 4) {\n throw new Error("Invalid RGBA array length");\n }\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const parsers = [];\n let rgbaOffset = 0;\n const isVertex = elementName === "vertex";\n if (isVertex) {\n for (const name of ["opacity", "f_dc_0", "f_dc_1", "f_dc_2"]) {\n if (!properties[name] || properties[name].type !== "float") {\n throw new Error(`Can\'t injectRgba due to property: ${name}`);\n }\n }\n }\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!property.isList) {\n if (isVertex) {\n if (propertyName === "f_dc_0" || propertyName === "f_dc_1" || propertyName === "f_dc_2") {\n const component = Number.parseInt(\n propertyName.slice("f_dc_".length)\n );\n parsers.push(() => {\n const value = (rgba[rgbaOffset + component] / 255 - 0.5) / SH_C0$1;\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value\n );\n });\n } else if (propertyName === "opacity") {\n parsers.push(() => {\n const value = Math.max(\n -100,\n Math.min(\n 100,\n -Math.log(1 / (rgba[rgbaOffset + 3] / 255) - 1)\n )\n );\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value\n );\n });\n }\n }\n parsers.push(() => {\n offset += FIELD_BYTES[property.type];\n });\n } else {\n parsers.push(() => {\n const length = PARSE_FIELD[property.countType](\n data,\n offset,\n this.littleEndian\n );\n offset += FIELD_BYTES[property.countType];\n offset += length * FIELD_BYTES[property.type];\n });\n }\n }\n for (let index = 0; index < count; index++) {\n for (const parser of parsers) {\n parser();\n }\n if (isVertex) {\n rgbaOffset += 4;\n }\n }\n }\n }\n };\n _PlyReader.defaultPointScale = 1e-3;\n let PlyReader = _PlyReader;\n const SH_C0$1 = 0.28209479177387814;\n const PARSE_FIELD = {\n char: (data, offset, littleEndian) => {\n return data.getInt8(offset);\n },\n uchar: (data, offset, littleEndian) => {\n return data.getUint8(offset);\n },\n short: (data, offset, littleEndian) => {\n return data.getInt16(offset, littleEndian);\n },\n ushort: (data, offset, littleEndian) => {\n return data.getUint16(offset, littleEndian);\n },\n int: (data, offset, littleEndian) => {\n return data.getInt32(offset, littleEndian);\n },\n uint: (data, offset, littleEndian) => {\n return data.getUint32(offset, littleEndian);\n },\n float: (data, offset, littleEndian) => {\n return data.getFloat32(offset, littleEndian);\n },\n double: (data, offset, littleEndian) => {\n return data.getFloat64(offset, littleEndian);\n }\n };\n const SET_FIELD = {\n char: (data, offset, littleEndian, value) => {\n data.setInt8(offset, value);\n },\n uchar: (data, offset, littleEndian, value) => {\n data.setUint8(offset, value);\n },\n short: (data, offset, littleEndian, value) => {\n data.setInt16(offset, value, littleEndian);\n },\n ushort: (data, offset, littleEndian, value) => {\n data.setUint16(offset, value, littleEndian);\n },\n int: (data, offset, littleEndian, value) => {\n data.setInt32(offset, value, littleEndian);\n },\n uint: (data, offset, littleEndian, value) => {\n data.setUint32(offset, value, littleEndian);\n },\n float: (data, offset, littleEndian, value) => {\n data.setFloat32(offset, value, littleEndian);\n },\n double: (data, offset, littleEndian, value) => {\n data.setFloat64(offset, value, littleEndian);\n }\n };\n const FIELD_BYTES = {\n char: 1,\n uchar: 1,\n short: 2,\n ushort: 2,\n int: 4,\n uint: 4,\n float: 4,\n double: 8\n };\n const FIELD_SCALE = {\n char: 127,\n uchar: 255,\n short: 32767,\n ushort: 65535,\n int: 2147483647,\n uint: 4294967295,\n float: 1,\n double: 1\n };\n const NUM_F_REST_TO_NUM_SH = {\n 0: 0,\n 9: 1,\n 24: 2,\n 45: 3\n };\n const NUM_SH_TO_NUM_F_REST = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45\n };\n const F_REST_REGEX = /^f_rest_([0-9]{1,2})$/;\n function createEmptyItem(properties) {\n const item = {};\n for (const [propertyName, property] of Object.entries(properties)) {\n if (F_REST_REGEX.test(propertyName)) {\n item.f_rest = new Array(getNumSh(properties));\n } else {\n item[propertyName] = property.isList ? [] : 0;\n }\n }\n return item;\n }\n function createParseFn(properties, littleEndian) {\n if (safeToCompile(properties)) {\n return createCompiledParserFn(properties, littleEndian);\n }\n return createDynamicParserFn(properties, littleEndian);\n }\n const UNSAFE_EVAL_ALLOWED = (() => {\n try {\n new Function("return 42;");\n } catch (e) {\n return false;\n }\n return true;\n })();\n const PROPERTY_NAME_REGEX = /^[a-zA-Z0-9_]+$/;\n function safeToCompile(properties) {\n if (!UNSAFE_EVAL_ALLOWED) {\n return false;\n }\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!PROPERTY_NAME_REGEX.test(propertyName)) {\n return false;\n }\n if (property.isList && !PLY_PROPERTY_TYPES.includes(property.countType)) {\n return false;\n }\n if (!PLY_PROPERTY_TYPES.includes(property.type)) {\n return false;\n }\n }\n return true;\n }\n function createCompiledParserFn(properties, littleEndian) {\n const parserSrc = ["let list;"];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parserSrc.push(\n /*js*/\n `\n item.f_rest[${fRestIndex}] = PARSE_FIELD[\'${property.type}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `\n );\n } else if (!property.isList) {\n parserSrc.push(\n /*js*/\n `\n item[\'${propertyName}\'] = PARSE_FIELD[\'${property.type}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `\n );\n } else {\n parserSrc.push(\n /*js*/\n `\n list = item[\'${propertyName}\'];\n list.length = PARSE_FIELD[\'${property.countType}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.countType]};\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD[\'${property.type}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n }\n `\n );\n }\n }\n parserSrc.push("return offset;");\n const fn = new Function(\n "data",\n "offset",\n "item",\n "PARSE_FIELD",\n parserSrc.join("\\n")\n );\n return (data, offset, item) => fn(data, offset, item, PARSE_FIELD);\n }\n function createDynamicParserFn(properties, littleEndian) {\n const parsers = [];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parsers.push(\n (data, offset, item) => {\n item.f_rest[fRestIndex] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian\n );\n return offset + FIELD_BYTES[property.type];\n }\n );\n } else if (!property.isList) {\n parsers.push(\n (data, offset, item) => {\n item[propertyName] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian\n );\n return offset + FIELD_BYTES[property.type];\n }\n );\n } else {\n parsers.push(\n (data, offset, item) => {\n const list = item[propertyName];\n list.length = PARSE_FIELD[property.countType](\n data,\n offset,\n littleEndian\n );\n let currentOffset = offset + FIELD_BYTES[property.countType];\n for (let i2 = 0; i2 < list.length; i2++) {\n list[i2] = PARSE_FIELD[property.type](\n data,\n currentOffset,\n littleEndian\n );\n currentOffset += FIELD_BYTES[property.type];\n }\n return currentOffset;\n }\n );\n }\n }\n return (data, offset, item) => {\n let currentOffset = offset;\n for (let parserIndex = 0; parserIndex < parsers.length; parserIndex++) {\n currentOffset = parsers[parserIndex](data, currentOffset, item);\n }\n return currentOffset;\n };\n }\n function getNumSh(properties) {\n let num_f_rest = 0;\n while (properties[`f_rest_${num_f_rest}`]) {\n num_f_rest += 1;\n }\n const numSh = NUM_F_REST_TO_NUM_SH[num_f_rest];\n if (numSh == null) {\n throw new Error(`Unsupported number of SH coefficients: ${num_f_rest}`);\n }\n return numSh;\n }\n class SpzReader {\n constructor({ fileBytes }) {\n this.version = -1;\n this.numSplats = 0;\n this.shDegree = 0;\n this.fractionalBits = 0;\n this.flags = 0;\n this.flagAntiAlias = false;\n this.flagLod = false;\n this.reserved = 0;\n this.headerParsed = false;\n this.parsed = false;\n this.fileBytes = fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n this.reader = new GunzipReader({\n fileBytes: this.fileBytes\n });\n }\n async parseHeader() {\n if (this.headerParsed) {\n throw new Error("SPZ file header already parsed");\n }\n const header = new DataView((await this.reader.read(16)).buffer);\n if (header.getUint32(0, true) !== 1347635022) {\n throw new Error("Invalid SPZ file");\n }\n this.version = header.getUint32(4, true);\n if (this.version < 1 || this.version > 3) {\n throw new Error(`Unsupported SPZ version: ${this.version}`);\n }\n this.numSplats = header.getUint32(8, true);\n this.shDegree = header.getUint8(12);\n this.fractionalBits = header.getUint8(13);\n this.flags = header.getUint8(14);\n this.flagAntiAlias = (this.flags & 1) !== 0;\n this.flagLod = (this.flags & 128) !== 0;\n this.reserved = header.getUint8(15);\n this.headerParsed = true;\n this.parsed = false;\n }\n async parseSplats(centerCallback, alphaCallback, rgbCallback, scalesCallback, quatCallback, shCallback, {\n childCounts,\n childStarts\n } = {}) {\n if (!this.headerParsed) {\n throw new Error("SPZ file header must be parsed first");\n }\n if (this.parsed) {\n throw new Error("SPZ file already parsed");\n }\n this.parsed = true;\n if (this.version === 1) {\n const centerBytes = await this.reader.read(this.numSplats * 3 * 2);\n const centerUint16 = new Uint16Array(centerBytes.buffer);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const x2 = fromHalf(centerUint16[i3]);\n const y = fromHalf(centerUint16[i3 + 1]);\n const z = fromHalf(centerUint16[i3 + 2]);\n centerCallback == null ? void 0 : centerCallback(i2, x2, y, z);\n }\n } else if (this.version === 2 || this.version === 3) {\n const fixed = 1 << this.fractionalBits;\n const centerBytes = await this.reader.read(this.numSplats * 3 * 3);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i9 = i2 * 9;\n const x2 = ((centerBytes[i9 + 2] << 24 | centerBytes[i9 + 1] << 16 | centerBytes[i9] << 8) >> 8) / fixed;\n const y = ((centerBytes[i9 + 5] << 24 | centerBytes[i9 + 4] << 16 | centerBytes[i9 + 3] << 8) >> 8) / fixed;\n const z = ((centerBytes[i9 + 8] << 24 | centerBytes[i9 + 7] << 16 | centerBytes[i9 + 6] << 8) >> 8) / fixed;\n centerCallback == null ? void 0 : centerCallback(i2, x2, y, z);\n }\n } else {\n throw new Error("Unreachable");\n }\n {\n const bytes = await this.reader.read(this.numSplats);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n alphaCallback == null ? void 0 : alphaCallback(i2, bytes[i2] / 255);\n }\n }\n {\n const rgbBytes = await this.reader.read(this.numSplats * 3);\n const scale = SH_C0 / 0.15;\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const r = (rgbBytes[i3] / 255 - 0.5) * scale + 0.5;\n const g = (rgbBytes[i3 + 1] / 255 - 0.5) * scale + 0.5;\n const b = (rgbBytes[i3 + 2] / 255 - 0.5) * scale + 0.5;\n rgbCallback == null ? void 0 : rgbCallback(i2, r, g, b);\n }\n }\n {\n const scalesBytes = await this.reader.read(this.numSplats * 3);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const scaleX = Math.exp(scalesBytes[i3] / 16 - 10);\n const scaleY = Math.exp(scalesBytes[i3 + 1] / 16 - 10);\n const scaleZ = Math.exp(scalesBytes[i3 + 2] / 16 - 10);\n scalesCallback == null ? void 0 : scalesCallback(i2, scaleX, scaleY, scaleZ);\n }\n }\n if (this.version === 3) {\n const maxValue = 1 / Math.sqrt(2);\n const quatBytes = await this.reader.read(this.numSplats * 4);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 4;\n const quaternion = [0, 0, 0, 0];\n const values = [\n quatBytes[i3],\n quatBytes[i3 + 1],\n quatBytes[i3 + 2],\n quatBytes[i3 + 3]\n ];\n const combinedValues = values[0] + (values[1] << 8) + (values[2] << 16) + (values[3] << 24);\n const valueMask = (1 << 9) - 1;\n const largestIndex = combinedValues >>> 30;\n let remainingValues = combinedValues;\n let sumSquares = 0;\n for (let i22 = 3; i22 >= 0; --i22) {\n if (i22 !== largestIndex) {\n const value = remainingValues & valueMask;\n const sign = remainingValues >>> 9 & 1;\n remainingValues = remainingValues >>> 10;\n quaternion[i22] = maxValue * (value / valueMask);\n quaternion[i22] = sign === 0 ? quaternion[i22] : -quaternion[i22];\n sumSquares += quaternion[i22] * quaternion[i22];\n }\n }\n const square = 1 - sumSquares;\n quaternion[largestIndex] = Math.sqrt(Math.max(square, 0));\n quatCallback == null ? void 0 : quatCallback(\n i2,\n quaternion[0],\n quaternion[1],\n quaternion[2],\n quaternion[3]\n );\n }\n } else {\n const quatBytes = await this.reader.read(this.numSplats * 3);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const quatX = quatBytes[i3] / 127.5 - 1;\n const quatY = quatBytes[i3 + 1] / 127.5 - 1;\n const quatZ = quatBytes[i3 + 2] / 127.5 - 1;\n const quatW = Math.sqrt(\n Math.max(0, 1 - quatX * quatX - quatY * quatY - quatZ * quatZ)\n );\n quatCallback == null ? void 0 : quatCallback(i2, quatX, quatY, quatZ, quatW);\n }\n }\n if (shCallback && this.shDegree >= 1) {\n const sh1 = new Float32Array(3 * 3);\n const sh2 = this.shDegree >= 2 ? new Float32Array(5 * 3) : void 0;\n const sh3 = this.shDegree >= 3 ? new Float32Array(7 * 3) : void 0;\n const shBytes = await this.reader.read(\n this.numSplats * SH_DEGREE_TO_VECS[this.shDegree] * 3\n );\n let offset = 0;\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n for (let j = 0; j < 9; ++j) {\n sh1[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 9;\n if (sh2) {\n for (let j = 0; j < 15; ++j) {\n sh2[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 15;\n }\n if (sh3) {\n for (let j = 0; j < 21; ++j) {\n sh3[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 21;\n }\n shCallback == null ? void 0 : shCallback(i2, sh1, sh2, sh3);\n }\n }\n if (this.flagLod) {\n let bytes = await this.reader.read(this.numSplats * 2);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i22 = i2 * 2;\n const count = bytes[i22] + (bytes[i22 + 1] << 8);\n childCounts == null ? void 0 : childCounts(i2, count);\n }\n bytes = await this.reader.read(this.numSplats * 4);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i4 = i2 * 4;\n const start = bytes[i4] + (bytes[i4 + 1] << 8) + (bytes[i4 + 2] << 16) + (bytes[i4 + 3] << 24);\n childStarts == null ? void 0 : childStarts(i2, start);\n }\n }\n }\n }\n const SH_DEGREE_TO_VECS = { 1: 3, 2: 8, 3: 15 };\n const SH_C0 = 0.28209479177387814;\n const SPZ_MAGIC = 1347635022;\n const SPZ_VERSION = 3;\n const FLAG_ANTIALIASED = 1;\n class SpzWriter {\n constructor({\n numSplats,\n shDegree,\n fractionalBits = 12,\n flagAntiAlias = true\n }) {\n this.clippedCount = 0;\n const splatSize = 9 + // Position\n 1 + // Opacity\n 3 + // Scale\n 3 + // DC-rgb\n 4 + // Rotation\n (shDegree >= 1 ? 9 : 0) + (shDegree >= 2 ? 15 : 0) + (shDegree >= 3 ? 21 : 0);\n const bufferSize = 16 + numSplats * splatSize;\n this.buffer = new ArrayBuffer(bufferSize);\n this.view = new DataView(this.buffer);\n this.view.setUint32(0, SPZ_MAGIC, true);\n this.view.setUint32(4, SPZ_VERSION, true);\n this.view.setUint32(8, numSplats, true);\n this.view.setUint8(12, shDegree);\n this.view.setUint8(13, fractionalBits);\n this.view.setUint8(14, flagAntiAlias ? FLAG_ANTIALIASED : 0);\n this.view.setUint8(15, 0);\n this.numSplats = numSplats;\n this.shDegree = shDegree;\n this.fractionalBits = fractionalBits;\n this.fraction = 1 << fractionalBits;\n this.flagAntiAlias = flagAntiAlias;\n }\n setCenter(index, x2, y, z) {\n const xRounded = Math.round(x2 * this.fraction);\n const xInt = Math.max(-8388607, Math.min(8388607, xRounded));\n const yRounded = Math.round(y * this.fraction);\n const yInt = Math.max(-8388607, Math.min(8388607, yRounded));\n const zRounded = Math.round(z * this.fraction);\n const zInt = Math.max(-8388607, Math.min(8388607, zRounded));\n const clipped = xRounded !== xInt || yRounded !== yInt || zRounded !== zInt;\n if (clipped) {\n this.clippedCount += 1;\n }\n const i9 = index * 9;\n const base = 16 + i9;\n this.view.setUint8(base, xInt & 255);\n this.view.setUint8(base + 1, xInt >> 8 & 255);\n this.view.setUint8(base + 2, xInt >> 16 & 255);\n this.view.setUint8(base + 3, yInt & 255);\n this.view.setUint8(base + 4, yInt >> 8 & 255);\n this.view.setUint8(base + 5, yInt >> 16 & 255);\n this.view.setUint8(base + 6, zInt & 255);\n this.view.setUint8(base + 7, zInt >> 8 & 255);\n this.view.setUint8(base + 8, zInt >> 16 & 255);\n }\n setAlpha(index, alpha) {\n const base = 16 + this.numSplats * 9 + index;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round(alpha * 255)))\n );\n }\n static scaleRgb(r) {\n const v = ((r - 0.5) / (SH_C0 / 0.15) + 0.5) * 255;\n return Math.max(0, Math.min(255, Math.round(v)));\n }\n setRgb(index, r, g, b) {\n const base = 16 + this.numSplats * 10 + index * 3;\n this.view.setUint8(base, SpzWriter.scaleRgb(r));\n this.view.setUint8(base + 1, SpzWriter.scaleRgb(g));\n this.view.setUint8(base + 2, SpzWriter.scaleRgb(b));\n }\n setScale(index, scaleX, scaleY, scaleZ) {\n const base = 16 + this.numSplats * 13 + index * 3;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleX) + 10) * 16)))\n );\n this.view.setUint8(\n base + 1,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleY) + 10) * 16)))\n );\n this.view.setUint8(\n base + 2,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleZ) + 10) * 16)))\n );\n }\n setQuat(index, ...q) {\n const base = 16 + this.numSplats * 16 + index * 4;\n const quat = normalize(q);\n let iLargest = 0;\n for (let i2 = 1; i2 < 4; ++i2) {\n if (Math.abs(quat[i2]) > Math.abs(quat[iLargest])) {\n iLargest = i2;\n }\n }\n const negate = quat[iLargest] < 0 ? 1 : 0;\n let comp = iLargest;\n for (let i2 = 0; i2 < 4; ++i2) {\n if (i2 !== iLargest) {\n const negbit = (quat[i2] < 0 ? 1 : 0) ^ negate;\n const mag = Math.floor(\n ((1 << 9) - 1) * (Math.abs(quat[i2]) / Math.SQRT1_2) + 0.5\n );\n comp = comp << 10 | negbit << 9 | mag;\n }\n }\n this.view.setUint8(base, comp & 255);\n this.view.setUint8(base + 1, comp >> 8 & 255);\n this.view.setUint8(base + 2, comp >> 16 & 255);\n this.view.setUint8(base + 3, comp >>> 24 & 255);\n }\n static quantizeSh(sh, bits2) {\n const value = Math.round(sh * 128) + 128;\n const bucketSize = 1 << 8 - bits2;\n const quantized = Math.floor((value + bucketSize / 2) / bucketSize) * bucketSize;\n return Math.max(0, Math.min(255, quantized));\n }\n setSh(index, sh1, sh2, sh3) {\n const shVecs = SH_DEGREE_TO_VECS[this.shDegree] || 0;\n const base1 = 16 + this.numSplats * 20 + index * shVecs * 3;\n for (let j = 0; j < 9; ++j) {\n this.view.setUint8(base1 + j, SpzWriter.quantizeSh(sh1[j], 5));\n }\n if (sh2) {\n const base2 = base1 + 9;\n for (let j = 0; j < 15; ++j) {\n this.view.setUint8(base2 + j, SpzWriter.quantizeSh(sh2[j], 4));\n }\n if (sh3) {\n const base3 = base2 + 15;\n for (let j = 0; j < 21; ++j) {\n this.view.setUint8(base3 + j, SpzWriter.quantizeSh(sh3[j], 4));\n }\n }\n }\n }\n async finalize() {\n const input = new Uint8Array(this.buffer);\n const stream = new ReadableStream({\n async start(controller) {\n controller.enqueue(input);\n controller.close();\n }\n });\n const compressed = stream.pipeThrough(new CompressionStream("gzip"));\n const response = new Response(compressed);\n const buffer = await response.arrayBuffer();\n console.log(\n "Compressed",\n input.length,\n "bytes to",\n buffer.byteLength,\n "bytes"\n );\n return new Uint8Array(buffer);\n }\n }\n async function transcodeSpz(input) {\n var _a2, _b2, _c;\n const splats = new SplatData();\n const {\n inputs,\n clipXyz,\n maxSh,\n fractionalBits = 12,\n opacityThreshold\n } = input;\n for (const input2 of inputs) {\n let transformPos = function(pos) {\n pos.multiplyScalar(scale);\n pos.applyQuaternion(quaternion);\n pos.add(translate);\n return pos;\n }, transformScales = function(scales) {\n scales.multiplyScalar(scale);\n return scales;\n }, transformQuaternion = function(quat) {\n quat.premultiply(quaternion);\n return quat;\n }, withinClip = function(p) {\n return !clip || clip.containsPoint(p);\n }, withinOpacity = function(opacity) {\n return opacityThreshold !== void 0 ? opacity >= opacityThreshold : true;\n };\n const scale = ((_a2 = input2.transform) == null ? void 0 : _a2.scale) ?? 1;\n const quaternion = new Quaternion().fromArray(\n ((_b2 = input2.transform) == null ? void 0 : _b2.quaternion) ?? [0, 0, 0, 1]\n );\n const translate = new Vector3().fromArray(\n ((_c = input2.transform) == null ? void 0 : _c.translate) ?? [0, 0, 0]\n );\n const clip = clipXyz ? new Box3(\n new Vector3().fromArray(clipXyz.min),\n new Vector3().fromArray(clipXyz.max)\n ) : void 0;\n let fileType = input2.fileType;\n if (!fileType) {\n fileType = getSplatFileType(input2.fileBytes);\n if (!fileType && input2.pathOrUrl) {\n fileType = getSplatFileTypeFromPath(input2.pathOrUrl);\n }\n }\n switch (fileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes: input2.fileBytes });\n await ply.parseHeader();\n let lastIndex = null;\n ply.parseSplats(\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n const center = transformPos(new Vector3(x2, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n lastIndex,\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (sh1 && lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n }\n if (sh2 && lastIndex !== null) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3 && lastIndex !== null) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n );\n break;\n }\n case SplatFileType.SPZ: {\n const spz2 = new SpzReader({ fileBytes: input2.fileBytes });\n await spz2.parseHeader();\n const mapping = new Int32Array(spz2.numSplats);\n mapping.fill(-1);\n const centers = new Float32Array(spz2.numSplats * 3);\n const center = new Vector3();\n spz2.parseSplats(\n (index, x2, y, z) => {\n const center2 = transformPos(new Vector3(x2, y, z));\n centers[index * 3] = center2.x;\n centers[index * 3 + 1] = center2.y;\n centers[index * 3 + 2] = center2.z;\n },\n (index, alpha) => {\n center.fromArray(centers, index * 3);\n if (withinClip(center) && withinOpacity(alpha)) {\n mapping[index] = splats.pushSplat();\n splats.setCenter(mapping[index], center.x, center.y, center.z);\n splats.setOpacity(mapping[index], alpha);\n }\n },\n (index, r, g, b) => {\n if (mapping[index] >= 0) {\n splats.setColor(mapping[index], r, g, b);\n }\n },\n (index, scaleX, scaleY, scaleZ) => {\n if (mapping[index] >= 0) {\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(mapping[index], scales.x, scales.y, scales.z);\n }\n },\n (index, quatX, quatY, quatZ, quatW) => {\n if (mapping[index] >= 0) {\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n mapping[index],\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n }\n },\n (index, sh1, sh2, sh3) => {\n if (mapping[index] >= 0) {\n splats.setSh1(mapping[index], sh1);\n if (sh2) {\n splats.setSh2(mapping[index], sh2);\n }\n if (sh3) {\n splats.setSh3(mapping[index], sh3);\n }\n }\n }\n );\n break;\n }\n case SplatFileType.SPLAT:\n decodeAntiSplat(\n input2.fileBytes,\n (numSplats) => {\n },\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n const center = transformPos(new Vector3(x2, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n const index2 = splats.pushSplat();\n splats.setCenter(index2, center.x, center.y, center.z);\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(index2, scales.x, scales.y, scales.z);\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n index2,\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n splats.setOpacity(index2, opacity);\n splats.setColor(index2, r, g, b);\n }\n }\n );\n break;\n case SplatFileType.KSPLAT: {\n let lastIndex = null;\n decodeKsplat(\n input2.fileBytes,\n (numSplats) => {\n },\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n const center = transformPos(new Vector3(x2, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n lastIndex,\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n if (sh2) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n }\n );\n break;\n }\n default:\n throw new Error(`transcodeSpz not implemented for ${fileType}`);\n }\n }\n const shDegree = Math.min(\n maxSh ?? 3,\n splats.sh3 ? 3 : splats.sh2 ? 2 : splats.sh1 ? 1 : 0\n );\n const spz = new SpzWriter({\n numSplats: splats.numSplats,\n shDegree,\n fractionalBits,\n flagAntiAlias: true\n });\n for (let i2 = 0; i2 < splats.numSplats; ++i2) {\n const i3 = i2 * 3;\n const i4 = i2 * 4;\n spz.setCenter(\n i2,\n splats.centers[i3],\n splats.centers[i3 + 1],\n splats.centers[i3 + 2]\n );\n spz.setScale(\n i2,\n splats.scales[i3],\n splats.scales[i3 + 1],\n splats.scales[i3 + 2]\n );\n spz.setQuat(\n i2,\n splats.quaternions[i4],\n splats.quaternions[i4 + 1],\n splats.quaternions[i4 + 2],\n splats.quaternions[i4 + 3]\n );\n spz.setAlpha(i2, splats.opacities[i2]);\n spz.setRgb(\n i2,\n splats.colors[i3],\n splats.colors[i3 + 1],\n splats.colors[i3 + 2]\n );\n if (splats.sh1 && shDegree >= 1) {\n spz.setSh(\n i2,\n splats.sh1.slice(i2 * 9, (i2 + 1) * 9),\n shDegree >= 2 && splats.sh2 ? splats.sh2.slice(i2 * 15, (i2 + 1) * 15) : void 0,\n shDegree >= 3 && splats.sh3 ? splats.sh3.slice(i2 * 21, (i2 + 1) * 21) : void 0\n );\n }\n }\n const spzBytes = await spz.finalize();\n return { fileBytes: spzBytes, clippedCount: spz.clippedCount };\n }\n function getSplatFileType(fileBytes) {\n const view = new DataView(fileBytes.buffer);\n const magic = view.getUint32(0, true);\n if ((magic & 16777215) === 7957616) {\n return SplatFileType.PLY;\n }\n if ((magic & 16777215) === 559903) {\n const header = decompressPartialGzip(fileBytes, 4);\n const gView = new DataView(header.buffer);\n if (gView.getUint32(0, true) === 1347635022) {\n return SplatFileType.SPZ;\n }\n return void 0;\n }\n if (magic === 67324752) {\n if (tryPcSogsZip(fileBytes)) {\n return SplatFileType.PCSOGSZIP;\n }\n return void 0;\n }\n if (magic === 809779538) {\n return SplatFileType.RAD;\n }\n return void 0;\n }\n function getFileExtension(pathOrUrl) {\n const noTrailing = pathOrUrl.split(/[?#]/, 1)[0];\n const lastSlash = Math.max(\n noTrailing.lastIndexOf("/"),\n noTrailing.lastIndexOf("\\\\")\n );\n const filename = noTrailing.slice(lastSlash + 1);\n const lastDot = filename.lastIndexOf(".");\n if (lastDot <= 0 || lastDot === filename.length - 1) {\n return "";\n }\n return filename.slice(lastDot + 1).toLowerCase();\n }\n function getSplatFileTypeFromPath(pathOrUrl) {\n const extension = getFileExtension(pathOrUrl);\n if (extension === "ply") {\n return SplatFileType.PLY;\n }\n if (extension === "spz") {\n return SplatFileType.SPZ;\n }\n if (extension === "splat") {\n return SplatFileType.SPLAT;\n }\n if (extension === "ksplat") {\n return SplatFileType.KSPLAT;\n }\n if (extension === "sog") {\n return SplatFileType.PCSOGSZIP;\n }\n if (extension === "rad") {\n return SplatFileType.RAD;\n }\n return void 0;\n }\n function tryPcSogs(input) {\n try {\n let text;\n if (typeof input === "string") {\n text = input;\n } else {\n const fileBytes = input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n if (fileBytes.length > 65536) {\n return void 0;\n }\n text = new TextDecoder().decode(fileBytes);\n }\n const json = JSON.parse(text);\n if (!json || typeof json !== "object" || Array.isArray(json)) {\n return void 0;\n }\n const isVersion2 = json.version === 2;\n for (const key of ["means", "scales", "quats", "sh0"]) {\n if (!json[key] || typeof json[key] !== "object" || Array.isArray(json[key])) {\n return void 0;\n }\n if (isVersion2) {\n if (!json[key].files) {\n return void 0;\n }\n if ((key === "scales" || key === "sh0") && !json[key].codebook) {\n return void 0;\n }\n if (key === "means" && (!json[key].mins || !json[key].maxs)) {\n return void 0;\n }\n } else {\n if (!json[key].shape || !json[key].files) {\n return void 0;\n }\n if (key !== "quats" && (!json[key].mins || !json[key].maxs)) {\n return void 0;\n }\n }\n }\n return json;\n } catch {\n return void 0;\n }\n }\n function tryPcSogsZip(input) {\n try {\n const fileBytes = input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let metaFilename = null;\n const unzipped = unzipSync(fileBytes, {\n filter: ({ name }) => {\n const filename = name.split(/[\\\\/]/).pop();\n if (filename === "meta.json") {\n metaFilename = name;\n return true;\n }\n return false;\n }\n });\n if (!metaFilename) {\n return void 0;\n }\n const json = tryPcSogs(unzipped[metaFilename]);\n if (!json) {\n return void 0;\n }\n return { name: metaFilename, json };\n } catch {\n return void 0;\n }\n }\n class SplatData {\n constructor({ maxSplats = 1 } = {}) {\n this.numSplats = 0;\n this.maxSplats = getTextureSize(maxSplats).maxSplats;\n this.centers = new Float32Array(this.maxSplats * 3);\n this.scales = new Float32Array(this.maxSplats * 3);\n this.quaternions = new Float32Array(this.maxSplats * 4);\n this.opacities = new Float32Array(this.maxSplats);\n this.colors = new Float32Array(this.maxSplats * 3);\n }\n pushSplat() {\n const index = this.numSplats;\n this.ensureIndex(index);\n this.numSplats += 1;\n return index;\n }\n unpushSplat(index) {\n if (index === this.numSplats - 1) {\n this.numSplats -= 1;\n } else {\n throw new Error("Cannot unpush splat from non-last position");\n }\n }\n ensureCapacity(numSplats) {\n if (numSplats > this.maxSplats) {\n const targetSplats = Math.max(numSplats, this.maxSplats * 2);\n const newCenters = new Float32Array(targetSplats * 3);\n const newScales = new Float32Array(targetSplats * 3);\n const newQuaternions = new Float32Array(targetSplats * 4);\n const newOpacities = new Float32Array(targetSplats);\n const newColors = new Float32Array(targetSplats * 3);\n newCenters.set(this.centers);\n newScales.set(this.scales);\n newQuaternions.set(this.quaternions);\n newOpacities.set(this.opacities);\n newColors.set(this.colors);\n this.centers = newCenters;\n this.scales = newScales;\n this.quaternions = newQuaternions;\n this.opacities = newOpacities;\n this.colors = newColors;\n if (this.sh1) {\n const newSh1 = new Float32Array(targetSplats * 9);\n newSh1.set(this.sh1);\n this.sh1 = newSh1;\n }\n if (this.sh2) {\n const newSh2 = new Float32Array(targetSplats * 15);\n newSh2.set(this.sh2);\n this.sh2 = newSh2;\n }\n if (this.sh3) {\n const newSh3 = new Float32Array(targetSplats * 21);\n newSh3.set(this.sh3);\n this.sh3 = newSh3;\n }\n this.maxSplats = targetSplats;\n }\n }\n ensureIndex(index) {\n this.ensureCapacity(index + 1);\n }\n setCenter(index, x2, y, z) {\n this.centers[index * 3] = x2;\n this.centers[index * 3 + 1] = y;\n this.centers[index * 3 + 2] = z;\n }\n setScale(index, scaleX, scaleY, scaleZ) {\n this.scales[index * 3] = scaleX;\n this.scales[index * 3 + 1] = scaleY;\n this.scales[index * 3 + 2] = scaleZ;\n }\n setQuaternion(index, x2, y, z, w) {\n this.quaternions[index * 4] = x2;\n this.quaternions[index * 4 + 1] = y;\n this.quaternions[index * 4 + 2] = z;\n this.quaternions[index * 4 + 3] = w;\n }\n setOpacity(index, opacity) {\n this.opacities[index] = opacity;\n }\n setColor(index, r, g, b) {\n this.colors[index * 3] = r;\n this.colors[index * 3 + 1] = g;\n this.colors[index * 3 + 2] = b;\n }\n setSh1(index, sh1) {\n if (!this.sh1) {\n this.sh1 = new Float32Array(this.maxSplats * 9);\n }\n for (let j = 0; j < 9; ++j) {\n this.sh1[index * 9 + j] = sh1[j];\n }\n }\n setSh2(index, sh2) {\n if (!this.sh2) {\n this.sh2 = new Float32Array(this.maxSplats * 15);\n }\n for (let j = 0; j < 15; ++j) {\n this.sh2[index * 15 + j] = sh2[j];\n }\n }\n setSh3(index, sh3) {\n if (!this.sh3) {\n this.sh3 = new Float32Array(this.maxSplats * 21);\n }\n for (let j = 0; j < 21; ++j) {\n this.sh3[index * 21 + j] = sh3[j];\n }\n }\n }\n async function unpackPcSogs(json, extraFiles, splatEncoding) {\n const isVersion2 = "version" in json;\n if (!isVersion2 && json.quats.encoding !== "quaternion_packed") {\n throw new Error("Unsupported quaternion encoding");\n }\n const numSplats = isVersion2 ? json.count : json.means.shape[0];\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra = {};\n const meansPromise = Promise.all([\n decodeImageRgba(extraFiles[json.means.files[0]]),\n decodeImageRgba(extraFiles[json.means.files[1]])\n ]).then((means) => {\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n const fx = (means[0][i4 + 0] + (means[1][i4 + 0] << 8)) / 65535;\n const fy = (means[0][i4 + 1] + (means[1][i4 + 1] << 8)) / 65535;\n const fz = (means[0][i4 + 2] + (means[1][i4 + 2] << 8)) / 65535;\n let x2 = json.means.mins[0] + (json.means.maxs[0] - json.means.mins[0]) * fx;\n let y = json.means.mins[1] + (json.means.maxs[1] - json.means.mins[1]) * fy;\n let z = json.means.mins[2] + (json.means.maxs[2] - json.means.mins[2]) * fz;\n x2 = Math.sign(x2) * (Math.exp(Math.abs(x2)) - 1);\n y = Math.sign(y) * (Math.exp(Math.abs(y)) - 1);\n z = Math.sign(z) * (Math.exp(Math.abs(z)) - 1);\n setPackedSplatCenter(packedArray, i2, x2, y, z);\n }\n });\n const scalesPromise = decodeImageRgba(extraFiles[json.scales.files[0]]).then(\n (scales) => {\n let xLookup;\n let yLookup;\n let zLookup;\n if (isVersion2) {\n xLookup = yLookup = zLookup = json.scales.codebook.map((x2) => Math.exp(x2));\n } else {\n xLookup = new Array(256).fill(0).map(\n (_, i2) => json.scales.mins[0] + (json.scales.maxs[0] - json.scales.mins[0]) * (i2 / 255)\n ).map((x2) => Math.exp(x2));\n yLookup = new Array(256).fill(0).map(\n (_, i2) => json.scales.mins[1] + (json.scales.maxs[1] - json.scales.mins[1]) * (i2 / 255)\n ).map((x2) => Math.exp(x2));\n zLookup = new Array(256).fill(0).map(\n (_, i2) => json.scales.mins[2] + (json.scales.maxs[2] - json.scales.mins[2]) * (i2 / 255)\n ).map((x2) => Math.exp(x2));\n }\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n setPackedSplatScales(\n packedArray,\n i2,\n xLookup[scales[i4 + 0]],\n yLookup[scales[i4 + 1]],\n zLookup[scales[i4 + 2]],\n splatEncoding\n );\n }\n }\n );\n const quatsPromise = decodeImageRgba(extraFiles[json.quats.files[0]]).then(\n (quats) => {\n const SQRT2 = Math.sqrt(2);\n const lookup = new Array(256).fill(0).map((_, i2) => (i2 / 255 - 0.5) * SQRT2);\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n const r0 = lookup[quats[i4 + 0]];\n const r1 = lookup[quats[i4 + 1]];\n const r2 = lookup[quats[i4 + 2]];\n const rr = Math.sqrt(Math.max(0, 1 - r0 * r0 - r1 * r1 - r2 * r2));\n const rOrder = quats[i4 + 3] - 252;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n setPackedSplatQuat(packedArray, i2, quatX, quatY, quatZ, quatW);\n }\n }\n );\n const sh0Promise = decodeImageRgba(extraFiles[json.sh0.files[0]]).then(\n (sh0) => {\n const SH_C02 = 0.28209479177387814;\n let rLookup;\n let gLookup;\n let bLookup;\n let aLookup;\n if (isVersion2) {\n rLookup = gLookup = bLookup = json.sh0.codebook.map((x2) => SH_C02 * x2 + 0.5);\n aLookup = new Array(256).fill(0).map((_, i2) => i2 / 255);\n } else {\n rLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[0] + (json.sh0.maxs[0] - json.sh0.mins[0]) * (i2 / 255)\n ).map((x2) => SH_C02 * x2 + 0.5);\n gLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[1] + (json.sh0.maxs[1] - json.sh0.mins[1]) * (i2 / 255)\n ).map((x2) => SH_C02 * x2 + 0.5);\n bLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[2] + (json.sh0.maxs[2] - json.sh0.mins[2]) * (i2 / 255)\n ).map((x2) => SH_C02 * x2 + 0.5);\n aLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[3] + (json.sh0.maxs[3] - json.sh0.mins[3]) * (i2 / 255)\n ).map((x2) => 1 / (1 + Math.exp(-x2)));\n }\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n setPackedSplatRgba(\n packedArray,\n i2,\n rLookup[sh0[i4 + 0]],\n gLookup[sh0[i4 + 1]],\n bLookup[sh0[i4 + 2]],\n aLookup[sh0[i4 + 3]],\n splatEncoding\n );\n }\n }\n );\n const promises = [meansPromise, scalesPromise, quatsPromise, sh0Promise];\n if (json.shN) {\n const useSH3 = isVersion2 ? json.shN.bands >= 3 : json.shN.shape[1] >= 48 - 3;\n const useSH2 = isVersion2 ? json.shN.bands >= 2 : json.shN.shape[1] >= 27 - 3;\n const useSH1 = isVersion2 ? json.shN.bands >= 1 : json.shN.shape[1] >= 12 - 3;\n if (useSH1) extra.sh1 = new Uint32Array(numSplats * 2);\n if (useSH2) extra.sh2 = new Uint32Array(numSplats * 4);\n if (useSH3) extra.sh3 = new Uint32Array(numSplats * 4);\n const sh1 = new Float32Array(9);\n const sh2 = new Float32Array(15);\n const sh3 = new Float32Array(21);\n const shN = json.shN;\n const shNPromise = Promise.all([\n decodeImage(extraFiles[json.shN.files[0]]),\n decodeImage(extraFiles[json.shN.files[1]])\n ]).then(([centroids, labels]) => {\n const lookup = "codebook" in shN ? shN.codebook : new Array(256).fill(0).map((_, i2) => shN.mins + (shN.maxs - shN.mins) * (i2 / 255));\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n const label = labels.rgba[i4 + 0] + (labels.rgba[i4 + 1] << 8);\n const col = (label & 63) * 15;\n const row = label >>> 6;\n const offset = row * centroids.width + col;\n for (let d = 0; d < 3; ++d) {\n if (useSH1) {\n for (let k = 0; k < 3; ++k) {\n sh1[k * 3 + d] = lookup[centroids.rgba[(offset + k) * 4 + d]];\n }\n }\n if (useSH2) {\n for (let k = 0; k < 5; ++k) {\n sh2[k * 3 + d] = lookup[centroids.rgba[(offset + 3 + k) * 4 + d]];\n }\n }\n if (useSH3) {\n for (let k = 0; k < 7; ++k) {\n sh3[k * 3 + d] = lookup[centroids.rgba[(offset + 8 + k) * 4 + d]];\n }\n }\n }\n if (useSH1)\n encodeSh1Rgb(extra.sh1, i2, sh1, splatEncoding);\n if (useSH2)\n encodeSh2Rgb(extra.sh2, i2, sh2, splatEncoding);\n if (useSH3)\n encodeSh3Rgb(extra.sh3, i2, sh3, splatEncoding);\n }\n });\n promises.push(shNPromise);\n }\n await Promise.all(promises);\n return { packedArray, numSplats, extra };\n }\n let offscreenGlContext = null;\n async function decodeImage(fileBytes) {\n if (!offscreenGlContext) {\n const canvas = new OffscreenCanvas(1, 1);\n offscreenGlContext = canvas.getContext("webgl2");\n if (!offscreenGlContext) {\n throw new Error("Failed to create WebGL2 context");\n }\n }\n const imageBlob = new Blob([fileBytes]);\n const bitmap = await createImageBitmap(imageBlob, {\n premultiplyAlpha: "none"\n });\n const gl = offscreenGlContext;\n const texture = gl.createTexture();\n gl.bindTexture(gl.TEXTURE_2D, texture);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, true);\n gl.texImage2D(gl.TEXTURE_2D, 0, gl.RGBA, gl.RGBA, gl.UNSIGNED_BYTE, bitmap);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST);\n const framebuffer = gl.createFramebuffer();\n gl.bindFramebuffer(gl.FRAMEBUFFER, framebuffer);\n gl.framebufferTexture2D(\n gl.FRAMEBUFFER,\n gl.COLOR_ATTACHMENT0,\n gl.TEXTURE_2D,\n texture,\n 0\n );\n const data = new Uint8Array(bitmap.width * bitmap.height * 4);\n gl.readPixels(\n 0,\n 0,\n bitmap.width,\n bitmap.height,\n gl.RGBA,\n gl.UNSIGNED_BYTE,\n data\n );\n gl.deleteTexture(texture);\n gl.deleteFramebuffer(framebuffer);\n return { rgba: data, width: bitmap.width, height: bitmap.height };\n }\n async function decodeImageRgba(fileBytes) {\n const { rgba } = await decodeImage(fileBytes);\n return rgba;\n }\n async function unpackPcSogsZip(fileBytes, splatEncoding) {\n var _a2;\n const nameJson = tryPcSogsZip(fileBytes);\n if (!nameJson) {\n throw new Error("Invalid PC SOGS zip file");\n }\n const { name, json } = nameJson;\n const lastSlash = name.lastIndexOf("/");\n const lastBackslash = name.lastIndexOf("\\\\");\n const prefix = name.slice(0, Math.max(lastSlash, lastBackslash) + 1);\n const fileMap = /* @__PURE__ */ new Map();\n const refFiles = [\n ...json.means.files,\n ...json.scales.files,\n ...json.quats.files,\n ...json.sh0.files,\n ...((_a2 = json.shN) == null ? void 0 : _a2.files) ?? []\n ];\n for (const file of refFiles) {\n fileMap.set(prefix + file, file);\n }\n const unzipped = await new Promise(\n (resolve, reject) => {\n unzip(\n fileBytes,\n {\n filter: ({ name: name2 }) => {\n return fileMap.has(name2);\n }\n },\n (err2, files) => {\n if (err2) {\n reject(err2);\n } else {\n resolve(files);\n }\n }\n );\n }\n );\n const extraFiles = {};\n for (const [full, name2] of fileMap.entries()) {\n extraFiles[name2] = unzipped[full];\n }\n return await unpackPcSogs(json, extraFiles, splatEncoding);\n }\n async function onMessage(event) {\n const { name, args, id } = event.data;\n let result = void 0;\n let error = void 0;\n try {\n switch (name) {\n case "unpackPly": {\n const { packedArray, fileBytes, splatEncoding } = args;\n const decoded = await unpackPly({\n packedArray,\n fileBytes,\n splatEncoding\n });\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodeSpz": {\n const { fileBytes, splatEncoding } = args;\n const decoded = await unpackSpz(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodeAntiSplat": {\n const { fileBytes, splatEncoding } = args;\n const decoded = unpackAntiSplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray\n };\n break;\n }\n case "decodeKsplat": {\n const { fileBytes, splatEncoding } = args;\n const decoded = unpackKsplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodePcSogs": {\n const { fileBytes, extraFiles, splatEncoding } = args;\n const json = JSON.parse(\n new TextDecoder().decode(fileBytes)\n );\n const decoded = await unpackPcSogs(json, extraFiles, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodePcSogsZip": {\n const { fileBytes, splatEncoding } = args;\n const decoded = await unpackPcSogsZip(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "sortSplats": {\n const { totalSplats, readback, ordering } = args;\n result = {\n id,\n readback,\n ...sortSplats({ totalSplats, readback, ordering })\n };\n break;\n }\n case "sortDoubleSplats": {\n const { numSplats, readback, ordering } = args;\n {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort_splats(numSplats, readback, ordering)\n };\n }\n break;\n }\n case "sort32Splats": {\n const { numSplats, readback, ordering } = args;\n {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort32_splats(numSplats, readback, ordering)\n };\n }\n break;\n }\n case "transcodeSpz": {\n const input = args;\n const spzBytes = await transcodeSpz(input);\n result = {\n id,\n fileBytes: spzBytes,\n input\n };\n break;\n }\n default: {\n throw new Error(`Unknown name: ${name}`);\n }\n }\n } catch (e) {\n error = e;\n console.error(error);\n }\n self.postMessage(\n { id, result, error },\n { transfer: getTransferable(result) }\n );\n }\n async function unpackPly({\n packedArray,\n fileBytes,\n splatEncoding\n }) {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n const extra = {};\n ply.parseSplats(\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n setPackedSplat(\n packedArray,\n index,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding\n );\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3, index, sh3, splatEncoding);\n }\n }\n );\n return { packedArray, numSplats, extra };\n }\n async function unpackSpz(fileBytes, splatEncoding) {\n const spz = new SpzReader({ fileBytes });\n await spz.parseHeader();\n const numSplats = spz.numSplats;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra = {};\n let extraCallbacks = {};\n if (spz.flagLod) {\n const childCounts = new Uint16Array(numSplats);\n const childStarts = new Uint32Array(numSplats);\n extra.childCounts = childCounts;\n extra.childStarts = childStarts;\n extraCallbacks = {\n childCounts: (index, count) => {\n childCounts[index] = count;\n },\n childStarts: (index, start) => {\n childStarts[index] = start;\n }\n };\n }\n await spz.parseSplats(\n (index, x2, y, z) => {\n setPackedSplatCenter(packedArray, index, x2, y, z);\n },\n (index, alpha) => {\n setPackedSplatOpacity(packedArray, index, alpha);\n },\n (index, r, g, b) => {\n setPackedSplatRgb(packedArray, index, r, g, b, splatEncoding);\n },\n (index, scaleX, scaleY, scaleZ) => {\n setPackedSplatScales(\n packedArray,\n index,\n scaleX,\n scaleY,\n scaleZ,\n splatEncoding\n );\n },\n (index, quatX, quatY, quatZ, quatW) => {\n setPackedSplatQuat(packedArray, index, quatX, quatY, quatZ, quatW);\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3, index, sh3, splatEncoding);\n }\n },\n extraCallbacks\n );\n return { packedArray, numSplats, extra };\n }\n const DEPTH_INFINITY_F16 = 31744;\n const DEPTH_SIZE_16 = DEPTH_INFINITY_F16 + 1;\n let depthArray16 = null;\n function sortSplats({\n totalSplats,\n readback,\n ordering\n }) {\n if (!depthArray16) {\n depthArray16 = new Uint32Array(DEPTH_SIZE_16);\n }\n depthArray16.fill(0);\n const readbackUint32 = readback.map((layer) => new Uint32Array(layer.buffer));\n const layerSize = readbackUint32[0].length;\n const numLayers = Math.ceil(totalSplats / layerSize);\n let layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i2 = 0; i2 < layerSplats; ++i2) {\n const pri = readbackLayer[i2] & 32767;\n if (pri < DEPTH_INFINITY_F16) {\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n let activeSplats = 0;\n for (let j = 0; j < DEPTH_SIZE_16; ++j) {\n const nextIndex = activeSplats + depthArray16[j];\n depthArray16[j] = activeSplats;\n activeSplats = nextIndex;\n }\n layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i2 = 0; i2 < layerSplats; ++i2) {\n const pri = readbackLayer[i2] & 32767;\n if (pri < DEPTH_INFINITY_F16) {\n ordering[depthArray16[pri]] = layerBase + i2;\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n if (depthArray16[DEPTH_SIZE_16 - 1] !== activeSplats) {\n throw new Error(\n `Expected ${activeSplats} active splats but got ${depthArray16[DEPTH_SIZE_16 - 1]}`\n );\n }\n return { activeSplats, ordering };\n }\n const messageBuffer = [];\n function bufferMessage(event) {\n messageBuffer.push(event);\n }\n async function initialize() {\n self.addEventListener("message", bufferMessage);\n await __wbg_init();\n self.removeEventListener("message", bufferMessage);\n self.addEventListener("message", onMessage);\n for (const event of messageBuffer) {\n onMessage(event);\n }\n messageBuffer.length = 0;\n }\n initialize().catch(console.error);\n})();\n//# sourceMappingURL=oldWorker-DUF0ALOS.js.map\n'; +const jsContent$1 = '(function() {\n "use strict";\n class CsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(CsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n CsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n CsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_csplatarray_free(ptr, 0);\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.csplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.csplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.csplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.csplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.csplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.csplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.csplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats() {\n const ret = wasm.csplatarray_to_packedsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats_lod() {\n const ret = wasm.csplatarray_to_packedsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_csplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_csplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_csplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_csplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n }\n if (Symbol.dispose) CsplatArray.prototype[Symbol.dispose] = CsplatArray.prototype.free;\n class GsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(GsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n GsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n GsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_gsplatarray_free(ptr, 0);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_gsplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_gsplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.gsplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.gsplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.gsplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.gsplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.gsplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.gsplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.gsplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats_lod(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats_lod(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_gsplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_gsplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n }\n if (Symbol.dispose) GsplatArray.prototype[Symbol.dispose] = GsplatArray.prototype.free;\n function sort32_splats(num_splats, readback, ordering) {\n const ret = wasm.sort32_splats(num_splats, readback, ordering);\n return ret >>> 0;\n }\n function sort_splats(num_splats, readback, ordering) {\n const ret = wasm.sort_splats(num_splats, readback, ordering);\n return ret >>> 0;\n }\n function __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_boolean_get_a86c216575a75c30: function(arg0) {\n const v = arg0;\n const ret = typeof v === "boolean" ? v : void 0;\n return isLikeNone(ret) ? 16777215 : ret ? 1 : 0;\n },\n __wbg___wbindgen_debug_string_dd5d2d07ce9e6c57: function(arg0, arg1) {\n const ret = debugString(arg1);\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_in_4bd7a57e54337366: function(arg0, arg1) {\n const ret = arg0 in arg1;\n return ret;\n },\n __wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof val === "object" && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === void 0;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "number" ? obj : void 0;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "string" ? obj : void 0;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() {\n return handleError(function(arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments);\n },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() {\n return handleError(function(arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments);\n },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, void 0);\n table.set(offset + 0, void 0);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n }\n };\n return {\n __proto__: null,\n "./spark_worker_rs_bg.js": import0\n };\n }\n typeof FinalizationRegistry === "undefined" ? {} : new FinalizationRegistry((ptr) => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\n const CsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\n const GsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n function addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n }\n function debugString(val) {\n const type = typeof val;\n if (type == "number" || type == "boolean" || val == null) {\n return `${val}`;\n }\n if (type == "string") {\n return `"${val}"`;\n }\n if (type == "symbol") {\n const description = val.description;\n if (description == null) {\n return "Symbol";\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == "function") {\n const name = val.name;\n if (typeof name == "string" && name.length > 0) {\n return `Function(${name})`;\n } else {\n return "Function";\n }\n }\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = "[";\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for (let i2 = 1; i2 < length; i2++) {\n debug += ", " + debugString(val[i2]);\n }\n debug += "]";\n return debug;\n }\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n return toString.call(val);\n }\n if (className == "Object") {\n try {\n return "Object(" + JSON.stringify(val) + ")";\n } catch (_) {\n return "Object";\n }\n }\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\n${val.stack}`;\n }\n return className;\n }\n function getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n }\n function getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n }\n function getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n }\n let cachedDataViewMemory0 = null;\n function getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || cachedDataViewMemory0.buffer.detached === void 0 && cachedDataViewMemory0.buffer !== wasm.memory.buffer) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n }\n function getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n }\n let cachedUint16ArrayMemory0 = null;\n function getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n }\n let cachedUint32ArrayMemory0 = null;\n function getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n }\n let cachedUint8ArrayMemory0 = null;\n function getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n }\n function handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n }\n function isLikeNone(x2) {\n return x2 === void 0 || x2 === null;\n }\n function passStringToWasm0(arg, malloc, realloc) {\n if (realloc === void 0) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr2 = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr2, ptr2 + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr2;\n }\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n const mem = getUint8ArrayMemory0();\n let offset = 0;\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 127) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n WASM_VECTOR_LEN = offset;\n return ptr;\n }\n function takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n }\n let cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n const MAX_SAFARI_DECODE_BYTES = 2146435072;\n let numBytesDecoded = 0;\n function decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n }\n const cachedTextEncoder = new TextEncoder();\n if (!("encodeInto" in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function(arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n }\n let WASM_VECTOR_LEN = 0;\n let wasm;\n function __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n cachedDataViewMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n }\n async function __wbg_load(module, imports) {\n if (typeof Response === "function" && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === "function") {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n if (validResponse && module.headers.get("Content-Type") !== "application/wasm") {\n console.warn("`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n", e);\n } else {\n throw e;\n }\n }\n }\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n function expectedResponseType(type) {\n switch (type) {\n case "basic":\n case "cors":\n case "default":\n return true;\n }\n return false;\n }\n }\n async function __wbg_init(module_or_path) {\n if (wasm !== void 0) return wasm;\n if (module_or_path !== void 0) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({ module_or_path } = module_or_path);\n } else {\n console.warn("using deprecated parameters for the initialization function; pass a single object instead");\n }\n }\n if (module_or_path === void 0) {\n module_or_path = new 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self.location.href);\n }\n const imports = __wbg_get_imports();\n if (typeof module_or_path === "string" || typeof Request === "function" && module_or_path instanceof Request || typeof URL === "function" && module_or_path instanceof URL) {\n module_or_path = fetch(module_or_path);\n }\n const { instance } = await __wbg_load(await module_or_path, imports);\n return __wbg_finalize_init(instance);\n }\n var ch2 = {};\n var wk = function(c, id, msg, transfer, cb) {\n var w = new Worker(ch2[id] || (ch2[id] = URL.createObjectURL(new Blob([\n c + \';addEventListener("error",function(e){e=e.error;postMessage({$e$:[e.message,e.code,e.stack]})})\'\n ], { type: "text/javascript" }))));\n w.onmessage = function(e) {\n var d = e.data, ed = d.$e$;\n if (ed) {\n var err2 = new Error(ed[0]);\n err2["code"] = ed[1];\n err2.stack = ed[2];\n cb(err2, null);\n } else\n cb(null, d);\n };\n w.postMessage(msg, transfer);\n return w;\n };\n var u8 = Uint8Array, u16 = Uint16Array, i32 = Int32Array;\n var fleb = new u8([\n 0,\n 0,\n 0,\n 0,\n 0,\n 0,\n 0,\n 0,\n 1,\n 1,\n 1,\n 1,\n 2,\n 2,\n 2,\n 2,\n 3,\n 3,\n 3,\n 3,\n 4,\n 4,\n 4,\n 4,\n 5,\n 5,\n 5,\n 5,\n 0,\n /* unused */\n 0,\n 0,\n /* impossible */\n 0\n ]);\n var fdeb = new u8([\n 0,\n 0,\n 0,\n 0,\n 1,\n 1,\n 2,\n 2,\n 3,\n 3,\n 4,\n 4,\n 5,\n 5,\n 6,\n 6,\n 7,\n 7,\n 8,\n 8,\n 9,\n 9,\n 10,\n 10,\n 11,\n 11,\n 12,\n 12,\n 13,\n 13,\n /* unused */\n 0,\n 0\n ]);\n var clim = new u8([16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15]);\n var freb = function(eb, start) {\n var b = new u16(31);\n for (var i2 = 0; i2 < 31; ++i2) {\n b[i2] = start += 1 << eb[i2 - 1];\n }\n var r = new i32(b[30]);\n for (var i2 = 1; i2 < 30; ++i2) {\n for (var j = b[i2]; j < b[i2 + 1]; ++j) {\n r[j] = j - b[i2] << 5 | i2;\n }\n }\n return { b, r };\n };\n var _a = freb(fleb, 2), fl = _a.b, revfl = _a.r;\n fl[28] = 258, revfl[258] = 28;\n var _b = freb(fdeb, 0), fd = _b.b;\n var rev = new u16(32768);\n for (var i = 0; i < 32768; ++i) {\n var x = (i & 43690) >> 1 | (i & 21845) << 1;\n x = (x & 52428) >> 2 | (x & 13107) << 2;\n x = (x & 61680) >> 4 | (x & 3855) << 4;\n rev[i] = ((x & 65280) >> 8 | (x & 255) << 8) >> 1;\n }\n var hMap = function(cd, mb, r) {\n var s = cd.length;\n var i2 = 0;\n var l = new u16(mb);\n for (; i2 < s; ++i2) {\n if (cd[i2])\n ++l[cd[i2] - 1];\n }\n var le = new u16(mb);\n for (i2 = 1; i2 < mb; ++i2) {\n le[i2] = le[i2 - 1] + l[i2 - 1] << 1;\n }\n var co;\n if (r) {\n co = new u16(1 << mb);\n var rvb = 15 - mb;\n for (i2 = 0; i2 < s; ++i2) {\n if (cd[i2]) {\n var sv = i2 << 4 | cd[i2];\n var r_1 = mb - cd[i2];\n var v = le[cd[i2] - 1]++ << r_1;\n for (var m = v | (1 << r_1) - 1; v <= m; ++v) {\n co[rev[v] >> rvb] = sv;\n }\n }\n }\n } else {\n co = new u16(s);\n for (i2 = 0; i2 < s; ++i2) {\n if (cd[i2]) {\n co[i2] = rev[le[cd[i2] - 1]++] >> 15 - cd[i2];\n }\n }\n }\n return co;\n };\n var flt = new u8(288);\n for (var i = 0; i < 144; ++i)\n flt[i] = 8;\n for (var i = 144; i < 256; ++i)\n flt[i] = 9;\n for (var i = 256; i < 280; ++i)\n flt[i] = 7;\n for (var i = 280; i < 288; ++i)\n flt[i] = 8;\n var fdt = new u8(32);\n for (var i = 0; i < 32; ++i)\n fdt[i] = 5;\n var flrm = /* @__PURE__ */ hMap(flt, 9, 1);\n var fdrm = /* @__PURE__ */ hMap(fdt, 5, 1);\n var max = function(a) {\n var m = a[0];\n for (var i2 = 1; i2 < a.length; ++i2) {\n if (a[i2] > m)\n m = a[i2];\n }\n return m;\n };\n var bits = function(d, p, m) {\n var o = p / 8 | 0;\n return (d[o] | d[o + 1] << 8) >> (p & 7) & m;\n };\n var bits16 = function(d, p) {\n var o = p / 8 | 0;\n return (d[o] | d[o + 1] << 8 | d[o + 2] << 16) >> (p & 7);\n };\n var shft = function(p) {\n return (p + 7) / 8 | 0;\n };\n var slc = function(v, s, e) {\n if (s == null || s < 0)\n s = 0;\n if (e == null || e > v.length)\n e = v.length;\n return new u8(v.subarray(s, e));\n };\n var ec = [\n "unexpected EOF",\n "invalid block type",\n "invalid length/literal",\n "invalid distance",\n "stream finished",\n "no stream handler",\n ,\n "no callback",\n "invalid UTF-8 data",\n "extra field too long",\n "date not in range 1980-2099",\n "filename too long",\n "stream finishing",\n "invalid zip data"\n // determined by unknown compression method\n ];\n var err = function(ind, msg, nt) {\n var e = new Error(msg || ec[ind]);\n e.code = ind;\n if (Error.captureStackTrace)\n Error.captureStackTrace(e, err);\n if (!nt)\n throw e;\n return e;\n };\n var inflt = function(dat, st, buf, dict) {\n var sl = dat.length, dl = dict ? dict.length : 0;\n if (!sl || st.f && !st.l)\n return buf || new u8(0);\n var noBuf = !buf;\n var resize = noBuf || st.i != 2;\n var noSt = st.i;\n if (noBuf)\n buf = new u8(sl * 3);\n var cbuf = function(l2) {\n var bl = buf.length;\n if (l2 > bl) {\n var nbuf = new u8(Math.max(bl * 2, l2));\n nbuf.set(buf);\n buf = nbuf;\n }\n };\n var final = st.f || 0, pos = st.p || 0, bt = st.b || 0, lm = st.l, dm = st.d, lbt = st.m, dbt = st.n;\n var tbts = sl * 8;\n do {\n if (!lm) {\n final = bits(dat, pos, 1);\n var type = bits(dat, pos + 1, 3);\n pos += 3;\n if (!type) {\n var s = shft(pos) + 4, l = dat[s - 4] | dat[s - 3] << 8, t = s + l;\n if (t > sl) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + l);\n buf.set(dat.subarray(s, t), bt);\n st.b = bt += l, st.p = pos = t * 8, st.f = final;\n continue;\n } else if (type == 1)\n lm = flrm, dm = fdrm, lbt = 9, dbt = 5;\n else if (type == 2) {\n var hLit = bits(dat, pos, 31) + 257, hcLen = bits(dat, pos + 10, 15) + 4;\n var tl = hLit + bits(dat, pos + 5, 31) + 1;\n pos += 14;\n var ldt = new u8(tl);\n var clt = new u8(19);\n for (var i2 = 0; i2 < hcLen; ++i2) {\n clt[clim[i2]] = bits(dat, pos + i2 * 3, 7);\n }\n pos += hcLen * 3;\n var clb = max(clt), clbmsk = (1 << clb) - 1;\n var clm = hMap(clt, clb, 1);\n for (var i2 = 0; i2 < tl; ) {\n var r = clm[bits(dat, pos, clbmsk)];\n pos += r & 15;\n var s = r >> 4;\n if (s < 16) {\n ldt[i2++] = s;\n } else {\n var c = 0, n = 0;\n if (s == 16)\n n = 3 + bits(dat, pos, 3), pos += 2, c = ldt[i2 - 1];\n else if (s == 17)\n n = 3 + bits(dat, pos, 7), pos += 3;\n else if (s == 18)\n n = 11 + bits(dat, pos, 127), pos += 7;\n while (n--)\n ldt[i2++] = c;\n }\n }\n var lt = ldt.subarray(0, hLit), dt = ldt.subarray(hLit);\n lbt = max(lt);\n dbt = max(dt);\n lm = hMap(lt, lbt, 1);\n dm = hMap(dt, dbt, 1);\n } else\n err(1);\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n }\n if (resize)\n cbuf(bt + 131072);\n var lms = (1 << lbt) - 1, dms = (1 << dbt) - 1;\n var lpos = pos;\n for (; ; lpos = pos) {\n var c = lm[bits16(dat, pos) & lms], sym = c >> 4;\n pos += c & 15;\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (!c)\n err(2);\n if (sym < 256)\n buf[bt++] = sym;\n else if (sym == 256) {\n lpos = pos, lm = null;\n break;\n } else {\n var add = sym - 254;\n if (sym > 264) {\n var i2 = sym - 257, b = fleb[i2];\n add = bits(dat, pos, (1 << b) - 1) + fl[i2];\n pos += b;\n }\n var d = dm[bits16(dat, pos) & dms], dsym = d >> 4;\n if (!d)\n err(3);\n pos += d & 15;\n var dt = fd[dsym];\n if (dsym > 3) {\n var b = fdeb[dsym];\n dt += bits16(dat, pos) & (1 << b) - 1, pos += b;\n }\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + 131072);\n var end = bt + add;\n if (bt < dt) {\n var shift = dl - dt, dend = Math.min(dt, end);\n if (shift + bt < 0)\n err(3);\n for (; bt < dend; ++bt)\n buf[bt] = dict[shift + bt];\n }\n for (; bt < end; ++bt)\n buf[bt] = buf[bt - dt];\n }\n }\n st.l = lm, st.p = lpos, st.b = bt, st.f = final;\n if (lm)\n final = 1, st.m = lbt, st.d = dm, st.n = dbt;\n } while (!final);\n return bt != buf.length && noBuf ? slc(buf, 0, bt) : buf.subarray(0, bt);\n };\n var et = /* @__PURE__ */ new u8(0);\n var mrg = function(a, b) {\n var o = {};\n for (var k in a)\n o[k] = a[k];\n for (var k in b)\n o[k] = b[k];\n return o;\n };\n var wcln = function(fn, fnStr, td2) {\n var dt = fn();\n var st = fn.toString();\n var ks = st.slice(st.indexOf("[") + 1, st.lastIndexOf("]")).replace(/\\s+/g, "").split(",");\n for (var i2 = 0; i2 < dt.length; ++i2) {\n var v = dt[i2], k = ks[i2];\n if (typeof v == "function") {\n fnStr += ";" + k + "=";\n var st_1 = v.toString();\n if (v.prototype) {\n if (st_1.indexOf("[native code]") != -1) {\n var spInd = st_1.indexOf(" ", 8) + 1;\n fnStr += st_1.slice(spInd, st_1.indexOf("(", spInd));\n } else {\n fnStr += st_1;\n for (var t in v.prototype)\n fnStr += ";" + k + ".prototype." + t + "=" + v.prototype[t].toString();\n }\n } else\n fnStr += st_1;\n } else\n td2[k] = v;\n }\n return fnStr;\n };\n var ch = [];\n var cbfs = function(v) {\n var tl = [];\n for (var k in v) {\n if (v[k].buffer) {\n tl.push((v[k] = new v[k].constructor(v[k])).buffer);\n }\n }\n return tl;\n };\n var wrkr = function(fns, init, id, cb) {\n if (!ch[id]) {\n var fnStr = "", td_1 = {}, m = fns.length - 1;\n for (var i2 = 0; i2 < m; ++i2)\n fnStr = wcln(fns[i2], fnStr, td_1);\n ch[id] = { c: wcln(fns[m], fnStr, td_1), e: td_1 };\n }\n var td2 = mrg({}, ch[id].e);\n return wk(ch[id].c + ";onmessage=function(e){for(var k in e.data)self[k]=e.data[k];onmessage=" + init.toString() + "}", id, td2, cbfs(td2), cb);\n };\n var bInflt = function() {\n return [u8, u16, i32, fleb, fdeb, clim, fl, fd, flrm, fdrm, rev, ec, hMap, max, bits, bits16, shft, slc, err, inflt, inflateSync, pbf, gopt];\n };\n var pbf = function(msg) {\n return postMessage(msg, [msg.buffer]);\n };\n var gopt = function(o) {\n return o && {\n out: o.size && new u8(o.size),\n dictionary: o.dictionary\n };\n };\n var cbify = function(dat, opts, fns, init, id, cb) {\n var w = wrkr(fns, init, id, function(err2, dat2) {\n w.terminate();\n cb(err2, dat2);\n });\n w.postMessage([dat, opts], opts.consume ? [dat.buffer] : []);\n return function() {\n w.terminate();\n };\n };\n var b2 = function(d, b) {\n return d[b] | d[b + 1] << 8;\n };\n var b4 = function(d, b) {\n return (d[b] | d[b + 1] << 8 | d[b + 2] << 16 | d[b + 3] << 24) >>> 0;\n };\n var b8 = function(d, b) {\n return b4(d, b) + b4(d, b + 4) * 4294967296;\n };\n var gzs = function(d) {\n if (d[0] != 31 || d[1] != 139 || d[2] != 8)\n err(6, "invalid gzip data");\n var flg = d[3];\n var st = 10;\n if (flg & 4)\n st += (d[10] | d[11] << 8) + 2;\n for (var zs = (flg >> 3 & 1) + (flg >> 4 & 1); zs > 0; zs -= !d[st++])\n ;\n return st + (flg & 2);\n };\n var Inflate = /* @__PURE__ */ function() {\n function Inflate2(opts, cb) {\n if (typeof opts == "function")\n cb = opts, opts = {};\n this.ondata = cb;\n var dict = opts && opts.dictionary && opts.dictionary.subarray(-32768);\n this.s = { i: 0, b: dict ? dict.length : 0 };\n this.o = new u8(32768);\n this.p = new u8(0);\n if (dict)\n this.o.set(dict);\n }\n Inflate2.prototype.e = function(c) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n if (!this.p.length)\n this.p = c;\n else if (c.length) {\n var n = new u8(this.p.length + c.length);\n n.set(this.p), n.set(c, this.p.length), this.p = n;\n }\n };\n Inflate2.prototype.c = function(final) {\n this.s.i = +(this.d = final || false);\n var bts = this.s.b;\n var dt = inflt(this.p, this.s, this.o);\n this.ondata(slc(dt, bts, this.s.b), this.d);\n this.o = slc(dt, this.s.b - 32768), this.s.b = this.o.length;\n this.p = slc(this.p, this.s.p / 8 | 0), this.s.p &= 7;\n };\n Inflate2.prototype.push = function(chunk, final) {\n this.e(chunk), this.c(final);\n };\n return Inflate2;\n }();\n function inflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != "function")\n err(7);\n return cbify(data, opts, [\n bInflt\n ], function(ev) {\n return pbf(inflateSync(ev.data[0], gopt(ev.data[1])));\n }, 1, cb);\n }\n function inflateSync(data, opts) {\n return inflt(data, { i: 2 }, opts && opts.out, opts && opts.dictionary);\n }\n var Gunzip = /* @__PURE__ */ function() {\n function Gunzip2(opts, cb) {\n this.v = 1;\n this.r = 0;\n Inflate.call(this, opts, cb);\n }\n Gunzip2.prototype.push = function(chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n this.r += chunk.length;\n if (this.v) {\n var p = this.p.subarray(this.v - 1);\n var s = p.length > 3 ? gzs(p) : 4;\n if (s > p.length) {\n if (!final)\n return;\n } else if (this.v > 1 && this.onmember) {\n this.onmember(this.r - p.length);\n }\n this.p = p.subarray(s), this.v = 0;\n }\n Inflate.prototype.c.call(this, final);\n if (this.s.f && !this.s.l && !final) {\n this.v = shft(this.s.p) + 9;\n this.s = { i: 0 };\n this.o = new u8(0);\n this.push(new u8(0), final);\n }\n };\n return Gunzip2;\n }();\n var td = typeof TextDecoder != "undefined" && /* @__PURE__ */ new TextDecoder();\n try {\n td.decode(et, { stream: true });\n } catch (e) {\n }\n var dutf8 = function(d) {\n for (var r = "", i2 = 0; ; ) {\n var c = d[i2++];\n var eb = (c > 127) + (c > 223) + (c > 239);\n if (i2 + eb > d.length)\n return { s: r, r: slc(d, i2 - 1) };\n if (!eb)\n r += String.fromCharCode(c);\n else if (eb == 3) {\n c = ((c & 15) << 18 | (d[i2++] & 63) << 12 | (d[i2++] & 63) << 6 | d[i2++] & 63) - 65536, r += String.fromCharCode(55296 | c >> 10, 56320 | c & 1023);\n } else if (eb & 1)\n r += String.fromCharCode((c & 31) << 6 | d[i2++] & 63);\n else\n r += String.fromCharCode((c & 15) << 12 | (d[i2++] & 63) << 6 | d[i2++] & 63);\n }\n };\n function strFromU8(dat, latin1) {\n if (latin1) {\n var r = "";\n for (var i2 = 0; i2 < dat.length; i2 += 16384)\n r += String.fromCharCode.apply(null, dat.subarray(i2, i2 + 16384));\n return r;\n } else if (td) {\n return td.decode(dat);\n } else {\n var _a2 = dutf8(dat), s = _a2.s, r = _a2.r;\n if (r.length)\n err(8);\n return s;\n }\n }\n var slzh = function(d, b) {\n return b + 30 + b2(d, b + 26) + b2(d, b + 28);\n };\n var zh = function(d, b, z) {\n var fnl = b2(d, b + 28), fn = strFromU8(d.subarray(b + 46, b + 46 + fnl), !(b2(d, b + 8) & 2048)), es = b + 46 + fnl, bs = b4(d, b + 20);\n var _a2 = z && bs == 4294967295 ? 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This implementation assumes the\n * quaternion data are managed in flat arrays.\n *\n * @param {Array} dst - The destination array.\n * @param {number} dstOffset - An offset into the destination array.\n * @param {Array} src0 - The source array of the first quaternion.\n * @param {number} srcOffset0 - An offset into the first source array.\n * @param {Array} src1 - The source array of the second quaternion.\n * @param {number} srcOffset1 - An offset into the second source array.\n * @param {number} t - The interpolation factor in the range `[0,1]`.\n * @see {@link Quaternion#slerp}\n */\n static slerpFlat(dst, dstOffset, src0, srcOffset0, src1, srcOffset1, t) {\n let x0 = src0[srcOffset0 + 0], y0 = src0[srcOffset0 + 1], z0 = src0[srcOffset0 + 2], w0 = src0[srcOffset0 + 3];\n const x1 = src1[srcOffset1 + 0], y1 = src1[srcOffset1 + 1], z1 = src1[srcOffset1 + 2], w1 = src1[srcOffset1 + 3];\n if (t === 0) {\n dst[dstOffset + 0] = x0;\n dst[dstOffset + 1] = y0;\n dst[dstOffset + 2] = z0;\n dst[dstOffset + 3] = w0;\n return;\n }\n if (t === 1) {\n dst[dstOffset + 0] = x1;\n dst[dstOffset + 1] = y1;\n dst[dstOffset + 2] = z1;\n dst[dstOffset + 3] = w1;\n return;\n }\n if (w0 !== w1 || x0 !== x1 || y0 !== y1 || z0 !== z1) {\n let s = 1 - t;\n const cos = x0 * x1 + y0 * y1 + z0 * z1 + w0 * w1, dir = cos >= 0 ? 1 : -1, sqrSin = 1 - cos * cos;\n if (sqrSin > Number.EPSILON) {\n const sin = Math.sqrt(sqrSin), len = Math.atan2(sin, cos * dir);\n s = Math.sin(s * len) / sin;\n t = Math.sin(t * len) / sin;\n }\n const tDir = t * dir;\n x0 = x0 * s + x1 * tDir;\n y0 = y0 * s + y1 * tDir;\n z0 = z0 * s + z1 * tDir;\n w0 = w0 * s + w1 * tDir;\n if (s === 1 - t) {\n const f = 1 / Math.sqrt(x0 * x0 + y0 * y0 + z0 * z0 + w0 * w0);\n x0 *= f;\n y0 *= f;\n z0 *= f;\n w0 *= f;\n }\n }\n dst[dstOffset] = x0;\n dst[dstOffset + 1] = y0;\n dst[dstOffset + 2] = z0;\n dst[dstOffset + 3] = w0;\n }\n /**\n * Multiplies two quaternions. This implementation assumes the quaternion data are managed\n * in flat arrays.\n *\n * @param {Array} dst - The destination array.\n * @param {number} dstOffset - An offset into the destination array.\n * @param {Array} src0 - The source array of the first quaternion.\n * @param {number} srcOffset0 - An offset into the first source array.\n * @param {Array} src1 - The source array of the second quaternion.\n * @param {number} srcOffset1 - An offset into the second source array.\n * @return {Array} The destination array.\n * @see {@link Quaternion#multiplyQuaternions}.\n */\n static multiplyQuaternionsFlat(dst, dstOffset, src0, srcOffset0, src1, srcOffset1) {\n const x0 = src0[srcOffset0];\n const y0 = src0[srcOffset0 + 1];\n const z0 = src0[srcOffset0 + 2];\n const w0 = src0[srcOffset0 + 3];\n const x1 = src1[srcOffset1];\n const y1 = src1[srcOffset1 + 1];\n const z1 = src1[srcOffset1 + 2];\n const w1 = src1[srcOffset1 + 3];\n dst[dstOffset] = x0 * w1 + w0 * x1 + y0 * z1 - z0 * y1;\n dst[dstOffset + 1] = y0 * w1 + w0 * y1 + z0 * x1 - x0 * z1;\n dst[dstOffset + 2] = z0 * w1 + w0 * z1 + x0 * y1 - y0 * x1;\n dst[dstOffset + 3] = w0 * w1 - x0 * x1 - y0 * y1 - z0 * z1;\n return dst;\n }\n /**\n * The x value of this quaternion.\n *\n * @type {number}\n * @default 0\n */\n get x() {\n return this._x;\n }\n set x(value) {\n this._x = value;\n this._onChangeCallback();\n }\n /**\n * The y value of this quaternion.\n *\n * @type {number}\n * @default 0\n */\n get y() {\n return this._y;\n }\n set y(value) {\n this._y = value;\n this._onChangeCallback();\n }\n /**\n * The z value of this quaternion.\n *\n * @type {number}\n * @default 0\n */\n get z() {\n return this._z;\n }\n set z(value) {\n this._z = value;\n this._onChangeCallback();\n }\n /**\n * The w value of this quaternion.\n *\n * @type {number}\n * @default 1\n */\n get w() {\n return this._w;\n }\n set w(value) {\n this._w = value;\n this._onChangeCallback();\n }\n /**\n * Sets the quaternion components.\n *\n * @param {number} x - The x value of this quaternion.\n * @param {number} y - The y value of this quaternion.\n * @param {number} z - The z value of this quaternion.\n * @param {number} w - The w value of this quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n set(x2, y, z, w) {\n this._x = x2;\n this._y = y;\n this._z = z;\n this._w = w;\n this._onChangeCallback();\n return this;\n }\n /**\n * Returns a new quaternion with copied values from this instance.\n *\n * @return {Quaternion} A clone of this instance.\n */\n clone() {\n return new this.constructor(this._x, this._y, this._z, this._w);\n }\n /**\n * Copies the values of the given quaternion to this instance.\n *\n * @param {Quaternion} quaternion - The quaternion to copy.\n * @return {Quaternion} A reference to this quaternion.\n */\n copy(quaternion) {\n this._x = quaternion.x;\n this._y = quaternion.y;\n this._z = quaternion.z;\n this._w = quaternion.w;\n this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion from the rotation specified by the given\n * Euler angles.\n *\n * @param {Euler} euler - The Euler angles.\n * @param {boolean} [update=true] - Whether the internal `onChange` callback should be executed or not.\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromEuler(euler, update = true) {\n const x2 = euler._x, y = euler._y, z = euler._z, order = euler._order;\n const cos = Math.cos;\n const sin = Math.sin;\n const c1 = cos(x2 / 2);\n const c2 = cos(y / 2);\n const c3 = cos(z / 2);\n const s1 = sin(x2 / 2);\n const s2 = sin(y / 2);\n const s3 = sin(z / 2);\n switch (order) {\n case "XYZ":\n this._x = s1 * c2 * c3 + c1 * s2 * s3;\n this._y = c1 * s2 * c3 - s1 * c2 * s3;\n this._z = c1 * c2 * s3 + s1 * s2 * c3;\n this._w = c1 * c2 * c3 - s1 * s2 * s3;\n break;\n case "YXZ":\n this._x = s1 * c2 * c3 + c1 * s2 * s3;\n this._y = c1 * s2 * c3 - s1 * c2 * s3;\n this._z = c1 * c2 * s3 - s1 * s2 * c3;\n this._w = c1 * c2 * c3 + s1 * s2 * s3;\n break;\n case "ZXY":\n this._x = s1 * c2 * c3 - c1 * s2 * s3;\n this._y = c1 * s2 * c3 + s1 * c2 * s3;\n this._z = c1 * c2 * s3 + s1 * s2 * c3;\n this._w = c1 * c2 * c3 - s1 * s2 * s3;\n break;\n case "ZYX":\n this._x = s1 * c2 * c3 - c1 * s2 * s3;\n this._y = c1 * s2 * c3 + s1 * c2 * s3;\n this._z = c1 * c2 * s3 - s1 * s2 * c3;\n this._w = c1 * c2 * c3 + s1 * s2 * s3;\n break;\n case "YZX":\n this._x = s1 * c2 * c3 + c1 * s2 * s3;\n this._y = c1 * s2 * c3 + s1 * c2 * s3;\n this._z = c1 * c2 * s3 - s1 * s2 * c3;\n this._w = c1 * c2 * c3 - s1 * s2 * s3;\n break;\n case "XZY":\n this._x = s1 * c2 * c3 - c1 * s2 * s3;\n this._y = c1 * s2 * c3 - s1 * c2 * s3;\n this._z = c1 * c2 * s3 + s1 * s2 * c3;\n this._w = c1 * c2 * c3 + s1 * s2 * s3;\n break;\n default:\n console.warn("THREE.Quaternion: .setFromEuler() encountered an unknown order: " + order);\n }\n if (update === true) this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion from the given axis and angle.\n *\n * @param {Vector3} axis - The normalized axis.\n * @param {number} angle - The angle in radians.\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromAxisAngle(axis, angle) {\n const halfAngle = angle / 2, s = Math.sin(halfAngle);\n this._x = axis.x * s;\n this._y = axis.y * s;\n this._z = axis.z * s;\n this._w = Math.cos(halfAngle);\n this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion from the given rotation matrix.\n *\n * @param {Matrix4} m - A 4x4 matrix of which the upper 3x3 of matrix is a pure rotation matrix (i.e. unscaled).\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromRotationMatrix(m) {\n const te = m.elements, m11 = te[0], m12 = te[4], m13 = te[8], m21 = te[1], m22 = te[5], m23 = te[9], m31 = te[2], m32 = te[6], m33 = te[10], trace = m11 + m22 + m33;\n if (trace > 0) {\n const s = 0.5 / Math.sqrt(trace + 1);\n this._w = 0.25 / s;\n this._x = (m32 - m23) * s;\n this._y = (m13 - m31) * s;\n this._z = (m21 - m12) * s;\n } else if (m11 > m22 && m11 > m33) {\n const s = 2 * Math.sqrt(1 + m11 - m22 - m33);\n this._w = (m32 - m23) / s;\n this._x = 0.25 * s;\n this._y = (m12 + m21) / s;\n this._z = (m13 + m31) / s;\n } else if (m22 > m33) {\n const s = 2 * Math.sqrt(1 + m22 - m11 - m33);\n this._w = (m13 - m31) / s;\n this._x = (m12 + m21) / s;\n this._y = 0.25 * s;\n this._z = (m23 + m32) / s;\n } else {\n const s = 2 * Math.sqrt(1 + m33 - m11 - m22);\n this._w = (m21 - m12) / s;\n this._x = (m13 + m31) / s;\n this._y = (m23 + m32) / s;\n this._z = 0.25 * s;\n }\n this._onChangeCallback();\n return this;\n }\n /**\n * Sets this quaternion to the rotation required to rotate the direction vector\n * `vFrom` to the direction vector `vTo`.\n *\n * @param {Vector3} vFrom - The first (normalized) direction vector.\n * @param {Vector3} vTo - The second (normalized) direction vector.\n * @return {Quaternion} A reference to this quaternion.\n */\n setFromUnitVectors(vFrom, vTo) {\n let r = vFrom.dot(vTo) + 1;\n if (r < 1e-8) {\n r = 0;\n if (Math.abs(vFrom.x) > Math.abs(vFrom.z)) {\n this._x = -vFrom.y;\n this._y = vFrom.x;\n this._z = 0;\n this._w = r;\n } else {\n this._x = 0;\n this._y = -vFrom.z;\n this._z = vFrom.y;\n this._w = r;\n }\n } else {\n this._x = vFrom.y * vTo.z - vFrom.z * vTo.y;\n this._y = vFrom.z * vTo.x - vFrom.x * vTo.z;\n this._z = vFrom.x * vTo.y - vFrom.y * vTo.x;\n this._w = r;\n }\n return this.normalize();\n }\n /**\n * Returns the angle between this quaternion and the given one in radians.\n *\n * @param {Quaternion} q - The quaternion to compute the angle with.\n * @return {number} The angle in radians.\n */\n angleTo(q) {\n return 2 * Math.acos(Math.abs(clamp(this.dot(q), -1, 1)));\n }\n /**\n * Rotates this quaternion by a given angular step to the given quaternion.\n * The method ensures that the final quaternion will not overshoot `q`.\n *\n * @param {Quaternion} q - The target quaternion.\n * @param {number} step - The angular step in radians.\n * @return {Quaternion} A reference to this quaternion.\n */\n rotateTowards(q, step) {\n const angle = this.angleTo(q);\n if (angle === 0) return this;\n const t = Math.min(1, step / angle);\n this.slerp(q, t);\n return this;\n }\n /**\n * Sets this quaternion to the identity quaternion; that is, to the\n * quaternion that represents "no rotation".\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n identity() {\n return this.set(0, 0, 0, 1);\n }\n /**\n * Inverts this quaternion via {@link Quaternion#conjugate}. The\n * quaternion is assumed to have unit length.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n invert() {\n return this.conjugate();\n }\n /**\n * Returns the rotational conjugate of this quaternion. The conjugate of a\n * quaternion represents the same rotation in the opposite direction about\n * the rotational axis.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n conjugate() {\n this._x *= -1;\n this._y *= -1;\n this._z *= -1;\n this._onChangeCallback();\n return this;\n }\n /**\n * Calculates the dot product of this quaternion and the given one.\n *\n * @param {Quaternion} v - The quaternion to compute the dot product with.\n * @return {number} The result of the dot product.\n */\n dot(v) {\n return this._x * v._x + this._y * v._y + this._z * v._z + this._w * v._w;\n }\n /**\n * Computes the squared Euclidean length (straight-line length) of this quaternion,\n * considered as a 4 dimensional vector. This can be useful if you are comparing the\n * lengths of two quaternions, as this is a slightly more efficient calculation than\n * {@link Quaternion#length}.\n *\n * @return {number} The squared Euclidean length.\n */\n lengthSq() {\n return this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w;\n }\n /**\n * Computes the Euclidean length (straight-line length) of this quaternion,\n * considered as a 4 dimensional vector.\n *\n * @return {number} The Euclidean length.\n */\n length() {\n return Math.sqrt(this._x * this._x + this._y * this._y + this._z * this._z + this._w * this._w);\n }\n /**\n * Normalizes this quaternion - that is, calculated the quaternion that performs\n * the same rotation as this one, but has a length equal to `1`.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n normalize() {\n let l = this.length();\n if (l === 0) {\n this._x = 0;\n this._y = 0;\n this._z = 0;\n this._w = 1;\n } else {\n l = 1 / l;\n this._x = this._x * l;\n this._y = this._y * l;\n this._z = this._z * l;\n this._w = this._w * l;\n }\n this._onChangeCallback();\n return this;\n }\n /**\n * Multiplies this quaternion by the given one.\n *\n * @param {Quaternion} q - The quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n multiply(q) {\n return this.multiplyQuaternions(this, q);\n }\n /**\n * Pre-multiplies this quaternion by the given one.\n *\n * @param {Quaternion} q - The quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n premultiply(q) {\n return this.multiplyQuaternions(q, this);\n }\n /**\n * Multiplies the given quaternions and stores the result in this instance.\n *\n * @param {Quaternion} a - The first quaternion.\n * @param {Quaternion} b - The second quaternion.\n * @return {Quaternion} A reference to this quaternion.\n */\n multiplyQuaternions(a, b) {\n const qax = a._x, qay = a._y, qaz = a._z, qaw = a._w;\n const qbx = b._x, qby = b._y, qbz = b._z, qbw = b._w;\n this._x = qax * qbw + qaw * qbx + qay * qbz - qaz * qby;\n this._y = qay * qbw + qaw * qby + qaz * qbx - qax * qbz;\n this._z = qaz * qbw + qaw * qbz + qax * qby - qay * qbx;\n this._w = qaw * qbw - qax * qbx - qay * qby - qaz * qbz;\n this._onChangeCallback();\n return this;\n }\n /**\n * Performs a spherical linear interpolation between quaternions.\n *\n * @param {Quaternion} qb - The target quaternion.\n * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n * @return {Quaternion} A reference to this quaternion.\n */\n slerp(qb, t) {\n if (t === 0) return this;\n if (t === 1) return this.copy(qb);\n const x2 = this._x, y = this._y, z = this._z, w = this._w;\n let cosHalfTheta = w * qb._w + x2 * qb._x + y * qb._y + z * qb._z;\n if (cosHalfTheta < 0) {\n this._w = -qb._w;\n this._x = -qb._x;\n this._y = -qb._y;\n this._z = -qb._z;\n cosHalfTheta = -cosHalfTheta;\n } else {\n this.copy(qb);\n }\n if (cosHalfTheta >= 1) {\n this._w = w;\n this._x = x2;\n this._y = y;\n this._z = z;\n return this;\n }\n const sqrSinHalfTheta = 1 - cosHalfTheta * cosHalfTheta;\n if (sqrSinHalfTheta <= Number.EPSILON) {\n const s = 1 - t;\n this._w = s * w + t * this._w;\n this._x = s * x2 + t * this._x;\n this._y = s * y + t * this._y;\n this._z = s * z + t * this._z;\n this.normalize();\n return this;\n }\n const sinHalfTheta = Math.sqrt(sqrSinHalfTheta);\n const halfTheta = Math.atan2(sinHalfTheta, cosHalfTheta);\n const ratioA = Math.sin((1 - t) * halfTheta) / sinHalfTheta, ratioB = Math.sin(t * halfTheta) / sinHalfTheta;\n this._w = w * ratioA + this._w * ratioB;\n this._x = x2 * ratioA + this._x * ratioB;\n this._y = y * ratioA + this._y * ratioB;\n this._z = z * ratioA + this._z * ratioB;\n this._onChangeCallback();\n return this;\n }\n /**\n * Performs a spherical linear interpolation between the given quaternions\n * and stores the result in this quaternion.\n *\n * @param {Quaternion} qa - The source quaternion.\n * @param {Quaternion} qb - The target quaternion.\n * @param {number} t - The interpolation factor in the closed interval `[0, 1]`.\n * @return {Quaternion} A reference to this quaternion.\n */\n slerpQuaternions(qa, qb, t) {\n return this.copy(qa).slerp(qb, t);\n }\n /**\n * Sets this quaternion to a uniformly random, normalized quaternion.\n *\n * @return {Quaternion} A reference to this quaternion.\n */\n random() {\n const theta1 = 2 * Math.PI * Math.random();\n const theta2 = 2 * Math.PI * Math.random();\n const x0 = Math.random();\n const r1 = Math.sqrt(1 - x0);\n const r2 = Math.sqrt(x0);\n return this.set(\n r1 * Math.sin(theta1),\n r1 * Math.cos(theta1),\n r2 * Math.sin(theta2),\n r2 * Math.cos(theta2)\n );\n }\n /**\n * Returns `true` if this quaternion is equal with the given one.\n *\n * @param {Quaternion} quaternion - The quaternion to test for equality.\n * @return {boolean} Whether this quaternion is equal with the given one.\n */\n equals(quaternion) {\n return quaternion._x === this._x && quaternion._y === this._y && quaternion._z === this._z && quaternion._w === this._w;\n }\n /**\n * Sets this quaternion\'s components from the given array.\n *\n * @param {Array} array - An array holding the quaternion component values.\n * @param {number} [offset=0] - The offset into the array.\n * @return {Quaternion} A reference to this quaternion.\n */\n fromArray(array, offset = 0) {\n this._x = array[offset];\n this._y = array[offset + 1];\n this._z = array[offset + 2];\n this._w = array[offset + 3];\n this._onChangeCallback();\n return this;\n }\n /**\n * Writes the components of this quaternion to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the quaternion components.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The quaternion components.\n */\n toArray(array = [], offset = 0) {\n array[offset] = this._x;\n array[offset + 1] = this._y;\n array[offset + 2] = this._z;\n array[offset + 3] = this._w;\n return array;\n }\n /**\n * Sets the components of this quaternion from the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - The buffer attribute holding quaternion data.\n * @param {number} index - The index into the attribute.\n * @return {Quaternion} A reference to this quaternion.\n */\n fromBufferAttribute(attribute, index) {\n this._x = attribute.getX(index);\n this._y = attribute.getY(index);\n this._z = attribute.getZ(index);\n this._w = attribute.getW(index);\n this._onChangeCallback();\n return this;\n }\n /**\n * This methods defines the serialization result of this class. Returns the\n * numerical elements of this quaternion in an array of format `[x, y, z, w]`.\n *\n * @return {Array} The serialized quaternion.\n */\n toJSON() {\n return this.toArray();\n }\n _onChange(callback) {\n this._onChangeCallback = callback;\n return this;\n }\n _onChangeCallback() {\n }\n *[Symbol.iterator]() {\n yield this._x;\n yield this._y;\n yield this._z;\n yield this._w;\n }\n }\n class Vector3 {\n /**\n * Constructs a new 3D vector.\n *\n * @param {number} [x=0] - The x value of this vector.\n * @param {number} [y=0] - The y value of this vector.\n * @param {number} [z=0] - The z value of this vector.\n */\n constructor(x2 = 0, y = 0, z = 0) {\n Vector3.prototype.isVector3 = true;\n this.x = x2;\n this.y = y;\n this.z = z;\n }\n /**\n * Sets the vector components.\n *\n * @param {number} x - The value of the x component.\n * @param {number} y - The value of the y component.\n * @param {number} z - The value of the z component.\n * @return {Vector3} A reference to this vector.\n */\n set(x2, y, z) {\n if (z === void 0) z = this.z;\n this.x = x2;\n this.y = y;\n this.z = z;\n return this;\n }\n /**\n * Sets the vector components to the same value.\n *\n * @param {number} scalar - The value to set for all vector components.\n * @return {Vector3} A reference to this vector.\n */\n setScalar(scalar) {\n this.x = scalar;\n this.y = scalar;\n this.z = scalar;\n return this;\n }\n /**\n * Sets the vector\'s x component to the given value\n *\n * @param {number} x - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setX(x2) {\n this.x = x2;\n return this;\n }\n /**\n * Sets the vector\'s y component to the given value\n *\n * @param {number} y - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setY(y) {\n this.y = y;\n return this;\n }\n /**\n * Sets the vector\'s z component to the given value\n *\n * @param {number} z - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setZ(z) {\n this.z = z;\n return this;\n }\n /**\n * Allows to set a vector component with an index.\n *\n * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n * @param {number} value - The value to set.\n * @return {Vector3} A reference to this vector.\n */\n setComponent(index, value) {\n switch (index) {\n case 0:\n this.x = value;\n break;\n case 1:\n this.y = value;\n break;\n case 2:\n this.z = value;\n break;\n default:\n throw new Error("index is out of range: " + index);\n }\n return this;\n }\n /**\n * Returns the value of the vector component which matches the given index.\n *\n * @param {number} index - The component index. `0` equals to x, `1` equals to y, `2` equals to z.\n * @return {number} A vector component value.\n */\n getComponent(index) {\n switch (index) {\n case 0:\n return this.x;\n case 1:\n return this.y;\n case 2:\n return this.z;\n default:\n throw new Error("index is out of range: " + index);\n }\n }\n /**\n * Returns a new vector with copied values from this instance.\n *\n * @return {Vector3} A clone of this instance.\n */\n clone() {\n return new this.constructor(this.x, this.y, this.z);\n }\n /**\n * Copies the values of the given vector to this instance.\n *\n * @param {Vector3} v - The vector to copy.\n * @return {Vector3} A reference to this vector.\n */\n copy(v) {\n this.x = v.x;\n this.y = v.y;\n this.z = v.z;\n return this;\n }\n /**\n * Adds the given vector to this instance.\n *\n * @param {Vector3} v - The vector to add.\n * @return {Vector3} A reference to this vector.\n */\n add(v) {\n this.x += v.x;\n this.y += v.y;\n this.z += v.z;\n return this;\n }\n /**\n * Adds the given scalar value to all components of this instance.\n *\n * @param {number} s - The scalar to add.\n * @return {Vector3} A reference to this vector.\n */\n addScalar(s) {\n this.x += s;\n this.y += s;\n this.z += s;\n return this;\n }\n /**\n * Adds the given vectors and stores the result in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n addVectors(a, b) {\n this.x = a.x + b.x;\n this.y = a.y + b.y;\n this.z = a.z + b.z;\n return this;\n }\n /**\n * Adds the given vector scaled by the given factor to this instance.\n *\n * @param {Vector3|Vector4} v - The vector.\n * @param {number} s - The factor that scales `v`.\n * @return {Vector3} A reference to this vector.\n */\n addScaledVector(v, s) {\n this.x += v.x * s;\n this.y += v.y * s;\n this.z += v.z * s;\n return this;\n }\n /**\n * Subtracts the given vector from this instance.\n *\n * @param {Vector3} v - The vector to subtract.\n * @return {Vector3} A reference to this vector.\n */\n sub(v) {\n this.x -= v.x;\n this.y -= v.y;\n this.z -= v.z;\n return this;\n }\n /**\n * Subtracts the given scalar value from all components of this instance.\n *\n * @param {number} s - The scalar to subtract.\n * @return {Vector3} A reference to this vector.\n */\n subScalar(s) {\n this.x -= s;\n this.y -= s;\n this.z -= s;\n return this;\n }\n /**\n * Subtracts the given vectors and stores the result in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n subVectors(a, b) {\n this.x = a.x - b.x;\n this.y = a.y - b.y;\n this.z = a.z - b.z;\n return this;\n }\n /**\n * Multiplies the given vector with this instance.\n *\n * @param {Vector3} v - The vector to multiply.\n * @return {Vector3} A reference to this vector.\n */\n multiply(v) {\n this.x *= v.x;\n this.y *= v.y;\n this.z *= v.z;\n return this;\n }\n /**\n * Multiplies the given scalar value with all components of this instance.\n *\n * @param {number} scalar - The scalar to multiply.\n * @return {Vector3} A reference to this vector.\n */\n multiplyScalar(scalar) {\n this.x *= scalar;\n this.y *= scalar;\n this.z *= scalar;\n return this;\n }\n /**\n * Multiplies the given vectors and stores the result in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n multiplyVectors(a, b) {\n this.x = a.x * b.x;\n this.y = a.y * b.y;\n this.z = a.z * b.z;\n return this;\n }\n /**\n * Applies the given Euler rotation to this vector.\n *\n * @param {Euler} euler - The Euler angles.\n * @return {Vector3} A reference to this vector.\n */\n applyEuler(euler) {\n return this.applyQuaternion(_quaternion$4.setFromEuler(euler));\n }\n /**\n * Applies a rotation specified by an axis and an angle to this vector.\n *\n * @param {Vector3} axis - A normalized vector representing the rotation axis.\n * @param {number} angle - The angle in radians.\n * @return {Vector3} A reference to this vector.\n */\n applyAxisAngle(axis, angle) {\n return this.applyQuaternion(_quaternion$4.setFromAxisAngle(axis, angle));\n }\n /**\n * Multiplies this vector with the given 3x3 matrix.\n *\n * @param {Matrix3} m - The 3x3 matrix.\n * @return {Vector3} A reference to this vector.\n */\n applyMatrix3(m) {\n const x2 = this.x, y = this.y, z = this.z;\n const e = m.elements;\n this.x = e[0] * x2 + e[3] * y + e[6] * z;\n this.y = e[1] * x2 + e[4] * y + e[7] * z;\n this.z = e[2] * x2 + e[5] * y + e[8] * z;\n return this;\n }\n /**\n * Multiplies this vector by the given normal matrix and normalizes\n * the result.\n *\n * @param {Matrix3} m - The normal matrix.\n * @return {Vector3} A reference to this vector.\n */\n applyNormalMatrix(m) {\n return this.applyMatrix3(m).normalize();\n }\n /**\n * Multiplies this vector (with an implicit 1 in the 4th dimension) by m, and\n * divides by perspective.\n *\n * @param {Matrix4} m - The matrix to apply.\n * @return {Vector3} A reference to this vector.\n */\n applyMatrix4(m) {\n const x2 = this.x, y = this.y, z = this.z;\n const e = m.elements;\n const w = 1 / (e[3] * x2 + e[7] * y + e[11] * z + e[15]);\n this.x = (e[0] * x2 + e[4] * y + e[8] * z + e[12]) * w;\n this.y = (e[1] * x2 + e[5] * y + e[9] * z + e[13]) * w;\n this.z = (e[2] * x2 + e[6] * y + e[10] * z + e[14]) * w;\n return this;\n }\n /**\n * Applies the given Quaternion to this vector.\n *\n * @param {Quaternion} q - The Quaternion.\n * @return {Vector3} A reference to this vector.\n */\n applyQuaternion(q) {\n const vx = this.x, vy = this.y, vz = this.z;\n const qx = q.x, qy = q.y, qz = q.z, qw = q.w;\n const tx = 2 * (qy * vz - qz * vy);\n const ty = 2 * (qz * vx - qx * vz);\n const tz = 2 * (qx * vy - qy * vx);\n this.x = vx + qw * tx + qy * tz - qz * ty;\n this.y = vy + qw * ty + qz * tx - qx * tz;\n this.z = vz + qw * tz + qx * ty - qy * tx;\n return this;\n }\n /**\n * Projects this vector from world space into the camera\'s normalized\n * device coordinate (NDC) space.\n *\n * @param {Camera} camera - The camera.\n * @return {Vector3} A reference to this vector.\n */\n project(camera) {\n return this.applyMatrix4(camera.matrixWorldInverse).applyMatrix4(camera.projectionMatrix);\n }\n /**\n * Unprojects this vector from the camera\'s normalized device coordinate (NDC)\n * space into world space.\n *\n * @param {Camera} camera - The camera.\n * @return {Vector3} A reference to this vector.\n */\n unproject(camera) {\n return this.applyMatrix4(camera.projectionMatrixInverse).applyMatrix4(camera.matrixWorld);\n }\n /**\n * Transforms the direction of this vector by a matrix (the upper left 3 x 3\n * subset of the given 4x4 matrix and then normalizes the result.\n *\n * @param {Matrix4} m - The matrix.\n * @return {Vector3} A reference to this vector.\n */\n transformDirection(m) {\n const x2 = this.x, y = this.y, z = this.z;\n const e = m.elements;\n this.x = e[0] * x2 + e[4] * y + e[8] * z;\n this.y = e[1] * x2 + e[5] * y + e[9] * z;\n this.z = e[2] * x2 + e[6] * y + e[10] * z;\n return this.normalize();\n }\n /**\n * Divides this instance by the given vector.\n *\n * @param {Vector3} v - The vector to divide.\n * @return {Vector3} A reference to this vector.\n */\n divide(v) {\n this.x /= v.x;\n this.y /= v.y;\n this.z /= v.z;\n return this;\n }\n /**\n * Divides this vector by the given scalar.\n *\n * @param {number} scalar - The scalar to divide.\n * @return {Vector3} A reference to this vector.\n */\n divideScalar(scalar) {\n return this.multiplyScalar(1 / scalar);\n }\n /**\n * If this vector\'s x, y or z value is greater than the given vector\'s x, y or z\n * value, replace that value with the corresponding min value.\n *\n * @param {Vector3} v - The vector.\n * @return {Vector3} A reference to this vector.\n */\n min(v) {\n this.x = Math.min(this.x, v.x);\n this.y = Math.min(this.y, v.y);\n this.z = Math.min(this.z, v.z);\n return this;\n }\n /**\n * If this vector\'s x, y or z value is less than the given vector\'s x, y or z\n * value, replace that value with the corresponding max value.\n *\n * @param {Vector3} v - The vector.\n * @return {Vector3} A reference to this vector.\n */\n max(v) {\n this.x = Math.max(this.x, v.x);\n this.y = Math.max(this.y, v.y);\n this.z = Math.max(this.z, v.z);\n return this;\n }\n /**\n * If this vector\'s x, y or z value is greater than the max vector\'s x, y or z\n * value, it is replaced by the corresponding value.\n * If this vector\'s x, y or z value is less than the min vector\'s x, y or z value,\n * it is replaced by the corresponding value.\n *\n * @param {Vector3} min - The minimum x, y and z values.\n * @param {Vector3} max - The maximum x, y and z values in the desired range.\n * @return {Vector3} A reference to this vector.\n */\n clamp(min, max2) {\n this.x = clamp(this.x, min.x, max2.x);\n this.y = clamp(this.y, min.y, max2.y);\n this.z = clamp(this.z, min.z, max2.z);\n return this;\n }\n /**\n * If this vector\'s x, y or z values are greater than the max value, they are\n * replaced by the max value.\n * If this vector\'s x, y or z values are less than the min value, they are\n * replaced by the min value.\n *\n * @param {number} minVal - The minimum value the components will be clamped to.\n * @param {number} maxVal - The maximum value the components will be clamped to.\n * @return {Vector3} A reference to this vector.\n */\n clampScalar(minVal, maxVal) {\n this.x = clamp(this.x, minVal, maxVal);\n this.y = clamp(this.y, minVal, maxVal);\n this.z = clamp(this.z, minVal, maxVal);\n return this;\n }\n /**\n * If this vector\'s length is greater than the max value, it is replaced by\n * the max value.\n * If this vector\'s length is less than the min value, it is replaced by the\n * min value.\n *\n * @param {number} min - The minimum value the vector length will be clamped to.\n * @param {number} max - The maximum value the vector length will be clamped to.\n * @return {Vector3} A reference to this vector.\n */\n clampLength(min, max2) {\n const length = this.length();\n return this.divideScalar(length || 1).multiplyScalar(clamp(length, min, max2));\n }\n /**\n * The components of this vector are rounded down to the nearest integer value.\n *\n * @return {Vector3} A reference to this vector.\n */\n floor() {\n this.x = Math.floor(this.x);\n this.y = Math.floor(this.y);\n this.z = Math.floor(this.z);\n return this;\n }\n /**\n * The components of this vector are rounded up to the nearest integer value.\n *\n * @return {Vector3} A reference to this vector.\n */\n ceil() {\n this.x = Math.ceil(this.x);\n this.y = Math.ceil(this.y);\n this.z = Math.ceil(this.z);\n return this;\n }\n /**\n * The components of this vector are rounded to the nearest integer value\n *\n * @return {Vector3} A reference to this vector.\n */\n round() {\n this.x = Math.round(this.x);\n this.y = Math.round(this.y);\n this.z = Math.round(this.z);\n return this;\n }\n /**\n * The components of this vector are rounded towards zero (up if negative,\n * down if positive) to an integer value.\n *\n * @return {Vector3} A reference to this vector.\n */\n roundToZero() {\n this.x = Math.trunc(this.x);\n this.y = Math.trunc(this.y);\n this.z = Math.trunc(this.z);\n return this;\n }\n /**\n * Inverts this vector - i.e. sets x = -x, y = -y and z = -z.\n *\n * @return {Vector3} A reference to this vector.\n */\n negate() {\n this.x = -this.x;\n this.y = -this.y;\n this.z = -this.z;\n return this;\n }\n /**\n * Calculates the dot product of the given vector with this instance.\n *\n * @param {Vector3} v - The vector to compute the dot product with.\n * @return {number} The result of the dot product.\n */\n dot(v) {\n return this.x * v.x + this.y * v.y + this.z * v.z;\n }\n // TODO lengthSquared?\n /**\n * Computes the square of the Euclidean length (straight-line length) from\n * (0, 0, 0) to (x, y, z). If you are comparing the lengths of vectors, you should\n * compare the length squared instead as it is slightly more efficient to calculate.\n *\n * @return {number} The square length of this vector.\n */\n lengthSq() {\n return this.x * this.x + this.y * this.y + this.z * this.z;\n }\n /**\n * Computes the Euclidean length (straight-line length) from (0, 0, 0) to (x, y, z).\n *\n * @return {number} The length of this vector.\n */\n length() {\n return Math.sqrt(this.x * this.x + this.y * this.y + this.z * this.z);\n }\n /**\n * Computes the Manhattan length of this vector.\n *\n * @return {number} The length of this vector.\n */\n manhattanLength() {\n return Math.abs(this.x) + Math.abs(this.y) + Math.abs(this.z);\n }\n /**\n * Converts this vector to a unit vector - that is, sets it equal to a vector\n * with the same direction as this one, but with a vector length of `1`.\n *\n * @return {Vector3} A reference to this vector.\n */\n normalize() {\n return this.divideScalar(this.length() || 1);\n }\n /**\n * Sets this vector to a vector with the same direction as this one, but\n * with the specified length.\n *\n * @param {number} length - The new length of this vector.\n * @return {Vector3} A reference to this vector.\n */\n setLength(length) {\n return this.normalize().multiplyScalar(length);\n }\n /**\n * Linearly interpolates between the given vector and this instance, where\n * alpha is the percent distance along the line - alpha = 0 will be this\n * vector, and alpha = 1 will be the given one.\n *\n * @param {Vector3} v - The vector to interpolate towards.\n * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n * @return {Vector3} A reference to this vector.\n */\n lerp(v, alpha) {\n this.x += (v.x - this.x) * alpha;\n this.y += (v.y - this.y) * alpha;\n this.z += (v.z - this.z) * alpha;\n return this;\n }\n /**\n * Linearly interpolates between the given vectors, where alpha is the percent\n * distance along the line - alpha = 0 will be first vector, and alpha = 1 will\n * be the second one. The result is stored in this instance.\n *\n * @param {Vector3} v1 - The first vector.\n * @param {Vector3} v2 - The second vector.\n * @param {number} alpha - The interpolation factor, typically in the closed interval `[0, 1]`.\n * @return {Vector3} A reference to this vector.\n */\n lerpVectors(v1, v2, alpha) {\n this.x = v1.x + (v2.x - v1.x) * alpha;\n this.y = v1.y + (v2.y - v1.y) * alpha;\n this.z = v1.z + (v2.z - v1.z) * alpha;\n return this;\n }\n /**\n * Calculates the cross product of the given vector with this instance.\n *\n * @param {Vector3} v - The vector to compute the cross product with.\n * @return {Vector3} The result of the cross product.\n */\n cross(v) {\n return this.crossVectors(this, v);\n }\n /**\n * Calculates the cross product of the given vectors and stores the result\n * in this instance.\n *\n * @param {Vector3} a - The first vector.\n * @param {Vector3} b - The second vector.\n * @return {Vector3} A reference to this vector.\n */\n crossVectors(a, b) {\n const ax = a.x, ay = a.y, az = a.z;\n const bx = b.x, by = b.y, bz = b.z;\n this.x = ay * bz - az * by;\n this.y = az * bx - ax * bz;\n this.z = ax * by - ay * bx;\n return this;\n }\n /**\n * Projects this vector onto the given one.\n *\n * @param {Vector3} v - The vector to project to.\n * @return {Vector3} A reference to this vector.\n */\n projectOnVector(v) {\n const denominator = v.lengthSq();\n if (denominator === 0) return this.set(0, 0, 0);\n const scalar = v.dot(this) / denominator;\n return this.copy(v).multiplyScalar(scalar);\n }\n /**\n * Projects this vector onto a plane by subtracting this\n * vector projected onto the plane\'s normal from this vector.\n *\n * @param {Vector3} planeNormal - The plane normal.\n * @return {Vector3} A reference to this vector.\n */\n projectOnPlane(planeNormal) {\n _vector$c.copy(this).projectOnVector(planeNormal);\n return this.sub(_vector$c);\n }\n /**\n * Reflects this vector off a plane orthogonal to the given normal vector.\n *\n * @param {Vector3} normal - The (normalized) normal vector.\n * @return {Vector3} A reference to this vector.\n */\n reflect(normal) {\n return this.sub(_vector$c.copy(normal).multiplyScalar(2 * this.dot(normal)));\n }\n /**\n * Returns the angle between the given vector and this instance in radians.\n *\n * @param {Vector3} v - The vector to compute the angle with.\n * @return {number} The angle in radians.\n */\n angleTo(v) {\n const denominator = Math.sqrt(this.lengthSq() * v.lengthSq());\n if (denominator === 0) return Math.PI / 2;\n const theta = this.dot(v) / denominator;\n return Math.acos(clamp(theta, -1, 1));\n }\n /**\n * Computes the distance from the given vector to this instance.\n *\n * @param {Vector3} v - The vector to compute the distance to.\n * @return {number} The distance.\n */\n distanceTo(v) {\n return Math.sqrt(this.distanceToSquared(v));\n }\n /**\n * Computes the squared distance from the given vector to this instance.\n * If you are just comparing the distance with another distance, you should compare\n * the distance squared instead as it is slightly more efficient to calculate.\n *\n * @param {Vector3} v - The vector to compute the squared distance to.\n * @return {number} The squared distance.\n */\n distanceToSquared(v) {\n const dx = this.x - v.x, dy = this.y - v.y, dz = this.z - v.z;\n return dx * dx + dy * dy + dz * dz;\n }\n /**\n * Computes the Manhattan distance from the given vector to this instance.\n *\n * @param {Vector3} v - The vector to compute the Manhattan distance to.\n * @return {number} The Manhattan distance.\n */\n manhattanDistanceTo(v) {\n return Math.abs(this.x - v.x) + Math.abs(this.y - v.y) + Math.abs(this.z - v.z);\n }\n /**\n * Sets the vector components from the given spherical coordinates.\n *\n * @param {Spherical} s - The spherical coordinates.\n * @return {Vector3} A reference to this vector.\n */\n setFromSpherical(s) {\n return this.setFromSphericalCoords(s.radius, s.phi, s.theta);\n }\n /**\n * Sets the vector components from the given spherical coordinates.\n *\n * @param {number} radius - The radius.\n * @param {number} phi - The phi angle in radians.\n * @param {number} theta - The theta angle in radians.\n * @return {Vector3} A reference to this vector.\n */\n setFromSphericalCoords(radius, phi, theta) {\n const sinPhiRadius = Math.sin(phi) * radius;\n this.x = sinPhiRadius * Math.sin(theta);\n this.y = Math.cos(phi) * radius;\n this.z = sinPhiRadius * Math.cos(theta);\n return this;\n }\n /**\n * Sets the vector components from the given cylindrical coordinates.\n *\n * @param {Cylindrical} c - The cylindrical coordinates.\n * @return {Vector3} A reference to this vector.\n */\n setFromCylindrical(c) {\n return this.setFromCylindricalCoords(c.radius, c.theta, c.y);\n }\n /**\n * Sets the vector components from the given cylindrical coordinates.\n *\n * @param {number} radius - The radius.\n * @param {number} theta - The theta angle in radians.\n * @param {number} y - The y value.\n * @return {Vector3} A reference to this vector.\n */\n setFromCylindricalCoords(radius, theta, y) {\n this.x = radius * Math.sin(theta);\n this.y = y;\n this.z = radius * Math.cos(theta);\n return this;\n }\n /**\n * Sets the vector components to the position elements of the\n * given transformation matrix.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrixPosition(m) {\n const e = m.elements;\n this.x = e[12];\n this.y = e[13];\n this.z = e[14];\n return this;\n }\n /**\n * Sets the vector components to the scale elements of the\n * given transformation matrix.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrixScale(m) {\n const sx = this.setFromMatrixColumn(m, 0).length();\n const sy = this.setFromMatrixColumn(m, 1).length();\n const sz = this.setFromMatrixColumn(m, 2).length();\n this.x = sx;\n this.y = sy;\n this.z = sz;\n return this;\n }\n /**\n * Sets the vector components from the specified matrix column.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @param {number} index - The column index.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrixColumn(m, index) {\n return this.fromArray(m.elements, index * 4);\n }\n /**\n * Sets the vector components from the specified matrix column.\n *\n * @param {Matrix3} m - The 3x3 matrix.\n * @param {number} index - The column index.\n * @return {Vector3} A reference to this vector.\n */\n setFromMatrix3Column(m, index) {\n return this.fromArray(m.elements, index * 3);\n }\n /**\n * Sets the vector components from the given Euler angles.\n *\n * @param {Euler} e - The Euler angles to set.\n * @return {Vector3} A reference to this vector.\n */\n setFromEuler(e) {\n this.x = e._x;\n this.y = e._y;\n this.z = e._z;\n return this;\n }\n /**\n * Sets the vector components from the RGB components of the\n * given color.\n *\n * @param {Color} c - The color to set.\n * @return {Vector3} A reference to this vector.\n */\n setFromColor(c) {\n this.x = c.r;\n this.y = c.g;\n this.z = c.b;\n return this;\n }\n /**\n * Returns `true` if this vector is equal with the given one.\n *\n * @param {Vector3} v - The vector to test for equality.\n * @return {boolean} Whether this vector is equal with the given one.\n */\n equals(v) {\n return v.x === this.x && v.y === this.y && v.z === this.z;\n }\n /**\n * Sets this vector\'s x value to be `array[ offset ]`, y value to be `array[ offset + 1 ]`\n * and z value to be `array[ offset + 2 ]`.\n *\n * @param {Array} array - An array holding the vector component values.\n * @param {number} [offset=0] - The offset into the array.\n * @return {Vector3} A reference to this vector.\n */\n fromArray(array, offset = 0) {\n this.x = array[offset];\n this.y = array[offset + 1];\n this.z = array[offset + 2];\n return this;\n }\n /**\n * Writes the components of this vector to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the vector components.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The vector components.\n */\n toArray(array = [], offset = 0) {\n array[offset] = this.x;\n array[offset + 1] = this.y;\n array[offset + 2] = this.z;\n return array;\n }\n /**\n * Sets the components of this vector from the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - The buffer attribute holding vector data.\n * @param {number} index - The index into the attribute.\n * @return {Vector3} A reference to this vector.\n */\n fromBufferAttribute(attribute, index) {\n this.x = attribute.getX(index);\n this.y = attribute.getY(index);\n this.z = attribute.getZ(index);\n return this;\n }\n /**\n * Sets each component of this vector to a pseudo-random value between `0` and\n * `1`, excluding `1`.\n *\n * @return {Vector3} A reference to this vector.\n */\n random() {\n this.x = Math.random();\n this.y = Math.random();\n this.z = Math.random();\n return this;\n }\n /**\n * Sets this vector to a uniformly random point on a unit sphere.\n *\n * @return {Vector3} A reference to this vector.\n */\n randomDirection() {\n const theta = Math.random() * Math.PI * 2;\n const u = Math.random() * 2 - 1;\n const c = Math.sqrt(1 - u * u);\n this.x = c * Math.cos(theta);\n this.y = u;\n this.z = c * Math.sin(theta);\n return this;\n }\n *[Symbol.iterator]() {\n yield this.x;\n yield this.y;\n yield this.z;\n }\n }\n const _vector$c = /* @__PURE__ */ new Vector3();\n const _quaternion$4 = /* @__PURE__ */ new Quaternion();\n class Matrix3 {\n /**\n * Constructs a new 3x3 matrix. The arguments are supposed to be\n * in row-major order. If no arguments are provided, the constructor\n * initializes the matrix as an identity matrix.\n *\n * @param {number} [n11] - 1-1 matrix element.\n * @param {number} [n12] - 1-2 matrix element.\n * @param {number} [n13] - 1-3 matrix element.\n * @param {number} [n21] - 2-1 matrix element.\n * @param {number} [n22] - 2-2 matrix element.\n * @param {number} [n23] - 2-3 matrix element.\n * @param {number} [n31] - 3-1 matrix element.\n * @param {number} [n32] - 3-2 matrix element.\n * @param {number} [n33] - 3-3 matrix element.\n */\n constructor(n11, n12, n13, n21, n22, n23, n31, n32, n33) {\n Matrix3.prototype.isMatrix3 = true;\n this.elements = [\n 1,\n 0,\n 0,\n 0,\n 1,\n 0,\n 0,\n 0,\n 1\n ];\n if (n11 !== void 0) {\n this.set(n11, n12, n13, n21, n22, n23, n31, n32, n33);\n }\n }\n /**\n * Sets the elements of the matrix.The arguments are supposed to be\n * in row-major order.\n *\n * @param {number} [n11] - 1-1 matrix element.\n * @param {number} [n12] - 1-2 matrix element.\n * @param {number} [n13] - 1-3 matrix element.\n * @param {number} [n21] - 2-1 matrix element.\n * @param {number} [n22] - 2-2 matrix element.\n * @param {number} [n23] - 2-3 matrix element.\n * @param {number} [n31] - 3-1 matrix element.\n * @param {number} [n32] - 3-2 matrix element.\n * @param {number} [n33] - 3-3 matrix element.\n * @return {Matrix3} A reference to this matrix.\n */\n set(n11, n12, n13, n21, n22, n23, n31, n32, n33) {\n const te = this.elements;\n te[0] = n11;\n te[1] = n21;\n te[2] = n31;\n te[3] = n12;\n te[4] = n22;\n te[5] = n32;\n te[6] = n13;\n te[7] = n23;\n te[8] = n33;\n return this;\n }\n /**\n * Sets this matrix to the 3x3 identity matrix.\n *\n * @return {Matrix3} A reference to this matrix.\n */\n identity() {\n this.set(\n 1,\n 0,\n 0,\n 0,\n 1,\n 0,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Copies the values of the given matrix to this instance.\n *\n * @param {Matrix3} m - The matrix to copy.\n * @return {Matrix3} A reference to this matrix.\n */\n copy(m) {\n const te = this.elements;\n const me = m.elements;\n te[0] = me[0];\n te[1] = me[1];\n te[2] = me[2];\n te[3] = me[3];\n te[4] = me[4];\n te[5] = me[5];\n te[6] = me[6];\n te[7] = me[7];\n te[8] = me[8];\n return this;\n }\n /**\n * Extracts the basis of this matrix into the three axis vectors provided.\n *\n * @param {Vector3} xAxis - The basis\'s x axis.\n * @param {Vector3} yAxis - The basis\'s y axis.\n * @param {Vector3} zAxis - The basis\'s z axis.\n * @return {Matrix3} A reference to this matrix.\n */\n extractBasis(xAxis, yAxis, zAxis) {\n xAxis.setFromMatrix3Column(this, 0);\n yAxis.setFromMatrix3Column(this, 1);\n zAxis.setFromMatrix3Column(this, 2);\n return this;\n }\n /**\n * Set this matrix to the upper 3x3 matrix of the given 4x4 matrix.\n *\n * @param {Matrix4} m - The 4x4 matrix.\n * @return {Matrix3} A reference to this matrix.\n */\n setFromMatrix4(m) {\n const me = m.elements;\n this.set(\n me[0],\n me[4],\n me[8],\n me[1],\n me[5],\n me[9],\n me[2],\n me[6],\n me[10]\n );\n return this;\n }\n /**\n * Post-multiplies this matrix by the given 3x3 matrix.\n *\n * @param {Matrix3} m - The matrix to multiply with.\n * @return {Matrix3} A reference to this matrix.\n */\n multiply(m) {\n return this.multiplyMatrices(this, m);\n }\n /**\n * Pre-multiplies this matrix by the given 3x3 matrix.\n *\n * @param {Matrix3} m - The matrix to multiply with.\n * @return {Matrix3} A reference to this matrix.\n */\n premultiply(m) {\n return this.multiplyMatrices(m, this);\n }\n /**\n * Multiples the given 3x3 matrices and stores the result\n * in this matrix.\n *\n * @param {Matrix3} a - The first matrix.\n * @param {Matrix3} b - The second matrix.\n * @return {Matrix3} A reference to this matrix.\n */\n multiplyMatrices(a, b) {\n const ae = a.elements;\n const be = b.elements;\n const te = this.elements;\n const a11 = ae[0], a12 = ae[3], a13 = ae[6];\n const a21 = ae[1], a22 = ae[4], a23 = ae[7];\n const a31 = ae[2], a32 = ae[5], a33 = ae[8];\n const b11 = be[0], b12 = be[3], b13 = be[6];\n const b21 = be[1], b22 = be[4], b23 = be[7];\n const b31 = be[2], b32 = be[5], b33 = be[8];\n te[0] = a11 * b11 + a12 * b21 + a13 * b31;\n te[3] = a11 * b12 + a12 * b22 + a13 * b32;\n te[6] = a11 * b13 + a12 * b23 + a13 * b33;\n te[1] = a21 * b11 + a22 * b21 + a23 * b31;\n te[4] = a21 * b12 + a22 * b22 + a23 * b32;\n te[7] = a21 * b13 + a22 * b23 + a23 * b33;\n te[2] = a31 * b11 + a32 * b21 + a33 * b31;\n te[5] = a31 * b12 + a32 * b22 + a33 * b32;\n te[8] = a31 * b13 + a32 * b23 + a33 * b33;\n return this;\n }\n /**\n * Multiplies every component of the matrix by the given scalar.\n *\n * @param {number} s - The scalar.\n * @return {Matrix3} A reference to this matrix.\n */\n multiplyScalar(s) {\n const te = this.elements;\n te[0] *= s;\n te[3] *= s;\n te[6] *= s;\n te[1] *= s;\n te[4] *= s;\n te[7] *= s;\n te[2] *= s;\n te[5] *= s;\n te[8] *= s;\n return this;\n }\n /**\n * Computes and returns the determinant of this matrix.\n *\n * @return {number} The determinant.\n */\n determinant() {\n const te = this.elements;\n const a = te[0], b = te[1], c = te[2], d = te[3], e = te[4], f = te[5], g = te[6], h = te[7], i2 = te[8];\n return a * e * i2 - a * f * h - b * d * i2 + b * f * g + c * d * h - c * e * g;\n }\n /**\n * Inverts this matrix, using the [analytic method]{@link https://en.wikipedia.org/wiki/Invertible_matrix#Analytic_solution}.\n * You can not invert with a determinant of zero. If you attempt this, the method produces\n * a zero matrix instead.\n *\n * @return {Matrix3} A reference to this matrix.\n */\n invert() {\n const te = this.elements, n11 = te[0], n21 = te[1], n31 = te[2], n12 = te[3], n22 = te[4], n32 = te[5], n13 = te[6], n23 = te[7], n33 = te[8], t11 = n33 * n22 - n32 * n23, t12 = n32 * n13 - n33 * n12, t13 = n23 * n12 - n22 * n13, det = n11 * t11 + n21 * t12 + n31 * t13;\n if (det === 0) return this.set(0, 0, 0, 0, 0, 0, 0, 0, 0);\n const detInv = 1 / det;\n te[0] = t11 * detInv;\n te[1] = (n31 * n23 - n33 * n21) * detInv;\n te[2] = (n32 * n21 - n31 * n22) * detInv;\n te[3] = t12 * detInv;\n te[4] = (n33 * n11 - n31 * n13) * detInv;\n te[5] = (n31 * n12 - n32 * n11) * detInv;\n te[6] = t13 * detInv;\n te[7] = (n21 * n13 - n23 * n11) * detInv;\n te[8] = (n22 * n11 - n21 * n12) * detInv;\n return this;\n }\n /**\n * Transposes this matrix in place.\n *\n * @return {Matrix3} A reference to this matrix.\n */\n transpose() {\n let tmp;\n const m = this.elements;\n tmp = m[1];\n m[1] = m[3];\n m[3] = tmp;\n tmp = m[2];\n m[2] = m[6];\n m[6] = tmp;\n tmp = m[5];\n m[5] = m[7];\n m[7] = tmp;\n return this;\n }\n /**\n * Computes the normal matrix which is the inverse transpose of the upper\n * left 3x3 portion of the given 4x4 matrix.\n *\n * @param {Matrix4} matrix4 - The 4x4 matrix.\n * @return {Matrix3} A reference to this matrix.\n */\n getNormalMatrix(matrix4) {\n return this.setFromMatrix4(matrix4).invert().transpose();\n }\n /**\n * Transposes this matrix into the supplied array, and returns itself unchanged.\n *\n * @param {Array} r - An array to store the transposed matrix elements.\n * @return {Matrix3} A reference to this matrix.\n */\n transposeIntoArray(r) {\n const m = this.elements;\n r[0] = m[0];\n r[1] = m[3];\n r[2] = m[6];\n r[3] = m[1];\n r[4] = m[4];\n r[5] = m[7];\n r[6] = m[2];\n r[7] = m[5];\n r[8] = m[8];\n return this;\n }\n /**\n * Sets the UV transform matrix from offset, repeat, rotation, and center.\n *\n * @param {number} tx - Offset x.\n * @param {number} ty - Offset y.\n * @param {number} sx - Repeat x.\n * @param {number} sy - Repeat y.\n * @param {number} rotation - Rotation, in radians. Positive values rotate counterclockwise.\n * @param {number} cx - Center x of rotation.\n * @param {number} cy - Center y of rotation\n * @return {Matrix3} A reference to this matrix.\n */\n setUvTransform(tx, ty, sx, sy, rotation, cx, cy) {\n const c = Math.cos(rotation);\n const s = Math.sin(rotation);\n this.set(\n sx * c,\n sx * s,\n -sx * (c * cx + s * cy) + cx + tx,\n -sy * s,\n sy * c,\n -sy * (-s * cx + c * cy) + cy + ty,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Scales this matrix with the given scalar values.\n *\n * @param {number} sx - The amount to scale in the X axis.\n * @param {number} sy - The amount to scale in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n scale(sx, sy) {\n this.premultiply(_m3.makeScale(sx, sy));\n return this;\n }\n /**\n * Rotates this matrix by the given angle.\n *\n * @param {number} theta - The rotation in radians.\n * @return {Matrix3} A reference to this matrix.\n */\n rotate(theta) {\n this.premultiply(_m3.makeRotation(-theta));\n return this;\n }\n /**\n * Translates this matrix by the given scalar values.\n *\n * @param {number} tx - The amount to translate in the X axis.\n * @param {number} ty - The amount to translate in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n translate(tx, ty) {\n this.premultiply(_m3.makeTranslation(tx, ty));\n return this;\n }\n // for 2D Transforms\n /**\n * Sets this matrix as a 2D translation transform.\n *\n * @param {number|Vector2} x - The amount to translate in the X axis or alternatively a translation vector.\n * @param {number} y - The amount to translate in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n makeTranslation(x2, y) {\n if (x2.isVector2) {\n this.set(\n 1,\n 0,\n x2.x,\n 0,\n 1,\n x2.y,\n 0,\n 0,\n 1\n );\n } else {\n this.set(\n 1,\n 0,\n x2,\n 0,\n 1,\n y,\n 0,\n 0,\n 1\n );\n }\n return this;\n }\n /**\n * Sets this matrix as a 2D rotational transformation.\n *\n * @param {number} theta - The rotation in radians.\n * @return {Matrix3} A reference to this matrix.\n */\n makeRotation(theta) {\n const c = Math.cos(theta);\n const s = Math.sin(theta);\n this.set(\n c,\n -s,\n 0,\n s,\n c,\n 0,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Sets this matrix as a 2D scale transform.\n *\n * @param {number} x - The amount to scale in the X axis.\n * @param {number} y - The amount to scale in the Y axis.\n * @return {Matrix3} A reference to this matrix.\n */\n makeScale(x2, y) {\n this.set(\n x2,\n 0,\n 0,\n 0,\n y,\n 0,\n 0,\n 0,\n 1\n );\n return this;\n }\n /**\n * Returns `true` if this matrix is equal with the given one.\n *\n * @param {Matrix3} matrix - The matrix to test for equality.\n * @return {boolean} Whether this matrix is equal with the given one.\n */\n equals(matrix) {\n const te = this.elements;\n const me = matrix.elements;\n for (let i2 = 0; i2 < 9; i2++) {\n if (te[i2] !== me[i2]) return false;\n }\n return true;\n }\n /**\n * Sets the elements of the matrix from the given array.\n *\n * @param {Array} array - The matrix elements in column-major order.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Matrix3} A reference to this matrix.\n */\n fromArray(array, offset = 0) {\n for (let i2 = 0; i2 < 9; i2++) {\n this.elements[i2] = array[i2 + offset];\n }\n return this;\n }\n /**\n * Writes the elements of this matrix to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the matrix elements in column-major order.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The matrix elements in column-major order.\n */\n toArray(array = [], offset = 0) {\n const te = this.elements;\n array[offset] = te[0];\n array[offset + 1] = te[1];\n array[offset + 2] = te[2];\n array[offset + 3] = te[3];\n array[offset + 4] = te[4];\n array[offset + 5] = te[5];\n array[offset + 6] = te[6];\n array[offset + 7] = te[7];\n array[offset + 8] = te[8];\n return array;\n }\n /**\n * Returns a matrix with copied values from this instance.\n *\n * @return {Matrix3} A clone of this instance.\n */\n clone() {\n return new this.constructor().fromArray(this.elements);\n }\n }\n const _m3 = /* @__PURE__ */ new Matrix3();\n const _cache = {};\n function warnOnce(message) {\n if (message in _cache) return;\n _cache[message] = true;\n console.warn(message);\n }\n const LINEAR_REC709_TO_XYZ = /* @__PURE__ */ new Matrix3().set(\n 0.4123908,\n 0.3575843,\n 0.1804808,\n 0.212639,\n 0.7151687,\n 0.0721923,\n 0.0193308,\n 0.1191948,\n 0.9505322\n );\n const XYZ_TO_LINEAR_REC709 = /* @__PURE__ */ new Matrix3().set(\n 3.2409699,\n -1.5373832,\n -0.4986108,\n -0.9692436,\n 1.8759675,\n 0.0415551,\n 0.0556301,\n -0.203977,\n 1.0569715\n );\n function createColorManagement() {\n const ColorManagement2 = {\n enabled: true,\n workingColorSpace: LinearSRGBColorSpace,\n /**\n * Implementations of supported color spaces.\n *\n * Required:\n * - primaries: chromaticity coordinates [ rx ry gx gy bx by ]\n * - whitePoint: reference white [ x y ]\n * - transfer: transfer function (pre-defined)\n * - toXYZ: Matrix3 RGB to XYZ transform\n * - fromXYZ: Matrix3 XYZ to RGB transform\n * - luminanceCoefficients: RGB luminance coefficients\n *\n * Optional:\n * - outputColorSpaceConfig: { drawingBufferColorSpace: ColorSpace, toneMappingMode: \'extended\' | \'standard\' }\n * - workingColorSpaceConfig: { unpackColorSpace: ColorSpace }\n *\n * Reference:\n * - https://www.russellcottrell.com/photo/matrixCalculator.htm\n */\n spaces: {},\n convert: function(color, sourceColorSpace, targetColorSpace) {\n if (this.enabled === false || sourceColorSpace === targetColorSpace || !sourceColorSpace || !targetColorSpace) {\n return color;\n }\n if (this.spaces[sourceColorSpace].transfer === SRGBTransfer) {\n color.r = SRGBToLinear(color.r);\n color.g = SRGBToLinear(color.g);\n color.b = SRGBToLinear(color.b);\n }\n if (this.spaces[sourceColorSpace].primaries !== this.spaces[targetColorSpace].primaries) {\n color.applyMatrix3(this.spaces[sourceColorSpace].toXYZ);\n color.applyMatrix3(this.spaces[targetColorSpace].fromXYZ);\n }\n if (this.spaces[targetColorSpace].transfer === SRGBTransfer) {\n color.r = LinearToSRGB(color.r);\n color.g = LinearToSRGB(color.g);\n color.b = LinearToSRGB(color.b);\n }\n return color;\n },\n workingToColorSpace: function(color, targetColorSpace) {\n return this.convert(color, this.workingColorSpace, targetColorSpace);\n },\n colorSpaceToWorking: function(color, sourceColorSpace) {\n return this.convert(color, sourceColorSpace, this.workingColorSpace);\n },\n getPrimaries: function(colorSpace) {\n return this.spaces[colorSpace].primaries;\n },\n getTransfer: function(colorSpace) {\n if (colorSpace === NoColorSpace) return LinearTransfer;\n return this.spaces[colorSpace].transfer;\n },\n getToneMappingMode: function(colorSpace) {\n return this.spaces[colorSpace].outputColorSpaceConfig.toneMappingMode || "standard";\n },\n getLuminanceCoefficients: function(target, colorSpace = this.workingColorSpace) {\n return target.fromArray(this.spaces[colorSpace].luminanceCoefficients);\n },\n define: function(colorSpaces) {\n Object.assign(this.spaces, colorSpaces);\n },\n // Internal APIs\n _getMatrix: function(targetMatrix, sourceColorSpace, targetColorSpace) {\n return targetMatrix.copy(this.spaces[sourceColorSpace].toXYZ).multiply(this.spaces[targetColorSpace].fromXYZ);\n },\n _getDrawingBufferColorSpace: function(colorSpace) {\n return this.spaces[colorSpace].outputColorSpaceConfig.drawingBufferColorSpace;\n },\n _getUnpackColorSpace: function(colorSpace = this.workingColorSpace) {\n return this.spaces[colorSpace].workingColorSpaceConfig.unpackColorSpace;\n },\n // Deprecated\n fromWorkingColorSpace: function(color, targetColorSpace) {\n warnOnce("THREE.ColorManagement: .fromWorkingColorSpace() has been renamed to .workingToColorSpace().");\n return ColorManagement2.workingToColorSpace(color, targetColorSpace);\n },\n toWorkingColorSpace: function(color, sourceColorSpace) {\n warnOnce("THREE.ColorManagement: .toWorkingColorSpace() has been renamed to .colorSpaceToWorking().");\n return ColorManagement2.colorSpaceToWorking(color, sourceColorSpace);\n }\n };\n const REC709_PRIMARIES = [0.64, 0.33, 0.3, 0.6, 0.15, 0.06];\n const REC709_LUMINANCE_COEFFICIENTS = [0.2126, 0.7152, 0.0722];\n const D65 = [0.3127, 0.329];\n ColorManagement2.define({\n [LinearSRGBColorSpace]: {\n primaries: REC709_PRIMARIES,\n whitePoint: D65,\n transfer: LinearTransfer,\n toXYZ: LINEAR_REC709_TO_XYZ,\n fromXYZ: XYZ_TO_LINEAR_REC709,\n luminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n workingColorSpaceConfig: { unpackColorSpace: SRGBColorSpace },\n outputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n },\n [SRGBColorSpace]: {\n primaries: REC709_PRIMARIES,\n whitePoint: D65,\n transfer: SRGBTransfer,\n toXYZ: LINEAR_REC709_TO_XYZ,\n fromXYZ: XYZ_TO_LINEAR_REC709,\n luminanceCoefficients: REC709_LUMINANCE_COEFFICIENTS,\n outputColorSpaceConfig: { drawingBufferColorSpace: SRGBColorSpace }\n }\n });\n return ColorManagement2;\n }\n const ColorManagement = /* @__PURE__ */ createColorManagement();\n function SRGBToLinear(c) {\n return c < 0.04045 ? c * 0.0773993808 : Math.pow(c * 0.9478672986 + 0.0521327014, 2.4);\n }\n function LinearToSRGB(c) {\n return c < 31308e-7 ? c * 12.92 : 1.055 * Math.pow(c, 0.41666) - 0.055;\n }\n class Box3 {\n /**\n * Constructs a new bounding box.\n *\n * @param {Vector3} [min=(Infinity,Infinity,Infinity)] - A vector representing the lower boundary of the box.\n * @param {Vector3} [max=(-Infinity,-Infinity,-Infinity)] - A vector representing the upper boundary of the box.\n */\n constructor(min = new Vector3(Infinity, Infinity, Infinity), max2 = new Vector3(-Infinity, -Infinity, -Infinity)) {\n this.isBox3 = true;\n this.min = min;\n this.max = max2;\n }\n /**\n * Sets the lower and upper boundaries of this box.\n * Please note that this method only copies the values from the given objects.\n *\n * @param {Vector3} min - The lower boundary of the box.\n * @param {Vector3} max - The upper boundary of the box.\n * @return {Box3} A reference to this bounding box.\n */\n set(min, max2) {\n this.min.copy(min);\n this.max.copy(max2);\n return this;\n }\n /**\n * Sets the upper and lower bounds of this box so it encloses the position data\n * in the given array.\n *\n * @param {Array} array - An array holding 3D position data.\n * @return {Box3} A reference to this bounding box.\n */\n setFromArray(array) {\n this.makeEmpty();\n for (let i2 = 0, il = array.length; i2 < il; i2 += 3) {\n this.expandByPoint(_vector$b.fromArray(array, i2));\n }\n return this;\n }\n /**\n * Sets the upper and lower bounds of this box so it encloses the position data\n * in the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - A buffer attribute holding 3D position data.\n * @return {Box3} A reference to this bounding box.\n */\n setFromBufferAttribute(attribute) {\n this.makeEmpty();\n for (let i2 = 0, il = attribute.count; i2 < il; i2++) {\n this.expandByPoint(_vector$b.fromBufferAttribute(attribute, i2));\n }\n return this;\n }\n /**\n * Sets the upper and lower bounds of this box so it encloses the position data\n * in the given array.\n *\n * @param {Array} points - An array holding 3D position data as instances of {@link Vector3}.\n * @return {Box3} A reference to this bounding box.\n */\n setFromPoints(points) {\n this.makeEmpty();\n for (let i2 = 0, il = points.length; i2 < il; i2++) {\n this.expandByPoint(points[i2]);\n }\n return this;\n }\n /**\n * Centers this box on the given center vector and sets this box\'s width, height and\n * depth to the given size values.\n *\n * @param {Vector3} center - The center of the box.\n * @param {Vector3} size - The x, y and z dimensions of the box.\n * @return {Box3} A reference to this bounding box.\n */\n setFromCenterAndSize(center, size) {\n const halfSize = _vector$b.copy(size).multiplyScalar(0.5);\n this.min.copy(center).sub(halfSize);\n this.max.copy(center).add(halfSize);\n return this;\n }\n /**\n * Computes the world-axis-aligned bounding box for the given 3D object\n * (including its children), accounting for the object\'s, and children\'s,\n * world transforms. The function may result in a larger box than strictly necessary.\n *\n * @param {Object3D} object - The 3D object to compute the bounding box for.\n * @param {boolean} [precise=false] - If set to `true`, the method computes the smallest\n * world-axis-aligned bounding box at the expense of more computation.\n * @return {Box3} A reference to this bounding box.\n */\n setFromObject(object, precise = false) {\n this.makeEmpty();\n return this.expandByObject(object, precise);\n }\n /**\n * Returns a new box with copied values from this instance.\n *\n * @return {Box3} A clone of this instance.\n */\n clone() {\n return new this.constructor().copy(this);\n }\n /**\n * Copies the values of the given box to this instance.\n *\n * @param {Box3} box - The box to copy.\n * @return {Box3} A reference to this bounding box.\n */\n copy(box) {\n this.min.copy(box.min);\n this.max.copy(box.max);\n return this;\n }\n /**\n * Makes this box empty which means in encloses a zero space in 3D.\n *\n * @return {Box3} A reference to this bounding box.\n */\n makeEmpty() {\n this.min.x = this.min.y = this.min.z = Infinity;\n this.max.x = this.max.y = this.max.z = -Infinity;\n return this;\n }\n /**\n * Returns true if this box includes zero points within its bounds.\n * Note that a box with equal lower and upper bounds still includes one\n * point, the one both bounds share.\n *\n * @return {boolean} Whether this box is empty or not.\n */\n isEmpty() {\n return this.max.x < this.min.x || this.max.y < this.min.y || this.max.z < this.min.z;\n }\n /**\n * Returns the center point of this box.\n *\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} The center point.\n */\n getCenter(target) {\n return this.isEmpty() ? target.set(0, 0, 0) : target.addVectors(this.min, this.max).multiplyScalar(0.5);\n }\n /**\n * Returns the dimensions of this box.\n *\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} The size.\n */\n getSize(target) {\n return this.isEmpty() ? target.set(0, 0, 0) : target.subVectors(this.max, this.min);\n }\n /**\n * Expands the boundaries of this box to include the given point.\n *\n * @param {Vector3} point - The point that should be included by the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n expandByPoint(point) {\n this.min.min(point);\n this.max.max(point);\n return this;\n }\n /**\n * Expands this box equilaterally by the given vector. The width of this\n * box will be expanded by the x component of the vector in both\n * directions. The height of this box will be expanded by the y component of\n * the vector in both directions. The depth of this box will be\n * expanded by the z component of the vector in both directions.\n *\n * @param {Vector3} vector - The vector that should expand the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n expandByVector(vector) {\n this.min.sub(vector);\n this.max.add(vector);\n return this;\n }\n /**\n * Expands each dimension of the box by the given scalar. If negative, the\n * dimensions of the box will be contracted.\n *\n * @param {number} scalar - The scalar value that should expand the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n expandByScalar(scalar) {\n this.min.addScalar(-scalar);\n this.max.addScalar(scalar);\n return this;\n }\n /**\n * Expands the boundaries of this box to include the given 3D object and\n * its children, accounting for the object\'s, and children\'s, world\n * transforms. The function may result in a larger box than strictly\n * necessary (unless the precise parameter is set to true).\n *\n * @param {Object3D} object - The 3D object that should expand the bounding box.\n * @param {boolean} precise - If set to `true`, the method expands the bounding box\n * as little as necessary at the expense of more computation.\n * @return {Box3} A reference to this bounding box.\n */\n expandByObject(object, precise = false) {\n object.updateWorldMatrix(false, false);\n const geometry = object.geometry;\n if (geometry !== void 0) {\n const positionAttribute = geometry.getAttribute("position");\n if (precise === true && positionAttribute !== void 0 && object.isInstancedMesh !== true) {\n for (let i2 = 0, l = positionAttribute.count; i2 < l; i2++) {\n if (object.isMesh === true) {\n object.getVertexPosition(i2, _vector$b);\n } else {\n _vector$b.fromBufferAttribute(positionAttribute, i2);\n }\n _vector$b.applyMatrix4(object.matrixWorld);\n this.expandByPoint(_vector$b);\n }\n } else {\n if (object.boundingBox !== void 0) {\n if (object.boundingBox === null) {\n object.computeBoundingBox();\n }\n _box$4.copy(object.boundingBox);\n } else {\n if (geometry.boundingBox === null) {\n geometry.computeBoundingBox();\n }\n _box$4.copy(geometry.boundingBox);\n }\n _box$4.applyMatrix4(object.matrixWorld);\n this.union(_box$4);\n }\n }\n const children = object.children;\n for (let i2 = 0, l = children.length; i2 < l; i2++) {\n this.expandByObject(children[i2], precise);\n }\n return this;\n }\n /**\n * Returns `true` if the given point lies within or on the boundaries of this box.\n *\n * @param {Vector3} point - The point to test.\n * @return {boolean} Whether the bounding box contains the given point or not.\n */\n containsPoint(point) {\n return point.x >= this.min.x && point.x <= this.max.x && point.y >= this.min.y && point.y <= this.max.y && point.z >= this.min.z && point.z <= this.max.z;\n }\n /**\n * Returns `true` if this bounding box includes the entirety of the given bounding box.\n * If this box and the given one are identical, this function also returns `true`.\n *\n * @param {Box3} box - The bounding box to test.\n * @return {boolean} Whether the bounding box contains the given bounding box or not.\n */\n containsBox(box) {\n return this.min.x <= box.min.x && box.max.x <= this.max.x && this.min.y <= box.min.y && box.max.y <= this.max.y && this.min.z <= box.min.z && box.max.z <= this.max.z;\n }\n /**\n * Returns a point as a proportion of this box\'s width, height and depth.\n *\n * @param {Vector3} point - A point in 3D space.\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} A point as a proportion of this box\'s width, height and depth.\n */\n getParameter(point, target) {\n return target.set(\n (point.x - this.min.x) / (this.max.x - this.min.x),\n (point.y - this.min.y) / (this.max.y - this.min.y),\n (point.z - this.min.z) / (this.max.z - this.min.z)\n );\n }\n /**\n * Returns `true` if the given bounding box intersects with this bounding box.\n *\n * @param {Box3} box - The bounding box to test.\n * @return {boolean} Whether the given bounding box intersects with this bounding box.\n */\n intersectsBox(box) {\n return box.max.x >= this.min.x && box.min.x <= this.max.x && box.max.y >= this.min.y && box.min.y <= this.max.y && box.max.z >= this.min.z && box.min.z <= this.max.z;\n }\n /**\n * Returns `true` if the given bounding sphere intersects with this bounding box.\n *\n * @param {Sphere} sphere - The bounding sphere to test.\n * @return {boolean} Whether the given bounding sphere intersects with this bounding box.\n */\n intersectsSphere(sphere) {\n this.clampPoint(sphere.center, _vector$b);\n return _vector$b.distanceToSquared(sphere.center) <= sphere.radius * sphere.radius;\n }\n /**\n * Returns `true` if the given plane intersects with this bounding box.\n *\n * @param {Plane} plane - The plane to test.\n * @return {boolean} Whether the given plane intersects with this bounding box.\n */\n intersectsPlane(plane) {\n let min, max2;\n if (plane.normal.x > 0) {\n min = plane.normal.x * this.min.x;\n max2 = plane.normal.x * this.max.x;\n } else {\n min = plane.normal.x * this.max.x;\n max2 = plane.normal.x * this.min.x;\n }\n if (plane.normal.y > 0) {\n min += plane.normal.y * this.min.y;\n max2 += plane.normal.y * this.max.y;\n } else {\n min += plane.normal.y * this.max.y;\n max2 += plane.normal.y * this.min.y;\n }\n if (plane.normal.z > 0) {\n min += plane.normal.z * this.min.z;\n max2 += plane.normal.z * this.max.z;\n } else {\n min += plane.normal.z * this.max.z;\n max2 += plane.normal.z * this.min.z;\n }\n return min <= -plane.constant && max2 >= -plane.constant;\n }\n /**\n * Returns `true` if the given triangle intersects with this bounding box.\n *\n * @param {Triangle} triangle - The triangle to test.\n * @return {boolean} Whether the given triangle intersects with this bounding box.\n */\n intersectsTriangle(triangle) {\n if (this.isEmpty()) {\n return false;\n }\n this.getCenter(_center);\n _extents.subVectors(this.max, _center);\n _v0$2.subVectors(triangle.a, _center);\n _v1$7.subVectors(triangle.b, _center);\n _v2$4.subVectors(triangle.c, _center);\n _f0.subVectors(_v1$7, _v0$2);\n _f1.subVectors(_v2$4, _v1$7);\n _f2.subVectors(_v0$2, _v2$4);\n let axes = [\n 0,\n -_f0.z,\n _f0.y,\n 0,\n -_f1.z,\n _f1.y,\n 0,\n -_f2.z,\n _f2.y,\n _f0.z,\n 0,\n -_f0.x,\n _f1.z,\n 0,\n -_f1.x,\n _f2.z,\n 0,\n -_f2.x,\n -_f0.y,\n _f0.x,\n 0,\n -_f1.y,\n _f1.x,\n 0,\n -_f2.y,\n _f2.x,\n 0\n ];\n if (!satForAxes(axes, _v0$2, _v1$7, _v2$4, _extents)) {\n return false;\n }\n axes = [1, 0, 0, 0, 1, 0, 0, 0, 1];\n if (!satForAxes(axes, _v0$2, _v1$7, _v2$4, _extents)) {\n return false;\n }\n _triangleNormal.crossVectors(_f0, _f1);\n axes = [_triangleNormal.x, _triangleNormal.y, _triangleNormal.z];\n return satForAxes(axes, _v0$2, _v1$7, _v2$4, _extents);\n }\n /**\n * Clamps the given point within the bounds of this box.\n *\n * @param {Vector3} point - The point to clamp.\n * @param {Vector3} target - The target vector that is used to store the method\'s result.\n * @return {Vector3} The clamped point.\n */\n clampPoint(point, target) {\n return target.copy(point).clamp(this.min, this.max);\n }\n /**\n * Returns the euclidean distance from any edge of this box to the specified point. If\n * the given point lies inside of this box, the distance will be `0`.\n *\n * @param {Vector3} point - The point to compute the distance to.\n * @return {number} The euclidean distance.\n */\n distanceToPoint(point) {\n return this.clampPoint(point, _vector$b).distanceTo(point);\n }\n /**\n * Returns a bounding sphere that encloses this bounding box.\n *\n * @param {Sphere} target - The target sphere that is used to store the method\'s result.\n * @return {Sphere} The bounding sphere that encloses this bounding box.\n */\n getBoundingSphere(target) {\n if (this.isEmpty()) {\n target.makeEmpty();\n } else {\n this.getCenter(target.center);\n target.radius = this.getSize(_vector$b).length() * 0.5;\n }\n return target;\n }\n /**\n * Computes the intersection of this bounding box and the given one, setting the upper\n * bound of this box to the lesser of the two boxes\' upper bounds and the\n * lower bound of this box to the greater of the two boxes\' lower bounds. If\n * there\'s no overlap, makes this box empty.\n *\n * @param {Box3} box - The bounding box to intersect with.\n * @return {Box3} A reference to this bounding box.\n */\n intersect(box) {\n this.min.max(box.min);\n this.max.min(box.max);\n if (this.isEmpty()) this.makeEmpty();\n return this;\n }\n /**\n * Computes the union of this box and another and the given one, setting the upper\n * bound of this box to the greater of the two boxes\' upper bounds and the\n * lower bound of this box to the lesser of the two boxes\' lower bounds.\n *\n * @param {Box3} box - The bounding box that will be unioned with this instance.\n * @return {Box3} A reference to this bounding box.\n */\n union(box) {\n this.min.min(box.min);\n this.max.max(box.max);\n return this;\n }\n /**\n * Transforms this bounding box by the given 4x4 transformation matrix.\n *\n * @param {Matrix4} matrix - The transformation matrix.\n * @return {Box3} A reference to this bounding box.\n */\n applyMatrix4(matrix) {\n if (this.isEmpty()) return this;\n _points[0].set(this.min.x, this.min.y, this.min.z).applyMatrix4(matrix);\n _points[1].set(this.min.x, this.min.y, this.max.z).applyMatrix4(matrix);\n _points[2].set(this.min.x, this.max.y, this.min.z).applyMatrix4(matrix);\n _points[3].set(this.min.x, this.max.y, this.max.z).applyMatrix4(matrix);\n _points[4].set(this.max.x, this.min.y, this.min.z).applyMatrix4(matrix);\n _points[5].set(this.max.x, this.min.y, this.max.z).applyMatrix4(matrix);\n _points[6].set(this.max.x, this.max.y, this.min.z).applyMatrix4(matrix);\n _points[7].set(this.max.x, this.max.y, this.max.z).applyMatrix4(matrix);\n this.setFromPoints(_points);\n return this;\n }\n /**\n * Adds the given offset to both the upper and lower bounds of this bounding box,\n * effectively moving it in 3D space.\n *\n * @param {Vector3} offset - The offset that should be used to translate the bounding box.\n * @return {Box3} A reference to this bounding box.\n */\n translate(offset) {\n this.min.add(offset);\n this.max.add(offset);\n return this;\n }\n /**\n * Returns `true` if this bounding box is equal with the given one.\n *\n * @param {Box3} box - The box to test for equality.\n * @return {boolean} Whether this bounding box is equal with the given one.\n */\n equals(box) {\n return box.min.equals(this.min) && box.max.equals(this.max);\n }\n /**\n * Returns a serialized structure of the bounding box.\n *\n * @return {Object} Serialized structure with fields representing the object state.\n */\n toJSON() {\n return {\n min: this.min.toArray(),\n max: this.max.toArray()\n };\n }\n /**\n * Returns a serialized structure of the bounding box.\n *\n * @param {Object} json - The serialized json to set the box from.\n * @return {Box3} A reference to this bounding box.\n */\n fromJSON(json) {\n this.min.fromArray(json.min);\n this.max.fromArray(json.max);\n return this;\n }\n }\n const _points = [\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3(),\n /* @__PURE__ */ new Vector3()\n ];\n const _vector$b = /* @__PURE__ */ new Vector3();\n const _box$4 = /* @__PURE__ */ new Box3();\n const _v0$2 = /* @__PURE__ */ new Vector3();\n const _v1$7 = /* @__PURE__ */ new Vector3();\n const _v2$4 = /* @__PURE__ */ new Vector3();\n const _f0 = /* @__PURE__ */ new Vector3();\n const _f1 = /* @__PURE__ */ new Vector3();\n const _f2 = /* @__PURE__ */ new Vector3();\n const _center = /* @__PURE__ */ new Vector3();\n const _extents = /* @__PURE__ */ new Vector3();\n const _triangleNormal = /* @__PURE__ */ new Vector3();\n const _testAxis = /* @__PURE__ */ new Vector3();\n function satForAxes(axes, v0, v1, v2, extents) {\n for (let i2 = 0, j = axes.length - 3; i2 <= j; i2 += 3) {\n _testAxis.fromArray(axes, i2);\n const r = extents.x * Math.abs(_testAxis.x) + extents.y * Math.abs(_testAxis.y) + extents.z * Math.abs(_testAxis.z);\n const p0 = v0.dot(_testAxis);\n const p1 = v1.dot(_testAxis);\n const p2 = v2.dot(_testAxis);\n if (Math.max(-Math.max(p0, p1, p2), Math.min(p0, p1, p2)) > r) {\n return false;\n }\n }\n return true;\n }\n const _colorKeywords = {\n "aliceblue": 15792383,\n "antiquewhite": 16444375,\n "aqua": 65535,\n "aquamarine": 8388564,\n "azure": 15794175,\n "beige": 16119260,\n "bisque": 16770244,\n "black": 0,\n "blanchedalmond": 16772045,\n "blue": 255,\n "blueviolet": 9055202,\n "brown": 10824234,\n "burlywood": 14596231,\n "cadetblue": 6266528,\n "chartreuse": 8388352,\n "chocolate": 13789470,\n "coral": 16744272,\n "cornflowerblue": 6591981,\n "cornsilk": 16775388,\n "crimson": 14423100,\n "cyan": 65535,\n "darkblue": 139,\n "darkcyan": 35723,\n "darkgoldenrod": 12092939,\n "darkgray": 11119017,\n "darkgreen": 25600,\n "darkgrey": 11119017,\n "darkkhaki": 12433259,\n "darkmagenta": 9109643,\n "darkolivegreen": 5597999,\n "darkorange": 16747520,\n "darkorchid": 10040012,\n "darkred": 9109504,\n "darksalmon": 15308410,\n "darkseagreen": 9419919,\n "darkslateblue": 4734347,\n "darkslategray": 3100495,\n "darkslategrey": 3100495,\n "darkturquoise": 52945,\n "darkviolet": 9699539,\n "deeppink": 16716947,\n "deepskyblue": 49151,\n "dimgray": 6908265,\n "dimgrey": 6908265,\n "dodgerblue": 2003199,\n "firebrick": 11674146,\n "floralwhite": 16775920,\n "forestgreen": 2263842,\n "fuchsia": 16711935,\n "gainsboro": 14474460,\n "ghostwhite": 16316671,\n "gold": 16766720,\n "goldenrod": 14329120,\n "gray": 8421504,\n "green": 32768,\n "greenyellow": 11403055,\n "grey": 8421504,\n "honeydew": 15794160,\n "hotpink": 16738740,\n "indianred": 13458524,\n "indigo": 4915330,\n "ivory": 16777200,\n "khaki": 15787660,\n "lavender": 15132410,\n "lavenderblush": 16773365,\n "lawngreen": 8190976,\n "lemonchiffon": 16775885,\n "lightblue": 11393254,\n "lightcoral": 15761536,\n "lightcyan": 14745599,\n "lightgoldenrodyellow": 16448210,\n "lightgray": 13882323,\n "lightgreen": 9498256,\n "lightgrey": 13882323,\n "lightpink": 16758465,\n "lightsalmon": 16752762,\n "lightseagreen": 2142890,\n "lightskyblue": 8900346,\n "lightslategray": 7833753,\n "lightslategrey": 7833753,\n "lightsteelblue": 11584734,\n "lightyellow": 16777184,\n "lime": 65280,\n "limegreen": 3329330,\n "linen": 16445670,\n "magenta": 16711935,\n "maroon": 8388608,\n "mediumaquamarine": 6737322,\n "mediumblue": 205,\n "mediumorchid": 12211667,\n "mediumpurple": 9662683,\n "mediumseagreen": 3978097,\n "mediumslateblue": 8087790,\n "mediumspringgreen": 64154,\n "mediumturquoise": 4772300,\n "mediumvioletred": 13047173,\n "midnightblue": 1644912,\n "mintcream": 16121850,\n "mistyrose": 16770273,\n "moccasin": 16770229,\n "navajowhite": 16768685,\n "navy": 128,\n "oldlace": 16643558,\n "olive": 8421376,\n "olivedrab": 7048739,\n "orange": 16753920,\n "orangered": 16729344,\n "orchid": 14315734,\n "palegoldenrod": 15657130,\n "palegreen": 10025880,\n "paleturquoise": 11529966,\n "palevioletred": 14381203,\n "papayawhip": 16773077,\n "peachpuff": 16767673,\n "peru": 13468991,\n "pink": 16761035,\n "plum": 14524637,\n "powderblue": 11591910,\n "purple": 8388736,\n "rebeccapurple": 6697881,\n "red": 16711680,\n "rosybrown": 12357519,\n "royalblue": 4286945,\n "saddlebrown": 9127187,\n "salmon": 16416882,\n "sandybrown": 16032864,\n "seagreen": 3050327,\n "seashell": 16774638,\n "sienna": 10506797,\n "silver": 12632256,\n "skyblue": 8900331,\n "slateblue": 6970061,\n "slategray": 7372944,\n "slategrey": 7372944,\n "snow": 16775930,\n "springgreen": 65407,\n "steelblue": 4620980,\n "tan": 13808780,\n "teal": 32896,\n "thistle": 14204888,\n "tomato": 16737095,\n "turquoise": 4251856,\n "violet": 15631086,\n "wheat": 16113331,\n "white": 16777215,\n "whitesmoke": 16119285,\n "yellow": 16776960,\n "yellowgreen": 10145074\n };\n const _hslA = { h: 0, s: 0, l: 0 };\n const _hslB = { h: 0, s: 0, l: 0 };\n function hue2rgb(p, q, t) {\n if (t < 0) t += 1;\n if (t > 1) t -= 1;\n if (t < 1 / 6) return p + (q - p) * 6 * t;\n if (t < 1 / 2) return q;\n if (t < 2 / 3) return p + (q - p) * 6 * (2 / 3 - t);\n return p;\n }\n class Color {\n /**\n * Constructs a new color.\n *\n * Note that standard method of specifying color in three.js is with a hexadecimal triplet,\n * and that method is used throughout the rest of the documentation.\n *\n * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n * @param {number} [g] - The green component.\n * @param {number} [b] - The blue component.\n */\n constructor(r, g, b) {\n this.isColor = true;\n this.r = 1;\n this.g = 1;\n this.b = 1;\n return this.set(r, g, b);\n }\n /**\n * Sets the colors\'s components from the given values.\n *\n * @param {(number|string|Color)} [r] - The red component of the color. If `g` and `b` are\n * not provided, it can be hexadecimal triplet, a CSS-style string or another `Color` instance.\n * @param {number} [g] - The green component.\n * @param {number} [b] - The blue component.\n * @return {Color} A reference to this color.\n */\n set(r, g, b) {\n if (g === void 0 && b === void 0) {\n const value = r;\n if (value && value.isColor) {\n this.copy(value);\n } else if (typeof value === "number") {\n this.setHex(value);\n } else if (typeof value === "string") {\n this.setStyle(value);\n }\n } else {\n this.setRGB(r, g, b);\n }\n return this;\n }\n /**\n * Sets the colors\'s components to the given scalar value.\n *\n * @param {number} scalar - The scalar value.\n * @return {Color} A reference to this color.\n */\n setScalar(scalar) {\n this.r = scalar;\n this.g = scalar;\n this.b = scalar;\n return this;\n }\n /**\n * Sets this color from a hexadecimal value.\n *\n * @param {number} hex - The hexadecimal value.\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setHex(hex, colorSpace = SRGBColorSpace) {\n hex = Math.floor(hex);\n this.r = (hex >> 16 & 255) / 255;\n this.g = (hex >> 8 & 255) / 255;\n this.b = (hex & 255) / 255;\n ColorManagement.colorSpaceToWorking(this, colorSpace);\n return this;\n }\n /**\n * Sets this color from RGB values.\n *\n * @param {number} r - Red channel value between `0.0` and `1.0`.\n * @param {number} g - Green channel value between `0.0` and `1.0`.\n * @param {number} b - Blue channel value between `0.0` and `1.0`.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setRGB(r, g, b, colorSpace = ColorManagement.workingColorSpace) {\n this.r = r;\n this.g = g;\n this.b = b;\n ColorManagement.colorSpaceToWorking(this, colorSpace);\n return this;\n }\n /**\n * Sets this color from RGB values.\n *\n * @param {number} h - Hue value between `0.0` and `1.0`.\n * @param {number} s - Saturation value between `0.0` and `1.0`.\n * @param {number} l - Lightness value between `0.0` and `1.0`.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setHSL(h, s, l, colorSpace = ColorManagement.workingColorSpace) {\n h = euclideanModulo(h, 1);\n s = clamp(s, 0, 1);\n l = clamp(l, 0, 1);\n if (s === 0) {\n this.r = this.g = this.b = l;\n } else {\n const p = l <= 0.5 ? l * (1 + s) : l + s - l * s;\n const q = 2 * l - p;\n this.r = hue2rgb(q, p, h + 1 / 3);\n this.g = hue2rgb(q, p, h);\n this.b = hue2rgb(q, p, h - 1 / 3);\n }\n ColorManagement.colorSpaceToWorking(this, colorSpace);\n return this;\n }\n /**\n * Sets this color from a CSS-style string. For example, `rgb(250, 0,0)`,\n * `rgb(100%, 0%, 0%)`, `hsl(0, 100%, 50%)`, `#ff0000`, `#f00`, or `red` ( or\n * any [X11 color name]{@link https://en.wikipedia.org/wiki/X11_color_names#Color_name_chart} -\n * all 140 color names are supported).\n *\n * @param {string} style - Color as a CSS-style string.\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setStyle(style, colorSpace = SRGBColorSpace) {\n function handleAlpha(string) {\n if (string === void 0) return;\n if (parseFloat(string) < 1) {\n console.warn("THREE.Color: Alpha component of " + style + " will be ignored.");\n }\n }\n let m;\n if (m = /^(\\w+)\\(([^\\)]*)\\)/.exec(style)) {\n let color;\n const name = m[1];\n const components = m[2];\n switch (name) {\n case "rgb":\n case "rgba":\n if (color = /^\\s*(\\d+)\\s*,\\s*(\\d+)\\s*,\\s*(\\d+)\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec(components)) {\n handleAlpha(color[4]);\n return this.setRGB(\n Math.min(255, parseInt(color[1], 10)) / 255,\n Math.min(255, parseInt(color[2], 10)) / 255,\n Math.min(255, parseInt(color[3], 10)) / 255,\n colorSpace\n );\n }\n if (color = /^\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*,\\s*(\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec(components)) {\n handleAlpha(color[4]);\n return this.setRGB(\n Math.min(100, parseInt(color[1], 10)) / 100,\n Math.min(100, parseInt(color[2], 10)) / 100,\n Math.min(100, parseInt(color[3], 10)) / 100,\n colorSpace\n );\n }\n break;\n case "hsl":\n case "hsla":\n if (color = /^\\s*(\\d*\\.?\\d+)\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*,\\s*(\\d*\\.?\\d+)\\%\\s*(?:,\\s*(\\d*\\.?\\d+)\\s*)?$/.exec(components)) {\n handleAlpha(color[4]);\n return this.setHSL(\n parseFloat(color[1]) / 360,\n parseFloat(color[2]) / 100,\n parseFloat(color[3]) / 100,\n colorSpace\n );\n }\n break;\n default:\n console.warn("THREE.Color: Unknown color model " + style);\n }\n } else if (m = /^\\#([A-Fa-f\\d]+)$/.exec(style)) {\n const hex = m[1];\n const size = hex.length;\n if (size === 3) {\n return this.setRGB(\n parseInt(hex.charAt(0), 16) / 15,\n parseInt(hex.charAt(1), 16) / 15,\n parseInt(hex.charAt(2), 16) / 15,\n colorSpace\n );\n } else if (size === 6) {\n return this.setHex(parseInt(hex, 16), colorSpace);\n } else {\n console.warn("THREE.Color: Invalid hex color " + style);\n }\n } else if (style && style.length > 0) {\n return this.setColorName(style, colorSpace);\n }\n return this;\n }\n /**\n * Sets this color from a color name. Faster than {@link Color#setStyle} if\n * you don\'t need the other CSS-style formats.\n *\n * For convenience, the list of names is exposed in `Color.NAMES` as a hash.\n * ```js\n * Color.NAMES.aliceblue // returns 0xF0F8FF\n * ```\n *\n * @param {string} style - The color name.\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {Color} A reference to this color.\n */\n setColorName(style, colorSpace = SRGBColorSpace) {\n const hex = _colorKeywords[style.toLowerCase()];\n if (hex !== void 0) {\n this.setHex(hex, colorSpace);\n } else {\n console.warn("THREE.Color: Unknown color " + style);\n }\n return this;\n }\n /**\n * Returns a new color with copied values from this instance.\n *\n * @return {Color} A clone of this instance.\n */\n clone() {\n return new this.constructor(this.r, this.g, this.b);\n }\n /**\n * Copies the values of the given color to this instance.\n *\n * @param {Color} color - The color to copy.\n * @return {Color} A reference to this color.\n */\n copy(color) {\n this.r = color.r;\n this.g = color.g;\n this.b = color.b;\n return this;\n }\n /**\n * Copies the given color into this color, and then converts this color from\n * `SRGBColorSpace` to `LinearSRGBColorSpace`.\n *\n * @param {Color} color - The color to copy/convert.\n * @return {Color} A reference to this color.\n */\n copySRGBToLinear(color) {\n this.r = SRGBToLinear(color.r);\n this.g = SRGBToLinear(color.g);\n this.b = SRGBToLinear(color.b);\n return this;\n }\n /**\n * Copies the given color into this color, and then converts this color from\n * `LinearSRGBColorSpace` to `SRGBColorSpace`.\n *\n * @param {Color} color - The color to copy/convert.\n * @return {Color} A reference to this color.\n */\n copyLinearToSRGB(color) {\n this.r = LinearToSRGB(color.r);\n this.g = LinearToSRGB(color.g);\n this.b = LinearToSRGB(color.b);\n return this;\n }\n /**\n * Converts this color from `SRGBColorSpace` to `LinearSRGBColorSpace`.\n *\n * @return {Color} A reference to this color.\n */\n convertSRGBToLinear() {\n this.copySRGBToLinear(this);\n return this;\n }\n /**\n * Converts this color from `LinearSRGBColorSpace` to `SRGBColorSpace`.\n *\n * @return {Color} A reference to this color.\n */\n convertLinearToSRGB() {\n this.copyLinearToSRGB(this);\n return this;\n }\n /**\n * Returns the hexadecimal value of this color.\n *\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {number} The hexadecimal value.\n */\n getHex(colorSpace = SRGBColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n return Math.round(clamp(_color.r * 255, 0, 255)) * 65536 + Math.round(clamp(_color.g * 255, 0, 255)) * 256 + Math.round(clamp(_color.b * 255, 0, 255));\n }\n /**\n * Returns the hexadecimal value of this color as a string (for example, \'FFFFFF\').\n *\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {string} The hexadecimal value as a string.\n */\n getHexString(colorSpace = SRGBColorSpace) {\n return ("000000" + this.getHex(colorSpace).toString(16)).slice(-6);\n }\n /**\n * Converts the colors RGB values into the HSL format and stores them into the\n * given target object.\n *\n * @param {{h:number,s:number,l:number}} target - The target object that is used to store the method\'s result.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {{h:number,s:number,l:number}} The HSL representation of this color.\n */\n getHSL(target, colorSpace = ColorManagement.workingColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n const r = _color.r, g = _color.g, b = _color.b;\n const max2 = Math.max(r, g, b);\n const min = Math.min(r, g, b);\n let hue, saturation;\n const lightness = (min + max2) / 2;\n if (min === max2) {\n hue = 0;\n saturation = 0;\n } else {\n const delta = max2 - min;\n saturation = lightness <= 0.5 ? delta / (max2 + min) : delta / (2 - max2 - min);\n switch (max2) {\n case r:\n hue = (g - b) / delta + (g < b ? 6 : 0);\n break;\n case g:\n hue = (b - r) / delta + 2;\n break;\n case b:\n hue = (r - g) / delta + 4;\n break;\n }\n hue /= 6;\n }\n target.h = hue;\n target.s = saturation;\n target.l = lightness;\n return target;\n }\n /**\n * Returns the RGB values of this color and stores them into the given target object.\n *\n * @param {Color} target - The target color that is used to store the method\'s result.\n * @param {string} [colorSpace=ColorManagement.workingColorSpace] - The color space.\n * @return {Color} The RGB representation of this color.\n */\n getRGB(target, colorSpace = ColorManagement.workingColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n target.r = _color.r;\n target.g = _color.g;\n target.b = _color.b;\n return target;\n }\n /**\n * Returns the value of this color as a CSS style string. Example: `rgb(255,0,0)`.\n *\n * @param {string} [colorSpace=SRGBColorSpace] - The color space.\n * @return {string} The CSS representation of this color.\n */\n getStyle(colorSpace = SRGBColorSpace) {\n ColorManagement.workingToColorSpace(_color.copy(this), colorSpace);\n const r = _color.r, g = _color.g, b = _color.b;\n if (colorSpace !== SRGBColorSpace) {\n return `color(${colorSpace} ${r.toFixed(3)} ${g.toFixed(3)} ${b.toFixed(3)})`;\n }\n return `rgb(${Math.round(r * 255)},${Math.round(g * 255)},${Math.round(b * 255)})`;\n }\n /**\n * Adds the given HSL values to this color\'s values.\n * Internally, this converts the color\'s RGB values to HSL, adds HSL\n * and then converts the color back to RGB.\n *\n * @param {number} h - Hue value between `0.0` and `1.0`.\n * @param {number} s - Saturation value between `0.0` and `1.0`.\n * @param {number} l - Lightness value between `0.0` and `1.0`.\n * @return {Color} A reference to this color.\n */\n offsetHSL(h, s, l) {\n this.getHSL(_hslA);\n return this.setHSL(_hslA.h + h, _hslA.s + s, _hslA.l + l);\n }\n /**\n * Adds the RGB values of the given color to the RGB values of this color.\n *\n * @param {Color} color - The color to add.\n * @return {Color} A reference to this color.\n */\n add(color) {\n this.r += color.r;\n this.g += color.g;\n this.b += color.b;\n return this;\n }\n /**\n * Adds the RGB values of the given colors and stores the result in this instance.\n *\n * @param {Color} color1 - The first color.\n * @param {Color} color2 - The second color.\n * @return {Color} A reference to this color.\n */\n addColors(color1, color2) {\n this.r = color1.r + color2.r;\n this.g = color1.g + color2.g;\n this.b = color1.b + color2.b;\n return this;\n }\n /**\n * Adds the given scalar value to the RGB values of this color.\n *\n * @param {number} s - The scalar to add.\n * @return {Color} A reference to this color.\n */\n addScalar(s) {\n this.r += s;\n this.g += s;\n this.b += s;\n return this;\n }\n /**\n * Subtracts the RGB values of the given color from the RGB values of this color.\n *\n * @param {Color} color - The color to subtract.\n * @return {Color} A reference to this color.\n */\n sub(color) {\n this.r = Math.max(0, this.r - color.r);\n this.g = Math.max(0, this.g - color.g);\n this.b = Math.max(0, this.b - color.b);\n return this;\n }\n /**\n * Multiplies the RGB values of the given color with the RGB values of this color.\n *\n * @param {Color} color - The color to multiply.\n * @return {Color} A reference to this color.\n */\n multiply(color) {\n this.r *= color.r;\n this.g *= color.g;\n this.b *= color.b;\n return this;\n }\n /**\n * Multiplies the given scalar value with the RGB values of this color.\n *\n * @param {number} s - The scalar to multiply.\n * @return {Color} A reference to this color.\n */\n multiplyScalar(s) {\n this.r *= s;\n this.g *= s;\n this.b *= s;\n return this;\n }\n /**\n * Linearly interpolates this color\'s RGB values toward the RGB values of the\n * given color. The alpha argument can be thought of as the ratio between\n * the two colors, where `0.0` is this color and `1.0` is the first argument.\n *\n * @param {Color} color - The color to converge on.\n * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n * @return {Color} A reference to this color.\n */\n lerp(color, alpha) {\n this.r += (color.r - this.r) * alpha;\n this.g += (color.g - this.g) * alpha;\n this.b += (color.b - this.b) * alpha;\n return this;\n }\n /**\n * Linearly interpolates between the given colors and stores the result in this instance.\n * The alpha argument can be thought of as the ratio between the two colors, where `0.0`\n * is the first and `1.0` is the second color.\n *\n * @param {Color} color1 - The first color.\n * @param {Color} color2 - The second color.\n * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n * @return {Color} A reference to this color.\n */\n lerpColors(color1, color2, alpha) {\n this.r = color1.r + (color2.r - color1.r) * alpha;\n this.g = color1.g + (color2.g - color1.g) * alpha;\n this.b = color1.b + (color2.b - color1.b) * alpha;\n return this;\n }\n /**\n * Linearly interpolates this color\'s HSL values toward the HSL values of the\n * given color. It differs from {@link Color#lerp} by not interpolating straight\n * from one color to the other, but instead going through all the hues in between\n * those two colors. The alpha argument can be thought of as the ratio between\n * the two colors, where 0.0 is this color and 1.0 is the first argument.\n *\n * @param {Color} color - The color to converge on.\n * @param {number} alpha - The interpolation factor in the closed interval `[0,1]`.\n * @return {Color} A reference to this color.\n */\n lerpHSL(color, alpha) {\n this.getHSL(_hslA);\n color.getHSL(_hslB);\n const h = lerp(_hslA.h, _hslB.h, alpha);\n const s = lerp(_hslA.s, _hslB.s, alpha);\n const l = lerp(_hslA.l, _hslB.l, alpha);\n this.setHSL(h, s, l);\n return this;\n }\n /**\n * Sets the color\'s RGB components from the given 3D vector.\n *\n * @param {Vector3} v - The vector to set.\n * @return {Color} A reference to this color.\n */\n setFromVector3(v) {\n this.r = v.x;\n this.g = v.y;\n this.b = v.z;\n return this;\n }\n /**\n * Transforms this color with the given 3x3 matrix.\n *\n * @param {Matrix3} m - The matrix.\n * @return {Color} A reference to this color.\n */\n applyMatrix3(m) {\n const r = this.r, g = this.g, b = this.b;\n const e = m.elements;\n this.r = e[0] * r + e[3] * g + e[6] * b;\n this.g = e[1] * r + e[4] * g + e[7] * b;\n this.b = e[2] * r + e[5] * g + e[8] * b;\n return this;\n }\n /**\n * Returns `true` if this color is equal with the given one.\n *\n * @param {Color} c - The color to test for equality.\n * @return {boolean} Whether this bounding color is equal with the given one.\n */\n equals(c) {\n return c.r === this.r && c.g === this.g && c.b === this.b;\n }\n /**\n * Sets this color\'s RGB components from the given array.\n *\n * @param {Array} array - An array holding the RGB values.\n * @param {number} [offset=0] - The offset into the array.\n * @return {Color} A reference to this color.\n */\n fromArray(array, offset = 0) {\n this.r = array[offset];\n this.g = array[offset + 1];\n this.b = array[offset + 2];\n return this;\n }\n /**\n * Writes the RGB components of this color to the given array. If no array is provided,\n * the method returns a new instance.\n *\n * @param {Array} [array=[]] - The target array holding the color components.\n * @param {number} [offset=0] - Index of the first element in the array.\n * @return {Array} The color components.\n */\n toArray(array = [], offset = 0) {\n array[offset] = this.r;\n array[offset + 1] = this.g;\n array[offset + 2] = this.b;\n return array;\n }\n /**\n * Sets the components of this color from the given buffer attribute.\n *\n * @param {BufferAttribute} attribute - The buffer attribute holding color data.\n * @param {number} index - The index into the attribute.\n * @return {Color} A reference to this color.\n */\n fromBufferAttribute(attribute, index) {\n this.r = attribute.getX(index);\n this.g = attribute.getY(index);\n this.b = attribute.getZ(index);\n return this;\n }\n /**\n * This methods defines the serialization result of this class. Returns the color\n * as a hexadecimal value.\n *\n * @return {number} The hexadecimal value.\n */\n toJSON() {\n return this.getHex();\n }\n *[Symbol.iterator]() {\n yield this.r;\n yield this.g;\n yield this.b;\n }\n }\n const _color = /* @__PURE__ */ new Color();\n Color.NAMES = _colorKeywords;\n if (typeof __THREE_DEVTOOLS__ !== "undefined") {\n __THREE_DEVTOOLS__.dispatchEvent(new CustomEvent("register", { detail: {\n revision: REVISION\n } }));\n }\n if (typeof window !== "undefined") {\n if (window.__THREE__) {\n console.warn("WARNING: Multiple instances of Three.js being imported.");\n } else {\n window.__THREE__ = REVISION;\n }\n }\n const LN_SCALE_MIN = -12;\n const LN_SCALE_MAX = 9;\n const LN_SCALE_ZERO = -30;\n const SCALE_ZERO = Math.exp(LN_SCALE_ZERO);\n const SPLAT_TEX_WIDTH_BITS = 11;\n const SPLAT_TEX_HEIGHT_BITS = 11;\n const SPLAT_TEX_WIDTH = 1 << SPLAT_TEX_WIDTH_BITS;\n const SPLAT_TEX_HEIGHT = 1 << SPLAT_TEX_HEIGHT_BITS;\n const SPLAT_TEX_MIN_HEIGHT = 1;\n var SplatFileType = /* @__PURE__ */ ((SplatFileType2) => {\n SplatFileType2["PLY"] = "ply";\n SplatFileType2["SPZ"] = "spz";\n SplatFileType2["SPLAT"] = "splat";\n SplatFileType2["KSPLAT"] = "ksplat";\n SplatFileType2["PCSOGS"] = "pcsogs";\n SplatFileType2["PCSOGSZIP"] = "pcsogszip";\n SplatFileType2["RAD"] = "rad";\n return SplatFileType2;\n })(SplatFileType || {});\n function unindentLines(s) {\n var _a2;\n let seenNonEmpty = false;\n const lines = s.split("\\n").map((line) => {\n const trimmedLine = line.trimEnd();\n if (seenNonEmpty) {\n return trimmedLine;\n }\n if (trimmedLine.length > 0) {\n seenNonEmpty = true;\n return trimmedLine;\n }\n return null;\n }).filter((line) => line != null);\n while (lines.length > 0 && lines[lines.length - 1].length === 0) {\n lines.pop();\n }\n if (lines.length === 0) {\n return [];\n }\n const indent = (_a2 = lines[0].match(/^\\s*/)) == null ? void 0 : _a2[0];\n if (!indent) {\n return lines;\n }\n const regex = new RegExp(`^${indent}`);\n return lines.map((line) => line.replace(regex, ""));\n }\n function unindent(s) {\n return unindentLines(s).join("\\n");\n }\n const f32buffer = new Float32Array(1);\n const u32buffer = new Uint32Array(f32buffer.buffer);\n const supportsFloat16Array = "Float16Array" in globalThis;\n const f16buffer = supportsFloat16Array ? new globalThis["Float16Array"](1) : null;\n const u16buffer = new Uint16Array(f16buffer == null ? void 0 : f16buffer.buffer);\n function normalize(vec) {\n const norm = Math.sqrt(vec.reduce((acc, v) => acc + v * v, 0));\n return vec.map((v) => v / norm);\n }\n const toHalf = supportsFloat16Array ? toHalfNative : toHalfJS;\n const fromHalf = supportsFloat16Array ? fromHalfNative : fromHalfJS;\n function toHalfNative(f) {\n f16buffer[0] = f;\n return u16buffer[0];\n }\n function toHalfJS(f) {\n f32buffer[0] = f;\n const bits2 = u32buffer[0];\n const sign = bits2 >> 31 & 1;\n const exp = bits2 >> 23 & 255;\n const frac = bits2 & 8388607;\n const halfSign = sign << 15;\n if (exp === 255) {\n if (frac !== 0) {\n return halfSign | 32767;\n }\n return halfSign | 31744;\n }\n const newExp = exp - 127 + 15;\n if (newExp >= 31) {\n return halfSign | 31744;\n }\n if (newExp <= 0) {\n if (newExp < -10) {\n return halfSign;\n }\n const subFrac = (frac | 8388608) >> 1 - newExp + 13;\n return halfSign | subFrac;\n }\n const halfFrac = frac >> 13;\n return halfSign | newExp << 10 | halfFrac;\n }\n function fromHalfNative(u) {\n u16buffer[0] = u;\n return f16buffer[0];\n }\n function fromHalfJS(h) {\n const sign = h >> 15 & 1;\n const exp = h >> 10 & 31;\n const frac = h & 1023;\n let f32bits;\n if (exp === 0) {\n if (frac === 0) {\n f32bits = sign << 31;\n } else {\n let mant = frac;\n let e = -14;\n while ((mant & 1024) === 0) {\n mant <<= 1;\n e--;\n }\n mant &= 1023;\n const newExp = e + 127;\n const newFrac = mant << 13;\n f32bits = sign << 31 | newExp << 23 | newFrac;\n }\n } else if (exp === 31) {\n if (frac === 0) {\n f32bits = sign << 31 | 2139095040;\n } else {\n f32bits = sign << 31 | 2143289344;\n }\n } else {\n const newExp = exp - 15 + 127;\n const newFrac = frac << 13;\n f32bits = sign << 31 | newExp << 23 | newFrac;\n }\n u32buffer[0] = f32bits;\n return f32buffer[0];\n }\n function floatToUint8(v) {\n return Math.max(0, Math.min(255, Math.round(v * 255)));\n }\n function getTransferable(ctx) {\n const buffers = [];\n const seen = /* @__PURE__ */ new Set();\n function traverse(obj) {\n if (obj && typeof obj === "object" && !seen.has(obj)) {\n seen.add(obj);\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n buffers.push(obj.buffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n traverse(ctx);\n return buffers;\n }\n function setPackedSplat(packedSplats, index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b, encoding) {\n const rgbMin = (encoding == null ? void 0 : encoding.rgbMin) ?? 0;\n const rgbMax = (encoding == null ? void 0 : encoding.rgbMax) ?? 1;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8((encoding == null ? void 0 : encoding.lodOpacity) ? 0.5 * opacity : opacity);\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW)\n );\n const uQuatX = uQuat & 255;\n const uQuatY = uQuat >>> 8 & 255;\n const uQuatZ = uQuat >>> 16 & 255;\n const lnScaleMin = (encoding == null ? void 0 : encoding.lnScaleMin) ?? LN_SCALE_MIN;\n const lnScaleMax = (encoding == null ? void 0 : encoding.lnScaleMax) ?? LN_SCALE_MAX;\n const lnScaleScale = 254 / (lnScaleMax - lnScaleMin);\n const uScaleX = scaleX < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleY = scaleY < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleZ = scaleZ < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uCenterX = toHalf(x2);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n const i4 = index * 4;\n packedSplats[i4] = uR | uG << 8 | uB << 16 | uA << 24;\n packedSplats[i4 + 1] = uCenterX | uCenterY << 16;\n packedSplats[i4 + 2] = uCenterZ | uQuatX << 16 | uQuatY << 24;\n packedSplats[i4 + 3] = uScaleX | uScaleY << 8 | uScaleZ << 16 | uQuatZ << 24;\n }\n function setPackedSplatCenter(packedSplats, index, x2, y, z) {\n const uCenterX = toHalf(x2);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n const i4 = index * 4;\n packedSplats[i4 + 1] = uCenterX | uCenterY << 16;\n packedSplats[i4 + 2] = uCenterZ | packedSplats[i4 + 2] & 4294901760;\n }\n function setPackedSplatScales(packedSplats, index, scaleX, scaleY, scaleZ, encoding) {\n const lnScaleMin = (encoding == null ? void 0 : encoding.lnScaleMin) ?? LN_SCALE_MIN;\n const lnScaleMax = (encoding == null ? void 0 : encoding.lnScaleMax) ?? LN_SCALE_MAX;\n const lnScaleScale = 254 / (lnScaleMax - lnScaleMin);\n const uScaleX = scaleX < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleY = scaleY < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const uScaleZ = scaleZ < SCALE_ZERO ? 0 : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1\n )\n );\n const i4 = index * 4;\n packedSplats[i4 + 3] = uScaleX | uScaleY << 8 | uScaleZ << 16 | packedSplats[i4 + 3] & 4278190080;\n }\n const tempQuaternion = new Quaternion();\n function setPackedSplatQuat(packedSplats, index, quatX, quatY, quatZ, quatW) {\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW)\n );\n const uQuatX = uQuat & 255;\n const uQuatY = uQuat >>> 8 & 255;\n const uQuatZ = uQuat >>> 16 & 255;\n const i4 = index * 4;\n packedSplats[i4 + 2] = packedSplats[i4 + 2] & 65535 | uQuatX << 16 | uQuatY << 24;\n packedSplats[i4 + 3] = packedSplats[i4 + 3] & 16777215 | uQuatZ << 24;\n }\n function setPackedSplatRgba(packedSplats, index, r, g, b, a, encoding) {\n const rgbMin = (encoding == null ? void 0 : encoding.rgbMin) ?? 0;\n const rgbMax = (encoding == null ? void 0 : encoding.rgbMax) ?? 1;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8((encoding == null ? void 0 : encoding.lodOpacity) ? 0.5 * a : a);\n const i4 = index * 4;\n packedSplats[i4] = uR | uG << 8 | uB << 16 | uA << 24;\n }\n function setPackedSplatRgb(packedSplats, index, r, g, b, encoding) {\n const rgbMin = (encoding == null ? void 0 : encoding.rgbMin) ?? 0;\n const rgbMax = (encoding == null ? void 0 : encoding.rgbMax) ?? 1;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const i4 = index * 4;\n packedSplats[i4] = uR | uG << 8 | uB << 16 | packedSplats[i4] & 4278190080;\n }\n function setPackedSplatOpacity(packedSplats, index, opacity) {\n const uA = floatToUint8(opacity);\n const i4 = index * 4;\n packedSplats[i4] = packedSplats[i4] & 16777215 | uA << 24;\n }\n new Vector3();\n new Vector3();\n new Color();\n function getTextureSize(numSplats) {\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width))\n );\n const depth = Math.ceil(numSplats / (width * height));\n const maxSplats = width * height * depth;\n return { width, height, depth, maxSplats };\n }\n function computeMaxSplats(numSplats) {\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width))\n );\n const depth = Math.ceil(numSplats / (width * height));\n return width * height * depth;\n }\n unindent(`\n precision highp float;\n\n in vec3 position;\n\n void main() {\n gl_Position = vec4(position.xy, 0.0, 1.0);\n }\n`);\n const tempNormalizedQuaternion = new Quaternion();\n const tempAxis = new Vector3();\n function encodeQuatOctXy88R8(q) {\n const qnorm = tempNormalizedQuaternion.copy(q).normalize();\n if (qnorm.w < 0) {\n qnorm.set(-qnorm.x, -qnorm.y, -qnorm.z, -qnorm.w);\n }\n const theta = 2 * Math.acos(qnorm.w);\n const xyz_norm = Math.sqrt(\n qnorm.x * qnorm.x + qnorm.y * qnorm.y + qnorm.z * qnorm.z\n );\n const axis = xyz_norm < 1e-6 ? tempAxis.set(1, 0, 0) : tempAxis.set(qnorm.x, qnorm.y, qnorm.z).divideScalar(xyz_norm);\n const sum = Math.abs(axis.x) + Math.abs(axis.y) + Math.abs(axis.z);\n let p_x = axis.x / sum;\n let p_y = axis.y / sum;\n if (axis.z < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n const quantU = Math.round(u_f * 255);\n const quantV = Math.round(v_f * 255);\n const angleInt = Math.round(theta * (255 / Math.PI));\n return angleInt << 16 | quantV << 8 | quantU;\n }\n function packSint8Bytes(b0, b1, b22, b3) {\n const clampedB0 = Math.round(Math.max(-127, Math.min(127, b0 * 127)));\n const clampedB1 = Math.round(Math.max(-127, Math.min(127, b1 * 127)));\n const clampedB2 = Math.round(Math.max(-127, Math.min(127, b22 * 127)));\n const clampedB3 = Math.round(Math.max(-127, Math.min(127, b3 * 127)));\n return clampedB0 & 255 | (clampedB1 & 255) << 8 | (clampedB2 & 255) << 16 | (clampedB3 & 255) << 24;\n }\n function encodeSh1Rgb(sh1Array, index, sh1Rgb, encoding) {\n const sh1Max = (encoding == null ? void 0 : encoding.sh1Max) ?? 1;\n const sh1Scale = 63 / sh1Max;\n const base = index * 2;\n for (let i2 = 0; i2 < 9; ++i2) {\n const s = sh1Rgb[i2] * sh1Scale;\n const value = Math.round(Math.max(-63, Math.min(63, s))) & 127;\n const bitStart = i2 * 7;\n const bitEnd = bitStart + 7;\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = value << bitOffset & 4294967295;\n sh1Array[base + wordStart] |= firstWord;\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = value >>> 32 - bitOffset & 4294967295;\n sh1Array[base + wordStart + 1] |= secondWord;\n }\n }\n }\n function encodeSh2Rgb(sh2Array, index, sh2Rgb, encoding) {\n const sh2Max = (encoding == null ? void 0 : encoding.sh2Max) ?? 1;\n const sh2Scale = 1 / sh2Max;\n sh2Array[index * 4 + 0] = packSint8Bytes(\n sh2Rgb[0] * sh2Scale,\n sh2Rgb[1] * sh2Scale,\n sh2Rgb[2] * sh2Scale,\n sh2Rgb[3] * sh2Scale\n );\n sh2Array[index * 4 + 1] = packSint8Bytes(\n sh2Rgb[4] * sh2Scale,\n sh2Rgb[5] * sh2Scale,\n sh2Rgb[6] * sh2Scale,\n sh2Rgb[7] * sh2Scale\n );\n sh2Array[index * 4 + 2] = packSint8Bytes(\n sh2Rgb[8] * sh2Scale,\n sh2Rgb[9] * sh2Scale,\n sh2Rgb[10] * sh2Scale,\n sh2Rgb[11] * sh2Scale\n );\n sh2Array[index * 4 + 3] = packSint8Bytes(\n sh2Rgb[12] * sh2Scale,\n sh2Rgb[13] * sh2Scale,\n sh2Rgb[14] * sh2Scale,\n 0\n );\n }\n function encodeSh3Rgb(sh3Array, index, sh3Rgb, encoding) {\n const sh3Max = (encoding == null ? void 0 : encoding.sh3Max) ?? 1;\n const sh3Scale = 31 / sh3Max;\n const base = index * 4;\n for (let i2 = 0; i2 < 21; ++i2) {\n const s = sh3Rgb[i2] * sh3Scale;\n const value = Math.round(Math.max(-31, Math.min(31, s))) & 63;\n const bitStart = i2 * 6;\n const bitEnd = bitStart + 6;\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = value << bitOffset & 4294967295;\n sh3Array[base + wordStart] |= firstWord;\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = value >>> 32 - bitOffset & 4294967295;\n sh3Array[base + wordStart + 1] |= secondWord;\n }\n }\n }\n function decompressPartialGzip(fileBytes, numBytes) {\n const chunks = [];\n let totalBytes = 0;\n let result = null;\n const gunzip = new Gunzip((data, final) => {\n chunks.push(data);\n totalBytes += data.length;\n if (final || totalBytes >= numBytes) {\n const allBytes = new Uint8Array(totalBytes);\n let offset2 = 0;\n for (const chunk of chunks) {\n allBytes.set(chunk, offset2);\n offset2 += chunk.length;\n }\n result = allBytes.slice(0, numBytes);\n }\n });\n const CHUNK_SIZE = 1024;\n let offset = 0;\n while (result == null && offset < fileBytes.length) {\n const chunk = fileBytes.slice(offset, offset + CHUNK_SIZE);\n gunzip.push(chunk, false);\n offset += CHUNK_SIZE;\n }\n if (result == null) {\n gunzip.push(new Uint8Array(), true);\n if (result == null) {\n throw new Error("Failed to decompress partial gzip");\n }\n }\n return result;\n }\n class GunzipReader {\n constructor({\n fileBytes,\n chunkBytes = 64 * 1024\n }) {\n this.fileBytes = fileBytes;\n this.chunkBytes = chunkBytes;\n this.chunks = [];\n this.totalBytes = 0;\n const ds = new DecompressionStream("gzip");\n const decompressionStream = new Blob([fileBytes]).stream().pipeThrough(ds);\n this.reader = decompressionStream.getReader();\n }\n async read(numBytes) {\n while (this.totalBytes < numBytes) {\n const { value: chunk, done: readerDone } = await this.reader.read();\n if (readerDone) {\n break;\n }\n this.chunks.push(chunk);\n this.totalBytes += chunk.length;\n }\n if (this.totalBytes < numBytes) {\n throw new Error(\n `Unexpected EOF: needed ${numBytes}, got ${this.totalBytes}`\n );\n }\n const allBytes = new Uint8Array(this.totalBytes);\n let outOffset = 0;\n for (const chunk of this.chunks) {\n allBytes.set(chunk, outOffset);\n outOffset += chunk.length;\n }\n const result = allBytes.subarray(0, numBytes);\n this.chunks = [allBytes.subarray(numBytes)];\n this.totalBytes -= numBytes;\n return result;\n }\n }\n function decodeAntiSplat(fileBytes, initNumSplats, splatCallback) {\n const numSplats = Math.floor(fileBytes.length / 32);\n if (numSplats * 32 !== fileBytes.length) {\n throw new Error("Invalid .splat file size");\n }\n initNumSplats(numSplats);\n const f32 = new Float32Array(fileBytes.buffer);\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i322 = i2 * 32;\n const i8 = i2 * 8;\n const x2 = f32[i8 + 0];\n const y = f32[i8 + 1];\n const z = f32[i8 + 2];\n const scaleX = f32[i8 + 3];\n const scaleY = f32[i8 + 4];\n const scaleZ = f32[i8 + 5];\n const r = fileBytes[i322 + 24] / 255;\n const g = fileBytes[i322 + 25] / 255;\n const b = fileBytes[i322 + 26] / 255;\n const opacity = fileBytes[i322 + 27] / 255;\n const quatW = (fileBytes[i322 + 28] - 128) / 128;\n const quatX = (fileBytes[i322 + 29] - 128) / 128;\n const quatY = (fileBytes[i322 + 30] - 128) / 128;\n const quatZ = (fileBytes[i322 + 31] - 128) / 128;\n splatCallback(\n i2,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b\n );\n }\n }\n function unpackAntiSplat(fileBytes, splatEncoding) {\n let numSplats = 0;\n let maxSplats = 0;\n let packedArray = new Uint32Array(0);\n decodeAntiSplat(\n fileBytes,\n (cbNumSplats) => {\n numSplats = cbNumSplats;\n maxSplats = computeMaxSplats(numSplats);\n packedArray = new Uint32Array(maxSplats * 4);\n },\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n setPackedSplat(\n packedArray,\n index,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding\n );\n }\n );\n return { packedArray, numSplats };\n }\n const KSPLAT_COMPRESSION = {\n 0: {\n bytesPerCenter: 12,\n bytesPerScale: 12,\n bytesPerRotation: 16,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 4,\n scaleOffsetBytes: 12,\n rotationOffsetBytes: 24,\n colorOffsetBytes: 40,\n sphericalHarmonicsOffsetBytes: 44,\n scaleRange: 1\n },\n 1: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 2,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767\n },\n 2: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 1,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767\n }\n };\n const KSPLAT_SH_DEGREE_TO_COMPONENTS = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45\n };\n function decodeKsplat(fileBytes, initNumSplats, splatCallback, shCallback) {\n var _a2;\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n for (let section = 0; section < maxSectionCount; ++section) {\n let getSh = function(splatOffset, component) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true\n )\n );\n }\n const t = data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) / 255;\n return minSphericalHarmonicsCoeff + t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff);\n };\n const section2 = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n const sectionSplatCount = section2.getUint32(0, true);\n const sectionMaxSplatCount = section2.getUint32(4, true);\n const bucketSize = section2.getUint32(8, true);\n const bucketCount = section2.getUint32(12, true);\n const bucketBlockSize = section2.getFloat32(16, true);\n const bucketStorageSizeBytes = section2.getUint16(20, true);\n const compressionScaleRange = (section2.getUint32(24, true) || ((_a2 = KSPLAT_COMPRESSION[compressionLevel]) == null ? void 0 : _a2.scaleRange)) ?? 1;\n const fullBucketCount = section2.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section2.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes = bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section2.getUint16(40, true);\n const shComponents = KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat = bytesPerCenter + bytesPerScale + bytesPerRotation + bytesPerColor + shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes = splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9,\n 14,\n 19,\n 10,\n 15,\n 20,\n 11,\n 16,\n 21,\n 12,\n 17,\n 22,\n 13,\n 18,\n 23\n ];\n const sh3Index = [\n 24,\n 31,\n 38,\n 25,\n 32,\n 39,\n 26,\n 33,\n 40,\n 27,\n 34,\n 41,\n 28,\n 35,\n 42,\n 29,\n 36,\n 43,\n 30,\n 37,\n 44\n ];\n const sh1 = sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : void 0;\n const sh2 = sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : void 0;\n const sh3 = sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : void 0;\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount\n );\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n for (let i2 = 0; i2 < sectionSplatCount; ++i2) {\n const splatOffset = i2 * bytesPerSplat;\n let bucketIndex;\n if (i2 < fullBucketSplats) {\n bucketIndex = Math.floor(i2 / bucketSize);\n } else {\n const bucketLength = partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i2 >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n const x2 = compressionLevel === 0 ? data.getFloat32(splatOffset + 0, true) : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 0];\n const y = compressionLevel === 0 ? data.getFloat32(splatOffset + 4, true) : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 1];\n const z = compressionLevel === 0 ? data.getFloat32(splatOffset + 8, true) : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 2];\n const scaleX = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n const quatW = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true)\n );\n const quatX = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true)\n );\n const quatY = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true)\n );\n const quatZ = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true)\n );\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n splatCallback(\n i2,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b\n );\n if (sphericalHarmonicsDegree >= 1 && sh1) {\n for (const [i22, key] of sh1Index.entries()) {\n sh1[i22] = getSh(splatOffset, key);\n }\n if (sh2) {\n for (const [i22, key] of sh2Index.entries()) {\n sh2[i22] = getSh(splatOffset, key);\n }\n }\n if (sh3) {\n for (const [i22, key] of sh3Index.entries()) {\n sh3[i22] = getSh(splatOffset, key);\n }\n }\n shCallback == null ? void 0 : shCallback(i2, sh1, sh2, sh3);\n }\n }\n sectionBase += storageSizeBytes;\n }\n }\n function unpackKsplat(fileBytes, splatEncoding) {\n var _a2;\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n const numSplats = splatCount;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra = {};\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n for (let section = 0; section < maxSectionCount; ++section) {\n let getSh = function(splatOffset, component) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true\n )\n );\n }\n const t = data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) / 255;\n return minSphericalHarmonicsCoeff + t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff);\n };\n const section2 = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n const sectionSplatCount = section2.getUint32(0, true);\n const sectionMaxSplatCount = section2.getUint32(4, true);\n const bucketSize = section2.getUint32(8, true);\n const bucketCount = section2.getUint32(12, true);\n const bucketBlockSize = section2.getFloat32(16, true);\n const bucketStorageSizeBytes = section2.getUint16(20, true);\n const compressionScaleRange = (section2.getUint32(24, true) || ((_a2 = KSPLAT_COMPRESSION[compressionLevel]) == null ? void 0 : _a2.scaleRange)) ?? 1;\n const fullBucketCount = section2.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section2.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes = bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section2.getUint16(40, true);\n const shComponents = KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat = bytesPerCenter + bytesPerScale + bytesPerRotation + bytesPerColor + shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes = splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9,\n 14,\n 19,\n 10,\n 15,\n 20,\n 11,\n 16,\n 21,\n 12,\n 17,\n 22,\n 13,\n 18,\n 23\n ];\n const sh3Index = [\n 24,\n 31,\n 38,\n 25,\n 32,\n 39,\n 26,\n 33,\n 40,\n 27,\n 34,\n 41,\n 28,\n 35,\n 42,\n 29,\n 36,\n 43,\n 30,\n 37,\n 44\n ];\n const sh1 = sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : void 0;\n const sh2 = sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : void 0;\n const sh3 = sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : void 0;\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount\n );\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n for (let i2 = 0; i2 < sectionSplatCount; ++i2) {\n const splatOffset = i2 * bytesPerSplat;\n let bucketIndex;\n if (i2 < fullBucketSplats) {\n bucketIndex = Math.floor(i2 / bucketSize);\n } else {\n const bucketLength = partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i2 >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n const x2 = compressionLevel === 0 ? data.getFloat32(splatOffset + 0, true) : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 0];\n const y = compressionLevel === 0 ? data.getFloat32(splatOffset + 4, true) : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 1];\n const z = compressionLevel === 0 ? data.getFloat32(splatOffset + 8, true) : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) * compressionScaleFactor + bucketArray[3 * bucketIndex + 2];\n const scaleX = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ = compressionLevel === 0 ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true) : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n const quatW = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true)\n );\n const quatX = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true)\n );\n const quatY = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true)\n );\n const quatZ = compressionLevel === 0 ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true) : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true)\n );\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n setPackedSplat(\n packedArray,\n i2,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding\n );\n if (sphericalHarmonicsDegree >= 1) {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n for (const [i22, key] of sh1Index.entries()) {\n sh1[i22] = getSh(splatOffset, key);\n }\n encodeSh1Rgb(extra.sh1, i2, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n for (const [i22, key] of sh2Index.entries()) {\n sh2[i22] = getSh(splatOffset, key);\n }\n encodeSh2Rgb(extra.sh2, i2, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n for (const [i22, key] of sh3Index.entries()) {\n sh3[i22] = getSh(splatOffset, key);\n }\n encodeSh3Rgb(extra.sh3, i2, sh3, splatEncoding);\n }\n }\n }\n sectionBase += storageSizeBytes;\n }\n return { packedArray, numSplats, extra };\n }\n const PLY_PROPERTY_TYPES = [\n "char",\n "uchar",\n "short",\n "ushort",\n "int",\n "uint",\n "float",\n "double"\n ];\n const _PlyReader = class _PlyReader {\n // Create a PlyReader from a Uint8Array/ArrayBuffer, no parsing done yet\n constructor({ fileBytes }) {\n this.header = "";\n this.littleEndian = true;\n this.elements = {};\n this.comments = [];\n this.data = null;\n this.numSplats = 0;\n this.fileBytes = fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n }\n // Identify and parse the PLY text header (assumed to be <64KB in size).\n // this.elements will contain all the elements in the file, typically\n // "vertex" contains the Gsplat data.\n async parseHeader() {\n const bufferStream = new ReadableStream({\n start: (controller) => {\n controller.enqueue(this.fileBytes.slice(0, 65536));\n controller.close();\n }\n });\n const decoder = bufferStream.pipeThrough(new TextDecoderStream()).getReader();\n this.header = "";\n const headerTerminator = "end_header\\n";\n while (true) {\n const { value, done } = await decoder.read();\n if (done) {\n throw new Error("Failed to read header");\n }\n this.header += value;\n const endHeader = this.header.indexOf(headerTerminator);\n if (endHeader >= 0) {\n this.header = this.header.slice(0, endHeader + headerTerminator.length);\n break;\n }\n }\n const headerLen = new TextEncoder().encode(this.header).length;\n this.data = new DataView(this.fileBytes.buffer, headerLen);\n this.elements = {};\n let curElement = null;\n this.comments = [];\n this.header.trim().split("\\n").forEach((line, lineIndex) => {\n const trimmedLine = line.trim();\n if (lineIndex === 0) {\n if (trimmedLine !== "ply") {\n throw new Error("Invalid PLY header");\n }\n return;\n }\n if (trimmedLine.length === 0) {\n return;\n }\n const fields = trimmedLine.split(" ");\n switch (fields[0]) {\n case "format":\n if (fields[1] === "binary_little_endian") {\n this.littleEndian = true;\n } else if (fields[1] === "binary_big_endian") {\n this.littleEndian = false;\n } else {\n throw new Error(`Unsupported PLY format: ${fields[1]}`);\n }\n if (fields[2] !== "1.0") {\n throw new Error(`Unsupported PLY version: ${fields[2]}`);\n }\n break;\n case "end_header":\n break;\n case "comment":\n this.comments.push(trimmedLine.slice("comment ".length));\n break;\n case "element": {\n const name = fields[1];\n curElement = {\n name,\n count: Number.parseInt(fields[2]),\n properties: {}\n };\n this.elements[name] = curElement;\n break;\n }\n case "property":\n if (curElement == null) {\n throw new Error("Property must be inside an element");\n }\n if (fields[1] === "list") {\n curElement.properties[fields[4]] = {\n isList: true,\n type: fields[3],\n countType: fields[2]\n };\n } else {\n curElement.properties[fields[2]] = {\n isList: false,\n type: fields[1]\n };\n }\n break;\n }\n });\n if (this.elements.vertex) {\n this.numSplats = this.elements.vertex.count;\n }\n }\n parseData(elementCallback) {\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error("No data to parse");\n }\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const item = createEmptyItem(properties);\n const parseFn = createParseFn(properties, this.littleEndian);\n const callback = elementCallback(element) ?? (() => {\n });\n for (let index = 0; index < count; index++) {\n offset = parseFn(data, offset, item);\n callback(index, item);\n }\n }\n }\n // Parse all the Gsplat data in the PLY file in go, invoking the given\n // callbacks for each Gsplat.\n parseSplats(splatCallback, shCallback) {\n if (this.elements.vertex == null) {\n throw new Error("No vertex element found");\n }\n let isSuperSplat = false;\n const ssChunks = [];\n let numSh = 0;\n let sh1Props = [];\n let sh2Props = [];\n let sh3Props = [];\n let sh1 = void 0;\n let sh2 = void 0;\n let sh3 = void 0;\n function prepareSh() {\n const num_f_rest = NUM_SH_TO_NUM_F_REST[numSh];\n sh1Props = new Array(3).fill(null).flatMap((_, k) => [0, 1, 2].map((_2, d) => k + d * num_f_rest / 3));\n sh2Props = new Array(5).fill(null).flatMap(\n (_, k) => [0, 1, 2].map((_2, d) => 3 + k + d * num_f_rest / 3)\n );\n sh3Props = new Array(7).fill(null).flatMap(\n (_, k) => [0, 1, 2].map((_2, d) => 8 + k + d * num_f_rest / 3)\n );\n sh1 = numSh >= 1 ? new Float32Array(3 * 3) : void 0;\n sh2 = numSh >= 2 ? new Float32Array(5 * 3) : void 0;\n sh3 = numSh >= 3 ? new Float32Array(7 * 3) : void 0;\n }\n function ssShCallback(index, item) {\n if (!sh1) {\n throw new Error("Missing sh1");\n }\n const sh = item.f_rest;\n for (let i2 = 0; i2 < sh1Props.length; i2++) {\n sh1[i2] = sh[sh1Props[i2]] * 8 / 255 - 4;\n }\n if (sh2) {\n for (let i2 = 0; i2 < sh2Props.length; i2++) {\n sh2[i2] = sh[sh2Props[i2]] * 8 / 255 - 4;\n }\n }\n if (sh3) {\n for (let i2 = 0; i2 < sh3Props.length; i2++) {\n sh3[i2] = sh[sh3Props[i2]] * 8 / 255 - 4;\n }\n }\n shCallback == null ? void 0 : shCallback(index, sh1, sh2, sh3);\n }\n function initSuperSplat(element) {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z\n } = element.properties;\n if (!min_x || !min_y || !min_z || !max_x || !max_y || !max_z || !min_scale_x || !min_scale_y || !min_scale_z || !max_scale_x || !max_scale_y || !max_scale_z) {\n throw new Error("Missing PLY chunk properties");\n }\n isSuperSplat = true;\n return (index, item) => {\n const {\n min_x: min_x2,\n min_y: min_y2,\n min_z: min_z2,\n max_x: max_x2,\n max_y: max_y2,\n max_z: max_z2,\n min_scale_x: min_scale_x2,\n min_scale_y: min_scale_y2,\n min_scale_z: min_scale_z2,\n max_scale_x: max_scale_x2,\n max_scale_y: max_scale_y2,\n max_scale_z: max_scale_z2,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b\n } = item;\n ssChunks.push({\n min_x: min_x2,\n min_y: min_y2,\n min_z: min_z2,\n max_x: max_x2,\n max_y: max_y2,\n max_z: max_z2,\n min_scale_x: min_scale_x2,\n min_scale_y: min_scale_y2,\n min_scale_z: min_scale_z2,\n max_scale_x: max_scale_x2,\n max_scale_y: max_scale_y2,\n max_scale_z: max_scale_z2,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b\n });\n };\n }\n function decodeSuperSplat(element) {\n if (shCallback && element.name === "sh") {\n numSh = getNumSh(element.properties);\n prepareSh();\n return ssShCallback;\n }\n if (element.name !== "vertex") {\n return null;\n }\n const { packed_position, packed_rotation, packed_scale, packed_color } = element.properties;\n if (!packed_position || !packed_rotation || !packed_scale || !packed_color) {\n throw new Error(\n "Missing PLY properties: packed_position, packed_rotation, packed_scale, packed_color"\n );\n }\n const SQRT2 = Math.sqrt(2);\n return (index, item) => {\n const chunk = ssChunks[index >>> 8];\n if (chunk == null) {\n throw new Error("Missing PLY chunk");\n }\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b\n } = chunk;\n const { packed_position: packed_position2, packed_rotation: packed_rotation2, packed_scale: packed_scale2, packed_color: packed_color2 } = item;\n const x2 = (packed_position2 >>> 21 & 2047) / 2047 * (max_x - min_x) + min_x;\n const y = (packed_position2 >>> 11 & 1023) / 1023 * (max_y - min_y) + min_y;\n const z = (packed_position2 & 2047) / 2047 * (max_z - min_z) + min_z;\n const r0 = ((packed_rotation2 >>> 20 & 1023) / 1023 - 0.5) * SQRT2;\n const r1 = ((packed_rotation2 >>> 10 & 1023) / 1023 - 0.5) * SQRT2;\n const r2 = ((packed_rotation2 & 1023) / 1023 - 0.5) * SQRT2;\n const rr = Math.sqrt(Math.max(0, 1 - r0 * r0 - r1 * r1 - r2 * r2));\n const rOrder = packed_rotation2 >>> 30;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n const scaleX = Math.exp(\n (packed_scale2 >>> 21 & 2047) / 2047 * (max_scale_x - min_scale_x) + min_scale_x\n );\n const scaleY = Math.exp(\n (packed_scale2 >>> 11 & 1023) / 1023 * (max_scale_y - min_scale_y) + min_scale_y\n );\n const scaleZ = Math.exp(\n (packed_scale2 & 2047) / 2047 * (max_scale_z - min_scale_z) + min_scale_z\n );\n const r = (packed_color2 >>> 24 & 255) / 255 * ((max_r ?? 1) - (min_r ?? 0)) + (min_r ?? 0);\n const g = (packed_color2 >>> 16 & 255) / 255 * ((max_g ?? 1) - (min_g ?? 0)) + (min_g ?? 0);\n const b = (packed_color2 >>> 8 & 255) / 255 * ((max_b ?? 1) - (min_b ?? 0)) + (min_b ?? 0);\n const opacity = (packed_color2 & 255) / 255;\n splatCallback(\n index,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b\n );\n };\n }\n const elementCallback = (element) => {\n if (element.name === "chunk") {\n return initSuperSplat(element);\n }\n if (isSuperSplat) {\n return decodeSuperSplat(element);\n }\n if (element.name !== "vertex") {\n return null;\n }\n const {\n x: x2,\n y,\n z,\n scale_0,\n scale_1,\n scale_2,\n rot_0,\n rot_1,\n rot_2,\n rot_3,\n opacity,\n f_dc_0,\n f_dc_1,\n f_dc_2,\n red,\n green,\n blue,\n alpha\n } = element.properties;\n if (!x2 || !y || !z) {\n throw new Error("Missing PLY properties: x, y, z");\n }\n const hasScales = scale_0 && scale_1 && scale_2;\n const hasRots = rot_0 && rot_1 && rot_2 && rot_3;\n const alphaDiv = alpha != null ? FIELD_SCALE[alpha.type] : 1;\n const redDiv = red != null ? FIELD_SCALE[red.type] : 1;\n const greenDiv = green != null ? FIELD_SCALE[green.type] : 1;\n const blueDiv = blue != null ? FIELD_SCALE[blue.type] : 1;\n numSh = getNumSh(element.properties);\n prepareSh();\n return (index, item) => {\n const scaleX = hasScales ? Math.exp(item.scale_0) : _PlyReader.defaultPointScale;\n const scaleY = hasScales ? Math.exp(item.scale_1) : _PlyReader.defaultPointScale;\n const scaleZ = hasScales ? Math.exp(item.scale_2) : _PlyReader.defaultPointScale;\n const quatX = hasRots ? item.rot_1 : 0;\n const quatY = hasRots ? item.rot_2 : 0;\n const quatZ = hasRots ? item.rot_3 : 0;\n const quatW = hasRots ? item.rot_0 : 1;\n const op = opacity != null ? 1 / (1 + Math.exp(-item.opacity)) : alpha != null ? item.alpha / alphaDiv : 1;\n const r = f_dc_0 != null ? item.f_dc_0 * SH_C0$1 + 0.5 : red != null ? item.red / redDiv : 1;\n const g = f_dc_1 != null ? item.f_dc_1 * SH_C0$1 + 0.5 : green != null ? item.green / greenDiv : 1;\n const b = f_dc_2 != null ? item.f_dc_2 * SH_C0$1 + 0.5 : blue != null ? item.blue / blueDiv : 1;\n splatCallback(\n index,\n item.x,\n item.y,\n item.z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n op,\n r,\n g,\n b\n );\n if (shCallback && sh1) {\n const sh = item.f_rest;\n if (sh1) {\n for (let i2 = 0; i2 < sh1Props.length; i2++) {\n sh1[i2] = sh[sh1Props[i2]];\n }\n }\n if (sh2) {\n for (let i2 = 0; i2 < sh2Props.length; i2++) {\n sh2[i2] = sh[sh2Props[i2]];\n }\n }\n if (sh3) {\n for (let i2 = 0; i2 < sh3Props.length; i2++) {\n sh3[i2] = sh[sh3Props[i2]];\n }\n }\n shCallback(index, sh1, sh2, sh3);\n }\n };\n };\n this.parseData(elementCallback);\n }\n // Inject RGBA values into original PLY file, which can be used to modify\n // the color/opacity of the Gsplats and write out the modified PLY file.\n injectRgba(rgba) {\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error("No parsed data");\n }\n if (rgba.length !== this.numSplats * 4) {\n throw new Error("Invalid RGBA array length");\n }\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const parsers = [];\n let rgbaOffset = 0;\n const isVertex = elementName === "vertex";\n if (isVertex) {\n for (const name of ["opacity", "f_dc_0", "f_dc_1", "f_dc_2"]) {\n if (!properties[name] || properties[name].type !== "float") {\n throw new Error(`Can\'t injectRgba due to property: ${name}`);\n }\n }\n }\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!property.isList) {\n if (isVertex) {\n if (propertyName === "f_dc_0" || propertyName === "f_dc_1" || propertyName === "f_dc_2") {\n const component = Number.parseInt(\n propertyName.slice("f_dc_".length)\n );\n parsers.push(() => {\n const value = (rgba[rgbaOffset + component] / 255 - 0.5) / SH_C0$1;\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value\n );\n });\n } else if (propertyName === "opacity") {\n parsers.push(() => {\n const value = Math.max(\n -100,\n Math.min(\n 100,\n -Math.log(1 / (rgba[rgbaOffset + 3] / 255) - 1)\n )\n );\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value\n );\n });\n }\n }\n parsers.push(() => {\n offset += FIELD_BYTES[property.type];\n });\n } else {\n parsers.push(() => {\n const length = PARSE_FIELD[property.countType](\n data,\n offset,\n this.littleEndian\n );\n offset += FIELD_BYTES[property.countType];\n offset += length * FIELD_BYTES[property.type];\n });\n }\n }\n for (let index = 0; index < count; index++) {\n for (const parser of parsers) {\n parser();\n }\n if (isVertex) {\n rgbaOffset += 4;\n }\n }\n }\n }\n };\n _PlyReader.defaultPointScale = 1e-3;\n let PlyReader = _PlyReader;\n const SH_C0$1 = 0.28209479177387814;\n const PARSE_FIELD = {\n char: (data, offset, littleEndian) => {\n return data.getInt8(offset);\n },\n uchar: (data, offset, littleEndian) => {\n return data.getUint8(offset);\n },\n short: (data, offset, littleEndian) => {\n return data.getInt16(offset, littleEndian);\n },\n ushort: (data, offset, littleEndian) => {\n return data.getUint16(offset, littleEndian);\n },\n int: (data, offset, littleEndian) => {\n return data.getInt32(offset, littleEndian);\n },\n uint: (data, offset, littleEndian) => {\n return data.getUint32(offset, littleEndian);\n },\n float: (data, offset, littleEndian) => {\n return data.getFloat32(offset, littleEndian);\n },\n double: (data, offset, littleEndian) => {\n return data.getFloat64(offset, littleEndian);\n }\n };\n const SET_FIELD = {\n char: (data, offset, littleEndian, value) => {\n data.setInt8(offset, value);\n },\n uchar: (data, offset, littleEndian, value) => {\n data.setUint8(offset, value);\n },\n short: (data, offset, littleEndian, value) => {\n data.setInt16(offset, value, littleEndian);\n },\n ushort: (data, offset, littleEndian, value) => {\n data.setUint16(offset, value, littleEndian);\n },\n int: (data, offset, littleEndian, value) => {\n data.setInt32(offset, value, littleEndian);\n },\n uint: (data, offset, littleEndian, value) => {\n data.setUint32(offset, value, littleEndian);\n },\n float: (data, offset, littleEndian, value) => {\n data.setFloat32(offset, value, littleEndian);\n },\n double: (data, offset, littleEndian, value) => {\n data.setFloat64(offset, value, littleEndian);\n }\n };\n const FIELD_BYTES = {\n char: 1,\n uchar: 1,\n short: 2,\n ushort: 2,\n int: 4,\n uint: 4,\n float: 4,\n double: 8\n };\n const FIELD_SCALE = {\n char: 127,\n uchar: 255,\n short: 32767,\n ushort: 65535,\n int: 2147483647,\n uint: 4294967295,\n float: 1,\n double: 1\n };\n const NUM_F_REST_TO_NUM_SH = {\n 0: 0,\n 9: 1,\n 24: 2,\n 45: 3\n };\n const NUM_SH_TO_NUM_F_REST = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45\n };\n const F_REST_REGEX = /^f_rest_([0-9]{1,2})$/;\n function createEmptyItem(properties) {\n const item = {};\n for (const [propertyName, property] of Object.entries(properties)) {\n if (F_REST_REGEX.test(propertyName)) {\n item.f_rest = new Array(getNumSh(properties));\n } else {\n item[propertyName] = property.isList ? [] : 0;\n }\n }\n return item;\n }\n function createParseFn(properties, littleEndian) {\n if (safeToCompile(properties)) {\n return createCompiledParserFn(properties, littleEndian);\n }\n return createDynamicParserFn(properties, littleEndian);\n }\n const UNSAFE_EVAL_ALLOWED = (() => {\n try {\n new Function("return 42;");\n } catch (e) {\n return false;\n }\n return true;\n })();\n const PROPERTY_NAME_REGEX = /^[a-zA-Z0-9_]+$/;\n function safeToCompile(properties) {\n if (!UNSAFE_EVAL_ALLOWED) {\n return false;\n }\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!PROPERTY_NAME_REGEX.test(propertyName)) {\n return false;\n }\n if (property.isList && !PLY_PROPERTY_TYPES.includes(property.countType)) {\n return false;\n }\n if (!PLY_PROPERTY_TYPES.includes(property.type)) {\n return false;\n }\n }\n return true;\n }\n function createCompiledParserFn(properties, littleEndian) {\n const parserSrc = ["let list;"];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parserSrc.push(\n /*js*/\n `\n item.f_rest[${fRestIndex}] = PARSE_FIELD[\'${property.type}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `\n );\n } else if (!property.isList) {\n parserSrc.push(\n /*js*/\n `\n item[\'${propertyName}\'] = PARSE_FIELD[\'${property.type}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `\n );\n } else {\n parserSrc.push(\n /*js*/\n `\n list = item[\'${propertyName}\'];\n list.length = PARSE_FIELD[\'${property.countType}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.countType]};\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD[\'${property.type}\'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n }\n `\n );\n }\n }\n parserSrc.push("return offset;");\n const fn = new Function(\n "data",\n "offset",\n "item",\n "PARSE_FIELD",\n parserSrc.join("\\n")\n );\n return (data, offset, item) => fn(data, offset, item, PARSE_FIELD);\n }\n function createDynamicParserFn(properties, littleEndian) {\n const parsers = [];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parsers.push(\n (data, offset, item) => {\n item.f_rest[fRestIndex] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian\n );\n return offset + FIELD_BYTES[property.type];\n }\n );\n } else if (!property.isList) {\n parsers.push(\n (data, offset, item) => {\n item[propertyName] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian\n );\n return offset + FIELD_BYTES[property.type];\n }\n );\n } else {\n parsers.push(\n (data, offset, item) => {\n const list = item[propertyName];\n list.length = PARSE_FIELD[property.countType](\n data,\n offset,\n littleEndian\n );\n let currentOffset = offset + FIELD_BYTES[property.countType];\n for (let i2 = 0; i2 < list.length; i2++) {\n list[i2] = PARSE_FIELD[property.type](\n data,\n currentOffset,\n littleEndian\n );\n currentOffset += FIELD_BYTES[property.type];\n }\n return currentOffset;\n }\n );\n }\n }\n return (data, offset, item) => {\n let currentOffset = offset;\n for (let parserIndex = 0; parserIndex < parsers.length; parserIndex++) {\n currentOffset = parsers[parserIndex](data, currentOffset, item);\n }\n return currentOffset;\n };\n }\n function getNumSh(properties) {\n let num_f_rest = 0;\n while (properties[`f_rest_${num_f_rest}`]) {\n num_f_rest += 1;\n }\n const numSh = NUM_F_REST_TO_NUM_SH[num_f_rest];\n if (numSh == null) {\n throw new Error(`Unsupported number of SH coefficients: ${num_f_rest}`);\n }\n return numSh;\n }\n class SpzReader {\n constructor({ fileBytes }) {\n this.version = -1;\n this.numSplats = 0;\n this.shDegree = 0;\n this.fractionalBits = 0;\n this.flags = 0;\n this.flagAntiAlias = false;\n this.flagLod = false;\n this.reserved = 0;\n this.headerParsed = false;\n this.parsed = false;\n this.fileBytes = fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n this.reader = new GunzipReader({\n fileBytes: this.fileBytes\n });\n }\n async parseHeader() {\n if (this.headerParsed) {\n throw new Error("SPZ file header already parsed");\n }\n const header = new DataView((await this.reader.read(16)).buffer);\n if (header.getUint32(0, true) !== 1347635022) {\n throw new Error("Invalid SPZ file");\n }\n this.version = header.getUint32(4, true);\n if (this.version < 1 || this.version > 3) {\n throw new Error(`Unsupported SPZ version: ${this.version}`);\n }\n this.numSplats = header.getUint32(8, true);\n this.shDegree = header.getUint8(12);\n this.fractionalBits = header.getUint8(13);\n this.flags = header.getUint8(14);\n this.flagAntiAlias = (this.flags & 1) !== 0;\n this.flagLod = (this.flags & 128) !== 0;\n this.reserved = header.getUint8(15);\n this.headerParsed = true;\n this.parsed = false;\n }\n async parseSplats(centerCallback, alphaCallback, rgbCallback, scalesCallback, quatCallback, shCallback, {\n childCounts,\n childStarts\n } = {}) {\n if (!this.headerParsed) {\n throw new Error("SPZ file header must be parsed first");\n }\n if (this.parsed) {\n throw new Error("SPZ file already parsed");\n }\n this.parsed = true;\n if (this.version === 1) {\n const centerBytes = await this.reader.read(this.numSplats * 3 * 2);\n const centerUint16 = new Uint16Array(centerBytes.buffer);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const x2 = fromHalf(centerUint16[i3]);\n const y = fromHalf(centerUint16[i3 + 1]);\n const z = fromHalf(centerUint16[i3 + 2]);\n centerCallback == null ? void 0 : centerCallback(i2, x2, y, z);\n }\n } else if (this.version === 2 || this.version === 3) {\n const fixed = 1 << this.fractionalBits;\n const centerBytes = await this.reader.read(this.numSplats * 3 * 3);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i9 = i2 * 9;\n const x2 = ((centerBytes[i9 + 2] << 24 | centerBytes[i9 + 1] << 16 | centerBytes[i9] << 8) >> 8) / fixed;\n const y = ((centerBytes[i9 + 5] << 24 | centerBytes[i9 + 4] << 16 | centerBytes[i9 + 3] << 8) >> 8) / fixed;\n const z = ((centerBytes[i9 + 8] << 24 | centerBytes[i9 + 7] << 16 | centerBytes[i9 + 6] << 8) >> 8) / fixed;\n centerCallback == null ? void 0 : centerCallback(i2, x2, y, z);\n }\n } else {\n throw new Error("Unreachable");\n }\n {\n const bytes = await this.reader.read(this.numSplats);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n alphaCallback == null ? void 0 : alphaCallback(i2, bytes[i2] / 255);\n }\n }\n {\n const rgbBytes = await this.reader.read(this.numSplats * 3);\n const scale = SH_C0 / 0.15;\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const r = (rgbBytes[i3] / 255 - 0.5) * scale + 0.5;\n const g = (rgbBytes[i3 + 1] / 255 - 0.5) * scale + 0.5;\n const b = (rgbBytes[i3 + 2] / 255 - 0.5) * scale + 0.5;\n rgbCallback == null ? void 0 : rgbCallback(i2, r, g, b);\n }\n }\n {\n const scalesBytes = await this.reader.read(this.numSplats * 3);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const scaleX = Math.exp(scalesBytes[i3] / 16 - 10);\n const scaleY = Math.exp(scalesBytes[i3 + 1] / 16 - 10);\n const scaleZ = Math.exp(scalesBytes[i3 + 2] / 16 - 10);\n scalesCallback == null ? void 0 : scalesCallback(i2, scaleX, scaleY, scaleZ);\n }\n }\n if (this.version === 3) {\n const maxValue = 1 / Math.sqrt(2);\n const quatBytes = await this.reader.read(this.numSplats * 4);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 4;\n const quaternion = [0, 0, 0, 0];\n const values = [\n quatBytes[i3],\n quatBytes[i3 + 1],\n quatBytes[i3 + 2],\n quatBytes[i3 + 3]\n ];\n const combinedValues = values[0] + (values[1] << 8) + (values[2] << 16) + (values[3] << 24);\n const valueMask = (1 << 9) - 1;\n const largestIndex = combinedValues >>> 30;\n let remainingValues = combinedValues;\n let sumSquares = 0;\n for (let i22 = 3; i22 >= 0; --i22) {\n if (i22 !== largestIndex) {\n const value = remainingValues & valueMask;\n const sign = remainingValues >>> 9 & 1;\n remainingValues = remainingValues >>> 10;\n quaternion[i22] = maxValue * (value / valueMask);\n quaternion[i22] = sign === 0 ? quaternion[i22] : -quaternion[i22];\n sumSquares += quaternion[i22] * quaternion[i22];\n }\n }\n const square = 1 - sumSquares;\n quaternion[largestIndex] = Math.sqrt(Math.max(square, 0));\n quatCallback == null ? void 0 : quatCallback(\n i2,\n quaternion[0],\n quaternion[1],\n quaternion[2],\n quaternion[3]\n );\n }\n } else {\n const quatBytes = await this.reader.read(this.numSplats * 3);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i3 = i2 * 3;\n const quatX = quatBytes[i3] / 127.5 - 1;\n const quatY = quatBytes[i3 + 1] / 127.5 - 1;\n const quatZ = quatBytes[i3 + 2] / 127.5 - 1;\n const quatW = Math.sqrt(\n Math.max(0, 1 - quatX * quatX - quatY * quatY - quatZ * quatZ)\n );\n quatCallback == null ? void 0 : quatCallback(i2, quatX, quatY, quatZ, quatW);\n }\n }\n if (shCallback && this.shDegree >= 1) {\n const sh1 = new Float32Array(3 * 3);\n const sh2 = this.shDegree >= 2 ? new Float32Array(5 * 3) : void 0;\n const sh3 = this.shDegree >= 3 ? new Float32Array(7 * 3) : void 0;\n const shBytes = await this.reader.read(\n this.numSplats * SH_DEGREE_TO_VECS[this.shDegree] * 3\n );\n let offset = 0;\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n for (let j = 0; j < 9; ++j) {\n sh1[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 9;\n if (sh2) {\n for (let j = 0; j < 15; ++j) {\n sh2[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 15;\n }\n if (sh3) {\n for (let j = 0; j < 21; ++j) {\n sh3[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 21;\n }\n shCallback == null ? void 0 : shCallback(i2, sh1, sh2, sh3);\n }\n }\n if (this.flagLod) {\n let bytes = await this.reader.read(this.numSplats * 2);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i22 = i2 * 2;\n const count = bytes[i22] + (bytes[i22 + 1] << 8);\n childCounts == null ? void 0 : childCounts(i2, count);\n }\n bytes = await this.reader.read(this.numSplats * 4);\n for (let i2 = 0; i2 < this.numSplats; i2++) {\n const i4 = i2 * 4;\n const start = bytes[i4] + (bytes[i4 + 1] << 8) + (bytes[i4 + 2] << 16) + (bytes[i4 + 3] << 24);\n childStarts == null ? void 0 : childStarts(i2, start);\n }\n }\n }\n }\n const SH_DEGREE_TO_VECS = { 1: 3, 2: 8, 3: 15 };\n const SH_C0 = 0.28209479177387814;\n const SPZ_MAGIC = 1347635022;\n const SPZ_VERSION = 3;\n const FLAG_ANTIALIASED = 1;\n class SpzWriter {\n constructor({\n numSplats,\n shDegree,\n fractionalBits = 12,\n flagAntiAlias = true\n }) {\n this.clippedCount = 0;\n const splatSize = 9 + // Position\n 1 + // Opacity\n 3 + // Scale\n 3 + // DC-rgb\n 4 + // Rotation\n (shDegree >= 1 ? 9 : 0) + (shDegree >= 2 ? 15 : 0) + (shDegree >= 3 ? 21 : 0);\n const bufferSize = 16 + numSplats * splatSize;\n this.buffer = new ArrayBuffer(bufferSize);\n this.view = new DataView(this.buffer);\n this.view.setUint32(0, SPZ_MAGIC, true);\n this.view.setUint32(4, SPZ_VERSION, true);\n this.view.setUint32(8, numSplats, true);\n this.view.setUint8(12, shDegree);\n this.view.setUint8(13, fractionalBits);\n this.view.setUint8(14, flagAntiAlias ? FLAG_ANTIALIASED : 0);\n this.view.setUint8(15, 0);\n this.numSplats = numSplats;\n this.shDegree = shDegree;\n this.fractionalBits = fractionalBits;\n this.fraction = 1 << fractionalBits;\n this.flagAntiAlias = flagAntiAlias;\n }\n setCenter(index, x2, y, z) {\n const xRounded = Math.round(x2 * this.fraction);\n const xInt = Math.max(-8388607, Math.min(8388607, xRounded));\n const yRounded = Math.round(y * this.fraction);\n const yInt = Math.max(-8388607, Math.min(8388607, yRounded));\n const zRounded = Math.round(z * this.fraction);\n const zInt = Math.max(-8388607, Math.min(8388607, zRounded));\n const clipped = xRounded !== xInt || yRounded !== yInt || zRounded !== zInt;\n if (clipped) {\n this.clippedCount += 1;\n }\n const i9 = index * 9;\n const base = 16 + i9;\n this.view.setUint8(base, xInt & 255);\n this.view.setUint8(base + 1, xInt >> 8 & 255);\n this.view.setUint8(base + 2, xInt >> 16 & 255);\n this.view.setUint8(base + 3, yInt & 255);\n this.view.setUint8(base + 4, yInt >> 8 & 255);\n this.view.setUint8(base + 5, yInt >> 16 & 255);\n this.view.setUint8(base + 6, zInt & 255);\n this.view.setUint8(base + 7, zInt >> 8 & 255);\n this.view.setUint8(base + 8, zInt >> 16 & 255);\n }\n setAlpha(index, alpha) {\n const base = 16 + this.numSplats * 9 + index;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round(alpha * 255)))\n );\n }\n static scaleRgb(r) {\n const v = ((r - 0.5) / (SH_C0 / 0.15) + 0.5) * 255;\n return Math.max(0, Math.min(255, Math.round(v)));\n }\n setRgb(index, r, g, b) {\n const base = 16 + this.numSplats * 10 + index * 3;\n this.view.setUint8(base, SpzWriter.scaleRgb(r));\n this.view.setUint8(base + 1, SpzWriter.scaleRgb(g));\n this.view.setUint8(base + 2, SpzWriter.scaleRgb(b));\n }\n setScale(index, scaleX, scaleY, scaleZ) {\n const base = 16 + this.numSplats * 13 + index * 3;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleX) + 10) * 16)))\n );\n this.view.setUint8(\n base + 1,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleY) + 10) * 16)))\n );\n this.view.setUint8(\n base + 2,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleZ) + 10) * 16)))\n );\n }\n setQuat(index, ...q) {\n const base = 16 + this.numSplats * 16 + index * 4;\n const quat = normalize(q);\n let iLargest = 0;\n for (let i2 = 1; i2 < 4; ++i2) {\n if (Math.abs(quat[i2]) > Math.abs(quat[iLargest])) {\n iLargest = i2;\n }\n }\n const negate = quat[iLargest] < 0 ? 1 : 0;\n let comp = iLargest;\n for (let i2 = 0; i2 < 4; ++i2) {\n if (i2 !== iLargest) {\n const negbit = (quat[i2] < 0 ? 1 : 0) ^ negate;\n const mag = Math.floor(\n ((1 << 9) - 1) * (Math.abs(quat[i2]) / Math.SQRT1_2) + 0.5\n );\n comp = comp << 10 | negbit << 9 | mag;\n }\n }\n this.view.setUint8(base, comp & 255);\n this.view.setUint8(base + 1, comp >> 8 & 255);\n this.view.setUint8(base + 2, comp >> 16 & 255);\n this.view.setUint8(base + 3, comp >>> 24 & 255);\n }\n static quantizeSh(sh, bits2) {\n const value = Math.round(sh * 128) + 128;\n const bucketSize = 1 << 8 - bits2;\n const quantized = Math.floor((value + bucketSize / 2) / bucketSize) * bucketSize;\n return Math.max(0, Math.min(255, quantized));\n }\n setSh(index, sh1, sh2, sh3) {\n const shVecs = SH_DEGREE_TO_VECS[this.shDegree] || 0;\n const base1 = 16 + this.numSplats * 20 + index * shVecs * 3;\n for (let j = 0; j < 9; ++j) {\n this.view.setUint8(base1 + j, SpzWriter.quantizeSh(sh1[j], 5));\n }\n if (sh2) {\n const base2 = base1 + 9;\n for (let j = 0; j < 15; ++j) {\n this.view.setUint8(base2 + j, SpzWriter.quantizeSh(sh2[j], 4));\n }\n if (sh3) {\n const base3 = base2 + 15;\n for (let j = 0; j < 21; ++j) {\n this.view.setUint8(base3 + j, SpzWriter.quantizeSh(sh3[j], 4));\n }\n }\n }\n }\n async finalize() {\n const input = new Uint8Array(this.buffer);\n const stream = new ReadableStream({\n async start(controller) {\n controller.enqueue(input);\n controller.close();\n }\n });\n const compressed = stream.pipeThrough(new CompressionStream("gzip"));\n const response = new Response(compressed);\n const buffer = await response.arrayBuffer();\n console.log(\n "Compressed",\n input.length,\n "bytes to",\n buffer.byteLength,\n "bytes"\n );\n return new Uint8Array(buffer);\n }\n }\n async function transcodeSpz(input) {\n var _a2, _b2, _c;\n const splats = new SplatData();\n const {\n inputs,\n clipXyz,\n maxSh,\n fractionalBits = 12,\n opacityThreshold\n } = input;\n for (const input2 of inputs) {\n let transformPos = function(pos) {\n pos.multiplyScalar(scale);\n pos.applyQuaternion(quaternion);\n pos.add(translate);\n return pos;\n }, transformScales = function(scales) {\n scales.multiplyScalar(scale);\n return scales;\n }, transformQuaternion = function(quat) {\n quat.premultiply(quaternion);\n return quat;\n }, withinClip = function(p) {\n return !clip || clip.containsPoint(p);\n }, withinOpacity = function(opacity) {\n return opacityThreshold !== void 0 ? opacity >= opacityThreshold : true;\n };\n const scale = ((_a2 = input2.transform) == null ? void 0 : _a2.scale) ?? 1;\n const quaternion = new Quaternion().fromArray(\n ((_b2 = input2.transform) == null ? void 0 : _b2.quaternion) ?? [0, 0, 0, 1]\n );\n const translate = new Vector3().fromArray(\n ((_c = input2.transform) == null ? void 0 : _c.translate) ?? [0, 0, 0]\n );\n const clip = clipXyz ? new Box3(\n new Vector3().fromArray(clipXyz.min),\n new Vector3().fromArray(clipXyz.max)\n ) : void 0;\n let fileType = input2.fileType;\n if (!fileType) {\n fileType = getSplatFileType(input2.fileBytes);\n if (!fileType && input2.pathOrUrl) {\n fileType = getSplatFileTypeFromPath(input2.pathOrUrl);\n }\n }\n switch (fileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes: input2.fileBytes });\n await ply.parseHeader();\n let lastIndex = null;\n ply.parseSplats(\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n const center = transformPos(new Vector3(x2, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n lastIndex,\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (sh1 && lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n }\n if (sh2 && lastIndex !== null) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3 && lastIndex !== null) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n );\n break;\n }\n case SplatFileType.SPZ: {\n const spz2 = new SpzReader({ fileBytes: input2.fileBytes });\n await spz2.parseHeader();\n const mapping = new Int32Array(spz2.numSplats);\n mapping.fill(-1);\n const centers = new Float32Array(spz2.numSplats * 3);\n const center = new Vector3();\n spz2.parseSplats(\n (index, x2, y, z) => {\n const center2 = transformPos(new Vector3(x2, y, z));\n centers[index * 3] = center2.x;\n centers[index * 3 + 1] = center2.y;\n centers[index * 3 + 2] = center2.z;\n },\n (index, alpha) => {\n center.fromArray(centers, index * 3);\n if (withinClip(center) && withinOpacity(alpha)) {\n mapping[index] = splats.pushSplat();\n splats.setCenter(mapping[index], center.x, center.y, center.z);\n splats.setOpacity(mapping[index], alpha);\n }\n },\n (index, r, g, b) => {\n if (mapping[index] >= 0) {\n splats.setColor(mapping[index], r, g, b);\n }\n },\n (index, scaleX, scaleY, scaleZ) => {\n if (mapping[index] >= 0) {\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(mapping[index], scales.x, scales.y, scales.z);\n }\n },\n (index, quatX, quatY, quatZ, quatW) => {\n if (mapping[index] >= 0) {\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n mapping[index],\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n }\n },\n (index, sh1, sh2, sh3) => {\n if (mapping[index] >= 0) {\n splats.setSh1(mapping[index], sh1);\n if (sh2) {\n splats.setSh2(mapping[index], sh2);\n }\n if (sh3) {\n splats.setSh3(mapping[index], sh3);\n }\n }\n }\n );\n break;\n }\n case SplatFileType.SPLAT:\n decodeAntiSplat(\n input2.fileBytes,\n (numSplats) => {\n },\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n const center = transformPos(new Vector3(x2, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n const index2 = splats.pushSplat();\n splats.setCenter(index2, center.x, center.y, center.z);\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(index2, scales.x, scales.y, scales.z);\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n index2,\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n splats.setOpacity(index2, opacity);\n splats.setColor(index2, r, g, b);\n }\n }\n );\n break;\n case SplatFileType.KSPLAT: {\n let lastIndex = null;\n decodeKsplat(\n input2.fileBytes,\n (numSplats) => {\n },\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n const center = transformPos(new Vector3(x2, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new Vector3(scaleX, scaleY, scaleZ)\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion2 = transformQuaternion(\n new Quaternion(quatX, quatY, quatZ, quatW)\n );\n splats.setQuaternion(\n lastIndex,\n quaternion2.x,\n quaternion2.y,\n quaternion2.z,\n quaternion2.w\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n if (sh2) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n }\n );\n break;\n }\n default:\n throw new Error(`transcodeSpz not implemented for ${fileType}`);\n }\n }\n const shDegree = Math.min(\n maxSh ?? 3,\n splats.sh3 ? 3 : splats.sh2 ? 2 : splats.sh1 ? 1 : 0\n );\n const spz = new SpzWriter({\n numSplats: splats.numSplats,\n shDegree,\n fractionalBits,\n flagAntiAlias: true\n });\n for (let i2 = 0; i2 < splats.numSplats; ++i2) {\n const i3 = i2 * 3;\n const i4 = i2 * 4;\n spz.setCenter(\n i2,\n splats.centers[i3],\n splats.centers[i3 + 1],\n splats.centers[i3 + 2]\n );\n spz.setScale(\n i2,\n splats.scales[i3],\n splats.scales[i3 + 1],\n splats.scales[i3 + 2]\n );\n spz.setQuat(\n i2,\n splats.quaternions[i4],\n splats.quaternions[i4 + 1],\n splats.quaternions[i4 + 2],\n splats.quaternions[i4 + 3]\n );\n spz.setAlpha(i2, splats.opacities[i2]);\n spz.setRgb(\n i2,\n splats.colors[i3],\n splats.colors[i3 + 1],\n splats.colors[i3 + 2]\n );\n if (splats.sh1 && shDegree >= 1) {\n spz.setSh(\n i2,\n splats.sh1.slice(i2 * 9, (i2 + 1) * 9),\n shDegree >= 2 && splats.sh2 ? splats.sh2.slice(i2 * 15, (i2 + 1) * 15) : void 0,\n shDegree >= 3 && splats.sh3 ? splats.sh3.slice(i2 * 21, (i2 + 1) * 21) : void 0\n );\n }\n }\n const spzBytes = await spz.finalize();\n return { fileBytes: spzBytes, clippedCount: spz.clippedCount };\n }\n function getSplatFileType(fileBytes) {\n const view = new DataView(fileBytes.buffer);\n const magic = view.getUint32(0, true);\n if ((magic & 16777215) === 7957616) {\n return SplatFileType.PLY;\n }\n if ((magic & 16777215) === 559903) {\n const header = decompressPartialGzip(fileBytes, 4);\n const gView = new DataView(header.buffer);\n if (gView.getUint32(0, true) === 1347635022) {\n return SplatFileType.SPZ;\n }\n return void 0;\n }\n if (magic === 67324752) {\n if (tryPcSogsZip(fileBytes)) {\n return SplatFileType.PCSOGSZIP;\n }\n return void 0;\n }\n if (magic === 809779538) {\n return SplatFileType.RAD;\n }\n return void 0;\n }\n function getFileExtension(pathOrUrl) {\n const noTrailing = pathOrUrl.split(/[?#]/, 1)[0];\n const lastSlash = Math.max(\n noTrailing.lastIndexOf("/"),\n noTrailing.lastIndexOf("\\\\")\n );\n const filename = noTrailing.slice(lastSlash + 1);\n const lastDot = filename.lastIndexOf(".");\n if (lastDot <= 0 || lastDot === filename.length - 1) {\n return "";\n }\n return filename.slice(lastDot + 1).toLowerCase();\n }\n function getSplatFileTypeFromPath(pathOrUrl) {\n const extension = getFileExtension(pathOrUrl);\n if (extension === "ply") {\n return SplatFileType.PLY;\n }\n if (extension === "spz") {\n return SplatFileType.SPZ;\n }\n if (extension === "splat") {\n return SplatFileType.SPLAT;\n }\n if (extension === "ksplat") {\n return SplatFileType.KSPLAT;\n }\n if (extension === "sog") {\n return SplatFileType.PCSOGSZIP;\n }\n if (extension === "rad") {\n return SplatFileType.RAD;\n }\n return void 0;\n }\n function tryPcSogs(input) {\n try {\n let text;\n if (typeof input === "string") {\n text = input;\n } else {\n const fileBytes = input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n if (fileBytes.length > 65536) {\n return void 0;\n }\n text = new TextDecoder().decode(fileBytes);\n }\n const json = JSON.parse(text);\n if (!json || typeof json !== "object" || Array.isArray(json)) {\n return void 0;\n }\n const isVersion2 = json.version === 2;\n for (const key of ["means", "scales", "quats", "sh0"]) {\n if (!json[key] || typeof json[key] !== "object" || Array.isArray(json[key])) {\n return void 0;\n }\n if (isVersion2) {\n if (!json[key].files) {\n return void 0;\n }\n if ((key === "scales" || key === "sh0") && !json[key].codebook) {\n return void 0;\n }\n if (key === "means" && (!json[key].mins || !json[key].maxs)) {\n return void 0;\n }\n } else {\n if (!json[key].shape || !json[key].files) {\n return void 0;\n }\n if (key !== "quats" && (!json[key].mins || !json[key].maxs)) {\n return void 0;\n }\n }\n }\n return json;\n } catch {\n return void 0;\n }\n }\n function tryPcSogsZip(input) {\n try {\n const fileBytes = input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let metaFilename = null;\n const unzipped = unzipSync(fileBytes, {\n filter: ({ name }) => {\n const filename = name.split(/[\\\\/]/).pop();\n if (filename === "meta.json") {\n metaFilename = name;\n return true;\n }\n return false;\n }\n });\n if (!metaFilename) {\n return void 0;\n }\n const json = tryPcSogs(unzipped[metaFilename]);\n if (!json) {\n return void 0;\n }\n return { name: metaFilename, json };\n } catch {\n return void 0;\n }\n }\n class SplatData {\n constructor({ maxSplats = 1 } = {}) {\n this.numSplats = 0;\n this.maxSplats = getTextureSize(maxSplats).maxSplats;\n this.centers = new Float32Array(this.maxSplats * 3);\n this.scales = new Float32Array(this.maxSplats * 3);\n this.quaternions = new Float32Array(this.maxSplats * 4);\n this.opacities = new Float32Array(this.maxSplats);\n this.colors = new Float32Array(this.maxSplats * 3);\n }\n pushSplat() {\n const index = this.numSplats;\n this.ensureIndex(index);\n this.numSplats += 1;\n return index;\n }\n unpushSplat(index) {\n if (index === this.numSplats - 1) {\n this.numSplats -= 1;\n } else {\n throw new Error("Cannot unpush splat from non-last position");\n }\n }\n ensureCapacity(numSplats) {\n if (numSplats > this.maxSplats) {\n const targetSplats = Math.max(numSplats, this.maxSplats * 2);\n const newCenters = new Float32Array(targetSplats * 3);\n const newScales = new Float32Array(targetSplats * 3);\n const newQuaternions = new Float32Array(targetSplats * 4);\n const newOpacities = new Float32Array(targetSplats);\n const newColors = new Float32Array(targetSplats * 3);\n newCenters.set(this.centers);\n newScales.set(this.scales);\n newQuaternions.set(this.quaternions);\n newOpacities.set(this.opacities);\n newColors.set(this.colors);\n this.centers = newCenters;\n this.scales = newScales;\n this.quaternions = newQuaternions;\n this.opacities = newOpacities;\n this.colors = newColors;\n if (this.sh1) {\n const newSh1 = new Float32Array(targetSplats * 9);\n newSh1.set(this.sh1);\n this.sh1 = newSh1;\n }\n if (this.sh2) {\n const newSh2 = new Float32Array(targetSplats * 15);\n newSh2.set(this.sh2);\n this.sh2 = newSh2;\n }\n if (this.sh3) {\n const newSh3 = new Float32Array(targetSplats * 21);\n newSh3.set(this.sh3);\n this.sh3 = newSh3;\n }\n this.maxSplats = targetSplats;\n }\n }\n ensureIndex(index) {\n this.ensureCapacity(index + 1);\n }\n setCenter(index, x2, y, z) {\n this.centers[index * 3] = x2;\n this.centers[index * 3 + 1] = y;\n this.centers[index * 3 + 2] = z;\n }\n setScale(index, scaleX, scaleY, scaleZ) {\n this.scales[index * 3] = scaleX;\n this.scales[index * 3 + 1] = scaleY;\n this.scales[index * 3 + 2] = scaleZ;\n }\n setQuaternion(index, x2, y, z, w) {\n this.quaternions[index * 4] = x2;\n this.quaternions[index * 4 + 1] = y;\n this.quaternions[index * 4 + 2] = z;\n this.quaternions[index * 4 + 3] = w;\n }\n setOpacity(index, opacity) {\n this.opacities[index] = opacity;\n }\n setColor(index, r, g, b) {\n this.colors[index * 3] = r;\n this.colors[index * 3 + 1] = g;\n this.colors[index * 3 + 2] = b;\n }\n setSh1(index, sh1) {\n if (!this.sh1) {\n this.sh1 = new Float32Array(this.maxSplats * 9);\n }\n for (let j = 0; j < 9; ++j) {\n this.sh1[index * 9 + j] = sh1[j];\n }\n }\n setSh2(index, sh2) {\n if (!this.sh2) {\n this.sh2 = new Float32Array(this.maxSplats * 15);\n }\n for (let j = 0; j < 15; ++j) {\n this.sh2[index * 15 + j] = sh2[j];\n }\n }\n setSh3(index, sh3) {\n if (!this.sh3) {\n this.sh3 = new Float32Array(this.maxSplats * 21);\n }\n for (let j = 0; j < 21; ++j) {\n this.sh3[index * 21 + j] = sh3[j];\n }\n }\n }\n async function unpackPcSogs(json, extraFiles, splatEncoding) {\n const isVersion2 = "version" in json;\n if (!isVersion2 && json.quats.encoding !== "quaternion_packed") {\n throw new Error("Unsupported quaternion encoding");\n }\n const numSplats = isVersion2 ? json.count : json.means.shape[0];\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra = {};\n const meansPromise = Promise.all([\n decodeImageRgba(extraFiles[json.means.files[0]]),\n decodeImageRgba(extraFiles[json.means.files[1]])\n ]).then((means) => {\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n const fx = (means[0][i4 + 0] + (means[1][i4 + 0] << 8)) / 65535;\n const fy = (means[0][i4 + 1] + (means[1][i4 + 1] << 8)) / 65535;\n const fz = (means[0][i4 + 2] + (means[1][i4 + 2] << 8)) / 65535;\n let x2 = json.means.mins[0] + (json.means.maxs[0] - json.means.mins[0]) * fx;\n let y = json.means.mins[1] + (json.means.maxs[1] - json.means.mins[1]) * fy;\n let z = json.means.mins[2] + (json.means.maxs[2] - json.means.mins[2]) * fz;\n x2 = Math.sign(x2) * (Math.exp(Math.abs(x2)) - 1);\n y = Math.sign(y) * (Math.exp(Math.abs(y)) - 1);\n z = Math.sign(z) * (Math.exp(Math.abs(z)) - 1);\n setPackedSplatCenter(packedArray, i2, x2, y, z);\n }\n });\n const scalesPromise = decodeImageRgba(extraFiles[json.scales.files[0]]).then(\n (scales) => {\n let xLookup;\n let yLookup;\n let zLookup;\n if (isVersion2) {\n xLookup = yLookup = zLookup = json.scales.codebook.map((x2) => Math.exp(x2));\n } else {\n xLookup = new Array(256).fill(0).map(\n (_, i2) => json.scales.mins[0] + (json.scales.maxs[0] - json.scales.mins[0]) * (i2 / 255)\n ).map((x2) => Math.exp(x2));\n yLookup = new Array(256).fill(0).map(\n (_, i2) => json.scales.mins[1] + (json.scales.maxs[1] - json.scales.mins[1]) * (i2 / 255)\n ).map((x2) => Math.exp(x2));\n zLookup = new Array(256).fill(0).map(\n (_, i2) => json.scales.mins[2] + (json.scales.maxs[2] - json.scales.mins[2]) * (i2 / 255)\n ).map((x2) => Math.exp(x2));\n }\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n setPackedSplatScales(\n packedArray,\n i2,\n xLookup[scales[i4 + 0]],\n yLookup[scales[i4 + 1]],\n zLookup[scales[i4 + 2]],\n splatEncoding\n );\n }\n }\n );\n const quatsPromise = decodeImageRgba(extraFiles[json.quats.files[0]]).then(\n (quats) => {\n const SQRT2 = Math.sqrt(2);\n const lookup = new Array(256).fill(0).map((_, i2) => (i2 / 255 - 0.5) * SQRT2);\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n const r0 = lookup[quats[i4 + 0]];\n const r1 = lookup[quats[i4 + 1]];\n const r2 = lookup[quats[i4 + 2]];\n const rr = Math.sqrt(Math.max(0, 1 - r0 * r0 - r1 * r1 - r2 * r2));\n const rOrder = quats[i4 + 3] - 252;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n setPackedSplatQuat(packedArray, i2, quatX, quatY, quatZ, quatW);\n }\n }\n );\n const sh0Promise = decodeImageRgba(extraFiles[json.sh0.files[0]]).then(\n (sh0) => {\n const SH_C02 = 0.28209479177387814;\n let rLookup;\n let gLookup;\n let bLookup;\n let aLookup;\n if (isVersion2) {\n rLookup = gLookup = bLookup = json.sh0.codebook.map((x2) => SH_C02 * x2 + 0.5);\n aLookup = new Array(256).fill(0).map((_, i2) => i2 / 255);\n } else {\n rLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[0] + (json.sh0.maxs[0] - json.sh0.mins[0]) * (i2 / 255)\n ).map((x2) => SH_C02 * x2 + 0.5);\n gLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[1] + (json.sh0.maxs[1] - json.sh0.mins[1]) * (i2 / 255)\n ).map((x2) => SH_C02 * x2 + 0.5);\n bLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[2] + (json.sh0.maxs[2] - json.sh0.mins[2]) * (i2 / 255)\n ).map((x2) => SH_C02 * x2 + 0.5);\n aLookup = new Array(256).fill(0).map(\n (_, i2) => json.sh0.mins[3] + (json.sh0.maxs[3] - json.sh0.mins[3]) * (i2 / 255)\n ).map((x2) => 1 / (1 + Math.exp(-x2)));\n }\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n setPackedSplatRgba(\n packedArray,\n i2,\n rLookup[sh0[i4 + 0]],\n gLookup[sh0[i4 + 1]],\n bLookup[sh0[i4 + 2]],\n aLookup[sh0[i4 + 3]],\n splatEncoding\n );\n }\n }\n );\n const promises = [meansPromise, scalesPromise, quatsPromise, sh0Promise];\n if (json.shN) {\n const useSH3 = isVersion2 ? json.shN.bands >= 3 : json.shN.shape[1] >= 48 - 3;\n const useSH2 = isVersion2 ? json.shN.bands >= 2 : json.shN.shape[1] >= 27 - 3;\n const useSH1 = isVersion2 ? json.shN.bands >= 1 : json.shN.shape[1] >= 12 - 3;\n if (useSH1) extra.sh1 = new Uint32Array(numSplats * 2);\n if (useSH2) extra.sh2 = new Uint32Array(numSplats * 4);\n if (useSH3) extra.sh3 = new Uint32Array(numSplats * 4);\n const sh1 = new Float32Array(9);\n const sh2 = new Float32Array(15);\n const sh3 = new Float32Array(21);\n const shN = json.shN;\n const shNPromise = Promise.all([\n decodeImage(extraFiles[json.shN.files[0]]),\n decodeImage(extraFiles[json.shN.files[1]])\n ]).then(([centroids, labels]) => {\n const lookup = "codebook" in shN ? shN.codebook : new Array(256).fill(0).map((_, i2) => shN.mins + (shN.maxs - shN.mins) * (i2 / 255));\n for (let i2 = 0; i2 < numSplats; ++i2) {\n const i4 = i2 * 4;\n const label = labels.rgba[i4 + 0] + (labels.rgba[i4 + 1] << 8);\n const col = (label & 63) * 15;\n const row = label >>> 6;\n const offset = row * centroids.width + col;\n for (let d = 0; d < 3; ++d) {\n if (useSH1) {\n for (let k = 0; k < 3; ++k) {\n sh1[k * 3 + d] = lookup[centroids.rgba[(offset + k) * 4 + d]];\n }\n }\n if (useSH2) {\n for (let k = 0; k < 5; ++k) {\n sh2[k * 3 + d] = lookup[centroids.rgba[(offset + 3 + k) * 4 + d]];\n }\n }\n if (useSH3) {\n for (let k = 0; k < 7; ++k) {\n sh3[k * 3 + d] = lookup[centroids.rgba[(offset + 8 + k) * 4 + d]];\n }\n }\n }\n if (useSH1)\n encodeSh1Rgb(extra.sh1, i2, sh1, splatEncoding);\n if (useSH2)\n encodeSh2Rgb(extra.sh2, i2, sh2, splatEncoding);\n if (useSH3)\n encodeSh3Rgb(extra.sh3, i2, sh3, splatEncoding);\n }\n });\n promises.push(shNPromise);\n }\n await Promise.all(promises);\n return { packedArray, numSplats, extra };\n }\n let offscreenGlContext = null;\n async function decodeImage(fileBytes) {\n if (!offscreenGlContext) {\n const canvas = new OffscreenCanvas(1, 1);\n offscreenGlContext = canvas.getContext("webgl2");\n if (!offscreenGlContext) {\n throw new Error("Failed to create WebGL2 context");\n }\n }\n const imageBlob = new Blob([fileBytes]);\n const bitmap = await createImageBitmap(imageBlob, {\n premultiplyAlpha: "none"\n });\n const gl = offscreenGlContext;\n const texture = gl.createTexture();\n gl.bindTexture(gl.TEXTURE_2D, texture);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, true);\n gl.texImage2D(gl.TEXTURE_2D, 0, gl.RGBA, gl.RGBA, gl.UNSIGNED_BYTE, bitmap);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST);\n gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST);\n const framebuffer = gl.createFramebuffer();\n gl.bindFramebuffer(gl.FRAMEBUFFER, framebuffer);\n gl.framebufferTexture2D(\n gl.FRAMEBUFFER,\n gl.COLOR_ATTACHMENT0,\n gl.TEXTURE_2D,\n texture,\n 0\n );\n const data = new Uint8Array(bitmap.width * bitmap.height * 4);\n gl.readPixels(\n 0,\n 0,\n bitmap.width,\n bitmap.height,\n gl.RGBA,\n gl.UNSIGNED_BYTE,\n data\n );\n gl.deleteTexture(texture);\n gl.deleteFramebuffer(framebuffer);\n return { rgba: data, width: bitmap.width, height: bitmap.height };\n }\n async function decodeImageRgba(fileBytes) {\n const { rgba } = await decodeImage(fileBytes);\n return rgba;\n }\n async function unpackPcSogsZip(fileBytes, splatEncoding) {\n var _a2;\n const nameJson = tryPcSogsZip(fileBytes);\n if (!nameJson) {\n throw new Error("Invalid PC SOGS zip file");\n }\n const { name, json } = nameJson;\n const lastSlash = name.lastIndexOf("/");\n const lastBackslash = name.lastIndexOf("\\\\");\n const prefix = name.slice(0, Math.max(lastSlash, lastBackslash) + 1);\n const fileMap = /* @__PURE__ */ new Map();\n const refFiles = [\n ...json.means.files,\n ...json.scales.files,\n ...json.quats.files,\n ...json.sh0.files,\n ...((_a2 = json.shN) == null ? void 0 : _a2.files) ?? []\n ];\n for (const file of refFiles) {\n fileMap.set(prefix + file, file);\n }\n const unzipped = await new Promise(\n (resolve, reject) => {\n unzip(\n fileBytes,\n {\n filter: ({ name: name2 }) => {\n return fileMap.has(name2);\n }\n },\n (err2, files) => {\n if (err2) {\n reject(err2);\n } else {\n resolve(files);\n }\n }\n );\n }\n );\n const extraFiles = {};\n for (const [full, name2] of fileMap.entries()) {\n extraFiles[name2] = unzipped[full];\n }\n return await unpackPcSogs(json, extraFiles, splatEncoding);\n }\n async function onMessage(event) {\n const { name, args, id } = event.data;\n let result = void 0;\n let error = void 0;\n try {\n switch (name) {\n case "unpackPly": {\n const { packedArray, fileBytes, splatEncoding } = args;\n const decoded = await unpackPly({\n packedArray,\n fileBytes,\n splatEncoding\n });\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodeSpz": {\n const { fileBytes, splatEncoding } = args;\n const decoded = await unpackSpz(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodeAntiSplat": {\n const { fileBytes, splatEncoding } = args;\n const decoded = unpackAntiSplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray\n };\n break;\n }\n case "decodeKsplat": {\n const { fileBytes, splatEncoding } = args;\n const decoded = unpackKsplat(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodePcSogs": {\n const { fileBytes, extraFiles, splatEncoding } = args;\n const json = JSON.parse(\n new TextDecoder().decode(fileBytes)\n );\n const decoded = await unpackPcSogs(json, extraFiles, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "decodePcSogsZip": {\n const { fileBytes, splatEncoding } = args;\n const decoded = await unpackPcSogsZip(fileBytes, splatEncoding);\n result = {\n id,\n numSplats: decoded.numSplats,\n packedArray: decoded.packedArray,\n extra: decoded.extra\n };\n break;\n }\n case "sortSplats": {\n const { totalSplats, readback, ordering } = args;\n result = {\n id,\n readback,\n ...sortSplats({ totalSplats, readback, ordering })\n };\n break;\n }\n case "sortDoubleSplats": {\n const { numSplats, readback, ordering } = args;\n {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort_splats(numSplats, readback, ordering)\n };\n }\n break;\n }\n case "sort32Splats": {\n const { numSplats, readback, ordering } = args;\n {\n result = {\n id,\n readback,\n ordering,\n activeSplats: sort32_splats(numSplats, readback, ordering)\n };\n }\n break;\n }\n case "transcodeSpz": {\n const input = args;\n const spzBytes = await transcodeSpz(input);\n result = {\n id,\n fileBytes: spzBytes,\n input\n };\n break;\n }\n default: {\n throw new Error(`Unknown name: ${name}`);\n }\n }\n } catch (e) {\n error = e;\n console.error(error);\n }\n self.postMessage(\n { id, result, error },\n { transfer: getTransferable(result) }\n );\n }\n async function unpackPly({\n packedArray,\n fileBytes,\n splatEncoding\n }) {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n const extra = {};\n ply.parseSplats(\n (index, x2, y, z, scaleX, scaleY, scaleZ, quatX, quatY, quatZ, quatW, opacity, r, g, b) => {\n setPackedSplat(\n packedArray,\n index,\n x2,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding\n );\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3, index, sh3, splatEncoding);\n }\n }\n );\n return { packedArray, numSplats, extra };\n }\n async function unpackSpz(fileBytes, splatEncoding) {\n const spz = new SpzReader({ fileBytes });\n await spz.parseHeader();\n const numSplats = spz.numSplats;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra = {};\n let extraCallbacks = {};\n if (spz.flagLod) {\n const childCounts = new Uint16Array(numSplats);\n const childStarts = new Uint32Array(numSplats);\n extra.childCounts = childCounts;\n extra.childStarts = childStarts;\n extraCallbacks = {\n childCounts: (index, count) => {\n childCounts[index] = count;\n },\n childStarts: (index, start) => {\n childStarts[index] = start;\n }\n };\n }\n await spz.parseSplats(\n (index, x2, y, z) => {\n setPackedSplatCenter(packedArray, index, x2, y, z);\n },\n (index, alpha) => {\n setPackedSplatOpacity(packedArray, index, alpha);\n },\n (index, r, g, b) => {\n setPackedSplatRgb(packedArray, index, r, g, b, splatEncoding);\n },\n (index, scaleX, scaleY, scaleZ) => {\n setPackedSplatScales(\n packedArray,\n index,\n scaleX,\n scaleY,\n scaleZ,\n splatEncoding\n );\n },\n (index, quatX, quatY, quatZ, quatW) => {\n setPackedSplatQuat(packedArray, index, quatX, quatY, quatZ, quatW);\n },\n (index, sh1, sh2, sh3) => {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n encodeSh1Rgb(extra.sh1, index, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n encodeSh2Rgb(extra.sh2, index, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n encodeSh3Rgb(extra.sh3, index, sh3, splatEncoding);\n }\n },\n extraCallbacks\n );\n return { packedArray, numSplats, extra };\n }\n const DEPTH_INFINITY_F16 = 31744;\n const DEPTH_SIZE_16 = DEPTH_INFINITY_F16 + 1;\n let depthArray16 = null;\n function sortSplats({\n totalSplats,\n readback,\n ordering\n }) {\n if (!depthArray16) {\n depthArray16 = new Uint32Array(DEPTH_SIZE_16);\n }\n depthArray16.fill(0);\n const readbackUint32 = readback.map((layer) => new Uint32Array(layer.buffer));\n const layerSize = readbackUint32[0].length;\n const numLayers = Math.ceil(totalSplats / layerSize);\n let layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i2 = 0; i2 < layerSplats; ++i2) {\n const pri = readbackLayer[i2] & 32767;\n if (pri < DEPTH_INFINITY_F16) {\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n let activeSplats = 0;\n for (let j = 0; j < DEPTH_SIZE_16; ++j) {\n const nextIndex = activeSplats + depthArray16[j];\n depthArray16[j] = activeSplats;\n activeSplats = nextIndex;\n }\n layerBase = 0;\n for (let layer = 0; layer < numLayers; ++layer) {\n const readbackLayer = readbackUint32[layer];\n const layerSplats = Math.min(readbackLayer.length, totalSplats - layerBase);\n for (let i2 = 0; i2 < layerSplats; ++i2) {\n const pri = readbackLayer[i2] & 32767;\n if (pri < DEPTH_INFINITY_F16) {\n ordering[depthArray16[pri]] = layerBase + i2;\n depthArray16[pri] += 1;\n }\n }\n layerBase += layerSplats;\n }\n if (depthArray16[DEPTH_SIZE_16 - 1] !== activeSplats) {\n throw new Error(\n `Expected ${activeSplats} active splats but got ${depthArray16[DEPTH_SIZE_16 - 1]}`\n );\n }\n return { activeSplats, ordering };\n }\n const messageBuffer = [];\n function bufferMessage(event) {\n messageBuffer.push(event);\n }\n async function initialize() {\n self.addEventListener("message", bufferMessage);\n await __wbg_init();\n self.removeEventListener("message", bufferMessage);\n self.addEventListener("message", onMessage);\n for (const event of messageBuffer) {\n onMessage(event);\n }\n messageBuffer.length = 0;\n }\n initialize().catch(console.error);\n})();\n//# sourceMappingURL=oldWorker-Ga0lx4u7.js.map\n'; const blob$1 = typeof self !== "undefined" && self.Blob && new Blob([jsContent$1], { type: "text/javascript;charset=utf-8" }); function WorkerWrapper$1(options) { let objURL; @@ -2542,7 +2542,7 @@ class FullScreenQuad { this._mesh.material = value; } } -const jsContent = '(function() {\n "use strict";\n class ChunkDecoder {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(ChunkDecoder.prototype);\n obj.__wbg_ptr = ptr;\n ChunkDecoderFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n ChunkDecoderFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_chunkdecoder_free(ptr, 0);\n }\n /**\n * @returns {any}\n */\n finish() {\n const ptr = this.__destroy_into_raw();\n const ret = wasm.chunkdecoder_finish(ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {Uint8Array} bytes\n */\n push(bytes) {\n const ret = wasm.chunkdecoder_push(this.__wbg_ptr, bytes);\n if (ret[1]) {\n throw takeFromExternrefTable0(ret[0]);\n }\n }\n }\n if (Symbol.dispose) ChunkDecoder.prototype[Symbol.dispose] = ChunkDecoder.prototype.free;\n class CsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(CsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n CsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n CsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_csplatarray_free(ptr, 0);\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.csplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.csplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.csplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.csplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.csplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.csplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.csplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats() {\n const ret = wasm.csplatarray_to_packedsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats_lod() {\n const ret = wasm.csplatarray_to_packedsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_csplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_csplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_csplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_csplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n }\n if (Symbol.dispose) CsplatArray.prototype[Symbol.dispose] = CsplatArray.prototype.free;\n class GsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(GsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n GsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n GsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_gsplatarray_free(ptr, 0);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_gsplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_gsplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.gsplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.gsplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.gsplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.gsplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.gsplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.gsplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.gsplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats_lod(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats_lod(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_gsplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_gsplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n }\n if (Symbol.dispose) GsplatArray.prototype[Symbol.dispose] = GsplatArray.prototype.free;\n function bhatt_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, rgba) {\n const ret = wasm.bhatt_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function bhatt_lod_packedsplats(num_splats, packed, extra, lod_base, rgba, encoding) {\n const ret = wasm.bhatt_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function decode_to_csplatarray(file_type, path_name, encoding) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_csplatarray(ptr0, len0, ptr1, len1, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function decode_to_extsplats(file_type, path_name, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_extsplats(ptr0, len0, ptr1, len1, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function decode_to_gsplatarray(file_type, path_name) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_gsplatarray(ptr0, len0, ptr1, len1);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function decode_to_packedsplats(file_type, path_name, encoding, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_packedsplats(ptr0, len0, ptr1, len1, encoding, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function dispose_lod_tree(lod_id) {\n wasm.dispose_lod_tree(lod_id);\n }\n function get_lod_tree_level(lod_id, level) {\n const ret = wasm.get_lod_tree_level(lod_id, level);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function init_lod_tree(num_splats, lod_tree) {\n const ret = wasm.init_lod_tree(num_splats, lod_tree);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function new_lod_tree(capacity) {\n const ret = wasm.new_lod_tree(capacity);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function new_shared_lod_tree(orig_lod_id) {\n const ret = wasm.new_shared_lod_tree(orig_lod_id);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function sort32_splats(num_splats, readback, ordering) {\n const ret = wasm.sort32_splats(num_splats, readback, ordering);\n return ret >>> 0;\n }\n function sort_splats(num_splats, readback, ordering) {\n const ret = wasm.sort_splats(num_splats, readback, ordering);\n return ret >>> 0;\n }\n function tiny_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, merge_filter, rgba) {\n const ret = wasm.tiny_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function tiny_lod_packedsplats(num_splats, packed, extra, lod_base, merge_filter, rgba, encoding) {\n const ret = wasm.tiny_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function traverse_lod_trees(max_splats, pixel_scale_limit, _last_pixel_limit, lod_ids, root_pages, view_to_objects, lod_scales, behind_foveates, cone_foveates, cone_fov0s, cone_fovs) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(root_pages, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArrayF32ToWasm0(view_to_objects, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArrayF32ToWasm0(lod_scales, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ptr4 = passArrayF32ToWasm0(behind_foveates, wasm.__wbindgen_malloc);\n const len4 = WASM_VECTOR_LEN;\n const ptr5 = passArrayF32ToWasm0(cone_foveates, wasm.__wbindgen_malloc);\n const len5 = WASM_VECTOR_LEN;\n const ptr6 = passArrayF32ToWasm0(cone_fov0s, wasm.__wbindgen_malloc);\n const len6 = WASM_VECTOR_LEN;\n const ptr7 = passArrayF32ToWasm0(cone_fovs, wasm.__wbindgen_malloc);\n const len7 = WASM_VECTOR_LEN;\n const ret = wasm.traverse_lod_trees(max_splats, pixel_scale_limit, isLikeNone(_last_pixel_limit) ? 4294967297 : Math.fround(_last_pixel_limit), ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, ptr4, len4, ptr5, len5, ptr6, len6, ptr7, len7);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function update_lod_trees(lod_ids, page_bases, chunk_bases, counts, lod_trees) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(page_bases, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArray32ToWasm0(chunk_bases, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArray32ToWasm0(counts, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ret = wasm.update_lod_trees(ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, lod_trees);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_boolean_get_a86c216575a75c30: function(arg0) {\n const v = arg0;\n const ret = typeof v === "boolean" ? v : void 0;\n return isLikeNone(ret) ? 16777215 : ret ? 1 : 0;\n },\n __wbg___wbindgen_debug_string_dd5d2d07ce9e6c57: function(arg0, arg1) {\n const ret = debugString(arg1);\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_in_4bd7a57e54337366: function(arg0, arg1) {\n const ret = arg0 in arg1;\n return ret;\n },\n __wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof val === "object" && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === void 0;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "number" ? obj : void 0;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "string" ? obj : void 0;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() {\n return handleError(function(arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments);\n },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() {\n return handleError(function(arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments);\n },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, void 0);\n table.set(offset + 0, void 0);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n }\n };\n return {\n __proto__: null,\n "./spark_worker_rs_bg.js": import0\n };\n }\n const ChunkDecoderFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\n const CsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\n const GsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n function addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n }\n function debugString(val) {\n const type = typeof val;\n if (type == "number" || type == "boolean" || val == null) {\n return `${val}`;\n }\n if (type == "string") {\n return `"${val}"`;\n }\n if (type == "symbol") {\n const description = val.description;\n if (description == null) {\n return "Symbol";\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == "function") {\n const name = val.name;\n if (typeof name == "string" && name.length > 0) {\n return `Function(${name})`;\n } else {\n return "Function";\n }\n }\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = "[";\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for (let i = 1; i < length; i++) {\n debug += ", " + debugString(val[i]);\n }\n debug += "]";\n return debug;\n }\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n return toString.call(val);\n }\n if (className == "Object") {\n try {\n return "Object(" + JSON.stringify(val) + ")";\n } catch (_) {\n return "Object";\n }\n }\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\n${val.stack}`;\n }\n return className;\n }\n function getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n }\n function getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n }\n function getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n }\n let cachedDataViewMemory0 = null;\n function getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || cachedDataViewMemory0.buffer.detached === void 0 && cachedDataViewMemory0.buffer !== wasm.memory.buffer) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n }\n let cachedFloat32ArrayMemory0 = null;\n function getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n }\n function getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n }\n let cachedUint16ArrayMemory0 = null;\n function getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n }\n let cachedUint32ArrayMemory0 = null;\n function getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n }\n let cachedUint8ArrayMemory0 = null;\n function getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n }\n function handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n }\n function isLikeNone(x) {\n return x === void 0 || x === null;\n }\n function passArray32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getUint32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n }\n function passArrayF32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getFloat32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n }\n function passStringToWasm0(arg, malloc, realloc) {\n if (realloc === void 0) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr2 = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr2, ptr2 + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr2;\n }\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n const mem = getUint8ArrayMemory0();\n let offset = 0;\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 127) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n WASM_VECTOR_LEN = offset;\n return ptr;\n }\n function takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n }\n let cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n const MAX_SAFARI_DECODE_BYTES = 2146435072;\n let numBytesDecoded = 0;\n function decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n }\n const cachedTextEncoder = new TextEncoder();\n if (!("encodeInto" in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function(arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n }\n let WASM_VECTOR_LEN = 0;\n let wasm;\n function __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n }\n async function __wbg_load(module, imports) {\n if (typeof Response === "function" && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === "function") {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n if (validResponse && module.headers.get("Content-Type") !== "application/wasm") {\n console.warn("`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n", e);\n } else {\n throw e;\n }\n }\n }\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n function expectedResponseType(type) {\n switch (type) {\n case "basic":\n case "cors":\n case "default":\n return true;\n }\n return false;\n }\n }\n async function __wbg_init(module_or_path) {\n if (wasm !== void 0) return wasm;\n if (module_or_path !== void 0) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({ module_or_path } = module_or_path);\n } else {\n console.warn("using deprecated parameters for the initialization function; pass a single object instead");\n }\n }\n if (module_or_path === void 0) {\n module_or_path = new 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SBUW/4EHXbJhQSYeIGbaAZ8ZJFmyopSZhMq3xNJEQEEK33FkJ1c1u+H9bbYC1VBRSYtZySUlDyrafLErl4qgYZ/+JDN2fkbpmRflfnFlVIH99tioLATuX/Gq+WUC41jRNXCS2jcKLev+FavOR5gnAYrUv4ywxL1i+acetdGKOMHkwve//n7uVdACezOu/lFxMf+1n/oWpfdcDwXwlr390X53kwf0pFt5Lw7LfLRVfVHTBMfo9Oi7JbFvRSn4tWpRI8310zIi6f8huxJ4curE4XC1c1wKr5Ru9infEoOlciHWdWIbgKXIzVXQKXWYR2NRIBrClmDXPvSvXC/G8l1MIWARe0v9BPq52y8/vLLolzHGCO0HfiEYuiT3h9P701yBH5scQVW9Yti2PWXI8sQzoWd9412/FL+W38CzSz99PIGwqrASl3z7vEfYcA0HqEXRHNFULzVMPqNV2pAISZ5bQVQJsSMCp0ZYO00wDl/x4iGwihC16aaB/SUIQg719T9RBKiY71wEKnBmWl6Oo3qDIVnSvyMnETUUi+zqLlRVJ/GkJb178mrDLtNsGFr2uTjxASMs1vMFd/qIQxZ5tGeLMUl37Ai/wsn9Ll/UBCWFbgGR5PWNcdfKOjr55oKfc1LBDmYi5NJVuMjFvGwvN0QzcUn/t5oO5xr2/yd7MwUhRFGYd6mEhqTpsL71XgvGZZlh+UTF9tAhFBZ7U1DDbg970Tuh+3CENVEcEiQ49D2HWtGKjn5MqTqlVx6xNzVE7T2B7JEM9enIrVJnPsx/QQhEcT+9SCdkPtivCP5/kxFWUZGDqKI1SUqK3sc2F4flq+Hx5kNpa0XInsc+g8C4/41tMS/cO74bOr55AiDM6ytsyIF/20KtqgliE1K4+BX+T/ah0esVqIJP40AXv5sLvu32ISZV1xqq09gsHZN51q6pf7Fr+0DRUZzeIx0IVEBeV9uhz3kCitL8AtH6LTSiOvjvQRNbVymDsw+aaKiB3sWrJxFoJij35KfLdQreokp/EeDhyRnRmPrq1yUqwSdwhX04gR9gTgMhpZD2dX15TKLAjrFTMGmL9gL9NALQ06/TfKZRvgA793nP2DSDxIRP5inh8R2MSulQP9pFpLWtW9+4VnFQ52GntEPE4x3rBKrXpnwRrJifDMquXQ3oquTqys4LgQO6wsgBUfhZYtWmLX1xjnFErXN+DaZib8uPA6zQ3fIBqO5iLMSACYnXPWRKBoi1QQMqAr/1oA/oQQDFbIQq5pFD6I9r5xgD2mFI9retMZhBlOKrQujuDMz9lyBllIIOUfcJow3VgM4CHIB6Q3LTTvEw3BfBRvD1gqugmNhTgB6xhQ8ZvZShPutChM8KaGwSUf0nYByA7MFHGZL1Yo9Jh3E4bUAXoS/1nNf7trMjF/VRioSYIY136wwF+qBn/93moeCW5Rb0ZPbth7KmRvXssCE4vJJQsY44nOGjU9CzZ+wxfuO+8N3lssgmGCDI7DXbQddYW1yGq5W/F80cc4mrqQEtLm4nrFp7It3MX5xkDpNBeGoJvZtlEfOVM3uPiQIwIdVEQBSBKTswOUInObOlYhEmmVAdrWd6AEOetPQsmrqRbD+oGQzJXIRQfm45K7FlQcujxR2p9dnYvEb847NY60EeiL5dAHtYSutQvCisKxIRbj7h7FSeIlGqOOci0zHqobTVUzG26tV/AlmWf831JKEaEqAKLJmG1sb3+B+5fnnBVJNYAK/P6IR0vfYfp9IQQbTiGQhl2ftQyPK3287pTiEKEpNOg0B+PPcnacayo6GxUKNEEiAsnbgw+Ugwa1CGIahsBoVaFdabKJPBIkcUV9EKfwwqoJtQMfrMsWbc2WnBTRrHMVTKLEJpd+XMiAvMMZA0xojW/lOngezzl90FUaEANfwnDLnkkW5kKInETrIBTE9vJMfgbcm59TqsMVJikZdrQv4B0I04KH6JQ0m29zH8nQHawS5cOxVBHdAMElqBP8RCVXV9403qlVFEExL5IYO5buLO0VwlUUa1mR/bq2HuUdFTy0TZm17OLXet40MhNeZRpLIaH/4qfbjRkWwv4Xtv7gnWmJv9uRUvGfm3L+HTGfrALitVcpm9P2Q6EHvxL+xleDWqOt84GI9JSJyW4XvbgtJDEMmXCiqjH663tKHXaTnLaep1+GpQpffHONThJUuENkhpH3507NdlvQMOIWaaZU/ed19aGigFRyBL2aHAHoVP6waTmlZdB0xyK24BECIuo9HcSHDn8EUnmr41gWgqpkjSS1KdKehaZXlhzvG5HqXtg2EVpDgxPI9t1xdRE2pXaOhJUwFGQYenRVztIVg04UsuW6PBl9npjR6oFHGxKxTI/P9MUvDmP/wjKxDBFW3R9zA3K3u9E7v3N/3U8VrNTnT4ROpSrGCq9Q39SjGuvk8LESUafau2ZtkgtlphAmHm1eVyVR0WrACHdO/s8UsGUINq1upYWF8MoU4v0DGo4/xUEsZYdzU9b+TK1+QhBxjzZSdz5pUOiLPqBYHlMUTjPEJhWOg2TiLk7I7uVnGSJAdXCacaT9mrphemrfwR8VSEmGAMeG3qAUfYyiK9kTGprbp8B4KBbJWZwvi3bPGKGA0tHwlrJbO3CD+y1UAx9kkCODVp5PGSUmMr2cFGITfnTsI+yFo1+ur37sw5k6GJ2R5yxnZ4z3mVue5zRASR4CuxB8oMC3OkD5whAhyO0Sw+kUm8iwZUmQt/NUKTqpFzMk2sH6HL9bdKUwqrOIkx2gVii5HHJXuWhnXkpwNXwSSGxy56NOredCAfZczEIbF1oHT+FMopihk4EzdH8T4hyYZNEMcGX/RPwwoKgvTA0Svr0FEMw+P1Y7PciSO5+QFi4tBxR/Ds8rikx6dwrHNBw9fIRsD2lhW9ZvrIpm/KARTJulR1PDOfLLi1ctgDsJFh8CjxkoNMjuvm6tOGCKixtTYfkPmSA9VTdlbCN8NjcRqLn3U79ojCqFfkcsGwSFFRKo9Sjvgi91Jl5Z9yFF5hoLiZl51bE9Cdjalzo1688QTuv/10oejQuO0T2JAuYDFSLm/43dZXCO8UWNK4PfRBrV7794qj8G+bZLOPuxC2sQyuvvFpXPR7ekXgZ6ns6FFL3mq1x6wxnlTfaHGEZCpxk2cOt5LBowr/D5VM9riQgQQ0xmmLcg/NpsOCrDxqsKFFTff37lKLsRiMb0c7hWDRkq1x/eHvMpFir48ZBmrFAfeubTSvM32k0aO5cawGuSExngiB3wxVDh4Ak9IbAGdxgfGOskbPekGVlMjClcyJQeE+8Sl6MaB7C3r/eZOf0cE9iq13xM4QicpZt1AIg85BeOlQ2cnxkLA48CkwCqS90deX2IwQPw5mGZ4VtASk+qEtec6rEErGC6/9ly0BzjVBcNRGXeBdf4qH+QjwTkGyodiEr/qmOGm8lPutmCblE6Eiodv5X8ZwK84yiQI8rlyBZ05C67+wEDqxwzdKw8H3scyU79VD3h4erxn8jrhfPMEXuiPKqMWZpl7se6ZmcwQBYay8vU7+8A/+l5aUCBPNAb8F7/5PWVYD8y7EHI0CViEaw2P15zuzjPPmdS+kSvuhVXBM81UOoGgw4B5zgWWykbtmKhIXJS5BGpYJDj7dj5EGS7CaoOZ11W03h0XClPOBU9KoxU0sD0KwiXkbPzYoYaZprXdIP4eBtl/jpQ2P2TEACBDVKkNldi/r1JZE79uBRA4ZBmTQTt+n0tXP2hPOcZyIwaYLAi1LxunFk+5YUwEPovIXhcKwlsigPwjV6nPBT4eymWM3YLB20EbDE20UsZ9tqze8BTzkiIBce9g8WeH9poUE1Y9IAtdWOcVnI7wxMQg6RgbjHheFJ8Q+xOCrQYAQBB7+TFAAufOSCamZmZmZmZmZmZmZmZmZkZFa5H4XoUrkfhehSuR+F6FN4kBoGVQ4ts5/up8dJNYhCW1AloImx4eqUsQxzr4jYaq0Nuhhvw+WGE8GjjiLX4FCI2WDhJ88e0No3ttaD3xhBqI43ADlKmh1dIr7ya8tcaiE/XZqVBuJ/fOYww4o55FQemEh9RAS3mspTWJugLLhGkCVHLgWiu1re6vdfZ33wb6jqnojTt8d5flWR54X/9FbvIhej28Cd/GRHqLYGZlxH4DdZAvrQMZcKBdklowiUck3HeM5iQcOoBmyuhhpuEFkPBfingpvMhmxVW556vAxI3NTEPzdeFaSu8idiXstIc+ZBaP9ffNyGJltRGRvUOF/pzSMxF5l/noKtD0tFdchJdhg16PD1mpTSs0rZPyYMdsZ7XlGOXHlFdI0KSDKGcF8FLed2C337afU+bDgq04xJorFti0ZhkKpblXhcQIDkeU/Digafgtu5EUbISQLMtGKkmT85STZJYaqeOqJnCVxNBpH6wt3tQJ6rYfdr10PIeNFBlwF/JplK7E8uuxEDCGJCm6plM1OsOyQ888jaazhOAChHDrVN5sUEZYFC+9rAfZwh0AovcLcFnR7Om/l5aGVKgKTVvsCQ0hp/C6/5LSBTbGe6Q8lkdkJ5/aIll1jkQXymwtB3D+0yXMqeo1SP2GbK6WV2xNZY9rFsfunfpxBQoYuF9J16rl1ZJTPuSh50QDZ1oydjJq/LwDnr4t6WVGj4Xujp6obxbWnIuLZOERBXLRfsuyBrKr66Oi4pCnQMRRQmSsab33LJK5Hiqnfs4GwShQcHrkn31boMtVbEvxxUDtGdniXVkxFicV3cnJmwR0uyl2NuIbW30xiXyCz3gG9sj60YWB76KwzgeKKP9TBZJtlXSEWz+bpxgS1NPMdcRDorvtk8Tl7FgZ0WFGIKLHKWhv/hyD6wnGrlqN60B1hYeTplgwnJWueFgVSwkzkQSlRbCzQMeV/U1zrsTbeM6HaurAQsDGKwqK9gvdopPYhdWiTRvAuC8u1UT88RuDLUSiajtsdDMx5LvHrjUSnruHQe6V45ACtPb8kuTEG/78RcGyN9xANWofPVvD9pY/CcT1gxm6TO7p/q7TLIpjmCmHhHXhIcp/FKVyaOOVAsahRgOrNDSusmoqgeD2HZvrp0T46waHl7c2t2l0cBXsrBiH0+KSEtLsEh+UUGarI7AGxnZodPV1Vlty9rN4ValMxYUe4HcdxF7Vzzi1+er6sIRECrPYFmCXvLGNiamrKoEthm7pYBHaBj1a8VR61ZVnZEUloQABu15KiPRpyLf3X10EFYHNKPhj93RgQzRMZb8UxpFbPboGnPkpzQ9p/RE/Q8Vnlb4U+IoHVNdl1JdapfZEGJXjbkD22HrLvJQlRC/9RroRaTHz0hOvFhb2t2mZZEVIGuDbNnTcWOt4uEXHx5BEc0Rn60ohhyfSAQD82RjmxsL2xi+U2uw5QadNY8d6RUWohVHyw+J8+prSpFy5CCrETe8cXhM27hERqobhG0BRRxfY8HG1hXHAwVVSQO+mp0WGenNa0XeODY3dwdp/q4XEsFBFkaiY8FWWFhyDpex8hzOZ6vRgRwB33kT9XESjigXpexVQc4WNH9h3JDBDtiGEm5HVjV9JCBlAsfnaOSMpB0lOXj3MB2A6gFsuSAd17YXhPos+fOwmbs0I2FNF6z4Ejn3RyhTTlxfVDhoFfKsWh4uLNO5dQt9f0NgU0RbikgYWCPcx/fVMJnPGak2fDttEybS+XKMibSOso8O8fkrFR+4QS6PowcqciimC/THvN0Y+pq+pU85u8GGHtZcBpfkE/b3MAkZwl6c1zDw+tYk1B/4X1oHFGjlSXmNJi/fg3YZYObhBRAgUW7HClK/5c9eFBqFgdEMgNrxBW8OmYTZSxD11GiCFADET9bk4/Sg9RIaK3ftAaqZadkRtxz3s/fbFLzFigGIFO6tdJKwxVz5rxAsCd5opu18SVTqgG+UKLMaJNTkU7hXyjoQVZq/diBcFYN2HUNgeTtic6qu/16AFhGevcjRZvUrnbgQsTLLM1cbf2RtQVLEvH1gDfSOolzfFcy2imfbaf3K5j3D2E59fxHfindyxQ8vq9cvBY7kLv8bgNWSWwRz8oisjGo+Hb9lFmZEQknQKPXTVj1VmEr/6hGjoANCTUGIuVeVu/MQMqsc6eYCaNfNOWF5d/zCQFvvFlRSAiB5cWHnLfnJaM0VWRKGUJ2ZjrVopXxbdnQVVlsd0qZK4T6RIFH9FcX23UR8Fw4fohr/QE2nykQ3krHQyRJKy2n3ZM6uCxFuWFBPtA8eOzzuxVDYizyn8XlzP5AMGMnJ8TfaeQnKhfTHwjJAPRPbQum/9sKoqW+6DJ63Zsge45u6zCvPUyEmlXB+LFKgGIJJlXCJcqkauN0mZfB0sxOddYgaD4R194wvPgjnh4UfF16ge3I2kV8KJpgG7J83Gd/kGZZb+EAZ1YRGBfB/LBRM6kerr8YA4RA3BdGMmSMQR90/RUykZ87nJNW0R4/SGQaxzJ3W6VLYH7fdw59yqBQ4JwpLRe7beRksfmkZwoYQWdipEaLjXymPRjAPjzZxGnoTu6eBHLO6pWvz2NheJxUvqZXsmuMoYlGJj63gS+wQF3Xv4Pc4Dp3oDkyvmqwTG3kqWRqTLdiwU3LWJeJWqRUuVUdID755jdzB3reBRVQRfLsL2n6WjxWUnJeMzwi6G5cv1hT/EaZ3drDf1nJtLhZ5jN5D/6dR+ZHzsnj1vb4Rjq390v4/HMIc7LdaImNkHNiKZEIyM7ABF/BfFbW1thZGooObjsJZAaxZ5t2QxCsSowM5XxcE9s6swqP8GtQSHYOcLUysaV5yvZscykhDQhec44rWiVQY9f3iFggHaZsSxgWrvQ9Uje4va/EM2HTFHQVrIv5ydte+jCLBcEYq0RcEvE7LKMUS/9ZOZ41ruw0ToPl9eHQ7Ucskfth7El98Hk1h/vkpyQ0JtzGt/EF/YxgKgcuUIdTXoMUnJMo0zIITd854VM+5v2dvDG1DIa03H/lxLd2llMwfWXCKz01X+RjH9L19Ud3Wf3rzoT8+rPoTC+4vyeguvv/DuJwy/Xn3H9Yk86AgvzFmNvoWwv3Hkhl4HVwaGswnuF77qwHLbHUUYOR8e64JU5MYybxnovBdEJmglMWwQuse9HSUP2rnLxrh5nYEJwKJ5Vwq3TKIH/MU5+srnYXOoLew7rAooH/CENjf32FvSgFZtEpOdDPM0BqtTObnJdXN4CmiPpCP1nMV8dZRhlF3cU3utMvZcngpEehX6dbovuh7sFSsj4SNdRsgEyHfUzK6/FndiQxqpPcVgELnGEMoyGOuSm5w7umSEWZq2Cc4DQ0GFxFKGhdDHhzrIa3sLKQ9axJ0bnsSnH4WVk5XvfAc/ojbXFj8QeP+ESNKJWK0lJZBX2GNYDYFyxzp1B3oKaqrZ3/nPU340AgXh90XILshVrkyuWTX+XNtEqWVjGYraSPC6sE68sLsex0d3tYeibqCzrs0YlsCV5YXGBjfSwdiNaX89rTiAazeElnzZHnYnIg7lPGHNzYTMR7h9YPHRkpt/NxaBsaRQicYGisDBp9uVzAXr57Rp5tSE5De0TzLfSUaJRgxHKaS6h5A5acwPP4dSLd5WuOEqLsYAFGGwMkxS9PFx66CnVPJE820o81C6RFSCaYX0ciFqB+kkBw+AiHbdAe430A6nlMZUA1KywG0FfcFYBln++RCFKcKCAmbKd74N7N6UvyDNRDX3QyokUIwjlm4KreTOe8ZE0sKIA4CjT7h+e74QmG/FA88CIA+mz1l58dY+psamRDkLA0AZPjIbqUMjpD5kI4a6iOkmen504u3o3FAYdo+FbscUOG6lKk8+YL0mRoV/xArYbObxLp1x47RIMNduzEbiRopFmqVxNILDudosWLBFaF7uhGId9Dbbz4fhyeCZxGbkl0cQL+ALOZjmD4/0NgbSXXkSTPMM71RtkZl/wxHFtRdUG6P1o/Kp14FUcxw0hFTybPjS1cZRNn9bk6t54McqTr2ggl5RwPhlyWliuzPFrr7xGjUYGzPgHmE6m7wPxIq+QcOhzR65Zr10xBLGjMdIpQ5C2yQLlHiKkPaCBVcF7Wpx9W8povagVXP4dMQsBKHD9kiLnHfkJxV5QJTgeYdbAwUT4taTNoW3h3PqJrrF4qjqaWie6OueH6xpSDiIhOpBamial/SfSeXtaKaNp4eVNEggoh/25cfrPdOFZJ+GHengM4GZnx5TCPG2N10mBPxCwHkCnAtj61royeWVFofWtYAUKJZJAy+77UfeBAVGRVFmtmBFB1w/vL3svnZEBR3ansUm0MXwP5bxiguew0Q8kOS7cQF8szKLAoOfSuvGcKcDr7QN1sKb72hccoijBTO4z7Lc/lICIyXtCfVG3AQsJ9keOxbDtqsJVQMVflMGsB/UGDwrz57vbep1hBhChUzZkCA87/LlZcs7t5zGtUQUnDNZlJmrO9YR7BkuZDuGttZpLgOhSMmR2zztvqmixVJrraT2NCCHmwjKV+VhTwRdbCKH/Qanv2sOKj+7giUG/dZ1bIpr7GXvZOGmCUHEBYse3f1uiWOrJfcnhMebKYRE8VYIisJfXq/Lf64yXk9HHZqrU7voP1hzFfLYKGUlxbF7r0LWRr+5wkTCedN3RISOrH8RVtdY6bchA7Yr/vqHMiNMGuvShyFsNA+E/NiIhfU1ya88m7j0Cbay3XC6IEShoykxuoXn7TXKUaJnaecHWtwUAXv3xgqRu4EoReGsBeJ89mdJbPgVGuLnU15nvMSdFL2Ym/rzYd4RS98KJdSHl2oXoK/IgvTxmq/yYYSQhjkuUtozBs8D5+I/zrSDmgTbSl5QHosYBiY2piRg+QMHyQhlDPIVrNGE+ITDjYd1xi2TUMpoHiPONy03KSRSt8Tiq9rqGYnf1pgIWGhgqrLH6K/77nrhTIVTbRNtJu7bxlOmYxhidGOqj2QpPbiYlkUDOHWGqGn2O7K2bYrT4JHEEWbJF6bcid+EfaK37EDDBoESR0YSfWF/g34OxlbadYU0KBKE9Rdnsuk+S8UfIerEE0BEVJTyWPfOlzmufkLrBpxZ9p0D6EcGS+wHvv6b1YVwVJIKtmAsK0lwEsvL/MRETRRDaqONOcVCc0Ssn7rTxvEDXHuPl0fq20KDygyidkVnaSNi2UXGbxXCAwgKNR6EZQ6fBI88vQsWQ3gzNm59xtDlZbb/PTD8OA9s3Dhx18WAxESFpddNloay/UmgTnmEQToHPAk/FaQkN4iCzWPoxzQ7OOMHTDf2aZLgqJdP+kW2iODPbFZf+Hros5OsTJUElw5OC+1wstoedF95E6EUx3jLWC/XTXWU5SnZFByA3YXHIvmZbEqeKl27Lamjs/EEvpE12+1qiYP8ROL132yBx5iat+/KiJSPydDb6xkKAYYToh/mYhO22UfnPKJUCA4E0oNzCh0SsVvZZPqD7QzwB47pAmH9qFqWYQPInP2wpkYlrYHbPjn7q022bT1kTWuE1ZXDODzP35JJPW6IoMifR9FrNZM9v9k1OmQleho6DAZ0Yl4Pfj/g0Puc0TtUyAnFHShk5fGzJzP8Y8D8Q9NHxBSArklpEdhfxyzBeh/rssZDzXHt+nSTcwWXNHs//GiFNmQ0l8hDws9ErDaIzNbghDB51CZaEurYVCzKgaFK2oaZ7lAFLqiIk5AXFVrarwhFVOUAN2U6E4LzUlEvO7J5xBR7QDIh9oXEkip08ZKdgwb2r0AoGxIRttsh9xr1ZGjFa9kzUy9BgVJip/j792nTxGxOuJ6yAoIqEP/OOYvprIb9C7o+zmiOVNp/5Me84QoFl3y7C/7tMd1h/8PsvUDuhEu6kfmkSHZIj//f7Yi01wc8lQGhUGBerVl//+R6KiwFvVDODcBAWLEtzIz24btJhLun/PxAWg2OlmE65GkFQsdixn2J5u5Xvvgabx0UBE8F9Z6Xobi+n4v54djXUB0lhJWkf3W0PeX5XHZOGLNhr0dq9rKeA2TeYTBei3oPdLKF1YVby1xQmHQmsiKhjGoCBMiIhivTmpoTZHaqj1PQHQe6LR58j6IU6TarohkPwBdGI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self.location.href);\n }\n const imports = __wbg_get_imports();\n if (typeof module_or_path === "string" || typeof Request === "function" && module_or_path instanceof Request || typeof URL === "function" && module_or_path instanceof URL) {\n module_or_path = fetch(module_or_path);\n }\n const { instance } = await __wbg_load(await module_or_path, imports);\n return __wbg_finalize_init(instance);\n }\n const rpcHandlers = {\n sortSplats16,\n sortSplats32,\n loadPackedSplats,\n loadExtSplats,\n tinyLodPackedSplats,\n qualityLodPackedSplats,\n tinyLodExtSplats,\n qualityLodExtSplats,\n newLodTree,\n newSharedLodTree,\n initLodTree,\n disposeLodTree,\n updateLodTrees,\n traverseLodTrees,\n getLodTreeLevel,\n nextChunk\n };\n async function onMessage(event) {\n const {\n id,\n name,\n args\n } = event.data;\n try {\n const handler = rpcHandlers[name];\n if (!handler) {\n throw new Error(`Unknown worker RPC: ${name}`);\n }\n const sendStatus = (data) => {\n self.postMessage(\n { id, status: data },\n { transfer: getTransferable(data) }\n );\n };\n const result = await handler(args, { sendStatus });\n self.postMessage({ id, result }, { transfer: getTransferable(result) });\n } catch (error) {\n console.warn(`Worker error: ${error}`);\n self.postMessage({ id, error }, { transfer: getTransferable(error) });\n }\n }\n function sortSplats16({\n numSplats,\n readback,\n ordering\n }) {\n const activeSplats = sort_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n }\n function sortSplats32({\n numSplats,\n readback,\n ordering\n }) {\n const activeSplats = sort32_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n }\n async function decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n }) {\n if (fileBytes) {\n const CHUNK_SIZE = 1048576;\n for (let i = 0; i < fileBytes.length; i += CHUNK_SIZE) {\n decoder.push(\n fileBytes.subarray(i, Math.min(i + CHUNK_SIZE, fileBytes.length))\n );\n }\n } else if (url) {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : void 0,\n credentials: withCredentials ? "include" : "same-origin"\n });\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch "${url}": ${response.status} ${response.statusText}`\n );\n }\n const readStream = response.body.getReader();\n const contentLength = Number.parseInt(\n response.headers.get("Content-Length") || "0"\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n let loaded = 0;\n while (true) {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n break;\n }\n loaded += value.length;\n sendStatus({ loaded, total });\n decoder.push(value);\n }\n } else if (chunked) {\n let loaded = 0;\n const total = chunkedLength ?? 0;\n while (true) {\n const readNextChunk = new Promise((resolve) => {\n nextChunkWaiter = resolve;\n });\n sendStatus({ nextChunk: true });\n const nextChunk2 = await readNextChunk;\n if (nextChunk2.length === 0) {\n break;\n }\n decoder.push(nextChunk2);\n loaded += nextChunk2.length;\n sendStatus({ progress: { loaded, total } });\n }\n if (total === 0) {\n sendStatus({ progress: { loaded, total: loaded } });\n }\n } else {\n throw new Error("No url or fileBytes provided");\n }\n const decoded = decoder.finish();\n return decoded;\n }\n function toPackedResult(packed) {\n return {\n numSplats: packed.numSplats,\n packedArray: packed.packed,\n extra: {\n sh1: packed.sh1,\n sh2: packed.sh2,\n sh3: packed.sh3,\n sh1Codes: packed.sh1Codes,\n sh2Codes: packed.sh2Codes,\n sh3Codes: packed.sh3Codes,\n lodTree: packed.lodTree\n },\n splatEncoding: packed.splatEncoding\n };\n }\n async function loadPackedSplats({\n url,\n requestHeader,\n withCredentials,\n fileBytes,\n fileType,\n pathName,\n chunked,\n chunkedLength,\n encoding,\n lod,\n lodBase,\n lodAbove,\n nonLod,\n sh1Codes,\n sh2Codes,\n sh3Codes\n }, {\n sendStatus\n }) {\n if (!lod) {\n const decoder2 = decode_to_packedsplats(\n fileType,\n pathName ?? url,\n encoding,\n sh1Codes,\n sh2Codes,\n sh3Codes\n );\n const decoded2 = await decodeBytesUrl({\n decoder: decoder2,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n const result2 = toPackedResult(decoded2);\n if (result2.splatEncoding.lodOpacity) {\n return { lodSplats: result2 };\n }\n return result2;\n }\n const decoder = decode_to_csplatarray(fileType, pathName ?? url, encoding);\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n if (decoded.has_lod()) {\n const result2 = toPackedResult(\n decoded.to_packedsplats_lod()\n );\n return { lodSplats: result2 };\n }\n if (lodAbove !== void 0) {\n if (decoded.len() < lodAbove) {\n return toPackedResult(decoded.to_packedsplats());\n }\n }\n let result = {};\n if (nonLod) {\n result = toPackedResult(decoded.to_packedsplats());\n }\n const initialSplats = decoded.len();\n const lodName = lod === "quality" ? "Bhatt" : "Tiny";\n console.log(\n `Loaded ${initialSplats} splats. Starting ${lodName} LoD build...`\n );\n const lodStart = performance.now();\n if (lod === "quality") {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.25));\n decoded.bhatt_lod(base);\n } else {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n decoded.tiny_lod(base, false);\n }\n const lodDuration = performance.now() - lodStart;\n console.log(\n `${lodName} LoD: ${initialSplats} -> ${decoded.len()} (${lodDuration} ms)`\n );\n const lodPacked = decoded.to_packedsplats_lod();\n result.lodSplats = toPackedResult(lodPacked);\n return result;\n }\n function toExtResult(packed) {\n return {\n numSplats: packed.numSplats,\n extArrays: [packed.ext0, packed.ext1],\n extra: {\n sh1: packed.sh1,\n sh2: packed.sh2,\n sh3a: packed.sh3a,\n sh3b: packed.sh3b,\n sh1Codes: packed.sh1Codes,\n sh2Codes: packed.sh2Codes,\n sh3Codes: packed.sh3Codes,\n lodTree: packed.lodTree\n }\n };\n }\n async function loadExtSplats({\n url,\n requestHeader,\n withCredentials,\n fileBytes,\n fileType,\n pathName,\n chunked,\n chunkedLength,\n lod,\n lodBase,\n lodAbove,\n nonLod,\n sh1Codes,\n sh2Codes,\n sh3Codes\n }, {\n sendStatus\n }) {\n if (!lod) {\n const decoder2 = decode_to_extsplats(\n fileType,\n pathName ?? url,\n sh1Codes,\n sh2Codes,\n sh3Codes\n );\n const decoded2 = await decodeBytesUrl({\n decoder: decoder2,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n const result2 = toExtResult(decoded2);\n if (result2.extra.lodTree) {\n return { lodSplats: result2 };\n }\n return result2;\n }\n const decoder = decode_to_gsplatarray(fileType, pathName ?? url);\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n if (decoded.has_lod()) {\n return {\n lodSplats: toExtResult(decoded.to_extsplats_lod())\n };\n }\n if (lodAbove !== void 0) {\n if (decoded.len() < lodAbove) {\n return toExtResult(decoded.to_extsplats());\n }\n }\n let result = {};\n if (nonLod) {\n result = toExtResult(decoded.to_extsplats());\n }\n const initialSplats = decoded.len();\n const lodName = lod === "quality" ? "Bhatt" : "Tiny";\n console.log(\n `Loaded ${initialSplats} splats. Starting ${lodName} LoD build...`\n );\n const lodStart = performance.now();\n if (lod === "quality") {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.75));\n decoded.bhatt_lod(base);\n } else {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n decoded.tiny_lod(base, false);\n }\n const lodDuration = performance.now() - lodStart;\n console.log(\n `${lodName} LoD: ${initialSplats} -> ${decoded.len()} (${lodDuration} ms)`\n );\n const lodPacked = decoded.to_extsplats_lod();\n result.lodSplats = toExtResult(lodPacked);\n return result;\n }\n async function tinyLodPackedSplats({\n numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n const lodStart = performance.now();\n const filter = false;\n const decoded = tiny_lod_packedsplats(\n numSplats,\n packedArray,\n extra,\n base,\n filter,\n rgba,\n encoding\n );\n const lodDuration = performance.now() - lodStart;\n const result = toPackedResult(decoded);\n console.log(\n `Tiny LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n async function qualityLodPackedSplats({\n numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.75));\n const lodStart = performance.now();\n const decoded = bhatt_lod_packedsplats(\n numSplats,\n packedArray,\n extra,\n base,\n rgba,\n encoding\n );\n const lodDuration = performance.now() - lodStart;\n const result = toPackedResult(decoded);\n console.log(\n `Bhatt LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n async function tinyLodExtSplats({\n numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n const lodStart = performance.now();\n const filter = false;\n const decoded = tiny_lod_extsplats(\n numSplats,\n extArrays[0],\n extArrays[1],\n extra,\n base,\n filter,\n rgba\n );\n const lodDuration = performance.now() - lodStart;\n const result = toExtResult(decoded);\n console.log(\n `Tiny LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n async function qualityLodExtSplats({\n numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.75));\n const lodStart = performance.now();\n const decoded = bhatt_lod_extsplats(\n numSplats,\n extArrays[0],\n extArrays[1],\n extra,\n base,\n rgba\n );\n const lodDuration = performance.now() - lodStart;\n const result = toExtResult(decoded);\n console.log(\n `Bhatt LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n function newLodTree({\n capacity\n }) {\n const { lodId } = new_lod_tree(capacity);\n return { lodId };\n }\n function newSharedLodTree({\n lodId\n }) {\n const { lodId: newLodId } = new_shared_lod_tree(lodId);\n return { lodId: newLodId };\n }\n function initLodTree({\n numSplats,\n lodTree\n }) {\n const { lodId, chunkToPage } = init_lod_tree(numSplats, lodTree);\n return { lodId, chunkToPage };\n }\n function disposeLodTree({ lodId }) {\n dispose_lod_tree(lodId);\n }\n function updateLodTrees({\n ranges\n }) {\n const lodIds = new Uint32Array(ranges.map(({ lodId }) => lodId));\n const pageBases = new Uint32Array(ranges.map(({ pageBase }) => pageBase));\n const chunkBases = new Uint32Array(ranges.map(({ chunkBase }) => chunkBase));\n const counts = new Uint32Array(ranges.map(({ count }) => count));\n const lodTreeData = ranges.map(({ lodTreeData: lodTreeData2 }) => lodTreeData2);\n update_lod_trees(\n lodIds,\n pageBases,\n chunkBases,\n counts,\n lodTreeData\n );\n }\n function traverseLodTrees({\n maxSplats,\n pixelScaleLimit,\n lastPixelLimit,\n instances\n }) {\n const keyInstances = Object.entries(instances);\n const lodIds = new Uint32Array(\n keyInstances.map(([_key, instance]) => instance.lodId)\n );\n const rootPages = new Uint32Array(\n keyInstances.map(([_key, instance]) => instance.rootPage ?? 4294967295)\n );\n const viewToObjects = new Float32Array(\n keyInstances.flatMap(([_key, instance]) => {\n if (instance.viewToObjectCols.length !== 16) {\n throw new Error("Incorrect array size for viewToObjectCols");\n }\n return instance.viewToObjectCols;\n })\n );\n const lodScales = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.lodScale)\n );\n const behindFoveates = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.behindFoveate)\n );\n const coneFov0s = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.coneFov0)\n );\n const coneFovs = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.coneFov)\n );\n const coneFoveates = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.coneFoveate)\n );\n const result = traverse_lod_trees(\n maxSplats,\n pixelScaleLimit,\n lastPixelLimit,\n lodIds,\n rootPages,\n viewToObjects,\n lodScales,\n behindFoveates,\n coneFoveates,\n coneFov0s,\n coneFovs\n );\n const { instanceIndices, chunks, pixelLimit } = result;\n const indices = keyInstances.reduce(\n (indices2, [key, _instance], index) => {\n indices2[key] = instanceIndices[index];\n return indices2;\n },\n {}\n );\n return {\n keyIndices: indices,\n chunks,\n pixelLimit\n };\n }\n function getLodTreeLevel({\n lodId,\n level\n }) {\n return get_lod_tree_level(lodId, level);\n }\n let nextChunkWaiter = (_chunk) => {\n };\n async function nextChunk({ chunk }) {\n nextChunkWaiter(chunk);\n }\n function getTransferable(ctx) {\n const buffers = [];\n const seen = /* @__PURE__ */ new Set();\n function traverse(obj) {\n if (obj && typeof obj === "object" && !seen.has(obj)) {\n seen.add(obj);\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n buffers.push(obj.buffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n traverse(ctx);\n return buffers;\n }\n async function initialize() {\n const pending = [];\n const bufferMessage = (event) => {\n pending.push(event);\n };\n self.addEventListener("message", bufferMessage);\n await __wbg_init();\n self.removeEventListener("message", bufferMessage);\n self.addEventListener("message", onMessage);\n for (const event of pending) {\n onMessage(event);\n }\n pending.length = 0;\n }\n initialize().catch(console.error);\n})();\n//# sourceMappingURL=worker-On-THXgb.js.map\n'; +const jsContent = '(function() {\n "use strict";\n class ChunkDecoder {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(ChunkDecoder.prototype);\n obj.__wbg_ptr = ptr;\n ChunkDecoderFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n ChunkDecoderFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_chunkdecoder_free(ptr, 0);\n }\n /**\n * @returns {any}\n */\n finish() {\n const ptr = this.__destroy_into_raw();\n const ret = wasm.chunkdecoder_finish(ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {Uint8Array} bytes\n */\n push(bytes) {\n const ret = wasm.chunkdecoder_push(this.__wbg_ptr, bytes);\n if (ret[1]) {\n throw takeFromExternrefTable0(ret[0]);\n }\n }\n }\n if (Symbol.dispose) ChunkDecoder.prototype[Symbol.dispose] = ChunkDecoder.prototype.free;\n class CsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(CsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n CsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n CsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_csplatarray_free(ptr, 0);\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.csplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.csplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.csplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.csplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.csplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.csplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.csplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats() {\n const ret = wasm.csplatarray_to_packedsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_packedsplats_lod() {\n const ret = wasm.csplatarray_to_packedsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_csplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_csplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_csplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_csplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n }\n if (Symbol.dispose) CsplatArray.prototype[Symbol.dispose] = CsplatArray.prototype.free;\n class GsplatArray {\n static __wrap(ptr) {\n ptr = ptr >>> 0;\n const obj = Object.create(GsplatArray.prototype);\n obj.__wbg_ptr = ptr;\n GsplatArrayFinalization.register(obj, obj.__wbg_ptr, obj);\n return obj;\n }\n __destroy_into_raw() {\n const ptr = this.__wbg_ptr;\n this.__wbg_ptr = 0;\n GsplatArrayFinalization.unregister(this);\n return ptr;\n }\n free() {\n const ptr = this.__destroy_into_raw();\n wasm.__wbg_gsplatarray_free(ptr, 0);\n }\n /**\n * @returns {number}\n */\n get maxShDegree() {\n const ret = wasm.__wbg_get_gsplatarray_maxShDegree(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @returns {number}\n */\n get numSplats() {\n const ret = wasm.__wbg_get_gsplatarray_numSplats(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n */\n bhatt_lod(lod_base) {\n wasm.gsplatarray_bhatt_lod(this.__wbg_ptr, lod_base);\n }\n /**\n * @returns {boolean}\n */\n has_lod() {\n const ret = wasm.gsplatarray_has_lod(this.__wbg_ptr);\n return ret !== 0;\n }\n /**\n * @param {Uint8Array} rgba\n */\n inject_rgba8(rgba) {\n wasm.gsplatarray_inject_rgba8(this.__wbg_ptr, rgba);\n }\n /**\n * @returns {number}\n */\n len() {\n const ret = wasm.gsplatarray_len(this.__wbg_ptr);\n return ret >>> 0;\n }\n /**\n * @param {number} lod_base\n * @param {boolean} merge_filter\n */\n tiny_lod(lod_base, merge_filter) {\n wasm.gsplatarray_tiny_lod(this.__wbg_ptr, lod_base, merge_filter);\n }\n /**\n * @returns {object}\n */\n to_extsplats() {\n const ret = wasm.gsplatarray_to_extsplats(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @returns {object}\n */\n to_extsplats_lod() {\n const ret = wasm.gsplatarray_to_extsplats_lod(this.__wbg_ptr);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {any} encoding\n * @returns {object}\n */\n to_packedsplats_lod(encoding) {\n const ret = wasm.gsplatarray_to_packedsplats_lod(this.__wbg_ptr, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n /**\n * @param {number} arg0\n */\n set maxShDegree(arg0) {\n wasm.__wbg_set_gsplatarray_maxShDegree(this.__wbg_ptr, arg0);\n }\n /**\n * @param {number} arg0\n */\n set numSplats(arg0) {\n wasm.__wbg_set_gsplatarray_numSplats(this.__wbg_ptr, arg0);\n }\n }\n if (Symbol.dispose) GsplatArray.prototype[Symbol.dispose] = GsplatArray.prototype.free;\n function bhatt_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, rgba) {\n const ret = wasm.bhatt_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function bhatt_lod_packedsplats(num_splats, packed, extra, lod_base, rgba, encoding) {\n const ret = wasm.bhatt_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function decode_to_csplatarray(file_type, path_name, encoding) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_csplatarray(ptr0, len0, ptr1, len1, encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function decode_to_extsplats(file_type, path_name, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_extsplats(ptr0, len0, ptr1, len1, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function decode_to_gsplatarray(file_type, path_name) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_gsplatarray(ptr0, len0, ptr1, len1);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function decode_to_packedsplats(file_type, path_name, encoding, sh1_codes, sh2_codes, sh3_codes) {\n var ptr0 = isLikeNone(file_type) ? 0 : passStringToWasm0(file_type, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len0 = WASM_VECTOR_LEN;\n var ptr1 = isLikeNone(path_name) ? 0 : passStringToWasm0(path_name, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n const ret = wasm.decode_to_packedsplats(ptr0, len0, ptr1, len1, encoding, isLikeNone(sh1_codes) ? 0 : addToExternrefTable0(sh1_codes), isLikeNone(sh2_codes) ? 0 : addToExternrefTable0(sh2_codes), isLikeNone(sh3_codes) ? 0 : addToExternrefTable0(sh3_codes));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return ChunkDecoder.__wrap(ret[0]);\n }\n function dispose_lod_tree(lod_id) {\n wasm.dispose_lod_tree(lod_id);\n }\n function get_lod_tree_level(lod_id, level) {\n const ret = wasm.get_lod_tree_level(lod_id, level);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function init_lod_tree(num_splats, lod_tree) {\n const ret = wasm.init_lod_tree(num_splats, lod_tree);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function new_lod_tree(capacity) {\n const ret = wasm.new_lod_tree(capacity);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function new_shared_lod_tree(orig_lod_id) {\n const ret = wasm.new_shared_lod_tree(orig_lod_id);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function sort32_splats(num_splats, readback, ordering) {\n const ret = wasm.sort32_splats(num_splats, readback, ordering);\n return ret >>> 0;\n }\n function sort_splats(num_splats, readback, ordering) {\n const ret = wasm.sort_splats(num_splats, readback, ordering);\n return ret >>> 0;\n }\n function tiny_lod_extsplats(num_splats, ext1, ext2, extra, lod_base, merge_filter, rgba) {\n const ret = wasm.tiny_lod_extsplats(num_splats, ext1, ext2, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba));\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function tiny_lod_packedsplats(num_splats, packed, extra, lod_base, merge_filter, rgba, encoding) {\n const ret = wasm.tiny_lod_packedsplats(num_splats, packed, isLikeNone(extra) ? 0 : addToExternrefTable0(extra), lod_base, merge_filter, isLikeNone(rgba) ? 0 : addToExternrefTable0(rgba), encoding);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function traverse_lod_trees(max_splats, pixel_scale_limit, _last_pixel_limit, lod_ids, root_pages, view_to_objects, lod_scales, behind_foveates, cone_foveates, cone_fov0s, cone_fovs) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(root_pages, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArrayF32ToWasm0(view_to_objects, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArrayF32ToWasm0(lod_scales, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ptr4 = passArrayF32ToWasm0(behind_foveates, wasm.__wbindgen_malloc);\n const len4 = WASM_VECTOR_LEN;\n const ptr5 = passArrayF32ToWasm0(cone_foveates, wasm.__wbindgen_malloc);\n const len5 = WASM_VECTOR_LEN;\n const ptr6 = passArrayF32ToWasm0(cone_fov0s, wasm.__wbindgen_malloc);\n const len6 = WASM_VECTOR_LEN;\n const ptr7 = passArrayF32ToWasm0(cone_fovs, wasm.__wbindgen_malloc);\n const len7 = WASM_VECTOR_LEN;\n const ret = wasm.traverse_lod_trees(max_splats, pixel_scale_limit, isLikeNone(_last_pixel_limit) ? 4294967297 : Math.fround(_last_pixel_limit), ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, ptr4, len4, ptr5, len5, ptr6, len6, ptr7, len7);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function update_lod_trees(lod_ids, page_bases, chunk_bases, counts, lod_trees) {\n const ptr0 = passArray32ToWasm0(lod_ids, wasm.__wbindgen_malloc);\n const len0 = WASM_VECTOR_LEN;\n const ptr1 = passArray32ToWasm0(page_bases, wasm.__wbindgen_malloc);\n const len1 = WASM_VECTOR_LEN;\n const ptr2 = passArray32ToWasm0(chunk_bases, wasm.__wbindgen_malloc);\n const len2 = WASM_VECTOR_LEN;\n const ptr3 = passArray32ToWasm0(counts, wasm.__wbindgen_malloc);\n const len3 = WASM_VECTOR_LEN;\n const ret = wasm.update_lod_trees(ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, lod_trees);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n }\n function __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_boolean_get_a86c216575a75c30: function(arg0) {\n const v = arg0;\n const ret = typeof v === "boolean" ? v : void 0;\n return isLikeNone(ret) ? 16777215 : ret ? 1 : 0;\n },\n __wbg___wbindgen_debug_string_dd5d2d07ce9e6c57: function(arg0, arg1) {\n const ret = debugString(arg1);\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_in_4bd7a57e54337366: function(arg0, arg1) {\n const ret = arg0 in arg1;\n return ret;\n },\n __wbg___wbindgen_is_falsy_c6ddfae1bb56d5ef: function(arg0) {\n const ret = !arg0;\n return ret;\n },\n __wbg___wbindgen_is_object_40c5a80572e8f9d3: function(arg0) {\n const val = arg0;\n const ret = typeof val === "object" && val !== null;\n return ret;\n },\n __wbg___wbindgen_is_undefined_c0cca72b82b86f4d: function(arg0) {\n const ret = arg0 === void 0;\n return ret;\n },\n __wbg___wbindgen_jsval_loose_eq_3a72ae764d46d944: function(arg0, arg1) {\n const ret = arg0 == arg1;\n return ret;\n },\n __wbg___wbindgen_number_get_7579aab02a8a620c: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "number" ? obj : void 0;\n getDataViewMemory0().setFloat64(arg0 + 8 * 1, isLikeNone(ret) ? 0 : ret, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, !isLikeNone(ret), true);\n },\n __wbg___wbindgen_string_get_914df97fcfa788f2: function(arg0, arg1) {\n const obj = arg1;\n const ret = typeof obj === "string" ? obj : void 0;\n var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n var len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_csplatarray_new: function(arg0) {\n const ret = CsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_get_4848e350b40afc16: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_f96702c6245e4ef9: function() {\n return handleError(function(arg0, arg1) {\n const ret = Reflect.get(arg0, arg1);\n return ret;\n }, arguments);\n },\n __wbg_get_unchecked_7d7babe32e9e6a54: function(arg0, arg1) {\n const ret = arg0[arg1 >>> 0];\n return ret;\n },\n __wbg_get_with_ref_key_6412cf3094599694: function(arg0, arg1) {\n const ret = arg0[arg1];\n return ret;\n },\n __wbg_gsplatarray_new: function(arg0) {\n const ret = GsplatArray.__wrap(arg0);\n return ret;\n },\n __wbg_instanceof_ArrayBuffer_ff7c1337a5e3b33a: function(arg0) {\n let result;\n try {\n result = arg0 instanceof ArrayBuffer;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_instanceof_Uint8Array_4b8da683deb25d72: function(arg0) {\n let result;\n try {\n result = arg0 instanceof Uint8Array;\n } catch (_) {\n result = false;\n }\n const ret = result;\n return ret;\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_6e821edde497a532: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_a4ca9e78359b5f1f: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_a560378ea1240b14: function(arg0) {\n const ret = new Uint8Array(arg0);\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_41a22191b9bdfd66: function(arg0) {\n const ret = new Uint32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_64c287a27cc24d27: function(arg0, arg1, arg2) {\n Uint16Array.prototype.set.call(getArrayU16FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_push_6bdbc990be5ac37b: function(arg0, arg1) {\n const ret = arg0.push(arg1);\n return ret;\n },\n __wbg_set_448126769bf7c181: function(arg0, arg1, arg2) {\n arg0.set(getArrayU32FromWasm0(arg1, arg2));\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_81b4174352e6a095: function(arg0, arg1, arg2) {\n arg0.set(arg1, arg2 >>> 0);\n },\n __wbg_set_8ee2d34facb8466e: function() {\n return handleError(function(arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments);\n },\n __wbg_set_index_338a66e40fc45dee: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2 >>> 0;\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_0f98d3fb634508ad: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_517cd0f1811ab872: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, void 0);\n table.set(offset + 0, void 0);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n }\n };\n return {\n __proto__: null,\n "./spark_worker_rs_bg.js": import0\n };\n }\n const ChunkDecoderFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_chunkdecoder_free(ptr >>> 0, 1));\n const CsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_csplatarray_free(ptr >>> 0, 1));\n const GsplatArrayFinalization = typeof FinalizationRegistry === "undefined" ? { register: () => {\n }, unregister: () => {\n } } : new FinalizationRegistry((ptr) => wasm.__wbg_gsplatarray_free(ptr >>> 0, 1));\n function addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n }\n function debugString(val) {\n const type = typeof val;\n if (type == "number" || type == "boolean" || val == null) {\n return `${val}`;\n }\n if (type == "string") {\n return `"${val}"`;\n }\n if (type == "symbol") {\n const description = val.description;\n if (description == null) {\n return "Symbol";\n } else {\n return `Symbol(${description})`;\n }\n }\n if (type == "function") {\n const name = val.name;\n if (typeof name == "string" && name.length > 0) {\n return `Function(${name})`;\n } else {\n return "Function";\n }\n }\n if (Array.isArray(val)) {\n const length = val.length;\n let debug = "[";\n if (length > 0) {\n debug += debugString(val[0]);\n }\n for (let i = 1; i < length; i++) {\n debug += ", " + debugString(val[i]);\n }\n debug += "]";\n return debug;\n }\n const builtInMatches = /\\[object ([^\\]]+)\\]/.exec(toString.call(val));\n let className;\n if (builtInMatches && builtInMatches.length > 1) {\n className = builtInMatches[1];\n } else {\n return toString.call(val);\n }\n if (className == "Object") {\n try {\n return "Object(" + JSON.stringify(val) + ")";\n } catch (_) {\n return "Object";\n }\n }\n if (val instanceof Error) {\n return `${val.name}: ${val.message}\n${val.stack}`;\n }\n return className;\n }\n function getArrayU16FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint16ArrayMemory0().subarray(ptr / 2, ptr / 2 + len);\n }\n function getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n }\n function getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n }\n let cachedDataViewMemory0 = null;\n function getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || cachedDataViewMemory0.buffer.detached === void 0 && cachedDataViewMemory0.buffer !== wasm.memory.buffer) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n }\n let cachedFloat32ArrayMemory0 = null;\n function getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n }\n function getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n }\n let cachedUint16ArrayMemory0 = null;\n function getUint16ArrayMemory0() {\n if (cachedUint16ArrayMemory0 === null || cachedUint16ArrayMemory0.byteLength === 0) {\n cachedUint16ArrayMemory0 = new Uint16Array(wasm.memory.buffer);\n }\n return cachedUint16ArrayMemory0;\n }\n let cachedUint32ArrayMemory0 = null;\n function getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n }\n let cachedUint8ArrayMemory0 = null;\n function getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n }\n function handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n }\n function isLikeNone(x) {\n return x === void 0 || x === null;\n }\n function passArray32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getUint32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n }\n function passArrayF32ToWasm0(arg, malloc) {\n const ptr = malloc(arg.length * 4, 4) >>> 0;\n getFloat32ArrayMemory0().set(arg, ptr / 4);\n WASM_VECTOR_LEN = arg.length;\n return ptr;\n }\n function passStringToWasm0(arg, malloc, realloc) {\n if (realloc === void 0) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr2 = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr2, ptr2 + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr2;\n }\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n const mem = getUint8ArrayMemory0();\n let offset = 0;\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 127) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n WASM_VECTOR_LEN = offset;\n return ptr;\n }\n function takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n }\n let cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n const MAX_SAFARI_DECODE_BYTES = 2146435072;\n let numBytesDecoded = 0;\n function decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n }\n const cachedTextEncoder = new TextEncoder();\n if (!("encodeInto" in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function(arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n }\n let WASM_VECTOR_LEN = 0;\n let wasm;\n function __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint16ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n }\n async function __wbg_load(module, imports) {\n if (typeof Response === "function" && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === "function") {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n if (validResponse && module.headers.get("Content-Type") !== "application/wasm") {\n console.warn("`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n", e);\n } else {\n throw e;\n }\n }\n }\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n function expectedResponseType(type) {\n switch (type) {\n case "basic":\n case "cors":\n case "default":\n return true;\n }\n return false;\n }\n }\n async function __wbg_init(module_or_path) {\n if (wasm !== void 0) return wasm;\n if (module_or_path !== void 0) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({ module_or_path } = module_or_path);\n } else {\n console.warn("using deprecated parameters for the initialization function; pass a single object instead");\n }\n }\n if (module_or_path === void 0) {\n module_or_path = new 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AA2AQAADkAAACLLBAAFAAAANgEAABGAAAAiywQABQAAADYBAAAVwAAAIssEAAUAAAAKwUAAC0AAACLLBAAFAAAACsFAAA6AAAAiywQABQAAAArBQAASwAAAIssEAAUAAAAKwUAAFwAAACLLBAAFAAAAD8EAAAaAAAAiywQABQAAABYBAAAGwAAAEludmFsaWQgZ3ppcCBoZWFkZXIA3xMQABUAAABPAQAAHAAAAN8TEAAVAAAATwEAADUAAADfExAAFQAAAFABAAAcAAAA3xMQABUAAABQAQAAOQAAAN8TEAAVAAAAUQEAABwAAADfExAAFQAAAFEBAAA5AAAA3xMQABUAAABZAQAACQAAAN8TEAAVAAAAWgEAAAkAAADfExAAFQAAAFsBAAAJAAAA3xMQABUAAACIAQAAIQAAAN8TEAAVAAAAiQEAACEAAADfExAAFQAAAIoBAAAhAAAA3xMQABUAAACMAQAAHwAAAN8TEAAVAAAAkgEAAAkAAADfExAAFQAAAJMBAAAJAAAA3xMQABUAAACUAQAACQAAAN8TEAAVAAAAlQEAAAkAAADfExAAFQAAALgBAAAiAAAA3xMQABUAAAC4AQAACQAAAN8TEAAVAAAAuQEAACYAAADfExAAFQAAALkBAAAJAAAA3xMQABUAAAC6AQAAJgAAAN8TEAAVAAAAugEAAAkAAADfExAAFQAAALsBAAAlAAAA3xMQABUAAAChAQAAKgAAAN8TEAAVAAAAoQEAACEAAADfExAAFQAAAKEBAAAJAAAA3xMQABUAAACiAQAALgAAAN8TEAAVAAAAogEAACUAAADfExAAFQAAAKIBAAAJAAAA3xMQABUAAACjAQAALgAAAN8TEAAVAAAAowEAACUAAADfExAAFQAAAKMBAAAJAAAA3xMQABUAAACkAQAAKwAAAN8TEAAVAAAA/AEAACAAAADfExAAFQAAAPwBAAA7AAAA3xMQABUAAAAOAgAARAAAAN8TEAAVAAAADgIAABUAAADfExAAFQAAAAkCAABEAAAA3xMQABUAAAAJAgAAFQAAAN8TEAAVAAAABAIAAEMAAADfExAAFQAAAAQCAAAVAAAA3xMQABUAAADRAQAAIAAAAN8TEAAVAAAA0QEAADsAAADfExAAFQAAAOMBAABEAAAA3xMQABUAAADjAQAANQAAAN8TEAAVAAAA4wEAABUAAADfExAAFQAAAN4BAABEAAAA3xMQABUAAADeAQAANQAAAN8TEAAVAAAA3gEAABUAAADfExAAFQAAANkBAABDAAAA3xMQABUAAADZAQAANAAAAN8TEAAVAAAA2QEAABUAAADfExAAFQAAAHsBAAAkAAAA3xMQABUAAAB7AQAACQAAAN8TEAAVAAAAfAEAACgAAADfExAAFQAAAHwBAAAJAAAA3xMQABUAAAB9AQAAKAAAAN8TEAAVAAAAfQEAAAkAAADfExAAFQAAAGYBAAAoAAAA3xMQABUAAABmAQAAHwAAAN8TEAAVAAAAZgEAAAkAAADfExAAFQAAAGcBAAAsAAAA3xMQABUAAABnAQAAIwAAAN8TEAAVAAAAZwEAAAkAAADfExAAFQAAAGgBAAAsAAAA3xMQABUAAABoAQAAIwAAAN8TEAAVAAAAaAEAAAkAAADUERAAFwAAAKAAAAAOAAAA1BEQABcAAACQAAAAFAAAANQREAAXAAAAmAAAABkAAABzcHpzcGxhdGtzcGxhdHBjc29nc3ppcHJhZHNvZ3ppcABBkszHAAsCgD8AQabMxwALAoA/AEG6zMcAC6EggD8AAIA/PDEQABgAAAD2AAAAHAAAADwxEAAYAAAA9gAAACoAAABtXcvWLFDrY3hBpldxG4u5fKYCwkDZ+rlAxpaiZNPQawEAAAAAAAAA0yAAAGgBAAAgICAgICAgICAgICAgYXQgCiAgICAgIMMgAABoBAACOiAA0yAAAGgBAAMgLSAAPHVua25vd24+wSAAgGAA77+94SkQADQAAABnAQAAMAAAAG9wZXJhdGlvbiBub3Qgc3VwcG9ydGVkIG9uIHRoaXMgcGxhdGZvcm3g5hEAKAAAACQAAAAAAAAAAgAAAAjnEQBAAgAADAAAAAQAAABBAgAAQgIAAEMCAABhIGZvcm1hdHRpbmcgdHJhaXQgaW1wbGVtZW50YXRpb24gcmV0dXJuZWQgYW4gZXJyb3Igd2hlbiB0aGUgdW5kZXJseWluZyBzdHJlYW0gZGlkIG5vdAAAxykQABkAAACIAgAAEQAAAE9zAAAAAAAABAAAAAQAAABEAgAAY29kZQAAAAABAAAAAQAAAEUCAABraW5kgwEAAAwAAAAEAAAARgIAAG1lc3NhZ2VLaW5kRXJyb3IAAAAACAAAAAQAAABHAgAAAAAAAAQAAAAEAAAASAIAAEN1c3RvbWVudGl0eSBub3QgZm91bmRwZXJtaXNzaW9uIGRlbmllZGNvbm5lY3Rpb24gcmVmdXNlZGNvbm5lY3Rpb24gcmVzZXRob3N0IHVucmVhY2hhYmxlbmV0d29yayB1bnJlYWNoYWJsZWNvbm5lY3Rpb24gYWJvcnRlZG5vdCBjb25uZWN0ZWRhZGRyZXNzIGluIHVzZWFkZHJlc3Mgbm90IGF2YWlsYWJsZW5ldHdvcmsgZG93bmJyb2tlbiBwaXBlZW50aXR5IGFscmVhZHkgZXhpc3Rzb3BlcmF0aW9uIHdvdWxkIGJsb2Nrbm90IGEgZGlyZWN0b3J5aXMgYSBkaXJlY3RvcnlkaXJlY3Rvcnkgbm90IGVtcHR5cmVhZC1vbmx5IGZpbGVzeXN0ZW0gb3Igc3RvcmFnZSBtZWRpdW1maWxlc3lzdGVtIGxvb3Agb3IgaW5kaXJlY3Rpb24gbGltaXQgKGUuZy4gc3ltbGluayBsb29wKXN0YWxlIG5ldHdvcmsgZmlsZSBoYW5kbGVpbnZhbGlkIGlucHV0IHBhcmFtZXRlcmludmFsaWQgZGF0YXRpbWVkIG91dHdyaXRlIHplcm9ubyBzdG9yYWdlIHNwYWNlc2VlayBvbiB1bnNlZWthYmxlIGZpbGVxdW90YSBleGNlZWRlZGZpbGUgdG9vIGxhcmdlcmVzb3VyY2UgYnVzeWV4ZWN1dGFibGUgZmlsZSBidXN5ZGVhZGxvY2tjcm9zcy1kZXZpY2UgbGluayBvciByZW5hbWV0b28gbWFueSBsaW5rc2ludmFsaWQgZmlsZW5hbWVhcmd1bWVudCBsaXN0IHRvbyBsb25nb3BlcmF0aW9uIGludGVycnVwdGVkdW5zdXBwb3J0ZWR1bmV4cGVjdGVkIGVuZCBvZiBmaWxlb3V0IG9mIG1lbW9yeWluIHByb2dyZXNzb3RoZXIgZXJyb3J1bmNhdGVnb3JpemVkIGVycm9yc3Rkb3V0AAAABx0QABsAAACNBAAACQAAAG9wZXJhdGlvbiBzdWNjZXNzZnVsb25lLXRpbWUgaW5pdGlhbGl6YXRpb24gbWF5IG5vdCBiZSBwZXJmb3JtZWQgcmVjdXJzaXZlbHljYW5ub3QgcmVjdXJzaXZlbHkgYWNxdWlyZSBtdXRleFsUEAAsAAAAEwAAAAkAAABsb2NrIGNvdW50IG92ZXJmbG93IGluIHJlZW50cmFudCBtdXRleAAAhCEQACYAAAAjAQAALQAAAM8nEAAcAAAA2wAAABQAAADPJxAAHAAAANsAAAAxAAAATGF6eUxvY2sgaW5zdGFuY2UgaGFzIHByZXZpb3VzbHkgYmVlbiBwb2lzb25lZAAAYiEQACEAAACfAQAABQAAAGZhaWxlZCB0byBnZW5lcmF0ZSB1bmlxdWUgdGhyZWFkIElEOiBiaXRzcGFjZSBleGhhdXN0ZWQA8isQABwAAAAmAAAADQAAAIMBAAAMAAAABAAAAIQBAACFAQAASQIAAEoCAAAQAAAABAAAAEsCAABMAgAATQIAAE4CAAAAAAAACAAAAAQAAABPAgAAUAIAAFECAABSAgAAY2Fubm90IG1vZGlmeSB0aGUgcGFuaWMgaG9vayBmcm9tIGEgcGFuaWNraW5nIHRocmVhZOMiEAAcAAAAkAAAAAkAAABtaWQgPiBsZW4AAAAAAAAABAAAAAQAAABTAgAAV291bGRCbG9jawAABx0QABsAAABcAwAAFAAAAE5vdEZvdW5kUGVybWlzc2lvbkRlbmllZENvbm5lY3Rpb25SZWZ1c2VkQ29ubmVjdGlvblJlc2V0SG9zdFVucmVhY2hhYmxlTmV0d29ya1VucmVhY2hhYmxlQ29ubmVjdGlvbkFib3J0ZWROb3RDb25uZWN0ZWRBZGRySW5Vc2VBZGRyTm90QXZhaWxhYmxlTmV0d29ya0Rvd25Ccm9rZW5QaXBlQWxyZWFkeUV4aXN0c05vdEFEaXJlY3RvcnlJc0FEaXJlY3RvcnlEaXJlY3RvcnlOb3RFbXB0eVJlYWRPbmx5RmlsZXN5c3RlbUZpbGVzeXN0ZW1Mb29wU3RhbGVOZXR3b3JrRmlsZUhhbmRsZUludmFsaWRJbnB1dEludmFsaWREYXRhVGltZWRPdXRXcml0ZVplcm9TdG9yYWdlRnVsbE5vdFNlZWthYmxlUXVvdGFFeGNlZWRlZEZpbGVUb29MYXJnZVJlc291cmNlQnVzeUV4ZWN1dGFibGVGaWxlQnVzeURlYWRsb2NrQ3Jvc3Nlc0RldmljZXNUb29NYW55TGlua3NJbnZhbGlkRmlsZW5hbWVBcmd1bWVudExpc3RUb29Mb25nSW50ZXJydXB0ZWRVbnN1cHBvcnRlZFVuZXhwZWN0ZWRFb2ZPdXRPZk1lbW9yeUluUHJvZ3Jlc3NPdGhlclVuY2F0ZWdvcml6ZWR1bnN1cHBvcnRlZCBiYWNrdHJhY2VkaXNhYmxlZCBiYWNrdHJhY2UA7CcQABwAAACKAQAAHQAAAFQCAAAQAAAABAAAAFUCAABWAgAAcGFuaWNrZWQgYXQgOgoAAAAAAAAIAAAABAAAAFcCAABhc3NlcnRpb24gZmFpbGVkOiBwc2l6ZSA+PSBzaXplICsgbWluX292ZXJoZWFkAABVLRAAKgAAALEEAAAJAAAAYXNzZXJ0aW9uIGZhaWxlZDogcHNpemUgPD0gc2l6ZSArIG1heF9vdmVyaGVhZAAAVS0QACoAAAC3BAAADQAAAGYgEAAtAAAAFgEAACkAAACDAQAADAAAAAQAAABYAgAAbnVsbCBwb2ludGVyIHBhc3NlZCB0byBydXN0cmVjdXJzaXZlIHVzZSBvZiBhbiBvYmplY3QgZGV0ZWN0ZWQgd2hpY2ggd291bGQgbGVhZCB0byB1bnNhZmUgYWxpYXNpbmcgaW4gcnVzdAAAcSMQAGUAAAB8AAAAEQAAAHEjEABlAAAAiQAAABEAAABaSVA2NCBmb290ZXIgaW5kaWNhdGVzIG1vcmUgZmlsZXMgb24gdGhpcyBkaXNrIHRoYW4gaW4gdGhlIHdob2xlIGFyY2hpdmVJbnZhbGlkIGNlbnRyYWwgZGlyZWN0b3J5IHNpemUgb3Igb2Zmc2V0ZmFpbGVkIHRvIGZpbGwgd2hvbGUgYnVmZmVyAFzxEQAbAAAAJQAAAAAAAAACAAAAePERAEF0dGVtcHRlZCB0byBpbml0aWFsaXplIHRocmVhZC1sb2NhbCB3aGlsZSBpdCBpcyBiZWluZyBkcm9wcGVkAACIFBAAewAAAGsAAAANAAAAQ1JDMzIgY2hlY2tzdW0gZmFpbGVkIG9uIFVuaWNvZGUgZXh0cmEgZmllbGRVbmljb2RlIGV4dHJhIGZpZWxkIGlzIHRvbyBzbWFsbGZsYWdzIGFuZCBsZW4gZG9uJ3QgbWF0Y2ggaW4gZXh0ZW5kZWQgdGltZXN0YW1wIGZpZWxkRXh0ZW5kZWQgdGltZXN0YW1wIGZpZWxkIGlzIGVtcHR5TlRGUyBleHRyYSBmaWVsZCBoYXMgYW4gdW5zdXBwb3J0ZWQgYXR0cmlidXRlIHNpemVOVEZTIGV4dHJhIGZpZWxkIGhhcyBhbiB1bnN1cHBvcnRlZCBhdHRyaWJ1dGUgdGFnTlRGUyBleHRyYSBmaWVsZCBoYXMgYW4gdW5zdXBwb3J0ZWQgbGVuZ3RoRXh0cmEgZmllbGQgY29udGVudCBleGNlZWRzIGRlY2xhcmVkIGxlbmd0aAAA/ywQAFUAAAAGBgAAOwAAAFpJUDY0IGV4dHJhIGZpZWxkIHRydW5jYXRlZFpJUDY0IGV4dHJhLWRhdGEgZmllbGQgaXMgdGhlIHdyb25nIGxlbmd0aEFFUyBleHRyYSBmaWVsZCB0cnVuY2F0ZWRJbnZhbGlkIEFFUyBlbmNyeXB0aW9uIHN0cmVuZ3RoSW52YWxpZCBBRVMgdmVuZG9yIHZlcnNpb25JbnZhbGlkIEFFUyB2ZW5kb3JBRVMgZXh0cmEgZGF0YSBmaWVsZCBoYXMgYW4gdW5zdXBwb3J0ZWQgbGVuZ3RoRXh0cmEgZmllbGQgY29udGVudCB0cnVuY2F0ZWRFeHRyYSBmaWVsZCBoZWFkZXIgdHJ1bmNhdGVkSW52YWxpZCBjaGVja3N1bQAAAAAAAAAAAQAAALUBAAAoKXNwZWNpZmllZCBmaWxlIG5vdCBmb3VuZCBpbiBhcmNoaXZlcHJvdmlkZWQgcGFzc3dvcmQgaXMgaW5jb3JyZWN0AAAAAAAEAAAABAAAAL8AAAAAAAAABAAAAAQAAADBAAAAVXRmOEVycm9ydmFsaWRfdXBfdG9lcnJvcl9sZW4AAABZAgAADAAAAAQAAABaAgAAAAAAAAQAAAAEAAAAWwIAAEZyb21VdGY4RXJyb3JieXRlc2Vycm9yTm9uZVNvbWUAsCgQAGsAAADDAAAACQAAALAoEABrAAAAvAAAACoAAACwKBAAawAAALkAAAAqAAAACQ8QAGMAAAB0AQAAKQAAAAkPEABjAAAAeQEAABwAAAAJDxAAYwAAAHkBAAAtAAAACQ8QAGMAAACAAQAAMAAAAAkPEABjAAAASwEAACkAAAAJDxAAYwAAAFEBAAAcAAAACQ8QAGMAAABRAQAALQAAAAkPEABjAAAAWQEAACQAAAAJDxAAYwAAAFkBAAAxAAAArBYQAGsAAAA6AAAAGwAAAKwWEABrAAAAOwAAABsAAABUcnlGcm9tSW50RXJyb3IAXAIAABQAAAAEAAAAXQIAAOUwEABWAAAAHwAAACwAAAD//////////1D2EQBB6OzHAAvpZ20YEABcAAAALgAAACMAAABtGBAAXAAAAE8BAAA4AAAAbRgQAFwAAAAmAAAADwAAANwbEABiAAAAHQAAABEAAADcGxAAYgAAAEYAAAARAAAASW52YWxpZCBVVEYtOGFzc2VydGlvbiBmYWlsZWQ6IG1pbiA8PSBtYXgAAAA/HBAAZAAAAEIEAAAJAAAAZGVzdCBpcyBvdXQgb2YgYm91bmRzAAAAAAAAAAQAAAAEAAAAQAAAAAAAAAAEAAAABAAAAF4CAABPa1N0cmVhbUVuZE5lZWREaWN0RXJyTm9TdHJlYW1FcnJvckRhdGFFcnJvck1lbUVycm9yQnVmRXJyb3JWZXJzaW9uRXJyb3JMYXlvdXRFcnJvcgAAAAAARjtnZYx2zsrKTamvWevtTh/QiivVnSOEk6ZE4bLW25307bz4PqAVV3ibcjLrPTbTrQZRtmdL+BkhcJ98JavG4GOQoYWp3Qgq7+ZvT3xAK646e0zL8DblZLYNggGXfR190UZ6GBsL07ddMLTSzpbwM4itl1ZC4D75BNtZnAtQ/BpNa5t/hyYy0MEdVbVSuxFUFIB2Md7N356Y9rj7uYYnh/+9QOI18OlNc8uOKOBtysmmVq2sbBsEAyogY2Yu+zr6aMBdn6KN9DDktpNVdxDXtDErsNH7Zhl+vV1+G5wt4WfaFoYCEFsvrVZgSMjFxgwpg/1rTEmwwuMPi6WGFqD4NVCbn1Ca1jb/3O1Rmk9LFXsJcHIewz3bsYUGvNSkdiOo4k1EzSgA7WJuO4oH/Z3O5rumqYNx6wAsN9BnSTMLPtV1MFmwv33wH/lGl3pq4NObLNu0/uaWHVGgrXo0gd3lSMfmgi0NqyuCS5BM59g2CAaeDW9jVEDGzBJ7oakd8AQvW8tjSpGGyuXXva2ARBvpYQIgjgTIbSerjlZAzq8m37LpHbjXI1AReGVrdh32zTL8sPZVmXq7/DY8gJtTOFvCz35gpaq0LQwF8hZrYGGwL4Eni0jk7cbhS6v9hi6KjRlSzLZ+Nwb715hAwLD902b0HJVdk3lfEDrWGStdsyxA8Wtqe5YOoDY/oeYNWMR1qxwlM5B7QPnd0u+/5rWKnpYq9titTZMS4OQ8VNuDWcd9x7iBRqDdSwsJcg0wbhcJ6zeLT9BQ7oWd+UHDpp4kUADaxRY7vaDcdhQPmk1zars97Bb9BotzN0si3HFwRbni1gFYpO1mPW6gz5Iom6j3JxANcWErahSrZsO77V2k3n774D84wIda8o0u9bS2SZCVxtbs0/2xiRmwGCZfi39DzC07oooWXMdAW/VoBmCSDQK7y5FEgKz0js0FW8j2Yj5bUCbfHWtButcm6BWRHY9wsG0QDPZWd2k8G97GeiC5o+mG/UKvvZonZfAziCPLVO064AlefNtuO7aWx5TwraDxYwvkECUwg3XvfSraqUZNv4g20sPODbWmBEAcCUJ7e2zR3T+Nl+ZY6F2r8UcbkJYiH0vPvllwqNuTPQF01QZmEUagIvAAm0WVytbsOozti1+tnRQj66ZzRiHr2uln0L2M9Hb5bbJNngh4ADenPjtQwjGw9UR3i5IhvcY7jvv9XOtoWxgKLmB/b+Qt1sCiFrGlg2Yu2cVdSbwPEOATSSuHdtqNw5ectqTyVvsNXRDAajgUGzOkUiBUwZht/W7eVpoLTfDe6gvLuY/BhhAgh713RabN6Dng9o9cKrsm82yAQZb/JgV3uR1iEnNQy701a6zYAAAAAFiA4tfxBrR0qYZWo+INaOm6jYo+EwvcnUuLPkqFHaEJ3Z1D3nQbFX0sm/eqZxDJ4D+QKzeWFn2UzpafQwo7QhNSu6DE+z32Z6O9FLDoNir6sLbILRkwno5BsHxZjybjGtemAc1+IFduJqC1uW0ri/M1q2kknC0/h8St3VAUdoQmTPZm8eVwMFK98NKF9nvsz677DhgHfVi7X/26bJFrJS/J68f4YG2RWzjtc4xzZk3GK+avEYJg+bLa4BtlHk3GNUbNJOLvS3JBt8uQlvxArtykwEwLDUYaqFXG+H+bUGc8w9CF62pW00gy1jGfeV0P1SHd7QKIW7uh0NtZdijsCE1wbOqa2eq8OYFqXu7K4WCkkmGCczvn1NBjZzYHrfGpRPVxS5Nc9x0wBHf/50/8wa0XfCN6vvp12eZ6lw4i10peeleoidPR/iqLURz9wNoit5hawGAx3JbDaVx0FKfK61f/SgmAVsxfIw5MvfRFx4O+HUdhabTBN8rsQdUdPJqMa2QabrzNnDgflRzayN6X5IKGFwZVL5FQ9ncRsiG5hy1i4QfPtUiBmRYQAXvBW4pFiwMKp1yqjPH/8gwTKDahznhuISyvx6d6DJ8nmNvUrKaRjCxERiWqEuV9KvAys7xvces8jaZCutsFGjo50lGxB5gJMeVPoLez7Pg3UTtQ2BGaCFjzTaHepe75Xkc5stV5c+pVm6RD080HG1Mv0NXFsJONRVJEJMME53xD5jA3yNh6b0g6rcbObA6eTo7ZWuNTiQJjsV6r5ef982UFKrjuO2Dgbtm3SeiPFBFobcPf/vKAh34QVy74RvR2eKQjPfOaaWVzeL7M9S4dlHXMykSulbwcLndrtaghyO0owx+mo/1V/iMfglelSSEPJav2wbM0tZkz1mIwtYDBaDViFiO+XFx7Pr6L0rjoKIo4Cv9OldevFhU1eL+TY9vnE4EMrJi/RvQYXZFdngsyBR7p5cuIdqaTCJRxOo7C0mIOIAUphR5PcQX8mNiDqjuAA0jseDQZ1yC0+wCJMq2j0bJPdJo5cT7CuZPpaz/FSjO/J539KbjepalaCQwvDKpUr+59HyTQN0ekMuDuImRDtqKGlHIPW8Qqj7kTgwnvsNuJDWeQAjMtyILR+mEEh1k5hGWO9xL6za+SGBoGFE65XpSsbhUfkiRNn3Dz5BkmULyZxIdsQp3xNMJ/Jp1EKYXFxMtSjk/1GNbPF89/SUFsJ8mju+lfPPix394vGFmIjEDZalsLUlQRU9K2xvpU4GWi1AKyZnnf4j75PTWXf2uWz/+JQYR0twvc9FXcdXIDfy3y4ajjZH7ru+ScPBJiyp9K4ihIAWkWAlnp9NXwb6J2qO9AoQAAAADhtlLvg2vUBWLdhuoG16gL52H65IW8fA5kCi7hDK5RF+0YA/iPxYUSbnPX/Qp5+Rzrz6vziRItGWikf/YYXKMu+erxwZs3dyt6gSXEHosLJf89Wcqd4N8gfFaNzxTy8jn1RKDWl5kmPHYvdNMSJVoy85MI3ZFOjjdw+NzYMLhGXdEOFLKz05JYUmXAtzZv7lbX2by5tQQ6U1SyaLw8FhdK3aBFpb99w09ey5GgOsG/Qdt37a65qmtEWBw5qyjk5XPJUrecq48xdko5Y5kuM014z4Ufl61YmX1M7suSJEq0ZMX85ounIWBhRpcyjiKdHG/DK06AofbIakBAmoVgcI26gcbfVeMbWb8CrQtQZqclsYcRd17lzPG0BHqjW2ze3K2NaI5C77UIqA4DWkdqCXSmi78mSelioKMI1PJMeCwulJmafHv7R/qRGvGofn77hp+fTdRw/ZBSmhwmAHV0gn+DlTQtbPfpq4YWX/lpclXXiJPjhWfxPgONEIhRYlDIy+exfpkI06Mf4jIVTQ1WH2Pst6kxA9V0t+k0wuUGXGaa8L3QyB/fDU71PrscGlqxMvu7B2AU2drm/jhstBFIlGjJqSI6Jsv/vMwqSe4jTkPAwq/1ki3NKBTHLJ5GKEQ6Od6ljGsxx1Ht2ybnvzRC7ZHVo1vDOsGGRdAgMBc/geZrrmBQOUECjb+r4zvtRIcxw6Vmh5FKBFoXoOXsRU+NSDq5bP5oVg4j7rzvlbxTi5+SsmopwF0I9Ea36UIUWJm6yIB4DJpvGtEchftnTmqfbWCLftsyZBwGtI79sOZhlRSZl3Siy3gWf02S98kffZPDMZxydWNzEKjlmfEet3axXi3zUOh/HDI1+fbTg6sZt4mF+FY/1xc04lH91VQDEr3wfORcRi4LPpuo4d8t+g67J9TvWpGGADhMAOrZ+lIFqQKO3Ui03DIqaVrYy98IN6/VJtZOY3Q5LL7y080IoDylrN/KRBqNJSbHC8/HcVkgo3t3wULNJS4gEKPEwabxK+GW5hQAILT7Yv0yEYNLYP7nQU4fBvcc8GQqmhqFnMj17Ti3AwyO5exuU2MGj+Ux6evvHwgKWU3naITLDYkymeL5ykU6GHwX1XqhkT+bF8PQ/x3tMR6rv958djk0ncBr2/VkFC0U0kbCdg/AKJe5ksfzs7wmEgXuyXDYaCORbjrM0S6gSTCY8qZSRXRMs/Mmo9f5CEI2T1qtVJLcR7UkjqjdgPFePDajsV7rJVu/XXe021dZVTrhC7pYPI1QuYrfv8lyA2coxFGIShnXYquvhY3PpatsLhP5g0zOf2mteC2GxdxScCRqAJ9Gt4Z1pwHUmsML+nsivaiUQGAufqHWfJEAAAAAQ8umh8eQPNSEW5pTzycIc4zsrvQItzSnS3ySIJ5PEObdhLZhWd8sMhoUirVRaBiVEqO+Epb4JEHVM4LGfZlRFz5S95C6CW3D+cLLRLK+WWTxdf/jdS5lsDblwzfj1kHxoB3ndiRGfSVnjduiLPFJgm867wXrYXVWqKrT0foyoy65+QWpPaKf+n5pOX01Fatddt4N2vKFl4mxTjEOZH2zyCe2FU+j7Y8c4CYpm6tau7vokR08bMqHby8BIeiHq/I5xGBUvkA7zu0D8GhqSIz6SgtHXM2PHMaezNdgGRnk4t9aL0RY3nTeC52/eIzWw+qslQhMKxFT1nhSmHD/9GVGXbeu4Noz9XqJcD7cDjtCTi54ieip/NJy+r8Z1H1qKla7KeHwPK26am/ucczopQ1eyObG+E9inWIcIVbEm4n8F0rKN7HNTmwrng2njRlG2x85BRC5voFLI+3CgIVqF7MHrFR4oSvQIzt4k+id/9iUD9+bX6lYHwQzC1zPlYwOV+VzTZxD9MnH2aeKDH8gwXDtAIK7S4cG4NHURSt3U5AY9ZXT01MSV4jJQRRDb8ZfP/3mHPRbYZivwTLbZGe1c860ZDAFEuO0Xoiw95UuN7zpvBf/IhqQe3mAwziyJkTtgaSCrkoCBSoRmFZp2j7RIqas8WFtCnblNpAlpv02oujLjLqrACo9L1uwbmyQFukn7ITJZCciTuB8uB2jtx6adoScXDVPOtuxFKCI8t8GD7mjlC/6aDKofjOo+z34DnyVUt2t1pl7KlLC4XkRCUf+WnXV3hm+c1md5ekK3i5PjQsdzUtI1mvMzI3xn49GVxjEOsU4h/FjvwOq+exAYV9rEvkvlFEyiRPVaRNAlqK1x93eJ+eeFYFgGk4bM1mFvbSMtj9yz32Z9UsmA6YI7aUhQ5E3AQBakYaEAQvVx8qtUm9gfoMsq9gEqPBCV+s75NCgR3bw44zQd2fXSiQkHOyj8S9uZbLkyOI2v1KxdXT0Nj4IZhZ9w8CR+ZhawrpT/EUcrsrnX2VsYNs+9jOY9VC004nClJBCZBMUGf5AV9JYx4Lh2gHBKnyGRXHm1Qa6QFJNxtJyDg109YpW7qbJnUghYTeb8CL8PXemp6ck5WwBo64Qk4Pt2zUEaYCvVypLCdD/eIsWvLMtkTjot8J7IxFFMF+DZXOUJeL3z7+xtAQZNuacacmlV89OIQxVHWLH85opu2G6anDHPe4rXW6t4PvpeNN5LzsY36i/Q0X7/IjjfLf0cVz0P9fbcGRNiDOv6w+bBTje2M6eWVyVBAofXqKNVCIwrRfpliqTsgx50Hmq/gVKKDhGgY6/wtoU7IERsmvKbSBLiaaGzA39HJ9ONroYkSsQAGAAAAB0AAAAJwAAAJErEABgAAAAawAAADMAAAAAAAAAljAHdyxhDu66UQmZGcRtB4/0anA1pWPpo5VknjKI2w6kuNx5HunV4IjZ0pcrTLYJvXyxfgctuOeRHb+QZBC3HfIgsGpIcbnz3kG+hH3U2hrr5N1tUbXU9MeF04NWmGwTwKhrZHr5Yv3syWWKT1wBFNlsBmNjPQ/69Q0IjcggbjteEGlM5EFg1XJxZ6LR5AM8R9QES/2FDdJrtQql+qi1NWyYskLWybvbQPm8rONs2DJ1XN9Fzw3W3Fk90ausMNkmOgDeUYBR18gWYdC/tfS0ISPEs1aZlbrPD6W9uJ64AigIiAVfstkMxiTpC7GHfG8vEUxoWKsdYcE9LWa2kEHcdgZx2wG8INKYKhDV74mFsXEftbYGpeS/nzPUuOiiyQd4NPkAD46oCZYYmA7huw1qfy09bQiXbGSRAVxj5vRRa2tiYWwc2DBlhU4AYvLtlQZse6UBG8H0CIJXxA/1xtmwZVDptxLquL6LfIi5/N8d3WJJLdoV83zTjGVM1PtYYbJNzlG1OnQAvKPiMLvUQaXfSteV2D1txNGk+/TW02rpaUP82W40RohnrdC4YNpzLQRE5R0DM19MCqrJfA3dPHEFUKpBAicQEAu+hiAMySW1aFezhW8gCdRmuZ/kYc4O+d5emMnZKSKY0LC0qNfHFz2zWYENtC47XL23rWy6wCCDuO22s7+aDOK2A5rSsXQ5R9Xqr3fSnRUm2wSDFtxzEgtj44Q7ZJQ+am0NqFpqegvPDuSd/wmTJ64ACrGeB31Ekw/w0qMIh2jyAR7+wgZpXVdi98tnZYBxNmwZ5wZrbnYb1P7gK9OJWnraEMxK3Wdv37n5+e++jkO+txfVjrBg6KPW1n6T0aHEwtg4UvLfT/Fnu9FnV7ym3Qa1P0s2skjaKw3YTBsKr/ZKAzZgegRBw+9g31XfZ6jvjm4xeb5pRoyzYcsag2a8oNJvJTbiaFKVdwzMA0cLu7kWAiIvJgVVvju6xSgLvbKSWrQrBGqzXKf/18Ixz9C1i57ZLB2u3luwwmSbJvJj7JyjanUKk20CqQYJnD82DuuFZwdyE1cABYJKv5UUerjiriuxezgbtgybjtKSDb7V5bfv3Hwh39sL1NLThkLi1PH4s91oboPaH80WvoFbJrn24Xewb3dHtxjmWgiIcGoP/8o7BmZcCwER/55lj2muYvjT/2thRc9sFnjiCqDu0g3XVIMETsKzAzlhJmen9xZg0E1HaUnbd24+SmrRrtxa1tlmC99A8DvYN1OuvKnFnrvef8+yR+n/tTAc8r29isK6yjCTs1Omo7QkBTbQupMG180pV95Uv2fZIy56ZrO4SmHEAhtoXZQrbyo3vgu0oY4MwxvfBVqN7wItAAAAAGVnvLiLyAmq7q+1EleXYo8y8N433F9rJbk4153vKLTFik8IfWTgvW8BhwHXuL/WSt3YavIzd9/gVhBjWJ9XGVD6MKXoFJ8Q+nH4rELIwHvfrafHZ0MIcnUmb87NcH+tlRUYES37t6Q/ntAYhyfozxpCj3OirCDGsMlHegg+rzKgW8iOGLVnOwrQAIeyaThQLwxf7Jfi8FmFh5flPdGHhmW04DrdWk+Pzz8oM3eGEOTq43dYUg3Y7UBov1H4ofgr8MSfl0gqMCJaT1ee4vZvSX+TCPXHfadA1RjA/G1O0J81K7cjjcUYlp+gfyonGUf9unwgQQKSj/QQ9+hIqD1YFJtYP6gjtpAdMdP3oYlqz3YUD6jKrOEHf76EYMMG0nCgXrcXHOZZuKn0PN8VTIXnwtHggH5pDi/Le2tId8OiDw3Lx2ixcynHBGFMoLjZ9ZhvRJD/0/x+UGbuGzfaVk0nuQ4oQAW2xu+wpKOIDBwasNuBf9dnOZF40iv0H26TA/cmO2aQmoOIPy+R7ViTKVRgRLQxB/gM36hNHrrP8abs35L+ibguRmcXm1QCcCfsu0jwcd4vTMkwgPnbVedFY5ygP2v5x4PTF2g2wXIPinnLN13krlDhXED/VE4lmOj2c4iLrhbvNxb4QIIEnSc+vCQf6SFBeFWZr9fgi8qwXDM7tlntXtHlVbB+UEfVGez/bCE7YglGh9rn6TLIgo6OcNSe7Six+VGQX1bkgjoxWDqDCY+n5m4zHwjBhg1tpjq1pOFAvcGG/AUvKUkXSk71r/N2IjKWEZ6KeL4rmB3ZlyBLyfR4Lq5IwMAB/dKlZkFqHF6W93k5Kk+Xlp9d8vEj5QUZa01gftf1jtFi5+u23l9SjgnCN+m1etlGAGi8IbzQ6jHfiI9WYzBh+dYiBJ5qmr2mvQfYwQG/Nm60rVMJCBWaTnId/ynOpRGGe7d04ccPzdkQkqi+rCpGERk4I3algHVmxtgQAXpg/q7PcpvJc8oi8aRXR5YY76k5rf3MXhFFBu5NdmOJ8c6NJkTc6EH4ZFF5L/k0HpNB2rEmU7/WmuvpxvmzjKFFC2IO8BkHaUyhvlGbPNs2J4Q1mZKWUP4uLpm5VCb83uieEnFdjHcW4TTOLjapq0mKEUXmPwMggYO7dpHg4xP2XFv9WelJmD5V8SEGgmxEYT7Uqs6Lxs+pN344QX/WXSbDbrOJdnzW7srEb9YdWQqxoeHkHhTzgXmoS9dpyxOyDnerXKHCuTnGfgGA/qmc5ZkVJAs2oDZuURyOpxZmhsJx2j4s3m8sSbnTlPCBBAmV5rixe0kNox4usRtIPtJDLVlu+8P22+mmkWdRH6mwzHrODHSUYblm8QYF3gAAAAA3asIBbtSEA1m+RgLcqAkH68LLBrJ8jQSFFk8FuFETDo870Q/WhZcN4e9VDGT5GglTk9gICi2eCj1HXAtwoyYcR8nkHR53oh8pHWAerAsvG5th7RrC36sY9bVpGcjyNRL/mPcTpiaxEZFMcxAUWjwVIzD+FHqOuBZN5HoX4EZNONcsjzmOksk7ufgLOjzuRD8LhIY+UjrAPGVQAj1YF142b32cNzbD2jUBqRg0hL9XMbPVlTDqa9My3QERM5DlaySnj6kl/jHvJ8lbLSZMTWIjeyegIiKZ5iAV8yQhKLR4Kh/euitGYPwpcQo+KPQccS3DdrMsmsj1Lq2iNy/AjZpw9+dYca5ZHnOZM9xyHCWTdytPUXZy8Rd0RZvVdXjciX5Ptkt/FggNfSFiz3ykdIB5kx5CeMqgBHr9ysZ7sC68bIdEfm3e+jhv6ZD6bmyGtWtb7HdqAlIxaDU482kIf69iPxVtY2arK2FRwelg1NemZeO9ZGS6AyJmjWngZyDL10gXoRVJTh9TS3l1kUr8Y95PywkcTpK3Wkyl3ZhNmJrERq/wBkf2TkBFwSSCREQyzUFzWA9AKuZJQh2Mi0NQaPFUZwIzVT68dVcJ1rdWjMD4U7uqOlLiFHxQ1X6+Ueg54lrfUyBbhu1mWbGHpFg0ketdA/spXFpFb15tL61fgBs14bdx9+Duz7Hi2aVz41yzPOZr2f7nMme45QUNeuQ4SibvDyDk7laeouxh9GDt5OIv6NOI7emKNqvrvVxp6vC4E/3H0tH8nmyX/qkGVf8sEBr6G3rY+0LEnvl1rlz4SOkA83+DwvImPYTwEVdG8ZRBCfSjK8v1+pWN983/T/ZgXXjZVze62A6J/No54z7bvPVx3oufs9/SIfXd5Us33NgMa9fvZqnWttjv1IGyLdUEpGLQM86g0Wpw5tNdGiTSEP5exSeUnMR+KtrGSUAYx8xWV8L7PJXDooLTwZXoEcCor03Ln8WPysZ7ycjxEQvJdAdEzENths0a08DPLbkCzkCWr5F3/G2QLkIrkhko6ZOcPqaWq1Rkl/LqIpXFgOCU+Me8n8+tfp6WEzicoXn6nSRvtZgTBXeZSrsxm33R85owNYmNB19LjF7hDY5pi8+P7J2Aitv3QouCSQSJtSPGiIhkmoO/DliC5rAegNHa3IFUzJOEY6ZRhToYF4cNctWGoNDiqZe6IKjOBGaq+W6kq3x4665LEimvEqxvrSXGrawYgfGnL+szpnZVdaRBP7elxCn4oPNDOqGq/XyjnZe+otBzxLXnGQa0vqdAtonNgrcM282yO7EPs2IPSbFVZYuwaCLXu19IFboG9lO4MZyRubSK3ryD4By92l5av+00mL4AAAAAQTEbGYJiNjLDUy0rBMVsZEX0d32Gp1pWx5ZBTwiK2chJu8LRiujv+svZ9OMMT7WsTX6utY4tg57PHJiHURLCShAj2VPTcPR4kkHvYVXXri4U5rU317WYHJaEgwVZmBuCGKkAm9v6LbCayzapXV135hxsbP/fP0HUng5azaIkhJXjFZ+MIEayp2F3qb6m4ejx59Dz6CSD3sNlssXaqq5dXeufRkQozGtvaf1wdq5rMTnvWiogLAkHC204HBLzNkbfsgddxnFUcO0wZWv09/Mqu7bCMaJ1kRyJNKAHkPu8nxe6jYQOed6pJTjvsjz/efNzvkjoan0bxUE8Kt5YBU958ER+YumHLU/CxhxU2wGKFZRAuw6Ng+gjpsLZOL8NxaA4TPS7IY+nlgrOlo0TCQDMXEgx10WLYvpuylPhd1Rdu7oVbKCj1j+NiJcOlpFQmNfeEanMx9L64eyTy/r1XNdich3meWvetVRAn4RPWVgSDhYZIxUP2nA4JJtBIz2na/1l5lrmfCUJy1dkONBOo66RAeKfihghzKczYP28Kq/hJK3u0D+0LYMSn2yyCYarJEjJ6hVT0ClGfvtod2Xi9nk/L7dIJDZ0GwkdNSoSBPK8U0uzjUhScN5leTHvfmD+8+bnv8L9/nyR0NU9oMvM+jaKg7sHkZp4VLyxOWWnqEuYgzsKqZgiyfq1CYjLrhBPXe9fDmz0Rs0/2W2MDsJ0QxJa8wIjQerBcGzBgEF32EfXNpcG5i2OxbUApYSEG7waikFxW7taaJjod0PZ2WxaHk8tFV9+NgycLRsn3RwAPhIAmLlTMYOgkGKui9FTtZIWxfTdV/TvxJSnwu/Vltn26bwHrqiNHLdr3jGcKu8qhe15a8qsSHDTbxtd+C4qRuHhNt5moAfFf2NU6FQiZfNN5fOyAqTCqRtnkYQwJqCfKbiuxeT5n979Oszz1nv96M+8a6mA/VqymT4Jn7J/OISrsCQcLPEVBzUyRioec3cxB7ThcEj10GtRNoNGeneyXWNO1/rLD+bh0sy1zPmNhNfgShKWrwsjjbbIcKCdiUG7hEZdIwMHbDgaxD8VMYUODihCmE9nA6lUfsD6eVWBy2JMH8U4gV70I5idpw6z3JYVqhsAVOVaMU/8mWJi19hTec4XT+FJVn76UJUt13vUHMxiE4qNLVK7ljSR6Lsf0NmgBuzzfl6twmVHbpFIbC+gU3XoNhI6qQcJI2pUJAgrZT8R5HmnlqVIvI9mG5GkJyqKveC8y/KhjdDrYt79wCPv5tm94bwU/NCnDT+DiiZ+spE/uSTQcPgVy2k7RuZCenf9W7VrZdz0Wn7FNwlT7nY4SPexrgm48J8SoTPMP4py/SSTAAAAAJYwB3csYQ7uulEJmRnEbQeP9GpwNaVj6aOVZJ4yiNsOpLjceR7p1eCI2dKXK0y2Cb18sX4HLbjnkR2/kGQQtx3yILBqSHG5895BvoR91Noa6+TdbVG11PTHhdODVphsE8Coa2R6+WL97Mllik9cARTZbAZjYz0P+vUNCI3IIG47XhBpTORBYNVycWei0eQDPEfUBEv9hQ3Sa7UKpfqotTVsmLJC1sm720D5vKzjbNgydVzfRc8N1txZPdGrrDDZJjoA3lGAUdfIFmHQv7X0tCEjxLNWmZW6zw+lvbieuAIoCIgFX7LZDMYk6Quxh3xvLxFMaFirHWHBPS1mtpBB3HYGcdsBvCDSmCoQ1e+JhbFxH7W2BqXkv58z1LjooskHeDT5AA+OqAmWGJgO4bsNan8tPW0Il2xkkQFcY+b0UWtrYmFsHNgwZYVOAGLy7ZUGbHulARvB9AiCV8QP9cbZsGVQ6bcS6ri+i3yIufzfHd1iSS3aFfN804xlTNT7WGGyTc5RtTp0ALyj4jC71EGl30rXldg9bcTRpPv01tNq6WlD/NluNEaIZ63QuGDacy0EROUdAzNfTAqqyXwN3TxxBVCqQQInEBALvoYgDMkltWhXs4VvIAnUZrmf5GHODvneXpjJ2SkimNCwtKjXxxc9s1mBDbQuO1y9t61susAgg7jttrO/mgzitgOa0rF0OUfV6q930p0VJtsEgxbccxILY+OEO2SUPmptDahaanoLzw7knf8JkyeuAAqxngd9RJMP8NKjCIdo8gEe/sIGaV1XYvfLZ2WAcTZsGecGa252G9T+4CvTiVp62hDMSt1nb9+5+fnvvo5DvrcX1Y6wYOij1tZ+k9GhxMLYOFLy30/xZ7vRZ1e8pt0GtT9LNrJI2isN2EwbCq/2SgM2YHoEQcPvYN9V32eo745uMXm+aUaMs2HLGoNmvKDSbyU24mhSlXcMzANHC7u5FgIiLyYFVb47usUoC72yklq0KwRqs1yn/9fCMc/QtYue2Swdrt5bsMJkmybyY+yco2p1CpNtAqkGCZw/Ng7rhWcHchNXAAWCSr+VFHq44q4rsXs4G7YMm47Skg2+1eW379x8Id/bC9TS04ZC4tTx+LPdaG6D2h/NFr6BWya59uF3sG93R7cY5loIiHBqD//KOwZmXAsBEf+eZY9prmL40/9rYUXPbBZ44gqg7tIN11SDBE7CswM5YSZnp/cWYNBNR2lJ23duPkpq0a7cWtbZZgvfQPA72DdTrrypxZ673n/Pskfp/7UwHPK9vYrCusowk7NTpqO0JAU20LqTBtfNKVfeVL9n2SMuemazuEphxAIbaF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self.location.href);\n }\n const imports = __wbg_get_imports();\n if (typeof module_or_path === "string" || typeof Request === "function" && module_or_path instanceof Request || typeof URL === "function" && module_or_path instanceof URL) {\n module_or_path = fetch(module_or_path);\n }\n const { instance } = await __wbg_load(await module_or_path, imports);\n return __wbg_finalize_init(instance);\n }\n const rpcHandlers = {\n sortSplats16,\n sortSplats32,\n loadPackedSplats,\n loadExtSplats,\n tinyLodPackedSplats,\n qualityLodPackedSplats,\n tinyLodExtSplats,\n qualityLodExtSplats,\n newLodTree,\n newSharedLodTree,\n initLodTree,\n disposeLodTree,\n updateLodTrees,\n traverseLodTrees,\n getLodTreeLevel,\n nextChunk\n };\n async function onMessage(event) {\n const {\n id,\n name,\n args\n } = event.data;\n try {\n const handler = rpcHandlers[name];\n if (!handler) {\n throw new Error(`Unknown worker RPC: ${name}`);\n }\n const sendStatus = (data) => {\n self.postMessage(\n { id, status: data },\n { transfer: getTransferable(data) }\n );\n };\n const result = await handler(args, { sendStatus });\n self.postMessage({ id, result }, { transfer: getTransferable(result) });\n } catch (error) {\n console.warn(`Worker error: ${error}`);\n self.postMessage({ id, error }, { transfer: getTransferable(error) });\n }\n }\n function sortSplats16({\n numSplats,\n readback,\n ordering\n }) {\n const activeSplats = sort_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n }\n function sortSplats32({\n numSplats,\n readback,\n ordering\n }) {\n const activeSplats = sort32_splats(numSplats, readback, ordering);\n return { activeSplats, readback, ordering };\n }\n async function decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n }) {\n if (fileBytes) {\n const CHUNK_SIZE = 1048576;\n for (let i = 0; i < fileBytes.length; i += CHUNK_SIZE) {\n decoder.push(\n fileBytes.subarray(i, Math.min(i + CHUNK_SIZE, fileBytes.length))\n );\n }\n } else if (url) {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : void 0,\n credentials: withCredentials ? "include" : "same-origin"\n });\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch "${url}": ${response.status} ${response.statusText}`\n );\n }\n const readStream = response.body.getReader();\n const contentLength = Number.parseInt(\n response.headers.get("Content-Length") || "0"\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n let loaded = 0;\n while (true) {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n break;\n }\n loaded += value.length;\n sendStatus({ loaded, total });\n decoder.push(value);\n }\n } else if (chunked) {\n let loaded = 0;\n const total = chunkedLength ?? 0;\n while (true) {\n const readNextChunk = new Promise((resolve) => {\n nextChunkWaiter = resolve;\n });\n sendStatus({ nextChunk: true });\n const nextChunk2 = await readNextChunk;\n if (nextChunk2.length === 0) {\n break;\n }\n decoder.push(nextChunk2);\n loaded += nextChunk2.length;\n sendStatus({ progress: { loaded, total } });\n }\n if (total === 0) {\n sendStatus({ progress: { loaded, total: loaded } });\n }\n } else {\n throw new Error("No url or fileBytes provided");\n }\n const decoded = decoder.finish();\n return decoded;\n }\n function toPackedResult(packed) {\n return {\n numSplats: packed.numSplats,\n packedArray: packed.packed,\n extra: {\n sh1: packed.sh1,\n sh2: packed.sh2,\n sh3: packed.sh3,\n sh1Codes: packed.sh1Codes,\n sh2Codes: packed.sh2Codes,\n sh3Codes: packed.sh3Codes,\n lodTree: packed.lodTree\n },\n splatEncoding: packed.splatEncoding\n };\n }\n async function loadPackedSplats({\n url,\n requestHeader,\n withCredentials,\n fileBytes,\n fileType,\n pathName,\n chunked,\n chunkedLength,\n encoding,\n lod,\n lodBase,\n lodAbove,\n nonLod,\n sh1Codes,\n sh2Codes,\n sh3Codes\n }, {\n sendStatus\n }) {\n if (!lod) {\n const decoder2 = decode_to_packedsplats(\n fileType,\n pathName ?? url,\n encoding,\n sh1Codes,\n sh2Codes,\n sh3Codes\n );\n const decoded2 = await decodeBytesUrl({\n decoder: decoder2,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n const result2 = toPackedResult(decoded2);\n if (result2.splatEncoding.lodOpacity) {\n return { lodSplats: result2 };\n }\n return result2;\n }\n const decoder = decode_to_csplatarray(fileType, pathName ?? url, encoding);\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n if (decoded.has_lod()) {\n const result2 = toPackedResult(\n decoded.to_packedsplats_lod()\n );\n return { lodSplats: result2 };\n }\n if (lodAbove !== void 0) {\n if (decoded.len() < lodAbove) {\n return toPackedResult(decoded.to_packedsplats());\n }\n }\n let result = {};\n if (nonLod) {\n result = toPackedResult(decoded.to_packedsplats());\n }\n const initialSplats = decoded.len();\n const lodName = lod === "quality" ? "Bhatt" : "Tiny";\n console.log(\n `Loaded ${initialSplats} splats. Starting ${lodName} LoD build...`\n );\n const lodStart = performance.now();\n if (lod === "quality") {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.25));\n decoded.bhatt_lod(base);\n } else {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n decoded.tiny_lod(base, false);\n }\n const lodDuration = performance.now() - lodStart;\n console.log(\n `${lodName} LoD: ${initialSplats} -> ${decoded.len()} (${lodDuration} ms)`\n );\n const lodPacked = decoded.to_packedsplats_lod();\n result.lodSplats = toPackedResult(lodPacked);\n return result;\n }\n function toExtResult(packed) {\n return {\n numSplats: packed.numSplats,\n extArrays: [packed.ext0, packed.ext1],\n extra: {\n sh1: packed.sh1,\n sh2: packed.sh2,\n sh3a: packed.sh3a,\n sh3b: packed.sh3b,\n sh1Codes: packed.sh1Codes,\n sh2Codes: packed.sh2Codes,\n sh3Codes: packed.sh3Codes,\n lodTree: packed.lodTree\n }\n };\n }\n async function loadExtSplats({\n url,\n requestHeader,\n withCredentials,\n fileBytes,\n fileType,\n pathName,\n chunked,\n chunkedLength,\n lod,\n lodBase,\n lodAbove,\n nonLod,\n sh1Codes,\n sh2Codes,\n sh3Codes\n }, {\n sendStatus\n }) {\n if (!lod) {\n const decoder2 = decode_to_extsplats(\n fileType,\n pathName ?? url,\n sh1Codes,\n sh2Codes,\n sh3Codes\n );\n const decoded2 = await decodeBytesUrl({\n decoder: decoder2,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n const result2 = toExtResult(decoded2);\n if (result2.extra.lodTree) {\n return { lodSplats: result2 };\n }\n return result2;\n }\n const decoder = decode_to_gsplatarray(fileType, pathName ?? url);\n const decoded = await decodeBytesUrl({\n decoder,\n fileBytes,\n url,\n requestHeader,\n withCredentials,\n chunked,\n chunkedLength,\n sendStatus\n });\n if (decoded.has_lod()) {\n return {\n lodSplats: toExtResult(decoded.to_extsplats_lod())\n };\n }\n if (lodAbove !== void 0) {\n if (decoded.len() < lodAbove) {\n return toExtResult(decoded.to_extsplats());\n }\n }\n let result = {};\n if (nonLod) {\n result = toExtResult(decoded.to_extsplats());\n }\n const initialSplats = decoded.len();\n const lodName = lod === "quality" ? "Bhatt" : "Tiny";\n console.log(\n `Loaded ${initialSplats} splats. Starting ${lodName} LoD build...`\n );\n const lodStart = performance.now();\n if (lod === "quality") {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.75));\n decoded.bhatt_lod(base);\n } else {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n decoded.tiny_lod(base, false);\n }\n const lodDuration = performance.now() - lodStart;\n console.log(\n `${lodName} LoD: ${initialSplats} -> ${decoded.len()} (${lodDuration} ms)`\n );\n const lodPacked = decoded.to_extsplats_lod();\n result.lodSplats = toExtResult(lodPacked);\n return result;\n }\n async function tinyLodPackedSplats({\n numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n const lodStart = performance.now();\n const filter = false;\n const decoded = tiny_lod_packedsplats(\n numSplats,\n packedArray,\n extra,\n base,\n filter,\n rgba,\n encoding\n );\n const lodDuration = performance.now() - lodStart;\n const result = toPackedResult(decoded);\n console.log(\n `Tiny LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n async function qualityLodPackedSplats({\n numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.75));\n const lodStart = performance.now();\n const decoded = bhatt_lod_packedsplats(\n numSplats,\n packedArray,\n extra,\n base,\n rgba,\n encoding\n );\n const lodDuration = performance.now() - lodStart;\n const result = toPackedResult(decoded);\n console.log(\n `Bhatt LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n async function tinyLodExtSplats({\n numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.5));\n const lodStart = performance.now();\n const filter = false;\n const decoded = tiny_lod_extsplats(\n numSplats,\n extArrays[0],\n extArrays[1],\n extra,\n base,\n filter,\n rgba\n );\n const lodDuration = performance.now() - lodStart;\n const result = toExtResult(decoded);\n console.log(\n `Tiny LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n async function qualityLodExtSplats({\n numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n encoding\n }) {\n const base = Math.max(1.1, Math.min(2, lodBase ?? 1.75));\n const lodStart = performance.now();\n const decoded = bhatt_lod_extsplats(\n numSplats,\n extArrays[0],\n extArrays[1],\n extra,\n base,\n rgba\n );\n const lodDuration = performance.now() - lodStart;\n const result = toExtResult(decoded);\n console.log(\n `Bhatt LoD: ${numSplats} -> ${result.numSplats} (${lodDuration} ms)`\n );\n return result;\n }\n function newLodTree({\n capacity\n }) {\n const { lodId } = new_lod_tree(capacity);\n return { lodId };\n }\n function newSharedLodTree({\n lodId\n }) {\n const { lodId: newLodId } = new_shared_lod_tree(lodId);\n return { lodId: newLodId };\n }\n function initLodTree({\n numSplats,\n lodTree\n }) {\n const { lodId, chunkToPage } = init_lod_tree(numSplats, lodTree);\n return { lodId, chunkToPage };\n }\n function disposeLodTree({ lodId }) {\n dispose_lod_tree(lodId);\n }\n function updateLodTrees({\n ranges\n }) {\n const lodIds = new Uint32Array(ranges.map(({ lodId }) => lodId));\n const pageBases = new Uint32Array(ranges.map(({ pageBase }) => pageBase));\n const chunkBases = new Uint32Array(ranges.map(({ chunkBase }) => chunkBase));\n const counts = new Uint32Array(ranges.map(({ count }) => count));\n const lodTreeData = ranges.map(({ lodTreeData: lodTreeData2 }) => lodTreeData2);\n update_lod_trees(\n lodIds,\n pageBases,\n chunkBases,\n counts,\n lodTreeData\n );\n }\n function traverseLodTrees({\n maxSplats,\n pixelScaleLimit,\n lastPixelLimit,\n instances\n }) {\n const keyInstances = Object.entries(instances);\n const lodIds = new Uint32Array(\n keyInstances.map(([_key, instance]) => instance.lodId)\n );\n const rootPages = new Uint32Array(\n keyInstances.map(([_key, instance]) => instance.rootPage ?? 4294967295)\n );\n const viewToObjects = new Float32Array(\n keyInstances.flatMap(([_key, instance]) => {\n if (instance.viewToObjectCols.length !== 16) {\n throw new Error("Incorrect array size for viewToObjectCols");\n }\n return instance.viewToObjectCols;\n })\n );\n const lodScales = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.lodScale)\n );\n const behindFoveates = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.behindFoveate)\n );\n const coneFov0s = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.coneFov0)\n );\n const coneFovs = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.coneFov)\n );\n const coneFoveates = new Float32Array(\n keyInstances.map(([_key, instance]) => instance.coneFoveate)\n );\n const result = traverse_lod_trees(\n maxSplats,\n pixelScaleLimit,\n lastPixelLimit,\n lodIds,\n rootPages,\n viewToObjects,\n lodScales,\n behindFoveates,\n coneFoveates,\n coneFov0s,\n coneFovs\n );\n const { instanceIndices, chunks, pixelLimit } = result;\n const indices = keyInstances.reduce(\n (indices2, [key, _instance], index) => {\n indices2[key] = instanceIndices[index];\n return indices2;\n },\n {}\n );\n return {\n keyIndices: indices,\n chunks,\n pixelLimit\n };\n }\n function getLodTreeLevel({\n lodId,\n level\n }) {\n return get_lod_tree_level(lodId, level);\n }\n let nextChunkWaiter = (_chunk) => {\n };\n async function nextChunk({ chunk }) {\n nextChunkWaiter(chunk);\n }\n function getTransferable(ctx) {\n const buffers = [];\n const seen = /* @__PURE__ */ new Set();\n function traverse(obj) {\n if (obj && typeof obj === "object" && !seen.has(obj)) {\n seen.add(obj);\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n buffers.push(obj.buffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n traverse(ctx);\n return buffers;\n }\n async function initialize() {\n const pending = [];\n const bufferMessage = (event) => {\n pending.push(event);\n };\n self.addEventListener("message", bufferMessage);\n await __wbg_init();\n self.removeEventListener("message", bufferMessage);\n self.addEventListener("message", onMessage);\n for (const event of pending) {\n onMessage(event);\n }\n pending.length = 0;\n }\n initialize().catch(console.error);\n})();\n//# sourceMappingURL=worker-kPeRSrjE.js.map\n'; const blob = typeof self !== "undefined" && self.Blob && new Blob([jsContent], { type: "text/javascript;charset=utf-8" }); function WorkerWrapper(options) { let objURL; @@ -7992,7 +7992,7 @@ async function __wbg_init(module_or_path) { } } if (module_or_path === void 0) { - module_or_path = new URL("data:application/wasm;base64,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+ module_or_path = new URL("data:application/wasm;base64,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} const imports = __wbg_get_imports(); if (typeof module_or_path === "string" || typeof Request === "function" && module_or_path instanceof Request || typeof URL === "function" && module_or_path instanceof URL) { diff --git a/dist/spark.module.js.map b/dist/spark.module.js.map index 208f0428..0a011c20 100644 --- a/dist/spark.module.js.map +++ b/dist/spark.module.js.map @@ -1 +1 @@ -{"version":3,"file":"spark.module.js","sources":["../src/OldSplatGeometry.ts","../node_modules/fflate/esm/browser.js","../src/defines.ts","../src/dyno/types.ts","../src/dyno/value.ts","../src/dyno/base.ts","../src/utils.ts","../src/OldSplatWorker.ts","../node_modules/three/examples/jsm/postprocessing/Pass.js","../src/SplatWorker.ts","../src/dyno/splats.ts","../src/dyno/output.ts","../src/dyno/uniforms.ts","../src/dyno/program.ts","../src/dyno/mathTypes.ts","../src/dyno/math.ts","../src/dyno/logic.ts","../src/dyno/convert.ts","../src/dyno/vecmat.ts","../src/dyno/util.ts","../src/dyno/transform.ts","../src/dyno/control.ts","../src/dyno/texture.ts","../src/dyno/trig.ts","../src/ExtSplats.ts","../rust/spark-rs/pkg/spark_rs.js","../src/shaders/computeUvec4.glsl","../src/shaders/computeUvec4_Vec4.glsl","../src/shaders/computeUvec4x2_Vec4.glsl","../src/shaders/computeVec4.glsl","../src/shaders/oldSplatFragment.glsl","../src/shaders/oldSplatVertex.glsl","../src/shaders/splatDefines.glsl","../src/shaders/splatFragment.glsl","../src/shaders/splatVertex.glsl","../src/shaders.ts","../src/Readback.ts","../src/RgbaArray.ts","../src/SplatEdit.ts","../src/SplatGenerator.ts","../src/SplatAccumulator.ts","../src/SplatGeometry.ts","../src/SparkRenderer.ts","../src/SplatPager.ts","../src/SplatMesh.ts","../src/ply.ts","../src/SplatLoader.ts","../src/PackedSplats.ts","../src/OldSparkViewpoint.ts","../src/OldSplatAccumulator.ts","../src/OldSparkRenderer.ts","../src/antisplat.ts","../src/ksplat.ts","../src/spz.ts","../src/SplatSkinning.ts","../src/splatConstructors.ts","../src/generators/static.ts","../src/generators/snow.ts","../src/modifiers/normalColor.ts","../src/modifiers/depthColor.ts","../src/SparkXr.ts","../src/hands.ts","../src/controls.ts","../src/SparkPortals.ts"],"sourcesContent":["import * as THREE from \"three\";\n\n// SplatGeometry is an internal class used by SparkRenderer to render a collection\n// of Gsplats in a single draw call by extending THREE.InstancedBufferGeometry.\n// Each Gsplat is drawn as two triangles, with the order of the Gsplats determined\n// by the instance attribute \"ordering\".\n\nexport class OldSplatGeometry extends THREE.InstancedBufferGeometry {\n ordering: Uint32Array;\n attribute: THREE.InstancedBufferAttribute;\n\n constructor(ordering: Uint32Array, activeSplats: number) {\n super();\n\n this.ordering = ordering;\n\n this.setAttribute(\"position\", new THREE.BufferAttribute(QUAD_VERTICES, 3));\n this.setIndex(new THREE.BufferAttribute(QUAD_INDICES, 1));\n\n // Hack to work around Three.js\n // @ts-ignore\n this._maxInstanceCount = ordering.length;\n this.instanceCount = activeSplats;\n\n this.attribute = new THREE.InstancedBufferAttribute(ordering, 1, false, 1);\n this.attribute.setUsage(THREE.DynamicDrawUsage);\n this.setAttribute(\"splatIndex\", this.attribute);\n }\n\n update(ordering: Uint32Array, activeSplats: number) {\n this.ordering = ordering;\n this.attribute.array = ordering;\n this.instanceCount = activeSplats;\n this.attribute.addUpdateRange(0, activeSplats);\n this.attribute.needsUpdate = true;\n }\n}\n\n// Each instance draws to triangles covering a quad over coords (-1,-1,0)..(1,1,0)\nconst QUAD_VERTICES = new Float32Array([\n -1, -1, 0, 1, -1, 0, 1, 1, 0, -1, 1, 0,\n]);\n\nconst QUAD_INDICES = new Uint16Array([0, 1, 2, 0, 2, 3]);\n","// DEFLATE is a complex format; to read this code, you should probably check the RFC first:\n// https://tools.ietf.org/html/rfc1951\n// You may also wish to take a look at the guide I made about this program:\n// https://gist.github.com/101arrowz/253f31eb5abc3d9275ab943003ffecad\n// Some of the following code is similar to that of UZIP.js:\n// https://github.com/photopea/UZIP.js\n// However, the vast majority of the codebase has diverged from UZIP.js to increase performance and reduce bundle size.\n// Sometimes 0 will appear where -1 would be more appropriate. This is because using a uint\n// is better for memory in most engines (I *think*).\nvar ch2 = {};\nvar wk = (function (c, id, msg, transfer, cb) {\n var w = new Worker(ch2[id] || (ch2[id] = URL.createObjectURL(new Blob([\n c + ';addEventListener(\"error\",function(e){e=e.error;postMessage({$e$:[e.message,e.code,e.stack]})})'\n ], { type: 'text/javascript' }))));\n w.onmessage = function (e) {\n var d = e.data, ed = d.$e$;\n if (ed) {\n var err = new Error(ed[0]);\n err['code'] = ed[1];\n err.stack = ed[2];\n cb(err, null);\n }\n else\n cb(null, d);\n };\n w.postMessage(msg, transfer);\n return w;\n});\n\n// aliases for shorter compressed code (most minifers don't do this)\nvar u8 = Uint8Array, u16 = Uint16Array, i32 = Int32Array;\n// fixed length extra bits\nvar fleb = new u8([0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0, /* unused */ 0, 0, /* impossible */ 0]);\n// fixed distance extra bits\nvar fdeb = new u8([0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, /* unused */ 0, 0]);\n// code length index map\nvar clim = new u8([16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15]);\n// get base, reverse index map from extra bits\nvar freb = function (eb, start) {\n var b = new u16(31);\n for (var i = 0; i < 31; ++i) {\n b[i] = start += 1 << eb[i - 1];\n }\n // numbers here are at max 18 bits\n var r = new i32(b[30]);\n for (var i = 1; i < 30; ++i) {\n for (var j = b[i]; j < b[i + 1]; ++j) {\n r[j] = ((j - b[i]) << 5) | i;\n }\n }\n return { b: b, r: r };\n};\nvar _a = freb(fleb, 2), fl = _a.b, revfl = _a.r;\n// we can ignore the fact that the other numbers are wrong; they never happen anyway\nfl[28] = 258, revfl[258] = 28;\nvar _b = freb(fdeb, 0), fd = _b.b, revfd = _b.r;\n// map of value to reverse (assuming 16 bits)\nvar rev = new u16(32768);\nfor (var i = 0; i < 32768; ++i) {\n // reverse table algorithm from SO\n var x = ((i & 0xAAAA) >> 1) | ((i & 0x5555) << 1);\n x = ((x & 0xCCCC) >> 2) | ((x & 0x3333) << 2);\n x = ((x & 0xF0F0) >> 4) | ((x & 0x0F0F) << 4);\n rev[i] = (((x & 0xFF00) >> 8) | ((x & 0x00FF) << 8)) >> 1;\n}\n// create huffman tree from u8 \"map\": index -> code length for code index\n// mb (max bits) must be at most 15\n// TODO: optimize/split up?\nvar hMap = (function (cd, mb, r) {\n var s = cd.length;\n // index\n var i = 0;\n // u16 \"map\": index -> # of codes with bit length = index\n var l = new u16(mb);\n // length of cd must be 288 (total # of codes)\n for (; i < s; ++i) {\n if (cd[i])\n ++l[cd[i] - 1];\n }\n // u16 \"map\": index -> minimum code for bit length = index\n var le = new u16(mb);\n for (i = 1; i < mb; ++i) {\n le[i] = (le[i - 1] + l[i - 1]) << 1;\n }\n var co;\n if (r) {\n // u16 \"map\": index -> number of actual bits, symbol for code\n co = new u16(1 << mb);\n // bits to remove for reverser\n var rvb = 15 - mb;\n for (i = 0; i < s; ++i) {\n // ignore 0 lengths\n if (cd[i]) {\n // num encoding both symbol and bits read\n var sv = (i << 4) | cd[i];\n // free bits\n var r_1 = mb - cd[i];\n // start value\n var v = le[cd[i] - 1]++ << r_1;\n // m is end value\n for (var m = v | ((1 << r_1) - 1); v <= m; ++v) {\n // every 16 bit value starting with the code yields the same result\n co[rev[v] >> rvb] = sv;\n }\n }\n }\n }\n else {\n co = new u16(s);\n for (i = 0; i < s; ++i) {\n if (cd[i]) {\n co[i] = rev[le[cd[i] - 1]++] >> (15 - cd[i]);\n }\n }\n }\n return co;\n});\n// fixed length tree\nvar flt = new u8(288);\nfor (var i = 0; i < 144; ++i)\n flt[i] = 8;\nfor (var i = 144; i < 256; ++i)\n flt[i] = 9;\nfor (var i = 256; i < 280; ++i)\n flt[i] = 7;\nfor (var i = 280; i < 288; ++i)\n flt[i] = 8;\n// fixed distance tree\nvar fdt = new u8(32);\nfor (var i = 0; i < 32; ++i)\n fdt[i] = 5;\n// fixed length map\nvar flm = /*#__PURE__*/ hMap(flt, 9, 0), flrm = /*#__PURE__*/ hMap(flt, 9, 1);\n// fixed distance map\nvar fdm = /*#__PURE__*/ hMap(fdt, 5, 0), fdrm = /*#__PURE__*/ hMap(fdt, 5, 1);\n// find max of array\nvar max = function (a) {\n var m = a[0];\n for (var i = 1; i < a.length; ++i) {\n if (a[i] > m)\n m = a[i];\n }\n return m;\n};\n// read d, starting at bit p and mask with m\nvar bits = function (d, p, m) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8)) >> (p & 7)) & m;\n};\n// read d, starting at bit p continuing for at least 16 bits\nvar bits16 = function (d, p) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8) | (d[o + 2] << 16)) >> (p & 7));\n};\n// get end of byte\nvar shft = function (p) { return ((p + 7) / 8) | 0; };\n// typed array slice - allows garbage collector to free original reference,\n// while being more compatible than .slice\nvar slc = function (v, s, e) {\n if (s == null || s < 0)\n s = 0;\n if (e == null || e > v.length)\n e = v.length;\n // can't use .constructor in case user-supplied\n return new u8(v.subarray(s, e));\n};\n/**\n * Codes for errors generated within this library\n */\nexport var FlateErrorCode = {\n UnexpectedEOF: 0,\n InvalidBlockType: 1,\n InvalidLengthLiteral: 2,\n InvalidDistance: 3,\n StreamFinished: 4,\n NoStreamHandler: 5,\n InvalidHeader: 6,\n NoCallback: 7,\n InvalidUTF8: 8,\n ExtraFieldTooLong: 9,\n InvalidDate: 10,\n FilenameTooLong: 11,\n StreamFinishing: 12,\n InvalidZipData: 13,\n UnknownCompressionMethod: 14\n};\n// error codes\nvar ec = [\n 'unexpected EOF',\n 'invalid block type',\n 'invalid length/literal',\n 'invalid distance',\n 'stream finished',\n 'no stream handler',\n ,\n 'no callback',\n 'invalid UTF-8 data',\n 'extra field too long',\n 'date not in range 1980-2099',\n 'filename too long',\n 'stream finishing',\n 'invalid zip data'\n // determined by unknown compression method\n];\n;\nvar err = function (ind, msg, nt) {\n var e = new Error(msg || ec[ind]);\n e.code = ind;\n if (Error.captureStackTrace)\n Error.captureStackTrace(e, err);\n if (!nt)\n throw e;\n return e;\n};\n// expands raw DEFLATE data\nvar inflt = function (dat, st, buf, dict) {\n // source length dict length\n var sl = dat.length, dl = dict ? dict.length : 0;\n if (!sl || st.f && !st.l)\n return buf || new u8(0);\n var noBuf = !buf;\n // have to estimate size\n var resize = noBuf || st.i != 2;\n // no state\n var noSt = st.i;\n // Assumes roughly 33% compression ratio average\n if (noBuf)\n buf = new u8(sl * 3);\n // ensure buffer can fit at least l elements\n var cbuf = function (l) {\n var bl = buf.length;\n // need to increase size to fit\n if (l > bl) {\n // Double or set to necessary, whichever is greater\n var nbuf = new u8(Math.max(bl * 2, l));\n nbuf.set(buf);\n buf = nbuf;\n }\n };\n // last chunk bitpos bytes\n var final = st.f || 0, pos = st.p || 0, bt = st.b || 0, lm = st.l, dm = st.d, lbt = st.m, dbt = st.n;\n // total bits\n var tbts = sl * 8;\n do {\n if (!lm) {\n // BFINAL - this is only 1 when last chunk is next\n final = bits(dat, pos, 1);\n // type: 0 = no compression, 1 = fixed huffman, 2 = dynamic huffman\n var type = bits(dat, pos + 1, 3);\n pos += 3;\n if (!type) {\n // go to end of byte boundary\n var s = shft(pos) + 4, l = dat[s - 4] | (dat[s - 3] << 8), t = s + l;\n if (t > sl) {\n if (noSt)\n err(0);\n break;\n }\n // ensure size\n if (resize)\n cbuf(bt + l);\n // Copy over uncompressed data\n buf.set(dat.subarray(s, t), bt);\n // Get new bitpos, update byte count\n st.b = bt += l, st.p = pos = t * 8, st.f = final;\n continue;\n }\n else if (type == 1)\n lm = flrm, dm = fdrm, lbt = 9, dbt = 5;\n else if (type == 2) {\n // literal lengths\n var hLit = bits(dat, pos, 31) + 257, hcLen = bits(dat, pos + 10, 15) + 4;\n var tl = hLit + bits(dat, pos + 5, 31) + 1;\n pos += 14;\n // length+distance tree\n var ldt = new u8(tl);\n // code length tree\n var clt = new u8(19);\n for (var i = 0; i < hcLen; ++i) {\n // use index map to get real code\n clt[clim[i]] = bits(dat, pos + i * 3, 7);\n }\n pos += hcLen * 3;\n // code lengths bits\n var clb = max(clt), clbmsk = (1 << clb) - 1;\n // code lengths map\n var clm = hMap(clt, clb, 1);\n for (var i = 0; i < tl;) {\n var r = clm[bits(dat, pos, clbmsk)];\n // bits read\n pos += r & 15;\n // symbol\n var s = r >> 4;\n // code length to copy\n if (s < 16) {\n ldt[i++] = s;\n }\n else {\n // copy count\n var c = 0, n = 0;\n if (s == 16)\n n = 3 + bits(dat, pos, 3), pos += 2, c = ldt[i - 1];\n else if (s == 17)\n n = 3 + bits(dat, pos, 7), pos += 3;\n else if (s == 18)\n n = 11 + bits(dat, pos, 127), pos += 7;\n while (n--)\n ldt[i++] = c;\n }\n }\n // length tree distance tree\n var lt = ldt.subarray(0, hLit), dt = ldt.subarray(hLit);\n // max length bits\n lbt = max(lt);\n // max dist bits\n dbt = max(dt);\n lm = hMap(lt, lbt, 1);\n dm = hMap(dt, dbt, 1);\n }\n else\n err(1);\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n }\n // Make sure the buffer can hold this + the largest possible addition\n // Maximum chunk size (practically, theoretically infinite) is 2^17\n if (resize)\n cbuf(bt + 131072);\n var lms = (1 << lbt) - 1, dms = (1 << dbt) - 1;\n var lpos = pos;\n for (;; lpos = pos) {\n // bits read, code\n var c = lm[bits16(dat, pos) & lms], sym = c >> 4;\n pos += c & 15;\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (!c)\n err(2);\n if (sym < 256)\n buf[bt++] = sym;\n else if (sym == 256) {\n lpos = pos, lm = null;\n break;\n }\n else {\n var add = sym - 254;\n // no extra bits needed if less\n if (sym > 264) {\n // index\n var i = sym - 257, b = fleb[i];\n add = bits(dat, pos, (1 << b) - 1) + fl[i];\n pos += b;\n }\n // dist\n var d = dm[bits16(dat, pos) & dms], dsym = d >> 4;\n if (!d)\n err(3);\n pos += d & 15;\n var dt = fd[dsym];\n if (dsym > 3) {\n var b = fdeb[dsym];\n dt += bits16(dat, pos) & (1 << b) - 1, pos += b;\n }\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + 131072);\n var end = bt + add;\n if (bt < dt) {\n var shift = dl - dt, dend = Math.min(dt, end);\n if (shift + bt < 0)\n err(3);\n for (; bt < dend; ++bt)\n buf[bt] = dict[shift + bt];\n }\n for (; bt < end; ++bt)\n buf[bt] = buf[bt - dt];\n }\n }\n st.l = lm, st.p = lpos, st.b = bt, st.f = final;\n if (lm)\n final = 1, st.m = lbt, st.d = dm, st.n = dbt;\n } while (!final);\n // don't reallocate for streams or user buffers\n return bt != buf.length && noBuf ? slc(buf, 0, bt) : buf.subarray(0, bt);\n};\n// starting at p, write the minimum number of bits that can hold v to d\nvar wbits = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n};\n// starting at p, write the minimum number of bits (>8) that can hold v to d\nvar wbits16 = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n d[o + 2] |= v >> 16;\n};\n// creates code lengths from a frequency table\nvar hTree = function (d, mb) {\n // Need extra info to make a tree\n var t = [];\n for (var i = 0; i < d.length; ++i) {\n if (d[i])\n t.push({ s: i, f: d[i] });\n }\n var s = t.length;\n var t2 = t.slice();\n if (!s)\n return { t: et, l: 0 };\n if (s == 1) {\n var v = new u8(t[0].s + 1);\n v[t[0].s] = 1;\n return { t: v, l: 1 };\n }\n t.sort(function (a, b) { return a.f - b.f; });\n // after i2 reaches last ind, will be stopped\n // freq must be greater than largest possible number of symbols\n t.push({ s: -1, f: 25001 });\n var l = t[0], r = t[1], i0 = 0, i1 = 1, i2 = 2;\n t[0] = { s: -1, f: l.f + r.f, l: l, r: r };\n // efficient algorithm from UZIP.js\n // i0 is lookbehind, i2 is lookahead - after processing two low-freq\n // symbols that combined have high freq, will start processing i2 (high-freq,\n // non-composite) symbols instead\n // see https://reddit.com/r/photopea/comments/ikekht/uzipjs_questions/\n while (i1 != s - 1) {\n l = t[t[i0].f < t[i2].f ? i0++ : i2++];\n r = t[i0 != i1 && t[i0].f < t[i2].f ? i0++ : i2++];\n t[i1++] = { s: -1, f: l.f + r.f, l: l, r: r };\n }\n var maxSym = t2[0].s;\n for (var i = 1; i < s; ++i) {\n if (t2[i].s > maxSym)\n maxSym = t2[i].s;\n }\n // code lengths\n var tr = new u16(maxSym + 1);\n // max bits in tree\n var mbt = ln(t[i1 - 1], tr, 0);\n if (mbt > mb) {\n // more algorithms from UZIP.js\n // TODO: find out how this code works (debt)\n // ind debt\n var i = 0, dt = 0;\n // left cost\n var lft = mbt - mb, cst = 1 << lft;\n t2.sort(function (a, b) { return tr[b.s] - tr[a.s] || a.f - b.f; });\n for (; i < s; ++i) {\n var i2_1 = t2[i].s;\n if (tr[i2_1] > mb) {\n dt += cst - (1 << (mbt - tr[i2_1]));\n tr[i2_1] = mb;\n }\n else\n break;\n }\n dt >>= lft;\n while (dt > 0) {\n var i2_2 = t2[i].s;\n if (tr[i2_2] < mb)\n dt -= 1 << (mb - tr[i2_2]++ - 1);\n else\n ++i;\n }\n for (; i >= 0 && dt; --i) {\n var i2_3 = t2[i].s;\n if (tr[i2_3] == mb) {\n --tr[i2_3];\n ++dt;\n }\n }\n mbt = mb;\n }\n return { t: new u8(tr), l: mbt };\n};\n// get the max length and assign length codes\nvar ln = function (n, l, d) {\n return n.s == -1\n ? Math.max(ln(n.l, l, d + 1), ln(n.r, l, d + 1))\n : (l[n.s] = d);\n};\n// length codes generation\nvar lc = function (c) {\n var s = c.length;\n // Note that the semicolon was intentional\n while (s && !c[--s])\n ;\n var cl = new u16(++s);\n // ind num streak\n var cli = 0, cln = c[0], cls = 1;\n var w = function (v) { cl[cli++] = v; };\n for (var i = 1; i <= s; ++i) {\n if (c[i] == cln && i != s)\n ++cls;\n else {\n if (!cln && cls > 2) {\n for (; cls > 138; cls -= 138)\n w(32754);\n if (cls > 2) {\n w(cls > 10 ? ((cls - 11) << 5) | 28690 : ((cls - 3) << 5) | 12305);\n cls = 0;\n }\n }\n else if (cls > 3) {\n w(cln), --cls;\n for (; cls > 6; cls -= 6)\n w(8304);\n if (cls > 2)\n w(((cls - 3) << 5) | 8208), cls = 0;\n }\n while (cls--)\n w(cln);\n cls = 1;\n cln = c[i];\n }\n }\n return { c: cl.subarray(0, cli), n: s };\n};\n// calculate the length of output from tree, code lengths\nvar clen = function (cf, cl) {\n var l = 0;\n for (var i = 0; i < cl.length; ++i)\n l += cf[i] * cl[i];\n return l;\n};\n// writes a fixed block\n// returns the new bit pos\nvar wfblk = function (out, pos, dat) {\n // no need to write 00 as type: TypedArray defaults to 0\n var s = dat.length;\n var o = shft(pos + 2);\n out[o] = s & 255;\n out[o + 1] = s >> 8;\n out[o + 2] = out[o] ^ 255;\n out[o + 3] = out[o + 1] ^ 255;\n for (var i = 0; i < s; ++i)\n out[o + i + 4] = dat[i];\n return (o + 4 + s) * 8;\n};\n// writes a block\nvar wblk = function (dat, out, final, syms, lf, df, eb, li, bs, bl, p) {\n wbits(out, p++, final);\n ++lf[256];\n var _a = hTree(lf, 15), dlt = _a.t, mlb = _a.l;\n var _b = hTree(df, 15), ddt = _b.t, mdb = _b.l;\n var _c = lc(dlt), lclt = _c.c, nlc = _c.n;\n var _d = lc(ddt), lcdt = _d.c, ndc = _d.n;\n var lcfreq = new u16(19);\n for (var i = 0; i < lclt.length; ++i)\n ++lcfreq[lclt[i] & 31];\n for (var i = 0; i < lcdt.length; ++i)\n ++lcfreq[lcdt[i] & 31];\n var _e = hTree(lcfreq, 7), lct = _e.t, mlcb = _e.l;\n var nlcc = 19;\n for (; nlcc > 4 && !lct[clim[nlcc - 1]]; --nlcc)\n ;\n var flen = (bl + 5) << 3;\n var ftlen = clen(lf, flt) + clen(df, fdt) + eb;\n var dtlen = clen(lf, dlt) + clen(df, ddt) + eb + 14 + 3 * nlcc + clen(lcfreq, lct) + 2 * lcfreq[16] + 3 * lcfreq[17] + 7 * lcfreq[18];\n if (bs >= 0 && flen <= ftlen && flen <= dtlen)\n return wfblk(out, p, dat.subarray(bs, bs + bl));\n var lm, ll, dm, dl;\n wbits(out, p, 1 + (dtlen < ftlen)), p += 2;\n if (dtlen < ftlen) {\n lm = hMap(dlt, mlb, 0), ll = dlt, dm = hMap(ddt, mdb, 0), dl = ddt;\n var llm = hMap(lct, mlcb, 0);\n wbits(out, p, nlc - 257);\n wbits(out, p + 5, ndc - 1);\n wbits(out, p + 10, nlcc - 4);\n p += 14;\n for (var i = 0; i < nlcc; ++i)\n wbits(out, p + 3 * i, lct[clim[i]]);\n p += 3 * nlcc;\n var lcts = [lclt, lcdt];\n for (var it = 0; it < 2; ++it) {\n var clct = lcts[it];\n for (var i = 0; i < clct.length; ++i) {\n var len = clct[i] & 31;\n wbits(out, p, llm[len]), p += lct[len];\n if (len > 15)\n wbits(out, p, (clct[i] >> 5) & 127), p += clct[i] >> 12;\n }\n }\n }\n else {\n lm = flm, ll = flt, dm = fdm, dl = fdt;\n }\n for (var i = 0; i < li; ++i) {\n var sym = syms[i];\n if (sym > 255) {\n var len = (sym >> 18) & 31;\n wbits16(out, p, lm[len + 257]), p += ll[len + 257];\n if (len > 7)\n wbits(out, p, (sym >> 23) & 31), p += fleb[len];\n var dst = sym & 31;\n wbits16(out, p, dm[dst]), p += dl[dst];\n if (dst > 3)\n wbits16(out, p, (sym >> 5) & 8191), p += fdeb[dst];\n }\n else {\n wbits16(out, p, lm[sym]), p += ll[sym];\n }\n }\n wbits16(out, p, lm[256]);\n return p + ll[256];\n};\n// deflate options (nice << 13) | chain\nvar deo = /*#__PURE__*/ new i32([65540, 131080, 131088, 131104, 262176, 1048704, 1048832, 2114560, 2117632]);\n// empty\nvar et = /*#__PURE__*/ new u8(0);\n// compresses data into a raw DEFLATE buffer\nvar dflt = function (dat, lvl, plvl, pre, post, st) {\n var s = st.z || dat.length;\n var o = new u8(pre + s + 5 * (1 + Math.ceil(s / 7000)) + post);\n // writing to this writes to the output buffer\n var w = o.subarray(pre, o.length - post);\n var lst = st.l;\n var pos = (st.r || 0) & 7;\n if (lvl) {\n if (pos)\n w[0] = st.r >> 3;\n var opt = deo[lvl - 1];\n var n = opt >> 13, c = opt & 8191;\n var msk_1 = (1 << plvl) - 1;\n // prev 2-byte val map curr 2-byte val map\n var prev = st.p || new u16(32768), head = st.h || new u16(msk_1 + 1);\n var bs1_1 = Math.ceil(plvl / 3), bs2_1 = 2 * bs1_1;\n var hsh = function (i) { return (dat[i] ^ (dat[i + 1] << bs1_1) ^ (dat[i + 2] << bs2_1)) & msk_1; };\n // 24576 is an arbitrary number of maximum symbols per block\n // 424 buffer for last block\n var syms = new i32(25000);\n // length/literal freq distance freq\n var lf = new u16(288), df = new u16(32);\n // l/lcnt exbits index l/lind waitdx blkpos\n var lc_1 = 0, eb = 0, i = st.i || 0, li = 0, wi = st.w || 0, bs = 0;\n for (; i + 2 < s; ++i) {\n // hash value\n var hv = hsh(i);\n // index mod 32768 previous index mod\n var imod = i & 32767, pimod = head[hv];\n prev[imod] = pimod;\n head[hv] = imod;\n // We always should modify head and prev, but only add symbols if\n // this data is not yet processed (\"wait\" for wait index)\n if (wi <= i) {\n // bytes remaining\n var rem = s - i;\n if ((lc_1 > 7000 || li > 24576) && (rem > 423 || !lst)) {\n pos = wblk(dat, w, 0, syms, lf, df, eb, li, bs, i - bs, pos);\n li = lc_1 = eb = 0, bs = i;\n for (var j = 0; j < 286; ++j)\n lf[j] = 0;\n for (var j = 0; j < 30; ++j)\n df[j] = 0;\n }\n // len dist chain\n var l = 2, d = 0, ch_1 = c, dif = imod - pimod & 32767;\n if (rem > 2 && hv == hsh(i - dif)) {\n var maxn = Math.min(n, rem) - 1;\n var maxd = Math.min(32767, i);\n // max possible length\n // not capped at dif because decompressors implement \"rolling\" index population\n var ml = Math.min(258, rem);\n while (dif <= maxd && --ch_1 && imod != pimod) {\n if (dat[i + l] == dat[i + l - dif]) {\n var nl = 0;\n for (; nl < ml && dat[i + nl] == dat[i + nl - dif]; ++nl)\n ;\n if (nl > l) {\n l = nl, d = dif;\n // break out early when we reach \"nice\" (we are satisfied enough)\n if (nl > maxn)\n break;\n // now, find the rarest 2-byte sequence within this\n // length of literals and search for that instead.\n // Much faster than just using the start\n var mmd = Math.min(dif, nl - 2);\n var md = 0;\n for (var j = 0; j < mmd; ++j) {\n var ti = i - dif + j & 32767;\n var pti = prev[ti];\n var cd = ti - pti & 32767;\n if (cd > md)\n md = cd, pimod = ti;\n }\n }\n }\n // check the previous match\n imod = pimod, pimod = prev[imod];\n dif += imod - pimod & 32767;\n }\n }\n // d will be nonzero only when a match was found\n if (d) {\n // store both dist and len data in one int32\n // Make sure this is recognized as a len/dist with 28th bit (2^28)\n syms[li++] = 268435456 | (revfl[l] << 18) | revfd[d];\n var lin = revfl[l] & 31, din = revfd[d] & 31;\n eb += fleb[lin] + fdeb[din];\n ++lf[257 + lin];\n ++df[din];\n wi = i + l;\n ++lc_1;\n }\n else {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n }\n }\n for (i = Math.max(i, wi); i < s; ++i) {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n pos = wblk(dat, w, lst, syms, lf, df, eb, li, bs, i - bs, pos);\n if (!lst) {\n st.r = (pos & 7) | w[(pos / 8) | 0] << 3;\n // shft(pos) now 1 less if pos & 7 != 0\n pos -= 7;\n st.h = head, st.p = prev, st.i = i, st.w = wi;\n }\n }\n else {\n for (var i = st.w || 0; i < s + lst; i += 65535) {\n // end\n var e = i + 65535;\n if (e >= s) {\n // write final block\n w[(pos / 8) | 0] = lst;\n e = s;\n }\n pos = wfblk(w, pos + 1, dat.subarray(i, e));\n }\n st.i = s;\n }\n return slc(o, 0, pre + shft(pos) + post);\n};\n// CRC32 table\nvar crct = /*#__PURE__*/ (function () {\n var t = new Int32Array(256);\n for (var i = 0; i < 256; ++i) {\n var c = i, k = 9;\n while (--k)\n c = ((c & 1) && -306674912) ^ (c >>> 1);\n t[i] = c;\n }\n return t;\n})();\n// CRC32\nvar crc = function () {\n var c = -1;\n return {\n p: function (d) {\n // closures have awful performance\n var cr = c;\n for (var i = 0; i < d.length; ++i)\n cr = crct[(cr & 255) ^ d[i]] ^ (cr >>> 8);\n c = cr;\n },\n d: function () { return ~c; }\n };\n};\n// Adler32\nvar adler = function () {\n var a = 1, b = 0;\n return {\n p: function (d) {\n // closures have awful performance\n var n = a, m = b;\n var l = d.length | 0;\n for (var i = 0; i != l;) {\n var e = Math.min(i + 2655, l);\n for (; i < e; ++i)\n m += n += d[i];\n n = (n & 65535) + 15 * (n >> 16), m = (m & 65535) + 15 * (m >> 16);\n }\n a = n, b = m;\n },\n d: function () {\n a %= 65521, b %= 65521;\n return (a & 255) << 24 | (a & 0xFF00) << 8 | (b & 255) << 8 | (b >> 8);\n }\n };\n};\n;\n// deflate with opts\nvar dopt = function (dat, opt, pre, post, st) {\n if (!st) {\n st = { l: 1 };\n if (opt.dictionary) {\n var dict = opt.dictionary.subarray(-32768);\n var newDat = new u8(dict.length + dat.length);\n newDat.set(dict);\n newDat.set(dat, dict.length);\n dat = newDat;\n st.w = dict.length;\n }\n }\n return dflt(dat, opt.level == null ? 6 : opt.level, opt.mem == null ? (st.l ? Math.ceil(Math.max(8, Math.min(13, Math.log(dat.length))) * 1.5) : 20) : (12 + opt.mem), pre, post, st);\n};\n// Walmart object spread\nvar mrg = function (a, b) {\n var o = {};\n for (var k in a)\n o[k] = a[k];\n for (var k in b)\n o[k] = b[k];\n return o;\n};\n// worker clone\n// This is possibly the craziest part of the entire codebase, despite how simple it may seem.\n// The only parameter to this function is a closure that returns an array of variables outside of the function scope.\n// We're going to try to figure out the variable names used in the closure as strings because that is crucial for workerization.\n// We will return an object mapping of true variable name to value (basically, the current scope as a JS object).\n// The reason we can't just use the original variable names is minifiers mangling the toplevel scope.\n// This took me three weeks to figure out how to do.\nvar wcln = function (fn, fnStr, td) {\n var dt = fn();\n var st = fn.toString();\n var ks = st.slice(st.indexOf('[') + 1, st.lastIndexOf(']')).replace(/\\s+/g, '').split(',');\n for (var i = 0; i < dt.length; ++i) {\n var v = dt[i], k = ks[i];\n if (typeof v == 'function') {\n fnStr += ';' + k + '=';\n var st_1 = v.toString();\n if (v.prototype) {\n // for global objects\n if (st_1.indexOf('[native code]') != -1) {\n var spInd = st_1.indexOf(' ', 8) + 1;\n fnStr += st_1.slice(spInd, st_1.indexOf('(', spInd));\n }\n else {\n fnStr += st_1;\n for (var t in v.prototype)\n fnStr += ';' + k + '.prototype.' + t + '=' + v.prototype[t].toString();\n }\n }\n else\n fnStr += st_1;\n }\n else\n td[k] = v;\n }\n return fnStr;\n};\nvar ch = [];\n// clone bufs\nvar cbfs = function (v) {\n var tl = [];\n for (var k in v) {\n if (v[k].buffer) {\n tl.push((v[k] = new v[k].constructor(v[k])).buffer);\n }\n }\n return tl;\n};\n// use a worker to execute code\nvar wrkr = function (fns, init, id, cb) {\n if (!ch[id]) {\n var fnStr = '', td_1 = {}, m = fns.length - 1;\n for (var i = 0; i < m; ++i)\n fnStr = wcln(fns[i], fnStr, td_1);\n ch[id] = { c: wcln(fns[m], fnStr, td_1), e: td_1 };\n }\n var td = mrg({}, ch[id].e);\n return wk(ch[id].c + ';onmessage=function(e){for(var k in e.data)self[k]=e.data[k];onmessage=' + init.toString() + '}', id, td, cbfs(td), cb);\n};\n// base async inflate fn\nvar bInflt = function () { return [u8, u16, i32, fleb, fdeb, clim, fl, fd, flrm, fdrm, rev, ec, hMap, max, bits, bits16, shft, slc, err, inflt, inflateSync, pbf, gopt]; };\nvar bDflt = function () { return [u8, u16, i32, fleb, fdeb, clim, revfl, revfd, flm, flt, fdm, fdt, rev, deo, et, hMap, wbits, wbits16, hTree, ln, lc, clen, wfblk, wblk, shft, slc, dflt, dopt, deflateSync, pbf]; };\n// gzip extra\nvar gze = function () { return [gzh, gzhl, wbytes, crc, crct]; };\n// gunzip extra\nvar guze = function () { return [gzs, gzl]; };\n// zlib extra\nvar zle = function () { return [zlh, wbytes, adler]; };\n// unzlib extra\nvar zule = function () { return [zls]; };\n// post buf\nvar pbf = function (msg) { return postMessage(msg, [msg.buffer]); };\n// get opts\nvar gopt = function (o) { return o && {\n out: o.size && new u8(o.size),\n dictionary: o.dictionary\n}; };\n// async helper\nvar cbify = function (dat, opts, fns, init, id, cb) {\n var w = wrkr(fns, init, id, function (err, dat) {\n w.terminate();\n cb(err, dat);\n });\n w.postMessage([dat, opts], opts.consume ? [dat.buffer] : []);\n return function () { w.terminate(); };\n};\n// auto stream\nvar astrm = function (strm) {\n strm.ondata = function (dat, final) { return postMessage([dat, final], [dat.buffer]); };\n return function (ev) {\n if (ev.data.length) {\n strm.push(ev.data[0], ev.data[1]);\n postMessage([ev.data[0].length]);\n }\n else\n strm.flush();\n };\n};\n// async stream attach\nvar astrmify = function (fns, strm, opts, init, id, flush, ext) {\n var t;\n var w = wrkr(fns, init, id, function (err, dat) {\n if (err)\n w.terminate(), strm.ondata.call(strm, err);\n else if (!Array.isArray(dat))\n ext(dat);\n else if (dat.length == 1) {\n strm.queuedSize -= dat[0];\n if (strm.ondrain)\n strm.ondrain(dat[0]);\n }\n else {\n if (dat[1])\n w.terminate();\n strm.ondata.call(strm, err, dat[0], dat[1]);\n }\n });\n w.postMessage(opts);\n strm.queuedSize = 0;\n strm.push = function (d, f) {\n if (!strm.ondata)\n err(5);\n if (t)\n strm.ondata(err(4, 0, 1), null, !!f);\n strm.queuedSize += d.length;\n w.postMessage([d, t = f], [d.buffer]);\n };\n strm.terminate = function () { w.terminate(); };\n if (flush) {\n strm.flush = function () { w.postMessage([]); };\n }\n};\n// read 2 bytes\nvar b2 = function (d, b) { return d[b] | (d[b + 1] << 8); };\n// read 4 bytes\nvar b4 = function (d, b) { return (d[b] | (d[b + 1] << 8) | (d[b + 2] << 16) | (d[b + 3] << 24)) >>> 0; };\nvar b8 = function (d, b) { return b4(d, b) + (b4(d, b + 4) * 4294967296); };\n// write bytes\nvar wbytes = function (d, b, v) {\n for (; v; ++b)\n d[b] = v, v >>>= 8;\n};\n// gzip header\nvar gzh = function (c, o) {\n var fn = o.filename;\n c[0] = 31, c[1] = 139, c[2] = 8, c[8] = o.level < 2 ? 4 : o.level == 9 ? 2 : 0, c[9] = 3; // assume Unix\n if (o.mtime != 0)\n wbytes(c, 4, Math.floor(new Date(o.mtime || Date.now()) / 1000));\n if (fn) {\n c[3] = 8;\n for (var i = 0; i <= fn.length; ++i)\n c[i + 10] = fn.charCodeAt(i);\n }\n};\n// gzip footer: -8 to -4 = CRC, -4 to -0 is length\n// gzip start\nvar gzs = function (d) {\n if (d[0] != 31 || d[1] != 139 || d[2] != 8)\n err(6, 'invalid gzip data');\n var flg = d[3];\n var st = 10;\n if (flg & 4)\n st += (d[10] | d[11] << 8) + 2;\n for (var zs = (flg >> 3 & 1) + (flg >> 4 & 1); zs > 0; zs -= !d[st++])\n ;\n return st + (flg & 2);\n};\n// gzip length\nvar gzl = function (d) {\n var l = d.length;\n return (d[l - 4] | d[l - 3] << 8 | d[l - 2] << 16 | d[l - 1] << 24) >>> 0;\n};\n// gzip header length\nvar gzhl = function (o) { return 10 + (o.filename ? o.filename.length + 1 : 0); };\n// zlib header\nvar zlh = function (c, o) {\n var lv = o.level, fl = lv == 0 ? 0 : lv < 6 ? 1 : lv == 9 ? 3 : 2;\n c[0] = 120, c[1] = (fl << 6) | (o.dictionary && 32);\n c[1] |= 31 - ((c[0] << 8) | c[1]) % 31;\n if (o.dictionary) {\n var h = adler();\n h.p(o.dictionary);\n wbytes(c, 2, h.d());\n }\n};\n// zlib start\nvar zls = function (d, dict) {\n if ((d[0] & 15) != 8 || (d[0] >> 4) > 7 || ((d[0] << 8 | d[1]) % 31))\n err(6, 'invalid zlib data');\n if ((d[1] >> 5 & 1) == +!dict)\n err(6, 'invalid zlib data: ' + (d[1] & 32 ? 'need' : 'unexpected') + ' dictionary');\n return (d[1] >> 3 & 4) + 2;\n};\nfunction StrmOpt(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n return opts;\n}\n/**\n * Streaming DEFLATE compression\n */\nvar Deflate = /*#__PURE__*/ (function () {\n function Deflate(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n this.o = opts || {};\n this.s = { l: 0, i: 32768, w: 32768, z: 32768 };\n // Buffer length must always be 0 mod 32768 for index calculations to be correct when modifying head and prev\n // 98304 = 32768 (lookback) + 65536 (common chunk size)\n this.b = new u8(98304);\n if (this.o.dictionary) {\n var dict = this.o.dictionary.subarray(-32768);\n this.b.set(dict, 32768 - dict.length);\n this.s.i = 32768 - dict.length;\n }\n }\n Deflate.prototype.p = function (c, f) {\n this.ondata(dopt(c, this.o, 0, 0, this.s), f);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Deflate.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n var endLen = chunk.length + this.s.z;\n if (endLen > this.b.length) {\n if (endLen > 2 * this.b.length - 32768) {\n var newBuf = new u8(endLen & -32768);\n newBuf.set(this.b.subarray(0, this.s.z));\n this.b = newBuf;\n }\n var split = this.b.length - this.s.z;\n this.b.set(chunk.subarray(0, split), this.s.z);\n this.s.z = this.b.length;\n this.p(this.b, false);\n this.b.set(this.b.subarray(-32768));\n this.b.set(chunk.subarray(split), 32768);\n this.s.z = chunk.length - split + 32768;\n this.s.i = 32766, this.s.w = 32768;\n }\n else {\n this.b.set(chunk, this.s.z);\n this.s.z += chunk.length;\n }\n this.s.l = final & 1;\n if (this.s.z > this.s.w + 8191 || final) {\n this.p(this.b, final || false);\n this.s.w = this.s.i, this.s.i -= 2;\n }\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * deflated output for small inputs.\n */\n Deflate.prototype.flush = function () {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n this.p(this.b, false);\n this.s.w = this.s.i, this.s.i -= 2;\n };\n return Deflate;\n}());\nexport { Deflate };\n/**\n * Asynchronous streaming DEFLATE compression\n */\nvar AsyncDeflate = /*#__PURE__*/ (function () {\n function AsyncDeflate(opts, cb) {\n astrmify([\n bDflt,\n function () { return [astrm, Deflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Deflate(ev.data);\n onmessage = astrm(strm);\n }, 6, 1);\n }\n return AsyncDeflate;\n}());\nexport { AsyncDeflate };\nexport function deflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n ], function (ev) { return pbf(deflateSync(ev.data[0], ev.data[1])); }, 0, cb);\n}\n/**\n * Compresses data with DEFLATE without any wrapper\n * @param data The data to compress\n * @param opts The compression options\n * @returns The deflated version of the data\n */\nexport function deflateSync(data, opts) {\n return dopt(data, opts || {}, 0, 0);\n}\n/**\n * Streaming DEFLATE decompression\n */\nvar Inflate = /*#__PURE__*/ (function () {\n function Inflate(opts, cb) {\n // no StrmOpt here to avoid adding to workerizer\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n var dict = opts && opts.dictionary && opts.dictionary.subarray(-32768);\n this.s = { i: 0, b: dict ? dict.length : 0 };\n this.o = new u8(32768);\n this.p = new u8(0);\n if (dict)\n this.o.set(dict);\n }\n Inflate.prototype.e = function (c) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n if (!this.p.length)\n this.p = c;\n else if (c.length) {\n var n = new u8(this.p.length + c.length);\n n.set(this.p), n.set(c, this.p.length), this.p = n;\n }\n };\n Inflate.prototype.c = function (final) {\n this.s.i = +(this.d = final || false);\n var bts = this.s.b;\n var dt = inflt(this.p, this.s, this.o);\n this.ondata(slc(dt, bts, this.s.b), this.d);\n this.o = slc(dt, this.s.b - 32768), this.s.b = this.o.length;\n this.p = slc(this.p, (this.s.p / 8) | 0), this.s.p &= 7;\n };\n /**\n * Pushes a chunk to be inflated\n * @param chunk The chunk to push\n * @param final Whether this is the final chunk\n */\n Inflate.prototype.push = function (chunk, final) {\n this.e(chunk), this.c(final);\n };\n return Inflate;\n}());\nexport { Inflate };\n/**\n * Asynchronous streaming DEFLATE decompression\n */\nvar AsyncInflate = /*#__PURE__*/ (function () {\n function AsyncInflate(opts, cb) {\n astrmify([\n bInflt,\n function () { return [astrm, Inflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Inflate(ev.data);\n onmessage = astrm(strm);\n }, 7, 0);\n }\n return AsyncInflate;\n}());\nexport { AsyncInflate };\nexport function inflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt\n ], function (ev) { return pbf(inflateSync(ev.data[0], gopt(ev.data[1]))); }, 1, cb);\n}\n/**\n * Expands DEFLATE data with no wrapper\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function inflateSync(data, opts) {\n return inflt(data, { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// before you yell at me for not just using extends, my reason is that TS inheritance is hard to workerize.\n/**\n * Streaming GZIP compression\n */\nvar Gzip = /*#__PURE__*/ (function () {\n function Gzip(opts, cb) {\n this.c = crc();\n this.l = 0;\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gzip.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n this.l += chunk.length;\n Deflate.prototype.push.call(this, chunk, final);\n };\n Gzip.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && gzhl(this.o), f && 8, this.s);\n if (this.v)\n gzh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 8, this.c.d()), wbytes(raw, raw.length - 4, this.l);\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * GZIPped output for small inputs.\n */\n Gzip.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Gzip;\n}());\nexport { Gzip };\n/**\n * Asynchronous streaming GZIP compression\n */\nvar AsyncGzip = /*#__PURE__*/ (function () {\n function AsyncGzip(opts, cb) {\n astrmify([\n bDflt,\n gze,\n function () { return [astrm, Deflate, Gzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gzip(ev.data);\n onmessage = astrm(strm);\n }, 8, 1);\n }\n return AsyncGzip;\n}());\nexport { AsyncGzip };\nexport function gzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n gze,\n function () { return [gzipSync]; }\n ], function (ev) { return pbf(gzipSync(ev.data[0], ev.data[1])); }, 2, cb);\n}\n/**\n * Compresses data with GZIP\n * @param data The data to compress\n * @param opts The compression options\n * @returns The gzipped version of the data\n */\nexport function gzipSync(data, opts) {\n if (!opts)\n opts = {};\n var c = crc(), l = data.length;\n c.p(data);\n var d = dopt(data, opts, gzhl(opts), 8), s = d.length;\n return gzh(d, opts), wbytes(d, s - 8, c.d()), wbytes(d, s - 4, l), d;\n}\n/**\n * Streaming single or multi-member GZIP decompression\n */\nvar Gunzip = /*#__PURE__*/ (function () {\n function Gunzip(opts, cb) {\n this.v = 1;\n this.r = 0;\n Inflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GUNZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gunzip.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n this.r += chunk.length;\n if (this.v) {\n var p = this.p.subarray(this.v - 1);\n var s = p.length > 3 ? gzs(p) : 4;\n if (s > p.length) {\n if (!final)\n return;\n }\n else if (this.v > 1 && this.onmember) {\n this.onmember(this.r - p.length);\n }\n this.p = p.subarray(s), this.v = 0;\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n // process concatenated GZIP\n if (this.s.f && !this.s.l && !final) {\n this.v = shft(this.s.p) + 9;\n this.s = { i: 0 };\n this.o = new u8(0);\n this.push(new u8(0), final);\n }\n };\n return Gunzip;\n}());\nexport { Gunzip };\n/**\n * Asynchronous streaming single or multi-member GZIP decompression\n */\nvar AsyncGunzip = /*#__PURE__*/ (function () {\n function AsyncGunzip(opts, cb) {\n var _this = this;\n astrmify([\n bInflt,\n guze,\n function () { return [astrm, Inflate, Gunzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gunzip(ev.data);\n strm.onmember = function (offset) { return postMessage(offset); };\n onmessage = astrm(strm);\n }, 9, 0, function (offset) { return _this.onmember && _this.onmember(offset); });\n }\n return AsyncGunzip;\n}());\nexport { AsyncGunzip };\nexport function gunzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n guze,\n function () { return [gunzipSync]; }\n ], function (ev) { return pbf(gunzipSync(ev.data[0], ev.data[1])); }, 3, cb);\n}\n/**\n * Expands GZIP data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function gunzipSync(data, opts) {\n var st = gzs(data);\n if (st + 8 > data.length)\n err(6, 'invalid gzip data');\n return inflt(data.subarray(st, -8), { i: 2 }, opts && opts.out || new u8(gzl(data)), opts && opts.dictionary);\n}\n/**\n * Streaming Zlib compression\n */\nvar Zlib = /*#__PURE__*/ (function () {\n function Zlib(opts, cb) {\n this.c = adler();\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be zlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Zlib.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n Deflate.prototype.push.call(this, chunk, final);\n };\n Zlib.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && (this.o.dictionary ? 6 : 2), f && 4, this.s);\n if (this.v)\n zlh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 4, this.c.d());\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * zlibbed output for small inputs.\n */\n Zlib.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Zlib;\n}());\nexport { Zlib };\n/**\n * Asynchronous streaming Zlib compression\n */\nvar AsyncZlib = /*#__PURE__*/ (function () {\n function AsyncZlib(opts, cb) {\n astrmify([\n bDflt,\n zle,\n function () { return [astrm, Deflate, Zlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Zlib(ev.data);\n onmessage = astrm(strm);\n }, 10, 1);\n }\n return AsyncZlib;\n}());\nexport { AsyncZlib };\nexport function zlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n zle,\n function () { return [zlibSync]; }\n ], function (ev) { return pbf(zlibSync(ev.data[0], ev.data[1])); }, 4, cb);\n}\n/**\n * Compress data with Zlib\n * @param data The data to compress\n * @param opts The compression options\n * @returns The zlib-compressed version of the data\n */\nexport function zlibSync(data, opts) {\n if (!opts)\n opts = {};\n var a = adler();\n a.p(data);\n var d = dopt(data, opts, opts.dictionary ? 6 : 2, 4);\n return zlh(d, opts), wbytes(d, d.length - 4, a.d()), d;\n}\n/**\n * Streaming Zlib decompression\n */\nvar Unzlib = /*#__PURE__*/ (function () {\n function Unzlib(opts, cb) {\n Inflate.call(this, opts, cb);\n this.v = opts && opts.dictionary ? 2 : 1;\n }\n /**\n * Pushes a chunk to be unzlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzlib.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n if (this.v) {\n if (this.p.length < 6 && !final)\n return;\n this.p = this.p.subarray(zls(this.p, this.v - 1)), this.v = 0;\n }\n if (final) {\n if (this.p.length < 4)\n err(6, 'invalid zlib data');\n this.p = this.p.subarray(0, -4);\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n };\n return Unzlib;\n}());\nexport { Unzlib };\n/**\n * Asynchronous streaming Zlib decompression\n */\nvar AsyncUnzlib = /*#__PURE__*/ (function () {\n function AsyncUnzlib(opts, cb) {\n astrmify([\n bInflt,\n zule,\n function () { return [astrm, Inflate, Unzlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Unzlib(ev.data);\n onmessage = astrm(strm);\n }, 11, 0);\n }\n return AsyncUnzlib;\n}());\nexport { AsyncUnzlib };\nexport function unzlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n zule,\n function () { return [unzlibSync]; }\n ], function (ev) { return pbf(unzlibSync(ev.data[0], gopt(ev.data[1]))); }, 5, cb);\n}\n/**\n * Expands Zlib data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function unzlibSync(data, opts) {\n return inflt(data.subarray(zls(data, opts && opts.dictionary), -4), { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// Default algorithm for compression (used because having a known output size allows faster decompression)\nexport { gzip as compress, AsyncGzip as AsyncCompress };\nexport { gzipSync as compressSync, Gzip as Compress };\n/**\n * Streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar Decompress = /*#__PURE__*/ (function () {\n function Decompress(opts, cb) {\n this.o = StrmOpt.call(this, opts, cb) || {};\n this.G = Gunzip;\n this.I = Inflate;\n this.Z = Unzlib;\n }\n // init substream\n // overriden by AsyncDecompress\n Decompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (dat, final) {\n _this.ondata(dat, final);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Decompress.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (!this.s) {\n if (this.p && this.p.length) {\n var n = new u8(this.p.length + chunk.length);\n n.set(this.p), n.set(chunk, this.p.length);\n }\n else\n this.p = chunk;\n if (this.p.length > 2) {\n this.s = (this.p[0] == 31 && this.p[1] == 139 && this.p[2] == 8)\n ? new this.G(this.o)\n : ((this.p[0] & 15) != 8 || (this.p[0] >> 4) > 7 || ((this.p[0] << 8 | this.p[1]) % 31))\n ? new this.I(this.o)\n : new this.Z(this.o);\n this.i();\n this.s.push(this.p, final);\n this.p = null;\n }\n }\n else\n this.s.push(chunk, final);\n };\n return Decompress;\n}());\nexport { Decompress };\n/**\n * Asynchronous streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar AsyncDecompress = /*#__PURE__*/ (function () {\n function AsyncDecompress(opts, cb) {\n Decompress.call(this, opts, cb);\n this.queuedSize = 0;\n this.G = AsyncGunzip;\n this.I = AsyncInflate;\n this.Z = AsyncUnzlib;\n }\n AsyncDecompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (err, dat, final) {\n _this.ondata(err, dat, final);\n };\n this.s.ondrain = function (size) {\n _this.queuedSize -= size;\n if (_this.ondrain)\n _this.ondrain(size);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncDecompress.prototype.push = function (chunk, final) {\n this.queuedSize += chunk.length;\n Decompress.prototype.push.call(this, chunk, final);\n };\n return AsyncDecompress;\n}());\nexport { AsyncDecompress };\nexport function decompress(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzip(data, opts, cb)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflate(data, opts, cb)\n : unzlib(data, opts, cb);\n}\n/**\n * Expands compressed GZIP, Zlib, or raw DEFLATE data, automatically detecting the format\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function decompressSync(data, opts) {\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzipSync(data, opts)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflateSync(data, opts)\n : unzlibSync(data, opts);\n}\n// flatten a directory structure\nvar fltn = function (d, p, t, o) {\n for (var k in d) {\n var val = d[k], n = p + k, op = o;\n if (Array.isArray(val))\n op = mrg(o, val[1]), val = val[0];\n if (val instanceof u8)\n t[n] = [val, op];\n else {\n t[n += '/'] = [new u8(0), op];\n fltn(val, n, t, o);\n }\n }\n};\n// text encoder\nvar te = typeof TextEncoder != 'undefined' && /*#__PURE__*/ new TextEncoder();\n// text decoder\nvar td = typeof TextDecoder != 'undefined' && /*#__PURE__*/ new TextDecoder();\n// text decoder stream\nvar tds = 0;\ntry {\n td.decode(et, { stream: true });\n tds = 1;\n}\ncatch (e) { }\n// decode UTF8\nvar dutf8 = function (d) {\n for (var r = '', i = 0;;) {\n var c = d[i++];\n var eb = (c > 127) + (c > 223) + (c > 239);\n if (i + eb > d.length)\n return { s: r, r: slc(d, i - 1) };\n if (!eb)\n r += String.fromCharCode(c);\n else if (eb == 3) {\n c = ((c & 15) << 18 | (d[i++] & 63) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63)) - 65536,\n r += String.fromCharCode(55296 | (c >> 10), 56320 | (c & 1023));\n }\n else if (eb & 1)\n r += String.fromCharCode((c & 31) << 6 | (d[i++] & 63));\n else\n r += String.fromCharCode((c & 15) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63));\n }\n};\n/**\n * Streaming UTF-8 decoding\n */\nvar DecodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is decoded\n */\n function DecodeUTF8(cb) {\n this.ondata = cb;\n if (tds)\n this.t = new TextDecoder();\n else\n this.p = et;\n }\n /**\n * Pushes a chunk to be decoded from UTF-8 binary\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n DecodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n final = !!final;\n if (this.t) {\n this.ondata(this.t.decode(chunk, { stream: true }), final);\n if (final) {\n if (this.t.decode().length)\n err(8);\n this.t = null;\n }\n return;\n }\n if (!this.p)\n err(4);\n var dat = new u8(this.p.length + chunk.length);\n dat.set(this.p);\n dat.set(chunk, this.p.length);\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (final) {\n if (r.length)\n err(8);\n this.p = null;\n }\n else\n this.p = r;\n this.ondata(s, final);\n };\n return DecodeUTF8;\n}());\nexport { DecodeUTF8 };\n/**\n * Streaming UTF-8 encoding\n */\nvar EncodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is encoded\n */\n function EncodeUTF8(cb) {\n this.ondata = cb;\n }\n /**\n * Pushes a chunk to be encoded to UTF-8\n * @param chunk The string data to push\n * @param final Whether this is the last chunk\n */\n EncodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n this.ondata(strToU8(chunk), this.d = final || false);\n };\n return EncodeUTF8;\n}());\nexport { EncodeUTF8 };\n/**\n * Converts a string into a Uint8Array for use with compression/decompression methods\n * @param str The string to encode\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless decoding a binary string.\n * @returns The string encoded in UTF-8/Latin-1 binary\n */\nexport function strToU8(str, latin1) {\n if (latin1) {\n var ar_1 = new u8(str.length);\n for (var i = 0; i < str.length; ++i)\n ar_1[i] = str.charCodeAt(i);\n return ar_1;\n }\n if (te)\n return te.encode(str);\n var l = str.length;\n var ar = new u8(str.length + (str.length >> 1));\n var ai = 0;\n var w = function (v) { ar[ai++] = v; };\n for (var i = 0; i < l; ++i) {\n if (ai + 5 > ar.length) {\n var n = new u8(ai + 8 + ((l - i) << 1));\n n.set(ar);\n ar = n;\n }\n var c = str.charCodeAt(i);\n if (c < 128 || latin1)\n w(c);\n else if (c < 2048)\n w(192 | (c >> 6)), w(128 | (c & 63));\n else if (c > 55295 && c < 57344)\n c = 65536 + (c & 1023 << 10) | (str.charCodeAt(++i) & 1023),\n w(240 | (c >> 18)), w(128 | ((c >> 12) & 63)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n else\n w(224 | (c >> 12)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n }\n return slc(ar, 0, ai);\n}\n/**\n * Converts a Uint8Array to a string\n * @param dat The data to decode to string\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless encoding to binary string.\n * @returns The original UTF-8/Latin-1 string\n */\nexport function strFromU8(dat, latin1) {\n if (latin1) {\n var r = '';\n for (var i = 0; i < dat.length; i += 16384)\n r += String.fromCharCode.apply(null, dat.subarray(i, i + 16384));\n return r;\n }\n else if (td) {\n return td.decode(dat);\n }\n else {\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (r.length)\n err(8);\n return s;\n }\n}\n;\n// deflate bit flag\nvar dbf = function (l) { return l == 1 ? 3 : l < 6 ? 2 : l == 9 ? 1 : 0; };\n// skip local zip header\nvar slzh = function (d, b) { return b + 30 + b2(d, b + 26) + b2(d, b + 28); };\n// read zip header\nvar zh = function (d, b, z) {\n var fnl = b2(d, b + 28), fn = strFromU8(d.subarray(b + 46, b + 46 + fnl), !(b2(d, b + 8) & 2048)), es = b + 46 + fnl, bs = b4(d, b + 20);\n var _a = z && bs == 4294967295 ? z64e(d, es) : [bs, b4(d, b + 24), b4(d, b + 42)], sc = _a[0], su = _a[1], off = _a[2];\n return [b2(d, b + 10), sc, su, fn, es + b2(d, b + 30) + b2(d, b + 32), off];\n};\n// read zip64 extra field\nvar z64e = function (d, b) {\n for (; b2(d, b) != 1; b += 4 + b2(d, b + 2))\n ;\n return [b8(d, b + 12), b8(d, b + 4), b8(d, b + 20)];\n};\n// extra field length\nvar exfl = function (ex) {\n var le = 0;\n if (ex) {\n for (var k in ex) {\n var l = ex[k].length;\n if (l > 65535)\n err(9);\n le += l + 4;\n }\n }\n return le;\n};\n// write zip header\nvar wzh = function (d, b, f, fn, u, c, ce, co) {\n var fl = fn.length, ex = f.extra, col = co && co.length;\n var exl = exfl(ex);\n wbytes(d, b, ce != null ? 0x2014B50 : 0x4034B50), b += 4;\n if (ce != null)\n d[b++] = 20, d[b++] = f.os;\n d[b] = 20, b += 2; // spec compliance? what's that?\n d[b++] = (f.flag << 1) | (c < 0 && 8), d[b++] = u && 8;\n d[b++] = f.compression & 255, d[b++] = f.compression >> 8;\n var dt = new Date(f.mtime == null ? Date.now() : f.mtime), y = dt.getFullYear() - 1980;\n if (y < 0 || y > 119)\n err(10);\n wbytes(d, b, (y << 25) | ((dt.getMonth() + 1) << 21) | (dt.getDate() << 16) | (dt.getHours() << 11) | (dt.getMinutes() << 5) | (dt.getSeconds() >> 1)), b += 4;\n if (c != -1) {\n wbytes(d, b, f.crc);\n wbytes(d, b + 4, c < 0 ? -c - 2 : c);\n wbytes(d, b + 8, f.size);\n }\n wbytes(d, b + 12, fl);\n wbytes(d, b + 14, exl), b += 16;\n if (ce != null) {\n wbytes(d, b, col);\n wbytes(d, b + 6, f.attrs);\n wbytes(d, b + 10, ce), b += 14;\n }\n d.set(fn, b);\n b += fl;\n if (exl) {\n for (var k in ex) {\n var exf = ex[k], l = exf.length;\n wbytes(d, b, +k);\n wbytes(d, b + 2, l);\n d.set(exf, b + 4), b += 4 + l;\n }\n }\n if (col)\n d.set(co, b), b += col;\n return b;\n};\n// write zip footer (end of central directory)\nvar wzf = function (o, b, c, d, e) {\n wbytes(o, b, 0x6054B50); // skip disk\n wbytes(o, b + 8, c);\n wbytes(o, b + 10, c);\n wbytes(o, b + 12, d);\n wbytes(o, b + 16, e);\n};\n/**\n * A pass-through stream to keep data uncompressed in a ZIP archive.\n */\nvar ZipPassThrough = /*#__PURE__*/ (function () {\n /**\n * Creates a pass-through stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n */\n function ZipPassThrough(filename) {\n this.filename = filename;\n this.c = crc();\n this.size = 0;\n this.compression = 0;\n }\n /**\n * Processes a chunk and pushes to the output stream. You can override this\n * method in a subclass for custom behavior, but by default this passes\n * the data through. You must call this.ondata(err, chunk, final) at some\n * point in this method.\n * @param chunk The chunk to process\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.process = function (chunk, final) {\n this.ondata(null, chunk, final);\n };\n /**\n * Pushes a chunk to be added. If you are subclassing this with a custom\n * compression algorithm, note that you must push data from the source\n * file only, pre-compression.\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n this.c.p(chunk);\n this.size += chunk.length;\n if (final)\n this.crc = this.c.d();\n this.process(chunk, final || false);\n };\n return ZipPassThrough;\n}());\nexport { ZipPassThrough };\n// I don't extend because TypeScript extension adds 1kB of runtime bloat\n/**\n * Streaming DEFLATE compression for ZIP archives. Prefer using AsyncZipDeflate\n * for better performance\n */\nvar ZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function ZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new Deflate(opts, function (dat, final) {\n _this.ondata(null, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n }\n ZipDeflate.prototype.process = function (chunk, final) {\n try {\n this.d.push(chunk, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return ZipDeflate;\n}());\nexport { ZipDeflate };\n/**\n * Asynchronous streaming DEFLATE compression for ZIP archives\n */\nvar AsyncZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates an asynchronous DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function AsyncZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new AsyncDeflate(opts, function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n this.terminate = this.d.terminate;\n }\n AsyncZipDeflate.prototype.process = function (chunk, final) {\n this.d.push(chunk, final);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return AsyncZipDeflate;\n}());\nexport { AsyncZipDeflate };\n// TODO: Better tree shaking\n/**\n * A zippable archive to which files can incrementally be added\n */\nvar Zip = /*#__PURE__*/ (function () {\n /**\n * Creates an empty ZIP archive to which files can be added\n * @param cb The callback to call whenever data for the generated ZIP archive\n * is available\n */\n function Zip(cb) {\n this.ondata = cb;\n this.u = [];\n this.d = 1;\n }\n /**\n * Adds a file to the ZIP archive\n * @param file The file stream to add\n */\n Zip.prototype.add = function (file) {\n var _this = this;\n if (!this.ondata)\n err(5);\n // finishing or finished\n if (this.d & 2)\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, false);\n else {\n var f = strToU8(file.filename), fl_1 = f.length;\n var com = file.comment, o = com && strToU8(com);\n var u = fl_1 != file.filename.length || (o && (com.length != o.length));\n var hl_1 = fl_1 + exfl(file.extra) + 30;\n if (fl_1 > 65535)\n this.ondata(err(11, 0, 1), null, false);\n var header = new u8(hl_1);\n wzh(header, 0, file, f, u, -1);\n var chks_1 = [header];\n var pAll_1 = function () {\n for (var _i = 0, chks_2 = chks_1; _i < chks_2.length; _i++) {\n var chk = chks_2[_i];\n _this.ondata(null, chk, false);\n }\n chks_1 = [];\n };\n var tr_1 = this.d;\n this.d = 0;\n var ind_1 = this.u.length;\n var uf_1 = mrg(file, {\n f: f,\n u: u,\n o: o,\n t: function () {\n if (file.terminate)\n file.terminate();\n },\n r: function () {\n pAll_1();\n if (tr_1) {\n var nxt = _this.u[ind_1 + 1];\n if (nxt)\n nxt.r();\n else\n _this.d = 1;\n }\n tr_1 = 1;\n }\n });\n var cl_1 = 0;\n file.ondata = function (err, dat, final) {\n if (err) {\n _this.ondata(err, dat, final);\n _this.terminate();\n }\n else {\n cl_1 += dat.length;\n chks_1.push(dat);\n if (final) {\n var dd = new u8(16);\n wbytes(dd, 0, 0x8074B50);\n wbytes(dd, 4, file.crc);\n wbytes(dd, 8, cl_1);\n wbytes(dd, 12, file.size);\n chks_1.push(dd);\n uf_1.c = cl_1, uf_1.b = hl_1 + cl_1 + 16, uf_1.crc = file.crc, uf_1.size = file.size;\n if (tr_1)\n uf_1.r();\n tr_1 = 1;\n }\n else if (tr_1)\n pAll_1();\n }\n };\n this.u.push(uf_1);\n }\n };\n /**\n * Ends the process of adding files and prepares to emit the final chunks.\n * This *must* be called after adding all desired files for the resulting\n * ZIP file to work properly.\n */\n Zip.prototype.end = function () {\n var _this = this;\n if (this.d & 2) {\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, true);\n return;\n }\n if (this.d)\n this.e();\n else\n this.u.push({\n r: function () {\n if (!(_this.d & 1))\n return;\n _this.u.splice(-1, 1);\n _this.e();\n },\n t: function () { }\n });\n this.d = 3;\n };\n Zip.prototype.e = function () {\n var bt = 0, l = 0, tl = 0;\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n tl += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0);\n }\n var out = new u8(tl + 22);\n for (var _b = 0, _c = this.u; _b < _c.length; _b++) {\n var f = _c[_b];\n wzh(out, bt, f, f.f, f.u, -f.c - 2, l, f.o);\n bt += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0), l += f.b;\n }\n wzf(out, bt, this.u.length, tl, l);\n this.ondata(null, out, true);\n this.d = 2;\n };\n /**\n * A method to terminate any internal workers used by the stream. Subsequent\n * calls to add() will fail.\n */\n Zip.prototype.terminate = function () {\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n f.t();\n }\n this.d = 2;\n };\n return Zip;\n}());\nexport { Zip };\nexport function zip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var r = {};\n fltn(data, '', r, opts);\n var k = Object.keys(r);\n var lft = k.length, o = 0, tot = 0;\n var slft = lft, files = new Array(lft);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var cbf = function () {\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n tot = 0;\n for (var i = 0; i < slft; ++i) {\n var f = files[i];\n try {\n var l = f.c.length;\n wzh(out, tot, f, f.f, f.u, l);\n var badd = 30 + f.f.length + exfl(f.extra);\n var loc = tot + badd;\n out.set(f.c, loc);\n wzh(out, o, f, f.f, f.u, l, tot, f.m), o += 16 + badd + (f.m ? f.m.length : 0), tot = loc + l;\n }\n catch (e) {\n return cbd(e, null);\n }\n }\n wzf(out, o, files.length, cdl, oe);\n cbd(null, out);\n };\n if (!lft)\n cbf();\n var _loop_1 = function (i) {\n var fn = k[i];\n var _a = r[fn], file = _a[0], p = _a[1];\n var c = crc(), size = file.length;\n c.p(file);\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n var compression = p.level == 0 ? 0 : 8;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n var l = d.length;\n files[i] = mrg(p, {\n size: size,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n compression: compression\n });\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n if (!--lft)\n cbf();\n }\n };\n if (s > 65535)\n cbl(err(11, 0, 1), null);\n if (!compression)\n cbl(null, file);\n else if (size < 160000) {\n try {\n cbl(null, deflateSync(file, p));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(deflate(file, p, cbl));\n };\n // Cannot use lft because it can decrease\n for (var i = 0; i < slft; ++i) {\n _loop_1(i);\n }\n return tAll;\n}\n/**\n * Synchronously creates a ZIP file. Prefer using `zip` for better performance\n * with more than one file.\n * @param data The directory structure for the ZIP archive\n * @param opts The main options, merged with per-file options\n * @returns The generated ZIP archive\n */\nexport function zipSync(data, opts) {\n if (!opts)\n opts = {};\n var r = {};\n var files = [];\n fltn(data, '', r, opts);\n var o = 0;\n var tot = 0;\n for (var fn in r) {\n var _a = r[fn], file = _a[0], p = _a[1];\n var compression = p.level == 0 ? 0 : 8;\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n if (s > 65535)\n err(11);\n var d = compression ? deflateSync(file, p) : file, l = d.length;\n var c = crc();\n c.p(file);\n files.push(mrg(p, {\n size: file.length,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n o: o,\n compression: compression\n }));\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n }\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n for (var i = 0; i < files.length; ++i) {\n var f = files[i];\n wzh(out, f.o, f, f.f, f.u, f.c.length);\n var badd = 30 + f.f.length + exfl(f.extra);\n out.set(f.c, f.o + badd);\n wzh(out, o, f, f.f, f.u, f.c.length, f.o, f.m), o += 16 + badd + (f.m ? f.m.length : 0);\n }\n wzf(out, o, files.length, cdl, oe);\n return out;\n}\n/**\n * Streaming pass-through decompression for ZIP archives\n */\nvar UnzipPassThrough = /*#__PURE__*/ (function () {\n function UnzipPassThrough() {\n }\n UnzipPassThrough.prototype.push = function (data, final) {\n this.ondata(null, data, final);\n };\n UnzipPassThrough.compression = 0;\n return UnzipPassThrough;\n}());\nexport { UnzipPassThrough };\n/**\n * Streaming DEFLATE decompression for ZIP archives. Prefer AsyncZipInflate for\n * better performance.\n */\nvar UnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function UnzipInflate() {\n var _this = this;\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n UnzipInflate.prototype.push = function (data, final) {\n try {\n this.i.push(data, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n UnzipInflate.compression = 8;\n return UnzipInflate;\n}());\nexport { UnzipInflate };\n/**\n * Asynchronous streaming DEFLATE decompression for ZIP archives\n */\nvar AsyncUnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function AsyncUnzipInflate(_, sz) {\n var _this = this;\n if (sz < 320000) {\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n else {\n this.i = new AsyncInflate(function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.terminate = this.i.terminate;\n }\n }\n AsyncUnzipInflate.prototype.push = function (data, final) {\n if (this.i.terminate)\n data = slc(data, 0);\n this.i.push(data, final);\n };\n AsyncUnzipInflate.compression = 8;\n return AsyncUnzipInflate;\n}());\nexport { AsyncUnzipInflate };\n/**\n * A ZIP archive decompression stream that emits files as they are discovered\n */\nvar Unzip = /*#__PURE__*/ (function () {\n /**\n * Creates a ZIP decompression stream\n * @param cb The callback to call whenever a file in the ZIP archive is found\n */\n function Unzip(cb) {\n this.onfile = cb;\n this.k = [];\n this.o = {\n 0: UnzipPassThrough\n };\n this.p = et;\n }\n /**\n * Pushes a chunk to be unzipped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzip.prototype.push = function (chunk, final) {\n var _this = this;\n if (!this.onfile)\n err(5);\n if (!this.p)\n err(4);\n if (this.c > 0) {\n var len = Math.min(this.c, chunk.length);\n var toAdd = chunk.subarray(0, len);\n this.c -= len;\n if (this.d)\n this.d.push(toAdd, !this.c);\n else\n this.k[0].push(toAdd);\n chunk = chunk.subarray(len);\n if (chunk.length)\n return this.push(chunk, final);\n }\n else {\n var f = 0, i = 0, is = void 0, buf = void 0;\n if (!this.p.length)\n buf = chunk;\n else if (!chunk.length)\n buf = this.p;\n else {\n buf = new u8(this.p.length + chunk.length);\n buf.set(this.p), buf.set(chunk, this.p.length);\n }\n var l = buf.length, oc = this.c, add = oc && this.d;\n var _loop_2 = function () {\n var _a;\n var sig = b4(buf, i);\n if (sig == 0x4034B50) {\n f = 1, is = i;\n this_1.d = null;\n this_1.c = 0;\n var bf = b2(buf, i + 6), cmp_1 = b2(buf, i + 8), u = bf & 2048, dd = bf & 8, fnl = b2(buf, i + 26), es = b2(buf, i + 28);\n if (l > i + 30 + fnl + es) {\n var chks_3 = [];\n this_1.k.unshift(chks_3);\n f = 2;\n var sc_1 = b4(buf, i + 18), su_1 = b4(buf, i + 22);\n var fn_1 = strFromU8(buf.subarray(i + 30, i += 30 + fnl), !u);\n if (sc_1 == 4294967295) {\n _a = dd ? [-2] : z64e(buf, i), sc_1 = _a[0], su_1 = _a[1];\n }\n else if (dd)\n sc_1 = -1;\n i += es;\n this_1.c = sc_1;\n var d_1;\n var file_1 = {\n name: fn_1,\n compression: cmp_1,\n start: function () {\n if (!file_1.ondata)\n err(5);\n if (!sc_1)\n file_1.ondata(null, et, true);\n else {\n var ctr = _this.o[cmp_1];\n if (!ctr)\n file_1.ondata(err(14, 'unknown compression type ' + cmp_1, 1), null, false);\n d_1 = sc_1 < 0 ? new ctr(fn_1) : new ctr(fn_1, sc_1, su_1);\n d_1.ondata = function (err, dat, final) { file_1.ondata(err, dat, final); };\n for (var _i = 0, chks_4 = chks_3; _i < chks_4.length; _i++) {\n var dat = chks_4[_i];\n d_1.push(dat, false);\n }\n if (_this.k[0] == chks_3 && _this.c)\n _this.d = d_1;\n else\n d_1.push(et, true);\n }\n },\n terminate: function () {\n if (d_1 && d_1.terminate)\n d_1.terminate();\n }\n };\n if (sc_1 >= 0)\n file_1.size = sc_1, file_1.originalSize = su_1;\n this_1.onfile(file_1);\n }\n return \"break\";\n }\n else if (oc) {\n if (sig == 0x8074B50) {\n is = i += 12 + (oc == -2 && 8), f = 3, this_1.c = 0;\n return \"break\";\n }\n else if (sig == 0x2014B50) {\n is = i -= 4, f = 3, this_1.c = 0;\n return \"break\";\n }\n }\n };\n var this_1 = this;\n for (; i < l - 4; ++i) {\n var state_1 = _loop_2();\n if (state_1 === \"break\")\n break;\n }\n this.p = et;\n if (oc < 0) {\n var dat = f ? buf.subarray(0, is - 12 - (oc == -2 && 8) - (b4(buf, is - 16) == 0x8074B50 && 4)) : buf.subarray(0, i);\n if (add)\n add.push(dat, !!f);\n else\n this.k[+(f == 2)].push(dat);\n }\n if (f & 2)\n return this.push(buf.subarray(i), final);\n this.p = buf.subarray(i);\n }\n if (final) {\n if (this.c)\n err(13);\n this.p = null;\n }\n };\n /**\n * Registers a decoder with the stream, allowing for files compressed with\n * the compression type provided to be expanded correctly\n * @param decoder The decoder constructor\n */\n Unzip.prototype.register = function (decoder) {\n this.o[decoder.compression] = decoder;\n };\n return Unzip;\n}());\nexport { Unzip };\nvar mt = typeof queueMicrotask == 'function' ? queueMicrotask : typeof setTimeout == 'function' ? setTimeout : function (fn) { fn(); };\nexport function unzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var files = {};\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558) {\n cbd(err(13, 0, 1), null);\n return tAll;\n }\n }\n ;\n var lft = b2(data, e + 8);\n if (lft) {\n var c = lft;\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = lft = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n var _loop_3 = function (i) {\n var _a = zh(data, o, z), c_1 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n if (d)\n files[fn] = d;\n if (!--lft)\n cbd(null, files);\n }\n };\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_1\n })) {\n if (!c_1)\n cbl(null, slc(data, b, b + sc));\n else if (c_1 == 8) {\n var infl = data.subarray(b, b + sc);\n // Synchronously decompress under 512KB, or barely-compressed data\n if (su < 524288 || sc > 0.8 * su) {\n try {\n cbl(null, inflateSync(infl, { out: new u8(su) }));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(inflate(infl, { size: su }, cbl));\n }\n else\n cbl(err(14, 'unknown compression type ' + c_1, 1), null);\n }\n else\n cbl(null, null);\n };\n for (var i = 0; i < c; ++i) {\n _loop_3(i);\n }\n }\n else\n cbd(null, {});\n return tAll;\n}\n/**\n * Synchronously decompresses a ZIP archive. Prefer using `unzip` for better\n * performance with more than one file.\n * @param data The raw compressed ZIP file\n * @param opts The ZIP extraction options\n * @returns The decompressed files\n */\nexport function unzipSync(data, opts) {\n var files = {};\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558)\n err(13);\n }\n ;\n var c = b2(data, e + 8);\n if (!c)\n return {};\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n for (var i = 0; i < c; ++i) {\n var _a = zh(data, o, z), c_2 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_2\n })) {\n if (!c_2)\n files[fn] = slc(data, b, b + sc);\n else if (c_2 == 8)\n files[fn] = inflateSync(data.subarray(b, b + sc), { out: new u8(su) });\n else\n err(14, 'unknown compression type ' + c_2);\n }\n }\n return files;\n}\n","// LN_SCALE_MIN..LN_SCALE_MAX define the internal scale range of for Gsplats,\n// covering approx 0.0001..8000 in range with discrete steps 7% apart.\n// The value \"0\" is reserved for truly flat scales, indicating a 2DGS.\n// If these values are changed, the corresponding values in splatDefines.glsl\n// must also be updated to match.\n\nexport const LN_SCALE_MIN = -12.0;\nexport const LN_SCALE_MAX = 9.0;\nexport const SCALE_MIN = Math.exp(LN_SCALE_MIN);\nexport const SCALE_MAX = Math.exp(LN_SCALE_MAX);\n\nexport const LN_SCALE_ZERO = -30.0;\nexport const SCALE_ZERO = Math.exp(LN_SCALE_ZERO);\n\n// Gsplats are stored in textures that are 2^11 x 2^11 x up to 2^11\n// Most WebGL2 implementations support 2D textures up to 2^12 x 2^12 (max 16M Gsplats)\n// 2D array textures and 3D textures up to 2^11 x 2^11 x 2^11 (max 8G Gsplats),\n// so we use 2D array textures for our representation for higher limits.\n\nexport const SPLAT_TEX_WIDTH_BITS = 11;\nexport const SPLAT_TEX_HEIGHT_BITS = 11;\nexport const SPLAT_TEX_DEPTH_BITS = 11;\nexport const SPLAT_TEX_LAYER_BITS =\n SPLAT_TEX_WIDTH_BITS + SPLAT_TEX_HEIGHT_BITS;\n\nexport const SPLAT_TEX_WIDTH = 1 << SPLAT_TEX_WIDTH_BITS; // 2048\nexport const SPLAT_TEX_HEIGHT = 1 << SPLAT_TEX_HEIGHT_BITS; // 2048\nexport const SPLAT_TEX_DEPTH = 1 << SPLAT_TEX_DEPTH_BITS; // 2048\nexport const SPLAT_TEX_MIN_HEIGHT = 1;\n\nexport const SPLAT_TEX_WIDTH_MASK = SPLAT_TEX_WIDTH - 1;\nexport const SPLAT_TEX_HEIGHT_MASK = SPLAT_TEX_HEIGHT - 1;\nexport const SPLAT_TEX_DEPTH_MASK = SPLAT_TEX_DEPTH - 1;\n\n// Enable/disable Gsplat sorting via Rust WASM code. In testing the sorting\n// time between pure JS and WASM are minimal and don't make a big difference.\n\nexport const WASM_SPLAT_SORT = true;\n\n// Enable/disable compiling a dedicated parse function per element type\n// in the plyReader.\n\nexport const USE_COMPILED_PARSER_FUNCTION = true;\n\nexport enum SplatFileType {\n PLY = \"ply\",\n SPZ = \"spz\",\n SPLAT = \"splat\",\n KSPLAT = \"ksplat\",\n PCSOGS = \"pcsogs\",\n PCSOGSZIP = \"pcsogszip\",\n RAD = \"rad\",\n}\n\nexport type SplatEncoding = {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n sh1Max?: number;\n sh2Max?: number;\n sh3Max?: number;\n lodOpacity?: boolean;\n};\n\nexport const DEFAULT_SPLAT_ENCODING: SplatEncoding = {\n rgbMin: 0,\n rgbMax: 1,\n lnScaleMin: LN_SCALE_MIN,\n lnScaleMax: LN_SCALE_MAX,\n sh1Max: 1,\n sh2Max: 1,\n sh3Max: 1,\n lodOpacity: false,\n};\n\nexport type RadMeta = {\n version: number;\n type: string;\n count: number;\n maxSh?: number;\n lodTree?: boolean;\n chunkSize?: number;\n chunks: {\n offset: number;\n bytes: number;\n base?: number;\n count?: number;\n filename?: string;\n }[];\n splatEncoding?: SplatEncoding;\n};\n\nexport type PackedExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type PackedResult = {\n numSplats: number;\n packedArray: Uint32Array;\n extra: PackedExtra;\n splatEncoding: SplatEncoding;\n};\n\nexport type ExtExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3a?: Uint32Array;\n sh3b?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: [Uint32Array, Uint32Array];\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type ExtResult = {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: ExtExtra;\n};\n","import type * as THREE from \"three\";\n\nexport type BoolTypes = \"bool\" | \"bvec2\" | \"bvec3\" | \"bvec4\";\nexport type IntTypes = \"int\" | \"ivec2\" | \"ivec3\" | \"ivec4\";\nexport type UintTypes = \"uint\" | \"uvec2\" | \"uvec3\" | \"uvec4\";\nexport type AllIntTypes = IntTypes | UintTypes;\nexport type FloatTypes = \"float\" | \"vec2\" | \"vec3\" | \"vec4\";\nexport type ScalarTypes = \"uint\" | \"int\" | \"float\";\nexport type Vector2Types = \"vec2\" | \"ivec2\" | \"uvec2\";\nexport type Vector3Types = \"vec3\" | \"ivec3\" | \"uvec3\";\nexport type Vector4Types = \"vec4\" | \"ivec4\" | \"uvec4\";\nexport type VectorTypes = Vector2Types | Vector3Types | Vector4Types;\nexport type MatFloatTypes =\n | \"mat2\"\n | \"mat2x2\"\n | \"mat2x3\"\n | \"mat2x4\"\n | \"mat3\"\n | \"mat3x2\"\n | \"mat3x3\"\n | \"mat3x4\"\n | \"mat4\"\n | \"mat4x2\"\n | \"mat4x3\"\n | \"mat4x4\";\nexport type SquareMatTypes =\n | \"mat2\"\n | \"mat3\"\n | \"mat4\"\n | \"mat2x2\"\n | \"mat3x3\"\n | \"mat4x4\";\nexport type AllFloatTypes = FloatTypes | MatFloatTypes;\nexport type SignedTypes = IntTypes | FloatTypes;\nexport type AllSignedTypes = SignedTypes | MatFloatTypes;\nexport type ValueTypes = FloatTypes | IntTypes | UintTypes;\nexport type AllValueTypes = AllFloatTypes | IntTypes | UintTypes;\nexport type SimpleTypes = BoolTypes | AllValueTypes;\n\nexport type VectorElementType = A extends FloatTypes\n ? \"float\"\n : A extends IntTypes\n ? \"int\"\n : A extends UintTypes\n ? \"uint\"\n : never;\n\nexport type SameSizeVec = T extends ScalarTypes\n ? \"float\"\n : T extends \"vec2\" | \"ivec2\" | \"uvec2\"\n ? \"vec2\"\n : T extends \"vec3\" | \"ivec3\" | \"uvec3\"\n ? \"vec3\"\n : T extends \"vec4\" | \"ivec4\" | \"uvec4\"\n ? \"vec4\"\n : never;\n\nexport type SameSizeUvec = T extends ScalarTypes\n ? \"uint\"\n : T extends \"vec2\" | \"ivec2\" | \"uvec2\"\n ? \"uvec2\"\n : T extends \"vec3\" | \"ivec3\" | \"uvec3\"\n ? \"uvec3\"\n : T extends \"vec4\" | \"ivec4\" | \"uvec4\"\n ? \"uvec4\"\n : never;\n\nexport type SameSizeIvec = T extends ScalarTypes\n ? \"int\"\n : T extends \"vec2\" | \"ivec2\" | \"uvec2\"\n ? \"ivec2\"\n : T extends \"vec3\" | \"ivec3\" | \"uvec3\"\n ? \"ivec3\"\n : T extends \"vec4\" | \"ivec4\" | \"uvec4\"\n ? \"ivec4\"\n : never;\n\nexport type SamplerTypes =\n | \"sampler2D\"\n | \"sampler2DArray\"\n | \"sampler3D\"\n | \"samplerCube\";\nexport type UsamplerTypes =\n | \"usampler2D\"\n | \"usampler2DArray\"\n | \"usampler3D\"\n | \"usamplerCube\";\nexport type IsamplerTypes =\n | \"isampler2D\"\n | \"isampler2DArray\"\n | \"isampler3D\"\n | \"isamplerCube\";\nexport type NormalSamplerTypes = SamplerTypes | UsamplerTypes | IsamplerTypes;\nexport type SamplerShadowTypes =\n | \"sampler2DShadow\"\n | \"sampler2DArrayShadow\"\n | \"samplerCubeShadow\";\nexport type AllSamplerTypes = NormalSamplerTypes | SamplerShadowTypes;\nexport type Sampler2DTypes =\n | \"sampler2D\"\n | \"usampler2D\"\n | \"isampler2D\"\n | \"sampler2DShadow\";\nexport type Sampler2DArrayTypes =\n | \"sampler2DArray\"\n | \"usampler2DArray\"\n | \"isampler2DArray\"\n | \"sampler2DArrayShadow\";\nexport type Sampler3DTypes = \"sampler3D\" | \"usampler3D\" | \"isampler3D\";\nexport type SamplerCubeTypes =\n | \"samplerCube\"\n | \"usamplerCube\"\n | \"isamplerCube\"\n | \"samplerCubeShadow\";\n\nexport function isBoolType(type: DynoType): boolean {\n return (\n type === \"bool\" || type === \"bvec2\" || type === \"bvec3\" || type === \"bvec4\"\n );\n}\n\nexport function isScalarType(type: DynoType): boolean {\n return type === \"int\" || type === \"uint\" || type === \"float\";\n}\n\nexport function isIntType(type: DynoType): boolean {\n return (\n type === \"int\" || type === \"ivec2\" || type === \"ivec3\" || type === \"ivec4\"\n );\n}\n\nexport function isUintType(type: DynoType): boolean {\n return (\n type === \"uint\" || type === \"uvec2\" || type === \"uvec3\" || type === \"uvec4\"\n );\n}\n\nexport function isFloatType(type: DynoType): boolean {\n return (\n type === \"float\" || type === \"vec2\" || type === \"vec3\" || type === \"vec4\"\n );\n}\n\nexport function isMatFloatType(type: DynoType): boolean {\n return (\n type === \"mat2\" ||\n type === \"mat2x2\" ||\n type === \"mat2x3\" ||\n type === \"mat2x4\" ||\n type === \"mat3\" ||\n type === \"mat3x2\" ||\n type === \"mat3x3\" ||\n type === \"mat3x4\" ||\n type === \"mat4\" ||\n type === \"mat4x2\" ||\n type === \"mat4x3\" ||\n type === \"mat4x4\"\n );\n}\n\nexport function isAllFloatType(type: DynoType): boolean {\n return isFloatType(type) || isMatFloatType(type);\n}\n\nexport function isVector2Type(type: DynoType): boolean {\n return type === \"vec2\" || type === \"ivec2\" || type === \"uvec2\";\n}\n\nexport function isVector3Type(type: DynoType): boolean {\n return type === \"vec3\" || type === \"ivec3\" || type === \"uvec3\";\n}\n\nexport function isVector4Type(type: DynoType): boolean {\n return type === \"vec4\" || type === \"ivec4\" || type === \"uvec4\";\n}\n\nexport function isVectorType(type: DynoType): boolean {\n return isVector2Type(type) || isVector3Type(type) || isVector4Type(type);\n}\n\nexport function isMat2(type: DynoType): boolean {\n return type === \"mat2\" || type === \"mat2x2\";\n}\nexport function isMat3(type: DynoType): boolean {\n return type === \"mat3\" || type === \"mat3x3\";\n}\nexport function isMat4(type: DynoType): boolean {\n return type === \"mat4\" || type === \"mat4x4\";\n}\n\nexport function vectorElementType(\n type: A,\n): VectorElementType {\n switch (type) {\n case \"vec2\":\n return \"float\" as VectorElementType;\n case \"vec3\":\n return \"float\" as VectorElementType;\n case \"vec4\":\n return \"float\" as VectorElementType;\n case \"ivec2\":\n return \"int\" as VectorElementType;\n case \"ivec3\":\n return \"int\" as VectorElementType;\n case \"ivec4\":\n return \"int\" as VectorElementType;\n case \"uvec2\":\n return \"uint\" as VectorElementType;\n case \"uvec3\":\n return \"uint\" as VectorElementType;\n case \"uvec4\":\n return \"uint\" as VectorElementType;\n default:\n throw new Error(`Invalid vector type: ${type}`);\n }\n}\n\nexport function vectorDim(type: A): number {\n switch (type) {\n case \"vec2\":\n case \"ivec2\":\n case \"uvec2\":\n return 2;\n case \"vec3\":\n case \"ivec3\":\n case \"uvec3\":\n return 3;\n case \"vec4\":\n case \"ivec4\":\n case \"uvec4\":\n return 4;\n default:\n throw new Error(`Invalid vector type: ${type}`);\n }\n}\n\nexport function sameSizeVec(type: T): SameSizeVec {\n if (isScalarType(type)) {\n return \"float\" as SameSizeVec;\n }\n if (isVector2Type(type)) {\n return \"vec2\" as SameSizeVec;\n }\n if (isVector3Type(type)) {\n return \"vec3\" as SameSizeVec;\n }\n if (isVector4Type(type)) {\n return \"vec4\" as SameSizeVec;\n }\n throw new Error(`Invalid vector type: ${type}`);\n}\n\nexport function sameSizeUvec(type: T): SameSizeUvec {\n if (isScalarType(type)) {\n return \"uint\" as SameSizeUvec;\n }\n if (isVector2Type(type)) {\n return \"uvec2\" as SameSizeUvec;\n }\n if (isVector3Type(type)) {\n return \"uvec3\" as SameSizeUvec;\n }\n if (isVector4Type(type)) {\n return \"uvec4\" as SameSizeUvec;\n }\n throw new Error(`Invalid vector type: ${type}`);\n}\n\nexport function sameSizeIvec(type: T): SameSizeIvec {\n if (isScalarType(type)) {\n return \"int\" as SameSizeIvec;\n }\n if (isVector2Type(type)) {\n return \"ivec2\" as SameSizeIvec;\n }\n if (isVector3Type(type)) {\n return \"ivec3\" as SameSizeIvec;\n }\n if (isVector4Type(type)) {\n return \"ivec4\" as SameSizeIvec;\n }\n throw new Error(`Invalid vector type: ${type}`);\n}\n\nexport type BaseType = SimpleTypes | AllSamplerTypes;\nexport type UserType = { type: string };\nexport type DynoType = BaseType | UserType;\n\nexport type DynoJsType = T extends \"bool\"\n ? boolean\n : T extends \"uint\"\n ? number\n : T extends \"int\"\n ? number\n : T extends \"float\"\n ? number\n : T extends \"bvec2\"\n ? [boolean, boolean]\n : T extends \"uvec2\"\n ? THREE.Vector2 | [number, number] | Uint32Array\n : T extends \"ivec2\"\n ? THREE.Vector2 | [number, number] | Int32Array\n : T extends \"vec2\"\n ? THREE.Vector2 | [number, number] | Float32Array\n : T extends \"bvec3\"\n ? [boolean, boolean, boolean]\n : T extends \"uvec3\"\n ? THREE.Vector3 | [number, number, number] | Uint32Array\n : T extends \"ivec3\"\n ? THREE.Vector3 | [number, number, number] | Int32Array\n : T extends \"vec3\"\n ?\n | THREE.Vector3\n | THREE.Color\n | [number, number, number]\n | Float32Array\n : T extends \"bvec4\"\n ? [boolean, boolean, boolean, boolean]\n : T extends \"uvec4\"\n ?\n | THREE.Vector4\n | [number, number, number, number]\n | Uint32Array\n : T extends \"ivec4\"\n ?\n | THREE.Vector4\n | [number, number, number, number]\n | Int32Array\n : T extends \"vec4\"\n ?\n | THREE.Vector4\n | THREE.Quaternion\n | [number, number, number, number]\n | Float32Array\n : T extends \"mat2\"\n ? THREE.Matrix2 | Float32Array\n : T extends \"mat2x2\"\n ? THREE.Matrix2 | Float32Array\n : T extends \"mat2x3\"\n ? Float32Array\n : T extends \"mat2x4\"\n ? Float32Array\n : T extends \"mat3\"\n ? THREE.Matrix3 | Float32Array\n : T extends \"mat3x2\"\n ? Float32Array\n : T extends \"mat3x3\"\n ? THREE.Matrix3 | Float32Array\n : T extends \"mat3x4\"\n ? Float32Array\n : T extends \"mat4\"\n ? THREE.Matrix4 | Float32Array\n : T extends \"mat4x2\"\n ? Float32Array\n : T extends \"mat4x3\"\n ? Float32Array\n : T extends \"mat4x4\"\n ?\n | THREE.Matrix4\n | Float32Array\n : T extends \"usampler2D\"\n ? THREE.Texture\n : T extends \"isampler2D\"\n ? THREE.Texture\n : T extends \"sampler2D\"\n ? THREE.Texture\n : T extends \"sampler2DShadow\"\n ? THREE.Texture\n : T extends \"usampler2DArray\"\n ? THREE.DataArrayTexture\n : T extends \"isampler2DArray\"\n ? THREE.DataArrayTexture\n : T extends \"sampler2DArray\"\n ? THREE.DataArrayTexture\n : T extends \"sampler2DArrayShadow\"\n ? THREE.Texture\n : T extends \"usampler3D\"\n ? THREE.DataArrayTexture\n : T extends \"isampler3D\"\n ? THREE.DataArrayTexture\n : T extends \"sampler3D\"\n ? THREE.DataArrayTexture\n : T extends \"usamplerCube\"\n ? THREE.DataArrayTexture\n : T extends \"isamplerCube\"\n ? THREE.DataArrayTexture\n : T extends \"samplerCube\"\n ? THREE.DataArrayTexture\n : T extends \"samplerCubeShadow\"\n ? THREE.Texture\n : unknown;\n\nexport function typeLiteral(type: DynoType): string {\n if (typeof type === \"string\") {\n return type;\n }\n if (typeof type === \"object\" && type.type) {\n return type.type;\n }\n throw new Error(`Invalid DynoType: ${String(type)}`);\n}\n\nexport function numberAsInt(value: number): string {\n return Math.trunc(value).toString();\n}\n\nexport function numberAsUint(value: number): string {\n const v = Math.max(0, Math.trunc(value));\n return `${v.toString()}u`;\n}\n\nexport function numberAsFloat(value: number): string {\n return value === Number.POSITIVE_INFINITY\n ? \"INFINITY\"\n : value === Number.NEGATIVE_INFINITY\n ? \"-INFINITY\"\n : Number.isInteger(value)\n ? value.toFixed(1)\n : value.toString();\n}\n","import * as THREE from \"three\";\n\nimport type { Dyno, IOTypes } from \"./base\";\nimport {\n type DynoJsType,\n type DynoType,\n type SimpleTypes,\n isAllFloatType,\n isBoolType,\n isIntType,\n isUintType,\n numberAsFloat,\n numberAsInt,\n numberAsUint,\n} from \"./types\";\n\nexport type DynoVal = DynoValue | HasDynoOut;\n\nexport function valType(val: DynoVal): T {\n if (val instanceof DynoValue) {\n return val.type;\n }\n const value = val.dynoOut();\n return value.type;\n}\n\nexport interface HasDynoOut {\n dynoOut(): DynoValue;\n}\n\nexport class DynoValue {\n type: T;\n // This field prevents TypeScript structural matching on objects with a \"type\" field\n private __isDynoValue = true;\n\n constructor(type: T) {\n this.type = type;\n }\n}\n\nexport class DynoOutput<\n T extends DynoType,\n InTypes extends IOTypes,\n OutTypes extends IOTypes,\n> extends DynoValue {\n dyno: Dyno;\n key: string;\n\n constructor(dyno: Dyno, key: string) {\n super(dyno.outTypes[key] as T);\n this.dyno = dyno;\n this.key = key;\n }\n}\n\nexport class DynoLiteral extends DynoValue {\n literal: string;\n\n constructor(type: T, literal: string) {\n super(type);\n this.literal = literal;\n }\n\n getLiteral(): string {\n return this.literal;\n }\n}\n\nexport function dynoLiteral(\n type: T,\n literal: string,\n): DynoLiteral {\n return new DynoLiteral(type, literal);\n}\n\nexport class DynoConst extends DynoLiteral {\n value: DynoJsType;\n\n constructor(type: T, value: DynoJsType) {\n super(type, \"\");\n this.value = value;\n }\n\n getLiteral(): string {\n const { type, value } = this;\n switch (type) {\n case \"bool\":\n return value ? \"true\" : \"false\";\n case \"uint\":\n return numberAsUint(value as number);\n case \"int\":\n return numberAsInt(value as number);\n case \"float\":\n return numberAsFloat(value as number);\n case \"bvec2\": {\n const v = value as [boolean, boolean];\n return `bvec2(${v[0]}, ${v[1]})`;\n }\n case \"uvec2\": {\n if (value instanceof THREE.Vector2) {\n return `uvec2(${numberAsUint(value.x)}, ${numberAsUint(value.y)})`;\n }\n const v = value as [number, number] | Uint32Array;\n return `uvec2(${numberAsUint(v[0])}, ${numberAsUint(v[1])})`;\n }\n case \"ivec2\": {\n if (value instanceof THREE.Vector2) {\n return `ivec2(${numberAsInt(value.x)}, ${numberAsInt(value.y)})`;\n }\n const v = value as [number, number] | Int32Array;\n return `ivec2(${numberAsInt(v[0])}, ${numberAsInt(v[1])})`;\n }\n case \"vec2\": {\n if (value instanceof THREE.Vector2) {\n return `vec2(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)})`;\n }\n const v = value as [number, number] | Float32Array;\n return `vec2(${numberAsFloat(v[0])}, ${numberAsFloat(v[1])})`;\n }\n case \"bvec3\": {\n const v = value as [boolean, boolean, boolean];\n return `bvec3(${v[0]}, ${v[1]}, ${v[2]})`;\n }\n case \"uvec3\": {\n if (value instanceof THREE.Vector3) {\n return `uvec3(${numberAsUint(value.x)}, ${numberAsUint(value.y)}, ${numberAsUint(value.z)})`;\n }\n const v = value as [number, number, number] | Uint32Array;\n return `uvec3(${numberAsUint(v[0])}, ${numberAsUint(v[1])}, ${numberAsUint(v[2])})`;\n }\n case \"ivec3\": {\n if (value instanceof THREE.Vector3) {\n return `ivec3(${numberAsInt(value.x)}, ${numberAsInt(value.y)}, ${numberAsInt(value.z)})`;\n }\n const v = value as [number, number, number] | Int32Array;\n return `ivec3(${numberAsInt(v[0])}, ${numberAsInt(v[1])}, ${numberAsInt(v[2])})`;\n }\n case \"vec3\": {\n if (value instanceof THREE.Vector3) {\n return `vec3(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)}, ${numberAsFloat(value.z)})`;\n }\n const v = value as [number, number, number] | Float32Array;\n return `vec3(${numberAsFloat(v[0])}, ${numberAsFloat(v[1])}, ${numberAsFloat(v[2])})`;\n }\n case \"bvec4\": {\n const v = value as [boolean, boolean, boolean, boolean];\n return `bvec4(${v[0]}, ${v[1]}, ${v[2]}, ${v[3]})`;\n }\n case \"uvec4\": {\n if (value instanceof THREE.Vector4) {\n return `uvec4(${numberAsUint(value.x)}, ${numberAsUint(value.y)}, ${numberAsUint(value.z)}, ${numberAsUint(value.w)})`;\n }\n const v = value as [number, number, number, number] | Uint32Array;\n return `uvec4(${numberAsUint(v[0])}, ${numberAsUint(v[1])}, ${numberAsUint(v[2])}, ${numberAsUint(v[3])})`;\n }\n case \"ivec4\": {\n if (value instanceof THREE.Vector4) {\n return `ivec4(${numberAsInt(value.x)}, ${numberAsInt(value.y)}, ${numberAsInt(value.z)}, ${numberAsInt(value.w)})`;\n }\n const v = value as [number, number, number, number] | Int32Array;\n return `ivec4(${numberAsInt(v[0])}, ${numberAsInt(v[1])}, ${numberAsInt(v[2])}, ${numberAsInt(v[3])})`;\n }\n case \"vec4\": {\n if (value instanceof THREE.Vector4) {\n return `vec4(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)}, ${numberAsFloat(value.z)}, ${numberAsFloat(value.w)})`;\n }\n if (value instanceof THREE.Quaternion) {\n return `vec4(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)}, ${numberAsFloat(value.z)}, ${numberAsFloat(value.w)})`;\n }\n const v = value as [number, number, number, number] | Float32Array;\n return `vec4(${numberAsFloat(v[0])}, ${numberAsFloat(v[1])}, ${numberAsFloat(v[2])}, ${numberAsFloat(v[3])})`;\n }\n case \"mat2\":\n case \"mat2x2\": {\n const m = value as DynoJsType<\"mat2\">;\n const e =\n m instanceof THREE.Matrix2 ? m.elements : (value as Float32Array);\n const arg = new Array(4).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat2x3\": {\n const e = value as DynoJsType<\"mat2x3\">;\n const arg = new Array(6).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat2x4\": {\n const e = value as DynoJsType<\"mat2x4\">;\n const arg = new Array(8).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat3\":\n case \"mat3x3\": {\n const m = value as DynoJsType<\"mat3\">;\n const e =\n m instanceof THREE.Matrix3 ? m.elements : (value as Float32Array);\n const arg = new Array(9).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat3x2\": {\n const e = value as DynoJsType<\"mat3x2\">;\n const arg = new Array(6).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat3x4\": {\n const e = value as DynoJsType<\"mat3x4\">;\n const arg = new Array(12).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat4\":\n case \"mat4x4\": {\n const m = value as DynoJsType<\"mat4\">;\n const e =\n m instanceof THREE.Matrix4 ? m.elements : (value as Float32Array);\n const arg = new Array(16).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat4x2\": {\n const e = value as DynoJsType<\"mat4x2\">;\n const arg = new Array(8).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat4x3\": {\n const e = value as DynoJsType<\"mat4x3\">;\n const arg = new Array(12).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n default:\n throw new Error(`Type not implemented: ${String(type)}`);\n }\n }\n}\n\nexport function dynoConst(\n type: T,\n value: DynoJsType,\n): DynoConst {\n return new DynoConst(type, value);\n}\n\nexport function literalZero(type: SimpleTypes): string {\n const typeString = String(type);\n if (isBoolType(type)) {\n return `${typeString}(false)`;\n }\n if (isAllFloatType(type)) {\n return `${typeString}(0.0)`;\n }\n if (isIntType(type)) {\n return `${typeString}(0)`;\n }\n if (isUintType(type)) {\n return `${typeString}(0u)`;\n }\n throw new Error(`Type not implemented: ${typeString}`);\n}\n\nexport function literalOne(type: SimpleTypes): string {\n const typeString = String(type);\n if (isBoolType(type)) {\n return `${typeString}(true)`;\n }\n if (isAllFloatType(type)) {\n return `${typeString}(1.0)`;\n }\n if (isIntType(type)) {\n return `${typeString}(1)`;\n }\n if (isUintType(type)) {\n return `${typeString}(1u)`;\n }\n throw new Error(`Type not implemented: ${typeString}`);\n}\n\nexport function literalNegOne(type: SimpleTypes): string {\n const typeString = String(type);\n if (isBoolType(type)) {\n return `${typeString}(true)`;\n }\n if (isAllFloatType(type)) {\n return `${typeString}(-1.0)`;\n }\n if (isIntType(type)) {\n return `${typeString}(-1)`;\n }\n if (isUintType(type)) {\n return `${typeString}(0xFFFFFFFFu)`;\n }\n throw new Error(`Type not implemented: ${typeString}`);\n}\n","import type { IUniform } from \"three\";\nimport type { DynoType } from \"./types\";\nimport {\n DynoLiteral,\n DynoOutput,\n type DynoVal,\n DynoValue,\n type HasDynoOut,\n valType,\n} from \"./value\";\n\nconst DEFAULT_INDENT = \" \";\n\nexport class Compilation {\n globals: Set = new Set();\n statements: string[] = [];\n uniforms: Record = {};\n declares: Set = new Set();\n updaters: (() => void)[] = [];\n sequence = 0;\n indent: string = DEFAULT_INDENT;\n\n constructor({ indent }: { indent?: string } = {}) {\n this.indent = indent ?? DEFAULT_INDENT;\n }\n\n nextSequence() {\n return this.sequence++;\n }\n}\n\nexport type IOTypes = Record;\ntype GenerateContext = {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n};\n\nexport class Dyno {\n inTypes: InTypes;\n outTypes: OutTypes;\n\n inputs: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n }) {\n this.inTypes = inTypes ?? ({} as InTypes);\n this.outTypes = outTypes ?? ({} as OutTypes);\n this.inputs = inputs ?? {};\n this.update = update;\n\n this.globals = globals;\n this.statements = statements;\n this.generate =\n generate ??\n (({ inputs, outputs, compile }) => {\n return {\n globals: this.globals?.({ inputs, outputs, compile }),\n statements: this.statements?.({ inputs, outputs, compile }),\n };\n });\n }\n\n get outputs(): { [K in keyof OutTypes]: DynoVal } {\n const outputs = {} as { [K in keyof OutTypes]: DynoVal };\n for (const key in this.outTypes) {\n outputs[key] = new DynoOutput(this, key);\n }\n return outputs;\n }\n\n apply(inputs: { [K in keyof InTypes]?: DynoVal }): {\n [K in keyof OutTypes]: DynoVal;\n } {\n Object.assign(this.inputs, inputs);\n return this.outputs;\n }\n\n compile({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }): string[] {\n const result = [\n `// ${this.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`,\n ];\n\n const declares: (keyof OutTypes)[] = [];\n for (const key in outputs) {\n const name = outputs[key];\n if (name && !compile.declares.has(name)) {\n compile.declares.add(name);\n declares.push(key);\n }\n }\n\n const { globals, statements, uniforms } = this.generate({\n inputs,\n outputs,\n compile,\n });\n for (const global of globals ?? []) {\n compile.globals.add(global);\n }\n for (const key in uniforms) {\n compile.uniforms[key] = uniforms[key];\n }\n if (this.update) {\n compile.updaters.push(this.update);\n }\n\n for (const key of declares) {\n const name = outputs[key];\n if (name) {\n if (!compile.uniforms[name]) {\n result.push(`${dynoDeclare(name, this.outTypes[key])};`);\n }\n }\n }\n\n if (statements?.length) {\n result.push(\"{\");\n result.push(...statements.map((line) => compile.indent + line));\n result.push(\"}\");\n }\n return result;\n }\n}\n\nexport type DynoBlockType = (\n inputs: { [K in keyof InTypes]?: DynoVal },\n outputs: { [K in keyof OutTypes]?: DynoVal },\n { roots }: { roots: Dyno[] },\n) => { [K in keyof OutTypes]?: DynoVal } | undefined;\n\nexport class DynoBlock<\n InTypes extends IOTypes,\n OutTypes extends IOTypes,\n> extends Dyno {\n construct: DynoBlockType;\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n construct,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n construct: DynoBlockType;\n }) {\n super({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n generate: (args) => this.generateBlock(args),\n });\n this.construct = construct;\n }\n\n generateBlock({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }) {\n const blockInputs: { [K in keyof InTypes]?: DynoVal } = {};\n const blockOutputs: { [K in keyof OutTypes]?: DynoVal } = {};\n\n for (const key in inputs) {\n if (inputs[key] != null) {\n blockInputs[key] = new DynoLiteral(this.inTypes[key], inputs[key]);\n }\n }\n for (const key in outputs) {\n if (outputs[key] != null) {\n blockOutputs[key] = new DynoValue(this.outTypes[key]);\n }\n }\n\n const options: { roots: Dyno[] } = { roots: [] };\n const returned = this.construct(blockInputs, blockOutputs, options);\n\n for (const global of this.globals?.({ inputs, outputs, compile }) ?? []) {\n compile.globals.add(global);\n }\n\n const ordering: Dyno[] = [];\n const nodeOuts = new Map<\n Dyno,\n { sequence: number; outNames: Map; newOuts: Set }\n >();\n\n function visit(\n node: Dyno,\n outKey?: string,\n outName?: string,\n ) {\n let outs = nodeOuts.get(node);\n if (!outs) {\n // First time visiting this node\n outs = {\n sequence: compile.nextSequence(),\n outNames: new Map(),\n newOuts: new Set(),\n };\n nodeOuts.set(node, outs);\n\n for (const key in node.inputs) {\n let input = node.inputs[key];\n while (input) {\n if (input instanceof DynoValue) {\n if (input instanceof DynoOutput) {\n visit(input.dyno, input.key);\n }\n break;\n }\n // Must be as HasDynoOut\n if (typeof input.dynoOut !== \"function\") {\n throw new Error(\n `dynoOut is not a function for ${input.constructor.name}`,\n );\n }\n input = input.dynoOut();\n }\n }\n ordering.push(node);\n }\n if (outKey) {\n if (!outName) {\n outs.newOuts.add(outKey);\n }\n outs.outNames.set(outKey, outName ?? `${outKey}_${outs.sequence}`);\n }\n }\n\n for (const root of options.roots) {\n visit(root);\n }\n\n for (const key in blockOutputs) {\n let value = returned?.[key] ?? blockOutputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoOutput) {\n visit(value.dyno, value.key, outputs[key]);\n }\n break;\n }\n // Must be as HasDynoOut\n value = value.dynoOut();\n }\n blockOutputs[key] = value;\n }\n\n const steps = [];\n\n for (const dyno of ordering) {\n // compile.statements.push(`// ${dyno.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`);\n\n const inputs: Record = {};\n const outputs: Record = {};\n\n for (const key in dyno.inputs) {\n let value = dyno.inputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoLiteral) {\n inputs[key] = value.getLiteral();\n } else if (value instanceof DynoOutput) {\n const source = nodeOuts.get(value.dyno)?.outNames.get(value.key);\n if (!source) {\n throw new Error(\n `Source not found for ${value.dyno.constructor.name}.${value.key}`,\n );\n }\n inputs[key] = source;\n }\n break;\n }\n // Must be as HasDynOut\n value = value.dynoOut();\n }\n }\n\n const outs = nodeOuts.get(dyno) ?? { outNames: new Map() };\n for (const [key, name] of outs.outNames.entries()) {\n outputs[key] = name;\n }\n\n const newSteps = dyno.compile({ inputs, outputs, compile });\n steps.push(newSteps);\n }\n\n const literalOutputs = [];\n for (const key in outputs) {\n if (blockOutputs[key] instanceof DynoLiteral) {\n literalOutputs.push(\n `${outputs[key]} = ${blockOutputs[key].getLiteral()};`,\n );\n }\n }\n if (literalOutputs.length > 0) {\n steps.push(literalOutputs);\n }\n\n const statements = steps.flatMap((step, index) => {\n // Add a blank line between steps\n return index === 0 ? step : [\"\", ...step];\n });\n return { statements };\n }\n}\n\nexport function dynoBlock<\n InTypes extends Record,\n OutTypes extends Record,\n>(\n inTypes: InTypes,\n outTypes: OutTypes,\n construct: DynoBlockType,\n { update, globals }: { update?: () => void; globals?: () => string[] } = {},\n) {\n return new DynoBlock({ inTypes, outTypes, construct, update, globals });\n}\n\nexport function dyno<\n InTypes extends Record,\n OutTypes extends Record,\n>({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n}: {\n inTypes: InTypes;\n outTypes: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n}) {\n return new Dyno({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n });\n}\n\nexport function dynoDeclare(name: string, type: DynoType, count?: number) {\n const typeStr = typeof type === \"string\" ? type : type.type;\n if (!typeStr) {\n throw new Error(`Invalid DynoType: ${String(type)}`);\n }\n return `${typeStr} ${name}${count != null ? `[${count}]` : \"\"}`;\n}\n\nexport function unindentLines(s: string): string[] {\n let seenNonEmpty = false;\n const lines = s\n .split(\"\\n\")\n .map((line) => {\n const trimmedLine = line.trimEnd();\n if (seenNonEmpty) {\n return trimmedLine;\n }\n if (trimmedLine.length > 0) {\n seenNonEmpty = true;\n return trimmedLine;\n }\n return null;\n })\n .filter((line) => line != null);\n while (lines.length > 0 && lines[lines.length - 1].length === 0) {\n lines.pop();\n }\n if (lines.length === 0) {\n return [];\n }\n\n const indent = lines[0].match(/^\\s*/)?.[0];\n if (!indent) {\n return lines; // No indent, return as is\n }\n // Remove indent from the beginning of each line\n const regex = new RegExp(`^${indent}`);\n return lines.map((line) => line.replace(regex, \"\"));\n}\n\nexport function unindent(s: string): string {\n return unindentLines(s).join(\"\\n\");\n}\n\nexport class UnaryOp<\n A extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n outKey,\n outTypeFunc,\n }: { a: DynoVal; outKey: OutKey; outTypeFunc: (aType: A) => OutType }) {\n const inTypes = { a: valType(a) };\n const outType = outTypeFunc(valType(a));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class BinaryOp<\n A extends DynoType,\n B extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b) };\n const outType = outTypeFunc(valType(a), valType(b));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class TrinaryOp<\n A extends DynoType,\n B extends DynoType,\n C extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B; c: C }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n c,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n c: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B, cType: C) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b), c: valType(c) };\n const outType = outTypeFunc(valType(a), valType(b), valType(c));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b, c } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n","import { Gunzip } from \"fflate\";\nimport * as THREE from \"three\";\n\n// Miscellaneous utility functions for Spark\n\nimport {\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SCALE_ZERO,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_MIN_HEIGHT,\n SPLAT_TEX_WIDTH,\n} from \"./defines.js\";\nimport { unindent } from \"./dyno/base.js\";\n\nexport const threeRevision = Number.parseInt(THREE.REVISION);\nexport const threeMrtArray = threeRevision >= 179;\n\nconst f32buffer = new Float32Array(1);\nconst u32buffer = new Uint32Array(f32buffer.buffer);\nconst supportsFloat16Array = \"Float16Array\" in globalThis;\nconst f16buffer = supportsFloat16Array\n ? new globalThis[\"Float16Array\" as keyof typeof globalThis](1)\n : null;\nconst u16buffer = new Uint16Array(f16buffer?.buffer);\n\n// Returns a normalized array of numbers\nexport function normalize(vec: number[]) {\n const norm = Math.sqrt(vec.reduce((acc, v) => acc + v * v, 0));\n return vec.map((v) => v / norm);\n}\n\n// Reinterpret the bits of a float32 as a uint32\nexport function floatBitsToUint(f: number): number {\n f32buffer[0] = f;\n return u32buffer[0];\n}\n\n// Reinterpret the bits of a uint32 as a float32\nexport function uintBitsToFloat(u: number): number {\n u32buffer[0] = u;\n return f32buffer[0];\n}\n\nexport const toHalf = supportsFloat16Array ? toHalfNative : toHalfJS;\nexport const fromHalf = supportsFloat16Array ? fromHalfNative : fromHalfJS;\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfNative(f: number): number {\n f16buffer[0] = f;\n return u16buffer[0];\n}\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfJS(f: number): number {\n // Store the value into the shared Float32 array.\n f32buffer[0] = f;\n const bits = u32buffer[0];\n\n // Extract sign (1 bit), exponent (8 bits), and fraction (23 bits)\n const sign = (bits >> 31) & 0x1;\n const exp = (bits >> 23) & 0xff;\n const frac = bits & 0x7fffff;\n const halfSign = sign << 15;\n\n // Handle special cases: NaN and Infinity\n if (exp === 0xff) {\n // NaN: set all exponent bits to 1 and some nonzero fraction bits.\n if (frac !== 0) {\n return halfSign | 0x7fff;\n }\n // Infinity\n return halfSign | 0x7c00;\n }\n\n // Adjust the exponent from float32 bias (127) to float16 bias (15)\n const newExp = exp - 127 + 15;\n\n // Handle overflow: too large to represent in half precision.\n if (newExp >= 0x1f) {\n return halfSign | 0x7c00; // Infinity\n }\n if (newExp <= 0) {\n // Handle subnormals and underflow.\n if (newExp < -10) {\n // Too small: underflows to zero.\n return halfSign;\n }\n // Convert to subnormal: add the implicit leading 1 to the fraction,\n // then shift to align with the half-precision's 10 fraction bits.\n const subFrac = (frac | 0x800000) >> (1 - newExp + 13);\n return halfSign | subFrac;\n }\n\n // Normalized half-precision number: shift fraction to fit into 10 bits.\n const halfFrac = frac >> 13;\n return halfSign | (newExp << 10) | halfFrac;\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfNative(u: number): number {\n u16buffer[0] = u;\n return f16buffer[0];\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfJS(h: number): number {\n // Extract the sign (1 bit), exponent (5 bits), and fraction (10 bits)\n const sign = (h >> 15) & 0x1;\n const exp = (h >> 10) & 0x1f;\n const frac = h & 0x3ff;\n\n let f32bits: number;\n\n if (exp === 0) {\n if (frac === 0) {\n // Zero (positive or negative)\n f32bits = sign << 31;\n } else {\n // Subnormal half-precision number.\n // Normalize the subnormal number:\n let mant = frac;\n let e = -14; // For half, the exponent for subnormals is fixed at -14.\n // Shift left until the implicit leading 1 is in place.\n while ((mant & 0x400) === 0) {\n // 0x400 === 1 << 10\n mant <<= 1;\n e--;\n }\n // Remove the leading 1 (which is now implicit)\n mant &= 0x3ff;\n // Convert the half exponent (e) to the 32-bit float exponent:\n const newExp = e + 127; // 32-bit float bias is 127.\n const newFrac = mant << 13; // Align to 23-bit fraction (23 - 10 = 13)\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n } else if (exp === 0x1f) {\n // Handle special cases for Infinity and NaN.\n if (frac === 0) {\n // Infinity\n f32bits = (sign << 31) | 0x7f800000;\n } else {\n // NaN (we choose a quiet NaN)\n f32bits = (sign << 31) | 0x7fc00000;\n }\n } else {\n // Normalized half-precision number.\n // Adjust exponent from half (bias 15) to float32 (bias 127)\n const newExp = exp - 15 + 127;\n const newFrac = frac << 13;\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n\n // Write the 32-bit bit pattern to the shared buffer,\n // then read it as a float32 to return a JavaScript number.\n u32buffer[0] = f32bits;\n return f32buffer[0];\n}\n\n// Convert a number 0..1 to a 0..255 uint\nexport function floatToUint8(v: number): number {\n // Converts from 0..1 float to 0..255 uint8\n return Math.max(0, Math.min(255, Math.round(v * 255)));\n}\n\n// Convert a number -1..1 to a -127..127 int\nexport function floatToSint8(v: number): number {\n // Converts from -1..1 float to -127..127 int8\n return Math.max(-127, Math.min(127, Math.round(v * 127)));\n}\n\n// Convert a 0..255 uint to a 0..1 float\nexport function Uint8ToFloat(v: number): number {\n // Converts from 0..255 uint8 to 0..1 float\n return v / 255;\n}\n\n// Convert a -127..127 int to a -1..1 float\nexport function Sint8ToFloat(v: number): number {\n // Converts from -127..127 int8 to -1..1 float\n return v / 127;\n}\n\n// A simple utility class for caching a fixed number of items\nexport class DataCache {\n // Maximum number of items to cache\n maxItems: number;\n\n // Function to fetch data for a key\n asyncFetch: (key: string) => Promise;\n\n // Function to dispose of data when it is no longer needed\n dispose?: (data: unknown) => void;\n\n // Array of cached items\n items: { key: string; data: unknown }[];\n\n // In-progress fetch promises\n pending: Map>;\n\n // Create a DataCache with a given function that fetches data not in the cache.\n constructor({\n asyncFetch,\n dispose,\n maxItems = 5,\n }: {\n asyncFetch: (key: string) => Promise;\n dispose?: (data: unknown) => void;\n maxItems?: number;\n }) {\n this.asyncFetch = asyncFetch;\n this.dispose = dispose;\n this.maxItems = maxItems;\n this.items = [];\n this.pending = new Map();\n }\n\n has(key: string): boolean {\n return this.items.some((item) => item.key === key);\n }\n\n getImmediate(key: string): unknown | undefined {\n const index = this.items.findIndex((item) => item.key === key);\n if (index >= 0) {\n // Data exists in our cache, move it to the end of the array\n const item = this.items.splice(index, 1)[0];\n this.items.push(item);\n // Return the cached data\n return item.data;\n }\n return undefined;\n }\n\n // Fetch data for the key, returning cached data if available.\n async getFetch(key: string): Promise {\n const immediate = this.getImmediate(key);\n if (immediate !== undefined) {\n return immediate;\n }\n\n let pending = this.pending.get(key);\n if (pending) {\n return pending;\n }\n\n pending = this.asyncFetch(key).then((data) => {\n this.pending.delete(key);\n\n // Add the data to the cache\n this.items.push({ key, data });\n // If the cache is too large, remove the oldest accessed item\n while (this.items.length > this.maxItems) {\n const removed = this.items.shift();\n if (removed && this.dispose) {\n this.dispose(removed.data);\n }\n }\n // Return the fetched data\n return data;\n });\n this.pending.set(key, pending);\n return pending;\n }\n}\n\n// Like Array.map but for objects\nexport function mapObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n const entries = Object.entries(obj).map(([key, value]) => [\n key,\n fn(value, key),\n ]);\n // Returns a new object with the mapped values\n return Object.fromEntries(entries);\n}\n\n// Like Array.map().filter() but for objects.\n// The callback fn() should return undefined to filter out the key.\nexport function mapFilterObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n // If no return (or return undefined), the key is not included in the result\n const entries = Object.entries(obj)\n .map(([key, value]) => [key, fn(value, key)])\n .filter(([_, value]) => value !== undefined);\n // Returns a new object with the filtered values\n return Object.fromEntries(entries);\n}\n\n// Recursively finds all ArrayBuffers in an object and returns them as an array\n// to use as transferable objects to send between workers.\nexport function getTransferable(ctx: unknown): Transferable[] {\n const buffers: Transferable[] = [];\n const seen = new Set();\n\n function traverse(obj: unknown) {\n if (obj && typeof obj === \"object\" && !seen.has(obj)) {\n seen.add(obj);\n\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n // Handles TypedArrays and DataView\n buffers.push(obj.buffer as ArrayBuffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n\n traverse(ctx);\n return buffers;\n}\n\n// Create an array of the given size and initialize element with initFunction()\nexport function newArray(\n n: number,\n initFunction: (index: number) => T,\n): T[] {\n // Creates a new array and calls a constructor function for each element with index\n return new Array(n).fill(null).map((_, i) => initFunction(i));\n}\n\n// A free list that has a pool of items of type T, with callbacks\n// for constructing, disposing, and checking if an item is valid for the given args.\nexport class FreeList {\n items: T[];\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n\n constructor({\n // Allocate a new item with the given args\n allocate,\n // Dispose of an item (optional, if GC is enough)\n dispose,\n // Check if an existing item in the list is valid for the given args,\n // allowing you to store heterogeneous items in the list.\n valid,\n }: {\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n }) {\n this.items = [];\n this.allocate = allocate;\n this.dispose = dispose;\n this.valid = valid;\n }\n\n // Allocate a new item from the free list, first checking if a existing item\n // on the freelist is valid for the given args.\n alloc(args: Args): T {\n while (true) {\n const item = this.items.pop();\n if (!item) {\n // No items in the free list, allocate a new one\n break;\n }\n if (this.valid(item, args)) {\n // Found a valid item, return it\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): found valid item. Reusing...`);\n return item;\n }\n // Item isn't valid for our args, dispose of it and try again\n if (this.dispose) {\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): disposing invalid item.`);\n this.dispose(item);\n }\n }\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): allocating new item`);\n return this.allocate(args);\n }\n\n free(item: T) {\n // Return item to the free list\n this.items.push(item);\n }\n\n disposeAll() {\n // Disposes of all items in the free list\n let item: T | undefined;\n item = this.items.pop();\n while (item) {\n if (this.dispose) {\n this.dispose(item);\n }\n item = this.items.pop();\n }\n }\n}\n\nexport function encodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) {\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n extA[i4] = floatBitsToUint(x);\n extA[i4 + 1] = floatBitsToUint(y);\n extA[i4 + 2] = floatBitsToUint(z);\n extA[i4 + 3] = toHalf(opacity);\n extB[i4] = toHalf(r) | (toHalf(g) << 16);\n extB[i4 + 1] = toHalf(b) | (toHalf(Math.log(scaleX)) << 16);\n extB[i4 + 2] = toHalf(Math.log(scaleY)) | (toHalf(Math.log(scaleZ)) << 16);\n extB[i4 + 3] = encodeQuatOctXy1010R12(quatX, quatY, quatZ, quatW);\n}\n\nexport function decodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n result.center.x = uintBitsToFloat(extA[i4]);\n result.center.y = uintBitsToFloat(extA[i4 + 1]);\n result.center.z = uintBitsToFloat(extA[i4 + 2]);\n result.opacity = fromHalf(extA[i4 + 3] & 0xffff);\n result.color.r = fromHalf(extB[i4] & 0xffff);\n result.color.g = fromHalf(extB[i4] >>> 16);\n result.color.b = fromHalf(extB[i4 + 1] & 0xffff);\n result.scales.x = Math.exp(fromHalf(extB[i4 + 1] >>> 16));\n result.scales.y = Math.exp(fromHalf(extB[i4 + 2] & 0xffff));\n result.scales.z = Math.exp(fromHalf(extB[i4 + 2] >>> 16));\n decodeQuatOctXy1010R12(extB[i4 + 3], result.quaternion);\n return result;\n}\n\n// Encode a PackedSplat as 4 consecutive Uint32 elements in the packedSplats array.\n// The center coordinates x,y,z are encoded as float16, the scales x,y,z as a\n// logarithmic uint8, rotation as three uint8s representing rotation axis and angle,\n// and RGBA as 4xuint8.\nexport function setPackedSplat(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * opacity : opacity);\n\n // Alternate internal encodings commented out below.\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n // Encode the splat as 4 consecutive Uint32 elements\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] =\n uScaleX | (uScaleY << 8) | (uScaleZ << 16) | (uQuatZ << 24);\n}\n\n// Encode the center coordinates x,y,z in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatCenter(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n) {\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n const i4 = index * 4;\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (packedSplats[i4 + 2] & 0xffff0000);\n}\n\n// Encode the scales x,y,z in the packedSplats Uint32Array, leaving all other fields as is.\nexport function setPackedSplatScales(\n packedSplats: Uint32Array,\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n encoding?: {\n lnScaleMin?: number;\n lnScaleMax?: number;\n },\n) {\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const i4 = index * 4;\n packedSplats[i4 + 3] =\n uScaleX |\n (uScaleY << 8) |\n (uScaleZ << 16) |\n (packedSplats[i4 + 3] & 0xff000000);\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempQuaternion = new THREE.Quaternion();\n\n// Encode the rotation quatX, quatY, quatZ, quatW in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatQuat(\n packedSplats: Uint32Array,\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n) {\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n const i4 = index * 4;\n packedSplats[i4 + 2] =\n (packedSplats[i4 + 2] & 0x0000ffff) | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] = (packedSplats[i4 + 3] & 0x00ffffff) | (uQuatZ << 24);\n}\n\n// Encode the RGBA color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgba(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n a: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * a : a);\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n}\n\n// Encode the RGB color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgb(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n\n const i4 = index * 4;\n packedSplats[i4] =\n uR | (uG << 8) | (uB << 16) | (packedSplats[i4] & 0xff000000);\n}\n\n// Encode the opacity in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatOpacity(\n packedSplats: Uint32Array,\n index: number,\n opacity: number,\n) {\n const uA = floatToUint8(opacity);\n\n const i4 = index * 4;\n packedSplats[i4] = (packedSplats[i4] & 0x00ffffff) | (uA << 24);\n}\n\nconst packedCenter = new THREE.Vector3();\nconst packedScales = new THREE.Vector3();\nconst packedQuaternion = new THREE.Quaternion();\nconst packedColor = new THREE.Color();\nconst packedFields = {\n center: packedCenter,\n scales: packedScales,\n quaternion: packedQuaternion,\n color: packedColor,\n opacity: 0.0,\n};\n\n// Unpack all components of a PackedSplat from the packedSplats Uint32Array into\n// THREE.js vector objects. The returned objects will be reused each call.\nexport function unpackSplat(\n packedSplats: Uint32Array,\n index: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n\n const i4 = index * 4;\n const word0 = packedSplats[i4];\n const word1 = packedSplats[i4 + 1];\n const word2 = packedSplats[i4 + 2];\n const word3 = packedSplats[i4 + 3];\n\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n result.color.set(\n rgbMin + ((word0 & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 8) & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 16) & 0xff) / 255) * rgbRange,\n );\n result.opacity = ((word0 >>> 24) & 0xff) / 255;\n if (encoding?.lodOpacity) {\n result.opacity = 2.0 * result.opacity;\n }\n result.center.set(\n fromHalf(word1 & 0xffff),\n fromHalf((word1 >>> 16) & 0xffff),\n fromHalf(word2 & 0xffff),\n );\n\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = (lnScaleMax - lnScaleMin) / 254.0;\n const uScalesX = word3 & 0xff;\n result.scales.x =\n uScalesX === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesX - 1) * lnScaleScale);\n const uScalesY = (word3 >>> 8) & 0xff;\n result.scales.y =\n uScalesY === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesY - 1) * lnScaleScale);\n const uScalesZ = (word3 >>> 16) & 0xff;\n result.scales.z =\n uScalesZ === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesZ - 1) * lnScaleScale);\n\n const uQuat = ((word2 >>> 16) & 0xffff) | ((word3 >>> 8) & 0xff0000);\n decodeQuatOctXy88R8(uQuat, result.quaternion);\n // decodeQuatXyz888(uQuat, result.quaternion);\n // decodeQuatEulerXyz888(uQuat, result.quaternion);\n\n return result;\n}\n\n// Compute a texture array size that is large enough to fit numSplats. The most\n// common 2D texture size in WebGL2 is 4096x4096 which only allows for 16M splats,\n// so Spark stores Gsplat data in a 2D texture array, which most platforms support\n// up to 2048x2048x2048 = 8G splats. Allocations that fit within a single 2D texture\n// array layer will be rounded up to fill an entire texture row. Once a texture\n// array layer is filled, the allocation will be rounded up to fill an entire layer.\n// This is done so the entire set of splats can be covered by min/max coords across\n// each dimension.\nexport function getTextureSize(numSplats: number): {\n width: number;\n height: number;\n depth: number;\n maxSplats: number;\n} {\n // Compute a texture array size that is large enough to fit numSplats.\n // The width is always 2048, the height sized to fit the splats but no larger than 2048.\n // The depth is the number of layers needed to fit the splats.\n // maxSplats is computed as the new total available splats that can be stored.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n const maxSplats = width * height * depth;\n return { width, height, depth, maxSplats };\n}\n\nexport function computeMaxSplats(numSplats: number): number {\n // Compute the size of a Gsplat array texture (2048x2048xD) that can fit\n // numSplats splats, and return the total number of splats that can be stored\n // in such a texture.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n return width * height * depth;\n}\n\n// Heuristic function to determine if we are running on a mobile device.\nexport function isMobile(): boolean {\n if (navigator.platform.toLowerCase().startsWith(\"win\")) {\n return false;\n }\n if (navigator.maxTouchPoints > 0) {\n // Touch-enabled device, assume it's mobile\n return true;\n }\n return /Mobi|Android|iPhone|iPad|iPod|Opera Mini|IEMobile/.test(\n navigator.userAgent,\n );\n}\n\n// Heuristic function to determine if we are running on an Android device.\n// (does not include Oculus Quest)\nexport function isAndroid(): boolean {\n return (\n /Android/.test(navigator.userAgent) || /Tizen/.test(navigator.userAgent)\n );\n}\n\n// Heuristic function to determine if we are running on an Oculus Quest device.\nexport function isOculus(): boolean {\n return !!navigator.xr && /Oculus/.test(navigator.userAgent);\n}\n\nexport function isQuest2() {\n return isOculus() && /Quest 2/.test(navigator.userAgent);\n}\n\nexport function isIos(): boolean {\n return /iPhone|iPad/.test(navigator.userAgent);\n}\n\nexport function isVisionPro(): boolean {\n return (\n !!navigator.xr &&\n isIos() &&\n /Safari/.test(navigator.userAgent) &&\n isMobile()\n );\n}\n\n// Take an array of RGBA8 encoded pixels and flip them vertically in-place.\n// This is useful for converting between top-left and bottom-left coordinate systems\n// in standard 2D images vs WebGL2.\nexport function flipPixels(\n pixels: Uint8Array,\n width: number,\n height: number,\n): Uint8Array {\n // Flips pixels vertically in-place, returns original array.\n const tempLine = new Uint8Array(width * 4);\n\n // Only need to process half the height since we're swapping\n for (let y = 0; y < height / 2; y++) {\n const topOffset = y * width * 4;\n const bottomOffset = (height - 1 - y) * width * 4;\n\n // Save top line to temp buffer\n tempLine.set(pixels.subarray(topOffset, topOffset + width * 4));\n // Move bottom line to top\n pixels.set(\n pixels.subarray(bottomOffset, bottomOffset + width * 4),\n topOffset,\n );\n // Move saved top line to bottom\n pixels.set(tempLine, bottomOffset);\n }\n return pixels;\n}\n\n// Utility to take an array of RGBA8 encoded pixels and convert them to a\n// PNG-encoded image data URL that can be downloaded to the client.\nexport function pixelsToPngUrl(\n pixels: Uint8Array,\n width: number,\n height: number,\n): string {\n const canvas = document.createElement(\"canvas\");\n canvas.width = width;\n canvas.height = height;\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n throw new Error(\"Can't get 2d context\");\n }\n const imageData = ctx.createImageData(width, height);\n imageData.data.set(pixels);\n ctx.putImageData(imageData, 0, 0);\n return canvas.toDataURL(\"image/png\");\n}\n\n// Manually clone a THREE.Clock object.\nexport function cloneClock(clock: THREE.Clock): THREE.Clock {\n const newClock = new THREE.Clock(clock.autoStart);\n newClock.startTime = clock.startTime;\n newClock.oldTime = clock.oldTime;\n newClock.elapsedTime = clock.elapsedTime;\n newClock.running = clock.running;\n return newClock;\n}\n\n// Utility to filter out an undefined values from an object.\nexport function omitUndefined(obj: T): Partial {\n return Object.fromEntries(\n Object.entries(obj).filter(([_, value]) => value !== undefined),\n ) as Partial;\n}\n\n// \"Identity\" vertex shader that just passes through the position.\nexport const IDENT_VERTEX_SHADER = unindent(`\n precision highp float;\n\n in vec3 position;\n\n void main() {\n gl_Position = vec4(position.xy, 0.0, 1.0);\n }\n`);\n\n// Returns the average position of an array of THREE.Vector3.\nexport function averagePositions(positions: THREE.Vector3[]): THREE.Vector3 {\n const sum = new THREE.Vector3();\n for (const position of positions) {\n sum.add(position);\n }\n return sum.divideScalar(positions.length);\n}\n\n// Returns an \"average\" of an array of THREE.Quaternion objects.\n// Note that this is not a spherical lerp between quaternions but\n// rather an arithmetic mean that is normalized to unit length.\nexport function averageQuaternions(\n quaternions: THREE.Quaternion[],\n): THREE.Quaternion {\n if (quaternions.length === 0) {\n return new THREE.Quaternion();\n }\n const sum = quaternions[0].clone();\n for (let i = 1; i < quaternions.length; i++) {\n if (quaternions[i].dot(quaternions[0]) < 0.0) {\n sum.x -= quaternions[i].x;\n sum.y -= quaternions[i].y;\n sum.z -= quaternions[i].z;\n sum.w -= quaternions[i].w;\n } else {\n sum.x += quaternions[i].x;\n sum.y += quaternions[i].y;\n sum.z += quaternions[i].z;\n sum.w += quaternions[i].w;\n }\n }\n return sum.normalize();\n}\n\n// Compare two coordinates given by matrix1 and matrix2, returning the distance\n// between their origins and the \"coincidence\" of their orientations, defined\n// as the dot product of their \"-z\" axes.\nexport function coinciDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n const direction1 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix1)\n .sub(origin1)\n .normalize();\n const direction2 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix2)\n .sub(origin2)\n .normalize();\n\n const distance = origin1.distanceTo(origin2);\n const coincidence = direction1.dot(direction2);\n return { distance, coincidence };\n}\n\n// Utility function that returns whether two coordinate system origins\n// given by matrix1 and matrix2 are within a certain maxDistance of each other.\nexport function withinDist({\n matrix1,\n matrix2,\n maxDistance,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n}): boolean {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n return origin1.distanceTo(origin2) <= maxDistance;\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined by a maxDistance and a minCoincidence.\nexport function withinCoinciDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoincidence,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoincidence?: number;\n}): boolean {\n const { distance, coincidence } = coinciDist(matrix1, matrix2);\n return (\n distance <= maxDistance &&\n (minCoincidence == null || coincidence >= minCoincidence)\n );\n}\n\n// Compare two coordinate systems given by matrix1 and matrix2, returning the\n// distance between their origins and the \"coorientation\" of their orientations,\n// define as the dot product of their quaternion transforms (flipping their\n// orientation to be on the same hemisphere if necessary).\nexport function coorientDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const [origin1, rotate1] = [new THREE.Vector3(), new THREE.Quaternion()];\n const [origin2, rotate2] = [new THREE.Vector3(), new THREE.Quaternion()];\n matrix1.decompose(origin1, rotate1, new THREE.Vector3());\n matrix2.decompose(origin2, rotate2, new THREE.Vector3());\n\n const distance = origin1.distanceTo(origin2);\n const coorient = Math.abs(rotate1.dot(rotate2));\n return { distance, coorient };\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined a maxDistance and a minCoorient.\nexport function withinCoorientDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoorient,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoorient?: number;\n}): boolean {\n const { distance, coorient } = coorientDist(matrix1, matrix2);\n return (\n distance <= maxDistance && (minCoorient == null || coorient >= minCoorient)\n );\n}\n\n// Like Math.sign but with a custom epsilon value.\nexport function epsilonSign(value: number, epsilon = 0.001): number {\n if (Math.abs(value) < epsilon) {\n return 0;\n }\n return Math.sign(value);\n}\n\n// Encode a THREE.Quaternion into a 24-bit integer, converting the xyz coordinates\n// to signed 8-bit integers (w can be derived from xyz), and flipping the sign\n// of the quaternion if necessary to make this possible (q == -q for quaternions).\nexport function encodeQuatXyz888(q: THREE.Quaternion): number {\n const negQuat = q.w < 0.0;\n const iQuatX = floatToSint8(negQuat ? -q.x : q.x);\n const iQuatY = floatToSint8(negQuat ? -q.y : q.y);\n const iQuatZ = floatToSint8(negQuat ? -q.z : q.z);\n const uQuatX = iQuatX & 0xff;\n const uQuatY = iQuatY & 0xff;\n const uQuatZ = iQuatZ & 0xff;\n return uQuatX | (uQuatY << 8) | (uQuatZ << 16);\n}\n\n// Decode a 24-bit integer of the quaternion's xyz coordinates into a THREE.Quaternion.\nexport function decodeQuatXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n const iQuatX = (encoded << 24) >> 24;\n const iQuatY = (encoded << 16) >> 24;\n const iQuatZ = (encoded << 8) >> 24;\n out.set(iQuatX / 127.0, iQuatY / 127.0, iQuatZ / 127.0, 0.0);\n const dotSelf = out.x * out.x + out.y * out.y + out.z * out.z;\n out.w = Math.sqrt(Math.max(0.0, 1.0 - dotSelf));\n return out;\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempNormalizedQuaternion = new THREE.Quaternion();\nconst tempAxis = new THREE.Vector3();\n\n/**\n * Encodes a THREE.Quaternion into a 24‐bit integer.\n *\n * Bit layout (LSB → MSB):\n * - Bits 0–7: quantized U (8 bits)\n * - Bits 8–15: quantized V (8 bits)\n * - Bits 16–23: quantized angle θ (8 bits) from [0,π]\n *\n * This version uses folded octahedral mapping (all inline).\n */\nexport function encodeQuatOctXy88R8(q: THREE.Quaternion): number {\n // Force the minimal representation (q.w >= 0)\n const qnorm = tempNormalizedQuaternion.copy(q).normalize();\n if (qnorm.w < 0) {\n qnorm.set(-qnorm.x, -qnorm.y, -qnorm.z, -qnorm.w);\n }\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnorm.w);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(\n qnorm.x * qnorm.x + qnorm.y * qnorm.y + qnorm.z * qnorm.z,\n );\n const axis =\n xyz_norm < 1e-6\n ? tempAxis.set(1, 0, 0)\n : tempAxis.set(qnorm.x, qnorm.y, qnorm.z).divideScalar(xyz_norm);\n // const foldAxis = (axis.z < 0);\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axis.x) + Math.abs(axis.y) + Math.abs(axis.z);\n let p_x = axis.x / sum;\n let p_y = axis.y / sum;\n // Fold the lower hemisphere.\n if (axis.z < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 7 bits (0..127)\n const quantU = Math.round(u_f * 255);\n const quantV = Math.round(v_f * 255);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 10 bits (0..1023) ---\n const angleInt = Math.round(theta * (255 / Math.PI));\n\n // Pack into 24 bits: bits [0–7]: quantU, [8–15]: quantV, [16–23]: angleInt.\n return (angleInt << 16) | (quantV << 8) | quantU;\n}\n\n/**\n * Decodes a 24‐bit encoded quaternion (packed in a number) back to a THREE.Quaternion.\n *\n * Assumes the same bit layout as in encodeQuatOctXy88R8.\n */\nexport function decodeQuatOctXy88R8(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 8‐bit quantU and quantV, and 8‐bit angleInt.\n const quantU = encoded & 0xff; // bits 0–7\n const quantV = (encoded >>> 8) & 0xff; // bits 8–15\n const angleInt = (encoded >>> 16) & 0xff; // bits 16–23\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 255;\n const v_f = quantV / 255;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axis = tempAxis.set(f_x, f_y, f_z).normalize();\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 255) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axis.x * s, axis.y * s, axis.z * s, w);\n return out;\n}\n\n/**\n * Encodes a THREE.Quaternion into a 24‑bit unsigned integer\n * by converting it to Euler angles (roll, pitch, yaw).\n * The Euler angles are assumed to be in radians in the range [-π, π].\n * Each angle is normalized to [0,1] and quantized to 8 bits.\n * Bit layout (LSB→MSB):\n * - Bits 0–7: roll (quantized)\n * - Bits 8–15: pitch (quantized)\n * - Bits 16–23: yaw (quantized)\n */\nexport function encodeQuatEulerXyz888(q: THREE.Quaternion): number {\n // Normalize quaternion to ensure a proper rotation.\n const qNorm = q.clone().normalize();\n\n // Tait–Bryan angles (roll, pitch, yaw)\n const sinr_cosp = 2.0 * (qNorm.w * qNorm.x + qNorm.y * qNorm.z);\n const cosr_cosp = 1.0 - 2.0 * (qNorm.x * qNorm.x + qNorm.y * qNorm.y);\n const roll = Math.atan2(sinr_cosp, cosr_cosp);\n\n const sinp = 2.0 * (qNorm.w * qNorm.y - qNorm.z * qNorm.x);\n const pitch =\n Math.abs(sinp) >= 1.0 ? Math.sign(sinp) * (Math.PI / 2) : Math.asin(sinp);\n\n const siny_cosp = 2.0 * (qNorm.w * qNorm.z + qNorm.x * qNorm.y);\n const cosy_cosp = 1.0 - 2.0 * (qNorm.y * qNorm.y + qNorm.z * qNorm.z);\n const yaw = Math.atan2(siny_cosp, cosy_cosp);\n\n // Map each angle from [-π, π] to [0, 1]\n const normRoll = (roll + Math.PI) / (2 * Math.PI);\n const normPitch = (pitch + Math.PI) / (2 * Math.PI);\n const normYaw = (yaw + Math.PI) / (2 * Math.PI);\n\n // Quantize to 8 bits (0 to 255)\n const rollQ = Math.round(normRoll * 255);\n const pitchQ = Math.round(normPitch * 255);\n const yawQ = Math.round(normYaw * 255);\n\n // Pack into a 24-bit unsigned integer:\n // Bits 0–7: rollQ, Bits 8–15: pitchQ, Bits 16–23: yawQ.\n return (yawQ << 16) | (pitchQ << 8) | rollQ;\n}\n\n/**\n * Decodes a 24‑bit unsigned integer into a THREE.Quaternion\n * by unpacking three 8‑bit values (roll, pitch, yaw) in the range [0,255]\n * and then converting them back to Euler angles in [-π, π] and to a quaternion.\n */\nexport function decodeQuatEulerXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Unpack 8‑bit values.\n const rollQ = encoded & 0xff;\n const pitchQ = (encoded >>> 8) & 0xff;\n const yawQ = (encoded >>> 16) & 0xff;\n\n // Convert quantized values back to normalized [0,1] values.\n const normRoll = rollQ / 255;\n const normPitch = pitchQ / 255;\n const normYaw = yawQ / 255;\n\n // Map from [0,1] to [-π, π]\n const roll = normRoll * (2 * Math.PI) - Math.PI;\n const pitch = normPitch * (2 * Math.PI) - Math.PI;\n const yaw = normYaw * (2 * Math.PI) - Math.PI;\n\n // Convert Euler angles to quaternion (Tait–Bryan: roll, pitch, yaw).\n const cr = Math.cos(roll * 0.5);\n const sr = Math.sin(roll * 0.5);\n const cp = Math.cos(pitch * 0.5);\n const sp = Math.sin(pitch * 0.5);\n const cy = Math.cos(yaw * 0.5);\n const sy = Math.sin(yaw * 0.5);\n\n out.w = cr * cp * cy + sr * sp * sy;\n out.x = sr * cp * cy - cr * sp * sy;\n out.y = cr * sp * cy + sr * cp * sy;\n out.z = cr * cp * sy - sr * sp * cy;\n out.normalize();\n return out;\n}\n\nexport function encodeQuatOctXy1010R12(\n qx: number,\n qy: number,\n qz: number,\n qw: number,\n): number {\n const qlen = Math.sqrt(qx * qx + qy * qy + qz * qz + qw * qw);\n // Force the minimal representation (q.w >= 0)\n const qnx = (qw < 0 ? -qx : qx) / qlen;\n const qny = (qw < 0 ? -qy : qy) / qlen;\n const qnz = (qw < 0 ? -qz : qz) / qlen;\n const qnw = (qw < 0 ? -qw : qw) / qlen;\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnw);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(qnx * qnx + qny * qny + qnz * qnz);\n const axisX = xyz_norm < 1e-6 ? 1 : qnx / xyz_norm;\n const axisY = xyz_norm < 1e-6 ? 0 : qny / xyz_norm;\n const axisZ = xyz_norm < 1e-6 ? 0 : qnz / xyz_norm;\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axisX) + Math.abs(axisY) + Math.abs(axisZ);\n let p_x = axisX / sum;\n let p_y = axisY / sum;\n // Fold the lower hemisphere.\n if (axisZ < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 10 bits (0..1023)\n const quantU = Math.round(u_f * 1023);\n const quantV = Math.round(v_f * 1023);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 12 bits (0..4095) ---\n const angleInt = Math.round(theta * (4095 / Math.PI));\n\n // Pack into 32 bits: bits [0–9]: quantU, [10–19]: quantV, [20–31]: angleInt.\n return (angleInt << 20) | (quantV << 10) | quantU;\n}\n\nexport function decodeQuatOctXy1010R12(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 10‐bit quantU and quantV, and 12‐bit angleInt.\n const quantU = encoded & 0x3ff; // bits 0–9\n const quantV = (encoded >>> 10) & 0x3ff; // bits 10–19\n const angleInt = (encoded >>> 20) & 0xfff; // bits 20–31\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 1023;\n const v_f = quantV / 1023;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axisLen = Math.sqrt(f_x * f_x + f_y * f_y + f_z * f_z);\n const axisX = axisLen < 1e-6 ? 0 : f_x / axisLen;\n const axisY = axisLen < 1e-6 ? 0 : f_y / axisLen;\n const axisZ = axisLen < 1e-6 ? 0 : f_z / axisLen;\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 4095) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axisX * s, axisY * s, axisZ * s, w);\n return out;\n}\n\n// Pack four signed 8-bit values into a single uint32.\nfunction packSint8Bytes(\n b0: number,\n b1: number,\n b2: number,\n b3: number,\n): number {\n const clampedB0 = Math.round(Math.max(-127, Math.min(127, b0 * 127)));\n const clampedB1 = Math.round(Math.max(-127, Math.min(127, b1 * 127)));\n const clampedB2 = Math.round(Math.max(-127, Math.min(127, b2 * 127)));\n const clampedB3 = Math.round(Math.max(-127, Math.min(127, b3 * 127)));\n return (\n (clampedB0 & 0xff) |\n ((clampedB1 & 0xff) << 8) |\n ((clampedB2 & 0xff) << 16) |\n ((clampedB3 & 0xff) << 24)\n );\n}\n\n// Encode an array of 9 signed RGB SH1 coefficients (clamped to [-1,1]) into\n// a pair of uint32 values, where each coefficient is stored as a sint7\nexport function encodeSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n encoding?: {\n sh1Max?: number;\n },\n) {\n const sh1Max = encoding?.sh1Max ?? 1;\n const sh1Scale = 63 / sh1Max;\n\n // Pack sint7 values into 2 x uint32\n const base = index * 2;\n for (let i = 0; i < 9; ++i) {\n const s = sh1Rgb[i] * sh1Scale;\n const value = Math.round(Math.max(-63, Math.min(63, s))) & 0x7f;\n const bitStart = i * 7;\n const bitEnd = bitStart + 7;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh1Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh1Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\n// Encode an array of 15 signed RGB SH2 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint8.\nexport function encodeSh2Rgb(\n sh2Array: Uint32Array,\n index: number,\n sh2Rgb: Float32Array,\n encoding?: {\n sh2Max?: number;\n },\n) {\n const sh2Max = encoding?.sh2Max ?? 1;\n const sh2Scale = 1 / sh2Max;\n\n // Pack sint8 values into 4 x uint32\n sh2Array[index * 4 + 0] = packSint8Bytes(\n sh2Rgb[0] * sh2Scale,\n sh2Rgb[1] * sh2Scale,\n sh2Rgb[2] * sh2Scale,\n sh2Rgb[3] * sh2Scale,\n );\n sh2Array[index * 4 + 1] = packSint8Bytes(\n sh2Rgb[4] * sh2Scale,\n sh2Rgb[5] * sh2Scale,\n sh2Rgb[6] * sh2Scale,\n sh2Rgb[7] * sh2Scale,\n );\n sh2Array[index * 4 + 2] = packSint8Bytes(\n sh2Rgb[8] * sh2Scale,\n sh2Rgb[9] * sh2Scale,\n sh2Rgb[10] * sh2Scale,\n sh2Rgb[11] * sh2Scale,\n );\n sh2Array[index * 4 + 3] = packSint8Bytes(\n sh2Rgb[12] * sh2Scale,\n sh2Rgb[13] * sh2Scale,\n sh2Rgb[14] * sh2Scale,\n 0,\n );\n}\n\n// Encode an array of 21 signed RGB SH3 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint6.\nexport function encodeSh3Rgb(\n sh3Array: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n encoding?: {\n sh3Max?: number;\n },\n) {\n const sh3Max = encoding?.sh3Max ?? 1;\n const sh3Scale = 31 / sh3Max;\n\n // Pack sint6 values into 4 x uint32\n const base = index * 4;\n for (let i = 0; i < 21; ++i) {\n const s = sh3Rgb[i] * sh3Scale;\n const value = Math.round(Math.max(-31, Math.min(31, s))) & 0x3f;\n const bitStart = i * 6;\n const bitEnd = bitStart + 6;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh3Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh3Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\nexport function encodeExtRgb(r: number, g: number, b: number): number {\n const ar = Math.abs(r);\n const ag = Math.abs(g);\n const ab = Math.abs(b);\n const maxAbs = Math.max(ar, ag, ab);\n const base = Math.floor(Math.log2(maxAbs));\n const biasedBase = Math.max(0, Math.min(31, base + 15));\n const divisor = 2 ** (biasedBase - 15) / 255;\n const uR = Math.round(Math.max(0, Math.min(255, ar / divisor)));\n const uG = Math.round(Math.max(0, Math.min(255, ag / divisor)));\n const uB = Math.round(Math.max(0, Math.min(255, ab / divisor)));\n const expSigns =\n (biasedBase << 3) |\n ((r < 0 ? 0x1 : 0) | (g < 0 ? 0x2 : 0) | (b < 0 ? 0x4 : 0));\n return uR | (uG << 8) | (uB << 16) | (expSigns << 24);\n}\n\nexport function decodeExtRgb(encoded: number): THREE.Color {\n const color = packedFields.color;\n const biasedBase = (encoded >>> 27) & 0x1f;\n const divisor = 2 ** (biasedBase - 15) / 255;\n const r = (encoded & 0xff) * divisor;\n const g = ((encoded >>> 8) & 0xff) * divisor;\n const b = ((encoded >>> 16) & 0xff) * divisor;\n color.r = encoded & 0x1000000 ? -r : r;\n color.g = encoded & 0x2000000 ? -g : g;\n color.b = encoded & 0x4000000 ? -b : b;\n return color;\n}\n\nexport function encodeExtSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n}\n\nexport function encodeExtSh12Rgb(\n sh1Array: Uint32Array,\n sh2Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n sh2Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n sh1Array[i4 + 3] = encodeExtRgb(sh2Rgb[0], sh2Rgb[1], sh2Rgb[2]);\n for (let k = 1; k < 5; ++k) {\n const k5 = k * 5;\n sh2Array[i4 + (k - 1)] = encodeExtRgb(\n sh2Rgb[k5],\n sh2Rgb[k5 + 1],\n sh2Rgb[k5 + 2],\n );\n }\n}\n\nexport function encodeExt3Rgb(\n sh3ArrayA: Uint32Array,\n sh3ArrayB: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 4; ++k) {\n const k3 = k * 3;\n sh3ArrayA[i4 + k] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n for (let k = 4; k < 7; ++k) {\n const k3 = k * 3;\n sh3ArrayB[i4 + (k - 4)] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n}\n\n// Partially decompress a gzip-encoded Uint8Array, returning a Uint8Array of\n// the specified numBytes from the start of the file.\nexport function decompressPartialGzip(\n fileBytes: Uint8Array,\n numBytes: number,\n): Uint8Array {\n const chunks: Uint8Array[] = [];\n let totalBytes = 0;\n let result: Uint8Array | null = null;\n\n const gunzip = new Gunzip((data, final) => {\n chunks.push(data);\n totalBytes += data.length;\n if (final || totalBytes >= numBytes) {\n const allBytes = new Uint8Array(totalBytes);\n let offset = 0;\n for (const chunk of chunks) {\n allBytes.set(chunk, offset);\n offset += chunk.length;\n }\n result = allBytes.slice(0, numBytes);\n }\n });\n\n const CHUNK_SIZE = 1024;\n let offset = 0;\n while (result == null && offset < fileBytes.length) {\n const chunk = fileBytes.slice(offset, offset + CHUNK_SIZE);\n gunzip.push(chunk, false);\n offset += CHUNK_SIZE;\n }\n\n if (result == null) {\n gunzip.push(new Uint8Array(), true);\n if (result == null) {\n throw new Error(\"Failed to decompress partial gzip\");\n }\n }\n return result;\n}\n\nexport class GunzipReader {\n fileBytes: Uint8Array;\n chunkBytes: number;\n\n chunks: Uint8Array[];\n totalBytes: number;\n reader: ReadableStreamDefaultReader;\n\n constructor({\n fileBytes,\n chunkBytes = 64 * 1024,\n }: { fileBytes: Uint8Array; chunkBytes?: number }) {\n this.fileBytes = fileBytes;\n this.chunkBytes = chunkBytes;\n this.chunks = [];\n this.totalBytes = 0;\n\n const ds = new DecompressionStream(\"gzip\");\n const decompressionStream = new Blob([fileBytes]).stream().pipeThrough(ds);\n this.reader = decompressionStream.getReader();\n }\n\n async read(numBytes: number): Promise {\n while (this.totalBytes < numBytes) {\n const { value: chunk, done: readerDone } = await this.reader.read();\n if (readerDone) {\n break;\n }\n\n this.chunks.push(chunk);\n this.totalBytes += chunk.length;\n }\n\n if (this.totalBytes < numBytes) {\n throw new Error(\n `Unexpected EOF: needed ${numBytes}, got ${this.totalBytes}`,\n );\n }\n\n const allBytes = new Uint8Array(this.totalBytes);\n let outOffset = 0;\n for (const chunk of this.chunks) {\n allBytes.set(chunk, outOffset);\n outOffset += chunk.length;\n }\n\n const result = allBytes.subarray(0, numBytes);\n this.chunks = [allBytes.subarray(numBytes)];\n this.totalBytes -= numBytes;\n return result;\n }\n}\n","import BundledWorker from \"./oldWorker?worker&inline\";\nimport { getTransferable } from \"./utils.js\";\n\n// SplatWorker is an internal class that manages a WebWorker for executing\n// longer running CPU tasks such as Gsplat file decoding and sorting.\n// Although a SplatWorker can be created and used directly, the utility\n// function withWorker() is recommended to allocate from a managed\n// pool of SplatWorkers.\n\nexport class OldSplatWorker {\n worker: Worker;\n messages: Record<\n number,\n { resolve: (value: unknown) => void; reject: (reason?: unknown) => void }\n > = {};\n messageIdNext = 0;\n\n constructor() {\n // this.worker = new Worker(new URL(\"./worker\", import.meta.url), { type: \"module\" });\n this.worker = new BundledWorker();\n this.worker.onmessage = (event) => this.onMessage(event);\n }\n\n makeMessageId(): number {\n return ++this.messageIdNext;\n }\n\n makeMessagePromiseId(): { id: number; promise: Promise } {\n const id = this.makeMessageId();\n const promise = new Promise((resolve, reject) => {\n this.messages[id] = { resolve, reject };\n });\n return { id, promise };\n }\n\n onMessage(event: MessageEvent) {\n // console.log(\"SplatWorker.onMessage:\", event);\n const { id, result, error } = event.data;\n // console.log(`SplatWorker.onMessage(${id}):`, result, error);\n const handler = this.messages[id];\n if (handler) {\n delete this.messages[id];\n if (error) {\n handler.reject(error);\n } else {\n handler.resolve(result);\n }\n }\n }\n\n // Invoke an RPC on the worker with the given name and arguments.\n // The normal usage of a worker is to run one activity at a time,\n // but this function allows for concurrent calls, tagging each request\n // with a unique message Id and awaiting a response to that same Id.\n // The method will automatically transfer any ArrayBuffers in the\n // arguments to the worker. If you'd like to transfer a copy of a\n // buffer then you must clone it before passing to this function.\n async call(name: string, args: unknown): Promise {\n const { id, promise } = this.makeMessagePromiseId();\n // console.log(`SplatWorker.call(${name}):`, args);\n this.worker.postMessage(\n { name, args, id },\n { transfer: getTransferable(args) },\n );\n return promise;\n }\n}\n\nlet maxWorkers = 4;\n\nlet numWorkers = 0;\nconst freeWorkers: OldSplatWorker[] = [];\nconst workerQueue: ((worker: OldSplatWorker) => void)[] = [];\n\n// Set the maximum number of workers to allocate for the pool. (default: 4)\nexport function setWorkerPool(count = 4) {\n maxWorkers = count;\n}\n\n// Allocate a worker from the pool. If none are available and we are below the\n// maximum, create a new one. Otherwise, add the request to a queue and wait\n// for it to be fulfilled.\nexport async function allocWorker(): Promise {\n const worker = freeWorkers.shift();\n if (worker) {\n return worker;\n }\n\n if (numWorkers < maxWorkers) {\n const worker = new OldSplatWorker();\n numWorkers += 1;\n return worker;\n }\n\n return new Promise((resolve) => {\n workerQueue.push(resolve);\n });\n}\n\n// Return a worker to the pool. Pass the worker to any pending waiter.\nexport function freeWorker(worker: OldSplatWorker) {\n if (numWorkers > maxWorkers) {\n // Worker no longer needed\n numWorkers -= 1;\n return;\n }\n\n const waiter = workerQueue.shift();\n if (waiter) {\n waiter(worker);\n return;\n }\n\n freeWorkers.push(worker);\n}\n\n// Allocate a worker from the pool and invoke the callback with the worker.\n// When the callback completes, the worker will be returned to the pool.\nexport async function withWorker(\n callback: (worker: OldSplatWorker) => Promise,\n): Promise {\n const worker = await allocWorker();\n try {\n return await callback(worker);\n } finally {\n freeWorker(worker);\n }\n}\n","import {\n\tBufferGeometry,\n\tFloat32BufferAttribute,\n\tOrthographicCamera,\n\tMesh\n} from 'three';\n\n/**\n * Abstract base class for all post processing passes.\n *\n * This module is only relevant for post processing with {@link WebGLRenderer}.\n *\n * @abstract\n * @three_import import { Pass } from 'three/addons/postprocessing/Pass.js';\n */\nclass Pass {\n\n\t/**\n\t * Constructs a new pass.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPass = true;\n\n\t\t/**\n\t\t * If set to `true`, the pass is processed by the composer.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.enabled = true;\n\n\t\t/**\n\t\t * If set to `true`, the pass indicates to swap read and write buffer after rendering.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.needsSwap = true;\n\n\t\t/**\n\t\t * If set to `true`, the pass clears its buffer before rendering\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clear = false;\n\n\t\t/**\n\t\t * If set to `true`, the result of the pass is rendered to screen. The last pass in the composers\n\t\t * pass chain gets automatically rendered to screen, no matter how this property is configured.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.renderToScreen = false;\n\n\t}\n\n\t/**\n\t * Sets the size of the pass.\n\t *\n\t * @abstract\n\t * @param {number} width - The width to set.\n\t * @param {number} height - The height to set.\n\t */\n\tsetSize( /* width, height */ ) {}\n\n\t/**\n\t * This method holds the render logic of a pass. It must be implemented in all derived classes.\n\t *\n\t * @abstract\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {WebGLRenderTarget} writeBuffer - The write buffer. This buffer is intended as the rendering\n\t * destination for the pass.\n\t * @param {WebGLRenderTarget} readBuffer - The read buffer. The pass can access the result from the\n\t * previous pass from this buffer.\n\t * @param {number} deltaTime - The delta time in seconds.\n\t * @param {boolean} maskActive - Whether masking is active or not.\n\t */\n\trender( /* renderer, writeBuffer, readBuffer, deltaTime, maskActive */ ) {\n\n\t\tconsole.error( 'THREE.Pass: .render() must be implemented in derived pass.' );\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever the pass is no longer used in your app.\n\t *\n\t * @abstract\n\t */\n\tdispose() {}\n\n}\n\n// Helper for passes that need to fill the viewport with a single quad.\n\nconst _camera = new OrthographicCamera( - 1, 1, 1, - 1, 0, 1 );\n\n// https://github.com/mrdoob/three.js/pull/21358\n\nclass FullscreenTriangleGeometry extends BufferGeometry {\n\n\tconstructor() {\n\n\t\tsuper();\n\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( [ - 1, 3, 0, - 1, - 1, 0, 3, - 1, 0 ], 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( [ 0, 2, 0, 0, 2, 0 ], 2 ) );\n\n\t}\n\n}\n\nconst _geometry = new FullscreenTriangleGeometry();\n\n\n/**\n * This module is a helper for passes which need to render a full\n * screen effect which is quite common in context of post processing.\n *\n * The intended usage is to reuse a single full screen quad for rendering\n * subsequent passes by just reassigning the `material` reference.\n *\n * This module can only be used with {@link WebGLRenderer}.\n *\n * @augments Mesh\n * @three_import import { FullScreenQuad } from 'three/addons/postprocessing/Pass.js';\n */\nclass FullScreenQuad {\n\n\t/**\n\t * Constructs a new full screen quad.\n\t *\n\t * @param {?Material} material - The material to render te full screen quad with.\n\t */\n\tconstructor( material ) {\n\n\t\tthis._mesh = new Mesh( _geometry, material );\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever the instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis._mesh.geometry.dispose();\n\n\t}\n\n\t/**\n\t * Renders the full screen quad.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t */\n\trender( renderer ) {\n\n\t\trenderer.render( this._mesh, _camera );\n\n\t}\n\n\t/**\n\t * The quad's material.\n\t *\n\t * @type {?Material}\n\t */\n\tget material() {\n\n\t\treturn this._mesh.material;\n\n\t}\n\n\tset material( value ) {\n\n\t\tthis._mesh.material = value;\n\n\t}\n\n}\n\nexport { Pass, FullScreenQuad };\n","import { getTransferable } from \"./utils\";\nimport BundledWorker from \"./worker?worker&inline\";\n\ntype PromiseRecord = {\n resolve: (value: unknown) => void;\n reject: (reason?: unknown) => void;\n onStatus?: (data: unknown) => void;\n};\n\nexport class SplatWorker {\n worker: Worker;\n queue: (() => void)[] | null = null;\n messages: Record = {};\n static currentId = 0;\n\n constructor() {\n this.worker = new BundledWorker();\n this.worker.onmessage = (event) => this.onMessage(event);\n }\n\n onMessage(event: MessageEvent) {\n const { id, result, error, status } = event.data;\n const promise = this.messages[id];\n if (promise) {\n if (error !== undefined) {\n delete this.messages[id];\n promise.reject(error);\n } else if (status !== undefined) {\n promise.onStatus?.(status);\n } else {\n delete this.messages[id];\n promise.resolve(result);\n }\n }\n }\n\n tryExclusive(callback: (worker: SplatWorker) => Promise) {\n return this.queue == null ? this.exclusive(callback) : null;\n }\n\n async exclusive(\n callback: (worker: SplatWorker) => Promise,\n ): Promise {\n const queue = this.queue;\n if (queue != null) {\n await new Promise((resolve) => {\n queue.push(() => resolve(undefined));\n });\n } else {\n this.queue = [];\n }\n\n try {\n return await callback(this);\n } finally {\n if (this.queue != null) {\n if (this.queue.length === 0) {\n this.queue = null;\n } else {\n const waiter = this.queue.shift() as () => void;\n waiter();\n }\n }\n }\n }\n\n async call(\n name: string,\n args: unknown,\n options: { onStatus?: (data: unknown) => void } = {},\n ): Promise {\n const id = ++SplatWorker.currentId;\n const promise = new Promise((resolve, reject) => {\n this.messages[id] = { resolve, reject, onStatus: options.onStatus };\n });\n this.worker.postMessage(\n { id, name, args },\n { transfer: getTransferable(args) },\n );\n return await promise;\n }\n\n dispose() {\n this.worker.terminate();\n\n const messages = Object.values(this.messages);\n this.messages = {};\n for (const message of messages) {\n message.reject(new Error(\"Worker terminate\"));\n }\n }\n}\n\nexport class NewSplatWorkerPool {\n maxWorkers;\n numWorkers = 0;\n freelist: SplatWorker[] = [];\n queue: ((worker: SplatWorker) => void)[] = [];\n\n constructor(maxWorkers = 4) {\n this.maxWorkers = maxWorkers;\n }\n\n async withWorker(\n callback: (worker: SplatWorker) => Promise,\n ): Promise {\n const worker = await this.allocWorker();\n try {\n return await callback(worker);\n } finally {\n this.freeWorker(worker);\n }\n }\n\n async allocWorker(): Promise {\n const worker = this.freelist.pop();\n if (worker) {\n return worker;\n }\n\n if (this.numWorkers < this.maxWorkers) {\n const worker = new SplatWorker();\n this.numWorkers += 1;\n return worker;\n }\n\n return new Promise((resolve) => {\n this.queue.push(resolve);\n });\n }\n\n freeWorker(worker: SplatWorker) {\n if (this.numWorkers > this.maxWorkers) {\n // Worker no longer needed\n this.numWorkers -= 1;\n return;\n }\n\n const waiter = this.queue.shift();\n if (waiter) {\n waiter(worker);\n return;\n }\n\n this.freelist.push(worker);\n }\n}\n\nexport const workerPool = new NewSplatWorkerPool();\n","import { Dyno, UnaryOp, unindent, unindentLines } from \"./base\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n} from \"./value\";\n\nexport const Gsplat = { type: \"Gsplat\" } as { type: \"Gsplat\" };\nexport const CovSplat = { type: \"CovSplat\" } as { type: \"CovSplat\" };\nexport const TPackedSplats = { type: \"PackedSplats\" } as {\n type: \"PackedSplats\";\n};\nexport const TExtSplats = { type: \"ExtSplats\" } as {\n type: \"ExtSplats\";\n};\nexport const TCovSplats = { type: \"CovSplats\" } as {\n type: \"CovSplats\";\n};\n\nexport const numPackedSplats = (\n packedSplats: DynoVal,\n): DynoVal<\"int\"> => new NumPackedSplats({ packedSplats });\nexport const readPackedSplat = (\n packedSplats: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal => new ReadPackedSplat({ packedSplats, index });\nexport const readPackedSplatRange = (\n packedSplats: DynoVal,\n index: DynoVal<\"int\">,\n base: DynoVal<\"int\">,\n count: DynoVal<\"int\">,\n): DynoVal =>\n new ReadPackedSplatRange({ packedSplats, index, base, count });\n\nexport const numExtSplats = (\n extSplats: DynoVal,\n): DynoVal<\"int\"> => new NumExtSplats({ extSplats });\nexport const readExtSplat = (\n extSplats: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal => new ReadExtSplat({ extSplats, index });\n\nexport const numCovSplats = (\n covsplats: DynoVal,\n): DynoVal<\"int\"> => new NumCovSplats({ covsplats });\nexport const readCovSplat = (\n covSplats: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal => new ReadCovSplat({ covSplats, index });\n\nexport const gsplatToCovSplat = (\n gsplat: DynoVal,\n): DynoVal => new GsplatToCovSplat({ gsplat });\n\nexport const splitGsplat = (gsplat: DynoVal) =>\n new SplitGsplat({ gsplat });\nexport const combineGsplat = ({\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n}: {\n gsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n scales?: DynoVal<\"vec3\">;\n quaternion?: DynoVal<\"vec4\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n}): DynoVal => {\n return new CombineGsplat({\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n });\n};\nexport const gsplatNormal = (gsplat: DynoVal): DynoVal<\"vec3\"> =>\n new GsplatNormal({ gsplat });\n\nexport const transformGsplat = (\n gsplat: DynoVal,\n {\n scale,\n rotate,\n translate,\n recolor,\n }: {\n scale?: DynoVal<\"float\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n recolor?: DynoVal<\"vec4\">;\n },\n): DynoVal => {\n return new TransformGsplat({ gsplat, scale, rotate, translate, recolor });\n};\n\nexport const splatTexCoord = (index: DynoVal<\"int\">): DynoVal<\"ivec3\"> =>\n new SplatTexCoord({ index });\n\nexport const pagedSplatTexCoord = (index: DynoVal<\"int\">): DynoVal<\"ivec3\"> =>\n new PagedSplatTexCoord({ index });\n\nexport const defineGsplat = unindent(`\n struct Gsplat {\n vec3 center;\n uint flags;\n vec3 scales;\n int index;\n vec4 quaternion;\n vec4 rgba;\n };\n const uint GSPLAT_FLAG_ACTIVE = 1u << 0u;\n\n bool isGsplatActive(uint flags) {\n return (flags & GSPLAT_FLAG_ACTIVE) != 0u;\n }\n`);\n\nexport const defineCovSplat = unindent(`\n struct CovSplat {\n vec3 center;\n uint flags;\n vec4 rgba;\n vec3 xxyyzz;\n int index;\n vec3 xyxzyz;\n };\n\n bool isCovSplatActive(uint flags) {\n return (flags & GSPLAT_FLAG_ACTIVE) != 0u;\n }\n`);\n\nexport const definePackedSplats = unindent(`\n struct PackedSplats {\n usampler2DArray textureArray;\n int numSplats;\n vec4 rgbMinMaxLnScaleMinMax;\n bool lodOpacity;\n };\n`);\n\nexport class NumPackedSplats extends UnaryOp<\n typeof TPackedSplats,\n \"int\",\n \"numSplats\"\n> {\n constructor({\n packedSplats,\n }: { packedSplats: DynoVal }) {\n super({ a: packedSplats, outKey: \"numSplats\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.numSplats} = ${inputs.a}.numSplats;`,\n ];\n }\n}\n\nconst defineReadPackedArray = unindent(`\n bool readPackedArray(usampler2DArray texture, int numSplats, vec4 rgbMinMaxLnScaleMinMax, int index, out Gsplat gsplat) {\n if ((index >= 0) && (index < numSplats)) {\n uvec4 packed = texelFetch(texture, splatTexCoord(index), 0);\n unpackSplatEncoding(packed, gsplat.center, gsplat.scales, gsplat.quaternion, gsplat.rgba, rgbMinMaxLnScaleMinMax);\n return true;\n } else {\n return false;\n }\n }\n`);\n\nexport class ReadPackedSplat\n extends Dyno<\n { packedSplats: typeof TPackedSplats; index: \"int\" },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n packedSplats,\n index,\n }: { packedSplats?: DynoVal; index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { packedSplats: TPackedSplats, index: \"int\" },\n outTypes: { gsplat: Gsplat },\n inputs: { packedSplats, index },\n globals: () => [defineGsplat, definePackedSplats, defineReadPackedArray],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = outputs;\n if (!gsplat) {\n return [];\n }\n const { packedSplats, index } = inputs;\n let statements: string[];\n if (packedSplats && index) {\n statements = unindentLines(`\n ${gsplat}.flags = 0u;\n if (readPackedArray(${packedSplats}.textureArray, ${packedSplats}.numSplats, ${packedSplats}.rgbMinMaxLnScaleMinMax, ${index}, ${gsplat})) {\n if (${packedSplats}.lodOpacity) {\n ${gsplat}.rgba.a = 2.0 * ${gsplat}.rgba.a;\n }\n bool zeroSize = all(equal(${gsplat}.scales, vec3(0.0, 0.0, 0.0)));\n ${gsplat}.flags = zeroSize ? 0u : GSPLAT_FLAG_ACTIVE;\n }\n `);\n } else {\n statements = [`${gsplat}.flags = 0u;`];\n }\n statements.push(`${gsplat}.index = ${index ?? \"0\"};`);\n return statements;\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport class ReadPackedSplatRange\n extends Dyno<\n {\n packedSplats: typeof TPackedSplats;\n index: \"int\";\n base: \"int\";\n count: \"int\";\n },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n packedSplats,\n index,\n base,\n count,\n }: {\n packedSplats?: DynoVal;\n index?: DynoVal<\"int\">;\n base?: DynoVal<\"int\">;\n count?: DynoVal<\"int\">;\n }) {\n super({\n inTypes: {\n packedSplats: TPackedSplats,\n index: \"int\",\n base: \"int\",\n count: \"int\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: { packedSplats, index, base, count },\n globals: () => [defineGsplat, definePackedSplats, defineReadPackedArray],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = outputs;\n if (!gsplat) {\n return [];\n }\n const { packedSplats, index, base, count } = inputs;\n let statements: string[];\n if (packedSplats && index && base && count) {\n statements = unindentLines(`\n ${gsplat}.flags = 0u;\n if (readPackedArray(${packedSplats}.textureArray, ${packedSplats}.numSplats, ${packedSplats}.rgbMinMaxLnScaleMinMax, ${index}, ${gsplat})) {\n if (${packedSplats}.lodOpacity) {\n ${gsplat}.rgba.a = 2.0 * ${gsplat}.rgba.a;\n }\n bool zeroSize = all(equal(${gsplat}.scales, vec3(0.0, 0.0, 0.0)));\n ${gsplat}.flags = zeroSize ? 0u : GSPLAT_FLAG_ACTIVE;\n }\n `);\n } else {\n statements = [`${gsplat}.flags = 0u;`];\n }\n statements.push(`${gsplat}.index = ${index ?? \"0\"};`);\n return statements;\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport const defineExtSplats = unindent(`\n struct ExtSplats {\n usampler2DArray textureArray1;\n usampler2DArray textureArray2;\n int numSplats;\n };\n`);\n\nexport class NumExtSplats extends UnaryOp<\n typeof TExtSplats,\n \"int\",\n \"numSplats\"\n> {\n constructor({ extSplats }: { extSplats: DynoVal }) {\n super({ a: extSplats, outKey: \"numSplats\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.numSplats} = ${inputs.a}.numSplats;`,\n ];\n }\n}\n\nconst defineReadExtArrays = unindent(`\n void readExtArrays(usampler2DArray texture1, usampler2DArray texture2, int numSplats, int index, out Gsplat gsplat) {\n gsplat.flags = 0u;\n if ((index >= 0) && (index < numSplats)) {\n ivec3 coord = splatTexCoord(index);\n uvec4 packed1 = texelFetch(texture1, coord, 0);\n uvec4 packed2 = texelFetch(texture2, coord, 0);\n unpackSplatExt(packed1, packed2, gsplat.center, gsplat.scales, gsplat.quaternion, gsplat.rgba);\n gsplat.flags = all(equal(gsplat.scales, vec3(0.0, 0.0, 0.0))) ? 0u : GSPLAT_FLAG_ACTIVE;\n gsplat.index = index;\n }\n }\n`);\n\nexport class ReadExtSplat\n extends Dyno<\n { extSplats: typeof TExtSplats; index: \"int\" },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n extSplats,\n index,\n }: { extSplats?: DynoVal; index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { extSplats: TExtSplats, index: \"int\" },\n outTypes: { gsplat: Gsplat },\n inputs: { extSplats, index },\n globals: () => [defineGsplat, defineExtSplats, defineReadExtArrays],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = outputs;\n if (!gsplat) {\n return [`${gsplat}.flags = 0u;`];\n }\n const { extSplats, index } = inputs;\n let statements: string[];\n if (extSplats && index) {\n return unindentLines(`\n readExtArrays(${extSplats}.textureArray1, ${extSplats}.textureArray2, ${extSplats}.numSplats, ${index}, ${gsplat});\n `);\n }\n return [`${gsplat}.flags = 0u;`];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport class NumCovSplats extends UnaryOp<\n typeof TCovSplats,\n \"int\",\n \"numSplats\"\n> {\n constructor({ covsplats }: { covsplats: DynoVal }) {\n super({ a: covsplats, outKey: \"numSplats\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.numSplats} = ${inputs.a}.numSplats;`,\n ];\n }\n}\n\nconst defineReadCovArrays = unindent(`\n void readCovArrays(usampler2DArray texture1, usampler2DArray texture2, int numSplats, int index, out CovSplat covsplat) {\n covsplat.flags = 0u;\n if ((index >= 0) && (index < numSplats)) {\n ivec3 coord = splatTexCoord(index);\n uvec4 packed1 = texelFetch(texture1, coord, 0);\n uvec4 packed2 = texelFetch(texture2, coord, 0);\n unpackSplatExtCov(packed1, packed2, covsplat.center, covsplat.rgba, covsplat.xxyyzz, covsplat.xyxzyz);\n covsplat.flags = (all(equal(covsplat.xxyyzz, vec3(0.0))) && all(equal(covsplat.xyxzyz, vec3(0.0)))) ? 0u : GSPLAT_FLAG_ACTIVE;\n gsplat.index = index;\n }\n }\n`);\n\nexport class ReadCovSplat\n extends Dyno<\n { covSplats: typeof TCovSplats; index: \"int\" },\n { covsplat: typeof CovSplat }\n >\n implements HasDynoOut\n{\n constructor({\n covSplats,\n index,\n }: { covSplats?: DynoVal; index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { covSplats: TCovSplats, index: \"int\" },\n outTypes: { covsplat: CovSplat },\n inputs: { covSplats, index },\n globals: () => [defineGsplat, defineCovSplat, defineReadCovArrays],\n statements: ({ inputs, outputs }) => {\n const { covsplat } = outputs;\n if (!covsplat) {\n return [`${covsplat}.flags = 0u;`];\n }\n const { covSplats, index } = inputs;\n let statements: string[];\n if (covSplats && index) {\n return unindentLines(`\n readCovArrays(${covSplats}.textureArray, ${covSplats}.numSplats, ${index}, ${covsplat});\n `);\n }\n return [`${covsplat}.flags = 0u;`];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"covsplat\");\n }\n}\n\nexport class GsplatToCovSplat extends Dyno<\n { gsplat: typeof Gsplat },\n { covsplat: typeof CovSplat }\n> {\n constructor({ gsplat }: { gsplat?: DynoVal }) {\n super({\n inTypes: { gsplat: Gsplat },\n outTypes: { covsplat: CovSplat },\n inputs: { gsplat },\n globals: () => [defineGsplat, defineCovSplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = inputs;\n const { covsplat } = outputs;\n if (!gsplat) {\n return [`${covsplat}.flags = 0u;`];\n }\n\n return unindentLines(`\n ${covsplat}.flags = 0u;\n if (isGsplatActive(${gsplat}.flags)) {\n ${covsplat}.flags = ${gsplat}.flags;\n ${covsplat}.index = ${gsplat}.index;\n ${covsplat}.rgba = ${gsplat}.rgba;\n ${covsplat}.center = ${gsplat}.center;\n mat3 m = scaleQuaternionToMatrix(${gsplat}.scales, ${gsplat}.quaternion);\n m = m * transpose(m);\n ${covsplat}.xxyyzz = vec3(m[0][0], m[1][1], m[2][2]);\n ${covsplat}.xyxzyz = vec3(m[0][1], m[0][2], m[1][2]);\n }\n `);\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"covsplat\");\n }\n}\n\nexport class SplitGsplat extends Dyno<\n { gsplat: typeof Gsplat },\n {\n flags: \"uint\";\n active: \"bool\";\n index: \"int\";\n center: \"vec3\";\n scales: \"vec3\";\n quaternion: \"vec4\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n }\n> {\n constructor({ gsplat }: { gsplat?: DynoVal }) {\n super({\n inTypes: { gsplat: Gsplat },\n outTypes: {\n flags: \"uint\",\n active: \"bool\",\n index: \"int\",\n center: \"vec3\",\n scales: \"vec3\",\n quaternion: \"vec4\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n inputs: { gsplat },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = inputs;\n const {\n flags,\n active,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = outputs;\n return [\n !flags ? null : `${flags} = ${gsplat ? `${gsplat}.flags` : \"0u\"};`,\n !active\n ? null\n : `${active} = isGsplatActive(${gsplat ? `${gsplat}.flags` : \"0u\"});`,\n !index ? null : `${index} = ${gsplat ? `${gsplat}.index` : \"0\"};`,\n !center\n ? null\n : `${center} = ${gsplat ? `${gsplat}.center` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !scales\n ? null\n : `${scales} = ${gsplat ? `${gsplat}.scales` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !quaternion\n ? null\n : `${quaternion} = ${gsplat ? `${gsplat}.quaternion` : \"vec4(0.0, 0.0, 0.0, 1.0)\"};`,\n !rgba\n ? null\n : `${rgba} = ${gsplat ? `${gsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\"};`,\n !rgb\n ? null\n : `${rgb} = ${gsplat ? `${gsplat}.rgba.rgb` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !opacity\n ? null\n : `${opacity} = ${gsplat ? `${gsplat}.rgba.a` : \"0.0\"};`,\n !x ? null : `${x} = ${gsplat ? `${gsplat}.center.x` : \"0.0\"};`,\n !y ? null : `${y} = ${gsplat ? `${gsplat}.center.y` : \"0.0\"};`,\n !z ? null : `${z} = ${gsplat ? `${gsplat}.center.z` : \"0.0\"};`,\n !r ? null : `${r} = ${gsplat ? `${gsplat}.rgba.r` : \"0.0\"};`,\n !g ? null : `${g} = ${gsplat ? `${gsplat}.rgba.g` : \"0.0\"};`,\n !b ? null : `${b} = ${gsplat ? `${gsplat}.rgba.b` : \"0.0\"};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class CombineGsplat\n extends Dyno<\n {\n gsplat: typeof Gsplat;\n flags: \"uint\";\n index: \"int\";\n center: \"vec3\";\n scales: \"vec3\";\n quaternion: \"vec4\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n }: {\n gsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n scales?: DynoVal<\"vec3\">;\n quaternion?: DynoVal<\"vec4\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n }) {\n super({\n inTypes: {\n gsplat: Gsplat,\n flags: \"uint\",\n index: \"int\",\n center: \"vec3\",\n scales: \"vec3\",\n quaternion: \"vec4\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: {\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat: outGsplat } = outputs;\n if (!outGsplat) {\n return [];\n }\n const {\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = inputs;\n return [\n `${outGsplat}.flags = ${flags ?? (gsplat ? `${gsplat}.flags` : \"0u\")};`,\n `${outGsplat}.index = ${index ?? (gsplat ? `${gsplat}.index` : \"0\")};`,\n `${outGsplat}.center = ${center ?? (gsplat ? `${gsplat}.center` : \"vec3(0.0, 0.0, 0.0)\")};`,\n `${outGsplat}.scales = ${scales ?? (gsplat ? `${gsplat}.scales` : \"vec3(0.0, 0.0, 0.0)\")};`,\n `${outGsplat}.quaternion = ${quaternion ?? (gsplat ? `${gsplat}.quaternion` : \"vec4(0.0, 0.0, 0.0, 1.0)\")};`,\n `${outGsplat}.rgba = ${rgba ?? (gsplat ? `${gsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\")};`,\n !rgb ? null : `${outGsplat}.rgba.rgb = ${rgb};`,\n !opacity ? null : `${outGsplat}.rgba.a = ${opacity};`,\n !x ? null : `${outGsplat}.center.x = ${x};`,\n !y ? null : `${outGsplat}.center.y = ${y};`,\n !z ? null : `${outGsplat}.center.z = ${z};`,\n !r ? null : `${outGsplat}.rgba.r = ${r};`,\n !g ? null : `${outGsplat}.rgba.g = ${g};`,\n !b ? null : `${outGsplat}.rgba.b = ${b};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport const defineGsplatNormal = unindent(`\n vec3 gsplatNormal(vec3 scales, vec4 quaternion) {\n float minScale = min(scales.x, min(scales.y, scales.z));\n vec3 normal;\n if (scales.z == minScale) {\n normal = vec3(0.0, 0.0, 1.0);\n } else if (scales.y == minScale) {\n normal = vec3(0.0, 1.0, 0.0);\n } else {\n normal = vec3(1.0, 0.0, 0.0);\n }\n return quatVec(quaternion, normal);\n }\n`);\n\nexport class GsplatNormal extends UnaryOp {\n constructor({ gsplat }: { gsplat: DynoVal }) {\n super({ a: gsplat, outKey: \"normal\", outTypeFunc: () => \"vec3\" });\n this.globals = () => [defineGsplat, defineGsplatNormal];\n this.statements = ({ inputs, outputs }) => [\n `${outputs.normal} = gsplatNormal(${inputs.a}.scales, ${inputs.a}.quaternion);`,\n ];\n }\n}\n\nexport class TransformGsplat\n extends Dyno<\n {\n gsplat: typeof Gsplat;\n scale: \"float\";\n rotate: \"vec4\";\n translate: \"vec3\";\n recolor: \"vec4\";\n },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n gsplat,\n scale,\n rotate,\n translate,\n recolor,\n }: {\n gsplat?: DynoVal;\n scale?: DynoVal<\"float\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n recolor?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: {\n gsplat: Gsplat,\n scale: \"float\",\n rotate: \"vec4\",\n translate: \"vec3\",\n recolor: \"vec4\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: { gsplat, scale, rotate, translate, recolor },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs, compile }) => {\n const { gsplat } = outputs;\n if (!gsplat || !inputs.gsplat) {\n return [];\n }\n const { scale, rotate, translate, recolor } = inputs;\n const indent = compile.indent;\n const statements = [\n `${gsplat} = ${inputs.gsplat};`,\n `if (isGsplatActive(${gsplat}.flags)) {`,\n\n scale ? `${indent}${gsplat}.center *= ${scale};` : null,\n rotate\n ? `${indent}${gsplat}.center = quatVec(${rotate}, ${gsplat}.center);`\n : null,\n translate ? `${indent}${gsplat}.center += ${translate};` : null,\n\n scale ? `${indent}${gsplat}.scales *= ${scale};` : null,\n\n rotate\n ? `${indent}${gsplat}.quaternion = quatQuat(${rotate}, ${gsplat}.quaternion);`\n : null,\n recolor ? `${indent}${gsplat}.rgba *= ${recolor};` : null,\n \"}\",\n ].filter(Boolean) as string[];\n return statements;\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport const splitCovSplat = (covsplat: DynoVal) =>\n new SplitCovSplat({ covsplat });\nexport const combineCovSplat = ({\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n}: {\n covsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n}): DynoVal => {\n return new CombineCovSplat({\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n });\n};\n\nexport class SplitCovSplat extends Dyno<\n { covsplat: typeof CovSplat },\n {\n flags: \"uint\";\n active: \"bool\";\n index: \"int\";\n center: \"vec3\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n }\n> {\n constructor({ covsplat }: { covsplat?: DynoVal }) {\n super({\n inTypes: { covsplat: CovSplat },\n outTypes: {\n flags: \"uint\",\n active: \"bool\",\n index: \"int\",\n center: \"vec3\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n inputs: { covsplat },\n globals: () => [defineCovSplat],\n statements: ({ inputs, outputs }) => {\n const { covsplat } = inputs;\n const {\n flags,\n active,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = outputs;\n return [\n !flags\n ? null\n : `${flags} = ${covsplat ? `${covsplat}.flags` : \"0u\"};`,\n !active\n ? null\n : `${active} = isCovSplatActive(${covsplat ? `${covsplat}.flags` : \"0u\"});`,\n !index ? null : `${index} = ${covsplat ? `${covsplat}.index` : \"0\"};`,\n !center\n ? null\n : `${center} = ${covsplat ? `${covsplat}.center` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !rgba\n ? null\n : `${rgba} = ${covsplat ? `${covsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\"};`,\n !rgb\n ? null\n : `${rgb} = ${covsplat ? `${covsplat}.rgba.rgb` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !opacity\n ? null\n : `${opacity} = ${covsplat ? `${covsplat}.rgba.a` : \"0.0\"};`,\n !x ? null : `${x} = ${covsplat ? `${covsplat}.center.x` : \"0.0\"};`,\n !y ? null : `${y} = ${covsplat ? `${covsplat}.center.y` : \"0.0\"};`,\n !z ? null : `${z} = ${covsplat ? `${covsplat}.center.z` : \"0.0\"};`,\n !r ? null : `${r} = ${covsplat ? `${covsplat}.rgba.r` : \"0.0\"};`,\n !g ? null : `${g} = ${covsplat ? `${covsplat}.rgba.g` : \"0.0\"};`,\n !b ? null : `${b} = ${covsplat ? `${covsplat}.rgba.b` : \"0.0\"};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class CombineCovSplat\n extends Dyno<\n {\n covsplat: typeof CovSplat;\n flags: \"uint\";\n index: \"int\";\n center: \"vec3\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n },\n { covsplat: typeof CovSplat }\n >\n implements HasDynoOut\n{\n constructor({\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n }: {\n covsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n }) {\n super({\n inTypes: {\n covsplat: CovSplat,\n flags: \"uint\",\n index: \"int\",\n center: \"vec3\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n outTypes: { covsplat: CovSplat },\n inputs: {\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n },\n globals: () => [defineCovSplat],\n statements: ({ inputs, outputs }) => {\n const { covsplat: outCovSplat } = outputs;\n if (!outCovSplat) {\n return [];\n }\n const {\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = inputs;\n return [\n `${outCovSplat}.flags = ${flags ?? (covsplat ? `${covsplat}.flags` : \"0u\")};`,\n `${outCovSplat}.index = ${index ?? (covsplat ? `${covsplat}.index` : \"0\")};`,\n `${outCovSplat}.center = ${center ?? (covsplat ? `${covsplat}.center` : \"vec3(0.0, 0.0, 0.0)\")};`,\n `${outCovSplat}.rgba = ${rgba ?? (covsplat ? `${covsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\")};`,\n !rgb ? null : `${outCovSplat}.rgba.rgb = ${rgb};`,\n !opacity ? null : `${outCovSplat}.rgba.a = ${opacity};`,\n !x ? null : `${outCovSplat}.center.x = ${x};`,\n !y ? null : `${outCovSplat}.center.y = ${y};`,\n !z ? null : `${outCovSplat}.center.z = ${z};`,\n !r ? null : `${outCovSplat}.rgba.r = ${r};`,\n !g ? null : `${outCovSplat}.rgba.g = ${g};`,\n !b ? null : `${outCovSplat}.rgba.b = ${b};`,\n `${outCovSplat}.xxyyzz = ${covsplat ? `${covsplat}.xxyyzz` : \"vec3(0.0, 0.0, 0.0)\"};`,\n `${outCovSplat}.xyxzyz = ${covsplat ? `${covsplat}.xyxzyz` : \"vec3(0.0, 0.0, 0.0)\"};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"covsplat\");\n }\n}\n\nexport class SplatTexCoord\n extends Dyno<{ index: \"int\" }, { coord: \"ivec3\" }>\n implements HasDynoOut<\"ivec3\">\n{\n constructor({ index }: { index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { index: \"int\" },\n outTypes: { coord: \"ivec3\" },\n inputs: { index },\n statements: ({ inputs, outputs }) => {\n const { index } = inputs;\n const { coord } = outputs;\n if (!index || !coord) {\n return [];\n }\n return [`${coord} = splatTexCoord(${index});`];\n },\n });\n }\n\n dynoOut(): DynoValue<\"ivec3\"> {\n return new DynoOutput(this, \"coord\");\n }\n}\n\nexport class PagedSplatTexCoord\n extends Dyno<{ index: \"int\" }, { coord: \"ivec3\" }>\n implements HasDynoOut<\"ivec3\">\n{\n constructor({ index }: { index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { index: \"int\" },\n outTypes: { coord: \"ivec3\" },\n inputs: { index },\n statements: ({ inputs, outputs }) => {\n const { index } = inputs;\n const { coord } = outputs;\n if (!index || !coord) {\n return [];\n }\n return [`${coord} = pagedSplatTexCoord(${index});`];\n },\n });\n }\n\n dynoOut(): DynoValue<\"ivec3\"> {\n return new DynoOutput(this, \"coord\");\n }\n}\n","import * as THREE from \"three\";\nimport { Dyno, unindentLines } from \"./base\";\nimport { CovSplat, Gsplat, defineCovSplat, defineGsplat } from \"./splats\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n} from \"./value\";\n\nexport const outputPackedSplat = (\n gsplat: DynoVal,\n rgbMinMaxLnScaleMinMax: DynoVal<\"vec4\">,\n) => new OutputPackedSplat({ gsplat, rgbMinMaxLnScaleMinMax });\n\nexport const outputCovSplat = (\n covsplat: DynoVal,\n rgbMinMaxLnScaleMinMax: DynoVal<\"vec4\">,\n) => new OutputCovSplat({ covsplat, rgbMinMaxLnScaleMinMax });\n\nexport const outputExtendedSplat = (gsplat: DynoVal) =>\n new OutputExtendedSplat({ gsplat });\n\nexport const outputExtCovSplat = (covsplat: DynoVal) =>\n new OutputExtCovSplat({ covsplat });\n\nexport const outputSplatDepth = (\n gsplat: DynoVal,\n viewCenter: DynoVal<\"vec3\">,\n viewDir: DynoVal<\"vec3\">,\n sortRadial: DynoVal<\"bool\">,\n) => new OutputSplatDepth({ gsplat, viewCenter, viewDir, sortRadial });\n\nexport const outputCovSplatDepth = (\n covsplat: DynoVal,\n viewCenter: DynoVal<\"vec3\">,\n viewDir: DynoVal<\"vec3\">,\n sortRadial: DynoVal<\"bool\">,\n) => new OutputCovSplatDepth({ covsplat, viewCenter, viewDir, sortRadial });\n\nexport const outputRgba8 = (rgba8: DynoVal<\"vec4\">) =>\n new OutputRgba8({ rgba8 });\n\nexport class OutputPackedSplat extends Dyno<\n { gsplat: typeof Gsplat; rgbMinMaxLnScaleMinMax: \"vec4\" },\n Record\n> {\n constructor({\n gsplat,\n rgbMinMaxLnScaleMinMax,\n }: {\n gsplat?: DynoVal;\n rgbMinMaxLnScaleMinMax?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: { gsplat: Gsplat, rgbMinMaxLnScaleMinMax: \"vec4\" },\n inputs: { gsplat, rgbMinMaxLnScaleMinMax },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat, rgbMinMaxLnScaleMinMax } = inputs;\n if (gsplat && rgbMinMaxLnScaleMinMax) {\n return unindentLines(`\n if (isGsplatActive(${gsplat}.flags)) {\n target = packSplatEncoding(${gsplat}.center, ${gsplat}.scales, ${gsplat}.quaternion, ${gsplat}.rgba, ${rgbMinMaxLnScaleMinMax});\n } else {\n target = uvec4(0u, 0u, 0u, 0u);\n }\n `);\n }\n return [\"target = uvec4(0u, 0u, 0u, 0u);\"];\n },\n });\n }\n}\n\nexport class OutputCovSplat extends Dyno<\n { covsplat: typeof CovSplat; rgbMinMaxLnScaleMinMax: \"vec4\" },\n Record\n> {\n constructor({\n covsplat,\n rgbMinMaxLnScaleMinMax,\n }: {\n covsplat?: DynoVal;\n rgbMinMaxLnScaleMinMax?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: { covsplat: CovSplat, rgbMinMaxLnScaleMinMax: \"vec4\" },\n inputs: { covsplat, rgbMinMaxLnScaleMinMax },\n globals: () => [defineCovSplat],\n statements: ({ inputs }) => {\n const { covsplat, rgbMinMaxLnScaleMinMax } = inputs;\n if (covsplat && rgbMinMaxLnScaleMinMax) {\n return unindentLines(`\n if (isCovSplatActive(${covsplat}.flags)) {\n target = packSplatCovEncoding(${covsplat}.center, ${covsplat}.rgba, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz, ${rgbMinMaxLnScaleMinMax});\n } else {\n target = uvec4(0u);\n }\n `);\n }\n return [\"target = uvec4(0u);\"];\n },\n });\n }\n}\n\nexport class OutputExtendedSplat extends Dyno<\n { gsplat: typeof Gsplat },\n Record\n> {\n constructor({\n gsplat,\n }: {\n gsplat?: DynoVal;\n }) {\n super({\n inTypes: { gsplat: Gsplat },\n inputs: { gsplat },\n globals: () => [defineGsplat],\n statements: ({ inputs }) => {\n const { gsplat } = inputs;\n if (gsplat) {\n return unindentLines(`\n if (isGsplatActive(${gsplat}.flags)) {\n packSplatExt(target, target2, ${gsplat}.center, ${gsplat}.scales, ${gsplat}.quaternion, ${gsplat}.rgba);\n } else {\n target = uvec4(0u);\n target2 = uvec4(0u);\n }\n `);\n }\n return [\"target = uvec4(0u);\", \"target2 = uvec4(0u);\"];\n },\n });\n }\n}\n\nexport class OutputExtCovSplat extends Dyno<\n { covsplat: typeof CovSplat },\n Record\n> {\n constructor({\n covsplat,\n }: {\n covsplat?: DynoVal;\n }) {\n super({\n inTypes: { covsplat: CovSplat },\n inputs: { covsplat },\n globals: () => [defineCovSplat],\n statements: ({ inputs }) => {\n const { covsplat } = inputs;\n if (covsplat) {\n return unindentLines(`\n if (isCovSplatActive(${covsplat}.flags)) {\n packSplatExtCov(target, target2, ${covsplat}.center, ${covsplat}.rgba, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz);\n } else {\n target = uvec4(0u);\n target2 = uvec4(0u);\n }\n `);\n }\n return [\"target = uvec4(0u);\", \"target2 = uvec4(0u);\"];\n },\n });\n }\n}\n\nclass OutputSplatDepth extends Dyno<\n {\n gsplat: typeof Gsplat;\n viewCenter: \"vec3\";\n viewDir: \"vec3\";\n sortRadial: \"bool\";\n },\n Record\n> {\n constructor({\n gsplat,\n viewCenter,\n viewDir,\n sortRadial,\n }: {\n gsplat: DynoVal;\n viewCenter: DynoVal<\"vec3\">;\n viewDir: DynoVal<\"vec3\">;\n sortRadial: DynoVal<\"bool\">;\n }) {\n super({\n inTypes: {\n gsplat: Gsplat,\n viewCenter: \"vec3\",\n viewDir: \"vec3\",\n sortRadial: \"bool\",\n },\n inputs: { gsplat, viewCenter, viewDir, sortRadial },\n globals: () => [defineGsplat],\n statements: ({ inputs }) => {\n const { gsplat, viewCenter, viewDir, sortRadial } = inputs;\n if (gsplat && viewCenter && viewDir && sortRadial) {\n return unindentLines(`\n float metric = 1.0 / 0.0;\n if (isGsplatActive(${gsplat}.flags)) {\n vec3 center = ${gsplat}.center - ${viewCenter};\n if (${sortRadial}) {\n metric = length(center);\n } else {\n float bias = 100.0; // reduce popping\n metric = dot(center, ${viewDir}) + bias;\n }\n }\n target3 = floatToVec4(metric);\n `);\n }\n return [];\n },\n });\n }\n}\n\nclass OutputCovSplatDepth extends Dyno<\n {\n covsplat: typeof CovSplat;\n viewCenter: \"vec3\";\n viewDir: \"vec3\";\n sortRadial: \"bool\";\n },\n Record\n> {\n constructor({\n covsplat,\n viewCenter,\n viewDir,\n sortRadial,\n }: {\n covsplat: DynoVal;\n viewCenter: DynoVal<\"vec3\">;\n viewDir: DynoVal<\"vec3\">;\n sortRadial: DynoVal<\"bool\">;\n }) {\n super({\n inTypes: {\n covsplat: CovSplat,\n viewCenter: \"vec3\",\n viewDir: \"vec3\",\n sortRadial: \"bool\",\n },\n inputs: { covsplat, viewCenter, viewDir, sortRadial },\n globals: () => [defineCovSplat],\n statements: ({ inputs }) => {\n const { covsplat, viewCenter, viewDir, sortRadial } = inputs;\n if (covsplat && viewCenter && viewDir && sortRadial) {\n return unindentLines(`\n float metric = 1.0 / 0.0;\n if (isCovSplatActive(${covsplat}.flags)) {\n vec3 center = ${covsplat}.center - ${viewCenter};\n if (${sortRadial}) {\n metric = length(center);\n } else {\n float bias = 100.0; // reduce popping\n metric = dot(center, ${viewDir}) + bias;\n }\n }\n target3 = floatToVec4(metric);\n `);\n }\n return [];\n },\n });\n }\n}\n\nexport class OutputRgba8\n extends Dyno<{ rgba8: \"vec4\" }, { rgba8: \"vec4\" }>\n implements HasDynoOut<\"vec4\">\n{\n constructor({ rgba8 }: { rgba8?: DynoVal<\"vec4\"> }) {\n super({\n inTypes: { rgba8: \"vec4\" },\n inputs: { rgba8 },\n statements: ({ inputs, outputs }) => [\n `target = ${inputs.rgba8 ?? \"vec4(0.0, 0.0, 0.0, 0.0)\"};`,\n ],\n });\n }\n\n dynoOut(): DynoValue<\"vec4\"> {\n return new DynoOutput(this, \"rgba8\");\n }\n}\n","import type { IUniform } from \"three\";\nimport { Dyno, dynoDeclare } from \"./base\";\nimport type { DynoJsType, DynoType } from \"./types\";\nimport { DynoOutput, type DynoValue, type HasDynoOut } from \"./value\";\n\nexport const uniform = >(\n key: string,\n type: DynoType,\n value: V,\n) => new DynoUniform({ key, type, value });\nexport const dynoBool = (value = false, key?: string) =>\n new DynoBool({ key, value });\nexport const dynoUint = (value = 0, key?: string) =>\n new DynoUint({ key, value });\nexport const dynoInt = (value = 0, key?: string) => new DynoInt({ key, value });\nexport const dynoFloat = (value = 0.0, key?: string) =>\n new DynoFloat({ key, value });\n\nexport const dynoBvec2 = >(\n value: V,\n key?: string,\n) => new DynoBvec2({ key, value });\nexport const dynoUvec2 = >(\n value: V,\n key?: string,\n) => new DynoUvec2({ key, value });\nexport const dynoIvec2 = >(\n value: V,\n key?: string,\n) => new DynoIvec2({ key, value });\nexport const dynoVec2 = >(\n value: V,\n key?: string,\n) => new DynoVec2({ key, value });\n\nexport const dynoBvec3 = >(\n value: V,\n key?: string,\n) => new DynoBvec3({ key, value });\nexport const dynoUvec3 = >(\n value: V,\n key?: string,\n) => new DynoUvec3({ key, value });\nexport const dynoIvec3 = >(\n value: V,\n key?: string,\n) => new DynoIvec3({ key, value });\nexport const dynoVec3 = >(\n value: V,\n key?: string,\n) => new DynoVec3({ key, value });\n\nexport const dynoBvec4 = >(\n value: V,\n key?: string,\n) => new DynoBvec4({ key, value });\nexport const dynoUvec4 = >(\n value: V,\n key?: string,\n) => new DynoUvec4({ key, value });\nexport const dynoIvec4 = >(\n value: V,\n key?: string,\n) => new DynoIvec4({ key, value });\nexport const dynoVec4 = >(\n value: V,\n key?: string,\n) => new DynoVec4({ key, value });\n\nexport const dynoMat2 = >(\n value: V,\n key?: string,\n) => new DynoMat2({ key, value });\nexport const dynoMat2x2 = >(\n value: V,\n key?: string,\n) => new DynoMat2x2({ key, value });\nexport const dynoMat2x3 = >(\n value: V,\n key?: string,\n) => new DynoMat2x3({ key, value });\nexport const dynoMat2x4 = >(\n value: V,\n key?: string,\n) => new DynoMat2x4({ key, value });\n\nexport const dynoMat3 = >(\n value: V,\n key?: string,\n) => new DynoMat3({ key, value });\nexport const dynoMat3x2 = >(\n value: V,\n key?: string,\n) => new DynoMat3x2({ key, value });\nexport const dynoMat3x3 = >(\n value: V,\n key?: string,\n) => new DynoMat3x3({ key, value });\nexport const dynoMat3x4 = >(\n value: V,\n key?: string,\n) => new DynoMat3x4({ key, value });\n\nexport const dynoMat4 = >(\n value: V,\n key?: string,\n) => new DynoMat4({ key, value });\nexport const dynoMat4x2 = >(\n value: V,\n key?: string,\n) => new DynoMat4x2({ key, value });\nexport const dynoMat4x3 = >(\n value: V,\n key?: string,\n) => new DynoMat4x3({ key, value });\nexport const dynoMat4x4 = >(\n value: V,\n key?: string,\n) => new DynoMat4x4({ key, value });\n\nexport const dynoUsampler2D = >(\n value: V,\n key?: string,\n) => new DynoUsampler2D({ key, value });\nexport const dynoIsampler2D = >(\n value: V,\n key?: string,\n) => new DynoIsampler2D({ key, value });\nexport const dynoSampler2D = >(\n value: V,\n key?: string,\n) => new DynoSampler2D({ key, value });\n\nexport const dynoUsampler2DArray = >(\n value: V,\n key?: string,\n) => new DynoUsampler2DArray({ key, value });\nexport const dynoIsampler2DArray = >(\n key: string,\n value: V,\n) => new DynoIsampler2DArray({ key, value });\nexport const dynoSampler2DArray = >(\n value: V,\n key?: string,\n) => new DynoSampler2DArray({ key, value });\n\nexport const dynoUsampler3D = >(\n value: V,\n key?: string,\n) => new DynoUsampler3D({ key, value });\nexport const dynoIsampler3D = >(\n value: V,\n key?: string,\n) => new DynoIsampler3D({ key, value });\nexport const dynoSampler3D = >(\n value: V,\n key?: string,\n) => new DynoSampler3D({ key, value });\n\nexport const dynoUsamplerCube = >(\n value: V,\n key?: string,\n) => new DynoUsamplerCube({ key, value });\nexport const dynoIsamplerCube = >(\n value: V,\n key?: string,\n) => new DynoIsamplerCube({ key, value });\nexport const dynoSamplerCube = >(\n value: V,\n key?: string,\n) => new DynoSamplerCube({ key, value });\n\nexport const dynoSampler2DShadow = >(\n value: V,\n key?: string,\n) => new DynoSampler2DShadow({ key, value });\nexport const dynoSampler2DArrayShadow = <\n V extends DynoJsType<\"sampler2DArrayShadow\">,\n>(\n value: V,\n key?: string,\n) => new DynoSampler2DArrayShadow({ key, value });\nexport const dynoSamplerCubeShadow = <\n V extends DynoJsType<\"samplerCubeShadow\">,\n>(\n value: V,\n key?: string,\n) => new DynoSamplerCubeShadow({ key, value });\n\nexport class DynoUniform<\n T extends DynoType,\n K extends string = \"value\",\n V extends DynoJsType = DynoJsType,\n >\n extends Dyno, { [key in K]: T }>\n implements HasDynoOut\n{\n public type: T;\n public count?: number;\n public outKey: K;\n public value: V;\n public uniform: { value: V; type?: string };\n\n constructor({\n key,\n type,\n count,\n value,\n update,\n globals,\n }: {\n key?: K;\n type: T;\n count?: number;\n value: V;\n update?: (value: V) => V | undefined;\n globals?: ({\n inputs,\n outputs,\n }: { inputs: unknown; outputs: { [key in K]?: string } }) => string[];\n }) {\n key = (key ?? \"value\") as K;\n super({\n outTypes: { [key]: type } as { [key in K]: T },\n update: () => {\n if (update) {\n const value = update(this.value);\n if (value !== undefined) {\n this.value = value;\n }\n }\n this.uniform.value = this.value;\n },\n generate: ({ inputs, outputs }) => {\n const allGlobals = globals?.({ inputs, outputs }) ?? [];\n const uniforms: Record = {};\n const name = outputs[key];\n if (name) {\n allGlobals.push(`uniform ${dynoDeclare(name, type, count)};`);\n uniforms[name] = this.uniform;\n }\n return { globals: allGlobals, uniforms };\n },\n });\n this.type = type;\n this.count = count;\n this.value = value;\n this.uniform = { value };\n this.outKey = key;\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class DynoBool extends DynoUniform<\n \"bool\",\n K,\n boolean\n> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: boolean;\n update?: (value: boolean) => boolean | undefined;\n }) {\n super({ key, type: \"bool\", value, update });\n }\n}\n\nexport class DynoUint extends DynoUniform<\"uint\", K, number> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: number;\n update?: (value: number) => number | undefined;\n }) {\n super({ key, type: \"uint\", value, update });\n }\n}\n\nexport class DynoInt extends DynoUniform<\"int\", K, number> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: number;\n update?: (value: number) => number | undefined;\n }) {\n super({ key, type: \"int\", value, update });\n }\n}\n\nexport class DynoFloat extends DynoUniform<\n \"float\",\n K,\n number\n> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: number;\n update?: (value: number) => number | undefined;\n }) {\n super({ key, type: \"float\", value, update });\n }\n}\n\nexport class DynoBvec2<\n K extends string,\n V extends DynoJsType<\"bvec2\">,\n> extends DynoUniform<\"bvec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"bvec2\", value, update });\n }\n}\n\nexport class DynoUvec2<\n K extends string,\n V extends DynoJsType<\"uvec2\">,\n> extends DynoUniform<\"uvec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"uvec2\", value, update });\n }\n}\n\nexport class DynoIvec2<\n K extends string,\n V extends DynoJsType<\"ivec2\">,\n> extends DynoUniform<\"ivec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"ivec2\", value, update });\n }\n}\n\nexport class DynoVec2<\n K extends string,\n V extends DynoJsType<\"vec2\">,\n> extends DynoUniform<\"vec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"vec2\", value, update });\n }\n}\n\nexport class DynoBvec3<\n K extends string,\n V extends DynoJsType<\"bvec3\">,\n> extends DynoUniform<\"bvec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"bvec3\", value, update });\n }\n}\n\nexport class DynoUvec3<\n V extends DynoJsType<\"uvec3\">,\n K extends string = \"value\",\n> extends DynoUniform<\"uvec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"uvec3\", value, update });\n }\n}\n\nexport class DynoIvec3<\n V extends DynoJsType<\"ivec3\">,\n K extends string = \"value\",\n> extends DynoUniform<\"ivec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"ivec3\", value, update });\n }\n}\n\nexport class DynoVec3<\n V extends DynoJsType<\"vec3\">,\n K extends string = \"value\",\n> extends DynoUniform<\"vec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"vec3\", value, update });\n }\n}\n\nexport class DynoBvec4<\n K extends string,\n V extends DynoJsType<\"bvec4\">,\n> extends DynoUniform<\"bvec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"bvec4\", value, update });\n }\n}\n\nexport class DynoUvec4<\n K extends string,\n V extends DynoJsType<\"uvec4\">,\n> extends DynoUniform<\"uvec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"uvec4\", value, update });\n }\n}\n\nexport class DynoIvec4<\n K extends string,\n V extends DynoJsType<\"ivec4\">,\n> extends DynoUniform<\"ivec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"ivec4\", value, update });\n }\n}\n\nexport class DynoVec4<\n V extends DynoJsType<\"vec4\">,\n K extends string = \"value\",\n> extends DynoUniform<\"vec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"vec4\", value, update });\n }\n}\n\nexport class DynoMat2<\n K extends string,\n V extends DynoJsType<\"mat2\">,\n> extends DynoUniform<\"mat2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2\", value, update });\n }\n}\n\nexport class DynoMat2x2<\n K extends string,\n V extends DynoJsType<\"mat2x2\">,\n> extends DynoUniform<\"mat2x2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2x2\", value, update });\n }\n}\n\nexport class DynoMat2x3<\n K extends string,\n V extends DynoJsType<\"mat2x3\">,\n> extends DynoUniform<\"mat2x3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2x3\", value, update });\n }\n}\n\nexport class DynoMat2x4<\n K extends string,\n V extends DynoJsType<\"mat2x4\">,\n> extends DynoUniform<\"mat2x4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2x4\", value, update });\n }\n}\n\nexport class DynoMat3<\n K extends string,\n V extends DynoJsType<\"mat3\">,\n> extends DynoUniform<\"mat3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3\", value, update });\n }\n}\n\nexport class DynoMat3x2<\n K extends string,\n V extends DynoJsType<\"mat3x2\">,\n> extends DynoUniform<\"mat3x2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3x2\", value, update });\n }\n}\n\nexport class DynoMat3x3<\n K extends string,\n V extends DynoJsType<\"mat3x3\">,\n> extends DynoUniform<\"mat3x3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3x3\", value, update });\n }\n}\n\nexport class DynoMat3x4<\n K extends string,\n V extends DynoJsType<\"mat3x4\">,\n> extends DynoUniform<\"mat3x4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3x4\", value, update });\n }\n}\n\nexport class DynoMat4<\n K extends string,\n V extends DynoJsType<\"mat4\">,\n> extends DynoUniform<\"mat4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4\", value, update });\n }\n}\n\nexport class DynoMat4x2<\n K extends string,\n V extends DynoJsType<\"mat4x2\">,\n> extends DynoUniform<\"mat4x2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4x2\", value, update });\n }\n}\n\nexport class DynoMat4x3<\n K extends string,\n V extends DynoJsType<\"mat4x3\">,\n> extends DynoUniform<\"mat4x3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4x3\", value, update });\n }\n}\n\nexport class DynoMat4x4<\n K extends string,\n V extends DynoJsType<\"mat4x4\">,\n> extends DynoUniform<\"mat4x4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4x4\", value, update });\n }\n}\n\nexport class DynoUsampler2D<\n K extends string,\n V extends DynoJsType<\"usampler2D\">,\n> extends DynoUniform<\"usampler2D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usampler2D\", value, update });\n }\n}\n\nexport class DynoIsampler2D<\n K extends string,\n V extends DynoJsType<\"isampler2D\">,\n> extends DynoUniform<\"isampler2D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isampler2D\", value, update });\n }\n}\n\nexport class DynoSampler2D<\n K extends string,\n V extends DynoJsType<\"sampler2D\">,\n> extends DynoUniform<\"sampler2D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2D\", value, update });\n }\n}\n\nexport class DynoUsampler2DArray<\n K extends string,\n V extends DynoJsType<\"usampler2DArray\">,\n> extends DynoUniform<\"usampler2DArray\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usampler2DArray\", value, update });\n }\n}\n\nexport class DynoIsampler2DArray<\n K extends string,\n V extends DynoJsType<\"isampler2DArray\">,\n> extends DynoUniform<\"isampler2DArray\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isampler2DArray\", value, update });\n }\n}\n\nexport class DynoSampler2DArray<\n K extends string,\n V extends DynoJsType<\"sampler2DArray\">,\n> extends DynoUniform<\"sampler2DArray\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2DArray\", value, update });\n }\n}\n\nexport class DynoUsampler3D<\n K extends string,\n V extends DynoJsType<\"usampler3D\">,\n> extends DynoUniform<\"usampler3D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usampler3D\", value, update });\n }\n}\n\nexport class DynoIsampler3D<\n K extends string,\n V extends DynoJsType<\"isampler3D\">,\n> extends DynoUniform<\"isampler3D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isampler3D\", value, update });\n }\n}\n\nexport class DynoSampler3D<\n K extends string,\n V extends DynoJsType<\"sampler3D\">,\n> extends DynoUniform<\"sampler3D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler3D\", value, update });\n }\n}\n\nexport class DynoUsamplerCube<\n K extends string,\n V extends DynoJsType<\"usamplerCube\">,\n> extends DynoUniform<\"usamplerCube\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usamplerCube\", value, update });\n }\n}\n\nexport class DynoIsamplerCube<\n K extends string,\n V extends DynoJsType<\"isamplerCube\">,\n> extends DynoUniform<\"isamplerCube\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isamplerCube\", value, update });\n }\n}\n\nexport class DynoSamplerCube<\n K extends string,\n V extends DynoJsType<\"samplerCube\">,\n> extends DynoUniform<\"samplerCube\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"samplerCube\", value, update });\n }\n}\n\nexport class DynoSampler2DShadow<\n K extends string,\n V extends DynoJsType<\"sampler2DShadow\">,\n> extends DynoUniform<\"sampler2DShadow\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2DShadow\", value, update });\n }\n}\n\nexport class DynoSampler2DArrayShadow<\n K extends string,\n V extends DynoJsType<\"sampler2DArrayShadow\">,\n> extends DynoUniform<\"sampler2DArrayShadow\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2DArrayShadow\", value, update });\n }\n}\n\nexport class DynoSamplerCubeShadow<\n K extends string,\n V extends DynoJsType<\"samplerCubeShadow\">,\n> extends DynoUniform<\"samplerCubeShadow\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"samplerCubeShadow\", value, update });\n }\n}\n","import * as THREE from \"three\";\n\nimport { IDENT_VERTEX_SHADER } from \"../utils\";\nimport { Compilation, type Dyno, type IOTypes } from \"./base\";\n\nexport class DynoProgram {\n graph: Dyno;\n template: DynoProgramTemplate;\n inputs: Record;\n outputs: Record;\n shader: string;\n uniforms: Record;\n updaters: (() => void)[];\n\n constructor({\n graph,\n inputs,\n outputs,\n template,\n consoleLog,\n }: {\n graph: Dyno;\n inputs?: Record;\n outputs?: Record;\n template: DynoProgramTemplate;\n consoleLog?: boolean;\n }) {\n this.graph = graph;\n this.template = template;\n this.inputs = inputs ?? {};\n this.outputs = outputs ?? {};\n\n const compile = new Compilation({ indent: this.template.indent });\n for (const key in this.outputs) {\n if (this.outputs[key]) {\n compile.declares.add(this.outputs[key]);\n }\n }\n const statements = graph.compile({\n inputs: this.inputs,\n outputs: this.outputs,\n compile,\n });\n\n this.shader = template.generate({ globals: compile.globals, statements });\n this.uniforms = compile.uniforms;\n this.updaters = compile.updaters;\n if (consoleLog) {\n console.log(\"*** COMPILED SHADER\", this.shader);\n console.log(\"*** UNIFORMS\", this.uniforms);\n }\n }\n\n prepareMaterial(): THREE.RawShaderMaterial {\n return getMaterial(this);\n }\n\n update() {\n for (const updater of this.updaters) {\n updater();\n }\n }\n}\n\nexport class DynoProgramTemplate {\n before: string;\n between: string;\n after: string;\n indent: string;\n\n constructor(template: string) {\n const globals = template.match(/^([ \\t]*)\\{\\{\\s*GLOBALS\\s*\\}\\}/m);\n const statements = template.match(/^([ \\t]*)\\{\\{\\s*STATEMENTS\\s*\\}\\}/m);\n if (!globals || !statements) {\n throw new Error(\n \"Template must contain {{ GLOBALS }} and {{ STATEMENTS }}\",\n );\n }\n\n this.before = template.substring(0, globals.index);\n this.between = template.substring(\n (globals.index as number) + globals[0].length,\n statements.index,\n );\n this.after = template.substring(\n (statements.index as number) + statements[0].length,\n );\n this.indent = statements[1];\n }\n\n generate({\n globals,\n statements,\n }: { globals: Set; statements: string[] }): string {\n return (\n this.before +\n Array.from(globals).join(\"\\n\\n\") +\n this.between +\n statements.map((s) => this.indent + s).join(\"\\n\") +\n this.after\n );\n }\n}\n\nconst programMaterial = new WeakMap();\n\nfunction getMaterial(program: DynoProgram): THREE.RawShaderMaterial {\n let material = programMaterial.get(program);\n if (material) {\n return material;\n }\n\n material = new THREE.RawShaderMaterial({\n glslVersion: THREE.GLSL3,\n vertexShader: IDENT_VERTEX_SHADER,\n fragmentShader: program.shader,\n uniforms: program.uniforms,\n });\n programMaterial.set(program, material);\n return material;\n}\n","import {\n type AllFloatTypes,\n type AllIntTypes,\n type AllSignedTypes,\n type AllValueTypes,\n type BaseType,\n type BoolTypes,\n type FloatTypes,\n type IntTypes,\n type SignedTypes,\n type UintTypes,\n type ValueTypes,\n isAllFloatType,\n isFloatType,\n isIntType,\n isMat2,\n isMat3,\n isMat4,\n isUintType,\n} from \"./types\";\n\nexport type AddOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = BaseType &\n (A extends B\n ? A\n : A extends \"int\"\n ? B extends IntTypes\n ? B\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : A extends \"uint\"\n ? B extends UintTypes\n ? B\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : A extends \"float\"\n ? B extends AllFloatTypes\n ? B\n : never\n : B extends \"float\"\n ? A extends AllFloatTypes\n ? A\n : never\n : never);\n\nexport type SubOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = AddOutput;\n\nexport type MulOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = BaseType &\n (A extends \"int\"\n ? B extends IntTypes\n ? B\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : A extends \"uint\"\n ? B extends UintTypes\n ? B\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : A extends \"float\"\n ? B extends AllFloatTypes\n ? B\n : never\n : B extends \"float\"\n ? A extends AllFloatTypes\n ? A\n : never\n : A extends IntTypes\n ? B extends A\n ? A\n : never\n : B extends IntTypes\n ? A extends B\n ? A\n : never\n : A extends UintTypes\n ? B extends A\n ? A\n : never\n : B extends UintTypes\n ? A extends B\n ? A\n : never\n : // Vector * Matrix/Vector\n A extends \"vec2\"\n ? B extends \"vec2\" | \"mat2\" | \"mat2x2\"\n ? \"vec2\"\n : B extends \"mat3x2\"\n ? \"vec3\"\n : B extends \"mat4x2\"\n ? \"vec4\"\n : never\n : A extends \"vec3\"\n ? B extends \"mat2x3\"\n ? \"vec2\"\n : B extends \"vec3\" | \"mat3\" | \"mat3x3\"\n ? \"vec3\"\n : B extends \"mat4x3\"\n ? \"vec4\"\n : never\n : A extends \"vec4\"\n ? B extends \"mat2x4\"\n ? \"vec2\"\n : B extends \"mat3x4\"\n ? \"vec3\"\n : B extends \"vec4\" | \"mat4\" | \"mat4x4\"\n ? \"vec4\"\n : never\n : // Matrix * Vector\n B extends \"vec2\"\n ? A extends \"mat2\" | \"mat2x2\"\n ? \"vec2\"\n : A extends \"mat2x3\"\n ? \"vec3\"\n : A extends \"mat2x4\"\n ? \"vec4\"\n : never\n : B extends \"vec3\"\n ? A extends \"mat3x2\"\n ? \"vec2\"\n : A extends \"mat3\" | \"mat3x3\"\n ? \"vec3\"\n : A extends \"mat3x4\"\n ? \"vec4\"\n : never\n : B extends \"vec4\"\n ? A extends \"mat4x2\"\n ? \"vec2\"\n : A extends \"mat4x3\"\n ? \"vec3\"\n : A extends \"mat4\" | \"mat4x4\"\n ? \"vec4\"\n : never\n : // Matrix * Matrix: mat{Acols}x{Arows} * mat{Bcols}x{Brows} => mat{Bcols}x{Arows}\n A extends \"mat2\" | \"mat2x2\" // Acols = 2 => Brows = 2\n ? B extends \"mat2\" | \"mat2x2\"\n ? \"mat2\"\n : B extends \"mat3x2\"\n ? \"mat3x2\"\n : B extends \"mat4x2\"\n ? \"mat4x2\"\n : never\n : A extends \"mat2x3\" // Acols = 2 => Brows = 2\n ? B extends \"mat2\" | \"mat2x2\"\n ? \"mat2x3\"\n : B extends \"mat3x2\"\n ? \"mat3\"\n : B extends \"mat4x2\"\n ? \"mat4x3\"\n : never\n : A extends \"mat2x4\" // Acols = 2 => Brows = 2\n ? B extends \"mat2\" | \"mat2x2\"\n ? \"mat2x4\"\n : B extends \"mat3x2\"\n ? \"mat3x4\"\n : B extends \"mat4x2\"\n ? \"mat4\"\n : never\n : A extends \"mat3x2\" // Acols = 3 => Brows = 3\n ? B extends \"mat2x3\"\n ? \"mat2\"\n : B extends \"mat3\" | \"mat3x3\"\n ? \"mat3x2\"\n : B extends \"mat4x3\"\n ? \"mat4x2\"\n : never\n : A extends \"mat3\" | \"mat3x3\" // Acols = 3 => Brows = 3\n ? B extends \"mat2x3\"\n ? \"mat2x3\"\n : B extends \"mat3\" | \"mat3x3\"\n ? \"mat3\"\n : B extends \"mat4x3\"\n ? \"mat4x3\"\n : never\n : A extends \"mat3x4\" // Acols = 3 => Brows = 3\n ? B extends \"mat2x3\"\n ? \"mat2x4\"\n : B extends \"mat3\" | \"mat3x3\"\n ? \"mat3x4\"\n : B extends \"mat4x3\"\n ? \"mat4\"\n : never\n : A extends \"mat4x2\" // Acols = 4 => Brows = 4\n ? B extends \"mat2x4\"\n ? \"mat2\"\n : B extends \"mat3x4\"\n ? \"mat3x2\"\n : B extends\n | \"mat4\"\n | \"mat4x4\"\n ? \"mat4x2\"\n : never\n : A extends \"mat4x3\" // Acols = 4 => Brows = 4\n ? B extends \"mat2x4\"\n ? \"mat2x3\"\n : B extends \"mat3x4\"\n ? \"mat3\"\n : B extends\n | \"mat4\"\n | \"mat4x4\"\n ? \"mat4x3\"\n : never\n : A extends \"mat4\" | \"mat4x4\" // Acols = 4 => Brows = 4\n ? B extends \"mat2x4\"\n ? \"mat2x4\"\n : B extends \"mat3x4\"\n ? \"mat3x4\"\n : B extends\n | \"mat4\"\n | \"mat4x4\"\n ? \"mat4\"\n : never\n : never);\n\nexport type DivOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = AddOutput;\n\nexport type IModOutput<\n A extends AllIntTypes,\n B extends AllIntTypes,\n> = BaseType &\n (A extends B\n ? A\n : A extends \"int\"\n ? B extends IntTypes\n ? B\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : A extends \"uint\"\n ? B extends UintTypes\n ? B\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : never);\n\nexport type ModOutput = BaseType &\n (A extends B ? A : B extends \"float\" ? A : never);\n\nexport type PowOutput = BaseType &\n (A extends B ? A : never);\n\nexport type MinOutput = BaseType &\n (A extends B\n ? A\n : B extends \"float\"\n ? A extends FloatTypes\n ? A\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : never);\nexport type MaxOutput = MinOutput<\n A,\n B\n>;\nexport type ClampOutput = BaseType &\n (B extends \"float\"\n ? A extends FloatTypes\n ? A\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : never);\nexport type MixOutput<\n A extends FloatTypes,\n T extends FloatTypes | BoolTypes,\n> = BaseType &\n (T extends A\n ? A\n : T extends \"float\"\n ? A\n : T extends \"bool\"\n ? A extends \"float\"\n ? A\n : never\n : T extends \"bvec2\"\n ? A extends \"vec2\"\n ? A\n : never\n : T extends \"bvec3\"\n ? A extends \"vec3\"\n ? A\n : never\n : T extends \"bvec4\"\n ? A extends \"vec4\"\n ? A\n : never\n : never);\nexport type StepOutput = BaseType &\n (A extends B ? B : A extends \"float\" ? B : never);\nexport type SmoothstepOutput<\n A extends FloatTypes,\n B extends FloatTypes,\n C extends FloatTypes,\n> = BaseType &\n (A extends B ? (A extends C ? C : A extends \"float\" ? C : never) : never);\n\nexport type IsNanOutput = BaseType &\n (A extends \"float\"\n ? \"bool\"\n : A extends \"vec2\"\n ? \"bvec2\"\n : A extends \"vec3\"\n ? \"bvec3\"\n : A extends \"vec4\"\n ? \"bvec4\"\n : never);\nexport type IsInfOutput = IsNanOutput;\n\n// // Run-time type helper functions\n\nexport function addOutputType(\n a: A,\n b: B,\n operation = \"add\",\n): AddOutput {\n const error = () => {\n throw new Error(`Invalid ${operation} types: ${a}, ${b}`);\n };\n // @ts-ignore\n if (a === b) return a as AddOutput;\n if (a === \"int\") {\n if (isIntType(b)) return b as AddOutput;\n error();\n }\n if (b === \"int\") {\n if (isIntType(a)) return a as AddOutput;\n error();\n }\n if (a === \"uint\") {\n if (isUintType(b)) return b as AddOutput;\n error();\n }\n if (b === \"uint\") {\n if (isUintType(a)) return a as AddOutput;\n error();\n }\n if (a === \"float\") {\n if (isAllFloatType(b)) return b as AddOutput;\n error();\n }\n if (b === \"float\") {\n if (isAllFloatType(a)) return a as AddOutput;\n error();\n }\n throw new Error(`Invalid ${operation} types: ${a}, ${b}`);\n}\n\nexport function subOutputType(\n a: A,\n b: B,\n): SubOutput {\n return addOutputType(a, b, \"sub\");\n}\n\nexport function mulOutputType(\n a: A,\n b: B,\n): MulOutput {\n const error = () => {\n throw new Error(`Invalid mul types: ${a}, ${b}`);\n };\n const result = (value: unknown) => value as MulOutput;\n if (a === \"int\") {\n if (isIntType(b)) return result(b);\n error();\n }\n if (b === \"int\") {\n if (isIntType(a)) return result(a);\n error();\n }\n if (a === \"uint\") {\n if (isUintType(b)) return result(b);\n error();\n }\n if (b === \"uint\") {\n if (isUintType(a)) return result(a);\n error();\n }\n if (a === \"float\") {\n if (isAllFloatType(b)) return result(b);\n error();\n }\n if (b === \"float\") {\n if (isAllFloatType(a)) return result(a);\n error();\n }\n if (isIntType(a) || isUintType(a) || isIntType(b) || isUintType(b)) {\n // @ts-ignore\n if (a === b) return result(a);\n error();\n }\n // Vector * Matrix/Vector\n if (a === \"vec2\") {\n if (b === \"vec2\" || isMat2(b)) return result(\"vec2\");\n if (b === \"mat3x2\") return result(\"vec3\");\n if (b === \"mat4x2\") return result(\"vec4\");\n error();\n }\n if (a === \"vec3\") {\n if (b === \"mat2x3\") return result(\"vec2\");\n if (b === \"vec3\" || isMat3(b)) return result(\"vec3\");\n if (b === \"mat4x3\") return result(\"vec4\");\n error();\n }\n if (a === \"vec4\") {\n if (b === \"mat2x4\") return result(\"vec2\");\n if (b === \"mat3x4\") return result(\"vec3\");\n if (b === \"vec4\" || isMat4(b)) return result(\"vec4\");\n error();\n }\n // Matrix * Vector\n if (b === \"vec2\") {\n if (isMat2(a)) return result(\"vec2\");\n if (a === \"mat2x3\") return result(\"vec3\");\n if (a === \"mat2x4\") return result(\"vec4\");\n error();\n }\n if (b === \"vec3\") {\n if (a === \"mat3x2\") return result(\"vec2\");\n if (isMat3(a)) return result(\"vec3\");\n if (a === \"mat3x4\") return result(\"vec4\");\n error();\n }\n if (b === \"vec4\") {\n if (a === \"mat4x2\") return result(\"vec2\");\n if (a === \"mat4x3\") return result(\"vec3\");\n if (isMat4(a)) return result(\"vec4\");\n error();\n }\n // Matrix * Matrix: mat{Acols}x{Arows} * mat{Bcols}x{Brows} => mat{Bcols}x{Arows}\n if (isMat2(a)) {\n if (isMat2(b)) return result(\"mat2\");\n if (b === \"mat3x2\") return result(\"mat3x2\");\n if (b === \"mat4x2\") return result(\"mat4x2\");\n error();\n }\n if (a === \"mat2x3\") {\n if (isMat2(b)) return result(\"mat2x3\");\n if (b === \"mat3x2\") return result(\"mat3\");\n if (b === \"mat4x2\") return result(\"mat4x3\");\n error();\n }\n if (a === \"mat2x4\") {\n if (isMat2(b)) return result(\"mat2x4\");\n if (b === \"mat3x2\") return result(\"mat3x4\");\n if (b === \"mat4x2\") return result(\"mat4\");\n error();\n }\n if (a === \"mat3x2\") {\n if (b === \"mat2x3\") return result(\"mat2\");\n if (isMat3(b)) return result(\"mat3x2\");\n if (b === \"mat4x3\") return result(\"mat4x2\");\n error();\n }\n if (isMat3(a)) {\n if (b === \"mat2x3\") return result(\"mat2x3\");\n if (isMat3(b)) return result(\"mat3\");\n if (b === \"mat4x3\") return result(\"mat4x3\");\n error();\n }\n if (a === \"mat3x4\") {\n if (b === \"mat2x3\") return result(\"mat2x4\");\n if (isMat3(b)) return result(\"mat3x4\");\n if (b === \"mat4x3\") return result(\"mat4\");\n error();\n }\n if (a === \"mat4x2\") {\n if (b === \"mat2x4\") return result(\"mat2\");\n if (b === \"mat3x4\") return result(\"mat3x2\");\n if (isMat4(b)) return result(\"mat4x2\");\n error();\n }\n if (a === \"mat4x3\") {\n if (b === \"mat2x4\") return result(\"mat2x3\");\n if (b === \"mat3x4\") return result(\"mat3\");\n if (isMat4(b)) return result(\"mat4x3\");\n error();\n }\n if (isMat4(a)) {\n if (b === \"mat2x4\") return result(\"mat2x4\");\n if (b === \"mat3x4\") return result(\"mat3x4\");\n if (isMat4(b)) return result(\"mat4\");\n error();\n }\n throw new Error(`Invalid mul types: ${a}, ${b}`);\n}\n\nexport function divOutputType(\n a: A,\n b: B,\n): DivOutput {\n return addOutputType(a, b, \"div\");\n}\n\nexport function imodOutputType(\n a: A,\n b: B,\n): IModOutput {\n // @ts-ignore\n if (a === b) return a as IModOutput;\n if (a === \"int\") {\n if (isIntType(b)) return b as IModOutput;\n } else if (b === \"int\") {\n if (isIntType(a)) return a as IModOutput;\n } else if (a === \"uint\") {\n if (isUintType(b)) return b as IModOutput;\n } else if (b === \"uint\") {\n if (isUintType(a)) return a as IModOutput;\n }\n throw new Error(`Invalid imod types: ${a}, ${b}`);\n}\n\nexport function modOutputType(\n a: A,\n b: B,\n): ModOutput {\n // @ts-ignore\n if (a === b || b === \"float\") return a as ModOutput;\n throw new Error(`Invalid mod types: ${a}, ${b}`);\n}\n\nexport function modfOutputType(a: A): A {\n return a;\n}\n\nexport function negOutputType(a: A): A {\n return a;\n}\n\nexport function absOutputType(a: A): A {\n return a;\n}\n\nexport function signOutputType(a: A): A {\n return a;\n}\n\nexport function floorOutputType(a: A): A {\n return a;\n}\n\nexport function ceilOutputType(a: A): A {\n return a;\n}\n\nexport function truncOutputType(a: A): A {\n return a;\n}\n\nexport function roundOutputType(a: A): A {\n return a;\n}\n\nexport function fractOutputType(a: A): A {\n return a;\n}\n\nexport function powOutputType(a: A): A {\n return a;\n}\n\nexport function expOutputType(a: A): A {\n return a;\n}\n\nexport function exp2OutputType(a: A): A {\n return a;\n}\n\nexport function logOutputType(a: A): A {\n return a;\n}\n\nexport function log2OutputType(a: A): A {\n return a;\n}\n\nexport function sqrOutputType(a: A): A {\n return a;\n}\n\nexport function sqrtOutputType(a: A): A {\n return a;\n}\n\nexport function inversesqrtOutputType(a: A): A {\n return a;\n}\n\nexport function minOutputType(\n a: A,\n b: B,\n operation = \"min\",\n): MinOutput {\n // @ts-ignore\n if (a === b) return a as MinOutput;\n if (b === \"float\") {\n if (isFloatType(a)) return a as MinOutput;\n } else if (b === \"int\") {\n if (isIntType(a)) return a as MinOutput;\n } else if (b === \"uint\") {\n if (isUintType(a)) return a as MinOutput;\n }\n throw new Error(`Invalid ${operation} types: ${a}, ${b}`);\n}\n\nexport function maxOutputType(\n a: A,\n b: B,\n): MaxOutput {\n return minOutputType(a, b, \"max\");\n}\n\nexport function clampOutputType(\n a: A,\n b: B,\n _c: B,\n): ClampOutput {\n if (b === \"float\") {\n if (isFloatType(a)) return a as ClampOutput;\n } else if (b === \"int\") {\n if (isIntType(a)) return a as ClampOutput;\n } else if (b === \"uint\") {\n if (isUintType(a)) return a as ClampOutput;\n }\n throw new Error(`Invalid clamp types: ${a}, ${b}`);\n}\n\nexport function mixOutputType<\n A extends FloatTypes,\n C extends FloatTypes | BoolTypes,\n>(a: A, b: A, c: C): MixOutput {\n // @ts-ignore\n if (c === a) return a as MixOutput;\n if (c === \"float\") return a as MixOutput;\n if (c === \"bool\" && a === \"float\") return a as MixOutput;\n if (c === \"bvec2\" && a === \"vec2\") return a as MixOutput;\n if (c === \"bvec3\" && a === \"vec3\") return a as MixOutput;\n if (c === \"bvec4\" && a === \"vec4\") return a as MixOutput;\n throw new Error(`Invalid mix types: ${a}, ${b}, ${c}`);\n}\n\nexport function stepOutputType(\n a: A,\n b: B,\n): StepOutput {\n // @ts-ignore\n if (a === b || b === \"float\") return b as StepOutput;\n throw new Error(`Invalid step types: ${a}, ${b}`);\n}\n\nexport function smoothstepOutputType<\n A extends FloatTypes,\n B extends FloatTypes,\n C extends FloatTypes,\n>(a: A, b: B, c: C): SmoothstepOutput {\n // @ts-ignore\n if (a === b) {\n if (a === c || a === \"float\") return c as SmoothstepOutput;\n }\n throw new Error(`Invalid smoothstep types: ${a}, ${b}, ${c}`);\n}\n\nexport function isNanOutputType(\n a: A,\n operation = \"isNan\",\n): IsNanOutput {\n if (a === \"float\") return \"bool\" as IsNanOutput;\n if (a === \"vec2\") return \"bvec2\" as IsNanOutput;\n if (a === \"vec3\") return \"bvec3\" as IsNanOutput;\n if (a === \"vec4\") return \"bvec4\" as IsNanOutput;\n throw new Error(`Invalid ${operation} types: ${a}`);\n}\n\nexport function isInfOutputType(a: A): IsInfOutput {\n return isNanOutputType(a, \"isInf\");\n}\n","import { BinaryOp, Dyno, TrinaryOp, UnaryOp } from \"./base\";\nimport {\n type AddOutput,\n type ClampOutput,\n type DivOutput,\n type IModOutput,\n type IsInfOutput,\n type IsNanOutput,\n type MaxOutput,\n type MinOutput,\n type MixOutput,\n type ModOutput,\n type MulOutput,\n type SmoothstepOutput,\n type StepOutput,\n type SubOutput,\n absOutputType,\n addOutputType,\n ceilOutputType,\n clampOutputType,\n divOutputType,\n exp2OutputType,\n expOutputType,\n floorOutputType,\n fractOutputType,\n imodOutputType,\n inversesqrtOutputType,\n isInfOutputType,\n isNanOutputType,\n log2OutputType,\n logOutputType,\n maxOutputType,\n minOutputType,\n mixOutputType,\n modOutputType,\n modfOutputType,\n mulOutputType,\n negOutputType,\n powOutputType,\n roundOutputType,\n signOutputType,\n smoothstepOutputType,\n sqrOutputType,\n sqrtOutputType,\n stepOutputType,\n subOutputType,\n truncOutputType,\n} from \"./mathTypes\";\nimport type {\n AllIntTypes,\n AllSignedTypes,\n AllValueTypes,\n BoolTypes,\n FloatTypes,\n SignedTypes,\n ValueTypes,\n} from \"./types\";\nimport { type DynoVal, valType } from \"./value\";\n\nexport const add = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Add({ a, b });\nexport const sub = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Sub({ a, b });\nexport const mul = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Mul({ a, b });\nexport const div = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Div({ a, b });\nexport const imod = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new IMod({ a, b });\nexport const mod = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Mod({ a, b });\nexport const modf = (a: DynoVal) =>\n new Modf({ a }).outputs;\n\nexport const neg = (a: DynoVal): DynoVal =>\n new Neg({ a });\nexport const abs = (a: DynoVal): DynoVal =>\n new Abs({ a });\nexport const sign = (a: DynoVal): DynoVal =>\n new Sign({ a });\nexport const floor = (a: DynoVal): DynoVal =>\n new Floor({ a });\nexport const ceil = (a: DynoVal): DynoVal =>\n new Ceil({ a });\nexport const trunc = (a: DynoVal): DynoVal =>\n new Trunc({ a });\nexport const round = (a: DynoVal): DynoVal =>\n new Round({ a });\nexport const fract = (a: DynoVal): DynoVal =>\n new Fract({ a });\n\nexport const pow = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Pow({ a, b });\nexport const exp = (a: DynoVal): DynoVal =>\n new Exp({ a });\nexport const exp2 = (a: DynoVal): DynoVal =>\n new Exp2({ a });\nexport const log = (a: DynoVal): DynoVal =>\n new Log({ a });\nexport const log2 = (a: DynoVal): DynoVal =>\n new Log2({ a });\nexport const sqr = (a: DynoVal): DynoVal =>\n new Sqr({ a });\nexport const sqrt = (a: DynoVal): DynoVal =>\n new Sqrt({ a });\nexport const inversesqrt = (a: DynoVal): DynoVal =>\n new InverseSqrt({ a });\n\nexport const min = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Min({ a, b });\nexport const max = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Max({ a, b });\nexport const clamp = (\n a: DynoVal,\n min: DynoVal,\n max: DynoVal,\n): DynoVal> => new Clamp({ a, min, max });\nexport const mix = (\n a: DynoVal,\n b: DynoVal,\n t: DynoVal,\n): DynoVal> => new Mix({ a, b, t });\nexport const step = (\n edge: DynoVal,\n x: DynoVal,\n): DynoVal> => new Step({ edge, x });\nexport const smoothstep = (\n edge0: DynoVal,\n edge1: DynoVal,\n x: DynoVal,\n): DynoVal> =>\n new Smoothstep({ edge0, edge1, x });\n\nexport const isNan = (\n a: DynoVal,\n): DynoVal> => new IsNan({ a });\nexport const isInf = (\n a: DynoVal,\n): DynoVal> => new IsInf({ a });\n\nexport class Add<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"sum\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"sum\", outTypeFunc: addOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sum} = ${inputs.a} + ${inputs.b};`];\n };\n }\n}\n\nexport class Sub<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"difference\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"difference\", outTypeFunc: subOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.difference} = ${inputs.a} - ${inputs.b};`];\n };\n }\n}\n\nexport class Mul<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"product\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"product\", outTypeFunc: mulOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.product} = ${inputs.a} * ${inputs.b};`];\n };\n }\n}\n\nexport class Div<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"quotient\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"quotient\", outTypeFunc: divOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.quotient} = ${inputs.a} / ${inputs.b};`];\n };\n }\n}\n\nexport class IMod<\n A extends AllIntTypes,\n B extends AllIntTypes,\n> extends BinaryOp, \"remainder\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"remainder\", outTypeFunc: imodOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.remainder} = ${inputs.a} % ${inputs.b};`];\n };\n }\n}\n\nexport class Mod extends BinaryOp<\n A,\n B,\n ModOutput,\n \"remainder\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"remainder\", outTypeFunc: modOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.remainder} = mod(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Modf extends Dyno<\n { a: A },\n { fract: A; integer: A }\n> {\n constructor({ a }: { a: DynoVal }) {\n const inTypes = { a: valType(a) };\n const outType = modfOutputType(inTypes.a);\n const outTypes = {\n fract: outType,\n integer: outType,\n };\n super({ inTypes, outTypes, inputs: { a } });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.fract} = modf(${inputs.a}, ${outputs.integer});`];\n };\n }\n}\n\nexport class Neg extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"neg\", outTypeFunc: negOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.neg} = -${inputs.a};`];\n };\n }\n}\n\nexport class Abs extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"abs\", outTypeFunc: absOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.abs} = abs(${inputs.a});`];\n };\n }\n}\n\nexport class Sign extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"sign\", outTypeFunc: signOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sign} = sign(${inputs.a});`];\n };\n }\n}\n\nexport class Floor extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"floor\", outTypeFunc: floorOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.floor} = floor(${inputs.a});`];\n };\n }\n}\n\nexport class Ceil extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"ceil\", outTypeFunc: ceilOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.ceil} = ceil(${inputs.a});`];\n };\n }\n}\n\nexport class Trunc extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"trunc\", outTypeFunc: truncOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.trunc} = trunc(${inputs.a});`];\n };\n }\n}\n\nexport class Round extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"round\", outTypeFunc: roundOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.round} = round(${inputs.a});`];\n };\n }\n}\n\nexport class Fract extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"fract\", outTypeFunc: fractOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.fract} = fract(${inputs.a});`];\n };\n }\n}\n\nexport class Pow extends BinaryOp {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"power\", outTypeFunc: powOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.power} = pow(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Exp extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"exp\", outTypeFunc: expOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.exp} = exp(${inputs.a});`];\n };\n }\n}\n\nexport class Exp2 extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"exp2\", outTypeFunc: exp2OutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.exp2} = exp2(${inputs.a});`];\n };\n }\n}\n\nexport class Log extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"log\", outTypeFunc: logOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.log} = log(${inputs.a});`];\n };\n }\n}\n\nexport class Log2 extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"log2\", outTypeFunc: log2OutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.log2} = log2(${inputs.a});`];\n };\n }\n}\n\nexport class Sqr extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"sqr\", outTypeFunc: sqrOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sqr} = ${inputs.a} * ${inputs.a};`];\n };\n }\n}\n\nexport class Sqrt extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"sqrt\", outTypeFunc: sqrtOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sqrt} = sqrt(${inputs.a});`];\n };\n }\n}\n\nexport class InverseSqrt extends UnaryOp<\n A,\n A,\n \"inversesqrt\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"inversesqrt\", outTypeFunc: inversesqrtOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.inversesqrt} = inversesqrt(${inputs.a});`];\n };\n }\n}\n\nexport class Min extends BinaryOp<\n A,\n B,\n MinOutput,\n \"min\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"min\", outTypeFunc: minOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.min} = min(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Max extends BinaryOp<\n A,\n B,\n MaxOutput,\n \"max\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"max\", outTypeFunc: maxOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.max} = max(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Clamp<\n A extends ValueTypes,\n MinMax extends ValueTypes,\n> extends TrinaryOp, \"clamp\"> {\n constructor({\n a,\n min,\n max,\n }: { a: DynoVal; min: DynoVal; max: DynoVal }) {\n super({\n a,\n b: min,\n c: max,\n outKey: \"clamp\",\n outTypeFunc: clampOutputType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a, b: min, c: max } = inputs;\n return [`${outputs.clamp} = clamp(${a}, ${min}, ${max});`];\n };\n }\n}\n\nexport class Mix<\n A extends FloatTypes,\n T extends FloatTypes | BoolTypes,\n> extends TrinaryOp, \"mix\"> {\n constructor({ a, b, t }: { a: DynoVal; b: DynoVal; t: DynoVal }) {\n super({ a, b, c: t, outKey: \"mix\", outTypeFunc: mixOutputType });\n this.statements = ({ inputs, outputs }) => {\n const { a, b, c: t } = inputs;\n return [`${outputs.mix} = mix(${a}, ${b}, ${t});`];\n };\n }\n}\n\nexport class Step<\n Edge extends FloatTypes,\n X extends FloatTypes,\n> extends BinaryOp, \"step\"> {\n constructor({ edge, x }: { edge: DynoVal; x: DynoVal }) {\n super({\n a: edge,\n b: x,\n outKey: \"step\",\n outTypeFunc: stepOutputType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a: edge, b: x } = inputs;\n return [`${outputs.step} = step(${edge}, ${x});`];\n };\n }\n}\n\nexport class Smoothstep<\n X extends FloatTypes,\n Edge extends X | \"float\",\n> extends TrinaryOp<\n Edge,\n Edge,\n X,\n SmoothstepOutput,\n \"smoothstep\"\n> {\n constructor({\n edge0,\n edge1,\n x,\n }: { edge0: DynoVal; edge1: DynoVal; x: DynoVal }) {\n super({\n a: edge0,\n b: edge1,\n c: x,\n outKey: \"smoothstep\",\n outTypeFunc: smoothstepOutputType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a: edge0, b: edge1, c: x } = inputs;\n return [`${outputs.smoothstep} = smoothstep(${edge0}, ${edge1}, ${x});`];\n };\n }\n}\n\nexport class IsNan extends UnaryOp<\n A,\n IsNanOutput,\n \"isNan\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"isNan\", outTypeFunc: isNanOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.isNan} = isNan(${inputs.a});`];\n };\n }\n}\n\nexport class IsInf extends UnaryOp<\n A,\n IsInfOutput,\n \"isInf\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"isInf\", outTypeFunc: isInfOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.isInf} = isInf(${inputs.a});`];\n };\n }\n}\n","import { BinaryOp, TrinaryOp, UnaryOp } from \"./base\";\nimport {\n type AllIntTypes,\n type BoolTypes,\n type IntTypes,\n type ScalarTypes,\n type SimpleTypes,\n type UintTypes,\n type ValueTypes,\n isBoolType,\n isIntType,\n isScalarType,\n isUintType,\n isVector2Type,\n isVector3Type,\n} from \"./types\";\nimport { type DynoVal, valType } from \"./value\";\n\nexport const and = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new And({ a, b });\nexport const or = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Or({ a, b });\nexport const xor = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Xor({ a, b });\nexport const not = (\n a: DynoVal,\n): DynoVal => new Not({ a });\n\nexport const shr = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Shr({ a, b });\n\nexport const shl = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Shl({ a, b });\n\nexport const lessThan = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new LessThan({ a, b });\nexport const lessThanEqual = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new LessThanEqual({ a, b });\nexport const greaterThan = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new GreaterThan({ a, b });\nexport const greaterThanEqual = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new GreaterThanEqual({ a, b });\nexport const equal = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Equal({ a, b });\nexport const notEqual = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new NotEqual({ a, b });\n\nexport const any = (\n a: DynoVal,\n): DynoVal<\"bool\"> => new Any({ a });\nexport const all = (\n a: DynoVal,\n): DynoVal<\"bool\"> => new All({ a });\nexport const select = (\n cond: DynoVal<\"bool\">,\n t: DynoVal,\n f: DynoVal,\n): DynoVal => new Select({ cond, t, f });\n\nexport const compXor = (\n a: DynoVal,\n): DynoVal> => new CompXor({ a });\n\nexport class And extends BinaryOp<\n T,\n T,\n T,\n \"and\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"and\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.and === \"bool\") {\n return [`${outputs.and} = ${inputs.a} && ${inputs.b};`];\n }\n return [`${outputs.and} = ${inputs.a} & ${inputs.b};`];\n };\n }\n}\n\nexport class Or extends BinaryOp<\n T,\n T,\n T,\n \"or\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"or\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.or === \"bool\") {\n return [`${outputs.or} = ${inputs.a} || ${inputs.b};`];\n }\n return [`${outputs.or} = ${inputs.a} | ${inputs.b};`];\n };\n }\n}\n\nexport class Xor extends BinaryOp<\n T,\n T,\n T,\n \"xor\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"xor\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.xor === \"bool\") {\n return [`${outputs.xor} = ${inputs.a} ^^ ${inputs.b};`];\n }\n return [`${outputs.xor} = ${inputs.a} ^ ${inputs.b};`];\n };\n }\n}\n\nexport class Not extends UnaryOp<\n T,\n T,\n \"not\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType: T) => aType, outKey: \"not\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.not === \"bool\") {\n return [`${outputs.not} = !${inputs.a};`];\n }\n return [`${outputs.not} = not(${inputs.a});`];\n };\n }\n}\n\nexport class LessThan extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"lessThan\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) => compareOutputType(aType, \"lessThan\"),\n outKey: \"lessThan\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.lessThan === \"bool\") {\n return [`${outputs.lessThan} = ${inputs.a} < ${inputs.b};`];\n }\n return [`${outputs.lessThan} = lessThan(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class LessThanEqual extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"lessThanEqual\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) =>\n compareOutputType(aType, \"lessThanEqual\"),\n outKey: \"lessThanEqual\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.lessThanEqual === \"bool\") {\n return [`${outputs.lessThanEqual} = ${inputs.a} <= ${inputs.b};`];\n }\n return [\n `${outputs.lessThanEqual} = lessThanEqual(${inputs.a}, ${inputs.b});`,\n ];\n };\n }\n}\n\nexport class GreaterThan extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"greaterThan\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) =>\n compareOutputType(aType, \"greaterThan\"),\n outKey: \"greaterThan\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.greaterThan === \"bool\") {\n return [`${outputs.greaterThan} = ${inputs.a} > ${inputs.b};`];\n }\n return [\n `${outputs.greaterThan} = greaterThan(${inputs.a}, ${inputs.b});`,\n ];\n };\n }\n}\n\nexport class GreaterThanEqual extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"greaterThanEqual\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) =>\n compareOutputType(aType, \"greaterThanEqual\"),\n outKey: \"greaterThanEqual\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.greaterThanEqual === \"bool\") {\n return [`${outputs.greaterThanEqual} = ${inputs.a} >= ${inputs.b};`];\n }\n return [\n `${outputs.greaterThanEqual} = greaterThanEqual(${inputs.a}, ${inputs.b});`,\n ];\n };\n }\n}\n\nexport class Equal extends BinaryOp<\n T,\n T,\n EqualOutput,\n \"equal\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: equalOutputType, outKey: \"equal\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.equal === \"bool\") {\n return [`${outputs.equal} = ${inputs.a} == ${inputs.b};`];\n }\n return [`${outputs.equal} = equal(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class NotEqual extends BinaryOp<\n T,\n T,\n NotEqualOutput,\n \"notEqual\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: notEqualOutputType, outKey: \"notEqual\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.notEqual === \"bool\") {\n return [`${outputs.notEqual} = ${inputs.a} != ${inputs.b};`];\n }\n return [`${outputs.notEqual} = notEqual(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Any extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType: T) => \"bool\", outKey: \"any\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.any} = any(${inputs.a});`];\n };\n }\n}\n\nexport class All extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType: T) => \"bool\", outKey: \"all\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.all} = all(${inputs.a});`];\n };\n }\n}\n\nexport class Select extends TrinaryOp<\n \"bool\",\n T,\n T,\n T,\n \"select\"\n> {\n constructor({\n cond,\n t,\n f,\n }: { cond: DynoVal<\"bool\">; t: DynoVal; f: DynoVal }) {\n super({\n a: cond,\n b: t,\n c: f,\n outKey: \"select\",\n outTypeFunc: (aType: \"bool\", bType: T, cType: T) => bType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a: cond, b: t, c: f } = inputs;\n return [`${outputs.select} = (${cond}) ? (${t}) : (${f});`];\n };\n }\n}\n\ntype CompareOutput = T extends ScalarTypes\n ? \"bool\"\n : T extends \"ivec2\" | \"uvec2\" | \"vec2\"\n ? \"bvec2\"\n : T extends \"ivec3\" | \"uvec3\" | \"vec3\"\n ? \"bvec3\"\n : T extends \"ivec4\" | \"uvec4\" | \"vec4\"\n ? \"bvec4\"\n : never;\n\nfunction compareOutputType(\n type: T,\n operator: string,\n): CompareOutput {\n if (isScalarType(type)) {\n return \"bool\" as CompareOutput;\n }\n if (type === \"ivec2\" || type === \"uvec2\" || type === \"vec2\") {\n return \"bvec2\" as CompareOutput;\n }\n if (type === \"ivec3\" || type === \"uvec3\" || type === \"vec3\") {\n return \"bvec3\" as CompareOutput;\n }\n if (type === \"ivec4\" || type === \"uvec4\" || type === \"vec4\") {\n return \"bvec4\" as CompareOutput;\n }\n throw new Error(`Invalid ${operator} type: ${type}`);\n}\n\ntype EqualOutput = A extends ScalarTypes\n ? \"bool\"\n : A extends BoolTypes\n ? A\n : A extends \"ivec2\" | \"uvec2\" | \"vec2\"\n ? \"bvec2\"\n : A extends \"ivec3\" | \"uvec3\" | \"vec3\"\n ? \"bvec3\"\n : A extends \"ivec4\" | \"uvec4\" | \"vec4\"\n ? \"bvec4\"\n : never;\n\nfunction equalOutputType(\n type: A,\n operator = \"equal\",\n): EqualOutput {\n if (isScalarType(type)) {\n return \"bool\" as EqualOutput;\n }\n if (isBoolType(type)) {\n return type as EqualOutput;\n }\n if (type === \"ivec2\" || type === \"uvec2\" || type === \"vec2\") {\n return \"bvec2\" as EqualOutput;\n }\n if (type === \"ivec3\" || type === \"uvec3\" || type === \"vec3\") {\n return \"bvec3\" as EqualOutput;\n }\n if (type === \"ivec4\" || type === \"uvec4\" || type === \"vec4\") {\n return \"bvec4\" as EqualOutput;\n }\n throw new Error(`Invalid ${operator} type: ${type}`);\n}\n\ntype NotEqualOutput = EqualOutput;\n\nfunction notEqualOutputType(\n type: A,\n): NotEqualOutput {\n return equalOutputType(type, \"notEqual\");\n}\n\ntype CompXorOutput = A extends BoolTypes\n ? \"bool\"\n : A extends IntTypes\n ? \"int\"\n : A extends UintTypes\n ? \"uint\"\n : never;\n\nfunction compXorOutputType(\n type: A,\n): CompXorOutput {\n if (isBoolType(type)) {\n return \"bool\" as CompXorOutput;\n }\n if (isIntType(type)) {\n return \"int\" as CompXorOutput;\n }\n if (isUintType(type)) {\n return \"uint\" as CompXorOutput;\n }\n throw new Error(`Invalid compXor type: ${type}`);\n}\n\nexport class CompXor extends UnaryOp<\n T,\n CompXorOutput,\n \"compXor\"\n> {\n constructor({ a }: { a: DynoVal }) {\n const outType = compXorOutputType(valType(a));\n super({ a, outTypeFunc: (aType: T) => outType, outKey: \"compXor\" });\n this.statements = ({ inputs, outputs }) => {\n if (isScalarType(this.outTypes.compXor)) {\n return [`${outputs.compXor} = ${inputs.a};`];\n }\n const components = isVector2Type(outType)\n ? [\"x\", \"y\"]\n : isVector3Type(outType)\n ? [\"x\", \"y\", \"z\"]\n : [\"x\", \"y\", \"z\", \"w\"];\n const operands = components.map((c) => `${inputs.a}.${c}`);\n const operator = isBoolType(outType) ? \"^^\" : \"^\";\n return [`${outputs.compXor} = ${operands.join(` ${operator} `)};`];\n };\n }\n}\n\nexport class Shr extends BinaryOp {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"shr\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.shr} = ${inputs.a} >> ${inputs.b};`];\n };\n }\n}\n\nexport class Shl extends BinaryOp {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"shl\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.shl} = ${inputs.a} << ${inputs.b};`];\n };\n }\n}\n","import { UnaryOp } from \"./base\";\nimport { type SimpleTypes, typeLiteral } from \"./types\";\nimport type { DynoVal } from \"./value\";\n\nexport const bool = (\n value: DynoVal,\n): DynoVal<\"bool\"> => new Bool({ value });\nexport const int = (\n value: DynoVal,\n): DynoVal<\"int\"> => new Int({ value });\nexport const uint = (\n value: DynoVal,\n): DynoVal<\"uint\"> => new Uint({ value });\nexport const float = (\n value: DynoVal,\n): DynoVal<\"float\"> => new Float({ value });\n\nexport const bvec2 = (\n value: DynoVal,\n): DynoVal<\"bvec2\"> => new BVec2({ value });\nexport const bvec3 = (\n value: DynoVal,\n): DynoVal<\"bvec3\"> => new BVec3({ value });\nexport const bvec4 = (\n value: DynoVal,\n): DynoVal<\"bvec4\"> => new BVec4({ value });\n\nexport const ivec2 = (\n value: DynoVal,\n): DynoVal<\"ivec2\"> => new IVec2({ value });\nexport const ivec3 = (\n value: DynoVal,\n): DynoVal<\"ivec3\"> => new IVec3({ value });\nexport const ivec4 = (\n value: DynoVal,\n): DynoVal<\"ivec4\"> => new IVec4({ value });\n\nexport const uvec2 = (\n value: DynoVal,\n): DynoVal<\"uvec2\"> => new UVec2({ value });\nexport const uvec3 = (\n value: DynoVal,\n): DynoVal<\"uvec3\"> => new UVec3({ value });\nexport const uvec4 = (\n value: DynoVal,\n): DynoVal<\"uvec4\"> => new UVec4({ value });\n\nexport const vec2 = <\n T extends \"float\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\" | \"vec3\" | \"vec4\",\n>(\n value: DynoVal,\n): DynoVal<\"vec2\"> => new Vec2({ value });\nexport const vec3 = <\n T extends \"float\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\" | \"vec4\",\n>(\n value: DynoVal,\n): DynoVal<\"vec3\"> => new Vec3({ value });\nexport const vec4 = (\n value: DynoVal,\n): DynoVal<\"vec4\"> => new Vec4({ value });\n\nexport const mat2 = (\n value: DynoVal,\n): DynoVal<\"mat2\"> => new Mat2({ value });\nexport const mat3 = (\n value: DynoVal,\n): DynoVal<\"mat3\"> => new Mat3({ value });\nexport const mat4 = (\n value: DynoVal,\n): DynoVal<\"mat4\"> => new Mat4({ value });\n\nexport const floatBitsToInt = (value: DynoVal<\"float\">): DynoVal<\"int\"> =>\n new FloatBitsToInt({ value });\nexport const floatBitsToUint = (value: DynoVal<\"float\">): DynoVal<\"uint\"> =>\n new FloatBitsToUint({ value });\nexport const intBitsToFloat = (value: DynoVal<\"int\">): DynoVal<\"float\"> =>\n new IntBitsToFloat({ value });\nexport const uintBitsToFloat = (value: DynoVal<\"uint\">): DynoVal<\"float\"> =>\n new UintBitsToFloat({ value });\n\nexport const packSnorm2x16 = (value: DynoVal<\"vec2\">): DynoVal<\"uint\"> =>\n new PackSnorm2x16({ value });\nexport const unpackSnorm2x16 = (value: DynoVal<\"uint\">): DynoVal<\"vec2\"> =>\n new UnpackSnorm2x16({ value });\nexport const packUnorm2x16 = (value: DynoVal<\"vec2\">): DynoVal<\"uint\"> =>\n new PackUnorm2x16({ value });\nexport const unpackUnorm2x16 = (value: DynoVal<\"uint\">): DynoVal<\"vec2\"> =>\n new UnpackUnorm2x16({ value });\n\nexport const packHalf2x16 = (value: DynoVal<\"vec2\">): DynoVal<\"uint\"> =>\n new PackHalf2x16({ value });\nexport const unpackHalf2x16 = (value: DynoVal<\"uint\">): DynoVal<\"vec2\"> =>\n new UnpackHalf2x16({ value });\n\nexport const uintToRgba8 = (value: DynoVal<\"uint\">): DynoVal<\"vec4\"> =>\n new UintToRgba8({ value });\n\nexport class SimpleCast<\n Allowed extends SimpleTypes,\n OutType extends SimpleTypes,\n OutKey extends string,\n> extends UnaryOp {\n constructor({\n value,\n outType,\n outKey,\n }: { value: DynoVal; outType: OutType; outKey: OutKey }) {\n super({ a: value, outTypeFunc: () => outType, outKey });\n this.statements = ({ inputs, outputs }) => [\n `${outputs[outKey]} = ${typeLiteral(outType)}(${inputs.a});`,\n ];\n }\n}\n\nexport class Bool extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"bool\",\n \"bool\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"bool\", outKey: \"bool\" });\n }\n}\n\nexport class Int extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"int\",\n \"int\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"int\", outKey: \"int\" });\n }\n}\n\nexport class Uint extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"uint\",\n \"uint\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"uint\", outKey: \"uint\" });\n }\n}\n\nexport class Float extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"float\",\n \"float\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"float\", outKey: \"float\" });\n }\n}\n\nexport class BVec2 extends SimpleCast<\n \"bool\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\",\n \"bvec2\",\n \"bvec2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\"> }) {\n super({ value, outType: \"bvec2\", outKey: \"bvec2\" });\n }\n}\n\nexport class BVec3 extends SimpleCast<\n \"bool\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\",\n \"bvec3\",\n \"bvec3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\"> }) {\n super({ value, outType: \"bvec3\", outKey: \"bvec3\" });\n }\n}\n\nexport class BVec4 extends SimpleCast<\n \"bool\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\",\n \"bvec4\",\n \"bvec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"bvec4\", outKey: \"bvec4\" });\n }\n}\n\nexport class IVec2 extends SimpleCast<\n \"int\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\",\n \"ivec2\",\n \"ivec2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"int\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\"> }) {\n super({ value, outType: \"ivec2\", outKey: \"ivec2\" });\n }\n}\n\nexport class IVec3 extends SimpleCast<\n \"int\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\",\n \"ivec3\",\n \"ivec3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"int\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\"> }) {\n super({ value, outType: \"ivec3\", outKey: \"ivec3\" });\n }\n}\n\nexport class IVec4 extends SimpleCast<\n \"int\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\",\n \"ivec4\",\n \"ivec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"int\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"ivec4\", outKey: \"ivec4\" });\n }\n}\n\nexport class UVec2 extends SimpleCast<\n \"uint\" | \"ivec2\" | \"bvec2\" | \"uvec2\" | \"vec2\",\n \"uvec2\",\n \"uvec2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"uint\" | \"ivec2\" | \"bvec2\" | \"uvec2\" | \"vec2\"> }) {\n super({ value, outType: \"uvec2\", outKey: \"uvec2\" });\n }\n}\n\nexport class UVec3 extends SimpleCast<\n \"uint\" | \"ivec3\" | \"bvec3\" | \"uvec3\" | \"vec3\",\n \"uvec3\",\n \"uvec3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"uint\" | \"ivec3\" | \"bvec3\" | \"uvec3\" | \"vec3\"> }) {\n super({ value, outType: \"uvec3\", outKey: \"uvec3\" });\n }\n}\n\nexport class UVec4 extends SimpleCast<\n \"uint\" | \"ivec4\" | \"bvec4\" | \"uvec4\" | \"vec4\",\n \"uvec4\",\n \"uvec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"uint\" | \"ivec4\" | \"bvec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"uvec4\", outKey: \"uvec4\" });\n }\n}\n\nexport class Vec2 extends SimpleCast<\n \"float\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\" | \"vec3\" | \"vec4\",\n \"vec2\",\n \"vec2\"\n> {\n constructor({\n value,\n }: {\n value: DynoVal<\n \"float\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\" | \"vec3\" | \"vec4\"\n >;\n }) {\n super({ value, outType: \"vec2\", outKey: \"vec2\" });\n }\n}\n\nexport class Vec3 extends SimpleCast<\n \"float\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\" | \"vec2\" | \"vec4\",\n \"vec3\",\n \"vec3\"\n> {\n constructor({\n value,\n }: {\n value: DynoVal<\n \"float\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\" | \"vec2\" | \"vec4\"\n >;\n }) {\n super({ value, outType: \"vec3\", outKey: \"vec3\" });\n }\n}\n\nexport class Vec4 extends SimpleCast<\n \"float\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\",\n \"vec4\",\n \"vec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"vec4\", outKey: \"vec4\" });\n }\n}\n\nexport class Mat2 extends SimpleCast<\n \"float\" | \"mat2\" | \"mat3\" | \"mat4\",\n \"mat2\",\n \"mat2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"mat2\" | \"mat3\" | \"mat4\"> }) {\n super({ value, outType: \"mat2\", outKey: \"mat2\" });\n }\n}\n\nexport class Mat3 extends SimpleCast<\n \"float\" | \"mat2\" | \"mat3\" | \"mat4\",\n \"mat3\",\n \"mat3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"mat2\" | \"mat3\" | \"mat4\"> }) {\n super({ value, outType: \"mat3\", outKey: \"mat3\" });\n }\n}\n\nexport class Mat4 extends SimpleCast<\n \"float\" | \"mat2\" | \"mat3\" | \"mat4\",\n \"mat4\",\n \"mat4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"mat2\" | \"mat3\" | \"mat4\"> }) {\n super({ value, outType: \"mat4\", outKey: \"mat4\" });\n }\n}\n\nexport class FloatBitsToInt extends UnaryOp<\"float\", \"int\", \"int\"> {\n constructor({ value }: { value: DynoVal<\"float\"> }) {\n super({ a: value, outKey: \"int\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.int} = floatBitsToInt(${inputs.a});`];\n };\n }\n}\n\nexport class FloatBitsToUint extends UnaryOp<\"float\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"float\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = floatBitsToUint(${inputs.a});`];\n };\n }\n}\n\nexport class IntBitsToFloat extends UnaryOp<\"int\", \"float\", \"float\"> {\n constructor({ value }: { value: DynoVal<\"int\"> }) {\n super({ a: value, outKey: \"float\", outTypeFunc: () => \"float\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.float} = intBitsToFloat(${inputs.a});`];\n };\n }\n}\n\nexport class UintBitsToFloat extends UnaryOp<\"uint\", \"float\", \"float\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"float\", outTypeFunc: () => \"float\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.float} = uintBitsToFloat(${inputs.a});`];\n };\n }\n}\n\nexport class PackSnorm2x16 extends UnaryOp<\"vec2\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"vec2\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = packSnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UnpackSnorm2x16 extends UnaryOp<\"uint\", \"vec2\", \"vec2\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"vec2\", outTypeFunc: () => \"vec2\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.vec2} = unpackSnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class PackUnorm2x16 extends UnaryOp<\"vec2\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"vec2\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = packUnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UnpackUnorm2x16 extends UnaryOp<\"uint\", \"vec2\", \"vec2\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"vec2\", outTypeFunc: () => \"vec2\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.vec2} = unpackUnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class PackHalf2x16 extends UnaryOp<\"vec2\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"vec2\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = packHalf2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UnpackHalf2x16 extends UnaryOp<\"uint\", \"vec2\", \"vec2\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"vec2\", outTypeFunc: () => \"vec2\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.vec2} = unpackHalf2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UintToRgba8 extends UnaryOp<\"uint\", \"vec4\", \"rgba8\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"rgba8\", outTypeFunc: () => \"vec4\" });\n this.statements = ({ inputs, outputs }) => {\n return [\n `uvec4 uRgba = uvec4(${inputs.a} & 0xffu, (${inputs.a} >> 8u) & 0xffu, (${inputs.a} >> 16u) & 0xffu, (${inputs.a} >> 24u) & 0xffu);`,\n `${outputs.rgba8} = vec4(uRgba) / 255.0;`,\n ];\n };\n }\n}\n","import { BinaryOp, Dyno, TrinaryOp, UnaryOp } from \"./base\";\nimport {\n type FloatTypes,\n type IntTypes,\n type MatFloatTypes,\n type SquareMatTypes,\n type UintTypes,\n type VectorElementType,\n type VectorTypes,\n isFloatType,\n isIntType,\n isUintType,\n vectorDim,\n vectorElementType,\n} from \"./types\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n literalZero,\n valType,\n} from \"./value\";\n\nexport const length = (\n a: DynoVal,\n): DynoVal<\"float\"> => new Length({ a });\nexport const distance = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal<\"float\"> => new Distance({ a, b });\nexport const dot = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal<\"float\"> => new Dot({ a, b });\nexport const cross = (\n a: DynoVal<\"vec3\">,\n b: DynoVal<\"vec3\">,\n): DynoVal<\"vec3\"> => new Cross({ a, b });\nexport const normalize = (\n a: DynoVal,\n): DynoVal => new Normalize({ a });\nexport const faceforward = (\n a: DynoVal,\n b: DynoVal,\n c: DynoVal,\n): DynoVal => new FaceForward({ a, b, c });\nexport const reflectVec = (\n incident: DynoVal,\n normal: DynoVal,\n): DynoVal => new ReflectVec({ incident, normal });\nexport const refractVec = (\n incident: DynoVal,\n normal: DynoVal,\n eta: DynoVal<\"float\">,\n): DynoVal => new RefractVec({ incident, normal, eta });\nexport const split = (vector: DynoVal): Split =>\n new Split({ vector });\nexport const combine = >({\n vector,\n vectorType,\n x,\n y,\n z,\n w,\n r,\n g,\n b,\n a,\n}: {\n vector?: DynoVal;\n vectorType?: V;\n x?: DynoVal;\n y?: DynoVal;\n z?: DynoVal;\n w?: DynoVal;\n r?: DynoVal;\n g?: DynoVal;\n b?: DynoVal;\n a?: DynoVal;\n}): DynoVal => new Combine({ vector, vectorType, x, y, z, w, r, g, b, a });\nexport const projectH = (\n a: DynoVal,\n): DynoVal> => new ProjectH({ a });\nexport const extendVec = (\n a: DynoVal,\n b: DynoVal<\"float\">,\n): DynoVal> => new ExtendVec({ a, b });\nexport const swizzle = (\n a: DynoVal,\n select: S,\n): DynoVal>> =>\n new Swizzle({ vector: a, select });\nexport const compMult = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new CompMult({ a, b });\nexport const outer = <\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n>(\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Outer({ a, b });\nexport const transpose = (\n a: DynoVal,\n): DynoVal> => new Transpose({ a });\nexport const determinant = (\n a: DynoVal,\n): DynoVal<\"float\"> => new Determinant({ a });\nexport const inverse = (a: DynoVal): DynoVal =>\n new Inverse({ a });\n\nexport class Length extends UnaryOp<\n A,\n \"float\",\n \"length\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType) => \"float\", outKey: \"length\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.length} = length(${inputs.a});`,\n ];\n }\n}\n\nexport class Distance extends BinaryOp<\n A,\n A,\n \"float\",\n \"distance\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"distance\", outTypeFunc: (aType, bType) => \"float\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.distance} = distance(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Dot extends BinaryOp<\n A,\n A,\n \"float\",\n \"dot\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"dot\", outTypeFunc: (aType, bType) => \"float\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.dot} = dot(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Cross extends BinaryOp<\"vec3\", \"vec3\", \"vec3\", \"cross\"> {\n constructor({ a, b }: { a: DynoVal<\"vec3\">; b: DynoVal<\"vec3\"> }) {\n super({ a, b, outKey: \"cross\", outTypeFunc: (aType, bType) => \"vec3\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.cross} = cross(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Normalize extends UnaryOp<\n A,\n A,\n \"normalize\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType) => aType, outKey: \"normalize\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.normalize} = normalize(${inputs.a});`,\n ];\n }\n}\n\ntype ProjectHOutput = A extends \"vec3\"\n ? \"vec2\"\n : A extends \"vec4\"\n ? \"vec3\"\n : never;\n\nfunction projectHOutputType(\n type: A,\n): ProjectHOutput {\n if (type === \"vec3\") {\n return \"vec2\" as ProjectHOutput;\n }\n if (type === \"vec4\") {\n return \"vec3\" as ProjectHOutput;\n }\n throw new Error(\"Invalid type\");\n}\n\nexport class ProjectH extends UnaryOp<\n A,\n ProjectHOutput,\n \"projected\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({\n a,\n outTypeFunc: (aType) => projectHOutputType(aType),\n outKey: \"projected\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.inTypes.a === \"vec3\") {\n return [`${outputs.projected} = ${inputs.a}.xy / ${inputs.a}.z;`];\n }\n if (this.inTypes.a === \"vec4\") {\n return [`${outputs.projected} = ${inputs.a}.xyz / ${inputs.a}.w;`];\n }\n throw new Error(\"Invalid type\");\n };\n }\n}\n\ntype ExtendVecOutput = A extends \"float\"\n ? \"vec2\"\n : A extends \"vec2\"\n ? \"vec3\"\n : A extends \"vec3\"\n ? \"vec4\"\n : never;\n\nfunction extendVecOutputType(\n type: A,\n): ExtendVecOutput {\n if (type === \"float\") return \"vec2\" as ExtendVecOutput;\n if (type === \"vec2\") return \"vec3\" as ExtendVecOutput;\n if (type === \"vec3\") return \"vec4\" as ExtendVecOutput;\n throw new Error(\"Invalid type\");\n}\n\nexport class ExtendVec extends BinaryOp<\n A,\n \"float\",\n ExtendVecOutput,\n \"extend\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal<\"float\"> }) {\n const type = valType(a);\n const outType = extendVecOutputType(type);\n super({ a, b, outKey: \"extend\", outTypeFunc: () => outType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.extend} = ${outType}(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class FaceForward extends TrinaryOp<\n A,\n A,\n A,\n A,\n \"forward\"\n> {\n constructor({ a, b, c }: { a: DynoVal; b: DynoVal; c: DynoVal }) {\n super({\n a,\n b,\n c,\n outKey: \"forward\",\n outTypeFunc: (aType, bType, cType) => aType,\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.forward} = faceforward(${inputs.a}, ${inputs.b}, ${inputs.c});`,\n ];\n }\n}\n\nexport class ReflectVec extends BinaryOp<\n A,\n A,\n A,\n \"reflection\"\n> {\n constructor({\n incident,\n normal,\n }: { incident: DynoVal; normal: DynoVal }) {\n super({\n a: incident,\n b: normal,\n outKey: \"reflection\",\n outTypeFunc: (aType, bType) => aType,\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.reflection} = reflect(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class RefractVec extends TrinaryOp<\n A,\n A,\n \"float\",\n A,\n \"refraction\"\n> {\n constructor({\n incident,\n normal,\n eta,\n }: { incident: DynoVal; normal: DynoVal; eta: DynoVal<\"float\"> }) {\n super({\n a: incident,\n b: normal,\n c: eta,\n outKey: \"refraction\",\n outTypeFunc: (aType, bType, cType) => aType,\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.refraction} = refract(${inputs.a}, ${inputs.b}, ${inputs.c});`,\n ];\n }\n}\n\nexport class CompMult extends BinaryOp<\n A,\n A,\n A,\n \"product\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"product\", outTypeFunc: (aType, bType) => aType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.product} = matrixCompMult(${a}, ${b});`,\n ];\n }\n}\n\ntype OuterOutput<\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n> = A extends \"vec2\"\n ? B extends \"vec2\"\n ? \"mat2\"\n : B extends \"vec3\"\n ? \"mat3x2\"\n : B extends \"vec4\"\n ? \"mat4x2\"\n : never\n : A extends \"vec3\"\n ? B extends \"vec2\"\n ? \"mat2x3\"\n : B extends \"vec3\"\n ? \"mat3\"\n : B extends \"vec4\"\n ? \"mat4x3\"\n : never\n : A extends \"vec4\"\n ? B extends \"vec2\"\n ? \"mat2x4\"\n : B extends \"vec3\"\n ? \"mat3x4\"\n : B extends \"vec4\"\n ? \"mat4\"\n : never\n : never;\n\nfunction outerOutputType<\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n>(aType: A, bType: B): OuterOutput {\n if (aType === \"vec2\") {\n if (bType === \"vec2\") return \"mat2\" as OuterOutput;\n if (bType === \"vec3\") return \"mat3x2\" as OuterOutput;\n if (bType === \"vec4\") return \"mat4x2\" as OuterOutput;\n }\n if (aType === \"vec3\") {\n if (bType === \"vec2\") return \"mat2x3\" as OuterOutput;\n if (bType === \"vec3\") return \"mat3\" as OuterOutput;\n if (bType === \"vec4\") return \"mat4x3\" as OuterOutput;\n }\n if (aType === \"vec4\") {\n if (bType === \"vec2\") return \"mat2x4\" as OuterOutput;\n if (bType === \"vec3\") return \"mat3x4\" as OuterOutput;\n if (bType === \"vec4\") return \"mat4\" as OuterOutput;\n }\n throw new Error(`Invalid outer type: ${aType}, ${bType}`);\n}\n\nexport class Outer<\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n> extends BinaryOp, \"outer\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"outer\", outTypeFunc: outerOutputType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.outer} = outerProduct(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\ntype TransposeOutput = A extends SquareMatTypes\n ? A\n : A extends \"mat2x3\"\n ? \"mat3x2\"\n : A extends \"mat2x4\"\n ? \"mat4x2\"\n : A extends \"mat3x2\"\n ? \"mat2x3\"\n : A extends \"mat3x4\"\n ? \"mat4x3\"\n : A extends \"mat4x2\"\n ? \"mat2x4\"\n : A extends \"mat4x3\"\n ? \"mat3x4\"\n : never;\n\nfunction transposeOutputType(\n type: A,\n): TransposeOutput {\n if (type === \"mat2\") return \"mat2\" as TransposeOutput;\n if (type === \"mat3\") return \"mat3\" as TransposeOutput;\n if (type === \"mat4\") return \"mat4\" as TransposeOutput;\n if (type === \"mat2x2\") return \"mat2x2\" as TransposeOutput;\n if (type === \"mat2x3\") return \"mat3x2\" as TransposeOutput;\n if (type === \"mat2x4\") return \"mat4x2\" as TransposeOutput;\n if (type === \"mat3x2\") return \"mat2x3\" as TransposeOutput;\n if (type === \"mat3x3\") return \"mat3x3\" as TransposeOutput;\n if (type === \"mat3x4\") return \"mat4x3\" as TransposeOutput;\n if (type === \"mat4x2\") return \"mat2x4\" as TransposeOutput;\n if (type === \"mat4x3\") return \"mat3x4\" as TransposeOutput;\n if (type === \"mat4x4\") return \"mat4x4\" as TransposeOutput;\n throw new Error(`Invalid transpose type: ${type}`);\n}\n\nexport class Transpose extends UnaryOp<\n A,\n TransposeOutput,\n \"transpose\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"transpose\", outTypeFunc: transposeOutputType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.transpose} = transpose(${inputs.a});`,\n ];\n }\n}\n\nexport class Determinant extends UnaryOp<\n A,\n \"float\",\n \"det\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"det\", outTypeFunc: (aType) => \"float\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.det} = determinant(${inputs.a});`,\n ];\n }\n}\n\nexport class Inverse extends UnaryOp<\n A,\n A,\n \"inverse\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"inverse\", outTypeFunc: (aType) => aType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.inverse} = inverse(${a});`,\n ];\n }\n}\n\ntype SplitOutTypes = A extends \"vec2\"\n ? { x: \"float\"; y: \"float\"; r: \"float\"; g: \"float\" }\n : A extends \"vec3\"\n ? { x: \"float\"; y: \"float\"; z: \"float\"; r: \"float\"; g: \"float\"; b: \"float\" }\n : A extends \"vec4\"\n ? {\n x: \"float\";\n y: \"float\";\n z: \"float\";\n w: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n a: \"float\";\n }\n : A extends \"ivec2\"\n ? { x: \"int\"; y: \"int\"; r: \"int\"; g: \"int\" }\n : A extends \"ivec3\"\n ? { x: \"int\"; y: \"int\"; z: \"int\"; r: \"int\"; g: \"int\"; b: \"int\" }\n : A extends \"ivec4\"\n ? {\n x: \"int\";\n y: \"int\";\n z: \"int\";\n w: \"int\";\n r: \"int\";\n g: \"int\";\n b: \"int\";\n a: \"int\";\n }\n : A extends \"uvec2\"\n ? { x: \"uint\"; y: \"uint\"; r: \"uint\"; g: \"uint\" }\n : A extends \"uvec3\"\n ? {\n x: \"uint\";\n y: \"uint\";\n z: \"uint\";\n r: \"uint\";\n g: \"uint\";\n b: \"uint\";\n }\n : A extends \"uvec4\"\n ? {\n x: \"uint\";\n y: \"uint\";\n z: \"uint\";\n w: \"uint\";\n r: \"uint\";\n g: \"uint\";\n b: \"uint\";\n a: \"uint\";\n }\n : never;\n\nfunction splitOutTypes(type: A): SplitOutTypes {\n const result = (value: unknown) => value as SplitOutTypes;\n switch (type) {\n case \"vec2\":\n return result({ x: \"float\", y: \"float\", r: \"float\", g: \"float\" });\n case \"vec3\":\n return result({\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n });\n case \"vec4\":\n return result({\n x: \"float\",\n y: \"float\",\n z: \"float\",\n w: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n a: \"float\",\n });\n case \"ivec2\":\n return result({ x: \"int\", y: \"int\", r: \"int\", g: \"int\" });\n case \"ivec3\":\n return result({\n x: \"int\",\n y: \"int\",\n z: \"int\",\n r: \"int\",\n g: \"int\",\n b: \"int\",\n });\n case \"ivec4\":\n return result({\n x: \"int\",\n y: \"int\",\n z: \"int\",\n w: \"int\",\n r: \"int\",\n g: \"int\",\n b: \"int\",\n a: \"int\",\n });\n case \"uvec2\":\n return result({ x: \"uint\", y: \"uint\", r: \"uint\", g: \"uint\" });\n case \"uvec3\":\n return result({\n x: \"uint\",\n y: \"uint\",\n z: \"uint\",\n r: \"uint\",\n g: \"uint\",\n b: \"uint\",\n });\n case \"uvec4\":\n return result({\n x: \"uint\",\n y: \"uint\",\n z: \"uint\",\n w: \"uint\",\n r: \"uint\",\n g: \"uint\",\n b: \"uint\",\n a: \"uint\",\n });\n default:\n throw new Error(`Invalid vector type: ${type}`);\n }\n}\n\nexport class Split extends Dyno<\n { vector: V },\n SplitOutTypes\n> {\n constructor({ vector }: { vector: DynoVal }) {\n const type = valType(vector);\n const inTypes = { vector: type };\n const outTypes = splitOutTypes(inTypes.vector);\n super({ inTypes, outTypes, inputs: { vector } });\n this.statements = ({ inputs, outputs }) => {\n const { x, y, z, w, r, g, b, a } = outputs as unknown as Record<\n string,\n string\n >;\n const { vector } = inputs;\n return [\n x ? `${x} = ${vector}.x;` : null,\n y ? `${y} = ${vector}.y;` : null,\n z ? `${z} = ${vector}.z;` : null,\n w ? `${w} = ${vector}.w;` : null,\n r ? `${r} = ${vector}.r;` : null,\n g ? `${g} = ${vector}.g;` : null,\n b ? `${b} = ${vector}.b;` : null,\n a ? `${a} = ${vector}.a;` : null,\n ].filter(Boolean) as string[];\n };\n }\n}\n\nexport class Combine>\n extends Dyno & { vector: V }, { vector: V }>\n implements HasDynoOut\n{\n constructor({\n vector,\n vectorType,\n x,\n y,\n z,\n w,\n r,\n g,\n b,\n a,\n }: {\n vector?: DynoVal;\n vectorType?: V;\n x?: DynoVal;\n y?: DynoVal;\n z?: DynoVal;\n w?: DynoVal;\n r?: DynoVal;\n g?: DynoVal;\n b?: DynoVal;\n a?: DynoVal;\n }) {\n if (!vector && !vectorType) {\n throw new Error(\"Either vector or vectorType must be provided\");\n }\n const vType = vectorType ?? valType(vector as DynoVal);\n const elType = vectorElementType(vType);\n const dim = vectorDim(vType);\n\n const inTypes = {\n vector: vType,\n x: elType,\n y: elType,\n r: elType,\n g: elType,\n } as unknown as SplitOutTypes & { vector: V };\n const inputs = { vector, x, y, r, g };\n if (dim >= 3) {\n Object.assign(inTypes, { z: elType, b: elType });\n Object.assign(inputs, { z, b });\n }\n if (dim >= 4) {\n Object.assign(inTypes, { w: elType, a: elType });\n Object.assign(inputs, { w, a });\n }\n // @ts-ignore\n super({ inTypes, outTypes: { vector: vType }, inputs });\n this.statements = ({ inputs, outputs }) => {\n const { vector } = outputs;\n const {\n vector: input,\n x,\n y,\n z,\n w,\n r,\n g,\n b,\n a,\n } = inputs as Record;\n const statements = [\n `${vector}.x = ${x ?? r ?? (input ? `${input}.x` : literalZero(elType))};`,\n `${vector}.y = ${y ?? g ?? (input ? `${input}.y` : literalZero(elType))};`,\n ];\n if (dim >= 3)\n statements.push(\n `${vector}.z = ${z ?? b ?? (input ? `${input}.z` : literalZero(elType))};`,\n );\n if (dim >= 4)\n statements.push(\n `${vector}.w = ${w ?? a ?? (input ? `${input}.w` : literalZero(elType))};`,\n );\n return statements;\n };\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput & { vector: V }, { vector: V }>(\n this,\n \"vector\",\n );\n }\n}\n\ntype SwizzleOutput<\n A extends VectorTypes,\n Len extends number,\n> = A extends FloatTypes\n ? Len extends 1\n ? \"float\"\n : Len extends 2\n ? \"vec2\"\n : Len extends 3\n ? \"vec3\"\n : Len extends 4\n ? \"vec4\"\n : never\n : A extends IntTypes\n ? Len extends 1\n ? \"int\"\n : Len extends 2\n ? \"ivec2\"\n : Len extends 3\n ? \"ivec3\"\n : Len extends 4\n ? \"ivec4\"\n : never\n : A extends UintTypes\n ? Len extends 1\n ? \"uint\"\n : Len extends 2\n ? \"uvec2\"\n : Len extends 3\n ? \"uvec3\"\n : Len extends 4\n ? \"uvec4\"\n : never\n : never;\n\ntype SwizzleSelectLen = S extends Swizzle1Select\n ? 1\n : S extends Swizzle2Select\n ? 2\n : S extends Swizzle3Select\n ? 3\n : S extends Swizzle4Select\n ? 4\n : never;\n\nfunction swizzleOutputType(\n type: A,\n swizzle: S,\n): SwizzleOutput> {\n let result = null;\n if (isFloatType(type)) {\n result =\n swizzle.length === 1\n ? \"float\"\n : swizzle.length === 2\n ? \"vec2\"\n : swizzle.length === 3\n ? \"vec3\"\n : swizzle.length === 4\n ? \"vec4\"\n : null;\n } else if (isIntType(type)) {\n result =\n swizzle.length === 1\n ? \"int\"\n : swizzle.length === 2\n ? \"ivec2\"\n : swizzle.length === 3\n ? \"ivec3\"\n : swizzle.length === 4\n ? \"ivec4\"\n : null;\n } else if (isUintType(type)) {\n result =\n swizzle.length === 1\n ? \"uint\"\n : swizzle.length === 2\n ? \"uvec2\"\n : swizzle.length === 3\n ? \"uvec3\"\n : swizzle.length === 4\n ? \"uvec4\"\n : null;\n }\n if (result == null) {\n throw new Error(`Invalid swizzle: ${swizzle}`);\n }\n return result as SwizzleOutput>;\n}\n\ntype Swizzle1Select = `${\"x\" | \"y\" | \"z\" | \"w\"}|${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype Swizzle2Select =\n | `${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}`\n | `${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype Swizzle3Select =\n | `${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}`\n | `${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype Swizzle4Select =\n | `${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}`\n | `${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype SwizzleSelect =\n | Swizzle1Select\n | Swizzle2Select\n | Swizzle3Select\n | Swizzle4Select;\n\nexport class Swizzle<\n A extends VectorTypes,\n S extends SwizzleSelect,\n> extends UnaryOp>, \"swizzle\"> {\n constructor({ vector, select }: { vector: DynoVal; select: S }) {\n super({\n a: vector,\n outKey: \"swizzle\",\n outTypeFunc: (aType) => swizzleOutputType(aType, select),\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.swizzle} = ${inputs.a}.${select};`,\n ];\n }\n}\n","import { Dyno, DynoBlock, unindent } from \"./base\";\nimport { float, vec2, vec3, vec4 } from \"./convert\";\nimport { mul } from \"./math\";\nimport { type ValueTypes, isIntType, isUintType, sameSizeUvec } from \"./types\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n dynoConst,\n valType,\n} from \"./value\";\nimport { combine } from \"./vecmat\";\n\nexport const remapIndex = (\n index: DynoVal<\"int\">,\n from: DynoVal<\"int\">,\n to: DynoVal<\"int\">,\n): DynoVal<\"int\"> => {\n return new DynoRemapIndex({ index, from, to });\n};\nexport const pcgMix = (\n value: DynoVal,\n): DynoVal<\"uint\"> => {\n return new PcgMix({ value });\n};\nexport const pcgNext = (state: DynoVal<\"uint\">): DynoVal<\"uint\"> => {\n return new PcgNext({ state });\n};\nexport const pcgHash = (state: DynoVal<\"uint\">): DynoVal<\"uint\"> => {\n return new PcgHash({ state });\n};\nexport const hash = (\n value: DynoVal,\n): DynoVal<\"uint\"> => {\n return new Hash({ value });\n};\nexport const hash2 = (\n value: DynoVal,\n): DynoVal<\"uvec2\"> => {\n return new Hash2({ value });\n};\nexport const hash3 = (\n value: DynoVal,\n): DynoVal<\"uvec3\"> => {\n return new Hash3({ value });\n};\nexport const hash4 = (\n value: DynoVal,\n): DynoVal<\"uvec4\"> => {\n return new Hash4({ value });\n};\nexport const hashFloat = (\n value: DynoVal,\n): DynoVal<\"float\"> => {\n return new HashFloat({ value });\n};\nexport const hashVec2 = (\n value: DynoVal,\n): DynoVal<\"vec2\"> => {\n return new HashVec2({ value });\n};\nexport const hashVec3 = (\n value: DynoVal,\n): DynoVal<\"vec3\"> => {\n return new HashVec3({ value });\n};\nexport const hashVec4 = (\n value: DynoVal,\n): DynoVal<\"vec4\"> => {\n return new HashVec4({ value });\n};\nexport const normalizedDepth = (\n z: DynoVal<\"float\">,\n zNear: DynoVal<\"float\">,\n zFar: DynoVal<\"float\">,\n): DynoVal<\"float\"> => {\n return new NormalizedDepth({ z, zNear, zFar }).outputs.depth;\n};\n\nexport const debugColorHue = (index: DynoVal<\"int\">): DynoVal<\"vec3\"> => {\n return new DebugColorHue({ index });\n};\n\nexport class DynoRemapIndex\n extends Dyno<{ from: \"int\"; to: \"int\"; index: \"int\" }, { index: \"int\" }>\n implements HasDynoOut<\"int\">\n{\n constructor({\n from,\n to,\n index,\n }: { from: DynoVal<\"int\">; to: DynoVal<\"int\">; index: DynoVal<\"int\"> }) {\n super({\n inTypes: { from: \"int\", to: \"int\", index: \"int\" },\n outTypes: { index: \"int\" },\n inputs: { from, to, index },\n statements: ({ inputs, outputs }) => {\n return [\n `${outputs.index} = ${inputs.index} - ${inputs.from} + ${inputs.to};`,\n ];\n },\n });\n }\n\n dynoOut(): DynoValue<\"int\"> {\n return new DynoOutput(this, \"index\");\n }\n}\n\nexport class PcgNext\n extends Dyno<{ state: T }, { state: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ state }: { state: DynoVal }) {\n const type = valType(state);\n super({\n inTypes: { state: type },\n outTypes: { state: \"uint\" },\n inputs: { state },\n globals: () => [\n unindent(`\n uint pcg_next(uint state) {\n return state * 747796405u + 2891336453u;\n }\n `),\n ],\n statements: ({ inputs, outputs }) => {\n const toUint =\n type === \"uint\"\n ? `${inputs.state}`\n : type === \"int\"\n ? `uint(${inputs.state})`\n : `floatBitsToUint(${inputs.state})`;\n return [`${outputs.state} = pcg_next(${toUint});`];\n },\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"state\");\n }\n}\n\nexport class PcgHash\n extends Dyno<{ state: \"uint\" }, { hash: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ state }: { state: DynoVal<\"uint\"> }) {\n super({\n inTypes: { state: \"uint\" },\n outTypes: { hash: \"uint\" },\n inputs: { state },\n globals: () => [\n unindent(`\n uint pcg_hash(uint state) {\n uint hash = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u;\n return (hash >> 22u) ^ hash;\n }\n `),\n ],\n statements: ({ inputs, outputs }) => [\n `${outputs.hash} = pcg_hash(${inputs.state});`,\n ],\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class PcgMix\n extends Dyno<{ value: T }, { state: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ value }: { value: DynoVal }) {\n const type = valType(value);\n const tempType = sameSizeUvec(type);\n super({\n inTypes: { value: type },\n outTypes: { state: \"uint\" },\n inputs: { value },\n globals: () => [\n unindent(`\n uint pcg_mix(uint value) {\n return value;\n }\n uint pcg_mix(uvec2 value) {\n return value.x + 0x9e3779b9u * value.y;\n }\n uint pcg_mix(uvec3 value) {\n return value.x + 0x9e3779b9u * value.y + 0x85ebca6bu * value.z;\n }\n uint pcg_mix(uvec4 value) {\n return value.x + 0x9e3779b9u * value.y + 0x85ebca6bu * value.z + 0xc2b2ae35u * value.w;\n }\n `),\n ],\n statements: ({ inputs, outputs }) => {\n const toUvec = isUintType(type)\n ? `${inputs.value}`\n : isIntType(type)\n ? `${tempType}(${inputs.value})`\n : `floatBitsToUint(${inputs.value})`;\n return [\n `${tempType} bits = ${toUvec};`,\n `${outputs.state} = pcg_mix(bits);`,\n ];\n },\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"state\");\n }\n}\n\nexport class Hash\n extends DynoBlock<{ value: T }, { hash: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uint\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n return new PcgHash({ state }).outputs;\n },\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class Hash2\n extends DynoBlock<{ value: T }, { hash: \"uvec2\" }>\n implements HasDynoOut<\"uvec2\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uvec2\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n const x = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const y = new PcgHash({ state }).outputs.hash;\n return { hash: combine({ vectorType: \"uvec2\", x, y }) };\n },\n });\n }\n dynoOut(): DynoValue<\"uvec2\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class Hash3\n extends DynoBlock<{ value: T }, { hash: \"uvec3\" }>\n implements HasDynoOut<\"uvec3\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uvec3\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n const x = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const y = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const z = new PcgHash({ state }).outputs.hash;\n return { hash: combine({ vectorType: \"uvec3\", x, y, z }) };\n },\n });\n }\n dynoOut(): DynoValue<\"uvec3\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class Hash4\n extends DynoBlock<{ value: T }, { hash: \"uvec4\" }>\n implements HasDynoOut<\"uvec4\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uvec4\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n const x = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const y = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const z = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const w = new PcgHash({ state }).outputs.hash;\n return { hash: combine({ vectorType: \"uvec4\", x, y, z, w }) };\n },\n });\n }\n dynoOut(): DynoValue<\"uvec4\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashFloat\n extends DynoBlock<{ value: T }, { hash: \"float\" }>\n implements HasDynoOut<\"float\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"float\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const word = hash(value);\n return { hash: mul(float(word), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"float\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashVec2\n extends DynoBlock<{ value: T }, { hash: \"vec2\" }>\n implements HasDynoOut<\"vec2\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"vec2\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const words = hash2(value);\n return { hash: mul(vec2(words), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"vec2\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashVec3\n extends DynoBlock<{ value: T }, { hash: \"vec3\" }>\n implements HasDynoOut<\"vec3\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"vec3\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const words = hash3(value);\n return { hash: mul(vec3(words), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"vec3\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashVec4\n extends DynoBlock<{ value: T }, { hash: \"vec4\" }>\n implements HasDynoOut<\"vec4\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"vec4\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const words = hash4(value);\n return { hash: mul(vec4(words), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"vec4\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class NormalizedDepth\n extends Dyno<\n { z: \"float\"; zNear: \"float\"; zFar: \"float\" },\n { depth: \"float\" }\n >\n implements HasDynoOut<\"float\">\n{\n constructor({\n z,\n zNear,\n zFar,\n }: { z: DynoVal<\"float\">; zNear: DynoVal<\"float\">; zFar: DynoVal<\"float\"> }) {\n super({\n inTypes: { z: \"float\", zNear: \"float\", zFar: \"float\" },\n outTypes: { depth: \"float\" },\n inputs: { z, zNear, zFar },\n statements: ({ inputs, outputs }) => [\n `float clamped = clamp(${inputs.z}, ${inputs.zNear}, ${inputs.zFar});`,\n `${outputs.depth} = (log2(clamped + 1.0) - log2(${inputs.zNear} + 1.0)) / (log2(${inputs.zFar} + 1.0) - log2(${inputs.zNear} + 1.0));`,\n ],\n });\n }\n\n dynoOut(): DynoValue<\"float\"> {\n return new DynoOutput(this, \"depth\");\n }\n}\n\nexport class DebugColorHue\n extends Dyno<{ index: \"int\" }, { color: \"vec3\" }>\n implements HasDynoOut<\"vec3\">\n{\n constructor({ index }: { index: DynoVal<\"int\"> }) {\n super({\n inTypes: { index: \"int\" },\n outTypes: { color: \"vec3\" },\n inputs: { index },\n statements: ({ inputs, outputs }) => [\n `${outputs.color} = debugColorHue(uint(${inputs.index}));`,\n ],\n });\n }\n\n dynoOut(): DynoValue<\"vec3\"> {\n return new DynoOutput(this, \"color\");\n }\n}\n","import { Dyno } from \"./base\";\nimport type { DynoVal } from \"./value\";\n\nexport const transformPos = (\n position: DynoVal<\"vec3\">,\n {\n scale,\n scales,\n rotate,\n translate,\n }: {\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n },\n): DynoVal<\"vec3\"> => {\n return new TransformPosition({ position, scale, scales, rotate, translate })\n .outputs.position;\n};\nexport const transformDir = (\n dir: DynoVal<\"vec3\">,\n {\n scale,\n scales,\n rotate,\n }: {\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n },\n): DynoVal<\"vec3\"> => {\n return new TransformDir({ dir, scale, scales, rotate }).outputs.dir;\n};\nexport const transformQuat = (\n quaternion: DynoVal<\"vec4\">,\n { rotate }: { rotate?: DynoVal<\"vec4\"> },\n): DynoVal<\"vec4\"> => {\n return new TransformQuaternion({ quaternion, rotate }).outputs.quaternion;\n};\n\nexport class TransformPosition extends Dyno<\n {\n position: \"vec3\";\n scale: \"float\";\n scales: \"vec3\";\n rotate: \"vec4\";\n translate: \"vec3\";\n },\n { position: \"vec3\" }\n> {\n constructor({\n position,\n scale,\n scales,\n rotate,\n translate,\n }: {\n position?: DynoVal<\"vec3\">;\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n }) {\n super({\n inTypes: {\n position: \"vec3\",\n scale: \"float\",\n scales: \"vec3\",\n rotate: \"vec4\",\n translate: \"vec3\",\n },\n outTypes: { position: \"vec3\" },\n inputs: { position, scale, scales, rotate, translate },\n statements: ({ inputs, outputs }) => {\n const { position } = outputs;\n if (!position) {\n return [];\n }\n const { scale, scales, rotate, translate } = inputs;\n return [\n `${position} = ${inputs.position ?? \"vec3(0.0, 0.0, 0.0)\"};`,\n !scale ? null : `${position} *= ${scale};`,\n !scales ? null : `${position} *= ${scales};`,\n !rotate ? null : `${position} = quatVec(${rotate}, ${position});`,\n !translate ? null : `${position} += ${translate};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class TransformDir extends Dyno<\n { dir: \"vec3\"; scale: \"float\"; scales: \"vec3\"; rotate: \"vec4\" },\n { dir: \"vec3\" }\n> {\n constructor({\n dir,\n scale,\n scales,\n rotate,\n }: {\n dir?: DynoVal<\"vec3\">;\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: { dir: \"vec3\", scale: \"float\", scales: \"vec3\", rotate: \"vec4\" },\n outTypes: { dir: \"vec3\" },\n inputs: { dir, scale, scales, rotate },\n statements: ({ inputs, outputs }) => {\n const { dir } = outputs;\n if (!dir) {\n return [];\n }\n const { scale, scales, rotate } = inputs;\n return [\n `${dir} = ${inputs.dir ?? \"vec3(0.0, 0.0, 0.0)\"};`,\n !scale ? null : `${dir} *= ${scale};`,\n !scales ? null : `${dir} *= ${scales};`,\n !rotate ? null : `${dir} = quatVec(${rotate}, ${dir});`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class TransformQuaternion extends Dyno<\n { quaternion: \"vec4\"; rotate: \"vec4\" },\n { quaternion: \"vec4\" }\n> {\n constructor({\n quaternion,\n rotate,\n }: { quaternion?: DynoVal<\"vec4\">; rotate?: DynoVal<\"vec4\"> }) {\n super({\n inTypes: { quaternion: \"vec4\", rotate: \"vec4\" },\n outTypes: { quaternion: \"vec4\" },\n inputs: { quaternion, rotate },\n statements: ({ inputs, outputs }) => {\n const { quaternion } = outputs;\n if (!quaternion) {\n return [];\n }\n return [\n `${quaternion} = ${inputs.quaternion ?? \"vec4(0.0, 0.0, 0.0, 1.0)\"};`,\n !rotate\n ? null\n : `${quaternion} = quatQuat(${inputs.rotate}, ${quaternion});`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n","// TODO:\n// if, switch, for, comment,\n// arrayIndex, arrayLength,\n\nexport const dynoIf = () => {\n throw new Error(\"Not implemented\");\n};\nexport const dynoSwitch = () => {\n throw new Error(\"Not implemented\");\n};\nexport const dynoFor = () => {\n throw new Error(\"Not implemented\");\n};\nexport const comment = () => {\n throw new Error(\"Not implemented\");\n};\nexport const arrayIndex = () => {\n throw new Error(\"Not implemented\");\n};\nexport const arrayLength = () => {\n throw new Error(\"Not implemented\");\n};\n","import { Dyno } from \"./base\";\nimport type {\n AllSamplerTypes,\n IsamplerTypes,\n NormalSamplerTypes,\n Sampler2DArrayTypes,\n Sampler2DTypes,\n Sampler3DTypes,\n SamplerCubeTypes,\n SamplerShadowTypes,\n SamplerTypes,\n UsamplerTypes,\n} from \"./types\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n valType,\n} from \"./value\";\n\nexport const textureSize = (\n texture: DynoVal,\n lod?: DynoVal<\"int\">,\n): DynoVal> => new TextureSize({ texture, lod });\nexport const texture = (\n texture: DynoVal,\n coord: DynoVal>,\n bias?: DynoVal<\"float\">,\n): DynoVal> => new Texture({ texture, coord, bias });\nexport const texelFetch = (\n texture: DynoVal,\n coord: DynoVal>,\n lod?: DynoVal<\"int\">,\n): DynoVal> => new TexelFetch({ texture, coord, lod });\n\nexport class TextureSize\n extends Dyno<{ texture: T; lod: \"int\" }, { size: TextureSizeType }>\n implements HasDynoOut>\n{\n constructor({ texture, lod }: { texture: DynoVal; lod?: DynoVal<\"int\"> }) {\n const textureType = valType(texture);\n super({\n inTypes: { texture: textureType, lod: \"int\" },\n outTypes: { size: textureSizeType(textureType) },\n inputs: { texture, lod },\n statements: ({ inputs, outputs }) => [\n `${outputs.size} = textureSize(${inputs.texture}, ${inputs.lod ?? \"0\"});`,\n ],\n });\n }\n\n dynoOut(): DynoValue> {\n return new DynoOutput(this, \"size\");\n }\n}\n\nexport class Texture\n extends Dyno<\n { texture: T; coord: TextureCoordType; bias: \"float\" },\n { sample: TextureReturnType }\n >\n implements HasDynoOut>\n{\n constructor({\n texture,\n coord,\n bias,\n }: {\n texture: DynoVal;\n coord: DynoVal>;\n bias?: DynoVal<\"float\">;\n }) {\n const textureType = valType(texture);\n super({\n inTypes: {\n texture: textureType,\n coord: textureCoordType(textureType),\n bias: \"float\",\n },\n outTypes: { sample: textureReturnType(textureType) },\n inputs: { texture, coord, bias },\n statements: ({ inputs, outputs }) => [\n `${outputs.sample} = texture(${inputs.texture}, ${inputs.coord}${inputs.bias ? `, ${inputs.bias}` : \"\"});`,\n ],\n });\n }\n\n dynoOut(): DynoValue> {\n return new DynoOutput(this, \"sample\");\n }\n}\n\nexport class TexelFetch\n extends Dyno<\n { texture: T; coord: TextureSizeType; lod: \"int\" },\n { texel: TextureReturnType }\n >\n implements HasDynoOut>\n{\n constructor({\n texture,\n coord,\n lod,\n }: {\n texture: DynoVal;\n coord: DynoVal>;\n lod?: DynoVal<\"int\">;\n }) {\n const textureType = valType(texture);\n super({\n inTypes: {\n texture: textureType,\n coord: textureSizeType(textureType),\n lod: \"int\",\n },\n outTypes: { texel: textureReturnType(textureType) },\n inputs: { texture, coord, lod },\n statements: ({ inputs, outputs }) => [\n `${outputs.texel} = texelFetch(${inputs.texture}, ${inputs.coord}, ${inputs.lod ?? \"0\"});`,\n ],\n });\n }\n\n dynoOut(): DynoValue> {\n return new DynoOutput(this, \"texel\");\n }\n}\n\ntype TextureSizeType = T extends\n | Sampler2DTypes\n | SamplerCubeTypes\n ? \"ivec2\"\n : T extends Sampler3DTypes | Sampler2DArrayTypes\n ? \"ivec3\"\n : never;\n\nfunction textureSizeType(\n textureType: T,\n): TextureSizeType {\n switch (textureType) {\n case \"sampler2D\":\n case \"usampler2D\":\n case \"isampler2D\":\n case \"samplerCube\":\n case \"usamplerCube\":\n case \"isamplerCube\":\n case \"sampler2DShadow\":\n case \"samplerCubeShadow\":\n return \"ivec2\" as TextureSizeType;\n case \"sampler3D\":\n case \"usampler3D\":\n case \"isampler3D\":\n case \"sampler2DArray\":\n case \"usampler2DArray\":\n case \"isampler2DArray\":\n case \"sampler2DArrayShadow\":\n return \"ivec3\" as TextureSizeType;\n default:\n throw new Error(`Invalid texture type: ${textureType}`);\n }\n}\n\ntype TextureCoordType = T extends Sampler2DTypes\n ? \"vec2\"\n : T extends\n | Sampler3DTypes\n | Sampler2DArrayTypes\n | SamplerCubeTypes\n | Sampler2DArrayTypes\n ? \"vec3\"\n : T extends \"samperCubeShadow\" | \"sampler2DArrayShadow\"\n ? \"vec4\"\n : never;\n\nfunction textureCoordType(\n textureType: T,\n): TextureCoordType {\n switch (textureType) {\n case \"sampler2D\":\n case \"usampler2D\":\n case \"isampler2D\":\n return \"vec2\" as TextureCoordType;\n case \"sampler3D\":\n case \"usampler3D\":\n case \"isampler3D\":\n case \"samplerCube\":\n case \"usamplerCube\":\n case \"isamplerCube\":\n case \"sampler2DArray\":\n case \"usampler2DArray\":\n case \"isampler2DArray\":\n case \"sampler2DShadow\":\n return \"vec3\" as TextureCoordType;\n case \"samplerCubeShadow\":\n case \"sampler2DArrayShadow\":\n return \"vec4\" as TextureCoordType;\n default:\n throw new Error(`Invalid texture type: ${textureType}`);\n }\n}\n\ntype TextureReturnType = T extends SamplerTypes\n ? \"vec4\"\n : T extends UsamplerTypes\n ? \"uvec4\"\n : T extends IsamplerTypes\n ? \"ivec4\"\n : T extends SamplerShadowTypes\n ? \"float\"\n : never;\n\nfunction textureReturnType(\n textureType: T,\n): TextureReturnType {\n switch (textureType) {\n case \"sampler2D\":\n case \"sampler2DArray\":\n case \"sampler3D\":\n case \"samplerCube\":\n case \"sampler2DShadow\":\n return \"vec4\" as TextureReturnType;\n case \"usampler2D\":\n case \"usampler2DArray\":\n case \"usampler3D\":\n case \"usamplerCube\":\n return \"uvec4\" as TextureReturnType;\n case \"isampler2D\":\n case \"isampler2DArray\":\n case \"isampler3D\":\n case \"isamplerCube\":\n return \"ivec4\" as TextureReturnType;\n case \"samplerCubeShadow\":\n case \"sampler2DArrayShadow\":\n return \"float\" as TextureReturnType;\n default:\n throw new Error(`Invalid texture type: ${textureType}`);\n }\n}\n","import { BinaryOp, UnaryOp } from \"./base\";\nimport type { FloatTypes } from \"./types\";\nimport type { DynoVal } from \"./value\";\n\nexport const radians = (\n degrees: DynoVal,\n): DynoVal => new Radians({ degrees });\nexport const degrees = (\n radians: DynoVal,\n): DynoVal => new Degrees({ radians });\n\nexport const sin = (radians: DynoVal): DynoVal =>\n new Sin({ radians });\nexport const cos = (radians: DynoVal): DynoVal =>\n new Cos({ radians });\nexport const tan = (radians: DynoVal): DynoVal =>\n new Tan({ radians });\n\nexport const asin = (sin: DynoVal): DynoVal =>\n new Asin({ sin });\nexport const acos = (cos: DynoVal): DynoVal =>\n new Acos({ cos });\nexport const atan = (tan: DynoVal): DynoVal =>\n new Atan({ tan });\nexport const atan2 = (\n y: DynoVal,\n x: DynoVal,\n): DynoVal => new Atan2({ y, x });\n\nexport const sinh = (x: DynoVal): DynoVal =>\n new Sinh({ x });\nexport const cosh = (x: DynoVal): DynoVal =>\n new Cosh({ x });\nexport const tanh = (x: DynoVal): DynoVal =>\n new Tanh({ x });\n\nexport const asinh = (x: DynoVal): DynoVal =>\n new Asinh({ x });\nexport const acosh = (x: DynoVal): DynoVal =>\n new Acosh({ x });\nexport const atanh = (x: DynoVal): DynoVal =>\n new Atanh({ x });\n\nexport class Radians extends UnaryOp {\n constructor({ degrees }: { degrees: DynoVal }) {\n super({ a: degrees, outTypeFunc: (aType) => aType, outKey: \"radians\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.radians} = radians(${inputs.a});`,\n ];\n }\n}\n\nexport class Degrees extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"degrees\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.degrees} = degrees(${inputs.a});`,\n ];\n }\n}\n\nexport class Sin extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"sin\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.sin} = sin(${inputs.a});`,\n ];\n }\n}\n\nexport class Cos extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"cos\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.cos} = cos(${inputs.a});`,\n ];\n }\n}\n\nexport class Tan extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"tan\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.tan} = tan(${inputs.a});`,\n ];\n }\n}\n\nexport class Asin extends UnaryOp {\n constructor({ sin }: { sin: DynoVal }) {\n super({ a: sin, outTypeFunc: (aType) => aType, outKey: \"asin\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.asin} = asin(${inputs.a});`,\n ];\n }\n}\n\nexport class Acos extends UnaryOp {\n constructor({ cos }: { cos: DynoVal }) {\n super({ a: cos, outTypeFunc: (aType) => aType, outKey: \"acos\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.acos} = acos(${inputs.a});`,\n ];\n }\n}\n\nexport class Atan extends UnaryOp {\n constructor({ tan }: { tan: DynoVal }) {\n super({ a: tan, outTypeFunc: (aType) => aType, outKey: \"atan\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.atan} = atan(${inputs.a});`,\n ];\n }\n}\n\nexport class Atan2 extends BinaryOp {\n constructor({ y, x }: { y: DynoVal; x: DynoVal }) {\n super({\n a: y,\n b: x,\n outTypeFunc: (aType, bType) => aType,\n outKey: \"atan2\",\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.atan2} = atan2(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Sinh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"sinh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.sinh} = sinh(${inputs.a});`,\n ];\n }\n}\n\nexport class Cosh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"cosh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.cosh} = cosh(${inputs.a});`,\n ];\n }\n}\n\nexport class Tanh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"tanh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.tanh} = tanh(${inputs.a});`,\n ];\n }\n}\n\nexport class Asinh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"asinh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.asinh} = asinh(${inputs.a});`,\n ];\n }\n}\n\nexport class Acosh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"acosh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.acosh} = acosh(${inputs.a});`,\n ];\n }\n}\n\nexport class Atanh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"atanh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.atanh} = atanh(${inputs.a});`,\n ];\n }\n}\n","import * as THREE from \"three\";\nimport type { RgbaArray } from \"./RgbaArray\";\nimport { SplatLoader } from \"./SplatLoader\";\nimport type { SplatSource } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport { SPLAT_TEX_WIDTH, type SplatFileType } from \"./defines\";\nimport {\n Dyno,\n DynoInt,\n type DynoType,\n DynoUniform,\n DynoUsampler2DArray,\n type DynoVal,\n type Gsplat,\n TExtSplats,\n add,\n combineGsplat,\n defineExtSplats,\n normalize,\n readExtSplat,\n splatTexCoord,\n splitGsplat,\n sub,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { decodeExtSplat, encodeExtSplat, getTextureSize } from \"./utils\";\n\nexport type ExtSplatsOptions = {\n // URL to fetch a Gaussian splat file from (supports .ply, .splat, .ksplat,\n // .spz formats). (default: undefined)\n url?: string;\n // Raw bytes of a Gaussian splat file to decode directly instead of fetching\n // from URL. (default: undefined)\n fileBytes?: Uint8Array | ArrayBuffer;\n // Override the file type detection for formats that can't be reliably\n // auto-detected (.splat, .ksplat). (default: undefined auto-detects other\n // formats from file contents)\n fileType?: SplatFileType;\n // File name to use for type detection. (default: undefined)\n fileName?: string;\n // Stream to read the Gaussian splat file from. (default: undefined)\n stream?: ReadableStream;\n // Length of the stream in bytes. (default: undefined)\n streamLength?: number;\n // Reserve space for at least this many splats when constructing the collection\n // initially. The array will automatically resize past maxSplats so setting it is\n // an optional optimization. (default: 0)\n maxSplats?: number;\n // Use provided pair of uint32 arrays, where blocks of 4 uint32s in each,\n // encode an \"extended packed\" Gsplat. (default: undefined)\n extArrays?: [Uint32Array, Uint32Array];\n // Override number of splats in packed arrays to use only a subset.\n // (default: length of packed array / 4)\n numSplats?: number;\n // Callback function to programmatically create splats at initialization.\n // (default: undefined)\n construct?: (splats: ExtSplats) => Promise | void;\n // Callback function called while downloading and initializing (default: undefined)\n onProgress?: (event: ProgressEvent) => void;\n // Additional splat data, such as spherical harmonics components (sh1, sh2, sh3). (default: {})\n extra?: Record;\n // Enable LOD. If a number is provided, it will be used as LoD level base,\n // otherwise the default 1.5 is used. When loading a file without pre-computed\n // LoD it will use the \"quick lod\" algorithm to generate one on-the-fly with\n // the selected LoD level base. (default: undefined=false)\n lod?: boolean | \"quality\";\n // Keep the original PackedSplats data before creating LoD version. (default: false)\n nonLod?: boolean;\n // Only create LoD if the input splat acount is above this\n lodAbove?: number;\n // The LoD version of the ExtSplats\n lodSplats?: ExtSplats;\n};\n\nexport class ExtSplats implements SplatSource {\n maxSplats = 0;\n numSplats = 0;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record = {};\n maxSh = 3;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodSplats?: ExtSplats;\n\n initialized: Promise;\n isInitialized = false;\n\n textures: [THREE.DataArrayTexture, THREE.DataArrayTexture];\n\n // A PackedSplats can be used in a dyno graph using the below property dyno:\n // const gsplat = dyno.readPackedSplats(this.dyno, dynoIndex);\n dyno: DynoUniform;\n dynoNumSh: DynoInt<\"numSh\">;\n\n constructor(options: ExtSplatsOptions = {}) {\n this.extArrays = [new Uint32Array(0), new Uint32Array(0)];\n this.textures = [ExtSplats.emptyTexture, ExtSplats.emptyTexture];\n\n this.extra = {};\n this.dyno = new DynoExtSplats({ extSplats: this });\n this.dynoNumSh = new DynoInt({\n key: \"numSh\",\n value: 0,\n update: () => {\n return Math.min(this.getNumSh(), this.maxSh);\n },\n });\n\n // The following line will be overridden by reinitialize()\n this.initialized = Promise.resolve(this);\n this.reinitialize(options);\n }\n\n reinitialize(options: ExtSplatsOptions) {\n this.isInitialized = false;\n\n this.extra = {};\n this.maxSplats = options.maxSplats ?? 0;\n this.lod = options.lod;\n this.nonLod = options.nonLod;\n\n if (\n options.url ||\n options.fileBytes ||\n options.stream ||\n options.construct\n ) {\n // We need to initialize asynchronously given the options\n this.initialized = this.asyncInitialize(options).then(() => {\n this.isInitialized = true;\n return this;\n });\n } else {\n this.initialize(options);\n this.isInitialized = true;\n this.initialized = Promise.resolve(this);\n }\n }\n\n initialize(options: ExtSplatsOptions) {\n this.extra = options.extra ?? {};\n this.lodSplats = options.lodSplats;\n\n if (options.extArrays) {\n this.extArrays = options.extArrays;\n this.maxSplats = Math.floor(\n Math.min(this.extArrays[0].length / 4, this.extArrays[1].length / 4),\n );\n this.numSplats = options.numSplats ?? this.maxSplats;\n\n // Calculate number of horizontal texture rows that could fit in array.\n // A properly initialized packedArray should already take into account the\n // width and height of the texture and be rounded up with padding.\n this.maxSplats =\n Math.floor(this.maxSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n this.numSplats = Math.min(\n this.maxSplats,\n options.numSplats ?? Number.POSITIVE_INFINITY,\n );\n this.updateTextures();\n } else {\n this.maxSplats = options.maxSplats ?? 0;\n this.numSplats = 0;\n this.extArrays = [new Uint32Array(0), new Uint32Array(0)];\n }\n }\n\n async asyncInitialize(options: ExtSplatsOptions) {\n const {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n construct,\n lod,\n nonLod,\n lodAbove,\n } = options;\n this.lod = lod;\n this.nonLod = nonLod;\n\n const loader = new SplatLoader();\n if (fileBytes || url || stream) {\n await loader.loadInternalAsync({\n extSplats: this,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress: options.onProgress,\n lodAbove,\n });\n }\n\n if (construct) {\n const maybePromise = construct(this);\n // If construct returns a promise, wait for it to complete\n if (maybePromise instanceof Promise) {\n await maybePromise;\n }\n }\n }\n\n // Call this when you are finished with the PackedSplats and want to free\n // any buffers it holds.\n dispose() {\n if (this.textures[0] !== ExtSplats.emptyTexture) {\n this.textures[0].dispose();\n this.textures[0].source.data = null;\n this.textures[0] = ExtSplats.emptyTexture;\n }\n if (this.textures[1] !== ExtSplats.emptyTexture) {\n this.textures[1].dispose();\n this.textures[1].source.data = null;\n this.textures[1] = ExtSplats.emptyTexture;\n }\n\n this.extArrays = [new Uint32Array(0), new Uint32Array(0)];\n\n for (const key in this.extra) {\n const dyno = this.extra[key] as DynoUniform<\n DynoType,\n string,\n THREE.Texture\n >;\n if (dyno instanceof DynoUniform) {\n const texture = dyno.value;\n if (texture?.isTexture) {\n texture.dispose();\n texture.source.data = null;\n }\n }\n }\n this.extra = {};\n\n this.disposeLodSplats();\n }\n\n prepareFetchSplat() {\n // console.info(\"ExtSplats.prepareFetchSplat\");\n }\n\n getNumSplats(): number {\n return this.numSplats;\n }\n\n hasRgbDir(): boolean {\n return Math.min(this.getNumSh(), this.maxSh) > 0;\n }\n\n getNumSh(): number {\n return !this.extra.sh1\n ? 0\n : !this.extra.sh2\n ? 1\n : !this.extra.sh3a || !this.extra.sh3b\n ? 2\n : 3;\n }\n\n setMaxSh(maxSh: number) {\n this.maxSh = maxSh;\n }\n\n fetchSplat({\n index,\n viewOrigin,\n }: { index: DynoVal<\"int\">; viewOrigin?: DynoVal<\"vec3\"> }): DynoVal<\n typeof Gsplat\n > {\n let gsplat = readExtSplat(this.dyno, index);\n\n if (this.hasRgbDir() && viewOrigin) {\n const splatCenter = splitGsplat(gsplat).outputs.center;\n const viewDir = normalize(sub(splatCenter, viewOrigin));\n const { sh1Texture, sh2Texture, sh3TextureA, sh3TextureB } =\n this.ensureShTextures();\n let { rgb } = evaluateExtSH({\n coord: splatTexCoord(index),\n viewDir,\n numSh: this.dynoNumSh,\n sh1Texture,\n sh2Texture,\n sh3TextureA,\n sh3TextureB,\n });\n rgb = add(rgb, splitGsplat(gsplat).outputs.rgb);\n gsplat = combineGsplat({ gsplat, rgb });\n }\n return gsplat;\n }\n\n private ensureShTextures(): {\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3TextureA?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n sh3TextureB?: DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>;\n } {\n // Ensure we have textures for SH1..SH3 if we have data\n if (!this.extra.sh1) {\n return {};\n }\n\n let sh1Texture = this.extra.sh1Texture as\n | DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>\n | undefined;\n if (!sh1Texture) {\n let sh1 = this.extra.sh1 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh1.length / 4,\n );\n if (sh1.length < maxSplats * 4) {\n const newSh1 = new Uint32Array(maxSplats * 4);\n newSh1.set(sh1);\n this.extra.sh1 = newSh1;\n sh1 = newSh1;\n }\n const texture = newUint32ArrayTexture(\n sh1,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh1Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh1\",\n });\n this.extra.sh1Texture = sh1Texture;\n }\n\n if (!this.extra.sh2) {\n return { sh1Texture };\n }\n\n let sh2Texture = this.extra.sh2Texture as\n | DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>\n | undefined;\n if (!sh2Texture) {\n let sh2 = this.extra.sh2 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh2.length / 4,\n );\n if (sh2.length < maxSplats * 4) {\n const newSh2 = new Uint32Array(maxSplats * 4);\n newSh2.set(sh2);\n this.extra.sh2 = newSh2;\n sh2 = newSh2;\n }\n\n const texture = newUint32ArrayTexture(\n sh2,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh2Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh2\",\n });\n this.extra.sh2Texture = sh2Texture;\n }\n\n if (!this.extra.sh3a || !this.extra.sh3b) {\n return { sh1Texture, sh2Texture };\n }\n\n let sh3TextureA = this.extra.sh3TextureA as\n | DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>\n | undefined;\n if (!sh3TextureA) {\n let sh3a = this.extra.sh3a as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh3a.length / 4,\n );\n if (sh3a.length < maxSplats * 4) {\n const newSh3 = new Uint32Array(maxSplats * 4);\n newSh3.set(sh3a);\n this.extra.sh3a = newSh3;\n sh3a = newSh3;\n }\n\n const texture = newUint32ArrayTexture(\n sh3a,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh3TextureA = new DynoUsampler2DArray({\n value: texture,\n key: \"sh3\",\n });\n this.extra.sh3TextureA = sh3TextureA;\n }\n\n let sh3TextureB = this.extra.sh3TextureB as\n | DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>\n | undefined;\n if (!sh3TextureB) {\n let sh3b = this.extra.sh3b as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh3b.length / 4,\n );\n if (sh3b.length < maxSplats * 4) {\n const newSh3b = new Uint32Array(maxSplats * 4);\n newSh3b.set(sh3b);\n this.extra.sh3b = newSh3b;\n sh3b = newSh3b;\n }\n\n const texture = newUint32ArrayTexture(\n sh3b,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh3TextureB = new DynoUsampler2DArray({\n value: texture,\n key: \"sh3b\",\n });\n this.extra.sh3TextureB = sh3TextureB;\n }\n\n return { sh1Texture, sh2Texture, sh3TextureA, sh3TextureB };\n }\n\n // Ensures that this.extArrays can fit numSplats Gsplats. If it's too small,\n // resize exponentially and copy over the original data.\n //\n // Typically you don't need to call this, because calling this.setSplat(index, ...)\n // and this.pushSplat(...) will automatically call ensureSplats() so we have\n // enough splats.\n ensureSplats(numSplats: number): [Uint32Array, Uint32Array] {\n const targetSize =\n numSplats <= this.maxSplats\n ? this.maxSplats\n : // Grow exponentially to avoid frequent reallocations\n Math.max(numSplats, 2 * this.maxSplats);\n const currentSize = !this.extArrays[0] ? 0 : this.extArrays[0].length / 4;\n\n if (!this.extArrays[0] || targetSize > currentSize) {\n this.maxSplats = getTextureSize(targetSize).maxSplats;\n const newArray0 = new Uint32Array(this.maxSplats * 4);\n const newArray1 = new Uint32Array(this.maxSplats * 4);\n if (this.extArrays[0]) {\n // Copy over existing data\n newArray0.set(this.extArrays[0]);\n newArray1.set(this.extArrays[1]);\n }\n this.extArrays[0] = newArray0;\n this.extArrays[1] = newArray1;\n }\n return this.extArrays;\n }\n\n // Unpack the 16-byte Gsplat data at index into the Three.js components\n // center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion,\n // opacity: number 0..1, color: THREE.Color 0..1.\n getSplat(index: number): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n opacity: number;\n color: THREE.Color;\n } {\n if (index >= this.numSplats) {\n throw new Error(\"Invalid index\");\n }\n return decodeExtSplat(this.extArrays, index);\n }\n\n // Set all ExtSplat components at index with the provided Gsplat attributes\n // (can be the same objects returned by getSplat). Ensures there is capacity\n // for at least index+1 Gsplats.\n setSplat(\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const extArrays = this.ensureSplats(index + 1);\n encodeExtSplat(\n extArrays,\n index,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n this.numSplats = Math.max(this.numSplats, index + 1);\n }\n\n // Effectively calls this.setSplat(this.numSplats++, center, ...), useful on\n // construction where you just want to iterate and create a collection of Gsplats.\n pushSplat(\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const extArrays = this.ensureSplats(this.numSplats + 1);\n encodeExtSplat(\n extArrays,\n this.numSplats,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n ++this.numSplats;\n }\n\n // Iterate over Gsplats index 0..=(this.numSplats-1), unpack each Gsplat\n // and invoke the callback function with the Gsplat attributes.\n forEachSplat(\n callback: (\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => void,\n ) {\n if (!this.numSplats) {\n return;\n }\n for (let i = 0; i < this.numSplats; ++i) {\n const unpacked = decodeExtSplat(this.extArrays, i);\n callback(\n i,\n unpacked.center,\n unpacked.scales,\n unpacked.quaternion,\n unpacked.opacity,\n unpacked.color,\n );\n }\n }\n\n // Check if source texture needs to be created/updated\n private updateTextures() {\n if (this.textures[0] !== ExtSplats.emptyTexture) {\n const { width, height, depth } = this.textures[0].image;\n if (this.maxSplats !== width * height * depth) {\n // The existing source texture isn't the right size, so dispose it\n this.textures[0].dispose();\n this.textures[0] = ExtSplats.emptyTexture;\n this.textures[1].dispose();\n this.textures[1] = ExtSplats.emptyTexture;\n }\n }\n if (this.textures[0] === ExtSplats.emptyTexture) {\n // Allocate a new source texture of the right size\n const { width, height, depth } = getTextureSize(this.maxSplats);\n this.textures[0] = newUint32ArrayTexture(\n this.extArrays[0],\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n this.textures[1] = newUint32ArrayTexture(\n this.extArrays[1],\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n } else if (\n this.extArrays[0].buffer !== this.textures[0].image.data.buffer\n ) {\n this.textures[0].image.data = new Uint8Array(this.extArrays[0].buffer);\n this.textures[1].image.data = new Uint8Array(this.extArrays[1].buffer);\n // Indicate to Three.js that the source textures needs to be uploaded to the GPU\n this.textures[0].needsUpdate = true;\n this.textures[1].needsUpdate = true;\n }\n }\n\n extractSplats(indices: Uint32Array, pageColoring: boolean) {\n const maxSplats = getTextureSize(indices.length).maxSplats;\n const newSplats = new ExtSplats({ maxSplats });\n for (let i = 0; i < indices.length; i++) {\n const splat = this.getSplat(indices[i]);\n if (pageColoring) {\n let hue = (indices[i] >>> 16) * 0.61803398875;\n hue = hue - Math.floor(hue);\n const r = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 3.0) - 1.0));\n const g = Math.max(0, Math.min(1, Math.abs(hue * 6.0 + 1.0) - 1.0));\n const b = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 1.0) - 1.0));\n splat.color.r *= r;\n splat.color.g *= g;\n splat.color.b *= b;\n }\n newSplats.pushSplat(\n splat.center,\n splat.scales,\n splat.quaternion,\n splat.opacity,\n splat.color,\n );\n }\n return newSplats;\n }\n\n static emptyArray = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyTexture = newUint32ArrayTexture(\n null,\n 1,\n 1,\n 1,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n\n disposeLodSplats() {\n if (this.lodSplats) {\n this.lodSplats.dispose();\n this.lodSplats = undefined;\n }\n }\n\n async createLodSplats({\n rgbaArray,\n quality,\n }: { rgbaArray?: RgbaArray; quality?: boolean } = {}) {\n const lodBase =\n typeof this.lod === \"number\"\n ? Math.max(1.1, Math.min(2.0, this.lod))\n : quality\n ? 1.75\n : 1.5;\n const extArrays = [this.extArrays[0].slice(), this.extArrays[1].slice()];\n const rgba = rgbaArray ? (await rgbaArray.getArray()).slice() : undefined;\n const extra = {\n sh1: this.extra.sh1 ? (this.extra.sh1 as Uint32Array).slice() : undefined,\n sh2: this.extra.sh2 ? (this.extra.sh2 as Uint32Array).slice() : undefined,\n sh3: this.extra.sh3 ? (this.extra.sh3 as Uint32Array).slice() : undefined,\n };\n const decoded = await workerPool.withWorker(async (worker) => {\n return (await worker.call(\n quality ? \"qualityLodExtSplats\" : \"tinyLodExtSplats\",\n {\n numSplats: this.numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n },\n )) as {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record;\n };\n });\n\n const lodSplats = new ExtSplats(decoded);\n if (this.lodSplats) {\n this.lodSplats.dispose();\n }\n\n this.lodSplats = lodSplats;\n this.nonLod = true;\n this.lod = quality ? \"quality\" : true;\n }\n\n static emptyUint32x4 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n}\n\nexport const dynoExtSplats = (extSplats?: ExtSplats) =>\n new DynoExtSplats({ extSplats });\n\nexport class DynoExtSplats extends DynoUniform<\n typeof TExtSplats,\n \"extSplats\",\n {\n textureArray1: THREE.DataArrayTexture;\n textureArray2: THREE.DataArrayTexture;\n numSplats: number;\n }\n> {\n extSplats?: ExtSplats;\n\n constructor({ extSplats }: { extSplats?: ExtSplats } = {}) {\n super({\n key: \"extSplats\",\n type: TExtSplats,\n globals: () => [defineExtSplats],\n value: {\n textureArray1: ExtSplats.emptyTexture,\n textureArray2: ExtSplats.emptyTexture,\n numSplats: 0,\n },\n update: (value) => {\n value.textureArray1 =\n this.extSplats?.textures[0] ?? ExtSplats.emptyTexture;\n value.textureArray2 =\n this.extSplats?.textures[1] ?? ExtSplats.emptyTexture;\n value.numSplats = this.extSplats?.numSplats ?? 0;\n return value;\n },\n });\n this.extSplats = extSplats;\n }\n}\n\nexport const defineEvaluateExtSH1 = unindent(`\n vec3 evaluateExtSH1(uvec4 packed, vec3 viewDir) {\n vec3 sh1_0 = decodeExtRgb(packed.x);\n vec3 sh1_1 = decodeExtRgb(packed.y);\n vec3 sh1_2 = decodeExtRgb(packed.z);\n\n return sh1_0 * (-0.4886025 * viewDir.y)\n + sh1_1 * (0.4886025 * viewDir.z)\n + sh1_2 * (-0.4886025 * viewDir.x);\n }\n`);\n\nexport const defineEvaluateExtSH12 = unindent(`\n vec3 evaluateExtSH12(uvec4 packed1, uvec4 packed2, vec3 viewDir) {\n vec3 sh1_0 = decodeExtRgb(packed1.x);\n vec3 sh1_1 = decodeExtRgb(packed1.y);\n vec3 sh1_2 = decodeExtRgb(packed1.z);\n\n vec3 sh2_0 = decodeExtRgb(packed1.w);\n vec3 sh2_1 = decodeExtRgb(packed2.x);\n vec3 sh2_2 = decodeExtRgb(packed2.y);\n vec3 sh2_3 = decodeExtRgb(packed2.z);\n vec3 sh2_4 = decodeExtRgb(packed2.w);\n\n vec3 sh1Rgb = sh1_0 * (-0.4886025 * viewDir.y)\n + sh1_1 * (0.4886025 * viewDir.z)\n + sh1_2 * (-0.4886025 * viewDir.x);\n\n vec3 sh2Rgb = sh2_0 * (1.0925484 * viewDir.x * viewDir.y)\n + sh2_1 * (-1.0925484 * viewDir.y * viewDir.z)\n + sh2_2 * (0.3153915 * (2.0 * viewDir.z * viewDir.z - viewDir.x * viewDir.x - viewDir.y * viewDir.y))\n + sh2_3 * (-1.0925484 * viewDir.x * viewDir.z)\n + sh2_4 * (0.5462742 * (viewDir.x * viewDir.x - viewDir.y * viewDir.y));\n\n return sh1Rgb + sh2Rgb;\n }\n`);\n\nexport const defineEvaluateExtSH3 = unindent(`\n vec3 evaluateExtSH3(uvec4 packedA, uvec4 packedB, vec3 viewDir) {\n vec3 sh3_0 = decodeExtRgb(packedA.x);\n vec3 sh3_1 = decodeExtRgb(packedA.y);\n vec3 sh3_2 = decodeExtRgb(packedA.z);\n vec3 sh3_3 = decodeExtRgb(packedA.w);\n vec3 sh3_4 = decodeExtRgb(packedB.x);\n vec3 sh3_5 = decodeExtRgb(packedB.y);\n vec3 sh3_6 = decodeExtRgb(packedB.z);\n\n float xx = viewDir.x * viewDir.x;\n float yy = viewDir.y * viewDir.y;\n float zz = viewDir.z * viewDir.z;\n float xy = viewDir.x * viewDir.y;\n float yz = viewDir.y * viewDir.z;\n float zx = viewDir.z * viewDir.x;\n\n return sh3_0 * (-0.5900436 * viewDir.y * (3.0 * xx - yy))\n + sh3_1 * (2.8906114 * xy * viewDir.z) +\n + sh3_2 * (-0.4570458 * viewDir.y * (4.0 * zz - xx - yy))\n + sh3_3 * (0.3731763 * viewDir.z * (2.0 * zz - 3.0 * xx - 3.0 * yy))\n + sh3_4 * (-0.4570458 * viewDir.x * (4.0 * zz - xx - yy))\n + sh3_5 * (1.4453057 * viewDir.z * (xx - yy))\n + sh3_6 * (-0.5900436 * viewDir.x * (xx - 3.0 * yy));\n }\n`);\n\nexport function evaluateExtSH({\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3TextureA,\n sh3TextureB,\n}: {\n coord: DynoVal<\"ivec3\">;\n viewDir: DynoVal<\"vec3\">;\n numSh: DynoVal<\"int\">;\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3TextureA?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n sh3TextureB?: DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>;\n}) {\n return new Dyno({\n inTypes: {\n coord: \"ivec3\",\n viewDir: \"vec3\",\n numSh: \"int\",\n sh1Texture: \"usampler2DArray\",\n sh2Texture: \"usampler2DArray\",\n sh3TextureA: \"usampler2DArray\",\n sh3TextureB: \"usampler2DArray\",\n },\n outTypes: { rgb: \"vec3\" },\n inputs: {\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3TextureA,\n sh3TextureB,\n },\n globals: () => [\n defineEvaluateExtSH1,\n defineEvaluateExtSH12,\n defineEvaluateExtSH3,\n ],\n statements: ({ inputs, outputs }) => {\n const lines = [\"vec3 rgb = vec3(0.0);\"];\n if (inputs.sh1Texture) {\n if (!inputs.sh2Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 1) {\n rgb = evaluateExtSH1(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0), ${inputs.viewDir});\n }\n `),\n );\n } else {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} == 1) {\n rgb = evaluateExtSH1(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0), ${inputs.viewDir});\n } else if (${inputs.numSh} >= 2) {\n rgb = evaluateExtSH12(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0), texelFetch(${inputs.sh2Texture}, ${inputs.coord}, 0), ${inputs.viewDir});\n `),\n );\n\n if (inputs.sh3TextureA && inputs.sh3TextureB) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 3) {\n rgb += evaluateExtSH3(texelFetch(${inputs.sh3TextureA}, ${inputs.coord}, 0), texelFetch(${inputs.sh3TextureB}, ${inputs.coord}, 0), ${inputs.viewDir});\n }\n `),\n );\n }\n\n lines.push(\"}\");\n }\n }\n lines.push(`${outputs.rgb} = rgb;`);\n return lines;\n },\n }).outputs;\n}\n\nfunction newUint32ArrayTexture(\n data: Uint32Array | null,\n width: number,\n height: number,\n depth: number,\n format: THREE.AnyPixelFormat,\n type: THREE.TextureDataType,\n internalFormat: THREE.PixelFormatGPU,\n): THREE.DataArrayTexture {\n const texture = new THREE.DataArrayTexture(\n data as Uint32Array,\n width,\n height,\n depth,\n );\n texture.format = format;\n texture.type = type;\n texture.internalFormat = internalFormat;\n texture.needsUpdate = true;\n return texture;\n}\n","/* @ts-self-types=\"./spark_rs.d.ts\" */\n\n/**\n * @param {Uint8Array} bytes\n * @returns {any}\n */\nexport function decode_rad_header(bytes) {\n const ret = wasm.decode_rad_header(bytes);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @returns {Uint32Array}\n */\nexport function get_raycast_buffer() {\n const ret = wasm.get_raycast_buffer();\n return ret;\n}\n\n/**\n * @returns {Uint32Array}\n */\nexport function get_raycast_buffer2() {\n const ret = wasm.get_raycast_buffer2();\n return ret;\n}\n\n/**\n * @param {number} origin_x\n * @param {number} origin_y\n * @param {number} origin_z\n * @param {number} dir_x\n * @param {number} dir_y\n * @param {number} dir_z\n * @param {number} min_opacity\n * @param {number} near\n * @param {number} far\n * @param {number} count\n * @returns {Float32Array}\n */\nexport function raycast_ext_buffers(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count) {\n const ret = wasm.raycast_ext_buffers(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count);\n return ret;\n}\n\n/**\n * @param {number} origin_x\n * @param {number} origin_y\n * @param {number} origin_z\n * @param {number} dir_x\n * @param {number} dir_y\n * @param {number} dir_z\n * @param {number} min_opacity\n * @param {number} near\n * @param {number} far\n * @param {number} count\n * @param {number} ln_scale_min\n * @param {number} ln_scale_max\n * @param {boolean} lod_opacity\n * @returns {Float32Array}\n */\nexport function raycast_packed_buffer(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count, ln_scale_min, ln_scale_max, lod_opacity) {\n const ret = wasm.raycast_packed_buffer(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count, ln_scale_min, ln_scale_max, lod_opacity);\n return ret;\n}\n\n/**\n * @param {number} origin_x\n * @param {number} origin_y\n * @param {number} origin_z\n * @param {number} dir_x\n * @param {number} dir_y\n * @param {number} dir_z\n * @param {number} min_opacity\n * @param {number} near\n * @param {number} far\n * @param {number} num_splats\n * @param {Uint32Array} packed_splats\n * @param {number} ln_scale_min\n * @param {number} ln_scale_max\n * @param {boolean} lod_opacity\n * @returns {Float32Array}\n */\nexport function raycast_packed_splats(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, num_splats, packed_splats, ln_scale_min, ln_scale_max, lod_opacity) {\n const ret = wasm.raycast_packed_splats(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, num_splats, packed_splats, ln_scale_min, ln_scale_max, lod_opacity);\n return ret;\n}\n\n/**\n * @returns {boolean}\n */\nexport function simd_enabled() {\n const ret = wasm.simd_enabled();\n return ret !== 0;\n}\n\nexport function wasm_start() {\n wasm.wasm_start();\n}\n\nfunction __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_fd4646b401926788: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_26bffbe236bf73f9: function(arg0) {\n const ret = new Float32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_6c60b2e8ad0e9383: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2;\n },\n __wbg_set_8ee2d34facb8466e: function() { return handleError(function (arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments); },\n __wbg_set_a98c8da6557e63de: function(arg0, arg1, arg2) {\n arg0.set(getArrayF32FromWasm0(arg1, arg2));\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n // Cast intrinsic for `F64 -> Externref`.\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n // Cast intrinsic for `Ref(Slice(F32)) -> NamedExternref(\"Float32Array\")`.\n const ret = getArrayF32FromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_cast_0000000000000003: function(arg0, arg1) {\n // Cast intrinsic for `Ref(Slice(U32)) -> NamedExternref(\"Uint32Array\")`.\n const ret = getArrayU32FromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_cast_0000000000000004: function(arg0, arg1) {\n // Cast intrinsic for `Ref(String) -> Externref`.\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_cast_0000000000000005: function(arg0) {\n // Cast intrinsic for `U64 -> Externref`.\n const ret = BigInt.asUintN(64, arg0);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, undefined);\n table.set(offset + 0, undefined);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n },\n };\n return {\n __proto__: null,\n \"./spark_rs_bg.js\": import0,\n };\n}\n\nfunction addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n}\n\nfunction getArrayF32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getFloat32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n}\n\nlet cachedDataViewMemory0 = null;\nfunction getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || (cachedDataViewMemory0.buffer.detached === undefined && cachedDataViewMemory0.buffer !== wasm.memory.buffer)) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n}\n\nlet cachedFloat32ArrayMemory0 = null;\nfunction getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n}\n\nfunction getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n}\n\nlet cachedUint32ArrayMemory0 = null;\nfunction getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n}\n\nlet cachedUint8ArrayMemory0 = null;\nfunction getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n}\n\nfunction handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n}\n\nfunction passStringToWasm0(arg, malloc, realloc) {\n if (realloc === undefined) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr, ptr + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr;\n }\n\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n\n const mem = getUint8ArrayMemory0();\n\n let offset = 0;\n\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 0x7F) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n\n WASM_VECTOR_LEN = offset;\n return ptr;\n}\n\nfunction takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n}\n\nlet cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\ncachedTextDecoder.decode();\nconst MAX_SAFARI_DECODE_BYTES = 2146435072;\nlet numBytesDecoded = 0;\nfunction decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n}\n\nconst cachedTextEncoder = new TextEncoder();\n\nif (!('encodeInto' in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function (arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n}\n\nlet WASM_VECTOR_LEN = 0;\n\nlet wasmModule, wasm;\nfunction __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n wasmModule = module;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n}\n\nasync function __wbg_load(module, imports) {\n if (typeof Response === 'function' && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === 'function') {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n\n if (validResponse && module.headers.get('Content-Type') !== 'application/wasm') {\n console.warn(\"`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n\", e);\n\n } else { throw e; }\n }\n }\n\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n\n function expectedResponseType(type) {\n switch (type) {\n case 'basic': case 'cors': case 'default': return true;\n }\n return false;\n }\n}\n\nfunction initSync(module) {\n if (wasm !== undefined) return wasm;\n\n\n if (module !== undefined) {\n if (Object.getPrototypeOf(module) === Object.prototype) {\n ({module} = module)\n } else {\n console.warn('using deprecated parameters for `initSync()`; pass a single object instead')\n }\n }\n\n const imports = __wbg_get_imports();\n if (!(module instanceof WebAssembly.Module)) {\n module = new WebAssembly.Module(module);\n }\n const instance = new WebAssembly.Instance(module, imports);\n return __wbg_finalize_init(instance, module);\n}\n\nasync function __wbg_init(module_or_path) {\n if (wasm !== undefined) return wasm;\n\n\n if (module_or_path !== undefined) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({module_or_path} = module_or_path)\n } else {\n console.warn('using deprecated parameters for the initialization function; pass a single object instead')\n }\n }\n\n if (module_or_path === undefined) {\n module_or_path = new URL('spark_rs_bg.wasm', import.meta.url);\n }\n const imports = __wbg_get_imports();\n\n if (typeof module_or_path === 'string' || (typeof Request === 'function' && module_or_path instanceof Request) || (typeof URL === 'function' && module_or_path instanceof URL)) {\n module_or_path = fetch(module_or_path);\n }\n\n const { instance, module } = await __wbg_load(await module_or_path, imports);\n\n return __wbg_finalize_init(instance, module);\n}\n\nexport { initSync, __wbg_init as default };\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nout uvec4 target;\n\n{{ GLOBALS }}\n\nvoid produceSplat(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n target = uvec4(0u, 0u, 0u, 0u);\n if ((index >= 0) && (index < targetCount)) {\n produceSplat(index);\n }\n}\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nlayout(location = 0) out uvec4 target;\nlayout(location = 1) out vec4 target3;\n\n{{ GLOBALS }}\n\nvoid produceSplat(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n // Initial target to \"null\" splat\n target = uvec4(0u, 0u, 0u, 0u);\n\n // Initialize depthTarget to +infinity\n target3 = floatToVec4(1.0 / 0.0);\n\n if ((index >= 0) && (index < targetCount)) {\n produceSplat(index);\n }\n}\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nlayout(location = 0) out uvec4 target;\nlayout(location = 1) out uvec4 target2;\nlayout(location = 2) out vec4 target3;\n// layout(location = 0) out vec4 target3;\n// layout(location = 1) out uvec4 target;\n// layout(location = 2) out uvec4 target2;\n\n{{ GLOBALS }}\n\nvoid produceSplat(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n // Initial targets to \"null\" splat\n target = uvec4(0u, 0u, 0u, 0u);\n target2 = uvec4(0u, 0u, 0u, 0u);\n\n // Initialize target3 to +infinity\n target3 = floatToVec4(1.0 / 0.0);\n\n if ((index >= 0) && (index < targetCount)) {\n produceSplat(index);\n }\n}\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nout vec4 target;\n\n{{ GLOBALS }}\n\nvoid computeReadback(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n if ((index >= 0) && (index < targetCount)) {\n computeReadback(index);\n } else {\n target = vec4(0.0, 0.0, 0.0, 0.0);\n }\n}\n","\nprecision highp float;\nprecision highp int;\n\n#include \n\nuniform float near;\nuniform float far;\nuniform bool encodeLinear;\nuniform float time;\nuniform bool debugFlag;\nuniform float maxStdDev;\nuniform float minAlpha;\nuniform bool stochastic;\nuniform bool disableFalloff;\nuniform float falloff;\n\nuniform bool splatTexEnable;\nuniform sampler3D splatTexture;\nuniform mat2 splatTexMul;\nuniform vec2 splatTexAdd;\nuniform float splatTexNear;\nuniform float splatTexFar;\nuniform float splatTexMid;\n\nout vec4 fragColor;\n\nin vec4 vRgba;\nin vec2 vSplatUv;\nin vec3 vNdc;\nflat in uint vSplatIndex;\n\nvoid main() {\n vec4 rgba = vRgba;\n\n float z = dot(vSplatUv, vSplatUv);\n if (!splatTexEnable) {\n if (z > (maxStdDev * maxStdDev)) {\n discard;\n }\n } else {\n vec2 uv = splatTexMul * vSplatUv + splatTexAdd;\n float ndcZ = vNdc.z;\n float depth = (2.0 * near * far) / (far + near - ndcZ * (far - near));\n float clampedFar = max(splatTexFar, splatTexNear);\n float clampedDepth = clamp(depth, splatTexNear, clampedFar);\n float logDepth = log2(clampedDepth + 1.0);\n float logNear = log2(splatTexNear + 1.0);\n float logFar = log2(clampedFar + 1.0);\n\n float texZ;\n if (splatTexMid > 0.0) {\n float clampedMid = clamp(splatTexMid, splatTexNear, clampedFar);\n float logMid = log2(clampedMid + 1.0);\n texZ = (clampedDepth <= clampedMid) ?\n (0.5 * ((logDepth - logNear) / (logMid - logNear))) :\n (0.5 * ((logDepth - logMid) / (logFar - logMid)) + 0.5);\n } else {\n texZ = (logDepth - logNear) / (logFar - logNear);\n }\n\n vec4 modulate = texture(splatTexture, vec3(uv, 1.0 - texZ));\n rgba *= modulate;\n }\n\n rgba.a *= mix(1.0, exp(-0.5 * z), falloff);\n\n if (rgba.a < minAlpha) {\n discard;\n }\n if (encodeLinear) {\n rgba.rgb = srgbToLinear(rgba.rgb);\n }\n\n if (stochastic) {\n const bool STEADY = false;\n uint uTime = STEADY ? 0u : floatBitsToUint(time);\n uvec2 coord = uvec2(gl_FragCoord.xy);\n uint state = uTime + 0x9e3779b9u * coord.x + 0x85ebca6bu * coord.y + 0xc2b2ae35u * uint(vSplatIndex);\n state = state * 747796405u + 2891336453u;\n uint hash = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u;\n hash = (hash >> 22u) ^ hash;\n float rand = float(hash) / 4294967296.0;\n if (rand < rgba.a) {\n fragColor = vec4(rgba.rgb, 1.0);\n } else {\n discard;\n }\n } else {\n #ifdef PREMULTIPLIED_ALPHA\n fragColor = vec4(rgba.rgb * rgba.a, rgba.a);\n #else\n fragColor = rgba;\n #endif\n }\n}\n","\nprecision highp float;\nprecision highp int;\nprecision highp usampler2DArray;\n\n#include \n\nattribute uint splatIndex;\n\nout vec4 vRgba;\nout vec2 vSplatUv;\nout vec3 vNdc;\nflat out uint vSplatIndex;\n\nuniform vec2 renderSize;\nuniform uint numSplats;\nuniform vec4 renderToViewQuat;\nuniform vec3 renderToViewPos;\nuniform float maxStdDev;\nuniform float minPixelRadius;\nuniform float maxPixelRadius;\nuniform float time;\nuniform float deltaTime;\nuniform bool debugFlag;\nuniform float minAlpha;\nuniform bool stochastic;\nuniform bool enable2DGS;\nuniform float blurAmount;\nuniform float preBlurAmount;\nuniform float focalDistance;\nuniform float apertureAngle;\nuniform float clipXY;\nuniform float focalAdjustment;\n\nuniform usampler2DArray packedSplats;\nuniform vec4 rgbMinMaxLnScaleMinMax;\n\nvoid main() {\n // Default to outside the frustum so it's discarded if we return early\n gl_Position = vec4(0.0, 0.0, 2.0, 1.0);\n\n if (uint(gl_InstanceID) >= numSplats) {\n return;\n }\n\n ivec3 texCoord;\n if (stochastic) {\n texCoord = ivec3(\n uint(gl_InstanceID) & SPLAT_TEX_WIDTH_MASK,\n (uint(gl_InstanceID) >> SPLAT_TEX_WIDTH_BITS) & SPLAT_TEX_HEIGHT_MASK,\n (uint(gl_InstanceID) >> SPLAT_TEX_LAYER_BITS)\n );\n } else {\n if (splatIndex == 0xffffffffu) {\n // Special value reserved for \"no splat\"\n return;\n }\n texCoord = ivec3(\n splatIndex & SPLAT_TEX_WIDTH_MASK,\n (splatIndex >> SPLAT_TEX_WIDTH_BITS) & SPLAT_TEX_HEIGHT_MASK,\n splatIndex >> SPLAT_TEX_LAYER_BITS\n );\n }\n uvec4 packed = texelFetch(packedSplats, texCoord, 0);\n\n vec3 center, scales;\n vec4 quaternion, rgba;\n unpackSplatEncoding(packed, center, scales, quaternion, rgba, rgbMinMaxLnScaleMinMax);\n\n if (rgba.a < minAlpha) {\n return;\n }\n bvec3 zeroScales = equal(scales, vec3(0.0));\n if (all(zeroScales)) {\n return;\n }\n\n // Compute the view space center of the splat\n vec3 viewCenter = quatVec(renderToViewQuat, center) + renderToViewPos;\n\n // Discard splats behind the camera\n if (viewCenter.z >= 0.0) {\n return;\n }\n\n // Compute the clip space center of the splat\n vec4 clipCenter = projectionMatrix * vec4(viewCenter, 1.0);\n\n // Discard splats outside near/far planes\n if (abs(clipCenter.z) >= clipCenter.w) {\n return;\n }\n\n // Discard splats more than clipXY times outside the XY frustum\n float clip = clipXY * clipCenter.w;\n if (abs(clipCenter.x) > clip || abs(clipCenter.y) > clip) {\n return;\n }\n\n // Record the splat index for entropy\n vSplatIndex = splatIndex;\n\n // Compute view space quaternion of splat\n vec4 viewQuaternion = quatQuat(renderToViewQuat, quaternion);\n\n if (enable2DGS && any(zeroScales)) {\n vRgba = rgba;\n vSplatUv = position.xy * maxStdDev;\n\n vec3 offset;\n if (zeroScales.z) {\n offset = vec3(vSplatUv.xy * scales.xy, 0.0);\n } else if (zeroScales.y) {\n offset = vec3(vSplatUv.x * scales.x, 0.0, vSplatUv.y * scales.z);\n } else {\n offset = vec3(0.0, vSplatUv.xy * scales.yz);\n }\n\n vec3 viewPos = viewCenter + quatVec(viewQuaternion, offset);\n gl_Position = projectionMatrix * vec4(viewPos, 1.0);\n vNdc = gl_Position.xyz / gl_Position.w;\n return;\n }\n\n // Compute NDC center of the splat\n vec3 ndcCenter = clipCenter.xyz / clipCenter.w;\n\n // Compute the 3D covariance matrix of the splat\n mat3 RS = scaleQuaternionToMatrix(scales, viewQuaternion);\n mat3 cov3D = RS * transpose(RS);\n\n // Compute the Jacobian of the splat's projection at its center\n vec2 scaledRenderSize = renderSize * focalAdjustment;\n vec2 focal = 0.5 * scaledRenderSize * vec2(projectionMatrix[0][0], projectionMatrix[1][1]);\n\n mat3 J;\n if(isOrthographic) {\n J = mat3(\n focal.x, 0.0, 0.0,\n 0.0, focal.y, 0.0,\n 0.0, 0.0, 0.0\n );\n } else {\n float invZ = 1.0 / viewCenter.z;\n vec2 J1 = focal * invZ;\n vec2 J2 = -(J1 * viewCenter.xy) * invZ;\n J = mat3(\n J1.x, 0.0, J2.x,\n 0.0, J1.y, J2.y,\n 0.0, 0.0, 0.0\n );\n }\n\n // Compute the 2D covariance by projecting the 3D covariance\n // and picking out the XY plane components.\n // Keeping below because we may need it in the future\n // for skinning deformations.\n // mat3 W = transpose(mat3(viewMatrix));\n // mat3 T = W * J;\n // mat3 cov2D = transpose(T) * cov3D * T;\n mat3 cov2D = transpose(J) * cov3D * J;\n float a = cov2D[0][0];\n float d = cov2D[1][1];\n float b = cov2D[0][1];\n\n // Optionally pre-blur the splat to match non-antialias optimized splats\n a += preBlurAmount;\n d += preBlurAmount;\n\n float fullBlurAmount = blurAmount;\n if ((focalDistance > 0.0) && (apertureAngle > 0.0)) {\n float focusRadius = maxPixelRadius;\n if (viewCenter.z < 0.0) {\n float focusBlur = abs((-viewCenter.z - focalDistance) / viewCenter.z);\n float apertureRadius = focal.x * tan(0.5 * apertureAngle);\n focusRadius = focusBlur * apertureRadius;\n }\n fullBlurAmount = clamp(sqr(focusRadius), blurAmount, sqr(maxPixelRadius));\n }\n\n // Do convolution with a 0.5-pixel Gaussian for anti-aliasing: sqrt(0.3) ~= 0.5\n float detOrig = a * d - b * b;\n a += fullBlurAmount;\n d += fullBlurAmount;\n float det = a * d - b * b;\n\n // Compute anti-aliasing intensity scaling factor\n float blurAdjust = sqrt(max(0.0, detOrig / det));\n rgba.a *= blurAdjust;\n if (rgba.a < minAlpha) {\n return;\n }\n\n // Compute the eigenvalue and eigenvectors of the 2D covariance matrix\n float eigenAvg = 0.5 * (a + d);\n float eigenDelta = sqrt(max(0.0, eigenAvg * eigenAvg - det));\n float eigen1 = eigenAvg + eigenDelta;\n float eigen2 = eigenAvg - eigenDelta;\n\n vec2 eigenVec1 = normalize(vec2((abs(b) < 0.001) ? 1.0 : b, eigen1 - a));\n vec2 eigenVec2 = vec2(eigenVec1.y, -eigenVec1.x);\n\n float scale1 = min(maxPixelRadius, maxStdDev * sqrt(eigen1));\n float scale2 = min(maxPixelRadius, maxStdDev * sqrt(eigen2));\n if (scale1 < minPixelRadius && scale2 < minPixelRadius) {\n return;\n }\n\n // Compute the NDC coordinates for the ellipsoid's diagonal axes.\n vec2 pixelOffset = position.x * eigenVec1 * scale1 + position.y * eigenVec2 * scale2;\n vec2 ndcOffset = (2.0 / scaledRenderSize) * pixelOffset;\n vec3 ndc = vec3(ndcCenter.xy + ndcOffset, ndcCenter.z);\n\n vRgba = rgba;\n vSplatUv = position.xy * maxStdDev;\n vNdc = ndc;\n gl_Position = vec4(ndc.xy * clipCenter.w, clipCenter.zw);\n}\n","const float LN_SCALE_MIN = -12.0;\nconst float LN_SCALE_MAX = 9.0;\n\nconst uint SPLAT_TEX_WIDTH_BITS = 11u;\nconst uint SPLAT_TEX_HEIGHT_BITS = 11u;\nconst uint SPLAT_TEX_DEPTH_BITS = 11u;\nconst uint SPLAT_TEX_LAYER_BITS = SPLAT_TEX_WIDTH_BITS + SPLAT_TEX_HEIGHT_BITS;\n\nconst uint SPLAT_TEX_WIDTH = 1u << SPLAT_TEX_WIDTH_BITS;\nconst uint SPLAT_TEX_HEIGHT = 1u << SPLAT_TEX_HEIGHT_BITS;\nconst uint SPLAT_TEX_DEPTH = 1u << SPLAT_TEX_DEPTH_BITS;\n\nconst uint SPLAT_TEX_WIDTH_MASK = SPLAT_TEX_WIDTH - 1u;\nconst uint SPLAT_TEX_HEIGHT_MASK = SPLAT_TEX_HEIGHT - 1u;\nconst uint SPLAT_TEX_DEPTH_MASK = SPLAT_TEX_DEPTH - 1u;\n\nconst uint F16_INF = 0x7c00u;\nconst float PI = 3.1415926535897932384626433832795;\n\nconst float INFINITY = 1.0 / 0.0;\nconst float NEG_INFINITY = -INFINITY;\n\nfloat sqr(float x) {\n return x * x;\n}\n\nfloat pow4(float x) {\n float x2 = x * x;\n return x2 * x2;\n}\n\nfloat pow8(float x) {\n float x4 = pow4(x);\n return x4 * x4;\n}\n\nvec3 srgbToLinear(vec3 rgb) {\n return pow(rgb, vec3(2.2));\n}\n\nvec3 linearToSrgb(vec3 rgb) {\n return pow(rgb, vec3(1.0 / 2.2));\n}\n\n// Encode a quaternion (vec4) into a 24‐bit uint with folded octahedral mapping.\nuint encodeQuatOctXy88R8(vec4 q) {\n // Ensure minimal representation: flip if q.w is negative.\n if (q.w < 0.0) {\n q = -q;\n }\n // Compute rotation angle: θ = 2 * acos(q.w) ∈ [0,π]\n float theta = 2.0 * acos(q.w);\n float halfTheta = theta * 0.5;\n float s = sin(halfTheta);\n // Recover the rotation axis; use a default if nearly zero rotation.\n vec3 axis = (abs(s) < 1e-6) ? vec3(1.0, 0.0, 0.0) : q.xyz / s;\n \n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n float sum = abs(axis.x) + abs(axis.y) + abs(axis.z);\n vec2 p = vec2(axis.x, axis.y) / sum;\n // If axis.z < 0, fold the mapping.\n if (axis.z < 0.0) {\n float oldPx = p.x;\n p.x = (1.0 - abs(p.y)) * (p.x >= 0.0 ? 1.0 : -1.0);\n p.y = (1.0 - abs(oldPx)) * (p.y >= 0.0 ? 1.0 : -1.0);\n }\n // Remap from [-1,1] to [0,1]\n float u_f = p.x * 0.5 + 0.5;\n float v_f = p.y * 0.5 + 0.5;\n // Quantize to 8 bits (0 to 255)\n uint quantU = uint(clamp(round(u_f * 255.0), 0.0, 255.0));\n uint quantV = uint(clamp(round(v_f * 255.0), 0.0, 255.0));\n \n // --- Angle Quantization ---\n // Quantize θ ∈ [0,π] to 8 bits (0 to 255)\n uint angleInt = uint(clamp(round((theta / 3.14159265359) * 255.0), 0.0, 255.0));\n \n // Pack bits: bits [0–7]: quantU, [8–15]: quantV, [16–23]: angleInt.\n return (angleInt << 16u) | (quantV << 8u) | quantU;\n}\n\n// Decode a 24‐bit encoded uint into a quaternion (vec4) using the folded octahedral inverse.\nvec4 decodeQuatOctXy88R8(uint encoded) {\n // Extract the fields.\n uint quantU = encoded & uint(0xFFu); // bits 0–7\n uint quantV = (encoded >> 8u) & uint(0xFFu); // bits 8–15\n uint angleInt = encoded >> 16u; // bits 16–23\n\n // Recover u and v in [0,1], then map to [-1,1].\n float u_f = float(quantU) / 255.0;\n float v_f = float(quantV) / 255.0;\n vec2 f = vec2(u_f * 2.0 - 1.0, v_f * 2.0 - 1.0);\n\n vec3 axis = vec3(f.xy, 1.0 - abs(f.x) - abs(f.y));\n float t = max(-axis.z, 0.0);\n axis.x += (axis.x >= 0.0) ? -t : t;\n axis.y += (axis.y >= 0.0) ? -t : t;\n axis = normalize(axis);\n \n // Decode the angle θ ∈ [0,π].\n float theta = (float(angleInt) / 255.0) * 3.14159265359;\n float halfTheta = theta * 0.5;\n float s = sin(halfTheta);\n float w = cos(halfTheta);\n \n return vec4(axis * s, w);\n}\n\nuint encodeQuatOctXy1010R12(vec4 q) {\n // Ensure minimal representation: flip if q.w is negative.\n if (q.w < 0.0) {\n q = -q;\n }\n // Compute rotation angle: θ = 2 * acos(q.w) ∈ [0,π]\n float halfTheta = acos(q.w);\n float theta = 2.0 * halfTheta;\n float s = sin(halfTheta);\n // Recover the rotation axis; use a default if nearly zero rotation.\n vec3 axis = (abs(s) < 1e-6) ? vec3(1.0, 0.0, 0.0) : q.xyz / s;\n \n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n float sum = abs(axis.x) + abs(axis.y) + abs(axis.z);\n vec2 p = vec2(axis.x, axis.y) / sum;\n // If axis.z < 0, fold the mapping.\n if (axis.z < 0.0) {\n float oldPx = p.x;\n p.x = (1.0 - abs(p.y)) * (p.x >= 0.0 ? 1.0 : -1.0);\n p.y = (1.0 - abs(oldPx)) * (p.y >= 0.0 ? 1.0 : -1.0);\n }\n // Remap from [-1,1] to [0,1]\n float u_f = p.x * 0.5 + 0.5;\n float v_f = p.y * 0.5 + 0.5;\n // Quantize to 10 bits (0 to 1023)\n uint quantU = uint(clamp(round(u_f * 1023.0), 0.0, 1023.0));\n uint quantV = uint(clamp(round(v_f * 1023.0), 0.0, 1023.0));\n \n // --- Angle Quantization ---\n // Quantize θ ∈ [0,π] to 12 bits (0 to 4095)\n uint angleInt = uint(clamp(round((theta / PI) * 4095.0), 0.0, 4095.0));\n \n // Pack bits: bits [0–9]: quantU, [10–19]: quantV, [20–31]: angleInt.\n return (angleInt << 20u) | (quantV << 10u) | quantU;\n}\n\nvec4 decodeQuatOctXy1010R12(uint encoded) {\n // Extract the fields.\n uint quantU = encoded & uint(0x3FFu); // bits 0–9\n uint quantV = (encoded >> 10u) & uint(0x3FFu); // bits 10–19\n uint angleInt = encoded >> 20u; // bits 20–31\n\n // Recover u and v in [0,1], then map to [-1,1].\n float u_f = float(quantU) / 1023.0;\n float v_f = float(quantV) / 1023.0;\n vec2 f = vec2(u_f * 2.0 - 1.0, v_f * 2.0 - 1.0);\n\n vec3 axis = vec3(f.xy, 1.0 - abs(f.x) - abs(f.y));\n float t = max(-axis.z, 0.0);\n axis.x += (axis.x >= 0.0) ? -t : t;\n axis.y += (axis.y >= 0.0) ? -t : t;\n axis = normalize(axis);\n \n // Decode the angle θ ∈ [0,π].\n float theta = (float(angleInt) / 4095.0) * PI;\n float halfTheta = theta * 0.5;\n float s = sin(halfTheta);\n float w = cos(halfTheta);\n \n return vec4(axis * s, w);\n}\n\n// Pack a Gsplat into a uvec4\nuvec4 packSplatEncoding(\n vec3 center, vec3 scales, vec4 quaternion, vec4 rgba, vec4 rgbMinMaxLnScaleMinMax\n) {\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n vec3 encRgb = (rgba.rgb - vec3(rgbMin)) / (rgbMax - rgbMin);\n uvec4 uRgba = uvec4(round(clamp(vec4(encRgb, rgba.a) * 255.0, 0.0, 255.0)));\n\n uint uQuat = encodeQuatOctXy88R8(quaternion);\n // uint uQuat = encodeQuatXyz888(quaternion);\n // uint uQuat = encodeQuatEulerXyz888(quaternion);\n uvec3 uQuat3 = uvec3(uQuat & 0xffu, (uQuat >> 8u) & 0xffu, (uQuat >> 16u) & 0xffu);\n\n // Encode scales in three uint8s, where 0=>0.0 and 1..=255 stores log scale\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n uvec3 uScales = uvec3(\n (scales.x == 0.0) ? 0u : uint(round(clamp((log(scales.x) - lnScaleMin) * lnScaleScale, 0.0, 254.0))) + 1u,\n (scales.y == 0.0) ? 0u : uint(round(clamp((log(scales.y) - lnScaleMin) * lnScaleScale, 0.0, 254.0))) + 1u,\n (scales.z == 0.0) ? 0u : uint(round(clamp((log(scales.z) - lnScaleMin) * lnScaleScale, 0.0, 254.0))) + 1u\n );\n\n // Pack it all into 4 x uint32\n uint word0 = uRgba.r | (uRgba.g << 8u) | (uRgba.b << 16u) | (uRgba.a << 24u);\n uint word1 = packHalf2x16(center.xy);\n uint word2 = packHalf2x16(vec2(center.z, 0.0)) | (uQuat3.x << 16u) | (uQuat3.y << 24u);\n uint word3 = uScales.x | (uScales.y << 8u) | (uScales.z << 16u) | (uQuat3.z << 24u);\n return uvec4(word0, word1, word2, word3);\n}\n\n// Pack a Gsplat into a uvec4\nuvec4 packSplat(vec3 center, vec3 scales, vec4 quaternion, vec4 rgba) {\n return packSplatEncoding(center, scales, quaternion, rgba, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n}\n\nvoid unpackSplatEncoding(uvec4 packed, out vec3 center, out vec3 scales, out vec4 quaternion, out vec4 rgba, vec4 rgbMinMaxLnScaleMinMax) {\n uint word0 = packed.x, word1 = packed.y, word2 = packed.z, word3 = packed.w;\n\n uvec4 uRgba = uvec4(word0 & 0xffu, (word0 >> 8u) & 0xffu, (word0 >> 16u) & 0xffu, (word0 >> 24u) & 0xffu);\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n rgba = (vec4(uRgba) / 255.0);\n rgba.rgb = rgba.rgb * (rgbMax - rgbMin) + rgbMin;\n\n center = vec4(\n unpackHalf2x16(word1),\n unpackHalf2x16(word2 & 0xffffu)\n ).xyz;\n\n uvec3 uScales = uvec3(word3 & 0xffu, (word3 >> 8u) & 0xffu, (word3 >> 16u) & 0xffu);\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float lnScaleScale = (lnScaleMax - lnScaleMin) / 254.0;\n scales = vec3(\n (uScales.x == 0u) ? 0.0 : exp(lnScaleMin + float(uScales.x - 1u) * lnScaleScale),\n (uScales.y == 0u) ? 0.0 : exp(lnScaleMin + float(uScales.y - 1u) * lnScaleScale),\n (uScales.z == 0u) ? 0.0 : exp(lnScaleMin + float(uScales.z - 1u) * lnScaleScale)\n );\n\n\n uint uQuat = ((word2 >> 16u) & 0xFFFFu) | ((word3 >> 8u) & 0xFF0000u);\n quaternion = decodeQuatOctXy88R8(uQuat);\n // quaternion = decodeQuatXyz888(uQuat);\n // quaternion = decodeQuatEulerXyz888(uQuat);\n}\n\n// Unpack a Gsplat from a uvec4\nvoid unpackSplat(uvec4 packed, out vec3 center, out vec3 scales, out vec4 quaternion, out vec4 rgba) {\n unpackSplatEncoding(packed, center, scales, quaternion, rgba, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n}\n\nuvec4 packSplatCovEncoding(\n vec3 center, vec4 rgba, vec3 xxyyzz, vec3 xyxzyz, vec4 rgbMinMaxLnScaleMinMax\n) {\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n vec3 encRgb = (rgba.rgb - vec3(rgbMin)) / (rgbMax - rgbMin);\n uvec4 uRgba = uvec4(round(clamp(vec4(encRgb, rgba.a) * 255.0, 0.0, 255.0)));\n\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float diagScale = 255.0 / (2.0 * (lnScaleMax - lnScaleMin));\n uvec3 uXxyyzz = uvec3(round(clamp((log(xxyyzz) - 2.0 * lnScaleMin) * diagScale, 0.0, 255.0)));\n\n vec3 xyxzyzCor = vec3(\n clamp(xyxzyz.x / sqrt(xxyyzz.x * xxyyzz.y), -1.0, 1.0),\n clamp(xyxzyz.y / sqrt(xxyyzz.x * xxyyzz.z), -1.0, 1.0),\n clamp(xyxzyz.z / sqrt(xxyyzz.y * xxyyzz.z), -1.0, 1.0)\n );\n ivec3 iXyxzyzCor = ivec3(round(xyxzyzCor * 127.0));\n\n // Pack it all into 4 x uint32\n uint word0 = uRgba.r | (uRgba.g << 8u) | (uRgba.b << 16u) | (uRgba.a << 24u);\n uint word1 = packHalf2x16(center.xy);\n uint word2 = packHalf2x16(vec2(center.z, 0.0)) |\n ((uint(iXyxzyzCor.y) & 0xffu) << 16u) |\n ((uint(iXyxzyzCor.z) & 0xffu) << 24u);\n uint word3 =\n uXxyyzz.x | (uXxyyzz.y << 8u) | (uXxyyzz.z << 16u) |\n ((uint(iXyxzyzCor.x) & 0xffu) << 24u);\n return uvec4(word0, word1, word2, word3);\n}\n\nvoid unpackSplatCovEncoding(uvec4 packed, out vec3 center, out vec4 rgba, out vec3 xxyyzz, out vec3 xyxzyz, vec4 rgbMinMaxLnScaleMinMax) {\n uint word0 = packed.x, word1 = packed.y, word2 = packed.z, word3 = packed.w;\n\n uvec4 uRgba = uvec4(word0 & 0xffu, (word0 >> 8u) & 0xffu, (word0 >> 16u) & 0xffu, (word0 >> 24u) & 0xffu);\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n rgba = (vec4(uRgba) / 255.0);\n rgba.rgb = rgba.rgb * (rgbMax - rgbMin) + rgbMin;\n\n center = vec3(\n unpackHalf2x16(word1),\n unpackHalf2x16(word2 & 0xffffu).x\n );\n\n uvec3 uXxyyzz = uvec3(word3 & 0xffu, (word3 >> 8u) & 0xffu, (word3 >> 16u) & 0xffu);\n ivec3 iXyxzyzCor = ivec3(int(word3) >> 24, int(word2 << 8u) >> 24, int(word2) >> 24);\n\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float diagScale = 2.0 * (lnScaleMax - lnScaleMin) / 255.0;\n xxyyzz = exp(2.0 * lnScaleMin + vec3(uXxyyzz) * diagScale);\n\n vec3 xyxzyzCor = vec3(iXyxzyzCor) / 127.0;\n xyxzyz = xyxzyzCor * vec3(\n sqrt(xxyyzz.x * xxyyzz.y),\n sqrt(xxyyzz.x * xxyyzz.z),\n sqrt(xxyyzz.y * xxyyzz.z)\n );\n}\n\nvoid packSplatExtCov(\n out uvec4 packed, out uvec4 packed2,\n vec3 center, vec4 rgba, vec3 xxyyzz, vec3 xyxzyz\n) {\n packed.x = floatBitsToUint(center.x);\n packed.y = floatBitsToUint(center.y);\n packed.z = floatBitsToUint(center.z);\n packed.w = packHalf2x16(vec2(rgba.a, rgba.b));\n packed2.x = packHalf2x16(rgba.rg);\n\n vec3 xyxzyzCor = vec3(\n clamp(xyxzyz.x / sqrt(xxyyzz.x * xxyyzz.y), -1.0, 1.0),\n clamp(xyxzyz.y / sqrt(xxyyzz.x * xxyyzz.z), -1.0, 1.0),\n clamp(xyxzyz.z / sqrt(xxyyzz.y * xxyyzz.z), -1.0, 1.0)\n );\n xyxzyzCor = sign(xyxzyzCor) * clamp(log(abs(xyxzyzCor)), -100.0, -0.0000001);\n xxyyzz = log(xxyyzz);\n\n packed2.y = packHalf2x16(vec2(xxyyzz.x, xxyyzz.y));\n packed2.z = packHalf2x16(vec2(xxyyzz.z, xyxzyzCor.x));\n packed2.w = packHalf2x16(vec2(xyxzyzCor.y, xyxzyzCor.z));\n}\n\nvoid unpackSplatExtCov(\n uvec4 packed, uvec4 packed2,\n out vec3 center, out vec4 rgba, out vec3 xxyyzz, out vec3 xyxzyz\n) {\n center.x = uintBitsToFloat(packed.x);\n center.y = uintBitsToFloat(packed.y);\n center.z = uintBitsToFloat(packed.z);\n\n vec2 ab = unpackHalf2x16(packed.w);\n vec2 rg = unpackHalf2x16(packed2.x);\n rgba = vec4(rg, ab.y, ab.x);\n\n vec2 xxyy = unpackHalf2x16(packed2.y);\n vec2 zzxy = unpackHalf2x16(packed2.z);\n vec2 xzyz = unpackHalf2x16(packed2.w);\n xxyyzz = exp(vec3(xxyy.x, xxyy.y, zzxy.x));\n xyxzyz = vec3(zzxy.y, xzyz.x, xzyz.y);\n xyxzyz = -sign(xyxzyz) * exp(-abs(xyxzyz));\n xyxzyz *= vec3(\n sqrt(xxyyzz.x * xxyyzz.y),\n sqrt(xxyyzz.x * xxyyzz.z),\n sqrt(xxyyzz.y * xxyyzz.z)\n );\n}\n\nvoid packSplatExt(\n out uvec4 packed, out uvec4 packed2,\n vec3 center, vec3 scales, vec4 quaternion, vec4 rgba\n) {\n packed.x = floatBitsToUint(center.x);\n packed.y = floatBitsToUint(center.y);\n packed.z = floatBitsToUint(center.z);\n packed.w = packHalf2x16(vec2(rgba.a, 0.0));\n\n packed2.x = packHalf2x16(rgba.rg);\n packed2.y = packHalf2x16(vec2(rgba.b, log(scales.x)));\n packed2.z = packHalf2x16(log(scales.yz));\n packed2.w = encodeQuatOctXy1010R12(quaternion);\n}\n\nvec4 unpackSplatExtCenterAlpha(uvec4 packed) {\n return vec4(\n uintBitsToFloat(packed.x),\n uintBitsToFloat(packed.y),\n uintBitsToFloat(packed.z),\n unpackHalf2x16(packed.w).x\n );\n}\n\nfloat unpackSplatExtAlpha(uvec4 packed) {\n return unpackHalf2x16(packed.w).x;\n}\n\nvoid unpackSplatExt(\n uvec4 packed, uvec4 packed2,\n out vec3 center, out vec3 scales, out vec4 quaternion, out vec4 rgba\n) {\n center.x = uintBitsToFloat(packed.x);\n center.y = uintBitsToFloat(packed.y);\n center.z = uintBitsToFloat(packed.z);\n rgba.a = unpackHalf2x16(packed.w).x;\n\n rgba.rg = unpackHalf2x16(packed2.x);\n vec2 split = unpackHalf2x16(packed2.y);\n rgba.b = split.x;\n scales.x = exp(split.y);\n scales.yz = exp(unpackHalf2x16(packed2.z));\n quaternion = decodeQuatOctXy1010R12(packed2.w);\n}\n\nuint encodeExtRgb(vec3 rgb) {\n vec3 absRgb = abs(rgb);\n float maxAbs = max(absRgb.r, max(absRgb.g, absRgb.b));\n\n int base = clamp(int(floor(log2(maxAbs))) + 15, 0, 31);\n float divisor = exp2(float(base - 15)) / 255.0;\n\n uvec3 uRgb = uvec3(round(clamp(absRgb / divisor, 0.0, 255.0)));\n uint expSigns = (uint(base) << 3u) | ((rgb.r < 0.0 ? 0x1u : 0u) | (rgb.g < 0.0 ? 0x2u : 0u) | (rgb.b < 0.0 ? 0x4u : 0u));\n return uRgb.r | (uRgb.g << 8u) | (uRgb.b << 16u) | (expSigns << 24u);\n}\n\nvec3 decodeExtRgb(uint encoded) {\n uint biasedBase = (encoded >> 27u) & 0x1fu;\n float divisor = exp2(float(int(biasedBase) - 15)) / 255.0;\n\n vec3 rgb = vec3(uvec3(encoded & 0xffu, (encoded >> 8u) & 0xffu, (encoded >> 16u) & 0xffu));\n rgb *= divisor;\n\n return vec3(\n ((encoded & 0x1000000u) != 0u) ? -rgb.r : rgb.r,\n ((encoded & 0x2000000u) != 0u) ? -rgb.g : rgb.g,\n ((encoded & 0x4000000u) != 0u) ? -rgb.b : rgb.b\n );\n}\n\n// Rotate vector v by quaternion q\nvec3 quatVec(vec4 q, vec3 v) {\n // Rotate vector v by quaternion q\n vec3 t = 2.0 * cross(q.xyz, v);\n return v + q.w * t + cross(q.xyz, t);\n}\n\n// Apply quaternion q1 after quaternion q2\nvec4 quatQuat(vec4 q1, vec4 q2) {\n return vec4(\n q1.w * q2.x + q1.x * q2.w + q1.y * q2.z - q1.z * q2.y,\n q1.w * q2.y - q1.x * q2.z + q1.y * q2.w + q1.z * q2.x,\n q1.w * q2.z + q1.x * q2.y - q1.y * q2.x + q1.z * q2.w,\n q1.w * q2.w - q1.x * q2.x - q1.y * q2.y - q1.z * q2.z\n );\n}\n\nmat3 quaternionToMatrix(vec4 q) {\n return mat3(\n (1.0 - 2.0 * (q.y * q.y + q.z * q.z)),\n (2.0 * (q.x * q.y + q.w * q.z)),\n (2.0 * (q.x * q.z - q.w * q.y)),\n (2.0 * (q.x * q.y - q.w * q.z)),\n (1.0 - 2.0 * (q.x * q.x + q.z * q.z)),\n (2.0 * (q.y * q.z + q.w * q.x)),\n (2.0 * (q.x * q.z + q.w * q.y)),\n (2.0 * (q.y * q.z - q.w * q.x)),\n (1.0 - 2.0 * (q.x * q.x + q.y * q.y))\n );\n}\n\nmat3 scaleQuaternionToMatrix(vec3 s, vec4 q) {\n // Compute the matrix of scaling by s then rotating by q\n return mat3(\n s.x * (1.0 - 2.0 * (q.y * q.y + q.z * q.z)),\n s.x * (2.0 * (q.x * q.y + q.w * q.z)),\n s.x * (2.0 * (q.x * q.z - q.w * q.y)),\n s.y * (2.0 * (q.x * q.y - q.w * q.z)),\n s.y * (1.0 - 2.0 * (q.x * q.x + q.z * q.z)),\n s.y * (2.0 * (q.y * q.z + q.w * q.x)),\n s.z * (2.0 * (q.x * q.z + q.w * q.y)),\n s.z * (2.0 * (q.y * q.z - q.w * q.x)),\n s.z * (1.0 - 2.0 * (q.x * q.x + q.y * q.y))\n );\n}\n\n// Spherical lerp between two quaternions\nvec4 slerp(vec4 q1, vec4 q2, float t) {\n // Compute the cosine of the angle between the two vectors\n float cosHalfTheta = dot(q1, q2);\n\n // If q1=q2 or q1=-q2 then theta = 0 and we can return q1\n if (abs(cosHalfTheta) >= 0.999) {\n return q1;\n }\n \n // If q1 and q2 are more than 180 degrees apart, \n // we need to negate one to get the shortest path\n if (cosHalfTheta < 0.0) {\n q2 = -q2;\n cosHalfTheta = -cosHalfTheta;\n }\n\n // Calculate temporary values\n float halfTheta = acos(cosHalfTheta);\n float sinHalfTheta = sqrt(1.0 - cosHalfTheta * cosHalfTheta);\n\n // Calculate the interpolation factors\n float ratioA = sin((1.0 - t) * halfTheta) / sinHalfTheta;\n float ratioB = sin(t * halfTheta) / sinHalfTheta;\n\n // Calculate the interpolated quaternion\n return q1 * ratioA + q2 * ratioB;\n}\n\nivec3 splatTexCoord(int index) {\n uint x = uint(index) & SPLAT_TEX_WIDTH_MASK;\n uint y = (uint(index) >> SPLAT_TEX_WIDTH_BITS) & SPLAT_TEX_HEIGHT_MASK;\n uint z = uint(index) >> SPLAT_TEX_LAYER_BITS;\n return ivec3(x, y, z);\n}\n\nivec3 pagedSplatTexCoord(int index) {\n return ivec3(index & 255, (index >> 8) & 255, index >> 16);\n}\n\nvec4 uintToVec4(uint u32) {\n uvec4 bytes = uvec4(\n u32 & 0xFFu,\n (u32 >> 8u) & 0xFFu,\n (u32 >> 16u) & 0xFFu,\n (u32 >> 24u) & 0xFFu\n );\n return vec4(bytes) / 255.0;\n}\n\nvec4 floatToVec4(float f) {\n uint u32 = floatBitsToUint(f);\n return uintToVec4(u32);\n}\n\nvec3 debugColorHue(uint i) {\n // Golden ratio conjugate; spreads hues evenly\n float hue = fract(float(i) * 0.61803398875);\n // HSV to RGB with fixed S/V\n vec3 rgb = clamp(abs(mod(hue*6.0 + vec3(0.0,4.0,2.0), 6.0) - 3.0) - 1.0, 0.0, 1.0);\n return mix(vec3(1.0), rgb, 0.85); // saturation ~0.85, value ~1.0\n}\n","\nprecision highp float;\nprecision highp int;\n\n#include \n\nuniform float near;\nuniform float far;\nuniform bool encodeLinear;\nuniform float time;\nuniform bool debugFlag;\nuniform float maxStdDev;\nuniform float minAlpha;\nuniform bool disableFalloff;\nuniform float falloff;\n\nout vec4 fragColor;\n\nin vec4 vRgba;\nin vec2 vSplatUv;\nin vec3 vNdc;\nflat in uint vSplatIndex;\nflat in float adjustedStdDev;\n\n#include \n\nvoid main() {\n vec4 rgba = vRgba;\n\n float z2 = dot(vSplatUv, vSplatUv);\n if (z2 > (adjustedStdDev * adjustedStdDev)) {\n discard;\n }\n\n if (false) {\n // if (debugFlag) {\n float a = rgba.a;\n float shifted = sqrt(z2) - max(0.0, a - 1.0);\n float exponent = -0.5 * max(1.0, a) * sqr(max(0.0, shifted));\n float min1a = min(1.0, a);\n rgba.a = mix(min1a, min1a * exp(exponent), falloff);\n } else {\n // New falloff function, more or less equivalent\n if (rgba.a <= 1.0) {\n rgba.a = mix(rgba.a, rgba.a * exp(-0.5 * z2), falloff);\n } else {\n float a = exp((rgba.a*rgba.a - 1.0) / 2.718281828459045);\n float alpha = 1.0 - pow(1.0 - exp(-0.5 * z2), a);\n rgba.a = mix(1.0, alpha, falloff);\n }\n }\n\n if (rgba.a < minAlpha) {\n discard;\n }\n if (encodeLinear) {\n rgba.rgb = srgbToLinear(rgba.rgb);\n }\n\n #ifdef PREMULTIPLIED_ALPHA\n fragColor = vec4(rgba.rgb * rgba.a, rgba.a);\n #else\n fragColor = rgba;\n #endif\n\n #include \n}\n","\nprecision highp float;\nprecision highp int;\nprecision highp usampler2DArray;\n\n#include \n\nout vec4 vRgba;\nout vec2 vSplatUv;\nout vec3 vNdc;\nflat out uint vSplatIndex;\nflat out float adjustedStdDev;\n\n// uniform uint numSplats;\nuniform vec2 renderSize;\nuniform vec4 renderToViewQuat;\nuniform vec3 renderToViewPos;\nuniform mat3 renderToViewBasis;\nuniform float maxStdDev;\nuniform float minPixelRadius;\nuniform float maxPixelRadius;\nuniform bool enableExtSplats;\nuniform bool enableCovSplats;\nuniform float time;\nuniform float deltaTime;\nuniform bool debugFlag;\nuniform float minAlpha;\nuniform bool enable2DGS;\nuniform bool lodInflate;\nuniform float blurAmount;\nuniform float preBlurAmount;\nuniform float focalDistance;\nuniform float apertureAngle;\nuniform float clipXY;\nuniform float focalAdjustment;\n\nuniform usampler2D ordering;\nuniform usampler2DArray extSplats;\nuniform usampler2DArray extSplats2;\n\n// Required by logdepthbuf_pars_vertex (normally defined in three.js #include )\nbool isPerspectiveMatrix( mat4 m ) {\n return m[ 2 ][ 3 ] == -1.0;\n}\n\n#include \n\nvoid main() {\n // Default to outside the frustum so it's discarded if we return early\n gl_Position = vec4(0.0, 0.0, 2.0, 1.0);\n\n ivec2 orderingCoord = ivec2((gl_InstanceID >> 2) & 4095, gl_InstanceID >> 14);\n uint splatIndex = texelFetch(ordering, orderingCoord, 0)[gl_InstanceID & 3];\n if (splatIndex == 0xffffffffu) {\n // Special value reserved for \"no splat\"\n return;\n }\n\n ivec3 texCoord = splatTexCoord(int(splatIndex));\n vec3 center, scales, xxyyzz, xyxzyz;\n vec4 quaternion, rgba;\n mat3 cov3D;\n bvec3 zeroScales = bvec3(false);\n\n if (enableExtSplats) {\n uvec4 ext1 = texelFetch(extSplats, texCoord, 0);\n float alpha = unpackSplatExtAlpha(ext1);\n if ((alpha == 0.0) || (alpha < minAlpha)) {\n return;\n }\n uvec4 ext2 = texelFetch(extSplats2, texCoord, 0);\n\n if (!enableCovSplats) {\n unpackSplatExt(ext1, ext2, center, scales, quaternion, rgba);\n zeroScales = equal(scales, vec3(0.0));\n if (all(zeroScales)) {\n return;\n }\n } else {\n unpackSplatExtCov(ext1, ext2, center, rgba, xxyyzz, xyxzyz);\n if (all(equal(xxyyzz, vec3(0.0))) && all(equal(xyxzyz, vec3(0.0)))) {\n return;\n }\n }\n } else {\n uvec4 packed = texelFetch(extSplats, texCoord, 0);\n if (!enableCovSplats) {\n unpackSplatEncoding(packed, center, scales, quaternion, rgba, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n zeroScales = equal(scales, vec3(0.0));\n if (all(zeroScales)) {\n return;\n }\n } else {\n unpackSplatCovEncoding(packed, center, rgba, xxyyzz, xyxzyz, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n if (all(equal(xxyyzz, vec3(0.0))) && all(equal(xyxzyz, vec3(0.0)))) {\n return;\n }\n }\n\n rgba.a *= 2.0;\n if ((rgba.a == 0.0) || (rgba.a < minAlpha)) {\n return;\n }\n }\n\n adjustedStdDev = maxStdDev;\n if (rgba.a > 1.0) {\n // Stretch 1..2 to 1..5\n rgba.a = min(rgba.a * 4.0 - 3.0, 5.0);\n\n if (lodInflate) {\n // Adjust size to componsate for loss of opacity\n float opacity = exp((rgba.a * rgba.a - 1.0) / 2.718281828459045);\n float rescale = pow(opacity, 1.0 / 3.0);\n scales *= rescale;\n rgba.a = 1.0;\n }\n\n // Expand the maximum std dev to approximately cover the larger range\n adjustedStdDev = maxStdDev + 0.7 * (rgba.a - 1.0);\n }\n\n // Compute the view space center of the splat\n vec3 viewCenter = (!enableCovSplats ? quatVec(renderToViewQuat, center) : (renderToViewBasis * center)) + renderToViewPos;\n\n // Discard splats behind the camera\n if (viewCenter.z >= 0.0) {\n return;\n }\n\n // Compute the clip space center of the splat\n vec4 clipCenter = projectionMatrix * vec4(viewCenter, 1.0);\n\n // Discard splats outside near/far planes\n if (abs(clipCenter.z) >= clipCenter.w) {\n return;\n }\n\n // Discard splats more than clipXY times outside the XY frustum\n float clip = clipXY * clipCenter.w;\n if (abs(clipCenter.x) > clip || abs(clipCenter.y) > clip) {\n return;\n }\n\n vRgba = rgba;\n vSplatUv = position.xy * adjustedStdDev;\n\n // Record the splat index for entropy\n vSplatIndex = splatIndex;\n\n if (!enableCovSplats) {\n // Compute view space quaternion of splat\n vec4 viewQuaternion = quatQuat(renderToViewQuat, quaternion);\n\n if (enable2DGS && any(zeroScales)) {\n vec3 offset;\n if (zeroScales.z) {\n offset = vec3(vSplatUv.xy * scales.xy, 0.0);\n } else if (zeroScales.y) {\n offset = vec3(vSplatUv.x * scales.x, 0.0, vSplatUv.y * scales.z);\n } else {\n offset = vec3(0.0, vSplatUv.xy * scales.yz);\n }\n\n vec3 viewPos = viewCenter + quatVec(viewQuaternion, offset);\n gl_Position = projectionMatrix * vec4(viewPos, 1.0);\n vNdc = gl_Position.xyz / gl_Position.w;\n\n #include \n return;\n }\n\n // Compute the 3D covariance matrix of the splat\n mat3 RS = scaleQuaternionToMatrix(scales, viewQuaternion);\n cov3D = RS * transpose(RS);\n } else {\n cov3D = mat3(\n xxyyzz.x, xyxzyz.x, xyxzyz.y,\n xyxzyz.x, xxyyzz.y, xyxzyz.z,\n xyxzyz.y, xyxzyz.z, xxyyzz.z\n );\n cov3D = renderToViewBasis * cov3D * transpose(renderToViewBasis);\n }\n\n // Compute the Jacobian of the splat's projection at its center\n vec2 scaledRenderSize = renderSize * focalAdjustment;\n vec2 focal = 0.5 * scaledRenderSize * vec2(projectionMatrix[0][0], projectionMatrix[1][1]);\n\n mat3 J;\n if (isOrthographic) {\n J = mat3(\n focal.x, 0.0, 0.0,\n 0.0, focal.y, 0.0,\n 0.0, 0.0, 0.0\n );\n } else {\n float invZ = 1.0 / viewCenter.z;\n vec2 J1 = focal * invZ;\n vec2 J2 = -(J1 * viewCenter.xy) * invZ;\n J = mat3(\n J1.x, 0.0, J2.x,\n 0.0, J1.y, J2.y,\n 0.0, 0.0, 0.0\n );\n }\n\n // Compute the 2D covariance by projecting the 3D covariance\n // and picking out the XY plane components.\n mat3 cov2D = transpose(J) * cov3D * J;\n float a = cov2D[0][0];\n float d = cov2D[1][1];\n float b = cov2D[0][1];\n\n // Optionally pre-blur the splat to match non-antialias optimized splats\n a += preBlurAmount;\n d += preBlurAmount;\n\n float fullBlurAmount = blurAmount;\n if ((focalDistance > 0.0) && (apertureAngle > 0.0)) {\n float focusRadius = maxPixelRadius;\n if (viewCenter.z < 0.0) {\n float focusBlur = abs((-viewCenter.z - focalDistance) / viewCenter.z);\n float apertureRadius = focal.x * tan(0.5 * apertureAngle);\n focusRadius = focusBlur * apertureRadius;\n }\n fullBlurAmount = clamp(sqr(focusRadius), blurAmount, sqr(maxPixelRadius));\n }\n\n // Do convolution with a 0.5-pixel Gaussian for anti-aliasing: sqrt(0.3) ~= 0.5\n float detOrig = a * d - b * b;\n a += fullBlurAmount;\n d += fullBlurAmount;\n float det = a * d - b * b;\n\n // Compute anti-aliasing intensity scaling factor\n float blurAdjust = sqrt(max(0.0, detOrig / det));\n rgba.a *= blurAdjust;\n if (rgba.a < minAlpha) {\n return;\n }\n vRgba.a = rgba.a;\n\n // Compute the eigenvalue and eigenvectors of the 2D covariance matrix\n float eigenAvg = 0.5 * (a + d);\n float eigenDelta = sqrt(max(0.0, eigenAvg * eigenAvg - det));\n float eigen1 = eigenAvg + eigenDelta;\n float eigen2 = eigenAvg - eigenDelta;\n\n vec2 eigenVec1 = (abs(b) > 0.001) ? normalize(vec2(b, eigen1 - a))\n : ((a >= d) ? vec2(1.0, 0.0) : vec2(0.0, 1.0));\n vec2 eigenVec2 = vec2(eigenVec1.y, -eigenVec1.x);\n\n float scale1 = min(maxPixelRadius, adjustedStdDev * sqrt(eigen1));\n float scale2 = min(maxPixelRadius, adjustedStdDev * sqrt(eigen2));\n if (scale1 < minPixelRadius && scale2 < minPixelRadius) {\n return;\n }\n\n // Compute the NDC coordinates for the ellipsoid's diagonal axes.\n vec2 pixelOffset = position.x * eigenVec1 * scale1 + position.y * eigenVec2 * scale2;\n vec2 ndcOffset = (2.0 / scaledRenderSize) * pixelOffset;\n\n // Compute NDC center of the splat\n vec3 ndcCenter = clipCenter.xyz / clipCenter.w;\n vec3 ndc = vec3(ndcCenter.xy + ndcOffset, ndcCenter.z);\n\n vNdc = ndc;\n gl_Position = vec4(ndc.xy * clipCenter.w, clipCenter.zw);\n\n #include \n}\n","import * as THREE from \"three\";\n\nimport computeUvec4Template from \"./shaders/computeUvec4.glsl\";\nimport computeUvec4Vec4Template from \"./shaders/computeUvec4_Vec4.glsl\";\nimport computeUvec4x2Vec4Template from \"./shaders/computeUvec4x2_Vec4.glsl\";\nimport computeVec4Template from \"./shaders/computeVec4.glsl\";\nimport oldSplatFragment from \"./shaders/oldSplatFragment.glsl\";\nimport oldSplatVertex from \"./shaders/oldSplatVertex.glsl\";\nimport splatDefines from \"./shaders/splatDefines.glsl\";\nimport splatFragment from \"./shaders/splatFragment.glsl\";\nimport splatVertex from \"./shaders/splatVertex.glsl\";\n\nlet shaders: Record | null = null;\n\nexport function getShaders(): Record {\n if (!shaders) {\n // @ts-ignore\n THREE.ShaderChunk.splatDefines = splatDefines;\n shaders = {\n oldSplatVertex,\n oldSplatFragment,\n splatVertex,\n splatFragment,\n computeVec4Template,\n computeUvec4Vec4Template,\n computeUvec4x2Vec4Template,\n computeUvec4Template,\n };\n }\n return shaders;\n}\n","import * as THREE from \"three\";\nimport { FullScreenQuad } from \"three/addons/postprocessing/Pass.js\";\n\nimport { SPLAT_TEX_HEIGHT, SPLAT_TEX_WIDTH } from \"./defines\";\nimport { type Dyno, OutputRgba8, dynoBlock } from \"./dyno\";\nimport { DynoProgram, DynoProgramTemplate } from \"./dyno/program\";\nimport { getShaders } from \"./shaders\";\nimport { getTextureSize } from \"./utils\";\n\n// Readback can be used to run a Dyno program that maps an index to a 32-bit\n// RGBA8 value, which is the only allowed, portable readback format for WebGL2.\n// Using data packing and conversion you can read back any 32-bit value, which\n// Spark uses to read back 2 float16 Gsplat distance values per index.\n\nexport type Rgba8Readback = Dyno<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n\n// Readback can be performed with various typed buffers, making it convenient\n// to encode readback data in a variety of formats.\n\nexport type ReadbackBuffer =\n | ArrayBuffer\n | Uint8Array\n | Uint8ClampedArray\n | Int8Array\n | Uint16Array\n | Int16Array\n | Uint32Array\n | Int32Array\n | Float32Array;\n\nexport class Readback {\n renderer?: THREE.WebGLRenderer;\n target?: THREE.WebGLArrayRenderTarget;\n capacity: number;\n count: number;\n\n constructor({ renderer }: { renderer?: THREE.WebGLRenderer } = {}) {\n this.renderer = renderer;\n this.capacity = 0;\n this.count = 0;\n }\n\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target = undefined;\n }\n }\n\n // Ensure we have a buffer large enough for the readback of count indices.\n // Pass in previous bufer of the desired type.\n static ensureBuffer(count: number, buffer: B): B {\n // Readback is performed in a 2D array of pixels, so round up with SPLAT_TEX_WIDTH\n const roundedCount =\n Math.ceil(Math.max(1, count) / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n const bytes = roundedCount * 4;\n if (buffer.byteLength >= bytes) {\n return buffer;\n }\n\n // Need a larger buffer, create a new one of the same type\n const newBuffer = new ArrayBuffer(bytes);\n if (buffer instanceof ArrayBuffer) {\n return newBuffer as B;\n }\n\n const ctor = buffer.constructor as { new (arrayBuffer: ArrayBuffer): B };\n return new ctor(newBuffer) as B;\n }\n\n ensureBuffer(count: number, buffer: B): B {\n return Readback.ensureBuffer(count, buffer);\n }\n\n // Ensure our render target is large enough for the readback of capacity indices.\n ensureCapacity(capacity: number) {\n const { width, height, depth, maxSplats } = getTextureSize(capacity);\n if (!this.target || maxSplats > this.capacity) {\n this.dispose();\n this.capacity = maxSplats;\n\n // The only portable readback format for WebGL2 is RGBA8\n this.target = new THREE.WebGLArrayRenderTarget(width, height, depth, {\n depthBuffer: false,\n stencilBuffer: false,\n generateMipmaps: false,\n magFilter: THREE.NearestFilter,\n minFilter: THREE.NearestFilter,\n });\n this.target.texture.format = THREE.RGBAFormat;\n this.target.texture.type = THREE.UnsignedByteType;\n this.target.texture.internalFormat = \"RGBA8\";\n this.target.scissorTest = true;\n }\n }\n\n // Get a program and THREE.RawShaderMaterial for a given Rgba8Readback,\n // generating it if necessary and caching the result.\n prepareProgramMaterial(reader: Rgba8Readback): {\n program: DynoProgram;\n material: THREE.RawShaderMaterial;\n } {\n let program = Readback.readbackProgram.get(reader);\n if (!program) {\n const graph = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n reader.inputs.index = index;\n const rgba8 = new OutputRgba8({ rgba8: reader.outputs.rgba8 });\n return { rgba8 };\n },\n );\n if (!Readback.programTemplate) {\n Readback.programTemplate = new DynoProgramTemplate(\n getShaders().computeVec4Template,\n );\n }\n // Create a program from the template and graph\n program = new DynoProgram({\n graph,\n inputs: { index: \"_index\" },\n outputs: { rgba8: \"target\" },\n template: Readback.programTemplate,\n });\n Object.assign(program.uniforms, {\n targetLayer: { value: 0 },\n targetBase: { value: 0 },\n targetCount: { value: 0 },\n });\n Readback.readbackProgram.set(reader, program);\n }\n\n const material = program.prepareMaterial();\n Readback.fullScreenQuad.material = material;\n return { program, material };\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n private process({\n count,\n material,\n }: { count: number; material: THREE.RawShaderMaterial }) {\n const renderer = this.renderer;\n if (!renderer) {\n throw new Error(\"No renderer\");\n }\n if (!this.target) {\n throw new Error(\"No target\");\n }\n\n // Run the program in \"layer\" chunks, in horizontal row ranges,\n // that cover the total count of indices.\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n material.uniforms.targetBase.value = 0;\n material.uniforms.targetCount.value = count;\n let baseIndex = 0;\n\n // Keep generating layers until completed count items\n while (baseIndex < count) {\n const layer = Math.floor(baseIndex / layerSize);\n const layerBase = layer * layerSize;\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((count - layerBase) / SPLAT_TEX_WIDTH),\n );\n material.uniforms.targetLayer.value = layer;\n\n // Render the desired portion of the layer\n this.target.scissor.set(0, 0, SPLAT_TEX_WIDTH, layerYEnd);\n renderer.setRenderTarget(this.target, layer);\n renderer.xr.enabled = false;\n renderer.autoClear = false;\n Readback.fullScreenQuad.render(renderer);\n\n baseIndex += SPLAT_TEX_WIDTH * layerYEnd;\n }\n\n this.count = count;\n }\n\n private async read({\n readback,\n }: { readback: B }): Promise {\n const renderer = this.renderer;\n if (!renderer) {\n throw new Error(\"No renderer\");\n }\n if (!this.target) {\n throw new Error(\"No target\");\n }\n\n const roundedCount =\n Math.ceil(this.count / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n if (readback.byteLength < roundedCount * 4) {\n throw new Error(\n `Readback buffer too small: ${readback.byteLength} < ${roundedCount * 4}`,\n );\n }\n const readbackUint8 = new Uint8Array(\n readback instanceof ArrayBuffer ? readback : readback.buffer,\n );\n\n // We can only read back one 2D array layer of pixels at a time,\n // so loop through them, initiate the readback, and collect the\n // completion promises.\n\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n let baseIndex = 0;\n const promises = [];\n\n while (baseIndex < this.count) {\n const layer = Math.floor(baseIndex / layerSize);\n const layerBase = layer * layerSize;\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((this.count - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n renderer.setRenderTarget(this.target, layer);\n\n // Compute the subarray that this layer of readback corresponds to\n const readbackSize = SPLAT_TEX_WIDTH * layerYEnd * 4;\n const subReadback = readbackUint8.subarray(\n layerBase * 4,\n layerBase * 4 + readbackSize,\n );\n const promise = renderer?.readRenderTargetPixelsAsync(\n this.target,\n 0,\n 0,\n SPLAT_TEX_WIDTH,\n layerYEnd,\n subReadback,\n );\n promises.push(promise);\n\n baseIndex += SPLAT_TEX_WIDTH * layerYEnd;\n }\n // const gl = renderer.getContext() as WebGL2RenderingContext;\n // gl.flush();\n return Promise.all(promises).then(() => readback);\n }\n\n // Perform render operation to run the Rgba8Readback program\n // but don't perform the readback yet.\n render({\n reader,\n count,\n renderer,\n }: { reader: Rgba8Readback; count: number; renderer?: THREE.WebGLRenderer }) {\n this.renderer = renderer || this.renderer;\n if (!this.renderer) {\n throw new Error(\"No renderer\");\n }\n\n this.ensureCapacity(count);\n\n const { program, material } = this.prepareProgramMaterial(reader);\n program.update();\n\n const renderState = this.saveRenderState(this.renderer);\n this.process({ count, material });\n this.resetRenderState(this.renderer, renderState);\n }\n\n // Perform a readback of the render target, returning a buffer of the\n // given type.\n async readback({\n readback,\n }: { readback: B }): Promise {\n if (!this.renderer) {\n throw new Error(\"No renderer\");\n }\n const renderState = this.saveRenderState(this.renderer);\n const promise = this.read({ readback });\n this.resetRenderState(this.renderer, renderState);\n return promise;\n }\n\n // Perform a render and readback operation for the given Rgba8Readback,\n // and readback buffer (call ensureBuffer first).\n async renderReadback({\n reader,\n count,\n renderer,\n readback,\n }: {\n reader: Rgba8Readback;\n count: number;\n renderer?: THREE.WebGLRenderer;\n readback: B;\n }): Promise {\n this.renderer = renderer || this.renderer;\n if (!this.renderer) {\n throw new Error(\"No renderer\");\n }\n\n this.ensureCapacity(count);\n\n const { program, material } = this.prepareProgramMaterial(reader);\n program.update();\n\n const renderState = this.saveRenderState(this.renderer);\n\n // Generate output\n this.process({ count, material });\n\n // Initiate readback\n const promise = this.read({ readback });\n\n this.resetRenderState(this.renderer, renderState);\n return promise;\n }\n\n getTexture(): THREE.DataArrayTexture | undefined {\n return this.target?.texture;\n }\n\n static programTemplate: DynoProgramTemplate | null = null;\n\n // Cache for Rgba8Readback programs\n static readbackProgram = new WeakMap();\n\n // Static full-screen quad for pseudo-compute shader rendering\n static fullScreenQuad = new FullScreenQuad(\n new THREE.RawShaderMaterial({ visible: false }),\n );\n}\n","import * as THREE from \"three\";\n\nimport { DynoPackedSplats, type PackedSplats } from \"./PackedSplats\";\nimport { Readback, type Rgba8Readback } from \"./Readback\";\nimport { SPLAT_TEX_WIDTH } from \"./defines\";\nimport {\n Dyno,\n type DynoBlock,\n DynoInt,\n DynoUniform,\n type DynoVal,\n add,\n dynoBlock,\n readPackedSplatRange,\n splitGsplat,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { getTextureSize } from \"./utils\";\n\n// An RgbaArray is a collection of ordered RGBA8 values, which can be used as a dyno\n// data source, for example for recoloring Gsplats via SplatMesh.splatRgba.\n// It can be instantiated from a Uint8Array of RGBA8 values, or it can be\n// generated using a Rgba8Readback dyno program.\n\nexport type RgbaArrayOptions = {\n // Reserve space for at least this many RGBA values.\n capacity?: number;\n // Use the provided array of RGBA8 values as the source.\n array?: Uint8Array;\n // The number of actual RGBA8 values in the array.\n count?: number;\n};\n\nexport class RgbaArray {\n capacity = 0;\n count = 0;\n array: Uint8Array | null = null;\n\n readback: Readback | null = null;\n source: THREE.DataArrayTexture | null = null;\n // Set to true if source array is updated to have it upload to GPU\n needsUpdate = true;\n\n // Use this as a TRgbaArray in a dyno graph\n dyno: DynoUniform;\n\n constructor(options: RgbaArrayOptions = {}) {\n this.dyno = new DynoUniform({\n key: \"rgbaArray\",\n type: TRgbaArray,\n globals: () => [defineRgbaArray],\n value: {\n texture: RgbaArray.getEmpty(),\n count: 0,\n },\n update: (value) => {\n value.texture = this.getTexture();\n value.count = this.count;\n return value;\n },\n });\n\n if (options.array) {\n // Initialize with given array\n this.array = options.array;\n const splatCount = Math.floor(this.array.length / 4);\n this.capacity = Math.ceil(splatCount / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n if (this.capacity > splatCount) {\n this.array = new Uint8Array(this.capacity * 4);\n this.array.set(options.array);\n }\n this.count = Math.min(\n splatCount,\n options.count ?? Number.POSITIVE_INFINITY,\n );\n } else {\n this.capacity = options.capacity ?? 0;\n this.count = 0;\n }\n }\n\n // Free up resources\n dispose() {\n if (this.readback) {\n this.readback.dispose();\n this.readback = null;\n }\n if (this.source) {\n this.source.dispose();\n this.source = null;\n }\n }\n\n // Ensure that our array is large enough to hold capacity RGBA8 values.\n ensureCapacity(capacity: number): Uint8Array {\n if (!this.array || capacity > (this.array?.length ?? 0) / 4) {\n this.capacity = getTextureSize(capacity).maxSplats;\n const newArray = new Uint8Array(this.capacity * 4);\n if (this.array) {\n // Copy over existing data\n newArray.set(this.array);\n }\n this.array = newArray;\n }\n return this.array;\n }\n\n // Get the THREE.DataArrayTexture from either the readback or the source.\n getTexture(): THREE.DataArrayTexture {\n let texture = this.readback?.getTexture();\n if (this.source || this.array) {\n texture = this.maybeUpdateSource();\n }\n return texture ?? RgbaArray.getEmpty();\n }\n\n // Create or get a THREE.DataArrayTexture from the data array.\n private maybeUpdateSource(): THREE.DataArrayTexture {\n if (!this.array) {\n throw new Error(\"No array\");\n }\n\n if (this.needsUpdate || !this.source) {\n this.needsUpdate = false;\n\n if (this.source) {\n const { width, height, depth } = this.source.image;\n if (this.capacity !== width * height * depth) {\n this.source.dispose();\n this.source = null;\n }\n }\n if (!this.source) {\n const { width, height, depth } = getTextureSize(this.capacity);\n this.source = new THREE.DataArrayTexture(\n this.array as Uint8Array,\n width,\n height,\n depth,\n );\n this.source.format = THREE.RGBAFormat;\n this.source.type = THREE.UnsignedByteType;\n this.source.internalFormat = \"RGBA8\";\n this.source.needsUpdate = true;\n } else if (this.array.buffer !== this.source.image.data.buffer) {\n this.source.image.data = new Uint8Array(this.array.buffer);\n }\n this.source.needsUpdate = true;\n }\n return this.source;\n }\n\n // Generate the RGBA8 values from a Rgba8Readback dyno program.\n render({\n reader,\n count,\n renderer,\n }: { reader: Rgba8Readback; count: number; renderer: THREE.WebGLRenderer }) {\n if (!this.readback) {\n this.readback = new Readback({ renderer });\n }\n this.readback.render({ reader, count, renderer });\n this.capacity = this.readback.capacity;\n this.count = this.readback.count;\n }\n\n // Extract the RGBA8 values from a PackedSplats collection.\n fromPackedSplats({\n packedSplats,\n base,\n count,\n renderer,\n }: {\n packedSplats: PackedSplats;\n base: number;\n count: number;\n renderer: THREE.WebGLRenderer;\n }) {\n const { dynoSplats, dynoBase, dynoCount, reader } = RgbaArray.makeDynos();\n dynoSplats.packedSplats = packedSplats;\n dynoBase.value = base;\n dynoCount.value = count;\n this.render({ reader, count, renderer });\n return this;\n }\n\n // Read back the RGBA8 values from the readback buffer.\n async read(): Promise {\n if (!this.readback) {\n throw new Error(\"No readback\");\n }\n if (!this.array || this.array.length < this.count * 4) {\n this.array = new Uint8Array(this.capacity * 4);\n }\n const result = await this.readback.readback({ readback: this.array });\n return result.subarray(0, this.count * 4);\n }\n\n async getArray(): Promise {\n if (this.readback) {\n return await this.read();\n }\n if (this.array) {\n return this.array;\n }\n throw new Error(\"No array\");\n }\n\n private static emptySource: THREE.DataArrayTexture | null = null;\n\n // Can be used where you need an uninitialized THREE.DataArrayTexture like\n // a uniform you will update with the result of this.getTexture() later.\n static getEmpty(): THREE.DataArrayTexture {\n if (!RgbaArray.emptySource) {\n const emptyArray = new Uint8Array(1 * 4);\n RgbaArray.emptySource = new THREE.DataArrayTexture(emptyArray, 1, 1, 1);\n RgbaArray.emptySource.format = THREE.RGBAFormat;\n RgbaArray.emptySource.type = THREE.UnsignedByteType;\n RgbaArray.emptySource.internalFormat = \"RGBA8\";\n RgbaArray.emptySource.needsUpdate = true;\n }\n return RgbaArray.emptySource;\n }\n\n private static dynos: {\n dynoSplats: DynoPackedSplats;\n dynoBase: DynoInt;\n dynoCount: DynoInt;\n reader: DynoBlock<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n } | null = null;\n\n // Create a dyno program that can extract RGBA8 values from a PackedSplats\n private static makeDynos() {\n if (!RgbaArray.dynos) {\n const dynoSplats = new DynoPackedSplats();\n const dynoBase = new DynoInt({ value: 0 });\n const dynoCount = new DynoInt({ value: 0 });\n const reader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n index = add(index, dynoBase);\n const gsplat = readPackedSplatRange(\n dynoSplats,\n index,\n dynoBase,\n dynoCount,\n );\n return { rgba8: splitGsplat(gsplat).outputs.rgba };\n },\n );\n RgbaArray.dynos = { dynoSplats, dynoBase, dynoCount, reader };\n }\n return RgbaArray.dynos;\n }\n}\n\n// Dyno types and definitions\n\nexport const TRgbaArray = { type: \"RgbaArray\" } as { type: \"RgbaArray\" };\n\nexport const defineRgbaArray = unindent(`\n struct RgbaArray {\n sampler2DArray texture;\n int count;\n };\n`);\n\nexport function readRgbaArray(\n rgba: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal<\"vec4\"> {\n const dyno = new Dyno<\n { rgba: typeof TRgbaArray; index: \"int\" },\n { rgba: \"vec4\" }\n >({\n inTypes: { rgba: TRgbaArray, index: \"int\" },\n outTypes: { rgba: \"vec4\" },\n inputs: { rgba, index },\n globals: () => [defineRgbaArray],\n statements: ({ inputs, outputs }) =>\n unindentLines(`\n if ((${inputs.index} >= 0) && (${inputs.index} < ${inputs.rgba}.count)) {\n ${outputs.rgba} = texelFetch(${inputs.rgba}.texture, splatTexCoord(${inputs.index}), 0);\n } else {\n ${outputs.rgba} = vec4(0.0, 0.0, 0.0, 0.0);\n }\n `),\n });\n return dyno.outputs.rgba;\n}\n","import * as THREE from \"three\";\n\nimport {\n CovSplat,\n Dyno,\n DynoInt,\n DynoUniform,\n type DynoVal,\n Gsplat,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { newArray } from \"./utils\";\n\n// Spark provides the ability to apply \"edits\" to Gsplats as part of the standard\n// SplatMesh pipeline. These edits take the form of a sequence of operations,\n// applied one at a time to the set of Gsplats in its packedSplats. Each operation\n// evaluates a 7-dimensional field (RGBA and XYZ displacement) at each point in\n// space that derives from N=1 or more Signed Distance Field shapes (such as spheres,\n// boxes, planes, etc.), blended together and across inside-outisde boundaries.\n\n// The result is a an RGBA,XYZ value for each point in space, which combined with\n// SplatEditRgbaBlendMode.MULTIPLY/SET_RGB/ADD_RGBA can be used to create special\n// effects, for example simulating simple lighting or applying deformations in space,\n// whose parameters can be updated each frame to create animated effects.\n\n// RGBA-XYZ values are computed by blending together values from all SDF shapes using\n// the exponential \"softmax\" function, which is commutative (so blending order within\n// a SplatEdit operation doesn't matter). The parameter SplatEdit.sdfSmooth controls\n// the blending scale between SDF shapes, while SplatEdit.softEdge controls the scale\n// of soft inside-outside shape edit blending. Their default values start at 0.0 and\n// should be increased to soften the effect.\n\n// Note that XYZ displacement values are blended in the same way as RGBA, with a\n// resulting displacement field that can be quite complex but \"softly\" blending\n// between shapes. These RGBA-XYZ edits, along with time-based and overlapping\n// fields can create many interesting animations and special effects, such as\n// rippling leaves in the wind, an angry fire, or a looping water effects. Simply\n// update the SplatEdit and SplatEditSdf objects and the operations will be applied\n// immediately to the Gsplats in the scene.\n\nexport enum SplatEditSdfType {\n // ALL: Affects all points in space\n ALL = \"all\",\n // PLANE: Infinite plane (position, rotation)\n PLANE = \"plane\",\n // SPHERE: Sphere (position, radius)\n SPHERE = \"sphere\",\n // BOX: Rounded box (position, rotation, sizes, radius)\n BOX = \"box\",\n // ELLIPSOID: Ellipsoid (position, rotation, sizes)\n ELLIPSOID = \"ellipsoid\",\n // CYLINDER: Cylinder (position, rotation, radius, size_y)\n CYLINDER = \"cylinder\",\n // CAPSULE: Capsule (position, rotation, radius, size_y)\n CAPSULE = \"capsule\",\n // INFINITE_CONE: Infinite cone (position, rotation, radius=angle)\n INFINITE_CONE = \"infinite_cone\",\n}\n\nfunction sdfTypeToNumber(type: SplatEditSdfType) {\n switch (type) {\n case SplatEditSdfType.ALL:\n return 0;\n case SplatEditSdfType.PLANE:\n return 1;\n case SplatEditSdfType.SPHERE:\n return 2;\n case SplatEditSdfType.BOX:\n return 3;\n case SplatEditSdfType.ELLIPSOID:\n return 4;\n case SplatEditSdfType.CYLINDER:\n return 5;\n case SplatEditSdfType.CAPSULE:\n return 6;\n case SplatEditSdfType.INFINITE_CONE:\n return 7;\n default:\n throw new Error(`Unknown SDF type: ${type}`);\n }\n}\n\nexport enum SplatEditRgbaBlendMode {\n // The RGBA of the splat is multiplied component-wise by the SDF’s\n // RGBA value at that point in space.\n MULTIPLY = \"multiply\",\n // Ignore the Alpha value in the SDF, but set the splat’s RGB to\n // equal the SDF’s RGB value at that point.\n SET_RGB = \"set_rgb\",\n // Add the SDF’s RGBA value at that point to the RGBA value of\n // the Gsplat. This can produce hyper-saturated results, but is useful\n // to easily “light up” areas.\n ADD_RGBA = \"add_rgba\",\n}\n\nfunction rgbaBlendModeToNumber(mode: SplatEditRgbaBlendMode) {\n switch (mode) {\n case SplatEditRgbaBlendMode.MULTIPLY:\n return 0;\n case SplatEditRgbaBlendMode.SET_RGB:\n return 1;\n case SplatEditRgbaBlendMode.ADD_RGBA:\n return 2;\n default:\n throw new Error(`Unknown blend mode: ${mode}`);\n }\n}\n\nexport type SplatEditSdfOptions = {\n // The SDF shape type: ALL, PLANE, SPHERE, BOX, ELLIPSOID, CYLINDER, CAPSULE,\n // or INFINITE_CONE. (default: SplatEditSdfType.SPHERE)\n type?: SplatEditSdfType;\n // Invert the SDF evaluation, swapping inside and outside regions. (default: false)\n invert?: boolean;\n // Opacity / \"alpha\" value used differently by blending modes (default: 1.0)\n opacity?: number;\n // RGB color applied within the shape. (default: new THREE.Color(1.0, 1.0, 1.0))\n color?: THREE.Color;\n // XYZ displacement applied to splat positions inside the shape.\n // (default: new THREE.Vector3(0.0, 0.0, 0.0))\n displace?: THREE.Vector3;\n // Shape-specific size parameter: sphere radius, box corner rounding,\n // cylinder/capsule radius, or for the infinite cone the angle factor\n // (opening half-angle = π/4 × radius).\n radius?: number;\n};\n\nexport class SplatEditSdf extends THREE.Object3D {\n type: SplatEditSdfType;\n invert: boolean;\n opacity: number;\n color: THREE.Color;\n displace: THREE.Vector3;\n radius: number;\n\n constructor(options: SplatEditSdfOptions = {}) {\n super();\n const { type, invert, opacity, color, displace, radius } = options;\n this.type = type ?? SplatEditSdfType.SPHERE;\n this.invert = invert ?? false;\n this.opacity = opacity ?? 1.0;\n this.color = color ?? new THREE.Color(1.0, 1.0, 1.0);\n this.displace = displace ?? new THREE.Vector3(0.0, 0.0, 0.0);\n this.radius = radius ?? 0.0;\n }\n}\n\nexport type SplatEditOptions = {\n // Name of this edit operation. If you omit it, a default \"Edit 1\", \"Edit 2\", ...\n // is assigned.\n name?: string;\n // How the SDF’s RGBA modifies each splat’s RGBA: multiply, overwrite RGB,\n // or add RGBA. (default: MULTIPLY)\n rgbaBlendMode?: SplatEditRgbaBlendMode;\n // Smoothing (in world‐space units) for blending between multiple SDF shapes\n // at their boundaries. (default: 0.0)\n sdfSmooth?: number;\n // Soft‐edge falloff radius (in world‐space units) around each SDF shape’s surface.\n // (default: 0.0)\n softEdge?: number;\n // Invert the SDF evaluation (inside/outside swap). (default: false)\n invert?: boolean;\n // Explicit array of SplatEditSdf objects to include. If null, any child\n // SplatEditSdf instances are used.\n sdfs?: SplatEditSdf[];\n};\n\nexport class SplatEdit extends THREE.Object3D {\n // ordering used to apply SplatEdit operations to Gsplats. This is implicitly\n // increased with each new SplatEdit. Reassigning ordering can be used to\n // reorder the operations.\n ordering: number;\n rgbaBlendMode: SplatEditRgbaBlendMode;\n sdfSmooth: number;\n softEdge: number;\n invert: boolean;\n\n // Optional list of explicit SDFs to including in this edit. If it is null, then\n // any SplatEditSdf children in the scene graph will be added automatically.\n sdfs: SplatEditSdf[] | null;\n\n // The next ordering number to use for a new SplatEdit, auto-incremented\n static nextOrdering = 1;\n\n constructor(options: SplatEditOptions = {}) {\n const {\n name,\n rgbaBlendMode = SplatEditRgbaBlendMode.MULTIPLY,\n sdfSmooth = 0.0,\n softEdge = 0.0,\n invert = false,\n sdfs = null,\n } = options;\n\n super();\n this.rgbaBlendMode = rgbaBlendMode;\n this.sdfSmooth = sdfSmooth;\n this.softEdge = softEdge;\n this.invert = invert;\n this.sdfs = sdfs;\n // Assign and auto-increment unique ordering number for this edit\n this.ordering = SplatEdit.nextOrdering++;\n // Automatically assign a default name if not provided\n this.name = name ?? `Edit ${this.ordering}`;\n }\n\n addSdf(sdf: SplatEditSdf) {\n if (this.sdfs == null) {\n this.sdfs = [];\n }\n if (!this.sdfs.includes(sdf)) {\n this.sdfs.push(sdf);\n }\n }\n\n removeSdf(sdf: SplatEditSdf) {\n if (this.sdfs == null) {\n return;\n }\n this.sdfs = this.sdfs.filter((s) => s !== sdf);\n }\n}\n\n// Dyno implementation of RGBA-XYZ SDF editing.\n// The SDFs are encoded in a texture while the edits are encoded\n// as a uniform uvec4 array.\n\nexport class SplatEdits {\n // Maximum number of SDFs allocated\n maxSdfs: number;\n // Number of SDFs currently in use\n numSdfs: number;\n // Encoded SDF data\n sdfData: Uint32Array;\n // Float interpretation of SDF data\n sdfFloatData: Float32Array;\n // Texture with encoded SDF data\n sdfTexture: THREE.DataTexture;\n // An SdfArray dyno uniform\n dynoSdfArray: DynoUniform;\n\n // Maximum number of edits allocated\n maxEdits: number;\n // Number of edits currently in use\n numEdits: number;\n // Encoded edit data\n editData: Uint32Array;\n // Float interpretation of edit data\n editFloatData: Float32Array;\n // A dyno uniform for the number of edits\n dynoNumEdits: DynoUniform<\"int\", \"numEdits\">;\n // A dyno uniform for the encoded edits, one uvec4 per edit\n dynoEdits: DynoUniform<\"uvec4\", \"edits\">;\n\n constructor({ maxSdfs, maxEdits }: { maxSdfs?: number; maxEdits?: number }) {\n // Allocate at least 16 SDFs for efficiency\n this.maxSdfs = Math.max(16, maxSdfs ?? 0);\n this.numSdfs = 0;\n\n // Allocate space: 8 x (u)vec4 values per SDF, Uint32 and Float32 arrays\n this.sdfData = new Uint32Array(this.maxSdfs * 8 * 4);\n this.sdfFloatData = new Float32Array(this.sdfData.buffer);\n this.sdfTexture = this.newSdfTexture(this.sdfData, this.maxSdfs);\n this.dynoSdfArray = new DynoUniform({\n key: \"sdfArray\",\n type: SdfArray,\n globals: () => [defineSdfArray],\n value: {\n numSdfs: 0,\n sdfTexture: this.sdfTexture,\n },\n update: (uniform) => {\n uniform.numSdfs = this.numSdfs;\n uniform.sdfTexture = this.sdfTexture;\n return uniform;\n },\n });\n\n // Allocate at least 16 edits slots for efficiency\n this.maxEdits = Math.max(16, maxEdits ?? 0);\n this.numEdits = 0;\n // Allocate space: 1 uvec4 per edit\n this.editData = new Uint32Array(this.maxEdits * 4);\n this.editFloatData = new Float32Array(this.editData.buffer);\n this.dynoNumEdits = new DynoInt({ value: 0 });\n this.dynoEdits = this.newEdits(this.editData, this.maxEdits);\n }\n\n private newSdfTexture(data: Uint32Array, maxSdfs: number) {\n const texture = new THREE.DataTexture(\n data,\n 8,\n maxSdfs,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n }\n\n private newEdits(data: Uint32Array, maxEdits: number) {\n return new DynoUniform({\n key: \"edits\",\n type: \"uvec4\",\n count: maxEdits,\n globals: () => [defineEdit],\n value: data,\n });\n }\n\n // Ensure our SDF texture and edits uniform array have enough capacity.\n // Reallocate if not.\n private ensureCapacity({\n maxSdfs,\n maxEdits,\n }: { maxSdfs: number; maxEdits: number }): boolean {\n let dynoUpdated = false;\n if (maxSdfs > this.sdfTexture.image.height) {\n this.sdfTexture.dispose();\n // At least double the size to avoid frequent reallocations\n this.maxSdfs = Math.max(this.maxSdfs * 2, maxSdfs);\n this.sdfData = new Uint32Array(this.maxSdfs * 8 * 4);\n this.sdfFloatData = new Float32Array(this.sdfData.buffer);\n this.sdfTexture = this.newSdfTexture(this.sdfData, this.maxSdfs);\n }\n if (maxEdits > (this.dynoEdits.count ?? 0)) {\n // At least double the size to avoid frequent reallocations\n this.maxEdits = Math.max(this.maxEdits * 2, maxEdits);\n this.editData = new Uint32Array(this.maxEdits * 4);\n this.editFloatData = new Float32Array(this.editData.buffer);\n this.dynoEdits = this.newEdits(this.editData, this.maxEdits);\n dynoUpdated = true;\n }\n return dynoUpdated;\n }\n\n private updateEditData(offset: number, value: number): boolean {\n // Update an edit uint32 value and return true if it changed\n const updated = this.editData[offset] !== value;\n this.editData[offset] = value;\n return updated;\n }\n\n private updateEditFloatData(offset: number, value: number): boolean {\n // Update an edit float32 value and return true if it changed\n tempFloat32[0] = value;\n const updated = this.editFloatData[offset] !== tempFloat32[0];\n if (updated) {\n this.editFloatData[offset] = tempFloat32[0];\n }\n return updated;\n }\n\n private encodeEdit(\n editIndex: number,\n {\n sdfFirst,\n sdfCount,\n invert,\n rgbaBlendMode,\n softEdge,\n sdfSmooth,\n }: {\n sdfFirst: number;\n sdfCount: number;\n invert: boolean;\n rgbaBlendMode: number;\n softEdge: number;\n sdfSmooth: number;\n },\n ): boolean {\n const base = editIndex * 4;\n let updated = false;\n // Encode the edit fields into the editData array and check if any changed\n updated =\n this.updateEditData(base + 0, rgbaBlendMode | (invert ? 1 << 8 : 0)) ||\n updated;\n updated =\n this.updateEditData(base + 1, sdfFirst | (sdfCount << 16)) || updated;\n updated = this.updateEditFloatData(base + 2, softEdge) || updated;\n updated = this.updateEditFloatData(base + 3, sdfSmooth) || updated;\n return updated;\n }\n\n private updateSdfData(offset: number, value: number): boolean {\n // Update an SDF uint32 value and return true if it changed\n const updated = this.sdfData[offset] !== value;\n this.sdfData[offset] = value;\n return updated;\n }\n\n private updateSdfFloatData(offset: number, value: number): boolean {\n // Update an SDF float32 value and return true if it changed\n tempFloat32[0] = value;\n const updated = this.sdfFloatData[offset] !== tempFloat32[0];\n if (updated) {\n this.sdfFloatData[offset] = tempFloat32[0];\n }\n return updated;\n }\n\n private encodeSdf(\n sdfIndex: number,\n {\n sdfType,\n invert,\n center,\n quaternion,\n scale,\n sizes,\n }: {\n sdfType: number;\n invert?: boolean;\n center?: THREE.Vector3;\n quaternion?: THREE.Quaternion;\n scale?: THREE.Vector3;\n sizes?: THREE.Vector4;\n },\n values: THREE.Vector4[],\n ): boolean {\n // Encode the SDF fields into the sdfData array and check if any changed\n const base = sdfIndex * (8 * 4);\n const flags = sdfType | (invert ? 1 << 8 : 0);\n let updated = false;\n\n updated = this.updateSdfFloatData(base + 0, center?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 1, center?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 2, center?.z ?? 0) || updated;\n updated = this.updateSdfData(base + 3, flags) || updated;\n\n updated = this.updateSdfFloatData(base + 4, quaternion?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 5, quaternion?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 6, quaternion?.z ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 7, quaternion?.w ?? 0) || updated;\n\n updated = this.updateSdfFloatData(base + 8, scale?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 9, scale?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 10, scale?.z ?? 0) || updated;\n updated = this.updateSdfData(base + 11, 0) || updated;\n\n updated = this.updateSdfFloatData(base + 12, sizes?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 13, sizes?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 14, sizes?.z ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 15, sizes?.w ?? 0) || updated;\n\n const nValues = Math.min(4, values.length);\n for (let i = 0; i < nValues; ++i) {\n const vBase = base + 16 + i * 4;\n updated = this.updateSdfFloatData(vBase + 0, values[i].x) || updated;\n updated = this.updateSdfFloatData(vBase + 1, values[i].y) || updated;\n updated = this.updateSdfFloatData(vBase + 2, values[i].z) || updated;\n updated = this.updateSdfFloatData(vBase + 3, values[i].w) || updated;\n }\n return updated;\n }\n\n // Update the SDFs and edits from an array of SplatEdits and their\n // associated SplatEditSdfs, updating it for the dyno shader program.\n update(edits: { edit: SplatEdit; sdfs: SplatEditSdf[] }[]): {\n updated: boolean;\n dynoUpdated: boolean;\n } {\n const sdfCount = edits.reduce((total, { sdfs }) => total + sdfs.length, 0);\n const dynoUpdated = this.ensureCapacity({\n maxEdits: edits.length,\n maxSdfs: sdfCount,\n });\n\n const values = [new THREE.Vector4(), new THREE.Vector4()];\n const center = new THREE.Vector3();\n const quaternion = new THREE.Quaternion();\n const scale = new THREE.Vector3();\n const sizes = new THREE.Vector4();\n\n let sdfIndex = 0;\n let updated = dynoUpdated;\n\n if (edits.length !== this.dynoNumEdits.value) {\n this.dynoNumEdits.value = edits.length;\n this.numEdits = edits.length;\n updated = true;\n }\n\n for (const [editIndex, { edit, sdfs }] of edits.entries()) {\n updated =\n this.encodeEdit(editIndex, {\n sdfFirst: sdfIndex,\n sdfCount: sdfs.length,\n invert: edit.invert,\n rgbaBlendMode: rgbaBlendModeToNumber(edit.rgbaBlendMode),\n softEdge: edit.softEdge,\n sdfSmooth: edit.sdfSmooth,\n }) || updated;\n\n let sdfUpdated = false;\n for (const sdf of sdfs) {\n sizes.set(sdf.scale.x, sdf.scale.y, sdf.scale.z, sdf.radius);\n // Temporarily set the SDF scale to 1.0 to get the world-to-SDF\n // transform without scaling. The SDF treats the scale separately.\n sdf.scale.setScalar(1.0);\n sdf.updateMatrixWorld();\n const worldToSdf = sdf.matrixWorld.clone().invert();\n worldToSdf.decompose(center, quaternion, scale);\n\n sdf.scale.set(sizes.x, sizes.y, sizes.z);\n sdf.updateMatrixWorld();\n\n values[0].set(sdf.color.r, sdf.color.g, sdf.color.b, sdf.opacity);\n values[1].set(sdf.displace.x, sdf.displace.y, sdf.displace.z, 1.0);\n\n sdfUpdated =\n this.encodeSdf(\n sdfIndex,\n {\n sdfType: sdfTypeToNumber(sdf.type),\n invert: sdf.invert,\n center,\n quaternion,\n scale,\n sizes,\n },\n values,\n ) || sdfUpdated;\n\n sdfIndex += 1;\n }\n this.numSdfs = sdfIndex;\n if (sdfUpdated) {\n this.sdfTexture.needsUpdate = true;\n }\n updated ||= sdfUpdated;\n }\n return { updated, dynoUpdated };\n }\n\n // Modify a Gsplat in a dyno shader program using the current edits and SDFs.\n modify(gsplat: DynoVal): DynoVal {\n return applyGsplatRgbaDisplaceEdits(\n gsplat,\n this.dynoSdfArray,\n this.dynoNumEdits,\n this.dynoEdits,\n );\n }\n\n modifyCov(covsplat: DynoVal): DynoVal {\n return applyCovSplatRgbaDisplaceEdits(\n covsplat,\n this.dynoSdfArray,\n this.dynoNumEdits,\n this.dynoEdits,\n );\n }\n}\n\n// Dyno types and components:\n\n// An SdfArray contains a collection of SDFs encoded in a texture.\n// Each SDF has a type and geometric parameters, but also encodes\n// 4 x vec4 values, which can all be blended across multiple SDFs.\n// The SplatEdit system uses 7 of these 16 values to encode RGBA-XYZ edits,\n// but more can be added, and these SDFs can be used for entirely different\n// purposes as well.\n\nexport const SdfArray = { type: \"SdfArray\" } as { type: \"SdfArray\" };\n\nexport const defineSdfArray = unindent(`\n struct SdfArray {\n int numSdfs;\n usampler2D sdfTexture;\n };\n\n void unpackSdfArray(\n usampler2D sdfTexture, int sdfIndex, out uint flags,\n out vec3 center, out vec4 quaternion, out vec3 scale, out vec4 sizes,\n int numValues, out vec4 values[4]\n ) {\n uvec4 temp = texelFetch(sdfTexture, ivec2(0, sdfIndex), 0);\n flags = temp.w;\n center = vec3(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z));\n\n temp = texelFetch(sdfTexture, ivec2(1, sdfIndex), 0);\n quaternion = vec4(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z), uintBitsToFloat(temp.w));\n\n temp = texelFetch(sdfTexture, ivec2(2, sdfIndex), 0);\n scale = vec3(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z));\n\n temp = texelFetch(sdfTexture, ivec2(3, sdfIndex), 0);\n sizes = vec4(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z), uintBitsToFloat(temp.w));\n\n for (int i = 0; i < numValues; ++i) {\n temp = texelFetch(sdfTexture, ivec2(4 + i, sdfIndex), 0);\n values[i] = vec4(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z), uintBitsToFloat(temp.w));\n }\n }\n\n const uint SDF_FLAG_TYPE = 0xFFu;\n const uint SDF_FLAG_INVERT = 1u << 8u;\n\n const uint SDF_TYPE_ALL = 0u;\n const uint SDF_TYPE_PLANE = 1u;\n const uint SDF_TYPE_SPHERE = 2u;\n const uint SDF_TYPE_BOX = 3u;\n const uint SDF_TYPE_ELLIPSOID = 4u;\n const uint SDF_TYPE_CYLINDER = 5u;\n const uint SDF_TYPE_CAPSULE = 6u;\n const uint SDF_TYPE_INFINITE_CONE = 7u;\n\n float evaluateSdfArray(\n usampler2D sdfTexture, int numSdfs, int sdfFirst, int sdfCount, vec3 pos,\n float smoothK, int numValues, out vec4 outValues[4]\n ) {\n float distanceAccum = (smoothK == 0.0) ? 1.0 / 0.0 : 0.0;\n float maxExp = -1.0 / 0.0;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] = vec4(0.0);\n }\n\n uint flags;\n vec3 center, scale;\n vec4 quaternion, sizes;\n vec4 values[4];\n\n int sdfLast = min(sdfFirst + sdfCount, numSdfs);\n for (int index = sdfFirst; index < sdfLast; ++index) {\n unpackSdfArray(sdfTexture, index, flags, center, quaternion, scale, sizes, numValues, values);\n uint sdfType = flags & SDF_FLAG_TYPE;\n vec3 sdfPos = quatVec(quaternion, pos * scale) + center;\n\n float distance;\n switch (sdfType) {\n case SDF_TYPE_ALL:\n distance = -1.0 / 0.0;\n break;\n case SDF_TYPE_PLANE: {\n distance = sdfPos.z;\n break;\n }\n case SDF_TYPE_SPHERE: {\n distance = length(sdfPos) - sizes.w;\n break;\n }\n case SDF_TYPE_BOX: {\n vec3 q = abs(sdfPos) - sizes.xyz + sizes.w;\n distance = length(max(q, 0.0)) + min(max(q.x, max(q.y, q.z)), 0.0) - sizes.w;\n break;\n }\n case SDF_TYPE_ELLIPSOID: {\n vec3 sizes = sizes.xyz;\n float k0 = length(sdfPos / sizes);\n float k1 = length(sdfPos / dot(sizes, sizes));\n distance = k0 * (k0 - 1.0) / k1;\n break;\n }\n case SDF_TYPE_CYLINDER: {\n vec2 d = abs(vec2(length(sdfPos.xz), sdfPos.y)) - sizes.wy;\n distance = min(max(d.x, d.y), 0.0) + length(max(d, 0.0));\n break;\n }\n case SDF_TYPE_CAPSULE: {\n sdfPos.y -= clamp(sdfPos.y, -0.5 * sizes.y, 0.5 * sizes.y);\n distance = length(sdfPos) - sizes.w;\n break;\n }\n case SDF_TYPE_INFINITE_CONE: {\n float angle = 0.25 * PI * sizes.w;\n vec2 c = vec2(sin(angle), cos(angle));\n vec2 q = vec2(length(sdfPos.xy), -sdfPos.z);\n float d = length(q - c * max(dot(q, c), 0.0));\n distance = d * (((q.x * c.y - q.y * c.x) < 0.0) ? -1.0 : 1.0);\n break;\n }\n }\n\n if ((flags & SDF_FLAG_INVERT) != 0u) {\n distance = -distance;\n }\n\n if (smoothK == 0.0) {\n if (distance < distanceAccum) {\n distanceAccum = distance;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] = values[i];\n }\n }\n } else {\n float scaledDistance = -distance / smoothK;\n if (scaledDistance > maxExp) {\n float scale = exp(maxExp - scaledDistance);\n distanceAccum *= scale;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] *= scale;\n }\n maxExp = scaledDistance;\n }\n\n float weight = exp(scaledDistance - maxExp);\n distanceAccum += weight;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] += weight * values[i];\n }\n }\n }\n\n if (smoothK == 0.0) {\n return distanceAccum;\n } else {\n // Very distant SDFs may result in 0 accumulation\n if (distanceAccum == 0.0) {\n return 1.0 / 0.0;\n }\n for (int i = 0; i < numValues; ++i) {\n outValues[i] /= distanceAccum;\n }\n return (-log(distanceAccum) - maxExp) * smoothK;\n }\n }\n\n float modulateSdfArray(\n usampler2D sdfTexture, int numSdfs, int sdfFirst, int sdfCount, vec3 pos,\n float smoothK, int numValues, out vec4 values[4],\n float softEdge, bool invert\n ) {\n float distance = evaluateSdfArray(sdfTexture, numSdfs, sdfFirst, sdfCount, pos, smoothK, numValues, values);\n if (invert) {\n distance = -distance;\n }\n\n return (softEdge == 0.0) ? ((distance < 0.0) ? 1.0 : 0.0)\n : clamp(-distance / softEdge + 0.5, 0.0, 1.0);\n }\n`);\n\nexport const defineEdit = unindent(`\n const uint EDIT_FLAG_BLEND = 0xFFu;\n const uint EDIT_BLEND_MULTIPLY = 0u;\n const uint EDIT_BLEND_SET_RGB = 1u;\n const uint EDIT_BLEND_ADD_RGBA = 2u;\n const uint EDIT_FLAG_INVERT = 0x100u;\n\n void decodeEdit(\n uvec4 packedEdit, out int sdfFirst, out int sdfCount,\n out bool invert, out uint rgbaBlendMode, out float softEdge, out float sdfSmooth\n ) {\n rgbaBlendMode = packedEdit.x & EDIT_FLAG_BLEND;\n invert = (packedEdit.x & EDIT_FLAG_INVERT) != 0u;\n\n sdfFirst = int(packedEdit.y & 0xFFFFu);\n sdfCount = int(packedEdit.y >> 16u);\n\n softEdge = uintBitsToFloat(packedEdit.z);\n sdfSmooth = uintBitsToFloat(packedEdit.w);\n }\n\n void applyRgbaDisplaceEdit(\n usampler2D sdfTexture, int numSdfs, int sdfFirst, int sdfCount, inout vec3 pos,\n float smoothK, float softEdge, bool invert, uint rgbaBlendMode, inout vec4 rgba\n ) {\n vec4 values[4];\n float modulate = modulateSdfArray(sdfTexture, numSdfs, sdfFirst, sdfCount, pos, smoothK, 2, values, softEdge, invert);\n // On Android, moving values[0] is necessary to work around a compiler bug.\n vec4 sdfRgba = values[0];\n vec4 sdfDisplaceScale = values[1];\n\n vec4 target;\n switch (rgbaBlendMode) {\n case EDIT_BLEND_MULTIPLY:\n target = rgba * sdfRgba;\n break;\n case EDIT_BLEND_SET_RGB:\n target = vec4(sdfRgba.rgb, rgba.a * sdfRgba.a);\n break;\n case EDIT_BLEND_ADD_RGBA:\n target = rgba + sdfRgba;\n break;\n default:\n // Debug output if blend mode not set\n target = vec4(fract(pos), 1.0);\n }\n rgba = mix(rgba, target, modulate);\n pos += sdfDisplaceScale.xyz * modulate;\n }\n\n void applyPackedRgbaDisplaceEdit(uvec4 packedEdit, usampler2D sdfTexture, int numSdfs, inout vec3 pos, inout vec4 rgba) {\n int sdfFirst, sdfCount;\n bool invert;\n uint rgbaBlendMode;\n float softEdge, sdfSmooth;\n decodeEdit(packedEdit, sdfFirst, sdfCount, invert, rgbaBlendMode, softEdge, sdfSmooth);\n applyRgbaDisplaceEdit(sdfTexture, numSdfs, sdfFirst, sdfCount, pos, sdfSmooth, softEdge, invert, rgbaBlendMode, rgba);\n }\n`);\n\nfunction applyGsplatRgbaDisplaceEdits(\n gsplat: DynoVal,\n sdfArray: DynoVal,\n numEdits: DynoVal<\"int\">,\n rgbaDisplaceEdits: DynoVal<\"uvec4\">,\n): DynoVal {\n const dyno = new Dyno<\n {\n gsplat: typeof Gsplat;\n sdfArray: typeof SdfArray;\n numEdits: \"int\";\n rgbaDisplaceEdits: \"uvec4\";\n },\n { gsplat: typeof Gsplat }\n >({\n inTypes: {\n gsplat: Gsplat,\n sdfArray: SdfArray,\n numEdits: \"int\",\n rgbaDisplaceEdits: \"uvec4\",\n },\n outTypes: { gsplat: Gsplat },\n globals: () => [defineSdfArray, defineEdit],\n inputs: { gsplat, sdfArray, numEdits, rgbaDisplaceEdits },\n statements: ({ inputs, outputs }) => {\n const { sdfArray, numEdits, rgbaDisplaceEdits } = inputs;\n const { gsplat } = outputs;\n return unindentLines(`\n ${gsplat} = ${inputs.gsplat};\n if (isGsplatActive(${gsplat}.flags)) {\n for (int editIndex = 0; editIndex < ${numEdits}; ++editIndex) {\n applyPackedRgbaDisplaceEdit(\n ${rgbaDisplaceEdits}[editIndex], ${sdfArray}.sdfTexture, ${sdfArray}.numSdfs,\n ${gsplat}.center, ${gsplat}.rgba\n );\n }\n }\n `);\n },\n });\n return dyno.outputs.gsplat;\n}\n\nfunction applyCovSplatRgbaDisplaceEdits(\n covsplat: DynoVal,\n sdfArray: DynoVal,\n numEdits: DynoVal<\"int\">,\n rgbaDisplaceEdits: DynoVal<\"uvec4\">,\n): DynoVal {\n const dyno = new Dyno<\n {\n covsplat: typeof CovSplat;\n sdfArray: typeof SdfArray;\n numEdits: \"int\";\n rgbaDisplaceEdits: \"uvec4\";\n },\n { covsplat: typeof CovSplat }\n >({\n inTypes: {\n covsplat: CovSplat,\n sdfArray: SdfArray,\n numEdits: \"int\",\n rgbaDisplaceEdits: \"uvec4\",\n },\n outTypes: { covsplat: CovSplat },\n globals: () => [defineSdfArray, defineEdit],\n inputs: { covsplat, sdfArray, numEdits, rgbaDisplaceEdits },\n statements: ({ inputs, outputs }) => {\n const { sdfArray, numEdits, rgbaDisplaceEdits } = inputs;\n const { covsplat } = outputs;\n return unindentLines(`\n ${covsplat} = ${inputs.covsplat};\n if (isCovSplatActive(${covsplat}.flags)) {\n for (int editIndex = 0; editIndex < ${numEdits}; ++editIndex) {\n applyPackedRgbaDisplaceEdit(\n ${rgbaDisplaceEdits}[editIndex], ${sdfArray}.sdfTexture, ${sdfArray}.numSdfs,\n ${covsplat}.center, ${covsplat}.rgba\n );\n }\n }\n `);\n },\n });\n return dyno.outputs.covsplat;\n}\n\nconst tempFloat32 = new Float32Array(1);\n","import * as THREE from \"three\";\nimport type { SplatEdit } from \"./SplatEdit\";\nimport {\n CovSplat,\n Dyno,\n DynoFloat,\n DynoMat3,\n type DynoVal,\n DynoVec3,\n DynoVec4,\n Gsplat,\n add,\n dynoBlock,\n mul,\n transformDir,\n transformGsplat,\n transformPos,\n unindentLines,\n} from \"./dyno\";\n\n// A GsplatGenerator is a dyno program that maps an index to a Gsplat's properties\n\nexport type GsplatGenerator = Dyno<{ index: \"int\" }, { gsplat: typeof Gsplat }>;\n\nexport type CovSplatGenerator = Dyno<\n { index: \"int\" },\n { covsplat: typeof CovSplat }\n>;\n\n// A GsplatModifier is a dyno program that inputs a Gsplat, modifies, and outputs it\n\nexport type GsplatModifier = Dyno<\n { gsplat: typeof Gsplat },\n { gsplat: typeof Gsplat }\n>;\n\nexport type CovSplatModifier = Dyno<\n { covsplat: typeof CovSplat },\n { covsplat: typeof CovSplat }\n>;\n\n// A SplatModifier is a utility class to apply a GsplatModifier to\n// a GsplatGenerator pipeline, caching the combined result for efficiency.\n\nexport class SplatModifier {\n modifier: GsplatModifier;\n cache: Map;\n\n constructor(modifier: GsplatModifier) {\n this.modifier = modifier;\n this.cache = new Map();\n }\n\n apply(generator: GsplatGenerator): GsplatGenerator {\n let modified = this.cache.get(generator);\n if (!modified) {\n modified = dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n const { gsplat } = generator.apply({ index });\n return this.modifier.apply({ gsplat });\n },\n );\n this.cache.set(generator, modified);\n }\n return modified;\n }\n}\n\n// A SplatTransformer is a utility class to apply a transform to a Gsplat\n// via a scale, rotation, and translation. Scale is a single float because\n// anisotropic scaling of Gsplats is not supported.\n\nexport class SplatTransformer {\n scale: DynoFloat;\n rotate: DynoVec4;\n translate: DynoVec3;\n\n // Create the dyno uniforms that parameterize the transform, setting them\n // to initial values that are different from any valid transform.\n constructor() {\n this.scale = new DynoFloat({ value: Number.NEGATIVE_INFINITY });\n this.rotate = new DynoVec4({\n value: new THREE.Quaternion(\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n ),\n });\n this.translate = new DynoVec3({\n value: new THREE.Vector3(\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n ),\n });\n }\n\n // Apply the transform to a Vec3 position in a dyno program.\n apply(position: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n return transformPos(position, {\n scale: this.scale,\n rotate: this.rotate,\n translate: this.translate,\n });\n }\n\n applyDir(dir: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n return transformDir(dir, {\n rotate: this.rotate,\n });\n }\n\n // Apply the transform to a Gsplat in a dyno program.\n applyGsplat(gsplat: DynoVal): DynoVal {\n return transformGsplat(gsplat, {\n scale: this.scale,\n rotate: this.rotate,\n translate: this.translate,\n });\n }\n\n // Update the uniforms to match the given transform matrix.\n updateFromMatrix(transform: THREE.Matrix4) {\n const scale = new THREE.Vector3();\n const quaternion = new THREE.Quaternion();\n const position = new THREE.Vector3();\n transform.decompose(position, quaternion, scale);\n const newScale = (scale.x + scale.y + scale.z) / 3;\n\n let updated = false;\n if (newScale !== this.scale.value) {\n this.scale.value = newScale;\n updated = true;\n }\n if (!position.equals(this.translate.value)) {\n this.translate.value.copy(position);\n updated = true;\n }\n if (!quaternion.equals(this.rotate.value)) {\n this.rotate.value.copy(quaternion);\n updated = true;\n }\n return updated;\n }\n\n // Update this transform to match the object's to-world transform.\n update(object: THREE.Object3D): boolean {\n object.updateMatrixWorld();\n return this.updateFromMatrix(object.matrixWorld);\n }\n}\n\nexport class CovSplatTransformer {\n basis: DynoMat3<\"basis\", THREE.Matrix3>;\n offset: DynoVec3;\n\n constructor() {\n this.basis = new DynoMat3({ value: new THREE.Matrix3() });\n this.offset = new DynoVec3({ value: new THREE.Vector3() });\n }\n\n // Apply the transform to a Vec3 position in a dyno program.\n apply(position: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n const rebased = mul(this.basis, position);\n return add(rebased, this.offset);\n }\n\n applyDir(dir: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n return mul(this.basis, dir);\n }\n\n // Apply the transform to a Gsplat in a dyno program.\n applyCovSplat(covsplat: DynoVal): DynoVal {\n return new Dyno({\n inTypes: { covsplat: CovSplat, basis: \"mat3\", offset: \"vec3\" },\n outTypes: { covsplat: CovSplat },\n inputs: { covsplat, basis: this.basis, offset: this.offset },\n statements: ({ inputs, outputs }) => {\n const { covsplat, basis, offset } = inputs;\n if (!covsplat || !basis || !offset) {\n return [`${outputs.covsplat}.flags = 0u;`];\n }\n return unindentLines(`\n ${outputs.covsplat}.flags = 0u;\n if (isCovSplatActive(${covsplat}.flags)) {\n ${outputs.covsplat}.flags = ${covsplat}.flags;\n ${outputs.covsplat}.index = ${covsplat}.index;\n ${outputs.covsplat}.rgba = ${covsplat}.rgba;\n\n ${outputs.covsplat}.center = ${basis} * ${covsplat}.center + ${offset};\n \n mat3 cov = mat3(\n ${covsplat}.xxyyzz.x, ${covsplat}.xyxzyz.x, ${covsplat}.xyxzyz.y,\n ${covsplat}.xyxzyz.x, ${covsplat}.xxyyzz.y, ${covsplat}.xyxzyz.z,\n ${covsplat}.xyxzyz.y, ${covsplat}.xyxzyz.z, ${covsplat}.xxyyzz.z\n );\n cov = ${basis} * cov * transpose(${basis});\n ${outputs.covsplat}.xxyyzz = vec3(cov[0][0], cov[1][1], cov[2][2]);\n ${outputs.covsplat}.xyxzyz = vec3(cov[0][1], cov[0][2], cov[1][2]);\n }\n `);\n },\n }).outputs.covsplat;\n }\n\n // Update the uniforms to match the given transform matrix.\n updateFromMatrix(transform: THREE.Matrix4) {\n const basis = new THREE.Matrix3().setFromMatrix4(transform);\n const offset = new THREE.Vector3().setFromMatrixColumn(transform, 3);\n\n const updated =\n !basis.equals(this.basis.value) || !offset.equals(this.offset.value);\n if (updated) {\n this.basis.value.copy(basis);\n this.offset.value.copy(offset);\n }\n return updated;\n }\n\n // Update this transform to match the object's to-world transform.\n update(object: THREE.Object3D): boolean {\n object.updateMatrixWorld();\n return this.updateFromMatrix(object.matrixWorld);\n }\n}\n\n// SplatGenerator is an Object3D that can be placed anywhere in the scene\n// to generate Gsplats into the world for SparkRenderer. All Gsplats from\n// SplatGenerators across the scene will be accumulated into a single\n// SplatAccumulator, which are sorted and rendered together.\n//\n// Each SplatGenerator has two main properties:\n// - numSplats: the number of Gsplats to generate\n// - generator: a GsplatGenerator dyno program that maps a splat index\n// to a Gsplat's properties\n// Each of these properties can be changed at anytime, however changing\n// numSplats means we no longer have a correspondence between Gsplats\n// in successive frames, meaning we can't reuse the previous Gsplat sort\n// order. Similarly, changing the generator requires re-generating the\n// shader program, which will trigger a GPU shader compilation the first\n// time (possibly a perceptible \"hickup\" in the framerate) but is cached\n// subsequence times if the generator is the same as one that was used previously.\n//\n// A SplatGenerator also has a custom frameUpdate function that is called\n// on each execution, allowing you to update uniforms or other parameters that\n// affect the generation. If the Gsplats are changed, you must call\n// updateVersion() (alternatively, set needsUpdate to true) to trigger a\n// re-generation of the Gsplats for this SplatGenerator.\n\nexport interface FrameUpdateContext {\n renderer: THREE.WebGLRenderer;\n object: SplatGenerator;\n time: number;\n deltaTime: number;\n viewToWorld: THREE.Matrix4;\n camera?: THREE.Camera;\n renderSize?: THREE.Vector2;\n globalEdits: SplatEdit[];\n lodIndices?: { numSplats: number; texture: THREE.DataTexture };\n}\n\nexport class SplatGenerator extends THREE.Object3D {\n numSplats: number;\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n generatorError?: unknown;\n covGeneratorError?: unknown;\n frameUpdate?: (context: FrameUpdateContext) => void;\n version: number;\n mappingVersion: number;\n\n constructor({\n numSplats,\n generator,\n covGenerator,\n construct,\n update,\n }: {\n numSplats?: number;\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n construct?: (object: SplatGenerator) => {\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n numSplats?: number;\n frameUpdate?: (context: FrameUpdateContext) => void;\n };\n update?: (context: FrameUpdateContext) => void;\n }) {\n super();\n\n this.numSplats = numSplats ?? 0;\n this.generator = generator;\n this.covGenerator = covGenerator;\n this.frameUpdate = update;\n this.version = 0;\n this.mappingVersion = 0;\n\n if (construct) {\n const constructed = construct(this);\n // If we returned something, update our properties\n Object.assign(this, constructed);\n }\n }\n\n updateVersion() {\n this.version += 1;\n }\n\n updateMappingVersion() {\n this.mappingVersion += 1;\n this.version += 1;\n }\n\n set needsUpdate(value: boolean) {\n if (value) {\n this.updateVersion();\n }\n }\n}\n","import * as THREE from \"three\";\nimport { FullScreenQuad } from \"three/examples/jsm/postprocessing/Pass.js\";\nimport { Readback } from \"./Readback\";\nimport { SplatEdit } from \"./SplatEdit\";\nimport {\n type CovSplatGenerator,\n type GsplatGenerator,\n SplatGenerator,\n} from \"./SplatGenerator\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport {\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_WIDTH,\n} from \"./defines\";\nimport {\n type CovSplat,\n Dyno,\n DynoBool,\n DynoProgram,\n DynoProgramTemplate,\n DynoUsampler2DArray,\n type DynoVal,\n DynoVec3,\n combineCovSplat,\n combineGsplat,\n dynoBlock,\n dynoConst,\n gsplatToCovSplat,\n mul,\n outputCovSplat,\n outputCovSplatDepth,\n outputExtCovSplat,\n outputExtendedSplat,\n outputPackedSplat,\n outputSplatDepth,\n splitCovSplat,\n splitGsplat,\n sub,\n unindentLines,\n} from \"./dyno\";\nimport { getShaders } from \"./shaders\";\nimport { getTextureSize, threeMrtArray } from \"./utils\";\n\n// A GeneratorMapping describes a Gsplat range that was generated, including\n// which generator and its version number.\nexport type GeneratorMapping = {\n node: SplatGenerator;\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n version: number;\n mappingVersion?: number;\n base: number;\n count: number;\n};\n\nexport class SplatAccumulator {\n time = 0;\n deltaTime = 0;\n viewToWorld = new THREE.Matrix4();\n viewOrigin = new THREE.Vector3();\n viewDirection = new THREE.Vector3();\n static viewCenterUniform = new DynoVec3({ value: new THREE.Vector3() });\n static viewDirUniform = new DynoVec3({ value: new THREE.Vector3() });\n static sortRadialUniform = new DynoBool({ value: true });\n maxSplats = 0;\n numSplats = 0;\n target: THREE.WebGLArrayRenderTarget | null = null;\n mapping: GeneratorMapping[] = [];\n version = -1;\n mappingVersion = -1;\n extSplats: boolean;\n covSplats: boolean;\n readback: Readback | null = null;\n readbackSplats: DynoUsampler2DArray<\"extSplats\", THREE.DataArrayTexture>[] =\n [];\n\n constructor({\n extSplats,\n covSplats,\n }: { extSplats?: boolean; covSplats?: boolean } = {}) {\n if (!threeMrtArray) {\n throw new Error(\"Spark requires THREE.js r179 or above\");\n }\n this.extSplats = extSplats ?? true;\n this.covSplats = covSplats ?? false;\n }\n\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target = null;\n }\n }\n\n // Returns a THREE.DataArrayTexture representing the NewSplatAccumulator\n // content as 2 x Uint32x4 data array textures (2048 x 2048 x 2048 in size)\n getTextures(): THREE.DataArrayTexture[] {\n if (this.target) {\n return this.target.textures;\n }\n return SplatAccumulator.emptyTextures;\n }\n\n static emptyTexture = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyTextures = (() => {\n return [SplatAccumulator.emptyTexture, SplatAccumulator.emptyTexture];\n })();\n\n // Given an array of splatCounts (.numSplats for each\n // SplatGenerator/SplatMesh in the scene), compute a\n // \"mapping layout\" in the composite array of generated outputs.\n generateMapping(splatCounts: number[]): {\n maxSplats: number;\n mapping: { base: number; count: number }[];\n } {\n let maxSplats = 0;\n const mapping = splatCounts.map((numSplats) => {\n const base = maxSplats;\n // Generation happens in horizontal row chunks, so round up to full width\n const rounded = Math.ceil(numSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n maxSplats += rounded;\n return { base, count: numSplats };\n });\n return { maxSplats, mapping };\n }\n\n // Ensures our NewSplatAccumulator.target render target has enough space\n // to generate maxSplats total Gsplats, and reallocate if not large enough.\n ensureGenerate({ maxSplats }: { maxSplats: number }) {\n if (this.target && (maxSplats ?? 1) <= this.maxSplats) {\n return false;\n }\n this.dispose();\n\n // The packed Gsplats are stored in a 2D array texture of max size\n // 2048 x 2048 x 2048, one RGBA32UI pixel = 4 uint32 = one Gsplat\n const textureSize = getTextureSize(maxSplats ?? 1);\n const { width, height, depth } = textureSize;\n this.maxSplats = textureSize.maxSplats;\n this.target = new THREE.WebGLArrayRenderTarget(width, height, depth, {\n depthBuffer: false,\n stencilBuffer: false,\n generateMipmaps: false,\n magFilter: THREE.NearestFilter,\n minFilter: THREE.NearestFilter,\n format: THREE.RGBAIntegerFormat,\n type: THREE.UnsignedIntType,\n });\n this.target.scissorTest = true;\n\n if (this.extSplats) {\n const target2 = this.target.texture.clone();\n const target3 = this.target.texture.clone();\n target3.format = THREE.RGBAFormat;\n target3.type = THREE.UnsignedByteType;\n target3.internalFormat = \"RGBA8\";\n this.target.textures = [this.target.texture, target2, target3];\n } else {\n const target3 = this.target.texture.clone();\n target3.format = THREE.RGBAFormat;\n target3.type = THREE.UnsignedByteType;\n target3.internalFormat = \"RGBA8\";\n this.target.textures = [this.target.texture, target3];\n }\n\n return true;\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n // Get a program and THREE.RawShaderMaterial for a given GsplatGenerator,\n // generating it if necessary and caching the result.\n prepareProgramMaterial(\n generator?: GsplatGenerator,\n covGenerator?: CovSplatGenerator,\n ) {\n const theGenerator = generator ?? covGenerator;\n if (!theGenerator) {\n throw new Error(\"Either generator or covGenerator must be provided\");\n }\n\n let program = SplatAccumulator.generatorProgram.get(theGenerator);\n if (!program) {\n const graph = dynoBlock(\n { index: \"int\" },\n {},\n ({ index }, _outputs, { roots }) => {\n if (generator) {\n generator.inputs.index = index;\n }\n if (covGenerator) {\n covGenerator.inputs.index = index;\n }\n\n if (this.extSplats) {\n if (!this.covSplats) {\n if (generator) {\n const output = outputExtendedSplat(generator.outputs.gsplat);\n roots.push(output);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n } else {\n if (covGenerator) {\n const output = outputExtCovSplat(covGenerator.outputs.covsplat);\n roots.push(output);\n } else if (generator) {\n const covsplat = gsplatToCovSplat(generator.outputs.gsplat);\n const output = outputExtCovSplat(covsplat);\n roots.push(output);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n }\n } else {\n if (!this.covSplats) {\n if (generator) {\n const centerSubView = sub(\n splitGsplat(generator.outputs.gsplat).outputs.center,\n SplatAccumulator.viewCenterUniform,\n );\n // Use expanded LoD opacity encoding\n const halfAlpha = mul(\n splitGsplat(generator.outputs.gsplat).outputs.opacity,\n dynoConst(\"float\", 0.5),\n );\n const gsplat = combineGsplat({\n gsplat: generator.outputs.gsplat,\n center: centerSubView,\n opacity: halfAlpha,\n });\n const output = outputPackedSplat(\n gsplat,\n dynoConst(\"vec4\", [0, 1, LN_SCALE_MIN, LN_SCALE_MAX]),\n );\n roots.push(output);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n } else {\n let covsplat: DynoVal;\n if (covGenerator) {\n covsplat = covGenerator.outputs.covsplat;\n } else if (generator) {\n covsplat = gsplatToCovSplat(generator.outputs.gsplat);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n const centerSubView = sub(\n splitCovSplat(covsplat).outputs.center,\n SplatAccumulator.viewCenterUniform,\n );\n const halfAlpha = mul(\n splitCovSplat(covsplat).outputs.opacity,\n dynoConst(\"float\", 0.5),\n );\n covsplat = combineCovSplat({\n covsplat,\n center: centerSubView,\n opacity: halfAlpha,\n });\n const output = outputCovSplat(\n covsplat,\n dynoConst(\"vec4\", [0, 1, LN_SCALE_MIN, LN_SCALE_MAX]),\n );\n roots.push(output);\n }\n if (!generator) {\n throw new Error(\"Generator must be provided\");\n }\n }\n if (generator) {\n const outputDepth = outputSplatDepth(\n generator.outputs.gsplat,\n SplatAccumulator.viewCenterUniform,\n SplatAccumulator.viewDirUniform,\n SplatAccumulator.sortRadialUniform,\n );\n roots.push(outputDepth);\n }\n if (covGenerator) {\n const outputDepth = outputCovSplatDepth(\n covGenerator.outputs.covsplat,\n SplatAccumulator.viewCenterUniform,\n SplatAccumulator.viewDirUniform,\n SplatAccumulator.sortRadialUniform,\n );\n roots.push(outputDepth);\n }\n return undefined;\n },\n );\n program = new DynoProgram({\n graph,\n inputs: { index: \"_index\" },\n outputs: {},\n template: this.extSplats\n ? SplatAccumulator.programExtTemplate\n : SplatAccumulator.programTemplate,\n // consoleLog: true,\n });\n\n SplatAccumulator.generatorProgram.set(theGenerator, program);\n }\n Object.assign(program.uniforms, {\n targetLayer: { value: 0 },\n targetBase: { value: 0 },\n targetCount: { value: 0 },\n });\n\n const material = program.prepareMaterial();\n SplatAccumulator.fullScreenQuad.material = material;\n return { program, material };\n }\n\n static programExtTemplate = new DynoProgramTemplate(\n getShaders().computeUvec4x2Vec4Template,\n );\n static programTemplate = new DynoProgramTemplate(\n getShaders().computeUvec4Vec4Template,\n );\n static generatorProgram = new WeakMap<\n GsplatGenerator | CovSplatGenerator,\n DynoProgram\n >();\n static fullScreenQuad = new FullScreenQuad(\n new THREE.RawShaderMaterial({ visible: false }),\n );\n\n generate({\n generator,\n covGenerator,\n base,\n count,\n renderer,\n }: {\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n base: number;\n count: number;\n renderer: THREE.WebGLRenderer;\n }) {\n if (!this.target) {\n throw new Error(\"Target must be initialized with ensureGenerate\");\n }\n if (base + count > this.maxSplats) {\n throw new Error(\"Base + count exceeds maxSplats\");\n }\n\n const { program, material } = this.prepareProgramMaterial(\n generator,\n covGenerator,\n );\n program.update();\n\n const renderState = this.saveRenderState(renderer);\n\n // Generate the Gsplats in \"layer\" chunks, in horizontal row ranges,\n // that cover the total count of Gsplats.\n const nextBase =\n Math.ceil((base + count) / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n material.uniforms.targetBase.value = base;\n material.uniforms.targetCount.value = count;\n\n // Keep generating layers until we've reached the next generation's base\n while (base < nextBase) {\n const layer = Math.floor(base / layerSize);\n material.uniforms.targetLayer.value = layer;\n\n const layerBase = layer * layerSize;\n const layerYStart = Math.floor((base - layerBase) / SPLAT_TEX_WIDTH);\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((nextBase - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n // Render the desired portion of the layer\n this.target.scissor.set(\n 0,\n layerYStart,\n SPLAT_TEX_WIDTH,\n layerYEnd - layerYStart,\n );\n renderer.setRenderTarget(this.target, layer);\n renderer.xr.enabled = false;\n renderer.autoClear = false;\n SplatAccumulator.fullScreenQuad.render(renderer);\n\n base += SPLAT_TEX_WIDTH * (layerYEnd - layerYStart);\n }\n\n this.resetRenderState(renderer, renderState);\n return { nextBase };\n }\n\n prepareGenerate({\n renderer,\n scene,\n time,\n camera,\n sortRadial,\n renderSize,\n previous,\n lodInstances,\n }: {\n renderer: THREE.WebGLRenderer;\n scene: THREE.Scene;\n time: number;\n camera: THREE.Camera;\n sortRadial: boolean;\n renderSize: THREE.Vector2;\n previous: SplatAccumulator;\n lodInstances?: Map<\n SplatMesh,\n { numSplats: number; texture: THREE.DataTexture }\n >;\n }) {\n this.viewToWorld.copy(camera.matrixWorld);\n camera.getWorldPosition(this.viewOrigin);\n camera.getWorldDirection(this.viewDirection);\n SplatAccumulator.viewCenterUniform.value.copy(this.viewOrigin);\n SplatAccumulator.viewDirUniform.value.copy(this.viewDirection);\n SplatAccumulator.sortRadialUniform.value = sortRadial;\n\n this.time = time;\n this.deltaTime = time - previous.time;\n\n const allGenerators: SplatGenerator[] = [];\n scene.traverse((node) => {\n if (node instanceof SplatGenerator) {\n if (!camera.layers || camera.layers.test(node.layers)) {\n allGenerators.push(node);\n }\n }\n });\n\n const globalEditsSet = new Set();\n scene.traverseVisible((node) => {\n if (node instanceof SplatEdit) {\n let ancestor = node.parent;\n while (ancestor != null && !(ancestor instanceof SplatMesh)) {\n ancestor = ancestor.parent;\n }\n if (ancestor == null) {\n // Not part of a SplatMesh so it's a global edit\n globalEditsSet.add(node);\n }\n }\n });\n const globalEdits = Array.from(globalEditsSet);\n\n for (const object of allGenerators) {\n try {\n object.frameUpdate?.({\n renderer,\n object,\n time: this.time,\n deltaTime: this.deltaTime,\n viewToWorld: this.viewToWorld,\n camera,\n renderSize,\n globalEdits,\n lodIndices:\n lodInstances && object instanceof SplatMesh\n ? lodInstances.get(object)\n : undefined,\n });\n } catch (error) {\n console.error(\"frameUpdate error\", error);\n object.generator = undefined;\n object.covGenerator = undefined;\n object.generatorError = error;\n }\n }\n\n const visibleGenerators: SplatGenerator[] = [];\n scene.traverseVisible((node) => {\n if (node instanceof SplatGenerator) {\n if (!camera.layers || camera.layers.test(node.layers)) {\n visibleGenerators.push(node);\n }\n }\n });\n\n const splatCounts = visibleGenerators.map(\n (generator) => generator.numSplats,\n );\n const { maxSplats, mapping: baseCounts } =\n this.generateMapping(splatCounts);\n\n const previousMappings = previous.mapping.reduce((mappings, mapping) => {\n mappings.set(mapping.node, mapping);\n return mappings;\n }, new Map());\n\n this.mapping = [];\n this.numSplats = 0;\n\n baseCounts.forEach(({ base, count }, index) => {\n const node = visibleGenerators[index];\n const previousNode = previousMappings.get(node);\n if (previousNode && previousNode.count !== node.numSplats) {\n node.updateMappingVersion();\n }\n\n const { generator, covGenerator } = node;\n if ((generator || covGenerator) && count > 0) {\n const { version, mappingVersion } = node;\n this.mapping.push({\n node,\n generator,\n covGenerator,\n version,\n mappingVersion,\n base,\n count,\n });\n this.numSplats = Math.max(this.numSplats, base + count);\n }\n });\n const { splatsUpdated, mappingUpdated } = previous.checkVersions(\n this.mapping,\n );\n this.version = previous.version + (splatsUpdated ? 1 : 0);\n this.mappingVersion = previous.mappingVersion + (mappingUpdated ? 1 : 0);\n\n return {\n sameMapping: !mappingUpdated,\n version: this.version,\n mappingVersion: this.mappingVersion,\n visibleGenerators,\n generate: () => {\n this.ensureGenerate({ maxSplats });\n\n for (const { node, base, count } of this.mapping) {\n const { generator, covGenerator } = node;\n if ((generator || covGenerator) && count > 0) {\n this.generate({ generator, covGenerator, base, count, renderer });\n }\n }\n },\n readback: async () => {\n const textures = this.getTextures();\n if (this.readbackSplats.length === 0) {\n this.readbackSplats = [\n new DynoUsampler2DArray({ value: textures[0], key: \"extSplats\" }),\n new DynoUsampler2DArray({ value: textures[1], key: \"extSplats\" }),\n ];\n }\n this.readbackSplats[0].value = textures[0];\n this.readbackSplats[1].value = textures[1];\n\n if (!this.readback) {\n this.readback = new Readback({ renderer });\n }\n const readback = this.readback;\n const words = this.extSplats ? 8 : 4;\n const array = readback.ensureBuffer(\n this.numSplats * words,\n new Uint32Array(0),\n );\n\n const reader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n const rgba8 = new Dyno({\n inTypes: {\n index: \"int\",\n extSplats1: \"usampler2DArray\",\n extSplats2: \"usampler2DArray\",\n },\n outTypes: { rgba8: \"vec4\" },\n inputs: {\n index,\n extSplats1: this.readbackSplats[0],\n extSplats2: this.readbackSplats[1],\n },\n statements: ({ inputs, outputs }) => {\n if (this.extSplats) {\n return unindentLines(`\n int indexDiv8 = ${inputs.index} >> 3;\n ivec3 coord = splatTexCoord(indexDiv8);\n uvec4 packed;\n if ((${inputs.index} & 4) == 0) {\n packed = texelFetch(${inputs.extSplats1}, coord, 0);\n } else {\n packed = texelFetch(${inputs.extSplats2}, coord, 0);\n }\n\n int indexMod4 = ${inputs.index} & 3;\n uint data = (indexMod4 == 0) ? packed.x\n : (indexMod4 == 1) ? packed.y\n : (indexMod4 == 2) ? packed.z\n : packed.w;\n ${outputs.rgba8} = uintToVec4(data);\n `);\n }\n return unindentLines(`\n int indexDiv4 = ${inputs.index} >> 2;\n ivec3 coord = splatTexCoord(indexDiv4);\n uvec4 packed = texelFetch(${inputs.extSplats1}, coord, 0);\n\n int indexMod4 = ${inputs.index} & 3;\n uint data = (indexMod4 == 0) ? packed.x\n : (indexMod4 == 1) ? packed.y\n : (indexMod4 == 2) ? packed.z\n : packed.w;\n ${outputs.rgba8} = uintToVec4(data);\n `);\n },\n }).outputs.rgba8;\n return { rgba8 };\n },\n );\n\n return await readback.renderReadback({\n reader,\n count: this.numSplats * words,\n renderer,\n readback: array,\n });\n },\n };\n }\n\n // Check if this accumulator has exactly the same generator mapping as\n // the previous one. If so, we can reuse the Gsplat sort order.\n checkVersions(otherMapping: GeneratorMapping[]) {\n if (this.mapping.length !== otherMapping.length) {\n return { splatsUpdated: true, mappingUpdated: true };\n }\n const mappingUpdated = this.mapping.some((item, i) => {\n const other = otherMapping[i];\n return (\n item.node !== other.node ||\n item.base !== other.base ||\n item.count !== other.count ||\n item.mappingVersion !== other.mappingVersion\n );\n });\n if (mappingUpdated) {\n return { splatsUpdated: true, mappingUpdated: true };\n }\n const splatsUpdated = this.mapping.some((item, i) => {\n return item.version !== otherMapping[i].version;\n });\n return { splatsUpdated, mappingUpdated };\n }\n}\n","import * as THREE from \"three\";\n\n// SplatGeometry is an internal class used by SparkRenderer to render a collection\n// of Gsplats in a single draw call by extending THREE.InstancedBufferGeometry.\n// Each Gsplat is drawn as two triangles, with the order of the Gsplats determined\n// by a texture lookup via gl_InstanceID.\n\nexport class SplatGeometry extends THREE.InstancedBufferGeometry {\n constructor() {\n super();\n this.setAttribute(\"position\", new THREE.BufferAttribute(QUAD_VERTICES, 3));\n this.setIndex(new THREE.BufferAttribute(QUAD_INDICES, 1));\n }\n}\n\n// Each instance draws to triangles covering a quad over coords (-1,-1,0)..(1,1,0)\nconst QUAD_VERTICES = new Float32Array([\n -1, -1, 0, 1, -1, 0, 1, 1, 0, -1, 1, 0,\n]);\n\nconst QUAD_INDICES = new Uint16Array([0, 1, 2, 0, 2, 3]);\n","import * as THREE from \"three\";\nimport {\n ExtSplats,\n PackedSplats,\n PagedSplats,\n Readback,\n type SplatGenerator,\n SplatMesh,\n SplatPager,\n} from \".\";\nimport { SplatAccumulator } from \"./SplatAccumulator\";\nimport { SplatGeometry } from \"./SplatGeometry\";\nimport { SplatWorker } from \"./SplatWorker\";\nimport { SPLAT_TEX_HEIGHT, SPLAT_TEX_WIDTH } from \"./defines\";\nimport { getShaders } from \"./shaders\";\nimport {\n cloneClock,\n isAndroid,\n isIos,\n isMobile,\n isOculus,\n isVisionPro,\n} from \"./utils\";\n\nexport interface SparkRendererOptions {\n /**\n * Pass in your THREE.WebGLRenderer instance so Spark can perform work\n * outside the usual render loop. Should be created with antialias: false\n * (default setting) as WebGL anti-aliasing doesn't improve Gaussian Splatting\n * rendering and significantly reduces performance.\n */\n renderer: THREE.WebGLRenderer;\n /**\n * Callback function to be called when SparkRenderer needs to re-render,\n * for example when splat sort order or LoD updates complete.\n */\n onDirty?: () => void;\n /**\n * Whether to use premultiplied alpha when accumulating splat RGB\n * @default true\n */\n premultipliedAlpha?: boolean;\n /**\n * Whether to encode Gsplat with linear RGB (for environment mapping)\n * @default false\n */\n encodeLinear?: boolean;\n /**\n * Pass in a THREE.Clock to synchronize time-based effects across different\n * systems. Alternatively, you can set the property time directly.\n * (default: new THREE.Clock)\n */\n clock?: THREE.Clock;\n /**\n * Controls whether to check and automatically update Gsplat collection\n * each frame render.\n * @default true\n */\n autoUpdate?: boolean;\n /**\n * Controls whether to update the Gsplats before or after rendering. For WebXR\n * this is set to false in order to complete rendering as soon as possible.\n * @default true (if not WebXR)\n */\n preUpdate?: boolean;\n /**\n * Maximum standard deviations from the center to render Gaussians. Values\n * Math.sqrt(4)..Math.sqrt(9) produce acceptable results and can be tweaked for\n * performance.\n * @default Math.sqrt(8)\n */\n maxStdDev?: number;\n /*\n **\n * Minimum pixel radius for splat rendering.\n * @default 0.0\n */\n minPixelRadius?: number;\n /**\n * Maximum pixel radius for splat rendering.\n * @default 512.0\n */\n maxPixelRadius?: number;\n /**\n * Whether to use extended Gsplat encoding for intermediary accumulator splats.\n * @default false\n */\n accumExtSplats?: boolean;\n /**\n * Whether to use covariance Gsplat encoding for intermediary splats.\n * @default false\n */\n covSplats?: boolean;\n /**\n * Minimum alpha value for splat rendering.\n * @default 0.5 * (1.0 / 255.0)\n */\n minAlpha?: number;\n /**\n * Enable 2D Gaussian splatting rendering ability. When this mode is enabled,\n * any scale x/y/z component that is exactly 0 (minimum quantized value) results\n * in the other two non-0 axis being interpreted as an oriented 2D Gaussian Splat,\n * rather instead of the usual projected 3DGS Z-slice. When reading PLY files,\n * scale values less than e^-30 will be interpreted as 0.\n * @default false\n */\n enable2DGS?: boolean;\n /**\n * Enable alternative ray-splat max response evaluation, used by 3DGUT (unscented transform),\n * 3DGRT, and HTGS.\n * @default false\n */\n // enableRayEval?: boolean;\n /**\n * Scalar value to add to 2D splat covariance diagonal, effectively blurring +\n * enlarging splats. In scenes trained without the Gsplat anti-aliasing tweak\n * this value was typically 0.3, but with anti-aliasing it is 0.0\n * @default 0.0\n */\n preBlurAmount?: number;\n /**\n * Scalar value to add to 2D splat covarianve diagonal, with opacity adjustment\n * to correctly account for \"blurring\" when anti-aliasing. Typically 0.3\n * (equivalent to approx 0.5 pixel radius) in scenes trained with anti-aliasing.\n */\n blurAmount?: number;\n /**\n * Depth-of-field distance to focal plane\n */\n focalDistance?: number;\n /**\n * Full-width angle of aperture opening (in radians), 0.0 to disable\n * @default 0.0\n */\n apertureAngle?: number;\n /**\n * Modulate Gaussian kernel falloff. 0 means \"no falloff, flat shading\",\n * while 1 is the normal Gaussian kernel.\n * @default 1.0\n */\n falloff?: number;\n /**\n * X/Y clipping boundary factor for Gsplat centers against view frustum.\n * 1.0 clips any centers that are exactly out of bounds, while 1.4 clips\n * centers that are 40% beyond the bounds.\n * @default 1.4\n */\n clipXY?: number;\n /**\n * Parameter to adjust projected splat scale calculation to match other renderers,\n * similar to the same parameter in the MKellogg 3DGS renderer. Higher values will\n * tend to sharpen the splats. A value 2.0 can be used to match the behavior of\n * the PlayCanvas renderer.\n * @default 1.0\n */\n focalAdjustment?: number;\n /**\n * Whether to sort splats radially (geometric distance) from the viewpoint (true)\n * or by Z-depth (false). Most scenes are trained with the Z-depth `sort `metric\n * and will render more accurately at certain viewpoints. However, radial sorting\n * is more stable under viewpoint rotations.\n * @default true\n */\n sortRadial?: boolean;\n /**\n * Minimum interval between sort calls in milliseconds.\n * @default 0\n */\n minSortIntervalMs?: number;\n /*\n * Flag to control whether LoD is enabled. @default true\n */\n enableLod?: boolean;\n /**\n * Whether to drive LOD updates (compute lodInstances, update pager, etc.).\n * Set to false to use LOD instances from another renderer without driving updates.\n * Only has effect if enableLod is true.\n * @default true (if enableLod is true)\n */\n enableDriveLod?: boolean;\n /**\n * Whether to enable page fetching for LoD.\n * @default true\n */\n enableLodFetching?: boolean;\n /**\n * Set the target # splats for LoD. If this isn't set then default base LoD splat\n * counts will apply: 500K-750K for WebXR, 1-1.5M for mobile, and 2.5M for desktop.\n * @default 500K-2500K depending on platform\n */\n lodSplatCount?: number;\n /**\n * Scale factor for target # splats for LoD. 2.0 means 2x the base LoD splat count.\n * This is the easiest LoD parameter to adjust and will scale detail appropriately\n * for the platform.\n * @default 1.0\n */\n lodSplatScale?: number;\n /**\n * Determines the minimum screen pixel size of LoD splats. The default 1.0 means\n * the splat LoD tree will pick splats that are no smaller than 1 pixel in size.\n * Setting this to a higher value as high as 5.0 will often be indistinguishable\n * but will avoid wasting rendering capacity on tiny splats.\n * @default 1.0\n */\n lodRenderScale?: number;\n /**\n * Inflate LoD splats to ensure opacity stays <= 1.0, producing a softer appearance.\n * @default false\n */\n lodInflate?: boolean;\n /**\n * Whether to use extended Gsplat encoding for paged splats, useful for eliminating\n * quantization artifacts from splat scenes with large internal position coordinates.\n * @default false\n */\n pagedExtSplats?: boolean;\n /**\n * Allocation size of paged splats. This must be a multiple of the page size (65536).\n * @default 16777216 (256 * 65536) for desktop, 6291456 for iOS, 8,388,608 for other mobile\n */\n maxPagedSplats?: number;\n /**\n * Number of parallel chunk fetchers for LoD. These are run within a shared pool\n * of 4 background WebWorker threads, so setting it above 4 will not have any\n * effect. Setting it 3 leaves one spare worker for other loading/decoding tasks.\n * @default 3\n */\n numLodFetchers?: number;\n /* Full-width angle in degrees of fixed foveation cone along the view direction\n * with no foveation applied (full resolution, foveate=1.0). Set to 0 to disable.\n * @default 90.0\n */\n coneFov0?: number;\n /* Full-width angle in degrees of fixed foveation cone along the view direction\n * with reduced resolution specified by `coneFoveate`. Foveation will be applied\n * smoothly from 1.0 down to `coneFoveate` as you move outward from\n * `coneFov0` to `coneFov`. Set to 0 to disable.\n * @default 120.0\n */\n coneFov?: number;\n /* Foveation scale to apply to LoD splats at the edge of coneFov. Foveation will\n * be applied smoothly from `coneFoveate` down to `behindFoveate` as you move\n * outward from `coneFov` to 180 degrees (behind the viewer).\n * @default 0.4\n */\n coneFoveate?: number;\n /* Foveation scale to apply to LoD splats behind the viewer. Setting this to 0.1\n * for example will result in splats 10x larger than inside the viewing frustum.\n * @default 0.2\n */\n behindFoveate?: number;\n /* How many LoD splats to generate for raycasting\n * @default 10000-25000 iff default canvas target is used\n */\n lodRaycast?: number;\n lodRaycastIntervalMs?: number;\n /* Configures an offline render target for the SparkRenderer (as opposed to\n * rendering to the canvas). This is useful for rendering environment maps,\n * additional viewpoints, or video frame rendering.\n * @default undefined\n */\n target?: {\n /**\n * Width of the render target in pixels.\n */\n width: number;\n /**\n * Height of the render target in pixels.\n */\n height: number;\n /**\n * If you want to be able to render a scene that depends on this target's\n * output (for example, a recursive viewport), set this to true to enable\n * double buffering.\n * @default false\n */\n doubleBuffer?: boolean;\n /**\n * Super-sampling factor for the render target. Values 1-4 are supported.\n * Note that re-sampling back down to .width x .height is done on the CPU\n * with simple averaging only when calling readTarget().\n * @default 1\n */\n superXY?: number;\n } & THREE.RenderTargetOptions;\n /* Extra uniform values to pass to the shader.\n * @default undefined = no extra uniforms\n */\n extraUniforms?: Record;\n /* Replace the default `splatVertex.glsl` splat shader with a custom one.\n * @default undefined = use the default `splatVertex.glsl` shader\n */\n vertexShader?: string;\n /* Replace the default `splatFragment.glsl` splat shader with a custom one.\n * @default undefined = use the default `splatFragment.glsl` shader\n */\n fragmentShader?: string;\n /* Set the splat shader material to be transparent which determines if the\n * splats are rendered during the first opaque THREE.js render pass or the\n * second transparent render pass.\n * @default undefined = true\n */\n transparent?: boolean;\n /* Set the splat shader material to enable depth testing which determines if the\n * splats respect the Z depth buffer and blend with other opaque objects in the scene.\n * @default undefined = true\n */\n depthTest?: boolean;\n /* Set the splat shader material to enable depth writing which determines if the\n * splats write to the Z depth buffer. Note that enabling this may produce\n * undesirable results because most of the Gsplat is transparent.\n * @default undefined = false\n */\n depthWrite?: boolean;\n}\n\nexport class SparkRenderer extends THREE.Mesh {\n renderer: THREE.WebGLRenderer;\n premultipliedAlpha: boolean;\n material: THREE.ShaderMaterial;\n uniforms: ReturnType;\n\n autoUpdate: boolean;\n preUpdate: boolean;\n static sparkOverride?: SparkRenderer;\n\n renderSize = new THREE.Vector2();\n maxStdDev: number;\n minPixelRadius: number;\n maxPixelRadius: number;\n accumExtSplats: boolean;\n covSplats: boolean;\n minAlpha: number;\n enable2DGS: boolean;\n // enableRayEval: boolean;\n preBlurAmount: number;\n blurAmount: number;\n focalDistance: number;\n apertureAngle: number;\n falloff: number;\n clipXY: number;\n focalAdjustment: number;\n encodeLinear: boolean;\n\n sortRadial: boolean;\n minSortIntervalMs: number;\n\n clock: THREE.Clock;\n time?: number;\n lastFrame = -1;\n updateTimeoutId = -1;\n onDirty?: () => void;\n dirty: boolean;\n\n orderingTexture: THREE.DataTexture | null = null;\n maxSplats = 0;\n activeSplats = 0;\n\n display: SplatAccumulator;\n current: SplatAccumulator;\n accumulators: SplatAccumulator[] = [];\n\n sorting = false;\n sortDirty = false;\n lastSortTime = 0;\n sortWorker: SplatWorker | null = null;\n sortTimeoutId = -1;\n sortedCenter = new THREE.Vector3().setScalar(Number.NEGATIVE_INFINITY);\n sortedDir = new THREE.Vector3().setScalar(0);\n readback32 = new Uint32Array(0);\n\n enableLod: boolean;\n enableDriveLod: boolean;\n enableLodFetching: boolean;\n lodSplatCount?: number;\n lodSplatScale: number;\n lodRenderScale: number;\n lodInflate: boolean;\n pagedExtSplats: boolean;\n maxPagedSplats: number;\n numLodFetchers: number;\n behindFoveate: number;\n coneFov0: number;\n coneFov: number;\n coneFoveate: number;\n\n lodRaycast?: number;\n lodRaycastIntervalMs: number;\n lastLodRaycastTime = 0;\n\n lodWorker: SplatWorker | null = null;\n lodMeshes: { mesh: SplatMesh; version: number }[] = [];\n lodDirty = false;\n lodIds: Map<\n PackedSplats | ExtSplats | PagedSplats,\n { lodId: number; lastTouched: number; rootPage?: number }\n > = new Map();\n lodIdToSplats: Map =\n new Map();\n lodInitQueue: (PackedSplats | ExtSplats | PagedSplats)[] = [];\n lastLod?: {\n pos: THREE.Vector3;\n quat: THREE.Quaternion;\n pixelScaleLimit: number;\n maxSplats: number;\n timestamp: number;\n };\n currentLod?: {\n pos: THREE.Vector3;\n quat: THREE.Quaternion;\n pixelScaleLimit: number;\n maxSplats: number;\n timestamp: number;\n };\n lodPosOverride?: THREE.Vector3;\n lodQuatOverride?: THREE.Quaternion;\n lodInstances: Map<\n SplatMesh,\n {\n lodId: number;\n numSplats: number;\n indices: Uint32Array;\n texture: THREE.DataTexture;\n }\n > = new Map();\n lodUpdates: {\n lodId: number;\n pageBase: number;\n chunkBase: number;\n count: number;\n lodTreeData?: Uint32Array;\n }[] = [];\n lastTraverseTime = 0;\n lastPixelLimit?: number;\n\n pager?: SplatPager;\n pagerId = 0;\n // prefetchCameras: THREE.Camera[] = [];\n // prefetchLodScale = 1.0;\n // prefetchMeshesCache: SplatMesh[] = [];\n // prefetchMeshesCacheScene?: THREE.Scene;\n\n target?: THREE.WebGLRenderTarget;\n backTarget?: THREE.WebGLRenderTarget;\n superPixels?: Uint8Array;\n targetPixels?: Uint8Array;\n superXY = 1;\n\n flushAfterGenerate = false;\n flushAfterRead = false;\n readPause = 1;\n sortPause = 0;\n sortDelay = 0;\n\n constructor(options: SparkRendererOptions) {\n if (!options) {\n throw new Error(\"SparkRenderer options are required\");\n }\n if (!options.renderer) {\n throw new Error(\"renderer is required in SparkRenderer options\");\n }\n\n const uniforms = SparkRenderer.makeUniforms();\n Object.assign(uniforms, options.extraUniforms ?? {});\n\n const shaders = getShaders();\n const premultipliedAlpha = options.premultipliedAlpha ?? true;\n const geometry = new SplatGeometry();\n const material = new THREE.ShaderMaterial({\n glslVersion: THREE.GLSL3,\n vertexShader: options.vertexShader ?? shaders.splatVertex,\n fragmentShader: options.fragmentShader ?? shaders.splatFragment,\n uniforms,\n premultipliedAlpha,\n transparent: options.transparent ?? true,\n depthTest: options.depthTest ?? true,\n depthWrite: options.depthWrite ?? false,\n side: THREE.DoubleSide,\n allowOverride: false,\n });\n\n super(geometry, material);\n this.material = material;\n this.uniforms = uniforms;\n // Disable frustum culling because we want to always draw them all\n // and cull Gsplats individually in the shader\n this.frustumCulled = false;\n\n // By default SparkRenderer will only render for layer 0\n // this.layers.enableAll();\n\n // sparkRendererInstance = this;\n this.renderer = options.renderer;\n this.onDirty = options.onDirty;\n this.dirty = true;\n this.premultipliedAlpha = premultipliedAlpha;\n this.autoUpdate = options.autoUpdate ?? true;\n this.preUpdate = options.preUpdate ?? true;\n\n this.maxStdDev = options.maxStdDev ?? Math.sqrt(8.0);\n this.minPixelRadius = options.minPixelRadius ?? 0.0; //1.6;\n this.maxPixelRadius = options.maxPixelRadius ?? 512.0;\n this.accumExtSplats = options.accumExtSplats ?? false;\n this.covSplats = options.covSplats ?? false;\n this.minAlpha = options.minAlpha ?? 0.5 * (1.0 / 255.0);\n this.enable2DGS = options.enable2DGS ?? false;\n // this.enableRayEval = options.enableRayEval ?? false;\n this.preBlurAmount = options.preBlurAmount ?? 0.0;\n this.blurAmount = options.blurAmount ?? 0.3;\n this.focalDistance = options.focalDistance ?? 0.0;\n this.apertureAngle = options.apertureAngle ?? 0.0;\n this.falloff = options.falloff ?? 1.0;\n this.clipXY = options.clipXY ?? 1.4;\n this.focalAdjustment = options.focalAdjustment ?? 1.0;\n this.encodeLinear = options.encodeLinear ?? false;\n\n this.sortRadial = options.sortRadial ?? true;\n this.minSortIntervalMs = options.minSortIntervalMs ?? 0;\n\n this.enableLod = options.enableLod ?? true;\n // enableDriveLod defaults to true if enableLod is true, false otherwise\n this.enableDriveLod = options.enableDriveLod ?? this.enableLod;\n this.enableLodFetching = options.enableLodFetching ?? true;\n this.lodSplatCount = options.lodSplatCount;\n this.lodSplatScale = options.lodSplatScale ?? 1.0;\n this.lodRenderScale = options.lodRenderScale ?? 1.0;\n this.lodInflate = options.lodInflate ?? false;\n this.pagedExtSplats = options.pagedExtSplats ?? false;\n const defaultPages = isMobile() ? (isIos() ? 96 : 128) : 256;\n this.maxPagedSplats = options.maxPagedSplats ?? defaultPages * 65536;\n this.numLodFetchers = options.numLodFetchers ?? 3;\n this.behindFoveate = options.behindFoveate ?? 0.2;\n this.coneFov0 = options.coneFov0 ?? 90.0;\n this.coneFov = options.coneFov ?? 120.0;\n this.coneFoveate = options.coneFoveate ?? 0.4;\n\n this.lodRaycast =\n options.lodRaycast === undefined\n ? isMobile()\n ? 10000\n : 25000\n : options.lodRaycast;\n this.lodRaycastIntervalMs = options.lodRaycastIntervalMs ?? 500;\n\n this.clock = options.clock ? cloneClock(options.clock) : new THREE.Clock();\n\n const accumulatorOptions = {\n extSplats: this.accumExtSplats,\n covSplats: this.covSplats,\n };\n this.display = new SplatAccumulator(accumulatorOptions);\n this.current = this.display;\n this.accumulators.push(new SplatAccumulator(accumulatorOptions));\n this.accumulators.push(new SplatAccumulator(accumulatorOptions));\n\n if (options.target) {\n const {\n width,\n height,\n doubleBuffer,\n superXY: origSuperXY,\n ...origTargetOptions\n } = options.target;\n const superXY = Math.max(1, Math.min(4, origSuperXY ?? 1));\n if (width * superXY > 8192 || height * superXY > 8192) {\n throw new Error(\"Target size too large\");\n }\n this.superXY = superXY;\n\n const superWidth = width * superXY;\n const superHeight = height * superXY;\n const targetOptions: THREE.RenderTargetOptions = {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n colorSpace: THREE.SRGBColorSpace,\n ...origTargetOptions,\n };\n\n this.target = new THREE.WebGLRenderTarget(\n superWidth,\n superHeight,\n targetOptions,\n );\n if (doubleBuffer) {\n this.backTarget = new THREE.WebGLRenderTarget(\n superWidth,\n superHeight,\n targetOptions,\n );\n }\n this.encodeLinear = options.encodeLinear ?? true;\n }\n }\n\n static makeUniforms() {\n const uniforms = {\n // // number of active splats to render\n // numSplats: { value: 0 },\n // Size of render viewport in pixels\n renderSize: { value: new THREE.Vector2() },\n // Near and far plane distances\n near: { value: 0.1 },\n far: { value: 1000.0 },\n // SplatAccumulator to view transformation quaternion\n renderToViewQuat: { value: new THREE.Quaternion() },\n // SplatAccumulator to view transformation translation\n renderToViewPos: { value: new THREE.Vector3() },\n renderToViewBasis: { value: new THREE.Matrix3() },\n renderToViewOffset: { value: new THREE.Vector3() },\n // Maximum distance (in stddevs) from Gsplat center to render\n maxStdDev: { value: 1.0 },\n // Minimum pixel radius for splat rendering\n minPixelRadius: { value: 0.0 },\n // Maximum pixel radius for splat rendering\n maxPixelRadius: { value: 512.0 },\n // Minimum alpha value for splat rendering\n minAlpha: { value: 0.5 * (1.0 / 255.0) },\n // Enable interpreting 0-thickness Gsplats as 2DGS\n enable2DGS: { value: false },\n // Enable ray-splat max response evaluation\n // enableRayEval: { value: false },\n // Inflate LoD splats so that opacity <= 1.0\n lodInflate: { value: false },\n // Add to projected 2D splat covariance diagonal (thickens and brightens)\n preBlurAmount: { value: 0.0 },\n // Add to 2D splat covariance diagonal and adjust opacity (anti-aliasing)\n blurAmount: { value: 0.3 },\n // Depth-of-field distance to focal plane\n focalDistance: { value: 0.0 },\n // Full-width angle of aperture opening (in radians)\n apertureAngle: { value: 0.0 },\n // Modulate Gaussian kernal falloff. 0 means \"no falloff, flat shading\",\n // 1 is normal e^-x^2 falloff.\n falloff: { value: 1.0 },\n // Clip Gsplats that are clipXY times beyond the +-1 frustum bounds\n clipXY: { value: 1.4 },\n // Debug renderSize scale factor\n focalAdjustment: { value: 1.0 },\n // Whether to encode Gsplat with linear RGB (for environment mapping)\n encodeLinear: { value: false },\n // Back-to-front sort ordering of splat indices\n ordering: { type: \"t\", value: SparkRenderer.emptyOrdering },\n enableExtSplats: { value: false },\n enableCovSplats: { value: false },\n // Gsplat collection to render\n extSplats: { type: \"t\", value: SplatAccumulator.emptyTexture },\n extSplats2: { type: \"t\", value: SplatAccumulator.emptyTexture },\n // Time in seconds for time-based effects\n time: { value: 0 },\n // Delta time in seconds since last frame\n deltaTime: { value: 0 },\n // Debug flag that alternates each frame\n debugFlag: { value: false },\n };\n return uniforms;\n }\n\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target = undefined;\n }\n if (this.backTarget) {\n this.backTarget.dispose();\n this.backTarget = undefined;\n }\n if (this.orderingTexture) {\n this.orderingTexture.dispose();\n this.orderingTexture = null;\n }\n\n const accumulators = new Set();\n accumulators.add(this.display);\n accumulators.add(this.current);\n for (const accumulator of this.accumulators) {\n accumulators.add(accumulator);\n }\n for (const accumulator of accumulators) {\n accumulator.dispose();\n }\n\n const instances = this.lodInstances.values();\n this.lodInstances.clear();\n for (const instance of instances) {\n instance.texture.dispose();\n }\n\n if (this.sortWorker) {\n this.sortWorker.dispose();\n this.sortWorker = null;\n }\n if (this.lodWorker) {\n this.lodWorker.dispose();\n this.lodWorker = null;\n }\n if (this.pager) {\n this.pager.dispose();\n this.pager = undefined;\n }\n }\n\n setDirty() {\n if (!this.dirty) {\n this.dirty = true;\n this.onDirty?.();\n }\n }\n\n onBeforeRender(\n renderer: THREE.WebGLRenderer,\n scene: THREE.Scene,\n camera: THREE.Camera,\n ) {\n const spark = SparkRenderer.sparkOverride ?? this;\n\n const frame = renderer.info.render.frame;\n const isNewFrame = frame !== spark.lastFrame;\n spark.lastFrame = frame;\n\n if (spark.target) {\n spark.renderSize.set(spark.target.width, spark.target.height);\n } else {\n const renderSize = renderer.getDrawingBufferSize(spark.renderSize);\n if (renderer.xr.isPresenting) {\n if (renderSize.x === 1 && renderSize.y === 1) {\n // WebXR mode on Apple Vision Pro returns 1x1 when presenting.\n // Use a different means to figure out the render size.\n const baseLayer = renderer.xr.getSession()?.renderState.baseLayer;\n if (baseLayer) {\n renderSize.x = baseLayer.framebufferWidth;\n renderSize.y = baseLayer.framebufferHeight;\n }\n }\n }\n }\n this.uniforms.renderSize.value.copy(spark.renderSize);\n\n const typedCamera = camera as\n | THREE.PerspectiveCamera\n | THREE.OrthographicCamera;\n\n this.uniforms.near.value = typedCamera.near;\n this.uniforms.far.value = typedCamera.far;\n\n const geometry = this.geometry as SplatGeometry;\n geometry.instanceCount = spark.activeSplats;\n\n const accumToWorld = new THREE.Matrix4();\n if (!this.display.extSplats) {\n accumToWorld.makeTranslation(spark.display.viewOrigin);\n }\n const cameraToWorld = camera.matrixWorld.clone();\n const worldToCamera = cameraToWorld.invert();\n const accumToCamera = worldToCamera.multiply(accumToWorld);\n accumToCamera.decompose(\n this.uniforms.renderToViewPos.value,\n this.uniforms.renderToViewQuat.value,\n new THREE.Vector3(),\n );\n this.uniforms.renderToViewBasis.value.setFromMatrix4(accumToCamera);\n\n this.uniforms.maxStdDev.value = spark.maxStdDev;\n this.uniforms.minPixelRadius.value = spark.minPixelRadius;\n this.uniforms.maxPixelRadius.value = spark.maxPixelRadius;\n this.uniforms.minAlpha.value = spark.minAlpha;\n this.uniforms.enable2DGS.value = spark.enable2DGS;\n // this.uniforms.enableRayEval.value = spark.enableRayEval;\n this.uniforms.lodInflate.value = spark.lodInflate;\n this.uniforms.preBlurAmount.value = spark.preBlurAmount;\n this.uniforms.blurAmount.value = spark.blurAmount;\n this.uniforms.focalDistance.value = spark.focalDistance;\n this.uniforms.apertureAngle.value = spark.apertureAngle;\n this.uniforms.falloff.value = spark.falloff;\n this.uniforms.clipXY.value = spark.clipXY;\n this.uniforms.focalAdjustment.value = spark.focalAdjustment;\n this.uniforms.encodeLinear.value = spark.encodeLinear;\n\n this.uniforms.ordering.value =\n spark.orderingTexture ?? SparkRenderer.emptyOrdering;\n this.uniforms.enableExtSplats.value = this.display.extSplats;\n this.uniforms.enableCovSplats.value = this.display.covSplats;\n if (this.display.extSplats) {\n const extSplats = spark.display.getTextures();\n this.uniforms.extSplats.value = extSplats[0];\n this.uniforms.extSplats2.value = extSplats[1];\n } else {\n const packedSplats = spark.display.getTextures();\n this.uniforms.extSplats.value = packedSplats[0];\n this.uniforms.extSplats2.value = packedSplats[0];\n }\n\n this.uniforms.time.value = spark.display.time;\n this.uniforms.deltaTime.value = spark.display.deltaTime;\n // Alternating debug flag that can aid in visual debugging\n this.uniforms.debugFlag.value = (performance.now() / 1000.0) % 2.0 < 1.0;\n\n if (spark.autoUpdate && isNewFrame) {\n const preUpdate = spark.preUpdate && !renderer.xr.isPresenting;\n const useCamera = renderer.xr.isPresenting\n ? renderer.xr.getCamera()\n : camera;\n if (preUpdate) {\n spark.updateInternal({\n scene,\n camera: useCamera,\n autoUpdate: true,\n });\n } else {\n if (spark.updateTimeoutId === -1) {\n spark.updateTimeoutId = setTimeout(() => {\n spark.updateTimeoutId = -1;\n spark.updateInternal({\n scene,\n camera: useCamera,\n autoUpdate: true,\n });\n }, 1);\n }\n }\n }\n\n spark.dirty = false;\n }\n\n clearSplats() {\n this.activeSplats = 0;\n this.display.numSplats = 0;\n this.setDirty();\n }\n\n async update({\n scene,\n camera,\n }: {\n scene: THREE.Scene;\n camera: THREE.Camera;\n }) {\n await this.updateInternal({ scene, camera, autoUpdate: false });\n }\n\n // /**\n // * Provide additional cameras to prefetch paged splat chunks without\n // * affecting main LOD selection.\n // */\n // setPrefetchCameras(cameras?: THREE.Camera[], lodScaleMultiplier = 1.0) {\n // const next = cameras?.filter(Boolean) ?? [];\n // const sameCameras =\n // this.prefetchCameras.length === next.length &&\n // this.prefetchCameras.every((camera, index) => camera === next[index]);\n // if (sameCameras && this.prefetchLodScale === lodScaleMultiplier) {\n // return;\n // }\n // this.prefetchCameras = next;\n // this.prefetchLodScale = lodScaleMultiplier;\n // this.invalidatePrefetchCache();\n // }\n\n // /**\n // * Invalidate the prefetch meshes cache. Call this when SplatMeshes are\n // * added or removed from the scene.\n // */\n // invalidatePrefetchCache() {\n // this.prefetchMeshesCacheScene = undefined;\n // }\n\n private async updateInternal({\n scene,\n camera,\n autoUpdate,\n }: {\n scene: THREE.Scene;\n camera: THREE.Camera;\n autoUpdate: boolean;\n }) {\n const renderer = this.renderer;\n const time = this.time ?? this.clock.getElapsedTime();\n\n const center = camera.getWorldPosition(new THREE.Vector3());\n const dir = camera.getWorldDirection(new THREE.Vector3());\n\n const viewChanged =\n center.distanceTo(this.sortedCenter) > 0.001 ||\n dir.dot(this.sortedDir) < 0.999;\n\n const next = this.accumulators.pop();\n if (!next) {\n // Should never happen\n throw new Error(\"No next accumulator\");\n }\n if (next === this.current) {\n // Should never happen\n throw new Error(\n \"Next accumulator is the same as the current accumulator\",\n );\n }\n const { version, mappingVersion, visibleGenerators, generate } =\n next.prepareGenerate({\n renderer,\n scene,\n time,\n camera,\n sortRadial: this.sortRadial ?? true,\n renderSize: this.renderSize,\n previous: this.current,\n lodInstances: this.enableLod ? this.lodInstances : undefined,\n });\n\n let doUpdate = true;\n const needsUpdate = viewChanged || version !== this.current.version;\n const mappingUpdated = mappingVersion !== this.display.mappingVersion;\n\n if (autoUpdate && !needsUpdate) {\n // Triggered by auto-update but no change\n doUpdate = false;\n }\n\n if (mappingUpdated && this.sorting) {\n // We need to be able to sort the splats because the mapping has changed.\n // Try again next time around.\n doUpdate = false;\n }\n\n if (!doUpdate) {\n // Restore unused accumulator to the free list\n this.accumulators.push(next);\n } else {\n generate();\n\n if (this.flushAfterGenerate) {\n const gl = renderer.getContext() as WebGL2RenderingContext;\n gl.flush();\n }\n\n if (this.display.mappingVersion === next.mappingVersion) {\n // Same splat mapping so let's display it immediately and\n // reuse the sort order\n this.accumulators.push(this.display);\n this.display = next;\n } else {\n if (this.display !== this.current) {\n // The previous current is not being displayed, so replace it\n this.accumulators.push(this.current);\n }\n }\n\n this.current = next;\n this.sortDirty = true;\n this.setDirty();\n }\n\n if (this.enableDriveLod) {\n this.driveLod({ visibleGenerators, camera, scene });\n }\n await this.driveSort();\n }\n\n private async driveSort() {\n if (this.sorting || !this.sortDirty) {\n return;\n }\n\n if (this.sortTimeoutId !== -1) {\n clearTimeout(this.sortTimeoutId);\n this.sortTimeoutId = -1;\n }\n\n const now = performance.now();\n const nextSortTime = this.lastSortTime\n ? this.lastSortTime + this.minSortIntervalMs\n : now;\n if (now < nextSortTime) {\n this.sortTimeoutId = setTimeout(() => {\n this.sortTimeoutId = -1;\n this.driveSort();\n }, nextSortTime - now);\n return;\n }\n\n this.sorting = true;\n this.sortDirty = false;\n this.lastSortTime = now;\n\n if (this.readPause > 0) {\n await new Promise((resolve) => setTimeout(resolve, this.readPause));\n }\n\n const current = this.current;\n\n this.sortedCenter.copy(current.viewOrigin);\n this.sortedDir.copy(current.viewDirection);\n\n const { numSplats, maxSplats } = current;\n const rows = Math.max(1, Math.ceil(maxSplats / 16384));\n const orderingMaxSplats = rows * 16384;\n this.maxSplats = Math.max(this.maxSplats, orderingMaxSplats);\n\n const ordering = new Uint32Array(this.maxSplats);\n const readback = Readback.ensureBuffer(maxSplats, this.readback32);\n this.readback32 = readback;\n\n await this.readbackDepth({\n current,\n renderer: this.renderer,\n numSplats,\n readback,\n });\n\n if (this.sortPause > 0) {\n await new Promise((resolve) => setTimeout(resolve, this.sortPause));\n }\n\n if (!this.sortWorker) {\n this.sortWorker = new SplatWorker();\n }\n const result = (await this.sortWorker.call(\"sortSplats32\", {\n numSplats,\n readback,\n ordering,\n })) as {\n readback: Uint32Array;\n ordering: Uint32Array;\n activeSplats: number;\n };\n\n if (this.sortDelay > 0) {\n await new Promise((resolve) => setTimeout(resolve, this.sortDelay));\n }\n\n this.readback32 = result.readback;\n\n this.activeSplats = result.activeSplats;\n\n if (this.orderingTexture) {\n if (rows > this.orderingTexture.image.height) {\n this.orderingTexture.dispose();\n this.orderingTexture = null;\n }\n }\n\n if (!this.orderingTexture) {\n // console.log(`Allocating orderingTexture: ${4096}x${rows}`);\n const orderingTexture = new THREE.DataTexture(\n result.ordering,\n 4096,\n rows,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n orderingTexture.internalFormat = \"RGBA32UI\";\n orderingTexture.needsUpdate = true;\n this.orderingTexture = orderingTexture;\n } else {\n const renderer = this.renderer;\n const gl = renderer.getContext() as WebGL2RenderingContext;\n if (!renderer.properties.has(this.orderingTexture)) {\n this.orderingTexture.needsUpdate = true;\n } else {\n const props = renderer.properties.get(this.orderingTexture) as {\n __webglTexture: WebGLTexture;\n };\n const glTexture = props.__webglTexture;\n if (!glTexture) {\n throw new Error(\"ordering texture not found\");\n }\n renderer.state.activeTexture(gl.TEXTURE0);\n renderer.state.bindTexture(gl.TEXTURE_2D, glTexture);\n gl.bindBuffer(gl.PIXEL_UNPACK_BUFFER, null);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, false);\n gl.texSubImage2D(\n gl.TEXTURE_2D,\n 0,\n 0,\n 0,\n 4096,\n rows,\n gl.RGBA_INTEGER,\n gl.UNSIGNED_INT,\n // data,\n result.ordering,\n );\n renderer.state.bindTexture(gl.TEXTURE_2D, null);\n }\n }\n\n // console.log(`Sorted (${this.minSortIntervalMs}) ${numSplats} splats in ${(performance.now() - now).toFixed(0)} ms`);\n\n if (this.current.mappingVersion === current.mappingVersion) {\n if (this.current.mappingVersion !== this.display.mappingVersion) {\n this.accumulators.push(this.display);\n this.display = this.current;\n }\n }\n this.sorting = false;\n this.setDirty();\n\n this.driveSort();\n }\n\n private ensureLodWorker() {\n if (!this.lodWorker) {\n this.lodWorker = new SplatWorker();\n }\n return this.lodWorker;\n }\n\n defaultSplatTarget() {\n return isOculus()\n ? 500000\n : isVisionPro()\n ? 750000\n : isAndroid()\n ? 1000000\n : isIos()\n ? 1500000\n : 2500000;\n }\n\n private driveLod({\n visibleGenerators,\n camera,\n scene,\n }: {\n visibleGenerators: SplatGenerator[];\n camera: THREE.Camera;\n scene: THREE.Scene;\n }) {\n const defaultSplatCount = this.defaultSplatTarget();\n const splatCount = this.lodSplatCount ?? defaultSplatCount;\n const maxSplats = splatCount * this.lodSplatScale;\n\n let pixelScaleLimit = 0.0;\n if (camera instanceof THREE.PerspectiveCamera) {\n const tanYfov = Math.tan((0.5 * camera.fov * Math.PI) / 180);\n pixelScaleLimit = (2.0 * tanYfov) / this.renderSize.y;\n } else if (camera instanceof THREE.OrthographicCamera) {\n // Effective visible size after zoom\n const viewHeight = (camera.top - camera.bottom) / camera.zoom;\n const viewWidth = (camera.right - camera.left) / camera.zoom;\n // World/view units per pixel (constant with depth for ortho)\n const pxY = viewHeight / Math.max(1, this.renderSize.y);\n const pxX = viewWidth / Math.max(1, this.renderSize.x);\n pixelScaleLimit = Math.min(pxX, pxY);\n }\n\n pixelScaleLimit *= this.lodRenderScale;\n\n const viewPos = new THREE.Vector3();\n const viewQuat = new THREE.Quaternion();\n this.current.viewToWorld.decompose(viewPos, viewQuat, new THREE.Vector3());\n\n if (this.lodPosOverride) {\n viewPos.copy(this.lodPosOverride);\n }\n if (this.lodQuatOverride) {\n viewQuat.copy(this.lodQuatOverride).normalize();\n }\n\n if (this.lastLod) {\n if (\n this.lastLod.pixelScaleLimit !== pixelScaleLimit ||\n this.lastLod.maxSplats !== maxSplats\n ) {\n this.lodDirty = true;\n }\n\n const distance = viewPos.distanceTo(this.lastLod.pos);\n const distanceRamp = Math.max(0.0, 1.0 - distance / 1.0);\n const dot = viewQuat.dot(this.lastLod.quat);\n const quatRamp = Math.max(0.0, 1.0 - (1.0 - dot) / 0.01);\n const similarity = distanceRamp * quatRamp;\n if (similarity < 0.999) {\n this.lodDirty = true;\n }\n }\n\n const lodMeshes = !this.enableLod\n ? []\n : (visibleGenerators.filter((generator) => {\n return (\n generator instanceof SplatMesh &&\n (generator.packedSplats?.lodSplats ||\n generator.extSplats?.lodSplats ||\n generator.paged) &&\n generator.enableLod !== false\n );\n }) as SplatMesh[]);\n const hasPaged = lodMeshes.some((mesh) => mesh.paged);\n\n if (this.lodMeshes.length !== lodMeshes.length) {\n this.lodDirty = true;\n } else {\n if (\n lodMeshes.some(\n (m, i) =>\n m !== this.lodMeshes[i].mesh ||\n m.version > this.lodMeshes[i].version,\n )\n ) {\n this.lodDirty = true;\n }\n }\n\n this.lodMeshes = lodMeshes.map((mesh) => ({\n mesh,\n version: mesh.version + 1,\n }));\n\n // if (!this.lodDirty && lodMeshes.length === 0 && this.lodIds.size === 0) {\n // return;\n // }\n\n this.lodInitQueue = [];\n const now = performance.now();\n\n for (const mesh of lodMeshes) {\n const splats =\n mesh.packedSplats?.lodSplats ?? mesh.extSplats?.lodSplats ?? mesh.paged;\n if (splats) {\n const record = this.lodIds.get(splats);\n if (record) {\n record.lastTouched = now;\n } else {\n this.lodInitQueue.push(splats);\n }\n }\n }\n\n this.ensureLodWorker().tryExclusive(async (worker) => {\n if (hasPaged && !this.pager) {\n this.pager = new SplatPager({\n renderer: this.renderer,\n extSplats: this.pagedExtSplats,\n maxSplats: this.maxPagedSplats,\n numFetchers: this.numLodFetchers,\n });\n\n const { lodId } = (await worker.call(\"newLodTree\", {\n capacity: this.pager.maxSplats,\n })) as { lodId: number };\n this.pagerId = lodId;\n }\n\n // Assign pager to any new meshes that don't have one yet\n // (must run every frame, not just when pager is first created)\n if (this.pager) {\n for (const { mesh } of this.lodMeshes) {\n if (mesh.paged && !mesh.paged.pager) {\n mesh.paged.pager = this.pager;\n }\n }\n }\n\n if (this.lodInitQueue.length > 0) {\n const lodInitQueue = this.lodInitQueue;\n this.lodInitQueue = [];\n while (lodInitQueue.length > 0) {\n const splats = lodInitQueue.shift();\n if (splats) {\n await this.initLodTree(worker, splats);\n this.lodDirty = true;\n }\n }\n }\n\n if (this.pager) {\n const updates = this.pager.consumeLodTreeUpdates();\n\n for (const { splats, page, chunk, numSplats, lodTree } of updates) {\n const record = this.lodIds.get(splats);\n if (record) {\n if (lodTree && chunk === 0) {\n record.rootPage = page;\n }\n this.lodUpdates.push({\n lodId: record.lodId,\n pageBase: page * this.pager.pageSplats,\n chunkBase: chunk * this.pager.pageSplats,\n count: numSplats,\n lodTreeData: lodTree,\n });\n }\n }\n }\n\n if (this.lodUpdates.length > 0) {\n const lodUpdates = this.lodUpdates;\n this.lodUpdates = [];\n await worker.call(\"updateLodTrees\", { ranges: lodUpdates });\n this.lodDirty = true;\n }\n\n if (this.lodDirty) {\n const now = performance.now();\n const deltaPred = new THREE.Vector3();\n if (this.lastLod) {\n const deltaTime = Math.max(1, now - this.lastLod.timestamp);\n deltaPred\n .copy(viewPos)\n .sub(this.lastLod.pos)\n .multiplyScalar(this.lastTraverseTime / deltaTime);\n }\n this.lastLod = {\n pos: viewPos,\n quat: viewQuat,\n pixelScaleLimit,\n maxSplats,\n timestamp: now,\n };\n this.lodDirty = false;\n\n await this.updateLodInstances(\n worker,\n deltaPred,\n lodMeshes,\n maxSplats,\n viewPos,\n viewQuat,\n pixelScaleLimit,\n );\n this.currentLod = this.lastLod;\n this.setDirty();\n }\n\n await this.cleanupLodTrees(worker);\n });\n }\n\n private async initLodTree(\n worker: SplatWorker,\n splats: PackedSplats | ExtSplats | PagedSplats,\n ) {\n if (splats instanceof PackedSplats || splats instanceof ExtSplats) {\n const { lodId } = (await worker.call(\"initLodTree\", {\n numSplats: splats.numSplats ?? 0,\n lodTree: (splats.extra.lodTree as Uint32Array).slice(),\n })) as { lodId: number };\n this.lodIds.set(splats, { lodId, lastTouched: performance.now() });\n this.lodIdToSplats.set(lodId, splats);\n // console.log(\"*** initLodTree\", lodId, splats.extra.lodTree, splats);\n } else {\n const { lodId } = (await worker.call(\"newSharedLodTree\", {\n lodId: this.pagerId,\n })) as { lodId: number };\n this.lodIds.set(splats, { lodId, lastTouched: performance.now() });\n this.lodIdToSplats.set(lodId, splats);\n // console.log(\"*** newSharedLodTree\", lodId, this.pagerId, splats);\n }\n }\n\n private pageSizeWarning = false;\n\n private async updateLodInstances(\n worker: SplatWorker,\n deltaPred: THREE.Vector3,\n lodMeshes: SplatMesh[],\n maxSplats: number,\n viewPos: THREE.Vector3,\n viewQuat: THREE.Quaternion,\n pixelScaleLimit: number,\n ) {\n // Commented out because it makes LoDing less stable\n // viewPos.add(deltaPred);\n\n const uuidToMesh: Map = new Map();\n const cameraToWorld = new THREE.Matrix4().compose(\n viewPos,\n viewQuat,\n new THREE.Vector3().setScalar(1),\n );\n\n const instances = lodMeshes.reduce(\n (instances, mesh) => {\n uuidToMesh.set(mesh.uuid, mesh);\n const viewToObject = mesh.matrixWorld\n .clone()\n .invert()\n .multiply(cameraToWorld);\n\n const splats =\n mesh.packedSplats?.lodSplats ??\n mesh.extSplats?.lodSplats ??\n mesh.paged;\n if (!splats) {\n return instances;\n }\n const record = this.lodIds.get(splats);\n if (!record) {\n return instances;\n }\n\n if (this.pager && mesh.paged && record.rootPage === undefined) {\n return instances;\n }\n\n instances[mesh.uuid] = {\n instanceId: mesh.uuid,\n lodId: record.lodId,\n rootPage: record.rootPage,\n viewToObjectCols: viewToObject.elements,\n lodScale: mesh.lodScale,\n behindFoveate: mesh.behindFoveate ?? this.behindFoveate,\n coneFov0: mesh.coneFov0 ?? this.coneFov0,\n coneFov: mesh.coneFov ?? this.coneFov,\n coneFoveate: mesh.coneFoveate ?? this.coneFoveate,\n };\n return instances;\n },\n {} as Record<\n string,\n {\n instanceId: string;\n lodId: number;\n rootPage?: number;\n viewToObjectCols: number[];\n lodScale: number;\n behindFoveate: number;\n coneFov0: number;\n coneFov: number;\n coneFoveate: number;\n }\n >,\n );\n\n const traverseStart = performance.now();\n const result = (await worker.call(\"traverseLodTrees\", {\n maxSplats,\n pixelScaleLimit,\n lastPixelLimit: this.lastPixelLimit,\n instances,\n })) as {\n keyIndices: Record<\n string,\n { lodId: number; numSplats: number; indices: Uint32Array }\n >;\n chunks: [number, number][];\n pixelLimit?: number;\n };\n this.lastTraverseTime = performance.now() - traverseStart;\n\n const { keyIndices, chunks, pixelLimit } = result;\n this.lastPixelLimit = pixelLimit;\n const totalLodSplats = Object.values(keyIndices).reduce(\n (sum, { numSplats }) => sum + numSplats,\n 0,\n );\n // console.log(\n // `traverseLodTrees in ${this.lastTraverseTime} ms, pixelLimit=${pixelLimit}, totalLodSplats=${totalLodSplats}`,\n // );\n\n this.updateLodIndices(uuidToMesh, keyIndices);\n // console.log(\"chunks.length =\", chunks.length);\n\n if (this.pager) {\n this.pager.processUploads();\n\n const pagedMeshes = lodMeshes\n .map((mesh) => {\n if (!mesh.paged || !this.pager) {\n return null;\n }\n const meshPosition = mesh.getWorldPosition(new THREE.Vector3());\n return {\n splats: mesh.paged,\n distance: meshPosition.distanceTo(viewPos),\n };\n })\n .filter((result) => result !== null);\n\n if (!this.pageSizeWarning && pagedMeshes.length > this.pager.maxPages) {\n this.pageSizeWarning = true;\n console.warn(\n `# paged SplatMeshes exceeds maxPages: ${pagedMeshes.length} > ${this.pager.maxPages}`,\n );\n }\n\n // Fetch root chunk of each paged splats in priority of distance to camera\n pagedMeshes.sort((a, b) => a.distance - b.distance);\n this.pager.fetchPriority = pagedMeshes.map(({ splats }) => ({\n splats,\n chunk: 0,\n }));\n\n for (const [lodId, chunk] of chunks) {\n const splats = this.lodIdToSplats.get(lodId);\n if (splats instanceof PagedSplats) {\n if (chunk !== 0) {\n this.pager.fetchPriority.push({ splats, chunk });\n }\n }\n }\n\n this.pager.autoDrive = this.enableLodFetching;\n if (this.enableLodFetching) {\n this.pager.driveFetchers();\n }\n }\n\n if (\n this.lodRaycast &&\n performance.now() - this.lastLodRaycastTime >= this.lodRaycastIntervalMs\n ) {\n this.lastLodRaycastTime = performance.now();\n const traverseStart = performance.now();\n const result = (await worker.call(\"traverseLodTrees\", {\n maxSplats: Math.min(this.lodRaycast, Math.round(totalLodSplats * 0.1)),\n pixelScaleLimit,\n instances,\n })) as {\n keyIndices: Record<\n string,\n { lodId: number; numSplats: number; indices: Uint32Array }\n >;\n };\n const raycastTraverseTime = performance.now() - traverseStart;\n\n const { keyIndices } = result;\n const totalRaycastSplats = Object.values(keyIndices).reduce(\n (sum, { numSplats }) => sum + numSplats,\n 0,\n );\n for (const [uuid, countIndices] of Object.entries(keyIndices)) {\n const mesh = uuidToMesh.get(uuid) as SplatMesh;\n mesh.raycastIndices = countIndices;\n // console.log(\"Set raycast indices\", uuid, countIndices.numSplats, countIndices.indices.length);\n }\n // console.log(`raycast traverse in ${raycastTraverseTime} ms, totalRaycastSplats=${totalRaycastSplats}`);\n }\n }\n\n private async cleanupLodTrees(worker: SplatWorker) {\n const DISPOSE_TIMEOUT_MS = 3000;\n const now = performance.now();\n\n let oldest = null;\n for (const [splats, record] of this.lodIds.entries()) {\n if (oldest == null || record.lastTouched < oldest.lastTouched) {\n oldest = {\n splats,\n lastTouched: record.lastTouched,\n lodId: record.lodId,\n };\n }\n }\n if (!oldest || oldest.lastTouched > now - DISPOSE_TIMEOUT_MS) {\n return;\n }\n\n this.lodIds.delete(oldest.splats);\n this.lodIdToSplats.delete(oldest.lodId);\n\n for (const [mesh, instance] of this.lodInstances.entries()) {\n if (instance.lodId === oldest.lodId) {\n instance.texture.dispose();\n this.lodInstances.delete(mesh);\n }\n }\n\n await worker.call(\"disposeLodTree\", { lodId: oldest.lodId });\n // console.log(\"disposed lodTree\", oldest.lodId);\n }\n\n private updateLodIndices(\n uuidToMesh: Map,\n keyIndices: Record<\n string,\n { lodId: number; numSplats: number; indices: Uint32Array }\n >,\n ) {\n // console.log(\"updateLodIndices\", keyIndices);\n for (const [uuid, countIndices] of Object.entries(keyIndices)) {\n const { lodId, numSplats, indices } = countIndices;\n const mesh = uuidToMesh.get(uuid) as SplatMesh;\n\n if (mesh.paged) {\n mesh.paged.update(numSplats, indices);\n // console.log(\"*** paged.update\", lodId, numSplats, indices.slice(0, 5).join(\",\"));\n } else {\n let instance = this.lodInstances.get(mesh);\n if (instance) {\n if (indices.length > instance.indices.length) {\n instance.texture.dispose();\n instance = undefined;\n }\n }\n\n const rows = Math.ceil(indices.length / 16384);\n if (!instance) {\n const capacity = rows * 16384;\n if (indices.length !== capacity) {\n throw new Error(\"Indices length != capacity\");\n }\n const texture = new THREE.DataTexture(\n indices,\n 4096,\n rows,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n instance = { lodId, numSplats, indices, texture };\n this.lodInstances.set(mesh, instance);\n } else {\n instance.numSplats = numSplats;\n // instance.indices.set(indices.subarray(0, numSplats));\n\n const renderer = this.renderer;\n const gl = renderer.getContext() as WebGL2RenderingContext;\n if (renderer.properties.has(instance.texture)) {\n const props = renderer.properties.get(instance.texture) as {\n __webglTexture: WebGLTexture;\n };\n const glTexture = props.__webglTexture;\n if (!glTexture) {\n throw new Error(\"lodIndices texture not found\");\n }\n renderer.state.activeTexture(gl.TEXTURE0);\n renderer.state.bindTexture(gl.TEXTURE_2D, glTexture);\n gl.bindBuffer(gl.PIXEL_UNPACK_BUFFER, null);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, false);\n gl.texSubImage2D(\n gl.TEXTURE_2D,\n 0,\n 0,\n 0,\n 4096,\n rows,\n gl.RGBA_INTEGER,\n gl.UNSIGNED_INT,\n indices,\n );\n renderer.state.bindTexture(gl.TEXTURE_2D, null);\n }\n }\n }\n mesh.updateMappingVersion();\n }\n }\n\n private async readbackDepth({\n current,\n renderer,\n numSplats,\n readback,\n }: {\n current: SplatAccumulator;\n renderer: THREE.WebGLRenderer;\n numSplats: number;\n readback: Uint32Array;\n }) {\n if (!renderer) {\n throw new Error(\"No renderer\");\n }\n if (!current.target) {\n throw new Error(\"No target\");\n }\n\n const roundedCount =\n Math.ceil(numSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n if (readback.byteLength < roundedCount * 4) {\n throw new Error(\n `Readback buffer too small: ${readback.byteLength} < ${roundedCount * 4}`,\n );\n }\n const readbackUint8 = new Uint8Array(readback.buffer);\n const renderState = this.saveRenderState(renderer);\n\n // We can only read back one 2D array layer of pixels at a time,\n // so loop through them, initiate the readback, and collect the\n // completion promises.\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n let baseIndex = 0;\n const promises = [];\n\n while (baseIndex < numSplats) {\n const layer = Math.floor(baseIndex / layerSize);\n const layerBase = layer * layerSize;\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((numSplats - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n // Compute the subarray that this layer of readback corresponds to\n const readbackSize = SPLAT_TEX_WIDTH * layerYEnd * 4;\n const subReadback = readbackUint8.subarray(\n layerBase * 4,\n layerBase * 4 + readbackSize,\n );\n renderer.setRenderTarget(current.target, layer);\n\n const promise = renderer.readRenderTargetPixelsAsync(\n current.target,\n 0,\n 0,\n SPLAT_TEX_WIDTH,\n layerYEnd,\n subReadback,\n undefined,\n current.extSplats ? 2 : 1,\n );\n promises.push(promise);\n\n if (this.flushAfterRead) {\n const gl = renderer.getContext() as WebGL2RenderingContext;\n gl.flush();\n }\n\n baseIndex += SPLAT_TEX_WIDTH * layerYEnd;\n }\n\n this.resetRenderState(renderer, renderState);\n return Promise.all(promises).then(() => readback);\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n private static emptyOrdering = (() => {\n const numIndices = 4 * 4096 * 1;\n const emptyArray = new Uint32Array(numIndices);\n const texture = new THREE.DataTexture(emptyArray, 4096, 1);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n render(scene: THREE.Scene, camera: THREE.Camera) {\n try {\n SparkRenderer.sparkOverride = this;\n this.renderer.render(scene, camera);\n } finally {\n SparkRenderer.sparkOverride = undefined;\n }\n }\n\n renderTarget({\n scene,\n camera,\n }: { scene: THREE.Scene; camera: THREE.Camera }): THREE.WebGLRenderTarget {\n const target = this.backTarget ?? this.target;\n if (!target) {\n throw new Error(\"No target\");\n }\n\n const previousTarget = this.renderer.getRenderTarget();\n try {\n this.renderer.setRenderTarget(target);\n SparkRenderer.sparkOverride = this;\n this.renderer.render(scene, camera);\n } finally {\n SparkRenderer.sparkOverride = undefined;\n this.renderer.setRenderTarget(previousTarget);\n }\n\n if (target !== this.target) {\n // Swap back buffer and target\n [this.target, this.backTarget] = [this.backTarget, this.target];\n }\n return target;\n }\n\n // Read back the previously rendered target image as a Uint8Array of packed\n // RGBA values (in that order). Subsequent calls to this.readTarget()\n // will reuse the same buffers to minimize memory allocations.\n async readTarget(): Promise {\n if (!this.target) {\n throw new Error(\"Must initialize with target\");\n }\n const { width, height } = this.target;\n const byteSize = width * height * 4;\n if (!this.superPixels || this.superPixels.length < byteSize) {\n this.superPixels = new Uint8Array(byteSize);\n // console.log(`Allocated superPixels: ${width}x${height} = ${pixelCount} bytes`);\n }\n const superPixels = this.superPixels;\n\n await this.renderer.readRenderTargetPixelsAsync(\n this.target,\n 0,\n 0,\n width,\n height,\n superPixels,\n );\n\n const { superXY } = this;\n if (superXY === 1) {\n return superPixels;\n }\n\n const subWidth = width / superXY;\n const subHeight = height / superXY;\n const subSize = subWidth * subHeight * 4;\n if (!this.targetPixels || this.targetPixels.length < subSize) {\n this.targetPixels = new Uint8Array(subSize);\n // console.log(`Allocated targetPixels: ${subWidth}x${subHeight} = ${subSize} bytes`);\n }\n const targetPixels = this.targetPixels;\n\n const super2 = superXY * superXY;\n for (let y = 0; y < subHeight; y++) {\n const row = y * subWidth;\n for (let x = 0; x < subWidth; x++) {\n const superCol = x * superXY;\n let r = 0;\n let g = 0;\n let b = 0;\n let a = 0;\n for (let sy = 0; sy < superXY; sy++) {\n const superRow = (y * superXY + sy) * width;\n for (let sx = 0; sx < superXY; sx++) {\n const superIndex = (superRow + superCol + sx) * 4;\n r += superPixels[superIndex];\n g += superPixels[superIndex + 1];\n b += superPixels[superIndex + 2];\n a += superPixels[superIndex + 3];\n }\n }\n const pixelIndex = (row + x) * 4;\n targetPixels[pixelIndex] = r / super2;\n targetPixels[pixelIndex + 1] = g / super2;\n targetPixels[pixelIndex + 2] = b / super2;\n targetPixels[pixelIndex + 3] = a / super2;\n }\n }\n return targetPixels;\n }\n\n async renderReadTarget({\n scene,\n camera,\n }: {\n scene: THREE.Scene;\n camera: THREE.Camera;\n }): Promise {\n this.renderTarget({ scene, camera });\n return this.readTarget();\n }\n\n // Data and buffers used for environment map rendering\n private static cubeRender: {\n target: THREE.WebGLCubeRenderTarget;\n cubeCamera: THREE.CubeCamera;\n near: number;\n far: number;\n } | null = null;\n private static pmrem: THREE.PMREMGenerator | null = null;\n\n // Renders out the scene to a cube map that can be used for\n // Image-based lighting or similar applications. First optionally updates Gsplats,\n // sorts them with respect to the provided worldCenter, renders 6 cube faces.\n async renderCubeMap({\n scene,\n worldCenter,\n size = 256,\n near = 0.1,\n far = 1000,\n hideObjects = [],\n update = true,\n filter = false,\n }: {\n scene: THREE.Scene;\n worldCenter: THREE.Vector3;\n size?: number;\n near?: number;\n far?: number;\n hideObjects: THREE.Object3D[];\n update: boolean;\n filter: boolean;\n }): Promise {\n if (\n !SparkRenderer.cubeRender ||\n SparkRenderer.cubeRender.target.width !== size ||\n SparkRenderer.cubeRender.near !== near ||\n SparkRenderer.cubeRender.far !== far\n ) {\n if (SparkRenderer.cubeRender) {\n SparkRenderer.cubeRender.target.dispose();\n }\n const target = new THREE.WebGLCubeRenderTarget(size, {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n generateMipmaps: filter,\n minFilter: filter ? THREE.LinearMipMapLinearFilter : THREE.LinearFilter,\n magFilter: THREE.LinearFilter,\n colorSpace: filter ? THREE.LinearSRGBColorSpace : THREE.SRGBColorSpace,\n });\n const cubeCamera = new THREE.CubeCamera(near, far, target);\n SparkRenderer.cubeRender = { target, cubeCamera, near, far };\n }\n\n const { target, cubeCamera } = SparkRenderer.cubeRender;\n cubeCamera.position.copy(worldCenter);\n\n // Save the visibility state of objects we want to hide before render\n const objectVisibility = new Map();\n for (const object of hideObjects) {\n objectVisibility.set(object, object.visible);\n object.visible = false;\n }\n\n if (update) {\n const tempCamera = new THREE.Camera();\n tempCamera.position.copy(worldCenter);\n await this.update({ scene, camera: tempCamera });\n }\n\n try {\n SparkRenderer.sparkOverride = this;\n // Update the CubeCamera, which performs 6 cube face renders\n cubeCamera.update(this.renderer, scene);\n } finally {\n SparkRenderer.sparkOverride = undefined;\n }\n\n // Restore viewpoint to default and object visibility\n for (const [object, visible] of objectVisibility.entries()) {\n object.visible = visible;\n }\n\n return target.texture;\n }\n\n async readCubeTargets(): Promise {\n if (!SparkRenderer.cubeRender) {\n throw new Error(\"No cube render\");\n }\n\n const textures = SparkRenderer.cubeRender.target.texture;\n const promises = [];\n const buffers = [];\n\n for (let i = 0; i < textures.images.length; ++i) {\n const { width, height } = textures.images[i];\n const byteSize = width * height * 4;\n const readback = new Uint8Array(byteSize);\n buffers.push(readback);\n const promise = this.renderer.readRenderTargetPixelsAsync(\n SparkRenderer.cubeRender.target,\n 0,\n 0,\n width,\n height,\n readback,\n i,\n );\n promises.push(promise);\n }\n\n await Promise.all(promises);\n return buffers;\n }\n\n // Renders out the scene to an environment map that can be used for\n // Image-based lighting or similar applications. First optionally updates Gsplats,\n // sorts them with respect to the provided worldCenter, renders 6 cube faces,\n // then pre-filters them using THREE.PMREMGenerator and returns a THREE.Texture\n // that can assigned directly to a THREE.MeshStandardMaterial.envMap property.\n async renderEnvMap({\n scene,\n worldCenter,\n size = 256,\n near = 0.1,\n far = 1000,\n hideObjects = [],\n update = true,\n }: {\n scene: THREE.Scene;\n worldCenter: THREE.Vector3;\n size?: number;\n near?: number;\n far?: number;\n hideObjects: THREE.Object3D[];\n update: boolean;\n }): Promise {\n const cubeTexture = await this.renderCubeMap({\n scene,\n worldCenter,\n size,\n near,\n far,\n hideObjects,\n update,\n filter: true,\n });\n // Pre-filter the cube map using THREE.PMREMGenerator if requested\n if (!SparkRenderer.pmrem) {\n SparkRenderer.pmrem = new THREE.PMREMGenerator(this.renderer);\n }\n\n return SparkRenderer.pmrem?.fromCubemap(cubeTexture).texture;\n }\n\n // Utility function to recursively set the envMap property for any\n // THREE.MeshStandardMaterial within the subtree of root.\n recurseSetEnvMap(root: THREE.Object3D, envMap: THREE.Texture) {\n root.traverse((node) => {\n if (node instanceof THREE.Mesh) {\n if (Array.isArray(node.material)) {\n for (const material of node.material) {\n if (material instanceof THREE.MeshStandardMaterial) {\n material.envMap = envMap;\n }\n }\n } else {\n if (node.material instanceof THREE.MeshStandardMaterial) {\n node.material.envMap = envMap;\n }\n }\n }\n });\n }\n\n async getLodTreeLevel(\n splats: SplatMesh,\n level: number,\n pageColoring = false,\n ) {\n const instance = this.lodInstances.get(splats);\n if (!instance) {\n return null;\n }\n\n const result = await this.ensureLodWorker().exclusive(async (worker) => {\n return (await worker.call(\"getLodTreeLevel\", {\n lodId: instance.lodId,\n level,\n })) as { indices: Uint32Array };\n });\n\n if (splats.packedSplats?.lodSplats) {\n const newSplats = splats.packedSplats.lodSplats.extractSplats(\n result.indices,\n pageColoring,\n );\n return new SplatMesh({ packedSplats: newSplats });\n }\n if (splats.extSplats?.lodSplats) {\n const newSplats = splats.extSplats.lodSplats.extractSplats(\n result.indices,\n pageColoring,\n );\n return new SplatMesh({ extSplats: newSplats });\n }\n throw new Error(\n \"Only LoD-enabled PackedSplats and ExtSplats are supported\",\n );\n }\n}\n","import * as THREE from \"three\";\n\nimport init_wasm, { decode_rad_header } from \"spark-rs\";\nimport { LN_SCALE_MAX, LN_SCALE_MIN, dyno } from \".\";\nimport { evaluateExtSH } from \"./ExtSplats\";\nimport { evaluatePackedSH } from \"./PackedSplats\";\nimport { getSplatFileType, getSplatFileTypeFromPath } from \"./SplatLoader\";\nimport type { SplatSource } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n type ExtResult,\n type PackedResult,\n type RadMeta,\n type SplatEncoding,\n SplatFileType,\n} from \"./defines\";\nimport { pagedSplatTexCoord } from \"./dyno\";\nimport { getTextureSize } from \"./utils\";\n\nexport interface PagedSplatsOptions {\n pager?: SplatPager;\n rootUrl?: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n fileBytes?: Uint8Array;\n fileType?: SplatFileType;\n maxSh?: number;\n}\n\nexport class PagedSplats implements SplatSource {\n pager?: SplatPager;\n rootUrl: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n fileBytes?: Uint8Array;\n fileType?: SplatFileType;\n\n numSh: number;\n maxSh: number;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array | [Uint32Array, Uint32Array];\n\n numSplats: number;\n splatEncoding?: SplatEncoding;\n radMetaPromise?: Promise<{ meta: RadMeta; chunksStart: number }>;\n\n dynoNumSplats: dyno.DynoInt<\"numSplats\">;\n dynoIndices: dyno.DynoUsampler2D<\"indices\", THREE.DataTexture>;\n rgbMinMaxLnScaleMinMax: dyno.DynoVec4<\n THREE.Vector4,\n \"rgbMinMaxLnScaleMinMax\"\n >;\n lodOpacity: dyno.DynoBool<\"lodOpacity\">;\n dynoNumSh: dyno.DynoInt<\"numSh\">;\n shMax: dyno.DynoVec3;\n\n constructor(options: PagedSplatsOptions) {\n this.pager = options.pager;\n this.rootUrl = options.rootUrl ?? \"\";\n this.requestHeader = options.requestHeader;\n this.withCredentials = options.withCredentials;\n this.numSh = 0;\n this.maxSh = options.pager?.maxSh ?? 3;\n\n this.numSplats = 0;\n\n this.dynoNumSplats = new dyno.DynoInt({ value: 0 });\n this.dynoIndices = new dyno.DynoUsampler2D({\n value: SplatPager.emptyIndicesTexture,\n });\n\n this.rgbMinMaxLnScaleMinMax = new dyno.DynoVec4({\n value: new THREE.Vector4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX),\n });\n this.lodOpacity = new dyno.DynoBool({\n value: false,\n });\n\n this.dynoNumSh = new dyno.DynoInt({ value: 0 });\n this.shMax = new dyno.DynoVec3({ value: new THREE.Vector3() });\n\n this.fileBytes = options.fileBytes;\n this.fileType = options.fileType;\n if (!this.fileType && this.fileBytes) {\n this.fileType = getSplatFileType(this.fileBytes);\n }\n if (!this.fileType && this.rootUrl) {\n this.fileType = getSplatFileTypeFromPath(this.rootUrl);\n }\n if (!this.fileType) {\n throw new Error(\"Unable to determine file type\");\n }\n if (this.fileType === SplatFileType.RAD) {\n this.radMetaPromise = this.getRadMeta();\n }\n }\n\n dispose() {\n if (this.dynoIndices.value !== SplatPager.emptyIndicesTexture) {\n this.dynoIndices.value.dispose();\n this.dynoIndices.value = SplatPager.emptyIndicesTexture;\n }\n }\n\n setMaxSh(maxSh: number) {\n this.maxSh = maxSh;\n }\n\n getRadMeta(): Promise<{ meta: RadMeta; chunksStart: number }> {\n if (this.radMetaPromise) {\n return this.radMetaPromise;\n }\n\n this.radMetaPromise = (async () => {\n await wasmInitialized;\n\n if (this.fileBytes) {\n // Shouldn't be more than 1 MB, so don't send more data than that.\n const metaStart = decode_rad_header(this.fileBytes.slice(0, 1048576));\n if (metaStart) {\n return metaStart;\n }\n throw new Error(\"Failed to decode RAD header\");\n }\n if (!this.rootUrl) {\n throw new Error(\"No url or fileBytes provided\");\n }\n\n // We don't know how big the header will be. Most likely 64KB will be enough,\n // but try larger blocks in backoff if it wasn't enough.\n for (const tryBytes of [65536, 256 * 1024, 1024 * 1024]) {\n const bytes = await fetchRange({\n url: this.rootUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n offset: 0,\n bytes: tryBytes,\n });\n const metaStart = decode_rad_header(bytes);\n if (metaStart) {\n return metaStart;\n }\n }\n throw new Error(\"Failed to decode RAD header\");\n })().then((metaStart) => {\n // console.log(\"RAD meta: \", metaStart.meta);\n return metaStart;\n });\n\n this.radMetaPromise.catch((error) => {\n console.error(error);\n // Allow it to be tried again\n // this.radMetaPromise = undefined;\n });\n\n return this.radMetaPromise;\n }\n\n chunkUrl(chunk: number): string {\n return this.rootUrl.replace(/-lod-0\\./, `-lod-${chunk}.`);\n }\n\n async fetchDecodeChunk(chunk: number) {\n let decodeBytes = undefined;\n\n if (this.fileType === SplatFileType.RAD) {\n const { meta, chunksStart } = await this.getRadMeta();\n if (chunk < 0 || chunk >= meta.chunks.length) {\n throw new Error(\n `Chunk index out of range: ${chunk} (max: ${meta.chunks.length - 1})`,\n );\n }\n let { offset, bytes, filename } = meta.chunks[chunk];\n\n if (filename) {\n if (this.fileBytes) {\n throw new Error(\"Chunked RAD file not supported with fileBytes\");\n }\n const resolvedRoot = new URL(\n this.rootUrl,\n window.location.href,\n ).toString();\n const chunkUrl = new URL(filename, resolvedRoot).toString();\n decodeBytes = await fetchRange({\n url: chunkUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n });\n } else {\n offset += chunksStart;\n // console.log(`Fetching chunk ${chunk} at offset ${offset} with bytes ${bytes}`);\n if (this.fileBytes) {\n if (offset < 0 || offset + bytes > this.fileBytes.length) {\n throw new Error(\n `Invalid chunk offset or bytes: ${offset} + ${bytes} > ${this.fileBytes.length}`,\n );\n }\n decodeBytes = this.fileBytes.slice(offset, offset + bytes);\n } else if (this.rootUrl) {\n decodeBytes = await fetchRange({\n url: this.rootUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n offset,\n bytes,\n });\n } else {\n throw new Error(\"No url or fileBytes provided\");\n }\n }\n } else if (this.fileBytes) {\n // Fall through\n } else if (this.rootUrl) {\n const url = this.chunkUrl(chunk);\n const request = new Request(url, {\n headers: this.requestHeader\n ? new Headers(this.requestHeader)\n : undefined,\n credentials: this.withCredentials ? \"include\" : \"same-origin\",\n });\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n decodeBytes = new Uint8Array(await response.arrayBuffer());\n } else {\n throw new Error(\"No url or fileBytes provided\");\n }\n\n return await workerPool.withWorker(async (worker) => {\n if (!this.pager) {\n throw new Error(\"PagedSplats.pager not set\");\n }\n if (!this.pager.extSplats) {\n const result = (await worker.call(\"loadPackedSplats\", {\n fileBytes: decodeBytes,\n pathName: this.chunkUrl(chunk),\n sh1Codes: this.sh1Codes?.slice(),\n sh2Codes: this.sh2Codes?.slice(),\n sh3Codes: this.sh3Codes?.slice(),\n })) as { lodSplats: PackedResult };\n const lodSplats = result.lodSplats;\n if (!this.splatEncoding) {\n this.splatEncoding = lodSplats.splatEncoding;\n\n this.numSh = lodSplats.extra.sh3\n ? 3\n : lodSplats.extra.sh2\n ? 2\n : lodSplats.extra.sh1\n ? 1\n : 0;\n\n this.rgbMinMaxLnScaleMinMax.value.set(\n this.splatEncoding.rgbMin ?? 0.0,\n this.splatEncoding.rgbMax ?? 1.0,\n this.splatEncoding.lnScaleMin ?? LN_SCALE_MIN,\n this.splatEncoding.lnScaleMax ?? LN_SCALE_MAX,\n );\n\n this.lodOpacity.value = this.splatEncoding.lodOpacity ?? false;\n\n this.shMax.value.set(\n this.splatEncoding.sh1Max ?? 1.0,\n this.splatEncoding.sh2Max ?? 1.0,\n this.splatEncoding.sh3Max ?? 1.0,\n );\n }\n this.sh1Codes = lodSplats.extra.sh1Codes ?? this.sh1Codes;\n this.sh2Codes = lodSplats.extra.sh2Codes ?? this.sh2Codes;\n this.sh3Codes = lodSplats.extra.sh3Codes ?? this.sh3Codes;\n return lodSplats;\n }\n\n const sh3Codes = this.sh3Codes as [Uint32Array, Uint32Array] | undefined;\n const result = (await worker.call(\"loadExtSplats\", {\n fileBytes: decodeBytes,\n pathName: this.chunkUrl(chunk),\n sh1Codes: this.sh1Codes?.slice(),\n sh2Codes: this.sh2Codes?.slice(),\n sh3Codes: sh3Codes\n ? [sh3Codes[0].slice(), sh3Codes[1].slice()]\n : undefined,\n })) as { lodSplats: ExtResult };\n const lodSplats = result.lodSplats;\n if (!this.splatEncoding) {\n this.splatEncoding = DEFAULT_SPLAT_ENCODING;\n this.numSh =\n lodSplats.extra.sh3a && lodSplats.extra.sh3b\n ? 3\n : lodSplats.extra.sh2\n ? 2\n : lodSplats.extra.sh1\n ? 1\n : 0;\n }\n this.sh1Codes = lodSplats.extra.sh1Codes ?? this.sh1Codes;\n this.sh2Codes = lodSplats.extra.sh2Codes ?? this.sh2Codes;\n this.sh3Codes = lodSplats.extra.sh3Codes ?? this.sh3Codes;\n return lodSplats;\n });\n }\n\n update(numSplats: number, indices: Uint32Array) {\n if (!this.pager) {\n throw new Error(\"PagedSplats.pager not set\");\n }\n\n const renderer = this.pager.renderer;\n this.numSplats = numSplats;\n this.dynoNumSplats.value = this.numSplats;\n const rows = Math.ceil(numSplats / 16384);\n\n let indicesTexture =\n this.dynoIndices.value === SplatPager.emptyIndicesTexture\n ? undefined\n : this.dynoIndices.value;\n if (indicesTexture && rows > indicesTexture.image.height) {\n indicesTexture.dispose();\n indicesTexture = undefined;\n }\n\n if (!indicesTexture) {\n indicesTexture = new THREE.DataTexture(\n indices,\n 4096,\n rows,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n indicesTexture.internalFormat = \"RGBA32UI\";\n indicesTexture.needsUpdate = true;\n renderer.initTexture(indicesTexture);\n this.dynoIndices.value = indicesTexture;\n } else {\n const textureIndices = indicesTexture.image.data as Uint32Array;\n textureIndices.set(indices.subarray(0, numSplats));\n\n const gl = renderer.getContext() as WebGL2RenderingContext;\n renderer.state.activeTexture(gl.TEXTURE0);\n renderer.state.bindTexture(\n gl.TEXTURE_2D,\n getGlTexture(renderer, indicesTexture),\n );\n gl.bindBuffer(gl.PIXEL_UNPACK_BUFFER, null);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, false);\n gl.texSubImage2D(\n gl.TEXTURE_2D,\n 0,\n 0,\n 0,\n 4096,\n rows,\n gl.RGBA_INTEGER,\n gl.UNSIGNED_INT,\n indices,\n );\n renderer.state.bindTexture(gl.TEXTURE_2D, null);\n }\n }\n\n prepareFetchSplat() {}\n\n getNumSplats(): number {\n return this.numSplats;\n }\n\n hasRgbDir(): boolean {\n if (!this.pager) {\n return false;\n }\n return Math.min(this.numSh, this.pager.maxSh) > 0;\n }\n\n getNumSh(): number {\n return this.numSh;\n }\n\n fetchSplat({\n index,\n viewOrigin,\n }: {\n index: dyno.DynoVal<\"int\">;\n viewOrigin?: dyno.DynoVal<\"vec3\">;\n }): dyno.DynoVal {\n if (!this.pager) {\n throw new Error(\"PagedSplats.pager not set\");\n }\n\n const splatIndex = this.pager.readIndex.apply({\n index,\n numSplats: this.dynoNumSplats,\n indices: this.dynoIndices,\n }).index;\n\n if (!this.pager.extSplats) {\n if (this.hasRgbDir() && viewOrigin) {\n this.dynoNumSh.value = Math.min(\n this.numSh,\n this.maxSh,\n this.pager.maxSh,\n );\n return this.pager.readSplatDir.apply({\n index: splatIndex,\n rgbMinMaxLnScaleMinMax: this.rgbMinMaxLnScaleMinMax,\n lodOpacity: this.lodOpacity,\n viewOrigin,\n numSh: this.dynoNumSh,\n shMax: this.shMax,\n }).gsplat;\n }\n return this.pager.readSplat.apply({\n index: splatIndex,\n rgbMinMaxLnScaleMinMax: this.rgbMinMaxLnScaleMinMax,\n lodOpacity: this.lodOpacity,\n }).gsplat;\n }\n\n if (this.hasRgbDir() && viewOrigin) {\n this.dynoNumSh.value = Math.min(this.numSh, this.maxSh, this.pager.maxSh);\n return this.pager.readSplatExtDir.apply({\n index: splatIndex,\n viewOrigin,\n numSh: this.dynoNumSh,\n }).gsplat;\n }\n return this.pager.readSplatExt.apply({ index: splatIndex }).gsplat;\n }\n}\n\nexport interface SplatPagerOptions {\n /**\n * THREE.WebGLRenderer instance to upload texture data\n */\n renderer: THREE.WebGLRenderer;\n /**\n * Whether to use extended Gsplat encoding for paged splats.\n * @default false\n */\n extSplats?: boolean;\n /**\n * Maximum size of splat page pool\n * @default 65536 * 256 = 16777216\n */\n maxSplats?: number;\n /**\n * Maximum number of spherical harmonics to keep\n * @default 3\n */\n maxSh?: number;\n /**\n * Automatically drive page fetching, or poll via drive()\n * @default true\n */\n autoDrive?: boolean;\n /**\n * Number of parallel chunk fetchers\n * @default 3\n */\n numFetchers?: number;\n}\n\nexport class SplatPager {\n renderer: THREE.WebGLRenderer;\n\n extSplats: boolean;\n maxPages: number;\n maxSplats: number;\n pageSplats: number;\n\n maxSh: number;\n curSh: number;\n\n autoDrive: boolean;\n numFetchers: number;\n fetchPause = 0;\n\n splatsChunkToPage: Map<\n PagedSplats,\n ({ page: number; lru: number } | undefined)[]\n > = new Map();\n pageToSplatsChunk: (\n | { splats: PagedSplats; chunk: number; time: number }\n | undefined\n )[] = [];\n pageFreelist: number[];\n pageLru: Set<{ page: number; lru: number }>;\n freeablePages: number[];\n newUploads: {\n page: number;\n numSplats: number;\n packedArray: Uint32Array;\n extArray?: Uint32Array;\n extra: Record;\n }[];\n readyUploads: {\n page: number;\n numSplats: number;\n packedArray: Uint32Array;\n extArray?: Uint32Array;\n extra: Record;\n }[];\n lodTreeUpdates: {\n splats: PagedSplats;\n page: number;\n chunk: number;\n numSplats: number;\n lodTree?: Uint32Array;\n }[];\n\n fetchers: { splats: PagedSplats; chunk: number; promise: Promise }[];\n fetched: {\n splats: PagedSplats;\n chunk: number;\n data: PackedResult | ExtResult;\n }[];\n fetchPriority: { splats: PagedSplats; chunk: number }[];\n\n packedTexture: dyno.DynoUsampler2DArray<\n \"packedTexture\",\n THREE.DataArrayTexture\n >;\n extTexture: dyno.DynoUsampler2DArray<\"extTexture\", THREE.DataArrayTexture>;\n\n sh1Texture: dyno.DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture: dyno.DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3Texture: dyno.DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n sh3TextureB: dyno.DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>;\n\n readIndex: dyno.DynoBlock<\n { index: \"int\"; numSplats: \"int\"; indices: \"usampler2D\" },\n { index: \"int\" }\n >;\n readSplat: dyno.DynoBlock<\n { index: \"int\"; rgbMinMaxLnScaleMinMax: \"vec4\"; lodOpacity: \"bool\" },\n { gsplat: typeof dyno.Gsplat }\n >;\n readSplatExt: dyno.DynoBlock<\n { index: \"int\" },\n { gsplat: typeof dyno.Gsplat }\n >;\n readSplatDir: dyno.DynoBlock<\n {\n index: \"int\";\n rgbMinMaxLnScaleMinMax: \"vec4\";\n lodOpacity: \"bool\";\n viewOrigin: \"vec3\";\n numSh: \"int\";\n shMax: \"vec3\";\n },\n { gsplat: typeof dyno.Gsplat }\n >;\n readSplatExtDir: dyno.DynoBlock<\n { index: \"int\"; viewOrigin: \"vec3\"; numSh: \"int\" },\n { gsplat: typeof dyno.Gsplat }\n >;\n\n constructor(options: SplatPagerOptions) {\n this.renderer = options.renderer;\n this.extSplats = options.extSplats ?? false;\n\n this.pageSplats = 65536;\n this.maxSplats = options.maxSplats ?? 16777216;\n this.maxPages = Math.ceil(this.maxSplats / this.pageSplats);\n this.maxSplats = this.maxPages * this.pageSplats;\n\n this.maxSh = options.maxSh ?? 3;\n this.curSh = 0;\n\n this.autoDrive = options.autoDrive ?? true;\n this.numFetchers = options.numFetchers ?? 3;\n\n this.splatsChunkToPage = new Map();\n this.pageToSplatsChunk = new Array(this.maxPages);\n this.pageFreelist = Array.from({ length: this.maxPages }, (_, i) => i);\n this.pageLru = new Set();\n this.freeablePages = [];\n this.newUploads = [];\n this.readyUploads = [];\n this.lodTreeUpdates = [];\n\n this.fetchers = [];\n this.fetched = [];\n this.fetchPriority = [];\n\n this.packedTexture = new dyno.DynoUsampler2DArray({\n value: this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n ),\n });\n this.extTexture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n )\n : SplatPager.emptyExtTexture,\n });\n this.sh1Texture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? SplatPager.emptyExtSh1Texture\n : SplatPager.emptySh1Texture,\n });\n this.sh2Texture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? SplatPager.emptyExtSh2Texture\n : SplatPager.emptySh2Texture,\n });\n this.sh3Texture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? SplatPager.emptyExtSh3Texture\n : SplatPager.emptySh3Texture,\n });\n this.sh3TextureB = new dyno.DynoUsampler2DArray({\n value: SplatPager.emptyExtSh3BTexture,\n });\n\n this.readIndex = dyno.dynoBlock(\n { index: \"int\", numSplats: \"int\", indices: \"usampler2D\" },\n { index: \"int\" },\n ({ index, numSplats, indices }) => {\n return new dyno.Dyno({\n inTypes: {\n index: \"int\",\n numSplats: \"int\",\n indices: \"usampler2D\",\n },\n outTypes: { index: \"int\" },\n inputs: {\n index,\n numSplats,\n indices,\n },\n statements: ({ inputs, outputs }) =>\n dyno.unindentLines(`\n if (${inputs.index} >= ${inputs.numSplats}) {\n return;\n }\n\n ivec2 indexCoord = ivec2((${inputs.index} >> 2) & 4095, ${inputs.index} >> 14);\n uint index = texelFetch(${inputs.indices}, indexCoord, 0)[${inputs.index} & 3];\n ${outputs.index} = int(index);\n `),\n }).outputs;\n },\n );\n\n this.readSplat = dyno.dynoBlock(\n { index: \"int\", rgbMinMaxLnScaleMinMax: \"vec4\", lodOpacity: \"bool\" },\n { gsplat: dyno.Gsplat },\n ({ index, rgbMinMaxLnScaleMinMax, lodOpacity }) => {\n return new dyno.Dyno({\n inTypes: {\n index: \"int\",\n packedTexture: \"usampler2DArray\",\n rgbMinMaxLnScaleMinMax: \"vec4\",\n lodOpacity: \"bool\",\n },\n outTypes: { gsplat: dyno.Gsplat },\n inputs: {\n index,\n packedTexture: this.packedTexture,\n rgbMinMaxLnScaleMinMax,\n lodOpacity,\n },\n globals: () => [dyno.defineGsplat],\n statements: ({ inputs, outputs }) =>\n dyno.unindentLines(`\n int index = ${inputs.index};\n ivec3 splatCoord = pagedSplatTexCoord(index);\n uvec4 packed = texelFetch(${inputs.packedTexture}, splatCoord, 0);\n\n unpackSplatEncoding(packed, ${outputs.gsplat}.center, ${outputs.gsplat}.scales, ${outputs.gsplat}.quaternion, ${outputs.gsplat}.rgba, ${inputs.rgbMinMaxLnScaleMinMax});\n if ((${outputs.gsplat}.rgba.a == 0.0) || all(equal(${outputs.gsplat}.scales, vec3(0.0, 0.0, 0.0)))) {\n return;\n }\n \n ${outputs.gsplat}.index = index;\n ${outputs.gsplat}.flags = GSPLAT_FLAG_ACTIVE;\n if (${inputs.lodOpacity}) {\n ${outputs.gsplat}.rgba.a *= 2.0;\n }\n `),\n }).outputs;\n },\n );\n\n this.readSplatDir = dyno.dynoBlock(\n {\n index: \"int\",\n rgbMinMaxLnScaleMinMax: \"vec4\",\n lodOpacity: \"bool\",\n viewOrigin: \"vec3\",\n numSh: \"int\",\n shMax: \"vec3\",\n },\n { gsplat: dyno.Gsplat },\n ({\n index,\n rgbMinMaxLnScaleMinMax,\n lodOpacity,\n viewOrigin,\n numSh,\n shMax,\n }) => {\n if (\n !index ||\n !rgbMinMaxLnScaleMinMax ||\n !lodOpacity ||\n !viewOrigin ||\n !numSh ||\n !shMax\n ) {\n throw new Error(\"index and viewOrigin are required\");\n }\n let gsplat = this.readSplat.apply({\n index,\n rgbMinMaxLnScaleMinMax,\n lodOpacity,\n }).gsplat;\n\n const splatCenter = dyno.splitGsplat(gsplat).outputs.center;\n const viewDir = dyno.normalize(dyno.sub(splatCenter, viewOrigin));\n let rgb = evaluatePackedSH({\n coord: pagedSplatTexCoord(index),\n viewDir,\n numSh,\n sh1Texture: this.sh1Texture,\n sh2Texture: this.sh2Texture,\n sh3Texture: this.sh3Texture,\n shMax,\n }).rgb;\n rgb = dyno.add(rgb, dyno.splitGsplat(gsplat).outputs.rgb);\n gsplat = dyno.combineGsplat({ gsplat, rgb });\n return { gsplat };\n },\n );\n\n this.readSplatExt = dyno.dynoBlock(\n { index: \"int\" },\n { gsplat: dyno.Gsplat },\n ({ index }) => {\n return new dyno.Dyno({\n inTypes: {\n index: \"int\",\n extTexture1: \"usampler2DArray\",\n extTexture2: \"usampler2DArray\",\n },\n outTypes: { gsplat: dyno.Gsplat },\n inputs: {\n index,\n extTexture1: this.packedTexture,\n extTexture2: this.extTexture,\n },\n globals: () => [dyno.defineGsplat],\n statements: ({ inputs, outputs }) =>\n dyno.unindentLines(`\n int index = ${inputs.index};\n ivec3 splatCoord = ivec3(index & 255, (index >> 8) & 255, index >> 16);\n uvec4 ext1 = texelFetch(${inputs.extTexture1}, splatCoord, 0);\n float alpha = unpackSplatExtAlpha(ext1);\n if (alpha == 0.0) {\n return;\n }\n\n uvec4 ext2 = texelFetch(${inputs.extTexture2}, splatCoord, 0);\n unpackSplatExt(ext1, ext2, ${outputs.gsplat}.center, ${outputs.gsplat}.scales, ${outputs.gsplat}.quaternion, ${outputs.gsplat}.rgba);\n if (all(equal(${outputs.gsplat}.scales, vec3(0.0, 0.0, 0.0)))) {\n return;\n }\n\n ${outputs.gsplat}.index = index;\n ${outputs.gsplat}.flags = GSPLAT_FLAG_ACTIVE;\n `),\n }).outputs;\n },\n );\n\n this.readSplatExtDir = dyno.dynoBlock(\n {\n index: \"int\",\n viewOrigin: \"vec3\",\n numSh: \"int\",\n },\n { gsplat: dyno.Gsplat },\n ({ index, viewOrigin, numSh }) => {\n if (!index || !viewOrigin || !numSh) {\n throw new Error(\"index and viewOrigin are required\");\n }\n let gsplat = this.readSplatExt.apply({ index }).gsplat;\n\n const splatCenter = dyno.splitGsplat(gsplat).outputs.center;\n const viewDir = dyno.normalize(dyno.sub(splatCenter, viewOrigin));\n let rgb = evaluateExtSH({\n coord: pagedSplatTexCoord(index),\n viewDir,\n numSh,\n sh1Texture: this.sh1Texture,\n sh2Texture: this.sh2Texture,\n sh3TextureA: this.sh3Texture,\n sh3TextureB: this.sh3TextureB,\n }).rgb;\n rgb = dyno.add(rgb, dyno.splitGsplat(gsplat).outputs.rgb);\n gsplat = dyno.combineGsplat({ gsplat, rgb });\n return { gsplat };\n },\n );\n }\n\n dispose() {\n this.autoDrive = false;\n this.numFetchers = 0;\n\n this.packedTexture.value.dispose();\n if (this.extTexture.value !== SplatPager.emptyExtTexture) {\n this.extTexture.value.dispose();\n }\n\n if (!this.extSplats) {\n if (this.sh1Texture.value !== SplatPager.emptySh1Texture) {\n this.sh1Texture.value.dispose();\n }\n if (this.sh2Texture.value !== SplatPager.emptySh2Texture) {\n this.sh2Texture.value.dispose();\n }\n if (this.sh3Texture.value !== SplatPager.emptySh3Texture) {\n this.sh3Texture.value.dispose();\n }\n } else {\n if (this.sh1Texture.value !== SplatPager.emptyExtSh1Texture) {\n this.sh1Texture.value.dispose();\n }\n if (this.sh2Texture.value !== SplatPager.emptyExtSh2Texture) {\n this.sh2Texture.value.dispose();\n }\n if (this.sh3Texture.value !== SplatPager.emptyExtSh3Texture) {\n this.sh3Texture.value.dispose();\n }\n if (this.sh3TextureB.value !== SplatPager.emptyExtSh3BTexture) {\n this.sh3TextureB.value.dispose();\n }\n }\n }\n\n private ensureShTextures(numSh: number) {\n this.curSh = Math.max(this.curSh, numSh);\n if (!this.extSplats) {\n if (\n this.curSh >= 1 &&\n this.sh1Texture.value === SplatPager.emptySh1Texture\n ) {\n this.sh1Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 2),\n 256,\n 256,\n this.maxPages,\n THREE.RGIntegerFormat,\n THREE.UnsignedIntType,\n \"RG32UI\",\n );\n }\n } else {\n if (\n this.curSh >= 1 &&\n this.sh1Texture.value === SplatPager.emptyExtSh1Texture\n ) {\n this.sh1Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n }\n if (\n this.curSh >= 2 &&\n this.sh2Texture.value ===\n (!this.extSplats\n ? SplatPager.emptySh2Texture\n : SplatPager.emptyExtSh2Texture)\n ) {\n this.sh2Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n if (!this.extSplats) {\n if (\n this.curSh >= 3 &&\n this.sh3Texture.value === SplatPager.emptySh3Texture\n ) {\n this.sh3Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n } else {\n if (this.curSh >= 3) {\n if (this.sh3Texture.value === SplatPager.emptyExtSh3Texture) {\n this.sh3Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n if (this.sh3TextureB.value === SplatPager.emptyExtSh3BTexture) {\n this.sh3TextureB.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n }\n }\n }\n\n private allocatePage(): number | undefined {\n return this.pageFreelist.shift();\n }\n\n private freePage(page: number) {\n this.pageFreelist.push(page);\n }\n\n getSplatsChunk(splats: PagedSplats, chunk: number) {\n const chunks = this.splatsChunkToPage.get(splats);\n if (!chunks) {\n return undefined;\n }\n return chunks[chunk];\n }\n\n private insertSplatsChunkPage(\n splats: PagedSplats,\n chunk: number,\n page: number,\n now: number,\n ) {\n if (!this.splatsChunkToPage.has(splats)) {\n this.splatsChunkToPage.set(splats, []);\n }\n const chunks = this.splatsChunkToPage.get(splats);\n if (!chunks) {\n throw new Error(\"impossible\");\n }\n if (chunk >= chunks.length) {\n chunks.length = chunk + 1;\n }\n const pageLru = { page, lru: now };\n chunks[chunk] = pageLru;\n this.pageLru.add(pageLru);\n\n this.pageToSplatsChunk[page] = { splats, chunk, time: performance.now() };\n return this.pageToSplatsChunk[page];\n }\n\n private removeSplatsChunkPage(\n splats: PagedSplats,\n chunk: number,\n page: number,\n ) {\n const chunks = this.splatsChunkToPage.get(splats);\n if (!chunks) {\n throw new Error(\"impossible\");\n }\n\n const pageLru = chunks[chunk];\n if (!pageLru) {\n throw new Error(\n `pageLru not found for splats: ${splats}, chunk: ${chunk}, page: ${page}`,\n );\n }\n this.pageLru.delete(pageLru);\n\n chunks[chunk] = undefined;\n\n while (chunks.length > 0 && chunks[chunks.length - 1] === undefined) {\n chunks.pop();\n }\n if (chunks.length === 0) {\n this.splatsChunkToPage.delete(splats);\n }\n\n this.pageToSplatsChunk[page] = undefined;\n while (\n this.pageToSplatsChunk.length > 0 &&\n this.pageToSplatsChunk[this.pageToSplatsChunk.length - 1] === undefined\n ) {\n this.pageToSplatsChunk.pop();\n }\n }\n\n private uploadPage(\n page: number,\n packedArray: Uint32Array,\n extra: Record,\n extArray?: Uint32Array,\n ) {\n const pageBase = page * this.pageSplats;\n\n // const gl = this.renderer.getContext() as WebGL2RenderingContext;\n\n // this.renderer.state.activeTexture(gl.TEXTURE0);\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.packedTexture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RGBA_INTEGER,\n // gl.UNSIGNED_INT,\n // packedArray,\n // );\n\n const array = this.packedTexture.value.image.data;\n array\n .subarray(pageBase * 4, pageBase * 4 + packedArray.length)\n .set(packedArray);\n this.packedTexture.value.addLayerUpdate(page);\n this.packedTexture.value.needsUpdate = true;\n\n if (extArray) {\n const array = this.extTexture.value.image.data;\n array\n .subarray(pageBase * 4, pageBase * 4 + extArray.length)\n .set(extArray);\n this.extTexture.value.addLayerUpdate(page);\n this.extTexture.value.needsUpdate = true;\n }\n\n const numSh = this.extSplats\n ? extra.sh3a && extra.sh3b\n ? 3\n : extra.sh2\n ? 2\n : extra.sh1\n ? 1\n : 0\n : extra.sh3\n ? 3\n : extra.sh2\n ? 2\n : extra.sh1\n ? 1\n : 0;\n this.ensureShTextures(numSh);\n\n if (!this.extSplats) {\n if (this.sh1Texture.value !== SplatPager.emptySh1Texture && extra.sh1) {\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.sh1Texture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RG_INTEGER,\n // gl.UNSIGNED_INT,\n // extra.sh1 as Uint32Array,\n // );\n const sh1 = extra.sh1 as Uint32Array;\n const array = this.sh1Texture.value.image.data;\n array.subarray(pageBase * 2, pageBase * 2 + sh1.length).set(sh1);\n this.sh1Texture.value.addLayerUpdate(page);\n this.sh1Texture.value.needsUpdate = true;\n }\n } else {\n if (\n this.sh1Texture.value !== SplatPager.emptyExtSh1Texture &&\n extra.sh1\n ) {\n const sh1 = extra.sh1 as Uint32Array;\n const array = this.sh1Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh1.length).set(sh1);\n this.sh1Texture.value.addLayerUpdate(page);\n this.sh1Texture.value.needsUpdate = true;\n }\n }\n\n if (this.sh2Texture.value !== SplatPager.emptySh2Texture && extra.sh2) {\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.sh2Texture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RGBA_INTEGER,\n // gl.UNSIGNED_INT,\n // extra.sh2 as Uint32Array,\n // );\n const sh2 = extra.sh2 as Uint32Array;\n const array = this.sh2Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh2.length).set(sh2);\n this.sh2Texture.value.addLayerUpdate(page);\n this.sh2Texture.value.needsUpdate = true;\n }\n\n if (!this.extSplats) {\n if (this.sh3Texture.value !== SplatPager.emptySh3Texture && extra.sh3) {\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.sh3Texture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RGBA_INTEGER,\n // gl.UNSIGNED_INT,\n // extra.sh3 as Uint32Array,\n // );\n const sh3 = extra.sh3 as Uint32Array;\n const array = this.sh3Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh3.length).set(sh3);\n this.sh3Texture.value.addLayerUpdate(page);\n this.sh3Texture.value.needsUpdate = true;\n }\n } else {\n if (\n this.sh3Texture.value !== SplatPager.emptyExtSh3Texture &&\n extra.sh3a\n ) {\n const sh3a = extra.sh3a as Uint32Array;\n const array = this.sh3Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh3a.length).set(sh3a);\n this.sh3Texture.value.addLayerUpdate(page);\n this.sh3Texture.value.needsUpdate = true;\n }\n if (\n this.sh3TextureB.value !== SplatPager.emptyExtSh3BTexture &&\n extra.sh3b\n ) {\n const sh3b = extra.sh3b as Uint32Array;\n const array = this.sh3TextureB.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh3b.length).set(sh3b);\n this.sh3TextureB.value.addLayerUpdate(page);\n this.sh3TextureB.value.needsUpdate = true;\n }\n }\n\n // this.renderer.state.bindTexture(gl.TEXTURE_2D_ARRAY, null);\n }\n\n private getGlTexture(texture: THREE.Texture): WebGLTexture {\n return getGlTexture(this.renderer, texture);\n }\n\n private newUint32ArrayTexture(\n data: Uint32Array | null,\n width: number,\n height: number,\n depth: number,\n format: THREE.AnyPixelFormat,\n type: THREE.TextureDataType,\n internalFormat: THREE.PixelFormatGPU,\n ): THREE.DataArrayTexture {\n const texture = new THREE.DataArrayTexture(data, width, height, depth);\n texture.format = format;\n texture.type = type;\n texture.internalFormat = internalFormat;\n texture.needsUpdate = true;\n this.renderer.initTexture(texture);\n return texture;\n }\n\n driveFetchers() {\n const needed = [];\n const overflow = [];\n let numPages = 0;\n\n for (const { splats, chunk } of this.fetchPriority) {\n const pageLru = this.getSplatsChunk(splats, chunk);\n if (pageLru) {\n if (numPages >= this.maxPages) {\n overflow.push(pageLru);\n } else {\n needed.push(pageLru);\n }\n numPages += 1;\n continue;\n }\n\n if (\n this.fetched.some(\n ({ splats: s, chunk: c }) => splats === s && chunk === c,\n ) ||\n this.fetchers.some(\n ({ splats: s, chunk: c }) => splats === s && chunk === c,\n )\n ) {\n numPages += 1;\n continue;\n }\n\n if (numPages < this.maxPages && this.fetchers.length < this.numFetchers) {\n numPages += 1;\n const promise = splats\n .fetchDecodeChunk(chunk)\n .then(\n async (data) => {\n // Place data in ready queue and remove self from active fetchers list\n this.fetched.push({ splats, chunk, data });\n if (this.fetchPause > 0) {\n await new Promise((resolve) =>\n setTimeout(resolve, this.fetchPause),\n );\n }\n },\n async (error) => {\n console.warn(error);\n const backoff = 250 + 500 * Math.random();\n await new Promise((resolve) => setTimeout(resolve, backoff));\n },\n )\n .finally(() => {\n this.fetchers = this.fetchers.filter(\n ({ splats: s, chunk: c }) => splats !== s || chunk !== c,\n );\n this.processFetched();\n });\n // Add self to active fetchers list\n this.fetchers.push({ splats, chunk, promise });\n\n promise.then((data) => {\n if (this.autoDrive) {\n this.driveFetchers();\n }\n });\n }\n }\n\n // Update LRU ordering in reverse priority order\n const now = performance.now();\n\n for (const pageLru of overflow.reverse()) {\n pageLru.lru = now;\n this.pageLru.delete(pageLru);\n this.pageLru.add(pageLru);\n }\n\n // Create set of pages not needed\n const extraPages = new Set(this.pageLru);\n for (const pageLru of needed.reverse()) {\n extraPages.delete(pageLru);\n\n pageLru.lru = now;\n this.pageLru.delete(pageLru);\n this.pageLru.add(pageLru);\n }\n this.freeablePages = Array.from(extraPages).map(({ page }) => page);\n }\n\n private allocateFreeable(): number | undefined {\n const page = this.freeablePages.shift();\n if (page === undefined) {\n // No freeable pages available\n return undefined;\n }\n\n const splatsChunk = this.pageToSplatsChunk[page];\n if (!splatsChunk) {\n throw new Error(`splatsChunk not found for page: ${page}`);\n }\n\n const { splats, chunk } = splatsChunk;\n this.removeSplatsChunkPage(splats, chunk, page);\n this.lodTreeUpdates.push({\n splats,\n page,\n chunk,\n numSplats: this.pageSplats,\n });\n return page;\n }\n\n private processFetched() {\n const now = performance.now();\n while (true) {\n const fetched = this.fetched.shift();\n if (!fetched) {\n break;\n }\n const { splats, chunk, data } = fetched;\n\n let page = this.allocatePage();\n if (page === undefined) {\n page = this.allocateFreeable();\n if (page === undefined) {\n // No pages available, stop for now\n return;\n }\n }\n\n this.insertSplatsChunkPage(splats, chunk, page, now);\n const { numSplats, extra } = data;\n this.lodTreeUpdates.push({\n splats,\n page,\n chunk,\n numSplats,\n lodTree: extra.lodTree as Uint32Array,\n });\n\n if (!this.extSplats) {\n const packedArray = (data as PackedResult).packedArray;\n this.newUploads.push({ page, numSplats, packedArray, extra });\n } else {\n const extArrays = (data as ExtResult).extArrays;\n const packedArray = extArrays[0];\n const extArray = extArrays[1];\n this.newUploads.push({ page, numSplats, packedArray, extArray, extra });\n }\n }\n }\n\n processUploads() {\n while (true) {\n const upload = this.readyUploads.shift();\n if (!upload) {\n break;\n }\n const { page, numSplats, packedArray, extArray, extra } = upload;\n this.uploadPage(page, packedArray, extra, extArray);\n }\n }\n\n consumeLodTreeUpdates() {\n const updates = this.lodTreeUpdates;\n this.lodTreeUpdates = [];\n\n this.readyUploads.push(...this.newUploads);\n this.newUploads = [];\n return updates;\n }\n\n static emptyUint32x4 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyUint32x2 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 2);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RG32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyIndicesTexture = (() => {\n const emptyArray = new Uint32Array(4096 * 4);\n const texture = new THREE.DataTexture(emptyArray, 4096, 1);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyPackedTexture = this.emptyUint32x4;\n static emptyExtTexture = this.emptyUint32x4;\n static emptySh1Texture = this.emptyUint32x2;\n static emptySh2Texture = this.emptyUint32x4;\n static emptySh3Texture = this.emptyUint32x4;\n static emptyExtSh1Texture = this.emptyUint32x4;\n static emptyExtSh2Texture = this.emptyUint32x4;\n static emptyExtSh3Texture = this.emptyUint32x4;\n static emptyExtSh3BTexture = this.emptyUint32x4;\n}\n\nfunction getGlTexture(\n renderer: THREE.WebGLRenderer,\n texture: THREE.Texture,\n): WebGLTexture {\n if (!renderer.properties.has(texture)) {\n throw new Error(\"texture not found\");\n }\n const props = renderer.properties.get(texture) as {\n __webglTexture: WebGLTexture;\n };\n const glTexture = props.__webglTexture;\n if (!glTexture) {\n throw new Error(\"texture not found\");\n }\n return glTexture;\n}\n\nconst wasmInitialized = init_wasm();\n\nasync function fetchRange({\n url,\n requestHeader,\n withCredentials,\n offset,\n bytes,\n}: {\n url: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n offset?: number;\n bytes?: number;\n}): Promise {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : undefined,\n credentials: withCredentials ? \"include\" : \"same-origin\",\n });\n if (offset !== undefined && bytes !== undefined) {\n request.headers.set(\"Range\", `bytes=${offset}-${offset + bytes - 1}`);\n }\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n return new Uint8Array(await response.arrayBuffer());\n}\n","import * as THREE from \"three\";\n\nimport init_wasm, {\n get_raycast_buffer,\n get_raycast_buffer2,\n raycast_ext_buffers,\n raycast_packed_buffer,\n} from \"spark-rs\";\nimport { ExtSplats } from \"./ExtSplats\";\nimport { OldSparkRenderer } from \"./OldSparkRenderer\";\nimport { PackedSplats } from \"./PackedSplats\";\nimport { type RgbaArray, TRgbaArray } from \"./RgbaArray\";\nimport { SparkRenderer } from \"./SparkRenderer\";\nimport { SplatEdit, SplatEditSdf, SplatEdits } from \"./SplatEdit\";\nimport {\n type CovSplatModifier,\n CovSplatTransformer,\n type FrameUpdateContext,\n type GsplatModifier,\n SplatGenerator,\n SplatTransformer,\n} from \"./SplatGenerator\";\nimport { PagedSplats, SplatPager } from \"./SplatPager\";\nimport type { SplatSkinning } from \"./SplatSkinning\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n type SplatEncoding,\n type SplatFileType,\n} from \"./defines\";\nimport {\n CovSplat,\n Dyno,\n DynoBool,\n DynoFloat,\n DynoInt,\n DynoUsampler2D,\n type DynoVal,\n DynoVec4,\n Gsplat,\n combineCovSplat,\n combineGsplat,\n defineGsplat,\n dyno,\n dynoBlock,\n gsplatToCovSplat,\n mul,\n splitCovSplat,\n splitGsplat,\n unindentLines,\n} from \"./dyno\";\n\nexport type SplatMeshOptions = {\n // URL to fetch a Gaussian splat file from(supports .ply, .splat, .ksplat,\n // .spz formats). (default: undefined)\n url?: string;\n // Raw bytes of a Gaussian splat file to decode directly instead of fetching\n // from URL. (default: undefined)\n fileBytes?: Uint8Array | ArrayBuffer;\n // Override the file type detection for formats that can't be reliably\n // auto-detected (.splat, .ksplat). (default: undefined auto-detects other\n // formats from file contents)\n fileType?: SplatFileType;\n // File name to use for type detection. (default: undefined)\n fileName?: string;\n // Stream to read the Gaussian splat file from. (default: undefined)\n stream?: ReadableStream;\n // Length of the stream in bytes. (default: undefined)\n streamLength?: number;\n // Use an existing PackedSplats object as the source instead of loading from\n // a file. Can be used to share a collection of Gsplats among multiple SplatMeshes\n // (default: undefined creates a new empty PackedSplats or decoded from a\n // data source above)\n packedSplats?: PackedSplats;\n // Use an existing SplatSource object as the source instead of loading from file.\n splats?: SplatSource;\n // Reserve space for at least this many splats when constructing the mesh\n // initially. (default: determined by file)\n maxSplats?: number;\n // Callback function to programmatically create splats at initialization\n // in provided PackedSplats. (default: undefined)\n constructSplats?: (splats: PackedSplats) => Promise | void;\n // Callback function called while downloading and initializing (default: undefined)\n onProgress?: (event: ProgressEvent) => void;\n // Callback function that is called when mesh initialization is complete.\n // (default: undefined)\n onLoad?: (mesh: SplatMesh) => Promise | void;\n // Controls whether SplatEdits have any effect on this mesh. (default: true)\n editable?: boolean;\n // Controls whether SplatMesh participates in Three.js raycasting (default: true)\n raycastable?: boolean;\n // Minimum opacity for raycasting splats. (default: 0.2)\n minRaycastOpacity?: number;\n // Callback function that is called every frame to update the mesh.\n // Call mesh.updateVersion() if splats need to be regenerated due to some change.\n // Calling updateVersion() is not necessary for object transformations, recoloring,\n // or opacity adjustments as these are auto-detected. (default: undefined)\n onFrame?: ({\n mesh,\n time,\n deltaTime,\n }: { mesh: SplatMesh; time: number; deltaTime: number }) => void;\n // Gsplat modifier to apply in object-space before any transformations.\n // A GsplatModifier is a dyno shader-graph block that transforms an input\n // gsplat: DynoVal to an output gsplat: DynoVal with gsplat.center\n // coordinate in object-space. (default: undefined)\n objectModifier?: GsplatModifier;\n objectModifiers?: GsplatModifier[];\n // Gsplat modifier to apply in world-space after transformations.\n // (default: undefined)\n worldModifier?: GsplatModifier;\n worldModifiers?: GsplatModifier[];\n covObjectModifiers?: CovSplatModifier[];\n covWorldModifiers?: CovSplatModifier[];\n // Override the default splat encoding ranges for the PackedSplats.\n // (default: undefined)\n splatEncoding?: SplatEncoding;\n // Set to true to load/use \"extended splat\" encoding with float32 x/y/z\n extSplats?: boolean | ExtSplats;\n // Set to true to output covariance splats for anisotropic scaling\n covSplats?: boolean;\n // Enable LOD. If a number is provided, it will be used as LoD level base,\n // otherwise the default 1.5 is used. When loading a file without pre-computed\n // LoD it will use the \"quick lod\" algorithm to generate one on-the-fly with\n // the selected LoD level base. (default: undefined=false)\n lod?: boolean | \"quality\";\n // Only create LoD if the input splat acount is above this (default: undefined=0)\n lodAbove?: number;\n // Keep the original PackedSplats data before creating LoD version. (default: false)\n nonLod?: boolean;\n // Force enable/disable LoD (default: enabled iff packedSplats.lodSplats is not null)\n enableLod?: boolean;\n // LoD scale to apply @default 1.0\n lodScale?: number;\n // Foveation scale to apply behind viewer\n // (default: 1.0)\n behindFoveate?: number;\n // Full-width angle in degrees of fixed foveation cone along the view direction\n // with perfection foveation=1.0\n // (default: 0.0)\n coneFov0?: number;\n // Full-width angle in degrees of fixed foveation cone along the view direction. 0.0=disable\n // (default: 0.0)\n coneFov?: number;\n // Foveation scale to apply at the edge of the cone\n // (default: 1.0)\n coneFoveate?: number;\n paged?: boolean | PagedSplats | SplatPager;\n};\n\nexport type SplatMeshContext = {\n transform: SplatTransformer;\n viewToWorld: SplatTransformer;\n worldToView: SplatTransformer;\n viewToObject: SplatTransformer;\n covTransform: CovSplatTransformer;\n covViewToWorld: CovSplatTransformer;\n covWorldToView: CovSplatTransformer;\n covViewToObject: CovSplatTransformer;\n recolor: DynoVec4;\n time: DynoFloat;\n deltaTime: DynoFloat;\n numSplats: DynoInt;\n splats: SplatSource;\n enableLod: DynoBool;\n lodIndices: DynoUsampler2D<\"lodIndices\", THREE.DataTexture>;\n};\n\nexport interface SplatSource {\n prepareFetchSplat(): void;\n dispose(): void;\n\n getNumSplats(): number;\n hasRgbDir(): boolean;\n getNumSh(): number;\n setMaxSh(maxSh: number): void;\n\n fetchSplat({\n index,\n viewOrigin,\n }: { index: DynoVal<\"int\">; viewOrigin?: DynoVal<\"vec3\"> }): DynoVal<\n typeof Gsplat\n >;\n}\n\nexport class EmptySplatSource implements SplatSource {\n fetchDyno = new Dyno({\n inTypes: {},\n outTypes: { gsplat: Gsplat },\n globals: () => [defineGsplat],\n statements: ({ outputs }) =>\n unindentLines(`\n ${outputs.gsplat}.flags = 0u;\n return;\n `),\n }).outputs.gsplat;\n\n prepareFetchSplat() {}\n dispose() {}\n\n getNumSplats() {\n return 0;\n }\n hasRgbDir() {\n return false;\n }\n getNumSh() {\n return 0;\n }\n setMaxSh(maxSh: number) {}\n\n fetchSplat({ index }: { index: DynoVal<\"int\"> }): DynoVal {\n return this.fetchDyno;\n }\n}\n\nexport class SplatMesh extends SplatGenerator {\n // A Promise you can await to ensure fetching, parsing,\n // and initialization has completed\n initialized: Promise;\n // A boolean indicating whether initialization is complete\n isInitialized = false;\n\n // If you modify packedSplats you should set\n // splatMesh.packedSplats.needsUpdate = true to signal to Three.js that it\n // should re-upload the data to the underlying texture. Use this sparingly with\n // objects with smaller Gsplat counts as it requires a CPU-GPU data transfer for\n // each frame. Thousands to tens of thousands of Gsplats is fine. (See hands.ts\n // for an example of rendering \"Gsplat hands\" in WebXR using this technique.)\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n covSplats: boolean;\n splats?: SplatSource;\n lastSplats?: SplatSource;\n paged?: PagedSplats;\n\n // A THREE.Color that can be used to tint all splats in the mesh.\n // (default: new THREE.Color(1, 1, 1))\n recolor: THREE.Color = new THREE.Color(1, 1, 1);\n // Global opacity multiplier for all splats in the mesh. (default: 1)\n opacity = 1;\n\n // A SplatMeshContext consisting of useful scene and object dyno uniforms that can\n // be used to in the Gsplat processing pipeline, for example via objectModifier and\n // worldModifier. (created on construction)\n context: SplatMeshContext;\n onFrame?: ({\n mesh,\n time,\n deltaTime,\n }: { mesh: SplatMesh; time: number; deltaTime: number }) => void;\n generatorDirty = true;\n\n objectModifiers?: GsplatModifier[];\n worldModifiers?: GsplatModifier[];\n covObjectModifiers?: CovSplatModifier[];\n covWorldModifiers?: CovSplatModifier[];\n // Set to true to have the viewToObject property in context be updated each frame.\n // If the mesh has extra.sh1 (first order spherical harmonics directional lighting)\n // this property will always be updated. (default: false)\n enableViewToObject = false;\n // Set to true to have context.viewToWorld updated each frame. (default: false)\n enableViewToWorld = false;\n // Set to true to have context.worldToView updated each frame. (default: false)\n enableWorldToView = false;\n\n // Optional SplatSkinning instance for animating splats with dual-quaternion\n // skeletal animation. (default: null)\n skinning: SplatSkinning | null = null;\n\n // Optional list of SplatEdits to apply to the mesh. If null, any SplatEdit\n // children in the scene graph will be added automatically. (default: null)\n edits: SplatEdit[] | null = null;\n editable: boolean;\n raycastable: boolean;\n minRaycastOpacity: number;\n raycastIndices?: { numSplats: number; indices: Uint32Array };\n // Compiled SplatEdits for applying SDF edits to splat RGBA + centers\n rgbaDisplaceEdits: SplatEdits | null = null;\n // Optional RgbaArray to overwrite splat RGBA values with custom values.\n // Useful for \"baking\" RGB and opacity edits into the SplatMesh. (default: null)\n splatRgba: RgbaArray | null = null;\n\n // Maximum Spherical Harmonics level to use. Call updateGenerator()\n // after changing. (default: 3)\n maxSh = 3;\n\n enableLod?: boolean;\n lodScale: number;\n behindFoveate?: number;\n coneFov0?: number;\n coneFov?: number;\n coneFoveate?: number;\n\n showLodPage?: number;\n showLodPageDyno = new DynoInt({ value: 0 });\n\n constructor(options: SplatMeshOptions = {}) {\n super({\n update: (context) => this.update(context),\n });\n\n if (options.splats) {\n this.splats = options.splats;\n this.numSplats = options.splats.getNumSplats();\n } else if (options.paged) {\n if (options.extSplats) {\n console.warn(\n \"To set extSplats with the paged option, set SparkRenderer.pagedExtSplats\",\n );\n }\n const rootUrl = options.url ?? \"\";\n if (options.paged === true) {\n this.paged = new PagedSplats({ rootUrl });\n } else if (options.paged instanceof PagedSplats) {\n this.paged = options.paged;\n } else if (options.paged instanceof SplatPager) {\n this.paged = new PagedSplats({ rootUrl, pager: options.paged });\n } else {\n throw new Error(\"Invalid paged option\");\n }\n this.splats = this.paged;\n } else if (options.extSplats) {\n this.extSplats =\n options.extSplats instanceof ExtSplats\n ? options.extSplats\n : new ExtSplats();\n options.extSplats = this.extSplats;\n this.numSplats = this.extSplats.numSplats;\n this.splats = this.extSplats;\n } else if (options.packedSplats) {\n this.packedSplats = options.packedSplats;\n this.packedSplats.splatEncoding = options.splatEncoding ?? {\n ...DEFAULT_SPLAT_ENCODING,\n };\n this.splats = this.packedSplats;\n } else {\n this.packedSplats = new PackedSplats();\n }\n\n this.editable = options.editable ?? true;\n this.raycastable = options.raycastable ?? true;\n this.minRaycastOpacity = options.minRaycastOpacity ?? 0.2;\n this.onFrame = options.onFrame;\n\n this.context = {\n transform: new SplatTransformer(),\n viewToWorld: new SplatTransformer(),\n worldToView: new SplatTransformer(),\n viewToObject: new SplatTransformer(),\n covTransform: new CovSplatTransformer(),\n covViewToWorld: new CovSplatTransformer(),\n covWorldToView: new CovSplatTransformer(),\n covViewToObject: new CovSplatTransformer(),\n recolor: new DynoVec4({\n value: new THREE.Vector4().setScalar(Number.NEGATIVE_INFINITY),\n }),\n time: new DynoFloat({ value: 0 }),\n deltaTime: new DynoFloat({ value: 0 }),\n numSplats: new DynoInt({ value: 0 }),\n splats: new EmptySplatSource(),\n enableLod: new DynoBool({ value: false }),\n lodIndices: new DynoUsampler2D({\n value: emptyLodIndices,\n key: \"lodIndices\",\n }),\n };\n\n this.covSplats = options.covSplats ?? false;\n if (this.covSplats && !this.extSplats) {\n throw new Error(\"CovSplats requires ExtSplats\");\n }\n\n this.objectModifiers = options.objectModifier\n ? [options.objectModifier]\n : undefined;\n this.worldModifiers = options.worldModifier\n ? [options.worldModifier]\n : undefined;\n\n if (options.objectModifiers) {\n this.objectModifiers = options.objectModifiers;\n }\n if (options.worldModifiers) {\n this.worldModifiers = options.worldModifiers;\n }\n\n this.enableLod = options.enableLod;\n this.lodScale = options.lodScale ?? 1.0;\n this.behindFoveate = options.behindFoveate;\n this.coneFov0 = options.coneFov0;\n this.coneFov = options.coneFov;\n this.coneFoveate = options.coneFoveate;\n\n this.updateGenerator();\n\n if (\n options.url ||\n options.fileBytes ||\n options.stream ||\n options.constructSplats ||\n (options.packedSplats && !options.packedSplats.isInitialized) ||\n (this.extSplats && !this.extSplats.isInitialized)\n ) {\n // We need to initialize asynchronously given the options\n this.initialized = this.asyncInitialize(options).then(async () => {\n this.updateGenerator();\n\n this.isInitialized = true;\n if (options.onLoad) {\n const maybePromise = options.onLoad(this);\n if (maybePromise instanceof Promise) {\n await maybePromise;\n }\n }\n return this;\n });\n } else {\n this.isInitialized = true;\n this.initialized = Promise.resolve(this);\n if (options.onLoad) {\n const maybePromise = options.onLoad(this);\n // If onLoad returns a promise, wait for it to complete\n if (maybePromise instanceof Promise) {\n this.initialized = maybePromise.then(() => this);\n }\n }\n }\n\n // this.add(createRendererDetectionMesh());\n }\n\n async asyncInitialize(options: SplatMeshOptions) {\n const {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n maxSplats,\n constructSplats,\n onProgress,\n splatEncoding,\n lod,\n nonLod,\n lodAbove,\n } = options;\n if (this.packedSplats) {\n if (url || fileBytes || stream || constructSplats) {\n const packedSplatsOptions = {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n maxSplats,\n construct: constructSplats,\n onProgress,\n splatEncoding,\n lod,\n nonLod,\n lodAbove,\n };\n this.packedSplats.reinitialize(packedSplatsOptions);\n }\n await this.packedSplats.initialized;\n this.splats = this.packedSplats;\n } else if (this.extSplats) {\n if (url || fileBytes || stream || constructSplats) {\n const construct = constructSplats as\n | ((splats: ExtSplats) => Promise)\n | undefined;\n this.extSplats.reinitialize({\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n maxSplats,\n construct,\n onProgress,\n lod,\n nonLod,\n lodAbove,\n });\n await this.extSplats.initialized;\n this.splats = this.extSplats;\n }\n }\n\n if (this.splats) {\n this.numSplats = this.splats.getNumSplats();\n this.updateGenerator();\n }\n }\n\n static staticInitialized = SplatMesh.staticInitialize();\n static isStaticInitialized = false;\n\n static dynoTime = new DynoFloat({ value: 0 });\n\n static async staticInitialize() {\n await init_wasm();\n SplatMesh.isStaticInitialized = true;\n }\n\n // Creates a new Gsplat with the provided parameters (all values in \"float\" space,\n // i.e. 0-1 for opacity and color) and adds it to the end of the packedSplats,\n // increasing numSplats by 1. If necessary, reallocates the buffer with an exponential\n // doubling strategy to fit the new data, so it's fairly efficient to just\n // pushSplat(...) each Gsplat you want to create in a loop.\n pushSplat(\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n if (this.packedSplats) {\n this.packedSplats.pushSplat(center, scales, quaternion, opacity, color);\n } else if (this.extSplats) {\n this.extSplats.pushSplat(center, scales, quaternion, opacity, color);\n }\n }\n\n // This method iterates over all Gsplats in this instance's packedSplats,\n // invoking the provided callback with index: number in 0..=(this.numSplats-1) and\n // center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion,\n // opacity: number (0..1), and color: THREE.Color (rgb values in 0..1).\n // Note that the objects passed in as center etc. are the same for every callback\n // invocation: these objects are reused for efficiency. Changing these values has\n // no effect as they are decoded/unpacked copies of the underlying data. To update\n // the packedSplats, call .packedSplats.setSplat(index, center, scales,\n // quaternion, opacity, color).\n forEachSplat(\n callback: (\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => void,\n ) {\n if (this.packedSplats) {\n this.packedSplats.forEachSplat(callback);\n } else if (this.extSplats) {\n this.extSplats.forEachSplat(callback);\n }\n }\n\n // Call this when you are finished with the SplatMesh and want to free\n // any buffers it holds (via packedSplats).\n dispose() {\n if (\n this.splats &&\n this.splats !== this.packedSplats &&\n this.splats !== this.extSplats\n ) {\n this.splats.dispose();\n this.splats = undefined;\n }\n if (this.packedSplats) {\n this.packedSplats.dispose();\n this.packedSplats = undefined;\n }\n if (this.extSplats) {\n this.extSplats.dispose();\n this.extSplats = undefined;\n }\n }\n\n // Returns axis-aligned bounding box of the SplatMesh. If centers_only is true,\n // only the centers of the splats are used to compute the bounding box.\n // IMPORTANT: This should only be called after the SplatMesh is initialized.\n getBoundingBox(centers_only = true) {\n if (!this.initialized) {\n throw new Error(\n \"Cannot get bounding box before SplatMesh is initialized\",\n );\n }\n if (!this.packedSplats && !this.extSplats) {\n throw new Error(\"Bounding box requires PackedSplats or ExtSplats\");\n }\n const minVec = new THREE.Vector3(\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n );\n const maxVec = new THREE.Vector3(\n Number.NEGATIVE_INFINITY,\n Number.NEGATIVE_INFINITY,\n Number.NEGATIVE_INFINITY,\n );\n const corners = new THREE.Vector3();\n const signs = [-1, 1];\n\n function callback(\n _index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n _opacity: number,\n _color: THREE.Color,\n ) {\n if (centers_only) {\n minVec.min(center);\n maxVec.max(center);\n } else {\n // Get the 8 corners of the AABB in local space\n for (const x of signs) {\n for (const y of signs) {\n for (const z of signs) {\n corners.set(x * scales.x, y * scales.y, z * scales.z);\n // Transform corner by rotation and position\n corners.applyQuaternion(quaternion);\n corners.add(center);\n minVec.min(corners);\n maxVec.max(corners);\n }\n }\n }\n }\n }\n\n if (this.packedSplats) {\n this.packedSplats.forEachSplat(callback);\n } else if (this.extSplats) {\n this.extSplats.forEachSplat(callback);\n }\n const box = new THREE.Box3(minVec, maxVec);\n return box;\n }\n\n set objectModifier(modifier: GsplatModifier | undefined) {\n if (modifier) {\n this.objectModifiers = [modifier];\n } else {\n this.objectModifiers = undefined;\n }\n }\n\n set worldModifier(modifier: GsplatModifier | undefined) {\n if (modifier) {\n this.worldModifiers = [modifier];\n } else {\n this.worldModifiers = undefined;\n }\n }\n\n private constructGenerator(context: SplatMeshContext) {\n if (this.covSplats) {\n return this.constructCovGenerator(context);\n }\n\n const { transform, viewToObject, recolor } = context;\n const generator = dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n\n index = maybeLookupIndex(\n context.lodIndices,\n index,\n context.numSplats,\n context.enableLod,\n this.showLodPageDyno,\n );\n\n // Read a Gsplat from the SplatSource\n context.splats.setMaxSh(this.maxSh);\n context.splats.prepareFetchSplat();\n let gsplat = context.splats.fetchSplat({\n index,\n viewOrigin: viewToObject.translate,\n });\n\n if (this.splatRgba) {\n // Overwrite RGBA with baked RGBA values\n gsplat = maybeInjectSplatRgba(\n gsplat,\n this.splatRgba.dyno,\n index,\n context.enableLod,\n );\n }\n\n if (this.skinning) {\n // Transform according to bones + skinning weights\n gsplat = this.skinning.modify(gsplat);\n }\n\n if (this.objectModifiers) {\n // Inject object-space Gsplat modifier dyno\n for (const modifier of this.objectModifiers) {\n gsplat = modifier.apply({ gsplat }).gsplat;\n }\n }\n\n // Transform from object to world-space\n gsplat = transform.applyGsplat(gsplat);\n\n // Apply any global recoloring and opacity\n const recolorRgba = mul(recolor, splitGsplat(gsplat).outputs.rgba);\n gsplat = combineGsplat({ gsplat, rgba: recolorRgba });\n\n if (this.rgbaDisplaceEdits) {\n // Apply RGBA edit layer SDFs\n gsplat = this.rgbaDisplaceEdits.modify(gsplat);\n }\n\n if (this.worldModifiers) {\n // Inject world-space Gsplat modifier dyno\n for (const modifier of this.worldModifiers) {\n gsplat = modifier.apply({ gsplat }).gsplat;\n }\n }\n\n // We're done! Output resulting Gsplat\n return { gsplat };\n },\n );\n this.generator = generator;\n this.covGenerator = undefined;\n }\n\n constructCovGenerator(context: SplatMeshContext) {\n // console.log(\"CovSplatMesh.constructCovGenerator\");\n const { covTransform, covViewToObject, recolor } = context;\n const generator = dynoBlock(\n { index: \"int\" },\n { covsplat: CovSplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n\n index = maybeLookupIndex(\n context.lodIndices,\n index,\n context.numSplats,\n context.enableLod,\n this.showLodPageDyno,\n );\n\n // Read a Gsplat from the SplatSource\n context.splats.prepareFetchSplat();\n let gsplat = context.splats.fetchSplat({\n index,\n viewOrigin: covViewToObject.offset,\n });\n\n if (this.splatRgba) {\n // Overwrite RGBA with baked RGBA values\n gsplat = maybeInjectSplatRgba(\n gsplat,\n this.splatRgba.dyno,\n index,\n context.enableLod,\n );\n }\n\n if (this.objectModifiers) {\n // Inject object-space Gsplat modifier dyno\n for (const modifier of this.objectModifiers) {\n gsplat = modifier.apply({ gsplat }).gsplat;\n }\n }\n\n let covsplat = gsplatToCovSplat(gsplat);\n\n if (this.skinning) {\n // Transform according to bones + skinning weights\n covsplat = this.skinning.modifyCov(covsplat);\n }\n\n if (this.covObjectModifiers) {\n // Inject object-space CovSplat modifier dyno\n for (const modifier of this.covObjectModifiers) {\n covsplat = modifier.apply({ covsplat }).covsplat;\n }\n }\n\n // Transform from object to world-space\n covsplat = covTransform.applyCovSplat(covsplat);\n\n // Apply any global recoloring and opacity\n const recolorRgba = mul(recolor, splitCovSplat(covsplat).outputs.rgba);\n covsplat = combineCovSplat({ covsplat, rgba: recolorRgba });\n\n if (this.rgbaDisplaceEdits) {\n // Apply RGBA edit layer SDFs\n covsplat = this.rgbaDisplaceEdits.modifyCov(covsplat);\n }\n\n if (this.covWorldModifiers) {\n // Inject world-space CovSplat modifier dyno\n for (const modifier of this.covWorldModifiers) {\n covsplat = modifier.apply({ covsplat }).covsplat;\n }\n }\n\n // We're done! Output resulting Gsplat\n return { covsplat };\n },\n );\n this.generator = undefined;\n this.covGenerator = generator;\n }\n\n // Call this whenever something changes in the Gsplat processing pipeline,\n // for example changing maxSh or updating objectModifier or worldModifier.\n // Compiled generators are cached for efficiency and re-use when the same\n // pipeline structure emerges after successive changes.\n updateGenerator() {\n this.generatorDirty = true;\n }\n\n // This is called automatically by SparkRenderer and you should not have to\n // call it. It updates parameters for the generated pipeline and calls\n // updateGenerator() if the pipeline needs to change.\n update({\n renderer,\n time,\n deltaTime,\n viewToWorld,\n camera,\n renderSize,\n globalEdits,\n lodIndices,\n }: FrameUpdateContext) {\n this.context.time.value = time;\n this.context.deltaTime.value = deltaTime;\n SplatMesh.dynoTime.value = time;\n this.showLodPageDyno.value = this.showLodPage ?? -1;\n\n const splats = this.splats ?? this.packedSplats ?? this.extSplats;\n if (splats) {\n this.context.splats = splats;\n }\n this.numSplats = this.context.splats.getNumSplats();\n\n let updated = false;\n\n const lodSplats = this.packedSplats?.lodSplats ?? this.extSplats?.lodSplats;\n this.context.enableLod.value = lodSplats != null && lodIndices != null;\n if (this.enableLod === false) {\n this.context.enableLod.value = false;\n }\n this.context.lodIndices.value = lodIndices?.texture ?? emptyLodIndices;\n\n if (this.context.enableLod.value && lodSplats) {\n this.context.splats = lodSplats;\n this.numSplats = lodIndices?.numSplats ?? 0;\n }\n\n this.context.numSplats.value = this.numSplats;\n\n if (this.context.splats !== this.lastSplats) {\n this.lastSplats = this.context.splats;\n this.generatorDirty = true;\n }\n\n if (!this.covSplats) {\n if (this.context.transform.update(this)) {\n updated = true;\n }\n\n if (\n this.context.viewToWorld.updateFromMatrix(viewToWorld) &&\n this.enableViewToWorld\n ) {\n updated = true;\n }\n const worldToView = viewToWorld.clone().invert();\n if (\n this.context.worldToView.updateFromMatrix(worldToView) &&\n this.enableWorldToView\n ) {\n updated = true;\n }\n\n const objectToWorld = new THREE.Matrix4().compose(\n this.context.transform.translate.value,\n this.context.transform.rotate.value,\n new THREE.Vector3().setScalar(this.context.transform.scale.value),\n );\n const worldToObject = objectToWorld.invert();\n const viewToObjectMatrix = worldToObject.multiply(viewToWorld);\n if (\n this.context.viewToObject.updateFromMatrix(viewToObjectMatrix) &&\n (this.enableViewToObject || this.context.splats.hasRgbDir())\n ) {\n // Only trigger update if we have view-dependent spherical harmonics\n updated = true;\n }\n } else {\n if (this.context.covTransform.update(this)) {\n updated = true;\n }\n\n if (\n this.context.covViewToWorld.updateFromMatrix(viewToWorld) &&\n this.enableViewToWorld\n ) {\n updated = true;\n }\n const worldToView = viewToWorld.clone().invert();\n if (\n this.context.covWorldToView.updateFromMatrix(worldToView) &&\n this.enableWorldToView\n ) {\n updated = true;\n }\n\n const worldToObject = this.matrixWorld.clone().invert();\n const viewToObjectMatrix = worldToObject.multiply(viewToWorld);\n if (\n this.context.covViewToObject.updateFromMatrix(viewToObjectMatrix) &&\n (this.enableViewToObject || this.context.splats.hasRgbDir())\n ) {\n // Only trigger update if we have view-dependent spherical harmonics\n updated = true;\n }\n }\n\n const newRecolor = new THREE.Vector4(\n this.recolor.r,\n this.recolor.g,\n this.recolor.b,\n this.opacity,\n );\n if (!newRecolor.equals(this.context.recolor.value)) {\n this.context.recolor.value.copy(newRecolor);\n updated = true;\n }\n\n const edits = this.editable ? (this.edits ?? []).concat(globalEdits) : [];\n if (this.editable && !this.edits) {\n // If we haven't set any explicit edits, add any child SplatEdits\n this.traverseVisible((node) => {\n if (node instanceof SplatEdit) {\n edits.push(node);\n }\n });\n }\n\n edits.sort((a, b) => a.ordering - b.ordering);\n const editsSdfs = edits.map((edit) => {\n if (edit.sdfs != null) {\n return { edit, sdfs: edit.sdfs };\n }\n const sdfs: SplatEditSdf[] = [];\n edit.traverseVisible((node) => {\n if (node instanceof SplatEditSdf) {\n sdfs.push(node);\n }\n });\n return { edit, sdfs };\n });\n\n if (editsSdfs.length > 0 && !this.rgbaDisplaceEdits) {\n const edits = editsSdfs.length;\n const sdfs = editsSdfs.reduce(\n (total, edit) => total + edit.sdfs.length,\n 0,\n );\n this.rgbaDisplaceEdits = new SplatEdits({\n maxEdits: edits,\n maxSdfs: sdfs,\n });\n this.generatorDirty = true;\n }\n if (this.rgbaDisplaceEdits) {\n const editResult = this.rgbaDisplaceEdits.update(editsSdfs);\n updated ||= editResult.updated;\n if (editResult.dynoUpdated) {\n this.generatorDirty = true;\n }\n }\n\n if (this.generatorDirty) {\n this.constructGenerator(this.context);\n this.generatorDirty = false;\n updated = true;\n }\n\n if (updated) {\n this.updateVersion();\n }\n\n this.onFrame?.({ mesh: this, time, deltaTime });\n }\n\n // This method conforms to the standard THREE.Raycaster API, performing object-ray\n // intersections using this method to populate the provided intersects[] array\n // with each intersection point.\n raycast(\n raycaster: THREE.Raycaster,\n intersects: {\n distance: number;\n point: THREE.Vector3;\n object: THREE.Object3D;\n }[],\n ) {\n if (\n !SplatMesh.isStaticInitialized ||\n !this.raycastable ||\n (!this.packedSplats && !this.extSplats && !this.paged)\n ) {\n return;\n }\n const paged = this.paged != null;\n const ext = paged\n ? (this.paged?.pager?.extSplats ?? false)\n : this.extSplats != null;\n\n const { near, far, ray } = raycaster;\n const worldToMesh = this.matrixWorld.clone().invert();\n const worldToMeshRot = new THREE.Matrix3().setFromMatrix4(worldToMesh);\n const origin = ray.origin.clone().applyMatrix4(worldToMesh);\n const direction = ray.direction.clone().applyMatrix3(worldToMeshRot);\n\n const buffer = get_raycast_buffer();\n const bufferSize = buffer.length / 4;\n let intersections = 0;\n\n const numSplats =\n this.raycastIndices?.numSplats ??\n (paged ? this.paged?.numSplats : this.context.numSplats.value) ??\n 0;\n const indices =\n this.raycastIndices?.indices ??\n (paged\n ? (this.paged?.dynoIndices.value.image.data as Uint32Array)\n : this.context.enableLod.value\n ? (this.context.lodIndices.value.image.data as Uint32Array)\n : null) ??\n null;\n\n if (!ext) {\n const packed = paged\n ? (this.paged?.pager?.packedTexture.value.image.data as Uint32Array)\n : indices\n ? this.packedSplats?.lodSplats?.packedArray\n : this.packedSplats?.packedArray;\n if (!packed) {\n return;\n }\n const splatEncoding = paged\n ? this.paged?.splatEncoding\n : this.packedSplats?.splatEncoding;\n for (let base = 0; base < numSplats; base += bufferSize) {\n const count = Math.min(bufferSize, numSplats - base);\n if (!indices) {\n buffer.set(packed.subarray(base * 4, (base + count) * 4));\n } else {\n for (let i = 0; i < count; ++i) {\n const index = indices[base + i];\n const i4 = i * 4;\n const index4 = index * 4;\n buffer[i4] = packed[index4];\n buffer[i4 + 1] = packed[index4 + 1];\n buffer[i4 + 2] = packed[index4 + 2];\n buffer[i4 + 3] = packed[index4 + 3];\n }\n }\n\n const newIntersections = raycast_packed_buffer(\n origin.x,\n origin.y,\n origin.z,\n direction.x,\n direction.y,\n direction.z,\n this.minRaycastOpacity,\n near,\n far,\n count,\n splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n splatEncoding?.lodOpacity ?? false,\n );\n intersections = this.appendRaycastBuffer(\n intersections,\n newIntersections,\n );\n }\n } else {\n const buffer2 = get_raycast_buffer2();\n const ext1 = paged\n ? (this.paged?.pager?.packedTexture.value.image.data as Uint32Array)\n : indices\n ? this.extSplats?.lodSplats?.extArrays[0]\n : this.extSplats?.extArrays[0];\n const ext2 = paged\n ? (this.paged?.pager?.extTexture.value.image.data as Uint32Array)\n : indices\n ? this.extSplats?.lodSplats?.extArrays[1]\n : this.extSplats?.extArrays[1];\n if (!ext1 || !ext2) {\n return;\n }\n for (let base = 0; base < numSplats; base += bufferSize) {\n const count = Math.min(bufferSize, numSplats - base);\n if (!indices) {\n buffer.set(ext1.subarray(base * 4, (base + count) * 4));\n buffer2.set(ext2.subarray(base * 4, (base + count) * 4));\n } else {\n for (let i = 0; i < count; ++i) {\n const index = indices[base + i];\n const i4 = i * 4;\n const index4 = index * 4;\n buffer[i4] = ext1[index4];\n buffer[i4 + 1] = ext1[index4 + 1];\n buffer[i4 + 2] = ext1[index4 + 2];\n buffer[i4 + 3] = ext1[index4 + 3];\n buffer2[i4] = ext2[index4];\n buffer2[i4 + 1] = ext2[index4 + 1];\n buffer2[i4 + 2] = ext2[index4 + 2];\n buffer2[i4 + 3] = ext2[index4 + 3];\n }\n }\n\n const newIntersections = raycast_ext_buffers(\n origin.x,\n origin.y,\n origin.z,\n direction.x,\n direction.y,\n direction.z,\n this.minRaycastOpacity,\n near,\n far,\n count,\n );\n intersections = this.appendRaycastBuffer(\n intersections,\n newIntersections,\n );\n }\n }\n\n for (const distance of SplatMesh.raycastBuffer.subarray(0, intersections)) {\n const point = ray.direction\n .clone()\n .multiplyScalar(distance)\n .add(ray.origin);\n intersects.push({\n distance,\n point,\n object: this,\n });\n }\n }\n\n static raycastBuffer = new Float32Array(1024);\n\n private appendRaycastBuffer(count: number, additional: Float32Array) {\n const total = count + additional.length;\n let capacity = SplatMesh.raycastBuffer.length;\n\n if (total > capacity) {\n while (capacity < total) {\n capacity *= 2;\n }\n const newBuffer = new Float32Array(capacity);\n newBuffer.set(SplatMesh.raycastBuffer.subarray(0, count));\n SplatMesh.raycastBuffer = newBuffer;\n }\n\n SplatMesh.raycastBuffer.set(additional, count);\n return count + additional.length;\n }\n\n async createLodSplats({\n rgbaArray,\n quality,\n }: { rgbaArray?: RgbaArray; quality?: boolean } = {}) {\n if (this.packedSplats) {\n await this.packedSplats.createLodSplats({ quality, rgbaArray });\n } else if (this.extSplats) {\n await this.extSplats.createLodSplats({ quality, rgbaArray });\n }\n }\n}\n\nexport function maybeLookupIndex(\n lodIndices: DynoUsampler2D<\"lodIndices\", THREE.DataTexture>,\n index: DynoVal<\"int\">,\n numSplats: DynoVal<\"int\">,\n enableLod: DynoVal<\"bool\">,\n showLodPage: DynoVal<\"int\">,\n) {\n return dyno({\n inTypes: {\n lodIndices: \"usampler2D\",\n index: \"int\",\n numSplats: \"int\",\n enableLod: \"bool\",\n showLodPage: \"int\",\n },\n outTypes: {\n index: \"int\",\n },\n inputs: {\n lodIndices,\n index,\n numSplats,\n enableLod,\n showLodPage,\n },\n statements: ({ inputs, outputs }) =>\n unindentLines(`\n int index = ${inputs.index};\n if (${inputs.showLodPage} < 0) {\n if (index >= ${inputs.numSplats}) {\n return;\n }\n if (${inputs.enableLod}) {\n ivec2 lodIndexCoord = ivec2((index >> 2) & 4095, index >> 14);\n uint splatIndex = texelFetch(${inputs.lodIndices}, lodIndexCoord, 0)[index & 3];\n ${outputs.index} = int(splatIndex);\n } else {\n ${outputs.index} = index;\n }\n } else {\n int start = ${inputs.showLodPage} << 16;\n if (index >= 65536) {\n return;\n }\n ${outputs.index} = start + index;\n }\n `),\n }).outputs.index;\n}\n\nexport function maybeInjectSplatRgba(\n gsplat: DynoVal,\n rgba: DynoVal,\n index: DynoVal<\"int\">,\n enableLod: DynoVal<\"bool\">,\n): DynoVal {\n return dyno({\n inTypes: {\n gsplat: Gsplat,\n rgba: TRgbaArray,\n index: \"int\",\n enableLod: \"bool\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: { gsplat, rgba, index, enableLod },\n statements: ({ inputs, outputs }) =>\n unindentLines(`\n ${outputs.gsplat} = ${inputs.gsplat};\n if (!${inputs.enableLod} && (${inputs.index} >= 0) && (${inputs.index} < ${inputs.rgba}.count)) {\n ${outputs.gsplat}.rgba = texelFetch(${inputs.rgba}.texture, splatTexCoord(${inputs.index}), 0);\n }\n `),\n }).outputs.gsplat;\n}\n\nexport const emptyLodIndices = (() => {\n const texture = new THREE.DataTexture(\n new Uint32Array(16384),\n 4096,\n 1,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n})();\n\nconst EMPTY_GEOMETRY = new THREE.BufferGeometry();\nconst EMPTY_MATERIAL = new THREE.ShaderMaterial();\n\n// Creates an empty mesh to hook into Three.js rendering.\n// This is used to detect if a SparkRenderer is present in the scene.\n// If not, one will be injected automatically.\nfunction createRendererDetectionMesh(): THREE.Mesh {\n const mesh = new THREE.Mesh(EMPTY_GEOMETRY, EMPTY_MATERIAL);\n mesh.frustumCulled = false;\n mesh.onBeforeRender = function (renderer, scene) {\n if (!scene.isScene) {\n // The SplatMesh is part of render call that doesn't have a Scene at its root\n // Don't auto-inject a renderer.\n this.removeFromParent();\n return;\n }\n\n // Check if the scene has a SparkRenderer instance\n let hasSparkRenderer = false;\n scene.traverse((c) => {\n if (c instanceof SparkRenderer || c instanceof OldSparkRenderer) {\n hasSparkRenderer = true;\n }\n });\n\n if (!hasSparkRenderer) {\n // No spark renderer present in the scene, inject one.\n scene.add(new SparkRenderer({ renderer }));\n }\n\n // Remove mesh to stop checking\n this.removeFromParent();\n };\n return mesh;\n}\n","// PLY file format reader\n\nimport { USE_COMPILED_PARSER_FUNCTION } from \"./defines\";\n\nconst PLY_PROPERTY_TYPES = [\n \"char\",\n \"uchar\",\n \"short\",\n \"ushort\",\n \"int\",\n \"uint\",\n \"float\",\n \"double\",\n] as const;\nexport type PlyPropertyType = (typeof PLY_PROPERTY_TYPES)[number];\n\nexport type PlyElement = {\n name: string;\n count: number;\n properties: Record;\n};\n\nexport type PlyProperty = {\n isList: boolean;\n type: PlyPropertyType;\n countType?: PlyPropertyType;\n};\n\n// Callback for parseSplats base Gsplat data\nexport type SplatCallback = (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) => void;\n\n// Callback for parseSplats SH coefficients\nexport type SplatShCallback = (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n) => void;\n\n// A PlyReader is used to parse PLY files for Gsplat data.\n// It takes a Uint8Array/ArrayBuffer as input fileBytes, parses the text header,\n// and provides a method parseData to iterate over the entire binary data\n// efficiently, or parseSplats to iterate over Gsplat data.\n\nexport class PlyReader {\n fileBytes: Uint8Array;\n header = \"\";\n littleEndian = true;\n elements: Record = {};\n comments: string[] = [];\n data: DataView | null = null;\n static defaultPointScale = 0.001;\n\n numSplats = 0;\n\n // Create a PlyReader from a Uint8Array/ArrayBuffer, no parsing done yet\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n }\n\n // Identify and parse the PLY text header (assumed to be <64KB in size).\n // this.elements will contain all the elements in the file, typically\n // \"vertex\" contains the Gsplat data.\n async parseHeader() {\n const bufferStream = new ReadableStream({\n start: (\n controller: ReadableStreamController>,\n ) => {\n // Assume the header is less than 64KB\n controller.enqueue(this.fileBytes.slice(0, 65536));\n controller.close();\n },\n });\n const decoder = bufferStream\n .pipeThrough(new TextDecoderStream())\n .getReader();\n\n // Find the end of the text section of the PLY file\n this.header = \"\";\n const headerTerminator = \"end_header\\n\";\n while (true) {\n const { value, done } = await decoder.read();\n if (done) {\n throw new Error(\"Failed to read header\");\n }\n\n this.header += value as string;\n const endHeader = this.header.indexOf(headerTerminator);\n if (endHeader >= 0) {\n this.header = this.header.slice(0, endHeader + headerTerminator.length);\n break;\n }\n }\n // Partition the file into header and binary data\n const headerLen = new TextEncoder().encode(this.header).length;\n this.data = new DataView(this.fileBytes.buffer, headerLen);\n\n this.elements = {};\n let curElement: PlyElement | null = null;\n this.comments = [];\n\n this.header\n .trim()\n .split(\"\\n\")\n .forEach((line: string, lineIndex: number) => {\n const trimmedLine = line.trim();\n if (lineIndex === 0) {\n if (trimmedLine !== \"ply\") {\n throw new Error(\"Invalid PLY header\");\n }\n return;\n }\n if (trimmedLine.length === 0) {\n return; // Skip empty lines\n }\n\n const fields = trimmedLine.split(\" \");\n switch (fields[0]) {\n case \"format\":\n if (fields[1] === \"binary_little_endian\") {\n this.littleEndian = true;\n } else if (fields[1] === \"binary_big_endian\") {\n this.littleEndian = false;\n } else {\n // ascii formats not supported\n throw new Error(`Unsupported PLY format: ${fields[1]}`);\n }\n if (fields[2] !== \"1.0\") {\n throw new Error(`Unsupported PLY version: ${fields[2]}`);\n }\n break;\n case \"end_header\":\n break;\n case \"comment\":\n this.comments.push(trimmedLine.slice(\"comment \".length));\n break;\n case \"element\": {\n const name = fields[1];\n curElement = {\n name,\n count: Number.parseInt(fields[2]),\n properties: {},\n };\n this.elements[name] = curElement;\n break;\n }\n case \"property\":\n if (curElement == null) {\n throw new Error(\"Property must be inside an element\");\n }\n if (fields[1] === \"list\") {\n curElement.properties[fields[4]] = {\n isList: true,\n type: fields[3] as PlyPropertyType,\n countType: fields[2] as PlyPropertyType,\n };\n } else {\n curElement.properties[fields[2]] = {\n isList: false,\n type: fields[1] as PlyPropertyType,\n };\n }\n break;\n default:\n // console.warn(`Skipping unsupported PLY keyword: ${fields[0]}`);\n }\n });\n\n if (this.elements.vertex) {\n this.numSplats = this.elements.vertex.count;\n }\n }\n\n parseData(\n elementCallback: (\n element: PlyElement,\n ) =>\n | null\n | ((index: number, item: Record) => void),\n ) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No data to parse\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const item = createEmptyItem(properties);\n // Construct a parse function\n const parseFn = createParseFn(properties, this.littleEndian);\n\n // Parse all the items in the element\n const callback = elementCallback(element) ?? (() => {});\n for (let index = 0; index < count; index++) {\n offset = parseFn(data, offset, item);\n callback(index, item);\n }\n }\n }\n\n // Parse all the Gsplat data in the PLY file in go, invoking the given\n // callbacks for each Gsplat.\n parseSplats(splatCallback: SplatCallback, shCallback?: SplatShCallback) {\n if (this.elements.vertex == null) {\n throw new Error(\"No vertex element found\");\n }\n\n let isSuperSplat = false;\n const ssChunks: SSChunk[] = [];\n\n let numSh = 0;\n let sh1Props: number[] = [];\n let sh2Props: number[] = [];\n let sh3Props: number[] = [];\n let sh1: Float32Array | undefined = undefined;\n let sh2: Float32Array | undefined = undefined;\n let sh3: Float32Array | undefined = undefined;\n\n function prepareSh() {\n // Prepare SH coefficient names and arrays for numSh total SH levels\n const num_f_rest = NUM_SH_TO_NUM_F_REST[numSh];\n sh1Props = new Array(3)\n .fill(null)\n .flatMap((_, k) => [0, 1, 2].map((_, d) => k + (d * num_f_rest) / 3));\n sh2Props = new Array(5)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 3 + k + (d * num_f_rest) / 3),\n );\n sh3Props = new Array(7)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 8 + k + (d * num_f_rest) / 3),\n );\n sh1 = numSh >= 1 ? new Float32Array(3 * 3) : undefined;\n sh2 = numSh >= 2 ? new Float32Array(5 * 3) : undefined;\n sh3 = numSh >= 3 ? new Float32Array(7 * 3) : undefined;\n }\n\n function ssShCallback(\n index: number,\n item: Record,\n ) {\n // Decode SH for SuperSplat compressed data\n if (!sh1) {\n throw new Error(\"Missing sh1\");\n }\n const sh = item.f_rest as number[];\n\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = (sh[sh1Props[i]] * 8) / 255 - 4;\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = (sh[sh2Props[i]] * 8) / 255 - 4;\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = (sh[sh3Props[i]] * 8) / 255 - 4;\n }\n }\n shCallback?.(index, sh1, sh2, sh3);\n }\n\n function initSuperSplat(element: PlyElement) {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n } = element.properties;\n if (\n !min_x ||\n !min_y ||\n !min_z ||\n !max_x ||\n !max_y ||\n !max_z ||\n !min_scale_x ||\n !min_scale_y ||\n !min_scale_z ||\n !max_scale_x ||\n !max_scale_y ||\n !max_scale_z\n ) {\n throw new Error(\"Missing PLY chunk properties\");\n }\n\n // SuperSplat chunks are used to quantize splat data, so we need to store them\n isSuperSplat = true;\n return (index: number, item: Record) => {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = item as Record;\n ssChunks.push({\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n });\n };\n }\n\n function decodeSuperSplat(element: PlyElement) {\n // Decode SuperSplat compressed data in vertex and sh elements\n if (shCallback && element.name === \"sh\") {\n numSh = getNumSh(element.properties);\n prepareSh();\n return ssShCallback;\n }\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n element.properties;\n if (\n !packed_position ||\n !packed_rotation ||\n !packed_scale ||\n !packed_color\n ) {\n throw new Error(\n \"Missing PLY properties: packed_position, packed_rotation, packed_scale, packed_color\",\n );\n }\n\n const SQRT2 = Math.sqrt(2);\n\n return (index: number, item: Record) => {\n // SuperSplat data are quantized within chunks with 256 Gsplats each\n const chunk = ssChunks[index >>> 8];\n if (chunk == null) {\n throw new Error(\"Missing PLY chunk\");\n }\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = chunk;\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n item as Record;\n\n const x =\n (((packed_position >>> 21) & 2047) / 2047) * (max_x - min_x) + min_x;\n const y =\n (((packed_position >>> 11) & 1023) / 1023) * (max_y - min_y) + min_y;\n const z = ((packed_position & 2047) / 2047) * (max_z - min_z) + min_z;\n\n const r0 = (((packed_rotation >>> 20) & 1023) / 1023 - 0.5) * SQRT2;\n const r1 = (((packed_rotation >>> 10) & 1023) / 1023 - 0.5) * SQRT2;\n const r2 = ((packed_rotation & 1023) / 1023 - 0.5) * SQRT2;\n const rr = Math.sqrt(Math.max(0, 1.0 - r0 * r0 - r1 * r1 - r2 * r2));\n\n const rOrder = packed_rotation >>> 30;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n\n const scaleX = Math.exp(\n (((packed_scale >>> 21) & 2047) / 2047) *\n (max_scale_x - min_scale_x) +\n min_scale_x,\n );\n const scaleY = Math.exp(\n (((packed_scale >>> 11) & 1023) / 1023) *\n (max_scale_y - min_scale_y) +\n min_scale_y,\n );\n const scaleZ = Math.exp(\n ((packed_scale & 2047) / 2047) * (max_scale_z - min_scale_z) +\n min_scale_z,\n );\n\n const r =\n (((packed_color >>> 24) & 255) / 255) *\n ((max_r ?? 1) - (min_r ?? 0)) +\n (min_r ?? 0);\n const g =\n (((packed_color >>> 16) & 255) / 255) *\n ((max_g ?? 1) - (min_g ?? 0)) +\n (min_g ?? 0);\n const b =\n (((packed_color >>> 8) & 255) / 255) * ((max_b ?? 1) - (min_b ?? 0)) +\n (min_b ?? 0);\n const opacity = (packed_color & 255) / 255;\n\n splatCallback(\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n };\n }\n\n const elementCallback = (element: PlyElement) => {\n if (element.name === \"chunk\") {\n // \"chunk\" could conceivably be used for other formats, and we would\n // ideally check for the comment: Generated by SuperSplat 2.*\n // but gsplat also outputs this format without such a comment.\n // In order to support both, let's assume a \"chunk\" element should\n // be interpreted as this format.\n return initSuperSplat(element);\n }\n if (isSuperSplat) {\n return decodeSuperSplat(element);\n }\n\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const {\n x,\n y,\n z,\n scale_0,\n scale_1,\n scale_2,\n rot_0,\n rot_1,\n rot_2,\n rot_3,\n opacity,\n f_dc_0,\n f_dc_1,\n f_dc_2,\n red,\n green,\n blue,\n alpha,\n } = element.properties;\n\n if (!x || !y || !z) {\n throw new Error(\"Missing PLY properties: x, y, z\");\n }\n // Pure point cloud PLY files have no scales or rotations\n const hasScales = scale_0 && scale_1 && scale_2;\n const hasRots = rot_0 && rot_1 && rot_2 && rot_3;\n // Quantization scale factor for argb values\n const alphaDiv = alpha != null ? FIELD_SCALE[alpha.type] : 1;\n const redDiv = red != null ? FIELD_SCALE[red.type] : 1;\n const greenDiv = green != null ? FIELD_SCALE[green.type] : 1;\n const blueDiv = blue != null ? FIELD_SCALE[blue.type] : 1;\n\n numSh = getNumSh(element.properties);\n prepareSh();\n\n return (index: number, item: Record) => {\n const scaleX = hasScales\n ? Math.exp(item.scale_0 as number)\n : PlyReader.defaultPointScale;\n const scaleY = hasScales\n ? Math.exp(item.scale_1 as number)\n : PlyReader.defaultPointScale;\n const scaleZ = hasScales\n ? Math.exp(item.scale_2 as number)\n : PlyReader.defaultPointScale;\n\n const quatX = hasRots ? (item.rot_1 as number) : 0;\n const quatY = hasRots ? (item.rot_2 as number) : 0;\n const quatZ = hasRots ? (item.rot_3 as number) : 0;\n const quatW = hasRots ? (item.rot_0 as number) : 1;\n\n const op =\n opacity != null\n ? 1.0 / (1.0 + Math.exp(-item.opacity as number))\n : alpha != null\n ? (item.alpha as number) / alphaDiv\n : 1.0;\n const r =\n f_dc_0 != null\n ? (item.f_dc_0 as number) * SH_C0 + 0.5\n : red != null\n ? (item.red as number) / redDiv\n : 1.0;\n const g =\n f_dc_1 != null\n ? (item.f_dc_1 as number) * SH_C0 + 0.5\n : green != null\n ? (item.green as number) / greenDiv\n : 1.0;\n const b =\n f_dc_2 != null\n ? (item.f_dc_2 as number) * SH_C0 + 0.5\n : blue != null\n ? (item.blue as number) / blueDiv\n : 1.0;\n\n splatCallback(\n index,\n item.x as number,\n item.y as number,\n item.z as number,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n op,\n r,\n g,\n b,\n );\n\n if (shCallback && sh1) {\n const sh = item.f_rest as number[];\n if (sh1) {\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = sh[sh1Props[i]];\n }\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = sh[sh2Props[i]];\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = sh[sh3Props[i]];\n }\n }\n shCallback(index, sh1, sh2, sh3);\n }\n };\n };\n\n this.parseData(elementCallback);\n }\n\n // Inject RGBA values into original PLY file, which can be used to modify\n // the color/opacity of the Gsplats and write out the modified PLY file.\n injectRgba(rgba: Uint8Array) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No parsed data\");\n }\n if (rgba.length !== this.numSplats * 4) {\n throw new Error(\"Invalid RGBA array length\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const parsers = [];\n\n let rgbaOffset = 0;\n const isVertex = elementName === \"vertex\";\n if (isVertex) {\n for (const name of [\"opacity\", \"f_dc_0\", \"f_dc_1\", \"f_dc_2\"]) {\n if (!properties[name] || properties[name].type !== \"float\") {\n throw new Error(`Can't injectRgba due to property: ${name}`);\n }\n }\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!property.isList) {\n if (isVertex) {\n if (\n propertyName === \"f_dc_0\" ||\n propertyName === \"f_dc_1\" ||\n propertyName === \"f_dc_2\"\n ) {\n const component = Number.parseInt(\n propertyName.slice(\"f_dc_\".length),\n );\n parsers.push(() => {\n // Inject DC coefficients\n const value =\n (rgba[rgbaOffset + component] / 255 - 0.5) / SH_C0;\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n } else if (propertyName === \"opacity\") {\n parsers.push(() => {\n // Inject opacity sigmoid, clamped to [-100, 100]\n const value = Math.max(\n -100,\n Math.min(\n 100,\n -Math.log(1.0 / (rgba[rgbaOffset + 3] / 255) - 1.0),\n ),\n );\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n }\n }\n parsers.push(() => {\n offset += FIELD_BYTES[property.type];\n });\n } else {\n parsers.push(() => {\n const length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n this.littleEndian,\n );\n offset += FIELD_BYTES[property.countType as PlyPropertyType];\n offset += length * FIELD_BYTES[property.type];\n });\n }\n }\n\n for (let index = 0; index < count; index++) {\n // Go through all the data and field parsers to compute offset\n for (const parser of parsers) {\n parser();\n }\n if (isVertex) {\n rgbaOffset += 4;\n }\n }\n }\n }\n}\n\nexport const SH_C0 = 0.28209479177387814;\n\ntype FieldParser = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n) => number;\ntype FieldSetter = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n) => void;\n\nconst PARSE_FIELD: Record = {\n char: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt8(offset);\n },\n uchar: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint8(offset);\n },\n short: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt16(offset, littleEndian);\n },\n ushort: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint16(offset, littleEndian);\n },\n int: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt32(offset, littleEndian);\n },\n uint: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint32(offset, littleEndian);\n },\n float: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat32(offset, littleEndian);\n },\n double: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat64(offset, littleEndian);\n },\n};\n\nconst SET_FIELD: Record = {\n char: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt8(offset, value);\n },\n uchar: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint8(offset, value);\n },\n short: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt16(offset, value, littleEndian);\n },\n ushort: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint16(offset, value, littleEndian);\n },\n int: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt32(offset, value, littleEndian);\n },\n uint: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint32(offset, value, littleEndian);\n },\n float: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat32(offset, value, littleEndian);\n },\n double: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat64(offset, value, littleEndian);\n },\n};\n\nconst FIELD_BYTES: Record = {\n char: 1,\n uchar: 1,\n short: 2,\n ushort: 2,\n int: 4,\n uint: 4,\n float: 4,\n double: 8,\n};\n\nconst FIELD_SCALE: Record = {\n char: 127,\n uchar: 255,\n short: 32767,\n ushort: 65535,\n int: 2147483647,\n uint: 4294967295,\n float: 1,\n double: 1,\n};\n\nconst NUM_F_REST_TO_NUM_SH: Record = {\n 0: 0,\n 9: 1,\n 24: 2,\n 45: 3,\n};\nconst NUM_SH_TO_NUM_F_REST: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nconst F_REST_REGEX = /^f_rest_([0-9]{1,2})$/;\n\nfunction createEmptyItem(\n properties: Record,\n): Record {\n const item: Record = {};\n for (const [propertyName, property] of Object.entries(properties)) {\n // Treat f_rest properties as a single array for performance\n if (F_REST_REGEX.test(propertyName)) {\n item.f_rest = new Array(getNumSh(properties));\n } else {\n item[propertyName] = property.isList ? [] : 0;\n }\n }\n return item;\n}\n\nfunction createParseFn(\n properties: Record,\n littleEndian: boolean,\n) {\n if (USE_COMPILED_PARSER_FUNCTION && safeToCompile(properties)) {\n return createCompiledParserFn(properties, littleEndian);\n }\n return createDynamicParserFn(properties, littleEndian);\n}\n\n// Detect if unsafe eval is allowed in the current execution context\nconst UNSAFE_EVAL_ALLOWED = (() => {\n try {\n new Function(\"return 42;\");\n } catch (e) {\n return false;\n }\n return true;\n})();\nconst PROPERTY_NAME_REGEX = /^[a-zA-Z0-9_]+$/;\n\nfunction safeToCompile(properties: Record) {\n if (!UNSAFE_EVAL_ALLOWED) {\n return false;\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!PROPERTY_NAME_REGEX.test(propertyName)) {\n return false;\n }\n\n if (\n property.isList &&\n !PLY_PROPERTY_TYPES.includes(property.countType as PlyPropertyType)\n ) {\n return false;\n }\n\n if (!PLY_PROPERTY_TYPES.includes(property.type)) {\n return false;\n }\n }\n return true;\n}\n\nfunction createCompiledParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct the parser function source.\n const parserSrc: string[] = [\"let list;\"];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parserSrc.push(/*js*/ `\n item.f_rest[${fRestIndex}] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else if (!property.isList) {\n parserSrc.push(/*js*/ `\n item['${propertyName}'] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else {\n // Property is a list, so parse the count first\n parserSrc.push(/*js*/ `\n list = item['${propertyName}'];\n list.length = PARSE_FIELD['${property.countType}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.countType as PlyPropertyType]};\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n }\n `);\n }\n }\n parserSrc.push(\"return offset;\");\n\n const fn = new Function(\n \"data\",\n \"offset\",\n \"item\",\n \"PARSE_FIELD\",\n parserSrc.join(\"\\n\"),\n );\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => fn(data, offset, item, PARSE_FIELD);\n}\n\nfunction createDynamicParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct an array of parser function to parse each property in an item\n const parsers: Array<\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => number\n > = [];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n (item.f_rest as number[])[fRestIndex] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else if (!property.isList) {\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n item[propertyName] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else {\n // Property is a list, so parse the count first\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n const list = item[propertyName] as number[];\n list.length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n littleEndian,\n );\n let currentOffset =\n offset + FIELD_BYTES[property.countType as PlyPropertyType];\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD[property.type](\n data,\n currentOffset,\n littleEndian,\n );\n currentOffset += FIELD_BYTES[property.type];\n }\n return currentOffset;\n },\n );\n }\n }\n\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n let currentOffset = offset;\n for (let parserIndex = 0; parserIndex < parsers.length; parserIndex++) {\n currentOffset = parsers[parserIndex](data, currentOffset, item);\n }\n return currentOffset;\n };\n}\n\nfunction getNumSh(properties: Record) {\n let num_f_rest = 0;\n while (properties[`f_rest_${num_f_rest}`]) {\n num_f_rest += 1;\n }\n const numSh = NUM_F_REST_TO_NUM_SH[num_f_rest];\n if (numSh == null) {\n throw new Error(`Unsupported number of SH coefficients: ${num_f_rest}`);\n }\n return numSh;\n}\n\ntype SSChunk = {\n min_x: number;\n min_y: number;\n min_z: number;\n max_x: number;\n max_y: number;\n max_z: number;\n min_scale_x: number;\n min_scale_y: number;\n min_scale_z: number;\n max_scale_x: number;\n max_scale_y: number;\n max_scale_z: number;\n min_r?: number;\n min_g?: number;\n min_b?: number;\n max_r?: number;\n max_g?: number;\n max_b?: number;\n};\n","import { unzipSync } from \"fflate\";\nimport { FileLoader, Loader, type LoadingManager } from \"three\";\nimport { ExtSplats, type ExtSplatsOptions } from \"./ExtSplats\";\nimport { withWorker } from \"./OldSplatWorker\";\nimport { PackedSplats, type PackedSplatsOptions } from \"./PackedSplats\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport { type SplatEncoding, SplatFileType } from \"./defines\";\nimport { PlyReader } from \"./ply\";\nimport { decompressPartialGzip, getTextureSize } from \"./utils\";\n\n// SplatLoader implements the THREE.Loader interface and supports loading a variety\n// of different Gsplat file formats. Formats .PLY and .SPZ can be auto-detected\n// from the file contents, while .SPLAT and .KSPLAT require either having the\n// appropriate file extension as part of the path, or it can be explicitly set\n// in the loader using the fileType property.\n\nexport class SplatLoader extends Loader {\n fileLoader: FileLoader;\n\n constructor(manager?: LoadingManager) {\n super(manager);\n this.fileLoader = new FileLoader(manager);\n }\n\n load(\n url: string,\n onLoad?: (decoded: PackedSplats | ExtSplats) => void,\n onProgress?: (event: ProgressEvent) => void,\n onError?: (error: unknown) => void,\n ) {\n return this.loadInternal({\n url,\n onLoad,\n onProgress,\n onError,\n });\n }\n\n async loadAsync(\n url: string,\n onProgress?: (event: ProgressEvent) => void,\n ): Promise {\n return new Promise((resolve, reject) => {\n this.load(\n url,\n (decoded) => {\n resolve(decoded);\n },\n onProgress,\n reject,\n );\n });\n }\n\n parse(packedSplats: PackedSplats): SplatMesh {\n return new SplatMesh({ packedSplats });\n }\n\n loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad,\n onProgress,\n onError,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onLoad?: (decoded: PackedSplats | ExtSplats) => void;\n onProgress?: (event: ProgressEvent) => void;\n onError?: (error: unknown) => void;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n if (fileBytes instanceof ArrayBuffer) {\n fileBytes = new Uint8Array(fileBytes);\n }\n const resolvedURL = fileBytes\n ? undefined\n : this.manager.resolveURL((this.path ?? \"\") + (url ?? \"\"));\n\n let readStream = stream?.getReader();\n\n this.manager.itemStart(resolvedURL ?? \"\");\n // let calledOnLoad = false;\n\n workerPool\n .withWorker(async (worker) => {\n // If LoD is set and not falsey\n const splatsLod = packedSplats?.lod ?? extSplats?.lod;\n if (splatsLod) {\n lod = splatsLod;\n }\n const splatsNonLod = packedSplats?.nonLod ?? extSplats?.nonLod;\n if (splatsNonLod !== undefined) {\n nonLod = splatsNonLod;\n }\n\n // let init: {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // } | null = null;\n // let initExt: {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // } | null = null;\n\n const onStatus = async (data: unknown) => {\n const { loaded, total } = data as { loaded: number; total: number };\n if (loaded !== undefined && onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n\n if ((data as { nextChunk?: boolean }).nextChunk) {\n let chunk: Uint8Array;\n if (!readStream) {\n chunk = new Uint8Array(0);\n } else {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n readStream = undefined;\n chunk = new Uint8Array(0);\n } else {\n chunk = value;\n }\n }\n worker.call(\"nextChunk\", { chunk });\n }\n\n // if ((data as { orig?: unknown }).orig) {\n // if (extSplats) {\n // initExt = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // };\n // extSplats.initialize({\n // numSplats: initExt?.numSplats,\n // extArrays: [initExt?.ext0, initExt?.ext1],\n // extra: initExt?.extra,\n // });\n // calledOnLoad = true;\n // onLoad?.(extSplats);\n // } else if (packedSplats) {\n // init = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // };\n // packedSplats.initialize({\n // numSplats: init?.numSplats,\n // packedArray: init?.packedArray,\n // extra: init?.extra,\n // splatEncoding: init?.splatEncoding,\n // });\n // calledOnLoad = true;\n // onLoad?.(packedSplats);\n // } else {\n // console.warn(\"No splats to initialize\");\n // }\n // }\n };\n\n const basedUrl = resolvedURL\n ? new URL(resolvedURL, window.location.href).toString()\n : undefined;\n const decoded = (await worker.call(\n extSplats ? \"loadExtSplats\" : \"loadPackedSplats\",\n {\n url: basedUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n fileBytes: fileBytes?.slice(),\n fileType,\n pathName: resolvedURL || fileName,\n chunked: stream !== undefined,\n chunkedLength: streamLength,\n encoding: packedSplats?.splatEncoding,\n lod,\n lodBase,\n nonLod,\n lodAbove,\n },\n { onStatus },\n )) as {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n lodSplats?:\n | {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n }\n | PackedSplats\n | ExtSplats;\n };\n\n if (decoded.lodSplats) {\n if (extSplats) {\n decoded.lodSplats = new ExtSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record;\n }),\n });\n } else {\n decoded.lodSplats = new PackedSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n packedArray: Uint32Array;\n extra: Record;\n splatEncoding: SplatEncoding;\n }),\n maxSplats: packedSplats?.maxSplats,\n });\n }\n }\n\n if (extSplats) {\n const initExtSplats = {\n // ...(initExt ?? {}),\n ...decoded,\n };\n extSplats.initialize(initExtSplats as ExtSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(extSplats);\n // }\n } else {\n const initSplats = {\n // ...(init ?? {}),\n ...decoded,\n };\n if (packedSplats) {\n packedSplats.initialize(initSplats as PackedSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(packedSplats);\n // }\n } else {\n // if (!calledOnLoad) {\n onLoad?.(new PackedSplats(initSplats as PackedSplatsOptions));\n // }\n }\n }\n })\n .catch((error) => {\n this.manager.itemError(resolvedURL ?? \"\");\n onError?.(error);\n })\n .finally(() => {\n this.manager.itemEnd(resolvedURL ?? \"\");\n });\n }\n\n async loadInternalAsync({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onProgress?: (event: ProgressEvent) => void;\n lod?: boolean;\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n return new Promise((resolve, reject) => {\n this.loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad: resolve,\n onProgress,\n onError: reject,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n });\n });\n }\n}\n\nasync function fetchWithProgress(\n request: Request,\n onProgress?: (event: ProgressEvent) => void,\n) {\n const response = await fetch(request);\n if (!response.ok) {\n throw new Error(\n `${response.status} \"${response.statusText}\" fetching URL: ${request.url}`,\n );\n }\n if (!response.body) {\n throw new Error(`Response body is null for URL: ${request.url}`);\n }\n\n const reader = response.body.getReader();\n let loaded = 0;\n const chunks: Uint8Array[] = [];\n try {\n const contentLength = Number.parseInt(\n response.headers.get(\"Content-Length\") || \"0\",\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n\n while (true) {\n const { done, value } = await reader.read();\n if (done) {\n break;\n }\n chunks.push(value);\n loaded += value.length;\n\n if (onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n }\n } catch (err) {\n try {\n const reason = err instanceof Error ? err.message : \"Unknown error\";\n await reader.cancel(reason);\n } catch {}\n throw err;\n }\n\n // Combine chunks into a single buffer\n const bytes = new Uint8Array(loaded);\n let offset = 0;\n for (const chunk of chunks) {\n bytes.set(chunk, offset);\n offset += chunk.length;\n }\n return bytes.buffer;\n}\n\nexport function getSplatFileType(\n fileBytes: Uint8Array,\n): SplatFileType | undefined {\n const view = new DataView(fileBytes.buffer);\n const magic = view.getUint32(0, true);\n if ((magic & 0x00ffffff) === 0x00796c70) {\n return SplatFileType.PLY;\n }\n if ((magic & 0x00ffffff) === 0x00088b1f) {\n // Gzipped file, unpack beginning to check magic number\n const header = decompressPartialGzip(fileBytes, 4);\n const gView = new DataView(header.buffer);\n if (gView.getUint32(0, true) === 0x5053474e) {\n return SplatFileType.SPZ;\n }\n // Unknown Gzipped file type\n return undefined;\n }\n if (magic === 0x04034b50) {\n // PKZip file\n if (tryPcSogsZip(fileBytes)) {\n return SplatFileType.PCSOGSZIP;\n }\n // Unknown PKZip file type\n return undefined;\n }\n if (magic === 0x30444152) {\n return SplatFileType.RAD;\n }\n // Unknown file type\n return undefined;\n}\n\n// Returns the lowercased file extension from a path or URL\nexport function getFileExtension(pathOrUrl: string): string {\n const noTrailing = pathOrUrl.split(/[?#]/, 1)[0];\n const lastSlash = Math.max(\n noTrailing.lastIndexOf(\"/\"),\n noTrailing.lastIndexOf(\"\\\\\"),\n );\n const filename = noTrailing.slice(lastSlash + 1);\n const lastDot = filename.lastIndexOf(\".\");\n if (lastDot <= 0 || lastDot === filename.length - 1) {\n return \"\"; // No extension\n }\n return filename.slice(lastDot + 1).toLowerCase();\n}\n\nexport function getSplatFileTypeFromPath(\n pathOrUrl: string,\n): SplatFileType | undefined {\n const extension = getFileExtension(pathOrUrl);\n if (extension === \"ply\") {\n return SplatFileType.PLY;\n }\n if (extension === \"spz\") {\n return SplatFileType.SPZ;\n }\n if (extension === \"splat\") {\n return SplatFileType.SPLAT;\n }\n if (extension === \"ksplat\") {\n return SplatFileType.KSPLAT;\n }\n if (extension === \"sog\") {\n return SplatFileType.PCSOGSZIP;\n }\n if (extension === \"rad\") {\n return SplatFileType.RAD;\n }\n return undefined;\n}\n\nexport type PcSogsJson = {\n means: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n quats: { shape: number[]; dtype: string; encoding?: string; files: string[] };\n sh0: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n shN?: {\n shape: number[];\n dtype: string;\n mins: number;\n maxs: number;\n quantization: number;\n files: string[];\n };\n};\n\nexport type PcSogsV2Json = {\n version: 2;\n count: number;\n antialias?: boolean;\n means: {\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n codebook: number[];\n files: string[];\n };\n quats: { files: string[] };\n sh0: {\n codebook: number[];\n files: string[];\n };\n shN?: {\n count: number;\n bands: number;\n codebook: number[];\n files: string[];\n };\n};\n\nexport function isPcSogs(input: ArrayBuffer | Uint8Array | string): boolean {\n // Returns true if the input seems to be a valid PC SOGS file\n return tryPcSogs(input) !== undefined;\n}\n\nexport function tryPcSogs(\n input: ArrayBuffer | Uint8Array | string,\n): PcSogsJson | PcSogsV2Json | undefined {\n // Try to parse input as SOGS JSON and see if it's valid\n try {\n let text: string;\n if (typeof input === \"string\") {\n text = input;\n } else {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n if (fileBytes.length > 65536) {\n // Should be only a few KB, definitely not a SOGS JSON file\n return undefined;\n }\n text = new TextDecoder().decode(fileBytes);\n }\n\n const json = JSON.parse(text);\n if (!json || typeof json !== \"object\" || Array.isArray(json)) {\n return undefined;\n }\n const isVersion2 = json.version === 2;\n\n for (const key of [\"means\", \"scales\", \"quats\", \"sh0\"]) {\n if (\n !json[key] ||\n typeof json[key] !== \"object\" ||\n Array.isArray(json[key])\n ) {\n return undefined;\n }\n if (isVersion2) {\n // Expect files\n if (!json[key].files) {\n return undefined;\n }\n\n // Scales and sh0 should have codebooks\n if ((key === \"scales\" || key === \"sh0\") && !json[key].codebook) {\n return undefined;\n }\n // Means should have mins and maxs defined\n if (key === \"means\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n } else {\n // Expect shape and files\n if (!json[key].shape || !json[key].files) {\n return undefined;\n }\n // Besides 'quats' all other properties have mins and maxs\n if (key !== \"quats\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n }\n }\n // This is probably a PC SOGS file\n return json as PcSogsJson | PcSogsV2Json;\n } catch {\n return undefined;\n }\n}\n\nexport function tryPcSogsZip(\n input: ArrayBuffer | Uint8Array,\n): { name: string; json: PcSogsJson | PcSogsV2Json } | undefined {\n try {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let metaFilename: string | null = null;\n\n const unzipped = unzipSync(fileBytes, {\n filter: ({ name }) => {\n const filename = name.split(/[\\\\/]/).pop() as string;\n if (filename === \"meta.json\") {\n metaFilename = name;\n return true;\n }\n return false;\n },\n });\n if (!metaFilename) {\n return undefined;\n }\n\n // Check for PC SOGS V1 and V2 (aka SOG)\n const json = tryPcSogs(unzipped[metaFilename]);\n if (!json) {\n return undefined;\n }\n return { name: metaFilename, json };\n } catch {\n return undefined;\n }\n}\n\nexport async function unpackSplats({\n input,\n extraFiles,\n fileType,\n pathOrUrl,\n splatEncoding,\n}: {\n input: Uint8Array | ArrayBuffer;\n extraFiles?: Record;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n splatEncoding?: SplatEncoding;\n}): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra?: Record;\n}> {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let splatFileType = fileType;\n if (!fileType) {\n splatFileType = getSplatFileType(fileBytes);\n if (!splatFileType && pathOrUrl) {\n splatFileType = getSplatFileTypeFromPath(pathOrUrl);\n }\n }\n\n switch (splatFileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n const maxSplats = getTextureSize(numSplats).maxSplats;\n const args = {\n fileBytes,\n packedArray: new Uint32Array(maxSplats * 4),\n splatEncoding,\n };\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"unpackPly\",\n args,\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPZ: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeSpz\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats } = (await worker.call(\n \"decodeAntiSplat\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as { packedArray: Uint32Array; numSplats: number };\n return { packedArray, numSplats };\n });\n }\n case SplatFileType.KSPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeKsplat\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGS: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogs\",\n { fileBytes, extraFiles, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGSZIP: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogsZip\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n default: {\n throw new Error(`Unknown splat file type: ${splatFileType}`);\n }\n }\n}\n\nexport class SplatData {\n numSplats: number;\n maxSplats: number;\n centers: Float32Array;\n scales: Float32Array;\n quaternions: Float32Array;\n opacities: Float32Array;\n colors: Float32Array;\n sh1?: Float32Array;\n sh2?: Float32Array;\n sh3?: Float32Array;\n\n constructor({ maxSplats = 1 }: { maxSplats?: number } = {}) {\n this.numSplats = 0;\n this.maxSplats = getTextureSize(maxSplats).maxSplats;\n this.centers = new Float32Array(this.maxSplats * 3);\n this.scales = new Float32Array(this.maxSplats * 3);\n this.quaternions = new Float32Array(this.maxSplats * 4);\n this.opacities = new Float32Array(this.maxSplats);\n this.colors = new Float32Array(this.maxSplats * 3);\n }\n\n pushSplat(): number {\n const index = this.numSplats;\n this.ensureIndex(index);\n this.numSplats += 1;\n return index;\n }\n\n unpushSplat(index: number) {\n if (index === this.numSplats - 1) {\n this.numSplats -= 1;\n } else {\n throw new Error(\"Cannot unpush splat from non-last position\");\n }\n }\n\n ensureCapacity(numSplats: number) {\n if (numSplats > this.maxSplats) {\n const targetSplats = Math.max(numSplats, this.maxSplats * 2);\n const newCenters = new Float32Array(targetSplats * 3);\n const newScales = new Float32Array(targetSplats * 3);\n const newQuaternions = new Float32Array(targetSplats * 4);\n const newOpacities = new Float32Array(targetSplats);\n const newColors = new Float32Array(targetSplats * 3);\n newCenters.set(this.centers);\n newScales.set(this.scales);\n newQuaternions.set(this.quaternions);\n newOpacities.set(this.opacities);\n newColors.set(this.colors);\n this.centers = newCenters;\n this.scales = newScales;\n this.quaternions = newQuaternions;\n this.opacities = newOpacities;\n this.colors = newColors;\n\n if (this.sh1) {\n const newSh1 = new Float32Array(targetSplats * 9);\n newSh1.set(this.sh1);\n this.sh1 = newSh1;\n }\n if (this.sh2) {\n const newSh2 = new Float32Array(targetSplats * 15);\n newSh2.set(this.sh2);\n this.sh2 = newSh2;\n }\n if (this.sh3) {\n const newSh3 = new Float32Array(targetSplats * 21);\n newSh3.set(this.sh3);\n this.sh3 = newSh3;\n }\n\n this.maxSplats = targetSplats;\n }\n }\n\n ensureIndex(index: number) {\n this.ensureCapacity(index + 1);\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n this.centers[index * 3] = x;\n this.centers[index * 3 + 1] = y;\n this.centers[index * 3 + 2] = z;\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n this.scales[index * 3] = scaleX;\n this.scales[index * 3 + 1] = scaleY;\n this.scales[index * 3 + 2] = scaleZ;\n }\n\n setQuaternion(index: number, x: number, y: number, z: number, w: number) {\n this.quaternions[index * 4] = x;\n this.quaternions[index * 4 + 1] = y;\n this.quaternions[index * 4 + 2] = z;\n this.quaternions[index * 4 + 3] = w;\n }\n\n setOpacity(index: number, opacity: number) {\n this.opacities[index] = opacity;\n }\n\n setColor(index: number, r: number, g: number, b: number) {\n this.colors[index * 3] = r;\n this.colors[index * 3 + 1] = g;\n this.colors[index * 3 + 2] = b;\n }\n\n setSh1(index: number, sh1: Float32Array) {\n if (!this.sh1) {\n this.sh1 = new Float32Array(this.maxSplats * 9);\n }\n for (let j = 0; j < 9; ++j) {\n this.sh1[index * 9 + j] = sh1[j];\n }\n }\n\n setSh2(index: number, sh2: Float32Array) {\n if (!this.sh2) {\n this.sh2 = new Float32Array(this.maxSplats * 15);\n }\n for (let j = 0; j < 15; ++j) {\n this.sh2[index * 15 + j] = sh2[j];\n }\n }\n\n setSh3(index: number, sh3: Float32Array) {\n if (!this.sh3) {\n this.sh3 = new Float32Array(this.maxSplats * 21);\n }\n for (let j = 0; j < 21; ++j) {\n this.sh3[index * 21 + j] = sh3[j];\n }\n }\n}\n\nexport async function transcodeSpz(\n input: TranscodeSpzInput,\n): Promise<{ input: TranscodeSpzInput; fileBytes: Uint8Array }> {\n return await withWorker(async (worker) => {\n const result = (await worker.call(\"transcodeSpz\", input)) as {\n input: TranscodeSpzInput;\n fileBytes: Uint8Array;\n };\n return result;\n });\n}\n\nexport type FileInput = {\n fileBytes: Uint8Array;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n transform?: { translate?: number[]; quaternion?: number[]; scale?: number };\n};\n\nexport type TranscodeSpzInput = {\n inputs: FileInput[];\n maxSh?: number;\n clipXyz?: { min: number[]; max: number[] };\n fractionalBits?: number;\n opacityThreshold?: number;\n};\n","import * as THREE from \"three\";\nimport { FullScreenQuad } from \"three/addons/postprocessing/Pass.js\";\n\nimport type { RgbaArray } from \"./RgbaArray\";\nimport type { GsplatGenerator } from \"./SplatGenerator\";\nimport { SplatLoader } from \"./SplatLoader\";\nimport type { SplatSource } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_WIDTH,\n type SplatEncoding,\n type SplatFileType,\n} from \"./defines\";\nimport {\n Dyno,\n DynoInt,\n DynoProgram,\n DynoProgramTemplate,\n type DynoType,\n DynoUniform,\n DynoUsampler2DArray,\n type DynoVal,\n DynoVec3,\n DynoVec4,\n add,\n dynoBlock,\n normalize,\n outputPackedSplat,\n sub,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport {\n type Gsplat,\n TPackedSplats,\n combineGsplat,\n definePackedSplats,\n readPackedSplat,\n splatTexCoord,\n splitGsplat,\n} from \"./dyno/splats\";\nimport { getShaders } from \"./shaders\";\nimport { getTextureSize, setPackedSplat, unpackSplat } from \"./utils\";\n\n// Initialize a PackedSplats collection from source data via\n// url, fileBytes, or packedArray. Creates an empty array if none are set,\n// and splat data can be constructed using pushSplat()/setSplat(). The maximum\n// splat size allocation will grow automatically, starting from maxSplats.\nexport type PackedSplatsOptions = {\n // URL to fetch a Gaussian splat file from (supports .ply, .splat, .ksplat,\n // .spz formats). (default: undefined)\n url?: string;\n // Raw bytes of a Gaussian splat file to decode directly instead of fetching\n // from URL. (default: undefined)\n fileBytes?: Uint8Array | ArrayBuffer;\n // Override the file type detection for formats that can't be reliably\n // auto-detected (.splat, .ksplat). (default: undefined auto-detects other\n // formats from file contents)\n fileType?: SplatFileType;\n // File name to use for type detection. (default: undefined)\n fileName?: string;\n // Stream to read the Gaussian splat file from. (default: undefined)\n stream?: ReadableStream;\n // Length of the stream in bytes. (default: undefined)\n streamLength?: number;\n // Reserve space for at least this many splats when constructing the collection\n // initially. The array will automatically resize past maxSplats so setting it is\n // an optional optimization. (default: 0)\n maxSplats?: number;\n // Use provided packed data array, where each 4 consecutive uint32 values\n // encode one \"packed\" Gsplat. (default: undefined)\n packedArray?: Uint32Array;\n // Override number of splats in packed array to use only a subset.\n // (default: length of packed array / 4)\n numSplats?: number;\n // Callback function to programmatically create splats at initialization.\n // (default: undefined)\n construct?: (splats: PackedSplats) => Promise | void;\n // Callback function called while downloading and initializing (default: undefined)\n onProgress?: (event: ProgressEvent) => void;\n // Additional splat data, such as spherical harmonics components (sh1, sh2, sh3). (default: {})\n extra?: Record;\n // Override the default splat encoding ranges for the PackedSplats.\n // (default: undefined)\n splatEncoding?: SplatEncoding;\n // Enable LOD. If a number is provided, it will be used as LoD level base,\n // otherwise the default 1.5 is used. When loading a file without pre-computed\n // LoD it will use the \"quick lod\" algorithm to generate one on-the-fly with\n // the selected LoD level base. (default: undefined=false)\n lod?: boolean | \"quality\";\n // Keep the original PackedSplats data before creating LoD version. (default: false)\n nonLod?: boolean;\n // Only create LoD if the input splat acount is above this\n lodAbove?: number;\n // The LoD version of the PackedSplats\n lodSplats?: PackedSplats;\n};\n\n// A PackedSplats is a collection of Gaussian splats, packed into a format that\n// takes exactly 16 bytes per Gsplat to maximize memory and cache efficiency.\n// The center xyz coordinates are encoded as float16 (3 x 2 bytes), scale xyz\n// as 3 x uint8 that encode a log scale from e^-12 to e^9, rgba as 4 x uint8,\n// and quaternion encoded via axis+angle using 2 x uint8 for octahedral encoding\n// of the axis direction and a uint8 to encode rotation amount from 0..Pi.\n\nexport class PackedSplats implements SplatSource {\n maxSplats = 0;\n numSplats = 0;\n packedArray: Uint32Array | null = null;\n extra: Record;\n maxSh = 3;\n splatEncoding?: SplatEncoding;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodSplats?: PackedSplats;\n\n initialized: Promise;\n isInitialized = false;\n\n // Either target or source will be non-null, depending on whether the PackedSplats\n // is being used as a data source or generated to.\n target: THREE.WebGLArrayRenderTarget | null = null;\n source: THREE.DataArrayTexture | null = null;\n // Set to true if source packedArray is updated to have it upload to GPU\n needsUpdate = true;\n\n // A PackedSplats can be used in a dyno graph using the below property dyno:\n // const gsplat = dyno.readPackedSplats(this.dyno, dynoIndex);\n dyno: DynoUniform;\n dynoRgbMinMaxLnScaleMinMax: DynoUniform<\"vec4\", \"rgbMinMaxLnScaleMinMax\">;\n dynoNumSh: DynoInt<\"numSh\">;\n dynoShMax: DynoVec3;\n\n constructor(options: PackedSplatsOptions = {}) {\n this.extra = {};\n this.dyno = new DynoPackedSplats({ packedSplats: this });\n this.dynoRgbMinMaxLnScaleMinMax = new DynoVec4({\n key: \"rgbMinMaxLnScaleMinMax\",\n value: new THREE.Vector4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX),\n update: (value) => {\n value.set(\n this.splatEncoding?.rgbMin ?? 0.0,\n this.splatEncoding?.rgbMax ?? 1.0,\n this.splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n this.splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n );\n return value;\n },\n });\n this.dynoNumSh = new DynoInt({\n key: \"numSh\",\n value: 0,\n update: () => {\n return Math.min(this.getNumSh(), this.maxSh);\n },\n });\n this.dynoShMax = new DynoVec3({\n key: \"shMax\",\n value: new THREE.Vector3(),\n update: (value) => {\n value.set(\n this.splatEncoding?.sh1Max ?? 1.0,\n this.splatEncoding?.sh2Max ?? 1.0,\n this.splatEncoding?.sh3Max ?? 1.0,\n );\n return value;\n },\n });\n\n // The following line will be overridden by reinitialize()\n this.initialized = Promise.resolve(this);\n this.reinitialize(options);\n }\n\n reinitialize(options: PackedSplatsOptions) {\n this.isInitialized = false;\n\n this.extra = {};\n this.maxSplats = options.maxSplats ?? 0;\n this.splatEncoding = options.splatEncoding;\n this.lod = options.lod;\n this.nonLod = options.nonLod;\n\n if (\n options.url ||\n options.fileBytes ||\n options.stream ||\n options.construct\n ) {\n // We need to initialize asynchronously given the options\n this.initialized = this.asyncInitialize(options).then(() => {\n this.isInitialized = true;\n return this;\n });\n } else {\n this.initialize(options);\n this.isInitialized = true;\n this.initialized = Promise.resolve(this);\n }\n }\n\n initialize(options: PackedSplatsOptions) {\n this.extra = options.extra ?? {};\n this.splatEncoding = options.splatEncoding ?? this.splatEncoding;\n this.lodSplats = options.lodSplats;\n\n if (options.packedArray) {\n this.packedArray = options.packedArray;\n this.numSplats = options.numSplats ?? this.packedArray.length / 4;\n\n // Calculate number of horizontal texture rows that could fit in array.\n // A properly initialized packedArray should already take into account the\n // width and height of the texture and be rounded up with padding.\n this.maxSplats = Math.floor(this.packedArray.length / 4);\n this.maxSplats =\n Math.floor(this.maxSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n this.numSplats = Math.min(\n this.maxSplats,\n options.numSplats ?? Number.POSITIVE_INFINITY,\n );\n } else {\n this.maxSplats = options.maxSplats ?? 0;\n this.numSplats = 0;\n }\n }\n\n async asyncInitialize(options: PackedSplatsOptions) {\n const {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n construct,\n lod,\n nonLod,\n lodAbove,\n } = options;\n this.lod = lod;\n this.nonLod = nonLod;\n\n const loader = new SplatLoader();\n if (fileBytes || url || stream) {\n await loader.loadInternalAsync({\n packedSplats: this,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress: options.onProgress,\n lodAbove,\n });\n }\n\n if (construct) {\n const maybePromise = construct(this);\n // If construct returns a promise, wait for it to complete\n if (maybePromise instanceof Promise) {\n await maybePromise;\n }\n }\n }\n\n // Call this when you are finished with the PackedSplats and want to free\n // any buffers it holds.\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target.texture.source.data = null;\n this.target = null;\n }\n if (this.source) {\n this.source.dispose();\n this.source.source.data = null;\n this.source = null;\n }\n\n this.packedArray = null;\n\n for (const key in this.extra) {\n const dyno = this.extra[key] as DynoUniform<\n DynoType,\n string,\n THREE.Texture\n >;\n if (dyno instanceof DynoUniform) {\n const texture = dyno.value;\n if (texture?.isTexture) {\n texture.dispose();\n texture.source.data = null;\n }\n }\n }\n this.extra = {};\n\n this.disposeLodSplats();\n }\n\n prepareFetchSplat() {\n // console.info(\"PackedSplats.prepareFetchSplat\");\n }\n\n getNumSplats(): number {\n return this.numSplats;\n }\n\n hasRgbDir(): boolean {\n return Math.min(this.getNumSh(), this.maxSh) > 0;\n }\n\n getNumSh(): number {\n return !this.extra.sh1 ? 0 : !this.extra.sh2 ? 1 : !this.extra.sh3 ? 2 : 3;\n }\n\n setMaxSh(maxSh: number) {\n this.maxSh = maxSh;\n }\n\n fetchSplat({\n index,\n viewOrigin,\n }: { index: DynoVal<\"int\">; viewOrigin?: DynoVal<\"vec3\"> }): DynoVal<\n typeof Gsplat\n > {\n let gsplat = readPackedSplat(this.dyno, index);\n\n if (this.hasRgbDir() && viewOrigin) {\n const splatCenter = splitGsplat(gsplat).outputs.center;\n const viewDir = normalize(sub(splatCenter, viewOrigin));\n const { sh1Texture, sh2Texture, sh3Texture } = this.ensureShTextures();\n let { rgb } = evaluatePackedSH({\n coord: splatTexCoord(index),\n viewDir,\n numSh: this.dynoNumSh,\n sh1Texture,\n sh2Texture,\n sh3Texture,\n shMax: this.dynoShMax,\n });\n rgb = add(rgb, splitGsplat(gsplat).outputs.rgb);\n gsplat = combineGsplat({ gsplat, rgb });\n }\n return gsplat;\n }\n\n private ensureShTextures(): {\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3Texture?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n } {\n // Ensure we have textures for SH1..SH3 if we have data\n if (!this.extra.sh1) {\n return {};\n }\n\n let sh1Texture = this.extra.sh1Texture as\n | DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>\n | undefined;\n if (!sh1Texture) {\n let sh1 = this.extra.sh1 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh1.length / 2,\n );\n if (sh1.length < maxSplats * 2) {\n const newSh1 = new Uint32Array(maxSplats * 2);\n newSh1.set(sh1);\n this.extra.sh1 = newSh1;\n sh1 = newSh1;\n }\n\n const texture = new THREE.DataArrayTexture(sh1, width, height, depth);\n texture.format = THREE.RGIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RG32UI\";\n texture.needsUpdate = true;\n\n sh1Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh1\",\n });\n this.extra.sh1Texture = sh1Texture;\n }\n\n if (!this.extra.sh2) {\n return { sh1Texture };\n }\n\n let sh2Texture = this.extra.sh2Texture as\n | DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>\n | undefined;\n if (!sh2Texture) {\n let sh2 = this.extra.sh2 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh2.length / 4,\n );\n if (sh2.length < maxSplats * 4) {\n const newSh2 = new Uint32Array(maxSplats * 4);\n newSh2.set(sh2);\n this.extra.sh2 = newSh2;\n sh2 = newSh2;\n }\n\n const texture = new THREE.DataArrayTexture(sh2, width, height, depth);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n\n sh2Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh2\",\n });\n this.extra.sh2Texture = sh2Texture;\n }\n\n if (!this.extra.sh3) {\n return { sh1Texture, sh2Texture };\n }\n\n let sh3Texture = this.extra.sh3Texture as\n | DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>\n | undefined;\n if (!sh3Texture) {\n let sh3 = this.extra.sh3 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh3.length / 4,\n );\n if (sh3.length < maxSplats * 4) {\n const newSh3 = new Uint32Array(maxSplats * 4);\n newSh3.set(sh3);\n this.extra.sh3 = newSh3;\n sh3 = newSh3;\n }\n\n const texture = new THREE.DataArrayTexture(sh3, width, height, depth);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n\n sh3Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh3\",\n });\n this.extra.sh3Texture = sh3Texture;\n }\n\n return { sh1Texture, sh2Texture, sh3Texture };\n }\n\n // Ensures that this.packedArray can fit numSplats Gsplats. If it's too small,\n // resize exponentially and copy over the original data.\n //\n // Typically you don't need to call this, because calling this.setSplat(index, ...)\n // and this.pushSplat(...) will automatically call ensureSplats() so we have\n // enough splats.\n ensureSplats(numSplats: number): Uint32Array {\n const targetSize =\n numSplats <= this.maxSplats\n ? this.maxSplats\n : // Grow exponentially to avoid frequent reallocations\n Math.max(numSplats, 2 * this.maxSplats);\n const currentSize = !this.packedArray ? 0 : this.packedArray.length / 4;\n\n if (!this.packedArray || targetSize > currentSize) {\n this.maxSplats = getTextureSize(targetSize).maxSplats;\n const newArray = new Uint32Array(this.maxSplats * 4);\n if (this.packedArray) {\n // Copy over existing data\n newArray.set(this.packedArray);\n }\n this.packedArray = newArray;\n }\n return this.packedArray;\n }\n\n // Ensure the extra array for the given level is large enough to hold numSplats\n ensureSplatsSh(level: number, numSplats: number): Uint32Array {\n let wordsPerSplat: number;\n let key: string;\n if (level === 0) {\n return this.ensureSplats(numSplats);\n }\n if (level === 1) {\n // 3 x 3 uint7 = 63 bits = 2 uint32\n wordsPerSplat = 2;\n key = \"sh1\";\n } else if (level === 2) {\n // 5 x 3 uint8 = 120 bits = 4 uint32\n wordsPerSplat = 4;\n key = \"sh2\";\n } else if (level === 3) {\n // 7 x 3 uint6 = 126 bits = 4 uint32\n wordsPerSplat = 4;\n key = \"sh3\";\n } else {\n throw new Error(`Invalid level: ${level}`);\n }\n\n // Figure out our current and desired maxSplats\n let maxSplats: number = !this.extra[key]\n ? 0\n : (this.extra[key] as Uint32Array).length / wordsPerSplat;\n const targetSize =\n numSplats <= maxSplats ? maxSplats : Math.max(numSplats, 2 * maxSplats);\n\n if (!this.extra[key] || targetSize > maxSplats) {\n // Reallocate the array\n maxSplats = getTextureSize(targetSize).maxSplats;\n const newArray = new Uint32Array(maxSplats * wordsPerSplat);\n if (this.extra[key]) {\n // Copy over existing data\n newArray.set(this.extra[key] as Uint32Array);\n }\n this.extra[key] = newArray;\n }\n return this.extra[key] as Uint32Array;\n }\n\n // Unpack the 16-byte Gsplat data at index into the Three.js components\n // center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion,\n // opacity: number 0..1, color: THREE.Color 0..1.\n getSplat(index: number): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n opacity: number;\n color: THREE.Color;\n } {\n if (!this.packedArray || index >= this.numSplats) {\n throw new Error(\"Invalid index\");\n }\n return unpackSplat(this.packedArray, index, this.splatEncoding);\n }\n\n // Set all PackedSplat components at index with the provided Gsplat attributes\n // (can be the same objects returned by getSplat). Ensures there is capacity\n // for at least index+1 Gsplats.\n setSplat(\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const packedSplats = this.ensureSplats(index + 1);\n setPackedSplat(\n packedSplats,\n index,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n this.numSplats = Math.max(this.numSplats, index + 1);\n }\n\n // Effectively calls this.setSplat(this.numSplats++, center, ...), useful on\n // construction where you just want to iterate and create a collection of Gsplats.\n pushSplat(\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const packedSplats = this.ensureSplats(this.numSplats + 1);\n setPackedSplat(\n packedSplats,\n this.numSplats,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n ++this.numSplats;\n }\n\n // Iterate over Gsplats index 0..=(this.numSplats-1), unpack each Gsplat\n // and invoke the callback function with the Gsplat attributes.\n forEachSplat(\n callback: (\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => void,\n ) {\n if (!this.packedArray || !this.numSplats) {\n return;\n }\n for (let i = 0; i < this.numSplats; ++i) {\n const unpacked = unpackSplat(this.packedArray, i, this.splatEncoding);\n callback(\n i,\n unpacked.center,\n unpacked.scales,\n unpacked.quaternion,\n unpacked.opacity,\n unpacked.color,\n );\n }\n }\n\n // Ensures our PackedSplats.target render target has enough space to generate\n // maxSplats total Gsplats, and reallocate if not large enough.\n ensureGenerate(maxSplats: number): boolean {\n if (this.target && (maxSplats ?? 1) <= this.maxSplats) {\n return false;\n }\n if (this.target) {\n this.target.dispose();\n }\n\n const textureSize = getTextureSize(maxSplats ?? 1);\n const { width, height, depth } = textureSize;\n this.maxSplats = textureSize.maxSplats;\n\n // The packed Gsplats are stored in a 2D array texture of max size\n // 2048 x 2048 x 2048, one RGBA32UI pixel = 4 uint32 = one Gsplat\n this.target = new THREE.WebGLArrayRenderTarget(width, height, depth, {\n depthBuffer: false,\n stencilBuffer: false,\n generateMipmaps: false,\n magFilter: THREE.NearestFilter,\n minFilter: THREE.NearestFilter,\n });\n this.target.texture.format = THREE.RGBAIntegerFormat;\n this.target.texture.type = THREE.UnsignedIntType;\n this.target.texture.internalFormat = \"RGBA32UI\";\n this.target.scissorTest = true;\n return true;\n }\n\n // Given an array of splatCounts (.numSplats for each\n // SplatGenerator/SplatMesh in the scene), compute a\n // \"mapping layout\" in the composite array of generated outputs.\n generateMapping(splatCounts: number[]): {\n maxSplats: number;\n mapping: { base: number; count: number }[];\n } {\n let maxSplats = 0;\n const mapping = splatCounts.map((numSplats) => {\n const base = maxSplats;\n // Generation happens in horizontal row chunks, so round up to full width\n const rounded = Math.ceil(numSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n maxSplats += rounded;\n return { base, count: numSplats };\n });\n return { maxSplats, mapping };\n }\n\n // Returns a THREE.DataArrayTexture representing the PackedSplats content as\n // a Uint32x4 data array texture (2048 x 2048 x depth in size)\n getTexture(): THREE.DataArrayTexture {\n if (this.target) {\n // Return the render target's texture\n return this.target.texture;\n }\n if (this.source || this.packedArray) {\n // Update source texture if needed and return\n const source = this.maybeUpdateSource();\n return source;\n }\n\n return PackedSplats.getEmptyArray;\n }\n\n // Check if source texture needs to be created/updated\n private maybeUpdateSource(): THREE.DataArrayTexture {\n if (!this.packedArray) {\n throw new Error(\"No packed splats\");\n }\n\n if (this.needsUpdate || !this.source) {\n this.needsUpdate = false;\n\n if (this.source) {\n const { width, height, depth } = this.source.image;\n if (this.maxSplats !== width * height * depth) {\n // The existing source texture isn't the right size, so dispose it\n this.source.dispose();\n this.source = null;\n }\n }\n if (!this.source) {\n // Allocate a new source texture of the right size\n const { width, height, depth } = getTextureSize(this.maxSplats);\n this.source = new THREE.DataArrayTexture(\n this.packedArray as Uint32Array,\n width,\n height,\n depth,\n );\n this.source.format = THREE.RGBAIntegerFormat;\n this.source.type = THREE.UnsignedIntType;\n this.source.internalFormat = \"RGBA32UI\";\n this.source.needsUpdate = true;\n } else if (this.packedArray.buffer !== this.source.image.data.buffer) {\n // The source texture is the right size, update the data\n this.source.image.data = new Uint8Array(this.packedArray.buffer);\n }\n // Indicate to Three.js that the source texture needs to be uploaded to the GPU\n this.source.needsUpdate = true;\n }\n return this.source;\n }\n\n static getEmptyArray = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n // Get a program and THREE.RawShaderMaterial for a given GsplatGenerator,\n // generating it if necessary and caching the result.\n prepareProgramMaterial(generator: GsplatGenerator): {\n program: DynoProgram;\n material: THREE.RawShaderMaterial;\n } {\n let program = PackedSplats.generatorProgram.get(generator);\n if (!program) {\n // A Gsplat needs to be turned into a packed uvec4 for the dyno graph\n const graph = dynoBlock(\n { index: \"int\" },\n {},\n ({ index }, _outputs, { roots }) => {\n generator.inputs.index = index;\n const gsplat = generator.outputs.gsplat;\n const output = outputPackedSplat(\n gsplat,\n this.dynoRgbMinMaxLnScaleMinMax,\n );\n roots.push(output);\n return undefined;\n },\n );\n if (!PackedSplats.programTemplate) {\n PackedSplats.programTemplate = new DynoProgramTemplate(\n getShaders().computeUvec4Template,\n );\n }\n // Create a program from the template and graph\n program = new DynoProgram({\n graph,\n inputs: { index: \"_index\" },\n outputs: { output: \"target\" },\n template: PackedSplats.programTemplate,\n });\n Object.assign(program.uniforms, {\n targetLayer: { value: 0 },\n targetBase: { value: 0 },\n targetCount: { value: 0 },\n });\n PackedSplats.generatorProgram.set(generator, program);\n }\n\n // Prepare and update our material we'll use to render the Gsplats\n const material = program.prepareMaterial();\n PackedSplats.fullScreenQuad.material = material;\n return { program, material };\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n // Executes a dyno program specified by generator which is any DynoBlock that\n // maps { index: \"int\" } to { gsplat: Gsplat }. This is called in\n // SparkRenderer.updateInternal() to re-generate Gsplats in the scene for\n // SplatGenerator instances whose version is newer than what was generated\n // for it last time.\n generate({\n generator,\n base,\n count,\n renderer,\n }: {\n generator: GsplatGenerator;\n base: number;\n count: number;\n renderer: THREE.WebGLRenderer;\n }): { nextBase: number } {\n if (!this.target) {\n throw new Error(\"Target must be initialized with ensureSplats\");\n }\n if (base + count > this.maxSplats) {\n throw new Error(\"Base + count exceeds maxSplats\");\n }\n\n const { program, material } = this.prepareProgramMaterial(generator);\n program.update();\n\n const renderState = this.saveRenderState(renderer);\n\n // Generate the Gsplats in \"layer\" chunks, in horizontal row ranges,\n // that cover the total count of Gsplats.\n const nextBase =\n Math.ceil((base + count) / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n material.uniforms.targetBase.value = base;\n material.uniforms.targetCount.value = count;\n\n // Keep generating layers until we've reached the next generation's base\n while (base < nextBase) {\n const layer = Math.floor(base / layerSize);\n material.uniforms.targetLayer.value = layer;\n\n const layerBase = layer * layerSize;\n const layerYStart = Math.floor((base - layerBase) / SPLAT_TEX_WIDTH);\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((nextBase - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n // Render the desired portion of the layer\n this.target.scissor.set(\n 0,\n layerYStart,\n SPLAT_TEX_WIDTH,\n layerYEnd - layerYStart,\n );\n renderer.setRenderTarget(this.target, layer);\n renderer.xr.enabled = false;\n renderer.autoClear = false;\n PackedSplats.fullScreenQuad.render(renderer);\n\n base += SPLAT_TEX_WIDTH * (layerYEnd - layerYStart);\n }\n\n this.resetRenderState(renderer, renderState);\n return { nextBase };\n }\n\n disposeLodSplats() {\n if (this.lodSplats) {\n this.lodSplats.dispose();\n this.lodSplats = undefined;\n }\n }\n\n async createLodSplats({\n rgbaArray,\n quality,\n }: { rgbaArray?: RgbaArray; quality?: boolean } = {}) {\n const lodBase =\n typeof this.lod === \"number\"\n ? Math.max(1.1, Math.min(2.0, this.lod))\n : quality\n ? 1.75\n : 1.5;\n const packedArray = (this.packedArray as Uint32Array).slice();\n const rgba = rgbaArray ? (await rgbaArray.getArray()).slice() : undefined;\n const extra = {\n sh1: this.extra.sh1 ? (this.extra.sh1 as Uint32Array).slice() : undefined,\n sh2: this.extra.sh2 ? (this.extra.sh2 as Uint32Array).slice() : undefined,\n sh3: this.extra.sh3 ? (this.extra.sh3 as Uint32Array).slice() : undefined,\n };\n const decoded = await workerPool.withWorker(async (worker) => {\n return (await worker.call(\n quality ? \"qualityLodPackedSplats\" : \"tinyLodPackedSplats\",\n {\n numSplats: this.numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding: this.splatEncoding ?? DEFAULT_SPLAT_ENCODING,\n },\n )) as {\n numSplats: number;\n packedArray: Uint32Array;\n extra: Record;\n splatEncoding: SplatEncoding;\n };\n });\n\n const lodSplats = new PackedSplats(decoded);\n if (this.lodSplats) {\n this.lodSplats.dispose();\n }\n\n this.lodSplats = lodSplats;\n this.nonLod = true;\n this.lod = quality ? \"quality\" : true;\n }\n\n extractSplats(indices: Uint32Array, pageColoring: boolean) {\n const maxSplats = getTextureSize(indices.length).maxSplats;\n const newSplats = new PackedSplats({ maxSplats });\n for (let i = 0; i < indices.length; i++) {\n const splat = this.getSplat(indices[i]);\n if (pageColoring) {\n let hue = (indices[i] >>> 16) * 0.61803398875;\n hue = hue - Math.floor(hue);\n const r = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 3.0) - 1.0));\n const g = Math.max(0, Math.min(1, Math.abs(hue * 6.0 + 1.0) - 1.0));\n const b = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 1.0) - 1.0));\n splat.color.r *= r;\n splat.color.g *= g;\n splat.color.b *= b;\n }\n newSplats.pushSplat(\n splat.center,\n splat.scales,\n splat.quaternion,\n splat.opacity,\n splat.color,\n );\n }\n return newSplats;\n }\n\n static programTemplate: DynoProgramTemplate | null = null;\n\n // Cache for GsplatGenerator programs\n static generatorProgram = new WeakMap();\n\n // Static full-screen quad for pseudo-compute shader rendering\n static fullScreenQuad = new FullScreenQuad(\n new THREE.RawShaderMaterial({ visible: false }),\n );\n\n static emptyUint32x4 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyUint32x2 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 2);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RG32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n}\n\n// You can use a PackedSplats as a dyno block using the function\n// dyno.readPackedSplats(packedSplats.dyno, dynoIndex) where\n// dynoIndex is of type DynoVal<\"int\">. If you need to be able to change\n// the input PackedSplats dynamically, however, you should create a\n// DynoPackedSplats, whose property packedSplats you can change to any\n// PackedSplats and that will be used in the dyno shader program.\n\nexport const dynoPackedSplats = (packedSplats?: PackedSplats) =>\n new DynoPackedSplats({ packedSplats });\n\nexport class DynoPackedSplats extends DynoUniform<\n typeof TPackedSplats,\n \"packedSplats\",\n {\n textureArray: THREE.DataArrayTexture;\n numSplats: number;\n rgbMinMaxLnScaleMinMax: THREE.Vector4;\n lodOpacity: boolean;\n }\n> {\n packedSplats?: PackedSplats;\n\n constructor({ packedSplats }: { packedSplats?: PackedSplats } = {}) {\n super({\n key: \"packedSplats\",\n type: TPackedSplats,\n globals: () => [definePackedSplats],\n value: {\n textureArray: PackedSplats.getEmptyArray,\n numSplats: 0,\n rgbMinMaxLnScaleMinMax: new THREE.Vector4(\n 0,\n 1,\n LN_SCALE_MIN,\n LN_SCALE_MAX,\n ),\n lodOpacity: false,\n },\n update: (value) => {\n value.textureArray =\n this.packedSplats?.getTexture() ?? PackedSplats.getEmptyArray;\n value.numSplats = this.packedSplats?.numSplats ?? 0;\n value.rgbMinMaxLnScaleMinMax.set(\n this.packedSplats?.splatEncoding?.rgbMin ?? 0,\n this.packedSplats?.splatEncoding?.rgbMax ?? 1,\n this.packedSplats?.splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n this.packedSplats?.splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n );\n value.lodOpacity =\n this.packedSplats?.splatEncoding?.lodOpacity ?? false;\n return value;\n },\n });\n this.packedSplats = packedSplats;\n }\n}\n\nexport const defineEvalPackedSH1 = unindent(`\n vec3 evaluatePackedSH1(uvec2 packed, vec3 viewDir, float sh1Max) {\n // Extract sint7 values packed into 2 x uint32\n vec3 sh1_0 = vec3(ivec3(\n int(packed.x << 25u) >> 25,\n int(packed.x << 18u) >> 25,\n int(packed.x << 11u) >> 25\n ));\n vec3 sh1_1 = vec3(ivec3(\n int(packed.x << 4u) >> 25,\n int((packed.x >> 3u) | (packed.y << 29u)) >> 25,\n int(packed.y << 22u) >> 25\n ));\n vec3 sh1_2 = vec3(ivec3(\n int(packed.y << 15u) >> 25,\n int(packed.y << 8u) >> 25,\n int(packed.y << 1u) >> 25\n ));\n\n vec3 rgb = sh1_0 * (-0.4886025 * viewDir.y)\n + sh1_1 * (0.4886025 * viewDir.z)\n + sh1_2 * (-0.4886025 * viewDir.x);\n return rgb * (sh1Max / 63.0);\n }\n`);\n\nexport const defineEvalPackedSH2 = unindent(`\n vec3 evaluatePackedSH2(uvec4 packed, vec3 viewDir, float sh2Max) {\n // Extract sint8 values packed into 4 x uint32\n vec3 sh2_0 = vec3(ivec3(\n int(packed.x << 24u) >> 24,\n int(packed.x << 16u) >> 24,\n int(packed.x << 8u) >> 24\n ));\n vec3 sh2_1 = vec3(ivec3(\n int(packed.x) >> 24,\n int(packed.y << 24u) >> 24,\n int(packed.y << 16u) >> 24\n ));\n vec3 sh2_2 = vec3(ivec3(\n int(packed.y << 8u) >> 24,\n int(packed.y) >> 24,\n int(packed.z << 24u) >> 24\n ));\n vec3 sh2_3 = vec3(ivec3(\n int(packed.z << 16u) >> 24,\n int(packed.z << 8u) >> 24,\n int(packed.z) >> 24\n ));\n vec3 sh2_4 = vec3(ivec3(\n int(packed.w << 24u) >> 24,\n int(packed.w << 16u) >> 24,\n int(packed.w << 8u) >> 24\n ));\n\n vec3 rgb = sh2_0 * (1.0925484 * viewDir.x * viewDir.y)\n + sh2_1 * (-1.0925484 * viewDir.y * viewDir.z)\n + sh2_2 * (0.3153915 * (2.0 * viewDir.z * viewDir.z - viewDir.x * viewDir.x - viewDir.y * viewDir.y))\n + sh2_3 * (-1.0925484 * viewDir.x * viewDir.z)\n + sh2_4 * (0.5462742 * (viewDir.x * viewDir.x - viewDir.y * viewDir.y));\n return rgb * (sh2Max / 127.0);\n }\n`);\n\nexport const defineEvalPackedSH3 = unindent(`\n vec3 evaluatePackedSH3(uvec4 packed, vec3 viewDir, float sh3Max) {\n // Extract sint6 values packed into 4 x uint32\n vec3 sh3_0 = vec3(ivec3(\n int(packed.x << 26u) >> 26,\n int(packed.x << 20u) >> 26,\n int(packed.x << 14u) >> 26\n ));\n vec3 sh3_1 = vec3(ivec3(\n int(packed.x << 8u) >> 26,\n int(packed.x << 2u) >> 26,\n int((packed.x >> 4u) | (packed.y << 28u)) >> 26\n ));\n vec3 sh3_2 = vec3(ivec3(\n int(packed.y << 22u) >> 26,\n int(packed.y << 16u) >> 26,\n int(packed.y << 10u) >> 26\n ));\n vec3 sh3_3 = vec3(ivec3(\n int(packed.y << 4u) >> 26,\n int((packed.y >> 2u) | (packed.z << 30u)) >> 26,\n int(packed.z << 24u) >> 26\n ));\n vec3 sh3_4 = vec3(ivec3(\n int(packed.z << 18u) >> 26,\n int(packed.z << 12u) >> 26,\n int(packed.z << 6u) >> 26\n ));\n vec3 sh3_5 = vec3(ivec3(\n int(packed.z) >> 26,\n int(packed.w << 26u) >> 26,\n int(packed.w << 20u) >> 26\n ));\n vec3 sh3_6 = vec3(ivec3(\n int(packed.w << 14u) >> 26,\n int(packed.w << 8u) >> 26,\n int(packed.w << 2u) >> 26\n ));\n\n float xx = viewDir.x * viewDir.x;\n float yy = viewDir.y * viewDir.y;\n float zz = viewDir.z * viewDir.z;\n float xy = viewDir.x * viewDir.y;\n float yz = viewDir.y * viewDir.z;\n float zx = viewDir.z * viewDir.x;\n\n vec3 rgb = sh3_0 * (-0.5900436 * viewDir.y * (3.0 * xx - yy))\n + sh3_1 * (2.8906114 * xy * viewDir.z) +\n + sh3_2 * (-0.4570458 * viewDir.y * (4.0 * zz - xx - yy))\n + sh3_3 * (0.3731763 * viewDir.z * (2.0 * zz - 3.0 * xx - 3.0 * yy))\n + sh3_4 * (-0.4570458 * viewDir.x * (4.0 * zz - xx - yy))\n + sh3_5 * (1.4453057 * viewDir.z * (xx - yy))\n + sh3_6 * (-0.5900436 * viewDir.x * (xx - 3.0 * yy));\n return rgb * (sh3Max / 31.0);\n }\n`);\n\nexport function evaluatePackedSH({\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3Texture,\n shMax,\n}: {\n coord: DynoVal<\"ivec3\">;\n viewDir: DynoVal<\"vec3\">;\n numSh: DynoVal<\"int\">;\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3Texture?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n shMax: DynoVal<\"vec3\">;\n}) {\n return new Dyno({\n inTypes: {\n coord: \"ivec3\",\n viewDir: \"vec3\",\n numSh: \"int\",\n sh1Texture: \"usampler2DArray\",\n sh2Texture: \"usampler2DArray\",\n sh3Texture: \"usampler2DArray\",\n shMax: \"vec3\",\n },\n outTypes: { rgb: \"vec3\" },\n inputs: {\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3Texture,\n shMax,\n },\n globals: () => [\n defineEvalPackedSH1,\n defineEvalPackedSH2,\n defineEvalPackedSH3,\n ],\n statements: ({ inputs, outputs }) => {\n const lines = [\"vec3 rgb = vec3(0.0);\"];\n if (inputs.sh1Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 1) {\n vec3 sh1Rgb = evaluatePackedSH1(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0).rg, ${inputs.viewDir}, ${inputs.shMax}.x);\n rgb += sh1Rgb;\n `),\n );\n if (inputs.sh2Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 2) {\n vec3 sh2Rgb = evaluatePackedSH2(texelFetch(${inputs.sh2Texture}, ${inputs.coord}, 0), ${inputs.viewDir}, ${inputs.shMax}.y);\n rgb += sh2Rgb;\n `),\n );\n if (inputs.sh3Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 3) {\n vec3 sh3Rgb = evaluatePackedSH3(texelFetch(${inputs.sh3Texture}, ${inputs.coord}, 0), ${inputs.viewDir}, ${inputs.shMax}.z);\n rgb += sh3Rgb;\n }\n `),\n );\n }\n lines.push(\"}\");\n }\n lines.push(\"}\");\n }\n lines.push(`${outputs.rgb} = rgb;`);\n return lines;\n },\n }).outputs;\n}\n","import * as THREE from \"three\";\n\nimport type { OldSparkRenderer } from \"./OldSparkRenderer\";\nimport type { OldSplatAccumulator } from \"./OldSplatAccumulator\";\nimport { OldSplatGeometry } from \"./OldSplatGeometry\";\nimport { withWorker } from \"./OldSplatWorker\";\nimport { DynoPackedSplats } from \"./PackedSplats\";\nimport { Readback } from \"./Readback\";\nimport {\n type DynoBlock,\n DynoBool,\n DynoFloat,\n type DynoVal,\n DynoVec3,\n Gsplat,\n add,\n combine,\n defineGsplat,\n dyno,\n dynoBlock,\n dynoConst,\n floatBitsToUint,\n mul,\n packHalf2x16,\n readPackedSplat,\n uintToRgba8,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { FreeList, withinCoorientDist } from \"./utils\";\n\nexport type OldSparkViewpointOptions = {\n /**\n * Controls whether to auto-update its sort order whenever the SparkRenderer\n * updates the Gsplats. If you expect to render/display from this viewpoint\n * most frames, set this to true.\n * @default false\n */\n autoUpdate?: boolean;\n /**\n * Set a THREE.Camera for this viewpoint to follow.\n * @default undefined\n */\n camera?: THREE.Camera;\n /**\n * Set an explicit view-to-world transformation matrix for this viewpoint (equivalent\n * to camera.matrixWorld), overrides any camera setting.\n * @default undefined\n */\n viewToWorld?: THREE.Matrix4;\n /**\n * Configure viewpoint with an off-screen render target.\n * @default undefined\n */\n target?: {\n /**\n * Width of the render target in pixels.\n */\n width: number;\n /**\n * Height of the render target in pixels.\n */\n height: number;\n /**\n * If you want to be able to render a scene that depends on this target's\n * output (for example, a recursive viewport), set this to true to enable\n * double buffering.\n * @default false\n */\n doubleBuffer?: boolean;\n /**\n * Super-sampling factor for the render target. Values 1-4 are supported.\n * Note that re-sampling back down to .width x .height is done on the CPU\n * with simple averaging only when calling readTarget().\n * @default 1\n */\n superXY?: number;\n };\n /**\n * Callback function that is called when the render target texture is updated.\n * Receives the texture as a parameter. Use this to update a viewport with\n * the latest viewpoint render each frame.\n * @default undefined\n */\n onTextureUpdated?: (texture: THREE.Texture) => void;\n /**\n * Whether to sort splats radially (geometric distance) from the viewpoint (true)\n * or by Z-depth (false). Most scenes are trained with the Z-depth sort metric\n * and will render more accurately at certain viewpoints. However, radial sorting\n * is more stable under viewpoint rotations.\n * @default true\n */\n sortRadial?: boolean;\n /**\n * Distance threshold for re-sorting splats. If the viewpoint moves more than\n * this distance, splats will be re-sorted.\n * @default 0.01 units\n */\n sortDistance?: number;\n /**\n * View direction dot product threshold for re-sorting splats. For\n * sortRadial: true we use 0.99 while sortRadial: false uses 0.999 because it is\n * more sensitive to view direction.\n * @default 0.99 if sortRadial else 0.999\n */\n sortCoorient?: boolean;\n /**\n * Constant added to Z-depth to bias values into the positive range for\n * sortRadial: false, but also used for culling Gsplats \"well behind\"\n * the viewpoint origin\n * @default 1.0\n */\n depthBias?: number;\n /**\n * Set this to true if rendering a 360 to disable \"behind the viewpoint\"\n * culling during sorting. This is set automatically when rendering 360 envMaps\n * using the SparkRenderer.renderEnvMap() utility function.\n * @default false\n */\n sort360?: boolean;\n /*\n * Set this to true to sort with float32 precision with two-pass sort.\n * @default true\n */\n sort32?: boolean;\n /*\n * Set this to true to enable sort-free stochastic splat rendering.\n * @default false\n */\n stochastic?: boolean;\n};\n\n// A SparkViewpoint is created from and tied to a SparkRenderer, and represents\n// an independent viewpoint of all the scene Gsplats and their sort order. Making\n// these viewpoints explicit allows us to have multiple, simultaneous viewpoint\n// renders, for example for camera preview panes or overhead map views.\n//\n// When creating a SparkRenderer it automatically creates a default viewpoint\n// .defaultView that is used in the normal render loop when drawing to the canvas,\n// and is automatically updated whenever the camera moves. Additional viewpoints\n// can be created and configured separately.\n\nexport class OldSparkViewpoint {\n spark: OldSparkRenderer;\n autoUpdate: boolean;\n camera?: THREE.Camera;\n viewToWorld: THREE.Matrix4;\n lastTime: number | null = null;\n\n target?: THREE.WebGLRenderTarget;\n private back?: THREE.WebGLRenderTarget;\n onTextureUpdated?: (texture: THREE.Texture) => void;\n encodeLinear = false;\n superXY = 1;\n private superPixels?: Uint8Array;\n private pixels?: Uint8Array;\n\n sortRadial: boolean;\n sortDistance?: number;\n sortCoorient?: boolean;\n depthBias?: number;\n sort360?: boolean;\n sort32?: boolean;\n stochastic: boolean;\n\n display: {\n accumulator: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n geometry: OldSplatGeometry;\n } | null = null;\n\n private sorting: { viewToWorld: THREE.Matrix4 } | null = null;\n private pending: {\n accumulator?: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n displayed: boolean;\n } | null = null;\n private sortingCheck = false;\n\n private readback16: Uint16Array = new Uint16Array(0);\n private readback32: Uint32Array = new Uint32Array(0);\n private orderingFreelist: FreeList;\n\n constructor(options: OldSparkViewpointOptions & { spark: OldSparkRenderer }) {\n this.spark = options.spark;\n this.camera = options.camera;\n this.viewToWorld = options.viewToWorld ?? new THREE.Matrix4();\n\n if (options.target) {\n const { width, height, doubleBuffer } = options.target;\n const superXY = Math.max(1, Math.min(4, options.target.superXY ?? 1));\n this.superXY = superXY;\n if (width * superXY > 8192 || height * superXY > 8192) {\n throw new Error(\"Target size too large\");\n }\n\n this.target = new THREE.WebGLRenderTarget(\n width * superXY,\n height * superXY,\n {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n colorSpace: THREE.SRGBColorSpace,\n },\n );\n if (doubleBuffer) {\n this.back = new THREE.WebGLRenderTarget(\n width * superXY,\n height * superXY,\n {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n colorSpace: THREE.SRGBColorSpace,\n },\n );\n }\n this.encodeLinear = true;\n }\n this.onTextureUpdated = options.onTextureUpdated;\n\n this.sortRadial = options.sortRadial ?? true;\n this.sortDistance = options.sortDistance;\n this.sortCoorient = options.sortCoorient;\n this.depthBias = options.depthBias;\n this.sort360 = options.sort360;\n this.sort32 = options.sort32;\n this.stochastic = options.stochastic ?? false;\n\n this.orderingFreelist = new FreeList({\n allocate: (maxSplats) =>\n new Uint32Array(maxSplats) as Uint32Array,\n valid: (ordering, maxSplats) => ordering.length === maxSplats,\n });\n\n this.autoUpdate = false;\n this.setAutoUpdate(options.autoUpdate ?? false);\n }\n\n // Call this when you are done with the SparkViewpoint and want to\n // free up its resources (GPU targets, pixel buffers, etc.)\n dispose() {\n this.setAutoUpdate(false);\n if (this.target) {\n this.target.dispose();\n this.target = undefined;\n }\n if (this.back) {\n this.back.dispose();\n this.back = undefined;\n }\n if (this.display) {\n this.spark.releaseAccumulator(this.display.accumulator);\n this.display.geometry.dispose();\n this.display = null;\n }\n if (this.pending?.accumulator) {\n this.spark.releaseAccumulator(this.pending.accumulator);\n this.pending = null;\n }\n }\n\n // Use this function to change whether this viewpoint will auto-update\n // its sort order whenever the attached SparkRenderer updates the Gsplats.\n // Turn this on or off depending on whether you expect to do renders from\n // this viewpoint most frames.\n setAutoUpdate(autoUpdate: boolean) {\n if (!this.autoUpdate && autoUpdate) {\n this.spark.autoViewpoints.push(this);\n } else if (this.autoUpdate && !autoUpdate) {\n this.spark.autoViewpoints = this.spark.autoViewpoints.filter(\n (v) => v !== this,\n );\n }\n this.autoUpdate = autoUpdate;\n }\n\n // See below async prepareRenderPixels() for explanation of parameters.\n // Awaiting this method updates the Gsplats in the scene and performs a sort of the\n // Gsplats from this viewpoint, preparing it for a subsequent this.renderTarget()\n // call in the same tick.\n async prepare({\n scene,\n camera,\n viewToWorld,\n update,\n forceOrigin,\n }: {\n scene: THREE.Scene;\n camera?: THREE.Camera;\n viewToWorld?: THREE.Matrix4;\n update?: boolean;\n forceOrigin?: boolean;\n }) {\n if (viewToWorld) {\n this.viewToWorld = viewToWorld;\n } else {\n this.camera = camera ?? this.camera;\n if (this.camera) {\n this.camera.updateMatrixWorld();\n this.viewToWorld = this.camera.matrixWorld.clone();\n }\n }\n while (update ?? true) {\n // Force an update, possibly with origin centered at this camera\n // to yield the best quality output.\n const originToWorld = forceOrigin\n ? this.viewToWorld\n : this.spark.matrixWorld;\n const updated = this.spark.updateInternal({ scene, originToWorld });\n if (updated) {\n break;\n }\n // A bit of a hack, but try again. We shouldn't be starved for long.\n await new Promise((resolve) => setTimeout(resolve, 10));\n }\n\n const accumulator = this.spark.active;\n // Hold reference to accumulator while sorting\n accumulator.refCount += 1;\n await this.sortUpdate({ accumulator, viewToWorld: this.viewToWorld });\n // Release accumulator reference\n this.spark.releaseAccumulator(accumulator);\n }\n\n // Render out the viewpoint to the view target RGBA buffer.\n // Swaps buffers if doubleBuffer: true was set.\n // Calls onTextureUpdated(texture) with the resulting texture.\n renderTarget({\n scene,\n camera,\n }: { scene: THREE.Scene; camera?: THREE.Camera }) {\n const target = this.back ?? this.target;\n if (!target) {\n throw new Error(\"Must initialize SparkViewpoint with target\");\n }\n\n camera = camera ?? this.camera;\n if (!camera) {\n throw new Error(\"Must provide camera\");\n }\n if (camera instanceof THREE.PerspectiveCamera) {\n const newCam = new THREE.PerspectiveCamera().copy(camera, false);\n newCam.aspect = target.width / target.height;\n newCam.updateProjectionMatrix();\n camera = newCam;\n }\n this.viewToWorld = camera.matrixWorld.clone();\n\n const previousTarget = this.spark.renderer.getRenderTarget();\n try {\n this.spark.renderer.setRenderTarget(target);\n this.spark.prepareViewpoint(this);\n\n this.spark.renderer.render(scene, camera);\n } finally {\n this.spark.prepareViewpoint(this.spark.defaultView);\n this.spark.renderer.setRenderTarget(previousTarget);\n }\n\n if (target !== this.target) {\n // Swap back buffer and target\n [this.target, this.back] = [this.back, this.target];\n }\n this.onTextureUpdated?.(target.texture);\n }\n\n // Read back the previously rendered target image as a Uint8Array of packed\n // RGBA values (in that order). If superXY was set greater than 1 then\n // downsampling is performed in the target pixel array with simple averaging\n // to derive the returned pixel values. Subsequent calls to this.readTarget()\n // will reuse the same buffers to minimize memory allocations.\n async readTarget(): Promise {\n if (!this.target) {\n throw new Error(\"Must initialize SparkViewpoint with target\");\n }\n const { width, height } = this.target;\n const byteSize = width * height * 4;\n if (!this.superPixels || this.superPixels.length < byteSize) {\n this.superPixels = new Uint8Array(byteSize);\n }\n await this.spark.renderer.readRenderTargetPixelsAsync(\n this.target,\n 0,\n 0,\n width,\n height,\n this.superPixels,\n );\n\n const { superXY } = this;\n if (superXY === 1) {\n return this.superPixels;\n }\n\n const subWidth = width / superXY;\n const subHeight = height / superXY;\n const subSize = subWidth * subHeight * 4;\n if (!this.pixels || this.pixels.length < subSize) {\n this.pixels = new Uint8Array(subSize);\n }\n\n const { superPixels, pixels } = this;\n const super2 = superXY * superXY;\n for (let y = 0; y < subHeight; y++) {\n const row = y * subWidth;\n for (let x = 0; x < subWidth; x++) {\n const superCol = x * superXY;\n let r = 0;\n let g = 0;\n let b = 0;\n let a = 0;\n for (let sy = 0; sy < superXY; sy++) {\n const superRow = (y * superXY + sy) * this.target.width;\n for (let sx = 0; sx < superXY; sx++) {\n const superIndex = (superRow + superCol + sx) * 4;\n r += superPixels[superIndex];\n g += superPixels[superIndex + 1];\n b += superPixels[superIndex + 2];\n a += superPixels[superIndex + 3];\n }\n }\n const pixelIndex = (row + x) * 4;\n pixels[pixelIndex] = r / super2;\n pixels[pixelIndex + 1] = g / super2;\n pixels[pixelIndex + 2] = b / super2;\n pixels[pixelIndex + 3] = a / super2;\n }\n }\n return pixels;\n }\n\n // Render out a viewpoint as a Uint8Array of RGBA values for the provided scene\n // and any camera/viewToWorld viewpoint overrides. By default update is true,\n // which triggers its SparkRenderer to check and potentially update the Gsplats.\n // Setting update to false disables this and sorts the Gsplats as they are.\n // Setting forceOrigin (default: false) to true forces the view update to\n // recalculate the splats with this view origin, potentially altering any\n // view-dependent effects. If you expect view-dependent effects to play a role\n // in the rendering quality, enable this.\n //\n // Underneath, prepareRenderPixels() simply calls await this.prepare(...),\n // this.renderTarget(...), and finally returns the result this.readTarget(),\n // a Promise to a Uint8Array with RGBA values for all the pixels (potentially\n // downsampled if the superXY parameter was used). These steps can also be called\n // manually, for example if you need to alter the scene before and after\n // this.renderTarget(...) to hide UI elements from being rendered.\n async prepareRenderPixels({\n scene,\n camera,\n viewToWorld,\n update,\n forceOrigin,\n }: {\n scene: THREE.Scene;\n camera?: THREE.Camera;\n viewToWorld?: THREE.Matrix4;\n update?: boolean;\n forceOrigin?: boolean;\n }) {\n await this.prepare({ scene, camera, viewToWorld, update, forceOrigin });\n this.renderTarget({ scene, camera });\n return this.readTarget();\n }\n\n // This is called automatically by SparkRenderer, there is no need to call it!\n // The method cannot be private because then SparkRenderer would\n // not be able to call it.\n autoPoll({ accumulator }: { accumulator?: OldSplatAccumulator }) {\n if (this.camera) {\n this.camera.updateMatrixWorld();\n this.viewToWorld = this.camera.matrixWorld.clone();\n }\n\n let needsSort = false;\n let displayed = false;\n\n if (!this.display) {\n // Need to do first sort\n needsSort = true;\n } else if (accumulator) {\n needsSort = true;\n const { mappingVersion } = this.display.accumulator;\n if (accumulator.mappingVersion === mappingVersion) {\n // Splat mapping has not changed, so reuse the existing sorted\n // geometry to show updates faster. We will still fire off\n // a re-sort if necessary. First release old accumulator.\n accumulator.refCount += 1;\n this.spark.releaseAccumulator(this.display.accumulator);\n this.display.accumulator = accumulator;\n this.display.viewToWorld.copy(this.viewToWorld);\n displayed = true;\n\n if (this.spark.viewpoint === this) {\n this.spark.prepareViewpoint(this);\n }\n }\n }\n\n const latestView = this.sorting?.viewToWorld ?? this.display?.viewToWorld;\n if (\n latestView &&\n !withinCoorientDist({\n matrix1: this.viewToWorld,\n matrix2: latestView,\n // By default update sort each 1 cm\n maxDistance: this.sortDistance ?? 0.01,\n // By default for radial sort, update for intermittent movement so that\n // we bring back splats culled by being behind the camera.\n // For depth sort, small rotations can change sort order a lot, so\n // update sort for even small rotations.\n minCoorient: (this.sortCoorient ?? this.sortRadial) ? 0.99 : 0.999,\n })\n ) {\n needsSort = true;\n }\n\n if (!needsSort) {\n // Stop here, no sort necessary\n return;\n }\n\n if (accumulator) {\n // Hold a reference to the accumulator for sorting\n accumulator.refCount += 1;\n }\n\n if (this.pending?.accumulator) {\n this.spark.releaseAccumulator(this.pending.accumulator);\n }\n this.pending = { accumulator, viewToWorld: this.viewToWorld, displayed };\n\n // Don't await this, just trigger the sort if necessary\n this.driveSort();\n }\n\n private async driveSort() {\n while (true) {\n if (this.sorting || !this.pending) {\n return; // Sort already in process or nothing to sort\n }\n\n const { viewToWorld, displayed } = this.pending;\n let accumulator = this.pending.accumulator;\n if (!accumulator) {\n // Hold a reference to the accumulator while sorting\n accumulator = this.display?.accumulator ?? this.spark.active;\n accumulator.refCount += 1;\n }\n this.pending = null;\n if (!accumulator) {\n throw new Error(\"No accumulator to sort\");\n }\n\n this.sorting = { viewToWorld };\n await this.sortUpdate({ accumulator, viewToWorld, displayed });\n this.sorting = null;\n\n // Release the reference to the accumulator\n this.spark.releaseAccumulator(accumulator);\n\n // Continue in loop with any queued sort\n }\n }\n\n private async sortUpdate({\n accumulator,\n viewToWorld,\n displayed = false,\n }: {\n accumulator?: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n displayed?: boolean;\n }) {\n if (this.sortingCheck) {\n throw new Error(\"Only one sort at a time\");\n }\n this.sortingCheck = true;\n\n accumulator = accumulator ?? this.spark.active;\n const { numSplats, maxSplats } = accumulator.splats;\n let activeSplats = 0;\n let ordering = this.orderingFreelist.alloc(maxSplats);\n\n if (this.stochastic) {\n activeSplats = numSplats;\n // Render all splats in order since the Z-buffer\n // will handle ordering.\n for (let i = 0; i < numSplats; ++i) {\n ordering[i] = i;\n }\n } else if (numSplats > 0) {\n const {\n reader,\n doubleSortReader,\n sort32Reader,\n dynoSortRadial,\n dynoOrigin,\n dynoDirection,\n dynoDepthBias,\n dynoSort360,\n dynoSplats,\n } = OldSparkViewpoint.makeSorter();\n const sort32 = this.sort32 ?? false;\n let readback: Uint16Array | Uint32Array;\n if (sort32) {\n this.readback32 = reader.ensureBuffer(maxSplats, this.readback32);\n readback = this.readback32;\n } else {\n const halfMaxSplats = Math.ceil(maxSplats / 2);\n this.readback16 = reader.ensureBuffer(halfMaxSplats, this.readback16);\n readback = this.readback16;\n }\n\n const worldToOrigin = accumulator.toWorld.clone().invert();\n const viewToOrigin = viewToWorld.clone().premultiply(worldToOrigin);\n\n dynoSortRadial.value = this.sort360 ? true : this.sortRadial;\n dynoOrigin.value.set(0, 0, 0).applyMatrix4(viewToOrigin);\n dynoDirection.value\n .set(0, 0, -1)\n .applyMatrix4(viewToOrigin)\n .sub(dynoOrigin.value)\n .normalize();\n dynoDepthBias.value = this.depthBias ?? 1.0;\n dynoSort360.value = this.sort360 ?? false;\n dynoSplats.packedSplats = accumulator.splats;\n\n const sortReader = sort32 ? sort32Reader : doubleSortReader;\n const count = sort32 ? numSplats : Math.ceil(numSplats / 2);\n await reader.renderReadback({\n renderer: this.spark.renderer,\n reader: sortReader,\n count,\n readback,\n });\n\n const result = (await withWorker(async (worker) => {\n const rpcName = sort32 ? \"sort32Splats\" : \"sortDoubleSplats\";\n return worker.call(rpcName, {\n maxSplats,\n numSplats,\n readback,\n ordering,\n });\n })) as {\n readback: Uint16Array | Uint32Array;\n ordering: Uint32Array;\n activeSplats: number;\n };\n if (sort32) {\n this.readback32 = result.readback as Uint32Array;\n } else {\n this.readback16 = result.readback as Uint16Array;\n }\n ordering = result.ordering;\n activeSplats = result.activeSplats;\n }\n\n this.updateDisplay({\n accumulator,\n viewToWorld,\n ordering,\n activeSplats,\n displayed,\n });\n this.sortingCheck = false;\n }\n\n private updateDisplay({\n accumulator,\n viewToWorld,\n ordering,\n activeSplats,\n displayed = false,\n }: {\n accumulator: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n ordering: Uint32Array;\n activeSplats: number;\n displayed?: boolean;\n }) {\n if (!this.display) {\n // Hold a reference to the accumulator while part of display\n accumulator.refCount += 1;\n this.display = {\n accumulator,\n viewToWorld,\n geometry: new OldSplatGeometry(ordering, activeSplats),\n };\n } else {\n if (!displayed && accumulator !== this.display.accumulator) {\n // Hold a reference to the new accumulator being displayed\n accumulator.refCount += 1;\n // Release the reference to the previously displayed accumulator\n this.spark.releaseAccumulator(this.display.accumulator);\n this.display.accumulator = accumulator;\n }\n\n this.display.viewToWorld = viewToWorld;\n\n const oldOrdering = this.display.geometry.ordering;\n if (oldOrdering.length === ordering.length) {\n this.display.geometry.update(ordering, activeSplats);\n } else {\n this.display.geometry.dispose();\n // console.log(\"*** alloc SplatGeometry\", ordering.length);\n this.display.geometry = new OldSplatGeometry(ordering, activeSplats);\n }\n this.orderingFreelist.free(oldOrdering);\n }\n if (this.spark.viewpoint === this) {\n this.spark.prepareViewpoint(this);\n }\n }\n\n // If you need an empty THREE.Texture to use to initialize a uniform that is\n // updated via onTextureUpdated(texture), this static texture can be handy.\n static EMPTY_TEXTURE = new THREE.Texture();\n\n private static dynos: {\n dynoSortRadial: DynoBool;\n dynoOrigin: DynoVec3;\n dynoDirection: DynoVec3;\n dynoDepthBias: DynoFloat;\n dynoSort360: DynoBool;\n dynoSplats: DynoPackedSplats;\n reader: Readback;\n doubleSortReader: DynoBlock<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n sort32Reader: DynoBlock<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n } | null = null;\n\n private static makeSorter() {\n if (!OldSparkViewpoint.dynos) {\n const dynoSortRadial = new DynoBool({ value: true });\n const dynoOrigin = new DynoVec3({ value: new THREE.Vector3() });\n const dynoDirection = new DynoVec3({ value: new THREE.Vector3() });\n const dynoDepthBias = new DynoFloat({ value: 1.0 });\n const dynoSort360 = new DynoBool({ value: false });\n const dynoSplats = new DynoPackedSplats();\n\n const reader = new Readback();\n const doubleSortReader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n if (!index) {\n throw new Error(\"No index\");\n }\n const sortParams = {\n sortRadial: dynoSortRadial,\n sortOrigin: dynoOrigin,\n sortDirection: dynoDirection,\n sortDepthBias: dynoDepthBias,\n sort360: dynoSort360,\n };\n const index2 = mul(index, dynoConst(\"int\", 2));\n\n const gsplat0 = readPackedSplat(dynoSplats, index2);\n const metric0 = computeSortMetric({ gsplat: gsplat0, ...sortParams });\n\n const gsplat1 = readPackedSplat(\n dynoSplats,\n add(index2, dynoConst(\"int\", 1)),\n );\n const metric1 = computeSortMetric({ gsplat: gsplat1, ...sortParams });\n\n const combined = combine({\n vectorType: \"vec2\",\n x: metric0,\n y: metric1,\n });\n const rgba8 = uintToRgba8(packHalf2x16(combined));\n return { rgba8 };\n },\n );\n\n const sort32Reader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n if (!index) {\n throw new Error(\"No index\");\n }\n const sortParams = {\n sortRadial: dynoSortRadial,\n sortOrigin: dynoOrigin,\n sortDirection: dynoDirection,\n sortDepthBias: dynoDepthBias,\n sort360: dynoSort360,\n };\n\n const gsplat = readPackedSplat(dynoSplats, index);\n const metric = computeSortMetric({ gsplat, ...sortParams });\n const rgba8 = uintToRgba8(floatBitsToUint(metric));\n return { rgba8 };\n },\n );\n\n OldSparkViewpoint.dynos = {\n dynoSortRadial,\n dynoOrigin,\n dynoDirection,\n dynoDepthBias,\n dynoSort360,\n dynoSplats,\n reader,\n doubleSortReader,\n sort32Reader,\n };\n }\n return OldSparkViewpoint.dynos;\n }\n}\n\nconst defineComputeSortMetric = unindent(`\n float computeSort(Gsplat gsplat, bool sortRadial, vec3 sortOrigin, vec3 sortDirection, float sortDepthBias, bool sort360) {\n if (!isGsplatActive(gsplat.flags)) {\n return INFINITY;\n }\n\n vec3 center = gsplat.center - sortOrigin;\n float biasedDepth = dot(center, sortDirection) + sortDepthBias;\n if (!sort360 && (biasedDepth <= 0.0)) {\n return INFINITY;\n }\n\n return sortRadial ? length(center) : biasedDepth;\n }\n`);\n\nfunction computeSortMetric({\n gsplat,\n sortRadial,\n sortOrigin,\n sortDirection,\n sortDepthBias,\n sort360,\n}: {\n gsplat: DynoVal;\n sortRadial: DynoVal<\"bool\">;\n sortOrigin: DynoVal<\"vec3\">;\n sortDirection: DynoVal<\"vec3\">;\n sortDepthBias: DynoVal<\"float\">;\n sort360: DynoVal<\"bool\">;\n}) {\n return dyno({\n inTypes: {\n gsplat: Gsplat,\n sortRadial: \"bool\",\n sortOrigin: \"vec3\",\n sortDirection: \"vec3\",\n sortDepthBias: \"float\",\n sort360: \"bool\",\n },\n outTypes: { metric: \"float\" },\n globals: () => [defineGsplat, defineComputeSortMetric],\n inputs: {\n gsplat,\n sortRadial,\n sortOrigin,\n sortDirection,\n sortDepthBias,\n sort360,\n },\n statements: ({ inputs, outputs }) => {\n const {\n gsplat,\n sortRadial,\n sortOrigin,\n sortDirection,\n sortDepthBias,\n sort360,\n } = inputs;\n return unindentLines(`\n ${outputs.metric} = computeSort(${gsplat}, ${sortRadial}, ${sortOrigin}, ${sortDirection}, ${sortDepthBias}, ${sort360});\n `);\n },\n }).outputs.metric;\n}\n","import * as THREE from \"three\";\n\nimport { PackedSplats } from \"./PackedSplats\";\nimport type { GeneratorMapping } from \"./SplatAccumulator\";\nimport type { SplatGenerator, SplatModifier } from \"./SplatGenerator\";\n\n// SplatAccumulator helps manage the generation of splats from multiple\n// SplatGenerators, keeping track of the splat mapping, coordinate system,\n// and reference count.\n\nexport class OldSplatAccumulator {\n splats = new PackedSplats();\n // The transform from Accumulator coordinate system to world coordinates.\n toWorld = new THREE.Matrix4();\n // An array of all Gsplat mappings that were used for generation\n mapping: GeneratorMapping[] = [];\n // Number of SparkViewpoints (or other) that reference this accumulator, used\n // to figure out when it can be recycled for use\n refCount = 0;\n\n // Incremented every time the splats are updated/generated.\n splatsVersion = -1;\n // Incremented every time the splat mapping/layout is updated.\n // Splat sort order can be reused between equivalent mapping versions.\n mappingVersion = -1;\n\n ensureGenerate(maxSplats: number) {\n if (this.splats.ensureGenerate(maxSplats)) {\n // If we had to resize our PackedSplats then clear all previous mappings\n this.mapping = [];\n }\n }\n\n // Generate all Gsplats from an array of generators\n generateSplats({\n renderer,\n modifier,\n generators,\n forceUpdate,\n originToWorld,\n }: {\n renderer: THREE.WebGLRenderer;\n modifier: SplatModifier;\n generators: GeneratorMapping[];\n forceUpdate?: boolean;\n originToWorld: THREE.Matrix4;\n }) {\n // Create a lookup from last SplatGenerator\n const mapping = this.mapping.reduce((map, record) => {\n map.set(record.node, record);\n return map;\n }, new Map());\n\n // Run generators that are different from existing mapping\n let updated = 0;\n let numSplats = 0;\n for (const { node, generator, version, base, count } of generators) {\n const current = mapping.get(node);\n if (\n forceUpdate ||\n generator !== current?.generator ||\n version !== current?.version ||\n base !== current?.base ||\n count !== current?.count\n ) {\n // Something is different from before so we should generate these Gsplats\n if (generator && count > 0) {\n const modGenerator = modifier.apply(generator);\n try {\n this.splats.generate({\n generator: modGenerator,\n base,\n count,\n renderer,\n });\n } catch (error) {\n node.generator = undefined;\n node.generatorError = error;\n }\n updated += 1;\n }\n }\n numSplats = Math.max(numSplats, base + count);\n }\n\n this.splats.numSplats = numSplats;\n this.toWorld.copy(originToWorld);\n this.mapping = generators;\n return updated !== 0;\n }\n\n // Check if this accumulator has exactly the same generator mapping as\n // the previous one. If so, we can reuse the Gsplat sort order.\n hasCorrespondence(other: OldSplatAccumulator) {\n if (this.mapping.length !== other.mapping.length) {\n return false;\n }\n return this.mapping.every(({ node, base, count }, i) => {\n const {\n node: otherNode,\n base: otherBase,\n count: otherCount,\n } = other.mapping[i];\n return node === otherNode && base === otherBase && count === otherCount;\n });\n }\n}\n","import * as THREE from \"three\";\n\nimport {\n OldSparkViewpoint,\n type OldSparkViewpointOptions,\n} from \"./OldSparkViewpoint\";\nimport { OldSplatAccumulator } from \"./OldSplatAccumulator\";\nimport { OldSplatGeometry } from \"./OldSplatGeometry\";\nimport { PackedSplats } from \"./PackedSplats\";\nimport { RgbaArray } from \"./RgbaArray\";\nimport type { GeneratorMapping } from \"./SplatAccumulator\";\nimport { SplatEdit } from \"./SplatEdit\";\nimport { SplatGenerator, SplatModifier } from \"./SplatGenerator\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n type SplatEncoding,\n} from \"./defines\";\nimport {\n DynoVec3,\n DynoVec4,\n Gsplat,\n TPackedSplats,\n dynoBlock,\n readPackedSplat,\n transformGsplat,\n} from \"./dyno\";\nimport { getShaders } from \"./shaders\";\nimport {\n averagePositions,\n averageQuaternions,\n cloneClock,\n withinCoorientDist,\n} from \"./utils\";\n\n// SparkRenderer aggregates splats from multiple generators into a single\n// accumulated collection per frame. In normal operation we only need a\n// maximum of 3 accumulators: One currently being viewed, one currently\n// being sorted, and one more for generating the next frame. Accumulators\n// must be \"released\" by each viewpoint using it, so in unusual cases\n// such as slow render-outs, we may want to allow more than 3 so the\n// pipeline can continue generating new frames, but we limit to a maximum\n// of 5 to avoid excessive memory usage.\nconst MAX_ACCUMULATORS = 5;\n\nexport type OldSparkRendererOptions = {\n /**\n * Pass in your THREE.WebGLRenderer instance so Spark can perform work\n * outside the usual render loop. Should be created with antialias: false\n * (default setting) as WebGL anti-aliasing doesn't improve Gaussian Splatting\n * rendering and significantly reduces performance.\n */\n renderer: THREE.WebGLRenderer;\n /**\n * Whether to use premultiplied alpha when accumulating splat RGB\n * @default true\n */\n premultipliedAlpha?: boolean;\n /**\n * Pass in a THREE.Clock to synchronize time-based effects across different\n * systems. Alternatively, you can set the SparkRenderer properties time and\n * deltaTime directly. (default: new THREE.Clock)\n */\n clock?: THREE.Clock;\n /**\n * Controls whether to check and automatically update Gsplat collection after\n * each frame render.\n * @default true\n */\n autoUpdate?: boolean;\n /**\n * Controls whether to update the Gsplats before or after rendering. For WebXR\n * this must be false in order to complete rendering as soon as possible.\n * @default false\n */\n preUpdate?: boolean;\n /**\n * Distance threshold for SparkRenderer movement triggering a Gsplat update at\n * the new origin.\n * @default 1.0\n */\n originDistance?: number;\n /**\n * Maximum standard deviations from the center to render Gaussians. Values\n * Math.sqrt(5)..Math.sqrt(8) produce good results and can be tweaked for\n * performance.\n * @default Math.sqrt(8)\n */\n maxStdDev?: number;\n /**\n * Minimum pixel radius for splat rendering.\n * @default 0.0\n */\n minPixelRadius?: number;\n /**\n * Maximum pixel radius for splat rendering.\n * @default 512.0\n */\n maxPixelRadius?: number;\n /**\n * Minimum alpha value for splat rendering.\n * @default 0.5 * (1.0 / 255.0)\n */\n minAlpha?: number;\n /**\n * Enable 2D Gaussian splatting rendering ability. When this mode is enabled,\n * any scale x/y/z component that is exactly 0 (minimum quantized value) results\n * in the other two non-0 axis being interpreted as an oriented 2D Gaussian Splat,\n * rather instead of the usual projected 3DGS Z-slice. When reading PLY files,\n * scale values less than e^-30 will be interpreted as 0.\n * @default false\n */\n enable2DGS?: boolean;\n /**\n * Scalar value to add to 2D splat covariance diagonal, effectively blurring +\n * enlarging splats. In scenes trained without the Gsplat anti-aliasing tweak\n * this value was typically 0.3, but with anti-aliasing it is 0.0\n * @default 0.0\n */\n preBlurAmount?: number;\n /**\n * Scalar value to add to 2D splat covarianve diagonal, with opacity adjustment\n * to correctly account for \"blurring\" when anti-aliasing. Typically 0.3\n * (equivalent to approx 0.5 pixel radius) in scenes trained with anti-aliasing.\n */\n blurAmount?: number;\n /**\n * Depth-of-field distance to focal plane\n */\n focalDistance?: number;\n /**\n * Full-width angle of aperture opening (in radians), 0.0 to disable\n * @default 0.0\n */\n apertureAngle?: number;\n /**\n * Modulate Gaussian kernel falloff. 0 means \"no falloff, flat shading\",\n * while 1 is the normal Gaussian kernel.\n * @default 1.0\n */\n falloff?: number;\n /**\n * X/Y clipping boundary factor for Gsplat centers against view frustum.\n * 1.0 clips any centers that are exactly out of bounds, while 1.4 clips\n * centers that are 40% beyond the bounds.\n * @default 1.4\n */\n clipXY?: number;\n /**\n * Parameter to adjust projected splat scale calculation to match other renderers,\n * similar to the same parameter in the MKellogg 3DGS renderer. Higher values will\n * tend to sharpen the splats. A value 2.0 can be used to match the behavior of\n * the PlayCanvas renderer.\n * @default 1.0\n */\n focalAdjustment?: number;\n /**\n * Configures the SparkViewpointOptions for the default SparkViewpoint\n * associated with this SparkRenderer. Notable option: sortRadial (sort by\n * radial distance or Z-depth)\n */\n view?: OldSparkViewpointOptions;\n /**\n * Override the default splat encoding ranges for the PackedSplats.\n * (default: undefined)\n */\n splatEncoding?: SplatEncoding;\n};\n\nexport class OldSparkRenderer extends THREE.Mesh {\n renderer: THREE.WebGLRenderer;\n premultipliedAlpha: boolean;\n material: THREE.ShaderMaterial;\n uniforms: ReturnType;\n\n autoUpdate: boolean;\n preUpdate: boolean;\n needsUpdate: boolean;\n originDistance: number;\n maxStdDev: number;\n minPixelRadius: number;\n maxPixelRadius: number;\n minAlpha: number;\n enable2DGS: boolean;\n preBlurAmount: number;\n blurAmount: number;\n focalDistance: number;\n apertureAngle: number;\n falloff: number;\n clipXY: number;\n focalAdjustment: number;\n splatEncoding: SplatEncoding;\n\n splatTexture: null | {\n enable?: boolean;\n texture?: THREE.Data3DTexture;\n multiply?: THREE.Matrix2;\n add?: THREE.Vector2;\n near?: number;\n far?: number;\n mid?: number;\n } = null;\n\n time?: number;\n deltaTime?: number;\n clock: THREE.Clock;\n\n // Latest Gsplat collection being displayed\n active: OldSplatAccumulator;\n // Free list of accumulators for reuse\n private freeAccumulators: OldSplatAccumulator[];\n // Total number of accumulators currently allocated\n private accumulatorCount: number;\n // Default SparkViewpoint used for rendering to the canvas\n defaultView: OldSparkViewpoint;\n // List of SparkViewpoints with autoUpdate enabled\n autoViewpoints: OldSparkViewpoint[] = [];\n\n // Dynos used to transform Gsplats to the accumulator coordinate system\n private rotateToAccumulator = new DynoVec4({ value: new THREE.Quaternion() });\n private translateToAccumulator = new DynoVec3({ value: new THREE.Vector3() });\n private modifier: SplatModifier;\n\n // Last rendered frame number so we know when we're rendering a new frame\n private lastFrame = -1;\n // Last update timestamp to compute deltaTime\n private lastUpdateTime: number | null = null;\n // List of cameras used for the current viewpoint (for WebXR)\n private defaultCameras: THREE.Matrix4[] = [];\n private lastStochastic: boolean | null = null;\n\n // Should be set to the defaultView, but can be temporarily changed to another\n // viewpoint using prepareViewpoint() for rendering from a different viewpoint.\n viewpoint: OldSparkViewpoint;\n\n // Holds data needed to perform a scheduled Gsplat update.\n private pendingUpdate = {\n scene: null as THREE.Scene | null,\n originToWorld: new THREE.Matrix4(),\n timeoutId: -1,\n };\n\n // Internal SparkViewpoint used for environment map rendering.\n private envViewpoint: OldSparkViewpoint | null = null;\n\n // Data and buffers used for environment map rendering\n private static cubeRender: {\n target: THREE.WebGLCubeRenderTarget;\n camera: THREE.CubeCamera;\n near: number;\n far: number;\n } | null = null;\n private static pmrem: THREE.PMREMGenerator | null = null;\n\n static EMPTY_SPLAT_TEXTURE = new THREE.Data3DTexture();\n\n constructor(options: OldSparkRendererOptions) {\n const uniforms = OldSparkRenderer.makeUniforms();\n const shaders = getShaders();\n const premultipliedAlpha = options.premultipliedAlpha ?? true;\n const material = new THREE.ShaderMaterial({\n glslVersion: THREE.GLSL3,\n vertexShader: shaders.oldSplatVertex,\n fragmentShader: shaders.oldSplatFragment,\n uniforms,\n premultipliedAlpha,\n transparent: true,\n depthTest: true,\n depthWrite: false,\n side: THREE.DoubleSide,\n });\n\n super(EMPTY_GEOMETRY, material);\n // Disable frustum culling because we want to always draw them all\n // and cull Gsplats individually in the shader\n this.frustumCulled = false;\n\n this.renderer = options.renderer;\n this.material = material;\n this.uniforms = uniforms;\n\n // Create a Gsplat modifier that takes the output of any SplatGenerator\n // and transforms them into the accumulator's coordinate system\n const modifier = dynoBlock(\n { gsplat: Gsplat },\n { gsplat: Gsplat },\n ({ gsplat }) => {\n if (!gsplat) {\n throw new Error(\"gsplat not defined\");\n }\n gsplat = transformGsplat(gsplat, {\n rotate: this.rotateToAccumulator,\n translate: this.translateToAccumulator,\n });\n return { gsplat };\n },\n );\n this.modifier = new SplatModifier(modifier);\n\n this.premultipliedAlpha = premultipliedAlpha;\n this.autoUpdate = options.autoUpdate ?? true;\n this.preUpdate = options.preUpdate ?? false;\n this.needsUpdate = false;\n this.originDistance = options.originDistance ?? 1;\n this.maxStdDev = options.maxStdDev ?? Math.sqrt(8.0);\n this.minPixelRadius = options.minPixelRadius ?? 0.0;\n this.maxPixelRadius = options.maxPixelRadius ?? 512.0;\n this.minAlpha = options.minAlpha ?? 0.5 * (1.0 / 255.0);\n this.enable2DGS = options.enable2DGS ?? false;\n this.preBlurAmount = options.preBlurAmount ?? 0.0;\n this.blurAmount = options.blurAmount ?? 0.3;\n this.focalDistance = options.focalDistance ?? 0.0;\n this.apertureAngle = options.apertureAngle ?? 0.0;\n this.falloff = options.falloff ?? 1.0;\n this.clipXY = options.clipXY ?? 1.4;\n this.focalAdjustment = options.focalAdjustment ?? 1.0;\n this.splatEncoding = options.splatEncoding ?? { ...DEFAULT_SPLAT_ENCODING };\n\n this.active = new OldSplatAccumulator();\n this.active.refCount = 1;\n this.accumulatorCount = 1;\n this.freeAccumulators = [];\n // Start with the minimum of 2 total accumulators\n for (let count = 0; count < 1; ++count) {\n this.freeAccumulators.push(new OldSplatAccumulator());\n this.accumulatorCount += 1;\n }\n\n // Create a default SparkViewpoint that is used when we call render()\n // on the scene and has the sorted Gsplat collection from that viewpoint.\n this.defaultView = new OldSparkViewpoint({\n ...options.view,\n autoUpdate: true,\n spark: this,\n });\n this.viewpoint = this.defaultView;\n this.prepareViewpoint(this.viewpoint);\n\n this.clock = options.clock ? cloneClock(options.clock) : new THREE.Clock();\n }\n\n static makeUniforms() {\n // Create uniforms used for Gsplat vertex and fragment shaders\n const uniforms = {\n // Size of render viewport in pixels\n renderSize: { value: new THREE.Vector2() },\n // Near and far plane distances\n near: { value: 0.1 },\n far: { value: 1000.0 },\n // Total number of Gsplats in packedSplats to render\n numSplats: { value: 0 },\n // SplatAccumulator to view transformation quaternion\n renderToViewQuat: { value: new THREE.Quaternion() },\n // SplatAccumulator to view transformation translation\n renderToViewPos: { value: new THREE.Vector3() },\n // Maximum distance (in stddevs) from Gsplat center to render\n maxStdDev: { value: 1.0 },\n // Minimum pixel radius for splat rendering\n minPixelRadius: { value: 0.0 },\n // Maximum pixel radius for splat rendering\n maxPixelRadius: { value: 512.0 },\n // Minimum alpha value for splat rendering\n minAlpha: { value: 0.5 * (1.0 / 255.0) },\n // Enable stochastic splat rendering\n stochastic: { value: false },\n // Enable interpreting 0-thickness Gsplats as 2DGS\n enable2DGS: { value: false },\n // Add to projected 2D splat covariance diagonal (thickens and brightens)\n preBlurAmount: { value: 0.0 },\n // Add to 2D splat covariance diagonal and adjust opacity (anti-aliasing)\n blurAmount: { value: 0.3 },\n // Depth-of-field distance to focal plane\n focalDistance: { value: 0.0 },\n // Full-width angle of aperture opening (in radians)\n apertureAngle: { value: 0.0 },\n // Modulate Gaussian kernal falloff. 0 means \"no falloff, flat shading\",\n // 1 is normal e^-x^2 falloff.\n falloff: { value: 1.0 },\n // Clip Gsplats that are clipXY times beyond the +-1 frustum bounds\n clipXY: { value: 1.4 },\n // Debug renderSize scale factor\n focalAdjustment: { value: 1.0 },\n // Enable splat texture rendering\n splatTexEnable: { value: false },\n // Splat texture to render\n splatTexture: { type: \"t\", value: OldSparkRenderer.EMPTY_SPLAT_TEXTURE },\n // Splat texture UV transform (multiply)\n splatTexMul: { value: new THREE.Matrix2() },\n // Splat texture UV transform (add)\n splatTexAdd: { value: new THREE.Vector2() },\n // Splat texture near plane distance\n splatTexNear: { value: 0.1 },\n // Splat texture far plane distance\n splatTexFar: { value: 1000.0 },\n // Splat texture mid plane distance, or 0.0 to disable\n splatTexMid: { value: 0.0 },\n // Gsplat collection to render\n packedSplats: { type: \"t\", value: PackedSplats.getEmptyArray },\n // Splat encoding ranges\n rgbMinMaxLnScaleMinMax: { value: new THREE.Vector4() },\n // Time in seconds for time-based effects\n time: { value: 0 },\n // Delta time in seconds since last frame\n deltaTime: { value: 0 },\n // Whether to encode Gsplat with linear RGB (for environment mapping)\n encodeLinear: { value: false },\n // Debug flag that alternates each frame\n debugFlag: { value: false },\n };\n return uniforms;\n }\n\n private canAllocAccumulator(): boolean {\n // Returns true if can allocate an accumulator immediately\n return (\n this.freeAccumulators.length > 0 ||\n this.accumulatorCount < MAX_ACCUMULATORS\n );\n }\n\n private maybeAllocAccumulator(): OldSplatAccumulator | null {\n // Allocate an accumulator immediately if possible, else return null\n let accumulator = this.freeAccumulators.pop();\n if (accumulator === undefined) {\n if (this.accumulatorCount >= MAX_ACCUMULATORS) {\n return null;\n }\n accumulator = new OldSplatAccumulator();\n this.accumulatorCount += 1;\n }\n accumulator.refCount = 1;\n return accumulator;\n }\n\n releaseAccumulator(accumulator: OldSplatAccumulator) {\n // Decrement reference count and recycle if no longer in use\n accumulator.refCount -= 1;\n if (accumulator.refCount === 0) {\n this.freeAccumulators.push(accumulator);\n }\n }\n\n newViewpoint(options: OldSparkViewpointOptions) {\n // Create a new SparkViewpoint for this SparkRenderer.\n // Note that every SparkRenderer has an initial spark.defaultView: SparkViewpoint\n // from construction, which is used for the default canvas render loop.\n // Calling this method allows you to create additional viewpoints, which can be\n // updated automatically each frame (performing Gsplat sorting every time there\n // is an update), or updated on-demand for controlled rendering for video render\n // or similar applications.\n return new OldSparkViewpoint({ ...options, spark: this });\n }\n\n onBeforeRender(\n renderer: THREE.WebGLRenderer,\n scene: THREE.Scene,\n camera: THREE.Camera,\n ) {\n // throw new Error(\"onBeforeRender disabled in SparkRenderer\");\n\n // Called by Three.js before rendering this SparkRenderer.\n // At this point we can't modify the geometry or material, all these must\n // be set in the scene already before this is called. Update the uniforms\n // to render the Gsplats from the current active viewpoint.\n const time = this.time ?? this.clock.getElapsedTime();\n const deltaTime = time - (this.viewpoint.lastTime ?? time);\n this.viewpoint.lastTime = time;\n\n const frame = renderer.info.render.frame;\n const isNewFrame = frame !== this.lastFrame;\n this.lastFrame = frame;\n\n const viewpoint = this.viewpoint;\n if (viewpoint === this.defaultView) {\n // When rendering is triggered on the default viewpoint,\n // perform automatic updates.\n if (isNewFrame) {\n if (!renderer.xr.isPresenting) {\n // Non-WebXR mode, just a single camera\n this.defaultView.viewToWorld = camera.matrixWorld.clone();\n this.defaultCameras = [this.defaultView.viewToWorld];\n } else {\n // In WebXR mode we are called multiple times, once for each eye,\n // so use their average to compute the sort center.\n const cameras = renderer.xr.getCamera().cameras;\n this.defaultCameras = cameras.map((camera) => camera.matrixWorld);\n this.defaultView.viewToWorld =\n averageOriginToWorlds(this.defaultCameras) ?? new THREE.Matrix4();\n }\n }\n\n if (this.autoUpdate) {\n this.update({ scene, viewToWorld: this.defaultView.viewToWorld });\n }\n }\n\n // Update uniforms for rendering\n\n if (isNewFrame) {\n // Keep these uniforms the same for both eyes if in WebXR\n if (this.material.premultipliedAlpha !== this.premultipliedAlpha) {\n this.material.premultipliedAlpha = this.premultipliedAlpha;\n this.material.needsUpdate = true;\n }\n this.uniforms.time.value = time;\n this.uniforms.deltaTime.value = deltaTime;\n // Alternating debug flag that can aid in visual debugging\n this.uniforms.debugFlag.value = (performance.now() / 1000.0) % 2.0 < 1.0;\n\n if (viewpoint.display && viewpoint.stochastic) {\n (this.geometry as OldSplatGeometry).instanceCount =\n this.uniforms.numSplats.value;\n }\n }\n\n if (viewpoint.target) {\n // Rendering to a texture target, so its dimensions\n this.uniforms.renderSize.value.set(\n viewpoint.target.width,\n viewpoint.target.height,\n );\n } else {\n // Rendering to the canvas or WebXR\n const renderSize = renderer.getDrawingBufferSize(\n this.uniforms.renderSize.value,\n );\n if (renderSize.x === 1 && renderSize.y === 1) {\n // WebXR mode on Apple Vision Pro returns 1x1 when presenting.\n // Use a different means to figure out the render size.\n const baseLayer = renderer.xr.getSession()?.renderState.baseLayer;\n if (baseLayer) {\n renderSize.x = baseLayer.framebufferWidth;\n renderSize.y = baseLayer.framebufferHeight;\n }\n }\n }\n\n // Update uniforms from instance properties\n const typedCamera = camera as\n | THREE.PerspectiveCamera\n | THREE.OrthographicCamera;\n this.uniforms.near.value = typedCamera.near;\n this.uniforms.far.value = typedCamera.far;\n this.uniforms.encodeLinear.value = viewpoint.encodeLinear;\n this.uniforms.maxStdDev.value = this.maxStdDev;\n this.uniforms.minPixelRadius.value = this.minPixelRadius;\n this.uniforms.maxPixelRadius.value = this.maxPixelRadius;\n this.uniforms.minAlpha.value = this.minAlpha;\n this.uniforms.stochastic.value = viewpoint.stochastic;\n this.uniforms.enable2DGS.value = this.enable2DGS;\n this.uniforms.preBlurAmount.value = this.preBlurAmount;\n this.uniforms.blurAmount.value = this.blurAmount;\n this.uniforms.focalDistance.value = this.focalDistance;\n this.uniforms.apertureAngle.value = this.apertureAngle;\n this.uniforms.falloff.value = this.falloff;\n this.uniforms.clipXY.value = this.clipXY;\n this.uniforms.focalAdjustment.value = this.focalAdjustment;\n\n if (this.lastStochastic !== !viewpoint.stochastic) {\n this.lastStochastic = !viewpoint.stochastic;\n this.material.transparent = !viewpoint.stochastic;\n this.material.depthWrite = viewpoint.stochastic;\n this.material.needsUpdate = true;\n }\n\n if (this.splatTexture) {\n const { enable, texture, multiply, add, near, far, mid } =\n this.splatTexture;\n if (enable && texture) {\n this.uniforms.splatTexEnable.value = true;\n this.uniforms.splatTexture.value = texture;\n if (multiply) {\n this.uniforms.splatTexMul.value.fromArray(multiply.elements);\n } else {\n this.uniforms.splatTexMul.value.set(\n 0.5 / this.maxStdDev,\n 0,\n 0,\n 0.5 / this.maxStdDev,\n );\n }\n this.uniforms.splatTexAdd.value.set(add?.x ?? 0.5, add?.y ?? 0.5);\n this.uniforms.splatTexNear.value = near ?? this.uniforms.near.value;\n this.uniforms.splatTexFar.value = far ?? this.uniforms.far.value;\n this.uniforms.splatTexMid.value = mid ?? 0.0;\n } else {\n this.uniforms.splatTexEnable.value = false;\n this.uniforms.splatTexture.value = OldSparkRenderer.EMPTY_SPLAT_TEXTURE;\n }\n } else {\n this.uniforms.splatTexEnable.value = false;\n this.uniforms.splatTexture.value = OldSparkRenderer.EMPTY_SPLAT_TEXTURE;\n }\n\n // Calculate the transform from the accumulator to the current camera\n const accumToWorld =\n viewpoint.display?.accumulator.toWorld ?? new THREE.Matrix4();\n const worldToCamera = camera.matrixWorld.clone().invert();\n const originToCamera = accumToWorld.clone().premultiply(worldToCamera);\n originToCamera.decompose(\n this.uniforms.renderToViewPos.value,\n this.uniforms.renderToViewQuat.value,\n new THREE.Vector3(),\n );\n }\n\n // Update the uniforms for the given viewpoint.\n // Note that the client expects to be able to call render() at any point\n // to update the canvas, so we must switch the viewpoint back to\n // defaultView when we're finished.\n prepareViewpoint(viewpoint?: OldSparkViewpoint) {\n this.viewpoint = viewpoint ?? this.viewpoint;\n\n if (this.viewpoint.display) {\n const { accumulator, geometry } = this.viewpoint.display;\n this.uniforms.numSplats.value = accumulator.splats.numSplats;\n this.uniforms.packedSplats.value = accumulator.splats.getTexture();\n this.uniforms.rgbMinMaxLnScaleMinMax.value.set(\n accumulator.splats.splatEncoding?.rgbMin ?? 0.0,\n accumulator.splats.splatEncoding?.rgbMax ?? 1.0,\n accumulator.splats.splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n accumulator.splats.splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n );\n this.geometry = geometry;\n this.material.transparent = !this.viewpoint.stochastic;\n this.material.depthWrite = this.viewpoint.stochastic;\n this.material.needsUpdate = true;\n } else {\n // No Gsplats to display for this viewpoint yet\n this.uniforms.numSplats.value = 0;\n this.uniforms.packedSplats.value = PackedSplats.getEmptyArray;\n this.geometry = EMPTY_GEOMETRY;\n }\n }\n\n // If spark.autoUpdate is false then you must manually call\n // spark.update({ scene }) to have the scene Gsplats be re-generated.\n update({\n scene,\n viewToWorld,\n }: { scene: THREE.Scene; viewToWorld?: THREE.Matrix4 }) {\n // Compute the transform for the SparkRenderer to use as origin\n // for Gsplat generation and accumulation.\n const originToWorld = this.matrixWorld;\n\n // Either do the update now, or in the next \"tick\" depending on preUpdate\n if (this.preUpdate) {\n this.updateInternal({\n scene,\n originToWorld: originToWorld.clone(),\n viewToWorld,\n });\n } else {\n // Pass the update parameters to be performed on the next tick\n this.pendingUpdate.scene = scene;\n this.pendingUpdate.originToWorld.copy(originToWorld);\n\n // Schedule a timeout if there isn't one already\n if (this.pendingUpdate.timeoutId === -1) {\n this.pendingUpdate.timeoutId = setTimeout(() => {\n const { scene, originToWorld } = this.pendingUpdate;\n this.pendingUpdate.scene = null;\n this.pendingUpdate.timeoutId = -1;\n const updated = this.updateInternal({\n scene: scene as THREE.Scene,\n originToWorld,\n viewToWorld,\n });\n\n if (updated) {\n // Flush to encourage eager execution\n const gl = this.renderer.getContext() as WebGL2RenderingContext;\n gl.flush();\n }\n }, 1);\n }\n }\n }\n\n updateInternal({\n scene,\n originToWorld,\n viewToWorld,\n }: {\n scene: THREE.Scene;\n originToWorld?: THREE.Matrix4;\n viewToWorld?: THREE.Matrix4;\n }): boolean {\n if (!this.canAllocAccumulator()) {\n // We don't have any available accumulators because of sorting\n // back pressure, so don't update this time but try again next time.\n // Signal update not attempted.\n return false;\n }\n\n // Figure out the frame of the SparkRenderer and current view\n if (!originToWorld) {\n originToWorld = this.active.toWorld;\n }\n viewToWorld = viewToWorld ?? originToWorld.clone();\n\n const time = this.time ?? this.clock.getElapsedTime();\n const deltaTime = time - (this.lastUpdateTime ?? time);\n this.lastUpdateTime = time;\n\n // Create a lookup from last active SplatGenerator to Gsplat mapping record\n const activeMapping = this.active.mapping.reduce((map, record) => {\n map.set(record.node, record);\n return map;\n }, new Map());\n\n // Traverse visible scene to find all SplatGenerators and global SplatEdits\n const { generators, visibleGenerators, globalEdits } =\n this.compileScene(scene);\n\n // Let all SplatGenerators run their frameUpdate() method\n for (const object of generators) {\n object.frameUpdate?.({\n renderer: this.renderer,\n object,\n time,\n deltaTime,\n viewToWorld,\n globalEdits,\n });\n }\n\n const visibleGenHash = new Set(visibleGenerators.map((g) => g.uuid));\n\n // Make sure we have new version numbers for any objects with either\n // generator or numSplats that have changed since the last frame.\n for (const object of generators) {\n const current = activeMapping.get(object);\n const isVisible = object.generator && visibleGenHash.has(object.uuid);\n const numSplats = isVisible ? object.numSplats : 0;\n if (\n this.needsUpdate ||\n object.generator !== current?.generator ||\n numSplats !== current?.count\n ) {\n object.updateVersion();\n }\n }\n\n // Check if the origin is within the maximum allowed distance before\n // we trigger an update.\n const originUpdate = !withinCoorientDist({\n matrix1: originToWorld,\n matrix2: this.active.toWorld,\n maxDistance: this.originDistance,\n });\n\n // Check if we need any update at all\n const needsUpdate =\n this.needsUpdate ||\n originUpdate ||\n generators.length !== activeMapping.size ||\n generators.some((g) => g.version !== activeMapping.get(g)?.version);\n this.needsUpdate = false;\n\n let accumulator: OldSplatAccumulator | null = null;\n if (needsUpdate) {\n // Need to update, so allocate an accumulator\n accumulator = this.maybeAllocAccumulator();\n if (!accumulator) {\n // This should never happen since we checked canAllocAccumulator() above\n throw new Error(\"Unreachable\");\n }\n\n // Compute whether our view frame has changed enough to warrant\n // doing a Gsplat sort. Check both distance epsilon and\n // minimum co-orientation (dot product of quaternions)\n const originChanged = !withinCoorientDist({\n matrix1: originToWorld,\n matrix2: accumulator.toWorld,\n maxDistance: 0.00001,\n minCoorient: 0.99999,\n });\n\n // Compute an ordering of the generators with the rough goal\n // of keeping unchanging generators near the front to minimize\n // the number of Gsplats that need to be regenerated.\n const sorted = visibleGenerators\n .map((g, gIndex): [number, number, SplatGenerator] => {\n const lastGen = activeMapping.get(g);\n // If no previous generator, sort by absolute version, which will\n // tend to push frequently updated generators toward the end\n return !lastGen\n ? [Number.POSITIVE_INFINITY, g.version, g]\n : // Sort by version deltas then by previous ordering in the mapping,\n // attempting to keep unchanging generators near the front\n // to improve our chances of avoiding a re-generation.\n [g.version - lastGen.version, lastGen.base, g];\n })\n .sort((a, b) => {\n // Sort by first then second element of the tuple\n if (a[0] !== b[0]) {\n return a[0] - b[0];\n }\n return a[1] - b[1];\n });\n const genOrder = sorted.map(([_version, _seq, g]) => g);\n\n // Compute sequential layout of generated splats\n const splatCounts = genOrder.map((g) => g.numSplats);\n const { maxSplats, mapping } =\n accumulator.splats.generateMapping(splatCounts);\n const newGenerators = genOrder.map((node, gIndex) => {\n const { base, count } = mapping[gIndex];\n return {\n node,\n generator: node.generator,\n version: node.version,\n base,\n count,\n };\n });\n\n // Compute worldToAccumulator origin transform (no scale)\n originToWorld\n .clone()\n .invert()\n .decompose(\n this.translateToAccumulator.value,\n this.rotateToAccumulator.value,\n new THREE.Vector3(),\n );\n\n // Generate the Gsplats according to the mapping that need updating\n accumulator.ensureGenerate(maxSplats);\n accumulator.splats.splatEncoding = { ...this.splatEncoding };\n const generated = accumulator.generateSplats({\n renderer: this.renderer,\n modifier: this.modifier,\n generators: newGenerators,\n forceUpdate: originChanged,\n originToWorld,\n });\n\n // Update splat version number\n accumulator.splatsVersion = this.active.splatsVersion + 1;\n // Increment the mapping version if the mapping isn't identical to before\n const hasCorrespondence = accumulator.hasCorrespondence(this.active);\n accumulator.mappingVersion =\n this.active.mappingVersion + (hasCorrespondence ? 0 : 1);\n\n // Release the old accumulator and make the new one active\n this.releaseAccumulator(this.active);\n this.active = accumulator;\n this.prepareViewpoint();\n }\n\n // Let the system breath before potentially triggering sorts\n setTimeout(() => {\n // Notify all auto-updating viewpoints that we updated the Gsplats\n for (const view of this.autoViewpoints) {\n view.autoPoll({ accumulator: accumulator ?? undefined });\n }\n }, 1);\n\n // Signal update was performed\n return true;\n }\n\n private compileScene(scene: THREE.Scene): {\n generators: SplatGenerator[];\n visibleGenerators: SplatGenerator[];\n globalEdits: SplatEdit[];\n } {\n // Take a snapshot of the SplatGenerators and SplatEdits in the scene\n // to be used to run an update.\n const generators: SplatGenerator[] = [];\n // Collect all SplatGenerators, even if not visible, because we want to\n // be able to call their update functions every frame.\n scene.traverse((node) => {\n if (node instanceof SplatGenerator) {\n generators.push(node);\n }\n });\n\n const visibleGenerators: SplatGenerator[] = [];\n scene.traverseVisible((node) => {\n if (node instanceof SplatGenerator) {\n visibleGenerators.push(node);\n }\n });\n\n const globalEdits = new Set();\n scene.traverseVisible((node) => {\n if (node instanceof SplatEdit) {\n let ancestor = node.parent;\n while (ancestor != null && !(ancestor instanceof SplatMesh)) {\n ancestor = ancestor.parent;\n }\n if (ancestor == null) {\n // Not part of a SplatMesh so it's a global edit\n globalEdits.add(node);\n }\n }\n });\n return {\n generators,\n visibleGenerators,\n globalEdits: Array.from(globalEdits),\n };\n }\n\n // Renders out the scene to an environment map that can be used for\n // Image-based lighting or similar applications. First optionally updates Gsplats,\n // sorts them with respect to the provided worldCenter, renders 6 cube faces,\n // then pre-filters them using THREE.PMREMGenerator and returns a THREE.Texture\n // that can assigned directly to a THREE.MeshStandardMaterial.envMap property.\n async renderEnvMap({\n renderer,\n scene,\n worldCenter,\n size = 256,\n near = 0.1,\n far = 1000,\n hideObjects = [],\n update = false,\n }: {\n renderer?: THREE.WebGLRenderer;\n scene: THREE.Scene;\n worldCenter: THREE.Vector3;\n size?: number;\n near?: number;\n far?: number;\n hideObjects?: THREE.Object3D[];\n update?: boolean;\n }): Promise {\n if (!this.envViewpoint) {\n this.envViewpoint = this.newViewpoint({ sort360: true });\n }\n if (\n !OldSparkRenderer.cubeRender ||\n OldSparkRenderer.cubeRender.target.width !== size ||\n OldSparkRenderer.cubeRender.near !== near ||\n OldSparkRenderer.cubeRender.far !== far\n ) {\n if (OldSparkRenderer.cubeRender) {\n OldSparkRenderer.cubeRender.target.dispose();\n }\n const target = new THREE.WebGLCubeRenderTarget(size, {\n format: THREE.RGBAFormat,\n generateMipmaps: true,\n minFilter: THREE.LinearMipMapLinearFilter,\n });\n const camera = new THREE.CubeCamera(near, far, target);\n OldSparkRenderer.cubeRender = { target, camera, near, far };\n }\n\n if (!OldSparkRenderer.pmrem) {\n OldSparkRenderer.pmrem = new THREE.PMREMGenerator(\n renderer ?? this.renderer,\n );\n }\n\n // Prepare the viewpoint, sorting Gsplats for this view origin.\n const viewToWorld = new THREE.Matrix4().setPosition(worldCenter);\n await this.envViewpoint?.prepare({ scene, viewToWorld, update });\n\n const { target, camera } = OldSparkRenderer.cubeRender;\n camera.position.copy(worldCenter);\n\n // Save the visibility state of objects we want to hide before render\n const objectVisibility = new Map();\n for (const object of hideObjects) {\n objectVisibility.set(object, object.visible);\n object.visible = false;\n }\n\n // Update the CubeCamera, which performs 6 cube face renders\n this.prepareViewpoint(this.envViewpoint);\n camera.update(renderer ?? this.renderer, scene);\n\n // Restore viewpoint to default and object visibility\n this.prepareViewpoint(this.defaultView);\n for (const [object, visible] of objectVisibility.entries()) {\n object.visible = visible;\n }\n\n // Pre-filter the cube map using THREE.PMREMGenerator\n return OldSparkRenderer.pmrem?.fromCubemap(target.texture).texture;\n }\n\n // Utility function to recursively set the envMap property for any\n // THREE.MeshStandardMaterial within the subtree of root.\n recurseSetEnvMap(root: THREE.Object3D, envMap: THREE.Texture) {\n root.traverse((node) => {\n if (node instanceof THREE.Mesh) {\n if (Array.isArray(node.material)) {\n for (const material of node.material) {\n if (material instanceof THREE.MeshStandardMaterial) {\n material.envMap = envMap;\n }\n }\n } else {\n if (node.material instanceof THREE.MeshStandardMaterial) {\n node.material.envMap = envMap;\n }\n }\n }\n });\n }\n\n // Utility function that helps extract the Gsplat RGBA values from a\n // SplatGenerator, including the result of any real-time RGBA SDF edits applied\n // to a SplatMesh. This effectively \"bakes\" any computed RGBA values, which can\n // now be used as a pipeline input via SplatMesh.splatRgba to inject these\n // baked values into the Gsplat data.\n getRgba({\n generator,\n rgba,\n }: { generator: SplatGenerator; rgba?: RgbaArray }): RgbaArray {\n const mapping = this.active.mapping.find(({ node }) => node === generator);\n if (!mapping) {\n throw new Error(\"Generator not found\");\n }\n\n rgba = rgba ?? new RgbaArray();\n rgba.fromPackedSplats({\n packedSplats: this.active.splats,\n base: mapping.base,\n count: mapping.count,\n renderer: this.renderer,\n });\n return rgba;\n }\n\n // Utility function that builds on getRgba({ generator }) and additionally\n // reads back the RGBA values to the CPU in a Uint8Array with packed RGBA\n // in that byte order.\n async readRgba({\n generator,\n rgba,\n }: { generator: SplatGenerator; rgba?: RgbaArray }): Promise {\n rgba = this.getRgba({ generator, rgba });\n return rgba.read();\n }\n}\n\nconst EMPTY_GEOMETRY = new OldSplatGeometry(new Uint32Array(1), 0);\n\nconst reorderSplats = dynoBlock(\n { packedSplats: TPackedSplats, index: \"int\" },\n { gsplat: Gsplat },\n ({ packedSplats, index }) => {\n if (!packedSplats || !index) {\n throw new Error(\"Invalid input\");\n }\n const gsplat = readPackedSplat(packedSplats, index);\n return { gsplat };\n },\n);\n\nfunction averageOriginToWorlds(\n originToWorlds: THREE.Matrix4[],\n): THREE.Matrix4 | null {\n if (originToWorlds.length === 0) {\n return null;\n }\n\n const position = new THREE.Vector3();\n const quaternion = new THREE.Quaternion();\n const scale = new THREE.Vector3();\n\n const positions: THREE.Vector3[] = [];\n const quaternions: THREE.Quaternion[] = [];\n for (const matrix of originToWorlds) {\n matrix.decompose(position, quaternion, scale);\n positions.push(position);\n quaternions.push(quaternion);\n }\n\n return new THREE.Matrix4().compose(\n averagePositions(positions),\n averageQuaternions(quaternions),\n new THREE.Vector3(1, 1, 1),\n );\n}\n","import type { SplatEncoding } from \"./defines\";\nimport { computeMaxSplats, setPackedSplat } from \"./utils\";\n\nexport function decodeAntiSplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n) {\n const numSplats = Math.floor(fileBytes.length / 32); // 32 bytes per splat\n if (numSplats * 32 !== fileBytes.length) {\n throw new Error(\"Invalid .splat file size\");\n }\n initNumSplats(numSplats);\n\n const f32 = new Float32Array(fileBytes.buffer);\n for (let i = 0; i < numSplats; ++i) {\n const i32 = i * 32;\n const i8 = i * 8;\n const x = f32[i8 + 0];\n const y = f32[i8 + 1];\n const z = f32[i8 + 2];\n const scaleX = f32[i8 + 3];\n const scaleY = f32[i8 + 4];\n const scaleZ = f32[i8 + 5];\n const r = fileBytes[i32 + 24] / 255;\n const g = fileBytes[i32 + 25] / 255;\n const b = fileBytes[i32 + 26] / 255;\n const opacity = fileBytes[i32 + 27] / 255;\n const quatW = (fileBytes[i32 + 28] - 128) / 128;\n const quatX = (fileBytes[i32 + 29] - 128) / 128;\n const quatY = (fileBytes[i32 + 30] - 128) / 128;\n const quatZ = (fileBytes[i32 + 31] - 128) / 128;\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n }\n}\n\nexport function unpackAntiSplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n} {\n let numSplats = 0;\n let maxSplats = 0;\n let packedArray = new Uint32Array(0);\n decodeAntiSplat(\n fileBytes,\n (cbNumSplats) => {\n numSplats = cbNumSplats;\n maxSplats = computeMaxSplats(numSplats);\n packedArray = new Uint32Array(maxSplats * 4);\n },\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n setPackedSplat(\n packedArray,\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n },\n );\n return { packedArray, numSplats };\n}\n","import type { SplatEncoding } from \"./defines\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n fromHalf,\n setPackedSplat,\n} from \"./utils\";\n\ntype KsplatCompression = {\n bytesPerCenter: number;\n bytesPerScale: number;\n bytesPerRotation: number;\n bytesPerColor: number;\n bytesPerSphericalHarmonicsComponent: number;\n scaleOffsetBytes: number;\n rotationOffsetBytes: number;\n colorOffsetBytes: number;\n sphericalHarmonicsOffsetBytes: number;\n scaleRange: number;\n};\n\nconst KSPLAT_COMPRESSION: Record = {\n 0: {\n bytesPerCenter: 12,\n bytesPerScale: 12,\n bytesPerRotation: 16,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 4,\n scaleOffsetBytes: 12,\n rotationOffsetBytes: 24,\n colorOffsetBytes: 40,\n sphericalHarmonicsOffsetBytes: 44,\n scaleRange: 1,\n },\n 1: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 2,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n 2: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 1,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n};\n\nconst KSPLAT_SH_DEGREE_TO_COMPONENTS: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nexport function decodeKsplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n) {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n initNumSplats(numSplats);\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n\n if (sphericalHarmonicsDegree >= 1 && sh1) {\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n if (sh2) {\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n }\n if (sh3) {\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n sectionBase += storageSizeBytes;\n }\n}\n\nexport function unpackKsplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n} {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n setPackedSplat(\n packedArray,\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n\n if (sphericalHarmonicsDegree >= 1) {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, i, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, i, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, i, sh3, splatEncoding);\n }\n }\n }\n sectionBase += storageSizeBytes;\n }\n return { packedArray, numSplats, extra };\n}\n","import * as THREE from \"three\";\nimport {\n SplatData,\n type TranscodeSpzInput,\n getSplatFileType,\n getSplatFileTypeFromPath,\n} from \"./SplatLoader\";\nimport { GunzipReader, fromHalf, normalize } from \"./utils\";\n\nimport { decodeAntiSplat } from \"./antisplat\";\nimport { SplatFileType } from \"./defines\";\nimport { decodeKsplat } from \"./ksplat\";\nimport { PlyReader } from \"./ply\";\n\n// SPZ file format reader\n\nexport class SpzReader {\n fileBytes: Uint8Array;\n reader: GunzipReader;\n\n version = -1;\n numSplats = 0;\n shDegree = 0;\n fractionalBits = 0;\n flags = 0;\n flagAntiAlias = false;\n flagLod = false;\n reserved = 0;\n headerParsed = false;\n parsed = false;\n\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n this.reader = new GunzipReader({\n fileBytes: this.fileBytes as Uint8Array,\n });\n }\n\n async parseHeader() {\n if (this.headerParsed) {\n throw new Error(\"SPZ file header already parsed\");\n }\n\n const header = new DataView((await this.reader.read(16)).buffer);\n if (header.getUint32(0, true) !== 0x5053474e) {\n throw new Error(\"Invalid SPZ file\");\n }\n this.version = header.getUint32(4, true);\n if (this.version < 1 || this.version > 3) {\n throw new Error(`Unsupported SPZ version: ${this.version}`);\n }\n\n this.numSplats = header.getUint32(8, true);\n this.shDegree = header.getUint8(12);\n this.fractionalBits = header.getUint8(13);\n this.flags = header.getUint8(14);\n this.flagAntiAlias = (this.flags & 0x01) !== 0;\n this.flagLod = (this.flags & 0x80) !== 0;\n this.reserved = header.getUint8(15);\n this.headerParsed = true;\n this.parsed = false;\n }\n\n async parseSplats(\n centerCallback?: (index: number, x: number, y: number, z: number) => void,\n alphaCallback?: (index: number, alpha: number) => void,\n rgbCallback?: (index: number, r: number, g: number, b: number) => void,\n scalesCallback?: (\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n ) => void,\n quatCallback?: (\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n {\n childCounts,\n childStarts,\n }: {\n childCounts?: (index: number, count: number) => void;\n childStarts?: (index: number, start: number) => void;\n } = {},\n ) {\n if (!this.headerParsed) {\n throw new Error(\"SPZ file header must be parsed first\");\n }\n if (this.parsed) {\n throw new Error(\"SPZ file already parsed\");\n }\n this.parsed = true;\n\n if (this.version === 1) {\n // float16 centers\n const centerBytes = await this.reader.read(this.numSplats * 3 * 2);\n const centerUint16 = new Uint16Array(centerBytes.buffer);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const x = fromHalf(centerUint16[i3]);\n const y = fromHalf(centerUint16[i3 + 1]);\n const z = fromHalf(centerUint16[i3 + 2]);\n centerCallback?.(i, x, y, z);\n }\n } else if (this.version === 2 || this.version === 3) {\n // 24-bit fixed-point centers\n const fixed = 1 << this.fractionalBits;\n const centerBytes = await this.reader.read(this.numSplats * 3 * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i9 = i * 9;\n const x =\n (((centerBytes[i9 + 2] << 24) |\n (centerBytes[i9 + 1] << 16) |\n (centerBytes[i9] << 8)) >>\n 8) /\n fixed;\n const y =\n (((centerBytes[i9 + 5] << 24) |\n (centerBytes[i9 + 4] << 16) |\n (centerBytes[i9 + 3] << 8)) >>\n 8) /\n fixed;\n const z =\n (((centerBytes[i9 + 8] << 24) |\n (centerBytes[i9 + 7] << 16) |\n (centerBytes[i9 + 6] << 8)) >>\n 8) /\n fixed;\n centerCallback?.(i, x, y, z);\n }\n } else {\n throw new Error(\"Unreachable\");\n }\n\n {\n const bytes = await this.reader.read(this.numSplats);\n for (let i = 0; i < this.numSplats; i++) {\n alphaCallback?.(i, bytes[i] / 255);\n }\n }\n {\n const rgbBytes = await this.reader.read(this.numSplats * 3);\n const scale = SH_C0 / 0.15;\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const r = (rgbBytes[i3] / 255 - 0.5) * scale + 0.5;\n const g = (rgbBytes[i3 + 1] / 255 - 0.5) * scale + 0.5;\n const b = (rgbBytes[i3 + 2] / 255 - 0.5) * scale + 0.5;\n rgbCallback?.(i, r, g, b);\n }\n }\n {\n const scalesBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const scaleX = Math.exp(scalesBytes[i3] / 16 - 10);\n const scaleY = Math.exp(scalesBytes[i3 + 1] / 16 - 10);\n const scaleZ = Math.exp(scalesBytes[i3 + 2] / 16 - 10);\n scalesCallback?.(i, scaleX, scaleY, scaleZ);\n }\n }\n if (this.version === 3) {\n // Version 3 uses a trick called \"smallest three\" to compress the rotation quaternions\n // achieving better precision. \"Optimizing orientation\" section at https://gafferongames.com/post/snapshot_compression/ A quaternion length must be 1: x^2+y^2+z^2+w^2 = 1\n // We can drop one component and reconstruct it with the identity above.\n // Largest component is dropped for best numerical precision.\n // Quaternion stored in 32 bits\n // 10 bits singed integer for each of the 3 components + 2 bits indicating the index of dropped component.\n // vs 8 bits for each component uncompressed (spz version < 3)\n // Max Value after extracting largest component v is another component v\n // (v,v,0,0)\n // v^2 + v^2 = 1\n // v = 1 / sqrt(2);\n const maxValue = 1 / Math.sqrt(2); // 0.7071\n const quatBytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 4;\n const quaternion = [0, 0, 0, 0];\n const values = [\n quatBytes[i3],\n quatBytes[i3 + 1],\n quatBytes[i3 + 2],\n quatBytes[i3 + 3],\n ];\n // all values are packed in 32 bits (10 per each of 3 components + 2 bits of index of larged value)\n const combinedValues =\n values[0] + (values[1] << 8) + (values[2] << 16) + (values[3] << 24);\n // each component value is 9 bits + sign (1 bit)\n const valueMask = (1 << 9) - 1;\n // extract index of the largest element. 2 top bits.\n const largestIndex = combinedValues >>> 30;\n let remainingValues = combinedValues;\n let sumSquares = 0;\n\n for (let i = 3; i >= 0; --i) {\n if (i !== largestIndex) {\n // extract current value and sign.\n const value = remainingValues & valueMask;\n const sign = (remainingValues >>> 9) & 0x1;\n // each value is represented as 10 bits. Shift to next one.\n remainingValues = remainingValues >>> 10;\n // convert to range [0,1] and then to [0, 0.7071]\n quaternion[i] = maxValue * (value / valueMask);\n // apply sign.\n quaternion[i] = sign === 0 ? quaternion[i] : -quaternion[i];\n // accumulate the sum of squares\n sumSquares += quaternion[i] * quaternion[i];\n }\n }\n\n // quartenion length must be 1 (x^2+y^2+z^2+w^2 = 1)\n // so can reconstruct largest component from the other 3.\n // w = sqrt(1 - x^2 - y^2 - z^2);\n const square = 1 - sumSquares;\n quaternion[largestIndex] = Math.sqrt(Math.max(square, 0));\n\n quatCallback?.(\n i,\n quaternion[0],\n quaternion[1],\n quaternion[2],\n quaternion[3],\n );\n }\n } else {\n const quatBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const quatX = quatBytes[i3] / 127.5 - 1;\n const quatY = quatBytes[i3 + 1] / 127.5 - 1;\n const quatZ = quatBytes[i3 + 2] / 127.5 - 1;\n const quatW = Math.sqrt(\n Math.max(0, 1 - quatX * quatX - quatY * quatY - quatZ * quatZ),\n );\n quatCallback?.(i, quatX, quatY, quatZ, quatW);\n }\n }\n\n if (shCallback && this.shDegree >= 1) {\n const sh1 = new Float32Array(3 * 3);\n const sh2 = this.shDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 = this.shDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n const shBytes = await this.reader.read(\n this.numSplats * SH_DEGREE_TO_VECS[this.shDegree] * 3,\n );\n\n let offset = 0;\n for (let i = 0; i < this.numSplats; i++) {\n for (let j = 0; j < 9; ++j) {\n sh1[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 9;\n if (sh2) {\n for (let j = 0; j < 15; ++j) {\n sh2[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 15;\n }\n if (sh3) {\n for (let j = 0; j < 21; ++j) {\n sh3[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 21;\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n if (this.flagLod) {\n let bytes = await this.reader.read(this.numSplats * 2);\n for (let i = 0; i < this.numSplats; i++) {\n const i2 = i * 2;\n const count = bytes[i2] + (bytes[i2 + 1] << 8);\n childCounts?.(i, count);\n }\n\n bytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i4 = i * 4;\n const start =\n bytes[i4] +\n (bytes[i4 + 1] << 8) +\n (bytes[i4 + 2] << 16) +\n (bytes[i4 + 3] << 24);\n childStarts?.(i, start);\n }\n }\n }\n}\n\nconst SH_DEGREE_TO_VECS: Record = { 1: 3, 2: 8, 3: 15 };\nconst SH_C0 = 0.28209479177387814;\n\nexport const SPZ_MAGIC = 0x5053474e; // NGSP = Niantic gaussian splat\nexport const SPZ_VERSION = 3;\nexport const FLAG_ANTIALIASED = 0x1;\n\nexport class SpzWriter {\n buffer: ArrayBuffer;\n view: DataView;\n numSplats: number;\n shDegree: number;\n fractionalBits: number;\n fraction: number;\n flagAntiAlias: boolean;\n clippedCount = 0;\n\n constructor({\n numSplats,\n shDegree,\n fractionalBits = 12,\n flagAntiAlias = true,\n }: {\n numSplats: number;\n shDegree: number;\n fractionalBits?: number;\n flagAntiAlias?: boolean;\n }) {\n const splatSize =\n 9 + // Position\n 1 + // Opacity\n 3 + // Scale\n 3 + // DC-rgb\n 4 + // Rotation\n (shDegree >= 1 ? 9 : 0) +\n (shDegree >= 2 ? 15 : 0) +\n (shDegree >= 3 ? 21 : 0);\n const bufferSize = 16 + numSplats * splatSize;\n this.buffer = new ArrayBuffer(bufferSize);\n this.view = new DataView(this.buffer);\n\n this.view.setUint32(0, SPZ_MAGIC, true); // NGSP\n this.view.setUint32(4, SPZ_VERSION, true);\n this.view.setUint32(8, numSplats, true);\n this.view.setUint8(12, shDegree);\n this.view.setUint8(13, fractionalBits);\n this.view.setUint8(14, flagAntiAlias ? FLAG_ANTIALIASED : 0);\n this.view.setUint8(15, 0); // Reserved\n\n this.numSplats = numSplats;\n this.shDegree = shDegree;\n this.fractionalBits = fractionalBits;\n this.fraction = 1 << fractionalBits;\n this.flagAntiAlias = flagAntiAlias;\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n // Divide by this.fraction and round to nearest integer,\n // then write as 3-bytes per x then y then z.\n const xRounded = Math.round(x * this.fraction);\n const xInt = Math.max(-0x7fffff, Math.min(0x7fffff, xRounded));\n const yRounded = Math.round(y * this.fraction);\n const yInt = Math.max(-0x7fffff, Math.min(0x7fffff, yRounded));\n const zRounded = Math.round(z * this.fraction);\n const zInt = Math.max(-0x7fffff, Math.min(0x7fffff, zRounded));\n const clipped = xRounded !== xInt || yRounded !== yInt || zRounded !== zInt;\n if (clipped) {\n this.clippedCount += 1;\n // if (this.clippedCount < 10) {\n // // Write x y z also in hex\n // console.log(`Clipped ${index}: ${x}, ${y}, ${z} (0x${x.toString(16)}, 0x${y.toString(16)}, 0x${z.toString(16)}) -> ${xRounded}, ${yRounded}, ${zRounded} (0x${xRounded.toString(16)}, 0x${yRounded.toString(16)}, 0x${zRounded.toString(16)}) -> ${xInt}, ${yInt}, ${zInt} (0x${xInt.toString(16)}, 0x${yInt.toString(16)}, 0x${zInt.toString(16)})`);\n // }\n }\n const i9 = index * 9;\n const base = 16 + i9;\n this.view.setUint8(base, xInt & 0xff);\n this.view.setUint8(base + 1, (xInt >> 8) & 0xff);\n this.view.setUint8(base + 2, (xInt >> 16) & 0xff);\n this.view.setUint8(base + 3, yInt & 0xff);\n this.view.setUint8(base + 4, (yInt >> 8) & 0xff);\n this.view.setUint8(base + 5, (yInt >> 16) & 0xff);\n this.view.setUint8(base + 6, zInt & 0xff);\n this.view.setUint8(base + 7, (zInt >> 8) & 0xff);\n this.view.setUint8(base + 8, (zInt >> 16) & 0xff);\n }\n\n setAlpha(index: number, alpha: number) {\n const base = 16 + this.numSplats * 9 + index;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round(alpha * 255))),\n );\n }\n\n static scaleRgb(r: number) {\n const v = ((r - 0.5) / (SH_C0 / 0.15) + 0.5) * 255;\n return Math.max(0, Math.min(255, Math.round(v)));\n }\n\n setRgb(index: number, r: number, g: number, b: number) {\n const base = 16 + this.numSplats * 10 + index * 3;\n this.view.setUint8(base, SpzWriter.scaleRgb(r));\n this.view.setUint8(base + 1, SpzWriter.scaleRgb(g));\n this.view.setUint8(base + 2, SpzWriter.scaleRgb(b));\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n const base = 16 + this.numSplats * 13 + index * 3;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleX) + 10) * 16))),\n );\n this.view.setUint8(\n base + 1,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleY) + 10) * 16))),\n );\n this.view.setUint8(\n base + 2,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleZ) + 10) * 16))),\n );\n }\n\n setQuat(\n index: number,\n ...q: [number, number, number, number] // x, y, z, w\n ) {\n const base = 16 + this.numSplats * 16 + index * 4;\n\n const quat = normalize(q);\n\n // Find largest component\n let iLargest = 0;\n for (let i = 1; i < 4; ++i) {\n if (Math.abs(quat[i]) > Math.abs(quat[iLargest])) {\n iLargest = i;\n }\n }\n\n // Since -quat represents the same rotation as quat, transform the quaternion so the largest element\n // is positive. This avoids having to send its sign bit.\n const negate = quat[iLargest] < 0 ? 1 : 0;\n\n // Do compression using sign bit and 9-bit precision per element.\n let comp = iLargest;\n for (let i = 0; i < 4; ++i) {\n if (i !== iLargest) {\n const negbit = (quat[i] < 0 ? 1 : 0) ^ negate;\n const mag = Math.floor(\n ((1 << 9) - 1) * (Math.abs(quat[i]) / Math.SQRT1_2) + 0.5,\n );\n comp = (comp << 10) | (negbit << 9) | mag;\n }\n }\n\n this.view.setUint8(base, comp & 0xff);\n this.view.setUint8(base + 1, (comp >> 8) & 0xff);\n this.view.setUint8(base + 2, (comp >> 16) & 0xff);\n this.view.setUint8(base + 3, (comp >>> 24) & 0xff);\n }\n\n static quantizeSh(sh: number, bits: number) {\n const value = Math.round(sh * 128) + 128;\n const bucketSize = 1 << (8 - bits);\n const quantized =\n Math.floor((value + bucketSize / 2) / bucketSize) * bucketSize;\n return Math.max(0, Math.min(255, quantized));\n }\n\n setSh(\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) {\n const shVecs = SH_DEGREE_TO_VECS[this.shDegree] || 0;\n const base1 = 16 + this.numSplats * 20 + index * shVecs * 3;\n for (let j = 0; j < 9; ++j) {\n this.view.setUint8(base1 + j, SpzWriter.quantizeSh(sh1[j], 5));\n }\n if (sh2) {\n const base2 = base1 + 9;\n for (let j = 0; j < 15; ++j) {\n this.view.setUint8(base2 + j, SpzWriter.quantizeSh(sh2[j], 4));\n }\n if (sh3) {\n const base3 = base2 + 15;\n for (let j = 0; j < 21; ++j) {\n this.view.setUint8(base3 + j, SpzWriter.quantizeSh(sh3[j], 4));\n }\n }\n }\n }\n\n async finalize(): Promise {\n const input = new Uint8Array(this.buffer);\n const stream = new ReadableStream({\n async start(controller) {\n controller.enqueue(input);\n controller.close();\n },\n });\n const compressed = stream.pipeThrough(new CompressionStream(\"gzip\"));\n const response = new Response(compressed);\n const buffer = await response.arrayBuffer();\n console.log(\n \"Compressed\",\n input.length,\n \"bytes to\",\n buffer.byteLength,\n \"bytes\",\n );\n return new Uint8Array(buffer);\n }\n}\n\nexport async function transcodeSpz(input: TranscodeSpzInput) {\n const splats = new SplatData();\n const {\n inputs,\n clipXyz,\n maxSh,\n fractionalBits = 12,\n opacityThreshold,\n } = input;\n for (const input of inputs) {\n const scale = input.transform?.scale ?? 1;\n const quaternion = new THREE.Quaternion().fromArray(\n input.transform?.quaternion ?? [0, 0, 0, 1],\n );\n const translate = new THREE.Vector3().fromArray(\n input.transform?.translate ?? [0, 0, 0],\n );\n const clip = clipXyz\n ? new THREE.Box3(\n new THREE.Vector3().fromArray(clipXyz.min),\n new THREE.Vector3().fromArray(clipXyz.max),\n )\n : undefined;\n\n function transformPos(pos: THREE.Vector3) {\n pos.multiplyScalar(scale);\n pos.applyQuaternion(quaternion);\n pos.add(translate);\n return pos;\n }\n\n function transformScales(scales: THREE.Vector3) {\n scales.multiplyScalar(scale);\n return scales;\n }\n\n function transformQuaternion(quat: THREE.Quaternion) {\n quat.premultiply(quaternion);\n return quat;\n }\n\n function withinClip(p: THREE.Vector3) {\n return !clip || clip.containsPoint(p);\n }\n\n function withinOpacity(opacity: number) {\n return opacityThreshold !== undefined\n ? opacity >= opacityThreshold\n : true;\n }\n\n let fileType = input.fileType;\n if (!fileType) {\n fileType = getSplatFileType(input.fileBytes);\n if (!fileType && input.pathOrUrl) {\n fileType = getSplatFileTypeFromPath(input.pathOrUrl);\n }\n }\n switch (fileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes: input.fileBytes });\n await ply.parseHeader();\n let lastIndex: number | null = null;\n ply.parseSplats(\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (sh1 && lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n }\n if (sh2 && lastIndex !== null) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3 && lastIndex !== null) {\n splats.setSh3(lastIndex, sh3);\n }\n },\n );\n break;\n }\n case SplatFileType.SPZ: {\n const spz = new SpzReader({ fileBytes: input.fileBytes });\n await spz.parseHeader();\n const mapping = new Int32Array(spz.numSplats);\n mapping.fill(-1);\n const centers = new Float32Array(spz.numSplats * 3);\n const center = new THREE.Vector3();\n spz.parseSplats(\n (index, x, y, z) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n centers[index * 3] = center.x;\n centers[index * 3 + 1] = center.y;\n centers[index * 3 + 2] = center.z;\n },\n (index, alpha) => {\n center.fromArray(centers, index * 3);\n if (withinClip(center) && withinOpacity(alpha)) {\n mapping[index] = splats.pushSplat();\n splats.setCenter(mapping[index], center.x, center.y, center.z);\n splats.setOpacity(mapping[index], alpha);\n }\n },\n (index, r, g, b) => {\n if (mapping[index] >= 0) {\n splats.setColor(mapping[index], r, g, b);\n }\n },\n (index, scaleX, scaleY, scaleZ) => {\n if (mapping[index] >= 0) {\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(mapping[index], scales.x, scales.y, scales.z);\n }\n },\n (index, quatX, quatY, quatZ, quatW) => {\n if (mapping[index] >= 0) {\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n mapping[index],\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n }\n },\n (index, sh1, sh2, sh3) => {\n if (mapping[index] >= 0) {\n splats.setSh1(mapping[index], sh1);\n if (sh2) {\n splats.setSh2(mapping[index], sh2);\n }\n if (sh3) {\n splats.setSh3(mapping[index], sh3);\n }\n }\n },\n );\n break;\n }\n case SplatFileType.SPLAT:\n decodeAntiSplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n const index = splats.pushSplat();\n splats.setCenter(index, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(index, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n index,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(index, opacity);\n splats.setColor(index, r, g, b);\n }\n },\n );\n break;\n case SplatFileType.KSPLAT: {\n let lastIndex: number | null = null;\n decodeKsplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n if (sh2) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n },\n );\n break;\n }\n default:\n throw new Error(`transcodeSpz not implemented for ${fileType}`);\n }\n }\n\n const shDegree = Math.min(\n maxSh ?? 3,\n splats.sh3 ? 3 : splats.sh2 ? 2 : splats.sh1 ? 1 : 0,\n );\n const spz = new SpzWriter({\n numSplats: splats.numSplats,\n shDegree,\n fractionalBits,\n flagAntiAlias: true,\n });\n\n for (let i = 0; i < splats.numSplats; ++i) {\n const i3 = i * 3;\n const i4 = i * 4;\n spz.setCenter(\n i,\n splats.centers[i3],\n splats.centers[i3 + 1],\n splats.centers[i3 + 2],\n );\n spz.setScale(\n i,\n splats.scales[i3],\n splats.scales[i3 + 1],\n splats.scales[i3 + 2],\n );\n spz.setQuat(\n i,\n splats.quaternions[i4],\n splats.quaternions[i4 + 1],\n splats.quaternions[i4 + 2],\n splats.quaternions[i4 + 3],\n );\n spz.setAlpha(i, splats.opacities[i]);\n spz.setRgb(\n i,\n splats.colors[i3],\n splats.colors[i3 + 1],\n splats.colors[i3 + 2],\n );\n if (splats.sh1 && shDegree >= 1) {\n spz.setSh(\n i,\n splats.sh1.slice(i * 9, (i + 1) * 9),\n shDegree >= 2 && splats.sh2\n ? splats.sh2.slice(i * 15, (i + 1) * 15)\n : undefined,\n shDegree >= 3 && splats.sh3\n ? splats.sh3.slice(i * 21, (i + 1) * 21)\n : undefined,\n );\n }\n }\n\n const spzBytes = await spz.finalize();\n return { fileBytes: spzBytes, clippedCount: spz.clippedCount };\n}\n","import * as THREE from \"three\";\n\n// SplatSkinning is an experimental class that implements dual-quaternion\n// skeletal animation for Gsplats. A skeletal animation system consists\n// of a set of bones, each with a \"rest\" pose that consists of a position\n// and orientation, and a weighting of up to 4 bones for each Gsplat.\n// By moving and rotating the bones you can animate all the Gsplats like\n// your would for a normal 3D animated mesh.\n// Note that the dual-quaternion formulation assumes that mass/volume\n// is conserved through these transformations, which helps avoid common\n// issues with linear blend skinning such as joint collapse or bulging.\n// However, it is not as good a fit for animations that involve explicit\n// deformations, such as cartoon animations.\n\nimport type { SplatMesh } from \"./SplatMesh\";\nimport {\n CovSplat,\n Dyno,\n DynoUniform,\n type DynoVal,\n Gsplat,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { getTextureSize, newArray } from \"./utils\";\n\nexport enum SplatSkinningMode {\n DUAL_QUATERNION = \"dual_quaternion\",\n LINEAR_BLEND = \"linear_blend\",\n}\n\nexport type SplatSkinningOptions = {\n // Specifies the SplatMesh that will be animated.\n mesh: SplatMesh;\n // Overrides the number of Gsplats in the mesh that will be animated.\n // (default: mesh.numSplats)\n numSplats?: number;\n // Set the number of bones used to animate the SplatMesh, with a maximum\n // of 256 (in order to compactly encode the bone index). (default: 256)\n numBones?: number;\n // Set the mode of skinning to use.\n // (default: DUAL_QUATERNION)\n mode?: SplatSkinningMode;\n};\n\nexport class SplatSkinning {\n mesh: SplatMesh;\n numSplats: number;\n mode: SplatSkinningMode;\n\n // Store the skinning weights for each Gsplat, composed of a 4-vector\n // of bone indices and weight\n skinData: Uint16Array;\n skinTexture: THREE.DataArrayTexture;\n\n numBones: number;\n boneData: Float32Array;\n boneTexture: THREE.DataTexture;\n\n boneRestQuatPosScale: {\n quat: THREE.Quaternion;\n pos: THREE.Vector3;\n scale: THREE.Vector3;\n }[];\n boneRestInvMats: THREE.Matrix4[];\n\n uniform: DynoUniform;\n\n constructor(options: SplatSkinningOptions) {\n this.mesh = options.mesh;\n this.numSplats = options.numSplats ?? this.mesh.numSplats;\n this.mode = options.mode ?? SplatSkinningMode.DUAL_QUATERNION;\n\n const { width, height, depth, maxSplats } = getTextureSize(this.numSplats);\n this.skinData = new Uint16Array(maxSplats * 4);\n this.skinTexture = new THREE.DataArrayTexture(\n this.skinData,\n width,\n height,\n depth,\n );\n this.skinTexture.format = THREE.RGBAIntegerFormat;\n this.skinTexture.type = THREE.UnsignedShortType;\n this.skinTexture.internalFormat = \"RGBA16UI\";\n this.skinTexture.needsUpdate = true;\n\n this.numBones = options.numBones ?? 256;\n this.boneData = new Float32Array(this.numBones * 16);\n this.boneTexture = new THREE.DataTexture(\n this.boneData,\n 4,\n this.numBones,\n THREE.RGBAFormat,\n THREE.FloatType,\n );\n this.boneTexture.internalFormat = \"RGBA32F\";\n this.boneTexture.needsUpdate = true;\n\n this.boneRestQuatPosScale = newArray(this.numBones, () => ({\n quat: new THREE.Quaternion(),\n pos: new THREE.Vector3(),\n scale: new THREE.Vector3(),\n }));\n\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n this.boneRestInvMats = newArray(this.numBones, () => new THREE.Matrix4());\n } else {\n this.boneRestInvMats = [];\n }\n\n this.uniform = new DynoUniform({\n key: \"skinning\",\n type: GsplatSkinning,\n globals: () => [defineGsplatSkinning],\n value: {\n numSplats: this.numSplats,\n numBones: this.numBones,\n skinTexture: this.skinTexture,\n boneTexture: this.boneTexture,\n },\n });\n }\n\n // Apply the skeletal animation to a Gsplat in a dyno program.\n modify(gsplat: DynoVal): DynoVal {\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"Linear blend skinning requires covSplats=true\");\n }\n return applyGsplatSkinning(gsplat, this.uniform);\n }\n\n modifyCov(covsplat: DynoVal): DynoVal {\n if (this.mode === SplatSkinningMode.DUAL_QUATERNION) {\n return applyCovSplatDQSkinning(covsplat, this.uniform);\n }\n return applyCovSplatLBSkinning(covsplat, this.uniform);\n }\n\n // Set the \"rest\" pose for a bone with position and quaternion orientation.\n setRestQuatPos(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n ) {\n this.boneRestQuatPosScale[boneIndex].quat.copy(quat);\n this.boneRestQuatPosScale[boneIndex].pos.copy(pos);\n this.boneRestQuatPosScale[boneIndex].scale.copy(SplatSkinning.UNIT_SCALE);\n\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n this.boneRestInvMats[boneIndex]\n .compose(pos, quat, SplatSkinning.UNIT_SCALE)\n .invert();\n }\n\n this.setBoneQuatPos(boneIndex, quat, pos);\n }\n\n getRestQuatPos(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n ) {\n quat.copy(this.boneRestQuatPosScale[boneIndex].quat);\n pos.copy(this.boneRestQuatPosScale[boneIndex].pos);\n }\n\n setRestQuatPosScale(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n scale: THREE.Vector3,\n ) {\n this.boneRestQuatPosScale[boneIndex].quat.copy(quat);\n this.boneRestQuatPosScale[boneIndex].pos.copy(pos);\n this.boneRestQuatPosScale[boneIndex].scale.copy(scale);\n\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n this.boneRestInvMats[boneIndex].compose(pos, quat, scale).invert();\n }\n\n this.setBoneQuatPosScale(boneIndex, quat, pos, scale);\n }\n\n getRestQuatPosScale(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n scale: THREE.Vector3,\n ) {\n quat.copy(this.boneRestQuatPosScale[boneIndex].quat);\n pos.copy(this.boneRestQuatPosScale[boneIndex].pos);\n scale.copy(this.boneRestQuatPosScale[boneIndex].scale);\n }\n\n setRestMatrix(boneIndex: number, matrix: THREE.Matrix4) {\n if (this.mode !== SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"setRestMat only supported for linear blend skinning\");\n }\n this.boneRestInvMats[boneIndex].copy(matrix).invert();\n this.setBoneMatrix(boneIndex, matrix);\n }\n\n getRestMatrix(boneIndex: number, matrix: THREE.Matrix4) {\n if (this.mode !== SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"getRestMat only supported for linear blend skinning\");\n }\n matrix.copy(this.boneRestInvMats[boneIndex]).invert();\n }\n\n // Set the \"current\" position and orientation of a bone.\n setBoneQuatPos(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n ) {\n if (this.mode === SplatSkinningMode.DUAL_QUATERNION) {\n SplatSkinning.relQuat\n .copy(this.boneRestQuatPosScale[boneIndex].quat)\n .invert();\n SplatSkinning.relPos\n .copy(pos)\n .sub(this.boneRestQuatPosScale[boneIndex].pos);\n SplatSkinning.relQuat.multiply(quat);\n SplatSkinning.dual\n .set(\n SplatSkinning.relPos.x,\n SplatSkinning.relPos.y,\n SplatSkinning.relPos.z,\n 0.0,\n )\n .multiply(SplatSkinning.relQuat);\n\n const i16 = boneIndex * 16;\n this.boneData[i16 + 0] = SplatSkinning.relQuat.x;\n this.boneData[i16 + 1] = SplatSkinning.relQuat.y;\n this.boneData[i16 + 2] = SplatSkinning.relQuat.z;\n this.boneData[i16 + 3] = SplatSkinning.relQuat.w;\n this.boneData[i16 + 4] = 0.5 * SplatSkinning.dual.x;\n this.boneData[i16 + 5] = 0.5 * SplatSkinning.dual.y;\n this.boneData[i16 + 6] = 0.5 * SplatSkinning.dual.z;\n this.boneData[i16 + 7] = 0.5 * SplatSkinning.dual.w;\n } else {\n this.setBoneQuatPosScale(boneIndex, quat, pos, SplatSkinning.UNIT_SCALE);\n }\n }\n\n setBoneQuatPosScale(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n scale: THREE.Vector3,\n ) {\n if (this.mode === SplatSkinningMode.DUAL_QUATERNION) {\n throw new Error(\n \"setBoneQuatPosScale only supported for linear blend skinning\",\n );\n }\n\n SplatSkinning.skinMat.compose(pos, quat, scale);\n this.setBoneMatrix(boneIndex, SplatSkinning.skinMat);\n }\n\n setBoneMatrix(boneIndex: number, matrix: THREE.Matrix4) {\n if (this.mode !== SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"setBoneMatrix only supported for linear blend skinning\");\n }\n\n SplatSkinning.skinMat.multiplyMatrices(\n this.boneRestInvMats[boneIndex],\n matrix,\n );\n const i16 = boneIndex * 16;\n this.boneData[i16 + 0] = SplatSkinning.skinMat.elements[0];\n this.boneData[i16 + 1] = SplatSkinning.skinMat.elements[1];\n this.boneData[i16 + 2] = SplatSkinning.skinMat.elements[2];\n this.boneData[i16 + 3] = SplatSkinning.skinMat.elements[4];\n this.boneData[i16 + 4] = SplatSkinning.skinMat.elements[5];\n this.boneData[i16 + 5] = SplatSkinning.skinMat.elements[6];\n this.boneData[i16 + 6] = SplatSkinning.skinMat.elements[8];\n this.boneData[i16 + 7] = SplatSkinning.skinMat.elements[9];\n this.boneData[i16 + 8] = SplatSkinning.skinMat.elements[10];\n this.boneData[i16 + 9] = SplatSkinning.skinMat.elements[12];\n this.boneData[i16 + 10] = SplatSkinning.skinMat.elements[13];\n this.boneData[i16 + 11] = SplatSkinning.skinMat.elements[14];\n }\n\n // Set up to 4 bone indices and weights for a Gsplat. For fewer than 4 bones,\n // you can set the remaining weights to 0 (and index=0).\n setSplatBones(\n splatIndex: number,\n boneIndices: THREE.Vector4,\n weights: THREE.Vector4,\n ) {\n const i4 = splatIndex * 4;\n this.skinData[i4 + 0] =\n Math.min(255, Math.max(0, Math.round(weights.x * 255.0))) +\n (boneIndices.x << 8);\n this.skinData[i4 + 1] =\n Math.min(255, Math.max(0, Math.round(weights.y * 255.0))) +\n (boneIndices.y << 8);\n this.skinData[i4 + 2] =\n Math.min(255, Math.max(0, Math.round(weights.z * 255.0))) +\n (boneIndices.z << 8);\n this.skinData[i4 + 3] =\n Math.min(255, Math.max(0, Math.round(weights.w * 255.0))) +\n (boneIndices.w << 8);\n }\n\n // Call this to indicate that the bones have changed and the Gsplats need to be\n // re-generated with updated skinning.\n updateBones() {\n this.boneTexture.needsUpdate = true;\n this.mesh.needsUpdate = true;\n }\n\n private static UNIT_SCALE = new THREE.Vector3(1, 1, 1);\n private static relQuat = new THREE.Quaternion();\n private static relPos = new THREE.Vector3();\n private static dual = new THREE.Quaternion();\n private static skinMat = new THREE.Matrix4();\n}\n\n// dyno program definitions for SplatSkinning\n\nexport const GsplatSkinning = { type: \"GsplatSkinning\" } as {\n type: \"GsplatSkinning\";\n};\n\nexport const defineGsplatSkinning = unindent(`\n struct GsplatSkinning {\n int numSplats;\n int numBones;\n usampler2DArray skinTexture;\n sampler2D boneTexture;\n };\n`);\n\nexport const defineApplyGsplatSkinning = unindent(`\n void applyGsplatSkinning(\n int numSplats, int numBones,\n usampler2DArray skinTexture, sampler2D boneTexture,\n int splatIndex, inout vec3 center, inout vec4 quaternion\n ) {\n if ((splatIndex < 0) || (splatIndex >= numSplats)) {\n return;\n }\n\n uvec4 skinData = texelFetch(skinTexture, splatTexCoord(splatIndex), 0);\n\n float weights[4];\n weights[0] = float(skinData.x & 0xffu) / 255.0;\n weights[1] = float(skinData.y & 0xffu) / 255.0;\n weights[2] = float(skinData.z & 0xffu) / 255.0;\n weights[3] = float(skinData.w & 0xffu) / 255.0;\n\n uint boneIndices[4];\n boneIndices[0] = (skinData.x >> 8u) & 0xffu;\n boneIndices[1] = (skinData.y >> 8u) & 0xffu;\n boneIndices[2] = (skinData.z >> 8u) & 0xffu;\n boneIndices[3] = (skinData.w >> 8u) & 0xffu;\n\n vec4 quat = vec4(0.0);\n vec4 dual = vec4(0.0);\n for (int i = 0; i < 4; i++) {\n if (weights[i] > 0.0) {\n int boneIndex = int(boneIndices[i]);\n vec4 boneQuat = vec4(0.0, 0.0, 0.0, 1.0);\n vec4 boneDual = vec4(0.0);\n if (boneIndex < numBones) {\n boneQuat = texelFetch(boneTexture, ivec2(0, boneIndex), 0);\n boneDual = texelFetch(boneTexture, ivec2(1, boneIndex), 0);\n }\n\n if ((i > 0) && (dot(quat, boneQuat) < 0.0)) {\n // Flip sign if next blend is pointing in the opposite direction\n boneQuat = -boneQuat;\n boneDual = -boneDual;\n }\n quat += weights[i] * boneQuat;\n dual += weights[i] * boneDual;\n }\n }\n\n // Normalize dual quaternion\n float norm = length(quat);\n quat /= norm;\n dual /= norm;\n vec3 translate = vec3(\n 2.0 * (-dual.w * quat.x + dual.x * quat.w - dual.y * quat.z + dual.z * quat.y),\n 2.0 * (-dual.w * quat.y + dual.x * quat.z + dual.y * quat.w - dual.z * quat.x),\n 2.0 * (-dual.w * quat.z - dual.x * quat.y + dual.y * quat.x + dual.z * quat.w)\n );\n\n center = quatVec(quat, center) + translate;\n quaternion = quatQuat(quat, quaternion);\n }\n`);\n\nfunction applyGsplatSkinning(\n gsplat: DynoVal,\n skinning: DynoVal,\n): DynoVal {\n const dyno = new Dyno<\n { gsplat: typeof Gsplat; skinning: typeof GsplatSkinning },\n { gsplat: typeof Gsplat }\n >({\n inTypes: { gsplat: Gsplat, skinning: GsplatSkinning },\n outTypes: { gsplat: Gsplat },\n globals: () => [defineGsplatSkinning, defineApplyGsplatSkinning],\n inputs: { gsplat, skinning },\n statements: ({ inputs, outputs }) => {\n const { skinning } = inputs;\n const { gsplat } = outputs;\n return unindentLines(`\n ${gsplat} = ${inputs.gsplat};\n if (isGsplatActive(${gsplat}.flags)) {\n applyGsplatSkinning(\n ${skinning}.numSplats, ${skinning}.numBones,\n ${skinning}.skinTexture, ${skinning}.boneTexture,\n ${gsplat}.index, ${gsplat}.center, ${gsplat}.quaternion\n );\n }\n `);\n },\n });\n return dyno.outputs.gsplat;\n}\n\nexport const defineApplyCovSplatDQSkinning = unindent(`\n void applyCovSplatDQSkinning(\n int numSplats, int numBones,\n usampler2DArray skinTexture, sampler2D boneTexture,\n int splatIndex, inout vec3 center, inout vec3 xxyyzz, inout vec3 xyxzyz\n ) {\n if ((splatIndex < 0) || (splatIndex >= numSplats)) {\n return;\n }\n\n uvec4 skinData = texelFetch(skinTexture, splatTexCoord(splatIndex), 0);\n\n float weights[4];\n weights[0] = float(skinData.x & 0xffu) / 255.0;\n weights[1] = float(skinData.y & 0xffu) / 255.0;\n weights[2] = float(skinData.z & 0xffu) / 255.0;\n weights[3] = float(skinData.w & 0xffu) / 255.0;\n\n uint boneIndices[4];\n boneIndices[0] = (skinData.x >> 8u) & 0xffu;\n boneIndices[1] = (skinData.y >> 8u) & 0xffu;\n boneIndices[2] = (skinData.z >> 8u) & 0xffu;\n boneIndices[3] = (skinData.w >> 8u) & 0xffu;\n\n vec4 quat = vec4(0.0);\n vec4 dual = vec4(0.0);\n for (int i = 0; i < 4; i++) {\n if (weights[i] > 0.0) {\n int boneIndex = int(boneIndices[i]);\n vec4 boneQuat = vec4(0.0, 0.0, 0.0, 1.0);\n vec4 boneDual = vec4(0.0);\n if (boneIndex < numBones) {\n boneQuat = texelFetch(boneTexture, ivec2(0, boneIndex), 0);\n boneDual = texelFetch(boneTexture, ivec2(1, boneIndex), 0);\n }\n\n if ((i > 0) && (dot(quat, boneQuat) < 0.0)) {\n // Flip sign if next blend is pointing in the opposite direction\n boneQuat = -boneQuat;\n boneDual = -boneDual;\n }\n quat += weights[i] * boneQuat;\n dual += weights[i] * boneDual;\n }\n }\n\n // Normalize dual quaternion\n float norm = length(quat);\n quat /= norm;\n dual /= norm;\n vec3 translate = vec3(\n 2.0 * (-dual.w * quat.x + dual.x * quat.w - dual.y * quat.z + dual.z * quat.y),\n 2.0 * (-dual.w * quat.y + dual.x * quat.z + dual.y * quat.w - dual.z * quat.x),\n 2.0 * (-dual.w * quat.z - dual.x * quat.y + dual.y * quat.x + dual.z * quat.w)\n );\n mat3 basis = quaternionToMatrix(quat);\n\n center = quatVec(quat, center) + translate;\n\n mat3 cov = mat3(xxyyzz.x, xyxzyz.x, xyxzyz.y, xyxzyz.x, xxyyzz.y, xyxzyz.z, xyxzyz.y, xyxzyz.z, xxyyzz.z);\n cov = basis * cov * transpose(basis);\n xxyyzz = vec3(cov[0][0], cov[1][1], cov[2][2]);\n xyxzyz = vec3(cov[0][1], cov[0][2], cov[1][2]);\n }\n`);\n\nexport const defineApplyCovSplatLBSkinning = unindent(`\n void applyCovSplatLBSkinning(\n int numSplats, int numBones,\n usampler2DArray skinTexture, sampler2D boneTexture,\n int splatIndex, inout vec3 center, inout vec3 xxyyzz, inout vec3 xyxzyz\n ) {\n if ((splatIndex < 0) || (splatIndex >= numSplats)) {\n return;\n }\n\n uvec4 skinData = texelFetch(skinTexture, splatTexCoord(splatIndex), 0);\n\n float weights[4];\n weights[0] = float(skinData.x & 0xffu) / 255.0;\n weights[1] = float(skinData.y & 0xffu) / 255.0;\n weights[2] = float(skinData.z & 0xffu) / 255.0;\n weights[3] = float(skinData.w & 0xffu) / 255.0;\n\n uint boneIndices[4];\n boneIndices[0] = (skinData.x >> 8u) & 0xffu;\n boneIndices[1] = (skinData.y >> 8u) & 0xffu;\n boneIndices[2] = (skinData.z >> 8u) & 0xffu;\n boneIndices[3] = (skinData.w >> 8u) & 0xffu;\n\n mat3 basis = mat3(0.0);\n vec3 offset = vec3(0.0);\n\n for (int i = 0; i < 4; i++) {\n if (weights[i] > 0.0) {\n int boneIndex = int(boneIndices[i]);\n if (boneIndex < numBones) {\n vec4 v0 = texelFetch(boneTexture, ivec2(0, boneIndex), 0);\n vec4 v1 = texelFetch(boneTexture, ivec2(1, boneIndex), 0);\n vec4 v2 = texelFetch(boneTexture, ivec2(2, boneIndex), 0);\n basis += weights[i] * mat3(v0.x, v0.y, v0.z, v0.w, v1.x, v1.y, v1.z, v1.w, v2.x);\n offset += weights[i] * vec3(v2.y, v2.z, v2.w);\n }\n }\n }\n\n center = basis * center + offset;\n\n mat3 cov = mat3(xxyyzz.x, xyxzyz.x, xyxzyz.y, xyxzyz.x, xxyyzz.y, xyxzyz.z, xyxzyz.y, xyxzyz.z, xxyyzz.z);\n cov = basis * cov * transpose(basis);\n xxyyzz = vec3(cov[0][0], cov[1][1], cov[2][2]);\n xyxzyz = vec3(cov[0][1], cov[0][2], cov[1][2]);\n }\n`);\n\nfunction applyCovSplatDQSkinning(\n covsplat: DynoVal,\n skinning: DynoVal,\n): DynoVal {\n const dyno = new Dyno<\n { covsplat: typeof CovSplat; skinning: typeof GsplatSkinning },\n { covsplat: typeof CovSplat }\n >({\n inTypes: { covsplat: CovSplat, skinning: GsplatSkinning },\n outTypes: { covsplat: CovSplat },\n globals: () => [defineGsplatSkinning, defineApplyCovSplatDQSkinning],\n inputs: { covsplat, skinning },\n statements: ({ inputs, outputs }) => {\n const { skinning } = inputs;\n const { covsplat } = outputs;\n return unindentLines(`\n ${covsplat} = ${inputs.covsplat};\n if (isCovSplatActive(${covsplat}.flags)) {\n applyCovSplatDQSkinning(\n ${skinning}.numSplats, ${skinning}.numBones,\n ${skinning}.skinTexture, ${skinning}.boneTexture,\n ${covsplat}.index, ${covsplat}.center, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz\n );\n }\n `);\n },\n });\n return dyno.outputs.covsplat;\n}\n\nfunction applyCovSplatLBSkinning(\n covsplat: DynoVal,\n skinning: DynoVal,\n): DynoVal {\n const dyno = new Dyno<\n { covsplat: typeof CovSplat; skinning: typeof GsplatSkinning },\n { covsplat: typeof CovSplat }\n >({\n inTypes: { covsplat: CovSplat, skinning: GsplatSkinning },\n outTypes: { covsplat: CovSplat },\n globals: () => [defineGsplatSkinning, defineApplyCovSplatLBSkinning],\n inputs: { covsplat, skinning },\n statements: ({ inputs, outputs }) => {\n const { skinning } = inputs;\n const { covsplat } = outputs;\n return unindentLines(`\n ${covsplat} = ${inputs.covsplat};\n if (isCovSplatActive(${covsplat}.flags)) {\n applyCovSplatLBSkinning(\n ${skinning}.numSplats, ${skinning}.numBones,\n ${skinning}.skinTexture, ${skinning}.boneTexture,\n ${covsplat}.index, ${covsplat}.center, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz\n );\n }\n `);\n },\n });\n return dyno.outputs.covsplat;\n}\n","import * as THREE from \"three\";\nimport { PackedSplats } from \"./PackedSplats\";\nimport { SplatMesh } from \"./SplatMesh\";\n\nexport function constructGrid({\n // PackedSplats object to add splats to\n splats,\n // min and max box extents of the grid\n extents,\n // step size along each grid axis\n stepSize = 1,\n // spherical radius of each Gsplat\n pointRadius = 0.01,\n // relative size of the \"shadow copy\" of each Gsplat placed behind it\n pointShadowScale = 2.0,\n // Gsplat opacity\n opacity = 1.0,\n // Gsplat color (THREE.Color) or function to set color for position:\n // ((THREE.Color, THREE.Vector3) => void) (default: RGB-modulated grid)\n color,\n}: {\n splats: PackedSplats;\n extents: THREE.Box3;\n stepSize?: number;\n pointRadius?: number;\n pointShadowScale?: number;\n opacity?: number;\n color?: THREE.Color | ((color: THREE.Color, point: THREE.Vector3) => void);\n}) {\n const EPSILON = 1.0e-6;\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3();\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n if (color == null) {\n color = (color, point) =>\n color.set(\n 0.55 + 0.45 * Math.cos(point.x * 1),\n 0.55 + 0.45 * Math.cos(point.y * 1),\n 0.55 + 0.45 * Math.cos(point.z * 1),\n );\n }\n const pointColor = new THREE.Color();\n for (let z = extents.min.z; z < extents.max.z + EPSILON; z += stepSize) {\n for (let y = extents.min.y; y < extents.max.y + EPSILON; y += stepSize) {\n for (let x = extents.min.x; x < extents.max.x + EPSILON; x += stepSize) {\n center.set(x, y, z);\n for (let layer = 0; layer < 2; ++layer) {\n scales.setScalar(pointRadius * (layer ? 1 : pointShadowScale));\n if (!layer) {\n pointColor.setScalar(0.0);\n } else if (typeof color === \"function\") {\n color(pointColor, center);\n } else {\n pointColor.copy(color);\n }\n splats.pushSplat(center, scales, quaternion, opacity, pointColor);\n }\n }\n }\n }\n}\n\nexport function constructAxes({\n // PackedSplats object to add splats to\n splats,\n // scale (Gsplat scale along axis)\n scale = 0.25,\n // radius of the axes (Gsplat scale orthogonal to axis)\n axisRadius = 0.0075,\n // relative size of the \"shadow copy\" of each Gsplat placed behind it\n axisShadowScale = 2.0,\n // origins of the axes (default single axis at origin)\n origins = [new THREE.Vector3()],\n}: {\n splats: PackedSplats;\n scale?: number;\n axisRadius?: number;\n axisShadowScale?: number;\n origins?: THREE.Vector3[];\n}) {\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3();\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n const color = new THREE.Color();\n const opacity = 1.0;\n for (const origin of origins) {\n for (let axis = 0; axis < 3; ++axis) {\n center.set(\n origin.x + (axis === 0 ? scale : 0),\n origin.y + (axis === 1 ? scale : 0),\n origin.z + (axis === 2 ? scale : 0),\n );\n for (let layer = 0; layer < 2; ++layer) {\n scales.set(\n (axis === 0 ? scale : axisRadius) * (layer ? 1 : axisShadowScale),\n (axis === 1 ? scale : axisRadius) * (layer ? 1 : axisShadowScale),\n (axis === 2 ? scale : axisRadius) * (layer ? 1 : axisShadowScale),\n );\n color.setRGB(\n layer === 0 ? 0.0 : axis === 0 ? 1.0 : 0.0,\n layer === 0 ? 0.0 : axis === 1 ? 1.0 : 0.0,\n layer === 0 ? 0.0 : axis === 2 ? 1.0 : 0.0,\n );\n splats.pushSplat(center, scales, quaternion, opacity, color);\n }\n }\n }\n}\n\nexport function constructSpherePoints({\n // PackedSplats object to add splats to\n splats,\n // center of the sphere (default: origin)\n origin = new THREE.Vector3(),\n // radius of the sphere\n radius = 1.0,\n // maximum depth of recursion for subdividing the sphere\n // Warning: Gsplat count grows exponentially with depth\n maxDepth = 3,\n // filter function to apply to each point, for example to select\n // points in a certain direction or other function ((THREE.Vector3) => boolean)\n // (default: null)\n filter = null,\n // radius of each oriented Gsplat\n pointRadius = 0.02,\n // flatness of each oriented Gsplat\n pointThickness = 0.001,\n // color of each Gsplat (THREE.Color) or function to set color for point:\n // ((THREE.Color, THREE.Vector3) => void) (default: white)\n color = new THREE.Color(1, 1, 1),\n}: {\n splats: PackedSplats;\n origin?: THREE.Vector3;\n radius?: number;\n maxDepth?: number;\n filter?: ((point: THREE.Vector3) => boolean) | null;\n pointRadius?: number;\n pointThickness?: number;\n color?: THREE.Color | ((color: THREE.Color, point: THREE.Vector3) => void);\n}) {\n const pointsHash: { [key: string]: THREE.Vector3 } = {};\n\n function addPoint(p: THREE.Vector3) {\n if (filter && !filter(p)) {\n return;\n }\n const key = `${p.x},${p.y},${p.z}`;\n if (!pointsHash[key]) {\n pointsHash[key] = p;\n }\n }\n\n function recurse(\n depth: number,\n p0: THREE.Vector3,\n p1: THREE.Vector3,\n p2: THREE.Vector3,\n ) {\n addPoint(p0);\n addPoint(p1);\n addPoint(p2);\n if (depth >= maxDepth) {\n return;\n }\n const p01 = new THREE.Vector3().addVectors(p0, p1).normalize();\n const p12 = new THREE.Vector3().addVectors(p1, p2).normalize();\n const p20 = new THREE.Vector3().addVectors(p2, p0).normalize();\n recurse(depth + 1, p0, p01, p20);\n recurse(depth + 1, p01, p1, p12);\n recurse(depth + 1, p20, p12, p2);\n recurse(depth + 1, p01, p12, p20);\n }\n\n for (const x of [-1, 1]) {\n for (const y of [-1, 1]) {\n for (const z of [-1, 1]) {\n const p0 = new THREE.Vector3(x, 0, 0);\n const p1 = new THREE.Vector3(0, y, 0);\n const p2 = new THREE.Vector3(0, 0, z);\n recurse(0, p0, p1, p2);\n }\n }\n }\n\n const points = Object.values(pointsHash);\n const scales = new THREE.Vector3(pointRadius, pointRadius, pointThickness);\n const quaternion = new THREE.Quaternion();\n const pointColor = typeof color === \"function\" ? new THREE.Color() : color;\n for (const point of points) {\n quaternion.setFromUnitVectors(new THREE.Vector3(0, 0, -1), point);\n if (typeof color === \"function\") {\n color(pointColor, point);\n }\n point.multiplyScalar(radius);\n point.add(origin);\n splats.pushSplat(point, scales, quaternion, 1.0, pointColor);\n }\n}\n\nexport function textSplats({\n // text string to display\n text,\n // browser font to render text with (default: \"Arial\")\n font,\n // font size in pixels/Gsplats (default: 32)\n fontSize,\n // SplatMesh.recolor tint assuming white Gsplats (default: white)\n color,\n // Individual Gsplat color (default: white)\n rgb,\n // Gsplat radius (default: 0.8 covers 1-unit spacing well)\n dotRadius,\n // text alignment: \"left\", \"center\", \"right\", \"start\", \"end\" (default: \"start\")\n textAlign,\n // line spacing multiplier, lines delimited by \"\\n\" (default: 1.0)\n lineHeight,\n // Coordinate scale in object-space (default: 1.0)\n objectScale,\n}: {\n text: string;\n font?: string;\n fontSize?: number;\n color?: THREE.Color;\n rgb?: THREE.Color;\n dotRadius?: number;\n textAlign?: \"left\" | \"center\" | \"right\" | \"start\" | \"end\";\n lineHeight?: number;\n objectScale?: number;\n}) {\n font = font ?? \"Arial\";\n fontSize = fontSize ?? 32;\n color = color ?? new THREE.Color(1, 1, 1);\n dotRadius = dotRadius ?? 0.8;\n textAlign = textAlign ?? \"start\";\n lineHeight = lineHeight ?? 1;\n objectScale = objectScale ?? 1;\n const lines = text.split(\"\\n\");\n\n const canvas = document.createElement(\"canvas\");\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n throw new Error(\"Failed to create canvas context\");\n }\n\n ctx.font = `${fontSize}px ${font}`;\n ctx.textAlign = textAlign;\n const metrics = ctx.measureText(\"\");\n const fontHeight =\n metrics.fontBoundingBoxAscent + metrics.fontBoundingBoxDescent;\n\n let minLeft = Number.POSITIVE_INFINITY;\n let maxRight = Number.NEGATIVE_INFINITY;\n let minTop = Number.POSITIVE_INFINITY;\n let maxBottom = Number.NEGATIVE_INFINITY;\n for (let line = 0; line < lines.length; ++line) {\n const metrics = ctx.measureText(lines[line]);\n const y = fontHeight * lineHeight * line;\n minLeft = Math.min(minLeft, -metrics.actualBoundingBoxLeft);\n maxRight = Math.max(maxRight, metrics.actualBoundingBoxRight);\n minTop = Math.min(minTop, y - metrics.actualBoundingBoxAscent);\n maxBottom = Math.max(maxBottom, y + metrics.actualBoundingBoxDescent);\n }\n const originLeft = Math.floor(minLeft);\n const originTop = Math.floor(minTop);\n const width = Math.ceil(maxRight) - originLeft;\n const height = Math.ceil(maxBottom) - originTop;\n canvas.width = width;\n canvas.height = height;\n\n ctx.font = `${fontSize}px ${font}`;\n ctx.textAlign = textAlign;\n ctx.textBaseline = \"alphabetic\";\n ctx.fillStyle = \"#FFFFFF\";\n for (let i = 0; i < lines.length; ++i) {\n const y = fontHeight * lineHeight * i - originTop;\n ctx.fillText(lines[i], -originLeft, y);\n }\n\n const imageData = ctx.getImageData(0, 0, width, height);\n const rgba = new Uint8Array(imageData.data.buffer);\n const splats = new PackedSplats();\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3().setScalar(dotRadius * objectScale);\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n rgb = rgb ?? new THREE.Color(1, 1, 1);\n\n let offset = 0;\n for (let y = 0; y < height; ++y) {\n for (let x = 0; x < width; ++x) {\n const a = rgba[offset + 3];\n if (a > 0) {\n const opacity = a / 255;\n center.set(x - 0.5 * (width - 1), 0.5 * (height - 1) - y, 0);\n center.multiplyScalar(objectScale);\n splats.pushSplat(center, scales, quaternion, opacity, rgb);\n }\n offset += 4;\n }\n }\n\n const mesh = new SplatMesh({ packedSplats: splats });\n mesh.recolor = color;\n return mesh;\n}\n\nexport function imageSplats({\n // URL of the image to convert to splats (example: `url: \"./image.png\"`)\n url,\n // Radius of each Gsplat, default covers 1-unit spacing well (default: 0.8)\n dotRadius,\n // Subsampling factor for the image. Higher values reduce resolution,\n // for example 2 will halve the width and height by averaging (default: 1)\n subXY,\n // Optional callback function to modify each Gsplat before it's added.\n // Return null to skip adding the Gsplat, or a number to set the opacity\n // and add the Gsplat with parameter values in the objects center, rgba etc. were\n // passed into the forEachSplat callback. Ending the callback in `return opacity;`\n // will retain the original opacity.\n // ((width: number, height: number, index: number, center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion, opacity: number, color: THREE.Color) => number | null)\n forEachSplat,\n}: {\n url: string;\n dotRadius?: number;\n subXY?: number;\n forEachSplat?: (\n width: number,\n height: number,\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => number | null;\n}): SplatMesh {\n dotRadius = dotRadius ?? 0.8;\n subXY = Math.max(1, Math.floor(subXY ?? 1));\n\n return new SplatMesh({\n constructSplats: async (splats) => {\n return new Promise((resolve, reject) => {\n const img = new Image();\n img.crossOrigin = \"anonymous\";\n img.onerror = reject;\n img.onload = () => {\n const { width, height } = img;\n const canvas = document.createElement(\"canvas\");\n canvas.width = width;\n canvas.height = height;\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n reject(new Error(\"Failed to create canvas context\"));\n return;\n }\n ctx.imageSmoothingEnabled = true;\n ctx.imageSmoothingQuality = \"high\";\n const destWidth = Math.round(width / subXY);\n const destHeight = Math.round(height / subXY);\n ctx.drawImage(img, 0, 0, destWidth, destHeight);\n try {\n const imageData = ctx.getImageData(0, 0, destWidth, destHeight);\n const rgba = new Uint8Array(imageData.data.buffer);\n\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3().setScalar(dotRadius);\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n const rgb = new THREE.Color();\n\n let index = 0;\n for (let y = 0; y < destHeight; ++y) {\n for (let x = 0; x < destWidth; ++x) {\n const offset = index * 4;\n const a = rgba[offset + 3];\n if (a > 0) {\n let opacity = a / 255;\n rgb.set(\n rgba[offset + 0] / 255,\n rgba[offset + 1] / 255,\n rgba[offset + 2] / 255,\n );\n center.set(\n x - 0.5 * (destWidth - 1),\n 0.5 * (destHeight - 1) - y,\n 0,\n );\n scales.setScalar(dotRadius);\n quaternion.set(0, 0, 0, 1);\n let push = true;\n if (forEachSplat) {\n const maybeOpacity = forEachSplat(\n destWidth,\n destHeight,\n index,\n center,\n scales,\n quaternion,\n opacity,\n rgb,\n );\n opacity = maybeOpacity ?? opacity;\n push = maybeOpacity !== null;\n }\n if (push) {\n splats.pushSplat(center, scales, quaternion, opacity, rgb);\n }\n }\n index += 1;\n }\n }\n resolve();\n } catch (error) {\n reject(error);\n }\n };\n img.src = url;\n });\n },\n });\n}\n","import * as THREE from \"three\";\nimport { SplatGenerator, SplatTransformer } from \"../SplatGenerator\";\nimport {\n type DynoVal,\n Gsplat,\n add,\n combine,\n combineGsplat,\n defineGsplat,\n div,\n dynoBlock,\n dynoConst,\n dynoFloat,\n dynoLiteral,\n floatBitsToInt,\n hashVec3,\n imod,\n mul,\n split,\n sub,\n vec3,\n} from \"../dyno\";\n\nexport function staticBox({\n box,\n cells,\n dotScale,\n color,\n opacity,\n}: {\n box: THREE.Box3;\n cells: THREE.Vector3;\n dotScale: number;\n color?: THREE.Color;\n opacity?: number;\n}) {\n cells.x = Math.max(1, Math.round(cells.x));\n cells.y = Math.max(1, Math.round(cells.y));\n cells.z = Math.max(1, Math.round(cells.z));\n opacity = opacity ?? 1;\n const numSplats = cells.x * cells.y * cells.z;\n const dynoX = dynoConst(\"int\", cells.x);\n const dynoY = dynoConst(\"int\", cells.y);\n const dynoZ = dynoConst(\"int\", cells.z);\n\n const dynoTime = dynoFloat(0);\n const generator = new SplatGenerator({\n numSplats,\n generator: dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n const cellX = imod(index, dynoX);\n const index2 = div(index, dynoX);\n const cellY = imod(index2, dynoY);\n const cellZ = div(index2, dynoY);\n const cell = combine({\n vectorType: \"ivec3\",\n x: cellX,\n y: cellY,\n z: cellZ,\n });\n\n const intTime = floatBitsToInt(dynoTime);\n const inputs = combine({ vectorType: \"ivec2\", x: index, y: intTime });\n const random = hashVec3(inputs);\n const min = dynoConst(\"vec3\", box.min);\n const max = dynoConst(\"vec3\", box.max);\n const size = sub(max, min);\n const coord = div(add(vec3(cell), random), dynoConst(\"vec3\", cells));\n let r: DynoVal<\"float\">;\n let g: DynoVal<\"float\">;\n let b: DynoVal<\"float\">;\n if (color) {\n r = dynoConst(\"float\", color.r);\n g = dynoConst(\"float\", color.g);\n b = dynoConst(\"float\", color.b);\n } else {\n ({ r, g, b } = split(coord).outputs);\n }\n const rgba = combine({\n vectorType: \"vec4\",\n r,\n g,\n b,\n a: dynoConst(\"float\", opacity),\n });\n const center = add(min, mul(size, coord));\n const scales = vec3(dynoConst(\"float\", dotScale));\n const quaternion = dynoConst(\"vec4\", new THREE.Quaternion(0, 0, 0, 1));\n let gsplat = combineGsplat({\n flags: dynoLiteral(\"uint\", \"GSPLAT_FLAG_ACTIVE\"),\n index: index,\n center,\n scales,\n quaternion,\n rgba,\n });\n gsplat = transformer.applyGsplat(gsplat);\n return { gsplat };\n },\n {\n globals: () => [defineGsplat],\n },\n ),\n update: ({ time }) => {\n dynoTime.value = time;\n const _updated = transformer.update(generator);\n generator.updateVersion();\n },\n });\n const transformer: SplatTransformer = new SplatTransformer();\n return generator;\n}\n","import * as THREE from \"three\";\n\nimport { SplatGenerator, SplatTransformer } from \"../SplatGenerator\";\nimport {\n Gsplat,\n add,\n combine,\n combineGsplat,\n defineGsplat,\n dynoBlock,\n dynoConst,\n dynoFloat,\n dynoLiteral,\n fract,\n hashVec4,\n max,\n mix,\n mod,\n mul,\n sin,\n split,\n sub,\n vec3,\n} from \"../dyno\";\nimport { dynoVec3 } from \"../dyno\";\n\n// snowBox produces Gsplat trajectories that move in a deterministic fashion over time,\n// with high similarity between adjacent frames. See examples/atmospheric/main.js\n// for an example that creates a snowBox.\n\n// A snowBox instance has a collection of properties that can be tuned to achieve\n// different particle effects. The below DEFAULT_SNOW and DEFAULT_RAIN are example\n// parameter sets that look a lot like snow and rain, and can be used as a starting\n// point for further tweaking: `const mySnow = { ...DEFAULT_SNOW, density: 500 };`\n\nexport const DEFAULT_SNOW = {\n box: new THREE.Box3(\n new THREE.Vector3(-1, -1, -1),\n new THREE.Vector3(1, 1, 1),\n ),\n density: 100,\n fallDirection: new THREE.Vector3(-1, -3, 1).normalize(),\n fallVelocity: 0.02,\n wanderScale: 0.04,\n wanderVariance: 2,\n color1: new THREE.Color(1, 1, 1),\n color2: new THREE.Color(0.5, 0.5, 1),\n minScale: 0.001,\n maxScale: 0.005,\n anisoScale: new THREE.Vector3(1, 1, 1),\n};\n\nexport const DEFAULT_RAIN = {\n box: new THREE.Box3(\n new THREE.Vector3(-2, -1, -2),\n new THREE.Vector3(2, 5, 2),\n ),\n density: 10,\n fallDirection: new THREE.Vector3(0, -1, 0),\n fallVelocity: 2,\n wanderScale: 0.1,\n wanderVariance: 1,\n color1: new THREE.Color(1, 1, 1),\n color2: new THREE.Color(0.25, 0.25, 0.5),\n minScale: 0.005,\n maxScale: 0.01,\n anisoScale: new THREE.Vector3(0.1, 1, 0.1),\n};\n\n// Calling snowBox creates a new snowBox instance and returns an object with\n// the snowBox itself as well `as` a collection of controls that can be used to\n// adjust the snowBox's properties over time:\n//\n// - snow: the SplatGenerator snowBox instance\n// - min: the vec3 uniform of the snowBox minimum position\n// - max: the vec3 uniform of the snowBox maximum position\n// - minY: the float uniform of the snowBox minimum y-coordinate\n// - color1: the vec3 uniform of the snowBox first color\n// - color2: the vec3 uniform of the snowBox second color\n// - opacity: the float uniform of the snowBox opacity\n// - fallVelocity: the float uniform of the snowBox fall velocity\n// - wanderVariance: the float uniform of the snowBox wander variance\n// - wanderScale: the float uniform of the snowBox wander scale\n// - fallDirection: the vec3 uniform of the snowBox fall direction\n// - minScale: the float uniform of the snowBox minimum scale\n// - maxScale: the float uniform of the snowBox maximum scale\n// - anisoScale: the vec3 uniform of the snowBox anisotropic scale\n\nexport function snowBox({\n // min and max box extents of the snowBox\n box,\n // minimum y-coordinate to clamp particle position, which can be used to\n // fake hitting a ground plane and lingering there for a bit\n minY,\n // number of Gsplats to generate (default: calculated from box and density)\n numSplats,\n // density of Gsplats per unit volume (default: 100)\n density,\n // The xyz anisotropic scale of the Gsplat, which can be used for example\n // to elongate rain particles (default: (1, 1, 1))\n anisoScale,\n // Minimum Gsplat particle scale (default: 0.001)\n minScale,\n // Maximum Gsplat particle scale (default: 0.005)\n maxScale,\n // The average direction of fall (default: (0, -1, 0))\n fallDirection,\n // The average speed of the fall (multiplied with fallDirection) (default: 0.02)\n fallVelocity,\n // The world scale of wandering overlay motion (default: 0.01)\n wanderScale,\n // Controls how uniformly the particles wander in sync, more variance mean\n // more randomness in the motion (default: 2)\n wanderVariance,\n // Color 1 of the two colors interpolated between (default: (1, 1, 1))\n color1,\n // Color 2 of the two colors interpolated between (default: (0.5, 0.5, 1))\n color2,\n // The base opacity of the Gsplats (default: 1)\n opacity,\n // Optional callback function to call each frame.\n onFrame,\n}: {\n box?: THREE.Box3;\n minY?: number;\n numSplats?: number;\n density?: number;\n anisoScale?: THREE.Vector3;\n minScale?: number;\n maxScale?: number;\n fallDirection?: THREE.Vector3;\n fallVelocity?: number;\n wanderScale?: number;\n wanderVariance?: number;\n color1?: THREE.Color;\n color2?: THREE.Color;\n opacity?: number;\n onFrame?: ({\n object,\n time,\n deltaTime,\n }: { object: SplatGenerator; time: number; deltaTime: number }) => void;\n}) {\n box =\n box ??\n new THREE.Box3(new THREE.Vector3(-1, -1, -1), new THREE.Vector3(1, 1, 1));\n const volume =\n (box.max.x - box.min.x) * (box.max.y - box.min.y) * (box.max.z - box.min.z);\n density = density ?? 100;\n numSplats =\n numSplats ?? Math.max(1, Math.min(1000000, Math.round(volume * density)));\n\n const dynoMinScale = dynoFloat(minScale ?? 0.001);\n const dynoMaxScale = dynoFloat(maxScale ?? 0.005);\n const dynoAnisoScale = dynoVec3(\n (anisoScale?.clone() ?? new THREE.Vector3(1, 1, 1)).normalize(),\n );\n const dynoFallDirection = dynoVec3(\n (fallDirection ?? new THREE.Vector3(0, -1, 0)).normalize(),\n );\n const dynoFallVelocity = dynoFloat(fallVelocity ?? 0.02);\n const dynoWanderScale = dynoFloat(wanderScale ?? 0.01);\n const dynoWanderVariance = dynoFloat(wanderVariance ?? 2);\n const dynoColor1 = dynoVec3(color1 ?? new THREE.Color(1, 1, 1));\n const dynoColor2 = dynoVec3(color2 ?? new THREE.Color(0.5, 0.5, 1));\n const dynoOpacity = dynoFloat(opacity ?? 1);\n\n const dynoTime = dynoFloat(0);\n const globalOffset = dynoVec3(new THREE.Vector3(0, 0, 0));\n const dynoMin = dynoVec3(box.min);\n const dynoMax = dynoVec3(box.max);\n const dynoMinY = dynoFloat(minY ?? Number.NEGATIVE_INFINITY);\n const minMax = sub(dynoMax, dynoMin);\n const snow = new SplatGenerator({\n numSplats,\n generator: dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index not defined\");\n }\n const random = hashVec4(index);\n const randomW = split(random).outputs.w;\n let position = vec3(random);\n\n let size = fract(mul(randomW, dynoConst(\"float\", 100)));\n size = sin(mul(dynoLiteral(\"float\", \"PI\"), size));\n size = add(dynoMinScale, mul(size, sub(dynoMaxScale, dynoMinScale)));\n const scales = mul(size, dynoAnisoScale);\n\n const intensity = fract(mul(randomW, dynoConst(\"float\", 10)));\n const hue = fract(randomW);\n const color = mix(dynoColor1, dynoColor2, hue);\n const rgb = mul(color, intensity);\n\n const random2 = hashVec4(\n combine({\n vectorType: \"ivec2\",\n x: index,\n y: dynoConst(\"int\", 0x1ab5),\n }),\n );\n let perturb = vec3(random2);\n let timeOffset = mul(split(random2).outputs.w, dynoWanderVariance);\n timeOffset = add(dynoTime, timeOffset);\n\n position = add(position, globalOffset);\n const modulo = mod(\n position,\n dynoConst(\"vec3\", new THREE.Vector3(1, 1, 1)),\n );\n position = add(dynoMin, mul(minMax, modulo));\n\n const quaternion = dynoConst(\"vec4\", new THREE.Quaternion(0, 0, 0, 1));\n\n perturb = sin(add(vec3(timeOffset), perturb));\n perturb = mul(perturb, dynoWanderScale);\n let center = add(position, perturb);\n\n let centerY = split(center).outputs.y;\n centerY = max(dynoMinY, centerY);\n center = combine({ vector: center, y: centerY });\n\n let gsplat = combineGsplat({\n flags: dynoLiteral(\"uint\", \"GSPLAT_FLAG_ACTIVE\"),\n index: index,\n center,\n scales,\n quaternion,\n rgb,\n opacity: dynoOpacity,\n });\n gsplat = transformer.applyGsplat(gsplat);\n return { gsplat };\n },\n {\n globals: () => [defineGsplat],\n },\n ),\n update: ({ object, time, deltaTime }) => {\n dynoTime.value = time;\n const _updated = transformer.update(snow);\n\n const fallDelta = dynoFallDirection.value\n .clone()\n .multiplyScalar(dynoFallVelocity.value * deltaTime);\n globalOffset.value.add(fallDelta);\n\n // Enable/disable splats based on opacity\n object.visible = dynoOpacity.value > 0;\n\n onFrame?.({ object, time, deltaTime });\n snow.updateVersion();\n },\n });\n const transformer: SplatTransformer = new SplatTransformer();\n return {\n snow,\n min: dynoMin,\n max: dynoMax,\n minY: dynoMinY,\n color1: dynoColor1,\n color2: dynoColor2,\n opacity: dynoOpacity,\n fallVelocity: dynoFallVelocity,\n wanderVariance: dynoWanderVariance,\n wanderScale: dynoWanderScale,\n fallDirection: dynoFallDirection,\n minScale: dynoMinScale,\n maxScale: dynoMaxScale,\n anisoScale: dynoAnisoScale,\n };\n}\n\nexport type SNOW_RESULT_TYPE = ReturnType;\n","import type { SplatTransformer } from \"../SplatGenerator\";\nimport type { SplatMesh } from \"../SplatMesh\";\nimport {\n Gsplat,\n add,\n combineGsplat,\n dot,\n dynoBlock,\n dynoConst,\n greaterThanEqual,\n gsplatNormal,\n mul,\n neg,\n select,\n splitGsplat,\n} from \"../dyno\";\n\nexport function makeNormalColorModifier(splatToView: SplatTransformer) {\n return dynoBlock({ gsplat: Gsplat }, { gsplat: Gsplat }, ({ gsplat }) => {\n if (!gsplat) {\n throw new Error(\"No gsplat input\");\n }\n let normal = gsplatNormal(gsplat);\n\n const viewGsplat = splatToView.applyGsplat(gsplat);\n const viewCenter = splitGsplat(viewGsplat).outputs.center;\n const viewNormal = gsplatNormal(viewGsplat);\n const splatDot = dot(viewCenter, viewNormal);\n\n const sameDir = greaterThanEqual(splatDot, dynoConst(\"float\", 0));\n normal = select(sameDir, neg(normal), normal);\n const rgb = add(\n mul(normal, dynoConst(\"float\", 0.5)),\n dynoConst(\"float\", 0.5),\n );\n\n gsplat = combineGsplat({ gsplat, rgb });\n return { gsplat };\n });\n}\n\nexport function setWorldNormalColor(splats: SplatMesh) {\n splats.enableWorldToView = true;\n splats.worldModifier = makeNormalColorModifier(splats.context.worldToView);\n splats.updateGenerator();\n}\n","import type { SplatTransformer } from \"../SplatGenerator\";\nimport type { SplatMesh } from \"../SplatMesh\";\nimport {\n type DynoVal,\n Gsplat,\n combineGsplat,\n dynoBlock,\n dynoConst,\n neg,\n normalizedDepth,\n select,\n split,\n splitGsplat,\n sub,\n} from \"../dyno\";\n\nexport function makeDepthColorModifier(\n splatToView: SplatTransformer,\n minDepth: DynoVal<\"float\">,\n maxDepth: DynoVal<\"float\">,\n reverse: DynoVal<\"bool\">,\n) {\n return dynoBlock({ gsplat: Gsplat }, { gsplat: Gsplat }, ({ gsplat }) => {\n if (!gsplat) {\n throw new Error(\"No gsplat input\");\n }\n let { center } = splitGsplat(gsplat).outputs;\n center = splatToView.apply(center);\n const { z } = split(center).outputs;\n let depth = normalizedDepth(neg(z), minDepth, maxDepth);\n depth = select(reverse, sub(dynoConst(\"float\", 1), depth), depth);\n\n gsplat = combineGsplat({ gsplat, r: depth, g: depth, b: depth });\n return { gsplat };\n });\n}\n\nexport function setDepthColor(\n splats: SplatMesh,\n minDepth: number,\n maxDepth: number,\n reverse?: boolean,\n) {\n splats.enableWorldToView = true;\n const dynoMinDepth = dynoConst(\"float\", minDepth);\n const dynoMaxDepth = dynoConst(\"float\", maxDepth);\n const dynoReverse = dynoConst(\"bool\", reverse ?? false);\n splats.worldModifier = makeDepthColorModifier(\n splats.context.worldToView,\n dynoMinDepth,\n dynoMaxDepth,\n dynoReverse,\n );\n splats.updateGenerator();\n return {\n minDepth: dynoMinDepth,\n maxDepth: dynoMaxDepth,\n reverse: dynoReverse,\n };\n}\n","import * as THREE from \"three\";\nimport { SplatMesh } from \"./SplatMesh\";\n\nexport interface SparkXrOptions {\n renderer: THREE.WebGLRenderer;\n // Element to attach enter/exit click handler to\n element?: HTMLElement;\n // ID of element to attach enter/exit click handler to\n elementId?: string;\n // Create a button to enter/exit XR\n // Optionally provide button text or HTML\n // Default is true - create a button\n button?: boolean | SparkXrButton;\n // Blur out element when mouse leaves it\n // Default is 0.5 - 50% opacity\n onMouseLeaveOpacity?: number;\n // Default is \"vrar\" - Try VR then AR\n mode?: \"vr\" | \"ar\" | \"arvr\" | \"vrar\";\n // fixedFoveation: XrManager.setFoveation(...)\n fixedFoveation?: number;\n // https://developer.mozilla.org/en-US/docs/Web/API/XRWebGLLayer/XRWebGLLayer#framebufferscalefactor\n // Default is 0.5 - 50% resolution for better frame rate\n frameBufferScaleFactor?: number;\n // https://developer.mozilla.org/en-US/docs/Web/API/XRReferenceSpace#reference_space_types\n // Defaults is \"local\" - origin is the user's position when starting XR session\n referenceSpaceType?: \"local\" | \"local-floor\" | \"unbounded\" | \"viewer\";\n // Enable hand tracking\n // Default is false\n enableHands?: boolean;\n // Allow WebXR entry on mobile phones that expose navigator.xr\n // Defaults to false - blocks phones to avoid unusable split-screen modes\n allowMobileXr?: boolean;\n // Session init options\n // Default is empty - no additional options\n sessionInit?: XRSessionInit;\n // Callback function called when SparkXr is ready\n // Default is undefined - no callback\n onReady?: (supported: boolean) => void | Promise;\n // Callback function called when entering XR\n // Default is undefined - no callback\n onEnterXr?: () => void | Promise;\n // Callback function called when exiting XR\n // Default is undefined - no callback\n onExitXr?: () => void | Promise;\n // ztroller movement and rotation options\n controllers?: SparkXrControllers;\n}\n\nexport interface SparkXrButton {\n enterXrHtml?: string;\n exitXrHtml?: string;\n enterVrHtml?: string;\n exitVrHtml?: string;\n enterArHtml?: string;\n exitArHtml?: string;\n enterXrText?: string;\n exitXrText?: string;\n enterVrText?: string;\n exitVrText?: string;\n enterArText?: string;\n exitArText?: string;\n style?: CSSStyleDeclaration;\n enterStyle?: CSSStyleDeclaration;\n exitStyle?: CSSStyleDeclaration;\n zIndex?: number;\n}\n\nexport type XrGamepads = {\n left?: Gamepad;\n right?: Gamepad;\n leftIsHand?: boolean;\n rightIsHand?: boolean;\n};\n\nexport interface SparkXrControllers {\n moveSpeed?: number;\n rotateSpeed?: number;\n rollSpeed?: number;\n fastMultiplier?: number;\n slowMultiplier?: number;\n moveHeading?: boolean;\n moveDirection?: boolean;\n getMove?: (gamepads: XrGamepads, sparkXr: SparkXr) => THREE.Vector3;\n getRotate?: (gamepads: XrGamepads, sparkXr: SparkXr) => THREE.Vector3;\n getFast?: (gamepads: XrGamepads, sparkXr: SparkXr) => boolean;\n getSlow?: (gamepads: XrGamepads, sparkXr: SparkXr) => boolean;\n}\n\nexport const DEFAULT_CONTROLLER_MOVE_SPEED = 1.0;\nexport const DEFAULT_CONTROLLER_ROTATE_SPEED = 4.0;\nexport const DEFAULT_CONTROLLER_ROLL_SPEED = 2.0;\nexport const DEFAULT_CONTROLLER_FAST_MULTIPLIER = 5;\nexport const DEFAULT_CONTROLLER_SLOW_MULTIPLIER = 1 / 5;\nexport const DEFAULT_CONTROLLER_MOVE_HEADING = false;\n\nexport const DEFAULT_CONTROLLER_GETMOVE = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.leftIsHand\n ? new THREE.Vector3()\n : new THREE.Vector3(\n gamepads.left?.axes[2] ?? 0,\n (gamepads.left?.buttons[0].value ?? 0) -\n (gamepads.left?.buttons[1].value ?? 0),\n gamepads.left?.axes[3] ?? 0,\n );\nexport const DEFAULT_CONTROLLER_GETROTATE = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.rightIsHand\n ? new THREE.Vector3()\n : new THREE.Vector3(gamepads.right?.axes[2] ?? 0, 0, 0);\nexport const DEFAULT_CONTROLLER_GETFAST = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.rightIsHand ? false : (gamepads.right?.buttons[0]?.pressed ?? false);\nexport const DEFAULT_CONTROLLER_GETSLOW = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.rightIsHand ? false : (gamepads.right?.buttons[1]?.pressed ?? false);\n\nexport enum JointEnum {\n w = \"wrist\",\n t0 = \"thumb-metacarpal\",\n t1 = \"thumb-phalanx-proximal\",\n t2 = \"thumb-phalanx-distal\",\n t3 = \"thumb-tip\",\n i0 = \"index-finger-metacarpal\",\n i1 = \"index-finger-phalanx-proximal\",\n i2 = \"index-finger-phalanx-intermediate\",\n i3 = \"index-finger-phalanx-distal\",\n i4 = \"index-finger-tip\",\n m0 = \"middle-finger-metacarpal\",\n m1 = \"middle-finger-phalanx-proximal\",\n m2 = \"middle-finger-phalanx-intermediate\",\n m3 = \"middle-finger-phalanx-distal\",\n m4 = \"middle-finger-tip\",\n r0 = \"ring-finger-metacarpal\",\n r1 = \"ring-finger-phalanx-proximal\",\n r2 = \"ring-finger-phalanx-intermediate\",\n r3 = \"ring-finger-phalanx-distal\",\n r4 = \"ring-finger-tip\",\n p0 = \"pinky-finger-metacarpal\",\n p1 = \"pinky-finger-phalanx-proximal\",\n p2 = \"pinky-finger-phalanx-intermediate\",\n p3 = \"pinky-finger-phalanx-distal\",\n p4 = \"pinky-finger-tip\",\n}\nexport type JointId = keyof typeof JointEnum;\nexport const JOINT_IDS = Object.keys(JointEnum) as JointId[];\nexport const NUM_JOINTS = JOINT_IDS.length;\n\nexport const JOINT_INDEX: { [key in JointId]: number } = {\n w: 0,\n t0: 1,\n t1: 2,\n t2: 3,\n t3: 4,\n i0: 5,\n i1: 6,\n i2: 7,\n i3: 8,\n i4: 9,\n m0: 10,\n m1: 11,\n m2: 12,\n m3: 13,\n m4: 14,\n r0: 15,\n r1: 16,\n r2: 17,\n r3: 18,\n r4: 19,\n p0: 20,\n p1: 21,\n p2: 22,\n p3: 23,\n p4: 24,\n};\n\nexport const JOINT_RADIUS: { [key in JointId]: number } = {\n w: 0.02,\n t0: 0.015,\n t1: 0.012,\n t2: 0.0105,\n t3: 0.0085,\n i0: 0.022,\n i1: 0.012,\n i2: 0.0085,\n i3: 0.0075,\n i4: 0.0065,\n m0: 0.021,\n m1: 0.012,\n m2: 0.008,\n m3: 0.0075,\n m4: 0.0065,\n r0: 0.019,\n r1: 0.011,\n r2: 0.0075,\n r3: 0.007,\n r4: 0.006,\n p0: 0.012,\n p1: 0.01,\n p2: 0.007,\n p3: 0.0065,\n p4: 0.0055,\n};\n\nexport const JOINT_SEGMENTS: JointId[][] = [\n [\"w\", \"t0\", \"t1\", \"t2\", \"t3\"],\n [\"w\", \"i0\", \"i1\", \"i2\", \"i3\", \"i4\"],\n [\"w\", \"m0\", \"m1\", \"m2\", \"m3\", \"m4\"],\n [\"w\", \"r0\", \"r1\", \"r2\", \"r3\", \"r4\"],\n [\"w\", \"p0\", \"p1\", \"p2\", \"p3\", \"p4\"],\n];\n\nexport const JOINT_SEGMENT_STEPS: number[][] = [\n [8, 10, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n];\n\nexport const JOINT_TIPS: JointId[] = [\"t3\", \"i4\", \"m4\", \"r4\", \"p4\"];\nexport const FINGER_TIPS: JointId[] = [\"i4\", \"m4\", \"r4\", \"p4\"];\n\nexport enum Hand {\n left = \"left\",\n right = \"right\",\n}\nexport const HANDS = Object.keys(Hand) as Hand[];\n\nconst XR_HEADSET_HINTS =\n /Quest|OculusBrowser|VisionOS|XRBrowser|Pico|Lynx|MagicLeap/i;\n\nfunction isLikelyMobilePhone() {\n const ua = navigator.userAgent ?? \"\";\n if (XR_HEADSET_HINTS.test(ua)) {\n return false;\n }\n\n const androidMobile = /Android/i.test(ua) || /Mobile/i.test(ua);\n if (androidMobile) {\n return true;\n }\n\n const uaData = (\n navigator as Navigator & {\n userAgentData?: { mobile?: boolean };\n }\n ).userAgentData;\n if (uaData && typeof uaData.mobile === \"boolean\") {\n return uaData.mobile;\n }\n\n return false;\n}\n\nexport type Joint = {\n position: THREE.Vector3;\n quaternion: THREE.Quaternion;\n radius: number;\n};\n\nexport type HandJoints = { [key in JointId]?: Joint };\n\nexport class SparkXr {\n renderer: THREE.WebGLRenderer;\n xr?: XRSystem;\n element?: HTMLElement;\n button?: SparkXrButton;\n mode: XRSessionMode | \"initializing\" | \"not_supported\";\n sessionInit?: XRSessionInit;\n session?: XRSession;\n onEnterXr?: () => void;\n onExitXr?: () => void;\n\n controllers?: SparkXrControllers;\n lastControllersUpdate = 0;\n\n enableHands: boolean;\n hands: XrHand[] = [];\n\n constructor(options: SparkXrOptions) {\n this.renderer = options.renderer;\n this.xr = navigator.xr;\n this.mode = \"initializing\";\n this.onEnterXr = options.onEnterXr;\n this.onExitXr = options.onExitXr;\n this.enableHands = options.enableHands ?? false;\n this.controllers = options.controllers;\n\n Promise.resolve()\n .then(() => {\n if (!this.xr) {\n this.mode = \"not_supported\";\n return;\n }\n\n if (!options.allowMobileXr && isLikelyMobilePhone()) {\n this.mode = \"not_supported\";\n return;\n }\n\n if (this.enableHands) {\n this.hands = [new XrHand(Hand.left), new XrHand(Hand.right)];\n }\n\n let element: HTMLElement | undefined = undefined;\n let button: SparkXrButton | undefined = undefined;\n if (options.element) {\n element = options.element;\n } else if (options.elementId) {\n element = document.getElementById(options.elementId) ?? undefined;\n } else {\n element = SparkXr.createButton();\n button =\n options.button == null || typeof options.button === \"boolean\"\n ? {}\n : options.button;\n }\n\n if (!element) {\n throw new Error(\"No element or button provided\");\n }\n\n element.style.display = \"none\";\n element.classList.add(\"hidden\");\n this.button = button;\n this.element = element;\n\n const opacity = options.onMouseLeaveOpacity?.toString();\n if (opacity !== undefined) {\n element.addEventListener(\"mouseleave\", () => {\n element.style.opacity = opacity;\n });\n element.addEventListener(\"mouseenter\", () => {\n element.style.opacity = \"\";\n });\n }\n\n return this.initializeXr(options);\n })\n .then(() => {\n return options.onReady?.(this.mode !== \"not_supported\");\n })\n .catch((error) => {\n alert(`Error initializing SparkXr: ${error}`);\n });\n }\n\n private async initializeXr(options: SparkXrOptions) {\n if (!this.xr || !this.element) {\n return;\n }\n const element = this.element;\n\n const modes = {\n vr: [\"immersive-vr\"],\n ar: [\"immersive-ar\"],\n arvr: [\"immersive-ar\", \"immersive-vr\"],\n vrar: [\"immersive-vr\", \"immersive-ar\"],\n }[options.mode ?? \"vrar\"] as XRSessionMode[] | undefined;\n if (!modes) {\n throw new Error(`Invalid mode: ${options.mode}`);\n }\n\n let supported = null;\n for (const mode of modes) {\n if (await this.xr.isSessionSupported(mode)) {\n supported = mode;\n break;\n }\n }\n\n if (!supported) {\n this.mode = \"not_supported\";\n return;\n }\n this.mode = supported;\n\n const referenceSpaceType = options.referenceSpaceType ?? \"local\";\n\n this.renderer.xr.enabled = true;\n this.renderer.xr.setReferenceSpaceType(referenceSpaceType);\n\n if (options.fixedFoveation !== undefined) {\n this.renderer.xr.setFoveation(options.fixedFoveation);\n }\n const frameBufferScaleFactor = options.frameBufferScaleFactor ?? 0.5;\n this.renderer.xr.setFramebufferScaleFactor(frameBufferScaleFactor);\n\n const optionalFeatures = options.sessionInit?.optionalFeatures ?? [];\n if (options.enableHands) {\n optionalFeatures.push(\"hand-tracking\");\n }\n\n const requiredFeatures = options.sessionInit?.requiredFeatures ?? [];\n requiredFeatures.push(referenceSpaceType);\n\n this.sessionInit = {\n ...options.sessionInit,\n optionalFeatures,\n requiredFeatures,\n };\n // console.log(\"* this.sessionInit\", this.sessionInit);\n\n element.addEventListener(\"click\", () => {\n this.toggleXr();\n });\n\n this.updateElement();\n }\n\n async toggleXr() {\n if (!this.xr || !this.sessionInit) {\n // console.log(\"* !this.xr || !this.sessionInit\");\n return;\n }\n\n if (!this.session) {\n try {\n const mode = this.mode as XRSessionMode;\n const session = await this.xr.requestSession(mode, this.sessionInit);\n this.session = session;\n // console.log(\"* this.session\", this.session);\n\n const onSessionEnded = () => {\n session?.removeEventListener(\"end\", onSessionEnded);\n session?.removeEventListener(\"visibilitychange\", visibilityChanged);\n this.session = undefined;\n\n this.updateElement();\n this.onExitXr?.();\n };\n\n let lastVisibilityState = session.visibilityState;\n const visibilityChanged = () => {\n if (\n session?.visibilityState === \"visible-blurred\" &&\n lastVisibilityState === \"visible\"\n ) {\n session?.end();\n }\n lastVisibilityState = session?.visibilityState;\n };\n\n this.session?.addEventListener(\"end\", onSessionEnded);\n this.session?.addEventListener(\"visibilitychange\", visibilityChanged);\n\n await this.renderer.xr.setSession(this.session);\n // console.log(\"* setSession\");\n\n return this.onEnterXr?.();\n } catch (error) {\n console.error(\"Error requesting XR session\", error);\n return;\n }\n } else {\n this.session.end();\n // console.log(\"* end session\");\n }\n }\n\n private updateElement() {\n const mode = this.mode as XRSessionMode;\n const element = this.element;\n if (element) {\n element.style.display = \"\";\n element.classList.remove(\"hidden\");\n\n const button = typeof this.button === \"boolean\" ? {} : this.button;\n if (button) {\n if (!this.session) {\n const enterHtml =\n (mode === \"immersive-vr\"\n ? button.enterVrHtml\n : button.enterArHtml) ?? button.enterXrHtml;\n const enterText =\n (mode === \"immersive-vr\"\n ? button.enterVrText\n : button.enterArText) ?? button.enterXrText;\n if (enterHtml) {\n element.innerHTML = enterHtml;\n } else if (enterText) {\n element.textContent = enterText;\n } else {\n element.textContent =\n mode === \"immersive-vr\" ? \"ENTER VR\" : \"ENTER AR\";\n }\n } else {\n const exitHtml =\n (mode === \"immersive-vr\" ? button.exitVrHtml : button.exitArHtml) ??\n button.exitXrHtml;\n const exitText =\n (mode === \"immersive-vr\" ? button.exitVrText : button.exitArText) ??\n button.exitXrText;\n if (exitHtml) {\n element.innerHTML = exitHtml;\n } else if (exitText) {\n element.textContent = exitText;\n } else {\n element.textContent =\n mode === \"immersive-vr\" ? \"EXIT VR\" : \"EXIT AR\";\n }\n }\n\n element.style.display = \"\";\n }\n }\n }\n\n private static createButton() {\n const button = document.createElement(\"button\");\n Object.assign(button.style, {\n position: \"absolute\",\n bottom: \"20px\",\n left: \"50%\",\n transform: \"translateX(-50%)\",\n padding: \"40px 40px\",\n border: \"2px solid #fff\",\n borderRadius: \"16px\",\n background: \"rgba(0,0,0,0.1)\",\n color: \"#fff\",\n font: \"bold 28px sans-serif\",\n textAlign: \"center\",\n userSelect: \"none\",\n zIndex: \"999\",\n });\n document.body.appendChild(button);\n return button;\n }\n\n xrSupported() {\n return !!this.xr;\n }\n\n static JointEnum = JointEnum;\n static JOINT_IDS = JOINT_IDS;\n static NUM_JOINTS = NUM_JOINTS;\n static JOINT_INDEX = JOINT_INDEX;\n static JOINT_RADIUS = JOINT_RADIUS;\n static JOINT_SEGMENTS = JOINT_SEGMENTS;\n static JOINT_SEGMENT_STEPS = JOINT_SEGMENT_STEPS;\n static JOINT_TIPS = JOINT_TIPS;\n static FINGER_TIPS = FINGER_TIPS;\n static Hand = Hand;\n static HANDS = HANDS;\n\n left() {\n return this.hands[0];\n }\n\n right() {\n return this.hands[1];\n }\n\n updateControllers(camera: THREE.Camera) {\n const cameraFrame = camera.parent as THREE.Group;\n\n const now = performance.now();\n const deltaTime = (now - (this.lastControllersUpdate || now)) / 1000;\n this.lastControllersUpdate = now;\n\n const xrGamepads: XrGamepads = {};\n for (const source of this.renderer.xr.getSession()?.inputSources ?? []) {\n const gamepad = source.gamepad;\n if (\n gamepad &&\n (source.handedness === \"left\" || source.handedness === \"right\")\n ) {\n xrGamepads[source.handedness] = gamepad;\n if (source.handedness === \"left\") {\n xrGamepads.leftIsHand = !!source.hand;\n } else if (source.handedness === \"right\") {\n xrGamepads.rightIsHand = !!source.hand;\n }\n }\n }\n\n const rotate = (\n this.controllers?.getRotate ?? DEFAULT_CONTROLLER_GETROTATE\n )(xrGamepads, this);\n rotate.multiply(\n new THREE.Vector3(\n this.controllers?.rotateSpeed ?? DEFAULT_CONTROLLER_ROTATE_SPEED,\n this.controllers?.rotateSpeed ?? DEFAULT_CONTROLLER_ROTATE_SPEED,\n this.controllers?.rollSpeed ?? DEFAULT_CONTROLLER_ROLL_SPEED,\n ),\n );\n\n if (rotate.manhattanLength() > 0.0) {\n rotate.multiplyScalar(deltaTime);\n const eulers = new THREE.Euler(-rotate.y, -rotate.x, rotate.z, \"YXZ\");\n const quat = new THREE.Quaternion().setFromEuler(eulers);\n\n const pivot = camera.getWorldPosition(new THREE.Vector3());\n cameraFrame.parent?.worldToLocal(pivot);\n\n cameraFrame.position.sub(pivot);\n cameraFrame.position.applyQuaternion(quat);\n cameraFrame.position.add(pivot);\n cameraFrame.quaternion.premultiply(quat);\n }\n\n const move = (this.controllers?.getMove ?? DEFAULT_CONTROLLER_GETMOVE)(\n xrGamepads,\n this,\n );\n\n let moveSpeed =\n this.controllers?.moveSpeed ?? DEFAULT_CONTROLLER_MOVE_SPEED;\n if (\n (this.controllers?.getFast ?? DEFAULT_CONTROLLER_GETFAST)(\n xrGamepads,\n this,\n )\n ) {\n moveSpeed *= DEFAULT_CONTROLLER_FAST_MULTIPLIER;\n }\n if (\n (this.controllers?.getSlow ?? DEFAULT_CONTROLLER_GETSLOW)(\n xrGamepads,\n this,\n )\n ) {\n moveSpeed *= DEFAULT_CONTROLLER_SLOW_MULTIPLIER;\n }\n\n if (this.controllers?.moveHeading) {\n move.applyQuaternion(camera.quaternion);\n } else if (this.controllers?.moveDirection) {\n SCRATCH_EULER.setFromQuaternion(camera.quaternion, \"YXZ\");\n SCRATCH_EULER.x = 0;\n SCRATCH_EULER.z = 0;\n SCRATCH_QUAT_A.setFromEuler(SCRATCH_EULER);\n move.applyQuaternion(SCRATCH_QUAT_A);\n }\n move.applyQuaternion(cameraFrame.quaternion);\n\n move.multiplyScalar(deltaTime * moveSpeed);\n cameraFrame.position.add(move);\n }\n\n updateHands({ xrFrame }: { xrFrame: XRFrame }) {\n const xrSession = this.renderer.xr.getSession();\n if (!xrSession) {\n return;\n }\n const referenceSpace = this.renderer.xr.getReferenceSpace();\n if (!referenceSpace) {\n return;\n }\n if (!xrFrame.getJointPose) {\n return;\n }\n\n for (const hand of this.hands) {\n if (hand) {\n hand.lastJoints = hand.joints;\n hand.joints = undefined;\n }\n }\n\n for (const inputSource of xrSession.inputSources) {\n if (!inputSource.hand) {\n continue;\n }\n const hand = inputSource.handedness as Hand;\n const xrHand = this.hands[hand === Hand.left ? 0 : 1];\n if (!xrHand) {\n continue;\n }\n\n for (const jointId of JOINT_IDS) {\n const jointSpace = inputSource.hand.get(JointEnum[jointId]);\n if (jointSpace) {\n const jointPose = xrFrame.getJointPose(jointSpace, referenceSpace);\n if (jointPose) {\n const { position, orientation } = jointPose.transform;\n\n if (!xrHand.joints) {\n xrHand.joints = {};\n }\n xrHand.joints[jointId] = {\n position: new THREE.Vector3(position.x, position.y, position.z),\n quaternion: new THREE.Quaternion(\n orientation.x,\n orientation.y,\n orientation.z,\n orientation.w,\n ),\n radius: JOINT_RADIUS[jointId],\n };\n }\n }\n }\n }\n }\n\n makeJointSplats(hand: Hand): JointSplats {\n const mesh = new JointSplats(hand);\n mesh.onFrame = () => {\n const xrHand = this.hands[hand === Hand.left ? 0 : 1];\n const joints = xrHand?.joints;\n mesh.updateJoints(joints);\n };\n return mesh;\n }\n\n snapshotHands(time: number) {\n const hands = [\n this.hands[0]?.snapshotJoints(),\n this.hands[1]?.snapshotJoints(),\n ];\n return { time, hands };\n }\n}\n\ntype JointSnapshot = { pos: number[]; quat: number[]; radius: number };\ntype HandSnapshot = { [key in JointId]?: JointSnapshot };\ntype HandsSnapshot = {\n time: number;\n hands: (HandSnapshot | undefined)[];\n};\n\nconst round4 = (value: number) => Math.round(value * 10000) / 10000;\nconst SCRATCH_EULER = new THREE.Euler(0, 0, 0, \"YXZ\");\nconst SCRATCH_QUAT_A = new THREE.Quaternion();\nconst SCRATCH_QUAT_B = new THREE.Quaternion();\n\nexport function lerpHandsSnapshots(\n snapshots: HandsSnapshot[],\n time: number,\n): HandsSnapshot | null {\n if (!snapshots.length) {\n return null;\n }\n\n const first = snapshots[0];\n const last = snapshots[snapshots.length - 1];\n\n if (time < first.time || time > last.time) {\n return null;\n }\n\n const floorIndex = findSnapshotFloorIndex(snapshots, time);\n if (floorIndex === -1) {\n return null;\n }\n\n const from = snapshots[floorIndex];\n const to = snapshots[floorIndex + 1];\n if (!to) {\n return cloneSnapshot(from, time);\n }\n\n const span = to.time - from.time;\n const factor = span > 0 ? (time - from.time) / span : 0;\n\n return interpolateSnapshots(from, to, factor, time);\n}\n\nfunction interpolateSnapshots(\n from: HandsSnapshot,\n to: HandsSnapshot,\n factor: number,\n time: number,\n): HandsSnapshot {\n const maxHands = Math.max(from.hands.length, to.hands.length);\n const hands = Array.from({ length: maxHands }, (_, handIndex) =>\n lerpHandSnapshot(from.hands[handIndex], to.hands[handIndex], factor),\n );\n return { time, hands };\n}\n\nfunction cloneSnapshot(snapshot: HandsSnapshot, time: number): HandsSnapshot {\n return {\n time,\n hands: snapshot.hands.map((hand) => cloneHandSnapshot(hand)),\n };\n}\n\nexport class XrHand {\n hand: Hand;\n joints?: HandJoints;\n lastJoints?: HandJoints;\n\n constructor(hand: Hand) {\n this.hand = hand;\n }\n\n static newFromSnapshot(hand: Hand, snapshot: HandSnapshot) {\n const h = new XrHand(hand);\n h.joints = {};\n for (const jointId of JOINT_IDS) {\n const joint = snapshot[jointId];\n if (!joint) {\n continue;\n }\n h.joints[jointId] = {\n position: new THREE.Vector3(joint.pos[0], joint.pos[1], joint.pos[2]),\n quaternion: new THREE.Quaternion(\n joint.quat[0],\n joint.quat[1],\n joint.quat[2],\n joint.quat[3],\n ),\n radius: joint.radius,\n };\n }\n return h;\n }\n\n valid() {\n return !!this.joints;\n }\n\n snapshotJoints() {\n if (!this.joints) {\n return undefined;\n }\n\n const snapshot: HandSnapshot = {};\n for (const jointId of JOINT_IDS) {\n const joint = this.joints[jointId];\n if (!joint) {\n continue;\n }\n snapshot[jointId] = {\n pos: joint.position.toArray().map(round4),\n quat: joint.quaternion.toArray().map(round4),\n radius: round4(joint.radius),\n };\n }\n return snapshot;\n }\n\n toFlatArray() {\n if (!this.joints) {\n return undefined;\n }\n const array = new Float32Array(1 + 25 * 7);\n array[0] = this.hand === Hand.left ? 0 : 1;\n let index = 1;\n for (const jointId of JOINT_IDS) {\n const joint = this.joints[jointId];\n if (joint) {\n array[index] = joint.position.x;\n array[index + 1] = joint.position.y;\n array[index + 2] = joint.position.z;\n array[index + 3] = joint.quaternion.x;\n array[index + 4] = joint.quaternion.y;\n array[index + 5] = joint.quaternion.z;\n array[index + 6] = joint.quaternion.w;\n }\n index += 7;\n }\n return array;\n }\n}\n\nfunction findSnapshotFloorIndex(snapshots: HandsSnapshot[], time: number) {\n let low = 0;\n let high = snapshots.length - 1;\n while (low <= high) {\n const mid = (low + high) >> 1;\n if (snapshots[mid].time <= time) {\n low = mid + 1;\n } else {\n high = mid - 1;\n }\n }\n return high;\n}\n\nfunction lerpHandSnapshot(\n fromHand?: HandSnapshot,\n toHand?: HandSnapshot,\n factor = 0,\n) {\n if (!fromHand || !toHand) {\n return undefined;\n }\n const hand: HandSnapshot = {};\n for (const jointId of JOINT_IDS) {\n const joint = lerpJointSnapshot(fromHand[jointId], toHand[jointId], factor);\n if (joint) {\n hand[jointId] = joint;\n }\n }\n return hand;\n}\n\nfunction lerpJointSnapshot(\n fromJoint?: JointSnapshot,\n toJoint?: JointSnapshot,\n factor = 0,\n) {\n if (!fromJoint || !toJoint) {\n return undefined;\n }\n const pos = fromJoint.pos.map(\n (value, index) => value + (toJoint.pos[index] - value) * factor,\n );\n const quat = SCRATCH_QUAT_A.fromArray(fromJoint.quat)\n .slerp(SCRATCH_QUAT_B.fromArray(toJoint.quat), factor)\n .toArray();\n const radius =\n fromJoint.radius + (toJoint.radius - fromJoint.radius) * factor;\n\n return { pos, quat, radius };\n}\n\nfunction cloneHandSnapshot(hand?: HandSnapshot) {\n if (!hand) {\n return undefined;\n }\n const clone: HandSnapshot = {};\n for (const jointId of JOINT_IDS) {\n const joint = hand[jointId];\n if (joint) {\n clone[jointId] = cloneJointSnapshot(joint);\n }\n }\n return clone;\n}\n\nfunction cloneJointSnapshot(joint: JointSnapshot): JointSnapshot {\n return {\n pos: [...joint.pos],\n quat: [...joint.quat],\n radius: joint.radius,\n };\n}\n\nexport class JointSplats extends SplatMesh {\n hand: Hand;\n\n constructor(hand: Hand) {\n super({});\n this.hand = hand;\n }\n\n private scratchCenter = new THREE.Vector3();\n private scratchQuat = new THREE.Quaternion(0, 0, 0, 1);\n private scratchScales = new THREE.Vector3().setScalar(0.01);\n private scratchColor = new THREE.Color(1, 1, 1);\n\n updateJoints(joints?: HandJoints) {\n this.visible = false;\n\n if (!joints || !this.packedSplats) {\n return;\n }\n\n this.visible = true;\n let splatIndex = 0;\n\n for (const jointId of JOINT_IDS) {\n const joint = joints[jointId];\n if (!joint) {\n continue;\n }\n this.scratchCenter.copy(joint.position);\n this.scratchQuat.copy(joint.quaternion);\n this.scratchScales.set(\n joint.radius,\n 0.75 * joint.radius,\n 1.5 * joint.radius,\n );\n // this.scratchColor.set((joint.radius * 123) % 1, (joint.radius * 345) % 1, (joint.radius * 234) % 1);\n const opacity = 0.75;\n\n this.packedSplats.setSplat(\n splatIndex,\n this.scratchCenter,\n this.scratchScales,\n this.scratchQuat,\n opacity,\n this.scratchColor,\n );\n splatIndex += 1;\n }\n\n this.packedSplats.numSplats = splatIndex;\n this.packedSplats.needsUpdate = true;\n this.numSplats = splatIndex;\n this.updateVersion();\n }\n}\n","import {\n Color,\n Matrix4,\n type Object3D,\n Quaternion,\n Vector3,\n type WebXRManager,\n} from \"three\";\nimport { SplatMesh } from \"./SplatMesh\";\n\n// Experimental WebXR hand tracking and movement\n\nconst DEFAULT_MOVE_INERTIA = 0.5;\nconst DEFAULT_ROTATE_INERTIA = 0.5;\nconst TOUCH_BIAS = 0.0;\n\nexport enum JointEnum {\n w = \"wrist\",\n t0 = \"thumb-metacarpal\",\n t1 = \"thumb-phalanx-proximal\",\n t2 = \"thumb-phalanx-distal\",\n t3 = \"thumb-tip\",\n i0 = \"index-finger-metacarpal\",\n i1 = \"index-finger-phalanx-proximal\",\n i2 = \"index-finger-phalanx-intermediate\",\n i3 = \"index-finger-phalanx-distal\",\n i4 = \"index-finger-tip\",\n m0 = \"middle-finger-metacarpal\",\n m1 = \"middle-finger-phalanx-proximal\",\n m2 = \"middle-finger-phalanx-intermediate\",\n m3 = \"middle-finger-phalanx-distal\",\n m4 = \"middle-finger-tip\",\n r0 = \"ring-finger-metacarpal\",\n r1 = \"ring-finger-phalanx-proximal\",\n r2 = \"ring-finger-phalanx-intermediate\",\n r3 = \"ring-finger-phalanx-distal\",\n r4 = \"ring-finger-tip\",\n p0 = \"pinky-finger-metacarpal\",\n p1 = \"pinky-finger-phalanx-proximal\",\n p2 = \"pinky-finger-phalanx-intermediate\",\n p3 = \"pinky-finger-phalanx-distal\",\n p4 = \"pinky-finger-tip\",\n}\nexport type JointId = keyof typeof JointEnum;\nexport const JOINT_IDS = Object.keys(JointEnum) as JointId[];\nexport const NUM_JOINTS = JOINT_IDS.length;\n\nexport const JOINT_INDEX: { [key in JointId]: number } = {\n w: 0,\n t0: 1,\n t1: 2,\n t2: 3,\n t3: 4,\n i0: 5,\n i1: 6,\n i2: 7,\n i3: 8,\n i4: 9,\n m0: 10,\n m1: 11,\n m2: 12,\n m3: 13,\n m4: 14,\n r0: 15,\n r1: 16,\n r2: 17,\n r3: 18,\n r4: 19,\n p0: 20,\n p1: 21,\n p2: 22,\n p3: 23,\n p4: 24,\n};\n\nexport const JOINT_RADIUS: { [key in JointId]: number } = {\n w: 0.02,\n t0: 0.02,\n t1: 0.014,\n t2: 0.0115,\n t3: 0.0085,\n i0: 0.022,\n i1: 0.012,\n i2: 0.0085,\n i3: 0.0075,\n i4: 0.0065,\n m0: 0.021,\n m1: 0.012,\n m2: 0.008,\n m3: 0.0075,\n m4: 0.0065,\n r0: 0.019,\n r1: 0.011,\n r2: 0.0075,\n r3: 0.007,\n r4: 0.006,\n p0: 0.012,\n p1: 0.01,\n p2: 0.007,\n p3: 0.0065,\n p4: 0.0055,\n};\n\nexport const JOINT_SEGMENTS: JointId[][] = [\n [\"w\", \"t0\", \"t1\", \"t2\", \"t3\"],\n [\"w\", \"i0\", \"i1\", \"i2\", \"i3\", \"i4\"],\n [\"w\", \"m0\", \"m1\", \"m2\", \"m3\", \"m4\"],\n [\"w\", \"r0\", \"r1\", \"r2\", \"r3\", \"r4\"],\n [\"w\", \"p0\", \"p1\", \"p2\", \"p3\", \"p4\"],\n];\n\nexport const JOINT_SEGMENT_STEPS: number[][] = [\n [8, 10, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n];\n\nexport const JOINT_TIPS: JointId[] = [\"t3\", \"i4\", \"m4\", \"r4\", \"p4\"];\nexport const FINGER_TIPS: JointId[] = [\"i4\", \"m4\", \"r4\", \"p4\"];\n\nexport enum Hand {\n left = \"left\",\n right = \"right\",\n}\nexport const HANDS = Object.keys(Hand) as Hand[];\n\nexport type Joint = {\n position: Vector3;\n quaternion: Quaternion;\n radius: number;\n};\n\nexport type HandJoints = { [key in JointId]?: Joint };\nexport type HandsJoints = { [key in Hand]?: HandJoints };\n\nexport class XrHands {\n hands: HandsJoints = {};\n last: HandsJoints = {};\n\n values: Record = {};\n tests: Record = {};\n lastTests: Record = {};\n\n updated = false;\n\n update({ xr, xrFrame }: { xr: WebXRManager; xrFrame: XRFrame }) {\n const xrSession = xr.getSession();\n if (!xrSession) {\n return;\n }\n const referenceSpace = xr.getReferenceSpace();\n if (!referenceSpace) {\n return;\n }\n if (!xrFrame.getJointPose) {\n return;\n }\n\n this.last = this.hands;\n this.lastTests = this.tests;\n\n this.hands = {};\n this.values = {};\n this.tests = {};\n\n for (const inputSource of xrSession.inputSources) {\n if (!inputSource.hand) {\n continue;\n }\n\n const hand = inputSource.handedness as Hand;\n this.hands[hand] = {};\n\n // Iterate over JointId\n for (const jointId of JOINT_IDS) {\n const jointSpace = inputSource.hand.get(JointEnum[jointId]);\n if (jointSpace) {\n const jointPose = xrFrame.getJointPose(jointSpace, referenceSpace);\n if (jointPose) {\n const { position, orientation } = jointPose.transform;\n this.hands[hand][jointId] = {\n position: new Vector3(position.x, position.y, position.z),\n quaternion: new Quaternion(\n orientation.x,\n orientation.y,\n orientation.z,\n orientation.w,\n ),\n radius: jointPose.radius || 0.001,\n };\n }\n }\n }\n }\n\n for (const hand of HANDS) {\n for (const { key, value } of [\n { key: `${hand}AllTips`, value: this.allTipsTouching(hand) },\n {\n key: `${hand}IndexThumb`,\n value: this.touching(hand, \"i4\", hand, \"t3\"),\n },\n {\n key: `${hand}MiddleThumb`,\n value: this.touching(hand, \"m4\", hand, \"t3\"),\n },\n {\n key: `${hand}RingThumb`,\n value: this.touching(hand, \"r4\", hand, \"t3\"),\n },\n {\n key: `${hand}PinkyThumb`,\n value: this.touching(hand, \"p4\", hand, \"t3\"),\n },\n { key: `${hand}TriTips`, value: this.triTipsTouching(hand) },\n ]) {\n this.values[key] = value;\n this.tests[key] =\n value === 1.0\n ? true\n : value === 0.0\n ? false\n : (this.lastTests[key] ?? false);\n }\n }\n }\n\n makeGhostMesh(): SplatMesh {\n const center = new Vector3();\n const scales = new Vector3(0.01, 0.01, 0.01);\n const quaternion = new Quaternion(0, 0, 0, 1);\n const color = new Color(1, 1, 1);\n const CYCLE = Math.PI * 3;\n const WHITE = new Color(1, 1, 1);\n let opacity = 1.0;\n\n const mesh = new SplatMesh({\n onFrame: () => {\n if (!mesh.packedSplats) {\n return;\n }\n let splatIndex = 0;\n for (const handedness of HANDS) {\n const xrHand = this.hands[handedness];\n for (const [index, segment] of JOINT_SEGMENTS.entries()) {\n for (let i = 1; i < segment.length; ++i) {\n const segmentSplats = JOINT_SEGMENT_STEPS[index][i - 1] * 2;\n const lastSegment = i + 1 === segment.length;\n const jointA = xrHand?.[segment[i - 1]];\n const jointB = xrHand?.[segment[i]];\n\n for (let j = 0; j < segmentSplats; ++j) {\n const t = (j + 0.5) / segmentSplats;\n opacity = 0.0;\n if (jointA && jointB) {\n center.copy(jointA.position).lerp(jointB.position, t);\n quaternion\n .copy(jointA.quaternion)\n .slerp(jointB.quaternion, t);\n const radiusA = JOINT_RADIUS[segment[i - 1]];\n const radiusB = JOINT_RADIUS[segment[i]];\n let radius = (1 - t) * radiusA + t * radiusB;\n if (lastSegment && t > 0.8) {\n // Round out finger tips\n radius *= Math.sqrt(1 - ((t - 0.8) / 0.2) ** 2);\n }\n scales.set(0.65 * radius, 0.5 * radius, 0.003);\n color.set(\n 0.55 + 0.45 * Math.sin(center.x * CYCLE),\n 0.55 + 0.45 * Math.sin(center.y * CYCLE),\n 0.55 + 0.45 * Math.sin(center.z * CYCLE),\n );\n if (handedness === \"right\") {\n color.set(1 - color.r, 1 - color.g, 1 - color.b);\n }\n opacity = 0.75;\n }\n mesh.packedSplats.setSplat(\n splatIndex,\n center,\n scales,\n quaternion,\n opacity,\n color,\n );\n splatIndex += 1;\n }\n }\n }\n }\n mesh.packedSplats.numSplats = splatIndex;\n mesh.packedSplats.needsUpdate = true;\n mesh.numSplats = splatIndex;\n mesh.updateVersion();\n },\n });\n return mesh;\n }\n\n distance(\n handA: Hand,\n jointA: JointId,\n handB: Hand,\n jointB: JointId,\n last = false,\n ): number {\n const hA = last ? this.last[handA] : this.hands[handA];\n const hB = last ? this.last[handB] : this.hands[handB];\n const jA = hA?.[jointA];\n const jB = hB?.[jointB];\n if (!jA || !jB) {\n return Number.POSITIVE_INFINITY;\n }\n return jA.position.distanceTo(jB.position);\n }\n\n separation(\n handA: Hand,\n jointA: JointId,\n handB: Hand,\n jointB: JointId,\n last = false,\n ): number {\n const d = this.distance(handA, jointA, handB, jointB, last);\n if (d === Number.POSITIVE_INFINITY) {\n return Number.POSITIVE_INFINITY;\n }\n return d - JOINT_RADIUS[jointA] - JOINT_RADIUS[jointB];\n }\n\n touching(\n handA: Hand,\n jointA: JointId,\n handB: Hand,\n jointB: JointId,\n last = false,\n ): number {\n const d = this.separation(handA, jointA, handB, jointB, last);\n if (d === Number.POSITIVE_INFINITY) {\n return Number.POSITIVE_INFINITY;\n }\n return 1 - Math.max(0, Math.min(1, d / 0.01 - TOUCH_BIAS));\n }\n\n allTipsTouching(hand: Hand, last = false): number {\n return Math.min(\n this.touching(hand, \"t3\", hand, \"i4\", last),\n this.touching(hand, \"i4\", hand, \"m4\", last),\n this.touching(hand, \"m4\", hand, \"r4\", last),\n this.touching(hand, \"r4\", hand, \"p4\", last),\n // this.touching(hand, \"p4\", hand, \"t3\", last),\n );\n }\n\n triTipsTouching(hand: Hand, last = false): number {\n return Math.min(\n this.touching(hand, \"t3\", hand, \"i4\", last),\n this.touching(hand, \"i4\", hand, \"m4\", last),\n this.touching(hand, \"m4\", hand, \"t3\", last),\n );\n }\n}\n\nexport class HandMovement {\n xrHands: XrHands;\n control: Object3D;\n moveInertia: number;\n rotateInertia: number;\n\n lastGrip: { [key in Hand]?: Vector3 } = {};\n lastPivot: Vector3 = new Vector3();\n rotateVelocity = 0;\n velocity: Vector3 = new Vector3();\n\n constructor({\n xrHands,\n control,\n moveInertia,\n rotateInertia,\n }: {\n xrHands: XrHands;\n control: Object3D;\n moveInertia?: number;\n rotateInertia?: number;\n }) {\n this.xrHands = xrHands;\n this.control = control;\n this.moveInertia = moveInertia ?? DEFAULT_MOVE_INERTIA;\n this.rotateInertia = rotateInertia ?? DEFAULT_ROTATE_INERTIA;\n }\n\n update(deltaTime: number) {\n const grip: { [key in Hand]?: Vector3 } = {};\n for (const handedness of HANDS) {\n const hand = this.xrHands.hands[handedness];\n if (hand && this.xrHands.tests[`${handedness}MiddleThumb`]) {\n grip[handedness] = new Vector3()\n .add(hand.t3?.position ?? new Vector3())\n .add(hand.i4?.position ?? new Vector3())\n .add(hand.m4?.position ?? new Vector3())\n .add(hand.r4?.position ?? new Vector3())\n .add(hand.p4?.position ?? new Vector3())\n .multiplyScalar(1 / 5);\n }\n }\n\n if (grip.left && grip.right && this.lastGrip.left && this.lastGrip.right) {\n const mid = grip.left.clone().add(grip.right).multiplyScalar(0.5);\n const lastMid = this.lastGrip.left\n .clone()\n .add(this.lastGrip.right)\n .multiplyScalar(0.5);\n this.lastPivot = mid;\n\n const delta = mid.clone().applyMatrix4(this.control.matrix);\n delta.sub(lastMid.clone().applyMatrix4(this.control.matrix));\n delta.multiplyScalar(1 / deltaTime);\n this.velocity.lerp(delta, 1 - Math.exp(-20 * deltaTime));\n\n const angle = Math.atan2(grip.left.z - mid.z, grip.left.x - mid.x);\n const lastAngle = Math.atan2(\n this.lastGrip.left.z - lastMid.z,\n this.lastGrip.left.x - lastMid.x,\n );\n // Find closest rotation over circle between angle and lastAngle\n let closestAngle = angle - lastAngle;\n if (closestAngle > Math.PI) {\n closestAngle -= Math.PI * 2;\n } else if (closestAngle < -Math.PI) {\n closestAngle += Math.PI * 2;\n }\n const rotateVelocity = closestAngle / deltaTime;\n\n const blend = Math.exp(-20 * deltaTime);\n this.rotateVelocity =\n this.rotateVelocity * blend + rotateVelocity * (1 - blend);\n } else {\n this.rotateVelocity *= Math.exp(-deltaTime / this.rotateInertia);\n\n if (grip.left && this.lastGrip.left) {\n const delta = grip.left.clone().applyMatrix4(this.control.matrix);\n delta.sub(this.lastGrip.left.clone().applyMatrix4(this.control.matrix));\n delta.multiplyScalar(1 / deltaTime);\n this.velocity.lerp(delta, 1 - Math.exp(-20 * deltaTime));\n } else if (grip.right && this.lastGrip.right) {\n const delta = grip.right.clone().applyMatrix4(this.control.matrix);\n delta.sub(\n this.lastGrip.right.clone().applyMatrix4(this.control.matrix),\n );\n delta.multiplyScalar(1 / deltaTime);\n this.velocity.lerp(delta, 1 - Math.exp(-20 * deltaTime));\n } else {\n this.velocity.multiplyScalar(Math.exp(-deltaTime / this.moveInertia));\n }\n }\n\n const negPivot = this.lastPivot.clone().negate();\n const rotate = new Matrix4()\n .makeTranslation(negPivot)\n .premultiply(new Matrix4().makeRotationY(this.rotateVelocity * deltaTime))\n .premultiply(new Matrix4().makeTranslation(this.lastPivot));\n this.control.matrix.multiply(rotate);\n this.control.matrix.decompose(\n this.control.position,\n this.control.quaternion,\n this.control.scale,\n );\n this.control.updateMatrixWorld(true);\n\n this.control.position.sub(this.velocity.clone().multiplyScalar(deltaTime));\n this.lastGrip = grip;\n }\n}\n","import * as THREE from \"three\";\nimport { isAndroid, isIos } from \"./utils\";\n\n// Spark controls for keyboard + mouse, game pad, or mobile multi-touch\n\nconst DEFAULT_MOVEMENT_SPEED = 1.0;\nconst DEFAULT_ROLL_SPEED = 2.0;\nconst DEFAULT_ROTATE_SPEED = 0.002;\nconst DEFAULT_SLIDE_SPEED = 0.006;\nconst DEFAULT_SCROLL_SPEED = 0.0015;\nconst DEFAULT_ROLL_SPRING = 0.0;\nconst DEFAULT_ROTATE_INERTIA = 0.15;\nconst DEFAULT_MOVE_INERTIA = 0.15;\nconst DEFAULT_STICK_THRESHOLD = 0.1;\nconst DEFAULT_FPS_ROTATE_SPEED = 2.0;\n// const DEFAULT_POINTER_ROLL_SCALE = 1.0;\nconst DEFAULT_POINTER_ROLL_SCALE = 0.0;\nconst DEFAULT_PRESS_MOVE_DELAY_MS = 500;\nconst DEFAULT_PRESS_MOVE_ACCEL_MS = 500;\n\n// Time limit for double-finger press (pinch etc)\nconst DUAL_PRESS_MS = 200;\n// Time limit for double-click/double-tap\nconst DOUBLE_PRESS_LIMIT_MS = 400;\n// Distance limit for double-click.\nconst DOUBLE_PRESS_DISTANCE = 25;\n\nconst MOVEMENT_THRESHOLD = 1.0e-4;\n\n// Standard WASD movement keys with R+F for up/down\nconst WASD_KEYCODE_MOVE = {\n KeyW: new THREE.Vector3(0, 0, -1),\n KeyS: new THREE.Vector3(0, 0, 1),\n KeyA: new THREE.Vector3(-1, 0, 0),\n KeyD: new THREE.Vector3(1, 0, 0),\n KeyE: new THREE.Vector3(0, 1, 0),\n KeyQ: new THREE.Vector3(0, -1, 0),\n};\n\n// Arrow key movement with PageUp/PageDown\nconst ARROW_KEYCODE_MOVE = {\n ArrowUp: new THREE.Vector3(0, 0, -1),\n ArrowDown: new THREE.Vector3(0, 0, 1),\n ArrowLeft: new THREE.Vector3(-1, 0, 0),\n ArrowRight: new THREE.Vector3(1, 0, 0),\n PageUp: new THREE.Vector3(0, 1, 0),\n PageDown: new THREE.Vector3(0, -1, 0),\n};\n\n// Rolling with Q/E\nconst QE_KEYCODE_ROTATE = {\n KeyQ: new THREE.Vector3(0, 0, 1),\n KeyE: new THREE.Vector3(0, 0, -1),\n};\n\n// Home/End/Insert/Delete for rotation\nconst ARROW_KEYCODE_ROTATE = {\n Home: new THREE.Vector3(0, -1, 0),\n End: new THREE.Vector3(0, 1, 0),\n Insert: new THREE.Vector3(-1, 0, 0),\n Delete: new THREE.Vector3(1, 0, 0),\n};\n\n// SparkControls provides simple, intuitive controls for navigating 3D space that\n// use the keyboard + mouse, game pad, or mobile multi-touch. Internally it\n// instantiates and updates a `FpsMovement` and `PointerControls` instance.\n\nexport class SparkControls {\n fpsMovement: FpsMovement;\n pointerControls: PointerControls;\n lastTime = 0;\n\n constructor({ canvas }: { canvas: HTMLCanvasElement }) {\n this.fpsMovement = new FpsMovement({});\n this.pointerControls = new PointerControls({ canvas });\n }\n\n update(control: THREE.Object3D, camera?: THREE.Camera) {\n const time = performance.now();\n const deltaTime = (time - (this.lastTime || time)) / 1000;\n this.lastTime = time;\n\n let updated = this.fpsMovement.update(deltaTime, control);\n if (this.pointerControls.update(deltaTime, control, camera)) {\n updated = true;\n }\n return updated;\n }\n}\n\n// FpsMovement implements controls that will be familiar to anyone who plays\n// First Person Shooters using keyboard + mouse or a gamepad. Creating a FpsMovement\n// instance provides many parameters for configuring the controls.\n//\n// When gamepads are connected, FpsMovement will always use gamepad index 0\n// for twin-stick movement and rotation.\n//\n// If xr is passed in, the WebXR controllers can be used as a split gamepad\n// to control movement and rotation. (tested on Quest 3)\n\nexport class FpsMovement {\n moveSpeed: number;\n rollSpeed: number;\n stickThreshold: number;\n rotateSpeed: number;\n keycodeMoveMapping: { [key: string]: THREE.Vector3 };\n keycodeRotateMapping: { [key: string]: THREE.Vector3 };\n gamepadMapping: {\n [button: number]: \"shift\" | \"ctrl\" | \"rollLeft\" | \"rollRight\";\n };\n capsMultiplier: number;\n shiftMultiplier: number;\n ctrlMultiplier: number;\n xr?: THREE.WebXRManager;\n // Enable/disable controls updates\n enable = true;\n extraMove = new THREE.Vector3();\n\n // Currently active event.key values\n keydown: { [key: string]: boolean };\n // Currently active event.code values\n keycode: { [key: string]: boolean };\n\n constructor({\n moveSpeed,\n rollSpeed,\n stickThreshold,\n rotateSpeed,\n keycodeMoveMapping,\n keycodeRotateMapping,\n gamepadMapping,\n capsMultiplier,\n shiftMultiplier,\n ctrlMultiplier,\n xr,\n }: {\n // Base movement speed (default DEFAULT_MOVEMENT_SPEED)\n moveSpeed?: number;\n // Base roll speed (default DEFAULT_ROLL_SPEED)\n rollSpeed?: number;\n // Stick threshold (default DEFAULT_STICK_THRESHOLD)\n stickThreshold?: number;\n // Speed of rotation when using gamepad or keys (default DEFAULT_FPS_ROTATE_SPEED)\n rotateSpeed?: number;\n // Maps keyboard keys to movement directions\n // (default {...WASD_KEYCODE_MOVE, ...ARROW_KEYCODE_MOVE})\n keycodeMoveMapping?: { [key: string]: THREE.Vector3 };\n // Maps keyboard keys to rotation directions\n // (default { ...ARROW_KEYCODE_ROTATE})\n keycodeRotateMapping?: { [key: string]: THREE.Vector3 };\n // Maps gamepad buttons to control actions\n // (default {4: \"rollLeft\", 5: \"rollRight\", 6: \"ctrl\", 7: \"shift\"})\n gamepadMapping?: {\n [button: number]: \"shift\" | \"ctrl\" | \"rollLeft\" | \"rollRight\";\n };\n // Speed multiplier when Caps Lock is active (default: 10)\n capsMultiplier?: number;\n // Speed multiplier when Shift is active (default: 5)\n shiftMultiplier?: number;\n // Speed multiplier when Ctrl is active (default: 1/5)\n ctrlMultiplier?: number;\n // Optional WebXR manager for XR controller stick support\n xr?: THREE.WebXRManager;\n } = {}) {\n this.moveSpeed = moveSpeed ?? DEFAULT_MOVEMENT_SPEED;\n this.rollSpeed = rollSpeed ?? DEFAULT_ROLL_SPEED;\n this.stickThreshold = stickThreshold ?? DEFAULT_STICK_THRESHOLD;\n this.rotateSpeed = rotateSpeed ?? DEFAULT_FPS_ROTATE_SPEED;\n this.keycodeMoveMapping = keycodeMoveMapping ?? {\n ...WASD_KEYCODE_MOVE,\n ...ARROW_KEYCODE_MOVE,\n };\n this.keycodeRotateMapping = keycodeRotateMapping ?? {\n // ...QE_KEYCODE_ROTATE,\n ...ARROW_KEYCODE_ROTATE,\n };\n this.gamepadMapping = gamepadMapping ?? {\n 4: \"rollLeft\",\n 5: \"rollRight\",\n 6: \"ctrl\",\n 7: \"shift\",\n };\n this.capsMultiplier = capsMultiplier ?? 10.0;\n this.shiftMultiplier = shiftMultiplier ?? 5.0;\n this.ctrlMultiplier = ctrlMultiplier ?? 1.0 / 5.0;\n\n this.xr = xr;\n\n this.keydown = {};\n this.keycode = {};\n\n document.addEventListener(\"keydown\", (event) => {\n this.keydown[event.key] = true;\n this.keycode[event.code] = true;\n });\n document.addEventListener(\"keyup\", (event) => {\n this.keydown[event.key] = false;\n this.keycode[event.code] = false;\n });\n window.addEventListener(\"blur\", () => {\n this.keydown = {};\n this.keycode = {};\n });\n }\n\n // Call this method in your render loop with `control` set to the object to control\n // (`THREE.Camera` or a `THREE.Object3D` that contains it), with `deltaTime`\n // in seconds since the last update.\n update(deltaTime: number, control: THREE.Object3D) {\n if (!this.enable) {\n return false;\n }\n\n // Update gamepad / XR controllers\n\n const sticks = [new THREE.Vector2(), new THREE.Vector2()];\n const gamepad = navigator.getGamepads()[0];\n if (gamepad) {\n sticks[0].set(gamepad.axes[0], gamepad.axes[1]);\n sticks[1].set(gamepad.axes[2], gamepad.axes[3]);\n }\n const gamepadButtons =\n gamepad?.buttons.map((button) => button.pressed) || [];\n\n const xrSources = Array.from(this.xr?.getSession()?.inputSources ?? []);\n for (const source of xrSources) {\n const gamepad = source.gamepad;\n if (gamepad) {\n switch (source.handedness) {\n case \"none\": {\n sticks[0].x += gamepad.axes[0];\n sticks[0].y += gamepad.axes[1];\n sticks[1].x += gamepad.axes[2];\n sticks[1].y += gamepad.axes[3];\n break;\n }\n case \"left\": {\n sticks[0].x += gamepad.axes[2];\n sticks[0].y += gamepad.axes[3];\n break;\n }\n case \"right\": {\n sticks[1].x += gamepad.axes[2];\n sticks[1].y += gamepad.axes[3];\n break;\n }\n }\n }\n }\n\n for (const stick of sticks) {\n stick.x = Math.abs(stick.x) >= this.stickThreshold ? stick.x : 0;\n stick.y = Math.abs(stick.y) >= this.stickThreshold ? stick.y : 0;\n }\n\n // Rotation\n\n const rotate = new THREE.Vector3(\n sticks[1].x,\n sticks[1].y,\n 0,\n ).multiplyScalar(this.rotateSpeed);\n\n for (const [keycode, rot] of Object.entries(this.keycodeRotateMapping)) {\n if (this.keycode[keycode]) {\n rotate.add(rot);\n }\n }\n for (const button in this.gamepadMapping) {\n if (gamepadButtons[Number.parseInt(button)]) {\n switch (this.gamepadMapping[button]) {\n case \"rollLeft\":\n rotate.z += 1;\n break;\n case \"rollRight\":\n rotate.z -= 1;\n break;\n }\n }\n }\n\n rotate.multiply(\n new THREE.Vector3(this.rotateSpeed, this.rotateSpeed, this.rollSpeed),\n );\n\n let updated = rotate.length() > MOVEMENT_THRESHOLD;\n\n if (rotate.manhattanLength() > 0.0) {\n rotate.multiplyScalar(deltaTime);\n const eulers = new THREE.Euler().setFromQuaternion(\n control.quaternion,\n \"YXZ\",\n );\n eulers.y -= rotate.x;\n eulers.x = Math.max(\n -Math.PI / 2,\n Math.min(Math.PI / 2, eulers.x - rotate.y),\n );\n eulers.z = Math.max(-Math.PI, Math.min(Math.PI, eulers.z + rotate.z));\n control.quaternion.setFromEuler(eulers);\n }\n\n // Movement\n\n const moveVector = new THREE.Vector3(sticks[0].x, 0, sticks[0].y);\n moveVector.add(this.extraMove);\n\n for (const [keycode, move] of Object.entries(this.keycodeMoveMapping)) {\n if (this.keycode[keycode]) {\n moveVector.add(move);\n }\n }\n\n let speedMultiplier = 1.0;\n if (this.keydown.CapsLock) {\n speedMultiplier *= this.capsMultiplier;\n }\n if (this.keycode.ShiftLeft || this.keycode.ShiftRight) {\n speedMultiplier *= this.shiftMultiplier;\n }\n if (this.keycode.ControlLeft || this.keycode.ControlRight) {\n speedMultiplier *= this.ctrlMultiplier;\n }\n for (const button in this.gamepadMapping) {\n if (gamepadButtons[Number.parseInt(button)]) {\n switch (this.gamepadMapping[button]) {\n case \"shift\":\n speedMultiplier *= this.shiftMultiplier;\n break;\n case \"ctrl\":\n speedMultiplier *= this.ctrlMultiplier;\n break;\n }\n }\n }\n\n if (moveVector.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n\n // Apply movement in view direction\n moveVector.applyQuaternion(control.quaternion);\n control.position.add(\n moveVector.multiplyScalar(this.moveSpeed * speedMultiplier * deltaTime),\n );\n\n return updated;\n }\n}\n\ntype PointerState = {\n initial: THREE.Vector2;\n last: THREE.Vector2;\n position: THREE.Vector2;\n pointerId: number;\n button?: number;\n timeStamp: DOMHighResTimeStamp;\n};\n\n// `PointerControls` implements pointer/mouse/touch controls on the canvas,\n// for both desktop and mobile web applications.\n\nexport class PointerControls {\n canvas: HTMLCanvasElement;\n rotateSpeed: number;\n slideSpeed: number;\n scrollSpeed: number;\n swapRotateSlide: boolean;\n reverseRotate: boolean;\n reverseSlide: boolean;\n reverseSwipe: boolean;\n reverseScroll: boolean;\n moveInertia: number;\n rotateInertia: number;\n pointerRollScale: number;\n // Enable/disable controls updates\n enable = true;\n\n doublePress: ({\n position,\n intervalMs,\n }: { position: THREE.Vector2; intervalMs: number }) => void;\n // Time limit for double press (default DOUBLE_PRESS_LIMIT_MS)\n doublePressLimitMs: number;\n // Distance limit for double press (default DOUBLE_PRESS_DISTANCE)\n doublePressDistance: number;\n\n // Time delay in ms for press move to start\n pressMoveDelayMs: number;\n // Time in ms for press move to accelerate\n pressMoveAccelMs: number;\n // Speed of movement on press (default: 0)\n pressMoveSpeed: number;\n // Speed of movement on double press (default: pressMoveSpeed * 5.0)\n doublePressMoveSpeed: number;\n // Speed of movement on triple press (default: doublePressMoveSpeed * 5.0)\n triplePressMoveSpeed: number;\n // Whether to move toward the screen center or finger when pressing to move\n pressMoveCenter: boolean;\n pressHeld?: boolean;\n doublePressed?: number;\n triplePressed: boolean;\n // Last pointer up event (default: null)\n lastUp: { position: THREE.Vector2; timeStamp: number } | null;\n lastLastUp: { position: THREE.Vector2; timeStamp: number } | null;\n\n // Pointer state for currently active rotating pointer\n rotating: PointerState | null;\n // Pointer state for currently active sliding pointer\n sliding: PointerState | null;\n // Pointer state for last pointer that downed\n lastDown: PointerState | null;\n // Whether we pressed two pointers at the same time\n dualPress: boolean;\n // Cumulative scroll movement\n scroll: THREE.Vector3;\n\n // Current rotation velocity\n rotateVelocity: THREE.Vector3;\n // Current movement velocity\n moveVelocity: THREE.Vector3;\n\n constructor({\n // The HTML canvas element to attach pointer events to\n canvas,\n // Speed of rotation (default DEFAULT_ROTATE_SPEED)\n rotateSpeed,\n // Speed of sliding when dragging with right/middle mouse button or two fingers\n // (default DEFAULT_SLIDE_SPEED)\n slideSpeed,\n // Speed of movement when using mouse scroll wheel (default DEFAULT_SCROLL_SPEED)\n scrollSpeed,\n // Swap the direction of rotation and sliding (default: false)\n swapRotateSlide,\n // Reverse the direction of rotation (default: false)\n reverseRotate,\n // Reverse the direction of sliding (default: false)\n reverseSlide,\n // Reverse the direction of swipe gestures (default: false)\n reverseSwipe,\n // Reverse the direction of scroll wheel movement (default: false)\n reverseScroll,\n // Inertia factor for movement (default: DEFAULT_MOVE_INERTIA)\n moveInertia,\n // Inertia factor for rotation (default: DEFAULT_ROTATE_INERTIA)\n rotateInertia,\n // Pointer rolling scale factor (default: DEFAULT_POINTER_ROLL_SCALE)\n pointerRollScale,\n // Callback for double press events (default: () => {})\n doublePress,\n // Time delay in ms for press move to start (default: DEFAULT_PRESS_MOVE_DELAY_MS)\n pressMoveDelayMs,\n // Time in ms for press move to accelerate (default: DEFAULT_PRESS_MOVE_ACCEL_MS)\n pressMoveAccelMs,\n // Speed of movement on press (default: 0)\n pressMoveSpeed,\n // Speed of movement on double press (default: pressMoveSpeed * 5.0)\n doublePressMoveSpeed,\n // Speed of movement on triple press (default: doublePressMoveSpeed * 5.0)\n triplePressMoveSpeed,\n // Whether to move toward the screen center or finger when pressing to move (default: true)\n pressMoveCenter,\n }: {\n canvas: HTMLCanvasElement;\n rotateSpeed?: number;\n slideSpeed?: number;\n scrollSpeed?: number;\n swapRotateSlide?: boolean;\n reverseRotate?: boolean;\n reverseSlide?: boolean;\n reverseSwipe?: boolean;\n reverseScroll?: boolean;\n moveInertia?: number;\n rotateInertia?: number;\n pointerRollScale?: number;\n doublePress?: ({\n position,\n intervalMs,\n }: { position: THREE.Vector2; intervalMs: number }) => void;\n pressMoveDelayMs?: number;\n pressMoveAccelMs?: number;\n pressMoveSpeed?: number;\n doublePressMoveSpeed?: number;\n triplePressMoveSpeed?: number;\n pressMoveCenter?: boolean;\n }) {\n this.canvas = canvas;\n this.rotateSpeed = rotateSpeed ?? DEFAULT_ROTATE_SPEED;\n this.slideSpeed = slideSpeed ?? DEFAULT_SLIDE_SPEED;\n this.scrollSpeed = scrollSpeed ?? DEFAULT_SCROLL_SPEED;\n this.swapRotateSlide = swapRotateSlide ?? false;\n this.reverseRotate = reverseRotate ?? (isAndroid() || isIos());\n this.reverseSlide = reverseSlide ?? false;\n this.reverseSwipe = reverseSwipe ?? false;\n this.reverseScroll = reverseScroll ?? false;\n this.moveInertia = moveInertia ?? DEFAULT_MOVE_INERTIA;\n this.rotateInertia = rotateInertia ?? DEFAULT_ROTATE_INERTIA;\n this.pointerRollScale = pointerRollScale ?? DEFAULT_POINTER_ROLL_SCALE;\n\n this.doublePress = doublePress ?? (() => {});\n this.doublePressLimitMs = DOUBLE_PRESS_LIMIT_MS;\n this.doublePressDistance = DOUBLE_PRESS_DISTANCE;\n\n this.pressMoveDelayMs = pressMoveDelayMs ?? DEFAULT_PRESS_MOVE_DELAY_MS;\n this.pressMoveAccelMs = pressMoveAccelMs ?? DEFAULT_PRESS_MOVE_ACCEL_MS;\n this.pressMoveSpeed = pressMoveSpeed ?? 0;\n this.doublePressMoveSpeed =\n doublePressMoveSpeed ?? this.pressMoveSpeed * 5.0;\n this.triplePressMoveSpeed =\n triplePressMoveSpeed ?? this.doublePressMoveSpeed * 5.0;\n this.pressMoveCenter = pressMoveCenter ?? true;\n this.doublePressed = undefined;\n this.triplePressed = false;\n this.lastUp = null;\n this.lastLastUp = null;\n\n this.rotating = null;\n this.sliding = null;\n this.lastDown = null;\n this.dualPress = false;\n this.scroll = new THREE.Vector3();\n\n this.rotateVelocity = new THREE.Vector3();\n this.moveVelocity = new THREE.Vector3();\n\n canvas.addEventListener(\"pointerdown\", (event: PointerEvent) => {\n const position = this.getPointerPosition(event);\n const initial = position.clone();\n const last = position.clone();\n\n // Determine if we're starting a rotation pointer action\n const isRotate =\n (!this.swapRotateSlide &&\n !this.rotating &&\n (event.pointerType !== \"mouse\" || event.button === 0)) ||\n (this.swapRotateSlide &&\n this.sliding &&\n !this.rotating &&\n (event.pointerType !== \"mouse\" || event.button === 1));\n // const isRotate =\n // !this.rotating && (event.pointerType !== \"mouse\" || event.button === 0);\n const { pointerId } = event;\n const timeStamp = performance.now();\n\n if (isRotate) {\n this.rotating = { initial, last, position, pointerId, timeStamp };\n this.lastDown = this.rotating;\n // Capture the pointer so events continue to be delivered even if it leaves the canvas.\n canvas.setPointerCapture(event.pointerId);\n\n this.dualPress = false;\n } else if (!this.sliding) {\n // If it's not a rotation action and we're not yet sliding, the next\n // pointer activates a sliding action\n const button = event.pointerType === \"mouse\" ? event.button : undefined;\n this.sliding = {\n initial,\n last,\n position,\n pointerId,\n button,\n timeStamp,\n };\n this.lastDown = this.sliding;\n // Capture the pointer so events continue to be delivered even if it leaves the canvas.\n canvas.setPointerCapture(event.pointerId);\n\n // Check if we pressed both pointers at roughly the same time\n this.dualPress =\n this.rotating != null &&\n timeStamp - this.rotating.timeStamp < DUAL_PRESS_MS;\n }\n\n if (this.lastUp) {\n const distance = this.lastUp.position.distanceTo(position);\n const intervalMs = timeStamp - this.lastUp.timeStamp;\n if (\n distance < this.doublePressDistance &&\n intervalMs < this.doublePressLimitMs\n ) {\n this.doublePressed = performance.now();\n this.triplePressed = false;\n\n if (this.lastLastUp) {\n const lastDistance = this.lastLastUp.position.distanceTo(\n this.lastUp.position,\n );\n const lastIntervalMs =\n this.lastUp.timeStamp - this.lastLastUp.timeStamp;\n if (\n lastDistance < this.doublePressDistance &&\n lastIntervalMs < this.doublePressLimitMs\n ) {\n this.triplePressed = true;\n }\n }\n }\n }\n });\n\n const pointerUp = (event: PointerEvent) => {\n if (this.rotating?.pointerId === event.pointerId) {\n this.rotating = null;\n canvas.releasePointerCapture(event.pointerId);\n if (this.dualPress && this.sliding) {\n canvas.releasePointerCapture(this.sliding.pointerId);\n this.sliding = null;\n }\n } else if (this.sliding?.pointerId === event.pointerId) {\n this.sliding = null;\n canvas.releasePointerCapture(event.pointerId);\n if (this.dualPress && this.rotating) {\n canvas.releasePointerCapture(this.rotating.pointerId);\n this.rotating = null;\n }\n }\n\n this.doublePressed = undefined;\n this.triplePressed = false;\n\n const position = this.getPointerPosition(event);\n const lastUp = this.lastUp;\n this.lastLastUp = this.lastUp;\n const timeStamp = performance.now();\n this.lastUp = { position, timeStamp };\n\n if (lastUp) {\n const distance = lastUp.position.distanceTo(position);\n if (distance < this.doublePressDistance) {\n const intervalMs = timeStamp - lastUp.timeStamp;\n if (intervalMs < this.doublePressLimitMs) {\n // We pressed and release twice within the time and distance limits\n // this.lastUp = null;\n this.doublePress({ position, intervalMs });\n }\n }\n }\n };\n\n document.addEventListener(\"pointerup\", pointerUp);\n document.addEventListener(\"pointercancel\", pointerUp);\n\n document.addEventListener(\"pointermove\", (event: PointerEvent) => {\n if (this.rotating?.pointerId === event.pointerId) {\n this.rotating.position = this.getPointerPosition(event);\n } else if (this.sliding?.pointerId === event.pointerId) {\n this.sliding.position = this.getPointerPosition(event);\n }\n });\n\n canvas.addEventListener(\"contextmenu\", (event: MouseEvent) => {\n // Prevent context menu appearing on right click\n event.preventDefault();\n });\n\n canvas.addEventListener(\"wheel\", (event: WheelEvent) => {\n this.scroll.add(\n new THREE.Vector3(event.deltaX, event.deltaY, event.deltaZ),\n );\n event.preventDefault();\n });\n }\n\n getPointerPosition(event: PointerEvent): THREE.Vector2 {\n const rect = this.canvas.getBoundingClientRect();\n return new THREE.Vector2(\n event.clientX - rect.left,\n event.clientY - rect.top,\n );\n }\n\n update(deltaTime: number, control: THREE.Object3D, camera?: THREE.Camera) {\n if (!this.enable) {\n return false;\n }\n\n const now = performance.now();\n let updated = false;\n\n if (this.dualPress && this.rotating && this.sliding) {\n // We pressed both pointers at the same time, either pinching or sliding\n const motion = [\n this.rotating.position.clone().sub(this.rotating.last),\n this.sliding.position.clone().sub(this.sliding.last),\n ];\n const coincidence = motion[0].dot(motion[1]);\n\n if (coincidence >= 0.2) {\n // Similar directions so slide the camera on the XY plane\n const totalMotion = motion[0].clone().add(motion[1]);\n const slide = new THREE.Vector3(totalMotion.x, -totalMotion.y, 0);\n slide.multiplyScalar(this.slideSpeed * (this.reverseSwipe ? 1 : -1));\n slide.applyQuaternion(control.quaternion);\n control.position.add(slide);\n this.moveVelocity = slide.clone().multiplyScalar(1 / deltaTime);\n\n if (slide.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n } else if (coincidence <= -0.2) {\n // Opposite directions so either pinch or roll motion\n const deltaDir = this.sliding.last.clone().sub(this.rotating.last);\n const deltaDist = deltaDir.length();\n deltaDir.multiplyScalar(1 / deltaDist).normalize();\n\n const orthoDir = new THREE.Vector2(-deltaDir.y, deltaDir.x);\n const motionDir = [motion[0].dot(deltaDir), motion[1].dot(deltaDir)];\n const motionOrtho = [motion[0].dot(orthoDir), motion[1].dot(orthoDir)];\n\n // Pinching motion\n const midpoint = this.rotating.last\n .clone()\n .add(this.sliding.last)\n .multiplyScalar(0.5);\n let midpointDir = new THREE.Vector3();\n const theCamera =\n camera ?? (control instanceof THREE.Camera ? control : undefined);\n if (theCamera) {\n const ndcMidpoint = new THREE.Vector2(\n (midpoint.x / this.canvas.clientWidth) * 2 - 1,\n -(midpoint.y / this.canvas.clientHeight) * 2 + 1,\n );\n const raycaster = new THREE.Raycaster();\n raycaster.setFromCamera(ndcMidpoint, theCamera);\n midpointDir = raycaster.ray.direction;\n }\n const pinchOut = motionDir[1] - motionDir[0];\n const slide = midpointDir.multiplyScalar(pinchOut * this.slideSpeed);\n control.position.add(slide);\n this.moveVelocity = slide.clone().multiplyScalar(1 / deltaTime);\n\n if (slide.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n\n // Rolling motion\n // Calculate angle of orthogonal motion change over distance deltaDist/2\n // motionOrtho[0] and 1 are already in float distance\n const angles = [\n Math.atan(motionOrtho[0] / (-0.5 * deltaDist)),\n Math.atan(motionOrtho[1] / (0.5 * deltaDist)),\n ];\n const rotate = 0.5 * (angles[0] + angles[1]) * this.pointerRollScale;\n const eulers = new THREE.Euler().setFromQuaternion(\n control.quaternion,\n \"YXZ\",\n );\n eulers.z = Math.max(\n -Math.PI,\n Math.min(Math.PI, eulers.z + 0.5 * rotate),\n );\n control.quaternion.setFromEuler(eulers);\n\n if (Math.abs(rotate) > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n }\n\n this.rotating.last.copy(this.rotating.position);\n this.sliding.last.copy(this.sliding.position);\n } else {\n // Didn't press both pointers at the same time, so we're in rotating\n // or FPS mode\n const rotate = new THREE.Vector3();\n if (this.rotating && !this.dualPress) {\n const delta = this.rotating.position.clone().sub(this.rotating.last);\n this.rotating.last.copy(this.rotating.position);\n rotate.set(delta.x, delta.y, 0);\n rotate.multiplyScalar(this.rotateSpeed * (this.reverseRotate ? -1 : 1));\n // Update rotation velocity from last delta\n this.rotateVelocity = rotate.clone().multiplyScalar(1 / deltaTime);\n\n if (rotate.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n } else {\n // Continue to rotate with inertia\n this.rotateVelocity.multiplyScalar(\n Math.exp(-deltaTime / this.rotateInertia),\n );\n rotate.addScaledVector(this.rotateVelocity, deltaTime);\n\n if (this.rotateVelocity.length() * 0.1 > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n }\n\n // Apply rotation in Euler angles space\n const eulers = new THREE.Euler().setFromQuaternion(\n control.quaternion,\n \"YXZ\",\n );\n eulers.y -= rotate.x;\n eulers.x = Math.max(\n -Math.PI / 2,\n Math.min(Math.PI / 2, eulers.x - rotate.y),\n );\n eulers.z *= Math.exp(-DEFAULT_ROLL_SPRING * deltaTime);\n control.quaternion.setFromEuler(eulers);\n\n if (this.sliding && !this.dualPress) {\n const delta = this.sliding.position.clone().sub(this.sliding.last);\n this.sliding.last.copy(this.sliding.position);\n\n // Slide on plane depending on center/right mouse button\n const slide =\n this.sliding.button !== 2\n ? new THREE.Vector3(delta.x, 0, delta.y)\n : new THREE.Vector3(delta.x, -delta.y, 0);\n slide.multiplyScalar(this.slideSpeed * (this.reverseSlide ? -1 : 1));\n\n slide.applyQuaternion(control.quaternion);\n control.position.add(slide);\n // Update movement velocity from last delta\n this.moveVelocity = slide.clone().multiplyScalar(1 / deltaTime);\n\n if (slide.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n } else {\n const target = new THREE.Vector3();\n if (this.sliding || this.rotating) {\n const point = this.lastDown?.last ?? new THREE.Vector2();\n const theCamera =\n camera ?? (control instanceof THREE.Camera ? control : undefined);\n if (theCamera) {\n const ndcPoint = this.pressMoveCenter\n ? new THREE.Vector2(0, 0)\n : new THREE.Vector2(\n (point.x / this.canvas.clientWidth) * 2 - 1,\n -(point.y / this.canvas.clientHeight) * 2 + 1,\n );\n const raycaster = new THREE.Raycaster();\n raycaster.setFromCamera(ndcPoint, theCamera);\n target.copy(raycaster.ray.direction).normalize();\n }\n\n if (!this.doublePressed) {\n let intensity = 0;\n if (this.lastDown) {\n intensity =\n (now -\n (this.lastDown?.timeStamp ?? now) -\n this.pressMoveDelayMs) /\n this.pressMoveAccelMs;\n\n if (\n this.lastDown.position.distanceTo(this.lastDown.initial) <\n this.doublePressDistance\n ) {\n if (this.pressHeld === undefined) {\n if (intensity > 0) {\n this.pressHeld = true;\n }\n }\n } else if (this.pressHeld === undefined) {\n this.pressHeld = false;\n }\n }\n\n if (this.pressHeld) {\n target.multiplyScalar(\n this.pressMoveSpeed * Math.max(0, Math.min(1, intensity)),\n );\n } else {\n target.set(0, 0, 0);\n }\n } else {\n this.pressHeld = false;\n let intensity =\n (performance.now() - this.doublePressed) / this.pressMoveAccelMs;\n intensity = Math.max(0, Math.min(1, intensity));\n target.multiplyScalar(\n (this.triplePressed\n ? this.triplePressMoveSpeed\n : this.doublePressMoveSpeed) * intensity,\n );\n }\n } else {\n this.pressHeld = undefined;\n }\n // Continue to move with inertia\n const s = Math.exp(-deltaTime / this.moveInertia);\n this.moveVelocity.lerpVectors(target, this.moveVelocity, s);\n control.position.addScaledVector(this.moveVelocity, deltaTime);\n\n if (this.moveVelocity.length() * 0.1 > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n }\n }\n\n const scroll = this.scroll.multiplyScalar(this.scrollSpeed);\n scroll.set(scroll.x, scroll.z, scroll.y);\n if (this.reverseScroll) {\n scroll.multiplyScalar(-1);\n }\n scroll.applyQuaternion(control.quaternion);\n control.position.add(scroll);\n\n if (scroll.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n this.scroll.set(0, 0, 0);\n\n return updated;\n }\n}\n","import * as THREE from \"three\";\nimport { SparkRenderer, type SparkRendererOptions } from \"./SparkRenderer\";\n\n/**\n * Fragment shader for portal disk clipping.\n * - diskRadius > 0: render \"behind portal\" only through the disk\n * - diskRadius < 0: render \"in front of portal\" everywhere except behind disk\n */\nexport const DISK_PORTAL_FRAGMENT_SHADER = `\nprecision highp float;\nprecision highp int;\n\n#include \n\nuniform float near;\nuniform float far;\nuniform mat4 projectionMatrix;\nuniform bool encodeLinear;\nuniform float time;\nuniform bool debugFlag;\nuniform float maxStdDev;\nuniform float minAlpha;\nuniform bool disableFalloff;\nuniform float falloff;\n\nuniform vec3 diskCenter;\nuniform vec3 diskNormal;\nuniform float diskRadius;\nuniform bool diskTwoSided;\n\nout vec4 fragColor;\n\nin vec4 vRgba;\nin vec2 vSplatUv;\nin vec3 vNdc;\nflat in uint vSplatIndex;\nflat in float adjustedStdDev;\n\nvoid main() {\n if (diskRadius != 0.0) {\n // Portal rendering:\n // - diskRadius > 0: render \"behind portal\" only through the disk (discard outside or in-front-of plane).\n // - diskRadius < 0: render \"in front of portal\" everywhere, but discard fragments behind the plane when looking through the disk.\n\n // View ray direction from NDC (view space is -Z forward).\n vec3 viewDir = normalize(vec3(\n vNdc.x / projectionMatrix[0][0],\n vNdc.y / projectionMatrix[1][1],\n -1.0\n ));\n\n // Reconstruct view-space *axial* depth (-viewPos.z) from NDC Z.\n float ndcZ = vNdc.z;\n float depth = (2.0 * near * far) / (far + near - ndcZ * (far - near));\n // Convert axial depth to ray-parameter t (viewPos = t * viewDir).\n float rayT = depth / max(1e-6, -viewDir.z);\n\n float radius = abs(diskRadius);\n float radius2 = radius * radius;\n bool renderBehind = (diskRadius > 0.0);\n\n vec3 diskN = normalize(diskNormal);\n\n // Ray-plane intersection for plane (diskCenter, diskN), with ray origin at (0,0,0).\n float denom = dot(viewDir, diskN);\n bool allowPortal = diskTwoSided ? (abs(denom) > 1e-6) : (denom < -1e-6);\n\n bool hitsDisk = false;\n float t = 0.0;\n if (allowPortal) {\n t = dot(diskCenter, diskN) / denom;\n if (t > 0.0) {\n vec3 q = t * viewDir - diskCenter;\n hitsDisk = (dot(q, q) <= radius2);\n }\n }\n\n // Small bias to avoid flicker at the plane.\n float eps = 1e-4 * max(1.0, abs(t));\n\n if (renderBehind) {\n // Behind-pass: only render through the portal disk, and only behind the plane along the ray.\n if (!hitsDisk) discard;\n if (rayT <= t + eps) discard;\n } else {\n // Front-pass: render everything, except when the ray goes through the disk, discard what's behind the plane.\n if (hitsDisk && (rayT >= t - eps)) discard;\n }\n }\n\n vec4 rgba = vRgba;\n\n float z2 = dot(vSplatUv, vSplatUv);\n if (z2 > (adjustedStdDev * adjustedStdDev)) {\n discard;\n }\n\n float a = rgba.a;\n float shifted = sqrt(z2) - max(0.0, a - 1.0);\n float exponent = -0.5 * max(1.0, a) * sqr(max(0.0, shifted));\n rgba.a = min(1.0, a) * exp(exponent);\n\n if (rgba.a < minAlpha) {\n discard;\n }\n if (encodeLinear) {\n rgba.rgb = srgbToLinear(rgba.rgb);\n }\n\n #ifdef PREMULTIPLIED_ALPHA\n fragColor = vec4(rgba.rgb * rgba.a, rgba.a);\n #else\n fragColor = rgba;\n #endif\n}\n`;\n\n/**\n * Callback function called when a portal is crossed.\n * @param pair The portal pair that was crossed\n * @param fromEntry True if crossing from entry to exit, false if crossing from exit to entry\n */\nexport type PortalCrossCallback = (\n pair: PortalPair,\n fromEntry: boolean,\n) => void | Promise;\n\n/**\n * A pair of connected portals. Walking through one teleports you to the other.\n */\nexport interface PortalPair {\n /** First portal endpoint */\n entryPortal: THREE.Object3D;\n /** Second portal endpoint */\n exitPortal: THREE.Object3D;\n /** Radius of this portal pair's disks */\n radius: number;\n /** Optional callback function called when this portal is crossed */\n onCross?: PortalCrossCallback;\n /** Scratch matrix for tracking portal position before frame updates */\n _entryBefore: THREE.Matrix4;\n /** Scratch matrix for tracking portal position before frame updates */\n _exitBefore: THREE.Matrix4;\n}\n\nexport interface SparkPortalsOptions {\n /** The THREE.WebGLRenderer */\n renderer: THREE.WebGLRenderer;\n /** The scene to render */\n scene: THREE.Scene;\n /** The main camera */\n camera: THREE.PerspectiveCamera;\n /** The local frame (parent of camera, used for teleportation) */\n localFrame: THREE.Group;\n /** Options passed to both SparkRenderer instances */\n sparkOptions?: Partial;\n /** Default portal disk radius for new pairs (default: 1.0) */\n defaultPortalRadius?: number;\n /** Epsilon for portal crossing detection (default: 1e-6) */\n portalCrossEps?: number;\n}\n\n/**\n * SparkPortals\n *\n * Portal implementation to connect two non-contiguous areas of a scene.\n * Supports multiple portal pairs - each pair connects two locations.\n *\n * The rough approach is to use two SparkRenderers: one for the \"front\"/portal\n * view (portalRenderer), and one for the \"behind portal\" pass (behindRenderer).\n *\n * Example:\n * ```typescript\n * const portals = new SparkPortals({ renderer, scene, camera, localFrame });\n *\n * // Add a portal pair\n * const pair = portals.addPortalPair();\n * pair.entryPortal.position.set(0, 0, -1);\n * pair.exitPortal.position.set(-3, 0, -4.5);\n *\n * // Add another pair\n * const pair2 = portals.addPortalPair({ radius: 0.5 });\n * pair2.entryPortal.position.set(5, 0, 0);\n * pair2.exitPortal.position.set(10, 0, 0);\n *\n * // In animation loop:\n * portals.animateLoopHook();\n * ```\n */\nexport class SparkPortals {\n /** The THREE.WebGLRenderer */\n renderer: THREE.WebGLRenderer;\n /** The scene to render */\n scene: THREE.Scene;\n /** The main camera */\n camera: THREE.PerspectiveCamera;\n /** The local frame (parent of camera, used for teleportation) */\n localFrame: THREE.Group;\n\n /** Primary renderer with portal shader (added to scene) */\n portalRenderer: SparkRenderer;\n /** Secondary renderer for behind-portal pass (not in scene) */\n behindRenderer: SparkRenderer;\n /** Secondary camera for behind-portal view */\n camera2: THREE.PerspectiveCamera;\n\n /** All portal pairs */\n portalPairs: PortalPair[] = [];\n /** Default radius for new portal pairs */\n defaultPortalRadius: number;\n /** Epsilon for portal crossing detection */\n portalCrossEps: number;\n\n /** Used to detect crossing between frames */\n private lastCameraWorld = new THREE.Vector3().setScalar(Number.NaN);\n /** Whether portal LoD prefetch is currently enabled */\n private prefetchActive = false;\n\n // Preallocated objects for scratch work to avoid per frame allocations\n private scratch = {\n quat: new THREE.Quaternion(),\n scale: new THREE.Vector3(),\n center0: new THREE.Vector3(),\n center1: new THREE.Vector3(),\n normal0: new THREE.Vector3(),\n normal1: new THREE.Vector3(),\n centerT: new THREE.Vector3(),\n normalT: new THREE.Vector3(),\n prevCameraWorld: new THREE.Vector3(),\n currCameraWorld: new THREE.Vector3(),\n hit: new THREE.Vector3(),\n offset: new THREE.Vector3(),\n camWorld: new THREE.Matrix4(),\n newCamWorld: new THREE.Matrix4(),\n invCamLocal: new THREE.Matrix4(),\n newLocalFrame: new THREE.Matrix4(),\n cameraWorldPos: new THREE.Vector3(),\n viewDir: new THREE.Vector3(),\n portalCenter: new THREE.Vector3(),\n toPortal: new THREE.Vector3(),\n };\n\n constructor(options: SparkPortalsOptions) {\n this.renderer = options.renderer;\n this.scene = options.scene;\n this.camera = options.camera;\n this.localFrame = options.localFrame;\n this.defaultPortalRadius = options.defaultPortalRadius ?? 1.0;\n this.portalCrossEps = options.portalCrossEps ?? 1e-6;\n\n const sparkOpts = options.sparkOptions ?? {};\n\n // Primary renderer with portal shader\n this.portalRenderer = new SparkRenderer({\n renderer: this.renderer,\n extraUniforms: {\n diskCenter: { value: new THREE.Vector3() },\n diskNormal: { value: new THREE.Vector3() },\n diskRadius: { value: 0 },\n diskTwoSided: { value: false },\n },\n fragmentShader: DISK_PORTAL_FRAGMENT_SHADER,\n ...sparkOpts,\n });\n this.scene.add(this.portalRenderer);\n\n // Secondary renderer for behind-portal pass\n // enableDriveLod: false prevents this renderer from driving LOD updates,\n // avoiding race conditions with portalRenderer's pager operations\n this.behindRenderer = new SparkRenderer({\n renderer: this.renderer,\n enableDriveLod: false,\n ...sparkOpts,\n });\n\n // Secondary camera for behind-portal view\n this.camera2 = this.camera.clone();\n this.scene.add(this.camera2);\n }\n\n /**\n * Add a new portal pair to the system.\n * @param options Optional configuration for this pair\n * @returns The created PortalPair - position the entryPortal and exitPortal as needed\n */\n addPortalPair(options?: {\n radius?: number;\n onCross?: PortalCrossCallback;\n }): PortalPair {\n const pair: PortalPair = {\n entryPortal: new THREE.Object3D(),\n exitPortal: new THREE.Object3D(),\n radius: options?.radius ?? this.defaultPortalRadius,\n onCross: options?.onCross,\n _entryBefore: new THREE.Matrix4(),\n _exitBefore: new THREE.Matrix4(),\n };\n\n this.scene.add(pair.entryPortal);\n this.scene.add(pair.exitPortal);\n this.portalPairs.push(pair);\n\n return pair;\n }\n\n /**\n * Remove a portal pair from the system.\n */\n removePortalPair(pair: PortalPair): void {\n const index = this.portalPairs.indexOf(pair);\n if (index !== -1) {\n this.scene.remove(pair.entryPortal);\n this.scene.remove(pair.exitPortal);\n this.portalPairs.splice(index, 1);\n }\n }\n\n /**\n * Get transform from entry portal to exit portal.\n */\n getEntryToExitTransform(pair: PortalPair): THREE.Matrix4 {\n return pair.entryPortal.matrixWorld\n .clone()\n .invert()\n .premultiply(pair.exitPortal.matrixWorld);\n }\n\n /**\n * Get transform from exit portal to entry portal.\n */\n getExitToEntryTransform(pair: PortalPair): THREE.Matrix4 {\n return pair.exitPortal.matrixWorld\n .clone()\n .invert()\n .premultiply(pair.entryPortal.matrixWorld);\n }\n\n /** Set portal disk uniforms for shader clipping */\n private setPortalDiskUniforms(\n camera: THREE.Camera,\n portal: THREE.Object3D,\n radius: number,\n twoSided: boolean,\n ): void {\n camera.updateMatrixWorld(true);\n portal.updateMatrixWorld(true);\n\n const inverseCamera = camera.matrixWorld.clone().invert();\n const portalInCamera = portal.matrixWorld\n .clone()\n .premultiply(inverseCamera);\n const portalQuat = new THREE.Quaternion();\n\n // Extend the base uniform type with our portal-specific uniforms so TS is happy.\n const uniforms = this.portalRenderer\n .uniforms as typeof this.portalRenderer.uniforms & {\n diskCenter: { value: THREE.Vector3 };\n diskNormal: { value: THREE.Vector3 };\n diskRadius: { value: number };\n diskTwoSided: { value: boolean };\n };\n\n portalInCamera.decompose(\n uniforms.diskCenter.value,\n portalQuat,\n new THREE.Vector3(),\n );\n\n uniforms.diskNormal.value.set(0, 0, 1).applyQuaternion(portalQuat);\n uniforms.diskRadius.value = radius;\n uniforms.diskTwoSided.value = twoSided;\n }\n\n /** Extract portal plane from matrix */\n private getPortalPlane(\n matrix: THREE.Matrix4,\n outCenter: THREE.Vector3,\n outNormal: THREE.Vector3,\n ): void {\n matrix.decompose(outCenter, this.scratch.quat, this.scratch.scale);\n outNormal.set(0, 0, 1).applyQuaternion(this.scratch.quat).normalize();\n }\n\n /**\n * Detect if the user path crosses over a portal. If so, return the parametric position (0,1)\n * along the segment where the crossing occurs. If not, return null.\n */\n private getSegmentDiskCrossing(\n prevCam: THREE.Vector3,\n currCam: THREE.Vector3,\n beforeMatrix: THREE.Matrix4,\n afterMatrix: THREE.Matrix4,\n radius: number,\n ): number | null {\n this.getPortalPlane(\n beforeMatrix,\n this.scratch.center0,\n this.scratch.normal0,\n );\n this.getPortalPlane(\n afterMatrix,\n this.scratch.center1,\n this.scratch.normal1,\n );\n\n const startPlaneDist = this.scratch.offset\n .copy(prevCam)\n .sub(this.scratch.center0)\n .dot(this.scratch.normal0);\n const endPlaneDist = this.scratch.offset\n .copy(currCam)\n .sub(this.scratch.center1)\n .dot(this.scratch.normal1);\n\n if (\n (startPlaneDist > this.portalCrossEps &&\n endPlaneDist > this.portalCrossEps) ||\n (startPlaneDist < -this.portalCrossEps &&\n endPlaneDist < -this.portalCrossEps)\n ) {\n return null;\n }\n\n const denom = startPlaneDist - endPlaneDist;\n if (Math.abs(denom) < this.portalCrossEps) return null;\n\n const t = startPlaneDist / denom;\n if (t < 0 || t > 1) return null;\n\n this.scratch.hit.lerpVectors(prevCam, currCam, t);\n this.scratch.centerT\n .copy(this.scratch.center0)\n .lerp(this.scratch.center1, t);\n this.scratch.normalT\n .copy(this.scratch.normal0)\n .lerp(this.scratch.normal1, t)\n .normalize();\n\n this.scratch.offset.copy(this.scratch.hit).sub(this.scratch.centerT);\n this.scratch.offset.addScaledVector(\n this.scratch.normalT,\n -this.scratch.offset.dot(this.scratch.normalT),\n );\n\n if (this.scratch.offset.lengthSq() > radius * radius) return null;\n return t;\n }\n\n /** Teleport camera through portal */\n private teleport(transform: THREE.Matrix4): void {\n this.scratch.camWorld.copy(this.camera.matrixWorld);\n this.scratch.newCamWorld.copy(this.scratch.camWorld).premultiply(transform);\n this.scratch.invCamLocal.copy(this.camera.matrix).invert();\n this.scratch.newLocalFrame\n .copy(this.scratch.newCamWorld)\n .multiply(this.scratch.invCamLocal);\n\n this.scratch.newLocalFrame.decompose(\n this.localFrame.position,\n this.localFrame.quaternion,\n this.localFrame.scale,\n );\n this.localFrame.updateMatrixWorld(true);\n this.camera.updateMatrixWorld(true);\n }\n\n /**\n * Check for portal crossing and teleport if needed.\n * Checks all portal pairs and takes the earliest crossing.\n * Call this after updating controls but before render().\n */\n updateTeleportation(): void {\n if (this.portalPairs.length === 0) return;\n\n this.camera.getWorldPosition(this.scratch.currCameraWorld);\n if (!Number.isFinite(this.lastCameraWorld.x)) {\n this.lastCameraWorld.copy(this.scratch.currCameraWorld);\n return;\n }\n\n this.scratch.prevCameraWorld.copy(this.lastCameraWorld);\n\n // Store portal matrices before any updates and find earliest crossing\n let earliestT: number | null = null;\n let crossedPair: PortalPair | null = null;\n let crossedEntry = true; // true = crossed entry portal, false = crossed exit portal\n\n for (const pair of this.portalPairs) {\n pair.entryPortal.updateMatrixWorld(true);\n pair.exitPortal.updateMatrixWorld(true);\n pair._entryBefore.copy(pair.entryPortal.matrixWorld);\n pair._exitBefore.copy(pair.exitPortal.matrixWorld);\n\n // Check entry portal crossing\n const entryT = this.getSegmentDiskCrossing(\n this.scratch.prevCameraWorld,\n this.scratch.currCameraWorld,\n pair._entryBefore,\n pair.entryPortal.matrixWorld,\n pair.radius,\n );\n\n if (entryT !== null && (earliestT === null || entryT < earliestT)) {\n earliestT = entryT;\n crossedPair = pair;\n crossedEntry = true;\n }\n\n // Check exit portal crossing\n const exitT = this.getSegmentDiskCrossing(\n this.scratch.prevCameraWorld,\n this.scratch.currCameraWorld,\n pair._exitBefore,\n pair.exitPortal.matrixWorld,\n pair.radius,\n );\n\n if (exitT !== null && (earliestT === null || exitT < earliestT)) {\n earliestT = exitT;\n crossedPair = pair;\n crossedEntry = false;\n }\n }\n\n // No portal crossed\n if (crossedPair === null) {\n this.lastCameraWorld.copy(this.scratch.currCameraWorld);\n return;\n }\n\n // Teleport through the crossed portal\n if (crossedEntry) {\n this.teleport(this.getEntryToExitTransform(crossedPair));\n } else {\n this.teleport(this.getExitToEntryTransform(crossedPair));\n }\n\n this.camera.getWorldPosition(this.lastCameraWorld);\n\n // Call the portal's onCross callback if provided\n if (crossedPair.onCross) {\n // Call async callback but don't await (updateTeleportation is synchronous)\n // Errors will be logged but won't block teleportation\n Promise.resolve(crossedPair.onCross(crossedPair, crossedEntry)).catch(\n (error) => {\n console.error(\"Error in portal onCross callback:\", error);\n },\n );\n }\n }\n\n /**\n * Find the most relevant portal for rendering (closest to camera view direction).\n * Returns the portal pair and which portal (entry or exit) is primary.\n */\n private findPrimaryPortal(): {\n pair: PortalPair;\n primaryIsEntry: boolean;\n primaryPortal: THREE.Object3D;\n otherPortal: THREE.Object3D;\n } | null {\n if (this.portalPairs.length === 0) return null;\n\n this.camera.getWorldPosition(this.scratch.cameraWorldPos);\n this.camera.getWorldDirection(this.scratch.viewDir);\n\n let bestScore = Number.NEGATIVE_INFINITY;\n let bestPair: PortalPair | null = null;\n let bestIsEntry = true;\n\n for (const pair of this.portalPairs) {\n // Score entry portal\n pair.entryPortal.getWorldPosition(this.scratch.portalCenter);\n this.scratch.toPortal\n .copy(this.scratch.portalCenter)\n .sub(this.scratch.cameraWorldPos);\n const entryDist = this.scratch.toPortal.length();\n const entryScore =\n this.scratch.toPortal.normalize().dot(this.scratch.viewDir) / entryDist;\n\n if (entryScore > bestScore) {\n bestScore = entryScore;\n bestPair = pair;\n bestIsEntry = true;\n }\n\n // Score exit portal\n pair.exitPortal.getWorldPosition(this.scratch.portalCenter);\n this.scratch.toPortal\n .copy(this.scratch.portalCenter)\n .sub(this.scratch.cameraWorldPos);\n const exitDist = this.scratch.toPortal.length();\n const exitScore =\n this.scratch.toPortal.normalize().dot(this.scratch.viewDir) / exitDist;\n\n if (exitScore > bestScore) {\n bestScore = exitScore;\n bestPair = pair;\n bestIsEntry = false;\n }\n }\n\n if (!bestPair) return null;\n\n return {\n pair: bestPair,\n primaryIsEntry: bestIsEntry,\n primaryPortal: bestIsEntry ? bestPair.entryPortal : bestPair.exitPortal,\n otherPortal: bestIsEntry ? bestPair.exitPortal : bestPair.entryPortal,\n };\n }\n\n /**\n * Render the scene with portals using two-pass rendering.\n * Renders the most relevant portal pair (closest to camera view).\n * Call this instead of renderer.render() in your animation loop.\n */\n render(): void {\n const primary = this.findPrimaryPortal();\n\n // No portals - just render normally\n if (!primary) {\n if (this.prefetchActive) {\n // this.portalRenderer.setPrefetchCameras();\n this.prefetchActive = false;\n }\n this.renderer.autoClear = true;\n this.renderer.render(this.scene, this.camera);\n return;\n }\n\n if (!this.prefetchActive) {\n // this.portalRenderer.setPrefetchCameras([this.camera2]);\n this.prefetchActive = true;\n }\n\n const { pair, primaryIsEntry, primaryPortal, otherPortal } = primary;\n\n // Compute camera2 position (transformed through portal)\n const camera2Matrix = primaryIsEntry\n ? this.camera.matrixWorld\n .clone()\n .premultiply(this.getEntryToExitTransform(pair))\n : this.camera.matrixWorld\n .clone()\n .premultiply(this.getExitToEntryTransform(pair));\n camera2Matrix.decompose(\n this.camera2.position,\n this.camera2.quaternion,\n this.camera2.scale,\n );\n this.camera2.updateMatrixWorld(true);\n\n // Share lodInstances from portalRenderer to behindRenderer BEFORE Pass 1.\n // This uses previous frame's lodInstances (computed with main camera),\n // ensuring both passes use consistent splat selections to avoid flickering.\n this.shareLodInstances();\n\n // Pass 1: Behind portal view (uses shared 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* as THREE from \"three\";\n\n// SplatGeometry is an internal class used by SparkRenderer to render a collection\n// of Gsplats in a single draw call by extending THREE.InstancedBufferGeometry.\n// Each Gsplat is drawn as two triangles, with the order of the Gsplats determined\n// by the instance attribute \"ordering\".\n\nexport class OldSplatGeometry extends THREE.InstancedBufferGeometry {\n ordering: Uint32Array;\n attribute: THREE.InstancedBufferAttribute;\n\n constructor(ordering: Uint32Array, activeSplats: number) {\n super();\n\n this.ordering = ordering;\n\n this.setAttribute(\"position\", new THREE.BufferAttribute(QUAD_VERTICES, 3));\n this.setIndex(new THREE.BufferAttribute(QUAD_INDICES, 1));\n\n // Hack to work around Three.js\n // @ts-ignore\n this._maxInstanceCount = ordering.length;\n this.instanceCount = activeSplats;\n\n this.attribute = new THREE.InstancedBufferAttribute(ordering, 1, false, 1);\n this.attribute.setUsage(THREE.DynamicDrawUsage);\n this.setAttribute(\"splatIndex\", this.attribute);\n }\n\n update(ordering: Uint32Array, activeSplats: number) {\n this.ordering = ordering;\n this.attribute.array = ordering;\n this.instanceCount = activeSplats;\n this.attribute.addUpdateRange(0, activeSplats);\n this.attribute.needsUpdate = true;\n }\n}\n\n// Each instance draws to triangles covering a quad over coords (-1,-1,0)..(1,1,0)\nconst QUAD_VERTICES = new Float32Array([\n -1, -1, 0, 1, -1, 0, 1, 1, 0, -1, 1, 0,\n]);\n\nconst QUAD_INDICES = new Uint16Array([0, 1, 2, 0, 2, 3]);\n","// DEFLATE is a complex format; to read this code, you should probably check the RFC first:\n// https://tools.ietf.org/html/rfc1951\n// You may also wish to take a look at the guide I made about this program:\n// https://gist.github.com/101arrowz/253f31eb5abc3d9275ab943003ffecad\n// Some of the following code is similar to that of UZIP.js:\n// https://github.com/photopea/UZIP.js\n// However, the vast majority of the codebase has diverged from UZIP.js to increase performance and reduce bundle size.\n// Sometimes 0 will appear where -1 would be more appropriate. This is because using a uint\n// is better for memory in most engines (I *think*).\nvar ch2 = {};\nvar wk = (function (c, id, msg, transfer, cb) {\n var w = new Worker(ch2[id] || (ch2[id] = URL.createObjectURL(new Blob([\n c + ';addEventListener(\"error\",function(e){e=e.error;postMessage({$e$:[e.message,e.code,e.stack]})})'\n ], { type: 'text/javascript' }))));\n w.onmessage = function (e) {\n var d = e.data, ed = d.$e$;\n if (ed) {\n var err = new Error(ed[0]);\n err['code'] = ed[1];\n err.stack = ed[2];\n cb(err, null);\n }\n else\n cb(null, d);\n };\n w.postMessage(msg, transfer);\n return w;\n});\n\n// aliases for shorter compressed code (most minifers don't do this)\nvar u8 = Uint8Array, u16 = Uint16Array, i32 = Int32Array;\n// fixed length extra bits\nvar fleb = new u8([0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0, /* unused */ 0, 0, /* impossible */ 0]);\n// fixed distance extra bits\nvar fdeb = new u8([0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13, /* unused */ 0, 0]);\n// code length index map\nvar clim = new u8([16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15]);\n// get base, reverse index map from extra bits\nvar freb = function (eb, start) {\n var b = new u16(31);\n for (var i = 0; i < 31; ++i) {\n b[i] = start += 1 << eb[i - 1];\n }\n // numbers here are at max 18 bits\n var r = new i32(b[30]);\n for (var i = 1; i < 30; ++i) {\n for (var j = b[i]; j < b[i + 1]; ++j) {\n r[j] = ((j - b[i]) << 5) | i;\n }\n }\n return { b: b, r: r };\n};\nvar _a = freb(fleb, 2), fl = _a.b, revfl = _a.r;\n// we can ignore the fact that the other numbers are wrong; they never happen anyway\nfl[28] = 258, revfl[258] = 28;\nvar _b = freb(fdeb, 0), fd = _b.b, revfd = _b.r;\n// map of value to reverse (assuming 16 bits)\nvar rev = new u16(32768);\nfor (var i = 0; i < 32768; ++i) {\n // reverse table algorithm from SO\n var x = ((i & 0xAAAA) >> 1) | ((i & 0x5555) << 1);\n x = ((x & 0xCCCC) >> 2) | ((x & 0x3333) << 2);\n x = ((x & 0xF0F0) >> 4) | ((x & 0x0F0F) << 4);\n rev[i] = (((x & 0xFF00) >> 8) | ((x & 0x00FF) << 8)) >> 1;\n}\n// create huffman tree from u8 \"map\": index -> code length for code index\n// mb (max bits) must be at most 15\n// TODO: optimize/split up?\nvar hMap = (function (cd, mb, r) {\n var s = cd.length;\n // index\n var i = 0;\n // u16 \"map\": index -> # of codes with bit length = index\n var l = new u16(mb);\n // length of cd must be 288 (total # of codes)\n for (; i < s; ++i) {\n if (cd[i])\n ++l[cd[i] - 1];\n }\n // u16 \"map\": index -> minimum code for bit length = index\n var le = new u16(mb);\n for (i = 1; i < mb; ++i) {\n le[i] = (le[i - 1] + l[i - 1]) << 1;\n }\n var co;\n if (r) {\n // u16 \"map\": index -> number of actual bits, symbol for code\n co = new u16(1 << mb);\n // bits to remove for reverser\n var rvb = 15 - mb;\n for (i = 0; i < s; ++i) {\n // ignore 0 lengths\n if (cd[i]) {\n // num encoding both symbol and bits read\n var sv = (i << 4) | cd[i];\n // free bits\n var r_1 = mb - cd[i];\n // start value\n var v = le[cd[i] - 1]++ << r_1;\n // m is end value\n for (var m = v | ((1 << r_1) - 1); v <= m; ++v) {\n // every 16 bit value starting with the code yields the same result\n co[rev[v] >> rvb] = sv;\n }\n }\n }\n }\n else {\n co = new u16(s);\n for (i = 0; i < s; ++i) {\n if (cd[i]) {\n co[i] = rev[le[cd[i] - 1]++] >> (15 - cd[i]);\n }\n }\n }\n return co;\n});\n// fixed length tree\nvar flt = new u8(288);\nfor (var i = 0; i < 144; ++i)\n flt[i] = 8;\nfor (var i = 144; i < 256; ++i)\n flt[i] = 9;\nfor (var i = 256; i < 280; ++i)\n flt[i] = 7;\nfor (var i = 280; i < 288; ++i)\n flt[i] = 8;\n// fixed distance tree\nvar fdt = new u8(32);\nfor (var i = 0; i < 32; ++i)\n fdt[i] = 5;\n// fixed length map\nvar flm = /*#__PURE__*/ hMap(flt, 9, 0), flrm = /*#__PURE__*/ hMap(flt, 9, 1);\n// fixed distance map\nvar fdm = /*#__PURE__*/ hMap(fdt, 5, 0), fdrm = /*#__PURE__*/ hMap(fdt, 5, 1);\n// find max of array\nvar max = function (a) {\n var m = a[0];\n for (var i = 1; i < a.length; ++i) {\n if (a[i] > m)\n m = a[i];\n }\n return m;\n};\n// read d, starting at bit p and mask with m\nvar bits = function (d, p, m) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8)) >> (p & 7)) & m;\n};\n// read d, starting at bit p continuing for at least 16 bits\nvar bits16 = function (d, p) {\n var o = (p / 8) | 0;\n return ((d[o] | (d[o + 1] << 8) | (d[o + 2] << 16)) >> (p & 7));\n};\n// get end of byte\nvar shft = function (p) { return ((p + 7) / 8) | 0; };\n// typed array slice - allows garbage collector to free original reference,\n// while being more compatible than .slice\nvar slc = function (v, s, e) {\n if (s == null || s < 0)\n s = 0;\n if (e == null || e > v.length)\n e = v.length;\n // can't use .constructor in case user-supplied\n return new u8(v.subarray(s, e));\n};\n/**\n * Codes for errors generated within this library\n */\nexport var FlateErrorCode = {\n UnexpectedEOF: 0,\n InvalidBlockType: 1,\n InvalidLengthLiteral: 2,\n InvalidDistance: 3,\n StreamFinished: 4,\n NoStreamHandler: 5,\n InvalidHeader: 6,\n NoCallback: 7,\n InvalidUTF8: 8,\n ExtraFieldTooLong: 9,\n InvalidDate: 10,\n FilenameTooLong: 11,\n StreamFinishing: 12,\n InvalidZipData: 13,\n UnknownCompressionMethod: 14\n};\n// error codes\nvar ec = [\n 'unexpected EOF',\n 'invalid block type',\n 'invalid length/literal',\n 'invalid distance',\n 'stream finished',\n 'no stream handler',\n ,\n 'no callback',\n 'invalid UTF-8 data',\n 'extra field too long',\n 'date not in range 1980-2099',\n 'filename too long',\n 'stream finishing',\n 'invalid zip data'\n // determined by unknown compression method\n];\n;\nvar err = function (ind, msg, nt) {\n var e = new Error(msg || ec[ind]);\n e.code = ind;\n if (Error.captureStackTrace)\n Error.captureStackTrace(e, err);\n if (!nt)\n throw e;\n return e;\n};\n// expands raw DEFLATE data\nvar inflt = function (dat, st, buf, dict) {\n // source length dict length\n var sl = dat.length, dl = dict ? dict.length : 0;\n if (!sl || st.f && !st.l)\n return buf || new u8(0);\n var noBuf = !buf;\n // have to estimate size\n var resize = noBuf || st.i != 2;\n // no state\n var noSt = st.i;\n // Assumes roughly 33% compression ratio average\n if (noBuf)\n buf = new u8(sl * 3);\n // ensure buffer can fit at least l elements\n var cbuf = function (l) {\n var bl = buf.length;\n // need to increase size to fit\n if (l > bl) {\n // Double or set to necessary, whichever is greater\n var nbuf = new u8(Math.max(bl * 2, l));\n nbuf.set(buf);\n buf = nbuf;\n }\n };\n // last chunk bitpos bytes\n var final = st.f || 0, pos = st.p || 0, bt = st.b || 0, lm = st.l, dm = st.d, lbt = st.m, dbt = st.n;\n // total bits\n var tbts = sl * 8;\n do {\n if (!lm) {\n // BFINAL - this is only 1 when last chunk is next\n final = bits(dat, pos, 1);\n // type: 0 = no compression, 1 = fixed huffman, 2 = dynamic huffman\n var type = bits(dat, pos + 1, 3);\n pos += 3;\n if (!type) {\n // go to end of byte boundary\n var s = shft(pos) + 4, l = dat[s - 4] | (dat[s - 3] << 8), t = s + l;\n if (t > sl) {\n if (noSt)\n err(0);\n break;\n }\n // ensure size\n if (resize)\n cbuf(bt + l);\n // Copy over uncompressed data\n buf.set(dat.subarray(s, t), bt);\n // Get new bitpos, update byte count\n st.b = bt += l, st.p = pos = t * 8, st.f = final;\n continue;\n }\n else if (type == 1)\n lm = flrm, dm = fdrm, lbt = 9, dbt = 5;\n else if (type == 2) {\n // literal lengths\n var hLit = bits(dat, pos, 31) + 257, hcLen = bits(dat, pos + 10, 15) + 4;\n var tl = hLit + bits(dat, pos + 5, 31) + 1;\n pos += 14;\n // length+distance tree\n var ldt = new u8(tl);\n // code length tree\n var clt = new u8(19);\n for (var i = 0; i < hcLen; ++i) {\n // use index map to get real code\n clt[clim[i]] = bits(dat, pos + i * 3, 7);\n }\n pos += hcLen * 3;\n // code lengths bits\n var clb = max(clt), clbmsk = (1 << clb) - 1;\n // code lengths map\n var clm = hMap(clt, clb, 1);\n for (var i = 0; i < tl;) {\n var r = clm[bits(dat, pos, clbmsk)];\n // bits read\n pos += r & 15;\n // symbol\n var s = r >> 4;\n // code length to copy\n if (s < 16) {\n ldt[i++] = s;\n }\n else {\n // copy count\n var c = 0, n = 0;\n if (s == 16)\n n = 3 + bits(dat, pos, 3), pos += 2, c = ldt[i - 1];\n else if (s == 17)\n n = 3 + bits(dat, pos, 7), pos += 3;\n else if (s == 18)\n n = 11 + bits(dat, pos, 127), pos += 7;\n while (n--)\n ldt[i++] = c;\n }\n }\n // length tree distance tree\n var lt = ldt.subarray(0, hLit), dt = ldt.subarray(hLit);\n // max length bits\n lbt = max(lt);\n // max dist bits\n dbt = max(dt);\n lm = hMap(lt, lbt, 1);\n dm = hMap(dt, dbt, 1);\n }\n else\n err(1);\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n }\n // Make sure the buffer can hold this + the largest possible addition\n // Maximum chunk size (practically, theoretically infinite) is 2^17\n if (resize)\n cbuf(bt + 131072);\n var lms = (1 << lbt) - 1, dms = (1 << dbt) - 1;\n var lpos = pos;\n for (;; lpos = pos) {\n // bits read, code\n var c = lm[bits16(dat, pos) & lms], sym = c >> 4;\n pos += c & 15;\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (!c)\n err(2);\n if (sym < 256)\n buf[bt++] = sym;\n else if (sym == 256) {\n lpos = pos, lm = null;\n break;\n }\n else {\n var add = sym - 254;\n // no extra bits needed if less\n if (sym > 264) {\n // index\n var i = sym - 257, b = fleb[i];\n add = bits(dat, pos, (1 << b) - 1) + fl[i];\n pos += b;\n }\n // dist\n var d = dm[bits16(dat, pos) & dms], dsym = d >> 4;\n if (!d)\n err(3);\n pos += d & 15;\n var dt = fd[dsym];\n if (dsym > 3) {\n var b = fdeb[dsym];\n dt += bits16(dat, pos) & (1 << b) - 1, pos += b;\n }\n if (pos > tbts) {\n if (noSt)\n err(0);\n break;\n }\n if (resize)\n cbuf(bt + 131072);\n var end = bt + add;\n if (bt < dt) {\n var shift = dl - dt, dend = Math.min(dt, end);\n if (shift + bt < 0)\n err(3);\n for (; bt < dend; ++bt)\n buf[bt] = dict[shift + bt];\n }\n for (; bt < end; ++bt)\n buf[bt] = buf[bt - dt];\n }\n }\n st.l = lm, st.p = lpos, st.b = bt, st.f = final;\n if (lm)\n final = 1, st.m = lbt, st.d = dm, st.n = dbt;\n } while (!final);\n // don't reallocate for streams or user buffers\n return bt != buf.length && noBuf ? slc(buf, 0, bt) : buf.subarray(0, bt);\n};\n// starting at p, write the minimum number of bits that can hold v to d\nvar wbits = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n};\n// starting at p, write the minimum number of bits (>8) that can hold v to d\nvar wbits16 = function (d, p, v) {\n v <<= p & 7;\n var o = (p / 8) | 0;\n d[o] |= v;\n d[o + 1] |= v >> 8;\n d[o + 2] |= v >> 16;\n};\n// creates code lengths from a frequency table\nvar hTree = function (d, mb) {\n // Need extra info to make a tree\n var t = [];\n for (var i = 0; i < d.length; ++i) {\n if (d[i])\n t.push({ s: i, f: d[i] });\n }\n var s = t.length;\n var t2 = t.slice();\n if (!s)\n return { t: et, l: 0 };\n if (s == 1) {\n var v = new u8(t[0].s + 1);\n v[t[0].s] = 1;\n return { t: v, l: 1 };\n }\n t.sort(function (a, b) { return a.f - b.f; });\n // after i2 reaches last ind, will be stopped\n // freq must be greater than largest possible number of symbols\n t.push({ s: -1, f: 25001 });\n var l = t[0], r = t[1], i0 = 0, i1 = 1, i2 = 2;\n t[0] = { s: -1, f: l.f + r.f, l: l, r: r };\n // efficient algorithm from UZIP.js\n // i0 is lookbehind, i2 is lookahead - after processing two low-freq\n // symbols that combined have high freq, will start processing i2 (high-freq,\n // non-composite) symbols instead\n // see https://reddit.com/r/photopea/comments/ikekht/uzipjs_questions/\n while (i1 != s - 1) {\n l = t[t[i0].f < t[i2].f ? i0++ : i2++];\n r = t[i0 != i1 && t[i0].f < t[i2].f ? i0++ : i2++];\n t[i1++] = { s: -1, f: l.f + r.f, l: l, r: r };\n }\n var maxSym = t2[0].s;\n for (var i = 1; i < s; ++i) {\n if (t2[i].s > maxSym)\n maxSym = t2[i].s;\n }\n // code lengths\n var tr = new u16(maxSym + 1);\n // max bits in tree\n var mbt = ln(t[i1 - 1], tr, 0);\n if (mbt > mb) {\n // more algorithms from UZIP.js\n // TODO: find out how this code works (debt)\n // ind debt\n var i = 0, dt = 0;\n // left cost\n var lft = mbt - mb, cst = 1 << lft;\n t2.sort(function (a, b) { return tr[b.s] - tr[a.s] || a.f - b.f; });\n for (; i < s; ++i) {\n var i2_1 = t2[i].s;\n if (tr[i2_1] > mb) {\n dt += cst - (1 << (mbt - tr[i2_1]));\n tr[i2_1] = mb;\n }\n else\n break;\n }\n dt >>= lft;\n while (dt > 0) {\n var i2_2 = t2[i].s;\n if (tr[i2_2] < mb)\n dt -= 1 << (mb - tr[i2_2]++ - 1);\n else\n ++i;\n }\n for (; i >= 0 && dt; --i) {\n var i2_3 = t2[i].s;\n if (tr[i2_3] == mb) {\n --tr[i2_3];\n ++dt;\n }\n }\n mbt = mb;\n }\n return { t: new u8(tr), l: mbt };\n};\n// get the max length and assign length codes\nvar ln = function (n, l, d) {\n return n.s == -1\n ? Math.max(ln(n.l, l, d + 1), ln(n.r, l, d + 1))\n : (l[n.s] = d);\n};\n// length codes generation\nvar lc = function (c) {\n var s = c.length;\n // Note that the semicolon was intentional\n while (s && !c[--s])\n ;\n var cl = new u16(++s);\n // ind num streak\n var cli = 0, cln = c[0], cls = 1;\n var w = function (v) { cl[cli++] = v; };\n for (var i = 1; i <= s; ++i) {\n if (c[i] == cln && i != s)\n ++cls;\n else {\n if (!cln && cls > 2) {\n for (; cls > 138; cls -= 138)\n w(32754);\n if (cls > 2) {\n w(cls > 10 ? ((cls - 11) << 5) | 28690 : ((cls - 3) << 5) | 12305);\n cls = 0;\n }\n }\n else if (cls > 3) {\n w(cln), --cls;\n for (; cls > 6; cls -= 6)\n w(8304);\n if (cls > 2)\n w(((cls - 3) << 5) | 8208), cls = 0;\n }\n while (cls--)\n w(cln);\n cls = 1;\n cln = c[i];\n }\n }\n return { c: cl.subarray(0, cli), n: s };\n};\n// calculate the length of output from tree, code lengths\nvar clen = function (cf, cl) {\n var l = 0;\n for (var i = 0; i < cl.length; ++i)\n l += cf[i] * cl[i];\n return l;\n};\n// writes a fixed block\n// returns the new bit pos\nvar wfblk = function (out, pos, dat) {\n // no need to write 00 as type: TypedArray defaults to 0\n var s = dat.length;\n var o = shft(pos + 2);\n out[o] = s & 255;\n out[o + 1] = s >> 8;\n out[o + 2] = out[o] ^ 255;\n out[o + 3] = out[o + 1] ^ 255;\n for (var i = 0; i < s; ++i)\n out[o + i + 4] = dat[i];\n return (o + 4 + s) * 8;\n};\n// writes a block\nvar wblk = function (dat, out, final, syms, lf, df, eb, li, bs, bl, p) {\n wbits(out, p++, final);\n ++lf[256];\n var _a = hTree(lf, 15), dlt = _a.t, mlb = _a.l;\n var _b = hTree(df, 15), ddt = _b.t, mdb = _b.l;\n var _c = lc(dlt), lclt = _c.c, nlc = _c.n;\n var _d = lc(ddt), lcdt = _d.c, ndc = _d.n;\n var lcfreq = new u16(19);\n for (var i = 0; i < lclt.length; ++i)\n ++lcfreq[lclt[i] & 31];\n for (var i = 0; i < lcdt.length; ++i)\n ++lcfreq[lcdt[i] & 31];\n var _e = hTree(lcfreq, 7), lct = _e.t, mlcb = _e.l;\n var nlcc = 19;\n for (; nlcc > 4 && !lct[clim[nlcc - 1]]; --nlcc)\n ;\n var flen = (bl + 5) << 3;\n var ftlen = clen(lf, flt) + clen(df, fdt) + eb;\n var dtlen = clen(lf, dlt) + clen(df, ddt) + eb + 14 + 3 * nlcc + clen(lcfreq, lct) + 2 * lcfreq[16] + 3 * lcfreq[17] + 7 * lcfreq[18];\n if (bs >= 0 && flen <= ftlen && flen <= dtlen)\n return wfblk(out, p, dat.subarray(bs, bs + bl));\n var lm, ll, dm, dl;\n wbits(out, p, 1 + (dtlen < ftlen)), p += 2;\n if (dtlen < ftlen) {\n lm = hMap(dlt, mlb, 0), ll = dlt, dm = hMap(ddt, mdb, 0), dl = ddt;\n var llm = hMap(lct, mlcb, 0);\n wbits(out, p, nlc - 257);\n wbits(out, p + 5, ndc - 1);\n wbits(out, p + 10, nlcc - 4);\n p += 14;\n for (var i = 0; i < nlcc; ++i)\n wbits(out, p + 3 * i, lct[clim[i]]);\n p += 3 * nlcc;\n var lcts = [lclt, lcdt];\n for (var it = 0; it < 2; ++it) {\n var clct = lcts[it];\n for (var i = 0; i < clct.length; ++i) {\n var len = clct[i] & 31;\n wbits(out, p, llm[len]), p += lct[len];\n if (len > 15)\n wbits(out, p, (clct[i] >> 5) & 127), p += clct[i] >> 12;\n }\n }\n }\n else {\n lm = flm, ll = flt, dm = fdm, dl = fdt;\n }\n for (var i = 0; i < li; ++i) {\n var sym = syms[i];\n if (sym > 255) {\n var len = (sym >> 18) & 31;\n wbits16(out, p, lm[len + 257]), p += ll[len + 257];\n if (len > 7)\n wbits(out, p, (sym >> 23) & 31), p += fleb[len];\n var dst = sym & 31;\n wbits16(out, p, dm[dst]), p += dl[dst];\n if (dst > 3)\n wbits16(out, p, (sym >> 5) & 8191), p += fdeb[dst];\n }\n else {\n wbits16(out, p, lm[sym]), p += ll[sym];\n }\n }\n wbits16(out, p, lm[256]);\n return p + ll[256];\n};\n// deflate options (nice << 13) | chain\nvar deo = /*#__PURE__*/ new i32([65540, 131080, 131088, 131104, 262176, 1048704, 1048832, 2114560, 2117632]);\n// empty\nvar et = /*#__PURE__*/ new u8(0);\n// compresses data into a raw DEFLATE buffer\nvar dflt = function (dat, lvl, plvl, pre, post, st) {\n var s = st.z || dat.length;\n var o = new u8(pre + s + 5 * (1 + Math.ceil(s / 7000)) + post);\n // writing to this writes to the output buffer\n var w = o.subarray(pre, o.length - post);\n var lst = st.l;\n var pos = (st.r || 0) & 7;\n if (lvl) {\n if (pos)\n w[0] = st.r >> 3;\n var opt = deo[lvl - 1];\n var n = opt >> 13, c = opt & 8191;\n var msk_1 = (1 << plvl) - 1;\n // prev 2-byte val map curr 2-byte val map\n var prev = st.p || new u16(32768), head = st.h || new u16(msk_1 + 1);\n var bs1_1 = Math.ceil(plvl / 3), bs2_1 = 2 * bs1_1;\n var hsh = function (i) { return (dat[i] ^ (dat[i + 1] << bs1_1) ^ (dat[i + 2] << bs2_1)) & msk_1; };\n // 24576 is an arbitrary number of maximum symbols per block\n // 424 buffer for last block\n var syms = new i32(25000);\n // length/literal freq distance freq\n var lf = new u16(288), df = new u16(32);\n // l/lcnt exbits index l/lind waitdx blkpos\n var lc_1 = 0, eb = 0, i = st.i || 0, li = 0, wi = st.w || 0, bs = 0;\n for (; i + 2 < s; ++i) {\n // hash value\n var hv = hsh(i);\n // index mod 32768 previous index mod\n var imod = i & 32767, pimod = head[hv];\n prev[imod] = pimod;\n head[hv] = imod;\n // We always should modify head and prev, but only add symbols if\n // this data is not yet processed (\"wait\" for wait index)\n if (wi <= i) {\n // bytes remaining\n var rem = s - i;\n if ((lc_1 > 7000 || li > 24576) && (rem > 423 || !lst)) {\n pos = wblk(dat, w, 0, syms, lf, df, eb, li, bs, i - bs, pos);\n li = lc_1 = eb = 0, bs = i;\n for (var j = 0; j < 286; ++j)\n lf[j] = 0;\n for (var j = 0; j < 30; ++j)\n df[j] = 0;\n }\n // len dist chain\n var l = 2, d = 0, ch_1 = c, dif = imod - pimod & 32767;\n if (rem > 2 && hv == hsh(i - dif)) {\n var maxn = Math.min(n, rem) - 1;\n var maxd = Math.min(32767, i);\n // max possible length\n // not capped at dif because decompressors implement \"rolling\" index population\n var ml = Math.min(258, rem);\n while (dif <= maxd && --ch_1 && imod != pimod) {\n if (dat[i + l] == dat[i + l - dif]) {\n var nl = 0;\n for (; nl < ml && dat[i + nl] == dat[i + nl - dif]; ++nl)\n ;\n if (nl > l) {\n l = nl, d = dif;\n // break out early when we reach \"nice\" (we are satisfied enough)\n if (nl > maxn)\n break;\n // now, find the rarest 2-byte sequence within this\n // length of literals and search for that instead.\n // Much faster than just using the start\n var mmd = Math.min(dif, nl - 2);\n var md = 0;\n for (var j = 0; j < mmd; ++j) {\n var ti = i - dif + j & 32767;\n var pti = prev[ti];\n var cd = ti - pti & 32767;\n if (cd > md)\n md = cd, pimod = ti;\n }\n }\n }\n // check the previous match\n imod = pimod, pimod = prev[imod];\n dif += imod - pimod & 32767;\n }\n }\n // d will be nonzero only when a match was found\n if (d) {\n // store both dist and len data in one int32\n // Make sure this is recognized as a len/dist with 28th bit (2^28)\n syms[li++] = 268435456 | (revfl[l] << 18) | revfd[d];\n var lin = revfl[l] & 31, din = revfd[d] & 31;\n eb += fleb[lin] + fdeb[din];\n ++lf[257 + lin];\n ++df[din];\n wi = i + l;\n ++lc_1;\n }\n else {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n }\n }\n for (i = Math.max(i, wi); i < s; ++i) {\n syms[li++] = dat[i];\n ++lf[dat[i]];\n }\n pos = wblk(dat, w, lst, syms, lf, df, eb, li, bs, i - bs, pos);\n if (!lst) {\n st.r = (pos & 7) | w[(pos / 8) | 0] << 3;\n // shft(pos) now 1 less if pos & 7 != 0\n pos -= 7;\n st.h = head, st.p = prev, st.i = i, st.w = wi;\n }\n }\n else {\n for (var i = st.w || 0; i < s + lst; i += 65535) {\n // end\n var e = i + 65535;\n if (e >= s) {\n // write final block\n w[(pos / 8) | 0] = lst;\n e = s;\n }\n pos = wfblk(w, pos + 1, dat.subarray(i, e));\n }\n st.i = s;\n }\n return slc(o, 0, pre + shft(pos) + post);\n};\n// CRC32 table\nvar crct = /*#__PURE__*/ (function () {\n var t = new Int32Array(256);\n for (var i = 0; i < 256; ++i) {\n var c = i, k = 9;\n while (--k)\n c = ((c & 1) && -306674912) ^ (c >>> 1);\n t[i] = c;\n }\n return t;\n})();\n// CRC32\nvar crc = function () {\n var c = -1;\n return {\n p: function (d) {\n // closures have awful performance\n var cr = c;\n for (var i = 0; i < d.length; ++i)\n cr = crct[(cr & 255) ^ d[i]] ^ (cr >>> 8);\n c = cr;\n },\n d: function () { return ~c; }\n };\n};\n// Adler32\nvar adler = function () {\n var a = 1, b = 0;\n return {\n p: function (d) {\n // closures have awful performance\n var n = a, m = b;\n var l = d.length | 0;\n for (var i = 0; i != l;) {\n var e = Math.min(i + 2655, l);\n for (; i < e; ++i)\n m += n += d[i];\n n = (n & 65535) + 15 * (n >> 16), m = (m & 65535) + 15 * (m >> 16);\n }\n a = n, b = m;\n },\n d: function () {\n a %= 65521, b %= 65521;\n return (a & 255) << 24 | (a & 0xFF00) << 8 | (b & 255) << 8 | (b >> 8);\n }\n };\n};\n;\n// deflate with opts\nvar dopt = function (dat, opt, pre, post, st) {\n if (!st) {\n st = { l: 1 };\n if (opt.dictionary) {\n var dict = opt.dictionary.subarray(-32768);\n var newDat = new u8(dict.length + dat.length);\n newDat.set(dict);\n newDat.set(dat, dict.length);\n dat = newDat;\n st.w = dict.length;\n }\n }\n return dflt(dat, opt.level == null ? 6 : opt.level, opt.mem == null ? (st.l ? Math.ceil(Math.max(8, Math.min(13, Math.log(dat.length))) * 1.5) : 20) : (12 + opt.mem), pre, post, st);\n};\n// Walmart object spread\nvar mrg = function (a, b) {\n var o = {};\n for (var k in a)\n o[k] = a[k];\n for (var k in b)\n o[k] = b[k];\n return o;\n};\n// worker clone\n// This is possibly the craziest part of the entire codebase, despite how simple it may seem.\n// The only parameter to this function is a closure that returns an array of variables outside of the function scope.\n// We're going to try to figure out the variable names used in the closure as strings because that is crucial for workerization.\n// We will return an object mapping of true variable name to value (basically, the current scope as a JS object).\n// The reason we can't just use the original variable names is minifiers mangling the toplevel scope.\n// This took me three weeks to figure out how to do.\nvar wcln = function (fn, fnStr, td) {\n var dt = fn();\n var st = fn.toString();\n var ks = st.slice(st.indexOf('[') + 1, st.lastIndexOf(']')).replace(/\\s+/g, '').split(',');\n for (var i = 0; i < dt.length; ++i) {\n var v = dt[i], k = ks[i];\n if (typeof v == 'function') {\n fnStr += ';' + k + '=';\n var st_1 = v.toString();\n if (v.prototype) {\n // for global objects\n if (st_1.indexOf('[native code]') != -1) {\n var spInd = st_1.indexOf(' ', 8) + 1;\n fnStr += st_1.slice(spInd, st_1.indexOf('(', spInd));\n }\n else {\n fnStr += st_1;\n for (var t in v.prototype)\n fnStr += ';' + k + '.prototype.' + t + '=' + v.prototype[t].toString();\n }\n }\n else\n fnStr += st_1;\n }\n else\n td[k] = v;\n }\n return fnStr;\n};\nvar ch = [];\n// clone bufs\nvar cbfs = function (v) {\n var tl = [];\n for (var k in v) {\n if (v[k].buffer) {\n tl.push((v[k] = new v[k].constructor(v[k])).buffer);\n }\n }\n return tl;\n};\n// use a worker to execute code\nvar wrkr = function (fns, init, id, cb) {\n if (!ch[id]) {\n var fnStr = '', td_1 = {}, m = fns.length - 1;\n for (var i = 0; i < m; ++i)\n fnStr = wcln(fns[i], fnStr, td_1);\n ch[id] = { c: wcln(fns[m], fnStr, td_1), e: td_1 };\n }\n var td = mrg({}, ch[id].e);\n return wk(ch[id].c + ';onmessage=function(e){for(var k in e.data)self[k]=e.data[k];onmessage=' + init.toString() + '}', id, td, cbfs(td), cb);\n};\n// base async inflate fn\nvar bInflt = function () { return [u8, u16, i32, fleb, fdeb, clim, fl, fd, flrm, fdrm, rev, ec, hMap, max, bits, bits16, shft, slc, err, inflt, inflateSync, pbf, gopt]; };\nvar bDflt = function () { return [u8, u16, i32, fleb, fdeb, clim, revfl, revfd, flm, flt, fdm, fdt, rev, deo, et, hMap, wbits, wbits16, hTree, ln, lc, clen, wfblk, wblk, shft, slc, dflt, dopt, deflateSync, pbf]; };\n// gzip extra\nvar gze = function () { return [gzh, gzhl, wbytes, crc, crct]; };\n// gunzip extra\nvar guze = function () { return [gzs, gzl]; };\n// zlib extra\nvar zle = function () { return [zlh, wbytes, adler]; };\n// unzlib extra\nvar zule = function () { return [zls]; };\n// post buf\nvar pbf = function (msg) { return postMessage(msg, [msg.buffer]); };\n// get opts\nvar gopt = function (o) { return o && {\n out: o.size && new u8(o.size),\n dictionary: o.dictionary\n}; };\n// async helper\nvar cbify = function (dat, opts, fns, init, id, cb) {\n var w = wrkr(fns, init, id, function (err, dat) {\n w.terminate();\n cb(err, dat);\n });\n w.postMessage([dat, opts], opts.consume ? [dat.buffer] : []);\n return function () { w.terminate(); };\n};\n// auto stream\nvar astrm = function (strm) {\n strm.ondata = function (dat, final) { return postMessage([dat, final], [dat.buffer]); };\n return function (ev) {\n if (ev.data.length) {\n strm.push(ev.data[0], ev.data[1]);\n postMessage([ev.data[0].length]);\n }\n else\n strm.flush();\n };\n};\n// async stream attach\nvar astrmify = function (fns, strm, opts, init, id, flush, ext) {\n var t;\n var w = wrkr(fns, init, id, function (err, dat) {\n if (err)\n w.terminate(), strm.ondata.call(strm, err);\n else if (!Array.isArray(dat))\n ext(dat);\n else if (dat.length == 1) {\n strm.queuedSize -= dat[0];\n if (strm.ondrain)\n strm.ondrain(dat[0]);\n }\n else {\n if (dat[1])\n w.terminate();\n strm.ondata.call(strm, err, dat[0], dat[1]);\n }\n });\n w.postMessage(opts);\n strm.queuedSize = 0;\n strm.push = function (d, f) {\n if (!strm.ondata)\n err(5);\n if (t)\n strm.ondata(err(4, 0, 1), null, !!f);\n strm.queuedSize += d.length;\n w.postMessage([d, t = f], [d.buffer]);\n };\n strm.terminate = function () { w.terminate(); };\n if (flush) {\n strm.flush = function () { w.postMessage([]); };\n }\n};\n// read 2 bytes\nvar b2 = function (d, b) { return d[b] | (d[b + 1] << 8); };\n// read 4 bytes\nvar b4 = function (d, b) { return (d[b] | (d[b + 1] << 8) | (d[b + 2] << 16) | (d[b + 3] << 24)) >>> 0; };\nvar b8 = function (d, b) { return b4(d, b) + (b4(d, b + 4) * 4294967296); };\n// write bytes\nvar wbytes = function (d, b, v) {\n for (; v; ++b)\n d[b] = v, v >>>= 8;\n};\n// gzip header\nvar gzh = function (c, o) {\n var fn = o.filename;\n c[0] = 31, c[1] = 139, c[2] = 8, c[8] = o.level < 2 ? 4 : o.level == 9 ? 2 : 0, c[9] = 3; // assume Unix\n if (o.mtime != 0)\n wbytes(c, 4, Math.floor(new Date(o.mtime || Date.now()) / 1000));\n if (fn) {\n c[3] = 8;\n for (var i = 0; i <= fn.length; ++i)\n c[i + 10] = fn.charCodeAt(i);\n }\n};\n// gzip footer: -8 to -4 = CRC, -4 to -0 is length\n// gzip start\nvar gzs = function (d) {\n if (d[0] != 31 || d[1] != 139 || d[2] != 8)\n err(6, 'invalid gzip data');\n var flg = d[3];\n var st = 10;\n if (flg & 4)\n st += (d[10] | d[11] << 8) + 2;\n for (var zs = (flg >> 3 & 1) + (flg >> 4 & 1); zs > 0; zs -= !d[st++])\n ;\n return st + (flg & 2);\n};\n// gzip length\nvar gzl = function (d) {\n var l = d.length;\n return (d[l - 4] | d[l - 3] << 8 | d[l - 2] << 16 | d[l - 1] << 24) >>> 0;\n};\n// gzip header length\nvar gzhl = function (o) { return 10 + (o.filename ? o.filename.length + 1 : 0); };\n// zlib header\nvar zlh = function (c, o) {\n var lv = o.level, fl = lv == 0 ? 0 : lv < 6 ? 1 : lv == 9 ? 3 : 2;\n c[0] = 120, c[1] = (fl << 6) | (o.dictionary && 32);\n c[1] |= 31 - ((c[0] << 8) | c[1]) % 31;\n if (o.dictionary) {\n var h = adler();\n h.p(o.dictionary);\n wbytes(c, 2, h.d());\n }\n};\n// zlib start\nvar zls = function (d, dict) {\n if ((d[0] & 15) != 8 || (d[0] >> 4) > 7 || ((d[0] << 8 | d[1]) % 31))\n err(6, 'invalid zlib data');\n if ((d[1] >> 5 & 1) == +!dict)\n err(6, 'invalid zlib data: ' + (d[1] & 32 ? 'need' : 'unexpected') + ' dictionary');\n return (d[1] >> 3 & 4) + 2;\n};\nfunction StrmOpt(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n return opts;\n}\n/**\n * Streaming DEFLATE compression\n */\nvar Deflate = /*#__PURE__*/ (function () {\n function Deflate(opts, cb) {\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n this.o = opts || {};\n this.s = { l: 0, i: 32768, w: 32768, z: 32768 };\n // Buffer length must always be 0 mod 32768 for index calculations to be correct when modifying head and prev\n // 98304 = 32768 (lookback) + 65536 (common chunk size)\n this.b = new u8(98304);\n if (this.o.dictionary) {\n var dict = this.o.dictionary.subarray(-32768);\n this.b.set(dict, 32768 - dict.length);\n this.s.i = 32768 - dict.length;\n }\n }\n Deflate.prototype.p = function (c, f) {\n this.ondata(dopt(c, this.o, 0, 0, this.s), f);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Deflate.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n var endLen = chunk.length + this.s.z;\n if (endLen > this.b.length) {\n if (endLen > 2 * this.b.length - 32768) {\n var newBuf = new u8(endLen & -32768);\n newBuf.set(this.b.subarray(0, this.s.z));\n this.b = newBuf;\n }\n var split = this.b.length - this.s.z;\n this.b.set(chunk.subarray(0, split), this.s.z);\n this.s.z = this.b.length;\n this.p(this.b, false);\n this.b.set(this.b.subarray(-32768));\n this.b.set(chunk.subarray(split), 32768);\n this.s.z = chunk.length - split + 32768;\n this.s.i = 32766, this.s.w = 32768;\n }\n else {\n this.b.set(chunk, this.s.z);\n this.s.z += chunk.length;\n }\n this.s.l = final & 1;\n if (this.s.z > this.s.w + 8191 || final) {\n this.p(this.b, final || false);\n this.s.w = this.s.i, this.s.i -= 2;\n }\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * deflated output for small inputs.\n */\n Deflate.prototype.flush = function () {\n if (!this.ondata)\n err(5);\n if (this.s.l)\n err(4);\n this.p(this.b, false);\n this.s.w = this.s.i, this.s.i -= 2;\n };\n return Deflate;\n}());\nexport { Deflate };\n/**\n * Asynchronous streaming DEFLATE compression\n */\nvar AsyncDeflate = /*#__PURE__*/ (function () {\n function AsyncDeflate(opts, cb) {\n astrmify([\n bDflt,\n function () { return [astrm, Deflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Deflate(ev.data);\n onmessage = astrm(strm);\n }, 6, 1);\n }\n return AsyncDeflate;\n}());\nexport { AsyncDeflate };\nexport function deflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n ], function (ev) { return pbf(deflateSync(ev.data[0], ev.data[1])); }, 0, cb);\n}\n/**\n * Compresses data with DEFLATE without any wrapper\n * @param data The data to compress\n * @param opts The compression options\n * @returns The deflated version of the data\n */\nexport function deflateSync(data, opts) {\n return dopt(data, opts || {}, 0, 0);\n}\n/**\n * Streaming DEFLATE decompression\n */\nvar Inflate = /*#__PURE__*/ (function () {\n function Inflate(opts, cb) {\n // no StrmOpt here to avoid adding to workerizer\n if (typeof opts == 'function')\n cb = opts, opts = {};\n this.ondata = cb;\n var dict = opts && opts.dictionary && opts.dictionary.subarray(-32768);\n this.s = { i: 0, b: dict ? dict.length : 0 };\n this.o = new u8(32768);\n this.p = new u8(0);\n if (dict)\n this.o.set(dict);\n }\n Inflate.prototype.e = function (c) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n if (!this.p.length)\n this.p = c;\n else if (c.length) {\n var n = new u8(this.p.length + c.length);\n n.set(this.p), n.set(c, this.p.length), this.p = n;\n }\n };\n Inflate.prototype.c = function (final) {\n this.s.i = +(this.d = final || false);\n var bts = this.s.b;\n var dt = inflt(this.p, this.s, this.o);\n this.ondata(slc(dt, bts, this.s.b), this.d);\n this.o = slc(dt, this.s.b - 32768), this.s.b = this.o.length;\n this.p = slc(this.p, (this.s.p / 8) | 0), this.s.p &= 7;\n };\n /**\n * Pushes a chunk to be inflated\n * @param chunk The chunk to push\n * @param final Whether this is the final chunk\n */\n Inflate.prototype.push = function (chunk, final) {\n this.e(chunk), this.c(final);\n };\n return Inflate;\n}());\nexport { Inflate };\n/**\n * Asynchronous streaming DEFLATE decompression\n */\nvar AsyncInflate = /*#__PURE__*/ (function () {\n function AsyncInflate(opts, cb) {\n astrmify([\n bInflt,\n function () { return [astrm, Inflate]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Inflate(ev.data);\n onmessage = astrm(strm);\n }, 7, 0);\n }\n return AsyncInflate;\n}());\nexport { AsyncInflate };\nexport function inflate(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt\n ], function (ev) { return pbf(inflateSync(ev.data[0], gopt(ev.data[1]))); }, 1, cb);\n}\n/**\n * Expands DEFLATE data with no wrapper\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function inflateSync(data, opts) {\n return inflt(data, { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// before you yell at me for not just using extends, my reason is that TS inheritance is hard to workerize.\n/**\n * Streaming GZIP compression\n */\nvar Gzip = /*#__PURE__*/ (function () {\n function Gzip(opts, cb) {\n this.c = crc();\n this.l = 0;\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gzip.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n this.l += chunk.length;\n Deflate.prototype.push.call(this, chunk, final);\n };\n Gzip.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && gzhl(this.o), f && 8, this.s);\n if (this.v)\n gzh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 8, this.c.d()), wbytes(raw, raw.length - 4, this.l);\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * GZIPped output for small inputs.\n */\n Gzip.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Gzip;\n}());\nexport { Gzip };\n/**\n * Asynchronous streaming GZIP compression\n */\nvar AsyncGzip = /*#__PURE__*/ (function () {\n function AsyncGzip(opts, cb) {\n astrmify([\n bDflt,\n gze,\n function () { return [astrm, Deflate, Gzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gzip(ev.data);\n onmessage = astrm(strm);\n }, 8, 1);\n }\n return AsyncGzip;\n}());\nexport { AsyncGzip };\nexport function gzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n gze,\n function () { return [gzipSync]; }\n ], function (ev) { return pbf(gzipSync(ev.data[0], ev.data[1])); }, 2, cb);\n}\n/**\n * Compresses data with GZIP\n * @param data The data to compress\n * @param opts The compression options\n * @returns The gzipped version of the data\n */\nexport function gzipSync(data, opts) {\n if (!opts)\n opts = {};\n var c = crc(), l = data.length;\n c.p(data);\n var d = dopt(data, opts, gzhl(opts), 8), s = d.length;\n return gzh(d, opts), wbytes(d, s - 8, c.d()), wbytes(d, s - 4, l), d;\n}\n/**\n * Streaming single or multi-member GZIP decompression\n */\nvar Gunzip = /*#__PURE__*/ (function () {\n function Gunzip(opts, cb) {\n this.v = 1;\n this.r = 0;\n Inflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be GUNZIPped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Gunzip.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n this.r += chunk.length;\n if (this.v) {\n var p = this.p.subarray(this.v - 1);\n var s = p.length > 3 ? gzs(p) : 4;\n if (s > p.length) {\n if (!final)\n return;\n }\n else if (this.v > 1 && this.onmember) {\n this.onmember(this.r - p.length);\n }\n this.p = p.subarray(s), this.v = 0;\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n // process concatenated GZIP\n if (this.s.f && !this.s.l && !final) {\n this.v = shft(this.s.p) + 9;\n this.s = { i: 0 };\n this.o = new u8(0);\n this.push(new u8(0), final);\n }\n };\n return Gunzip;\n}());\nexport { Gunzip };\n/**\n * Asynchronous streaming single or multi-member GZIP decompression\n */\nvar AsyncGunzip = /*#__PURE__*/ (function () {\n function AsyncGunzip(opts, cb) {\n var _this = this;\n astrmify([\n bInflt,\n guze,\n function () { return [astrm, Inflate, Gunzip]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Gunzip(ev.data);\n strm.onmember = function (offset) { return postMessage(offset); };\n onmessage = astrm(strm);\n }, 9, 0, function (offset) { return _this.onmember && _this.onmember(offset); });\n }\n return AsyncGunzip;\n}());\nexport { AsyncGunzip };\nexport function gunzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n guze,\n function () { return [gunzipSync]; }\n ], function (ev) { return pbf(gunzipSync(ev.data[0], ev.data[1])); }, 3, cb);\n}\n/**\n * Expands GZIP data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function gunzipSync(data, opts) {\n var st = gzs(data);\n if (st + 8 > data.length)\n err(6, 'invalid gzip data');\n return inflt(data.subarray(st, -8), { i: 2 }, opts && opts.out || new u8(gzl(data)), opts && opts.dictionary);\n}\n/**\n * Streaming Zlib compression\n */\nvar Zlib = /*#__PURE__*/ (function () {\n function Zlib(opts, cb) {\n this.c = adler();\n this.v = 1;\n Deflate.call(this, opts, cb);\n }\n /**\n * Pushes a chunk to be zlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Zlib.prototype.push = function (chunk, final) {\n this.c.p(chunk);\n Deflate.prototype.push.call(this, chunk, final);\n };\n Zlib.prototype.p = function (c, f) {\n var raw = dopt(c, this.o, this.v && (this.o.dictionary ? 6 : 2), f && 4, this.s);\n if (this.v)\n zlh(raw, this.o), this.v = 0;\n if (f)\n wbytes(raw, raw.length - 4, this.c.d());\n this.ondata(raw, f);\n };\n /**\n * Flushes buffered uncompressed data. Useful to immediately retrieve the\n * zlibbed output for small inputs.\n */\n Zlib.prototype.flush = function () {\n Deflate.prototype.flush.call(this);\n };\n return Zlib;\n}());\nexport { Zlib };\n/**\n * Asynchronous streaming Zlib compression\n */\nvar AsyncZlib = /*#__PURE__*/ (function () {\n function AsyncZlib(opts, cb) {\n astrmify([\n bDflt,\n zle,\n function () { return [astrm, Deflate, Zlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Zlib(ev.data);\n onmessage = astrm(strm);\n }, 10, 1);\n }\n return AsyncZlib;\n}());\nexport { AsyncZlib };\nexport function zlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bDflt,\n zle,\n function () { return [zlibSync]; }\n ], function (ev) { return pbf(zlibSync(ev.data[0], ev.data[1])); }, 4, cb);\n}\n/**\n * Compress data with Zlib\n * @param data The data to compress\n * @param opts The compression options\n * @returns The zlib-compressed version of the data\n */\nexport function zlibSync(data, opts) {\n if (!opts)\n opts = {};\n var a = adler();\n a.p(data);\n var d = dopt(data, opts, opts.dictionary ? 6 : 2, 4);\n return zlh(d, opts), wbytes(d, d.length - 4, a.d()), d;\n}\n/**\n * Streaming Zlib decompression\n */\nvar Unzlib = /*#__PURE__*/ (function () {\n function Unzlib(opts, cb) {\n Inflate.call(this, opts, cb);\n this.v = opts && opts.dictionary ? 2 : 1;\n }\n /**\n * Pushes a chunk to be unzlibbed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzlib.prototype.push = function (chunk, final) {\n Inflate.prototype.e.call(this, chunk);\n if (this.v) {\n if (this.p.length < 6 && !final)\n return;\n this.p = this.p.subarray(zls(this.p, this.v - 1)), this.v = 0;\n }\n if (final) {\n if (this.p.length < 4)\n err(6, 'invalid zlib data');\n this.p = this.p.subarray(0, -4);\n }\n // necessary to prevent TS from using the closure value\n // This allows for workerization to function correctly\n Inflate.prototype.c.call(this, final);\n };\n return Unzlib;\n}());\nexport { Unzlib };\n/**\n * Asynchronous streaming Zlib decompression\n */\nvar AsyncUnzlib = /*#__PURE__*/ (function () {\n function AsyncUnzlib(opts, cb) {\n astrmify([\n bInflt,\n zule,\n function () { return [astrm, Inflate, Unzlib]; }\n ], this, StrmOpt.call(this, opts, cb), function (ev) {\n var strm = new Unzlib(ev.data);\n onmessage = astrm(strm);\n }, 11, 0);\n }\n return AsyncUnzlib;\n}());\nexport { AsyncUnzlib };\nexport function unzlib(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return cbify(data, opts, [\n bInflt,\n zule,\n function () { return [unzlibSync]; }\n ], function (ev) { return pbf(unzlibSync(ev.data[0], gopt(ev.data[1]))); }, 5, cb);\n}\n/**\n * Expands Zlib data\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function unzlibSync(data, opts) {\n return inflt(data.subarray(zls(data, opts && opts.dictionary), -4), { i: 2 }, opts && opts.out, opts && opts.dictionary);\n}\n// Default algorithm for compression (used because having a known output size allows faster decompression)\nexport { gzip as compress, AsyncGzip as AsyncCompress };\nexport { gzipSync as compressSync, Gzip as Compress };\n/**\n * Streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar Decompress = /*#__PURE__*/ (function () {\n function Decompress(opts, cb) {\n this.o = StrmOpt.call(this, opts, cb) || {};\n this.G = Gunzip;\n this.I = Inflate;\n this.Z = Unzlib;\n }\n // init substream\n // overriden by AsyncDecompress\n Decompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (dat, final) {\n _this.ondata(dat, final);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Decompress.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (!this.s) {\n if (this.p && this.p.length) {\n var n = new u8(this.p.length + chunk.length);\n n.set(this.p), n.set(chunk, this.p.length);\n }\n else\n this.p = chunk;\n if (this.p.length > 2) {\n this.s = (this.p[0] == 31 && this.p[1] == 139 && this.p[2] == 8)\n ? new this.G(this.o)\n : ((this.p[0] & 15) != 8 || (this.p[0] >> 4) > 7 || ((this.p[0] << 8 | this.p[1]) % 31))\n ? new this.I(this.o)\n : new this.Z(this.o);\n this.i();\n this.s.push(this.p, final);\n this.p = null;\n }\n }\n else\n this.s.push(chunk, final);\n };\n return Decompress;\n}());\nexport { Decompress };\n/**\n * Asynchronous streaming GZIP, Zlib, or raw DEFLATE decompression\n */\nvar AsyncDecompress = /*#__PURE__*/ (function () {\n function AsyncDecompress(opts, cb) {\n Decompress.call(this, opts, cb);\n this.queuedSize = 0;\n this.G = AsyncGunzip;\n this.I = AsyncInflate;\n this.Z = AsyncUnzlib;\n }\n AsyncDecompress.prototype.i = function () {\n var _this = this;\n this.s.ondata = function (err, dat, final) {\n _this.ondata(err, dat, final);\n };\n this.s.ondrain = function (size) {\n _this.queuedSize -= size;\n if (_this.ondrain)\n _this.ondrain(size);\n };\n };\n /**\n * Pushes a chunk to be decompressed\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncDecompress.prototype.push = function (chunk, final) {\n this.queuedSize += chunk.length;\n Decompress.prototype.push.call(this, chunk, final);\n };\n return AsyncDecompress;\n}());\nexport { AsyncDecompress };\nexport function decompress(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzip(data, opts, cb)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflate(data, opts, cb)\n : unzlib(data, opts, cb);\n}\n/**\n * Expands compressed GZIP, Zlib, or raw DEFLATE data, automatically detecting the format\n * @param data The data to decompress\n * @param opts The decompression options\n * @returns The decompressed version of the data\n */\nexport function decompressSync(data, opts) {\n return (data[0] == 31 && data[1] == 139 && data[2] == 8)\n ? gunzipSync(data, opts)\n : ((data[0] & 15) != 8 || (data[0] >> 4) > 7 || ((data[0] << 8 | data[1]) % 31))\n ? inflateSync(data, opts)\n : unzlibSync(data, opts);\n}\n// flatten a directory structure\nvar fltn = function (d, p, t, o) {\n for (var k in d) {\n var val = d[k], n = p + k, op = o;\n if (Array.isArray(val))\n op = mrg(o, val[1]), val = val[0];\n if (val instanceof u8)\n t[n] = [val, op];\n else {\n t[n += '/'] = [new u8(0), op];\n fltn(val, n, t, o);\n }\n }\n};\n// text encoder\nvar te = typeof TextEncoder != 'undefined' && /*#__PURE__*/ new TextEncoder();\n// text decoder\nvar td = typeof TextDecoder != 'undefined' && /*#__PURE__*/ new TextDecoder();\n// text decoder stream\nvar tds = 0;\ntry {\n td.decode(et, { stream: true });\n tds = 1;\n}\ncatch (e) { }\n// decode UTF8\nvar dutf8 = function (d) {\n for (var r = '', i = 0;;) {\n var c = d[i++];\n var eb = (c > 127) + (c > 223) + (c > 239);\n if (i + eb > d.length)\n return { s: r, r: slc(d, i - 1) };\n if (!eb)\n r += String.fromCharCode(c);\n else if (eb == 3) {\n c = ((c & 15) << 18 | (d[i++] & 63) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63)) - 65536,\n r += String.fromCharCode(55296 | (c >> 10), 56320 | (c & 1023));\n }\n else if (eb & 1)\n r += String.fromCharCode((c & 31) << 6 | (d[i++] & 63));\n else\n r += String.fromCharCode((c & 15) << 12 | (d[i++] & 63) << 6 | (d[i++] & 63));\n }\n};\n/**\n * Streaming UTF-8 decoding\n */\nvar DecodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is decoded\n */\n function DecodeUTF8(cb) {\n this.ondata = cb;\n if (tds)\n this.t = new TextDecoder();\n else\n this.p = et;\n }\n /**\n * Pushes a chunk to be decoded from UTF-8 binary\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n DecodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n final = !!final;\n if (this.t) {\n this.ondata(this.t.decode(chunk, { stream: true }), final);\n if (final) {\n if (this.t.decode().length)\n err(8);\n this.t = null;\n }\n return;\n }\n if (!this.p)\n err(4);\n var dat = new u8(this.p.length + chunk.length);\n dat.set(this.p);\n dat.set(chunk, this.p.length);\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (final) {\n if (r.length)\n err(8);\n this.p = null;\n }\n else\n this.p = r;\n this.ondata(s, final);\n };\n return DecodeUTF8;\n}());\nexport { DecodeUTF8 };\n/**\n * Streaming UTF-8 encoding\n */\nvar EncodeUTF8 = /*#__PURE__*/ (function () {\n /**\n * Creates a UTF-8 decoding stream\n * @param cb The callback to call whenever data is encoded\n */\n function EncodeUTF8(cb) {\n this.ondata = cb;\n }\n /**\n * Pushes a chunk to be encoded to UTF-8\n * @param chunk The string data to push\n * @param final Whether this is the last chunk\n */\n EncodeUTF8.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n if (this.d)\n err(4);\n this.ondata(strToU8(chunk), this.d = final || false);\n };\n return EncodeUTF8;\n}());\nexport { EncodeUTF8 };\n/**\n * Converts a string into a Uint8Array for use with compression/decompression methods\n * @param str The string to encode\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless decoding a binary string.\n * @returns The string encoded in UTF-8/Latin-1 binary\n */\nexport function strToU8(str, latin1) {\n if (latin1) {\n var ar_1 = new u8(str.length);\n for (var i = 0; i < str.length; ++i)\n ar_1[i] = str.charCodeAt(i);\n return ar_1;\n }\n if (te)\n return te.encode(str);\n var l = str.length;\n var ar = new u8(str.length + (str.length >> 1));\n var ai = 0;\n var w = function (v) { ar[ai++] = v; };\n for (var i = 0; i < l; ++i) {\n if (ai + 5 > ar.length) {\n var n = new u8(ai + 8 + ((l - i) << 1));\n n.set(ar);\n ar = n;\n }\n var c = str.charCodeAt(i);\n if (c < 128 || latin1)\n w(c);\n else if (c < 2048)\n w(192 | (c >> 6)), w(128 | (c & 63));\n else if (c > 55295 && c < 57344)\n c = 65536 + (c & 1023 << 10) | (str.charCodeAt(++i) & 1023),\n w(240 | (c >> 18)), w(128 | ((c >> 12) & 63)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n else\n w(224 | (c >> 12)), w(128 | ((c >> 6) & 63)), w(128 | (c & 63));\n }\n return slc(ar, 0, ai);\n}\n/**\n * Converts a Uint8Array to a string\n * @param dat The data to decode to string\n * @param latin1 Whether or not to interpret the data as Latin-1. This should\n * not need to be true unless encoding to binary string.\n * @returns The original UTF-8/Latin-1 string\n */\nexport function strFromU8(dat, latin1) {\n if (latin1) {\n var r = '';\n for (var i = 0; i < dat.length; i += 16384)\n r += String.fromCharCode.apply(null, dat.subarray(i, i + 16384));\n return r;\n }\n else if (td) {\n return td.decode(dat);\n }\n else {\n var _a = dutf8(dat), s = _a.s, r = _a.r;\n if (r.length)\n err(8);\n return s;\n }\n}\n;\n// deflate bit flag\nvar dbf = function (l) { return l == 1 ? 3 : l < 6 ? 2 : l == 9 ? 1 : 0; };\n// skip local zip header\nvar slzh = function (d, b) { return b + 30 + b2(d, b + 26) + b2(d, b + 28); };\n// read zip header\nvar zh = function (d, b, z) {\n var fnl = b2(d, b + 28), fn = strFromU8(d.subarray(b + 46, b + 46 + fnl), !(b2(d, b + 8) & 2048)), es = b + 46 + fnl, bs = b4(d, b + 20);\n var _a = z && bs == 4294967295 ? z64e(d, es) : [bs, b4(d, b + 24), b4(d, b + 42)], sc = _a[0], su = _a[1], off = _a[2];\n return [b2(d, b + 10), sc, su, fn, es + b2(d, b + 30) + b2(d, b + 32), off];\n};\n// read zip64 extra field\nvar z64e = function (d, b) {\n for (; b2(d, b) != 1; b += 4 + b2(d, b + 2))\n ;\n return [b8(d, b + 12), b8(d, b + 4), b8(d, b + 20)];\n};\n// extra field length\nvar exfl = function (ex) {\n var le = 0;\n if (ex) {\n for (var k in ex) {\n var l = ex[k].length;\n if (l > 65535)\n err(9);\n le += l + 4;\n }\n }\n return le;\n};\n// write zip header\nvar wzh = function (d, b, f, fn, u, c, ce, co) {\n var fl = fn.length, ex = f.extra, col = co && co.length;\n var exl = exfl(ex);\n wbytes(d, b, ce != null ? 0x2014B50 : 0x4034B50), b += 4;\n if (ce != null)\n d[b++] = 20, d[b++] = f.os;\n d[b] = 20, b += 2; // spec compliance? what's that?\n d[b++] = (f.flag << 1) | (c < 0 && 8), d[b++] = u && 8;\n d[b++] = f.compression & 255, d[b++] = f.compression >> 8;\n var dt = new Date(f.mtime == null ? Date.now() : f.mtime), y = dt.getFullYear() - 1980;\n if (y < 0 || y > 119)\n err(10);\n wbytes(d, b, (y << 25) | ((dt.getMonth() + 1) << 21) | (dt.getDate() << 16) | (dt.getHours() << 11) | (dt.getMinutes() << 5) | (dt.getSeconds() >> 1)), b += 4;\n if (c != -1) {\n wbytes(d, b, f.crc);\n wbytes(d, b + 4, c < 0 ? -c - 2 : c);\n wbytes(d, b + 8, f.size);\n }\n wbytes(d, b + 12, fl);\n wbytes(d, b + 14, exl), b += 16;\n if (ce != null) {\n wbytes(d, b, col);\n wbytes(d, b + 6, f.attrs);\n wbytes(d, b + 10, ce), b += 14;\n }\n d.set(fn, b);\n b += fl;\n if (exl) {\n for (var k in ex) {\n var exf = ex[k], l = exf.length;\n wbytes(d, b, +k);\n wbytes(d, b + 2, l);\n d.set(exf, b + 4), b += 4 + l;\n }\n }\n if (col)\n d.set(co, b), b += col;\n return b;\n};\n// write zip footer (end of central directory)\nvar wzf = function (o, b, c, d, e) {\n wbytes(o, b, 0x6054B50); // skip disk\n wbytes(o, b + 8, c);\n wbytes(o, b + 10, c);\n wbytes(o, b + 12, d);\n wbytes(o, b + 16, e);\n};\n/**\n * A pass-through stream to keep data uncompressed in a ZIP archive.\n */\nvar ZipPassThrough = /*#__PURE__*/ (function () {\n /**\n * Creates a pass-through stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n */\n function ZipPassThrough(filename) {\n this.filename = filename;\n this.c = crc();\n this.size = 0;\n this.compression = 0;\n }\n /**\n * Processes a chunk and pushes to the output stream. You can override this\n * method in a subclass for custom behavior, but by default this passes\n * the data through. You must call this.ondata(err, chunk, final) at some\n * point in this method.\n * @param chunk The chunk to process\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.process = function (chunk, final) {\n this.ondata(null, chunk, final);\n };\n /**\n * Pushes a chunk to be added. If you are subclassing this with a custom\n * compression algorithm, note that you must push data from the source\n * file only, pre-compression.\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipPassThrough.prototype.push = function (chunk, final) {\n if (!this.ondata)\n err(5);\n this.c.p(chunk);\n this.size += chunk.length;\n if (final)\n this.crc = this.c.d();\n this.process(chunk, final || false);\n };\n return ZipPassThrough;\n}());\nexport { ZipPassThrough };\n// I don't extend because TypeScript extension adds 1kB of runtime bloat\n/**\n * Streaming DEFLATE compression for ZIP archives. Prefer using AsyncZipDeflate\n * for better performance\n */\nvar ZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function ZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new Deflate(opts, function (dat, final) {\n _this.ondata(null, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n }\n ZipDeflate.prototype.process = function (chunk, final) {\n try {\n this.d.push(chunk, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n ZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return ZipDeflate;\n}());\nexport { ZipDeflate };\n/**\n * Asynchronous streaming DEFLATE compression for ZIP archives\n */\nvar AsyncZipDeflate = /*#__PURE__*/ (function () {\n /**\n * Creates an asynchronous DEFLATE stream that can be added to ZIP archives\n * @param filename The filename to associate with this data stream\n * @param opts The compression options\n */\n function AsyncZipDeflate(filename, opts) {\n var _this = this;\n if (!opts)\n opts = {};\n ZipPassThrough.call(this, filename);\n this.d = new AsyncDeflate(opts, function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.compression = 8;\n this.flag = dbf(opts.level);\n this.terminate = this.d.terminate;\n }\n AsyncZipDeflate.prototype.process = function (chunk, final) {\n this.d.push(chunk, final);\n };\n /**\n * Pushes a chunk to be deflated\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n AsyncZipDeflate.prototype.push = function (chunk, final) {\n ZipPassThrough.prototype.push.call(this, chunk, final);\n };\n return AsyncZipDeflate;\n}());\nexport { AsyncZipDeflate };\n// TODO: Better tree shaking\n/**\n * A zippable archive to which files can incrementally be added\n */\nvar Zip = /*#__PURE__*/ (function () {\n /**\n * Creates an empty ZIP archive to which files can be added\n * @param cb The callback to call whenever data for the generated ZIP archive\n * is available\n */\n function Zip(cb) {\n this.ondata = cb;\n this.u = [];\n this.d = 1;\n }\n /**\n * Adds a file to the ZIP archive\n * @param file The file stream to add\n */\n Zip.prototype.add = function (file) {\n var _this = this;\n if (!this.ondata)\n err(5);\n // finishing or finished\n if (this.d & 2)\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, false);\n else {\n var f = strToU8(file.filename), fl_1 = f.length;\n var com = file.comment, o = com && strToU8(com);\n var u = fl_1 != file.filename.length || (o && (com.length != o.length));\n var hl_1 = fl_1 + exfl(file.extra) + 30;\n if (fl_1 > 65535)\n this.ondata(err(11, 0, 1), null, false);\n var header = new u8(hl_1);\n wzh(header, 0, file, f, u, -1);\n var chks_1 = [header];\n var pAll_1 = function () {\n for (var _i = 0, chks_2 = chks_1; _i < chks_2.length; _i++) {\n var chk = chks_2[_i];\n _this.ondata(null, chk, false);\n }\n chks_1 = [];\n };\n var tr_1 = this.d;\n this.d = 0;\n var ind_1 = this.u.length;\n var uf_1 = mrg(file, {\n f: f,\n u: u,\n o: o,\n t: function () {\n if (file.terminate)\n file.terminate();\n },\n r: function () {\n pAll_1();\n if (tr_1) {\n var nxt = _this.u[ind_1 + 1];\n if (nxt)\n nxt.r();\n else\n _this.d = 1;\n }\n tr_1 = 1;\n }\n });\n var cl_1 = 0;\n file.ondata = function (err, dat, final) {\n if (err) {\n _this.ondata(err, dat, final);\n _this.terminate();\n }\n else {\n cl_1 += dat.length;\n chks_1.push(dat);\n if (final) {\n var dd = new u8(16);\n wbytes(dd, 0, 0x8074B50);\n wbytes(dd, 4, file.crc);\n wbytes(dd, 8, cl_1);\n wbytes(dd, 12, file.size);\n chks_1.push(dd);\n uf_1.c = cl_1, uf_1.b = hl_1 + cl_1 + 16, uf_1.crc = file.crc, uf_1.size = file.size;\n if (tr_1)\n uf_1.r();\n tr_1 = 1;\n }\n else if (tr_1)\n pAll_1();\n }\n };\n this.u.push(uf_1);\n }\n };\n /**\n * Ends the process of adding files and prepares to emit the final chunks.\n * This *must* be called after adding all desired files for the resulting\n * ZIP file to work properly.\n */\n Zip.prototype.end = function () {\n var _this = this;\n if (this.d & 2) {\n this.ondata(err(4 + (this.d & 1) * 8, 0, 1), null, true);\n return;\n }\n if (this.d)\n this.e();\n else\n this.u.push({\n r: function () {\n if (!(_this.d & 1))\n return;\n _this.u.splice(-1, 1);\n _this.e();\n },\n t: function () { }\n });\n this.d = 3;\n };\n Zip.prototype.e = function () {\n var bt = 0, l = 0, tl = 0;\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n tl += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0);\n }\n var out = new u8(tl + 22);\n for (var _b = 0, _c = this.u; _b < _c.length; _b++) {\n var f = _c[_b];\n wzh(out, bt, f, f.f, f.u, -f.c - 2, l, f.o);\n bt += 46 + f.f.length + exfl(f.extra) + (f.o ? f.o.length : 0), l += f.b;\n }\n wzf(out, bt, this.u.length, tl, l);\n this.ondata(null, out, true);\n this.d = 2;\n };\n /**\n * A method to terminate any internal workers used by the stream. Subsequent\n * calls to add() will fail.\n */\n Zip.prototype.terminate = function () {\n for (var _i = 0, _a = this.u; _i < _a.length; _i++) {\n var f = _a[_i];\n f.t();\n }\n this.d = 2;\n };\n return Zip;\n}());\nexport { Zip };\nexport function zip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var r = {};\n fltn(data, '', r, opts);\n var k = Object.keys(r);\n var lft = k.length, o = 0, tot = 0;\n var slft = lft, files = new Array(lft);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var cbf = function () {\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n tot = 0;\n for (var i = 0; i < slft; ++i) {\n var f = files[i];\n try {\n var l = f.c.length;\n wzh(out, tot, f, f.f, f.u, l);\n var badd = 30 + f.f.length + exfl(f.extra);\n var loc = tot + badd;\n out.set(f.c, loc);\n wzh(out, o, f, f.f, f.u, l, tot, f.m), o += 16 + badd + (f.m ? f.m.length : 0), tot = loc + l;\n }\n catch (e) {\n return cbd(e, null);\n }\n }\n wzf(out, o, files.length, cdl, oe);\n cbd(null, out);\n };\n if (!lft)\n cbf();\n var _loop_1 = function (i) {\n var fn = k[i];\n var _a = r[fn], file = _a[0], p = _a[1];\n var c = crc(), size = file.length;\n c.p(file);\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n var compression = p.level == 0 ? 0 : 8;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n var l = d.length;\n files[i] = mrg(p, {\n size: size,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n compression: compression\n });\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n if (!--lft)\n cbf();\n }\n };\n if (s > 65535)\n cbl(err(11, 0, 1), null);\n if (!compression)\n cbl(null, file);\n else if (size < 160000) {\n try {\n cbl(null, deflateSync(file, p));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(deflate(file, p, cbl));\n };\n // Cannot use lft because it can decrease\n for (var i = 0; i < slft; ++i) {\n _loop_1(i);\n }\n return tAll;\n}\n/**\n * Synchronously creates a ZIP file. Prefer using `zip` for better performance\n * with more than one file.\n * @param data The directory structure for the ZIP archive\n * @param opts The main options, merged with per-file options\n * @returns The generated ZIP archive\n */\nexport function zipSync(data, opts) {\n if (!opts)\n opts = {};\n var r = {};\n var files = [];\n fltn(data, '', r, opts);\n var o = 0;\n var tot = 0;\n for (var fn in r) {\n var _a = r[fn], file = _a[0], p = _a[1];\n var compression = p.level == 0 ? 0 : 8;\n var f = strToU8(fn), s = f.length;\n var com = p.comment, m = com && strToU8(com), ms = m && m.length;\n var exl = exfl(p.extra);\n if (s > 65535)\n err(11);\n var d = compression ? deflateSync(file, p) : file, l = d.length;\n var c = crc();\n c.p(file);\n files.push(mrg(p, {\n size: file.length,\n crc: c.d(),\n c: d,\n f: f,\n m: m,\n u: s != fn.length || (m && (com.length != ms)),\n o: o,\n compression: compression\n }));\n o += 30 + s + exl + l;\n tot += 76 + 2 * (s + exl) + (ms || 0) + l;\n }\n var out = new u8(tot + 22), oe = o, cdl = tot - o;\n for (var i = 0; i < files.length; ++i) {\n var f = files[i];\n wzh(out, f.o, f, f.f, f.u, f.c.length);\n var badd = 30 + f.f.length + exfl(f.extra);\n out.set(f.c, f.o + badd);\n wzh(out, o, f, f.f, f.u, f.c.length, f.o, f.m), o += 16 + badd + (f.m ? f.m.length : 0);\n }\n wzf(out, o, files.length, cdl, oe);\n return out;\n}\n/**\n * Streaming pass-through decompression for ZIP archives\n */\nvar UnzipPassThrough = /*#__PURE__*/ (function () {\n function UnzipPassThrough() {\n }\n UnzipPassThrough.prototype.push = function (data, final) {\n this.ondata(null, data, final);\n };\n UnzipPassThrough.compression = 0;\n return UnzipPassThrough;\n}());\nexport { UnzipPassThrough };\n/**\n * Streaming DEFLATE decompression for ZIP archives. Prefer AsyncZipInflate for\n * better performance.\n */\nvar UnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function UnzipInflate() {\n var _this = this;\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n UnzipInflate.prototype.push = function (data, final) {\n try {\n this.i.push(data, final);\n }\n catch (e) {\n this.ondata(e, null, final);\n }\n };\n UnzipInflate.compression = 8;\n return UnzipInflate;\n}());\nexport { UnzipInflate };\n/**\n * Asynchronous streaming DEFLATE decompression for ZIP archives\n */\nvar AsyncUnzipInflate = /*#__PURE__*/ (function () {\n /**\n * Creates a DEFLATE decompression that can be used in ZIP archives\n */\n function AsyncUnzipInflate(_, sz) {\n var _this = this;\n if (sz < 320000) {\n this.i = new Inflate(function (dat, final) {\n _this.ondata(null, dat, final);\n });\n }\n else {\n this.i = new AsyncInflate(function (err, dat, final) {\n _this.ondata(err, dat, final);\n });\n this.terminate = this.i.terminate;\n }\n }\n AsyncUnzipInflate.prototype.push = function (data, final) {\n if (this.i.terminate)\n data = slc(data, 0);\n this.i.push(data, final);\n };\n AsyncUnzipInflate.compression = 8;\n return AsyncUnzipInflate;\n}());\nexport { AsyncUnzipInflate };\n/**\n * A ZIP archive decompression stream that emits files as they are discovered\n */\nvar Unzip = /*#__PURE__*/ (function () {\n /**\n * Creates a ZIP decompression stream\n * @param cb The callback to call whenever a file in the ZIP archive is found\n */\n function Unzip(cb) {\n this.onfile = cb;\n this.k = [];\n this.o = {\n 0: UnzipPassThrough\n };\n this.p = et;\n }\n /**\n * Pushes a chunk to be unzipped\n * @param chunk The chunk to push\n * @param final Whether this is the last chunk\n */\n Unzip.prototype.push = function (chunk, final) {\n var _this = this;\n if (!this.onfile)\n err(5);\n if (!this.p)\n err(4);\n if (this.c > 0) {\n var len = Math.min(this.c, chunk.length);\n var toAdd = chunk.subarray(0, len);\n this.c -= len;\n if (this.d)\n this.d.push(toAdd, !this.c);\n else\n this.k[0].push(toAdd);\n chunk = chunk.subarray(len);\n if (chunk.length)\n return this.push(chunk, final);\n }\n else {\n var f = 0, i = 0, is = void 0, buf = void 0;\n if (!this.p.length)\n buf = chunk;\n else if (!chunk.length)\n buf = this.p;\n else {\n buf = new u8(this.p.length + chunk.length);\n buf.set(this.p), buf.set(chunk, this.p.length);\n }\n var l = buf.length, oc = this.c, add = oc && this.d;\n var _loop_2 = function () {\n var _a;\n var sig = b4(buf, i);\n if (sig == 0x4034B50) {\n f = 1, is = i;\n this_1.d = null;\n this_1.c = 0;\n var bf = b2(buf, i + 6), cmp_1 = b2(buf, i + 8), u = bf & 2048, dd = bf & 8, fnl = b2(buf, i + 26), es = b2(buf, i + 28);\n if (l > i + 30 + fnl + es) {\n var chks_3 = [];\n this_1.k.unshift(chks_3);\n f = 2;\n var sc_1 = b4(buf, i + 18), su_1 = b4(buf, i + 22);\n var fn_1 = strFromU8(buf.subarray(i + 30, i += 30 + fnl), !u);\n if (sc_1 == 4294967295) {\n _a = dd ? [-2] : z64e(buf, i), sc_1 = _a[0], su_1 = _a[1];\n }\n else if (dd)\n sc_1 = -1;\n i += es;\n this_1.c = sc_1;\n var d_1;\n var file_1 = {\n name: fn_1,\n compression: cmp_1,\n start: function () {\n if (!file_1.ondata)\n err(5);\n if (!sc_1)\n file_1.ondata(null, et, true);\n else {\n var ctr = _this.o[cmp_1];\n if (!ctr)\n file_1.ondata(err(14, 'unknown compression type ' + cmp_1, 1), null, false);\n d_1 = sc_1 < 0 ? new ctr(fn_1) : new ctr(fn_1, sc_1, su_1);\n d_1.ondata = function (err, dat, final) { file_1.ondata(err, dat, final); };\n for (var _i = 0, chks_4 = chks_3; _i < chks_4.length; _i++) {\n var dat = chks_4[_i];\n d_1.push(dat, false);\n }\n if (_this.k[0] == chks_3 && _this.c)\n _this.d = d_1;\n else\n d_1.push(et, true);\n }\n },\n terminate: function () {\n if (d_1 && d_1.terminate)\n d_1.terminate();\n }\n };\n if (sc_1 >= 0)\n file_1.size = sc_1, file_1.originalSize = su_1;\n this_1.onfile(file_1);\n }\n return \"break\";\n }\n else if (oc) {\n if (sig == 0x8074B50) {\n is = i += 12 + (oc == -2 && 8), f = 3, this_1.c = 0;\n return \"break\";\n }\n else if (sig == 0x2014B50) {\n is = i -= 4, f = 3, this_1.c = 0;\n return \"break\";\n }\n }\n };\n var this_1 = this;\n for (; i < l - 4; ++i) {\n var state_1 = _loop_2();\n if (state_1 === \"break\")\n break;\n }\n this.p = et;\n if (oc < 0) {\n var dat = f ? buf.subarray(0, is - 12 - (oc == -2 && 8) - (b4(buf, is - 16) == 0x8074B50 && 4)) : buf.subarray(0, i);\n if (add)\n add.push(dat, !!f);\n else\n this.k[+(f == 2)].push(dat);\n }\n if (f & 2)\n return this.push(buf.subarray(i), final);\n this.p = buf.subarray(i);\n }\n if (final) {\n if (this.c)\n err(13);\n this.p = null;\n }\n };\n /**\n * Registers a decoder with the stream, allowing for files compressed with\n * the compression type provided to be expanded correctly\n * @param decoder The decoder constructor\n */\n Unzip.prototype.register = function (decoder) {\n this.o[decoder.compression] = decoder;\n };\n return Unzip;\n}());\nexport { Unzip };\nvar mt = typeof queueMicrotask == 'function' ? queueMicrotask : typeof setTimeout == 'function' ? setTimeout : function (fn) { fn(); };\nexport function unzip(data, opts, cb) {\n if (!cb)\n cb = opts, opts = {};\n if (typeof cb != 'function')\n err(7);\n var term = [];\n var tAll = function () {\n for (var i = 0; i < term.length; ++i)\n term[i]();\n };\n var files = {};\n var cbd = function (a, b) {\n mt(function () { cb(a, b); });\n };\n mt(function () { cbd = cb; });\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558) {\n cbd(err(13, 0, 1), null);\n return tAll;\n }\n }\n ;\n var lft = b2(data, e + 8);\n if (lft) {\n var c = lft;\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = lft = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n var _loop_3 = function (i) {\n var _a = zh(data, o, z), c_1 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n var cbl = function (e, d) {\n if (e) {\n tAll();\n cbd(e, null);\n }\n else {\n if (d)\n files[fn] = d;\n if (!--lft)\n cbd(null, files);\n }\n };\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_1\n })) {\n if (!c_1)\n cbl(null, slc(data, b, b + sc));\n else if (c_1 == 8) {\n var infl = data.subarray(b, b + sc);\n // Synchronously decompress under 512KB, or barely-compressed data\n if (su < 524288 || sc > 0.8 * su) {\n try {\n cbl(null, inflateSync(infl, { out: new u8(su) }));\n }\n catch (e) {\n cbl(e, null);\n }\n }\n else\n term.push(inflate(infl, { size: su }, cbl));\n }\n else\n cbl(err(14, 'unknown compression type ' + c_1, 1), null);\n }\n else\n cbl(null, null);\n };\n for (var i = 0; i < c; ++i) {\n _loop_3(i);\n }\n }\n else\n cbd(null, {});\n return tAll;\n}\n/**\n * Synchronously decompresses a ZIP archive. Prefer using `unzip` for better\n * performance with more than one file.\n * @param data The raw compressed ZIP file\n * @param opts The ZIP extraction options\n * @returns The decompressed files\n */\nexport function unzipSync(data, opts) {\n var files = {};\n var e = data.length - 22;\n for (; b4(data, e) != 0x6054B50; --e) {\n if (!e || data.length - e > 65558)\n err(13);\n }\n ;\n var c = b2(data, e + 8);\n if (!c)\n return {};\n var o = b4(data, e + 16);\n var z = o == 4294967295 || c == 65535;\n if (z) {\n var ze = b4(data, e - 12);\n z = b4(data, ze) == 0x6064B50;\n if (z) {\n c = b4(data, ze + 32);\n o = b4(data, ze + 48);\n }\n }\n var fltr = opts && opts.filter;\n for (var i = 0; i < c; ++i) {\n var _a = zh(data, o, z), c_2 = _a[0], sc = _a[1], su = _a[2], fn = _a[3], no = _a[4], off = _a[5], b = slzh(data, off);\n o = no;\n if (!fltr || fltr({\n name: fn,\n size: sc,\n originalSize: su,\n compression: c_2\n })) {\n if (!c_2)\n files[fn] = slc(data, b, b + sc);\n else if (c_2 == 8)\n files[fn] = inflateSync(data.subarray(b, b + sc), { out: new u8(su) });\n else\n err(14, 'unknown compression type ' + c_2);\n }\n }\n return files;\n}\n","// LN_SCALE_MIN..LN_SCALE_MAX define the internal scale range of for Gsplats,\n// covering approx 0.0001..8000 in range with discrete steps 7% apart.\n// The value \"0\" is reserved for truly flat scales, indicating a 2DGS.\n// If these values are changed, the corresponding values in splatDefines.glsl\n// must also be updated to match.\n\nexport const LN_SCALE_MIN = -12.0;\nexport const LN_SCALE_MAX = 9.0;\nexport const SCALE_MIN = Math.exp(LN_SCALE_MIN);\nexport const SCALE_MAX = Math.exp(LN_SCALE_MAX);\n\nexport const LN_SCALE_ZERO = -30.0;\nexport const SCALE_ZERO = Math.exp(LN_SCALE_ZERO);\n\n// Gsplats are stored in textures that are 2^11 x 2^11 x up to 2^11\n// Most WebGL2 implementations support 2D textures up to 2^12 x 2^12 (max 16M Gsplats)\n// 2D array textures and 3D textures up to 2^11 x 2^11 x 2^11 (max 8G Gsplats),\n// so we use 2D array textures for our representation for higher limits.\n\nexport const SPLAT_TEX_WIDTH_BITS = 11;\nexport const SPLAT_TEX_HEIGHT_BITS = 11;\nexport const SPLAT_TEX_DEPTH_BITS = 11;\nexport const SPLAT_TEX_LAYER_BITS =\n SPLAT_TEX_WIDTH_BITS + SPLAT_TEX_HEIGHT_BITS;\n\nexport const SPLAT_TEX_WIDTH = 1 << SPLAT_TEX_WIDTH_BITS; // 2048\nexport const SPLAT_TEX_HEIGHT = 1 << SPLAT_TEX_HEIGHT_BITS; // 2048\nexport const SPLAT_TEX_DEPTH = 1 << SPLAT_TEX_DEPTH_BITS; // 2048\nexport const SPLAT_TEX_MIN_HEIGHT = 1;\n\nexport const SPLAT_TEX_WIDTH_MASK = SPLAT_TEX_WIDTH - 1;\nexport const SPLAT_TEX_HEIGHT_MASK = SPLAT_TEX_HEIGHT - 1;\nexport const SPLAT_TEX_DEPTH_MASK = SPLAT_TEX_DEPTH - 1;\n\n// Enable/disable Gsplat sorting via Rust WASM code. In testing the sorting\n// time between pure JS and WASM are minimal and don't make a big difference.\n\nexport const WASM_SPLAT_SORT = true;\n\n// Enable/disable compiling a dedicated parse function per element type\n// in the plyReader.\n\nexport const USE_COMPILED_PARSER_FUNCTION = true;\n\nexport enum SplatFileType {\n PLY = \"ply\",\n SPZ = \"spz\",\n SPLAT = \"splat\",\n KSPLAT = \"ksplat\",\n PCSOGS = \"pcsogs\",\n PCSOGSZIP = \"pcsogszip\",\n RAD = \"rad\",\n}\n\nexport type SplatEncoding = {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n sh1Max?: number;\n sh2Max?: number;\n sh3Max?: number;\n lodOpacity?: boolean;\n};\n\nexport const DEFAULT_SPLAT_ENCODING: SplatEncoding = {\n rgbMin: 0,\n rgbMax: 1,\n lnScaleMin: LN_SCALE_MIN,\n lnScaleMax: LN_SCALE_MAX,\n sh1Max: 1,\n sh2Max: 1,\n sh3Max: 1,\n lodOpacity: false,\n};\n\nexport type RadMeta = {\n version: number;\n type: string;\n count: number;\n maxSh?: number;\n lodTree?: boolean;\n chunkSize?: number;\n chunks: {\n offset: number;\n bytes: number;\n base?: number;\n count?: number;\n filename?: string;\n }[];\n splatEncoding?: SplatEncoding;\n};\n\nexport type PackedExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array;\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type PackedResult = {\n numSplats: number;\n packedArray: Uint32Array;\n extra: PackedExtra;\n splatEncoding: SplatEncoding;\n};\n\nexport type ExtExtra = {\n sh1?: Uint32Array;\n sh2?: Uint32Array;\n sh3a?: Uint32Array;\n sh3b?: Uint32Array;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: [Uint32Array, Uint32Array];\n lodTree?: Uint32Array;\n radMeta?: RadMeta;\n};\n\nexport type ExtResult = {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: ExtExtra;\n};\n","import type * as THREE from \"three\";\n\nexport type BoolTypes = \"bool\" | \"bvec2\" | \"bvec3\" | \"bvec4\";\nexport type IntTypes = \"int\" | \"ivec2\" | \"ivec3\" | \"ivec4\";\nexport type UintTypes = \"uint\" | \"uvec2\" | \"uvec3\" | \"uvec4\";\nexport type AllIntTypes = IntTypes | UintTypes;\nexport type FloatTypes = \"float\" | \"vec2\" | \"vec3\" | \"vec4\";\nexport type ScalarTypes = \"uint\" | \"int\" | \"float\";\nexport type Vector2Types = \"vec2\" | \"ivec2\" | \"uvec2\";\nexport type Vector3Types = \"vec3\" | \"ivec3\" | \"uvec3\";\nexport type Vector4Types = \"vec4\" | \"ivec4\" | \"uvec4\";\nexport type VectorTypes = Vector2Types | Vector3Types | Vector4Types;\nexport type MatFloatTypes =\n | \"mat2\"\n | \"mat2x2\"\n | \"mat2x3\"\n | \"mat2x4\"\n | \"mat3\"\n | \"mat3x2\"\n | \"mat3x3\"\n | \"mat3x4\"\n | \"mat4\"\n | \"mat4x2\"\n | \"mat4x3\"\n | \"mat4x4\";\nexport type SquareMatTypes =\n | \"mat2\"\n | \"mat3\"\n | \"mat4\"\n | \"mat2x2\"\n | \"mat3x3\"\n | \"mat4x4\";\nexport type AllFloatTypes = FloatTypes | MatFloatTypes;\nexport type SignedTypes = IntTypes | FloatTypes;\nexport type AllSignedTypes = SignedTypes | MatFloatTypes;\nexport type ValueTypes = FloatTypes | IntTypes | UintTypes;\nexport type AllValueTypes = AllFloatTypes | IntTypes | UintTypes;\nexport type SimpleTypes = BoolTypes | AllValueTypes;\n\nexport type VectorElementType = A extends FloatTypes\n ? \"float\"\n : A extends IntTypes\n ? \"int\"\n : A extends UintTypes\n ? \"uint\"\n : never;\n\nexport type SameSizeVec = T extends ScalarTypes\n ? \"float\"\n : T extends \"vec2\" | \"ivec2\" | \"uvec2\"\n ? \"vec2\"\n : T extends \"vec3\" | \"ivec3\" | \"uvec3\"\n ? \"vec3\"\n : T extends \"vec4\" | \"ivec4\" | \"uvec4\"\n ? \"vec4\"\n : never;\n\nexport type SameSizeUvec = T extends ScalarTypes\n ? \"uint\"\n : T extends \"vec2\" | \"ivec2\" | \"uvec2\"\n ? \"uvec2\"\n : T extends \"vec3\" | \"ivec3\" | \"uvec3\"\n ? \"uvec3\"\n : T extends \"vec4\" | \"ivec4\" | \"uvec4\"\n ? \"uvec4\"\n : never;\n\nexport type SameSizeIvec = T extends ScalarTypes\n ? \"int\"\n : T extends \"vec2\" | \"ivec2\" | \"uvec2\"\n ? \"ivec2\"\n : T extends \"vec3\" | \"ivec3\" | \"uvec3\"\n ? \"ivec3\"\n : T extends \"vec4\" | \"ivec4\" | \"uvec4\"\n ? \"ivec4\"\n : never;\n\nexport type SamplerTypes =\n | \"sampler2D\"\n | \"sampler2DArray\"\n | \"sampler3D\"\n | \"samplerCube\";\nexport type UsamplerTypes =\n | \"usampler2D\"\n | \"usampler2DArray\"\n | \"usampler3D\"\n | \"usamplerCube\";\nexport type IsamplerTypes =\n | \"isampler2D\"\n | \"isampler2DArray\"\n | \"isampler3D\"\n | \"isamplerCube\";\nexport type NormalSamplerTypes = SamplerTypes | UsamplerTypes | IsamplerTypes;\nexport type SamplerShadowTypes =\n | \"sampler2DShadow\"\n | \"sampler2DArrayShadow\"\n | \"samplerCubeShadow\";\nexport type AllSamplerTypes = NormalSamplerTypes | SamplerShadowTypes;\nexport type Sampler2DTypes =\n | \"sampler2D\"\n | \"usampler2D\"\n | \"isampler2D\"\n | \"sampler2DShadow\";\nexport type Sampler2DArrayTypes =\n | \"sampler2DArray\"\n | \"usampler2DArray\"\n | \"isampler2DArray\"\n | \"sampler2DArrayShadow\";\nexport type Sampler3DTypes = \"sampler3D\" | \"usampler3D\" | \"isampler3D\";\nexport type SamplerCubeTypes =\n | \"samplerCube\"\n | \"usamplerCube\"\n | \"isamplerCube\"\n | \"samplerCubeShadow\";\n\nexport function isBoolType(type: DynoType): boolean {\n return (\n type === \"bool\" || type === \"bvec2\" || type === \"bvec3\" || type === \"bvec4\"\n );\n}\n\nexport function isScalarType(type: DynoType): boolean {\n return type === \"int\" || type === \"uint\" || type === \"float\";\n}\n\nexport function isIntType(type: DynoType): boolean {\n return (\n type === \"int\" || type === \"ivec2\" || type === \"ivec3\" || type === \"ivec4\"\n );\n}\n\nexport function isUintType(type: DynoType): boolean {\n return (\n type === \"uint\" || type === \"uvec2\" || type === \"uvec3\" || type === \"uvec4\"\n );\n}\n\nexport function isFloatType(type: DynoType): boolean {\n return (\n type === \"float\" || type === \"vec2\" || type === \"vec3\" || type === \"vec4\"\n );\n}\n\nexport function isMatFloatType(type: DynoType): boolean {\n return (\n type === \"mat2\" ||\n type === \"mat2x2\" ||\n type === \"mat2x3\" ||\n type === \"mat2x4\" ||\n type === \"mat3\" ||\n type === \"mat3x2\" ||\n type === \"mat3x3\" ||\n type === \"mat3x4\" ||\n type === \"mat4\" ||\n type === \"mat4x2\" ||\n type === \"mat4x3\" ||\n type === \"mat4x4\"\n );\n}\n\nexport function isAllFloatType(type: DynoType): boolean {\n return isFloatType(type) || isMatFloatType(type);\n}\n\nexport function isVector2Type(type: DynoType): boolean {\n return type === \"vec2\" || type === \"ivec2\" || type === \"uvec2\";\n}\n\nexport function isVector3Type(type: DynoType): boolean {\n return type === \"vec3\" || type === \"ivec3\" || type === \"uvec3\";\n}\n\nexport function isVector4Type(type: DynoType): boolean {\n return type === \"vec4\" || type === \"ivec4\" || type === \"uvec4\";\n}\n\nexport function isVectorType(type: DynoType): boolean {\n return isVector2Type(type) || isVector3Type(type) || isVector4Type(type);\n}\n\nexport function isMat2(type: DynoType): boolean {\n return type === \"mat2\" || type === \"mat2x2\";\n}\nexport function isMat3(type: DynoType): boolean {\n return type === \"mat3\" || type === \"mat3x3\";\n}\nexport function isMat4(type: DynoType): boolean {\n return type === \"mat4\" || type === \"mat4x4\";\n}\n\nexport function vectorElementType(\n type: A,\n): VectorElementType {\n switch (type) {\n case \"vec2\":\n return \"float\" as VectorElementType;\n case \"vec3\":\n return \"float\" as VectorElementType;\n case \"vec4\":\n return \"float\" as VectorElementType;\n case \"ivec2\":\n return \"int\" as VectorElementType;\n case \"ivec3\":\n return \"int\" as VectorElementType;\n case \"ivec4\":\n return \"int\" as VectorElementType;\n case \"uvec2\":\n return \"uint\" as VectorElementType;\n case \"uvec3\":\n return \"uint\" as VectorElementType;\n case \"uvec4\":\n return \"uint\" as VectorElementType;\n default:\n throw new Error(`Invalid vector type: ${type}`);\n }\n}\n\nexport function vectorDim(type: A): number {\n switch (type) {\n case \"vec2\":\n case \"ivec2\":\n case \"uvec2\":\n return 2;\n case \"vec3\":\n case \"ivec3\":\n case \"uvec3\":\n return 3;\n case \"vec4\":\n case \"ivec4\":\n case \"uvec4\":\n return 4;\n default:\n throw new Error(`Invalid vector type: ${type}`);\n }\n}\n\nexport function sameSizeVec(type: T): SameSizeVec {\n if (isScalarType(type)) {\n return \"float\" as SameSizeVec;\n }\n if (isVector2Type(type)) {\n return \"vec2\" as SameSizeVec;\n }\n if (isVector3Type(type)) {\n return \"vec3\" as SameSizeVec;\n }\n if (isVector4Type(type)) {\n return \"vec4\" as SameSizeVec;\n }\n throw new Error(`Invalid vector type: ${type}`);\n}\n\nexport function sameSizeUvec(type: T): SameSizeUvec {\n if (isScalarType(type)) {\n return \"uint\" as SameSizeUvec;\n }\n if (isVector2Type(type)) {\n return \"uvec2\" as SameSizeUvec;\n }\n if (isVector3Type(type)) {\n return \"uvec3\" as SameSizeUvec;\n }\n if (isVector4Type(type)) {\n return \"uvec4\" as SameSizeUvec;\n }\n throw new Error(`Invalid vector type: ${type}`);\n}\n\nexport function sameSizeIvec(type: T): SameSizeIvec {\n if (isScalarType(type)) {\n return \"int\" as SameSizeIvec;\n }\n if (isVector2Type(type)) {\n return \"ivec2\" as SameSizeIvec;\n }\n if (isVector3Type(type)) {\n return \"ivec3\" as SameSizeIvec;\n }\n if (isVector4Type(type)) {\n return \"ivec4\" as SameSizeIvec;\n }\n throw new Error(`Invalid vector type: ${type}`);\n}\n\nexport type BaseType = SimpleTypes | AllSamplerTypes;\nexport type UserType = { type: string };\nexport type DynoType = BaseType | UserType;\n\nexport type DynoJsType = T extends \"bool\"\n ? boolean\n : T extends \"uint\"\n ? number\n : T extends \"int\"\n ? number\n : T extends \"float\"\n ? number\n : T extends \"bvec2\"\n ? [boolean, boolean]\n : T extends \"uvec2\"\n ? THREE.Vector2 | [number, number] | Uint32Array\n : T extends \"ivec2\"\n ? THREE.Vector2 | [number, number] | Int32Array\n : T extends \"vec2\"\n ? THREE.Vector2 | [number, number] | Float32Array\n : T extends \"bvec3\"\n ? [boolean, boolean, boolean]\n : T extends \"uvec3\"\n ? THREE.Vector3 | [number, number, number] | Uint32Array\n : T extends \"ivec3\"\n ? THREE.Vector3 | [number, number, number] | Int32Array\n : T extends \"vec3\"\n ?\n | THREE.Vector3\n | THREE.Color\n | [number, number, number]\n | Float32Array\n : T extends \"bvec4\"\n ? [boolean, boolean, boolean, boolean]\n : T extends \"uvec4\"\n ?\n | THREE.Vector4\n | [number, number, number, number]\n | Uint32Array\n : T extends \"ivec4\"\n ?\n | THREE.Vector4\n | [number, number, number, number]\n | Int32Array\n : T extends \"vec4\"\n ?\n | THREE.Vector4\n | THREE.Quaternion\n | [number, number, number, number]\n | Float32Array\n : T extends \"mat2\"\n ? THREE.Matrix2 | Float32Array\n : T extends \"mat2x2\"\n ? THREE.Matrix2 | Float32Array\n : T extends \"mat2x3\"\n ? Float32Array\n : T extends \"mat2x4\"\n ? Float32Array\n : T extends \"mat3\"\n ? THREE.Matrix3 | Float32Array\n : T extends \"mat3x2\"\n ? Float32Array\n : T extends \"mat3x3\"\n ? THREE.Matrix3 | Float32Array\n : T extends \"mat3x4\"\n ? Float32Array\n : T extends \"mat4\"\n ? THREE.Matrix4 | Float32Array\n : T extends \"mat4x2\"\n ? Float32Array\n : T extends \"mat4x3\"\n ? Float32Array\n : T extends \"mat4x4\"\n ?\n | THREE.Matrix4\n | Float32Array\n : T extends \"usampler2D\"\n ? THREE.Texture\n : T extends \"isampler2D\"\n ? THREE.Texture\n : T extends \"sampler2D\"\n ? THREE.Texture\n : T extends \"sampler2DShadow\"\n ? THREE.Texture\n : T extends \"usampler2DArray\"\n ? THREE.DataArrayTexture\n : T extends \"isampler2DArray\"\n ? THREE.DataArrayTexture\n : T extends \"sampler2DArray\"\n ? THREE.DataArrayTexture\n : T extends \"sampler2DArrayShadow\"\n ? THREE.Texture\n : T extends \"usampler3D\"\n ? THREE.DataArrayTexture\n : T extends \"isampler3D\"\n ? THREE.DataArrayTexture\n : T extends \"sampler3D\"\n ? THREE.DataArrayTexture\n : T extends \"usamplerCube\"\n ? THREE.DataArrayTexture\n : T extends \"isamplerCube\"\n ? THREE.DataArrayTexture\n : T extends \"samplerCube\"\n ? THREE.DataArrayTexture\n : T extends \"samplerCubeShadow\"\n ? THREE.Texture\n : unknown;\n\nexport function typeLiteral(type: DynoType): string {\n if (typeof type === \"string\") {\n return type;\n }\n if (typeof type === \"object\" && type.type) {\n return type.type;\n }\n throw new Error(`Invalid DynoType: ${String(type)}`);\n}\n\nexport function numberAsInt(value: number): string {\n return Math.trunc(value).toString();\n}\n\nexport function numberAsUint(value: number): string {\n const v = Math.max(0, Math.trunc(value));\n return `${v.toString()}u`;\n}\n\nexport function numberAsFloat(value: number): string {\n return value === Number.POSITIVE_INFINITY\n ? \"INFINITY\"\n : value === Number.NEGATIVE_INFINITY\n ? \"-INFINITY\"\n : Number.isInteger(value)\n ? value.toFixed(1)\n : value.toString();\n}\n","import * as THREE from \"three\";\n\nimport type { Dyno, IOTypes } from \"./base\";\nimport {\n type DynoJsType,\n type DynoType,\n type SimpleTypes,\n isAllFloatType,\n isBoolType,\n isIntType,\n isUintType,\n numberAsFloat,\n numberAsInt,\n numberAsUint,\n} from \"./types\";\n\nexport type DynoVal = DynoValue | HasDynoOut;\n\nexport function valType(val: DynoVal): T {\n if (val instanceof DynoValue) {\n return val.type;\n }\n const value = val.dynoOut();\n return value.type;\n}\n\nexport interface HasDynoOut {\n dynoOut(): DynoValue;\n}\n\nexport class DynoValue {\n type: T;\n // This field prevents TypeScript structural matching on objects with a \"type\" field\n private __isDynoValue = true;\n\n constructor(type: T) {\n this.type = type;\n }\n}\n\nexport class DynoOutput<\n T extends DynoType,\n InTypes extends IOTypes,\n OutTypes extends IOTypes,\n> extends DynoValue {\n dyno: Dyno;\n key: string;\n\n constructor(dyno: Dyno, key: string) {\n super(dyno.outTypes[key] as T);\n this.dyno = dyno;\n this.key = key;\n }\n}\n\nexport class DynoLiteral extends DynoValue {\n literal: string;\n\n constructor(type: T, literal: string) {\n super(type);\n this.literal = literal;\n }\n\n getLiteral(): string {\n return this.literal;\n }\n}\n\nexport function dynoLiteral(\n type: T,\n literal: string,\n): DynoLiteral {\n return new DynoLiteral(type, literal);\n}\n\nexport class DynoConst extends DynoLiteral {\n value: DynoJsType;\n\n constructor(type: T, value: DynoJsType) {\n super(type, \"\");\n this.value = value;\n }\n\n getLiteral(): string {\n const { type, value } = this;\n switch (type) {\n case \"bool\":\n return value ? \"true\" : \"false\";\n case \"uint\":\n return numberAsUint(value as number);\n case \"int\":\n return numberAsInt(value as number);\n case \"float\":\n return numberAsFloat(value as number);\n case \"bvec2\": {\n const v = value as [boolean, boolean];\n return `bvec2(${v[0]}, ${v[1]})`;\n }\n case \"uvec2\": {\n if (value instanceof THREE.Vector2) {\n return `uvec2(${numberAsUint(value.x)}, ${numberAsUint(value.y)})`;\n }\n const v = value as [number, number] | Uint32Array;\n return `uvec2(${numberAsUint(v[0])}, ${numberAsUint(v[1])})`;\n }\n case \"ivec2\": {\n if (value instanceof THREE.Vector2) {\n return `ivec2(${numberAsInt(value.x)}, ${numberAsInt(value.y)})`;\n }\n const v = value as [number, number] | Int32Array;\n return `ivec2(${numberAsInt(v[0])}, ${numberAsInt(v[1])})`;\n }\n case \"vec2\": {\n if (value instanceof THREE.Vector2) {\n return `vec2(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)})`;\n }\n const v = value as [number, number] | Float32Array;\n return `vec2(${numberAsFloat(v[0])}, ${numberAsFloat(v[1])})`;\n }\n case \"bvec3\": {\n const v = value as [boolean, boolean, boolean];\n return `bvec3(${v[0]}, ${v[1]}, ${v[2]})`;\n }\n case \"uvec3\": {\n if (value instanceof THREE.Vector3) {\n return `uvec3(${numberAsUint(value.x)}, ${numberAsUint(value.y)}, ${numberAsUint(value.z)})`;\n }\n const v = value as [number, number, number] | Uint32Array;\n return `uvec3(${numberAsUint(v[0])}, ${numberAsUint(v[1])}, ${numberAsUint(v[2])})`;\n }\n case \"ivec3\": {\n if (value instanceof THREE.Vector3) {\n return `ivec3(${numberAsInt(value.x)}, ${numberAsInt(value.y)}, ${numberAsInt(value.z)})`;\n }\n const v = value as [number, number, number] | Int32Array;\n return `ivec3(${numberAsInt(v[0])}, ${numberAsInt(v[1])}, ${numberAsInt(v[2])})`;\n }\n case \"vec3\": {\n if (value instanceof THREE.Vector3) {\n return `vec3(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)}, ${numberAsFloat(value.z)})`;\n }\n const v = value as [number, number, number] | Float32Array;\n return `vec3(${numberAsFloat(v[0])}, ${numberAsFloat(v[1])}, ${numberAsFloat(v[2])})`;\n }\n case \"bvec4\": {\n const v = value as [boolean, boolean, boolean, boolean];\n return `bvec4(${v[0]}, ${v[1]}, ${v[2]}, ${v[3]})`;\n }\n case \"uvec4\": {\n if (value instanceof THREE.Vector4) {\n return `uvec4(${numberAsUint(value.x)}, ${numberAsUint(value.y)}, ${numberAsUint(value.z)}, ${numberAsUint(value.w)})`;\n }\n const v = value as [number, number, number, number] | Uint32Array;\n return `uvec4(${numberAsUint(v[0])}, ${numberAsUint(v[1])}, ${numberAsUint(v[2])}, ${numberAsUint(v[3])})`;\n }\n case \"ivec4\": {\n if (value instanceof THREE.Vector4) {\n return `ivec4(${numberAsInt(value.x)}, ${numberAsInt(value.y)}, ${numberAsInt(value.z)}, ${numberAsInt(value.w)})`;\n }\n const v = value as [number, number, number, number] | Int32Array;\n return `ivec4(${numberAsInt(v[0])}, ${numberAsInt(v[1])}, ${numberAsInt(v[2])}, ${numberAsInt(v[3])})`;\n }\n case \"vec4\": {\n if (value instanceof THREE.Vector4) {\n return `vec4(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)}, ${numberAsFloat(value.z)}, ${numberAsFloat(value.w)})`;\n }\n if (value instanceof THREE.Quaternion) {\n return `vec4(${numberAsFloat(value.x)}, ${numberAsFloat(value.y)}, ${numberAsFloat(value.z)}, ${numberAsFloat(value.w)})`;\n }\n const v = value as [number, number, number, number] | Float32Array;\n return `vec4(${numberAsFloat(v[0])}, ${numberAsFloat(v[1])}, ${numberAsFloat(v[2])}, ${numberAsFloat(v[3])})`;\n }\n case \"mat2\":\n case \"mat2x2\": {\n const m = value as DynoJsType<\"mat2\">;\n const e =\n m instanceof THREE.Matrix2 ? m.elements : (value as Float32Array);\n const arg = new Array(4).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat2x3\": {\n const e = value as DynoJsType<\"mat2x3\">;\n const arg = new Array(6).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat2x4\": {\n const e = value as DynoJsType<\"mat2x4\">;\n const arg = new Array(8).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat3\":\n case \"mat3x3\": {\n const m = value as DynoJsType<\"mat3\">;\n const e =\n m instanceof THREE.Matrix3 ? m.elements : (value as Float32Array);\n const arg = new Array(9).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat3x2\": {\n const e = value as DynoJsType<\"mat3x2\">;\n const arg = new Array(6).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat3x4\": {\n const e = value as DynoJsType<\"mat3x4\">;\n const arg = new Array(12).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat4\":\n case \"mat4x4\": {\n const m = value as DynoJsType<\"mat4\">;\n const e =\n m instanceof THREE.Matrix4 ? m.elements : (value as Float32Array);\n const arg = new Array(16).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat4x2\": {\n const e = value as DynoJsType<\"mat4x2\">;\n const arg = new Array(8).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n case \"mat4x3\": {\n const e = value as DynoJsType<\"mat4x3\">;\n const arg = new Array(12).fill(0).map((_, i) => numberAsFloat(e[i]));\n return `${type as string}(${arg.join(\", \")})`;\n }\n default:\n throw new Error(`Type not implemented: ${String(type)}`);\n }\n }\n}\n\nexport function dynoConst(\n type: T,\n value: DynoJsType,\n): DynoConst {\n return new DynoConst(type, value);\n}\n\nexport function literalZero(type: SimpleTypes): string {\n const typeString = String(type);\n if (isBoolType(type)) {\n return `${typeString}(false)`;\n }\n if (isAllFloatType(type)) {\n return `${typeString}(0.0)`;\n }\n if (isIntType(type)) {\n return `${typeString}(0)`;\n }\n if (isUintType(type)) {\n return `${typeString}(0u)`;\n }\n throw new Error(`Type not implemented: ${typeString}`);\n}\n\nexport function literalOne(type: SimpleTypes): string {\n const typeString = String(type);\n if (isBoolType(type)) {\n return `${typeString}(true)`;\n }\n if (isAllFloatType(type)) {\n return `${typeString}(1.0)`;\n }\n if (isIntType(type)) {\n return `${typeString}(1)`;\n }\n if (isUintType(type)) {\n return `${typeString}(1u)`;\n }\n throw new Error(`Type not implemented: ${typeString}`);\n}\n\nexport function literalNegOne(type: SimpleTypes): string {\n const typeString = String(type);\n if (isBoolType(type)) {\n return `${typeString}(true)`;\n }\n if (isAllFloatType(type)) {\n return `${typeString}(-1.0)`;\n }\n if (isIntType(type)) {\n return `${typeString}(-1)`;\n }\n if (isUintType(type)) {\n return `${typeString}(0xFFFFFFFFu)`;\n }\n throw new Error(`Type not implemented: ${typeString}`);\n}\n","import type { IUniform } from \"three\";\nimport type { DynoType } from \"./types\";\nimport {\n DynoLiteral,\n DynoOutput,\n type DynoVal,\n DynoValue,\n type HasDynoOut,\n valType,\n} from \"./value\";\n\nconst DEFAULT_INDENT = \" \";\n\nexport class Compilation {\n globals: Set = new Set();\n statements: string[] = [];\n uniforms: Record = {};\n declares: Set = new Set();\n updaters: (() => void)[] = [];\n sequence = 0;\n indent: string = DEFAULT_INDENT;\n\n constructor({ indent }: { indent?: string } = {}) {\n this.indent = indent ?? DEFAULT_INDENT;\n }\n\n nextSequence() {\n return this.sequence++;\n }\n}\n\nexport type IOTypes = Record;\ntype GenerateContext = {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n};\n\nexport class Dyno {\n inTypes: InTypes;\n outTypes: OutTypes;\n\n inputs: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n }) {\n this.inTypes = inTypes ?? ({} as InTypes);\n this.outTypes = outTypes ?? ({} as OutTypes);\n this.inputs = inputs ?? {};\n this.update = update;\n\n this.globals = globals;\n this.statements = statements;\n this.generate =\n generate ??\n (({ inputs, outputs, compile }) => {\n return {\n globals: this.globals?.({ inputs, outputs, compile }),\n statements: this.statements?.({ inputs, outputs, compile }),\n };\n });\n }\n\n get outputs(): { [K in keyof OutTypes]: DynoVal } {\n const outputs = {} as { [K in keyof OutTypes]: DynoVal };\n for (const key in this.outTypes) {\n outputs[key] = new DynoOutput(this, key);\n }\n return outputs;\n }\n\n apply(inputs: { [K in keyof InTypes]?: DynoVal }): {\n [K in keyof OutTypes]: DynoVal;\n } {\n Object.assign(this.inputs, inputs);\n return this.outputs;\n }\n\n compile({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }): string[] {\n const result = [\n `// ${this.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`,\n ];\n\n const declares: (keyof OutTypes)[] = [];\n for (const key in outputs) {\n const name = outputs[key];\n if (name && !compile.declares.has(name)) {\n compile.declares.add(name);\n declares.push(key);\n }\n }\n\n const { globals, statements, uniforms } = this.generate({\n inputs,\n outputs,\n compile,\n });\n for (const global of globals ?? []) {\n compile.globals.add(global);\n }\n for (const key in uniforms) {\n compile.uniforms[key] = uniforms[key];\n }\n if (this.update) {\n compile.updaters.push(this.update);\n }\n\n for (const key of declares) {\n const name = outputs[key];\n if (name) {\n if (!compile.uniforms[name]) {\n result.push(`${dynoDeclare(name, this.outTypes[key])};`);\n }\n }\n }\n\n if (statements?.length) {\n result.push(\"{\");\n result.push(...statements.map((line) => compile.indent + line));\n result.push(\"}\");\n }\n return result;\n }\n}\n\nexport type DynoBlockType = (\n inputs: { [K in keyof InTypes]?: DynoVal },\n outputs: { [K in keyof OutTypes]?: DynoVal },\n { roots }: { roots: Dyno[] },\n) => { [K in keyof OutTypes]?: DynoVal } | undefined;\n\nexport class DynoBlock<\n InTypes extends IOTypes,\n OutTypes extends IOTypes,\n> extends Dyno {\n construct: DynoBlockType;\n\n constructor({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n construct,\n }: {\n inTypes?: InTypes;\n outTypes?: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n construct: DynoBlockType;\n }) {\n super({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n generate: (args) => this.generateBlock(args),\n });\n this.construct = construct;\n }\n\n generateBlock({\n inputs,\n outputs,\n compile,\n }: {\n inputs: { [K in keyof InTypes]?: string };\n outputs: { [K in keyof OutTypes]?: string };\n compile: Compilation;\n }) {\n const blockInputs: { [K in keyof InTypes]?: DynoVal } = {};\n const blockOutputs: { [K in keyof OutTypes]?: DynoVal } = {};\n\n for (const key in inputs) {\n if (inputs[key] != null) {\n blockInputs[key] = new DynoLiteral(this.inTypes[key], inputs[key]);\n }\n }\n for (const key in outputs) {\n if (outputs[key] != null) {\n blockOutputs[key] = new DynoValue(this.outTypes[key]);\n }\n }\n\n const options: { roots: Dyno[] } = { roots: [] };\n const returned = this.construct(blockInputs, blockOutputs, options);\n\n for (const global of this.globals?.({ inputs, outputs, compile }) ?? []) {\n compile.globals.add(global);\n }\n\n const ordering: Dyno[] = [];\n const nodeOuts = new Map<\n Dyno,\n { sequence: number; outNames: Map; newOuts: Set }\n >();\n\n function visit(\n node: Dyno,\n outKey?: string,\n outName?: string,\n ) {\n let outs = nodeOuts.get(node);\n if (!outs) {\n // First time visiting this node\n outs = {\n sequence: compile.nextSequence(),\n outNames: new Map(),\n newOuts: new Set(),\n };\n nodeOuts.set(node, outs);\n\n for (const key in node.inputs) {\n let input = node.inputs[key];\n while (input) {\n if (input instanceof DynoValue) {\n if (input instanceof DynoOutput) {\n visit(input.dyno, input.key);\n }\n break;\n }\n // Must be as HasDynoOut\n if (typeof input.dynoOut !== \"function\") {\n throw new Error(\n `dynoOut is not a function for ${input.constructor.name}`,\n );\n }\n input = input.dynoOut();\n }\n }\n ordering.push(node);\n }\n if (outKey) {\n if (!outName) {\n outs.newOuts.add(outKey);\n }\n outs.outNames.set(outKey, outName ?? `${outKey}_${outs.sequence}`);\n }\n }\n\n for (const root of options.roots) {\n visit(root);\n }\n\n for (const key in blockOutputs) {\n let value = returned?.[key] ?? blockOutputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoOutput) {\n visit(value.dyno, value.key, outputs[key]);\n }\n break;\n }\n // Must be as HasDynoOut\n value = value.dynoOut();\n }\n blockOutputs[key] = value;\n }\n\n const steps = [];\n\n for (const dyno of ordering) {\n // compile.statements.push(`// ${dyno.constructor.name}(${Object.values(inputs).join(\", \")}) => (${Object.values(outputs).join(\", \")})`);\n\n const inputs: Record = {};\n const outputs: Record = {};\n\n for (const key in dyno.inputs) {\n let value = dyno.inputs[key];\n while (value) {\n if (value instanceof DynoValue) {\n if (value instanceof DynoLiteral) {\n inputs[key] = value.getLiteral();\n } else if (value instanceof DynoOutput) {\n const source = nodeOuts.get(value.dyno)?.outNames.get(value.key);\n if (!source) {\n throw new Error(\n `Source not found for ${value.dyno.constructor.name}.${value.key}`,\n );\n }\n inputs[key] = source;\n }\n break;\n }\n // Must be as HasDynOut\n value = value.dynoOut();\n }\n }\n\n const outs = nodeOuts.get(dyno) ?? { outNames: new Map() };\n for (const [key, name] of outs.outNames.entries()) {\n outputs[key] = name;\n }\n\n const newSteps = dyno.compile({ inputs, outputs, compile });\n steps.push(newSteps);\n }\n\n const literalOutputs = [];\n for (const key in outputs) {\n if (blockOutputs[key] instanceof DynoLiteral) {\n literalOutputs.push(\n `${outputs[key]} = ${blockOutputs[key].getLiteral()};`,\n );\n }\n }\n if (literalOutputs.length > 0) {\n steps.push(literalOutputs);\n }\n\n const statements = steps.flatMap((step, index) => {\n // Add a blank line between steps\n return index === 0 ? step : [\"\", ...step];\n });\n return { statements };\n }\n}\n\nexport function dynoBlock<\n InTypes extends Record,\n OutTypes extends Record,\n>(\n inTypes: InTypes,\n outTypes: OutTypes,\n construct: DynoBlockType,\n { update, globals }: { update?: () => void; globals?: () => string[] } = {},\n) {\n return new DynoBlock({ inTypes, outTypes, construct, update, globals });\n}\n\nexport function dyno<\n InTypes extends Record,\n OutTypes extends Record,\n>({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n}: {\n inTypes: InTypes;\n outTypes: OutTypes;\n inputs?: { [K in keyof InTypes]?: DynoVal };\n update?: () => void;\n globals?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n statements?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => string[];\n generate?: ({\n inputs,\n outputs,\n compile,\n }: GenerateContext) => {\n globals?: string[];\n statements?: string[];\n uniforms?: Record;\n };\n}) {\n return new Dyno({\n inTypes,\n outTypes,\n inputs,\n update,\n globals,\n statements,\n generate,\n });\n}\n\nexport function dynoDeclare(name: string, type: DynoType, count?: number) {\n const typeStr = typeof type === \"string\" ? type : type.type;\n if (!typeStr) {\n throw new Error(`Invalid DynoType: ${String(type)}`);\n }\n return `${typeStr} ${name}${count != null ? `[${count}]` : \"\"}`;\n}\n\nexport function unindentLines(s: string): string[] {\n let seenNonEmpty = false;\n const lines = s\n .split(\"\\n\")\n .map((line) => {\n const trimmedLine = line.trimEnd();\n if (seenNonEmpty) {\n return trimmedLine;\n }\n if (trimmedLine.length > 0) {\n seenNonEmpty = true;\n return trimmedLine;\n }\n return null;\n })\n .filter((line) => line != null);\n while (lines.length > 0 && lines[lines.length - 1].length === 0) {\n lines.pop();\n }\n if (lines.length === 0) {\n return [];\n }\n\n const indent = lines[0].match(/^\\s*/)?.[0];\n if (!indent) {\n return lines; // No indent, return as is\n }\n // Remove indent from the beginning of each line\n const regex = new RegExp(`^${indent}`);\n return lines.map((line) => line.replace(regex, \"\"));\n}\n\nexport function unindent(s: string): string {\n return unindentLines(s).join(\"\\n\");\n}\n\nexport class UnaryOp<\n A extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n outKey,\n outTypeFunc,\n }: { a: DynoVal; outKey: OutKey; outTypeFunc: (aType: A) => OutType }) {\n const inTypes = { a: valType(a) };\n const outType = outTypeFunc(valType(a));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class BinaryOp<\n A extends DynoType,\n B extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b) };\n const outType = outTypeFunc(valType(a), valType(b));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class TrinaryOp<\n A extends DynoType,\n B extends DynoType,\n C extends DynoType,\n OutType extends DynoType,\n OutKey extends string,\n >\n extends Dyno<{ a: A; b: B; c: C }, { [key in OutKey]: OutType }>\n implements HasDynoOut\n{\n constructor({\n a,\n b,\n c,\n outKey,\n outTypeFunc,\n }: {\n a: DynoVal;\n b: DynoVal;\n c: DynoVal;\n outKey: OutKey;\n outTypeFunc: (aType: A, bType: B, cType: C) => OutType;\n }) {\n const inTypes = { a: valType(a), b: valType(b), c: valType(c) };\n const outType = outTypeFunc(valType(a), valType(b), valType(c));\n const outTypes = { [outKey]: outType } as { [key in OutKey]: OutType };\n super({ inTypes, outTypes, inputs: { a, b, c } });\n this.outKey = outKey;\n }\n\n outKey: OutKey;\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n","import { Gunzip } from \"fflate\";\nimport * as THREE from \"three\";\n\n// Miscellaneous utility functions for Spark\n\nimport {\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SCALE_ZERO,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_MIN_HEIGHT,\n SPLAT_TEX_WIDTH,\n} from \"./defines.js\";\nimport { unindent } from \"./dyno/base.js\";\n\nexport const threeRevision = Number.parseInt(THREE.REVISION);\nexport const threeMrtArray = threeRevision >= 179;\n\nconst f32buffer = new Float32Array(1);\nconst u32buffer = new Uint32Array(f32buffer.buffer);\nconst supportsFloat16Array = \"Float16Array\" in globalThis;\nconst f16buffer = supportsFloat16Array\n ? new globalThis[\"Float16Array\" as keyof typeof globalThis](1)\n : null;\nconst u16buffer = new Uint16Array(f16buffer?.buffer);\n\n// Returns a normalized array of numbers\nexport function normalize(vec: number[]) {\n const norm = Math.sqrt(vec.reduce((acc, v) => acc + v * v, 0));\n return vec.map((v) => v / norm);\n}\n\n// Reinterpret the bits of a float32 as a uint32\nexport function floatBitsToUint(f: number): number {\n f32buffer[0] = f;\n return u32buffer[0];\n}\n\n// Reinterpret the bits of a uint32 as a float32\nexport function uintBitsToFloat(u: number): number {\n u32buffer[0] = u;\n return f32buffer[0];\n}\n\nexport const toHalf = supportsFloat16Array ? toHalfNative : toHalfJS;\nexport const fromHalf = supportsFloat16Array ? fromHalfNative : fromHalfJS;\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfNative(f: number): number {\n f16buffer[0] = f;\n return u16buffer[0];\n}\n\n// Encode a number as a float16, stored as a uint16 number.\nfunction toHalfJS(f: number): number {\n // Store the value into the shared Float32 array.\n f32buffer[0] = f;\n const bits = u32buffer[0];\n\n // Extract sign (1 bit), exponent (8 bits), and fraction (23 bits)\n const sign = (bits >> 31) & 0x1;\n const exp = (bits >> 23) & 0xff;\n const frac = bits & 0x7fffff;\n const halfSign = sign << 15;\n\n // Handle special cases: NaN and Infinity\n if (exp === 0xff) {\n // NaN: set all exponent bits to 1 and some nonzero fraction bits.\n if (frac !== 0) {\n return halfSign | 0x7fff;\n }\n // Infinity\n return halfSign | 0x7c00;\n }\n\n // Adjust the exponent from float32 bias (127) to float16 bias (15)\n const newExp = exp - 127 + 15;\n\n // Handle overflow: too large to represent in half precision.\n if (newExp >= 0x1f) {\n return halfSign | 0x7c00; // Infinity\n }\n if (newExp <= 0) {\n // Handle subnormals and underflow.\n if (newExp < -10) {\n // Too small: underflows to zero.\n return halfSign;\n }\n // Convert to subnormal: add the implicit leading 1 to the fraction,\n // then shift to align with the half-precision's 10 fraction bits.\n const subFrac = (frac | 0x800000) >> (1 - newExp + 13);\n return halfSign | subFrac;\n }\n\n // Normalized half-precision number: shift fraction to fit into 10 bits.\n const halfFrac = frac >> 13;\n return halfSign | (newExp << 10) | halfFrac;\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfNative(u: number): number {\n u16buffer[0] = u;\n return f16buffer[0];\n}\n\n// Convert a float16 stored as a uint16 number back to a float32.\nfunction fromHalfJS(h: number): number {\n // Extract the sign (1 bit), exponent (5 bits), and fraction (10 bits)\n const sign = (h >> 15) & 0x1;\n const exp = (h >> 10) & 0x1f;\n const frac = h & 0x3ff;\n\n let f32bits: number;\n\n if (exp === 0) {\n if (frac === 0) {\n // Zero (positive or negative)\n f32bits = sign << 31;\n } else {\n // Subnormal half-precision number.\n // Normalize the subnormal number:\n let mant = frac;\n let e = -14; // For half, the exponent for subnormals is fixed at -14.\n // Shift left until the implicit leading 1 is in place.\n while ((mant & 0x400) === 0) {\n // 0x400 === 1 << 10\n mant <<= 1;\n e--;\n }\n // Remove the leading 1 (which is now implicit)\n mant &= 0x3ff;\n // Convert the half exponent (e) to the 32-bit float exponent:\n const newExp = e + 127; // 32-bit float bias is 127.\n const newFrac = mant << 13; // Align to 23-bit fraction (23 - 10 = 13)\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n } else if (exp === 0x1f) {\n // Handle special cases for Infinity and NaN.\n if (frac === 0) {\n // Infinity\n f32bits = (sign << 31) | 0x7f800000;\n } else {\n // NaN (we choose a quiet NaN)\n f32bits = (sign << 31) | 0x7fc00000;\n }\n } else {\n // Normalized half-precision number.\n // Adjust exponent from half (bias 15) to float32 (bias 127)\n const newExp = exp - 15 + 127;\n const newFrac = frac << 13;\n f32bits = (sign << 31) | (newExp << 23) | newFrac;\n }\n\n // Write the 32-bit bit pattern to the shared buffer,\n // then read it as a float32 to return a JavaScript number.\n u32buffer[0] = f32bits;\n return f32buffer[0];\n}\n\n// Convert a number 0..1 to a 0..255 uint\nexport function floatToUint8(v: number): number {\n // Converts from 0..1 float to 0..255 uint8\n return Math.max(0, Math.min(255, Math.round(v * 255)));\n}\n\n// Convert a number -1..1 to a -127..127 int\nexport function floatToSint8(v: number): number {\n // Converts from -1..1 float to -127..127 int8\n return Math.max(-127, Math.min(127, Math.round(v * 127)));\n}\n\n// Convert a 0..255 uint to a 0..1 float\nexport function Uint8ToFloat(v: number): number {\n // Converts from 0..255 uint8 to 0..1 float\n return v / 255;\n}\n\n// Convert a -127..127 int to a -1..1 float\nexport function Sint8ToFloat(v: number): number {\n // Converts from -127..127 int8 to -1..1 float\n return v / 127;\n}\n\n// A simple utility class for caching a fixed number of items\nexport class DataCache {\n // Maximum number of items to cache\n maxItems: number;\n\n // Function to fetch data for a key\n asyncFetch: (key: string) => Promise;\n\n // Function to dispose of data when it is no longer needed\n dispose?: (data: unknown) => void;\n\n // Array of cached items\n items: { key: string; data: unknown }[];\n\n // In-progress fetch promises\n pending: Map>;\n\n // Create a DataCache with a given function that fetches data not in the cache.\n constructor({\n asyncFetch,\n dispose,\n maxItems = 5,\n }: {\n asyncFetch: (key: string) => Promise;\n dispose?: (data: unknown) => void;\n maxItems?: number;\n }) {\n this.asyncFetch = asyncFetch;\n this.dispose = dispose;\n this.maxItems = maxItems;\n this.items = [];\n this.pending = new Map();\n }\n\n has(key: string): boolean {\n return this.items.some((item) => item.key === key);\n }\n\n getImmediate(key: string): unknown | undefined {\n const index = this.items.findIndex((item) => item.key === key);\n if (index >= 0) {\n // Data exists in our cache, move it to the end of the array\n const item = this.items.splice(index, 1)[0];\n this.items.push(item);\n // Return the cached data\n return item.data;\n }\n return undefined;\n }\n\n // Fetch data for the key, returning cached data if available.\n async getFetch(key: string): Promise {\n const immediate = this.getImmediate(key);\n if (immediate !== undefined) {\n return immediate;\n }\n\n let pending = this.pending.get(key);\n if (pending) {\n return pending;\n }\n\n pending = this.asyncFetch(key).then((data) => {\n this.pending.delete(key);\n\n // Add the data to the cache\n this.items.push({ key, data });\n // If the cache is too large, remove the oldest accessed item\n while (this.items.length > this.maxItems) {\n const removed = this.items.shift();\n if (removed && this.dispose) {\n this.dispose(removed.data);\n }\n }\n // Return the fetched data\n return data;\n });\n this.pending.set(key, pending);\n return pending;\n }\n}\n\n// Like Array.map but for objects\nexport function mapObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n const entries = Object.entries(obj).map(([key, value]) => [\n key,\n fn(value, key),\n ]);\n // Returns a new object with the mapped values\n return Object.fromEntries(entries);\n}\n\n// Like Array.map().filter() but for objects.\n// The callback fn() should return undefined to filter out the key.\nexport function mapFilterObject(\n obj: Record,\n fn: (value: unknown, key: string) => unknown,\n): Record {\n // Maps over an object, applying a function to each value and key\n // If no return (or return undefined), the key is not included in the result\n const entries = Object.entries(obj)\n .map(([key, value]) => [key, fn(value, key)])\n .filter(([_, value]) => value !== undefined);\n // Returns a new object with the filtered values\n return Object.fromEntries(entries);\n}\n\n// Recursively finds all ArrayBuffers in an object and returns them as an array\n// to use as transferable objects to send between workers.\nexport function getTransferable(ctx: unknown): Transferable[] {\n const buffers: Transferable[] = [];\n const seen = new Set();\n\n function traverse(obj: unknown) {\n if (obj && typeof obj === \"object\" && !seen.has(obj)) {\n seen.add(obj);\n\n if (obj instanceof ArrayBuffer) {\n buffers.push(obj);\n } else if (ArrayBuffer.isView(obj)) {\n // Handles TypedArrays and DataView\n buffers.push(obj.buffer as ArrayBuffer);\n } else if (Array.isArray(obj)) {\n obj.forEach(traverse);\n } else {\n Object.values(obj).forEach(traverse);\n }\n }\n }\n\n traverse(ctx);\n return buffers;\n}\n\n// Create an array of the given size and initialize element with initFunction()\nexport function newArray(\n n: number,\n initFunction: (index: number) => T,\n): T[] {\n // Creates a new array and calls a constructor function for each element with index\n return new Array(n).fill(null).map((_, i) => initFunction(i));\n}\n\n// A free list that has a pool of items of type T, with callbacks\n// for constructing, disposing, and checking if an item is valid for the given args.\nexport class FreeList {\n items: T[];\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n\n constructor({\n // Allocate a new item with the given args\n allocate,\n // Dispose of an item (optional, if GC is enough)\n dispose,\n // Check if an existing item in the list is valid for the given args,\n // allowing you to store heterogeneous items in the list.\n valid,\n }: {\n allocate: (args: Args) => T;\n dispose?: (item: T) => void;\n valid: (item: T, args: Args) => boolean;\n }) {\n this.items = [];\n this.allocate = allocate;\n this.dispose = dispose;\n this.valid = valid;\n }\n\n // Allocate a new item from the free list, first checking if a existing item\n // on the freelist is valid for the given args.\n alloc(args: Args): T {\n while (true) {\n const item = this.items.pop();\n if (!item) {\n // No items in the free list, allocate a new one\n break;\n }\n if (this.valid(item, args)) {\n // Found a valid item, return it\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): found valid item. Reusing...`);\n return item;\n }\n // Item isn't valid for our args, dispose of it and try again\n if (this.dispose) {\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): disposing invalid item.`);\n this.dispose(item);\n }\n }\n // console.log(`FreeList.alloc(${JSON.stringify(args)}): allocating new item`);\n return this.allocate(args);\n }\n\n free(item: T) {\n // Return item to the free list\n this.items.push(item);\n }\n\n disposeAll() {\n // Disposes of all items in the free list\n let item: T | undefined;\n item = this.items.pop();\n while (item) {\n if (this.dispose) {\n this.dispose(item);\n }\n item = this.items.pop();\n }\n }\n}\n\nexport function encodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) {\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n extA[i4] = floatBitsToUint(x);\n extA[i4 + 1] = floatBitsToUint(y);\n extA[i4 + 2] = floatBitsToUint(z);\n extA[i4 + 3] = toHalf(opacity);\n extB[i4] = toHalf(r) | (toHalf(g) << 16);\n extB[i4 + 1] = toHalf(b) | (toHalf(Math.log(scaleX)) << 16);\n extB[i4 + 2] = toHalf(Math.log(scaleY)) | (toHalf(Math.log(scaleZ)) << 16);\n extB[i4 + 3] = encodeQuatOctXy1010R12(quatX, quatY, quatZ, quatW);\n}\n\nexport function decodeExtSplat(\n extArrays: [Uint32Array, Uint32Array],\n index: number,\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n const i4 = index * 4;\n const [extA, extB] = extArrays;\n result.center.x = uintBitsToFloat(extA[i4]);\n result.center.y = uintBitsToFloat(extA[i4 + 1]);\n result.center.z = uintBitsToFloat(extA[i4 + 2]);\n result.opacity = fromHalf(extA[i4 + 3] & 0xffff);\n result.color.r = fromHalf(extB[i4] & 0xffff);\n result.color.g = fromHalf(extB[i4] >>> 16);\n result.color.b = fromHalf(extB[i4 + 1] & 0xffff);\n result.scales.x = Math.exp(fromHalf(extB[i4 + 1] >>> 16));\n result.scales.y = Math.exp(fromHalf(extB[i4 + 2] & 0xffff));\n result.scales.z = Math.exp(fromHalf(extB[i4 + 2] >>> 16));\n decodeQuatOctXy1010R12(extB[i4 + 3], result.quaternion);\n return result;\n}\n\n// Encode a PackedSplat as 4 consecutive Uint32 elements in the packedSplats array.\n// The center coordinates x,y,z are encoded as float16, the scales x,y,z as a\n// logarithmic uint8, rotation as three uint8s representing rotation axis and angle,\n// and RGBA as 4xuint8.\nexport function setPackedSplat(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * opacity : opacity);\n\n // Alternate internal encodings commented out below.\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n // Encode the splat as 4 consecutive Uint32 elements\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] =\n uScaleX | (uScaleY << 8) | (uScaleZ << 16) | (uQuatZ << 24);\n}\n\n// Encode the center coordinates x,y,z in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatCenter(\n packedSplats: Uint32Array,\n index: number,\n x: number,\n y: number,\n z: number,\n) {\n const uCenterX = toHalf(x);\n const uCenterY = toHalf(y);\n const uCenterZ = toHalf(z);\n\n const i4 = index * 4;\n packedSplats[i4 + 1] = uCenterX | (uCenterY << 16);\n packedSplats[i4 + 2] = uCenterZ | (packedSplats[i4 + 2] & 0xffff0000);\n}\n\n// Encode the scales x,y,z in the packedSplats Uint32Array, leaving all other fields as is.\nexport function setPackedSplatScales(\n packedSplats: Uint32Array,\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n encoding?: {\n lnScaleMin?: number;\n lnScaleMax?: number;\n },\n) {\n // Allow scales below LN_SCALE_MIN to be encoded as 0, which signifies a 2DGS\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n const uScaleX =\n scaleX < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleX) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleY =\n scaleY < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleY) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n const uScaleZ =\n scaleZ < SCALE_ZERO\n ? 0\n : Math.min(\n 255,\n Math.max(\n 1,\n Math.round((Math.log(scaleZ) - lnScaleMin) * lnScaleScale) + 1,\n ),\n );\n\n const i4 = index * 4;\n packedSplats[i4 + 3] =\n uScaleX |\n (uScaleY << 8) |\n (uScaleZ << 16) |\n (packedSplats[i4 + 3] & 0xff000000);\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempQuaternion = new THREE.Quaternion();\n\n// Encode the rotation quatX, quatY, quatZ, quatW in the packedSplats Uint32Array,\n// leaving all other fields as is.\nexport function setPackedSplatQuat(\n packedSplats: Uint32Array,\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n) {\n const uQuat = encodeQuatOctXy88R8(\n tempQuaternion.set(quatX, quatY, quatZ, quatW),\n );\n // const uQuat = encodeQuatXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n // const uQuat = encodeQuatEulerXyz888(new THREE.Quaternion(quatX, quatY, quatZ, quatW));\n const uQuatX = uQuat & 0xff;\n const uQuatY = (uQuat >>> 8) & 0xff;\n const uQuatZ = (uQuat >>> 16) & 0xff;\n\n const i4 = index * 4;\n packedSplats[i4 + 2] =\n (packedSplats[i4 + 2] & 0x0000ffff) | (uQuatX << 16) | (uQuatY << 24);\n packedSplats[i4 + 3] = (packedSplats[i4 + 3] & 0x00ffffff) | (uQuatZ << 24);\n}\n\n// Encode the RGBA color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgba(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n a: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lodOpacity?: boolean;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n const uA = floatToUint8(encoding?.lodOpacity ? 0.5 * a : a);\n const i4 = index * 4;\n packedSplats[i4] = uR | (uG << 8) | (uB << 16) | (uA << 24);\n}\n\n// Encode the RGB color in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatRgb(\n packedSplats: Uint32Array,\n index: number,\n r: number,\n g: number,\n b: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n },\n) {\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n const uR = floatToUint8((r - rgbMin) / rgbRange);\n const uG = floatToUint8((g - rgbMin) / rgbRange);\n const uB = floatToUint8((b - rgbMin) / rgbRange);\n\n const i4 = index * 4;\n packedSplats[i4] =\n uR | (uG << 8) | (uB << 16) | (packedSplats[i4] & 0xff000000);\n}\n\n// Encode the opacity in the packedSplats Uint32Array, leaving other fields alone.\nexport function setPackedSplatOpacity(\n packedSplats: Uint32Array,\n index: number,\n opacity: number,\n) {\n const uA = floatToUint8(opacity);\n\n const i4 = index * 4;\n packedSplats[i4] = (packedSplats[i4] & 0x00ffffff) | (uA << 24);\n}\n\nconst packedCenter = new THREE.Vector3();\nconst packedScales = new THREE.Vector3();\nconst packedQuaternion = new THREE.Quaternion();\nconst packedColor = new THREE.Color();\nconst packedFields = {\n center: packedCenter,\n scales: packedScales,\n quaternion: packedQuaternion,\n color: packedColor,\n opacity: 0.0,\n};\n\n// Unpack all components of a PackedSplat from the packedSplats Uint32Array into\n// THREE.js vector objects. The returned objects will be reused each call.\nexport function unpackSplat(\n packedSplats: Uint32Array,\n index: number,\n encoding?: {\n rgbMin?: number;\n rgbMax?: number;\n lnScaleMin?: number;\n lnScaleMax?: number;\n lodOpacity?: boolean;\n },\n): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n color: THREE.Color;\n opacity: number;\n} {\n // Returns a static object which is reused each time\n const result = packedFields;\n\n const i4 = index * 4;\n const word0 = packedSplats[i4];\n const word1 = packedSplats[i4 + 1];\n const word2 = packedSplats[i4 + 2];\n const word3 = packedSplats[i4 + 3];\n\n const rgbMin = encoding?.rgbMin ?? 0.0;\n const rgbMax = encoding?.rgbMax ?? 1.0;\n const rgbRange = rgbMax - rgbMin;\n result.color.set(\n rgbMin + ((word0 & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 8) & 0xff) / 255) * rgbRange,\n rgbMin + (((word0 >>> 16) & 0xff) / 255) * rgbRange,\n );\n result.opacity = ((word0 >>> 24) & 0xff) / 255;\n if (encoding?.lodOpacity) {\n result.opacity = 2.0 * result.opacity;\n }\n result.center.set(\n fromHalf(word1 & 0xffff),\n fromHalf((word1 >>> 16) & 0xffff),\n fromHalf(word2 & 0xffff),\n );\n\n const lnScaleMin = encoding?.lnScaleMin ?? LN_SCALE_MIN;\n const lnScaleMax = encoding?.lnScaleMax ?? LN_SCALE_MAX;\n const lnScaleScale = (lnScaleMax - lnScaleMin) / 254.0;\n const uScalesX = word3 & 0xff;\n result.scales.x =\n uScalesX === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesX - 1) * lnScaleScale);\n const uScalesY = (word3 >>> 8) & 0xff;\n result.scales.y =\n uScalesY === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesY - 1) * lnScaleScale);\n const uScalesZ = (word3 >>> 16) & 0xff;\n result.scales.z =\n uScalesZ === 0 ? 0.0 : Math.exp(lnScaleMin + (uScalesZ - 1) * lnScaleScale);\n\n const uQuat = ((word2 >>> 16) & 0xffff) | ((word3 >>> 8) & 0xff0000);\n decodeQuatOctXy88R8(uQuat, result.quaternion);\n // decodeQuatXyz888(uQuat, result.quaternion);\n // decodeQuatEulerXyz888(uQuat, result.quaternion);\n\n return result;\n}\n\n// Compute a texture array size that is large enough to fit numSplats. The most\n// common 2D texture size in WebGL2 is 4096x4096 which only allows for 16M splats,\n// so Spark stores Gsplat data in a 2D texture array, which most platforms support\n// up to 2048x2048x2048 = 8G splats. Allocations that fit within a single 2D texture\n// array layer will be rounded up to fill an entire texture row. Once a texture\n// array layer is filled, the allocation will be rounded up to fill an entire layer.\n// This is done so the entire set of splats can be covered by min/max coords across\n// each dimension.\nexport function getTextureSize(numSplats: number): {\n width: number;\n height: number;\n depth: number;\n maxSplats: number;\n} {\n // Compute a texture array size that is large enough to fit numSplats.\n // The width is always 2048, the height sized to fit the splats but no larger than 2048.\n // The depth is the number of layers needed to fit the splats.\n // maxSplats is computed as the new total available splats that can be stored.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n const maxSplats = width * height * depth;\n return { width, height, depth, maxSplats };\n}\n\nexport function computeMaxSplats(numSplats: number): number {\n // Compute the size of a Gsplat array texture (2048x2048xD) that can fit\n // numSplats splats, and return the total number of splats that can be stored\n // in such a texture.\n const width = SPLAT_TEX_WIDTH;\n const height = Math.max(\n SPLAT_TEX_MIN_HEIGHT,\n Math.min(SPLAT_TEX_HEIGHT, Math.ceil(numSplats / width)),\n );\n const depth = Math.ceil(numSplats / (width * height));\n return width * height * depth;\n}\n\n// Heuristic function to determine if we are running on a mobile device.\nexport function isMobile(): boolean {\n if (navigator.platform.toLowerCase().startsWith(\"win\")) {\n return false;\n }\n if (navigator.maxTouchPoints > 0) {\n // Touch-enabled device, assume it's mobile\n return true;\n }\n return /Mobi|Android|iPhone|iPad|iPod|Opera Mini|IEMobile/.test(\n navigator.userAgent,\n );\n}\n\n// Heuristic function to determine if we are running on an Android device.\n// (does not include Oculus Quest)\nexport function isAndroid(): boolean {\n return (\n /Android/.test(navigator.userAgent) || /Tizen/.test(navigator.userAgent)\n );\n}\n\n// Heuristic function to determine if we are running on an Oculus Quest device.\nexport function isOculus(): boolean {\n return !!navigator.xr && /Oculus/.test(navigator.userAgent);\n}\n\nexport function isQuest2() {\n return isOculus() && /Quest 2/.test(navigator.userAgent);\n}\n\nexport function isIos(): boolean {\n return /iPhone|iPad/.test(navigator.userAgent);\n}\n\nexport function isVisionPro(): boolean {\n return (\n !!navigator.xr &&\n isIos() &&\n /Safari/.test(navigator.userAgent) &&\n isMobile()\n );\n}\n\n// Take an array of RGBA8 encoded pixels and flip them vertically in-place.\n// This is useful for converting between top-left and bottom-left coordinate systems\n// in standard 2D images vs WebGL2.\nexport function flipPixels(\n pixels: Uint8Array,\n width: number,\n height: number,\n): Uint8Array {\n // Flips pixels vertically in-place, returns original array.\n const tempLine = new Uint8Array(width * 4);\n\n // Only need to process half the height since we're swapping\n for (let y = 0; y < height / 2; y++) {\n const topOffset = y * width * 4;\n const bottomOffset = (height - 1 - y) * width * 4;\n\n // Save top line to temp buffer\n tempLine.set(pixels.subarray(topOffset, topOffset + width * 4));\n // Move bottom line to top\n pixels.set(\n pixels.subarray(bottomOffset, bottomOffset + width * 4),\n topOffset,\n );\n // Move saved top line to bottom\n pixels.set(tempLine, bottomOffset);\n }\n return pixels;\n}\n\n// Utility to take an array of RGBA8 encoded pixels and convert them to a\n// PNG-encoded image data URL that can be downloaded to the client.\nexport function pixelsToPngUrl(\n pixels: Uint8Array,\n width: number,\n height: number,\n): string {\n const canvas = document.createElement(\"canvas\");\n canvas.width = width;\n canvas.height = height;\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n throw new Error(\"Can't get 2d context\");\n }\n const imageData = ctx.createImageData(width, height);\n imageData.data.set(pixels);\n ctx.putImageData(imageData, 0, 0);\n return canvas.toDataURL(\"image/png\");\n}\n\n// Manually clone a THREE.Clock object.\nexport function cloneClock(clock: THREE.Clock): THREE.Clock {\n const newClock = new THREE.Clock(clock.autoStart);\n newClock.startTime = clock.startTime;\n newClock.oldTime = clock.oldTime;\n newClock.elapsedTime = clock.elapsedTime;\n newClock.running = clock.running;\n return newClock;\n}\n\n// Utility to filter out an undefined values from an object.\nexport function omitUndefined(obj: T): Partial {\n return Object.fromEntries(\n Object.entries(obj).filter(([_, value]) => value !== undefined),\n ) as Partial;\n}\n\n// \"Identity\" vertex shader that just passes through the position.\nexport const IDENT_VERTEX_SHADER = unindent(`\n precision highp float;\n\n in vec3 position;\n\n void main() {\n gl_Position = vec4(position.xy, 0.0, 1.0);\n }\n`);\n\n// Returns the average position of an array of THREE.Vector3.\nexport function averagePositions(positions: THREE.Vector3[]): THREE.Vector3 {\n const sum = new THREE.Vector3();\n for (const position of positions) {\n sum.add(position);\n }\n return sum.divideScalar(positions.length);\n}\n\n// Returns an \"average\" of an array of THREE.Quaternion objects.\n// Note that this is not a spherical lerp between quaternions but\n// rather an arithmetic mean that is normalized to unit length.\nexport function averageQuaternions(\n quaternions: THREE.Quaternion[],\n): THREE.Quaternion {\n if (quaternions.length === 0) {\n return new THREE.Quaternion();\n }\n const sum = quaternions[0].clone();\n for (let i = 1; i < quaternions.length; i++) {\n if (quaternions[i].dot(quaternions[0]) < 0.0) {\n sum.x -= quaternions[i].x;\n sum.y -= quaternions[i].y;\n sum.z -= quaternions[i].z;\n sum.w -= quaternions[i].w;\n } else {\n sum.x += quaternions[i].x;\n sum.y += quaternions[i].y;\n sum.z += quaternions[i].z;\n sum.w += quaternions[i].w;\n }\n }\n return sum.normalize();\n}\n\n// Compare two coordinates given by matrix1 and matrix2, returning the distance\n// between their origins and the \"coincidence\" of their orientations, defined\n// as the dot product of their \"-z\" axes.\nexport function coinciDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n const direction1 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix1)\n .sub(origin1)\n .normalize();\n const direction2 = new THREE.Vector3(0, 0, -1)\n .applyMatrix4(matrix2)\n .sub(origin2)\n .normalize();\n\n const distance = origin1.distanceTo(origin2);\n const coincidence = direction1.dot(direction2);\n return { distance, coincidence };\n}\n\n// Utility function that returns whether two coordinate system origins\n// given by matrix1 and matrix2 are within a certain maxDistance of each other.\nexport function withinDist({\n matrix1,\n matrix2,\n maxDistance,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n}): boolean {\n const origin1 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix1);\n const origin2 = new THREE.Vector3(0, 0, 0).applyMatrix4(matrix2);\n return origin1.distanceTo(origin2) <= maxDistance;\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined by a maxDistance and a minCoincidence.\nexport function withinCoinciDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoincidence,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoincidence?: number;\n}): boolean {\n const { distance, coincidence } = coinciDist(matrix1, matrix2);\n return (\n distance <= maxDistance &&\n (minCoincidence == null || coincidence >= minCoincidence)\n );\n}\n\n// Compare two coordinate systems given by matrix1 and matrix2, returning the\n// distance between their origins and the \"coorientation\" of their orientations,\n// define as the dot product of their quaternion transforms (flipping their\n// orientation to be on the same hemisphere if necessary).\nexport function coorientDist(matrix1: THREE.Matrix4, matrix2: THREE.Matrix4) {\n const [origin1, rotate1] = [new THREE.Vector3(), new THREE.Quaternion()];\n const [origin2, rotate2] = [new THREE.Vector3(), new THREE.Quaternion()];\n matrix1.decompose(origin1, rotate1, new THREE.Vector3());\n matrix2.decompose(origin2, rotate2, new THREE.Vector3());\n\n const distance = origin1.distanceTo(origin2);\n const coorient = Math.abs(rotate1.dot(rotate2));\n return { distance, coorient };\n}\n\n// Utility function that returns whether two coordinate systems are \"close\"\n// to each other, defined a maxDistance and a minCoorient.\nexport function withinCoorientDist({\n matrix1,\n matrix2,\n maxDistance,\n minCoorient,\n}: {\n matrix1: THREE.Matrix4;\n matrix2: THREE.Matrix4;\n maxDistance: number;\n minCoorient?: number;\n}): boolean {\n const { distance, coorient } = coorientDist(matrix1, matrix2);\n return (\n distance <= maxDistance && (minCoorient == null || coorient >= minCoorient)\n );\n}\n\n// Like Math.sign but with a custom epsilon value.\nexport function epsilonSign(value: number, epsilon = 0.001): number {\n if (Math.abs(value) < epsilon) {\n return 0;\n }\n return Math.sign(value);\n}\n\n// Encode a THREE.Quaternion into a 24-bit integer, converting the xyz coordinates\n// to signed 8-bit integers (w can be derived from xyz), and flipping the sign\n// of the quaternion if necessary to make this possible (q == -q for quaternions).\nexport function encodeQuatXyz888(q: THREE.Quaternion): number {\n const negQuat = q.w < 0.0;\n const iQuatX = floatToSint8(negQuat ? -q.x : q.x);\n const iQuatY = floatToSint8(negQuat ? -q.y : q.y);\n const iQuatZ = floatToSint8(negQuat ? -q.z : q.z);\n const uQuatX = iQuatX & 0xff;\n const uQuatY = iQuatY & 0xff;\n const uQuatZ = iQuatZ & 0xff;\n return uQuatX | (uQuatY << 8) | (uQuatZ << 16);\n}\n\n// Decode a 24-bit integer of the quaternion's xyz coordinates into a THREE.Quaternion.\nexport function decodeQuatXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n const iQuatX = (encoded << 24) >> 24;\n const iQuatY = (encoded << 16) >> 24;\n const iQuatZ = (encoded << 8) >> 24;\n out.set(iQuatX / 127.0, iQuatY / 127.0, iQuatZ / 127.0, 0.0);\n const dotSelf = out.x * out.x + out.y * out.y + out.z * out.z;\n out.w = Math.sqrt(Math.max(0.0, 1.0 - dotSelf));\n return out;\n}\n\n// Temporary storage used in `encodeQuatOCtXy88R8` and `decodeQuatOctXy88R8` to\n// avoid allocation new Quaternions and Vector3 instances.\nconst tempNormalizedQuaternion = new THREE.Quaternion();\nconst tempAxis = new THREE.Vector3();\n\n/**\n * Encodes a THREE.Quaternion into a 24‐bit integer.\n *\n * Bit layout (LSB → MSB):\n * - Bits 0–7: quantized U (8 bits)\n * - Bits 8–15: quantized V (8 bits)\n * - Bits 16–23: quantized angle θ (8 bits) from [0,π]\n *\n * This version uses folded octahedral mapping (all inline).\n */\nexport function encodeQuatOctXy88R8(q: THREE.Quaternion): number {\n // Force the minimal representation (q.w >= 0)\n const qnorm = tempNormalizedQuaternion.copy(q).normalize();\n if (qnorm.w < 0) {\n qnorm.set(-qnorm.x, -qnorm.y, -qnorm.z, -qnorm.w);\n }\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnorm.w);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(\n qnorm.x * qnorm.x + qnorm.y * qnorm.y + qnorm.z * qnorm.z,\n );\n const axis =\n xyz_norm < 1e-6\n ? tempAxis.set(1, 0, 0)\n : tempAxis.set(qnorm.x, qnorm.y, qnorm.z).divideScalar(xyz_norm);\n // const foldAxis = (axis.z < 0);\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axis.x) + Math.abs(axis.y) + Math.abs(axis.z);\n let p_x = axis.x / sum;\n let p_y = axis.y / sum;\n // Fold the lower hemisphere.\n if (axis.z < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 7 bits (0..127)\n const quantU = Math.round(u_f * 255);\n const quantV = Math.round(v_f * 255);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 10 bits (0..1023) ---\n const angleInt = Math.round(theta * (255 / Math.PI));\n\n // Pack into 24 bits: bits [0–7]: quantU, [8–15]: quantV, [16–23]: angleInt.\n return (angleInt << 16) | (quantV << 8) | quantU;\n}\n\n/**\n * Decodes a 24‐bit encoded quaternion (packed in a number) back to a THREE.Quaternion.\n *\n * Assumes the same bit layout as in encodeQuatOctXy88R8.\n */\nexport function decodeQuatOctXy88R8(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 8‐bit quantU and quantV, and 8‐bit angleInt.\n const quantU = encoded & 0xff; // bits 0–7\n const quantV = (encoded >>> 8) & 0xff; // bits 8–15\n const angleInt = (encoded >>> 16) & 0xff; // bits 16–23\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 255;\n const v_f = quantV / 255;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axis = tempAxis.set(f_x, f_y, f_z).normalize();\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 255) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axis.x * s, axis.y * s, axis.z * s, w);\n return out;\n}\n\n/**\n * Encodes a THREE.Quaternion into a 24‑bit unsigned integer\n * by converting it to Euler angles (roll, pitch, yaw).\n * The Euler angles are assumed to be in radians in the range [-π, π].\n * Each angle is normalized to [0,1] and quantized to 8 bits.\n * Bit layout (LSB→MSB):\n * - Bits 0–7: roll (quantized)\n * - Bits 8–15: pitch (quantized)\n * - Bits 16–23: yaw (quantized)\n */\nexport function encodeQuatEulerXyz888(q: THREE.Quaternion): number {\n // Normalize quaternion to ensure a proper rotation.\n const qNorm = q.clone().normalize();\n\n // Tait–Bryan angles (roll, pitch, yaw)\n const sinr_cosp = 2.0 * (qNorm.w * qNorm.x + qNorm.y * qNorm.z);\n const cosr_cosp = 1.0 - 2.0 * (qNorm.x * qNorm.x + qNorm.y * qNorm.y);\n const roll = Math.atan2(sinr_cosp, cosr_cosp);\n\n const sinp = 2.0 * (qNorm.w * qNorm.y - qNorm.z * qNorm.x);\n const pitch =\n Math.abs(sinp) >= 1.0 ? Math.sign(sinp) * (Math.PI / 2) : Math.asin(sinp);\n\n const siny_cosp = 2.0 * (qNorm.w * qNorm.z + qNorm.x * qNorm.y);\n const cosy_cosp = 1.0 - 2.0 * (qNorm.y * qNorm.y + qNorm.z * qNorm.z);\n const yaw = Math.atan2(siny_cosp, cosy_cosp);\n\n // Map each angle from [-π, π] to [0, 1]\n const normRoll = (roll + Math.PI) / (2 * Math.PI);\n const normPitch = (pitch + Math.PI) / (2 * Math.PI);\n const normYaw = (yaw + Math.PI) / (2 * Math.PI);\n\n // Quantize to 8 bits (0 to 255)\n const rollQ = Math.round(normRoll * 255);\n const pitchQ = Math.round(normPitch * 255);\n const yawQ = Math.round(normYaw * 255);\n\n // Pack into a 24-bit unsigned integer:\n // Bits 0–7: rollQ, Bits 8–15: pitchQ, Bits 16–23: yawQ.\n return (yawQ << 16) | (pitchQ << 8) | rollQ;\n}\n\n/**\n * Decodes a 24‑bit unsigned integer into a THREE.Quaternion\n * by unpacking three 8‑bit values (roll, pitch, yaw) in the range [0,255]\n * and then converting them back to Euler angles in [-π, π] and to a quaternion.\n */\nexport function decodeQuatEulerXyz888(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Unpack 8‑bit values.\n const rollQ = encoded & 0xff;\n const pitchQ = (encoded >>> 8) & 0xff;\n const yawQ = (encoded >>> 16) & 0xff;\n\n // Convert quantized values back to normalized [0,1] values.\n const normRoll = rollQ / 255;\n const normPitch = pitchQ / 255;\n const normYaw = yawQ / 255;\n\n // Map from [0,1] to [-π, π]\n const roll = normRoll * (2 * Math.PI) - Math.PI;\n const pitch = normPitch * (2 * Math.PI) - Math.PI;\n const yaw = normYaw * (2 * Math.PI) - Math.PI;\n\n // Convert Euler angles to quaternion (Tait–Bryan: roll, pitch, yaw).\n const cr = Math.cos(roll * 0.5);\n const sr = Math.sin(roll * 0.5);\n const cp = Math.cos(pitch * 0.5);\n const sp = Math.sin(pitch * 0.5);\n const cy = Math.cos(yaw * 0.5);\n const sy = Math.sin(yaw * 0.5);\n\n out.w = cr * cp * cy + sr * sp * sy;\n out.x = sr * cp * cy - cr * sp * sy;\n out.y = cr * sp * cy + sr * cp * sy;\n out.z = cr * cp * sy - sr * sp * cy;\n out.normalize();\n return out;\n}\n\nexport function encodeQuatOctXy1010R12(\n qx: number,\n qy: number,\n qz: number,\n qw: number,\n): number {\n const qlen = Math.sqrt(qx * qx + qy * qy + qz * qz + qw * qw);\n // Force the minimal representation (q.w >= 0)\n const qnx = (qw < 0 ? -qx : qx) / qlen;\n const qny = (qw < 0 ? -qy : qy) / qlen;\n const qnz = (qw < 0 ? -qz : qz) / qlen;\n const qnw = (qw < 0 ? -qw : qw) / qlen;\n // Compute the rotation angle θ in [0, π]\n const theta = 2 * Math.acos(qnw);\n // Recover the rotation axis (default to (1,0,0) for near-zero rotation)\n const xyz_norm = Math.sqrt(qnx * qnx + qny * qny + qnz * qnz);\n const axisX = xyz_norm < 1e-6 ? 1 : qnx / xyz_norm;\n const axisY = xyz_norm < 1e-6 ? 0 : qny / xyz_norm;\n const axisZ = xyz_norm < 1e-6 ? 0 : qnz / xyz_norm;\n\n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n const sum = Math.abs(axisX) + Math.abs(axisY) + Math.abs(axisZ);\n let p_x = axisX / sum;\n let p_y = axisY / sum;\n // Fold the lower hemisphere.\n if (axisZ < 0) {\n const tmp = p_x;\n p_x = (1 - Math.abs(p_y)) * (p_x >= 0 ? 1 : -1);\n p_y = (1 - Math.abs(tmp)) * (p_y >= 0 ? 1 : -1);\n }\n // Remap from [-1,1] to [0,1]\n const u_f = p_x * 0.5 + 0.5;\n const v_f = p_y * 0.5 + 0.5;\n // Quantize to 10 bits (0..1023)\n const quantU = Math.round(u_f * 1023);\n const quantV = Math.round(v_f * 1023);\n // --- Angle Quantization: Quantize θ ∈ [0,π] to 12 bits (0..4095) ---\n const angleInt = Math.round(theta * (4095 / Math.PI));\n\n // Pack into 32 bits: bits [0–9]: quantU, [10–19]: quantV, [20–31]: angleInt.\n return (angleInt << 20) | (quantV << 10) | quantU;\n}\n\nexport function decodeQuatOctXy1010R12(\n encoded: number,\n out: THREE.Quaternion,\n): THREE.Quaternion {\n // Extract 10‐bit quantU and quantV, and 12‐bit angleInt.\n const quantU = encoded & 0x3ff; // bits 0–9\n const quantV = (encoded >>> 10) & 0x3ff; // bits 10–19\n const angleInt = (encoded >>> 20) & 0xfff; // bits 20–31\n\n // Recover u and v in [0,1] then map to [-1,1]\n const u_f = quantU / 1023;\n const v_f = quantV / 1023;\n let f_x = (u_f - 0.5) * 2;\n let f_y = (v_f - 0.5) * 2;\n // Inverse folded mapping: recover z from the constraint |p_x|+|p_y|+z = 1.\n const f_z = 1 - (Math.abs(f_x) + Math.abs(f_y));\n const t = Math.max(-f_z, 0);\n f_x += f_x >= 0 ? -t : t;\n f_y += f_y >= 0 ? -t : t;\n const axisLen = Math.sqrt(f_x * f_x + f_y * f_y + f_z * f_z);\n const axisX = axisLen < 1e-6 ? 0 : f_x / axisLen;\n const axisY = axisLen < 1e-6 ? 0 : f_y / axisLen;\n const axisZ = axisLen < 1e-6 ? 0 : f_z / axisLen;\n\n // Decode the angle: θ ∈ [0,π]\n const theta = (angleInt / 4095) * Math.PI;\n const halfTheta = theta * 0.5;\n const s = Math.sin(halfTheta);\n const w = Math.cos(halfTheta);\n // Reconstruct the quaternion from axis-angle: (axis * sin(θ/2), cos(θ/2))\n out.set(axisX * s, axisY * s, axisZ * s, w);\n return out;\n}\n\n// Pack four signed 8-bit values into a single uint32.\nfunction packSint8Bytes(\n b0: number,\n b1: number,\n b2: number,\n b3: number,\n): number {\n const clampedB0 = Math.round(Math.max(-127, Math.min(127, b0 * 127)));\n const clampedB1 = Math.round(Math.max(-127, Math.min(127, b1 * 127)));\n const clampedB2 = Math.round(Math.max(-127, Math.min(127, b2 * 127)));\n const clampedB3 = Math.round(Math.max(-127, Math.min(127, b3 * 127)));\n return (\n (clampedB0 & 0xff) |\n ((clampedB1 & 0xff) << 8) |\n ((clampedB2 & 0xff) << 16) |\n ((clampedB3 & 0xff) << 24)\n );\n}\n\n// Encode an array of 9 signed RGB SH1 coefficients (clamped to [-1,1]) into\n// a pair of uint32 values, where each coefficient is stored as a sint7\nexport function encodeSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n encoding?: {\n sh1Max?: number;\n },\n) {\n const sh1Max = encoding?.sh1Max ?? 1;\n const sh1Scale = 63 / sh1Max;\n\n // Pack sint7 values into 2 x uint32\n const base = index * 2;\n for (let i = 0; i < 9; ++i) {\n const s = sh1Rgb[i] * sh1Scale;\n const value = Math.round(Math.max(-63, Math.min(63, s))) & 0x7f;\n const bitStart = i * 7;\n const bitEnd = bitStart + 7;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh1Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh1Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\n// Encode an array of 15 signed RGB SH2 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint8.\nexport function encodeSh2Rgb(\n sh2Array: Uint32Array,\n index: number,\n sh2Rgb: Float32Array,\n encoding?: {\n sh2Max?: number;\n },\n) {\n const sh2Max = encoding?.sh2Max ?? 1;\n const sh2Scale = 1 / sh2Max;\n\n // Pack sint8 values into 4 x uint32\n sh2Array[index * 4 + 0] = packSint8Bytes(\n sh2Rgb[0] * sh2Scale,\n sh2Rgb[1] * sh2Scale,\n sh2Rgb[2] * sh2Scale,\n sh2Rgb[3] * sh2Scale,\n );\n sh2Array[index * 4 + 1] = packSint8Bytes(\n sh2Rgb[4] * sh2Scale,\n sh2Rgb[5] * sh2Scale,\n sh2Rgb[6] * sh2Scale,\n sh2Rgb[7] * sh2Scale,\n );\n sh2Array[index * 4 + 2] = packSint8Bytes(\n sh2Rgb[8] * sh2Scale,\n sh2Rgb[9] * sh2Scale,\n sh2Rgb[10] * sh2Scale,\n sh2Rgb[11] * sh2Scale,\n );\n sh2Array[index * 4 + 3] = packSint8Bytes(\n sh2Rgb[12] * sh2Scale,\n sh2Rgb[13] * sh2Scale,\n sh2Rgb[14] * sh2Scale,\n 0,\n );\n}\n\n// Encode an array of 21 signed RGB SH3 coefficients (clamped to [-1,1]) into\n// an array of 4 uint32 values, where each coefficient is stored as a sint6.\nexport function encodeSh3Rgb(\n sh3Array: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n encoding?: {\n sh3Max?: number;\n },\n) {\n const sh3Max = encoding?.sh3Max ?? 1;\n const sh3Scale = 31 / sh3Max;\n\n // Pack sint6 values into 4 x uint32\n const base = index * 4;\n for (let i = 0; i < 21; ++i) {\n const s = sh3Rgb[i] * sh3Scale;\n const value = Math.round(Math.max(-31, Math.min(31, s))) & 0x3f;\n const bitStart = i * 6;\n const bitEnd = bitStart + 6;\n\n const wordStart = Math.floor(bitStart / 32);\n const bitOffset = bitStart - wordStart * 32;\n const firstWord = (value << bitOffset) & 0xffffffff;\n sh3Array[base + wordStart] |= firstWord;\n\n if (bitEnd > wordStart * 32 + 32) {\n const secondWord = (value >>> (32 - bitOffset)) & 0xffffffff;\n sh3Array[base + wordStart + 1] |= secondWord;\n }\n }\n}\n\nexport function encodeExtRgb(r: number, g: number, b: number): number {\n const ar = Math.abs(r);\n const ag = Math.abs(g);\n const ab = Math.abs(b);\n const maxAbs = Math.max(ar, ag, ab);\n const base = Math.floor(Math.log2(maxAbs));\n const biasedBase = Math.max(0, Math.min(31, base + 15));\n const divisor = 2 ** (biasedBase - 15) / 255;\n const uR = Math.round(Math.max(0, Math.min(255, ar / divisor)));\n const uG = Math.round(Math.max(0, Math.min(255, ag / divisor)));\n const uB = Math.round(Math.max(0, Math.min(255, ab / divisor)));\n const expSigns =\n (biasedBase << 3) |\n ((r < 0 ? 0x1 : 0) | (g < 0 ? 0x2 : 0) | (b < 0 ? 0x4 : 0));\n return uR | (uG << 8) | (uB << 16) | (expSigns << 24);\n}\n\nexport function decodeExtRgb(encoded: number): THREE.Color {\n const color = packedFields.color;\n const biasedBase = (encoded >>> 27) & 0x1f;\n const divisor = 2 ** (biasedBase - 15) / 255;\n const r = (encoded & 0xff) * divisor;\n const g = ((encoded >>> 8) & 0xff) * divisor;\n const b = ((encoded >>> 16) & 0xff) * divisor;\n color.r = encoded & 0x1000000 ? -r : r;\n color.g = encoded & 0x2000000 ? -g : g;\n color.b = encoded & 0x4000000 ? -b : b;\n return color;\n}\n\nexport function encodeExtSh1Rgb(\n sh1Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n}\n\nexport function encodeExtSh12Rgb(\n sh1Array: Uint32Array,\n sh2Array: Uint32Array,\n index: number,\n sh1Rgb: Float32Array,\n sh2Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 3; ++k) {\n const k3 = k * 3;\n sh1Array[i4 + k] = encodeExtRgb(sh1Rgb[k3], sh1Rgb[k3 + 1], sh1Rgb[k3 + 2]);\n }\n sh1Array[i4 + 3] = encodeExtRgb(sh2Rgb[0], sh2Rgb[1], sh2Rgb[2]);\n for (let k = 1; k < 5; ++k) {\n const k5 = k * 5;\n sh2Array[i4 + (k - 1)] = encodeExtRgb(\n sh2Rgb[k5],\n sh2Rgb[k5 + 1],\n sh2Rgb[k5 + 2],\n );\n }\n}\n\nexport function encodeExt3Rgb(\n sh3ArrayA: Uint32Array,\n sh3ArrayB: Uint32Array,\n index: number,\n sh3Rgb: Float32Array,\n) {\n const i4 = index * 4;\n for (let k = 0; k < 4; ++k) {\n const k3 = k * 3;\n sh3ArrayA[i4 + k] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n for (let k = 4; k < 7; ++k) {\n const k3 = k * 3;\n sh3ArrayB[i4 + (k - 4)] = encodeExtRgb(\n sh3Rgb[k3],\n sh3Rgb[k3 + 1],\n sh3Rgb[k3 + 2],\n );\n }\n}\n\n// Partially decompress a gzip-encoded Uint8Array, returning a Uint8Array of\n// the specified numBytes from the start of the file.\nexport function decompressPartialGzip(\n fileBytes: Uint8Array,\n numBytes: number,\n): Uint8Array {\n const chunks: Uint8Array[] = [];\n let totalBytes = 0;\n let result: Uint8Array | null = null;\n\n const gunzip = new Gunzip((data, final) => {\n chunks.push(data);\n totalBytes += data.length;\n if (final || totalBytes >= numBytes) {\n const allBytes = new Uint8Array(totalBytes);\n let offset = 0;\n for (const chunk of chunks) {\n allBytes.set(chunk, offset);\n offset += chunk.length;\n }\n result = allBytes.slice(0, numBytes);\n }\n });\n\n const CHUNK_SIZE = 1024;\n let offset = 0;\n while (result == null && offset < fileBytes.length) {\n const chunk = fileBytes.slice(offset, offset + CHUNK_SIZE);\n gunzip.push(chunk, false);\n offset += CHUNK_SIZE;\n }\n\n if (result == null) {\n gunzip.push(new Uint8Array(), true);\n if (result == null) {\n throw new Error(\"Failed to decompress partial gzip\");\n }\n }\n return result;\n}\n\nexport class GunzipReader {\n fileBytes: Uint8Array;\n chunkBytes: number;\n\n chunks: Uint8Array[];\n totalBytes: number;\n reader: ReadableStreamDefaultReader;\n\n constructor({\n fileBytes,\n chunkBytes = 64 * 1024,\n }: { fileBytes: Uint8Array; chunkBytes?: number }) {\n this.fileBytes = fileBytes;\n this.chunkBytes = chunkBytes;\n this.chunks = [];\n this.totalBytes = 0;\n\n const ds = new DecompressionStream(\"gzip\");\n const decompressionStream = new Blob([fileBytes]).stream().pipeThrough(ds);\n this.reader = decompressionStream.getReader();\n }\n\n async read(numBytes: number): Promise {\n while (this.totalBytes < numBytes) {\n const { value: chunk, done: readerDone } = await this.reader.read();\n if (readerDone) {\n break;\n }\n\n this.chunks.push(chunk);\n this.totalBytes += chunk.length;\n }\n\n if (this.totalBytes < numBytes) {\n throw new Error(\n `Unexpected EOF: needed ${numBytes}, got ${this.totalBytes}`,\n );\n }\n\n const allBytes = new Uint8Array(this.totalBytes);\n let outOffset = 0;\n for (const chunk of this.chunks) {\n allBytes.set(chunk, outOffset);\n outOffset += chunk.length;\n }\n\n const result = allBytes.subarray(0, numBytes);\n this.chunks = [allBytes.subarray(numBytes)];\n this.totalBytes -= numBytes;\n return result;\n }\n}\n","import BundledWorker from \"./oldWorker?worker&inline\";\nimport { getTransferable } from \"./utils.js\";\n\n// SplatWorker is an internal class that manages a WebWorker for executing\n// longer running CPU tasks such as Gsplat file decoding and sorting.\n// Although a SplatWorker can be created and used directly, the utility\n// function withWorker() is recommended to allocate from a managed\n// pool of SplatWorkers.\n\nexport class OldSplatWorker {\n worker: Worker;\n messages: Record<\n number,\n { resolve: (value: unknown) => void; reject: (reason?: unknown) => void }\n > = {};\n messageIdNext = 0;\n\n constructor() {\n // this.worker = new Worker(new URL(\"./worker\", import.meta.url), { type: \"module\" });\n this.worker = new BundledWorker();\n this.worker.onmessage = (event) => this.onMessage(event);\n }\n\n makeMessageId(): number {\n return ++this.messageIdNext;\n }\n\n makeMessagePromiseId(): { id: number; promise: Promise } {\n const id = this.makeMessageId();\n const promise = new Promise((resolve, reject) => {\n this.messages[id] = { resolve, reject };\n });\n return { id, promise };\n }\n\n onMessage(event: MessageEvent) {\n // console.log(\"SplatWorker.onMessage:\", event);\n const { id, result, error } = event.data;\n // console.log(`SplatWorker.onMessage(${id}):`, result, error);\n const handler = this.messages[id];\n if (handler) {\n delete this.messages[id];\n if (error) {\n handler.reject(error);\n } else {\n handler.resolve(result);\n }\n }\n }\n\n // Invoke an RPC on the worker with the given name and arguments.\n // The normal usage of a worker is to run one activity at a time,\n // but this function allows for concurrent calls, tagging each request\n // with a unique message Id and awaiting a response to that same Id.\n // The method will automatically transfer any ArrayBuffers in the\n // arguments to the worker. If you'd like to transfer a copy of a\n // buffer then you must clone it before passing to this function.\n async call(name: string, args: unknown): Promise {\n const { id, promise } = this.makeMessagePromiseId();\n // console.log(`SplatWorker.call(${name}):`, args);\n this.worker.postMessage(\n { name, args, id },\n { transfer: getTransferable(args) },\n );\n return promise;\n }\n}\n\nlet maxWorkers = 4;\n\nlet numWorkers = 0;\nconst freeWorkers: OldSplatWorker[] = [];\nconst workerQueue: ((worker: OldSplatWorker) => void)[] = [];\n\n// Set the maximum number of workers to allocate for the pool. (default: 4)\nexport function setWorkerPool(count = 4) {\n maxWorkers = count;\n}\n\n// Allocate a worker from the pool. If none are available and we are below the\n// maximum, create a new one. Otherwise, add the request to a queue and wait\n// for it to be fulfilled.\nexport async function allocWorker(): Promise {\n const worker = freeWorkers.shift();\n if (worker) {\n return worker;\n }\n\n if (numWorkers < maxWorkers) {\n const worker = new OldSplatWorker();\n numWorkers += 1;\n return worker;\n }\n\n return new Promise((resolve) => {\n workerQueue.push(resolve);\n });\n}\n\n// Return a worker to the pool. Pass the worker to any pending waiter.\nexport function freeWorker(worker: OldSplatWorker) {\n if (numWorkers > maxWorkers) {\n // Worker no longer needed\n numWorkers -= 1;\n return;\n }\n\n const waiter = workerQueue.shift();\n if (waiter) {\n waiter(worker);\n return;\n }\n\n freeWorkers.push(worker);\n}\n\n// Allocate a worker from the pool and invoke the callback with the worker.\n// When the callback completes, the worker will be returned to the pool.\nexport async function withWorker(\n callback: (worker: OldSplatWorker) => Promise,\n): Promise {\n const worker = await allocWorker();\n try {\n return await callback(worker);\n } finally {\n freeWorker(worker);\n }\n}\n","import {\n\tBufferGeometry,\n\tFloat32BufferAttribute,\n\tOrthographicCamera,\n\tMesh\n} from 'three';\n\n/**\n * Abstract base class for all post processing passes.\n *\n * This module is only relevant for post processing with {@link WebGLRenderer}.\n *\n * @abstract\n * @three_import import { Pass } from 'three/addons/postprocessing/Pass.js';\n */\nclass Pass {\n\n\t/**\n\t * Constructs a new pass.\n\t */\n\tconstructor() {\n\n\t\t/**\n\t\t * This flag can be used for type testing.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @readonly\n\t\t * @default true\n\t\t */\n\t\tthis.isPass = true;\n\n\t\t/**\n\t\t * If set to `true`, the pass is processed by the composer.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.enabled = true;\n\n\t\t/**\n\t\t * If set to `true`, the pass indicates to swap read and write buffer after rendering.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default true\n\t\t */\n\t\tthis.needsSwap = true;\n\n\t\t/**\n\t\t * If set to `true`, the pass clears its buffer before rendering\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.clear = false;\n\n\t\t/**\n\t\t * If set to `true`, the result of the pass is rendered to screen. The last pass in the composers\n\t\t * pass chain gets automatically rendered to screen, no matter how this property is configured.\n\t\t *\n\t\t * @type {boolean}\n\t\t * @default false\n\t\t */\n\t\tthis.renderToScreen = false;\n\n\t}\n\n\t/**\n\t * Sets the size of the pass.\n\t *\n\t * @abstract\n\t * @param {number} width - The width to set.\n\t * @param {number} height - The height to set.\n\t */\n\tsetSize( /* width, height */ ) {}\n\n\t/**\n\t * This method holds the render logic of a pass. It must be implemented in all derived classes.\n\t *\n\t * @abstract\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t * @param {WebGLRenderTarget} writeBuffer - The write buffer. This buffer is intended as the rendering\n\t * destination for the pass.\n\t * @param {WebGLRenderTarget} readBuffer - The read buffer. The pass can access the result from the\n\t * previous pass from this buffer.\n\t * @param {number} deltaTime - The delta time in seconds.\n\t * @param {boolean} maskActive - Whether masking is active or not.\n\t */\n\trender( /* renderer, writeBuffer, readBuffer, deltaTime, maskActive */ ) {\n\n\t\tconsole.error( 'THREE.Pass: .render() must be implemented in derived pass.' );\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever the pass is no longer used in your app.\n\t *\n\t * @abstract\n\t */\n\tdispose() {}\n\n}\n\n// Helper for passes that need to fill the viewport with a single quad.\n\nconst _camera = new OrthographicCamera( - 1, 1, 1, - 1, 0, 1 );\n\n// https://github.com/mrdoob/three.js/pull/21358\n\nclass FullscreenTriangleGeometry extends BufferGeometry {\n\n\tconstructor() {\n\n\t\tsuper();\n\n\t\tthis.setAttribute( 'position', new Float32BufferAttribute( [ - 1, 3, 0, - 1, - 1, 0, 3, - 1, 0 ], 3 ) );\n\t\tthis.setAttribute( 'uv', new Float32BufferAttribute( [ 0, 2, 0, 0, 2, 0 ], 2 ) );\n\n\t}\n\n}\n\nconst _geometry = new FullscreenTriangleGeometry();\n\n\n/**\n * This module is a helper for passes which need to render a full\n * screen effect which is quite common in context of post processing.\n *\n * The intended usage is to reuse a single full screen quad for rendering\n * subsequent passes by just reassigning the `material` reference.\n *\n * This module can only be used with {@link WebGLRenderer}.\n *\n * @augments Mesh\n * @three_import import { FullScreenQuad } from 'three/addons/postprocessing/Pass.js';\n */\nclass FullScreenQuad {\n\n\t/**\n\t * Constructs a new full screen quad.\n\t *\n\t * @param {?Material} material - The material to render te full screen quad with.\n\t */\n\tconstructor( material ) {\n\n\t\tthis._mesh = new Mesh( _geometry, material );\n\n\t}\n\n\t/**\n\t * Frees the GPU-related resources allocated by this instance. Call this\n\t * method whenever the instance is no longer used in your app.\n\t */\n\tdispose() {\n\n\t\tthis._mesh.geometry.dispose();\n\n\t}\n\n\t/**\n\t * Renders the full screen quad.\n\t *\n\t * @param {WebGLRenderer} renderer - The renderer.\n\t */\n\trender( renderer ) {\n\n\t\trenderer.render( this._mesh, _camera );\n\n\t}\n\n\t/**\n\t * The quad's material.\n\t *\n\t * @type {?Material}\n\t */\n\tget material() {\n\n\t\treturn this._mesh.material;\n\n\t}\n\n\tset material( value ) {\n\n\t\tthis._mesh.material = value;\n\n\t}\n\n}\n\nexport { Pass, FullScreenQuad };\n","import { getTransferable } from \"./utils\";\nimport BundledWorker from \"./worker?worker&inline\";\n\ntype PromiseRecord = {\n resolve: (value: unknown) => void;\n reject: (reason?: unknown) => void;\n onStatus?: (data: unknown) => void;\n};\n\nexport class SplatWorker {\n worker: Worker;\n queue: (() => void)[] | null = null;\n messages: Record = {};\n static currentId = 0;\n\n constructor() {\n this.worker = new BundledWorker();\n this.worker.onmessage = (event) => this.onMessage(event);\n }\n\n onMessage(event: MessageEvent) {\n const { id, result, error, status } = event.data;\n const promise = this.messages[id];\n if (promise) {\n if (error !== undefined) {\n delete this.messages[id];\n promise.reject(error);\n } else if (status !== undefined) {\n promise.onStatus?.(status);\n } else {\n delete this.messages[id];\n promise.resolve(result);\n }\n }\n }\n\n tryExclusive(callback: (worker: SplatWorker) => Promise) {\n return this.queue == null ? this.exclusive(callback) : null;\n }\n\n async exclusive(\n callback: (worker: SplatWorker) => Promise,\n ): Promise {\n const queue = this.queue;\n if (queue != null) {\n await new Promise((resolve) => {\n queue.push(() => resolve(undefined));\n });\n } else {\n this.queue = [];\n }\n\n try {\n return await callback(this);\n } finally {\n if (this.queue != null) {\n if (this.queue.length === 0) {\n this.queue = null;\n } else {\n const waiter = this.queue.shift() as () => void;\n waiter();\n }\n }\n }\n }\n\n async call(\n name: string,\n args: unknown,\n options: { onStatus?: (data: unknown) => void } = {},\n ): Promise {\n const id = ++SplatWorker.currentId;\n const promise = new Promise((resolve, reject) => {\n this.messages[id] = { resolve, reject, onStatus: options.onStatus };\n });\n this.worker.postMessage(\n { id, name, args },\n { transfer: getTransferable(args) },\n );\n return await promise;\n }\n\n dispose() {\n this.worker.terminate();\n\n const messages = Object.values(this.messages);\n this.messages = {};\n for (const message of messages) {\n message.reject(new Error(\"Worker terminate\"));\n }\n }\n}\n\nexport class NewSplatWorkerPool {\n maxWorkers;\n numWorkers = 0;\n freelist: SplatWorker[] = [];\n queue: ((worker: SplatWorker) => void)[] = [];\n\n constructor(maxWorkers = 4) {\n this.maxWorkers = maxWorkers;\n }\n\n async withWorker(\n callback: (worker: SplatWorker) => Promise,\n ): Promise {\n const worker = await this.allocWorker();\n try {\n return await callback(worker);\n } finally {\n this.freeWorker(worker);\n }\n }\n\n async allocWorker(): Promise {\n const worker = this.freelist.pop();\n if (worker) {\n return worker;\n }\n\n if (this.numWorkers < this.maxWorkers) {\n const worker = new SplatWorker();\n this.numWorkers += 1;\n return worker;\n }\n\n return new Promise((resolve) => {\n this.queue.push(resolve);\n });\n }\n\n freeWorker(worker: SplatWorker) {\n if (this.numWorkers > this.maxWorkers) {\n // Worker no longer needed\n this.numWorkers -= 1;\n return;\n }\n\n const waiter = this.queue.shift();\n if (waiter) {\n waiter(worker);\n return;\n }\n\n this.freelist.push(worker);\n }\n}\n\nexport const workerPool = new NewSplatWorkerPool();\n","import { Dyno, UnaryOp, unindent, unindentLines } from \"./base\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n} from \"./value\";\n\nexport const Gsplat = { type: \"Gsplat\" } as { type: \"Gsplat\" };\nexport const CovSplat = { type: \"CovSplat\" } as { type: \"CovSplat\" };\nexport const TPackedSplats = { type: \"PackedSplats\" } as {\n type: \"PackedSplats\";\n};\nexport const TExtSplats = { type: \"ExtSplats\" } as {\n type: \"ExtSplats\";\n};\nexport const TCovSplats = { type: \"CovSplats\" } as {\n type: \"CovSplats\";\n};\n\nexport const numPackedSplats = (\n packedSplats: DynoVal,\n): DynoVal<\"int\"> => new NumPackedSplats({ packedSplats });\nexport const readPackedSplat = (\n packedSplats: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal => new ReadPackedSplat({ packedSplats, index });\nexport const readPackedSplatRange = (\n packedSplats: DynoVal,\n index: DynoVal<\"int\">,\n base: DynoVal<\"int\">,\n count: DynoVal<\"int\">,\n): DynoVal =>\n new ReadPackedSplatRange({ packedSplats, index, base, count });\n\nexport const numExtSplats = (\n extSplats: DynoVal,\n): DynoVal<\"int\"> => new NumExtSplats({ extSplats });\nexport const readExtSplat = (\n extSplats: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal => new ReadExtSplat({ extSplats, index });\n\nexport const numCovSplats = (\n covsplats: DynoVal,\n): DynoVal<\"int\"> => new NumCovSplats({ covsplats });\nexport const readCovSplat = (\n covSplats: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal => new ReadCovSplat({ covSplats, index });\n\nexport const gsplatToCovSplat = (\n gsplat: DynoVal,\n): DynoVal => new GsplatToCovSplat({ gsplat });\n\nexport const splitGsplat = (gsplat: DynoVal) =>\n new SplitGsplat({ gsplat });\nexport const combineGsplat = ({\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n}: {\n gsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n scales?: DynoVal<\"vec3\">;\n quaternion?: DynoVal<\"vec4\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n}): DynoVal => {\n return new CombineGsplat({\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n });\n};\nexport const gsplatNormal = (gsplat: DynoVal): DynoVal<\"vec3\"> =>\n new GsplatNormal({ gsplat });\n\nexport const transformGsplat = (\n gsplat: DynoVal,\n {\n scale,\n rotate,\n translate,\n recolor,\n }: {\n scale?: DynoVal<\"float\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n recolor?: DynoVal<\"vec4\">;\n },\n): DynoVal => {\n return new TransformGsplat({ gsplat, scale, rotate, translate, recolor });\n};\n\nexport const splatTexCoord = (index: DynoVal<\"int\">): DynoVal<\"ivec3\"> =>\n new SplatTexCoord({ index });\n\nexport const pagedSplatTexCoord = (index: DynoVal<\"int\">): DynoVal<\"ivec3\"> =>\n new PagedSplatTexCoord({ index });\n\nexport const defineGsplat = unindent(`\n struct Gsplat {\n vec3 center;\n uint flags;\n vec3 scales;\n int index;\n vec4 quaternion;\n vec4 rgba;\n };\n const uint GSPLAT_FLAG_ACTIVE = 1u << 0u;\n\n bool isGsplatActive(uint flags) {\n return (flags & GSPLAT_FLAG_ACTIVE) != 0u;\n }\n`);\n\nexport const defineCovSplat = unindent(`\n struct CovSplat {\n vec3 center;\n uint flags;\n vec4 rgba;\n vec3 xxyyzz;\n int index;\n vec3 xyxzyz;\n };\n\n bool isCovSplatActive(uint flags) {\n return (flags & GSPLAT_FLAG_ACTIVE) != 0u;\n }\n`);\n\nexport const definePackedSplats = unindent(`\n struct PackedSplats {\n usampler2DArray textureArray;\n int numSplats;\n vec4 rgbMinMaxLnScaleMinMax;\n bool lodOpacity;\n };\n`);\n\nexport class NumPackedSplats extends UnaryOp<\n typeof TPackedSplats,\n \"int\",\n \"numSplats\"\n> {\n constructor({\n packedSplats,\n }: { packedSplats: DynoVal }) {\n super({ a: packedSplats, outKey: \"numSplats\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.numSplats} = ${inputs.a}.numSplats;`,\n ];\n }\n}\n\nconst defineReadPackedArray = unindent(`\n bool readPackedArray(usampler2DArray texture, int numSplats, vec4 rgbMinMaxLnScaleMinMax, int index, out Gsplat gsplat) {\n if ((index >= 0) && (index < numSplats)) {\n uvec4 packed = texelFetch(texture, splatTexCoord(index), 0);\n unpackSplatEncoding(packed, gsplat.center, gsplat.scales, gsplat.quaternion, gsplat.rgba, rgbMinMaxLnScaleMinMax);\n return true;\n } else {\n return false;\n }\n }\n`);\n\nexport class ReadPackedSplat\n extends Dyno<\n { packedSplats: typeof TPackedSplats; index: \"int\" },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n packedSplats,\n index,\n }: { packedSplats?: DynoVal; index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { packedSplats: TPackedSplats, index: \"int\" },\n outTypes: { gsplat: Gsplat },\n inputs: { packedSplats, index },\n globals: () => [defineGsplat, definePackedSplats, defineReadPackedArray],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = outputs;\n if (!gsplat) {\n return [];\n }\n const { packedSplats, index } = inputs;\n let statements: string[];\n if (packedSplats && index) {\n statements = unindentLines(`\n ${gsplat}.flags = 0u;\n if (readPackedArray(${packedSplats}.textureArray, ${packedSplats}.numSplats, ${packedSplats}.rgbMinMaxLnScaleMinMax, ${index}, ${gsplat})) {\n if (${packedSplats}.lodOpacity) {\n ${gsplat}.rgba.a = 2.0 * ${gsplat}.rgba.a;\n }\n bool zeroSize = all(equal(${gsplat}.scales, vec3(0.0, 0.0, 0.0)));\n ${gsplat}.flags = zeroSize ? 0u : GSPLAT_FLAG_ACTIVE;\n }\n `);\n } else {\n statements = [`${gsplat}.flags = 0u;`];\n }\n statements.push(`${gsplat}.index = ${index ?? \"0\"};`);\n return statements;\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport class ReadPackedSplatRange\n extends Dyno<\n {\n packedSplats: typeof TPackedSplats;\n index: \"int\";\n base: \"int\";\n count: \"int\";\n },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n packedSplats,\n index,\n base,\n count,\n }: {\n packedSplats?: DynoVal;\n index?: DynoVal<\"int\">;\n base?: DynoVal<\"int\">;\n count?: DynoVal<\"int\">;\n }) {\n super({\n inTypes: {\n packedSplats: TPackedSplats,\n index: \"int\",\n base: \"int\",\n count: \"int\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: { packedSplats, index, base, count },\n globals: () => [defineGsplat, definePackedSplats, defineReadPackedArray],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = outputs;\n if (!gsplat) {\n return [];\n }\n const { packedSplats, index, base, count } = inputs;\n let statements: string[];\n if (packedSplats && index && base && count) {\n statements = unindentLines(`\n ${gsplat}.flags = 0u;\n if (readPackedArray(${packedSplats}.textureArray, ${packedSplats}.numSplats, ${packedSplats}.rgbMinMaxLnScaleMinMax, ${index}, ${gsplat})) {\n if (${packedSplats}.lodOpacity) {\n ${gsplat}.rgba.a = 2.0 * ${gsplat}.rgba.a;\n }\n bool zeroSize = all(equal(${gsplat}.scales, vec3(0.0, 0.0, 0.0)));\n ${gsplat}.flags = zeroSize ? 0u : GSPLAT_FLAG_ACTIVE;\n }\n `);\n } else {\n statements = [`${gsplat}.flags = 0u;`];\n }\n statements.push(`${gsplat}.index = ${index ?? \"0\"};`);\n return statements;\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport const defineExtSplats = unindent(`\n struct ExtSplats {\n usampler2DArray textureArray1;\n usampler2DArray textureArray2;\n int numSplats;\n };\n`);\n\nexport class NumExtSplats extends UnaryOp<\n typeof TExtSplats,\n \"int\",\n \"numSplats\"\n> {\n constructor({ extSplats }: { extSplats: DynoVal }) {\n super({ a: extSplats, outKey: \"numSplats\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.numSplats} = ${inputs.a}.numSplats;`,\n ];\n }\n}\n\nconst defineReadExtArrays = unindent(`\n void readExtArrays(usampler2DArray texture1, usampler2DArray texture2, int numSplats, int index, out Gsplat gsplat) {\n gsplat.flags = 0u;\n if ((index >= 0) && (index < numSplats)) {\n ivec3 coord = splatTexCoord(index);\n uvec4 packed1 = texelFetch(texture1, coord, 0);\n uvec4 packed2 = texelFetch(texture2, coord, 0);\n unpackSplatExt(packed1, packed2, gsplat.center, gsplat.scales, gsplat.quaternion, gsplat.rgba);\n gsplat.flags = all(equal(gsplat.scales, vec3(0.0, 0.0, 0.0))) ? 0u : GSPLAT_FLAG_ACTIVE;\n gsplat.index = index;\n }\n }\n`);\n\nexport class ReadExtSplat\n extends Dyno<\n { extSplats: typeof TExtSplats; index: \"int\" },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n extSplats,\n index,\n }: { extSplats?: DynoVal; index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { extSplats: TExtSplats, index: \"int\" },\n outTypes: { gsplat: Gsplat },\n inputs: { extSplats, index },\n globals: () => [defineGsplat, defineExtSplats, defineReadExtArrays],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = outputs;\n if (!gsplat) {\n return [`${gsplat}.flags = 0u;`];\n }\n const { extSplats, index } = inputs;\n let statements: string[];\n if (extSplats && index) {\n return unindentLines(`\n readExtArrays(${extSplats}.textureArray1, ${extSplats}.textureArray2, ${extSplats}.numSplats, ${index}, ${gsplat});\n `);\n }\n return [`${gsplat}.flags = 0u;`];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport class NumCovSplats extends UnaryOp<\n typeof TCovSplats,\n \"int\",\n \"numSplats\"\n> {\n constructor({ covsplats }: { covsplats: DynoVal }) {\n super({ a: covsplats, outKey: \"numSplats\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.numSplats} = ${inputs.a}.numSplats;`,\n ];\n }\n}\n\nconst defineReadCovArrays = unindent(`\n void readCovArrays(usampler2DArray texture1, usampler2DArray texture2, int numSplats, int index, out CovSplat covsplat) {\n covsplat.flags = 0u;\n if ((index >= 0) && (index < numSplats)) {\n ivec3 coord = splatTexCoord(index);\n uvec4 packed1 = texelFetch(texture1, coord, 0);\n uvec4 packed2 = texelFetch(texture2, coord, 0);\n unpackSplatExtCov(packed1, packed2, covsplat.center, covsplat.rgba, covsplat.xxyyzz, covsplat.xyxzyz);\n covsplat.flags = (all(equal(covsplat.xxyyzz, vec3(0.0))) && all(equal(covsplat.xyxzyz, vec3(0.0)))) ? 0u : GSPLAT_FLAG_ACTIVE;\n gsplat.index = index;\n }\n }\n`);\n\nexport class ReadCovSplat\n extends Dyno<\n { covSplats: typeof TCovSplats; index: \"int\" },\n { covsplat: typeof CovSplat }\n >\n implements HasDynoOut\n{\n constructor({\n covSplats,\n index,\n }: { covSplats?: DynoVal; index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { covSplats: TCovSplats, index: \"int\" },\n outTypes: { covsplat: CovSplat },\n inputs: { covSplats, index },\n globals: () => [defineGsplat, defineCovSplat, defineReadCovArrays],\n statements: ({ inputs, outputs }) => {\n const { covsplat } = outputs;\n if (!covsplat) {\n return [`${covsplat}.flags = 0u;`];\n }\n const { covSplats, index } = inputs;\n let statements: string[];\n if (covSplats && index) {\n return unindentLines(`\n readCovArrays(${covSplats}.textureArray, ${covSplats}.numSplats, ${index}, ${covsplat});\n `);\n }\n return [`${covsplat}.flags = 0u;`];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"covsplat\");\n }\n}\n\nexport class GsplatToCovSplat extends Dyno<\n { gsplat: typeof Gsplat },\n { covsplat: typeof CovSplat }\n> {\n constructor({ gsplat }: { gsplat?: DynoVal }) {\n super({\n inTypes: { gsplat: Gsplat },\n outTypes: { covsplat: CovSplat },\n inputs: { gsplat },\n globals: () => [defineGsplat, defineCovSplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = inputs;\n const { covsplat } = outputs;\n if (!gsplat) {\n return [`${covsplat}.flags = 0u;`];\n }\n\n return unindentLines(`\n ${covsplat}.flags = 0u;\n if (isGsplatActive(${gsplat}.flags)) {\n ${covsplat}.flags = ${gsplat}.flags;\n ${covsplat}.index = ${gsplat}.index;\n ${covsplat}.rgba = ${gsplat}.rgba;\n ${covsplat}.center = ${gsplat}.center;\n mat3 m = scaleQuaternionToMatrix(${gsplat}.scales, ${gsplat}.quaternion);\n m = m * transpose(m);\n ${covsplat}.xxyyzz = vec3(m[0][0], m[1][1], m[2][2]);\n ${covsplat}.xyxzyz = vec3(m[0][1], m[0][2], m[1][2]);\n }\n `);\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"covsplat\");\n }\n}\n\nexport class SplitGsplat extends Dyno<\n { gsplat: typeof Gsplat },\n {\n flags: \"uint\";\n active: \"bool\";\n index: \"int\";\n center: \"vec3\";\n scales: \"vec3\";\n quaternion: \"vec4\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n }\n> {\n constructor({ gsplat }: { gsplat?: DynoVal }) {\n super({\n inTypes: { gsplat: Gsplat },\n outTypes: {\n flags: \"uint\",\n active: \"bool\",\n index: \"int\",\n center: \"vec3\",\n scales: \"vec3\",\n quaternion: \"vec4\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n inputs: { gsplat },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat } = inputs;\n const {\n flags,\n active,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = outputs;\n return [\n !flags ? null : `${flags} = ${gsplat ? `${gsplat}.flags` : \"0u\"};`,\n !active\n ? null\n : `${active} = isGsplatActive(${gsplat ? `${gsplat}.flags` : \"0u\"});`,\n !index ? null : `${index} = ${gsplat ? `${gsplat}.index` : \"0\"};`,\n !center\n ? null\n : `${center} = ${gsplat ? `${gsplat}.center` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !scales\n ? null\n : `${scales} = ${gsplat ? `${gsplat}.scales` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !quaternion\n ? null\n : `${quaternion} = ${gsplat ? `${gsplat}.quaternion` : \"vec4(0.0, 0.0, 0.0, 1.0)\"};`,\n !rgba\n ? null\n : `${rgba} = ${gsplat ? `${gsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\"};`,\n !rgb\n ? null\n : `${rgb} = ${gsplat ? `${gsplat}.rgba.rgb` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !opacity\n ? null\n : `${opacity} = ${gsplat ? `${gsplat}.rgba.a` : \"0.0\"};`,\n !x ? null : `${x} = ${gsplat ? `${gsplat}.center.x` : \"0.0\"};`,\n !y ? null : `${y} = ${gsplat ? `${gsplat}.center.y` : \"0.0\"};`,\n !z ? null : `${z} = ${gsplat ? `${gsplat}.center.z` : \"0.0\"};`,\n !r ? null : `${r} = ${gsplat ? `${gsplat}.rgba.r` : \"0.0\"};`,\n !g ? null : `${g} = ${gsplat ? `${gsplat}.rgba.g` : \"0.0\"};`,\n !b ? null : `${b} = ${gsplat ? `${gsplat}.rgba.b` : \"0.0\"};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class CombineGsplat\n extends Dyno<\n {\n gsplat: typeof Gsplat;\n flags: \"uint\";\n index: \"int\";\n center: \"vec3\";\n scales: \"vec3\";\n quaternion: \"vec4\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n }: {\n gsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n scales?: DynoVal<\"vec3\">;\n quaternion?: DynoVal<\"vec4\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n }) {\n super({\n inTypes: {\n gsplat: Gsplat,\n flags: \"uint\",\n index: \"int\",\n center: \"vec3\",\n scales: \"vec3\",\n quaternion: \"vec4\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: {\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat: outGsplat } = outputs;\n if (!outGsplat) {\n return [];\n }\n const {\n gsplat,\n flags,\n index,\n center,\n scales,\n quaternion,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = inputs;\n return [\n `${outGsplat}.flags = ${flags ?? (gsplat ? `${gsplat}.flags` : \"0u\")};`,\n `${outGsplat}.index = ${index ?? (gsplat ? `${gsplat}.index` : \"0\")};`,\n `${outGsplat}.center = ${center ?? (gsplat ? `${gsplat}.center` : \"vec3(0.0, 0.0, 0.0)\")};`,\n `${outGsplat}.scales = ${scales ?? (gsplat ? `${gsplat}.scales` : \"vec3(0.0, 0.0, 0.0)\")};`,\n `${outGsplat}.quaternion = ${quaternion ?? (gsplat ? `${gsplat}.quaternion` : \"vec4(0.0, 0.0, 0.0, 1.0)\")};`,\n `${outGsplat}.rgba = ${rgba ?? (gsplat ? `${gsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\")};`,\n !rgb ? null : `${outGsplat}.rgba.rgb = ${rgb};`,\n !opacity ? null : `${outGsplat}.rgba.a = ${opacity};`,\n !x ? null : `${outGsplat}.center.x = ${x};`,\n !y ? null : `${outGsplat}.center.y = ${y};`,\n !z ? null : `${outGsplat}.center.z = ${z};`,\n !r ? null : `${outGsplat}.rgba.r = ${r};`,\n !g ? null : `${outGsplat}.rgba.g = ${g};`,\n !b ? null : `${outGsplat}.rgba.b = ${b};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport const defineGsplatNormal = unindent(`\n vec3 gsplatNormal(vec3 scales, vec4 quaternion) {\n float minScale = min(scales.x, min(scales.y, scales.z));\n vec3 normal;\n if (scales.z == minScale) {\n normal = vec3(0.0, 0.0, 1.0);\n } else if (scales.y == minScale) {\n normal = vec3(0.0, 1.0, 0.0);\n } else {\n normal = vec3(1.0, 0.0, 0.0);\n }\n return quatVec(quaternion, normal);\n }\n`);\n\nexport class GsplatNormal extends UnaryOp {\n constructor({ gsplat }: { gsplat: DynoVal }) {\n super({ a: gsplat, outKey: \"normal\", outTypeFunc: () => \"vec3\" });\n this.globals = () => [defineGsplat, defineGsplatNormal];\n this.statements = ({ inputs, outputs }) => [\n `${outputs.normal} = gsplatNormal(${inputs.a}.scales, ${inputs.a}.quaternion);`,\n ];\n }\n}\n\nexport class TransformGsplat\n extends Dyno<\n {\n gsplat: typeof Gsplat;\n scale: \"float\";\n rotate: \"vec4\";\n translate: \"vec3\";\n recolor: \"vec4\";\n },\n { gsplat: typeof Gsplat }\n >\n implements HasDynoOut\n{\n constructor({\n gsplat,\n scale,\n rotate,\n translate,\n recolor,\n }: {\n gsplat?: DynoVal;\n scale?: DynoVal<\"float\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n recolor?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: {\n gsplat: Gsplat,\n scale: \"float\",\n rotate: \"vec4\",\n translate: \"vec3\",\n recolor: \"vec4\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: { gsplat, scale, rotate, translate, recolor },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs, compile }) => {\n const { gsplat } = outputs;\n if (!gsplat || !inputs.gsplat) {\n return [];\n }\n const { scale, rotate, translate, recolor } = inputs;\n const indent = compile.indent;\n const statements = [\n `${gsplat} = ${inputs.gsplat};`,\n `if (isGsplatActive(${gsplat}.flags)) {`,\n\n scale ? `${indent}${gsplat}.center *= ${scale};` : null,\n rotate\n ? `${indent}${gsplat}.center = quatVec(${rotate}, ${gsplat}.center);`\n : null,\n translate ? `${indent}${gsplat}.center += ${translate};` : null,\n\n scale ? `${indent}${gsplat}.scales *= ${scale};` : null,\n\n rotate\n ? `${indent}${gsplat}.quaternion = quatQuat(${rotate}, ${gsplat}.quaternion);`\n : null,\n recolor ? `${indent}${gsplat}.rgba *= ${recolor};` : null,\n \"}\",\n ].filter(Boolean) as string[];\n return statements;\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"gsplat\");\n }\n}\n\nexport const splitCovSplat = (covsplat: DynoVal) =>\n new SplitCovSplat({ covsplat });\nexport const combineCovSplat = ({\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n}: {\n covsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n}): DynoVal => {\n return new CombineCovSplat({\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n });\n};\n\nexport class SplitCovSplat extends Dyno<\n { covsplat: typeof CovSplat },\n {\n flags: \"uint\";\n active: \"bool\";\n index: \"int\";\n center: \"vec3\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n }\n> {\n constructor({ covsplat }: { covsplat?: DynoVal }) {\n super({\n inTypes: { covsplat: CovSplat },\n outTypes: {\n flags: \"uint\",\n active: \"bool\",\n index: \"int\",\n center: \"vec3\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n inputs: { covsplat },\n globals: () => [defineCovSplat],\n statements: ({ inputs, outputs }) => {\n const { covsplat } = inputs;\n const {\n flags,\n active,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = outputs;\n return [\n !flags\n ? null\n : `${flags} = ${covsplat ? `${covsplat}.flags` : \"0u\"};`,\n !active\n ? null\n : `${active} = isCovSplatActive(${covsplat ? `${covsplat}.flags` : \"0u\"});`,\n !index ? null : `${index} = ${covsplat ? `${covsplat}.index` : \"0\"};`,\n !center\n ? null\n : `${center} = ${covsplat ? `${covsplat}.center` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !rgba\n ? null\n : `${rgba} = ${covsplat ? `${covsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\"};`,\n !rgb\n ? null\n : `${rgb} = ${covsplat ? `${covsplat}.rgba.rgb` : \"vec3(0.0, 0.0, 0.0)\"};`,\n !opacity\n ? null\n : `${opacity} = ${covsplat ? `${covsplat}.rgba.a` : \"0.0\"};`,\n !x ? null : `${x} = ${covsplat ? `${covsplat}.center.x` : \"0.0\"};`,\n !y ? null : `${y} = ${covsplat ? `${covsplat}.center.y` : \"0.0\"};`,\n !z ? null : `${z} = ${covsplat ? `${covsplat}.center.z` : \"0.0\"};`,\n !r ? null : `${r} = ${covsplat ? `${covsplat}.rgba.r` : \"0.0\"};`,\n !g ? null : `${g} = ${covsplat ? `${covsplat}.rgba.g` : \"0.0\"};`,\n !b ? null : `${b} = ${covsplat ? `${covsplat}.rgba.b` : \"0.0\"};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class CombineCovSplat\n extends Dyno<\n {\n covsplat: typeof CovSplat;\n flags: \"uint\";\n index: \"int\";\n center: \"vec3\";\n rgba: \"vec4\";\n rgb: \"vec3\";\n opacity: \"float\";\n x: \"float\";\n y: \"float\";\n z: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n },\n { covsplat: typeof CovSplat }\n >\n implements HasDynoOut\n{\n constructor({\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n }: {\n covsplat?: DynoVal;\n flags?: DynoVal<\"uint\">;\n index?: DynoVal<\"int\">;\n center?: DynoVal<\"vec3\">;\n rgba?: DynoVal<\"vec4\">;\n rgb?: DynoVal<\"vec3\">;\n opacity?: DynoVal<\"float\">;\n x?: DynoVal<\"float\">;\n y?: DynoVal<\"float\">;\n z?: DynoVal<\"float\">;\n r?: DynoVal<\"float\">;\n g?: DynoVal<\"float\">;\n b?: DynoVal<\"float\">;\n }) {\n super({\n inTypes: {\n covsplat: CovSplat,\n flags: \"uint\",\n index: \"int\",\n center: \"vec3\",\n rgba: \"vec4\",\n rgb: \"vec3\",\n opacity: \"float\",\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n },\n outTypes: { covsplat: CovSplat },\n inputs: {\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n },\n globals: () => [defineCovSplat],\n statements: ({ inputs, outputs }) => {\n const { covsplat: outCovSplat } = outputs;\n if (!outCovSplat) {\n return [];\n }\n const {\n covsplat,\n flags,\n index,\n center,\n rgba,\n rgb,\n opacity,\n x,\n y,\n z,\n r,\n g,\n b,\n } = inputs;\n return [\n `${outCovSplat}.flags = ${flags ?? (covsplat ? `${covsplat}.flags` : \"0u\")};`,\n `${outCovSplat}.index = ${index ?? (covsplat ? `${covsplat}.index` : \"0\")};`,\n `${outCovSplat}.center = ${center ?? (covsplat ? `${covsplat}.center` : \"vec3(0.0, 0.0, 0.0)\")};`,\n `${outCovSplat}.rgba = ${rgba ?? (covsplat ? `${covsplat}.rgba` : \"vec4(0.0, 0.0, 0.0, 0.0)\")};`,\n !rgb ? null : `${outCovSplat}.rgba.rgb = ${rgb};`,\n !opacity ? null : `${outCovSplat}.rgba.a = ${opacity};`,\n !x ? null : `${outCovSplat}.center.x = ${x};`,\n !y ? null : `${outCovSplat}.center.y = ${y};`,\n !z ? null : `${outCovSplat}.center.z = ${z};`,\n !r ? null : `${outCovSplat}.rgba.r = ${r};`,\n !g ? null : `${outCovSplat}.rgba.g = ${g};`,\n !b ? null : `${outCovSplat}.rgba.b = ${b};`,\n `${outCovSplat}.xxyyzz = ${covsplat ? `${covsplat}.xxyyzz` : \"vec3(0.0, 0.0, 0.0)\"};`,\n `${outCovSplat}.xyxzyz = ${covsplat ? `${covsplat}.xyxzyz` : \"vec3(0.0, 0.0, 0.0)\"};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, \"covsplat\");\n }\n}\n\nexport class SplatTexCoord\n extends Dyno<{ index: \"int\" }, { coord: \"ivec3\" }>\n implements HasDynoOut<\"ivec3\">\n{\n constructor({ index }: { index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { index: \"int\" },\n outTypes: { coord: \"ivec3\" },\n inputs: { index },\n statements: ({ inputs, outputs }) => {\n const { index } = inputs;\n const { coord } = outputs;\n if (!index || !coord) {\n return [];\n }\n return [`${coord} = splatTexCoord(${index});`];\n },\n });\n }\n\n dynoOut(): DynoValue<\"ivec3\"> {\n return new DynoOutput(this, \"coord\");\n }\n}\n\nexport class PagedSplatTexCoord\n extends Dyno<{ index: \"int\" }, { coord: \"ivec3\" }>\n implements HasDynoOut<\"ivec3\">\n{\n constructor({ index }: { index?: DynoVal<\"int\"> }) {\n super({\n inTypes: { index: \"int\" },\n outTypes: { coord: \"ivec3\" },\n inputs: { index },\n statements: ({ inputs, outputs }) => {\n const { index } = inputs;\n const { coord } = outputs;\n if (!index || !coord) {\n return [];\n }\n return [`${coord} = pagedSplatTexCoord(${index});`];\n },\n });\n }\n\n dynoOut(): DynoValue<\"ivec3\"> {\n return new DynoOutput(this, \"coord\");\n }\n}\n","import * as THREE from \"three\";\nimport { Dyno, unindentLines } from \"./base\";\nimport { CovSplat, Gsplat, defineCovSplat, defineGsplat } from \"./splats\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n} from \"./value\";\n\nexport const outputPackedSplat = (\n gsplat: DynoVal,\n rgbMinMaxLnScaleMinMax: DynoVal<\"vec4\">,\n) => new OutputPackedSplat({ gsplat, rgbMinMaxLnScaleMinMax });\n\nexport const outputCovSplat = (\n covsplat: DynoVal,\n rgbMinMaxLnScaleMinMax: DynoVal<\"vec4\">,\n) => new OutputCovSplat({ covsplat, rgbMinMaxLnScaleMinMax });\n\nexport const outputExtendedSplat = (gsplat: DynoVal) =>\n new OutputExtendedSplat({ gsplat });\n\nexport const outputExtCovSplat = (covsplat: DynoVal) =>\n new OutputExtCovSplat({ covsplat });\n\nexport const outputSplatDepth = (\n gsplat: DynoVal,\n viewCenter: DynoVal<\"vec3\">,\n viewDir: DynoVal<\"vec3\">,\n sortRadial: DynoVal<\"bool\">,\n) => new OutputSplatDepth({ gsplat, viewCenter, viewDir, sortRadial });\n\nexport const outputCovSplatDepth = (\n covsplat: DynoVal,\n viewCenter: DynoVal<\"vec3\">,\n viewDir: DynoVal<\"vec3\">,\n sortRadial: DynoVal<\"bool\">,\n) => new OutputCovSplatDepth({ covsplat, viewCenter, viewDir, sortRadial });\n\nexport const outputRgba8 = (rgba8: DynoVal<\"vec4\">) =>\n new OutputRgba8({ rgba8 });\n\nexport class OutputPackedSplat extends Dyno<\n { gsplat: typeof Gsplat; rgbMinMaxLnScaleMinMax: \"vec4\" },\n Record\n> {\n constructor({\n gsplat,\n rgbMinMaxLnScaleMinMax,\n }: {\n gsplat?: DynoVal;\n rgbMinMaxLnScaleMinMax?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: { gsplat: Gsplat, rgbMinMaxLnScaleMinMax: \"vec4\" },\n inputs: { gsplat, rgbMinMaxLnScaleMinMax },\n globals: () => [defineGsplat],\n statements: ({ inputs, outputs }) => {\n const { gsplat, rgbMinMaxLnScaleMinMax } = inputs;\n if (gsplat && rgbMinMaxLnScaleMinMax) {\n return unindentLines(`\n if (isGsplatActive(${gsplat}.flags)) {\n target = packSplatEncoding(${gsplat}.center, ${gsplat}.scales, ${gsplat}.quaternion, ${gsplat}.rgba, ${rgbMinMaxLnScaleMinMax});\n } else {\n target = uvec4(0u, 0u, 0u, 0u);\n }\n `);\n }\n return [\"target = uvec4(0u, 0u, 0u, 0u);\"];\n },\n });\n }\n}\n\nexport class OutputCovSplat extends Dyno<\n { covsplat: typeof CovSplat; rgbMinMaxLnScaleMinMax: \"vec4\" },\n Record\n> {\n constructor({\n covsplat,\n rgbMinMaxLnScaleMinMax,\n }: {\n covsplat?: DynoVal;\n rgbMinMaxLnScaleMinMax?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: { covsplat: CovSplat, rgbMinMaxLnScaleMinMax: \"vec4\" },\n inputs: { covsplat, rgbMinMaxLnScaleMinMax },\n globals: () => [defineCovSplat],\n statements: ({ inputs }) => {\n const { covsplat, rgbMinMaxLnScaleMinMax } = inputs;\n if (covsplat && rgbMinMaxLnScaleMinMax) {\n return unindentLines(`\n if (isCovSplatActive(${covsplat}.flags)) {\n target = packSplatCovEncoding(${covsplat}.center, ${covsplat}.rgba, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz, ${rgbMinMaxLnScaleMinMax});\n } else {\n target = uvec4(0u);\n }\n `);\n }\n return [\"target = uvec4(0u);\"];\n },\n });\n }\n}\n\nexport class OutputExtendedSplat extends Dyno<\n { gsplat: typeof Gsplat },\n Record\n> {\n constructor({\n gsplat,\n }: {\n gsplat?: DynoVal;\n }) {\n super({\n inTypes: { gsplat: Gsplat },\n inputs: { gsplat },\n globals: () => [defineGsplat],\n statements: ({ inputs }) => {\n const { gsplat } = inputs;\n if (gsplat) {\n return unindentLines(`\n if (isGsplatActive(${gsplat}.flags)) {\n packSplatExt(target, target2, ${gsplat}.center, ${gsplat}.scales, ${gsplat}.quaternion, ${gsplat}.rgba);\n } else {\n target = uvec4(0u);\n target2 = uvec4(0u);\n }\n `);\n }\n return [\"target = uvec4(0u);\", \"target2 = uvec4(0u);\"];\n },\n });\n }\n}\n\nexport class OutputExtCovSplat extends Dyno<\n { covsplat: typeof CovSplat },\n Record\n> {\n constructor({\n covsplat,\n }: {\n covsplat?: DynoVal;\n }) {\n super({\n inTypes: { covsplat: CovSplat },\n inputs: { covsplat },\n globals: () => [defineCovSplat],\n statements: ({ inputs }) => {\n const { covsplat } = inputs;\n if (covsplat) {\n return unindentLines(`\n if (isCovSplatActive(${covsplat}.flags)) {\n packSplatExtCov(target, target2, ${covsplat}.center, ${covsplat}.rgba, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz);\n } else {\n target = uvec4(0u);\n target2 = uvec4(0u);\n }\n `);\n }\n return [\"target = uvec4(0u);\", \"target2 = uvec4(0u);\"];\n },\n });\n }\n}\n\nclass OutputSplatDepth extends Dyno<\n {\n gsplat: typeof Gsplat;\n viewCenter: \"vec3\";\n viewDir: \"vec3\";\n sortRadial: \"bool\";\n },\n Record\n> {\n constructor({\n gsplat,\n viewCenter,\n viewDir,\n sortRadial,\n }: {\n gsplat: DynoVal;\n viewCenter: DynoVal<\"vec3\">;\n viewDir: DynoVal<\"vec3\">;\n sortRadial: DynoVal<\"bool\">;\n }) {\n super({\n inTypes: {\n gsplat: Gsplat,\n viewCenter: \"vec3\",\n viewDir: \"vec3\",\n sortRadial: \"bool\",\n },\n inputs: { gsplat, viewCenter, viewDir, sortRadial },\n globals: () => [defineGsplat],\n statements: ({ inputs }) => {\n const { gsplat, viewCenter, viewDir, sortRadial } = inputs;\n if (gsplat && viewCenter && viewDir && sortRadial) {\n return unindentLines(`\n float metric = 1.0 / 0.0;\n if (isGsplatActive(${gsplat}.flags)) {\n vec3 center = ${gsplat}.center - ${viewCenter};\n if (${sortRadial}) {\n metric = length(center);\n } else {\n float bias = 100.0; // reduce popping\n metric = dot(center, ${viewDir}) + bias;\n }\n }\n target3 = floatToVec4(metric);\n `);\n }\n return [];\n },\n });\n }\n}\n\nclass OutputCovSplatDepth extends Dyno<\n {\n covsplat: typeof CovSplat;\n viewCenter: \"vec3\";\n viewDir: \"vec3\";\n sortRadial: \"bool\";\n },\n Record\n> {\n constructor({\n covsplat,\n viewCenter,\n viewDir,\n sortRadial,\n }: {\n covsplat: DynoVal;\n viewCenter: DynoVal<\"vec3\">;\n viewDir: DynoVal<\"vec3\">;\n sortRadial: DynoVal<\"bool\">;\n }) {\n super({\n inTypes: {\n covsplat: CovSplat,\n viewCenter: \"vec3\",\n viewDir: \"vec3\",\n sortRadial: \"bool\",\n },\n inputs: { covsplat, viewCenter, viewDir, sortRadial },\n globals: () => [defineCovSplat],\n statements: ({ inputs }) => {\n const { covsplat, viewCenter, viewDir, sortRadial } = inputs;\n if (covsplat && viewCenter && viewDir && sortRadial) {\n return unindentLines(`\n float metric = 1.0 / 0.0;\n if (isCovSplatActive(${covsplat}.flags)) {\n vec3 center = ${covsplat}.center - ${viewCenter};\n if (${sortRadial}) {\n metric = length(center);\n } else {\n float bias = 100.0; // reduce popping\n metric = dot(center, ${viewDir}) + bias;\n }\n }\n target3 = floatToVec4(metric);\n `);\n }\n return [];\n },\n });\n }\n}\n\nexport class OutputRgba8\n extends Dyno<{ rgba8: \"vec4\" }, { rgba8: \"vec4\" }>\n implements HasDynoOut<\"vec4\">\n{\n constructor({ rgba8 }: { rgba8?: DynoVal<\"vec4\"> }) {\n super({\n inTypes: { rgba8: \"vec4\" },\n inputs: { rgba8 },\n statements: ({ inputs, outputs }) => [\n `target = ${inputs.rgba8 ?? \"vec4(0.0, 0.0, 0.0, 0.0)\"};`,\n ],\n });\n }\n\n dynoOut(): DynoValue<\"vec4\"> {\n return new DynoOutput(this, \"rgba8\");\n }\n}\n","import type { IUniform } from \"three\";\nimport { Dyno, dynoDeclare } from \"./base\";\nimport type { DynoJsType, DynoType } from \"./types\";\nimport { DynoOutput, type DynoValue, type HasDynoOut } from \"./value\";\n\nexport const uniform = >(\n key: string,\n type: DynoType,\n value: V,\n) => new DynoUniform({ key, type, value });\nexport const dynoBool = (value = false, key?: string) =>\n new DynoBool({ key, value });\nexport const dynoUint = (value = 0, key?: string) =>\n new DynoUint({ key, value });\nexport const dynoInt = (value = 0, key?: string) => new DynoInt({ key, value });\nexport const dynoFloat = (value = 0.0, key?: string) =>\n new DynoFloat({ key, value });\n\nexport const dynoBvec2 = >(\n value: V,\n key?: string,\n) => new DynoBvec2({ key, value });\nexport const dynoUvec2 = >(\n value: V,\n key?: string,\n) => new DynoUvec2({ key, value });\nexport const dynoIvec2 = >(\n value: V,\n key?: string,\n) => new DynoIvec2({ key, value });\nexport const dynoVec2 = >(\n value: V,\n key?: string,\n) => new DynoVec2({ key, value });\n\nexport const dynoBvec3 = >(\n value: V,\n key?: string,\n) => new DynoBvec3({ key, value });\nexport const dynoUvec3 = >(\n value: V,\n key?: string,\n) => new DynoUvec3({ key, value });\nexport const dynoIvec3 = >(\n value: V,\n key?: string,\n) => new DynoIvec3({ key, value });\nexport const dynoVec3 = >(\n value: V,\n key?: string,\n) => new DynoVec3({ key, value });\n\nexport const dynoBvec4 = >(\n value: V,\n key?: string,\n) => new DynoBvec4({ key, value });\nexport const dynoUvec4 = >(\n value: V,\n key?: string,\n) => new DynoUvec4({ key, value });\nexport const dynoIvec4 = >(\n value: V,\n key?: string,\n) => new DynoIvec4({ key, value });\nexport const dynoVec4 = >(\n value: V,\n key?: string,\n) => new DynoVec4({ key, value });\n\nexport const dynoMat2 = >(\n value: V,\n key?: string,\n) => new DynoMat2({ key, value });\nexport const dynoMat2x2 = >(\n value: V,\n key?: string,\n) => new DynoMat2x2({ key, value });\nexport const dynoMat2x3 = >(\n value: V,\n key?: string,\n) => new DynoMat2x3({ key, value });\nexport const dynoMat2x4 = >(\n value: V,\n key?: string,\n) => new DynoMat2x4({ key, value });\n\nexport const dynoMat3 = >(\n value: V,\n key?: string,\n) => new DynoMat3({ key, value });\nexport const dynoMat3x2 = >(\n value: V,\n key?: string,\n) => new DynoMat3x2({ key, value });\nexport const dynoMat3x3 = >(\n value: V,\n key?: string,\n) => new DynoMat3x3({ key, value });\nexport const dynoMat3x4 = >(\n value: V,\n key?: string,\n) => new DynoMat3x4({ key, value });\n\nexport const dynoMat4 = >(\n value: V,\n key?: string,\n) => new DynoMat4({ key, value });\nexport const dynoMat4x2 = >(\n value: V,\n key?: string,\n) => new DynoMat4x2({ key, value });\nexport const dynoMat4x3 = >(\n value: V,\n key?: string,\n) => new DynoMat4x3({ key, value });\nexport const dynoMat4x4 = >(\n value: V,\n key?: string,\n) => new DynoMat4x4({ key, value });\n\nexport const dynoUsampler2D = >(\n value: V,\n key?: string,\n) => new DynoUsampler2D({ key, value });\nexport const dynoIsampler2D = >(\n value: V,\n key?: string,\n) => new DynoIsampler2D({ key, value });\nexport const dynoSampler2D = >(\n value: V,\n key?: string,\n) => new DynoSampler2D({ key, value });\n\nexport const dynoUsampler2DArray = >(\n value: V,\n key?: string,\n) => new DynoUsampler2DArray({ key, value });\nexport const dynoIsampler2DArray = >(\n key: string,\n value: V,\n) => new DynoIsampler2DArray({ key, value });\nexport const dynoSampler2DArray = >(\n value: V,\n key?: string,\n) => new DynoSampler2DArray({ key, value });\n\nexport const dynoUsampler3D = >(\n value: V,\n key?: string,\n) => new DynoUsampler3D({ key, value });\nexport const dynoIsampler3D = >(\n value: V,\n key?: string,\n) => new DynoIsampler3D({ key, value });\nexport const dynoSampler3D = >(\n value: V,\n key?: string,\n) => new DynoSampler3D({ key, value });\n\nexport const dynoUsamplerCube = >(\n value: V,\n key?: string,\n) => new DynoUsamplerCube({ key, value });\nexport const dynoIsamplerCube = >(\n value: V,\n key?: string,\n) => new DynoIsamplerCube({ key, value });\nexport const dynoSamplerCube = >(\n value: V,\n key?: string,\n) => new DynoSamplerCube({ key, value });\n\nexport const dynoSampler2DShadow = >(\n value: V,\n key?: string,\n) => new DynoSampler2DShadow({ key, value });\nexport const dynoSampler2DArrayShadow = <\n V extends DynoJsType<\"sampler2DArrayShadow\">,\n>(\n value: V,\n key?: string,\n) => new DynoSampler2DArrayShadow({ key, value });\nexport const dynoSamplerCubeShadow = <\n V extends DynoJsType<\"samplerCubeShadow\">,\n>(\n value: V,\n key?: string,\n) => new DynoSamplerCubeShadow({ key, value });\n\nexport class DynoUniform<\n T extends DynoType,\n K extends string = \"value\",\n V extends DynoJsType = DynoJsType,\n >\n extends Dyno, { [key in K]: T }>\n implements HasDynoOut\n{\n public type: T;\n public count?: number;\n public outKey: K;\n public value: V;\n public uniform: { value: V; type?: string };\n\n constructor({\n key,\n type,\n count,\n value,\n update,\n globals,\n }: {\n key?: K;\n type: T;\n count?: number;\n value: V;\n update?: (value: V) => V | undefined;\n globals?: ({\n inputs,\n outputs,\n }: { inputs: unknown; outputs: { [key in K]?: string } }) => string[];\n }) {\n key = (key ?? \"value\") as K;\n super({\n outTypes: { [key]: type } as { [key in K]: T },\n update: () => {\n if (update) {\n const value = update(this.value);\n if (value !== undefined) {\n this.value = value;\n }\n }\n this.uniform.value = this.value;\n },\n generate: ({ inputs, outputs }) => {\n const allGlobals = globals?.({ inputs, outputs }) ?? [];\n const uniforms: Record = {};\n const name = outputs[key];\n if (name) {\n allGlobals.push(`uniform ${dynoDeclare(name, type, count)};`);\n uniforms[name] = this.uniform;\n }\n return { globals: allGlobals, uniforms };\n },\n });\n this.type = type;\n this.count = count;\n this.value = value;\n this.uniform = { value };\n this.outKey = key;\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput(this, this.outKey);\n }\n}\n\nexport class DynoBool extends DynoUniform<\n \"bool\",\n K,\n boolean\n> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: boolean;\n update?: (value: boolean) => boolean | undefined;\n }) {\n super({ key, type: \"bool\", value, update });\n }\n}\n\nexport class DynoUint extends DynoUniform<\"uint\", K, number> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: number;\n update?: (value: number) => number | undefined;\n }) {\n super({ key, type: \"uint\", value, update });\n }\n}\n\nexport class DynoInt extends DynoUniform<\"int\", K, number> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: number;\n update?: (value: number) => number | undefined;\n }) {\n super({ key, type: \"int\", value, update });\n }\n}\n\nexport class DynoFloat extends DynoUniform<\n \"float\",\n K,\n number\n> {\n constructor({\n key,\n value,\n update,\n }: {\n key?: K;\n value: number;\n update?: (value: number) => number | undefined;\n }) {\n super({ key, type: \"float\", value, update });\n }\n}\n\nexport class DynoBvec2<\n K extends string,\n V extends DynoJsType<\"bvec2\">,\n> extends DynoUniform<\"bvec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"bvec2\", value, update });\n }\n}\n\nexport class DynoUvec2<\n K extends string,\n V extends DynoJsType<\"uvec2\">,\n> extends DynoUniform<\"uvec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"uvec2\", value, update });\n }\n}\n\nexport class DynoIvec2<\n K extends string,\n V extends DynoJsType<\"ivec2\">,\n> extends DynoUniform<\"ivec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"ivec2\", value, update });\n }\n}\n\nexport class DynoVec2<\n K extends string,\n V extends DynoJsType<\"vec2\">,\n> extends DynoUniform<\"vec2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"vec2\", value, update });\n }\n}\n\nexport class DynoBvec3<\n K extends string,\n V extends DynoJsType<\"bvec3\">,\n> extends DynoUniform<\"bvec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"bvec3\", value, update });\n }\n}\n\nexport class DynoUvec3<\n V extends DynoJsType<\"uvec3\">,\n K extends string = \"value\",\n> extends DynoUniform<\"uvec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"uvec3\", value, update });\n }\n}\n\nexport class DynoIvec3<\n V extends DynoJsType<\"ivec3\">,\n K extends string = \"value\",\n> extends DynoUniform<\"ivec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"ivec3\", value, update });\n }\n}\n\nexport class DynoVec3<\n V extends DynoJsType<\"vec3\">,\n K extends string = \"value\",\n> extends DynoUniform<\"vec3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"vec3\", value, update });\n }\n}\n\nexport class DynoBvec4<\n K extends string,\n V extends DynoJsType<\"bvec4\">,\n> extends DynoUniform<\"bvec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"bvec4\", value, update });\n }\n}\n\nexport class DynoUvec4<\n K extends string,\n V extends DynoJsType<\"uvec4\">,\n> extends DynoUniform<\"uvec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"uvec4\", value, update });\n }\n}\n\nexport class DynoIvec4<\n K extends string,\n V extends DynoJsType<\"ivec4\">,\n> extends DynoUniform<\"ivec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"ivec4\", value, update });\n }\n}\n\nexport class DynoVec4<\n V extends DynoJsType<\"vec4\">,\n K extends string = \"value\",\n> extends DynoUniform<\"vec4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"vec4\", value, update });\n }\n}\n\nexport class DynoMat2<\n K extends string,\n V extends DynoJsType<\"mat2\">,\n> extends DynoUniform<\"mat2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2\", value, update });\n }\n}\n\nexport class DynoMat2x2<\n K extends string,\n V extends DynoJsType<\"mat2x2\">,\n> extends DynoUniform<\"mat2x2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2x2\", value, update });\n }\n}\n\nexport class DynoMat2x3<\n K extends string,\n V extends DynoJsType<\"mat2x3\">,\n> extends DynoUniform<\"mat2x3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2x3\", value, update });\n }\n}\n\nexport class DynoMat2x4<\n K extends string,\n V extends DynoJsType<\"mat2x4\">,\n> extends DynoUniform<\"mat2x4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat2x4\", value, update });\n }\n}\n\nexport class DynoMat3<\n K extends string,\n V extends DynoJsType<\"mat3\">,\n> extends DynoUniform<\"mat3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3\", value, update });\n }\n}\n\nexport class DynoMat3x2<\n K extends string,\n V extends DynoJsType<\"mat3x2\">,\n> extends DynoUniform<\"mat3x2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3x2\", value, update });\n }\n}\n\nexport class DynoMat3x3<\n K extends string,\n V extends DynoJsType<\"mat3x3\">,\n> extends DynoUniform<\"mat3x3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3x3\", value, update });\n }\n}\n\nexport class DynoMat3x4<\n K extends string,\n V extends DynoJsType<\"mat3x4\">,\n> extends DynoUniform<\"mat3x4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat3x4\", value, update });\n }\n}\n\nexport class DynoMat4<\n K extends string,\n V extends DynoJsType<\"mat4\">,\n> extends DynoUniform<\"mat4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4\", value, update });\n }\n}\n\nexport class DynoMat4x2<\n K extends string,\n V extends DynoJsType<\"mat4x2\">,\n> extends DynoUniform<\"mat4x2\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4x2\", value, update });\n }\n}\n\nexport class DynoMat4x3<\n K extends string,\n V extends DynoJsType<\"mat4x3\">,\n> extends DynoUniform<\"mat4x3\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4x3\", value, update });\n }\n}\n\nexport class DynoMat4x4<\n K extends string,\n V extends DynoJsType<\"mat4x4\">,\n> extends DynoUniform<\"mat4x4\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"mat4x4\", value, update });\n }\n}\n\nexport class DynoUsampler2D<\n K extends string,\n V extends DynoJsType<\"usampler2D\">,\n> extends DynoUniform<\"usampler2D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usampler2D\", value, update });\n }\n}\n\nexport class DynoIsampler2D<\n K extends string,\n V extends DynoJsType<\"isampler2D\">,\n> extends DynoUniform<\"isampler2D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isampler2D\", value, update });\n }\n}\n\nexport class DynoSampler2D<\n K extends string,\n V extends DynoJsType<\"sampler2D\">,\n> extends DynoUniform<\"sampler2D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2D\", value, update });\n }\n}\n\nexport class DynoUsampler2DArray<\n K extends string,\n V extends DynoJsType<\"usampler2DArray\">,\n> extends DynoUniform<\"usampler2DArray\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usampler2DArray\", value, update });\n }\n}\n\nexport class DynoIsampler2DArray<\n K extends string,\n V extends DynoJsType<\"isampler2DArray\">,\n> extends DynoUniform<\"isampler2DArray\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isampler2DArray\", value, update });\n }\n}\n\nexport class DynoSampler2DArray<\n K extends string,\n V extends DynoJsType<\"sampler2DArray\">,\n> extends DynoUniform<\"sampler2DArray\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2DArray\", value, update });\n }\n}\n\nexport class DynoUsampler3D<\n K extends string,\n V extends DynoJsType<\"usampler3D\">,\n> extends DynoUniform<\"usampler3D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usampler3D\", value, update });\n }\n}\n\nexport class DynoIsampler3D<\n K extends string,\n V extends DynoJsType<\"isampler3D\">,\n> extends DynoUniform<\"isampler3D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isampler3D\", value, update });\n }\n}\n\nexport class DynoSampler3D<\n K extends string,\n V extends DynoJsType<\"sampler3D\">,\n> extends DynoUniform<\"sampler3D\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler3D\", value, update });\n }\n}\n\nexport class DynoUsamplerCube<\n K extends string,\n V extends DynoJsType<\"usamplerCube\">,\n> extends DynoUniform<\"usamplerCube\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"usamplerCube\", value, update });\n }\n}\n\nexport class DynoIsamplerCube<\n K extends string,\n V extends DynoJsType<\"isamplerCube\">,\n> extends DynoUniform<\"isamplerCube\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"isamplerCube\", value, update });\n }\n}\n\nexport class DynoSamplerCube<\n K extends string,\n V extends DynoJsType<\"samplerCube\">,\n> extends DynoUniform<\"samplerCube\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"samplerCube\", value, update });\n }\n}\n\nexport class DynoSampler2DShadow<\n K extends string,\n V extends DynoJsType<\"sampler2DShadow\">,\n> extends DynoUniform<\"sampler2DShadow\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2DShadow\", value, update });\n }\n}\n\nexport class DynoSampler2DArrayShadow<\n K extends string,\n V extends DynoJsType<\"sampler2DArrayShadow\">,\n> extends DynoUniform<\"sampler2DArrayShadow\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"sampler2DArrayShadow\", value, update });\n }\n}\n\nexport class DynoSamplerCubeShadow<\n K extends string,\n V extends DynoJsType<\"samplerCubeShadow\">,\n> extends DynoUniform<\"samplerCubeShadow\", K, V> {\n constructor({\n key,\n value,\n update,\n }: { key?: K; value: V; update?: (value: V) => V | undefined }) {\n super({ key, type: \"samplerCubeShadow\", value, update });\n }\n}\n","import * as THREE from \"three\";\n\nimport { IDENT_VERTEX_SHADER } from \"../utils\";\nimport { Compilation, type Dyno, type IOTypes } from \"./base\";\n\nexport class DynoProgram {\n graph: Dyno;\n template: DynoProgramTemplate;\n inputs: Record;\n outputs: Record;\n shader: string;\n uniforms: Record;\n updaters: (() => void)[];\n\n constructor({\n graph,\n inputs,\n outputs,\n template,\n consoleLog,\n }: {\n graph: Dyno;\n inputs?: Record;\n outputs?: Record;\n template: DynoProgramTemplate;\n consoleLog?: boolean;\n }) {\n this.graph = graph;\n this.template = template;\n this.inputs = inputs ?? {};\n this.outputs = outputs ?? {};\n\n const compile = new Compilation({ indent: this.template.indent });\n for (const key in this.outputs) {\n if (this.outputs[key]) {\n compile.declares.add(this.outputs[key]);\n }\n }\n const statements = graph.compile({\n inputs: this.inputs,\n outputs: this.outputs,\n compile,\n });\n\n this.shader = template.generate({ globals: compile.globals, statements });\n this.uniforms = compile.uniforms;\n this.updaters = compile.updaters;\n if (consoleLog) {\n console.log(\"*** COMPILED SHADER\", this.shader);\n console.log(\"*** UNIFORMS\", this.uniforms);\n }\n }\n\n prepareMaterial(): THREE.RawShaderMaterial {\n return getMaterial(this);\n }\n\n update() {\n for (const updater of this.updaters) {\n updater();\n }\n }\n}\n\nexport class DynoProgramTemplate {\n before: string;\n between: string;\n after: string;\n indent: string;\n\n constructor(template: string) {\n const globals = template.match(/^([ \\t]*)\\{\\{\\s*GLOBALS\\s*\\}\\}/m);\n const statements = template.match(/^([ \\t]*)\\{\\{\\s*STATEMENTS\\s*\\}\\}/m);\n if (!globals || !statements) {\n throw new Error(\n \"Template must contain {{ GLOBALS }} and {{ STATEMENTS }}\",\n );\n }\n\n this.before = template.substring(0, globals.index);\n this.between = template.substring(\n (globals.index as number) + globals[0].length,\n statements.index,\n );\n this.after = template.substring(\n (statements.index as number) + statements[0].length,\n );\n this.indent = statements[1];\n }\n\n generate({\n globals,\n statements,\n }: { globals: Set; statements: string[] }): string {\n return (\n this.before +\n Array.from(globals).join(\"\\n\\n\") +\n this.between +\n statements.map((s) => this.indent + s).join(\"\\n\") +\n this.after\n );\n }\n}\n\nconst programMaterial = new WeakMap();\n\nfunction getMaterial(program: DynoProgram): THREE.RawShaderMaterial {\n let material = programMaterial.get(program);\n if (material) {\n return material;\n }\n\n material = new THREE.RawShaderMaterial({\n glslVersion: THREE.GLSL3,\n vertexShader: IDENT_VERTEX_SHADER,\n fragmentShader: program.shader,\n uniforms: program.uniforms,\n });\n programMaterial.set(program, material);\n return material;\n}\n","import {\n type AllFloatTypes,\n type AllIntTypes,\n type AllSignedTypes,\n type AllValueTypes,\n type BaseType,\n type BoolTypes,\n type FloatTypes,\n type IntTypes,\n type SignedTypes,\n type UintTypes,\n type ValueTypes,\n isAllFloatType,\n isFloatType,\n isIntType,\n isMat2,\n isMat3,\n isMat4,\n isUintType,\n} from \"./types\";\n\nexport type AddOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = BaseType &\n (A extends B\n ? A\n : A extends \"int\"\n ? B extends IntTypes\n ? B\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : A extends \"uint\"\n ? B extends UintTypes\n ? B\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : A extends \"float\"\n ? B extends AllFloatTypes\n ? B\n : never\n : B extends \"float\"\n ? A extends AllFloatTypes\n ? A\n : never\n : never);\n\nexport type SubOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = AddOutput;\n\nexport type MulOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = BaseType &\n (A extends \"int\"\n ? B extends IntTypes\n ? B\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : A extends \"uint\"\n ? B extends UintTypes\n ? B\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : A extends \"float\"\n ? B extends AllFloatTypes\n ? B\n : never\n : B extends \"float\"\n ? A extends AllFloatTypes\n ? A\n : never\n : A extends IntTypes\n ? B extends A\n ? A\n : never\n : B extends IntTypes\n ? A extends B\n ? A\n : never\n : A extends UintTypes\n ? B extends A\n ? A\n : never\n : B extends UintTypes\n ? A extends B\n ? A\n : never\n : // Vector * Matrix/Vector\n A extends \"vec2\"\n ? B extends \"vec2\" | \"mat2\" | \"mat2x2\"\n ? \"vec2\"\n : B extends \"mat3x2\"\n ? \"vec3\"\n : B extends \"mat4x2\"\n ? \"vec4\"\n : never\n : A extends \"vec3\"\n ? B extends \"mat2x3\"\n ? \"vec2\"\n : B extends \"vec3\" | \"mat3\" | \"mat3x3\"\n ? \"vec3\"\n : B extends \"mat4x3\"\n ? \"vec4\"\n : never\n : A extends \"vec4\"\n ? B extends \"mat2x4\"\n ? \"vec2\"\n : B extends \"mat3x4\"\n ? \"vec3\"\n : B extends \"vec4\" | \"mat4\" | \"mat4x4\"\n ? \"vec4\"\n : never\n : // Matrix * Vector\n B extends \"vec2\"\n ? A extends \"mat2\" | \"mat2x2\"\n ? \"vec2\"\n : A extends \"mat2x3\"\n ? \"vec3\"\n : A extends \"mat2x4\"\n ? \"vec4\"\n : never\n : B extends \"vec3\"\n ? A extends \"mat3x2\"\n ? \"vec2\"\n : A extends \"mat3\" | \"mat3x3\"\n ? \"vec3\"\n : A extends \"mat3x4\"\n ? \"vec4\"\n : never\n : B extends \"vec4\"\n ? A extends \"mat4x2\"\n ? \"vec2\"\n : A extends \"mat4x3\"\n ? \"vec3\"\n : A extends \"mat4\" | \"mat4x4\"\n ? \"vec4\"\n : never\n : // Matrix * Matrix: mat{Acols}x{Arows} * mat{Bcols}x{Brows} => mat{Bcols}x{Arows}\n A extends \"mat2\" | \"mat2x2\" // Acols = 2 => Brows = 2\n ? B extends \"mat2\" | \"mat2x2\"\n ? \"mat2\"\n : B extends \"mat3x2\"\n ? \"mat3x2\"\n : B extends \"mat4x2\"\n ? \"mat4x2\"\n : never\n : A extends \"mat2x3\" // Acols = 2 => Brows = 2\n ? B extends \"mat2\" | \"mat2x2\"\n ? \"mat2x3\"\n : B extends \"mat3x2\"\n ? \"mat3\"\n : B extends \"mat4x2\"\n ? \"mat4x3\"\n : never\n : A extends \"mat2x4\" // Acols = 2 => Brows = 2\n ? B extends \"mat2\" | \"mat2x2\"\n ? \"mat2x4\"\n : B extends \"mat3x2\"\n ? \"mat3x4\"\n : B extends \"mat4x2\"\n ? \"mat4\"\n : never\n : A extends \"mat3x2\" // Acols = 3 => Brows = 3\n ? B extends \"mat2x3\"\n ? \"mat2\"\n : B extends \"mat3\" | \"mat3x3\"\n ? \"mat3x2\"\n : B extends \"mat4x3\"\n ? \"mat4x2\"\n : never\n : A extends \"mat3\" | \"mat3x3\" // Acols = 3 => Brows = 3\n ? B extends \"mat2x3\"\n ? \"mat2x3\"\n : B extends \"mat3\" | \"mat3x3\"\n ? \"mat3\"\n : B extends \"mat4x3\"\n ? \"mat4x3\"\n : never\n : A extends \"mat3x4\" // Acols = 3 => Brows = 3\n ? B extends \"mat2x3\"\n ? \"mat2x4\"\n : B extends \"mat3\" | \"mat3x3\"\n ? \"mat3x4\"\n : B extends \"mat4x3\"\n ? \"mat4\"\n : never\n : A extends \"mat4x2\" // Acols = 4 => Brows = 4\n ? B extends \"mat2x4\"\n ? \"mat2\"\n : B extends \"mat3x4\"\n ? \"mat3x2\"\n : B extends\n | \"mat4\"\n | \"mat4x4\"\n ? \"mat4x2\"\n : never\n : A extends \"mat4x3\" // Acols = 4 => Brows = 4\n ? B extends \"mat2x4\"\n ? \"mat2x3\"\n : B extends \"mat3x4\"\n ? \"mat3\"\n : B extends\n | \"mat4\"\n | \"mat4x4\"\n ? \"mat4x3\"\n : never\n : A extends \"mat4\" | \"mat4x4\" // Acols = 4 => Brows = 4\n ? B extends \"mat2x4\"\n ? \"mat2x4\"\n : B extends \"mat3x4\"\n ? \"mat3x4\"\n : B extends\n | \"mat4\"\n | \"mat4x4\"\n ? \"mat4\"\n : never\n : never);\n\nexport type DivOutput<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> = AddOutput;\n\nexport type IModOutput<\n A extends AllIntTypes,\n B extends AllIntTypes,\n> = BaseType &\n (A extends B\n ? A\n : A extends \"int\"\n ? B extends IntTypes\n ? B\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : A extends \"uint\"\n ? B extends UintTypes\n ? B\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : never);\n\nexport type ModOutput = BaseType &\n (A extends B ? A : B extends \"float\" ? A : never);\n\nexport type PowOutput = BaseType &\n (A extends B ? A : never);\n\nexport type MinOutput = BaseType &\n (A extends B\n ? A\n : B extends \"float\"\n ? A extends FloatTypes\n ? A\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : never);\nexport type MaxOutput = MinOutput<\n A,\n B\n>;\nexport type ClampOutput = BaseType &\n (B extends \"float\"\n ? A extends FloatTypes\n ? A\n : never\n : B extends \"int\"\n ? A extends IntTypes\n ? A\n : never\n : B extends \"uint\"\n ? A extends UintTypes\n ? A\n : never\n : never);\nexport type MixOutput<\n A extends FloatTypes,\n T extends FloatTypes | BoolTypes,\n> = BaseType &\n (T extends A\n ? A\n : T extends \"float\"\n ? A\n : T extends \"bool\"\n ? A extends \"float\"\n ? A\n : never\n : T extends \"bvec2\"\n ? A extends \"vec2\"\n ? A\n : never\n : T extends \"bvec3\"\n ? A extends \"vec3\"\n ? A\n : never\n : T extends \"bvec4\"\n ? A extends \"vec4\"\n ? A\n : never\n : never);\nexport type StepOutput = BaseType &\n (A extends B ? B : A extends \"float\" ? B : never);\nexport type SmoothstepOutput<\n A extends FloatTypes,\n B extends FloatTypes,\n C extends FloatTypes,\n> = BaseType &\n (A extends B ? (A extends C ? C : A extends \"float\" ? C : never) : never);\n\nexport type IsNanOutput = BaseType &\n (A extends \"float\"\n ? \"bool\"\n : A extends \"vec2\"\n ? \"bvec2\"\n : A extends \"vec3\"\n ? \"bvec3\"\n : A extends \"vec4\"\n ? \"bvec4\"\n : never);\nexport type IsInfOutput = IsNanOutput;\n\n// // Run-time type helper functions\n\nexport function addOutputType(\n a: A,\n b: B,\n operation = \"add\",\n): AddOutput {\n const error = () => {\n throw new Error(`Invalid ${operation} types: ${a}, ${b}`);\n };\n // @ts-ignore\n if (a === b) return a as AddOutput;\n if (a === \"int\") {\n if (isIntType(b)) return b as AddOutput;\n error();\n }\n if (b === \"int\") {\n if (isIntType(a)) return a as AddOutput;\n error();\n }\n if (a === \"uint\") {\n if (isUintType(b)) return b as AddOutput;\n error();\n }\n if (b === \"uint\") {\n if (isUintType(a)) return a as AddOutput;\n error();\n }\n if (a === \"float\") {\n if (isAllFloatType(b)) return b as AddOutput;\n error();\n }\n if (b === \"float\") {\n if (isAllFloatType(a)) return a as AddOutput;\n error();\n }\n throw new Error(`Invalid ${operation} types: ${a}, ${b}`);\n}\n\nexport function subOutputType(\n a: A,\n b: B,\n): SubOutput {\n return addOutputType(a, b, \"sub\");\n}\n\nexport function mulOutputType(\n a: A,\n b: B,\n): MulOutput {\n const error = () => {\n throw new Error(`Invalid mul types: ${a}, ${b}`);\n };\n const result = (value: unknown) => value as MulOutput;\n if (a === \"int\") {\n if (isIntType(b)) return result(b);\n error();\n }\n if (b === \"int\") {\n if (isIntType(a)) return result(a);\n error();\n }\n if (a === \"uint\") {\n if (isUintType(b)) return result(b);\n error();\n }\n if (b === \"uint\") {\n if (isUintType(a)) return result(a);\n error();\n }\n if (a === \"float\") {\n if (isAllFloatType(b)) return result(b);\n error();\n }\n if (b === \"float\") {\n if (isAllFloatType(a)) return result(a);\n error();\n }\n if (isIntType(a) || isUintType(a) || isIntType(b) || isUintType(b)) {\n // @ts-ignore\n if (a === b) return result(a);\n error();\n }\n // Vector * Matrix/Vector\n if (a === \"vec2\") {\n if (b === \"vec2\" || isMat2(b)) return result(\"vec2\");\n if (b === \"mat3x2\") return result(\"vec3\");\n if (b === \"mat4x2\") return result(\"vec4\");\n error();\n }\n if (a === \"vec3\") {\n if (b === \"mat2x3\") return result(\"vec2\");\n if (b === \"vec3\" || isMat3(b)) return result(\"vec3\");\n if (b === \"mat4x3\") return result(\"vec4\");\n error();\n }\n if (a === \"vec4\") {\n if (b === \"mat2x4\") return result(\"vec2\");\n if (b === \"mat3x4\") return result(\"vec3\");\n if (b === \"vec4\" || isMat4(b)) return result(\"vec4\");\n error();\n }\n // Matrix * Vector\n if (b === \"vec2\") {\n if (isMat2(a)) return result(\"vec2\");\n if (a === \"mat2x3\") return result(\"vec3\");\n if (a === \"mat2x4\") return result(\"vec4\");\n error();\n }\n if (b === \"vec3\") {\n if (a === \"mat3x2\") return result(\"vec2\");\n if (isMat3(a)) return result(\"vec3\");\n if (a === \"mat3x4\") return result(\"vec4\");\n error();\n }\n if (b === \"vec4\") {\n if (a === \"mat4x2\") return result(\"vec2\");\n if (a === \"mat4x3\") return result(\"vec3\");\n if (isMat4(a)) return result(\"vec4\");\n error();\n }\n // Matrix * Matrix: mat{Acols}x{Arows} * mat{Bcols}x{Brows} => mat{Bcols}x{Arows}\n if (isMat2(a)) {\n if (isMat2(b)) return result(\"mat2\");\n if (b === \"mat3x2\") return result(\"mat3x2\");\n if (b === \"mat4x2\") return result(\"mat4x2\");\n error();\n }\n if (a === \"mat2x3\") {\n if (isMat2(b)) return result(\"mat2x3\");\n if (b === \"mat3x2\") return result(\"mat3\");\n if (b === \"mat4x2\") return result(\"mat4x3\");\n error();\n }\n if (a === \"mat2x4\") {\n if (isMat2(b)) return result(\"mat2x4\");\n if (b === \"mat3x2\") return result(\"mat3x4\");\n if (b === \"mat4x2\") return result(\"mat4\");\n error();\n }\n if (a === \"mat3x2\") {\n if (b === \"mat2x3\") return result(\"mat2\");\n if (isMat3(b)) return result(\"mat3x2\");\n if (b === \"mat4x3\") return result(\"mat4x2\");\n error();\n }\n if (isMat3(a)) {\n if (b === \"mat2x3\") return result(\"mat2x3\");\n if (isMat3(b)) return result(\"mat3\");\n if (b === \"mat4x3\") return result(\"mat4x3\");\n error();\n }\n if (a === \"mat3x4\") {\n if (b === \"mat2x3\") return result(\"mat2x4\");\n if (isMat3(b)) return result(\"mat3x4\");\n if (b === \"mat4x3\") return result(\"mat4\");\n error();\n }\n if (a === \"mat4x2\") {\n if (b === \"mat2x4\") return result(\"mat2\");\n if (b === \"mat3x4\") return result(\"mat3x2\");\n if (isMat4(b)) return result(\"mat4x2\");\n error();\n }\n if (a === \"mat4x3\") {\n if (b === \"mat2x4\") return result(\"mat2x3\");\n if (b === \"mat3x4\") return result(\"mat3\");\n if (isMat4(b)) return result(\"mat4x3\");\n error();\n }\n if (isMat4(a)) {\n if (b === \"mat2x4\") return result(\"mat2x4\");\n if (b === \"mat3x4\") return result(\"mat3x4\");\n if (isMat4(b)) return result(\"mat4\");\n error();\n }\n throw new Error(`Invalid mul types: ${a}, ${b}`);\n}\n\nexport function divOutputType(\n a: A,\n b: B,\n): DivOutput {\n return addOutputType(a, b, \"div\");\n}\n\nexport function imodOutputType(\n a: A,\n b: B,\n): IModOutput {\n // @ts-ignore\n if (a === b) return a as IModOutput;\n if (a === \"int\") {\n if (isIntType(b)) return b as IModOutput;\n } else if (b === \"int\") {\n if (isIntType(a)) return a as IModOutput;\n } else if (a === \"uint\") {\n if (isUintType(b)) return b as IModOutput;\n } else if (b === \"uint\") {\n if (isUintType(a)) return a as IModOutput;\n }\n throw new Error(`Invalid imod types: ${a}, ${b}`);\n}\n\nexport function modOutputType(\n a: A,\n b: B,\n): ModOutput {\n // @ts-ignore\n if (a === b || b === \"float\") return a as ModOutput;\n throw new Error(`Invalid mod types: ${a}, ${b}`);\n}\n\nexport function modfOutputType(a: A): A {\n return a;\n}\n\nexport function negOutputType(a: A): A {\n return a;\n}\n\nexport function absOutputType(a: A): A {\n return a;\n}\n\nexport function signOutputType(a: A): A {\n return a;\n}\n\nexport function floorOutputType(a: A): A {\n return a;\n}\n\nexport function ceilOutputType(a: A): A {\n return a;\n}\n\nexport function truncOutputType(a: A): A {\n return a;\n}\n\nexport function roundOutputType(a: A): A {\n return a;\n}\n\nexport function fractOutputType(a: A): A {\n return a;\n}\n\nexport function powOutputType(a: A): A {\n return a;\n}\n\nexport function expOutputType(a: A): A {\n return a;\n}\n\nexport function exp2OutputType(a: A): A {\n return a;\n}\n\nexport function logOutputType(a: A): A {\n return a;\n}\n\nexport function log2OutputType(a: A): A {\n return a;\n}\n\nexport function sqrOutputType(a: A): A {\n return a;\n}\n\nexport function sqrtOutputType(a: A): A {\n return a;\n}\n\nexport function inversesqrtOutputType(a: A): A {\n return a;\n}\n\nexport function minOutputType(\n a: A,\n b: B,\n operation = \"min\",\n): MinOutput {\n // @ts-ignore\n if (a === b) return a as MinOutput;\n if (b === \"float\") {\n if (isFloatType(a)) return a as MinOutput;\n } else if (b === \"int\") {\n if (isIntType(a)) return a as MinOutput;\n } else if (b === \"uint\") {\n if (isUintType(a)) return a as MinOutput;\n }\n throw new Error(`Invalid ${operation} types: ${a}, ${b}`);\n}\n\nexport function maxOutputType(\n a: A,\n b: B,\n): MaxOutput {\n return minOutputType(a, b, \"max\");\n}\n\nexport function clampOutputType(\n a: A,\n b: B,\n _c: B,\n): ClampOutput {\n if (b === \"float\") {\n if (isFloatType(a)) return a as ClampOutput;\n } else if (b === \"int\") {\n if (isIntType(a)) return a as ClampOutput;\n } else if (b === \"uint\") {\n if (isUintType(a)) return a as ClampOutput;\n }\n throw new Error(`Invalid clamp types: ${a}, ${b}`);\n}\n\nexport function mixOutputType<\n A extends FloatTypes,\n C extends FloatTypes | BoolTypes,\n>(a: A, b: A, c: C): MixOutput {\n // @ts-ignore\n if (c === a) return a as MixOutput;\n if (c === \"float\") return a as MixOutput;\n if (c === \"bool\" && a === \"float\") return a as MixOutput;\n if (c === \"bvec2\" && a === \"vec2\") return a as MixOutput;\n if (c === \"bvec3\" && a === \"vec3\") return a as MixOutput;\n if (c === \"bvec4\" && a === \"vec4\") return a as MixOutput;\n throw new Error(`Invalid mix types: ${a}, ${b}, ${c}`);\n}\n\nexport function stepOutputType(\n a: A,\n b: B,\n): StepOutput {\n // @ts-ignore\n if (a === b || b === \"float\") return b as StepOutput;\n throw new Error(`Invalid step types: ${a}, ${b}`);\n}\n\nexport function smoothstepOutputType<\n A extends FloatTypes,\n B extends FloatTypes,\n C extends FloatTypes,\n>(a: A, b: B, c: C): SmoothstepOutput {\n // @ts-ignore\n if (a === b) {\n if (a === c || a === \"float\") return c as SmoothstepOutput;\n }\n throw new Error(`Invalid smoothstep types: ${a}, ${b}, ${c}`);\n}\n\nexport function isNanOutputType(\n a: A,\n operation = \"isNan\",\n): IsNanOutput {\n if (a === \"float\") return \"bool\" as IsNanOutput;\n if (a === \"vec2\") return \"bvec2\" as IsNanOutput;\n if (a === \"vec3\") return \"bvec3\" as IsNanOutput;\n if (a === \"vec4\") return \"bvec4\" as IsNanOutput;\n throw new Error(`Invalid ${operation} types: ${a}`);\n}\n\nexport function isInfOutputType(a: A): IsInfOutput {\n return isNanOutputType(a, \"isInf\");\n}\n","import { BinaryOp, Dyno, TrinaryOp, UnaryOp } from \"./base\";\nimport {\n type AddOutput,\n type ClampOutput,\n type DivOutput,\n type IModOutput,\n type IsInfOutput,\n type IsNanOutput,\n type MaxOutput,\n type MinOutput,\n type MixOutput,\n type ModOutput,\n type MulOutput,\n type SmoothstepOutput,\n type StepOutput,\n type SubOutput,\n absOutputType,\n addOutputType,\n ceilOutputType,\n clampOutputType,\n divOutputType,\n exp2OutputType,\n expOutputType,\n floorOutputType,\n fractOutputType,\n imodOutputType,\n inversesqrtOutputType,\n isInfOutputType,\n isNanOutputType,\n log2OutputType,\n logOutputType,\n maxOutputType,\n minOutputType,\n mixOutputType,\n modOutputType,\n modfOutputType,\n mulOutputType,\n negOutputType,\n powOutputType,\n roundOutputType,\n signOutputType,\n smoothstepOutputType,\n sqrOutputType,\n sqrtOutputType,\n stepOutputType,\n subOutputType,\n truncOutputType,\n} from \"./mathTypes\";\nimport type {\n AllIntTypes,\n AllSignedTypes,\n AllValueTypes,\n BoolTypes,\n FloatTypes,\n SignedTypes,\n ValueTypes,\n} from \"./types\";\nimport { type DynoVal, valType } from \"./value\";\n\nexport const add = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Add({ a, b });\nexport const sub = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Sub({ a, b });\nexport const mul = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Mul({ a, b });\nexport const div = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Div({ a, b });\nexport const imod = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new IMod({ a, b });\nexport const mod = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Mod({ a, b });\nexport const modf = (a: DynoVal) =>\n new Modf({ a }).outputs;\n\nexport const neg = (a: DynoVal): DynoVal =>\n new Neg({ a });\nexport const abs = (a: DynoVal): DynoVal =>\n new Abs({ a });\nexport const sign = (a: DynoVal): DynoVal =>\n new Sign({ a });\nexport const floor = (a: DynoVal): DynoVal =>\n new Floor({ a });\nexport const ceil = (a: DynoVal): DynoVal =>\n new Ceil({ a });\nexport const trunc = (a: DynoVal): DynoVal =>\n new Trunc({ a });\nexport const round = (a: DynoVal): DynoVal =>\n new Round({ a });\nexport const fract = (a: DynoVal): DynoVal =>\n new Fract({ a });\n\nexport const pow = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Pow({ a, b });\nexport const exp = (a: DynoVal): DynoVal =>\n new Exp({ a });\nexport const exp2 = (a: DynoVal): DynoVal =>\n new Exp2({ a });\nexport const log = (a: DynoVal): DynoVal =>\n new Log({ a });\nexport const log2 = (a: DynoVal): DynoVal =>\n new Log2({ a });\nexport const sqr = (a: DynoVal): DynoVal =>\n new Sqr({ a });\nexport const sqrt = (a: DynoVal): DynoVal =>\n new Sqrt({ a });\nexport const inversesqrt = (a: DynoVal): DynoVal =>\n new InverseSqrt({ a });\n\nexport const min = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Min({ a, b });\nexport const max = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Max({ a, b });\nexport const clamp = (\n a: DynoVal,\n min: DynoVal,\n max: DynoVal,\n): DynoVal> => new Clamp({ a, min, max });\nexport const mix = (\n a: DynoVal,\n b: DynoVal,\n t: DynoVal,\n): DynoVal> => new Mix({ a, b, t });\nexport const step = (\n edge: DynoVal,\n x: DynoVal,\n): DynoVal> => new Step({ edge, x });\nexport const smoothstep = (\n edge0: DynoVal,\n edge1: DynoVal,\n x: DynoVal,\n): DynoVal> =>\n new Smoothstep({ edge0, edge1, x });\n\nexport const isNan = (\n a: DynoVal,\n): DynoVal> => new IsNan({ a });\nexport const isInf = (\n a: DynoVal,\n): DynoVal> => new IsInf({ a });\n\nexport class Add<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"sum\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"sum\", outTypeFunc: addOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sum} = ${inputs.a} + ${inputs.b};`];\n };\n }\n}\n\nexport class Sub<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"difference\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"difference\", outTypeFunc: subOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.difference} = ${inputs.a} - ${inputs.b};`];\n };\n }\n}\n\nexport class Mul<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"product\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"product\", outTypeFunc: mulOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.product} = ${inputs.a} * ${inputs.b};`];\n };\n }\n}\n\nexport class Div<\n A extends AllValueTypes,\n B extends AllValueTypes,\n> extends BinaryOp, \"quotient\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"quotient\", outTypeFunc: divOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.quotient} = ${inputs.a} / ${inputs.b};`];\n };\n }\n}\n\nexport class IMod<\n A extends AllIntTypes,\n B extends AllIntTypes,\n> extends BinaryOp, \"remainder\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"remainder\", outTypeFunc: imodOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.remainder} = ${inputs.a} % ${inputs.b};`];\n };\n }\n}\n\nexport class Mod extends BinaryOp<\n A,\n B,\n ModOutput,\n \"remainder\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"remainder\", outTypeFunc: modOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.remainder} = mod(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Modf extends Dyno<\n { a: A },\n { fract: A; integer: A }\n> {\n constructor({ a }: { a: DynoVal }) {\n const inTypes = { a: valType(a) };\n const outType = modfOutputType(inTypes.a);\n const outTypes = {\n fract: outType,\n integer: outType,\n };\n super({ inTypes, outTypes, inputs: { a } });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.fract} = modf(${inputs.a}, ${outputs.integer});`];\n };\n }\n}\n\nexport class Neg extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"neg\", outTypeFunc: negOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.neg} = -${inputs.a};`];\n };\n }\n}\n\nexport class Abs extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"abs\", outTypeFunc: absOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.abs} = abs(${inputs.a});`];\n };\n }\n}\n\nexport class Sign extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"sign\", outTypeFunc: signOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sign} = sign(${inputs.a});`];\n };\n }\n}\n\nexport class Floor extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"floor\", outTypeFunc: floorOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.floor} = floor(${inputs.a});`];\n };\n }\n}\n\nexport class Ceil extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"ceil\", outTypeFunc: ceilOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.ceil} = ceil(${inputs.a});`];\n };\n }\n}\n\nexport class Trunc extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"trunc\", outTypeFunc: truncOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.trunc} = trunc(${inputs.a});`];\n };\n }\n}\n\nexport class Round extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"round\", outTypeFunc: roundOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.round} = round(${inputs.a});`];\n };\n }\n}\n\nexport class Fract extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"fract\", outTypeFunc: fractOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.fract} = fract(${inputs.a});`];\n };\n }\n}\n\nexport class Pow extends BinaryOp {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"power\", outTypeFunc: powOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.power} = pow(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Exp extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"exp\", outTypeFunc: expOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.exp} = exp(${inputs.a});`];\n };\n }\n}\n\nexport class Exp2 extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"exp2\", outTypeFunc: exp2OutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.exp2} = exp2(${inputs.a});`];\n };\n }\n}\n\nexport class Log extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"log\", outTypeFunc: logOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.log} = log(${inputs.a});`];\n };\n }\n}\n\nexport class Log2 extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"log2\", outTypeFunc: log2OutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.log2} = log2(${inputs.a});`];\n };\n }\n}\n\nexport class Sqr extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"sqr\", outTypeFunc: sqrOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sqr} = ${inputs.a} * ${inputs.a};`];\n };\n }\n}\n\nexport class Sqrt extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"sqrt\", outTypeFunc: sqrtOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.sqrt} = sqrt(${inputs.a});`];\n };\n }\n}\n\nexport class InverseSqrt extends UnaryOp<\n A,\n A,\n \"inversesqrt\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"inversesqrt\", outTypeFunc: inversesqrtOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.inversesqrt} = inversesqrt(${inputs.a});`];\n };\n }\n}\n\nexport class Min extends BinaryOp<\n A,\n B,\n MinOutput,\n \"min\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"min\", outTypeFunc: minOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.min} = min(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Max extends BinaryOp<\n A,\n B,\n MaxOutput,\n \"max\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"max\", outTypeFunc: maxOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.max} = max(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Clamp<\n A extends ValueTypes,\n MinMax extends ValueTypes,\n> extends TrinaryOp, \"clamp\"> {\n constructor({\n a,\n min,\n max,\n }: { a: DynoVal; min: DynoVal; max: DynoVal }) {\n super({\n a,\n b: min,\n c: max,\n outKey: \"clamp\",\n outTypeFunc: clampOutputType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a, b: min, c: max } = inputs;\n return [`${outputs.clamp} = clamp(${a}, ${min}, ${max});`];\n };\n }\n}\n\nexport class Mix<\n A extends FloatTypes,\n T extends FloatTypes | BoolTypes,\n> extends TrinaryOp, \"mix\"> {\n constructor({ a, b, t }: { a: DynoVal; b: DynoVal; t: DynoVal }) {\n super({ a, b, c: t, outKey: \"mix\", outTypeFunc: mixOutputType });\n this.statements = ({ inputs, outputs }) => {\n const { a, b, c: t } = inputs;\n return [`${outputs.mix} = mix(${a}, ${b}, ${t});`];\n };\n }\n}\n\nexport class Step<\n Edge extends FloatTypes,\n X extends FloatTypes,\n> extends BinaryOp, \"step\"> {\n constructor({ edge, x }: { edge: DynoVal; x: DynoVal }) {\n super({\n a: edge,\n b: x,\n outKey: \"step\",\n outTypeFunc: stepOutputType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a: edge, b: x } = inputs;\n return [`${outputs.step} = step(${edge}, ${x});`];\n };\n }\n}\n\nexport class Smoothstep<\n X extends FloatTypes,\n Edge extends X | \"float\",\n> extends TrinaryOp<\n Edge,\n Edge,\n X,\n SmoothstepOutput,\n \"smoothstep\"\n> {\n constructor({\n edge0,\n edge1,\n x,\n }: { edge0: DynoVal; edge1: DynoVal; x: DynoVal }) {\n super({\n a: edge0,\n b: edge1,\n c: x,\n outKey: \"smoothstep\",\n outTypeFunc: smoothstepOutputType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a: edge0, b: edge1, c: x } = inputs;\n return [`${outputs.smoothstep} = smoothstep(${edge0}, ${edge1}, ${x});`];\n };\n }\n}\n\nexport class IsNan extends UnaryOp<\n A,\n IsNanOutput,\n \"isNan\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"isNan\", outTypeFunc: isNanOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.isNan} = isNan(${inputs.a});`];\n };\n }\n}\n\nexport class IsInf extends UnaryOp<\n A,\n IsInfOutput,\n \"isInf\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"isInf\", outTypeFunc: isInfOutputType });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.isInf} = isInf(${inputs.a});`];\n };\n }\n}\n","import { BinaryOp, TrinaryOp, UnaryOp } from \"./base\";\nimport {\n type AllIntTypes,\n type BoolTypes,\n type IntTypes,\n type ScalarTypes,\n type SimpleTypes,\n type UintTypes,\n type ValueTypes,\n isBoolType,\n isIntType,\n isScalarType,\n isUintType,\n isVector2Type,\n isVector3Type,\n} from \"./types\";\nimport { type DynoVal, valType } from \"./value\";\n\nexport const and = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new And({ a, b });\nexport const or = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Or({ a, b });\nexport const xor = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Xor({ a, b });\nexport const not = (\n a: DynoVal,\n): DynoVal => new Not({ a });\n\nexport const shr = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Shr({ a, b });\n\nexport const shl = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new Shl({ a, b });\n\nexport const lessThan = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new LessThan({ a, b });\nexport const lessThanEqual = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new LessThanEqual({ a, b });\nexport const greaterThan = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new GreaterThan({ a, b });\nexport const greaterThanEqual = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new GreaterThanEqual({ a, b });\nexport const equal = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Equal({ a, b });\nexport const notEqual = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new NotEqual({ a, b });\n\nexport const any = (\n a: DynoVal,\n): DynoVal<\"bool\"> => new Any({ a });\nexport const all = (\n a: DynoVal,\n): DynoVal<\"bool\"> => new All({ a });\nexport const select = (\n cond: DynoVal<\"bool\">,\n t: DynoVal,\n f: DynoVal,\n): DynoVal => new Select({ cond, t, f });\n\nexport const compXor = (\n a: DynoVal,\n): DynoVal> => new CompXor({ a });\n\nexport class And extends BinaryOp<\n T,\n T,\n T,\n \"and\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"and\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.and === \"bool\") {\n return [`${outputs.and} = ${inputs.a} && ${inputs.b};`];\n }\n return [`${outputs.and} = ${inputs.a} & ${inputs.b};`];\n };\n }\n}\n\nexport class Or extends BinaryOp<\n T,\n T,\n T,\n \"or\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"or\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.or === \"bool\") {\n return [`${outputs.or} = ${inputs.a} || ${inputs.b};`];\n }\n return [`${outputs.or} = ${inputs.a} | ${inputs.b};`];\n };\n }\n}\n\nexport class Xor extends BinaryOp<\n T,\n T,\n T,\n \"xor\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"xor\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.xor === \"bool\") {\n return [`${outputs.xor} = ${inputs.a} ^^ ${inputs.b};`];\n }\n return [`${outputs.xor} = ${inputs.a} ^ ${inputs.b};`];\n };\n }\n}\n\nexport class Not extends UnaryOp<\n T,\n T,\n \"not\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType: T) => aType, outKey: \"not\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.not === \"bool\") {\n return [`${outputs.not} = !${inputs.a};`];\n }\n return [`${outputs.not} = not(${inputs.a});`];\n };\n }\n}\n\nexport class LessThan extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"lessThan\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) => compareOutputType(aType, \"lessThan\"),\n outKey: \"lessThan\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.lessThan === \"bool\") {\n return [`${outputs.lessThan} = ${inputs.a} < ${inputs.b};`];\n }\n return [`${outputs.lessThan} = lessThan(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class LessThanEqual extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"lessThanEqual\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) =>\n compareOutputType(aType, \"lessThanEqual\"),\n outKey: \"lessThanEqual\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.lessThanEqual === \"bool\") {\n return [`${outputs.lessThanEqual} = ${inputs.a} <= ${inputs.b};`];\n }\n return [\n `${outputs.lessThanEqual} = lessThanEqual(${inputs.a}, ${inputs.b});`,\n ];\n };\n }\n}\n\nexport class GreaterThan extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"greaterThan\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) =>\n compareOutputType(aType, \"greaterThan\"),\n outKey: \"greaterThan\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.greaterThan === \"bool\") {\n return [`${outputs.greaterThan} = ${inputs.a} > ${inputs.b};`];\n }\n return [\n `${outputs.greaterThan} = greaterThan(${inputs.a}, ${inputs.b});`,\n ];\n };\n }\n}\n\nexport class GreaterThanEqual extends BinaryOp<\n T,\n T,\n CompareOutput,\n \"greaterThanEqual\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({\n a,\n b,\n outTypeFunc: (aType: T, bType: T) =>\n compareOutputType(aType, \"greaterThanEqual\"),\n outKey: \"greaterThanEqual\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.greaterThanEqual === \"bool\") {\n return [`${outputs.greaterThanEqual} = ${inputs.a} >= ${inputs.b};`];\n }\n return [\n `${outputs.greaterThanEqual} = greaterThanEqual(${inputs.a}, ${inputs.b});`,\n ];\n };\n }\n}\n\nexport class Equal extends BinaryOp<\n T,\n T,\n EqualOutput,\n \"equal\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: equalOutputType, outKey: \"equal\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.equal === \"bool\") {\n return [`${outputs.equal} = ${inputs.a} == ${inputs.b};`];\n }\n return [`${outputs.equal} = equal(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class NotEqual extends BinaryOp<\n T,\n T,\n NotEqualOutput,\n \"notEqual\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: notEqualOutputType, outKey: \"notEqual\" });\n this.statements = ({ inputs, outputs }) => {\n if (this.outTypes.notEqual === \"bool\") {\n return [`${outputs.notEqual} = ${inputs.a} != ${inputs.b};`];\n }\n return [`${outputs.notEqual} = notEqual(${inputs.a}, ${inputs.b});`];\n };\n }\n}\n\nexport class Any extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType: T) => \"bool\", outKey: \"any\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.any} = any(${inputs.a});`];\n };\n }\n}\n\nexport class All extends UnaryOp {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType: T) => \"bool\", outKey: \"all\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.all} = all(${inputs.a});`];\n };\n }\n}\n\nexport class Select extends TrinaryOp<\n \"bool\",\n T,\n T,\n T,\n \"select\"\n> {\n constructor({\n cond,\n t,\n f,\n }: { cond: DynoVal<\"bool\">; t: DynoVal; f: DynoVal }) {\n super({\n a: cond,\n b: t,\n c: f,\n outKey: \"select\",\n outTypeFunc: (aType: \"bool\", bType: T, cType: T) => bType,\n });\n this.statements = ({ inputs, outputs }) => {\n const { a: cond, b: t, c: f } = inputs;\n return [`${outputs.select} = (${cond}) ? (${t}) : (${f});`];\n };\n }\n}\n\ntype CompareOutput = T extends ScalarTypes\n ? \"bool\"\n : T extends \"ivec2\" | \"uvec2\" | \"vec2\"\n ? \"bvec2\"\n : T extends \"ivec3\" | \"uvec3\" | \"vec3\"\n ? \"bvec3\"\n : T extends \"ivec4\" | \"uvec4\" | \"vec4\"\n ? \"bvec4\"\n : never;\n\nfunction compareOutputType(\n type: T,\n operator: string,\n): CompareOutput {\n if (isScalarType(type)) {\n return \"bool\" as CompareOutput;\n }\n if (type === \"ivec2\" || type === \"uvec2\" || type === \"vec2\") {\n return \"bvec2\" as CompareOutput;\n }\n if (type === \"ivec3\" || type === \"uvec3\" || type === \"vec3\") {\n return \"bvec3\" as CompareOutput;\n }\n if (type === \"ivec4\" || type === \"uvec4\" || type === \"vec4\") {\n return \"bvec4\" as CompareOutput;\n }\n throw new Error(`Invalid ${operator} type: ${type}`);\n}\n\ntype EqualOutput = A extends ScalarTypes\n ? \"bool\"\n : A extends BoolTypes\n ? A\n : A extends \"ivec2\" | \"uvec2\" | \"vec2\"\n ? \"bvec2\"\n : A extends \"ivec3\" | \"uvec3\" | \"vec3\"\n ? \"bvec3\"\n : A extends \"ivec4\" | \"uvec4\" | \"vec4\"\n ? \"bvec4\"\n : never;\n\nfunction equalOutputType(\n type: A,\n operator = \"equal\",\n): EqualOutput {\n if (isScalarType(type)) {\n return \"bool\" as EqualOutput;\n }\n if (isBoolType(type)) {\n return type as EqualOutput;\n }\n if (type === \"ivec2\" || type === \"uvec2\" || type === \"vec2\") {\n return \"bvec2\" as EqualOutput;\n }\n if (type === \"ivec3\" || type === \"uvec3\" || type === \"vec3\") {\n return \"bvec3\" as EqualOutput;\n }\n if (type === \"ivec4\" || type === \"uvec4\" || type === \"vec4\") {\n return \"bvec4\" as EqualOutput;\n }\n throw new Error(`Invalid ${operator} type: ${type}`);\n}\n\ntype NotEqualOutput = EqualOutput;\n\nfunction notEqualOutputType(\n type: A,\n): NotEqualOutput {\n return equalOutputType(type, \"notEqual\");\n}\n\ntype CompXorOutput = A extends BoolTypes\n ? \"bool\"\n : A extends IntTypes\n ? \"int\"\n : A extends UintTypes\n ? \"uint\"\n : never;\n\nfunction compXorOutputType(\n type: A,\n): CompXorOutput {\n if (isBoolType(type)) {\n return \"bool\" as CompXorOutput;\n }\n if (isIntType(type)) {\n return \"int\" as CompXorOutput;\n }\n if (isUintType(type)) {\n return \"uint\" as CompXorOutput;\n }\n throw new Error(`Invalid compXor type: ${type}`);\n}\n\nexport class CompXor extends UnaryOp<\n T,\n CompXorOutput,\n \"compXor\"\n> {\n constructor({ a }: { a: DynoVal }) {\n const outType = compXorOutputType(valType(a));\n super({ a, outTypeFunc: (aType: T) => outType, outKey: \"compXor\" });\n this.statements = ({ inputs, outputs }) => {\n if (isScalarType(this.outTypes.compXor)) {\n return [`${outputs.compXor} = ${inputs.a};`];\n }\n const components = isVector2Type(outType)\n ? [\"x\", \"y\"]\n : isVector3Type(outType)\n ? [\"x\", \"y\", \"z\"]\n : [\"x\", \"y\", \"z\", \"w\"];\n const operands = components.map((c) => `${inputs.a}.${c}`);\n const operator = isBoolType(outType) ? \"^^\" : \"^\";\n return [`${outputs.compXor} = ${operands.join(` ${operator} `)};`];\n };\n }\n}\n\nexport class Shr extends BinaryOp {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"shr\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.shr} = ${inputs.a} >> ${inputs.b};`];\n };\n }\n}\n\nexport class Shl extends BinaryOp {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outTypeFunc: (aType: T, bType: T) => aType, outKey: \"shl\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.shl} = ${inputs.a} << ${inputs.b};`];\n };\n }\n}\n","import { UnaryOp } from \"./base\";\nimport { type SimpleTypes, typeLiteral } from \"./types\";\nimport type { DynoVal } from \"./value\";\n\nexport const bool = (\n value: DynoVal,\n): DynoVal<\"bool\"> => new Bool({ value });\nexport const int = (\n value: DynoVal,\n): DynoVal<\"int\"> => new Int({ value });\nexport const uint = (\n value: DynoVal,\n): DynoVal<\"uint\"> => new Uint({ value });\nexport const float = (\n value: DynoVal,\n): DynoVal<\"float\"> => new Float({ value });\n\nexport const bvec2 = (\n value: DynoVal,\n): DynoVal<\"bvec2\"> => new BVec2({ value });\nexport const bvec3 = (\n value: DynoVal,\n): DynoVal<\"bvec3\"> => new BVec3({ value });\nexport const bvec4 = (\n value: DynoVal,\n): DynoVal<\"bvec4\"> => new BVec4({ value });\n\nexport const ivec2 = (\n value: DynoVal,\n): DynoVal<\"ivec2\"> => new IVec2({ value });\nexport const ivec3 = (\n value: DynoVal,\n): DynoVal<\"ivec3\"> => new IVec3({ value });\nexport const ivec4 = (\n value: DynoVal,\n): DynoVal<\"ivec4\"> => new IVec4({ value });\n\nexport const uvec2 = (\n value: DynoVal,\n): DynoVal<\"uvec2\"> => new UVec2({ value });\nexport const uvec3 = (\n value: DynoVal,\n): DynoVal<\"uvec3\"> => new UVec3({ value });\nexport const uvec4 = (\n value: DynoVal,\n): DynoVal<\"uvec4\"> => new UVec4({ value });\n\nexport const vec2 = <\n T extends \"float\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\" | \"vec3\" | \"vec4\",\n>(\n value: DynoVal,\n): DynoVal<\"vec2\"> => new Vec2({ value });\nexport const vec3 = <\n T extends \"float\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\" | \"vec4\",\n>(\n value: DynoVal,\n): DynoVal<\"vec3\"> => new Vec3({ value });\nexport const vec4 = (\n value: DynoVal,\n): DynoVal<\"vec4\"> => new Vec4({ value });\n\nexport const mat2 = (\n value: DynoVal,\n): DynoVal<\"mat2\"> => new Mat2({ value });\nexport const mat3 = (\n value: DynoVal,\n): DynoVal<\"mat3\"> => new Mat3({ value });\nexport const mat4 = (\n value: DynoVal,\n): DynoVal<\"mat4\"> => new Mat4({ value });\n\nexport const floatBitsToInt = (value: DynoVal<\"float\">): DynoVal<\"int\"> =>\n new FloatBitsToInt({ value });\nexport const floatBitsToUint = (value: DynoVal<\"float\">): DynoVal<\"uint\"> =>\n new FloatBitsToUint({ value });\nexport const intBitsToFloat = (value: DynoVal<\"int\">): DynoVal<\"float\"> =>\n new IntBitsToFloat({ value });\nexport const uintBitsToFloat = (value: DynoVal<\"uint\">): DynoVal<\"float\"> =>\n new UintBitsToFloat({ value });\n\nexport const packSnorm2x16 = (value: DynoVal<\"vec2\">): DynoVal<\"uint\"> =>\n new PackSnorm2x16({ value });\nexport const unpackSnorm2x16 = (value: DynoVal<\"uint\">): DynoVal<\"vec2\"> =>\n new UnpackSnorm2x16({ value });\nexport const packUnorm2x16 = (value: DynoVal<\"vec2\">): DynoVal<\"uint\"> =>\n new PackUnorm2x16({ value });\nexport const unpackUnorm2x16 = (value: DynoVal<\"uint\">): DynoVal<\"vec2\"> =>\n new UnpackUnorm2x16({ value });\n\nexport const packHalf2x16 = (value: DynoVal<\"vec2\">): DynoVal<\"uint\"> =>\n new PackHalf2x16({ value });\nexport const unpackHalf2x16 = (value: DynoVal<\"uint\">): DynoVal<\"vec2\"> =>\n new UnpackHalf2x16({ value });\n\nexport const uintToRgba8 = (value: DynoVal<\"uint\">): DynoVal<\"vec4\"> =>\n new UintToRgba8({ value });\n\nexport class SimpleCast<\n Allowed extends SimpleTypes,\n OutType extends SimpleTypes,\n OutKey extends string,\n> extends UnaryOp {\n constructor({\n value,\n outType,\n outKey,\n }: { value: DynoVal; outType: OutType; outKey: OutKey }) {\n super({ a: value, outTypeFunc: () => outType, outKey });\n this.statements = ({ inputs, outputs }) => [\n `${outputs[outKey]} = ${typeLiteral(outType)}(${inputs.a});`,\n ];\n }\n}\n\nexport class Bool extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"bool\",\n \"bool\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"bool\", outKey: \"bool\" });\n }\n}\n\nexport class Int extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"int\",\n \"int\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"int\", outKey: \"int\" });\n }\n}\n\nexport class Uint extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"uint\",\n \"uint\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"uint\", outKey: \"uint\" });\n }\n}\n\nexport class Float extends SimpleCast<\n \"bool\" | \"int\" | \"uint\" | \"float\",\n \"float\",\n \"float\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"int\" | \"uint\" | \"float\"> }) {\n super({ value, outType: \"float\", outKey: \"float\" });\n }\n}\n\nexport class BVec2 extends SimpleCast<\n \"bool\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\",\n \"bvec2\",\n \"bvec2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\"> }) {\n super({ value, outType: \"bvec2\", outKey: \"bvec2\" });\n }\n}\n\nexport class BVec3 extends SimpleCast<\n \"bool\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\",\n \"bvec3\",\n \"bvec3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\"> }) {\n super({ value, outType: \"bvec3\", outKey: \"bvec3\" });\n }\n}\n\nexport class BVec4 extends SimpleCast<\n \"bool\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\",\n \"bvec4\",\n \"bvec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"bool\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"bvec4\", outKey: \"bvec4\" });\n }\n}\n\nexport class IVec2 extends SimpleCast<\n \"int\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\",\n \"ivec2\",\n \"ivec2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"int\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\"> }) {\n super({ value, outType: \"ivec2\", outKey: \"ivec2\" });\n }\n}\n\nexport class IVec3 extends SimpleCast<\n \"int\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\",\n \"ivec3\",\n \"ivec3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"int\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\"> }) {\n super({ value, outType: \"ivec3\", outKey: \"ivec3\" });\n }\n}\n\nexport class IVec4 extends SimpleCast<\n \"int\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\",\n \"ivec4\",\n \"ivec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"int\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"ivec4\", outKey: \"ivec4\" });\n }\n}\n\nexport class UVec2 extends SimpleCast<\n \"uint\" | \"ivec2\" | \"bvec2\" | \"uvec2\" | \"vec2\",\n \"uvec2\",\n \"uvec2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"uint\" | \"ivec2\" | \"bvec2\" | \"uvec2\" | \"vec2\"> }) {\n super({ value, outType: \"uvec2\", outKey: \"uvec2\" });\n }\n}\n\nexport class UVec3 extends SimpleCast<\n \"uint\" | \"ivec3\" | \"bvec3\" | \"uvec3\" | \"vec3\",\n \"uvec3\",\n \"uvec3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"uint\" | \"ivec3\" | \"bvec3\" | \"uvec3\" | \"vec3\"> }) {\n super({ value, outType: \"uvec3\", outKey: \"uvec3\" });\n }\n}\n\nexport class UVec4 extends SimpleCast<\n \"uint\" | \"ivec4\" | \"bvec4\" | \"uvec4\" | \"vec4\",\n \"uvec4\",\n \"uvec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"uint\" | \"ivec4\" | \"bvec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"uvec4\", outKey: \"uvec4\" });\n }\n}\n\nexport class Vec2 extends SimpleCast<\n \"float\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\" | \"vec3\" | \"vec4\",\n \"vec2\",\n \"vec2\"\n> {\n constructor({\n value,\n }: {\n value: DynoVal<\n \"float\" | \"bvec2\" | \"ivec2\" | \"uvec2\" | \"vec2\" | \"vec3\" | \"vec4\"\n >;\n }) {\n super({ value, outType: \"vec2\", outKey: \"vec2\" });\n }\n}\n\nexport class Vec3 extends SimpleCast<\n \"float\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\" | \"vec2\" | \"vec4\",\n \"vec3\",\n \"vec3\"\n> {\n constructor({\n value,\n }: {\n value: DynoVal<\n \"float\" | \"bvec3\" | \"ivec3\" | \"uvec3\" | \"vec3\" | \"vec2\" | \"vec4\"\n >;\n }) {\n super({ value, outType: \"vec3\", outKey: \"vec3\" });\n }\n}\n\nexport class Vec4 extends SimpleCast<\n \"float\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\",\n \"vec4\",\n \"vec4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"bvec4\" | \"ivec4\" | \"uvec4\" | \"vec4\"> }) {\n super({ value, outType: \"vec4\", outKey: \"vec4\" });\n }\n}\n\nexport class Mat2 extends SimpleCast<\n \"float\" | \"mat2\" | \"mat3\" | \"mat4\",\n \"mat2\",\n \"mat2\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"mat2\" | \"mat3\" | \"mat4\"> }) {\n super({ value, outType: \"mat2\", outKey: \"mat2\" });\n }\n}\n\nexport class Mat3 extends SimpleCast<\n \"float\" | \"mat2\" | \"mat3\" | \"mat4\",\n \"mat3\",\n \"mat3\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"mat2\" | \"mat3\" | \"mat4\"> }) {\n super({ value, outType: \"mat3\", outKey: \"mat3\" });\n }\n}\n\nexport class Mat4 extends SimpleCast<\n \"float\" | \"mat2\" | \"mat3\" | \"mat4\",\n \"mat4\",\n \"mat4\"\n> {\n constructor({\n value,\n }: { value: DynoVal<\"float\" | \"mat2\" | \"mat3\" | \"mat4\"> }) {\n super({ value, outType: \"mat4\", outKey: \"mat4\" });\n }\n}\n\nexport class FloatBitsToInt extends UnaryOp<\"float\", \"int\", \"int\"> {\n constructor({ value }: { value: DynoVal<\"float\"> }) {\n super({ a: value, outKey: \"int\", outTypeFunc: () => \"int\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.int} = floatBitsToInt(${inputs.a});`];\n };\n }\n}\n\nexport class FloatBitsToUint extends UnaryOp<\"float\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"float\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = floatBitsToUint(${inputs.a});`];\n };\n }\n}\n\nexport class IntBitsToFloat extends UnaryOp<\"int\", \"float\", \"float\"> {\n constructor({ value }: { value: DynoVal<\"int\"> }) {\n super({ a: value, outKey: \"float\", outTypeFunc: () => \"float\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.float} = intBitsToFloat(${inputs.a});`];\n };\n }\n}\n\nexport class UintBitsToFloat extends UnaryOp<\"uint\", \"float\", \"float\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"float\", outTypeFunc: () => \"float\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.float} = uintBitsToFloat(${inputs.a});`];\n };\n }\n}\n\nexport class PackSnorm2x16 extends UnaryOp<\"vec2\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"vec2\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = packSnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UnpackSnorm2x16 extends UnaryOp<\"uint\", \"vec2\", \"vec2\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"vec2\", outTypeFunc: () => \"vec2\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.vec2} = unpackSnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class PackUnorm2x16 extends UnaryOp<\"vec2\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"vec2\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = packUnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UnpackUnorm2x16 extends UnaryOp<\"uint\", \"vec2\", \"vec2\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"vec2\", outTypeFunc: () => \"vec2\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.vec2} = unpackUnorm2x16(${inputs.a});`];\n };\n }\n}\n\nexport class PackHalf2x16 extends UnaryOp<\"vec2\", \"uint\", \"uint\"> {\n constructor({ value }: { value: DynoVal<\"vec2\"> }) {\n super({ a: value, outKey: \"uint\", outTypeFunc: () => \"uint\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.uint} = packHalf2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UnpackHalf2x16 extends UnaryOp<\"uint\", \"vec2\", \"vec2\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"vec2\", outTypeFunc: () => \"vec2\" });\n this.statements = ({ inputs, outputs }) => {\n return [`${outputs.vec2} = unpackHalf2x16(${inputs.a});`];\n };\n }\n}\n\nexport class UintToRgba8 extends UnaryOp<\"uint\", \"vec4\", \"rgba8\"> {\n constructor({ value }: { value: DynoVal<\"uint\"> }) {\n super({ a: value, outKey: \"rgba8\", outTypeFunc: () => \"vec4\" });\n this.statements = ({ inputs, outputs }) => {\n return [\n `uvec4 uRgba = uvec4(${inputs.a} & 0xffu, (${inputs.a} >> 8u) & 0xffu, (${inputs.a} >> 16u) & 0xffu, (${inputs.a} >> 24u) & 0xffu);`,\n `${outputs.rgba8} = vec4(uRgba) / 255.0;`,\n ];\n };\n }\n}\n","import { BinaryOp, Dyno, TrinaryOp, UnaryOp } from \"./base\";\nimport {\n type FloatTypes,\n type IntTypes,\n type MatFloatTypes,\n type SquareMatTypes,\n type UintTypes,\n type VectorElementType,\n type VectorTypes,\n isFloatType,\n isIntType,\n isUintType,\n vectorDim,\n vectorElementType,\n} from \"./types\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n literalZero,\n valType,\n} from \"./value\";\n\nexport const length = (\n a: DynoVal,\n): DynoVal<\"float\"> => new Length({ a });\nexport const distance = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal<\"float\"> => new Distance({ a, b });\nexport const dot = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal<\"float\"> => new Dot({ a, b });\nexport const cross = (\n a: DynoVal<\"vec3\">,\n b: DynoVal<\"vec3\">,\n): DynoVal<\"vec3\"> => new Cross({ a, b });\nexport const normalize = (\n a: DynoVal,\n): DynoVal => new Normalize({ a });\nexport const faceforward = (\n a: DynoVal,\n b: DynoVal,\n c: DynoVal,\n): DynoVal => new FaceForward({ a, b, c });\nexport const reflectVec = (\n incident: DynoVal,\n normal: DynoVal,\n): DynoVal => new ReflectVec({ incident, normal });\nexport const refractVec = (\n incident: DynoVal,\n normal: DynoVal,\n eta: DynoVal<\"float\">,\n): DynoVal => new RefractVec({ incident, normal, eta });\nexport const split = (vector: DynoVal): Split =>\n new Split({ vector });\nexport const combine = >({\n vector,\n vectorType,\n x,\n y,\n z,\n w,\n r,\n g,\n b,\n a,\n}: {\n vector?: DynoVal;\n vectorType?: V;\n x?: DynoVal;\n y?: DynoVal;\n z?: DynoVal;\n w?: DynoVal;\n r?: DynoVal;\n g?: DynoVal;\n b?: DynoVal;\n a?: DynoVal;\n}): DynoVal => new Combine({ vector, vectorType, x, y, z, w, r, g, b, a });\nexport const projectH = (\n a: DynoVal,\n): DynoVal> => new ProjectH({ a });\nexport const extendVec = (\n a: DynoVal,\n b: DynoVal<\"float\">,\n): DynoVal> => new ExtendVec({ a, b });\nexport const swizzle = (\n a: DynoVal,\n select: S,\n): DynoVal>> =>\n new Swizzle({ vector: a, select });\nexport const compMult = (\n a: DynoVal,\n b: DynoVal,\n): DynoVal => new CompMult({ a, b });\nexport const outer = <\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n>(\n a: DynoVal,\n b: DynoVal,\n): DynoVal> => new Outer({ a, b });\nexport const transpose = (\n a: DynoVal,\n): DynoVal> => new Transpose({ a });\nexport const determinant = (\n a: DynoVal,\n): DynoVal<\"float\"> => new Determinant({ a });\nexport const inverse = (a: DynoVal): DynoVal =>\n new Inverse({ a });\n\nexport class Length extends UnaryOp<\n A,\n \"float\",\n \"length\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType) => \"float\", outKey: \"length\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.length} = length(${inputs.a});`,\n ];\n }\n}\n\nexport class Distance extends BinaryOp<\n A,\n A,\n \"float\",\n \"distance\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"distance\", outTypeFunc: (aType, bType) => \"float\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.distance} = distance(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Dot extends BinaryOp<\n A,\n A,\n \"float\",\n \"dot\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"dot\", outTypeFunc: (aType, bType) => \"float\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.dot} = dot(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Cross extends BinaryOp<\"vec3\", \"vec3\", \"vec3\", \"cross\"> {\n constructor({ a, b }: { a: DynoVal<\"vec3\">; b: DynoVal<\"vec3\"> }) {\n super({ a, b, outKey: \"cross\", outTypeFunc: (aType, bType) => \"vec3\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.cross} = cross(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Normalize extends UnaryOp<\n A,\n A,\n \"normalize\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outTypeFunc: (aType) => aType, outKey: \"normalize\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.normalize} = normalize(${inputs.a});`,\n ];\n }\n}\n\ntype ProjectHOutput = A extends \"vec3\"\n ? \"vec2\"\n : A extends \"vec4\"\n ? \"vec3\"\n : never;\n\nfunction projectHOutputType(\n type: A,\n): ProjectHOutput {\n if (type === \"vec3\") {\n return \"vec2\" as ProjectHOutput;\n }\n if (type === \"vec4\") {\n return \"vec3\" as ProjectHOutput;\n }\n throw new Error(\"Invalid type\");\n}\n\nexport class ProjectH extends UnaryOp<\n A,\n ProjectHOutput,\n \"projected\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({\n a,\n outTypeFunc: (aType) => projectHOutputType(aType),\n outKey: \"projected\",\n });\n this.statements = ({ inputs, outputs }) => {\n if (this.inTypes.a === \"vec3\") {\n return [`${outputs.projected} = ${inputs.a}.xy / ${inputs.a}.z;`];\n }\n if (this.inTypes.a === \"vec4\") {\n return [`${outputs.projected} = ${inputs.a}.xyz / ${inputs.a}.w;`];\n }\n throw new Error(\"Invalid type\");\n };\n }\n}\n\ntype ExtendVecOutput = A extends \"float\"\n ? \"vec2\"\n : A extends \"vec2\"\n ? \"vec3\"\n : A extends \"vec3\"\n ? \"vec4\"\n : never;\n\nfunction extendVecOutputType(\n type: A,\n): ExtendVecOutput {\n if (type === \"float\") return \"vec2\" as ExtendVecOutput;\n if (type === \"vec2\") return \"vec3\" as ExtendVecOutput;\n if (type === \"vec3\") return \"vec4\" as ExtendVecOutput;\n throw new Error(\"Invalid type\");\n}\n\nexport class ExtendVec extends BinaryOp<\n A,\n \"float\",\n ExtendVecOutput,\n \"extend\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal<\"float\"> }) {\n const type = valType(a);\n const outType = extendVecOutputType(type);\n super({ a, b, outKey: \"extend\", outTypeFunc: () => outType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.extend} = ${outType}(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class FaceForward extends TrinaryOp<\n A,\n A,\n A,\n A,\n \"forward\"\n> {\n constructor({ a, b, c }: { a: DynoVal; b: DynoVal; c: DynoVal }) {\n super({\n a,\n b,\n c,\n outKey: \"forward\",\n outTypeFunc: (aType, bType, cType) => aType,\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.forward} = faceforward(${inputs.a}, ${inputs.b}, ${inputs.c});`,\n ];\n }\n}\n\nexport class ReflectVec extends BinaryOp<\n A,\n A,\n A,\n \"reflection\"\n> {\n constructor({\n incident,\n normal,\n }: { incident: DynoVal; normal: DynoVal }) {\n super({\n a: incident,\n b: normal,\n outKey: \"reflection\",\n outTypeFunc: (aType, bType) => aType,\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.reflection} = reflect(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class RefractVec extends TrinaryOp<\n A,\n A,\n \"float\",\n A,\n \"refraction\"\n> {\n constructor({\n incident,\n normal,\n eta,\n }: { incident: DynoVal; normal: DynoVal; eta: DynoVal<\"float\"> }) {\n super({\n a: incident,\n b: normal,\n c: eta,\n outKey: \"refraction\",\n outTypeFunc: (aType, bType, cType) => aType,\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.refraction} = refract(${inputs.a}, ${inputs.b}, ${inputs.c});`,\n ];\n }\n}\n\nexport class CompMult extends BinaryOp<\n A,\n A,\n A,\n \"product\"\n> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"product\", outTypeFunc: (aType, bType) => aType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.product} = matrixCompMult(${a}, ${b});`,\n ];\n }\n}\n\ntype OuterOutput<\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n> = A extends \"vec2\"\n ? B extends \"vec2\"\n ? \"mat2\"\n : B extends \"vec3\"\n ? \"mat3x2\"\n : B extends \"vec4\"\n ? \"mat4x2\"\n : never\n : A extends \"vec3\"\n ? B extends \"vec2\"\n ? \"mat2x3\"\n : B extends \"vec3\"\n ? \"mat3\"\n : B extends \"vec4\"\n ? \"mat4x3\"\n : never\n : A extends \"vec4\"\n ? B extends \"vec2\"\n ? \"mat2x4\"\n : B extends \"vec3\"\n ? \"mat3x4\"\n : B extends \"vec4\"\n ? \"mat4\"\n : never\n : never;\n\nfunction outerOutputType<\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n>(aType: A, bType: B): OuterOutput {\n if (aType === \"vec2\") {\n if (bType === \"vec2\") return \"mat2\" as OuterOutput;\n if (bType === \"vec3\") return \"mat3x2\" as OuterOutput;\n if (bType === \"vec4\") return \"mat4x2\" as OuterOutput;\n }\n if (aType === \"vec3\") {\n if (bType === \"vec2\") return \"mat2x3\" as OuterOutput;\n if (bType === \"vec3\") return \"mat3\" as OuterOutput;\n if (bType === \"vec4\") return \"mat4x3\" as OuterOutput;\n }\n if (aType === \"vec4\") {\n if (bType === \"vec2\") return \"mat2x4\" as OuterOutput;\n if (bType === \"vec3\") return \"mat3x4\" as OuterOutput;\n if (bType === \"vec4\") return \"mat4\" as OuterOutput;\n }\n throw new Error(`Invalid outer type: ${aType}, ${bType}`);\n}\n\nexport class Outer<\n A extends \"vec2\" | \"vec3\" | \"vec4\",\n B extends \"vec2\" | \"vec3\" | \"vec4\",\n> extends BinaryOp, \"outer\"> {\n constructor({ a, b }: { a: DynoVal; b: DynoVal }) {\n super({ a, b, outKey: \"outer\", outTypeFunc: outerOutputType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.outer} = outerProduct(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\ntype TransposeOutput = A extends SquareMatTypes\n ? A\n : A extends \"mat2x3\"\n ? \"mat3x2\"\n : A extends \"mat2x4\"\n ? \"mat4x2\"\n : A extends \"mat3x2\"\n ? \"mat2x3\"\n : A extends \"mat3x4\"\n ? \"mat4x3\"\n : A extends \"mat4x2\"\n ? \"mat2x4\"\n : A extends \"mat4x3\"\n ? \"mat3x4\"\n : never;\n\nfunction transposeOutputType(\n type: A,\n): TransposeOutput {\n if (type === \"mat2\") return \"mat2\" as TransposeOutput;\n if (type === \"mat3\") return \"mat3\" as TransposeOutput;\n if (type === \"mat4\") return \"mat4\" as TransposeOutput;\n if (type === \"mat2x2\") return \"mat2x2\" as TransposeOutput;\n if (type === \"mat2x3\") return \"mat3x2\" as TransposeOutput;\n if (type === \"mat2x4\") return \"mat4x2\" as TransposeOutput;\n if (type === \"mat3x2\") return \"mat2x3\" as TransposeOutput;\n if (type === \"mat3x3\") return \"mat3x3\" as TransposeOutput;\n if (type === \"mat3x4\") return \"mat4x3\" as TransposeOutput;\n if (type === \"mat4x2\") return \"mat2x4\" as TransposeOutput;\n if (type === \"mat4x3\") return \"mat3x4\" as TransposeOutput;\n if (type === \"mat4x4\") return \"mat4x4\" as TransposeOutput;\n throw new Error(`Invalid transpose type: ${type}`);\n}\n\nexport class Transpose extends UnaryOp<\n A,\n TransposeOutput,\n \"transpose\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"transpose\", outTypeFunc: transposeOutputType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.transpose} = transpose(${inputs.a});`,\n ];\n }\n}\n\nexport class Determinant extends UnaryOp<\n A,\n \"float\",\n \"det\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"det\", outTypeFunc: (aType) => \"float\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.det} = determinant(${inputs.a});`,\n ];\n }\n}\n\nexport class Inverse extends UnaryOp<\n A,\n A,\n \"inverse\"\n> {\n constructor({ a }: { a: DynoVal }) {\n super({ a, outKey: \"inverse\", outTypeFunc: (aType) => aType });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.inverse} = inverse(${a});`,\n ];\n }\n}\n\ntype SplitOutTypes = A extends \"vec2\"\n ? { x: \"float\"; y: \"float\"; r: \"float\"; g: \"float\" }\n : A extends \"vec3\"\n ? { x: \"float\"; y: \"float\"; z: \"float\"; r: \"float\"; g: \"float\"; b: \"float\" }\n : A extends \"vec4\"\n ? {\n x: \"float\";\n y: \"float\";\n z: \"float\";\n w: \"float\";\n r: \"float\";\n g: \"float\";\n b: \"float\";\n a: \"float\";\n }\n : A extends \"ivec2\"\n ? { x: \"int\"; y: \"int\"; r: \"int\"; g: \"int\" }\n : A extends \"ivec3\"\n ? { x: \"int\"; y: \"int\"; z: \"int\"; r: \"int\"; g: \"int\"; b: \"int\" }\n : A extends \"ivec4\"\n ? {\n x: \"int\";\n y: \"int\";\n z: \"int\";\n w: \"int\";\n r: \"int\";\n g: \"int\";\n b: \"int\";\n a: \"int\";\n }\n : A extends \"uvec2\"\n ? { x: \"uint\"; y: \"uint\"; r: \"uint\"; g: \"uint\" }\n : A extends \"uvec3\"\n ? {\n x: \"uint\";\n y: \"uint\";\n z: \"uint\";\n r: \"uint\";\n g: \"uint\";\n b: \"uint\";\n }\n : A extends \"uvec4\"\n ? {\n x: \"uint\";\n y: \"uint\";\n z: \"uint\";\n w: \"uint\";\n r: \"uint\";\n g: \"uint\";\n b: \"uint\";\n a: \"uint\";\n }\n : never;\n\nfunction splitOutTypes(type: A): SplitOutTypes {\n const result = (value: unknown) => value as SplitOutTypes;\n switch (type) {\n case \"vec2\":\n return result({ x: \"float\", y: \"float\", r: \"float\", g: \"float\" });\n case \"vec3\":\n return result({\n x: \"float\",\n y: \"float\",\n z: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n });\n case \"vec4\":\n return result({\n x: \"float\",\n y: \"float\",\n z: \"float\",\n w: \"float\",\n r: \"float\",\n g: \"float\",\n b: \"float\",\n a: \"float\",\n });\n case \"ivec2\":\n return result({ x: \"int\", y: \"int\", r: \"int\", g: \"int\" });\n case \"ivec3\":\n return result({\n x: \"int\",\n y: \"int\",\n z: \"int\",\n r: \"int\",\n g: \"int\",\n b: \"int\",\n });\n case \"ivec4\":\n return result({\n x: \"int\",\n y: \"int\",\n z: \"int\",\n w: \"int\",\n r: \"int\",\n g: \"int\",\n b: \"int\",\n a: \"int\",\n });\n case \"uvec2\":\n return result({ x: \"uint\", y: \"uint\", r: \"uint\", g: \"uint\" });\n case \"uvec3\":\n return result({\n x: \"uint\",\n y: \"uint\",\n z: \"uint\",\n r: \"uint\",\n g: \"uint\",\n b: \"uint\",\n });\n case \"uvec4\":\n return result({\n x: \"uint\",\n y: \"uint\",\n z: \"uint\",\n w: \"uint\",\n r: \"uint\",\n g: \"uint\",\n b: \"uint\",\n a: \"uint\",\n });\n default:\n throw new Error(`Invalid vector type: ${type}`);\n }\n}\n\nexport class Split extends Dyno<\n { vector: V },\n SplitOutTypes\n> {\n constructor({ vector }: { vector: DynoVal }) {\n const type = valType(vector);\n const inTypes = { vector: type };\n const outTypes = splitOutTypes(inTypes.vector);\n super({ inTypes, outTypes, inputs: { vector } });\n this.statements = ({ inputs, outputs }) => {\n const { x, y, z, w, r, g, b, a } = outputs as unknown as Record<\n string,\n string\n >;\n const { vector } = inputs;\n return [\n x ? `${x} = ${vector}.x;` : null,\n y ? `${y} = ${vector}.y;` : null,\n z ? `${z} = ${vector}.z;` : null,\n w ? `${w} = ${vector}.w;` : null,\n r ? `${r} = ${vector}.r;` : null,\n g ? `${g} = ${vector}.g;` : null,\n b ? `${b} = ${vector}.b;` : null,\n a ? `${a} = ${vector}.a;` : null,\n ].filter(Boolean) as string[];\n };\n }\n}\n\nexport class Combine>\n extends Dyno & { vector: V }, { vector: V }>\n implements HasDynoOut\n{\n constructor({\n vector,\n vectorType,\n x,\n y,\n z,\n w,\n r,\n g,\n b,\n a,\n }: {\n vector?: DynoVal;\n vectorType?: V;\n x?: DynoVal;\n y?: DynoVal;\n z?: DynoVal;\n w?: DynoVal;\n r?: DynoVal;\n g?: DynoVal;\n b?: DynoVal;\n a?: DynoVal;\n }) {\n if (!vector && !vectorType) {\n throw new Error(\"Either vector or vectorType must be provided\");\n }\n const vType = vectorType ?? valType(vector as DynoVal);\n const elType = vectorElementType(vType);\n const dim = vectorDim(vType);\n\n const inTypes = {\n vector: vType,\n x: elType,\n y: elType,\n r: elType,\n g: elType,\n } as unknown as SplitOutTypes & { vector: V };\n const inputs = { vector, x, y, r, g };\n if (dim >= 3) {\n Object.assign(inTypes, { z: elType, b: elType });\n Object.assign(inputs, { z, b });\n }\n if (dim >= 4) {\n Object.assign(inTypes, { w: elType, a: elType });\n Object.assign(inputs, { w, a });\n }\n // @ts-ignore\n super({ inTypes, outTypes: { vector: vType }, inputs });\n this.statements = ({ inputs, outputs }) => {\n const { vector } = outputs;\n const {\n vector: input,\n x,\n y,\n z,\n w,\n r,\n g,\n b,\n a,\n } = inputs as Record;\n const statements = [\n `${vector}.x = ${x ?? r ?? (input ? `${input}.x` : literalZero(elType))};`,\n `${vector}.y = ${y ?? g ?? (input ? `${input}.y` : literalZero(elType))};`,\n ];\n if (dim >= 3)\n statements.push(\n `${vector}.z = ${z ?? b ?? (input ? `${input}.z` : literalZero(elType))};`,\n );\n if (dim >= 4)\n statements.push(\n `${vector}.w = ${w ?? a ?? (input ? `${input}.w` : literalZero(elType))};`,\n );\n return statements;\n };\n }\n\n dynoOut(): DynoValue {\n return new DynoOutput & { vector: V }, { vector: V }>(\n this,\n \"vector\",\n );\n }\n}\n\ntype SwizzleOutput<\n A extends VectorTypes,\n Len extends number,\n> = A extends FloatTypes\n ? Len extends 1\n ? \"float\"\n : Len extends 2\n ? \"vec2\"\n : Len extends 3\n ? \"vec3\"\n : Len extends 4\n ? \"vec4\"\n : never\n : A extends IntTypes\n ? Len extends 1\n ? \"int\"\n : Len extends 2\n ? \"ivec2\"\n : Len extends 3\n ? \"ivec3\"\n : Len extends 4\n ? \"ivec4\"\n : never\n : A extends UintTypes\n ? Len extends 1\n ? \"uint\"\n : Len extends 2\n ? \"uvec2\"\n : Len extends 3\n ? \"uvec3\"\n : Len extends 4\n ? \"uvec4\"\n : never\n : never;\n\ntype SwizzleSelectLen = S extends Swizzle1Select\n ? 1\n : S extends Swizzle2Select\n ? 2\n : S extends Swizzle3Select\n ? 3\n : S extends Swizzle4Select\n ? 4\n : never;\n\nfunction swizzleOutputType(\n type: A,\n swizzle: S,\n): SwizzleOutput> {\n let result = null;\n if (isFloatType(type)) {\n result =\n swizzle.length === 1\n ? \"float\"\n : swizzle.length === 2\n ? \"vec2\"\n : swizzle.length === 3\n ? \"vec3\"\n : swizzle.length === 4\n ? \"vec4\"\n : null;\n } else if (isIntType(type)) {\n result =\n swizzle.length === 1\n ? \"int\"\n : swizzle.length === 2\n ? \"ivec2\"\n : swizzle.length === 3\n ? \"ivec3\"\n : swizzle.length === 4\n ? \"ivec4\"\n : null;\n } else if (isUintType(type)) {\n result =\n swizzle.length === 1\n ? \"uint\"\n : swizzle.length === 2\n ? \"uvec2\"\n : swizzle.length === 3\n ? \"uvec3\"\n : swizzle.length === 4\n ? \"uvec4\"\n : null;\n }\n if (result == null) {\n throw new Error(`Invalid swizzle: ${swizzle}`);\n }\n return result as SwizzleOutput>;\n}\n\ntype Swizzle1Select = `${\"x\" | \"y\" | \"z\" | \"w\"}|${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype Swizzle2Select =\n | `${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}`\n | `${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype Swizzle3Select =\n | `${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}`\n | `${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype Swizzle4Select =\n | `${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}${\"x\" | \"y\" | \"z\" | \"w\"}`\n | `${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}${\"r\" | \"g\" | \"b\" | \"a\"}`;\ntype SwizzleSelect =\n | Swizzle1Select\n | Swizzle2Select\n | Swizzle3Select\n | Swizzle4Select;\n\nexport class Swizzle<\n A extends VectorTypes,\n S extends SwizzleSelect,\n> extends UnaryOp>, \"swizzle\"> {\n constructor({ vector, select }: { vector: DynoVal; select: S }) {\n super({\n a: vector,\n outKey: \"swizzle\",\n outTypeFunc: (aType) => swizzleOutputType(aType, select),\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.swizzle} = ${inputs.a}.${select};`,\n ];\n }\n}\n","import { Dyno, DynoBlock, unindent } from \"./base\";\nimport { float, vec2, vec3, vec4 } from \"./convert\";\nimport { mul } from \"./math\";\nimport { type ValueTypes, isIntType, isUintType, sameSizeUvec } from \"./types\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n dynoConst,\n valType,\n} from \"./value\";\nimport { combine } from \"./vecmat\";\n\nexport const remapIndex = (\n index: DynoVal<\"int\">,\n from: DynoVal<\"int\">,\n to: DynoVal<\"int\">,\n): DynoVal<\"int\"> => {\n return new DynoRemapIndex({ index, from, to });\n};\nexport const pcgMix = (\n value: DynoVal,\n): DynoVal<\"uint\"> => {\n return new PcgMix({ value });\n};\nexport const pcgNext = (state: DynoVal<\"uint\">): DynoVal<\"uint\"> => {\n return new PcgNext({ state });\n};\nexport const pcgHash = (state: DynoVal<\"uint\">): DynoVal<\"uint\"> => {\n return new PcgHash({ state });\n};\nexport const hash = (\n value: DynoVal,\n): DynoVal<\"uint\"> => {\n return new Hash({ value });\n};\nexport const hash2 = (\n value: DynoVal,\n): DynoVal<\"uvec2\"> => {\n return new Hash2({ value });\n};\nexport const hash3 = (\n value: DynoVal,\n): DynoVal<\"uvec3\"> => {\n return new Hash3({ value });\n};\nexport const hash4 = (\n value: DynoVal,\n): DynoVal<\"uvec4\"> => {\n return new Hash4({ value });\n};\nexport const hashFloat = (\n value: DynoVal,\n): DynoVal<\"float\"> => {\n return new HashFloat({ value });\n};\nexport const hashVec2 = (\n value: DynoVal,\n): DynoVal<\"vec2\"> => {\n return new HashVec2({ value });\n};\nexport const hashVec3 = (\n value: DynoVal,\n): DynoVal<\"vec3\"> => {\n return new HashVec3({ value });\n};\nexport const hashVec4 = (\n value: DynoVal,\n): DynoVal<\"vec4\"> => {\n return new HashVec4({ value });\n};\nexport const normalizedDepth = (\n z: DynoVal<\"float\">,\n zNear: DynoVal<\"float\">,\n zFar: DynoVal<\"float\">,\n): DynoVal<\"float\"> => {\n return new NormalizedDepth({ z, zNear, zFar }).outputs.depth;\n};\n\nexport const debugColorHue = (index: DynoVal<\"int\">): DynoVal<\"vec3\"> => {\n return new DebugColorHue({ index });\n};\n\nexport class DynoRemapIndex\n extends Dyno<{ from: \"int\"; to: \"int\"; index: \"int\" }, { index: \"int\" }>\n implements HasDynoOut<\"int\">\n{\n constructor({\n from,\n to,\n index,\n }: { from: DynoVal<\"int\">; to: DynoVal<\"int\">; index: DynoVal<\"int\"> }) {\n super({\n inTypes: { from: \"int\", to: \"int\", index: \"int\" },\n outTypes: { index: \"int\" },\n inputs: { from, to, index },\n statements: ({ inputs, outputs }) => {\n return [\n `${outputs.index} = ${inputs.index} - ${inputs.from} + ${inputs.to};`,\n ];\n },\n });\n }\n\n dynoOut(): DynoValue<\"int\"> {\n return new DynoOutput(this, \"index\");\n }\n}\n\nexport class PcgNext\n extends Dyno<{ state: T }, { state: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ state }: { state: DynoVal }) {\n const type = valType(state);\n super({\n inTypes: { state: type },\n outTypes: { state: \"uint\" },\n inputs: { state },\n globals: () => [\n unindent(`\n uint pcg_next(uint state) {\n return state * 747796405u + 2891336453u;\n }\n `),\n ],\n statements: ({ inputs, outputs }) => {\n const toUint =\n type === \"uint\"\n ? `${inputs.state}`\n : type === \"int\"\n ? `uint(${inputs.state})`\n : `floatBitsToUint(${inputs.state})`;\n return [`${outputs.state} = pcg_next(${toUint});`];\n },\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"state\");\n }\n}\n\nexport class PcgHash\n extends Dyno<{ state: \"uint\" }, { hash: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ state }: { state: DynoVal<\"uint\"> }) {\n super({\n inTypes: { state: \"uint\" },\n outTypes: { hash: \"uint\" },\n inputs: { state },\n globals: () => [\n unindent(`\n uint pcg_hash(uint state) {\n uint hash = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u;\n return (hash >> 22u) ^ hash;\n }\n `),\n ],\n statements: ({ inputs, outputs }) => [\n `${outputs.hash} = pcg_hash(${inputs.state});`,\n ],\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class PcgMix\n extends Dyno<{ value: T }, { state: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ value }: { value: DynoVal }) {\n const type = valType(value);\n const tempType = sameSizeUvec(type);\n super({\n inTypes: { value: type },\n outTypes: { state: \"uint\" },\n inputs: { value },\n globals: () => [\n unindent(`\n uint pcg_mix(uint value) {\n return value;\n }\n uint pcg_mix(uvec2 value) {\n return value.x + 0x9e3779b9u * value.y;\n }\n uint pcg_mix(uvec3 value) {\n return value.x + 0x9e3779b9u * value.y + 0x85ebca6bu * value.z;\n }\n uint pcg_mix(uvec4 value) {\n return value.x + 0x9e3779b9u * value.y + 0x85ebca6bu * value.z + 0xc2b2ae35u * value.w;\n }\n `),\n ],\n statements: ({ inputs, outputs }) => {\n const toUvec = isUintType(type)\n ? `${inputs.value}`\n : isIntType(type)\n ? `${tempType}(${inputs.value})`\n : `floatBitsToUint(${inputs.value})`;\n return [\n `${tempType} bits = ${toUvec};`,\n `${outputs.state} = pcg_mix(bits);`,\n ];\n },\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"state\");\n }\n}\n\nexport class Hash\n extends DynoBlock<{ value: T }, { hash: \"uint\" }>\n implements HasDynoOut<\"uint\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uint\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n return new PcgHash({ state }).outputs;\n },\n });\n }\n dynoOut(): DynoValue<\"uint\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class Hash2\n extends DynoBlock<{ value: T }, { hash: \"uvec2\" }>\n implements HasDynoOut<\"uvec2\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uvec2\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n const x = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const y = new PcgHash({ state }).outputs.hash;\n return { hash: combine({ vectorType: \"uvec2\", x, y }) };\n },\n });\n }\n dynoOut(): DynoValue<\"uvec2\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class Hash3\n extends DynoBlock<{ value: T }, { hash: \"uvec3\" }>\n implements HasDynoOut<\"uvec3\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uvec3\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n const x = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const y = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const z = new PcgHash({ state }).outputs.hash;\n return { hash: combine({ vectorType: \"uvec3\", x, y, z }) };\n },\n });\n }\n dynoOut(): DynoValue<\"uvec3\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class Hash4\n extends DynoBlock<{ value: T }, { hash: \"uvec4\" }>\n implements HasDynoOut<\"uvec4\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"uvec4\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n let state = new PcgMix({ value: value }).outputs.state;\n state = new PcgNext({ state }).outputs.state;\n const x = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const y = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const z = new PcgHash({ state }).outputs.hash;\n state = new PcgNext({ state }).outputs.state;\n const w = new PcgHash({ state }).outputs.hash;\n return { hash: combine({ vectorType: \"uvec4\", x, y, z, w }) };\n },\n });\n }\n dynoOut(): DynoValue<\"uvec4\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashFloat\n extends DynoBlock<{ value: T }, { hash: \"float\" }>\n implements HasDynoOut<\"float\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"float\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const word = hash(value);\n return { hash: mul(float(word), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"float\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashVec2\n extends DynoBlock<{ value: T }, { hash: \"vec2\" }>\n implements HasDynoOut<\"vec2\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"vec2\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const words = hash2(value);\n return { hash: mul(vec2(words), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"vec2\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashVec3\n extends DynoBlock<{ value: T }, { hash: \"vec3\" }>\n implements HasDynoOut<\"vec3\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"vec3\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const words = hash3(value);\n return { hash: mul(vec3(words), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"vec3\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class HashVec4\n extends DynoBlock<{ value: T }, { hash: \"vec4\" }>\n implements HasDynoOut<\"vec4\">\n{\n constructor({ value }: { value: DynoVal }) {\n super({\n inTypes: { value: valType(value) },\n outTypes: { hash: \"vec4\" },\n inputs: { value },\n construct: ({ value }) => {\n if (!value) {\n throw new Error(\"value is required\");\n }\n const words = hash4(value);\n return { hash: mul(vec4(words), dynoConst(\"float\", 1 / 2 ** 32)) };\n },\n });\n }\n dynoOut(): DynoValue<\"vec4\"> {\n return new DynoOutput(this, \"hash\");\n }\n}\n\nexport class NormalizedDepth\n extends Dyno<\n { z: \"float\"; zNear: \"float\"; zFar: \"float\" },\n { depth: \"float\" }\n >\n implements HasDynoOut<\"float\">\n{\n constructor({\n z,\n zNear,\n zFar,\n }: { z: DynoVal<\"float\">; zNear: DynoVal<\"float\">; zFar: DynoVal<\"float\"> }) {\n super({\n inTypes: { z: \"float\", zNear: \"float\", zFar: \"float\" },\n outTypes: { depth: \"float\" },\n inputs: { z, zNear, zFar },\n statements: ({ inputs, outputs }) => [\n `float clamped = clamp(${inputs.z}, ${inputs.zNear}, ${inputs.zFar});`,\n `${outputs.depth} = (log2(clamped + 1.0) - log2(${inputs.zNear} + 1.0)) / (log2(${inputs.zFar} + 1.0) - log2(${inputs.zNear} + 1.0));`,\n ],\n });\n }\n\n dynoOut(): DynoValue<\"float\"> {\n return new DynoOutput(this, \"depth\");\n }\n}\n\nexport class DebugColorHue\n extends Dyno<{ index: \"int\" }, { color: \"vec3\" }>\n implements HasDynoOut<\"vec3\">\n{\n constructor({ index }: { index: DynoVal<\"int\"> }) {\n super({\n inTypes: { index: \"int\" },\n outTypes: { color: \"vec3\" },\n inputs: { index },\n statements: ({ inputs, outputs }) => [\n `${outputs.color} = debugColorHue(uint(${inputs.index}));`,\n ],\n });\n }\n\n dynoOut(): DynoValue<\"vec3\"> {\n return new DynoOutput(this, \"color\");\n }\n}\n","import { Dyno } from \"./base\";\nimport type { DynoVal } from \"./value\";\n\nexport const transformPos = (\n position: DynoVal<\"vec3\">,\n {\n scale,\n scales,\n rotate,\n translate,\n }: {\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n },\n): DynoVal<\"vec3\"> => {\n return new TransformPosition({ position, scale, scales, rotate, translate })\n .outputs.position;\n};\nexport const transformDir = (\n dir: DynoVal<\"vec3\">,\n {\n scale,\n scales,\n rotate,\n }: {\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n },\n): DynoVal<\"vec3\"> => {\n return new TransformDir({ dir, scale, scales, rotate }).outputs.dir;\n};\nexport const transformQuat = (\n quaternion: DynoVal<\"vec4\">,\n { rotate }: { rotate?: DynoVal<\"vec4\"> },\n): DynoVal<\"vec4\"> => {\n return new TransformQuaternion({ quaternion, rotate }).outputs.quaternion;\n};\n\nexport class TransformPosition extends Dyno<\n {\n position: \"vec3\";\n scale: \"float\";\n scales: \"vec3\";\n rotate: \"vec4\";\n translate: \"vec3\";\n },\n { position: \"vec3\" }\n> {\n constructor({\n position,\n scale,\n scales,\n rotate,\n translate,\n }: {\n position?: DynoVal<\"vec3\">;\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n translate?: DynoVal<\"vec3\">;\n }) {\n super({\n inTypes: {\n position: \"vec3\",\n scale: \"float\",\n scales: \"vec3\",\n rotate: \"vec4\",\n translate: \"vec3\",\n },\n outTypes: { position: \"vec3\" },\n inputs: { position, scale, scales, rotate, translate },\n statements: ({ inputs, outputs }) => {\n const { position } = outputs;\n if (!position) {\n return [];\n }\n const { scale, scales, rotate, translate } = inputs;\n return [\n `${position} = ${inputs.position ?? \"vec3(0.0, 0.0, 0.0)\"};`,\n !scale ? null : `${position} *= ${scale};`,\n !scales ? null : `${position} *= ${scales};`,\n !rotate ? null : `${position} = quatVec(${rotate}, ${position});`,\n !translate ? null : `${position} += ${translate};`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class TransformDir extends Dyno<\n { dir: \"vec3\"; scale: \"float\"; scales: \"vec3\"; rotate: \"vec4\" },\n { dir: \"vec3\" }\n> {\n constructor({\n dir,\n scale,\n scales,\n rotate,\n }: {\n dir?: DynoVal<\"vec3\">;\n scale?: DynoVal<\"float\">;\n scales?: DynoVal<\"vec3\">;\n rotate?: DynoVal<\"vec4\">;\n }) {\n super({\n inTypes: { dir: \"vec3\", scale: \"float\", scales: \"vec3\", rotate: \"vec4\" },\n outTypes: { dir: \"vec3\" },\n inputs: { dir, scale, scales, rotate },\n statements: ({ inputs, outputs }) => {\n const { dir } = outputs;\n if (!dir) {\n return [];\n }\n const { scale, scales, rotate } = inputs;\n return [\n `${dir} = ${inputs.dir ?? \"vec3(0.0, 0.0, 0.0)\"};`,\n !scale ? null : `${dir} *= ${scale};`,\n !scales ? null : `${dir} *= ${scales};`,\n !rotate ? null : `${dir} = quatVec(${rotate}, ${dir});`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n\nexport class TransformQuaternion extends Dyno<\n { quaternion: \"vec4\"; rotate: \"vec4\" },\n { quaternion: \"vec4\" }\n> {\n constructor({\n quaternion,\n rotate,\n }: { quaternion?: DynoVal<\"vec4\">; rotate?: DynoVal<\"vec4\"> }) {\n super({\n inTypes: { quaternion: \"vec4\", rotate: \"vec4\" },\n outTypes: { quaternion: \"vec4\" },\n inputs: { quaternion, rotate },\n statements: ({ inputs, outputs }) => {\n const { quaternion } = outputs;\n if (!quaternion) {\n return [];\n }\n return [\n `${quaternion} = ${inputs.quaternion ?? \"vec4(0.0, 0.0, 0.0, 1.0)\"};`,\n !rotate\n ? null\n : `${quaternion} = quatQuat(${inputs.rotate}, ${quaternion});`,\n ].filter(Boolean) as string[];\n },\n });\n }\n}\n","// TODO:\n// if, switch, for, comment,\n// arrayIndex, arrayLength,\n\nexport const dynoIf = () => {\n throw new Error(\"Not implemented\");\n};\nexport const dynoSwitch = () => {\n throw new Error(\"Not implemented\");\n};\nexport const dynoFor = () => {\n throw new Error(\"Not implemented\");\n};\nexport const comment = () => {\n throw new Error(\"Not implemented\");\n};\nexport const arrayIndex = () => {\n throw new Error(\"Not implemented\");\n};\nexport const arrayLength = () => {\n throw new Error(\"Not implemented\");\n};\n","import { Dyno } from \"./base\";\nimport type {\n AllSamplerTypes,\n IsamplerTypes,\n NormalSamplerTypes,\n Sampler2DArrayTypes,\n Sampler2DTypes,\n Sampler3DTypes,\n SamplerCubeTypes,\n SamplerShadowTypes,\n SamplerTypes,\n UsamplerTypes,\n} from \"./types\";\nimport {\n DynoOutput,\n type DynoVal,\n type DynoValue,\n type HasDynoOut,\n valType,\n} from \"./value\";\n\nexport const textureSize = (\n texture: DynoVal,\n lod?: DynoVal<\"int\">,\n): DynoVal> => new TextureSize({ texture, lod });\nexport const texture = (\n texture: DynoVal,\n coord: DynoVal>,\n bias?: DynoVal<\"float\">,\n): DynoVal> => new Texture({ texture, coord, bias });\nexport const texelFetch = (\n texture: DynoVal,\n coord: DynoVal>,\n lod?: DynoVal<\"int\">,\n): DynoVal> => new TexelFetch({ texture, coord, lod });\n\nexport class TextureSize\n extends Dyno<{ texture: T; lod: \"int\" }, { size: TextureSizeType }>\n implements HasDynoOut>\n{\n constructor({ texture, lod }: { texture: DynoVal; lod?: DynoVal<\"int\"> }) {\n const textureType = valType(texture);\n super({\n inTypes: { texture: textureType, lod: \"int\" },\n outTypes: { size: textureSizeType(textureType) },\n inputs: { texture, lod },\n statements: ({ inputs, outputs }) => [\n `${outputs.size} = textureSize(${inputs.texture}, ${inputs.lod ?? \"0\"});`,\n ],\n });\n }\n\n dynoOut(): DynoValue> {\n return new DynoOutput(this, \"size\");\n }\n}\n\nexport class Texture\n extends Dyno<\n { texture: T; coord: TextureCoordType; bias: \"float\" },\n { sample: TextureReturnType }\n >\n implements HasDynoOut>\n{\n constructor({\n texture,\n coord,\n bias,\n }: {\n texture: DynoVal;\n coord: DynoVal>;\n bias?: DynoVal<\"float\">;\n }) {\n const textureType = valType(texture);\n super({\n inTypes: {\n texture: textureType,\n coord: textureCoordType(textureType),\n bias: \"float\",\n },\n outTypes: { sample: textureReturnType(textureType) },\n inputs: { texture, coord, bias },\n statements: ({ inputs, outputs }) => [\n `${outputs.sample} = texture(${inputs.texture}, ${inputs.coord}${inputs.bias ? `, ${inputs.bias}` : \"\"});`,\n ],\n });\n }\n\n dynoOut(): DynoValue> {\n return new DynoOutput(this, \"sample\");\n }\n}\n\nexport class TexelFetch\n extends Dyno<\n { texture: T; coord: TextureSizeType; lod: \"int\" },\n { texel: TextureReturnType }\n >\n implements HasDynoOut>\n{\n constructor({\n texture,\n coord,\n lod,\n }: {\n texture: DynoVal;\n coord: DynoVal>;\n lod?: DynoVal<\"int\">;\n }) {\n const textureType = valType(texture);\n super({\n inTypes: {\n texture: textureType,\n coord: textureSizeType(textureType),\n lod: \"int\",\n },\n outTypes: { texel: textureReturnType(textureType) },\n inputs: { texture, coord, lod },\n statements: ({ inputs, outputs }) => [\n `${outputs.texel} = texelFetch(${inputs.texture}, ${inputs.coord}, ${inputs.lod ?? \"0\"});`,\n ],\n });\n }\n\n dynoOut(): DynoValue> {\n return new DynoOutput(this, \"texel\");\n }\n}\n\ntype TextureSizeType = T extends\n | Sampler2DTypes\n | SamplerCubeTypes\n ? \"ivec2\"\n : T extends Sampler3DTypes | Sampler2DArrayTypes\n ? \"ivec3\"\n : never;\n\nfunction textureSizeType(\n textureType: T,\n): TextureSizeType {\n switch (textureType) {\n case \"sampler2D\":\n case \"usampler2D\":\n case \"isampler2D\":\n case \"samplerCube\":\n case \"usamplerCube\":\n case \"isamplerCube\":\n case \"sampler2DShadow\":\n case \"samplerCubeShadow\":\n return \"ivec2\" as TextureSizeType;\n case \"sampler3D\":\n case \"usampler3D\":\n case \"isampler3D\":\n case \"sampler2DArray\":\n case \"usampler2DArray\":\n case \"isampler2DArray\":\n case \"sampler2DArrayShadow\":\n return \"ivec3\" as TextureSizeType;\n default:\n throw new Error(`Invalid texture type: ${textureType}`);\n }\n}\n\ntype TextureCoordType = T extends Sampler2DTypes\n ? \"vec2\"\n : T extends\n | Sampler3DTypes\n | Sampler2DArrayTypes\n | SamplerCubeTypes\n | Sampler2DArrayTypes\n ? \"vec3\"\n : T extends \"samperCubeShadow\" | \"sampler2DArrayShadow\"\n ? \"vec4\"\n : never;\n\nfunction textureCoordType(\n textureType: T,\n): TextureCoordType {\n switch (textureType) {\n case \"sampler2D\":\n case \"usampler2D\":\n case \"isampler2D\":\n return \"vec2\" as TextureCoordType;\n case \"sampler3D\":\n case \"usampler3D\":\n case \"isampler3D\":\n case \"samplerCube\":\n case \"usamplerCube\":\n case \"isamplerCube\":\n case \"sampler2DArray\":\n case \"usampler2DArray\":\n case \"isampler2DArray\":\n case \"sampler2DShadow\":\n return \"vec3\" as TextureCoordType;\n case \"samplerCubeShadow\":\n case \"sampler2DArrayShadow\":\n return \"vec4\" as TextureCoordType;\n default:\n throw new Error(`Invalid texture type: ${textureType}`);\n }\n}\n\ntype TextureReturnType = T extends SamplerTypes\n ? \"vec4\"\n : T extends UsamplerTypes\n ? \"uvec4\"\n : T extends IsamplerTypes\n ? \"ivec4\"\n : T extends SamplerShadowTypes\n ? \"float\"\n : never;\n\nfunction textureReturnType(\n textureType: T,\n): TextureReturnType {\n switch (textureType) {\n case \"sampler2D\":\n case \"sampler2DArray\":\n case \"sampler3D\":\n case \"samplerCube\":\n case \"sampler2DShadow\":\n return \"vec4\" as TextureReturnType;\n case \"usampler2D\":\n case \"usampler2DArray\":\n case \"usampler3D\":\n case \"usamplerCube\":\n return \"uvec4\" as TextureReturnType;\n case \"isampler2D\":\n case \"isampler2DArray\":\n case \"isampler3D\":\n case \"isamplerCube\":\n return \"ivec4\" as TextureReturnType;\n case \"samplerCubeShadow\":\n case \"sampler2DArrayShadow\":\n return \"float\" as TextureReturnType;\n default:\n throw new Error(`Invalid texture type: ${textureType}`);\n }\n}\n","import { BinaryOp, UnaryOp } from \"./base\";\nimport type { FloatTypes } from \"./types\";\nimport type { DynoVal } from \"./value\";\n\nexport const radians = (\n degrees: DynoVal,\n): DynoVal => new Radians({ degrees });\nexport const degrees = (\n radians: DynoVal,\n): DynoVal => new Degrees({ radians });\n\nexport const sin = (radians: DynoVal): DynoVal =>\n new Sin({ radians });\nexport const cos = (radians: DynoVal): DynoVal =>\n new Cos({ radians });\nexport const tan = (radians: DynoVal): DynoVal =>\n new Tan({ radians });\n\nexport const asin = (sin: DynoVal): DynoVal =>\n new Asin({ sin });\nexport const acos = (cos: DynoVal): DynoVal =>\n new Acos({ cos });\nexport const atan = (tan: DynoVal): DynoVal =>\n new Atan({ tan });\nexport const atan2 = (\n y: DynoVal,\n x: DynoVal,\n): DynoVal => new Atan2({ y, x });\n\nexport const sinh = (x: DynoVal): DynoVal =>\n new Sinh({ x });\nexport const cosh = (x: DynoVal): DynoVal =>\n new Cosh({ x });\nexport const tanh = (x: DynoVal): DynoVal =>\n new Tanh({ x });\n\nexport const asinh = (x: DynoVal): DynoVal =>\n new Asinh({ x });\nexport const acosh = (x: DynoVal): DynoVal =>\n new Acosh({ x });\nexport const atanh = (x: DynoVal): DynoVal =>\n new Atanh({ x });\n\nexport class Radians extends UnaryOp {\n constructor({ degrees }: { degrees: DynoVal }) {\n super({ a: degrees, outTypeFunc: (aType) => aType, outKey: \"radians\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.radians} = radians(${inputs.a});`,\n ];\n }\n}\n\nexport class Degrees extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"degrees\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.degrees} = degrees(${inputs.a});`,\n ];\n }\n}\n\nexport class Sin extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"sin\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.sin} = sin(${inputs.a});`,\n ];\n }\n}\n\nexport class Cos extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"cos\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.cos} = cos(${inputs.a});`,\n ];\n }\n}\n\nexport class Tan extends UnaryOp {\n constructor({ radians }: { radians: DynoVal }) {\n super({ a: radians, outTypeFunc: (aType) => aType, outKey: \"tan\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.tan} = tan(${inputs.a});`,\n ];\n }\n}\n\nexport class Asin extends UnaryOp {\n constructor({ sin }: { sin: DynoVal }) {\n super({ a: sin, outTypeFunc: (aType) => aType, outKey: \"asin\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.asin} = asin(${inputs.a});`,\n ];\n }\n}\n\nexport class Acos extends UnaryOp {\n constructor({ cos }: { cos: DynoVal }) {\n super({ a: cos, outTypeFunc: (aType) => aType, outKey: \"acos\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.acos} = acos(${inputs.a});`,\n ];\n }\n}\n\nexport class Atan extends UnaryOp {\n constructor({ tan }: { tan: DynoVal }) {\n super({ a: tan, outTypeFunc: (aType) => aType, outKey: \"atan\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.atan} = atan(${inputs.a});`,\n ];\n }\n}\n\nexport class Atan2 extends BinaryOp {\n constructor({ y, x }: { y: DynoVal; x: DynoVal }) {\n super({\n a: y,\n b: x,\n outTypeFunc: (aType, bType) => aType,\n outKey: \"atan2\",\n });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.atan2} = atan2(${inputs.a}, ${inputs.b});`,\n ];\n }\n}\n\nexport class Sinh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"sinh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.sinh} = sinh(${inputs.a});`,\n ];\n }\n}\n\nexport class Cosh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"cosh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.cosh} = cosh(${inputs.a});`,\n ];\n }\n}\n\nexport class Tanh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"tanh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.tanh} = tanh(${inputs.a});`,\n ];\n }\n}\n\nexport class Asinh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"asinh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.asinh} = asinh(${inputs.a});`,\n ];\n }\n}\n\nexport class Acosh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"acosh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.acosh} = acosh(${inputs.a});`,\n ];\n }\n}\n\nexport class Atanh extends UnaryOp {\n constructor({ x }: { x: DynoVal }) {\n super({ a: x, outTypeFunc: (aType) => aType, outKey: \"atanh\" });\n this.statements = ({ inputs, outputs }) => [\n `${outputs.atanh} = atanh(${inputs.a});`,\n ];\n }\n}\n","import * as THREE from \"three\";\nimport type { RgbaArray } from \"./RgbaArray\";\nimport { SplatLoader } from \"./SplatLoader\";\nimport type { SplatSource } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport { SPLAT_TEX_WIDTH, type SplatFileType } from \"./defines\";\nimport {\n Dyno,\n DynoInt,\n type DynoType,\n DynoUniform,\n DynoUsampler2DArray,\n type DynoVal,\n type Gsplat,\n TExtSplats,\n add,\n combineGsplat,\n defineExtSplats,\n normalize,\n readExtSplat,\n splatTexCoord,\n splitGsplat,\n sub,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { decodeExtSplat, encodeExtSplat, getTextureSize } from \"./utils\";\n\nexport type ExtSplatsOptions = {\n // URL to fetch a Gaussian splat file from (supports .ply, .splat, .ksplat,\n // .spz formats). (default: undefined)\n url?: string;\n // Raw bytes of a Gaussian splat file to decode directly instead of fetching\n // from URL. (default: undefined)\n fileBytes?: Uint8Array | ArrayBuffer;\n // Override the file type detection for formats that can't be reliably\n // auto-detected (.splat, .ksplat). (default: undefined auto-detects other\n // formats from file contents)\n fileType?: SplatFileType;\n // File name to use for type detection. (default: undefined)\n fileName?: string;\n // Stream to read the Gaussian splat file from. (default: undefined)\n stream?: ReadableStream;\n // Length of the stream in bytes. (default: undefined)\n streamLength?: number;\n // Reserve space for at least this many splats when constructing the collection\n // initially. The array will automatically resize past maxSplats so setting it is\n // an optional optimization. (default: 0)\n maxSplats?: number;\n // Use provided pair of uint32 arrays, where blocks of 4 uint32s in each,\n // encode an \"extended packed\" Gsplat. (default: undefined)\n extArrays?: [Uint32Array, Uint32Array];\n // Override number of splats in packed arrays to use only a subset.\n // (default: length of packed array / 4)\n numSplats?: number;\n // Callback function to programmatically create splats at initialization.\n // (default: undefined)\n construct?: (splats: ExtSplats) => Promise | void;\n // Callback function called while downloading and initializing (default: undefined)\n onProgress?: (event: ProgressEvent) => void;\n // Additional splat data, such as spherical harmonics components (sh1, sh2, sh3). (default: {})\n extra?: Record;\n // Enable LOD. If a number is provided, it will be used as LoD level base,\n // otherwise the default 1.5 is used. When loading a file without pre-computed\n // LoD it will use the \"quick lod\" algorithm to generate one on-the-fly with\n // the selected LoD level base. (default: undefined=false)\n lod?: boolean | \"quality\";\n // Keep the original PackedSplats data before creating LoD version. (default: false)\n nonLod?: boolean;\n // Only create LoD if the input splat acount is above this\n lodAbove?: number;\n // The LoD version of the ExtSplats\n lodSplats?: ExtSplats;\n};\n\nexport class ExtSplats implements SplatSource {\n maxSplats = 0;\n numSplats = 0;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record = {};\n maxSh = 3;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodSplats?: ExtSplats;\n\n initialized: Promise;\n isInitialized = false;\n\n textures: [THREE.DataArrayTexture, THREE.DataArrayTexture];\n\n // A PackedSplats can be used in a dyno graph using the below property dyno:\n // const gsplat = dyno.readPackedSplats(this.dyno, dynoIndex);\n dyno: DynoUniform;\n dynoNumSh: DynoInt<\"numSh\">;\n\n constructor(options: ExtSplatsOptions = {}) {\n this.extArrays = [new Uint32Array(0), new Uint32Array(0)];\n this.textures = [ExtSplats.emptyTexture, ExtSplats.emptyTexture];\n\n this.extra = {};\n this.dyno = new DynoExtSplats({ extSplats: this });\n this.dynoNumSh = new DynoInt({\n key: \"numSh\",\n value: 0,\n update: () => {\n return Math.min(this.getNumSh(), this.maxSh);\n },\n });\n\n // The following line will be overridden by reinitialize()\n this.initialized = Promise.resolve(this);\n this.reinitialize(options);\n }\n\n reinitialize(options: ExtSplatsOptions) {\n this.isInitialized = false;\n\n this.extra = {};\n this.maxSplats = options.maxSplats ?? 0;\n this.lod = options.lod;\n this.nonLod = options.nonLod;\n\n if (\n options.url ||\n options.fileBytes ||\n options.stream ||\n options.construct\n ) {\n // We need to initialize asynchronously given the options\n this.initialized = this.asyncInitialize(options).then(() => {\n this.isInitialized = true;\n return this;\n });\n } else {\n this.initialize(options);\n this.isInitialized = true;\n this.initialized = Promise.resolve(this);\n }\n }\n\n initialize(options: ExtSplatsOptions) {\n this.extra = options.extra ?? {};\n this.lodSplats = options.lodSplats;\n\n if (options.extArrays) {\n this.extArrays = options.extArrays;\n this.maxSplats = Math.floor(\n Math.min(this.extArrays[0].length / 4, this.extArrays[1].length / 4),\n );\n this.numSplats = options.numSplats ?? this.maxSplats;\n\n // Calculate number of horizontal texture rows that could fit in array.\n // A properly initialized packedArray should already take into account the\n // width and height of the texture and be rounded up with padding.\n this.maxSplats =\n Math.floor(this.maxSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n this.numSplats = Math.min(\n this.maxSplats,\n options.numSplats ?? Number.POSITIVE_INFINITY,\n );\n this.updateTextures();\n } else {\n this.maxSplats = options.maxSplats ?? 0;\n this.numSplats = 0;\n this.extArrays = [new Uint32Array(0), new Uint32Array(0)];\n }\n }\n\n async asyncInitialize(options: ExtSplatsOptions) {\n const {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n construct,\n lod,\n nonLod,\n lodAbove,\n } = options;\n this.lod = lod;\n this.nonLod = nonLod;\n\n const loader = new SplatLoader();\n if (fileBytes || url || stream) {\n await loader.loadInternalAsync({\n extSplats: this,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress: options.onProgress,\n lodAbove,\n });\n }\n\n if (construct) {\n const maybePromise = construct(this);\n // If construct returns a promise, wait for it to complete\n if (maybePromise instanceof Promise) {\n await maybePromise;\n }\n }\n }\n\n // Call this when you are finished with the PackedSplats and want to free\n // any buffers it holds.\n dispose() {\n if (this.textures[0] !== ExtSplats.emptyTexture) {\n this.textures[0].dispose();\n this.textures[0].source.data = null;\n this.textures[0] = ExtSplats.emptyTexture;\n }\n if (this.textures[1] !== ExtSplats.emptyTexture) {\n this.textures[1].dispose();\n this.textures[1].source.data = null;\n this.textures[1] = ExtSplats.emptyTexture;\n }\n\n this.extArrays = [new Uint32Array(0), new Uint32Array(0)];\n\n for (const key in this.extra) {\n const dyno = this.extra[key] as DynoUniform<\n DynoType,\n string,\n THREE.Texture\n >;\n if (dyno instanceof DynoUniform) {\n const texture = dyno.value;\n if (texture?.isTexture) {\n texture.dispose();\n texture.source.data = null;\n }\n }\n }\n this.extra = {};\n\n this.disposeLodSplats();\n }\n\n prepareFetchSplat() {\n // console.info(\"ExtSplats.prepareFetchSplat\");\n }\n\n getNumSplats(): number {\n return this.numSplats;\n }\n\n hasRgbDir(): boolean {\n return Math.min(this.getNumSh(), this.maxSh) > 0;\n }\n\n getNumSh(): number {\n return !this.extra.sh1\n ? 0\n : !this.extra.sh2\n ? 1\n : !this.extra.sh3a || !this.extra.sh3b\n ? 2\n : 3;\n }\n\n setMaxSh(maxSh: number) {\n this.maxSh = maxSh;\n }\n\n fetchSplat({\n index,\n viewOrigin,\n }: { index: DynoVal<\"int\">; viewOrigin?: DynoVal<\"vec3\"> }): DynoVal<\n typeof Gsplat\n > {\n let gsplat = readExtSplat(this.dyno, index);\n\n if (this.hasRgbDir() && viewOrigin) {\n const splatCenter = splitGsplat(gsplat).outputs.center;\n const viewDir = normalize(sub(splatCenter, viewOrigin));\n const { sh1Texture, sh2Texture, sh3TextureA, sh3TextureB } =\n this.ensureShTextures();\n let { rgb } = evaluateExtSH({\n coord: splatTexCoord(index),\n viewDir,\n numSh: this.dynoNumSh,\n sh1Texture,\n sh2Texture,\n sh3TextureA,\n sh3TextureB,\n });\n rgb = add(rgb, splitGsplat(gsplat).outputs.rgb);\n gsplat = combineGsplat({ gsplat, rgb });\n }\n return gsplat;\n }\n\n private ensureShTextures(): {\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3TextureA?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n sh3TextureB?: DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>;\n } {\n // Ensure we have textures for SH1..SH3 if we have data\n if (!this.extra.sh1) {\n return {};\n }\n\n let sh1Texture = this.extra.sh1Texture as\n | DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>\n | undefined;\n if (!sh1Texture) {\n let sh1 = this.extra.sh1 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh1.length / 4,\n );\n if (sh1.length < maxSplats * 4) {\n const newSh1 = new Uint32Array(maxSplats * 4);\n newSh1.set(sh1);\n this.extra.sh1 = newSh1;\n sh1 = newSh1;\n }\n const texture = newUint32ArrayTexture(\n sh1,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh1Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh1\",\n });\n this.extra.sh1Texture = sh1Texture;\n }\n\n if (!this.extra.sh2) {\n return { sh1Texture };\n }\n\n let sh2Texture = this.extra.sh2Texture as\n | DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>\n | undefined;\n if (!sh2Texture) {\n let sh2 = this.extra.sh2 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh2.length / 4,\n );\n if (sh2.length < maxSplats * 4) {\n const newSh2 = new Uint32Array(maxSplats * 4);\n newSh2.set(sh2);\n this.extra.sh2 = newSh2;\n sh2 = newSh2;\n }\n\n const texture = newUint32ArrayTexture(\n sh2,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh2Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh2\",\n });\n this.extra.sh2Texture = sh2Texture;\n }\n\n if (!this.extra.sh3a || !this.extra.sh3b) {\n return { sh1Texture, sh2Texture };\n }\n\n let sh3TextureA = this.extra.sh3TextureA as\n | DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>\n | undefined;\n if (!sh3TextureA) {\n let sh3a = this.extra.sh3a as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh3a.length / 4,\n );\n if (sh3a.length < maxSplats * 4) {\n const newSh3 = new Uint32Array(maxSplats * 4);\n newSh3.set(sh3a);\n this.extra.sh3a = newSh3;\n sh3a = newSh3;\n }\n\n const texture = newUint32ArrayTexture(\n sh3a,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh3TextureA = new DynoUsampler2DArray({\n value: texture,\n key: \"sh3\",\n });\n this.extra.sh3TextureA = sh3TextureA;\n }\n\n let sh3TextureB = this.extra.sh3TextureB as\n | DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>\n | undefined;\n if (!sh3TextureB) {\n let sh3b = this.extra.sh3b as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh3b.length / 4,\n );\n if (sh3b.length < maxSplats * 4) {\n const newSh3b = new Uint32Array(maxSplats * 4);\n newSh3b.set(sh3b);\n this.extra.sh3b = newSh3b;\n sh3b = newSh3b;\n }\n\n const texture = newUint32ArrayTexture(\n sh3b,\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n sh3TextureB = new DynoUsampler2DArray({\n value: texture,\n key: \"sh3b\",\n });\n this.extra.sh3TextureB = sh3TextureB;\n }\n\n return { sh1Texture, sh2Texture, sh3TextureA, sh3TextureB };\n }\n\n // Ensures that this.extArrays can fit numSplats Gsplats. If it's too small,\n // resize exponentially and copy over the original data.\n //\n // Typically you don't need to call this, because calling this.setSplat(index, ...)\n // and this.pushSplat(...) will automatically call ensureSplats() so we have\n // enough splats.\n ensureSplats(numSplats: number): [Uint32Array, Uint32Array] {\n const targetSize =\n numSplats <= this.maxSplats\n ? this.maxSplats\n : // Grow exponentially to avoid frequent reallocations\n Math.max(numSplats, 2 * this.maxSplats);\n const currentSize = !this.extArrays[0] ? 0 : this.extArrays[0].length / 4;\n\n if (!this.extArrays[0] || targetSize > currentSize) {\n this.maxSplats = getTextureSize(targetSize).maxSplats;\n const newArray0 = new Uint32Array(this.maxSplats * 4);\n const newArray1 = new Uint32Array(this.maxSplats * 4);\n if (this.extArrays[0]) {\n // Copy over existing data\n newArray0.set(this.extArrays[0]);\n newArray1.set(this.extArrays[1]);\n }\n this.extArrays[0] = newArray0;\n this.extArrays[1] = newArray1;\n }\n return this.extArrays;\n }\n\n // Unpack the 16-byte Gsplat data at index into the Three.js components\n // center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion,\n // opacity: number 0..1, color: THREE.Color 0..1.\n getSplat(index: number): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n opacity: number;\n color: THREE.Color;\n } {\n if (index >= this.numSplats) {\n throw new Error(\"Invalid index\");\n }\n return decodeExtSplat(this.extArrays, index);\n }\n\n // Set all ExtSplat components at index with the provided Gsplat attributes\n // (can be the same objects returned by getSplat). Ensures there is capacity\n // for at least index+1 Gsplats.\n setSplat(\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const extArrays = this.ensureSplats(index + 1);\n encodeExtSplat(\n extArrays,\n index,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n this.numSplats = Math.max(this.numSplats, index + 1);\n }\n\n // Effectively calls this.setSplat(this.numSplats++, center, ...), useful on\n // construction where you just want to iterate and create a collection of Gsplats.\n pushSplat(\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const extArrays = this.ensureSplats(this.numSplats + 1);\n encodeExtSplat(\n extArrays,\n this.numSplats,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n ++this.numSplats;\n }\n\n // Iterate over Gsplats index 0..=(this.numSplats-1), unpack each Gsplat\n // and invoke the callback function with the Gsplat attributes.\n forEachSplat(\n callback: (\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => void,\n ) {\n if (!this.numSplats) {\n return;\n }\n for (let i = 0; i < this.numSplats; ++i) {\n const unpacked = decodeExtSplat(this.extArrays, i);\n callback(\n i,\n unpacked.center,\n unpacked.scales,\n unpacked.quaternion,\n unpacked.opacity,\n unpacked.color,\n );\n }\n }\n\n // Check if source texture needs to be created/updated\n private updateTextures() {\n if (this.textures[0] !== ExtSplats.emptyTexture) {\n const { width, height, depth } = this.textures[0].image;\n if (this.maxSplats !== width * height * depth) {\n // The existing source texture isn't the right size, so dispose it\n this.textures[0].dispose();\n this.textures[0] = ExtSplats.emptyTexture;\n this.textures[1].dispose();\n this.textures[1] = ExtSplats.emptyTexture;\n }\n }\n if (this.textures[0] === ExtSplats.emptyTexture) {\n // Allocate a new source texture of the right size\n const { width, height, depth } = getTextureSize(this.maxSplats);\n this.textures[0] = newUint32ArrayTexture(\n this.extArrays[0],\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n this.textures[1] = newUint32ArrayTexture(\n this.extArrays[1],\n width,\n height,\n depth,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n } else if (\n this.extArrays[0].buffer !== this.textures[0].image.data.buffer\n ) {\n this.textures[0].image.data = new Uint8Array(this.extArrays[0].buffer);\n this.textures[1].image.data = new Uint8Array(this.extArrays[1].buffer);\n // Indicate to Three.js that the source textures needs to be uploaded to the GPU\n this.textures[0].needsUpdate = true;\n this.textures[1].needsUpdate = true;\n }\n }\n\n extractSplats(indices: Uint32Array, pageColoring: boolean) {\n const maxSplats = getTextureSize(indices.length).maxSplats;\n const newSplats = new ExtSplats({ maxSplats });\n for (let i = 0; i < indices.length; i++) {\n const splat = this.getSplat(indices[i]);\n if (pageColoring) {\n let hue = (indices[i] >>> 16) * 0.61803398875;\n hue = hue - Math.floor(hue);\n const r = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 3.0) - 1.0));\n const g = Math.max(0, Math.min(1, Math.abs(hue * 6.0 + 1.0) - 1.0));\n const b = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 1.0) - 1.0));\n splat.color.r *= r;\n splat.color.g *= g;\n splat.color.b *= b;\n }\n newSplats.pushSplat(\n splat.center,\n splat.scales,\n splat.quaternion,\n splat.opacity,\n splat.color,\n );\n }\n return newSplats;\n }\n\n static emptyArray = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyTexture = newUint32ArrayTexture(\n null,\n 1,\n 1,\n 1,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n\n disposeLodSplats() {\n if (this.lodSplats) {\n this.lodSplats.dispose();\n this.lodSplats = undefined;\n }\n }\n\n async createLodSplats({\n rgbaArray,\n quality,\n }: { rgbaArray?: RgbaArray; quality?: boolean } = {}) {\n const lodBase =\n typeof this.lod === \"number\"\n ? Math.max(1.1, Math.min(2.0, this.lod))\n : quality\n ? 1.75\n : 1.5;\n const extArrays = [this.extArrays[0].slice(), this.extArrays[1].slice()];\n const rgba = rgbaArray ? (await rgbaArray.getArray()).slice() : undefined;\n const extra = {\n sh1: this.extra.sh1 ? (this.extra.sh1 as Uint32Array).slice() : undefined,\n sh2: this.extra.sh2 ? (this.extra.sh2 as Uint32Array).slice() : undefined,\n sh3: this.extra.sh3 ? (this.extra.sh3 as Uint32Array).slice() : undefined,\n };\n const decoded = await workerPool.withWorker(async (worker) => {\n return (await worker.call(\n quality ? \"qualityLodExtSplats\" : \"tinyLodExtSplats\",\n {\n numSplats: this.numSplats,\n extArrays,\n extra,\n lodBase,\n rgba,\n },\n )) as {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record;\n };\n });\n\n const lodSplats = new ExtSplats(decoded);\n if (this.lodSplats) {\n this.lodSplats.dispose();\n }\n\n this.lodSplats = lodSplats;\n this.nonLod = true;\n this.lod = quality ? \"quality\" : true;\n }\n\n static emptyUint32x4 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n}\n\nexport const dynoExtSplats = (extSplats?: ExtSplats) =>\n new DynoExtSplats({ extSplats });\n\nexport class DynoExtSplats extends DynoUniform<\n typeof TExtSplats,\n \"extSplats\",\n {\n textureArray1: THREE.DataArrayTexture;\n textureArray2: THREE.DataArrayTexture;\n numSplats: number;\n }\n> {\n extSplats?: ExtSplats;\n\n constructor({ extSplats }: { extSplats?: ExtSplats } = {}) {\n super({\n key: \"extSplats\",\n type: TExtSplats,\n globals: () => [defineExtSplats],\n value: {\n textureArray1: ExtSplats.emptyTexture,\n textureArray2: ExtSplats.emptyTexture,\n numSplats: 0,\n },\n update: (value) => {\n value.textureArray1 =\n this.extSplats?.textures[0] ?? ExtSplats.emptyTexture;\n value.textureArray2 =\n this.extSplats?.textures[1] ?? ExtSplats.emptyTexture;\n value.numSplats = this.extSplats?.numSplats ?? 0;\n return value;\n },\n });\n this.extSplats = extSplats;\n }\n}\n\nexport const defineEvaluateExtSH1 = unindent(`\n vec3 evaluateExtSH1(uvec4 packed, vec3 viewDir) {\n vec3 sh1_0 = decodeExtRgb(packed.x);\n vec3 sh1_1 = decodeExtRgb(packed.y);\n vec3 sh1_2 = decodeExtRgb(packed.z);\n\n return sh1_0 * (-0.4886025 * viewDir.y)\n + sh1_1 * (0.4886025 * viewDir.z)\n + sh1_2 * (-0.4886025 * viewDir.x);\n }\n`);\n\nexport const defineEvaluateExtSH12 = unindent(`\n vec3 evaluateExtSH12(uvec4 packed1, uvec4 packed2, vec3 viewDir) {\n vec3 sh1_0 = decodeExtRgb(packed1.x);\n vec3 sh1_1 = decodeExtRgb(packed1.y);\n vec3 sh1_2 = decodeExtRgb(packed1.z);\n\n vec3 sh2_0 = decodeExtRgb(packed1.w);\n vec3 sh2_1 = decodeExtRgb(packed2.x);\n vec3 sh2_2 = decodeExtRgb(packed2.y);\n vec3 sh2_3 = decodeExtRgb(packed2.z);\n vec3 sh2_4 = decodeExtRgb(packed2.w);\n\n vec3 sh1Rgb = sh1_0 * (-0.4886025 * viewDir.y)\n + sh1_1 * (0.4886025 * viewDir.z)\n + sh1_2 * (-0.4886025 * viewDir.x);\n\n vec3 sh2Rgb = sh2_0 * (1.0925484 * viewDir.x * viewDir.y)\n + sh2_1 * (-1.0925484 * viewDir.y * viewDir.z)\n + sh2_2 * (0.3153915 * (2.0 * viewDir.z * viewDir.z - viewDir.x * viewDir.x - viewDir.y * viewDir.y))\n + sh2_3 * (-1.0925484 * viewDir.x * viewDir.z)\n + sh2_4 * (0.5462742 * (viewDir.x * viewDir.x - viewDir.y * viewDir.y));\n\n return sh1Rgb + sh2Rgb;\n }\n`);\n\nexport const defineEvaluateExtSH3 = unindent(`\n vec3 evaluateExtSH3(uvec4 packedA, uvec4 packedB, vec3 viewDir) {\n vec3 sh3_0 = decodeExtRgb(packedA.x);\n vec3 sh3_1 = decodeExtRgb(packedA.y);\n vec3 sh3_2 = decodeExtRgb(packedA.z);\n vec3 sh3_3 = decodeExtRgb(packedA.w);\n vec3 sh3_4 = decodeExtRgb(packedB.x);\n vec3 sh3_5 = decodeExtRgb(packedB.y);\n vec3 sh3_6 = decodeExtRgb(packedB.z);\n\n float xx = viewDir.x * viewDir.x;\n float yy = viewDir.y * viewDir.y;\n float zz = viewDir.z * viewDir.z;\n float xy = viewDir.x * viewDir.y;\n float yz = viewDir.y * viewDir.z;\n float zx = viewDir.z * viewDir.x;\n\n return sh3_0 * (-0.5900436 * viewDir.y * (3.0 * xx - yy))\n + sh3_1 * (2.8906114 * xy * viewDir.z) +\n + sh3_2 * (-0.4570458 * viewDir.y * (4.0 * zz - xx - yy))\n + sh3_3 * (0.3731763 * viewDir.z * (2.0 * zz - 3.0 * xx - 3.0 * yy))\n + sh3_4 * (-0.4570458 * viewDir.x * (4.0 * zz - xx - yy))\n + sh3_5 * (1.4453057 * viewDir.z * (xx - yy))\n + sh3_6 * (-0.5900436 * viewDir.x * (xx - 3.0 * yy));\n }\n`);\n\nexport function evaluateExtSH({\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3TextureA,\n sh3TextureB,\n}: {\n coord: DynoVal<\"ivec3\">;\n viewDir: DynoVal<\"vec3\">;\n numSh: DynoVal<\"int\">;\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3TextureA?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n sh3TextureB?: DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>;\n}) {\n return new Dyno({\n inTypes: {\n coord: \"ivec3\",\n viewDir: \"vec3\",\n numSh: \"int\",\n sh1Texture: \"usampler2DArray\",\n sh2Texture: \"usampler2DArray\",\n sh3TextureA: \"usampler2DArray\",\n sh3TextureB: \"usampler2DArray\",\n },\n outTypes: { rgb: \"vec3\" },\n inputs: {\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3TextureA,\n sh3TextureB,\n },\n globals: () => [\n defineEvaluateExtSH1,\n defineEvaluateExtSH12,\n defineEvaluateExtSH3,\n ],\n statements: ({ inputs, outputs }) => {\n const lines = [\"vec3 rgb = vec3(0.0);\"];\n if (inputs.sh1Texture) {\n if (!inputs.sh2Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 1) {\n rgb = evaluateExtSH1(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0), ${inputs.viewDir});\n }\n `),\n );\n } else {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} == 1) {\n rgb = evaluateExtSH1(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0), ${inputs.viewDir});\n } else if (${inputs.numSh} >= 2) {\n rgb = evaluateExtSH12(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0), texelFetch(${inputs.sh2Texture}, ${inputs.coord}, 0), ${inputs.viewDir});\n `),\n );\n\n if (inputs.sh3TextureA && inputs.sh3TextureB) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 3) {\n rgb += evaluateExtSH3(texelFetch(${inputs.sh3TextureA}, ${inputs.coord}, 0), texelFetch(${inputs.sh3TextureB}, ${inputs.coord}, 0), ${inputs.viewDir});\n }\n `),\n );\n }\n\n lines.push(\"}\");\n }\n }\n lines.push(`${outputs.rgb} = rgb;`);\n return lines;\n },\n }).outputs;\n}\n\nfunction newUint32ArrayTexture(\n data: Uint32Array | null,\n width: number,\n height: number,\n depth: number,\n format: THREE.AnyPixelFormat,\n type: THREE.TextureDataType,\n internalFormat: THREE.PixelFormatGPU,\n): THREE.DataArrayTexture {\n const texture = new THREE.DataArrayTexture(\n data as Uint32Array,\n width,\n height,\n depth,\n );\n texture.format = format;\n texture.type = type;\n texture.internalFormat = internalFormat;\n texture.needsUpdate = true;\n return texture;\n}\n","/* @ts-self-types=\"./spark_rs.d.ts\" */\n\n/**\n * @param {Uint8Array} bytes\n * @returns {any}\n */\nexport function decode_rad_header(bytes) {\n const ret = wasm.decode_rad_header(bytes);\n if (ret[2]) {\n throw takeFromExternrefTable0(ret[1]);\n }\n return takeFromExternrefTable0(ret[0]);\n}\n\n/**\n * @returns {Uint32Array}\n */\nexport function get_raycast_buffer() {\n const ret = wasm.get_raycast_buffer();\n return ret;\n}\n\n/**\n * @returns {Uint32Array}\n */\nexport function get_raycast_buffer2() {\n const ret = wasm.get_raycast_buffer2();\n return ret;\n}\n\n/**\n * @param {number} origin_x\n * @param {number} origin_y\n * @param {number} origin_z\n * @param {number} dir_x\n * @param {number} dir_y\n * @param {number} dir_z\n * @param {number} min_opacity\n * @param {number} near\n * @param {number} far\n * @param {number} count\n * @returns {Float32Array}\n */\nexport function raycast_ext_buffers(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count) {\n const ret = wasm.raycast_ext_buffers(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count);\n return ret;\n}\n\n/**\n * @param {number} origin_x\n * @param {number} origin_y\n * @param {number} origin_z\n * @param {number} dir_x\n * @param {number} dir_y\n * @param {number} dir_z\n * @param {number} min_opacity\n * @param {number} near\n * @param {number} far\n * @param {number} count\n * @param {number} ln_scale_min\n * @param {number} ln_scale_max\n * @param {boolean} lod_opacity\n * @returns {Float32Array}\n */\nexport function raycast_packed_buffer(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count, ln_scale_min, ln_scale_max, lod_opacity) {\n const ret = wasm.raycast_packed_buffer(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, count, ln_scale_min, ln_scale_max, lod_opacity);\n return ret;\n}\n\n/**\n * @param {number} origin_x\n * @param {number} origin_y\n * @param {number} origin_z\n * @param {number} dir_x\n * @param {number} dir_y\n * @param {number} dir_z\n * @param {number} min_opacity\n * @param {number} near\n * @param {number} far\n * @param {number} num_splats\n * @param {Uint32Array} packed_splats\n * @param {number} ln_scale_min\n * @param {number} ln_scale_max\n * @param {boolean} lod_opacity\n * @returns {Float32Array}\n */\nexport function raycast_packed_splats(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, num_splats, packed_splats, ln_scale_min, ln_scale_max, lod_opacity) {\n const ret = wasm.raycast_packed_splats(origin_x, origin_y, origin_z, dir_x, dir_y, dir_z, min_opacity, near, far, num_splats, packed_splats, ln_scale_min, ln_scale_max, lod_opacity);\n return ret;\n}\n\n/**\n * @returns {boolean}\n */\nexport function simd_enabled() {\n const ret = wasm.simd_enabled();\n return ret !== 0;\n}\n\nexport function wasm_start() {\n wasm.wasm_start();\n}\n\nfunction __wbg_get_imports() {\n const import0 = {\n __proto__: null,\n __wbg_Error_2e59b1b37a9a34c3: function(arg0, arg1) {\n const ret = Error(getStringFromWasm0(arg0, arg1));\n return ret;\n },\n __wbg___wbindgen_throw_81fc77679af83bc6: function(arg0, arg1) {\n throw new Error(getStringFromWasm0(arg0, arg1));\n },\n __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) {\n let deferred0_0;\n let deferred0_1;\n try {\n deferred0_0 = arg0;\n deferred0_1 = arg1;\n console.error(getStringFromWasm0(arg0, arg1));\n } finally {\n wasm.__wbindgen_free(deferred0_0, deferred0_1, 1);\n }\n },\n __wbg_length_0c32cb8543c8e4c8: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_1e701798fdcaa3b4: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_length_fd4646b401926788: function(arg0) {\n const ret = arg0.length;\n return ret;\n },\n __wbg_new_227d7c05414eb861: function() {\n const ret = new Error();\n return ret;\n },\n __wbg_new_4f9fafbb3909af72: function() {\n const ret = new Object();\n return ret;\n },\n __wbg_new_f3c9df4f38f3f798: function() {\n const ret = new Array();\n return ret;\n },\n __wbg_new_with_length_26bffbe236bf73f9: function(arg0) {\n const ret = new Float32Array(arg0 >>> 0);\n return ret;\n },\n __wbg_prototypesetcall_3e05eb9545565046: function(arg0, arg1, arg2) {\n Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), arg2);\n },\n __wbg_prototypesetcall_e42275e601e14eeb: function(arg0, arg1, arg2) {\n Uint32Array.prototype.set.call(getArrayU32FromWasm0(arg0, arg1), arg2);\n },\n __wbg_set_6be42768c690e380: function(arg0, arg1, arg2) {\n arg0[arg1] = arg2;\n },\n __wbg_set_6c60b2e8ad0e9383: function(arg0, arg1, arg2) {\n arg0[arg1 >>> 0] = arg2;\n },\n __wbg_set_8ee2d34facb8466e: function() { return handleError(function (arg0, arg1, arg2) {\n const ret = Reflect.set(arg0, arg1, arg2);\n return ret;\n }, arguments); },\n __wbg_set_a98c8da6557e63de: function(arg0, arg1, arg2) {\n arg0.set(getArrayF32FromWasm0(arg1, arg2));\n },\n __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) {\n const ret = arg1.stack;\n const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc);\n const len1 = WASM_VECTOR_LEN;\n getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true);\n getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true);\n },\n __wbg_subarray_d51e89458b3fdbf6: function(arg0, arg1, arg2) {\n const ret = arg0.subarray(arg1 >>> 0, arg2 >>> 0);\n return ret;\n },\n __wbindgen_cast_0000000000000001: function(arg0) {\n // Cast intrinsic for `F64 -> Externref`.\n const ret = arg0;\n return ret;\n },\n __wbindgen_cast_0000000000000002: function(arg0, arg1) {\n // Cast intrinsic for `Ref(Slice(F32)) -> NamedExternref(\"Float32Array\")`.\n const ret = getArrayF32FromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_cast_0000000000000003: function(arg0, arg1) {\n // Cast intrinsic for `Ref(Slice(U32)) -> NamedExternref(\"Uint32Array\")`.\n const ret = getArrayU32FromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_cast_0000000000000004: function(arg0, arg1) {\n // Cast intrinsic for `Ref(String) -> Externref`.\n const ret = getStringFromWasm0(arg0, arg1);\n return ret;\n },\n __wbindgen_cast_0000000000000005: function(arg0) {\n // Cast intrinsic for `U64 -> Externref`.\n const ret = BigInt.asUintN(64, arg0);\n return ret;\n },\n __wbindgen_init_externref_table: function() {\n const table = wasm.__wbindgen_externrefs;\n const offset = table.grow(4);\n table.set(0, undefined);\n table.set(offset + 0, undefined);\n table.set(offset + 1, null);\n table.set(offset + 2, true);\n table.set(offset + 3, false);\n },\n };\n return {\n __proto__: null,\n \"./spark_rs_bg.js\": import0,\n };\n}\n\nfunction addToExternrefTable0(obj) {\n const idx = wasm.__externref_table_alloc();\n wasm.__wbindgen_externrefs.set(idx, obj);\n return idx;\n}\n\nfunction getArrayF32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getFloat32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU32FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len);\n}\n\nfunction getArrayU8FromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + len);\n}\n\nlet cachedDataViewMemory0 = null;\nfunction getDataViewMemory0() {\n if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || (cachedDataViewMemory0.buffer.detached === undefined && cachedDataViewMemory0.buffer !== wasm.memory.buffer)) {\n cachedDataViewMemory0 = new DataView(wasm.memory.buffer);\n }\n return cachedDataViewMemory0;\n}\n\nlet cachedFloat32ArrayMemory0 = null;\nfunction getFloat32ArrayMemory0() {\n if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) {\n cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer);\n }\n return cachedFloat32ArrayMemory0;\n}\n\nfunction getStringFromWasm0(ptr, len) {\n ptr = ptr >>> 0;\n return decodeText(ptr, len);\n}\n\nlet cachedUint32ArrayMemory0 = null;\nfunction getUint32ArrayMemory0() {\n if (cachedUint32ArrayMemory0 === null || cachedUint32ArrayMemory0.byteLength === 0) {\n cachedUint32ArrayMemory0 = new Uint32Array(wasm.memory.buffer);\n }\n return cachedUint32ArrayMemory0;\n}\n\nlet cachedUint8ArrayMemory0 = null;\nfunction getUint8ArrayMemory0() {\n if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) {\n cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer);\n }\n return cachedUint8ArrayMemory0;\n}\n\nfunction handleError(f, args) {\n try {\n return f.apply(this, args);\n } catch (e) {\n const idx = addToExternrefTable0(e);\n wasm.__wbindgen_exn_store(idx);\n }\n}\n\nfunction passStringToWasm0(arg, malloc, realloc) {\n if (realloc === undefined) {\n const buf = cachedTextEncoder.encode(arg);\n const ptr = malloc(buf.length, 1) >>> 0;\n getUint8ArrayMemory0().subarray(ptr, ptr + buf.length).set(buf);\n WASM_VECTOR_LEN = buf.length;\n return ptr;\n }\n\n let len = arg.length;\n let ptr = malloc(len, 1) >>> 0;\n\n const mem = getUint8ArrayMemory0();\n\n let offset = 0;\n\n for (; offset < len; offset++) {\n const code = arg.charCodeAt(offset);\n if (code > 0x7F) break;\n mem[ptr + offset] = code;\n }\n if (offset !== len) {\n if (offset !== 0) {\n arg = arg.slice(offset);\n }\n ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0;\n const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len);\n const ret = cachedTextEncoder.encodeInto(arg, view);\n\n offset += ret.written;\n ptr = realloc(ptr, len, offset, 1) >>> 0;\n }\n\n WASM_VECTOR_LEN = offset;\n return ptr;\n}\n\nfunction takeFromExternrefTable0(idx) {\n const value = wasm.__wbindgen_externrefs.get(idx);\n wasm.__externref_table_dealloc(idx);\n return value;\n}\n\nlet cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\ncachedTextDecoder.decode();\nconst MAX_SAFARI_DECODE_BYTES = 2146435072;\nlet numBytesDecoded = 0;\nfunction decodeText(ptr, len) {\n numBytesDecoded += len;\n if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) {\n cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true });\n cachedTextDecoder.decode();\n numBytesDecoded = len;\n }\n return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len));\n}\n\nconst cachedTextEncoder = new TextEncoder();\n\nif (!('encodeInto' in cachedTextEncoder)) {\n cachedTextEncoder.encodeInto = function (arg, view) {\n const buf = cachedTextEncoder.encode(arg);\n view.set(buf);\n return {\n read: arg.length,\n written: buf.length\n };\n };\n}\n\nlet WASM_VECTOR_LEN = 0;\n\nlet wasmModule, wasm;\nfunction __wbg_finalize_init(instance, module) {\n wasm = instance.exports;\n wasmModule = module;\n cachedDataViewMemory0 = null;\n cachedFloat32ArrayMemory0 = null;\n cachedUint32ArrayMemory0 = null;\n cachedUint8ArrayMemory0 = null;\n wasm.__wbindgen_start();\n return wasm;\n}\n\nasync function __wbg_load(module, imports) {\n if (typeof Response === 'function' && module instanceof Response) {\n if (typeof WebAssembly.instantiateStreaming === 'function') {\n try {\n return await WebAssembly.instantiateStreaming(module, imports);\n } catch (e) {\n const validResponse = module.ok && expectedResponseType(module.type);\n\n if (validResponse && module.headers.get('Content-Type') !== 'application/wasm') {\n console.warn(\"`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\\n\", e);\n\n } else { throw e; }\n }\n }\n\n const bytes = await module.arrayBuffer();\n return await WebAssembly.instantiate(bytes, imports);\n } else {\n const instance = await WebAssembly.instantiate(module, imports);\n\n if (instance instanceof WebAssembly.Instance) {\n return { instance, module };\n } else {\n return instance;\n }\n }\n\n function expectedResponseType(type) {\n switch (type) {\n case 'basic': case 'cors': case 'default': return true;\n }\n return false;\n }\n}\n\nfunction initSync(module) {\n if (wasm !== undefined) return wasm;\n\n\n if (module !== undefined) {\n if (Object.getPrototypeOf(module) === Object.prototype) {\n ({module} = module)\n } else {\n console.warn('using deprecated parameters for `initSync()`; pass a single object instead')\n }\n }\n\n const imports = __wbg_get_imports();\n if (!(module instanceof WebAssembly.Module)) {\n module = new WebAssembly.Module(module);\n }\n const instance = new WebAssembly.Instance(module, imports);\n return __wbg_finalize_init(instance, module);\n}\n\nasync function __wbg_init(module_or_path) {\n if (wasm !== undefined) return wasm;\n\n\n if (module_or_path !== undefined) {\n if (Object.getPrototypeOf(module_or_path) === Object.prototype) {\n ({module_or_path} = module_or_path)\n } else {\n console.warn('using deprecated parameters for the initialization function; pass a single object instead')\n }\n }\n\n if (module_or_path === undefined) {\n module_or_path = new URL('spark_rs_bg.wasm', import.meta.url);\n }\n const imports = __wbg_get_imports();\n\n if (typeof module_or_path === 'string' || (typeof Request === 'function' && module_or_path instanceof Request) || (typeof URL === 'function' && module_or_path instanceof URL)) {\n module_or_path = fetch(module_or_path);\n }\n\n const { instance, module } = await __wbg_load(await module_or_path, imports);\n\n return __wbg_finalize_init(instance, module);\n}\n\nexport { initSync, __wbg_init as default };\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nout uvec4 target;\n\n{{ GLOBALS }}\n\nvoid produceSplat(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n target = uvec4(0u, 0u, 0u, 0u);\n if ((index >= 0) && (index < targetCount)) {\n produceSplat(index);\n }\n}\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nlayout(location = 0) out uvec4 target;\nlayout(location = 1) out vec4 target3;\n\n{{ GLOBALS }}\n\nvoid produceSplat(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n // Initial target to \"null\" splat\n target = uvec4(0u, 0u, 0u, 0u);\n\n // Initialize depthTarget to +infinity\n target3 = floatToVec4(1.0 / 0.0);\n\n if ((index >= 0) && (index < targetCount)) {\n produceSplat(index);\n }\n}\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nlayout(location = 0) out uvec4 target;\nlayout(location = 1) out uvec4 target2;\nlayout(location = 2) out vec4 target3;\n// layout(location = 0) out vec4 target3;\n// layout(location = 1) out uvec4 target;\n// layout(location = 2) out uvec4 target2;\n\n{{ GLOBALS }}\n\nvoid produceSplat(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n // Initial targets to \"null\" splat\n target = uvec4(0u, 0u, 0u, 0u);\n target2 = uvec4(0u, 0u, 0u, 0u);\n\n // Initialize target3 to +infinity\n target3 = floatToVec4(1.0 / 0.0);\n\n if ((index >= 0) && (index < targetCount)) {\n produceSplat(index);\n }\n}\n","precision highp float;\nprecision highp int;\nprecision highp sampler2D;\nprecision highp usampler2D;\nprecision highp isampler2D;\nprecision highp sampler2DArray;\nprecision highp usampler2DArray;\nprecision highp isampler2DArray;\nprecision highp sampler3D;\nprecision highp usampler3D;\nprecision highp isampler3D;\n\n#include \n\nuniform uint targetLayer;\nuniform int targetBase;\nuniform int targetCount;\n\nout vec4 target;\n\n{{ GLOBALS }}\n\nvoid computeReadback(int _index) {\n {{ STATEMENTS }}\n}\n\nvoid main() {\n int targetIndex = int(targetLayer << SPLAT_TEX_LAYER_BITS) + int(uint(gl_FragCoord.y) << SPLAT_TEX_WIDTH_BITS) + int(gl_FragCoord.x);\n int index = targetIndex - targetBase;\n\n if ((index >= 0) && (index < targetCount)) {\n computeReadback(index);\n } else {\n target = vec4(0.0, 0.0, 0.0, 0.0);\n }\n}\n","\nprecision highp float;\nprecision highp int;\n\n#include \n\nuniform float near;\nuniform float far;\nuniform bool encodeLinear;\nuniform float time;\nuniform bool debugFlag;\nuniform float maxStdDev;\nuniform float minAlpha;\nuniform bool stochastic;\nuniform bool disableFalloff;\nuniform float falloff;\n\nuniform bool splatTexEnable;\nuniform sampler3D splatTexture;\nuniform mat2 splatTexMul;\nuniform vec2 splatTexAdd;\nuniform float splatTexNear;\nuniform float splatTexFar;\nuniform float splatTexMid;\n\nout vec4 fragColor;\n\nin vec4 vRgba;\nin vec2 vSplatUv;\nin vec3 vNdc;\nflat in uint vSplatIndex;\n\nvoid main() {\n vec4 rgba = vRgba;\n\n float z = dot(vSplatUv, vSplatUv);\n if (!splatTexEnable) {\n if (z > (maxStdDev * maxStdDev)) {\n discard;\n }\n } else {\n vec2 uv = splatTexMul * vSplatUv + splatTexAdd;\n float ndcZ = vNdc.z;\n float depth = (2.0 * near * far) / (far + near - ndcZ * (far - near));\n float clampedFar = max(splatTexFar, splatTexNear);\n float clampedDepth = clamp(depth, splatTexNear, clampedFar);\n float logDepth = log2(clampedDepth + 1.0);\n float logNear = log2(splatTexNear + 1.0);\n float logFar = log2(clampedFar + 1.0);\n\n float texZ;\n if (splatTexMid > 0.0) {\n float clampedMid = clamp(splatTexMid, splatTexNear, clampedFar);\n float logMid = log2(clampedMid + 1.0);\n texZ = (clampedDepth <= clampedMid) ?\n (0.5 * ((logDepth - logNear) / (logMid - logNear))) :\n (0.5 * ((logDepth - logMid) / (logFar - logMid)) + 0.5);\n } else {\n texZ = (logDepth - logNear) / (logFar - logNear);\n }\n\n vec4 modulate = texture(splatTexture, vec3(uv, 1.0 - texZ));\n rgba *= modulate;\n }\n\n rgba.a *= mix(1.0, exp(-0.5 * z), falloff);\n\n if (rgba.a < minAlpha) {\n discard;\n }\n if (encodeLinear) {\n rgba.rgb = srgbToLinear(rgba.rgb);\n }\n\n if (stochastic) {\n const bool STEADY = false;\n uint uTime = STEADY ? 0u : floatBitsToUint(time);\n uvec2 coord = uvec2(gl_FragCoord.xy);\n uint state = uTime + 0x9e3779b9u * coord.x + 0x85ebca6bu * coord.y + 0xc2b2ae35u * uint(vSplatIndex);\n state = state * 747796405u + 2891336453u;\n uint hash = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u;\n hash = (hash >> 22u) ^ hash;\n float rand = float(hash) / 4294967296.0;\n if (rand < rgba.a) {\n fragColor = vec4(rgba.rgb, 1.0);\n } else {\n discard;\n }\n } else {\n #ifdef PREMULTIPLIED_ALPHA\n fragColor = vec4(rgba.rgb * rgba.a, rgba.a);\n #else\n fragColor = rgba;\n #endif\n }\n}\n","\nprecision highp float;\nprecision highp int;\nprecision highp usampler2DArray;\n\n#include \n\nattribute uint splatIndex;\n\nout vec4 vRgba;\nout vec2 vSplatUv;\nout vec3 vNdc;\nflat out uint vSplatIndex;\n\nuniform vec2 renderSize;\nuniform uint numSplats;\nuniform vec4 renderToViewQuat;\nuniform vec3 renderToViewPos;\nuniform float maxStdDev;\nuniform float minPixelRadius;\nuniform float maxPixelRadius;\nuniform float time;\nuniform float deltaTime;\nuniform bool debugFlag;\nuniform float minAlpha;\nuniform bool stochastic;\nuniform bool enable2DGS;\nuniform float blurAmount;\nuniform float preBlurAmount;\nuniform float focalDistance;\nuniform float apertureAngle;\nuniform float clipXY;\nuniform float focalAdjustment;\n\nuniform usampler2DArray packedSplats;\nuniform vec4 rgbMinMaxLnScaleMinMax;\n\nvoid main() {\n // Default to outside the frustum so it's discarded if we return early\n gl_Position = vec4(0.0, 0.0, 2.0, 1.0);\n\n if (uint(gl_InstanceID) >= numSplats) {\n return;\n }\n\n ivec3 texCoord;\n if (stochastic) {\n texCoord = ivec3(\n uint(gl_InstanceID) & SPLAT_TEX_WIDTH_MASK,\n (uint(gl_InstanceID) >> SPLAT_TEX_WIDTH_BITS) & SPLAT_TEX_HEIGHT_MASK,\n (uint(gl_InstanceID) >> SPLAT_TEX_LAYER_BITS)\n );\n } else {\n if (splatIndex == 0xffffffffu) {\n // Special value reserved for \"no splat\"\n return;\n }\n texCoord = ivec3(\n splatIndex & SPLAT_TEX_WIDTH_MASK,\n (splatIndex >> SPLAT_TEX_WIDTH_BITS) & SPLAT_TEX_HEIGHT_MASK,\n splatIndex >> SPLAT_TEX_LAYER_BITS\n );\n }\n uvec4 packed = texelFetch(packedSplats, texCoord, 0);\n\n vec3 center, scales;\n vec4 quaternion, rgba;\n unpackSplatEncoding(packed, center, scales, quaternion, rgba, rgbMinMaxLnScaleMinMax);\n\n if (rgba.a < minAlpha) {\n return;\n }\n bvec3 zeroScales = equal(scales, vec3(0.0));\n if (all(zeroScales)) {\n return;\n }\n\n // Compute the view space center of the splat\n vec3 viewCenter = quatVec(renderToViewQuat, center) + renderToViewPos;\n\n // Discard splats behind the camera\n if (viewCenter.z >= 0.0) {\n return;\n }\n\n // Compute the clip space center of the splat\n vec4 clipCenter = projectionMatrix * vec4(viewCenter, 1.0);\n\n // Discard splats outside near/far planes\n if (abs(clipCenter.z) >= clipCenter.w) {\n return;\n }\n\n // Discard splats more than clipXY times outside the XY frustum\n float clip = clipXY * clipCenter.w;\n if (abs(clipCenter.x) > clip || abs(clipCenter.y) > clip) {\n return;\n }\n\n // Record the splat index for entropy\n vSplatIndex = splatIndex;\n\n // Compute view space quaternion of splat\n vec4 viewQuaternion = quatQuat(renderToViewQuat, quaternion);\n\n if (enable2DGS && any(zeroScales)) {\n vRgba = rgba;\n vSplatUv = position.xy * maxStdDev;\n\n vec3 offset;\n if (zeroScales.z) {\n offset = vec3(vSplatUv.xy * scales.xy, 0.0);\n } else if (zeroScales.y) {\n offset = vec3(vSplatUv.x * scales.x, 0.0, vSplatUv.y * scales.z);\n } else {\n offset = vec3(0.0, vSplatUv.xy * scales.yz);\n }\n\n vec3 viewPos = viewCenter + quatVec(viewQuaternion, offset);\n gl_Position = projectionMatrix * vec4(viewPos, 1.0);\n vNdc = gl_Position.xyz / gl_Position.w;\n return;\n }\n\n // Compute NDC center of the splat\n vec3 ndcCenter = clipCenter.xyz / clipCenter.w;\n\n // Compute the 3D covariance matrix of the splat\n mat3 RS = scaleQuaternionToMatrix(scales, viewQuaternion);\n mat3 cov3D = RS * transpose(RS);\n\n // Compute the Jacobian of the splat's projection at its center\n vec2 scaledRenderSize = renderSize * focalAdjustment;\n vec2 focal = 0.5 * scaledRenderSize * vec2(projectionMatrix[0][0], projectionMatrix[1][1]);\n\n mat3 J;\n if(isOrthographic) {\n J = mat3(\n focal.x, 0.0, 0.0,\n 0.0, focal.y, 0.0,\n 0.0, 0.0, 0.0\n );\n } else {\n float invZ = 1.0 / viewCenter.z;\n vec2 J1 = focal * invZ;\n vec2 J2 = -(J1 * viewCenter.xy) * invZ;\n J = mat3(\n J1.x, 0.0, J2.x,\n 0.0, J1.y, J2.y,\n 0.0, 0.0, 0.0\n );\n }\n\n // Compute the 2D covariance by projecting the 3D covariance\n // and picking out the XY plane components.\n // Keeping below because we may need it in the future\n // for skinning deformations.\n // mat3 W = transpose(mat3(viewMatrix));\n // mat3 T = W * J;\n // mat3 cov2D = transpose(T) * cov3D * T;\n mat3 cov2D = transpose(J) * cov3D * J;\n float a = cov2D[0][0];\n float d = cov2D[1][1];\n float b = cov2D[0][1];\n\n // Optionally pre-blur the splat to match non-antialias optimized splats\n a += preBlurAmount;\n d += preBlurAmount;\n\n float fullBlurAmount = blurAmount;\n if ((focalDistance > 0.0) && (apertureAngle > 0.0)) {\n float focusRadius = maxPixelRadius;\n if (viewCenter.z < 0.0) {\n float focusBlur = abs((-viewCenter.z - focalDistance) / viewCenter.z);\n float apertureRadius = focal.x * tan(0.5 * apertureAngle);\n focusRadius = focusBlur * apertureRadius;\n }\n fullBlurAmount = clamp(sqr(focusRadius), blurAmount, sqr(maxPixelRadius));\n }\n\n // Do convolution with a 0.5-pixel Gaussian for anti-aliasing: sqrt(0.3) ~= 0.5\n float detOrig = a * d - b * b;\n a += fullBlurAmount;\n d += fullBlurAmount;\n float det = a * d - b * b;\n\n // Compute anti-aliasing intensity scaling factor\n float blurAdjust = sqrt(max(0.0, detOrig / det));\n rgba.a *= blurAdjust;\n if (rgba.a < minAlpha) {\n return;\n }\n\n // Compute the eigenvalue and eigenvectors of the 2D covariance matrix\n float eigenAvg = 0.5 * (a + d);\n float eigenDelta = sqrt(max(0.0, eigenAvg * eigenAvg - det));\n float eigen1 = eigenAvg + eigenDelta;\n float eigen2 = eigenAvg - eigenDelta;\n\n vec2 eigenVec1 = normalize(vec2((abs(b) < 0.001) ? 1.0 : b, eigen1 - a));\n vec2 eigenVec2 = vec2(eigenVec1.y, -eigenVec1.x);\n\n float scale1 = min(maxPixelRadius, maxStdDev * sqrt(eigen1));\n float scale2 = min(maxPixelRadius, maxStdDev * sqrt(eigen2));\n if (scale1 < minPixelRadius && scale2 < minPixelRadius) {\n return;\n }\n\n // Compute the NDC coordinates for the ellipsoid's diagonal axes.\n vec2 pixelOffset = position.x * eigenVec1 * scale1 + position.y * eigenVec2 * scale2;\n vec2 ndcOffset = (2.0 / scaledRenderSize) * pixelOffset;\n vec3 ndc = vec3(ndcCenter.xy + ndcOffset, ndcCenter.z);\n\n vRgba = rgba;\n vSplatUv = position.xy * maxStdDev;\n vNdc = ndc;\n gl_Position = vec4(ndc.xy * clipCenter.w, clipCenter.zw);\n}\n","const float LN_SCALE_MIN = -12.0;\nconst float LN_SCALE_MAX = 9.0;\n\nconst uint SPLAT_TEX_WIDTH_BITS = 11u;\nconst uint SPLAT_TEX_HEIGHT_BITS = 11u;\nconst uint SPLAT_TEX_DEPTH_BITS = 11u;\nconst uint SPLAT_TEX_LAYER_BITS = SPLAT_TEX_WIDTH_BITS + SPLAT_TEX_HEIGHT_BITS;\n\nconst uint SPLAT_TEX_WIDTH = 1u << SPLAT_TEX_WIDTH_BITS;\nconst uint SPLAT_TEX_HEIGHT = 1u << SPLAT_TEX_HEIGHT_BITS;\nconst uint SPLAT_TEX_DEPTH = 1u << SPLAT_TEX_DEPTH_BITS;\n\nconst uint SPLAT_TEX_WIDTH_MASK = SPLAT_TEX_WIDTH - 1u;\nconst uint SPLAT_TEX_HEIGHT_MASK = SPLAT_TEX_HEIGHT - 1u;\nconst uint SPLAT_TEX_DEPTH_MASK = SPLAT_TEX_DEPTH - 1u;\n\nconst uint F16_INF = 0x7c00u;\nconst float PI = 3.1415926535897932384626433832795;\n\nconst float INFINITY = 1.0 / 0.0;\nconst float NEG_INFINITY = -INFINITY;\n\nfloat sqr(float x) {\n return x * x;\n}\n\nfloat pow4(float x) {\n float x2 = x * x;\n return x2 * x2;\n}\n\nfloat pow8(float x) {\n float x4 = pow4(x);\n return x4 * x4;\n}\n\nvec3 srgbToLinear(vec3 rgb) {\n return pow(rgb, vec3(2.2));\n}\n\nvec3 linearToSrgb(vec3 rgb) {\n return pow(rgb, vec3(1.0 / 2.2));\n}\n\n// Encode a quaternion (vec4) into a 24‐bit uint with folded octahedral mapping.\nuint encodeQuatOctXy88R8(vec4 q) {\n // Ensure minimal representation: flip if q.w is negative.\n if (q.w < 0.0) {\n q = -q;\n }\n // Compute rotation angle: θ = 2 * acos(q.w) ∈ [0,π]\n float theta = 2.0 * acos(q.w);\n float halfTheta = theta * 0.5;\n float s = sin(halfTheta);\n // Recover the rotation axis; use a default if nearly zero rotation.\n vec3 axis = (abs(s) < 1e-6) ? vec3(1.0, 0.0, 0.0) : q.xyz / s;\n \n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n float sum = abs(axis.x) + abs(axis.y) + abs(axis.z);\n vec2 p = vec2(axis.x, axis.y) / sum;\n // If axis.z < 0, fold the mapping.\n if (axis.z < 0.0) {\n float oldPx = p.x;\n p.x = (1.0 - abs(p.y)) * (p.x >= 0.0 ? 1.0 : -1.0);\n p.y = (1.0 - abs(oldPx)) * (p.y >= 0.0 ? 1.0 : -1.0);\n }\n // Remap from [-1,1] to [0,1]\n float u_f = p.x * 0.5 + 0.5;\n float v_f = p.y * 0.5 + 0.5;\n // Quantize to 8 bits (0 to 255)\n uint quantU = uint(clamp(round(u_f * 255.0), 0.0, 255.0));\n uint quantV = uint(clamp(round(v_f * 255.0), 0.0, 255.0));\n \n // --- Angle Quantization ---\n // Quantize θ ∈ [0,π] to 8 bits (0 to 255)\n uint angleInt = uint(clamp(round((theta / 3.14159265359) * 255.0), 0.0, 255.0));\n \n // Pack bits: bits [0–7]: quantU, [8–15]: quantV, [16–23]: angleInt.\n return (angleInt << 16u) | (quantV << 8u) | quantU;\n}\n\n// Decode a 24‐bit encoded uint into a quaternion (vec4) using the folded octahedral inverse.\nvec4 decodeQuatOctXy88R8(uint encoded) {\n // Extract the fields.\n uint quantU = encoded & uint(0xFFu); // bits 0–7\n uint quantV = (encoded >> 8u) & uint(0xFFu); // bits 8–15\n uint angleInt = encoded >> 16u; // bits 16–23\n\n // Recover u and v in [0,1], then map to [-1,1].\n float u_f = float(quantU) / 255.0;\n float v_f = float(quantV) / 255.0;\n vec2 f = vec2(u_f * 2.0 - 1.0, v_f * 2.0 - 1.0);\n\n vec3 axis = vec3(f.xy, 1.0 - abs(f.x) - abs(f.y));\n float t = max(-axis.z, 0.0);\n axis.x += (axis.x >= 0.0) ? -t : t;\n axis.y += (axis.y >= 0.0) ? -t : t;\n axis = normalize(axis);\n \n // Decode the angle θ ∈ [0,π].\n float theta = (float(angleInt) / 255.0) * 3.14159265359;\n float halfTheta = theta * 0.5;\n float s = sin(halfTheta);\n float w = cos(halfTheta);\n \n return vec4(axis * s, w);\n}\n\nuint encodeQuatOctXy1010R12(vec4 q) {\n // Ensure minimal representation: flip if q.w is negative.\n if (q.w < 0.0) {\n q = -q;\n }\n // Compute rotation angle: θ = 2 * acos(q.w) ∈ [0,π]\n float halfTheta = acos(q.w);\n float theta = 2.0 * halfTheta;\n float s = sin(halfTheta);\n // Recover the rotation axis; use a default if nearly zero rotation.\n vec3 axis = (abs(s) < 1e-6) ? vec3(1.0, 0.0, 0.0) : q.xyz / s;\n \n // --- Folded Octahedral Mapping (inline) ---\n // Compute p = (axis.x, axis.y) / (|axis.x|+|axis.y|+|axis.z|)\n float sum = abs(axis.x) + abs(axis.y) + abs(axis.z);\n vec2 p = vec2(axis.x, axis.y) / sum;\n // If axis.z < 0, fold the mapping.\n if (axis.z < 0.0) {\n float oldPx = p.x;\n p.x = (1.0 - abs(p.y)) * (p.x >= 0.0 ? 1.0 : -1.0);\n p.y = (1.0 - abs(oldPx)) * (p.y >= 0.0 ? 1.0 : -1.0);\n }\n // Remap from [-1,1] to [0,1]\n float u_f = p.x * 0.5 + 0.5;\n float v_f = p.y * 0.5 + 0.5;\n // Quantize to 10 bits (0 to 1023)\n uint quantU = uint(clamp(round(u_f * 1023.0), 0.0, 1023.0));\n uint quantV = uint(clamp(round(v_f * 1023.0), 0.0, 1023.0));\n \n // --- Angle Quantization ---\n // Quantize θ ∈ [0,π] to 12 bits (0 to 4095)\n uint angleInt = uint(clamp(round((theta / PI) * 4095.0), 0.0, 4095.0));\n \n // Pack bits: bits [0–9]: quantU, [10–19]: quantV, [20–31]: angleInt.\n return (angleInt << 20u) | (quantV << 10u) | quantU;\n}\n\nvec4 decodeQuatOctXy1010R12(uint encoded) {\n // Extract the fields.\n uint quantU = encoded & uint(0x3FFu); // bits 0–9\n uint quantV = (encoded >> 10u) & uint(0x3FFu); // bits 10–19\n uint angleInt = encoded >> 20u; // bits 20–31\n\n // Recover u and v in [0,1], then map to [-1,1].\n float u_f = float(quantU) / 1023.0;\n float v_f = float(quantV) / 1023.0;\n vec2 f = vec2(u_f * 2.0 - 1.0, v_f * 2.0 - 1.0);\n\n vec3 axis = vec3(f.xy, 1.0 - abs(f.x) - abs(f.y));\n float t = max(-axis.z, 0.0);\n axis.x += (axis.x >= 0.0) ? -t : t;\n axis.y += (axis.y >= 0.0) ? -t : t;\n axis = normalize(axis);\n \n // Decode the angle θ ∈ [0,π].\n float theta = (float(angleInt) / 4095.0) * PI;\n float halfTheta = theta * 0.5;\n float s = sin(halfTheta);\n float w = cos(halfTheta);\n \n return vec4(axis * s, w);\n}\n\n// Pack a Gsplat into a uvec4\nuvec4 packSplatEncoding(\n vec3 center, vec3 scales, vec4 quaternion, vec4 rgba, vec4 rgbMinMaxLnScaleMinMax\n) {\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n vec3 encRgb = (rgba.rgb - vec3(rgbMin)) / (rgbMax - rgbMin);\n uvec4 uRgba = uvec4(round(clamp(vec4(encRgb, rgba.a) * 255.0, 0.0, 255.0)));\n\n uint uQuat = encodeQuatOctXy88R8(quaternion);\n // uint uQuat = encodeQuatXyz888(quaternion);\n // uint uQuat = encodeQuatEulerXyz888(quaternion);\n uvec3 uQuat3 = uvec3(uQuat & 0xffu, (uQuat >> 8u) & 0xffu, (uQuat >> 16u) & 0xffu);\n\n // Encode scales in three uint8s, where 0=>0.0 and 1..=255 stores log scale\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float lnScaleScale = 254.0 / (lnScaleMax - lnScaleMin);\n uvec3 uScales = uvec3(\n (scales.x == 0.0) ? 0u : uint(round(clamp((log(scales.x) - lnScaleMin) * lnScaleScale, 0.0, 254.0))) + 1u,\n (scales.y == 0.0) ? 0u : uint(round(clamp((log(scales.y) - lnScaleMin) * lnScaleScale, 0.0, 254.0))) + 1u,\n (scales.z == 0.0) ? 0u : uint(round(clamp((log(scales.z) - lnScaleMin) * lnScaleScale, 0.0, 254.0))) + 1u\n );\n\n // Pack it all into 4 x uint32\n uint word0 = uRgba.r | (uRgba.g << 8u) | (uRgba.b << 16u) | (uRgba.a << 24u);\n uint word1 = packHalf2x16(center.xy);\n uint word2 = packHalf2x16(vec2(center.z, 0.0)) | (uQuat3.x << 16u) | (uQuat3.y << 24u);\n uint word3 = uScales.x | (uScales.y << 8u) | (uScales.z << 16u) | (uQuat3.z << 24u);\n return uvec4(word0, word1, word2, word3);\n}\n\n// Pack a Gsplat into a uvec4\nuvec4 packSplat(vec3 center, vec3 scales, vec4 quaternion, vec4 rgba) {\n return packSplatEncoding(center, scales, quaternion, rgba, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n}\n\nvoid unpackSplatEncoding(uvec4 packed, out vec3 center, out vec3 scales, out vec4 quaternion, out vec4 rgba, vec4 rgbMinMaxLnScaleMinMax) {\n uint word0 = packed.x, word1 = packed.y, word2 = packed.z, word3 = packed.w;\n\n uvec4 uRgba = uvec4(word0 & 0xffu, (word0 >> 8u) & 0xffu, (word0 >> 16u) & 0xffu, (word0 >> 24u) & 0xffu);\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n rgba = (vec4(uRgba) / 255.0);\n rgba.rgb = rgba.rgb * (rgbMax - rgbMin) + rgbMin;\n\n center = vec4(\n unpackHalf2x16(word1),\n unpackHalf2x16(word2 & 0xffffu)\n ).xyz;\n\n uvec3 uScales = uvec3(word3 & 0xffu, (word3 >> 8u) & 0xffu, (word3 >> 16u) & 0xffu);\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float lnScaleScale = (lnScaleMax - lnScaleMin) / 254.0;\n scales = vec3(\n (uScales.x == 0u) ? 0.0 : exp(lnScaleMin + float(uScales.x - 1u) * lnScaleScale),\n (uScales.y == 0u) ? 0.0 : exp(lnScaleMin + float(uScales.y - 1u) * lnScaleScale),\n (uScales.z == 0u) ? 0.0 : exp(lnScaleMin + float(uScales.z - 1u) * lnScaleScale)\n );\n\n\n uint uQuat = ((word2 >> 16u) & 0xFFFFu) | ((word3 >> 8u) & 0xFF0000u);\n quaternion = decodeQuatOctXy88R8(uQuat);\n // quaternion = decodeQuatXyz888(uQuat);\n // quaternion = decodeQuatEulerXyz888(uQuat);\n}\n\n// Unpack a Gsplat from a uvec4\nvoid unpackSplat(uvec4 packed, out vec3 center, out vec3 scales, out vec4 quaternion, out vec4 rgba) {\n unpackSplatEncoding(packed, center, scales, quaternion, rgba, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n}\n\nuvec4 packSplatCovEncoding(\n vec3 center, vec4 rgba, vec3 xxyyzz, vec3 xyxzyz, vec4 rgbMinMaxLnScaleMinMax\n) {\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n vec3 encRgb = (rgba.rgb - vec3(rgbMin)) / (rgbMax - rgbMin);\n uvec4 uRgba = uvec4(round(clamp(vec4(encRgb, rgba.a) * 255.0, 0.0, 255.0)));\n\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float diagScale = 255.0 / (2.0 * (lnScaleMax - lnScaleMin));\n uvec3 uXxyyzz = uvec3(round(clamp((log(xxyyzz) - 2.0 * lnScaleMin) * diagScale, 0.0, 255.0)));\n\n vec3 xyxzyzCor = vec3(\n clamp(xyxzyz.x / sqrt(xxyyzz.x * xxyyzz.y), -1.0, 1.0),\n clamp(xyxzyz.y / sqrt(xxyyzz.x * xxyyzz.z), -1.0, 1.0),\n clamp(xyxzyz.z / sqrt(xxyyzz.y * xxyyzz.z), -1.0, 1.0)\n );\n ivec3 iXyxzyzCor = ivec3(round(xyxzyzCor * 127.0));\n\n // Pack it all into 4 x uint32\n uint word0 = uRgba.r | (uRgba.g << 8u) | (uRgba.b << 16u) | (uRgba.a << 24u);\n uint word1 = packHalf2x16(center.xy);\n uint word2 = packHalf2x16(vec2(center.z, 0.0)) |\n ((uint(iXyxzyzCor.y) & 0xffu) << 16u) |\n ((uint(iXyxzyzCor.z) & 0xffu) << 24u);\n uint word3 =\n uXxyyzz.x | (uXxyyzz.y << 8u) | (uXxyyzz.z << 16u) |\n ((uint(iXyxzyzCor.x) & 0xffu) << 24u);\n return uvec4(word0, word1, word2, word3);\n}\n\nvoid unpackSplatCovEncoding(uvec4 packed, out vec3 center, out vec4 rgba, out vec3 xxyyzz, out vec3 xyxzyz, vec4 rgbMinMaxLnScaleMinMax) {\n uint word0 = packed.x, word1 = packed.y, word2 = packed.z, word3 = packed.w;\n\n uvec4 uRgba = uvec4(word0 & 0xffu, (word0 >> 8u) & 0xffu, (word0 >> 16u) & 0xffu, (word0 >> 24u) & 0xffu);\n float rgbMin = rgbMinMaxLnScaleMinMax.x;\n float rgbMax = rgbMinMaxLnScaleMinMax.y;\n rgba = (vec4(uRgba) / 255.0);\n rgba.rgb = rgba.rgb * (rgbMax - rgbMin) + rgbMin;\n\n center = vec3(\n unpackHalf2x16(word1),\n unpackHalf2x16(word2 & 0xffffu).x\n );\n\n uvec3 uXxyyzz = uvec3(word3 & 0xffu, (word3 >> 8u) & 0xffu, (word3 >> 16u) & 0xffu);\n ivec3 iXyxzyzCor = ivec3(int(word3) >> 24, int(word2 << 8u) >> 24, int(word2) >> 24);\n\n float lnScaleMin = rgbMinMaxLnScaleMinMax.z;\n float lnScaleMax = rgbMinMaxLnScaleMinMax.w;\n float diagScale = 2.0 * (lnScaleMax - lnScaleMin) / 255.0;\n xxyyzz = exp(2.0 * lnScaleMin + vec3(uXxyyzz) * diagScale);\n\n vec3 xyxzyzCor = vec3(iXyxzyzCor) / 127.0;\n xyxzyz = xyxzyzCor * vec3(\n sqrt(xxyyzz.x * xxyyzz.y),\n sqrt(xxyyzz.x * xxyyzz.z),\n sqrt(xxyyzz.y * xxyyzz.z)\n );\n}\n\nvoid packSplatExtCov(\n out uvec4 packed, out uvec4 packed2,\n vec3 center, vec4 rgba, vec3 xxyyzz, vec3 xyxzyz\n) {\n packed.x = floatBitsToUint(center.x);\n packed.y = floatBitsToUint(center.y);\n packed.z = floatBitsToUint(center.z);\n packed.w = packHalf2x16(vec2(rgba.a, rgba.b));\n packed2.x = packHalf2x16(rgba.rg);\n\n vec3 xyxzyzCor = vec3(\n clamp(xyxzyz.x / sqrt(xxyyzz.x * xxyyzz.y), -1.0, 1.0),\n clamp(xyxzyz.y / sqrt(xxyyzz.x * xxyyzz.z), -1.0, 1.0),\n clamp(xyxzyz.z / sqrt(xxyyzz.y * xxyyzz.z), -1.0, 1.0)\n );\n xyxzyzCor = sign(xyxzyzCor) * clamp(log(abs(xyxzyzCor)), -100.0, -0.0000001);\n xxyyzz = log(xxyyzz);\n\n packed2.y = packHalf2x16(vec2(xxyyzz.x, xxyyzz.y));\n packed2.z = packHalf2x16(vec2(xxyyzz.z, xyxzyzCor.x));\n packed2.w = packHalf2x16(vec2(xyxzyzCor.y, xyxzyzCor.z));\n}\n\nvoid unpackSplatExtCov(\n uvec4 packed, uvec4 packed2,\n out vec3 center, out vec4 rgba, out vec3 xxyyzz, out vec3 xyxzyz\n) {\n center.x = uintBitsToFloat(packed.x);\n center.y = uintBitsToFloat(packed.y);\n center.z = uintBitsToFloat(packed.z);\n\n vec2 ab = unpackHalf2x16(packed.w);\n vec2 rg = unpackHalf2x16(packed2.x);\n rgba = vec4(rg, ab.y, ab.x);\n\n vec2 xxyy = unpackHalf2x16(packed2.y);\n vec2 zzxy = unpackHalf2x16(packed2.z);\n vec2 xzyz = unpackHalf2x16(packed2.w);\n xxyyzz = exp(vec3(xxyy.x, xxyy.y, zzxy.x));\n xyxzyz = vec3(zzxy.y, xzyz.x, xzyz.y);\n xyxzyz = -sign(xyxzyz) * exp(-abs(xyxzyz));\n xyxzyz *= vec3(\n sqrt(xxyyzz.x * xxyyzz.y),\n sqrt(xxyyzz.x * xxyyzz.z),\n sqrt(xxyyzz.y * xxyyzz.z)\n );\n}\n\nvoid packSplatExt(\n out uvec4 packed, out uvec4 packed2,\n vec3 center, vec3 scales, vec4 quaternion, vec4 rgba\n) {\n packed.x = floatBitsToUint(center.x);\n packed.y = floatBitsToUint(center.y);\n packed.z = floatBitsToUint(center.z);\n packed.w = packHalf2x16(vec2(rgba.a, 0.0));\n\n packed2.x = packHalf2x16(rgba.rg);\n packed2.y = packHalf2x16(vec2(rgba.b, log(scales.x)));\n packed2.z = packHalf2x16(log(scales.yz));\n packed2.w = encodeQuatOctXy1010R12(quaternion);\n}\n\nvec4 unpackSplatExtCenterAlpha(uvec4 packed) {\n return vec4(\n uintBitsToFloat(packed.x),\n uintBitsToFloat(packed.y),\n uintBitsToFloat(packed.z),\n unpackHalf2x16(packed.w).x\n );\n}\n\nfloat unpackSplatExtAlpha(uvec4 packed) {\n return unpackHalf2x16(packed.w).x;\n}\n\nvoid unpackSplatExt(\n uvec4 packed, uvec4 packed2,\n out vec3 center, out vec3 scales, out vec4 quaternion, out vec4 rgba\n) {\n center.x = uintBitsToFloat(packed.x);\n center.y = uintBitsToFloat(packed.y);\n center.z = uintBitsToFloat(packed.z);\n rgba.a = unpackHalf2x16(packed.w).x;\n\n rgba.rg = unpackHalf2x16(packed2.x);\n vec2 split = unpackHalf2x16(packed2.y);\n rgba.b = split.x;\n scales.x = exp(split.y);\n scales.yz = exp(unpackHalf2x16(packed2.z));\n quaternion = decodeQuatOctXy1010R12(packed2.w);\n}\n\nuint encodeExtRgb(vec3 rgb) {\n vec3 absRgb = abs(rgb);\n float maxAbs = max(absRgb.r, max(absRgb.g, absRgb.b));\n\n int base = clamp(int(floor(log2(maxAbs))) + 15, 0, 31);\n float divisor = exp2(float(base - 15)) / 255.0;\n\n uvec3 uRgb = uvec3(round(clamp(absRgb / divisor, 0.0, 255.0)));\n uint expSigns = (uint(base) << 3u) | ((rgb.r < 0.0 ? 0x1u : 0u) | (rgb.g < 0.0 ? 0x2u : 0u) | (rgb.b < 0.0 ? 0x4u : 0u));\n return uRgb.r | (uRgb.g << 8u) | (uRgb.b << 16u) | (expSigns << 24u);\n}\n\nvec3 decodeExtRgb(uint encoded) {\n uint biasedBase = (encoded >> 27u) & 0x1fu;\n float divisor = exp2(float(int(biasedBase) - 15)) / 255.0;\n\n vec3 rgb = vec3(uvec3(encoded & 0xffu, (encoded >> 8u) & 0xffu, (encoded >> 16u) & 0xffu));\n rgb *= divisor;\n\n return vec3(\n ((encoded & 0x1000000u) != 0u) ? -rgb.r : rgb.r,\n ((encoded & 0x2000000u) != 0u) ? -rgb.g : rgb.g,\n ((encoded & 0x4000000u) != 0u) ? -rgb.b : rgb.b\n );\n}\n\n// Rotate vector v by quaternion q\nvec3 quatVec(vec4 q, vec3 v) {\n // Rotate vector v by quaternion q\n vec3 t = 2.0 * cross(q.xyz, v);\n return v + q.w * t + cross(q.xyz, t);\n}\n\n// Apply quaternion q1 after quaternion q2\nvec4 quatQuat(vec4 q1, vec4 q2) {\n return vec4(\n q1.w * q2.x + q1.x * q2.w + q1.y * q2.z - q1.z * q2.y,\n q1.w * q2.y - q1.x * q2.z + q1.y * q2.w + q1.z * q2.x,\n q1.w * q2.z + q1.x * q2.y - q1.y * q2.x + q1.z * q2.w,\n q1.w * q2.w - q1.x * q2.x - q1.y * q2.y - q1.z * q2.z\n );\n}\n\nmat3 quaternionToMatrix(vec4 q) {\n return mat3(\n (1.0 - 2.0 * (q.y * q.y + q.z * q.z)),\n (2.0 * (q.x * q.y + q.w * q.z)),\n (2.0 * (q.x * q.z - q.w * q.y)),\n (2.0 * (q.x * q.y - q.w * q.z)),\n (1.0 - 2.0 * (q.x * q.x + q.z * q.z)),\n (2.0 * (q.y * q.z + q.w * q.x)),\n (2.0 * (q.x * q.z + q.w * q.y)),\n (2.0 * (q.y * q.z - q.w * q.x)),\n (1.0 - 2.0 * (q.x * q.x + q.y * q.y))\n );\n}\n\nmat3 scaleQuaternionToMatrix(vec3 s, vec4 q) {\n // Compute the matrix of scaling by s then rotating by q\n return mat3(\n s.x * (1.0 - 2.0 * (q.y * q.y + q.z * q.z)),\n s.x * (2.0 * (q.x * q.y + q.w * q.z)),\n s.x * (2.0 * (q.x * q.z - q.w * q.y)),\n s.y * (2.0 * (q.x * q.y - q.w * q.z)),\n s.y * (1.0 - 2.0 * (q.x * q.x + q.z * q.z)),\n s.y * (2.0 * (q.y * q.z + q.w * q.x)),\n s.z * (2.0 * (q.x * q.z + q.w * q.y)),\n s.z * (2.0 * (q.y * q.z - q.w * q.x)),\n s.z * (1.0 - 2.0 * (q.x * q.x + q.y * q.y))\n );\n}\n\n// Spherical lerp between two quaternions\nvec4 slerp(vec4 q1, vec4 q2, float t) {\n // Compute the cosine of the angle between the two vectors\n float cosHalfTheta = dot(q1, q2);\n\n // If q1=q2 or q1=-q2 then theta = 0 and we can return q1\n if (abs(cosHalfTheta) >= 0.999) {\n return q1;\n }\n \n // If q1 and q2 are more than 180 degrees apart, \n // we need to negate one to get the shortest path\n if (cosHalfTheta < 0.0) {\n q2 = -q2;\n cosHalfTheta = -cosHalfTheta;\n }\n\n // Calculate temporary values\n float halfTheta = acos(cosHalfTheta);\n float sinHalfTheta = sqrt(1.0 - cosHalfTheta * cosHalfTheta);\n\n // Calculate the interpolation factors\n float ratioA = sin((1.0 - t) * halfTheta) / sinHalfTheta;\n float ratioB = sin(t * halfTheta) / sinHalfTheta;\n\n // Calculate the interpolated quaternion\n return q1 * ratioA + q2 * ratioB;\n}\n\nivec3 splatTexCoord(int index) {\n uint x = uint(index) & SPLAT_TEX_WIDTH_MASK;\n uint y = (uint(index) >> SPLAT_TEX_WIDTH_BITS) & SPLAT_TEX_HEIGHT_MASK;\n uint z = uint(index) >> SPLAT_TEX_LAYER_BITS;\n return ivec3(x, y, z);\n}\n\nivec3 pagedSplatTexCoord(int index) {\n return ivec3(index & 255, (index >> 8) & 255, index >> 16);\n}\n\nvec4 uintToVec4(uint u32) {\n uvec4 bytes = uvec4(\n u32 & 0xFFu,\n (u32 >> 8u) & 0xFFu,\n (u32 >> 16u) & 0xFFu,\n (u32 >> 24u) & 0xFFu\n );\n return vec4(bytes) / 255.0;\n}\n\nvec4 floatToVec4(float f) {\n uint u32 = floatBitsToUint(f);\n return uintToVec4(u32);\n}\n\nvec3 debugColorHue(uint i) {\n // Golden ratio conjugate; spreads hues evenly\n float hue = fract(float(i) * 0.61803398875);\n // HSV to RGB with fixed S/V\n vec3 rgb = clamp(abs(mod(hue*6.0 + vec3(0.0,4.0,2.0), 6.0) - 3.0) - 1.0, 0.0, 1.0);\n return mix(vec3(1.0), rgb, 0.85); // saturation ~0.85, value ~1.0\n}\n","\nprecision highp float;\nprecision highp int;\n\n#include \n\nuniform float near;\nuniform float far;\nuniform bool encodeLinear;\nuniform float time;\nuniform bool debugFlag;\nuniform float maxStdDev;\nuniform float minAlpha;\nuniform bool disableFalloff;\nuniform float falloff;\n\nout vec4 fragColor;\n\nin vec4 vRgba;\nin vec2 vSplatUv;\nin vec3 vNdc;\nflat in uint vSplatIndex;\nflat in float adjustedStdDev;\n\n#include \n\nvoid main() {\n vec4 rgba = vRgba;\n\n float z2 = dot(vSplatUv, vSplatUv);\n if (z2 > (adjustedStdDev * adjustedStdDev)) {\n discard;\n }\n\n if (false) {\n // if (debugFlag) {\n float a = rgba.a;\n float shifted = sqrt(z2) - max(0.0, a - 1.0);\n float exponent = -0.5 * max(1.0, a) * sqr(max(0.0, shifted));\n float min1a = min(1.0, a);\n rgba.a = mix(min1a, min1a * exp(exponent), falloff);\n } else {\n // New falloff function, more or less equivalent\n if (rgba.a <= 1.0) {\n rgba.a = mix(rgba.a, rgba.a * exp(-0.5 * z2), falloff);\n } else {\n float a = exp((rgba.a*rgba.a - 1.0) / 2.718281828459045);\n float alpha = 1.0 - pow(1.0 - exp(-0.5 * z2), a);\n rgba.a = mix(1.0, alpha, falloff);\n }\n }\n\n if (rgba.a < minAlpha) {\n discard;\n }\n if (encodeLinear) {\n rgba.rgb = srgbToLinear(rgba.rgb);\n }\n\n #ifdef PREMULTIPLIED_ALPHA\n fragColor = vec4(rgba.rgb * rgba.a, rgba.a);\n #else\n fragColor = rgba;\n #endif\n\n #include \n}\n","\nprecision highp float;\nprecision highp int;\nprecision highp usampler2DArray;\n\n#include \n\nout vec4 vRgba;\nout vec2 vSplatUv;\nout vec3 vNdc;\nflat out uint vSplatIndex;\nflat out float adjustedStdDev;\n\n// uniform uint numSplats;\nuniform vec2 renderSize;\nuniform vec4 renderToViewQuat;\nuniform vec3 renderToViewPos;\nuniform mat3 renderToViewBasis;\nuniform float maxStdDev;\nuniform float minPixelRadius;\nuniform float maxPixelRadius;\nuniform bool enableExtSplats;\nuniform bool enableCovSplats;\nuniform float time;\nuniform float deltaTime;\nuniform bool debugFlag;\nuniform float minAlpha;\nuniform bool enable2DGS;\nuniform bool lodInflate;\nuniform float blurAmount;\nuniform float preBlurAmount;\nuniform float focalDistance;\nuniform float apertureAngle;\nuniform float clipXY;\nuniform float focalAdjustment;\n\nuniform usampler2D ordering;\nuniform usampler2DArray extSplats;\nuniform usampler2DArray extSplats2;\n\n// Required by logdepthbuf_pars_vertex (normally defined in three.js #include )\nbool isPerspectiveMatrix( mat4 m ) {\n return m[ 2 ][ 3 ] == -1.0;\n}\n\n#include \n\nvoid main() {\n // Default to outside the frustum so it's discarded if we return early\n gl_Position = vec4(0.0, 0.0, 2.0, 1.0);\n\n ivec2 orderingCoord = ivec2((gl_InstanceID >> 2) & 4095, gl_InstanceID >> 14);\n uint splatIndex = texelFetch(ordering, orderingCoord, 0)[gl_InstanceID & 3];\n if (splatIndex == 0xffffffffu) {\n // Special value reserved for \"no splat\"\n return;\n }\n\n ivec3 texCoord = splatTexCoord(int(splatIndex));\n vec3 center, scales, xxyyzz, xyxzyz;\n vec4 quaternion, rgba;\n mat3 cov3D;\n bvec3 zeroScales = bvec3(false);\n\n if (enableExtSplats) {\n uvec4 ext1 = texelFetch(extSplats, texCoord, 0);\n float alpha = unpackSplatExtAlpha(ext1);\n if ((alpha == 0.0) || (alpha < minAlpha)) {\n return;\n }\n uvec4 ext2 = texelFetch(extSplats2, texCoord, 0);\n\n if (!enableCovSplats) {\n unpackSplatExt(ext1, ext2, center, scales, quaternion, rgba);\n zeroScales = equal(scales, vec3(0.0));\n if (all(zeroScales)) {\n return;\n }\n } else {\n unpackSplatExtCov(ext1, ext2, center, rgba, xxyyzz, xyxzyz);\n if (all(equal(xxyyzz, vec3(0.0))) && all(equal(xyxzyz, vec3(0.0)))) {\n return;\n }\n }\n } else {\n uvec4 packed = texelFetch(extSplats, texCoord, 0);\n if (!enableCovSplats) {\n unpackSplatEncoding(packed, center, scales, quaternion, rgba, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n zeroScales = equal(scales, vec3(0.0));\n if (all(zeroScales)) {\n return;\n }\n } else {\n unpackSplatCovEncoding(packed, center, rgba, xxyyzz, xyxzyz, vec4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX));\n if (all(equal(xxyyzz, vec3(0.0))) && all(equal(xyxzyz, vec3(0.0)))) {\n return;\n }\n }\n\n rgba.a *= 2.0;\n if ((rgba.a == 0.0) || (rgba.a < minAlpha)) {\n return;\n }\n }\n\n adjustedStdDev = maxStdDev;\n if (rgba.a > 1.0) {\n // Stretch 1..2 to 1..5\n rgba.a = min(rgba.a * 4.0 - 3.0, 5.0);\n\n if (lodInflate) {\n // Adjust size to componsate for loss of opacity\n float opacity = exp((rgba.a * rgba.a - 1.0) / 2.718281828459045);\n float rescale = pow(opacity, 1.0 / 3.0);\n scales *= rescale;\n rgba.a = 1.0;\n }\n\n // Expand the maximum std dev to approximately cover the larger range\n adjustedStdDev = maxStdDev + 0.7 * (rgba.a - 1.0);\n }\n\n // Compute the view space center of the splat\n vec3 viewCenter = (!enableCovSplats ? quatVec(renderToViewQuat, center) : (renderToViewBasis * center)) + renderToViewPos;\n\n // Discard splats behind the camera\n if (viewCenter.z >= 0.0) {\n return;\n }\n\n // Compute the clip space center of the splat\n vec4 clipCenter = projectionMatrix * vec4(viewCenter, 1.0);\n\n // Discard splats outside near/far planes\n if (abs(clipCenter.z) >= clipCenter.w) {\n return;\n }\n\n // Discard splats more than clipXY times outside the XY frustum\n float clip = clipXY * clipCenter.w;\n if (abs(clipCenter.x) > clip || abs(clipCenter.y) > clip) {\n return;\n }\n\n vRgba = rgba;\n vSplatUv = position.xy * adjustedStdDev;\n\n // Record the splat index for entropy\n vSplatIndex = splatIndex;\n\n if (!enableCovSplats) {\n // Compute view space quaternion of splat\n vec4 viewQuaternion = quatQuat(renderToViewQuat, quaternion);\n\n if (enable2DGS && any(zeroScales)) {\n vec3 offset;\n if (zeroScales.z) {\n offset = vec3(vSplatUv.xy * scales.xy, 0.0);\n } else if (zeroScales.y) {\n offset = vec3(vSplatUv.x * scales.x, 0.0, vSplatUv.y * scales.z);\n } else {\n offset = vec3(0.0, vSplatUv.xy * scales.yz);\n }\n\n vec3 viewPos = viewCenter + quatVec(viewQuaternion, offset);\n gl_Position = projectionMatrix * vec4(viewPos, 1.0);\n vNdc = gl_Position.xyz / gl_Position.w;\n\n #include \n return;\n }\n\n // Compute the 3D covariance matrix of the splat\n mat3 RS = scaleQuaternionToMatrix(scales, viewQuaternion);\n cov3D = RS * transpose(RS);\n } else {\n cov3D = mat3(\n xxyyzz.x, xyxzyz.x, xyxzyz.y,\n xyxzyz.x, xxyyzz.y, xyxzyz.z,\n xyxzyz.y, xyxzyz.z, xxyyzz.z\n );\n cov3D = renderToViewBasis * cov3D * transpose(renderToViewBasis);\n }\n\n // Compute the Jacobian of the splat's projection at its center\n vec2 scaledRenderSize = renderSize * focalAdjustment;\n vec2 focal = 0.5 * scaledRenderSize * vec2(projectionMatrix[0][0], projectionMatrix[1][1]);\n\n mat3 J;\n if (isOrthographic) {\n J = mat3(\n focal.x, 0.0, 0.0,\n 0.0, focal.y, 0.0,\n 0.0, 0.0, 0.0\n );\n } else {\n float invZ = 1.0 / viewCenter.z;\n vec2 J1 = focal * invZ;\n vec2 J2 = -(J1 * viewCenter.xy) * invZ;\n J = mat3(\n J1.x, 0.0, J2.x,\n 0.0, J1.y, J2.y,\n 0.0, 0.0, 0.0\n );\n }\n\n // Compute the 2D covariance by projecting the 3D covariance\n // and picking out the XY plane components.\n mat3 cov2D = transpose(J) * cov3D * J;\n float a = cov2D[0][0];\n float d = cov2D[1][1];\n float b = cov2D[0][1];\n\n // Optionally pre-blur the splat to match non-antialias optimized splats\n a += preBlurAmount;\n d += preBlurAmount;\n\n float fullBlurAmount = blurAmount;\n if ((focalDistance > 0.0) && (apertureAngle > 0.0)) {\n float focusRadius = maxPixelRadius;\n if (viewCenter.z < 0.0) {\n float focusBlur = abs((-viewCenter.z - focalDistance) / viewCenter.z);\n float apertureRadius = focal.x * tan(0.5 * apertureAngle);\n focusRadius = focusBlur * apertureRadius;\n }\n fullBlurAmount = clamp(sqr(focusRadius), blurAmount, sqr(maxPixelRadius));\n }\n\n // Do convolution with a 0.5-pixel Gaussian for anti-aliasing: sqrt(0.3) ~= 0.5\n float detOrig = a * d - b * b;\n a += fullBlurAmount;\n d += fullBlurAmount;\n float det = a * d - b * b;\n\n // Compute anti-aliasing intensity scaling factor\n float blurAdjust = sqrt(max(0.0, detOrig / det));\n rgba.a *= blurAdjust;\n if (rgba.a < minAlpha) {\n return;\n }\n vRgba.a = rgba.a;\n\n // Compute the eigenvalue and eigenvectors of the 2D covariance matrix\n float eigenAvg = 0.5 * (a + d);\n float eigenDelta = sqrt(max(0.0, eigenAvg * eigenAvg - det));\n float eigen1 = eigenAvg + eigenDelta;\n float eigen2 = eigenAvg - eigenDelta;\n\n vec2 eigenVec1 = (abs(b) > 0.001) ? normalize(vec2(b, eigen1 - a))\n : ((a >= d) ? vec2(1.0, 0.0) : vec2(0.0, 1.0));\n vec2 eigenVec2 = vec2(eigenVec1.y, -eigenVec1.x);\n\n float scale1 = min(maxPixelRadius, adjustedStdDev * sqrt(eigen1));\n float scale2 = min(maxPixelRadius, adjustedStdDev * sqrt(eigen2));\n if (scale1 < minPixelRadius && scale2 < minPixelRadius) {\n return;\n }\n\n // Compute the NDC coordinates for the ellipsoid's diagonal axes.\n vec2 pixelOffset = position.x * eigenVec1 * scale1 + position.y * eigenVec2 * scale2;\n vec2 ndcOffset = (2.0 / scaledRenderSize) * pixelOffset;\n\n // Compute NDC center of the splat\n vec3 ndcCenter = clipCenter.xyz / clipCenter.w;\n vec3 ndc = vec3(ndcCenter.xy + ndcOffset, ndcCenter.z);\n\n vNdc = ndc;\n gl_Position = vec4(ndc.xy * clipCenter.w, clipCenter.zw);\n\n #include \n}\n","import * as THREE from \"three\";\n\nimport computeUvec4Template from \"./shaders/computeUvec4.glsl\";\nimport computeUvec4Vec4Template from \"./shaders/computeUvec4_Vec4.glsl\";\nimport computeUvec4x2Vec4Template from \"./shaders/computeUvec4x2_Vec4.glsl\";\nimport computeVec4Template from \"./shaders/computeVec4.glsl\";\nimport oldSplatFragment from \"./shaders/oldSplatFragment.glsl\";\nimport oldSplatVertex from \"./shaders/oldSplatVertex.glsl\";\nimport splatDefines from \"./shaders/splatDefines.glsl\";\nimport splatFragment from \"./shaders/splatFragment.glsl\";\nimport splatVertex from \"./shaders/splatVertex.glsl\";\n\nlet shaders: Record | null = null;\n\nexport function getShaders(): Record {\n if (!shaders) {\n // @ts-ignore\n THREE.ShaderChunk.splatDefines = splatDefines;\n shaders = {\n oldSplatVertex,\n oldSplatFragment,\n splatVertex,\n splatFragment,\n computeVec4Template,\n computeUvec4Vec4Template,\n computeUvec4x2Vec4Template,\n computeUvec4Template,\n };\n }\n return shaders;\n}\n","import * as THREE from \"three\";\nimport { FullScreenQuad } from \"three/addons/postprocessing/Pass.js\";\n\nimport { SPLAT_TEX_HEIGHT, SPLAT_TEX_WIDTH } from \"./defines\";\nimport { type Dyno, OutputRgba8, dynoBlock } from \"./dyno\";\nimport { DynoProgram, DynoProgramTemplate } from \"./dyno/program\";\nimport { getShaders } from \"./shaders\";\nimport { getTextureSize } from \"./utils\";\n\n// Readback can be used to run a Dyno program that maps an index to a 32-bit\n// RGBA8 value, which is the only allowed, portable readback format for WebGL2.\n// Using data packing and conversion you can read back any 32-bit value, which\n// Spark uses to read back 2 float16 Gsplat distance values per index.\n\nexport type Rgba8Readback = Dyno<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n\n// Readback can be performed with various typed buffers, making it convenient\n// to encode readback data in a variety of formats.\n\nexport type ReadbackBuffer =\n | ArrayBuffer\n | Uint8Array\n | Uint8ClampedArray\n | Int8Array\n | Uint16Array\n | Int16Array\n | Uint32Array\n | Int32Array\n | Float32Array;\n\nexport class Readback {\n renderer?: THREE.WebGLRenderer;\n target?: THREE.WebGLArrayRenderTarget;\n capacity: number;\n count: number;\n\n constructor({ renderer }: { renderer?: THREE.WebGLRenderer } = {}) {\n this.renderer = renderer;\n this.capacity = 0;\n this.count = 0;\n }\n\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target = undefined;\n }\n }\n\n // Ensure we have a buffer large enough for the readback of count indices.\n // Pass in previous bufer of the desired type.\n static ensureBuffer(count: number, buffer: B): B {\n // Readback is performed in a 2D array of pixels, so round up with SPLAT_TEX_WIDTH\n const roundedCount =\n Math.ceil(Math.max(1, count) / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n const bytes = roundedCount * 4;\n if (buffer.byteLength >= bytes) {\n return buffer;\n }\n\n // Need a larger buffer, create a new one of the same type\n const newBuffer = new ArrayBuffer(bytes);\n if (buffer instanceof ArrayBuffer) {\n return newBuffer as B;\n }\n\n const ctor = buffer.constructor as { new (arrayBuffer: ArrayBuffer): B };\n return new ctor(newBuffer) as B;\n }\n\n ensureBuffer(count: number, buffer: B): B {\n return Readback.ensureBuffer(count, buffer);\n }\n\n // Ensure our render target is large enough for the readback of capacity indices.\n ensureCapacity(capacity: number) {\n const { width, height, depth, maxSplats } = getTextureSize(capacity);\n if (!this.target || maxSplats > this.capacity) {\n this.dispose();\n this.capacity = maxSplats;\n\n // The only portable readback format for WebGL2 is RGBA8\n this.target = new THREE.WebGLArrayRenderTarget(width, height, depth, {\n depthBuffer: false,\n stencilBuffer: false,\n generateMipmaps: false,\n magFilter: THREE.NearestFilter,\n minFilter: THREE.NearestFilter,\n });\n this.target.texture.format = THREE.RGBAFormat;\n this.target.texture.type = THREE.UnsignedByteType;\n this.target.texture.internalFormat = \"RGBA8\";\n this.target.scissorTest = true;\n }\n }\n\n // Get a program and THREE.RawShaderMaterial for a given Rgba8Readback,\n // generating it if necessary and caching the result.\n prepareProgramMaterial(reader: Rgba8Readback): {\n program: DynoProgram;\n material: THREE.RawShaderMaterial;\n } {\n let program = Readback.readbackProgram.get(reader);\n if (!program) {\n const graph = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n reader.inputs.index = index;\n const rgba8 = new OutputRgba8({ rgba8: reader.outputs.rgba8 });\n return { rgba8 };\n },\n );\n if (!Readback.programTemplate) {\n Readback.programTemplate = new DynoProgramTemplate(\n getShaders().computeVec4Template,\n );\n }\n // Create a program from the template and graph\n program = new DynoProgram({\n graph,\n inputs: { index: \"_index\" },\n outputs: { rgba8: \"target\" },\n template: Readback.programTemplate,\n });\n Object.assign(program.uniforms, {\n targetLayer: { value: 0 },\n targetBase: { value: 0 },\n targetCount: { value: 0 },\n });\n Readback.readbackProgram.set(reader, program);\n }\n\n const material = program.prepareMaterial();\n Readback.fullScreenQuad.material = material;\n return { program, material };\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n private process({\n count,\n material,\n }: { count: number; material: THREE.RawShaderMaterial }) {\n const renderer = this.renderer;\n if (!renderer) {\n throw new Error(\"No renderer\");\n }\n if (!this.target) {\n throw new Error(\"No target\");\n }\n\n // Run the program in \"layer\" chunks, in horizontal row ranges,\n // that cover the total count of indices.\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n material.uniforms.targetBase.value = 0;\n material.uniforms.targetCount.value = count;\n let baseIndex = 0;\n\n // Keep generating layers until completed count items\n while (baseIndex < count) {\n const layer = Math.floor(baseIndex / layerSize);\n const layerBase = layer * layerSize;\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((count - layerBase) / SPLAT_TEX_WIDTH),\n );\n material.uniforms.targetLayer.value = layer;\n\n // Render the desired portion of the layer\n this.target.scissor.set(0, 0, SPLAT_TEX_WIDTH, layerYEnd);\n renderer.setRenderTarget(this.target, layer);\n renderer.xr.enabled = false;\n renderer.autoClear = false;\n Readback.fullScreenQuad.render(renderer);\n\n baseIndex += SPLAT_TEX_WIDTH * layerYEnd;\n }\n\n this.count = count;\n }\n\n private async read({\n readback,\n }: { readback: B }): Promise {\n const renderer = this.renderer;\n if (!renderer) {\n throw new Error(\"No renderer\");\n }\n if (!this.target) {\n throw new Error(\"No target\");\n }\n\n const roundedCount =\n Math.ceil(this.count / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n if (readback.byteLength < roundedCount * 4) {\n throw new Error(\n `Readback buffer too small: ${readback.byteLength} < ${roundedCount * 4}`,\n );\n }\n const readbackUint8 = new Uint8Array(\n readback instanceof ArrayBuffer ? readback : readback.buffer,\n );\n\n // We can only read back one 2D array layer of pixels at a time,\n // so loop through them, initiate the readback, and collect the\n // completion promises.\n\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n let baseIndex = 0;\n const promises = [];\n\n while (baseIndex < this.count) {\n const layer = Math.floor(baseIndex / layerSize);\n const layerBase = layer * layerSize;\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((this.count - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n renderer.setRenderTarget(this.target, layer);\n\n // Compute the subarray that this layer of readback corresponds to\n const readbackSize = SPLAT_TEX_WIDTH * layerYEnd * 4;\n const subReadback = readbackUint8.subarray(\n layerBase * 4,\n layerBase * 4 + readbackSize,\n );\n const promise = renderer?.readRenderTargetPixelsAsync(\n this.target,\n 0,\n 0,\n SPLAT_TEX_WIDTH,\n layerYEnd,\n subReadback,\n );\n promises.push(promise);\n\n baseIndex += SPLAT_TEX_WIDTH * layerYEnd;\n }\n // const gl = renderer.getContext() as WebGL2RenderingContext;\n // gl.flush();\n return Promise.all(promises).then(() => readback);\n }\n\n // Perform render operation to run the Rgba8Readback program\n // but don't perform the readback yet.\n render({\n reader,\n count,\n renderer,\n }: { reader: Rgba8Readback; count: number; renderer?: THREE.WebGLRenderer }) {\n this.renderer = renderer || this.renderer;\n if (!this.renderer) {\n throw new Error(\"No renderer\");\n }\n\n this.ensureCapacity(count);\n\n const { program, material } = this.prepareProgramMaterial(reader);\n program.update();\n\n const renderState = this.saveRenderState(this.renderer);\n this.process({ count, material });\n this.resetRenderState(this.renderer, renderState);\n }\n\n // Perform a readback of the render target, returning a buffer of the\n // given type.\n async readback({\n readback,\n }: { readback: B }): Promise {\n if (!this.renderer) {\n throw new Error(\"No renderer\");\n }\n const renderState = this.saveRenderState(this.renderer);\n const promise = this.read({ readback });\n this.resetRenderState(this.renderer, renderState);\n return promise;\n }\n\n // Perform a render and readback operation for the given Rgba8Readback,\n // and readback buffer (call ensureBuffer first).\n async renderReadback({\n reader,\n count,\n renderer,\n readback,\n }: {\n reader: Rgba8Readback;\n count: number;\n renderer?: THREE.WebGLRenderer;\n readback: B;\n }): Promise {\n this.renderer = renderer || this.renderer;\n if (!this.renderer) {\n throw new Error(\"No renderer\");\n }\n\n this.ensureCapacity(count);\n\n const { program, material } = this.prepareProgramMaterial(reader);\n program.update();\n\n const renderState = this.saveRenderState(this.renderer);\n\n // Generate output\n this.process({ count, material });\n\n // Initiate readback\n const promise = this.read({ readback });\n\n this.resetRenderState(this.renderer, renderState);\n return promise;\n }\n\n getTexture(): THREE.DataArrayTexture | undefined {\n return this.target?.texture;\n }\n\n static programTemplate: DynoProgramTemplate | null = null;\n\n // Cache for Rgba8Readback programs\n static readbackProgram = new WeakMap();\n\n // Static full-screen quad for pseudo-compute shader rendering\n static fullScreenQuad = new FullScreenQuad(\n new THREE.RawShaderMaterial({ visible: false }),\n );\n}\n","import * as THREE from \"three\";\n\nimport { DynoPackedSplats, type PackedSplats } from \"./PackedSplats\";\nimport { Readback, type Rgba8Readback } from \"./Readback\";\nimport { SPLAT_TEX_WIDTH } from \"./defines\";\nimport {\n Dyno,\n type DynoBlock,\n DynoInt,\n DynoUniform,\n type DynoVal,\n add,\n dynoBlock,\n readPackedSplatRange,\n splitGsplat,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { getTextureSize } from \"./utils\";\n\n// An RgbaArray is a collection of ordered RGBA8 values, which can be used as a dyno\n// data source, for example for recoloring Gsplats via SplatMesh.splatRgba.\n// It can be instantiated from a Uint8Array of RGBA8 values, or it can be\n// generated using a Rgba8Readback dyno program.\n\nexport type RgbaArrayOptions = {\n // Reserve space for at least this many RGBA values.\n capacity?: number;\n // Use the provided array of RGBA8 values as the source.\n array?: Uint8Array;\n // The number of actual RGBA8 values in the array.\n count?: number;\n};\n\nexport class RgbaArray {\n capacity = 0;\n count = 0;\n array: Uint8Array | null = null;\n\n readback: Readback | null = null;\n source: THREE.DataArrayTexture | null = null;\n // Set to true if source array is updated to have it upload to GPU\n needsUpdate = true;\n\n // Use this as a TRgbaArray in a dyno graph\n dyno: DynoUniform;\n\n constructor(options: RgbaArrayOptions = {}) {\n this.dyno = new DynoUniform({\n key: \"rgbaArray\",\n type: TRgbaArray,\n globals: () => [defineRgbaArray],\n value: {\n texture: RgbaArray.getEmpty(),\n count: 0,\n },\n update: (value) => {\n value.texture = this.getTexture();\n value.count = this.count;\n return value;\n },\n });\n\n if (options.array) {\n // Initialize with given array\n this.array = options.array;\n const splatCount = Math.floor(this.array.length / 4);\n this.capacity = Math.ceil(splatCount / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n if (this.capacity > splatCount) {\n this.array = new Uint8Array(this.capacity * 4);\n this.array.set(options.array);\n }\n this.count = Math.min(\n splatCount,\n options.count ?? Number.POSITIVE_INFINITY,\n );\n } else {\n this.capacity = options.capacity ?? 0;\n this.count = 0;\n }\n }\n\n // Free up resources\n dispose() {\n if (this.readback) {\n this.readback.dispose();\n this.readback = null;\n }\n if (this.source) {\n this.source.dispose();\n this.source = null;\n }\n }\n\n // Ensure that our array is large enough to hold capacity RGBA8 values.\n ensureCapacity(capacity: number): Uint8Array {\n if (!this.array || capacity > (this.array?.length ?? 0) / 4) {\n this.capacity = getTextureSize(capacity).maxSplats;\n const newArray = new Uint8Array(this.capacity * 4);\n if (this.array) {\n // Copy over existing data\n newArray.set(this.array);\n }\n this.array = newArray;\n }\n return this.array;\n }\n\n // Get the THREE.DataArrayTexture from either the readback or the source.\n getTexture(): THREE.DataArrayTexture {\n let texture = this.readback?.getTexture();\n if (this.source || this.array) {\n texture = this.maybeUpdateSource();\n }\n return texture ?? RgbaArray.getEmpty();\n }\n\n // Create or get a THREE.DataArrayTexture from the data array.\n private maybeUpdateSource(): THREE.DataArrayTexture {\n if (!this.array) {\n throw new Error(\"No array\");\n }\n\n if (this.needsUpdate || !this.source) {\n this.needsUpdate = false;\n\n if (this.source) {\n const { width, height, depth } = this.source.image;\n if (this.capacity !== width * height * depth) {\n this.source.dispose();\n this.source = null;\n }\n }\n if (!this.source) {\n const { width, height, depth } = getTextureSize(this.capacity);\n this.source = new THREE.DataArrayTexture(\n this.array as Uint8Array,\n width,\n height,\n depth,\n );\n this.source.format = THREE.RGBAFormat;\n this.source.type = THREE.UnsignedByteType;\n this.source.internalFormat = \"RGBA8\";\n this.source.needsUpdate = true;\n } else if (this.array.buffer !== this.source.image.data.buffer) {\n this.source.image.data = new Uint8Array(this.array.buffer);\n }\n this.source.needsUpdate = true;\n }\n return this.source;\n }\n\n // Generate the RGBA8 values from a Rgba8Readback dyno program.\n render({\n reader,\n count,\n renderer,\n }: { reader: Rgba8Readback; count: number; renderer: THREE.WebGLRenderer }) {\n if (!this.readback) {\n this.readback = new Readback({ renderer });\n }\n this.readback.render({ reader, count, renderer });\n this.capacity = this.readback.capacity;\n this.count = this.readback.count;\n }\n\n // Extract the RGBA8 values from a PackedSplats collection.\n fromPackedSplats({\n packedSplats,\n base,\n count,\n renderer,\n }: {\n packedSplats: PackedSplats;\n base: number;\n count: number;\n renderer: THREE.WebGLRenderer;\n }) {\n const { dynoSplats, dynoBase, dynoCount, reader } = RgbaArray.makeDynos();\n dynoSplats.packedSplats = packedSplats;\n dynoBase.value = base;\n dynoCount.value = count;\n this.render({ reader, count, renderer });\n return this;\n }\n\n // Read back the RGBA8 values from the readback buffer.\n async read(): Promise {\n if (!this.readback) {\n throw new Error(\"No readback\");\n }\n if (!this.array || this.array.length < this.count * 4) {\n this.array = new Uint8Array(this.capacity * 4);\n }\n const result = await this.readback.readback({ readback: this.array });\n return result.subarray(0, this.count * 4);\n }\n\n async getArray(): Promise {\n if (this.readback) {\n return await this.read();\n }\n if (this.array) {\n return this.array;\n }\n throw new Error(\"No array\");\n }\n\n private static emptySource: THREE.DataArrayTexture | null = null;\n\n // Can be used where you need an uninitialized THREE.DataArrayTexture like\n // a uniform you will update with the result of this.getTexture() later.\n static getEmpty(): THREE.DataArrayTexture {\n if (!RgbaArray.emptySource) {\n const emptyArray = new Uint8Array(1 * 4);\n RgbaArray.emptySource = new THREE.DataArrayTexture(emptyArray, 1, 1, 1);\n RgbaArray.emptySource.format = THREE.RGBAFormat;\n RgbaArray.emptySource.type = THREE.UnsignedByteType;\n RgbaArray.emptySource.internalFormat = \"RGBA8\";\n RgbaArray.emptySource.needsUpdate = true;\n }\n return RgbaArray.emptySource;\n }\n\n private static dynos: {\n dynoSplats: DynoPackedSplats;\n dynoBase: DynoInt;\n dynoCount: DynoInt;\n reader: DynoBlock<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n } | null = null;\n\n // Create a dyno program that can extract RGBA8 values from a PackedSplats\n private static makeDynos() {\n if (!RgbaArray.dynos) {\n const dynoSplats = new DynoPackedSplats();\n const dynoBase = new DynoInt({ value: 0 });\n const dynoCount = new DynoInt({ value: 0 });\n const reader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n index = add(index, dynoBase);\n const gsplat = readPackedSplatRange(\n dynoSplats,\n index,\n dynoBase,\n dynoCount,\n );\n return { rgba8: splitGsplat(gsplat).outputs.rgba };\n },\n );\n RgbaArray.dynos = { dynoSplats, dynoBase, dynoCount, reader };\n }\n return RgbaArray.dynos;\n }\n}\n\n// Dyno types and definitions\n\nexport const TRgbaArray = { type: \"RgbaArray\" } as { type: \"RgbaArray\" };\n\nexport const defineRgbaArray = unindent(`\n struct RgbaArray {\n sampler2DArray texture;\n int count;\n };\n`);\n\nexport function readRgbaArray(\n rgba: DynoVal,\n index: DynoVal<\"int\">,\n): DynoVal<\"vec4\"> {\n const dyno = new Dyno<\n { rgba: typeof TRgbaArray; index: \"int\" },\n { rgba: \"vec4\" }\n >({\n inTypes: { rgba: TRgbaArray, index: \"int\" },\n outTypes: { rgba: \"vec4\" },\n inputs: { rgba, index },\n globals: () => [defineRgbaArray],\n statements: ({ inputs, outputs }) =>\n unindentLines(`\n if ((${inputs.index} >= 0) && (${inputs.index} < ${inputs.rgba}.count)) {\n ${outputs.rgba} = texelFetch(${inputs.rgba}.texture, splatTexCoord(${inputs.index}), 0);\n } else {\n ${outputs.rgba} = vec4(0.0, 0.0, 0.0, 0.0);\n }\n `),\n });\n return dyno.outputs.rgba;\n}\n","import * as THREE from \"three\";\n\nimport {\n CovSplat,\n Dyno,\n DynoInt,\n DynoUniform,\n type DynoVal,\n Gsplat,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { newArray } from \"./utils\";\n\n// Spark provides the ability to apply \"edits\" to Gsplats as part of the standard\n// SplatMesh pipeline. These edits take the form of a sequence of operations,\n// applied one at a time to the set of Gsplats in its packedSplats. Each operation\n// evaluates a 7-dimensional field (RGBA and XYZ displacement) at each point in\n// space that derives from N=1 or more Signed Distance Field shapes (such as spheres,\n// boxes, planes, etc.), blended together and across inside-outisde boundaries.\n\n// The result is a an RGBA,XYZ value for each point in space, which combined with\n// SplatEditRgbaBlendMode.MULTIPLY/SET_RGB/ADD_RGBA can be used to create special\n// effects, for example simulating simple lighting or applying deformations in space,\n// whose parameters can be updated each frame to create animated effects.\n\n// RGBA-XYZ values are computed by blending together values from all SDF shapes using\n// the exponential \"softmax\" function, which is commutative (so blending order within\n// a SplatEdit operation doesn't matter). The parameter SplatEdit.sdfSmooth controls\n// the blending scale between SDF shapes, while SplatEdit.softEdge controls the scale\n// of soft inside-outside shape edit blending. Their default values start at 0.0 and\n// should be increased to soften the effect.\n\n// Note that XYZ displacement values are blended in the same way as RGBA, with a\n// resulting displacement field that can be quite complex but \"softly\" blending\n// between shapes. These RGBA-XYZ edits, along with time-based and overlapping\n// fields can create many interesting animations and special effects, such as\n// rippling leaves in the wind, an angry fire, or a looping water effects. Simply\n// update the SplatEdit and SplatEditSdf objects and the operations will be applied\n// immediately to the Gsplats in the scene.\n\nexport enum SplatEditSdfType {\n // ALL: Affects all points in space\n ALL = \"all\",\n // PLANE: Infinite plane (position, rotation)\n PLANE = \"plane\",\n // SPHERE: Sphere (position, radius)\n SPHERE = \"sphere\",\n // BOX: Rounded box (position, rotation, sizes, radius)\n BOX = \"box\",\n // ELLIPSOID: Ellipsoid (position, rotation, sizes)\n ELLIPSOID = \"ellipsoid\",\n // CYLINDER: Cylinder (position, rotation, radius, size_y)\n CYLINDER = \"cylinder\",\n // CAPSULE: Capsule (position, rotation, radius, size_y)\n CAPSULE = \"capsule\",\n // INFINITE_CONE: Infinite cone (position, rotation, radius=angle)\n INFINITE_CONE = \"infinite_cone\",\n}\n\nfunction sdfTypeToNumber(type: SplatEditSdfType) {\n switch (type) {\n case SplatEditSdfType.ALL:\n return 0;\n case SplatEditSdfType.PLANE:\n return 1;\n case SplatEditSdfType.SPHERE:\n return 2;\n case SplatEditSdfType.BOX:\n return 3;\n case SplatEditSdfType.ELLIPSOID:\n return 4;\n case SplatEditSdfType.CYLINDER:\n return 5;\n case SplatEditSdfType.CAPSULE:\n return 6;\n case SplatEditSdfType.INFINITE_CONE:\n return 7;\n default:\n throw new Error(`Unknown SDF type: ${type}`);\n }\n}\n\nexport enum SplatEditRgbaBlendMode {\n // The RGBA of the splat is multiplied component-wise by the SDF’s\n // RGBA value at that point in space.\n MULTIPLY = \"multiply\",\n // Ignore the Alpha value in the SDF, but set the splat’s RGB to\n // equal the SDF’s RGB value at that point.\n SET_RGB = \"set_rgb\",\n // Add the SDF’s RGBA value at that point to the RGBA value of\n // the Gsplat. This can produce hyper-saturated results, but is useful\n // to easily “light up” areas.\n ADD_RGBA = \"add_rgba\",\n}\n\nfunction rgbaBlendModeToNumber(mode: SplatEditRgbaBlendMode) {\n switch (mode) {\n case SplatEditRgbaBlendMode.MULTIPLY:\n return 0;\n case SplatEditRgbaBlendMode.SET_RGB:\n return 1;\n case SplatEditRgbaBlendMode.ADD_RGBA:\n return 2;\n default:\n throw new Error(`Unknown blend mode: ${mode}`);\n }\n}\n\nexport type SplatEditSdfOptions = {\n // The SDF shape type: ALL, PLANE, SPHERE, BOX, ELLIPSOID, CYLINDER, CAPSULE,\n // or INFINITE_CONE. (default: SplatEditSdfType.SPHERE)\n type?: SplatEditSdfType;\n // Invert the SDF evaluation, swapping inside and outside regions. (default: false)\n invert?: boolean;\n // Opacity / \"alpha\" value used differently by blending modes (default: 1.0)\n opacity?: number;\n // RGB color applied within the shape. (default: new THREE.Color(1.0, 1.0, 1.0))\n color?: THREE.Color;\n // XYZ displacement applied to splat positions inside the shape.\n // (default: new THREE.Vector3(0.0, 0.0, 0.0))\n displace?: THREE.Vector3;\n // Shape-specific size parameter: sphere radius, box corner rounding,\n // cylinder/capsule radius, or for the infinite cone the angle factor\n // (opening half-angle = π/4 × radius).\n radius?: number;\n};\n\nexport class SplatEditSdf extends THREE.Object3D {\n type: SplatEditSdfType;\n invert: boolean;\n opacity: number;\n color: THREE.Color;\n displace: THREE.Vector3;\n radius: number;\n\n constructor(options: SplatEditSdfOptions = {}) {\n super();\n const { type, invert, opacity, color, displace, radius } = options;\n this.type = type ?? SplatEditSdfType.SPHERE;\n this.invert = invert ?? false;\n this.opacity = opacity ?? 1.0;\n this.color = color ?? new THREE.Color(1.0, 1.0, 1.0);\n this.displace = displace ?? new THREE.Vector3(0.0, 0.0, 0.0);\n this.radius = radius ?? 0.0;\n }\n}\n\nexport type SplatEditOptions = {\n // Name of this edit operation. If you omit it, a default \"Edit 1\", \"Edit 2\", ...\n // is assigned.\n name?: string;\n // How the SDF’s RGBA modifies each splat’s RGBA: multiply, overwrite RGB,\n // or add RGBA. (default: MULTIPLY)\n rgbaBlendMode?: SplatEditRgbaBlendMode;\n // Smoothing (in world‐space units) for blending between multiple SDF shapes\n // at their boundaries. (default: 0.0)\n sdfSmooth?: number;\n // Soft‐edge falloff radius (in world‐space units) around each SDF shape’s surface.\n // (default: 0.0)\n softEdge?: number;\n // Invert the SDF evaluation (inside/outside swap). (default: false)\n invert?: boolean;\n // Explicit array of SplatEditSdf objects to include. If null, any child\n // SplatEditSdf instances are used.\n sdfs?: SplatEditSdf[];\n};\n\nexport class SplatEdit extends THREE.Object3D {\n // ordering used to apply SplatEdit operations to Gsplats. This is implicitly\n // increased with each new SplatEdit. Reassigning ordering can be used to\n // reorder the operations.\n ordering: number;\n rgbaBlendMode: SplatEditRgbaBlendMode;\n sdfSmooth: number;\n softEdge: number;\n invert: boolean;\n\n // Optional list of explicit SDFs to including in this edit. If it is null, then\n // any SplatEditSdf children in the scene graph will be added automatically.\n sdfs: SplatEditSdf[] | null;\n\n // The next ordering number to use for a new SplatEdit, auto-incremented\n static nextOrdering = 1;\n\n constructor(options: SplatEditOptions = {}) {\n const {\n name,\n rgbaBlendMode = SplatEditRgbaBlendMode.MULTIPLY,\n sdfSmooth = 0.0,\n softEdge = 0.0,\n invert = false,\n sdfs = null,\n } = options;\n\n super();\n this.rgbaBlendMode = rgbaBlendMode;\n this.sdfSmooth = sdfSmooth;\n this.softEdge = softEdge;\n this.invert = invert;\n this.sdfs = sdfs;\n // Assign and auto-increment unique ordering number for this edit\n this.ordering = SplatEdit.nextOrdering++;\n // Automatically assign a default name if not provided\n this.name = name ?? `Edit ${this.ordering}`;\n }\n\n addSdf(sdf: SplatEditSdf) {\n if (this.sdfs == null) {\n this.sdfs = [];\n }\n if (!this.sdfs.includes(sdf)) {\n this.sdfs.push(sdf);\n }\n }\n\n removeSdf(sdf: SplatEditSdf) {\n if (this.sdfs == null) {\n return;\n }\n this.sdfs = this.sdfs.filter((s) => s !== sdf);\n }\n}\n\n// Dyno implementation of RGBA-XYZ SDF editing.\n// The SDFs are encoded in a texture while the edits are encoded\n// as a uniform uvec4 array.\n\nexport class SplatEdits {\n // Maximum number of SDFs allocated\n maxSdfs: number;\n // Number of SDFs currently in use\n numSdfs: number;\n // Encoded SDF data\n sdfData: Uint32Array;\n // Float interpretation of SDF data\n sdfFloatData: Float32Array;\n // Texture with encoded SDF data\n sdfTexture: THREE.DataTexture;\n // An SdfArray dyno uniform\n dynoSdfArray: DynoUniform;\n\n // Maximum number of edits allocated\n maxEdits: number;\n // Number of edits currently in use\n numEdits: number;\n // Encoded edit data\n editData: Uint32Array;\n // Float interpretation of edit data\n editFloatData: Float32Array;\n // A dyno uniform for the number of edits\n dynoNumEdits: DynoUniform<\"int\", \"numEdits\">;\n // A dyno uniform for the encoded edits, one uvec4 per edit\n dynoEdits: DynoUniform<\"uvec4\", \"edits\">;\n\n constructor({ maxSdfs, maxEdits }: { maxSdfs?: number; maxEdits?: number }) {\n // Allocate at least 16 SDFs for efficiency\n this.maxSdfs = Math.max(16, maxSdfs ?? 0);\n this.numSdfs = 0;\n\n // Allocate space: 8 x (u)vec4 values per SDF, Uint32 and Float32 arrays\n this.sdfData = new Uint32Array(this.maxSdfs * 8 * 4);\n this.sdfFloatData = new Float32Array(this.sdfData.buffer);\n this.sdfTexture = this.newSdfTexture(this.sdfData, this.maxSdfs);\n this.dynoSdfArray = new DynoUniform({\n key: \"sdfArray\",\n type: SdfArray,\n globals: () => [defineSdfArray],\n value: {\n numSdfs: 0,\n sdfTexture: this.sdfTexture,\n },\n update: (uniform) => {\n uniform.numSdfs = this.numSdfs;\n uniform.sdfTexture = this.sdfTexture;\n return uniform;\n },\n });\n\n // Allocate at least 16 edits slots for efficiency\n this.maxEdits = Math.max(16, maxEdits ?? 0);\n this.numEdits = 0;\n // Allocate space: 1 uvec4 per edit\n this.editData = new Uint32Array(this.maxEdits * 4);\n this.editFloatData = new Float32Array(this.editData.buffer);\n this.dynoNumEdits = new DynoInt({ value: 0 });\n this.dynoEdits = this.newEdits(this.editData, this.maxEdits);\n }\n\n private newSdfTexture(data: Uint32Array, maxSdfs: number) {\n const texture = new THREE.DataTexture(\n data,\n 8,\n maxSdfs,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n }\n\n private newEdits(data: Uint32Array, maxEdits: number) {\n return new DynoUniform({\n key: \"edits\",\n type: \"uvec4\",\n count: maxEdits,\n globals: () => [defineEdit],\n value: data,\n });\n }\n\n // Ensure our SDF texture and edits uniform array have enough capacity.\n // Reallocate if not.\n private ensureCapacity({\n maxSdfs,\n maxEdits,\n }: { maxSdfs: number; maxEdits: number }): boolean {\n let dynoUpdated = false;\n if (maxSdfs > this.sdfTexture.image.height) {\n this.sdfTexture.dispose();\n // At least double the size to avoid frequent reallocations\n this.maxSdfs = Math.max(this.maxSdfs * 2, maxSdfs);\n this.sdfData = new Uint32Array(this.maxSdfs * 8 * 4);\n this.sdfFloatData = new Float32Array(this.sdfData.buffer);\n this.sdfTexture = this.newSdfTexture(this.sdfData, this.maxSdfs);\n }\n if (maxEdits > (this.dynoEdits.count ?? 0)) {\n // At least double the size to avoid frequent reallocations\n this.maxEdits = Math.max(this.maxEdits * 2, maxEdits);\n this.editData = new Uint32Array(this.maxEdits * 4);\n this.editFloatData = new Float32Array(this.editData.buffer);\n this.dynoEdits = this.newEdits(this.editData, this.maxEdits);\n dynoUpdated = true;\n }\n return dynoUpdated;\n }\n\n private updateEditData(offset: number, value: number): boolean {\n // Update an edit uint32 value and return true if it changed\n const updated = this.editData[offset] !== value;\n this.editData[offset] = value;\n return updated;\n }\n\n private updateEditFloatData(offset: number, value: number): boolean {\n // Update an edit float32 value and return true if it changed\n tempFloat32[0] = value;\n const updated = this.editFloatData[offset] !== tempFloat32[0];\n if (updated) {\n this.editFloatData[offset] = tempFloat32[0];\n }\n return updated;\n }\n\n private encodeEdit(\n editIndex: number,\n {\n sdfFirst,\n sdfCount,\n invert,\n rgbaBlendMode,\n softEdge,\n sdfSmooth,\n }: {\n sdfFirst: number;\n sdfCount: number;\n invert: boolean;\n rgbaBlendMode: number;\n softEdge: number;\n sdfSmooth: number;\n },\n ): boolean {\n const base = editIndex * 4;\n let updated = false;\n // Encode the edit fields into the editData array and check if any changed\n updated =\n this.updateEditData(base + 0, rgbaBlendMode | (invert ? 1 << 8 : 0)) ||\n updated;\n updated =\n this.updateEditData(base + 1, sdfFirst | (sdfCount << 16)) || updated;\n updated = this.updateEditFloatData(base + 2, softEdge) || updated;\n updated = this.updateEditFloatData(base + 3, sdfSmooth) || updated;\n return updated;\n }\n\n private updateSdfData(offset: number, value: number): boolean {\n // Update an SDF uint32 value and return true if it changed\n const updated = this.sdfData[offset] !== value;\n this.sdfData[offset] = value;\n return updated;\n }\n\n private updateSdfFloatData(offset: number, value: number): boolean {\n // Update an SDF float32 value and return true if it changed\n tempFloat32[0] = value;\n const updated = this.sdfFloatData[offset] !== tempFloat32[0];\n if (updated) {\n this.sdfFloatData[offset] = tempFloat32[0];\n }\n return updated;\n }\n\n private encodeSdf(\n sdfIndex: number,\n {\n sdfType,\n invert,\n center,\n quaternion,\n scale,\n sizes,\n }: {\n sdfType: number;\n invert?: boolean;\n center?: THREE.Vector3;\n quaternion?: THREE.Quaternion;\n scale?: THREE.Vector3;\n sizes?: THREE.Vector4;\n },\n values: THREE.Vector4[],\n ): boolean {\n // Encode the SDF fields into the sdfData array and check if any changed\n const base = sdfIndex * (8 * 4);\n const flags = sdfType | (invert ? 1 << 8 : 0);\n let updated = false;\n\n updated = this.updateSdfFloatData(base + 0, center?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 1, center?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 2, center?.z ?? 0) || updated;\n updated = this.updateSdfData(base + 3, flags) || updated;\n\n updated = this.updateSdfFloatData(base + 4, quaternion?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 5, quaternion?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 6, quaternion?.z ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 7, quaternion?.w ?? 0) || updated;\n\n updated = this.updateSdfFloatData(base + 8, scale?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 9, scale?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 10, scale?.z ?? 0) || updated;\n updated = this.updateSdfData(base + 11, 0) || updated;\n\n updated = this.updateSdfFloatData(base + 12, sizes?.x ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 13, sizes?.y ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 14, sizes?.z ?? 0) || updated;\n updated = this.updateSdfFloatData(base + 15, sizes?.w ?? 0) || updated;\n\n const nValues = Math.min(4, values.length);\n for (let i = 0; i < nValues; ++i) {\n const vBase = base + 16 + i * 4;\n updated = this.updateSdfFloatData(vBase + 0, values[i].x) || updated;\n updated = this.updateSdfFloatData(vBase + 1, values[i].y) || updated;\n updated = this.updateSdfFloatData(vBase + 2, values[i].z) || updated;\n updated = this.updateSdfFloatData(vBase + 3, values[i].w) || updated;\n }\n return updated;\n }\n\n // Update the SDFs and edits from an array of SplatEdits and their\n // associated SplatEditSdfs, updating it for the dyno shader program.\n update(edits: { edit: SplatEdit; sdfs: SplatEditSdf[] }[]): {\n updated: boolean;\n dynoUpdated: boolean;\n } {\n const sdfCount = edits.reduce((total, { sdfs }) => total + sdfs.length, 0);\n const dynoUpdated = this.ensureCapacity({\n maxEdits: edits.length,\n maxSdfs: sdfCount,\n });\n\n const values = [new THREE.Vector4(), new THREE.Vector4()];\n const center = new THREE.Vector3();\n const quaternion = new THREE.Quaternion();\n const scale = new THREE.Vector3();\n const sizes = new THREE.Vector4();\n\n let sdfIndex = 0;\n let updated = dynoUpdated;\n\n if (edits.length !== this.dynoNumEdits.value) {\n this.dynoNumEdits.value = edits.length;\n this.numEdits = edits.length;\n updated = true;\n }\n\n for (const [editIndex, { edit, sdfs }] of edits.entries()) {\n updated =\n this.encodeEdit(editIndex, {\n sdfFirst: sdfIndex,\n sdfCount: sdfs.length,\n invert: edit.invert,\n rgbaBlendMode: rgbaBlendModeToNumber(edit.rgbaBlendMode),\n softEdge: edit.softEdge,\n sdfSmooth: edit.sdfSmooth,\n }) || updated;\n\n let sdfUpdated = false;\n for (const sdf of sdfs) {\n sizes.set(sdf.scale.x, sdf.scale.y, sdf.scale.z, sdf.radius);\n // Temporarily set the SDF scale to 1.0 to get the world-to-SDF\n // transform without scaling. The SDF treats the scale separately.\n sdf.scale.setScalar(1.0);\n sdf.updateMatrixWorld();\n const worldToSdf = sdf.matrixWorld.clone().invert();\n worldToSdf.decompose(center, quaternion, scale);\n\n sdf.scale.set(sizes.x, sizes.y, sizes.z);\n sdf.updateMatrixWorld();\n\n values[0].set(sdf.color.r, sdf.color.g, sdf.color.b, sdf.opacity);\n values[1].set(sdf.displace.x, sdf.displace.y, sdf.displace.z, 1.0);\n\n sdfUpdated =\n this.encodeSdf(\n sdfIndex,\n {\n sdfType: sdfTypeToNumber(sdf.type),\n invert: sdf.invert,\n center,\n quaternion,\n scale,\n sizes,\n },\n values,\n ) || sdfUpdated;\n\n sdfIndex += 1;\n }\n this.numSdfs = sdfIndex;\n if (sdfUpdated) {\n this.sdfTexture.needsUpdate = true;\n }\n updated ||= sdfUpdated;\n }\n return { updated, dynoUpdated };\n }\n\n // Modify a Gsplat in a dyno shader program using the current edits and SDFs.\n modify(gsplat: DynoVal): DynoVal {\n return applyGsplatRgbaDisplaceEdits(\n gsplat,\n this.dynoSdfArray,\n this.dynoNumEdits,\n this.dynoEdits,\n );\n }\n\n modifyCov(covsplat: DynoVal): DynoVal {\n return applyCovSplatRgbaDisplaceEdits(\n covsplat,\n this.dynoSdfArray,\n this.dynoNumEdits,\n this.dynoEdits,\n );\n }\n}\n\n// Dyno types and components:\n\n// An SdfArray contains a collection of SDFs encoded in a texture.\n// Each SDF has a type and geometric parameters, but also encodes\n// 4 x vec4 values, which can all be blended across multiple SDFs.\n// The SplatEdit system uses 7 of these 16 values to encode RGBA-XYZ edits,\n// but more can be added, and these SDFs can be used for entirely different\n// purposes as well.\n\nexport const SdfArray = { type: \"SdfArray\" } as { type: \"SdfArray\" };\n\nexport const defineSdfArray = unindent(`\n struct SdfArray {\n int numSdfs;\n usampler2D sdfTexture;\n };\n\n void unpackSdfArray(\n usampler2D sdfTexture, int sdfIndex, out uint flags,\n out vec3 center, out vec4 quaternion, out vec3 scale, out vec4 sizes,\n int numValues, out vec4 values[4]\n ) {\n uvec4 temp = texelFetch(sdfTexture, ivec2(0, sdfIndex), 0);\n flags = temp.w;\n center = vec3(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z));\n\n temp = texelFetch(sdfTexture, ivec2(1, sdfIndex), 0);\n quaternion = vec4(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z), uintBitsToFloat(temp.w));\n\n temp = texelFetch(sdfTexture, ivec2(2, sdfIndex), 0);\n scale = vec3(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z));\n\n temp = texelFetch(sdfTexture, ivec2(3, sdfIndex), 0);\n sizes = vec4(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z), uintBitsToFloat(temp.w));\n\n for (int i = 0; i < numValues; ++i) {\n temp = texelFetch(sdfTexture, ivec2(4 + i, sdfIndex), 0);\n values[i] = vec4(uintBitsToFloat(temp.x), uintBitsToFloat(temp.y), uintBitsToFloat(temp.z), uintBitsToFloat(temp.w));\n }\n }\n\n const uint SDF_FLAG_TYPE = 0xFFu;\n const uint SDF_FLAG_INVERT = 1u << 8u;\n\n const uint SDF_TYPE_ALL = 0u;\n const uint SDF_TYPE_PLANE = 1u;\n const uint SDF_TYPE_SPHERE = 2u;\n const uint SDF_TYPE_BOX = 3u;\n const uint SDF_TYPE_ELLIPSOID = 4u;\n const uint SDF_TYPE_CYLINDER = 5u;\n const uint SDF_TYPE_CAPSULE = 6u;\n const uint SDF_TYPE_INFINITE_CONE = 7u;\n\n float evaluateSdfArray(\n usampler2D sdfTexture, int numSdfs, int sdfFirst, int sdfCount, vec3 pos,\n float smoothK, int numValues, out vec4 outValues[4]\n ) {\n float distanceAccum = (smoothK == 0.0) ? 1.0 / 0.0 : 0.0;\n float maxExp = -1.0 / 0.0;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] = vec4(0.0);\n }\n\n uint flags;\n vec3 center, scale;\n vec4 quaternion, sizes;\n vec4 values[4];\n\n int sdfLast = min(sdfFirst + sdfCount, numSdfs);\n for (int index = sdfFirst; index < sdfLast; ++index) {\n unpackSdfArray(sdfTexture, index, flags, center, quaternion, scale, sizes, numValues, values);\n uint sdfType = flags & SDF_FLAG_TYPE;\n vec3 sdfPos = quatVec(quaternion, pos * scale) + center;\n\n float distance;\n switch (sdfType) {\n case SDF_TYPE_ALL:\n distance = -1.0 / 0.0;\n break;\n case SDF_TYPE_PLANE: {\n distance = sdfPos.z;\n break;\n }\n case SDF_TYPE_SPHERE: {\n distance = length(sdfPos) - sizes.w;\n break;\n }\n case SDF_TYPE_BOX: {\n vec3 q = abs(sdfPos) - sizes.xyz + sizes.w;\n distance = length(max(q, 0.0)) + min(max(q.x, max(q.y, q.z)), 0.0) - sizes.w;\n break;\n }\n case SDF_TYPE_ELLIPSOID: {\n vec3 sizes = sizes.xyz;\n float k0 = length(sdfPos / sizes);\n float k1 = length(sdfPos / dot(sizes, sizes));\n distance = k0 * (k0 - 1.0) / k1;\n break;\n }\n case SDF_TYPE_CYLINDER: {\n vec2 d = abs(vec2(length(sdfPos.xz), sdfPos.y)) - sizes.wy;\n distance = min(max(d.x, d.y), 0.0) + length(max(d, 0.0));\n break;\n }\n case SDF_TYPE_CAPSULE: {\n sdfPos.y -= clamp(sdfPos.y, -0.5 * sizes.y, 0.5 * sizes.y);\n distance = length(sdfPos) - sizes.w;\n break;\n }\n case SDF_TYPE_INFINITE_CONE: {\n float angle = 0.25 * PI * sizes.w;\n vec2 c = vec2(sin(angle), cos(angle));\n vec2 q = vec2(length(sdfPos.xy), -sdfPos.z);\n float d = length(q - c * max(dot(q, c), 0.0));\n distance = d * (((q.x * c.y - q.y * c.x) < 0.0) ? -1.0 : 1.0);\n break;\n }\n }\n\n if ((flags & SDF_FLAG_INVERT) != 0u) {\n distance = -distance;\n }\n\n if (smoothK == 0.0) {\n if (distance < distanceAccum) {\n distanceAccum = distance;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] = values[i];\n }\n }\n } else {\n float scaledDistance = -distance / smoothK;\n if (scaledDistance > maxExp) {\n float scale = exp(maxExp - scaledDistance);\n distanceAccum *= scale;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] *= scale;\n }\n maxExp = scaledDistance;\n }\n\n float weight = exp(scaledDistance - maxExp);\n distanceAccum += weight;\n for (int i = 0; i < numValues; ++i) {\n outValues[i] += weight * values[i];\n }\n }\n }\n\n if (smoothK == 0.0) {\n return distanceAccum;\n } else {\n // Very distant SDFs may result in 0 accumulation\n if (distanceAccum == 0.0) {\n return 1.0 / 0.0;\n }\n for (int i = 0; i < numValues; ++i) {\n outValues[i] /= distanceAccum;\n }\n return (-log(distanceAccum) - maxExp) * smoothK;\n }\n }\n\n float modulateSdfArray(\n usampler2D sdfTexture, int numSdfs, int sdfFirst, int sdfCount, vec3 pos,\n float smoothK, int numValues, out vec4 values[4],\n float softEdge, bool invert\n ) {\n float distance = evaluateSdfArray(sdfTexture, numSdfs, sdfFirst, sdfCount, pos, smoothK, numValues, values);\n if (invert) {\n distance = -distance;\n }\n\n return (softEdge == 0.0) ? ((distance < 0.0) ? 1.0 : 0.0)\n : clamp(-distance / softEdge + 0.5, 0.0, 1.0);\n }\n`);\n\nexport const defineEdit = unindent(`\n const uint EDIT_FLAG_BLEND = 0xFFu;\n const uint EDIT_BLEND_MULTIPLY = 0u;\n const uint EDIT_BLEND_SET_RGB = 1u;\n const uint EDIT_BLEND_ADD_RGBA = 2u;\n const uint EDIT_FLAG_INVERT = 0x100u;\n\n void decodeEdit(\n uvec4 packedEdit, out int sdfFirst, out int sdfCount,\n out bool invert, out uint rgbaBlendMode, out float softEdge, out float sdfSmooth\n ) {\n rgbaBlendMode = packedEdit.x & EDIT_FLAG_BLEND;\n invert = (packedEdit.x & EDIT_FLAG_INVERT) != 0u;\n\n sdfFirst = int(packedEdit.y & 0xFFFFu);\n sdfCount = int(packedEdit.y >> 16u);\n\n softEdge = uintBitsToFloat(packedEdit.z);\n sdfSmooth = uintBitsToFloat(packedEdit.w);\n }\n\n void applyRgbaDisplaceEdit(\n usampler2D sdfTexture, int numSdfs, int sdfFirst, int sdfCount, inout vec3 pos,\n float smoothK, float softEdge, bool invert, uint rgbaBlendMode, inout vec4 rgba\n ) {\n vec4 values[4];\n float modulate = modulateSdfArray(sdfTexture, numSdfs, sdfFirst, sdfCount, pos, smoothK, 2, values, softEdge, invert);\n // On Android, moving values[0] is necessary to work around a compiler bug.\n vec4 sdfRgba = values[0];\n vec4 sdfDisplaceScale = values[1];\n\n vec4 target;\n switch (rgbaBlendMode) {\n case EDIT_BLEND_MULTIPLY:\n target = rgba * sdfRgba;\n break;\n case EDIT_BLEND_SET_RGB:\n target = vec4(sdfRgba.rgb, rgba.a * sdfRgba.a);\n break;\n case EDIT_BLEND_ADD_RGBA:\n target = rgba + sdfRgba;\n break;\n default:\n // Debug output if blend mode not set\n target = vec4(fract(pos), 1.0);\n }\n rgba = mix(rgba, target, modulate);\n pos += sdfDisplaceScale.xyz * modulate;\n }\n\n void applyPackedRgbaDisplaceEdit(uvec4 packedEdit, usampler2D sdfTexture, int numSdfs, inout vec3 pos, inout vec4 rgba) {\n int sdfFirst, sdfCount;\n bool invert;\n uint rgbaBlendMode;\n float softEdge, sdfSmooth;\n decodeEdit(packedEdit, sdfFirst, sdfCount, invert, rgbaBlendMode, softEdge, sdfSmooth);\n applyRgbaDisplaceEdit(sdfTexture, numSdfs, sdfFirst, sdfCount, pos, sdfSmooth, softEdge, invert, rgbaBlendMode, rgba);\n }\n`);\n\nfunction applyGsplatRgbaDisplaceEdits(\n gsplat: DynoVal,\n sdfArray: DynoVal,\n numEdits: DynoVal<\"int\">,\n rgbaDisplaceEdits: DynoVal<\"uvec4\">,\n): DynoVal {\n const dyno = new Dyno<\n {\n gsplat: typeof Gsplat;\n sdfArray: typeof SdfArray;\n numEdits: \"int\";\n rgbaDisplaceEdits: \"uvec4\";\n },\n { gsplat: typeof Gsplat }\n >({\n inTypes: {\n gsplat: Gsplat,\n sdfArray: SdfArray,\n numEdits: \"int\",\n rgbaDisplaceEdits: \"uvec4\",\n },\n outTypes: { gsplat: Gsplat },\n globals: () => [defineSdfArray, defineEdit],\n inputs: { gsplat, sdfArray, numEdits, rgbaDisplaceEdits },\n statements: ({ inputs, outputs }) => {\n const { sdfArray, numEdits, rgbaDisplaceEdits } = inputs;\n const { gsplat } = outputs;\n return unindentLines(`\n ${gsplat} = ${inputs.gsplat};\n if (isGsplatActive(${gsplat}.flags)) {\n for (int editIndex = 0; editIndex < ${numEdits}; ++editIndex) {\n applyPackedRgbaDisplaceEdit(\n ${rgbaDisplaceEdits}[editIndex], ${sdfArray}.sdfTexture, ${sdfArray}.numSdfs,\n ${gsplat}.center, ${gsplat}.rgba\n );\n }\n }\n `);\n },\n });\n return dyno.outputs.gsplat;\n}\n\nfunction applyCovSplatRgbaDisplaceEdits(\n covsplat: DynoVal,\n sdfArray: DynoVal,\n numEdits: DynoVal<\"int\">,\n rgbaDisplaceEdits: DynoVal<\"uvec4\">,\n): DynoVal {\n const dyno = new Dyno<\n {\n covsplat: typeof CovSplat;\n sdfArray: typeof SdfArray;\n numEdits: \"int\";\n rgbaDisplaceEdits: \"uvec4\";\n },\n { covsplat: typeof CovSplat }\n >({\n inTypes: {\n covsplat: CovSplat,\n sdfArray: SdfArray,\n numEdits: \"int\",\n rgbaDisplaceEdits: \"uvec4\",\n },\n outTypes: { covsplat: CovSplat },\n globals: () => [defineSdfArray, defineEdit],\n inputs: { covsplat, sdfArray, numEdits, rgbaDisplaceEdits },\n statements: ({ inputs, outputs }) => {\n const { sdfArray, numEdits, rgbaDisplaceEdits } = inputs;\n const { covsplat } = outputs;\n return unindentLines(`\n ${covsplat} = ${inputs.covsplat};\n if (isCovSplatActive(${covsplat}.flags)) {\n for (int editIndex = 0; editIndex < ${numEdits}; ++editIndex) {\n applyPackedRgbaDisplaceEdit(\n ${rgbaDisplaceEdits}[editIndex], ${sdfArray}.sdfTexture, ${sdfArray}.numSdfs,\n ${covsplat}.center, ${covsplat}.rgba\n );\n }\n }\n `);\n },\n });\n return dyno.outputs.covsplat;\n}\n\nconst tempFloat32 = new Float32Array(1);\n","import * as THREE from \"three\";\nimport type { SplatEdit } from \"./SplatEdit\";\nimport {\n CovSplat,\n Dyno,\n DynoFloat,\n DynoMat3,\n type DynoVal,\n DynoVec3,\n DynoVec4,\n Gsplat,\n add,\n dynoBlock,\n mul,\n transformDir,\n transformGsplat,\n transformPos,\n unindentLines,\n} from \"./dyno\";\n\n// A GsplatGenerator is a dyno program that maps an index to a Gsplat's properties\n\nexport type GsplatGenerator = Dyno<{ index: \"int\" }, { gsplat: typeof Gsplat }>;\n\nexport type CovSplatGenerator = Dyno<\n { index: \"int\" },\n { covsplat: typeof CovSplat }\n>;\n\n// A GsplatModifier is a dyno program that inputs a Gsplat, modifies, and outputs it\n\nexport type GsplatModifier = Dyno<\n { gsplat: typeof Gsplat },\n { gsplat: typeof Gsplat }\n>;\n\nexport type CovSplatModifier = Dyno<\n { covsplat: typeof CovSplat },\n { covsplat: typeof CovSplat }\n>;\n\n// A SplatModifier is a utility class to apply a GsplatModifier to\n// a GsplatGenerator pipeline, caching the combined result for efficiency.\n\nexport class SplatModifier {\n modifier: GsplatModifier;\n cache: Map;\n\n constructor(modifier: GsplatModifier) {\n this.modifier = modifier;\n this.cache = new Map();\n }\n\n apply(generator: GsplatGenerator): GsplatGenerator {\n let modified = this.cache.get(generator);\n if (!modified) {\n modified = dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n const { gsplat } = generator.apply({ index });\n return this.modifier.apply({ gsplat });\n },\n );\n this.cache.set(generator, modified);\n }\n return modified;\n }\n}\n\n// A SplatTransformer is a utility class to apply a transform to a Gsplat\n// via a scale, rotation, and translation. Scale is a single float because\n// anisotropic scaling of Gsplats is not supported.\n\nexport class SplatTransformer {\n scale: DynoFloat;\n rotate: DynoVec4;\n translate: DynoVec3;\n\n // Create the dyno uniforms that parameterize the transform, setting them\n // to initial values that are different from any valid transform.\n constructor() {\n this.scale = new DynoFloat({ value: Number.NEGATIVE_INFINITY });\n this.rotate = new DynoVec4({\n value: new THREE.Quaternion(\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n ),\n });\n this.translate = new DynoVec3({\n value: new THREE.Vector3(\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n ),\n });\n }\n\n // Apply the transform to a Vec3 position in a dyno program.\n apply(position: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n return transformPos(position, {\n scale: this.scale,\n rotate: this.rotate,\n translate: this.translate,\n });\n }\n\n applyDir(dir: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n return transformDir(dir, {\n rotate: this.rotate,\n });\n }\n\n // Apply the transform to a Gsplat in a dyno program.\n applyGsplat(gsplat: DynoVal): DynoVal {\n return transformGsplat(gsplat, {\n scale: this.scale,\n rotate: this.rotate,\n translate: this.translate,\n });\n }\n\n // Update the uniforms to match the given transform matrix.\n updateFromMatrix(transform: THREE.Matrix4) {\n const scale = new THREE.Vector3();\n const quaternion = new THREE.Quaternion();\n const position = new THREE.Vector3();\n transform.decompose(position, quaternion, scale);\n const newScale = (scale.x + scale.y + scale.z) / 3;\n\n let updated = false;\n if (newScale !== this.scale.value) {\n this.scale.value = newScale;\n updated = true;\n }\n if (!position.equals(this.translate.value)) {\n this.translate.value.copy(position);\n updated = true;\n }\n if (!quaternion.equals(this.rotate.value)) {\n this.rotate.value.copy(quaternion);\n updated = true;\n }\n return updated;\n }\n\n // Update this transform to match the object's to-world transform.\n update(object: THREE.Object3D): boolean {\n object.updateMatrixWorld();\n return this.updateFromMatrix(object.matrixWorld);\n }\n}\n\nexport class CovSplatTransformer {\n basis: DynoMat3<\"basis\", THREE.Matrix3>;\n offset: DynoVec3;\n\n constructor() {\n this.basis = new DynoMat3({ value: new THREE.Matrix3() });\n this.offset = new DynoVec3({ value: new THREE.Vector3() });\n }\n\n // Apply the transform to a Vec3 position in a dyno program.\n apply(position: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n const rebased = mul(this.basis, position);\n return add(rebased, this.offset);\n }\n\n applyDir(dir: DynoVal<\"vec3\">): DynoVal<\"vec3\"> {\n return mul(this.basis, dir);\n }\n\n // Apply the transform to a Gsplat in a dyno program.\n applyCovSplat(covsplat: DynoVal): DynoVal {\n return new Dyno({\n inTypes: { covsplat: CovSplat, basis: \"mat3\", offset: \"vec3\" },\n outTypes: { covsplat: CovSplat },\n inputs: { covsplat, basis: this.basis, offset: this.offset },\n statements: ({ inputs, outputs }) => {\n const { covsplat, basis, offset } = inputs;\n if (!covsplat || !basis || !offset) {\n return [`${outputs.covsplat}.flags = 0u;`];\n }\n return unindentLines(`\n ${outputs.covsplat}.flags = 0u;\n if (isCovSplatActive(${covsplat}.flags)) {\n ${outputs.covsplat}.flags = ${covsplat}.flags;\n ${outputs.covsplat}.index = ${covsplat}.index;\n ${outputs.covsplat}.rgba = ${covsplat}.rgba;\n\n ${outputs.covsplat}.center = ${basis} * ${covsplat}.center + ${offset};\n \n mat3 cov = mat3(\n ${covsplat}.xxyyzz.x, ${covsplat}.xyxzyz.x, ${covsplat}.xyxzyz.y,\n ${covsplat}.xyxzyz.x, ${covsplat}.xxyyzz.y, ${covsplat}.xyxzyz.z,\n ${covsplat}.xyxzyz.y, ${covsplat}.xyxzyz.z, ${covsplat}.xxyyzz.z\n );\n cov = ${basis} * cov * transpose(${basis});\n ${outputs.covsplat}.xxyyzz = vec3(cov[0][0], cov[1][1], cov[2][2]);\n ${outputs.covsplat}.xyxzyz = vec3(cov[0][1], cov[0][2], cov[1][2]);\n }\n `);\n },\n }).outputs.covsplat;\n }\n\n // Update the uniforms to match the given transform matrix.\n updateFromMatrix(transform: THREE.Matrix4) {\n const basis = new THREE.Matrix3().setFromMatrix4(transform);\n const offset = new THREE.Vector3().setFromMatrixColumn(transform, 3);\n\n const updated =\n !basis.equals(this.basis.value) || !offset.equals(this.offset.value);\n if (updated) {\n this.basis.value.copy(basis);\n this.offset.value.copy(offset);\n }\n return updated;\n }\n\n // Update this transform to match the object's to-world transform.\n update(object: THREE.Object3D): boolean {\n object.updateMatrixWorld();\n return this.updateFromMatrix(object.matrixWorld);\n }\n}\n\n// SplatGenerator is an Object3D that can be placed anywhere in the scene\n// to generate Gsplats into the world for SparkRenderer. All Gsplats from\n// SplatGenerators across the scene will be accumulated into a single\n// SplatAccumulator, which are sorted and rendered together.\n//\n// Each SplatGenerator has two main properties:\n// - numSplats: the number of Gsplats to generate\n// - generator: a GsplatGenerator dyno program that maps a splat index\n// to a Gsplat's properties\n// Each of these properties can be changed at anytime, however changing\n// numSplats means we no longer have a correspondence between Gsplats\n// in successive frames, meaning we can't reuse the previous Gsplat sort\n// order. Similarly, changing the generator requires re-generating the\n// shader program, which will trigger a GPU shader compilation the first\n// time (possibly a perceptible \"hickup\" in the framerate) but is cached\n// subsequence times if the generator is the same as one that was used previously.\n//\n// A SplatGenerator also has a custom frameUpdate function that is called\n// on each execution, allowing you to update uniforms or other parameters that\n// affect the generation. If the Gsplats are changed, you must call\n// updateVersion() (alternatively, set needsUpdate to true) to trigger a\n// re-generation of the Gsplats for this SplatGenerator.\n\nexport interface FrameUpdateContext {\n renderer: THREE.WebGLRenderer;\n object: SplatGenerator;\n time: number;\n deltaTime: number;\n viewToWorld: THREE.Matrix4;\n camera?: THREE.Camera;\n renderSize?: THREE.Vector2;\n globalEdits: SplatEdit[];\n lodIndices?: { numSplats: number; texture: THREE.DataTexture };\n}\n\nexport class SplatGenerator extends THREE.Object3D {\n numSplats: number;\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n generatorError?: unknown;\n covGeneratorError?: unknown;\n frameUpdate?: (context: FrameUpdateContext) => void;\n version: number;\n mappingVersion: number;\n\n constructor({\n numSplats,\n generator,\n covGenerator,\n construct,\n update,\n }: {\n numSplats?: number;\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n construct?: (object: SplatGenerator) => {\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n numSplats?: number;\n frameUpdate?: (context: FrameUpdateContext) => void;\n };\n update?: (context: FrameUpdateContext) => void;\n }) {\n super();\n\n this.numSplats = numSplats ?? 0;\n this.generator = generator;\n this.covGenerator = covGenerator;\n this.frameUpdate = update;\n this.version = 0;\n this.mappingVersion = 0;\n\n if (construct) {\n const constructed = construct(this);\n // If we returned something, update our properties\n Object.assign(this, constructed);\n }\n }\n\n updateVersion() {\n this.version += 1;\n }\n\n updateMappingVersion() {\n this.mappingVersion += 1;\n this.version += 1;\n }\n\n set needsUpdate(value: boolean) {\n if (value) {\n this.updateVersion();\n }\n }\n}\n","import * as THREE from \"three\";\nimport { FullScreenQuad } from \"three/examples/jsm/postprocessing/Pass.js\";\nimport { Readback } from \"./Readback\";\nimport { SplatEdit } from \"./SplatEdit\";\nimport {\n type CovSplatGenerator,\n type GsplatGenerator,\n SplatGenerator,\n} from \"./SplatGenerator\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport {\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_WIDTH,\n} from \"./defines\";\nimport {\n type CovSplat,\n Dyno,\n DynoBool,\n DynoProgram,\n DynoProgramTemplate,\n DynoUsampler2DArray,\n type DynoVal,\n DynoVec3,\n combineCovSplat,\n combineGsplat,\n dynoBlock,\n dynoConst,\n gsplatToCovSplat,\n mul,\n outputCovSplat,\n outputCovSplatDepth,\n outputExtCovSplat,\n outputExtendedSplat,\n outputPackedSplat,\n outputSplatDepth,\n splitCovSplat,\n splitGsplat,\n sub,\n unindentLines,\n} from \"./dyno\";\nimport { getShaders } from \"./shaders\";\nimport { getTextureSize, threeMrtArray } from \"./utils\";\n\n// A GeneratorMapping describes a Gsplat range that was generated, including\n// which generator and its version number.\nexport type GeneratorMapping = {\n node: SplatGenerator;\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n version: number;\n mappingVersion?: number;\n base: number;\n count: number;\n};\n\nexport class SplatAccumulator {\n time = 0;\n deltaTime = 0;\n viewToWorld = new THREE.Matrix4();\n viewOrigin = new THREE.Vector3();\n viewDirection = new THREE.Vector3();\n static viewCenterUniform = new DynoVec3({ value: new THREE.Vector3() });\n static viewDirUniform = new DynoVec3({ value: new THREE.Vector3() });\n static sortRadialUniform = new DynoBool({ value: true });\n maxSplats = 0;\n numSplats = 0;\n target: THREE.WebGLArrayRenderTarget | null = null;\n mapping: GeneratorMapping[] = [];\n version = -1;\n mappingVersion = -1;\n extSplats: boolean;\n covSplats: boolean;\n readback: Readback | null = null;\n readbackSplats: DynoUsampler2DArray<\"extSplats\", THREE.DataArrayTexture>[] =\n [];\n\n constructor({\n extSplats,\n covSplats,\n }: { extSplats?: boolean; covSplats?: boolean } = {}) {\n if (!threeMrtArray) {\n throw new Error(\"Spark requires THREE.js r179 or above\");\n }\n this.extSplats = extSplats ?? true;\n this.covSplats = covSplats ?? false;\n }\n\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target = null;\n }\n }\n\n // Returns a THREE.DataArrayTexture representing the NewSplatAccumulator\n // content as 2 x Uint32x4 data array textures (2048 x 2048 x 2048 in size)\n getTextures(): THREE.DataArrayTexture[] {\n if (this.target) {\n return this.target.textures;\n }\n return SplatAccumulator.emptyTextures;\n }\n\n static emptyTexture = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyTextures = (() => {\n return [SplatAccumulator.emptyTexture, SplatAccumulator.emptyTexture];\n })();\n\n // Given an array of splatCounts (.numSplats for each\n // SplatGenerator/SplatMesh in the scene), compute a\n // \"mapping layout\" in the composite array of generated outputs.\n generateMapping(splatCounts: number[]): {\n maxSplats: number;\n mapping: { base: number; count: number }[];\n } {\n let maxSplats = 0;\n const mapping = splatCounts.map((numSplats) => {\n const base = maxSplats;\n // Generation happens in horizontal row chunks, so round up to full width\n const rounded = Math.ceil(numSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n maxSplats += rounded;\n return { base, count: numSplats };\n });\n return { maxSplats, mapping };\n }\n\n // Ensures our NewSplatAccumulator.target render target has enough space\n // to generate maxSplats total Gsplats, and reallocate if not large enough.\n ensureGenerate({ maxSplats }: { maxSplats: number }) {\n if (this.target && (maxSplats ?? 1) <= this.maxSplats) {\n return false;\n }\n this.dispose();\n\n // The packed Gsplats are stored in a 2D array texture of max size\n // 2048 x 2048 x 2048, one RGBA32UI pixel = 4 uint32 = one Gsplat\n const textureSize = getTextureSize(maxSplats ?? 1);\n const { width, height, depth } = textureSize;\n this.maxSplats = textureSize.maxSplats;\n this.target = new THREE.WebGLArrayRenderTarget(width, height, depth, {\n depthBuffer: false,\n stencilBuffer: false,\n generateMipmaps: false,\n magFilter: THREE.NearestFilter,\n minFilter: THREE.NearestFilter,\n format: THREE.RGBAIntegerFormat,\n type: THREE.UnsignedIntType,\n });\n this.target.scissorTest = true;\n\n if (this.extSplats) {\n const target2 = this.target.texture.clone();\n const target3 = this.target.texture.clone();\n target3.format = THREE.RGBAFormat;\n target3.type = THREE.UnsignedByteType;\n target3.internalFormat = \"RGBA8\";\n this.target.textures = [this.target.texture, target2, target3];\n } else {\n const target3 = this.target.texture.clone();\n target3.format = THREE.RGBAFormat;\n target3.type = THREE.UnsignedByteType;\n target3.internalFormat = \"RGBA8\";\n this.target.textures = [this.target.texture, target3];\n }\n\n return true;\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n // Get a program and THREE.RawShaderMaterial for a given GsplatGenerator,\n // generating it if necessary and caching the result.\n prepareProgramMaterial(\n generator?: GsplatGenerator,\n covGenerator?: CovSplatGenerator,\n ) {\n const theGenerator = generator ?? covGenerator;\n if (!theGenerator) {\n throw new Error(\"Either generator or covGenerator must be provided\");\n }\n\n let program = SplatAccumulator.generatorProgram.get(theGenerator);\n if (!program) {\n const graph = dynoBlock(\n { index: \"int\" },\n {},\n ({ index }, _outputs, { roots }) => {\n if (generator) {\n generator.inputs.index = index;\n }\n if (covGenerator) {\n covGenerator.inputs.index = index;\n }\n\n if (this.extSplats) {\n if (!this.covSplats) {\n if (generator) {\n const output = outputExtendedSplat(generator.outputs.gsplat);\n roots.push(output);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n } else {\n if (covGenerator) {\n const output = outputExtCovSplat(covGenerator.outputs.covsplat);\n roots.push(output);\n } else if (generator) {\n const covsplat = gsplatToCovSplat(generator.outputs.gsplat);\n const output = outputExtCovSplat(covsplat);\n roots.push(output);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n }\n } else {\n if (!this.covSplats) {\n if (generator) {\n const centerSubView = sub(\n splitGsplat(generator.outputs.gsplat).outputs.center,\n SplatAccumulator.viewCenterUniform,\n );\n // Use expanded LoD opacity encoding\n const halfAlpha = mul(\n splitGsplat(generator.outputs.gsplat).outputs.opacity,\n dynoConst(\"float\", 0.5),\n );\n const gsplat = combineGsplat({\n gsplat: generator.outputs.gsplat,\n center: centerSubView,\n opacity: halfAlpha,\n });\n const output = outputPackedSplat(\n gsplat,\n dynoConst(\"vec4\", [0, 1, LN_SCALE_MIN, LN_SCALE_MAX]),\n );\n roots.push(output);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n } else {\n let covsplat: DynoVal;\n if (covGenerator) {\n covsplat = covGenerator.outputs.covsplat;\n } else if (generator) {\n covsplat = gsplatToCovSplat(generator.outputs.gsplat);\n } else {\n throw new Error(\"Generator must be provided\");\n }\n const centerSubView = sub(\n splitCovSplat(covsplat).outputs.center,\n SplatAccumulator.viewCenterUniform,\n );\n const halfAlpha = mul(\n splitCovSplat(covsplat).outputs.opacity,\n dynoConst(\"float\", 0.5),\n );\n covsplat = combineCovSplat({\n covsplat,\n center: centerSubView,\n opacity: halfAlpha,\n });\n const output = outputCovSplat(\n covsplat,\n dynoConst(\"vec4\", [0, 1, LN_SCALE_MIN, LN_SCALE_MAX]),\n );\n roots.push(output);\n }\n if (!generator) {\n throw new Error(\"Generator must be provided\");\n }\n }\n if (generator) {\n const outputDepth = outputSplatDepth(\n generator.outputs.gsplat,\n SplatAccumulator.viewCenterUniform,\n SplatAccumulator.viewDirUniform,\n SplatAccumulator.sortRadialUniform,\n );\n roots.push(outputDepth);\n }\n if (covGenerator) {\n const outputDepth = outputCovSplatDepth(\n covGenerator.outputs.covsplat,\n SplatAccumulator.viewCenterUniform,\n SplatAccumulator.viewDirUniform,\n SplatAccumulator.sortRadialUniform,\n );\n roots.push(outputDepth);\n }\n return undefined;\n },\n );\n program = new DynoProgram({\n graph,\n inputs: { index: \"_index\" },\n outputs: {},\n template: this.extSplats\n ? SplatAccumulator.programExtTemplate\n : SplatAccumulator.programTemplate,\n // consoleLog: true,\n });\n\n SplatAccumulator.generatorProgram.set(theGenerator, program);\n }\n Object.assign(program.uniforms, {\n targetLayer: { value: 0 },\n targetBase: { value: 0 },\n targetCount: { value: 0 },\n });\n\n const material = program.prepareMaterial();\n SplatAccumulator.fullScreenQuad.material = material;\n return { program, material };\n }\n\n static programExtTemplate = new DynoProgramTemplate(\n getShaders().computeUvec4x2Vec4Template,\n );\n static programTemplate = new DynoProgramTemplate(\n getShaders().computeUvec4Vec4Template,\n );\n static generatorProgram = new WeakMap<\n GsplatGenerator | CovSplatGenerator,\n DynoProgram\n >();\n static fullScreenQuad = new FullScreenQuad(\n new THREE.RawShaderMaterial({ visible: false }),\n );\n\n generate({\n generator,\n covGenerator,\n base,\n count,\n renderer,\n }: {\n generator?: GsplatGenerator;\n covGenerator?: CovSplatGenerator;\n base: number;\n count: number;\n renderer: THREE.WebGLRenderer;\n }) {\n if (!this.target) {\n throw new Error(\"Target must be initialized with ensureGenerate\");\n }\n if (base + count > this.maxSplats) {\n throw new Error(\"Base + count exceeds maxSplats\");\n }\n\n const { program, material } = this.prepareProgramMaterial(\n generator,\n covGenerator,\n );\n program.update();\n\n const renderState = this.saveRenderState(renderer);\n\n // Generate the Gsplats in \"layer\" chunks, in horizontal row ranges,\n // that cover the total count of Gsplats.\n const nextBase =\n Math.ceil((base + count) / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n material.uniforms.targetBase.value = base;\n material.uniforms.targetCount.value = count;\n\n // Keep generating layers until we've reached the next generation's base\n while (base < nextBase) {\n const layer = Math.floor(base / layerSize);\n material.uniforms.targetLayer.value = layer;\n\n const layerBase = layer * layerSize;\n const layerYStart = Math.floor((base - layerBase) / SPLAT_TEX_WIDTH);\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((nextBase - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n // Render the desired portion of the layer\n this.target.scissor.set(\n 0,\n layerYStart,\n SPLAT_TEX_WIDTH,\n layerYEnd - layerYStart,\n );\n renderer.setRenderTarget(this.target, layer);\n renderer.xr.enabled = false;\n renderer.autoClear = false;\n SplatAccumulator.fullScreenQuad.render(renderer);\n\n base += SPLAT_TEX_WIDTH * (layerYEnd - layerYStart);\n }\n\n this.resetRenderState(renderer, renderState);\n return { nextBase };\n }\n\n prepareGenerate({\n renderer,\n scene,\n time,\n camera,\n sortRadial,\n renderSize,\n previous,\n lodInstances,\n }: {\n renderer: THREE.WebGLRenderer;\n scene: THREE.Scene;\n time: number;\n camera: THREE.Camera;\n sortRadial: boolean;\n renderSize: THREE.Vector2;\n previous: SplatAccumulator;\n lodInstances?: Map<\n SplatMesh,\n { numSplats: number; texture: THREE.DataTexture }\n >;\n }) {\n this.viewToWorld.copy(camera.matrixWorld);\n camera.getWorldPosition(this.viewOrigin);\n camera.getWorldDirection(this.viewDirection);\n SplatAccumulator.viewCenterUniform.value.copy(this.viewOrigin);\n SplatAccumulator.viewDirUniform.value.copy(this.viewDirection);\n SplatAccumulator.sortRadialUniform.value = sortRadial;\n\n this.time = time;\n this.deltaTime = time - previous.time;\n\n const allGenerators: SplatGenerator[] = [];\n scene.traverse((node) => {\n if (node instanceof SplatGenerator) {\n if (!camera.layers || camera.layers.test(node.layers)) {\n allGenerators.push(node);\n }\n }\n });\n\n const globalEditsSet = new Set();\n scene.traverseVisible((node) => {\n if (node instanceof SplatEdit) {\n let ancestor = node.parent;\n while (ancestor != null && !(ancestor instanceof SplatMesh)) {\n ancestor = ancestor.parent;\n }\n if (ancestor == null) {\n // Not part of a SplatMesh so it's a global edit\n globalEditsSet.add(node);\n }\n }\n });\n const globalEdits = Array.from(globalEditsSet);\n\n for (const object of allGenerators) {\n try {\n object.frameUpdate?.({\n renderer,\n object,\n time: this.time,\n deltaTime: this.deltaTime,\n viewToWorld: this.viewToWorld,\n camera,\n renderSize,\n globalEdits,\n lodIndices:\n lodInstances && object instanceof SplatMesh\n ? lodInstances.get(object)\n : undefined,\n });\n } catch (error) {\n console.error(\"frameUpdate error\", error);\n object.generator = undefined;\n object.covGenerator = undefined;\n object.generatorError = error;\n }\n }\n\n const visibleGenerators: SplatGenerator[] = [];\n scene.traverseVisible((node) => {\n if (node instanceof SplatGenerator) {\n if (!camera.layers || camera.layers.test(node.layers)) {\n visibleGenerators.push(node);\n }\n }\n });\n\n const splatCounts = visibleGenerators.map(\n (generator) => generator.numSplats,\n );\n const { maxSplats, mapping: baseCounts } =\n this.generateMapping(splatCounts);\n\n const previousMappings = previous.mapping.reduce((mappings, mapping) => {\n mappings.set(mapping.node, mapping);\n return mappings;\n }, new Map());\n\n this.mapping = [];\n this.numSplats = 0;\n\n baseCounts.forEach(({ base, count }, index) => {\n const node = visibleGenerators[index];\n const previousNode = previousMappings.get(node);\n if (previousNode && previousNode.count !== node.numSplats) {\n node.updateMappingVersion();\n }\n\n const { generator, covGenerator } = node;\n if ((generator || covGenerator) && count > 0) {\n const { version, mappingVersion } = node;\n this.mapping.push({\n node,\n generator,\n covGenerator,\n version,\n mappingVersion,\n base,\n count,\n });\n this.numSplats = Math.max(this.numSplats, base + count);\n }\n });\n const { splatsUpdated, mappingUpdated } = previous.checkVersions(\n this.mapping,\n );\n this.version = previous.version + (splatsUpdated ? 1 : 0);\n this.mappingVersion = previous.mappingVersion + (mappingUpdated ? 1 : 0);\n\n return {\n sameMapping: !mappingUpdated,\n version: this.version,\n mappingVersion: this.mappingVersion,\n visibleGenerators,\n generate: () => {\n this.ensureGenerate({ maxSplats });\n\n for (const { node, base, count } of this.mapping) {\n const { generator, covGenerator } = node;\n if ((generator || covGenerator) && count > 0) {\n this.generate({ generator, covGenerator, base, count, renderer });\n }\n }\n },\n readback: async () => {\n const textures = this.getTextures();\n if (this.readbackSplats.length === 0) {\n this.readbackSplats = [\n new DynoUsampler2DArray({ value: textures[0], key: \"extSplats\" }),\n new DynoUsampler2DArray({ value: textures[1], key: \"extSplats\" }),\n ];\n }\n this.readbackSplats[0].value = textures[0];\n this.readbackSplats[1].value = textures[1];\n\n if (!this.readback) {\n this.readback = new Readback({ renderer });\n }\n const readback = this.readback;\n const words = this.extSplats ? 8 : 4;\n const array = readback.ensureBuffer(\n this.numSplats * words,\n new Uint32Array(0),\n );\n\n const reader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n const rgba8 = new Dyno({\n inTypes: {\n index: \"int\",\n extSplats1: \"usampler2DArray\",\n extSplats2: \"usampler2DArray\",\n },\n outTypes: { rgba8: \"vec4\" },\n inputs: {\n index,\n extSplats1: this.readbackSplats[0],\n extSplats2: this.readbackSplats[1],\n },\n statements: ({ inputs, outputs }) => {\n if (this.extSplats) {\n return unindentLines(`\n int indexDiv8 = ${inputs.index} >> 3;\n ivec3 coord = splatTexCoord(indexDiv8);\n uvec4 packed;\n if ((${inputs.index} & 4) == 0) {\n packed = texelFetch(${inputs.extSplats1}, coord, 0);\n } else {\n packed = texelFetch(${inputs.extSplats2}, coord, 0);\n }\n\n int indexMod4 = ${inputs.index} & 3;\n uint data = (indexMod4 == 0) ? packed.x\n : (indexMod4 == 1) ? packed.y\n : (indexMod4 == 2) ? packed.z\n : packed.w;\n ${outputs.rgba8} = uintToVec4(data);\n `);\n }\n return unindentLines(`\n int indexDiv4 = ${inputs.index} >> 2;\n ivec3 coord = splatTexCoord(indexDiv4);\n uvec4 packed = texelFetch(${inputs.extSplats1}, coord, 0);\n\n int indexMod4 = ${inputs.index} & 3;\n uint data = (indexMod4 == 0) ? packed.x\n : (indexMod4 == 1) ? packed.y\n : (indexMod4 == 2) ? packed.z\n : packed.w;\n ${outputs.rgba8} = uintToVec4(data);\n `);\n },\n }).outputs.rgba8;\n return { rgba8 };\n },\n );\n\n return await readback.renderReadback({\n reader,\n count: this.numSplats * words,\n renderer,\n readback: array,\n });\n },\n };\n }\n\n // Check if this accumulator has exactly the same generator mapping as\n // the previous one. If so, we can reuse the Gsplat sort order.\n checkVersions(otherMapping: GeneratorMapping[]) {\n if (this.mapping.length !== otherMapping.length) {\n return { splatsUpdated: true, mappingUpdated: true };\n }\n const mappingUpdated = this.mapping.some((item, i) => {\n const other = otherMapping[i];\n return (\n item.node !== other.node ||\n item.base !== other.base ||\n item.count !== other.count ||\n item.mappingVersion !== other.mappingVersion\n );\n });\n if (mappingUpdated) {\n return { splatsUpdated: true, mappingUpdated: true };\n }\n const splatsUpdated = this.mapping.some((item, i) => {\n return item.version !== otherMapping[i].version;\n });\n return { splatsUpdated, mappingUpdated };\n }\n}\n","import * as THREE from \"three\";\n\n// SplatGeometry is an internal class used by SparkRenderer to render a collection\n// of Gsplats in a single draw call by extending THREE.InstancedBufferGeometry.\n// Each Gsplat is drawn as two triangles, with the order of the Gsplats determined\n// by a texture lookup via gl_InstanceID.\n\nexport class SplatGeometry extends THREE.InstancedBufferGeometry {\n constructor() {\n super();\n this.setAttribute(\"position\", new THREE.BufferAttribute(QUAD_VERTICES, 3));\n this.setIndex(new THREE.BufferAttribute(QUAD_INDICES, 1));\n }\n}\n\n// Each instance draws to triangles covering a quad over coords (-1,-1,0)..(1,1,0)\nconst QUAD_VERTICES = new Float32Array([\n -1, -1, 0, 1, -1, 0, 1, 1, 0, -1, 1, 0,\n]);\n\nconst QUAD_INDICES = new Uint16Array([0, 1, 2, 0, 2, 3]);\n","import * as THREE from \"three\";\nimport {\n ExtSplats,\n PackedSplats,\n PagedSplats,\n Readback,\n type SplatGenerator,\n SplatMesh,\n SplatPager,\n} from \".\";\nimport { SplatAccumulator } from \"./SplatAccumulator\";\nimport { SplatGeometry } from \"./SplatGeometry\";\nimport { SplatWorker } from \"./SplatWorker\";\nimport { SPLAT_TEX_HEIGHT, SPLAT_TEX_WIDTH } from \"./defines\";\nimport { getShaders } from \"./shaders\";\nimport {\n cloneClock,\n isAndroid,\n isIos,\n isMobile,\n isOculus,\n isVisionPro,\n} from \"./utils\";\n\nexport interface SparkRendererOptions {\n /**\n * Pass in your THREE.WebGLRenderer instance so Spark can perform work\n * outside the usual render loop. Should be created with antialias: false\n * (default setting) as WebGL anti-aliasing doesn't improve Gaussian Splatting\n * rendering and significantly reduces performance.\n */\n renderer: THREE.WebGLRenderer;\n /**\n * Callback function to be called when SparkRenderer needs to re-render,\n * for example when splat sort order or LoD updates complete.\n */\n onDirty?: () => void;\n /**\n * Whether to use premultiplied alpha when accumulating splat RGB\n * @default true\n */\n premultipliedAlpha?: boolean;\n /**\n * Whether to encode Gsplat with linear RGB (for environment mapping)\n * @default false\n */\n encodeLinear?: boolean;\n /**\n * Pass in a THREE.Clock to synchronize time-based effects across different\n * systems. Alternatively, you can set the property time directly.\n * (default: new THREE.Clock)\n */\n clock?: THREE.Clock;\n /**\n * Controls whether to check and automatically update Gsplat collection\n * each frame render.\n * @default true\n */\n autoUpdate?: boolean;\n /**\n * Controls whether to update the Gsplats before or after rendering. For WebXR\n * this is set to false in order to complete rendering as soon as possible.\n * @default true (if not WebXR)\n */\n preUpdate?: boolean;\n /**\n * Maximum standard deviations from the center to render Gaussians. Values\n * Math.sqrt(4)..Math.sqrt(9) produce acceptable results and can be tweaked for\n * performance.\n * @default Math.sqrt(8)\n */\n maxStdDev?: number;\n /*\n **\n * Minimum pixel radius for splat rendering.\n * @default 0.0\n */\n minPixelRadius?: number;\n /**\n * Maximum pixel radius for splat rendering.\n * @default 512.0\n */\n maxPixelRadius?: number;\n /**\n * Whether to use extended Gsplat encoding for intermediary accumulator splats.\n * @default false\n */\n accumExtSplats?: boolean;\n /**\n * Whether to use covariance Gsplat encoding for intermediary splats.\n * @default false\n */\n covSplats?: boolean;\n /**\n * Minimum alpha value for splat rendering.\n * @default 0.5 * (1.0 / 255.0)\n */\n minAlpha?: number;\n /**\n * Enable 2D Gaussian splatting rendering ability. When this mode is enabled,\n * any scale x/y/z component that is exactly 0 (minimum quantized value) results\n * in the other two non-0 axis being interpreted as an oriented 2D Gaussian Splat,\n * rather instead of the usual projected 3DGS Z-slice. When reading PLY files,\n * scale values less than e^-30 will be interpreted as 0.\n * @default false\n */\n enable2DGS?: boolean;\n /**\n * Enable alternative ray-splat max response evaluation, used by 3DGUT (unscented transform),\n * 3DGRT, and HTGS.\n * @default false\n */\n // enableRayEval?: boolean;\n /**\n * Scalar value to add to 2D splat covariance diagonal, effectively blurring +\n * enlarging splats. In scenes trained without the Gsplat anti-aliasing tweak\n * this value was typically 0.3, but with anti-aliasing it is 0.0\n * @default 0.0\n */\n preBlurAmount?: number;\n /**\n * Scalar value to add to 2D splat covarianve diagonal, with opacity adjustment\n * to correctly account for \"blurring\" when anti-aliasing. Typically 0.3\n * (equivalent to approx 0.5 pixel radius) in scenes trained with anti-aliasing.\n */\n blurAmount?: number;\n /**\n * Depth-of-field distance to focal plane\n */\n focalDistance?: number;\n /**\n * Full-width angle of aperture opening (in radians), 0.0 to disable\n * @default 0.0\n */\n apertureAngle?: number;\n /**\n * Modulate Gaussian kernel falloff. 0 means \"no falloff, flat shading\",\n * while 1 is the normal Gaussian kernel.\n * @default 1.0\n */\n falloff?: number;\n /**\n * X/Y clipping boundary factor for Gsplat centers against view frustum.\n * 1.0 clips any centers that are exactly out of bounds, while 1.4 clips\n * centers that are 40% beyond the bounds.\n * @default 1.4\n */\n clipXY?: number;\n /**\n * Parameter to adjust projected splat scale calculation to match other renderers,\n * similar to the same parameter in the MKellogg 3DGS renderer. Higher values will\n * tend to sharpen the splats. A value 2.0 can be used to match the behavior of\n * the PlayCanvas renderer.\n * @default 1.0\n */\n focalAdjustment?: number;\n /**\n * Whether to sort splats radially (geometric distance) from the viewpoint (true)\n * or by Z-depth (false). Most scenes are trained with the Z-depth `sort `metric\n * and will render more accurately at certain viewpoints. However, radial sorting\n * is more stable under viewpoint rotations.\n * @default true\n */\n sortRadial?: boolean;\n /**\n * Minimum interval between sort calls in milliseconds.\n * @default 0\n */\n minSortIntervalMs?: number;\n /*\n * Flag to control whether LoD is enabled. @default true\n */\n enableLod?: boolean;\n /**\n * Whether to drive LOD updates (compute lodInstances, update pager, etc.).\n * Set to false to use LOD instances from another renderer without driving updates.\n * Only has effect if enableLod is true.\n * @default true (if enableLod is true)\n */\n enableDriveLod?: boolean;\n /**\n * Whether to enable page fetching for LoD.\n * @default true\n */\n enableLodFetching?: boolean;\n /**\n * Set the target # splats for LoD. If this isn't set then default base LoD splat\n * counts will apply: 500K-750K for WebXR, 1-1.5M for mobile, and 2.5M for desktop.\n * @default 500K-2500K depending on platform\n */\n lodSplatCount?: number;\n /**\n * Scale factor for target # splats for LoD. 2.0 means 2x the base LoD splat count.\n * This is the easiest LoD parameter to adjust and will scale detail appropriately\n * for the platform.\n * @default 1.0\n */\n lodSplatScale?: number;\n /**\n * Determines the minimum screen pixel size of LoD splats. The default 1.0 means\n * the splat LoD tree will pick splats that are no smaller than 1 pixel in size.\n * Setting this to a higher value as high as 5.0 will often be indistinguishable\n * but will avoid wasting rendering capacity on tiny splats.\n * @default 1.0\n */\n lodRenderScale?: number;\n /**\n * Inflate LoD splats to ensure opacity stays <= 1.0, producing a softer appearance.\n * @default false\n */\n lodInflate?: boolean;\n /**\n * Whether to use extended Gsplat encoding for paged splats, useful for eliminating\n * quantization artifacts from splat scenes with large internal position coordinates.\n * @default false\n */\n pagedExtSplats?: boolean;\n /**\n * Allocation size of paged splats. This must be a multiple of the page size (65536).\n * @default 16777216 (256 * 65536) for desktop, 6291456 for iOS, 8,388,608 for other mobile\n */\n maxPagedSplats?: number;\n /**\n * Number of parallel chunk fetchers for LoD. These are run within a shared pool\n * of 4 background WebWorker threads, so setting it above 4 will not have any\n * effect. Setting it 3 leaves one spare worker for other loading/decoding tasks.\n * @default 3\n */\n numLodFetchers?: number;\n /* Full-width angle in degrees of fixed foveation cone along the view direction\n * with no foveation applied (full resolution, foveate=1.0). Set to 0 to disable.\n * @default 90.0\n */\n coneFov0?: number;\n /* Full-width angle in degrees of fixed foveation cone along the view direction\n * with reduced resolution specified by `coneFoveate`. Foveation will be applied\n * smoothly from 1.0 down to `coneFoveate` as you move outward from\n * `coneFov0` to `coneFov`. Set to 0 to disable.\n * @default 120.0\n */\n coneFov?: number;\n /* Foveation scale to apply to LoD splats at the edge of coneFov. Foveation will\n * be applied smoothly from `coneFoveate` down to `behindFoveate` as you move\n * outward from `coneFov` to 180 degrees (behind the viewer).\n * @default 0.4\n */\n coneFoveate?: number;\n /* Foveation scale to apply to LoD splats behind the viewer. Setting this to 0.1\n * for example will result in splats 10x larger than inside the viewing frustum.\n * @default 0.2\n */\n behindFoveate?: number;\n /* How many LoD splats to generate for raycasting\n * @default 10000-25000 iff default canvas target is used\n */\n lodRaycast?: number;\n lodRaycastIntervalMs?: number;\n /* Configures an offline render target for the SparkRenderer (as opposed to\n * rendering to the canvas). This is useful for rendering environment maps,\n * additional viewpoints, or video frame rendering.\n * @default undefined\n */\n target?: {\n /**\n * Width of the render target in pixels.\n */\n width: number;\n /**\n * Height of the render target in pixels.\n */\n height: number;\n /**\n * If you want to be able to render a scene that depends on this target's\n * output (for example, a recursive viewport), set this to true to enable\n * double buffering.\n * @default false\n */\n doubleBuffer?: boolean;\n /**\n * Super-sampling factor for the render target. Values 1-4 are supported.\n * Note that re-sampling back down to .width x .height is done on the CPU\n * with simple averaging only when calling readTarget().\n * @default 1\n */\n superXY?: number;\n } & THREE.RenderTargetOptions;\n /* Extra uniform values to pass to the shader.\n * @default undefined = no extra uniforms\n */\n extraUniforms?: Record;\n /* Replace the default `splatVertex.glsl` splat shader with a custom one.\n * @default undefined = use the default `splatVertex.glsl` shader\n */\n vertexShader?: string;\n /* Replace the default `splatFragment.glsl` splat shader with a custom one.\n * @default undefined = use the default `splatFragment.glsl` shader\n */\n fragmentShader?: string;\n /* Set the splat shader material to be transparent which determines if the\n * splats are rendered during the first opaque THREE.js render pass or the\n * second transparent render pass.\n * @default undefined = true\n */\n transparent?: boolean;\n /* Set the splat shader material to enable depth testing which determines if the\n * splats respect the Z depth buffer and blend with other opaque objects in the scene.\n * @default undefined = true\n */\n depthTest?: boolean;\n /* Set the splat shader material to enable depth writing which determines if the\n * splats write to the Z depth buffer. Note that enabling this may produce\n * undesirable results because most of the Gsplat is transparent.\n * @default undefined = false\n */\n depthWrite?: boolean;\n}\n\nexport class SparkRenderer extends THREE.Mesh {\n renderer: THREE.WebGLRenderer;\n premultipliedAlpha: boolean;\n material: THREE.ShaderMaterial;\n uniforms: ReturnType;\n\n autoUpdate: boolean;\n preUpdate: boolean;\n static sparkOverride?: SparkRenderer;\n\n renderSize = new THREE.Vector2();\n maxStdDev: number;\n minPixelRadius: number;\n maxPixelRadius: number;\n accumExtSplats: boolean;\n covSplats: boolean;\n minAlpha: number;\n enable2DGS: boolean;\n // enableRayEval: boolean;\n preBlurAmount: number;\n blurAmount: number;\n focalDistance: number;\n apertureAngle: number;\n falloff: number;\n clipXY: number;\n focalAdjustment: number;\n encodeLinear: boolean;\n\n sortRadial: boolean;\n minSortIntervalMs: number;\n\n clock: THREE.Clock;\n time?: number;\n lastFrame = -1;\n updateTimeoutId = -1;\n onDirty?: () => void;\n dirty: boolean;\n\n orderingTexture: THREE.DataTexture | null = null;\n maxSplats = 0;\n activeSplats = 0;\n\n display: SplatAccumulator;\n current: SplatAccumulator;\n accumulators: SplatAccumulator[] = [];\n\n sorting = false;\n sortDirty = false;\n lastSortTime = 0;\n sortWorker: SplatWorker | null = null;\n sortTimeoutId = -1;\n sortedCenter = new THREE.Vector3().setScalar(Number.NEGATIVE_INFINITY);\n sortedDir = new THREE.Vector3().setScalar(0);\n readback32 = new Uint32Array(0);\n\n enableLod: boolean;\n enableDriveLod: boolean;\n enableLodFetching: boolean;\n lodSplatCount?: number;\n lodSplatScale: number;\n lodRenderScale: number;\n lodInflate: boolean;\n pagedExtSplats: boolean;\n maxPagedSplats: number;\n numLodFetchers: number;\n behindFoveate: number;\n coneFov0: number;\n coneFov: number;\n coneFoveate: number;\n\n lodRaycast?: number;\n lodRaycastIntervalMs: number;\n lastLodRaycastTime = 0;\n\n lodWorker: SplatWorker | null = null;\n lodMeshes: { mesh: SplatMesh; version: number }[] = [];\n lodDirty = false;\n lodIds: Map<\n PackedSplats | ExtSplats | PagedSplats,\n { lodId: number; lastTouched: number; rootPage?: number }\n > = new Map();\n lodIdToSplats: Map =\n new Map();\n lodInitQueue: (PackedSplats | ExtSplats | PagedSplats)[] = [];\n lastLod?: {\n pos: THREE.Vector3;\n quat: THREE.Quaternion;\n pixelScaleLimit: number;\n maxSplats: number;\n timestamp: number;\n };\n currentLod?: {\n pos: THREE.Vector3;\n quat: THREE.Quaternion;\n pixelScaleLimit: number;\n maxSplats: number;\n timestamp: number;\n };\n lodPosOverride?: THREE.Vector3;\n lodQuatOverride?: THREE.Quaternion;\n lodInstances: Map<\n SplatMesh,\n {\n lodId: number;\n numSplats: number;\n indices: Uint32Array;\n texture: THREE.DataTexture;\n }\n > = new Map();\n lodUpdates: {\n lodId: number;\n pageBase: number;\n chunkBase: number;\n count: number;\n lodTreeData?: Uint32Array;\n }[] = [];\n lastTraverseTime = 0;\n lastPixelLimit?: number;\n\n pager?: SplatPager;\n pagerId = 0;\n // prefetchCameras: THREE.Camera[] = [];\n // prefetchLodScale = 1.0;\n // prefetchMeshesCache: SplatMesh[] = [];\n // prefetchMeshesCacheScene?: THREE.Scene;\n\n target?: THREE.WebGLRenderTarget;\n backTarget?: THREE.WebGLRenderTarget;\n superPixels?: Uint8Array;\n targetPixels?: Uint8Array;\n superXY = 1;\n\n flushAfterGenerate = false;\n flushAfterRead = false;\n readPause = 1;\n sortPause = 0;\n sortDelay = 0;\n\n constructor(options: SparkRendererOptions) {\n if (!options) {\n throw new Error(\"SparkRenderer options are required\");\n }\n if (!options.renderer) {\n throw new Error(\"renderer is required in SparkRenderer options\");\n }\n\n const uniforms = SparkRenderer.makeUniforms();\n Object.assign(uniforms, options.extraUniforms ?? {});\n\n const shaders = getShaders();\n const premultipliedAlpha = options.premultipliedAlpha ?? true;\n const geometry = new SplatGeometry();\n const material = new THREE.ShaderMaterial({\n glslVersion: THREE.GLSL3,\n vertexShader: options.vertexShader ?? shaders.splatVertex,\n fragmentShader: options.fragmentShader ?? shaders.splatFragment,\n uniforms,\n premultipliedAlpha,\n transparent: options.transparent ?? true,\n depthTest: options.depthTest ?? true,\n depthWrite: options.depthWrite ?? false,\n side: THREE.DoubleSide,\n allowOverride: false,\n });\n\n super(geometry, material);\n this.material = material;\n this.uniforms = uniforms;\n // Disable frustum culling because we want to always draw them all\n // and cull Gsplats individually in the shader\n this.frustumCulled = false;\n\n // By default SparkRenderer will only render for layer 0\n // this.layers.enableAll();\n\n // sparkRendererInstance = this;\n this.renderer = options.renderer;\n this.onDirty = options.onDirty;\n this.dirty = true;\n this.premultipliedAlpha = premultipliedAlpha;\n this.autoUpdate = options.autoUpdate ?? true;\n this.preUpdate = options.preUpdate ?? true;\n\n this.maxStdDev = options.maxStdDev ?? Math.sqrt(8.0);\n this.minPixelRadius = options.minPixelRadius ?? 0.0; //1.6;\n this.maxPixelRadius = options.maxPixelRadius ?? 512.0;\n this.accumExtSplats = options.accumExtSplats ?? false;\n this.covSplats = options.covSplats ?? false;\n this.minAlpha = options.minAlpha ?? 0.5 * (1.0 / 255.0);\n this.enable2DGS = options.enable2DGS ?? false;\n // this.enableRayEval = options.enableRayEval ?? false;\n this.preBlurAmount = options.preBlurAmount ?? 0.0;\n this.blurAmount = options.blurAmount ?? 0.3;\n this.focalDistance = options.focalDistance ?? 0.0;\n this.apertureAngle = options.apertureAngle ?? 0.0;\n this.falloff = options.falloff ?? 1.0;\n this.clipXY = options.clipXY ?? 1.4;\n this.focalAdjustment = options.focalAdjustment ?? 1.0;\n this.encodeLinear = options.encodeLinear ?? false;\n\n this.sortRadial = options.sortRadial ?? true;\n this.minSortIntervalMs = options.minSortIntervalMs ?? 0;\n\n this.enableLod = options.enableLod ?? true;\n // enableDriveLod defaults to true if enableLod is true, false otherwise\n this.enableDriveLod = options.enableDriveLod ?? this.enableLod;\n this.enableLodFetching = options.enableLodFetching ?? true;\n this.lodSplatCount = options.lodSplatCount;\n this.lodSplatScale = options.lodSplatScale ?? 1.0;\n this.lodRenderScale = options.lodRenderScale ?? 1.0;\n this.lodInflate = options.lodInflate ?? false;\n this.pagedExtSplats = options.pagedExtSplats ?? false;\n const defaultPages = isMobile() ? (isIos() ? 96 : 128) : 256;\n this.maxPagedSplats = options.maxPagedSplats ?? defaultPages * 65536;\n this.numLodFetchers = options.numLodFetchers ?? 3;\n this.behindFoveate = options.behindFoveate ?? 0.2;\n this.coneFov0 = options.coneFov0 ?? 90.0;\n this.coneFov = options.coneFov ?? 120.0;\n this.coneFoveate = options.coneFoveate ?? 0.4;\n\n this.lodRaycast =\n options.lodRaycast === undefined\n ? isMobile()\n ? 10000\n : 25000\n : options.lodRaycast;\n this.lodRaycastIntervalMs = options.lodRaycastIntervalMs ?? 500;\n\n this.clock = options.clock ? cloneClock(options.clock) : new THREE.Clock();\n\n const accumulatorOptions = {\n extSplats: this.accumExtSplats,\n covSplats: this.covSplats,\n };\n this.display = new SplatAccumulator(accumulatorOptions);\n this.current = this.display;\n this.accumulators.push(new SplatAccumulator(accumulatorOptions));\n this.accumulators.push(new SplatAccumulator(accumulatorOptions));\n\n if (options.target) {\n const {\n width,\n height,\n doubleBuffer,\n superXY: origSuperXY,\n ...origTargetOptions\n } = options.target;\n const superXY = Math.max(1, Math.min(4, origSuperXY ?? 1));\n if (width * superXY > 8192 || height * superXY > 8192) {\n throw new Error(\"Target size too large\");\n }\n this.superXY = superXY;\n\n const superWidth = width * superXY;\n const superHeight = height * superXY;\n const targetOptions: THREE.RenderTargetOptions = {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n colorSpace: THREE.SRGBColorSpace,\n ...origTargetOptions,\n };\n\n this.target = new THREE.WebGLRenderTarget(\n superWidth,\n superHeight,\n targetOptions,\n );\n if (doubleBuffer) {\n this.backTarget = new THREE.WebGLRenderTarget(\n superWidth,\n superHeight,\n targetOptions,\n );\n }\n this.encodeLinear = options.encodeLinear ?? true;\n }\n }\n\n static makeUniforms() {\n const uniforms = {\n // // number of active splats to render\n // numSplats: { value: 0 },\n // Size of render viewport in pixels\n renderSize: { value: new THREE.Vector2() },\n // Near and far plane distances\n near: { value: 0.1 },\n far: { value: 1000.0 },\n // SplatAccumulator to view transformation quaternion\n renderToViewQuat: { value: new THREE.Quaternion() },\n // SplatAccumulator to view transformation translation\n renderToViewPos: { value: new THREE.Vector3() },\n renderToViewBasis: { value: new THREE.Matrix3() },\n renderToViewOffset: { value: new THREE.Vector3() },\n // Maximum distance (in stddevs) from Gsplat center to render\n maxStdDev: { value: 1.0 },\n // Minimum pixel radius for splat rendering\n minPixelRadius: { value: 0.0 },\n // Maximum pixel radius for splat rendering\n maxPixelRadius: { value: 512.0 },\n // Minimum alpha value for splat rendering\n minAlpha: { value: 0.5 * (1.0 / 255.0) },\n // Enable interpreting 0-thickness Gsplats as 2DGS\n enable2DGS: { value: false },\n // Enable ray-splat max response evaluation\n // enableRayEval: { value: false },\n // Inflate LoD splats so that opacity <= 1.0\n lodInflate: { value: false },\n // Add to projected 2D splat covariance diagonal (thickens and brightens)\n preBlurAmount: { value: 0.0 },\n // Add to 2D splat covariance diagonal and adjust opacity (anti-aliasing)\n blurAmount: { value: 0.3 },\n // Depth-of-field distance to focal plane\n focalDistance: { value: 0.0 },\n // Full-width angle of aperture opening (in radians)\n apertureAngle: { value: 0.0 },\n // Modulate Gaussian kernal falloff. 0 means \"no falloff, flat shading\",\n // 1 is normal e^-x^2 falloff.\n falloff: { value: 1.0 },\n // Clip Gsplats that are clipXY times beyond the +-1 frustum bounds\n clipXY: { value: 1.4 },\n // Debug renderSize scale factor\n focalAdjustment: { value: 1.0 },\n // Whether to encode Gsplat with linear RGB (for environment mapping)\n encodeLinear: { value: false },\n // Back-to-front sort ordering of splat indices\n ordering: { type: \"t\", value: SparkRenderer.emptyOrdering },\n enableExtSplats: { value: false },\n enableCovSplats: { value: false },\n // Gsplat collection to render\n extSplats: { type: \"t\", value: SplatAccumulator.emptyTexture },\n extSplats2: { type: \"t\", value: SplatAccumulator.emptyTexture },\n // Time in seconds for time-based effects\n time: { value: 0 },\n // Delta time in seconds since last frame\n deltaTime: { value: 0 },\n // Debug flag that alternates each frame\n debugFlag: { value: false },\n };\n return uniforms;\n }\n\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target = undefined;\n }\n if (this.backTarget) {\n this.backTarget.dispose();\n this.backTarget = undefined;\n }\n if (this.orderingTexture) {\n this.orderingTexture.dispose();\n this.orderingTexture = null;\n }\n\n const accumulators = new Set();\n accumulators.add(this.display);\n accumulators.add(this.current);\n for (const accumulator of this.accumulators) {\n accumulators.add(accumulator);\n }\n for (const accumulator of accumulators) {\n accumulator.dispose();\n }\n\n const instances = this.lodInstances.values();\n this.lodInstances.clear();\n for (const instance of instances) {\n instance.texture.dispose();\n }\n\n if (this.sortWorker) {\n this.sortWorker.dispose();\n this.sortWorker = null;\n }\n if (this.lodWorker) {\n this.lodWorker.dispose();\n this.lodWorker = null;\n }\n if (this.pager) {\n this.pager.dispose();\n this.pager = undefined;\n }\n }\n\n setDirty() {\n if (!this.dirty) {\n this.dirty = true;\n this.onDirty?.();\n }\n }\n\n onBeforeRender(\n renderer: THREE.WebGLRenderer,\n scene: THREE.Scene,\n camera: THREE.Camera,\n ) {\n const spark = SparkRenderer.sparkOverride ?? this;\n\n const frame = renderer.info.render.frame;\n const isNewFrame = frame !== spark.lastFrame;\n spark.lastFrame = frame;\n\n if (spark.target) {\n spark.renderSize.set(spark.target.width, spark.target.height);\n } else {\n const renderSize = renderer.getDrawingBufferSize(spark.renderSize);\n if (renderer.xr.isPresenting) {\n if (renderSize.x === 1 && renderSize.y === 1) {\n // WebXR mode on Apple Vision Pro returns 1x1 when presenting.\n // Use a different means to figure out the render size.\n const baseLayer = renderer.xr.getSession()?.renderState.baseLayer;\n if (baseLayer) {\n renderSize.x = baseLayer.framebufferWidth;\n renderSize.y = baseLayer.framebufferHeight;\n }\n }\n }\n }\n this.uniforms.renderSize.value.copy(spark.renderSize);\n\n const typedCamera = camera as\n | THREE.PerspectiveCamera\n | THREE.OrthographicCamera;\n\n this.uniforms.near.value = typedCamera.near;\n this.uniforms.far.value = typedCamera.far;\n\n const geometry = this.geometry as SplatGeometry;\n geometry.instanceCount = spark.activeSplats;\n\n const accumToWorld = new THREE.Matrix4();\n if (!this.display.extSplats) {\n accumToWorld.makeTranslation(spark.display.viewOrigin);\n }\n const cameraToWorld = camera.matrixWorld.clone();\n const worldToCamera = cameraToWorld.invert();\n const accumToCamera = worldToCamera.multiply(accumToWorld);\n accumToCamera.decompose(\n this.uniforms.renderToViewPos.value,\n this.uniforms.renderToViewQuat.value,\n new THREE.Vector3(),\n );\n this.uniforms.renderToViewBasis.value.setFromMatrix4(accumToCamera);\n\n this.uniforms.maxStdDev.value = spark.maxStdDev;\n this.uniforms.minPixelRadius.value = spark.minPixelRadius;\n this.uniforms.maxPixelRadius.value = spark.maxPixelRadius;\n this.uniforms.minAlpha.value = spark.minAlpha;\n this.uniforms.enable2DGS.value = spark.enable2DGS;\n // this.uniforms.enableRayEval.value = spark.enableRayEval;\n this.uniforms.lodInflate.value = spark.lodInflate;\n this.uniforms.preBlurAmount.value = spark.preBlurAmount;\n this.uniforms.blurAmount.value = spark.blurAmount;\n this.uniforms.focalDistance.value = spark.focalDistance;\n this.uniforms.apertureAngle.value = spark.apertureAngle;\n this.uniforms.falloff.value = spark.falloff;\n this.uniforms.clipXY.value = spark.clipXY;\n this.uniforms.focalAdjustment.value = spark.focalAdjustment;\n this.uniforms.encodeLinear.value = spark.encodeLinear;\n\n this.uniforms.ordering.value =\n spark.orderingTexture ?? SparkRenderer.emptyOrdering;\n this.uniforms.enableExtSplats.value = this.display.extSplats;\n this.uniforms.enableCovSplats.value = this.display.covSplats;\n if (this.display.extSplats) {\n const extSplats = spark.display.getTextures();\n this.uniforms.extSplats.value = extSplats[0];\n this.uniforms.extSplats2.value = extSplats[1];\n } else {\n const packedSplats = spark.display.getTextures();\n this.uniforms.extSplats.value = packedSplats[0];\n this.uniforms.extSplats2.value = packedSplats[0];\n }\n\n this.uniforms.time.value = spark.display.time;\n this.uniforms.deltaTime.value = spark.display.deltaTime;\n // Alternating debug flag that can aid in visual debugging\n this.uniforms.debugFlag.value = (performance.now() / 1000.0) % 2.0 < 1.0;\n\n if (spark.autoUpdate && isNewFrame) {\n const preUpdate = spark.preUpdate && !renderer.xr.isPresenting;\n const useCamera = renderer.xr.isPresenting\n ? renderer.xr.getCamera()\n : camera;\n if (preUpdate) {\n spark.updateInternal({\n scene,\n camera: useCamera,\n autoUpdate: true,\n });\n } else {\n if (spark.updateTimeoutId === -1) {\n spark.updateTimeoutId = setTimeout(() => {\n spark.updateTimeoutId = -1;\n spark.updateInternal({\n scene,\n camera: useCamera,\n autoUpdate: true,\n });\n }, 1);\n }\n }\n }\n\n spark.dirty = false;\n }\n\n clearSplats() {\n this.activeSplats = 0;\n this.display.numSplats = 0;\n this.setDirty();\n }\n\n async update({\n scene,\n camera,\n }: {\n scene: THREE.Scene;\n camera: THREE.Camera;\n }) {\n await this.updateInternal({ scene, camera, autoUpdate: false });\n }\n\n // /**\n // * Provide additional cameras to prefetch paged splat chunks without\n // * affecting main LOD selection.\n // */\n // setPrefetchCameras(cameras?: THREE.Camera[], lodScaleMultiplier = 1.0) {\n // const next = cameras?.filter(Boolean) ?? [];\n // const sameCameras =\n // this.prefetchCameras.length === next.length &&\n // this.prefetchCameras.every((camera, index) => camera === next[index]);\n // if (sameCameras && this.prefetchLodScale === lodScaleMultiplier) {\n // return;\n // }\n // this.prefetchCameras = next;\n // this.prefetchLodScale = lodScaleMultiplier;\n // this.invalidatePrefetchCache();\n // }\n\n // /**\n // * Invalidate the prefetch meshes cache. Call this when SplatMeshes are\n // * added or removed from the scene.\n // */\n // invalidatePrefetchCache() {\n // this.prefetchMeshesCacheScene = undefined;\n // }\n\n private async updateInternal({\n scene,\n camera,\n autoUpdate,\n }: {\n scene: THREE.Scene;\n camera: THREE.Camera;\n autoUpdate: boolean;\n }) {\n const renderer = this.renderer;\n const time = this.time ?? this.clock.getElapsedTime();\n\n const center = camera.getWorldPosition(new THREE.Vector3());\n const dir = camera.getWorldDirection(new THREE.Vector3());\n\n const viewChanged =\n center.distanceTo(this.sortedCenter) > 0.001 ||\n dir.dot(this.sortedDir) < 0.999;\n\n const next = this.accumulators.pop();\n if (!next) {\n // Should never happen\n throw new Error(\"No next accumulator\");\n }\n if (next === this.current) {\n // Should never happen\n throw new Error(\n \"Next accumulator is the same as the current accumulator\",\n );\n }\n const { version, mappingVersion, visibleGenerators, generate } =\n next.prepareGenerate({\n renderer,\n scene,\n time,\n camera,\n sortRadial: this.sortRadial ?? true,\n renderSize: this.renderSize,\n previous: this.current,\n lodInstances: this.enableLod ? this.lodInstances : undefined,\n });\n\n let doUpdate = true;\n const needsUpdate = viewChanged || version !== this.current.version;\n const mappingUpdated = mappingVersion !== this.display.mappingVersion;\n\n if (autoUpdate && !needsUpdate) {\n // Triggered by auto-update but no change\n doUpdate = false;\n }\n\n if (mappingUpdated && this.sorting) {\n // We need to be able to sort the splats because the mapping has changed.\n // Try again next time around.\n doUpdate = false;\n }\n\n if (!doUpdate) {\n // Restore unused accumulator to the free list\n this.accumulators.push(next);\n } else {\n generate();\n\n if (this.flushAfterGenerate) {\n const gl = renderer.getContext() as WebGL2RenderingContext;\n gl.flush();\n }\n\n if (this.display.mappingVersion === next.mappingVersion) {\n // Same splat mapping so let's display it immediately and\n // reuse the sort order\n this.accumulators.push(this.display);\n this.display = next;\n } else {\n if (this.display !== this.current) {\n // The previous current is not being displayed, so replace it\n this.accumulators.push(this.current);\n }\n }\n\n this.current = next;\n this.sortDirty = true;\n this.setDirty();\n }\n\n if (this.enableDriveLod) {\n this.driveLod({ visibleGenerators, camera, scene });\n }\n await this.driveSort();\n }\n\n private async driveSort() {\n if (this.sorting || !this.sortDirty) {\n return;\n }\n\n if (this.sortTimeoutId !== -1) {\n clearTimeout(this.sortTimeoutId);\n this.sortTimeoutId = -1;\n }\n\n const now = performance.now();\n const nextSortTime = this.lastSortTime\n ? this.lastSortTime + this.minSortIntervalMs\n : now;\n if (now < nextSortTime) {\n this.sortTimeoutId = setTimeout(() => {\n this.sortTimeoutId = -1;\n this.driveSort();\n }, nextSortTime - now);\n return;\n }\n\n this.sorting = true;\n this.sortDirty = false;\n this.lastSortTime = now;\n\n if (this.readPause > 0) {\n await new Promise((resolve) => setTimeout(resolve, this.readPause));\n }\n\n const current = this.current;\n\n this.sortedCenter.copy(current.viewOrigin);\n this.sortedDir.copy(current.viewDirection);\n\n const { numSplats, maxSplats } = current;\n const rows = Math.max(1, Math.ceil(maxSplats / 16384));\n const orderingMaxSplats = rows * 16384;\n this.maxSplats = Math.max(this.maxSplats, orderingMaxSplats);\n\n const ordering = new Uint32Array(this.maxSplats);\n const readback = Readback.ensureBuffer(maxSplats, this.readback32);\n this.readback32 = readback;\n\n await this.readbackDepth({\n current,\n renderer: this.renderer,\n numSplats,\n readback,\n });\n\n if (this.sortPause > 0) {\n await new Promise((resolve) => setTimeout(resolve, this.sortPause));\n }\n\n if (!this.sortWorker) {\n this.sortWorker = new SplatWorker();\n }\n const result = (await this.sortWorker.call(\"sortSplats32\", {\n numSplats,\n readback,\n ordering,\n })) as {\n readback: Uint32Array;\n ordering: Uint32Array;\n activeSplats: number;\n };\n\n if (this.sortDelay > 0) {\n await new Promise((resolve) => setTimeout(resolve, this.sortDelay));\n }\n\n this.readback32 = result.readback;\n\n this.activeSplats = result.activeSplats;\n\n if (this.orderingTexture) {\n if (rows > this.orderingTexture.image.height) {\n this.orderingTexture.dispose();\n this.orderingTexture = null;\n }\n }\n\n if (!this.orderingTexture) {\n // console.log(`Allocating orderingTexture: ${4096}x${rows}`);\n const orderingTexture = new THREE.DataTexture(\n result.ordering,\n 4096,\n rows,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n orderingTexture.internalFormat = \"RGBA32UI\";\n orderingTexture.needsUpdate = true;\n this.orderingTexture = orderingTexture;\n } else {\n const renderer = this.renderer;\n const gl = renderer.getContext() as WebGL2RenderingContext;\n if (!renderer.properties.has(this.orderingTexture)) {\n this.orderingTexture.needsUpdate = true;\n } else {\n const props = renderer.properties.get(this.orderingTexture) as {\n __webglTexture: WebGLTexture;\n };\n const glTexture = props.__webglTexture;\n if (!glTexture) {\n throw new Error(\"ordering texture not found\");\n }\n renderer.state.activeTexture(gl.TEXTURE0);\n renderer.state.bindTexture(gl.TEXTURE_2D, glTexture);\n gl.bindBuffer(gl.PIXEL_UNPACK_BUFFER, null);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, false);\n gl.texSubImage2D(\n gl.TEXTURE_2D,\n 0,\n 0,\n 0,\n 4096,\n rows,\n gl.RGBA_INTEGER,\n gl.UNSIGNED_INT,\n // data,\n result.ordering,\n );\n renderer.state.bindTexture(gl.TEXTURE_2D, null);\n }\n }\n\n // console.log(`Sorted (${this.minSortIntervalMs}) ${numSplats} splats in ${(performance.now() - now).toFixed(0)} ms`);\n\n if (this.current.mappingVersion === current.mappingVersion) {\n if (this.current.mappingVersion !== this.display.mappingVersion) {\n this.accumulators.push(this.display);\n this.display = this.current;\n }\n }\n this.sorting = false;\n this.setDirty();\n\n this.driveSort();\n }\n\n private ensureLodWorker() {\n if (!this.lodWorker) {\n this.lodWorker = new SplatWorker();\n }\n return this.lodWorker;\n }\n\n defaultSplatTarget() {\n return isOculus()\n ? 500000\n : isVisionPro()\n ? 750000\n : isAndroid()\n ? 1000000\n : isIos()\n ? 1500000\n : 2500000;\n }\n\n private driveLod({\n visibleGenerators,\n camera,\n scene,\n }: {\n visibleGenerators: SplatGenerator[];\n camera: THREE.Camera;\n scene: THREE.Scene;\n }) {\n const defaultSplatCount = this.defaultSplatTarget();\n const splatCount = this.lodSplatCount ?? defaultSplatCount;\n const maxSplats = splatCount * this.lodSplatScale;\n\n let pixelScaleLimit = 0.0;\n if (camera instanceof THREE.PerspectiveCamera) {\n const tanYfov = Math.tan((0.5 * camera.fov * Math.PI) / 180);\n pixelScaleLimit = (2.0 * tanYfov) / this.renderSize.y;\n } else if (camera instanceof THREE.OrthographicCamera) {\n // Effective visible size after zoom\n const viewHeight = (camera.top - camera.bottom) / camera.zoom;\n const viewWidth = (camera.right - camera.left) / camera.zoom;\n // World/view units per pixel (constant with depth for ortho)\n const pxY = viewHeight / Math.max(1, this.renderSize.y);\n const pxX = viewWidth / Math.max(1, this.renderSize.x);\n pixelScaleLimit = Math.min(pxX, pxY);\n }\n\n pixelScaleLimit *= this.lodRenderScale;\n\n const viewPos = new THREE.Vector3();\n const viewQuat = new THREE.Quaternion();\n this.current.viewToWorld.decompose(viewPos, viewQuat, new THREE.Vector3());\n\n if (this.lodPosOverride) {\n viewPos.copy(this.lodPosOverride);\n }\n if (this.lodQuatOverride) {\n viewQuat.copy(this.lodQuatOverride).normalize();\n }\n\n if (this.lastLod) {\n if (\n this.lastLod.pixelScaleLimit !== pixelScaleLimit ||\n this.lastLod.maxSplats !== maxSplats\n ) {\n this.lodDirty = true;\n }\n\n const distance = viewPos.distanceTo(this.lastLod.pos);\n const distanceRamp = Math.max(0.0, 1.0 - distance / 1.0);\n const dot = viewQuat.dot(this.lastLod.quat);\n const quatRamp = Math.max(0.0, 1.0 - (1.0 - dot) / 0.01);\n const similarity = distanceRamp * quatRamp;\n if (similarity < 0.999) {\n this.lodDirty = true;\n }\n }\n\n const lodMeshes = !this.enableLod\n ? []\n : (visibleGenerators.filter((generator) => {\n return (\n generator instanceof SplatMesh &&\n (generator.packedSplats?.lodSplats ||\n generator.extSplats?.lodSplats ||\n generator.paged) &&\n generator.enableLod !== false\n );\n }) as SplatMesh[]);\n const hasPaged = lodMeshes.some((mesh) => mesh.paged);\n\n if (this.lodMeshes.length !== lodMeshes.length) {\n this.lodDirty = true;\n } else {\n if (\n lodMeshes.some(\n (m, i) =>\n m !== this.lodMeshes[i].mesh ||\n m.version > this.lodMeshes[i].version,\n )\n ) {\n this.lodDirty = true;\n }\n }\n\n this.lodMeshes = lodMeshes.map((mesh) => ({\n mesh,\n version: mesh.version + 1,\n }));\n\n // if (!this.lodDirty && lodMeshes.length === 0 && this.lodIds.size === 0) {\n // return;\n // }\n\n this.lodInitQueue = [];\n const now = performance.now();\n\n for (const mesh of lodMeshes) {\n const splats =\n mesh.packedSplats?.lodSplats ?? mesh.extSplats?.lodSplats ?? mesh.paged;\n if (splats) {\n const record = this.lodIds.get(splats);\n if (record) {\n record.lastTouched = now;\n } else {\n this.lodInitQueue.push(splats);\n }\n }\n }\n\n this.ensureLodWorker().tryExclusive(async (worker) => {\n if (hasPaged && !this.pager) {\n this.pager = new SplatPager({\n renderer: this.renderer,\n extSplats: this.pagedExtSplats,\n maxSplats: this.maxPagedSplats,\n numFetchers: this.numLodFetchers,\n });\n\n const { lodId } = (await worker.call(\"newLodTree\", {\n capacity: this.pager.maxSplats,\n })) as { lodId: number };\n this.pagerId = lodId;\n }\n\n // Assign pager to any new meshes that don't have one yet\n // (must run every frame, not just when pager is first created)\n if (this.pager) {\n for (const { mesh } of this.lodMeshes) {\n if (mesh.paged && !mesh.paged.pager) {\n mesh.paged.pager = this.pager;\n }\n }\n }\n\n if (this.lodInitQueue.length > 0) {\n const lodInitQueue = this.lodInitQueue;\n this.lodInitQueue = [];\n while (lodInitQueue.length > 0) {\n const splats = lodInitQueue.shift();\n if (splats) {\n await this.initLodTree(worker, splats);\n this.lodDirty = true;\n }\n }\n }\n\n if (this.pager) {\n const updates = this.pager.consumeLodTreeUpdates();\n\n for (const { splats, page, chunk, numSplats, lodTree } of updates) {\n const record = this.lodIds.get(splats);\n if (record) {\n if (lodTree && chunk === 0) {\n record.rootPage = page;\n }\n this.lodUpdates.push({\n lodId: record.lodId,\n pageBase: page * this.pager.pageSplats,\n chunkBase: chunk * this.pager.pageSplats,\n count: numSplats,\n lodTreeData: lodTree,\n });\n }\n }\n }\n\n if (this.lodUpdates.length > 0) {\n const lodUpdates = this.lodUpdates;\n this.lodUpdates = [];\n await worker.call(\"updateLodTrees\", { ranges: lodUpdates });\n this.lodDirty = true;\n }\n\n if (this.lodDirty) {\n const now = performance.now();\n const deltaPred = new THREE.Vector3();\n if (this.lastLod) {\n const deltaTime = Math.max(1, now - this.lastLod.timestamp);\n deltaPred\n .copy(viewPos)\n .sub(this.lastLod.pos)\n .multiplyScalar(this.lastTraverseTime / deltaTime);\n }\n this.lastLod = {\n pos: viewPos,\n quat: viewQuat,\n pixelScaleLimit,\n maxSplats,\n timestamp: now,\n };\n this.lodDirty = false;\n\n await this.updateLodInstances(\n worker,\n deltaPred,\n lodMeshes,\n maxSplats,\n viewPos,\n viewQuat,\n pixelScaleLimit,\n );\n this.currentLod = this.lastLod;\n this.setDirty();\n }\n\n await this.cleanupLodTrees(worker);\n });\n }\n\n private async initLodTree(\n worker: SplatWorker,\n splats: PackedSplats | ExtSplats | PagedSplats,\n ) {\n if (splats instanceof PackedSplats || splats instanceof ExtSplats) {\n const { lodId } = (await worker.call(\"initLodTree\", {\n numSplats: splats.numSplats ?? 0,\n lodTree: (splats.extra.lodTree as Uint32Array).slice(),\n })) as { lodId: number };\n this.lodIds.set(splats, { lodId, lastTouched: performance.now() });\n this.lodIdToSplats.set(lodId, splats);\n // console.log(\"*** initLodTree\", lodId, splats.extra.lodTree, splats);\n } else {\n const { lodId } = (await worker.call(\"newSharedLodTree\", {\n lodId: this.pagerId,\n })) as { lodId: number };\n this.lodIds.set(splats, { lodId, lastTouched: performance.now() });\n this.lodIdToSplats.set(lodId, splats);\n // console.log(\"*** newSharedLodTree\", lodId, this.pagerId, splats);\n }\n }\n\n private pageSizeWarning = false;\n\n private async updateLodInstances(\n worker: SplatWorker,\n deltaPred: THREE.Vector3,\n lodMeshes: SplatMesh[],\n maxSplats: number,\n viewPos: THREE.Vector3,\n viewQuat: THREE.Quaternion,\n pixelScaleLimit: number,\n ) {\n // Commented out because it makes LoDing less stable\n // viewPos.add(deltaPred);\n\n const uuidToMesh: Map = new Map();\n const cameraToWorld = new THREE.Matrix4().compose(\n viewPos,\n viewQuat,\n new THREE.Vector3().setScalar(1),\n );\n\n const instances = lodMeshes.reduce(\n (instances, mesh) => {\n uuidToMesh.set(mesh.uuid, mesh);\n const viewToObject = mesh.matrixWorld\n .clone()\n .invert()\n .multiply(cameraToWorld);\n\n const splats =\n mesh.packedSplats?.lodSplats ??\n mesh.extSplats?.lodSplats ??\n mesh.paged;\n if (!splats) {\n return instances;\n }\n const record = this.lodIds.get(splats);\n if (!record) {\n return instances;\n }\n\n if (this.pager && mesh.paged && record.rootPage === undefined) {\n return instances;\n }\n\n instances[mesh.uuid] = {\n instanceId: mesh.uuid,\n lodId: record.lodId,\n rootPage: record.rootPage,\n viewToObjectCols: viewToObject.elements,\n lodScale: mesh.lodScale,\n behindFoveate: mesh.behindFoveate ?? this.behindFoveate,\n coneFov0: mesh.coneFov0 ?? this.coneFov0,\n coneFov: mesh.coneFov ?? this.coneFov,\n coneFoveate: mesh.coneFoveate ?? this.coneFoveate,\n };\n return instances;\n },\n {} as Record<\n string,\n {\n instanceId: string;\n lodId: number;\n rootPage?: number;\n viewToObjectCols: number[];\n lodScale: number;\n behindFoveate: number;\n coneFov0: number;\n coneFov: number;\n coneFoveate: number;\n }\n >,\n );\n\n const traverseStart = performance.now();\n const result = (await worker.call(\"traverseLodTrees\", {\n maxSplats,\n pixelScaleLimit,\n lastPixelLimit: this.lastPixelLimit,\n instances,\n })) as {\n keyIndices: Record<\n string,\n { lodId: number; numSplats: number; indices: Uint32Array }\n >;\n chunks: [number, number][];\n pixelLimit?: number;\n };\n this.lastTraverseTime = performance.now() - traverseStart;\n\n const { keyIndices, chunks, pixelLimit } = result;\n this.lastPixelLimit = pixelLimit;\n const totalLodSplats = Object.values(keyIndices).reduce(\n (sum, { numSplats }) => sum + numSplats,\n 0,\n );\n // console.log(\n // `traverseLodTrees in ${this.lastTraverseTime} ms, pixelLimit=${pixelLimit}, totalLodSplats=${totalLodSplats}`,\n // );\n\n this.updateLodIndices(uuidToMesh, keyIndices);\n // console.log(\"chunks.length =\", chunks.length);\n\n if (this.pager) {\n this.pager.processUploads();\n\n const pagedMeshes = lodMeshes\n .map((mesh) => {\n if (!mesh.paged || !this.pager) {\n return null;\n }\n const meshPosition = mesh.getWorldPosition(new THREE.Vector3());\n return {\n splats: mesh.paged,\n distance: meshPosition.distanceTo(viewPos),\n };\n })\n .filter((result) => result !== null);\n\n if (!this.pageSizeWarning && pagedMeshes.length > this.pager.maxPages) {\n this.pageSizeWarning = true;\n console.warn(\n `# paged SplatMeshes exceeds maxPages: ${pagedMeshes.length} > ${this.pager.maxPages}`,\n );\n }\n\n // Fetch root chunk of each paged splats in priority of distance to camera\n pagedMeshes.sort((a, b) => a.distance - b.distance);\n this.pager.fetchPriority = pagedMeshes.map(({ splats }) => ({\n splats,\n chunk: 0,\n }));\n\n for (const [lodId, chunk] of chunks) {\n const splats = this.lodIdToSplats.get(lodId);\n if (splats instanceof PagedSplats) {\n if (chunk !== 0) {\n this.pager.fetchPriority.push({ splats, chunk });\n }\n }\n }\n\n this.pager.autoDrive = this.enableLodFetching;\n if (this.enableLodFetching) {\n this.pager.driveFetchers();\n }\n }\n\n if (\n this.lodRaycast &&\n performance.now() - this.lastLodRaycastTime >= this.lodRaycastIntervalMs\n ) {\n this.lastLodRaycastTime = performance.now();\n const traverseStart = performance.now();\n const result = (await worker.call(\"traverseLodTrees\", {\n maxSplats: Math.min(this.lodRaycast, Math.round(totalLodSplats * 0.1)),\n pixelScaleLimit,\n instances,\n })) as {\n keyIndices: Record<\n string,\n { lodId: number; numSplats: number; indices: Uint32Array }\n >;\n };\n const raycastTraverseTime = performance.now() - traverseStart;\n\n const { keyIndices } = result;\n const totalRaycastSplats = Object.values(keyIndices).reduce(\n (sum, { numSplats }) => sum + numSplats,\n 0,\n );\n for (const [uuid, countIndices] of Object.entries(keyIndices)) {\n const mesh = uuidToMesh.get(uuid) as SplatMesh;\n mesh.raycastIndices = countIndices;\n // console.log(\"Set raycast indices\", uuid, countIndices.numSplats, countIndices.indices.length);\n }\n // console.log(`raycast traverse in ${raycastTraverseTime} ms, totalRaycastSplats=${totalRaycastSplats}`);\n }\n }\n\n private async cleanupLodTrees(worker: SplatWorker) {\n const DISPOSE_TIMEOUT_MS = 3000;\n const now = performance.now();\n\n let oldest = null;\n for (const [splats, record] of this.lodIds.entries()) {\n if (oldest == null || record.lastTouched < oldest.lastTouched) {\n oldest = {\n splats,\n lastTouched: record.lastTouched,\n lodId: record.lodId,\n };\n }\n }\n if (!oldest || oldest.lastTouched > now - DISPOSE_TIMEOUT_MS) {\n return;\n }\n\n this.lodIds.delete(oldest.splats);\n this.lodIdToSplats.delete(oldest.lodId);\n\n for (const [mesh, instance] of this.lodInstances.entries()) {\n if (instance.lodId === oldest.lodId) {\n instance.texture.dispose();\n this.lodInstances.delete(mesh);\n }\n }\n\n await worker.call(\"disposeLodTree\", { lodId: oldest.lodId });\n // console.log(\"disposed lodTree\", oldest.lodId);\n }\n\n private updateLodIndices(\n uuidToMesh: Map,\n keyIndices: Record<\n string,\n { lodId: number; numSplats: number; indices: Uint32Array }\n >,\n ) {\n // console.log(\"updateLodIndices\", keyIndices);\n for (const [uuid, countIndices] of Object.entries(keyIndices)) {\n const { lodId, numSplats, indices } = countIndices;\n const mesh = uuidToMesh.get(uuid) as SplatMesh;\n\n if (mesh.paged) {\n mesh.paged.update(numSplats, indices);\n // console.log(\"*** paged.update\", lodId, numSplats, indices.slice(0, 5).join(\",\"));\n } else {\n let instance = this.lodInstances.get(mesh);\n if (instance) {\n if (indices.length > instance.indices.length) {\n instance.texture.dispose();\n instance = undefined;\n }\n }\n\n const rows = Math.ceil(indices.length / 16384);\n if (!instance) {\n const capacity = rows * 16384;\n if (indices.length !== capacity) {\n throw new Error(\"Indices length != capacity\");\n }\n const texture = new THREE.DataTexture(\n indices,\n 4096,\n rows,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n instance = { lodId, numSplats, indices, texture };\n this.lodInstances.set(mesh, instance);\n } else {\n instance.numSplats = numSplats;\n // instance.indices.set(indices.subarray(0, numSplats));\n\n const renderer = this.renderer;\n const gl = renderer.getContext() as WebGL2RenderingContext;\n if (renderer.properties.has(instance.texture)) {\n const props = renderer.properties.get(instance.texture) as {\n __webglTexture: WebGLTexture;\n };\n const glTexture = props.__webglTexture;\n if (!glTexture) {\n throw new Error(\"lodIndices texture not found\");\n }\n renderer.state.activeTexture(gl.TEXTURE0);\n renderer.state.bindTexture(gl.TEXTURE_2D, glTexture);\n gl.bindBuffer(gl.PIXEL_UNPACK_BUFFER, null);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, false);\n gl.texSubImage2D(\n gl.TEXTURE_2D,\n 0,\n 0,\n 0,\n 4096,\n rows,\n gl.RGBA_INTEGER,\n gl.UNSIGNED_INT,\n indices,\n );\n renderer.state.bindTexture(gl.TEXTURE_2D, null);\n }\n }\n }\n mesh.updateMappingVersion();\n }\n }\n\n private async readbackDepth({\n current,\n renderer,\n numSplats,\n readback,\n }: {\n current: SplatAccumulator;\n renderer: THREE.WebGLRenderer;\n numSplats: number;\n readback: Uint32Array;\n }) {\n if (!renderer) {\n throw new Error(\"No renderer\");\n }\n if (!current.target) {\n throw new Error(\"No target\");\n }\n\n const roundedCount =\n Math.ceil(numSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n if (readback.byteLength < roundedCount * 4) {\n throw new Error(\n `Readback buffer too small: ${readback.byteLength} < ${roundedCount * 4}`,\n );\n }\n const readbackUint8 = new Uint8Array(readback.buffer);\n const renderState = this.saveRenderState(renderer);\n\n // We can only read back one 2D array layer of pixels at a time,\n // so loop through them, initiate the readback, and collect the\n // completion promises.\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n let baseIndex = 0;\n const promises = [];\n\n while (baseIndex < numSplats) {\n const layer = Math.floor(baseIndex / layerSize);\n const layerBase = layer * layerSize;\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((numSplats - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n // Compute the subarray that this layer of readback corresponds to\n const readbackSize = SPLAT_TEX_WIDTH * layerYEnd * 4;\n const subReadback = readbackUint8.subarray(\n layerBase * 4,\n layerBase * 4 + readbackSize,\n );\n renderer.setRenderTarget(current.target, layer);\n\n const promise = renderer.readRenderTargetPixelsAsync(\n current.target,\n 0,\n 0,\n SPLAT_TEX_WIDTH,\n layerYEnd,\n subReadback,\n undefined,\n current.extSplats ? 2 : 1,\n );\n promises.push(promise);\n\n if (this.flushAfterRead) {\n const gl = renderer.getContext() as WebGL2RenderingContext;\n gl.flush();\n }\n\n baseIndex += SPLAT_TEX_WIDTH * layerYEnd;\n }\n\n this.resetRenderState(renderer, renderState);\n return Promise.all(promises).then(() => readback);\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n private static emptyOrdering = (() => {\n const numIndices = 4 * 4096 * 1;\n const emptyArray = new Uint32Array(numIndices);\n const texture = new THREE.DataTexture(emptyArray, 4096, 1);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n render(scene: THREE.Scene, camera: THREE.Camera) {\n try {\n SparkRenderer.sparkOverride = this;\n this.renderer.render(scene, camera);\n } finally {\n SparkRenderer.sparkOverride = undefined;\n }\n }\n\n renderTarget({\n scene,\n camera,\n }: { scene: THREE.Scene; camera: THREE.Camera }): THREE.WebGLRenderTarget {\n const target = this.backTarget ?? this.target;\n if (!target) {\n throw new Error(\"No target\");\n }\n\n const previousTarget = this.renderer.getRenderTarget();\n try {\n this.renderer.setRenderTarget(target);\n SparkRenderer.sparkOverride = this;\n this.renderer.render(scene, camera);\n } finally {\n SparkRenderer.sparkOverride = undefined;\n this.renderer.setRenderTarget(previousTarget);\n }\n\n if (target !== this.target) {\n // Swap back buffer and target\n [this.target, this.backTarget] = [this.backTarget, this.target];\n }\n return target;\n }\n\n // Read back the previously rendered target image as a Uint8Array of packed\n // RGBA values (in that order). Subsequent calls to this.readTarget()\n // will reuse the same buffers to minimize memory allocations.\n async readTarget(): Promise {\n if (!this.target) {\n throw new Error(\"Must initialize with target\");\n }\n const { width, height } = this.target;\n const byteSize = width * height * 4;\n if (!this.superPixels || this.superPixels.length < byteSize) {\n this.superPixels = new Uint8Array(byteSize);\n // console.log(`Allocated superPixels: ${width}x${height} = ${pixelCount} bytes`);\n }\n const superPixels = this.superPixels;\n\n await this.renderer.readRenderTargetPixelsAsync(\n this.target,\n 0,\n 0,\n width,\n height,\n superPixels,\n );\n\n const { superXY } = this;\n if (superXY === 1) {\n return superPixels;\n }\n\n const subWidth = width / superXY;\n const subHeight = height / superXY;\n const subSize = subWidth * subHeight * 4;\n if (!this.targetPixels || this.targetPixels.length < subSize) {\n this.targetPixels = new Uint8Array(subSize);\n // console.log(`Allocated targetPixels: ${subWidth}x${subHeight} = ${subSize} bytes`);\n }\n const targetPixels = this.targetPixels;\n\n const super2 = superXY * superXY;\n for (let y = 0; y < subHeight; y++) {\n const row = y * subWidth;\n for (let x = 0; x < subWidth; x++) {\n const superCol = x * superXY;\n let r = 0;\n let g = 0;\n let b = 0;\n let a = 0;\n for (let sy = 0; sy < superXY; sy++) {\n const superRow = (y * superXY + sy) * width;\n for (let sx = 0; sx < superXY; sx++) {\n const superIndex = (superRow + superCol + sx) * 4;\n r += superPixels[superIndex];\n g += superPixels[superIndex + 1];\n b += superPixels[superIndex + 2];\n a += superPixels[superIndex + 3];\n }\n }\n const pixelIndex = (row + x) * 4;\n targetPixels[pixelIndex] = r / super2;\n targetPixels[pixelIndex + 1] = g / super2;\n targetPixels[pixelIndex + 2] = b / super2;\n targetPixels[pixelIndex + 3] = a / super2;\n }\n }\n return targetPixels;\n }\n\n async renderReadTarget({\n scene,\n camera,\n }: {\n scene: THREE.Scene;\n camera: THREE.Camera;\n }): Promise {\n this.renderTarget({ scene, camera });\n return this.readTarget();\n }\n\n // Data and buffers used for environment map rendering\n private static cubeRender: {\n target: THREE.WebGLCubeRenderTarget;\n cubeCamera: THREE.CubeCamera;\n near: number;\n far: number;\n } | null = null;\n private static pmrem: THREE.PMREMGenerator | null = null;\n\n // Renders out the scene to a cube map that can be used for\n // Image-based lighting or similar applications. First optionally updates Gsplats,\n // sorts them with respect to the provided worldCenter, renders 6 cube faces.\n async renderCubeMap({\n scene,\n worldCenter,\n size = 256,\n near = 0.1,\n far = 1000,\n hideObjects = [],\n update = true,\n filter = false,\n }: {\n scene: THREE.Scene;\n worldCenter: THREE.Vector3;\n size?: number;\n near?: number;\n far?: number;\n hideObjects: THREE.Object3D[];\n update: boolean;\n filter: boolean;\n }): Promise {\n if (\n !SparkRenderer.cubeRender ||\n SparkRenderer.cubeRender.target.width !== size ||\n SparkRenderer.cubeRender.near !== near ||\n SparkRenderer.cubeRender.far !== far\n ) {\n if (SparkRenderer.cubeRender) {\n SparkRenderer.cubeRender.target.dispose();\n }\n const target = new THREE.WebGLCubeRenderTarget(size, {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n generateMipmaps: filter,\n minFilter: filter ? THREE.LinearMipMapLinearFilter : THREE.LinearFilter,\n magFilter: THREE.LinearFilter,\n colorSpace: filter ? THREE.LinearSRGBColorSpace : THREE.SRGBColorSpace,\n });\n const cubeCamera = new THREE.CubeCamera(near, far, target);\n SparkRenderer.cubeRender = { target, cubeCamera, near, far };\n }\n\n const { target, cubeCamera } = SparkRenderer.cubeRender;\n cubeCamera.position.copy(worldCenter);\n\n // Save the visibility state of objects we want to hide before render\n const objectVisibility = new Map();\n for (const object of hideObjects) {\n objectVisibility.set(object, object.visible);\n object.visible = false;\n }\n\n if (update) {\n const tempCamera = new THREE.Camera();\n tempCamera.position.copy(worldCenter);\n await this.update({ scene, camera: tempCamera });\n }\n\n try {\n SparkRenderer.sparkOverride = this;\n // Update the CubeCamera, which performs 6 cube face renders\n cubeCamera.update(this.renderer, scene);\n } finally {\n SparkRenderer.sparkOverride = undefined;\n }\n\n // Restore viewpoint to default and object visibility\n for (const [object, visible] of objectVisibility.entries()) {\n object.visible = visible;\n }\n\n return target.texture;\n }\n\n async readCubeTargets(): Promise {\n if (!SparkRenderer.cubeRender) {\n throw new Error(\"No cube render\");\n }\n\n const textures = SparkRenderer.cubeRender.target.texture;\n const promises = [];\n const buffers = [];\n\n for (let i = 0; i < textures.images.length; ++i) {\n const { width, height } = textures.images[i];\n const byteSize = width * height * 4;\n const readback = new Uint8Array(byteSize);\n buffers.push(readback);\n const promise = this.renderer.readRenderTargetPixelsAsync(\n SparkRenderer.cubeRender.target,\n 0,\n 0,\n width,\n height,\n readback,\n i,\n );\n promises.push(promise);\n }\n\n await Promise.all(promises);\n return buffers;\n }\n\n // Renders out the scene to an environment map that can be used for\n // Image-based lighting or similar applications. First optionally updates Gsplats,\n // sorts them with respect to the provided worldCenter, renders 6 cube faces,\n // then pre-filters them using THREE.PMREMGenerator and returns a THREE.Texture\n // that can assigned directly to a THREE.MeshStandardMaterial.envMap property.\n async renderEnvMap({\n scene,\n worldCenter,\n size = 256,\n near = 0.1,\n far = 1000,\n hideObjects = [],\n update = true,\n }: {\n scene: THREE.Scene;\n worldCenter: THREE.Vector3;\n size?: number;\n near?: number;\n far?: number;\n hideObjects: THREE.Object3D[];\n update: boolean;\n }): Promise {\n const cubeTexture = await this.renderCubeMap({\n scene,\n worldCenter,\n size,\n near,\n far,\n hideObjects,\n update,\n filter: true,\n });\n // Pre-filter the cube map using THREE.PMREMGenerator if requested\n if (!SparkRenderer.pmrem) {\n SparkRenderer.pmrem = new THREE.PMREMGenerator(this.renderer);\n }\n\n return SparkRenderer.pmrem?.fromCubemap(cubeTexture).texture;\n }\n\n // Utility function to recursively set the envMap property for any\n // THREE.MeshStandardMaterial within the subtree of root.\n recurseSetEnvMap(root: THREE.Object3D, envMap: THREE.Texture) {\n root.traverse((node) => {\n if (node instanceof THREE.Mesh) {\n if (Array.isArray(node.material)) {\n for (const material of node.material) {\n if (material instanceof THREE.MeshStandardMaterial) {\n material.envMap = envMap;\n }\n }\n } else {\n if (node.material instanceof THREE.MeshStandardMaterial) {\n node.material.envMap = envMap;\n }\n }\n }\n });\n }\n\n async getLodTreeLevel(\n splats: SplatMesh,\n level: number,\n pageColoring = false,\n ) {\n const instance = this.lodInstances.get(splats);\n if (!instance) {\n return null;\n }\n\n const result = await this.ensureLodWorker().exclusive(async (worker) => {\n return (await worker.call(\"getLodTreeLevel\", {\n lodId: instance.lodId,\n level,\n })) as { indices: Uint32Array };\n });\n\n if (splats.packedSplats?.lodSplats) {\n const newSplats = splats.packedSplats.lodSplats.extractSplats(\n result.indices,\n pageColoring,\n );\n return new SplatMesh({ packedSplats: newSplats });\n }\n if (splats.extSplats?.lodSplats) {\n const newSplats = splats.extSplats.lodSplats.extractSplats(\n result.indices,\n pageColoring,\n );\n return new SplatMesh({ extSplats: newSplats });\n }\n throw new Error(\n \"Only LoD-enabled PackedSplats and ExtSplats are supported\",\n );\n }\n}\n","import * as THREE from \"three\";\n\nimport init_wasm, { decode_rad_header } from \"spark-rs\";\nimport { LN_SCALE_MAX, LN_SCALE_MIN, dyno } from \".\";\nimport { evaluateExtSH } from \"./ExtSplats\";\nimport { evaluatePackedSH } from \"./PackedSplats\";\nimport { getSplatFileType, getSplatFileTypeFromPath } from \"./SplatLoader\";\nimport type { SplatSource } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n type ExtResult,\n type PackedResult,\n type RadMeta,\n type SplatEncoding,\n SplatFileType,\n} from \"./defines\";\nimport { pagedSplatTexCoord } from \"./dyno\";\nimport { getTextureSize } from \"./utils\";\n\nexport interface PagedSplatsOptions {\n pager?: SplatPager;\n rootUrl?: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n fileBytes?: Uint8Array;\n fileType?: SplatFileType;\n maxSh?: number;\n}\n\nexport class PagedSplats implements SplatSource {\n pager?: SplatPager;\n rootUrl: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n fileBytes?: Uint8Array;\n fileType?: SplatFileType;\n\n numSh: number;\n maxSh: number;\n sh1Codes?: Uint32Array;\n sh2Codes?: Uint32Array;\n sh3Codes?: Uint32Array | [Uint32Array, Uint32Array];\n\n numSplats: number;\n splatEncoding?: SplatEncoding;\n radMetaPromise?: Promise<{ meta: RadMeta; chunksStart: number }>;\n\n dynoNumSplats: dyno.DynoInt<\"numSplats\">;\n dynoIndices: dyno.DynoUsampler2D<\"indices\", THREE.DataTexture>;\n rgbMinMaxLnScaleMinMax: dyno.DynoVec4<\n THREE.Vector4,\n \"rgbMinMaxLnScaleMinMax\"\n >;\n lodOpacity: dyno.DynoBool<\"lodOpacity\">;\n dynoNumSh: dyno.DynoInt<\"numSh\">;\n shMax: dyno.DynoVec3;\n\n constructor(options: PagedSplatsOptions) {\n this.pager = options.pager;\n this.rootUrl = options.rootUrl ?? \"\";\n this.requestHeader = options.requestHeader;\n this.withCredentials = options.withCredentials;\n this.numSh = 0;\n this.maxSh = options.pager?.maxSh ?? 3;\n\n this.numSplats = 0;\n\n this.dynoNumSplats = new dyno.DynoInt({ value: 0 });\n this.dynoIndices = new dyno.DynoUsampler2D({\n value: SplatPager.emptyIndicesTexture,\n });\n\n this.rgbMinMaxLnScaleMinMax = new dyno.DynoVec4({\n value: new THREE.Vector4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX),\n });\n this.lodOpacity = new dyno.DynoBool({\n value: false,\n });\n\n this.dynoNumSh = new dyno.DynoInt({ value: 0 });\n this.shMax = new dyno.DynoVec3({ value: new THREE.Vector3() });\n\n this.fileBytes = options.fileBytes;\n this.fileType = options.fileType;\n if (!this.fileType && this.fileBytes) {\n this.fileType = getSplatFileType(this.fileBytes);\n }\n if (!this.fileType && this.rootUrl) {\n this.fileType = getSplatFileTypeFromPath(this.rootUrl);\n }\n if (!this.fileType) {\n throw new Error(\"Unable to determine file type\");\n }\n if (this.fileType === SplatFileType.RAD) {\n this.radMetaPromise = this.getRadMeta();\n }\n }\n\n dispose() {\n if (this.dynoIndices.value !== SplatPager.emptyIndicesTexture) {\n this.dynoIndices.value.dispose();\n this.dynoIndices.value = SplatPager.emptyIndicesTexture;\n }\n }\n\n setMaxSh(maxSh: number) {\n this.maxSh = maxSh;\n }\n\n getRadMeta(): Promise<{ meta: RadMeta; chunksStart: number }> {\n if (this.radMetaPromise) {\n return this.radMetaPromise;\n }\n\n this.radMetaPromise = (async () => {\n await wasmInitialized;\n\n if (this.fileBytes) {\n // Shouldn't be more than 1 MB, so don't send more data than that.\n const metaStart = decode_rad_header(this.fileBytes.slice(0, 1048576));\n if (metaStart) {\n return metaStart;\n }\n throw new Error(\"Failed to decode RAD header\");\n }\n if (!this.rootUrl) {\n throw new Error(\"No url or fileBytes provided\");\n }\n\n // We don't know how big the header will be. Most likely 64KB will be enough,\n // but try larger blocks in backoff if it wasn't enough.\n for (const tryBytes of [65536, 256 * 1024, 1024 * 1024]) {\n const bytes = await fetchRange({\n url: this.rootUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n offset: 0,\n bytes: tryBytes,\n });\n const metaStart = decode_rad_header(bytes);\n if (metaStart) {\n return metaStart;\n }\n }\n throw new Error(\"Failed to decode RAD header\");\n })().then((metaStart) => {\n // console.log(\"RAD meta: \", metaStart.meta);\n return metaStart;\n });\n\n this.radMetaPromise.catch((error) => {\n console.error(error);\n // Allow it to be tried again\n // this.radMetaPromise = undefined;\n });\n\n return this.radMetaPromise;\n }\n\n chunkUrl(chunk: number): string {\n return this.rootUrl.replace(/-lod-0\\./, `-lod-${chunk}.`);\n }\n\n async fetchDecodeChunk(chunk: number) {\n let decodeBytes = undefined;\n\n if (this.fileType === SplatFileType.RAD) {\n const { meta, chunksStart } = await this.getRadMeta();\n if (chunk < 0 || chunk >= meta.chunks.length) {\n throw new Error(\n `Chunk index out of range: ${chunk} (max: ${meta.chunks.length - 1})`,\n );\n }\n let { offset, bytes, filename } = meta.chunks[chunk];\n\n if (filename) {\n if (this.fileBytes) {\n throw new Error(\"Chunked RAD file not supported with fileBytes\");\n }\n const resolvedRoot = new URL(\n this.rootUrl,\n window.location.href,\n ).toString();\n const chunkUrl = new URL(filename, resolvedRoot).toString();\n decodeBytes = await fetchRange({\n url: chunkUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n });\n } else {\n offset += chunksStart;\n // console.log(`Fetching chunk ${chunk} at offset ${offset} with bytes ${bytes}`);\n if (this.fileBytes) {\n if (offset < 0 || offset + bytes > this.fileBytes.length) {\n throw new Error(\n `Invalid chunk offset or bytes: ${offset} + ${bytes} > ${this.fileBytes.length}`,\n );\n }\n decodeBytes = this.fileBytes.slice(offset, offset + bytes);\n } else if (this.rootUrl) {\n decodeBytes = await fetchRange({\n url: this.rootUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n offset,\n bytes,\n });\n } else {\n throw new Error(\"No url or fileBytes provided\");\n }\n }\n } else if (this.fileBytes) {\n // Fall through\n } else if (this.rootUrl) {\n const url = this.chunkUrl(chunk);\n const request = new Request(url, {\n headers: this.requestHeader\n ? new Headers(this.requestHeader)\n : undefined,\n credentials: this.withCredentials ? \"include\" : \"same-origin\",\n });\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n decodeBytes = new Uint8Array(await response.arrayBuffer());\n } else {\n throw new Error(\"No url or fileBytes provided\");\n }\n\n return await workerPool.withWorker(async (worker) => {\n if (!this.pager) {\n throw new Error(\"PagedSplats.pager not set\");\n }\n if (!this.pager.extSplats) {\n const result = (await worker.call(\"loadPackedSplats\", {\n fileBytes: decodeBytes,\n pathName: this.chunkUrl(chunk),\n sh1Codes: this.sh1Codes?.slice(),\n sh2Codes: this.sh2Codes?.slice(),\n sh3Codes: this.sh3Codes?.slice(),\n })) as { lodSplats: PackedResult };\n const lodSplats = result.lodSplats;\n if (!this.splatEncoding) {\n this.splatEncoding = lodSplats.splatEncoding;\n\n this.numSh = lodSplats.extra.sh3\n ? 3\n : lodSplats.extra.sh2\n ? 2\n : lodSplats.extra.sh1\n ? 1\n : 0;\n\n this.rgbMinMaxLnScaleMinMax.value.set(\n this.splatEncoding.rgbMin ?? 0.0,\n this.splatEncoding.rgbMax ?? 1.0,\n this.splatEncoding.lnScaleMin ?? LN_SCALE_MIN,\n this.splatEncoding.lnScaleMax ?? LN_SCALE_MAX,\n );\n\n this.lodOpacity.value = this.splatEncoding.lodOpacity ?? false;\n\n this.shMax.value.set(\n this.splatEncoding.sh1Max ?? 1.0,\n this.splatEncoding.sh2Max ?? 1.0,\n this.splatEncoding.sh3Max ?? 1.0,\n );\n }\n this.sh1Codes = lodSplats.extra.sh1Codes ?? this.sh1Codes;\n this.sh2Codes = lodSplats.extra.sh2Codes ?? this.sh2Codes;\n this.sh3Codes = lodSplats.extra.sh3Codes ?? this.sh3Codes;\n return lodSplats;\n }\n\n const sh3Codes = this.sh3Codes as [Uint32Array, Uint32Array] | undefined;\n const result = (await worker.call(\"loadExtSplats\", {\n fileBytes: decodeBytes,\n pathName: this.chunkUrl(chunk),\n sh1Codes: this.sh1Codes?.slice(),\n sh2Codes: this.sh2Codes?.slice(),\n sh3Codes: sh3Codes\n ? [sh3Codes[0].slice(), sh3Codes[1].slice()]\n : undefined,\n })) as { lodSplats: ExtResult };\n const lodSplats = result.lodSplats;\n if (!this.splatEncoding) {\n this.splatEncoding = DEFAULT_SPLAT_ENCODING;\n this.numSh =\n lodSplats.extra.sh3a && lodSplats.extra.sh3b\n ? 3\n : lodSplats.extra.sh2\n ? 2\n : lodSplats.extra.sh1\n ? 1\n : 0;\n }\n this.sh1Codes = lodSplats.extra.sh1Codes ?? this.sh1Codes;\n this.sh2Codes = lodSplats.extra.sh2Codes ?? this.sh2Codes;\n this.sh3Codes = lodSplats.extra.sh3Codes ?? this.sh3Codes;\n return lodSplats;\n });\n }\n\n update(numSplats: number, indices: Uint32Array) {\n if (!this.pager) {\n throw new Error(\"PagedSplats.pager not set\");\n }\n\n const renderer = this.pager.renderer;\n this.numSplats = numSplats;\n this.dynoNumSplats.value = this.numSplats;\n const rows = Math.ceil(numSplats / 16384);\n\n let indicesTexture =\n this.dynoIndices.value === SplatPager.emptyIndicesTexture\n ? undefined\n : this.dynoIndices.value;\n if (indicesTexture && rows > indicesTexture.image.height) {\n indicesTexture.dispose();\n indicesTexture = undefined;\n }\n\n if (!indicesTexture) {\n indicesTexture = new THREE.DataTexture(\n indices,\n 4096,\n rows,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n indicesTexture.internalFormat = \"RGBA32UI\";\n indicesTexture.needsUpdate = true;\n renderer.initTexture(indicesTexture);\n this.dynoIndices.value = indicesTexture;\n } else {\n const textureIndices = indicesTexture.image.data as Uint32Array;\n textureIndices.set(indices.subarray(0, numSplats));\n\n const gl = renderer.getContext() as WebGL2RenderingContext;\n renderer.state.activeTexture(gl.TEXTURE0);\n renderer.state.bindTexture(\n gl.TEXTURE_2D,\n getGlTexture(renderer, indicesTexture),\n );\n gl.bindBuffer(gl.PIXEL_UNPACK_BUFFER, null);\n gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, false);\n gl.texSubImage2D(\n gl.TEXTURE_2D,\n 0,\n 0,\n 0,\n 4096,\n rows,\n gl.RGBA_INTEGER,\n gl.UNSIGNED_INT,\n indices,\n );\n renderer.state.bindTexture(gl.TEXTURE_2D, null);\n }\n }\n\n prepareFetchSplat() {}\n\n getNumSplats(): number {\n return this.numSplats;\n }\n\n hasRgbDir(): boolean {\n if (!this.pager) {\n return false;\n }\n return Math.min(this.numSh, this.pager.maxSh) > 0;\n }\n\n getNumSh(): number {\n return this.numSh;\n }\n\n fetchSplat({\n index,\n viewOrigin,\n }: {\n index: dyno.DynoVal<\"int\">;\n viewOrigin?: dyno.DynoVal<\"vec3\">;\n }): dyno.DynoVal {\n if (!this.pager) {\n throw new Error(\"PagedSplats.pager not set\");\n }\n\n const splatIndex = this.pager.readIndex.apply({\n index,\n numSplats: this.dynoNumSplats,\n indices: this.dynoIndices,\n }).index;\n\n if (!this.pager.extSplats) {\n if (this.hasRgbDir() && viewOrigin) {\n this.dynoNumSh.value = Math.min(\n this.numSh,\n this.maxSh,\n this.pager.maxSh,\n );\n return this.pager.readSplatDir.apply({\n index: splatIndex,\n rgbMinMaxLnScaleMinMax: this.rgbMinMaxLnScaleMinMax,\n lodOpacity: this.lodOpacity,\n viewOrigin,\n numSh: this.dynoNumSh,\n shMax: this.shMax,\n }).gsplat;\n }\n return this.pager.readSplat.apply({\n index: splatIndex,\n rgbMinMaxLnScaleMinMax: this.rgbMinMaxLnScaleMinMax,\n lodOpacity: this.lodOpacity,\n }).gsplat;\n }\n\n if (this.hasRgbDir() && viewOrigin) {\n this.dynoNumSh.value = Math.min(this.numSh, this.maxSh, this.pager.maxSh);\n return this.pager.readSplatExtDir.apply({\n index: splatIndex,\n viewOrigin,\n numSh: this.dynoNumSh,\n }).gsplat;\n }\n return this.pager.readSplatExt.apply({ index: splatIndex }).gsplat;\n }\n}\n\nexport interface SplatPagerOptions {\n /**\n * THREE.WebGLRenderer instance to upload texture data\n */\n renderer: THREE.WebGLRenderer;\n /**\n * Whether to use extended Gsplat encoding for paged splats.\n * @default false\n */\n extSplats?: boolean;\n /**\n * Maximum size of splat page pool\n * @default 65536 * 256 = 16777216\n */\n maxSplats?: number;\n /**\n * Maximum number of spherical harmonics to keep\n * @default 3\n */\n maxSh?: number;\n /**\n * Automatically drive page fetching, or poll via drive()\n * @default true\n */\n autoDrive?: boolean;\n /**\n * Number of parallel chunk fetchers\n * @default 3\n */\n numFetchers?: number;\n}\n\nexport class SplatPager {\n renderer: THREE.WebGLRenderer;\n\n extSplats: boolean;\n maxPages: number;\n maxSplats: number;\n pageSplats: number;\n\n maxSh: number;\n curSh: number;\n\n autoDrive: boolean;\n numFetchers: number;\n fetchPause = 0;\n\n splatsChunkToPage: Map<\n PagedSplats,\n ({ page: number; lru: number } | undefined)[]\n > = new Map();\n pageToSplatsChunk: (\n | { splats: PagedSplats; chunk: number; time: number }\n | undefined\n )[] = [];\n pageFreelist: number[];\n pageLru: Set<{ page: number; lru: number }>;\n freeablePages: number[];\n newUploads: {\n page: number;\n numSplats: number;\n packedArray: Uint32Array;\n extArray?: Uint32Array;\n extra: Record;\n }[];\n readyUploads: {\n page: number;\n numSplats: number;\n packedArray: Uint32Array;\n extArray?: Uint32Array;\n extra: Record;\n }[];\n lodTreeUpdates: {\n splats: PagedSplats;\n page: number;\n chunk: number;\n numSplats: number;\n lodTree?: Uint32Array;\n }[];\n\n fetchers: { splats: PagedSplats; chunk: number; promise: Promise }[];\n fetched: {\n splats: PagedSplats;\n chunk: number;\n data: PackedResult | ExtResult;\n }[];\n fetchPriority: { splats: PagedSplats; chunk: number }[];\n\n packedTexture: dyno.DynoUsampler2DArray<\n \"packedTexture\",\n THREE.DataArrayTexture\n >;\n extTexture: dyno.DynoUsampler2DArray<\"extTexture\", THREE.DataArrayTexture>;\n\n sh1Texture: dyno.DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture: dyno.DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3Texture: dyno.DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n sh3TextureB: dyno.DynoUsampler2DArray<\"sh3b\", THREE.DataArrayTexture>;\n\n readIndex: dyno.DynoBlock<\n { index: \"int\"; numSplats: \"int\"; indices: \"usampler2D\" },\n { index: \"int\" }\n >;\n readSplat: dyno.DynoBlock<\n { index: \"int\"; rgbMinMaxLnScaleMinMax: \"vec4\"; lodOpacity: \"bool\" },\n { gsplat: typeof dyno.Gsplat }\n >;\n readSplatExt: dyno.DynoBlock<\n { index: \"int\" },\n { gsplat: typeof dyno.Gsplat }\n >;\n readSplatDir: dyno.DynoBlock<\n {\n index: \"int\";\n rgbMinMaxLnScaleMinMax: \"vec4\";\n lodOpacity: \"bool\";\n viewOrigin: \"vec3\";\n numSh: \"int\";\n shMax: \"vec3\";\n },\n { gsplat: typeof dyno.Gsplat }\n >;\n readSplatExtDir: dyno.DynoBlock<\n { index: \"int\"; viewOrigin: \"vec3\"; numSh: \"int\" },\n { gsplat: typeof dyno.Gsplat }\n >;\n\n constructor(options: SplatPagerOptions) {\n this.renderer = options.renderer;\n this.extSplats = options.extSplats ?? false;\n\n this.pageSplats = 65536;\n this.maxSplats = options.maxSplats ?? 16777216;\n this.maxPages = Math.ceil(this.maxSplats / this.pageSplats);\n this.maxSplats = this.maxPages * this.pageSplats;\n\n this.maxSh = options.maxSh ?? 3;\n this.curSh = 0;\n\n this.autoDrive = options.autoDrive ?? true;\n this.numFetchers = options.numFetchers ?? 3;\n\n this.splatsChunkToPage = new Map();\n this.pageToSplatsChunk = new Array(this.maxPages);\n this.pageFreelist = Array.from({ length: this.maxPages }, (_, i) => i);\n this.pageLru = new Set();\n this.freeablePages = [];\n this.newUploads = [];\n this.readyUploads = [];\n this.lodTreeUpdates = [];\n\n this.fetchers = [];\n this.fetched = [];\n this.fetchPriority = [];\n\n this.packedTexture = new dyno.DynoUsampler2DArray({\n value: this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n ),\n });\n this.extTexture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n )\n : SplatPager.emptyExtTexture,\n });\n this.sh1Texture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? SplatPager.emptyExtSh1Texture\n : SplatPager.emptySh1Texture,\n });\n this.sh2Texture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? SplatPager.emptyExtSh2Texture\n : SplatPager.emptySh2Texture,\n });\n this.sh3Texture = new dyno.DynoUsampler2DArray({\n value: this.extSplats\n ? SplatPager.emptyExtSh3Texture\n : SplatPager.emptySh3Texture,\n });\n this.sh3TextureB = new dyno.DynoUsampler2DArray({\n value: SplatPager.emptyExtSh3BTexture,\n });\n\n this.readIndex = dyno.dynoBlock(\n { index: \"int\", numSplats: \"int\", indices: \"usampler2D\" },\n { index: \"int\" },\n ({ index, numSplats, indices }) => {\n return new dyno.Dyno({\n inTypes: {\n index: \"int\",\n numSplats: \"int\",\n indices: \"usampler2D\",\n },\n outTypes: { index: \"int\" },\n inputs: {\n index,\n numSplats,\n indices,\n },\n statements: ({ inputs, outputs }) =>\n dyno.unindentLines(`\n if (${inputs.index} >= ${inputs.numSplats}) {\n return;\n }\n\n ivec2 indexCoord = ivec2((${inputs.index} >> 2) & 4095, ${inputs.index} >> 14);\n uint index = texelFetch(${inputs.indices}, indexCoord, 0)[${inputs.index} & 3];\n ${outputs.index} = int(index);\n `),\n }).outputs;\n },\n );\n\n this.readSplat = dyno.dynoBlock(\n { index: \"int\", rgbMinMaxLnScaleMinMax: \"vec4\", lodOpacity: \"bool\" },\n { gsplat: dyno.Gsplat },\n ({ index, rgbMinMaxLnScaleMinMax, lodOpacity }) => {\n return new dyno.Dyno({\n inTypes: {\n index: \"int\",\n packedTexture: \"usampler2DArray\",\n rgbMinMaxLnScaleMinMax: \"vec4\",\n lodOpacity: \"bool\",\n },\n outTypes: { gsplat: dyno.Gsplat },\n inputs: {\n index,\n packedTexture: this.packedTexture,\n rgbMinMaxLnScaleMinMax,\n lodOpacity,\n },\n globals: () => [dyno.defineGsplat],\n statements: ({ inputs, outputs }) =>\n dyno.unindentLines(`\n int index = ${inputs.index};\n ivec3 splatCoord = pagedSplatTexCoord(index);\n uvec4 packed = texelFetch(${inputs.packedTexture}, splatCoord, 0);\n\n unpackSplatEncoding(packed, ${outputs.gsplat}.center, ${outputs.gsplat}.scales, ${outputs.gsplat}.quaternion, ${outputs.gsplat}.rgba, ${inputs.rgbMinMaxLnScaleMinMax});\n if ((${outputs.gsplat}.rgba.a == 0.0) || all(equal(${outputs.gsplat}.scales, vec3(0.0, 0.0, 0.0)))) {\n return;\n }\n \n ${outputs.gsplat}.index = index;\n ${outputs.gsplat}.flags = GSPLAT_FLAG_ACTIVE;\n if (${inputs.lodOpacity}) {\n ${outputs.gsplat}.rgba.a *= 2.0;\n }\n `),\n }).outputs;\n },\n );\n\n this.readSplatDir = dyno.dynoBlock(\n {\n index: \"int\",\n rgbMinMaxLnScaleMinMax: \"vec4\",\n lodOpacity: \"bool\",\n viewOrigin: \"vec3\",\n numSh: \"int\",\n shMax: \"vec3\",\n },\n { gsplat: dyno.Gsplat },\n ({\n index,\n rgbMinMaxLnScaleMinMax,\n lodOpacity,\n viewOrigin,\n numSh,\n shMax,\n }) => {\n if (\n !index ||\n !rgbMinMaxLnScaleMinMax ||\n !lodOpacity ||\n !viewOrigin ||\n !numSh ||\n !shMax\n ) {\n throw new Error(\"index and viewOrigin are required\");\n }\n let gsplat = this.readSplat.apply({\n index,\n rgbMinMaxLnScaleMinMax,\n lodOpacity,\n }).gsplat;\n\n const splatCenter = dyno.splitGsplat(gsplat).outputs.center;\n const viewDir = dyno.normalize(dyno.sub(splatCenter, viewOrigin));\n let rgb = evaluatePackedSH({\n coord: pagedSplatTexCoord(index),\n viewDir,\n numSh,\n sh1Texture: this.sh1Texture,\n sh2Texture: this.sh2Texture,\n sh3Texture: this.sh3Texture,\n shMax,\n }).rgb;\n rgb = dyno.add(rgb, dyno.splitGsplat(gsplat).outputs.rgb);\n gsplat = dyno.combineGsplat({ gsplat, rgb });\n return { gsplat };\n },\n );\n\n this.readSplatExt = dyno.dynoBlock(\n { index: \"int\" },\n { gsplat: dyno.Gsplat },\n ({ index }) => {\n return new dyno.Dyno({\n inTypes: {\n index: \"int\",\n extTexture1: \"usampler2DArray\",\n extTexture2: \"usampler2DArray\",\n },\n outTypes: { gsplat: dyno.Gsplat },\n inputs: {\n index,\n extTexture1: this.packedTexture,\n extTexture2: this.extTexture,\n },\n globals: () => [dyno.defineGsplat],\n statements: ({ inputs, outputs }) =>\n dyno.unindentLines(`\n int index = ${inputs.index};\n ivec3 splatCoord = ivec3(index & 255, (index >> 8) & 255, index >> 16);\n uvec4 ext1 = texelFetch(${inputs.extTexture1}, splatCoord, 0);\n float alpha = unpackSplatExtAlpha(ext1);\n if (alpha == 0.0) {\n return;\n }\n\n uvec4 ext2 = texelFetch(${inputs.extTexture2}, splatCoord, 0);\n unpackSplatExt(ext1, ext2, ${outputs.gsplat}.center, ${outputs.gsplat}.scales, ${outputs.gsplat}.quaternion, ${outputs.gsplat}.rgba);\n if (all(equal(${outputs.gsplat}.scales, vec3(0.0, 0.0, 0.0)))) {\n return;\n }\n\n ${outputs.gsplat}.index = index;\n ${outputs.gsplat}.flags = GSPLAT_FLAG_ACTIVE;\n `),\n }).outputs;\n },\n );\n\n this.readSplatExtDir = dyno.dynoBlock(\n {\n index: \"int\",\n viewOrigin: \"vec3\",\n numSh: \"int\",\n },\n { gsplat: dyno.Gsplat },\n ({ index, viewOrigin, numSh }) => {\n if (!index || !viewOrigin || !numSh) {\n throw new Error(\"index and viewOrigin are required\");\n }\n let gsplat = this.readSplatExt.apply({ index }).gsplat;\n\n const splatCenter = dyno.splitGsplat(gsplat).outputs.center;\n const viewDir = dyno.normalize(dyno.sub(splatCenter, viewOrigin));\n let rgb = evaluateExtSH({\n coord: pagedSplatTexCoord(index),\n viewDir,\n numSh,\n sh1Texture: this.sh1Texture,\n sh2Texture: this.sh2Texture,\n sh3TextureA: this.sh3Texture,\n sh3TextureB: this.sh3TextureB,\n }).rgb;\n rgb = dyno.add(rgb, dyno.splitGsplat(gsplat).outputs.rgb);\n gsplat = dyno.combineGsplat({ gsplat, rgb });\n return { gsplat };\n },\n );\n }\n\n dispose() {\n this.autoDrive = false;\n this.numFetchers = 0;\n\n this.packedTexture.value.dispose();\n if (this.extTexture.value !== SplatPager.emptyExtTexture) {\n this.extTexture.value.dispose();\n }\n\n if (!this.extSplats) {\n if (this.sh1Texture.value !== SplatPager.emptySh1Texture) {\n this.sh1Texture.value.dispose();\n }\n if (this.sh2Texture.value !== SplatPager.emptySh2Texture) {\n this.sh2Texture.value.dispose();\n }\n if (this.sh3Texture.value !== SplatPager.emptySh3Texture) {\n this.sh3Texture.value.dispose();\n }\n } else {\n if (this.sh1Texture.value !== SplatPager.emptyExtSh1Texture) {\n this.sh1Texture.value.dispose();\n }\n if (this.sh2Texture.value !== SplatPager.emptyExtSh2Texture) {\n this.sh2Texture.value.dispose();\n }\n if (this.sh3Texture.value !== SplatPager.emptyExtSh3Texture) {\n this.sh3Texture.value.dispose();\n }\n if (this.sh3TextureB.value !== SplatPager.emptyExtSh3BTexture) {\n this.sh3TextureB.value.dispose();\n }\n }\n }\n\n private ensureShTextures(numSh: number) {\n this.curSh = Math.max(this.curSh, numSh);\n if (!this.extSplats) {\n if (\n this.curSh >= 1 &&\n this.sh1Texture.value === SplatPager.emptySh1Texture\n ) {\n this.sh1Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 2),\n 256,\n 256,\n this.maxPages,\n THREE.RGIntegerFormat,\n THREE.UnsignedIntType,\n \"RG32UI\",\n );\n }\n } else {\n if (\n this.curSh >= 1 &&\n this.sh1Texture.value === SplatPager.emptyExtSh1Texture\n ) {\n this.sh1Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n }\n if (\n this.curSh >= 2 &&\n this.sh2Texture.value ===\n (!this.extSplats\n ? SplatPager.emptySh2Texture\n : SplatPager.emptyExtSh2Texture)\n ) {\n this.sh2Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n if (!this.extSplats) {\n if (\n this.curSh >= 3 &&\n this.sh3Texture.value === SplatPager.emptySh3Texture\n ) {\n this.sh3Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n } else {\n if (this.curSh >= 3) {\n if (this.sh3Texture.value === SplatPager.emptyExtSh3Texture) {\n this.sh3Texture.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n if (this.sh3TextureB.value === SplatPager.emptyExtSh3BTexture) {\n this.sh3TextureB.value = this.newUint32ArrayTexture(\n new Uint32Array(this.maxPages * 256 * 256 * 4),\n 256,\n 256,\n this.maxPages,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n \"RGBA32UI\",\n );\n }\n }\n }\n }\n\n private allocatePage(): number | undefined {\n return this.pageFreelist.shift();\n }\n\n private freePage(page: number) {\n this.pageFreelist.push(page);\n }\n\n getSplatsChunk(splats: PagedSplats, chunk: number) {\n const chunks = this.splatsChunkToPage.get(splats);\n if (!chunks) {\n return undefined;\n }\n return chunks[chunk];\n }\n\n private insertSplatsChunkPage(\n splats: PagedSplats,\n chunk: number,\n page: number,\n now: number,\n ) {\n if (!this.splatsChunkToPage.has(splats)) {\n this.splatsChunkToPage.set(splats, []);\n }\n const chunks = this.splatsChunkToPage.get(splats);\n if (!chunks) {\n throw new Error(\"impossible\");\n }\n if (chunk >= chunks.length) {\n chunks.length = chunk + 1;\n }\n const pageLru = { page, lru: now };\n chunks[chunk] = pageLru;\n this.pageLru.add(pageLru);\n\n this.pageToSplatsChunk[page] = { splats, chunk, time: performance.now() };\n return this.pageToSplatsChunk[page];\n }\n\n private removeSplatsChunkPage(\n splats: PagedSplats,\n chunk: number,\n page: number,\n ) {\n const chunks = this.splatsChunkToPage.get(splats);\n if (!chunks) {\n throw new Error(\"impossible\");\n }\n\n const pageLru = chunks[chunk];\n if (!pageLru) {\n throw new Error(\n `pageLru not found for splats: ${splats}, chunk: ${chunk}, page: ${page}`,\n );\n }\n this.pageLru.delete(pageLru);\n\n chunks[chunk] = undefined;\n\n while (chunks.length > 0 && chunks[chunks.length - 1] === undefined) {\n chunks.pop();\n }\n if (chunks.length === 0) {\n this.splatsChunkToPage.delete(splats);\n }\n\n this.pageToSplatsChunk[page] = undefined;\n while (\n this.pageToSplatsChunk.length > 0 &&\n this.pageToSplatsChunk[this.pageToSplatsChunk.length - 1] === undefined\n ) {\n this.pageToSplatsChunk.pop();\n }\n }\n\n private uploadPage(\n page: number,\n packedArray: Uint32Array,\n extra: Record,\n extArray?: Uint32Array,\n ) {\n const pageBase = page * this.pageSplats;\n\n // const gl = this.renderer.getContext() as WebGL2RenderingContext;\n\n // this.renderer.state.activeTexture(gl.TEXTURE0);\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.packedTexture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RGBA_INTEGER,\n // gl.UNSIGNED_INT,\n // packedArray,\n // );\n\n const array = this.packedTexture.value.image.data;\n array\n .subarray(pageBase * 4, pageBase * 4 + packedArray.length)\n .set(packedArray);\n this.packedTexture.value.addLayerUpdate(page);\n this.packedTexture.value.needsUpdate = true;\n\n if (extArray) {\n const array = this.extTexture.value.image.data;\n array\n .subarray(pageBase * 4, pageBase * 4 + extArray.length)\n .set(extArray);\n this.extTexture.value.addLayerUpdate(page);\n this.extTexture.value.needsUpdate = true;\n }\n\n const numSh = this.extSplats\n ? extra.sh3a && extra.sh3b\n ? 3\n : extra.sh2\n ? 2\n : extra.sh1\n ? 1\n : 0\n : extra.sh3\n ? 3\n : extra.sh2\n ? 2\n : extra.sh1\n ? 1\n : 0;\n this.ensureShTextures(numSh);\n\n if (!this.extSplats) {\n if (this.sh1Texture.value !== SplatPager.emptySh1Texture && extra.sh1) {\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.sh1Texture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RG_INTEGER,\n // gl.UNSIGNED_INT,\n // extra.sh1 as Uint32Array,\n // );\n const sh1 = extra.sh1 as Uint32Array;\n const array = this.sh1Texture.value.image.data;\n array.subarray(pageBase * 2, pageBase * 2 + sh1.length).set(sh1);\n this.sh1Texture.value.addLayerUpdate(page);\n this.sh1Texture.value.needsUpdate = true;\n }\n } else {\n if (\n this.sh1Texture.value !== SplatPager.emptyExtSh1Texture &&\n extra.sh1\n ) {\n const sh1 = extra.sh1 as Uint32Array;\n const array = this.sh1Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh1.length).set(sh1);\n this.sh1Texture.value.addLayerUpdate(page);\n this.sh1Texture.value.needsUpdate = true;\n }\n }\n\n if (this.sh2Texture.value !== SplatPager.emptySh2Texture && extra.sh2) {\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.sh2Texture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RGBA_INTEGER,\n // gl.UNSIGNED_INT,\n // extra.sh2 as Uint32Array,\n // );\n const sh2 = extra.sh2 as Uint32Array;\n const array = this.sh2Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh2.length).set(sh2);\n this.sh2Texture.value.addLayerUpdate(page);\n this.sh2Texture.value.needsUpdate = true;\n }\n\n if (!this.extSplats) {\n if (this.sh3Texture.value !== SplatPager.emptySh3Texture && extra.sh3) {\n // this.renderer.state.bindTexture(\n // gl.TEXTURE_2D_ARRAY,\n // this.getGlTexture(this.sh3Texture.value),\n // );\n // gl.texSubImage3D(\n // gl.TEXTURE_2D_ARRAY,\n // 0,\n // 0,\n // 0,\n // page,\n // 256,\n // 256,\n // 1,\n // gl.RGBA_INTEGER,\n // gl.UNSIGNED_INT,\n // extra.sh3 as Uint32Array,\n // );\n const sh3 = extra.sh3 as Uint32Array;\n const array = this.sh3Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh3.length).set(sh3);\n this.sh3Texture.value.addLayerUpdate(page);\n this.sh3Texture.value.needsUpdate = true;\n }\n } else {\n if (\n this.sh3Texture.value !== SplatPager.emptyExtSh3Texture &&\n extra.sh3a\n ) {\n const sh3a = extra.sh3a as Uint32Array;\n const array = this.sh3Texture.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh3a.length).set(sh3a);\n this.sh3Texture.value.addLayerUpdate(page);\n this.sh3Texture.value.needsUpdate = true;\n }\n if (\n this.sh3TextureB.value !== SplatPager.emptyExtSh3BTexture &&\n extra.sh3b\n ) {\n const sh3b = extra.sh3b as Uint32Array;\n const array = this.sh3TextureB.value.image.data;\n array.subarray(pageBase * 4, pageBase * 4 + sh3b.length).set(sh3b);\n this.sh3TextureB.value.addLayerUpdate(page);\n this.sh3TextureB.value.needsUpdate = true;\n }\n }\n\n // this.renderer.state.bindTexture(gl.TEXTURE_2D_ARRAY, null);\n }\n\n private getGlTexture(texture: THREE.Texture): WebGLTexture {\n return getGlTexture(this.renderer, texture);\n }\n\n private newUint32ArrayTexture(\n data: Uint32Array | null,\n width: number,\n height: number,\n depth: number,\n format: THREE.AnyPixelFormat,\n type: THREE.TextureDataType,\n internalFormat: THREE.PixelFormatGPU,\n ): THREE.DataArrayTexture {\n const texture = new THREE.DataArrayTexture(data, width, height, depth);\n texture.format = format;\n texture.type = type;\n texture.internalFormat = internalFormat;\n texture.needsUpdate = true;\n this.renderer.initTexture(texture);\n return texture;\n }\n\n driveFetchers() {\n const needed = [];\n const overflow = [];\n let numPages = 0;\n\n for (const { splats, chunk } of this.fetchPriority) {\n const pageLru = this.getSplatsChunk(splats, chunk);\n if (pageLru) {\n if (numPages >= this.maxPages) {\n overflow.push(pageLru);\n } else {\n needed.push(pageLru);\n }\n numPages += 1;\n continue;\n }\n\n if (\n this.fetched.some(\n ({ splats: s, chunk: c }) => splats === s && chunk === c,\n ) ||\n this.fetchers.some(\n ({ splats: s, chunk: c }) => splats === s && chunk === c,\n )\n ) {\n numPages += 1;\n continue;\n }\n\n if (numPages < this.maxPages && this.fetchers.length < this.numFetchers) {\n numPages += 1;\n const promise = splats\n .fetchDecodeChunk(chunk)\n .then(\n async (data) => {\n // Place data in ready queue and remove self from active fetchers list\n this.fetched.push({ splats, chunk, data });\n if (this.fetchPause > 0) {\n await new Promise((resolve) =>\n setTimeout(resolve, this.fetchPause),\n );\n }\n },\n async (error) => {\n console.warn(error);\n const backoff = 250 + 500 * Math.random();\n await new Promise((resolve) => setTimeout(resolve, backoff));\n },\n )\n .finally(() => {\n this.fetchers = this.fetchers.filter(\n ({ splats: s, chunk: c }) => splats !== s || chunk !== c,\n );\n this.processFetched();\n });\n // Add self to active fetchers list\n this.fetchers.push({ splats, chunk, promise });\n\n promise.then((data) => {\n if (this.autoDrive) {\n this.driveFetchers();\n }\n });\n }\n }\n\n // Update LRU ordering in reverse priority order\n const now = performance.now();\n\n for (const pageLru of overflow.reverse()) {\n pageLru.lru = now;\n this.pageLru.delete(pageLru);\n this.pageLru.add(pageLru);\n }\n\n // Create set of pages not needed\n const extraPages = new Set(this.pageLru);\n for (const pageLru of needed.reverse()) {\n extraPages.delete(pageLru);\n\n pageLru.lru = now;\n this.pageLru.delete(pageLru);\n this.pageLru.add(pageLru);\n }\n this.freeablePages = Array.from(extraPages).map(({ page }) => page);\n }\n\n private allocateFreeable(): number | undefined {\n const page = this.freeablePages.shift();\n if (page === undefined) {\n // No freeable pages available\n return undefined;\n }\n\n const splatsChunk = this.pageToSplatsChunk[page];\n if (!splatsChunk) {\n throw new Error(`splatsChunk not found for page: ${page}`);\n }\n\n const { splats, chunk } = splatsChunk;\n this.removeSplatsChunkPage(splats, chunk, page);\n this.lodTreeUpdates.push({\n splats,\n page,\n chunk,\n numSplats: this.pageSplats,\n });\n return page;\n }\n\n private processFetched() {\n const now = performance.now();\n while (true) {\n const fetched = this.fetched.shift();\n if (!fetched) {\n break;\n }\n const { splats, chunk, data } = fetched;\n\n let page = this.allocatePage();\n if (page === undefined) {\n page = this.allocateFreeable();\n if (page === undefined) {\n // No pages available, stop for now\n return;\n }\n }\n\n this.insertSplatsChunkPage(splats, chunk, page, now);\n const { numSplats, extra } = data;\n this.lodTreeUpdates.push({\n splats,\n page,\n chunk,\n numSplats,\n lodTree: extra.lodTree as Uint32Array,\n });\n\n if (!this.extSplats) {\n const packedArray = (data as PackedResult).packedArray;\n this.newUploads.push({ page, numSplats, packedArray, extra });\n } else {\n const extArrays = (data as ExtResult).extArrays;\n const packedArray = extArrays[0];\n const extArray = extArrays[1];\n this.newUploads.push({ page, numSplats, packedArray, extArray, extra });\n }\n }\n }\n\n processUploads() {\n while (true) {\n const upload = this.readyUploads.shift();\n if (!upload) {\n break;\n }\n const { page, numSplats, packedArray, extArray, extra } = upload;\n this.uploadPage(page, packedArray, extra, extArray);\n }\n }\n\n consumeLodTreeUpdates() {\n const updates = this.lodTreeUpdates;\n this.lodTreeUpdates = [];\n\n this.readyUploads.push(...this.newUploads);\n this.newUploads = [];\n return updates;\n }\n\n static emptyUint32x4 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyUint32x2 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 2);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RG32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyIndicesTexture = (() => {\n const emptyArray = new Uint32Array(4096 * 4);\n const texture = new THREE.DataTexture(emptyArray, 4096, 1);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyPackedTexture = this.emptyUint32x4;\n static emptyExtTexture = this.emptyUint32x4;\n static emptySh1Texture = this.emptyUint32x2;\n static emptySh2Texture = this.emptyUint32x4;\n static emptySh3Texture = this.emptyUint32x4;\n static emptyExtSh1Texture = this.emptyUint32x4;\n static emptyExtSh2Texture = this.emptyUint32x4;\n static emptyExtSh3Texture = this.emptyUint32x4;\n static emptyExtSh3BTexture = this.emptyUint32x4;\n}\n\nfunction getGlTexture(\n renderer: THREE.WebGLRenderer,\n texture: THREE.Texture,\n): WebGLTexture {\n if (!renderer.properties.has(texture)) {\n throw new Error(\"texture not found\");\n }\n const props = renderer.properties.get(texture) as {\n __webglTexture: WebGLTexture;\n };\n const glTexture = props.__webglTexture;\n if (!glTexture) {\n throw new Error(\"texture not found\");\n }\n return glTexture;\n}\n\nconst wasmInitialized = init_wasm();\n\nasync function fetchRange({\n url,\n requestHeader,\n withCredentials,\n offset,\n bytes,\n}: {\n url: string;\n requestHeader?: Record;\n withCredentials?: boolean;\n offset?: number;\n bytes?: number;\n}): Promise {\n const request = new Request(url, {\n headers: requestHeader ? new Headers(requestHeader) : undefined,\n credentials: withCredentials ? \"include\" : \"same-origin\",\n });\n if (offset !== undefined && bytes !== undefined) {\n request.headers.set(\"Range\", `bytes=${offset}-${offset + bytes - 1}`);\n }\n const response = await fetch(request);\n if (!response.ok || !response.body) {\n throw new Error(\n `Failed to fetch \"${url}\": ${response.status} ${response.statusText}`,\n );\n }\n return new Uint8Array(await response.arrayBuffer());\n}\n","import * as THREE from \"three\";\n\nimport init_wasm, {\n get_raycast_buffer,\n get_raycast_buffer2,\n raycast_ext_buffers,\n raycast_packed_buffer,\n} from \"spark-rs\";\nimport { ExtSplats } from \"./ExtSplats\";\nimport { OldSparkRenderer } from \"./OldSparkRenderer\";\nimport { PackedSplats } from \"./PackedSplats\";\nimport { type RgbaArray, TRgbaArray } from \"./RgbaArray\";\nimport { SparkRenderer } from \"./SparkRenderer\";\nimport { SplatEdit, SplatEditSdf, SplatEdits } from \"./SplatEdit\";\nimport {\n type CovSplatModifier,\n CovSplatTransformer,\n type FrameUpdateContext,\n type GsplatModifier,\n SplatGenerator,\n SplatTransformer,\n} from \"./SplatGenerator\";\nimport { PagedSplats, SplatPager } from \"./SplatPager\";\nimport type { SplatSkinning } from \"./SplatSkinning\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n type SplatEncoding,\n type SplatFileType,\n} from \"./defines\";\nimport {\n CovSplat,\n Dyno,\n DynoBool,\n DynoFloat,\n DynoInt,\n DynoUsampler2D,\n type DynoVal,\n DynoVec4,\n Gsplat,\n combineCovSplat,\n combineGsplat,\n defineGsplat,\n dyno,\n dynoBlock,\n gsplatToCovSplat,\n mul,\n splitCovSplat,\n splitGsplat,\n unindentLines,\n} from \"./dyno\";\n\nexport type SplatMeshOptions = {\n // URL to fetch a Gaussian splat file from(supports .ply, .splat, .ksplat,\n // .spz formats). (default: undefined)\n url?: string;\n // Raw bytes of a Gaussian splat file to decode directly instead of fetching\n // from URL. (default: undefined)\n fileBytes?: Uint8Array | ArrayBuffer;\n // Override the file type detection for formats that can't be reliably\n // auto-detected (.splat, .ksplat). (default: undefined auto-detects other\n // formats from file contents)\n fileType?: SplatFileType;\n // File name to use for type detection. (default: undefined)\n fileName?: string;\n // Stream to read the Gaussian splat file from. (default: undefined)\n stream?: ReadableStream;\n // Length of the stream in bytes. (default: undefined)\n streamLength?: number;\n // Use an existing PackedSplats object as the source instead of loading from\n // a file. Can be used to share a collection of Gsplats among multiple SplatMeshes\n // (default: undefined creates a new empty PackedSplats or decoded from a\n // data source above)\n packedSplats?: PackedSplats;\n // Use an existing SplatSource object as the source instead of loading from file.\n splats?: SplatSource;\n // Reserve space for at least this many splats when constructing the mesh\n // initially. (default: determined by file)\n maxSplats?: number;\n // Callback function to programmatically create splats at initialization\n // in provided PackedSplats. (default: undefined)\n constructSplats?: (splats: PackedSplats) => Promise | void;\n // Callback function called while downloading and initializing (default: undefined)\n onProgress?: (event: ProgressEvent) => void;\n // Callback function that is called when mesh initialization is complete.\n // (default: undefined)\n onLoad?: (mesh: SplatMesh) => Promise | void;\n // Controls whether SplatEdits have any effect on this mesh. (default: true)\n editable?: boolean;\n // Controls whether SplatMesh participates in Three.js raycasting (default: true)\n raycastable?: boolean;\n // Minimum opacity for raycasting splats. (default: 0.2)\n minRaycastOpacity?: number;\n // Callback function that is called every frame to update the mesh.\n // Call mesh.updateVersion() if splats need to be regenerated due to some change.\n // Calling updateVersion() is not necessary for object transformations, recoloring,\n // or opacity adjustments as these are auto-detected. (default: undefined)\n onFrame?: ({\n mesh,\n time,\n deltaTime,\n }: { mesh: SplatMesh; time: number; deltaTime: number }) => void;\n // Gsplat modifier to apply in object-space before any transformations.\n // A GsplatModifier is a dyno shader-graph block that transforms an input\n // gsplat: DynoVal to an output gsplat: DynoVal with gsplat.center\n // coordinate in object-space. (default: undefined)\n objectModifier?: GsplatModifier;\n objectModifiers?: GsplatModifier[];\n // Gsplat modifier to apply in world-space after transformations.\n // (default: undefined)\n worldModifier?: GsplatModifier;\n worldModifiers?: GsplatModifier[];\n covObjectModifiers?: CovSplatModifier[];\n covWorldModifiers?: CovSplatModifier[];\n // Override the default splat encoding ranges for the PackedSplats.\n // (default: undefined)\n splatEncoding?: SplatEncoding;\n // Set to true to load/use \"extended splat\" encoding with float32 x/y/z\n extSplats?: boolean | ExtSplats;\n // Set to true to output covariance splats for anisotropic scaling\n covSplats?: boolean;\n // Enable LOD. If a number is provided, it will be used as LoD level base,\n // otherwise the default 1.5 is used. When loading a file without pre-computed\n // LoD it will use the \"quick lod\" algorithm to generate one on-the-fly with\n // the selected LoD level base. (default: undefined=false)\n lod?: boolean | \"quality\";\n // Only create LoD if the input splat acount is above this (default: undefined=0)\n lodAbove?: number;\n // Keep the original PackedSplats data before creating LoD version. (default: false)\n nonLod?: boolean;\n // Force enable/disable LoD (default: enabled iff packedSplats.lodSplats is not null)\n enableLod?: boolean;\n // LoD scale to apply @default 1.0\n lodScale?: number;\n // Foveation scale to apply behind viewer\n // (default: 1.0)\n behindFoveate?: number;\n // Full-width angle in degrees of fixed foveation cone along the view direction\n // with perfection foveation=1.0\n // (default: 0.0)\n coneFov0?: number;\n // Full-width angle in degrees of fixed foveation cone along the view direction. 0.0=disable\n // (default: 0.0)\n coneFov?: number;\n // Foveation scale to apply at the edge of the cone\n // (default: 1.0)\n coneFoveate?: number;\n paged?: boolean | PagedSplats | SplatPager;\n};\n\nexport type SplatMeshContext = {\n transform: SplatTransformer;\n viewToWorld: SplatTransformer;\n worldToView: SplatTransformer;\n viewToObject: SplatTransformer;\n covTransform: CovSplatTransformer;\n covViewToWorld: CovSplatTransformer;\n covWorldToView: CovSplatTransformer;\n covViewToObject: CovSplatTransformer;\n recolor: DynoVec4;\n time: DynoFloat;\n deltaTime: DynoFloat;\n numSplats: DynoInt;\n splats: SplatSource;\n enableLod: DynoBool;\n lodIndices: DynoUsampler2D<\"lodIndices\", THREE.DataTexture>;\n};\n\nexport interface SplatSource {\n prepareFetchSplat(): void;\n dispose(): void;\n\n getNumSplats(): number;\n hasRgbDir(): boolean;\n getNumSh(): number;\n setMaxSh(maxSh: number): void;\n\n fetchSplat({\n index,\n viewOrigin,\n }: { index: DynoVal<\"int\">; viewOrigin?: DynoVal<\"vec3\"> }): DynoVal<\n typeof Gsplat\n >;\n}\n\nexport class EmptySplatSource implements SplatSource {\n fetchDyno = new Dyno({\n inTypes: {},\n outTypes: { gsplat: Gsplat },\n globals: () => [defineGsplat],\n statements: ({ outputs }) =>\n unindentLines(`\n ${outputs.gsplat}.flags = 0u;\n return;\n `),\n }).outputs.gsplat;\n\n prepareFetchSplat() {}\n dispose() {}\n\n getNumSplats() {\n return 0;\n }\n hasRgbDir() {\n return false;\n }\n getNumSh() {\n return 0;\n }\n setMaxSh(maxSh: number) {}\n\n fetchSplat({ index }: { index: DynoVal<\"int\"> }): DynoVal {\n return this.fetchDyno;\n }\n}\n\nexport class SplatMesh extends SplatGenerator {\n // A Promise you can await to ensure fetching, parsing,\n // and initialization has completed\n initialized: Promise;\n // A boolean indicating whether initialization is complete\n isInitialized = false;\n\n // If you modify packedSplats you should set\n // splatMesh.packedSplats.needsUpdate = true to signal to Three.js that it\n // should re-upload the data to the underlying texture. Use this sparingly with\n // objects with smaller Gsplat counts as it requires a CPU-GPU data transfer for\n // each frame. Thousands to tens of thousands of Gsplats is fine. (See hands.ts\n // for an example of rendering \"Gsplat hands\" in WebXR using this technique.)\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n covSplats: boolean;\n splats?: SplatSource;\n lastSplats?: SplatSource;\n paged?: PagedSplats;\n\n // A THREE.Color that can be used to tint all splats in the mesh.\n // (default: new THREE.Color(1, 1, 1))\n recolor: THREE.Color = new THREE.Color(1, 1, 1);\n // Global opacity multiplier for all splats in the mesh. (default: 1)\n opacity = 1;\n\n // A SplatMeshContext consisting of useful scene and object dyno uniforms that can\n // be used to in the Gsplat processing pipeline, for example via objectModifier and\n // worldModifier. (created on construction)\n context: SplatMeshContext;\n onFrame?: ({\n mesh,\n time,\n deltaTime,\n }: { mesh: SplatMesh; time: number; deltaTime: number }) => void;\n generatorDirty = true;\n\n objectModifiers?: GsplatModifier[];\n worldModifiers?: GsplatModifier[];\n covObjectModifiers?: CovSplatModifier[];\n covWorldModifiers?: CovSplatModifier[];\n // Set to true to have the viewToObject property in context be updated each frame.\n // If the mesh has extra.sh1 (first order spherical harmonics directional lighting)\n // this property will always be updated. (default: false)\n enableViewToObject = false;\n // Set to true to have context.viewToWorld updated each frame. (default: false)\n enableViewToWorld = false;\n // Set to true to have context.worldToView updated each frame. (default: false)\n enableWorldToView = false;\n\n // Optional SplatSkinning instance for animating splats with dual-quaternion\n // skeletal animation. (default: null)\n skinning: SplatSkinning | null = null;\n\n // Optional list of SplatEdits to apply to the mesh. If null, any SplatEdit\n // children in the scene graph will be added automatically. (default: null)\n edits: SplatEdit[] | null = null;\n editable: boolean;\n raycastable: boolean;\n minRaycastOpacity: number;\n raycastIndices?: { numSplats: number; indices: Uint32Array };\n // Compiled SplatEdits for applying SDF edits to splat RGBA + centers\n rgbaDisplaceEdits: SplatEdits | null = null;\n // Optional RgbaArray to overwrite splat RGBA values with custom values.\n // Useful for \"baking\" RGB and opacity edits into the SplatMesh. (default: null)\n splatRgba: RgbaArray | null = null;\n\n // Maximum Spherical Harmonics level to use. Call updateGenerator()\n // after changing. (default: 3)\n maxSh = 3;\n\n enableLod?: boolean;\n lodScale: number;\n behindFoveate?: number;\n coneFov0?: number;\n coneFov?: number;\n coneFoveate?: number;\n\n showLodPage?: number;\n showLodPageDyno = new DynoInt({ value: 0 });\n\n constructor(options: SplatMeshOptions = {}) {\n super({\n update: (context) => this.update(context),\n });\n\n if (options.splats) {\n this.splats = options.splats;\n this.numSplats = options.splats.getNumSplats();\n } else if (options.paged) {\n if (options.extSplats) {\n console.warn(\n \"To set extSplats with the paged option, set SparkRenderer.pagedExtSplats\",\n );\n }\n const rootUrl = options.url ?? \"\";\n if (options.paged === true) {\n this.paged = new PagedSplats({ rootUrl });\n } else if (options.paged instanceof PagedSplats) {\n this.paged = options.paged;\n } else if (options.paged instanceof SplatPager) {\n this.paged = new PagedSplats({ rootUrl, pager: options.paged });\n } else {\n throw new Error(\"Invalid paged option\");\n }\n this.splats = this.paged;\n } else if (options.extSplats) {\n this.extSplats =\n options.extSplats instanceof ExtSplats\n ? options.extSplats\n : new ExtSplats();\n options.extSplats = this.extSplats;\n this.numSplats = this.extSplats.numSplats;\n this.splats = this.extSplats;\n } else if (options.packedSplats) {\n this.packedSplats = options.packedSplats;\n this.packedSplats.splatEncoding = options.splatEncoding ?? {\n ...DEFAULT_SPLAT_ENCODING,\n };\n this.splats = this.packedSplats;\n } else {\n this.packedSplats = new PackedSplats();\n }\n\n this.editable = options.editable ?? true;\n this.raycastable = options.raycastable ?? true;\n this.minRaycastOpacity = options.minRaycastOpacity ?? 0.2;\n this.onFrame = options.onFrame;\n\n this.context = {\n transform: new SplatTransformer(),\n viewToWorld: new SplatTransformer(),\n worldToView: new SplatTransformer(),\n viewToObject: new SplatTransformer(),\n covTransform: new CovSplatTransformer(),\n covViewToWorld: new CovSplatTransformer(),\n covWorldToView: new CovSplatTransformer(),\n covViewToObject: new CovSplatTransformer(),\n recolor: new DynoVec4({\n value: new THREE.Vector4().setScalar(Number.NEGATIVE_INFINITY),\n }),\n time: new DynoFloat({ value: 0 }),\n deltaTime: new DynoFloat({ value: 0 }),\n numSplats: new DynoInt({ value: 0 }),\n splats: new EmptySplatSource(),\n enableLod: new DynoBool({ value: false }),\n lodIndices: new DynoUsampler2D({\n value: emptyLodIndices,\n key: \"lodIndices\",\n }),\n };\n\n this.covSplats = options.covSplats ?? false;\n if (this.covSplats && !this.extSplats) {\n throw new Error(\"CovSplats requires ExtSplats\");\n }\n\n this.objectModifiers = options.objectModifier\n ? [options.objectModifier]\n : undefined;\n this.worldModifiers = options.worldModifier\n ? [options.worldModifier]\n : undefined;\n\n if (options.objectModifiers) {\n this.objectModifiers = options.objectModifiers;\n }\n if (options.worldModifiers) {\n this.worldModifiers = options.worldModifiers;\n }\n\n this.enableLod = options.enableLod;\n this.lodScale = options.lodScale ?? 1.0;\n this.behindFoveate = options.behindFoveate;\n this.coneFov0 = options.coneFov0;\n this.coneFov = options.coneFov;\n this.coneFoveate = options.coneFoveate;\n\n this.updateGenerator();\n\n if (\n options.url ||\n options.fileBytes ||\n options.stream ||\n options.constructSplats ||\n (options.packedSplats && !options.packedSplats.isInitialized) ||\n (this.extSplats && !this.extSplats.isInitialized)\n ) {\n // We need to initialize asynchronously given the options\n this.initialized = this.asyncInitialize(options).then(async () => {\n this.updateGenerator();\n\n this.isInitialized = true;\n if (options.onLoad) {\n const maybePromise = options.onLoad(this);\n if (maybePromise instanceof Promise) {\n await maybePromise;\n }\n }\n return this;\n });\n } else {\n this.isInitialized = true;\n this.initialized = Promise.resolve(this);\n if (options.onLoad) {\n const maybePromise = options.onLoad(this);\n // If onLoad returns a promise, wait for it to complete\n if (maybePromise instanceof Promise) {\n this.initialized = maybePromise.then(() => this);\n }\n }\n }\n\n // this.add(createRendererDetectionMesh());\n }\n\n async asyncInitialize(options: SplatMeshOptions) {\n const {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n maxSplats,\n constructSplats,\n onProgress,\n splatEncoding,\n lod,\n nonLod,\n lodAbove,\n } = options;\n if (this.packedSplats) {\n if (url || fileBytes || stream || constructSplats) {\n const packedSplatsOptions = {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n maxSplats,\n construct: constructSplats,\n onProgress,\n splatEncoding,\n lod,\n nonLod,\n lodAbove,\n };\n this.packedSplats.reinitialize(packedSplatsOptions);\n }\n await this.packedSplats.initialized;\n this.splats = this.packedSplats;\n } else if (this.extSplats) {\n if (url || fileBytes || stream || constructSplats) {\n const construct = constructSplats as\n | ((splats: ExtSplats) => Promise)\n | undefined;\n this.extSplats.reinitialize({\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n maxSplats,\n construct,\n onProgress,\n lod,\n nonLod,\n lodAbove,\n });\n await this.extSplats.initialized;\n this.splats = this.extSplats;\n }\n }\n\n if (this.splats) {\n this.numSplats = this.splats.getNumSplats();\n this.updateGenerator();\n }\n }\n\n static staticInitialized = SplatMesh.staticInitialize();\n static isStaticInitialized = false;\n\n static dynoTime = new DynoFloat({ value: 0 });\n\n static async staticInitialize() {\n await init_wasm();\n SplatMesh.isStaticInitialized = true;\n }\n\n // Creates a new Gsplat with the provided parameters (all values in \"float\" space,\n // i.e. 0-1 for opacity and color) and adds it to the end of the packedSplats,\n // increasing numSplats by 1. If necessary, reallocates the buffer with an exponential\n // doubling strategy to fit the new data, so it's fairly efficient to just\n // pushSplat(...) each Gsplat you want to create in a loop.\n pushSplat(\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n if (this.packedSplats) {\n this.packedSplats.pushSplat(center, scales, quaternion, opacity, color);\n } else if (this.extSplats) {\n this.extSplats.pushSplat(center, scales, quaternion, opacity, color);\n }\n }\n\n // This method iterates over all Gsplats in this instance's packedSplats,\n // invoking the provided callback with index: number in 0..=(this.numSplats-1) and\n // center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion,\n // opacity: number (0..1), and color: THREE.Color (rgb values in 0..1).\n // Note that the objects passed in as center etc. are the same for every callback\n // invocation: these objects are reused for efficiency. Changing these values has\n // no effect as they are decoded/unpacked copies of the underlying data. To update\n // the packedSplats, call .packedSplats.setSplat(index, center, scales,\n // quaternion, opacity, color).\n forEachSplat(\n callback: (\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => void,\n ) {\n if (this.packedSplats) {\n this.packedSplats.forEachSplat(callback);\n } else if (this.extSplats) {\n this.extSplats.forEachSplat(callback);\n }\n }\n\n // Call this when you are finished with the SplatMesh and want to free\n // any buffers it holds (via packedSplats).\n dispose() {\n if (\n this.splats &&\n this.splats !== this.packedSplats &&\n this.splats !== this.extSplats\n ) {\n this.splats.dispose();\n this.splats = undefined;\n }\n if (this.packedSplats) {\n this.packedSplats.dispose();\n this.packedSplats = undefined;\n }\n if (this.extSplats) {\n this.extSplats.dispose();\n this.extSplats = undefined;\n }\n }\n\n // Returns axis-aligned bounding box of the SplatMesh. If centers_only is true,\n // only the centers of the splats are used to compute the bounding box.\n // IMPORTANT: This should only be called after the SplatMesh is initialized.\n getBoundingBox(centers_only = true) {\n if (!this.initialized) {\n throw new Error(\n \"Cannot get bounding box before SplatMesh is initialized\",\n );\n }\n if (!this.packedSplats && !this.extSplats) {\n throw new Error(\"Bounding box requires PackedSplats or ExtSplats\");\n }\n const minVec = new THREE.Vector3(\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n Number.POSITIVE_INFINITY,\n );\n const maxVec = new THREE.Vector3(\n Number.NEGATIVE_INFINITY,\n Number.NEGATIVE_INFINITY,\n Number.NEGATIVE_INFINITY,\n );\n const corners = new THREE.Vector3();\n const signs = [-1, 1];\n\n function callback(\n _index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n _opacity: number,\n _color: THREE.Color,\n ) {\n if (centers_only) {\n minVec.min(center);\n maxVec.max(center);\n } else {\n // Get the 8 corners of the AABB in local space\n for (const x of signs) {\n for (const y of signs) {\n for (const z of signs) {\n corners.set(x * scales.x, y * scales.y, z * scales.z);\n // Transform corner by rotation and position\n corners.applyQuaternion(quaternion);\n corners.add(center);\n minVec.min(corners);\n maxVec.max(corners);\n }\n }\n }\n }\n }\n\n if (this.packedSplats) {\n this.packedSplats.forEachSplat(callback);\n } else if (this.extSplats) {\n this.extSplats.forEachSplat(callback);\n }\n const box = new THREE.Box3(minVec, maxVec);\n return box;\n }\n\n set objectModifier(modifier: GsplatModifier | undefined) {\n if (modifier) {\n this.objectModifiers = [modifier];\n } else {\n this.objectModifiers = undefined;\n }\n }\n\n set worldModifier(modifier: GsplatModifier | undefined) {\n if (modifier) {\n this.worldModifiers = [modifier];\n } else {\n this.worldModifiers = undefined;\n }\n }\n\n private constructGenerator(context: SplatMeshContext) {\n if (this.covSplats) {\n return this.constructCovGenerator(context);\n }\n\n const { transform, viewToObject, recolor } = context;\n const generator = dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n\n index = maybeLookupIndex(\n context.lodIndices,\n index,\n context.numSplats,\n context.enableLod,\n this.showLodPageDyno,\n );\n\n // Read a Gsplat from the SplatSource\n context.splats.setMaxSh(this.maxSh);\n context.splats.prepareFetchSplat();\n let gsplat = context.splats.fetchSplat({\n index,\n viewOrigin: viewToObject.translate,\n });\n\n if (this.splatRgba) {\n // Overwrite RGBA with baked RGBA values\n gsplat = maybeInjectSplatRgba(\n gsplat,\n this.splatRgba.dyno,\n index,\n context.enableLod,\n );\n }\n\n if (this.skinning) {\n // Transform according to bones + skinning weights\n gsplat = this.skinning.modify(gsplat);\n }\n\n if (this.objectModifiers) {\n // Inject object-space Gsplat modifier dyno\n for (const modifier of this.objectModifiers) {\n gsplat = modifier.apply({ gsplat }).gsplat;\n }\n }\n\n // Transform from object to world-space\n gsplat = transform.applyGsplat(gsplat);\n\n // Apply any global recoloring and opacity\n const recolorRgba = mul(recolor, splitGsplat(gsplat).outputs.rgba);\n gsplat = combineGsplat({ gsplat, rgba: recolorRgba });\n\n if (this.rgbaDisplaceEdits) {\n // Apply RGBA edit layer SDFs\n gsplat = this.rgbaDisplaceEdits.modify(gsplat);\n }\n\n if (this.worldModifiers) {\n // Inject world-space Gsplat modifier dyno\n for (const modifier of this.worldModifiers) {\n gsplat = modifier.apply({ gsplat }).gsplat;\n }\n }\n\n // We're done! Output resulting Gsplat\n return { gsplat };\n },\n );\n this.generator = generator;\n this.covGenerator = undefined;\n }\n\n constructCovGenerator(context: SplatMeshContext) {\n // console.log(\"CovSplatMesh.constructCovGenerator\");\n const { covTransform, covViewToObject, recolor } = context;\n const generator = dynoBlock(\n { index: \"int\" },\n { covsplat: CovSplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n\n index = maybeLookupIndex(\n context.lodIndices,\n index,\n context.numSplats,\n context.enableLod,\n this.showLodPageDyno,\n );\n\n // Read a Gsplat from the SplatSource\n context.splats.prepareFetchSplat();\n let gsplat = context.splats.fetchSplat({\n index,\n viewOrigin: covViewToObject.offset,\n });\n\n if (this.splatRgba) {\n // Overwrite RGBA with baked RGBA values\n gsplat = maybeInjectSplatRgba(\n gsplat,\n this.splatRgba.dyno,\n index,\n context.enableLod,\n );\n }\n\n if (this.objectModifiers) {\n // Inject object-space Gsplat modifier dyno\n for (const modifier of this.objectModifiers) {\n gsplat = modifier.apply({ gsplat }).gsplat;\n }\n }\n\n let covsplat = gsplatToCovSplat(gsplat);\n\n if (this.skinning) {\n // Transform according to bones + skinning weights\n covsplat = this.skinning.modifyCov(covsplat);\n }\n\n if (this.covObjectModifiers) {\n // Inject object-space CovSplat modifier dyno\n for (const modifier of this.covObjectModifiers) {\n covsplat = modifier.apply({ covsplat }).covsplat;\n }\n }\n\n // Transform from object to world-space\n covsplat = covTransform.applyCovSplat(covsplat);\n\n // Apply any global recoloring and opacity\n const recolorRgba = mul(recolor, splitCovSplat(covsplat).outputs.rgba);\n covsplat = combineCovSplat({ covsplat, rgba: recolorRgba });\n\n if (this.rgbaDisplaceEdits) {\n // Apply RGBA edit layer SDFs\n covsplat = this.rgbaDisplaceEdits.modifyCov(covsplat);\n }\n\n if (this.covWorldModifiers) {\n // Inject world-space CovSplat modifier dyno\n for (const modifier of this.covWorldModifiers) {\n covsplat = modifier.apply({ covsplat }).covsplat;\n }\n }\n\n // We're done! Output resulting Gsplat\n return { covsplat };\n },\n );\n this.generator = undefined;\n this.covGenerator = generator;\n }\n\n // Call this whenever something changes in the Gsplat processing pipeline,\n // for example changing maxSh or updating objectModifier or worldModifier.\n // Compiled generators are cached for efficiency and re-use when the same\n // pipeline structure emerges after successive changes.\n updateGenerator() {\n this.generatorDirty = true;\n }\n\n // This is called automatically by SparkRenderer and you should not have to\n // call it. It updates parameters for the generated pipeline and calls\n // updateGenerator() if the pipeline needs to change.\n update({\n renderer,\n time,\n deltaTime,\n viewToWorld,\n camera,\n renderSize,\n globalEdits,\n lodIndices,\n }: FrameUpdateContext) {\n this.context.time.value = time;\n this.context.deltaTime.value = deltaTime;\n SplatMesh.dynoTime.value = time;\n this.showLodPageDyno.value = this.showLodPage ?? -1;\n\n const splats = this.splats ?? this.packedSplats ?? this.extSplats;\n if (splats) {\n this.context.splats = splats;\n }\n this.numSplats = this.context.splats.getNumSplats();\n\n let updated = false;\n\n const lodSplats = this.packedSplats?.lodSplats ?? this.extSplats?.lodSplats;\n this.context.enableLod.value = lodSplats != null && lodIndices != null;\n if (this.enableLod === false) {\n this.context.enableLod.value = false;\n }\n this.context.lodIndices.value = lodIndices?.texture ?? emptyLodIndices;\n\n if (this.context.enableLod.value && lodSplats) {\n this.context.splats = lodSplats;\n this.numSplats = lodIndices?.numSplats ?? 0;\n }\n\n this.context.numSplats.value = this.numSplats;\n\n if (this.context.splats !== this.lastSplats) {\n this.lastSplats = this.context.splats;\n this.generatorDirty = true;\n }\n\n if (!this.covSplats) {\n if (this.context.transform.update(this)) {\n updated = true;\n }\n\n if (\n this.context.viewToWorld.updateFromMatrix(viewToWorld) &&\n this.enableViewToWorld\n ) {\n updated = true;\n }\n const worldToView = viewToWorld.clone().invert();\n if (\n this.context.worldToView.updateFromMatrix(worldToView) &&\n this.enableWorldToView\n ) {\n updated = true;\n }\n\n const objectToWorld = new THREE.Matrix4().compose(\n this.context.transform.translate.value,\n this.context.transform.rotate.value,\n new THREE.Vector3().setScalar(this.context.transform.scale.value),\n );\n const worldToObject = objectToWorld.invert();\n const viewToObjectMatrix = worldToObject.multiply(viewToWorld);\n if (\n this.context.viewToObject.updateFromMatrix(viewToObjectMatrix) &&\n (this.enableViewToObject || this.context.splats.hasRgbDir())\n ) {\n // Only trigger update if we have view-dependent spherical harmonics\n updated = true;\n }\n } else {\n if (this.context.covTransform.update(this)) {\n updated = true;\n }\n\n if (\n this.context.covViewToWorld.updateFromMatrix(viewToWorld) &&\n this.enableViewToWorld\n ) {\n updated = true;\n }\n const worldToView = viewToWorld.clone().invert();\n if (\n this.context.covWorldToView.updateFromMatrix(worldToView) &&\n this.enableWorldToView\n ) {\n updated = true;\n }\n\n const worldToObject = this.matrixWorld.clone().invert();\n const viewToObjectMatrix = worldToObject.multiply(viewToWorld);\n if (\n this.context.covViewToObject.updateFromMatrix(viewToObjectMatrix) &&\n (this.enableViewToObject || this.context.splats.hasRgbDir())\n ) {\n // Only trigger update if we have view-dependent spherical harmonics\n updated = true;\n }\n }\n\n const newRecolor = new THREE.Vector4(\n this.recolor.r,\n this.recolor.g,\n this.recolor.b,\n this.opacity,\n );\n if (!newRecolor.equals(this.context.recolor.value)) {\n this.context.recolor.value.copy(newRecolor);\n updated = true;\n }\n\n const edits = this.editable ? (this.edits ?? []).concat(globalEdits) : [];\n if (this.editable && !this.edits) {\n // If we haven't set any explicit edits, add any child SplatEdits\n this.traverseVisible((node) => {\n if (node instanceof SplatEdit) {\n edits.push(node);\n }\n });\n }\n\n edits.sort((a, b) => a.ordering - b.ordering);\n const editsSdfs = edits.map((edit) => {\n if (edit.sdfs != null) {\n return { edit, sdfs: edit.sdfs };\n }\n const sdfs: SplatEditSdf[] = [];\n edit.traverseVisible((node) => {\n if (node instanceof SplatEditSdf) {\n sdfs.push(node);\n }\n });\n return { edit, sdfs };\n });\n\n if (editsSdfs.length > 0 && !this.rgbaDisplaceEdits) {\n const edits = editsSdfs.length;\n const sdfs = editsSdfs.reduce(\n (total, edit) => total + edit.sdfs.length,\n 0,\n );\n this.rgbaDisplaceEdits = new SplatEdits({\n maxEdits: edits,\n maxSdfs: sdfs,\n });\n this.generatorDirty = true;\n }\n if (this.rgbaDisplaceEdits) {\n const editResult = this.rgbaDisplaceEdits.update(editsSdfs);\n updated ||= editResult.updated;\n if (editResult.dynoUpdated) {\n this.generatorDirty = true;\n }\n }\n\n if (this.generatorDirty) {\n this.constructGenerator(this.context);\n this.generatorDirty = false;\n updated = true;\n }\n\n if (updated) {\n this.updateVersion();\n }\n\n this.onFrame?.({ mesh: this, time, deltaTime });\n }\n\n // This method conforms to the standard THREE.Raycaster API, performing object-ray\n // intersections using this method to populate the provided intersects[] array\n // with each intersection point.\n raycast(\n raycaster: THREE.Raycaster,\n intersects: {\n distance: number;\n point: THREE.Vector3;\n object: THREE.Object3D;\n }[],\n ) {\n if (\n !SplatMesh.isStaticInitialized ||\n !this.raycastable ||\n (!this.packedSplats && !this.extSplats && !this.paged)\n ) {\n return;\n }\n const paged = this.paged != null;\n const ext = paged\n ? (this.paged?.pager?.extSplats ?? false)\n : this.extSplats != null;\n\n const { near, far, ray } = raycaster;\n const worldToMesh = this.matrixWorld.clone().invert();\n const worldToMeshRot = new THREE.Matrix3().setFromMatrix4(worldToMesh);\n const origin = ray.origin.clone().applyMatrix4(worldToMesh);\n const direction = ray.direction.clone().applyMatrix3(worldToMeshRot);\n\n const buffer = get_raycast_buffer();\n const bufferSize = buffer.length / 4;\n let intersections = 0;\n\n const numSplats =\n this.raycastIndices?.numSplats ??\n (paged ? this.paged?.numSplats : this.context.numSplats.value) ??\n 0;\n const indices =\n this.raycastIndices?.indices ??\n (paged\n ? (this.paged?.dynoIndices.value.image.data as Uint32Array)\n : this.context.enableLod.value\n ? (this.context.lodIndices.value.image.data as Uint32Array)\n : null) ??\n null;\n\n if (!ext) {\n const packed = paged\n ? (this.paged?.pager?.packedTexture.value.image.data as Uint32Array)\n : indices\n ? this.packedSplats?.lodSplats?.packedArray\n : this.packedSplats?.packedArray;\n if (!packed) {\n return;\n }\n const splatEncoding = paged\n ? this.paged?.splatEncoding\n : this.packedSplats?.splatEncoding;\n for (let base = 0; base < numSplats; base += bufferSize) {\n const count = Math.min(bufferSize, numSplats - base);\n if (!indices) {\n buffer.set(packed.subarray(base * 4, (base + count) * 4));\n } else {\n for (let i = 0; i < count; ++i) {\n const index = indices[base + i];\n const i4 = i * 4;\n const index4 = index * 4;\n buffer[i4] = packed[index4];\n buffer[i4 + 1] = packed[index4 + 1];\n buffer[i4 + 2] = packed[index4 + 2];\n buffer[i4 + 3] = packed[index4 + 3];\n }\n }\n\n const newIntersections = raycast_packed_buffer(\n origin.x,\n origin.y,\n origin.z,\n direction.x,\n direction.y,\n direction.z,\n this.minRaycastOpacity,\n near,\n far,\n count,\n splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n splatEncoding?.lodOpacity ?? false,\n );\n intersections = this.appendRaycastBuffer(\n intersections,\n newIntersections,\n );\n }\n } else {\n const buffer2 = get_raycast_buffer2();\n const ext1 = paged\n ? (this.paged?.pager?.packedTexture.value.image.data as Uint32Array)\n : indices\n ? this.extSplats?.lodSplats?.extArrays[0]\n : this.extSplats?.extArrays[0];\n const ext2 = paged\n ? (this.paged?.pager?.extTexture.value.image.data as Uint32Array)\n : indices\n ? this.extSplats?.lodSplats?.extArrays[1]\n : this.extSplats?.extArrays[1];\n if (!ext1 || !ext2) {\n return;\n }\n for (let base = 0; base < numSplats; base += bufferSize) {\n const count = Math.min(bufferSize, numSplats - base);\n if (!indices) {\n buffer.set(ext1.subarray(base * 4, (base + count) * 4));\n buffer2.set(ext2.subarray(base * 4, (base + count) * 4));\n } else {\n for (let i = 0; i < count; ++i) {\n const index = indices[base + i];\n const i4 = i * 4;\n const index4 = index * 4;\n buffer[i4] = ext1[index4];\n buffer[i4 + 1] = ext1[index4 + 1];\n buffer[i4 + 2] = ext1[index4 + 2];\n buffer[i4 + 3] = ext1[index4 + 3];\n buffer2[i4] = ext2[index4];\n buffer2[i4 + 1] = ext2[index4 + 1];\n buffer2[i4 + 2] = ext2[index4 + 2];\n buffer2[i4 + 3] = ext2[index4 + 3];\n }\n }\n\n const newIntersections = raycast_ext_buffers(\n origin.x,\n origin.y,\n origin.z,\n direction.x,\n direction.y,\n direction.z,\n this.minRaycastOpacity,\n near,\n far,\n count,\n );\n intersections = this.appendRaycastBuffer(\n intersections,\n newIntersections,\n );\n }\n }\n\n for (const distance of SplatMesh.raycastBuffer.subarray(0, intersections)) {\n const point = ray.direction\n .clone()\n .multiplyScalar(distance)\n .add(ray.origin);\n intersects.push({\n distance,\n point,\n object: this,\n });\n }\n }\n\n static raycastBuffer = new Float32Array(1024);\n\n private appendRaycastBuffer(count: number, additional: Float32Array) {\n const total = count + additional.length;\n let capacity = SplatMesh.raycastBuffer.length;\n\n if (total > capacity) {\n while (capacity < total) {\n capacity *= 2;\n }\n const newBuffer = new Float32Array(capacity);\n newBuffer.set(SplatMesh.raycastBuffer.subarray(0, count));\n SplatMesh.raycastBuffer = newBuffer;\n }\n\n SplatMesh.raycastBuffer.set(additional, count);\n return count + additional.length;\n }\n\n async createLodSplats({\n rgbaArray,\n quality,\n }: { rgbaArray?: RgbaArray; quality?: boolean } = {}) {\n if (this.packedSplats) {\n await this.packedSplats.createLodSplats({ quality, rgbaArray });\n } else if (this.extSplats) {\n await this.extSplats.createLodSplats({ quality, rgbaArray });\n }\n }\n}\n\nexport function maybeLookupIndex(\n lodIndices: DynoUsampler2D<\"lodIndices\", THREE.DataTexture>,\n index: DynoVal<\"int\">,\n numSplats: DynoVal<\"int\">,\n enableLod: DynoVal<\"bool\">,\n showLodPage: DynoVal<\"int\">,\n) {\n return dyno({\n inTypes: {\n lodIndices: \"usampler2D\",\n index: \"int\",\n numSplats: \"int\",\n enableLod: \"bool\",\n showLodPage: \"int\",\n },\n outTypes: {\n index: \"int\",\n },\n inputs: {\n lodIndices,\n index,\n numSplats,\n enableLod,\n showLodPage,\n },\n statements: ({ inputs, outputs }) =>\n unindentLines(`\n int index = ${inputs.index};\n if (${inputs.showLodPage} < 0) {\n if (index >= ${inputs.numSplats}) {\n return;\n }\n if (${inputs.enableLod}) {\n ivec2 lodIndexCoord = ivec2((index >> 2) & 4095, index >> 14);\n uint splatIndex = texelFetch(${inputs.lodIndices}, lodIndexCoord, 0)[index & 3];\n ${outputs.index} = int(splatIndex);\n } else {\n ${outputs.index} = index;\n }\n } else {\n int start = ${inputs.showLodPage} << 16;\n if (index >= 65536) {\n return;\n }\n ${outputs.index} = start + index;\n }\n `),\n }).outputs.index;\n}\n\nexport function maybeInjectSplatRgba(\n gsplat: DynoVal,\n rgba: DynoVal,\n index: DynoVal<\"int\">,\n enableLod: DynoVal<\"bool\">,\n): DynoVal {\n return dyno({\n inTypes: {\n gsplat: Gsplat,\n rgba: TRgbaArray,\n index: \"int\",\n enableLod: \"bool\",\n },\n outTypes: { gsplat: Gsplat },\n inputs: { gsplat, rgba, index, enableLod },\n statements: ({ inputs, outputs }) =>\n unindentLines(`\n ${outputs.gsplat} = ${inputs.gsplat};\n if (!${inputs.enableLod} && (${inputs.index} >= 0) && (${inputs.index} < ${inputs.rgba}.count)) {\n ${outputs.gsplat}.rgba = texelFetch(${inputs.rgba}.texture, splatTexCoord(${inputs.index}), 0);\n }\n `),\n }).outputs.gsplat;\n}\n\nexport const emptyLodIndices = (() => {\n const texture = new THREE.DataTexture(\n new Uint32Array(16384),\n 4096,\n 1,\n THREE.RGBAIntegerFormat,\n THREE.UnsignedIntType,\n );\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n})();\n\nconst EMPTY_GEOMETRY = new THREE.BufferGeometry();\nconst EMPTY_MATERIAL = new THREE.ShaderMaterial();\n\n// Creates an empty mesh to hook into Three.js rendering.\n// This is used to detect if a SparkRenderer is present in the scene.\n// If not, one will be injected automatically.\nfunction createRendererDetectionMesh(): THREE.Mesh {\n const mesh = new THREE.Mesh(EMPTY_GEOMETRY, EMPTY_MATERIAL);\n mesh.frustumCulled = false;\n mesh.onBeforeRender = function (renderer, scene) {\n if (!scene.isScene) {\n // The SplatMesh is part of render call that doesn't have a Scene at its root\n // Don't auto-inject a renderer.\n this.removeFromParent();\n return;\n }\n\n // Check if the scene has a SparkRenderer instance\n let hasSparkRenderer = false;\n scene.traverse((c) => {\n if (c instanceof SparkRenderer || c instanceof OldSparkRenderer) {\n hasSparkRenderer = true;\n }\n });\n\n if (!hasSparkRenderer) {\n // No spark renderer present in the scene, inject one.\n scene.add(new SparkRenderer({ renderer }));\n }\n\n // Remove mesh to stop checking\n this.removeFromParent();\n };\n return mesh;\n}\n","// PLY file format reader\n\nimport { USE_COMPILED_PARSER_FUNCTION } from \"./defines\";\n\nconst PLY_PROPERTY_TYPES = [\n \"char\",\n \"uchar\",\n \"short\",\n \"ushort\",\n \"int\",\n \"uint\",\n \"float\",\n \"double\",\n] as const;\nexport type PlyPropertyType = (typeof PLY_PROPERTY_TYPES)[number];\n\nexport type PlyElement = {\n name: string;\n count: number;\n properties: Record;\n};\n\nexport type PlyProperty = {\n isList: boolean;\n type: PlyPropertyType;\n countType?: PlyPropertyType;\n};\n\n// Callback for parseSplats base Gsplat data\nexport type SplatCallback = (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n) => void;\n\n// Callback for parseSplats SH coefficients\nexport type SplatShCallback = (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n) => void;\n\n// A PlyReader is used to parse PLY files for Gsplat data.\n// It takes a Uint8Array/ArrayBuffer as input fileBytes, parses the text header,\n// and provides a method parseData to iterate over the entire binary data\n// efficiently, or parseSplats to iterate over Gsplat data.\n\nexport class PlyReader {\n fileBytes: Uint8Array;\n header = \"\";\n littleEndian = true;\n elements: Record = {};\n comments: string[] = [];\n data: DataView | null = null;\n static defaultPointScale = 0.001;\n\n numSplats = 0;\n\n // Create a PlyReader from a Uint8Array/ArrayBuffer, no parsing done yet\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n }\n\n // Identify and parse the PLY text header (assumed to be <64KB in size).\n // this.elements will contain all the elements in the file, typically\n // \"vertex\" contains the Gsplat data.\n async parseHeader() {\n const bufferStream = new ReadableStream({\n start: (\n controller: ReadableStreamController>,\n ) => {\n // Assume the header is less than 64KB\n controller.enqueue(this.fileBytes.slice(0, 65536));\n controller.close();\n },\n });\n const decoder = bufferStream\n .pipeThrough(new TextDecoderStream())\n .getReader();\n\n // Find the end of the text section of the PLY file\n this.header = \"\";\n const headerTerminator = \"end_header\\n\";\n while (true) {\n const { value, done } = await decoder.read();\n if (done) {\n throw new Error(\"Failed to read header\");\n }\n\n this.header += value as string;\n const endHeader = this.header.indexOf(headerTerminator);\n if (endHeader >= 0) {\n this.header = this.header.slice(0, endHeader + headerTerminator.length);\n break;\n }\n }\n // Partition the file into header and binary data\n const headerLen = new TextEncoder().encode(this.header).length;\n this.data = new DataView(this.fileBytes.buffer, headerLen);\n\n this.elements = {};\n let curElement: PlyElement | null = null;\n this.comments = [];\n\n this.header\n .trim()\n .split(\"\\n\")\n .forEach((line: string, lineIndex: number) => {\n const trimmedLine = line.trim();\n if (lineIndex === 0) {\n if (trimmedLine !== \"ply\") {\n throw new Error(\"Invalid PLY header\");\n }\n return;\n }\n if (trimmedLine.length === 0) {\n return; // Skip empty lines\n }\n\n const fields = trimmedLine.split(\" \");\n switch (fields[0]) {\n case \"format\":\n if (fields[1] === \"binary_little_endian\") {\n this.littleEndian = true;\n } else if (fields[1] === \"binary_big_endian\") {\n this.littleEndian = false;\n } else {\n // ascii formats not supported\n throw new Error(`Unsupported PLY format: ${fields[1]}`);\n }\n if (fields[2] !== \"1.0\") {\n throw new Error(`Unsupported PLY version: ${fields[2]}`);\n }\n break;\n case \"end_header\":\n break;\n case \"comment\":\n this.comments.push(trimmedLine.slice(\"comment \".length));\n break;\n case \"element\": {\n const name = fields[1];\n curElement = {\n name,\n count: Number.parseInt(fields[2]),\n properties: {},\n };\n this.elements[name] = curElement;\n break;\n }\n case \"property\":\n if (curElement == null) {\n throw new Error(\"Property must be inside an element\");\n }\n if (fields[1] === \"list\") {\n curElement.properties[fields[4]] = {\n isList: true,\n type: fields[3] as PlyPropertyType,\n countType: fields[2] as PlyPropertyType,\n };\n } else {\n curElement.properties[fields[2]] = {\n isList: false,\n type: fields[1] as PlyPropertyType,\n };\n }\n break;\n default:\n // console.warn(`Skipping unsupported PLY keyword: ${fields[0]}`);\n }\n });\n\n if (this.elements.vertex) {\n this.numSplats = this.elements.vertex.count;\n }\n }\n\n parseData(\n elementCallback: (\n element: PlyElement,\n ) =>\n | null\n | ((index: number, item: Record) => void),\n ) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No data to parse\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const item = createEmptyItem(properties);\n // Construct a parse function\n const parseFn = createParseFn(properties, this.littleEndian);\n\n // Parse all the items in the element\n const callback = elementCallback(element) ?? (() => {});\n for (let index = 0; index < count; index++) {\n offset = parseFn(data, offset, item);\n callback(index, item);\n }\n }\n }\n\n // Parse all the Gsplat data in the PLY file in go, invoking the given\n // callbacks for each Gsplat.\n parseSplats(splatCallback: SplatCallback, shCallback?: SplatShCallback) {\n if (this.elements.vertex == null) {\n throw new Error(\"No vertex element found\");\n }\n\n let isSuperSplat = false;\n const ssChunks: SSChunk[] = [];\n\n let numSh = 0;\n let sh1Props: number[] = [];\n let sh2Props: number[] = [];\n let sh3Props: number[] = [];\n let sh1: Float32Array | undefined = undefined;\n let sh2: Float32Array | undefined = undefined;\n let sh3: Float32Array | undefined = undefined;\n\n function prepareSh() {\n // Prepare SH coefficient names and arrays for numSh total SH levels\n const num_f_rest = NUM_SH_TO_NUM_F_REST[numSh];\n sh1Props = new Array(3)\n .fill(null)\n .flatMap((_, k) => [0, 1, 2].map((_, d) => k + (d * num_f_rest) / 3));\n sh2Props = new Array(5)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 3 + k + (d * num_f_rest) / 3),\n );\n sh3Props = new Array(7)\n .fill(null)\n .flatMap((_, k) =>\n [0, 1, 2].map((_, d) => 8 + k + (d * num_f_rest) / 3),\n );\n sh1 = numSh >= 1 ? new Float32Array(3 * 3) : undefined;\n sh2 = numSh >= 2 ? new Float32Array(5 * 3) : undefined;\n sh3 = numSh >= 3 ? new Float32Array(7 * 3) : undefined;\n }\n\n function ssShCallback(\n index: number,\n item: Record,\n ) {\n // Decode SH for SuperSplat compressed data\n if (!sh1) {\n throw new Error(\"Missing sh1\");\n }\n const sh = item.f_rest as number[];\n\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = (sh[sh1Props[i]] * 8) / 255 - 4;\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = (sh[sh2Props[i]] * 8) / 255 - 4;\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = (sh[sh3Props[i]] * 8) / 255 - 4;\n }\n }\n shCallback?.(index, sh1, sh2, sh3);\n }\n\n function initSuperSplat(element: PlyElement) {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n } = element.properties;\n if (\n !min_x ||\n !min_y ||\n !min_z ||\n !max_x ||\n !max_y ||\n !max_z ||\n !min_scale_x ||\n !min_scale_y ||\n !min_scale_z ||\n !max_scale_x ||\n !max_scale_y ||\n !max_scale_z\n ) {\n throw new Error(\"Missing PLY chunk properties\");\n }\n\n // SuperSplat chunks are used to quantize splat data, so we need to store them\n isSuperSplat = true;\n return (index: number, item: Record) => {\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = item as Record;\n ssChunks.push({\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n });\n };\n }\n\n function decodeSuperSplat(element: PlyElement) {\n // Decode SuperSplat compressed data in vertex and sh elements\n if (shCallback && element.name === \"sh\") {\n numSh = getNumSh(element.properties);\n prepareSh();\n return ssShCallback;\n }\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n element.properties;\n if (\n !packed_position ||\n !packed_rotation ||\n !packed_scale ||\n !packed_color\n ) {\n throw new Error(\n \"Missing PLY properties: packed_position, packed_rotation, packed_scale, packed_color\",\n );\n }\n\n const SQRT2 = Math.sqrt(2);\n\n return (index: number, item: Record) => {\n // SuperSplat data are quantized within chunks with 256 Gsplats each\n const chunk = ssChunks[index >>> 8];\n if (chunk == null) {\n throw new Error(\"Missing PLY chunk\");\n }\n const {\n min_x,\n min_y,\n min_z,\n max_x,\n max_y,\n max_z,\n min_scale_x,\n min_scale_y,\n min_scale_z,\n max_scale_x,\n max_scale_y,\n max_scale_z,\n min_r,\n min_g,\n min_b,\n max_r,\n max_g,\n max_b,\n } = chunk;\n const { packed_position, packed_rotation, packed_scale, packed_color } =\n item as Record;\n\n const x =\n (((packed_position >>> 21) & 2047) / 2047) * (max_x - min_x) + min_x;\n const y =\n (((packed_position >>> 11) & 1023) / 1023) * (max_y - min_y) + min_y;\n const z = ((packed_position & 2047) / 2047) * (max_z - min_z) + min_z;\n\n const r0 = (((packed_rotation >>> 20) & 1023) / 1023 - 0.5) * SQRT2;\n const r1 = (((packed_rotation >>> 10) & 1023) / 1023 - 0.5) * SQRT2;\n const r2 = ((packed_rotation & 1023) / 1023 - 0.5) * SQRT2;\n const rr = Math.sqrt(Math.max(0, 1.0 - r0 * r0 - r1 * r1 - r2 * r2));\n\n const rOrder = packed_rotation >>> 30;\n const quatX = rOrder === 0 ? r0 : rOrder === 1 ? rr : r1;\n const quatY = rOrder <= 1 ? r1 : rOrder === 2 ? rr : r2;\n const quatZ = rOrder <= 2 ? r2 : rr;\n const quatW = rOrder === 0 ? rr : r0;\n\n const scaleX = Math.exp(\n (((packed_scale >>> 21) & 2047) / 2047) *\n (max_scale_x - min_scale_x) +\n min_scale_x,\n );\n const scaleY = Math.exp(\n (((packed_scale >>> 11) & 1023) / 1023) *\n (max_scale_y - min_scale_y) +\n min_scale_y,\n );\n const scaleZ = Math.exp(\n ((packed_scale & 2047) / 2047) * (max_scale_z - min_scale_z) +\n min_scale_z,\n );\n\n const r =\n (((packed_color >>> 24) & 255) / 255) *\n ((max_r ?? 1) - (min_r ?? 0)) +\n (min_r ?? 0);\n const g =\n (((packed_color >>> 16) & 255) / 255) *\n ((max_g ?? 1) - (min_g ?? 0)) +\n (min_g ?? 0);\n const b =\n (((packed_color >>> 8) & 255) / 255) * ((max_b ?? 1) - (min_b ?? 0)) +\n (min_b ?? 0);\n const opacity = (packed_color & 255) / 255;\n\n splatCallback(\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n };\n }\n\n const elementCallback = (element: PlyElement) => {\n if (element.name === \"chunk\") {\n // \"chunk\" could conceivably be used for other formats, and we would\n // ideally check for the comment: Generated by SuperSplat 2.*\n // but gsplat also outputs this format without such a comment.\n // In order to support both, let's assume a \"chunk\" element should\n // be interpreted as this format.\n return initSuperSplat(element);\n }\n if (isSuperSplat) {\n return decodeSuperSplat(element);\n }\n\n if (element.name !== \"vertex\") {\n return null;\n }\n\n const {\n x,\n y,\n z,\n scale_0,\n scale_1,\n scale_2,\n rot_0,\n rot_1,\n rot_2,\n rot_3,\n opacity,\n f_dc_0,\n f_dc_1,\n f_dc_2,\n red,\n green,\n blue,\n alpha,\n } = element.properties;\n\n if (!x || !y || !z) {\n throw new Error(\"Missing PLY properties: x, y, z\");\n }\n // Pure point cloud PLY files have no scales or rotations\n const hasScales = scale_0 && scale_1 && scale_2;\n const hasRots = rot_0 && rot_1 && rot_2 && rot_3;\n // Quantization scale factor for argb values\n const alphaDiv = alpha != null ? FIELD_SCALE[alpha.type] : 1;\n const redDiv = red != null ? FIELD_SCALE[red.type] : 1;\n const greenDiv = green != null ? FIELD_SCALE[green.type] : 1;\n const blueDiv = blue != null ? FIELD_SCALE[blue.type] : 1;\n\n numSh = getNumSh(element.properties);\n prepareSh();\n\n return (index: number, item: Record) => {\n const scaleX = hasScales\n ? Math.exp(item.scale_0 as number)\n : PlyReader.defaultPointScale;\n const scaleY = hasScales\n ? Math.exp(item.scale_1 as number)\n : PlyReader.defaultPointScale;\n const scaleZ = hasScales\n ? Math.exp(item.scale_2 as number)\n : PlyReader.defaultPointScale;\n\n const quatX = hasRots ? (item.rot_1 as number) : 0;\n const quatY = hasRots ? (item.rot_2 as number) : 0;\n const quatZ = hasRots ? (item.rot_3 as number) : 0;\n const quatW = hasRots ? (item.rot_0 as number) : 1;\n\n const op =\n opacity != null\n ? 1.0 / (1.0 + Math.exp(-item.opacity as number))\n : alpha != null\n ? (item.alpha as number) / alphaDiv\n : 1.0;\n const r =\n f_dc_0 != null\n ? (item.f_dc_0 as number) * SH_C0 + 0.5\n : red != null\n ? (item.red as number) / redDiv\n : 1.0;\n const g =\n f_dc_1 != null\n ? (item.f_dc_1 as number) * SH_C0 + 0.5\n : green != null\n ? (item.green as number) / greenDiv\n : 1.0;\n const b =\n f_dc_2 != null\n ? (item.f_dc_2 as number) * SH_C0 + 0.5\n : blue != null\n ? (item.blue as number) / blueDiv\n : 1.0;\n\n splatCallback(\n index,\n item.x as number,\n item.y as number,\n item.z as number,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n op,\n r,\n g,\n b,\n );\n\n if (shCallback && sh1) {\n const sh = item.f_rest as number[];\n if (sh1) {\n for (let i = 0; i < sh1Props.length; i++) {\n sh1[i] = sh[sh1Props[i]];\n }\n }\n if (sh2) {\n for (let i = 0; i < sh2Props.length; i++) {\n sh2[i] = sh[sh2Props[i]];\n }\n }\n if (sh3) {\n for (let i = 0; i < sh3Props.length; i++) {\n sh3[i] = sh[sh3Props[i]];\n }\n }\n shCallback(index, sh1, sh2, sh3);\n }\n };\n };\n\n this.parseData(elementCallback);\n }\n\n // Inject RGBA values into original PLY file, which can be used to modify\n // the color/opacity of the Gsplats and write out the modified PLY file.\n injectRgba(rgba: Uint8Array) {\n // Go through the entire binary data of the PLY file, starting at offset 0\n let offset = 0;\n const data = this.data;\n if (data == null) {\n throw new Error(\"No parsed data\");\n }\n if (rgba.length !== this.numSplats * 4) {\n throw new Error(\"Invalid RGBA array length\");\n }\n\n for (const elementName in this.elements) {\n const element = this.elements[elementName];\n const { count, properties } = element;\n const parsers = [];\n\n let rgbaOffset = 0;\n const isVertex = elementName === \"vertex\";\n if (isVertex) {\n for (const name of [\"opacity\", \"f_dc_0\", \"f_dc_1\", \"f_dc_2\"]) {\n if (!properties[name] || properties[name].type !== \"float\") {\n throw new Error(`Can't injectRgba due to property: ${name}`);\n }\n }\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!property.isList) {\n if (isVertex) {\n if (\n propertyName === \"f_dc_0\" ||\n propertyName === \"f_dc_1\" ||\n propertyName === \"f_dc_2\"\n ) {\n const component = Number.parseInt(\n propertyName.slice(\"f_dc_\".length),\n );\n parsers.push(() => {\n // Inject DC coefficients\n const value =\n (rgba[rgbaOffset + component] / 255 - 0.5) / SH_C0;\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n } else if (propertyName === \"opacity\") {\n parsers.push(() => {\n // Inject opacity sigmoid, clamped to [-100, 100]\n const value = Math.max(\n -100,\n Math.min(\n 100,\n -Math.log(1.0 / (rgba[rgbaOffset + 3] / 255) - 1.0),\n ),\n );\n SET_FIELD[property.type](\n data,\n offset,\n this.littleEndian,\n value,\n );\n });\n }\n }\n parsers.push(() => {\n offset += FIELD_BYTES[property.type];\n });\n } else {\n parsers.push(() => {\n const length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n this.littleEndian,\n );\n offset += FIELD_BYTES[property.countType as PlyPropertyType];\n offset += length * FIELD_BYTES[property.type];\n });\n }\n }\n\n for (let index = 0; index < count; index++) {\n // Go through all the data and field parsers to compute offset\n for (const parser of parsers) {\n parser();\n }\n if (isVertex) {\n rgbaOffset += 4;\n }\n }\n }\n }\n}\n\nexport const SH_C0 = 0.28209479177387814;\n\ntype FieldParser = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n) => number;\ntype FieldSetter = (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n) => void;\n\nconst PARSE_FIELD: Record = {\n char: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt8(offset);\n },\n uchar: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint8(offset);\n },\n short: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt16(offset, littleEndian);\n },\n ushort: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint16(offset, littleEndian);\n },\n int: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getInt32(offset, littleEndian);\n },\n uint: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getUint32(offset, littleEndian);\n },\n float: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat32(offset, littleEndian);\n },\n double: (data: DataView, offset: number, littleEndian: boolean) => {\n return data.getFloat64(offset, littleEndian);\n },\n};\n\nconst SET_FIELD: Record = {\n char: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt8(offset, value);\n },\n uchar: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint8(offset, value);\n },\n short: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt16(offset, value, littleEndian);\n },\n ushort: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint16(offset, value, littleEndian);\n },\n int: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setInt32(offset, value, littleEndian);\n },\n uint: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setUint32(offset, value, littleEndian);\n },\n float: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat32(offset, value, littleEndian);\n },\n double: (\n data: DataView,\n offset: number,\n littleEndian: boolean,\n value: number,\n ) => {\n data.setFloat64(offset, value, littleEndian);\n },\n};\n\nconst FIELD_BYTES: Record = {\n char: 1,\n uchar: 1,\n short: 2,\n ushort: 2,\n int: 4,\n uint: 4,\n float: 4,\n double: 8,\n};\n\nconst FIELD_SCALE: Record = {\n char: 127,\n uchar: 255,\n short: 32767,\n ushort: 65535,\n int: 2147483647,\n uint: 4294967295,\n float: 1,\n double: 1,\n};\n\nconst NUM_F_REST_TO_NUM_SH: Record = {\n 0: 0,\n 9: 1,\n 24: 2,\n 45: 3,\n};\nconst NUM_SH_TO_NUM_F_REST: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nconst F_REST_REGEX = /^f_rest_([0-9]{1,2})$/;\n\nfunction createEmptyItem(\n properties: Record,\n): Record {\n const item: Record = {};\n for (const [propertyName, property] of Object.entries(properties)) {\n // Treat f_rest properties as a single array for performance\n if (F_REST_REGEX.test(propertyName)) {\n item.f_rest = new Array(getNumSh(properties));\n } else {\n item[propertyName] = property.isList ? [] : 0;\n }\n }\n return item;\n}\n\nfunction createParseFn(\n properties: Record,\n littleEndian: boolean,\n) {\n if (USE_COMPILED_PARSER_FUNCTION && safeToCompile(properties)) {\n return createCompiledParserFn(properties, littleEndian);\n }\n return createDynamicParserFn(properties, littleEndian);\n}\n\n// Detect if unsafe eval is allowed in the current execution context\nconst UNSAFE_EVAL_ALLOWED = (() => {\n try {\n new Function(\"return 42;\");\n } catch (e) {\n return false;\n }\n return true;\n})();\nconst PROPERTY_NAME_REGEX = /^[a-zA-Z0-9_]+$/;\n\nfunction safeToCompile(properties: Record) {\n if (!UNSAFE_EVAL_ALLOWED) {\n return false;\n }\n\n for (const [propertyName, property] of Object.entries(properties)) {\n if (!PROPERTY_NAME_REGEX.test(propertyName)) {\n return false;\n }\n\n if (\n property.isList &&\n !PLY_PROPERTY_TYPES.includes(property.countType as PlyPropertyType)\n ) {\n return false;\n }\n\n if (!PLY_PROPERTY_TYPES.includes(property.type)) {\n return false;\n }\n }\n return true;\n}\n\nfunction createCompiledParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct the parser function source.\n const parserSrc: string[] = [\"let list;\"];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parserSrc.push(/*js*/ `\n item.f_rest[${fRestIndex}] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else if (!property.isList) {\n parserSrc.push(/*js*/ `\n item['${propertyName}'] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n `);\n } else {\n // Property is a list, so parse the count first\n parserSrc.push(/*js*/ `\n list = item['${propertyName}'];\n list.length = PARSE_FIELD['${property.countType}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.countType as PlyPropertyType]};\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD['${property.type}'](data, offset, ${littleEndian});\n offset += ${FIELD_BYTES[property.type]};\n }\n `);\n }\n }\n parserSrc.push(\"return offset;\");\n\n const fn = new Function(\n \"data\",\n \"offset\",\n \"item\",\n \"PARSE_FIELD\",\n parserSrc.join(\"\\n\"),\n );\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => fn(data, offset, item, PARSE_FIELD);\n}\n\nfunction createDynamicParserFn(\n properties: Record,\n littleEndian: boolean,\n) {\n // Construct an array of parser function to parse each property in an item\n const parsers: Array<\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => number\n > = [];\n for (const [propertyName, property] of Object.entries(properties)) {\n const fRestMatch = propertyName.match(F_REST_REGEX);\n if (fRestMatch) {\n const fRestIndex = +fRestMatch[1];\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n (item.f_rest as number[])[fRestIndex] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else if (!property.isList) {\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n item[propertyName] = PARSE_FIELD[property.type](\n data,\n offset,\n littleEndian,\n );\n return offset + FIELD_BYTES[property.type];\n },\n );\n } else {\n // Property is a list, so parse the count first\n parsers.push(\n (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n const list = item[propertyName] as number[];\n list.length = PARSE_FIELD[property.countType as PlyPropertyType](\n data,\n offset,\n littleEndian,\n );\n let currentOffset =\n offset + FIELD_BYTES[property.countType as PlyPropertyType];\n for (let i = 0; i < list.length; i++) {\n list[i] = PARSE_FIELD[property.type](\n data,\n currentOffset,\n littleEndian,\n );\n currentOffset += FIELD_BYTES[property.type];\n }\n return currentOffset;\n },\n );\n }\n }\n\n return (\n data: DataView,\n offset: number,\n item: Record,\n ) => {\n let currentOffset = offset;\n for (let parserIndex = 0; parserIndex < parsers.length; parserIndex++) {\n currentOffset = parsers[parserIndex](data, currentOffset, item);\n }\n return currentOffset;\n };\n}\n\nfunction getNumSh(properties: Record) {\n let num_f_rest = 0;\n while (properties[`f_rest_${num_f_rest}`]) {\n num_f_rest += 1;\n }\n const numSh = NUM_F_REST_TO_NUM_SH[num_f_rest];\n if (numSh == null) {\n throw new Error(`Unsupported number of SH coefficients: ${num_f_rest}`);\n }\n return numSh;\n}\n\ntype SSChunk = {\n min_x: number;\n min_y: number;\n min_z: number;\n max_x: number;\n max_y: number;\n max_z: number;\n min_scale_x: number;\n min_scale_y: number;\n min_scale_z: number;\n max_scale_x: number;\n max_scale_y: number;\n max_scale_z: number;\n min_r?: number;\n min_g?: number;\n min_b?: number;\n max_r?: number;\n max_g?: number;\n max_b?: number;\n};\n","import { unzipSync } from \"fflate\";\nimport { FileLoader, Loader, type LoadingManager } from \"three\";\nimport { ExtSplats, type ExtSplatsOptions } from \"./ExtSplats\";\nimport { withWorker } from \"./OldSplatWorker\";\nimport { PackedSplats, type PackedSplatsOptions } from \"./PackedSplats\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport { type SplatEncoding, SplatFileType } from \"./defines\";\nimport { PlyReader } from \"./ply\";\nimport { decompressPartialGzip, getTextureSize } from \"./utils\";\n\n// SplatLoader implements the THREE.Loader interface and supports loading a variety\n// of different Gsplat file formats. Formats .PLY and .SPZ can be auto-detected\n// from the file contents, while .SPLAT and .KSPLAT require either having the\n// appropriate file extension as part of the path, or it can be explicitly set\n// in the loader using the fileType property.\n\nexport class SplatLoader extends Loader {\n fileLoader: FileLoader;\n\n constructor(manager?: LoadingManager) {\n super(manager);\n this.fileLoader = new FileLoader(manager);\n }\n\n load(\n url: string,\n onLoad?: (decoded: PackedSplats | ExtSplats) => void,\n onProgress?: (event: ProgressEvent) => void,\n onError?: (error: unknown) => void,\n ) {\n return this.loadInternal({\n url,\n onLoad,\n onProgress,\n onError,\n });\n }\n\n async loadAsync(\n url: string,\n onProgress?: (event: ProgressEvent) => void,\n ): Promise {\n return new Promise((resolve, reject) => {\n this.load(\n url,\n (decoded) => {\n resolve(decoded);\n },\n onProgress,\n reject,\n );\n });\n }\n\n parse(packedSplats: PackedSplats): SplatMesh {\n return new SplatMesh({ packedSplats });\n }\n\n loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad,\n onProgress,\n onError,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onLoad?: (decoded: PackedSplats | ExtSplats) => void;\n onProgress?: (event: ProgressEvent) => void;\n onError?: (error: unknown) => void;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n if (fileBytes instanceof ArrayBuffer) {\n fileBytes = new Uint8Array(fileBytes);\n }\n const resolvedURL = fileBytes\n ? undefined\n : this.manager.resolveURL((this.path ?? \"\") + (url ?? \"\"));\n\n let readStream = stream?.getReader();\n\n this.manager.itemStart(resolvedURL ?? \"\");\n // let calledOnLoad = false;\n\n workerPool\n .withWorker(async (worker) => {\n // If LoD is set and not falsey\n const splatsLod = packedSplats?.lod ?? extSplats?.lod;\n if (splatsLod) {\n lod = splatsLod;\n }\n const splatsNonLod = packedSplats?.nonLod ?? extSplats?.nonLod;\n if (splatsNonLod !== undefined) {\n nonLod = splatsNonLod;\n }\n\n // let init: {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // } | null = null;\n // let initExt: {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // } | null = null;\n\n const onStatus = async (data: unknown) => {\n const { loaded, total } = data as { loaded: number; total: number };\n if (loaded !== undefined && onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n\n if ((data as { nextChunk?: boolean }).nextChunk) {\n let chunk: Uint8Array;\n if (!readStream) {\n chunk = new Uint8Array(0);\n } else {\n const { done, value } = await readStream.read();\n if (done) {\n readStream.releaseLock();\n readStream = undefined;\n chunk = new Uint8Array(0);\n } else {\n chunk = value;\n }\n }\n worker.call(\"nextChunk\", { chunk });\n }\n\n // if ((data as { orig?: unknown }).orig) {\n // if (extSplats) {\n // initExt = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // ext0: Uint32Array;\n // ext1: Uint32Array;\n // extra: Record;\n // };\n // extSplats.initialize({\n // numSplats: initExt?.numSplats,\n // extArrays: [initExt?.ext0, initExt?.ext1],\n // extra: initExt?.extra,\n // });\n // calledOnLoad = true;\n // onLoad?.(extSplats);\n // } else if (packedSplats) {\n // init = (data as { orig?: unknown }).orig as {\n // numSplats: number;\n // packedArray: Uint32Array;\n // extra: Record;\n // splatEncoding: SplatEncoding;\n // };\n // packedSplats.initialize({\n // numSplats: init?.numSplats,\n // packedArray: init?.packedArray,\n // extra: init?.extra,\n // splatEncoding: init?.splatEncoding,\n // });\n // calledOnLoad = true;\n // onLoad?.(packedSplats);\n // } else {\n // console.warn(\"No splats to initialize\");\n // }\n // }\n };\n\n const basedUrl = resolvedURL\n ? new URL(resolvedURL, window.location.href).toString()\n : undefined;\n const decoded = (await worker.call(\n extSplats ? \"loadExtSplats\" : \"loadPackedSplats\",\n {\n url: basedUrl,\n requestHeader: this.requestHeader,\n withCredentials: this.withCredentials,\n fileBytes: fileBytes?.slice(),\n fileType,\n pathName: resolvedURL || fileName,\n chunked: stream !== undefined,\n chunkedLength: streamLength,\n encoding: packedSplats?.splatEncoding,\n lod,\n lodBase,\n nonLod,\n lodAbove,\n },\n { onStatus },\n )) as {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n lodSplats?:\n | {\n numSplats: number;\n packedArray?: Uint32Array;\n ext0?: Uint32Array;\n ext1?: Uint32Array;\n extra: Record;\n splatEncoding?: SplatEncoding;\n }\n | PackedSplats\n | ExtSplats;\n };\n\n if (decoded.lodSplats) {\n if (extSplats) {\n decoded.lodSplats = new ExtSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n extArrays: [Uint32Array, Uint32Array];\n extra: Record;\n }),\n });\n } else {\n decoded.lodSplats = new PackedSplats({\n ...(decoded.lodSplats as {\n numSplats: number;\n packedArray: Uint32Array;\n extra: Record;\n splatEncoding: SplatEncoding;\n }),\n maxSplats: packedSplats?.maxSplats,\n });\n }\n }\n\n if (extSplats) {\n const initExtSplats = {\n // ...(initExt ?? {}),\n ...decoded,\n };\n extSplats.initialize(initExtSplats as ExtSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(extSplats);\n // }\n } else {\n const initSplats = {\n // ...(init ?? {}),\n ...decoded,\n };\n if (packedSplats) {\n packedSplats.initialize(initSplats as PackedSplatsOptions);\n // if (!calledOnLoad) {\n onLoad?.(packedSplats);\n // }\n } else {\n // if (!calledOnLoad) {\n onLoad?.(new PackedSplats(initSplats as PackedSplatsOptions));\n // }\n }\n }\n })\n .catch((error) => {\n this.manager.itemError(resolvedURL ?? \"\");\n onError?.(error);\n })\n .finally(() => {\n this.manager.itemEnd(resolvedURL ?? \"\");\n });\n }\n\n async loadInternalAsync({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n }: {\n packedSplats?: PackedSplats;\n extSplats?: ExtSplats;\n url?: string;\n fileBytes?: Uint8Array | ArrayBuffer;\n fileType?: SplatFileType;\n fileName?: string;\n stream?: ReadableStream;\n streamLength?: number;\n onProgress?: (event: ProgressEvent) => void;\n lod?: boolean;\n nonLod?: boolean;\n lodAbove?: number;\n lodBase?: number;\n }) {\n return new Promise((resolve, reject) => {\n this.loadInternal({\n packedSplats,\n extSplats,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onLoad: resolve,\n onProgress,\n onError: reject,\n lod,\n nonLod,\n lodAbove,\n lodBase,\n });\n });\n }\n}\n\nasync function fetchWithProgress(\n request: Request,\n onProgress?: (event: ProgressEvent) => void,\n) {\n const response = await fetch(request);\n if (!response.ok) {\n throw new Error(\n `${response.status} \"${response.statusText}\" fetching URL: ${request.url}`,\n );\n }\n if (!response.body) {\n throw new Error(`Response body is null for URL: ${request.url}`);\n }\n\n const reader = response.body.getReader();\n let loaded = 0;\n const chunks: Uint8Array[] = [];\n try {\n const contentLength = Number.parseInt(\n response.headers.get(\"Content-Length\") || \"0\",\n );\n const total = Number.isNaN(contentLength) ? 0 : contentLength;\n\n while (true) {\n const { done, value } = await reader.read();\n if (done) {\n break;\n }\n chunks.push(value);\n loaded += value.length;\n\n if (onProgress) {\n onProgress(\n new ProgressEvent(\"progress\", {\n lengthComputable: total !== 0,\n loaded,\n total,\n }),\n );\n }\n }\n } catch (err) {\n try {\n const reason = err instanceof Error ? err.message : \"Unknown error\";\n await reader.cancel(reason);\n } catch {}\n throw err;\n }\n\n // Combine chunks into a single buffer\n const bytes = new Uint8Array(loaded);\n let offset = 0;\n for (const chunk of chunks) {\n bytes.set(chunk, offset);\n offset += chunk.length;\n }\n return bytes.buffer;\n}\n\nexport function getSplatFileType(\n fileBytes: Uint8Array,\n): SplatFileType | undefined {\n const view = new DataView(fileBytes.buffer);\n const magic = view.getUint32(0, true);\n if ((magic & 0x00ffffff) === 0x00796c70) {\n return SplatFileType.PLY;\n }\n if ((magic & 0x00ffffff) === 0x00088b1f) {\n // Gzipped file, unpack beginning to check magic number\n const header = decompressPartialGzip(fileBytes, 4);\n const gView = new DataView(header.buffer);\n if (gView.getUint32(0, true) === 0x5053474e) {\n return SplatFileType.SPZ;\n }\n // Unknown Gzipped file type\n return undefined;\n }\n if (magic === 0x04034b50) {\n // PKZip file\n if (tryPcSogsZip(fileBytes)) {\n return SplatFileType.PCSOGSZIP;\n }\n // Unknown PKZip file type\n return undefined;\n }\n if (magic === 0x30444152) {\n return SplatFileType.RAD;\n }\n // Unknown file type\n return undefined;\n}\n\n// Returns the lowercased file extension from a path or URL\nexport function getFileExtension(pathOrUrl: string): string {\n const noTrailing = pathOrUrl.split(/[?#]/, 1)[0];\n const lastSlash = Math.max(\n noTrailing.lastIndexOf(\"/\"),\n noTrailing.lastIndexOf(\"\\\\\"),\n );\n const filename = noTrailing.slice(lastSlash + 1);\n const lastDot = filename.lastIndexOf(\".\");\n if (lastDot <= 0 || lastDot === filename.length - 1) {\n return \"\"; // No extension\n }\n return filename.slice(lastDot + 1).toLowerCase();\n}\n\nexport function getSplatFileTypeFromPath(\n pathOrUrl: string,\n): SplatFileType | undefined {\n const extension = getFileExtension(pathOrUrl);\n if (extension === \"ply\") {\n return SplatFileType.PLY;\n }\n if (extension === \"spz\") {\n return SplatFileType.SPZ;\n }\n if (extension === \"splat\") {\n return SplatFileType.SPLAT;\n }\n if (extension === \"ksplat\") {\n return SplatFileType.KSPLAT;\n }\n if (extension === \"sog\") {\n return SplatFileType.PCSOGSZIP;\n }\n if (extension === \"rad\") {\n return SplatFileType.RAD;\n }\n return undefined;\n}\n\nexport type PcSogsJson = {\n means: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n quats: { shape: number[]; dtype: string; encoding?: string; files: string[] };\n sh0: {\n shape: number[];\n dtype: string;\n mins: number[];\n maxs: number[];\n files: string[];\n };\n shN?: {\n shape: number[];\n dtype: string;\n mins: number;\n maxs: number;\n quantization: number;\n files: string[];\n };\n};\n\nexport type PcSogsV2Json = {\n version: 2;\n count: number;\n antialias?: boolean;\n means: {\n mins: number[];\n maxs: number[];\n files: string[];\n };\n scales: {\n codebook: number[];\n files: string[];\n };\n quats: { files: string[] };\n sh0: {\n codebook: number[];\n files: string[];\n };\n shN?: {\n count: number;\n bands: number;\n codebook: number[];\n files: string[];\n };\n};\n\nexport function isPcSogs(input: ArrayBuffer | Uint8Array | string): boolean {\n // Returns true if the input seems to be a valid PC SOGS file\n return tryPcSogs(input) !== undefined;\n}\n\nexport function tryPcSogs(\n input: ArrayBuffer | Uint8Array | string,\n): PcSogsJson | PcSogsV2Json | undefined {\n // Try to parse input as SOGS JSON and see if it's valid\n try {\n let text: string;\n if (typeof input === \"string\") {\n text = input;\n } else {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n if (fileBytes.length > 65536) {\n // Should be only a few KB, definitely not a SOGS JSON file\n return undefined;\n }\n text = new TextDecoder().decode(fileBytes);\n }\n\n const json = JSON.parse(text);\n if (!json || typeof json !== \"object\" || Array.isArray(json)) {\n return undefined;\n }\n const isVersion2 = json.version === 2;\n\n for (const key of [\"means\", \"scales\", \"quats\", \"sh0\"]) {\n if (\n !json[key] ||\n typeof json[key] !== \"object\" ||\n Array.isArray(json[key])\n ) {\n return undefined;\n }\n if (isVersion2) {\n // Expect files\n if (!json[key].files) {\n return undefined;\n }\n\n // Scales and sh0 should have codebooks\n if ((key === \"scales\" || key === \"sh0\") && !json[key].codebook) {\n return undefined;\n }\n // Means should have mins and maxs defined\n if (key === \"means\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n } else {\n // Expect shape and files\n if (!json[key].shape || !json[key].files) {\n return undefined;\n }\n // Besides 'quats' all other properties have mins and maxs\n if (key !== \"quats\" && (!json[key].mins || !json[key].maxs)) {\n return undefined;\n }\n }\n }\n // This is probably a PC SOGS file\n return json as PcSogsJson | PcSogsV2Json;\n } catch {\n return undefined;\n }\n}\n\nexport function tryPcSogsZip(\n input: ArrayBuffer | Uint8Array,\n): { name: string; json: PcSogsJson | PcSogsV2Json } | undefined {\n try {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let metaFilename: string | null = null;\n\n const unzipped = unzipSync(fileBytes, {\n filter: ({ name }) => {\n const filename = name.split(/[\\\\/]/).pop() as string;\n if (filename === \"meta.json\") {\n metaFilename = name;\n return true;\n }\n return false;\n },\n });\n if (!metaFilename) {\n return undefined;\n }\n\n // Check for PC SOGS V1 and V2 (aka SOG)\n const json = tryPcSogs(unzipped[metaFilename]);\n if (!json) {\n return undefined;\n }\n return { name: metaFilename, json };\n } catch {\n return undefined;\n }\n}\n\nexport async function unpackSplats({\n input,\n extraFiles,\n fileType,\n pathOrUrl,\n splatEncoding,\n}: {\n input: Uint8Array | ArrayBuffer;\n extraFiles?: Record;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n splatEncoding?: SplatEncoding;\n}): Promise<{\n packedArray: Uint32Array;\n numSplats: number;\n extra?: Record;\n}> {\n const fileBytes =\n input instanceof ArrayBuffer ? new Uint8Array(input) : input;\n let splatFileType = fileType;\n if (!fileType) {\n splatFileType = getSplatFileType(fileBytes);\n if (!splatFileType && pathOrUrl) {\n splatFileType = getSplatFileTypeFromPath(pathOrUrl);\n }\n }\n\n switch (splatFileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes });\n await ply.parseHeader();\n const numSplats = ply.numSplats;\n const maxSplats = getTextureSize(numSplats).maxSplats;\n const args = {\n fileBytes,\n packedArray: new Uint32Array(maxSplats * 4),\n splatEncoding,\n };\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"unpackPly\",\n args,\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPZ: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeSpz\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.SPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats } = (await worker.call(\n \"decodeAntiSplat\",\n {\n fileBytes,\n splatEncoding,\n },\n )) as { packedArray: Uint32Array; numSplats: number };\n return { packedArray, numSplats };\n });\n }\n case SplatFileType.KSPLAT: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodeKsplat\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGS: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogs\",\n { fileBytes, extraFiles, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n case SplatFileType.PCSOGSZIP: {\n return await withWorker(async (worker) => {\n const { packedArray, numSplats, extra } = (await worker.call(\n \"decodePcSogsZip\",\n { fileBytes, splatEncoding },\n )) as {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n };\n return { packedArray, numSplats, extra };\n });\n }\n default: {\n throw new Error(`Unknown splat file type: ${splatFileType}`);\n }\n }\n}\n\nexport class SplatData {\n numSplats: number;\n maxSplats: number;\n centers: Float32Array;\n scales: Float32Array;\n quaternions: Float32Array;\n opacities: Float32Array;\n colors: Float32Array;\n sh1?: Float32Array;\n sh2?: Float32Array;\n sh3?: Float32Array;\n\n constructor({ maxSplats = 1 }: { maxSplats?: number } = {}) {\n this.numSplats = 0;\n this.maxSplats = getTextureSize(maxSplats).maxSplats;\n this.centers = new Float32Array(this.maxSplats * 3);\n this.scales = new Float32Array(this.maxSplats * 3);\n this.quaternions = new Float32Array(this.maxSplats * 4);\n this.opacities = new Float32Array(this.maxSplats);\n this.colors = new Float32Array(this.maxSplats * 3);\n }\n\n pushSplat(): number {\n const index = this.numSplats;\n this.ensureIndex(index);\n this.numSplats += 1;\n return index;\n }\n\n unpushSplat(index: number) {\n if (index === this.numSplats - 1) {\n this.numSplats -= 1;\n } else {\n throw new Error(\"Cannot unpush splat from non-last position\");\n }\n }\n\n ensureCapacity(numSplats: number) {\n if (numSplats > this.maxSplats) {\n const targetSplats = Math.max(numSplats, this.maxSplats * 2);\n const newCenters = new Float32Array(targetSplats * 3);\n const newScales = new Float32Array(targetSplats * 3);\n const newQuaternions = new Float32Array(targetSplats * 4);\n const newOpacities = new Float32Array(targetSplats);\n const newColors = new Float32Array(targetSplats * 3);\n newCenters.set(this.centers);\n newScales.set(this.scales);\n newQuaternions.set(this.quaternions);\n newOpacities.set(this.opacities);\n newColors.set(this.colors);\n this.centers = newCenters;\n this.scales = newScales;\n this.quaternions = newQuaternions;\n this.opacities = newOpacities;\n this.colors = newColors;\n\n if (this.sh1) {\n const newSh1 = new Float32Array(targetSplats * 9);\n newSh1.set(this.sh1);\n this.sh1 = newSh1;\n }\n if (this.sh2) {\n const newSh2 = new Float32Array(targetSplats * 15);\n newSh2.set(this.sh2);\n this.sh2 = newSh2;\n }\n if (this.sh3) {\n const newSh3 = new Float32Array(targetSplats * 21);\n newSh3.set(this.sh3);\n this.sh3 = newSh3;\n }\n\n this.maxSplats = targetSplats;\n }\n }\n\n ensureIndex(index: number) {\n this.ensureCapacity(index + 1);\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n this.centers[index * 3] = x;\n this.centers[index * 3 + 1] = y;\n this.centers[index * 3 + 2] = z;\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n this.scales[index * 3] = scaleX;\n this.scales[index * 3 + 1] = scaleY;\n this.scales[index * 3 + 2] = scaleZ;\n }\n\n setQuaternion(index: number, x: number, y: number, z: number, w: number) {\n this.quaternions[index * 4] = x;\n this.quaternions[index * 4 + 1] = y;\n this.quaternions[index * 4 + 2] = z;\n this.quaternions[index * 4 + 3] = w;\n }\n\n setOpacity(index: number, opacity: number) {\n this.opacities[index] = opacity;\n }\n\n setColor(index: number, r: number, g: number, b: number) {\n this.colors[index * 3] = r;\n this.colors[index * 3 + 1] = g;\n this.colors[index * 3 + 2] = b;\n }\n\n setSh1(index: number, sh1: Float32Array) {\n if (!this.sh1) {\n this.sh1 = new Float32Array(this.maxSplats * 9);\n }\n for (let j = 0; j < 9; ++j) {\n this.sh1[index * 9 + j] = sh1[j];\n }\n }\n\n setSh2(index: number, sh2: Float32Array) {\n if (!this.sh2) {\n this.sh2 = new Float32Array(this.maxSplats * 15);\n }\n for (let j = 0; j < 15; ++j) {\n this.sh2[index * 15 + j] = sh2[j];\n }\n }\n\n setSh3(index: number, sh3: Float32Array) {\n if (!this.sh3) {\n this.sh3 = new Float32Array(this.maxSplats * 21);\n }\n for (let j = 0; j < 21; ++j) {\n this.sh3[index * 21 + j] = sh3[j];\n }\n }\n}\n\nexport async function transcodeSpz(\n input: TranscodeSpzInput,\n): Promise<{ input: TranscodeSpzInput; fileBytes: Uint8Array }> {\n return await withWorker(async (worker) => {\n const result = (await worker.call(\"transcodeSpz\", input)) as {\n input: TranscodeSpzInput;\n fileBytes: Uint8Array;\n };\n return result;\n });\n}\n\nexport type FileInput = {\n fileBytes: Uint8Array;\n fileType?: SplatFileType;\n pathOrUrl?: string;\n transform?: { translate?: number[]; quaternion?: number[]; scale?: number };\n};\n\nexport type TranscodeSpzInput = {\n inputs: FileInput[];\n maxSh?: number;\n clipXyz?: { min: number[]; max: number[] };\n fractionalBits?: number;\n opacityThreshold?: number;\n};\n","import * as THREE from \"three\";\nimport { FullScreenQuad } from \"three/addons/postprocessing/Pass.js\";\n\nimport type { RgbaArray } from \"./RgbaArray\";\nimport type { GsplatGenerator } from \"./SplatGenerator\";\nimport { SplatLoader } from \"./SplatLoader\";\nimport type { SplatSource } from \"./SplatMesh\";\nimport { workerPool } from \"./SplatWorker\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n SPLAT_TEX_HEIGHT,\n SPLAT_TEX_WIDTH,\n type SplatEncoding,\n type SplatFileType,\n} from \"./defines\";\nimport {\n Dyno,\n DynoInt,\n DynoProgram,\n DynoProgramTemplate,\n type DynoType,\n DynoUniform,\n DynoUsampler2DArray,\n type DynoVal,\n DynoVec3,\n DynoVec4,\n add,\n dynoBlock,\n normalize,\n outputPackedSplat,\n sub,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport {\n type Gsplat,\n TPackedSplats,\n combineGsplat,\n definePackedSplats,\n readPackedSplat,\n splatTexCoord,\n splitGsplat,\n} from \"./dyno/splats\";\nimport { getShaders } from \"./shaders\";\nimport { getTextureSize, setPackedSplat, unpackSplat } from \"./utils\";\n\n// Initialize a PackedSplats collection from source data via\n// url, fileBytes, or packedArray. Creates an empty array if none are set,\n// and splat data can be constructed using pushSplat()/setSplat(). The maximum\n// splat size allocation will grow automatically, starting from maxSplats.\nexport type PackedSplatsOptions = {\n // URL to fetch a Gaussian splat file from (supports .ply, .splat, .ksplat,\n // .spz formats). (default: undefined)\n url?: string;\n // Raw bytes of a Gaussian splat file to decode directly instead of fetching\n // from URL. (default: undefined)\n fileBytes?: Uint8Array | ArrayBuffer;\n // Override the file type detection for formats that can't be reliably\n // auto-detected (.splat, .ksplat). (default: undefined auto-detects other\n // formats from file contents)\n fileType?: SplatFileType;\n // File name to use for type detection. (default: undefined)\n fileName?: string;\n // Stream to read the Gaussian splat file from. (default: undefined)\n stream?: ReadableStream;\n // Length of the stream in bytes. (default: undefined)\n streamLength?: number;\n // Reserve space for at least this many splats when constructing the collection\n // initially. The array will automatically resize past maxSplats so setting it is\n // an optional optimization. (default: 0)\n maxSplats?: number;\n // Use provided packed data array, where each 4 consecutive uint32 values\n // encode one \"packed\" Gsplat. (default: undefined)\n packedArray?: Uint32Array;\n // Override number of splats in packed array to use only a subset.\n // (default: length of packed array / 4)\n numSplats?: number;\n // Callback function to programmatically create splats at initialization.\n // (default: undefined)\n construct?: (splats: PackedSplats) => Promise | void;\n // Callback function called while downloading and initializing (default: undefined)\n onProgress?: (event: ProgressEvent) => void;\n // Additional splat data, such as spherical harmonics components (sh1, sh2, sh3). (default: {})\n extra?: Record;\n // Override the default splat encoding ranges for the PackedSplats.\n // (default: undefined)\n splatEncoding?: SplatEncoding;\n // Enable LOD. If a number is provided, it will be used as LoD level base,\n // otherwise the default 1.5 is used. When loading a file without pre-computed\n // LoD it will use the \"quick lod\" algorithm to generate one on-the-fly with\n // the selected LoD level base. (default: undefined=false)\n lod?: boolean | \"quality\";\n // Keep the original PackedSplats data before creating LoD version. (default: false)\n nonLod?: boolean;\n // Only create LoD if the input splat acount is above this\n lodAbove?: number;\n // The LoD version of the PackedSplats\n lodSplats?: PackedSplats;\n};\n\n// A PackedSplats is a collection of Gaussian splats, packed into a format that\n// takes exactly 16 bytes per Gsplat to maximize memory and cache efficiency.\n// The center xyz coordinates are encoded as float16 (3 x 2 bytes), scale xyz\n// as 3 x uint8 that encode a log scale from e^-12 to e^9, rgba as 4 x uint8,\n// and quaternion encoded via axis+angle using 2 x uint8 for octahedral encoding\n// of the axis direction and a uint8 to encode rotation amount from 0..Pi.\n\nexport class PackedSplats implements SplatSource {\n maxSplats = 0;\n numSplats = 0;\n packedArray: Uint32Array | null = null;\n extra: Record;\n maxSh = 3;\n splatEncoding?: SplatEncoding;\n lod?: boolean | \"quality\";\n nonLod?: boolean;\n lodSplats?: PackedSplats;\n\n initialized: Promise;\n isInitialized = false;\n\n // Either target or source will be non-null, depending on whether the PackedSplats\n // is being used as a data source or generated to.\n target: THREE.WebGLArrayRenderTarget | null = null;\n source: THREE.DataArrayTexture | null = null;\n // Set to true if source packedArray is updated to have it upload to GPU\n needsUpdate = true;\n\n // A PackedSplats can be used in a dyno graph using the below property dyno:\n // const gsplat = dyno.readPackedSplats(this.dyno, dynoIndex);\n dyno: DynoUniform;\n dynoRgbMinMaxLnScaleMinMax: DynoUniform<\"vec4\", \"rgbMinMaxLnScaleMinMax\">;\n dynoNumSh: DynoInt<\"numSh\">;\n dynoShMax: DynoVec3;\n\n constructor(options: PackedSplatsOptions = {}) {\n this.extra = {};\n this.dyno = new DynoPackedSplats({ packedSplats: this });\n this.dynoRgbMinMaxLnScaleMinMax = new DynoVec4({\n key: \"rgbMinMaxLnScaleMinMax\",\n value: new THREE.Vector4(0.0, 1.0, LN_SCALE_MIN, LN_SCALE_MAX),\n update: (value) => {\n value.set(\n this.splatEncoding?.rgbMin ?? 0.0,\n this.splatEncoding?.rgbMax ?? 1.0,\n this.splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n this.splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n );\n return value;\n },\n });\n this.dynoNumSh = new DynoInt({\n key: \"numSh\",\n value: 0,\n update: () => {\n return Math.min(this.getNumSh(), this.maxSh);\n },\n });\n this.dynoShMax = new DynoVec3({\n key: \"shMax\",\n value: new THREE.Vector3(),\n update: (value) => {\n value.set(\n this.splatEncoding?.sh1Max ?? 1.0,\n this.splatEncoding?.sh2Max ?? 1.0,\n this.splatEncoding?.sh3Max ?? 1.0,\n );\n return value;\n },\n });\n\n // The following line will be overridden by reinitialize()\n this.initialized = Promise.resolve(this);\n this.reinitialize(options);\n }\n\n reinitialize(options: PackedSplatsOptions) {\n this.isInitialized = false;\n\n this.extra = {};\n this.maxSplats = options.maxSplats ?? 0;\n this.splatEncoding = options.splatEncoding;\n this.lod = options.lod;\n this.nonLod = options.nonLod;\n\n if (\n options.url ||\n options.fileBytes ||\n options.stream ||\n options.construct\n ) {\n // We need to initialize asynchronously given the options\n this.initialized = this.asyncInitialize(options).then(() => {\n this.isInitialized = true;\n return this;\n });\n } else {\n this.initialize(options);\n this.isInitialized = true;\n this.initialized = Promise.resolve(this);\n }\n }\n\n initialize(options: PackedSplatsOptions) {\n this.extra = options.extra ?? {};\n this.splatEncoding = options.splatEncoding ?? this.splatEncoding;\n this.lodSplats = options.lodSplats;\n\n if (options.packedArray) {\n this.packedArray = options.packedArray;\n this.numSplats = options.numSplats ?? this.packedArray.length / 4;\n\n // Calculate number of horizontal texture rows that could fit in array.\n // A properly initialized packedArray should already take into account the\n // width and height of the texture and be rounded up with padding.\n this.maxSplats = Math.floor(this.packedArray.length / 4);\n this.maxSplats =\n Math.floor(this.maxSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n this.numSplats = Math.min(\n this.maxSplats,\n options.numSplats ?? Number.POSITIVE_INFINITY,\n );\n } else {\n this.maxSplats = options.maxSplats ?? 0;\n this.numSplats = 0;\n }\n }\n\n async asyncInitialize(options: PackedSplatsOptions) {\n const {\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n construct,\n lod,\n nonLod,\n lodAbove,\n } = options;\n this.lod = lod;\n this.nonLod = nonLod;\n\n const loader = new SplatLoader();\n if (fileBytes || url || stream) {\n await loader.loadInternalAsync({\n packedSplats: this,\n url,\n fileBytes,\n fileType,\n fileName,\n stream,\n streamLength,\n onProgress: options.onProgress,\n lodAbove,\n });\n }\n\n if (construct) {\n const maybePromise = construct(this);\n // If construct returns a promise, wait for it to complete\n if (maybePromise instanceof Promise) {\n await maybePromise;\n }\n }\n }\n\n // Call this when you are finished with the PackedSplats and want to free\n // any buffers it holds.\n dispose() {\n if (this.target) {\n this.target.dispose();\n this.target.texture.source.data = null;\n this.target = null;\n }\n if (this.source) {\n this.source.dispose();\n this.source.source.data = null;\n this.source = null;\n }\n\n this.packedArray = null;\n\n for (const key in this.extra) {\n const dyno = this.extra[key] as DynoUniform<\n DynoType,\n string,\n THREE.Texture\n >;\n if (dyno instanceof DynoUniform) {\n const texture = dyno.value;\n if (texture?.isTexture) {\n texture.dispose();\n texture.source.data = null;\n }\n }\n }\n this.extra = {};\n\n this.disposeLodSplats();\n }\n\n prepareFetchSplat() {\n // console.info(\"PackedSplats.prepareFetchSplat\");\n }\n\n getNumSplats(): number {\n return this.numSplats;\n }\n\n hasRgbDir(): boolean {\n return Math.min(this.getNumSh(), this.maxSh) > 0;\n }\n\n getNumSh(): number {\n return !this.extra.sh1 ? 0 : !this.extra.sh2 ? 1 : !this.extra.sh3 ? 2 : 3;\n }\n\n setMaxSh(maxSh: number) {\n this.maxSh = maxSh;\n }\n\n fetchSplat({\n index,\n viewOrigin,\n }: { index: DynoVal<\"int\">; viewOrigin?: DynoVal<\"vec3\"> }): DynoVal<\n typeof Gsplat\n > {\n let gsplat = readPackedSplat(this.dyno, index);\n\n if (this.hasRgbDir() && viewOrigin) {\n const splatCenter = splitGsplat(gsplat).outputs.center;\n const viewDir = normalize(sub(splatCenter, viewOrigin));\n const { sh1Texture, sh2Texture, sh3Texture } = this.ensureShTextures();\n let { rgb } = evaluatePackedSH({\n coord: splatTexCoord(index),\n viewDir,\n numSh: this.dynoNumSh,\n sh1Texture,\n sh2Texture,\n sh3Texture,\n shMax: this.dynoShMax,\n });\n rgb = add(rgb, splitGsplat(gsplat).outputs.rgb);\n gsplat = combineGsplat({ gsplat, rgb });\n }\n return gsplat;\n }\n\n private ensureShTextures(): {\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3Texture?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n } {\n // Ensure we have textures for SH1..SH3 if we have data\n if (!this.extra.sh1) {\n return {};\n }\n\n let sh1Texture = this.extra.sh1Texture as\n | DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>\n | undefined;\n if (!sh1Texture) {\n let sh1 = this.extra.sh1 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh1.length / 2,\n );\n if (sh1.length < maxSplats * 2) {\n const newSh1 = new Uint32Array(maxSplats * 2);\n newSh1.set(sh1);\n this.extra.sh1 = newSh1;\n sh1 = newSh1;\n }\n\n const texture = new THREE.DataArrayTexture(sh1, width, height, depth);\n texture.format = THREE.RGIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RG32UI\";\n texture.needsUpdate = true;\n\n sh1Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh1\",\n });\n this.extra.sh1Texture = sh1Texture;\n }\n\n if (!this.extra.sh2) {\n return { sh1Texture };\n }\n\n let sh2Texture = this.extra.sh2Texture as\n | DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>\n | undefined;\n if (!sh2Texture) {\n let sh2 = this.extra.sh2 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh2.length / 4,\n );\n if (sh2.length < maxSplats * 4) {\n const newSh2 = new Uint32Array(maxSplats * 4);\n newSh2.set(sh2);\n this.extra.sh2 = newSh2;\n sh2 = newSh2;\n }\n\n const texture = new THREE.DataArrayTexture(sh2, width, height, depth);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n\n sh2Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh2\",\n });\n this.extra.sh2Texture = sh2Texture;\n }\n\n if (!this.extra.sh3) {\n return { sh1Texture, sh2Texture };\n }\n\n let sh3Texture = this.extra.sh3Texture as\n | DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>\n | undefined;\n if (!sh3Texture) {\n let sh3 = this.extra.sh3 as Uint32Array;\n const { width, height, depth, maxSplats } = getTextureSize(\n sh3.length / 4,\n );\n if (sh3.length < maxSplats * 4) {\n const newSh3 = new Uint32Array(maxSplats * 4);\n newSh3.set(sh3);\n this.extra.sh3 = newSh3;\n sh3 = newSh3;\n }\n\n const texture = new THREE.DataArrayTexture(sh3, width, height, depth);\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n\n sh3Texture = new DynoUsampler2DArray({\n value: texture,\n key: \"sh3\",\n });\n this.extra.sh3Texture = sh3Texture;\n }\n\n return { sh1Texture, sh2Texture, sh3Texture };\n }\n\n // Ensures that this.packedArray can fit numSplats Gsplats. If it's too small,\n // resize exponentially and copy over the original data.\n //\n // Typically you don't need to call this, because calling this.setSplat(index, ...)\n // and this.pushSplat(...) will automatically call ensureSplats() so we have\n // enough splats.\n ensureSplats(numSplats: number): Uint32Array {\n const targetSize =\n numSplats <= this.maxSplats\n ? this.maxSplats\n : // Grow exponentially to avoid frequent reallocations\n Math.max(numSplats, 2 * this.maxSplats);\n const currentSize = !this.packedArray ? 0 : this.packedArray.length / 4;\n\n if (!this.packedArray || targetSize > currentSize) {\n this.maxSplats = getTextureSize(targetSize).maxSplats;\n const newArray = new Uint32Array(this.maxSplats * 4);\n if (this.packedArray) {\n // Copy over existing data\n newArray.set(this.packedArray);\n }\n this.packedArray = newArray;\n }\n return this.packedArray;\n }\n\n // Ensure the extra array for the given level is large enough to hold numSplats\n ensureSplatsSh(level: number, numSplats: number): Uint32Array {\n let wordsPerSplat: number;\n let key: string;\n if (level === 0) {\n return this.ensureSplats(numSplats);\n }\n if (level === 1) {\n // 3 x 3 uint7 = 63 bits = 2 uint32\n wordsPerSplat = 2;\n key = \"sh1\";\n } else if (level === 2) {\n // 5 x 3 uint8 = 120 bits = 4 uint32\n wordsPerSplat = 4;\n key = \"sh2\";\n } else if (level === 3) {\n // 7 x 3 uint6 = 126 bits = 4 uint32\n wordsPerSplat = 4;\n key = \"sh3\";\n } else {\n throw new Error(`Invalid level: ${level}`);\n }\n\n // Figure out our current and desired maxSplats\n let maxSplats: number = !this.extra[key]\n ? 0\n : (this.extra[key] as Uint32Array).length / wordsPerSplat;\n const targetSize =\n numSplats <= maxSplats ? maxSplats : Math.max(numSplats, 2 * maxSplats);\n\n if (!this.extra[key] || targetSize > maxSplats) {\n // Reallocate the array\n maxSplats = getTextureSize(targetSize).maxSplats;\n const newArray = new Uint32Array(maxSplats * wordsPerSplat);\n if (this.extra[key]) {\n // Copy over existing data\n newArray.set(this.extra[key] as Uint32Array);\n }\n this.extra[key] = newArray;\n }\n return this.extra[key] as Uint32Array;\n }\n\n // Unpack the 16-byte Gsplat data at index into the Three.js components\n // center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion,\n // opacity: number 0..1, color: THREE.Color 0..1.\n getSplat(index: number): {\n center: THREE.Vector3;\n scales: THREE.Vector3;\n quaternion: THREE.Quaternion;\n opacity: number;\n color: THREE.Color;\n } {\n if (!this.packedArray || index >= this.numSplats) {\n throw new Error(\"Invalid index\");\n }\n return unpackSplat(this.packedArray, index, this.splatEncoding);\n }\n\n // Set all PackedSplat components at index with the provided Gsplat attributes\n // (can be the same objects returned by getSplat). Ensures there is capacity\n // for at least index+1 Gsplats.\n setSplat(\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const packedSplats = this.ensureSplats(index + 1);\n setPackedSplat(\n packedSplats,\n index,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n this.numSplats = Math.max(this.numSplats, index + 1);\n }\n\n // Effectively calls this.setSplat(this.numSplats++, center, ...), useful on\n // construction where you just want to iterate and create a collection of Gsplats.\n pushSplat(\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) {\n const packedSplats = this.ensureSplats(this.numSplats + 1);\n setPackedSplat(\n packedSplats,\n this.numSplats,\n center.x,\n center.y,\n center.z,\n scales.x,\n scales.y,\n scales.z,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n opacity,\n color.r,\n color.g,\n color.b,\n );\n ++this.numSplats;\n }\n\n // Iterate over Gsplats index 0..=(this.numSplats-1), unpack each Gsplat\n // and invoke the callback function with the Gsplat attributes.\n forEachSplat(\n callback: (\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => void,\n ) {\n if (!this.packedArray || !this.numSplats) {\n return;\n }\n for (let i = 0; i < this.numSplats; ++i) {\n const unpacked = unpackSplat(this.packedArray, i, this.splatEncoding);\n callback(\n i,\n unpacked.center,\n unpacked.scales,\n unpacked.quaternion,\n unpacked.opacity,\n unpacked.color,\n );\n }\n }\n\n // Ensures our PackedSplats.target render target has enough space to generate\n // maxSplats total Gsplats, and reallocate if not large enough.\n ensureGenerate(maxSplats: number): boolean {\n if (this.target && (maxSplats ?? 1) <= this.maxSplats) {\n return false;\n }\n if (this.target) {\n this.target.dispose();\n }\n\n const textureSize = getTextureSize(maxSplats ?? 1);\n const { width, height, depth } = textureSize;\n this.maxSplats = textureSize.maxSplats;\n\n // The packed Gsplats are stored in a 2D array texture of max size\n // 2048 x 2048 x 2048, one RGBA32UI pixel = 4 uint32 = one Gsplat\n this.target = new THREE.WebGLArrayRenderTarget(width, height, depth, {\n depthBuffer: false,\n stencilBuffer: false,\n generateMipmaps: false,\n magFilter: THREE.NearestFilter,\n minFilter: THREE.NearestFilter,\n });\n this.target.texture.format = THREE.RGBAIntegerFormat;\n this.target.texture.type = THREE.UnsignedIntType;\n this.target.texture.internalFormat = \"RGBA32UI\";\n this.target.scissorTest = true;\n return true;\n }\n\n // Given an array of splatCounts (.numSplats for each\n // SplatGenerator/SplatMesh in the scene), compute a\n // \"mapping layout\" in the composite array of generated outputs.\n generateMapping(splatCounts: number[]): {\n maxSplats: number;\n mapping: { base: number; count: number }[];\n } {\n let maxSplats = 0;\n const mapping = splatCounts.map((numSplats) => {\n const base = maxSplats;\n // Generation happens in horizontal row chunks, so round up to full width\n const rounded = Math.ceil(numSplats / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n maxSplats += rounded;\n return { base, count: numSplats };\n });\n return { maxSplats, mapping };\n }\n\n // Returns a THREE.DataArrayTexture representing the PackedSplats content as\n // a Uint32x4 data array texture (2048 x 2048 x depth in size)\n getTexture(): THREE.DataArrayTexture {\n if (this.target) {\n // Return the render target's texture\n return this.target.texture;\n }\n if (this.source || this.packedArray) {\n // Update source texture if needed and return\n const source = this.maybeUpdateSource();\n return source;\n }\n\n return PackedSplats.getEmptyArray;\n }\n\n // Check if source texture needs to be created/updated\n private maybeUpdateSource(): THREE.DataArrayTexture {\n if (!this.packedArray) {\n throw new Error(\"No packed splats\");\n }\n\n if (this.needsUpdate || !this.source) {\n this.needsUpdate = false;\n\n if (this.source) {\n const { width, height, depth } = this.source.image;\n if (this.maxSplats !== width * height * depth) {\n // The existing source texture isn't the right size, so dispose it\n this.source.dispose();\n this.source = null;\n }\n }\n if (!this.source) {\n // Allocate a new source texture of the right size\n const { width, height, depth } = getTextureSize(this.maxSplats);\n this.source = new THREE.DataArrayTexture(\n this.packedArray as Uint32Array,\n width,\n height,\n depth,\n );\n this.source.format = THREE.RGBAIntegerFormat;\n this.source.type = THREE.UnsignedIntType;\n this.source.internalFormat = \"RGBA32UI\";\n this.source.needsUpdate = true;\n } else if (this.packedArray.buffer !== this.source.image.data.buffer) {\n // The source texture is the right size, update the data\n this.source.image.data = new Uint8Array(this.packedArray.buffer);\n }\n // Indicate to Three.js that the source texture needs to be uploaded to the GPU\n this.source.needsUpdate = true;\n }\n return this.source;\n }\n\n static getEmptyArray = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n // Get a program and THREE.RawShaderMaterial for a given GsplatGenerator,\n // generating it if necessary and caching the result.\n prepareProgramMaterial(generator: GsplatGenerator): {\n program: DynoProgram;\n material: THREE.RawShaderMaterial;\n } {\n let program = PackedSplats.generatorProgram.get(generator);\n if (!program) {\n // A Gsplat needs to be turned into a packed uvec4 for the dyno graph\n const graph = dynoBlock(\n { index: \"int\" },\n {},\n ({ index }, _outputs, { roots }) => {\n generator.inputs.index = index;\n const gsplat = generator.outputs.gsplat;\n const output = outputPackedSplat(\n gsplat,\n this.dynoRgbMinMaxLnScaleMinMax,\n );\n roots.push(output);\n return undefined;\n },\n );\n if (!PackedSplats.programTemplate) {\n PackedSplats.programTemplate = new DynoProgramTemplate(\n getShaders().computeUvec4Template,\n );\n }\n // Create a program from the template and graph\n program = new DynoProgram({\n graph,\n inputs: { index: \"_index\" },\n outputs: { output: \"target\" },\n template: PackedSplats.programTemplate,\n });\n Object.assign(program.uniforms, {\n targetLayer: { value: 0 },\n targetBase: { value: 0 },\n targetCount: { value: 0 },\n });\n PackedSplats.generatorProgram.set(generator, program);\n }\n\n // Prepare and update our material we'll use to render the Gsplats\n const material = program.prepareMaterial();\n PackedSplats.fullScreenQuad.material = material;\n return { program, material };\n }\n\n private saveRenderState(renderer: THREE.WebGLRenderer) {\n return {\n target: renderer.getRenderTarget(),\n xrEnabled: renderer.xr.enabled,\n autoClear: renderer.autoClear,\n };\n }\n\n private resetRenderState(\n renderer: THREE.WebGLRenderer,\n state: {\n target: THREE.WebGLRenderTarget | null;\n xrEnabled: boolean;\n autoClear: boolean;\n },\n ) {\n renderer.setRenderTarget(state.target);\n renderer.xr.enabled = state.xrEnabled;\n renderer.autoClear = state.autoClear;\n }\n\n // Executes a dyno program specified by generator which is any DynoBlock that\n // maps { index: \"int\" } to { gsplat: Gsplat }. This is called in\n // SparkRenderer.updateInternal() to re-generate Gsplats in the scene for\n // SplatGenerator instances whose version is newer than what was generated\n // for it last time.\n generate({\n generator,\n base,\n count,\n renderer,\n }: {\n generator: GsplatGenerator;\n base: number;\n count: number;\n renderer: THREE.WebGLRenderer;\n }): { nextBase: number } {\n if (!this.target) {\n throw new Error(\"Target must be initialized with ensureSplats\");\n }\n if (base + count > this.maxSplats) {\n throw new Error(\"Base + count exceeds maxSplats\");\n }\n\n const { program, material } = this.prepareProgramMaterial(generator);\n program.update();\n\n const renderState = this.saveRenderState(renderer);\n\n // Generate the Gsplats in \"layer\" chunks, in horizontal row ranges,\n // that cover the total count of Gsplats.\n const nextBase =\n Math.ceil((base + count) / SPLAT_TEX_WIDTH) * SPLAT_TEX_WIDTH;\n const layerSize = SPLAT_TEX_WIDTH * SPLAT_TEX_HEIGHT;\n material.uniforms.targetBase.value = base;\n material.uniforms.targetCount.value = count;\n\n // Keep generating layers until we've reached the next generation's base\n while (base < nextBase) {\n const layer = Math.floor(base / layerSize);\n material.uniforms.targetLayer.value = layer;\n\n const layerBase = layer * layerSize;\n const layerYStart = Math.floor((base - layerBase) / SPLAT_TEX_WIDTH);\n const layerYEnd = Math.min(\n SPLAT_TEX_HEIGHT,\n Math.ceil((nextBase - layerBase) / SPLAT_TEX_WIDTH),\n );\n\n // Render the desired portion of the layer\n this.target.scissor.set(\n 0,\n layerYStart,\n SPLAT_TEX_WIDTH,\n layerYEnd - layerYStart,\n );\n renderer.setRenderTarget(this.target, layer);\n renderer.xr.enabled = false;\n renderer.autoClear = false;\n PackedSplats.fullScreenQuad.render(renderer);\n\n base += SPLAT_TEX_WIDTH * (layerYEnd - layerYStart);\n }\n\n this.resetRenderState(renderer, renderState);\n return { nextBase };\n }\n\n disposeLodSplats() {\n if (this.lodSplats) {\n this.lodSplats.dispose();\n this.lodSplats = undefined;\n }\n }\n\n async createLodSplats({\n rgbaArray,\n quality,\n }: { rgbaArray?: RgbaArray; quality?: boolean } = {}) {\n const lodBase =\n typeof this.lod === \"number\"\n ? Math.max(1.1, Math.min(2.0, this.lod))\n : quality\n ? 1.75\n : 1.5;\n const packedArray = (this.packedArray as Uint32Array).slice();\n const rgba = rgbaArray ? (await rgbaArray.getArray()).slice() : undefined;\n const extra = {\n sh1: this.extra.sh1 ? (this.extra.sh1 as Uint32Array).slice() : undefined,\n sh2: this.extra.sh2 ? (this.extra.sh2 as Uint32Array).slice() : undefined,\n sh3: this.extra.sh3 ? (this.extra.sh3 as Uint32Array).slice() : undefined,\n };\n const decoded = await workerPool.withWorker(async (worker) => {\n return (await worker.call(\n quality ? \"qualityLodPackedSplats\" : \"tinyLodPackedSplats\",\n {\n numSplats: this.numSplats,\n packedArray,\n extra,\n lodBase,\n rgba,\n encoding: this.splatEncoding ?? DEFAULT_SPLAT_ENCODING,\n },\n )) as {\n numSplats: number;\n packedArray: Uint32Array;\n extra: Record;\n splatEncoding: SplatEncoding;\n };\n });\n\n const lodSplats = new PackedSplats(decoded);\n if (this.lodSplats) {\n this.lodSplats.dispose();\n }\n\n this.lodSplats = lodSplats;\n this.nonLod = true;\n this.lod = quality ? \"quality\" : true;\n }\n\n extractSplats(indices: Uint32Array, pageColoring: boolean) {\n const maxSplats = getTextureSize(indices.length).maxSplats;\n const newSplats = new PackedSplats({ maxSplats });\n for (let i = 0; i < indices.length; i++) {\n const splat = this.getSplat(indices[i]);\n if (pageColoring) {\n let hue = (indices[i] >>> 16) * 0.61803398875;\n hue = hue - Math.floor(hue);\n const r = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 3.0) - 1.0));\n const g = Math.max(0, Math.min(1, Math.abs(hue * 6.0 + 1.0) - 1.0));\n const b = Math.max(0, Math.min(1, Math.abs(hue * 6.0 - 1.0) - 1.0));\n splat.color.r *= r;\n splat.color.g *= g;\n splat.color.b *= b;\n }\n newSplats.pushSplat(\n splat.center,\n splat.scales,\n splat.quaternion,\n splat.opacity,\n splat.color,\n );\n }\n return newSplats;\n }\n\n static programTemplate: DynoProgramTemplate | null = null;\n\n // Cache for GsplatGenerator programs\n static generatorProgram = new WeakMap();\n\n // Static full-screen quad for pseudo-compute shader rendering\n static fullScreenQuad = new FullScreenQuad(\n new THREE.RawShaderMaterial({ visible: false }),\n );\n\n static emptyUint32x4 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 4);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGBAIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RGBA32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n\n static emptyUint32x2 = (() => {\n const { width, height, depth, maxSplats } = getTextureSize(1);\n const emptyArray = new Uint32Array(maxSplats * 2);\n const texture = new THREE.DataArrayTexture(\n emptyArray,\n width,\n height,\n depth,\n );\n texture.format = THREE.RGIntegerFormat;\n texture.type = THREE.UnsignedIntType;\n texture.internalFormat = \"RG32UI\";\n texture.needsUpdate = true;\n return texture;\n })();\n}\n\n// You can use a PackedSplats as a dyno block using the function\n// dyno.readPackedSplats(packedSplats.dyno, dynoIndex) where\n// dynoIndex is of type DynoVal<\"int\">. If you need to be able to change\n// the input PackedSplats dynamically, however, you should create a\n// DynoPackedSplats, whose property packedSplats you can change to any\n// PackedSplats and that will be used in the dyno shader program.\n\nexport const dynoPackedSplats = (packedSplats?: PackedSplats) =>\n new DynoPackedSplats({ packedSplats });\n\nexport class DynoPackedSplats extends DynoUniform<\n typeof TPackedSplats,\n \"packedSplats\",\n {\n textureArray: THREE.DataArrayTexture;\n numSplats: number;\n rgbMinMaxLnScaleMinMax: THREE.Vector4;\n lodOpacity: boolean;\n }\n> {\n packedSplats?: PackedSplats;\n\n constructor({ packedSplats }: { packedSplats?: PackedSplats } = {}) {\n super({\n key: \"packedSplats\",\n type: TPackedSplats,\n globals: () => [definePackedSplats],\n value: {\n textureArray: PackedSplats.getEmptyArray,\n numSplats: 0,\n rgbMinMaxLnScaleMinMax: new THREE.Vector4(\n 0,\n 1,\n LN_SCALE_MIN,\n LN_SCALE_MAX,\n ),\n lodOpacity: false,\n },\n update: (value) => {\n value.textureArray =\n this.packedSplats?.getTexture() ?? PackedSplats.getEmptyArray;\n value.numSplats = this.packedSplats?.numSplats ?? 0;\n value.rgbMinMaxLnScaleMinMax.set(\n this.packedSplats?.splatEncoding?.rgbMin ?? 0,\n this.packedSplats?.splatEncoding?.rgbMax ?? 1,\n this.packedSplats?.splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n this.packedSplats?.splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n );\n value.lodOpacity =\n this.packedSplats?.splatEncoding?.lodOpacity ?? false;\n return value;\n },\n });\n this.packedSplats = packedSplats;\n }\n}\n\nexport const defineEvalPackedSH1 = unindent(`\n vec3 evaluatePackedSH1(uvec2 packed, vec3 viewDir, float sh1Max) {\n // Extract sint7 values packed into 2 x uint32\n vec3 sh1_0 = vec3(ivec3(\n int(packed.x << 25u) >> 25,\n int(packed.x << 18u) >> 25,\n int(packed.x << 11u) >> 25\n ));\n vec3 sh1_1 = vec3(ivec3(\n int(packed.x << 4u) >> 25,\n int((packed.x >> 3u) | (packed.y << 29u)) >> 25,\n int(packed.y << 22u) >> 25\n ));\n vec3 sh1_2 = vec3(ivec3(\n int(packed.y << 15u) >> 25,\n int(packed.y << 8u) >> 25,\n int(packed.y << 1u) >> 25\n ));\n\n vec3 rgb = sh1_0 * (-0.4886025 * viewDir.y)\n + sh1_1 * (0.4886025 * viewDir.z)\n + sh1_2 * (-0.4886025 * viewDir.x);\n return rgb * (sh1Max / 63.0);\n }\n`);\n\nexport const defineEvalPackedSH2 = unindent(`\n vec3 evaluatePackedSH2(uvec4 packed, vec3 viewDir, float sh2Max) {\n // Extract sint8 values packed into 4 x uint32\n vec3 sh2_0 = vec3(ivec3(\n int(packed.x << 24u) >> 24,\n int(packed.x << 16u) >> 24,\n int(packed.x << 8u) >> 24\n ));\n vec3 sh2_1 = vec3(ivec3(\n int(packed.x) >> 24,\n int(packed.y << 24u) >> 24,\n int(packed.y << 16u) >> 24\n ));\n vec3 sh2_2 = vec3(ivec3(\n int(packed.y << 8u) >> 24,\n int(packed.y) >> 24,\n int(packed.z << 24u) >> 24\n ));\n vec3 sh2_3 = vec3(ivec3(\n int(packed.z << 16u) >> 24,\n int(packed.z << 8u) >> 24,\n int(packed.z) >> 24\n ));\n vec3 sh2_4 = vec3(ivec3(\n int(packed.w << 24u) >> 24,\n int(packed.w << 16u) >> 24,\n int(packed.w << 8u) >> 24\n ));\n\n vec3 rgb = sh2_0 * (1.0925484 * viewDir.x * viewDir.y)\n + sh2_1 * (-1.0925484 * viewDir.y * viewDir.z)\n + sh2_2 * (0.3153915 * (2.0 * viewDir.z * viewDir.z - viewDir.x * viewDir.x - viewDir.y * viewDir.y))\n + sh2_3 * (-1.0925484 * viewDir.x * viewDir.z)\n + sh2_4 * (0.5462742 * (viewDir.x * viewDir.x - viewDir.y * viewDir.y));\n return rgb * (sh2Max / 127.0);\n }\n`);\n\nexport const defineEvalPackedSH3 = unindent(`\n vec3 evaluatePackedSH3(uvec4 packed, vec3 viewDir, float sh3Max) {\n // Extract sint6 values packed into 4 x uint32\n vec3 sh3_0 = vec3(ivec3(\n int(packed.x << 26u) >> 26,\n int(packed.x << 20u) >> 26,\n int(packed.x << 14u) >> 26\n ));\n vec3 sh3_1 = vec3(ivec3(\n int(packed.x << 8u) >> 26,\n int(packed.x << 2u) >> 26,\n int((packed.x >> 4u) | (packed.y << 28u)) >> 26\n ));\n vec3 sh3_2 = vec3(ivec3(\n int(packed.y << 22u) >> 26,\n int(packed.y << 16u) >> 26,\n int(packed.y << 10u) >> 26\n ));\n vec3 sh3_3 = vec3(ivec3(\n int(packed.y << 4u) >> 26,\n int((packed.y >> 2u) | (packed.z << 30u)) >> 26,\n int(packed.z << 24u) >> 26\n ));\n vec3 sh3_4 = vec3(ivec3(\n int(packed.z << 18u) >> 26,\n int(packed.z << 12u) >> 26,\n int(packed.z << 6u) >> 26\n ));\n vec3 sh3_5 = vec3(ivec3(\n int(packed.z) >> 26,\n int(packed.w << 26u) >> 26,\n int(packed.w << 20u) >> 26\n ));\n vec3 sh3_6 = vec3(ivec3(\n int(packed.w << 14u) >> 26,\n int(packed.w << 8u) >> 26,\n int(packed.w << 2u) >> 26\n ));\n\n float xx = viewDir.x * viewDir.x;\n float yy = viewDir.y * viewDir.y;\n float zz = viewDir.z * viewDir.z;\n float xy = viewDir.x * viewDir.y;\n float yz = viewDir.y * viewDir.z;\n float zx = viewDir.z * viewDir.x;\n\n vec3 rgb = sh3_0 * (-0.5900436 * viewDir.y * (3.0 * xx - yy))\n + sh3_1 * (2.8906114 * xy * viewDir.z) +\n + sh3_2 * (-0.4570458 * viewDir.y * (4.0 * zz - xx - yy))\n + sh3_3 * (0.3731763 * viewDir.z * (2.0 * zz - 3.0 * xx - 3.0 * yy))\n + sh3_4 * (-0.4570458 * viewDir.x * (4.0 * zz - xx - yy))\n + sh3_5 * (1.4453057 * viewDir.z * (xx - yy))\n + sh3_6 * (-0.5900436 * viewDir.x * (xx - 3.0 * yy));\n return rgb * (sh3Max / 31.0);\n }\n`);\n\nexport function evaluatePackedSH({\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3Texture,\n shMax,\n}: {\n coord: DynoVal<\"ivec3\">;\n viewDir: DynoVal<\"vec3\">;\n numSh: DynoVal<\"int\">;\n sh1Texture?: DynoUsampler2DArray<\"sh1\", THREE.DataArrayTexture>;\n sh2Texture?: DynoUsampler2DArray<\"sh2\", THREE.DataArrayTexture>;\n sh3Texture?: DynoUsampler2DArray<\"sh3\", THREE.DataArrayTexture>;\n shMax: DynoVal<\"vec3\">;\n}) {\n return new Dyno({\n inTypes: {\n coord: \"ivec3\",\n viewDir: \"vec3\",\n numSh: \"int\",\n sh1Texture: \"usampler2DArray\",\n sh2Texture: \"usampler2DArray\",\n sh3Texture: \"usampler2DArray\",\n shMax: \"vec3\",\n },\n outTypes: { rgb: \"vec3\" },\n inputs: {\n coord,\n viewDir,\n numSh,\n sh1Texture,\n sh2Texture,\n sh3Texture,\n shMax,\n },\n globals: () => [\n defineEvalPackedSH1,\n defineEvalPackedSH2,\n defineEvalPackedSH3,\n ],\n statements: ({ inputs, outputs }) => {\n const lines = [\"vec3 rgb = vec3(0.0);\"];\n if (inputs.sh1Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 1) {\n vec3 sh1Rgb = evaluatePackedSH1(texelFetch(${inputs.sh1Texture}, ${inputs.coord}, 0).rg, ${inputs.viewDir}, ${inputs.shMax}.x);\n rgb += sh1Rgb;\n `),\n );\n if (inputs.sh2Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 2) {\n vec3 sh2Rgb = evaluatePackedSH2(texelFetch(${inputs.sh2Texture}, ${inputs.coord}, 0), ${inputs.viewDir}, ${inputs.shMax}.y);\n rgb += sh2Rgb;\n `),\n );\n if (inputs.sh3Texture) {\n lines.push(\n ...unindentLines(`\n if (${inputs.numSh} >= 3) {\n vec3 sh3Rgb = evaluatePackedSH3(texelFetch(${inputs.sh3Texture}, ${inputs.coord}, 0), ${inputs.viewDir}, ${inputs.shMax}.z);\n rgb += sh3Rgb;\n }\n `),\n );\n }\n lines.push(\"}\");\n }\n lines.push(\"}\");\n }\n lines.push(`${outputs.rgb} = rgb;`);\n return lines;\n },\n }).outputs;\n}\n","import * as THREE from \"three\";\n\nimport type { OldSparkRenderer } from \"./OldSparkRenderer\";\nimport type { OldSplatAccumulator } from \"./OldSplatAccumulator\";\nimport { OldSplatGeometry } from \"./OldSplatGeometry\";\nimport { withWorker } from \"./OldSplatWorker\";\nimport { DynoPackedSplats } from \"./PackedSplats\";\nimport { Readback } from \"./Readback\";\nimport {\n type DynoBlock,\n DynoBool,\n DynoFloat,\n type DynoVal,\n DynoVec3,\n Gsplat,\n add,\n combine,\n defineGsplat,\n dyno,\n dynoBlock,\n dynoConst,\n floatBitsToUint,\n mul,\n packHalf2x16,\n readPackedSplat,\n uintToRgba8,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { FreeList, withinCoorientDist } from \"./utils\";\n\nexport type OldSparkViewpointOptions = {\n /**\n * Controls whether to auto-update its sort order whenever the SparkRenderer\n * updates the Gsplats. If you expect to render/display from this viewpoint\n * most frames, set this to true.\n * @default false\n */\n autoUpdate?: boolean;\n /**\n * Set a THREE.Camera for this viewpoint to follow.\n * @default undefined\n */\n camera?: THREE.Camera;\n /**\n * Set an explicit view-to-world transformation matrix for this viewpoint (equivalent\n * to camera.matrixWorld), overrides any camera setting.\n * @default undefined\n */\n viewToWorld?: THREE.Matrix4;\n /**\n * Configure viewpoint with an off-screen render target.\n * @default undefined\n */\n target?: {\n /**\n * Width of the render target in pixels.\n */\n width: number;\n /**\n * Height of the render target in pixels.\n */\n height: number;\n /**\n * If you want to be able to render a scene that depends on this target's\n * output (for example, a recursive viewport), set this to true to enable\n * double buffering.\n * @default false\n */\n doubleBuffer?: boolean;\n /**\n * Super-sampling factor for the render target. Values 1-4 are supported.\n * Note that re-sampling back down to .width x .height is done on the CPU\n * with simple averaging only when calling readTarget().\n * @default 1\n */\n superXY?: number;\n };\n /**\n * Callback function that is called when the render target texture is updated.\n * Receives the texture as a parameter. Use this to update a viewport with\n * the latest viewpoint render each frame.\n * @default undefined\n */\n onTextureUpdated?: (texture: THREE.Texture) => void;\n /**\n * Whether to sort splats radially (geometric distance) from the viewpoint (true)\n * or by Z-depth (false). Most scenes are trained with the Z-depth sort metric\n * and will render more accurately at certain viewpoints. However, radial sorting\n * is more stable under viewpoint rotations.\n * @default true\n */\n sortRadial?: boolean;\n /**\n * Distance threshold for re-sorting splats. If the viewpoint moves more than\n * this distance, splats will be re-sorted.\n * @default 0.01 units\n */\n sortDistance?: number;\n /**\n * View direction dot product threshold for re-sorting splats. For\n * sortRadial: true we use 0.99 while sortRadial: false uses 0.999 because it is\n * more sensitive to view direction.\n * @default 0.99 if sortRadial else 0.999\n */\n sortCoorient?: boolean;\n /**\n * Constant added to Z-depth to bias values into the positive range for\n * sortRadial: false, but also used for culling Gsplats \"well behind\"\n * the viewpoint origin\n * @default 1.0\n */\n depthBias?: number;\n /**\n * Set this to true if rendering a 360 to disable \"behind the viewpoint\"\n * culling during sorting. This is set automatically when rendering 360 envMaps\n * using the SparkRenderer.renderEnvMap() utility function.\n * @default false\n */\n sort360?: boolean;\n /*\n * Set this to true to sort with float32 precision with two-pass sort.\n * @default true\n */\n sort32?: boolean;\n /*\n * Set this to true to enable sort-free stochastic splat rendering.\n * @default false\n */\n stochastic?: boolean;\n};\n\n// A SparkViewpoint is created from and tied to a SparkRenderer, and represents\n// an independent viewpoint of all the scene Gsplats and their sort order. Making\n// these viewpoints explicit allows us to have multiple, simultaneous viewpoint\n// renders, for example for camera preview panes or overhead map views.\n//\n// When creating a SparkRenderer it automatically creates a default viewpoint\n// .defaultView that is used in the normal render loop when drawing to the canvas,\n// and is automatically updated whenever the camera moves. Additional viewpoints\n// can be created and configured separately.\n\nexport class OldSparkViewpoint {\n spark: OldSparkRenderer;\n autoUpdate: boolean;\n camera?: THREE.Camera;\n viewToWorld: THREE.Matrix4;\n lastTime: number | null = null;\n\n target?: THREE.WebGLRenderTarget;\n private back?: THREE.WebGLRenderTarget;\n onTextureUpdated?: (texture: THREE.Texture) => void;\n encodeLinear = false;\n superXY = 1;\n private superPixels?: Uint8Array;\n private pixels?: Uint8Array;\n\n sortRadial: boolean;\n sortDistance?: number;\n sortCoorient?: boolean;\n depthBias?: number;\n sort360?: boolean;\n sort32?: boolean;\n stochastic: boolean;\n\n display: {\n accumulator: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n geometry: OldSplatGeometry;\n } | null = null;\n\n private sorting: { viewToWorld: THREE.Matrix4 } | null = null;\n private pending: {\n accumulator?: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n displayed: boolean;\n } | null = null;\n private sortingCheck = false;\n\n private readback16: Uint16Array = new Uint16Array(0);\n private readback32: Uint32Array = new Uint32Array(0);\n private orderingFreelist: FreeList;\n\n constructor(options: OldSparkViewpointOptions & { spark: OldSparkRenderer }) {\n this.spark = options.spark;\n this.camera = options.camera;\n this.viewToWorld = options.viewToWorld ?? new THREE.Matrix4();\n\n if (options.target) {\n const { width, height, doubleBuffer } = options.target;\n const superXY = Math.max(1, Math.min(4, options.target.superXY ?? 1));\n this.superXY = superXY;\n if (width * superXY > 8192 || height * superXY > 8192) {\n throw new Error(\"Target size too large\");\n }\n\n this.target = new THREE.WebGLRenderTarget(\n width * superXY,\n height * superXY,\n {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n colorSpace: THREE.SRGBColorSpace,\n },\n );\n if (doubleBuffer) {\n this.back = new THREE.WebGLRenderTarget(\n width * superXY,\n height * superXY,\n {\n format: THREE.RGBAFormat,\n type: THREE.UnsignedByteType,\n colorSpace: THREE.SRGBColorSpace,\n },\n );\n }\n this.encodeLinear = true;\n }\n this.onTextureUpdated = options.onTextureUpdated;\n\n this.sortRadial = options.sortRadial ?? true;\n this.sortDistance = options.sortDistance;\n this.sortCoorient = options.sortCoorient;\n this.depthBias = options.depthBias;\n this.sort360 = options.sort360;\n this.sort32 = options.sort32;\n this.stochastic = options.stochastic ?? false;\n\n this.orderingFreelist = new FreeList({\n allocate: (maxSplats) =>\n new Uint32Array(maxSplats) as Uint32Array,\n valid: (ordering, maxSplats) => ordering.length === maxSplats,\n });\n\n this.autoUpdate = false;\n this.setAutoUpdate(options.autoUpdate ?? false);\n }\n\n // Call this when you are done with the SparkViewpoint and want to\n // free up its resources (GPU targets, pixel buffers, etc.)\n dispose() {\n this.setAutoUpdate(false);\n if (this.target) {\n this.target.dispose();\n this.target = undefined;\n }\n if (this.back) {\n this.back.dispose();\n this.back = undefined;\n }\n if (this.display) {\n this.spark.releaseAccumulator(this.display.accumulator);\n this.display.geometry.dispose();\n this.display = null;\n }\n if (this.pending?.accumulator) {\n this.spark.releaseAccumulator(this.pending.accumulator);\n this.pending = null;\n }\n }\n\n // Use this function to change whether this viewpoint will auto-update\n // its sort order whenever the attached SparkRenderer updates the Gsplats.\n // Turn this on or off depending on whether you expect to do renders from\n // this viewpoint most frames.\n setAutoUpdate(autoUpdate: boolean) {\n if (!this.autoUpdate && autoUpdate) {\n this.spark.autoViewpoints.push(this);\n } else if (this.autoUpdate && !autoUpdate) {\n this.spark.autoViewpoints = this.spark.autoViewpoints.filter(\n (v) => v !== this,\n );\n }\n this.autoUpdate = autoUpdate;\n }\n\n // See below async prepareRenderPixels() for explanation of parameters.\n // Awaiting this method updates the Gsplats in the scene and performs a sort of the\n // Gsplats from this viewpoint, preparing it for a subsequent this.renderTarget()\n // call in the same tick.\n async prepare({\n scene,\n camera,\n viewToWorld,\n update,\n forceOrigin,\n }: {\n scene: THREE.Scene;\n camera?: THREE.Camera;\n viewToWorld?: THREE.Matrix4;\n update?: boolean;\n forceOrigin?: boolean;\n }) {\n if (viewToWorld) {\n this.viewToWorld = viewToWorld;\n } else {\n this.camera = camera ?? this.camera;\n if (this.camera) {\n this.camera.updateMatrixWorld();\n this.viewToWorld = this.camera.matrixWorld.clone();\n }\n }\n while (update ?? true) {\n // Force an update, possibly with origin centered at this camera\n // to yield the best quality output.\n const originToWorld = forceOrigin\n ? this.viewToWorld\n : this.spark.matrixWorld;\n const updated = this.spark.updateInternal({ scene, originToWorld });\n if (updated) {\n break;\n }\n // A bit of a hack, but try again. We shouldn't be starved for long.\n await new Promise((resolve) => setTimeout(resolve, 10));\n }\n\n const accumulator = this.spark.active;\n // Hold reference to accumulator while sorting\n accumulator.refCount += 1;\n await this.sortUpdate({ accumulator, viewToWorld: this.viewToWorld });\n // Release accumulator reference\n this.spark.releaseAccumulator(accumulator);\n }\n\n // Render out the viewpoint to the view target RGBA buffer.\n // Swaps buffers if doubleBuffer: true was set.\n // Calls onTextureUpdated(texture) with the resulting texture.\n renderTarget({\n scene,\n camera,\n }: { scene: THREE.Scene; camera?: THREE.Camera }) {\n const target = this.back ?? this.target;\n if (!target) {\n throw new Error(\"Must initialize SparkViewpoint with target\");\n }\n\n camera = camera ?? this.camera;\n if (!camera) {\n throw new Error(\"Must provide camera\");\n }\n if (camera instanceof THREE.PerspectiveCamera) {\n const newCam = new THREE.PerspectiveCamera().copy(camera, false);\n newCam.aspect = target.width / target.height;\n newCam.updateProjectionMatrix();\n camera = newCam;\n }\n this.viewToWorld = camera.matrixWorld.clone();\n\n const previousTarget = this.spark.renderer.getRenderTarget();\n try {\n this.spark.renderer.setRenderTarget(target);\n this.spark.prepareViewpoint(this);\n\n this.spark.renderer.render(scene, camera);\n } finally {\n this.spark.prepareViewpoint(this.spark.defaultView);\n this.spark.renderer.setRenderTarget(previousTarget);\n }\n\n if (target !== this.target) {\n // Swap back buffer and target\n [this.target, this.back] = [this.back, this.target];\n }\n this.onTextureUpdated?.(target.texture);\n }\n\n // Read back the previously rendered target image as a Uint8Array of packed\n // RGBA values (in that order). If superXY was set greater than 1 then\n // downsampling is performed in the target pixel array with simple averaging\n // to derive the returned pixel values. Subsequent calls to this.readTarget()\n // will reuse the same buffers to minimize memory allocations.\n async readTarget(): Promise {\n if (!this.target) {\n throw new Error(\"Must initialize SparkViewpoint with target\");\n }\n const { width, height } = this.target;\n const byteSize = width * height * 4;\n if (!this.superPixels || this.superPixels.length < byteSize) {\n this.superPixels = new Uint8Array(byteSize);\n }\n await this.spark.renderer.readRenderTargetPixelsAsync(\n this.target,\n 0,\n 0,\n width,\n height,\n this.superPixels,\n );\n\n const { superXY } = this;\n if (superXY === 1) {\n return this.superPixels;\n }\n\n const subWidth = width / superXY;\n const subHeight = height / superXY;\n const subSize = subWidth * subHeight * 4;\n if (!this.pixels || this.pixels.length < subSize) {\n this.pixels = new Uint8Array(subSize);\n }\n\n const { superPixels, pixels } = this;\n const super2 = superXY * superXY;\n for (let y = 0; y < subHeight; y++) {\n const row = y * subWidth;\n for (let x = 0; x < subWidth; x++) {\n const superCol = x * superXY;\n let r = 0;\n let g = 0;\n let b = 0;\n let a = 0;\n for (let sy = 0; sy < superXY; sy++) {\n const superRow = (y * superXY + sy) * this.target.width;\n for (let sx = 0; sx < superXY; sx++) {\n const superIndex = (superRow + superCol + sx) * 4;\n r += superPixels[superIndex];\n g += superPixels[superIndex + 1];\n b += superPixels[superIndex + 2];\n a += superPixels[superIndex + 3];\n }\n }\n const pixelIndex = (row + x) * 4;\n pixels[pixelIndex] = r / super2;\n pixels[pixelIndex + 1] = g / super2;\n pixels[pixelIndex + 2] = b / super2;\n pixels[pixelIndex + 3] = a / super2;\n }\n }\n return pixels;\n }\n\n // Render out a viewpoint as a Uint8Array of RGBA values for the provided scene\n // and any camera/viewToWorld viewpoint overrides. By default update is true,\n // which triggers its SparkRenderer to check and potentially update the Gsplats.\n // Setting update to false disables this and sorts the Gsplats as they are.\n // Setting forceOrigin (default: false) to true forces the view update to\n // recalculate the splats with this view origin, potentially altering any\n // view-dependent effects. If you expect view-dependent effects to play a role\n // in the rendering quality, enable this.\n //\n // Underneath, prepareRenderPixels() simply calls await this.prepare(...),\n // this.renderTarget(...), and finally returns the result this.readTarget(),\n // a Promise to a Uint8Array with RGBA values for all the pixels (potentially\n // downsampled if the superXY parameter was used). These steps can also be called\n // manually, for example if you need to alter the scene before and after\n // this.renderTarget(...) to hide UI elements from being rendered.\n async prepareRenderPixels({\n scene,\n camera,\n viewToWorld,\n update,\n forceOrigin,\n }: {\n scene: THREE.Scene;\n camera?: THREE.Camera;\n viewToWorld?: THREE.Matrix4;\n update?: boolean;\n forceOrigin?: boolean;\n }) {\n await this.prepare({ scene, camera, viewToWorld, update, forceOrigin });\n this.renderTarget({ scene, camera });\n return this.readTarget();\n }\n\n // This is called automatically by SparkRenderer, there is no need to call it!\n // The method cannot be private because then SparkRenderer would\n // not be able to call it.\n autoPoll({ accumulator }: { accumulator?: OldSplatAccumulator }) {\n if (this.camera) {\n this.camera.updateMatrixWorld();\n this.viewToWorld = this.camera.matrixWorld.clone();\n }\n\n let needsSort = false;\n let displayed = false;\n\n if (!this.display) {\n // Need to do first sort\n needsSort = true;\n } else if (accumulator) {\n needsSort = true;\n const { mappingVersion } = this.display.accumulator;\n if (accumulator.mappingVersion === mappingVersion) {\n // Splat mapping has not changed, so reuse the existing sorted\n // geometry to show updates faster. We will still fire off\n // a re-sort if necessary. First release old accumulator.\n accumulator.refCount += 1;\n this.spark.releaseAccumulator(this.display.accumulator);\n this.display.accumulator = accumulator;\n this.display.viewToWorld.copy(this.viewToWorld);\n displayed = true;\n\n if (this.spark.viewpoint === this) {\n this.spark.prepareViewpoint(this);\n }\n }\n }\n\n const latestView = this.sorting?.viewToWorld ?? this.display?.viewToWorld;\n if (\n latestView &&\n !withinCoorientDist({\n matrix1: this.viewToWorld,\n matrix2: latestView,\n // By default update sort each 1 cm\n maxDistance: this.sortDistance ?? 0.01,\n // By default for radial sort, update for intermittent movement so that\n // we bring back splats culled by being behind the camera.\n // For depth sort, small rotations can change sort order a lot, so\n // update sort for even small rotations.\n minCoorient: (this.sortCoorient ?? this.sortRadial) ? 0.99 : 0.999,\n })\n ) {\n needsSort = true;\n }\n\n if (!needsSort) {\n // Stop here, no sort necessary\n return;\n }\n\n if (accumulator) {\n // Hold a reference to the accumulator for sorting\n accumulator.refCount += 1;\n }\n\n if (this.pending?.accumulator) {\n this.spark.releaseAccumulator(this.pending.accumulator);\n }\n this.pending = { accumulator, viewToWorld: this.viewToWorld, displayed };\n\n // Don't await this, just trigger the sort if necessary\n this.driveSort();\n }\n\n private async driveSort() {\n while (true) {\n if (this.sorting || !this.pending) {\n return; // Sort already in process or nothing to sort\n }\n\n const { viewToWorld, displayed } = this.pending;\n let accumulator = this.pending.accumulator;\n if (!accumulator) {\n // Hold a reference to the accumulator while sorting\n accumulator = this.display?.accumulator ?? this.spark.active;\n accumulator.refCount += 1;\n }\n this.pending = null;\n if (!accumulator) {\n throw new Error(\"No accumulator to sort\");\n }\n\n this.sorting = { viewToWorld };\n await this.sortUpdate({ accumulator, viewToWorld, displayed });\n this.sorting = null;\n\n // Release the reference to the accumulator\n this.spark.releaseAccumulator(accumulator);\n\n // Continue in loop with any queued sort\n }\n }\n\n private async sortUpdate({\n accumulator,\n viewToWorld,\n displayed = false,\n }: {\n accumulator?: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n displayed?: boolean;\n }) {\n if (this.sortingCheck) {\n throw new Error(\"Only one sort at a time\");\n }\n this.sortingCheck = true;\n\n accumulator = accumulator ?? this.spark.active;\n const { numSplats, maxSplats } = accumulator.splats;\n let activeSplats = 0;\n let ordering = this.orderingFreelist.alloc(maxSplats);\n\n if (this.stochastic) {\n activeSplats = numSplats;\n // Render all splats in order since the Z-buffer\n // will handle ordering.\n for (let i = 0; i < numSplats; ++i) {\n ordering[i] = i;\n }\n } else if (numSplats > 0) {\n const {\n reader,\n doubleSortReader,\n sort32Reader,\n dynoSortRadial,\n dynoOrigin,\n dynoDirection,\n dynoDepthBias,\n dynoSort360,\n dynoSplats,\n } = OldSparkViewpoint.makeSorter();\n const sort32 = this.sort32 ?? false;\n let readback: Uint16Array | Uint32Array;\n if (sort32) {\n this.readback32 = reader.ensureBuffer(maxSplats, this.readback32);\n readback = this.readback32;\n } else {\n const halfMaxSplats = Math.ceil(maxSplats / 2);\n this.readback16 = reader.ensureBuffer(halfMaxSplats, this.readback16);\n readback = this.readback16;\n }\n\n const worldToOrigin = accumulator.toWorld.clone().invert();\n const viewToOrigin = viewToWorld.clone().premultiply(worldToOrigin);\n\n dynoSortRadial.value = this.sort360 ? true : this.sortRadial;\n dynoOrigin.value.set(0, 0, 0).applyMatrix4(viewToOrigin);\n dynoDirection.value\n .set(0, 0, -1)\n .applyMatrix4(viewToOrigin)\n .sub(dynoOrigin.value)\n .normalize();\n dynoDepthBias.value = this.depthBias ?? 1.0;\n dynoSort360.value = this.sort360 ?? false;\n dynoSplats.packedSplats = accumulator.splats;\n\n const sortReader = sort32 ? sort32Reader : doubleSortReader;\n const count = sort32 ? numSplats : Math.ceil(numSplats / 2);\n await reader.renderReadback({\n renderer: this.spark.renderer,\n reader: sortReader,\n count,\n readback,\n });\n\n const result = (await withWorker(async (worker) => {\n const rpcName = sort32 ? \"sort32Splats\" : \"sortDoubleSplats\";\n return worker.call(rpcName, {\n maxSplats,\n numSplats,\n readback,\n ordering,\n });\n })) as {\n readback: Uint16Array | Uint32Array;\n ordering: Uint32Array;\n activeSplats: number;\n };\n if (sort32) {\n this.readback32 = result.readback as Uint32Array;\n } else {\n this.readback16 = result.readback as Uint16Array;\n }\n ordering = result.ordering;\n activeSplats = result.activeSplats;\n }\n\n this.updateDisplay({\n accumulator,\n viewToWorld,\n ordering,\n activeSplats,\n displayed,\n });\n this.sortingCheck = false;\n }\n\n private updateDisplay({\n accumulator,\n viewToWorld,\n ordering,\n activeSplats,\n displayed = false,\n }: {\n accumulator: OldSplatAccumulator;\n viewToWorld: THREE.Matrix4;\n ordering: Uint32Array;\n activeSplats: number;\n displayed?: boolean;\n }) {\n if (!this.display) {\n // Hold a reference to the accumulator while part of display\n accumulator.refCount += 1;\n this.display = {\n accumulator,\n viewToWorld,\n geometry: new OldSplatGeometry(ordering, activeSplats),\n };\n } else {\n if (!displayed && accumulator !== this.display.accumulator) {\n // Hold a reference to the new accumulator being displayed\n accumulator.refCount += 1;\n // Release the reference to the previously displayed accumulator\n this.spark.releaseAccumulator(this.display.accumulator);\n this.display.accumulator = accumulator;\n }\n\n this.display.viewToWorld = viewToWorld;\n\n const oldOrdering = this.display.geometry.ordering;\n if (oldOrdering.length === ordering.length) {\n this.display.geometry.update(ordering, activeSplats);\n } else {\n this.display.geometry.dispose();\n // console.log(\"*** alloc SplatGeometry\", ordering.length);\n this.display.geometry = new OldSplatGeometry(ordering, activeSplats);\n }\n this.orderingFreelist.free(oldOrdering);\n }\n if (this.spark.viewpoint === this) {\n this.spark.prepareViewpoint(this);\n }\n }\n\n // If you need an empty THREE.Texture to use to initialize a uniform that is\n // updated via onTextureUpdated(texture), this static texture can be handy.\n static EMPTY_TEXTURE = new THREE.Texture();\n\n private static dynos: {\n dynoSortRadial: DynoBool;\n dynoOrigin: DynoVec3;\n dynoDirection: DynoVec3;\n dynoDepthBias: DynoFloat;\n dynoSort360: DynoBool;\n dynoSplats: DynoPackedSplats;\n reader: Readback;\n doubleSortReader: DynoBlock<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n sort32Reader: DynoBlock<{ index: \"int\" }, { rgba8: \"vec4\" }>;\n } | null = null;\n\n private static makeSorter() {\n if (!OldSparkViewpoint.dynos) {\n const dynoSortRadial = new DynoBool({ value: true });\n const dynoOrigin = new DynoVec3({ value: new THREE.Vector3() });\n const dynoDirection = new DynoVec3({ value: new THREE.Vector3() });\n const dynoDepthBias = new DynoFloat({ value: 1.0 });\n const dynoSort360 = new DynoBool({ value: false });\n const dynoSplats = new DynoPackedSplats();\n\n const reader = new Readback();\n const doubleSortReader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n if (!index) {\n throw new Error(\"No index\");\n }\n const sortParams = {\n sortRadial: dynoSortRadial,\n sortOrigin: dynoOrigin,\n sortDirection: dynoDirection,\n sortDepthBias: dynoDepthBias,\n sort360: dynoSort360,\n };\n const index2 = mul(index, dynoConst(\"int\", 2));\n\n const gsplat0 = readPackedSplat(dynoSplats, index2);\n const metric0 = computeSortMetric({ gsplat: gsplat0, ...sortParams });\n\n const gsplat1 = readPackedSplat(\n dynoSplats,\n add(index2, dynoConst(\"int\", 1)),\n );\n const metric1 = computeSortMetric({ gsplat: gsplat1, ...sortParams });\n\n const combined = combine({\n vectorType: \"vec2\",\n x: metric0,\n y: metric1,\n });\n const rgba8 = uintToRgba8(packHalf2x16(combined));\n return { rgba8 };\n },\n );\n\n const sort32Reader = dynoBlock(\n { index: \"int\" },\n { rgba8: \"vec4\" },\n ({ index }) => {\n if (!index) {\n throw new Error(\"No index\");\n }\n const sortParams = {\n sortRadial: dynoSortRadial,\n sortOrigin: dynoOrigin,\n sortDirection: dynoDirection,\n sortDepthBias: dynoDepthBias,\n sort360: dynoSort360,\n };\n\n const gsplat = readPackedSplat(dynoSplats, index);\n const metric = computeSortMetric({ gsplat, ...sortParams });\n const rgba8 = uintToRgba8(floatBitsToUint(metric));\n return { rgba8 };\n },\n );\n\n OldSparkViewpoint.dynos = {\n dynoSortRadial,\n dynoOrigin,\n dynoDirection,\n dynoDepthBias,\n dynoSort360,\n dynoSplats,\n reader,\n doubleSortReader,\n sort32Reader,\n };\n }\n return OldSparkViewpoint.dynos;\n }\n}\n\nconst defineComputeSortMetric = unindent(`\n float computeSort(Gsplat gsplat, bool sortRadial, vec3 sortOrigin, vec3 sortDirection, float sortDepthBias, bool sort360) {\n if (!isGsplatActive(gsplat.flags)) {\n return INFINITY;\n }\n\n vec3 center = gsplat.center - sortOrigin;\n float biasedDepth = dot(center, sortDirection) + sortDepthBias;\n if (!sort360 && (biasedDepth <= 0.0)) {\n return INFINITY;\n }\n\n return sortRadial ? length(center) : biasedDepth;\n }\n`);\n\nfunction computeSortMetric({\n gsplat,\n sortRadial,\n sortOrigin,\n sortDirection,\n sortDepthBias,\n sort360,\n}: {\n gsplat: DynoVal;\n sortRadial: DynoVal<\"bool\">;\n sortOrigin: DynoVal<\"vec3\">;\n sortDirection: DynoVal<\"vec3\">;\n sortDepthBias: DynoVal<\"float\">;\n sort360: DynoVal<\"bool\">;\n}) {\n return dyno({\n inTypes: {\n gsplat: Gsplat,\n sortRadial: \"bool\",\n sortOrigin: \"vec3\",\n sortDirection: \"vec3\",\n sortDepthBias: \"float\",\n sort360: \"bool\",\n },\n outTypes: { metric: \"float\" },\n globals: () => [defineGsplat, defineComputeSortMetric],\n inputs: {\n gsplat,\n sortRadial,\n sortOrigin,\n sortDirection,\n sortDepthBias,\n sort360,\n },\n statements: ({ inputs, outputs }) => {\n const {\n gsplat,\n sortRadial,\n sortOrigin,\n sortDirection,\n sortDepthBias,\n sort360,\n } = inputs;\n return unindentLines(`\n ${outputs.metric} = computeSort(${gsplat}, ${sortRadial}, ${sortOrigin}, ${sortDirection}, ${sortDepthBias}, ${sort360});\n `);\n },\n }).outputs.metric;\n}\n","import * as THREE from \"three\";\n\nimport { PackedSplats } from \"./PackedSplats\";\nimport type { GeneratorMapping } from \"./SplatAccumulator\";\nimport type { SplatGenerator, SplatModifier } from \"./SplatGenerator\";\n\n// SplatAccumulator helps manage the generation of splats from multiple\n// SplatGenerators, keeping track of the splat mapping, coordinate system,\n// and reference count.\n\nexport class OldSplatAccumulator {\n splats = new PackedSplats();\n // The transform from Accumulator coordinate system to world coordinates.\n toWorld = new THREE.Matrix4();\n // An array of all Gsplat mappings that were used for generation\n mapping: GeneratorMapping[] = [];\n // Number of SparkViewpoints (or other) that reference this accumulator, used\n // to figure out when it can be recycled for use\n refCount = 0;\n\n // Incremented every time the splats are updated/generated.\n splatsVersion = -1;\n // Incremented every time the splat mapping/layout is updated.\n // Splat sort order can be reused between equivalent mapping versions.\n mappingVersion = -1;\n\n ensureGenerate(maxSplats: number) {\n if (this.splats.ensureGenerate(maxSplats)) {\n // If we had to resize our PackedSplats then clear all previous mappings\n this.mapping = [];\n }\n }\n\n // Generate all Gsplats from an array of generators\n generateSplats({\n renderer,\n modifier,\n generators,\n forceUpdate,\n originToWorld,\n }: {\n renderer: THREE.WebGLRenderer;\n modifier: SplatModifier;\n generators: GeneratorMapping[];\n forceUpdate?: boolean;\n originToWorld: THREE.Matrix4;\n }) {\n // Create a lookup from last SplatGenerator\n const mapping = this.mapping.reduce((map, record) => {\n map.set(record.node, record);\n return map;\n }, new Map());\n\n // Run generators that are different from existing mapping\n let updated = 0;\n let numSplats = 0;\n for (const { node, generator, version, base, count } of generators) {\n const current = mapping.get(node);\n if (\n forceUpdate ||\n generator !== current?.generator ||\n version !== current?.version ||\n base !== current?.base ||\n count !== current?.count\n ) {\n // Something is different from before so we should generate these Gsplats\n if (generator && count > 0) {\n const modGenerator = modifier.apply(generator);\n try {\n this.splats.generate({\n generator: modGenerator,\n base,\n count,\n renderer,\n });\n } catch (error) {\n node.generator = undefined;\n node.generatorError = error;\n }\n updated += 1;\n }\n }\n numSplats = Math.max(numSplats, base + count);\n }\n\n this.splats.numSplats = numSplats;\n this.toWorld.copy(originToWorld);\n this.mapping = generators;\n return updated !== 0;\n }\n\n // Check if this accumulator has exactly the same generator mapping as\n // the previous one. If so, we can reuse the Gsplat sort order.\n hasCorrespondence(other: OldSplatAccumulator) {\n if (this.mapping.length !== other.mapping.length) {\n return false;\n }\n return this.mapping.every(({ node, base, count }, i) => {\n const {\n node: otherNode,\n base: otherBase,\n count: otherCount,\n } = other.mapping[i];\n return node === otherNode && base === otherBase && count === otherCount;\n });\n }\n}\n","import * as THREE from \"three\";\n\nimport {\n OldSparkViewpoint,\n type OldSparkViewpointOptions,\n} from \"./OldSparkViewpoint\";\nimport { OldSplatAccumulator } from \"./OldSplatAccumulator\";\nimport { OldSplatGeometry } from \"./OldSplatGeometry\";\nimport { PackedSplats } from \"./PackedSplats\";\nimport { RgbaArray } from \"./RgbaArray\";\nimport type { GeneratorMapping } from \"./SplatAccumulator\";\nimport { SplatEdit } from \"./SplatEdit\";\nimport { SplatGenerator, SplatModifier } from \"./SplatGenerator\";\nimport { SplatMesh } from \"./SplatMesh\";\nimport {\n DEFAULT_SPLAT_ENCODING,\n LN_SCALE_MAX,\n LN_SCALE_MIN,\n type SplatEncoding,\n} from \"./defines\";\nimport {\n DynoVec3,\n DynoVec4,\n Gsplat,\n TPackedSplats,\n dynoBlock,\n readPackedSplat,\n transformGsplat,\n} from \"./dyno\";\nimport { getShaders } from \"./shaders\";\nimport {\n averagePositions,\n averageQuaternions,\n cloneClock,\n withinCoorientDist,\n} from \"./utils\";\n\n// SparkRenderer aggregates splats from multiple generators into a single\n// accumulated collection per frame. In normal operation we only need a\n// maximum of 3 accumulators: One currently being viewed, one currently\n// being sorted, and one more for generating the next frame. Accumulators\n// must be \"released\" by each viewpoint using it, so in unusual cases\n// such as slow render-outs, we may want to allow more than 3 so the\n// pipeline can continue generating new frames, but we limit to a maximum\n// of 5 to avoid excessive memory usage.\nconst MAX_ACCUMULATORS = 5;\n\nexport type OldSparkRendererOptions = {\n /**\n * Pass in your THREE.WebGLRenderer instance so Spark can perform work\n * outside the usual render loop. Should be created with antialias: false\n * (default setting) as WebGL anti-aliasing doesn't improve Gaussian Splatting\n * rendering and significantly reduces performance.\n */\n renderer: THREE.WebGLRenderer;\n /**\n * Whether to use premultiplied alpha when accumulating splat RGB\n * @default true\n */\n premultipliedAlpha?: boolean;\n /**\n * Pass in a THREE.Clock to synchronize time-based effects across different\n * systems. Alternatively, you can set the SparkRenderer properties time and\n * deltaTime directly. (default: new THREE.Clock)\n */\n clock?: THREE.Clock;\n /**\n * Controls whether to check and automatically update Gsplat collection after\n * each frame render.\n * @default true\n */\n autoUpdate?: boolean;\n /**\n * Controls whether to update the Gsplats before or after rendering. For WebXR\n * this must be false in order to complete rendering as soon as possible.\n * @default false\n */\n preUpdate?: boolean;\n /**\n * Distance threshold for SparkRenderer movement triggering a Gsplat update at\n * the new origin.\n * @default 1.0\n */\n originDistance?: number;\n /**\n * Maximum standard deviations from the center to render Gaussians. Values\n * Math.sqrt(5)..Math.sqrt(8) produce good results and can be tweaked for\n * performance.\n * @default Math.sqrt(8)\n */\n maxStdDev?: number;\n /**\n * Minimum pixel radius for splat rendering.\n * @default 0.0\n */\n minPixelRadius?: number;\n /**\n * Maximum pixel radius for splat rendering.\n * @default 512.0\n */\n maxPixelRadius?: number;\n /**\n * Minimum alpha value for splat rendering.\n * @default 0.5 * (1.0 / 255.0)\n */\n minAlpha?: number;\n /**\n * Enable 2D Gaussian splatting rendering ability. When this mode is enabled,\n * any scale x/y/z component that is exactly 0 (minimum quantized value) results\n * in the other two non-0 axis being interpreted as an oriented 2D Gaussian Splat,\n * rather instead of the usual projected 3DGS Z-slice. When reading PLY files,\n * scale values less than e^-30 will be interpreted as 0.\n * @default false\n */\n enable2DGS?: boolean;\n /**\n * Scalar value to add to 2D splat covariance diagonal, effectively blurring +\n * enlarging splats. In scenes trained without the Gsplat anti-aliasing tweak\n * this value was typically 0.3, but with anti-aliasing it is 0.0\n * @default 0.0\n */\n preBlurAmount?: number;\n /**\n * Scalar value to add to 2D splat covarianve diagonal, with opacity adjustment\n * to correctly account for \"blurring\" when anti-aliasing. Typically 0.3\n * (equivalent to approx 0.5 pixel radius) in scenes trained with anti-aliasing.\n */\n blurAmount?: number;\n /**\n * Depth-of-field distance to focal plane\n */\n focalDistance?: number;\n /**\n * Full-width angle of aperture opening (in radians), 0.0 to disable\n * @default 0.0\n */\n apertureAngle?: number;\n /**\n * Modulate Gaussian kernel falloff. 0 means \"no falloff, flat shading\",\n * while 1 is the normal Gaussian kernel.\n * @default 1.0\n */\n falloff?: number;\n /**\n * X/Y clipping boundary factor for Gsplat centers against view frustum.\n * 1.0 clips any centers that are exactly out of bounds, while 1.4 clips\n * centers that are 40% beyond the bounds.\n * @default 1.4\n */\n clipXY?: number;\n /**\n * Parameter to adjust projected splat scale calculation to match other renderers,\n * similar to the same parameter in the MKellogg 3DGS renderer. Higher values will\n * tend to sharpen the splats. A value 2.0 can be used to match the behavior of\n * the PlayCanvas renderer.\n * @default 1.0\n */\n focalAdjustment?: number;\n /**\n * Configures the SparkViewpointOptions for the default SparkViewpoint\n * associated with this SparkRenderer. Notable option: sortRadial (sort by\n * radial distance or Z-depth)\n */\n view?: OldSparkViewpointOptions;\n /**\n * Override the default splat encoding ranges for the PackedSplats.\n * (default: undefined)\n */\n splatEncoding?: SplatEncoding;\n};\n\nexport class OldSparkRenderer extends THREE.Mesh {\n renderer: THREE.WebGLRenderer;\n premultipliedAlpha: boolean;\n material: THREE.ShaderMaterial;\n uniforms: ReturnType;\n\n autoUpdate: boolean;\n preUpdate: boolean;\n needsUpdate: boolean;\n originDistance: number;\n maxStdDev: number;\n minPixelRadius: number;\n maxPixelRadius: number;\n minAlpha: number;\n enable2DGS: boolean;\n preBlurAmount: number;\n blurAmount: number;\n focalDistance: number;\n apertureAngle: number;\n falloff: number;\n clipXY: number;\n focalAdjustment: number;\n splatEncoding: SplatEncoding;\n\n splatTexture: null | {\n enable?: boolean;\n texture?: THREE.Data3DTexture;\n multiply?: THREE.Matrix2;\n add?: THREE.Vector2;\n near?: number;\n far?: number;\n mid?: number;\n } = null;\n\n time?: number;\n deltaTime?: number;\n clock: THREE.Clock;\n\n // Latest Gsplat collection being displayed\n active: OldSplatAccumulator;\n // Free list of accumulators for reuse\n private freeAccumulators: OldSplatAccumulator[];\n // Total number of accumulators currently allocated\n private accumulatorCount: number;\n // Default SparkViewpoint used for rendering to the canvas\n defaultView: OldSparkViewpoint;\n // List of SparkViewpoints with autoUpdate enabled\n autoViewpoints: OldSparkViewpoint[] = [];\n\n // Dynos used to transform Gsplats to the accumulator coordinate system\n private rotateToAccumulator = new DynoVec4({ value: new THREE.Quaternion() });\n private translateToAccumulator = new DynoVec3({ value: new THREE.Vector3() });\n private modifier: SplatModifier;\n\n // Last rendered frame number so we know when we're rendering a new frame\n private lastFrame = -1;\n // Last update timestamp to compute deltaTime\n private lastUpdateTime: number | null = null;\n // List of cameras used for the current viewpoint (for WebXR)\n private defaultCameras: THREE.Matrix4[] = [];\n private lastStochastic: boolean | null = null;\n\n // Should be set to the defaultView, but can be temporarily changed to another\n // viewpoint using prepareViewpoint() for rendering from a different viewpoint.\n viewpoint: OldSparkViewpoint;\n\n // Holds data needed to perform a scheduled Gsplat update.\n private pendingUpdate = {\n scene: null as THREE.Scene | null,\n originToWorld: new THREE.Matrix4(),\n timeoutId: -1,\n };\n\n // Internal SparkViewpoint used for environment map rendering.\n private envViewpoint: OldSparkViewpoint | null = null;\n\n // Data and buffers used for environment map rendering\n private static cubeRender: {\n target: THREE.WebGLCubeRenderTarget;\n camera: THREE.CubeCamera;\n near: number;\n far: number;\n } | null = null;\n private static pmrem: THREE.PMREMGenerator | null = null;\n\n static EMPTY_SPLAT_TEXTURE = new THREE.Data3DTexture();\n\n constructor(options: OldSparkRendererOptions) {\n const uniforms = OldSparkRenderer.makeUniforms();\n const shaders = getShaders();\n const premultipliedAlpha = options.premultipliedAlpha ?? true;\n const material = new THREE.ShaderMaterial({\n glslVersion: THREE.GLSL3,\n vertexShader: shaders.oldSplatVertex,\n fragmentShader: shaders.oldSplatFragment,\n uniforms,\n premultipliedAlpha,\n transparent: true,\n depthTest: true,\n depthWrite: false,\n side: THREE.DoubleSide,\n });\n\n super(EMPTY_GEOMETRY, material);\n // Disable frustum culling because we want to always draw them all\n // and cull Gsplats individually in the shader\n this.frustumCulled = false;\n\n this.renderer = options.renderer;\n this.material = material;\n this.uniforms = uniforms;\n\n // Create a Gsplat modifier that takes the output of any SplatGenerator\n // and transforms them into the accumulator's coordinate system\n const modifier = dynoBlock(\n { gsplat: Gsplat },\n { gsplat: Gsplat },\n ({ gsplat }) => {\n if (!gsplat) {\n throw new Error(\"gsplat not defined\");\n }\n gsplat = transformGsplat(gsplat, {\n rotate: this.rotateToAccumulator,\n translate: this.translateToAccumulator,\n });\n return { gsplat };\n },\n );\n this.modifier = new SplatModifier(modifier);\n\n this.premultipliedAlpha = premultipliedAlpha;\n this.autoUpdate = options.autoUpdate ?? true;\n this.preUpdate = options.preUpdate ?? false;\n this.needsUpdate = false;\n this.originDistance = options.originDistance ?? 1;\n this.maxStdDev = options.maxStdDev ?? Math.sqrt(8.0);\n this.minPixelRadius = options.minPixelRadius ?? 0.0;\n this.maxPixelRadius = options.maxPixelRadius ?? 512.0;\n this.minAlpha = options.minAlpha ?? 0.5 * (1.0 / 255.0);\n this.enable2DGS = options.enable2DGS ?? false;\n this.preBlurAmount = options.preBlurAmount ?? 0.0;\n this.blurAmount = options.blurAmount ?? 0.3;\n this.focalDistance = options.focalDistance ?? 0.0;\n this.apertureAngle = options.apertureAngle ?? 0.0;\n this.falloff = options.falloff ?? 1.0;\n this.clipXY = options.clipXY ?? 1.4;\n this.focalAdjustment = options.focalAdjustment ?? 1.0;\n this.splatEncoding = options.splatEncoding ?? { ...DEFAULT_SPLAT_ENCODING };\n\n this.active = new OldSplatAccumulator();\n this.active.refCount = 1;\n this.accumulatorCount = 1;\n this.freeAccumulators = [];\n // Start with the minimum of 2 total accumulators\n for (let count = 0; count < 1; ++count) {\n this.freeAccumulators.push(new OldSplatAccumulator());\n this.accumulatorCount += 1;\n }\n\n // Create a default SparkViewpoint that is used when we call render()\n // on the scene and has the sorted Gsplat collection from that viewpoint.\n this.defaultView = new OldSparkViewpoint({\n ...options.view,\n autoUpdate: true,\n spark: this,\n });\n this.viewpoint = this.defaultView;\n this.prepareViewpoint(this.viewpoint);\n\n this.clock = options.clock ? cloneClock(options.clock) : new THREE.Clock();\n }\n\n static makeUniforms() {\n // Create uniforms used for Gsplat vertex and fragment shaders\n const uniforms = {\n // Size of render viewport in pixels\n renderSize: { value: new THREE.Vector2() },\n // Near and far plane distances\n near: { value: 0.1 },\n far: { value: 1000.0 },\n // Total number of Gsplats in packedSplats to render\n numSplats: { value: 0 },\n // SplatAccumulator to view transformation quaternion\n renderToViewQuat: { value: new THREE.Quaternion() },\n // SplatAccumulator to view transformation translation\n renderToViewPos: { value: new THREE.Vector3() },\n // Maximum distance (in stddevs) from Gsplat center to render\n maxStdDev: { value: 1.0 },\n // Minimum pixel radius for splat rendering\n minPixelRadius: { value: 0.0 },\n // Maximum pixel radius for splat rendering\n maxPixelRadius: { value: 512.0 },\n // Minimum alpha value for splat rendering\n minAlpha: { value: 0.5 * (1.0 / 255.0) },\n // Enable stochastic splat rendering\n stochastic: { value: false },\n // Enable interpreting 0-thickness Gsplats as 2DGS\n enable2DGS: { value: false },\n // Add to projected 2D splat covariance diagonal (thickens and brightens)\n preBlurAmount: { value: 0.0 },\n // Add to 2D splat covariance diagonal and adjust opacity (anti-aliasing)\n blurAmount: { value: 0.3 },\n // Depth-of-field distance to focal plane\n focalDistance: { value: 0.0 },\n // Full-width angle of aperture opening (in radians)\n apertureAngle: { value: 0.0 },\n // Modulate Gaussian kernal falloff. 0 means \"no falloff, flat shading\",\n // 1 is normal e^-x^2 falloff.\n falloff: { value: 1.0 },\n // Clip Gsplats that are clipXY times beyond the +-1 frustum bounds\n clipXY: { value: 1.4 },\n // Debug renderSize scale factor\n focalAdjustment: { value: 1.0 },\n // Enable splat texture rendering\n splatTexEnable: { value: false },\n // Splat texture to render\n splatTexture: { type: \"t\", value: OldSparkRenderer.EMPTY_SPLAT_TEXTURE },\n // Splat texture UV transform (multiply)\n splatTexMul: { value: new THREE.Matrix2() },\n // Splat texture UV transform (add)\n splatTexAdd: { value: new THREE.Vector2() },\n // Splat texture near plane distance\n splatTexNear: { value: 0.1 },\n // Splat texture far plane distance\n splatTexFar: { value: 1000.0 },\n // Splat texture mid plane distance, or 0.0 to disable\n splatTexMid: { value: 0.0 },\n // Gsplat collection to render\n packedSplats: { type: \"t\", value: PackedSplats.getEmptyArray },\n // Splat encoding ranges\n rgbMinMaxLnScaleMinMax: { value: new THREE.Vector4() },\n // Time in seconds for time-based effects\n time: { value: 0 },\n // Delta time in seconds since last frame\n deltaTime: { value: 0 },\n // Whether to encode Gsplat with linear RGB (for environment mapping)\n encodeLinear: { value: false },\n // Debug flag that alternates each frame\n debugFlag: { value: false },\n };\n return uniforms;\n }\n\n private canAllocAccumulator(): boolean {\n // Returns true if can allocate an accumulator immediately\n return (\n this.freeAccumulators.length > 0 ||\n this.accumulatorCount < MAX_ACCUMULATORS\n );\n }\n\n private maybeAllocAccumulator(): OldSplatAccumulator | null {\n // Allocate an accumulator immediately if possible, else return null\n let accumulator = this.freeAccumulators.pop();\n if (accumulator === undefined) {\n if (this.accumulatorCount >= MAX_ACCUMULATORS) {\n return null;\n }\n accumulator = new OldSplatAccumulator();\n this.accumulatorCount += 1;\n }\n accumulator.refCount = 1;\n return accumulator;\n }\n\n releaseAccumulator(accumulator: OldSplatAccumulator) {\n // Decrement reference count and recycle if no longer in use\n accumulator.refCount -= 1;\n if (accumulator.refCount === 0) {\n this.freeAccumulators.push(accumulator);\n }\n }\n\n newViewpoint(options: OldSparkViewpointOptions) {\n // Create a new SparkViewpoint for this SparkRenderer.\n // Note that every SparkRenderer has an initial spark.defaultView: SparkViewpoint\n // from construction, which is used for the default canvas render loop.\n // Calling this method allows you to create additional viewpoints, which can be\n // updated automatically each frame (performing Gsplat sorting every time there\n // is an update), or updated on-demand for controlled rendering for video render\n // or similar applications.\n return new OldSparkViewpoint({ ...options, spark: this });\n }\n\n onBeforeRender(\n renderer: THREE.WebGLRenderer,\n scene: THREE.Scene,\n camera: THREE.Camera,\n ) {\n // throw new Error(\"onBeforeRender disabled in SparkRenderer\");\n\n // Called by Three.js before rendering this SparkRenderer.\n // At this point we can't modify the geometry or material, all these must\n // be set in the scene already before this is called. Update the uniforms\n // to render the Gsplats from the current active viewpoint.\n const time = this.time ?? this.clock.getElapsedTime();\n const deltaTime = time - (this.viewpoint.lastTime ?? time);\n this.viewpoint.lastTime = time;\n\n const frame = renderer.info.render.frame;\n const isNewFrame = frame !== this.lastFrame;\n this.lastFrame = frame;\n\n const viewpoint = this.viewpoint;\n if (viewpoint === this.defaultView) {\n // When rendering is triggered on the default viewpoint,\n // perform automatic updates.\n if (isNewFrame) {\n if (!renderer.xr.isPresenting) {\n // Non-WebXR mode, just a single camera\n this.defaultView.viewToWorld = camera.matrixWorld.clone();\n this.defaultCameras = [this.defaultView.viewToWorld];\n } else {\n // In WebXR mode we are called multiple times, once for each eye,\n // so use their average to compute the sort center.\n const cameras = renderer.xr.getCamera().cameras;\n this.defaultCameras = cameras.map((camera) => camera.matrixWorld);\n this.defaultView.viewToWorld =\n averageOriginToWorlds(this.defaultCameras) ?? new THREE.Matrix4();\n }\n }\n\n if (this.autoUpdate) {\n this.update({ scene, viewToWorld: this.defaultView.viewToWorld });\n }\n }\n\n // Update uniforms for rendering\n\n if (isNewFrame) {\n // Keep these uniforms the same for both eyes if in WebXR\n if (this.material.premultipliedAlpha !== this.premultipliedAlpha) {\n this.material.premultipliedAlpha = this.premultipliedAlpha;\n this.material.needsUpdate = true;\n }\n this.uniforms.time.value = time;\n this.uniforms.deltaTime.value = deltaTime;\n // Alternating debug flag that can aid in visual debugging\n this.uniforms.debugFlag.value = (performance.now() / 1000.0) % 2.0 < 1.0;\n\n if (viewpoint.display && viewpoint.stochastic) {\n (this.geometry as OldSplatGeometry).instanceCount =\n this.uniforms.numSplats.value;\n }\n }\n\n if (viewpoint.target) {\n // Rendering to a texture target, so its dimensions\n this.uniforms.renderSize.value.set(\n viewpoint.target.width,\n viewpoint.target.height,\n );\n } else {\n // Rendering to the canvas or WebXR\n const renderSize = renderer.getDrawingBufferSize(\n this.uniforms.renderSize.value,\n );\n if (renderSize.x === 1 && renderSize.y === 1) {\n // WebXR mode on Apple Vision Pro returns 1x1 when presenting.\n // Use a different means to figure out the render size.\n const baseLayer = renderer.xr.getSession()?.renderState.baseLayer;\n if (baseLayer) {\n renderSize.x = baseLayer.framebufferWidth;\n renderSize.y = baseLayer.framebufferHeight;\n }\n }\n }\n\n // Update uniforms from instance properties\n const typedCamera = camera as\n | THREE.PerspectiveCamera\n | THREE.OrthographicCamera;\n this.uniforms.near.value = typedCamera.near;\n this.uniforms.far.value = typedCamera.far;\n this.uniforms.encodeLinear.value = viewpoint.encodeLinear;\n this.uniforms.maxStdDev.value = this.maxStdDev;\n this.uniforms.minPixelRadius.value = this.minPixelRadius;\n this.uniforms.maxPixelRadius.value = this.maxPixelRadius;\n this.uniforms.minAlpha.value = this.minAlpha;\n this.uniforms.stochastic.value = viewpoint.stochastic;\n this.uniforms.enable2DGS.value = this.enable2DGS;\n this.uniforms.preBlurAmount.value = this.preBlurAmount;\n this.uniforms.blurAmount.value = this.blurAmount;\n this.uniforms.focalDistance.value = this.focalDistance;\n this.uniforms.apertureAngle.value = this.apertureAngle;\n this.uniforms.falloff.value = this.falloff;\n this.uniforms.clipXY.value = this.clipXY;\n this.uniforms.focalAdjustment.value = this.focalAdjustment;\n\n if (this.lastStochastic !== !viewpoint.stochastic) {\n this.lastStochastic = !viewpoint.stochastic;\n this.material.transparent = !viewpoint.stochastic;\n this.material.depthWrite = viewpoint.stochastic;\n this.material.needsUpdate = true;\n }\n\n if (this.splatTexture) {\n const { enable, texture, multiply, add, near, far, mid } =\n this.splatTexture;\n if (enable && texture) {\n this.uniforms.splatTexEnable.value = true;\n this.uniforms.splatTexture.value = texture;\n if (multiply) {\n this.uniforms.splatTexMul.value.fromArray(multiply.elements);\n } else {\n this.uniforms.splatTexMul.value.set(\n 0.5 / this.maxStdDev,\n 0,\n 0,\n 0.5 / this.maxStdDev,\n );\n }\n this.uniforms.splatTexAdd.value.set(add?.x ?? 0.5, add?.y ?? 0.5);\n this.uniforms.splatTexNear.value = near ?? this.uniforms.near.value;\n this.uniforms.splatTexFar.value = far ?? this.uniforms.far.value;\n this.uniforms.splatTexMid.value = mid ?? 0.0;\n } else {\n this.uniforms.splatTexEnable.value = false;\n this.uniforms.splatTexture.value = OldSparkRenderer.EMPTY_SPLAT_TEXTURE;\n }\n } else {\n this.uniforms.splatTexEnable.value = false;\n this.uniforms.splatTexture.value = OldSparkRenderer.EMPTY_SPLAT_TEXTURE;\n }\n\n // Calculate the transform from the accumulator to the current camera\n const accumToWorld =\n viewpoint.display?.accumulator.toWorld ?? new THREE.Matrix4();\n const worldToCamera = camera.matrixWorld.clone().invert();\n const originToCamera = accumToWorld.clone().premultiply(worldToCamera);\n originToCamera.decompose(\n this.uniforms.renderToViewPos.value,\n this.uniforms.renderToViewQuat.value,\n new THREE.Vector3(),\n );\n }\n\n // Update the uniforms for the given viewpoint.\n // Note that the client expects to be able to call render() at any point\n // to update the canvas, so we must switch the viewpoint back to\n // defaultView when we're finished.\n prepareViewpoint(viewpoint?: OldSparkViewpoint) {\n this.viewpoint = viewpoint ?? this.viewpoint;\n\n if (this.viewpoint.display) {\n const { accumulator, geometry } = this.viewpoint.display;\n this.uniforms.numSplats.value = accumulator.splats.numSplats;\n this.uniforms.packedSplats.value = accumulator.splats.getTexture();\n this.uniforms.rgbMinMaxLnScaleMinMax.value.set(\n accumulator.splats.splatEncoding?.rgbMin ?? 0.0,\n accumulator.splats.splatEncoding?.rgbMax ?? 1.0,\n accumulator.splats.splatEncoding?.lnScaleMin ?? LN_SCALE_MIN,\n accumulator.splats.splatEncoding?.lnScaleMax ?? LN_SCALE_MAX,\n );\n this.geometry = geometry;\n this.material.transparent = !this.viewpoint.stochastic;\n this.material.depthWrite = this.viewpoint.stochastic;\n this.material.needsUpdate = true;\n } else {\n // No Gsplats to display for this viewpoint yet\n this.uniforms.numSplats.value = 0;\n this.uniforms.packedSplats.value = PackedSplats.getEmptyArray;\n this.geometry = EMPTY_GEOMETRY;\n }\n }\n\n // If spark.autoUpdate is false then you must manually call\n // spark.update({ scene }) to have the scene Gsplats be re-generated.\n update({\n scene,\n viewToWorld,\n }: { scene: THREE.Scene; viewToWorld?: THREE.Matrix4 }) {\n // Compute the transform for the SparkRenderer to use as origin\n // for Gsplat generation and accumulation.\n const originToWorld = this.matrixWorld;\n\n // Either do the update now, or in the next \"tick\" depending on preUpdate\n if (this.preUpdate) {\n this.updateInternal({\n scene,\n originToWorld: originToWorld.clone(),\n viewToWorld,\n });\n } else {\n // Pass the update parameters to be performed on the next tick\n this.pendingUpdate.scene = scene;\n this.pendingUpdate.originToWorld.copy(originToWorld);\n\n // Schedule a timeout if there isn't one already\n if (this.pendingUpdate.timeoutId === -1) {\n this.pendingUpdate.timeoutId = setTimeout(() => {\n const { scene, originToWorld } = this.pendingUpdate;\n this.pendingUpdate.scene = null;\n this.pendingUpdate.timeoutId = -1;\n const updated = this.updateInternal({\n scene: scene as THREE.Scene,\n originToWorld,\n viewToWorld,\n });\n\n if (updated) {\n // Flush to encourage eager execution\n const gl = this.renderer.getContext() as WebGL2RenderingContext;\n gl.flush();\n }\n }, 1);\n }\n }\n }\n\n updateInternal({\n scene,\n originToWorld,\n viewToWorld,\n }: {\n scene: THREE.Scene;\n originToWorld?: THREE.Matrix4;\n viewToWorld?: THREE.Matrix4;\n }): boolean {\n if (!this.canAllocAccumulator()) {\n // We don't have any available accumulators because of sorting\n // back pressure, so don't update this time but try again next time.\n // Signal update not attempted.\n return false;\n }\n\n // Figure out the frame of the SparkRenderer and current view\n if (!originToWorld) {\n originToWorld = this.active.toWorld;\n }\n viewToWorld = viewToWorld ?? originToWorld.clone();\n\n const time = this.time ?? this.clock.getElapsedTime();\n const deltaTime = time - (this.lastUpdateTime ?? time);\n this.lastUpdateTime = time;\n\n // Create a lookup from last active SplatGenerator to Gsplat mapping record\n const activeMapping = this.active.mapping.reduce((map, record) => {\n map.set(record.node, record);\n return map;\n }, new Map());\n\n // Traverse visible scene to find all SplatGenerators and global SplatEdits\n const { generators, visibleGenerators, globalEdits } =\n this.compileScene(scene);\n\n // Let all SplatGenerators run their frameUpdate() method\n for (const object of generators) {\n object.frameUpdate?.({\n renderer: this.renderer,\n object,\n time,\n deltaTime,\n viewToWorld,\n globalEdits,\n });\n }\n\n const visibleGenHash = new Set(visibleGenerators.map((g) => g.uuid));\n\n // Make sure we have new version numbers for any objects with either\n // generator or numSplats that have changed since the last frame.\n for (const object of generators) {\n const current = activeMapping.get(object);\n const isVisible = object.generator && visibleGenHash.has(object.uuid);\n const numSplats = isVisible ? object.numSplats : 0;\n if (\n this.needsUpdate ||\n object.generator !== current?.generator ||\n numSplats !== current?.count\n ) {\n object.updateVersion();\n }\n }\n\n // Check if the origin is within the maximum allowed distance before\n // we trigger an update.\n const originUpdate = !withinCoorientDist({\n matrix1: originToWorld,\n matrix2: this.active.toWorld,\n maxDistance: this.originDistance,\n });\n\n // Check if we need any update at all\n const needsUpdate =\n this.needsUpdate ||\n originUpdate ||\n generators.length !== activeMapping.size ||\n generators.some((g) => g.version !== activeMapping.get(g)?.version);\n this.needsUpdate = false;\n\n let accumulator: OldSplatAccumulator | null = null;\n if (needsUpdate) {\n // Need to update, so allocate an accumulator\n accumulator = this.maybeAllocAccumulator();\n if (!accumulator) {\n // This should never happen since we checked canAllocAccumulator() above\n throw new Error(\"Unreachable\");\n }\n\n // Compute whether our view frame has changed enough to warrant\n // doing a Gsplat sort. Check both distance epsilon and\n // minimum co-orientation (dot product of quaternions)\n const originChanged = !withinCoorientDist({\n matrix1: originToWorld,\n matrix2: accumulator.toWorld,\n maxDistance: 0.00001,\n minCoorient: 0.99999,\n });\n\n // Compute an ordering of the generators with the rough goal\n // of keeping unchanging generators near the front to minimize\n // the number of Gsplats that need to be regenerated.\n const sorted = visibleGenerators\n .map((g, gIndex): [number, number, SplatGenerator] => {\n const lastGen = activeMapping.get(g);\n // If no previous generator, sort by absolute version, which will\n // tend to push frequently updated generators toward the end\n return !lastGen\n ? [Number.POSITIVE_INFINITY, g.version, g]\n : // Sort by version deltas then by previous ordering in the mapping,\n // attempting to keep unchanging generators near the front\n // to improve our chances of avoiding a re-generation.\n [g.version - lastGen.version, lastGen.base, g];\n })\n .sort((a, b) => {\n // Sort by first then second element of the tuple\n if (a[0] !== b[0]) {\n return a[0] - b[0];\n }\n return a[1] - b[1];\n });\n const genOrder = sorted.map(([_version, _seq, g]) => g);\n\n // Compute sequential layout of generated splats\n const splatCounts = genOrder.map((g) => g.numSplats);\n const { maxSplats, mapping } =\n accumulator.splats.generateMapping(splatCounts);\n const newGenerators = genOrder.map((node, gIndex) => {\n const { base, count } = mapping[gIndex];\n return {\n node,\n generator: node.generator,\n version: node.version,\n base,\n count,\n };\n });\n\n // Compute worldToAccumulator origin transform (no scale)\n originToWorld\n .clone()\n .invert()\n .decompose(\n this.translateToAccumulator.value,\n this.rotateToAccumulator.value,\n new THREE.Vector3(),\n );\n\n // Generate the Gsplats according to the mapping that need updating\n accumulator.ensureGenerate(maxSplats);\n accumulator.splats.splatEncoding = { ...this.splatEncoding };\n const generated = accumulator.generateSplats({\n renderer: this.renderer,\n modifier: this.modifier,\n generators: newGenerators,\n forceUpdate: originChanged,\n originToWorld,\n });\n\n // Update splat version number\n accumulator.splatsVersion = this.active.splatsVersion + 1;\n // Increment the mapping version if the mapping isn't identical to before\n const hasCorrespondence = accumulator.hasCorrespondence(this.active);\n accumulator.mappingVersion =\n this.active.mappingVersion + (hasCorrespondence ? 0 : 1);\n\n // Release the old accumulator and make the new one active\n this.releaseAccumulator(this.active);\n this.active = accumulator;\n this.prepareViewpoint();\n }\n\n // Let the system breath before potentially triggering sorts\n setTimeout(() => {\n // Notify all auto-updating viewpoints that we updated the Gsplats\n for (const view of this.autoViewpoints) {\n view.autoPoll({ accumulator: accumulator ?? undefined });\n }\n }, 1);\n\n // Signal update was performed\n return true;\n }\n\n private compileScene(scene: THREE.Scene): {\n generators: SplatGenerator[];\n visibleGenerators: SplatGenerator[];\n globalEdits: SplatEdit[];\n } {\n // Take a snapshot of the SplatGenerators and SplatEdits in the scene\n // to be used to run an update.\n const generators: SplatGenerator[] = [];\n // Collect all SplatGenerators, even if not visible, because we want to\n // be able to call their update functions every frame.\n scene.traverse((node) => {\n if (node instanceof SplatGenerator) {\n generators.push(node);\n }\n });\n\n const visibleGenerators: SplatGenerator[] = [];\n scene.traverseVisible((node) => {\n if (node instanceof SplatGenerator) {\n visibleGenerators.push(node);\n }\n });\n\n const globalEdits = new Set();\n scene.traverseVisible((node) => {\n if (node instanceof SplatEdit) {\n let ancestor = node.parent;\n while (ancestor != null && !(ancestor instanceof SplatMesh)) {\n ancestor = ancestor.parent;\n }\n if (ancestor == null) {\n // Not part of a SplatMesh so it's a global edit\n globalEdits.add(node);\n }\n }\n });\n return {\n generators,\n visibleGenerators,\n globalEdits: Array.from(globalEdits),\n };\n }\n\n // Renders out the scene to an environment map that can be used for\n // Image-based lighting or similar applications. First optionally updates Gsplats,\n // sorts them with respect to the provided worldCenter, renders 6 cube faces,\n // then pre-filters them using THREE.PMREMGenerator and returns a THREE.Texture\n // that can assigned directly to a THREE.MeshStandardMaterial.envMap property.\n async renderEnvMap({\n renderer,\n scene,\n worldCenter,\n size = 256,\n near = 0.1,\n far = 1000,\n hideObjects = [],\n update = false,\n }: {\n renderer?: THREE.WebGLRenderer;\n scene: THREE.Scene;\n worldCenter: THREE.Vector3;\n size?: number;\n near?: number;\n far?: number;\n hideObjects?: THREE.Object3D[];\n update?: boolean;\n }): Promise {\n if (!this.envViewpoint) {\n this.envViewpoint = this.newViewpoint({ sort360: true });\n }\n if (\n !OldSparkRenderer.cubeRender ||\n OldSparkRenderer.cubeRender.target.width !== size ||\n OldSparkRenderer.cubeRender.near !== near ||\n OldSparkRenderer.cubeRender.far !== far\n ) {\n if (OldSparkRenderer.cubeRender) {\n OldSparkRenderer.cubeRender.target.dispose();\n }\n const target = new THREE.WebGLCubeRenderTarget(size, {\n format: THREE.RGBAFormat,\n generateMipmaps: true,\n minFilter: THREE.LinearMipMapLinearFilter,\n });\n const camera = new THREE.CubeCamera(near, far, target);\n OldSparkRenderer.cubeRender = { target, camera, near, far };\n }\n\n if (!OldSparkRenderer.pmrem) {\n OldSparkRenderer.pmrem = new THREE.PMREMGenerator(\n renderer ?? this.renderer,\n );\n }\n\n // Prepare the viewpoint, sorting Gsplats for this view origin.\n const viewToWorld = new THREE.Matrix4().setPosition(worldCenter);\n await this.envViewpoint?.prepare({ scene, viewToWorld, update });\n\n const { target, camera } = OldSparkRenderer.cubeRender;\n camera.position.copy(worldCenter);\n\n // Save the visibility state of objects we want to hide before render\n const objectVisibility = new Map();\n for (const object of hideObjects) {\n objectVisibility.set(object, object.visible);\n object.visible = false;\n }\n\n // Update the CubeCamera, which performs 6 cube face renders\n this.prepareViewpoint(this.envViewpoint);\n camera.update(renderer ?? this.renderer, scene);\n\n // Restore viewpoint to default and object visibility\n this.prepareViewpoint(this.defaultView);\n for (const [object, visible] of objectVisibility.entries()) {\n object.visible = visible;\n }\n\n // Pre-filter the cube map using THREE.PMREMGenerator\n return OldSparkRenderer.pmrem?.fromCubemap(target.texture).texture;\n }\n\n // Utility function to recursively set the envMap property for any\n // THREE.MeshStandardMaterial within the subtree of root.\n recurseSetEnvMap(root: THREE.Object3D, envMap: THREE.Texture) {\n root.traverse((node) => {\n if (node instanceof THREE.Mesh) {\n if (Array.isArray(node.material)) {\n for (const material of node.material) {\n if (material instanceof THREE.MeshStandardMaterial) {\n material.envMap = envMap;\n }\n }\n } else {\n if (node.material instanceof THREE.MeshStandardMaterial) {\n node.material.envMap = envMap;\n }\n }\n }\n });\n }\n\n // Utility function that helps extract the Gsplat RGBA values from a\n // SplatGenerator, including the result of any real-time RGBA SDF edits applied\n // to a SplatMesh. This effectively \"bakes\" any computed RGBA values, which can\n // now be used as a pipeline input via SplatMesh.splatRgba to inject these\n // baked values into the Gsplat data.\n getRgba({\n generator,\n rgba,\n }: { generator: SplatGenerator; rgba?: RgbaArray }): RgbaArray {\n const mapping = this.active.mapping.find(({ node }) => node === generator);\n if (!mapping) {\n throw new Error(\"Generator not found\");\n }\n\n rgba = rgba ?? new RgbaArray();\n rgba.fromPackedSplats({\n packedSplats: this.active.splats,\n base: mapping.base,\n count: mapping.count,\n renderer: this.renderer,\n });\n return rgba;\n }\n\n // Utility function that builds on getRgba({ generator }) and additionally\n // reads back the RGBA values to the CPU in a Uint8Array with packed RGBA\n // in that byte order.\n async readRgba({\n generator,\n rgba,\n }: { generator: SplatGenerator; rgba?: RgbaArray }): Promise {\n rgba = this.getRgba({ generator, rgba });\n return rgba.read();\n }\n}\n\nconst EMPTY_GEOMETRY = new OldSplatGeometry(new Uint32Array(1), 0);\n\nconst reorderSplats = dynoBlock(\n { packedSplats: TPackedSplats, index: \"int\" },\n { gsplat: Gsplat },\n ({ packedSplats, index }) => {\n if (!packedSplats || !index) {\n throw new Error(\"Invalid input\");\n }\n const gsplat = readPackedSplat(packedSplats, index);\n return { gsplat };\n },\n);\n\nfunction averageOriginToWorlds(\n originToWorlds: THREE.Matrix4[],\n): THREE.Matrix4 | null {\n if (originToWorlds.length === 0) {\n return null;\n }\n\n const position = new THREE.Vector3();\n const quaternion = new THREE.Quaternion();\n const scale = new THREE.Vector3();\n\n const positions: THREE.Vector3[] = [];\n const quaternions: THREE.Quaternion[] = [];\n for (const matrix of originToWorlds) {\n matrix.decompose(position, quaternion, scale);\n positions.push(position);\n quaternions.push(quaternion);\n }\n\n return new THREE.Matrix4().compose(\n averagePositions(positions),\n averageQuaternions(quaternions),\n new THREE.Vector3(1, 1, 1),\n );\n}\n","import type { SplatEncoding } from \"./defines\";\nimport { computeMaxSplats, setPackedSplat } from \"./utils\";\n\nexport function decodeAntiSplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n) {\n const numSplats = Math.floor(fileBytes.length / 32); // 32 bytes per splat\n if (numSplats * 32 !== fileBytes.length) {\n throw new Error(\"Invalid .splat file size\");\n }\n initNumSplats(numSplats);\n\n const f32 = new Float32Array(fileBytes.buffer);\n for (let i = 0; i < numSplats; ++i) {\n const i32 = i * 32;\n const i8 = i * 8;\n const x = f32[i8 + 0];\n const y = f32[i8 + 1];\n const z = f32[i8 + 2];\n const scaleX = f32[i8 + 3];\n const scaleY = f32[i8 + 4];\n const scaleZ = f32[i8 + 5];\n const r = fileBytes[i32 + 24] / 255;\n const g = fileBytes[i32 + 25] / 255;\n const b = fileBytes[i32 + 26] / 255;\n const opacity = fileBytes[i32 + 27] / 255;\n const quatW = (fileBytes[i32 + 28] - 128) / 128;\n const quatX = (fileBytes[i32 + 29] - 128) / 128;\n const quatY = (fileBytes[i32 + 30] - 128) / 128;\n const quatZ = (fileBytes[i32 + 31] - 128) / 128;\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n }\n}\n\nexport function unpackAntiSplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n} {\n let numSplats = 0;\n let maxSplats = 0;\n let packedArray = new Uint32Array(0);\n decodeAntiSplat(\n fileBytes,\n (cbNumSplats) => {\n numSplats = cbNumSplats;\n maxSplats = computeMaxSplats(numSplats);\n packedArray = new Uint32Array(maxSplats * 4);\n },\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n setPackedSplat(\n packedArray,\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n },\n );\n return { packedArray, numSplats };\n}\n","import type { SplatEncoding } from \"./defines\";\nimport {\n computeMaxSplats,\n encodeSh1Rgb,\n encodeSh2Rgb,\n encodeSh3Rgb,\n fromHalf,\n setPackedSplat,\n} from \"./utils\";\n\ntype KsplatCompression = {\n bytesPerCenter: number;\n bytesPerScale: number;\n bytesPerRotation: number;\n bytesPerColor: number;\n bytesPerSphericalHarmonicsComponent: number;\n scaleOffsetBytes: number;\n rotationOffsetBytes: number;\n colorOffsetBytes: number;\n sphericalHarmonicsOffsetBytes: number;\n scaleRange: number;\n};\n\nconst KSPLAT_COMPRESSION: Record = {\n 0: {\n bytesPerCenter: 12,\n bytesPerScale: 12,\n bytesPerRotation: 16,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 4,\n scaleOffsetBytes: 12,\n rotationOffsetBytes: 24,\n colorOffsetBytes: 40,\n sphericalHarmonicsOffsetBytes: 44,\n scaleRange: 1,\n },\n 1: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 2,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n 2: {\n bytesPerCenter: 6,\n bytesPerScale: 6,\n bytesPerRotation: 8,\n bytesPerColor: 4,\n bytesPerSphericalHarmonicsComponent: 1,\n scaleOffsetBytes: 6,\n rotationOffsetBytes: 12,\n colorOffsetBytes: 20,\n sphericalHarmonicsOffsetBytes: 24,\n scaleRange: 32767,\n },\n};\n\nconst KSPLAT_SH_DEGREE_TO_COMPONENTS: Record = {\n 0: 0,\n 1: 9,\n 2: 24,\n 3: 45,\n};\n\nexport function decodeKsplat(\n fileBytes: Uint8Array,\n initNumSplats: (numSplats: number) => void,\n splatCallback: (\n index: number,\n x: number,\n y: number,\n z: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n opacity: number,\n r: number,\n g: number,\n b: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n) {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n initNumSplats(numSplats);\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n splatCallback(\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n );\n\n if (sphericalHarmonicsDegree >= 1 && sh1) {\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n if (sh2) {\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n }\n if (sh3) {\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n sectionBase += storageSizeBytes;\n }\n}\n\nexport function unpackKsplat(\n fileBytes: Uint8Array,\n splatEncoding: SplatEncoding,\n): {\n packedArray: Uint32Array;\n numSplats: number;\n extra: Record;\n} {\n const HEADER_BYTES = 4096;\n const SECTION_BYTES = 1024;\n\n let headerOffset = 0;\n const header = new DataView(fileBytes.buffer, headerOffset, HEADER_BYTES);\n headerOffset += HEADER_BYTES;\n\n const versionMajor = header.getUint8(0);\n const versionMinor = header.getUint8(1);\n if (versionMajor !== 0 || versionMinor < 1) {\n throw new Error(\n `Unsupported .ksplat version: ${versionMajor}.${versionMinor}`,\n );\n }\n const maxSectionCount = header.getUint32(4, true);\n // const sectionCount = header.getUint32(8, true);\n // const maxSplatCount = header.getUint32(12, true);\n const splatCount = header.getUint32(16, true);\n const compressionLevel = header.getUint16(20, true);\n if (compressionLevel < 0 || compressionLevel > 2) {\n throw new Error(`Invalid .ksplat compression level: ${compressionLevel}`);\n }\n // const sceneCenterX = header.getFloat32(24, true);\n // const sceneCenterY = header.getFloat32(28, true);\n // const sceneCenterZ = header.getFloat32(32, true);\n const minSphericalHarmonicsCoeff = header.getFloat32(36, true) || -1.5;\n const maxSphericalHarmonicsCoeff = header.getFloat32(40, true) || 1.5;\n\n const numSplats = splatCount;\n const maxSplats = computeMaxSplats(numSplats);\n const packedArray = new Uint32Array(maxSplats * 4);\n const extra: Record = {};\n\n let sectionBase = HEADER_BYTES + maxSectionCount * SECTION_BYTES;\n\n for (let section = 0; section < maxSectionCount; ++section) {\n const section = new DataView(fileBytes.buffer, headerOffset, SECTION_BYTES);\n headerOffset += SECTION_BYTES;\n\n const sectionSplatCount = section.getUint32(0, true);\n const sectionMaxSplatCount = section.getUint32(4, true);\n const bucketSize = section.getUint32(8, true);\n const bucketCount = section.getUint32(12, true);\n const bucketBlockSize = section.getFloat32(16, true);\n const bucketStorageSizeBytes = section.getUint16(20, true);\n const compressionScaleRange =\n (section.getUint32(24, true) ||\n KSPLAT_COMPRESSION[compressionLevel]?.scaleRange) ??\n 1;\n const fullBucketCount = section.getUint32(32, true);\n const fullBucketSplats = fullBucketCount * bucketSize;\n const partiallyFilledBucketCount = section.getUint32(36, true);\n const bucketsMetaDataSizeBytes = partiallyFilledBucketCount * 4;\n const bucketsStorageSizeBytes =\n bucketStorageSizeBytes * bucketCount + bucketsMetaDataSizeBytes;\n const sphericalHarmonicsDegree = section.getUint16(40, true);\n const shComponents =\n KSPLAT_SH_DEGREE_TO_COMPONENTS[sphericalHarmonicsDegree];\n\n const {\n bytesPerCenter,\n bytesPerScale,\n bytesPerRotation,\n bytesPerColor,\n bytesPerSphericalHarmonicsComponent,\n scaleOffsetBytes,\n rotationOffsetBytes,\n colorOffsetBytes,\n sphericalHarmonicsOffsetBytes,\n } = KSPLAT_COMPRESSION[compressionLevel];\n const bytesPerSplat =\n bytesPerCenter +\n bytesPerScale +\n bytesPerRotation +\n bytesPerColor +\n shComponents * bytesPerSphericalHarmonicsComponent;\n const splatDataStorageSizeBytes = bytesPerSplat * sectionMaxSplatCount;\n const storageSizeBytes =\n splatDataStorageSizeBytes + bucketsStorageSizeBytes;\n\n const sh1Index = [0, 3, 6, 1, 4, 7, 2, 5, 8];\n const sh2Index = [\n 9, 14, 19, 10, 15, 20, 11, 16, 21, 12, 17, 22, 13, 18, 23,\n ];\n const sh3Index = [\n 24, 31, 38, 25, 32, 39, 26, 33, 40, 27, 34, 41, 28, 35, 42, 29, 36, 43,\n 30, 37, 44,\n ];\n const sh1 =\n sphericalHarmonicsDegree >= 1 ? new Float32Array(3 * 3) : undefined;\n const sh2 =\n sphericalHarmonicsDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 =\n sphericalHarmonicsDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n\n const compressionScaleFactor = bucketBlockSize / 2 / compressionScaleRange;\n const bucketsBase = sectionBase + bucketsMetaDataSizeBytes;\n const dataBase = sectionBase + bucketsStorageSizeBytes;\n const data = new DataView(\n fileBytes.buffer,\n dataBase,\n splatDataStorageSizeBytes,\n );\n const bucketArray = new Float32Array(\n fileBytes.buffer,\n bucketsBase,\n bucketCount * 3,\n );\n const partiallyFilledBucketLengths = new Uint32Array(\n fileBytes.buffer,\n sectionBase,\n partiallyFilledBucketCount,\n );\n\n function getSh(splatOffset: number, component: number) {\n if (compressionLevel === 0) {\n return data.getFloat32(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 4,\n true,\n );\n }\n if (compressionLevel === 1) {\n return fromHalf(\n data.getUint16(\n splatOffset + sphericalHarmonicsOffsetBytes + component * 2,\n true,\n ),\n );\n }\n const t =\n data.getUint8(splatOffset + sphericalHarmonicsOffsetBytes + component) /\n 255;\n return (\n minSphericalHarmonicsCoeff +\n t * (maxSphericalHarmonicsCoeff - minSphericalHarmonicsCoeff)\n );\n }\n\n let partialBucketIndex = fullBucketCount;\n let partialBucketBase = fullBucketSplats;\n\n for (let i = 0; i < sectionSplatCount; ++i) {\n const splatOffset = i * bytesPerSplat;\n\n let bucketIndex: number;\n if (i < fullBucketSplats) {\n bucketIndex = Math.floor(i / bucketSize);\n } else {\n const bucketLength =\n partiallyFilledBucketLengths[partialBucketIndex - fullBucketCount];\n if (i >= partialBucketBase + bucketLength) {\n partialBucketIndex += 1;\n partialBucketBase += bucketLength;\n }\n bucketIndex = partialBucketIndex;\n }\n\n const x =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 0, true)\n : (data.getUint16(splatOffset + 0, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 0];\n const y =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 4, true)\n : (data.getUint16(splatOffset + 2, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 1];\n const z =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + 8, true)\n : (data.getUint16(splatOffset + 4, true) - compressionScaleRange) *\n compressionScaleFactor +\n bucketArray[3 * bucketIndex + 2];\n\n const scaleX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 0, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 0, true));\n const scaleY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 4, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 2, true));\n const scaleZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + scaleOffsetBytes + 8, true)\n : fromHalf(data.getUint16(splatOffset + scaleOffsetBytes + 4, true));\n\n const quatW =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 0, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 0, true),\n );\n const quatX =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 4, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 2, true),\n );\n const quatY =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 8, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 4, true),\n );\n const quatZ =\n compressionLevel === 0\n ? data.getFloat32(splatOffset + rotationOffsetBytes + 12, true)\n : fromHalf(\n data.getUint16(splatOffset + rotationOffsetBytes + 6, true),\n );\n\n const r = data.getUint8(splatOffset + colorOffsetBytes + 0) / 255;\n const g = data.getUint8(splatOffset + colorOffsetBytes + 1) / 255;\n const b = data.getUint8(splatOffset + colorOffsetBytes + 2) / 255;\n const opacity = data.getUint8(splatOffset + colorOffsetBytes + 3) / 255;\n\n setPackedSplat(\n packedArray,\n i,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n splatEncoding,\n );\n\n if (sphericalHarmonicsDegree >= 1) {\n if (sh1) {\n if (!extra.sh1) {\n extra.sh1 = new Uint32Array(numSplats * 2);\n }\n for (const [i, key] of sh1Index.entries()) {\n sh1[i] = getSh(splatOffset, key);\n }\n encodeSh1Rgb(extra.sh1 as Uint32Array, i, sh1, splatEncoding);\n }\n if (sh2) {\n if (!extra.sh2) {\n extra.sh2 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh2Index.entries()) {\n sh2[i] = getSh(splatOffset, key);\n }\n encodeSh2Rgb(extra.sh2 as Uint32Array, i, sh2, splatEncoding);\n }\n if (sh3) {\n if (!extra.sh3) {\n extra.sh3 = new Uint32Array(numSplats * 4);\n }\n for (const [i, key] of sh3Index.entries()) {\n sh3[i] = getSh(splatOffset, key);\n }\n encodeSh3Rgb(extra.sh3 as Uint32Array, i, sh3, splatEncoding);\n }\n }\n }\n sectionBase += storageSizeBytes;\n }\n return { packedArray, numSplats, extra };\n}\n","import * as THREE from \"three\";\nimport {\n SplatData,\n type TranscodeSpzInput,\n getSplatFileType,\n getSplatFileTypeFromPath,\n} from \"./SplatLoader\";\nimport { GunzipReader, fromHalf, normalize } from \"./utils\";\n\nimport { decodeAntiSplat } from \"./antisplat\";\nimport { SplatFileType } from \"./defines\";\nimport { decodeKsplat } from \"./ksplat\";\nimport { PlyReader } from \"./ply\";\n\n// SPZ file format reader\n\nexport class SpzReader {\n fileBytes: Uint8Array;\n reader: GunzipReader;\n\n version = -1;\n numSplats = 0;\n shDegree = 0;\n fractionalBits = 0;\n flags = 0;\n flagAntiAlias = false;\n flagLod = false;\n reserved = 0;\n headerParsed = false;\n parsed = false;\n\n constructor({ fileBytes }: { fileBytes: Uint8Array | ArrayBuffer }) {\n this.fileBytes =\n fileBytes instanceof ArrayBuffer ? new Uint8Array(fileBytes) : fileBytes;\n this.reader = new GunzipReader({\n fileBytes: this.fileBytes as Uint8Array,\n });\n }\n\n async parseHeader() {\n if (this.headerParsed) {\n throw new Error(\"SPZ file header already parsed\");\n }\n\n const header = new DataView((await this.reader.read(16)).buffer);\n if (header.getUint32(0, true) !== 0x5053474e) {\n throw new Error(\"Invalid SPZ file\");\n }\n this.version = header.getUint32(4, true);\n if (this.version < 1 || this.version > 3) {\n throw new Error(`Unsupported SPZ version: ${this.version}`);\n }\n\n this.numSplats = header.getUint32(8, true);\n this.shDegree = header.getUint8(12);\n this.fractionalBits = header.getUint8(13);\n this.flags = header.getUint8(14);\n this.flagAntiAlias = (this.flags & 0x01) !== 0;\n this.flagLod = (this.flags & 0x80) !== 0;\n this.reserved = header.getUint8(15);\n this.headerParsed = true;\n this.parsed = false;\n }\n\n async parseSplats(\n centerCallback?: (index: number, x: number, y: number, z: number) => void,\n alphaCallback?: (index: number, alpha: number) => void,\n rgbCallback?: (index: number, r: number, g: number, b: number) => void,\n scalesCallback?: (\n index: number,\n scaleX: number,\n scaleY: number,\n scaleZ: number,\n ) => void,\n quatCallback?: (\n index: number,\n quatX: number,\n quatY: number,\n quatZ: number,\n quatW: number,\n ) => void,\n shCallback?: (\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) => void,\n {\n childCounts,\n childStarts,\n }: {\n childCounts?: (index: number, count: number) => void;\n childStarts?: (index: number, start: number) => void;\n } = {},\n ) {\n if (!this.headerParsed) {\n throw new Error(\"SPZ file header must be parsed first\");\n }\n if (this.parsed) {\n throw new Error(\"SPZ file already parsed\");\n }\n this.parsed = true;\n\n if (this.version === 1) {\n // float16 centers\n const centerBytes = await this.reader.read(this.numSplats * 3 * 2);\n const centerUint16 = new Uint16Array(centerBytes.buffer);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const x = fromHalf(centerUint16[i3]);\n const y = fromHalf(centerUint16[i3 + 1]);\n const z = fromHalf(centerUint16[i3 + 2]);\n centerCallback?.(i, x, y, z);\n }\n } else if (this.version === 2 || this.version === 3) {\n // 24-bit fixed-point centers\n const fixed = 1 << this.fractionalBits;\n const centerBytes = await this.reader.read(this.numSplats * 3 * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i9 = i * 9;\n const x =\n (((centerBytes[i9 + 2] << 24) |\n (centerBytes[i9 + 1] << 16) |\n (centerBytes[i9] << 8)) >>\n 8) /\n fixed;\n const y =\n (((centerBytes[i9 + 5] << 24) |\n (centerBytes[i9 + 4] << 16) |\n (centerBytes[i9 + 3] << 8)) >>\n 8) /\n fixed;\n const z =\n (((centerBytes[i9 + 8] << 24) |\n (centerBytes[i9 + 7] << 16) |\n (centerBytes[i9 + 6] << 8)) >>\n 8) /\n fixed;\n centerCallback?.(i, x, y, z);\n }\n } else {\n throw new Error(\"Unreachable\");\n }\n\n {\n const bytes = await this.reader.read(this.numSplats);\n for (let i = 0; i < this.numSplats; i++) {\n alphaCallback?.(i, bytes[i] / 255);\n }\n }\n {\n const rgbBytes = await this.reader.read(this.numSplats * 3);\n const scale = SH_C0 / 0.15;\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const r = (rgbBytes[i3] / 255 - 0.5) * scale + 0.5;\n const g = (rgbBytes[i3 + 1] / 255 - 0.5) * scale + 0.5;\n const b = (rgbBytes[i3 + 2] / 255 - 0.5) * scale + 0.5;\n rgbCallback?.(i, r, g, b);\n }\n }\n {\n const scalesBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const scaleX = Math.exp(scalesBytes[i3] / 16 - 10);\n const scaleY = Math.exp(scalesBytes[i3 + 1] / 16 - 10);\n const scaleZ = Math.exp(scalesBytes[i3 + 2] / 16 - 10);\n scalesCallback?.(i, scaleX, scaleY, scaleZ);\n }\n }\n if (this.version === 3) {\n // Version 3 uses a trick called \"smallest three\" to compress the rotation quaternions\n // achieving better precision. \"Optimizing orientation\" section at https://gafferongames.com/post/snapshot_compression/ A quaternion length must be 1: x^2+y^2+z^2+w^2 = 1\n // We can drop one component and reconstruct it with the identity above.\n // Largest component is dropped for best numerical precision.\n // Quaternion stored in 32 bits\n // 10 bits singed integer for each of the 3 components + 2 bits indicating the index of dropped component.\n // vs 8 bits for each component uncompressed (spz version < 3)\n // Max Value after extracting largest component v is another component v\n // (v,v,0,0)\n // v^2 + v^2 = 1\n // v = 1 / sqrt(2);\n const maxValue = 1 / Math.sqrt(2); // 0.7071\n const quatBytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 4;\n const quaternion = [0, 0, 0, 0];\n const values = [\n quatBytes[i3],\n quatBytes[i3 + 1],\n quatBytes[i3 + 2],\n quatBytes[i3 + 3],\n ];\n // all values are packed in 32 bits (10 per each of 3 components + 2 bits of index of larged value)\n const combinedValues =\n values[0] + (values[1] << 8) + (values[2] << 16) + (values[3] << 24);\n // each component value is 9 bits + sign (1 bit)\n const valueMask = (1 << 9) - 1;\n // extract index of the largest element. 2 top bits.\n const largestIndex = combinedValues >>> 30;\n let remainingValues = combinedValues;\n let sumSquares = 0;\n\n for (let i = 3; i >= 0; --i) {\n if (i !== largestIndex) {\n // extract current value and sign.\n const value = remainingValues & valueMask;\n const sign = (remainingValues >>> 9) & 0x1;\n // each value is represented as 10 bits. Shift to next one.\n remainingValues = remainingValues >>> 10;\n // convert to range [0,1] and then to [0, 0.7071]\n quaternion[i] = maxValue * (value / valueMask);\n // apply sign.\n quaternion[i] = sign === 0 ? quaternion[i] : -quaternion[i];\n // accumulate the sum of squares\n sumSquares += quaternion[i] * quaternion[i];\n }\n }\n\n // quartenion length must be 1 (x^2+y^2+z^2+w^2 = 1)\n // so can reconstruct largest component from the other 3.\n // w = sqrt(1 - x^2 - y^2 - z^2);\n const square = 1 - sumSquares;\n quaternion[largestIndex] = Math.sqrt(Math.max(square, 0));\n\n quatCallback?.(\n i,\n quaternion[0],\n quaternion[1],\n quaternion[2],\n quaternion[3],\n );\n }\n } else {\n const quatBytes = await this.reader.read(this.numSplats * 3);\n for (let i = 0; i < this.numSplats; i++) {\n const i3 = i * 3;\n const quatX = quatBytes[i3] / 127.5 - 1;\n const quatY = quatBytes[i3 + 1] / 127.5 - 1;\n const quatZ = quatBytes[i3 + 2] / 127.5 - 1;\n const quatW = Math.sqrt(\n Math.max(0, 1 - quatX * quatX - quatY * quatY - quatZ * quatZ),\n );\n quatCallback?.(i, quatX, quatY, quatZ, quatW);\n }\n }\n\n if (shCallback && this.shDegree >= 1) {\n const sh1 = new Float32Array(3 * 3);\n const sh2 = this.shDegree >= 2 ? new Float32Array(5 * 3) : undefined;\n const sh3 = this.shDegree >= 3 ? new Float32Array(7 * 3) : undefined;\n const shBytes = await this.reader.read(\n this.numSplats * SH_DEGREE_TO_VECS[this.shDegree] * 3,\n );\n\n let offset = 0;\n for (let i = 0; i < this.numSplats; i++) {\n for (let j = 0; j < 9; ++j) {\n sh1[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 9;\n if (sh2) {\n for (let j = 0; j < 15; ++j) {\n sh2[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 15;\n }\n if (sh3) {\n for (let j = 0; j < 21; ++j) {\n sh3[j] = (shBytes[offset + j] - 128) / 128;\n }\n offset += 21;\n }\n shCallback?.(i, sh1, sh2, sh3);\n }\n }\n if (this.flagLod) {\n let bytes = await this.reader.read(this.numSplats * 2);\n for (let i = 0; i < this.numSplats; i++) {\n const i2 = i * 2;\n const count = bytes[i2] + (bytes[i2 + 1] << 8);\n childCounts?.(i, count);\n }\n\n bytes = await this.reader.read(this.numSplats * 4);\n for (let i = 0; i < this.numSplats; i++) {\n const i4 = i * 4;\n const start =\n bytes[i4] +\n (bytes[i4 + 1] << 8) +\n (bytes[i4 + 2] << 16) +\n (bytes[i4 + 3] << 24);\n childStarts?.(i, start);\n }\n }\n }\n}\n\nconst SH_DEGREE_TO_VECS: Record = { 1: 3, 2: 8, 3: 15 };\nconst SH_C0 = 0.28209479177387814;\n\nexport const SPZ_MAGIC = 0x5053474e; // NGSP = Niantic gaussian splat\nexport const SPZ_VERSION = 3;\nexport const FLAG_ANTIALIASED = 0x1;\n\nexport class SpzWriter {\n buffer: ArrayBuffer;\n view: DataView;\n numSplats: number;\n shDegree: number;\n fractionalBits: number;\n fraction: number;\n flagAntiAlias: boolean;\n clippedCount = 0;\n\n constructor({\n numSplats,\n shDegree,\n fractionalBits = 12,\n flagAntiAlias = true,\n }: {\n numSplats: number;\n shDegree: number;\n fractionalBits?: number;\n flagAntiAlias?: boolean;\n }) {\n const splatSize =\n 9 + // Position\n 1 + // Opacity\n 3 + // Scale\n 3 + // DC-rgb\n 4 + // Rotation\n (shDegree >= 1 ? 9 : 0) +\n (shDegree >= 2 ? 15 : 0) +\n (shDegree >= 3 ? 21 : 0);\n const bufferSize = 16 + numSplats * splatSize;\n this.buffer = new ArrayBuffer(bufferSize);\n this.view = new DataView(this.buffer);\n\n this.view.setUint32(0, SPZ_MAGIC, true); // NGSP\n this.view.setUint32(4, SPZ_VERSION, true);\n this.view.setUint32(8, numSplats, true);\n this.view.setUint8(12, shDegree);\n this.view.setUint8(13, fractionalBits);\n this.view.setUint8(14, flagAntiAlias ? FLAG_ANTIALIASED : 0);\n this.view.setUint8(15, 0); // Reserved\n\n this.numSplats = numSplats;\n this.shDegree = shDegree;\n this.fractionalBits = fractionalBits;\n this.fraction = 1 << fractionalBits;\n this.flagAntiAlias = flagAntiAlias;\n }\n\n setCenter(index: number, x: number, y: number, z: number) {\n // Divide by this.fraction and round to nearest integer,\n // then write as 3-bytes per x then y then z.\n const xRounded = Math.round(x * this.fraction);\n const xInt = Math.max(-0x7fffff, Math.min(0x7fffff, xRounded));\n const yRounded = Math.round(y * this.fraction);\n const yInt = Math.max(-0x7fffff, Math.min(0x7fffff, yRounded));\n const zRounded = Math.round(z * this.fraction);\n const zInt = Math.max(-0x7fffff, Math.min(0x7fffff, zRounded));\n const clipped = xRounded !== xInt || yRounded !== yInt || zRounded !== zInt;\n if (clipped) {\n this.clippedCount += 1;\n // if (this.clippedCount < 10) {\n // // Write x y z also in hex\n // console.log(`Clipped ${index}: ${x}, ${y}, ${z} (0x${x.toString(16)}, 0x${y.toString(16)}, 0x${z.toString(16)}) -> ${xRounded}, ${yRounded}, ${zRounded} (0x${xRounded.toString(16)}, 0x${yRounded.toString(16)}, 0x${zRounded.toString(16)}) -> ${xInt}, ${yInt}, ${zInt} (0x${xInt.toString(16)}, 0x${yInt.toString(16)}, 0x${zInt.toString(16)})`);\n // }\n }\n const i9 = index * 9;\n const base = 16 + i9;\n this.view.setUint8(base, xInt & 0xff);\n this.view.setUint8(base + 1, (xInt >> 8) & 0xff);\n this.view.setUint8(base + 2, (xInt >> 16) & 0xff);\n this.view.setUint8(base + 3, yInt & 0xff);\n this.view.setUint8(base + 4, (yInt >> 8) & 0xff);\n this.view.setUint8(base + 5, (yInt >> 16) & 0xff);\n this.view.setUint8(base + 6, zInt & 0xff);\n this.view.setUint8(base + 7, (zInt >> 8) & 0xff);\n this.view.setUint8(base + 8, (zInt >> 16) & 0xff);\n }\n\n setAlpha(index: number, alpha: number) {\n const base = 16 + this.numSplats * 9 + index;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round(alpha * 255))),\n );\n }\n\n static scaleRgb(r: number) {\n const v = ((r - 0.5) / (SH_C0 / 0.15) + 0.5) * 255;\n return Math.max(0, Math.min(255, Math.round(v)));\n }\n\n setRgb(index: number, r: number, g: number, b: number) {\n const base = 16 + this.numSplats * 10 + index * 3;\n this.view.setUint8(base, SpzWriter.scaleRgb(r));\n this.view.setUint8(base + 1, SpzWriter.scaleRgb(g));\n this.view.setUint8(base + 2, SpzWriter.scaleRgb(b));\n }\n\n setScale(index: number, scaleX: number, scaleY: number, scaleZ: number) {\n const base = 16 + this.numSplats * 13 + index * 3;\n this.view.setUint8(\n base,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleX) + 10) * 16))),\n );\n this.view.setUint8(\n base + 1,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleY) + 10) * 16))),\n );\n this.view.setUint8(\n base + 2,\n Math.max(0, Math.min(255, Math.round((Math.log(scaleZ) + 10) * 16))),\n );\n }\n\n setQuat(\n index: number,\n ...q: [number, number, number, number] // x, y, z, w\n ) {\n const base = 16 + this.numSplats * 16 + index * 4;\n\n const quat = normalize(q);\n\n // Find largest component\n let iLargest = 0;\n for (let i = 1; i < 4; ++i) {\n if (Math.abs(quat[i]) > Math.abs(quat[iLargest])) {\n iLargest = i;\n }\n }\n\n // Since -quat represents the same rotation as quat, transform the quaternion so the largest element\n // is positive. This avoids having to send its sign bit.\n const negate = quat[iLargest] < 0 ? 1 : 0;\n\n // Do compression using sign bit and 9-bit precision per element.\n let comp = iLargest;\n for (let i = 0; i < 4; ++i) {\n if (i !== iLargest) {\n const negbit = (quat[i] < 0 ? 1 : 0) ^ negate;\n const mag = Math.floor(\n ((1 << 9) - 1) * (Math.abs(quat[i]) / Math.SQRT1_2) + 0.5,\n );\n comp = (comp << 10) | (negbit << 9) | mag;\n }\n }\n\n this.view.setUint8(base, comp & 0xff);\n this.view.setUint8(base + 1, (comp >> 8) & 0xff);\n this.view.setUint8(base + 2, (comp >> 16) & 0xff);\n this.view.setUint8(base + 3, (comp >>> 24) & 0xff);\n }\n\n static quantizeSh(sh: number, bits: number) {\n const value = Math.round(sh * 128) + 128;\n const bucketSize = 1 << (8 - bits);\n const quantized =\n Math.floor((value + bucketSize / 2) / bucketSize) * bucketSize;\n return Math.max(0, Math.min(255, quantized));\n }\n\n setSh(\n index: number,\n sh1: Float32Array,\n sh2?: Float32Array,\n sh3?: Float32Array,\n ) {\n const shVecs = SH_DEGREE_TO_VECS[this.shDegree] || 0;\n const base1 = 16 + this.numSplats * 20 + index * shVecs * 3;\n for (let j = 0; j < 9; ++j) {\n this.view.setUint8(base1 + j, SpzWriter.quantizeSh(sh1[j], 5));\n }\n if (sh2) {\n const base2 = base1 + 9;\n for (let j = 0; j < 15; ++j) {\n this.view.setUint8(base2 + j, SpzWriter.quantizeSh(sh2[j], 4));\n }\n if (sh3) {\n const base3 = base2 + 15;\n for (let j = 0; j < 21; ++j) {\n this.view.setUint8(base3 + j, SpzWriter.quantizeSh(sh3[j], 4));\n }\n }\n }\n }\n\n async finalize(): Promise {\n const input = new Uint8Array(this.buffer);\n const stream = new ReadableStream({\n async start(controller) {\n controller.enqueue(input);\n controller.close();\n },\n });\n const compressed = stream.pipeThrough(new CompressionStream(\"gzip\"));\n const response = new Response(compressed);\n const buffer = await response.arrayBuffer();\n console.log(\n \"Compressed\",\n input.length,\n \"bytes to\",\n buffer.byteLength,\n \"bytes\",\n );\n return new Uint8Array(buffer);\n }\n}\n\nexport async function transcodeSpz(input: TranscodeSpzInput) {\n const splats = new SplatData();\n const {\n inputs,\n clipXyz,\n maxSh,\n fractionalBits = 12,\n opacityThreshold,\n } = input;\n for (const input of inputs) {\n const scale = input.transform?.scale ?? 1;\n const quaternion = new THREE.Quaternion().fromArray(\n input.transform?.quaternion ?? [0, 0, 0, 1],\n );\n const translate = new THREE.Vector3().fromArray(\n input.transform?.translate ?? [0, 0, 0],\n );\n const clip = clipXyz\n ? new THREE.Box3(\n new THREE.Vector3().fromArray(clipXyz.min),\n new THREE.Vector3().fromArray(clipXyz.max),\n )\n : undefined;\n\n function transformPos(pos: THREE.Vector3) {\n pos.multiplyScalar(scale);\n pos.applyQuaternion(quaternion);\n pos.add(translate);\n return pos;\n }\n\n function transformScales(scales: THREE.Vector3) {\n scales.multiplyScalar(scale);\n return scales;\n }\n\n function transformQuaternion(quat: THREE.Quaternion) {\n quat.premultiply(quaternion);\n return quat;\n }\n\n function withinClip(p: THREE.Vector3) {\n return !clip || clip.containsPoint(p);\n }\n\n function withinOpacity(opacity: number) {\n return opacityThreshold !== undefined\n ? opacity >= opacityThreshold\n : true;\n }\n\n let fileType = input.fileType;\n if (!fileType) {\n fileType = getSplatFileType(input.fileBytes);\n if (!fileType && input.pathOrUrl) {\n fileType = getSplatFileTypeFromPath(input.pathOrUrl);\n }\n }\n switch (fileType) {\n case SplatFileType.PLY: {\n const ply = new PlyReader({ fileBytes: input.fileBytes });\n await ply.parseHeader();\n let lastIndex: number | null = null;\n ply.parseSplats(\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (sh1 && lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n }\n if (sh2 && lastIndex !== null) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3 && lastIndex !== null) {\n splats.setSh3(lastIndex, sh3);\n }\n },\n );\n break;\n }\n case SplatFileType.SPZ: {\n const spz = new SpzReader({ fileBytes: input.fileBytes });\n await spz.parseHeader();\n const mapping = new Int32Array(spz.numSplats);\n mapping.fill(-1);\n const centers = new Float32Array(spz.numSplats * 3);\n const center = new THREE.Vector3();\n spz.parseSplats(\n (index, x, y, z) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n centers[index * 3] = center.x;\n centers[index * 3 + 1] = center.y;\n centers[index * 3 + 2] = center.z;\n },\n (index, alpha) => {\n center.fromArray(centers, index * 3);\n if (withinClip(center) && withinOpacity(alpha)) {\n mapping[index] = splats.pushSplat();\n splats.setCenter(mapping[index], center.x, center.y, center.z);\n splats.setOpacity(mapping[index], alpha);\n }\n },\n (index, r, g, b) => {\n if (mapping[index] >= 0) {\n splats.setColor(mapping[index], r, g, b);\n }\n },\n (index, scaleX, scaleY, scaleZ) => {\n if (mapping[index] >= 0) {\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(mapping[index], scales.x, scales.y, scales.z);\n }\n },\n (index, quatX, quatY, quatZ, quatW) => {\n if (mapping[index] >= 0) {\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n mapping[index],\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n }\n },\n (index, sh1, sh2, sh3) => {\n if (mapping[index] >= 0) {\n splats.setSh1(mapping[index], sh1);\n if (sh2) {\n splats.setSh2(mapping[index], sh2);\n }\n if (sh3) {\n splats.setSh3(mapping[index], sh3);\n }\n }\n },\n );\n break;\n }\n case SplatFileType.SPLAT:\n decodeAntiSplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n const index = splats.pushSplat();\n splats.setCenter(index, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(index, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n index,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(index, opacity);\n splats.setColor(index, r, g, b);\n }\n },\n );\n break;\n case SplatFileType.KSPLAT: {\n let lastIndex: number | null = null;\n decodeKsplat(\n input.fileBytes,\n (numSplats) => {},\n (\n index,\n x,\n y,\n z,\n scaleX,\n scaleY,\n scaleZ,\n quatX,\n quatY,\n quatZ,\n quatW,\n opacity,\n r,\n g,\n b,\n ) => {\n const center = transformPos(new THREE.Vector3(x, y, z));\n if (withinClip(center) && withinOpacity(opacity)) {\n lastIndex = splats.pushSplat();\n splats.setCenter(lastIndex, center.x, center.y, center.z);\n const scales = transformScales(\n new THREE.Vector3(scaleX, scaleY, scaleZ),\n );\n splats.setScale(lastIndex, scales.x, scales.y, scales.z);\n const quaternion = transformQuaternion(\n new THREE.Quaternion(quatX, quatY, quatZ, quatW),\n );\n splats.setQuaternion(\n lastIndex,\n quaternion.x,\n quaternion.y,\n quaternion.z,\n quaternion.w,\n );\n splats.setOpacity(lastIndex, opacity);\n splats.setColor(lastIndex, r, g, b);\n } else {\n lastIndex = null;\n }\n },\n (index, sh1, sh2, sh3) => {\n if (lastIndex !== null) {\n splats.setSh1(lastIndex, sh1);\n if (sh2) {\n splats.setSh2(lastIndex, sh2);\n }\n if (sh3) {\n splats.setSh3(lastIndex, sh3);\n }\n }\n },\n );\n break;\n }\n default:\n throw new Error(`transcodeSpz not implemented for ${fileType}`);\n }\n }\n\n const shDegree = Math.min(\n maxSh ?? 3,\n splats.sh3 ? 3 : splats.sh2 ? 2 : splats.sh1 ? 1 : 0,\n );\n const spz = new SpzWriter({\n numSplats: splats.numSplats,\n shDegree,\n fractionalBits,\n flagAntiAlias: true,\n });\n\n for (let i = 0; i < splats.numSplats; ++i) {\n const i3 = i * 3;\n const i4 = i * 4;\n spz.setCenter(\n i,\n splats.centers[i3],\n splats.centers[i3 + 1],\n splats.centers[i3 + 2],\n );\n spz.setScale(\n i,\n splats.scales[i3],\n splats.scales[i3 + 1],\n splats.scales[i3 + 2],\n );\n spz.setQuat(\n i,\n splats.quaternions[i4],\n splats.quaternions[i4 + 1],\n splats.quaternions[i4 + 2],\n splats.quaternions[i4 + 3],\n );\n spz.setAlpha(i, splats.opacities[i]);\n spz.setRgb(\n i,\n splats.colors[i3],\n splats.colors[i3 + 1],\n splats.colors[i3 + 2],\n );\n if (splats.sh1 && shDegree >= 1) {\n spz.setSh(\n i,\n splats.sh1.slice(i * 9, (i + 1) * 9),\n shDegree >= 2 && splats.sh2\n ? splats.sh2.slice(i * 15, (i + 1) * 15)\n : undefined,\n shDegree >= 3 && splats.sh3\n ? splats.sh3.slice(i * 21, (i + 1) * 21)\n : undefined,\n );\n }\n }\n\n const spzBytes = await spz.finalize();\n return { fileBytes: spzBytes, clippedCount: spz.clippedCount };\n}\n","import * as THREE from \"three\";\n\n// SplatSkinning is an experimental class that implements dual-quaternion\n// skeletal animation for Gsplats. A skeletal animation system consists\n// of a set of bones, each with a \"rest\" pose that consists of a position\n// and orientation, and a weighting of up to 4 bones for each Gsplat.\n// By moving and rotating the bones you can animate all the Gsplats like\n// your would for a normal 3D animated mesh.\n// Note that the dual-quaternion formulation assumes that mass/volume\n// is conserved through these transformations, which helps avoid common\n// issues with linear blend skinning such as joint collapse or bulging.\n// However, it is not as good a fit for animations that involve explicit\n// deformations, such as cartoon animations.\n\nimport type { SplatMesh } from \"./SplatMesh\";\nimport {\n CovSplat,\n Dyno,\n DynoUniform,\n type DynoVal,\n Gsplat,\n unindent,\n unindentLines,\n} from \"./dyno\";\nimport { getTextureSize, newArray } from \"./utils\";\n\nexport enum SplatSkinningMode {\n DUAL_QUATERNION = \"dual_quaternion\",\n LINEAR_BLEND = \"linear_blend\",\n}\n\nexport type SplatSkinningOptions = {\n // Specifies the SplatMesh that will be animated.\n mesh: SplatMesh;\n // Overrides the number of Gsplats in the mesh that will be animated.\n // (default: mesh.numSplats)\n numSplats?: number;\n // Set the number of bones used to animate the SplatMesh, with a maximum\n // of 256 (in order to compactly encode the bone index). (default: 256)\n numBones?: number;\n // Set the mode of skinning to use.\n // (default: DUAL_QUATERNION)\n mode?: SplatSkinningMode;\n};\n\nexport class SplatSkinning {\n mesh: SplatMesh;\n numSplats: number;\n mode: SplatSkinningMode;\n\n // Store the skinning weights for each Gsplat, composed of a 4-vector\n // of bone indices and weight\n skinData: Uint16Array;\n skinTexture: THREE.DataArrayTexture;\n\n numBones: number;\n boneData: Float32Array;\n boneTexture: THREE.DataTexture;\n\n boneRestQuatPosScale: {\n quat: THREE.Quaternion;\n pos: THREE.Vector3;\n scale: THREE.Vector3;\n }[];\n boneRestInvMats: THREE.Matrix4[];\n\n uniform: DynoUniform;\n\n constructor(options: SplatSkinningOptions) {\n this.mesh = options.mesh;\n this.numSplats = options.numSplats ?? this.mesh.numSplats;\n this.mode = options.mode ?? SplatSkinningMode.DUAL_QUATERNION;\n\n const { width, height, depth, maxSplats } = getTextureSize(this.numSplats);\n this.skinData = new Uint16Array(maxSplats * 4);\n this.skinTexture = new THREE.DataArrayTexture(\n this.skinData,\n width,\n height,\n depth,\n );\n this.skinTexture.format = THREE.RGBAIntegerFormat;\n this.skinTexture.type = THREE.UnsignedShortType;\n this.skinTexture.internalFormat = \"RGBA16UI\";\n this.skinTexture.needsUpdate = true;\n\n this.numBones = options.numBones ?? 256;\n this.boneData = new Float32Array(this.numBones * 16);\n this.boneTexture = new THREE.DataTexture(\n this.boneData,\n 4,\n this.numBones,\n THREE.RGBAFormat,\n THREE.FloatType,\n );\n this.boneTexture.internalFormat = \"RGBA32F\";\n this.boneTexture.needsUpdate = true;\n\n this.boneRestQuatPosScale = newArray(this.numBones, () => ({\n quat: new THREE.Quaternion(),\n pos: new THREE.Vector3(),\n scale: new THREE.Vector3(),\n }));\n\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n this.boneRestInvMats = newArray(this.numBones, () => new THREE.Matrix4());\n } else {\n this.boneRestInvMats = [];\n }\n\n this.uniform = new DynoUniform({\n key: \"skinning\",\n type: GsplatSkinning,\n globals: () => [defineGsplatSkinning],\n value: {\n numSplats: this.numSplats,\n numBones: this.numBones,\n skinTexture: this.skinTexture,\n boneTexture: this.boneTexture,\n },\n });\n }\n\n // Apply the skeletal animation to a Gsplat in a dyno program.\n modify(gsplat: DynoVal): DynoVal {\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"Linear blend skinning requires covSplats=true\");\n }\n return applyGsplatSkinning(gsplat, this.uniform);\n }\n\n modifyCov(covsplat: DynoVal): DynoVal {\n if (this.mode === SplatSkinningMode.DUAL_QUATERNION) {\n return applyCovSplatDQSkinning(covsplat, this.uniform);\n }\n return applyCovSplatLBSkinning(covsplat, this.uniform);\n }\n\n // Set the \"rest\" pose for a bone with position and quaternion orientation.\n setRestQuatPos(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n ) {\n this.boneRestQuatPosScale[boneIndex].quat.copy(quat);\n this.boneRestQuatPosScale[boneIndex].pos.copy(pos);\n this.boneRestQuatPosScale[boneIndex].scale.copy(SplatSkinning.UNIT_SCALE);\n\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n this.boneRestInvMats[boneIndex]\n .compose(pos, quat, SplatSkinning.UNIT_SCALE)\n .invert();\n }\n\n this.setBoneQuatPos(boneIndex, quat, pos);\n }\n\n getRestQuatPos(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n ) {\n quat.copy(this.boneRestQuatPosScale[boneIndex].quat);\n pos.copy(this.boneRestQuatPosScale[boneIndex].pos);\n }\n\n setRestQuatPosScale(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n scale: THREE.Vector3,\n ) {\n this.boneRestQuatPosScale[boneIndex].quat.copy(quat);\n this.boneRestQuatPosScale[boneIndex].pos.copy(pos);\n this.boneRestQuatPosScale[boneIndex].scale.copy(scale);\n\n if (this.mode === SplatSkinningMode.LINEAR_BLEND) {\n this.boneRestInvMats[boneIndex].compose(pos, quat, scale).invert();\n }\n\n this.setBoneQuatPosScale(boneIndex, quat, pos, scale);\n }\n\n getRestQuatPosScale(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n scale: THREE.Vector3,\n ) {\n quat.copy(this.boneRestQuatPosScale[boneIndex].quat);\n pos.copy(this.boneRestQuatPosScale[boneIndex].pos);\n scale.copy(this.boneRestQuatPosScale[boneIndex].scale);\n }\n\n setRestMatrix(boneIndex: number, matrix: THREE.Matrix4) {\n if (this.mode !== SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"setRestMat only supported for linear blend skinning\");\n }\n this.boneRestInvMats[boneIndex].copy(matrix).invert();\n this.setBoneMatrix(boneIndex, matrix);\n }\n\n getRestMatrix(boneIndex: number, matrix: THREE.Matrix4) {\n if (this.mode !== SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"getRestMat only supported for linear blend skinning\");\n }\n matrix.copy(this.boneRestInvMats[boneIndex]).invert();\n }\n\n // Set the \"current\" position and orientation of a bone.\n setBoneQuatPos(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n ) {\n if (this.mode === SplatSkinningMode.DUAL_QUATERNION) {\n SplatSkinning.relQuat\n .copy(this.boneRestQuatPosScale[boneIndex].quat)\n .invert();\n SplatSkinning.relPos\n .copy(pos)\n .sub(this.boneRestQuatPosScale[boneIndex].pos);\n SplatSkinning.relQuat.multiply(quat);\n SplatSkinning.dual\n .set(\n SplatSkinning.relPos.x,\n SplatSkinning.relPos.y,\n SplatSkinning.relPos.z,\n 0.0,\n )\n .multiply(SplatSkinning.relQuat);\n\n const i16 = boneIndex * 16;\n this.boneData[i16 + 0] = SplatSkinning.relQuat.x;\n this.boneData[i16 + 1] = SplatSkinning.relQuat.y;\n this.boneData[i16 + 2] = SplatSkinning.relQuat.z;\n this.boneData[i16 + 3] = SplatSkinning.relQuat.w;\n this.boneData[i16 + 4] = 0.5 * SplatSkinning.dual.x;\n this.boneData[i16 + 5] = 0.5 * SplatSkinning.dual.y;\n this.boneData[i16 + 6] = 0.5 * SplatSkinning.dual.z;\n this.boneData[i16 + 7] = 0.5 * SplatSkinning.dual.w;\n } else {\n this.setBoneQuatPosScale(boneIndex, quat, pos, SplatSkinning.UNIT_SCALE);\n }\n }\n\n setBoneQuatPosScale(\n boneIndex: number,\n quat: THREE.Quaternion,\n pos: THREE.Vector3,\n scale: THREE.Vector3,\n ) {\n if (this.mode === SplatSkinningMode.DUAL_QUATERNION) {\n throw new Error(\n \"setBoneQuatPosScale only supported for linear blend skinning\",\n );\n }\n\n SplatSkinning.skinMat.compose(pos, quat, scale);\n this.setBoneMatrix(boneIndex, SplatSkinning.skinMat);\n }\n\n setBoneMatrix(boneIndex: number, matrix: THREE.Matrix4) {\n if (this.mode !== SplatSkinningMode.LINEAR_BLEND) {\n throw new Error(\"setBoneMatrix only supported for linear blend skinning\");\n }\n\n SplatSkinning.skinMat.multiplyMatrices(\n this.boneRestInvMats[boneIndex],\n matrix,\n );\n const i16 = boneIndex * 16;\n this.boneData[i16 + 0] = SplatSkinning.skinMat.elements[0];\n this.boneData[i16 + 1] = SplatSkinning.skinMat.elements[1];\n this.boneData[i16 + 2] = SplatSkinning.skinMat.elements[2];\n this.boneData[i16 + 3] = SplatSkinning.skinMat.elements[4];\n this.boneData[i16 + 4] = SplatSkinning.skinMat.elements[5];\n this.boneData[i16 + 5] = SplatSkinning.skinMat.elements[6];\n this.boneData[i16 + 6] = SplatSkinning.skinMat.elements[8];\n this.boneData[i16 + 7] = SplatSkinning.skinMat.elements[9];\n this.boneData[i16 + 8] = SplatSkinning.skinMat.elements[10];\n this.boneData[i16 + 9] = SplatSkinning.skinMat.elements[12];\n this.boneData[i16 + 10] = SplatSkinning.skinMat.elements[13];\n this.boneData[i16 + 11] = SplatSkinning.skinMat.elements[14];\n }\n\n // Set up to 4 bone indices and weights for a Gsplat. For fewer than 4 bones,\n // you can set the remaining weights to 0 (and index=0).\n setSplatBones(\n splatIndex: number,\n boneIndices: THREE.Vector4,\n weights: THREE.Vector4,\n ) {\n const i4 = splatIndex * 4;\n this.skinData[i4 + 0] =\n Math.min(255, Math.max(0, Math.round(weights.x * 255.0))) +\n (boneIndices.x << 8);\n this.skinData[i4 + 1] =\n Math.min(255, Math.max(0, Math.round(weights.y * 255.0))) +\n (boneIndices.y << 8);\n this.skinData[i4 + 2] =\n Math.min(255, Math.max(0, Math.round(weights.z * 255.0))) +\n (boneIndices.z << 8);\n this.skinData[i4 + 3] =\n Math.min(255, Math.max(0, Math.round(weights.w * 255.0))) +\n (boneIndices.w << 8);\n }\n\n // Call this to indicate that the bones have changed and the Gsplats need to be\n // re-generated with updated skinning.\n updateBones() {\n this.boneTexture.needsUpdate = true;\n this.mesh.needsUpdate = true;\n }\n\n private static UNIT_SCALE = new THREE.Vector3(1, 1, 1);\n private static relQuat = new THREE.Quaternion();\n private static relPos = new THREE.Vector3();\n private static dual = new THREE.Quaternion();\n private static skinMat = new THREE.Matrix4();\n}\n\n// dyno program definitions for SplatSkinning\n\nexport const GsplatSkinning = { type: \"GsplatSkinning\" } as {\n type: \"GsplatSkinning\";\n};\n\nexport const defineGsplatSkinning = unindent(`\n struct GsplatSkinning {\n int numSplats;\n int numBones;\n usampler2DArray skinTexture;\n sampler2D boneTexture;\n };\n`);\n\nexport const defineApplyGsplatSkinning = unindent(`\n void applyGsplatSkinning(\n int numSplats, int numBones,\n usampler2DArray skinTexture, sampler2D boneTexture,\n int splatIndex, inout vec3 center, inout vec4 quaternion\n ) {\n if ((splatIndex < 0) || (splatIndex >= numSplats)) {\n return;\n }\n\n uvec4 skinData = texelFetch(skinTexture, splatTexCoord(splatIndex), 0);\n\n float weights[4];\n weights[0] = float(skinData.x & 0xffu) / 255.0;\n weights[1] = float(skinData.y & 0xffu) / 255.0;\n weights[2] = float(skinData.z & 0xffu) / 255.0;\n weights[3] = float(skinData.w & 0xffu) / 255.0;\n\n uint boneIndices[4];\n boneIndices[0] = (skinData.x >> 8u) & 0xffu;\n boneIndices[1] = (skinData.y >> 8u) & 0xffu;\n boneIndices[2] = (skinData.z >> 8u) & 0xffu;\n boneIndices[3] = (skinData.w >> 8u) & 0xffu;\n\n vec4 quat = vec4(0.0);\n vec4 dual = vec4(0.0);\n for (int i = 0; i < 4; i++) {\n if (weights[i] > 0.0) {\n int boneIndex = int(boneIndices[i]);\n vec4 boneQuat = vec4(0.0, 0.0, 0.0, 1.0);\n vec4 boneDual = vec4(0.0);\n if (boneIndex < numBones) {\n boneQuat = texelFetch(boneTexture, ivec2(0, boneIndex), 0);\n boneDual = texelFetch(boneTexture, ivec2(1, boneIndex), 0);\n }\n\n if ((i > 0) && (dot(quat, boneQuat) < 0.0)) {\n // Flip sign if next blend is pointing in the opposite direction\n boneQuat = -boneQuat;\n boneDual = -boneDual;\n }\n quat += weights[i] * boneQuat;\n dual += weights[i] * boneDual;\n }\n }\n\n // Normalize dual quaternion\n float norm = length(quat);\n quat /= norm;\n dual /= norm;\n vec3 translate = vec3(\n 2.0 * (-dual.w * quat.x + dual.x * quat.w - dual.y * quat.z + dual.z * quat.y),\n 2.0 * (-dual.w * quat.y + dual.x * quat.z + dual.y * quat.w - dual.z * quat.x),\n 2.0 * (-dual.w * quat.z - dual.x * quat.y + dual.y * quat.x + dual.z * quat.w)\n );\n\n center = quatVec(quat, center) + translate;\n quaternion = quatQuat(quat, quaternion);\n }\n`);\n\nfunction applyGsplatSkinning(\n gsplat: DynoVal,\n skinning: DynoVal,\n): DynoVal {\n const dyno = new Dyno<\n { gsplat: typeof Gsplat; skinning: typeof GsplatSkinning },\n { gsplat: typeof Gsplat }\n >({\n inTypes: { gsplat: Gsplat, skinning: GsplatSkinning },\n outTypes: { gsplat: Gsplat },\n globals: () => [defineGsplatSkinning, defineApplyGsplatSkinning],\n inputs: { gsplat, skinning },\n statements: ({ inputs, outputs }) => {\n const { skinning } = inputs;\n const { gsplat } = outputs;\n return unindentLines(`\n ${gsplat} = ${inputs.gsplat};\n if (isGsplatActive(${gsplat}.flags)) {\n applyGsplatSkinning(\n ${skinning}.numSplats, ${skinning}.numBones,\n ${skinning}.skinTexture, ${skinning}.boneTexture,\n ${gsplat}.index, ${gsplat}.center, ${gsplat}.quaternion\n );\n }\n `);\n },\n });\n return dyno.outputs.gsplat;\n}\n\nexport const defineApplyCovSplatDQSkinning = unindent(`\n void applyCovSplatDQSkinning(\n int numSplats, int numBones,\n usampler2DArray skinTexture, sampler2D boneTexture,\n int splatIndex, inout vec3 center, inout vec3 xxyyzz, inout vec3 xyxzyz\n ) {\n if ((splatIndex < 0) || (splatIndex >= numSplats)) {\n return;\n }\n\n uvec4 skinData = texelFetch(skinTexture, splatTexCoord(splatIndex), 0);\n\n float weights[4];\n weights[0] = float(skinData.x & 0xffu) / 255.0;\n weights[1] = float(skinData.y & 0xffu) / 255.0;\n weights[2] = float(skinData.z & 0xffu) / 255.0;\n weights[3] = float(skinData.w & 0xffu) / 255.0;\n\n uint boneIndices[4];\n boneIndices[0] = (skinData.x >> 8u) & 0xffu;\n boneIndices[1] = (skinData.y >> 8u) & 0xffu;\n boneIndices[2] = (skinData.z >> 8u) & 0xffu;\n boneIndices[3] = (skinData.w >> 8u) & 0xffu;\n\n vec4 quat = vec4(0.0);\n vec4 dual = vec4(0.0);\n for (int i = 0; i < 4; i++) {\n if (weights[i] > 0.0) {\n int boneIndex = int(boneIndices[i]);\n vec4 boneQuat = vec4(0.0, 0.0, 0.0, 1.0);\n vec4 boneDual = vec4(0.0);\n if (boneIndex < numBones) {\n boneQuat = texelFetch(boneTexture, ivec2(0, boneIndex), 0);\n boneDual = texelFetch(boneTexture, ivec2(1, boneIndex), 0);\n }\n\n if ((i > 0) && (dot(quat, boneQuat) < 0.0)) {\n // Flip sign if next blend is pointing in the opposite direction\n boneQuat = -boneQuat;\n boneDual = -boneDual;\n }\n quat += weights[i] * boneQuat;\n dual += weights[i] * boneDual;\n }\n }\n\n // Normalize dual quaternion\n float norm = length(quat);\n quat /= norm;\n dual /= norm;\n vec3 translate = vec3(\n 2.0 * (-dual.w * quat.x + dual.x * quat.w - dual.y * quat.z + dual.z * quat.y),\n 2.0 * (-dual.w * quat.y + dual.x * quat.z + dual.y * quat.w - dual.z * quat.x),\n 2.0 * (-dual.w * quat.z - dual.x * quat.y + dual.y * quat.x + dual.z * quat.w)\n );\n mat3 basis = quaternionToMatrix(quat);\n\n center = quatVec(quat, center) + translate;\n\n mat3 cov = mat3(xxyyzz.x, xyxzyz.x, xyxzyz.y, xyxzyz.x, xxyyzz.y, xyxzyz.z, xyxzyz.y, xyxzyz.z, xxyyzz.z);\n cov = basis * cov * transpose(basis);\n xxyyzz = vec3(cov[0][0], cov[1][1], cov[2][2]);\n xyxzyz = vec3(cov[0][1], cov[0][2], cov[1][2]);\n }\n`);\n\nexport const defineApplyCovSplatLBSkinning = unindent(`\n void applyCovSplatLBSkinning(\n int numSplats, int numBones,\n usampler2DArray skinTexture, sampler2D boneTexture,\n int splatIndex, inout vec3 center, inout vec3 xxyyzz, inout vec3 xyxzyz\n ) {\n if ((splatIndex < 0) || (splatIndex >= numSplats)) {\n return;\n }\n\n uvec4 skinData = texelFetch(skinTexture, splatTexCoord(splatIndex), 0);\n\n float weights[4];\n weights[0] = float(skinData.x & 0xffu) / 255.0;\n weights[1] = float(skinData.y & 0xffu) / 255.0;\n weights[2] = float(skinData.z & 0xffu) / 255.0;\n weights[3] = float(skinData.w & 0xffu) / 255.0;\n\n uint boneIndices[4];\n boneIndices[0] = (skinData.x >> 8u) & 0xffu;\n boneIndices[1] = (skinData.y >> 8u) & 0xffu;\n boneIndices[2] = (skinData.z >> 8u) & 0xffu;\n boneIndices[3] = (skinData.w >> 8u) & 0xffu;\n\n mat3 basis = mat3(0.0);\n vec3 offset = vec3(0.0);\n\n for (int i = 0; i < 4; i++) {\n if (weights[i] > 0.0) {\n int boneIndex = int(boneIndices[i]);\n if (boneIndex < numBones) {\n vec4 v0 = texelFetch(boneTexture, ivec2(0, boneIndex), 0);\n vec4 v1 = texelFetch(boneTexture, ivec2(1, boneIndex), 0);\n vec4 v2 = texelFetch(boneTexture, ivec2(2, boneIndex), 0);\n basis += weights[i] * mat3(v0.x, v0.y, v0.z, v0.w, v1.x, v1.y, v1.z, v1.w, v2.x);\n offset += weights[i] * vec3(v2.y, v2.z, v2.w);\n }\n }\n }\n\n center = basis * center + offset;\n\n mat3 cov = mat3(xxyyzz.x, xyxzyz.x, xyxzyz.y, xyxzyz.x, xxyyzz.y, xyxzyz.z, xyxzyz.y, xyxzyz.z, xxyyzz.z);\n cov = basis * cov * transpose(basis);\n xxyyzz = vec3(cov[0][0], cov[1][1], cov[2][2]);\n xyxzyz = vec3(cov[0][1], cov[0][2], cov[1][2]);\n }\n`);\n\nfunction applyCovSplatDQSkinning(\n covsplat: DynoVal,\n skinning: DynoVal,\n): DynoVal {\n const dyno = new Dyno<\n { covsplat: typeof CovSplat; skinning: typeof GsplatSkinning },\n { covsplat: typeof CovSplat }\n >({\n inTypes: { covsplat: CovSplat, skinning: GsplatSkinning },\n outTypes: { covsplat: CovSplat },\n globals: () => [defineGsplatSkinning, defineApplyCovSplatDQSkinning],\n inputs: { covsplat, skinning },\n statements: ({ inputs, outputs }) => {\n const { skinning } = inputs;\n const { covsplat } = outputs;\n return unindentLines(`\n ${covsplat} = ${inputs.covsplat};\n if (isCovSplatActive(${covsplat}.flags)) {\n applyCovSplatDQSkinning(\n ${skinning}.numSplats, ${skinning}.numBones,\n ${skinning}.skinTexture, ${skinning}.boneTexture,\n ${covsplat}.index, ${covsplat}.center, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz\n );\n }\n `);\n },\n });\n return dyno.outputs.covsplat;\n}\n\nfunction applyCovSplatLBSkinning(\n covsplat: DynoVal,\n skinning: DynoVal,\n): DynoVal {\n const dyno = new Dyno<\n { covsplat: typeof CovSplat; skinning: typeof GsplatSkinning },\n { covsplat: typeof CovSplat }\n >({\n inTypes: { covsplat: CovSplat, skinning: GsplatSkinning },\n outTypes: { covsplat: CovSplat },\n globals: () => [defineGsplatSkinning, defineApplyCovSplatLBSkinning],\n inputs: { covsplat, skinning },\n statements: ({ inputs, outputs }) => {\n const { skinning } = inputs;\n const { covsplat } = outputs;\n return unindentLines(`\n ${covsplat} = ${inputs.covsplat};\n if (isCovSplatActive(${covsplat}.flags)) {\n applyCovSplatLBSkinning(\n ${skinning}.numSplats, ${skinning}.numBones,\n ${skinning}.skinTexture, ${skinning}.boneTexture,\n ${covsplat}.index, ${covsplat}.center, ${covsplat}.xxyyzz, ${covsplat}.xyxzyz\n );\n }\n `);\n },\n });\n return dyno.outputs.covsplat;\n}\n","import * as THREE from \"three\";\nimport { PackedSplats } from \"./PackedSplats\";\nimport { SplatMesh } from \"./SplatMesh\";\n\nexport function constructGrid({\n // PackedSplats object to add splats to\n splats,\n // min and max box extents of the grid\n extents,\n // step size along each grid axis\n stepSize = 1,\n // spherical radius of each Gsplat\n pointRadius = 0.01,\n // relative size of the \"shadow copy\" of each Gsplat placed behind it\n pointShadowScale = 2.0,\n // Gsplat opacity\n opacity = 1.0,\n // Gsplat color (THREE.Color) or function to set color for position:\n // ((THREE.Color, THREE.Vector3) => void) (default: RGB-modulated grid)\n color,\n}: {\n splats: PackedSplats;\n extents: THREE.Box3;\n stepSize?: number;\n pointRadius?: number;\n pointShadowScale?: number;\n opacity?: number;\n color?: THREE.Color | ((color: THREE.Color, point: THREE.Vector3) => void);\n}) {\n const EPSILON = 1.0e-6;\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3();\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n if (color == null) {\n color = (color, point) =>\n color.set(\n 0.55 + 0.45 * Math.cos(point.x * 1),\n 0.55 + 0.45 * Math.cos(point.y * 1),\n 0.55 + 0.45 * Math.cos(point.z * 1),\n );\n }\n const pointColor = new THREE.Color();\n for (let z = extents.min.z; z < extents.max.z + EPSILON; z += stepSize) {\n for (let y = extents.min.y; y < extents.max.y + EPSILON; y += stepSize) {\n for (let x = extents.min.x; x < extents.max.x + EPSILON; x += stepSize) {\n center.set(x, y, z);\n for (let layer = 0; layer < 2; ++layer) {\n scales.setScalar(pointRadius * (layer ? 1 : pointShadowScale));\n if (!layer) {\n pointColor.setScalar(0.0);\n } else if (typeof color === \"function\") {\n color(pointColor, center);\n } else {\n pointColor.copy(color);\n }\n splats.pushSplat(center, scales, quaternion, opacity, pointColor);\n }\n }\n }\n }\n}\n\nexport function constructAxes({\n // PackedSplats object to add splats to\n splats,\n // scale (Gsplat scale along axis)\n scale = 0.25,\n // radius of the axes (Gsplat scale orthogonal to axis)\n axisRadius = 0.0075,\n // relative size of the \"shadow copy\" of each Gsplat placed behind it\n axisShadowScale = 2.0,\n // origins of the axes (default single axis at origin)\n origins = [new THREE.Vector3()],\n}: {\n splats: PackedSplats;\n scale?: number;\n axisRadius?: number;\n axisShadowScale?: number;\n origins?: THREE.Vector3[];\n}) {\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3();\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n const color = new THREE.Color();\n const opacity = 1.0;\n for (const origin of origins) {\n for (let axis = 0; axis < 3; ++axis) {\n center.set(\n origin.x + (axis === 0 ? scale : 0),\n origin.y + (axis === 1 ? scale : 0),\n origin.z + (axis === 2 ? scale : 0),\n );\n for (let layer = 0; layer < 2; ++layer) {\n scales.set(\n (axis === 0 ? scale : axisRadius) * (layer ? 1 : axisShadowScale),\n (axis === 1 ? scale : axisRadius) * (layer ? 1 : axisShadowScale),\n (axis === 2 ? scale : axisRadius) * (layer ? 1 : axisShadowScale),\n );\n color.setRGB(\n layer === 0 ? 0.0 : axis === 0 ? 1.0 : 0.0,\n layer === 0 ? 0.0 : axis === 1 ? 1.0 : 0.0,\n layer === 0 ? 0.0 : axis === 2 ? 1.0 : 0.0,\n );\n splats.pushSplat(center, scales, quaternion, opacity, color);\n }\n }\n }\n}\n\nexport function constructSpherePoints({\n // PackedSplats object to add splats to\n splats,\n // center of the sphere (default: origin)\n origin = new THREE.Vector3(),\n // radius of the sphere\n radius = 1.0,\n // maximum depth of recursion for subdividing the sphere\n // Warning: Gsplat count grows exponentially with depth\n maxDepth = 3,\n // filter function to apply to each point, for example to select\n // points in a certain direction or other function ((THREE.Vector3) => boolean)\n // (default: null)\n filter = null,\n // radius of each oriented Gsplat\n pointRadius = 0.02,\n // flatness of each oriented Gsplat\n pointThickness = 0.001,\n // color of each Gsplat (THREE.Color) or function to set color for point:\n // ((THREE.Color, THREE.Vector3) => void) (default: white)\n color = new THREE.Color(1, 1, 1),\n}: {\n splats: PackedSplats;\n origin?: THREE.Vector3;\n radius?: number;\n maxDepth?: number;\n filter?: ((point: THREE.Vector3) => boolean) | null;\n pointRadius?: number;\n pointThickness?: number;\n color?: THREE.Color | ((color: THREE.Color, point: THREE.Vector3) => void);\n}) {\n const pointsHash: { [key: string]: THREE.Vector3 } = {};\n\n function addPoint(p: THREE.Vector3) {\n if (filter && !filter(p)) {\n return;\n }\n const key = `${p.x},${p.y},${p.z}`;\n if (!pointsHash[key]) {\n pointsHash[key] = p;\n }\n }\n\n function recurse(\n depth: number,\n p0: THREE.Vector3,\n p1: THREE.Vector3,\n p2: THREE.Vector3,\n ) {\n addPoint(p0);\n addPoint(p1);\n addPoint(p2);\n if (depth >= maxDepth) {\n return;\n }\n const p01 = new THREE.Vector3().addVectors(p0, p1).normalize();\n const p12 = new THREE.Vector3().addVectors(p1, p2).normalize();\n const p20 = new THREE.Vector3().addVectors(p2, p0).normalize();\n recurse(depth + 1, p0, p01, p20);\n recurse(depth + 1, p01, p1, p12);\n recurse(depth + 1, p20, p12, p2);\n recurse(depth + 1, p01, p12, p20);\n }\n\n for (const x of [-1, 1]) {\n for (const y of [-1, 1]) {\n for (const z of [-1, 1]) {\n const p0 = new THREE.Vector3(x, 0, 0);\n const p1 = new THREE.Vector3(0, y, 0);\n const p2 = new THREE.Vector3(0, 0, z);\n recurse(0, p0, p1, p2);\n }\n }\n }\n\n const points = Object.values(pointsHash);\n const scales = new THREE.Vector3(pointRadius, pointRadius, pointThickness);\n const quaternion = new THREE.Quaternion();\n const pointColor = typeof color === \"function\" ? new THREE.Color() : color;\n for (const point of points) {\n quaternion.setFromUnitVectors(new THREE.Vector3(0, 0, -1), point);\n if (typeof color === \"function\") {\n color(pointColor, point);\n }\n point.multiplyScalar(radius);\n point.add(origin);\n splats.pushSplat(point, scales, quaternion, 1.0, pointColor);\n }\n}\n\nexport function textSplats({\n // text string to display\n text,\n // browser font to render text with (default: \"Arial\")\n font,\n // font size in pixels/Gsplats (default: 32)\n fontSize,\n // SplatMesh.recolor tint assuming white Gsplats (default: white)\n color,\n // Individual Gsplat color (default: white)\n rgb,\n // Gsplat radius (default: 0.8 covers 1-unit spacing well)\n dotRadius,\n // text alignment: \"left\", \"center\", \"right\", \"start\", \"end\" (default: \"start\")\n textAlign,\n // line spacing multiplier, lines delimited by \"\\n\" (default: 1.0)\n lineHeight,\n // Coordinate scale in object-space (default: 1.0)\n objectScale,\n}: {\n text: string;\n font?: string;\n fontSize?: number;\n color?: THREE.Color;\n rgb?: THREE.Color;\n dotRadius?: number;\n textAlign?: \"left\" | \"center\" | \"right\" | \"start\" | \"end\";\n lineHeight?: number;\n objectScale?: number;\n}) {\n font = font ?? \"Arial\";\n fontSize = fontSize ?? 32;\n color = color ?? new THREE.Color(1, 1, 1);\n dotRadius = dotRadius ?? 0.8;\n textAlign = textAlign ?? \"start\";\n lineHeight = lineHeight ?? 1;\n objectScale = objectScale ?? 1;\n const lines = text.split(\"\\n\");\n\n const canvas = document.createElement(\"canvas\");\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n throw new Error(\"Failed to create canvas context\");\n }\n\n ctx.font = `${fontSize}px ${font}`;\n ctx.textAlign = textAlign;\n const metrics = ctx.measureText(\"\");\n const fontHeight =\n metrics.fontBoundingBoxAscent + metrics.fontBoundingBoxDescent;\n\n let minLeft = Number.POSITIVE_INFINITY;\n let maxRight = Number.NEGATIVE_INFINITY;\n let minTop = Number.POSITIVE_INFINITY;\n let maxBottom = Number.NEGATIVE_INFINITY;\n for (let line = 0; line < lines.length; ++line) {\n const metrics = ctx.measureText(lines[line]);\n const y = fontHeight * lineHeight * line;\n minLeft = Math.min(minLeft, -metrics.actualBoundingBoxLeft);\n maxRight = Math.max(maxRight, metrics.actualBoundingBoxRight);\n minTop = Math.min(minTop, y - metrics.actualBoundingBoxAscent);\n maxBottom = Math.max(maxBottom, y + metrics.actualBoundingBoxDescent);\n }\n const originLeft = Math.floor(minLeft);\n const originTop = Math.floor(minTop);\n const width = Math.ceil(maxRight) - originLeft;\n const height = Math.ceil(maxBottom) - originTop;\n canvas.width = width;\n canvas.height = height;\n\n ctx.font = `${fontSize}px ${font}`;\n ctx.textAlign = textAlign;\n ctx.textBaseline = \"alphabetic\";\n ctx.fillStyle = \"#FFFFFF\";\n for (let i = 0; i < lines.length; ++i) {\n const y = fontHeight * lineHeight * i - originTop;\n ctx.fillText(lines[i], -originLeft, y);\n }\n\n const imageData = ctx.getImageData(0, 0, width, height);\n const rgba = new Uint8Array(imageData.data.buffer);\n const splats = new PackedSplats();\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3().setScalar(dotRadius * objectScale);\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n rgb = rgb ?? new THREE.Color(1, 1, 1);\n\n let offset = 0;\n for (let y = 0; y < height; ++y) {\n for (let x = 0; x < width; ++x) {\n const a = rgba[offset + 3];\n if (a > 0) {\n const opacity = a / 255;\n center.set(x - 0.5 * (width - 1), 0.5 * (height - 1) - y, 0);\n center.multiplyScalar(objectScale);\n splats.pushSplat(center, scales, quaternion, opacity, rgb);\n }\n offset += 4;\n }\n }\n\n const mesh = new SplatMesh({ packedSplats: splats });\n mesh.recolor = color;\n return mesh;\n}\n\nexport function imageSplats({\n // URL of the image to convert to splats (example: `url: \"./image.png\"`)\n url,\n // Radius of each Gsplat, default covers 1-unit spacing well (default: 0.8)\n dotRadius,\n // Subsampling factor for the image. Higher values reduce resolution,\n // for example 2 will halve the width and height by averaging (default: 1)\n subXY,\n // Optional callback function to modify each Gsplat before it's added.\n // Return null to skip adding the Gsplat, or a number to set the opacity\n // and add the Gsplat with parameter values in the objects center, rgba etc. were\n // passed into the forEachSplat callback. Ending the callback in `return opacity;`\n // will retain the original opacity.\n // ((width: number, height: number, index: number, center: THREE.Vector3, scales: THREE.Vector3, quaternion: THREE.Quaternion, opacity: number, color: THREE.Color) => number | null)\n forEachSplat,\n}: {\n url: string;\n dotRadius?: number;\n subXY?: number;\n forEachSplat?: (\n width: number,\n height: number,\n index: number,\n center: THREE.Vector3,\n scales: THREE.Vector3,\n quaternion: THREE.Quaternion,\n opacity: number,\n color: THREE.Color,\n ) => number | null;\n}): SplatMesh {\n dotRadius = dotRadius ?? 0.8;\n subXY = Math.max(1, Math.floor(subXY ?? 1));\n\n return new SplatMesh({\n constructSplats: async (splats) => {\n return new Promise((resolve, reject) => {\n const img = new Image();\n img.crossOrigin = \"anonymous\";\n img.onerror = reject;\n img.onload = () => {\n const { width, height } = img;\n const canvas = document.createElement(\"canvas\");\n canvas.width = width;\n canvas.height = height;\n const ctx = canvas.getContext(\"2d\");\n if (!ctx) {\n reject(new Error(\"Failed to create canvas context\"));\n return;\n }\n ctx.imageSmoothingEnabled = true;\n ctx.imageSmoothingQuality = \"high\";\n const destWidth = Math.round(width / subXY);\n const destHeight = Math.round(height / subXY);\n ctx.drawImage(img, 0, 0, destWidth, destHeight);\n try {\n const imageData = ctx.getImageData(0, 0, destWidth, destHeight);\n const rgba = new Uint8Array(imageData.data.buffer);\n\n const center = new THREE.Vector3();\n const scales = new THREE.Vector3().setScalar(dotRadius);\n const quaternion = new THREE.Quaternion(0, 0, 0, 1);\n const rgb = new THREE.Color();\n\n let index = 0;\n for (let y = 0; y < destHeight; ++y) {\n for (let x = 0; x < destWidth; ++x) {\n const offset = index * 4;\n const a = rgba[offset + 3];\n if (a > 0) {\n let opacity = a / 255;\n rgb.set(\n rgba[offset + 0] / 255,\n rgba[offset + 1] / 255,\n rgba[offset + 2] / 255,\n );\n center.set(\n x - 0.5 * (destWidth - 1),\n 0.5 * (destHeight - 1) - y,\n 0,\n );\n scales.setScalar(dotRadius);\n quaternion.set(0, 0, 0, 1);\n let push = true;\n if (forEachSplat) {\n const maybeOpacity = forEachSplat(\n destWidth,\n destHeight,\n index,\n center,\n scales,\n quaternion,\n opacity,\n rgb,\n );\n opacity = maybeOpacity ?? opacity;\n push = maybeOpacity !== null;\n }\n if (push) {\n splats.pushSplat(center, scales, quaternion, opacity, rgb);\n }\n }\n index += 1;\n }\n }\n resolve();\n } catch (error) {\n reject(error);\n }\n };\n img.src = url;\n });\n },\n });\n}\n","import * as THREE from \"three\";\nimport { SplatGenerator, SplatTransformer } from \"../SplatGenerator\";\nimport {\n type DynoVal,\n Gsplat,\n add,\n combine,\n combineGsplat,\n defineGsplat,\n div,\n dynoBlock,\n dynoConst,\n dynoFloat,\n dynoLiteral,\n floatBitsToInt,\n hashVec3,\n imod,\n mul,\n split,\n sub,\n vec3,\n} from \"../dyno\";\n\nexport function staticBox({\n box,\n cells,\n dotScale,\n color,\n opacity,\n}: {\n box: THREE.Box3;\n cells: THREE.Vector3;\n dotScale: number;\n color?: THREE.Color;\n opacity?: number;\n}) {\n cells.x = Math.max(1, Math.round(cells.x));\n cells.y = Math.max(1, Math.round(cells.y));\n cells.z = Math.max(1, Math.round(cells.z));\n opacity = opacity ?? 1;\n const numSplats = cells.x * cells.y * cells.z;\n const dynoX = dynoConst(\"int\", cells.x);\n const dynoY = dynoConst(\"int\", cells.y);\n const dynoZ = dynoConst(\"int\", cells.z);\n\n const dynoTime = dynoFloat(0);\n const generator = new SplatGenerator({\n numSplats,\n generator: dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index is undefined\");\n }\n const cellX = imod(index, dynoX);\n const index2 = div(index, dynoX);\n const cellY = imod(index2, dynoY);\n const cellZ = div(index2, dynoY);\n const cell = combine({\n vectorType: \"ivec3\",\n x: cellX,\n y: cellY,\n z: cellZ,\n });\n\n const intTime = floatBitsToInt(dynoTime);\n const inputs = combine({ vectorType: \"ivec2\", x: index, y: intTime });\n const random = hashVec3(inputs);\n const min = dynoConst(\"vec3\", box.min);\n const max = dynoConst(\"vec3\", box.max);\n const size = sub(max, min);\n const coord = div(add(vec3(cell), random), dynoConst(\"vec3\", cells));\n let r: DynoVal<\"float\">;\n let g: DynoVal<\"float\">;\n let b: DynoVal<\"float\">;\n if (color) {\n r = dynoConst(\"float\", color.r);\n g = dynoConst(\"float\", color.g);\n b = dynoConst(\"float\", color.b);\n } else {\n ({ r, g, b } = split(coord).outputs);\n }\n const rgba = combine({\n vectorType: \"vec4\",\n r,\n g,\n b,\n a: dynoConst(\"float\", opacity),\n });\n const center = add(min, mul(size, coord));\n const scales = vec3(dynoConst(\"float\", dotScale));\n const quaternion = dynoConst(\"vec4\", new THREE.Quaternion(0, 0, 0, 1));\n let gsplat = combineGsplat({\n flags: dynoLiteral(\"uint\", \"GSPLAT_FLAG_ACTIVE\"),\n index: index,\n center,\n scales,\n quaternion,\n rgba,\n });\n gsplat = transformer.applyGsplat(gsplat);\n return { gsplat };\n },\n {\n globals: () => [defineGsplat],\n },\n ),\n update: ({ time }) => {\n dynoTime.value = time;\n const _updated = transformer.update(generator);\n generator.updateVersion();\n },\n });\n const transformer: SplatTransformer = new SplatTransformer();\n return generator;\n}\n","import * as THREE from \"three\";\n\nimport { SplatGenerator, SplatTransformer } from \"../SplatGenerator\";\nimport {\n Gsplat,\n add,\n combine,\n combineGsplat,\n defineGsplat,\n dynoBlock,\n dynoConst,\n dynoFloat,\n dynoLiteral,\n fract,\n hashVec4,\n max,\n mix,\n mod,\n mul,\n sin,\n split,\n sub,\n vec3,\n} from \"../dyno\";\nimport { dynoVec3 } from \"../dyno\";\n\n// snowBox produces Gsplat trajectories that move in a deterministic fashion over time,\n// with high similarity between adjacent frames. See examples/atmospheric/main.js\n// for an example that creates a snowBox.\n\n// A snowBox instance has a collection of properties that can be tuned to achieve\n// different particle effects. The below DEFAULT_SNOW and DEFAULT_RAIN are example\n// parameter sets that look a lot like snow and rain, and can be used as a starting\n// point for further tweaking: `const mySnow = { ...DEFAULT_SNOW, density: 500 };`\n\nexport const DEFAULT_SNOW = {\n box: new THREE.Box3(\n new THREE.Vector3(-1, -1, -1),\n new THREE.Vector3(1, 1, 1),\n ),\n density: 100,\n fallDirection: new THREE.Vector3(-1, -3, 1).normalize(),\n fallVelocity: 0.02,\n wanderScale: 0.04,\n wanderVariance: 2,\n color1: new THREE.Color(1, 1, 1),\n color2: new THREE.Color(0.5, 0.5, 1),\n minScale: 0.001,\n maxScale: 0.005,\n anisoScale: new THREE.Vector3(1, 1, 1),\n};\n\nexport const DEFAULT_RAIN = {\n box: new THREE.Box3(\n new THREE.Vector3(-2, -1, -2),\n new THREE.Vector3(2, 5, 2),\n ),\n density: 10,\n fallDirection: new THREE.Vector3(0, -1, 0),\n fallVelocity: 2,\n wanderScale: 0.1,\n wanderVariance: 1,\n color1: new THREE.Color(1, 1, 1),\n color2: new THREE.Color(0.25, 0.25, 0.5),\n minScale: 0.005,\n maxScale: 0.01,\n anisoScale: new THREE.Vector3(0.1, 1, 0.1),\n};\n\n// Calling snowBox creates a new snowBox instance and returns an object with\n// the snowBox itself as well `as` a collection of controls that can be used to\n// adjust the snowBox's properties over time:\n//\n// - snow: the SplatGenerator snowBox instance\n// - min: the vec3 uniform of the snowBox minimum position\n// - max: the vec3 uniform of the snowBox maximum position\n// - minY: the float uniform of the snowBox minimum y-coordinate\n// - color1: the vec3 uniform of the snowBox first color\n// - color2: the vec3 uniform of the snowBox second color\n// - opacity: the float uniform of the snowBox opacity\n// - fallVelocity: the float uniform of the snowBox fall velocity\n// - wanderVariance: the float uniform of the snowBox wander variance\n// - wanderScale: the float uniform of the snowBox wander scale\n// - fallDirection: the vec3 uniform of the snowBox fall direction\n// - minScale: the float uniform of the snowBox minimum scale\n// - maxScale: the float uniform of the snowBox maximum scale\n// - anisoScale: the vec3 uniform of the snowBox anisotropic scale\n\nexport function snowBox({\n // min and max box extents of the snowBox\n box,\n // minimum y-coordinate to clamp particle position, which can be used to\n // fake hitting a ground plane and lingering there for a bit\n minY,\n // number of Gsplats to generate (default: calculated from box and density)\n numSplats,\n // density of Gsplats per unit volume (default: 100)\n density,\n // The xyz anisotropic scale of the Gsplat, which can be used for example\n // to elongate rain particles (default: (1, 1, 1))\n anisoScale,\n // Minimum Gsplat particle scale (default: 0.001)\n minScale,\n // Maximum Gsplat particle scale (default: 0.005)\n maxScale,\n // The average direction of fall (default: (0, -1, 0))\n fallDirection,\n // The average speed of the fall (multiplied with fallDirection) (default: 0.02)\n fallVelocity,\n // The world scale of wandering overlay motion (default: 0.01)\n wanderScale,\n // Controls how uniformly the particles wander in sync, more variance mean\n // more randomness in the motion (default: 2)\n wanderVariance,\n // Color 1 of the two colors interpolated between (default: (1, 1, 1))\n color1,\n // Color 2 of the two colors interpolated between (default: (0.5, 0.5, 1))\n color2,\n // The base opacity of the Gsplats (default: 1)\n opacity,\n // Optional callback function to call each frame.\n onFrame,\n}: {\n box?: THREE.Box3;\n minY?: number;\n numSplats?: number;\n density?: number;\n anisoScale?: THREE.Vector3;\n minScale?: number;\n maxScale?: number;\n fallDirection?: THREE.Vector3;\n fallVelocity?: number;\n wanderScale?: number;\n wanderVariance?: number;\n color1?: THREE.Color;\n color2?: THREE.Color;\n opacity?: number;\n onFrame?: ({\n object,\n time,\n deltaTime,\n }: { object: SplatGenerator; time: number; deltaTime: number }) => void;\n}) {\n box =\n box ??\n new THREE.Box3(new THREE.Vector3(-1, -1, -1), new THREE.Vector3(1, 1, 1));\n const volume =\n (box.max.x - box.min.x) * (box.max.y - box.min.y) * (box.max.z - box.min.z);\n density = density ?? 100;\n numSplats =\n numSplats ?? Math.max(1, Math.min(1000000, Math.round(volume * density)));\n\n const dynoMinScale = dynoFloat(minScale ?? 0.001);\n const dynoMaxScale = dynoFloat(maxScale ?? 0.005);\n const dynoAnisoScale = dynoVec3(\n (anisoScale?.clone() ?? new THREE.Vector3(1, 1, 1)).normalize(),\n );\n const dynoFallDirection = dynoVec3(\n (fallDirection ?? new THREE.Vector3(0, -1, 0)).normalize(),\n );\n const dynoFallVelocity = dynoFloat(fallVelocity ?? 0.02);\n const dynoWanderScale = dynoFloat(wanderScale ?? 0.01);\n const dynoWanderVariance = dynoFloat(wanderVariance ?? 2);\n const dynoColor1 = dynoVec3(color1 ?? new THREE.Color(1, 1, 1));\n const dynoColor2 = dynoVec3(color2 ?? new THREE.Color(0.5, 0.5, 1));\n const dynoOpacity = dynoFloat(opacity ?? 1);\n\n const dynoTime = dynoFloat(0);\n const globalOffset = dynoVec3(new THREE.Vector3(0, 0, 0));\n const dynoMin = dynoVec3(box.min);\n const dynoMax = dynoVec3(box.max);\n const dynoMinY = dynoFloat(minY ?? Number.NEGATIVE_INFINITY);\n const minMax = sub(dynoMax, dynoMin);\n const snow = new SplatGenerator({\n numSplats,\n generator: dynoBlock(\n { index: \"int\" },\n { gsplat: Gsplat },\n ({ index }) => {\n if (!index) {\n throw new Error(\"index not defined\");\n }\n const random = hashVec4(index);\n const randomW = split(random).outputs.w;\n let position = vec3(random);\n\n let size = fract(mul(randomW, dynoConst(\"float\", 100)));\n size = sin(mul(dynoLiteral(\"float\", \"PI\"), size));\n size = add(dynoMinScale, mul(size, sub(dynoMaxScale, dynoMinScale)));\n const scales = mul(size, dynoAnisoScale);\n\n const intensity = fract(mul(randomW, dynoConst(\"float\", 10)));\n const hue = fract(randomW);\n const color = mix(dynoColor1, dynoColor2, hue);\n const rgb = mul(color, intensity);\n\n const random2 = hashVec4(\n combine({\n vectorType: \"ivec2\",\n x: index,\n y: dynoConst(\"int\", 0x1ab5),\n }),\n );\n let perturb = vec3(random2);\n let timeOffset = mul(split(random2).outputs.w, dynoWanderVariance);\n timeOffset = add(dynoTime, timeOffset);\n\n position = add(position, globalOffset);\n const modulo = mod(\n position,\n dynoConst(\"vec3\", new THREE.Vector3(1, 1, 1)),\n );\n position = add(dynoMin, mul(minMax, modulo));\n\n const quaternion = dynoConst(\"vec4\", new THREE.Quaternion(0, 0, 0, 1));\n\n perturb = sin(add(vec3(timeOffset), perturb));\n perturb = mul(perturb, dynoWanderScale);\n let center = add(position, perturb);\n\n let centerY = split(center).outputs.y;\n centerY = max(dynoMinY, centerY);\n center = combine({ vector: center, y: centerY });\n\n let gsplat = combineGsplat({\n flags: dynoLiteral(\"uint\", \"GSPLAT_FLAG_ACTIVE\"),\n index: index,\n center,\n scales,\n quaternion,\n rgb,\n opacity: dynoOpacity,\n });\n gsplat = transformer.applyGsplat(gsplat);\n return { gsplat };\n },\n {\n globals: () => [defineGsplat],\n },\n ),\n update: ({ object, time, deltaTime }) => {\n dynoTime.value = time;\n const _updated = transformer.update(snow);\n\n const fallDelta = dynoFallDirection.value\n .clone()\n .multiplyScalar(dynoFallVelocity.value * deltaTime);\n globalOffset.value.add(fallDelta);\n\n // Enable/disable splats based on opacity\n object.visible = dynoOpacity.value > 0;\n\n onFrame?.({ object, time, deltaTime });\n snow.updateVersion();\n },\n });\n const transformer: SplatTransformer = new SplatTransformer();\n return {\n snow,\n min: dynoMin,\n max: dynoMax,\n minY: dynoMinY,\n color1: dynoColor1,\n color2: dynoColor2,\n opacity: dynoOpacity,\n fallVelocity: dynoFallVelocity,\n wanderVariance: dynoWanderVariance,\n wanderScale: dynoWanderScale,\n fallDirection: dynoFallDirection,\n minScale: dynoMinScale,\n maxScale: dynoMaxScale,\n anisoScale: dynoAnisoScale,\n };\n}\n\nexport type SNOW_RESULT_TYPE = ReturnType;\n","import type { SplatTransformer } from \"../SplatGenerator\";\nimport type { SplatMesh } from \"../SplatMesh\";\nimport {\n Gsplat,\n add,\n combineGsplat,\n dot,\n dynoBlock,\n dynoConst,\n greaterThanEqual,\n gsplatNormal,\n mul,\n neg,\n select,\n splitGsplat,\n} from \"../dyno\";\n\nexport function makeNormalColorModifier(splatToView: SplatTransformer) {\n return dynoBlock({ gsplat: Gsplat }, { gsplat: Gsplat }, ({ gsplat }) => {\n if (!gsplat) {\n throw new Error(\"No gsplat input\");\n }\n let normal = gsplatNormal(gsplat);\n\n const viewGsplat = splatToView.applyGsplat(gsplat);\n const viewCenter = splitGsplat(viewGsplat).outputs.center;\n const viewNormal = gsplatNormal(viewGsplat);\n const splatDot = dot(viewCenter, viewNormal);\n\n const sameDir = greaterThanEqual(splatDot, dynoConst(\"float\", 0));\n normal = select(sameDir, neg(normal), normal);\n const rgb = add(\n mul(normal, dynoConst(\"float\", 0.5)),\n dynoConst(\"float\", 0.5),\n );\n\n gsplat = combineGsplat({ gsplat, rgb });\n return { gsplat };\n });\n}\n\nexport function setWorldNormalColor(splats: SplatMesh) {\n splats.enableWorldToView = true;\n splats.worldModifier = makeNormalColorModifier(splats.context.worldToView);\n splats.updateGenerator();\n}\n","import type { SplatTransformer } from \"../SplatGenerator\";\nimport type { SplatMesh } from \"../SplatMesh\";\nimport {\n type DynoVal,\n Gsplat,\n combineGsplat,\n dynoBlock,\n dynoConst,\n neg,\n normalizedDepth,\n select,\n split,\n splitGsplat,\n sub,\n} from \"../dyno\";\n\nexport function makeDepthColorModifier(\n splatToView: SplatTransformer,\n minDepth: DynoVal<\"float\">,\n maxDepth: DynoVal<\"float\">,\n reverse: DynoVal<\"bool\">,\n) {\n return dynoBlock({ gsplat: Gsplat }, { gsplat: Gsplat }, ({ gsplat }) => {\n if (!gsplat) {\n throw new Error(\"No gsplat input\");\n }\n let { center } = splitGsplat(gsplat).outputs;\n center = splatToView.apply(center);\n const { z } = split(center).outputs;\n let depth = normalizedDepth(neg(z), minDepth, maxDepth);\n depth = select(reverse, sub(dynoConst(\"float\", 1), depth), depth);\n\n gsplat = combineGsplat({ gsplat, r: depth, g: depth, b: depth });\n return { gsplat };\n });\n}\n\nexport function setDepthColor(\n splats: SplatMesh,\n minDepth: number,\n maxDepth: number,\n reverse?: boolean,\n) {\n splats.enableWorldToView = true;\n const dynoMinDepth = dynoConst(\"float\", minDepth);\n const dynoMaxDepth = dynoConst(\"float\", maxDepth);\n const dynoReverse = dynoConst(\"bool\", reverse ?? false);\n splats.worldModifier = makeDepthColorModifier(\n splats.context.worldToView,\n dynoMinDepth,\n dynoMaxDepth,\n dynoReverse,\n );\n splats.updateGenerator();\n return {\n minDepth: dynoMinDepth,\n maxDepth: dynoMaxDepth,\n reverse: dynoReverse,\n };\n}\n","import * as THREE from \"three\";\nimport { SplatMesh } from \"./SplatMesh\";\n\nexport interface SparkXrOptions {\n renderer: THREE.WebGLRenderer;\n // Element to attach enter/exit click handler to\n element?: HTMLElement;\n // ID of element to attach enter/exit click handler to\n elementId?: string;\n // Create a button to enter/exit XR\n // Optionally provide button text or HTML\n // Default is true - create a button\n button?: boolean | SparkXrButton;\n // Blur out element when mouse leaves it\n // Default is 0.5 - 50% opacity\n onMouseLeaveOpacity?: number;\n // Default is \"vrar\" - Try VR then AR\n mode?: \"vr\" | \"ar\" | \"arvr\" | \"vrar\";\n // fixedFoveation: XrManager.setFoveation(...)\n fixedFoveation?: number;\n // https://developer.mozilla.org/en-US/docs/Web/API/XRWebGLLayer/XRWebGLLayer#framebufferscalefactor\n // Default is 0.5 - 50% resolution for better frame rate\n frameBufferScaleFactor?: number;\n // https://developer.mozilla.org/en-US/docs/Web/API/XRReferenceSpace#reference_space_types\n // Defaults is \"local\" - origin is the user's position when starting XR session\n referenceSpaceType?: \"local\" | \"local-floor\" | \"unbounded\" | \"viewer\";\n // Enable hand tracking\n // Default is false\n enableHands?: boolean;\n // Allow WebXR entry on mobile phones that expose navigator.xr\n // Defaults to false - blocks phones to avoid unusable split-screen modes\n allowMobileXr?: boolean;\n // Session init options\n // Default is empty - no additional options\n sessionInit?: XRSessionInit;\n // Callback function called when SparkXr is ready\n // Default is undefined - no callback\n onReady?: (supported: boolean) => void | Promise;\n // Callback function called when entering XR\n // Default is undefined - no callback\n onEnterXr?: () => void | Promise;\n // Callback function called when exiting XR\n // Default is undefined - no callback\n onExitXr?: () => void | Promise;\n // ztroller movement and rotation options\n controllers?: SparkXrControllers;\n}\n\nexport interface SparkXrButton {\n enterXrHtml?: string;\n exitXrHtml?: string;\n enterVrHtml?: string;\n exitVrHtml?: string;\n enterArHtml?: string;\n exitArHtml?: string;\n enterXrText?: string;\n exitXrText?: string;\n enterVrText?: string;\n exitVrText?: string;\n enterArText?: string;\n exitArText?: string;\n style?: CSSStyleDeclaration;\n enterStyle?: CSSStyleDeclaration;\n exitStyle?: CSSStyleDeclaration;\n zIndex?: number;\n}\n\nexport type XrGamepads = {\n left?: Gamepad;\n right?: Gamepad;\n leftIsHand?: boolean;\n rightIsHand?: boolean;\n};\n\nexport interface SparkXrControllers {\n moveSpeed?: number;\n rotateSpeed?: number;\n rollSpeed?: number;\n fastMultiplier?: number;\n slowMultiplier?: number;\n moveHeading?: boolean;\n moveDirection?: boolean;\n getMove?: (gamepads: XrGamepads, sparkXr: SparkXr) => THREE.Vector3;\n getRotate?: (gamepads: XrGamepads, sparkXr: SparkXr) => THREE.Vector3;\n getFast?: (gamepads: XrGamepads, sparkXr: SparkXr) => boolean;\n getSlow?: (gamepads: XrGamepads, sparkXr: SparkXr) => boolean;\n}\n\nexport const DEFAULT_CONTROLLER_MOVE_SPEED = 1.0;\nexport const DEFAULT_CONTROLLER_ROTATE_SPEED = 4.0;\nexport const DEFAULT_CONTROLLER_ROLL_SPEED = 2.0;\nexport const DEFAULT_CONTROLLER_FAST_MULTIPLIER = 5;\nexport const DEFAULT_CONTROLLER_SLOW_MULTIPLIER = 1 / 5;\nexport const DEFAULT_CONTROLLER_MOVE_HEADING = false;\n\nexport const DEFAULT_CONTROLLER_GETMOVE = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.leftIsHand\n ? new THREE.Vector3()\n : new THREE.Vector3(\n gamepads.left?.axes[2] ?? 0,\n (gamepads.left?.buttons[0].value ?? 0) -\n (gamepads.left?.buttons[1].value ?? 0),\n gamepads.left?.axes[3] ?? 0,\n );\nexport const DEFAULT_CONTROLLER_GETROTATE = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.rightIsHand\n ? new THREE.Vector3()\n : new THREE.Vector3(gamepads.right?.axes[2] ?? 0, 0, 0);\nexport const DEFAULT_CONTROLLER_GETFAST = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.rightIsHand ? false : (gamepads.right?.buttons[0]?.pressed ?? false);\nexport const DEFAULT_CONTROLLER_GETSLOW = (\n gamepads: XrGamepads,\n sparkXr: SparkXr,\n) =>\n gamepads.rightIsHand ? false : (gamepads.right?.buttons[1]?.pressed ?? false);\n\nexport enum JointEnum {\n w = \"wrist\",\n t0 = \"thumb-metacarpal\",\n t1 = \"thumb-phalanx-proximal\",\n t2 = \"thumb-phalanx-distal\",\n t3 = \"thumb-tip\",\n i0 = \"index-finger-metacarpal\",\n i1 = \"index-finger-phalanx-proximal\",\n i2 = \"index-finger-phalanx-intermediate\",\n i3 = \"index-finger-phalanx-distal\",\n i4 = \"index-finger-tip\",\n m0 = \"middle-finger-metacarpal\",\n m1 = \"middle-finger-phalanx-proximal\",\n m2 = \"middle-finger-phalanx-intermediate\",\n m3 = \"middle-finger-phalanx-distal\",\n m4 = \"middle-finger-tip\",\n r0 = \"ring-finger-metacarpal\",\n r1 = \"ring-finger-phalanx-proximal\",\n r2 = \"ring-finger-phalanx-intermediate\",\n r3 = \"ring-finger-phalanx-distal\",\n r4 = \"ring-finger-tip\",\n p0 = \"pinky-finger-metacarpal\",\n p1 = \"pinky-finger-phalanx-proximal\",\n p2 = \"pinky-finger-phalanx-intermediate\",\n p3 = \"pinky-finger-phalanx-distal\",\n p4 = \"pinky-finger-tip\",\n}\nexport type JointId = keyof typeof JointEnum;\nexport const JOINT_IDS = Object.keys(JointEnum) as JointId[];\nexport const NUM_JOINTS = JOINT_IDS.length;\n\nexport const JOINT_INDEX: { [key in JointId]: number } = {\n w: 0,\n t0: 1,\n t1: 2,\n t2: 3,\n t3: 4,\n i0: 5,\n i1: 6,\n i2: 7,\n i3: 8,\n i4: 9,\n m0: 10,\n m1: 11,\n m2: 12,\n m3: 13,\n m4: 14,\n r0: 15,\n r1: 16,\n r2: 17,\n r3: 18,\n r4: 19,\n p0: 20,\n p1: 21,\n p2: 22,\n p3: 23,\n p4: 24,\n};\n\nexport const JOINT_RADIUS: { [key in JointId]: number } = {\n w: 0.02,\n t0: 0.015,\n t1: 0.012,\n t2: 0.0105,\n t3: 0.0085,\n i0: 0.022,\n i1: 0.012,\n i2: 0.0085,\n i3: 0.0075,\n i4: 0.0065,\n m0: 0.021,\n m1: 0.012,\n m2: 0.008,\n m3: 0.0075,\n m4: 0.0065,\n r0: 0.019,\n r1: 0.011,\n r2: 0.0075,\n r3: 0.007,\n r4: 0.006,\n p0: 0.012,\n p1: 0.01,\n p2: 0.007,\n p3: 0.0065,\n p4: 0.0055,\n};\n\nexport const JOINT_SEGMENTS: JointId[][] = [\n [\"w\", \"t0\", \"t1\", \"t2\", \"t3\"],\n [\"w\", \"i0\", \"i1\", \"i2\", \"i3\", \"i4\"],\n [\"w\", \"m0\", \"m1\", \"m2\", \"m3\", \"m4\"],\n [\"w\", \"r0\", \"r1\", \"r2\", \"r3\", \"r4\"],\n [\"w\", \"p0\", \"p1\", \"p2\", \"p3\", \"p4\"],\n];\n\nexport const JOINT_SEGMENT_STEPS: number[][] = [\n [8, 10, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n];\n\nexport const JOINT_TIPS: JointId[] = [\"t3\", \"i4\", \"m4\", \"r4\", \"p4\"];\nexport const FINGER_TIPS: JointId[] = [\"i4\", \"m4\", \"r4\", \"p4\"];\n\nexport enum Hand {\n left = \"left\",\n right = \"right\",\n}\nexport const HANDS = Object.keys(Hand) as Hand[];\n\nconst XR_HEADSET_HINTS =\n /Quest|OculusBrowser|VisionOS|XRBrowser|Pico|Lynx|MagicLeap/i;\n\nfunction isLikelyMobilePhone() {\n const ua = navigator.userAgent ?? \"\";\n if (XR_HEADSET_HINTS.test(ua)) {\n return false;\n }\n\n const androidMobile = /Android/i.test(ua) || /Mobile/i.test(ua);\n if (androidMobile) {\n return true;\n }\n\n const uaData = (\n navigator as Navigator & {\n userAgentData?: { mobile?: boolean };\n }\n ).userAgentData;\n if (uaData && typeof uaData.mobile === \"boolean\") {\n return uaData.mobile;\n }\n\n return false;\n}\n\nexport type Joint = {\n position: THREE.Vector3;\n quaternion: THREE.Quaternion;\n radius: number;\n};\n\nexport type HandJoints = { [key in JointId]?: Joint };\n\nexport class SparkXr {\n renderer: THREE.WebGLRenderer;\n xr?: XRSystem;\n element?: HTMLElement;\n button?: SparkXrButton;\n mode: XRSessionMode | \"initializing\" | \"not_supported\";\n sessionInit?: XRSessionInit;\n session?: XRSession;\n onEnterXr?: () => void;\n onExitXr?: () => void;\n\n controllers?: SparkXrControllers;\n lastControllersUpdate = 0;\n\n enableHands: boolean;\n hands: XrHand[] = [];\n\n constructor(options: SparkXrOptions) {\n this.renderer = options.renderer;\n this.xr = navigator.xr;\n this.mode = \"initializing\";\n this.onEnterXr = options.onEnterXr;\n this.onExitXr = options.onExitXr;\n this.enableHands = options.enableHands ?? false;\n this.controllers = options.controllers;\n\n Promise.resolve()\n .then(() => {\n if (!this.xr) {\n this.mode = \"not_supported\";\n return;\n }\n\n if (!options.allowMobileXr && isLikelyMobilePhone()) {\n this.mode = \"not_supported\";\n return;\n }\n\n if (this.enableHands) {\n this.hands = [new XrHand(Hand.left), new XrHand(Hand.right)];\n }\n\n let element: HTMLElement | undefined = undefined;\n let button: SparkXrButton | undefined = undefined;\n if (options.element) {\n element = options.element;\n } else if (options.elementId) {\n element = document.getElementById(options.elementId) ?? undefined;\n } else {\n element = SparkXr.createButton();\n button =\n options.button == null || typeof options.button === \"boolean\"\n ? {}\n : options.button;\n }\n\n if (!element) {\n throw new Error(\"No element or button provided\");\n }\n\n element.style.display = \"none\";\n element.classList.add(\"hidden\");\n this.button = button;\n this.element = element;\n\n const opacity = options.onMouseLeaveOpacity?.toString();\n if (opacity !== undefined) {\n element.addEventListener(\"mouseleave\", () => {\n element.style.opacity = opacity;\n });\n element.addEventListener(\"mouseenter\", () => {\n element.style.opacity = \"\";\n });\n }\n\n return this.initializeXr(options);\n })\n .then(() => {\n return options.onReady?.(this.mode !== \"not_supported\");\n })\n .catch((error) => {\n alert(`Error initializing SparkXr: ${error}`);\n });\n }\n\n private async initializeXr(options: SparkXrOptions) {\n if (!this.xr || !this.element) {\n return;\n }\n const element = this.element;\n\n const modes = {\n vr: [\"immersive-vr\"],\n ar: [\"immersive-ar\"],\n arvr: [\"immersive-ar\", \"immersive-vr\"],\n vrar: [\"immersive-vr\", \"immersive-ar\"],\n }[options.mode ?? \"vrar\"] as XRSessionMode[] | undefined;\n if (!modes) {\n throw new Error(`Invalid mode: ${options.mode}`);\n }\n\n let supported = null;\n for (const mode of modes) {\n if (await this.xr.isSessionSupported(mode)) {\n supported = mode;\n break;\n }\n }\n\n if (!supported) {\n this.mode = \"not_supported\";\n return;\n }\n this.mode = supported;\n\n const referenceSpaceType = options.referenceSpaceType ?? \"local\";\n\n this.renderer.xr.enabled = true;\n this.renderer.xr.setReferenceSpaceType(referenceSpaceType);\n\n if (options.fixedFoveation !== undefined) {\n this.renderer.xr.setFoveation(options.fixedFoveation);\n }\n const frameBufferScaleFactor = options.frameBufferScaleFactor ?? 0.5;\n this.renderer.xr.setFramebufferScaleFactor(frameBufferScaleFactor);\n\n const optionalFeatures = options.sessionInit?.optionalFeatures ?? [];\n if (options.enableHands) {\n optionalFeatures.push(\"hand-tracking\");\n }\n\n const requiredFeatures = options.sessionInit?.requiredFeatures ?? [];\n requiredFeatures.push(referenceSpaceType);\n\n this.sessionInit = {\n ...options.sessionInit,\n optionalFeatures,\n requiredFeatures,\n };\n // console.log(\"* this.sessionInit\", this.sessionInit);\n\n element.addEventListener(\"click\", () => {\n this.toggleXr();\n });\n\n this.updateElement();\n }\n\n async toggleXr() {\n if (!this.xr || !this.sessionInit) {\n // console.log(\"* !this.xr || !this.sessionInit\");\n return;\n }\n\n if (!this.session) {\n try {\n const mode = this.mode as XRSessionMode;\n const session = await this.xr.requestSession(mode, this.sessionInit);\n this.session = session;\n // console.log(\"* this.session\", this.session);\n\n const onSessionEnded = () => {\n session?.removeEventListener(\"end\", onSessionEnded);\n session?.removeEventListener(\"visibilitychange\", visibilityChanged);\n this.session = undefined;\n\n this.updateElement();\n this.onExitXr?.();\n };\n\n let lastVisibilityState = session.visibilityState;\n const visibilityChanged = () => {\n if (\n session?.visibilityState === \"visible-blurred\" &&\n lastVisibilityState === \"visible\"\n ) {\n session?.end();\n }\n lastVisibilityState = session?.visibilityState;\n };\n\n this.session?.addEventListener(\"end\", onSessionEnded);\n this.session?.addEventListener(\"visibilitychange\", visibilityChanged);\n\n await this.renderer.xr.setSession(this.session);\n // console.log(\"* setSession\");\n\n return this.onEnterXr?.();\n } catch (error) {\n console.error(\"Error requesting XR session\", error);\n return;\n }\n } else {\n this.session.end();\n // console.log(\"* end session\");\n }\n }\n\n private updateElement() {\n const mode = this.mode as XRSessionMode;\n const element = this.element;\n if (element) {\n element.style.display = \"\";\n element.classList.remove(\"hidden\");\n\n const button = typeof this.button === \"boolean\" ? {} : this.button;\n if (button) {\n if (!this.session) {\n const enterHtml =\n (mode === \"immersive-vr\"\n ? button.enterVrHtml\n : button.enterArHtml) ?? button.enterXrHtml;\n const enterText =\n (mode === \"immersive-vr\"\n ? button.enterVrText\n : button.enterArText) ?? button.enterXrText;\n if (enterHtml) {\n element.innerHTML = enterHtml;\n } else if (enterText) {\n element.textContent = enterText;\n } else {\n element.textContent =\n mode === \"immersive-vr\" ? \"ENTER VR\" : \"ENTER AR\";\n }\n } else {\n const exitHtml =\n (mode === \"immersive-vr\" ? button.exitVrHtml : button.exitArHtml) ??\n button.exitXrHtml;\n const exitText =\n (mode === \"immersive-vr\" ? button.exitVrText : button.exitArText) ??\n button.exitXrText;\n if (exitHtml) {\n element.innerHTML = exitHtml;\n } else if (exitText) {\n element.textContent = exitText;\n } else {\n element.textContent =\n mode === \"immersive-vr\" ? \"EXIT VR\" : \"EXIT AR\";\n }\n }\n\n element.style.display = \"\";\n }\n }\n }\n\n private static createButton() {\n const button = document.createElement(\"button\");\n Object.assign(button.style, {\n position: \"absolute\",\n bottom: \"20px\",\n left: \"50%\",\n transform: \"translateX(-50%)\",\n padding: \"40px 40px\",\n border: \"2px solid #fff\",\n borderRadius: \"16px\",\n background: \"rgba(0,0,0,0.1)\",\n color: \"#fff\",\n font: \"bold 28px sans-serif\",\n textAlign: \"center\",\n userSelect: \"none\",\n zIndex: \"999\",\n });\n document.body.appendChild(button);\n return button;\n }\n\n xrSupported() {\n return !!this.xr;\n }\n\n static JointEnum = JointEnum;\n static JOINT_IDS = JOINT_IDS;\n static NUM_JOINTS = NUM_JOINTS;\n static JOINT_INDEX = JOINT_INDEX;\n static JOINT_RADIUS = JOINT_RADIUS;\n static JOINT_SEGMENTS = JOINT_SEGMENTS;\n static JOINT_SEGMENT_STEPS = JOINT_SEGMENT_STEPS;\n static JOINT_TIPS = JOINT_TIPS;\n static FINGER_TIPS = FINGER_TIPS;\n static Hand = Hand;\n static HANDS = HANDS;\n\n left() {\n return this.hands[0];\n }\n\n right() {\n return this.hands[1];\n }\n\n updateControllers(camera: THREE.Camera) {\n const cameraFrame = camera.parent as THREE.Group;\n\n const now = performance.now();\n const deltaTime = (now - (this.lastControllersUpdate || now)) / 1000;\n this.lastControllersUpdate = now;\n\n const xrGamepads: XrGamepads = {};\n for (const source of this.renderer.xr.getSession()?.inputSources ?? []) {\n const gamepad = source.gamepad;\n if (\n gamepad &&\n (source.handedness === \"left\" || source.handedness === \"right\")\n ) {\n xrGamepads[source.handedness] = gamepad;\n if (source.handedness === \"left\") {\n xrGamepads.leftIsHand = !!source.hand;\n } else if (source.handedness === \"right\") {\n xrGamepads.rightIsHand = !!source.hand;\n }\n }\n }\n\n const rotate = (\n this.controllers?.getRotate ?? DEFAULT_CONTROLLER_GETROTATE\n )(xrGamepads, this);\n rotate.multiply(\n new THREE.Vector3(\n this.controllers?.rotateSpeed ?? DEFAULT_CONTROLLER_ROTATE_SPEED,\n this.controllers?.rotateSpeed ?? DEFAULT_CONTROLLER_ROTATE_SPEED,\n this.controllers?.rollSpeed ?? DEFAULT_CONTROLLER_ROLL_SPEED,\n ),\n );\n\n if (rotate.manhattanLength() > 0.0) {\n rotate.multiplyScalar(deltaTime);\n const eulers = new THREE.Euler(-rotate.y, -rotate.x, rotate.z, \"YXZ\");\n const quat = new THREE.Quaternion().setFromEuler(eulers);\n\n const pivot = camera.getWorldPosition(new THREE.Vector3());\n cameraFrame.parent?.worldToLocal(pivot);\n\n cameraFrame.position.sub(pivot);\n cameraFrame.position.applyQuaternion(quat);\n cameraFrame.position.add(pivot);\n cameraFrame.quaternion.premultiply(quat);\n }\n\n const move = (this.controllers?.getMove ?? DEFAULT_CONTROLLER_GETMOVE)(\n xrGamepads,\n this,\n );\n\n let moveSpeed =\n this.controllers?.moveSpeed ?? DEFAULT_CONTROLLER_MOVE_SPEED;\n if (\n (this.controllers?.getFast ?? DEFAULT_CONTROLLER_GETFAST)(\n xrGamepads,\n this,\n )\n ) {\n moveSpeed *= DEFAULT_CONTROLLER_FAST_MULTIPLIER;\n }\n if (\n (this.controllers?.getSlow ?? DEFAULT_CONTROLLER_GETSLOW)(\n xrGamepads,\n this,\n )\n ) {\n moveSpeed *= DEFAULT_CONTROLLER_SLOW_MULTIPLIER;\n }\n\n if (this.controllers?.moveHeading) {\n move.applyQuaternion(camera.quaternion);\n } else if (this.controllers?.moveDirection) {\n SCRATCH_EULER.setFromQuaternion(camera.quaternion, \"YXZ\");\n SCRATCH_EULER.x = 0;\n SCRATCH_EULER.z = 0;\n SCRATCH_QUAT_A.setFromEuler(SCRATCH_EULER);\n move.applyQuaternion(SCRATCH_QUAT_A);\n }\n move.applyQuaternion(cameraFrame.quaternion);\n\n move.multiplyScalar(deltaTime * moveSpeed);\n cameraFrame.position.add(move);\n }\n\n updateHands({ xrFrame }: { xrFrame: XRFrame }) {\n const xrSession = this.renderer.xr.getSession();\n if (!xrSession) {\n return;\n }\n const referenceSpace = this.renderer.xr.getReferenceSpace();\n if (!referenceSpace) {\n return;\n }\n if (!xrFrame.getJointPose) {\n return;\n }\n\n for (const hand of this.hands) {\n if (hand) {\n hand.lastJoints = hand.joints;\n hand.joints = undefined;\n }\n }\n\n for (const inputSource of xrSession.inputSources) {\n if (!inputSource.hand) {\n continue;\n }\n const hand = inputSource.handedness as Hand;\n const xrHand = this.hands[hand === Hand.left ? 0 : 1];\n if (!xrHand) {\n continue;\n }\n\n for (const jointId of JOINT_IDS) {\n const jointSpace = inputSource.hand.get(JointEnum[jointId]);\n if (jointSpace) {\n const jointPose = xrFrame.getJointPose(jointSpace, referenceSpace);\n if (jointPose) {\n const { position, orientation } = jointPose.transform;\n\n if (!xrHand.joints) {\n xrHand.joints = {};\n }\n xrHand.joints[jointId] = {\n position: new THREE.Vector3(position.x, position.y, position.z),\n quaternion: new THREE.Quaternion(\n orientation.x,\n orientation.y,\n orientation.z,\n orientation.w,\n ),\n radius: JOINT_RADIUS[jointId],\n };\n }\n }\n }\n }\n }\n\n makeJointSplats(hand: Hand): JointSplats {\n const mesh = new JointSplats(hand);\n mesh.onFrame = () => {\n const xrHand = this.hands[hand === Hand.left ? 0 : 1];\n const joints = xrHand?.joints;\n mesh.updateJoints(joints);\n };\n return mesh;\n }\n\n snapshotHands(time: number) {\n const hands = [\n this.hands[0]?.snapshotJoints(),\n this.hands[1]?.snapshotJoints(),\n ];\n return { time, hands };\n }\n}\n\ntype JointSnapshot = { pos: number[]; quat: number[]; radius: number };\ntype HandSnapshot = { [key in JointId]?: JointSnapshot };\ntype HandsSnapshot = {\n time: number;\n hands: (HandSnapshot | undefined)[];\n};\n\nconst round4 = (value: number) => Math.round(value * 10000) / 10000;\nconst SCRATCH_EULER = new THREE.Euler(0, 0, 0, \"YXZ\");\nconst SCRATCH_QUAT_A = new THREE.Quaternion();\nconst SCRATCH_QUAT_B = new THREE.Quaternion();\n\nexport function lerpHandsSnapshots(\n snapshots: HandsSnapshot[],\n time: number,\n): HandsSnapshot | null {\n if (!snapshots.length) {\n return null;\n }\n\n const first = snapshots[0];\n const last = snapshots[snapshots.length - 1];\n\n if (time < first.time || time > last.time) {\n return null;\n }\n\n const floorIndex = findSnapshotFloorIndex(snapshots, time);\n if (floorIndex === -1) {\n return null;\n }\n\n const from = snapshots[floorIndex];\n const to = snapshots[floorIndex + 1];\n if (!to) {\n return cloneSnapshot(from, time);\n }\n\n const span = to.time - from.time;\n const factor = span > 0 ? (time - from.time) / span : 0;\n\n return interpolateSnapshots(from, to, factor, time);\n}\n\nfunction interpolateSnapshots(\n from: HandsSnapshot,\n to: HandsSnapshot,\n factor: number,\n time: number,\n): HandsSnapshot {\n const maxHands = Math.max(from.hands.length, to.hands.length);\n const hands = Array.from({ length: maxHands }, (_, handIndex) =>\n lerpHandSnapshot(from.hands[handIndex], to.hands[handIndex], factor),\n );\n return { time, hands };\n}\n\nfunction cloneSnapshot(snapshot: HandsSnapshot, time: number): HandsSnapshot {\n return {\n time,\n hands: snapshot.hands.map((hand) => cloneHandSnapshot(hand)),\n };\n}\n\nexport class XrHand {\n hand: Hand;\n joints?: HandJoints;\n lastJoints?: HandJoints;\n\n constructor(hand: Hand) {\n this.hand = hand;\n }\n\n static newFromSnapshot(hand: Hand, snapshot: HandSnapshot) {\n const h = new XrHand(hand);\n h.joints = {};\n for (const jointId of JOINT_IDS) {\n const joint = snapshot[jointId];\n if (!joint) {\n continue;\n }\n h.joints[jointId] = {\n position: new THREE.Vector3(joint.pos[0], joint.pos[1], joint.pos[2]),\n quaternion: new THREE.Quaternion(\n joint.quat[0],\n joint.quat[1],\n joint.quat[2],\n joint.quat[3],\n ),\n radius: joint.radius,\n };\n }\n return h;\n }\n\n valid() {\n return !!this.joints;\n }\n\n snapshotJoints() {\n if (!this.joints) {\n return undefined;\n }\n\n const snapshot: HandSnapshot = {};\n for (const jointId of JOINT_IDS) {\n const joint = this.joints[jointId];\n if (!joint) {\n continue;\n }\n snapshot[jointId] = {\n pos: joint.position.toArray().map(round4),\n quat: joint.quaternion.toArray().map(round4),\n radius: round4(joint.radius),\n };\n }\n return snapshot;\n }\n\n toFlatArray() {\n if (!this.joints) {\n return undefined;\n }\n const array = new Float32Array(1 + 25 * 7);\n array[0] = this.hand === Hand.left ? 0 : 1;\n let index = 1;\n for (const jointId of JOINT_IDS) {\n const joint = this.joints[jointId];\n if (joint) {\n array[index] = joint.position.x;\n array[index + 1] = joint.position.y;\n array[index + 2] = joint.position.z;\n array[index + 3] = joint.quaternion.x;\n array[index + 4] = joint.quaternion.y;\n array[index + 5] = joint.quaternion.z;\n array[index + 6] = joint.quaternion.w;\n }\n index += 7;\n }\n return array;\n }\n}\n\nfunction findSnapshotFloorIndex(snapshots: HandsSnapshot[], time: number) {\n let low = 0;\n let high = snapshots.length - 1;\n while (low <= high) {\n const mid = (low + high) >> 1;\n if (snapshots[mid].time <= time) {\n low = mid + 1;\n } else {\n high = mid - 1;\n }\n }\n return high;\n}\n\nfunction lerpHandSnapshot(\n fromHand?: HandSnapshot,\n toHand?: HandSnapshot,\n factor = 0,\n) {\n if (!fromHand || !toHand) {\n return undefined;\n }\n const hand: HandSnapshot = {};\n for (const jointId of JOINT_IDS) {\n const joint = lerpJointSnapshot(fromHand[jointId], toHand[jointId], factor);\n if (joint) {\n hand[jointId] = joint;\n }\n }\n return hand;\n}\n\nfunction lerpJointSnapshot(\n fromJoint?: JointSnapshot,\n toJoint?: JointSnapshot,\n factor = 0,\n) {\n if (!fromJoint || !toJoint) {\n return undefined;\n }\n const pos = fromJoint.pos.map(\n (value, index) => value + (toJoint.pos[index] - value) * factor,\n );\n const quat = SCRATCH_QUAT_A.fromArray(fromJoint.quat)\n .slerp(SCRATCH_QUAT_B.fromArray(toJoint.quat), factor)\n .toArray();\n const radius =\n fromJoint.radius + (toJoint.radius - fromJoint.radius) * factor;\n\n return { pos, quat, radius };\n}\n\nfunction cloneHandSnapshot(hand?: HandSnapshot) {\n if (!hand) {\n return undefined;\n }\n const clone: HandSnapshot = {};\n for (const jointId of JOINT_IDS) {\n const joint = hand[jointId];\n if (joint) {\n clone[jointId] = cloneJointSnapshot(joint);\n }\n }\n return clone;\n}\n\nfunction cloneJointSnapshot(joint: JointSnapshot): JointSnapshot {\n return {\n pos: [...joint.pos],\n quat: [...joint.quat],\n radius: joint.radius,\n };\n}\n\nexport class JointSplats extends SplatMesh {\n hand: Hand;\n\n constructor(hand: Hand) {\n super({});\n this.hand = hand;\n }\n\n private scratchCenter = new THREE.Vector3();\n private scratchQuat = new THREE.Quaternion(0, 0, 0, 1);\n private scratchScales = new THREE.Vector3().setScalar(0.01);\n private scratchColor = new THREE.Color(1, 1, 1);\n\n updateJoints(joints?: HandJoints) {\n this.visible = false;\n\n if (!joints || !this.packedSplats) {\n return;\n }\n\n this.visible = true;\n let splatIndex = 0;\n\n for (const jointId of JOINT_IDS) {\n const joint = joints[jointId];\n if (!joint) {\n continue;\n }\n this.scratchCenter.copy(joint.position);\n this.scratchQuat.copy(joint.quaternion);\n this.scratchScales.set(\n joint.radius,\n 0.75 * joint.radius,\n 1.5 * joint.radius,\n );\n // this.scratchColor.set((joint.radius * 123) % 1, (joint.radius * 345) % 1, (joint.radius * 234) % 1);\n const opacity = 0.75;\n\n this.packedSplats.setSplat(\n splatIndex,\n this.scratchCenter,\n this.scratchScales,\n this.scratchQuat,\n opacity,\n this.scratchColor,\n );\n splatIndex += 1;\n }\n\n this.packedSplats.numSplats = splatIndex;\n this.packedSplats.needsUpdate = true;\n this.numSplats = splatIndex;\n this.updateVersion();\n }\n}\n","import {\n Color,\n Matrix4,\n type Object3D,\n Quaternion,\n Vector3,\n type WebXRManager,\n} from \"three\";\nimport { SplatMesh } from \"./SplatMesh\";\n\n// Experimental WebXR hand tracking and movement\n\nconst DEFAULT_MOVE_INERTIA = 0.5;\nconst DEFAULT_ROTATE_INERTIA = 0.5;\nconst TOUCH_BIAS = 0.0;\n\nexport enum JointEnum {\n w = \"wrist\",\n t0 = \"thumb-metacarpal\",\n t1 = \"thumb-phalanx-proximal\",\n t2 = \"thumb-phalanx-distal\",\n t3 = \"thumb-tip\",\n i0 = \"index-finger-metacarpal\",\n i1 = \"index-finger-phalanx-proximal\",\n i2 = \"index-finger-phalanx-intermediate\",\n i3 = \"index-finger-phalanx-distal\",\n i4 = \"index-finger-tip\",\n m0 = \"middle-finger-metacarpal\",\n m1 = \"middle-finger-phalanx-proximal\",\n m2 = \"middle-finger-phalanx-intermediate\",\n m3 = \"middle-finger-phalanx-distal\",\n m4 = \"middle-finger-tip\",\n r0 = \"ring-finger-metacarpal\",\n r1 = \"ring-finger-phalanx-proximal\",\n r2 = \"ring-finger-phalanx-intermediate\",\n r3 = \"ring-finger-phalanx-distal\",\n r4 = \"ring-finger-tip\",\n p0 = \"pinky-finger-metacarpal\",\n p1 = \"pinky-finger-phalanx-proximal\",\n p2 = \"pinky-finger-phalanx-intermediate\",\n p3 = \"pinky-finger-phalanx-distal\",\n p4 = \"pinky-finger-tip\",\n}\nexport type JointId = keyof typeof JointEnum;\nexport const JOINT_IDS = Object.keys(JointEnum) as JointId[];\nexport const NUM_JOINTS = JOINT_IDS.length;\n\nexport const JOINT_INDEX: { [key in JointId]: number } = {\n w: 0,\n t0: 1,\n t1: 2,\n t2: 3,\n t3: 4,\n i0: 5,\n i1: 6,\n i2: 7,\n i3: 8,\n i4: 9,\n m0: 10,\n m1: 11,\n m2: 12,\n m3: 13,\n m4: 14,\n r0: 15,\n r1: 16,\n r2: 17,\n r3: 18,\n r4: 19,\n p0: 20,\n p1: 21,\n p2: 22,\n p3: 23,\n p4: 24,\n};\n\nexport const JOINT_RADIUS: { [key in JointId]: number } = {\n w: 0.02,\n t0: 0.02,\n t1: 0.014,\n t2: 0.0115,\n t3: 0.0085,\n i0: 0.022,\n i1: 0.012,\n i2: 0.0085,\n i3: 0.0075,\n i4: 0.0065,\n m0: 0.021,\n m1: 0.012,\n m2: 0.008,\n m3: 0.0075,\n m4: 0.0065,\n r0: 0.019,\n r1: 0.011,\n r2: 0.0075,\n r3: 0.007,\n r4: 0.006,\n p0: 0.012,\n p1: 0.01,\n p2: 0.007,\n p3: 0.0065,\n p4: 0.0055,\n};\n\nexport const JOINT_SEGMENTS: JointId[][] = [\n [\"w\", \"t0\", \"t1\", \"t2\", \"t3\"],\n [\"w\", \"i0\", \"i1\", \"i2\", \"i3\", \"i4\"],\n [\"w\", \"m0\", \"m1\", \"m2\", \"m3\", \"m4\"],\n [\"w\", \"r0\", \"r1\", \"r2\", \"r3\", \"r4\"],\n [\"w\", \"p0\", \"p1\", \"p2\", \"p3\", \"p4\"],\n];\n\nexport const JOINT_SEGMENT_STEPS: number[][] = [\n [8, 10, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n [8, 19, 14, 8, 6],\n];\n\nexport const JOINT_TIPS: JointId[] = [\"t3\", \"i4\", \"m4\", \"r4\", \"p4\"];\nexport const FINGER_TIPS: JointId[] = [\"i4\", \"m4\", \"r4\", \"p4\"];\n\nexport enum Hand {\n left = \"left\",\n right = \"right\",\n}\nexport const HANDS = Object.keys(Hand) as Hand[];\n\nexport type Joint = {\n position: Vector3;\n quaternion: Quaternion;\n radius: number;\n};\n\nexport type HandJoints = { [key in JointId]?: Joint };\nexport type HandsJoints = { [key in Hand]?: HandJoints };\n\nexport class XrHands {\n hands: HandsJoints = {};\n last: HandsJoints = {};\n\n values: Record = {};\n tests: Record = {};\n lastTests: Record = {};\n\n updated = false;\n\n update({ xr, xrFrame }: { xr: WebXRManager; xrFrame: XRFrame }) {\n const xrSession = xr.getSession();\n if (!xrSession) {\n return;\n }\n const referenceSpace = xr.getReferenceSpace();\n if (!referenceSpace) {\n return;\n }\n if (!xrFrame.getJointPose) {\n return;\n }\n\n this.last = this.hands;\n this.lastTests = this.tests;\n\n this.hands = {};\n this.values = {};\n this.tests = {};\n\n for (const inputSource of xrSession.inputSources) {\n if (!inputSource.hand) {\n continue;\n }\n\n const hand = inputSource.handedness as Hand;\n this.hands[hand] = {};\n\n // Iterate over JointId\n for (const jointId of JOINT_IDS) {\n const jointSpace = inputSource.hand.get(JointEnum[jointId]);\n if (jointSpace) {\n const jointPose = xrFrame.getJointPose(jointSpace, referenceSpace);\n if (jointPose) {\n const { position, orientation } = jointPose.transform;\n this.hands[hand][jointId] = {\n position: new Vector3(position.x, position.y, position.z),\n quaternion: new Quaternion(\n orientation.x,\n orientation.y,\n orientation.z,\n orientation.w,\n ),\n radius: jointPose.radius || 0.001,\n };\n }\n }\n }\n }\n\n for (const hand of HANDS) {\n for (const { key, value } of [\n { key: `${hand}AllTips`, value: this.allTipsTouching(hand) },\n {\n key: `${hand}IndexThumb`,\n value: this.touching(hand, \"i4\", hand, \"t3\"),\n },\n {\n key: `${hand}MiddleThumb`,\n value: this.touching(hand, \"m4\", hand, \"t3\"),\n },\n {\n key: `${hand}RingThumb`,\n value: this.touching(hand, \"r4\", hand, \"t3\"),\n },\n {\n key: `${hand}PinkyThumb`,\n value: this.touching(hand, \"p4\", hand, \"t3\"),\n },\n { key: `${hand}TriTips`, value: this.triTipsTouching(hand) },\n ]) {\n this.values[key] = value;\n this.tests[key] =\n value === 1.0\n ? true\n : value === 0.0\n ? false\n : (this.lastTests[key] ?? false);\n }\n }\n }\n\n makeGhostMesh(): SplatMesh {\n const center = new Vector3();\n const scales = new Vector3(0.01, 0.01, 0.01);\n const quaternion = new Quaternion(0, 0, 0, 1);\n const color = new Color(1, 1, 1);\n const CYCLE = Math.PI * 3;\n const WHITE = new Color(1, 1, 1);\n let opacity = 1.0;\n\n const mesh = new SplatMesh({\n onFrame: () => {\n if (!mesh.packedSplats) {\n return;\n }\n let splatIndex = 0;\n for (const handedness of HANDS) {\n const xrHand = this.hands[handedness];\n for (const [index, segment] of JOINT_SEGMENTS.entries()) {\n for (let i = 1; i < segment.length; ++i) {\n const segmentSplats = JOINT_SEGMENT_STEPS[index][i - 1] * 2;\n const lastSegment = i + 1 === segment.length;\n const jointA = xrHand?.[segment[i - 1]];\n const jointB = xrHand?.[segment[i]];\n\n for (let j = 0; j < segmentSplats; ++j) {\n const t = (j + 0.5) / segmentSplats;\n opacity = 0.0;\n if (jointA && jointB) {\n center.copy(jointA.position).lerp(jointB.position, t);\n quaternion\n .copy(jointA.quaternion)\n .slerp(jointB.quaternion, t);\n const radiusA = JOINT_RADIUS[segment[i - 1]];\n const radiusB = JOINT_RADIUS[segment[i]];\n let radius = (1 - t) * radiusA + t * radiusB;\n if (lastSegment && t > 0.8) {\n // Round out finger tips\n radius *= Math.sqrt(1 - ((t - 0.8) / 0.2) ** 2);\n }\n scales.set(0.65 * radius, 0.5 * radius, 0.003);\n color.set(\n 0.55 + 0.45 * Math.sin(center.x * CYCLE),\n 0.55 + 0.45 * Math.sin(center.y * CYCLE),\n 0.55 + 0.45 * Math.sin(center.z * CYCLE),\n );\n if (handedness === \"right\") {\n color.set(1 - color.r, 1 - color.g, 1 - color.b);\n }\n opacity = 0.75;\n }\n mesh.packedSplats.setSplat(\n splatIndex,\n center,\n scales,\n quaternion,\n opacity,\n color,\n );\n splatIndex += 1;\n }\n }\n }\n }\n mesh.packedSplats.numSplats = splatIndex;\n mesh.packedSplats.needsUpdate = true;\n mesh.numSplats = splatIndex;\n mesh.updateVersion();\n },\n });\n return mesh;\n }\n\n distance(\n handA: Hand,\n jointA: JointId,\n handB: Hand,\n jointB: JointId,\n last = false,\n ): number {\n const hA = last ? this.last[handA] : this.hands[handA];\n const hB = last ? this.last[handB] : this.hands[handB];\n const jA = hA?.[jointA];\n const jB = hB?.[jointB];\n if (!jA || !jB) {\n return Number.POSITIVE_INFINITY;\n }\n return jA.position.distanceTo(jB.position);\n }\n\n separation(\n handA: Hand,\n jointA: JointId,\n handB: Hand,\n jointB: JointId,\n last = false,\n ): number {\n const d = this.distance(handA, jointA, handB, jointB, last);\n if (d === Number.POSITIVE_INFINITY) {\n return Number.POSITIVE_INFINITY;\n }\n return d - JOINT_RADIUS[jointA] - JOINT_RADIUS[jointB];\n }\n\n touching(\n handA: Hand,\n jointA: JointId,\n handB: Hand,\n jointB: JointId,\n last = false,\n ): number {\n const d = this.separation(handA, jointA, handB, jointB, last);\n if (d === Number.POSITIVE_INFINITY) {\n return Number.POSITIVE_INFINITY;\n }\n return 1 - Math.max(0, Math.min(1, d / 0.01 - TOUCH_BIAS));\n }\n\n allTipsTouching(hand: Hand, last = false): number {\n return Math.min(\n this.touching(hand, \"t3\", hand, \"i4\", last),\n this.touching(hand, \"i4\", hand, \"m4\", last),\n this.touching(hand, \"m4\", hand, \"r4\", last),\n this.touching(hand, \"r4\", hand, \"p4\", last),\n // this.touching(hand, \"p4\", hand, \"t3\", last),\n );\n }\n\n triTipsTouching(hand: Hand, last = false): number {\n return Math.min(\n this.touching(hand, \"t3\", hand, \"i4\", last),\n this.touching(hand, \"i4\", hand, \"m4\", last),\n this.touching(hand, \"m4\", hand, \"t3\", last),\n );\n }\n}\n\nexport class HandMovement {\n xrHands: XrHands;\n control: Object3D;\n moveInertia: number;\n rotateInertia: number;\n\n lastGrip: { [key in Hand]?: Vector3 } = {};\n lastPivot: Vector3 = new Vector3();\n rotateVelocity = 0;\n velocity: Vector3 = new Vector3();\n\n constructor({\n xrHands,\n control,\n moveInertia,\n rotateInertia,\n }: {\n xrHands: XrHands;\n control: Object3D;\n moveInertia?: number;\n rotateInertia?: number;\n }) {\n this.xrHands = xrHands;\n this.control = control;\n this.moveInertia = moveInertia ?? DEFAULT_MOVE_INERTIA;\n this.rotateInertia = rotateInertia ?? DEFAULT_ROTATE_INERTIA;\n }\n\n update(deltaTime: number) {\n const grip: { [key in Hand]?: Vector3 } = {};\n for (const handedness of HANDS) {\n const hand = this.xrHands.hands[handedness];\n if (hand && this.xrHands.tests[`${handedness}MiddleThumb`]) {\n grip[handedness] = new Vector3()\n .add(hand.t3?.position ?? new Vector3())\n .add(hand.i4?.position ?? new Vector3())\n .add(hand.m4?.position ?? new Vector3())\n .add(hand.r4?.position ?? new Vector3())\n .add(hand.p4?.position ?? new Vector3())\n .multiplyScalar(1 / 5);\n }\n }\n\n if (grip.left && grip.right && this.lastGrip.left && this.lastGrip.right) {\n const mid = grip.left.clone().add(grip.right).multiplyScalar(0.5);\n const lastMid = this.lastGrip.left\n .clone()\n .add(this.lastGrip.right)\n .multiplyScalar(0.5);\n this.lastPivot = mid;\n\n const delta = mid.clone().applyMatrix4(this.control.matrix);\n delta.sub(lastMid.clone().applyMatrix4(this.control.matrix));\n delta.multiplyScalar(1 / deltaTime);\n this.velocity.lerp(delta, 1 - Math.exp(-20 * deltaTime));\n\n const angle = Math.atan2(grip.left.z - mid.z, grip.left.x - mid.x);\n const lastAngle = Math.atan2(\n this.lastGrip.left.z - lastMid.z,\n this.lastGrip.left.x - lastMid.x,\n );\n // Find closest rotation over circle between angle and lastAngle\n let closestAngle = angle - lastAngle;\n if (closestAngle > Math.PI) {\n closestAngle -= Math.PI * 2;\n } else if (closestAngle < -Math.PI) {\n closestAngle += Math.PI * 2;\n }\n const rotateVelocity = closestAngle / deltaTime;\n\n const blend = Math.exp(-20 * deltaTime);\n this.rotateVelocity =\n this.rotateVelocity * blend + rotateVelocity * (1 - blend);\n } else {\n this.rotateVelocity *= Math.exp(-deltaTime / this.rotateInertia);\n\n if (grip.left && this.lastGrip.left) {\n const delta = grip.left.clone().applyMatrix4(this.control.matrix);\n delta.sub(this.lastGrip.left.clone().applyMatrix4(this.control.matrix));\n delta.multiplyScalar(1 / deltaTime);\n this.velocity.lerp(delta, 1 - Math.exp(-20 * deltaTime));\n } else if (grip.right && this.lastGrip.right) {\n const delta = grip.right.clone().applyMatrix4(this.control.matrix);\n delta.sub(\n this.lastGrip.right.clone().applyMatrix4(this.control.matrix),\n );\n delta.multiplyScalar(1 / deltaTime);\n this.velocity.lerp(delta, 1 - Math.exp(-20 * deltaTime));\n } else {\n this.velocity.multiplyScalar(Math.exp(-deltaTime / this.moveInertia));\n }\n }\n\n const negPivot = this.lastPivot.clone().negate();\n const rotate = new Matrix4()\n .makeTranslation(negPivot)\n .premultiply(new Matrix4().makeRotationY(this.rotateVelocity * deltaTime))\n .premultiply(new Matrix4().makeTranslation(this.lastPivot));\n this.control.matrix.multiply(rotate);\n this.control.matrix.decompose(\n this.control.position,\n this.control.quaternion,\n this.control.scale,\n );\n this.control.updateMatrixWorld(true);\n\n this.control.position.sub(this.velocity.clone().multiplyScalar(deltaTime));\n this.lastGrip = grip;\n }\n}\n","import * as THREE from \"three\";\nimport { isAndroid, isIos } from \"./utils\";\n\n// Spark controls for keyboard + mouse, game pad, or mobile multi-touch\n\nconst DEFAULT_MOVEMENT_SPEED = 1.0;\nconst DEFAULT_ROLL_SPEED = 2.0;\nconst DEFAULT_ROTATE_SPEED = 0.002;\nconst DEFAULT_SLIDE_SPEED = 0.006;\nconst DEFAULT_SCROLL_SPEED = 0.0015;\nconst DEFAULT_ROLL_SPRING = 0.0;\nconst DEFAULT_ROTATE_INERTIA = 0.15;\nconst DEFAULT_MOVE_INERTIA = 0.15;\nconst DEFAULT_STICK_THRESHOLD = 0.1;\nconst DEFAULT_FPS_ROTATE_SPEED = 2.0;\n// const DEFAULT_POINTER_ROLL_SCALE = 1.0;\nconst DEFAULT_POINTER_ROLL_SCALE = 0.0;\nconst DEFAULT_PRESS_MOVE_DELAY_MS = 500;\nconst DEFAULT_PRESS_MOVE_ACCEL_MS = 500;\n\n// Time limit for double-finger press (pinch etc)\nconst DUAL_PRESS_MS = 200;\n// Time limit for double-click/double-tap\nconst DOUBLE_PRESS_LIMIT_MS = 400;\n// Distance limit for double-click.\nconst DOUBLE_PRESS_DISTANCE = 25;\n\nconst MOVEMENT_THRESHOLD = 1.0e-4;\n\n// Standard WASD movement keys with R+F for up/down\nconst WASD_KEYCODE_MOVE = {\n KeyW: new THREE.Vector3(0, 0, -1),\n KeyS: new THREE.Vector3(0, 0, 1),\n KeyA: new THREE.Vector3(-1, 0, 0),\n KeyD: new THREE.Vector3(1, 0, 0),\n KeyE: new THREE.Vector3(0, 1, 0),\n KeyQ: new THREE.Vector3(0, -1, 0),\n};\n\n// Arrow key movement with PageUp/PageDown\nconst ARROW_KEYCODE_MOVE = {\n ArrowUp: new THREE.Vector3(0, 0, -1),\n ArrowDown: new THREE.Vector3(0, 0, 1),\n ArrowLeft: new THREE.Vector3(-1, 0, 0),\n ArrowRight: new THREE.Vector3(1, 0, 0),\n PageUp: new THREE.Vector3(0, 1, 0),\n PageDown: new THREE.Vector3(0, -1, 0),\n};\n\n// Rolling with Q/E\nconst QE_KEYCODE_ROTATE = {\n KeyQ: new THREE.Vector3(0, 0, 1),\n KeyE: new THREE.Vector3(0, 0, -1),\n};\n\n// Home/End/Insert/Delete for rotation\nconst ARROW_KEYCODE_ROTATE = {\n Home: new THREE.Vector3(0, -1, 0),\n End: new THREE.Vector3(0, 1, 0),\n Insert: new THREE.Vector3(-1, 0, 0),\n Delete: new THREE.Vector3(1, 0, 0),\n};\n\n// SparkControls provides simple, intuitive controls for navigating 3D space that\n// use the keyboard + mouse, game pad, or mobile multi-touch. Internally it\n// instantiates and updates a `FpsMovement` and `PointerControls` instance.\n\nexport class SparkControls {\n fpsMovement: FpsMovement;\n pointerControls: PointerControls;\n lastTime = 0;\n\n constructor({ canvas }: { canvas: HTMLCanvasElement }) {\n this.fpsMovement = new FpsMovement({});\n this.pointerControls = new PointerControls({ canvas });\n }\n\n update(control: THREE.Object3D, camera?: THREE.Camera) {\n const time = performance.now();\n const deltaTime = (time - (this.lastTime || time)) / 1000;\n this.lastTime = time;\n\n let updated = this.fpsMovement.update(deltaTime, control);\n if (this.pointerControls.update(deltaTime, control, camera)) {\n updated = true;\n }\n return updated;\n }\n}\n\n// FpsMovement implements controls that will be familiar to anyone who plays\n// First Person Shooters using keyboard + mouse or a gamepad. Creating a FpsMovement\n// instance provides many parameters for configuring the controls.\n//\n// When gamepads are connected, FpsMovement will always use gamepad index 0\n// for twin-stick movement and rotation.\n//\n// If xr is passed in, the WebXR controllers can be used as a split gamepad\n// to control movement and rotation. (tested on Quest 3)\n\nexport class FpsMovement {\n moveSpeed: number;\n rollSpeed: number;\n stickThreshold: number;\n rotateSpeed: number;\n keycodeMoveMapping: { [key: string]: THREE.Vector3 };\n keycodeRotateMapping: { [key: string]: THREE.Vector3 };\n gamepadMapping: {\n [button: number]: \"shift\" | \"ctrl\" | \"rollLeft\" | \"rollRight\";\n };\n capsMultiplier: number;\n shiftMultiplier: number;\n ctrlMultiplier: number;\n xr?: THREE.WebXRManager;\n // Enable/disable controls updates\n enable = true;\n extraMove = new THREE.Vector3();\n\n // Currently active event.key values\n keydown: { [key: string]: boolean };\n // Currently active event.code values\n keycode: { [key: string]: boolean };\n\n constructor({\n moveSpeed,\n rollSpeed,\n stickThreshold,\n rotateSpeed,\n keycodeMoveMapping,\n keycodeRotateMapping,\n gamepadMapping,\n capsMultiplier,\n shiftMultiplier,\n ctrlMultiplier,\n xr,\n }: {\n // Base movement speed (default DEFAULT_MOVEMENT_SPEED)\n moveSpeed?: number;\n // Base roll speed (default DEFAULT_ROLL_SPEED)\n rollSpeed?: number;\n // Stick threshold (default DEFAULT_STICK_THRESHOLD)\n stickThreshold?: number;\n // Speed of rotation when using gamepad or keys (default DEFAULT_FPS_ROTATE_SPEED)\n rotateSpeed?: number;\n // Maps keyboard keys to movement directions\n // (default {...WASD_KEYCODE_MOVE, ...ARROW_KEYCODE_MOVE})\n keycodeMoveMapping?: { [key: string]: THREE.Vector3 };\n // Maps keyboard keys to rotation directions\n // (default { ...ARROW_KEYCODE_ROTATE})\n keycodeRotateMapping?: { [key: string]: THREE.Vector3 };\n // Maps gamepad buttons to control actions\n // (default {4: \"rollLeft\", 5: \"rollRight\", 6: \"ctrl\", 7: \"shift\"})\n gamepadMapping?: {\n [button: number]: \"shift\" | \"ctrl\" | \"rollLeft\" | \"rollRight\";\n };\n // Speed multiplier when Caps Lock is active (default: 10)\n capsMultiplier?: number;\n // Speed multiplier when Shift is active (default: 5)\n shiftMultiplier?: number;\n // Speed multiplier when Ctrl is active (default: 1/5)\n ctrlMultiplier?: number;\n // Optional WebXR manager for XR controller stick support\n xr?: THREE.WebXRManager;\n } = {}) {\n this.moveSpeed = moveSpeed ?? DEFAULT_MOVEMENT_SPEED;\n this.rollSpeed = rollSpeed ?? DEFAULT_ROLL_SPEED;\n this.stickThreshold = stickThreshold ?? DEFAULT_STICK_THRESHOLD;\n this.rotateSpeed = rotateSpeed ?? DEFAULT_FPS_ROTATE_SPEED;\n this.keycodeMoveMapping = keycodeMoveMapping ?? {\n ...WASD_KEYCODE_MOVE,\n ...ARROW_KEYCODE_MOVE,\n };\n this.keycodeRotateMapping = keycodeRotateMapping ?? {\n // ...QE_KEYCODE_ROTATE,\n ...ARROW_KEYCODE_ROTATE,\n };\n this.gamepadMapping = gamepadMapping ?? {\n 4: \"rollLeft\",\n 5: \"rollRight\",\n 6: \"ctrl\",\n 7: \"shift\",\n };\n this.capsMultiplier = capsMultiplier ?? 10.0;\n this.shiftMultiplier = shiftMultiplier ?? 5.0;\n this.ctrlMultiplier = ctrlMultiplier ?? 1.0 / 5.0;\n\n this.xr = xr;\n\n this.keydown = {};\n this.keycode = {};\n\n document.addEventListener(\"keydown\", (event) => {\n this.keydown[event.key] = true;\n this.keycode[event.code] = true;\n });\n document.addEventListener(\"keyup\", (event) => {\n this.keydown[event.key] = false;\n this.keycode[event.code] = false;\n });\n window.addEventListener(\"blur\", () => {\n this.keydown = {};\n this.keycode = {};\n });\n }\n\n // Call this method in your render loop with `control` set to the object to control\n // (`THREE.Camera` or a `THREE.Object3D` that contains it), with `deltaTime`\n // in seconds since the last update.\n update(deltaTime: number, control: THREE.Object3D) {\n if (!this.enable) {\n return false;\n }\n\n // Update gamepad / XR controllers\n\n const sticks = [new THREE.Vector2(), new THREE.Vector2()];\n const gamepad = navigator.getGamepads()[0];\n if (gamepad) {\n sticks[0].set(gamepad.axes[0], gamepad.axes[1]);\n sticks[1].set(gamepad.axes[2], gamepad.axes[3]);\n }\n const gamepadButtons =\n gamepad?.buttons.map((button) => button.pressed) || [];\n\n const xrSources = Array.from(this.xr?.getSession()?.inputSources ?? []);\n for (const source of xrSources) {\n const gamepad = source.gamepad;\n if (gamepad) {\n switch (source.handedness) {\n case \"none\": {\n sticks[0].x += gamepad.axes[0];\n sticks[0].y += gamepad.axes[1];\n sticks[1].x += gamepad.axes[2];\n sticks[1].y += gamepad.axes[3];\n break;\n }\n case \"left\": {\n sticks[0].x += gamepad.axes[2];\n sticks[0].y += gamepad.axes[3];\n break;\n }\n case \"right\": {\n sticks[1].x += gamepad.axes[2];\n sticks[1].y += gamepad.axes[3];\n break;\n }\n }\n }\n }\n\n for (const stick of sticks) {\n stick.x = Math.abs(stick.x) >= this.stickThreshold ? stick.x : 0;\n stick.y = Math.abs(stick.y) >= this.stickThreshold ? stick.y : 0;\n }\n\n // Rotation\n\n const rotate = new THREE.Vector3(\n sticks[1].x,\n sticks[1].y,\n 0,\n ).multiplyScalar(this.rotateSpeed);\n\n for (const [keycode, rot] of Object.entries(this.keycodeRotateMapping)) {\n if (this.keycode[keycode]) {\n rotate.add(rot);\n }\n }\n for (const button in this.gamepadMapping) {\n if (gamepadButtons[Number.parseInt(button)]) {\n switch (this.gamepadMapping[button]) {\n case \"rollLeft\":\n rotate.z += 1;\n break;\n case \"rollRight\":\n rotate.z -= 1;\n break;\n }\n }\n }\n\n rotate.multiply(\n new THREE.Vector3(this.rotateSpeed, this.rotateSpeed, this.rollSpeed),\n );\n\n let updated = rotate.length() > MOVEMENT_THRESHOLD;\n\n if (rotate.manhattanLength() > 0.0) {\n rotate.multiplyScalar(deltaTime);\n const eulers = new THREE.Euler().setFromQuaternion(\n control.quaternion,\n \"YXZ\",\n );\n eulers.y -= rotate.x;\n eulers.x = Math.max(\n -Math.PI / 2,\n Math.min(Math.PI / 2, eulers.x - rotate.y),\n );\n eulers.z = Math.max(-Math.PI, Math.min(Math.PI, eulers.z + rotate.z));\n control.quaternion.setFromEuler(eulers);\n }\n\n // Movement\n\n const moveVector = new THREE.Vector3(sticks[0].x, 0, sticks[0].y);\n moveVector.add(this.extraMove);\n\n for (const [keycode, move] of Object.entries(this.keycodeMoveMapping)) {\n if (this.keycode[keycode]) {\n moveVector.add(move);\n }\n }\n\n let speedMultiplier = 1.0;\n if (this.keydown.CapsLock) {\n speedMultiplier *= this.capsMultiplier;\n }\n if (this.keycode.ShiftLeft || this.keycode.ShiftRight) {\n speedMultiplier *= this.shiftMultiplier;\n }\n if (this.keycode.ControlLeft || this.keycode.ControlRight) {\n speedMultiplier *= this.ctrlMultiplier;\n }\n for (const button in this.gamepadMapping) {\n if (gamepadButtons[Number.parseInt(button)]) {\n switch (this.gamepadMapping[button]) {\n case \"shift\":\n speedMultiplier *= this.shiftMultiplier;\n break;\n case \"ctrl\":\n speedMultiplier *= this.ctrlMultiplier;\n break;\n }\n }\n }\n\n if (moveVector.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n\n // Apply movement in view direction\n moveVector.applyQuaternion(control.quaternion);\n control.position.add(\n moveVector.multiplyScalar(this.moveSpeed * speedMultiplier * deltaTime),\n );\n\n return updated;\n }\n}\n\ntype PointerState = {\n initial: THREE.Vector2;\n last: THREE.Vector2;\n position: THREE.Vector2;\n pointerId: number;\n button?: number;\n timeStamp: DOMHighResTimeStamp;\n};\n\n// `PointerControls` implements pointer/mouse/touch controls on the canvas,\n// for both desktop and mobile web applications.\n\nexport class PointerControls {\n canvas: HTMLCanvasElement;\n rotateSpeed: number;\n slideSpeed: number;\n scrollSpeed: number;\n swapRotateSlide: boolean;\n reverseRotate: boolean;\n reverseSlide: boolean;\n reverseSwipe: boolean;\n reverseScroll: boolean;\n moveInertia: number;\n rotateInertia: number;\n pointerRollScale: number;\n // Enable/disable controls updates\n enable = true;\n\n doublePress: ({\n position,\n intervalMs,\n }: { position: THREE.Vector2; intervalMs: number }) => void;\n // Time limit for double press (default DOUBLE_PRESS_LIMIT_MS)\n doublePressLimitMs: number;\n // Distance limit for double press (default DOUBLE_PRESS_DISTANCE)\n doublePressDistance: number;\n\n // Time delay in ms for press move to start\n pressMoveDelayMs: number;\n // Time in ms for press move to accelerate\n pressMoveAccelMs: number;\n // Speed of movement on press (default: 0)\n pressMoveSpeed: number;\n // Speed of movement on double press (default: pressMoveSpeed * 5.0)\n doublePressMoveSpeed: number;\n // Speed of movement on triple press (default: doublePressMoveSpeed * 5.0)\n triplePressMoveSpeed: number;\n // Whether to move toward the screen center or finger when pressing to move\n pressMoveCenter: boolean;\n pressHeld?: boolean;\n doublePressed?: number;\n triplePressed: boolean;\n // Last pointer up event (default: null)\n lastUp: { position: THREE.Vector2; timeStamp: number } | null;\n lastLastUp: { position: THREE.Vector2; timeStamp: number } | null;\n\n // Pointer state for currently active rotating pointer\n rotating: PointerState | null;\n // Pointer state for currently active sliding pointer\n sliding: PointerState | null;\n // Pointer state for last pointer that downed\n lastDown: PointerState | null;\n // Whether we pressed two pointers at the same time\n dualPress: boolean;\n // Cumulative scroll movement\n scroll: THREE.Vector3;\n\n // Current rotation velocity\n rotateVelocity: THREE.Vector3;\n // Current movement velocity\n moveVelocity: THREE.Vector3;\n\n constructor({\n // The HTML canvas element to attach pointer events to\n canvas,\n // Speed of rotation (default DEFAULT_ROTATE_SPEED)\n rotateSpeed,\n // Speed of sliding when dragging with right/middle mouse button or two fingers\n // (default DEFAULT_SLIDE_SPEED)\n slideSpeed,\n // Speed of movement when using mouse scroll wheel (default DEFAULT_SCROLL_SPEED)\n scrollSpeed,\n // Swap the direction of rotation and sliding (default: false)\n swapRotateSlide,\n // Reverse the direction of rotation (default: false)\n reverseRotate,\n // Reverse the direction of sliding (default: false)\n reverseSlide,\n // Reverse the direction of swipe gestures (default: false)\n reverseSwipe,\n // Reverse the direction of scroll wheel movement (default: false)\n reverseScroll,\n // Inertia factor for movement (default: DEFAULT_MOVE_INERTIA)\n moveInertia,\n // Inertia factor for rotation (default: DEFAULT_ROTATE_INERTIA)\n rotateInertia,\n // Pointer rolling scale factor (default: DEFAULT_POINTER_ROLL_SCALE)\n pointerRollScale,\n // Callback for double press events (default: () => {})\n doublePress,\n // Time delay in ms for press move to start (default: DEFAULT_PRESS_MOVE_DELAY_MS)\n pressMoveDelayMs,\n // Time in ms for press move to accelerate (default: DEFAULT_PRESS_MOVE_ACCEL_MS)\n pressMoveAccelMs,\n // Speed of movement on press (default: 0)\n pressMoveSpeed,\n // Speed of movement on double press (default: pressMoveSpeed * 5.0)\n doublePressMoveSpeed,\n // Speed of movement on triple press (default: doublePressMoveSpeed * 5.0)\n triplePressMoveSpeed,\n // Whether to move toward the screen center or finger when pressing to move (default: true)\n pressMoveCenter,\n }: {\n canvas: HTMLCanvasElement;\n rotateSpeed?: number;\n slideSpeed?: number;\n scrollSpeed?: number;\n swapRotateSlide?: boolean;\n reverseRotate?: boolean;\n reverseSlide?: boolean;\n reverseSwipe?: boolean;\n reverseScroll?: boolean;\n moveInertia?: number;\n rotateInertia?: number;\n pointerRollScale?: number;\n doublePress?: ({\n position,\n intervalMs,\n }: { position: THREE.Vector2; intervalMs: number }) => void;\n pressMoveDelayMs?: number;\n pressMoveAccelMs?: number;\n pressMoveSpeed?: number;\n doublePressMoveSpeed?: number;\n triplePressMoveSpeed?: number;\n pressMoveCenter?: boolean;\n }) {\n this.canvas = canvas;\n this.rotateSpeed = rotateSpeed ?? DEFAULT_ROTATE_SPEED;\n this.slideSpeed = slideSpeed ?? DEFAULT_SLIDE_SPEED;\n this.scrollSpeed = scrollSpeed ?? DEFAULT_SCROLL_SPEED;\n this.swapRotateSlide = swapRotateSlide ?? false;\n this.reverseRotate = reverseRotate ?? (isAndroid() || isIos());\n this.reverseSlide = reverseSlide ?? false;\n this.reverseSwipe = reverseSwipe ?? false;\n this.reverseScroll = reverseScroll ?? false;\n this.moveInertia = moveInertia ?? DEFAULT_MOVE_INERTIA;\n this.rotateInertia = rotateInertia ?? DEFAULT_ROTATE_INERTIA;\n this.pointerRollScale = pointerRollScale ?? DEFAULT_POINTER_ROLL_SCALE;\n\n this.doublePress = doublePress ?? (() => {});\n this.doublePressLimitMs = DOUBLE_PRESS_LIMIT_MS;\n this.doublePressDistance = DOUBLE_PRESS_DISTANCE;\n\n this.pressMoveDelayMs = pressMoveDelayMs ?? DEFAULT_PRESS_MOVE_DELAY_MS;\n this.pressMoveAccelMs = pressMoveAccelMs ?? DEFAULT_PRESS_MOVE_ACCEL_MS;\n this.pressMoveSpeed = pressMoveSpeed ?? 0;\n this.doublePressMoveSpeed =\n doublePressMoveSpeed ?? this.pressMoveSpeed * 5.0;\n this.triplePressMoveSpeed =\n triplePressMoveSpeed ?? this.doublePressMoveSpeed * 5.0;\n this.pressMoveCenter = pressMoveCenter ?? true;\n this.doublePressed = undefined;\n this.triplePressed = false;\n this.lastUp = null;\n this.lastLastUp = null;\n\n this.rotating = null;\n this.sliding = null;\n this.lastDown = null;\n this.dualPress = false;\n this.scroll = new THREE.Vector3();\n\n this.rotateVelocity = new THREE.Vector3();\n this.moveVelocity = new THREE.Vector3();\n\n canvas.addEventListener(\"pointerdown\", (event: PointerEvent) => {\n const position = this.getPointerPosition(event);\n const initial = position.clone();\n const last = position.clone();\n\n // Determine if we're starting a rotation pointer action\n const isRotate =\n (!this.swapRotateSlide &&\n !this.rotating &&\n (event.pointerType !== \"mouse\" || event.button === 0)) ||\n (this.swapRotateSlide &&\n this.sliding &&\n !this.rotating &&\n (event.pointerType !== \"mouse\" || event.button === 1));\n // const isRotate =\n // !this.rotating && (event.pointerType !== \"mouse\" || event.button === 0);\n const { pointerId } = event;\n const timeStamp = performance.now();\n\n if (isRotate) {\n this.rotating = { initial, last, position, pointerId, timeStamp };\n this.lastDown = this.rotating;\n // Capture the pointer so events continue to be delivered even if it leaves the canvas.\n canvas.setPointerCapture(event.pointerId);\n\n this.dualPress = false;\n } else if (!this.sliding) {\n // If it's not a rotation action and we're not yet sliding, the next\n // pointer activates a sliding action\n const button = event.pointerType === \"mouse\" ? event.button : undefined;\n this.sliding = {\n initial,\n last,\n position,\n pointerId,\n button,\n timeStamp,\n };\n this.lastDown = this.sliding;\n // Capture the pointer so events continue to be delivered even if it leaves the canvas.\n canvas.setPointerCapture(event.pointerId);\n\n // Check if we pressed both pointers at roughly the same time\n this.dualPress =\n this.rotating != null &&\n timeStamp - this.rotating.timeStamp < DUAL_PRESS_MS;\n }\n\n if (this.lastUp) {\n const distance = this.lastUp.position.distanceTo(position);\n const intervalMs = timeStamp - this.lastUp.timeStamp;\n if (\n distance < this.doublePressDistance &&\n intervalMs < this.doublePressLimitMs\n ) {\n this.doublePressed = performance.now();\n this.triplePressed = false;\n\n if (this.lastLastUp) {\n const lastDistance = this.lastLastUp.position.distanceTo(\n this.lastUp.position,\n );\n const lastIntervalMs =\n this.lastUp.timeStamp - this.lastLastUp.timeStamp;\n if (\n lastDistance < this.doublePressDistance &&\n lastIntervalMs < this.doublePressLimitMs\n ) {\n this.triplePressed = true;\n }\n }\n }\n }\n });\n\n const pointerUp = (event: PointerEvent) => {\n if (this.rotating?.pointerId === event.pointerId) {\n this.rotating = null;\n canvas.releasePointerCapture(event.pointerId);\n if (this.dualPress && this.sliding) {\n canvas.releasePointerCapture(this.sliding.pointerId);\n this.sliding = null;\n }\n } else if (this.sliding?.pointerId === event.pointerId) {\n this.sliding = null;\n canvas.releasePointerCapture(event.pointerId);\n if (this.dualPress && this.rotating) {\n canvas.releasePointerCapture(this.rotating.pointerId);\n this.rotating = null;\n }\n }\n\n this.doublePressed = undefined;\n this.triplePressed = false;\n\n const position = this.getPointerPosition(event);\n const lastUp = this.lastUp;\n this.lastLastUp = this.lastUp;\n const timeStamp = performance.now();\n this.lastUp = { position, timeStamp };\n\n if (lastUp) {\n const distance = lastUp.position.distanceTo(position);\n if (distance < this.doublePressDistance) {\n const intervalMs = timeStamp - lastUp.timeStamp;\n if (intervalMs < this.doublePressLimitMs) {\n // We pressed and release twice within the time and distance limits\n // this.lastUp = null;\n this.doublePress({ position, intervalMs });\n }\n }\n }\n };\n\n document.addEventListener(\"pointerup\", pointerUp);\n document.addEventListener(\"pointercancel\", pointerUp);\n\n document.addEventListener(\"pointermove\", (event: PointerEvent) => {\n if (this.rotating?.pointerId === event.pointerId) {\n this.rotating.position = this.getPointerPosition(event);\n } else if (this.sliding?.pointerId === event.pointerId) {\n this.sliding.position = this.getPointerPosition(event);\n }\n });\n\n canvas.addEventListener(\"contextmenu\", (event: MouseEvent) => {\n // Prevent context menu appearing on right click\n event.preventDefault();\n });\n\n canvas.addEventListener(\"wheel\", (event: WheelEvent) => {\n this.scroll.add(\n new THREE.Vector3(event.deltaX, event.deltaY, event.deltaZ),\n );\n event.preventDefault();\n });\n }\n\n getPointerPosition(event: PointerEvent): THREE.Vector2 {\n const rect = this.canvas.getBoundingClientRect();\n return new THREE.Vector2(\n event.clientX - rect.left,\n event.clientY - rect.top,\n );\n }\n\n update(deltaTime: number, control: THREE.Object3D, camera?: THREE.Camera) {\n if (!this.enable) {\n return false;\n }\n\n const now = performance.now();\n let updated = false;\n\n if (this.dualPress && this.rotating && this.sliding) {\n // We pressed both pointers at the same time, either pinching or sliding\n const motion = [\n this.rotating.position.clone().sub(this.rotating.last),\n this.sliding.position.clone().sub(this.sliding.last),\n ];\n const coincidence = motion[0].dot(motion[1]);\n\n if (coincidence >= 0.2) {\n // Similar directions so slide the camera on the XY plane\n const totalMotion = motion[0].clone().add(motion[1]);\n const slide = new THREE.Vector3(totalMotion.x, -totalMotion.y, 0);\n slide.multiplyScalar(this.slideSpeed * (this.reverseSwipe ? 1 : -1));\n slide.applyQuaternion(control.quaternion);\n control.position.add(slide);\n this.moveVelocity = slide.clone().multiplyScalar(1 / deltaTime);\n\n if (slide.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n } else if (coincidence <= -0.2) {\n // Opposite directions so either pinch or roll motion\n const deltaDir = this.sliding.last.clone().sub(this.rotating.last);\n const deltaDist = deltaDir.length();\n deltaDir.multiplyScalar(1 / deltaDist).normalize();\n\n const orthoDir = new THREE.Vector2(-deltaDir.y, deltaDir.x);\n const motionDir = [motion[0].dot(deltaDir), motion[1].dot(deltaDir)];\n const motionOrtho = [motion[0].dot(orthoDir), motion[1].dot(orthoDir)];\n\n // Pinching motion\n const midpoint = this.rotating.last\n .clone()\n .add(this.sliding.last)\n .multiplyScalar(0.5);\n let midpointDir = new THREE.Vector3();\n const theCamera =\n camera ?? (control instanceof THREE.Camera ? control : undefined);\n if (theCamera) {\n const ndcMidpoint = new THREE.Vector2(\n (midpoint.x / this.canvas.clientWidth) * 2 - 1,\n -(midpoint.y / this.canvas.clientHeight) * 2 + 1,\n );\n const raycaster = new THREE.Raycaster();\n raycaster.setFromCamera(ndcMidpoint, theCamera);\n midpointDir = raycaster.ray.direction;\n }\n const pinchOut = motionDir[1] - motionDir[0];\n const slide = midpointDir.multiplyScalar(pinchOut * this.slideSpeed);\n control.position.add(slide);\n this.moveVelocity = slide.clone().multiplyScalar(1 / deltaTime);\n\n if (slide.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n\n // Rolling motion\n // Calculate angle of orthogonal motion change over distance deltaDist/2\n // motionOrtho[0] and 1 are already in float distance\n const angles = [\n Math.atan(motionOrtho[0] / (-0.5 * deltaDist)),\n Math.atan(motionOrtho[1] / (0.5 * deltaDist)),\n ];\n const rotate = 0.5 * (angles[0] + angles[1]) * this.pointerRollScale;\n const eulers = new THREE.Euler().setFromQuaternion(\n control.quaternion,\n \"YXZ\",\n );\n eulers.z = Math.max(\n -Math.PI,\n Math.min(Math.PI, eulers.z + 0.5 * rotate),\n );\n control.quaternion.setFromEuler(eulers);\n\n if (Math.abs(rotate) > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n }\n\n this.rotating.last.copy(this.rotating.position);\n this.sliding.last.copy(this.sliding.position);\n } else {\n // Didn't press both pointers at the same time, so we're in rotating\n // or FPS mode\n const rotate = new THREE.Vector3();\n if (this.rotating && !this.dualPress) {\n const delta = this.rotating.position.clone().sub(this.rotating.last);\n this.rotating.last.copy(this.rotating.position);\n rotate.set(delta.x, delta.y, 0);\n rotate.multiplyScalar(this.rotateSpeed * (this.reverseRotate ? -1 : 1));\n // Update rotation velocity from last delta\n this.rotateVelocity = rotate.clone().multiplyScalar(1 / deltaTime);\n\n if (rotate.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n } else {\n // Continue to rotate with inertia\n this.rotateVelocity.multiplyScalar(\n Math.exp(-deltaTime / this.rotateInertia),\n );\n rotate.addScaledVector(this.rotateVelocity, deltaTime);\n\n if (this.rotateVelocity.length() * 0.1 > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n }\n\n // Apply rotation in Euler angles space\n const eulers = new THREE.Euler().setFromQuaternion(\n control.quaternion,\n \"YXZ\",\n );\n eulers.y -= rotate.x;\n eulers.x = Math.max(\n -Math.PI / 2,\n Math.min(Math.PI / 2, eulers.x - rotate.y),\n );\n eulers.z *= Math.exp(-DEFAULT_ROLL_SPRING * deltaTime);\n control.quaternion.setFromEuler(eulers);\n\n if (this.sliding && !this.dualPress) {\n const delta = this.sliding.position.clone().sub(this.sliding.last);\n this.sliding.last.copy(this.sliding.position);\n\n // Slide on plane depending on center/right mouse button\n const slide =\n this.sliding.button !== 2\n ? new THREE.Vector3(delta.x, 0, delta.y)\n : new THREE.Vector3(delta.x, -delta.y, 0);\n slide.multiplyScalar(this.slideSpeed * (this.reverseSlide ? -1 : 1));\n\n slide.applyQuaternion(control.quaternion);\n control.position.add(slide);\n // Update movement velocity from last delta\n this.moveVelocity = slide.clone().multiplyScalar(1 / deltaTime);\n\n if (slide.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n } else {\n const target = new THREE.Vector3();\n if (this.sliding || this.rotating) {\n const point = this.lastDown?.last ?? new THREE.Vector2();\n const theCamera =\n camera ?? (control instanceof THREE.Camera ? control : undefined);\n if (theCamera) {\n const ndcPoint = this.pressMoveCenter\n ? new THREE.Vector2(0, 0)\n : new THREE.Vector2(\n (point.x / this.canvas.clientWidth) * 2 - 1,\n -(point.y / this.canvas.clientHeight) * 2 + 1,\n );\n const raycaster = new THREE.Raycaster();\n raycaster.setFromCamera(ndcPoint, theCamera);\n target.copy(raycaster.ray.direction).normalize();\n }\n\n if (!this.doublePressed) {\n let intensity = 0;\n if (this.lastDown) {\n intensity =\n (now -\n (this.lastDown?.timeStamp ?? now) -\n this.pressMoveDelayMs) /\n this.pressMoveAccelMs;\n\n if (\n this.lastDown.position.distanceTo(this.lastDown.initial) <\n this.doublePressDistance\n ) {\n if (this.pressHeld === undefined) {\n if (intensity > 0) {\n this.pressHeld = true;\n }\n }\n } else if (this.pressHeld === undefined) {\n this.pressHeld = false;\n }\n }\n\n if (this.pressHeld) {\n target.multiplyScalar(\n this.pressMoveSpeed * Math.max(0, Math.min(1, intensity)),\n );\n } else {\n target.set(0, 0, 0);\n }\n } else {\n this.pressHeld = false;\n let intensity =\n (performance.now() - this.doublePressed) / this.pressMoveAccelMs;\n intensity = Math.max(0, Math.min(1, intensity));\n target.multiplyScalar(\n (this.triplePressed\n ? this.triplePressMoveSpeed\n : this.doublePressMoveSpeed) * intensity,\n );\n }\n } else {\n this.pressHeld = undefined;\n }\n // Continue to move with inertia\n const s = Math.exp(-deltaTime / this.moveInertia);\n this.moveVelocity.lerpVectors(target, this.moveVelocity, s);\n control.position.addScaledVector(this.moveVelocity, deltaTime);\n\n if (this.moveVelocity.length() * 0.1 > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n }\n }\n\n const scroll = this.scroll.multiplyScalar(this.scrollSpeed);\n scroll.set(scroll.x, scroll.z, scroll.y);\n if (this.reverseScroll) {\n scroll.multiplyScalar(-1);\n }\n scroll.applyQuaternion(control.quaternion);\n control.position.add(scroll);\n\n if (scroll.length() > MOVEMENT_THRESHOLD) {\n updated = true;\n }\n this.scroll.set(0, 0, 0);\n\n return updated;\n }\n}\n","import * as THREE from \"three\";\nimport { SparkRenderer, type SparkRendererOptions } from \"./SparkRenderer\";\n\n/**\n * Fragment shader for portal disk clipping.\n * - diskRadius > 0: render \"behind portal\" only through the disk\n * - diskRadius < 0: render \"in front of portal\" everywhere except behind disk\n */\nexport const DISK_PORTAL_FRAGMENT_SHADER = `\nprecision highp float;\nprecision highp int;\n\n#include \n\nuniform float near;\nuniform float far;\nuniform mat4 projectionMatrix;\nuniform bool encodeLinear;\nuniform float time;\nuniform bool debugFlag;\nuniform float maxStdDev;\nuniform float minAlpha;\nuniform bool disableFalloff;\nuniform float falloff;\n\nuniform vec3 diskCenter;\nuniform vec3 diskNormal;\nuniform float diskRadius;\nuniform bool diskTwoSided;\n\nout vec4 fragColor;\n\nin vec4 vRgba;\nin vec2 vSplatUv;\nin vec3 vNdc;\nflat in uint vSplatIndex;\nflat in float adjustedStdDev;\n\nvoid main() {\n if (diskRadius != 0.0) {\n // Portal rendering:\n // - diskRadius > 0: render \"behind portal\" only through the disk (discard outside or in-front-of plane).\n // - diskRadius < 0: render \"in front of portal\" everywhere, but discard fragments behind the plane when looking through the disk.\n\n // View ray direction from NDC (view space is -Z forward).\n vec3 viewDir = normalize(vec3(\n vNdc.x / projectionMatrix[0][0],\n vNdc.y / projectionMatrix[1][1],\n -1.0\n ));\n\n // Reconstruct view-space *axial* depth (-viewPos.z) from NDC Z.\n float ndcZ = vNdc.z;\n float depth = (2.0 * near * far) / (far + near - ndcZ * (far - near));\n // Convert axial depth to ray-parameter t (viewPos = t * viewDir).\n float rayT = depth / max(1e-6, -viewDir.z);\n\n float radius = abs(diskRadius);\n float radius2 = radius * radius;\n bool renderBehind = (diskRadius > 0.0);\n\n vec3 diskN = normalize(diskNormal);\n\n // Ray-plane intersection for plane (diskCenter, diskN), with ray origin at (0,0,0).\n float denom = dot(viewDir, diskN);\n bool allowPortal = diskTwoSided ? (abs(denom) > 1e-6) : (denom < -1e-6);\n\n bool hitsDisk = false;\n float t = 0.0;\n if (allowPortal) {\n t = dot(diskCenter, diskN) / denom;\n if (t > 0.0) {\n vec3 q = t * viewDir - diskCenter;\n hitsDisk = (dot(q, q) <= radius2);\n }\n }\n\n // Small bias to avoid flicker at the plane.\n float eps = 1e-4 * max(1.0, abs(t));\n\n if (renderBehind) {\n // Behind-pass: only render through the portal disk, and only behind the plane along the ray.\n if (!hitsDisk) discard;\n if (rayT <= t + eps) discard;\n } else {\n // Front-pass: render everything, except when the ray goes through the disk, discard what's behind the plane.\n if (hitsDisk && (rayT >= t - eps)) discard;\n }\n }\n\n vec4 rgba = vRgba;\n\n float z2 = dot(vSplatUv, vSplatUv);\n if (z2 > (adjustedStdDev * adjustedStdDev)) {\n discard;\n }\n\n float a = rgba.a;\n float shifted = sqrt(z2) - max(0.0, a - 1.0);\n float exponent = -0.5 * max(1.0, a) * sqr(max(0.0, shifted));\n rgba.a = min(1.0, a) * exp(exponent);\n\n if (rgba.a < minAlpha) {\n discard;\n }\n if (encodeLinear) {\n rgba.rgb = srgbToLinear(rgba.rgb);\n }\n\n #ifdef PREMULTIPLIED_ALPHA\n fragColor = vec4(rgba.rgb * rgba.a, rgba.a);\n #else\n fragColor = rgba;\n #endif\n}\n`;\n\n/**\n * Callback function called when a portal is crossed.\n * @param pair The portal pair that was crossed\n * @param fromEntry True if crossing from entry to exit, false if crossing from exit to entry\n */\nexport type PortalCrossCallback = (\n pair: PortalPair,\n fromEntry: boolean,\n) => void | Promise;\n\n/**\n * A pair of connected portals. Walking through one teleports you to the other.\n */\nexport interface PortalPair {\n /** First portal endpoint */\n entryPortal: THREE.Object3D;\n /** Second portal endpoint */\n exitPortal: THREE.Object3D;\n /** Radius of this portal pair's disks */\n radius: number;\n /** Optional callback function called when this portal is crossed */\n onCross?: PortalCrossCallback;\n /** Scratch matrix for tracking portal position before frame updates */\n _entryBefore: THREE.Matrix4;\n /** Scratch matrix for tracking portal position before frame updates */\n _exitBefore: THREE.Matrix4;\n}\n\nexport interface SparkPortalsOptions {\n /** The THREE.WebGLRenderer */\n renderer: THREE.WebGLRenderer;\n /** The scene to render */\n scene: THREE.Scene;\n /** The main camera */\n camera: THREE.PerspectiveCamera;\n /** The local frame (parent of camera, used for teleportation) */\n localFrame: THREE.Group;\n /** Options passed to both SparkRenderer instances */\n sparkOptions?: Partial;\n /** Default portal disk radius for new pairs (default: 1.0) */\n defaultPortalRadius?: number;\n /** Epsilon for portal crossing detection (default: 1e-6) */\n portalCrossEps?: number;\n}\n\n/**\n * SparkPortals\n *\n * Portal implementation to connect two non-contiguous areas of a scene.\n * Supports multiple portal pairs - each pair connects two locations.\n *\n * The rough approach is to use two SparkRenderers: one for the \"front\"/portal\n * view (portalRenderer), and one for the \"behind portal\" pass (behindRenderer).\n *\n * Example:\n * ```typescript\n * const portals = new SparkPortals({ renderer, scene, camera, localFrame });\n *\n * // Add a portal pair\n * const pair = portals.addPortalPair();\n * pair.entryPortal.position.set(0, 0, -1);\n * pair.exitPortal.position.set(-3, 0, -4.5);\n *\n * // Add another pair\n * const pair2 = portals.addPortalPair({ radius: 0.5 });\n * pair2.entryPortal.position.set(5, 0, 0);\n * pair2.exitPortal.position.set(10, 0, 0);\n *\n * // In animation loop:\n * portals.animateLoopHook();\n * ```\n */\nexport class SparkPortals {\n /** The THREE.WebGLRenderer */\n renderer: THREE.WebGLRenderer;\n /** The scene to render */\n scene: THREE.Scene;\n /** The main camera */\n camera: THREE.PerspectiveCamera;\n /** The local frame (parent of camera, used for teleportation) */\n localFrame: THREE.Group;\n\n /** Primary renderer with portal shader (added to scene) */\n portalRenderer: SparkRenderer;\n /** Secondary renderer for behind-portal pass (not in scene) */\n behindRenderer: SparkRenderer;\n /** Secondary camera for behind-portal view */\n camera2: THREE.PerspectiveCamera;\n\n /** All portal pairs */\n portalPairs: PortalPair[] = [];\n /** Default radius for new portal pairs */\n defaultPortalRadius: number;\n /** Epsilon for portal crossing detection */\n portalCrossEps: number;\n\n /** Used to detect crossing between frames */\n private lastCameraWorld = new THREE.Vector3().setScalar(Number.NaN);\n /** Whether portal LoD prefetch is currently enabled */\n private prefetchActive = false;\n\n // Preallocated objects for scratch work to avoid per frame allocations\n private scratch = {\n quat: new THREE.Quaternion(),\n scale: new THREE.Vector3(),\n center0: new THREE.Vector3(),\n center1: new THREE.Vector3(),\n normal0: new THREE.Vector3(),\n normal1: new THREE.Vector3(),\n centerT: new THREE.Vector3(),\n normalT: new THREE.Vector3(),\n prevCameraWorld: new THREE.Vector3(),\n currCameraWorld: new THREE.Vector3(),\n hit: new THREE.Vector3(),\n offset: new THREE.Vector3(),\n camWorld: new THREE.Matrix4(),\n newCamWorld: new THREE.Matrix4(),\n invCamLocal: new THREE.Matrix4(),\n newLocalFrame: new THREE.Matrix4(),\n cameraWorldPos: new THREE.Vector3(),\n viewDir: new THREE.Vector3(),\n portalCenter: new THREE.Vector3(),\n toPortal: new THREE.Vector3(),\n };\n\n constructor(options: SparkPortalsOptions) {\n this.renderer = options.renderer;\n this.scene = options.scene;\n this.camera = options.camera;\n this.localFrame = options.localFrame;\n this.defaultPortalRadius = options.defaultPortalRadius ?? 1.0;\n this.portalCrossEps = options.portalCrossEps ?? 1e-6;\n\n const sparkOpts = options.sparkOptions ?? {};\n\n // Primary renderer with portal shader\n this.portalRenderer = new SparkRenderer({\n renderer: this.renderer,\n extraUniforms: {\n diskCenter: { value: new THREE.Vector3() },\n diskNormal: { value: new THREE.Vector3() },\n diskRadius: { value: 0 },\n diskTwoSided: { value: false },\n },\n fragmentShader: DISK_PORTAL_FRAGMENT_SHADER,\n ...sparkOpts,\n });\n this.scene.add(this.portalRenderer);\n\n // Secondary renderer for behind-portal pass\n // enableDriveLod: false prevents this renderer from driving LOD updates,\n // avoiding race conditions with portalRenderer's pager operations\n this.behindRenderer = new SparkRenderer({\n renderer: this.renderer,\n enableDriveLod: false,\n ...sparkOpts,\n });\n\n // Secondary camera for behind-portal view\n this.camera2 = this.camera.clone();\n this.scene.add(this.camera2);\n }\n\n /**\n * Add a new portal pair to the system.\n * @param options Optional configuration for this pair\n * @returns The created PortalPair - position the entryPortal and exitPortal as needed\n */\n addPortalPair(options?: {\n radius?: number;\n onCross?: PortalCrossCallback;\n }): PortalPair {\n const pair: PortalPair = {\n entryPortal: new THREE.Object3D(),\n exitPortal: new THREE.Object3D(),\n radius: options?.radius ?? this.defaultPortalRadius,\n onCross: options?.onCross,\n _entryBefore: new THREE.Matrix4(),\n _exitBefore: new THREE.Matrix4(),\n };\n\n this.scene.add(pair.entryPortal);\n this.scene.add(pair.exitPortal);\n this.portalPairs.push(pair);\n\n return pair;\n }\n\n /**\n * Remove a portal pair from the system.\n */\n removePortalPair(pair: PortalPair): void {\n const index = this.portalPairs.indexOf(pair);\n if (index !== -1) {\n this.scene.remove(pair.entryPortal);\n this.scene.remove(pair.exitPortal);\n this.portalPairs.splice(index, 1);\n }\n }\n\n /**\n * Get transform from entry portal to exit portal.\n */\n getEntryToExitTransform(pair: PortalPair): THREE.Matrix4 {\n return pair.entryPortal.matrixWorld\n .clone()\n .invert()\n .premultiply(pair.exitPortal.matrixWorld);\n }\n\n /**\n * Get transform from exit portal to entry portal.\n */\n getExitToEntryTransform(pair: PortalPair): THREE.Matrix4 {\n return pair.exitPortal.matrixWorld\n .clone()\n .invert()\n .premultiply(pair.entryPortal.matrixWorld);\n }\n\n /** Set portal disk uniforms for shader clipping */\n private setPortalDiskUniforms(\n camera: THREE.Camera,\n portal: THREE.Object3D,\n radius: number,\n twoSided: boolean,\n ): void {\n camera.updateMatrixWorld(true);\n portal.updateMatrixWorld(true);\n\n const inverseCamera = camera.matrixWorld.clone().invert();\n const portalInCamera = portal.matrixWorld\n .clone()\n .premultiply(inverseCamera);\n const portalQuat = new THREE.Quaternion();\n\n // Extend the base uniform type with our portal-specific uniforms so TS is happy.\n const uniforms = this.portalRenderer\n .uniforms as typeof this.portalRenderer.uniforms & {\n diskCenter: { value: THREE.Vector3 };\n diskNormal: { value: THREE.Vector3 };\n diskRadius: { value: number };\n diskTwoSided: { value: boolean };\n };\n\n portalInCamera.decompose(\n uniforms.diskCenter.value,\n portalQuat,\n new THREE.Vector3(),\n );\n\n uniforms.diskNormal.value.set(0, 0, 1).applyQuaternion(portalQuat);\n uniforms.diskRadius.value = radius;\n uniforms.diskTwoSided.value = twoSided;\n }\n\n /** Extract portal plane from matrix */\n private getPortalPlane(\n matrix: THREE.Matrix4,\n outCenter: THREE.Vector3,\n outNormal: THREE.Vector3,\n ): void {\n matrix.decompose(outCenter, this.scratch.quat, this.scratch.scale);\n outNormal.set(0, 0, 1).applyQuaternion(this.scratch.quat).normalize();\n }\n\n /**\n * Detect if the user path crosses over a portal. If so, return the parametric position (0,1)\n * along the segment where the crossing occurs. If not, return null.\n */\n private getSegmentDiskCrossing(\n prevCam: THREE.Vector3,\n currCam: THREE.Vector3,\n beforeMatrix: THREE.Matrix4,\n afterMatrix: THREE.Matrix4,\n radius: number,\n ): number | null {\n this.getPortalPlane(\n beforeMatrix,\n this.scratch.center0,\n this.scratch.normal0,\n );\n this.getPortalPlane(\n afterMatrix,\n this.scratch.center1,\n this.scratch.normal1,\n );\n\n const startPlaneDist = this.scratch.offset\n .copy(prevCam)\n .sub(this.scratch.center0)\n .dot(this.scratch.normal0);\n const endPlaneDist = this.scratch.offset\n .copy(currCam)\n .sub(this.scratch.center1)\n .dot(this.scratch.normal1);\n\n if (\n (startPlaneDist > this.portalCrossEps &&\n endPlaneDist > this.portalCrossEps) ||\n (startPlaneDist < -this.portalCrossEps &&\n endPlaneDist < -this.portalCrossEps)\n ) {\n return null;\n }\n\n const denom = startPlaneDist - endPlaneDist;\n if (Math.abs(denom) < this.portalCrossEps) return null;\n\n const t = startPlaneDist / denom;\n if (t < 0 || t > 1) return null;\n\n this.scratch.hit.lerpVectors(prevCam, currCam, t);\n this.scratch.centerT\n .copy(this.scratch.center0)\n .lerp(this.scratch.center1, t);\n this.scratch.normalT\n .copy(this.scratch.normal0)\n .lerp(this.scratch.normal1, t)\n .normalize();\n\n this.scratch.offset.copy(this.scratch.hit).sub(this.scratch.centerT);\n this.scratch.offset.addScaledVector(\n this.scratch.normalT,\n -this.scratch.offset.dot(this.scratch.normalT),\n );\n\n if (this.scratch.offset.lengthSq() > radius * radius) return null;\n return t;\n }\n\n /** Teleport camera through portal */\n private teleport(transform: THREE.Matrix4): void {\n this.scratch.camWorld.copy(this.camera.matrixWorld);\n this.scratch.newCamWorld.copy(this.scratch.camWorld).premultiply(transform);\n this.scratch.invCamLocal.copy(this.camera.matrix).invert();\n this.scratch.newLocalFrame\n .copy(this.scratch.newCamWorld)\n .multiply(this.scratch.invCamLocal);\n\n this.scratch.newLocalFrame.decompose(\n this.localFrame.position,\n this.localFrame.quaternion,\n this.localFrame.scale,\n );\n this.localFrame.updateMatrixWorld(true);\n this.camera.updateMatrixWorld(true);\n }\n\n /**\n * Check for portal crossing and teleport if needed.\n * Checks all portal pairs and takes the earliest crossing.\n * Call this after updating controls but before render().\n */\n updateTeleportation(): void {\n if (this.portalPairs.length === 0) return;\n\n this.camera.getWorldPosition(this.scratch.currCameraWorld);\n if (!Number.isFinite(this.lastCameraWorld.x)) {\n this.lastCameraWorld.copy(this.scratch.currCameraWorld);\n return;\n }\n\n this.scratch.prevCameraWorld.copy(this.lastCameraWorld);\n\n // Store portal matrices before any updates and find earliest crossing\n let earliestT: number | null = null;\n let crossedPair: PortalPair | null = null;\n let crossedEntry = true; // true = crossed entry portal, false = crossed exit portal\n\n for (const pair of this.portalPairs) {\n pair.entryPortal.updateMatrixWorld(true);\n pair.exitPortal.updateMatrixWorld(true);\n pair._entryBefore.copy(pair.entryPortal.matrixWorld);\n pair._exitBefore.copy(pair.exitPortal.matrixWorld);\n\n // Check entry portal crossing\n const entryT = this.getSegmentDiskCrossing(\n this.scratch.prevCameraWorld,\n this.scratch.currCameraWorld,\n pair._entryBefore,\n pair.entryPortal.matrixWorld,\n pair.radius,\n );\n\n if (entryT !== null && (earliestT === null || entryT < earliestT)) {\n earliestT = entryT;\n crossedPair = pair;\n crossedEntry = true;\n }\n\n // Check exit portal crossing\n const exitT = this.getSegmentDiskCrossing(\n this.scratch.prevCameraWorld,\n this.scratch.currCameraWorld,\n pair._exitBefore,\n pair.exitPortal.matrixWorld,\n pair.radius,\n );\n\n if (exitT !== null && (earliestT === null || exitT < earliestT)) {\n earliestT = exitT;\n crossedPair = pair;\n crossedEntry = false;\n }\n }\n\n // No portal crossed\n if (crossedPair === null) {\n this.lastCameraWorld.copy(this.scratch.currCameraWorld);\n return;\n }\n\n // Teleport through the crossed portal\n if (crossedEntry) {\n this.teleport(this.getEntryToExitTransform(crossedPair));\n } else {\n this.teleport(this.getExitToEntryTransform(crossedPair));\n }\n\n this.camera.getWorldPosition(this.lastCameraWorld);\n\n // Call the portal's onCross callback if provided\n if (crossedPair.onCross) {\n // Call async callback but don't await (updateTeleportation is synchronous)\n // Errors will be logged but won't block teleportation\n Promise.resolve(crossedPair.onCross(crossedPair, crossedEntry)).catch(\n (error) => {\n console.error(\"Error in portal onCross callback:\", error);\n },\n );\n }\n }\n\n /**\n * Find the most relevant portal for rendering (closest to camera view direction).\n * Returns the portal pair and which portal (entry or exit) is primary.\n */\n private findPrimaryPortal(): {\n pair: PortalPair;\n primaryIsEntry: boolean;\n primaryPortal: THREE.Object3D;\n otherPortal: THREE.Object3D;\n } | null {\n if (this.portalPairs.length === 0) return null;\n\n this.camera.getWorldPosition(this.scratch.cameraWorldPos);\n this.camera.getWorldDirection(this.scratch.viewDir);\n\n let bestScore = Number.NEGATIVE_INFINITY;\n let bestPair: PortalPair | null = null;\n let bestIsEntry = true;\n\n for (const pair of this.portalPairs) {\n // Score entry portal\n pair.entryPortal.getWorldPosition(this.scratch.portalCenter);\n this.scratch.toPortal\n .copy(this.scratch.portalCenter)\n .sub(this.scratch.cameraWorldPos);\n const entryDist = this.scratch.toPortal.length();\n const entryScore =\n this.scratch.toPortal.normalize().dot(this.scratch.viewDir) / entryDist;\n\n if (entryScore > bestScore) {\n bestScore = entryScore;\n bestPair = pair;\n bestIsEntry = true;\n }\n\n // Score exit portal\n pair.exitPortal.getWorldPosition(this.scratch.portalCenter);\n this.scratch.toPortal\n .copy(this.scratch.portalCenter)\n .sub(this.scratch.cameraWorldPos);\n const exitDist = this.scratch.toPortal.length();\n const exitScore =\n this.scratch.toPortal.normalize().dot(this.scratch.viewDir) / exitDist;\n\n if (exitScore > bestScore) {\n bestScore = exitScore;\n bestPair = pair;\n bestIsEntry = false;\n }\n }\n\n if (!bestPair) return null;\n\n return {\n pair: bestPair,\n primaryIsEntry: bestIsEntry,\n primaryPortal: bestIsEntry ? bestPair.entryPortal : bestPair.exitPortal,\n otherPortal: bestIsEntry ? bestPair.exitPortal : bestPair.entryPortal,\n };\n }\n\n /**\n * Render the scene with portals using two-pass rendering.\n * Renders the most relevant portal pair (closest to camera view).\n * Call this instead of renderer.render() in your animation loop.\n */\n render(): void {\n const primary = this.findPrimaryPortal();\n\n // No portals - just render normally\n if (!primary) {\n if (this.prefetchActive) {\n // this.portalRenderer.setPrefetchCameras();\n this.prefetchActive = false;\n }\n this.renderer.autoClear = true;\n this.renderer.render(this.scene, this.camera);\n return;\n }\n\n if (!this.prefetchActive) {\n // this.portalRenderer.setPrefetchCameras([this.camera2]);\n this.prefetchActive = true;\n }\n\n const { pair, primaryIsEntry, primaryPortal, otherPortal } = primary;\n\n // Compute camera2 position (transformed through portal)\n const camera2Matrix = primaryIsEntry\n ? this.camera.matrixWorld\n .clone()\n .premultiply(this.getEntryToExitTransform(pair))\n : this.camera.matrixWorld\n .clone()\n .premultiply(this.getExitToEntryTransform(pair));\n camera2Matrix.decompose(\n this.camera2.position,\n this.camera2.quaternion,\n this.camera2.scale,\n );\n this.camera2.updateMatrixWorld(true);\n\n // Share lodInstances from portalRenderer to behindRenderer BEFORE Pass 1.\n // This uses previous frame's lodInstances (computed with main camera),\n // ensuring both passes use consistent splat selections to avoid flickering.\n this.shareLodInstances();\n\n // Pass 1: Behind portal view (uses shared 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\ No newline at end of file diff --git a/rust/spark-worker-rs/src/sort.rs b/rust/spark-worker-rs/src/sort.rs index 52130c99..19e26338 100644 --- a/rust/spark-worker-rs/src/sort.rs +++ b/rust/spark-worker-rs/src/sort.rs @@ -23,7 +23,11 @@ impl SortBuffers { } pub fn sort_internal(buffers: &mut SortBuffers, num_splats: usize) -> Result { - let SortBuffers { readback, ordering, buckets } = buffers; + let SortBuffers { + readback, + ordering, + buckets, + } = buffers; let readback = &readback[..num_splats]; // Set the bucket counts to zero @@ -57,15 +61,17 @@ pub fn sort_internal(buffers: &mut SortBuffers, num_splats: usize) -> Result, /// output indices pub ordering: Vec, - /// bucket counts / offsets (length == RADIX_BASE) - pub buckets16lo: Vec, - /// bucket counts / offsets (length == RADIX_BASE) - pub buckets16hi: Vec, - /// scratch space for indices - pub scratch: Vec, + pub scratch: Vec, // (key, index) + pub buckets: Vec, // 2 * 65536 } impl Sort32Buffers { @@ -93,84 +95,166 @@ impl Sort32Buffers { if self.scratch.len() < max_splats { self.scratch.resize(max_splats, 0); } - if self.buckets16lo.len() < RADIX_BASE { - self.buckets16lo.resize(RADIX_BASE, 0); - } - if self.buckets16hi.len() < RADIX_BASE { - self.buckets16hi.resize(RADIX_BASE, 0); + if self.buckets.len() < RADIX_BASE * 2 { + self.buckets.resize(RADIX_BASE * 2, 0); } } } -/// Two‑pass radix sort (base 2¹⁶) of 32‑bit float bit‑patterns, -/// descending order (largest keys first). Mirrors the JS `sort32Splats`. +#[inline(always)] +fn prefix_sum_exclusive(buckets: &mut [u32]) -> u32 { + let mut sum = 0u32; + for b in buckets.iter_mut() { + let tmp = *b; + *b = sum; + sum = sum.wrapping_add(tmp); + } + sum +} + pub fn sort32_internal( buffers: &mut Sort32Buffers, max_splats: usize, num_splats: usize, ) -> Result { - // make sure our buffers can hold `max_splats` buffers.ensure_size(max_splats); - let Sort32Buffers { readback, ordering, buckets16lo, buckets16hi, scratch } = buffers; + let Sort32Buffers { + readback, + ordering, + scratch, + buckets, + } = buffers; let keys = &readback[..num_splats]; - // tally low and high buckets - buckets16lo.fill(0); - buckets16hi.fill(0); - for &key in keys.iter() { - if key < DEPTH_INFINITY_F32 { - let inv = !key; - buckets16lo[(inv & 0xFFFF) as usize] += 1; - buckets16hi[(inv >> 16) as usize] += 1; + // Split buckets + let (b0, b1) = buckets.split_at_mut(RADIX_BASE); + let b1 = &mut b1[..RADIX_BASE]; + + b0.fill(0); + b1.fill(0); + + // pass 1: Histogram (branchless) + let mut chunks = keys.chunks_exact(8); + + for chunk in chunks.by_ref() { + macro_rules! tick { + ($k:expr) => {{ + let valid = ($k < DEPTH_INFINITY_F32) as u32; + let inv = !$k; + + let r0 = inv & RADIX_MASK; + let r1 = inv >> RADIX_BITS; + + b0[r0 as usize] += valid; + unsafe { *b1.get_unchecked_mut(r1 as usize) += valid }; + }}; } + + tick!(chunk[0]); + tick!(chunk[1]); + tick!(chunk[2]); + tick!(chunk[3]); + tick!(chunk[4]); + tick!(chunk[5]); + tick!(chunk[6]); + tick!(chunk[7]); } - // ——— Pass #1: bucket by inv(low 16 bits) ——— - // exclusive prefix‑sum → starting offsets - let mut total: u32 = 0; - for slot in buckets16lo.iter_mut() { - let cnt = *slot; - *slot = total; - total = total.wrapping_add(cnt); + for &k in chunks.remainder() { + let valid = (k < DEPTH_INFINITY_F32) as u32; + let inv = !k; + b0[(inv & RADIX_MASK) as usize] += valid; + unsafe { *b1.get_unchecked_mut((inv >> RADIX_BITS) as usize) += valid }; } - let active_splats = total; - - // scatter into scratch by low bits of inv - for (i, &key) in keys.iter().enumerate() { - if key < DEPTH_INFINITY_F32 { - let inv = !key; - let lo = (inv & 0xFFFF) as usize; - scratch[buckets16lo[lo] as usize] = i as u32; - buckets16lo[lo] += 1; + + let active = prefix_sum_exclusive(b0) as usize; + prefix_sum_exclusive(b1); + + // pass 1: scatter into scratch + let mut chunks = keys.chunks_exact(8); + let mut i = 0; + + for chunk in chunks.by_ref() { + macro_rules! place { + ($k:expr, $idx:expr) => {{ + let valid = ($k < DEPTH_INFINITY_F32) as u32; + let inv = !$k; + + let r0 = (inv & RADIX_MASK) as usize; + let pos = unsafe { *b0.get_unchecked(r0) } as usize; + + // Always write (branchless), but only advance if valid + unsafe { *scratch.get_unchecked_mut(pos) = ((inv as u64) << 32) | ($idx as u64) }; + unsafe { *b0.get_unchecked_mut(r0) += valid }; + }}; } + + place!(chunk[0], i); + place!(chunk[1], i + 1); + place!(chunk[2], i + 2); + place!(chunk[3], i + 3); + place!(chunk[4], i + 4); + place!(chunk[5], i + 5); + place!(chunk[6], i + 6); + place!(chunk[7], i + 7); + + i += 8; } - // ——— Pass #2: bucket by inv(high 16 bits) ——— - // exclusive prefix‑sum again - let mut sum: u32 = 0; - for slot in buckets16hi.iter_mut() { - let cnt = *slot; - *slot = sum; - sum = sum.wrapping_add(cnt); + for &k in chunks.remainder() { + let valid = (k < DEPTH_INFINITY_F32) as u32; + let inv = !k; + + let r0 = (inv & RADIX_MASK) as usize; + let pos = unsafe { *b0.get_unchecked(r0) } as usize; + + unsafe { *scratch.get_unchecked_mut(pos) = ((inv as u64) << 32) | (i as u64) }; + unsafe { *b0.get_unchecked_mut(r0) += valid }; + + i += 1; } - // scatter into final ordering by high bits of inv - for &idx in scratch.iter().take(active_splats as usize) { - let key = keys[idx as usize]; - let inv = !key; - let hi = (inv >> 16) as usize; - ordering[buckets16hi[hi] as usize] = idx; - buckets16hi[hi] += 1; + + // pass 2: scatter into final ordering + let mut chunks = scratch[..active].chunks_exact(8); + + for chunk in chunks.by_ref() { + macro_rules! place2 { + ($kv:expr) => {{ + let r1 = (($kv >> 48) & RADIX_MASK as u64) as usize; + let pos = unsafe { *b1.get_unchecked(r1) } as usize; + + unsafe { *ordering.get_unchecked_mut(pos) = $kv as u32 }; + unsafe { *b1.get_unchecked_mut(r1) += 1 }; + }}; + } + + place2!(chunk[0]); + place2!(chunk[1]); + place2!(chunk[2]); + place2!(chunk[3]); + place2!(chunk[4]); + place2!(chunk[5]); + place2!(chunk[6]); + place2!(chunk[7]); + } + + for &kv in chunks.remainder() { + let r1 = ((kv >> 48) & RADIX_MASK as u64) as usize; + let pos = unsafe { *b1.get_unchecked(r1) } as usize; + + unsafe { *ordering.get_unchecked_mut(pos) = kv as u32 }; + unsafe { *b1.get_unchecked_mut(r1) += 1 }; } // sanity‑check: last bucket should have consumed all entries - if buckets16hi[RADIX_BASE - 1] != active_splats { + if b1[RADIX_BASE - 1] != active as u32 { return Err(format!( "Expected {} active splats but got {}", - active_splats, - buckets16hi[RADIX_BASE - 1] + active, + b1[RADIX_BASE - 1] )); } - Ok(active_splats) -} \ No newline at end of file + Ok(active as u32) +}